From bce4d18c9d96ffb16f2c9bb4f0549543c5c7e240 Mon Sep 17 00:00:00 2001 From: Michal Simek Date: Thu, 8 Sep 2016 15:06:45 +0200 Subject: dm: Add support for scsi/sata based devices All sata based drivers are bind and corresponding block device is created. Based on this find_scsi_device() is able to get back block device based on scsi_curr_dev pointer. intr_scsi() is commented now but it can be replaced by calling find_scsi_device() and scsi_scan(). scsi_dev_desc[] is commented out but common/scsi.c heavily depends on it. That's why CONFIG_SYS_SCSI_MAX_DEVICE is hardcoded to 1 and symbol is reassigned to a block description allocated by uclass. There is only one block description by device now but it doesn't need to be correct when more devices are present. scsi_bind() ensures corresponding block device creation. uclass post_probe (scsi_post_probe()) is doing low level init. SCSI/SATA DM based drivers requires to have 64bit base address as the first entry in platform data structure to setup mmio_base. Signed-off-by: Michal Simek Reviewed-by: Simon Glass Series-changes: 2 - Use CONFIG_DM_SCSI instead of mix of DM_SCSI and DM_SATA Ceva sata has never used sata commands that's why keep it in SCSI part only. - Separate scsi_scan() for DM_SCSI and do not change cmd/scsi.c - Extend platdata Series-changes: 3 - Fix scsi_scan return path - Fix header location uclass-internal.h - Add scsi_max_devs under !DM_SCSI - Add new header device-internal because of device_probe() - Redesign block device creation algorithm - Use device_unbind in error path - Create block device with id and lun numbers (lun was there in v2) - Cleanup dev_num initialization in block device description with fixing parameters in blk_create_devicef - Create new Kconfig menu for SATA/SCSI drivers - Extend description for DM_SCSI - Fix Kconfig dependencies - Fix kernel doc format in scsi_platdata - Fix ahci_init_one - vendor variable Series-changes: 4 - Fix Kconfig entry - Remove SPL ifdef around SCSI uclass - Clean ahci_print_info() ifdef logic diff --git a/common/board_r.c b/common/board_r.c index 5496f45..a373352 100644 --- a/common/board_r.c +++ b/common/board_r.c @@ -620,7 +620,7 @@ static int initr_ambapp_print(void) } #endif -#if defined(CONFIG_SCSI) +#if defined(CONFIG_SCSI) && !defined(CONFIG_DM_SCSI) static int initr_scsi(void) { puts("SCSI: "); @@ -923,7 +923,7 @@ init_fnc_t init_sequence_r[] = { initr_ambapp_print, #endif #endif -#ifdef CONFIG_SCSI +#if defined(CONFIG_SCSI) && !defined(CONFIG_DM_SCSI) INIT_FUNC_WATCHDOG_RESET initr_scsi, #endif diff --git a/common/scsi.c b/common/scsi.c index 04add62..e7efa5a 100644 --- a/common/scsi.c +++ b/common/scsi.c @@ -10,7 +10,10 @@ #include #include #include +#include +#include +#if !defined(CONFIG_DM_SCSI) #ifdef CONFIG_SCSI_DEV_LIST #define SCSI_DEV_LIST CONFIG_SCSI_DEV_LIST #else @@ -31,6 +34,7 @@ #endif #define SCSI_DEV_LIST {SCSI_VEND_ID, SCSI_DEV_ID} #endif +#endif #if defined(CONFIG_PCI) && !defined(CONFIG_SCSI_AHCI_PLAT) const struct pci_device_id scsi_device_list[] = { SCSI_DEV_LIST }; @@ -39,11 +43,13 @@ static ccb tempccb; /* temporary scsi command buffer */ static unsigned char tempbuff[512]; /* temporary data buffer */ +#if !defined(CONFIG_DM_SCSI) static int scsi_max_devs; /* number of highest available scsi device */ static int scsi_curr_dev; /* current device */ static struct blk_desc scsi_dev_desc[CONFIG_SYS_SCSI_MAX_DEVICE]; +#endif /* almost the maximum amount of the scsi_ext command.. */ #define SCSI_MAX_READ_BLK 0xFFFF @@ -444,6 +450,7 @@ static void scsi_init_dev_desc_priv(struct blk_desc *dev_desc) #endif } +#if !defined(CONFIG_DM_SCSI) /** * scsi_init_dev_desc - initialize all SCSI specific blk_desc properties * @@ -460,6 +467,7 @@ static void scsi_init_dev_desc(struct blk_desc *dev_desc, int devnum) scsi_init_dev_desc_priv(dev_desc); } +#endif /** * scsi_detect_dev - Detect scsi device @@ -540,6 +548,73 @@ removable: * (re)-scan the scsi bus and reports scsi device info * to the user if mode = 1 */ +#if defined(CONFIG_DM_SCSI) +int scsi_scan(int mode) +{ + unsigned char i, lun; + struct uclass *uc; + struct udevice *dev; /* SCSI controller */ + int ret; + + if (mode == 1) + printf("scanning bus for devices...\n"); + + ret = uclass_get(UCLASS_SCSI, &uc); + if (ret) + return ret; + + uclass_foreach_dev(dev, uc) { + struct scsi_platdata *plat; /* scsi controller platdata */ + + /* probe SCSI controller driver */ + ret = device_probe(dev); + if (ret) + return ret; + + /* Get controller platdata */ + plat = dev_get_platdata(dev); + + for (i = 0; i < plat->max_id; i++) { + for (lun = 0; lun < plat->max_lun; lun++) { + struct udevice *bdev; /* block device */ + /* block device description */ + struct blk_desc *bdesc; + char str[10]; + + /* + * Create only one block device and do detection + * to make sure that there won't be a lot of + * block devices created + */ + snprintf(str, sizeof(str), "id%dlun%d", i, lun); + ret = blk_create_devicef(dev, "scsi_blk", + str, IF_TYPE_SCSI, + -1, 0, 0, &bdev); + if (ret) { + debug("Can't create device\n"); + return ret; + } + bdesc = dev_get_uclass_platdata(bdev); + + scsi_init_dev_desc_priv(bdesc); + bdesc->lun = lun; + ret = scsi_detect_dev(i, bdesc); + if (ret) { + device_unbind(bdev); + continue; + } + + if (mode == 1) { + printf(" Device %d: ", 0); + dev_print(bdesc); + } /* if mode */ + } /* next LUN */ + } + } + + return 0; +} +#else int scsi_scan(int mode) { unsigned char i, lun; @@ -576,6 +651,7 @@ int scsi_scan(int mode) #endif return 0; } +#endif #ifdef CONFIG_BLK static const struct blk_ops scsi_blk_ops = { diff --git a/drivers/block/Kconfig b/drivers/block/Kconfig index fe5aa07..7b82ba6 100644 --- a/drivers/block/Kconfig +++ b/drivers/block/Kconfig @@ -19,6 +19,15 @@ config AHCI operations at present. The block device interface has not been converted to driver model. +config DM_SCSI + bool "Support SCSI controllers with driver model" + depends on BLK + help + This option enables the SCSI (Small Computer System Interface) uclass + which supports SCSI and SATA HDDs. For every device configuration + (IDs/LUNs) a block device is created with RAW read/write and + filesystem support. + config BLOCK_CACHE bool "Use block device cache" default n @@ -27,3 +36,7 @@ config BLOCK_CACHE This is most useful when accessing filesystems under U-Boot since it will prevent repeated reads from directory structures and other filesystem data structures. + +menu "SATA/SCSI device support" + +endmenu diff --git a/drivers/block/Makefile b/drivers/block/Makefile index 436b79f..a72feec 100644 --- a/drivers/block/Makefile +++ b/drivers/block/Makefile @@ -12,6 +12,7 @@ obj-y += blk_legacy.o endif obj-$(CONFIG_AHCI) += ahci-uclass.o +obj-$(CONFIG_DM_SCSI) += scsi-uclass.o obj-$(CONFIG_SCSI_AHCI) += ahci.o obj-$(CONFIG_DWC_AHSATA) += dwc_ahsata.o obj-$(CONFIG_FSL_SATA) += fsl_sata.o diff --git a/drivers/block/ahci.c b/drivers/block/ahci.c index 5139989..3fa14a7 100644 --- a/drivers/block/ahci.c +++ b/drivers/block/ahci.c @@ -168,7 +168,7 @@ int ahci_reset(void __iomem *base) static int ahci_host_init(struct ahci_probe_ent *probe_ent) { -#ifndef CONFIG_SCSI_AHCI_PLAT +#if !defined(CONFIG_SCSI_AHCI_PLAT) && !defined(CONFIG_DM_SCSI) # ifdef CONFIG_DM_PCI struct udevice *dev = probe_ent->dev; struct pci_child_platdata *pplat = dev_get_parent_platdata(dev); @@ -198,7 +198,7 @@ static int ahci_host_init(struct ahci_probe_ent *probe_ent) writel(cap_save, mmio + HOST_CAP); writel_with_flush(0xf, mmio + HOST_PORTS_IMPL); -#ifndef CONFIG_SCSI_AHCI_PLAT +#if !defined(CONFIG_SCSI_AHCI_PLAT) && !defined(CONFIG_DM_SCSI) # ifdef CONFIG_DM_PCI if (pplat->vendor == PCI_VENDOR_ID_INTEL) { u16 tmp16; @@ -327,6 +327,7 @@ static int ahci_host_init(struct ahci_probe_ent *probe_ent) writel(tmp | HOST_IRQ_EN, mmio + HOST_CTL); tmp = readl(mmio + HOST_CTL); debug("HOST_CTL 0x%x\n", tmp); +#if !defined(CONFIG_DM_SCSI) #ifndef CONFIG_SCSI_AHCI_PLAT # ifdef CONFIG_DM_PCI dm_pci_read_config16(dev, PCI_COMMAND, &tmp16); @@ -338,14 +339,15 @@ static int ahci_host_init(struct ahci_probe_ent *probe_ent) pci_write_config_word(pdev, PCI_COMMAND, tmp16); # endif #endif +#endif return 0; } static void ahci_print_info(struct ahci_probe_ent *probe_ent) { -#ifndef CONFIG_SCSI_AHCI_PLAT -# ifdef CONFIG_DM_PCI +#if !defined(CONFIG_SCSI_AHCI_PLAT) && !defined(CONFIG_DM_SCSI) +# if defined(CONFIG_DM_PCI) struct udevice *dev = probe_ent->dev; # else pci_dev_t pdev = probe_ent->dev; @@ -372,7 +374,7 @@ static void ahci_print_info(struct ahci_probe_ent *probe_ent) else speed_s = "?"; -#ifdef CONFIG_SCSI_AHCI_PLAT +#if defined(CONFIG_SCSI_AHCI_PLAT) || defined(CONFIG_DM_SCSI) scc_s = "SATA"; #else # ifdef CONFIG_DM_PCI @@ -424,13 +426,15 @@ static void ahci_print_info(struct ahci_probe_ent *probe_ent) } #ifndef CONFIG_SCSI_AHCI_PLAT -# ifdef CONFIG_DM_PCI +# if defined(CONFIG_DM_PCI) || defined(CONFIG_DM_SCSI) static int ahci_init_one(struct udevice *dev) # else static int ahci_init_one(pci_dev_t dev) # endif { +#if !defined(CONFIG_DM_SCSI) u16 vendor; +#endif int rc; probe_ent = malloc(sizeof(struct ahci_probe_ent)); @@ -450,6 +454,7 @@ static int ahci_init_one(pci_dev_t dev) probe_ent->pio_mask = 0x1f; probe_ent->udma_mask = 0x7f; /*Fixme,assume to support UDMA6 */ +#if !defined(CONFIG_DM_SCSI) #ifdef CONFIG_DM_PCI probe_ent->mmio_base = dm_pci_map_bar(dev, PCI_BASE_ADDRESS_5, PCI_REGION_MEM); @@ -473,6 +478,10 @@ static int ahci_init_one(pci_dev_t dev) if (vendor == 0x197b) pci_write_config_byte(dev, 0x41, 0xa1); #endif +#else + struct scsi_platdata *plat = dev_get_platdata(dev); + probe_ent->mmio_base = (void *)plat->base; +#endif debug("ahci mmio_base=0x%p\n", probe_ent->mmio_base); /* initialize adapter */ @@ -954,14 +963,17 @@ int scsi_exec(ccb *pccb) } - +#if defined(CONFIG_DM_SCSI) +void scsi_low_level_init(int busdevfunc, struct udevice *dev) +#else void scsi_low_level_init(int busdevfunc) +#endif { int i; u32 linkmap; #ifndef CONFIG_SCSI_AHCI_PLAT -# ifdef CONFIG_DM_PCI +# if defined(CONFIG_DM_PCI) struct udevice *dev; int ret; @@ -969,6 +981,8 @@ void scsi_low_level_init(int busdevfunc) if (ret) return; ahci_init_one(dev); +# elif defined(CONFIG_DM_SCSI) + ahci_init_one(dev); # else ahci_init_one(busdevfunc); # endif diff --git a/drivers/block/blk-uclass.c b/drivers/block/blk-uclass.c index 2e041c2..38cb938 100644 --- a/drivers/block/blk-uclass.c +++ b/drivers/block/blk-uclass.c @@ -26,7 +26,7 @@ static const char *if_typename_str[IF_TYPE_COUNT] = { static enum uclass_id if_type_uclass_id[IF_TYPE_COUNT] = { [IF_TYPE_IDE] = UCLASS_INVALID, - [IF_TYPE_SCSI] = UCLASS_INVALID, + [IF_TYPE_SCSI] = UCLASS_SCSI, [IF_TYPE_ATAPI] = UCLASS_INVALID, [IF_TYPE_USB] = UCLASS_MASS_STORAGE, [IF_TYPE_DOC] = UCLASS_INVALID, diff --git a/drivers/block/scsi-uclass.c b/drivers/block/scsi-uclass.c new file mode 100644 index 0000000..05da6cd --- /dev/null +++ b/drivers/block/scsi-uclass.c @@ -0,0 +1,27 @@ +/* + * Copyright (c) 2015 Google, Inc + * Written by Simon Glass + * Copyright (c) 2016 Xilinx, Inc + * Written by Michal Simek + * + * Based on ahci-uclass.c + * + * SPDX-License-Identifier: GPL-2.0+ + */ + +#include +#include +#include + +static int scsi_post_probe(struct udevice *dev) +{ + debug("%s: device %p\n", __func__, dev); + scsi_low_level_init(0, dev); + return 0; +} + +UCLASS_DRIVER(scsi) = { + .id = UCLASS_SCSI, + .name = "scsi", + .post_probe = scsi_post_probe, +}; diff --git a/include/ahci.h b/include/ahci.h index a956c6f..4876b41 100644 --- a/include/ahci.h +++ b/include/ahci.h @@ -145,7 +145,7 @@ struct ahci_ioports { }; struct ahci_probe_ent { -#ifdef CONFIG_DM_PCI +#if defined(CONFIG_DM_PCI) || defined(CONFIG_DM_SCSI) struct udevice *dev; #else pci_dev_t dev; diff --git a/include/dm/uclass-id.h b/include/dm/uclass-id.h index eb78c4d..8c92d0b 100644 --- a/include/dm/uclass-id.h +++ b/include/dm/uclass-id.h @@ -66,6 +66,7 @@ enum uclass_id { UCLASS_REMOTEPROC, /* Remote Processor device */ UCLASS_RESET, /* Reset controller device */ UCLASS_RTC, /* Real time clock device */ + UCLASS_SCSI, /* SCSI device */ UCLASS_SERIAL, /* Serial UART */ UCLASS_SPI, /* SPI bus */ UCLASS_SPMI, /* System Power Management Interface bus */ diff --git a/include/sata.h b/include/sata.h index b35359a..d18cc9a 100644 --- a/include/sata.h +++ b/include/sata.h @@ -2,6 +2,7 @@ #define __SATA_H__ #include +#if !defined(CONFIG_DM_SCSI) int init_sata(int dev); int reset_sata(int dev); int scan_sata(int dev); @@ -15,5 +16,6 @@ int __sata_stop(void); int sata_port_status(int dev, int port); extern struct blk_desc sata_dev_desc[]; +#endif #endif diff --git a/include/scsi.h b/include/scsi.h index c879678..190dacd 100644 --- a/include/scsi.h +++ b/include/scsi.h @@ -166,8 +166,11 @@ typedef struct SCSI_cmd_block{ void scsi_print_error(ccb *pccb); int scsi_exec(ccb *pccb); void scsi_bus_reset(void); +#if !defined(CONFIG_DM_SCSI) void scsi_low_level_init(int busdevfunc); - +#else +void scsi_low_level_init(int busdevfunc, struct udevice *dev); +#endif /*************************************************************************** * functions residing inside cmd_scsi.c @@ -175,6 +178,21 @@ void scsi_low_level_init(int busdevfunc); void scsi_init(void); int scsi_scan(int mode); +#if defined(CONFIG_DM_SCSI) +/** + * struct scsi_platdata - stores information about SCSI controller + * + * @base: Controller base address + * @max_lun: Maximum number of logical units + * @max_id: Maximum number of target ids + */ +struct scsi_platdata { + unsigned long base; + unsigned long max_lun; + unsigned long max_id; +}; +#endif + #define SCSI_IDENTIFY 0xC0 /* not used */ /* Hardware errors */ -- cgit v0.10.2 From 8814c0385356b02bf9a55b2e8388301b85f28067 Mon Sep 17 00:00:00 2001 From: Michal Simek Date: Thu, 8 Sep 2016 15:06:22 +0200 Subject: block: Move ceva driver to DM This patch also includes ARM64 zynqmp changes: - Remove platform non DM initialization - Remove hardcoded sata base address Signed-off-by: Michal Simek Reviewed-by: Simon Glass Series-to: sjg, agraf@suse.de Series-cc: uboot Series-version: 4 Series-changes: 2 - make ceva_init_sata static - Move SATA_CEVA to defconfig - Initalized max_lun and max_id platdata Series-changes: 3 - Extend Kconfig help description - sort dm.h - Remove SPL undefinition from board file - Fix Kconfig dependecies diff --git a/arch/arm/include/asm/arch-zynqmp/hardware.h b/arch/arm/include/asm/arch-zynqmp/hardware.h index 5908c50..041b43c 100644 --- a/arch/arm/include/asm/arch-zynqmp/hardware.h +++ b/arch/arm/include/asm/arch-zynqmp/hardware.h @@ -18,8 +18,6 @@ #define ARASAN_NAND_BASEADDR 0xFF100000 -#define ZYNQMP_SATA_BASEADDR 0xFD0C0000 - #define ZYNQMP_USB0_XHCI_BASEADDR 0xFE200000 #define ZYNQMP_USB1_XHCI_BASEADDR 0xFE300000 diff --git a/board/xilinx/zynqmp/zynqmp.c b/board/xilinx/zynqmp/zynqmp.c index cef1f6a..a23c38a 100644 --- a/board/xilinx/zynqmp/zynqmp.c +++ b/board/xilinx/zynqmp/zynqmp.c @@ -311,17 +311,6 @@ void reset_cpu(ulong addr) { } -#ifdef CONFIG_SCSI_AHCI_PLAT -void scsi_init(void) -{ -#if defined(CONFIG_SATA_CEVA) - init_sata(0); -#endif - ahci_init((void __iomem *)ZYNQMP_SATA_BASEADDR); - scsi_scan(1); -} -#endif - int board_late_init(void) { u32 reg = 0; diff --git a/configs/xilinx_zynqmp_ep_defconfig b/configs/xilinx_zynqmp_ep_defconfig index f261e22..b223e11 100644 --- a/configs/xilinx_zynqmp_ep_defconfig +++ b/configs/xilinx_zynqmp_ep_defconfig @@ -42,6 +42,8 @@ CONFIG_OF_EMBED=y CONFIG_NET_RANDOM_ETHADDR=y CONFIG_SPL_DM=y CONFIG_SPL_DM_SEQ_ALIAS=y +CONFIG_DM_SCSI=y +CONFIG_SATA_CEVA=y CONFIG_DFU_RAM=y CONFIG_FPGA_XILINX=y CONFIG_FPGA_ZYNQMPPL=y diff --git a/configs/xilinx_zynqmp_zcu102_defconfig b/configs/xilinx_zynqmp_zcu102_defconfig index 021e0ff..9f2df49 100644 --- a/configs/xilinx_zynqmp_zcu102_defconfig +++ b/configs/xilinx_zynqmp_zcu102_defconfig @@ -34,6 +34,8 @@ CONFIG_OF_EMBED=y CONFIG_NET_RANDOM_ETHADDR=y CONFIG_SPL_DM=y CONFIG_SPL_DM_SEQ_ALIAS=y +CONFIG_DM_SCSI=y +CONFIG_SATA_CEVA=y CONFIG_DFU_RAM=y CONFIG_FPGA_XILINX=y CONFIG_FPGA_ZYNQMPPL=y diff --git a/configs/xilinx_zynqmp_zcu102_revB_defconfig b/configs/xilinx_zynqmp_zcu102_revB_defconfig index 34062bd..b2b1720 100644 --- a/configs/xilinx_zynqmp_zcu102_revB_defconfig +++ b/configs/xilinx_zynqmp_zcu102_revB_defconfig @@ -34,6 +34,8 @@ CONFIG_OF_EMBED=y CONFIG_NET_RANDOM_ETHADDR=y CONFIG_SPL_DM=y CONFIG_SPL_DM_SEQ_ALIAS=y +CONFIG_DM_SCSI=y +CONFIG_SATA_CEVA=y CONFIG_DFU_RAM=y CONFIG_FPGA_XILINX=y CONFIG_FPGA_ZYNQMPPL=y diff --git a/drivers/block/Kconfig b/drivers/block/Kconfig index 7b82ba6..88e66e2 100644 --- a/drivers/block/Kconfig +++ b/drivers/block/Kconfig @@ -39,4 +39,13 @@ config BLOCK_CACHE menu "SATA/SCSI device support" +config SATA_CEVA + bool "Ceva Sata controller" + depends on AHCI + depends on DM_SCSI + help + This option enables Ceva Sata controller hard IP available on Xilinx + ZynqMP. Support up to 2 external devices. Complient with SATA 3.1 and + AHCI 1.3 specifications with hot-plug detect feature. + endmenu diff --git a/drivers/block/sata_ceva.c b/drivers/block/sata_ceva.c index dcc3b90..9b54664 100644 --- a/drivers/block/sata_ceva.c +++ b/drivers/block/sata_ceva.c @@ -5,6 +5,7 @@ * SPDX-License-Identifier: GPL-2.0+ */ #include +#include #include #include #include @@ -73,10 +74,9 @@ #define DRV_NAME "ahci-ceva" #define CEVA_FLAG_BROKEN_GEN2 1 -int init_sata(int dev) +static int ceva_init_sata(ulong mmio) { ulong tmp; - ulong mmio = ZYNQMP_SATA_BASEADDR; int i; /* @@ -111,3 +111,40 @@ int init_sata(int dev) } return 0; } + +static int sata_ceva_probe(struct udevice *dev) +{ + struct scsi_platdata *plat = dev_get_platdata(dev); + + ceva_init_sata(plat->base); + return 0; +} + +static const struct udevice_id sata_ceva_ids[] = { + { .compatible = "ceva,ahci-1v84" }, + { } +}; + +static int sata_ceva_ofdata_to_platdata(struct udevice *dev) +{ + struct scsi_platdata *plat = dev_get_platdata(dev); + + plat->base = dev_get_addr(dev); + if (plat->base == FDT_ADDR_T_NONE) + return -EINVAL; + + /* Hardcode number for ceva sata controller */ + plat->max_lun = 1; /* Actually two but untested */ + plat->max_id = 2; + + return 0; +} + +U_BOOT_DRIVER(ceva_host_blk) = { + .name = "ceva_sata", + .id = UCLASS_SCSI, + .of_match = sata_ceva_ids, + .probe = sata_ceva_probe, + .ofdata_to_platdata = sata_ceva_ofdata_to_platdata, + .platdata_auto_alloc_size = sizeof(struct scsi_platdata), +}; diff --git a/include/configs/xilinx_zynqmp.h b/include/configs/xilinx_zynqmp.h index d480990..fb4f6d6 100644 --- a/include/configs/xilinx_zynqmp.h +++ b/include/configs/xilinx_zynqmp.h @@ -181,7 +181,6 @@ #ifdef CONFIG_SATA_CEVA #define CONFIG_LIBATA #define CONFIG_SCSI_AHCI -#define CONFIG_SCSI_AHCI_PLAT #define CONFIG_SYS_SCSI_MAX_SCSI_ID 2 #define CONFIG_SYS_SCSI_MAX_LUN 1 #define CONFIG_SYS_SCSI_MAX_DEVICE (CONFIG_SYS_SCSI_MAX_SCSI_ID * \ diff --git a/include/configs/xilinx_zynqmp_ep.h b/include/configs/xilinx_zynqmp_ep.h index d0ce768..3a572b7 100644 --- a/include/configs/xilinx_zynqmp_ep.h +++ b/include/configs/xilinx_zynqmp_ep.h @@ -16,7 +16,6 @@ #define CONFIG_ZYNQ_SDHCI_MAX_FREQ 52000000 #define CONFIG_ZYNQ_SDHCI_MIN_FREQ (CONFIG_ZYNQ_SDHCI_MAX_FREQ >> 9) #define CONFIG_ZYNQ_EEPROM -#define CONFIG_SATA_CEVA #define CONFIG_ZYNQMP_XHCI_LIST {ZYNQMP_USB0_XHCI_BASEADDR, \ ZYNQMP_USB1_XHCI_BASEADDR} diff --git a/include/configs/xilinx_zynqmp_zcu102.h b/include/configs/xilinx_zynqmp_zcu102.h index adf2321..8d018da 100644 --- a/include/configs/xilinx_zynqmp_zcu102.h +++ b/include/configs/xilinx_zynqmp_zcu102.h @@ -41,8 +41,6 @@ #define CONFIG_CMD_PCA953X #define CONFIG_CMD_PCA953X_INFO -#define CONFIG_SATA_CEVA - #define CONFIG_ZYNQMP_XHCI_LIST {ZYNQMP_USB0_XHCI_BASEADDR} #define CONFIG_SYS_I2C_EEPROM_ADDR_LEN 1 -- cgit v0.10.2 From 37a2cf6f1af0379c447ec4b6e321a3600492484c Mon Sep 17 00:00:00 2001 From: Michal Simek Date: Tue, 6 Dec 2016 16:38:13 +0100 Subject: tools: mkimage: Use fstat instead of stat to avoid malicious hacks The patch is fixing: "tools: mkimage: Check if file is regular file" (sha1: 56c7e8015509312240b1ee15f2ff74510939a45d) which contains two issues reported by Coverity Unchecked return value from stat and incorrect calling sequence where attack can happen between calling stat and fopen. Using pair in opposite order (fopen and fstat) is fixing this issue because fstat is using the same file descriptor (FILE *). Also fixing issue with: "tools: mkimage: Add support for initialization table for Zynq and ZynqMP" (sha1: 3b6460809c2a28360029c1c48247648fac4455c9) where file wasn't checked that it is regular file. Reported-by: Coverity (CID: 154711, 154712) Signed-off-by: Michal Simek Reviewed-by: Tom Rini Series-to: trini Series-cc: u-boot diff --git a/tools/zynqimage.c b/tools/zynqimage.c index 43876e7..b47132b 100644 --- a/tools/zynqimage.c +++ b/tools/zynqimage.c @@ -225,16 +225,26 @@ static int zynqimage_check_image_types(uint8_t type) static void zynqimage_parse_initparams(struct zynq_header *zynqhdr, const char *filename) { - /* Expect a table of register-value pairs, e.g. "0x12345678 0x4321" */ - FILE *fp = fopen(filename, "r"); + FILE *fp; struct zynq_reginit reginit; unsigned int reg_count = 0; - int r; + int r, err; + struct stat path_stat; + /* Expect a table of register-value pairs, e.g. "0x12345678 0x4321" */ + fp = fopen(filename, "r"); if (!fp) { fprintf(stderr, "Cannot open initparams file: %s\n", filename); exit(1); } + + err = fstat(fileno(fp), &path_stat); + if (err) + return; + + if (!S_ISREG(path_stat.st_mode)) + return; + do { r = fscanf(fp, "%x %x", ®init.address, ®init.data); if (r == 2) { diff --git a/tools/zynqmpimage.c b/tools/zynqmpimage.c index 202faea..60d8ed2 100644 --- a/tools/zynqmpimage.c +++ b/tools/zynqmpimage.c @@ -240,19 +240,23 @@ static void zynqmpimage_parse_initparams(struct zynqmp_header *zynqhdr, FILE *fp; struct zynqmp_reginit reginit; unsigned int reg_count = 0; - int r; + int r, err; struct stat path_stat; - stat(filename, &path_stat); - if (!S_ISREG(path_stat.st_mode)) - return; - /* Expect a table of register-value pairs, e.g. "0x12345678 0x4321" */ fp = fopen(filename, "r"); if (!fp) { fprintf(stderr, "Cannot open initparams file: %s\n", filename); exit(1); } + + err = fstat(fileno(fp), &path_stat); + if (err) + return; + + if (!S_ISREG(path_stat.st_mode)) + return; + do { r = fscanf(fp, "%x %x", ®init.address, ®init.data); if (r == 2) { -- cgit v0.10.2 From 3fd4de8840ada7d91fdc231049a6543f447e483a Mon Sep 17 00:00:00 2001 From: Michal Simek Date: Wed, 23 Nov 2016 10:56:00 +0100 Subject: travis-ci: Add zynq_zc702 target support Signed-off-by: Michal Simek Use embded option because of qemu Use my repo till Stephen merge it. Signed-off-by: Michal Simek diff --git a/.travis.yml b/.travis.yml index 6a575a5..37e1922 100644 --- a/.travis.yml +++ b/.travis.yml @@ -294,5 +294,10 @@ matrix: BUILDMAN="^qemu-x86$" TOOLCHAIN="x86_64" BUILD_ROM="yes" + - env: + - TEST_PY_BD="zynq_zc702" + TEST_PY_TEST_SPEC="not sleep" + TEST_PY_ID="--id qemu" + BUILDMAN="^zynq_zc702$" # TODO make it perfect ;-r diff --git a/configs/zynq_zc702_defconfig b/configs/zynq_zc702_defconfig index 117bfda..d5d5988 100644 --- a/configs/zynq_zc702_defconfig +++ b/configs/zynq_zc702_defconfig @@ -30,6 +30,7 @@ CONFIG_CMD_EXT4=y CONFIG_CMD_EXT4_WRITE=y CONFIG_CMD_FAT=y CONFIG_CMD_FS_GENERIC=y +CONFIG_OF_EMBED=y CONFIG_NET_RANDOM_ETHADDR=y CONFIG_SPL_DM_SEQ_ALIAS=y CONFIG_DFU_MMC=y -- cgit v0.10.2 From 64b67fb24bf4dfd4e15a6e43ba2ed4e5fa31b5b0 Mon Sep 17 00:00:00 2001 From: Nathan Rossi Date: Sun, 4 Dec 2016 19:33:22 +1000 Subject: ARM: zynq: Replace dram_init* functions with board_init_f safe ones The dram_init* functions for the zynq board are not safe for use from the board_init_f stage due to its use of the 'tmp' static variable. This incorrect use of a static variable was causing rare issues where the dram_init function would overwrite some parts the __rel_dyn section which caused obscure failures. Using the zynq_zybo configuration, U-Boot would generate the following error during image load. This was caused due to dram_init overwriting the relocations for the "image" variable within the do_bootm function. Out of coincidence the un-initialized memory has a compression type which is the same as the value for the relocation type R_ARM_RELATIVE. Uncompressing Invalid Image ... Unimplemented compression type 23 It should be noted that this is just one way the issue could surface, other cases my not be observed in normal boot flow. This change removes the existing code and copies the implementation of the dram_init and dram_init_banksize from the arch/arm/mach-uniphier/dram_init.c source. This version of these functions does not use static variables and behaves the same (reading banks from fdt, and using the first bank as the ram_size). Signed-off-by: Nathan Rossi Fixes: 758f29d0f8 ("ARM: zynq: Support systems with more memory banks") Cc: Michal Simek Signed-off-by: Michal Simek diff --git a/board/xilinx/zynq/board.c b/board/xilinx/zynq/board.c index 2c86940..c5e7b99 100644 --- a/board/xilinx/zynq/board.c +++ b/board/xilinx/zynq/board.c @@ -124,121 +124,73 @@ int zynq_board_read_rom_ethaddr(unsigned char *ethaddr) } #if !defined(CONFIG_SYS_SDRAM_BASE) && !defined(CONFIG_SYS_SDRAM_SIZE) -/* - * fdt_get_reg - Fill buffer by information from DT - */ -static phys_size_t fdt_get_reg(const void *fdt, int nodeoffset, void *buf, - const u32 *cell, int n) +static const void *get_memory_reg_prop(const void *fdt, int *lenp) { - int i = 0, b, banks; - int parent_offset = fdt_parent_offset(fdt, nodeoffset); - int address_cells = fdt_address_cells(fdt, parent_offset); - int size_cells = fdt_size_cells(fdt, parent_offset); - char *p = buf; - u64 val; - u64 vals; - - debug("%s: addr_cells=%x, size_cell=%x, buf=%p, cell=%p\n", - __func__, address_cells, size_cells, buf, cell); - - /* Check memory bank setup */ - banks = n % (address_cells + size_cells); - if (banks) - panic("Incorrect memory setup cells=%d, ac=%d, sc=%d\n", - n, address_cells, size_cells); - - banks = n / (address_cells + size_cells); - - for (b = 0; b < banks; b++) { - debug("%s: Bank #%d:\n", __func__, b); - if (address_cells == 2) { - val = cell[i + 1]; - val <<= 32; - val |= cell[i]; - val = fdt64_to_cpu(val); - debug("%s: addr64=%llx, ptr=%p, cell=%p\n", - __func__, val, p, &cell[i]); - *(phys_addr_t *)p = val; - } else { - debug("%s: addr32=%x, ptr=%p\n", - __func__, fdt32_to_cpu(cell[i]), p); - *(phys_addr_t *)p = fdt32_to_cpu(cell[i]); - } - p += sizeof(phys_addr_t); - i += address_cells; - - debug("%s: pa=%p, i=%x, size=%zu\n", __func__, p, i, - sizeof(phys_addr_t)); - - if (size_cells == 2) { - vals = cell[i + 1]; - vals <<= 32; - vals |= cell[i]; - vals = fdt64_to_cpu(vals); - - debug("%s: size64=%llx, ptr=%p, cell=%p\n", - __func__, vals, p, &cell[i]); - *(phys_size_t *)p = vals; - } else { - debug("%s: size32=%x, ptr=%p\n", - __func__, fdt32_to_cpu(cell[i]), p); - *(phys_size_t *)p = fdt32_to_cpu(cell[i]); - } - p += sizeof(phys_size_t); - i += size_cells; - - debug("%s: ps=%p, i=%x, size=%zu\n", - __func__, p, i, sizeof(phys_size_t)); - } + int offset; - /* Return the first address size */ - return *(phys_size_t *)((char *)buf + sizeof(phys_addr_t)); -} + offset = fdt_path_offset(fdt, "/memory"); + if (offset < 0) + return NULL; -#define FDT_REG_SIZE sizeof(u32) -/* Temp location for sharing data for storing */ -/* Up to 64-bit address + 64-bit size */ -static u8 tmp[CONFIG_NR_DRAM_BANKS * 16]; + return fdt_getprop(fdt, offset, "reg", lenp); +} void dram_init_banksize(void) { - int bank; + const void *fdt = gd->fdt_blob; + const fdt32_t *val; + int ac, sc, cells, len, i; + + val = get_memory_reg_prop(fdt, &len); + if (len < 0) + return; + + ac = fdt_address_cells(fdt, 0); + sc = fdt_size_cells(fdt, 0); + if (ac < 1 || sc > 2 || sc < 1 || sc > 2) { + printf("invalid address/size cells\n"); + return; + } - memcpy(&gd->bd->bi_dram[0], &tmp, sizeof(tmp)); + cells = ac + sc; - for (bank = 0; bank < CONFIG_NR_DRAM_BANKS; bank++) { - debug("Bank #%d: start %llx\n", bank, - (unsigned long long)gd->bd->bi_dram[bank].start); - debug("Bank #%d: size %llx\n", bank, - (unsigned long long)gd->bd->bi_dram[bank].size); + len /= sizeof(*val); + + for (i = 0; i < CONFIG_NR_DRAM_BANKS && len >= cells; + i++, len -= cells) { + gd->bd->bi_dram[i].start = fdtdec_get_number(val, ac); + val += ac; + gd->bd->bi_dram[i].size = fdtdec_get_number(val, sc); + val += sc; + + debug("DRAM bank %d: start = %08lx, size = %08lx\n", + i, (unsigned long)gd->bd->bi_dram[i].start, + (unsigned long)gd->bd->bi_dram[i].size); } } int dram_init(void) { - int node, len; - const void *blob = gd->fdt_blob; - const u32 *cell; - - memset(&tmp, 0, sizeof(tmp)); - - /* find or create "/memory" node. */ - node = fdt_subnode_offset(blob, 0, "memory"); - if (node < 0) { - printf("%s: Can't get memory node\n", __func__); - return node; + const void *fdt = gd->fdt_blob; + const fdt32_t *val; + int ac, sc, len; + + ac = fdt_address_cells(fdt, 0); + sc = fdt_size_cells(fdt, 0); + if (ac < 0 || sc < 1 || sc > 2) { + printf("invalid address/size cells\n"); + return -EINVAL; } - /* Get pointer to cells and lenght of it */ - cell = fdt_getprop(blob, node, "reg", &len); - if (!cell) { - printf("%s: Can't get reg property\n", __func__); - return -1; - } + val = get_memory_reg_prop(fdt, &len); + if (len / sizeof(*val) < ac + sc) + return -EINVAL; + + val += ac; - gd->ram_size = fdt_get_reg(blob, node, &tmp, cell, len / FDT_REG_SIZE); + gd->ram_size = fdtdec_get_number(val, sc); - debug("%s: Initial DRAM size %llx\n", __func__, (u64)gd->ram_size); + debug("DRAM size = %08lx\n", (unsigned long)gd->ram_size); zynq_ddrc_init(); -- cgit v0.10.2 From 8a5db0ab9ab40d26729657e92f83af8d00bc3861 Mon Sep 17 00:00:00 2001 From: Michal Simek Date: Tue, 6 Dec 2016 16:31:53 +0100 Subject: zynqmp works diff --git a/board/xilinx/zynq/board.c b/board/xilinx/zynq/board.c index c5e7b99..4daff8f 100644 --- a/board/xilinx/zynq/board.c +++ b/board/xilinx/zynq/board.c @@ -135,6 +135,34 @@ static const void *get_memory_reg_prop(const void *fdt, int *lenp) return fdt_getprop(fdt, offset, "reg", lenp); } +int dram_init(void) +{ + const void *fdt = gd->fdt_blob; + const fdt32_t *val; + int ac, sc, len; + + ac = fdt_address_cells(fdt, 0); + sc = fdt_size_cells(fdt, 0); + if (ac < 0 || sc < 1 || sc > 2) { + printf("invalid address/size cells\n"); + return -EINVAL; + } + + val = get_memory_reg_prop(fdt, &len); + if (len / sizeof(*val) < ac + sc) + return -EINVAL; + + val += ac; + + gd->ram_size = fdtdec_get_number(val, sc); + + debug("DRAM size = %08lx\n", (unsigned long)gd->ram_size); + + zynq_ddrc_init(); + + return 0; +} + void dram_init_banksize(void) { const void *fdt = gd->fdt_blob; @@ -168,34 +196,6 @@ void dram_init_banksize(void) (unsigned long)gd->bd->bi_dram[i].size); } } - -int dram_init(void) -{ - const void *fdt = gd->fdt_blob; - const fdt32_t *val; - int ac, sc, len; - - ac = fdt_address_cells(fdt, 0); - sc = fdt_size_cells(fdt, 0); - if (ac < 0 || sc < 1 || sc > 2) { - printf("invalid address/size cells\n"); - return -EINVAL; - } - - val = get_memory_reg_prop(fdt, &len); - if (len / sizeof(*val) < ac + sc) - return -EINVAL; - - val += ac; - - gd->ram_size = fdtdec_get_number(val, sc); - - debug("DRAM size = %08lx\n", (unsigned long)gd->ram_size); - - zynq_ddrc_init(); - - return 0; -} #else int dram_init(void) { diff --git a/board/xilinx/zynqmp/zynqmp.c b/board/xilinx/zynqmp/zynqmp.c index a23c38a..9136c46 100644 --- a/board/xilinx/zynqmp/zynqmp.c +++ b/board/xilinx/zynqmp/zynqmp.c @@ -180,123 +180,75 @@ int zynq_board_read_rom_ethaddr(unsigned char *ethaddr) } #if !defined(CONFIG_SYS_SDRAM_BASE) && !defined(CONFIG_SYS_SDRAM_SIZE) -/* - * fdt_get_reg - Fill buffer by information from DT - */ -static phys_size_t fdt_get_reg(const void *fdt, int nodeoffset, void *buf, - const u32 *cell, int n) +static const void *get_memory_reg_prop(const void *fdt, int *lenp) { - int i = 0, b, banks; - int parent_offset = fdt_parent_offset(fdt, nodeoffset); - int address_cells = fdt_address_cells(fdt, parent_offset); - int size_cells = fdt_size_cells(fdt, parent_offset); - char *p = buf; - u64 val; - u64 vals; - - debug("%s: addr_cells=%x, size_cell=%x, buf=%p, cell=%p\n", - __func__, address_cells, size_cells, buf, cell); - - /* Check memory bank setup */ - banks = n % (address_cells + size_cells); - if (banks) - panic("Incorrect memory setup cells=%d, ac=%d, sc=%d\n", - n, address_cells, size_cells); - - banks = n / (address_cells + size_cells); - - for (b = 0; b < banks; b++) { - debug("%s: Bank #%d:\n", __func__, b); - if (address_cells == 2) { - val = cell[i + 1]; - val <<= 32; - val |= cell[i]; - val = fdt64_to_cpu(val); - debug("%s: addr64=%llx, ptr=%p, cell=%p\n", - __func__, val, p, &cell[i]); - *(phys_addr_t *)p = val; - } else { - debug("%s: addr32=%x, ptr=%p\n", - __func__, fdt32_to_cpu(cell[i]), p); - *(phys_addr_t *)p = fdt32_to_cpu(cell[i]); - } - p += sizeof(phys_addr_t); - i += address_cells; - - debug("%s: pa=%p, i=%x, size=%zu\n", __func__, p, i, - sizeof(phys_addr_t)); - - if (size_cells == 2) { - vals = cell[i + 1]; - vals <<= 32; - vals |= cell[i]; - vals = fdt64_to_cpu(vals); - - debug("%s: size64=%llx, ptr=%p, cell=%p\n", - __func__, vals, p, &cell[i]); - *(phys_size_t *)p = vals; - } else { - debug("%s: size32=%x, ptr=%p\n", - __func__, fdt32_to_cpu(cell[i]), p); - *(phys_size_t *)p = fdt32_to_cpu(cell[i]); - } - p += sizeof(phys_size_t); - i += size_cells; - - debug("%s: ps=%p, i=%x, size=%zu\n", - __func__, p, i, sizeof(phys_size_t)); - } + int offset; - /* Return the first address size */ - return *(phys_size_t *)((char *)buf + sizeof(phys_addr_t)); -} + offset = fdt_path_offset(fdt, "/memory"); + if (offset < 0) + return NULL; -#define FDT_REG_SIZE sizeof(u32) -/* Temp location for sharing data for storing */ -/* Up to 64-bit address + 64-bit size */ -static u8 tmp[CONFIG_NR_DRAM_BANKS * 16]; + return fdt_getprop(fdt, offset, "reg", lenp); +} -void dram_init_banksize(void) +int dram_init(void) { - int bank; + const void *fdt = gd->fdt_blob; + const fdt32_t *val; + int ac, sc, len; + + ac = fdt_address_cells(fdt, 0); + sc = fdt_size_cells(fdt, 0); + if (ac < 0 || sc < 1 || sc > 2) { + printf("invalid address/size cells\n"); + return -EINVAL; + } - memcpy(&gd->bd->bi_dram[0], &tmp, sizeof(tmp)); + val = get_memory_reg_prop(fdt, &len); + if (len / sizeof(*val) < ac + sc) + return -EINVAL; - for (bank = 0; bank < CONFIG_NR_DRAM_BANKS; bank++) { - debug("Bank #%d: start %llx\n", bank, - (unsigned long long)gd->bd->bi_dram[bank].start); - debug("Bank #%d: size %llx\n", bank, - (unsigned long long)gd->bd->bi_dram[bank].size); - } -} + val += ac; -int dram_init(void) -{ - int node, len; - const void *blob = gd->fdt_blob; - const u32 *cell; + gd->ram_size = fdtdec_get_number(val, sc); - memset(&tmp, 0, sizeof(tmp)); + debug("DRAM size = %08lx\n", (unsigned long)gd->ram_size); - /* find or create "/memory" node. */ - node = fdt_subnode_offset(blob, 0, "memory"); - if (node < 0) { - printf("%s: Can't get memory node\n", __func__); - return node; - } + return 0; +} - /* Get pointer to cells and lenght of it */ - cell = fdt_getprop(blob, node, "reg", &len); - if (!cell) { - printf("%s: Can't get reg property\n", __func__); - return -1; +void dram_init_banksize(void) +{ + const void *fdt = gd->fdt_blob; + const fdt32_t *val; + int ac, sc, cells, len, i; + + val = get_memory_reg_prop(fdt, &len); + if (len < 0) + return; + + ac = fdt_address_cells(fdt, 0); + sc = fdt_size_cells(fdt, 0); + if (ac < 1 || sc > 2 || sc < 1 || sc > 2) { + printf("invalid address/size cells\n"); + return; } - gd->ram_size = fdt_get_reg(blob, node, &tmp, cell, len / FDT_REG_SIZE); + cells = ac + sc; - debug("%s: Initial DRAM size %llx\n", __func__, (u64)gd->ram_size); + len /= sizeof(*val); - return 0; + for (i = 0; i < CONFIG_NR_DRAM_BANKS && len >= cells; + i++, len -= cells) { + gd->bd->bi_dram[i].start = fdtdec_get_number(val, ac); + val += ac; + gd->bd->bi_dram[i].size = fdtdec_get_number(val, sc); + val += sc; + + debug("DRAM bank %d: start = %08lx, size = %08lx\n", + i, (unsigned long)gd->bd->bi_dram[i].start, + (unsigned long)gd->bd->bi_dram[i].size); + } } #else int dram_init(void) -- cgit v0.10.2 From bf0f27f45f95e9b6aed0cb7e296b148a66100927 Mon Sep 17 00:00:00 2001 From: Michal Simek Date: Wed, 30 Nov 2016 11:09:56 +0100 Subject: ARM64: zynqmp: Add updated psu_init_gpl* files With origin files there was an issue with serdes setting for SCSI. Signed-off-by: Michal Simek diff --git a/board/xilinx/zynqmp/zynqmp-zcu102/psu_init_gpl.c b/board/xilinx/zynqmp/zynqmp-zcu102/psu_init_gpl.c new file mode 100644 index 0000000..4bc732f --- /dev/null +++ b/board/xilinx/zynqmp/zynqmp-zcu102/psu_init_gpl.c @@ -0,0 +1,23566 @@ +/****************************************************************************** +* +* Copyright (C) 2015 Xilinx, Inc. All rights reserved. +* +* This program is free software; you can redistribute it and/or modify +* it under the terms of the GNU General Public License as published by +* the Free Software Foundation; either version 2 of the License, or +* (at your option) any later version. +* +* This program is distributed in the hope that it will be useful, +* but WITHOUT ANY WARRANTY; without even the implied warranty of +* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the +* GNU General Public License for more details. +* +* You should have received a copy of the GNU General Public License along +* with this program; if not, see +* +* +******************************************************************************/ + +#include +/* #include */ +#include "psu_init_gpl.h" + +int mask_pollOnValue(u32 add , u32 mask, u32 value ); + +int mask_poll(u32 add , u32 mask ); + +void mask_delay(u32 delay); + +u32 mask_read(u32 add , u32 mask ); + +static void PSU_Mask_Write (unsigned long offset, unsigned long mask, unsigned long val) +{ + unsigned long RegVal = 0x0; + RegVal = Xil_In32 (offset); + RegVal &= ~(mask); + RegVal |= (val & mask); + Xil_Out32 (offset, RegVal); +} + + void prog_reg (unsigned long addr, unsigned long mask, unsigned long shift, unsigned long value) { + int rdata =0; + rdata = Xil_In32(addr); + rdata = rdata & (~mask); + rdata = rdata | (value << shift); + Xil_Out32(addr,rdata); + } + +unsigned long psu_pll_init_data() { + // : RPLL INIT + /*Register : RPLL_CFG @ 0XFF5E0034

+ + PLL loop filter resistor control + PSU_CRL_APB_RPLL_CFG_RES 0x2 + + PLL charge pump control + PSU_CRL_APB_RPLL_CFG_CP 0x3 + + PLL loop filter high frequency capacitor control + PSU_CRL_APB_RPLL_CFG_LFHF 0x3 + + Lock circuit counter setting + PSU_CRL_APB_RPLL_CFG_LOCK_CNT 0x258 + + Lock circuit configuration settings for lock windowsize + PSU_CRL_APB_RPLL_CFG_LOCK_DLY 0x3f + + Helper data. Values are to be looked up in a table from Data Sheet + (OFFSET, MASK, VALUE) (0XFF5E0034, 0xFE7FEDEFU ,0x7E4B0C62U) + RegMask = (CRL_APB_RPLL_CFG_RES_MASK | CRL_APB_RPLL_CFG_CP_MASK | CRL_APB_RPLL_CFG_LFHF_MASK | CRL_APB_RPLL_CFG_LOCK_CNT_MASK | CRL_APB_RPLL_CFG_LOCK_DLY_MASK | 0 ); + + RegVal = ((0x00000002U << CRL_APB_RPLL_CFG_RES_SHIFT + | 0x00000003U << CRL_APB_RPLL_CFG_CP_SHIFT + | 0x00000003U << CRL_APB_RPLL_CFG_LFHF_SHIFT + | 0x00000258U << CRL_APB_RPLL_CFG_LOCK_CNT_SHIFT + | 0x0000003FU << CRL_APB_RPLL_CFG_LOCK_DLY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_RPLL_CFG_OFFSET ,0xFE7FEDEFU ,0x7E4B0C62U); + /*############################################################################################################################ */ + + // : UPDATE FB_DIV + /*Register : RPLL_CTRL @ 0XFF5E0030

+ + Mux select for determining which clock feeds this PLL. 0XX pss_ref_clk is the source 100 video clk is the source 101 pss_alt_ + ef_clk is the source 110 aux_refclk[X] is the source 111 gt_crx_ref_clk is the source + PSU_CRL_APB_RPLL_CTRL_PRE_SRC 0x0 + + The integer portion of the feedback divider to the PLL + PSU_CRL_APB_RPLL_CTRL_FBDIV 0x48 + + This turns on the divide by 2 that is inside of the PLL. This does not change the VCO frequency, just the output frequency + PSU_CRL_APB_RPLL_CTRL_DIV2 0x1 + + PLL Basic Control + (OFFSET, MASK, VALUE) (0XFF5E0030, 0x00717F00U ,0x00014800U) + RegMask = (CRL_APB_RPLL_CTRL_PRE_SRC_MASK | CRL_APB_RPLL_CTRL_FBDIV_MASK | CRL_APB_RPLL_CTRL_DIV2_MASK | 0 ); + + RegVal = ((0x00000000U << CRL_APB_RPLL_CTRL_PRE_SRC_SHIFT + | 0x00000048U << CRL_APB_RPLL_CTRL_FBDIV_SHIFT + | 0x00000001U << CRL_APB_RPLL_CTRL_DIV2_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_RPLL_CTRL_OFFSET ,0x00717F00U ,0x00014800U); + /*############################################################################################################################ */ + + // : BY PASS PLL + /*Register : RPLL_CTRL @ 0XFF5E0030

+ + Bypasses the PLL clock. The usable clock will be determined from the POST_SRC field. (This signal may only be toggled after 4 + cycles of the old clock and 4 cycles of the new clock. This is not usually an issue, but designers must be aware.) + PSU_CRL_APB_RPLL_CTRL_BYPASS 1 + + PLL Basic Control + (OFFSET, MASK, VALUE) (0XFF5E0030, 0x00000008U ,0x00000008U) + RegMask = (CRL_APB_RPLL_CTRL_BYPASS_MASK | 0 ); + + RegVal = ((0x00000001U << CRL_APB_RPLL_CTRL_BYPASS_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_RPLL_CTRL_OFFSET ,0x00000008U ,0x00000008U); + /*############################################################################################################################ */ + + // : ASSERT RESET + /*Register : RPLL_CTRL @ 0XFF5E0030

+ + Asserts Reset to the PLL. When asserting reset, the PLL must already be in BYPASS. + PSU_CRL_APB_RPLL_CTRL_RESET 1 + + PLL Basic Control + (OFFSET, MASK, VALUE) (0XFF5E0030, 0x00000001U ,0x00000001U) + RegMask = (CRL_APB_RPLL_CTRL_RESET_MASK | 0 ); + + RegVal = ((0x00000001U << CRL_APB_RPLL_CTRL_RESET_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_RPLL_CTRL_OFFSET ,0x00000001U ,0x00000001U); + /*############################################################################################################################ */ + + // : DEASSERT RESET + /*Register : RPLL_CTRL @ 0XFF5E0030

+ + Asserts Reset to the PLL. When asserting reset, the PLL must already be in BYPASS. + PSU_CRL_APB_RPLL_CTRL_RESET 0 + + PLL Basic Control + (OFFSET, MASK, VALUE) (0XFF5E0030, 0x00000001U ,0x00000000U) + RegMask = (CRL_APB_RPLL_CTRL_RESET_MASK | 0 ); + + RegVal = ((0x00000000U << CRL_APB_RPLL_CTRL_RESET_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_RPLL_CTRL_OFFSET ,0x00000001U ,0x00000000U); + /*############################################################################################################################ */ + + // : CHECK PLL STATUS + /*Register : PLL_STATUS @ 0XFF5E0040

+ + RPLL is locked + PSU_CRL_APB_PLL_STATUS_RPLL_LOCK 1 + (OFFSET, MASK, VALUE) (0XFF5E0040, 0x00000002U ,0x00000002U) */ + mask_poll(CRL_APB_PLL_STATUS_OFFSET,0x00000002U); + + /*############################################################################################################################ */ + + // : REMOVE PLL BY PASS + /*Register : RPLL_CTRL @ 0XFF5E0030

+ + Bypasses the PLL clock. The usable clock will be determined from the POST_SRC field. (This signal may only be toggled after 4 + cycles of the old clock and 4 cycles of the new clock. This is not usually an issue, but designers must be aware.) + PSU_CRL_APB_RPLL_CTRL_BYPASS 0 + + PLL Basic Control + (OFFSET, MASK, VALUE) (0XFF5E0030, 0x00000008U ,0x00000000U) + RegMask = (CRL_APB_RPLL_CTRL_BYPASS_MASK | 0 ); + + RegVal = ((0x00000000U << CRL_APB_RPLL_CTRL_BYPASS_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_RPLL_CTRL_OFFSET ,0x00000008U ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : RPLL_TO_FPD_CTRL @ 0XFF5E0048

+ + Divisor value for this clock. + PSU_CRL_APB_RPLL_TO_FPD_CTRL_DIVISOR0 0x3 + + Control for a clock that will be generated in the LPD, but used in the FPD as a clock source for the peripheral clock muxes. + (OFFSET, MASK, VALUE) (0XFF5E0048, 0x00003F00U ,0x00000300U) + RegMask = (CRL_APB_RPLL_TO_FPD_CTRL_DIVISOR0_MASK | 0 ); + + RegVal = ((0x00000003U << CRL_APB_RPLL_TO_FPD_CTRL_DIVISOR0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_RPLL_TO_FPD_CTRL_OFFSET ,0x00003F00U ,0x00000300U); + /*############################################################################################################################ */ + + // : RPLL FRAC CFG + /*Register : RPLL_FRAC_CFG @ 0XFF5E0038

+ + Fractional SDM bypass control. When 0, PLL is in integer mode and it ignores all fractional data. When 1, PLL is in fractiona + mode and uses DATA of this register for the fractional portion of the feedback divider. + PSU_CRL_APB_RPLL_FRAC_CFG_ENABLED 0x0 + + Fractional value for the Feedback value. + PSU_CRL_APB_RPLL_FRAC_CFG_DATA 0x0 + + Fractional control for the PLL + (OFFSET, MASK, VALUE) (0XFF5E0038, 0x8000FFFFU ,0x00000000U) + RegMask = (CRL_APB_RPLL_FRAC_CFG_ENABLED_MASK | CRL_APB_RPLL_FRAC_CFG_DATA_MASK | 0 ); + + RegVal = ((0x00000000U << CRL_APB_RPLL_FRAC_CFG_ENABLED_SHIFT + | 0x00000000U << CRL_APB_RPLL_FRAC_CFG_DATA_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_RPLL_FRAC_CFG_OFFSET ,0x8000FFFFU ,0x00000000U); + /*############################################################################################################################ */ + + // : IOPLL INIT + /*Register : IOPLL_CFG @ 0XFF5E0024

+ + PLL loop filter resistor control + PSU_CRL_APB_IOPLL_CFG_RES 0xc + + PLL charge pump control + PSU_CRL_APB_IOPLL_CFG_CP 0x3 + + PLL loop filter high frequency capacitor control + PSU_CRL_APB_IOPLL_CFG_LFHF 0x3 + + Lock circuit counter setting + PSU_CRL_APB_IOPLL_CFG_LOCK_CNT 0x339 + + Lock circuit configuration settings for lock windowsize + PSU_CRL_APB_IOPLL_CFG_LOCK_DLY 0x3f + + Helper data. Values are to be looked up in a table from Data Sheet + (OFFSET, MASK, VALUE) (0XFF5E0024, 0xFE7FEDEFU ,0x7E672C6CU) + RegMask = (CRL_APB_IOPLL_CFG_RES_MASK | CRL_APB_IOPLL_CFG_CP_MASK | CRL_APB_IOPLL_CFG_LFHF_MASK | CRL_APB_IOPLL_CFG_LOCK_CNT_MASK | CRL_APB_IOPLL_CFG_LOCK_DLY_MASK | 0 ); + + RegVal = ((0x0000000CU << CRL_APB_IOPLL_CFG_RES_SHIFT + | 0x00000003U << CRL_APB_IOPLL_CFG_CP_SHIFT + | 0x00000003U << CRL_APB_IOPLL_CFG_LFHF_SHIFT + | 0x00000339U << CRL_APB_IOPLL_CFG_LOCK_CNT_SHIFT + | 0x0000003FU << CRL_APB_IOPLL_CFG_LOCK_DLY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_IOPLL_CFG_OFFSET ,0xFE7FEDEFU ,0x7E672C6CU); + /*############################################################################################################################ */ + + // : UPDATE FB_DIV + /*Register : IOPLL_CTRL @ 0XFF5E0020

+ + Mux select for determining which clock feeds this PLL. 0XX pss_ref_clk is the source 100 video clk is the source 101 pss_alt_ + ef_clk is the source 110 aux_refclk[X] is the source 111 gt_crx_ref_clk is the source + PSU_CRL_APB_IOPLL_CTRL_PRE_SRC 0x0 + + The integer portion of the feedback divider to the PLL + PSU_CRL_APB_IOPLL_CTRL_FBDIV 0x2d + + This turns on the divide by 2 that is inside of the PLL. This does not change the VCO frequency, just the output frequency + PSU_CRL_APB_IOPLL_CTRL_DIV2 0x0 + + PLL Basic Control + (OFFSET, MASK, VALUE) (0XFF5E0020, 0x00717F00U ,0x00002D00U) + RegMask = (CRL_APB_IOPLL_CTRL_PRE_SRC_MASK | CRL_APB_IOPLL_CTRL_FBDIV_MASK | CRL_APB_IOPLL_CTRL_DIV2_MASK | 0 ); + + RegVal = ((0x00000000U << CRL_APB_IOPLL_CTRL_PRE_SRC_SHIFT + | 0x0000002DU << CRL_APB_IOPLL_CTRL_FBDIV_SHIFT + | 0x00000000U << CRL_APB_IOPLL_CTRL_DIV2_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_IOPLL_CTRL_OFFSET ,0x00717F00U ,0x00002D00U); + /*############################################################################################################################ */ + + // : BY PASS PLL + /*Register : IOPLL_CTRL @ 0XFF5E0020

+ + Bypasses the PLL clock. The usable clock will be determined from the POST_SRC field. (This signal may only be toggled after 4 + cycles of the old clock and 4 cycles of the new clock. This is not usually an issue, but designers must be aware.) + PSU_CRL_APB_IOPLL_CTRL_BYPASS 1 + + PLL Basic Control + (OFFSET, MASK, VALUE) (0XFF5E0020, 0x00000008U ,0x00000008U) + RegMask = (CRL_APB_IOPLL_CTRL_BYPASS_MASK | 0 ); + + RegVal = ((0x00000001U << CRL_APB_IOPLL_CTRL_BYPASS_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_IOPLL_CTRL_OFFSET ,0x00000008U ,0x00000008U); + /*############################################################################################################################ */ + + // : ASSERT RESET + /*Register : IOPLL_CTRL @ 0XFF5E0020

+ + Asserts Reset to the PLL. When asserting reset, the PLL must already be in BYPASS. + PSU_CRL_APB_IOPLL_CTRL_RESET 1 + + PLL Basic Control + (OFFSET, MASK, VALUE) (0XFF5E0020, 0x00000001U ,0x00000001U) + RegMask = (CRL_APB_IOPLL_CTRL_RESET_MASK | 0 ); + + RegVal = ((0x00000001U << CRL_APB_IOPLL_CTRL_RESET_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_IOPLL_CTRL_OFFSET ,0x00000001U ,0x00000001U); + /*############################################################################################################################ */ + + // : DEASSERT RESET + /*Register : IOPLL_CTRL @ 0XFF5E0020

+ + Asserts Reset to the PLL. When asserting reset, the PLL must already be in BYPASS. + PSU_CRL_APB_IOPLL_CTRL_RESET 0 + + PLL Basic Control + (OFFSET, MASK, VALUE) (0XFF5E0020, 0x00000001U ,0x00000000U) + RegMask = (CRL_APB_IOPLL_CTRL_RESET_MASK | 0 ); + + RegVal = ((0x00000000U << CRL_APB_IOPLL_CTRL_RESET_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_IOPLL_CTRL_OFFSET ,0x00000001U ,0x00000000U); + /*############################################################################################################################ */ + + // : CHECK PLL STATUS + /*Register : PLL_STATUS @ 0XFF5E0040

+ + IOPLL is locked + PSU_CRL_APB_PLL_STATUS_IOPLL_LOCK 1 + (OFFSET, MASK, VALUE) (0XFF5E0040, 0x00000001U ,0x00000001U) */ + mask_poll(CRL_APB_PLL_STATUS_OFFSET,0x00000001U); + + /*############################################################################################################################ */ + + // : REMOVE PLL BY PASS + /*Register : IOPLL_CTRL @ 0XFF5E0020

+ + Bypasses the PLL clock. The usable clock will be determined from the POST_SRC field. (This signal may only be toggled after 4 + cycles of the old clock and 4 cycles of the new clock. This is not usually an issue, but designers must be aware.) + PSU_CRL_APB_IOPLL_CTRL_BYPASS 0 + + PLL Basic Control + (OFFSET, MASK, VALUE) (0XFF5E0020, 0x00000008U ,0x00000000U) + RegMask = (CRL_APB_IOPLL_CTRL_BYPASS_MASK | 0 ); + + RegVal = ((0x00000000U << CRL_APB_IOPLL_CTRL_BYPASS_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_IOPLL_CTRL_OFFSET ,0x00000008U ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : IOPLL_TO_FPD_CTRL @ 0XFF5E0044

+ + Divisor value for this clock. + PSU_CRL_APB_IOPLL_TO_FPD_CTRL_DIVISOR0 0x3 + + Control for a clock that will be generated in the LPD, but used in the FPD as a clock source for the peripheral clock muxes. + (OFFSET, MASK, VALUE) (0XFF5E0044, 0x00003F00U ,0x00000300U) + RegMask = (CRL_APB_IOPLL_TO_FPD_CTRL_DIVISOR0_MASK | 0 ); + + RegVal = ((0x00000003U << CRL_APB_IOPLL_TO_FPD_CTRL_DIVISOR0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_IOPLL_TO_FPD_CTRL_OFFSET ,0x00003F00U ,0x00000300U); + /*############################################################################################################################ */ + + // : IOPLL FRAC CFG + /*Register : IOPLL_FRAC_CFG @ 0XFF5E0028

+ + Fractional SDM bypass control. When 0, PLL is in integer mode and it ignores all fractional data. When 1, PLL is in fractiona + mode and uses DATA of this register for the fractional portion of the feedback divider. + PSU_CRL_APB_IOPLL_FRAC_CFG_ENABLED 0x0 + + Fractional value for the Feedback value. + PSU_CRL_APB_IOPLL_FRAC_CFG_DATA 0x0 + + Fractional control for the PLL + (OFFSET, MASK, VALUE) (0XFF5E0028, 0x8000FFFFU ,0x00000000U) + RegMask = (CRL_APB_IOPLL_FRAC_CFG_ENABLED_MASK | CRL_APB_IOPLL_FRAC_CFG_DATA_MASK | 0 ); + + RegVal = ((0x00000000U << CRL_APB_IOPLL_FRAC_CFG_ENABLED_SHIFT + | 0x00000000U << CRL_APB_IOPLL_FRAC_CFG_DATA_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_IOPLL_FRAC_CFG_OFFSET ,0x8000FFFFU ,0x00000000U); + /*############################################################################################################################ */ + + // : APU_PLL INIT + /*Register : APLL_CFG @ 0XFD1A0024

+ + PLL loop filter resistor control + PSU_CRF_APB_APLL_CFG_RES 0x2 + + PLL charge pump control + PSU_CRF_APB_APLL_CFG_CP 0x3 + + PLL loop filter high frequency capacitor control + PSU_CRF_APB_APLL_CFG_LFHF 0x3 + + Lock circuit counter setting + PSU_CRF_APB_APLL_CFG_LOCK_CNT 0x258 + + Lock circuit configuration settings for lock windowsize + PSU_CRF_APB_APLL_CFG_LOCK_DLY 0x3f + + Helper data. Values are to be looked up in a table from Data Sheet + (OFFSET, MASK, VALUE) (0XFD1A0024, 0xFE7FEDEFU ,0x7E4B0C62U) + RegMask = (CRF_APB_APLL_CFG_RES_MASK | CRF_APB_APLL_CFG_CP_MASK | CRF_APB_APLL_CFG_LFHF_MASK | CRF_APB_APLL_CFG_LOCK_CNT_MASK | CRF_APB_APLL_CFG_LOCK_DLY_MASK | 0 ); + + RegVal = ((0x00000002U << CRF_APB_APLL_CFG_RES_SHIFT + | 0x00000003U << CRF_APB_APLL_CFG_CP_SHIFT + | 0x00000003U << CRF_APB_APLL_CFG_LFHF_SHIFT + | 0x00000258U << CRF_APB_APLL_CFG_LOCK_CNT_SHIFT + | 0x0000003FU << CRF_APB_APLL_CFG_LOCK_DLY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRF_APB_APLL_CFG_OFFSET ,0xFE7FEDEFU ,0x7E4B0C62U); + /*############################################################################################################################ */ + + // : UPDATE FB_DIV + /*Register : APLL_CTRL @ 0XFD1A0020

+ + Mux select for determining which clock feeds this PLL. 0XX pss_ref_clk is the source 100 video clk is the source 101 pss_alt_ + ef_clk is the source 110 aux_refclk[X] is the source 111 gt_crx_ref_clk is the source + PSU_CRF_APB_APLL_CTRL_PRE_SRC 0x0 + + The integer portion of the feedback divider to the PLL + PSU_CRF_APB_APLL_CTRL_FBDIV 0x48 + + This turns on the divide by 2 that is inside of the PLL. This does not change the VCO frequency, just the output frequency + PSU_CRF_APB_APLL_CTRL_DIV2 0x1 + + PLL Basic Control + (OFFSET, MASK, VALUE) (0XFD1A0020, 0x00717F00U ,0x00014800U) + RegMask = (CRF_APB_APLL_CTRL_PRE_SRC_MASK | CRF_APB_APLL_CTRL_FBDIV_MASK | CRF_APB_APLL_CTRL_DIV2_MASK | 0 ); + + RegVal = ((0x00000000U << CRF_APB_APLL_CTRL_PRE_SRC_SHIFT + | 0x00000048U << CRF_APB_APLL_CTRL_FBDIV_SHIFT + | 0x00000001U << CRF_APB_APLL_CTRL_DIV2_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRF_APB_APLL_CTRL_OFFSET ,0x00717F00U ,0x00014800U); + /*############################################################################################################################ */ + + // : BY PASS PLL + /*Register : APLL_CTRL @ 0XFD1A0020

+ + Bypasses the PLL clock. The usable clock will be determined from the POST_SRC field. (This signal may only be toggled after 4 + cycles of the old clock and 4 cycles of the new clock. This is not usually an issue, but designers must be aware.) + PSU_CRF_APB_APLL_CTRL_BYPASS 1 + + PLL Basic Control + (OFFSET, MASK, VALUE) (0XFD1A0020, 0x00000008U ,0x00000008U) + RegMask = (CRF_APB_APLL_CTRL_BYPASS_MASK | 0 ); + + RegVal = ((0x00000001U << CRF_APB_APLL_CTRL_BYPASS_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRF_APB_APLL_CTRL_OFFSET ,0x00000008U ,0x00000008U); + /*############################################################################################################################ */ + + // : ASSERT RESET + /*Register : APLL_CTRL @ 0XFD1A0020

+ + Asserts Reset to the PLL. When asserting reset, the PLL must already be in BYPASS. + PSU_CRF_APB_APLL_CTRL_RESET 1 + + PLL Basic Control + (OFFSET, MASK, VALUE) (0XFD1A0020, 0x00000001U ,0x00000001U) + RegMask = (CRF_APB_APLL_CTRL_RESET_MASK | 0 ); + + RegVal = ((0x00000001U << CRF_APB_APLL_CTRL_RESET_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRF_APB_APLL_CTRL_OFFSET ,0x00000001U ,0x00000001U); + /*############################################################################################################################ */ + + // : DEASSERT RESET + /*Register : APLL_CTRL @ 0XFD1A0020

+ + Asserts Reset to the PLL. When asserting reset, the PLL must already be in BYPASS. + PSU_CRF_APB_APLL_CTRL_RESET 0 + + PLL Basic Control + (OFFSET, MASK, VALUE) (0XFD1A0020, 0x00000001U ,0x00000000U) + RegMask = (CRF_APB_APLL_CTRL_RESET_MASK | 0 ); + + RegVal = ((0x00000000U << CRF_APB_APLL_CTRL_RESET_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRF_APB_APLL_CTRL_OFFSET ,0x00000001U ,0x00000000U); + /*############################################################################################################################ */ + + // : CHECK PLL STATUS + /*Register : PLL_STATUS @ 0XFD1A0044

+ + APLL is locked + PSU_CRF_APB_PLL_STATUS_APLL_LOCK 1 + (OFFSET, MASK, VALUE) (0XFD1A0044, 0x00000001U ,0x00000001U) */ + mask_poll(CRF_APB_PLL_STATUS_OFFSET,0x00000001U); + + /*############################################################################################################################ */ + + // : REMOVE PLL BY PASS + /*Register : APLL_CTRL @ 0XFD1A0020

+ + Bypasses the PLL clock. The usable clock will be determined from the POST_SRC field. (This signal may only be toggled after 4 + cycles of the old clock and 4 cycles of the new clock. This is not usually an issue, but designers must be aware.) + PSU_CRF_APB_APLL_CTRL_BYPASS 0 + + PLL Basic Control + (OFFSET, MASK, VALUE) (0XFD1A0020, 0x00000008U ,0x00000000U) + RegMask = (CRF_APB_APLL_CTRL_BYPASS_MASK | 0 ); + + RegVal = ((0x00000000U << CRF_APB_APLL_CTRL_BYPASS_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRF_APB_APLL_CTRL_OFFSET ,0x00000008U ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : APLL_TO_LPD_CTRL @ 0XFD1A0048

+ + Divisor value for this clock. + PSU_CRF_APB_APLL_TO_LPD_CTRL_DIVISOR0 0x3 + + Control for a clock that will be generated in the FPD, but used in the LPD as a clock source for the peripheral clock muxes. + (OFFSET, MASK, VALUE) (0XFD1A0048, 0x00003F00U ,0x00000300U) + RegMask = (CRF_APB_APLL_TO_LPD_CTRL_DIVISOR0_MASK | 0 ); + + RegVal = ((0x00000003U << CRF_APB_APLL_TO_LPD_CTRL_DIVISOR0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRF_APB_APLL_TO_LPD_CTRL_OFFSET ,0x00003F00U ,0x00000300U); + /*############################################################################################################################ */ + + // : APLL FRAC CFG + /*Register : APLL_FRAC_CFG @ 0XFD1A0028

+ + Fractional SDM bypass control. When 0, PLL is in integer mode and it ignores all fractional data. When 1, PLL is in fractiona + mode and uses DATA of this register for the fractional portion of the feedback divider. + PSU_CRF_APB_APLL_FRAC_CFG_ENABLED 0x0 + + Fractional value for the Feedback value. + PSU_CRF_APB_APLL_FRAC_CFG_DATA 0x0 + + Fractional control for the PLL + (OFFSET, MASK, VALUE) (0XFD1A0028, 0x8000FFFFU ,0x00000000U) + RegMask = (CRF_APB_APLL_FRAC_CFG_ENABLED_MASK | CRF_APB_APLL_FRAC_CFG_DATA_MASK | 0 ); + + RegVal = ((0x00000000U << CRF_APB_APLL_FRAC_CFG_ENABLED_SHIFT + | 0x00000000U << CRF_APB_APLL_FRAC_CFG_DATA_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRF_APB_APLL_FRAC_CFG_OFFSET ,0x8000FFFFU ,0x00000000U); + /*############################################################################################################################ */ + + // : DDR_PLL INIT + /*Register : DPLL_CFG @ 0XFD1A0030

+ + PLL loop filter resistor control + PSU_CRF_APB_DPLL_CFG_RES 0x2 + + PLL charge pump control + PSU_CRF_APB_DPLL_CFG_CP 0x3 + + PLL loop filter high frequency capacitor control + PSU_CRF_APB_DPLL_CFG_LFHF 0x3 + + Lock circuit counter setting + PSU_CRF_APB_DPLL_CFG_LOCK_CNT 0x258 + + Lock circuit configuration settings for lock windowsize + PSU_CRF_APB_DPLL_CFG_LOCK_DLY 0x3f + + Helper data. Values are to be looked up in a table from Data Sheet + (OFFSET, MASK, VALUE) (0XFD1A0030, 0xFE7FEDEFU ,0x7E4B0C62U) + RegMask = (CRF_APB_DPLL_CFG_RES_MASK | CRF_APB_DPLL_CFG_CP_MASK | CRF_APB_DPLL_CFG_LFHF_MASK | CRF_APB_DPLL_CFG_LOCK_CNT_MASK | CRF_APB_DPLL_CFG_LOCK_DLY_MASK | 0 ); + + RegVal = ((0x00000002U << CRF_APB_DPLL_CFG_RES_SHIFT + | 0x00000003U << CRF_APB_DPLL_CFG_CP_SHIFT + | 0x00000003U << CRF_APB_DPLL_CFG_LFHF_SHIFT + | 0x00000258U << CRF_APB_DPLL_CFG_LOCK_CNT_SHIFT + | 0x0000003FU << CRF_APB_DPLL_CFG_LOCK_DLY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRF_APB_DPLL_CFG_OFFSET ,0xFE7FEDEFU ,0x7E4B0C62U); + /*############################################################################################################################ */ + + // : UPDATE FB_DIV + /*Register : DPLL_CTRL @ 0XFD1A002C

+ + Mux select for determining which clock feeds this PLL. 0XX pss_ref_clk is the source 100 video clk is the source 101 pss_alt_ + ef_clk is the source 110 aux_refclk[X] is the source 111 gt_crx_ref_clk is the source + PSU_CRF_APB_DPLL_CTRL_PRE_SRC 0x0 + + The integer portion of the feedback divider to the PLL + PSU_CRF_APB_DPLL_CTRL_FBDIV 0x40 + + This turns on the divide by 2 that is inside of the PLL. This does not change the VCO frequency, just the output frequency + PSU_CRF_APB_DPLL_CTRL_DIV2 0x1 + + PLL Basic Control + (OFFSET, MASK, VALUE) (0XFD1A002C, 0x00717F00U ,0x00014000U) + RegMask = (CRF_APB_DPLL_CTRL_PRE_SRC_MASK | CRF_APB_DPLL_CTRL_FBDIV_MASK | CRF_APB_DPLL_CTRL_DIV2_MASK | 0 ); + + RegVal = ((0x00000000U << CRF_APB_DPLL_CTRL_PRE_SRC_SHIFT + | 0x00000040U << CRF_APB_DPLL_CTRL_FBDIV_SHIFT + | 0x00000001U << CRF_APB_DPLL_CTRL_DIV2_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRF_APB_DPLL_CTRL_OFFSET ,0x00717F00U ,0x00014000U); + /*############################################################################################################################ */ + + // : BY PASS PLL + /*Register : DPLL_CTRL @ 0XFD1A002C

+ + Bypasses the PLL clock. The usable clock will be determined from the POST_SRC field. (This signal may only be toggled after 4 + cycles of the old clock and 4 cycles of the new clock. This is not usually an issue, but designers must be aware.) + PSU_CRF_APB_DPLL_CTRL_BYPASS 1 + + PLL Basic Control + (OFFSET, MASK, VALUE) (0XFD1A002C, 0x00000008U ,0x00000008U) + RegMask = (CRF_APB_DPLL_CTRL_BYPASS_MASK | 0 ); + + RegVal = ((0x00000001U << CRF_APB_DPLL_CTRL_BYPASS_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRF_APB_DPLL_CTRL_OFFSET ,0x00000008U ,0x00000008U); + /*############################################################################################################################ */ + + // : ASSERT RESET + /*Register : DPLL_CTRL @ 0XFD1A002C

+ + Asserts Reset to the PLL. When asserting reset, the PLL must already be in BYPASS. + PSU_CRF_APB_DPLL_CTRL_RESET 1 + + PLL Basic Control + (OFFSET, MASK, VALUE) (0XFD1A002C, 0x00000001U ,0x00000001U) + RegMask = (CRF_APB_DPLL_CTRL_RESET_MASK | 0 ); + + RegVal = ((0x00000001U << CRF_APB_DPLL_CTRL_RESET_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRF_APB_DPLL_CTRL_OFFSET ,0x00000001U ,0x00000001U); + /*############################################################################################################################ */ + + // : DEASSERT RESET + /*Register : DPLL_CTRL @ 0XFD1A002C

+ + Asserts Reset to the PLL. When asserting reset, the PLL must already be in BYPASS. + PSU_CRF_APB_DPLL_CTRL_RESET 0 + + PLL Basic Control + (OFFSET, MASK, VALUE) (0XFD1A002C, 0x00000001U ,0x00000000U) + RegMask = (CRF_APB_DPLL_CTRL_RESET_MASK | 0 ); + + RegVal = ((0x00000000U << CRF_APB_DPLL_CTRL_RESET_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRF_APB_DPLL_CTRL_OFFSET ,0x00000001U ,0x00000000U); + /*############################################################################################################################ */ + + // : CHECK PLL STATUS + /*Register : PLL_STATUS @ 0XFD1A0044

+ + DPLL is locked + PSU_CRF_APB_PLL_STATUS_DPLL_LOCK 1 + (OFFSET, MASK, VALUE) (0XFD1A0044, 0x00000002U ,0x00000002U) */ + mask_poll(CRF_APB_PLL_STATUS_OFFSET,0x00000002U); + + /*############################################################################################################################ */ + + // : REMOVE PLL BY PASS + /*Register : DPLL_CTRL @ 0XFD1A002C

+ + Bypasses the PLL clock. The usable clock will be determined from the POST_SRC field. (This signal may only be toggled after 4 + cycles of the old clock and 4 cycles of the new clock. This is not usually an issue, but designers must be aware.) + PSU_CRF_APB_DPLL_CTRL_BYPASS 0 + + PLL Basic Control + (OFFSET, MASK, VALUE) (0XFD1A002C, 0x00000008U ,0x00000000U) + RegMask = (CRF_APB_DPLL_CTRL_BYPASS_MASK | 0 ); + + RegVal = ((0x00000000U << CRF_APB_DPLL_CTRL_BYPASS_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRF_APB_DPLL_CTRL_OFFSET ,0x00000008U ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : DPLL_TO_LPD_CTRL @ 0XFD1A004C

+ + Divisor value for this clock. + PSU_CRF_APB_DPLL_TO_LPD_CTRL_DIVISOR0 0x3 + + Control for a clock that will be generated in the FPD, but used in the LPD as a clock source for the peripheral clock muxes. + (OFFSET, MASK, VALUE) (0XFD1A004C, 0x00003F00U ,0x00000300U) + RegMask = (CRF_APB_DPLL_TO_LPD_CTRL_DIVISOR0_MASK | 0 ); + + RegVal = ((0x00000003U << CRF_APB_DPLL_TO_LPD_CTRL_DIVISOR0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRF_APB_DPLL_TO_LPD_CTRL_OFFSET ,0x00003F00U ,0x00000300U); + /*############################################################################################################################ */ + + // : DPLL FRAC CFG + /*Register : DPLL_FRAC_CFG @ 0XFD1A0034

+ + Fractional SDM bypass control. When 0, PLL is in integer mode and it ignores all fractional data. When 1, PLL is in fractiona + mode and uses DATA of this register for the fractional portion of the feedback divider. + PSU_CRF_APB_DPLL_FRAC_CFG_ENABLED 0x0 + + Fractional value for the Feedback value. + PSU_CRF_APB_DPLL_FRAC_CFG_DATA 0x0 + + Fractional control for the PLL + (OFFSET, MASK, VALUE) (0XFD1A0034, 0x8000FFFFU ,0x00000000U) + RegMask = (CRF_APB_DPLL_FRAC_CFG_ENABLED_MASK | CRF_APB_DPLL_FRAC_CFG_DATA_MASK | 0 ); + + RegVal = ((0x00000000U << CRF_APB_DPLL_FRAC_CFG_ENABLED_SHIFT + | 0x00000000U << CRF_APB_DPLL_FRAC_CFG_DATA_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRF_APB_DPLL_FRAC_CFG_OFFSET ,0x8000FFFFU ,0x00000000U); + /*############################################################################################################################ */ + + // : VIDEO_PLL INIT + /*Register : VPLL_CFG @ 0XFD1A003C

+ + PLL loop filter resistor control + PSU_CRF_APB_VPLL_CFG_RES 0x2 + + PLL charge pump control + PSU_CRF_APB_VPLL_CFG_CP 0x3 + + PLL loop filter high frequency capacitor control + PSU_CRF_APB_VPLL_CFG_LFHF 0x3 + + Lock circuit counter setting + PSU_CRF_APB_VPLL_CFG_LOCK_CNT 0x28a + + Lock circuit configuration settings for lock windowsize + PSU_CRF_APB_VPLL_CFG_LOCK_DLY 0x3f + + Helper data. Values are to be looked up in a table from Data Sheet + (OFFSET, MASK, VALUE) (0XFD1A003C, 0xFE7FEDEFU ,0x7E514C62U) + RegMask = (CRF_APB_VPLL_CFG_RES_MASK | CRF_APB_VPLL_CFG_CP_MASK | CRF_APB_VPLL_CFG_LFHF_MASK | CRF_APB_VPLL_CFG_LOCK_CNT_MASK | CRF_APB_VPLL_CFG_LOCK_DLY_MASK | 0 ); + + RegVal = ((0x00000002U << CRF_APB_VPLL_CFG_RES_SHIFT + | 0x00000003U << CRF_APB_VPLL_CFG_CP_SHIFT + | 0x00000003U << CRF_APB_VPLL_CFG_LFHF_SHIFT + | 0x0000028AU << CRF_APB_VPLL_CFG_LOCK_CNT_SHIFT + | 0x0000003FU << CRF_APB_VPLL_CFG_LOCK_DLY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRF_APB_VPLL_CFG_OFFSET ,0xFE7FEDEFU ,0x7E514C62U); + /*############################################################################################################################ */ + + // : UPDATE FB_DIV + /*Register : VPLL_CTRL @ 0XFD1A0038

+ + Mux select for determining which clock feeds this PLL. 0XX pss_ref_clk is the source 100 video clk is the source 101 pss_alt_ + ef_clk is the source 110 aux_refclk[X] is the source 111 gt_crx_ref_clk is the source + PSU_CRF_APB_VPLL_CTRL_PRE_SRC 0x0 + + The integer portion of the feedback divider to the PLL + PSU_CRF_APB_VPLL_CTRL_FBDIV 0x39 + + This turns on the divide by 2 that is inside of the PLL. This does not change the VCO frequency, just the output frequency + PSU_CRF_APB_VPLL_CTRL_DIV2 0x1 + + PLL Basic Control + (OFFSET, MASK, VALUE) (0XFD1A0038, 0x00717F00U ,0x00013900U) + RegMask = (CRF_APB_VPLL_CTRL_PRE_SRC_MASK | CRF_APB_VPLL_CTRL_FBDIV_MASK | CRF_APB_VPLL_CTRL_DIV2_MASK | 0 ); + + RegVal = ((0x00000000U << CRF_APB_VPLL_CTRL_PRE_SRC_SHIFT + | 0x00000039U << CRF_APB_VPLL_CTRL_FBDIV_SHIFT + | 0x00000001U << CRF_APB_VPLL_CTRL_DIV2_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRF_APB_VPLL_CTRL_OFFSET ,0x00717F00U ,0x00013900U); + /*############################################################################################################################ */ + + // : BY PASS PLL + /*Register : VPLL_CTRL @ 0XFD1A0038

+ + Bypasses the PLL clock. The usable clock will be determined from the POST_SRC field. (This signal may only be toggled after 4 + cycles of the old clock and 4 cycles of the new clock. This is not usually an issue, but designers must be aware.) + PSU_CRF_APB_VPLL_CTRL_BYPASS 1 + + PLL Basic Control + (OFFSET, MASK, VALUE) (0XFD1A0038, 0x00000008U ,0x00000008U) + RegMask = (CRF_APB_VPLL_CTRL_BYPASS_MASK | 0 ); + + RegVal = ((0x00000001U << CRF_APB_VPLL_CTRL_BYPASS_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRF_APB_VPLL_CTRL_OFFSET ,0x00000008U ,0x00000008U); + /*############################################################################################################################ */ + + // : ASSERT RESET + /*Register : VPLL_CTRL @ 0XFD1A0038

+ + Asserts Reset to the PLL. When asserting reset, the PLL must already be in BYPASS. + PSU_CRF_APB_VPLL_CTRL_RESET 1 + + PLL Basic Control + (OFFSET, MASK, VALUE) (0XFD1A0038, 0x00000001U ,0x00000001U) + RegMask = (CRF_APB_VPLL_CTRL_RESET_MASK | 0 ); + + RegVal = ((0x00000001U << CRF_APB_VPLL_CTRL_RESET_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRF_APB_VPLL_CTRL_OFFSET ,0x00000001U ,0x00000001U); + /*############################################################################################################################ */ + + // : DEASSERT RESET + /*Register : VPLL_CTRL @ 0XFD1A0038

+ + Asserts Reset to the PLL. When asserting reset, the PLL must already be in BYPASS. + PSU_CRF_APB_VPLL_CTRL_RESET 0 + + PLL Basic Control + (OFFSET, MASK, VALUE) (0XFD1A0038, 0x00000001U ,0x00000000U) + RegMask = (CRF_APB_VPLL_CTRL_RESET_MASK | 0 ); + + RegVal = ((0x00000000U << CRF_APB_VPLL_CTRL_RESET_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRF_APB_VPLL_CTRL_OFFSET ,0x00000001U ,0x00000000U); + /*############################################################################################################################ */ + + // : CHECK PLL STATUS + /*Register : PLL_STATUS @ 0XFD1A0044

+ + VPLL is locked + PSU_CRF_APB_PLL_STATUS_VPLL_LOCK 1 + (OFFSET, MASK, VALUE) (0XFD1A0044, 0x00000004U ,0x00000004U) */ + mask_poll(CRF_APB_PLL_STATUS_OFFSET,0x00000004U); + + /*############################################################################################################################ */ + + // : REMOVE PLL BY PASS + /*Register : VPLL_CTRL @ 0XFD1A0038

+ + Bypasses the PLL clock. The usable clock will be determined from the POST_SRC field. (This signal may only be toggled after 4 + cycles of the old clock and 4 cycles of the new clock. This is not usually an issue, but designers must be aware.) + PSU_CRF_APB_VPLL_CTRL_BYPASS 0 + + PLL Basic Control + (OFFSET, MASK, VALUE) (0XFD1A0038, 0x00000008U ,0x00000000U) + RegMask = (CRF_APB_VPLL_CTRL_BYPASS_MASK | 0 ); + + RegVal = ((0x00000000U << CRF_APB_VPLL_CTRL_BYPASS_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRF_APB_VPLL_CTRL_OFFSET ,0x00000008U ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : VPLL_TO_LPD_CTRL @ 0XFD1A0050

+ + Divisor value for this clock. + PSU_CRF_APB_VPLL_TO_LPD_CTRL_DIVISOR0 0x3 + + Control for a clock that will be generated in the FPD, but used in the LPD as a clock source for the peripheral clock muxes. + (OFFSET, MASK, VALUE) (0XFD1A0050, 0x00003F00U ,0x00000300U) + RegMask = (CRF_APB_VPLL_TO_LPD_CTRL_DIVISOR0_MASK | 0 ); + + RegVal = ((0x00000003U << CRF_APB_VPLL_TO_LPD_CTRL_DIVISOR0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRF_APB_VPLL_TO_LPD_CTRL_OFFSET ,0x00003F00U ,0x00000300U); + /*############################################################################################################################ */ + + // : VIDEO FRAC CFG + /*Register : VPLL_FRAC_CFG @ 0XFD1A0040

+ + Fractional SDM bypass control. When 0, PLL is in integer mode and it ignores all fractional data. When 1, PLL is in fractiona + mode and uses DATA of this register for the fractional portion of the feedback divider. + PSU_CRF_APB_VPLL_FRAC_CFG_ENABLED 0x1 + + Fractional value for the Feedback value. + PSU_CRF_APB_VPLL_FRAC_CFG_DATA 0x820c + + Fractional control for the PLL + (OFFSET, MASK, VALUE) (0XFD1A0040, 0x8000FFFFU ,0x8000820CU) + RegMask = (CRF_APB_VPLL_FRAC_CFG_ENABLED_MASK | CRF_APB_VPLL_FRAC_CFG_DATA_MASK | 0 ); + + RegVal = ((0x00000001U << CRF_APB_VPLL_FRAC_CFG_ENABLED_SHIFT + | 0x0000820CU << CRF_APB_VPLL_FRAC_CFG_DATA_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRF_APB_VPLL_FRAC_CFG_OFFSET ,0x8000FFFFU ,0x8000820CU); + /*############################################################################################################################ */ + + + return 1; +} +unsigned long psu_clock_init_data() { + // : CLOCK CONTROL SLCR REGISTER + /*Register : GEM3_REF_CTRL @ 0XFF5E005C

+ + Clock active for the RX channel + PSU_CRL_APB_GEM3_REF_CTRL_RX_CLKACT 0x1 + + Clock active signal. Switch to 0 to disable the clock + PSU_CRL_APB_GEM3_REF_CTRL_CLKACT 0x1 + + 6 bit divider + PSU_CRL_APB_GEM3_REF_CTRL_DIVISOR1 0x1 + + 6 bit divider + PSU_CRL_APB_GEM3_REF_CTRL_DIVISOR0 0xc + + 000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + clock. This is not usually an issue, but designers must be aware.) + PSU_CRL_APB_GEM3_REF_CTRL_SRCSEL 0x0 + + This register controls this reference clock + (OFFSET, MASK, VALUE) (0XFF5E005C, 0x063F3F07U ,0x06010C00U) + RegMask = (CRL_APB_GEM3_REF_CTRL_RX_CLKACT_MASK | CRL_APB_GEM3_REF_CTRL_CLKACT_MASK | CRL_APB_GEM3_REF_CTRL_DIVISOR1_MASK | CRL_APB_GEM3_REF_CTRL_DIVISOR0_MASK | CRL_APB_GEM3_REF_CTRL_SRCSEL_MASK | 0 ); + + RegVal = ((0x00000001U << CRL_APB_GEM3_REF_CTRL_RX_CLKACT_SHIFT + | 0x00000001U << CRL_APB_GEM3_REF_CTRL_CLKACT_SHIFT + | 0x00000001U << CRL_APB_GEM3_REF_CTRL_DIVISOR1_SHIFT + | 0x0000000CU << CRL_APB_GEM3_REF_CTRL_DIVISOR0_SHIFT + | 0x00000000U << CRL_APB_GEM3_REF_CTRL_SRCSEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_GEM3_REF_CTRL_OFFSET ,0x063F3F07U ,0x06010C00U); + /*############################################################################################################################ */ + + /*Register : USB0_BUS_REF_CTRL @ 0XFF5E0060

+ + Clock active signal. Switch to 0 to disable the clock + PSU_CRL_APB_USB0_BUS_REF_CTRL_CLKACT 0x1 + + 6 bit divider + PSU_CRL_APB_USB0_BUS_REF_CTRL_DIVISOR1 0x1 + + 6 bit divider + PSU_CRL_APB_USB0_BUS_REF_CTRL_DIVISOR0 0x6 + + 000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + clock. This is not usually an issue, but designers must be aware.) + PSU_CRL_APB_USB0_BUS_REF_CTRL_SRCSEL 0x0 + + This register controls this reference clock + (OFFSET, MASK, VALUE) (0XFF5E0060, 0x023F3F07U ,0x02010600U) + RegMask = (CRL_APB_USB0_BUS_REF_CTRL_CLKACT_MASK | CRL_APB_USB0_BUS_REF_CTRL_DIVISOR1_MASK | CRL_APB_USB0_BUS_REF_CTRL_DIVISOR0_MASK | CRL_APB_USB0_BUS_REF_CTRL_SRCSEL_MASK | 0 ); + + RegVal = ((0x00000001U << CRL_APB_USB0_BUS_REF_CTRL_CLKACT_SHIFT + | 0x00000001U << CRL_APB_USB0_BUS_REF_CTRL_DIVISOR1_SHIFT + | 0x00000006U << CRL_APB_USB0_BUS_REF_CTRL_DIVISOR0_SHIFT + | 0x00000000U << CRL_APB_USB0_BUS_REF_CTRL_SRCSEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_USB0_BUS_REF_CTRL_OFFSET ,0x023F3F07U ,0x02010600U); + /*############################################################################################################################ */ + + /*Register : USB3_DUAL_REF_CTRL @ 0XFF5E004C

+ + Clock active signal. Switch to 0 to disable the clock + PSU_CRL_APB_USB3_DUAL_REF_CTRL_CLKACT 0x1 + + 6 bit divider + PSU_CRL_APB_USB3_DUAL_REF_CTRL_DIVISOR1 0xf + + 6 bit divider + PSU_CRL_APB_USB3_DUAL_REF_CTRL_DIVISOR0 0x5 + + 000 = IOPLL; 010 = RPLL; 011 = DPLL. (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + clock. This is not usually an issue, but designers must be aware.) + PSU_CRL_APB_USB3_DUAL_REF_CTRL_SRCSEL 0x0 + + This register controls this reference clock + (OFFSET, MASK, VALUE) (0XFF5E004C, 0x023F3F07U ,0x020F0500U) + RegMask = (CRL_APB_USB3_DUAL_REF_CTRL_CLKACT_MASK | CRL_APB_USB3_DUAL_REF_CTRL_DIVISOR1_MASK | CRL_APB_USB3_DUAL_REF_CTRL_DIVISOR0_MASK | CRL_APB_USB3_DUAL_REF_CTRL_SRCSEL_MASK | 0 ); + + RegVal = ((0x00000001U << CRL_APB_USB3_DUAL_REF_CTRL_CLKACT_SHIFT + | 0x0000000FU << CRL_APB_USB3_DUAL_REF_CTRL_DIVISOR1_SHIFT + | 0x00000005U << CRL_APB_USB3_DUAL_REF_CTRL_DIVISOR0_SHIFT + | 0x00000000U << CRL_APB_USB3_DUAL_REF_CTRL_SRCSEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_USB3_DUAL_REF_CTRL_OFFSET ,0x023F3F07U ,0x020F0500U); + /*############################################################################################################################ */ + + /*Register : QSPI_REF_CTRL @ 0XFF5E0068

+ + Clock active signal. Switch to 0 to disable the clock + PSU_CRL_APB_QSPI_REF_CTRL_CLKACT 0x1 + + 6 bit divider + PSU_CRL_APB_QSPI_REF_CTRL_DIVISOR1 0x1 + + 6 bit divider + PSU_CRL_APB_QSPI_REF_CTRL_DIVISOR0 0xc + + 000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + clock. This is not usually an issue, but designers must be aware.) + PSU_CRL_APB_QSPI_REF_CTRL_SRCSEL 0x0 + + This register controls this reference clock + (OFFSET, MASK, VALUE) (0XFF5E0068, 0x013F3F07U ,0x01010C00U) + RegMask = (CRL_APB_QSPI_REF_CTRL_CLKACT_MASK | CRL_APB_QSPI_REF_CTRL_DIVISOR1_MASK | CRL_APB_QSPI_REF_CTRL_DIVISOR0_MASK | CRL_APB_QSPI_REF_CTRL_SRCSEL_MASK | 0 ); + + RegVal = ((0x00000001U << CRL_APB_QSPI_REF_CTRL_CLKACT_SHIFT + | 0x00000001U << CRL_APB_QSPI_REF_CTRL_DIVISOR1_SHIFT + | 0x0000000CU << CRL_APB_QSPI_REF_CTRL_DIVISOR0_SHIFT + | 0x00000000U << CRL_APB_QSPI_REF_CTRL_SRCSEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_QSPI_REF_CTRL_OFFSET ,0x013F3F07U ,0x01010C00U); + /*############################################################################################################################ */ + + /*Register : SDIO1_REF_CTRL @ 0XFF5E0070

+ + Clock active signal. Switch to 0 to disable the clock + PSU_CRL_APB_SDIO1_REF_CTRL_CLKACT 0x1 + + 6 bit divider + PSU_CRL_APB_SDIO1_REF_CTRL_DIVISOR1 0x1 + + 6 bit divider + PSU_CRL_APB_SDIO1_REF_CTRL_DIVISOR0 0x6 + + 000 = IOPLL; 010 = RPLL; 011 = VPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + clock. This is not usually an issue, but designers must be aware.) + PSU_CRL_APB_SDIO1_REF_CTRL_SRCSEL 0x2 + + This register controls this reference clock + (OFFSET, MASK, VALUE) (0XFF5E0070, 0x013F3F07U ,0x01010602U) + RegMask = (CRL_APB_SDIO1_REF_CTRL_CLKACT_MASK | CRL_APB_SDIO1_REF_CTRL_DIVISOR1_MASK | CRL_APB_SDIO1_REF_CTRL_DIVISOR0_MASK | CRL_APB_SDIO1_REF_CTRL_SRCSEL_MASK | 0 ); + + RegVal = ((0x00000001U << CRL_APB_SDIO1_REF_CTRL_CLKACT_SHIFT + | 0x00000001U << CRL_APB_SDIO1_REF_CTRL_DIVISOR1_SHIFT + | 0x00000006U << CRL_APB_SDIO1_REF_CTRL_DIVISOR0_SHIFT + | 0x00000002U << CRL_APB_SDIO1_REF_CTRL_SRCSEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_SDIO1_REF_CTRL_OFFSET ,0x013F3F07U ,0x01010602U); + /*############################################################################################################################ */ + + /*Register : SDIO_CLK_CTRL @ 0XFF18030C

+ + MIO pad selection for sdio1_rx_clk (feedback clock from the PAD) 0: MIO [51] 1: MIO [76] + PSU_IOU_SLCR_SDIO_CLK_CTRL_SDIO1_RX_SRC_SEL 0 + + SoC Debug Clock Control + (OFFSET, MASK, VALUE) (0XFF18030C, 0x00020000U ,0x00000000U) + RegMask = (IOU_SLCR_SDIO_CLK_CTRL_SDIO1_RX_SRC_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_SDIO_CLK_CTRL_SDIO1_RX_SRC_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_SDIO_CLK_CTRL_OFFSET ,0x00020000U ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : UART0_REF_CTRL @ 0XFF5E0074

+ + Clock active signal. Switch to 0 to disable the clock + PSU_CRL_APB_UART0_REF_CTRL_CLKACT 0x1 + + 6 bit divider + PSU_CRL_APB_UART0_REF_CTRL_DIVISOR1 0x1 + + 6 bit divider + PSU_CRL_APB_UART0_REF_CTRL_DIVISOR0 0xf + + 000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + clock. This is not usually an issue, but designers must be aware.) + PSU_CRL_APB_UART0_REF_CTRL_SRCSEL 0x0 + + This register controls this reference clock + (OFFSET, MASK, VALUE) (0XFF5E0074, 0x013F3F07U ,0x01010F00U) + RegMask = (CRL_APB_UART0_REF_CTRL_CLKACT_MASK | CRL_APB_UART0_REF_CTRL_DIVISOR1_MASK | CRL_APB_UART0_REF_CTRL_DIVISOR0_MASK | CRL_APB_UART0_REF_CTRL_SRCSEL_MASK | 0 ); + + RegVal = ((0x00000001U << CRL_APB_UART0_REF_CTRL_CLKACT_SHIFT + | 0x00000001U << CRL_APB_UART0_REF_CTRL_DIVISOR1_SHIFT + | 0x0000000FU << CRL_APB_UART0_REF_CTRL_DIVISOR0_SHIFT + | 0x00000000U << CRL_APB_UART0_REF_CTRL_SRCSEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_UART0_REF_CTRL_OFFSET ,0x013F3F07U ,0x01010F00U); + /*############################################################################################################################ */ + + /*Register : UART1_REF_CTRL @ 0XFF5E0078

+ + Clock active signal. Switch to 0 to disable the clock + PSU_CRL_APB_UART1_REF_CTRL_CLKACT 0x1 + + 6 bit divider + PSU_CRL_APB_UART1_REF_CTRL_DIVISOR1 0x1 + + 6 bit divider + PSU_CRL_APB_UART1_REF_CTRL_DIVISOR0 0xf + + 000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + clock. This is not usually an issue, but designers must be aware.) + PSU_CRL_APB_UART1_REF_CTRL_SRCSEL 0x0 + + This register controls this reference clock + (OFFSET, MASK, VALUE) (0XFF5E0078, 0x013F3F07U ,0x01010F00U) + RegMask = (CRL_APB_UART1_REF_CTRL_CLKACT_MASK | CRL_APB_UART1_REF_CTRL_DIVISOR1_MASK | CRL_APB_UART1_REF_CTRL_DIVISOR0_MASK | CRL_APB_UART1_REF_CTRL_SRCSEL_MASK | 0 ); + + RegVal = ((0x00000001U << CRL_APB_UART1_REF_CTRL_CLKACT_SHIFT + | 0x00000001U << CRL_APB_UART1_REF_CTRL_DIVISOR1_SHIFT + | 0x0000000FU << CRL_APB_UART1_REF_CTRL_DIVISOR0_SHIFT + | 0x00000000U << CRL_APB_UART1_REF_CTRL_SRCSEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_UART1_REF_CTRL_OFFSET ,0x013F3F07U ,0x01010F00U); + /*############################################################################################################################ */ + + /*Register : I2C0_REF_CTRL @ 0XFF5E0120

+ + Clock active signal. Switch to 0 to disable the clock + PSU_CRL_APB_I2C0_REF_CTRL_CLKACT 0x1 + + 6 bit divider + PSU_CRL_APB_I2C0_REF_CTRL_DIVISOR1 0x1 + + 6 bit divider + PSU_CRL_APB_I2C0_REF_CTRL_DIVISOR0 0xf + + 000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + clock. This is not usually an issue, but designers must be aware.) + PSU_CRL_APB_I2C0_REF_CTRL_SRCSEL 0x0 + + This register controls this reference clock + (OFFSET, MASK, VALUE) (0XFF5E0120, 0x013F3F07U ,0x01010F00U) + RegMask = (CRL_APB_I2C0_REF_CTRL_CLKACT_MASK | CRL_APB_I2C0_REF_CTRL_DIVISOR1_MASK | CRL_APB_I2C0_REF_CTRL_DIVISOR0_MASK | CRL_APB_I2C0_REF_CTRL_SRCSEL_MASK | 0 ); + + RegVal = ((0x00000001U << CRL_APB_I2C0_REF_CTRL_CLKACT_SHIFT + | 0x00000001U << CRL_APB_I2C0_REF_CTRL_DIVISOR1_SHIFT + | 0x0000000FU << CRL_APB_I2C0_REF_CTRL_DIVISOR0_SHIFT + | 0x00000000U << CRL_APB_I2C0_REF_CTRL_SRCSEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_I2C0_REF_CTRL_OFFSET ,0x013F3F07U ,0x01010F00U); + /*############################################################################################################################ */ + + /*Register : I2C1_REF_CTRL @ 0XFF5E0124

+ + Clock active signal. Switch to 0 to disable the clock + PSU_CRL_APB_I2C1_REF_CTRL_CLKACT 0x1 + + 6 bit divider + PSU_CRL_APB_I2C1_REF_CTRL_DIVISOR1 0x1 + + 6 bit divider + PSU_CRL_APB_I2C1_REF_CTRL_DIVISOR0 0xf + + 000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + clock. This is not usually an issue, but designers must be aware.) + PSU_CRL_APB_I2C1_REF_CTRL_SRCSEL 0x0 + + This register controls this reference clock + (OFFSET, MASK, VALUE) (0XFF5E0124, 0x013F3F07U ,0x01010F00U) + RegMask = (CRL_APB_I2C1_REF_CTRL_CLKACT_MASK | CRL_APB_I2C1_REF_CTRL_DIVISOR1_MASK | CRL_APB_I2C1_REF_CTRL_DIVISOR0_MASK | CRL_APB_I2C1_REF_CTRL_SRCSEL_MASK | 0 ); + + RegVal = ((0x00000001U << CRL_APB_I2C1_REF_CTRL_CLKACT_SHIFT + | 0x00000001U << CRL_APB_I2C1_REF_CTRL_DIVISOR1_SHIFT + | 0x0000000FU << CRL_APB_I2C1_REF_CTRL_DIVISOR0_SHIFT + | 0x00000000U << CRL_APB_I2C1_REF_CTRL_SRCSEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_I2C1_REF_CTRL_OFFSET ,0x013F3F07U ,0x01010F00U); + /*############################################################################################################################ */ + + /*Register : CAN1_REF_CTRL @ 0XFF5E0088

+ + Clock active signal. Switch to 0 to disable the clock + PSU_CRL_APB_CAN1_REF_CTRL_CLKACT 0x1 + + 6 bit divider + PSU_CRL_APB_CAN1_REF_CTRL_DIVISOR1 0x1 + + 6 bit divider + PSU_CRL_APB_CAN1_REF_CTRL_DIVISOR0 0xf + + 000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + clock. This is not usually an issue, but designers must be aware.) + PSU_CRL_APB_CAN1_REF_CTRL_SRCSEL 0x0 + + This register controls this reference clock + (OFFSET, MASK, VALUE) (0XFF5E0088, 0x013F3F07U ,0x01010F00U) + RegMask = (CRL_APB_CAN1_REF_CTRL_CLKACT_MASK | CRL_APB_CAN1_REF_CTRL_DIVISOR1_MASK | CRL_APB_CAN1_REF_CTRL_DIVISOR0_MASK | CRL_APB_CAN1_REF_CTRL_SRCSEL_MASK | 0 ); + + RegVal = ((0x00000001U << CRL_APB_CAN1_REF_CTRL_CLKACT_SHIFT + | 0x00000001U << CRL_APB_CAN1_REF_CTRL_DIVISOR1_SHIFT + | 0x0000000FU << CRL_APB_CAN1_REF_CTRL_DIVISOR0_SHIFT + | 0x00000000U << CRL_APB_CAN1_REF_CTRL_SRCSEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_CAN1_REF_CTRL_OFFSET ,0x013F3F07U ,0x01010F00U); + /*############################################################################################################################ */ + + /*Register : CPU_R5_CTRL @ 0XFF5E0090

+ + Turing this off will shut down the OCM, some parts of the APM, and prevent transactions going from the FPD to the LPD and cou + d lead to system hang + PSU_CRL_APB_CPU_R5_CTRL_CLKACT 0x1 + + 6 bit divider + PSU_CRL_APB_CPU_R5_CTRL_DIVISOR0 0x3 + + 000 = RPLL; 010 = IOPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + clock. This is not usually an issue, but designers must be aware.) + PSU_CRL_APB_CPU_R5_CTRL_SRCSEL 0x2 + + This register controls this reference clock + (OFFSET, MASK, VALUE) (0XFF5E0090, 0x01003F07U ,0x01000302U) + RegMask = (CRL_APB_CPU_R5_CTRL_CLKACT_MASK | CRL_APB_CPU_R5_CTRL_DIVISOR0_MASK | CRL_APB_CPU_R5_CTRL_SRCSEL_MASK | 0 ); + + RegVal = ((0x00000001U << CRL_APB_CPU_R5_CTRL_CLKACT_SHIFT + | 0x00000003U << CRL_APB_CPU_R5_CTRL_DIVISOR0_SHIFT + | 0x00000002U << CRL_APB_CPU_R5_CTRL_SRCSEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_CPU_R5_CTRL_OFFSET ,0x01003F07U ,0x01000302U); + /*############################################################################################################################ */ + + /*Register : IOU_SWITCH_CTRL @ 0XFF5E009C

+ + Clock active signal. Switch to 0 to disable the clock + PSU_CRL_APB_IOU_SWITCH_CTRL_CLKACT 0x1 + + 6 bit divider + PSU_CRL_APB_IOU_SWITCH_CTRL_DIVISOR0 0x6 + + 000 = RPLL; 010 = IOPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + clock. This is not usually an issue, but designers must be aware.) + PSU_CRL_APB_IOU_SWITCH_CTRL_SRCSEL 0x2 + + This register controls this reference clock + (OFFSET, MASK, VALUE) (0XFF5E009C, 0x01003F07U ,0x01000602U) + RegMask = (CRL_APB_IOU_SWITCH_CTRL_CLKACT_MASK | CRL_APB_IOU_SWITCH_CTRL_DIVISOR0_MASK | CRL_APB_IOU_SWITCH_CTRL_SRCSEL_MASK | 0 ); + + RegVal = ((0x00000001U << CRL_APB_IOU_SWITCH_CTRL_CLKACT_SHIFT + | 0x00000006U << CRL_APB_IOU_SWITCH_CTRL_DIVISOR0_SHIFT + | 0x00000002U << CRL_APB_IOU_SWITCH_CTRL_SRCSEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_IOU_SWITCH_CTRL_OFFSET ,0x01003F07U ,0x01000602U); + /*############################################################################################################################ */ + + /*Register : PCAP_CTRL @ 0XFF5E00A4

+ + Clock active signal. Switch to 0 to disable the clock + PSU_CRL_APB_PCAP_CTRL_CLKACT 0x1 + + 6 bit divider + PSU_CRL_APB_PCAP_CTRL_DIVISOR0 0x6 + + 000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + clock. This is not usually an issue, but designers must be aware.) + PSU_CRL_APB_PCAP_CTRL_SRCSEL 0x2 + + This register controls this reference clock + (OFFSET, MASK, VALUE) (0XFF5E00A4, 0x01003F07U ,0x01000602U) + RegMask = (CRL_APB_PCAP_CTRL_CLKACT_MASK | CRL_APB_PCAP_CTRL_DIVISOR0_MASK | CRL_APB_PCAP_CTRL_SRCSEL_MASK | 0 ); + + RegVal = ((0x00000001U << CRL_APB_PCAP_CTRL_CLKACT_SHIFT + | 0x00000006U << CRL_APB_PCAP_CTRL_DIVISOR0_SHIFT + | 0x00000002U << CRL_APB_PCAP_CTRL_SRCSEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_PCAP_CTRL_OFFSET ,0x01003F07U ,0x01000602U); + /*############################################################################################################################ */ + + /*Register : LPD_SWITCH_CTRL @ 0XFF5E00A8

+ + Clock active signal. Switch to 0 to disable the clock + PSU_CRL_APB_LPD_SWITCH_CTRL_CLKACT 0x1 + + 6 bit divider + PSU_CRL_APB_LPD_SWITCH_CTRL_DIVISOR0 0x3 + + 000 = RPLL; 010 = IOPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + clock. This is not usually an issue, but designers must be aware.) + PSU_CRL_APB_LPD_SWITCH_CTRL_SRCSEL 0x2 + + This register controls this reference clock + (OFFSET, MASK, VALUE) (0XFF5E00A8, 0x01003F07U ,0x01000302U) + RegMask = (CRL_APB_LPD_SWITCH_CTRL_CLKACT_MASK | CRL_APB_LPD_SWITCH_CTRL_DIVISOR0_MASK | CRL_APB_LPD_SWITCH_CTRL_SRCSEL_MASK | 0 ); + + RegVal = ((0x00000001U << CRL_APB_LPD_SWITCH_CTRL_CLKACT_SHIFT + | 0x00000003U << CRL_APB_LPD_SWITCH_CTRL_DIVISOR0_SHIFT + | 0x00000002U << CRL_APB_LPD_SWITCH_CTRL_SRCSEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_LPD_SWITCH_CTRL_OFFSET ,0x01003F07U ,0x01000302U); + /*############################################################################################################################ */ + + /*Register : LPD_LSBUS_CTRL @ 0XFF5E00AC

+ + Clock active signal. Switch to 0 to disable the clock + PSU_CRL_APB_LPD_LSBUS_CTRL_CLKACT 0x1 + + 6 bit divider + PSU_CRL_APB_LPD_LSBUS_CTRL_DIVISOR0 0xf + + 000 = RPLL; 010 = IOPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + clock. This is not usually an issue, but designers must be aware.) + PSU_CRL_APB_LPD_LSBUS_CTRL_SRCSEL 0x2 + + This register controls this reference clock + (OFFSET, MASK, VALUE) (0XFF5E00AC, 0x01003F07U ,0x01000F02U) + RegMask = (CRL_APB_LPD_LSBUS_CTRL_CLKACT_MASK | CRL_APB_LPD_LSBUS_CTRL_DIVISOR0_MASK | CRL_APB_LPD_LSBUS_CTRL_SRCSEL_MASK | 0 ); + + RegVal = ((0x00000001U << CRL_APB_LPD_LSBUS_CTRL_CLKACT_SHIFT + | 0x0000000FU << CRL_APB_LPD_LSBUS_CTRL_DIVISOR0_SHIFT + | 0x00000002U << CRL_APB_LPD_LSBUS_CTRL_SRCSEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_LPD_LSBUS_CTRL_OFFSET ,0x01003F07U ,0x01000F02U); + /*############################################################################################################################ */ + + /*Register : DBG_LPD_CTRL @ 0XFF5E00B0

+ + Clock active signal. Switch to 0 to disable the clock + PSU_CRL_APB_DBG_LPD_CTRL_CLKACT 0x1 + + 6 bit divider + PSU_CRL_APB_DBG_LPD_CTRL_DIVISOR0 0x6 + + 000 = RPLL; 010 = IOPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + clock. This is not usually an issue, but designers must be aware.) + PSU_CRL_APB_DBG_LPD_CTRL_SRCSEL 0x2 + + This register controls this reference clock + (OFFSET, MASK, VALUE) (0XFF5E00B0, 0x01003F07U ,0x01000602U) + RegMask = (CRL_APB_DBG_LPD_CTRL_CLKACT_MASK | CRL_APB_DBG_LPD_CTRL_DIVISOR0_MASK | CRL_APB_DBG_LPD_CTRL_SRCSEL_MASK | 0 ); + + RegVal = ((0x00000001U << CRL_APB_DBG_LPD_CTRL_CLKACT_SHIFT + | 0x00000006U << CRL_APB_DBG_LPD_CTRL_DIVISOR0_SHIFT + | 0x00000002U << CRL_APB_DBG_LPD_CTRL_SRCSEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_DBG_LPD_CTRL_OFFSET ,0x01003F07U ,0x01000602U); + /*############################################################################################################################ */ + + /*Register : ADMA_REF_CTRL @ 0XFF5E00B8

+ + Clock active signal. Switch to 0 to disable the clock + PSU_CRL_APB_ADMA_REF_CTRL_CLKACT 0x1 + + 6 bit divider + PSU_CRL_APB_ADMA_REF_CTRL_DIVISOR0 0x3 + + 000 = RPLL; 010 = IOPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + clock. This is not usually an issue, but designers must be aware.) + PSU_CRL_APB_ADMA_REF_CTRL_SRCSEL 0x2 + + This register controls this reference clock + (OFFSET, MASK, VALUE) (0XFF5E00B8, 0x01003F07U ,0x01000302U) + RegMask = (CRL_APB_ADMA_REF_CTRL_CLKACT_MASK | CRL_APB_ADMA_REF_CTRL_DIVISOR0_MASK | CRL_APB_ADMA_REF_CTRL_SRCSEL_MASK | 0 ); + + RegVal = ((0x00000001U << CRL_APB_ADMA_REF_CTRL_CLKACT_SHIFT + | 0x00000003U << CRL_APB_ADMA_REF_CTRL_DIVISOR0_SHIFT + | 0x00000002U << CRL_APB_ADMA_REF_CTRL_SRCSEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_ADMA_REF_CTRL_OFFSET ,0x01003F07U ,0x01000302U); + /*############################################################################################################################ */ + + /*Register : PL0_REF_CTRL @ 0XFF5E00C0

+ + Clock active signal. Switch to 0 to disable the clock + PSU_CRL_APB_PL0_REF_CTRL_CLKACT 0x1 + + 6 bit divider + PSU_CRL_APB_PL0_REF_CTRL_DIVISOR1 0x1 + + 6 bit divider + PSU_CRL_APB_PL0_REF_CTRL_DIVISOR0 0xf + + 000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + clock. This is not usually an issue, but designers must be aware.) + PSU_CRL_APB_PL0_REF_CTRL_SRCSEL 0x0 + + This register controls this reference clock + (OFFSET, MASK, VALUE) (0XFF5E00C0, 0x013F3F07U ,0x01010F00U) + RegMask = (CRL_APB_PL0_REF_CTRL_CLKACT_MASK | CRL_APB_PL0_REF_CTRL_DIVISOR1_MASK | CRL_APB_PL0_REF_CTRL_DIVISOR0_MASK | CRL_APB_PL0_REF_CTRL_SRCSEL_MASK | 0 ); + + RegVal = ((0x00000001U << CRL_APB_PL0_REF_CTRL_CLKACT_SHIFT + | 0x00000001U << CRL_APB_PL0_REF_CTRL_DIVISOR1_SHIFT + | 0x0000000FU << CRL_APB_PL0_REF_CTRL_DIVISOR0_SHIFT + | 0x00000000U << CRL_APB_PL0_REF_CTRL_SRCSEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_PL0_REF_CTRL_OFFSET ,0x013F3F07U ,0x01010F00U); + /*############################################################################################################################ */ + + /*Register : PL1_REF_CTRL @ 0XFF5E00C4

+ + Clock active signal. Switch to 0 to disable the clock + PSU_CRL_APB_PL1_REF_CTRL_CLKACT 0x1 + + 6 bit divider + PSU_CRL_APB_PL1_REF_CTRL_DIVISOR1 0x4 + + 6 bit divider + PSU_CRL_APB_PL1_REF_CTRL_DIVISOR0 0xf + + 000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + clock. This is not usually an issue, but designers must be aware.) + PSU_CRL_APB_PL1_REF_CTRL_SRCSEL 0x0 + + This register controls this reference clock + (OFFSET, MASK, VALUE) (0XFF5E00C4, 0x013F3F07U ,0x01040F00U) + RegMask = (CRL_APB_PL1_REF_CTRL_CLKACT_MASK | CRL_APB_PL1_REF_CTRL_DIVISOR1_MASK | CRL_APB_PL1_REF_CTRL_DIVISOR0_MASK | CRL_APB_PL1_REF_CTRL_SRCSEL_MASK | 0 ); + + RegVal = ((0x00000001U << CRL_APB_PL1_REF_CTRL_CLKACT_SHIFT + | 0x00000004U << CRL_APB_PL1_REF_CTRL_DIVISOR1_SHIFT + | 0x0000000FU << CRL_APB_PL1_REF_CTRL_DIVISOR0_SHIFT + | 0x00000000U << CRL_APB_PL1_REF_CTRL_SRCSEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_PL1_REF_CTRL_OFFSET ,0x013F3F07U ,0x01040F00U); + /*############################################################################################################################ */ + + /*Register : PL2_REF_CTRL @ 0XFF5E00C8

+ + Clock active signal. Switch to 0 to disable the clock + PSU_CRL_APB_PL2_REF_CTRL_CLKACT 0x1 + + 6 bit divider + PSU_CRL_APB_PL2_REF_CTRL_DIVISOR1 0x1 + + 6 bit divider + PSU_CRL_APB_PL2_REF_CTRL_DIVISOR0 0x4 + + 000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + clock. This is not usually an issue, but designers must be aware.) + PSU_CRL_APB_PL2_REF_CTRL_SRCSEL 0x2 + + This register controls this reference clock + (OFFSET, MASK, VALUE) (0XFF5E00C8, 0x013F3F07U ,0x01010402U) + RegMask = (CRL_APB_PL2_REF_CTRL_CLKACT_MASK | CRL_APB_PL2_REF_CTRL_DIVISOR1_MASK | CRL_APB_PL2_REF_CTRL_DIVISOR0_MASK | CRL_APB_PL2_REF_CTRL_SRCSEL_MASK | 0 ); + + RegVal = ((0x00000001U << CRL_APB_PL2_REF_CTRL_CLKACT_SHIFT + | 0x00000001U << CRL_APB_PL2_REF_CTRL_DIVISOR1_SHIFT + | 0x00000004U << CRL_APB_PL2_REF_CTRL_DIVISOR0_SHIFT + | 0x00000002U << CRL_APB_PL2_REF_CTRL_SRCSEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_PL2_REF_CTRL_OFFSET ,0x013F3F07U ,0x01010402U); + /*############################################################################################################################ */ + + /*Register : PL3_REF_CTRL @ 0XFF5E00CC

+ + Clock active signal. Switch to 0 to disable the clock + PSU_CRL_APB_PL3_REF_CTRL_CLKACT 0x1 + + 6 bit divider + PSU_CRL_APB_PL3_REF_CTRL_DIVISOR1 0x1 + + 6 bit divider + PSU_CRL_APB_PL3_REF_CTRL_DIVISOR0 0x3 + + 000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + clock. This is not usually an issue, but designers must be aware.) + PSU_CRL_APB_PL3_REF_CTRL_SRCSEL 0x2 + + This register controls this reference clock + (OFFSET, MASK, VALUE) (0XFF5E00CC, 0x013F3F07U ,0x01010302U) + RegMask = (CRL_APB_PL3_REF_CTRL_CLKACT_MASK | CRL_APB_PL3_REF_CTRL_DIVISOR1_MASK | CRL_APB_PL3_REF_CTRL_DIVISOR0_MASK | CRL_APB_PL3_REF_CTRL_SRCSEL_MASK | 0 ); + + RegVal = ((0x00000001U << CRL_APB_PL3_REF_CTRL_CLKACT_SHIFT + | 0x00000001U << CRL_APB_PL3_REF_CTRL_DIVISOR1_SHIFT + | 0x00000003U << CRL_APB_PL3_REF_CTRL_DIVISOR0_SHIFT + | 0x00000002U << CRL_APB_PL3_REF_CTRL_SRCSEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_PL3_REF_CTRL_OFFSET ,0x013F3F07U ,0x01010302U); + /*############################################################################################################################ */ + + /*Register : AMS_REF_CTRL @ 0XFF5E0108

+ + 6 bit divider + PSU_CRL_APB_AMS_REF_CTRL_DIVISOR1 0x1 + + 6 bit divider + PSU_CRL_APB_AMS_REF_CTRL_DIVISOR0 0x1d + + 000 = RPLL; 010 = IOPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + clock. This is not usually an issue, but designers must be aware.) + PSU_CRL_APB_AMS_REF_CTRL_SRCSEL 0x2 + + Clock active signal. Switch to 0 to disable the clock + PSU_CRL_APB_AMS_REF_CTRL_CLKACT 0x1 + + This register controls this reference clock + (OFFSET, MASK, VALUE) (0XFF5E0108, 0x013F3F07U ,0x01011D02U) + RegMask = (CRL_APB_AMS_REF_CTRL_DIVISOR1_MASK | CRL_APB_AMS_REF_CTRL_DIVISOR0_MASK | CRL_APB_AMS_REF_CTRL_SRCSEL_MASK | CRL_APB_AMS_REF_CTRL_CLKACT_MASK | 0 ); + + RegVal = ((0x00000001U << CRL_APB_AMS_REF_CTRL_DIVISOR1_SHIFT + | 0x0000001DU << CRL_APB_AMS_REF_CTRL_DIVISOR0_SHIFT + | 0x00000002U << CRL_APB_AMS_REF_CTRL_SRCSEL_SHIFT + | 0x00000001U << CRL_APB_AMS_REF_CTRL_CLKACT_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_AMS_REF_CTRL_OFFSET ,0x013F3F07U ,0x01011D02U); + /*############################################################################################################################ */ + + /*Register : DLL_REF_CTRL @ 0XFF5E0104

+ + 000 = IOPLL; 001 = RPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new clock. This + is not usually an issue, but designers must be aware.) + PSU_CRL_APB_DLL_REF_CTRL_SRCSEL 0 + + This register controls this reference clock + (OFFSET, MASK, VALUE) (0XFF5E0104, 0x00000007U ,0x00000000U) + RegMask = (CRL_APB_DLL_REF_CTRL_SRCSEL_MASK | 0 ); + + RegVal = ((0x00000000U << CRL_APB_DLL_REF_CTRL_SRCSEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_DLL_REF_CTRL_OFFSET ,0x00000007U ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : TIMESTAMP_REF_CTRL @ 0XFF5E0128

+ + 6 bit divider + PSU_CRL_APB_TIMESTAMP_REF_CTRL_DIVISOR0 0xf + + 1XX = pss_ref_clk; 000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and + cycles of the new clock. This is not usually an issue, but designers must be aware.) + PSU_CRL_APB_TIMESTAMP_REF_CTRL_SRCSEL 0x0 + + Clock active signal. Switch to 0 to disable the clock + PSU_CRL_APB_TIMESTAMP_REF_CTRL_CLKACT 0x1 + + This register controls this reference clock + (OFFSET, MASK, VALUE) (0XFF5E0128, 0x01003F07U ,0x01000F00U) + RegMask = (CRL_APB_TIMESTAMP_REF_CTRL_DIVISOR0_MASK | CRL_APB_TIMESTAMP_REF_CTRL_SRCSEL_MASK | CRL_APB_TIMESTAMP_REF_CTRL_CLKACT_MASK | 0 ); + + RegVal = ((0x0000000FU << CRL_APB_TIMESTAMP_REF_CTRL_DIVISOR0_SHIFT + | 0x00000000U << CRL_APB_TIMESTAMP_REF_CTRL_SRCSEL_SHIFT + | 0x00000001U << CRL_APB_TIMESTAMP_REF_CTRL_CLKACT_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_TIMESTAMP_REF_CTRL_OFFSET ,0x01003F07U ,0x01000F00U); + /*############################################################################################################################ */ + + /*Register : SATA_REF_CTRL @ 0XFD1A00A0

+ + 000 = IOPLL_TO_FPD; 010 = APLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of + he new clock. This is not usually an issue, but designers must be aware.) + PSU_CRF_APB_SATA_REF_CTRL_SRCSEL 0x0 + + Clock active signal. Switch to 0 to disable the clock + PSU_CRF_APB_SATA_REF_CTRL_CLKACT 0x1 + + 6 bit divider + PSU_CRF_APB_SATA_REF_CTRL_DIVISOR0 0x2 + + This register controls this reference clock + (OFFSET, MASK, VALUE) (0XFD1A00A0, 0x01003F07U ,0x01000200U) + RegMask = (CRF_APB_SATA_REF_CTRL_SRCSEL_MASK | CRF_APB_SATA_REF_CTRL_CLKACT_MASK | CRF_APB_SATA_REF_CTRL_DIVISOR0_MASK | 0 ); + + RegVal = ((0x00000000U << CRF_APB_SATA_REF_CTRL_SRCSEL_SHIFT + | 0x00000001U << CRF_APB_SATA_REF_CTRL_CLKACT_SHIFT + | 0x00000002U << CRF_APB_SATA_REF_CTRL_DIVISOR0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRF_APB_SATA_REF_CTRL_OFFSET ,0x01003F07U ,0x01000200U); + /*############################################################################################################################ */ + + /*Register : DP_VIDEO_REF_CTRL @ 0XFD1A0070

+ + 6 bit divider + PSU_CRF_APB_DP_VIDEO_REF_CTRL_DIVISOR1 0x1 + + 6 bit divider + PSU_CRF_APB_DP_VIDEO_REF_CTRL_DIVISOR0 0x3 + + 000 = VPLL; 010 = DPLL; 011 = RPLL_TO_FPD - might be using extra mux; (This signal may only be toggled after 4 cycles of the + ld clock and 4 cycles of the new clock. This is not usually an issue, but designers must be aware.) + PSU_CRF_APB_DP_VIDEO_REF_CTRL_SRCSEL 0x3 + + Clock active signal. Switch to 0 to disable the clock + PSU_CRF_APB_DP_VIDEO_REF_CTRL_CLKACT 0x1 + + This register controls this reference clock + (OFFSET, MASK, VALUE) (0XFD1A0070, 0x013F3F07U ,0x01010303U) + RegMask = (CRF_APB_DP_VIDEO_REF_CTRL_DIVISOR1_MASK | CRF_APB_DP_VIDEO_REF_CTRL_DIVISOR0_MASK | CRF_APB_DP_VIDEO_REF_CTRL_SRCSEL_MASK | CRF_APB_DP_VIDEO_REF_CTRL_CLKACT_MASK | 0 ); + + RegVal = ((0x00000001U << CRF_APB_DP_VIDEO_REF_CTRL_DIVISOR1_SHIFT + | 0x00000003U << CRF_APB_DP_VIDEO_REF_CTRL_DIVISOR0_SHIFT + | 0x00000003U << CRF_APB_DP_VIDEO_REF_CTRL_SRCSEL_SHIFT + | 0x00000001U << CRF_APB_DP_VIDEO_REF_CTRL_CLKACT_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRF_APB_DP_VIDEO_REF_CTRL_OFFSET ,0x013F3F07U ,0x01010303U); + /*############################################################################################################################ */ + + /*Register : DP_AUDIO_REF_CTRL @ 0XFD1A0074

+ + 6 bit divider + PSU_CRF_APB_DP_AUDIO_REF_CTRL_DIVISOR1 0x1 + + 6 bit divider + PSU_CRF_APB_DP_AUDIO_REF_CTRL_DIVISOR0 0x27 + + 000 = VPLL; 010 = DPLL; 011 = RPLL_TO_FPD - might be using extra mux; (This signal may only be toggled after 4 cycles of the + ld clock and 4 cycles of the new clock. This is not usually an issue, but designers must be aware.) + PSU_CRF_APB_DP_AUDIO_REF_CTRL_SRCSEL 0x0 + + Clock active signal. Switch to 0 to disable the clock + PSU_CRF_APB_DP_AUDIO_REF_CTRL_CLKACT 0x1 + + This register controls this reference clock + (OFFSET, MASK, VALUE) (0XFD1A0074, 0x013F3F07U ,0x01012700U) + RegMask = (CRF_APB_DP_AUDIO_REF_CTRL_DIVISOR1_MASK | CRF_APB_DP_AUDIO_REF_CTRL_DIVISOR0_MASK | CRF_APB_DP_AUDIO_REF_CTRL_SRCSEL_MASK | CRF_APB_DP_AUDIO_REF_CTRL_CLKACT_MASK | 0 ); + + RegVal = ((0x00000001U << CRF_APB_DP_AUDIO_REF_CTRL_DIVISOR1_SHIFT + | 0x00000027U << CRF_APB_DP_AUDIO_REF_CTRL_DIVISOR0_SHIFT + | 0x00000000U << CRF_APB_DP_AUDIO_REF_CTRL_SRCSEL_SHIFT + | 0x00000001U << CRF_APB_DP_AUDIO_REF_CTRL_CLKACT_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRF_APB_DP_AUDIO_REF_CTRL_OFFSET ,0x013F3F07U ,0x01012700U); + /*############################################################################################################################ */ + + /*Register : DP_STC_REF_CTRL @ 0XFD1A007C

+ + 6 bit divider + PSU_CRF_APB_DP_STC_REF_CTRL_DIVISOR1 0x1 + + 6 bit divider + PSU_CRF_APB_DP_STC_REF_CTRL_DIVISOR0 0x11 + + 000 = VPLL; 010 = DPLL; 011 = RPLL_TO_FPD; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of t + e new clock. This is not usually an issue, but designers must be aware.) + PSU_CRF_APB_DP_STC_REF_CTRL_SRCSEL 0x3 + + Clock active signal. Switch to 0 to disable the clock + PSU_CRF_APB_DP_STC_REF_CTRL_CLKACT 0x1 + + This register controls this reference clock + (OFFSET, MASK, VALUE) (0XFD1A007C, 0x013F3F07U ,0x01011103U) + RegMask = (CRF_APB_DP_STC_REF_CTRL_DIVISOR1_MASK | CRF_APB_DP_STC_REF_CTRL_DIVISOR0_MASK | CRF_APB_DP_STC_REF_CTRL_SRCSEL_MASK | CRF_APB_DP_STC_REF_CTRL_CLKACT_MASK | 0 ); + + RegVal = ((0x00000001U << CRF_APB_DP_STC_REF_CTRL_DIVISOR1_SHIFT + | 0x00000011U << CRF_APB_DP_STC_REF_CTRL_DIVISOR0_SHIFT + | 0x00000003U << CRF_APB_DP_STC_REF_CTRL_SRCSEL_SHIFT + | 0x00000001U << CRF_APB_DP_STC_REF_CTRL_CLKACT_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRF_APB_DP_STC_REF_CTRL_OFFSET ,0x013F3F07U ,0x01011103U); + /*############################################################################################################################ */ + + /*Register : ACPU_CTRL @ 0XFD1A0060

+ + 6 bit divider + PSU_CRF_APB_ACPU_CTRL_DIVISOR0 0x1 + + 000 = APLL; 010 = DPLL; 011 = VPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + lock. This is not usually an issue, but designers must be aware.) + PSU_CRF_APB_ACPU_CTRL_SRCSEL 0x0 + + Clock active signal. Switch to 0 to disable the clock. For the half speed APU Clock + PSU_CRF_APB_ACPU_CTRL_CLKACT_HALF 0x1 + + Clock active signal. Switch to 0 to disable the clock. For the full speed ACPUX Clock. This will shut off the high speed cloc + to the entire APU + PSU_CRF_APB_ACPU_CTRL_CLKACT_FULL 0x1 + + This register controls this reference clock + (OFFSET, MASK, VALUE) (0XFD1A0060, 0x03003F07U ,0x03000100U) + RegMask = (CRF_APB_ACPU_CTRL_DIVISOR0_MASK | CRF_APB_ACPU_CTRL_SRCSEL_MASK | CRF_APB_ACPU_CTRL_CLKACT_HALF_MASK | CRF_APB_ACPU_CTRL_CLKACT_FULL_MASK | 0 ); + + RegVal = ((0x00000001U << CRF_APB_ACPU_CTRL_DIVISOR0_SHIFT + | 0x00000000U << CRF_APB_ACPU_CTRL_SRCSEL_SHIFT + | 0x00000001U << CRF_APB_ACPU_CTRL_CLKACT_HALF_SHIFT + | 0x00000001U << CRF_APB_ACPU_CTRL_CLKACT_FULL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRF_APB_ACPU_CTRL_OFFSET ,0x03003F07U ,0x03000100U); + /*############################################################################################################################ */ + + /*Register : DBG_TRACE_CTRL @ 0XFD1A0064

+ + 6 bit divider + PSU_CRF_APB_DBG_TRACE_CTRL_DIVISOR0 0x2 + + 000 = IOPLL_TO_FPD; 010 = DPLL; 011 = APLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of + he new clock. This is not usually an issue, but designers must be aware.) + PSU_CRF_APB_DBG_TRACE_CTRL_SRCSEL 0x0 + + Clock active signal. Switch to 0 to disable the clock + PSU_CRF_APB_DBG_TRACE_CTRL_CLKACT 0x1 + + This register controls this reference clock + (OFFSET, MASK, VALUE) (0XFD1A0064, 0x01003F07U ,0x01000200U) + RegMask = (CRF_APB_DBG_TRACE_CTRL_DIVISOR0_MASK | CRF_APB_DBG_TRACE_CTRL_SRCSEL_MASK | CRF_APB_DBG_TRACE_CTRL_CLKACT_MASK | 0 ); + + RegVal = ((0x00000002U << CRF_APB_DBG_TRACE_CTRL_DIVISOR0_SHIFT + | 0x00000000U << CRF_APB_DBG_TRACE_CTRL_SRCSEL_SHIFT + | 0x00000001U << CRF_APB_DBG_TRACE_CTRL_CLKACT_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRF_APB_DBG_TRACE_CTRL_OFFSET ,0x01003F07U ,0x01000200U); + /*############################################################################################################################ */ + + /*Register : DBG_FPD_CTRL @ 0XFD1A0068

+ + 6 bit divider + PSU_CRF_APB_DBG_FPD_CTRL_DIVISOR0 0x2 + + 000 = IOPLL_TO_FPD; 010 = DPLL; 011 = APLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of + he new clock. This is not usually an issue, but designers must be aware.) + PSU_CRF_APB_DBG_FPD_CTRL_SRCSEL 0x0 + + Clock active signal. Switch to 0 to disable the clock + PSU_CRF_APB_DBG_FPD_CTRL_CLKACT 0x1 + + This register controls this reference clock + (OFFSET, MASK, VALUE) (0XFD1A0068, 0x01003F07U ,0x01000200U) + RegMask = (CRF_APB_DBG_FPD_CTRL_DIVISOR0_MASK | CRF_APB_DBG_FPD_CTRL_SRCSEL_MASK | CRF_APB_DBG_FPD_CTRL_CLKACT_MASK | 0 ); + + RegVal = ((0x00000002U << CRF_APB_DBG_FPD_CTRL_DIVISOR0_SHIFT + | 0x00000000U << CRF_APB_DBG_FPD_CTRL_SRCSEL_SHIFT + | 0x00000001U << CRF_APB_DBG_FPD_CTRL_CLKACT_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRF_APB_DBG_FPD_CTRL_OFFSET ,0x01003F07U ,0x01000200U); + /*############################################################################################################################ */ + + /*Register : DDR_CTRL @ 0XFD1A0080

+ + 6 bit divider + PSU_CRF_APB_DDR_CTRL_DIVISOR0 0x2 + + 000 = DPLL; 001 = VPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new clock. This + s not usually an issue, but designers must be aware.) + PSU_CRF_APB_DDR_CTRL_SRCSEL 0x0 + + This register controls this reference clock + (OFFSET, MASK, VALUE) (0XFD1A0080, 0x00003F07U ,0x00000200U) + RegMask = (CRF_APB_DDR_CTRL_DIVISOR0_MASK | CRF_APB_DDR_CTRL_SRCSEL_MASK | 0 ); + + RegVal = ((0x00000002U << CRF_APB_DDR_CTRL_DIVISOR0_SHIFT + | 0x00000000U << CRF_APB_DDR_CTRL_SRCSEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRF_APB_DDR_CTRL_OFFSET ,0x00003F07U ,0x00000200U); + /*############################################################################################################################ */ + + /*Register : GPU_REF_CTRL @ 0XFD1A0084

+ + 6 bit divider + PSU_CRF_APB_GPU_REF_CTRL_DIVISOR0 0x1 + + 000 = IOPLL_TO_FPD; 010 = VPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of + he new clock. This is not usually an issue, but designers must be aware.) + PSU_CRF_APB_GPU_REF_CTRL_SRCSEL 0x0 + + Clock active signal. Switch to 0 to disable the clock, which will stop clock for GPU (and both Pixel Processors). + PSU_CRF_APB_GPU_REF_CTRL_CLKACT 0x1 + + Clock active signal for Pixel Processor. Switch to 0 to disable the clock only to this Pixel Processor + PSU_CRF_APB_GPU_REF_CTRL_PP0_CLKACT 0x1 + + Clock active signal for Pixel Processor. Switch to 0 to disable the clock only to this Pixel Processor + PSU_CRF_APB_GPU_REF_CTRL_PP1_CLKACT 0x1 + + This register controls this reference clock + (OFFSET, MASK, VALUE) (0XFD1A0084, 0x07003F07U ,0x07000100U) + RegMask = (CRF_APB_GPU_REF_CTRL_DIVISOR0_MASK | CRF_APB_GPU_REF_CTRL_SRCSEL_MASK | CRF_APB_GPU_REF_CTRL_CLKACT_MASK | CRF_APB_GPU_REF_CTRL_PP0_CLKACT_MASK | CRF_APB_GPU_REF_CTRL_PP1_CLKACT_MASK | 0 ); + + RegVal = ((0x00000001U << CRF_APB_GPU_REF_CTRL_DIVISOR0_SHIFT + | 0x00000000U << CRF_APB_GPU_REF_CTRL_SRCSEL_SHIFT + | 0x00000001U << CRF_APB_GPU_REF_CTRL_CLKACT_SHIFT + | 0x00000001U << CRF_APB_GPU_REF_CTRL_PP0_CLKACT_SHIFT + | 0x00000001U << CRF_APB_GPU_REF_CTRL_PP1_CLKACT_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRF_APB_GPU_REF_CTRL_OFFSET ,0x07003F07U ,0x07000100U); + /*############################################################################################################################ */ + + /*Register : GDMA_REF_CTRL @ 0XFD1A00B8

+ + 6 bit divider + PSU_CRF_APB_GDMA_REF_CTRL_DIVISOR0 0x2 + + 000 = APLL; 010 = VPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + lock. This is not usually an issue, but designers must be aware.) + PSU_CRF_APB_GDMA_REF_CTRL_SRCSEL 0x0 + + Clock active signal. Switch to 0 to disable the clock + PSU_CRF_APB_GDMA_REF_CTRL_CLKACT 0x1 + + This register controls this reference clock + (OFFSET, MASK, VALUE) (0XFD1A00B8, 0x01003F07U ,0x01000200U) + RegMask = (CRF_APB_GDMA_REF_CTRL_DIVISOR0_MASK | CRF_APB_GDMA_REF_CTRL_SRCSEL_MASK | CRF_APB_GDMA_REF_CTRL_CLKACT_MASK | 0 ); + + RegVal = ((0x00000002U << CRF_APB_GDMA_REF_CTRL_DIVISOR0_SHIFT + | 0x00000000U << CRF_APB_GDMA_REF_CTRL_SRCSEL_SHIFT + | 0x00000001U << CRF_APB_GDMA_REF_CTRL_CLKACT_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRF_APB_GDMA_REF_CTRL_OFFSET ,0x01003F07U ,0x01000200U); + /*############################################################################################################################ */ + + /*Register : DPDMA_REF_CTRL @ 0XFD1A00BC

+ + 6 bit divider + PSU_CRF_APB_DPDMA_REF_CTRL_DIVISOR0 0x2 + + 000 = APLL; 010 = VPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + lock. This is not usually an issue, but designers must be aware.) + PSU_CRF_APB_DPDMA_REF_CTRL_SRCSEL 0x0 + + Clock active signal. Switch to 0 to disable the clock + PSU_CRF_APB_DPDMA_REF_CTRL_CLKACT 0x1 + + This register controls this reference clock + (OFFSET, MASK, VALUE) (0XFD1A00BC, 0x01003F07U ,0x01000200U) + RegMask = (CRF_APB_DPDMA_REF_CTRL_DIVISOR0_MASK | CRF_APB_DPDMA_REF_CTRL_SRCSEL_MASK | CRF_APB_DPDMA_REF_CTRL_CLKACT_MASK | 0 ); + + RegVal = ((0x00000002U << CRF_APB_DPDMA_REF_CTRL_DIVISOR0_SHIFT + | 0x00000000U << CRF_APB_DPDMA_REF_CTRL_SRCSEL_SHIFT + | 0x00000001U << CRF_APB_DPDMA_REF_CTRL_CLKACT_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRF_APB_DPDMA_REF_CTRL_OFFSET ,0x01003F07U ,0x01000200U); + /*############################################################################################################################ */ + + /*Register : TOPSW_MAIN_CTRL @ 0XFD1A00C0

+ + 6 bit divider + PSU_CRF_APB_TOPSW_MAIN_CTRL_DIVISOR0 0x2 + + 000 = APLL; 010 = VPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + lock. This is not usually an issue, but designers must be aware.) + PSU_CRF_APB_TOPSW_MAIN_CTRL_SRCSEL 0x2 + + Clock active signal. Switch to 0 to disable the clock + PSU_CRF_APB_TOPSW_MAIN_CTRL_CLKACT 0x1 + + This register controls this reference clock + (OFFSET, MASK, VALUE) (0XFD1A00C0, 0x01003F07U ,0x01000202U) + RegMask = (CRF_APB_TOPSW_MAIN_CTRL_DIVISOR0_MASK | CRF_APB_TOPSW_MAIN_CTRL_SRCSEL_MASK | CRF_APB_TOPSW_MAIN_CTRL_CLKACT_MASK | 0 ); + + RegVal = ((0x00000002U << CRF_APB_TOPSW_MAIN_CTRL_DIVISOR0_SHIFT + | 0x00000002U << CRF_APB_TOPSW_MAIN_CTRL_SRCSEL_SHIFT + | 0x00000001U << CRF_APB_TOPSW_MAIN_CTRL_CLKACT_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRF_APB_TOPSW_MAIN_CTRL_OFFSET ,0x01003F07U ,0x01000202U); + /*############################################################################################################################ */ + + /*Register : TOPSW_LSBUS_CTRL @ 0XFD1A00C4

+ + 6 bit divider + PSU_CRF_APB_TOPSW_LSBUS_CTRL_DIVISOR0 0x5 + + 000 = APLL; 010 = IOPLL_TO_FPD; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of + he new clock. This is not usually an issue, but designers must be aware.) + PSU_CRF_APB_TOPSW_LSBUS_CTRL_SRCSEL 0x2 + + Clock active signal. Switch to 0 to disable the clock + PSU_CRF_APB_TOPSW_LSBUS_CTRL_CLKACT 0x1 + + This register controls this reference clock + (OFFSET, MASK, VALUE) (0XFD1A00C4, 0x01003F07U ,0x01000502U) + RegMask = (CRF_APB_TOPSW_LSBUS_CTRL_DIVISOR0_MASK | CRF_APB_TOPSW_LSBUS_CTRL_SRCSEL_MASK | CRF_APB_TOPSW_LSBUS_CTRL_CLKACT_MASK | 0 ); + + RegVal = ((0x00000005U << CRF_APB_TOPSW_LSBUS_CTRL_DIVISOR0_SHIFT + | 0x00000002U << CRF_APB_TOPSW_LSBUS_CTRL_SRCSEL_SHIFT + | 0x00000001U << CRF_APB_TOPSW_LSBUS_CTRL_CLKACT_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRF_APB_TOPSW_LSBUS_CTRL_OFFSET ,0x01003F07U ,0x01000502U); + /*############################################################################################################################ */ + + /*Register : DBG_TSTMP_CTRL @ 0XFD1A00F8

+ + 6 bit divider + PSU_CRF_APB_DBG_TSTMP_CTRL_DIVISOR0 0x2 + + 000 = IOPLL_TO_FPD; 010 = DPLL; 011 = APLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of + he new clock. This is not usually an issue, but designers must be aware.) + PSU_CRF_APB_DBG_TSTMP_CTRL_SRCSEL 0x0 + + This register controls this reference clock + (OFFSET, MASK, VALUE) (0XFD1A00F8, 0x00003F07U ,0x00000200U) + RegMask = (CRF_APB_DBG_TSTMP_CTRL_DIVISOR0_MASK | CRF_APB_DBG_TSTMP_CTRL_SRCSEL_MASK | 0 ); + + RegVal = ((0x00000002U << CRF_APB_DBG_TSTMP_CTRL_DIVISOR0_SHIFT + | 0x00000000U << CRF_APB_DBG_TSTMP_CTRL_SRCSEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRF_APB_DBG_TSTMP_CTRL_OFFSET ,0x00003F07U ,0x00000200U); + /*############################################################################################################################ */ + + /*Register : IOU_TTC_APB_CLK @ 0XFF180380

+ + 00" = Select the APB switch clock for the APB interface of TTC0'01" = Select the PLL ref clock for the APB interface of TTC0' + 0" = Select the R5 clock for the APB interface of TTC0 + PSU_IOU_SLCR_IOU_TTC_APB_CLK_TTC0_SEL 0 + + 00" = Select the APB switch clock for the APB interface of TTC1'01" = Select the PLL ref clock for the APB interface of TTC1' + 0" = Select the R5 clock for the APB interface of TTC1 + PSU_IOU_SLCR_IOU_TTC_APB_CLK_TTC1_SEL 0 + + 00" = Select the APB switch clock for the APB interface of TTC2'01" = Select the PLL ref clock for the APB interface of TTC2' + 0" = Select the R5 clock for the APB interface of TTC2 + PSU_IOU_SLCR_IOU_TTC_APB_CLK_TTC2_SEL 0 + + 00" = Select the APB switch clock for the APB interface of TTC3'01" = Select the PLL ref clock for the APB interface of TTC3' + 0" = Select the R5 clock for the APB interface of TTC3 + PSU_IOU_SLCR_IOU_TTC_APB_CLK_TTC3_SEL 0 + + TTC APB clock select + (OFFSET, MASK, VALUE) (0XFF180380, 0x000000FFU ,0x00000000U) + RegMask = (IOU_SLCR_IOU_TTC_APB_CLK_TTC0_SEL_MASK | IOU_SLCR_IOU_TTC_APB_CLK_TTC1_SEL_MASK | IOU_SLCR_IOU_TTC_APB_CLK_TTC2_SEL_MASK | IOU_SLCR_IOU_TTC_APB_CLK_TTC3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_IOU_TTC_APB_CLK_TTC0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_IOU_TTC_APB_CLK_TTC1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_IOU_TTC_APB_CLK_TTC2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_IOU_TTC_APB_CLK_TTC3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_IOU_TTC_APB_CLK_OFFSET ,0x000000FFU ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : WDT_CLK_SEL @ 0XFD610100

+ + System watchdog timer clock source selection: 0: Internal APB clock 1: External (PL clock via EMIO or Pinout clock via MIO) + PSU_FPD_SLCR_WDT_CLK_SEL_SELECT 0 + + SWDT clock source select + (OFFSET, MASK, VALUE) (0XFD610100, 0x00000001U ,0x00000000U) + RegMask = (FPD_SLCR_WDT_CLK_SEL_SELECT_MASK | 0 ); + + RegVal = ((0x00000000U << FPD_SLCR_WDT_CLK_SEL_SELECT_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (FPD_SLCR_WDT_CLK_SEL_OFFSET ,0x00000001U ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : WDT_CLK_SEL @ 0XFF180300

+ + System watchdog timer clock source selection: 0: internal clock APB clock 1: external clock from PL via EMIO, or from pinout + ia MIO + PSU_IOU_SLCR_WDT_CLK_SEL_SELECT 0 + + SWDT clock source select + (OFFSET, MASK, VALUE) (0XFF180300, 0x00000001U ,0x00000000U) + RegMask = (IOU_SLCR_WDT_CLK_SEL_SELECT_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_WDT_CLK_SEL_SELECT_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_WDT_CLK_SEL_OFFSET ,0x00000001U ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : CSUPMU_WDT_CLK_SEL @ 0XFF410050

+ + System watchdog timer clock source selection: 0: internal clock APB clock 1: external clock pss_ref_clk + PSU_LPD_SLCR_CSUPMU_WDT_CLK_SEL_SELECT 0 + + SWDT clock source select + (OFFSET, MASK, VALUE) (0XFF410050, 0x00000001U ,0x00000000U) + RegMask = (LPD_SLCR_CSUPMU_WDT_CLK_SEL_SELECT_MASK | 0 ); + + RegVal = ((0x00000000U << LPD_SLCR_CSUPMU_WDT_CLK_SEL_SELECT_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_SLCR_CSUPMU_WDT_CLK_SEL_OFFSET ,0x00000001U ,0x00000000U); + /*############################################################################################################################ */ + + + return 1; +} +unsigned long psu_ddr_init_data() { + // : DDR INITIALIZATION + // : DDR CONTROLLER RESET + /*Register : RST_DDR_SS @ 0XFD1A0108

+ + DDR block level reset inside of the DDR Sub System + PSU_CRF_APB_RST_DDR_SS_DDR_RESET 0X1 + + DDR sub system block level reset + (OFFSET, MASK, VALUE) (0XFD1A0108, 0x00000008U ,0x00000008U) + RegMask = (CRF_APB_RST_DDR_SS_DDR_RESET_MASK | 0 ); + + RegVal = ((0x00000001U << CRF_APB_RST_DDR_SS_DDR_RESET_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRF_APB_RST_DDR_SS_OFFSET ,0x00000008U ,0x00000008U); + /*############################################################################################################################ */ + + /*Register : MSTR @ 0XFD070000

+ + Indicates the configuration of the device used in the system. - 00 - x4 device - 01 - x8 device - 10 - x16 device - 11 - x32 + evice + PSU_DDRC_MSTR_DEVICE_CONFIG 0x1 + + Choose which registers are used. - 0 - Original registers - 1 - Shadow registers + PSU_DDRC_MSTR_FREQUENCY_MODE 0x0 + + Only present for multi-rank configurations. Each bit represents one rank. For two-rank configurations, only bits[25:24] are p + esent. - 1 - populated - 0 - unpopulated LSB is the lowest rank number. For 2 ranks following combinations are legal: - 01 - + ne rank - 11 - Two ranks - Others - Reserved. For 4 ranks following combinations are legal: - 0001 - One rank - 0011 - Two ra + ks - 1111 - Four ranks + PSU_DDRC_MSTR_ACTIVE_RANKS 0x1 + + SDRAM burst length used: - 0001 - Burst length of 2 (only supported for mDDR) - 0010 - Burst length of 4 - 0100 - Burst lengt + of 8 - 1000 - Burst length of 16 (only supported for mDDR, LPDDR2, and LPDDR4) All other values are reserved. This controls + he burst size used to access the SDRAM. This must match the burst length mode register setting in the SDRAM. (For BC4/8 on-th + -fly mode of DDR3 and DDR4, set this field to 0x0100) Burst length of 2 is not supported with AXI ports when MEMC_BURST_LENGT + is 8. Burst length of 2 is only supported with MEMC_FREQ_RATIO = 1 + PSU_DDRC_MSTR_BURST_RDWR 0x4 + + Set to 1 when the uMCTL2 and DRAM has to be put in DLL-off mode for low frequency operation. Set to 0 to put uMCTL2 and DRAM + n DLL-on mode for normal frequency operation. If DDR4 CRC/parity retry is enabled (CRCPARCTL1.crc_parity_retry_enable = 1), d + l_off_mode is not supported, and this bit must be set to '0'. + PSU_DDRC_MSTR_DLL_OFF_MODE 0x0 + + Selects proportion of DQ bus width that is used by the SDRAM - 00 - Full DQ bus width to SDRAM - 01 - Half DQ bus width to SD + AM - 10 - Quarter DQ bus width to SDRAM - 11 - Reserved. Note that half bus width mode is only supported when the SDRAM bus w + dth is a multiple of 16, and quarter bus width mode is only supported when the SDRAM bus width is a multiple of 32 and the co + figuration parameter MEMC_QBUS_SUPPORT is set. Bus width refers to DQ bus width (excluding any ECC width). + PSU_DDRC_MSTR_DATA_BUS_WIDTH 0x0 + + 1 indicates put the DRAM in geardown mode (2N) and 0 indicates put the DRAM in normal mode (1N). This register can be changed + only when the Controller is in self-refresh mode. This signal must be set the same value as MR3 bit A3. Note: Geardown mode + s not supported if the configuration parameter MEMC_CMD_RTN2IDLE is set + PSU_DDRC_MSTR_GEARDOWN_MODE 0x0 + + If 1, then uMCTL2 uses 2T timing. Otherwise, uses 1T timing. In 2T timing, all command signals (except chip select) are held + or 2 clocks on the SDRAM bus. Chip select is asserted on the second cycle of the command Note: 2T timing is not supported in + PDDR2/LPDDR3/LPDDR4 mode Note: 2T timing is not supported if the configuration parameter MEMC_CMD_RTN2IDLE is set Note: 2T ti + ing is not supported in DDR4 geardown mode. + PSU_DDRC_MSTR_EN_2T_TIMING_MODE 0x0 + + When set, enable burst-chop in DDR3/DDR4. Burst Chop for Reads is exercised only in HIF configurations (UMCTL2_INCL_ARB not s + t) and if in full bus width mode (MSTR.data_bus_width = 00). Burst Chop for Writes is exercised only if Partial Writes enable + (UMCTL2_PARTIAL_WR=1) and if CRC is disabled (CRCPARCTL1.crc_enable = 0). If DDR4 CRC/parity retry is enabled (CRCPARCTL1.cr + _parity_retry_enable = 1), burst chop is not supported, and this bit must be set to '0' + PSU_DDRC_MSTR_BURSTCHOP 0x0 + + Select LPDDR4 SDRAM - 1 - LPDDR4 SDRAM device in use. - 0 - non-LPDDR4 device in use Present only in designs configured to su + port LPDDR4. + PSU_DDRC_MSTR_LPDDR4 0x0 + + Select DDR4 SDRAM - 1 - DDR4 SDRAM device in use. - 0 - non-DDR4 device in use Present only in designs configured to support + DR4. + PSU_DDRC_MSTR_DDR4 0x1 + + Select LPDDR3 SDRAM - 1 - LPDDR3 SDRAM device in use. - 0 - non-LPDDR3 device in use Present only in designs configured to su + port LPDDR3. + PSU_DDRC_MSTR_LPDDR3 0x0 + + Select LPDDR2 SDRAM - 1 - LPDDR2 SDRAM device in use. - 0 - non-LPDDR2 device in use Present only in designs configured to su + port LPDDR2. + PSU_DDRC_MSTR_LPDDR2 0x0 + + Select DDR3 SDRAM - 1 - DDR3 SDRAM device in use - 0 - non-DDR3 SDRAM device in use Only present in designs that support DDR3 + + PSU_DDRC_MSTR_DDR3 0x0 + + Master Register + (OFFSET, MASK, VALUE) (0XFD070000, 0xE30FBE3DU ,0x41040010U) + RegMask = (DDRC_MSTR_DEVICE_CONFIG_MASK | DDRC_MSTR_FREQUENCY_MODE_MASK | DDRC_MSTR_ACTIVE_RANKS_MASK | DDRC_MSTR_BURST_RDWR_MASK | DDRC_MSTR_DLL_OFF_MODE_MASK | DDRC_MSTR_DATA_BUS_WIDTH_MASK | DDRC_MSTR_GEARDOWN_MODE_MASK | DDRC_MSTR_EN_2T_TIMING_MODE_MASK | DDRC_MSTR_BURSTCHOP_MASK | DDRC_MSTR_LPDDR4_MASK | DDRC_MSTR_DDR4_MASK | DDRC_MSTR_LPDDR3_MASK | DDRC_MSTR_LPDDR2_MASK | DDRC_MSTR_DDR3_MASK | 0 ); + + RegVal = ((0x00000001U << DDRC_MSTR_DEVICE_CONFIG_SHIFT + | 0x00000000U << DDRC_MSTR_FREQUENCY_MODE_SHIFT + | 0x00000001U << DDRC_MSTR_ACTIVE_RANKS_SHIFT + | 0x00000004U << DDRC_MSTR_BURST_RDWR_SHIFT + | 0x00000000U << DDRC_MSTR_DLL_OFF_MODE_SHIFT + | 0x00000000U << DDRC_MSTR_DATA_BUS_WIDTH_SHIFT + | 0x00000000U << DDRC_MSTR_GEARDOWN_MODE_SHIFT + | 0x00000000U << DDRC_MSTR_EN_2T_TIMING_MODE_SHIFT + | 0x00000000U << DDRC_MSTR_BURSTCHOP_SHIFT + | 0x00000000U << DDRC_MSTR_LPDDR4_SHIFT + | 0x00000001U << DDRC_MSTR_DDR4_SHIFT + | 0x00000000U << DDRC_MSTR_LPDDR3_SHIFT + | 0x00000000U << DDRC_MSTR_LPDDR2_SHIFT + | 0x00000000U << DDRC_MSTR_DDR3_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_MSTR_OFFSET ,0xE30FBE3DU ,0x41040010U); + /*############################################################################################################################ */ + + /*Register : MRCTRL0 @ 0XFD070010

+ + Setting this register bit to 1 triggers a mode register read or write operation. When the MR operation is complete, the uMCTL + automatically clears this bit. The other register fields of this register must be written in a separate APB transaction, bef + re setting this mr_wr bit. It is recommended NOT to set this signal if in Init, Deep power-down or MPSM operating modes. + PSU_DDRC_MRCTRL0_MR_WR 0x0 + + Address of the mode register that is to be written to. - 0000 - MR0 - 0001 - MR1 - 0010 - MR2 - 0011 - MR3 - 0100 - MR4 - 010 + - MR5 - 0110 - MR6 - 0111 - MR7 Don't Care for LPDDR2/LPDDR3/LPDDR4 (see MRCTRL1.mr_data for mode register addressing in LPD + R2/LPDDR3/LPDDR4) This signal is also used for writing to control words of RDIMMs. In that case, it corresponds to the bank a + dress bits sent to the RDIMM In case of DDR4, the bit[3:2] corresponds to the bank group bits. Therefore, the bit[3] as well + s the bit[2:0] must be set to an appropriate value which is considered both the Address Mirroring of UDIMMs/RDIMMs and the Ou + put Inversion of RDIMMs. + PSU_DDRC_MRCTRL0_MR_ADDR 0x0 + + Controls which rank is accessed by MRCTRL0.mr_wr. Normally, it is desired to access all ranks, so all bits should be set to 1 + However, for multi-rank UDIMMs/RDIMMs which implement address mirroring, it may be necessary to access ranks individually. E + amples (assume uMCTL2 is configured for 4 ranks): - 0x1 - select rank 0 only - 0x2 - select rank 1 only - 0x5 - select ranks + and 2 - 0xA - select ranks 1 and 3 - 0xF - select ranks 0, 1, 2 and 3 + PSU_DDRC_MRCTRL0_MR_RANK 0x3 + + Indicates whether Software intervention is allowed via MRCTRL0/MRCTRL1 before automatic SDRAM initialization routine or not. + or DDR4, this bit can be used to initialize the DDR4 RCD (MR7) before automatic SDRAM initialization. For LPDDR4, this bit ca + be used to program additional mode registers before automatic SDRAM initialization if necessary. Note: This must be cleared + o 0 after completing Software operation. Otherwise, SDRAM initialization routine will not re-start. - 0 - Software interventi + n is not allowed - 1 - Software intervention is allowed + PSU_DDRC_MRCTRL0_SW_INIT_INT 0x0 + + Indicates whether the mode register operation is MRS in PDA mode or not - 0 - MRS - 1 - MRS in Per DRAM Addressability mode + PSU_DDRC_MRCTRL0_PDA_EN 0x0 + + Indicates whether the mode register operation is MRS or WR/RD for MPR (only supported for DDR4) - 0 - MRS - 1 - WR/RD for MPR + PSU_DDRC_MRCTRL0_MPR_EN 0x0 + + Indicates whether the mode register operation is read or write. Only used for LPDDR2/LPDDR3/LPDDR4/DDR4. - 0 - Write - 1 - Re + d + PSU_DDRC_MRCTRL0_MR_TYPE 0x0 + + Mode Register Read/Write Control Register 0. Note: Do not enable more than one of the following fields simultaneously: - sw_i + it_int - pda_en - mpr_en + (OFFSET, MASK, VALUE) (0XFD070010, 0x8000F03FU ,0x00000030U) + RegMask = (DDRC_MRCTRL0_MR_WR_MASK | DDRC_MRCTRL0_MR_ADDR_MASK | DDRC_MRCTRL0_MR_RANK_MASK | DDRC_MRCTRL0_SW_INIT_INT_MASK | DDRC_MRCTRL0_PDA_EN_MASK | DDRC_MRCTRL0_MPR_EN_MASK | DDRC_MRCTRL0_MR_TYPE_MASK | 0 ); + + RegVal = ((0x00000000U << DDRC_MRCTRL0_MR_WR_SHIFT + | 0x00000000U << DDRC_MRCTRL0_MR_ADDR_SHIFT + | 0x00000003U << DDRC_MRCTRL0_MR_RANK_SHIFT + | 0x00000000U << DDRC_MRCTRL0_SW_INIT_INT_SHIFT + | 0x00000000U << DDRC_MRCTRL0_PDA_EN_SHIFT + | 0x00000000U << DDRC_MRCTRL0_MPR_EN_SHIFT + | 0x00000000U << DDRC_MRCTRL0_MR_TYPE_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_MRCTRL0_OFFSET ,0x8000F03FU ,0x00000030U); + /*############################################################################################################################ */ + + /*Register : DERATEEN @ 0XFD070020

+ + Derate value of tRC for LPDDR4 - 0 - Derating uses +1. - 1 - Derating uses +2. - 2 - Derating uses +3. - 3 - Derating uses +4 + Present only in designs configured to support LPDDR4. The required number of cycles for derating can be determined by dividi + g 3.75ns by the core_ddrc_core_clk period, and rounding up the next integer. + PSU_DDRC_DERATEEN_RC_DERATE_VALUE 0x3 + + Derate byte Present only in designs configured to support LPDDR2/LPDDR3/LPDDR4 Indicates which byte of the MRR data is used f + r derating. The maximum valid value depends on MEMC_DRAM_TOTAL_DATA_WIDTH. + PSU_DDRC_DERATEEN_DERATE_BYTE 0x0 + + Derate value - 0 - Derating uses +1. - 1 - Derating uses +2. Present only in designs configured to support LPDDR2/LPDDR3/LPDD + 4 Set to 0 for all LPDDR2 speed grades as derating value of +1.875 ns is less than a core_ddrc_core_clk period. Can be 0 or 1 + for LPDDR3/LPDDR4, depending if +1.875 ns is less than a core_ddrc_core_clk period or not. + PSU_DDRC_DERATEEN_DERATE_VALUE 0x0 + + Enables derating - 0 - Timing parameter derating is disabled - 1 - Timing parameter derating is enabled using MR4 read value. + Present only in designs configured to support LPDDR2/LPDDR3/LPDDR4 This field must be set to '0' for non-LPDDR2/LPDDR3/LPDDR4 + mode. + PSU_DDRC_DERATEEN_DERATE_ENABLE 0x0 + + Temperature Derate Enable Register + (OFFSET, MASK, VALUE) (0XFD070020, 0x000003F3U ,0x00000300U) + RegMask = (DDRC_DERATEEN_RC_DERATE_VALUE_MASK | DDRC_DERATEEN_DERATE_BYTE_MASK | DDRC_DERATEEN_DERATE_VALUE_MASK | DDRC_DERATEEN_DERATE_ENABLE_MASK | 0 ); + + RegVal = ((0x00000003U << DDRC_DERATEEN_RC_DERATE_VALUE_SHIFT + | 0x00000000U << DDRC_DERATEEN_DERATE_BYTE_SHIFT + | 0x00000000U << DDRC_DERATEEN_DERATE_VALUE_SHIFT + | 0x00000000U << DDRC_DERATEEN_DERATE_ENABLE_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_DERATEEN_OFFSET ,0x000003F3U ,0x00000300U); + /*############################################################################################################################ */ + + /*Register : DERATEINT @ 0XFD070024

+ + Interval between two MR4 reads, used to derate the timing parameters. Present only in designs configured to support LPDDR2/LP + DR3/LPDDR4. This register must not be set to zero + PSU_DDRC_DERATEINT_MR4_READ_INTERVAL 0x800000 + + Temperature Derate Interval Register + (OFFSET, MASK, VALUE) (0XFD070024, 0xFFFFFFFFU ,0x00800000U) + RegMask = (DDRC_DERATEINT_MR4_READ_INTERVAL_MASK | 0 ); + + RegVal = ((0x00800000U << DDRC_DERATEINT_MR4_READ_INTERVAL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_DERATEINT_OFFSET ,0xFFFFFFFFU ,0x00800000U); + /*############################################################################################################################ */ + + /*Register : PWRCTL @ 0XFD070030

+ + Self refresh state is an intermediate state to enter to Self refresh power down state or exit Self refresh power down state f + r LPDDR4. This register controls transition from the Self refresh state. - 1 - Prohibit transition from Self refresh state - + - Allow transition from Self refresh state + PSU_DDRC_PWRCTL_STAY_IN_SELFREF 0x0 + + A value of 1 to this register causes system to move to Self Refresh state immediately, as long as it is not in INIT or DPD/MP + M operating_mode. This is referred to as Software Entry/Exit to Self Refresh. - 1 - Software Entry to Self Refresh - 0 - Soft + are Exit from Self Refresh + PSU_DDRC_PWRCTL_SELFREF_SW 0x0 + + When this is 1, the uMCTL2 puts the SDRAM into maximum power saving mode when the transaction store is empty. This register m + st be reset to '0' to bring uMCTL2 out of maximum power saving mode. Present only in designs configured to support DDR4. For + on-DDR4, this register should not be set to 1. Note that MPSM is not supported when using a DWC DDR PHY, if the PHY parameter + DWC_AC_CS_USE is disabled, as the MPSM exit sequence requires the chip-select signal to toggle. FOR PERFORMANCE ONLY. + PSU_DDRC_PWRCTL_MPSM_EN 0x0 + + Enable the assertion of dfi_dram_clk_disable whenever a clock is not required by the SDRAM. If set to 0, dfi_dram_clk_disable + is never asserted. Assertion of dfi_dram_clk_disable is as follows: In DDR2/DDR3, can only be asserted in Self Refresh. In DD + 4, can be asserted in following: - in Self Refresh. - in Maximum Power Saving Mode In mDDR/LPDDR2/LPDDR3, can be asserted in + ollowing: - in Self Refresh - in Power Down - in Deep Power Down - during Normal operation (Clock Stop) In LPDDR4, can be ass + rted in following: - in Self Refresh Power Down - in Power Down - during Normal operation (Clock Stop) + PSU_DDRC_PWRCTL_EN_DFI_DRAM_CLK_DISABLE 0x0 + + When this is 1, uMCTL2 puts the SDRAM into deep power-down mode when the transaction store is empty. This register must be re + et to '0' to bring uMCTL2 out of deep power-down mode. Controller performs automatic SDRAM initialization on deep power-down + xit. Present only in designs configured to support mDDR or LPDDR2 or LPDDR3. For non-mDDR/non-LPDDR2/non-LPDDR3, this registe + should not be set to 1. FOR PERFORMANCE ONLY. + PSU_DDRC_PWRCTL_DEEPPOWERDOWN_EN 0x0 + + If true then the uMCTL2 goes into power-down after a programmable number of cycles 'maximum idle clocks before power down' (P + RTMG.powerdown_to_x32). This register bit may be re-programmed during the course of normal operation. + PSU_DDRC_PWRCTL_POWERDOWN_EN 0x0 + + If true then the uMCTL2 puts the SDRAM into Self Refresh after a programmable number of cycles 'maximum idle clocks before Se + f Refresh (PWRTMG.selfref_to_x32)'. This register bit may be re-programmed during the course of normal operation. + PSU_DDRC_PWRCTL_SELFREF_EN 0x0 + + Low Power Control Register + (OFFSET, MASK, VALUE) (0XFD070030, 0x0000007FU ,0x00000000U) + RegMask = (DDRC_PWRCTL_STAY_IN_SELFREF_MASK | DDRC_PWRCTL_SELFREF_SW_MASK | DDRC_PWRCTL_MPSM_EN_MASK | DDRC_PWRCTL_EN_DFI_DRAM_CLK_DISABLE_MASK | DDRC_PWRCTL_DEEPPOWERDOWN_EN_MASK | DDRC_PWRCTL_POWERDOWN_EN_MASK | DDRC_PWRCTL_SELFREF_EN_MASK | 0 ); + + RegVal = ((0x00000000U << DDRC_PWRCTL_STAY_IN_SELFREF_SHIFT + | 0x00000000U << DDRC_PWRCTL_SELFREF_SW_SHIFT + | 0x00000000U << DDRC_PWRCTL_MPSM_EN_SHIFT + | 0x00000000U << DDRC_PWRCTL_EN_DFI_DRAM_CLK_DISABLE_SHIFT + | 0x00000000U << DDRC_PWRCTL_DEEPPOWERDOWN_EN_SHIFT + | 0x00000000U << DDRC_PWRCTL_POWERDOWN_EN_SHIFT + | 0x00000000U << DDRC_PWRCTL_SELFREF_EN_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_PWRCTL_OFFSET ,0x0000007FU ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : PWRTMG @ 0XFD070034

+ + After this many clocks of NOP or deselect the uMCTL2 automatically puts the SDRAM into Self Refresh. This must be enabled in + he PWRCTL.selfref_en. Unit: Multiples of 32 clocks. FOR PERFORMANCE ONLY. + PSU_DDRC_PWRTMG_SELFREF_TO_X32 0x40 + + Minimum deep power-down time. For mDDR, value from the JEDEC specification is 0 as mDDR exits from deep power-down mode immed + ately after PWRCTL.deeppowerdown_en is de-asserted. For LPDDR2/LPDDR3, value from the JEDEC specification is 500us. Unit: Mul + iples of 4096 clocks. Present only in designs configured to support mDDR, LPDDR2 or LPDDR3. FOR PERFORMANCE ONLY. + PSU_DDRC_PWRTMG_T_DPD_X4096 0x84 + + After this many clocks of NOP or deselect the uMCTL2 automatically puts the SDRAM into power-down. This must be enabled in th + PWRCTL.powerdown_en. Unit: Multiples of 32 clocks FOR PERFORMANCE ONLY. + PSU_DDRC_PWRTMG_POWERDOWN_TO_X32 0x10 + + Low Power Timing Register + (OFFSET, MASK, VALUE) (0XFD070034, 0x00FFFF1FU ,0x00408410U) + RegMask = (DDRC_PWRTMG_SELFREF_TO_X32_MASK | DDRC_PWRTMG_T_DPD_X4096_MASK | DDRC_PWRTMG_POWERDOWN_TO_X32_MASK | 0 ); + + RegVal = ((0x00000040U << DDRC_PWRTMG_SELFREF_TO_X32_SHIFT + | 0x00000084U << DDRC_PWRTMG_T_DPD_X4096_SHIFT + | 0x00000010U << DDRC_PWRTMG_POWERDOWN_TO_X32_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_PWRTMG_OFFSET ,0x00FFFF1FU ,0x00408410U); + /*############################################################################################################################ */ + + /*Register : RFSHCTL0 @ 0XFD070050

+ + Threshold value in number of clock cycles before the critical refresh or page timer expires. A critical refresh is to be issu + d before this threshold is reached. It is recommended that this not be changed from the default value, currently shown as 0x2 + It must always be less than internally used t_rfc_nom_x32. Note that, in LPDDR2/LPDDR3/LPDDR4, internally used t_rfc_nom_x32 + may be equal to RFSHTMG.t_rfc_nom_x32>>2 if derating is enabled (DERATEEN.derate_enable=1). Otherwise, internally used t_rfc_ + om_x32 will be equal to RFSHTMG.t_rfc_nom_x32. Unit: Multiples of 32 clocks. + PSU_DDRC_RFSHCTL0_REFRESH_MARGIN 0x2 + + If the refresh timer (tRFCnom, also known as tREFI) has expired at least once, but it has not expired (RFSHCTL0.refresh_burst + 1) times yet, then a speculative refresh may be performed. A speculative refresh is a refresh performed at a time when refres + would be useful, but before it is absolutely required. When the SDRAM bus is idle for a period of time determined by this RF + HCTL0.refresh_to_x32 and the refresh timer has expired at least once since the last refresh, then a speculative refresh is pe + formed. Speculative refreshes continues successively until there are no refreshes pending or until new reads or writes are is + ued to the uMCTL2. FOR PERFORMANCE ONLY. + PSU_DDRC_RFSHCTL0_REFRESH_TO_X32 0x10 + + The programmed value + 1 is the number of refresh timeouts that is allowed to accumulate before traffic is blocked and the re + reshes are forced to execute. Closing pages to perform a refresh is a one-time penalty that must be paid for each group of re + reshes. Therefore, performing refreshes in a burst reduces the per-refresh penalty of these page closings. Higher numbers for + RFSHCTL.refresh_burst slightly increases utilization; lower numbers decreases the worst-case latency associated with refreshe + . - 0 - single refresh - 1 - burst-of-2 refresh - 7 - burst-of-8 refresh For information on burst refresh feature refer to se + tion 3.9 of DDR2 JEDEC specification - JESD79-2F.pdf. For DDR2/3, the refresh is always per-rank and not per-bank. The rank r + fresh can be accumulated over 8*tREFI cycles using the burst refresh feature. In DDR4 mode, according to Fine Granularity fea + ure, 8 refreshes can be postponed in 1X mode, 16 refreshes in 2X mode and 32 refreshes in 4X mode. If using PHY-initiated upd + tes, care must be taken in the setting of RFSHCTL0.refresh_burst, to ensure that tRFCmax is not violated due to a PHY-initiat + d update occurring shortly before a refresh burst was due. In this situation, the refresh burst will be delayed until the PHY + initiated update is complete. + PSU_DDRC_RFSHCTL0_REFRESH_BURST 0x0 + + - 1 - Per bank refresh; - 0 - All bank refresh. Per bank refresh allows traffic to flow to other banks. Per bank refresh is n + t supported by all LPDDR2 devices but should be supported by all LPDDR3/LPDDR4 devices. Present only in designs configured to + support LPDDR2/LPDDR3/LPDDR4 + PSU_DDRC_RFSHCTL0_PER_BANK_REFRESH 0x0 + + Refresh Control Register 0 + (OFFSET, MASK, VALUE) (0XFD070050, 0x00F1F1F4U ,0x00210000U) + RegMask = (DDRC_RFSHCTL0_REFRESH_MARGIN_MASK | DDRC_RFSHCTL0_REFRESH_TO_X32_MASK | DDRC_RFSHCTL0_REFRESH_BURST_MASK | DDRC_RFSHCTL0_PER_BANK_REFRESH_MASK | 0 ); + + RegVal = ((0x00000002U << DDRC_RFSHCTL0_REFRESH_MARGIN_SHIFT + | 0x00000010U << DDRC_RFSHCTL0_REFRESH_TO_X32_SHIFT + | 0x00000000U << DDRC_RFSHCTL0_REFRESH_BURST_SHIFT + | 0x00000000U << DDRC_RFSHCTL0_PER_BANK_REFRESH_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_RFSHCTL0_OFFSET ,0x00F1F1F4U ,0x00210000U); + /*############################################################################################################################ */ + + /*Register : RFSHCTL3 @ 0XFD070060

+ + Fine Granularity Refresh Mode - 000 - Fixed 1x (Normal mode) - 001 - Fixed 2x - 010 - Fixed 4x - 101 - Enable on the fly 2x ( + ot supported) - 110 - Enable on the fly 4x (not supported) - Everything else - reserved Note: The on-the-fly modes is not sup + orted in this version of the uMCTL2. Note: This must be set up while the Controller is in reset or while the Controller is in + self-refresh mode. Changing this during normal operation is not allowed. Making this a dynamic register will be supported in + uture version of the uMCTL2. + PSU_DDRC_RFSHCTL3_REFRESH_MODE 0x0 + + Toggle this signal (either from 0 to 1 or from 1 to 0) to indicate that the refresh register(s) have been updated. The value + s automatically updated when exiting reset, so it does not need to be toggled initially. + PSU_DDRC_RFSHCTL3_REFRESH_UPDATE_LEVEL 0x0 + + When '1', disable auto-refresh generated by the uMCTL2. When auto-refresh is disabled, the SoC core must generate refreshes u + ing the registers reg_ddrc_rank0_refresh, reg_ddrc_rank1_refresh, reg_ddrc_rank2_refresh and reg_ddrc_rank3_refresh. When dis + auto_refresh transitions from 0 to 1, any pending refreshes are immediately scheduled by the uMCTL2. If DDR4 CRC/parity retry + is enabled (CRCPARCTL1.crc_parity_retry_enable = 1), disable auto-refresh is not supported, and this bit must be set to '0'. + his register field is changeable on the fly. + PSU_DDRC_RFSHCTL3_DIS_AUTO_REFRESH 0x1 + + Refresh Control Register 3 + (OFFSET, MASK, VALUE) (0XFD070060, 0x00000073U ,0x00000001U) + RegMask = (DDRC_RFSHCTL3_REFRESH_MODE_MASK | DDRC_RFSHCTL3_REFRESH_UPDATE_LEVEL_MASK | DDRC_RFSHCTL3_DIS_AUTO_REFRESH_MASK | 0 ); + + RegVal = ((0x00000000U << DDRC_RFSHCTL3_REFRESH_MODE_SHIFT + | 0x00000000U << DDRC_RFSHCTL3_REFRESH_UPDATE_LEVEL_SHIFT + | 0x00000001U << DDRC_RFSHCTL3_DIS_AUTO_REFRESH_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_RFSHCTL3_OFFSET ,0x00000073U ,0x00000001U); + /*############################################################################################################################ */ + + /*Register : RFSHTMG @ 0XFD070064

+ + tREFI: Average time interval between refreshes per rank (Specification: 7.8us for DDR2, DDR3 and DDR4. See JEDEC specificatio + for mDDR, LPDDR2, LPDDR3 and LPDDR4). For LPDDR2/LPDDR3/LPDDR4: - if using all-bank refreshes (RFSHCTL0.per_bank_refresh = 0 + , this register should be set to tREFIab - if using per-bank refreshes (RFSHCTL0.per_bank_refresh = 1), this register should + e set to tREFIpb For configurations with MEMC_FREQ_RATIO=2, program this to (tREFI/2), no rounding up. In DDR4 mode, tREFI va + ue is different depending on the refresh mode. The user should program the appropriate value from the spec based on the value + programmed in the refresh mode register. Note that RFSHTMG.t_rfc_nom_x32 * 32 must be greater than RFSHTMG.t_rfc_min, and RFS + TMG.t_rfc_nom_x32 must be greater than 0x1. Unit: Multiples of 32 clocks. + PSU_DDRC_RFSHTMG_T_RFC_NOM_X32 0x82 + + Used only when LPDDR3 memory type is connected. Should only be changed when uMCTL2 is in reset. Specifies whether to use the + REFBW parameter (required by some LPDDR3 devices which comply with earlier versions of the LPDDR3 JEDEC specification) or not + - 0 - tREFBW parameter not used - 1 - tREFBW parameter used + PSU_DDRC_RFSHTMG_LPDDR3_TREFBW_EN 0x1 + + tRFC (min): Minimum time from refresh to refresh or activate. For MEMC_FREQ_RATIO=1 configurations, t_rfc_min should be set t + RoundUp(tRFCmin/tCK). For MEMC_FREQ_RATIO=2 configurations, t_rfc_min should be set to RoundUp(RoundUp(tRFCmin/tCK)/2). In L + DDR2/LPDDR3/LPDDR4 mode: - if using all-bank refreshes, the tRFCmin value in the above equations is equal to tRFCab - if usin + per-bank refreshes, the tRFCmin value in the above equations is equal to tRFCpb In DDR4 mode, the tRFCmin value in the above + equations is different depending on the refresh mode (fixed 1X,2X,4X) and the device density. The user should program the app + opriate value from the spec based on the 'refresh_mode' and the device density that is used. Unit: Clocks. + PSU_DDRC_RFSHTMG_T_RFC_MIN 0x8b + + Refresh Timing Register + (OFFSET, MASK, VALUE) (0XFD070064, 0x0FFF83FFU ,0x0082808BU) + RegMask = (DDRC_RFSHTMG_T_RFC_NOM_X32_MASK | DDRC_RFSHTMG_LPDDR3_TREFBW_EN_MASK | DDRC_RFSHTMG_T_RFC_MIN_MASK | 0 ); + + RegVal = ((0x00000082U << DDRC_RFSHTMG_T_RFC_NOM_X32_SHIFT + | 0x00000001U << DDRC_RFSHTMG_LPDDR3_TREFBW_EN_SHIFT + | 0x0000008BU << DDRC_RFSHTMG_T_RFC_MIN_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_RFSHTMG_OFFSET ,0x0FFF83FFU ,0x0082808BU); + /*############################################################################################################################ */ + + /*Register : ECCCFG0 @ 0XFD070070

+ + Disable ECC scrubs. Valid only when ECCCFG0.ecc_mode = 3'b100 and MEMC_USE_RMW is defined + PSU_DDRC_ECCCFG0_DIS_SCRUB 0x1 + + ECC mode indicator - 000 - ECC disabled - 100 - ECC enabled - SEC/DED over 1 beat - all other settings are reserved for futur + use + PSU_DDRC_ECCCFG0_ECC_MODE 0x0 + + ECC Configuration Register 0 + (OFFSET, MASK, VALUE) (0XFD070070, 0x00000017U ,0x00000010U) + RegMask = (DDRC_ECCCFG0_DIS_SCRUB_MASK | DDRC_ECCCFG0_ECC_MODE_MASK | 0 ); + + RegVal = ((0x00000001U << DDRC_ECCCFG0_DIS_SCRUB_SHIFT + | 0x00000000U << DDRC_ECCCFG0_ECC_MODE_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_ECCCFG0_OFFSET ,0x00000017U ,0x00000010U); + /*############################################################################################################################ */ + + /*Register : ECCCFG1 @ 0XFD070074

+ + Selects whether to poison 1 or 2 bits - if 0 -> 2-bit (uncorrectable) data poisoning, if 1 -> 1-bit (correctable) data poison + ng, if ECCCFG1.data_poison_en=1 + PSU_DDRC_ECCCFG1_DATA_POISON_BIT 0x0 + + Enable ECC data poisoning - introduces ECC errors on writes to address specified by the ECCPOISONADDR0/1 registers + PSU_DDRC_ECCCFG1_DATA_POISON_EN 0x0 + + ECC Configuration Register 1 + (OFFSET, MASK, VALUE) (0XFD070074, 0x00000003U ,0x00000000U) + RegMask = (DDRC_ECCCFG1_DATA_POISON_BIT_MASK | DDRC_ECCCFG1_DATA_POISON_EN_MASK | 0 ); + + RegVal = ((0x00000000U << DDRC_ECCCFG1_DATA_POISON_BIT_SHIFT + | 0x00000000U << DDRC_ECCCFG1_DATA_POISON_EN_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_ECCCFG1_OFFSET ,0x00000003U ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : CRCPARCTL1 @ 0XFD0700C4

+ + The maximum number of DFI PHY clock cycles allowed from the assertion of the dfi_rddata_en signal to the assertion of each of + the corresponding bits of the dfi_rddata_valid signal. This corresponds to the DFI timing parameter tphy_rdlat. Refer to PHY + pecification for correct value. This value it only used for detecting read data timeout when DDR4 retry is enabled by CRCPARC + L1.crc_parity_retry_enable=1. Maximum supported value: - 1:1 Frequency mode : DFITMG0.dfi_t_rddata_en + CRCPARCTL1.dfi_t_phy_ + dlat < 'd114 - 1:2 Frequency mode ANDAND DFITMG0.dfi_rddata_use_sdr == 1 : CRCPARCTL1.dfi_t_phy_rdlat < 64 - 1:2 Frequency mo + e ANDAND DFITMG0.dfi_rddata_use_sdr == 0 : DFITMG0.dfi_t_rddata_en + CRCPARCTL1.dfi_t_phy_rdlat < 'd114 Unit: DFI Clocks + PSU_DDRC_CRCPARCTL1_DFI_T_PHY_RDLAT 0x10 + + After a Parity or CRC error is flagged on dfi_alert_n signal, the software has an option to read the mode registers in the DR + M before the hardware begins the retry process - 1: Wait for software to read/write the mode registers before hardware begins + the retry. After software is done with its operations, it will clear the alert interrupt register bit - 0: Hardware can begin + the retry right away after the dfi_alert_n pulse goes away. The value on this register is valid only when retry is enabled (P + RCTRL.crc_parity_retry_enable = 1) If this register is set to 1 and if the software doesn't clear the interrupt register afte + handling the parity/CRC error, then the hardware will not begin the retry process and the system will hang. In the case of P + rity/CRC error, there are two possibilities when the software doesn't reset MR5[4] to 0. - (i) If 'Persistent parity' mode re + ister bit is NOT set: the commands sent during retry and normal operation are executed without parity checking. The value in + he Parity error log register MPR Page 1 is valid. - (ii) If 'Persistent parity' mode register bit is SET: Parity checking is + one for commands sent during retry and normal operation. If multiple errors occur before MR5[4] is cleared, the error log in + PR Page 1 should be treated as 'Don't care'. + PSU_DDRC_CRCPARCTL1_ALERT_WAIT_FOR_SW 0x1 + + - 1: Enable command retry mechanism in case of C/A Parity or CRC error - 0: Disable command retry mechanism when C/A Parity o + CRC features are enabled. Note that retry functionality is not supported if burst chop is enabled (MSTR.burstchop = 1) and/o + disable auto-refresh is enabled (RFSHCTL3.dis_auto_refresh = 1) + PSU_DDRC_CRCPARCTL1_CRC_PARITY_RETRY_ENABLE 0x0 + + CRC Calculation setting register - 1: CRC includes DM signal - 0: CRC not includes DM signal Present only in designs configur + d to support DDR4. + PSU_DDRC_CRCPARCTL1_CRC_INC_DM 0x0 + + CRC enable Register - 1: Enable generation of CRC - 0: Disable generation of CRC The setting of this register should match th + CRC mode register setting in the DRAM. + PSU_DDRC_CRCPARCTL1_CRC_ENABLE 0x0 + + C/A Parity enable register - 1: Enable generation of C/A parity and detection of C/A parity error - 0: Disable generation of + /A parity and disable detection of C/A parity error If RCD's parity error detection or SDRAM's parity detection is enabled, t + is register should be 1. + PSU_DDRC_CRCPARCTL1_PARITY_ENABLE 0x0 + + CRC Parity Control Register1 + (OFFSET, MASK, VALUE) (0XFD0700C4, 0x3F000391U ,0x10000200U) + RegMask = (DDRC_CRCPARCTL1_DFI_T_PHY_RDLAT_MASK | DDRC_CRCPARCTL1_ALERT_WAIT_FOR_SW_MASK | DDRC_CRCPARCTL1_CRC_PARITY_RETRY_ENABLE_MASK | DDRC_CRCPARCTL1_CRC_INC_DM_MASK | DDRC_CRCPARCTL1_CRC_ENABLE_MASK | DDRC_CRCPARCTL1_PARITY_ENABLE_MASK | 0 ); + + RegVal = ((0x00000010U << DDRC_CRCPARCTL1_DFI_T_PHY_RDLAT_SHIFT + | 0x00000001U << DDRC_CRCPARCTL1_ALERT_WAIT_FOR_SW_SHIFT + | 0x00000000U << DDRC_CRCPARCTL1_CRC_PARITY_RETRY_ENABLE_SHIFT + | 0x00000000U << DDRC_CRCPARCTL1_CRC_INC_DM_SHIFT + | 0x00000000U << DDRC_CRCPARCTL1_CRC_ENABLE_SHIFT + | 0x00000000U << DDRC_CRCPARCTL1_PARITY_ENABLE_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_CRCPARCTL1_OFFSET ,0x3F000391U ,0x10000200U); + /*############################################################################################################################ */ + + /*Register : CRCPARCTL2 @ 0XFD0700C8

+ + Value from the DRAM spec indicating the maximum width of the dfi_alert_n pulse when a parity error occurs. Recommended values + - tPAR_ALERT_PW.MAX For configurations with MEMC_FREQ_RATIO=2, program this to tPAR_ALERT_PW.MAX/2 and round up to next inte + er value. Values of 0, 1 and 2 are illegal. This value must be greater than CRCPARCTL2.t_crc_alert_pw_max. + PSU_DDRC_CRCPARCTL2_T_PAR_ALERT_PW_MAX 0x40 + + Value from the DRAM spec indicating the maximum width of the dfi_alert_n pulse when a CRC error occurs. Recommended values: - + tCRC_ALERT_PW.MAX For configurations with MEMC_FREQ_RATIO=2, program this to tCRC_ALERT_PW.MAX/2 and round up to next integer + value. Values of 0, 1 and 2 are illegal. This value must be less than CRCPARCTL2.t_par_alert_pw_max. + PSU_DDRC_CRCPARCTL2_T_CRC_ALERT_PW_MAX 0x5 + + Indicates the maximum duration in number of DRAM clock cycles for which a command should be held in the Command Retry FIFO be + ore it is popped out. Every location in the Command Retry FIFO has an associated down counting timer that will use this regis + er as the start value. The down counting starts when a command is loaded into the FIFO. The timer counts down every 4 DRAM cy + les. When the counter reaches zero, the entry is popped from the FIFO. All the counters are frozen, if a C/A Parity or CRC er + or occurs before the counter reaches zero. The counter is reset to 0, after all the commands in the FIFO are retried. Recomme + ded(minimum) values: - Only C/A Parity is enabled. RoundUp((PHY Command Latency(DRAM CLK) + CAL + RDIMM delay + tPAR_ALERT_ON + max + tPAR_UNKNOWN + PHY Alert Latency(DRAM CLK) + board delay) / 4) + 2 - Both C/A Parity and CRC is enabled/ Only CRC is en + bled. RoundUp((PHY Command Latency(DRAM CLK) + CAL + RDIMM delay + WL + 5(BL10)+ tCRC_ALERT.max + PHY Alert Latency(DRAM CLK) + + board delay) / 4) + 2 Note 1: All value (e.g. tPAR_ALERT_ON) should be in terms of DRAM Clock and round up Note 2: Board de + ay(Command/Alert_n) should be considered. Note 3: Use the worst case(longer) value for PHY Latencies/Board delay Note 4: The + ecommended values are minimum value to be set. For mode detail, See 'Calculation of FIFO Depth' section. Max value can be set + to this register is defined below: - MEMC_BURST_LENGTH == 16 Full bus Mode (CRC=OFF) Max value = UMCTL2_RETRY_CMD_FIFO_DEPTH- + Full bus Mode (CRC=ON) Max value = UMCTL2_RETRY_CMD_FIFO_DEPTH-3 Half bus Mode (CRC=OFF) Max value = UMCTL2_RETRY_CMD_FIFO_D + PTH-4 Half bus Mode (CRC=ON) Max value = UMCTL2_RETRY_CMD_FIFO_DEPTH-6 Quarter bus Mode (CRC=OFF) Max value = UMCTL2_RETRY_CM + _FIFO_DEPTH-8 Quarter bus Mode (CRC=ON) Max value = UMCTL2_RETRY_CMD_FIFO_DEPTH-12 - MEMC_BURST_LENGTH != 16 Full bus Mode (C + C=OFF) Max value = UMCTL2_RETRY_CMD_FIFO_DEPTH-1 Full bus Mode (CRC=ON) Max value = UMCTL2_RETRY_CMD_FIFO_DEPTH-2 Half bus Mo + e (CRC=OFF) Max value = UMCTL2_RETRY_CMD_FIFO_DEPTH-2 Half bus Mode (CRC=ON) Max value = UMCTL2_RETRY_CMD_FIFO_DEPTH-3 Quarte + bus Mode (CRC=OFF) Max value = UMCTL2_RETRY_CMD_FIFO_DEPTH-4 Quarter bus Mode (CRC=ON) Max value = UMCTL2_RETRY_CMD_FIFO_DEP + H-6 Values of 0, 1 and 2 are illegal. + PSU_DDRC_CRCPARCTL2_RETRY_FIFO_MAX_HOLD_TIMER_X4 0x1f + + CRC Parity Control Register2 + (OFFSET, MASK, VALUE) (0XFD0700C8, 0x01FF1F3FU ,0x0040051FU) + RegMask = (DDRC_CRCPARCTL2_T_PAR_ALERT_PW_MAX_MASK | DDRC_CRCPARCTL2_T_CRC_ALERT_PW_MAX_MASK | DDRC_CRCPARCTL2_RETRY_FIFO_MAX_HOLD_TIMER_X4_MASK | 0 ); + + RegVal = ((0x00000040U << DDRC_CRCPARCTL2_T_PAR_ALERT_PW_MAX_SHIFT + | 0x00000005U << DDRC_CRCPARCTL2_T_CRC_ALERT_PW_MAX_SHIFT + | 0x0000001FU << DDRC_CRCPARCTL2_RETRY_FIFO_MAX_HOLD_TIMER_X4_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_CRCPARCTL2_OFFSET ,0x01FF1F3FU ,0x0040051FU); + /*############################################################################################################################ */ + + /*Register : INIT0 @ 0XFD0700D0

+ + If lower bit is enabled the SDRAM initialization routine is skipped. The upper bit decides what state the controller starts u + in when reset is removed - 00 - SDRAM Intialization routine is run after power-up - 01 - SDRAM Intialization routine is skip + ed after power-up. Controller starts up in Normal Mode - 11 - SDRAM Intialization routine is skipped after power-up. Controll + r starts up in Self-refresh Mode - 10 - SDRAM Intialization routine is run after power-up. Note: The only 2'b00 is supported + or LPDDR4 in this version of the uMCTL2. + PSU_DDRC_INIT0_SKIP_DRAM_INIT 0x0 + + Cycles to wait after driving CKE high to start the SDRAM initialization sequence. Unit: 1024 clocks. DDR2 typically requires + 400 ns delay, requiring this value to be programmed to 2 at all clock speeds. LPDDR2/LPDDR3 typically requires this to be pr + grammed for a delay of 200 us. LPDDR4 typically requires this to be programmed for a delay of 2 us. For configurations with M + MC_FREQ_RATIO=2, program this to JEDEC spec value divided by 2, and round it up to next integer value. + PSU_DDRC_INIT0_POST_CKE_X1024 0x2 + + Cycles to wait after reset before driving CKE high to start the SDRAM initialization sequence. Unit: 1024 clock cycles. DDR2 + pecifications typically require this to be programmed for a delay of >= 200 us. LPDDR2/LPDDR3: tINIT1 of 100 ns (min) LPDDR4: + tINIT3 of 2 ms (min) For configurations with MEMC_FREQ_RATIO=2, program this to JEDEC spec value divided by 2, and round it u + to next integer value. + PSU_DDRC_INIT0_PRE_CKE_X1024 0x106 + + SDRAM Initialization Register 0 + (OFFSET, MASK, VALUE) (0XFD0700D0, 0xC3FF0FFFU ,0x00020106U) + RegMask = (DDRC_INIT0_SKIP_DRAM_INIT_MASK | DDRC_INIT0_POST_CKE_X1024_MASK | DDRC_INIT0_PRE_CKE_X1024_MASK | 0 ); + + RegVal = ((0x00000000U << DDRC_INIT0_SKIP_DRAM_INIT_SHIFT + | 0x00000002U << DDRC_INIT0_POST_CKE_X1024_SHIFT + | 0x00000106U << DDRC_INIT0_PRE_CKE_X1024_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_INIT0_OFFSET ,0xC3FF0FFFU ,0x00020106U); + /*############################################################################################################################ */ + + /*Register : INIT1 @ 0XFD0700D4

+ + Number of cycles to assert SDRAM reset signal during init sequence. This is only present for designs supporting DDR3, DDR4 or + LPDDR4 devices. For use with a DDR PHY, this should be set to a minimum of 1 + PSU_DDRC_INIT1_DRAM_RSTN_X1024 0x2 + + Cycles to wait after completing the SDRAM initialization sequence before starting the dynamic scheduler. Unit: Counts of a gl + bal timer that pulses every 32 clock cycles. There is no known specific requirement for this; it may be set to zero. + PSU_DDRC_INIT1_FINAL_WAIT_X32 0x0 + + Wait period before driving the OCD complete command to SDRAM. Unit: Counts of a global timer that pulses every 32 clock cycle + . There is no known specific requirement for this; it may be set to zero. + PSU_DDRC_INIT1_PRE_OCD_X32 0x0 + + SDRAM Initialization Register 1 + (OFFSET, MASK, VALUE) (0XFD0700D4, 0x01FF7F0FU ,0x00020000U) + RegMask = (DDRC_INIT1_DRAM_RSTN_X1024_MASK | DDRC_INIT1_FINAL_WAIT_X32_MASK | DDRC_INIT1_PRE_OCD_X32_MASK | 0 ); + + RegVal = ((0x00000002U << DDRC_INIT1_DRAM_RSTN_X1024_SHIFT + | 0x00000000U << DDRC_INIT1_FINAL_WAIT_X32_SHIFT + | 0x00000000U << DDRC_INIT1_PRE_OCD_X32_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_INIT1_OFFSET ,0x01FF7F0FU ,0x00020000U); + /*############################################################################################################################ */ + + /*Register : INIT2 @ 0XFD0700D8

+ + Idle time after the reset command, tINIT4. Present only in designs configured to support LPDDR2. Unit: 32 clock cycles. + PSU_DDRC_INIT2_IDLE_AFTER_RESET_X32 0x23 + + Time to wait after the first CKE high, tINIT2. Present only in designs configured to support LPDDR2/LPDDR3. Unit: 1 clock cyc + e. LPDDR2/LPDDR3 typically requires 5 x tCK delay. + PSU_DDRC_INIT2_MIN_STABLE_CLOCK_X1 0x5 + + SDRAM Initialization Register 2 + (OFFSET, MASK, VALUE) (0XFD0700D8, 0x0000FF0FU ,0x00002305U) + RegMask = (DDRC_INIT2_IDLE_AFTER_RESET_X32_MASK | DDRC_INIT2_MIN_STABLE_CLOCK_X1_MASK | 0 ); + + RegVal = ((0x00000023U << DDRC_INIT2_IDLE_AFTER_RESET_X32_SHIFT + | 0x00000005U << DDRC_INIT2_MIN_STABLE_CLOCK_X1_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_INIT2_OFFSET ,0x0000FF0FU ,0x00002305U); + /*############################################################################################################################ */ + + /*Register : INIT3 @ 0XFD0700DC

+ + DDR2: Value to write to MR register. Bit 8 is for DLL and the setting here is ignored. The uMCTL2 sets this bit appropriately + DDR3/DDR4: Value loaded into MR0 register. mDDR: Value to write to MR register. LPDDR2/LPDDR3/LPDDR4 - Value to write to MR1 + register + PSU_DDRC_INIT3_MR 0x930 + + DDR2: Value to write to EMR register. Bits 9:7 are for OCD and the setting in this register is ignored. The uMCTL2 sets those + bits appropriately. DDR3/DDR4: Value to write to MR1 register Set bit 7 to 0. If PHY-evaluation mode training is enabled, thi + bit is set appropriately by the uMCTL2 during write leveling. mDDR: Value to write to EMR register. LPDDR2/LPDDR3/LPDDR4 - V + lue to write to MR2 register + PSU_DDRC_INIT3_EMR 0x301 + + SDRAM Initialization Register 3 + (OFFSET, MASK, VALUE) (0XFD0700DC, 0xFFFFFFFFU ,0x09300301U) + RegMask = (DDRC_INIT3_MR_MASK | DDRC_INIT3_EMR_MASK | 0 ); + + RegVal = ((0x00000930U << DDRC_INIT3_MR_SHIFT + | 0x00000301U << DDRC_INIT3_EMR_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_INIT3_OFFSET ,0xFFFFFFFFU ,0x09300301U); + /*############################################################################################################################ */ + + /*Register : INIT4 @ 0XFD0700E0

+ + DDR2: Value to write to EMR2 register. DDR3/DDR4: Value to write to MR2 register LPDDR2/LPDDR3/LPDDR4: Value to write to MR3 + egister mDDR: Unused + PSU_DDRC_INIT4_EMR2 0x20 + + DDR2: Value to write to EMR3 register. DDR3/DDR4: Value to write to MR3 register mDDR/LPDDR2/LPDDR3: Unused LPDDR4: Value to + rite to MR13 register + PSU_DDRC_INIT4_EMR3 0x200 + + SDRAM Initialization Register 4 + (OFFSET, MASK, VALUE) (0XFD0700E0, 0xFFFFFFFFU ,0x00200200U) + RegMask = (DDRC_INIT4_EMR2_MASK | DDRC_INIT4_EMR3_MASK | 0 ); + + RegVal = ((0x00000020U << DDRC_INIT4_EMR2_SHIFT + | 0x00000200U << DDRC_INIT4_EMR3_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_INIT4_OFFSET ,0xFFFFFFFFU ,0x00200200U); + /*############################################################################################################################ */ + + /*Register : INIT5 @ 0XFD0700E4

+ + ZQ initial calibration, tZQINIT. Present only in designs configured to support DDR3 or DDR4 or LPDDR2/LPDDR3. Unit: 32 clock + ycles. DDR3 typically requires 512 clocks. DDR4 requires 1024 clocks. LPDDR2/LPDDR3 requires 1 us. + PSU_DDRC_INIT5_DEV_ZQINIT_X32 0x21 + + Maximum duration of the auto initialization, tINIT5. Present only in designs configured to support LPDDR2/LPDDR3. LPDDR2/LPDD + 3 typically requires 10 us. + PSU_DDRC_INIT5_MAX_AUTO_INIT_X1024 0x4 + + SDRAM Initialization Register 5 + (OFFSET, MASK, VALUE) (0XFD0700E4, 0x00FF03FFU ,0x00210004U) + RegMask = (DDRC_INIT5_DEV_ZQINIT_X32_MASK | DDRC_INIT5_MAX_AUTO_INIT_X1024_MASK | 0 ); + + RegVal = ((0x00000021U << DDRC_INIT5_DEV_ZQINIT_X32_SHIFT + | 0x00000004U << DDRC_INIT5_MAX_AUTO_INIT_X1024_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_INIT5_OFFSET ,0x00FF03FFU ,0x00210004U); + /*############################################################################################################################ */ + + /*Register : INIT6 @ 0XFD0700E8

+ + DDR4- Value to be loaded into SDRAM MR4 registers. Used in DDR4 designs only. + PSU_DDRC_INIT6_MR4 0x0 + + DDR4- Value to be loaded into SDRAM MR5 registers. Used in DDR4 designs only. + PSU_DDRC_INIT6_MR5 0x6c0 + + SDRAM Initialization Register 6 + (OFFSET, MASK, VALUE) (0XFD0700E8, 0xFFFFFFFFU ,0x000006C0U) + RegMask = (DDRC_INIT6_MR4_MASK | DDRC_INIT6_MR5_MASK | 0 ); + + RegVal = ((0x00000000U << DDRC_INIT6_MR4_SHIFT + | 0x000006C0U << DDRC_INIT6_MR5_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_INIT6_OFFSET ,0xFFFFFFFFU ,0x000006C0U); + /*############################################################################################################################ */ + + /*Register : INIT7 @ 0XFD0700EC

+ + DDR4- Value to be loaded into SDRAM MR6 registers. Used in DDR4 designs only. + PSU_DDRC_INIT7_MR6 0x819 + + SDRAM Initialization Register 7 + (OFFSET, MASK, VALUE) (0XFD0700EC, 0xFFFF0000U ,0x08190000U) + RegMask = (DDRC_INIT7_MR6_MASK | 0 ); + + RegVal = ((0x00000819U << DDRC_INIT7_MR6_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_INIT7_OFFSET ,0xFFFF0000U ,0x08190000U); + /*############################################################################################################################ */ + + /*Register : DIMMCTL @ 0XFD0700F0

+ + Disabling Address Mirroring for BG bits. When this is set to 1, BG0 and BG1 are NOT swapped even if Address Mirroring is enab + ed. This will be required for DDR4 DIMMs with x16 devices. - 1 - BG0 and BG1 are NOT swapped. - 0 - BG0 and BG1 are swapped i + address mirroring is enabled. + PSU_DDRC_DIMMCTL_DIMM_DIS_BG_MIRRORING 0x0 + + Enable for BG1 bit of MRS command. BG1 bit of the mode register address is specified as RFU (Reserved for Future Use) and mus + be programmed to 0 during MRS. In case where DRAMs which do not have BG1 are attached and both the CA parity and the Output + nversion are enabled, this must be set to 0, so that the calculation of CA parity will not include BG1 bit. Note: This has no + effect on the address of any other memory accesses, or of software-driven mode register accesses. If address mirroring is ena + led, this is applied to BG1 of even ranks and BG0 of odd ranks. - 1 - Enabled - 0 - Disabled + PSU_DDRC_DIMMCTL_MRS_BG1_EN 0x1 + + Enable for A17 bit of MRS command. A17 bit of the mode register address is specified as RFU (Reserved for Future Use) and mus + be programmed to 0 during MRS. In case where DRAMs which do not have A17 are attached and the Output Inversion are enabled, + his must be set to 0, so that the calculation of CA parity will not include A17 bit. Note: This has no effect on the address + f any other memory accesses, or of software-driven mode register accesses. - 1 - Enabled - 0 - Disabled + PSU_DDRC_DIMMCTL_MRS_A17_EN 0x0 + + Output Inversion Enable (for DDR4 RDIMM implementations only). DDR4 RDIMM implements the Output Inversion feature by default, + which means that the following address, bank address and bank group bits of B-side DRAMs are inverted: A3-A9, A11, A13, A17, + A0-BA1, BG0-BG1. Setting this bit ensures that, for mode register accesses generated by the uMCTL2 during the automatic initi + lization routine and enabling of a particular DDR4 feature, separate A-side and B-side mode register accesses are generated. + or B-side mode register accesses, these bits are inverted within the uMCTL2 to compensate for this RDIMM inversion. Note: Thi + has no effect on the address of any other memory accesses, or of software-driven mode register accesses. - 1 - Implement out + ut inversion for B-side DRAMs. - 0 - Do not implement output inversion for B-side DRAMs. + PSU_DDRC_DIMMCTL_DIMM_OUTPUT_INV_EN 0x0 + + Address Mirroring Enable (for multi-rank UDIMM implementations and multi-rank DDR4 RDIMM implementations). Some UDIMMs and DD + 4 RDIMMs implement address mirroring for odd ranks, which means that the following address, bank address and bank group bits + re swapped: (A3, A4), (A5, A6), (A7, A8), (BA0, BA1) and also (A11, A13), (BG0, BG1) for the DDR4. Setting this bit ensures t + at, for mode register accesses during the automatic initialization routine, these bits are swapped within the uMCTL2 to compe + sate for this UDIMM/RDIMM swapping. In addition to the automatic initialization routine, in case of DDR4 UDIMM/RDIMM, they ar + swapped during the automatic MRS access to enable/disable of a particular DDR4 feature. Note: This has no effect on the addr + ss of any other memory accesses, or of software-driven mode register accesses. This is not supported for mDDR, LPDDR2, LPDDR3 + or LPDDR4 SDRAMs. Note: In case of x16 DDR4 DIMMs, BG1 output of MRS for the odd ranks is same as BG0 because BG1 is invalid, + hence dimm_dis_bg_mirroring register must be set to 1. - 1 - For odd ranks, implement address mirroring for MRS commands to d + ring initialization and for any automatic DDR4 MRS commands (to be used if UDIMM/RDIMM implements address mirroring) - 0 - Do + not implement address mirroring + PSU_DDRC_DIMMCTL_DIMM_ADDR_MIRR_EN 0x0 + + Staggering enable for multi-rank accesses (for multi-rank UDIMM and RDIMM implementations only). This is not supported for mD + R, LPDDR2, LPDDR3 or LPDDR4 SDRAMs. Note: Even if this bit is set it does not take care of software driven MR commands (via M + CTRL0/MRCTRL1), where software is responsible to send them to seperate ranks as appropriate. - 1 - (DDR4) Send MRS commands t + each ranks seperately - 1 - (non-DDR4) Send all commands to even and odd ranks seperately - 0 - Do not stagger accesses + PSU_DDRC_DIMMCTL_DIMM_STAGGER_CS_EN 0x0 + + DIMM Control Register + (OFFSET, MASK, VALUE) (0XFD0700F0, 0x0000003FU ,0x00000010U) + RegMask = (DDRC_DIMMCTL_DIMM_DIS_BG_MIRRORING_MASK | DDRC_DIMMCTL_MRS_BG1_EN_MASK | DDRC_DIMMCTL_MRS_A17_EN_MASK | DDRC_DIMMCTL_DIMM_OUTPUT_INV_EN_MASK | DDRC_DIMMCTL_DIMM_ADDR_MIRR_EN_MASK | DDRC_DIMMCTL_DIMM_STAGGER_CS_EN_MASK | 0 ); + + RegVal = ((0x00000000U << DDRC_DIMMCTL_DIMM_DIS_BG_MIRRORING_SHIFT + | 0x00000001U << DDRC_DIMMCTL_MRS_BG1_EN_SHIFT + | 0x00000000U << DDRC_DIMMCTL_MRS_A17_EN_SHIFT + | 0x00000000U << DDRC_DIMMCTL_DIMM_OUTPUT_INV_EN_SHIFT + | 0x00000000U << DDRC_DIMMCTL_DIMM_ADDR_MIRR_EN_SHIFT + | 0x00000000U << DDRC_DIMMCTL_DIMM_STAGGER_CS_EN_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_DIMMCTL_OFFSET ,0x0000003FU ,0x00000010U); + /*############################################################################################################################ */ + + /*Register : RANKCTL @ 0XFD0700F4

+ + Only present for multi-rank configurations. Indicates the number of clocks of gap in data responses when performing consecuti + e writes to different ranks. This is used to switch the delays in the PHY to match the rank requirements. This value should c + nsider both PHY requirement and ODT requirement. - PHY requirement: tphy_wrcsgap + 1 (see PHY databook for value of tphy_wrcs + ap) If CRC feature is enabled, should be increased by 1. If write preamble is set to 2tCK(DDR4/LPDDR4 only), should be increa + ed by 1. If write postamble is set to 1.5tCK(LPDDR4 only), should be increased by 1. - ODT requirement: The value programmed + n this register takes care of the ODT switch off timing requirement when switching ranks during writes. For LPDDR4, the requi + ement is ODTLoff - ODTLon - BL/2 + 1 For configurations with MEMC_FREQ_RATIO=1, program this to the larger of PHY requirement + or ODT requirement. For configurations with MEMC_FREQ_RATIO=2, program this to the larger value divided by two and round it u + to the next integer. + PSU_DDRC_RANKCTL_DIFF_RANK_WR_GAP 0x6 + + Only present for multi-rank configurations. Indicates the number of clocks of gap in data responses when performing consecuti + e reads to different ranks. This is used to switch the delays in the PHY to match the rank requirements. This value should co + sider both PHY requirement and ODT requirement. - PHY requirement: tphy_rdcsgap + 1 (see PHY databook for value of tphy_rdcsg + p) If read preamble is set to 2tCK(DDR4/LPDDR4 only), should be increased by 1. If read postamble is set to 1.5tCK(LPDDR4 onl + ), should be increased by 1. - ODT requirement: The value programmed in this register takes care of the ODT switch off timing + requirement when switching ranks during reads. For configurations with MEMC_FREQ_RATIO=1, program this to the larger of PHY r + quirement or ODT requirement. For configurations with MEMC_FREQ_RATIO=2, program this to the larger value divided by two and + ound it up to the next integer. + PSU_DDRC_RANKCTL_DIFF_RANK_RD_GAP 0x6 + + Only present for multi-rank configurations. Background: Reads to the same rank can be performed back-to-back. Reads to differ + nt ranks require additional gap dictated by the register RANKCTL.diff_rank_rd_gap. This is to avoid possible data bus content + on as well as to give PHY enough time to switch the delay when changing ranks. The uMCTL2 arbitrates for bus access on a cycl + -by-cycle basis; therefore after a read is scheduled, there are few clock cycles (determined by the value on RANKCTL.diff_ran + _rd_gap register) in which only reads from the same rank are eligible to be scheduled. This prevents reads from other ranks f + om having fair access to the data bus. This parameter represents the maximum number of reads that can be scheduled consecutiv + ly to the same rank. After this number is reached, a delay equal to RANKCTL.diff_rank_rd_gap is inserted by the scheduler to + llow all ranks a fair opportunity to be scheduled. Higher numbers increase bandwidth utilization, lower numbers increase fair + ess. This feature can be DISABLED by setting this register to 0. When set to 0, the Controller will stay on the same rank as + ong as commands are available for it. Minimum programmable value is 0 (feature disabled) and maximum programmable value is 0x + . FOR PERFORMANCE ONLY. + PSU_DDRC_RANKCTL_MAX_RANK_RD 0xf + + Rank Control Register + (OFFSET, MASK, VALUE) (0XFD0700F4, 0x00000FFFU ,0x0000066FU) + RegMask = (DDRC_RANKCTL_DIFF_RANK_WR_GAP_MASK | DDRC_RANKCTL_DIFF_RANK_RD_GAP_MASK | DDRC_RANKCTL_MAX_RANK_RD_MASK | 0 ); + + RegVal = ((0x00000006U << DDRC_RANKCTL_DIFF_RANK_WR_GAP_SHIFT + | 0x00000006U << DDRC_RANKCTL_DIFF_RANK_RD_GAP_SHIFT + | 0x0000000FU << DDRC_RANKCTL_MAX_RANK_RD_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_RANKCTL_OFFSET ,0x00000FFFU ,0x0000066FU); + /*############################################################################################################################ */ + + /*Register : DRAMTMG0 @ 0XFD070100

+ + Minimum time between write and precharge to same bank. Unit: Clocks Specifications: WL + BL/2 + tWR = approximately 8 cycles + 15 ns = 14 clocks @400MHz and less for lower frequencies where: - WL = write latency - BL = burst length. This must match th + value programmed in the BL bit of the mode register to the SDRAM. BST (burst terminate) is not supported at present. - tWR = + Write recovery time. This comes directly from the SDRAM specification. Add one extra cycle for LPDDR2/LPDDR3/LPDDR4 for this + arameter. For configurations with MEMC_FREQ_RATIO=2, 1T mode, divide the above value by 2. No rounding up. For configurations + with MEMC_FREQ_RATIO=2, 2T mode or LPDDR4 mode, divide the above value by 2 and round it up to the next integer value. + PSU_DDRC_DRAMTMG0_WR2PRE 0x11 + + tFAW Valid only when 8 or more banks(or banks x bank groups) are present. In 8-bank design, at most 4 banks must be activated + in a rolling window of tFAW cycles. For configurations with MEMC_FREQ_RATIO=2, program this to (tFAW/2) and round up to next + nteger value. In a 4-bank design, set this register to 0x1 independent of the MEMC_FREQ_RATIO configuration. Unit: Clocks + PSU_DDRC_DRAMTMG0_T_FAW 0x11 + + tRAS(max): Maximum time between activate and precharge to same bank. This is the maximum time that a page can be kept open Mi + imum value of this register is 1. Zero is invalid. For configurations with MEMC_FREQ_RATIO=2, program this to (tRAS(max)-1)/2 + No rounding up. Unit: Multiples of 1024 clocks. + PSU_DDRC_DRAMTMG0_T_RAS_MAX 0x24 + + tRAS(min): Minimum time between activate and precharge to the same bank. For configurations with MEMC_FREQ_RATIO=2, 1T mode, + rogram this to tRAS(min)/2. No rounding up. For configurations with MEMC_FREQ_RATIO=2, 2T mode or LPDDR4 mode, program this t + (tRAS(min)/2) and round it up to the next integer value. Unit: Clocks + PSU_DDRC_DRAMTMG0_T_RAS_MIN 0x12 + + SDRAM Timing Register 0 + (OFFSET, MASK, VALUE) (0XFD070100, 0x7F3F7F3FU ,0x11112412U) + RegMask = (DDRC_DRAMTMG0_WR2PRE_MASK | DDRC_DRAMTMG0_T_FAW_MASK | DDRC_DRAMTMG0_T_RAS_MAX_MASK | DDRC_DRAMTMG0_T_RAS_MIN_MASK | 0 ); + + RegVal = ((0x00000011U << DDRC_DRAMTMG0_WR2PRE_SHIFT + | 0x00000011U << DDRC_DRAMTMG0_T_FAW_SHIFT + | 0x00000024U << DDRC_DRAMTMG0_T_RAS_MAX_SHIFT + | 0x00000012U << DDRC_DRAMTMG0_T_RAS_MIN_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_DRAMTMG0_OFFSET ,0x7F3F7F3FU ,0x11112412U); + /*############################################################################################################################ */ + + /*Register : DRAMTMG1 @ 0XFD070104

+ + tXP: Minimum time after power-down exit to any operation. For DDR3, this should be programmed to tXPDLL if slow powerdown exi + is selected in MR0[12]. If C/A parity for DDR4 is used, set to (tXP+PL) instead. For configurations with MEMC_FREQ_RATIO=2, + rogram this to (tXP/2) and round it up to the next integer value. Units: Clocks + PSU_DDRC_DRAMTMG1_T_XP 0x4 + + tRTP: Minimum time from read to precharge of same bank. - DDR2: tAL + BL/2 + max(tRTP, 2) - 2 - DDR3: tAL + max (tRTP, 4) - D + R4: Max of following two equations: tAL + max (tRTP, 4) or, RL + BL/2 - tRP. - mDDR: BL/2 - LPDDR2: Depends on if it's LPDDR2 + S2 or LPDDR2-S4: LPDDR2-S2: BL/2 + tRTP - 1. LPDDR2-S4: BL/2 + max(tRTP,2) - 2. - LPDDR3: BL/2 + max(tRTP,4) - 4 - LPDDR4: BL + 2 + max(tRTP,8) - 8 For configurations with MEMC_FREQ_RATIO=2, 1T mode, divide the above value by 2. No rounding up. For conf + gurations with MEMC_FREQ_RATIO=2, 2T mode or LPDDR4 mode, divide the above value by 2 and round it up to the next integer val + e. Unit: Clocks. + PSU_DDRC_DRAMTMG1_RD2PRE 0x4 + + tRC: Minimum time between activates to same bank. For configurations with MEMC_FREQ_RATIO=2, program this to (tRC/2) and roun + up to next integer value. Unit: Clocks. + PSU_DDRC_DRAMTMG1_T_RC 0x1a + + SDRAM Timing Register 1 + (OFFSET, MASK, VALUE) (0XFD070104, 0x001F1F7FU ,0x0004041AU) + RegMask = (DDRC_DRAMTMG1_T_XP_MASK | DDRC_DRAMTMG1_RD2PRE_MASK | DDRC_DRAMTMG1_T_RC_MASK | 0 ); + + RegVal = ((0x00000004U << DDRC_DRAMTMG1_T_XP_SHIFT + | 0x00000004U << DDRC_DRAMTMG1_RD2PRE_SHIFT + | 0x0000001AU << DDRC_DRAMTMG1_T_RC_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_DRAMTMG1_OFFSET ,0x001F1F7FU ,0x0004041AU); + /*############################################################################################################################ */ + + /*Register : DRAMTMG2 @ 0XFD070108

+ + Set to WL Time from write command to write data on SDRAM interface. This must be set to WL. For mDDR, it should normally be s + t to 1. Note that, depending on the PHY, if using RDIMM, it may be necessary to use a value of WL + 1 to compensate for the e + tra cycle of latency through the RDIMM For configurations with MEMC_FREQ_RATIO=2, divide the value calculated using the above + equation by 2, and round it up to next integer. This register field is not required for DDR2 and DDR3 (except if MEMC_TRAININ + is set), as the DFI read and write latencies defined in DFITMG0 and DFITMG1 are sufficient for those protocols Unit: clocks + PSU_DDRC_DRAMTMG2_WRITE_LATENCY 0x7 + + Set to RL Time from read command to read data on SDRAM interface. This must be set to RL. Note that, depending on the PHY, if + using RDIMM, it mat be necessary to use a value of RL + 1 to compensate for the extra cycle of latency through the RDIMM For + onfigurations with MEMC_FREQ_RATIO=2, divide the value calculated using the above equation by 2, and round it up to next inte + er. This register field is not required for DDR2 and DDR3 (except if MEMC_TRAINING is set), as the DFI read and write latenci + s defined in DFITMG0 and DFITMG1 are sufficient for those protocols Unit: clocks + PSU_DDRC_DRAMTMG2_READ_LATENCY 0x8 + + DDR2/3/mDDR: RL + BL/2 + 2 - WL DDR4: RL + BL/2 + 1 + WR_PREAMBLE - WL LPDDR2/LPDDR3: RL + BL/2 + RU(tDQSCKmax/tCK) + 1 - WL + PDDR4(DQ ODT is Disabled): RL + BL/2 + RU(tDQSCKmax/tCK) + WR_PREAMBLE + RD_POSTAMBLE - WL LPDDR4(DQ ODT is Enabled) : RL + B + /2 + RU(tDQSCKmax/tCK) + RD_POSTAMBLE - ODTLon - RU(tODTon(min)/tCK) Minimum time from read command to write command. Include + time for bus turnaround and all per-bank, per-rank, and global constraints. Unit: Clocks. Where: - WL = write latency - BL = + urst length. This must match the value programmed in the BL bit of the mode register to the SDRAM - RL = read latency = CAS l + tency - WR_PREAMBLE = write preamble. This is unique to DDR4 and LPDDR4. - RD_POSTAMBLE = read postamble. This is unique to L + DDR4. For LPDDR2/LPDDR3/LPDDR4, if derating is enabled (DERATEEN.derate_enable=1), derated tDQSCKmax should be used. For conf + gurations with MEMC_FREQ_RATIO=2, divide the value calculated using the above equation by 2, and round it up to next integer. + PSU_DDRC_DRAMTMG2_RD2WR 0x6 + + DDR4: CWL + PL + BL/2 + tWTR_L Others: CWL + BL/2 + tWTR In DDR4, minimum time from write command to read command for same ba + k group. In others, minimum time from write command to read command. Includes time for bus turnaround, recovery times, and al + per-bank, per-rank, and global constraints. Unit: Clocks. Where: - CWL = CAS write latency - PL = Parity latency - BL = burs + length. This must match the value programmed in the BL bit of the mode register to the SDRAM - tWTR_L = internal write to re + d command delay for same bank group. This comes directly from the SDRAM specification. - tWTR = internal write to read comman + delay. This comes directly from the SDRAM specification. Add one extra cycle for LPDDR2/LPDDR3/LPDDR4 operation. For configu + ations with MEMC_FREQ_RATIO=2, divide the value calculated using the above equation by 2, and round it up to next integer. + PSU_DDRC_DRAMTMG2_WR2RD 0xe + + SDRAM Timing Register 2 + (OFFSET, MASK, VALUE) (0XFD070108, 0x3F3F3F3FU ,0x0708060EU) + RegMask = (DDRC_DRAMTMG2_WRITE_LATENCY_MASK | DDRC_DRAMTMG2_READ_LATENCY_MASK | DDRC_DRAMTMG2_RD2WR_MASK | DDRC_DRAMTMG2_WR2RD_MASK | 0 ); + + RegVal = ((0x00000007U << DDRC_DRAMTMG2_WRITE_LATENCY_SHIFT + | 0x00000008U << DDRC_DRAMTMG2_READ_LATENCY_SHIFT + | 0x00000006U << DDRC_DRAMTMG2_RD2WR_SHIFT + | 0x0000000EU << DDRC_DRAMTMG2_WR2RD_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_DRAMTMG2_OFFSET ,0x3F3F3F3FU ,0x0708060EU); + /*############################################################################################################################ */ + + /*Register : DRAMTMG3 @ 0XFD07010C

+ + Time to wait after a mode register write or read (MRW or MRR). Present only in designs configured to support LPDDR2, LPDDR3 o + LPDDR4. LPDDR2 typically requires value of 5. LPDDR3 typically requires value of 10. LPDDR4: Set this to the larger of tMRW + nd tMRWCKEL. For LPDDR2, this register is used for the time from a MRW/MRR to all other commands. For LDPDR3, this register i + used for the time from a MRW/MRR to a MRW/MRR. + PSU_DDRC_DRAMTMG3_T_MRW 0x5 + + tMRD: Cycles to wait after a mode register write or read. Depending on the connected SDRAM, tMRD represents: DDR2/mDDR: Time + rom MRS to any command DDR3/4: Time from MRS to MRS command LPDDR2: not used LPDDR3/4: Time from MRS to non-MRS command For c + nfigurations with MEMC_FREQ_RATIO=2, program this to (tMRD/2) and round it up to the next integer value. If C/A parity for DD + 4 is used, set to tMRD_PAR(tMOD+PL) instead. + PSU_DDRC_DRAMTMG3_T_MRD 0x4 + + tMOD: Parameter used only in DDR3 and DDR4. Cycles between load mode command and following non-load mode command. If C/A pari + y for DDR4 is used, set to tMOD_PAR(tMOD+PL) instead. Set to tMOD if MEMC_FREQ_RATIO=1, or tMOD/2 (rounded up to next integer + if MEMC_FREQ_RATIO=2. Note that if using RDIMM, depending on the PHY, it may be necessary to use a value of tMOD + 1 or (tMO + + 1)/2 to compensate for the extra cycle of latency applied to mode register writes by the RDIMM chip. + PSU_DDRC_DRAMTMG3_T_MOD 0xc + + SDRAM Timing Register 3 + (OFFSET, MASK, VALUE) (0XFD07010C, 0x3FF3F3FFU ,0x0050400CU) + RegMask = (DDRC_DRAMTMG3_T_MRW_MASK | DDRC_DRAMTMG3_T_MRD_MASK | DDRC_DRAMTMG3_T_MOD_MASK | 0 ); + + RegVal = ((0x00000005U << DDRC_DRAMTMG3_T_MRW_SHIFT + | 0x00000004U << DDRC_DRAMTMG3_T_MRD_SHIFT + | 0x0000000CU << DDRC_DRAMTMG3_T_MOD_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_DRAMTMG3_OFFSET ,0x3FF3F3FFU ,0x0050400CU); + /*############################################################################################################################ */ + + /*Register : DRAMTMG4 @ 0XFD070110

+ + tRCD - tAL: Minimum time from activate to read or write command to same bank. For configurations with MEMC_FREQ_RATIO=2, prog + am this to ((tRCD - tAL)/2) and round it up to the next integer value. Minimum value allowed for this register is 1, which im + lies minimum (tRCD - tAL) value to be 2 in configurations with MEMC_FREQ_RATIO=2. Unit: Clocks. + PSU_DDRC_DRAMTMG4_T_RCD 0x8 + + DDR4: tCCD_L: This is the minimum time between two reads or two writes for same bank group. Others: tCCD: This is the minimum + time between two reads or two writes. For configurations with MEMC_FREQ_RATIO=2, program this to (tCCD_L/2 or tCCD/2) and rou + d it up to the next integer value. Unit: clocks. + PSU_DDRC_DRAMTMG4_T_CCD 0x3 + + DDR4: tRRD_L: Minimum time between activates from bank 'a' to bank 'b' for same bank group. Others: tRRD: Minimum time betwee + activates from bank 'a' to bank 'b'For configurations with MEMC_FREQ_RATIO=2, program this to (tRRD_L/2 or tRRD/2) and round + it up to the next integer value. Unit: Clocks. + PSU_DDRC_DRAMTMG4_T_RRD 0x3 + + tRP: Minimum time from precharge to activate of same bank. For MEMC_FREQ_RATIO=1 configurations, t_rp should be set to RoundU + (tRP/tCK). For MEMC_FREQ_RATIO=2 configurations, t_rp should be set to RoundDown(RoundUp(tRP/tCK)/2) + 1. For MEMC_FREQ_RATIO + 2 configurations in LPDDR4, t_rp should be set to RoundUp(RoundUp(tRP/tCK)/2). Unit: Clocks. + PSU_DDRC_DRAMTMG4_T_RP 0x9 + + SDRAM Timing Register 4 + (OFFSET, MASK, VALUE) (0XFD070110, 0x1F0F0F1FU ,0x08030309U) + RegMask = (DDRC_DRAMTMG4_T_RCD_MASK | DDRC_DRAMTMG4_T_CCD_MASK | DDRC_DRAMTMG4_T_RRD_MASK | DDRC_DRAMTMG4_T_RP_MASK | 0 ); + + RegVal = ((0x00000008U << DDRC_DRAMTMG4_T_RCD_SHIFT + | 0x00000003U << DDRC_DRAMTMG4_T_CCD_SHIFT + | 0x00000003U << DDRC_DRAMTMG4_T_RRD_SHIFT + | 0x00000009U << DDRC_DRAMTMG4_T_RP_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_DRAMTMG4_OFFSET ,0x1F0F0F1FU ,0x08030309U); + /*############################################################################################################################ */ + + /*Register : DRAMTMG5 @ 0XFD070114

+ + This is the time before Self Refresh Exit that CK is maintained as a valid clock before issuing SRX. Specifies the clock stab + e time before SRX. Recommended settings: - mDDR: 1 - LPDDR2: 2 - LPDDR3: 2 - LPDDR4: tCKCKEH - DDR2: 1 - DDR3: tCKSRX - DDR4: + tCKSRX For configurations with MEMC_FREQ_RATIO=2, program this to recommended value divided by two and round it up to next in + eger. + PSU_DDRC_DRAMTMG5_T_CKSRX 0x6 + + This is the time after Self Refresh Down Entry that CK is maintained as a valid clock. Specifies the clock disable delay afte + SRE. Recommended settings: - mDDR: 0 - LPDDR2: 2 - LPDDR3: 2 - LPDDR4: tCKCKEL - DDR2: 1 - DDR3: max (10 ns, 5 tCK) - DDR4: + ax (10 ns, 5 tCK) For configurations with MEMC_FREQ_RATIO=2, program this to recommended value divided by two and round it up + to next integer. + PSU_DDRC_DRAMTMG5_T_CKSRE 0x6 + + Minimum CKE low width for Self refresh or Self refresh power down entry to exit timing in memory clock cycles. Recommended se + tings: - mDDR: tRFC - LPDDR2: tCKESR - LPDDR3: tCKESR - LPDDR4: max(tCKELPD, tSR) - DDR2: tCKE - DDR3: tCKE + 1 - DDR4: tCKE + 1 For configurations with MEMC_FREQ_RATIO=2, program this to recommended value divided by two and round it up to next intege + . + PSU_DDRC_DRAMTMG5_T_CKESR 0x4 + + Minimum number of cycles of CKE HIGH/LOW during power-down and self refresh. - LPDDR2/LPDDR3 mode: Set this to the larger of + CKE or tCKESR - LPDDR4 mode: Set this to the larger of tCKE, tCKELPD or tSR. - Non-LPDDR2/non-LPDDR3/non-LPDDR4 designs: Set + his to tCKE value. For configurations with MEMC_FREQ_RATIO=2, program this to (value described above)/2 and round it up to th + next integer value. Unit: Clocks. + PSU_DDRC_DRAMTMG5_T_CKE 0x3 + + SDRAM Timing Register 5 + (OFFSET, MASK, VALUE) (0XFD070114, 0x0F0F3F1FU ,0x06060403U) + RegMask = (DDRC_DRAMTMG5_T_CKSRX_MASK | DDRC_DRAMTMG5_T_CKSRE_MASK | DDRC_DRAMTMG5_T_CKESR_MASK | DDRC_DRAMTMG5_T_CKE_MASK | 0 ); + + RegVal = ((0x00000006U << DDRC_DRAMTMG5_T_CKSRX_SHIFT + | 0x00000006U << DDRC_DRAMTMG5_T_CKSRE_SHIFT + | 0x00000004U << DDRC_DRAMTMG5_T_CKESR_SHIFT + | 0x00000003U << DDRC_DRAMTMG5_T_CKE_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_DRAMTMG5_OFFSET ,0x0F0F3F1FU ,0x06060403U); + /*############################################################################################################################ */ + + /*Register : DRAMTMG6 @ 0XFD070118

+ + This is the time after Deep Power Down Entry that CK is maintained as a valid clock. Specifies the clock disable delay after + PDE. Recommended settings: - mDDR: 0 - LPDDR2: 2 - LPDDR3: 2 For configurations with MEMC_FREQ_RATIO=2, program this to recom + ended value divided by two and round it up to next integer. This is only present for designs supporting mDDR or LPDDR2/LPDDR3 + devices. + PSU_DDRC_DRAMTMG6_T_CKDPDE 0x1 + + This is the time before Deep Power Down Exit that CK is maintained as a valid clock before issuing DPDX. Specifies the clock + table time before DPDX. Recommended settings: - mDDR: 1 - LPDDR2: 2 - LPDDR3: 2 For configurations with MEMC_FREQ_RATIO=2, pr + gram this to recommended value divided by two and round it up to next integer. This is only present for designs supporting mD + R or LPDDR2 devices. + PSU_DDRC_DRAMTMG6_T_CKDPDX 0x1 + + This is the time before Clock Stop Exit that CK is maintained as a valid clock before issuing Clock Stop Exit. Specifies the + lock stable time before next command after Clock Stop Exit. Recommended settings: - mDDR: 1 - LPDDR2: tXP + 2 - LPDDR3: tXP + + 2 - LPDDR4: tXP + 2 For configurations with MEMC_FREQ_RATIO=2, program this to recommended value divided by two and round it + p to next integer. This is only present for designs supporting mDDR or LPDDR2/LPDDR3/LPDDR4 devices. + PSU_DDRC_DRAMTMG6_T_CKCSX 0x4 + + SDRAM Timing Register 6 + (OFFSET, MASK, VALUE) (0XFD070118, 0x0F0F000FU ,0x01010004U) + RegMask = (DDRC_DRAMTMG6_T_CKDPDE_MASK | DDRC_DRAMTMG6_T_CKDPDX_MASK | DDRC_DRAMTMG6_T_CKCSX_MASK | 0 ); + + RegVal = ((0x00000001U << DDRC_DRAMTMG6_T_CKDPDE_SHIFT + | 0x00000001U << DDRC_DRAMTMG6_T_CKDPDX_SHIFT + | 0x00000004U << DDRC_DRAMTMG6_T_CKCSX_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_DRAMTMG6_OFFSET ,0x0F0F000FU ,0x01010004U); + /*############################################################################################################################ */ + + /*Register : DRAMTMG7 @ 0XFD07011C

+ + This is the time after Power Down Entry that CK is maintained as a valid clock. Specifies the clock disable delay after PDE. + ecommended settings: - mDDR: 0 - LPDDR2: 2 - LPDDR3: 2 - LPDDR4: tCKCKEL For configurations with MEMC_FREQ_RATIO=2, program t + is to recommended value divided by two and round it up to next integer. This is only present for designs supporting mDDR or L + DDR2/LPDDR3/LPDDR4 devices. + PSU_DDRC_DRAMTMG7_T_CKPDE 0x6 + + This is the time before Power Down Exit that CK is maintained as a valid clock before issuing PDX. Specifies the clock stable + time before PDX. Recommended settings: - mDDR: 0 - LPDDR2: 2 - LPDDR3: 2 - LPDDR4: 2 For configurations with MEMC_FREQ_RATIO= + , program this to recommended value divided by two and round it up to next integer. This is only present for designs supporti + g mDDR or LPDDR2/LPDDR3/LPDDR4 devices. + PSU_DDRC_DRAMTMG7_T_CKPDX 0x6 + + SDRAM Timing Register 7 + (OFFSET, MASK, VALUE) (0XFD07011C, 0x00000F0FU ,0x00000606U) + RegMask = (DDRC_DRAMTMG7_T_CKPDE_MASK | DDRC_DRAMTMG7_T_CKPDX_MASK | 0 ); + + RegVal = ((0x00000006U << DDRC_DRAMTMG7_T_CKPDE_SHIFT + | 0x00000006U << DDRC_DRAMTMG7_T_CKPDX_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_DRAMTMG7_OFFSET ,0x00000F0FU ,0x00000606U); + /*############################################################################################################################ */ + + /*Register : DRAMTMG8 @ 0XFD070120

+ + tXS_FAST: Exit Self Refresh to ZQCL, ZQCS and MRS (only CL, WR, RTP and Geardown mode). For configurations with MEMC_FREQ_RAT + O=2, program this to the above value divided by 2 and round up to next integer value. Unit: Multiples of 32 clocks. Note: Thi + is applicable to only ZQCL/ZQCS commands. Note: Ensure this is less than or equal to t_xs_x32. + PSU_DDRC_DRAMTMG8_T_XS_FAST_X32 0x4 + + tXS_ABORT: Exit Self Refresh to commands not requiring a locked DLL in Self Refresh Abort. For configurations with MEMC_FREQ_ + ATIO=2, program this to the above value divided by 2 and round up to next integer value. Unit: Multiples of 32 clocks. Note: + nsure this is less than or equal to t_xs_x32. + PSU_DDRC_DRAMTMG8_T_XS_ABORT_X32 0x4 + + tXSDLL: Exit Self Refresh to commands requiring a locked DLL. For configurations with MEMC_FREQ_RATIO=2, program this to the + bove value divided by 2 and round up to next integer value. Unit: Multiples of 32 clocks. Note: Used only for DDR2, DDR3 and + DR4 SDRAMs. + PSU_DDRC_DRAMTMG8_T_XS_DLL_X32 0xd + + tXS: Exit Self Refresh to commands not requiring a locked DLL. For configurations with MEMC_FREQ_RATIO=2, program this to the + above value divided by 2 and round up to next integer value. Unit: Multiples of 32 clocks. Note: Used only for DDR2, DDR3 and + DDR4 SDRAMs. + PSU_DDRC_DRAMTMG8_T_XS_X32 0x6 + + SDRAM Timing Register 8 + (OFFSET, MASK, VALUE) (0XFD070120, 0x7F7F7F7FU ,0x04040D06U) + RegMask = (DDRC_DRAMTMG8_T_XS_FAST_X32_MASK | DDRC_DRAMTMG8_T_XS_ABORT_X32_MASK | DDRC_DRAMTMG8_T_XS_DLL_X32_MASK | DDRC_DRAMTMG8_T_XS_X32_MASK | 0 ); + + RegVal = ((0x00000004U << DDRC_DRAMTMG8_T_XS_FAST_X32_SHIFT + | 0x00000004U << DDRC_DRAMTMG8_T_XS_ABORT_X32_SHIFT + | 0x0000000DU << DDRC_DRAMTMG8_T_XS_DLL_X32_SHIFT + | 0x00000006U << DDRC_DRAMTMG8_T_XS_X32_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_DRAMTMG8_OFFSET ,0x7F7F7F7FU ,0x04040D06U); + /*############################################################################################################################ */ + + /*Register : DRAMTMG9 @ 0XFD070124

+ + DDR4 Write preamble mode - 0: 1tCK preamble - 1: 2tCK preamble Present only with MEMC_FREQ_RATIO=2 + PSU_DDRC_DRAMTMG9_DDR4_WR_PREAMBLE 0x0 + + tCCD_S: This is the minimum time between two reads or two writes for different bank group. For bank switching (from bank 'a' + o bank 'b'), the minimum time is this value + 1. For configurations with MEMC_FREQ_RATIO=2, program this to (tCCD_S/2) and ro + nd it up to the next integer value. Present only in designs configured to support DDR4. Unit: clocks. + PSU_DDRC_DRAMTMG9_T_CCD_S 0x2 + + tRRD_S: Minimum time between activates from bank 'a' to bank 'b' for different bank group. For configurations with MEMC_FREQ_ + ATIO=2, program this to (tRRD_S/2) and round it up to the next integer value. Present only in designs configured to support D + R4. Unit: Clocks. + PSU_DDRC_DRAMTMG9_T_RRD_S 0x2 + + CWL + PL + BL/2 + tWTR_S Minimum time from write command to read command for different bank group. Includes time for bus turn + round, recovery times, and all per-bank, per-rank, and global constraints. Present only in designs configured to support DDR4 + Unit: Clocks. Where: - CWL = CAS write latency - PL = Parity latency - BL = burst length. This must match the value programm + d in the BL bit of the mode register to the SDRAM - tWTR_S = internal write to read command delay for different bank group. T + is comes directly from the SDRAM specification. For configurations with MEMC_FREQ_RATIO=2, divide the value calculated using + he above equation by 2, and round it up to next integer. + PSU_DDRC_DRAMTMG9_WR2RD_S 0xb + + SDRAM Timing Register 9 + (OFFSET, MASK, VALUE) (0XFD070124, 0x40070F3FU ,0x0002020BU) + RegMask = (DDRC_DRAMTMG9_DDR4_WR_PREAMBLE_MASK | DDRC_DRAMTMG9_T_CCD_S_MASK | DDRC_DRAMTMG9_T_RRD_S_MASK | DDRC_DRAMTMG9_WR2RD_S_MASK | 0 ); + + RegVal = ((0x00000000U << DDRC_DRAMTMG9_DDR4_WR_PREAMBLE_SHIFT + | 0x00000002U << DDRC_DRAMTMG9_T_CCD_S_SHIFT + | 0x00000002U << DDRC_DRAMTMG9_T_RRD_S_SHIFT + | 0x0000000BU << DDRC_DRAMTMG9_WR2RD_S_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_DRAMTMG9_OFFSET ,0x40070F3FU ,0x0002020BU); + /*############################################################################################################################ */ + + /*Register : DRAMTMG11 @ 0XFD07012C

+ + tXMPDLL: This is the minimum Exit MPSM to commands requiring a locked DLL. For configurations with MEMC_FREQ_RATIO=2, program + this to (tXMPDLL/2) and round it up to the next integer value. Present only in designs configured to support DDR4. Unit: Mult + ples of 32 clocks. + PSU_DDRC_DRAMTMG11_POST_MPSM_GAP_X32 0x6f + + tMPX_LH: This is the minimum CS_n Low hold time to CKE rising edge. For configurations with MEMC_FREQ_RATIO=2, program this t + RoundUp(tMPX_LH/2)+1. Present only in designs configured to support DDR4. Unit: clocks. + PSU_DDRC_DRAMTMG11_T_MPX_LH 0x7 + + tMPX_S: Minimum time CS setup time to CKE. For configurations with MEMC_FREQ_RATIO=2, program this to (tMPX_S/2) and round it + up to the next integer value. Present only in designs configured to support DDR4. Unit: Clocks. + PSU_DDRC_DRAMTMG11_T_MPX_S 0x1 + + tCKMPE: Minimum valid clock requirement after MPSM entry. Present only in designs configured to support DDR4. Unit: Clocks. F + r configurations with MEMC_FREQ_RATIO=2, divide the value calculated using the above equation by 2, and round it up to next i + teger. + PSU_DDRC_DRAMTMG11_T_CKMPE 0xe + + SDRAM Timing Register 11 + (OFFSET, MASK, VALUE) (0XFD07012C, 0x7F1F031FU ,0x6F07010EU) + RegMask = (DDRC_DRAMTMG11_POST_MPSM_GAP_X32_MASK | DDRC_DRAMTMG11_T_MPX_LH_MASK | DDRC_DRAMTMG11_T_MPX_S_MASK | DDRC_DRAMTMG11_T_CKMPE_MASK | 0 ); + + RegVal = ((0x0000006FU << DDRC_DRAMTMG11_POST_MPSM_GAP_X32_SHIFT + | 0x00000007U << DDRC_DRAMTMG11_T_MPX_LH_SHIFT + | 0x00000001U << DDRC_DRAMTMG11_T_MPX_S_SHIFT + | 0x0000000EU << DDRC_DRAMTMG11_T_CKMPE_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_DRAMTMG11_OFFSET ,0x7F1F031FU ,0x6F07010EU); + /*############################################################################################################################ */ + + /*Register : DRAMTMG12 @ 0XFD070130

+ + tCMDCKE: Delay from valid command to CKE input LOW. Set this to the larger of tESCKE or tCMDCKE For configurations with MEMC_ + REQ_RATIO=2, program this to (max(tESCKE, tCMDCKE)/2) and round it up to next integer value. + PSU_DDRC_DRAMTMG12_T_CMDCKE 0x2 + + tCKEHCMD: Valid command requirement after CKE input HIGH. For configurations with MEMC_FREQ_RATIO=2, program this to (tCKEHCM + /2) and round it up to next integer value. + PSU_DDRC_DRAMTMG12_T_CKEHCMD 0x6 + + tMRD_PDA: This is the Mode Register Set command cycle time in PDA mode. For configurations with MEMC_FREQ_RATIO=2, program th + s to (tMRD_PDA/2) and round it up to next integer value. + PSU_DDRC_DRAMTMG12_T_MRD_PDA 0x8 + + SDRAM Timing Register 12 + (OFFSET, MASK, VALUE) (0XFD070130, 0x00030F1FU ,0x00020608U) + RegMask = (DDRC_DRAMTMG12_T_CMDCKE_MASK | DDRC_DRAMTMG12_T_CKEHCMD_MASK | DDRC_DRAMTMG12_T_MRD_PDA_MASK | 0 ); + + RegVal = ((0x00000002U << DDRC_DRAMTMG12_T_CMDCKE_SHIFT + | 0x00000006U << DDRC_DRAMTMG12_T_CKEHCMD_SHIFT + | 0x00000008U << DDRC_DRAMTMG12_T_MRD_PDA_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_DRAMTMG12_OFFSET ,0x00030F1FU ,0x00020608U); + /*############################################################################################################################ */ + + /*Register : ZQCTL0 @ 0XFD070180

+ + - 1 - Disable uMCTL2 generation of ZQCS/MPC(ZQ calibration) command. Register DBGCMD.zq_calib_short can be used instead to is + ue ZQ calibration request from APB module. - 0 - Internally generate ZQCS/MPC(ZQ calibration) commands based on ZQCTL1.t_zq_s + ort_interval_x1024. This is only present for designs supporting DDR3/DDR4 or LPDDR2/LPDDR3/LPDDR4 devices. + PSU_DDRC_ZQCTL0_DIS_AUTO_ZQ 0x1 + + - 1 - Disable issuing of ZQCL/MPC(ZQ calibration) command at Self-Refresh/SR-Powerdown exit. Only applicable when run in DDR3 + or DDR4 or LPDDR2 or LPDDR3 or LPDDR4 mode. - 0 - Enable issuing of ZQCL/MPC(ZQ calibration) command at Self-Refresh/SR-Power + own exit. Only applicable when run in DDR3 or DDR4 or LPDDR2 or LPDDR3 or LPDDR4 mode. This is only present for designs suppo + ting DDR3/DDR4 or LPDDR2/LPDDR3/LPDDR4 devices. + PSU_DDRC_ZQCTL0_DIS_SRX_ZQCL 0x0 + + - 1 - Denotes that ZQ resistor is shared between ranks. Means ZQinit/ZQCL/ZQCS/MPC(ZQ calibration) commands are sent to one r + nk at a time with tZQinit/tZQCL/tZQCS/tZQCAL/tZQLAT timing met between commands so that commands to different ranks do not ov + rlap. - 0 - ZQ resistor is not shared. This is only present for designs supporting DDR3/DDR4 or LPDDR2/LPDDR3/LPDDR4 devices. + PSU_DDRC_ZQCTL0_ZQ_RESISTOR_SHARED 0x0 + + - 1 - Disable issuing of ZQCL command at Maximum Power Saving Mode exit. Only applicable when run in DDR4 mode. - 0 - Enable + ssuing of ZQCL command at Maximum Power Saving Mode exit. Only applicable when run in DDR4 mode. This is only present for des + gns supporting DDR4 devices. + PSU_DDRC_ZQCTL0_DIS_MPSMX_ZQCL 0x0 + + tZQoper for DDR3/DDR4, tZQCL for LPDDR2/LPDDR3, tZQCAL for LPDDR4: Number of cycles of NOP required after a ZQCL (ZQ calibrat + on long)/MPC(ZQ Start) command is issued to SDRAM. For configurations with MEMC_FREQ_RATIO=2: DDR3/DDR4: program this to tZQo + er/2 and round it up to the next integer value. LPDDR2/LPDDR3: program this to tZQCL/2 and round it up to the next integer va + ue. LPDDR4: program this to tZQCAL/2 and round it up to the next integer value. Unit: Clock cycles. This is only present for + esigns supporting DDR3/DDR4 or LPDDR2/LPDDR3/LPDDR4 devices. + PSU_DDRC_ZQCTL0_T_ZQ_LONG_NOP 0x100 + + tZQCS for DDR3/DD4/LPDDR2/LPDDR3, tZQLAT for LPDDR4: Number of cycles of NOP required after a ZQCS (ZQ calibration short)/MPC + ZQ Latch) command is issued to SDRAM. For configurations with MEMC_FREQ_RATIO=2, program this to tZQCS/2 and round it up to t + e next integer value. Unit: Clock cycles. This is only present for designs supporting DDR3/DDR4 or LPDDR2/LPDDR3/LPDDR4 devic + s. + PSU_DDRC_ZQCTL0_T_ZQ_SHORT_NOP 0x40 + + ZQ Control Register 0 + (OFFSET, MASK, VALUE) (0XFD070180, 0xF7FF03FFU ,0x81000040U) + RegMask = (DDRC_ZQCTL0_DIS_AUTO_ZQ_MASK | DDRC_ZQCTL0_DIS_SRX_ZQCL_MASK | DDRC_ZQCTL0_ZQ_RESISTOR_SHARED_MASK | DDRC_ZQCTL0_DIS_MPSMX_ZQCL_MASK | DDRC_ZQCTL0_T_ZQ_LONG_NOP_MASK | DDRC_ZQCTL0_T_ZQ_SHORT_NOP_MASK | 0 ); + + RegVal = ((0x00000001U << DDRC_ZQCTL0_DIS_AUTO_ZQ_SHIFT + | 0x00000000U << DDRC_ZQCTL0_DIS_SRX_ZQCL_SHIFT + | 0x00000000U << DDRC_ZQCTL0_ZQ_RESISTOR_SHARED_SHIFT + | 0x00000000U << DDRC_ZQCTL0_DIS_MPSMX_ZQCL_SHIFT + | 0x00000100U << DDRC_ZQCTL0_T_ZQ_LONG_NOP_SHIFT + | 0x00000040U << DDRC_ZQCTL0_T_ZQ_SHORT_NOP_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_ZQCTL0_OFFSET ,0xF7FF03FFU ,0x81000040U); + /*############################################################################################################################ */ + + /*Register : ZQCTL1 @ 0XFD070184

+ + tZQReset: Number of cycles of NOP required after a ZQReset (ZQ calibration Reset) command is issued to SDRAM. For configurati + ns with MEMC_FREQ_RATIO=2, program this to tZQReset/2 and round it up to the next integer value. Unit: Clock cycles. This is + nly present for designs supporting LPDDR2/LPDDR3/LPDDR4 devices. + PSU_DDRC_ZQCTL1_T_ZQ_RESET_NOP 0x20 + + Average interval to wait between automatically issuing ZQCS (ZQ calibration short)/MPC(ZQ calibration) commands to DDR3/DDR4/ + PDDR2/LPDDR3/LPDDR4 devices. Meaningless, if ZQCTL0.dis_auto_zq=1. Unit: 1024 clock cycles. This is only present for designs + upporting DDR3/DDR4 or LPDDR2/LPDDR3/LPDDR4 devices. + PSU_DDRC_ZQCTL1_T_ZQ_SHORT_INTERVAL_X1024 0x19707 + + ZQ Control Register 1 + (OFFSET, MASK, VALUE) (0XFD070184, 0x3FFFFFFFU ,0x02019707U) + RegMask = (DDRC_ZQCTL1_T_ZQ_RESET_NOP_MASK | DDRC_ZQCTL1_T_ZQ_SHORT_INTERVAL_X1024_MASK | 0 ); + + RegVal = ((0x00000020U << DDRC_ZQCTL1_T_ZQ_RESET_NOP_SHIFT + | 0x00019707U << DDRC_ZQCTL1_T_ZQ_SHORT_INTERVAL_X1024_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_ZQCTL1_OFFSET ,0x3FFFFFFFU ,0x02019707U); + /*############################################################################################################################ */ + + /*Register : DFITMG0 @ 0XFD070190

+ + Specifies the number of DFI clock cycles after an assertion or de-assertion of the DFI control signals that the control signa + s at the PHY-DRAM interface reflect the assertion or de-assertion. If the DFI clock and the memory clock are not phase-aligne + , this timing parameter should be rounded up to the next integer value. Note that if using RDIMM, it is necessary to incremen + this parameter by RDIMM's extra cycle of latency in terms of DFI clock. + PSU_DDRC_DFITMG0_DFI_T_CTRL_DELAY 0x4 + + Defines whether dfi_rddata_en/dfi_rddata/dfi_rddata_valid is generated using HDR or SDR values Selects whether value in DFITM + 0.dfi_t_rddata_en is in terms of SDR or HDR clock cycles: - 0 in terms of HDR clock cycles - 1 in terms of SDR clock cycles R + fer to PHY specification for correct value. + PSU_DDRC_DFITMG0_DFI_RDDATA_USE_SDR 0x1 + + Time from the assertion of a read command on the DFI interface to the assertion of the dfi_rddata_en signal. Refer to PHY spe + ification for correct value. This corresponds to the DFI parameter trddata_en. Note that, depending on the PHY, if using RDIM + , it may be necessary to use the value (CL + 1) in the calculation of trddata_en. This is to compensate for the extra cycle o + latency through the RDIMM. Unit: Clocks + PSU_DDRC_DFITMG0_DFI_T_RDDATA_EN 0xb + + Defines whether dfi_wrdata_en/dfi_wrdata/dfi_wrdata_mask is generated using HDR or SDR values Selects whether value in DFITMG + .dfi_tphy_wrlat is in terms of SDR or HDR clock cycles Selects whether value in DFITMG0.dfi_tphy_wrdata is in terms of SDR or + HDR clock cycles - 0 in terms of HDR clock cycles - 1 in terms of SDR clock cycles Refer to PHY specification for correct val + e. + PSU_DDRC_DFITMG0_DFI_WRDATA_USE_SDR 0x1 + + Specifies the number of clock cycles between when dfi_wrdata_en is asserted to when the associated write data is driven on th + dfi_wrdata signal. This corresponds to the DFI timing parameter tphy_wrdata. Refer to PHY specification for correct value. N + te, max supported value is 8. Unit: Clocks + PSU_DDRC_DFITMG0_DFI_TPHY_WRDATA 0x2 + + Write latency Number of clocks from the write command to write data enable (dfi_wrdata_en). This corresponds to the DFI timin + parameter tphy_wrlat. Refer to PHY specification for correct value.Note that, depending on the PHY, if using RDIMM, it may b + necessary to use the value (CL + 1) in the calculation of tphy_wrlat. This is to compensate for the extra cycle of latency t + rough the RDIMM. + PSU_DDRC_DFITMG0_DFI_TPHY_WRLAT 0xb + + DFI Timing Register 0 + (OFFSET, MASK, VALUE) (0XFD070190, 0x1FBFBF3FU ,0x048B820BU) + RegMask = (DDRC_DFITMG0_DFI_T_CTRL_DELAY_MASK | DDRC_DFITMG0_DFI_RDDATA_USE_SDR_MASK | DDRC_DFITMG0_DFI_T_RDDATA_EN_MASK | DDRC_DFITMG0_DFI_WRDATA_USE_SDR_MASK | DDRC_DFITMG0_DFI_TPHY_WRDATA_MASK | DDRC_DFITMG0_DFI_TPHY_WRLAT_MASK | 0 ); + + RegVal = ((0x00000004U << DDRC_DFITMG0_DFI_T_CTRL_DELAY_SHIFT + | 0x00000001U << DDRC_DFITMG0_DFI_RDDATA_USE_SDR_SHIFT + | 0x0000000BU << DDRC_DFITMG0_DFI_T_RDDATA_EN_SHIFT + | 0x00000001U << DDRC_DFITMG0_DFI_WRDATA_USE_SDR_SHIFT + | 0x00000002U << DDRC_DFITMG0_DFI_TPHY_WRDATA_SHIFT + | 0x0000000BU << DDRC_DFITMG0_DFI_TPHY_WRLAT_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_DFITMG0_OFFSET ,0x1FBFBF3FU ,0x048B820BU); + /*############################################################################################################################ */ + + /*Register : DFITMG1 @ 0XFD070194

+ + Specifies the number of DFI PHY clocks between when the dfi_cs signal is asserted and when the associated command is driven. + his field is used for CAL mode, should be set to '0' or the value which matches the CAL mode register setting in the DRAM. If + the PHY can add the latency for CAL mode, this should be set to '0'. Valid Range: 0, 3, 4, 5, 6, and 8 + PSU_DDRC_DFITMG1_DFI_T_CMD_LAT 0x0 + + Specifies the number of DFI PHY clocks between when the dfi_cs signal is asserted and when the associated dfi_parity_in signa + is driven. + PSU_DDRC_DFITMG1_DFI_T_PARIN_LAT 0x0 + + Specifies the number of DFI clocks between when the dfi_wrdata_en signal is asserted and when the corresponding write data tr + nsfer is completed on the DRAM bus. This corresponds to the DFI timing parameter twrdata_delay. Refer to PHY specification fo + correct value. For DFI 3.0 PHY, set to twrdata_delay, a new timing parameter introduced in DFI 3.0. For DFI 2.1 PHY, set to + phy_wrdata + (delay of DFI write data to the DRAM). Value to be programmed is in terms of DFI clocks, not PHY clocks. In FREQ + RATIO=2, divide PHY's value by 2 and round up to next integer. If using DFITMG0.dfi_wrdata_use_sdr=1, add 1 to the value. Uni + : Clocks + PSU_DDRC_DFITMG1_DFI_T_WRDATA_DELAY 0x3 + + Specifies the number of DFI clock cycles from the assertion of the dfi_dram_clk_disable signal on the DFI until the clock to + he DRAM memory devices, at the PHY-DRAM boundary, maintains a low value. If the DFI clock and the memory clock are not phase + ligned, this timing parameter should be rounded up to the next integer value. + PSU_DDRC_DFITMG1_DFI_T_DRAM_CLK_DISABLE 0x3 + + Specifies the number of DFI clock cycles from the de-assertion of the dfi_dram_clk_disable signal on the DFI until the first + alid rising edge of the clock to the DRAM memory devices, at the PHY-DRAM boundary. If the DFI clock and the memory clock are + not phase aligned, this timing parameter should be rounded up to the next integer value. + PSU_DDRC_DFITMG1_DFI_T_DRAM_CLK_ENABLE 0x4 + + DFI Timing Register 1 + (OFFSET, MASK, VALUE) (0XFD070194, 0xF31F0F0FU ,0x00030304U) + RegMask = (DDRC_DFITMG1_DFI_T_CMD_LAT_MASK | DDRC_DFITMG1_DFI_T_PARIN_LAT_MASK | DDRC_DFITMG1_DFI_T_WRDATA_DELAY_MASK | DDRC_DFITMG1_DFI_T_DRAM_CLK_DISABLE_MASK | DDRC_DFITMG1_DFI_T_DRAM_CLK_ENABLE_MASK | 0 ); + + RegVal = ((0x00000000U << DDRC_DFITMG1_DFI_T_CMD_LAT_SHIFT + | 0x00000000U << DDRC_DFITMG1_DFI_T_PARIN_LAT_SHIFT + | 0x00000003U << DDRC_DFITMG1_DFI_T_WRDATA_DELAY_SHIFT + | 0x00000003U << DDRC_DFITMG1_DFI_T_DRAM_CLK_DISABLE_SHIFT + | 0x00000004U << DDRC_DFITMG1_DFI_T_DRAM_CLK_ENABLE_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_DFITMG1_OFFSET ,0xF31F0F0FU ,0x00030304U); + /*############################################################################################################################ */ + + /*Register : DFILPCFG0 @ 0XFD070198

+ + Setting for DFI's tlp_resp time. Same value is used for both Power Down, Self Refresh, Deep Power Down and Maximum Power Savi + g modes. DFI 2.1 specification onwards, recommends using a fixed value of 7 always. + PSU_DDRC_DFILPCFG0_DFI_TLP_RESP 0x7 + + Value to drive on dfi_lp_wakeup signal when Deep Power Down mode is entered. Determines the DFI's tlp_wakeup time: - 0x0 - 16 + cycles - 0x1 - 32 cycles - 0x2 - 64 cycles - 0x3 - 128 cycles - 0x4 - 256 cycles - 0x5 - 512 cycles - 0x6 - 1024 cycles - 0x7 + - 2048 cycles - 0x8 - 4096 cycles - 0x9 - 8192 cycles - 0xA - 16384 cycles - 0xB - 32768 cycles - 0xC - 65536 cycles - 0xD - + 31072 cycles - 0xE - 262144 cycles - 0xF - Unlimited This is only present for designs supporting mDDR or LPDDR2/LPDDR3 device + . + PSU_DDRC_DFILPCFG0_DFI_LP_WAKEUP_DPD 0x0 + + Enables DFI Low Power interface handshaking during Deep Power Down Entry/Exit. - 0 - Disabled - 1 - Enabled This is only pres + nt for designs supporting mDDR or LPDDR2/LPDDR3 devices. + PSU_DDRC_DFILPCFG0_DFI_LP_EN_DPD 0x0 + + Value to drive on dfi_lp_wakeup signal when Self Refresh mode is entered. Determines the DFI's tlp_wakeup time: - 0x0 - 16 cy + les - 0x1 - 32 cycles - 0x2 - 64 cycles - 0x3 - 128 cycles - 0x4 - 256 cycles - 0x5 - 512 cycles - 0x6 - 1024 cycles - 0x7 - + 048 cycles - 0x8 - 4096 cycles - 0x9 - 8192 cycles - 0xA - 16384 cycles - 0xB - 32768 cycles - 0xC - 65536 cycles - 0xD - 131 + 72 cycles - 0xE - 262144 cycles - 0xF - Unlimited + PSU_DDRC_DFILPCFG0_DFI_LP_WAKEUP_SR 0x0 + + Enables DFI Low Power interface handshaking during Self Refresh Entry/Exit. - 0 - Disabled - 1 - Enabled + PSU_DDRC_DFILPCFG0_DFI_LP_EN_SR 0x1 + + Value to drive on dfi_lp_wakeup signal when Power Down mode is entered. Determines the DFI's tlp_wakeup time: - 0x0 - 16 cycl + s - 0x1 - 32 cycles - 0x2 - 64 cycles - 0x3 - 128 cycles - 0x4 - 256 cycles - 0x5 - 512 cycles - 0x6 - 1024 cycles - 0x7 - 20 + 8 cycles - 0x8 - 4096 cycles - 0x9 - 8192 cycles - 0xA - 16384 cycles - 0xB - 32768 cycles - 0xC - 65536 cycles - 0xD - 13107 + cycles - 0xE - 262144 cycles - 0xF - Unlimited + PSU_DDRC_DFILPCFG0_DFI_LP_WAKEUP_PD 0x0 + + Enables DFI Low Power interface handshaking during Power Down Entry/Exit. - 0 - Disabled - 1 - Enabled + PSU_DDRC_DFILPCFG0_DFI_LP_EN_PD 0x1 + + DFI Low Power Configuration Register 0 + (OFFSET, MASK, VALUE) (0XFD070198, 0x0FF1F1F1U ,0x07000101U) + RegMask = (DDRC_DFILPCFG0_DFI_TLP_RESP_MASK | DDRC_DFILPCFG0_DFI_LP_WAKEUP_DPD_MASK | DDRC_DFILPCFG0_DFI_LP_EN_DPD_MASK | DDRC_DFILPCFG0_DFI_LP_WAKEUP_SR_MASK | DDRC_DFILPCFG0_DFI_LP_EN_SR_MASK | DDRC_DFILPCFG0_DFI_LP_WAKEUP_PD_MASK | DDRC_DFILPCFG0_DFI_LP_EN_PD_MASK | 0 ); + + RegVal = ((0x00000007U << DDRC_DFILPCFG0_DFI_TLP_RESP_SHIFT + | 0x00000000U << DDRC_DFILPCFG0_DFI_LP_WAKEUP_DPD_SHIFT + | 0x00000000U << DDRC_DFILPCFG0_DFI_LP_EN_DPD_SHIFT + | 0x00000000U << DDRC_DFILPCFG0_DFI_LP_WAKEUP_SR_SHIFT + | 0x00000001U << DDRC_DFILPCFG0_DFI_LP_EN_SR_SHIFT + | 0x00000000U << DDRC_DFILPCFG0_DFI_LP_WAKEUP_PD_SHIFT + | 0x00000001U << DDRC_DFILPCFG0_DFI_LP_EN_PD_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_DFILPCFG0_OFFSET ,0x0FF1F1F1U ,0x07000101U); + /*############################################################################################################################ */ + + /*Register : DFILPCFG1 @ 0XFD07019C

+ + Value to drive on dfi_lp_wakeup signal when Maximum Power Saving Mode is entered. Determines the DFI's tlp_wakeup time: - 0x0 + - 16 cycles - 0x1 - 32 cycles - 0x2 - 64 cycles - 0x3 - 128 cycles - 0x4 - 256 cycles - 0x5 - 512 cycles - 0x6 - 1024 cycles + 0x7 - 2048 cycles - 0x8 - 4096 cycles - 0x9 - 8192 cycles - 0xA - 16384 cycles - 0xB - 32768 cycles - 0xC - 65536 cycles - 0 + D - 131072 cycles - 0xE - 262144 cycles - 0xF - Unlimited This is only present for designs supporting DDR4 devices. + PSU_DDRC_DFILPCFG1_DFI_LP_WAKEUP_MPSM 0x2 + + Enables DFI Low Power interface handshaking during Maximum Power Saving Mode Entry/Exit. - 0 - Disabled - 1 - Enabled This is + only present for designs supporting DDR4 devices. + PSU_DDRC_DFILPCFG1_DFI_LP_EN_MPSM 0x1 + + DFI Low Power Configuration Register 1 + (OFFSET, MASK, VALUE) (0XFD07019C, 0x000000F1U ,0x00000021U) + RegMask = (DDRC_DFILPCFG1_DFI_LP_WAKEUP_MPSM_MASK | DDRC_DFILPCFG1_DFI_LP_EN_MPSM_MASK | 0 ); + + RegVal = ((0x00000002U << DDRC_DFILPCFG1_DFI_LP_WAKEUP_MPSM_SHIFT + | 0x00000001U << DDRC_DFILPCFG1_DFI_LP_EN_MPSM_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_DFILPCFG1_OFFSET ,0x000000F1U ,0x00000021U); + /*############################################################################################################################ */ + + /*Register : DFIUPD1 @ 0XFD0701A4

+ + This is the minimum amount of time between uMCTL2 initiated DFI update requests (which is executed whenever the uMCTL2 is idl + ). Set this number higher to reduce the frequency of update requests, which can have a small impact on the latency of the fir + t read request when the uMCTL2 is idle. Unit: 1024 clocks + PSU_DDRC_DFIUPD1_DFI_T_CTRLUPD_INTERVAL_MIN_X1024 0x41 + + This is the maximum amount of time between uMCTL2 initiated DFI update requests. This timer resets with each update request; + hen the timer expires dfi_ctrlupd_req is sent and traffic is blocked until the dfi_ctrlupd_ackx is received. PHY can use this + idle time to recalibrate the delay lines to the DLLs. The DFI controller update is also used to reset PHY FIFO pointers in ca + e of data capture errors. Updates are required to maintain calibration over PVT, but frequent updates may impact performance. + Note: Value programmed for DFIUPD1.dfi_t_ctrlupd_interval_max_x1024 must be greater than DFIUPD1.dfi_t_ctrlupd_interval_min_x + 024. Unit: 1024 clocks + PSU_DDRC_DFIUPD1_DFI_T_CTRLUPD_INTERVAL_MAX_X1024 0xe2 + + DFI Update Register 1 + (OFFSET, MASK, VALUE) (0XFD0701A4, 0x00FF00FFU ,0x004100E2U) + RegMask = (DDRC_DFIUPD1_DFI_T_CTRLUPD_INTERVAL_MIN_X1024_MASK | DDRC_DFIUPD1_DFI_T_CTRLUPD_INTERVAL_MAX_X1024_MASK | 0 ); + + RegVal = ((0x00000041U << DDRC_DFIUPD1_DFI_T_CTRLUPD_INTERVAL_MIN_X1024_SHIFT + | 0x000000E2U << DDRC_DFIUPD1_DFI_T_CTRLUPD_INTERVAL_MAX_X1024_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_DFIUPD1_OFFSET ,0x00FF00FFU ,0x004100E2U); + /*############################################################################################################################ */ + + /*Register : DFIMISC @ 0XFD0701B0

+ + Defines polarity of dfi_wrdata_cs and dfi_rddata_cs signals. - 0: Signals are active low - 1: Signals are active high + PSU_DDRC_DFIMISC_DFI_DATA_CS_POLARITY 0x0 + + DBI implemented in DDRC or PHY. - 0 - DDRC implements DBI functionality. - 1 - PHY implements DBI functionality. Present only + in designs configured to support DDR4 and LPDDR4. + PSU_DDRC_DFIMISC_PHY_DBI_MODE 0x0 + + PHY initialization complete enable signal. When asserted the dfi_init_complete signal can be used to trigger SDRAM initialisa + ion + PSU_DDRC_DFIMISC_DFI_INIT_COMPLETE_EN 0x0 + + DFI Miscellaneous Control Register + (OFFSET, MASK, VALUE) (0XFD0701B0, 0x00000007U ,0x00000000U) + RegMask = (DDRC_DFIMISC_DFI_DATA_CS_POLARITY_MASK | DDRC_DFIMISC_PHY_DBI_MODE_MASK | DDRC_DFIMISC_DFI_INIT_COMPLETE_EN_MASK | 0 ); + + RegVal = ((0x00000000U << DDRC_DFIMISC_DFI_DATA_CS_POLARITY_SHIFT + | 0x00000000U << DDRC_DFIMISC_PHY_DBI_MODE_SHIFT + | 0x00000000U << DDRC_DFIMISC_DFI_INIT_COMPLETE_EN_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_DFIMISC_OFFSET ,0x00000007U ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : DFITMG2 @ 0XFD0701B4

+ + >Number of clocks between when a read command is sent on the DFI control interface and when the associated dfi_rddata_cs sign + l is asserted. This corresponds to the DFI timing parameter tphy_rdcslat. Refer to PHY specification for correct value. + PSU_DDRC_DFITMG2_DFI_TPHY_RDCSLAT 0x9 + + Number of clocks between when a write command is sent on the DFI control interface and when the associated dfi_wrdata_cs sign + l is asserted. This corresponds to the DFI timing parameter tphy_wrcslat. Refer to PHY specification for correct value. + PSU_DDRC_DFITMG2_DFI_TPHY_WRCSLAT 0x6 + + DFI Timing Register 2 + (OFFSET, MASK, VALUE) (0XFD0701B4, 0x00003F3FU ,0x00000906U) + RegMask = (DDRC_DFITMG2_DFI_TPHY_RDCSLAT_MASK | DDRC_DFITMG2_DFI_TPHY_WRCSLAT_MASK | 0 ); + + RegVal = ((0x00000009U << DDRC_DFITMG2_DFI_TPHY_RDCSLAT_SHIFT + | 0x00000006U << DDRC_DFITMG2_DFI_TPHY_WRCSLAT_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_DFITMG2_OFFSET ,0x00003F3FU ,0x00000906U); + /*############################################################################################################################ */ + + /*Register : DBICTL @ 0XFD0701C0

+ + Read DBI enable signal in DDRC. - 0 - Read DBI is disabled. - 1 - Read DBI is enabled. This signal must be set the same value + as DRAM's mode register. - DDR4: MR5 bit A12. When x4 devices are used, this signal must be set to 0. - LPDDR4: MR3[6] + PSU_DDRC_DBICTL_RD_DBI_EN 0x0 + + Write DBI enable signal in DDRC. - 0 - Write DBI is disabled. - 1 - Write DBI is enabled. This signal must be set the same va + ue as DRAM's mode register. - DDR4: MR5 bit A11. When x4 devices are used, this signal must be set to 0. - LPDDR4: MR3[7] + PSU_DDRC_DBICTL_WR_DBI_EN 0x0 + + DM enable signal in DDRC. - 0 - DM is disabled. - 1 - DM is enabled. This signal must be set the same logical value as DRAM's + mode register. - DDR4: Set this to same value as MR5 bit A10. When x4 devices are used, this signal must be set to 0. - LPDDR + : Set this to inverted value of MR13[5] which is opposite polarity from this signal + PSU_DDRC_DBICTL_DM_EN 0x1 + + DM/DBI Control Register + (OFFSET, MASK, VALUE) (0XFD0701C0, 0x00000007U ,0x00000001U) + RegMask = (DDRC_DBICTL_RD_DBI_EN_MASK | DDRC_DBICTL_WR_DBI_EN_MASK | DDRC_DBICTL_DM_EN_MASK | 0 ); + + RegVal = ((0x00000000U << DDRC_DBICTL_RD_DBI_EN_SHIFT + | 0x00000000U << DDRC_DBICTL_WR_DBI_EN_SHIFT + | 0x00000001U << DDRC_DBICTL_DM_EN_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_DBICTL_OFFSET ,0x00000007U ,0x00000001U); + /*############################################################################################################################ */ + + /*Register : ADDRMAP0 @ 0XFD070200

+ + Selects the HIF address bit used as rank address bit 0. Valid Range: 0 to 27, and 31 Internal Base: 6 The selected HIF addres + bit is determined by adding the internal base to the value of this field. If set to 31, rank address bit 0 is set to 0. + PSU_DDRC_ADDRMAP0_ADDRMAP_CS_BIT0 0x1f + + Address Map Register 0 + (OFFSET, MASK, VALUE) (0XFD070200, 0x0000001FU ,0x0000001FU) + RegMask = (DDRC_ADDRMAP0_ADDRMAP_CS_BIT0_MASK | 0 ); + + RegVal = ((0x0000001FU << DDRC_ADDRMAP0_ADDRMAP_CS_BIT0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_ADDRMAP0_OFFSET ,0x0000001FU ,0x0000001FU); + /*############################################################################################################################ */ + + /*Register : ADDRMAP1 @ 0XFD070204

+ + Selects the HIF address bit used as bank address bit 2. Valid Range: 0 to 29 and 31 Internal Base: 4 The selected HIF address + bit is determined by adding the internal base to the value of this field. If set to 31, bank address bit 2 is set to 0. + PSU_DDRC_ADDRMAP1_ADDRMAP_BANK_B2 0x1f + + Selects the HIF address bits used as bank address bit 1. Valid Range: 0 to 30 Internal Base: 3 The selected HIF address bit f + r each of the bank address bits is determined by adding the internal base to the value of this field. + PSU_DDRC_ADDRMAP1_ADDRMAP_BANK_B1 0xa + + Selects the HIF address bits used as bank address bit 0. Valid Range: 0 to 30 Internal Base: 2 The selected HIF address bit f + r each of the bank address bits is determined by adding the internal base to the value of this field. + PSU_DDRC_ADDRMAP1_ADDRMAP_BANK_B0 0xa + + Address Map Register 1 + (OFFSET, MASK, VALUE) (0XFD070204, 0x001F1F1FU ,0x001F0A0AU) + RegMask = (DDRC_ADDRMAP1_ADDRMAP_BANK_B2_MASK | DDRC_ADDRMAP1_ADDRMAP_BANK_B1_MASK | DDRC_ADDRMAP1_ADDRMAP_BANK_B0_MASK | 0 ); + + RegVal = ((0x0000001FU << DDRC_ADDRMAP1_ADDRMAP_BANK_B2_SHIFT + | 0x0000000AU << DDRC_ADDRMAP1_ADDRMAP_BANK_B1_SHIFT + | 0x0000000AU << DDRC_ADDRMAP1_ADDRMAP_BANK_B0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_ADDRMAP1_OFFSET ,0x001F1F1FU ,0x001F0A0AU); + /*############################################################################################################################ */ + + /*Register : ADDRMAP2 @ 0XFD070208

+ + - Full bus width mode: Selects the HIF address bit used as column address bit 5. - Half bus width mode: Selects the HIF addre + s bit used as column address bit 6. - Quarter bus width mode: Selects the HIF address bit used as column address bit 7 . Vali + Range: 0 to 7, and 15 Internal Base: 5 The selected HIF address bit is determined by adding the internal base to the value o + this field. If set to 15, this column address bit is set to 0. + PSU_DDRC_ADDRMAP2_ADDRMAP_COL_B5 0x0 + + - Full bus width mode: Selects the HIF address bit used as column address bit 4. - Half bus width mode: Selects the HIF addre + s bit used as column address bit 5. - Quarter bus width mode: Selects the HIF address bit used as column address bit 6. Valid + Range: 0 to 7, and 15 Internal Base: 4 The selected HIF address bit is determined by adding the internal base to the value of + this field. If set to 15, this column address bit is set to 0. + PSU_DDRC_ADDRMAP2_ADDRMAP_COL_B4 0x0 + + - Full bus width mode: Selects the HIF address bit used as column address bit 3. - Half bus width mode: Selects the HIF addre + s bit used as column address bit 4. - Quarter bus width mode: Selects the HIF address bit used as column address bit 5. Valid + Range: 0 to 7 Internal Base: 3 The selected HIF address bit is determined by adding the internal base to the value of this fi + ld. Note, if UMCTL2_INCL_ARB=1 and MEMC_BURST_LENGTH=16, it is required to program this to 0, hence register does not exist i + this case. + PSU_DDRC_ADDRMAP2_ADDRMAP_COL_B3 0x0 + + - Full bus width mode: Selects the HIF address bit used as column address bit 2. - Half bus width mode: Selects the HIF addre + s bit used as column address bit 3. - Quarter bus width mode: Selects the HIF address bit used as column address bit 4. Valid + Range: 0 to 7 Internal Base: 2 The selected HIF address bit is determined by adding the internal base to the value of this fi + ld. Note, if UMCTL2_INCL_ARB=1 and MEMC_BURST_LENGTH=8 or 16, it is required to program this to 0. + PSU_DDRC_ADDRMAP2_ADDRMAP_COL_B2 0x0 + + Address Map Register 2 + (OFFSET, MASK, VALUE) (0XFD070208, 0x0F0F0F0FU ,0x00000000U) + RegMask = (DDRC_ADDRMAP2_ADDRMAP_COL_B5_MASK | DDRC_ADDRMAP2_ADDRMAP_COL_B4_MASK | DDRC_ADDRMAP2_ADDRMAP_COL_B3_MASK | DDRC_ADDRMAP2_ADDRMAP_COL_B2_MASK | 0 ); + + RegVal = ((0x00000000U << DDRC_ADDRMAP2_ADDRMAP_COL_B5_SHIFT + | 0x00000000U << DDRC_ADDRMAP2_ADDRMAP_COL_B4_SHIFT + | 0x00000000U << DDRC_ADDRMAP2_ADDRMAP_COL_B3_SHIFT + | 0x00000000U << DDRC_ADDRMAP2_ADDRMAP_COL_B2_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_ADDRMAP2_OFFSET ,0x0F0F0F0FU ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : ADDRMAP3 @ 0XFD07020C

+ + - Full bus width mode: Selects the HIF address bit used as column address bit 9. - Half bus width mode: Selects the HIF addre + s bit used as column address bit 11 (10 in LPDDR2/LPDDR3 mode). - Quarter bus width mode: Selects the HIF address bit used as + column address bit 13 (11 in LPDDR2/LPDDR3 mode). Valid Range: 0 to 7, and 15 Internal Base: 9 The selected HIF address bit i + determined by adding the internal base to the value of this field. If set to 15, this column address bit is set to 0. Note: + er JEDEC DDR2/3/mDDR specification, column address bit 10 is reserved for indicating auto-precharge, and hence no source addr + ss bit can be mapped to column address bit 10. In LPDDR2/LPDDR3, there is a dedicated bit for auto-precharge in the CA bus an + hence column bit 10 is used. + PSU_DDRC_ADDRMAP3_ADDRMAP_COL_B9 0x0 + + - Full bus width mode: Selects the HIF address bit used as column address bit 8. - Half bus width mode: Selects the HIF addre + s bit used as column address bit 9. - Quarter bus width mode: Selects the HIF address bit used as column address bit 11 (10 i + LPDDR2/LPDDR3 mode). Valid Range: 0 to 7, and 15 Internal Base: 8 The selected HIF address bit is determined by adding the i + ternal base to the value of this field. If set to 15, this column address bit is set to 0. Note: Per JEDEC DDR2/3/mDDR specif + cation, column address bit 10 is reserved for indicating auto-precharge, and hence no source address bit can be mapped to col + mn address bit 10. In LPDDR2/LPDDR3, there is a dedicated bit for auto-precharge in the CA bus and hence column bit 10 is use + . + PSU_DDRC_ADDRMAP3_ADDRMAP_COL_B8 0x0 + + - Full bus width mode: Selects the HIF address bit used as column address bit 7. - Half bus width mode: Selects the HIF addre + s bit used as column address bit 8. - Quarter bus width mode: Selects the HIF address bit used as column address bit 9. Valid + Range: 0 to 7, and 15 Internal Base: 7 The selected HIF address bit is determined by adding the internal base to the value of + this field. If set to 15, this column address bit is set to 0. + PSU_DDRC_ADDRMAP3_ADDRMAP_COL_B7 0x0 + + - Full bus width mode: Selects the HIF address bit used as column address bit 6. - Half bus width mode: Selects the HIF addre + s bit used as column address bit 7. - Quarter bus width mode: Selects the HIF address bit used as column address bit 8. Valid + Range: 0 to 7, and 15 Internal Base: 6 The selected HIF address bit is determined by adding the internal base to the value of + this field. If set to 15, this column address bit is set to 0. + PSU_DDRC_ADDRMAP3_ADDRMAP_COL_B6 0x0 + + Address Map Register 3 + (OFFSET, MASK, VALUE) (0XFD07020C, 0x0F0F0F0FU ,0x00000000U) + RegMask = (DDRC_ADDRMAP3_ADDRMAP_COL_B9_MASK | DDRC_ADDRMAP3_ADDRMAP_COL_B8_MASK | DDRC_ADDRMAP3_ADDRMAP_COL_B7_MASK | DDRC_ADDRMAP3_ADDRMAP_COL_B6_MASK | 0 ); + + RegVal = ((0x00000000U << DDRC_ADDRMAP3_ADDRMAP_COL_B9_SHIFT + | 0x00000000U << DDRC_ADDRMAP3_ADDRMAP_COL_B8_SHIFT + | 0x00000000U << DDRC_ADDRMAP3_ADDRMAP_COL_B7_SHIFT + | 0x00000000U << DDRC_ADDRMAP3_ADDRMAP_COL_B6_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_ADDRMAP3_OFFSET ,0x0F0F0F0FU ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : ADDRMAP4 @ 0XFD070210

+ + - Full bus width mode: Selects the HIF address bit used as column address bit 13 (11 in LPDDR2/LPDDR3 mode). - Half bus width + mode: Unused. To make it unused, this should be tied to 4'hF. - Quarter bus width mode: Unused. To make it unused, this must + e tied to 4'hF. Valid Range: 0 to 7, and 15 Internal Base: 11 The selected HIF address bit is determined by adding the intern + l base to the value of this field. If set to 15, this column address bit is set to 0. Note: Per JEDEC DDR2/3/mDDR specificati + n, column address bit 10 is reserved for indicating auto-precharge, and hence no source address bit can be mapped to column a + dress bit 10. In LPDDR2/LPDDR3, there is a dedicated bit for auto-precharge in the CA bus and hence column bit 10 is used. + PSU_DDRC_ADDRMAP4_ADDRMAP_COL_B11 0xf + + - Full bus width mode: Selects the HIF address bit used as column address bit 11 (10 in LPDDR2/LPDDR3 mode). - Half bus width + mode: Selects the HIF address bit used as column address bit 13 (11 in LPDDR2/LPDDR3 mode). - Quarter bus width mode: UNUSED. + To make it unused, this must be tied to 4'hF. Valid Range: 0 to 7, and 15 Internal Base: 10 The selected HIF address bit is d + termined by adding the internal base to the value of this field. If set to 15, this column address bit is set to 0. Note: Per + JEDEC DDR2/3/mDDR specification, column address bit 10 is reserved for indicating auto-precharge, and hence no source address + bit can be mapped to column address bit 10. In LPDDR2/LPDDR3, there is a dedicated bit for auto-precharge in the CA bus and h + nce column bit 10 is used. + PSU_DDRC_ADDRMAP4_ADDRMAP_COL_B10 0xf + + Address Map Register 4 + (OFFSET, MASK, VALUE) (0XFD070210, 0x00000F0FU ,0x00000F0FU) + RegMask = (DDRC_ADDRMAP4_ADDRMAP_COL_B11_MASK | DDRC_ADDRMAP4_ADDRMAP_COL_B10_MASK | 0 ); + + RegVal = ((0x0000000FU << DDRC_ADDRMAP4_ADDRMAP_COL_B11_SHIFT + | 0x0000000FU << DDRC_ADDRMAP4_ADDRMAP_COL_B10_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_ADDRMAP4_OFFSET ,0x00000F0FU ,0x00000F0FU); + /*############################################################################################################################ */ + + /*Register : ADDRMAP5 @ 0XFD070214

+ + Selects the HIF address bit used as row address bit 11. Valid Range: 0 to 11, and 15 Internal Base: 17 The selected HIF addre + s bit is determined by adding the internal base to the value of this field. If set to 15, row address bit 11 is set to 0. + PSU_DDRC_ADDRMAP5_ADDRMAP_ROW_B11 0x8 + + Selects the HIF address bits used as row address bits 2 to 10. Valid Range: 0 to 11, and 15 Internal Base: 8 (for row address + bit 2), 9 (for row address bit 3), 10 (for row address bit 4) etc increasing to 16 (for row address bit 10) The selected HIF + ddress bit for each of the row address bits is determined by adding the internal base to the value of this field. When value + 5 is used the values of row address bits 2 to 10 are defined by registers ADDRMAP9, ADDRMAP10, ADDRMAP11. + PSU_DDRC_ADDRMAP5_ADDRMAP_ROW_B2_10 0xf + + Selects the HIF address bits used as row address bit 1. Valid Range: 0 to 11 Internal Base: 7 The selected HIF address bit fo + each of the row address bits is determined by adding the internal base to the value of this field. + PSU_DDRC_ADDRMAP5_ADDRMAP_ROW_B1 0x8 + + Selects the HIF address bits used as row address bit 0. Valid Range: 0 to 11 Internal Base: 6 The selected HIF address bit fo + each of the row address bits is determined by adding the internal base to the value of this field. + PSU_DDRC_ADDRMAP5_ADDRMAP_ROW_B0 0x8 + + Address Map Register 5 + (OFFSET, MASK, VALUE) (0XFD070214, 0x0F0F0F0FU ,0x080F0808U) + RegMask = (DDRC_ADDRMAP5_ADDRMAP_ROW_B11_MASK | DDRC_ADDRMAP5_ADDRMAP_ROW_B2_10_MASK | DDRC_ADDRMAP5_ADDRMAP_ROW_B1_MASK | DDRC_ADDRMAP5_ADDRMAP_ROW_B0_MASK | 0 ); + + RegVal = ((0x00000008U << DDRC_ADDRMAP5_ADDRMAP_ROW_B11_SHIFT + | 0x0000000FU << DDRC_ADDRMAP5_ADDRMAP_ROW_B2_10_SHIFT + | 0x00000008U << DDRC_ADDRMAP5_ADDRMAP_ROW_B1_SHIFT + | 0x00000008U << DDRC_ADDRMAP5_ADDRMAP_ROW_B0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_ADDRMAP5_OFFSET ,0x0F0F0F0FU ,0x080F0808U); + /*############################################################################################################################ */ + + /*Register : ADDRMAP6 @ 0XFD070218

+ + Set this to 1 if there is an LPDDR3 SDRAM 6Gb or 12Gb device in use. - 1 - LPDDR3 SDRAM 6Gb/12Gb device in use. Every address + having row[14:13]==2'b11 is considered as invalid - 0 - non-LPDDR3 6Gb/12Gb device in use. All addresses are valid Present on + y in designs configured to support LPDDR3. + PSU_DDRC_ADDRMAP6_LPDDR3_6GB_12GB 0x0 + + Selects the HIF address bit used as row address bit 15. Valid Range: 0 to 11, and 15 Internal Base: 21 The selected HIF addre + s bit is determined by adding the internal base to the value of this field. If set to 15, row address bit 15 is set to 0. + PSU_DDRC_ADDRMAP6_ADDRMAP_ROW_B15 0xf + + Selects the HIF address bit used as row address bit 14. Valid Range: 0 to 11, and 15 Internal Base: 20 The selected HIF addre + s bit is determined by adding the internal base to the value of this field. If set to 15, row address bit 14 is set to 0. + PSU_DDRC_ADDRMAP6_ADDRMAP_ROW_B14 0x8 + + Selects the HIF address bit used as row address bit 13. Valid Range: 0 to 11, and 15 Internal Base: 19 The selected HIF addre + s bit is determined by adding the internal base to the value of this field. If set to 15, row address bit 13 is set to 0. + PSU_DDRC_ADDRMAP6_ADDRMAP_ROW_B13 0x8 + + Selects the HIF address bit used as row address bit 12. Valid Range: 0 to 11, and 15 Internal Base: 18 The selected HIF addre + s bit is determined by adding the internal base to the value of this field. If set to 15, row address bit 12 is set to 0. + PSU_DDRC_ADDRMAP6_ADDRMAP_ROW_B12 0x8 + + Address Map Register 6 + (OFFSET, MASK, VALUE) (0XFD070218, 0x8F0F0F0FU ,0x0F080808U) + RegMask = (DDRC_ADDRMAP6_LPDDR3_6GB_12GB_MASK | DDRC_ADDRMAP6_ADDRMAP_ROW_B15_MASK | DDRC_ADDRMAP6_ADDRMAP_ROW_B14_MASK | DDRC_ADDRMAP6_ADDRMAP_ROW_B13_MASK | DDRC_ADDRMAP6_ADDRMAP_ROW_B12_MASK | 0 ); + + RegVal = ((0x00000000U << DDRC_ADDRMAP6_LPDDR3_6GB_12GB_SHIFT + | 0x0000000FU << DDRC_ADDRMAP6_ADDRMAP_ROW_B15_SHIFT + | 0x00000008U << DDRC_ADDRMAP6_ADDRMAP_ROW_B14_SHIFT + | 0x00000008U << DDRC_ADDRMAP6_ADDRMAP_ROW_B13_SHIFT + | 0x00000008U << DDRC_ADDRMAP6_ADDRMAP_ROW_B12_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_ADDRMAP6_OFFSET ,0x8F0F0F0FU ,0x0F080808U); + /*############################################################################################################################ */ + + /*Register : ADDRMAP7 @ 0XFD07021C

+ + Selects the HIF address bit used as row address bit 17. Valid Range: 0 to 10, and 15 Internal Base: 23 The selected HIF addre + s bit is determined by adding the internal base to the value of this field. If set to 15, row address bit 17 is set to 0. + PSU_DDRC_ADDRMAP7_ADDRMAP_ROW_B17 0xf + + Selects the HIF address bit used as row address bit 16. Valid Range: 0 to 11, and 15 Internal Base: 22 The selected HIF addre + s bit is determined by adding the internal base to the value of this field. If set to 15, row address bit 16 is set to 0. + PSU_DDRC_ADDRMAP7_ADDRMAP_ROW_B16 0xf + + Address Map Register 7 + (OFFSET, MASK, VALUE) (0XFD07021C, 0x00000F0FU ,0x00000F0FU) + RegMask = (DDRC_ADDRMAP7_ADDRMAP_ROW_B17_MASK | DDRC_ADDRMAP7_ADDRMAP_ROW_B16_MASK | 0 ); + + RegVal = ((0x0000000FU << DDRC_ADDRMAP7_ADDRMAP_ROW_B17_SHIFT + | 0x0000000FU << DDRC_ADDRMAP7_ADDRMAP_ROW_B16_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_ADDRMAP7_OFFSET ,0x00000F0FU ,0x00000F0FU); + /*############################################################################################################################ */ + + /*Register : ADDRMAP8 @ 0XFD070220

+ + Selects the HIF address bits used as bank group address bit 1. Valid Range: 0 to 30, and 31 Internal Base: 3 The selected HIF + address bit for each of the bank group address bits is determined by adding the internal base to the value of this field. If + et to 31, bank group address bit 1 is set to 0. + PSU_DDRC_ADDRMAP8_ADDRMAP_BG_B1 0x8 + + Selects the HIF address bits used as bank group address bit 0. Valid Range: 0 to 30 Internal Base: 2 The selected HIF address + bit for each of the bank group address bits is determined by adding the internal base to the value of this field. + PSU_DDRC_ADDRMAP8_ADDRMAP_BG_B0 0x8 + + Address Map Register 8 + (OFFSET, MASK, VALUE) (0XFD070220, 0x00001F1FU ,0x00000808U) + RegMask = (DDRC_ADDRMAP8_ADDRMAP_BG_B1_MASK | DDRC_ADDRMAP8_ADDRMAP_BG_B0_MASK | 0 ); + + RegVal = ((0x00000008U << DDRC_ADDRMAP8_ADDRMAP_BG_B1_SHIFT + | 0x00000008U << DDRC_ADDRMAP8_ADDRMAP_BG_B0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_ADDRMAP8_OFFSET ,0x00001F1FU ,0x00000808U); + /*############################################################################################################################ */ + + /*Register : ADDRMAP9 @ 0XFD070224

+ + Selects the HIF address bits used as row address bit 5. Valid Range: 0 to 11 Internal Base: 11 The selected HIF address bit f + r each of the row address bits is determined by adding the internal base to the value of this field. This register field is u + ed only when ADDRMAP5.addrmap_row_b2_10 is set to value 15. + PSU_DDRC_ADDRMAP9_ADDRMAP_ROW_B5 0x8 + + Selects the HIF address bits used as row address bit 4. Valid Range: 0 to 11 Internal Base: 10 The selected HIF address bit f + r each of the row address bits is determined by adding the internal base to the value of this field. This register field is u + ed only when ADDRMAP5.addrmap_row_b2_10 is set to value 15. + PSU_DDRC_ADDRMAP9_ADDRMAP_ROW_B4 0x8 + + Selects the HIF address bits used as row address bit 3. Valid Range: 0 to 11 Internal Base: 9 The selected HIF address bit fo + each of the row address bits is determined by adding the internal base to the value of this field. This register field is us + d only when ADDRMAP5.addrmap_row_b2_10 is set to value 15. + PSU_DDRC_ADDRMAP9_ADDRMAP_ROW_B3 0x8 + + Selects the HIF address bits used as row address bit 2. Valid Range: 0 to 11 Internal Base: 8 The selected HIF address bit fo + each of the row address bits is determined by adding the internal base to the value of this field. This register field is us + d only when ADDRMAP5.addrmap_row_b2_10 is set to value 15. + PSU_DDRC_ADDRMAP9_ADDRMAP_ROW_B2 0x8 + + Address Map Register 9 + (OFFSET, MASK, VALUE) (0XFD070224, 0x0F0F0F0FU ,0x08080808U) + RegMask = (DDRC_ADDRMAP9_ADDRMAP_ROW_B5_MASK | DDRC_ADDRMAP9_ADDRMAP_ROW_B4_MASK | DDRC_ADDRMAP9_ADDRMAP_ROW_B3_MASK | DDRC_ADDRMAP9_ADDRMAP_ROW_B2_MASK | 0 ); + + RegVal = ((0x00000008U << DDRC_ADDRMAP9_ADDRMAP_ROW_B5_SHIFT + | 0x00000008U << DDRC_ADDRMAP9_ADDRMAP_ROW_B4_SHIFT + | 0x00000008U << DDRC_ADDRMAP9_ADDRMAP_ROW_B3_SHIFT + | 0x00000008U << DDRC_ADDRMAP9_ADDRMAP_ROW_B2_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_ADDRMAP9_OFFSET ,0x0F0F0F0FU ,0x08080808U); + /*############################################################################################################################ */ + + /*Register : ADDRMAP10 @ 0XFD070228

+ + Selects the HIF address bits used as row address bit 9. Valid Range: 0 to 11 Internal Base: 15 The selected HIF address bit f + r each of the row address bits is determined by adding the internal base to the value of this field. This register field is u + ed only when ADDRMAP5.addrmap_row_b2_10 is set to value 15. + PSU_DDRC_ADDRMAP10_ADDRMAP_ROW_B9 0x8 + + Selects the HIF address bits used as row address bit 8. Valid Range: 0 to 11 Internal Base: 14 The selected HIF address bit f + r each of the row address bits is determined by adding the internal base to the value of this field. This register field is u + ed only when ADDRMAP5.addrmap_row_b2_10 is set to value 15. + PSU_DDRC_ADDRMAP10_ADDRMAP_ROW_B8 0x8 + + Selects the HIF address bits used as row address bit 7. Valid Range: 0 to 11 Internal Base: 13 The selected HIF address bit f + r each of the row address bits is determined by adding the internal base to the value of this field. This register field is u + ed only when ADDRMAP5.addrmap_row_b2_10 is set to value 15. + PSU_DDRC_ADDRMAP10_ADDRMAP_ROW_B7 0x8 + + Selects the HIF address bits used as row address bit 6. Valid Range: 0 to 11 Internal Base: 12 The selected HIF address bit f + r each of the row address bits is determined by adding the internal base to the value of this field. This register field is u + ed only when ADDRMAP5.addrmap_row_b2_10 is set to value 15. + PSU_DDRC_ADDRMAP10_ADDRMAP_ROW_B6 0x8 + + Address Map Register 10 + (OFFSET, MASK, VALUE) (0XFD070228, 0x0F0F0F0FU ,0x08080808U) + RegMask = (DDRC_ADDRMAP10_ADDRMAP_ROW_B9_MASK | DDRC_ADDRMAP10_ADDRMAP_ROW_B8_MASK | DDRC_ADDRMAP10_ADDRMAP_ROW_B7_MASK | DDRC_ADDRMAP10_ADDRMAP_ROW_B6_MASK | 0 ); + + RegVal = ((0x00000008U << DDRC_ADDRMAP10_ADDRMAP_ROW_B9_SHIFT + | 0x00000008U << DDRC_ADDRMAP10_ADDRMAP_ROW_B8_SHIFT + | 0x00000008U << DDRC_ADDRMAP10_ADDRMAP_ROW_B7_SHIFT + | 0x00000008U << DDRC_ADDRMAP10_ADDRMAP_ROW_B6_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_ADDRMAP10_OFFSET ,0x0F0F0F0FU ,0x08080808U); + /*############################################################################################################################ */ + + /*Register : ADDRMAP11 @ 0XFD07022C

+ + Selects the HIF address bits used as row address bit 10. Valid Range: 0 to 11 Internal Base: 16 The selected HIF address bit + or each of the row address bits is determined by adding the internal base to the value of this field. This register field is + sed only when ADDRMAP5.addrmap_row_b2_10 is set to value 15. + PSU_DDRC_ADDRMAP11_ADDRMAP_ROW_B10 0x8 + + Address Map Register 11 + (OFFSET, MASK, VALUE) (0XFD07022C, 0x0000000FU ,0x00000008U) + RegMask = (DDRC_ADDRMAP11_ADDRMAP_ROW_B10_MASK | 0 ); + + RegVal = ((0x00000008U << DDRC_ADDRMAP11_ADDRMAP_ROW_B10_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_ADDRMAP11_OFFSET ,0x0000000FU ,0x00000008U); + /*############################################################################################################################ */ + + /*Register : ODTCFG @ 0XFD070240

+ + Cycles to hold ODT for a write command. The minimum supported value is 2. Recommended values: DDR2: - BL8: 0x5 (DDR2-400/533/ + 67), 0x6 (DDR2-800), 0x7 (DDR2-1066) - BL4: 0x3 (DDR2-400/533/667), 0x4 (DDR2-800), 0x5 (DDR2-1066) DDR3: - BL8: 0x6 DDR4: - + L8: 5 + WR_PREAMBLE + CRC_MODE WR_PREAMBLE = 1 (1tCK write preamble), 2 (2tCK write preamble) CRC_MODE = 0 (not CRC mode), 1 + CRC mode) LPDDR3: - BL8: 7 + RU(tODTon(max)/tCK) + PSU_DDRC_ODTCFG_WR_ODT_HOLD 0x6 + + The delay, in clock cycles, from issuing a write command to setting ODT values associated with that command. ODT setting must + remain constant for the entire time that DQS is driven by the uMCTL2. Recommended values: DDR2: - CWL + AL - 3 (DDR2-400/533/ + 67), CWL + AL - 4 (DDR2-800), CWL + AL - 5 (DDR2-1066) If (CWL + AL - 3 < 0), uMCTL2 does not support ODT for write operation + DDR3: - 0x0 DDR4: - DFITMG1.dfi_t_cmd_lat (to adjust for CAL mode) LPDDR3: - WL - 1 - RU(tODTon(max)/tCK)) + PSU_DDRC_ODTCFG_WR_ODT_DELAY 0x0 + + Cycles to hold ODT for a read command. The minimum supported value is 2. Recommended values: DDR2: - BL8: 0x6 (not DDR2-1066) + 0x7 (DDR2-1066) - BL4: 0x4 (not DDR2-1066), 0x5 (DDR2-1066) DDR3: - BL8 - 0x6 DDR4: - BL8: 5 + RD_PREAMBLE RD_PREAMBLE = 1 ( + tCK write preamble), 2 (2tCK write preamble) LPDDR3: - BL8: 5 + RU(tDQSCK(max)/tCK) - RD(tDQSCK(min)/tCK) + RU(tODTon(max)/tC + ) + PSU_DDRC_ODTCFG_RD_ODT_HOLD 0x6 + + The delay, in clock cycles, from issuing a read command to setting ODT values associated with that command. ODT setting must + emain constant for the entire time that DQS is driven by the uMCTL2. Recommended values: DDR2: - CL + AL - 4 (not DDR2-1066), + CL + AL - 5 (DDR2-1066) If (CL + AL - 4 < 0), uMCTL2 does not support ODT for read operation. DDR3: - CL - CWL DDR4: - CL - C + L - RD_PREAMBLE + WR_PREAMBLE + DFITMG1.dfi_t_cmd_lat (to adjust for CAL mode) WR_PREAMBLE = 1 (1tCK write preamble), 2 (2tCK + write preamble) RD_PREAMBLE = 1 (1tCK write preamble), 2 (2tCK write preamble) If (CL - CWL - RD_PREAMBLE + WR_PREAMBLE) < 0, + uMCTL2 does not support ODT for read operation. LPDDR3: - RL + RD(tDQSCK(min)/tCK) - 1 - RU(tODTon(max)/tCK) + PSU_DDRC_ODTCFG_RD_ODT_DELAY 0x0 + + ODT Configuration Register + (OFFSET, MASK, VALUE) (0XFD070240, 0x0F1F0F7CU ,0x06000600U) + RegMask = (DDRC_ODTCFG_WR_ODT_HOLD_MASK | DDRC_ODTCFG_WR_ODT_DELAY_MASK | DDRC_ODTCFG_RD_ODT_HOLD_MASK | DDRC_ODTCFG_RD_ODT_DELAY_MASK | 0 ); + + RegVal = ((0x00000006U << DDRC_ODTCFG_WR_ODT_HOLD_SHIFT + | 0x00000000U << DDRC_ODTCFG_WR_ODT_DELAY_SHIFT + | 0x00000006U << DDRC_ODTCFG_RD_ODT_HOLD_SHIFT + | 0x00000000U << DDRC_ODTCFG_RD_ODT_DELAY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_ODTCFG_OFFSET ,0x0F1F0F7CU ,0x06000600U); + /*############################################################################################################################ */ + + /*Register : ODTMAP @ 0XFD070244

+ + Indicates which remote ODTs must be turned on during a read from rank 1. Each rank has a remote ODT (in the SDRAM) which can + e turned on by setting the appropriate bit here. Rank 0 is controlled by the LSB; rank 1 is controlled by bit next to the LSB + etc. For each rank, set its bit to 1 to enable its ODT. Present only in configurations that have 2 or more ranks + PSU_DDRC_ODTMAP_RANK1_RD_ODT 0x0 + + Indicates which remote ODTs must be turned on during a write to rank 1. Each rank has a remote ODT (in the SDRAM) which can b + turned on by setting the appropriate bit here. Rank 0 is controlled by the LSB; rank 1 is controlled by bit next to the LSB, + etc. For each rank, set its bit to 1 to enable its ODT. Present only in configurations that have 2 or more ranks + PSU_DDRC_ODTMAP_RANK1_WR_ODT 0x0 + + Indicates which remote ODTs must be turned on during a read from rank 0. Each rank has a remote ODT (in the SDRAM) which can + e turned on by setting the appropriate bit here. Rank 0 is controlled by the LSB; rank 1 is controlled by bit next to the LSB + etc. For each rank, set its bit to 1 to enable its ODT. + PSU_DDRC_ODTMAP_RANK0_RD_ODT 0x0 + + Indicates which remote ODTs must be turned on during a write to rank 0. Each rank has a remote ODT (in the SDRAM) which can b + turned on by setting the appropriate bit here. Rank 0 is controlled by the LSB; rank 1 is controlled by bit next to the LSB, + etc. For each rank, set its bit to 1 to enable its ODT. + PSU_DDRC_ODTMAP_RANK0_WR_ODT 0x1 + + ODT/Rank Map Register + (OFFSET, MASK, VALUE) (0XFD070244, 0x00003333U ,0x00000001U) + RegMask = (DDRC_ODTMAP_RANK1_RD_ODT_MASK | DDRC_ODTMAP_RANK1_WR_ODT_MASK | DDRC_ODTMAP_RANK0_RD_ODT_MASK | DDRC_ODTMAP_RANK0_WR_ODT_MASK | 0 ); + + RegVal = ((0x00000000U << DDRC_ODTMAP_RANK1_RD_ODT_SHIFT + | 0x00000000U << DDRC_ODTMAP_RANK1_WR_ODT_SHIFT + | 0x00000000U << DDRC_ODTMAP_RANK0_RD_ODT_SHIFT + | 0x00000001U << DDRC_ODTMAP_RANK0_WR_ODT_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_ODTMAP_OFFSET ,0x00003333U ,0x00000001U); + /*############################################################################################################################ */ + + /*Register : SCHED @ 0XFD070250

+ + When the preferred transaction store is empty for these many clock cycles, switch to the alternate transaction store if it is + non-empty. The read transaction store (both high and low priority) is the default preferred transaction store and the write t + ansaction store is the alternative store. When prefer write over read is set this is reversed. 0x0 is a legal value for this + egister. When set to 0x0, the transaction store switching will happen immediately when the switching conditions become true. + OR PERFORMANCE ONLY + PSU_DDRC_SCHED_RDWR_IDLE_GAP 0x1 + + UNUSED + PSU_DDRC_SCHED_GO2CRITICAL_HYSTERESIS 0x0 + + Number of entries in the low priority transaction store is this value + 1. (MEMC_NO_OF_ENTRY - (SCHED.lpr_num_entries + 1)) i + the number of entries available for the high priority transaction store. Setting this to maximum value allocates all entries + to low priority transaction store. Setting this to 0 allocates 1 entry to low priority transaction store and the rest to high + priority transaction store. Note: In ECC configurations, the numbers of write and low priority read credits issued is one les + than in the non-ECC case. One entry each is reserved in the write and low-priority read CAMs for storing the RMW requests ar + sing out of single bit error correction RMW operation. + PSU_DDRC_SCHED_LPR_NUM_ENTRIES 0x20 + + If true, bank is kept open only while there are page hit transactions available in the CAM to that bank. The last read or wri + e command in the CAM with a bank and page hit will be executed with auto-precharge if SCHED1.pageclose_timer=0. Even if this + egister set to 1 and SCHED1.pageclose_timer is set to 0, explicit precharge (and not auto-precharge) may be issued in some ca + es where there is a mode switch between Write and Read or between LPR and HPR. The Read and Write commands that are executed + s part of the ECC scrub requests are also executed without auto-precharge. If false, the bank remains open until there is a n + ed to close it (to open a different page, or for page timeout or refresh timeout) - also known as open page policy. The open + age policy can be overridden by setting the per-command-autopre bit on the HIF interface (hif_cmd_autopre). The pageclose fea + ure provids a midway between Open and Close page policies. FOR PERFORMANCE ONLY. + PSU_DDRC_SCHED_PAGECLOSE 0x0 + + If set then the bank selector prefers writes over reads. FOR DEBUG ONLY. + PSU_DDRC_SCHED_PREFER_WRITE 0x0 + + Active low signal. When asserted ('0'), all incoming transactions are forced to low priority. This implies that all High Prio + ity Read (HPR) and Variable Priority Read commands (VPR) will be treated as Low Priority Read (LPR) commands. On the write si + e, all Variable Priority Write (VPW) commands will be treated as Normal Priority Write (NPW) commands. Forcing the incoming t + ansactions to low priority implicitly turns off Bypass path for read commands. FOR PERFORMANCE ONLY. + PSU_DDRC_SCHED_FORCE_LOW_PRI_N 0x1 + + Scheduler Control Register + (OFFSET, MASK, VALUE) (0XFD070250, 0x7FFF3F07U ,0x01002001U) + RegMask = (DDRC_SCHED_RDWR_IDLE_GAP_MASK | DDRC_SCHED_GO2CRITICAL_HYSTERESIS_MASK | DDRC_SCHED_LPR_NUM_ENTRIES_MASK | DDRC_SCHED_PAGECLOSE_MASK | DDRC_SCHED_PREFER_WRITE_MASK | DDRC_SCHED_FORCE_LOW_PRI_N_MASK | 0 ); + + RegVal = ((0x00000001U << DDRC_SCHED_RDWR_IDLE_GAP_SHIFT + | 0x00000000U << DDRC_SCHED_GO2CRITICAL_HYSTERESIS_SHIFT + | 0x00000020U << DDRC_SCHED_LPR_NUM_ENTRIES_SHIFT + | 0x00000000U << DDRC_SCHED_PAGECLOSE_SHIFT + | 0x00000000U << DDRC_SCHED_PREFER_WRITE_SHIFT + | 0x00000001U << DDRC_SCHED_FORCE_LOW_PRI_N_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_SCHED_OFFSET ,0x7FFF3F07U ,0x01002001U); + /*############################################################################################################################ */ + + /*Register : PERFLPR1 @ 0XFD070264

+ + Number of transactions that are serviced once the LPR queue goes critical is the smaller of: - (a) This number - (b) Number o + transactions available. Unit: Transaction. FOR PERFORMANCE ONLY. + PSU_DDRC_PERFLPR1_LPR_XACT_RUN_LENGTH 0x8 + + Number of clocks that the LPR queue can be starved before it goes critical. The minimum valid functional value for this regis + er is 0x1. Programming it to 0x0 will disable the starvation functionality; during normal operation, this function should not + be disabled as it will cause excessive latencies. Unit: Clock cycles. FOR PERFORMANCE ONLY. + PSU_DDRC_PERFLPR1_LPR_MAX_STARVE 0x40 + + Low Priority Read CAM Register 1 + (OFFSET, MASK, VALUE) (0XFD070264, 0xFF00FFFFU ,0x08000040U) + RegMask = (DDRC_PERFLPR1_LPR_XACT_RUN_LENGTH_MASK | DDRC_PERFLPR1_LPR_MAX_STARVE_MASK | 0 ); + + RegVal = ((0x00000008U << DDRC_PERFLPR1_LPR_XACT_RUN_LENGTH_SHIFT + | 0x00000040U << DDRC_PERFLPR1_LPR_MAX_STARVE_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_PERFLPR1_OFFSET ,0xFF00FFFFU ,0x08000040U); + /*############################################################################################################################ */ + + /*Register : PERFWR1 @ 0XFD07026C

+ + Number of transactions that are serviced once the WR queue goes critical is the smaller of: - (a) This number - (b) Number of + transactions available. Unit: Transaction. FOR PERFORMANCE ONLY. + PSU_DDRC_PERFWR1_W_XACT_RUN_LENGTH 0x8 + + Number of clocks that the WR queue can be starved before it goes critical. The minimum valid functional value for this regist + r is 0x1. Programming it to 0x0 will disable the starvation functionality; during normal operation, this function should not + e disabled as it will cause excessive latencies. Unit: Clock cycles. FOR PERFORMANCE ONLY. + PSU_DDRC_PERFWR1_W_MAX_STARVE 0x40 + + Write CAM Register 1 + (OFFSET, MASK, VALUE) (0XFD07026C, 0xFF00FFFFU ,0x08000040U) + RegMask = (DDRC_PERFWR1_W_XACT_RUN_LENGTH_MASK | DDRC_PERFWR1_W_MAX_STARVE_MASK | 0 ); + + RegVal = ((0x00000008U << DDRC_PERFWR1_W_XACT_RUN_LENGTH_SHIFT + | 0x00000040U << DDRC_PERFWR1_W_MAX_STARVE_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_PERFWR1_OFFSET ,0xFF00FFFFU ,0x08000040U); + /*############################################################################################################################ */ + + /*Register : DQMAP5 @ 0XFD070294

+ + All even ranks have the same DQ mapping controled by DQMAP0-4 register as rank 0. This register provides DQ swap function for + all odd ranks to support CRC feature. rank based DQ swapping is: swap bit 0 with 1, swap bit 2 with 3, swap bit 4 with 5 and + wap bit 6 with 7. 1: Disable rank based DQ swapping 0: Enable rank based DQ swapping Present only in designs configured to su + port DDR4. + PSU_DDRC_DQMAP5_DIS_DQ_RANK_SWAP 0x1 + + DQ Map Register 5 + (OFFSET, MASK, VALUE) (0XFD070294, 0x00000001U ,0x00000001U) + RegMask = (DDRC_DQMAP5_DIS_DQ_RANK_SWAP_MASK | 0 ); + + RegVal = ((0x00000001U << DDRC_DQMAP5_DIS_DQ_RANK_SWAP_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_DQMAP5_OFFSET ,0x00000001U ,0x00000001U); + /*############################################################################################################################ */ + + /*Register : DBG0 @ 0XFD070300

+ + When this is set to '0', auto-precharge is disabled for the flushed command in a collision case. Collision cases are write fo + lowed by read to same address, read followed by write to same address, or write followed by write to same address with DBG0.d + s_wc bit = 1 (where same address comparisons exclude the two address bits representing critical word). FOR DEBUG ONLY. + PSU_DDRC_DBG0_DIS_COLLISION_PAGE_OPT 0x0 + + When 1, disable write combine. FOR DEBUG ONLY + PSU_DDRC_DBG0_DIS_WC 0x0 + + Debug Register 0 + (OFFSET, MASK, VALUE) (0XFD070300, 0x00000011U ,0x00000000U) + RegMask = (DDRC_DBG0_DIS_COLLISION_PAGE_OPT_MASK | DDRC_DBG0_DIS_WC_MASK | 0 ); + + RegVal = ((0x00000000U << DDRC_DBG0_DIS_COLLISION_PAGE_OPT_SHIFT + | 0x00000000U << DDRC_DBG0_DIS_WC_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_DBG0_OFFSET ,0x00000011U ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : DBGCMD @ 0XFD07030C

+ + Setting this register bit to 1 allows refresh and ZQCS commands to be triggered from hardware via the IOs ext_*. If set to 1, + the fields DBGCMD.zq_calib_short and DBGCMD.rank*_refresh have no function, and are ignored by the uMCTL2 logic. Setting this + register bit to 0 allows refresh and ZQCS to be triggered from software, via the fields DBGCMD.zq_calib_short and DBGCMD.rank + _refresh. If set to 0, the hardware pins ext_* have no function, and are ignored by the uMCTL2 logic. This register is static + and may only be changed when the DDRC reset signal, core_ddrc_rstn, is asserted (0). + PSU_DDRC_DBGCMD_HW_REF_ZQ_EN 0x0 + + Setting this register bit to 1 indicates to the uMCTL2 to issue a dfi_ctrlupd_req to the PHY. When this request is stored in + he uMCTL2, the bit is automatically cleared. This operation must only be performed when DFIUPD0.dis_auto_ctrlupd=1. + PSU_DDRC_DBGCMD_CTRLUPD 0x0 + + Setting this register bit to 1 indicates to the uMCTL2 to issue a ZQCS (ZQ calibration short)/MPC(ZQ calibration) command to + he SDRAM. When this request is stored in the uMCTL2, the bit is automatically cleared. This operation can be performed only w + en ZQCTL0.dis_auto_zq=1. It is recommended NOT to set this register bit if in Init operating mode. This register bit is ignor + d when in Self-Refresh(except LPDDR4) and SR-Powerdown(LPDDR4) and Deep power-down operating modes and Maximum Power Saving M + de. + PSU_DDRC_DBGCMD_ZQ_CALIB_SHORT 0x0 + + Setting this register bit to 1 indicates to the uMCTL2 to issue a refresh to rank 1. Writing to this bit causes DBGSTAT.rank1 + refresh_busy to be set. When DBGSTAT.rank1_refresh_busy is cleared, the command has been stored in uMCTL2. This operation can + be performed only when RFSHCTL3.dis_auto_refresh=1. It is recommended NOT to set this register bit if in Init or Deep power-d + wn operating modes or Maximum Power Saving Mode. + PSU_DDRC_DBGCMD_RANK1_REFRESH 0x0 + + Setting this register bit to 1 indicates to the uMCTL2 to issue a refresh to rank 0. Writing to this bit causes DBGSTAT.rank0 + refresh_busy to be set. When DBGSTAT.rank0_refresh_busy is cleared, the command has been stored in uMCTL2. This operation can + be performed only when RFSHCTL3.dis_auto_refresh=1. It is recommended NOT to set this register bit if in Init or Deep power-d + wn operating modes or Maximum Power Saving Mode. + PSU_DDRC_DBGCMD_RANK0_REFRESH 0x0 + + Command Debug Register + (OFFSET, MASK, VALUE) (0XFD07030C, 0x80000033U ,0x00000000U) + RegMask = (DDRC_DBGCMD_HW_REF_ZQ_EN_MASK | DDRC_DBGCMD_CTRLUPD_MASK | DDRC_DBGCMD_ZQ_CALIB_SHORT_MASK | DDRC_DBGCMD_RANK1_REFRESH_MASK | DDRC_DBGCMD_RANK0_REFRESH_MASK | 0 ); + + RegVal = ((0x00000000U << DDRC_DBGCMD_HW_REF_ZQ_EN_SHIFT + | 0x00000000U << DDRC_DBGCMD_CTRLUPD_SHIFT + | 0x00000000U << DDRC_DBGCMD_ZQ_CALIB_SHORT_SHIFT + | 0x00000000U << DDRC_DBGCMD_RANK1_REFRESH_SHIFT + | 0x00000000U << DDRC_DBGCMD_RANK0_REFRESH_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_DBGCMD_OFFSET ,0x80000033U ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : SWCTL @ 0XFD070320

+ + Enable quasi-dynamic register programming outside reset. Program register to 0 to enable quasi-dynamic programming. Set back + egister to 1 once programming is done. + PSU_DDRC_SWCTL_SW_DONE 0x0 + + Software register programming control enable + (OFFSET, MASK, VALUE) (0XFD070320, 0x00000001U ,0x00000000U) + RegMask = (DDRC_SWCTL_SW_DONE_MASK | 0 ); + + RegVal = ((0x00000000U << DDRC_SWCTL_SW_DONE_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_SWCTL_OFFSET ,0x00000001U ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : PCCFG @ 0XFD070400

+ + Burst length expansion mode. By default (i.e. bl_exp_mode==0) XPI expands every AXI burst into multiple HIF commands, using t + e memory burst length as a unit. If set to 1, then XPI will use half of the memory burst length as a unit. This applies to bo + h reads and writes. When MSTR.data_bus_width==00, setting bl_exp_mode to 1 has no effect. This can be used in cases where Par + ial Writes is enabled (UMCTL2_PARTIAL_WR=1) and DBG0.dis_wc=1, in order to avoid or minimize t_ccd_l penalty in DDR4 and t_cc + _mw penalty in LPDDR4. Note that if DBICTL.reg_ddrc_dm_en=0, functionality is not supported in the following cases: - UMCTL2_ + ARTIAL_WR=0 - UMCTL2_PARTIAL_WR=1, MSTR.reg_ddrc_data_bus_width=01, MEMC_BURST_LENGTH=8 and MSTR.reg_ddrc_burst_rdwr=1000 (LP + DR4 only) - UMCTL2_PARTIAL_WR=1, MSTR.reg_ddrc_data_bus_width=01, MEMC_BURST_LENGTH=4 and MSTR.reg_ddrc_burst_rdwr=0100 (DDR4 + only), with either MSTR.reg_ddrc_burstchop=0 or CRCPARCTL1.reg_ddrc_crc_enable=1 Functionality is also not supported if Share + -AC is enabled + PSU_DDRC_PCCFG_BL_EXP_MODE 0x0 + + Page match four limit. If set to 1, limits the number of consecutive same page DDRC transactions that can be granted by the P + rt Arbiter to four when Page Match feature is enabled. If set to 0, there is no limit imposed on number of consecutive same p + ge DDRC transactions. + PSU_DDRC_PCCFG_PAGEMATCH_LIMIT 0x0 + + If set to 1 (enabled), sets co_gs_go2critical_wr and co_gs_go2critical_lpr/co_gs_go2critical_hpr signals going to DDRC based + n urgent input (awurgent, arurgent) coming from AXI master. If set to 0 (disabled), co_gs_go2critical_wr and co_gs_go2critica + _lpr/co_gs_go2critical_hpr signals at DDRC are driven to 1b'0. + PSU_DDRC_PCCFG_GO2CRITICAL_EN 0x1 + + Port Common Configuration Register + (OFFSET, MASK, VALUE) (0XFD070400, 0x00000111U ,0x00000001U) + RegMask = (DDRC_PCCFG_BL_EXP_MODE_MASK | DDRC_PCCFG_PAGEMATCH_LIMIT_MASK | DDRC_PCCFG_GO2CRITICAL_EN_MASK | 0 ); + + RegVal = ((0x00000000U << DDRC_PCCFG_BL_EXP_MODE_SHIFT + | 0x00000000U << DDRC_PCCFG_PAGEMATCH_LIMIT_SHIFT + | 0x00000001U << DDRC_PCCFG_GO2CRITICAL_EN_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_PCCFG_OFFSET ,0x00000111U ,0x00000001U); + /*############################################################################################################################ */ + + /*Register : PCFGR_0 @ 0XFD070404

+ + If set to 1, enables the Page Match feature. If enabled, once a requesting port is granted, the port is continued to be grant + d if the following immediate commands are to the same memory page (same bank and same row). See also related PCCFG.pagematch_ + imit register. + PSU_DDRC_PCFGR_0_RD_PORT_PAGEMATCH_EN 0x0 + + If set to 1, enables the AXI urgent sideband signal (arurgent). When enabled and arurgent is asserted by the master, that por + becomes the highest priority and co_gs_go2critical_lpr/co_gs_go2critical_hpr signal to DDRC is asserted if enabled in PCCFG. + o2critical_en register. Note that arurgent signal can be asserted anytime and as long as required which is independent of add + ess handshaking (it is not associated with any particular command). + PSU_DDRC_PCFGR_0_RD_PORT_URGENT_EN 0x1 + + If set to 1, enables aging function for the read channel of the port. + PSU_DDRC_PCFGR_0_RD_PORT_AGING_EN 0x0 + + Determines the initial load value of read aging counters. These counters will be parallel loaded after reset, or after each g + ant to the corresponding port. The aging counters down-count every clock cycle where the port is requesting but not granted. + he higher significant 5-bits of the read aging counter sets the priority of the read channel of a given port. Port's priority + will increase as the higher significant 5-bits of the counter starts to decrease. When the aging counter becomes 0, the corre + ponding port channel will have the highest priority level (timeout condition - Priority0). For multi-port configurations, the + aging counters cannot be used to set port priorities when external dynamic priority inputs (arqos) are enabled (timeout is st + ll applicable). For single port configurations, the aging counters are only used when they timeout (become 0) to force read-w + ite direction switching. In this case, external dynamic priority input, arqos (for reads only) can still be used to set the D + RC read priority (2 priority levels: low priority read - LPR, high priority read - HPR) on a command by command basis. Note: + he two LSBs of this register field are tied internally to 2'b00. + PSU_DDRC_PCFGR_0_RD_PORT_PRIORITY 0xf + + Port n Configuration Read Register + (OFFSET, MASK, VALUE) (0XFD070404, 0x000073FFU ,0x0000200FU) + RegMask = (DDRC_PCFGR_0_RD_PORT_PAGEMATCH_EN_MASK | DDRC_PCFGR_0_RD_PORT_URGENT_EN_MASK | DDRC_PCFGR_0_RD_PORT_AGING_EN_MASK | DDRC_PCFGR_0_RD_PORT_PRIORITY_MASK | 0 ); + + RegVal = ((0x00000000U << DDRC_PCFGR_0_RD_PORT_PAGEMATCH_EN_SHIFT + | 0x00000001U << DDRC_PCFGR_0_RD_PORT_URGENT_EN_SHIFT + | 0x00000000U << DDRC_PCFGR_0_RD_PORT_AGING_EN_SHIFT + | 0x0000000FU << DDRC_PCFGR_0_RD_PORT_PRIORITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_PCFGR_0_OFFSET ,0x000073FFU ,0x0000200FU); + /*############################################################################################################################ */ + + /*Register : PCFGW_0 @ 0XFD070408

+ + If set to 1, enables the Page Match feature. If enabled, once a requesting port is granted, the port is continued to be grant + d if the following immediate commands are to the same memory page (same bank and same row). See also related PCCFG.pagematch_ + imit register. + PSU_DDRC_PCFGW_0_WR_PORT_PAGEMATCH_EN 0x1 + + If set to 1, enables the AXI urgent sideband signal (awurgent). When enabled and awurgent is asserted by the master, that por + becomes the highest priority and co_gs_go2critical_wr signal to DDRC is asserted if enabled in PCCFG.go2critical_en register + Note that awurgent signal can be asserted anytime and as long as required which is independent of address handshaking (it is + not associated with any particular command). + PSU_DDRC_PCFGW_0_WR_PORT_URGENT_EN 0x1 + + If set to 1, enables aging function for the write channel of the port. + PSU_DDRC_PCFGW_0_WR_PORT_AGING_EN 0x0 + + Determines the initial load value of write aging counters. These counters will be parallel loaded after reset, or after each + rant to the corresponding port. The aging counters down-count every clock cycle where the port is requesting but not granted. + The higher significant 5-bits of the write aging counter sets the initial priority of the write channel of a given port. Port + s priority will increase as the higher significant 5-bits of the counter starts to decrease. When the aging counter becomes 0 + the corresponding port channel will have the highest priority level. For multi-port configurations, the aging counters canno + be used to set port priorities when external dynamic priority inputs (awqos) are enabled (timeout is still applicable). For + ingle port configurations, the aging counters are only used when they timeout (become 0) to force read-write direction switch + ng. Note: The two LSBs of this register field are tied internally to 2'b00. + PSU_DDRC_PCFGW_0_WR_PORT_PRIORITY 0xf + + Port n Configuration Write Register + (OFFSET, MASK, VALUE) (0XFD070408, 0x000073FFU ,0x0000600FU) + RegMask = (DDRC_PCFGW_0_WR_PORT_PAGEMATCH_EN_MASK | DDRC_PCFGW_0_WR_PORT_URGENT_EN_MASK | DDRC_PCFGW_0_WR_PORT_AGING_EN_MASK | DDRC_PCFGW_0_WR_PORT_PRIORITY_MASK | 0 ); + + RegVal = ((0x00000001U << DDRC_PCFGW_0_WR_PORT_PAGEMATCH_EN_SHIFT + | 0x00000001U << DDRC_PCFGW_0_WR_PORT_URGENT_EN_SHIFT + | 0x00000000U << DDRC_PCFGW_0_WR_PORT_AGING_EN_SHIFT + | 0x0000000FU << DDRC_PCFGW_0_WR_PORT_PRIORITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_PCFGW_0_OFFSET ,0x000073FFU ,0x0000600FU); + /*############################################################################################################################ */ + + /*Register : PCTRL_0 @ 0XFD070490

+ + Enables port n. + PSU_DDRC_PCTRL_0_PORT_EN 0x1 + + Port n Control Register + (OFFSET, MASK, VALUE) (0XFD070490, 0x00000001U ,0x00000001U) + RegMask = (DDRC_PCTRL_0_PORT_EN_MASK | 0 ); + + RegVal = ((0x00000001U << DDRC_PCTRL_0_PORT_EN_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_PCTRL_0_OFFSET ,0x00000001U ,0x00000001U); + /*############################################################################################################################ */ + + /*Register : PCFGQOS0_0 @ 0XFD070494

+ + This bitfield indicates the traffic class of region 1. Valid values are: 0 : LPR, 1: VPR, 2: HPR. For dual address queue conf + gurations, region1 maps to the blue address queue. In this case, valid values are 0: LPR and 1: VPR only. When VPR support is + disabled (UMCTL2_VPR_EN = 0) and traffic class of region 1 is set to 1 (VPR), VPR traffic is aliased to LPR traffic. + PSU_DDRC_PCFGQOS0_0_RQOS_MAP_REGION1 0x2 + + This bitfield indicates the traffic class of region 0. Valid values are: 0: LPR, 1: VPR, 2: HPR. For dual address queue confi + urations, region 0 maps to the blue address queue. In this case, valid values are: 0: LPR and 1: VPR only. When VPR support i + disabled (UMCTL2_VPR_EN = 0) and traffic class of region0 is set to 1 (VPR), VPR traffic is aliased to LPR traffic. + PSU_DDRC_PCFGQOS0_0_RQOS_MAP_REGION0 0x0 + + Separation level1 indicating the end of region0 mapping; start of region0 is 0. Possible values for level1 are 0 to 13 (for d + al RAQ) or 0 to 14 (for single RAQ) which corresponds to arqos. Note that for PA, arqos values are used directly as port prio + ities, where the higher the value corresponds to higher port priority. All of the map_level* registers must be set to distinc + values. + PSU_DDRC_PCFGQOS0_0_RQOS_MAP_LEVEL1 0xb + + Port n Read QoS Configuration Register 0 + (OFFSET, MASK, VALUE) (0XFD070494, 0x0033000FU ,0x0020000BU) + RegMask = (DDRC_PCFGQOS0_0_RQOS_MAP_REGION1_MASK | DDRC_PCFGQOS0_0_RQOS_MAP_REGION0_MASK | DDRC_PCFGQOS0_0_RQOS_MAP_LEVEL1_MASK | 0 ); + + RegVal = ((0x00000002U << DDRC_PCFGQOS0_0_RQOS_MAP_REGION1_SHIFT + | 0x00000000U << DDRC_PCFGQOS0_0_RQOS_MAP_REGION0_SHIFT + | 0x0000000BU << DDRC_PCFGQOS0_0_RQOS_MAP_LEVEL1_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_PCFGQOS0_0_OFFSET ,0x0033000FU ,0x0020000BU); + /*############################################################################################################################ */ + + /*Register : PCFGQOS1_0 @ 0XFD070498

+ + Specifies the timeout value for transactions mapped to the red address queue. + PSU_DDRC_PCFGQOS1_0_RQOS_MAP_TIMEOUTR 0x0 + + Specifies the timeout value for transactions mapped to the blue address queue. + PSU_DDRC_PCFGQOS1_0_RQOS_MAP_TIMEOUTB 0x0 + + Port n Read QoS Configuration Register 1 + (OFFSET, MASK, VALUE) (0XFD070498, 0x07FF07FFU ,0x00000000U) + RegMask = (DDRC_PCFGQOS1_0_RQOS_MAP_TIMEOUTR_MASK | DDRC_PCFGQOS1_0_RQOS_MAP_TIMEOUTB_MASK | 0 ); + + RegVal = ((0x00000000U << DDRC_PCFGQOS1_0_RQOS_MAP_TIMEOUTR_SHIFT + | 0x00000000U << DDRC_PCFGQOS1_0_RQOS_MAP_TIMEOUTB_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_PCFGQOS1_0_OFFSET ,0x07FF07FFU ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : PCFGR_1 @ 0XFD0704B4

+ + If set to 1, enables the Page Match feature. If enabled, once a requesting port is granted, the port is continued to be grant + d if the following immediate commands are to the same memory page (same bank and same row). See also related PCCFG.pagematch_ + imit register. + PSU_DDRC_PCFGR_1_RD_PORT_PAGEMATCH_EN 0x0 + + If set to 1, enables the AXI urgent sideband signal (arurgent). When enabled and arurgent is asserted by the master, that por + becomes the highest priority and co_gs_go2critical_lpr/co_gs_go2critical_hpr signal to DDRC is asserted if enabled in PCCFG. + o2critical_en register. Note that arurgent signal can be asserted anytime and as long as required which is independent of add + ess handshaking (it is not associated with any particular command). + PSU_DDRC_PCFGR_1_RD_PORT_URGENT_EN 0x1 + + If set to 1, enables aging function for the read channel of the port. + PSU_DDRC_PCFGR_1_RD_PORT_AGING_EN 0x0 + + Determines the initial load value of read aging counters. These counters will be parallel loaded after reset, or after each g + ant to the corresponding port. The aging counters down-count every clock cycle where the port is requesting but not granted. + he higher significant 5-bits of the read aging counter sets the priority of the read channel of a given port. Port's priority + will increase as the higher significant 5-bits of the counter starts to decrease. When the aging counter becomes 0, the corre + ponding port channel will have the highest priority level (timeout condition - Priority0). For multi-port configurations, the + aging counters cannot be used to set port priorities when external dynamic priority inputs (arqos) are enabled (timeout is st + ll applicable). For single port configurations, the aging counters are only used when they timeout (become 0) to force read-w + ite direction switching. In this case, external dynamic priority input, arqos (for reads only) can still be used to set the D + RC read priority (2 priority levels: low priority read - LPR, high priority read - HPR) on a command by command basis. Note: + he two LSBs of this register field are tied internally to 2'b00. + PSU_DDRC_PCFGR_1_RD_PORT_PRIORITY 0xf + + Port n Configuration Read Register + (OFFSET, MASK, VALUE) (0XFD0704B4, 0x000073FFU ,0x0000200FU) + RegMask = (DDRC_PCFGR_1_RD_PORT_PAGEMATCH_EN_MASK | DDRC_PCFGR_1_RD_PORT_URGENT_EN_MASK | DDRC_PCFGR_1_RD_PORT_AGING_EN_MASK | DDRC_PCFGR_1_RD_PORT_PRIORITY_MASK | 0 ); + + RegVal = ((0x00000000U << DDRC_PCFGR_1_RD_PORT_PAGEMATCH_EN_SHIFT + | 0x00000001U << DDRC_PCFGR_1_RD_PORT_URGENT_EN_SHIFT + | 0x00000000U << DDRC_PCFGR_1_RD_PORT_AGING_EN_SHIFT + | 0x0000000FU << DDRC_PCFGR_1_RD_PORT_PRIORITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_PCFGR_1_OFFSET ,0x000073FFU ,0x0000200FU); + /*############################################################################################################################ */ + + /*Register : PCFGW_1 @ 0XFD0704B8

+ + If set to 1, enables the Page Match feature. If enabled, once a requesting port is granted, the port is continued to be grant + d if the following immediate commands are to the same memory page (same bank and same row). See also related PCCFG.pagematch_ + imit register. + PSU_DDRC_PCFGW_1_WR_PORT_PAGEMATCH_EN 0x1 + + If set to 1, enables the AXI urgent sideband signal (awurgent). When enabled and awurgent is asserted by the master, that por + becomes the highest priority and co_gs_go2critical_wr signal to DDRC is asserted if enabled in PCCFG.go2critical_en register + Note that awurgent signal can be asserted anytime and as long as required which is independent of address handshaking (it is + not associated with any particular command). + PSU_DDRC_PCFGW_1_WR_PORT_URGENT_EN 0x1 + + If set to 1, enables aging function for the write channel of the port. + PSU_DDRC_PCFGW_1_WR_PORT_AGING_EN 0x0 + + Determines the initial load value of write aging counters. These counters will be parallel loaded after reset, or after each + rant to the corresponding port. The aging counters down-count every clock cycle where the port is requesting but not granted. + The higher significant 5-bits of the write aging counter sets the initial priority of the write channel of a given port. Port + s priority will increase as the higher significant 5-bits of the counter starts to decrease. When the aging counter becomes 0 + the corresponding port channel will have the highest priority level. For multi-port configurations, the aging counters canno + be used to set port priorities when external dynamic priority inputs (awqos) are enabled (timeout is still applicable). For + ingle port configurations, the aging counters are only used when they timeout (become 0) to force read-write direction switch + ng. Note: The two LSBs of this register field are tied internally to 2'b00. + PSU_DDRC_PCFGW_1_WR_PORT_PRIORITY 0xf + + Port n Configuration Write Register + (OFFSET, MASK, VALUE) (0XFD0704B8, 0x000073FFU ,0x0000600FU) + RegMask = (DDRC_PCFGW_1_WR_PORT_PAGEMATCH_EN_MASK | DDRC_PCFGW_1_WR_PORT_URGENT_EN_MASK | DDRC_PCFGW_1_WR_PORT_AGING_EN_MASK | DDRC_PCFGW_1_WR_PORT_PRIORITY_MASK | 0 ); + + RegVal = ((0x00000001U << DDRC_PCFGW_1_WR_PORT_PAGEMATCH_EN_SHIFT + | 0x00000001U << DDRC_PCFGW_1_WR_PORT_URGENT_EN_SHIFT + | 0x00000000U << DDRC_PCFGW_1_WR_PORT_AGING_EN_SHIFT + | 0x0000000FU << DDRC_PCFGW_1_WR_PORT_PRIORITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_PCFGW_1_OFFSET ,0x000073FFU ,0x0000600FU); + /*############################################################################################################################ */ + + /*Register : PCTRL_1 @ 0XFD070540

+ + Enables port n. + PSU_DDRC_PCTRL_1_PORT_EN 0x1 + + Port n Control Register + (OFFSET, MASK, VALUE) (0XFD070540, 0x00000001U ,0x00000001U) + RegMask = (DDRC_PCTRL_1_PORT_EN_MASK | 0 ); + + RegVal = ((0x00000001U << DDRC_PCTRL_1_PORT_EN_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_PCTRL_1_OFFSET ,0x00000001U ,0x00000001U); + /*############################################################################################################################ */ + + /*Register : PCFGQOS0_1 @ 0XFD070544

+ + This bitfield indicates the traffic class of region2. For dual address queue configurations, region2 maps to the red address + ueue. Valid values are 1: VPR and 2: HPR only. When VPR support is disabled (UMCTL2_VPR_EN = 0) and traffic class of region2 + s set to 1 (VPR), VPR traffic is aliased to LPR traffic. + PSU_DDRC_PCFGQOS0_1_RQOS_MAP_REGION2 0x2 + + This bitfield indicates the traffic class of region 1. Valid values are: 0 : LPR, 1: VPR, 2: HPR. For dual address queue conf + gurations, region1 maps to the blue address queue. In this case, valid values are 0: LPR and 1: VPR only. When VPR support is + disabled (UMCTL2_VPR_EN = 0) and traffic class of region 1 is set to 1 (VPR), VPR traffic is aliased to LPR traffic. + PSU_DDRC_PCFGQOS0_1_RQOS_MAP_REGION1 0x0 + + This bitfield indicates the traffic class of region 0. Valid values are: 0: LPR, 1: VPR, 2: HPR. For dual address queue confi + urations, region 0 maps to the blue address queue. In this case, valid values are: 0: LPR and 1: VPR only. When VPR support i + disabled (UMCTL2_VPR_EN = 0) and traffic class of region0 is set to 1 (VPR), VPR traffic is aliased to LPR traffic. + PSU_DDRC_PCFGQOS0_1_RQOS_MAP_REGION0 0x0 + + Separation level2 indicating the end of region1 mapping; start of region1 is (level1 + 1). Possible values for level2 are (le + el1 + 1) to 14 which corresponds to arqos. Region2 starts from (level2 + 1) up to 15. Note that for PA, arqos values are used + directly as port priorities, where the higher the value corresponds to higher port priority. All of the map_level* registers + ust be set to distinct values. + PSU_DDRC_PCFGQOS0_1_RQOS_MAP_LEVEL2 0xb + + Separation level1 indicating the end of region0 mapping; start of region0 is 0. Possible values for level1 are 0 to 13 (for d + al RAQ) or 0 to 14 (for single RAQ) which corresponds to arqos. Note that for PA, arqos values are used directly as port prio + ities, where the higher the value corresponds to higher port priority. All of the map_level* registers must be set to distinc + values. + PSU_DDRC_PCFGQOS0_1_RQOS_MAP_LEVEL1 0x3 + + Port n Read QoS Configuration Register 0 + (OFFSET, MASK, VALUE) (0XFD070544, 0x03330F0FU ,0x02000B03U) + RegMask = (DDRC_PCFGQOS0_1_RQOS_MAP_REGION2_MASK | DDRC_PCFGQOS0_1_RQOS_MAP_REGION1_MASK | DDRC_PCFGQOS0_1_RQOS_MAP_REGION0_MASK | DDRC_PCFGQOS0_1_RQOS_MAP_LEVEL2_MASK | DDRC_PCFGQOS0_1_RQOS_MAP_LEVEL1_MASK | 0 ); + + RegVal = ((0x00000002U << DDRC_PCFGQOS0_1_RQOS_MAP_REGION2_SHIFT + | 0x00000000U << DDRC_PCFGQOS0_1_RQOS_MAP_REGION1_SHIFT + | 0x00000000U << DDRC_PCFGQOS0_1_RQOS_MAP_REGION0_SHIFT + | 0x0000000BU << DDRC_PCFGQOS0_1_RQOS_MAP_LEVEL2_SHIFT + | 0x00000003U << DDRC_PCFGQOS0_1_RQOS_MAP_LEVEL1_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_PCFGQOS0_1_OFFSET ,0x03330F0FU ,0x02000B03U); + /*############################################################################################################################ */ + + /*Register : PCFGQOS1_1 @ 0XFD070548

+ + Specifies the timeout value for transactions mapped to the red address queue. + PSU_DDRC_PCFGQOS1_1_RQOS_MAP_TIMEOUTR 0x0 + + Specifies the timeout value for transactions mapped to the blue address queue. + PSU_DDRC_PCFGQOS1_1_RQOS_MAP_TIMEOUTB 0x0 + + Port n Read QoS Configuration Register 1 + (OFFSET, MASK, VALUE) (0XFD070548, 0x07FF07FFU ,0x00000000U) + RegMask = (DDRC_PCFGQOS1_1_RQOS_MAP_TIMEOUTR_MASK | DDRC_PCFGQOS1_1_RQOS_MAP_TIMEOUTB_MASK | 0 ); + + RegVal = ((0x00000000U << DDRC_PCFGQOS1_1_RQOS_MAP_TIMEOUTR_SHIFT + | 0x00000000U << DDRC_PCFGQOS1_1_RQOS_MAP_TIMEOUTB_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_PCFGQOS1_1_OFFSET ,0x07FF07FFU ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : PCFGR_2 @ 0XFD070564

+ + If set to 1, enables the Page Match feature. If enabled, once a requesting port is granted, the port is continued to be grant + d if the following immediate commands are to the same memory page (same bank and same row). See also related PCCFG.pagematch_ + imit register. + PSU_DDRC_PCFGR_2_RD_PORT_PAGEMATCH_EN 0x0 + + If set to 1, enables the AXI urgent sideband signal (arurgent). When enabled and arurgent is asserted by the master, that por + becomes the highest priority and co_gs_go2critical_lpr/co_gs_go2critical_hpr signal to DDRC is asserted if enabled in PCCFG. + o2critical_en register. Note that arurgent signal can be asserted anytime and as long as required which is independent of add + ess handshaking (it is not associated with any particular command). + PSU_DDRC_PCFGR_2_RD_PORT_URGENT_EN 0x1 + + If set to 1, enables aging function for the read channel of the port. + PSU_DDRC_PCFGR_2_RD_PORT_AGING_EN 0x0 + + Determines the initial load value of read aging counters. These counters will be parallel loaded after reset, or after each g + ant to the corresponding port. The aging counters down-count every clock cycle where the port is requesting but not granted. + he higher significant 5-bits of the read aging counter sets the priority of the read channel of a given port. Port's priority + will increase as the higher significant 5-bits of the counter starts to decrease. When the aging counter becomes 0, the corre + ponding port channel will have the highest priority level (timeout condition - Priority0). For multi-port configurations, the + aging counters cannot be used to set port priorities when external dynamic priority inputs (arqos) are enabled (timeout is st + ll applicable). For single port configurations, the aging counters are only used when they timeout (become 0) to force read-w + ite direction switching. In this case, external dynamic priority input, arqos (for reads only) can still be used to set the D + RC read priority (2 priority levels: low priority read - LPR, high priority read - HPR) on a command by command basis. Note: + he two LSBs of this register field are tied internally to 2'b00. + PSU_DDRC_PCFGR_2_RD_PORT_PRIORITY 0xf + + Port n Configuration Read Register + (OFFSET, MASK, VALUE) (0XFD070564, 0x000073FFU ,0x0000200FU) + RegMask = (DDRC_PCFGR_2_RD_PORT_PAGEMATCH_EN_MASK | DDRC_PCFGR_2_RD_PORT_URGENT_EN_MASK | DDRC_PCFGR_2_RD_PORT_AGING_EN_MASK | DDRC_PCFGR_2_RD_PORT_PRIORITY_MASK | 0 ); + + RegVal = ((0x00000000U << DDRC_PCFGR_2_RD_PORT_PAGEMATCH_EN_SHIFT + | 0x00000001U << DDRC_PCFGR_2_RD_PORT_URGENT_EN_SHIFT + | 0x00000000U << DDRC_PCFGR_2_RD_PORT_AGING_EN_SHIFT + | 0x0000000FU << DDRC_PCFGR_2_RD_PORT_PRIORITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_PCFGR_2_OFFSET ,0x000073FFU ,0x0000200FU); + /*############################################################################################################################ */ + + /*Register : PCFGW_2 @ 0XFD070568

+ + If set to 1, enables the Page Match feature. If enabled, once a requesting port is granted, the port is continued to be grant + d if the following immediate commands are to the same memory page (same bank and same row). See also related PCCFG.pagematch_ + imit register. + PSU_DDRC_PCFGW_2_WR_PORT_PAGEMATCH_EN 0x1 + + If set to 1, enables the AXI urgent sideband signal (awurgent). When enabled and awurgent is asserted by the master, that por + becomes the highest priority and co_gs_go2critical_wr signal to DDRC is asserted if enabled in PCCFG.go2critical_en register + Note that awurgent signal can be asserted anytime and as long as required which is independent of address handshaking (it is + not associated with any particular command). + PSU_DDRC_PCFGW_2_WR_PORT_URGENT_EN 0x1 + + If set to 1, enables aging function for the write channel of the port. + PSU_DDRC_PCFGW_2_WR_PORT_AGING_EN 0x0 + + Determines the initial load value of write aging counters. These counters will be parallel loaded after reset, or after each + rant to the corresponding port. The aging counters down-count every clock cycle where the port is requesting but not granted. + The higher significant 5-bits of the write aging counter sets the initial priority of the write channel of a given port. Port + s priority will increase as the higher significant 5-bits of the counter starts to decrease. When the aging counter becomes 0 + the corresponding port channel will have the highest priority level. For multi-port configurations, the aging counters canno + be used to set port priorities when external dynamic priority inputs (awqos) are enabled (timeout is still applicable). For + ingle port configurations, the aging counters are only used when they timeout (become 0) to force read-write direction switch + ng. Note: The two LSBs of this register field are tied internally to 2'b00. + PSU_DDRC_PCFGW_2_WR_PORT_PRIORITY 0xf + + Port n Configuration Write Register + (OFFSET, MASK, VALUE) (0XFD070568, 0x000073FFU ,0x0000600FU) + RegMask = (DDRC_PCFGW_2_WR_PORT_PAGEMATCH_EN_MASK | DDRC_PCFGW_2_WR_PORT_URGENT_EN_MASK | DDRC_PCFGW_2_WR_PORT_AGING_EN_MASK | DDRC_PCFGW_2_WR_PORT_PRIORITY_MASK | 0 ); + + RegVal = ((0x00000001U << DDRC_PCFGW_2_WR_PORT_PAGEMATCH_EN_SHIFT + | 0x00000001U << DDRC_PCFGW_2_WR_PORT_URGENT_EN_SHIFT + | 0x00000000U << DDRC_PCFGW_2_WR_PORT_AGING_EN_SHIFT + | 0x0000000FU << DDRC_PCFGW_2_WR_PORT_PRIORITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_PCFGW_2_OFFSET ,0x000073FFU ,0x0000600FU); + /*############################################################################################################################ */ + + /*Register : PCTRL_2 @ 0XFD0705F0

+ + Enables port n. + PSU_DDRC_PCTRL_2_PORT_EN 0x1 + + Port n Control Register + (OFFSET, MASK, VALUE) (0XFD0705F0, 0x00000001U ,0x00000001U) + RegMask = (DDRC_PCTRL_2_PORT_EN_MASK | 0 ); + + RegVal = ((0x00000001U << DDRC_PCTRL_2_PORT_EN_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_PCTRL_2_OFFSET ,0x00000001U ,0x00000001U); + /*############################################################################################################################ */ + + /*Register : PCFGQOS0_2 @ 0XFD0705F4

+ + This bitfield indicates the traffic class of region2. For dual address queue configurations, region2 maps to the red address + ueue. Valid values are 1: VPR and 2: HPR only. When VPR support is disabled (UMCTL2_VPR_EN = 0) and traffic class of region2 + s set to 1 (VPR), VPR traffic is aliased to LPR traffic. + PSU_DDRC_PCFGQOS0_2_RQOS_MAP_REGION2 0x2 + + This bitfield indicates the traffic class of region 1. Valid values are: 0 : LPR, 1: VPR, 2: HPR. For dual address queue conf + gurations, region1 maps to the blue address queue. In this case, valid values are 0: LPR and 1: VPR only. When VPR support is + disabled (UMCTL2_VPR_EN = 0) and traffic class of region 1 is set to 1 (VPR), VPR traffic is aliased to LPR traffic. + PSU_DDRC_PCFGQOS0_2_RQOS_MAP_REGION1 0x0 + + This bitfield indicates the traffic class of region 0. Valid values are: 0: LPR, 1: VPR, 2: HPR. For dual address queue confi + urations, region 0 maps to the blue address queue. In this case, valid values are: 0: LPR and 1: VPR only. When VPR support i + disabled (UMCTL2_VPR_EN = 0) and traffic class of region0 is set to 1 (VPR), VPR traffic is aliased to LPR traffic. + PSU_DDRC_PCFGQOS0_2_RQOS_MAP_REGION0 0x0 + + Separation level2 indicating the end of region1 mapping; start of region1 is (level1 + 1). Possible values for level2 are (le + el1 + 1) to 14 which corresponds to arqos. Region2 starts from (level2 + 1) up to 15. Note that for PA, arqos values are used + directly as port priorities, where the higher the value corresponds to higher port priority. All of the map_level* registers + ust be set to distinct values. + PSU_DDRC_PCFGQOS0_2_RQOS_MAP_LEVEL2 0xb + + Separation level1 indicating the end of region0 mapping; start of region0 is 0. Possible values for level1 are 0 to 13 (for d + al RAQ) or 0 to 14 (for single RAQ) which corresponds to arqos. Note that for PA, arqos values are used directly as port prio + ities, where the higher the value corresponds to higher port priority. All of the map_level* registers must be set to distinc + values. + PSU_DDRC_PCFGQOS0_2_RQOS_MAP_LEVEL1 0x3 + + Port n Read QoS Configuration Register 0 + (OFFSET, MASK, VALUE) (0XFD0705F4, 0x03330F0FU ,0x02000B03U) + RegMask = (DDRC_PCFGQOS0_2_RQOS_MAP_REGION2_MASK | DDRC_PCFGQOS0_2_RQOS_MAP_REGION1_MASK | DDRC_PCFGQOS0_2_RQOS_MAP_REGION0_MASK | DDRC_PCFGQOS0_2_RQOS_MAP_LEVEL2_MASK | DDRC_PCFGQOS0_2_RQOS_MAP_LEVEL1_MASK | 0 ); + + RegVal = ((0x00000002U << DDRC_PCFGQOS0_2_RQOS_MAP_REGION2_SHIFT + | 0x00000000U << DDRC_PCFGQOS0_2_RQOS_MAP_REGION1_SHIFT + | 0x00000000U << DDRC_PCFGQOS0_2_RQOS_MAP_REGION0_SHIFT + | 0x0000000BU << DDRC_PCFGQOS0_2_RQOS_MAP_LEVEL2_SHIFT + | 0x00000003U << DDRC_PCFGQOS0_2_RQOS_MAP_LEVEL1_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_PCFGQOS0_2_OFFSET ,0x03330F0FU ,0x02000B03U); + /*############################################################################################################################ */ + + /*Register : PCFGQOS1_2 @ 0XFD0705F8

+ + Specifies the timeout value for transactions mapped to the red address queue. + PSU_DDRC_PCFGQOS1_2_RQOS_MAP_TIMEOUTR 0x0 + + Specifies the timeout value for transactions mapped to the blue address queue. + PSU_DDRC_PCFGQOS1_2_RQOS_MAP_TIMEOUTB 0x0 + + Port n Read QoS Configuration Register 1 + (OFFSET, MASK, VALUE) (0XFD0705F8, 0x07FF07FFU ,0x00000000U) + RegMask = (DDRC_PCFGQOS1_2_RQOS_MAP_TIMEOUTR_MASK | DDRC_PCFGQOS1_2_RQOS_MAP_TIMEOUTB_MASK | 0 ); + + RegVal = ((0x00000000U << DDRC_PCFGQOS1_2_RQOS_MAP_TIMEOUTR_SHIFT + | 0x00000000U << DDRC_PCFGQOS1_2_RQOS_MAP_TIMEOUTB_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_PCFGQOS1_2_OFFSET ,0x07FF07FFU ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : PCFGR_3 @ 0XFD070614

+ + If set to 1, enables the Page Match feature. If enabled, once a requesting port is granted, the port is continued to be grant + d if the following immediate commands are to the same memory page (same bank and same row). See also related PCCFG.pagematch_ + imit register. + PSU_DDRC_PCFGR_3_RD_PORT_PAGEMATCH_EN 0x0 + + If set to 1, enables the AXI urgent sideband signal (arurgent). When enabled and arurgent is asserted by the master, that por + becomes the highest priority and co_gs_go2critical_lpr/co_gs_go2critical_hpr signal to DDRC is asserted if enabled in PCCFG. + o2critical_en register. Note that arurgent signal can be asserted anytime and as long as required which is independent of add + ess handshaking (it is not associated with any particular command). + PSU_DDRC_PCFGR_3_RD_PORT_URGENT_EN 0x1 + + If set to 1, enables aging function for the read channel of the port. + PSU_DDRC_PCFGR_3_RD_PORT_AGING_EN 0x0 + + Determines the initial load value of read aging counters. These counters will be parallel loaded after reset, or after each g + ant to the corresponding port. The aging counters down-count every clock cycle where the port is requesting but not granted. + he higher significant 5-bits of the read aging counter sets the priority of the read channel of a given port. Port's priority + will increase as the higher significant 5-bits of the counter starts to decrease. When the aging counter becomes 0, the corre + ponding port channel will have the highest priority level (timeout condition - Priority0). For multi-port configurations, the + aging counters cannot be used to set port priorities when external dynamic priority inputs (arqos) are enabled (timeout is st + ll applicable). For single port configurations, the aging counters are only used when they timeout (become 0) to force read-w + ite direction switching. In this case, external dynamic priority input, arqos (for reads only) can still be used to set the D + RC read priority (2 priority levels: low priority read - LPR, high priority read - HPR) on a command by command basis. Note: + he two LSBs of this register field are tied internally to 2'b00. + PSU_DDRC_PCFGR_3_RD_PORT_PRIORITY 0xf + + Port n Configuration Read Register + (OFFSET, MASK, VALUE) (0XFD070614, 0x000073FFU ,0x0000200FU) + RegMask = (DDRC_PCFGR_3_RD_PORT_PAGEMATCH_EN_MASK | DDRC_PCFGR_3_RD_PORT_URGENT_EN_MASK | DDRC_PCFGR_3_RD_PORT_AGING_EN_MASK | DDRC_PCFGR_3_RD_PORT_PRIORITY_MASK | 0 ); + + RegVal = ((0x00000000U << DDRC_PCFGR_3_RD_PORT_PAGEMATCH_EN_SHIFT + | 0x00000001U << DDRC_PCFGR_3_RD_PORT_URGENT_EN_SHIFT + | 0x00000000U << DDRC_PCFGR_3_RD_PORT_AGING_EN_SHIFT + | 0x0000000FU << DDRC_PCFGR_3_RD_PORT_PRIORITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_PCFGR_3_OFFSET ,0x000073FFU ,0x0000200FU); + /*############################################################################################################################ */ + + /*Register : PCFGW_3 @ 0XFD070618

+ + If set to 1, enables the Page Match feature. If enabled, once a requesting port is granted, the port is continued to be grant + d if the following immediate commands are to the same memory page (same bank and same row). See also related PCCFG.pagematch_ + imit register. + PSU_DDRC_PCFGW_3_WR_PORT_PAGEMATCH_EN 0x1 + + If set to 1, enables the AXI urgent sideband signal (awurgent). When enabled and awurgent is asserted by the master, that por + becomes the highest priority and co_gs_go2critical_wr signal to DDRC is asserted if enabled in PCCFG.go2critical_en register + Note that awurgent signal can be asserted anytime and as long as required which is independent of address handshaking (it is + not associated with any particular command). + PSU_DDRC_PCFGW_3_WR_PORT_URGENT_EN 0x1 + + If set to 1, enables aging function for the write channel of the port. + PSU_DDRC_PCFGW_3_WR_PORT_AGING_EN 0x0 + + Determines the initial load value of write aging counters. These counters will be parallel loaded after reset, or after each + rant to the corresponding port. The aging counters down-count every clock cycle where the port is requesting but not granted. + The higher significant 5-bits of the write aging counter sets the initial priority of the write channel of a given port. Port + s priority will increase as the higher significant 5-bits of the counter starts to decrease. When the aging counter becomes 0 + the corresponding port channel will have the highest priority level. For multi-port configurations, the aging counters canno + be used to set port priorities when external dynamic priority inputs (awqos) are enabled (timeout is still applicable). For + ingle port configurations, the aging counters are only used when they timeout (become 0) to force read-write direction switch + ng. Note: The two LSBs of this register field are tied internally to 2'b00. + PSU_DDRC_PCFGW_3_WR_PORT_PRIORITY 0xf + + Port n Configuration Write Register + (OFFSET, MASK, VALUE) (0XFD070618, 0x000073FFU ,0x0000600FU) + RegMask = (DDRC_PCFGW_3_WR_PORT_PAGEMATCH_EN_MASK | DDRC_PCFGW_3_WR_PORT_URGENT_EN_MASK | DDRC_PCFGW_3_WR_PORT_AGING_EN_MASK | DDRC_PCFGW_3_WR_PORT_PRIORITY_MASK | 0 ); + + RegVal = ((0x00000001U << DDRC_PCFGW_3_WR_PORT_PAGEMATCH_EN_SHIFT + | 0x00000001U << DDRC_PCFGW_3_WR_PORT_URGENT_EN_SHIFT + | 0x00000000U << DDRC_PCFGW_3_WR_PORT_AGING_EN_SHIFT + | 0x0000000FU << DDRC_PCFGW_3_WR_PORT_PRIORITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_PCFGW_3_OFFSET ,0x000073FFU ,0x0000600FU); + /*############################################################################################################################ */ + + /*Register : PCTRL_3 @ 0XFD0706A0

+ + Enables port n. + PSU_DDRC_PCTRL_3_PORT_EN 0x1 + + Port n Control Register + (OFFSET, MASK, VALUE) (0XFD0706A0, 0x00000001U ,0x00000001U) + RegMask = (DDRC_PCTRL_3_PORT_EN_MASK | 0 ); + + RegVal = ((0x00000001U << DDRC_PCTRL_3_PORT_EN_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_PCTRL_3_OFFSET ,0x00000001U ,0x00000001U); + /*############################################################################################################################ */ + + /*Register : PCFGQOS0_3 @ 0XFD0706A4

+ + This bitfield indicates the traffic class of region 1. Valid values are: 0 : LPR, 1: VPR, 2: HPR. For dual address queue conf + gurations, region1 maps to the blue address queue. In this case, valid values are 0: LPR and 1: VPR only. When VPR support is + disabled (UMCTL2_VPR_EN = 0) and traffic class of region 1 is set to 1 (VPR), VPR traffic is aliased to LPR traffic. + PSU_DDRC_PCFGQOS0_3_RQOS_MAP_REGION1 0x1 + + This bitfield indicates the traffic class of region 0. Valid values are: 0: LPR, 1: VPR, 2: HPR. For dual address queue confi + urations, region 0 maps to the blue address queue. In this case, valid values are: 0: LPR and 1: VPR only. When VPR support i + disabled (UMCTL2_VPR_EN = 0) and traffic class of region0 is set to 1 (VPR), VPR traffic is aliased to LPR traffic. + PSU_DDRC_PCFGQOS0_3_RQOS_MAP_REGION0 0x0 + + Separation level1 indicating the end of region0 mapping; start of region0 is 0. Possible values for level1 are 0 to 13 (for d + al RAQ) or 0 to 14 (for single RAQ) which corresponds to arqos. Note that for PA, arqos values are used directly as port prio + ities, where the higher the value corresponds to higher port priority. All of the map_level* registers must be set to distinc + values. + PSU_DDRC_PCFGQOS0_3_RQOS_MAP_LEVEL1 0x3 + + Port n Read QoS Configuration Register 0 + (OFFSET, MASK, VALUE) (0XFD0706A4, 0x0033000FU ,0x00100003U) + RegMask = (DDRC_PCFGQOS0_3_RQOS_MAP_REGION1_MASK | DDRC_PCFGQOS0_3_RQOS_MAP_REGION0_MASK | DDRC_PCFGQOS0_3_RQOS_MAP_LEVEL1_MASK | 0 ); + + RegVal = ((0x00000001U << DDRC_PCFGQOS0_3_RQOS_MAP_REGION1_SHIFT + | 0x00000000U << DDRC_PCFGQOS0_3_RQOS_MAP_REGION0_SHIFT + | 0x00000003U << DDRC_PCFGQOS0_3_RQOS_MAP_LEVEL1_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_PCFGQOS0_3_OFFSET ,0x0033000FU ,0x00100003U); + /*############################################################################################################################ */ + + /*Register : PCFGQOS1_3 @ 0XFD0706A8

+ + Specifies the timeout value for transactions mapped to the red address queue. + PSU_DDRC_PCFGQOS1_3_RQOS_MAP_TIMEOUTR 0x0 + + Specifies the timeout value for transactions mapped to the blue address queue. + PSU_DDRC_PCFGQOS1_3_RQOS_MAP_TIMEOUTB 0x4f + + Port n Read QoS Configuration Register 1 + (OFFSET, MASK, VALUE) (0XFD0706A8, 0x07FF07FFU ,0x0000004FU) + RegMask = (DDRC_PCFGQOS1_3_RQOS_MAP_TIMEOUTR_MASK | DDRC_PCFGQOS1_3_RQOS_MAP_TIMEOUTB_MASK | 0 ); + + RegVal = ((0x00000000U << DDRC_PCFGQOS1_3_RQOS_MAP_TIMEOUTR_SHIFT + | 0x0000004FU << DDRC_PCFGQOS1_3_RQOS_MAP_TIMEOUTB_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_PCFGQOS1_3_OFFSET ,0x07FF07FFU ,0x0000004FU); + /*############################################################################################################################ */ + + /*Register : PCFGWQOS0_3 @ 0XFD0706AC

+ + This bitfield indicates the traffic class of region 1. Valid values are: 0: NPW, 1: VPW. When VPW support is disabled (UMCTL2 + VPW_EN = 0) and traffic class of region 1 is set to 1 (VPW), VPW traffic is aliased to LPW traffic. + PSU_DDRC_PCFGWQOS0_3_WQOS_MAP_REGION1 0x1 + + This bitfield indicates the traffic class of region 0. Valid values are: 0: NPW, 1: VPW. When VPW support is disabled (UMCTL2 + VPW_EN = 0) and traffic class of region0 is set to 1 (VPW), VPW traffic is aliased to NPW traffic. + PSU_DDRC_PCFGWQOS0_3_WQOS_MAP_REGION0 0x0 + + Separation level indicating the end of region0 mapping; start of region0 is 0. Possible values for level1 are 0 to 14 which c + rresponds to awqos. Note that for PA, awqos values are used directly as port priorities, where the higher the value correspon + s to higher port priority. + PSU_DDRC_PCFGWQOS0_3_WQOS_MAP_LEVEL 0x3 + + Port n Write QoS Configuration Register 0 + (OFFSET, MASK, VALUE) (0XFD0706AC, 0x0033000FU ,0x00100003U) + RegMask = (DDRC_PCFGWQOS0_3_WQOS_MAP_REGION1_MASK | DDRC_PCFGWQOS0_3_WQOS_MAP_REGION0_MASK | DDRC_PCFGWQOS0_3_WQOS_MAP_LEVEL_MASK | 0 ); + + RegVal = ((0x00000001U << DDRC_PCFGWQOS0_3_WQOS_MAP_REGION1_SHIFT + | 0x00000000U << DDRC_PCFGWQOS0_3_WQOS_MAP_REGION0_SHIFT + | 0x00000003U << DDRC_PCFGWQOS0_3_WQOS_MAP_LEVEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_PCFGWQOS0_3_OFFSET ,0x0033000FU ,0x00100003U); + /*############################################################################################################################ */ + + /*Register : PCFGWQOS1_3 @ 0XFD0706B0

+ + Specifies the timeout value for write transactions. + PSU_DDRC_PCFGWQOS1_3_WQOS_MAP_TIMEOUT 0x4f + + Port n Write QoS Configuration Register 1 + (OFFSET, MASK, VALUE) (0XFD0706B0, 0x000007FFU ,0x0000004FU) + RegMask = (DDRC_PCFGWQOS1_3_WQOS_MAP_TIMEOUT_MASK | 0 ); + + RegVal = ((0x0000004FU << DDRC_PCFGWQOS1_3_WQOS_MAP_TIMEOUT_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_PCFGWQOS1_3_OFFSET ,0x000007FFU ,0x0000004FU); + /*############################################################################################################################ */ + + /*Register : PCFGR_4 @ 0XFD0706C4

+ + If set to 1, enables the Page Match feature. If enabled, once a requesting port is granted, the port is continued to be grant + d if the following immediate commands are to the same memory page (same bank and same row). See also related PCCFG.pagematch_ + imit register. + PSU_DDRC_PCFGR_4_RD_PORT_PAGEMATCH_EN 0x1 + + If set to 1, enables the AXI urgent sideband signal (arurgent). When enabled and arurgent is asserted by the master, that por + becomes the highest priority and co_gs_go2critical_lpr/co_gs_go2critical_hpr signal to DDRC is asserted if enabled in PCCFG. + o2critical_en register. Note that arurgent signal can be asserted anytime and as long as required which is independent of add + ess handshaking (it is not associated with any particular command). + PSU_DDRC_PCFGR_4_RD_PORT_URGENT_EN 0x1 + + If set to 1, enables aging function for the read channel of the port. + PSU_DDRC_PCFGR_4_RD_PORT_AGING_EN 0x0 + + Determines the initial load value of read aging counters. These counters will be parallel loaded after reset, or after each g + ant to the corresponding port. The aging counters down-count every clock cycle where the port is requesting but not granted. + he higher significant 5-bits of the read aging counter sets the priority of the read channel of a given port. Port's priority + will increase as the higher significant 5-bits of the counter starts to decrease. When the aging counter becomes 0, the corre + ponding port channel will have the highest priority level (timeout condition - Priority0). For multi-port configurations, the + aging counters cannot be used to set port priorities when external dynamic priority inputs (arqos) are enabled (timeout is st + ll applicable). For single port configurations, the aging counters are only used when they timeout (become 0) to force read-w + ite direction switching. In this case, external dynamic priority input, arqos (for reads only) can still be used to set the D + RC read priority (2 priority levels: low priority read - LPR, high priority read - HPR) on a command by command basis. Note: + he two LSBs of this register field are tied internally to 2'b00. + PSU_DDRC_PCFGR_4_RD_PORT_PRIORITY 0xf + + Port n Configuration Read Register + (OFFSET, MASK, VALUE) (0XFD0706C4, 0x000073FFU ,0x0000600FU) + RegMask = (DDRC_PCFGR_4_RD_PORT_PAGEMATCH_EN_MASK | DDRC_PCFGR_4_RD_PORT_URGENT_EN_MASK | DDRC_PCFGR_4_RD_PORT_AGING_EN_MASK | DDRC_PCFGR_4_RD_PORT_PRIORITY_MASK | 0 ); + + RegVal = ((0x00000001U << DDRC_PCFGR_4_RD_PORT_PAGEMATCH_EN_SHIFT + | 0x00000001U << DDRC_PCFGR_4_RD_PORT_URGENT_EN_SHIFT + | 0x00000000U << DDRC_PCFGR_4_RD_PORT_AGING_EN_SHIFT + | 0x0000000FU << DDRC_PCFGR_4_RD_PORT_PRIORITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_PCFGR_4_OFFSET ,0x000073FFU ,0x0000600FU); + /*############################################################################################################################ */ + + /*Register : PCFGW_4 @ 0XFD0706C8

+ + If set to 1, enables the Page Match feature. If enabled, once a requesting port is granted, the port is continued to be grant + d if the following immediate commands are to the same memory page (same bank and same row). See also related PCCFG.pagematch_ + imit register. + PSU_DDRC_PCFGW_4_WR_PORT_PAGEMATCH_EN 0x1 + + If set to 1, enables the AXI urgent sideband signal (awurgent). When enabled and awurgent is asserted by the master, that por + becomes the highest priority and co_gs_go2critical_wr signal to DDRC is asserted if enabled in PCCFG.go2critical_en register + Note that awurgent signal can be asserted anytime and as long as required which is independent of address handshaking (it is + not associated with any particular command). + PSU_DDRC_PCFGW_4_WR_PORT_URGENT_EN 0x1 + + If set to 1, enables aging function for the write channel of the port. + PSU_DDRC_PCFGW_4_WR_PORT_AGING_EN 0x0 + + Determines the initial load value of write aging counters. These counters will be parallel loaded after reset, or after each + rant to the corresponding port. The aging counters down-count every clock cycle where the port is requesting but not granted. + The higher significant 5-bits of the write aging counter sets the initial priority of the write channel of a given port. Port + s priority will increase as the higher significant 5-bits of the counter starts to decrease. When the aging counter becomes 0 + the corresponding port channel will have the highest priority level. For multi-port configurations, the aging counters canno + be used to set port priorities when external dynamic priority inputs (awqos) are enabled (timeout is still applicable). For + ingle port configurations, the aging counters are only used when they timeout (become 0) to force read-write direction switch + ng. Note: The two LSBs of this register field are tied internally to 2'b00. + PSU_DDRC_PCFGW_4_WR_PORT_PRIORITY 0xf + + Port n Configuration Write Register + (OFFSET, MASK, VALUE) (0XFD0706C8, 0x000073FFU ,0x0000600FU) + RegMask = (DDRC_PCFGW_4_WR_PORT_PAGEMATCH_EN_MASK | DDRC_PCFGW_4_WR_PORT_URGENT_EN_MASK | DDRC_PCFGW_4_WR_PORT_AGING_EN_MASK | DDRC_PCFGW_4_WR_PORT_PRIORITY_MASK | 0 ); + + RegVal = ((0x00000001U << DDRC_PCFGW_4_WR_PORT_PAGEMATCH_EN_SHIFT + | 0x00000001U << DDRC_PCFGW_4_WR_PORT_URGENT_EN_SHIFT + | 0x00000000U << DDRC_PCFGW_4_WR_PORT_AGING_EN_SHIFT + | 0x0000000FU << DDRC_PCFGW_4_WR_PORT_PRIORITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_PCFGW_4_OFFSET ,0x000073FFU ,0x0000600FU); + /*############################################################################################################################ */ + + /*Register : PCTRL_4 @ 0XFD070750

+ + Enables port n. + PSU_DDRC_PCTRL_4_PORT_EN 0x1 + + Port n Control Register + (OFFSET, MASK, VALUE) (0XFD070750, 0x00000001U ,0x00000001U) + RegMask = (DDRC_PCTRL_4_PORT_EN_MASK | 0 ); + + RegVal = ((0x00000001U << DDRC_PCTRL_4_PORT_EN_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_PCTRL_4_OFFSET ,0x00000001U ,0x00000001U); + /*############################################################################################################################ */ + + /*Register : PCFGQOS0_4 @ 0XFD070754

+ + This bitfield indicates the traffic class of region 1. Valid values are: 0 : LPR, 1: VPR, 2: HPR. For dual address queue conf + gurations, region1 maps to the blue address queue. In this case, valid values are 0: LPR and 1: VPR only. When VPR support is + disabled (UMCTL2_VPR_EN = 0) and traffic class of region 1 is set to 1 (VPR), VPR traffic is aliased to LPR traffic. + PSU_DDRC_PCFGQOS0_4_RQOS_MAP_REGION1 0x1 + + This bitfield indicates the traffic class of region 0. Valid values are: 0: LPR, 1: VPR, 2: HPR. For dual address queue confi + urations, region 0 maps to the blue address queue. In this case, valid values are: 0: LPR and 1: VPR only. When VPR support i + disabled (UMCTL2_VPR_EN = 0) and traffic class of region0 is set to 1 (VPR), VPR traffic is aliased to LPR traffic. + PSU_DDRC_PCFGQOS0_4_RQOS_MAP_REGION0 0x0 + + Separation level1 indicating the end of region0 mapping; start of region0 is 0. Possible values for level1 are 0 to 13 (for d + al RAQ) or 0 to 14 (for single RAQ) which corresponds to arqos. Note that for PA, arqos values are used directly as port prio + ities, where the higher the value corresponds to higher port priority. All of the map_level* registers must be set to distinc + values. + PSU_DDRC_PCFGQOS0_4_RQOS_MAP_LEVEL1 0x3 + + Port n Read QoS Configuration Register 0 + (OFFSET, MASK, VALUE) (0XFD070754, 0x0033000FU ,0x00100003U) + RegMask = (DDRC_PCFGQOS0_4_RQOS_MAP_REGION1_MASK | DDRC_PCFGQOS0_4_RQOS_MAP_REGION0_MASK | DDRC_PCFGQOS0_4_RQOS_MAP_LEVEL1_MASK | 0 ); + + RegVal = ((0x00000001U << DDRC_PCFGQOS0_4_RQOS_MAP_REGION1_SHIFT + | 0x00000000U << DDRC_PCFGQOS0_4_RQOS_MAP_REGION0_SHIFT + | 0x00000003U << DDRC_PCFGQOS0_4_RQOS_MAP_LEVEL1_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_PCFGQOS0_4_OFFSET ,0x0033000FU ,0x00100003U); + /*############################################################################################################################ */ + + /*Register : PCFGQOS1_4 @ 0XFD070758

+ + Specifies the timeout value for transactions mapped to the red address queue. + PSU_DDRC_PCFGQOS1_4_RQOS_MAP_TIMEOUTR 0x0 + + Specifies the timeout value for transactions mapped to the blue address queue. + PSU_DDRC_PCFGQOS1_4_RQOS_MAP_TIMEOUTB 0x4f + + Port n Read QoS Configuration Register 1 + (OFFSET, MASK, VALUE) (0XFD070758, 0x07FF07FFU ,0x0000004FU) + RegMask = (DDRC_PCFGQOS1_4_RQOS_MAP_TIMEOUTR_MASK | DDRC_PCFGQOS1_4_RQOS_MAP_TIMEOUTB_MASK | 0 ); + + RegVal = ((0x00000000U << DDRC_PCFGQOS1_4_RQOS_MAP_TIMEOUTR_SHIFT + | 0x0000004FU << DDRC_PCFGQOS1_4_RQOS_MAP_TIMEOUTB_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_PCFGQOS1_4_OFFSET ,0x07FF07FFU ,0x0000004FU); + /*############################################################################################################################ */ + + /*Register : PCFGWQOS0_4 @ 0XFD07075C

+ + This bitfield indicates the traffic class of region 1. Valid values are: 0: NPW, 1: VPW. When VPW support is disabled (UMCTL2 + VPW_EN = 0) and traffic class of region 1 is set to 1 (VPW), VPW traffic is aliased to LPW traffic. + PSU_DDRC_PCFGWQOS0_4_WQOS_MAP_REGION1 0x1 + + This bitfield indicates the traffic class of region 0. Valid values are: 0: NPW, 1: VPW. When VPW support is disabled (UMCTL2 + VPW_EN = 0) and traffic class of region0 is set to 1 (VPW), VPW traffic is aliased to NPW traffic. + PSU_DDRC_PCFGWQOS0_4_WQOS_MAP_REGION0 0x0 + + Separation level indicating the end of region0 mapping; start of region0 is 0. Possible values for level1 are 0 to 14 which c + rresponds to awqos. Note that for PA, awqos values are used directly as port priorities, where the higher the value correspon + s to higher port priority. + PSU_DDRC_PCFGWQOS0_4_WQOS_MAP_LEVEL 0x3 + + Port n Write QoS Configuration Register 0 + (OFFSET, MASK, VALUE) (0XFD07075C, 0x0033000FU ,0x00100003U) + RegMask = (DDRC_PCFGWQOS0_4_WQOS_MAP_REGION1_MASK | DDRC_PCFGWQOS0_4_WQOS_MAP_REGION0_MASK | DDRC_PCFGWQOS0_4_WQOS_MAP_LEVEL_MASK | 0 ); + + RegVal = ((0x00000001U << DDRC_PCFGWQOS0_4_WQOS_MAP_REGION1_SHIFT + | 0x00000000U << DDRC_PCFGWQOS0_4_WQOS_MAP_REGION0_SHIFT + | 0x00000003U << DDRC_PCFGWQOS0_4_WQOS_MAP_LEVEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_PCFGWQOS0_4_OFFSET ,0x0033000FU ,0x00100003U); + /*############################################################################################################################ */ + + /*Register : PCFGWQOS1_4 @ 0XFD070760

+ + Specifies the timeout value for write transactions. + PSU_DDRC_PCFGWQOS1_4_WQOS_MAP_TIMEOUT 0x4f + + Port n Write QoS Configuration Register 1 + (OFFSET, MASK, VALUE) (0XFD070760, 0x000007FFU ,0x0000004FU) + RegMask = (DDRC_PCFGWQOS1_4_WQOS_MAP_TIMEOUT_MASK | 0 ); + + RegVal = ((0x0000004FU << DDRC_PCFGWQOS1_4_WQOS_MAP_TIMEOUT_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_PCFGWQOS1_4_OFFSET ,0x000007FFU ,0x0000004FU); + /*############################################################################################################################ */ + + /*Register : PCFGR_5 @ 0XFD070774

+ + If set to 1, enables the Page Match feature. If enabled, once a requesting port is granted, the port is continued to be grant + d if the following immediate commands are to the same memory page (same bank and same row). See also related PCCFG.pagematch_ + imit register. + PSU_DDRC_PCFGR_5_RD_PORT_PAGEMATCH_EN 0x0 + + If set to 1, enables the AXI urgent sideband signal (arurgent). When enabled and arurgent is asserted by the master, that por + becomes the highest priority and co_gs_go2critical_lpr/co_gs_go2critical_hpr signal to DDRC is asserted if enabled in PCCFG. + o2critical_en register. Note that arurgent signal can be asserted anytime and as long as required which is independent of add + ess handshaking (it is not associated with any particular command). + PSU_DDRC_PCFGR_5_RD_PORT_URGENT_EN 0x1 + + If set to 1, enables aging function for the read channel of the port. + PSU_DDRC_PCFGR_5_RD_PORT_AGING_EN 0x0 + + Determines the initial load value of read aging counters. These counters will be parallel loaded after reset, or after each g + ant to the corresponding port. The aging counters down-count every clock cycle where the port is requesting but not granted. + he higher significant 5-bits of the read aging counter sets the priority of the read channel of a given port. Port's priority + will increase as the higher significant 5-bits of the counter starts to decrease. When the aging counter becomes 0, the corre + ponding port channel will have the highest priority level (timeout condition - Priority0). For multi-port configurations, the + aging counters cannot be used to set port priorities when external dynamic priority inputs (arqos) are enabled (timeout is st + ll applicable). For single port configurations, the aging counters are only used when they timeout (become 0) to force read-w + ite direction switching. In this case, external dynamic priority input, arqos (for reads only) can still be used to set the D + RC read priority (2 priority levels: low priority read - LPR, high priority read - HPR) on a command by command basis. Note: + he two LSBs of this register field are tied internally to 2'b00. + PSU_DDRC_PCFGR_5_RD_PORT_PRIORITY 0xf + + Port n Configuration Read Register + (OFFSET, MASK, VALUE) (0XFD070774, 0x000073FFU ,0x0000200FU) + RegMask = (DDRC_PCFGR_5_RD_PORT_PAGEMATCH_EN_MASK | DDRC_PCFGR_5_RD_PORT_URGENT_EN_MASK | DDRC_PCFGR_5_RD_PORT_AGING_EN_MASK | DDRC_PCFGR_5_RD_PORT_PRIORITY_MASK | 0 ); + + RegVal = ((0x00000000U << DDRC_PCFGR_5_RD_PORT_PAGEMATCH_EN_SHIFT + | 0x00000001U << DDRC_PCFGR_5_RD_PORT_URGENT_EN_SHIFT + | 0x00000000U << DDRC_PCFGR_5_RD_PORT_AGING_EN_SHIFT + | 0x0000000FU << DDRC_PCFGR_5_RD_PORT_PRIORITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_PCFGR_5_OFFSET ,0x000073FFU ,0x0000200FU); + /*############################################################################################################################ */ + + /*Register : PCFGW_5 @ 0XFD070778

+ + If set to 1, enables the Page Match feature. If enabled, once a requesting port is granted, the port is continued to be grant + d if the following immediate commands are to the same memory page (same bank and same row). See also related PCCFG.pagematch_ + imit register. + PSU_DDRC_PCFGW_5_WR_PORT_PAGEMATCH_EN 0x1 + + If set to 1, enables the AXI urgent sideband signal (awurgent). When enabled and awurgent is asserted by the master, that por + becomes the highest priority and co_gs_go2critical_wr signal to DDRC is asserted if enabled in PCCFG.go2critical_en register + Note that awurgent signal can be asserted anytime and as long as required which is independent of address handshaking (it is + not associated with any particular command). + PSU_DDRC_PCFGW_5_WR_PORT_URGENT_EN 0x1 + + If set to 1, enables aging function for the write channel of the port. + PSU_DDRC_PCFGW_5_WR_PORT_AGING_EN 0x0 + + Determines the initial load value of write aging counters. These counters will be parallel loaded after reset, or after each + rant to the corresponding port. The aging counters down-count every clock cycle where the port is requesting but not granted. + The higher significant 5-bits of the write aging counter sets the initial priority of the write channel of a given port. Port + s priority will increase as the higher significant 5-bits of the counter starts to decrease. When the aging counter becomes 0 + the corresponding port channel will have the highest priority level. For multi-port configurations, the aging counters canno + be used to set port priorities when external dynamic priority inputs (awqos) are enabled (timeout is still applicable). For + ingle port configurations, the aging counters are only used when they timeout (become 0) to force read-write direction switch + ng. Note: The two LSBs of this register field are tied internally to 2'b00. + PSU_DDRC_PCFGW_5_WR_PORT_PRIORITY 0xf + + Port n Configuration Write Register + (OFFSET, MASK, VALUE) (0XFD070778, 0x000073FFU ,0x0000600FU) + RegMask = (DDRC_PCFGW_5_WR_PORT_PAGEMATCH_EN_MASK | DDRC_PCFGW_5_WR_PORT_URGENT_EN_MASK | DDRC_PCFGW_5_WR_PORT_AGING_EN_MASK | DDRC_PCFGW_5_WR_PORT_PRIORITY_MASK | 0 ); + + RegVal = ((0x00000001U << DDRC_PCFGW_5_WR_PORT_PAGEMATCH_EN_SHIFT + | 0x00000001U << DDRC_PCFGW_5_WR_PORT_URGENT_EN_SHIFT + | 0x00000000U << DDRC_PCFGW_5_WR_PORT_AGING_EN_SHIFT + | 0x0000000FU << DDRC_PCFGW_5_WR_PORT_PRIORITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_PCFGW_5_OFFSET ,0x000073FFU ,0x0000600FU); + /*############################################################################################################################ */ + + /*Register : PCTRL_5 @ 0XFD070800

+ + Enables port n. + PSU_DDRC_PCTRL_5_PORT_EN 0x1 + + Port n Control Register + (OFFSET, MASK, VALUE) (0XFD070800, 0x00000001U ,0x00000001U) + RegMask = (DDRC_PCTRL_5_PORT_EN_MASK | 0 ); + + RegVal = ((0x00000001U << DDRC_PCTRL_5_PORT_EN_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_PCTRL_5_OFFSET ,0x00000001U ,0x00000001U); + /*############################################################################################################################ */ + + /*Register : PCFGQOS0_5 @ 0XFD070804

+ + This bitfield indicates the traffic class of region 1. Valid values are: 0 : LPR, 1: VPR, 2: HPR. For dual address queue conf + gurations, region1 maps to the blue address queue. In this case, valid values are 0: LPR and 1: VPR only. When VPR support is + disabled (UMCTL2_VPR_EN = 0) and traffic class of region 1 is set to 1 (VPR), VPR traffic is aliased to LPR traffic. + PSU_DDRC_PCFGQOS0_5_RQOS_MAP_REGION1 0x1 + + This bitfield indicates the traffic class of region 0. Valid values are: 0: LPR, 1: VPR, 2: HPR. For dual address queue confi + urations, region 0 maps to the blue address queue. In this case, valid values are: 0: LPR and 1: VPR only. When VPR support i + disabled (UMCTL2_VPR_EN = 0) and traffic class of region0 is set to 1 (VPR), VPR traffic is aliased to LPR traffic. + PSU_DDRC_PCFGQOS0_5_RQOS_MAP_REGION0 0x0 + + Separation level1 indicating the end of region0 mapping; start of region0 is 0. Possible values for level1 are 0 to 13 (for d + al RAQ) or 0 to 14 (for single RAQ) which corresponds to arqos. Note that for PA, arqos values are used directly as port prio + ities, where the higher the value corresponds to higher port priority. All of the map_level* registers must be set to distinc + values. + PSU_DDRC_PCFGQOS0_5_RQOS_MAP_LEVEL1 0x3 + + Port n Read QoS Configuration Register 0 + (OFFSET, MASK, VALUE) (0XFD070804, 0x0033000FU ,0x00100003U) + RegMask = (DDRC_PCFGQOS0_5_RQOS_MAP_REGION1_MASK | DDRC_PCFGQOS0_5_RQOS_MAP_REGION0_MASK | DDRC_PCFGQOS0_5_RQOS_MAP_LEVEL1_MASK | 0 ); + + RegVal = ((0x00000001U << DDRC_PCFGQOS0_5_RQOS_MAP_REGION1_SHIFT + | 0x00000000U << DDRC_PCFGQOS0_5_RQOS_MAP_REGION0_SHIFT + | 0x00000003U << DDRC_PCFGQOS0_5_RQOS_MAP_LEVEL1_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_PCFGQOS0_5_OFFSET ,0x0033000FU ,0x00100003U); + /*############################################################################################################################ */ + + /*Register : PCFGQOS1_5 @ 0XFD070808

+ + Specifies the timeout value for transactions mapped to the red address queue. + PSU_DDRC_PCFGQOS1_5_RQOS_MAP_TIMEOUTR 0x0 + + Specifies the timeout value for transactions mapped to the blue address queue. + PSU_DDRC_PCFGQOS1_5_RQOS_MAP_TIMEOUTB 0x4f + + Port n Read QoS Configuration Register 1 + (OFFSET, MASK, VALUE) (0XFD070808, 0x07FF07FFU ,0x0000004FU) + RegMask = (DDRC_PCFGQOS1_5_RQOS_MAP_TIMEOUTR_MASK | DDRC_PCFGQOS1_5_RQOS_MAP_TIMEOUTB_MASK | 0 ); + + RegVal = ((0x00000000U << DDRC_PCFGQOS1_5_RQOS_MAP_TIMEOUTR_SHIFT + | 0x0000004FU << DDRC_PCFGQOS1_5_RQOS_MAP_TIMEOUTB_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_PCFGQOS1_5_OFFSET ,0x07FF07FFU ,0x0000004FU); + /*############################################################################################################################ */ + + /*Register : PCFGWQOS0_5 @ 0XFD07080C

+ + This bitfield indicates the traffic class of region 1. Valid values are: 0: NPW, 1: VPW. When VPW support is disabled (UMCTL2 + VPW_EN = 0) and traffic class of region 1 is set to 1 (VPW), VPW traffic is aliased to LPW traffic. + PSU_DDRC_PCFGWQOS0_5_WQOS_MAP_REGION1 0x1 + + This bitfield indicates the traffic class of region 0. Valid values are: 0: NPW, 1: VPW. When VPW support is disabled (UMCTL2 + VPW_EN = 0) and traffic class of region0 is set to 1 (VPW), VPW traffic is aliased to NPW traffic. + PSU_DDRC_PCFGWQOS0_5_WQOS_MAP_REGION0 0x0 + + Separation level indicating the end of region0 mapping; start of region0 is 0. Possible values for level1 are 0 to 14 which c + rresponds to awqos. Note that for PA, awqos values are used directly as port priorities, where the higher the value correspon + s to higher port priority. + PSU_DDRC_PCFGWQOS0_5_WQOS_MAP_LEVEL 0x3 + + Port n Write QoS Configuration Register 0 + (OFFSET, MASK, VALUE) (0XFD07080C, 0x0033000FU ,0x00100003U) + RegMask = (DDRC_PCFGWQOS0_5_WQOS_MAP_REGION1_MASK | DDRC_PCFGWQOS0_5_WQOS_MAP_REGION0_MASK | DDRC_PCFGWQOS0_5_WQOS_MAP_LEVEL_MASK | 0 ); + + RegVal = ((0x00000001U << DDRC_PCFGWQOS0_5_WQOS_MAP_REGION1_SHIFT + | 0x00000000U << DDRC_PCFGWQOS0_5_WQOS_MAP_REGION0_SHIFT + | 0x00000003U << DDRC_PCFGWQOS0_5_WQOS_MAP_LEVEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_PCFGWQOS0_5_OFFSET ,0x0033000FU ,0x00100003U); + /*############################################################################################################################ */ + + /*Register : PCFGWQOS1_5 @ 0XFD070810

+ + Specifies the timeout value for write transactions. + PSU_DDRC_PCFGWQOS1_5_WQOS_MAP_TIMEOUT 0x4f + + Port n Write QoS Configuration Register 1 + (OFFSET, MASK, VALUE) (0XFD070810, 0x000007FFU ,0x0000004FU) + RegMask = (DDRC_PCFGWQOS1_5_WQOS_MAP_TIMEOUT_MASK | 0 ); + + RegVal = ((0x0000004FU << DDRC_PCFGWQOS1_5_WQOS_MAP_TIMEOUT_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_PCFGWQOS1_5_OFFSET ,0x000007FFU ,0x0000004FU); + /*############################################################################################################################ */ + + /*Register : SARBASE0 @ 0XFD070F04

+ + Base address for address region n specified as awaddr[UMCTL2_A_ADDRW-1:x] and araddr[UMCTL2_A_ADDRW-1:x] where x is determine + by the minimum block size parameter UMCTL2_SARMINSIZE: (x=log2(block size)). + PSU_DDRC_SARBASE0_BASE_ADDR 0x0 + + SAR Base Address Register n + (OFFSET, MASK, VALUE) (0XFD070F04, 0x000001FFU ,0x00000000U) + RegMask = (DDRC_SARBASE0_BASE_ADDR_MASK | 0 ); + + RegVal = ((0x00000000U << DDRC_SARBASE0_BASE_ADDR_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_SARBASE0_OFFSET ,0x000001FFU ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : SARSIZE0 @ 0XFD070F08

+ + Number of blocks for address region n. This register determines the total size of the region in multiples of minimum block si + e as specified by the hardware parameter UMCTL2_SARMINSIZE. The register value is encoded as number of blocks = nblocks + 1. + or example, if register is programmed to 0, region will have 1 block. + PSU_DDRC_SARSIZE0_NBLOCKS 0x0 + + SAR Size Register n + (OFFSET, MASK, VALUE) (0XFD070F08, 0x000000FFU ,0x00000000U) + RegMask = (DDRC_SARSIZE0_NBLOCKS_MASK | 0 ); + + RegVal = ((0x00000000U << DDRC_SARSIZE0_NBLOCKS_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_SARSIZE0_OFFSET ,0x000000FFU ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : SARBASE1 @ 0XFD070F0C

+ + Base address for address region n specified as awaddr[UMCTL2_A_ADDRW-1:x] and araddr[UMCTL2_A_ADDRW-1:x] where x is determine + by the minimum block size parameter UMCTL2_SARMINSIZE: (x=log2(block size)). + PSU_DDRC_SARBASE1_BASE_ADDR 0x10 + + SAR Base Address Register n + (OFFSET, MASK, VALUE) (0XFD070F0C, 0x000001FFU ,0x00000010U) + RegMask = (DDRC_SARBASE1_BASE_ADDR_MASK | 0 ); + + RegVal = ((0x00000010U << DDRC_SARBASE1_BASE_ADDR_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_SARBASE1_OFFSET ,0x000001FFU ,0x00000010U); + /*############################################################################################################################ */ + + /*Register : SARSIZE1 @ 0XFD070F10

+ + Number of blocks for address region n. This register determines the total size of the region in multiples of minimum block si + e as specified by the hardware parameter UMCTL2_SARMINSIZE. The register value is encoded as number of blocks = nblocks + 1. + or example, if register is programmed to 0, region will have 1 block. + PSU_DDRC_SARSIZE1_NBLOCKS 0xf + + SAR Size Register n + (OFFSET, MASK, VALUE) (0XFD070F10, 0x000000FFU ,0x0000000FU) + RegMask = (DDRC_SARSIZE1_NBLOCKS_MASK | 0 ); + + RegVal = ((0x0000000FU << DDRC_SARSIZE1_NBLOCKS_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_SARSIZE1_OFFSET ,0x000000FFU ,0x0000000FU); + /*############################################################################################################################ */ + + /*Register : DFITMG0_SHADOW @ 0XFD072190

+ + Specifies the number of DFI clock cycles after an assertion or de-assertion of the DFI control signals that the control signa + s at the PHY-DRAM interface reflect the assertion or de-assertion. If the DFI clock and the memory clock are not phase-aligne + , this timing parameter should be rounded up to the next integer value. Note that if using RDIMM, it is necessary to incremen + this parameter by RDIMM's extra cycle of latency in terms of DFI clock. + PSU_DDRC_DFITMG0_SHADOW_DFI_T_CTRL_DELAY 0x7 + + Defines whether dfi_rddata_en/dfi_rddata/dfi_rddata_valid is generated using HDR or SDR values Selects whether value in DFITM + 0.dfi_t_rddata_en is in terms of SDR or HDR clock cycles: - 0 in terms of HDR clock cycles - 1 in terms of SDR clock cycles R + fer to PHY specification for correct value. + PSU_DDRC_DFITMG0_SHADOW_DFI_RDDATA_USE_SDR 0x1 + + Time from the assertion of a read command on the DFI interface to the assertion of the dfi_rddata_en signal. Refer to PHY spe + ification for correct value. This corresponds to the DFI parameter trddata_en. Note that, depending on the PHY, if using RDIM + , it may be necessary to use the value (CL + 1) in the calculation of trddata_en. This is to compensate for the extra cycle o + latency through the RDIMM. Unit: Clocks + PSU_DDRC_DFITMG0_SHADOW_DFI_T_RDDATA_EN 0x2 + + Defines whether dfi_wrdata_en/dfi_wrdata/dfi_wrdata_mask is generated using HDR or SDR values Selects whether value in DFITMG + .dfi_tphy_wrlat is in terms of SDR or HDR clock cycles Selects whether value in DFITMG0.dfi_tphy_wrdata is in terms of SDR or + HDR clock cycles - 0 in terms of HDR clock cycles - 1 in terms of SDR clock cycles Refer to PHY specification for correct val + e. + PSU_DDRC_DFITMG0_SHADOW_DFI_WRDATA_USE_SDR 0x1 + + Specifies the number of clock cycles between when dfi_wrdata_en is asserted to when the associated write data is driven on th + dfi_wrdata signal. This corresponds to the DFI timing parameter tphy_wrdata. Refer to PHY specification for correct value. N + te, max supported value is 8. Unit: Clocks + PSU_DDRC_DFITMG0_SHADOW_DFI_TPHY_WRDATA 0x0 + + Write latency Number of clocks from the write command to write data enable (dfi_wrdata_en). This corresponds to the DFI timin + parameter tphy_wrlat. Refer to PHY specification for correct value.Note that, depending on the PHY, if using RDIMM, it may b + necessary to use the value (CL + 1) in the calculation of tphy_wrlat. This is to compensate for the extra cycle of latency t + rough the RDIMM. + PSU_DDRC_DFITMG0_SHADOW_DFI_TPHY_WRLAT 0x2 + + DFI Timing Shadow Register 0 + (OFFSET, MASK, VALUE) (0XFD072190, 0x1FBFBF3FU ,0x07828002U) + RegMask = (DDRC_DFITMG0_SHADOW_DFI_T_CTRL_DELAY_MASK | DDRC_DFITMG0_SHADOW_DFI_RDDATA_USE_SDR_MASK | DDRC_DFITMG0_SHADOW_DFI_T_RDDATA_EN_MASK | DDRC_DFITMG0_SHADOW_DFI_WRDATA_USE_SDR_MASK | DDRC_DFITMG0_SHADOW_DFI_TPHY_WRDATA_MASK | DDRC_DFITMG0_SHADOW_DFI_TPHY_WRLAT_MASK | 0 ); + + RegVal = ((0x00000007U << DDRC_DFITMG0_SHADOW_DFI_T_CTRL_DELAY_SHIFT + | 0x00000001U << DDRC_DFITMG0_SHADOW_DFI_RDDATA_USE_SDR_SHIFT + | 0x00000002U << DDRC_DFITMG0_SHADOW_DFI_T_RDDATA_EN_SHIFT + | 0x00000001U << DDRC_DFITMG0_SHADOW_DFI_WRDATA_USE_SDR_SHIFT + | 0x00000000U << DDRC_DFITMG0_SHADOW_DFI_TPHY_WRDATA_SHIFT + | 0x00000002U << DDRC_DFITMG0_SHADOW_DFI_TPHY_WRLAT_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDRC_DFITMG0_SHADOW_OFFSET ,0x1FBFBF3FU ,0x07828002U); + /*############################################################################################################################ */ + + // : DDR CONTROLLER RESET + /*Register : RST_DDR_SS @ 0XFD1A0108

+ + DDR block level reset inside of the DDR Sub System + PSU_CRF_APB_RST_DDR_SS_DDR_RESET 0X0 + + DDR sub system block level reset + (OFFSET, MASK, VALUE) (0XFD1A0108, 0x00000008U ,0x00000000U) + RegMask = (CRF_APB_RST_DDR_SS_DDR_RESET_MASK | 0 ); + + RegVal = ((0x00000000U << CRF_APB_RST_DDR_SS_DDR_RESET_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRF_APB_RST_DDR_SS_OFFSET ,0x00000008U ,0x00000000U); + /*############################################################################################################################ */ + + // : DDR PHY + /*Register : PGCR0 @ 0XFD080010

+ + Address Copy + PSU_DDR_PHY_PGCR0_ADCP 0x0 + + Reserved. Returns zeroes on reads. + PSU_DDR_PHY_PGCR0_RESERVED_30_27 0x0 + + PHY FIFO Reset + PSU_DDR_PHY_PGCR0_PHYFRST 0x1 + + Oscillator Mode Address/Command Delay Line Select + PSU_DDR_PHY_PGCR0_OSCACDL 0x3 + + Reserved. Returns zeroes on reads. + PSU_DDR_PHY_PGCR0_RESERVED_23_19 0x0 + + Digital Test Output Select + PSU_DDR_PHY_PGCR0_DTOSEL 0x0 + + Reserved. Returns zeroes on reads. + PSU_DDR_PHY_PGCR0_RESERVED_13 0x0 + + Oscillator Mode Division + PSU_DDR_PHY_PGCR0_OSCDIV 0xf + + Oscillator Enable + PSU_DDR_PHY_PGCR0_OSCEN 0x0 + + Reserved. Returns zeroes on reads. + PSU_DDR_PHY_PGCR0_RESERVED_7_0 0x0 + + PHY General Configuration Register 0 + (OFFSET, MASK, VALUE) (0XFD080010, 0xFFFFFFFFU ,0x07001E00U) + RegMask = (DDR_PHY_PGCR0_ADCP_MASK | DDR_PHY_PGCR0_RESERVED_30_27_MASK | DDR_PHY_PGCR0_PHYFRST_MASK | DDR_PHY_PGCR0_OSCACDL_MASK | DDR_PHY_PGCR0_RESERVED_23_19_MASK | DDR_PHY_PGCR0_DTOSEL_MASK | DDR_PHY_PGCR0_RESERVED_13_MASK | DDR_PHY_PGCR0_OSCDIV_MASK | DDR_PHY_PGCR0_OSCEN_MASK | DDR_PHY_PGCR0_RESERVED_7_0_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_PGCR0_ADCP_SHIFT + | 0x00000000U << DDR_PHY_PGCR0_RESERVED_30_27_SHIFT + | 0x00000001U << DDR_PHY_PGCR0_PHYFRST_SHIFT + | 0x00000003U << DDR_PHY_PGCR0_OSCACDL_SHIFT + | 0x00000000U << DDR_PHY_PGCR0_RESERVED_23_19_SHIFT + | 0x00000000U << DDR_PHY_PGCR0_DTOSEL_SHIFT + | 0x00000000U << DDR_PHY_PGCR0_RESERVED_13_SHIFT + | 0x0000000FU << DDR_PHY_PGCR0_OSCDIV_SHIFT + | 0x00000000U << DDR_PHY_PGCR0_OSCEN_SHIFT + | 0x00000000U << DDR_PHY_PGCR0_RESERVED_7_0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_PGCR0_OFFSET ,0xFFFFFFFFU ,0x07001E00U); + /*############################################################################################################################ */ + + /*Register : PGCR2 @ 0XFD080018

+ + Clear Training Status Registers + PSU_DDR_PHY_PGCR2_CLRTSTAT 0x0 + + Clear Impedance Calibration + PSU_DDR_PHY_PGCR2_CLRZCAL 0x0 + + Clear Parity Error + PSU_DDR_PHY_PGCR2_CLRPERR 0x0 + + Initialization Complete Pin Configuration + PSU_DDR_PHY_PGCR2_ICPC 0x0 + + Data Training PUB Mode Exit Timer + PSU_DDR_PHY_PGCR2_DTPMXTMR 0xf + + Initialization Bypass + PSU_DDR_PHY_PGCR2_INITFSMBYP 0x0 + + PLL FSM Bypass + PSU_DDR_PHY_PGCR2_PLLFSMBYP 0x0 + + Refresh Period + PSU_DDR_PHY_PGCR2_TREFPRD 0x10028 + + PHY General Configuration Register 2 + (OFFSET, MASK, VALUE) (0XFD080018, 0xFFFFFFFFU ,0x00F10028U) + RegMask = (DDR_PHY_PGCR2_CLRTSTAT_MASK | DDR_PHY_PGCR2_CLRZCAL_MASK | DDR_PHY_PGCR2_CLRPERR_MASK | DDR_PHY_PGCR2_ICPC_MASK | DDR_PHY_PGCR2_DTPMXTMR_MASK | DDR_PHY_PGCR2_INITFSMBYP_MASK | DDR_PHY_PGCR2_PLLFSMBYP_MASK | DDR_PHY_PGCR2_TREFPRD_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_PGCR2_CLRTSTAT_SHIFT + | 0x00000000U << DDR_PHY_PGCR2_CLRZCAL_SHIFT + | 0x00000000U << DDR_PHY_PGCR2_CLRPERR_SHIFT + | 0x00000000U << DDR_PHY_PGCR2_ICPC_SHIFT + | 0x0000000FU << DDR_PHY_PGCR2_DTPMXTMR_SHIFT + | 0x00000000U << DDR_PHY_PGCR2_INITFSMBYP_SHIFT + | 0x00000000U << DDR_PHY_PGCR2_PLLFSMBYP_SHIFT + | 0x00010028U << DDR_PHY_PGCR2_TREFPRD_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_PGCR2_OFFSET ,0xFFFFFFFFU ,0x00F10028U); + /*############################################################################################################################ */ + + /*Register : PGCR3 @ 0XFD08001C

+ + CKN Enable + PSU_DDR_PHY_PGCR3_CKNEN 0x55 + + CK Enable + PSU_DDR_PHY_PGCR3_CKEN 0xaa + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_PGCR3_RESERVED_15 0x0 + + Enable Clock Gating for AC [0] ctl_rd_clk + PSU_DDR_PHY_PGCR3_GATEACRDCLK 0x2 + + Enable Clock Gating for AC [0] ddr_clk + PSU_DDR_PHY_PGCR3_GATEACDDRCLK 0x2 + + Enable Clock Gating for AC [0] ctl_clk + PSU_DDR_PHY_PGCR3_GATEACCTLCLK 0x2 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_PGCR3_RESERVED_8 0x0 + + Controls DDL Bypass Modes + PSU_DDR_PHY_PGCR3_DDLBYPMODE 0x2 + + IO Loop-Back Select + PSU_DDR_PHY_PGCR3_IOLB 0x0 + + AC Receive FIFO Read Mode + PSU_DDR_PHY_PGCR3_RDMODE 0x0 + + Read FIFO Reset Disable + PSU_DDR_PHY_PGCR3_DISRST 0x0 + + Clock Level when Clock Gating + PSU_DDR_PHY_PGCR3_CLKLEVEL 0x0 + + PHY General Configuration Register 3 + (OFFSET, MASK, VALUE) (0XFD08001C, 0xFFFFFFFFU ,0x55AA5480U) + RegMask = (DDR_PHY_PGCR3_CKNEN_MASK | DDR_PHY_PGCR3_CKEN_MASK | DDR_PHY_PGCR3_RESERVED_15_MASK | DDR_PHY_PGCR3_GATEACRDCLK_MASK | DDR_PHY_PGCR3_GATEACDDRCLK_MASK | DDR_PHY_PGCR3_GATEACCTLCLK_MASK | DDR_PHY_PGCR3_RESERVED_8_MASK | DDR_PHY_PGCR3_DDLBYPMODE_MASK | DDR_PHY_PGCR3_IOLB_MASK | DDR_PHY_PGCR3_RDMODE_MASK | DDR_PHY_PGCR3_DISRST_MASK | DDR_PHY_PGCR3_CLKLEVEL_MASK | 0 ); + + RegVal = ((0x00000055U << DDR_PHY_PGCR3_CKNEN_SHIFT + | 0x000000AAU << DDR_PHY_PGCR3_CKEN_SHIFT + | 0x00000000U << DDR_PHY_PGCR3_RESERVED_15_SHIFT + | 0x00000002U << DDR_PHY_PGCR3_GATEACRDCLK_SHIFT + | 0x00000002U << DDR_PHY_PGCR3_GATEACDDRCLK_SHIFT + | 0x00000002U << DDR_PHY_PGCR3_GATEACCTLCLK_SHIFT + | 0x00000000U << DDR_PHY_PGCR3_RESERVED_8_SHIFT + | 0x00000002U << DDR_PHY_PGCR3_DDLBYPMODE_SHIFT + | 0x00000000U << DDR_PHY_PGCR3_IOLB_SHIFT + | 0x00000000U << DDR_PHY_PGCR3_RDMODE_SHIFT + | 0x00000000U << DDR_PHY_PGCR3_DISRST_SHIFT + | 0x00000000U << DDR_PHY_PGCR3_CLKLEVEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_PGCR3_OFFSET ,0xFFFFFFFFU ,0x55AA5480U); + /*############################################################################################################################ */ + + /*Register : PGCR5 @ 0XFD080024

+ + Frequency B Ratio Term + PSU_DDR_PHY_PGCR5_FRQBT 0x1 + + Frequency A Ratio Term + PSU_DDR_PHY_PGCR5_FRQAT 0x1 + + DFI Disconnect Time Period + PSU_DDR_PHY_PGCR5_DISCNPERIOD 0x0 + + Receiver bias core side control + PSU_DDR_PHY_PGCR5_VREF_RBCTRL 0xf + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_PGCR5_RESERVED_3 0x0 + + Internal VREF generator REFSEL ragne select + PSU_DDR_PHY_PGCR5_DXREFISELRANGE 0x1 + + DDL Page Read Write select + PSU_DDR_PHY_PGCR5_DDLPGACT 0x0 + + DDL Page Read Write select + PSU_DDR_PHY_PGCR5_DDLPGRW 0x0 + + PHY General Configuration Register 5 + (OFFSET, MASK, VALUE) (0XFD080024, 0xFFFFFFFFU ,0x010100F4U) + RegMask = (DDR_PHY_PGCR5_FRQBT_MASK | DDR_PHY_PGCR5_FRQAT_MASK | DDR_PHY_PGCR5_DISCNPERIOD_MASK | DDR_PHY_PGCR5_VREF_RBCTRL_MASK | DDR_PHY_PGCR5_RESERVED_3_MASK | DDR_PHY_PGCR5_DXREFISELRANGE_MASK | DDR_PHY_PGCR5_DDLPGACT_MASK | DDR_PHY_PGCR5_DDLPGRW_MASK | 0 ); + + RegVal = ((0x00000001U << DDR_PHY_PGCR5_FRQBT_SHIFT + | 0x00000001U << DDR_PHY_PGCR5_FRQAT_SHIFT + | 0x00000000U << DDR_PHY_PGCR5_DISCNPERIOD_SHIFT + | 0x0000000FU << DDR_PHY_PGCR5_VREF_RBCTRL_SHIFT + | 0x00000000U << DDR_PHY_PGCR5_RESERVED_3_SHIFT + | 0x00000001U << DDR_PHY_PGCR5_DXREFISELRANGE_SHIFT + | 0x00000000U << DDR_PHY_PGCR5_DDLPGACT_SHIFT + | 0x00000000U << DDR_PHY_PGCR5_DDLPGRW_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_PGCR5_OFFSET ,0xFFFFFFFFU ,0x010100F4U); + /*############################################################################################################################ */ + + /*Register : PTR0 @ 0XFD080040

+ + PLL Power-Down Time + PSU_DDR_PHY_PTR0_TPLLPD 0x2f0 + + PLL Gear Shift Time + PSU_DDR_PHY_PTR0_TPLLGS 0x60 + + PHY Reset Time + PSU_DDR_PHY_PTR0_TPHYRST 0x10 + + PHY Timing Register 0 + (OFFSET, MASK, VALUE) (0XFD080040, 0xFFFFFFFFU ,0x5E001810U) + RegMask = (DDR_PHY_PTR0_TPLLPD_MASK | DDR_PHY_PTR0_TPLLGS_MASK | DDR_PHY_PTR0_TPHYRST_MASK | 0 ); + + RegVal = ((0x000002F0U << DDR_PHY_PTR0_TPLLPD_SHIFT + | 0x00000060U << DDR_PHY_PTR0_TPLLGS_SHIFT + | 0x00000010U << DDR_PHY_PTR0_TPHYRST_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_PTR0_OFFSET ,0xFFFFFFFFU ,0x5E001810U); + /*############################################################################################################################ */ + + /*Register : PTR1 @ 0XFD080044

+ + PLL Lock Time + PSU_DDR_PHY_PTR1_TPLLLOCK 0x80 + + Reserved. Returns zeroes on reads. + PSU_DDR_PHY_PTR1_RESERVED_15_13 0x0 + + PLL Reset Time + PSU_DDR_PHY_PTR1_TPLLRST 0x5f0 + + PHY Timing Register 1 + (OFFSET, MASK, VALUE) (0XFD080044, 0xFFFFFFFFU ,0x008005F0U) + RegMask = (DDR_PHY_PTR1_TPLLLOCK_MASK | DDR_PHY_PTR1_RESERVED_15_13_MASK | DDR_PHY_PTR1_TPLLRST_MASK | 0 ); + + RegVal = ((0x00000080U << DDR_PHY_PTR1_TPLLLOCK_SHIFT + | 0x00000000U << DDR_PHY_PTR1_RESERVED_15_13_SHIFT + | 0x000005F0U << DDR_PHY_PTR1_TPLLRST_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_PTR1_OFFSET ,0xFFFFFFFFU ,0x008005F0U); + /*############################################################################################################################ */ + + /*Register : DSGCR @ 0XFD080090

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DSGCR_RESERVED_31_28 0x0 + + When RDBI enabled, this bit is used to select RDBI CL calculation, if it is 1b1, calculation will use RDBICL, otherwise use d + fault calculation. + PSU_DDR_PHY_DSGCR_RDBICLSEL 0x0 + + When RDBI enabled, if RDBICLSEL is asserted, RDBI CL adjust using this value. + PSU_DDR_PHY_DSGCR_RDBICL 0x2 + + PHY Impedance Update Enable + PSU_DDR_PHY_DSGCR_PHYZUEN 0x1 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DSGCR_RESERVED_22 0x0 + + SDRAM Reset Output Enable + PSU_DDR_PHY_DSGCR_RSTOE 0x1 + + Single Data Rate Mode + PSU_DDR_PHY_DSGCR_SDRMODE 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DSGCR_RESERVED_18 0x0 + + ATO Analog Test Enable + PSU_DDR_PHY_DSGCR_ATOAE 0x0 + + DTO Output Enable + PSU_DDR_PHY_DSGCR_DTOOE 0x0 + + DTO I/O Mode + PSU_DDR_PHY_DSGCR_DTOIOM 0x0 + + DTO Power Down Receiver + PSU_DDR_PHY_DSGCR_DTOPDR 0x1 + + Reserved. Return zeroes on reads + PSU_DDR_PHY_DSGCR_RESERVED_13 0x0 + + DTO On-Die Termination + PSU_DDR_PHY_DSGCR_DTOODT 0x0 + + PHY Update Acknowledge Delay + PSU_DDR_PHY_DSGCR_PUAD 0x4 + + Controller Update Acknowledge Enable + PSU_DDR_PHY_DSGCR_CUAEN 0x1 + + Reserved. Return zeroes on reads + PSU_DDR_PHY_DSGCR_RESERVED_4_3 0x0 + + Controller Impedance Update Enable + PSU_DDR_PHY_DSGCR_CTLZUEN 0x0 + + Reserved. Return zeroes on reads + PSU_DDR_PHY_DSGCR_RESERVED_1 0x0 + + PHY Update Request Enable + PSU_DDR_PHY_DSGCR_PUREN 0x1 + + DDR System General Configuration Register + (OFFSET, MASK, VALUE) (0XFD080090, 0xFFFFFFFFU ,0x02A04121U) + RegMask = (DDR_PHY_DSGCR_RESERVED_31_28_MASK | DDR_PHY_DSGCR_RDBICLSEL_MASK | DDR_PHY_DSGCR_RDBICL_MASK | DDR_PHY_DSGCR_PHYZUEN_MASK | DDR_PHY_DSGCR_RESERVED_22_MASK | DDR_PHY_DSGCR_RSTOE_MASK | DDR_PHY_DSGCR_SDRMODE_MASK | DDR_PHY_DSGCR_RESERVED_18_MASK | DDR_PHY_DSGCR_ATOAE_MASK | DDR_PHY_DSGCR_DTOOE_MASK | DDR_PHY_DSGCR_DTOIOM_MASK | DDR_PHY_DSGCR_DTOPDR_MASK | DDR_PHY_DSGCR_RESERVED_13_MASK | DDR_PHY_DSGCR_DTOODT_MASK | DDR_PHY_DSGCR_PUAD_MASK | DDR_PHY_DSGCR_CUAEN_MASK | DDR_PHY_DSGCR_RESERVED_4_3_MASK | DDR_PHY_DSGCR_CTLZUEN_MASK | DDR_PHY_DSGCR_RESERVED_1_MASK | DDR_PHY_DSGCR_PUREN_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DSGCR_RESERVED_31_28_SHIFT + | 0x00000000U << DDR_PHY_DSGCR_RDBICLSEL_SHIFT + | 0x00000002U << DDR_PHY_DSGCR_RDBICL_SHIFT + | 0x00000001U << DDR_PHY_DSGCR_PHYZUEN_SHIFT + | 0x00000000U << DDR_PHY_DSGCR_RESERVED_22_SHIFT + | 0x00000001U << DDR_PHY_DSGCR_RSTOE_SHIFT + | 0x00000000U << DDR_PHY_DSGCR_SDRMODE_SHIFT + | 0x00000000U << DDR_PHY_DSGCR_RESERVED_18_SHIFT + | 0x00000000U << DDR_PHY_DSGCR_ATOAE_SHIFT + | 0x00000000U << DDR_PHY_DSGCR_DTOOE_SHIFT + | 0x00000000U << DDR_PHY_DSGCR_DTOIOM_SHIFT + | 0x00000001U << DDR_PHY_DSGCR_DTOPDR_SHIFT + | 0x00000000U << DDR_PHY_DSGCR_RESERVED_13_SHIFT + | 0x00000000U << DDR_PHY_DSGCR_DTOODT_SHIFT + | 0x00000004U << DDR_PHY_DSGCR_PUAD_SHIFT + | 0x00000001U << DDR_PHY_DSGCR_CUAEN_SHIFT + | 0x00000000U << DDR_PHY_DSGCR_RESERVED_4_3_SHIFT + | 0x00000000U << DDR_PHY_DSGCR_CTLZUEN_SHIFT + | 0x00000000U << DDR_PHY_DSGCR_RESERVED_1_SHIFT + | 0x00000001U << DDR_PHY_DSGCR_PUREN_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DSGCR_OFFSET ,0xFFFFFFFFU ,0x02A04121U); + /*############################################################################################################################ */ + + /*Register : DCR @ 0XFD080100

+ + DDR4 Gear Down Timing. + PSU_DDR_PHY_DCR_GEARDN 0x0 + + Un-used Bank Group + PSU_DDR_PHY_DCR_UBG 0x0 + + Un-buffered DIMM Address Mirroring + PSU_DDR_PHY_DCR_UDIMM 0x0 + + DDR 2T Timing + PSU_DDR_PHY_DCR_DDR2T 0x0 + + No Simultaneous Rank Access + PSU_DDR_PHY_DCR_NOSRA 0x1 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DCR_RESERVED_26_18 0x0 + + Byte Mask + PSU_DDR_PHY_DCR_BYTEMASK 0x1 + + DDR Type + PSU_DDR_PHY_DCR_DDRTYPE 0x0 + + Multi-Purpose Register (MPR) DQ (DDR3 Only) + PSU_DDR_PHY_DCR_MPRDQ 0x0 + + Primary DQ (DDR3 Only) + PSU_DDR_PHY_DCR_PDQ 0x0 + + DDR 8-Bank + PSU_DDR_PHY_DCR_DDR8BNK 0x1 + + DDR Mode + PSU_DDR_PHY_DCR_DDRMD 0x4 + + DRAM Configuration Register + (OFFSET, MASK, VALUE) (0XFD080100, 0xFFFFFFFFU ,0x0800040CU) + RegMask = (DDR_PHY_DCR_GEARDN_MASK | DDR_PHY_DCR_UBG_MASK | DDR_PHY_DCR_UDIMM_MASK | DDR_PHY_DCR_DDR2T_MASK | DDR_PHY_DCR_NOSRA_MASK | DDR_PHY_DCR_RESERVED_26_18_MASK | DDR_PHY_DCR_BYTEMASK_MASK | DDR_PHY_DCR_DDRTYPE_MASK | DDR_PHY_DCR_MPRDQ_MASK | DDR_PHY_DCR_PDQ_MASK | DDR_PHY_DCR_DDR8BNK_MASK | DDR_PHY_DCR_DDRMD_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DCR_GEARDN_SHIFT + | 0x00000000U << DDR_PHY_DCR_UBG_SHIFT + | 0x00000000U << DDR_PHY_DCR_UDIMM_SHIFT + | 0x00000000U << DDR_PHY_DCR_DDR2T_SHIFT + | 0x00000001U << DDR_PHY_DCR_NOSRA_SHIFT + | 0x00000000U << DDR_PHY_DCR_RESERVED_26_18_SHIFT + | 0x00000001U << DDR_PHY_DCR_BYTEMASK_SHIFT + | 0x00000000U << DDR_PHY_DCR_DDRTYPE_SHIFT + | 0x00000000U << DDR_PHY_DCR_MPRDQ_SHIFT + | 0x00000000U << DDR_PHY_DCR_PDQ_SHIFT + | 0x00000001U << DDR_PHY_DCR_DDR8BNK_SHIFT + | 0x00000004U << DDR_PHY_DCR_DDRMD_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DCR_OFFSET ,0xFFFFFFFFU ,0x0800040CU); + /*############################################################################################################################ */ + + /*Register : DTPR0 @ 0XFD080110

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DTPR0_RESERVED_31_29 0x0 + + Activate to activate command delay (different banks) + PSU_DDR_PHY_DTPR0_TRRD 0x6 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DTPR0_RESERVED_23 0x0 + + Activate to precharge command delay + PSU_DDR_PHY_DTPR0_TRAS 0x24 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DTPR0_RESERVED_15 0x0 + + Precharge command period + PSU_DDR_PHY_DTPR0_TRP 0xf + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DTPR0_RESERVED_7_5 0x0 + + Internal read to precharge command delay + PSU_DDR_PHY_DTPR0_TRTP 0x9 + + DRAM Timing Parameters Register 0 + (OFFSET, MASK, VALUE) (0XFD080110, 0xFFFFFFFFU ,0x06240F09U) + RegMask = (DDR_PHY_DTPR0_RESERVED_31_29_MASK | DDR_PHY_DTPR0_TRRD_MASK | DDR_PHY_DTPR0_RESERVED_23_MASK | DDR_PHY_DTPR0_TRAS_MASK | DDR_PHY_DTPR0_RESERVED_15_MASK | DDR_PHY_DTPR0_TRP_MASK | DDR_PHY_DTPR0_RESERVED_7_5_MASK | DDR_PHY_DTPR0_TRTP_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DTPR0_RESERVED_31_29_SHIFT + | 0x00000006U << DDR_PHY_DTPR0_TRRD_SHIFT + | 0x00000000U << DDR_PHY_DTPR0_RESERVED_23_SHIFT + | 0x00000024U << DDR_PHY_DTPR0_TRAS_SHIFT + | 0x00000000U << DDR_PHY_DTPR0_RESERVED_15_SHIFT + | 0x0000000FU << DDR_PHY_DTPR0_TRP_SHIFT + | 0x00000000U << DDR_PHY_DTPR0_RESERVED_7_5_SHIFT + | 0x00000009U << DDR_PHY_DTPR0_TRTP_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DTPR0_OFFSET ,0xFFFFFFFFU ,0x06240F09U); + /*############################################################################################################################ */ + + /*Register : DTPR1 @ 0XFD080114

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DTPR1_RESERVED_31 0x0 + + Minimum delay from when write leveling mode is programmed to the first DQS/DQS# rising edge. + PSU_DDR_PHY_DTPR1_TWLMRD 0x28 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DTPR1_RESERVED_23 0x0 + + 4-bank activate period + PSU_DDR_PHY_DTPR1_TFAW 0x22 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DTPR1_RESERVED_15_11 0x0 + + Load mode update delay (DDR4 and DDR3 only) + PSU_DDR_PHY_DTPR1_TMOD 0x7 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DTPR1_RESERVED_7_5 0x0 + + Load mode cycle time + PSU_DDR_PHY_DTPR1_TMRD 0x8 + + DRAM Timing Parameters Register 1 + (OFFSET, MASK, VALUE) (0XFD080114, 0xFFFFFFFFU ,0x28220708U) + RegMask = (DDR_PHY_DTPR1_RESERVED_31_MASK | DDR_PHY_DTPR1_TWLMRD_MASK | DDR_PHY_DTPR1_RESERVED_23_MASK | DDR_PHY_DTPR1_TFAW_MASK | DDR_PHY_DTPR1_RESERVED_15_11_MASK | DDR_PHY_DTPR1_TMOD_MASK | DDR_PHY_DTPR1_RESERVED_7_5_MASK | DDR_PHY_DTPR1_TMRD_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DTPR1_RESERVED_31_SHIFT + | 0x00000028U << DDR_PHY_DTPR1_TWLMRD_SHIFT + | 0x00000000U << DDR_PHY_DTPR1_RESERVED_23_SHIFT + | 0x00000022U << DDR_PHY_DTPR1_TFAW_SHIFT + | 0x00000000U << DDR_PHY_DTPR1_RESERVED_15_11_SHIFT + | 0x00000007U << DDR_PHY_DTPR1_TMOD_SHIFT + | 0x00000000U << DDR_PHY_DTPR1_RESERVED_7_5_SHIFT + | 0x00000008U << DDR_PHY_DTPR1_TMRD_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DTPR1_OFFSET ,0xFFFFFFFFU ,0x28220708U); + /*############################################################################################################################ */ + + /*Register : DTPR2 @ 0XFD080118

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DTPR2_RESERVED_31_29 0x0 + + Read to Write command delay. Valid values are + PSU_DDR_PHY_DTPR2_TRTW 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DTPR2_RESERVED_27_25 0x0 + + Read to ODT delay (DDR3 only) + PSU_DDR_PHY_DTPR2_TRTODT 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DTPR2_RESERVED_23_20 0x0 + + CKE minimum pulse width + PSU_DDR_PHY_DTPR2_TCKE 0x8 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DTPR2_RESERVED_15_10 0x0 + + Self refresh exit delay + PSU_DDR_PHY_DTPR2_TXS 0x200 + + DRAM Timing Parameters Register 2 + (OFFSET, MASK, VALUE) (0XFD080118, 0xFFFFFFFFU ,0x00080200U) + RegMask = (DDR_PHY_DTPR2_RESERVED_31_29_MASK | DDR_PHY_DTPR2_TRTW_MASK | DDR_PHY_DTPR2_RESERVED_27_25_MASK | DDR_PHY_DTPR2_TRTODT_MASK | DDR_PHY_DTPR2_RESERVED_23_20_MASK | DDR_PHY_DTPR2_TCKE_MASK | DDR_PHY_DTPR2_RESERVED_15_10_MASK | DDR_PHY_DTPR2_TXS_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DTPR2_RESERVED_31_29_SHIFT + | 0x00000000U << DDR_PHY_DTPR2_TRTW_SHIFT + | 0x00000000U << DDR_PHY_DTPR2_RESERVED_27_25_SHIFT + | 0x00000000U << DDR_PHY_DTPR2_TRTODT_SHIFT + | 0x00000000U << DDR_PHY_DTPR2_RESERVED_23_20_SHIFT + | 0x00000008U << DDR_PHY_DTPR2_TCKE_SHIFT + | 0x00000000U << DDR_PHY_DTPR2_RESERVED_15_10_SHIFT + | 0x00000200U << DDR_PHY_DTPR2_TXS_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DTPR2_OFFSET ,0xFFFFFFFFU ,0x00080200U); + /*############################################################################################################################ */ + + /*Register : DTPR3 @ 0XFD08011C

+ + ODT turn-off delay extension + PSU_DDR_PHY_DTPR3_TOFDX 0x4 + + Read to read and write to write command delay + PSU_DDR_PHY_DTPR3_TCCD 0x0 + + DLL locking time + PSU_DDR_PHY_DTPR3_TDLLK 0x300 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DTPR3_RESERVED_15_12 0x0 + + Maximum DQS output access time from CK/CK# (LPDDR2/3 only) + PSU_DDR_PHY_DTPR3_TDQSCKMAX 0x8 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DTPR3_RESERVED_7_3 0x0 + + DQS output access time from CK/CK# (LPDDR2/3 only) + PSU_DDR_PHY_DTPR3_TDQSCK 0x0 + + DRAM Timing Parameters Register 3 + (OFFSET, MASK, VALUE) (0XFD08011C, 0xFFFFFFFFU ,0x83000800U) + RegMask = (DDR_PHY_DTPR3_TOFDX_MASK | DDR_PHY_DTPR3_TCCD_MASK | DDR_PHY_DTPR3_TDLLK_MASK | DDR_PHY_DTPR3_RESERVED_15_12_MASK | DDR_PHY_DTPR3_TDQSCKMAX_MASK | DDR_PHY_DTPR3_RESERVED_7_3_MASK | DDR_PHY_DTPR3_TDQSCK_MASK | 0 ); + + RegVal = ((0x00000004U << DDR_PHY_DTPR3_TOFDX_SHIFT + | 0x00000000U << DDR_PHY_DTPR3_TCCD_SHIFT + | 0x00000300U << DDR_PHY_DTPR3_TDLLK_SHIFT + | 0x00000000U << DDR_PHY_DTPR3_RESERVED_15_12_SHIFT + | 0x00000008U << DDR_PHY_DTPR3_TDQSCKMAX_SHIFT + | 0x00000000U << DDR_PHY_DTPR3_RESERVED_7_3_SHIFT + | 0x00000000U << DDR_PHY_DTPR3_TDQSCK_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DTPR3_OFFSET ,0xFFFFFFFFU ,0x83000800U); + /*############################################################################################################################ */ + + /*Register : DTPR4 @ 0XFD080120

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DTPR4_RESERVED_31_30 0x0 + + ODT turn-on/turn-off delays (DDR2 only) + PSU_DDR_PHY_DTPR4_TAOND_TAOFD 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DTPR4_RESERVED_27_26 0x0 + + Refresh-to-Refresh + PSU_DDR_PHY_DTPR4_TRFC 0x116 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DTPR4_RESERVED_15_14 0x0 + + Write leveling output delay + PSU_DDR_PHY_DTPR4_TWLO 0x2b + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DTPR4_RESERVED_7_5 0x0 + + Power down exit delay + PSU_DDR_PHY_DTPR4_TXP 0x8 + + DRAM Timing Parameters Register 4 + (OFFSET, MASK, VALUE) (0XFD080120, 0xFFFFFFFFU ,0x01162B08U) + RegMask = (DDR_PHY_DTPR4_RESERVED_31_30_MASK | DDR_PHY_DTPR4_TAOND_TAOFD_MASK | DDR_PHY_DTPR4_RESERVED_27_26_MASK | DDR_PHY_DTPR4_TRFC_MASK | DDR_PHY_DTPR4_RESERVED_15_14_MASK | DDR_PHY_DTPR4_TWLO_MASK | DDR_PHY_DTPR4_RESERVED_7_5_MASK | DDR_PHY_DTPR4_TXP_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DTPR4_RESERVED_31_30_SHIFT + | 0x00000000U << DDR_PHY_DTPR4_TAOND_TAOFD_SHIFT + | 0x00000000U << DDR_PHY_DTPR4_RESERVED_27_26_SHIFT + | 0x00000116U << DDR_PHY_DTPR4_TRFC_SHIFT + | 0x00000000U << DDR_PHY_DTPR4_RESERVED_15_14_SHIFT + | 0x0000002BU << DDR_PHY_DTPR4_TWLO_SHIFT + | 0x00000000U << DDR_PHY_DTPR4_RESERVED_7_5_SHIFT + | 0x00000008U << DDR_PHY_DTPR4_TXP_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DTPR4_OFFSET ,0xFFFFFFFFU ,0x01162B08U); + /*############################################################################################################################ */ + + /*Register : DTPR5 @ 0XFD080124

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DTPR5_RESERVED_31_24 0x0 + + Activate to activate command delay (same bank) + PSU_DDR_PHY_DTPR5_TRC 0x34 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DTPR5_RESERVED_15 0x0 + + Activate to read or write delay + PSU_DDR_PHY_DTPR5_TRCD 0xf + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DTPR5_RESERVED_7_5 0x0 + + Internal write to read command delay + PSU_DDR_PHY_DTPR5_TWTR 0x9 + + DRAM Timing Parameters Register 5 + (OFFSET, MASK, VALUE) (0XFD080124, 0xFFFFFFFFU ,0x00340F09U) + RegMask = (DDR_PHY_DTPR5_RESERVED_31_24_MASK | DDR_PHY_DTPR5_TRC_MASK | DDR_PHY_DTPR5_RESERVED_15_MASK | DDR_PHY_DTPR5_TRCD_MASK | DDR_PHY_DTPR5_RESERVED_7_5_MASK | DDR_PHY_DTPR5_TWTR_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DTPR5_RESERVED_31_24_SHIFT + | 0x00000034U << DDR_PHY_DTPR5_TRC_SHIFT + | 0x00000000U << DDR_PHY_DTPR5_RESERVED_15_SHIFT + | 0x0000000FU << DDR_PHY_DTPR5_TRCD_SHIFT + | 0x00000000U << DDR_PHY_DTPR5_RESERVED_7_5_SHIFT + | 0x00000009U << DDR_PHY_DTPR5_TWTR_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DTPR5_OFFSET ,0xFFFFFFFFU ,0x00340F09U); + /*############################################################################################################################ */ + + /*Register : DTPR6 @ 0XFD080128

+ + PUB Write Latency Enable + PSU_DDR_PHY_DTPR6_PUBWLEN 0x0 + + PUB Read Latency Enable + PSU_DDR_PHY_DTPR6_PUBRLEN 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DTPR6_RESERVED_29_14 0x0 + + Write Latency + PSU_DDR_PHY_DTPR6_PUBWL 0xe + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DTPR6_RESERVED_7_6 0x0 + + Read Latency + PSU_DDR_PHY_DTPR6_PUBRL 0xf + + DRAM Timing Parameters Register 6 + (OFFSET, MASK, VALUE) (0XFD080128, 0xFFFFFFFFU ,0x00000E0FU) + RegMask = (DDR_PHY_DTPR6_PUBWLEN_MASK | DDR_PHY_DTPR6_PUBRLEN_MASK | DDR_PHY_DTPR6_RESERVED_29_14_MASK | DDR_PHY_DTPR6_PUBWL_MASK | DDR_PHY_DTPR6_RESERVED_7_6_MASK | DDR_PHY_DTPR6_PUBRL_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DTPR6_PUBWLEN_SHIFT + | 0x00000000U << DDR_PHY_DTPR6_PUBRLEN_SHIFT + | 0x00000000U << DDR_PHY_DTPR6_RESERVED_29_14_SHIFT + | 0x0000000EU << DDR_PHY_DTPR6_PUBWL_SHIFT + | 0x00000000U << DDR_PHY_DTPR6_RESERVED_7_6_SHIFT + | 0x0000000FU << DDR_PHY_DTPR6_PUBRL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DTPR6_OFFSET ,0xFFFFFFFFU ,0x00000E0FU); + /*############################################################################################################################ */ + + /*Register : RDIMMGCR0 @ 0XFD080140

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_RDIMMGCR0_RESERVED_31 0x0 + + RDMIMM Quad CS Enable + PSU_DDR_PHY_RDIMMGCR0_QCSEN 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_RDIMMGCR0_RESERVED_29_28 0x0 + + RDIMM Outputs I/O Mode + PSU_DDR_PHY_RDIMMGCR0_RDIMMIOM 0x1 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_RDIMMGCR0_RESERVED_26_24 0x0 + + ERROUT# Output Enable + PSU_DDR_PHY_RDIMMGCR0_ERROUTOE 0x0 + + ERROUT# I/O Mode + PSU_DDR_PHY_RDIMMGCR0_ERROUTIOM 0x1 + + ERROUT# Power Down Receiver + PSU_DDR_PHY_RDIMMGCR0_ERROUTPDR 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_RDIMMGCR0_RESERVED_20 0x0 + + ERROUT# On-Die Termination + PSU_DDR_PHY_RDIMMGCR0_ERROUTODT 0x0 + + Load Reduced DIMM + PSU_DDR_PHY_RDIMMGCR0_LRDIMM 0x0 + + PAR_IN I/O Mode + PSU_DDR_PHY_RDIMMGCR0_PARINIOM 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_RDIMMGCR0_RESERVED_16_8 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_RDIMMGCR0_RNKMRREN_RSVD 0x0 + + Rank Mirror Enable. + PSU_DDR_PHY_RDIMMGCR0_RNKMRREN 0x2 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_RDIMMGCR0_RESERVED_3 0x0 + + Stop on Parity Error + PSU_DDR_PHY_RDIMMGCR0_SOPERR 0x0 + + Parity Error No Registering + PSU_DDR_PHY_RDIMMGCR0_ERRNOREG 0x0 + + Registered DIMM + PSU_DDR_PHY_RDIMMGCR0_RDIMM 0x0 + + RDIMM General Configuration Register 0 + (OFFSET, MASK, VALUE) (0XFD080140, 0xFFFFFFFFU ,0x08400020U) + RegMask = (DDR_PHY_RDIMMGCR0_RESERVED_31_MASK | DDR_PHY_RDIMMGCR0_QCSEN_MASK | DDR_PHY_RDIMMGCR0_RESERVED_29_28_MASK | DDR_PHY_RDIMMGCR0_RDIMMIOM_MASK | DDR_PHY_RDIMMGCR0_RESERVED_26_24_MASK | DDR_PHY_RDIMMGCR0_ERROUTOE_MASK | DDR_PHY_RDIMMGCR0_ERROUTIOM_MASK | DDR_PHY_RDIMMGCR0_ERROUTPDR_MASK | DDR_PHY_RDIMMGCR0_RESERVED_20_MASK | DDR_PHY_RDIMMGCR0_ERROUTODT_MASK | DDR_PHY_RDIMMGCR0_LRDIMM_MASK | DDR_PHY_RDIMMGCR0_PARINIOM_MASK | DDR_PHY_RDIMMGCR0_RESERVED_16_8_MASK | DDR_PHY_RDIMMGCR0_RNKMRREN_RSVD_MASK | DDR_PHY_RDIMMGCR0_RNKMRREN_MASK | DDR_PHY_RDIMMGCR0_RESERVED_3_MASK | DDR_PHY_RDIMMGCR0_SOPERR_MASK | DDR_PHY_RDIMMGCR0_ERRNOREG_MASK | DDR_PHY_RDIMMGCR0_RDIMM_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_RDIMMGCR0_RESERVED_31_SHIFT + | 0x00000000U << DDR_PHY_RDIMMGCR0_QCSEN_SHIFT + | 0x00000000U << DDR_PHY_RDIMMGCR0_RESERVED_29_28_SHIFT + | 0x00000001U << DDR_PHY_RDIMMGCR0_RDIMMIOM_SHIFT + | 0x00000000U << DDR_PHY_RDIMMGCR0_RESERVED_26_24_SHIFT + | 0x00000000U << DDR_PHY_RDIMMGCR0_ERROUTOE_SHIFT + | 0x00000001U << DDR_PHY_RDIMMGCR0_ERROUTIOM_SHIFT + | 0x00000000U << DDR_PHY_RDIMMGCR0_ERROUTPDR_SHIFT + | 0x00000000U << DDR_PHY_RDIMMGCR0_RESERVED_20_SHIFT + | 0x00000000U << DDR_PHY_RDIMMGCR0_ERROUTODT_SHIFT + | 0x00000000U << DDR_PHY_RDIMMGCR0_LRDIMM_SHIFT + | 0x00000000U << DDR_PHY_RDIMMGCR0_PARINIOM_SHIFT + | 0x00000000U << DDR_PHY_RDIMMGCR0_RESERVED_16_8_SHIFT + | 0x00000000U << DDR_PHY_RDIMMGCR0_RNKMRREN_RSVD_SHIFT + | 0x00000002U << DDR_PHY_RDIMMGCR0_RNKMRREN_SHIFT + | 0x00000000U << DDR_PHY_RDIMMGCR0_RESERVED_3_SHIFT + | 0x00000000U << DDR_PHY_RDIMMGCR0_SOPERR_SHIFT + | 0x00000000U << DDR_PHY_RDIMMGCR0_ERRNOREG_SHIFT + | 0x00000000U << DDR_PHY_RDIMMGCR0_RDIMM_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_RDIMMGCR0_OFFSET ,0xFFFFFFFFU ,0x08400020U); + /*############################################################################################################################ */ + + /*Register : RDIMMGCR1 @ 0XFD080144

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_RDIMMGCR1_RESERVED_31_29 0x0 + + Address [17] B-side Inversion Disable + PSU_DDR_PHY_RDIMMGCR1_A17BID 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_RDIMMGCR1_RESERVED_27 0x0 + + Command word to command word programming delay + PSU_DDR_PHY_RDIMMGCR1_TBCMRD_L2 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_RDIMMGCR1_RESERVED_23 0x0 + + Command word to command word programming delay + PSU_DDR_PHY_RDIMMGCR1_TBCMRD_L 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_RDIMMGCR1_RESERVED_19 0x0 + + Command word to command word programming delay + PSU_DDR_PHY_RDIMMGCR1_TBCMRD 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_RDIMMGCR1_RESERVED_15_14 0x0 + + Stabilization time + PSU_DDR_PHY_RDIMMGCR1_TBCSTAB 0xc80 + + RDIMM General Configuration Register 1 + (OFFSET, MASK, VALUE) (0XFD080144, 0xFFFFFFFFU ,0x00000C80U) + RegMask = (DDR_PHY_RDIMMGCR1_RESERVED_31_29_MASK | DDR_PHY_RDIMMGCR1_A17BID_MASK | DDR_PHY_RDIMMGCR1_RESERVED_27_MASK | DDR_PHY_RDIMMGCR1_TBCMRD_L2_MASK | DDR_PHY_RDIMMGCR1_RESERVED_23_MASK | DDR_PHY_RDIMMGCR1_TBCMRD_L_MASK | DDR_PHY_RDIMMGCR1_RESERVED_19_MASK | DDR_PHY_RDIMMGCR1_TBCMRD_MASK | DDR_PHY_RDIMMGCR1_RESERVED_15_14_MASK | DDR_PHY_RDIMMGCR1_TBCSTAB_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_RDIMMGCR1_RESERVED_31_29_SHIFT + | 0x00000000U << DDR_PHY_RDIMMGCR1_A17BID_SHIFT + | 0x00000000U << DDR_PHY_RDIMMGCR1_RESERVED_27_SHIFT + | 0x00000000U << DDR_PHY_RDIMMGCR1_TBCMRD_L2_SHIFT + | 0x00000000U << DDR_PHY_RDIMMGCR1_RESERVED_23_SHIFT + | 0x00000000U << DDR_PHY_RDIMMGCR1_TBCMRD_L_SHIFT + | 0x00000000U << DDR_PHY_RDIMMGCR1_RESERVED_19_SHIFT + | 0x00000000U << DDR_PHY_RDIMMGCR1_TBCMRD_SHIFT + | 0x00000000U << DDR_PHY_RDIMMGCR1_RESERVED_15_14_SHIFT + | 0x00000C80U << DDR_PHY_RDIMMGCR1_TBCSTAB_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_RDIMMGCR1_OFFSET ,0xFFFFFFFFU ,0x00000C80U); + /*############################################################################################################################ */ + + /*Register : RDIMMCR0 @ 0XFD080150

+ + DDR4/DDR3 Control Word 7 + PSU_DDR_PHY_RDIMMCR0_RC7 0x0 + + DDR4 Control Word 6 (Comman space Control Word) / DDR3 Reserved + PSU_DDR_PHY_RDIMMCR0_RC6 0x0 + + DDR4/DDR3 Control Word 5 (CK Driver Characteristics Control Word) + PSU_DDR_PHY_RDIMMCR0_RC5 0x0 + + DDR4 Control Word 4 (ODT and CKE Signals Driver Characteristics Control Word) / DDR3 Control Word 4 (Control Signals Driver C + aracteristics Control Word) + PSU_DDR_PHY_RDIMMCR0_RC4 0x0 + + DDR4 Control Word 3 (CA and CS Signals Driver Characteristics Control Word) / DDR3 Control Word 3 (Command/Address Signals Dr + ver Characteristrics Control Word) + PSU_DDR_PHY_RDIMMCR0_RC3 0x0 + + DDR4 Control Word 2 (Timing and IBT Control Word) / DDR3 Control Word 2 (Timing Control Word) + PSU_DDR_PHY_RDIMMCR0_RC2 0x0 + + DDR4/DDR3 Control Word 1 (Clock Driver Enable Control Word) + PSU_DDR_PHY_RDIMMCR0_RC1 0x0 + + DDR4/DDR3 Control Word 0 (Global Features Control Word) + PSU_DDR_PHY_RDIMMCR0_RC0 0x0 + + RDIMM Control Register 0 + (OFFSET, MASK, VALUE) (0XFD080150, 0xFFFFFFFFU ,0x00000000U) + RegMask = (DDR_PHY_RDIMMCR0_RC7_MASK | DDR_PHY_RDIMMCR0_RC6_MASK | DDR_PHY_RDIMMCR0_RC5_MASK | DDR_PHY_RDIMMCR0_RC4_MASK | DDR_PHY_RDIMMCR0_RC3_MASK | DDR_PHY_RDIMMCR0_RC2_MASK | DDR_PHY_RDIMMCR0_RC1_MASK | DDR_PHY_RDIMMCR0_RC0_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_RDIMMCR0_RC7_SHIFT + | 0x00000000U << DDR_PHY_RDIMMCR0_RC6_SHIFT + | 0x00000000U << DDR_PHY_RDIMMCR0_RC5_SHIFT + | 0x00000000U << DDR_PHY_RDIMMCR0_RC4_SHIFT + | 0x00000000U << DDR_PHY_RDIMMCR0_RC3_SHIFT + | 0x00000000U << DDR_PHY_RDIMMCR0_RC2_SHIFT + | 0x00000000U << DDR_PHY_RDIMMCR0_RC1_SHIFT + | 0x00000000U << DDR_PHY_RDIMMCR0_RC0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_RDIMMCR0_OFFSET ,0xFFFFFFFFU ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : RDIMMCR1 @ 0XFD080154

+ + Control Word 15 + PSU_DDR_PHY_RDIMMCR1_RC15 0x0 + + DDR4 Control Word 14 (Parity Control Word) / DDR3 Reserved + PSU_DDR_PHY_RDIMMCR1_RC14 0x0 + + DDR4 Control Word 13 (DIMM Configuration Control Word) / DDR3 Reserved + PSU_DDR_PHY_RDIMMCR1_RC13 0x0 + + DDR4 Control Word 12 (Training Control Word) / DDR3 Reserved + PSU_DDR_PHY_RDIMMCR1_RC12 0x0 + + DDR4 Control Word 11 (Operating Voltage VDD and VREFCA Source Control Word) / DDR3 Control Word 11 (Operation Voltage VDD Con + rol Word) + PSU_DDR_PHY_RDIMMCR1_RC11 0x0 + + DDR4/DDR3 Control Word 10 (RDIMM Operating Speed Control Word) + PSU_DDR_PHY_RDIMMCR1_RC10 0x2 + + DDR4/DDR3 Control Word 9 (Power Saving Settings Control Word) + PSU_DDR_PHY_RDIMMCR1_RC9 0x0 + + DDR4 Control Word 8 (Input/Output Configuration Control Word) / DDR3 Control Word 8 (Additional Input Bus Termination Setting + Control Word) + PSU_DDR_PHY_RDIMMCR1_RC8 0x0 + + RDIMM Control Register 1 + (OFFSET, MASK, VALUE) (0XFD080154, 0xFFFFFFFFU ,0x00000200U) + RegMask = (DDR_PHY_RDIMMCR1_RC15_MASK | DDR_PHY_RDIMMCR1_RC14_MASK | DDR_PHY_RDIMMCR1_RC13_MASK | DDR_PHY_RDIMMCR1_RC12_MASK | DDR_PHY_RDIMMCR1_RC11_MASK | DDR_PHY_RDIMMCR1_RC10_MASK | DDR_PHY_RDIMMCR1_RC9_MASK | DDR_PHY_RDIMMCR1_RC8_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_RDIMMCR1_RC15_SHIFT + | 0x00000000U << DDR_PHY_RDIMMCR1_RC14_SHIFT + | 0x00000000U << DDR_PHY_RDIMMCR1_RC13_SHIFT + | 0x00000000U << DDR_PHY_RDIMMCR1_RC12_SHIFT + | 0x00000000U << DDR_PHY_RDIMMCR1_RC11_SHIFT + | 0x00000002U << DDR_PHY_RDIMMCR1_RC10_SHIFT + | 0x00000000U << DDR_PHY_RDIMMCR1_RC9_SHIFT + | 0x00000000U << DDR_PHY_RDIMMCR1_RC8_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_RDIMMCR1_OFFSET ,0xFFFFFFFFU ,0x00000200U); + /*############################################################################################################################ */ + + /*Register : MR0 @ 0XFD080180

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_MR0_RESERVED_31_8 0x8 + + CA Terminating Rank + PSU_DDR_PHY_MR0_CATR 0x0 + + Reserved. These are JEDEC reserved bits and are recommended by JEDEC to be programmed to 0x0. + PSU_DDR_PHY_MR0_RSVD_6_5 0x1 + + Built-in Self-Test for RZQ + PSU_DDR_PHY_MR0_RZQI 0x2 + + Reserved. These are JEDEC reserved bits and are recommended by JEDEC to be programmed to 0x0. + PSU_DDR_PHY_MR0_RSVD_2_0 0x0 + + LPDDR4 Mode Register 0 + (OFFSET, MASK, VALUE) (0XFD080180, 0xFFFFFFFFU ,0x00000830U) + RegMask = (DDR_PHY_MR0_RESERVED_31_8_MASK | DDR_PHY_MR0_CATR_MASK | DDR_PHY_MR0_RSVD_6_5_MASK | DDR_PHY_MR0_RZQI_MASK | DDR_PHY_MR0_RSVD_2_0_MASK | 0 ); + + RegVal = ((0x00000008U << DDR_PHY_MR0_RESERVED_31_8_SHIFT + | 0x00000000U << DDR_PHY_MR0_CATR_SHIFT + | 0x00000001U << DDR_PHY_MR0_RSVD_6_5_SHIFT + | 0x00000002U << DDR_PHY_MR0_RZQI_SHIFT + | 0x00000000U << DDR_PHY_MR0_RSVD_2_0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_MR0_OFFSET ,0xFFFFFFFFU ,0x00000830U); + /*############################################################################################################################ */ + + /*Register : MR1 @ 0XFD080184

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_MR1_RESERVED_31_8 0x3 + + Read Postamble Length + PSU_DDR_PHY_MR1_RDPST 0x0 + + Write-recovery for auto-precharge command + PSU_DDR_PHY_MR1_NWR 0x0 + + Read Preamble Length + PSU_DDR_PHY_MR1_RDPRE 0x0 + + Write Preamble Length + PSU_DDR_PHY_MR1_WRPRE 0x0 + + Burst Length + PSU_DDR_PHY_MR1_BL 0x1 + + LPDDR4 Mode Register 1 + (OFFSET, MASK, VALUE) (0XFD080184, 0xFFFFFFFFU ,0x00000301U) + RegMask = (DDR_PHY_MR1_RESERVED_31_8_MASK | DDR_PHY_MR1_RDPST_MASK | DDR_PHY_MR1_NWR_MASK | DDR_PHY_MR1_RDPRE_MASK | DDR_PHY_MR1_WRPRE_MASK | DDR_PHY_MR1_BL_MASK | 0 ); + + RegVal = ((0x00000003U << DDR_PHY_MR1_RESERVED_31_8_SHIFT + | 0x00000000U << DDR_PHY_MR1_RDPST_SHIFT + | 0x00000000U << DDR_PHY_MR1_NWR_SHIFT + | 0x00000000U << DDR_PHY_MR1_RDPRE_SHIFT + | 0x00000000U << DDR_PHY_MR1_WRPRE_SHIFT + | 0x00000001U << DDR_PHY_MR1_BL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_MR1_OFFSET ,0xFFFFFFFFU ,0x00000301U); + /*############################################################################################################################ */ + + /*Register : MR2 @ 0XFD080188

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_MR2_RESERVED_31_8 0x0 + + Write Leveling + PSU_DDR_PHY_MR2_WRL 0x0 + + Write Latency Set + PSU_DDR_PHY_MR2_WLS 0x0 + + Write Latency + PSU_DDR_PHY_MR2_WL 0x4 + + Read Latency + PSU_DDR_PHY_MR2_RL 0x0 + + LPDDR4 Mode Register 2 + (OFFSET, MASK, VALUE) (0XFD080188, 0xFFFFFFFFU ,0x00000020U) + RegMask = (DDR_PHY_MR2_RESERVED_31_8_MASK | DDR_PHY_MR2_WRL_MASK | DDR_PHY_MR2_WLS_MASK | DDR_PHY_MR2_WL_MASK | DDR_PHY_MR2_RL_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_MR2_RESERVED_31_8_SHIFT + | 0x00000000U << DDR_PHY_MR2_WRL_SHIFT + | 0x00000000U << DDR_PHY_MR2_WLS_SHIFT + | 0x00000004U << DDR_PHY_MR2_WL_SHIFT + | 0x00000000U << DDR_PHY_MR2_RL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_MR2_OFFSET ,0xFFFFFFFFU ,0x00000020U); + /*############################################################################################################################ */ + + /*Register : MR3 @ 0XFD08018C

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_MR3_RESERVED_31_8 0x2 + + DBI-Write Enable + PSU_DDR_PHY_MR3_DBIWR 0x0 + + DBI-Read Enable + PSU_DDR_PHY_MR3_DBIRD 0x0 + + Pull-down Drive Strength + PSU_DDR_PHY_MR3_PDDS 0x0 + + These are JEDEC reserved bits and are recommended by JEDEC to be programmed to 0x0. + PSU_DDR_PHY_MR3_RSVD 0x0 + + Write Postamble Length + PSU_DDR_PHY_MR3_WRPST 0x0 + + Pull-up Calibration Point + PSU_DDR_PHY_MR3_PUCAL 0x0 + + LPDDR4 Mode Register 3 + (OFFSET, MASK, VALUE) (0XFD08018C, 0xFFFFFFFFU ,0x00000200U) + RegMask = (DDR_PHY_MR3_RESERVED_31_8_MASK | DDR_PHY_MR3_DBIWR_MASK | DDR_PHY_MR3_DBIRD_MASK | DDR_PHY_MR3_PDDS_MASK | DDR_PHY_MR3_RSVD_MASK | DDR_PHY_MR3_WRPST_MASK | DDR_PHY_MR3_PUCAL_MASK | 0 ); + + RegVal = ((0x00000002U << DDR_PHY_MR3_RESERVED_31_8_SHIFT + | 0x00000000U << DDR_PHY_MR3_DBIWR_SHIFT + | 0x00000000U << DDR_PHY_MR3_DBIRD_SHIFT + | 0x00000000U << DDR_PHY_MR3_PDDS_SHIFT + | 0x00000000U << DDR_PHY_MR3_RSVD_SHIFT + | 0x00000000U << DDR_PHY_MR3_WRPST_SHIFT + | 0x00000000U << DDR_PHY_MR3_PUCAL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_MR3_OFFSET ,0xFFFFFFFFU ,0x00000200U); + /*############################################################################################################################ */ + + /*Register : MR4 @ 0XFD080190

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_MR4_RESERVED_31_16 0x0 + + These are JEDEC reserved bits and are recommended by JEDEC to be programmed to 0x0. + PSU_DDR_PHY_MR4_RSVD_15_13 0x0 + + Write Preamble + PSU_DDR_PHY_MR4_WRP 0x0 + + Read Preamble + PSU_DDR_PHY_MR4_RDP 0x0 + + Read Preamble Training Mode + PSU_DDR_PHY_MR4_RPTM 0x0 + + Self Refresh Abort + PSU_DDR_PHY_MR4_SRA 0x0 + + CS to Command Latency Mode + PSU_DDR_PHY_MR4_CS2CMDL 0x0 + + These are JEDEC reserved bits and are recommended by JEDEC to be programmed to 0x0. + PSU_DDR_PHY_MR4_RSVD1 0x0 + + Internal VREF Monitor + PSU_DDR_PHY_MR4_IVM 0x0 + + Temperature Controlled Refresh Mode + PSU_DDR_PHY_MR4_TCRM 0x0 + + Temperature Controlled Refresh Range + PSU_DDR_PHY_MR4_TCRR 0x0 + + Maximum Power Down Mode + PSU_DDR_PHY_MR4_MPDM 0x0 + + This is a JEDEC reserved bit and is recommended by JEDEC to be programmed to 0x0. + PSU_DDR_PHY_MR4_RSVD_0 0x0 + + DDR4 Mode Register 4 + (OFFSET, MASK, VALUE) (0XFD080190, 0xFFFFFFFFU ,0x00000000U) + RegMask = (DDR_PHY_MR4_RESERVED_31_16_MASK | DDR_PHY_MR4_RSVD_15_13_MASK | DDR_PHY_MR4_WRP_MASK | DDR_PHY_MR4_RDP_MASK | DDR_PHY_MR4_RPTM_MASK | DDR_PHY_MR4_SRA_MASK | DDR_PHY_MR4_CS2CMDL_MASK | DDR_PHY_MR4_RSVD1_MASK | DDR_PHY_MR4_IVM_MASK | DDR_PHY_MR4_TCRM_MASK | DDR_PHY_MR4_TCRR_MASK | DDR_PHY_MR4_MPDM_MASK | DDR_PHY_MR4_RSVD_0_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_MR4_RESERVED_31_16_SHIFT + | 0x00000000U << DDR_PHY_MR4_RSVD_15_13_SHIFT + | 0x00000000U << DDR_PHY_MR4_WRP_SHIFT + | 0x00000000U << DDR_PHY_MR4_RDP_SHIFT + | 0x00000000U << DDR_PHY_MR4_RPTM_SHIFT + | 0x00000000U << DDR_PHY_MR4_SRA_SHIFT + | 0x00000000U << DDR_PHY_MR4_CS2CMDL_SHIFT + | 0x00000000U << DDR_PHY_MR4_RSVD1_SHIFT + | 0x00000000U << DDR_PHY_MR4_IVM_SHIFT + | 0x00000000U << DDR_PHY_MR4_TCRM_SHIFT + | 0x00000000U << DDR_PHY_MR4_TCRR_SHIFT + | 0x00000000U << DDR_PHY_MR4_MPDM_SHIFT + | 0x00000000U << DDR_PHY_MR4_RSVD_0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_MR4_OFFSET ,0xFFFFFFFFU ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : MR5 @ 0XFD080194

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_MR5_RESERVED_31_16 0x0 + + These are JEDEC reserved bits and are recommended by JEDEC to be programmed to 0x0. + PSU_DDR_PHY_MR5_RSVD 0x0 + + Read DBI + PSU_DDR_PHY_MR5_RDBI 0x0 + + Write DBI + PSU_DDR_PHY_MR5_WDBI 0x0 + + Data Mask + PSU_DDR_PHY_MR5_DM 0x1 + + CA Parity Persistent Error + PSU_DDR_PHY_MR5_CAPPE 0x1 + + RTT_PARK + PSU_DDR_PHY_MR5_RTTPARK 0x3 + + ODT Input Buffer during Power Down mode + PSU_DDR_PHY_MR5_ODTIBPD 0x0 + + C/A Parity Error Status + PSU_DDR_PHY_MR5_CAPES 0x0 + + CRC Error Clear + PSU_DDR_PHY_MR5_CRCEC 0x0 + + C/A Parity Latency Mode + PSU_DDR_PHY_MR5_CAPM 0x0 + + DDR4 Mode Register 5 + (OFFSET, MASK, VALUE) (0XFD080194, 0xFFFFFFFFU ,0x000006C0U) + RegMask = (DDR_PHY_MR5_RESERVED_31_16_MASK | DDR_PHY_MR5_RSVD_MASK | DDR_PHY_MR5_RDBI_MASK | DDR_PHY_MR5_WDBI_MASK | DDR_PHY_MR5_DM_MASK | DDR_PHY_MR5_CAPPE_MASK | DDR_PHY_MR5_RTTPARK_MASK | DDR_PHY_MR5_ODTIBPD_MASK | DDR_PHY_MR5_CAPES_MASK | DDR_PHY_MR5_CRCEC_MASK | DDR_PHY_MR5_CAPM_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_MR5_RESERVED_31_16_SHIFT + | 0x00000000U << DDR_PHY_MR5_RSVD_SHIFT + | 0x00000000U << DDR_PHY_MR5_RDBI_SHIFT + | 0x00000000U << DDR_PHY_MR5_WDBI_SHIFT + | 0x00000001U << DDR_PHY_MR5_DM_SHIFT + | 0x00000001U << DDR_PHY_MR5_CAPPE_SHIFT + | 0x00000003U << DDR_PHY_MR5_RTTPARK_SHIFT + | 0x00000000U << DDR_PHY_MR5_ODTIBPD_SHIFT + | 0x00000000U << DDR_PHY_MR5_CAPES_SHIFT + | 0x00000000U << DDR_PHY_MR5_CRCEC_SHIFT + | 0x00000000U << DDR_PHY_MR5_CAPM_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_MR5_OFFSET ,0xFFFFFFFFU ,0x000006C0U); + /*############################################################################################################################ */ + + /*Register : MR6 @ 0XFD080198

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_MR6_RESERVED_31_16 0x0 + + These are JEDEC reserved bits and are recommended by JEDEC to be programmed to 0x0. + PSU_DDR_PHY_MR6_RSVD_15_13 0x0 + + CAS_n to CAS_n command delay for same bank group (tCCD_L) + PSU_DDR_PHY_MR6_TCCDL 0x2 + + These are JEDEC reserved bits and are recommended by JEDEC to be programmed to 0x0. + PSU_DDR_PHY_MR6_RSVD_9_8 0x0 + + VrefDQ Training Enable + PSU_DDR_PHY_MR6_VDDQTEN 0x0 + + VrefDQ Training Range + PSU_DDR_PHY_MR6_VDQTRG 0x0 + + VrefDQ Training Values + PSU_DDR_PHY_MR6_VDQTVAL 0x19 + + DDR4 Mode Register 6 + (OFFSET, MASK, VALUE) (0XFD080198, 0xFFFFFFFFU ,0x00000819U) + RegMask = (DDR_PHY_MR6_RESERVED_31_16_MASK | DDR_PHY_MR6_RSVD_15_13_MASK | DDR_PHY_MR6_TCCDL_MASK | DDR_PHY_MR6_RSVD_9_8_MASK | DDR_PHY_MR6_VDDQTEN_MASK | DDR_PHY_MR6_VDQTRG_MASK | DDR_PHY_MR6_VDQTVAL_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_MR6_RESERVED_31_16_SHIFT + | 0x00000000U << DDR_PHY_MR6_RSVD_15_13_SHIFT + | 0x00000002U << DDR_PHY_MR6_TCCDL_SHIFT + | 0x00000000U << DDR_PHY_MR6_RSVD_9_8_SHIFT + | 0x00000000U << DDR_PHY_MR6_VDDQTEN_SHIFT + | 0x00000000U << DDR_PHY_MR6_VDQTRG_SHIFT + | 0x00000019U << DDR_PHY_MR6_VDQTVAL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_MR6_OFFSET ,0xFFFFFFFFU ,0x00000819U); + /*############################################################################################################################ */ + + /*Register : MR11 @ 0XFD0801AC

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_MR11_RESERVED_31_8 0x0 + + These are JEDEC reserved bits and are recommended by JEDEC to be programmed to 0x0. + PSU_DDR_PHY_MR11_RSVD 0x0 + + Power Down Control + PSU_DDR_PHY_MR11_PDCTL 0x0 + + DQ Bus Receiver On-Die-Termination + PSU_DDR_PHY_MR11_DQODT 0x0 + + LPDDR4 Mode Register 11 + (OFFSET, MASK, VALUE) (0XFD0801AC, 0xFFFFFFFFU ,0x00000000U) + RegMask = (DDR_PHY_MR11_RESERVED_31_8_MASK | DDR_PHY_MR11_RSVD_MASK | DDR_PHY_MR11_PDCTL_MASK | DDR_PHY_MR11_DQODT_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_MR11_RESERVED_31_8_SHIFT + | 0x00000000U << DDR_PHY_MR11_RSVD_SHIFT + | 0x00000000U << DDR_PHY_MR11_PDCTL_SHIFT + | 0x00000000U << DDR_PHY_MR11_DQODT_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_MR11_OFFSET ,0xFFFFFFFFU ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : MR12 @ 0XFD0801B0

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_MR12_RESERVED_31_8 0x0 + + These are JEDEC reserved bits and are recommended by JEDEC to be programmed to 0x0. + PSU_DDR_PHY_MR12_RSVD 0x0 + + VREF_CA Range Select. + PSU_DDR_PHY_MR12_VR_CA 0x1 + + Controls the VREF(ca) levels for Frequency-Set-Point[1:0]. + PSU_DDR_PHY_MR12_VREF_CA 0xd + + LPDDR4 Mode Register 12 + (OFFSET, MASK, VALUE) (0XFD0801B0, 0xFFFFFFFFU ,0x0000004DU) + RegMask = (DDR_PHY_MR12_RESERVED_31_8_MASK | DDR_PHY_MR12_RSVD_MASK | DDR_PHY_MR12_VR_CA_MASK | DDR_PHY_MR12_VREF_CA_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_MR12_RESERVED_31_8_SHIFT + | 0x00000000U << DDR_PHY_MR12_RSVD_SHIFT + | 0x00000001U << DDR_PHY_MR12_VR_CA_SHIFT + | 0x0000000DU << DDR_PHY_MR12_VREF_CA_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_MR12_OFFSET ,0xFFFFFFFFU ,0x0000004DU); + /*############################################################################################################################ */ + + /*Register : MR13 @ 0XFD0801B4

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_MR13_RESERVED_31_8 0x0 + + Frequency Set Point Operation Mode + PSU_DDR_PHY_MR13_FSPOP 0x0 + + Frequency Set Point Write Enable + PSU_DDR_PHY_MR13_FSPWR 0x0 + + Data Mask Enable + PSU_DDR_PHY_MR13_DMD 0x0 + + Refresh Rate Option + PSU_DDR_PHY_MR13_RRO 0x0 + + VREF Current Generator + PSU_DDR_PHY_MR13_VRCG 0x1 + + VREF Output + PSU_DDR_PHY_MR13_VRO 0x0 + + Read Preamble Training Mode + PSU_DDR_PHY_MR13_RPT 0x0 + + Command Bus Training + PSU_DDR_PHY_MR13_CBT 0x0 + + LPDDR4 Mode Register 13 + (OFFSET, MASK, VALUE) (0XFD0801B4, 0xFFFFFFFFU ,0x00000008U) + RegMask = (DDR_PHY_MR13_RESERVED_31_8_MASK | DDR_PHY_MR13_FSPOP_MASK | DDR_PHY_MR13_FSPWR_MASK | DDR_PHY_MR13_DMD_MASK | DDR_PHY_MR13_RRO_MASK | DDR_PHY_MR13_VRCG_MASK | DDR_PHY_MR13_VRO_MASK | DDR_PHY_MR13_RPT_MASK | DDR_PHY_MR13_CBT_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_MR13_RESERVED_31_8_SHIFT + | 0x00000000U << DDR_PHY_MR13_FSPOP_SHIFT + | 0x00000000U << DDR_PHY_MR13_FSPWR_SHIFT + | 0x00000000U << DDR_PHY_MR13_DMD_SHIFT + | 0x00000000U << DDR_PHY_MR13_RRO_SHIFT + | 0x00000001U << DDR_PHY_MR13_VRCG_SHIFT + | 0x00000000U << DDR_PHY_MR13_VRO_SHIFT + | 0x00000000U << DDR_PHY_MR13_RPT_SHIFT + | 0x00000000U << DDR_PHY_MR13_CBT_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_MR13_OFFSET ,0xFFFFFFFFU ,0x00000008U); + /*############################################################################################################################ */ + + /*Register : MR14 @ 0XFD0801B8

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_MR14_RESERVED_31_8 0x0 + + These are JEDEC reserved bits and are recommended by JEDEC to be programmed to 0x0. + PSU_DDR_PHY_MR14_RSVD 0x0 + + VREFDQ Range Selects. + PSU_DDR_PHY_MR14_VR_DQ 0x1 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_MR14_VREF_DQ 0xd + + LPDDR4 Mode Register 14 + (OFFSET, MASK, VALUE) (0XFD0801B8, 0xFFFFFFFFU ,0x0000004DU) + RegMask = (DDR_PHY_MR14_RESERVED_31_8_MASK | DDR_PHY_MR14_RSVD_MASK | DDR_PHY_MR14_VR_DQ_MASK | DDR_PHY_MR14_VREF_DQ_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_MR14_RESERVED_31_8_SHIFT + | 0x00000000U << DDR_PHY_MR14_RSVD_SHIFT + | 0x00000001U << DDR_PHY_MR14_VR_DQ_SHIFT + | 0x0000000DU << DDR_PHY_MR14_VREF_DQ_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_MR14_OFFSET ,0xFFFFFFFFU ,0x0000004DU); + /*############################################################################################################################ */ + + /*Register : MR22 @ 0XFD0801D8

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_MR22_RESERVED_31_8 0x0 + + These are JEDEC reserved bits and are recommended by JEDEC to be programmed to 0x0. + PSU_DDR_PHY_MR22_RSVD 0x0 + + CA ODT termination disable. + PSU_DDR_PHY_MR22_ODTD_CA 0x0 + + ODT CS override. + PSU_DDR_PHY_MR22_ODTE_CS 0x0 + + ODT CK override. + PSU_DDR_PHY_MR22_ODTE_CK 0x0 + + Controller ODT value for VOH calibration. + PSU_DDR_PHY_MR22_CODT 0x0 + + LPDDR4 Mode Register 22 + (OFFSET, MASK, VALUE) (0XFD0801D8, 0xFFFFFFFFU ,0x00000000U) + RegMask = (DDR_PHY_MR22_RESERVED_31_8_MASK | DDR_PHY_MR22_RSVD_MASK | DDR_PHY_MR22_ODTD_CA_MASK | DDR_PHY_MR22_ODTE_CS_MASK | DDR_PHY_MR22_ODTE_CK_MASK | DDR_PHY_MR22_CODT_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_MR22_RESERVED_31_8_SHIFT + | 0x00000000U << DDR_PHY_MR22_RSVD_SHIFT + | 0x00000000U << DDR_PHY_MR22_ODTD_CA_SHIFT + | 0x00000000U << DDR_PHY_MR22_ODTE_CS_SHIFT + | 0x00000000U << DDR_PHY_MR22_ODTE_CK_SHIFT + | 0x00000000U << DDR_PHY_MR22_CODT_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_MR22_OFFSET ,0xFFFFFFFFU ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : DTCR0 @ 0XFD080200

+ + Refresh During Training + PSU_DDR_PHY_DTCR0_RFSHDT 0x8 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DTCR0_RESERVED_27_26 0x0 + + Data Training Debug Rank Select + PSU_DDR_PHY_DTCR0_DTDRS 0x0 + + Data Training with Early/Extended Gate + PSU_DDR_PHY_DTCR0_DTEXG 0x0 + + Data Training Extended Write DQS + PSU_DDR_PHY_DTCR0_DTEXD 0x0 + + Data Training Debug Step + PSU_DDR_PHY_DTCR0_DTDSTP 0x0 + + Data Training Debug Enable + PSU_DDR_PHY_DTCR0_DTDEN 0x0 + + Data Training Debug Byte Select + PSU_DDR_PHY_DTCR0_DTDBS 0x0 + + Data Training read DBI deskewing configuration + PSU_DDR_PHY_DTCR0_DTRDBITR 0x2 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DTCR0_RESERVED_13 0x0 + + Data Training Write Bit Deskew Data Mask + PSU_DDR_PHY_DTCR0_DTWBDDM 0x1 + + Refreshes Issued During Entry to Training + PSU_DDR_PHY_DTCR0_RFSHEN 0x1 + + Data Training Compare Data + PSU_DDR_PHY_DTCR0_DTCMPD 0x1 + + Data Training Using MPR + PSU_DDR_PHY_DTCR0_DTMPR 0x1 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DTCR0_RESERVED_5_4 0x0 + + Data Training Repeat Number + PSU_DDR_PHY_DTCR0_DTRPTN 0x7 + + Data Training Configuration Register 0 + (OFFSET, MASK, VALUE) (0XFD080200, 0xFFFFFFFFU ,0x800091C7U) + RegMask = (DDR_PHY_DTCR0_RFSHDT_MASK | DDR_PHY_DTCR0_RESERVED_27_26_MASK | DDR_PHY_DTCR0_DTDRS_MASK | DDR_PHY_DTCR0_DTEXG_MASK | DDR_PHY_DTCR0_DTEXD_MASK | DDR_PHY_DTCR0_DTDSTP_MASK | DDR_PHY_DTCR0_DTDEN_MASK | DDR_PHY_DTCR0_DTDBS_MASK | DDR_PHY_DTCR0_DTRDBITR_MASK | DDR_PHY_DTCR0_RESERVED_13_MASK | DDR_PHY_DTCR0_DTWBDDM_MASK | DDR_PHY_DTCR0_RFSHEN_MASK | DDR_PHY_DTCR0_DTCMPD_MASK | DDR_PHY_DTCR0_DTMPR_MASK | DDR_PHY_DTCR0_RESERVED_5_4_MASK | DDR_PHY_DTCR0_DTRPTN_MASK | 0 ); + + RegVal = ((0x00000008U << DDR_PHY_DTCR0_RFSHDT_SHIFT + | 0x00000000U << DDR_PHY_DTCR0_RESERVED_27_26_SHIFT + | 0x00000000U << DDR_PHY_DTCR0_DTDRS_SHIFT + | 0x00000000U << DDR_PHY_DTCR0_DTEXG_SHIFT + | 0x00000000U << DDR_PHY_DTCR0_DTEXD_SHIFT + | 0x00000000U << DDR_PHY_DTCR0_DTDSTP_SHIFT + | 0x00000000U << DDR_PHY_DTCR0_DTDEN_SHIFT + | 0x00000000U << DDR_PHY_DTCR0_DTDBS_SHIFT + | 0x00000002U << DDR_PHY_DTCR0_DTRDBITR_SHIFT + | 0x00000000U << DDR_PHY_DTCR0_RESERVED_13_SHIFT + | 0x00000001U << DDR_PHY_DTCR0_DTWBDDM_SHIFT + | 0x00000001U << DDR_PHY_DTCR0_RFSHEN_SHIFT + | 0x00000001U << DDR_PHY_DTCR0_DTCMPD_SHIFT + | 0x00000001U << DDR_PHY_DTCR0_DTMPR_SHIFT + | 0x00000000U << DDR_PHY_DTCR0_RESERVED_5_4_SHIFT + | 0x00000007U << DDR_PHY_DTCR0_DTRPTN_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DTCR0_OFFSET ,0xFFFFFFFFU ,0x800091C7U); + /*############################################################################################################################ */ + + /*Register : DTCR1 @ 0XFD080204

+ + Rank Enable. + PSU_DDR_PHY_DTCR1_RANKEN_RSVD 0x0 + + Rank Enable. + PSU_DDR_PHY_DTCR1_RANKEN 0x1 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DTCR1_RESERVED_15_14 0x0 + + Data Training Rank + PSU_DDR_PHY_DTCR1_DTRANK 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DTCR1_RESERVED_11 0x0 + + Read Leveling Gate Sampling Difference + PSU_DDR_PHY_DTCR1_RDLVLGDIFF 0x2 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DTCR1_RESERVED_7 0x0 + + Read Leveling Gate Shift + PSU_DDR_PHY_DTCR1_RDLVLGS 0x3 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DTCR1_RESERVED_3 0x0 + + Read Preamble Training enable + PSU_DDR_PHY_DTCR1_RDPRMVL_TRN 0x1 + + Read Leveling Enable + PSU_DDR_PHY_DTCR1_RDLVLEN 0x1 + + Basic Gate Training Enable + PSU_DDR_PHY_DTCR1_BSTEN 0x0 + + Data Training Configuration Register 1 + (OFFSET, MASK, VALUE) (0XFD080204, 0xFFFFFFFFU ,0x00010236U) + RegMask = (DDR_PHY_DTCR1_RANKEN_RSVD_MASK | DDR_PHY_DTCR1_RANKEN_MASK | DDR_PHY_DTCR1_RESERVED_15_14_MASK | DDR_PHY_DTCR1_DTRANK_MASK | DDR_PHY_DTCR1_RESERVED_11_MASK | DDR_PHY_DTCR1_RDLVLGDIFF_MASK | DDR_PHY_DTCR1_RESERVED_7_MASK | DDR_PHY_DTCR1_RDLVLGS_MASK | DDR_PHY_DTCR1_RESERVED_3_MASK | DDR_PHY_DTCR1_RDPRMVL_TRN_MASK | DDR_PHY_DTCR1_RDLVLEN_MASK | DDR_PHY_DTCR1_BSTEN_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DTCR1_RANKEN_RSVD_SHIFT + | 0x00000001U << DDR_PHY_DTCR1_RANKEN_SHIFT + | 0x00000000U << DDR_PHY_DTCR1_RESERVED_15_14_SHIFT + | 0x00000000U << DDR_PHY_DTCR1_DTRANK_SHIFT + | 0x00000000U << DDR_PHY_DTCR1_RESERVED_11_SHIFT + | 0x00000002U << DDR_PHY_DTCR1_RDLVLGDIFF_SHIFT + | 0x00000000U << DDR_PHY_DTCR1_RESERVED_7_SHIFT + | 0x00000003U << DDR_PHY_DTCR1_RDLVLGS_SHIFT + | 0x00000000U << DDR_PHY_DTCR1_RESERVED_3_SHIFT + | 0x00000001U << DDR_PHY_DTCR1_RDPRMVL_TRN_SHIFT + | 0x00000001U << DDR_PHY_DTCR1_RDLVLEN_SHIFT + | 0x00000000U << DDR_PHY_DTCR1_BSTEN_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DTCR1_OFFSET ,0xFFFFFFFFU ,0x00010236U); + /*############################################################################################################################ */ + + /*Register : CATR0 @ 0XFD080240

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_CATR0_RESERVED_31_21 0x0 + + Minimum time (in terms of number of dram clocks) between two consectuve CA calibration command + PSU_DDR_PHY_CATR0_CACD 0x14 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_CATR0_RESERVED_15_13 0x0 + + Minimum time (in terms of number of dram clocks) PUB should wait before sampling the CA response after Calibration command ha + been sent to the memory + PSU_DDR_PHY_CATR0_CAADR 0x10 + + CA_1 Response Byte Lane 1 + PSU_DDR_PHY_CATR0_CA1BYTE1 0x5 + + CA_1 Response Byte Lane 0 + PSU_DDR_PHY_CATR0_CA1BYTE0 0x4 + + CA Training Register 0 + (OFFSET, MASK, VALUE) (0XFD080240, 0xFFFFFFFFU ,0x00141054U) + RegMask = (DDR_PHY_CATR0_RESERVED_31_21_MASK | DDR_PHY_CATR0_CACD_MASK | DDR_PHY_CATR0_RESERVED_15_13_MASK | DDR_PHY_CATR0_CAADR_MASK | DDR_PHY_CATR0_CA1BYTE1_MASK | DDR_PHY_CATR0_CA1BYTE0_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_CATR0_RESERVED_31_21_SHIFT + | 0x00000014U << DDR_PHY_CATR0_CACD_SHIFT + | 0x00000000U << DDR_PHY_CATR0_RESERVED_15_13_SHIFT + | 0x00000010U << DDR_PHY_CATR0_CAADR_SHIFT + | 0x00000005U << DDR_PHY_CATR0_CA1BYTE1_SHIFT + | 0x00000004U << DDR_PHY_CATR0_CA1BYTE0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_CATR0_OFFSET ,0xFFFFFFFFU ,0x00141054U); + /*############################################################################################################################ */ + + /*Register : BISTLSR @ 0XFD080414

+ + LFSR seed for pseudo-random BIST patterns + PSU_DDR_PHY_BISTLSR_SEED 0x12341000 + + BIST LFSR Seed Register + (OFFSET, MASK, VALUE) (0XFD080414, 0xFFFFFFFFU ,0x12341000U) + RegMask = (DDR_PHY_BISTLSR_SEED_MASK | 0 ); + + RegVal = ((0x12341000U << DDR_PHY_BISTLSR_SEED_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_BISTLSR_OFFSET ,0xFFFFFFFFU ,0x12341000U); + /*############################################################################################################################ */ + + /*Register : RIOCR5 @ 0XFD0804F4

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_RIOCR5_RESERVED_31_16 0x0 + + Reserved. Return zeros on reads. + PSU_DDR_PHY_RIOCR5_ODTOEMODE_RSVD 0x0 + + SDRAM On-die Termination Output Enable (OE) Mode Selection. + PSU_DDR_PHY_RIOCR5_ODTOEMODE 0x5 + + Rank I/O Configuration Register 5 + (OFFSET, MASK, VALUE) (0XFD0804F4, 0xFFFFFFFFU ,0x00000005U) + RegMask = (DDR_PHY_RIOCR5_RESERVED_31_16_MASK | DDR_PHY_RIOCR5_ODTOEMODE_RSVD_MASK | DDR_PHY_RIOCR5_ODTOEMODE_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_RIOCR5_RESERVED_31_16_SHIFT + | 0x00000000U << DDR_PHY_RIOCR5_ODTOEMODE_RSVD_SHIFT + | 0x00000005U << DDR_PHY_RIOCR5_ODTOEMODE_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_RIOCR5_OFFSET ,0xFFFFFFFFU ,0x00000005U); + /*############################################################################################################################ */ + + /*Register : ACIOCR0 @ 0XFD080500

+ + Address/Command Slew Rate (D3F I/O Only) + PSU_DDR_PHY_ACIOCR0_ACSR 0x0 + + SDRAM Reset I/O Mode + PSU_DDR_PHY_ACIOCR0_RSTIOM 0x1 + + SDRAM Reset Power Down Receiver + PSU_DDR_PHY_ACIOCR0_RSTPDR 0x1 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_ACIOCR0_RESERVED_27 0x0 + + SDRAM Reset On-Die Termination + PSU_DDR_PHY_ACIOCR0_RSTODT 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_ACIOCR0_RESERVED_25_10 0x0 + + CK Duty Cycle Correction + PSU_DDR_PHY_ACIOCR0_CKDCC 0x0 + + AC Power Down Receiver Mode + PSU_DDR_PHY_ACIOCR0_ACPDRMODE 0x2 + + AC On-die Termination Mode + PSU_DDR_PHY_ACIOCR0_ACODTMODE 0x2 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_ACIOCR0_RESERVED_1 0x0 + + Control delayed or non-delayed clock to CS_N/ODT?CKE AC slices. + PSU_DDR_PHY_ACIOCR0_ACRANKCLKSEL 0x0 + + AC I/O Configuration Register 0 + (OFFSET, MASK, VALUE) (0XFD080500, 0xFFFFFFFFU ,0x30000028U) + RegMask = (DDR_PHY_ACIOCR0_ACSR_MASK | DDR_PHY_ACIOCR0_RSTIOM_MASK | DDR_PHY_ACIOCR0_RSTPDR_MASK | DDR_PHY_ACIOCR0_RESERVED_27_MASK | DDR_PHY_ACIOCR0_RSTODT_MASK | DDR_PHY_ACIOCR0_RESERVED_25_10_MASK | DDR_PHY_ACIOCR0_CKDCC_MASK | DDR_PHY_ACIOCR0_ACPDRMODE_MASK | DDR_PHY_ACIOCR0_ACODTMODE_MASK | DDR_PHY_ACIOCR0_RESERVED_1_MASK | DDR_PHY_ACIOCR0_ACRANKCLKSEL_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_ACIOCR0_ACSR_SHIFT + | 0x00000001U << DDR_PHY_ACIOCR0_RSTIOM_SHIFT + | 0x00000001U << DDR_PHY_ACIOCR0_RSTPDR_SHIFT + | 0x00000000U << DDR_PHY_ACIOCR0_RESERVED_27_SHIFT + | 0x00000000U << DDR_PHY_ACIOCR0_RSTODT_SHIFT + | 0x00000000U << DDR_PHY_ACIOCR0_RESERVED_25_10_SHIFT + | 0x00000000U << DDR_PHY_ACIOCR0_CKDCC_SHIFT + | 0x00000002U << DDR_PHY_ACIOCR0_ACPDRMODE_SHIFT + | 0x00000002U << DDR_PHY_ACIOCR0_ACODTMODE_SHIFT + | 0x00000000U << DDR_PHY_ACIOCR0_RESERVED_1_SHIFT + | 0x00000000U << DDR_PHY_ACIOCR0_ACRANKCLKSEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_ACIOCR0_OFFSET ,0xFFFFFFFFU ,0x30000028U); + /*############################################################################################################################ */ + + /*Register : ACIOCR2 @ 0XFD080508

+ + Clock gating for glue logic inside CLKGEN and glue logic inside CONTROL slice + PSU_DDR_PHY_ACIOCR2_CLKGENCLKGATE 0x0 + + Clock gating for Output Enable D slices [0] + PSU_DDR_PHY_ACIOCR2_ACOECLKGATE0 0x0 + + Clock gating for Power Down Receiver D slices [0] + PSU_DDR_PHY_ACIOCR2_ACPDRCLKGATE0 0x0 + + Clock gating for Termination Enable D slices [0] + PSU_DDR_PHY_ACIOCR2_ACTECLKGATE0 0x0 + + Clock gating for CK# D slices [1:0] + PSU_DDR_PHY_ACIOCR2_CKNCLKGATE0 0x2 + + Clock gating for CK D slices [1:0] + PSU_DDR_PHY_ACIOCR2_CKCLKGATE0 0x2 + + Clock gating for AC D slices [23:0] + PSU_DDR_PHY_ACIOCR2_ACCLKGATE0 0x0 + + AC I/O Configuration Register 2 + (OFFSET, MASK, VALUE) (0XFD080508, 0xFFFFFFFFU ,0x0A000000U) + RegMask = (DDR_PHY_ACIOCR2_CLKGENCLKGATE_MASK | DDR_PHY_ACIOCR2_ACOECLKGATE0_MASK | DDR_PHY_ACIOCR2_ACPDRCLKGATE0_MASK | DDR_PHY_ACIOCR2_ACTECLKGATE0_MASK | DDR_PHY_ACIOCR2_CKNCLKGATE0_MASK | DDR_PHY_ACIOCR2_CKCLKGATE0_MASK | DDR_PHY_ACIOCR2_ACCLKGATE0_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_ACIOCR2_CLKGENCLKGATE_SHIFT + | 0x00000000U << DDR_PHY_ACIOCR2_ACOECLKGATE0_SHIFT + | 0x00000000U << DDR_PHY_ACIOCR2_ACPDRCLKGATE0_SHIFT + | 0x00000000U << DDR_PHY_ACIOCR2_ACTECLKGATE0_SHIFT + | 0x00000002U << DDR_PHY_ACIOCR2_CKNCLKGATE0_SHIFT + | 0x00000002U << DDR_PHY_ACIOCR2_CKCLKGATE0_SHIFT + | 0x00000000U << DDR_PHY_ACIOCR2_ACCLKGATE0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_ACIOCR2_OFFSET ,0xFFFFFFFFU ,0x0A000000U); + /*############################################################################################################################ */ + + /*Register : ACIOCR3 @ 0XFD08050C

+ + SDRAM Parity Output Enable (OE) Mode Selection + PSU_DDR_PHY_ACIOCR3_PAROEMODE 0x0 + + SDRAM Bank Group Output Enable (OE) Mode Selection + PSU_DDR_PHY_ACIOCR3_BGOEMODE 0x0 + + SDRAM Bank Address Output Enable (OE) Mode Selection + PSU_DDR_PHY_ACIOCR3_BAOEMODE 0x0 + + SDRAM A[17] Output Enable (OE) Mode Selection + PSU_DDR_PHY_ACIOCR3_A17OEMODE 0x0 + + SDRAM A[16] / RAS_n Output Enable (OE) Mode Selection + PSU_DDR_PHY_ACIOCR3_A16OEMODE 0x0 + + SDRAM ACT_n Output Enable (OE) Mode Selection (DDR4 only) + PSU_DDR_PHY_ACIOCR3_ACTOEMODE 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_ACIOCR3_RESERVED_15_8 0x0 + + Reserved. Return zeros on reads. + PSU_DDR_PHY_ACIOCR3_CKOEMODE_RSVD 0x0 + + SDRAM CK Output Enable (OE) Mode Selection. + PSU_DDR_PHY_ACIOCR3_CKOEMODE 0x9 + + AC I/O Configuration Register 3 + (OFFSET, MASK, VALUE) (0XFD08050C, 0xFFFFFFFFU ,0x00000009U) + RegMask = (DDR_PHY_ACIOCR3_PAROEMODE_MASK | DDR_PHY_ACIOCR3_BGOEMODE_MASK | DDR_PHY_ACIOCR3_BAOEMODE_MASK | DDR_PHY_ACIOCR3_A17OEMODE_MASK | DDR_PHY_ACIOCR3_A16OEMODE_MASK | DDR_PHY_ACIOCR3_ACTOEMODE_MASK | DDR_PHY_ACIOCR3_RESERVED_15_8_MASK | DDR_PHY_ACIOCR3_CKOEMODE_RSVD_MASK | DDR_PHY_ACIOCR3_CKOEMODE_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_ACIOCR3_PAROEMODE_SHIFT + | 0x00000000U << DDR_PHY_ACIOCR3_BGOEMODE_SHIFT + | 0x00000000U << DDR_PHY_ACIOCR3_BAOEMODE_SHIFT + | 0x00000000U << DDR_PHY_ACIOCR3_A17OEMODE_SHIFT + | 0x00000000U << DDR_PHY_ACIOCR3_A16OEMODE_SHIFT + | 0x00000000U << DDR_PHY_ACIOCR3_ACTOEMODE_SHIFT + | 0x00000000U << DDR_PHY_ACIOCR3_RESERVED_15_8_SHIFT + | 0x00000000U << DDR_PHY_ACIOCR3_CKOEMODE_RSVD_SHIFT + | 0x00000009U << DDR_PHY_ACIOCR3_CKOEMODE_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_ACIOCR3_OFFSET ,0xFFFFFFFFU ,0x00000009U); + /*############################################################################################################################ */ + + /*Register : ACIOCR4 @ 0XFD080510

+ + Clock gating for AC LB slices and loopback read valid slices + PSU_DDR_PHY_ACIOCR4_LBCLKGATE 0x0 + + Clock gating for Output Enable D slices [1] + PSU_DDR_PHY_ACIOCR4_ACOECLKGATE1 0x0 + + Clock gating for Power Down Receiver D slices [1] + PSU_DDR_PHY_ACIOCR4_ACPDRCLKGATE1 0x0 + + Clock gating for Termination Enable D slices [1] + PSU_DDR_PHY_ACIOCR4_ACTECLKGATE1 0x0 + + Clock gating for CK# D slices [3:2] + PSU_DDR_PHY_ACIOCR4_CKNCLKGATE1 0x2 + + Clock gating for CK D slices [3:2] + PSU_DDR_PHY_ACIOCR4_CKCLKGATE1 0x2 + + Clock gating for AC D slices [47:24] + PSU_DDR_PHY_ACIOCR4_ACCLKGATE1 0x0 + + AC I/O Configuration Register 4 + (OFFSET, MASK, VALUE) (0XFD080510, 0xFFFFFFFFU ,0x0A000000U) + RegMask = (DDR_PHY_ACIOCR4_LBCLKGATE_MASK | DDR_PHY_ACIOCR4_ACOECLKGATE1_MASK | DDR_PHY_ACIOCR4_ACPDRCLKGATE1_MASK | DDR_PHY_ACIOCR4_ACTECLKGATE1_MASK | DDR_PHY_ACIOCR4_CKNCLKGATE1_MASK | DDR_PHY_ACIOCR4_CKCLKGATE1_MASK | DDR_PHY_ACIOCR4_ACCLKGATE1_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_ACIOCR4_LBCLKGATE_SHIFT + | 0x00000000U << DDR_PHY_ACIOCR4_ACOECLKGATE1_SHIFT + | 0x00000000U << DDR_PHY_ACIOCR4_ACPDRCLKGATE1_SHIFT + | 0x00000000U << DDR_PHY_ACIOCR4_ACTECLKGATE1_SHIFT + | 0x00000002U << DDR_PHY_ACIOCR4_CKNCLKGATE1_SHIFT + | 0x00000002U << DDR_PHY_ACIOCR4_CKCLKGATE1_SHIFT + | 0x00000000U << DDR_PHY_ACIOCR4_ACCLKGATE1_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_ACIOCR4_OFFSET ,0xFFFFFFFFU ,0x0A000000U); + /*############################################################################################################################ */ + + /*Register : IOVCR0 @ 0XFD080520

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_IOVCR0_RESERVED_31_29 0x0 + + Address/command lane VREF Pad Enable + PSU_DDR_PHY_IOVCR0_ACREFPEN 0x0 + + Address/command lane Internal VREF Enable + PSU_DDR_PHY_IOVCR0_ACREFEEN 0x0 + + Address/command lane Single-End VREF Enable + PSU_DDR_PHY_IOVCR0_ACREFSEN 0x1 + + Address/command lane Internal VREF Enable + PSU_DDR_PHY_IOVCR0_ACREFIEN 0x1 + + External VREF generato REFSEL range select + PSU_DDR_PHY_IOVCR0_ACREFESELRANGE 0x0 + + Address/command lane External VREF Select + PSU_DDR_PHY_IOVCR0_ACREFESEL 0x0 + + Single ended VREF generator REFSEL range select + PSU_DDR_PHY_IOVCR0_ACREFSSELRANGE 0x1 + + Address/command lane Single-End VREF Select + PSU_DDR_PHY_IOVCR0_ACREFSSEL 0x30 + + Internal VREF generator REFSEL ragne select + PSU_DDR_PHY_IOVCR0_ACVREFISELRANGE 0x1 + + REFSEL Control for internal AC IOs + PSU_DDR_PHY_IOVCR0_ACVREFISEL 0x30 + + IO VREF Control Register 0 + (OFFSET, MASK, VALUE) (0XFD080520, 0xFFFFFFFFU ,0x0300B0B0U) + RegMask = (DDR_PHY_IOVCR0_RESERVED_31_29_MASK | DDR_PHY_IOVCR0_ACREFPEN_MASK | DDR_PHY_IOVCR0_ACREFEEN_MASK | DDR_PHY_IOVCR0_ACREFSEN_MASK | DDR_PHY_IOVCR0_ACREFIEN_MASK | DDR_PHY_IOVCR0_ACREFESELRANGE_MASK | DDR_PHY_IOVCR0_ACREFESEL_MASK | DDR_PHY_IOVCR0_ACREFSSELRANGE_MASK | DDR_PHY_IOVCR0_ACREFSSEL_MASK | DDR_PHY_IOVCR0_ACVREFISELRANGE_MASK | DDR_PHY_IOVCR0_ACVREFISEL_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_IOVCR0_RESERVED_31_29_SHIFT + | 0x00000000U << DDR_PHY_IOVCR0_ACREFPEN_SHIFT + | 0x00000000U << DDR_PHY_IOVCR0_ACREFEEN_SHIFT + | 0x00000001U << DDR_PHY_IOVCR0_ACREFSEN_SHIFT + | 0x00000001U << DDR_PHY_IOVCR0_ACREFIEN_SHIFT + | 0x00000000U << DDR_PHY_IOVCR0_ACREFESELRANGE_SHIFT + | 0x00000000U << DDR_PHY_IOVCR0_ACREFESEL_SHIFT + | 0x00000001U << DDR_PHY_IOVCR0_ACREFSSELRANGE_SHIFT + | 0x00000030U << DDR_PHY_IOVCR0_ACREFSSEL_SHIFT + | 0x00000001U << DDR_PHY_IOVCR0_ACVREFISELRANGE_SHIFT + | 0x00000030U << DDR_PHY_IOVCR0_ACVREFISEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_IOVCR0_OFFSET ,0xFFFFFFFFU ,0x0300B0B0U); + /*############################################################################################################################ */ + + /*Register : VTCR0 @ 0XFD080528

+ + Number of ctl_clk required to meet (> 150ns) timing requirements during DRAM DQ VREF training + PSU_DDR_PHY_VTCR0_TVREF 0x7 + + DRM DQ VREF training Enable + PSU_DDR_PHY_VTCR0_DVEN 0x1 + + Per Device Addressability Enable + PSU_DDR_PHY_VTCR0_PDAEN 0x1 + + Reserved. Returns zeroes on reads. + PSU_DDR_PHY_VTCR0_RESERVED_26 0x0 + + VREF Word Count + PSU_DDR_PHY_VTCR0_VWCR 0x4 + + DRAM DQ VREF step size used during DRAM VREF training + PSU_DDR_PHY_VTCR0_DVSS 0x0 + + Maximum VREF limit value used during DRAM VREF training + PSU_DDR_PHY_VTCR0_DVMAX 0x32 + + Minimum VREF limit value used during DRAM VREF training + PSU_DDR_PHY_VTCR0_DVMIN 0x0 + + Initial DRAM DQ VREF value used during DRAM VREF training + PSU_DDR_PHY_VTCR0_DVINIT 0x19 + + VREF Training Control Register 0 + (OFFSET, MASK, VALUE) (0XFD080528, 0xFFFFFFFFU ,0xF9032019U) + RegMask = (DDR_PHY_VTCR0_TVREF_MASK | DDR_PHY_VTCR0_DVEN_MASK | DDR_PHY_VTCR0_PDAEN_MASK | DDR_PHY_VTCR0_RESERVED_26_MASK | DDR_PHY_VTCR0_VWCR_MASK | DDR_PHY_VTCR0_DVSS_MASK | DDR_PHY_VTCR0_DVMAX_MASK | DDR_PHY_VTCR0_DVMIN_MASK | DDR_PHY_VTCR0_DVINIT_MASK | 0 ); + + RegVal = ((0x00000007U << DDR_PHY_VTCR0_TVREF_SHIFT + | 0x00000001U << DDR_PHY_VTCR0_DVEN_SHIFT + | 0x00000001U << DDR_PHY_VTCR0_PDAEN_SHIFT + | 0x00000000U << DDR_PHY_VTCR0_RESERVED_26_SHIFT + | 0x00000004U << DDR_PHY_VTCR0_VWCR_SHIFT + | 0x00000000U << DDR_PHY_VTCR0_DVSS_SHIFT + | 0x00000032U << DDR_PHY_VTCR0_DVMAX_SHIFT + | 0x00000000U << DDR_PHY_VTCR0_DVMIN_SHIFT + | 0x00000019U << DDR_PHY_VTCR0_DVINIT_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_VTCR0_OFFSET ,0xFFFFFFFFU ,0xF9032019U); + /*############################################################################################################################ */ + + /*Register : VTCR1 @ 0XFD08052C

+ + Host VREF step size used during VREF training. The register value of N indicates step size of (N+1) + PSU_DDR_PHY_VTCR1_HVSS 0x0 + + Reserved. Returns zeroes on reads. + PSU_DDR_PHY_VTCR1_RESERVED_27 0x0 + + Maximum VREF limit value used during DRAM VREF training. + PSU_DDR_PHY_VTCR1_HVMAX 0x7f + + Reserved. Returns zeroes on reads. + PSU_DDR_PHY_VTCR1_RESERVED_19 0x0 + + Minimum VREF limit value used during DRAM VREF training. + PSU_DDR_PHY_VTCR1_HVMIN 0x0 + + Reserved. Returns zeroes on reads. + PSU_DDR_PHY_VTCR1_RESERVED_11 0x0 + + Static Host Vref Rank Value + PSU_DDR_PHY_VTCR1_SHRNK 0x0 + + Static Host Vref Rank Enable + PSU_DDR_PHY_VTCR1_SHREN 0x1 + + Number of ctl_clk required to meet (> 200ns) VREF Settling timing requirements during Host IO VREF training + PSU_DDR_PHY_VTCR1_TVREFIO 0x7 + + Eye LCDL Offset value for VREF training + PSU_DDR_PHY_VTCR1_EOFF 0x0 + + Number of LCDL Eye points for which VREF training is repeated + PSU_DDR_PHY_VTCR1_ENUM 0x0 + + HOST (IO) internal VREF training Enable + PSU_DDR_PHY_VTCR1_HVEN 0x1 + + Host IO Type Control + PSU_DDR_PHY_VTCR1_HVIO 0x1 + + VREF Training Control Register 1 + (OFFSET, MASK, VALUE) (0XFD08052C, 0xFFFFFFFFU ,0x07F001E3U) + RegMask = (DDR_PHY_VTCR1_HVSS_MASK | DDR_PHY_VTCR1_RESERVED_27_MASK | DDR_PHY_VTCR1_HVMAX_MASK | DDR_PHY_VTCR1_RESERVED_19_MASK | DDR_PHY_VTCR1_HVMIN_MASK | DDR_PHY_VTCR1_RESERVED_11_MASK | DDR_PHY_VTCR1_SHRNK_MASK | DDR_PHY_VTCR1_SHREN_MASK | DDR_PHY_VTCR1_TVREFIO_MASK | DDR_PHY_VTCR1_EOFF_MASK | DDR_PHY_VTCR1_ENUM_MASK | DDR_PHY_VTCR1_HVEN_MASK | DDR_PHY_VTCR1_HVIO_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_VTCR1_HVSS_SHIFT + | 0x00000000U << DDR_PHY_VTCR1_RESERVED_27_SHIFT + | 0x0000007FU << DDR_PHY_VTCR1_HVMAX_SHIFT + | 0x00000000U << DDR_PHY_VTCR1_RESERVED_19_SHIFT + | 0x00000000U << DDR_PHY_VTCR1_HVMIN_SHIFT + | 0x00000000U << DDR_PHY_VTCR1_RESERVED_11_SHIFT + | 0x00000000U << DDR_PHY_VTCR1_SHRNK_SHIFT + | 0x00000001U << DDR_PHY_VTCR1_SHREN_SHIFT + | 0x00000007U << DDR_PHY_VTCR1_TVREFIO_SHIFT + | 0x00000000U << DDR_PHY_VTCR1_EOFF_SHIFT + | 0x00000000U << DDR_PHY_VTCR1_ENUM_SHIFT + | 0x00000001U << DDR_PHY_VTCR1_HVEN_SHIFT + | 0x00000001U << DDR_PHY_VTCR1_HVIO_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_VTCR1_OFFSET ,0xFFFFFFFFU ,0x07F001E3U); + /*############################################################################################################################ */ + + /*Register : ACBDLR1 @ 0XFD080544

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_ACBDLR1_RESERVED_31_30 0x0 + + Delay select for the BDL on Parity. + PSU_DDR_PHY_ACBDLR1_PARBD 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_ACBDLR1_RESERVED_23_22 0x0 + + Delay select for the BDL on Address A[16]. In DDR3 mode this pin is connected to WE. + PSU_DDR_PHY_ACBDLR1_A16BD 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_ACBDLR1_RESERVED_15_14 0x0 + + Delay select for the BDL on Address A[17]. When not in DDR4 modemode this pin is connected to CAS. + PSU_DDR_PHY_ACBDLR1_A17BD 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_ACBDLR1_RESERVED_7_6 0x0 + + Delay select for the BDL on ACTN. + PSU_DDR_PHY_ACBDLR1_ACTBD 0x0 + + AC Bit Delay Line Register 1 + (OFFSET, MASK, VALUE) (0XFD080544, 0xFFFFFFFFU ,0x00000000U) + RegMask = (DDR_PHY_ACBDLR1_RESERVED_31_30_MASK | DDR_PHY_ACBDLR1_PARBD_MASK | DDR_PHY_ACBDLR1_RESERVED_23_22_MASK | DDR_PHY_ACBDLR1_A16BD_MASK | DDR_PHY_ACBDLR1_RESERVED_15_14_MASK | DDR_PHY_ACBDLR1_A17BD_MASK | DDR_PHY_ACBDLR1_RESERVED_7_6_MASK | DDR_PHY_ACBDLR1_ACTBD_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_ACBDLR1_RESERVED_31_30_SHIFT + | 0x00000000U << DDR_PHY_ACBDLR1_PARBD_SHIFT + | 0x00000000U << DDR_PHY_ACBDLR1_RESERVED_23_22_SHIFT + | 0x00000000U << DDR_PHY_ACBDLR1_A16BD_SHIFT + | 0x00000000U << DDR_PHY_ACBDLR1_RESERVED_15_14_SHIFT + | 0x00000000U << DDR_PHY_ACBDLR1_A17BD_SHIFT + | 0x00000000U << DDR_PHY_ACBDLR1_RESERVED_7_6_SHIFT + | 0x00000000U << DDR_PHY_ACBDLR1_ACTBD_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_ACBDLR1_OFFSET ,0xFFFFFFFFU ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : ACBDLR2 @ 0XFD080548

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_ACBDLR2_RESERVED_31_30 0x0 + + Delay select for the BDL on BG[1]. + PSU_DDR_PHY_ACBDLR2_BG1BD 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_ACBDLR2_RESERVED_23_22 0x0 + + Delay select for the BDL on BG[0]. + PSU_DDR_PHY_ACBDLR2_BG0BD 0x0 + + Reser.ved Return zeroes on reads. + PSU_DDR_PHY_ACBDLR2_RESERVED_15_14 0x0 + + Delay select for the BDL on BA[1]. + PSU_DDR_PHY_ACBDLR2_BA1BD 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_ACBDLR2_RESERVED_7_6 0x0 + + Delay select for the BDL on BA[0]. + PSU_DDR_PHY_ACBDLR2_BA0BD 0x0 + + AC Bit Delay Line Register 2 + (OFFSET, MASK, VALUE) (0XFD080548, 0xFFFFFFFFU ,0x00000000U) + RegMask = (DDR_PHY_ACBDLR2_RESERVED_31_30_MASK | DDR_PHY_ACBDLR2_BG1BD_MASK | DDR_PHY_ACBDLR2_RESERVED_23_22_MASK | DDR_PHY_ACBDLR2_BG0BD_MASK | DDR_PHY_ACBDLR2_RESERVED_15_14_MASK | DDR_PHY_ACBDLR2_BA1BD_MASK | DDR_PHY_ACBDLR2_RESERVED_7_6_MASK | DDR_PHY_ACBDLR2_BA0BD_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_ACBDLR2_RESERVED_31_30_SHIFT + | 0x00000000U << DDR_PHY_ACBDLR2_BG1BD_SHIFT + | 0x00000000U << DDR_PHY_ACBDLR2_RESERVED_23_22_SHIFT + | 0x00000000U << DDR_PHY_ACBDLR2_BG0BD_SHIFT + | 0x00000000U << DDR_PHY_ACBDLR2_RESERVED_15_14_SHIFT + | 0x00000000U << DDR_PHY_ACBDLR2_BA1BD_SHIFT + | 0x00000000U << DDR_PHY_ACBDLR2_RESERVED_7_6_SHIFT + | 0x00000000U << DDR_PHY_ACBDLR2_BA0BD_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_ACBDLR2_OFFSET ,0xFFFFFFFFU ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : ACBDLR6 @ 0XFD080558

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_ACBDLR6_RESERVED_31_30 0x0 + + Delay select for the BDL on Address A[3]. + PSU_DDR_PHY_ACBDLR6_A03BD 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_ACBDLR6_RESERVED_23_22 0x0 + + Delay select for the BDL on Address A[2]. + PSU_DDR_PHY_ACBDLR6_A02BD 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_ACBDLR6_RESERVED_15_14 0x0 + + Delay select for the BDL on Address A[1]. + PSU_DDR_PHY_ACBDLR6_A01BD 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_ACBDLR6_RESERVED_7_6 0x0 + + Delay select for the BDL on Address A[0]. + PSU_DDR_PHY_ACBDLR6_A00BD 0x0 + + AC Bit Delay Line Register 6 + (OFFSET, MASK, VALUE) (0XFD080558, 0xFFFFFFFFU ,0x00000000U) + RegMask = (DDR_PHY_ACBDLR6_RESERVED_31_30_MASK | DDR_PHY_ACBDLR6_A03BD_MASK | DDR_PHY_ACBDLR6_RESERVED_23_22_MASK | DDR_PHY_ACBDLR6_A02BD_MASK | DDR_PHY_ACBDLR6_RESERVED_15_14_MASK | DDR_PHY_ACBDLR6_A01BD_MASK | DDR_PHY_ACBDLR6_RESERVED_7_6_MASK | DDR_PHY_ACBDLR6_A00BD_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_ACBDLR6_RESERVED_31_30_SHIFT + | 0x00000000U << DDR_PHY_ACBDLR6_A03BD_SHIFT + | 0x00000000U << DDR_PHY_ACBDLR6_RESERVED_23_22_SHIFT + | 0x00000000U << DDR_PHY_ACBDLR6_A02BD_SHIFT + | 0x00000000U << DDR_PHY_ACBDLR6_RESERVED_15_14_SHIFT + | 0x00000000U << DDR_PHY_ACBDLR6_A01BD_SHIFT + | 0x00000000U << DDR_PHY_ACBDLR6_RESERVED_7_6_SHIFT + | 0x00000000U << DDR_PHY_ACBDLR6_A00BD_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_ACBDLR6_OFFSET ,0xFFFFFFFFU ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : ACBDLR7 @ 0XFD08055C

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_ACBDLR7_RESERVED_31_30 0x0 + + Delay select for the BDL on Address A[7]. + PSU_DDR_PHY_ACBDLR7_A07BD 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_ACBDLR7_RESERVED_23_22 0x0 + + Delay select for the BDL on Address A[6]. + PSU_DDR_PHY_ACBDLR7_A06BD 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_ACBDLR7_RESERVED_15_14 0x0 + + Delay select for the BDL on Address A[5]. + PSU_DDR_PHY_ACBDLR7_A05BD 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_ACBDLR7_RESERVED_7_6 0x0 + + Delay select for the BDL on Address A[4]. + PSU_DDR_PHY_ACBDLR7_A04BD 0x0 + + AC Bit Delay Line Register 7 + (OFFSET, MASK, VALUE) (0XFD08055C, 0xFFFFFFFFU ,0x00000000U) + RegMask = (DDR_PHY_ACBDLR7_RESERVED_31_30_MASK | DDR_PHY_ACBDLR7_A07BD_MASK | DDR_PHY_ACBDLR7_RESERVED_23_22_MASK | DDR_PHY_ACBDLR7_A06BD_MASK | DDR_PHY_ACBDLR7_RESERVED_15_14_MASK | DDR_PHY_ACBDLR7_A05BD_MASK | DDR_PHY_ACBDLR7_RESERVED_7_6_MASK | DDR_PHY_ACBDLR7_A04BD_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_ACBDLR7_RESERVED_31_30_SHIFT + | 0x00000000U << DDR_PHY_ACBDLR7_A07BD_SHIFT + | 0x00000000U << DDR_PHY_ACBDLR7_RESERVED_23_22_SHIFT + | 0x00000000U << DDR_PHY_ACBDLR7_A06BD_SHIFT + | 0x00000000U << DDR_PHY_ACBDLR7_RESERVED_15_14_SHIFT + | 0x00000000U << DDR_PHY_ACBDLR7_A05BD_SHIFT + | 0x00000000U << DDR_PHY_ACBDLR7_RESERVED_7_6_SHIFT + | 0x00000000U << DDR_PHY_ACBDLR7_A04BD_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_ACBDLR7_OFFSET ,0xFFFFFFFFU ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : ACBDLR8 @ 0XFD080560

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_ACBDLR8_RESERVED_31_30 0x0 + + Delay select for the BDL on Address A[11]. + PSU_DDR_PHY_ACBDLR8_A11BD 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_ACBDLR8_RESERVED_23_22 0x0 + + Delay select for the BDL on Address A[10]. + PSU_DDR_PHY_ACBDLR8_A10BD 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_ACBDLR8_RESERVED_15_14 0x0 + + Delay select for the BDL on Address A[9]. + PSU_DDR_PHY_ACBDLR8_A09BD 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_ACBDLR8_RESERVED_7_6 0x0 + + Delay select for the BDL on Address A[8]. + PSU_DDR_PHY_ACBDLR8_A08BD 0x0 + + AC Bit Delay Line Register 8 + (OFFSET, MASK, VALUE) (0XFD080560, 0xFFFFFFFFU ,0x00000000U) + RegMask = (DDR_PHY_ACBDLR8_RESERVED_31_30_MASK | DDR_PHY_ACBDLR8_A11BD_MASK | DDR_PHY_ACBDLR8_RESERVED_23_22_MASK | DDR_PHY_ACBDLR8_A10BD_MASK | DDR_PHY_ACBDLR8_RESERVED_15_14_MASK | DDR_PHY_ACBDLR8_A09BD_MASK | DDR_PHY_ACBDLR8_RESERVED_7_6_MASK | DDR_PHY_ACBDLR8_A08BD_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_ACBDLR8_RESERVED_31_30_SHIFT + | 0x00000000U << DDR_PHY_ACBDLR8_A11BD_SHIFT + | 0x00000000U << DDR_PHY_ACBDLR8_RESERVED_23_22_SHIFT + | 0x00000000U << DDR_PHY_ACBDLR8_A10BD_SHIFT + | 0x00000000U << DDR_PHY_ACBDLR8_RESERVED_15_14_SHIFT + | 0x00000000U << DDR_PHY_ACBDLR8_A09BD_SHIFT + | 0x00000000U << DDR_PHY_ACBDLR8_RESERVED_7_6_SHIFT + | 0x00000000U << DDR_PHY_ACBDLR8_A08BD_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_ACBDLR8_OFFSET ,0xFFFFFFFFU ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : ACBDLR9 @ 0XFD080564

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_ACBDLR9_RESERVED_31_30 0x0 + + Delay select for the BDL on Address A[15]. + PSU_DDR_PHY_ACBDLR9_A15BD 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_ACBDLR9_RESERVED_23_22 0x0 + + Delay select for the BDL on Address A[14]. + PSU_DDR_PHY_ACBDLR9_A14BD 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_ACBDLR9_RESERVED_15_14 0x0 + + Delay select for the BDL on Address A[13]. + PSU_DDR_PHY_ACBDLR9_A13BD 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_ACBDLR9_RESERVED_7_6 0x0 + + Delay select for the BDL on Address A[12]. + PSU_DDR_PHY_ACBDLR9_A12BD 0x0 + + AC Bit Delay Line Register 9 + (OFFSET, MASK, VALUE) (0XFD080564, 0xFFFFFFFFU ,0x00000000U) + RegMask = (DDR_PHY_ACBDLR9_RESERVED_31_30_MASK | DDR_PHY_ACBDLR9_A15BD_MASK | DDR_PHY_ACBDLR9_RESERVED_23_22_MASK | DDR_PHY_ACBDLR9_A14BD_MASK | DDR_PHY_ACBDLR9_RESERVED_15_14_MASK | DDR_PHY_ACBDLR9_A13BD_MASK | DDR_PHY_ACBDLR9_RESERVED_7_6_MASK | DDR_PHY_ACBDLR9_A12BD_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_ACBDLR9_RESERVED_31_30_SHIFT + | 0x00000000U << DDR_PHY_ACBDLR9_A15BD_SHIFT + | 0x00000000U << DDR_PHY_ACBDLR9_RESERVED_23_22_SHIFT + | 0x00000000U << DDR_PHY_ACBDLR9_A14BD_SHIFT + | 0x00000000U << DDR_PHY_ACBDLR9_RESERVED_15_14_SHIFT + | 0x00000000U << DDR_PHY_ACBDLR9_A13BD_SHIFT + | 0x00000000U << DDR_PHY_ACBDLR9_RESERVED_7_6_SHIFT + | 0x00000000U << DDR_PHY_ACBDLR9_A12BD_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_ACBDLR9_OFFSET ,0xFFFFFFFFU ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : ZQCR @ 0XFD080680

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_ZQCR_RESERVED_31_26 0x0 + + ZQ VREF Range + PSU_DDR_PHY_ZQCR_ZQREFISELRANGE 0x0 + + Programmable Wait for Frequency B + PSU_DDR_PHY_ZQCR_PGWAIT_FRQB 0x11 + + Programmable Wait for Frequency A + PSU_DDR_PHY_ZQCR_PGWAIT_FRQA 0x11 + + ZQ VREF Pad Enable + PSU_DDR_PHY_ZQCR_ZQREFPEN 0x0 + + ZQ Internal VREF Enable + PSU_DDR_PHY_ZQCR_ZQREFIEN 0x1 + + Choice of termination mode + PSU_DDR_PHY_ZQCR_ODT_MODE 0x1 + + Force ZCAL VT update + PSU_DDR_PHY_ZQCR_FORCE_ZCAL_VT_UPDATE 0x0 + + IO VT Drift Limit + PSU_DDR_PHY_ZQCR_IODLMT 0x2 + + Averaging algorithm enable, if set, enables averaging algorithm + PSU_DDR_PHY_ZQCR_AVGEN 0x1 + + Maximum number of averaging rounds to be used by averaging algorithm + PSU_DDR_PHY_ZQCR_AVGMAX 0x2 + + ZQ Calibration Type + PSU_DDR_PHY_ZQCR_ZCALT 0x0 + + ZQ Power Down + PSU_DDR_PHY_ZQCR_ZQPD 0x0 + + ZQ Impedance Control Register + (OFFSET, MASK, VALUE) (0XFD080680, 0xFFFFFFFFU ,0x008A2A58U) + RegMask = (DDR_PHY_ZQCR_RESERVED_31_26_MASK | DDR_PHY_ZQCR_ZQREFISELRANGE_MASK | DDR_PHY_ZQCR_PGWAIT_FRQB_MASK | DDR_PHY_ZQCR_PGWAIT_FRQA_MASK | DDR_PHY_ZQCR_ZQREFPEN_MASK | DDR_PHY_ZQCR_ZQREFIEN_MASK | DDR_PHY_ZQCR_ODT_MODE_MASK | DDR_PHY_ZQCR_FORCE_ZCAL_VT_UPDATE_MASK | DDR_PHY_ZQCR_IODLMT_MASK | DDR_PHY_ZQCR_AVGEN_MASK | DDR_PHY_ZQCR_AVGMAX_MASK | DDR_PHY_ZQCR_ZCALT_MASK | DDR_PHY_ZQCR_ZQPD_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_ZQCR_RESERVED_31_26_SHIFT + | 0x00000000U << DDR_PHY_ZQCR_ZQREFISELRANGE_SHIFT + | 0x00000011U << DDR_PHY_ZQCR_PGWAIT_FRQB_SHIFT + | 0x00000011U << DDR_PHY_ZQCR_PGWAIT_FRQA_SHIFT + | 0x00000000U << DDR_PHY_ZQCR_ZQREFPEN_SHIFT + | 0x00000001U << DDR_PHY_ZQCR_ZQREFIEN_SHIFT + | 0x00000001U << DDR_PHY_ZQCR_ODT_MODE_SHIFT + | 0x00000000U << DDR_PHY_ZQCR_FORCE_ZCAL_VT_UPDATE_SHIFT + | 0x00000002U << DDR_PHY_ZQCR_IODLMT_SHIFT + | 0x00000001U << DDR_PHY_ZQCR_AVGEN_SHIFT + | 0x00000002U << DDR_PHY_ZQCR_AVGMAX_SHIFT + | 0x00000000U << DDR_PHY_ZQCR_ZCALT_SHIFT + | 0x00000000U << DDR_PHY_ZQCR_ZQPD_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_ZQCR_OFFSET ,0xFFFFFFFFU ,0x008A2A58U); + /*############################################################################################################################ */ + + /*Register : ZQ0PR0 @ 0XFD080684

+ + Pull-down drive strength ZCTRL over-ride enable + PSU_DDR_PHY_ZQ0PR0_PD_DRV_ZDEN 0x0 + + Pull-up drive strength ZCTRL over-ride enable + PSU_DDR_PHY_ZQ0PR0_PU_DRV_ZDEN 0x0 + + Pull-down termination ZCTRL over-ride enable + PSU_DDR_PHY_ZQ0PR0_PD_ODT_ZDEN 0x0 + + Pull-up termination ZCTRL over-ride enable + PSU_DDR_PHY_ZQ0PR0_PU_ODT_ZDEN 0x0 + + Calibration segment bypass + PSU_DDR_PHY_ZQ0PR0_ZSEGBYP 0x0 + + VREF latch mode controls the mode in which the ZLE pin of the PVREF cell is driven by the PUB + PSU_DDR_PHY_ZQ0PR0_ZLE_MODE 0x0 + + Termination adjustment + PSU_DDR_PHY_ZQ0PR0_ODT_ADJUST 0x0 + + Pulldown drive strength adjustment + PSU_DDR_PHY_ZQ0PR0_PD_DRV_ADJUST 0x0 + + Pullup drive strength adjustment + PSU_DDR_PHY_ZQ0PR0_PU_DRV_ADJUST 0x0 + + DRAM Impedance Divide Ratio + PSU_DDR_PHY_ZQ0PR0_ZPROG_DRAM_ODT 0x7 + + HOST Impedance Divide Ratio + PSU_DDR_PHY_ZQ0PR0_ZPROG_HOST_ODT 0x7 + + Impedance Divide Ratio (pulldown drive calibration during asymmetric drive strength calibration) + PSU_DDR_PHY_ZQ0PR0_ZPROG_ASYM_DRV_PD 0xd + + Impedance Divide Ratio (pullup drive calibration during asymmetric drive strength calibration) + PSU_DDR_PHY_ZQ0PR0_ZPROG_ASYM_DRV_PU 0xd + + ZQ n Impedance Control Program Register 0 + (OFFSET, MASK, VALUE) (0XFD080684, 0xFFFFFFFFU ,0x000077DDU) + RegMask = (DDR_PHY_ZQ0PR0_PD_DRV_ZDEN_MASK | DDR_PHY_ZQ0PR0_PU_DRV_ZDEN_MASK | DDR_PHY_ZQ0PR0_PD_ODT_ZDEN_MASK | DDR_PHY_ZQ0PR0_PU_ODT_ZDEN_MASK | DDR_PHY_ZQ0PR0_ZSEGBYP_MASK | DDR_PHY_ZQ0PR0_ZLE_MODE_MASK | DDR_PHY_ZQ0PR0_ODT_ADJUST_MASK | DDR_PHY_ZQ0PR0_PD_DRV_ADJUST_MASK | DDR_PHY_ZQ0PR0_PU_DRV_ADJUST_MASK | DDR_PHY_ZQ0PR0_ZPROG_DRAM_ODT_MASK | DDR_PHY_ZQ0PR0_ZPROG_HOST_ODT_MASK | DDR_PHY_ZQ0PR0_ZPROG_ASYM_DRV_PD_MASK | DDR_PHY_ZQ0PR0_ZPROG_ASYM_DRV_PU_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_ZQ0PR0_PD_DRV_ZDEN_SHIFT + | 0x00000000U << DDR_PHY_ZQ0PR0_PU_DRV_ZDEN_SHIFT + | 0x00000000U << DDR_PHY_ZQ0PR0_PD_ODT_ZDEN_SHIFT + | 0x00000000U << DDR_PHY_ZQ0PR0_PU_ODT_ZDEN_SHIFT + | 0x00000000U << DDR_PHY_ZQ0PR0_ZSEGBYP_SHIFT + | 0x00000000U << DDR_PHY_ZQ0PR0_ZLE_MODE_SHIFT + | 0x00000000U << DDR_PHY_ZQ0PR0_ODT_ADJUST_SHIFT + | 0x00000000U << DDR_PHY_ZQ0PR0_PD_DRV_ADJUST_SHIFT + | 0x00000000U << DDR_PHY_ZQ0PR0_PU_DRV_ADJUST_SHIFT + | 0x00000007U << DDR_PHY_ZQ0PR0_ZPROG_DRAM_ODT_SHIFT + | 0x00000007U << DDR_PHY_ZQ0PR0_ZPROG_HOST_ODT_SHIFT + | 0x0000000DU << DDR_PHY_ZQ0PR0_ZPROG_ASYM_DRV_PD_SHIFT + | 0x0000000DU << DDR_PHY_ZQ0PR0_ZPROG_ASYM_DRV_PU_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_ZQ0PR0_OFFSET ,0xFFFFFFFFU ,0x000077DDU); + /*############################################################################################################################ */ + + /*Register : ZQ0OR0 @ 0XFD080694

+ + Reserved. Return zeros on reads. + PSU_DDR_PHY_ZQ0OR0_RESERVED_31_26 0x0 + + Override value for the pull-up output impedance + PSU_DDR_PHY_ZQ0OR0_ZDATA_PU_DRV_OVRD 0x1e1 + + Reserved. Return zeros on reads. + PSU_DDR_PHY_ZQ0OR0_RESERVED_15_10 0x0 + + Override value for the pull-down output impedance + PSU_DDR_PHY_ZQ0OR0_ZDATA_PD_DRV_OVRD 0x210 + + ZQ n Impedance Control Override Data Register 0 + (OFFSET, MASK, VALUE) (0XFD080694, 0xFFFFFFFFU ,0x01E10210U) + RegMask = (DDR_PHY_ZQ0OR0_RESERVED_31_26_MASK | DDR_PHY_ZQ0OR0_ZDATA_PU_DRV_OVRD_MASK | DDR_PHY_ZQ0OR0_RESERVED_15_10_MASK | DDR_PHY_ZQ0OR0_ZDATA_PD_DRV_OVRD_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_ZQ0OR0_RESERVED_31_26_SHIFT + | 0x000001E1U << DDR_PHY_ZQ0OR0_ZDATA_PU_DRV_OVRD_SHIFT + | 0x00000000U << DDR_PHY_ZQ0OR0_RESERVED_15_10_SHIFT + | 0x00000210U << DDR_PHY_ZQ0OR0_ZDATA_PD_DRV_OVRD_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_ZQ0OR0_OFFSET ,0xFFFFFFFFU ,0x01E10210U); + /*############################################################################################################################ */ + + /*Register : ZQ0OR1 @ 0XFD080698

+ + Reserved. Return zeros on reads. + PSU_DDR_PHY_ZQ0OR1_RESERVED_31_26 0x0 + + Override value for the pull-up termination + PSU_DDR_PHY_ZQ0OR1_ZDATA_PU_ODT_OVRD 0x1e1 + + Reserved. Return zeros on reads. + PSU_DDR_PHY_ZQ0OR1_RESERVED_15_10 0x0 + + Override value for the pull-down termination + PSU_DDR_PHY_ZQ0OR1_ZDATA_PD_ODT_OVRD 0x0 + + ZQ n Impedance Control Override Data Register 1 + (OFFSET, MASK, VALUE) (0XFD080698, 0xFFFFFFFFU ,0x01E10000U) + RegMask = (DDR_PHY_ZQ0OR1_RESERVED_31_26_MASK | DDR_PHY_ZQ0OR1_ZDATA_PU_ODT_OVRD_MASK | DDR_PHY_ZQ0OR1_RESERVED_15_10_MASK | DDR_PHY_ZQ0OR1_ZDATA_PD_ODT_OVRD_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_ZQ0OR1_RESERVED_31_26_SHIFT + | 0x000001E1U << DDR_PHY_ZQ0OR1_ZDATA_PU_ODT_OVRD_SHIFT + | 0x00000000U << DDR_PHY_ZQ0OR1_RESERVED_15_10_SHIFT + | 0x00000000U << DDR_PHY_ZQ0OR1_ZDATA_PD_ODT_OVRD_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_ZQ0OR1_OFFSET ,0xFFFFFFFFU ,0x01E10000U); + /*############################################################################################################################ */ + + /*Register : ZQ1PR0 @ 0XFD0806A4

+ + Pull-down drive strength ZCTRL over-ride enable + PSU_DDR_PHY_ZQ1PR0_PD_DRV_ZDEN 0x0 + + Pull-up drive strength ZCTRL over-ride enable + PSU_DDR_PHY_ZQ1PR0_PU_DRV_ZDEN 0x0 + + Pull-down termination ZCTRL over-ride enable + PSU_DDR_PHY_ZQ1PR0_PD_ODT_ZDEN 0x0 + + Pull-up termination ZCTRL over-ride enable + PSU_DDR_PHY_ZQ1PR0_PU_ODT_ZDEN 0x0 + + Calibration segment bypass + PSU_DDR_PHY_ZQ1PR0_ZSEGBYP 0x0 + + VREF latch mode controls the mode in which the ZLE pin of the PVREF cell is driven by the PUB + PSU_DDR_PHY_ZQ1PR0_ZLE_MODE 0x0 + + Termination adjustment + PSU_DDR_PHY_ZQ1PR0_ODT_ADJUST 0x0 + + Pulldown drive strength adjustment + PSU_DDR_PHY_ZQ1PR0_PD_DRV_ADJUST 0x1 + + Pullup drive strength adjustment + PSU_DDR_PHY_ZQ1PR0_PU_DRV_ADJUST 0x0 + + DRAM Impedance Divide Ratio + PSU_DDR_PHY_ZQ1PR0_ZPROG_DRAM_ODT 0x7 + + HOST Impedance Divide Ratio + PSU_DDR_PHY_ZQ1PR0_ZPROG_HOST_ODT 0xb + + Impedance Divide Ratio (pulldown drive calibration during asymmetric drive strength calibration) + PSU_DDR_PHY_ZQ1PR0_ZPROG_ASYM_DRV_PD 0xd + + Impedance Divide Ratio (pullup drive calibration during asymmetric drive strength calibration) + PSU_DDR_PHY_ZQ1PR0_ZPROG_ASYM_DRV_PU 0xb + + ZQ n Impedance Control Program Register 0 + (OFFSET, MASK, VALUE) (0XFD0806A4, 0xFFFFFFFFU ,0x00087BDBU) + RegMask = (DDR_PHY_ZQ1PR0_PD_DRV_ZDEN_MASK | DDR_PHY_ZQ1PR0_PU_DRV_ZDEN_MASK | DDR_PHY_ZQ1PR0_PD_ODT_ZDEN_MASK | DDR_PHY_ZQ1PR0_PU_ODT_ZDEN_MASK | DDR_PHY_ZQ1PR0_ZSEGBYP_MASK | DDR_PHY_ZQ1PR0_ZLE_MODE_MASK | DDR_PHY_ZQ1PR0_ODT_ADJUST_MASK | DDR_PHY_ZQ1PR0_PD_DRV_ADJUST_MASK | DDR_PHY_ZQ1PR0_PU_DRV_ADJUST_MASK | DDR_PHY_ZQ1PR0_ZPROG_DRAM_ODT_MASK | DDR_PHY_ZQ1PR0_ZPROG_HOST_ODT_MASK | DDR_PHY_ZQ1PR0_ZPROG_ASYM_DRV_PD_MASK | DDR_PHY_ZQ1PR0_ZPROG_ASYM_DRV_PU_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_ZQ1PR0_PD_DRV_ZDEN_SHIFT + | 0x00000000U << DDR_PHY_ZQ1PR0_PU_DRV_ZDEN_SHIFT + | 0x00000000U << DDR_PHY_ZQ1PR0_PD_ODT_ZDEN_SHIFT + | 0x00000000U << DDR_PHY_ZQ1PR0_PU_ODT_ZDEN_SHIFT + | 0x00000000U << DDR_PHY_ZQ1PR0_ZSEGBYP_SHIFT + | 0x00000000U << DDR_PHY_ZQ1PR0_ZLE_MODE_SHIFT + | 0x00000000U << DDR_PHY_ZQ1PR0_ODT_ADJUST_SHIFT + | 0x00000001U << DDR_PHY_ZQ1PR0_PD_DRV_ADJUST_SHIFT + | 0x00000000U << DDR_PHY_ZQ1PR0_PU_DRV_ADJUST_SHIFT + | 0x00000007U << DDR_PHY_ZQ1PR0_ZPROG_DRAM_ODT_SHIFT + | 0x0000000BU << DDR_PHY_ZQ1PR0_ZPROG_HOST_ODT_SHIFT + | 0x0000000DU << DDR_PHY_ZQ1PR0_ZPROG_ASYM_DRV_PD_SHIFT + | 0x0000000BU << DDR_PHY_ZQ1PR0_ZPROG_ASYM_DRV_PU_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_ZQ1PR0_OFFSET ,0xFFFFFFFFU ,0x00087BDBU); + /*############################################################################################################################ */ + + /*Register : DX0GCR0 @ 0XFD080700

+ + Calibration Bypass + PSU_DDR_PHY_DX0GCR0_CALBYP 0x0 + + Master Delay Line Enable + PSU_DDR_PHY_DX0GCR0_MDLEN 0x1 + + Configurable ODT(TE) Phase Shift + PSU_DDR_PHY_DX0GCR0_CODTSHFT 0x0 + + DQS Duty Cycle Correction + PSU_DDR_PHY_DX0GCR0_DQSDCC 0x0 + + Number of Cycles ( in terms of ctl_clk) to generate ctl_dx_get_static_rd input for the respective bypte lane of the PHY + PSU_DDR_PHY_DX0GCR0_RDDLY 0x8 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX0GCR0_RESERVED_19_14 0x0 + + DQSNSE Power Down Receiver + PSU_DDR_PHY_DX0GCR0_DQSNSEPDR 0x0 + + DQSSE Power Down Receiver + PSU_DDR_PHY_DX0GCR0_DQSSEPDR 0x0 + + RTT On Additive Latency + PSU_DDR_PHY_DX0GCR0_RTTOAL 0x0 + + RTT Output Hold + PSU_DDR_PHY_DX0GCR0_RTTOH 0x3 + + Configurable PDR Phase Shift + PSU_DDR_PHY_DX0GCR0_CPDRSHFT 0x0 + + DQSR Power Down + PSU_DDR_PHY_DX0GCR0_DQSRPD 0x0 + + DQSG Power Down Receiver + PSU_DDR_PHY_DX0GCR0_DQSGPDR 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX0GCR0_RESERVED_4 0x0 + + DQSG On-Die Termination + PSU_DDR_PHY_DX0GCR0_DQSGODT 0x0 + + DQSG Output Enable + PSU_DDR_PHY_DX0GCR0_DQSGOE 0x1 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX0GCR0_RESERVED_1_0 0x0 + + DATX8 n General Configuration Register 0 + (OFFSET, MASK, VALUE) (0XFD080700, 0xFFFFFFFFU ,0x40800604U) + RegMask = (DDR_PHY_DX0GCR0_CALBYP_MASK | DDR_PHY_DX0GCR0_MDLEN_MASK | DDR_PHY_DX0GCR0_CODTSHFT_MASK | DDR_PHY_DX0GCR0_DQSDCC_MASK | DDR_PHY_DX0GCR0_RDDLY_MASK | DDR_PHY_DX0GCR0_RESERVED_19_14_MASK | DDR_PHY_DX0GCR0_DQSNSEPDR_MASK | DDR_PHY_DX0GCR0_DQSSEPDR_MASK | DDR_PHY_DX0GCR0_RTTOAL_MASK | DDR_PHY_DX0GCR0_RTTOH_MASK | DDR_PHY_DX0GCR0_CPDRSHFT_MASK | DDR_PHY_DX0GCR0_DQSRPD_MASK | DDR_PHY_DX0GCR0_DQSGPDR_MASK | DDR_PHY_DX0GCR0_RESERVED_4_MASK | DDR_PHY_DX0GCR0_DQSGODT_MASK | DDR_PHY_DX0GCR0_DQSGOE_MASK | DDR_PHY_DX0GCR0_RESERVED_1_0_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX0GCR0_CALBYP_SHIFT + | 0x00000001U << DDR_PHY_DX0GCR0_MDLEN_SHIFT + | 0x00000000U << DDR_PHY_DX0GCR0_CODTSHFT_SHIFT + | 0x00000000U << DDR_PHY_DX0GCR0_DQSDCC_SHIFT + | 0x00000008U << DDR_PHY_DX0GCR0_RDDLY_SHIFT + | 0x00000000U << DDR_PHY_DX0GCR0_RESERVED_19_14_SHIFT + | 0x00000000U << DDR_PHY_DX0GCR0_DQSNSEPDR_SHIFT + | 0x00000000U << DDR_PHY_DX0GCR0_DQSSEPDR_SHIFT + | 0x00000000U << DDR_PHY_DX0GCR0_RTTOAL_SHIFT + | 0x00000003U << DDR_PHY_DX0GCR0_RTTOH_SHIFT + | 0x00000000U << DDR_PHY_DX0GCR0_CPDRSHFT_SHIFT + | 0x00000000U << DDR_PHY_DX0GCR0_DQSRPD_SHIFT + | 0x00000000U << DDR_PHY_DX0GCR0_DQSGPDR_SHIFT + | 0x00000000U << DDR_PHY_DX0GCR0_RESERVED_4_SHIFT + | 0x00000000U << DDR_PHY_DX0GCR0_DQSGODT_SHIFT + | 0x00000001U << DDR_PHY_DX0GCR0_DQSGOE_SHIFT + | 0x00000000U << DDR_PHY_DX0GCR0_RESERVED_1_0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX0GCR0_OFFSET ,0xFFFFFFFFU ,0x40800604U); + /*############################################################################################################################ */ + + /*Register : DX0GCR4 @ 0XFD080710

+ + Byte lane VREF IOM (Used only by D4MU IOs) + PSU_DDR_PHY_DX0GCR4_RESERVED_31_29 0x0 + + Byte Lane VREF Pad Enable + PSU_DDR_PHY_DX0GCR4_DXREFPEN 0x0 + + Byte Lane Internal VREF Enable + PSU_DDR_PHY_DX0GCR4_DXREFEEN 0x3 + + Byte Lane Single-End VREF Enable + PSU_DDR_PHY_DX0GCR4_DXREFSEN 0x1 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX0GCR4_RESERVED_24 0x0 + + External VREF generator REFSEL range select + PSU_DDR_PHY_DX0GCR4_DXREFESELRANGE 0x0 + + Byte Lane External VREF Select + PSU_DDR_PHY_DX0GCR4_DXREFESEL 0x0 + + Single ended VREF generator REFSEL range select + PSU_DDR_PHY_DX0GCR4_DXREFSSELRANGE 0x1 + + Byte Lane Single-End VREF Select + PSU_DDR_PHY_DX0GCR4_DXREFSSEL 0x30 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX0GCR4_RESERVED_7_6 0x0 + + VREF Enable control for DQ IO (Single Ended) buffers of a byte lane. + PSU_DDR_PHY_DX0GCR4_DXREFIEN 0xf + + VRMON control for DQ IO (Single Ended) buffers of a byte lane. + PSU_DDR_PHY_DX0GCR4_DXREFIMON 0x0 + + DATX8 n General Configuration Register 4 + (OFFSET, MASK, VALUE) (0XFD080710, 0xFFFFFFFFU ,0x0E00B03CU) + RegMask = (DDR_PHY_DX0GCR4_RESERVED_31_29_MASK | DDR_PHY_DX0GCR4_DXREFPEN_MASK | DDR_PHY_DX0GCR4_DXREFEEN_MASK | DDR_PHY_DX0GCR4_DXREFSEN_MASK | DDR_PHY_DX0GCR4_RESERVED_24_MASK | DDR_PHY_DX0GCR4_DXREFESELRANGE_MASK | DDR_PHY_DX0GCR4_DXREFESEL_MASK | DDR_PHY_DX0GCR4_DXREFSSELRANGE_MASK | DDR_PHY_DX0GCR4_DXREFSSEL_MASK | DDR_PHY_DX0GCR4_RESERVED_7_6_MASK | DDR_PHY_DX0GCR4_DXREFIEN_MASK | DDR_PHY_DX0GCR4_DXREFIMON_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX0GCR4_RESERVED_31_29_SHIFT + | 0x00000000U << DDR_PHY_DX0GCR4_DXREFPEN_SHIFT + | 0x00000003U << DDR_PHY_DX0GCR4_DXREFEEN_SHIFT + | 0x00000001U << DDR_PHY_DX0GCR4_DXREFSEN_SHIFT + | 0x00000000U << DDR_PHY_DX0GCR4_RESERVED_24_SHIFT + | 0x00000000U << DDR_PHY_DX0GCR4_DXREFESELRANGE_SHIFT + | 0x00000000U << DDR_PHY_DX0GCR4_DXREFESEL_SHIFT + | 0x00000001U << DDR_PHY_DX0GCR4_DXREFSSELRANGE_SHIFT + | 0x00000030U << DDR_PHY_DX0GCR4_DXREFSSEL_SHIFT + | 0x00000000U << DDR_PHY_DX0GCR4_RESERVED_7_6_SHIFT + | 0x0000000FU << DDR_PHY_DX0GCR4_DXREFIEN_SHIFT + | 0x00000000U << DDR_PHY_DX0GCR4_DXREFIMON_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX0GCR4_OFFSET ,0xFFFFFFFFU ,0x0E00B03CU); + /*############################################################################################################################ */ + + /*Register : DX0GCR5 @ 0XFD080714

+ + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX0GCR5_RESERVED_31 0x0 + + Byte Lane internal VREF Select for Rank 3 + PSU_DDR_PHY_DX0GCR5_DXREFISELR3 0x9 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX0GCR5_RESERVED_23 0x0 + + Byte Lane internal VREF Select for Rank 2 + PSU_DDR_PHY_DX0GCR5_DXREFISELR2 0x9 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX0GCR5_RESERVED_15 0x0 + + Byte Lane internal VREF Select for Rank 1 + PSU_DDR_PHY_DX0GCR5_DXREFISELR1 0x4f + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX0GCR5_RESERVED_7 0x0 + + Byte Lane internal VREF Select for Rank 0 + PSU_DDR_PHY_DX0GCR5_DXREFISELR0 0x4f + + DATX8 n General Configuration Register 5 + (OFFSET, MASK, VALUE) (0XFD080714, 0xFFFFFFFFU ,0x09094F4FU) + RegMask = (DDR_PHY_DX0GCR5_RESERVED_31_MASK | DDR_PHY_DX0GCR5_DXREFISELR3_MASK | DDR_PHY_DX0GCR5_RESERVED_23_MASK | DDR_PHY_DX0GCR5_DXREFISELR2_MASK | DDR_PHY_DX0GCR5_RESERVED_15_MASK | DDR_PHY_DX0GCR5_DXREFISELR1_MASK | DDR_PHY_DX0GCR5_RESERVED_7_MASK | DDR_PHY_DX0GCR5_DXREFISELR0_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX0GCR5_RESERVED_31_SHIFT + | 0x00000009U << DDR_PHY_DX0GCR5_DXREFISELR3_SHIFT + | 0x00000000U << DDR_PHY_DX0GCR5_RESERVED_23_SHIFT + | 0x00000009U << DDR_PHY_DX0GCR5_DXREFISELR2_SHIFT + | 0x00000000U << DDR_PHY_DX0GCR5_RESERVED_15_SHIFT + | 0x0000004FU << DDR_PHY_DX0GCR5_DXREFISELR1_SHIFT + | 0x00000000U << DDR_PHY_DX0GCR5_RESERVED_7_SHIFT + | 0x0000004FU << DDR_PHY_DX0GCR5_DXREFISELR0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX0GCR5_OFFSET ,0xFFFFFFFFU ,0x09094F4FU); + /*############################################################################################################################ */ + + /*Register : DX0GCR6 @ 0XFD080718

+ + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX0GCR6_RESERVED_31_30 0x0 + + DRAM DQ VREF Select for Rank3 + PSU_DDR_PHY_DX0GCR6_DXDQVREFR3 0x9 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX0GCR6_RESERVED_23_22 0x0 + + DRAM DQ VREF Select for Rank2 + PSU_DDR_PHY_DX0GCR6_DXDQVREFR2 0x9 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX0GCR6_RESERVED_15_14 0x0 + + DRAM DQ VREF Select for Rank1 + PSU_DDR_PHY_DX0GCR6_DXDQVREFR1 0x2b + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX0GCR6_RESERVED_7_6 0x0 + + DRAM DQ VREF Select for Rank0 + PSU_DDR_PHY_DX0GCR6_DXDQVREFR0 0x2b + + DATX8 n General Configuration Register 6 + (OFFSET, MASK, VALUE) (0XFD080718, 0xFFFFFFFFU ,0x09092B2BU) + RegMask = (DDR_PHY_DX0GCR6_RESERVED_31_30_MASK | DDR_PHY_DX0GCR6_DXDQVREFR3_MASK | DDR_PHY_DX0GCR6_RESERVED_23_22_MASK | DDR_PHY_DX0GCR6_DXDQVREFR2_MASK | DDR_PHY_DX0GCR6_RESERVED_15_14_MASK | DDR_PHY_DX0GCR6_DXDQVREFR1_MASK | DDR_PHY_DX0GCR6_RESERVED_7_6_MASK | DDR_PHY_DX0GCR6_DXDQVREFR0_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX0GCR6_RESERVED_31_30_SHIFT + | 0x00000009U << DDR_PHY_DX0GCR6_DXDQVREFR3_SHIFT + | 0x00000000U << DDR_PHY_DX0GCR6_RESERVED_23_22_SHIFT + | 0x00000009U << DDR_PHY_DX0GCR6_DXDQVREFR2_SHIFT + | 0x00000000U << DDR_PHY_DX0GCR6_RESERVED_15_14_SHIFT + | 0x0000002BU << DDR_PHY_DX0GCR6_DXDQVREFR1_SHIFT + | 0x00000000U << DDR_PHY_DX0GCR6_RESERVED_7_6_SHIFT + | 0x0000002BU << DDR_PHY_DX0GCR6_DXDQVREFR0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX0GCR6_OFFSET ,0xFFFFFFFFU ,0x09092B2BU); + /*############################################################################################################################ */ + + /*Register : DX0LCDLR2 @ 0XFD080788

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX0LCDLR2_RESERVED_31_25 0x0 + + Reserved. Caution, do not write to this register field. + PSU_DDR_PHY_DX0LCDLR2_RESERVED_24_16 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX0LCDLR2_RESERVED_15_9 0x0 + + Read DQS Gating Delay + PSU_DDR_PHY_DX0LCDLR2_DQSGD 0x0 + + DATX8 n Local Calibrated Delay Line Register 2 + (OFFSET, MASK, VALUE) (0XFD080788, 0xFFFFFFFFU ,0x00000000U) + RegMask = (DDR_PHY_DX0LCDLR2_RESERVED_31_25_MASK | DDR_PHY_DX0LCDLR2_RESERVED_24_16_MASK | DDR_PHY_DX0LCDLR2_RESERVED_15_9_MASK | DDR_PHY_DX0LCDLR2_DQSGD_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX0LCDLR2_RESERVED_31_25_SHIFT + | 0x00000000U << DDR_PHY_DX0LCDLR2_RESERVED_24_16_SHIFT + | 0x00000000U << DDR_PHY_DX0LCDLR2_RESERVED_15_9_SHIFT + | 0x00000000U << DDR_PHY_DX0LCDLR2_DQSGD_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX0LCDLR2_OFFSET ,0xFFFFFFFFU ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : DX0GTR0 @ 0XFD0807C0

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX0GTR0_RESERVED_31_24 0x0 + + DQ Write Path Latency Pipeline + PSU_DDR_PHY_DX0GTR0_WDQSL 0x0 + + Reserved. Caution, do not write to this register field. + PSU_DDR_PHY_DX0GTR0_RESERVED_23_20 0x0 + + Write Leveling System Latency + PSU_DDR_PHY_DX0GTR0_WLSL 0x2 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX0GTR0_RESERVED_15_13 0x0 + + Reserved. Caution, do not write to this register field. + PSU_DDR_PHY_DX0GTR0_RESERVED_12_8 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX0GTR0_RESERVED_7_5 0x0 + + DQS Gating System Latency + PSU_DDR_PHY_DX0GTR0_DGSL 0x0 + + DATX8 n General Timing Register 0 + (OFFSET, MASK, VALUE) (0XFD0807C0, 0xFFFFFFFFU ,0x00020000U) + RegMask = (DDR_PHY_DX0GTR0_RESERVED_31_24_MASK | DDR_PHY_DX0GTR0_WDQSL_MASK | DDR_PHY_DX0GTR0_RESERVED_23_20_MASK | DDR_PHY_DX0GTR0_WLSL_MASK | DDR_PHY_DX0GTR0_RESERVED_15_13_MASK | DDR_PHY_DX0GTR0_RESERVED_12_8_MASK | DDR_PHY_DX0GTR0_RESERVED_7_5_MASK | DDR_PHY_DX0GTR0_DGSL_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX0GTR0_RESERVED_31_24_SHIFT + | 0x00000000U << DDR_PHY_DX0GTR0_WDQSL_SHIFT + | 0x00000000U << DDR_PHY_DX0GTR0_RESERVED_23_20_SHIFT + | 0x00000002U << DDR_PHY_DX0GTR0_WLSL_SHIFT + | 0x00000000U << DDR_PHY_DX0GTR0_RESERVED_15_13_SHIFT + | 0x00000000U << DDR_PHY_DX0GTR0_RESERVED_12_8_SHIFT + | 0x00000000U << DDR_PHY_DX0GTR0_RESERVED_7_5_SHIFT + | 0x00000000U << DDR_PHY_DX0GTR0_DGSL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX0GTR0_OFFSET ,0xFFFFFFFFU ,0x00020000U); + /*############################################################################################################################ */ + + /*Register : DX1GCR0 @ 0XFD080800

+ + Calibration Bypass + PSU_DDR_PHY_DX1GCR0_CALBYP 0x0 + + Master Delay Line Enable + PSU_DDR_PHY_DX1GCR0_MDLEN 0x1 + + Configurable ODT(TE) Phase Shift + PSU_DDR_PHY_DX1GCR0_CODTSHFT 0x0 + + DQS Duty Cycle Correction + PSU_DDR_PHY_DX1GCR0_DQSDCC 0x0 + + Number of Cycles ( in terms of ctl_clk) to generate ctl_dx_get_static_rd input for the respective bypte lane of the PHY + PSU_DDR_PHY_DX1GCR0_RDDLY 0x8 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX1GCR0_RESERVED_19_14 0x0 + + DQSNSE Power Down Receiver + PSU_DDR_PHY_DX1GCR0_DQSNSEPDR 0x0 + + DQSSE Power Down Receiver + PSU_DDR_PHY_DX1GCR0_DQSSEPDR 0x0 + + RTT On Additive Latency + PSU_DDR_PHY_DX1GCR0_RTTOAL 0x0 + + RTT Output Hold + PSU_DDR_PHY_DX1GCR0_RTTOH 0x3 + + Configurable PDR Phase Shift + PSU_DDR_PHY_DX1GCR0_CPDRSHFT 0x0 + + DQSR Power Down + PSU_DDR_PHY_DX1GCR0_DQSRPD 0x0 + + DQSG Power Down Receiver + PSU_DDR_PHY_DX1GCR0_DQSGPDR 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX1GCR0_RESERVED_4 0x0 + + DQSG On-Die Termination + PSU_DDR_PHY_DX1GCR0_DQSGODT 0x0 + + DQSG Output Enable + PSU_DDR_PHY_DX1GCR0_DQSGOE 0x1 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX1GCR0_RESERVED_1_0 0x0 + + DATX8 n General Configuration Register 0 + (OFFSET, MASK, VALUE) (0XFD080800, 0xFFFFFFFFU ,0x40800604U) + RegMask = (DDR_PHY_DX1GCR0_CALBYP_MASK | DDR_PHY_DX1GCR0_MDLEN_MASK | DDR_PHY_DX1GCR0_CODTSHFT_MASK | DDR_PHY_DX1GCR0_DQSDCC_MASK | DDR_PHY_DX1GCR0_RDDLY_MASK | DDR_PHY_DX1GCR0_RESERVED_19_14_MASK | DDR_PHY_DX1GCR0_DQSNSEPDR_MASK | DDR_PHY_DX1GCR0_DQSSEPDR_MASK | DDR_PHY_DX1GCR0_RTTOAL_MASK | DDR_PHY_DX1GCR0_RTTOH_MASK | DDR_PHY_DX1GCR0_CPDRSHFT_MASK | DDR_PHY_DX1GCR0_DQSRPD_MASK | DDR_PHY_DX1GCR0_DQSGPDR_MASK | DDR_PHY_DX1GCR0_RESERVED_4_MASK | DDR_PHY_DX1GCR0_DQSGODT_MASK | DDR_PHY_DX1GCR0_DQSGOE_MASK | DDR_PHY_DX1GCR0_RESERVED_1_0_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX1GCR0_CALBYP_SHIFT + | 0x00000001U << DDR_PHY_DX1GCR0_MDLEN_SHIFT + | 0x00000000U << DDR_PHY_DX1GCR0_CODTSHFT_SHIFT + | 0x00000000U << DDR_PHY_DX1GCR0_DQSDCC_SHIFT + | 0x00000008U << DDR_PHY_DX1GCR0_RDDLY_SHIFT + | 0x00000000U << DDR_PHY_DX1GCR0_RESERVED_19_14_SHIFT + | 0x00000000U << DDR_PHY_DX1GCR0_DQSNSEPDR_SHIFT + | 0x00000000U << DDR_PHY_DX1GCR0_DQSSEPDR_SHIFT + | 0x00000000U << DDR_PHY_DX1GCR0_RTTOAL_SHIFT + | 0x00000003U << DDR_PHY_DX1GCR0_RTTOH_SHIFT + | 0x00000000U << DDR_PHY_DX1GCR0_CPDRSHFT_SHIFT + | 0x00000000U << DDR_PHY_DX1GCR0_DQSRPD_SHIFT + | 0x00000000U << DDR_PHY_DX1GCR0_DQSGPDR_SHIFT + | 0x00000000U << DDR_PHY_DX1GCR0_RESERVED_4_SHIFT + | 0x00000000U << DDR_PHY_DX1GCR0_DQSGODT_SHIFT + | 0x00000001U << DDR_PHY_DX1GCR0_DQSGOE_SHIFT + | 0x00000000U << DDR_PHY_DX1GCR0_RESERVED_1_0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX1GCR0_OFFSET ,0xFFFFFFFFU ,0x40800604U); + /*############################################################################################################################ */ + + /*Register : DX1GCR4 @ 0XFD080810

+ + Byte lane VREF IOM (Used only by D4MU IOs) + PSU_DDR_PHY_DX1GCR4_RESERVED_31_29 0x0 + + Byte Lane VREF Pad Enable + PSU_DDR_PHY_DX1GCR4_DXREFPEN 0x0 + + Byte Lane Internal VREF Enable + PSU_DDR_PHY_DX1GCR4_DXREFEEN 0x3 + + Byte Lane Single-End VREF Enable + PSU_DDR_PHY_DX1GCR4_DXREFSEN 0x1 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX1GCR4_RESERVED_24 0x0 + + External VREF generator REFSEL range select + PSU_DDR_PHY_DX1GCR4_DXREFESELRANGE 0x0 + + Byte Lane External VREF Select + PSU_DDR_PHY_DX1GCR4_DXREFESEL 0x0 + + Single ended VREF generator REFSEL range select + PSU_DDR_PHY_DX1GCR4_DXREFSSELRANGE 0x1 + + Byte Lane Single-End VREF Select + PSU_DDR_PHY_DX1GCR4_DXREFSSEL 0x30 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX1GCR4_RESERVED_7_6 0x0 + + VREF Enable control for DQ IO (Single Ended) buffers of a byte lane. + PSU_DDR_PHY_DX1GCR4_DXREFIEN 0xf + + VRMON control for DQ IO (Single Ended) buffers of a byte lane. + PSU_DDR_PHY_DX1GCR4_DXREFIMON 0x0 + + DATX8 n General Configuration Register 4 + (OFFSET, MASK, VALUE) (0XFD080810, 0xFFFFFFFFU ,0x0E00B03CU) + RegMask = (DDR_PHY_DX1GCR4_RESERVED_31_29_MASK | DDR_PHY_DX1GCR4_DXREFPEN_MASK | DDR_PHY_DX1GCR4_DXREFEEN_MASK | DDR_PHY_DX1GCR4_DXREFSEN_MASK | DDR_PHY_DX1GCR4_RESERVED_24_MASK | DDR_PHY_DX1GCR4_DXREFESELRANGE_MASK | DDR_PHY_DX1GCR4_DXREFESEL_MASK | DDR_PHY_DX1GCR4_DXREFSSELRANGE_MASK | DDR_PHY_DX1GCR4_DXREFSSEL_MASK | DDR_PHY_DX1GCR4_RESERVED_7_6_MASK | DDR_PHY_DX1GCR4_DXREFIEN_MASK | DDR_PHY_DX1GCR4_DXREFIMON_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX1GCR4_RESERVED_31_29_SHIFT + | 0x00000000U << DDR_PHY_DX1GCR4_DXREFPEN_SHIFT + | 0x00000003U << DDR_PHY_DX1GCR4_DXREFEEN_SHIFT + | 0x00000001U << DDR_PHY_DX1GCR4_DXREFSEN_SHIFT + | 0x00000000U << DDR_PHY_DX1GCR4_RESERVED_24_SHIFT + | 0x00000000U << DDR_PHY_DX1GCR4_DXREFESELRANGE_SHIFT + | 0x00000000U << DDR_PHY_DX1GCR4_DXREFESEL_SHIFT + | 0x00000001U << DDR_PHY_DX1GCR4_DXREFSSELRANGE_SHIFT + | 0x00000030U << DDR_PHY_DX1GCR4_DXREFSSEL_SHIFT + | 0x00000000U << DDR_PHY_DX1GCR4_RESERVED_7_6_SHIFT + | 0x0000000FU << DDR_PHY_DX1GCR4_DXREFIEN_SHIFT + | 0x00000000U << DDR_PHY_DX1GCR4_DXREFIMON_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX1GCR4_OFFSET ,0xFFFFFFFFU ,0x0E00B03CU); + /*############################################################################################################################ */ + + /*Register : DX1GCR5 @ 0XFD080814

+ + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX1GCR5_RESERVED_31 0x0 + + Byte Lane internal VREF Select for Rank 3 + PSU_DDR_PHY_DX1GCR5_DXREFISELR3 0x9 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX1GCR5_RESERVED_23 0x0 + + Byte Lane internal VREF Select for Rank 2 + PSU_DDR_PHY_DX1GCR5_DXREFISELR2 0x9 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX1GCR5_RESERVED_15 0x0 + + Byte Lane internal VREF Select for Rank 1 + PSU_DDR_PHY_DX1GCR5_DXREFISELR1 0x4f + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX1GCR5_RESERVED_7 0x0 + + Byte Lane internal VREF Select for Rank 0 + PSU_DDR_PHY_DX1GCR5_DXREFISELR0 0x4f + + DATX8 n General Configuration Register 5 + (OFFSET, MASK, VALUE) (0XFD080814, 0xFFFFFFFFU ,0x09094F4FU) + RegMask = (DDR_PHY_DX1GCR5_RESERVED_31_MASK | DDR_PHY_DX1GCR5_DXREFISELR3_MASK | DDR_PHY_DX1GCR5_RESERVED_23_MASK | DDR_PHY_DX1GCR5_DXREFISELR2_MASK | DDR_PHY_DX1GCR5_RESERVED_15_MASK | DDR_PHY_DX1GCR5_DXREFISELR1_MASK | DDR_PHY_DX1GCR5_RESERVED_7_MASK | DDR_PHY_DX1GCR5_DXREFISELR0_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX1GCR5_RESERVED_31_SHIFT + | 0x00000009U << DDR_PHY_DX1GCR5_DXREFISELR3_SHIFT + | 0x00000000U << DDR_PHY_DX1GCR5_RESERVED_23_SHIFT + | 0x00000009U << DDR_PHY_DX1GCR5_DXREFISELR2_SHIFT + | 0x00000000U << DDR_PHY_DX1GCR5_RESERVED_15_SHIFT + | 0x0000004FU << DDR_PHY_DX1GCR5_DXREFISELR1_SHIFT + | 0x00000000U << DDR_PHY_DX1GCR5_RESERVED_7_SHIFT + | 0x0000004FU << DDR_PHY_DX1GCR5_DXREFISELR0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX1GCR5_OFFSET ,0xFFFFFFFFU ,0x09094F4FU); + /*############################################################################################################################ */ + + /*Register : DX1GCR6 @ 0XFD080818

+ + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX1GCR6_RESERVED_31_30 0x0 + + DRAM DQ VREF Select for Rank3 + PSU_DDR_PHY_DX1GCR6_DXDQVREFR3 0x9 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX1GCR6_RESERVED_23_22 0x0 + + DRAM DQ VREF Select for Rank2 + PSU_DDR_PHY_DX1GCR6_DXDQVREFR2 0x9 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX1GCR6_RESERVED_15_14 0x0 + + DRAM DQ VREF Select for Rank1 + PSU_DDR_PHY_DX1GCR6_DXDQVREFR1 0x2b + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX1GCR6_RESERVED_7_6 0x0 + + DRAM DQ VREF Select for Rank0 + PSU_DDR_PHY_DX1GCR6_DXDQVREFR0 0x2b + + DATX8 n General Configuration Register 6 + (OFFSET, MASK, VALUE) (0XFD080818, 0xFFFFFFFFU ,0x09092B2BU) + RegMask = (DDR_PHY_DX1GCR6_RESERVED_31_30_MASK | DDR_PHY_DX1GCR6_DXDQVREFR3_MASK | DDR_PHY_DX1GCR6_RESERVED_23_22_MASK | DDR_PHY_DX1GCR6_DXDQVREFR2_MASK | DDR_PHY_DX1GCR6_RESERVED_15_14_MASK | DDR_PHY_DX1GCR6_DXDQVREFR1_MASK | DDR_PHY_DX1GCR6_RESERVED_7_6_MASK | DDR_PHY_DX1GCR6_DXDQVREFR0_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX1GCR6_RESERVED_31_30_SHIFT + | 0x00000009U << DDR_PHY_DX1GCR6_DXDQVREFR3_SHIFT + | 0x00000000U << DDR_PHY_DX1GCR6_RESERVED_23_22_SHIFT + | 0x00000009U << DDR_PHY_DX1GCR6_DXDQVREFR2_SHIFT + | 0x00000000U << DDR_PHY_DX1GCR6_RESERVED_15_14_SHIFT + | 0x0000002BU << DDR_PHY_DX1GCR6_DXDQVREFR1_SHIFT + | 0x00000000U << DDR_PHY_DX1GCR6_RESERVED_7_6_SHIFT + | 0x0000002BU << DDR_PHY_DX1GCR6_DXDQVREFR0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX1GCR6_OFFSET ,0xFFFFFFFFU ,0x09092B2BU); + /*############################################################################################################################ */ + + /*Register : DX1LCDLR2 @ 0XFD080888

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX1LCDLR2_RESERVED_31_25 0x0 + + Reserved. Caution, do not write to this register field. + PSU_DDR_PHY_DX1LCDLR2_RESERVED_24_16 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX1LCDLR2_RESERVED_15_9 0x0 + + Read DQS Gating Delay + PSU_DDR_PHY_DX1LCDLR2_DQSGD 0x0 + + DATX8 n Local Calibrated Delay Line Register 2 + (OFFSET, MASK, VALUE) (0XFD080888, 0xFFFFFFFFU ,0x00000000U) + RegMask = (DDR_PHY_DX1LCDLR2_RESERVED_31_25_MASK | DDR_PHY_DX1LCDLR2_RESERVED_24_16_MASK | DDR_PHY_DX1LCDLR2_RESERVED_15_9_MASK | DDR_PHY_DX1LCDLR2_DQSGD_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX1LCDLR2_RESERVED_31_25_SHIFT + | 0x00000000U << DDR_PHY_DX1LCDLR2_RESERVED_24_16_SHIFT + | 0x00000000U << DDR_PHY_DX1LCDLR2_RESERVED_15_9_SHIFT + | 0x00000000U << DDR_PHY_DX1LCDLR2_DQSGD_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX1LCDLR2_OFFSET ,0xFFFFFFFFU ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : DX1GTR0 @ 0XFD0808C0

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX1GTR0_RESERVED_31_24 0x0 + + DQ Write Path Latency Pipeline + PSU_DDR_PHY_DX1GTR0_WDQSL 0x0 + + Reserved. Caution, do not write to this register field. + PSU_DDR_PHY_DX1GTR0_RESERVED_23_20 0x0 + + Write Leveling System Latency + PSU_DDR_PHY_DX1GTR0_WLSL 0x2 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX1GTR0_RESERVED_15_13 0x0 + + Reserved. Caution, do not write to this register field. + PSU_DDR_PHY_DX1GTR0_RESERVED_12_8 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX1GTR0_RESERVED_7_5 0x0 + + DQS Gating System Latency + PSU_DDR_PHY_DX1GTR0_DGSL 0x0 + + DATX8 n General Timing Register 0 + (OFFSET, MASK, VALUE) (0XFD0808C0, 0xFFFFFFFFU ,0x00020000U) + RegMask = (DDR_PHY_DX1GTR0_RESERVED_31_24_MASK | DDR_PHY_DX1GTR0_WDQSL_MASK | DDR_PHY_DX1GTR0_RESERVED_23_20_MASK | DDR_PHY_DX1GTR0_WLSL_MASK | DDR_PHY_DX1GTR0_RESERVED_15_13_MASK | DDR_PHY_DX1GTR0_RESERVED_12_8_MASK | DDR_PHY_DX1GTR0_RESERVED_7_5_MASK | DDR_PHY_DX1GTR0_DGSL_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX1GTR0_RESERVED_31_24_SHIFT + | 0x00000000U << DDR_PHY_DX1GTR0_WDQSL_SHIFT + | 0x00000000U << DDR_PHY_DX1GTR0_RESERVED_23_20_SHIFT + | 0x00000002U << DDR_PHY_DX1GTR0_WLSL_SHIFT + | 0x00000000U << DDR_PHY_DX1GTR0_RESERVED_15_13_SHIFT + | 0x00000000U << DDR_PHY_DX1GTR0_RESERVED_12_8_SHIFT + | 0x00000000U << DDR_PHY_DX1GTR0_RESERVED_7_5_SHIFT + | 0x00000000U << DDR_PHY_DX1GTR0_DGSL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX1GTR0_OFFSET ,0xFFFFFFFFU ,0x00020000U); + /*############################################################################################################################ */ + + /*Register : DX2GCR0 @ 0XFD080900

+ + Calibration Bypass + PSU_DDR_PHY_DX2GCR0_CALBYP 0x0 + + Master Delay Line Enable + PSU_DDR_PHY_DX2GCR0_MDLEN 0x1 + + Configurable ODT(TE) Phase Shift + PSU_DDR_PHY_DX2GCR0_CODTSHFT 0x0 + + DQS Duty Cycle Correction + PSU_DDR_PHY_DX2GCR0_DQSDCC 0x0 + + Number of Cycles ( in terms of ctl_clk) to generate ctl_dx_get_static_rd input for the respective bypte lane of the PHY + PSU_DDR_PHY_DX2GCR0_RDDLY 0x8 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX2GCR0_RESERVED_19_14 0x0 + + DQSNSE Power Down Receiver + PSU_DDR_PHY_DX2GCR0_DQSNSEPDR 0x0 + + DQSSE Power Down Receiver + PSU_DDR_PHY_DX2GCR0_DQSSEPDR 0x0 + + RTT On Additive Latency + PSU_DDR_PHY_DX2GCR0_RTTOAL 0x0 + + RTT Output Hold + PSU_DDR_PHY_DX2GCR0_RTTOH 0x3 + + Configurable PDR Phase Shift + PSU_DDR_PHY_DX2GCR0_CPDRSHFT 0x0 + + DQSR Power Down + PSU_DDR_PHY_DX2GCR0_DQSRPD 0x0 + + DQSG Power Down Receiver + PSU_DDR_PHY_DX2GCR0_DQSGPDR 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX2GCR0_RESERVED_4 0x0 + + DQSG On-Die Termination + PSU_DDR_PHY_DX2GCR0_DQSGODT 0x0 + + DQSG Output Enable + PSU_DDR_PHY_DX2GCR0_DQSGOE 0x1 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX2GCR0_RESERVED_1_0 0x0 + + DATX8 n General Configuration Register 0 + (OFFSET, MASK, VALUE) (0XFD080900, 0xFFFFFFFFU ,0x40800604U) + RegMask = (DDR_PHY_DX2GCR0_CALBYP_MASK | DDR_PHY_DX2GCR0_MDLEN_MASK | DDR_PHY_DX2GCR0_CODTSHFT_MASK | DDR_PHY_DX2GCR0_DQSDCC_MASK | DDR_PHY_DX2GCR0_RDDLY_MASK | DDR_PHY_DX2GCR0_RESERVED_19_14_MASK | DDR_PHY_DX2GCR0_DQSNSEPDR_MASK | DDR_PHY_DX2GCR0_DQSSEPDR_MASK | DDR_PHY_DX2GCR0_RTTOAL_MASK | DDR_PHY_DX2GCR0_RTTOH_MASK | DDR_PHY_DX2GCR0_CPDRSHFT_MASK | DDR_PHY_DX2GCR0_DQSRPD_MASK | DDR_PHY_DX2GCR0_DQSGPDR_MASK | DDR_PHY_DX2GCR0_RESERVED_4_MASK | DDR_PHY_DX2GCR0_DQSGODT_MASK | DDR_PHY_DX2GCR0_DQSGOE_MASK | DDR_PHY_DX2GCR0_RESERVED_1_0_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX2GCR0_CALBYP_SHIFT + | 0x00000001U << DDR_PHY_DX2GCR0_MDLEN_SHIFT + | 0x00000000U << DDR_PHY_DX2GCR0_CODTSHFT_SHIFT + | 0x00000000U << DDR_PHY_DX2GCR0_DQSDCC_SHIFT + | 0x00000008U << DDR_PHY_DX2GCR0_RDDLY_SHIFT + | 0x00000000U << DDR_PHY_DX2GCR0_RESERVED_19_14_SHIFT + | 0x00000000U << DDR_PHY_DX2GCR0_DQSNSEPDR_SHIFT + | 0x00000000U << DDR_PHY_DX2GCR0_DQSSEPDR_SHIFT + | 0x00000000U << DDR_PHY_DX2GCR0_RTTOAL_SHIFT + | 0x00000003U << DDR_PHY_DX2GCR0_RTTOH_SHIFT + | 0x00000000U << DDR_PHY_DX2GCR0_CPDRSHFT_SHIFT + | 0x00000000U << DDR_PHY_DX2GCR0_DQSRPD_SHIFT + | 0x00000000U << DDR_PHY_DX2GCR0_DQSGPDR_SHIFT + | 0x00000000U << DDR_PHY_DX2GCR0_RESERVED_4_SHIFT + | 0x00000000U << DDR_PHY_DX2GCR0_DQSGODT_SHIFT + | 0x00000001U << DDR_PHY_DX2GCR0_DQSGOE_SHIFT + | 0x00000000U << DDR_PHY_DX2GCR0_RESERVED_1_0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX2GCR0_OFFSET ,0xFFFFFFFFU ,0x40800604U); + /*############################################################################################################################ */ + + /*Register : DX2GCR1 @ 0XFD080904

+ + Enables the PDR mode for DQ[7:0] + PSU_DDR_PHY_DX2GCR1_DXPDRMODE 0x0 + + Reserved. Returns zeroes on reads. + PSU_DDR_PHY_DX2GCR1_RESERVED_15 0x0 + + Select the delayed or non-delayed read data strobe # + PSU_DDR_PHY_DX2GCR1_QSNSEL 0x1 + + Select the delayed or non-delayed read data strobe + PSU_DDR_PHY_DX2GCR1_QSSEL 0x1 + + Enables Read Data Strobe in a byte lane + PSU_DDR_PHY_DX2GCR1_OEEN 0x1 + + Enables PDR in a byte lane + PSU_DDR_PHY_DX2GCR1_PDREN 0x1 + + Enables ODT/TE in a byte lane + PSU_DDR_PHY_DX2GCR1_TEEN 0x1 + + Enables Write Data strobe in a byte lane + PSU_DDR_PHY_DX2GCR1_DSEN 0x1 + + Enables DM pin in a byte lane + PSU_DDR_PHY_DX2GCR1_DMEN 0x1 + + Enables DQ corresponding to each bit in a byte + PSU_DDR_PHY_DX2GCR1_DQEN 0xff + + DATX8 n General Configuration Register 1 + (OFFSET, MASK, VALUE) (0XFD080904, 0xFFFFFFFFU ,0x00007FFFU) + RegMask = (DDR_PHY_DX2GCR1_DXPDRMODE_MASK | DDR_PHY_DX2GCR1_RESERVED_15_MASK | DDR_PHY_DX2GCR1_QSNSEL_MASK | DDR_PHY_DX2GCR1_QSSEL_MASK | DDR_PHY_DX2GCR1_OEEN_MASK | DDR_PHY_DX2GCR1_PDREN_MASK | DDR_PHY_DX2GCR1_TEEN_MASK | DDR_PHY_DX2GCR1_DSEN_MASK | DDR_PHY_DX2GCR1_DMEN_MASK | DDR_PHY_DX2GCR1_DQEN_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX2GCR1_DXPDRMODE_SHIFT + | 0x00000000U << DDR_PHY_DX2GCR1_RESERVED_15_SHIFT + | 0x00000001U << DDR_PHY_DX2GCR1_QSNSEL_SHIFT + | 0x00000001U << DDR_PHY_DX2GCR1_QSSEL_SHIFT + | 0x00000001U << DDR_PHY_DX2GCR1_OEEN_SHIFT + | 0x00000001U << DDR_PHY_DX2GCR1_PDREN_SHIFT + | 0x00000001U << DDR_PHY_DX2GCR1_TEEN_SHIFT + | 0x00000001U << DDR_PHY_DX2GCR1_DSEN_SHIFT + | 0x00000001U << DDR_PHY_DX2GCR1_DMEN_SHIFT + | 0x000000FFU << DDR_PHY_DX2GCR1_DQEN_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX2GCR1_OFFSET ,0xFFFFFFFFU ,0x00007FFFU); + /*############################################################################################################################ */ + + /*Register : DX2GCR4 @ 0XFD080910

+ + Byte lane VREF IOM (Used only by D4MU IOs) + PSU_DDR_PHY_DX2GCR4_RESERVED_31_29 0x0 + + Byte Lane VREF Pad Enable + PSU_DDR_PHY_DX2GCR4_DXREFPEN 0x0 + + Byte Lane Internal VREF Enable + PSU_DDR_PHY_DX2GCR4_DXREFEEN 0x3 + + Byte Lane Single-End VREF Enable + PSU_DDR_PHY_DX2GCR4_DXREFSEN 0x1 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX2GCR4_RESERVED_24 0x0 + + External VREF generator REFSEL range select + PSU_DDR_PHY_DX2GCR4_DXREFESELRANGE 0x0 + + Byte Lane External VREF Select + PSU_DDR_PHY_DX2GCR4_DXREFESEL 0x0 + + Single ended VREF generator REFSEL range select + PSU_DDR_PHY_DX2GCR4_DXREFSSELRANGE 0x1 + + Byte Lane Single-End VREF Select + PSU_DDR_PHY_DX2GCR4_DXREFSSEL 0x30 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX2GCR4_RESERVED_7_6 0x0 + + VREF Enable control for DQ IO (Single Ended) buffers of a byte lane. + PSU_DDR_PHY_DX2GCR4_DXREFIEN 0xf + + VRMON control for DQ IO (Single Ended) buffers of a byte lane. + PSU_DDR_PHY_DX2GCR4_DXREFIMON 0x0 + + DATX8 n General Configuration Register 4 + (OFFSET, MASK, VALUE) (0XFD080910, 0xFFFFFFFFU ,0x0E00B03CU) + RegMask = (DDR_PHY_DX2GCR4_RESERVED_31_29_MASK | DDR_PHY_DX2GCR4_DXREFPEN_MASK | DDR_PHY_DX2GCR4_DXREFEEN_MASK | DDR_PHY_DX2GCR4_DXREFSEN_MASK | DDR_PHY_DX2GCR4_RESERVED_24_MASK | DDR_PHY_DX2GCR4_DXREFESELRANGE_MASK | DDR_PHY_DX2GCR4_DXREFESEL_MASK | DDR_PHY_DX2GCR4_DXREFSSELRANGE_MASK | DDR_PHY_DX2GCR4_DXREFSSEL_MASK | DDR_PHY_DX2GCR4_RESERVED_7_6_MASK | DDR_PHY_DX2GCR4_DXREFIEN_MASK | DDR_PHY_DX2GCR4_DXREFIMON_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX2GCR4_RESERVED_31_29_SHIFT + | 0x00000000U << DDR_PHY_DX2GCR4_DXREFPEN_SHIFT + | 0x00000003U << DDR_PHY_DX2GCR4_DXREFEEN_SHIFT + | 0x00000001U << DDR_PHY_DX2GCR4_DXREFSEN_SHIFT + | 0x00000000U << DDR_PHY_DX2GCR4_RESERVED_24_SHIFT + | 0x00000000U << DDR_PHY_DX2GCR4_DXREFESELRANGE_SHIFT + | 0x00000000U << DDR_PHY_DX2GCR4_DXREFESEL_SHIFT + | 0x00000001U << DDR_PHY_DX2GCR4_DXREFSSELRANGE_SHIFT + | 0x00000030U << DDR_PHY_DX2GCR4_DXREFSSEL_SHIFT + | 0x00000000U << DDR_PHY_DX2GCR4_RESERVED_7_6_SHIFT + | 0x0000000FU << DDR_PHY_DX2GCR4_DXREFIEN_SHIFT + | 0x00000000U << DDR_PHY_DX2GCR4_DXREFIMON_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX2GCR4_OFFSET ,0xFFFFFFFFU ,0x0E00B03CU); + /*############################################################################################################################ */ + + /*Register : DX2GCR5 @ 0XFD080914

+ + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX2GCR5_RESERVED_31 0x0 + + Byte Lane internal VREF Select for Rank 3 + PSU_DDR_PHY_DX2GCR5_DXREFISELR3 0x9 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX2GCR5_RESERVED_23 0x0 + + Byte Lane internal VREF Select for Rank 2 + PSU_DDR_PHY_DX2GCR5_DXREFISELR2 0x9 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX2GCR5_RESERVED_15 0x0 + + Byte Lane internal VREF Select for Rank 1 + PSU_DDR_PHY_DX2GCR5_DXREFISELR1 0x4f + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX2GCR5_RESERVED_7 0x0 + + Byte Lane internal VREF Select for Rank 0 + PSU_DDR_PHY_DX2GCR5_DXREFISELR0 0x4f + + DATX8 n General Configuration Register 5 + (OFFSET, MASK, VALUE) (0XFD080914, 0xFFFFFFFFU ,0x09094F4FU) + RegMask = (DDR_PHY_DX2GCR5_RESERVED_31_MASK | DDR_PHY_DX2GCR5_DXREFISELR3_MASK | DDR_PHY_DX2GCR5_RESERVED_23_MASK | DDR_PHY_DX2GCR5_DXREFISELR2_MASK | DDR_PHY_DX2GCR5_RESERVED_15_MASK | DDR_PHY_DX2GCR5_DXREFISELR1_MASK | DDR_PHY_DX2GCR5_RESERVED_7_MASK | DDR_PHY_DX2GCR5_DXREFISELR0_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX2GCR5_RESERVED_31_SHIFT + | 0x00000009U << DDR_PHY_DX2GCR5_DXREFISELR3_SHIFT + | 0x00000000U << DDR_PHY_DX2GCR5_RESERVED_23_SHIFT + | 0x00000009U << DDR_PHY_DX2GCR5_DXREFISELR2_SHIFT + | 0x00000000U << DDR_PHY_DX2GCR5_RESERVED_15_SHIFT + | 0x0000004FU << DDR_PHY_DX2GCR5_DXREFISELR1_SHIFT + | 0x00000000U << DDR_PHY_DX2GCR5_RESERVED_7_SHIFT + | 0x0000004FU << DDR_PHY_DX2GCR5_DXREFISELR0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX2GCR5_OFFSET ,0xFFFFFFFFU ,0x09094F4FU); + /*############################################################################################################################ */ + + /*Register : DX2GCR6 @ 0XFD080918

+ + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX2GCR6_RESERVED_31_30 0x0 + + DRAM DQ VREF Select for Rank3 + PSU_DDR_PHY_DX2GCR6_DXDQVREFR3 0x9 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX2GCR6_RESERVED_23_22 0x0 + + DRAM DQ VREF Select for Rank2 + PSU_DDR_PHY_DX2GCR6_DXDQVREFR2 0x9 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX2GCR6_RESERVED_15_14 0x0 + + DRAM DQ VREF Select for Rank1 + PSU_DDR_PHY_DX2GCR6_DXDQVREFR1 0x2b + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX2GCR6_RESERVED_7_6 0x0 + + DRAM DQ VREF Select for Rank0 + PSU_DDR_PHY_DX2GCR6_DXDQVREFR0 0x2b + + DATX8 n General Configuration Register 6 + (OFFSET, MASK, VALUE) (0XFD080918, 0xFFFFFFFFU ,0x09092B2BU) + RegMask = (DDR_PHY_DX2GCR6_RESERVED_31_30_MASK | DDR_PHY_DX2GCR6_DXDQVREFR3_MASK | DDR_PHY_DX2GCR6_RESERVED_23_22_MASK | DDR_PHY_DX2GCR6_DXDQVREFR2_MASK | DDR_PHY_DX2GCR6_RESERVED_15_14_MASK | DDR_PHY_DX2GCR6_DXDQVREFR1_MASK | DDR_PHY_DX2GCR6_RESERVED_7_6_MASK | DDR_PHY_DX2GCR6_DXDQVREFR0_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX2GCR6_RESERVED_31_30_SHIFT + | 0x00000009U << DDR_PHY_DX2GCR6_DXDQVREFR3_SHIFT + | 0x00000000U << DDR_PHY_DX2GCR6_RESERVED_23_22_SHIFT + | 0x00000009U << DDR_PHY_DX2GCR6_DXDQVREFR2_SHIFT + | 0x00000000U << DDR_PHY_DX2GCR6_RESERVED_15_14_SHIFT + | 0x0000002BU << DDR_PHY_DX2GCR6_DXDQVREFR1_SHIFT + | 0x00000000U << DDR_PHY_DX2GCR6_RESERVED_7_6_SHIFT + | 0x0000002BU << DDR_PHY_DX2GCR6_DXDQVREFR0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX2GCR6_OFFSET ,0xFFFFFFFFU ,0x09092B2BU); + /*############################################################################################################################ */ + + /*Register : DX2LCDLR2 @ 0XFD080988

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX2LCDLR2_RESERVED_31_25 0x0 + + Reserved. Caution, do not write to this register field. + PSU_DDR_PHY_DX2LCDLR2_RESERVED_24_16 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX2LCDLR2_RESERVED_15_9 0x0 + + Read DQS Gating Delay + PSU_DDR_PHY_DX2LCDLR2_DQSGD 0x0 + + DATX8 n Local Calibrated Delay Line Register 2 + (OFFSET, MASK, VALUE) (0XFD080988, 0xFFFFFFFFU ,0x00000000U) + RegMask = (DDR_PHY_DX2LCDLR2_RESERVED_31_25_MASK | DDR_PHY_DX2LCDLR2_RESERVED_24_16_MASK | DDR_PHY_DX2LCDLR2_RESERVED_15_9_MASK | DDR_PHY_DX2LCDLR2_DQSGD_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX2LCDLR2_RESERVED_31_25_SHIFT + | 0x00000000U << DDR_PHY_DX2LCDLR2_RESERVED_24_16_SHIFT + | 0x00000000U << DDR_PHY_DX2LCDLR2_RESERVED_15_9_SHIFT + | 0x00000000U << DDR_PHY_DX2LCDLR2_DQSGD_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX2LCDLR2_OFFSET ,0xFFFFFFFFU ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : DX2GTR0 @ 0XFD0809C0

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX2GTR0_RESERVED_31_24 0x0 + + DQ Write Path Latency Pipeline + PSU_DDR_PHY_DX2GTR0_WDQSL 0x0 + + Reserved. Caution, do not write to this register field. + PSU_DDR_PHY_DX2GTR0_RESERVED_23_20 0x0 + + Write Leveling System Latency + PSU_DDR_PHY_DX2GTR0_WLSL 0x2 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX2GTR0_RESERVED_15_13 0x0 + + Reserved. Caution, do not write to this register field. + PSU_DDR_PHY_DX2GTR0_RESERVED_12_8 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX2GTR0_RESERVED_7_5 0x0 + + DQS Gating System Latency + PSU_DDR_PHY_DX2GTR0_DGSL 0x0 + + DATX8 n General Timing Register 0 + (OFFSET, MASK, VALUE) (0XFD0809C0, 0xFFFFFFFFU ,0x00020000U) + RegMask = (DDR_PHY_DX2GTR0_RESERVED_31_24_MASK | DDR_PHY_DX2GTR0_WDQSL_MASK | DDR_PHY_DX2GTR0_RESERVED_23_20_MASK | DDR_PHY_DX2GTR0_WLSL_MASK | DDR_PHY_DX2GTR0_RESERVED_15_13_MASK | DDR_PHY_DX2GTR0_RESERVED_12_8_MASK | DDR_PHY_DX2GTR0_RESERVED_7_5_MASK | DDR_PHY_DX2GTR0_DGSL_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX2GTR0_RESERVED_31_24_SHIFT + | 0x00000000U << DDR_PHY_DX2GTR0_WDQSL_SHIFT + | 0x00000000U << DDR_PHY_DX2GTR0_RESERVED_23_20_SHIFT + | 0x00000002U << DDR_PHY_DX2GTR0_WLSL_SHIFT + | 0x00000000U << DDR_PHY_DX2GTR0_RESERVED_15_13_SHIFT + | 0x00000000U << DDR_PHY_DX2GTR0_RESERVED_12_8_SHIFT + | 0x00000000U << DDR_PHY_DX2GTR0_RESERVED_7_5_SHIFT + | 0x00000000U << DDR_PHY_DX2GTR0_DGSL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX2GTR0_OFFSET ,0xFFFFFFFFU ,0x00020000U); + /*############################################################################################################################ */ + + /*Register : DX3GCR0 @ 0XFD080A00

+ + Calibration Bypass + PSU_DDR_PHY_DX3GCR0_CALBYP 0x0 + + Master Delay Line Enable + PSU_DDR_PHY_DX3GCR0_MDLEN 0x1 + + Configurable ODT(TE) Phase Shift + PSU_DDR_PHY_DX3GCR0_CODTSHFT 0x0 + + DQS Duty Cycle Correction + PSU_DDR_PHY_DX3GCR0_DQSDCC 0x0 + + Number of Cycles ( in terms of ctl_clk) to generate ctl_dx_get_static_rd input for the respective bypte lane of the PHY + PSU_DDR_PHY_DX3GCR0_RDDLY 0x8 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX3GCR0_RESERVED_19_14 0x0 + + DQSNSE Power Down Receiver + PSU_DDR_PHY_DX3GCR0_DQSNSEPDR 0x0 + + DQSSE Power Down Receiver + PSU_DDR_PHY_DX3GCR0_DQSSEPDR 0x0 + + RTT On Additive Latency + PSU_DDR_PHY_DX3GCR0_RTTOAL 0x0 + + RTT Output Hold + PSU_DDR_PHY_DX3GCR0_RTTOH 0x3 + + Configurable PDR Phase Shift + PSU_DDR_PHY_DX3GCR0_CPDRSHFT 0x0 + + DQSR Power Down + PSU_DDR_PHY_DX3GCR0_DQSRPD 0x0 + + DQSG Power Down Receiver + PSU_DDR_PHY_DX3GCR0_DQSGPDR 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX3GCR0_RESERVED_4 0x0 + + DQSG On-Die Termination + PSU_DDR_PHY_DX3GCR0_DQSGODT 0x0 + + DQSG Output Enable + PSU_DDR_PHY_DX3GCR0_DQSGOE 0x1 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX3GCR0_RESERVED_1_0 0x0 + + DATX8 n General Configuration Register 0 + (OFFSET, MASK, VALUE) (0XFD080A00, 0xFFFFFFFFU ,0x40800604U) + RegMask = (DDR_PHY_DX3GCR0_CALBYP_MASK | DDR_PHY_DX3GCR0_MDLEN_MASK | DDR_PHY_DX3GCR0_CODTSHFT_MASK | DDR_PHY_DX3GCR0_DQSDCC_MASK | DDR_PHY_DX3GCR0_RDDLY_MASK | DDR_PHY_DX3GCR0_RESERVED_19_14_MASK | DDR_PHY_DX3GCR0_DQSNSEPDR_MASK | DDR_PHY_DX3GCR0_DQSSEPDR_MASK | DDR_PHY_DX3GCR0_RTTOAL_MASK | DDR_PHY_DX3GCR0_RTTOH_MASK | DDR_PHY_DX3GCR0_CPDRSHFT_MASK | DDR_PHY_DX3GCR0_DQSRPD_MASK | DDR_PHY_DX3GCR0_DQSGPDR_MASK | DDR_PHY_DX3GCR0_RESERVED_4_MASK | DDR_PHY_DX3GCR0_DQSGODT_MASK | DDR_PHY_DX3GCR0_DQSGOE_MASK | DDR_PHY_DX3GCR0_RESERVED_1_0_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX3GCR0_CALBYP_SHIFT + | 0x00000001U << DDR_PHY_DX3GCR0_MDLEN_SHIFT + | 0x00000000U << DDR_PHY_DX3GCR0_CODTSHFT_SHIFT + | 0x00000000U << DDR_PHY_DX3GCR0_DQSDCC_SHIFT + | 0x00000008U << DDR_PHY_DX3GCR0_RDDLY_SHIFT + | 0x00000000U << DDR_PHY_DX3GCR0_RESERVED_19_14_SHIFT + | 0x00000000U << DDR_PHY_DX3GCR0_DQSNSEPDR_SHIFT + | 0x00000000U << DDR_PHY_DX3GCR0_DQSSEPDR_SHIFT + | 0x00000000U << DDR_PHY_DX3GCR0_RTTOAL_SHIFT + | 0x00000003U << DDR_PHY_DX3GCR0_RTTOH_SHIFT + | 0x00000000U << DDR_PHY_DX3GCR0_CPDRSHFT_SHIFT + | 0x00000000U << DDR_PHY_DX3GCR0_DQSRPD_SHIFT + | 0x00000000U << DDR_PHY_DX3GCR0_DQSGPDR_SHIFT + | 0x00000000U << DDR_PHY_DX3GCR0_RESERVED_4_SHIFT + | 0x00000000U << DDR_PHY_DX3GCR0_DQSGODT_SHIFT + | 0x00000001U << DDR_PHY_DX3GCR0_DQSGOE_SHIFT + | 0x00000000U << DDR_PHY_DX3GCR0_RESERVED_1_0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX3GCR0_OFFSET ,0xFFFFFFFFU ,0x40800604U); + /*############################################################################################################################ */ + + /*Register : DX3GCR1 @ 0XFD080A04

+ + Enables the PDR mode for DQ[7:0] + PSU_DDR_PHY_DX3GCR1_DXPDRMODE 0x0 + + Reserved. Returns zeroes on reads. + PSU_DDR_PHY_DX3GCR1_RESERVED_15 0x0 + + Select the delayed or non-delayed read data strobe # + PSU_DDR_PHY_DX3GCR1_QSNSEL 0x1 + + Select the delayed or non-delayed read data strobe + PSU_DDR_PHY_DX3GCR1_QSSEL 0x1 + + Enables Read Data Strobe in a byte lane + PSU_DDR_PHY_DX3GCR1_OEEN 0x1 + + Enables PDR in a byte lane + PSU_DDR_PHY_DX3GCR1_PDREN 0x1 + + Enables ODT/TE in a byte lane + PSU_DDR_PHY_DX3GCR1_TEEN 0x1 + + Enables Write Data strobe in a byte lane + PSU_DDR_PHY_DX3GCR1_DSEN 0x1 + + Enables DM pin in a byte lane + PSU_DDR_PHY_DX3GCR1_DMEN 0x1 + + Enables DQ corresponding to each bit in a byte + PSU_DDR_PHY_DX3GCR1_DQEN 0xff + + DATX8 n General Configuration Register 1 + (OFFSET, MASK, VALUE) (0XFD080A04, 0xFFFFFFFFU ,0x00007FFFU) + RegMask = (DDR_PHY_DX3GCR1_DXPDRMODE_MASK | DDR_PHY_DX3GCR1_RESERVED_15_MASK | DDR_PHY_DX3GCR1_QSNSEL_MASK | DDR_PHY_DX3GCR1_QSSEL_MASK | DDR_PHY_DX3GCR1_OEEN_MASK | DDR_PHY_DX3GCR1_PDREN_MASK | DDR_PHY_DX3GCR1_TEEN_MASK | DDR_PHY_DX3GCR1_DSEN_MASK | DDR_PHY_DX3GCR1_DMEN_MASK | DDR_PHY_DX3GCR1_DQEN_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX3GCR1_DXPDRMODE_SHIFT + | 0x00000000U << DDR_PHY_DX3GCR1_RESERVED_15_SHIFT + | 0x00000001U << DDR_PHY_DX3GCR1_QSNSEL_SHIFT + | 0x00000001U << DDR_PHY_DX3GCR1_QSSEL_SHIFT + | 0x00000001U << DDR_PHY_DX3GCR1_OEEN_SHIFT + | 0x00000001U << DDR_PHY_DX3GCR1_PDREN_SHIFT + | 0x00000001U << DDR_PHY_DX3GCR1_TEEN_SHIFT + | 0x00000001U << DDR_PHY_DX3GCR1_DSEN_SHIFT + | 0x00000001U << DDR_PHY_DX3GCR1_DMEN_SHIFT + | 0x000000FFU << DDR_PHY_DX3GCR1_DQEN_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX3GCR1_OFFSET ,0xFFFFFFFFU ,0x00007FFFU); + /*############################################################################################################################ */ + + /*Register : DX3GCR4 @ 0XFD080A10

+ + Byte lane VREF IOM (Used only by D4MU IOs) + PSU_DDR_PHY_DX3GCR4_RESERVED_31_29 0x0 + + Byte Lane VREF Pad Enable + PSU_DDR_PHY_DX3GCR4_DXREFPEN 0x0 + + Byte Lane Internal VREF Enable + PSU_DDR_PHY_DX3GCR4_DXREFEEN 0x3 + + Byte Lane Single-End VREF Enable + PSU_DDR_PHY_DX3GCR4_DXREFSEN 0x1 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX3GCR4_RESERVED_24 0x0 + + External VREF generator REFSEL range select + PSU_DDR_PHY_DX3GCR4_DXREFESELRANGE 0x0 + + Byte Lane External VREF Select + PSU_DDR_PHY_DX3GCR4_DXREFESEL 0x0 + + Single ended VREF generator REFSEL range select + PSU_DDR_PHY_DX3GCR4_DXREFSSELRANGE 0x1 + + Byte Lane Single-End VREF Select + PSU_DDR_PHY_DX3GCR4_DXREFSSEL 0x30 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX3GCR4_RESERVED_7_6 0x0 + + VREF Enable control for DQ IO (Single Ended) buffers of a byte lane. + PSU_DDR_PHY_DX3GCR4_DXREFIEN 0xf + + VRMON control for DQ IO (Single Ended) buffers of a byte lane. + PSU_DDR_PHY_DX3GCR4_DXREFIMON 0x0 + + DATX8 n General Configuration Register 4 + (OFFSET, MASK, VALUE) (0XFD080A10, 0xFFFFFFFFU ,0x0E00B03CU) + RegMask = (DDR_PHY_DX3GCR4_RESERVED_31_29_MASK | DDR_PHY_DX3GCR4_DXREFPEN_MASK | DDR_PHY_DX3GCR4_DXREFEEN_MASK | DDR_PHY_DX3GCR4_DXREFSEN_MASK | DDR_PHY_DX3GCR4_RESERVED_24_MASK | DDR_PHY_DX3GCR4_DXREFESELRANGE_MASK | DDR_PHY_DX3GCR4_DXREFESEL_MASK | DDR_PHY_DX3GCR4_DXREFSSELRANGE_MASK | DDR_PHY_DX3GCR4_DXREFSSEL_MASK | DDR_PHY_DX3GCR4_RESERVED_7_6_MASK | DDR_PHY_DX3GCR4_DXREFIEN_MASK | DDR_PHY_DX3GCR4_DXREFIMON_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX3GCR4_RESERVED_31_29_SHIFT + | 0x00000000U << DDR_PHY_DX3GCR4_DXREFPEN_SHIFT + | 0x00000003U << DDR_PHY_DX3GCR4_DXREFEEN_SHIFT + | 0x00000001U << DDR_PHY_DX3GCR4_DXREFSEN_SHIFT + | 0x00000000U << DDR_PHY_DX3GCR4_RESERVED_24_SHIFT + | 0x00000000U << DDR_PHY_DX3GCR4_DXREFESELRANGE_SHIFT + | 0x00000000U << DDR_PHY_DX3GCR4_DXREFESEL_SHIFT + | 0x00000001U << DDR_PHY_DX3GCR4_DXREFSSELRANGE_SHIFT + | 0x00000030U << DDR_PHY_DX3GCR4_DXREFSSEL_SHIFT + | 0x00000000U << DDR_PHY_DX3GCR4_RESERVED_7_6_SHIFT + | 0x0000000FU << DDR_PHY_DX3GCR4_DXREFIEN_SHIFT + | 0x00000000U << DDR_PHY_DX3GCR4_DXREFIMON_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX3GCR4_OFFSET ,0xFFFFFFFFU ,0x0E00B03CU); + /*############################################################################################################################ */ + + /*Register : DX3GCR5 @ 0XFD080A14

+ + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX3GCR5_RESERVED_31 0x0 + + Byte Lane internal VREF Select for Rank 3 + PSU_DDR_PHY_DX3GCR5_DXREFISELR3 0x9 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX3GCR5_RESERVED_23 0x0 + + Byte Lane internal VREF Select for Rank 2 + PSU_DDR_PHY_DX3GCR5_DXREFISELR2 0x9 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX3GCR5_RESERVED_15 0x0 + + Byte Lane internal VREF Select for Rank 1 + PSU_DDR_PHY_DX3GCR5_DXREFISELR1 0x4f + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX3GCR5_RESERVED_7 0x0 + + Byte Lane internal VREF Select for Rank 0 + PSU_DDR_PHY_DX3GCR5_DXREFISELR0 0x4f + + DATX8 n General Configuration Register 5 + (OFFSET, MASK, VALUE) (0XFD080A14, 0xFFFFFFFFU ,0x09094F4FU) + RegMask = (DDR_PHY_DX3GCR5_RESERVED_31_MASK | DDR_PHY_DX3GCR5_DXREFISELR3_MASK | DDR_PHY_DX3GCR5_RESERVED_23_MASK | DDR_PHY_DX3GCR5_DXREFISELR2_MASK | DDR_PHY_DX3GCR5_RESERVED_15_MASK | DDR_PHY_DX3GCR5_DXREFISELR1_MASK | DDR_PHY_DX3GCR5_RESERVED_7_MASK | DDR_PHY_DX3GCR5_DXREFISELR0_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX3GCR5_RESERVED_31_SHIFT + | 0x00000009U << DDR_PHY_DX3GCR5_DXREFISELR3_SHIFT + | 0x00000000U << DDR_PHY_DX3GCR5_RESERVED_23_SHIFT + | 0x00000009U << DDR_PHY_DX3GCR5_DXREFISELR2_SHIFT + | 0x00000000U << DDR_PHY_DX3GCR5_RESERVED_15_SHIFT + | 0x0000004FU << DDR_PHY_DX3GCR5_DXREFISELR1_SHIFT + | 0x00000000U << DDR_PHY_DX3GCR5_RESERVED_7_SHIFT + | 0x0000004FU << DDR_PHY_DX3GCR5_DXREFISELR0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX3GCR5_OFFSET ,0xFFFFFFFFU ,0x09094F4FU); + /*############################################################################################################################ */ + + /*Register : DX3GCR6 @ 0XFD080A18

+ + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX3GCR6_RESERVED_31_30 0x0 + + DRAM DQ VREF Select for Rank3 + PSU_DDR_PHY_DX3GCR6_DXDQVREFR3 0x9 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX3GCR6_RESERVED_23_22 0x0 + + DRAM DQ VREF Select for Rank2 + PSU_DDR_PHY_DX3GCR6_DXDQVREFR2 0x9 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX3GCR6_RESERVED_15_14 0x0 + + DRAM DQ VREF Select for Rank1 + PSU_DDR_PHY_DX3GCR6_DXDQVREFR1 0x2b + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX3GCR6_RESERVED_7_6 0x0 + + DRAM DQ VREF Select for Rank0 + PSU_DDR_PHY_DX3GCR6_DXDQVREFR0 0x2b + + DATX8 n General Configuration Register 6 + (OFFSET, MASK, VALUE) (0XFD080A18, 0xFFFFFFFFU ,0x09092B2BU) + RegMask = (DDR_PHY_DX3GCR6_RESERVED_31_30_MASK | DDR_PHY_DX3GCR6_DXDQVREFR3_MASK | DDR_PHY_DX3GCR6_RESERVED_23_22_MASK | DDR_PHY_DX3GCR6_DXDQVREFR2_MASK | DDR_PHY_DX3GCR6_RESERVED_15_14_MASK | DDR_PHY_DX3GCR6_DXDQVREFR1_MASK | DDR_PHY_DX3GCR6_RESERVED_7_6_MASK | DDR_PHY_DX3GCR6_DXDQVREFR0_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX3GCR6_RESERVED_31_30_SHIFT + | 0x00000009U << DDR_PHY_DX3GCR6_DXDQVREFR3_SHIFT + | 0x00000000U << DDR_PHY_DX3GCR6_RESERVED_23_22_SHIFT + | 0x00000009U << DDR_PHY_DX3GCR6_DXDQVREFR2_SHIFT + | 0x00000000U << DDR_PHY_DX3GCR6_RESERVED_15_14_SHIFT + | 0x0000002BU << DDR_PHY_DX3GCR6_DXDQVREFR1_SHIFT + | 0x00000000U << DDR_PHY_DX3GCR6_RESERVED_7_6_SHIFT + | 0x0000002BU << DDR_PHY_DX3GCR6_DXDQVREFR0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX3GCR6_OFFSET ,0xFFFFFFFFU ,0x09092B2BU); + /*############################################################################################################################ */ + + /*Register : DX3LCDLR2 @ 0XFD080A88

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX3LCDLR2_RESERVED_31_25 0x0 + + Reserved. Caution, do not write to this register field. + PSU_DDR_PHY_DX3LCDLR2_RESERVED_24_16 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX3LCDLR2_RESERVED_15_9 0x0 + + Read DQS Gating Delay + PSU_DDR_PHY_DX3LCDLR2_DQSGD 0x0 + + DATX8 n Local Calibrated Delay Line Register 2 + (OFFSET, MASK, VALUE) (0XFD080A88, 0xFFFFFFFFU ,0x00000000U) + RegMask = (DDR_PHY_DX3LCDLR2_RESERVED_31_25_MASK | DDR_PHY_DX3LCDLR2_RESERVED_24_16_MASK | DDR_PHY_DX3LCDLR2_RESERVED_15_9_MASK | DDR_PHY_DX3LCDLR2_DQSGD_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX3LCDLR2_RESERVED_31_25_SHIFT + | 0x00000000U << DDR_PHY_DX3LCDLR2_RESERVED_24_16_SHIFT + | 0x00000000U << DDR_PHY_DX3LCDLR2_RESERVED_15_9_SHIFT + | 0x00000000U << DDR_PHY_DX3LCDLR2_DQSGD_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX3LCDLR2_OFFSET ,0xFFFFFFFFU ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : DX3GTR0 @ 0XFD080AC0

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX3GTR0_RESERVED_31_24 0x0 + + DQ Write Path Latency Pipeline + PSU_DDR_PHY_DX3GTR0_WDQSL 0x0 + + Reserved. Caution, do not write to this register field. + PSU_DDR_PHY_DX3GTR0_RESERVED_23_20 0x0 + + Write Leveling System Latency + PSU_DDR_PHY_DX3GTR0_WLSL 0x2 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX3GTR0_RESERVED_15_13 0x0 + + Reserved. Caution, do not write to this register field. + PSU_DDR_PHY_DX3GTR0_RESERVED_12_8 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX3GTR0_RESERVED_7_5 0x0 + + DQS Gating System Latency + PSU_DDR_PHY_DX3GTR0_DGSL 0x0 + + DATX8 n General Timing Register 0 + (OFFSET, MASK, VALUE) (0XFD080AC0, 0xFFFFFFFFU ,0x00020000U) + RegMask = (DDR_PHY_DX3GTR0_RESERVED_31_24_MASK | DDR_PHY_DX3GTR0_WDQSL_MASK | DDR_PHY_DX3GTR0_RESERVED_23_20_MASK | DDR_PHY_DX3GTR0_WLSL_MASK | DDR_PHY_DX3GTR0_RESERVED_15_13_MASK | DDR_PHY_DX3GTR0_RESERVED_12_8_MASK | DDR_PHY_DX3GTR0_RESERVED_7_5_MASK | DDR_PHY_DX3GTR0_DGSL_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX3GTR0_RESERVED_31_24_SHIFT + | 0x00000000U << DDR_PHY_DX3GTR0_WDQSL_SHIFT + | 0x00000000U << DDR_PHY_DX3GTR0_RESERVED_23_20_SHIFT + | 0x00000002U << DDR_PHY_DX3GTR0_WLSL_SHIFT + | 0x00000000U << DDR_PHY_DX3GTR0_RESERVED_15_13_SHIFT + | 0x00000000U << DDR_PHY_DX3GTR0_RESERVED_12_8_SHIFT + | 0x00000000U << DDR_PHY_DX3GTR0_RESERVED_7_5_SHIFT + | 0x00000000U << DDR_PHY_DX3GTR0_DGSL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX3GTR0_OFFSET ,0xFFFFFFFFU ,0x00020000U); + /*############################################################################################################################ */ + + /*Register : DX4GCR0 @ 0XFD080B00

+ + Calibration Bypass + PSU_DDR_PHY_DX4GCR0_CALBYP 0x0 + + Master Delay Line Enable + PSU_DDR_PHY_DX4GCR0_MDLEN 0x1 + + Configurable ODT(TE) Phase Shift + PSU_DDR_PHY_DX4GCR0_CODTSHFT 0x0 + + DQS Duty Cycle Correction + PSU_DDR_PHY_DX4GCR0_DQSDCC 0x0 + + Number of Cycles ( in terms of ctl_clk) to generate ctl_dx_get_static_rd input for the respective bypte lane of the PHY + PSU_DDR_PHY_DX4GCR0_RDDLY 0x8 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX4GCR0_RESERVED_19_14 0x0 + + DQSNSE Power Down Receiver + PSU_DDR_PHY_DX4GCR0_DQSNSEPDR 0x0 + + DQSSE Power Down Receiver + PSU_DDR_PHY_DX4GCR0_DQSSEPDR 0x0 + + RTT On Additive Latency + PSU_DDR_PHY_DX4GCR0_RTTOAL 0x0 + + RTT Output Hold + PSU_DDR_PHY_DX4GCR0_RTTOH 0x3 + + Configurable PDR Phase Shift + PSU_DDR_PHY_DX4GCR0_CPDRSHFT 0x0 + + DQSR Power Down + PSU_DDR_PHY_DX4GCR0_DQSRPD 0x0 + + DQSG Power Down Receiver + PSU_DDR_PHY_DX4GCR0_DQSGPDR 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX4GCR0_RESERVED_4 0x0 + + DQSG On-Die Termination + PSU_DDR_PHY_DX4GCR0_DQSGODT 0x0 + + DQSG Output Enable + PSU_DDR_PHY_DX4GCR0_DQSGOE 0x1 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX4GCR0_RESERVED_1_0 0x0 + + DATX8 n General Configuration Register 0 + (OFFSET, MASK, VALUE) (0XFD080B00, 0xFFFFFFFFU ,0x40800604U) + RegMask = (DDR_PHY_DX4GCR0_CALBYP_MASK | DDR_PHY_DX4GCR0_MDLEN_MASK | DDR_PHY_DX4GCR0_CODTSHFT_MASK | DDR_PHY_DX4GCR0_DQSDCC_MASK | DDR_PHY_DX4GCR0_RDDLY_MASK | DDR_PHY_DX4GCR0_RESERVED_19_14_MASK | DDR_PHY_DX4GCR0_DQSNSEPDR_MASK | DDR_PHY_DX4GCR0_DQSSEPDR_MASK | DDR_PHY_DX4GCR0_RTTOAL_MASK | DDR_PHY_DX4GCR0_RTTOH_MASK | DDR_PHY_DX4GCR0_CPDRSHFT_MASK | DDR_PHY_DX4GCR0_DQSRPD_MASK | DDR_PHY_DX4GCR0_DQSGPDR_MASK | DDR_PHY_DX4GCR0_RESERVED_4_MASK | DDR_PHY_DX4GCR0_DQSGODT_MASK | DDR_PHY_DX4GCR0_DQSGOE_MASK | DDR_PHY_DX4GCR0_RESERVED_1_0_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX4GCR0_CALBYP_SHIFT + | 0x00000001U << DDR_PHY_DX4GCR0_MDLEN_SHIFT + | 0x00000000U << DDR_PHY_DX4GCR0_CODTSHFT_SHIFT + | 0x00000000U << DDR_PHY_DX4GCR0_DQSDCC_SHIFT + | 0x00000008U << DDR_PHY_DX4GCR0_RDDLY_SHIFT + | 0x00000000U << DDR_PHY_DX4GCR0_RESERVED_19_14_SHIFT + | 0x00000000U << DDR_PHY_DX4GCR0_DQSNSEPDR_SHIFT + | 0x00000000U << DDR_PHY_DX4GCR0_DQSSEPDR_SHIFT + | 0x00000000U << DDR_PHY_DX4GCR0_RTTOAL_SHIFT + | 0x00000003U << DDR_PHY_DX4GCR0_RTTOH_SHIFT + | 0x00000000U << DDR_PHY_DX4GCR0_CPDRSHFT_SHIFT + | 0x00000000U << DDR_PHY_DX4GCR0_DQSRPD_SHIFT + | 0x00000000U << DDR_PHY_DX4GCR0_DQSGPDR_SHIFT + | 0x00000000U << DDR_PHY_DX4GCR0_RESERVED_4_SHIFT + | 0x00000000U << DDR_PHY_DX4GCR0_DQSGODT_SHIFT + | 0x00000001U << DDR_PHY_DX4GCR0_DQSGOE_SHIFT + | 0x00000000U << DDR_PHY_DX4GCR0_RESERVED_1_0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX4GCR0_OFFSET ,0xFFFFFFFFU ,0x40800604U); + /*############################################################################################################################ */ + + /*Register : DX4GCR1 @ 0XFD080B04

+ + Enables the PDR mode for DQ[7:0] + PSU_DDR_PHY_DX4GCR1_DXPDRMODE 0x0 + + Reserved. Returns zeroes on reads. + PSU_DDR_PHY_DX4GCR1_RESERVED_15 0x0 + + Select the delayed or non-delayed read data strobe # + PSU_DDR_PHY_DX4GCR1_QSNSEL 0x1 + + Select the delayed or non-delayed read data strobe + PSU_DDR_PHY_DX4GCR1_QSSEL 0x1 + + Enables Read Data Strobe in a byte lane + PSU_DDR_PHY_DX4GCR1_OEEN 0x1 + + Enables PDR in a byte lane + PSU_DDR_PHY_DX4GCR1_PDREN 0x1 + + Enables ODT/TE in a byte lane + PSU_DDR_PHY_DX4GCR1_TEEN 0x1 + + Enables Write Data strobe in a byte lane + PSU_DDR_PHY_DX4GCR1_DSEN 0x1 + + Enables DM pin in a byte lane + PSU_DDR_PHY_DX4GCR1_DMEN 0x1 + + Enables DQ corresponding to each bit in a byte + PSU_DDR_PHY_DX4GCR1_DQEN 0xff + + DATX8 n General Configuration Register 1 + (OFFSET, MASK, VALUE) (0XFD080B04, 0xFFFFFFFFU ,0x00007FFFU) + RegMask = (DDR_PHY_DX4GCR1_DXPDRMODE_MASK | DDR_PHY_DX4GCR1_RESERVED_15_MASK | DDR_PHY_DX4GCR1_QSNSEL_MASK | DDR_PHY_DX4GCR1_QSSEL_MASK | DDR_PHY_DX4GCR1_OEEN_MASK | DDR_PHY_DX4GCR1_PDREN_MASK | DDR_PHY_DX4GCR1_TEEN_MASK | DDR_PHY_DX4GCR1_DSEN_MASK | DDR_PHY_DX4GCR1_DMEN_MASK | DDR_PHY_DX4GCR1_DQEN_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX4GCR1_DXPDRMODE_SHIFT + | 0x00000000U << DDR_PHY_DX4GCR1_RESERVED_15_SHIFT + | 0x00000001U << DDR_PHY_DX4GCR1_QSNSEL_SHIFT + | 0x00000001U << DDR_PHY_DX4GCR1_QSSEL_SHIFT + | 0x00000001U << DDR_PHY_DX4GCR1_OEEN_SHIFT + | 0x00000001U << DDR_PHY_DX4GCR1_PDREN_SHIFT + | 0x00000001U << DDR_PHY_DX4GCR1_TEEN_SHIFT + | 0x00000001U << DDR_PHY_DX4GCR1_DSEN_SHIFT + | 0x00000001U << DDR_PHY_DX4GCR1_DMEN_SHIFT + | 0x000000FFU << DDR_PHY_DX4GCR1_DQEN_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX4GCR1_OFFSET ,0xFFFFFFFFU ,0x00007FFFU); + /*############################################################################################################################ */ + + /*Register : DX4GCR4 @ 0XFD080B10

+ + Byte lane VREF IOM (Used only by D4MU IOs) + PSU_DDR_PHY_DX4GCR4_RESERVED_31_29 0x0 + + Byte Lane VREF Pad Enable + PSU_DDR_PHY_DX4GCR4_DXREFPEN 0x0 + + Byte Lane Internal VREF Enable + PSU_DDR_PHY_DX4GCR4_DXREFEEN 0x3 + + Byte Lane Single-End VREF Enable + PSU_DDR_PHY_DX4GCR4_DXREFSEN 0x1 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX4GCR4_RESERVED_24 0x0 + + External VREF generator REFSEL range select + PSU_DDR_PHY_DX4GCR4_DXREFESELRANGE 0x0 + + Byte Lane External VREF Select + PSU_DDR_PHY_DX4GCR4_DXREFESEL 0x0 + + Single ended VREF generator REFSEL range select + PSU_DDR_PHY_DX4GCR4_DXREFSSELRANGE 0x1 + + Byte Lane Single-End VREF Select + PSU_DDR_PHY_DX4GCR4_DXREFSSEL 0x30 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX4GCR4_RESERVED_7_6 0x0 + + VREF Enable control for DQ IO (Single Ended) buffers of a byte lane. + PSU_DDR_PHY_DX4GCR4_DXREFIEN 0xf + + VRMON control for DQ IO (Single Ended) buffers of a byte lane. + PSU_DDR_PHY_DX4GCR4_DXREFIMON 0x0 + + DATX8 n General Configuration Register 4 + (OFFSET, MASK, VALUE) (0XFD080B10, 0xFFFFFFFFU ,0x0E00B03CU) + RegMask = (DDR_PHY_DX4GCR4_RESERVED_31_29_MASK | DDR_PHY_DX4GCR4_DXREFPEN_MASK | DDR_PHY_DX4GCR4_DXREFEEN_MASK | DDR_PHY_DX4GCR4_DXREFSEN_MASK | DDR_PHY_DX4GCR4_RESERVED_24_MASK | DDR_PHY_DX4GCR4_DXREFESELRANGE_MASK | DDR_PHY_DX4GCR4_DXREFESEL_MASK | DDR_PHY_DX4GCR4_DXREFSSELRANGE_MASK | DDR_PHY_DX4GCR4_DXREFSSEL_MASK | DDR_PHY_DX4GCR4_RESERVED_7_6_MASK | DDR_PHY_DX4GCR4_DXREFIEN_MASK | DDR_PHY_DX4GCR4_DXREFIMON_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX4GCR4_RESERVED_31_29_SHIFT + | 0x00000000U << DDR_PHY_DX4GCR4_DXREFPEN_SHIFT + | 0x00000003U << DDR_PHY_DX4GCR4_DXREFEEN_SHIFT + | 0x00000001U << DDR_PHY_DX4GCR4_DXREFSEN_SHIFT + | 0x00000000U << DDR_PHY_DX4GCR4_RESERVED_24_SHIFT + | 0x00000000U << DDR_PHY_DX4GCR4_DXREFESELRANGE_SHIFT + | 0x00000000U << DDR_PHY_DX4GCR4_DXREFESEL_SHIFT + | 0x00000001U << DDR_PHY_DX4GCR4_DXREFSSELRANGE_SHIFT + | 0x00000030U << DDR_PHY_DX4GCR4_DXREFSSEL_SHIFT + | 0x00000000U << DDR_PHY_DX4GCR4_RESERVED_7_6_SHIFT + | 0x0000000FU << DDR_PHY_DX4GCR4_DXREFIEN_SHIFT + | 0x00000000U << DDR_PHY_DX4GCR4_DXREFIMON_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX4GCR4_OFFSET ,0xFFFFFFFFU ,0x0E00B03CU); + /*############################################################################################################################ */ + + /*Register : DX4GCR5 @ 0XFD080B14

+ + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX4GCR5_RESERVED_31 0x0 + + Byte Lane internal VREF Select for Rank 3 + PSU_DDR_PHY_DX4GCR5_DXREFISELR3 0x9 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX4GCR5_RESERVED_23 0x0 + + Byte Lane internal VREF Select for Rank 2 + PSU_DDR_PHY_DX4GCR5_DXREFISELR2 0x9 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX4GCR5_RESERVED_15 0x0 + + Byte Lane internal VREF Select for Rank 1 + PSU_DDR_PHY_DX4GCR5_DXREFISELR1 0x4f + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX4GCR5_RESERVED_7 0x0 + + Byte Lane internal VREF Select for Rank 0 + PSU_DDR_PHY_DX4GCR5_DXREFISELR0 0x4f + + DATX8 n General Configuration Register 5 + (OFFSET, MASK, VALUE) (0XFD080B14, 0xFFFFFFFFU ,0x09094F4FU) + RegMask = (DDR_PHY_DX4GCR5_RESERVED_31_MASK | DDR_PHY_DX4GCR5_DXREFISELR3_MASK | DDR_PHY_DX4GCR5_RESERVED_23_MASK | DDR_PHY_DX4GCR5_DXREFISELR2_MASK | DDR_PHY_DX4GCR5_RESERVED_15_MASK | DDR_PHY_DX4GCR5_DXREFISELR1_MASK | DDR_PHY_DX4GCR5_RESERVED_7_MASK | DDR_PHY_DX4GCR5_DXREFISELR0_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX4GCR5_RESERVED_31_SHIFT + | 0x00000009U << DDR_PHY_DX4GCR5_DXREFISELR3_SHIFT + | 0x00000000U << DDR_PHY_DX4GCR5_RESERVED_23_SHIFT + | 0x00000009U << DDR_PHY_DX4GCR5_DXREFISELR2_SHIFT + | 0x00000000U << DDR_PHY_DX4GCR5_RESERVED_15_SHIFT + | 0x0000004FU << DDR_PHY_DX4GCR5_DXREFISELR1_SHIFT + | 0x00000000U << DDR_PHY_DX4GCR5_RESERVED_7_SHIFT + | 0x0000004FU << DDR_PHY_DX4GCR5_DXREFISELR0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX4GCR5_OFFSET ,0xFFFFFFFFU ,0x09094F4FU); + /*############################################################################################################################ */ + + /*Register : DX4GCR6 @ 0XFD080B18

+ + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX4GCR6_RESERVED_31_30 0x0 + + DRAM DQ VREF Select for Rank3 + PSU_DDR_PHY_DX4GCR6_DXDQVREFR3 0x9 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX4GCR6_RESERVED_23_22 0x0 + + DRAM DQ VREF Select for Rank2 + PSU_DDR_PHY_DX4GCR6_DXDQVREFR2 0x9 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX4GCR6_RESERVED_15_14 0x0 + + DRAM DQ VREF Select for Rank1 + PSU_DDR_PHY_DX4GCR6_DXDQVREFR1 0x2b + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX4GCR6_RESERVED_7_6 0x0 + + DRAM DQ VREF Select for Rank0 + PSU_DDR_PHY_DX4GCR6_DXDQVREFR0 0x2b + + DATX8 n General Configuration Register 6 + (OFFSET, MASK, VALUE) (0XFD080B18, 0xFFFFFFFFU ,0x09092B2BU) + RegMask = (DDR_PHY_DX4GCR6_RESERVED_31_30_MASK | DDR_PHY_DX4GCR6_DXDQVREFR3_MASK | DDR_PHY_DX4GCR6_RESERVED_23_22_MASK | DDR_PHY_DX4GCR6_DXDQVREFR2_MASK | DDR_PHY_DX4GCR6_RESERVED_15_14_MASK | DDR_PHY_DX4GCR6_DXDQVREFR1_MASK | DDR_PHY_DX4GCR6_RESERVED_7_6_MASK | DDR_PHY_DX4GCR6_DXDQVREFR0_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX4GCR6_RESERVED_31_30_SHIFT + | 0x00000009U << DDR_PHY_DX4GCR6_DXDQVREFR3_SHIFT + | 0x00000000U << DDR_PHY_DX4GCR6_RESERVED_23_22_SHIFT + | 0x00000009U << DDR_PHY_DX4GCR6_DXDQVREFR2_SHIFT + | 0x00000000U << DDR_PHY_DX4GCR6_RESERVED_15_14_SHIFT + | 0x0000002BU << DDR_PHY_DX4GCR6_DXDQVREFR1_SHIFT + | 0x00000000U << DDR_PHY_DX4GCR6_RESERVED_7_6_SHIFT + | 0x0000002BU << DDR_PHY_DX4GCR6_DXDQVREFR0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX4GCR6_OFFSET ,0xFFFFFFFFU ,0x09092B2BU); + /*############################################################################################################################ */ + + /*Register : DX4LCDLR2 @ 0XFD080B88

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX4LCDLR2_RESERVED_31_25 0x0 + + Reserved. Caution, do not write to this register field. + PSU_DDR_PHY_DX4LCDLR2_RESERVED_24_16 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX4LCDLR2_RESERVED_15_9 0x0 + + Read DQS Gating Delay + PSU_DDR_PHY_DX4LCDLR2_DQSGD 0x0 + + DATX8 n Local Calibrated Delay Line Register 2 + (OFFSET, MASK, VALUE) (0XFD080B88, 0xFFFFFFFFU ,0x00000000U) + RegMask = (DDR_PHY_DX4LCDLR2_RESERVED_31_25_MASK | DDR_PHY_DX4LCDLR2_RESERVED_24_16_MASK | DDR_PHY_DX4LCDLR2_RESERVED_15_9_MASK | DDR_PHY_DX4LCDLR2_DQSGD_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX4LCDLR2_RESERVED_31_25_SHIFT + | 0x00000000U << DDR_PHY_DX4LCDLR2_RESERVED_24_16_SHIFT + | 0x00000000U << DDR_PHY_DX4LCDLR2_RESERVED_15_9_SHIFT + | 0x00000000U << DDR_PHY_DX4LCDLR2_DQSGD_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX4LCDLR2_OFFSET ,0xFFFFFFFFU ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : DX4GTR0 @ 0XFD080BC0

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX4GTR0_RESERVED_31_24 0x0 + + DQ Write Path Latency Pipeline + PSU_DDR_PHY_DX4GTR0_WDQSL 0x0 + + Reserved. Caution, do not write to this register field. + PSU_DDR_PHY_DX4GTR0_RESERVED_23_20 0x0 + + Write Leveling System Latency + PSU_DDR_PHY_DX4GTR0_WLSL 0x2 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX4GTR0_RESERVED_15_13 0x0 + + Reserved. Caution, do not write to this register field. + PSU_DDR_PHY_DX4GTR0_RESERVED_12_8 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX4GTR0_RESERVED_7_5 0x0 + + DQS Gating System Latency + PSU_DDR_PHY_DX4GTR0_DGSL 0x0 + + DATX8 n General Timing Register 0 + (OFFSET, MASK, VALUE) (0XFD080BC0, 0xFFFFFFFFU ,0x00020000U) + RegMask = (DDR_PHY_DX4GTR0_RESERVED_31_24_MASK | DDR_PHY_DX4GTR0_WDQSL_MASK | DDR_PHY_DX4GTR0_RESERVED_23_20_MASK | DDR_PHY_DX4GTR0_WLSL_MASK | DDR_PHY_DX4GTR0_RESERVED_15_13_MASK | DDR_PHY_DX4GTR0_RESERVED_12_8_MASK | DDR_PHY_DX4GTR0_RESERVED_7_5_MASK | DDR_PHY_DX4GTR0_DGSL_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX4GTR0_RESERVED_31_24_SHIFT + | 0x00000000U << DDR_PHY_DX4GTR0_WDQSL_SHIFT + | 0x00000000U << DDR_PHY_DX4GTR0_RESERVED_23_20_SHIFT + | 0x00000002U << DDR_PHY_DX4GTR0_WLSL_SHIFT + | 0x00000000U << DDR_PHY_DX4GTR0_RESERVED_15_13_SHIFT + | 0x00000000U << DDR_PHY_DX4GTR0_RESERVED_12_8_SHIFT + | 0x00000000U << DDR_PHY_DX4GTR0_RESERVED_7_5_SHIFT + | 0x00000000U << DDR_PHY_DX4GTR0_DGSL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX4GTR0_OFFSET ,0xFFFFFFFFU ,0x00020000U); + /*############################################################################################################################ */ + + /*Register : DX5GCR0 @ 0XFD080C00

+ + Calibration Bypass + PSU_DDR_PHY_DX5GCR0_CALBYP 0x0 + + Master Delay Line Enable + PSU_DDR_PHY_DX5GCR0_MDLEN 0x1 + + Configurable ODT(TE) Phase Shift + PSU_DDR_PHY_DX5GCR0_CODTSHFT 0x0 + + DQS Duty Cycle Correction + PSU_DDR_PHY_DX5GCR0_DQSDCC 0x0 + + Number of Cycles ( in terms of ctl_clk) to generate ctl_dx_get_static_rd input for the respective bypte lane of the PHY + PSU_DDR_PHY_DX5GCR0_RDDLY 0x8 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX5GCR0_RESERVED_19_14 0x0 + + DQSNSE Power Down Receiver + PSU_DDR_PHY_DX5GCR0_DQSNSEPDR 0x0 + + DQSSE Power Down Receiver + PSU_DDR_PHY_DX5GCR0_DQSSEPDR 0x0 + + RTT On Additive Latency + PSU_DDR_PHY_DX5GCR0_RTTOAL 0x0 + + RTT Output Hold + PSU_DDR_PHY_DX5GCR0_RTTOH 0x3 + + Configurable PDR Phase Shift + PSU_DDR_PHY_DX5GCR0_CPDRSHFT 0x0 + + DQSR Power Down + PSU_DDR_PHY_DX5GCR0_DQSRPD 0x0 + + DQSG Power Down Receiver + PSU_DDR_PHY_DX5GCR0_DQSGPDR 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX5GCR0_RESERVED_4 0x0 + + DQSG On-Die Termination + PSU_DDR_PHY_DX5GCR0_DQSGODT 0x0 + + DQSG Output Enable + PSU_DDR_PHY_DX5GCR0_DQSGOE 0x1 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX5GCR0_RESERVED_1_0 0x0 + + DATX8 n General Configuration Register 0 + (OFFSET, MASK, VALUE) (0XFD080C00, 0xFFFFFFFFU ,0x40800604U) + RegMask = (DDR_PHY_DX5GCR0_CALBYP_MASK | DDR_PHY_DX5GCR0_MDLEN_MASK | DDR_PHY_DX5GCR0_CODTSHFT_MASK | DDR_PHY_DX5GCR0_DQSDCC_MASK | DDR_PHY_DX5GCR0_RDDLY_MASK | DDR_PHY_DX5GCR0_RESERVED_19_14_MASK | DDR_PHY_DX5GCR0_DQSNSEPDR_MASK | DDR_PHY_DX5GCR0_DQSSEPDR_MASK | DDR_PHY_DX5GCR0_RTTOAL_MASK | DDR_PHY_DX5GCR0_RTTOH_MASK | DDR_PHY_DX5GCR0_CPDRSHFT_MASK | DDR_PHY_DX5GCR0_DQSRPD_MASK | DDR_PHY_DX5GCR0_DQSGPDR_MASK | DDR_PHY_DX5GCR0_RESERVED_4_MASK | DDR_PHY_DX5GCR0_DQSGODT_MASK | DDR_PHY_DX5GCR0_DQSGOE_MASK | DDR_PHY_DX5GCR0_RESERVED_1_0_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX5GCR0_CALBYP_SHIFT + | 0x00000001U << DDR_PHY_DX5GCR0_MDLEN_SHIFT + | 0x00000000U << DDR_PHY_DX5GCR0_CODTSHFT_SHIFT + | 0x00000000U << DDR_PHY_DX5GCR0_DQSDCC_SHIFT + | 0x00000008U << DDR_PHY_DX5GCR0_RDDLY_SHIFT + | 0x00000000U << DDR_PHY_DX5GCR0_RESERVED_19_14_SHIFT + | 0x00000000U << DDR_PHY_DX5GCR0_DQSNSEPDR_SHIFT + | 0x00000000U << DDR_PHY_DX5GCR0_DQSSEPDR_SHIFT + | 0x00000000U << DDR_PHY_DX5GCR0_RTTOAL_SHIFT + | 0x00000003U << DDR_PHY_DX5GCR0_RTTOH_SHIFT + | 0x00000000U << DDR_PHY_DX5GCR0_CPDRSHFT_SHIFT + | 0x00000000U << DDR_PHY_DX5GCR0_DQSRPD_SHIFT + | 0x00000000U << DDR_PHY_DX5GCR0_DQSGPDR_SHIFT + | 0x00000000U << DDR_PHY_DX5GCR0_RESERVED_4_SHIFT + | 0x00000000U << DDR_PHY_DX5GCR0_DQSGODT_SHIFT + | 0x00000001U << DDR_PHY_DX5GCR0_DQSGOE_SHIFT + | 0x00000000U << DDR_PHY_DX5GCR0_RESERVED_1_0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX5GCR0_OFFSET ,0xFFFFFFFFU ,0x40800604U); + /*############################################################################################################################ */ + + /*Register : DX5GCR1 @ 0XFD080C04

+ + Enables the PDR mode for DQ[7:0] + PSU_DDR_PHY_DX5GCR1_DXPDRMODE 0x0 + + Reserved. Returns zeroes on reads. + PSU_DDR_PHY_DX5GCR1_RESERVED_15 0x0 + + Select the delayed or non-delayed read data strobe # + PSU_DDR_PHY_DX5GCR1_QSNSEL 0x1 + + Select the delayed or non-delayed read data strobe + PSU_DDR_PHY_DX5GCR1_QSSEL 0x1 + + Enables Read Data Strobe in a byte lane + PSU_DDR_PHY_DX5GCR1_OEEN 0x1 + + Enables PDR in a byte lane + PSU_DDR_PHY_DX5GCR1_PDREN 0x1 + + Enables ODT/TE in a byte lane + PSU_DDR_PHY_DX5GCR1_TEEN 0x1 + + Enables Write Data strobe in a byte lane + PSU_DDR_PHY_DX5GCR1_DSEN 0x1 + + Enables DM pin in a byte lane + PSU_DDR_PHY_DX5GCR1_DMEN 0x1 + + Enables DQ corresponding to each bit in a byte + PSU_DDR_PHY_DX5GCR1_DQEN 0xff + + DATX8 n General Configuration Register 1 + (OFFSET, MASK, VALUE) (0XFD080C04, 0xFFFFFFFFU ,0x00007FFFU) + RegMask = (DDR_PHY_DX5GCR1_DXPDRMODE_MASK | DDR_PHY_DX5GCR1_RESERVED_15_MASK | DDR_PHY_DX5GCR1_QSNSEL_MASK | DDR_PHY_DX5GCR1_QSSEL_MASK | DDR_PHY_DX5GCR1_OEEN_MASK | DDR_PHY_DX5GCR1_PDREN_MASK | DDR_PHY_DX5GCR1_TEEN_MASK | DDR_PHY_DX5GCR1_DSEN_MASK | DDR_PHY_DX5GCR1_DMEN_MASK | DDR_PHY_DX5GCR1_DQEN_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX5GCR1_DXPDRMODE_SHIFT + | 0x00000000U << DDR_PHY_DX5GCR1_RESERVED_15_SHIFT + | 0x00000001U << DDR_PHY_DX5GCR1_QSNSEL_SHIFT + | 0x00000001U << DDR_PHY_DX5GCR1_QSSEL_SHIFT + | 0x00000001U << DDR_PHY_DX5GCR1_OEEN_SHIFT + | 0x00000001U << DDR_PHY_DX5GCR1_PDREN_SHIFT + | 0x00000001U << DDR_PHY_DX5GCR1_TEEN_SHIFT + | 0x00000001U << DDR_PHY_DX5GCR1_DSEN_SHIFT + | 0x00000001U << DDR_PHY_DX5GCR1_DMEN_SHIFT + | 0x000000FFU << DDR_PHY_DX5GCR1_DQEN_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX5GCR1_OFFSET ,0xFFFFFFFFU ,0x00007FFFU); + /*############################################################################################################################ */ + + /*Register : DX5GCR4 @ 0XFD080C10

+ + Byte lane VREF IOM (Used only by D4MU IOs) + PSU_DDR_PHY_DX5GCR4_RESERVED_31_29 0x0 + + Byte Lane VREF Pad Enable + PSU_DDR_PHY_DX5GCR4_DXREFPEN 0x0 + + Byte Lane Internal VREF Enable + PSU_DDR_PHY_DX5GCR4_DXREFEEN 0x3 + + Byte Lane Single-End VREF Enable + PSU_DDR_PHY_DX5GCR4_DXREFSEN 0x1 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX5GCR4_RESERVED_24 0x0 + + External VREF generator REFSEL range select + PSU_DDR_PHY_DX5GCR4_DXREFESELRANGE 0x0 + + Byte Lane External VREF Select + PSU_DDR_PHY_DX5GCR4_DXREFESEL 0x0 + + Single ended VREF generator REFSEL range select + PSU_DDR_PHY_DX5GCR4_DXREFSSELRANGE 0x1 + + Byte Lane Single-End VREF Select + PSU_DDR_PHY_DX5GCR4_DXREFSSEL 0x30 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX5GCR4_RESERVED_7_6 0x0 + + VREF Enable control for DQ IO (Single Ended) buffers of a byte lane. + PSU_DDR_PHY_DX5GCR4_DXREFIEN 0xf + + VRMON control for DQ IO (Single Ended) buffers of a byte lane. + PSU_DDR_PHY_DX5GCR4_DXREFIMON 0x0 + + DATX8 n General Configuration Register 4 + (OFFSET, MASK, VALUE) (0XFD080C10, 0xFFFFFFFFU ,0x0E00B03CU) + RegMask = (DDR_PHY_DX5GCR4_RESERVED_31_29_MASK | DDR_PHY_DX5GCR4_DXREFPEN_MASK | DDR_PHY_DX5GCR4_DXREFEEN_MASK | DDR_PHY_DX5GCR4_DXREFSEN_MASK | DDR_PHY_DX5GCR4_RESERVED_24_MASK | DDR_PHY_DX5GCR4_DXREFESELRANGE_MASK | DDR_PHY_DX5GCR4_DXREFESEL_MASK | DDR_PHY_DX5GCR4_DXREFSSELRANGE_MASK | DDR_PHY_DX5GCR4_DXREFSSEL_MASK | DDR_PHY_DX5GCR4_RESERVED_7_6_MASK | DDR_PHY_DX5GCR4_DXREFIEN_MASK | DDR_PHY_DX5GCR4_DXREFIMON_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX5GCR4_RESERVED_31_29_SHIFT + | 0x00000000U << DDR_PHY_DX5GCR4_DXREFPEN_SHIFT + | 0x00000003U << DDR_PHY_DX5GCR4_DXREFEEN_SHIFT + | 0x00000001U << DDR_PHY_DX5GCR4_DXREFSEN_SHIFT + | 0x00000000U << DDR_PHY_DX5GCR4_RESERVED_24_SHIFT + | 0x00000000U << DDR_PHY_DX5GCR4_DXREFESELRANGE_SHIFT + | 0x00000000U << DDR_PHY_DX5GCR4_DXREFESEL_SHIFT + | 0x00000001U << DDR_PHY_DX5GCR4_DXREFSSELRANGE_SHIFT + | 0x00000030U << DDR_PHY_DX5GCR4_DXREFSSEL_SHIFT + | 0x00000000U << DDR_PHY_DX5GCR4_RESERVED_7_6_SHIFT + | 0x0000000FU << DDR_PHY_DX5GCR4_DXREFIEN_SHIFT + | 0x00000000U << DDR_PHY_DX5GCR4_DXREFIMON_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX5GCR4_OFFSET ,0xFFFFFFFFU ,0x0E00B03CU); + /*############################################################################################################################ */ + + /*Register : DX5GCR5 @ 0XFD080C14

+ + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX5GCR5_RESERVED_31 0x0 + + Byte Lane internal VREF Select for Rank 3 + PSU_DDR_PHY_DX5GCR5_DXREFISELR3 0x9 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX5GCR5_RESERVED_23 0x0 + + Byte Lane internal VREF Select for Rank 2 + PSU_DDR_PHY_DX5GCR5_DXREFISELR2 0x9 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX5GCR5_RESERVED_15 0x0 + + Byte Lane internal VREF Select for Rank 1 + PSU_DDR_PHY_DX5GCR5_DXREFISELR1 0x4f + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX5GCR5_RESERVED_7 0x0 + + Byte Lane internal VREF Select for Rank 0 + PSU_DDR_PHY_DX5GCR5_DXREFISELR0 0x4f + + DATX8 n General Configuration Register 5 + (OFFSET, MASK, VALUE) (0XFD080C14, 0xFFFFFFFFU ,0x09094F4FU) + RegMask = (DDR_PHY_DX5GCR5_RESERVED_31_MASK | DDR_PHY_DX5GCR5_DXREFISELR3_MASK | DDR_PHY_DX5GCR5_RESERVED_23_MASK | DDR_PHY_DX5GCR5_DXREFISELR2_MASK | DDR_PHY_DX5GCR5_RESERVED_15_MASK | DDR_PHY_DX5GCR5_DXREFISELR1_MASK | DDR_PHY_DX5GCR5_RESERVED_7_MASK | DDR_PHY_DX5GCR5_DXREFISELR0_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX5GCR5_RESERVED_31_SHIFT + | 0x00000009U << DDR_PHY_DX5GCR5_DXREFISELR3_SHIFT + | 0x00000000U << DDR_PHY_DX5GCR5_RESERVED_23_SHIFT + | 0x00000009U << DDR_PHY_DX5GCR5_DXREFISELR2_SHIFT + | 0x00000000U << DDR_PHY_DX5GCR5_RESERVED_15_SHIFT + | 0x0000004FU << DDR_PHY_DX5GCR5_DXREFISELR1_SHIFT + | 0x00000000U << DDR_PHY_DX5GCR5_RESERVED_7_SHIFT + | 0x0000004FU << DDR_PHY_DX5GCR5_DXREFISELR0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX5GCR5_OFFSET ,0xFFFFFFFFU ,0x09094F4FU); + /*############################################################################################################################ */ + + /*Register : DX5GCR6 @ 0XFD080C18

+ + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX5GCR6_RESERVED_31_30 0x0 + + DRAM DQ VREF Select for Rank3 + PSU_DDR_PHY_DX5GCR6_DXDQVREFR3 0x9 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX5GCR6_RESERVED_23_22 0x0 + + DRAM DQ VREF Select for Rank2 + PSU_DDR_PHY_DX5GCR6_DXDQVREFR2 0x9 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX5GCR6_RESERVED_15_14 0x0 + + DRAM DQ VREF Select for Rank1 + PSU_DDR_PHY_DX5GCR6_DXDQVREFR1 0x2b + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX5GCR6_RESERVED_7_6 0x0 + + DRAM DQ VREF Select for Rank0 + PSU_DDR_PHY_DX5GCR6_DXDQVREFR0 0x2b + + DATX8 n General Configuration Register 6 + (OFFSET, MASK, VALUE) (0XFD080C18, 0xFFFFFFFFU ,0x09092B2BU) + RegMask = (DDR_PHY_DX5GCR6_RESERVED_31_30_MASK | DDR_PHY_DX5GCR6_DXDQVREFR3_MASK | DDR_PHY_DX5GCR6_RESERVED_23_22_MASK | DDR_PHY_DX5GCR6_DXDQVREFR2_MASK | DDR_PHY_DX5GCR6_RESERVED_15_14_MASK | DDR_PHY_DX5GCR6_DXDQVREFR1_MASK | DDR_PHY_DX5GCR6_RESERVED_7_6_MASK | DDR_PHY_DX5GCR6_DXDQVREFR0_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX5GCR6_RESERVED_31_30_SHIFT + | 0x00000009U << DDR_PHY_DX5GCR6_DXDQVREFR3_SHIFT + | 0x00000000U << DDR_PHY_DX5GCR6_RESERVED_23_22_SHIFT + | 0x00000009U << DDR_PHY_DX5GCR6_DXDQVREFR2_SHIFT + | 0x00000000U << DDR_PHY_DX5GCR6_RESERVED_15_14_SHIFT + | 0x0000002BU << DDR_PHY_DX5GCR6_DXDQVREFR1_SHIFT + | 0x00000000U << DDR_PHY_DX5GCR6_RESERVED_7_6_SHIFT + | 0x0000002BU << DDR_PHY_DX5GCR6_DXDQVREFR0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX5GCR6_OFFSET ,0xFFFFFFFFU ,0x09092B2BU); + /*############################################################################################################################ */ + + /*Register : DX5LCDLR2 @ 0XFD080C88

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX5LCDLR2_RESERVED_31_25 0x0 + + Reserved. Caution, do not write to this register field. + PSU_DDR_PHY_DX5LCDLR2_RESERVED_24_16 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX5LCDLR2_RESERVED_15_9 0x0 + + Read DQS Gating Delay + PSU_DDR_PHY_DX5LCDLR2_DQSGD 0x0 + + DATX8 n Local Calibrated Delay Line Register 2 + (OFFSET, MASK, VALUE) (0XFD080C88, 0xFFFFFFFFU ,0x00000000U) + RegMask = (DDR_PHY_DX5LCDLR2_RESERVED_31_25_MASK | DDR_PHY_DX5LCDLR2_RESERVED_24_16_MASK | DDR_PHY_DX5LCDLR2_RESERVED_15_9_MASK | DDR_PHY_DX5LCDLR2_DQSGD_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX5LCDLR2_RESERVED_31_25_SHIFT + | 0x00000000U << DDR_PHY_DX5LCDLR2_RESERVED_24_16_SHIFT + | 0x00000000U << DDR_PHY_DX5LCDLR2_RESERVED_15_9_SHIFT + | 0x00000000U << DDR_PHY_DX5LCDLR2_DQSGD_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX5LCDLR2_OFFSET ,0xFFFFFFFFU ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : DX5GTR0 @ 0XFD080CC0

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX5GTR0_RESERVED_31_24 0x0 + + DQ Write Path Latency Pipeline + PSU_DDR_PHY_DX5GTR0_WDQSL 0x0 + + Reserved. Caution, do not write to this register field. + PSU_DDR_PHY_DX5GTR0_RESERVED_23_20 0x0 + + Write Leveling System Latency + PSU_DDR_PHY_DX5GTR0_WLSL 0x2 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX5GTR0_RESERVED_15_13 0x0 + + Reserved. Caution, do not write to this register field. + PSU_DDR_PHY_DX5GTR0_RESERVED_12_8 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX5GTR0_RESERVED_7_5 0x0 + + DQS Gating System Latency + PSU_DDR_PHY_DX5GTR0_DGSL 0x0 + + DATX8 n General Timing Register 0 + (OFFSET, MASK, VALUE) (0XFD080CC0, 0xFFFFFFFFU ,0x00020000U) + RegMask = (DDR_PHY_DX5GTR0_RESERVED_31_24_MASK | DDR_PHY_DX5GTR0_WDQSL_MASK | DDR_PHY_DX5GTR0_RESERVED_23_20_MASK | DDR_PHY_DX5GTR0_WLSL_MASK | DDR_PHY_DX5GTR0_RESERVED_15_13_MASK | DDR_PHY_DX5GTR0_RESERVED_12_8_MASK | DDR_PHY_DX5GTR0_RESERVED_7_5_MASK | DDR_PHY_DX5GTR0_DGSL_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX5GTR0_RESERVED_31_24_SHIFT + | 0x00000000U << DDR_PHY_DX5GTR0_WDQSL_SHIFT + | 0x00000000U << DDR_PHY_DX5GTR0_RESERVED_23_20_SHIFT + | 0x00000002U << DDR_PHY_DX5GTR0_WLSL_SHIFT + | 0x00000000U << DDR_PHY_DX5GTR0_RESERVED_15_13_SHIFT + | 0x00000000U << DDR_PHY_DX5GTR0_RESERVED_12_8_SHIFT + | 0x00000000U << DDR_PHY_DX5GTR0_RESERVED_7_5_SHIFT + | 0x00000000U << DDR_PHY_DX5GTR0_DGSL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX5GTR0_OFFSET ,0xFFFFFFFFU ,0x00020000U); + /*############################################################################################################################ */ + + /*Register : DX6GCR0 @ 0XFD080D00

+ + Calibration Bypass + PSU_DDR_PHY_DX6GCR0_CALBYP 0x0 + + Master Delay Line Enable + PSU_DDR_PHY_DX6GCR0_MDLEN 0x1 + + Configurable ODT(TE) Phase Shift + PSU_DDR_PHY_DX6GCR0_CODTSHFT 0x0 + + DQS Duty Cycle Correction + PSU_DDR_PHY_DX6GCR0_DQSDCC 0x0 + + Number of Cycles ( in terms of ctl_clk) to generate ctl_dx_get_static_rd input for the respective bypte lane of the PHY + PSU_DDR_PHY_DX6GCR0_RDDLY 0x8 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX6GCR0_RESERVED_19_14 0x0 + + DQSNSE Power Down Receiver + PSU_DDR_PHY_DX6GCR0_DQSNSEPDR 0x0 + + DQSSE Power Down Receiver + PSU_DDR_PHY_DX6GCR0_DQSSEPDR 0x0 + + RTT On Additive Latency + PSU_DDR_PHY_DX6GCR0_RTTOAL 0x0 + + RTT Output Hold + PSU_DDR_PHY_DX6GCR0_RTTOH 0x3 + + Configurable PDR Phase Shift + PSU_DDR_PHY_DX6GCR0_CPDRSHFT 0x0 + + DQSR Power Down + PSU_DDR_PHY_DX6GCR0_DQSRPD 0x0 + + DQSG Power Down Receiver + PSU_DDR_PHY_DX6GCR0_DQSGPDR 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX6GCR0_RESERVED_4 0x0 + + DQSG On-Die Termination + PSU_DDR_PHY_DX6GCR0_DQSGODT 0x0 + + DQSG Output Enable + PSU_DDR_PHY_DX6GCR0_DQSGOE 0x1 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX6GCR0_RESERVED_1_0 0x0 + + DATX8 n General Configuration Register 0 + (OFFSET, MASK, VALUE) (0XFD080D00, 0xFFFFFFFFU ,0x40800604U) + RegMask = (DDR_PHY_DX6GCR0_CALBYP_MASK | DDR_PHY_DX6GCR0_MDLEN_MASK | DDR_PHY_DX6GCR0_CODTSHFT_MASK | DDR_PHY_DX6GCR0_DQSDCC_MASK | DDR_PHY_DX6GCR0_RDDLY_MASK | DDR_PHY_DX6GCR0_RESERVED_19_14_MASK | DDR_PHY_DX6GCR0_DQSNSEPDR_MASK | DDR_PHY_DX6GCR0_DQSSEPDR_MASK | DDR_PHY_DX6GCR0_RTTOAL_MASK | DDR_PHY_DX6GCR0_RTTOH_MASK | DDR_PHY_DX6GCR0_CPDRSHFT_MASK | DDR_PHY_DX6GCR0_DQSRPD_MASK | DDR_PHY_DX6GCR0_DQSGPDR_MASK | DDR_PHY_DX6GCR0_RESERVED_4_MASK | DDR_PHY_DX6GCR0_DQSGODT_MASK | DDR_PHY_DX6GCR0_DQSGOE_MASK | DDR_PHY_DX6GCR0_RESERVED_1_0_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX6GCR0_CALBYP_SHIFT + | 0x00000001U << DDR_PHY_DX6GCR0_MDLEN_SHIFT + | 0x00000000U << DDR_PHY_DX6GCR0_CODTSHFT_SHIFT + | 0x00000000U << DDR_PHY_DX6GCR0_DQSDCC_SHIFT + | 0x00000008U << DDR_PHY_DX6GCR0_RDDLY_SHIFT + | 0x00000000U << DDR_PHY_DX6GCR0_RESERVED_19_14_SHIFT + | 0x00000000U << DDR_PHY_DX6GCR0_DQSNSEPDR_SHIFT + | 0x00000000U << DDR_PHY_DX6GCR0_DQSSEPDR_SHIFT + | 0x00000000U << DDR_PHY_DX6GCR0_RTTOAL_SHIFT + | 0x00000003U << DDR_PHY_DX6GCR0_RTTOH_SHIFT + | 0x00000000U << DDR_PHY_DX6GCR0_CPDRSHFT_SHIFT + | 0x00000000U << DDR_PHY_DX6GCR0_DQSRPD_SHIFT + | 0x00000000U << DDR_PHY_DX6GCR0_DQSGPDR_SHIFT + | 0x00000000U << DDR_PHY_DX6GCR0_RESERVED_4_SHIFT + | 0x00000000U << DDR_PHY_DX6GCR0_DQSGODT_SHIFT + | 0x00000001U << DDR_PHY_DX6GCR0_DQSGOE_SHIFT + | 0x00000000U << DDR_PHY_DX6GCR0_RESERVED_1_0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX6GCR0_OFFSET ,0xFFFFFFFFU ,0x40800604U); + /*############################################################################################################################ */ + + /*Register : DX6GCR1 @ 0XFD080D04

+ + Enables the PDR mode for DQ[7:0] + PSU_DDR_PHY_DX6GCR1_DXPDRMODE 0x0 + + Reserved. Returns zeroes on reads. + PSU_DDR_PHY_DX6GCR1_RESERVED_15 0x0 + + Select the delayed or non-delayed read data strobe # + PSU_DDR_PHY_DX6GCR1_QSNSEL 0x1 + + Select the delayed or non-delayed read data strobe + PSU_DDR_PHY_DX6GCR1_QSSEL 0x1 + + Enables Read Data Strobe in a byte lane + PSU_DDR_PHY_DX6GCR1_OEEN 0x1 + + Enables PDR in a byte lane + PSU_DDR_PHY_DX6GCR1_PDREN 0x1 + + Enables ODT/TE in a byte lane + PSU_DDR_PHY_DX6GCR1_TEEN 0x1 + + Enables Write Data strobe in a byte lane + PSU_DDR_PHY_DX6GCR1_DSEN 0x1 + + Enables DM pin in a byte lane + PSU_DDR_PHY_DX6GCR1_DMEN 0x1 + + Enables DQ corresponding to each bit in a byte + PSU_DDR_PHY_DX6GCR1_DQEN 0xff + + DATX8 n General Configuration Register 1 + (OFFSET, MASK, VALUE) (0XFD080D04, 0xFFFFFFFFU ,0x00007FFFU) + RegMask = (DDR_PHY_DX6GCR1_DXPDRMODE_MASK | DDR_PHY_DX6GCR1_RESERVED_15_MASK | DDR_PHY_DX6GCR1_QSNSEL_MASK | DDR_PHY_DX6GCR1_QSSEL_MASK | DDR_PHY_DX6GCR1_OEEN_MASK | DDR_PHY_DX6GCR1_PDREN_MASK | DDR_PHY_DX6GCR1_TEEN_MASK | DDR_PHY_DX6GCR1_DSEN_MASK | DDR_PHY_DX6GCR1_DMEN_MASK | DDR_PHY_DX6GCR1_DQEN_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX6GCR1_DXPDRMODE_SHIFT + | 0x00000000U << DDR_PHY_DX6GCR1_RESERVED_15_SHIFT + | 0x00000001U << DDR_PHY_DX6GCR1_QSNSEL_SHIFT + | 0x00000001U << DDR_PHY_DX6GCR1_QSSEL_SHIFT + | 0x00000001U << DDR_PHY_DX6GCR1_OEEN_SHIFT + | 0x00000001U << DDR_PHY_DX6GCR1_PDREN_SHIFT + | 0x00000001U << DDR_PHY_DX6GCR1_TEEN_SHIFT + | 0x00000001U << DDR_PHY_DX6GCR1_DSEN_SHIFT + | 0x00000001U << DDR_PHY_DX6GCR1_DMEN_SHIFT + | 0x000000FFU << DDR_PHY_DX6GCR1_DQEN_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX6GCR1_OFFSET ,0xFFFFFFFFU ,0x00007FFFU); + /*############################################################################################################################ */ + + /*Register : DX6GCR4 @ 0XFD080D10

+ + Byte lane VREF IOM (Used only by D4MU IOs) + PSU_DDR_PHY_DX6GCR4_RESERVED_31_29 0x0 + + Byte Lane VREF Pad Enable + PSU_DDR_PHY_DX6GCR4_DXREFPEN 0x0 + + Byte Lane Internal VREF Enable + PSU_DDR_PHY_DX6GCR4_DXREFEEN 0x3 + + Byte Lane Single-End VREF Enable + PSU_DDR_PHY_DX6GCR4_DXREFSEN 0x1 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX6GCR4_RESERVED_24 0x0 + + External VREF generator REFSEL range select + PSU_DDR_PHY_DX6GCR4_DXREFESELRANGE 0x0 + + Byte Lane External VREF Select + PSU_DDR_PHY_DX6GCR4_DXREFESEL 0x0 + + Single ended VREF generator REFSEL range select + PSU_DDR_PHY_DX6GCR4_DXREFSSELRANGE 0x1 + + Byte Lane Single-End VREF Select + PSU_DDR_PHY_DX6GCR4_DXREFSSEL 0x30 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX6GCR4_RESERVED_7_6 0x0 + + VREF Enable control for DQ IO (Single Ended) buffers of a byte lane. + PSU_DDR_PHY_DX6GCR4_DXREFIEN 0xf + + VRMON control for DQ IO (Single Ended) buffers of a byte lane. + PSU_DDR_PHY_DX6GCR4_DXREFIMON 0x0 + + DATX8 n General Configuration Register 4 + (OFFSET, MASK, VALUE) (0XFD080D10, 0xFFFFFFFFU ,0x0E00B03CU) + RegMask = (DDR_PHY_DX6GCR4_RESERVED_31_29_MASK | DDR_PHY_DX6GCR4_DXREFPEN_MASK | DDR_PHY_DX6GCR4_DXREFEEN_MASK | DDR_PHY_DX6GCR4_DXREFSEN_MASK | DDR_PHY_DX6GCR4_RESERVED_24_MASK | DDR_PHY_DX6GCR4_DXREFESELRANGE_MASK | DDR_PHY_DX6GCR4_DXREFESEL_MASK | DDR_PHY_DX6GCR4_DXREFSSELRANGE_MASK | DDR_PHY_DX6GCR4_DXREFSSEL_MASK | DDR_PHY_DX6GCR4_RESERVED_7_6_MASK | DDR_PHY_DX6GCR4_DXREFIEN_MASK | DDR_PHY_DX6GCR4_DXREFIMON_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX6GCR4_RESERVED_31_29_SHIFT + | 0x00000000U << DDR_PHY_DX6GCR4_DXREFPEN_SHIFT + | 0x00000003U << DDR_PHY_DX6GCR4_DXREFEEN_SHIFT + | 0x00000001U << DDR_PHY_DX6GCR4_DXREFSEN_SHIFT + | 0x00000000U << DDR_PHY_DX6GCR4_RESERVED_24_SHIFT + | 0x00000000U << DDR_PHY_DX6GCR4_DXREFESELRANGE_SHIFT + | 0x00000000U << DDR_PHY_DX6GCR4_DXREFESEL_SHIFT + | 0x00000001U << DDR_PHY_DX6GCR4_DXREFSSELRANGE_SHIFT + | 0x00000030U << DDR_PHY_DX6GCR4_DXREFSSEL_SHIFT + | 0x00000000U << DDR_PHY_DX6GCR4_RESERVED_7_6_SHIFT + | 0x0000000FU << DDR_PHY_DX6GCR4_DXREFIEN_SHIFT + | 0x00000000U << DDR_PHY_DX6GCR4_DXREFIMON_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX6GCR4_OFFSET ,0xFFFFFFFFU ,0x0E00B03CU); + /*############################################################################################################################ */ + + /*Register : DX6GCR5 @ 0XFD080D14

+ + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX6GCR5_RESERVED_31 0x0 + + Byte Lane internal VREF Select for Rank 3 + PSU_DDR_PHY_DX6GCR5_DXREFISELR3 0x9 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX6GCR5_RESERVED_23 0x0 + + Byte Lane internal VREF Select for Rank 2 + PSU_DDR_PHY_DX6GCR5_DXREFISELR2 0x9 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX6GCR5_RESERVED_15 0x0 + + Byte Lane internal VREF Select for Rank 1 + PSU_DDR_PHY_DX6GCR5_DXREFISELR1 0x4f + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX6GCR5_RESERVED_7 0x0 + + Byte Lane internal VREF Select for Rank 0 + PSU_DDR_PHY_DX6GCR5_DXREFISELR0 0x4f + + DATX8 n General Configuration Register 5 + (OFFSET, MASK, VALUE) (0XFD080D14, 0xFFFFFFFFU ,0x09094F4FU) + RegMask = (DDR_PHY_DX6GCR5_RESERVED_31_MASK | DDR_PHY_DX6GCR5_DXREFISELR3_MASK | DDR_PHY_DX6GCR5_RESERVED_23_MASK | DDR_PHY_DX6GCR5_DXREFISELR2_MASK | DDR_PHY_DX6GCR5_RESERVED_15_MASK | DDR_PHY_DX6GCR5_DXREFISELR1_MASK | DDR_PHY_DX6GCR5_RESERVED_7_MASK | DDR_PHY_DX6GCR5_DXREFISELR0_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX6GCR5_RESERVED_31_SHIFT + | 0x00000009U << DDR_PHY_DX6GCR5_DXREFISELR3_SHIFT + | 0x00000000U << DDR_PHY_DX6GCR5_RESERVED_23_SHIFT + | 0x00000009U << DDR_PHY_DX6GCR5_DXREFISELR2_SHIFT + | 0x00000000U << DDR_PHY_DX6GCR5_RESERVED_15_SHIFT + | 0x0000004FU << DDR_PHY_DX6GCR5_DXREFISELR1_SHIFT + | 0x00000000U << DDR_PHY_DX6GCR5_RESERVED_7_SHIFT + | 0x0000004FU << DDR_PHY_DX6GCR5_DXREFISELR0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX6GCR5_OFFSET ,0xFFFFFFFFU ,0x09094F4FU); + /*############################################################################################################################ */ + + /*Register : DX6GCR6 @ 0XFD080D18

+ + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX6GCR6_RESERVED_31_30 0x0 + + DRAM DQ VREF Select for Rank3 + PSU_DDR_PHY_DX6GCR6_DXDQVREFR3 0x9 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX6GCR6_RESERVED_23_22 0x0 + + DRAM DQ VREF Select for Rank2 + PSU_DDR_PHY_DX6GCR6_DXDQVREFR2 0x9 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX6GCR6_RESERVED_15_14 0x0 + + DRAM DQ VREF Select for Rank1 + PSU_DDR_PHY_DX6GCR6_DXDQVREFR1 0x2b + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX6GCR6_RESERVED_7_6 0x0 + + DRAM DQ VREF Select for Rank0 + PSU_DDR_PHY_DX6GCR6_DXDQVREFR0 0x2b + + DATX8 n General Configuration Register 6 + (OFFSET, MASK, VALUE) (0XFD080D18, 0xFFFFFFFFU ,0x09092B2BU) + RegMask = (DDR_PHY_DX6GCR6_RESERVED_31_30_MASK | DDR_PHY_DX6GCR6_DXDQVREFR3_MASK | DDR_PHY_DX6GCR6_RESERVED_23_22_MASK | DDR_PHY_DX6GCR6_DXDQVREFR2_MASK | DDR_PHY_DX6GCR6_RESERVED_15_14_MASK | DDR_PHY_DX6GCR6_DXDQVREFR1_MASK | DDR_PHY_DX6GCR6_RESERVED_7_6_MASK | DDR_PHY_DX6GCR6_DXDQVREFR0_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX6GCR6_RESERVED_31_30_SHIFT + | 0x00000009U << DDR_PHY_DX6GCR6_DXDQVREFR3_SHIFT + | 0x00000000U << DDR_PHY_DX6GCR6_RESERVED_23_22_SHIFT + | 0x00000009U << DDR_PHY_DX6GCR6_DXDQVREFR2_SHIFT + | 0x00000000U << DDR_PHY_DX6GCR6_RESERVED_15_14_SHIFT + | 0x0000002BU << DDR_PHY_DX6GCR6_DXDQVREFR1_SHIFT + | 0x00000000U << DDR_PHY_DX6GCR6_RESERVED_7_6_SHIFT + | 0x0000002BU << DDR_PHY_DX6GCR6_DXDQVREFR0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX6GCR6_OFFSET ,0xFFFFFFFFU ,0x09092B2BU); + /*############################################################################################################################ */ + + /*Register : DX6LCDLR2 @ 0XFD080D88

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX6LCDLR2_RESERVED_31_25 0x0 + + Reserved. Caution, do not write to this register field. + PSU_DDR_PHY_DX6LCDLR2_RESERVED_24_16 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX6LCDLR2_RESERVED_15_9 0x0 + + Read DQS Gating Delay + PSU_DDR_PHY_DX6LCDLR2_DQSGD 0x0 + + DATX8 n Local Calibrated Delay Line Register 2 + (OFFSET, MASK, VALUE) (0XFD080D88, 0xFFFFFFFFU ,0x00000000U) + RegMask = (DDR_PHY_DX6LCDLR2_RESERVED_31_25_MASK | DDR_PHY_DX6LCDLR2_RESERVED_24_16_MASK | DDR_PHY_DX6LCDLR2_RESERVED_15_9_MASK | DDR_PHY_DX6LCDLR2_DQSGD_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX6LCDLR2_RESERVED_31_25_SHIFT + | 0x00000000U << DDR_PHY_DX6LCDLR2_RESERVED_24_16_SHIFT + | 0x00000000U << DDR_PHY_DX6LCDLR2_RESERVED_15_9_SHIFT + | 0x00000000U << DDR_PHY_DX6LCDLR2_DQSGD_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX6LCDLR2_OFFSET ,0xFFFFFFFFU ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : DX6GTR0 @ 0XFD080DC0

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX6GTR0_RESERVED_31_24 0x0 + + DQ Write Path Latency Pipeline + PSU_DDR_PHY_DX6GTR0_WDQSL 0x0 + + Reserved. Caution, do not write to this register field. + PSU_DDR_PHY_DX6GTR0_RESERVED_23_20 0x0 + + Write Leveling System Latency + PSU_DDR_PHY_DX6GTR0_WLSL 0x2 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX6GTR0_RESERVED_15_13 0x0 + + Reserved. Caution, do not write to this register field. + PSU_DDR_PHY_DX6GTR0_RESERVED_12_8 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX6GTR0_RESERVED_7_5 0x0 + + DQS Gating System Latency + PSU_DDR_PHY_DX6GTR0_DGSL 0x0 + + DATX8 n General Timing Register 0 + (OFFSET, MASK, VALUE) (0XFD080DC0, 0xFFFFFFFFU ,0x00020000U) + RegMask = (DDR_PHY_DX6GTR0_RESERVED_31_24_MASK | DDR_PHY_DX6GTR0_WDQSL_MASK | DDR_PHY_DX6GTR0_RESERVED_23_20_MASK | DDR_PHY_DX6GTR0_WLSL_MASK | DDR_PHY_DX6GTR0_RESERVED_15_13_MASK | DDR_PHY_DX6GTR0_RESERVED_12_8_MASK | DDR_PHY_DX6GTR0_RESERVED_7_5_MASK | DDR_PHY_DX6GTR0_DGSL_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX6GTR0_RESERVED_31_24_SHIFT + | 0x00000000U << DDR_PHY_DX6GTR0_WDQSL_SHIFT + | 0x00000000U << DDR_PHY_DX6GTR0_RESERVED_23_20_SHIFT + | 0x00000002U << DDR_PHY_DX6GTR0_WLSL_SHIFT + | 0x00000000U << DDR_PHY_DX6GTR0_RESERVED_15_13_SHIFT + | 0x00000000U << DDR_PHY_DX6GTR0_RESERVED_12_8_SHIFT + | 0x00000000U << DDR_PHY_DX6GTR0_RESERVED_7_5_SHIFT + | 0x00000000U << DDR_PHY_DX6GTR0_DGSL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX6GTR0_OFFSET ,0xFFFFFFFFU ,0x00020000U); + /*############################################################################################################################ */ + + /*Register : DX7GCR0 @ 0XFD080E00

+ + Calibration Bypass + PSU_DDR_PHY_DX7GCR0_CALBYP 0x0 + + Master Delay Line Enable + PSU_DDR_PHY_DX7GCR0_MDLEN 0x1 + + Configurable ODT(TE) Phase Shift + PSU_DDR_PHY_DX7GCR0_CODTSHFT 0x0 + + DQS Duty Cycle Correction + PSU_DDR_PHY_DX7GCR0_DQSDCC 0x0 + + Number of Cycles ( in terms of ctl_clk) to generate ctl_dx_get_static_rd input for the respective bypte lane of the PHY + PSU_DDR_PHY_DX7GCR0_RDDLY 0x8 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX7GCR0_RESERVED_19_14 0x0 + + DQSNSE Power Down Receiver + PSU_DDR_PHY_DX7GCR0_DQSNSEPDR 0x0 + + DQSSE Power Down Receiver + PSU_DDR_PHY_DX7GCR0_DQSSEPDR 0x0 + + RTT On Additive Latency + PSU_DDR_PHY_DX7GCR0_RTTOAL 0x0 + + RTT Output Hold + PSU_DDR_PHY_DX7GCR0_RTTOH 0x3 + + Configurable PDR Phase Shift + PSU_DDR_PHY_DX7GCR0_CPDRSHFT 0x0 + + DQSR Power Down + PSU_DDR_PHY_DX7GCR0_DQSRPD 0x0 + + DQSG Power Down Receiver + PSU_DDR_PHY_DX7GCR0_DQSGPDR 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX7GCR0_RESERVED_4 0x0 + + DQSG On-Die Termination + PSU_DDR_PHY_DX7GCR0_DQSGODT 0x0 + + DQSG Output Enable + PSU_DDR_PHY_DX7GCR0_DQSGOE 0x1 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX7GCR0_RESERVED_1_0 0x0 + + DATX8 n General Configuration Register 0 + (OFFSET, MASK, VALUE) (0XFD080E00, 0xFFFFFFFFU ,0x40800604U) + RegMask = (DDR_PHY_DX7GCR0_CALBYP_MASK | DDR_PHY_DX7GCR0_MDLEN_MASK | DDR_PHY_DX7GCR0_CODTSHFT_MASK | DDR_PHY_DX7GCR0_DQSDCC_MASK | DDR_PHY_DX7GCR0_RDDLY_MASK | DDR_PHY_DX7GCR0_RESERVED_19_14_MASK | DDR_PHY_DX7GCR0_DQSNSEPDR_MASK | DDR_PHY_DX7GCR0_DQSSEPDR_MASK | DDR_PHY_DX7GCR0_RTTOAL_MASK | DDR_PHY_DX7GCR0_RTTOH_MASK | DDR_PHY_DX7GCR0_CPDRSHFT_MASK | DDR_PHY_DX7GCR0_DQSRPD_MASK | DDR_PHY_DX7GCR0_DQSGPDR_MASK | DDR_PHY_DX7GCR0_RESERVED_4_MASK | DDR_PHY_DX7GCR0_DQSGODT_MASK | DDR_PHY_DX7GCR0_DQSGOE_MASK | DDR_PHY_DX7GCR0_RESERVED_1_0_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX7GCR0_CALBYP_SHIFT + | 0x00000001U << DDR_PHY_DX7GCR0_MDLEN_SHIFT + | 0x00000000U << DDR_PHY_DX7GCR0_CODTSHFT_SHIFT + | 0x00000000U << DDR_PHY_DX7GCR0_DQSDCC_SHIFT + | 0x00000008U << DDR_PHY_DX7GCR0_RDDLY_SHIFT + | 0x00000000U << DDR_PHY_DX7GCR0_RESERVED_19_14_SHIFT + | 0x00000000U << DDR_PHY_DX7GCR0_DQSNSEPDR_SHIFT + | 0x00000000U << DDR_PHY_DX7GCR0_DQSSEPDR_SHIFT + | 0x00000000U << DDR_PHY_DX7GCR0_RTTOAL_SHIFT + | 0x00000003U << DDR_PHY_DX7GCR0_RTTOH_SHIFT + | 0x00000000U << DDR_PHY_DX7GCR0_CPDRSHFT_SHIFT + | 0x00000000U << DDR_PHY_DX7GCR0_DQSRPD_SHIFT + | 0x00000000U << DDR_PHY_DX7GCR0_DQSGPDR_SHIFT + | 0x00000000U << DDR_PHY_DX7GCR0_RESERVED_4_SHIFT + | 0x00000000U << DDR_PHY_DX7GCR0_DQSGODT_SHIFT + | 0x00000001U << DDR_PHY_DX7GCR0_DQSGOE_SHIFT + | 0x00000000U << DDR_PHY_DX7GCR0_RESERVED_1_0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX7GCR0_OFFSET ,0xFFFFFFFFU ,0x40800604U); + /*############################################################################################################################ */ + + /*Register : DX7GCR1 @ 0XFD080E04

+ + Enables the PDR mode for DQ[7:0] + PSU_DDR_PHY_DX7GCR1_DXPDRMODE 0x0 + + Reserved. Returns zeroes on reads. + PSU_DDR_PHY_DX7GCR1_RESERVED_15 0x0 + + Select the delayed or non-delayed read data strobe # + PSU_DDR_PHY_DX7GCR1_QSNSEL 0x1 + + Select the delayed or non-delayed read data strobe + PSU_DDR_PHY_DX7GCR1_QSSEL 0x1 + + Enables Read Data Strobe in a byte lane + PSU_DDR_PHY_DX7GCR1_OEEN 0x1 + + Enables PDR in a byte lane + PSU_DDR_PHY_DX7GCR1_PDREN 0x1 + + Enables ODT/TE in a byte lane + PSU_DDR_PHY_DX7GCR1_TEEN 0x1 + + Enables Write Data strobe in a byte lane + PSU_DDR_PHY_DX7GCR1_DSEN 0x1 + + Enables DM pin in a byte lane + PSU_DDR_PHY_DX7GCR1_DMEN 0x1 + + Enables DQ corresponding to each bit in a byte + PSU_DDR_PHY_DX7GCR1_DQEN 0xff + + DATX8 n General Configuration Register 1 + (OFFSET, MASK, VALUE) (0XFD080E04, 0xFFFFFFFFU ,0x00007FFFU) + RegMask = (DDR_PHY_DX7GCR1_DXPDRMODE_MASK | DDR_PHY_DX7GCR1_RESERVED_15_MASK | DDR_PHY_DX7GCR1_QSNSEL_MASK | DDR_PHY_DX7GCR1_QSSEL_MASK | DDR_PHY_DX7GCR1_OEEN_MASK | DDR_PHY_DX7GCR1_PDREN_MASK | DDR_PHY_DX7GCR1_TEEN_MASK | DDR_PHY_DX7GCR1_DSEN_MASK | DDR_PHY_DX7GCR1_DMEN_MASK | DDR_PHY_DX7GCR1_DQEN_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX7GCR1_DXPDRMODE_SHIFT + | 0x00000000U << DDR_PHY_DX7GCR1_RESERVED_15_SHIFT + | 0x00000001U << DDR_PHY_DX7GCR1_QSNSEL_SHIFT + | 0x00000001U << DDR_PHY_DX7GCR1_QSSEL_SHIFT + | 0x00000001U << DDR_PHY_DX7GCR1_OEEN_SHIFT + | 0x00000001U << DDR_PHY_DX7GCR1_PDREN_SHIFT + | 0x00000001U << DDR_PHY_DX7GCR1_TEEN_SHIFT + | 0x00000001U << DDR_PHY_DX7GCR1_DSEN_SHIFT + | 0x00000001U << DDR_PHY_DX7GCR1_DMEN_SHIFT + | 0x000000FFU << DDR_PHY_DX7GCR1_DQEN_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX7GCR1_OFFSET ,0xFFFFFFFFU ,0x00007FFFU); + /*############################################################################################################################ */ + + /*Register : DX7GCR4 @ 0XFD080E10

+ + Byte lane VREF IOM (Used only by D4MU IOs) + PSU_DDR_PHY_DX7GCR4_RESERVED_31_29 0x0 + + Byte Lane VREF Pad Enable + PSU_DDR_PHY_DX7GCR4_DXREFPEN 0x0 + + Byte Lane Internal VREF Enable + PSU_DDR_PHY_DX7GCR4_DXREFEEN 0x3 + + Byte Lane Single-End VREF Enable + PSU_DDR_PHY_DX7GCR4_DXREFSEN 0x1 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX7GCR4_RESERVED_24 0x0 + + External VREF generator REFSEL range select + PSU_DDR_PHY_DX7GCR4_DXREFESELRANGE 0x0 + + Byte Lane External VREF Select + PSU_DDR_PHY_DX7GCR4_DXREFESEL 0x0 + + Single ended VREF generator REFSEL range select + PSU_DDR_PHY_DX7GCR4_DXREFSSELRANGE 0x1 + + Byte Lane Single-End VREF Select + PSU_DDR_PHY_DX7GCR4_DXREFSSEL 0x30 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX7GCR4_RESERVED_7_6 0x0 + + VREF Enable control for DQ IO (Single Ended) buffers of a byte lane. + PSU_DDR_PHY_DX7GCR4_DXREFIEN 0xf + + VRMON control for DQ IO (Single Ended) buffers of a byte lane. + PSU_DDR_PHY_DX7GCR4_DXREFIMON 0x0 + + DATX8 n General Configuration Register 4 + (OFFSET, MASK, VALUE) (0XFD080E10, 0xFFFFFFFFU ,0x0E00B03CU) + RegMask = (DDR_PHY_DX7GCR4_RESERVED_31_29_MASK | DDR_PHY_DX7GCR4_DXREFPEN_MASK | DDR_PHY_DX7GCR4_DXREFEEN_MASK | DDR_PHY_DX7GCR4_DXREFSEN_MASK | DDR_PHY_DX7GCR4_RESERVED_24_MASK | DDR_PHY_DX7GCR4_DXREFESELRANGE_MASK | DDR_PHY_DX7GCR4_DXREFESEL_MASK | DDR_PHY_DX7GCR4_DXREFSSELRANGE_MASK | DDR_PHY_DX7GCR4_DXREFSSEL_MASK | DDR_PHY_DX7GCR4_RESERVED_7_6_MASK | DDR_PHY_DX7GCR4_DXREFIEN_MASK | DDR_PHY_DX7GCR4_DXREFIMON_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX7GCR4_RESERVED_31_29_SHIFT + | 0x00000000U << DDR_PHY_DX7GCR4_DXREFPEN_SHIFT + | 0x00000003U << DDR_PHY_DX7GCR4_DXREFEEN_SHIFT + | 0x00000001U << DDR_PHY_DX7GCR4_DXREFSEN_SHIFT + | 0x00000000U << DDR_PHY_DX7GCR4_RESERVED_24_SHIFT + | 0x00000000U << DDR_PHY_DX7GCR4_DXREFESELRANGE_SHIFT + | 0x00000000U << DDR_PHY_DX7GCR4_DXREFESEL_SHIFT + | 0x00000001U << DDR_PHY_DX7GCR4_DXREFSSELRANGE_SHIFT + | 0x00000030U << DDR_PHY_DX7GCR4_DXREFSSEL_SHIFT + | 0x00000000U << DDR_PHY_DX7GCR4_RESERVED_7_6_SHIFT + | 0x0000000FU << DDR_PHY_DX7GCR4_DXREFIEN_SHIFT + | 0x00000000U << DDR_PHY_DX7GCR4_DXREFIMON_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX7GCR4_OFFSET ,0xFFFFFFFFU ,0x0E00B03CU); + /*############################################################################################################################ */ + + /*Register : DX7GCR5 @ 0XFD080E14

+ + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX7GCR5_RESERVED_31 0x0 + + Byte Lane internal VREF Select for Rank 3 + PSU_DDR_PHY_DX7GCR5_DXREFISELR3 0x9 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX7GCR5_RESERVED_23 0x0 + + Byte Lane internal VREF Select for Rank 2 + PSU_DDR_PHY_DX7GCR5_DXREFISELR2 0x9 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX7GCR5_RESERVED_15 0x0 + + Byte Lane internal VREF Select for Rank 1 + PSU_DDR_PHY_DX7GCR5_DXREFISELR1 0x4f + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX7GCR5_RESERVED_7 0x0 + + Byte Lane internal VREF Select for Rank 0 + PSU_DDR_PHY_DX7GCR5_DXREFISELR0 0x4f + + DATX8 n General Configuration Register 5 + (OFFSET, MASK, VALUE) (0XFD080E14, 0xFFFFFFFFU ,0x09094F4FU) + RegMask = (DDR_PHY_DX7GCR5_RESERVED_31_MASK | DDR_PHY_DX7GCR5_DXREFISELR3_MASK | DDR_PHY_DX7GCR5_RESERVED_23_MASK | DDR_PHY_DX7GCR5_DXREFISELR2_MASK | DDR_PHY_DX7GCR5_RESERVED_15_MASK | DDR_PHY_DX7GCR5_DXREFISELR1_MASK | DDR_PHY_DX7GCR5_RESERVED_7_MASK | DDR_PHY_DX7GCR5_DXREFISELR0_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX7GCR5_RESERVED_31_SHIFT + | 0x00000009U << DDR_PHY_DX7GCR5_DXREFISELR3_SHIFT + | 0x00000000U << DDR_PHY_DX7GCR5_RESERVED_23_SHIFT + | 0x00000009U << DDR_PHY_DX7GCR5_DXREFISELR2_SHIFT + | 0x00000000U << DDR_PHY_DX7GCR5_RESERVED_15_SHIFT + | 0x0000004FU << DDR_PHY_DX7GCR5_DXREFISELR1_SHIFT + | 0x00000000U << DDR_PHY_DX7GCR5_RESERVED_7_SHIFT + | 0x0000004FU << DDR_PHY_DX7GCR5_DXREFISELR0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX7GCR5_OFFSET ,0xFFFFFFFFU ,0x09094F4FU); + /*############################################################################################################################ */ + + /*Register : DX7GCR6 @ 0XFD080E18

+ + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX7GCR6_RESERVED_31_30 0x0 + + DRAM DQ VREF Select for Rank3 + PSU_DDR_PHY_DX7GCR6_DXDQVREFR3 0x9 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX7GCR6_RESERVED_23_22 0x0 + + DRAM DQ VREF Select for Rank2 + PSU_DDR_PHY_DX7GCR6_DXDQVREFR2 0x9 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX7GCR6_RESERVED_15_14 0x0 + + DRAM DQ VREF Select for Rank1 + PSU_DDR_PHY_DX7GCR6_DXDQVREFR1 0x2b + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX7GCR6_RESERVED_7_6 0x0 + + DRAM DQ VREF Select for Rank0 + PSU_DDR_PHY_DX7GCR6_DXDQVREFR0 0x2b + + DATX8 n General Configuration Register 6 + (OFFSET, MASK, VALUE) (0XFD080E18, 0xFFFFFFFFU ,0x09092B2BU) + RegMask = (DDR_PHY_DX7GCR6_RESERVED_31_30_MASK | DDR_PHY_DX7GCR6_DXDQVREFR3_MASK | DDR_PHY_DX7GCR6_RESERVED_23_22_MASK | DDR_PHY_DX7GCR6_DXDQVREFR2_MASK | DDR_PHY_DX7GCR6_RESERVED_15_14_MASK | DDR_PHY_DX7GCR6_DXDQVREFR1_MASK | DDR_PHY_DX7GCR6_RESERVED_7_6_MASK | DDR_PHY_DX7GCR6_DXDQVREFR0_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX7GCR6_RESERVED_31_30_SHIFT + | 0x00000009U << DDR_PHY_DX7GCR6_DXDQVREFR3_SHIFT + | 0x00000000U << DDR_PHY_DX7GCR6_RESERVED_23_22_SHIFT + | 0x00000009U << DDR_PHY_DX7GCR6_DXDQVREFR2_SHIFT + | 0x00000000U << DDR_PHY_DX7GCR6_RESERVED_15_14_SHIFT + | 0x0000002BU << DDR_PHY_DX7GCR6_DXDQVREFR1_SHIFT + | 0x00000000U << DDR_PHY_DX7GCR6_RESERVED_7_6_SHIFT + | 0x0000002BU << DDR_PHY_DX7GCR6_DXDQVREFR0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX7GCR6_OFFSET ,0xFFFFFFFFU ,0x09092B2BU); + /*############################################################################################################################ */ + + /*Register : DX7LCDLR2 @ 0XFD080E88

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX7LCDLR2_RESERVED_31_25 0x0 + + Reserved. Caution, do not write to this register field. + PSU_DDR_PHY_DX7LCDLR2_RESERVED_24_16 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX7LCDLR2_RESERVED_15_9 0x0 + + Read DQS Gating Delay + PSU_DDR_PHY_DX7LCDLR2_DQSGD 0xa + + DATX8 n Local Calibrated Delay Line Register 2 + (OFFSET, MASK, VALUE) (0XFD080E88, 0xFFFFFFFFU ,0x0000000AU) + RegMask = (DDR_PHY_DX7LCDLR2_RESERVED_31_25_MASK | DDR_PHY_DX7LCDLR2_RESERVED_24_16_MASK | DDR_PHY_DX7LCDLR2_RESERVED_15_9_MASK | DDR_PHY_DX7LCDLR2_DQSGD_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX7LCDLR2_RESERVED_31_25_SHIFT + | 0x00000000U << DDR_PHY_DX7LCDLR2_RESERVED_24_16_SHIFT + | 0x00000000U << DDR_PHY_DX7LCDLR2_RESERVED_15_9_SHIFT + | 0x0000000AU << DDR_PHY_DX7LCDLR2_DQSGD_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX7LCDLR2_OFFSET ,0xFFFFFFFFU ,0x0000000AU); + /*############################################################################################################################ */ + + /*Register : DX7GTR0 @ 0XFD080EC0

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX7GTR0_RESERVED_31_24 0x0 + + DQ Write Path Latency Pipeline + PSU_DDR_PHY_DX7GTR0_WDQSL 0x0 + + Reserved. Caution, do not write to this register field. + PSU_DDR_PHY_DX7GTR0_RESERVED_23_20 0x0 + + Write Leveling System Latency + PSU_DDR_PHY_DX7GTR0_WLSL 0x2 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX7GTR0_RESERVED_15_13 0x0 + + Reserved. Caution, do not write to this register field. + PSU_DDR_PHY_DX7GTR0_RESERVED_12_8 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX7GTR0_RESERVED_7_5 0x0 + + DQS Gating System Latency + PSU_DDR_PHY_DX7GTR0_DGSL 0x0 + + DATX8 n General Timing Register 0 + (OFFSET, MASK, VALUE) (0XFD080EC0, 0xFFFFFFFFU ,0x00020000U) + RegMask = (DDR_PHY_DX7GTR0_RESERVED_31_24_MASK | DDR_PHY_DX7GTR0_WDQSL_MASK | DDR_PHY_DX7GTR0_RESERVED_23_20_MASK | DDR_PHY_DX7GTR0_WLSL_MASK | DDR_PHY_DX7GTR0_RESERVED_15_13_MASK | DDR_PHY_DX7GTR0_RESERVED_12_8_MASK | DDR_PHY_DX7GTR0_RESERVED_7_5_MASK | DDR_PHY_DX7GTR0_DGSL_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX7GTR0_RESERVED_31_24_SHIFT + | 0x00000000U << DDR_PHY_DX7GTR0_WDQSL_SHIFT + | 0x00000000U << DDR_PHY_DX7GTR0_RESERVED_23_20_SHIFT + | 0x00000002U << DDR_PHY_DX7GTR0_WLSL_SHIFT + | 0x00000000U << DDR_PHY_DX7GTR0_RESERVED_15_13_SHIFT + | 0x00000000U << DDR_PHY_DX7GTR0_RESERVED_12_8_SHIFT + | 0x00000000U << DDR_PHY_DX7GTR0_RESERVED_7_5_SHIFT + | 0x00000000U << DDR_PHY_DX7GTR0_DGSL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX7GTR0_OFFSET ,0xFFFFFFFFU ,0x00020000U); + /*############################################################################################################################ */ + + /*Register : DX8GCR0 @ 0XFD080F00

+ + Calibration Bypass + PSU_DDR_PHY_DX8GCR0_CALBYP 0x0 + + Master Delay Line Enable + PSU_DDR_PHY_DX8GCR0_MDLEN 0x1 + + Configurable ODT(TE) Phase Shift + PSU_DDR_PHY_DX8GCR0_CODTSHFT 0x0 + + DQS Duty Cycle Correction + PSU_DDR_PHY_DX8GCR0_DQSDCC 0x0 + + Number of Cycles ( in terms of ctl_clk) to generate ctl_dx_get_static_rd input for the respective bypte lane of the PHY + PSU_DDR_PHY_DX8GCR0_RDDLY 0x8 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8GCR0_RESERVED_19_14 0x0 + + DQSNSE Power Down Receiver + PSU_DDR_PHY_DX8GCR0_DQSNSEPDR 0x0 + + DQSSE Power Down Receiver + PSU_DDR_PHY_DX8GCR0_DQSSEPDR 0x0 + + RTT On Additive Latency + PSU_DDR_PHY_DX8GCR0_RTTOAL 0x0 + + RTT Output Hold + PSU_DDR_PHY_DX8GCR0_RTTOH 0x3 + + Configurable PDR Phase Shift + PSU_DDR_PHY_DX8GCR0_CPDRSHFT 0x0 + + DQSR Power Down + PSU_DDR_PHY_DX8GCR0_DQSRPD 0x0 + + DQSG Power Down Receiver + PSU_DDR_PHY_DX8GCR0_DQSGPDR 0x1 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8GCR0_RESERVED_4 0x0 + + DQSG On-Die Termination + PSU_DDR_PHY_DX8GCR0_DQSGODT 0x0 + + DQSG Output Enable + PSU_DDR_PHY_DX8GCR0_DQSGOE 0x1 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8GCR0_RESERVED_1_0 0x0 + + DATX8 n General Configuration Register 0 + (OFFSET, MASK, VALUE) (0XFD080F00, 0xFFFFFFFFU ,0x40800624U) + RegMask = (DDR_PHY_DX8GCR0_CALBYP_MASK | DDR_PHY_DX8GCR0_MDLEN_MASK | DDR_PHY_DX8GCR0_CODTSHFT_MASK | DDR_PHY_DX8GCR0_DQSDCC_MASK | DDR_PHY_DX8GCR0_RDDLY_MASK | DDR_PHY_DX8GCR0_RESERVED_19_14_MASK | DDR_PHY_DX8GCR0_DQSNSEPDR_MASK | DDR_PHY_DX8GCR0_DQSSEPDR_MASK | DDR_PHY_DX8GCR0_RTTOAL_MASK | DDR_PHY_DX8GCR0_RTTOH_MASK | DDR_PHY_DX8GCR0_CPDRSHFT_MASK | DDR_PHY_DX8GCR0_DQSRPD_MASK | DDR_PHY_DX8GCR0_DQSGPDR_MASK | DDR_PHY_DX8GCR0_RESERVED_4_MASK | DDR_PHY_DX8GCR0_DQSGODT_MASK | DDR_PHY_DX8GCR0_DQSGOE_MASK | DDR_PHY_DX8GCR0_RESERVED_1_0_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX8GCR0_CALBYP_SHIFT + | 0x00000001U << DDR_PHY_DX8GCR0_MDLEN_SHIFT + | 0x00000000U << DDR_PHY_DX8GCR0_CODTSHFT_SHIFT + | 0x00000000U << DDR_PHY_DX8GCR0_DQSDCC_SHIFT + | 0x00000008U << DDR_PHY_DX8GCR0_RDDLY_SHIFT + | 0x00000000U << DDR_PHY_DX8GCR0_RESERVED_19_14_SHIFT + | 0x00000000U << DDR_PHY_DX8GCR0_DQSNSEPDR_SHIFT + | 0x00000000U << DDR_PHY_DX8GCR0_DQSSEPDR_SHIFT + | 0x00000000U << DDR_PHY_DX8GCR0_RTTOAL_SHIFT + | 0x00000003U << DDR_PHY_DX8GCR0_RTTOH_SHIFT + | 0x00000000U << DDR_PHY_DX8GCR0_CPDRSHFT_SHIFT + | 0x00000000U << DDR_PHY_DX8GCR0_DQSRPD_SHIFT + | 0x00000001U << DDR_PHY_DX8GCR0_DQSGPDR_SHIFT + | 0x00000000U << DDR_PHY_DX8GCR0_RESERVED_4_SHIFT + | 0x00000000U << DDR_PHY_DX8GCR0_DQSGODT_SHIFT + | 0x00000001U << DDR_PHY_DX8GCR0_DQSGOE_SHIFT + | 0x00000000U << DDR_PHY_DX8GCR0_RESERVED_1_0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX8GCR0_OFFSET ,0xFFFFFFFFU ,0x40800624U); + /*############################################################################################################################ */ + + /*Register : DX8GCR1 @ 0XFD080F04

+ + Enables the PDR mode for DQ[7:0] + PSU_DDR_PHY_DX8GCR1_DXPDRMODE 0x0 + + Reserved. Returns zeroes on reads. + PSU_DDR_PHY_DX8GCR1_RESERVED_15 0x0 + + Select the delayed or non-delayed read data strobe # + PSU_DDR_PHY_DX8GCR1_QSNSEL 0x1 + + Select the delayed or non-delayed read data strobe + PSU_DDR_PHY_DX8GCR1_QSSEL 0x1 + + Enables Read Data Strobe in a byte lane + PSU_DDR_PHY_DX8GCR1_OEEN 0x1 + + Enables PDR in a byte lane + PSU_DDR_PHY_DX8GCR1_PDREN 0x1 + + Enables ODT/TE in a byte lane + PSU_DDR_PHY_DX8GCR1_TEEN 0x1 + + Enables Write Data strobe in a byte lane + PSU_DDR_PHY_DX8GCR1_DSEN 0x1 + + Enables DM pin in a byte lane + PSU_DDR_PHY_DX8GCR1_DMEN 0x1 + + Enables DQ corresponding to each bit in a byte + PSU_DDR_PHY_DX8GCR1_DQEN 0x0 + + DATX8 n General Configuration Register 1 + (OFFSET, MASK, VALUE) (0XFD080F04, 0xFFFFFFFFU ,0x00007F00U) + RegMask = (DDR_PHY_DX8GCR1_DXPDRMODE_MASK | DDR_PHY_DX8GCR1_RESERVED_15_MASK | DDR_PHY_DX8GCR1_QSNSEL_MASK | DDR_PHY_DX8GCR1_QSSEL_MASK | DDR_PHY_DX8GCR1_OEEN_MASK | DDR_PHY_DX8GCR1_PDREN_MASK | DDR_PHY_DX8GCR1_TEEN_MASK | DDR_PHY_DX8GCR1_DSEN_MASK | DDR_PHY_DX8GCR1_DMEN_MASK | DDR_PHY_DX8GCR1_DQEN_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX8GCR1_DXPDRMODE_SHIFT + | 0x00000000U << DDR_PHY_DX8GCR1_RESERVED_15_SHIFT + | 0x00000001U << DDR_PHY_DX8GCR1_QSNSEL_SHIFT + | 0x00000001U << DDR_PHY_DX8GCR1_QSSEL_SHIFT + | 0x00000001U << DDR_PHY_DX8GCR1_OEEN_SHIFT + | 0x00000001U << DDR_PHY_DX8GCR1_PDREN_SHIFT + | 0x00000001U << DDR_PHY_DX8GCR1_TEEN_SHIFT + | 0x00000001U << DDR_PHY_DX8GCR1_DSEN_SHIFT + | 0x00000001U << DDR_PHY_DX8GCR1_DMEN_SHIFT + | 0x00000000U << DDR_PHY_DX8GCR1_DQEN_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX8GCR1_OFFSET ,0xFFFFFFFFU ,0x00007F00U); + /*############################################################################################################################ */ + + /*Register : DX8GCR4 @ 0XFD080F10

+ + Byte lane VREF IOM (Used only by D4MU IOs) + PSU_DDR_PHY_DX8GCR4_RESERVED_31_29 0x0 + + Byte Lane VREF Pad Enable + PSU_DDR_PHY_DX8GCR4_DXREFPEN 0x0 + + Byte Lane Internal VREF Enable + PSU_DDR_PHY_DX8GCR4_DXREFEEN 0x3 + + Byte Lane Single-End VREF Enable + PSU_DDR_PHY_DX8GCR4_DXREFSEN 0x1 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX8GCR4_RESERVED_24 0x0 + + External VREF generator REFSEL range select + PSU_DDR_PHY_DX8GCR4_DXREFESELRANGE 0x0 + + Byte Lane External VREF Select + PSU_DDR_PHY_DX8GCR4_DXREFESEL 0x0 + + Single ended VREF generator REFSEL range select + PSU_DDR_PHY_DX8GCR4_DXREFSSELRANGE 0x1 + + Byte Lane Single-End VREF Select + PSU_DDR_PHY_DX8GCR4_DXREFSSEL 0x30 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX8GCR4_RESERVED_7_6 0x0 + + VREF Enable control for DQ IO (Single Ended) buffers of a byte lane. + PSU_DDR_PHY_DX8GCR4_DXREFIEN 0xf + + VRMON control for DQ IO (Single Ended) buffers of a byte lane. + PSU_DDR_PHY_DX8GCR4_DXREFIMON 0x0 + + DATX8 n General Configuration Register 4 + (OFFSET, MASK, VALUE) (0XFD080F10, 0xFFFFFFFFU ,0x0E00B03CU) + RegMask = (DDR_PHY_DX8GCR4_RESERVED_31_29_MASK | DDR_PHY_DX8GCR4_DXREFPEN_MASK | DDR_PHY_DX8GCR4_DXREFEEN_MASK | DDR_PHY_DX8GCR4_DXREFSEN_MASK | DDR_PHY_DX8GCR4_RESERVED_24_MASK | DDR_PHY_DX8GCR4_DXREFESELRANGE_MASK | DDR_PHY_DX8GCR4_DXREFESEL_MASK | DDR_PHY_DX8GCR4_DXREFSSELRANGE_MASK | DDR_PHY_DX8GCR4_DXREFSSEL_MASK | DDR_PHY_DX8GCR4_RESERVED_7_6_MASK | DDR_PHY_DX8GCR4_DXREFIEN_MASK | DDR_PHY_DX8GCR4_DXREFIMON_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX8GCR4_RESERVED_31_29_SHIFT + | 0x00000000U << DDR_PHY_DX8GCR4_DXREFPEN_SHIFT + | 0x00000003U << DDR_PHY_DX8GCR4_DXREFEEN_SHIFT + | 0x00000001U << DDR_PHY_DX8GCR4_DXREFSEN_SHIFT + | 0x00000000U << DDR_PHY_DX8GCR4_RESERVED_24_SHIFT + | 0x00000000U << DDR_PHY_DX8GCR4_DXREFESELRANGE_SHIFT + | 0x00000000U << DDR_PHY_DX8GCR4_DXREFESEL_SHIFT + | 0x00000001U << DDR_PHY_DX8GCR4_DXREFSSELRANGE_SHIFT + | 0x00000030U << DDR_PHY_DX8GCR4_DXREFSSEL_SHIFT + | 0x00000000U << DDR_PHY_DX8GCR4_RESERVED_7_6_SHIFT + | 0x0000000FU << DDR_PHY_DX8GCR4_DXREFIEN_SHIFT + | 0x00000000U << DDR_PHY_DX8GCR4_DXREFIMON_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX8GCR4_OFFSET ,0xFFFFFFFFU ,0x0E00B03CU); + /*############################################################################################################################ */ + + /*Register : DX8GCR5 @ 0XFD080F14

+ + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX8GCR5_RESERVED_31 0x0 + + Byte Lane internal VREF Select for Rank 3 + PSU_DDR_PHY_DX8GCR5_DXREFISELR3 0x9 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX8GCR5_RESERVED_23 0x0 + + Byte Lane internal VREF Select for Rank 2 + PSU_DDR_PHY_DX8GCR5_DXREFISELR2 0x9 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX8GCR5_RESERVED_15 0x0 + + Byte Lane internal VREF Select for Rank 1 + PSU_DDR_PHY_DX8GCR5_DXREFISELR1 0x4f + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX8GCR5_RESERVED_7 0x0 + + Byte Lane internal VREF Select for Rank 0 + PSU_DDR_PHY_DX8GCR5_DXREFISELR0 0x4f + + DATX8 n General Configuration Register 5 + (OFFSET, MASK, VALUE) (0XFD080F14, 0xFFFFFFFFU ,0x09094F4FU) + RegMask = (DDR_PHY_DX8GCR5_RESERVED_31_MASK | DDR_PHY_DX8GCR5_DXREFISELR3_MASK | DDR_PHY_DX8GCR5_RESERVED_23_MASK | DDR_PHY_DX8GCR5_DXREFISELR2_MASK | DDR_PHY_DX8GCR5_RESERVED_15_MASK | DDR_PHY_DX8GCR5_DXREFISELR1_MASK | DDR_PHY_DX8GCR5_RESERVED_7_MASK | DDR_PHY_DX8GCR5_DXREFISELR0_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX8GCR5_RESERVED_31_SHIFT + | 0x00000009U << DDR_PHY_DX8GCR5_DXREFISELR3_SHIFT + | 0x00000000U << DDR_PHY_DX8GCR5_RESERVED_23_SHIFT + | 0x00000009U << DDR_PHY_DX8GCR5_DXREFISELR2_SHIFT + | 0x00000000U << DDR_PHY_DX8GCR5_RESERVED_15_SHIFT + | 0x0000004FU << DDR_PHY_DX8GCR5_DXREFISELR1_SHIFT + | 0x00000000U << DDR_PHY_DX8GCR5_RESERVED_7_SHIFT + | 0x0000004FU << DDR_PHY_DX8GCR5_DXREFISELR0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX8GCR5_OFFSET ,0xFFFFFFFFU ,0x09094F4FU); + /*############################################################################################################################ */ + + /*Register : DX8GCR6 @ 0XFD080F18

+ + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX8GCR6_RESERVED_31_30 0x0 + + DRAM DQ VREF Select for Rank3 + PSU_DDR_PHY_DX8GCR6_DXDQVREFR3 0x9 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX8GCR6_RESERVED_23_22 0x0 + + DRAM DQ VREF Select for Rank2 + PSU_DDR_PHY_DX8GCR6_DXDQVREFR2 0x9 + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX8GCR6_RESERVED_15_14 0x0 + + DRAM DQ VREF Select for Rank1 + PSU_DDR_PHY_DX8GCR6_DXDQVREFR1 0x2b + + Reserved. Returns zeros on reads. + PSU_DDR_PHY_DX8GCR6_RESERVED_7_6 0x0 + + DRAM DQ VREF Select for Rank0 + PSU_DDR_PHY_DX8GCR6_DXDQVREFR0 0x2b + + DATX8 n General Configuration Register 6 + (OFFSET, MASK, VALUE) (0XFD080F18, 0xFFFFFFFFU ,0x09092B2BU) + RegMask = (DDR_PHY_DX8GCR6_RESERVED_31_30_MASK | DDR_PHY_DX8GCR6_DXDQVREFR3_MASK | DDR_PHY_DX8GCR6_RESERVED_23_22_MASK | DDR_PHY_DX8GCR6_DXDQVREFR2_MASK | DDR_PHY_DX8GCR6_RESERVED_15_14_MASK | DDR_PHY_DX8GCR6_DXDQVREFR1_MASK | DDR_PHY_DX8GCR6_RESERVED_7_6_MASK | DDR_PHY_DX8GCR6_DXDQVREFR0_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX8GCR6_RESERVED_31_30_SHIFT + | 0x00000009U << DDR_PHY_DX8GCR6_DXDQVREFR3_SHIFT + | 0x00000000U << DDR_PHY_DX8GCR6_RESERVED_23_22_SHIFT + | 0x00000009U << DDR_PHY_DX8GCR6_DXDQVREFR2_SHIFT + | 0x00000000U << DDR_PHY_DX8GCR6_RESERVED_15_14_SHIFT + | 0x0000002BU << DDR_PHY_DX8GCR6_DXDQVREFR1_SHIFT + | 0x00000000U << DDR_PHY_DX8GCR6_RESERVED_7_6_SHIFT + | 0x0000002BU << DDR_PHY_DX8GCR6_DXDQVREFR0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX8GCR6_OFFSET ,0xFFFFFFFFU ,0x09092B2BU); + /*############################################################################################################################ */ + + /*Register : DX8LCDLR2 @ 0XFD080F88

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8LCDLR2_RESERVED_31_25 0x0 + + Reserved. Caution, do not write to this register field. + PSU_DDR_PHY_DX8LCDLR2_RESERVED_24_16 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8LCDLR2_RESERVED_15_9 0x0 + + Read DQS Gating Delay + PSU_DDR_PHY_DX8LCDLR2_DQSGD 0x0 + + DATX8 n Local Calibrated Delay Line Register 2 + (OFFSET, MASK, VALUE) (0XFD080F88, 0xFFFFFFFFU ,0x00000000U) + RegMask = (DDR_PHY_DX8LCDLR2_RESERVED_31_25_MASK | DDR_PHY_DX8LCDLR2_RESERVED_24_16_MASK | DDR_PHY_DX8LCDLR2_RESERVED_15_9_MASK | DDR_PHY_DX8LCDLR2_DQSGD_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX8LCDLR2_RESERVED_31_25_SHIFT + | 0x00000000U << DDR_PHY_DX8LCDLR2_RESERVED_24_16_SHIFT + | 0x00000000U << DDR_PHY_DX8LCDLR2_RESERVED_15_9_SHIFT + | 0x00000000U << DDR_PHY_DX8LCDLR2_DQSGD_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX8LCDLR2_OFFSET ,0xFFFFFFFFU ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : DX8GTR0 @ 0XFD080FC0

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8GTR0_RESERVED_31_24 0x0 + + DQ Write Path Latency Pipeline + PSU_DDR_PHY_DX8GTR0_WDQSL 0x0 + + Reserved. Caution, do not write to this register field. + PSU_DDR_PHY_DX8GTR0_RESERVED_23_20 0x0 + + Write Leveling System Latency + PSU_DDR_PHY_DX8GTR0_WLSL 0x2 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8GTR0_RESERVED_15_13 0x0 + + Reserved. Caution, do not write to this register field. + PSU_DDR_PHY_DX8GTR0_RESERVED_12_8 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8GTR0_RESERVED_7_5 0x0 + + DQS Gating System Latency + PSU_DDR_PHY_DX8GTR0_DGSL 0x0 + + DATX8 n General Timing Register 0 + (OFFSET, MASK, VALUE) (0XFD080FC0, 0xFFFFFFFFU ,0x00020000U) + RegMask = (DDR_PHY_DX8GTR0_RESERVED_31_24_MASK | DDR_PHY_DX8GTR0_WDQSL_MASK | DDR_PHY_DX8GTR0_RESERVED_23_20_MASK | DDR_PHY_DX8GTR0_WLSL_MASK | DDR_PHY_DX8GTR0_RESERVED_15_13_MASK | DDR_PHY_DX8GTR0_RESERVED_12_8_MASK | DDR_PHY_DX8GTR0_RESERVED_7_5_MASK | DDR_PHY_DX8GTR0_DGSL_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX8GTR0_RESERVED_31_24_SHIFT + | 0x00000000U << DDR_PHY_DX8GTR0_WDQSL_SHIFT + | 0x00000000U << DDR_PHY_DX8GTR0_RESERVED_23_20_SHIFT + | 0x00000002U << DDR_PHY_DX8GTR0_WLSL_SHIFT + | 0x00000000U << DDR_PHY_DX8GTR0_RESERVED_15_13_SHIFT + | 0x00000000U << DDR_PHY_DX8GTR0_RESERVED_12_8_SHIFT + | 0x00000000U << DDR_PHY_DX8GTR0_RESERVED_7_5_SHIFT + | 0x00000000U << DDR_PHY_DX8GTR0_DGSL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX8GTR0_OFFSET ,0xFFFFFFFFU ,0x00020000U); + /*############################################################################################################################ */ + + /*Register : DX8SL0OSC @ 0XFD081400

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL0OSC_RESERVED_31_30 0x0 + + Enable Clock Gating for DX ddr_clk + PSU_DDR_PHY_DX8SL0OSC_GATEDXRDCLK 0x2 + + Enable Clock Gating for DX ctl_rd_clk + PSU_DDR_PHY_DX8SL0OSC_GATEDXDDRCLK 0x2 + + Enable Clock Gating for DX ctl_clk + PSU_DDR_PHY_DX8SL0OSC_GATEDXCTLCLK 0x2 + + Selects the level to which clocks will be stalled when clock gating is enabled. + PSU_DDR_PHY_DX8SL0OSC_CLKLEVEL 0x0 + + Loopback Mode + PSU_DDR_PHY_DX8SL0OSC_LBMODE 0x0 + + Load GSDQS LCDL with 2x the calibrated GSDQSPRD value + PSU_DDR_PHY_DX8SL0OSC_LBGSDQS 0x0 + + Loopback DQS Gating + PSU_DDR_PHY_DX8SL0OSC_LBGDQS 0x0 + + Loopback DQS Shift + PSU_DDR_PHY_DX8SL0OSC_LBDQSS 0x0 + + PHY High-Speed Reset + PSU_DDR_PHY_DX8SL0OSC_PHYHRST 0x1 + + PHY FIFO Reset + PSU_DDR_PHY_DX8SL0OSC_PHYFRST 0x1 + + Delay Line Test Start + PSU_DDR_PHY_DX8SL0OSC_DLTST 0x0 + + Delay Line Test Mode + PSU_DDR_PHY_DX8SL0OSC_DLTMODE 0x0 + + Reserved. Caution, do not write to this register field. + PSU_DDR_PHY_DX8SL0OSC_RESERVED_12_11 0x3 + + Oscillator Mode Write-Data Delay Line Select + PSU_DDR_PHY_DX8SL0OSC_OSCWDDL 0x3 + + Reserved. Caution, do not write to this register field. + PSU_DDR_PHY_DX8SL0OSC_RESERVED_8_7 0x3 + + Oscillator Mode Write-Leveling Delay Line Select + PSU_DDR_PHY_DX8SL0OSC_OSCWDL 0x3 + + Oscillator Mode Division + PSU_DDR_PHY_DX8SL0OSC_OSCDIV 0xf + + Oscillator Enable + PSU_DDR_PHY_DX8SL0OSC_OSCEN 0x0 + + DATX8 0-1 Oscillator, Delay Line Test, PHY FIFO and High Speed Reset, Loopback, and Gated Clock Control Register + (OFFSET, MASK, VALUE) (0XFD081400, 0xFFFFFFFFU ,0x2A019FFEU) + RegMask = (DDR_PHY_DX8SL0OSC_RESERVED_31_30_MASK | DDR_PHY_DX8SL0OSC_GATEDXRDCLK_MASK | DDR_PHY_DX8SL0OSC_GATEDXDDRCLK_MASK | DDR_PHY_DX8SL0OSC_GATEDXCTLCLK_MASK | DDR_PHY_DX8SL0OSC_CLKLEVEL_MASK | DDR_PHY_DX8SL0OSC_LBMODE_MASK | DDR_PHY_DX8SL0OSC_LBGSDQS_MASK | DDR_PHY_DX8SL0OSC_LBGDQS_MASK | DDR_PHY_DX8SL0OSC_LBDQSS_MASK | DDR_PHY_DX8SL0OSC_PHYHRST_MASK | DDR_PHY_DX8SL0OSC_PHYFRST_MASK | DDR_PHY_DX8SL0OSC_DLTST_MASK | DDR_PHY_DX8SL0OSC_DLTMODE_MASK | DDR_PHY_DX8SL0OSC_RESERVED_12_11_MASK | DDR_PHY_DX8SL0OSC_OSCWDDL_MASK | DDR_PHY_DX8SL0OSC_RESERVED_8_7_MASK | DDR_PHY_DX8SL0OSC_OSCWDL_MASK | DDR_PHY_DX8SL0OSC_OSCDIV_MASK | DDR_PHY_DX8SL0OSC_OSCEN_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX8SL0OSC_RESERVED_31_30_SHIFT + | 0x00000002U << DDR_PHY_DX8SL0OSC_GATEDXRDCLK_SHIFT + | 0x00000002U << DDR_PHY_DX8SL0OSC_GATEDXDDRCLK_SHIFT + | 0x00000002U << DDR_PHY_DX8SL0OSC_GATEDXCTLCLK_SHIFT + | 0x00000000U << DDR_PHY_DX8SL0OSC_CLKLEVEL_SHIFT + | 0x00000000U << DDR_PHY_DX8SL0OSC_LBMODE_SHIFT + | 0x00000000U << DDR_PHY_DX8SL0OSC_LBGSDQS_SHIFT + | 0x00000000U << DDR_PHY_DX8SL0OSC_LBGDQS_SHIFT + | 0x00000000U << DDR_PHY_DX8SL0OSC_LBDQSS_SHIFT + | 0x00000001U << DDR_PHY_DX8SL0OSC_PHYHRST_SHIFT + | 0x00000001U << DDR_PHY_DX8SL0OSC_PHYFRST_SHIFT + | 0x00000000U << DDR_PHY_DX8SL0OSC_DLTST_SHIFT + | 0x00000000U << DDR_PHY_DX8SL0OSC_DLTMODE_SHIFT + | 0x00000003U << DDR_PHY_DX8SL0OSC_RESERVED_12_11_SHIFT + | 0x00000003U << DDR_PHY_DX8SL0OSC_OSCWDDL_SHIFT + | 0x00000003U << DDR_PHY_DX8SL0OSC_RESERVED_8_7_SHIFT + | 0x00000003U << DDR_PHY_DX8SL0OSC_OSCWDL_SHIFT + | 0x0000000FU << DDR_PHY_DX8SL0OSC_OSCDIV_SHIFT + | 0x00000000U << DDR_PHY_DX8SL0OSC_OSCEN_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX8SL0OSC_OFFSET ,0xFFFFFFFFU ,0x2A019FFEU); + /*############################################################################################################################ */ + + /*Register : DX8SL0DQSCTL @ 0XFD08141C

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL0DQSCTL_RESERVED_31_25 0x0 + + Read Path Rise-to-Rise Mode + PSU_DDR_PHY_DX8SL0DQSCTL_RRRMODE 0x1 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL0DQSCTL_RESERVED_23_22 0x0 + + Write Path Rise-to-Rise Mode + PSU_DDR_PHY_DX8SL0DQSCTL_WRRMODE 0x1 + + DQS Gate Extension + PSU_DDR_PHY_DX8SL0DQSCTL_DQSGX 0x0 + + Low Power PLL Power Down + PSU_DDR_PHY_DX8SL0DQSCTL_LPPLLPD 0x1 + + Low Power I/O Power Down + PSU_DDR_PHY_DX8SL0DQSCTL_LPIOPD 0x1 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL0DQSCTL_RESERVED_16_15 0x0 + + QS Counter Enable + PSU_DDR_PHY_DX8SL0DQSCTL_QSCNTEN 0x1 + + Unused DQ I/O Mode + PSU_DDR_PHY_DX8SL0DQSCTL_UDQIOM 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL0DQSCTL_RESERVED_12_10 0x0 + + Data Slew Rate + PSU_DDR_PHY_DX8SL0DQSCTL_DXSR 0x3 + + DQS_N Resistor + PSU_DDR_PHY_DX8SL0DQSCTL_DQSNRES 0x0 + + DQS Resistor + PSU_DDR_PHY_DX8SL0DQSCTL_DQSRES 0x0 + + DATX8 0-1 DQS Control Register + (OFFSET, MASK, VALUE) (0XFD08141C, 0xFFFFFFFFU ,0x01264300U) + RegMask = (DDR_PHY_DX8SL0DQSCTL_RESERVED_31_25_MASK | DDR_PHY_DX8SL0DQSCTL_RRRMODE_MASK | DDR_PHY_DX8SL0DQSCTL_RESERVED_23_22_MASK | DDR_PHY_DX8SL0DQSCTL_WRRMODE_MASK | DDR_PHY_DX8SL0DQSCTL_DQSGX_MASK | DDR_PHY_DX8SL0DQSCTL_LPPLLPD_MASK | DDR_PHY_DX8SL0DQSCTL_LPIOPD_MASK | DDR_PHY_DX8SL0DQSCTL_RESERVED_16_15_MASK | DDR_PHY_DX8SL0DQSCTL_QSCNTEN_MASK | DDR_PHY_DX8SL0DQSCTL_UDQIOM_MASK | DDR_PHY_DX8SL0DQSCTL_RESERVED_12_10_MASK | DDR_PHY_DX8SL0DQSCTL_DXSR_MASK | DDR_PHY_DX8SL0DQSCTL_DQSNRES_MASK | DDR_PHY_DX8SL0DQSCTL_DQSRES_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX8SL0DQSCTL_RESERVED_31_25_SHIFT + | 0x00000001U << DDR_PHY_DX8SL0DQSCTL_RRRMODE_SHIFT + | 0x00000000U << DDR_PHY_DX8SL0DQSCTL_RESERVED_23_22_SHIFT + | 0x00000001U << DDR_PHY_DX8SL0DQSCTL_WRRMODE_SHIFT + | 0x00000000U << DDR_PHY_DX8SL0DQSCTL_DQSGX_SHIFT + | 0x00000001U << DDR_PHY_DX8SL0DQSCTL_LPPLLPD_SHIFT + | 0x00000001U << DDR_PHY_DX8SL0DQSCTL_LPIOPD_SHIFT + | 0x00000000U << DDR_PHY_DX8SL0DQSCTL_RESERVED_16_15_SHIFT + | 0x00000001U << DDR_PHY_DX8SL0DQSCTL_QSCNTEN_SHIFT + | 0x00000000U << DDR_PHY_DX8SL0DQSCTL_UDQIOM_SHIFT + | 0x00000000U << DDR_PHY_DX8SL0DQSCTL_RESERVED_12_10_SHIFT + | 0x00000003U << DDR_PHY_DX8SL0DQSCTL_DXSR_SHIFT + | 0x00000000U << DDR_PHY_DX8SL0DQSCTL_DQSNRES_SHIFT + | 0x00000000U << DDR_PHY_DX8SL0DQSCTL_DQSRES_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX8SL0DQSCTL_OFFSET ,0xFFFFFFFFU ,0x01264300U); + /*############################################################################################################################ */ + + /*Register : DX8SL0DXCTL2 @ 0XFD08142C

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL0DXCTL2_RESERVED_31_24 0x0 + + Configurable Read Data Enable + PSU_DDR_PHY_DX8SL0DXCTL2_CRDEN 0x0 + + OX Extension during Post-amble + PSU_DDR_PHY_DX8SL0DXCTL2_POSOEX 0x0 + + OE Extension during Pre-amble + PSU_DDR_PHY_DX8SL0DXCTL2_PREOEX 0x1 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL0DXCTL2_RESERVED_17 0x0 + + I/O Assisted Gate Select + PSU_DDR_PHY_DX8SL0DXCTL2_IOAG 0x0 + + I/O Loopback Select + PSU_DDR_PHY_DX8SL0DXCTL2_IOLB 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL0DXCTL2_RESERVED_14_13 0x0 + + Low Power Wakeup Threshold + PSU_DDR_PHY_DX8SL0DXCTL2_LPWAKEUP_THRSH 0xc + + Read Data Bus Inversion Enable + PSU_DDR_PHY_DX8SL0DXCTL2_RDBI 0x0 + + Write Data Bus Inversion Enable + PSU_DDR_PHY_DX8SL0DXCTL2_WDBI 0x0 + + PUB Read FIFO Bypass + PSU_DDR_PHY_DX8SL0DXCTL2_PRFBYP 0x0 + + DATX8 Receive FIFO Read Mode + PSU_DDR_PHY_DX8SL0DXCTL2_RDMODE 0x0 + + Disables the Read FIFO Reset + PSU_DDR_PHY_DX8SL0DXCTL2_DISRST 0x0 + + Read DQS Gate I/O Loopback + PSU_DDR_PHY_DX8SL0DXCTL2_DQSGLB 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL0DXCTL2_RESERVED_0 0x0 + + DATX8 0-1 DX Control Register 2 + (OFFSET, MASK, VALUE) (0XFD08142C, 0xFFFFFFFFU ,0x00041800U) + RegMask = (DDR_PHY_DX8SL0DXCTL2_RESERVED_31_24_MASK | DDR_PHY_DX8SL0DXCTL2_CRDEN_MASK | DDR_PHY_DX8SL0DXCTL2_POSOEX_MASK | DDR_PHY_DX8SL0DXCTL2_PREOEX_MASK | DDR_PHY_DX8SL0DXCTL2_RESERVED_17_MASK | DDR_PHY_DX8SL0DXCTL2_IOAG_MASK | DDR_PHY_DX8SL0DXCTL2_IOLB_MASK | DDR_PHY_DX8SL0DXCTL2_RESERVED_14_13_MASK | DDR_PHY_DX8SL0DXCTL2_LPWAKEUP_THRSH_MASK | DDR_PHY_DX8SL0DXCTL2_RDBI_MASK | DDR_PHY_DX8SL0DXCTL2_WDBI_MASK | DDR_PHY_DX8SL0DXCTL2_PRFBYP_MASK | DDR_PHY_DX8SL0DXCTL2_RDMODE_MASK | DDR_PHY_DX8SL0DXCTL2_DISRST_MASK | DDR_PHY_DX8SL0DXCTL2_DQSGLB_MASK | DDR_PHY_DX8SL0DXCTL2_RESERVED_0_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX8SL0DXCTL2_RESERVED_31_24_SHIFT + | 0x00000000U << DDR_PHY_DX8SL0DXCTL2_CRDEN_SHIFT + | 0x00000000U << DDR_PHY_DX8SL0DXCTL2_POSOEX_SHIFT + | 0x00000001U << DDR_PHY_DX8SL0DXCTL2_PREOEX_SHIFT + | 0x00000000U << DDR_PHY_DX8SL0DXCTL2_RESERVED_17_SHIFT + | 0x00000000U << DDR_PHY_DX8SL0DXCTL2_IOAG_SHIFT + | 0x00000000U << DDR_PHY_DX8SL0DXCTL2_IOLB_SHIFT + | 0x00000000U << DDR_PHY_DX8SL0DXCTL2_RESERVED_14_13_SHIFT + | 0x0000000CU << DDR_PHY_DX8SL0DXCTL2_LPWAKEUP_THRSH_SHIFT + | 0x00000000U << DDR_PHY_DX8SL0DXCTL2_RDBI_SHIFT + | 0x00000000U << DDR_PHY_DX8SL0DXCTL2_WDBI_SHIFT + | 0x00000000U << DDR_PHY_DX8SL0DXCTL2_PRFBYP_SHIFT + | 0x00000000U << DDR_PHY_DX8SL0DXCTL2_RDMODE_SHIFT + | 0x00000000U << DDR_PHY_DX8SL0DXCTL2_DISRST_SHIFT + | 0x00000000U << DDR_PHY_DX8SL0DXCTL2_DQSGLB_SHIFT + | 0x00000000U << DDR_PHY_DX8SL0DXCTL2_RESERVED_0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX8SL0DXCTL2_OFFSET ,0xFFFFFFFFU ,0x00041800U); + /*############################################################################################################################ */ + + /*Register : DX8SL0IOCR @ 0XFD081430

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL0IOCR_RESERVED_31 0x0 + + PVREF_DAC REFSEL range select + PSU_DDR_PHY_DX8SL0IOCR_DXDACRANGE 0x7 + + IOM bits for PVREF, PVREF_DAC and PVREFE cells in DX IO ring + PSU_DDR_PHY_DX8SL0IOCR_DXVREFIOM 0x0 + + DX IO Mode + PSU_DDR_PHY_DX8SL0IOCR_DXIOM 0x2 + + DX IO Transmitter Mode + PSU_DDR_PHY_DX8SL0IOCR_DXTXM 0x0 + + DX IO Receiver Mode + PSU_DDR_PHY_DX8SL0IOCR_DXRXM 0x0 + + DATX8 0-1 I/O Configuration Register + (OFFSET, MASK, VALUE) (0XFD081430, 0xFFFFFFFFU ,0x70800000U) + RegMask = (DDR_PHY_DX8SL0IOCR_RESERVED_31_MASK | DDR_PHY_DX8SL0IOCR_DXDACRANGE_MASK | DDR_PHY_DX8SL0IOCR_DXVREFIOM_MASK | DDR_PHY_DX8SL0IOCR_DXIOM_MASK | DDR_PHY_DX8SL0IOCR_DXTXM_MASK | DDR_PHY_DX8SL0IOCR_DXRXM_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX8SL0IOCR_RESERVED_31_SHIFT + | 0x00000007U << DDR_PHY_DX8SL0IOCR_DXDACRANGE_SHIFT + | 0x00000000U << DDR_PHY_DX8SL0IOCR_DXVREFIOM_SHIFT + | 0x00000002U << DDR_PHY_DX8SL0IOCR_DXIOM_SHIFT + | 0x00000000U << DDR_PHY_DX8SL0IOCR_DXTXM_SHIFT + | 0x00000000U << DDR_PHY_DX8SL0IOCR_DXRXM_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX8SL0IOCR_OFFSET ,0xFFFFFFFFU ,0x70800000U); + /*############################################################################################################################ */ + + /*Register : DX8SL1OSC @ 0XFD081440

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL1OSC_RESERVED_31_30 0x0 + + Enable Clock Gating for DX ddr_clk + PSU_DDR_PHY_DX8SL1OSC_GATEDXRDCLK 0x2 + + Enable Clock Gating for DX ctl_rd_clk + PSU_DDR_PHY_DX8SL1OSC_GATEDXDDRCLK 0x2 + + Enable Clock Gating for DX ctl_clk + PSU_DDR_PHY_DX8SL1OSC_GATEDXCTLCLK 0x2 + + Selects the level to which clocks will be stalled when clock gating is enabled. + PSU_DDR_PHY_DX8SL1OSC_CLKLEVEL 0x0 + + Loopback Mode + PSU_DDR_PHY_DX8SL1OSC_LBMODE 0x0 + + Load GSDQS LCDL with 2x the calibrated GSDQSPRD value + PSU_DDR_PHY_DX8SL1OSC_LBGSDQS 0x0 + + Loopback DQS Gating + PSU_DDR_PHY_DX8SL1OSC_LBGDQS 0x0 + + Loopback DQS Shift + PSU_DDR_PHY_DX8SL1OSC_LBDQSS 0x0 + + PHY High-Speed Reset + PSU_DDR_PHY_DX8SL1OSC_PHYHRST 0x1 + + PHY FIFO Reset + PSU_DDR_PHY_DX8SL1OSC_PHYFRST 0x1 + + Delay Line Test Start + PSU_DDR_PHY_DX8SL1OSC_DLTST 0x0 + + Delay Line Test Mode + PSU_DDR_PHY_DX8SL1OSC_DLTMODE 0x0 + + Reserved. Caution, do not write to this register field. + PSU_DDR_PHY_DX8SL1OSC_RESERVED_12_11 0x3 + + Oscillator Mode Write-Data Delay Line Select + PSU_DDR_PHY_DX8SL1OSC_OSCWDDL 0x3 + + Reserved. Caution, do not write to this register field. + PSU_DDR_PHY_DX8SL1OSC_RESERVED_8_7 0x3 + + Oscillator Mode Write-Leveling Delay Line Select + PSU_DDR_PHY_DX8SL1OSC_OSCWDL 0x3 + + Oscillator Mode Division + PSU_DDR_PHY_DX8SL1OSC_OSCDIV 0xf + + Oscillator Enable + PSU_DDR_PHY_DX8SL1OSC_OSCEN 0x0 + + DATX8 0-1 Oscillator, Delay Line Test, PHY FIFO and High Speed Reset, Loopback, and Gated Clock Control Register + (OFFSET, MASK, VALUE) (0XFD081440, 0xFFFFFFFFU ,0x2A019FFEU) + RegMask = (DDR_PHY_DX8SL1OSC_RESERVED_31_30_MASK | DDR_PHY_DX8SL1OSC_GATEDXRDCLK_MASK | DDR_PHY_DX8SL1OSC_GATEDXDDRCLK_MASK | DDR_PHY_DX8SL1OSC_GATEDXCTLCLK_MASK | DDR_PHY_DX8SL1OSC_CLKLEVEL_MASK | DDR_PHY_DX8SL1OSC_LBMODE_MASK | DDR_PHY_DX8SL1OSC_LBGSDQS_MASK | DDR_PHY_DX8SL1OSC_LBGDQS_MASK | DDR_PHY_DX8SL1OSC_LBDQSS_MASK | DDR_PHY_DX8SL1OSC_PHYHRST_MASK | DDR_PHY_DX8SL1OSC_PHYFRST_MASK | DDR_PHY_DX8SL1OSC_DLTST_MASK | DDR_PHY_DX8SL1OSC_DLTMODE_MASK | DDR_PHY_DX8SL1OSC_RESERVED_12_11_MASK | DDR_PHY_DX8SL1OSC_OSCWDDL_MASK | DDR_PHY_DX8SL1OSC_RESERVED_8_7_MASK | DDR_PHY_DX8SL1OSC_OSCWDL_MASK | DDR_PHY_DX8SL1OSC_OSCDIV_MASK | DDR_PHY_DX8SL1OSC_OSCEN_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX8SL1OSC_RESERVED_31_30_SHIFT + | 0x00000002U << DDR_PHY_DX8SL1OSC_GATEDXRDCLK_SHIFT + | 0x00000002U << DDR_PHY_DX8SL1OSC_GATEDXDDRCLK_SHIFT + | 0x00000002U << DDR_PHY_DX8SL1OSC_GATEDXCTLCLK_SHIFT + | 0x00000000U << DDR_PHY_DX8SL1OSC_CLKLEVEL_SHIFT + | 0x00000000U << DDR_PHY_DX8SL1OSC_LBMODE_SHIFT + | 0x00000000U << DDR_PHY_DX8SL1OSC_LBGSDQS_SHIFT + | 0x00000000U << DDR_PHY_DX8SL1OSC_LBGDQS_SHIFT + | 0x00000000U << DDR_PHY_DX8SL1OSC_LBDQSS_SHIFT + | 0x00000001U << DDR_PHY_DX8SL1OSC_PHYHRST_SHIFT + | 0x00000001U << DDR_PHY_DX8SL1OSC_PHYFRST_SHIFT + | 0x00000000U << DDR_PHY_DX8SL1OSC_DLTST_SHIFT + | 0x00000000U << DDR_PHY_DX8SL1OSC_DLTMODE_SHIFT + | 0x00000003U << DDR_PHY_DX8SL1OSC_RESERVED_12_11_SHIFT + | 0x00000003U << DDR_PHY_DX8SL1OSC_OSCWDDL_SHIFT + | 0x00000003U << DDR_PHY_DX8SL1OSC_RESERVED_8_7_SHIFT + | 0x00000003U << DDR_PHY_DX8SL1OSC_OSCWDL_SHIFT + | 0x0000000FU << DDR_PHY_DX8SL1OSC_OSCDIV_SHIFT + | 0x00000000U << DDR_PHY_DX8SL1OSC_OSCEN_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX8SL1OSC_OFFSET ,0xFFFFFFFFU ,0x2A019FFEU); + /*############################################################################################################################ */ + + /*Register : DX8SL1DQSCTL @ 0XFD08145C

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL1DQSCTL_RESERVED_31_25 0x0 + + Read Path Rise-to-Rise Mode + PSU_DDR_PHY_DX8SL1DQSCTL_RRRMODE 0x1 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL1DQSCTL_RESERVED_23_22 0x0 + + Write Path Rise-to-Rise Mode + PSU_DDR_PHY_DX8SL1DQSCTL_WRRMODE 0x1 + + DQS Gate Extension + PSU_DDR_PHY_DX8SL1DQSCTL_DQSGX 0x0 + + Low Power PLL Power Down + PSU_DDR_PHY_DX8SL1DQSCTL_LPPLLPD 0x1 + + Low Power I/O Power Down + PSU_DDR_PHY_DX8SL1DQSCTL_LPIOPD 0x1 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL1DQSCTL_RESERVED_16_15 0x0 + + QS Counter Enable + PSU_DDR_PHY_DX8SL1DQSCTL_QSCNTEN 0x1 + + Unused DQ I/O Mode + PSU_DDR_PHY_DX8SL1DQSCTL_UDQIOM 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL1DQSCTL_RESERVED_12_10 0x0 + + Data Slew Rate + PSU_DDR_PHY_DX8SL1DQSCTL_DXSR 0x3 + + DQS_N Resistor + PSU_DDR_PHY_DX8SL1DQSCTL_DQSNRES 0x0 + + DQS Resistor + PSU_DDR_PHY_DX8SL1DQSCTL_DQSRES 0x0 + + DATX8 0-1 DQS Control Register + (OFFSET, MASK, VALUE) (0XFD08145C, 0xFFFFFFFFU ,0x01264300U) + RegMask = (DDR_PHY_DX8SL1DQSCTL_RESERVED_31_25_MASK | DDR_PHY_DX8SL1DQSCTL_RRRMODE_MASK | DDR_PHY_DX8SL1DQSCTL_RESERVED_23_22_MASK | DDR_PHY_DX8SL1DQSCTL_WRRMODE_MASK | DDR_PHY_DX8SL1DQSCTL_DQSGX_MASK | DDR_PHY_DX8SL1DQSCTL_LPPLLPD_MASK | DDR_PHY_DX8SL1DQSCTL_LPIOPD_MASK | DDR_PHY_DX8SL1DQSCTL_RESERVED_16_15_MASK | DDR_PHY_DX8SL1DQSCTL_QSCNTEN_MASK | DDR_PHY_DX8SL1DQSCTL_UDQIOM_MASK | DDR_PHY_DX8SL1DQSCTL_RESERVED_12_10_MASK | DDR_PHY_DX8SL1DQSCTL_DXSR_MASK | DDR_PHY_DX8SL1DQSCTL_DQSNRES_MASK | DDR_PHY_DX8SL1DQSCTL_DQSRES_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX8SL1DQSCTL_RESERVED_31_25_SHIFT + | 0x00000001U << DDR_PHY_DX8SL1DQSCTL_RRRMODE_SHIFT + | 0x00000000U << DDR_PHY_DX8SL1DQSCTL_RESERVED_23_22_SHIFT + | 0x00000001U << DDR_PHY_DX8SL1DQSCTL_WRRMODE_SHIFT + | 0x00000000U << DDR_PHY_DX8SL1DQSCTL_DQSGX_SHIFT + | 0x00000001U << DDR_PHY_DX8SL1DQSCTL_LPPLLPD_SHIFT + | 0x00000001U << DDR_PHY_DX8SL1DQSCTL_LPIOPD_SHIFT + | 0x00000000U << DDR_PHY_DX8SL1DQSCTL_RESERVED_16_15_SHIFT + | 0x00000001U << DDR_PHY_DX8SL1DQSCTL_QSCNTEN_SHIFT + | 0x00000000U << DDR_PHY_DX8SL1DQSCTL_UDQIOM_SHIFT + | 0x00000000U << DDR_PHY_DX8SL1DQSCTL_RESERVED_12_10_SHIFT + | 0x00000003U << DDR_PHY_DX8SL1DQSCTL_DXSR_SHIFT + | 0x00000000U << DDR_PHY_DX8SL1DQSCTL_DQSNRES_SHIFT + | 0x00000000U << DDR_PHY_DX8SL1DQSCTL_DQSRES_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX8SL1DQSCTL_OFFSET ,0xFFFFFFFFU ,0x01264300U); + /*############################################################################################################################ */ + + /*Register : DX8SL1DXCTL2 @ 0XFD08146C

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL1DXCTL2_RESERVED_31_24 0x0 + + Configurable Read Data Enable + PSU_DDR_PHY_DX8SL1DXCTL2_CRDEN 0x0 + + OX Extension during Post-amble + PSU_DDR_PHY_DX8SL1DXCTL2_POSOEX 0x0 + + OE Extension during Pre-amble + PSU_DDR_PHY_DX8SL1DXCTL2_PREOEX 0x1 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL1DXCTL2_RESERVED_17 0x0 + + I/O Assisted Gate Select + PSU_DDR_PHY_DX8SL1DXCTL2_IOAG 0x0 + + I/O Loopback Select + PSU_DDR_PHY_DX8SL1DXCTL2_IOLB 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL1DXCTL2_RESERVED_14_13 0x0 + + Low Power Wakeup Threshold + PSU_DDR_PHY_DX8SL1DXCTL2_LPWAKEUP_THRSH 0xc + + Read Data Bus Inversion Enable + PSU_DDR_PHY_DX8SL1DXCTL2_RDBI 0x0 + + Write Data Bus Inversion Enable + PSU_DDR_PHY_DX8SL1DXCTL2_WDBI 0x0 + + PUB Read FIFO Bypass + PSU_DDR_PHY_DX8SL1DXCTL2_PRFBYP 0x0 + + DATX8 Receive FIFO Read Mode + PSU_DDR_PHY_DX8SL1DXCTL2_RDMODE 0x0 + + Disables the Read FIFO Reset + PSU_DDR_PHY_DX8SL1DXCTL2_DISRST 0x0 + + Read DQS Gate I/O Loopback + PSU_DDR_PHY_DX8SL1DXCTL2_DQSGLB 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL1DXCTL2_RESERVED_0 0x0 + + DATX8 0-1 DX Control Register 2 + (OFFSET, MASK, VALUE) (0XFD08146C, 0xFFFFFFFFU ,0x00041800U) + RegMask = (DDR_PHY_DX8SL1DXCTL2_RESERVED_31_24_MASK | DDR_PHY_DX8SL1DXCTL2_CRDEN_MASK | DDR_PHY_DX8SL1DXCTL2_POSOEX_MASK | DDR_PHY_DX8SL1DXCTL2_PREOEX_MASK | DDR_PHY_DX8SL1DXCTL2_RESERVED_17_MASK | DDR_PHY_DX8SL1DXCTL2_IOAG_MASK | DDR_PHY_DX8SL1DXCTL2_IOLB_MASK | DDR_PHY_DX8SL1DXCTL2_RESERVED_14_13_MASK | DDR_PHY_DX8SL1DXCTL2_LPWAKEUP_THRSH_MASK | DDR_PHY_DX8SL1DXCTL2_RDBI_MASK | DDR_PHY_DX8SL1DXCTL2_WDBI_MASK | DDR_PHY_DX8SL1DXCTL2_PRFBYP_MASK | DDR_PHY_DX8SL1DXCTL2_RDMODE_MASK | DDR_PHY_DX8SL1DXCTL2_DISRST_MASK | DDR_PHY_DX8SL1DXCTL2_DQSGLB_MASK | DDR_PHY_DX8SL1DXCTL2_RESERVED_0_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX8SL1DXCTL2_RESERVED_31_24_SHIFT + | 0x00000000U << DDR_PHY_DX8SL1DXCTL2_CRDEN_SHIFT + | 0x00000000U << DDR_PHY_DX8SL1DXCTL2_POSOEX_SHIFT + | 0x00000001U << DDR_PHY_DX8SL1DXCTL2_PREOEX_SHIFT + | 0x00000000U << DDR_PHY_DX8SL1DXCTL2_RESERVED_17_SHIFT + | 0x00000000U << DDR_PHY_DX8SL1DXCTL2_IOAG_SHIFT + | 0x00000000U << DDR_PHY_DX8SL1DXCTL2_IOLB_SHIFT + | 0x00000000U << DDR_PHY_DX8SL1DXCTL2_RESERVED_14_13_SHIFT + | 0x0000000CU << DDR_PHY_DX8SL1DXCTL2_LPWAKEUP_THRSH_SHIFT + | 0x00000000U << DDR_PHY_DX8SL1DXCTL2_RDBI_SHIFT + | 0x00000000U << DDR_PHY_DX8SL1DXCTL2_WDBI_SHIFT + | 0x00000000U << DDR_PHY_DX8SL1DXCTL2_PRFBYP_SHIFT + | 0x00000000U << DDR_PHY_DX8SL1DXCTL2_RDMODE_SHIFT + | 0x00000000U << DDR_PHY_DX8SL1DXCTL2_DISRST_SHIFT + | 0x00000000U << DDR_PHY_DX8SL1DXCTL2_DQSGLB_SHIFT + | 0x00000000U << DDR_PHY_DX8SL1DXCTL2_RESERVED_0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX8SL1DXCTL2_OFFSET ,0xFFFFFFFFU ,0x00041800U); + /*############################################################################################################################ */ + + /*Register : DX8SL1IOCR @ 0XFD081470

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL1IOCR_RESERVED_31 0x0 + + PVREF_DAC REFSEL range select + PSU_DDR_PHY_DX8SL1IOCR_DXDACRANGE 0x7 + + IOM bits for PVREF, PVREF_DAC and PVREFE cells in DX IO ring + PSU_DDR_PHY_DX8SL1IOCR_DXVREFIOM 0x0 + + DX IO Mode + PSU_DDR_PHY_DX8SL1IOCR_DXIOM 0x2 + + DX IO Transmitter Mode + PSU_DDR_PHY_DX8SL1IOCR_DXTXM 0x0 + + DX IO Receiver Mode + PSU_DDR_PHY_DX8SL1IOCR_DXRXM 0x0 + + DATX8 0-1 I/O Configuration Register + (OFFSET, MASK, VALUE) (0XFD081470, 0xFFFFFFFFU ,0x70800000U) + RegMask = (DDR_PHY_DX8SL1IOCR_RESERVED_31_MASK | DDR_PHY_DX8SL1IOCR_DXDACRANGE_MASK | DDR_PHY_DX8SL1IOCR_DXVREFIOM_MASK | DDR_PHY_DX8SL1IOCR_DXIOM_MASK | DDR_PHY_DX8SL1IOCR_DXTXM_MASK | DDR_PHY_DX8SL1IOCR_DXRXM_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX8SL1IOCR_RESERVED_31_SHIFT + | 0x00000007U << DDR_PHY_DX8SL1IOCR_DXDACRANGE_SHIFT + | 0x00000000U << DDR_PHY_DX8SL1IOCR_DXVREFIOM_SHIFT + | 0x00000002U << DDR_PHY_DX8SL1IOCR_DXIOM_SHIFT + | 0x00000000U << DDR_PHY_DX8SL1IOCR_DXTXM_SHIFT + | 0x00000000U << DDR_PHY_DX8SL1IOCR_DXRXM_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX8SL1IOCR_OFFSET ,0xFFFFFFFFU ,0x70800000U); + /*############################################################################################################################ */ + + /*Register : DX8SL2OSC @ 0XFD081480

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL2OSC_RESERVED_31_30 0x0 + + Enable Clock Gating for DX ddr_clk + PSU_DDR_PHY_DX8SL2OSC_GATEDXRDCLK 0x2 + + Enable Clock Gating for DX ctl_rd_clk + PSU_DDR_PHY_DX8SL2OSC_GATEDXDDRCLK 0x2 + + Enable Clock Gating for DX ctl_clk + PSU_DDR_PHY_DX8SL2OSC_GATEDXCTLCLK 0x2 + + Selects the level to which clocks will be stalled when clock gating is enabled. + PSU_DDR_PHY_DX8SL2OSC_CLKLEVEL 0x0 + + Loopback Mode + PSU_DDR_PHY_DX8SL2OSC_LBMODE 0x0 + + Load GSDQS LCDL with 2x the calibrated GSDQSPRD value + PSU_DDR_PHY_DX8SL2OSC_LBGSDQS 0x0 + + Loopback DQS Gating + PSU_DDR_PHY_DX8SL2OSC_LBGDQS 0x0 + + Loopback DQS Shift + PSU_DDR_PHY_DX8SL2OSC_LBDQSS 0x0 + + PHY High-Speed Reset + PSU_DDR_PHY_DX8SL2OSC_PHYHRST 0x1 + + PHY FIFO Reset + PSU_DDR_PHY_DX8SL2OSC_PHYFRST 0x1 + + Delay Line Test Start + PSU_DDR_PHY_DX8SL2OSC_DLTST 0x0 + + Delay Line Test Mode + PSU_DDR_PHY_DX8SL2OSC_DLTMODE 0x0 + + Reserved. Caution, do not write to this register field. + PSU_DDR_PHY_DX8SL2OSC_RESERVED_12_11 0x3 + + Oscillator Mode Write-Data Delay Line Select + PSU_DDR_PHY_DX8SL2OSC_OSCWDDL 0x3 + + Reserved. Caution, do not write to this register field. + PSU_DDR_PHY_DX8SL2OSC_RESERVED_8_7 0x3 + + Oscillator Mode Write-Leveling Delay Line Select + PSU_DDR_PHY_DX8SL2OSC_OSCWDL 0x3 + + Oscillator Mode Division + PSU_DDR_PHY_DX8SL2OSC_OSCDIV 0xf + + Oscillator Enable + PSU_DDR_PHY_DX8SL2OSC_OSCEN 0x0 + + DATX8 0-1 Oscillator, Delay Line Test, PHY FIFO and High Speed Reset, Loopback, and Gated Clock Control Register + (OFFSET, MASK, VALUE) (0XFD081480, 0xFFFFFFFFU ,0x2A019FFEU) + RegMask = (DDR_PHY_DX8SL2OSC_RESERVED_31_30_MASK | DDR_PHY_DX8SL2OSC_GATEDXRDCLK_MASK | DDR_PHY_DX8SL2OSC_GATEDXDDRCLK_MASK | DDR_PHY_DX8SL2OSC_GATEDXCTLCLK_MASK | DDR_PHY_DX8SL2OSC_CLKLEVEL_MASK | DDR_PHY_DX8SL2OSC_LBMODE_MASK | DDR_PHY_DX8SL2OSC_LBGSDQS_MASK | DDR_PHY_DX8SL2OSC_LBGDQS_MASK | DDR_PHY_DX8SL2OSC_LBDQSS_MASK | DDR_PHY_DX8SL2OSC_PHYHRST_MASK | DDR_PHY_DX8SL2OSC_PHYFRST_MASK | DDR_PHY_DX8SL2OSC_DLTST_MASK | DDR_PHY_DX8SL2OSC_DLTMODE_MASK | DDR_PHY_DX8SL2OSC_RESERVED_12_11_MASK | DDR_PHY_DX8SL2OSC_OSCWDDL_MASK | DDR_PHY_DX8SL2OSC_RESERVED_8_7_MASK | DDR_PHY_DX8SL2OSC_OSCWDL_MASK | DDR_PHY_DX8SL2OSC_OSCDIV_MASK | DDR_PHY_DX8SL2OSC_OSCEN_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX8SL2OSC_RESERVED_31_30_SHIFT + | 0x00000002U << DDR_PHY_DX8SL2OSC_GATEDXRDCLK_SHIFT + | 0x00000002U << DDR_PHY_DX8SL2OSC_GATEDXDDRCLK_SHIFT + | 0x00000002U << DDR_PHY_DX8SL2OSC_GATEDXCTLCLK_SHIFT + | 0x00000000U << DDR_PHY_DX8SL2OSC_CLKLEVEL_SHIFT + | 0x00000000U << DDR_PHY_DX8SL2OSC_LBMODE_SHIFT + | 0x00000000U << DDR_PHY_DX8SL2OSC_LBGSDQS_SHIFT + | 0x00000000U << DDR_PHY_DX8SL2OSC_LBGDQS_SHIFT + | 0x00000000U << DDR_PHY_DX8SL2OSC_LBDQSS_SHIFT + | 0x00000001U << DDR_PHY_DX8SL2OSC_PHYHRST_SHIFT + | 0x00000001U << DDR_PHY_DX8SL2OSC_PHYFRST_SHIFT + | 0x00000000U << DDR_PHY_DX8SL2OSC_DLTST_SHIFT + | 0x00000000U << DDR_PHY_DX8SL2OSC_DLTMODE_SHIFT + | 0x00000003U << DDR_PHY_DX8SL2OSC_RESERVED_12_11_SHIFT + | 0x00000003U << DDR_PHY_DX8SL2OSC_OSCWDDL_SHIFT + | 0x00000003U << DDR_PHY_DX8SL2OSC_RESERVED_8_7_SHIFT + | 0x00000003U << DDR_PHY_DX8SL2OSC_OSCWDL_SHIFT + | 0x0000000FU << DDR_PHY_DX8SL2OSC_OSCDIV_SHIFT + | 0x00000000U << DDR_PHY_DX8SL2OSC_OSCEN_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX8SL2OSC_OFFSET ,0xFFFFFFFFU ,0x2A019FFEU); + /*############################################################################################################################ */ + + /*Register : DX8SL2DQSCTL @ 0XFD08149C

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL2DQSCTL_RESERVED_31_25 0x0 + + Read Path Rise-to-Rise Mode + PSU_DDR_PHY_DX8SL2DQSCTL_RRRMODE 0x1 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL2DQSCTL_RESERVED_23_22 0x0 + + Write Path Rise-to-Rise Mode + PSU_DDR_PHY_DX8SL2DQSCTL_WRRMODE 0x1 + + DQS Gate Extension + PSU_DDR_PHY_DX8SL2DQSCTL_DQSGX 0x0 + + Low Power PLL Power Down + PSU_DDR_PHY_DX8SL2DQSCTL_LPPLLPD 0x1 + + Low Power I/O Power Down + PSU_DDR_PHY_DX8SL2DQSCTL_LPIOPD 0x1 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL2DQSCTL_RESERVED_16_15 0x0 + + QS Counter Enable + PSU_DDR_PHY_DX8SL2DQSCTL_QSCNTEN 0x1 + + Unused DQ I/O Mode + PSU_DDR_PHY_DX8SL2DQSCTL_UDQIOM 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL2DQSCTL_RESERVED_12_10 0x0 + + Data Slew Rate + PSU_DDR_PHY_DX8SL2DQSCTL_DXSR 0x3 + + DQS_N Resistor + PSU_DDR_PHY_DX8SL2DQSCTL_DQSNRES 0x0 + + DQS Resistor + PSU_DDR_PHY_DX8SL2DQSCTL_DQSRES 0x0 + + DATX8 0-1 DQS Control Register + (OFFSET, MASK, VALUE) (0XFD08149C, 0xFFFFFFFFU ,0x01264300U) + RegMask = (DDR_PHY_DX8SL2DQSCTL_RESERVED_31_25_MASK | DDR_PHY_DX8SL2DQSCTL_RRRMODE_MASK | DDR_PHY_DX8SL2DQSCTL_RESERVED_23_22_MASK | DDR_PHY_DX8SL2DQSCTL_WRRMODE_MASK | DDR_PHY_DX8SL2DQSCTL_DQSGX_MASK | DDR_PHY_DX8SL2DQSCTL_LPPLLPD_MASK | DDR_PHY_DX8SL2DQSCTL_LPIOPD_MASK | DDR_PHY_DX8SL2DQSCTL_RESERVED_16_15_MASK | DDR_PHY_DX8SL2DQSCTL_QSCNTEN_MASK | DDR_PHY_DX8SL2DQSCTL_UDQIOM_MASK | DDR_PHY_DX8SL2DQSCTL_RESERVED_12_10_MASK | DDR_PHY_DX8SL2DQSCTL_DXSR_MASK | DDR_PHY_DX8SL2DQSCTL_DQSNRES_MASK | DDR_PHY_DX8SL2DQSCTL_DQSRES_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX8SL2DQSCTL_RESERVED_31_25_SHIFT + | 0x00000001U << DDR_PHY_DX8SL2DQSCTL_RRRMODE_SHIFT + | 0x00000000U << DDR_PHY_DX8SL2DQSCTL_RESERVED_23_22_SHIFT + | 0x00000001U << DDR_PHY_DX8SL2DQSCTL_WRRMODE_SHIFT + | 0x00000000U << DDR_PHY_DX8SL2DQSCTL_DQSGX_SHIFT + | 0x00000001U << DDR_PHY_DX8SL2DQSCTL_LPPLLPD_SHIFT + | 0x00000001U << DDR_PHY_DX8SL2DQSCTL_LPIOPD_SHIFT + | 0x00000000U << DDR_PHY_DX8SL2DQSCTL_RESERVED_16_15_SHIFT + | 0x00000001U << DDR_PHY_DX8SL2DQSCTL_QSCNTEN_SHIFT + | 0x00000000U << DDR_PHY_DX8SL2DQSCTL_UDQIOM_SHIFT + | 0x00000000U << DDR_PHY_DX8SL2DQSCTL_RESERVED_12_10_SHIFT + | 0x00000003U << DDR_PHY_DX8SL2DQSCTL_DXSR_SHIFT + | 0x00000000U << DDR_PHY_DX8SL2DQSCTL_DQSNRES_SHIFT + | 0x00000000U << DDR_PHY_DX8SL2DQSCTL_DQSRES_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX8SL2DQSCTL_OFFSET ,0xFFFFFFFFU ,0x01264300U); + /*############################################################################################################################ */ + + /*Register : DX8SL2DXCTL2 @ 0XFD0814AC

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL2DXCTL2_RESERVED_31_24 0x0 + + Configurable Read Data Enable + PSU_DDR_PHY_DX8SL2DXCTL2_CRDEN 0x0 + + OX Extension during Post-amble + PSU_DDR_PHY_DX8SL2DXCTL2_POSOEX 0x0 + + OE Extension during Pre-amble + PSU_DDR_PHY_DX8SL2DXCTL2_PREOEX 0x1 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL2DXCTL2_RESERVED_17 0x0 + + I/O Assisted Gate Select + PSU_DDR_PHY_DX8SL2DXCTL2_IOAG 0x0 + + I/O Loopback Select + PSU_DDR_PHY_DX8SL2DXCTL2_IOLB 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL2DXCTL2_RESERVED_14_13 0x0 + + Low Power Wakeup Threshold + PSU_DDR_PHY_DX8SL2DXCTL2_LPWAKEUP_THRSH 0xc + + Read Data Bus Inversion Enable + PSU_DDR_PHY_DX8SL2DXCTL2_RDBI 0x0 + + Write Data Bus Inversion Enable + PSU_DDR_PHY_DX8SL2DXCTL2_WDBI 0x0 + + PUB Read FIFO Bypass + PSU_DDR_PHY_DX8SL2DXCTL2_PRFBYP 0x0 + + DATX8 Receive FIFO Read Mode + PSU_DDR_PHY_DX8SL2DXCTL2_RDMODE 0x0 + + Disables the Read FIFO Reset + PSU_DDR_PHY_DX8SL2DXCTL2_DISRST 0x0 + + Read DQS Gate I/O Loopback + PSU_DDR_PHY_DX8SL2DXCTL2_DQSGLB 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL2DXCTL2_RESERVED_0 0x0 + + DATX8 0-1 DX Control Register 2 + (OFFSET, MASK, VALUE) (0XFD0814AC, 0xFFFFFFFFU ,0x00041800U) + RegMask = (DDR_PHY_DX8SL2DXCTL2_RESERVED_31_24_MASK | DDR_PHY_DX8SL2DXCTL2_CRDEN_MASK | DDR_PHY_DX8SL2DXCTL2_POSOEX_MASK | DDR_PHY_DX8SL2DXCTL2_PREOEX_MASK | DDR_PHY_DX8SL2DXCTL2_RESERVED_17_MASK | DDR_PHY_DX8SL2DXCTL2_IOAG_MASK | DDR_PHY_DX8SL2DXCTL2_IOLB_MASK | DDR_PHY_DX8SL2DXCTL2_RESERVED_14_13_MASK | DDR_PHY_DX8SL2DXCTL2_LPWAKEUP_THRSH_MASK | DDR_PHY_DX8SL2DXCTL2_RDBI_MASK | DDR_PHY_DX8SL2DXCTL2_WDBI_MASK | DDR_PHY_DX8SL2DXCTL2_PRFBYP_MASK | DDR_PHY_DX8SL2DXCTL2_RDMODE_MASK | DDR_PHY_DX8SL2DXCTL2_DISRST_MASK | DDR_PHY_DX8SL2DXCTL2_DQSGLB_MASK | DDR_PHY_DX8SL2DXCTL2_RESERVED_0_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX8SL2DXCTL2_RESERVED_31_24_SHIFT + | 0x00000000U << DDR_PHY_DX8SL2DXCTL2_CRDEN_SHIFT + | 0x00000000U << DDR_PHY_DX8SL2DXCTL2_POSOEX_SHIFT + | 0x00000001U << DDR_PHY_DX8SL2DXCTL2_PREOEX_SHIFT + | 0x00000000U << DDR_PHY_DX8SL2DXCTL2_RESERVED_17_SHIFT + | 0x00000000U << DDR_PHY_DX8SL2DXCTL2_IOAG_SHIFT + | 0x00000000U << DDR_PHY_DX8SL2DXCTL2_IOLB_SHIFT + | 0x00000000U << DDR_PHY_DX8SL2DXCTL2_RESERVED_14_13_SHIFT + | 0x0000000CU << DDR_PHY_DX8SL2DXCTL2_LPWAKEUP_THRSH_SHIFT + | 0x00000000U << DDR_PHY_DX8SL2DXCTL2_RDBI_SHIFT + | 0x00000000U << DDR_PHY_DX8SL2DXCTL2_WDBI_SHIFT + | 0x00000000U << DDR_PHY_DX8SL2DXCTL2_PRFBYP_SHIFT + | 0x00000000U << DDR_PHY_DX8SL2DXCTL2_RDMODE_SHIFT + | 0x00000000U << DDR_PHY_DX8SL2DXCTL2_DISRST_SHIFT + | 0x00000000U << DDR_PHY_DX8SL2DXCTL2_DQSGLB_SHIFT + | 0x00000000U << DDR_PHY_DX8SL2DXCTL2_RESERVED_0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX8SL2DXCTL2_OFFSET ,0xFFFFFFFFU ,0x00041800U); + /*############################################################################################################################ */ + + /*Register : DX8SL2IOCR @ 0XFD0814B0

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL2IOCR_RESERVED_31 0x0 + + PVREF_DAC REFSEL range select + PSU_DDR_PHY_DX8SL2IOCR_DXDACRANGE 0x7 + + IOM bits for PVREF, PVREF_DAC and PVREFE cells in DX IO ring + PSU_DDR_PHY_DX8SL2IOCR_DXVREFIOM 0x0 + + DX IO Mode + PSU_DDR_PHY_DX8SL2IOCR_DXIOM 0x2 + + DX IO Transmitter Mode + PSU_DDR_PHY_DX8SL2IOCR_DXTXM 0x0 + + DX IO Receiver Mode + PSU_DDR_PHY_DX8SL2IOCR_DXRXM 0x0 + + DATX8 0-1 I/O Configuration Register + (OFFSET, MASK, VALUE) (0XFD0814B0, 0xFFFFFFFFU ,0x70800000U) + RegMask = (DDR_PHY_DX8SL2IOCR_RESERVED_31_MASK | DDR_PHY_DX8SL2IOCR_DXDACRANGE_MASK | DDR_PHY_DX8SL2IOCR_DXVREFIOM_MASK | DDR_PHY_DX8SL2IOCR_DXIOM_MASK | DDR_PHY_DX8SL2IOCR_DXTXM_MASK | DDR_PHY_DX8SL2IOCR_DXRXM_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX8SL2IOCR_RESERVED_31_SHIFT + | 0x00000007U << DDR_PHY_DX8SL2IOCR_DXDACRANGE_SHIFT + | 0x00000000U << DDR_PHY_DX8SL2IOCR_DXVREFIOM_SHIFT + | 0x00000002U << DDR_PHY_DX8SL2IOCR_DXIOM_SHIFT + | 0x00000000U << DDR_PHY_DX8SL2IOCR_DXTXM_SHIFT + | 0x00000000U << DDR_PHY_DX8SL2IOCR_DXRXM_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX8SL2IOCR_OFFSET ,0xFFFFFFFFU ,0x70800000U); + /*############################################################################################################################ */ + + /*Register : DX8SL3OSC @ 0XFD0814C0

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL3OSC_RESERVED_31_30 0x0 + + Enable Clock Gating for DX ddr_clk + PSU_DDR_PHY_DX8SL3OSC_GATEDXRDCLK 0x2 + + Enable Clock Gating for DX ctl_rd_clk + PSU_DDR_PHY_DX8SL3OSC_GATEDXDDRCLK 0x2 + + Enable Clock Gating for DX ctl_clk + PSU_DDR_PHY_DX8SL3OSC_GATEDXCTLCLK 0x2 + + Selects the level to which clocks will be stalled when clock gating is enabled. + PSU_DDR_PHY_DX8SL3OSC_CLKLEVEL 0x0 + + Loopback Mode + PSU_DDR_PHY_DX8SL3OSC_LBMODE 0x0 + + Load GSDQS LCDL with 2x the calibrated GSDQSPRD value + PSU_DDR_PHY_DX8SL3OSC_LBGSDQS 0x0 + + Loopback DQS Gating + PSU_DDR_PHY_DX8SL3OSC_LBGDQS 0x0 + + Loopback DQS Shift + PSU_DDR_PHY_DX8SL3OSC_LBDQSS 0x0 + + PHY High-Speed Reset + PSU_DDR_PHY_DX8SL3OSC_PHYHRST 0x1 + + PHY FIFO Reset + PSU_DDR_PHY_DX8SL3OSC_PHYFRST 0x1 + + Delay Line Test Start + PSU_DDR_PHY_DX8SL3OSC_DLTST 0x0 + + Delay Line Test Mode + PSU_DDR_PHY_DX8SL3OSC_DLTMODE 0x0 + + Reserved. Caution, do not write to this register field. + PSU_DDR_PHY_DX8SL3OSC_RESERVED_12_11 0x3 + + Oscillator Mode Write-Data Delay Line Select + PSU_DDR_PHY_DX8SL3OSC_OSCWDDL 0x3 + + Reserved. Caution, do not write to this register field. + PSU_DDR_PHY_DX8SL3OSC_RESERVED_8_7 0x3 + + Oscillator Mode Write-Leveling Delay Line Select + PSU_DDR_PHY_DX8SL3OSC_OSCWDL 0x3 + + Oscillator Mode Division + PSU_DDR_PHY_DX8SL3OSC_OSCDIV 0xf + + Oscillator Enable + PSU_DDR_PHY_DX8SL3OSC_OSCEN 0x0 + + DATX8 0-1 Oscillator, Delay Line Test, PHY FIFO and High Speed Reset, Loopback, and Gated Clock Control Register + (OFFSET, MASK, VALUE) (0XFD0814C0, 0xFFFFFFFFU ,0x2A019FFEU) + RegMask = (DDR_PHY_DX8SL3OSC_RESERVED_31_30_MASK | DDR_PHY_DX8SL3OSC_GATEDXRDCLK_MASK | DDR_PHY_DX8SL3OSC_GATEDXDDRCLK_MASK | DDR_PHY_DX8SL3OSC_GATEDXCTLCLK_MASK | DDR_PHY_DX8SL3OSC_CLKLEVEL_MASK | DDR_PHY_DX8SL3OSC_LBMODE_MASK | DDR_PHY_DX8SL3OSC_LBGSDQS_MASK | DDR_PHY_DX8SL3OSC_LBGDQS_MASK | DDR_PHY_DX8SL3OSC_LBDQSS_MASK | DDR_PHY_DX8SL3OSC_PHYHRST_MASK | DDR_PHY_DX8SL3OSC_PHYFRST_MASK | DDR_PHY_DX8SL3OSC_DLTST_MASK | DDR_PHY_DX8SL3OSC_DLTMODE_MASK | DDR_PHY_DX8SL3OSC_RESERVED_12_11_MASK | DDR_PHY_DX8SL3OSC_OSCWDDL_MASK | DDR_PHY_DX8SL3OSC_RESERVED_8_7_MASK | DDR_PHY_DX8SL3OSC_OSCWDL_MASK | DDR_PHY_DX8SL3OSC_OSCDIV_MASK | DDR_PHY_DX8SL3OSC_OSCEN_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX8SL3OSC_RESERVED_31_30_SHIFT + | 0x00000002U << DDR_PHY_DX8SL3OSC_GATEDXRDCLK_SHIFT + | 0x00000002U << DDR_PHY_DX8SL3OSC_GATEDXDDRCLK_SHIFT + | 0x00000002U << DDR_PHY_DX8SL3OSC_GATEDXCTLCLK_SHIFT + | 0x00000000U << DDR_PHY_DX8SL3OSC_CLKLEVEL_SHIFT + | 0x00000000U << DDR_PHY_DX8SL3OSC_LBMODE_SHIFT + | 0x00000000U << DDR_PHY_DX8SL3OSC_LBGSDQS_SHIFT + | 0x00000000U << DDR_PHY_DX8SL3OSC_LBGDQS_SHIFT + | 0x00000000U << DDR_PHY_DX8SL3OSC_LBDQSS_SHIFT + | 0x00000001U << DDR_PHY_DX8SL3OSC_PHYHRST_SHIFT + | 0x00000001U << DDR_PHY_DX8SL3OSC_PHYFRST_SHIFT + | 0x00000000U << DDR_PHY_DX8SL3OSC_DLTST_SHIFT + | 0x00000000U << DDR_PHY_DX8SL3OSC_DLTMODE_SHIFT + | 0x00000003U << DDR_PHY_DX8SL3OSC_RESERVED_12_11_SHIFT + | 0x00000003U << DDR_PHY_DX8SL3OSC_OSCWDDL_SHIFT + | 0x00000003U << DDR_PHY_DX8SL3OSC_RESERVED_8_7_SHIFT + | 0x00000003U << DDR_PHY_DX8SL3OSC_OSCWDL_SHIFT + | 0x0000000FU << DDR_PHY_DX8SL3OSC_OSCDIV_SHIFT + | 0x00000000U << DDR_PHY_DX8SL3OSC_OSCEN_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX8SL3OSC_OFFSET ,0xFFFFFFFFU ,0x2A019FFEU); + /*############################################################################################################################ */ + + /*Register : DX8SL3DQSCTL @ 0XFD0814DC

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL3DQSCTL_RESERVED_31_25 0x0 + + Read Path Rise-to-Rise Mode + PSU_DDR_PHY_DX8SL3DQSCTL_RRRMODE 0x1 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL3DQSCTL_RESERVED_23_22 0x0 + + Write Path Rise-to-Rise Mode + PSU_DDR_PHY_DX8SL3DQSCTL_WRRMODE 0x1 + + DQS Gate Extension + PSU_DDR_PHY_DX8SL3DQSCTL_DQSGX 0x0 + + Low Power PLL Power Down + PSU_DDR_PHY_DX8SL3DQSCTL_LPPLLPD 0x1 + + Low Power I/O Power Down + PSU_DDR_PHY_DX8SL3DQSCTL_LPIOPD 0x1 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL3DQSCTL_RESERVED_16_15 0x0 + + QS Counter Enable + PSU_DDR_PHY_DX8SL3DQSCTL_QSCNTEN 0x1 + + Unused DQ I/O Mode + PSU_DDR_PHY_DX8SL3DQSCTL_UDQIOM 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL3DQSCTL_RESERVED_12_10 0x0 + + Data Slew Rate + PSU_DDR_PHY_DX8SL3DQSCTL_DXSR 0x3 + + DQS_N Resistor + PSU_DDR_PHY_DX8SL3DQSCTL_DQSNRES 0x0 + + DQS Resistor + PSU_DDR_PHY_DX8SL3DQSCTL_DQSRES 0x0 + + DATX8 0-1 DQS Control Register + (OFFSET, MASK, VALUE) (0XFD0814DC, 0xFFFFFFFFU ,0x01264300U) + RegMask = (DDR_PHY_DX8SL3DQSCTL_RESERVED_31_25_MASK | DDR_PHY_DX8SL3DQSCTL_RRRMODE_MASK | DDR_PHY_DX8SL3DQSCTL_RESERVED_23_22_MASK | DDR_PHY_DX8SL3DQSCTL_WRRMODE_MASK | DDR_PHY_DX8SL3DQSCTL_DQSGX_MASK | DDR_PHY_DX8SL3DQSCTL_LPPLLPD_MASK | DDR_PHY_DX8SL3DQSCTL_LPIOPD_MASK | DDR_PHY_DX8SL3DQSCTL_RESERVED_16_15_MASK | DDR_PHY_DX8SL3DQSCTL_QSCNTEN_MASK | DDR_PHY_DX8SL3DQSCTL_UDQIOM_MASK | DDR_PHY_DX8SL3DQSCTL_RESERVED_12_10_MASK | DDR_PHY_DX8SL3DQSCTL_DXSR_MASK | DDR_PHY_DX8SL3DQSCTL_DQSNRES_MASK | DDR_PHY_DX8SL3DQSCTL_DQSRES_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX8SL3DQSCTL_RESERVED_31_25_SHIFT + | 0x00000001U << DDR_PHY_DX8SL3DQSCTL_RRRMODE_SHIFT + | 0x00000000U << DDR_PHY_DX8SL3DQSCTL_RESERVED_23_22_SHIFT + | 0x00000001U << DDR_PHY_DX8SL3DQSCTL_WRRMODE_SHIFT + | 0x00000000U << DDR_PHY_DX8SL3DQSCTL_DQSGX_SHIFT + | 0x00000001U << DDR_PHY_DX8SL3DQSCTL_LPPLLPD_SHIFT + | 0x00000001U << DDR_PHY_DX8SL3DQSCTL_LPIOPD_SHIFT + | 0x00000000U << DDR_PHY_DX8SL3DQSCTL_RESERVED_16_15_SHIFT + | 0x00000001U << DDR_PHY_DX8SL3DQSCTL_QSCNTEN_SHIFT + | 0x00000000U << DDR_PHY_DX8SL3DQSCTL_UDQIOM_SHIFT + | 0x00000000U << DDR_PHY_DX8SL3DQSCTL_RESERVED_12_10_SHIFT + | 0x00000003U << DDR_PHY_DX8SL3DQSCTL_DXSR_SHIFT + | 0x00000000U << DDR_PHY_DX8SL3DQSCTL_DQSNRES_SHIFT + | 0x00000000U << DDR_PHY_DX8SL3DQSCTL_DQSRES_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX8SL3DQSCTL_OFFSET ,0xFFFFFFFFU ,0x01264300U); + /*############################################################################################################################ */ + + /*Register : DX8SL3DXCTL2 @ 0XFD0814EC

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL3DXCTL2_RESERVED_31_24 0x0 + + Configurable Read Data Enable + PSU_DDR_PHY_DX8SL3DXCTL2_CRDEN 0x0 + + OX Extension during Post-amble + PSU_DDR_PHY_DX8SL3DXCTL2_POSOEX 0x0 + + OE Extension during Pre-amble + PSU_DDR_PHY_DX8SL3DXCTL2_PREOEX 0x1 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL3DXCTL2_RESERVED_17 0x0 + + I/O Assisted Gate Select + PSU_DDR_PHY_DX8SL3DXCTL2_IOAG 0x0 + + I/O Loopback Select + PSU_DDR_PHY_DX8SL3DXCTL2_IOLB 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL3DXCTL2_RESERVED_14_13 0x0 + + Low Power Wakeup Threshold + PSU_DDR_PHY_DX8SL3DXCTL2_LPWAKEUP_THRSH 0xc + + Read Data Bus Inversion Enable + PSU_DDR_PHY_DX8SL3DXCTL2_RDBI 0x0 + + Write Data Bus Inversion Enable + PSU_DDR_PHY_DX8SL3DXCTL2_WDBI 0x0 + + PUB Read FIFO Bypass + PSU_DDR_PHY_DX8SL3DXCTL2_PRFBYP 0x0 + + DATX8 Receive FIFO Read Mode + PSU_DDR_PHY_DX8SL3DXCTL2_RDMODE 0x0 + + Disables the Read FIFO Reset + PSU_DDR_PHY_DX8SL3DXCTL2_DISRST 0x0 + + Read DQS Gate I/O Loopback + PSU_DDR_PHY_DX8SL3DXCTL2_DQSGLB 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL3DXCTL2_RESERVED_0 0x0 + + DATX8 0-1 DX Control Register 2 + (OFFSET, MASK, VALUE) (0XFD0814EC, 0xFFFFFFFFU ,0x00041800U) + RegMask = (DDR_PHY_DX8SL3DXCTL2_RESERVED_31_24_MASK | DDR_PHY_DX8SL3DXCTL2_CRDEN_MASK | DDR_PHY_DX8SL3DXCTL2_POSOEX_MASK | DDR_PHY_DX8SL3DXCTL2_PREOEX_MASK | DDR_PHY_DX8SL3DXCTL2_RESERVED_17_MASK | DDR_PHY_DX8SL3DXCTL2_IOAG_MASK | DDR_PHY_DX8SL3DXCTL2_IOLB_MASK | DDR_PHY_DX8SL3DXCTL2_RESERVED_14_13_MASK | DDR_PHY_DX8SL3DXCTL2_LPWAKEUP_THRSH_MASK | DDR_PHY_DX8SL3DXCTL2_RDBI_MASK | DDR_PHY_DX8SL3DXCTL2_WDBI_MASK | DDR_PHY_DX8SL3DXCTL2_PRFBYP_MASK | DDR_PHY_DX8SL3DXCTL2_RDMODE_MASK | DDR_PHY_DX8SL3DXCTL2_DISRST_MASK | DDR_PHY_DX8SL3DXCTL2_DQSGLB_MASK | DDR_PHY_DX8SL3DXCTL2_RESERVED_0_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX8SL3DXCTL2_RESERVED_31_24_SHIFT + | 0x00000000U << DDR_PHY_DX8SL3DXCTL2_CRDEN_SHIFT + | 0x00000000U << DDR_PHY_DX8SL3DXCTL2_POSOEX_SHIFT + | 0x00000001U << DDR_PHY_DX8SL3DXCTL2_PREOEX_SHIFT + | 0x00000000U << DDR_PHY_DX8SL3DXCTL2_RESERVED_17_SHIFT + | 0x00000000U << DDR_PHY_DX8SL3DXCTL2_IOAG_SHIFT + | 0x00000000U << DDR_PHY_DX8SL3DXCTL2_IOLB_SHIFT + | 0x00000000U << DDR_PHY_DX8SL3DXCTL2_RESERVED_14_13_SHIFT + | 0x0000000CU << DDR_PHY_DX8SL3DXCTL2_LPWAKEUP_THRSH_SHIFT + | 0x00000000U << DDR_PHY_DX8SL3DXCTL2_RDBI_SHIFT + | 0x00000000U << DDR_PHY_DX8SL3DXCTL2_WDBI_SHIFT + | 0x00000000U << DDR_PHY_DX8SL3DXCTL2_PRFBYP_SHIFT + | 0x00000000U << DDR_PHY_DX8SL3DXCTL2_RDMODE_SHIFT + | 0x00000000U << DDR_PHY_DX8SL3DXCTL2_DISRST_SHIFT + | 0x00000000U << DDR_PHY_DX8SL3DXCTL2_DQSGLB_SHIFT + | 0x00000000U << DDR_PHY_DX8SL3DXCTL2_RESERVED_0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX8SL3DXCTL2_OFFSET ,0xFFFFFFFFU ,0x00041800U); + /*############################################################################################################################ */ + + /*Register : DX8SL3IOCR @ 0XFD0814F0

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL3IOCR_RESERVED_31 0x0 + + PVREF_DAC REFSEL range select + PSU_DDR_PHY_DX8SL3IOCR_DXDACRANGE 0x7 + + IOM bits for PVREF, PVREF_DAC and PVREFE cells in DX IO ring + PSU_DDR_PHY_DX8SL3IOCR_DXVREFIOM 0x0 + + DX IO Mode + PSU_DDR_PHY_DX8SL3IOCR_DXIOM 0x2 + + DX IO Transmitter Mode + PSU_DDR_PHY_DX8SL3IOCR_DXTXM 0x0 + + DX IO Receiver Mode + PSU_DDR_PHY_DX8SL3IOCR_DXRXM 0x0 + + DATX8 0-1 I/O Configuration Register + (OFFSET, MASK, VALUE) (0XFD0814F0, 0xFFFFFFFFU ,0x70800000U) + RegMask = (DDR_PHY_DX8SL3IOCR_RESERVED_31_MASK | DDR_PHY_DX8SL3IOCR_DXDACRANGE_MASK | DDR_PHY_DX8SL3IOCR_DXVREFIOM_MASK | DDR_PHY_DX8SL3IOCR_DXIOM_MASK | DDR_PHY_DX8SL3IOCR_DXTXM_MASK | DDR_PHY_DX8SL3IOCR_DXRXM_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX8SL3IOCR_RESERVED_31_SHIFT + | 0x00000007U << DDR_PHY_DX8SL3IOCR_DXDACRANGE_SHIFT + | 0x00000000U << DDR_PHY_DX8SL3IOCR_DXVREFIOM_SHIFT + | 0x00000002U << DDR_PHY_DX8SL3IOCR_DXIOM_SHIFT + | 0x00000000U << DDR_PHY_DX8SL3IOCR_DXTXM_SHIFT + | 0x00000000U << DDR_PHY_DX8SL3IOCR_DXRXM_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX8SL3IOCR_OFFSET ,0xFFFFFFFFU ,0x70800000U); + /*############################################################################################################################ */ + + /*Register : DX8SL4OSC @ 0XFD081500

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL4OSC_RESERVED_31_30 0x0 + + Enable Clock Gating for DX ddr_clk + PSU_DDR_PHY_DX8SL4OSC_GATEDXRDCLK 0x2 + + Enable Clock Gating for DX ctl_rd_clk + PSU_DDR_PHY_DX8SL4OSC_GATEDXDDRCLK 0x2 + + Enable Clock Gating for DX ctl_clk + PSU_DDR_PHY_DX8SL4OSC_GATEDXCTLCLK 0x2 + + Selects the level to which clocks will be stalled when clock gating is enabled. + PSU_DDR_PHY_DX8SL4OSC_CLKLEVEL 0x0 + + Loopback Mode + PSU_DDR_PHY_DX8SL4OSC_LBMODE 0x0 + + Load GSDQS LCDL with 2x the calibrated GSDQSPRD value + PSU_DDR_PHY_DX8SL4OSC_LBGSDQS 0x0 + + Loopback DQS Gating + PSU_DDR_PHY_DX8SL4OSC_LBGDQS 0x0 + + Loopback DQS Shift + PSU_DDR_PHY_DX8SL4OSC_LBDQSS 0x0 + + PHY High-Speed Reset + PSU_DDR_PHY_DX8SL4OSC_PHYHRST 0x1 + + PHY FIFO Reset + PSU_DDR_PHY_DX8SL4OSC_PHYFRST 0x1 + + Delay Line Test Start + PSU_DDR_PHY_DX8SL4OSC_DLTST 0x0 + + Delay Line Test Mode + PSU_DDR_PHY_DX8SL4OSC_DLTMODE 0x0 + + Reserved. Caution, do not write to this register field. + PSU_DDR_PHY_DX8SL4OSC_RESERVED_12_11 0x3 + + Oscillator Mode Write-Data Delay Line Select + PSU_DDR_PHY_DX8SL4OSC_OSCWDDL 0x3 + + Reserved. Caution, do not write to this register field. + PSU_DDR_PHY_DX8SL4OSC_RESERVED_8_7 0x3 + + Oscillator Mode Write-Leveling Delay Line Select + PSU_DDR_PHY_DX8SL4OSC_OSCWDL 0x3 + + Oscillator Mode Division + PSU_DDR_PHY_DX8SL4OSC_OSCDIV 0xf + + Oscillator Enable + PSU_DDR_PHY_DX8SL4OSC_OSCEN 0x0 + + DATX8 0-1 Oscillator, Delay Line Test, PHY FIFO and High Speed Reset, Loopback, and Gated Clock Control Register + (OFFSET, MASK, VALUE) (0XFD081500, 0xFFFFFFFFU ,0x2A019FFEU) + RegMask = (DDR_PHY_DX8SL4OSC_RESERVED_31_30_MASK | DDR_PHY_DX8SL4OSC_GATEDXRDCLK_MASK | DDR_PHY_DX8SL4OSC_GATEDXDDRCLK_MASK | DDR_PHY_DX8SL4OSC_GATEDXCTLCLK_MASK | DDR_PHY_DX8SL4OSC_CLKLEVEL_MASK | DDR_PHY_DX8SL4OSC_LBMODE_MASK | DDR_PHY_DX8SL4OSC_LBGSDQS_MASK | DDR_PHY_DX8SL4OSC_LBGDQS_MASK | DDR_PHY_DX8SL4OSC_LBDQSS_MASK | DDR_PHY_DX8SL4OSC_PHYHRST_MASK | DDR_PHY_DX8SL4OSC_PHYFRST_MASK | DDR_PHY_DX8SL4OSC_DLTST_MASK | DDR_PHY_DX8SL4OSC_DLTMODE_MASK | DDR_PHY_DX8SL4OSC_RESERVED_12_11_MASK | DDR_PHY_DX8SL4OSC_OSCWDDL_MASK | DDR_PHY_DX8SL4OSC_RESERVED_8_7_MASK | DDR_PHY_DX8SL4OSC_OSCWDL_MASK | DDR_PHY_DX8SL4OSC_OSCDIV_MASK | DDR_PHY_DX8SL4OSC_OSCEN_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX8SL4OSC_RESERVED_31_30_SHIFT + | 0x00000002U << DDR_PHY_DX8SL4OSC_GATEDXRDCLK_SHIFT + | 0x00000002U << DDR_PHY_DX8SL4OSC_GATEDXDDRCLK_SHIFT + | 0x00000002U << DDR_PHY_DX8SL4OSC_GATEDXCTLCLK_SHIFT + | 0x00000000U << DDR_PHY_DX8SL4OSC_CLKLEVEL_SHIFT + | 0x00000000U << DDR_PHY_DX8SL4OSC_LBMODE_SHIFT + | 0x00000000U << DDR_PHY_DX8SL4OSC_LBGSDQS_SHIFT + | 0x00000000U << DDR_PHY_DX8SL4OSC_LBGDQS_SHIFT + | 0x00000000U << DDR_PHY_DX8SL4OSC_LBDQSS_SHIFT + | 0x00000001U << DDR_PHY_DX8SL4OSC_PHYHRST_SHIFT + | 0x00000001U << DDR_PHY_DX8SL4OSC_PHYFRST_SHIFT + | 0x00000000U << DDR_PHY_DX8SL4OSC_DLTST_SHIFT + | 0x00000000U << DDR_PHY_DX8SL4OSC_DLTMODE_SHIFT + | 0x00000003U << DDR_PHY_DX8SL4OSC_RESERVED_12_11_SHIFT + | 0x00000003U << DDR_PHY_DX8SL4OSC_OSCWDDL_SHIFT + | 0x00000003U << DDR_PHY_DX8SL4OSC_RESERVED_8_7_SHIFT + | 0x00000003U << DDR_PHY_DX8SL4OSC_OSCWDL_SHIFT + | 0x0000000FU << DDR_PHY_DX8SL4OSC_OSCDIV_SHIFT + | 0x00000000U << DDR_PHY_DX8SL4OSC_OSCEN_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX8SL4OSC_OFFSET ,0xFFFFFFFFU ,0x2A019FFEU); + /*############################################################################################################################ */ + + /*Register : DX8SL4DQSCTL @ 0XFD08151C

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL4DQSCTL_RESERVED_31_25 0x0 + + Read Path Rise-to-Rise Mode + PSU_DDR_PHY_DX8SL4DQSCTL_RRRMODE 0x1 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL4DQSCTL_RESERVED_23_22 0x0 + + Write Path Rise-to-Rise Mode + PSU_DDR_PHY_DX8SL4DQSCTL_WRRMODE 0x1 + + DQS Gate Extension + PSU_DDR_PHY_DX8SL4DQSCTL_DQSGX 0x0 + + Low Power PLL Power Down + PSU_DDR_PHY_DX8SL4DQSCTL_LPPLLPD 0x1 + + Low Power I/O Power Down + PSU_DDR_PHY_DX8SL4DQSCTL_LPIOPD 0x1 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL4DQSCTL_RESERVED_16_15 0x0 + + QS Counter Enable + PSU_DDR_PHY_DX8SL4DQSCTL_QSCNTEN 0x1 + + Unused DQ I/O Mode + PSU_DDR_PHY_DX8SL4DQSCTL_UDQIOM 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL4DQSCTL_RESERVED_12_10 0x0 + + Data Slew Rate + PSU_DDR_PHY_DX8SL4DQSCTL_DXSR 0x3 + + DQS_N Resistor + PSU_DDR_PHY_DX8SL4DQSCTL_DQSNRES 0x0 + + DQS Resistor + PSU_DDR_PHY_DX8SL4DQSCTL_DQSRES 0x0 + + DATX8 0-1 DQS Control Register + (OFFSET, MASK, VALUE) (0XFD08151C, 0xFFFFFFFFU ,0x01264300U) + RegMask = (DDR_PHY_DX8SL4DQSCTL_RESERVED_31_25_MASK | DDR_PHY_DX8SL4DQSCTL_RRRMODE_MASK | DDR_PHY_DX8SL4DQSCTL_RESERVED_23_22_MASK | DDR_PHY_DX8SL4DQSCTL_WRRMODE_MASK | DDR_PHY_DX8SL4DQSCTL_DQSGX_MASK | DDR_PHY_DX8SL4DQSCTL_LPPLLPD_MASK | DDR_PHY_DX8SL4DQSCTL_LPIOPD_MASK | DDR_PHY_DX8SL4DQSCTL_RESERVED_16_15_MASK | DDR_PHY_DX8SL4DQSCTL_QSCNTEN_MASK | DDR_PHY_DX8SL4DQSCTL_UDQIOM_MASK | DDR_PHY_DX8SL4DQSCTL_RESERVED_12_10_MASK | DDR_PHY_DX8SL4DQSCTL_DXSR_MASK | DDR_PHY_DX8SL4DQSCTL_DQSNRES_MASK | DDR_PHY_DX8SL4DQSCTL_DQSRES_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX8SL4DQSCTL_RESERVED_31_25_SHIFT + | 0x00000001U << DDR_PHY_DX8SL4DQSCTL_RRRMODE_SHIFT + | 0x00000000U << DDR_PHY_DX8SL4DQSCTL_RESERVED_23_22_SHIFT + | 0x00000001U << DDR_PHY_DX8SL4DQSCTL_WRRMODE_SHIFT + | 0x00000000U << DDR_PHY_DX8SL4DQSCTL_DQSGX_SHIFT + | 0x00000001U << DDR_PHY_DX8SL4DQSCTL_LPPLLPD_SHIFT + | 0x00000001U << DDR_PHY_DX8SL4DQSCTL_LPIOPD_SHIFT + | 0x00000000U << DDR_PHY_DX8SL4DQSCTL_RESERVED_16_15_SHIFT + | 0x00000001U << DDR_PHY_DX8SL4DQSCTL_QSCNTEN_SHIFT + | 0x00000000U << DDR_PHY_DX8SL4DQSCTL_UDQIOM_SHIFT + | 0x00000000U << DDR_PHY_DX8SL4DQSCTL_RESERVED_12_10_SHIFT + | 0x00000003U << DDR_PHY_DX8SL4DQSCTL_DXSR_SHIFT + | 0x00000000U << DDR_PHY_DX8SL4DQSCTL_DQSNRES_SHIFT + | 0x00000000U << DDR_PHY_DX8SL4DQSCTL_DQSRES_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX8SL4DQSCTL_OFFSET ,0xFFFFFFFFU ,0x01264300U); + /*############################################################################################################################ */ + + /*Register : DX8SL4DXCTL2 @ 0XFD08152C

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL4DXCTL2_RESERVED_31_24 0x0 + + Configurable Read Data Enable + PSU_DDR_PHY_DX8SL4DXCTL2_CRDEN 0x0 + + OX Extension during Post-amble + PSU_DDR_PHY_DX8SL4DXCTL2_POSOEX 0x0 + + OE Extension during Pre-amble + PSU_DDR_PHY_DX8SL4DXCTL2_PREOEX 0x1 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL4DXCTL2_RESERVED_17 0x0 + + I/O Assisted Gate Select + PSU_DDR_PHY_DX8SL4DXCTL2_IOAG 0x0 + + I/O Loopback Select + PSU_DDR_PHY_DX8SL4DXCTL2_IOLB 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL4DXCTL2_RESERVED_14_13 0x0 + + Low Power Wakeup Threshold + PSU_DDR_PHY_DX8SL4DXCTL2_LPWAKEUP_THRSH 0xc + + Read Data Bus Inversion Enable + PSU_DDR_PHY_DX8SL4DXCTL2_RDBI 0x0 + + Write Data Bus Inversion Enable + PSU_DDR_PHY_DX8SL4DXCTL2_WDBI 0x0 + + PUB Read FIFO Bypass + PSU_DDR_PHY_DX8SL4DXCTL2_PRFBYP 0x0 + + DATX8 Receive FIFO Read Mode + PSU_DDR_PHY_DX8SL4DXCTL2_RDMODE 0x0 + + Disables the Read FIFO Reset + PSU_DDR_PHY_DX8SL4DXCTL2_DISRST 0x0 + + Read DQS Gate I/O Loopback + PSU_DDR_PHY_DX8SL4DXCTL2_DQSGLB 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL4DXCTL2_RESERVED_0 0x0 + + DATX8 0-1 DX Control Register 2 + (OFFSET, MASK, VALUE) (0XFD08152C, 0xFFFFFFFFU ,0x00041800U) + RegMask = (DDR_PHY_DX8SL4DXCTL2_RESERVED_31_24_MASK | DDR_PHY_DX8SL4DXCTL2_CRDEN_MASK | DDR_PHY_DX8SL4DXCTL2_POSOEX_MASK | DDR_PHY_DX8SL4DXCTL2_PREOEX_MASK | DDR_PHY_DX8SL4DXCTL2_RESERVED_17_MASK | DDR_PHY_DX8SL4DXCTL2_IOAG_MASK | DDR_PHY_DX8SL4DXCTL2_IOLB_MASK | DDR_PHY_DX8SL4DXCTL2_RESERVED_14_13_MASK | DDR_PHY_DX8SL4DXCTL2_LPWAKEUP_THRSH_MASK | DDR_PHY_DX8SL4DXCTL2_RDBI_MASK | DDR_PHY_DX8SL4DXCTL2_WDBI_MASK | DDR_PHY_DX8SL4DXCTL2_PRFBYP_MASK | DDR_PHY_DX8SL4DXCTL2_RDMODE_MASK | DDR_PHY_DX8SL4DXCTL2_DISRST_MASK | DDR_PHY_DX8SL4DXCTL2_DQSGLB_MASK | DDR_PHY_DX8SL4DXCTL2_RESERVED_0_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX8SL4DXCTL2_RESERVED_31_24_SHIFT + | 0x00000000U << DDR_PHY_DX8SL4DXCTL2_CRDEN_SHIFT + | 0x00000000U << DDR_PHY_DX8SL4DXCTL2_POSOEX_SHIFT + | 0x00000001U << DDR_PHY_DX8SL4DXCTL2_PREOEX_SHIFT + | 0x00000000U << DDR_PHY_DX8SL4DXCTL2_RESERVED_17_SHIFT + | 0x00000000U << DDR_PHY_DX8SL4DXCTL2_IOAG_SHIFT + | 0x00000000U << DDR_PHY_DX8SL4DXCTL2_IOLB_SHIFT + | 0x00000000U << DDR_PHY_DX8SL4DXCTL2_RESERVED_14_13_SHIFT + | 0x0000000CU << DDR_PHY_DX8SL4DXCTL2_LPWAKEUP_THRSH_SHIFT + | 0x00000000U << DDR_PHY_DX8SL4DXCTL2_RDBI_SHIFT + | 0x00000000U << DDR_PHY_DX8SL4DXCTL2_WDBI_SHIFT + | 0x00000000U << DDR_PHY_DX8SL4DXCTL2_PRFBYP_SHIFT + | 0x00000000U << DDR_PHY_DX8SL4DXCTL2_RDMODE_SHIFT + | 0x00000000U << DDR_PHY_DX8SL4DXCTL2_DISRST_SHIFT + | 0x00000000U << DDR_PHY_DX8SL4DXCTL2_DQSGLB_SHIFT + | 0x00000000U << DDR_PHY_DX8SL4DXCTL2_RESERVED_0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX8SL4DXCTL2_OFFSET ,0xFFFFFFFFU ,0x00041800U); + /*############################################################################################################################ */ + + /*Register : DX8SL4IOCR @ 0XFD081530

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SL4IOCR_RESERVED_31 0x0 + + PVREF_DAC REFSEL range select + PSU_DDR_PHY_DX8SL4IOCR_DXDACRANGE 0x7 + + IOM bits for PVREF, PVREF_DAC and PVREFE cells in DX IO ring + PSU_DDR_PHY_DX8SL4IOCR_DXVREFIOM 0x0 + + DX IO Mode + PSU_DDR_PHY_DX8SL4IOCR_DXIOM 0x2 + + DX IO Transmitter Mode + PSU_DDR_PHY_DX8SL4IOCR_DXTXM 0x0 + + DX IO Receiver Mode + PSU_DDR_PHY_DX8SL4IOCR_DXRXM 0x0 + + DATX8 0-1 I/O Configuration Register + (OFFSET, MASK, VALUE) (0XFD081530, 0xFFFFFFFFU ,0x70800000U) + RegMask = (DDR_PHY_DX8SL4IOCR_RESERVED_31_MASK | DDR_PHY_DX8SL4IOCR_DXDACRANGE_MASK | DDR_PHY_DX8SL4IOCR_DXVREFIOM_MASK | DDR_PHY_DX8SL4IOCR_DXIOM_MASK | DDR_PHY_DX8SL4IOCR_DXTXM_MASK | DDR_PHY_DX8SL4IOCR_DXRXM_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX8SL4IOCR_RESERVED_31_SHIFT + | 0x00000007U << DDR_PHY_DX8SL4IOCR_DXDACRANGE_SHIFT + | 0x00000000U << DDR_PHY_DX8SL4IOCR_DXVREFIOM_SHIFT + | 0x00000002U << DDR_PHY_DX8SL4IOCR_DXIOM_SHIFT + | 0x00000000U << DDR_PHY_DX8SL4IOCR_DXTXM_SHIFT + | 0x00000000U << DDR_PHY_DX8SL4IOCR_DXRXM_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX8SL4IOCR_OFFSET ,0xFFFFFFFFU ,0x70800000U); + /*############################################################################################################################ */ + + /*Register : DX8SLbDQSCTL @ 0XFD0817DC

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SLBDQSCTL_RESERVED_31_25 0x0 + + Read Path Rise-to-Rise Mode + PSU_DDR_PHY_DX8SLBDQSCTL_RRRMODE 0x1 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SLBDQSCTL_RESERVED_23_22 0x0 + + Write Path Rise-to-Rise Mode + PSU_DDR_PHY_DX8SLBDQSCTL_WRRMODE 0x1 + + DQS Gate Extension + PSU_DDR_PHY_DX8SLBDQSCTL_DQSGX 0x0 + + Low Power PLL Power Down + PSU_DDR_PHY_DX8SLBDQSCTL_LPPLLPD 0x1 + + Low Power I/O Power Down + PSU_DDR_PHY_DX8SLBDQSCTL_LPIOPD 0x1 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SLBDQSCTL_RESERVED_16_15 0x0 + + QS Counter Enable + PSU_DDR_PHY_DX8SLBDQSCTL_QSCNTEN 0x1 + + Unused DQ I/O Mode + PSU_DDR_PHY_DX8SLBDQSCTL_UDQIOM 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_DX8SLBDQSCTL_RESERVED_12_10 0x0 + + Data Slew Rate + PSU_DDR_PHY_DX8SLBDQSCTL_DXSR 0x3 + + DQS# Resistor + PSU_DDR_PHY_DX8SLBDQSCTL_DQSNRES 0xc + + DQS Resistor + PSU_DDR_PHY_DX8SLBDQSCTL_DQSRES 0x4 + + DATX8 0-8 DQS Control Register + (OFFSET, MASK, VALUE) (0XFD0817DC, 0xFFFFFFFFU ,0x012643C4U) + RegMask = (DDR_PHY_DX8SLBDQSCTL_RESERVED_31_25_MASK | DDR_PHY_DX8SLBDQSCTL_RRRMODE_MASK | DDR_PHY_DX8SLBDQSCTL_RESERVED_23_22_MASK | DDR_PHY_DX8SLBDQSCTL_WRRMODE_MASK | DDR_PHY_DX8SLBDQSCTL_DQSGX_MASK | DDR_PHY_DX8SLBDQSCTL_LPPLLPD_MASK | DDR_PHY_DX8SLBDQSCTL_LPIOPD_MASK | DDR_PHY_DX8SLBDQSCTL_RESERVED_16_15_MASK | DDR_PHY_DX8SLBDQSCTL_QSCNTEN_MASK | DDR_PHY_DX8SLBDQSCTL_UDQIOM_MASK | DDR_PHY_DX8SLBDQSCTL_RESERVED_12_10_MASK | DDR_PHY_DX8SLBDQSCTL_DXSR_MASK | DDR_PHY_DX8SLBDQSCTL_DQSNRES_MASK | DDR_PHY_DX8SLBDQSCTL_DQSRES_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_DX8SLBDQSCTL_RESERVED_31_25_SHIFT + | 0x00000001U << DDR_PHY_DX8SLBDQSCTL_RRRMODE_SHIFT + | 0x00000000U << DDR_PHY_DX8SLBDQSCTL_RESERVED_23_22_SHIFT + | 0x00000001U << DDR_PHY_DX8SLBDQSCTL_WRRMODE_SHIFT + | 0x00000000U << DDR_PHY_DX8SLBDQSCTL_DQSGX_SHIFT + | 0x00000001U << DDR_PHY_DX8SLBDQSCTL_LPPLLPD_SHIFT + | 0x00000001U << DDR_PHY_DX8SLBDQSCTL_LPIOPD_SHIFT + | 0x00000000U << DDR_PHY_DX8SLBDQSCTL_RESERVED_16_15_SHIFT + | 0x00000001U << DDR_PHY_DX8SLBDQSCTL_QSCNTEN_SHIFT + | 0x00000000U << DDR_PHY_DX8SLBDQSCTL_UDQIOM_SHIFT + | 0x00000000U << DDR_PHY_DX8SLBDQSCTL_RESERVED_12_10_SHIFT + | 0x00000003U << DDR_PHY_DX8SLBDQSCTL_DXSR_SHIFT + | 0x0000000CU << DDR_PHY_DX8SLBDQSCTL_DQSNRES_SHIFT + | 0x00000004U << DDR_PHY_DX8SLBDQSCTL_DQSRES_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_DX8SLBDQSCTL_OFFSET ,0xFFFFFFFFU ,0x012643C4U); + /*############################################################################################################################ */ + + /*Register : PIR @ 0XFD080004

+ + Reserved. Return zeroes on reads. + PSU_DDR_PHY_PIR_RESERVED_31 0x0 + + Impedance Calibration Bypass + PSU_DDR_PHY_PIR_ZCALBYP 0x0 + + Digital Delay Line (DDL) Calibration Pause + PSU_DDR_PHY_PIR_DCALPSE 0x0 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_PIR_RESERVED_28_21 0x0 + + Write DQS2DQ Training + PSU_DDR_PHY_PIR_DQS2DQ 0x0 + + RDIMM Initialization + PSU_DDR_PHY_PIR_RDIMMINIT 0x0 + + Controller DRAM Initialization + PSU_DDR_PHY_PIR_CTLDINIT 0x1 + + VREF Training + PSU_DDR_PHY_PIR_VREF 0x0 + + Static Read Training + PSU_DDR_PHY_PIR_SRD 0x0 + + Write Data Eye Training + PSU_DDR_PHY_PIR_WREYE 0x0 + + Read Data Eye Training + PSU_DDR_PHY_PIR_RDEYE 0x0 + + Write Data Bit Deskew + PSU_DDR_PHY_PIR_WRDSKW 0x0 + + Read Data Bit Deskew + PSU_DDR_PHY_PIR_RDDSKW 0x0 + + Write Leveling Adjust + PSU_DDR_PHY_PIR_WLADJ 0x0 + + Read DQS Gate Training + PSU_DDR_PHY_PIR_QSGATE 0x0 + + Write Leveling + PSU_DDR_PHY_PIR_WL 0x0 + + DRAM Initialization + PSU_DDR_PHY_PIR_DRAMINIT 0x0 + + DRAM Reset (DDR3/DDR4/LPDDR4 Only) + PSU_DDR_PHY_PIR_DRAMRST 0x0 + + PHY Reset + PSU_DDR_PHY_PIR_PHYRST 0x1 + + Digital Delay Line (DDL) Calibration + PSU_DDR_PHY_PIR_DCAL 0x1 + + PLL Initialiazation + PSU_DDR_PHY_PIR_PLLINIT 0x1 + + Reserved. Return zeroes on reads. + PSU_DDR_PHY_PIR_RESERVED_3 0x0 + + CA Training + PSU_DDR_PHY_PIR_CA 0x0 + + Impedance Calibration + PSU_DDR_PHY_PIR_ZCAL 0x1 + + Initialization Trigger + PSU_DDR_PHY_PIR_INIT 0x1 + + PHY Initialization Register + (OFFSET, MASK, VALUE) (0XFD080004, 0xFFFFFFFFU ,0x00040073U) + RegMask = (DDR_PHY_PIR_RESERVED_31_MASK | DDR_PHY_PIR_ZCALBYP_MASK | DDR_PHY_PIR_DCALPSE_MASK | DDR_PHY_PIR_RESERVED_28_21_MASK | DDR_PHY_PIR_DQS2DQ_MASK | DDR_PHY_PIR_RDIMMINIT_MASK | DDR_PHY_PIR_CTLDINIT_MASK | DDR_PHY_PIR_VREF_MASK | DDR_PHY_PIR_SRD_MASK | DDR_PHY_PIR_WREYE_MASK | DDR_PHY_PIR_RDEYE_MASK | DDR_PHY_PIR_WRDSKW_MASK | DDR_PHY_PIR_RDDSKW_MASK | DDR_PHY_PIR_WLADJ_MASK | DDR_PHY_PIR_QSGATE_MASK | DDR_PHY_PIR_WL_MASK | DDR_PHY_PIR_DRAMINIT_MASK | DDR_PHY_PIR_DRAMRST_MASK | DDR_PHY_PIR_PHYRST_MASK | DDR_PHY_PIR_DCAL_MASK | DDR_PHY_PIR_PLLINIT_MASK | DDR_PHY_PIR_RESERVED_3_MASK | DDR_PHY_PIR_CA_MASK | DDR_PHY_PIR_ZCAL_MASK | DDR_PHY_PIR_INIT_MASK | 0 ); + + RegVal = ((0x00000000U << DDR_PHY_PIR_RESERVED_31_SHIFT + | 0x00000000U << DDR_PHY_PIR_ZCALBYP_SHIFT + | 0x00000000U << DDR_PHY_PIR_DCALPSE_SHIFT + | 0x00000000U << DDR_PHY_PIR_RESERVED_28_21_SHIFT + | 0x00000000U << DDR_PHY_PIR_DQS2DQ_SHIFT + | 0x00000000U << DDR_PHY_PIR_RDIMMINIT_SHIFT + | 0x00000001U << DDR_PHY_PIR_CTLDINIT_SHIFT + | 0x00000000U << DDR_PHY_PIR_VREF_SHIFT + | 0x00000000U << DDR_PHY_PIR_SRD_SHIFT + | 0x00000000U << DDR_PHY_PIR_WREYE_SHIFT + | 0x00000000U << DDR_PHY_PIR_RDEYE_SHIFT + | 0x00000000U << DDR_PHY_PIR_WRDSKW_SHIFT + | 0x00000000U << DDR_PHY_PIR_RDDSKW_SHIFT + | 0x00000000U << DDR_PHY_PIR_WLADJ_SHIFT + | 0x00000000U << DDR_PHY_PIR_QSGATE_SHIFT + | 0x00000000U << DDR_PHY_PIR_WL_SHIFT + | 0x00000000U << DDR_PHY_PIR_DRAMINIT_SHIFT + | 0x00000000U << DDR_PHY_PIR_DRAMRST_SHIFT + | 0x00000001U << DDR_PHY_PIR_PHYRST_SHIFT + | 0x00000001U << DDR_PHY_PIR_DCAL_SHIFT + | 0x00000001U << DDR_PHY_PIR_PLLINIT_SHIFT + | 0x00000000U << DDR_PHY_PIR_RESERVED_3_SHIFT + | 0x00000000U << DDR_PHY_PIR_CA_SHIFT + | 0x00000001U << DDR_PHY_PIR_ZCAL_SHIFT + | 0x00000001U << DDR_PHY_PIR_INIT_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DDR_PHY_PIR_OFFSET ,0xFFFFFFFFU ,0x00040073U); + /*############################################################################################################################ */ + + + return 1; +} +unsigned long psu_mio_init_data() { + // : MIO PROGRAMMING + /*Register : MIO_PIN_0 @ 0XFF180000

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Output, qspi_sclk_out- (QSPI Clock) + PSU_IOU_SLCR_MIO_PIN_0_L0_SEL 1 + + Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used + PSU_IOU_SLCR_MIO_PIN_0_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input, test_scan_in[0]- (Test Scan Port) = test_scan, Outp + t, test_scan_out[0]- (Test Scan Port) 3= Not Used + PSU_IOU_SLCR_MIO_PIN_0_L2_SEL 0 + + Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[0]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[0]- (GPIO bank 0) 1= can + , Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL signa + ) 3= pjtag, Input, pjtag_tck- (PJTAG TCK) 4= spi0, Input, spi0_sclk_in- (SPI Clock) 4= spi0, Output, spi0_sclk_out- (SPI Cloc + ) 5= ttc3, Input, ttc3_clk_in- (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= trace, Output, trace_ + lk- (Trace Port Clock) + PSU_IOU_SLCR_MIO_PIN_0_L3_SEL 0 + + Configures MIO Pin 0 peripheral interface mapping. S + (OFFSET, MASK, VALUE) (0XFF180000, 0x000000FEU ,0x00000002U) + RegMask = (IOU_SLCR_MIO_PIN_0_L0_SEL_MASK | IOU_SLCR_MIO_PIN_0_L1_SEL_MASK | IOU_SLCR_MIO_PIN_0_L2_SEL_MASK | IOU_SLCR_MIO_PIN_0_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_0_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_0_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_0_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_0_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_0_OFFSET ,0x000000FEU ,0x00000002U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_1 @ 0XFF180004

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Input, qspi_mi_mi1- (QSPI Databus) 1= qspi, Output, qspi_so_mo1- (QSPI Data + us) + PSU_IOU_SLCR_MIO_PIN_1_L0_SEL 1 + + Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used + PSU_IOU_SLCR_MIO_PIN_1_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input, test_scan_in[1]- (Test Scan Port) = test_scan, Outp + t, test_scan_out[1]- (Test Scan Port) 3= Not Used + PSU_IOU_SLCR_MIO_PIN_1_L2_SEL 0 + + Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[1]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[1]- (GPIO bank 0) 1= can + , Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA signal + 3= pjtag, Input, pjtag_tdi- (PJTAG TDI) 4= spi0, Output, spi0_n_ss_out[2]- (SPI Master Selects) 5= ttc3, Output, ttc3_wave_o + t- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial input) 7= trace, Output, trace_ctl- (Trace Port Control + Signal) + PSU_IOU_SLCR_MIO_PIN_1_L3_SEL 0 + + Configures MIO Pin 1 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF180004, 0x000000FEU ,0x00000002U) + RegMask = (IOU_SLCR_MIO_PIN_1_L0_SEL_MASK | IOU_SLCR_MIO_PIN_1_L1_SEL_MASK | IOU_SLCR_MIO_PIN_1_L2_SEL_MASK | IOU_SLCR_MIO_PIN_1_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_1_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_1_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_1_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_1_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_1_OFFSET ,0x000000FEU ,0x00000002U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_2 @ 0XFF180008

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Input, qspi_mi2- (QSPI Databus) 1= qspi, Output, qspi_mo2- (QSPI Databus) + PSU_IOU_SLCR_MIO_PIN_2_L0_SEL 1 + + Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used + PSU_IOU_SLCR_MIO_PIN_2_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input, test_scan_in[2]- (Test Scan Port) = test_scan, Outp + t, test_scan_out[2]- (Test Scan Port) 3= Not Used + PSU_IOU_SLCR_MIO_PIN_2_L2_SEL 0 + + Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[2]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[2]- (GPIO bank 0) 1= can + , Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL signal + 3= pjtag, Output, pjtag_tdo- (PJTAG TDO) 4= spi0, Output, spi0_n_ss_out[1]- (SPI Master Selects) 5= ttc2, Input, ttc2_clk_in + (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= trace, Output, tracedq[0]- (Trace Port Databus) + PSU_IOU_SLCR_MIO_PIN_2_L3_SEL 0 + + Configures MIO Pin 2 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF180008, 0x000000FEU ,0x00000002U) + RegMask = (IOU_SLCR_MIO_PIN_2_L0_SEL_MASK | IOU_SLCR_MIO_PIN_2_L1_SEL_MASK | IOU_SLCR_MIO_PIN_2_L2_SEL_MASK | IOU_SLCR_MIO_PIN_2_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_2_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_2_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_2_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_2_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_2_OFFSET ,0x000000FEU ,0x00000002U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_3 @ 0XFF18000C

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Input, qspi_mi3- (QSPI Databus) 1= qspi, Output, qspi_mo3- (QSPI Databus) + PSU_IOU_SLCR_MIO_PIN_3_L0_SEL 1 + + Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used + PSU_IOU_SLCR_MIO_PIN_3_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input, test_scan_in[3]- (Test Scan Port) = test_scan, Outp + t, test_scan_out[3]- (Test Scan Port) 3= Not Used + PSU_IOU_SLCR_MIO_PIN_3_L2_SEL 0 + + Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[3]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[3]- (GPIO bank 0) 1= can + , Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA signa + ) 3= pjtag, Input, pjtag_tms- (PJTAG TMS) 4= spi0, Input, spi0_n_ss_in- (SPI Master Selects) 4= spi0, Output, spi0_n_ss_out[0 + - (SPI Master Selects) 5= ttc2, Output, ttc2_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter serial + output) 7= trace, Output, tracedq[1]- (Trace Port Databus) + PSU_IOU_SLCR_MIO_PIN_3_L3_SEL 0 + + Configures MIO Pin 3 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF18000C, 0x000000FEU ,0x00000002U) + RegMask = (IOU_SLCR_MIO_PIN_3_L0_SEL_MASK | IOU_SLCR_MIO_PIN_3_L1_SEL_MASK | IOU_SLCR_MIO_PIN_3_L2_SEL_MASK | IOU_SLCR_MIO_PIN_3_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_3_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_3_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_3_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_3_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_3_OFFSET ,0x000000FEU ,0x00000002U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_4 @ 0XFF180010

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Output, qspi_mo_mo0- (QSPI Databus) 1= qspi, Input, qspi_si_mi0- (QSPI Data + us) + PSU_IOU_SLCR_MIO_PIN_4_L0_SEL 1 + + Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used + PSU_IOU_SLCR_MIO_PIN_4_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input, test_scan_in[4]- (Test Scan Port) = test_scan, Outp + t, test_scan_out[4]- (Test Scan Port) 3= Not Used + PSU_IOU_SLCR_MIO_PIN_4_L2_SEL 0 + + Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[4]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[4]- (GPIO bank 0) 1= can + , Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL signa + ) 3= swdt1, Input, swdt1_clk_in- (Watch Dog Timer Input clock) 4= spi0, Input, spi0_mi- (MISO signal) 4= spi0, Output, spi0_s + - (MISO signal) 5= ttc1, Input, ttc1_clk_in- (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= trace, + utput, tracedq[2]- (Trace Port Databus) + PSU_IOU_SLCR_MIO_PIN_4_L3_SEL 0 + + Configures MIO Pin 4 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF180010, 0x000000FEU ,0x00000002U) + RegMask = (IOU_SLCR_MIO_PIN_4_L0_SEL_MASK | IOU_SLCR_MIO_PIN_4_L1_SEL_MASK | IOU_SLCR_MIO_PIN_4_L2_SEL_MASK | IOU_SLCR_MIO_PIN_4_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_4_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_4_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_4_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_4_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_4_OFFSET ,0x000000FEU ,0x00000002U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_5 @ 0XFF180014

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Output, qspi_n_ss_out- (QSPI Slave Select) + PSU_IOU_SLCR_MIO_PIN_5_L0_SEL 1 + + Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used + PSU_IOU_SLCR_MIO_PIN_5_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input, test_scan_in[5]- (Test Scan Port) = test_scan, Outp + t, test_scan_out[5]- (Test Scan Port) 3= Not Used + PSU_IOU_SLCR_MIO_PIN_5_L2_SEL 0 + + Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[5]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[5]- (GPIO bank 0) 1= can + , Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA signal + 3= swdt1, Output, swdt1_rst_out- (Watch Dog Timer Output clock) 4= spi0, Output, spi0_mo- (MOSI signal) 4= spi0, Input, spi0 + si- (MOSI signal) 5= ttc1, Output, ttc1_wave_out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial input) 7 + trace, Output, tracedq[3]- (Trace Port Databus) + PSU_IOU_SLCR_MIO_PIN_5_L3_SEL 0 + + Configures MIO Pin 5 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF180014, 0x000000FEU ,0x00000002U) + RegMask = (IOU_SLCR_MIO_PIN_5_L0_SEL_MASK | IOU_SLCR_MIO_PIN_5_L1_SEL_MASK | IOU_SLCR_MIO_PIN_5_L2_SEL_MASK | IOU_SLCR_MIO_PIN_5_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_5_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_5_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_5_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_5_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_5_OFFSET ,0x000000FEU ,0x00000002U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_6 @ 0XFF180018

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Output, qspi_clk_for_lpbk- (QSPI Clock to be fed-back) + PSU_IOU_SLCR_MIO_PIN_6_L0_SEL 1 + + Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used + PSU_IOU_SLCR_MIO_PIN_6_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input, test_scan_in[6]- (Test Scan Port) = test_scan, Outp + t, test_scan_out[6]- (Test Scan Port) 3= Not Used + PSU_IOU_SLCR_MIO_PIN_6_L2_SEL 0 + + Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[6]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[6]- (GPIO bank 0) 1= can + , Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL signal + 3= swdt0, Input, swdt0_clk_in- (Watch Dog Timer Input clock) 4= spi1, Input, spi1_sclk_in- (SPI Clock) 4= spi1, Output, spi1 + sclk_out- (SPI Clock) 5= ttc0, Input, ttc0_clk_in- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= trace, + Output, tracedq[4]- (Trace Port Databus) + PSU_IOU_SLCR_MIO_PIN_6_L3_SEL 0 + + Configures MIO Pin 6 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF180018, 0x000000FEU ,0x00000002U) + RegMask = (IOU_SLCR_MIO_PIN_6_L0_SEL_MASK | IOU_SLCR_MIO_PIN_6_L1_SEL_MASK | IOU_SLCR_MIO_PIN_6_L2_SEL_MASK | IOU_SLCR_MIO_PIN_6_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_6_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_6_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_6_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_6_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_6_OFFSET ,0x000000FEU ,0x00000002U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_7 @ 0XFF18001C

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Output, qspi_n_ss_out_upper- (QSPI Slave Select upper) + PSU_IOU_SLCR_MIO_PIN_7_L0_SEL 1 + + Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used + PSU_IOU_SLCR_MIO_PIN_7_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input, test_scan_in[7]- (Test Scan Port) = test_scan, Outp + t, test_scan_out[7]- (Test Scan Port) 3= Not Used + PSU_IOU_SLCR_MIO_PIN_7_L2_SEL 0 + + Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[7]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[7]- (GPIO bank 0) 1= can + , Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA signa + ) 3= swdt0, Output, swdt0_rst_out- (Watch Dog Timer Output clock) 4= spi1, Output, spi1_n_ss_out[2]- (SPI Master Selects) 5= + tc0, Output, ttc0_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter serial output) 7= trace, Output, + racedq[5]- (Trace Port Databus) + PSU_IOU_SLCR_MIO_PIN_7_L3_SEL 0 + + Configures MIO Pin 7 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF18001C, 0x000000FEU ,0x00000002U) + RegMask = (IOU_SLCR_MIO_PIN_7_L0_SEL_MASK | IOU_SLCR_MIO_PIN_7_L1_SEL_MASK | IOU_SLCR_MIO_PIN_7_L2_SEL_MASK | IOU_SLCR_MIO_PIN_7_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_7_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_7_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_7_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_7_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_7_OFFSET ,0x000000FEU ,0x00000002U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_8 @ 0XFF180020

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Input, qspi_mi_upper[0]- (QSPI Upper Databus) 1= qspi, Output, qspi_mo_uppe + [0]- (QSPI Upper Databus) + PSU_IOU_SLCR_MIO_PIN_8_L0_SEL 1 + + Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used + PSU_IOU_SLCR_MIO_PIN_8_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input, test_scan_in[8]- (Test Scan Port) = test_scan, Outp + t, test_scan_out[8]- (Test Scan Port) 3= Not Used + PSU_IOU_SLCR_MIO_PIN_8_L2_SEL 0 + + Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[8]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[8]- (GPIO bank 0) 1= can + , Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL signa + ) 3= swdt1, Input, swdt1_clk_in- (Watch Dog Timer Input clock) 4= spi1, Output, spi1_n_ss_out[1]- (SPI Master Selects) 5= ttc + , Input, ttc3_clk_in- (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= trace, Output, tracedq[6]- (Tr + ce Port Databus) + PSU_IOU_SLCR_MIO_PIN_8_L3_SEL 0 + + Configures MIO Pin 8 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF180020, 0x000000FEU ,0x00000002U) + RegMask = (IOU_SLCR_MIO_PIN_8_L0_SEL_MASK | IOU_SLCR_MIO_PIN_8_L1_SEL_MASK | IOU_SLCR_MIO_PIN_8_L2_SEL_MASK | IOU_SLCR_MIO_PIN_8_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_8_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_8_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_8_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_8_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_8_OFFSET ,0x000000FEU ,0x00000002U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_9 @ 0XFF180024

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Input, qspi_mi_upper[1]- (QSPI Upper Databus) 1= qspi, Output, qspi_mo_uppe + [1]- (QSPI Upper Databus) + PSU_IOU_SLCR_MIO_PIN_9_L0_SEL 1 + + Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Output, nfc_ce[1]- (NAND chip enable) + PSU_IOU_SLCR_MIO_PIN_9_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input, test_scan_in[9]- (Test Scan Port) = test_scan, Outp + t, test_scan_out[9]- (Test Scan Port) 3= Not Used + PSU_IOU_SLCR_MIO_PIN_9_L2_SEL 0 + + Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[9]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[9]- (GPIO bank 0) 1= can + , Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA signal + 3= swdt1, Output, swdt1_rst_out- (Watch Dog Timer Output clock) 4= spi1, Input, spi1_n_ss_in- (SPI Master Selects) 4= spi1, + utput, spi1_n_ss_out[0]- (SPI Master Selects) 5= ttc3, Output, ttc3_wave_out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (U + RT receiver serial input) 7= trace, Output, tracedq[7]- (Trace Port Databus) + PSU_IOU_SLCR_MIO_PIN_9_L3_SEL 0 + + Configures MIO Pin 9 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF180024, 0x000000FEU ,0x00000002U) + RegMask = (IOU_SLCR_MIO_PIN_9_L0_SEL_MASK | IOU_SLCR_MIO_PIN_9_L1_SEL_MASK | IOU_SLCR_MIO_PIN_9_L2_SEL_MASK | IOU_SLCR_MIO_PIN_9_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_9_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_9_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_9_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_9_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_9_OFFSET ,0x000000FEU ,0x00000002U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_10 @ 0XFF180028

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Input, qspi_mi_upper[2]- (QSPI Upper Databus) 1= qspi, Output, qspi_mo_uppe + [2]- (QSPI Upper Databus) + PSU_IOU_SLCR_MIO_PIN_10_L0_SEL 1 + + Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_rb_n[0]- (NAND Ready/Busy) + PSU_IOU_SLCR_MIO_PIN_10_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input, test_scan_in[10]- (Test Scan Port) = test_scan, Out + ut, test_scan_out[10]- (Test Scan Port) 3= Not Used + PSU_IOU_SLCR_MIO_PIN_10_L2_SEL 0 + + Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[10]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[10]- (GPIO bank 0) 1= c + n0, Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL sign + l) 3= swdt0, Input, swdt0_clk_in- (Watch Dog Timer Input clock) 4= spi1, Input, spi1_mi- (MISO signal) 4= spi1, Output, spi1_ + o- (MISO signal) 5= ttc2, Input, ttc2_clk_in- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= trace, Outp + t, tracedq[8]- (Trace Port Databus) + PSU_IOU_SLCR_MIO_PIN_10_L3_SEL 0 + + Configures MIO Pin 10 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF180028, 0x000000FEU ,0x00000002U) + RegMask = (IOU_SLCR_MIO_PIN_10_L0_SEL_MASK | IOU_SLCR_MIO_PIN_10_L1_SEL_MASK | IOU_SLCR_MIO_PIN_10_L2_SEL_MASK | IOU_SLCR_MIO_PIN_10_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_10_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_10_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_10_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_10_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_10_OFFSET ,0x000000FEU ,0x00000002U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_11 @ 0XFF18002C

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Input, qspi_mi_upper[3]- (QSPI Upper Databus) 1= qspi, Output, qspi_mo_uppe + [3]- (QSPI Upper Databus) + PSU_IOU_SLCR_MIO_PIN_11_L0_SEL 1 + + Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_rb_n[1]- (NAND Ready/Busy) + PSU_IOU_SLCR_MIO_PIN_11_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input, test_scan_in[11]- (Test Scan Port) = test_scan, Out + ut, test_scan_out[11]- (Test Scan Port) 3= Not Used + PSU_IOU_SLCR_MIO_PIN_11_L2_SEL 0 + + Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[11]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[11]- (GPIO bank 0) 1= c + n0, Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA sig + al) 3= swdt0, Output, swdt0_rst_out- (Watch Dog Timer Output clock) 4= spi1, Output, spi1_mo- (MOSI signal) 4= spi1, Input, s + i1_si- (MOSI signal) 5= ttc2, Output, ttc2_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter serial o + tput) 7= trace, Output, tracedq[9]- (Trace Port Databus) + PSU_IOU_SLCR_MIO_PIN_11_L3_SEL 0 + + Configures MIO Pin 11 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF18002C, 0x000000FEU ,0x00000002U) + RegMask = (IOU_SLCR_MIO_PIN_11_L0_SEL_MASK | IOU_SLCR_MIO_PIN_11_L1_SEL_MASK | IOU_SLCR_MIO_PIN_11_L2_SEL_MASK | IOU_SLCR_MIO_PIN_11_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_11_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_11_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_11_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_11_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_11_OFFSET ,0x000000FEU ,0x00000002U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_12 @ 0XFF180030

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Output, qspi_sclk_out_upper- (QSPI Upper Clock) + PSU_IOU_SLCR_MIO_PIN_12_L0_SEL 1 + + Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_dqs_in- (NAND Strobe) 1= nand, Output, nfc_dqs_out- (NAND Strobe + + PSU_IOU_SLCR_MIO_PIN_12_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input, test_scan_in[12]- (Test Scan Port) = test_scan, Out + ut, test_scan_out[12]- (Test Scan Port) 3= Not Used + PSU_IOU_SLCR_MIO_PIN_12_L2_SEL 0 + + Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[12]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[12]- (GPIO bank 0) 1= c + n1, Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL sig + al) 3= pjtag, Input, pjtag_tck- (PJTAG TCK) 4= spi0, Input, spi0_sclk_in- (SPI Clock) 4= spi0, Output, spi0_sclk_out- (SPI Cl + ck) 5= ttc1, Input, ttc1_clk_in- (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= trace, Output, trac + dq[10]- (Trace Port Databus) + PSU_IOU_SLCR_MIO_PIN_12_L3_SEL 0 + + Configures MIO Pin 12 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF180030, 0x000000FEU ,0x00000002U) + RegMask = (IOU_SLCR_MIO_PIN_12_L0_SEL_MASK | IOU_SLCR_MIO_PIN_12_L1_SEL_MASK | IOU_SLCR_MIO_PIN_12_L2_SEL_MASK | IOU_SLCR_MIO_PIN_12_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_12_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_12_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_12_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_12_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_12_OFFSET ,0x000000FEU ,0x00000002U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_13 @ 0XFF180034

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used + PSU_IOU_SLCR_MIO_PIN_13_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Output, nfc_ce[0]- (NAND chip enable) + PSU_IOU_SLCR_MIO_PIN_13_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[0]- (8-bit Data bus) = sd0, Output, sdio0_data_out[0]- (8 + bit Data bus) 2= test_scan, Input, test_scan_in[13]- (Test Scan Port) = test_scan, Output, test_scan_out[13]- (Test Scan Port + 3= Not Used + PSU_IOU_SLCR_MIO_PIN_13_L2_SEL 0 + + Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[13]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[13]- (GPIO bank 0) 1= c + n1, Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA sign + l) 3= pjtag, Input, pjtag_tdi- (PJTAG TDI) 4= spi0, Output, spi0_n_ss_out[2]- (SPI Master Selects) 5= ttc1, Output, ttc1_wave + out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial input) 7= trace, Output, tracedq[11]- (Trace Port Dat + bus) + PSU_IOU_SLCR_MIO_PIN_13_L3_SEL 0 + + Configures MIO Pin 13 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF180034, 0x000000FEU ,0x00000000U) + RegMask = (IOU_SLCR_MIO_PIN_13_L0_SEL_MASK | IOU_SLCR_MIO_PIN_13_L1_SEL_MASK | IOU_SLCR_MIO_PIN_13_L2_SEL_MASK | IOU_SLCR_MIO_PIN_13_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_13_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_13_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_13_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_13_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_13_OFFSET ,0x000000FEU ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_14 @ 0XFF180038

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used + PSU_IOU_SLCR_MIO_PIN_14_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Output, nfc_cle- (NAND Command Latch Enable) + PSU_IOU_SLCR_MIO_PIN_14_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[1]- (8-bit Data bus) = sd0, Output, sdio0_data_out[1]- (8 + bit Data bus) 2= test_scan, Input, test_scan_in[14]- (Test Scan Port) = test_scan, Output, test_scan_out[14]- (Test Scan Port + 3= Not Used + PSU_IOU_SLCR_MIO_PIN_14_L2_SEL 0 + + Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[14]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[14]- (GPIO bank 0) 1= c + n0, Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL sign + l) 3= pjtag, Output, pjtag_tdo- (PJTAG TDO) 4= spi0, Output, spi0_n_ss_out[1]- (SPI Master Selects) 5= ttc0, Input, ttc0_clk_ + n- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= trace, Output, tracedq[12]- (Trace Port Databus) + PSU_IOU_SLCR_MIO_PIN_14_L3_SEL 2 + + Configures MIO Pin 14 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF180038, 0x000000FEU ,0x00000040U) + RegMask = (IOU_SLCR_MIO_PIN_14_L0_SEL_MASK | IOU_SLCR_MIO_PIN_14_L1_SEL_MASK | IOU_SLCR_MIO_PIN_14_L2_SEL_MASK | IOU_SLCR_MIO_PIN_14_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_14_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_14_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_14_L2_SEL_SHIFT + | 0x00000002U << IOU_SLCR_MIO_PIN_14_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_14_OFFSET ,0x000000FEU ,0x00000040U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_15 @ 0XFF18003C

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used + PSU_IOU_SLCR_MIO_PIN_15_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Output, nfc_ale- (NAND Address Latch Enable) + PSU_IOU_SLCR_MIO_PIN_15_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[2]- (8-bit Data bus) = sd0, Output, sdio0_data_out[2]- (8 + bit Data bus) 2= test_scan, Input, test_scan_in[15]- (Test Scan Port) = test_scan, Output, test_scan_out[15]- (Test Scan Port + 3= Not Used + PSU_IOU_SLCR_MIO_PIN_15_L2_SEL 0 + + Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[15]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[15]- (GPIO bank 0) 1= c + n0, Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA sig + al) 3= pjtag, Input, pjtag_tms- (PJTAG TMS) 4= spi0, Input, spi0_n_ss_in- (SPI Master Selects) 4= spi0, Output, spi0_n_ss_out + 0]- (SPI Master Selects) 5= ttc0, Output, ttc0_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter seri + l output) 7= trace, Output, tracedq[13]- (Trace Port Databus) + PSU_IOU_SLCR_MIO_PIN_15_L3_SEL 2 + + Configures MIO Pin 15 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF18003C, 0x000000FEU ,0x00000040U) + RegMask = (IOU_SLCR_MIO_PIN_15_L0_SEL_MASK | IOU_SLCR_MIO_PIN_15_L1_SEL_MASK | IOU_SLCR_MIO_PIN_15_L2_SEL_MASK | IOU_SLCR_MIO_PIN_15_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_15_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_15_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_15_L2_SEL_SHIFT + | 0x00000002U << IOU_SLCR_MIO_PIN_15_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_15_OFFSET ,0x000000FEU ,0x00000040U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_16 @ 0XFF180040

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used + PSU_IOU_SLCR_MIO_PIN_16_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_dq_in[0]- (NAND Data Bus) 1= nand, Output, nfc_dq_out[0]- (NAND + ata Bus) + PSU_IOU_SLCR_MIO_PIN_16_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[3]- (8-bit Data bus) = sd0, Output, sdio0_data_out[3]- (8 + bit Data bus) 2= test_scan, Input, test_scan_in[16]- (Test Scan Port) = test_scan, Output, test_scan_out[16]- (Test Scan Port + 3= Not Used + PSU_IOU_SLCR_MIO_PIN_16_L2_SEL 0 + + Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[16]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[16]- (GPIO bank 0) 1= c + n1, Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL sig + al) 3= swdt1, Input, swdt1_clk_in- (Watch Dog Timer Input clock) 4= spi0, Input, spi0_mi- (MISO signal) 4= spi0, Output, spi0 + so- (MISO signal) 5= ttc3, Input, ttc3_clk_in- (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= trace + Output, tracedq[14]- (Trace Port Databus) + PSU_IOU_SLCR_MIO_PIN_16_L3_SEL 2 + + Configures MIO Pin 16 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF180040, 0x000000FEU ,0x00000040U) + RegMask = (IOU_SLCR_MIO_PIN_16_L0_SEL_MASK | IOU_SLCR_MIO_PIN_16_L1_SEL_MASK | IOU_SLCR_MIO_PIN_16_L2_SEL_MASK | IOU_SLCR_MIO_PIN_16_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_16_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_16_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_16_L2_SEL_SHIFT + | 0x00000002U << IOU_SLCR_MIO_PIN_16_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_16_OFFSET ,0x000000FEU ,0x00000040U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_17 @ 0XFF180044

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used + PSU_IOU_SLCR_MIO_PIN_17_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_dq_in[1]- (NAND Data Bus) 1= nand, Output, nfc_dq_out[1]- (NAND + ata Bus) + PSU_IOU_SLCR_MIO_PIN_17_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[4]- (8-bit Data bus) = sd0, Output, sdio0_data_out[4]- (8 + bit Data bus) 2= test_scan, Input, test_scan_in[17]- (Test Scan Port) = test_scan, Output, test_scan_out[17]- (Test Scan Port + 3= Not Used + PSU_IOU_SLCR_MIO_PIN_17_L2_SEL 0 + + Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[17]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[17]- (GPIO bank 0) 1= c + n1, Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA sign + l) 3= swdt1, Output, swdt1_rst_out- (Watch Dog Timer Output clock) 4= spi0, Output, spi0_mo- (MOSI signal) 4= spi0, Input, sp + 0_si- (MOSI signal) 5= ttc3, Output, ttc3_wave_out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial input) + 7= trace, Output, tracedq[15]- (Trace Port Databus) + PSU_IOU_SLCR_MIO_PIN_17_L3_SEL 2 + + Configures MIO Pin 17 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF180044, 0x000000FEU ,0x00000040U) + RegMask = (IOU_SLCR_MIO_PIN_17_L0_SEL_MASK | IOU_SLCR_MIO_PIN_17_L1_SEL_MASK | IOU_SLCR_MIO_PIN_17_L2_SEL_MASK | IOU_SLCR_MIO_PIN_17_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_17_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_17_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_17_L2_SEL_SHIFT + | 0x00000002U << IOU_SLCR_MIO_PIN_17_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_17_OFFSET ,0x000000FEU ,0x00000040U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_18 @ 0XFF180048

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used + PSU_IOU_SLCR_MIO_PIN_18_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_dq_in[2]- (NAND Data Bus) 1= nand, Output, nfc_dq_out[2]- (NAND + ata Bus) + PSU_IOU_SLCR_MIO_PIN_18_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[5]- (8-bit Data bus) = sd0, Output, sdio0_data_out[5]- (8 + bit Data bus) 2= test_scan, Input, test_scan_in[18]- (Test Scan Port) = test_scan, Output, test_scan_out[18]- (Test Scan Port + 3= csu, Input, csu_ext_tamper- (CSU Ext Tamper) + PSU_IOU_SLCR_MIO_PIN_18_L2_SEL 0 + + Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[18]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[18]- (GPIO bank 0) 1= c + n0, Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL sign + l) 3= swdt0, Input, swdt0_clk_in- (Watch Dog Timer Input clock) 4= spi1, Input, spi1_mi- (MISO signal) 4= spi1, Output, spi1_ + o- (MISO signal) 5= ttc2, Input, ttc2_clk_in- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= Not Used + PSU_IOU_SLCR_MIO_PIN_18_L3_SEL 6 + + Configures MIO Pin 18 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF180048, 0x000000FEU ,0x000000C0U) + RegMask = (IOU_SLCR_MIO_PIN_18_L0_SEL_MASK | IOU_SLCR_MIO_PIN_18_L1_SEL_MASK | IOU_SLCR_MIO_PIN_18_L2_SEL_MASK | IOU_SLCR_MIO_PIN_18_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_18_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_18_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_18_L2_SEL_SHIFT + | 0x00000006U << IOU_SLCR_MIO_PIN_18_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_18_OFFSET ,0x000000FEU ,0x000000C0U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_19 @ 0XFF18004C

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used + PSU_IOU_SLCR_MIO_PIN_19_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_dq_in[3]- (NAND Data Bus) 1= nand, Output, nfc_dq_out[3]- (NAND + ata Bus) + PSU_IOU_SLCR_MIO_PIN_19_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[6]- (8-bit Data bus) = sd0, Output, sdio0_data_out[6]- (8 + bit Data bus) 2= test_scan, Input, test_scan_in[19]- (Test Scan Port) = test_scan, Output, test_scan_out[19]- (Test Scan Port + 3= csu, Input, csu_ext_tamper- (CSU Ext Tamper) + PSU_IOU_SLCR_MIO_PIN_19_L2_SEL 0 + + Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[19]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[19]- (GPIO bank 0) 1= c + n0, Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA sig + al) 3= swdt0, Output, swdt0_rst_out- (Watch Dog Timer Output clock) 4= spi1, Output, spi1_n_ss_out[2]- (SPI Master Selects) 5 + ttc2, Output, ttc2_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter serial output) 7= Not Used + PSU_IOU_SLCR_MIO_PIN_19_L3_SEL 6 + + Configures MIO Pin 19 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF18004C, 0x000000FEU ,0x000000C0U) + RegMask = (IOU_SLCR_MIO_PIN_19_L0_SEL_MASK | IOU_SLCR_MIO_PIN_19_L1_SEL_MASK | IOU_SLCR_MIO_PIN_19_L2_SEL_MASK | IOU_SLCR_MIO_PIN_19_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_19_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_19_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_19_L2_SEL_SHIFT + | 0x00000006U << IOU_SLCR_MIO_PIN_19_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_19_OFFSET ,0x000000FEU ,0x000000C0U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_20 @ 0XFF180050

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used + PSU_IOU_SLCR_MIO_PIN_20_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_dq_in[4]- (NAND Data Bus) 1= nand, Output, nfc_dq_out[4]- (NAND + ata Bus) + PSU_IOU_SLCR_MIO_PIN_20_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[7]- (8-bit Data bus) = sd0, Output, sdio0_data_out[7]- (8 + bit Data bus) 2= test_scan, Input, test_scan_in[20]- (Test Scan Port) = test_scan, Output, test_scan_out[20]- (Test Scan Port + 3= csu, Input, csu_ext_tamper- (CSU Ext Tamper) + PSU_IOU_SLCR_MIO_PIN_20_L2_SEL 0 + + Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[20]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[20]- (GPIO bank 0) 1= c + n1, Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL sig + al) 3= swdt1, Input, swdt1_clk_in- (Watch Dog Timer Input clock) 4= spi1, Output, spi1_n_ss_out[1]- (SPI Master Selects) 5= t + c1, Input, ttc1_clk_in- (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= Not Used + PSU_IOU_SLCR_MIO_PIN_20_L3_SEL 6 + + Configures MIO Pin 20 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF180050, 0x000000FEU ,0x000000C0U) + RegMask = (IOU_SLCR_MIO_PIN_20_L0_SEL_MASK | IOU_SLCR_MIO_PIN_20_L1_SEL_MASK | IOU_SLCR_MIO_PIN_20_L2_SEL_MASK | IOU_SLCR_MIO_PIN_20_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_20_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_20_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_20_L2_SEL_SHIFT + | 0x00000006U << IOU_SLCR_MIO_PIN_20_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_20_OFFSET ,0x000000FEU ,0x000000C0U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_21 @ 0XFF180054

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used + PSU_IOU_SLCR_MIO_PIN_21_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_dq_in[5]- (NAND Data Bus) 1= nand, Output, nfc_dq_out[5]- (NAND + ata Bus) + PSU_IOU_SLCR_MIO_PIN_21_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_cmd_in- (Command Indicator) = sd0, Output, sdio0_cmd_out- (Comman + Indicator) 2= test_scan, Input, test_scan_in[21]- (Test Scan Port) = test_scan, Output, test_scan_out[21]- (Test Scan Port) + = csu, Input, csu_ext_tamper- (CSU Ext Tamper) + PSU_IOU_SLCR_MIO_PIN_21_L2_SEL 0 + + Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[21]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[21]- (GPIO bank 0) 1= c + n1, Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA sign + l) 3= swdt1, Output, swdt1_rst_out- (Watch Dog Timer Output clock) 4= spi1, Input, spi1_n_ss_in- (SPI Master Selects) 4= spi1 + Output, spi1_n_ss_out[0]- (SPI Master Selects) 5= ttc1, Output, ttc1_wave_out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- + UART receiver serial input) 7= Not Used + PSU_IOU_SLCR_MIO_PIN_21_L3_SEL 6 + + Configures MIO Pin 21 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF180054, 0x000000FEU ,0x000000C0U) + RegMask = (IOU_SLCR_MIO_PIN_21_L0_SEL_MASK | IOU_SLCR_MIO_PIN_21_L1_SEL_MASK | IOU_SLCR_MIO_PIN_21_L2_SEL_MASK | IOU_SLCR_MIO_PIN_21_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_21_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_21_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_21_L2_SEL_SHIFT + | 0x00000006U << IOU_SLCR_MIO_PIN_21_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_21_OFFSET ,0x000000FEU ,0x000000C0U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_22 @ 0XFF180058

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used + PSU_IOU_SLCR_MIO_PIN_22_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Output, nfc_we_b- (NAND Write Enable) + PSU_IOU_SLCR_MIO_PIN_22_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Output, sdio0_clk_out- (SDSDIO clock) 2= test_scan, Input, test_scan_in[22]- + (Test Scan Port) = test_scan, Output, test_scan_out[22]- (Test Scan Port) 3= csu, Input, csu_ext_tamper- (CSU Ext Tamper) + PSU_IOU_SLCR_MIO_PIN_22_L2_SEL 0 + + Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[22]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[22]- (GPIO bank 0) 1= c + n0, Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL sign + l) 3= swdt0, Input, swdt0_clk_in- (Watch Dog Timer Input clock) 4= spi1, Input, spi1_sclk_in- (SPI Clock) 4= spi1, Output, sp + 1_sclk_out- (SPI Clock) 5= ttc0, Input, ttc0_clk_in- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= Not + sed + PSU_IOU_SLCR_MIO_PIN_22_L3_SEL 0 + + Configures MIO Pin 22 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF180058, 0x000000FEU ,0x00000000U) + RegMask = (IOU_SLCR_MIO_PIN_22_L0_SEL_MASK | IOU_SLCR_MIO_PIN_22_L1_SEL_MASK | IOU_SLCR_MIO_PIN_22_L2_SEL_MASK | IOU_SLCR_MIO_PIN_22_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_22_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_22_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_22_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_22_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_22_OFFSET ,0x000000FEU ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_23 @ 0XFF18005C

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used + PSU_IOU_SLCR_MIO_PIN_23_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_dq_in[6]- (NAND Data Bus) 1= nand, Output, nfc_dq_out[6]- (NAND + ata Bus) + PSU_IOU_SLCR_MIO_PIN_23_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Output, sdio0_bus_pow- (SD card bus power) 2= test_scan, Input, test_scan_in + 23]- (Test Scan Port) = test_scan, Output, test_scan_out[23]- (Test Scan Port) 3= csu, Input, csu_ext_tamper- (CSU Ext Tamper + + PSU_IOU_SLCR_MIO_PIN_23_L2_SEL 0 + + Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[23]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[23]- (GPIO bank 0) 1= c + n0, Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA sig + al) 3= swdt0, Output, swdt0_rst_out- (Watch Dog Timer Output clock) 4= spi1, Output, spi1_mo- (MOSI signal) 4= spi1, Input, s + i1_si- (MOSI signal) 5= ttc0, Output, ttc0_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter serial o + tput) 7= Not Used + PSU_IOU_SLCR_MIO_PIN_23_L3_SEL 0 + + Configures MIO Pin 23 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF18005C, 0x000000FEU ,0x00000000U) + RegMask = (IOU_SLCR_MIO_PIN_23_L0_SEL_MASK | IOU_SLCR_MIO_PIN_23_L1_SEL_MASK | IOU_SLCR_MIO_PIN_23_L2_SEL_MASK | IOU_SLCR_MIO_PIN_23_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_23_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_23_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_23_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_23_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_23_OFFSET ,0x000000FEU ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_24 @ 0XFF180060

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used + PSU_IOU_SLCR_MIO_PIN_24_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_dq_in[7]- (NAND Data Bus) 1= nand, Output, nfc_dq_out[7]- (NAND + ata Bus) + PSU_IOU_SLCR_MIO_PIN_24_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sdio0_cd_n- (SD card detect from connector) 2= test_scan, Input, test + scan_in[24]- (Test Scan Port) = test_scan, Output, test_scan_out[24]- (Test Scan Port) 3= csu, Input, csu_ext_tamper- (CSU Ex + Tamper) + PSU_IOU_SLCR_MIO_PIN_24_L2_SEL 0 + + Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[24]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[24]- (GPIO bank 0) 1= c + n1, Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL sig + al) 3= swdt1, Input, swdt1_clk_in- (Watch Dog Timer Input clock) 4= Not Used 5= ttc3, Input, ttc3_clk_in- (TTC Clock) 6= ua1, + Output, ua1_txd- (UART transmitter serial output) 7= Not Used + PSU_IOU_SLCR_MIO_PIN_24_L3_SEL 1 + + Configures MIO Pin 24 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF180060, 0x000000FEU ,0x00000020U) + RegMask = (IOU_SLCR_MIO_PIN_24_L0_SEL_MASK | IOU_SLCR_MIO_PIN_24_L1_SEL_MASK | IOU_SLCR_MIO_PIN_24_L2_SEL_MASK | IOU_SLCR_MIO_PIN_24_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_24_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_24_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_24_L2_SEL_SHIFT + | 0x00000001U << IOU_SLCR_MIO_PIN_24_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_24_OFFSET ,0x000000FEU ,0x00000020U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_25 @ 0XFF180064

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used + PSU_IOU_SLCR_MIO_PIN_25_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Output, nfc_re_n- (NAND Read Enable) + PSU_IOU_SLCR_MIO_PIN_25_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sdio0_wp- (SD card write protect from connector) 2= test_scan, Input, + test_scan_in[25]- (Test Scan Port) = test_scan, Output, test_scan_out[25]- (Test Scan Port) 3= csu, Input, csu_ext_tamper- (C + U Ext Tamper) + PSU_IOU_SLCR_MIO_PIN_25_L2_SEL 0 + + Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[25]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[25]- (GPIO bank 0) 1= c + n1, Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA sign + l) 3= swdt1, Output, swdt1_rst_out- (Watch Dog Timer Output clock) 4= Not Used 5= ttc3, Output, ttc3_wave_out- (TTC Waveform + lock) 6= ua1, Input, ua1_rxd- (UART receiver serial input) 7= Not Used + PSU_IOU_SLCR_MIO_PIN_25_L3_SEL 1 + + Configures MIO Pin 25 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF180064, 0x000000FEU ,0x00000020U) + RegMask = (IOU_SLCR_MIO_PIN_25_L0_SEL_MASK | IOU_SLCR_MIO_PIN_25_L1_SEL_MASK | IOU_SLCR_MIO_PIN_25_L2_SEL_MASK | IOU_SLCR_MIO_PIN_25_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_25_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_25_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_25_L2_SEL_SHIFT + | 0x00000001U << IOU_SLCR_MIO_PIN_25_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_25_OFFSET ,0x000000FEU ,0x00000020U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_26 @ 0XFF180068

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem0, Output, gem0_rgmii_tx_clk- (TX RGMII clock) + PSU_IOU_SLCR_MIO_PIN_26_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Output, nfc_ce[1]- (NAND chip enable) + PSU_IOU_SLCR_MIO_PIN_26_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= pmu, Input, pmu_gpi[0]- (PMU GPI) 2= test_scan, Input, test_scan_in[26]- (Test Sc + n Port) = test_scan, Output, test_scan_out[26]- (Test Scan Port) 3= csu, Input, csu_ext_tamper- (CSU Ext Tamper) + PSU_IOU_SLCR_MIO_PIN_26_L2_SEL 0 + + Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[0]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[0]- (GPIO bank 1) 1= can + , Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL signal + 3= pjtag, Input, pjtag_tck- (PJTAG TCK) 4= spi0, Input, spi0_sclk_in- (SPI Clock) 4= spi0, Output, spi0_sclk_out- (SPI Clock + 5= ttc2, Input, ttc2_clk_in- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= trace, Output, tracedq[4]- + Trace Port Databus) + PSU_IOU_SLCR_MIO_PIN_26_L3_SEL 0 + + Configures MIO Pin 26 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF180068, 0x000000FEU ,0x00000000U) + RegMask = (IOU_SLCR_MIO_PIN_26_L0_SEL_MASK | IOU_SLCR_MIO_PIN_26_L1_SEL_MASK | IOU_SLCR_MIO_PIN_26_L2_SEL_MASK | IOU_SLCR_MIO_PIN_26_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_26_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_26_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_26_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_26_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_26_OFFSET ,0x000000FEU ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_27 @ 0XFF18006C

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem0, Output, gem0_rgmii_txd[0]- (TX RGMII data) + PSU_IOU_SLCR_MIO_PIN_27_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_rb_n[0]- (NAND Ready/Busy) + PSU_IOU_SLCR_MIO_PIN_27_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= pmu, Input, pmu_gpi[1]- (PMU GPI) 2= test_scan, Input, test_scan_in[27]- (Test Sc + n Port) = test_scan, Output, test_scan_out[27]- (Test Scan Port) 3= dpaux, Input, dp_aux_data_in- (Dp Aux Data) = dpaux, Outp + t, dp_aux_data_out- (Dp Aux Data) + PSU_IOU_SLCR_MIO_PIN_27_L2_SEL 3 + + Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[1]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[1]- (GPIO bank 1) 1= can + , Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA signa + ) 3= pjtag, Input, pjtag_tdi- (PJTAG TDI) 4= spi0, Output, spi0_n_ss_out[2]- (SPI Master Selects) 5= ttc2, Output, ttc2_wave_ + ut- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter serial output) 7= trace, Output, tracedq[5]- (Trace Port + atabus) + PSU_IOU_SLCR_MIO_PIN_27_L3_SEL 0 + + Configures MIO Pin 27 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF18006C, 0x000000FEU ,0x00000018U) + RegMask = (IOU_SLCR_MIO_PIN_27_L0_SEL_MASK | IOU_SLCR_MIO_PIN_27_L1_SEL_MASK | IOU_SLCR_MIO_PIN_27_L2_SEL_MASK | IOU_SLCR_MIO_PIN_27_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_27_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_27_L1_SEL_SHIFT + | 0x00000003U << IOU_SLCR_MIO_PIN_27_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_27_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_27_OFFSET ,0x000000FEU ,0x00000018U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_28 @ 0XFF180070

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem0, Output, gem0_rgmii_txd[1]- (TX RGMII data) + PSU_IOU_SLCR_MIO_PIN_28_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_rb_n[1]- (NAND Ready/Busy) + PSU_IOU_SLCR_MIO_PIN_28_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= pmu, Input, pmu_gpi[2]- (PMU GPI) 2= test_scan, Input, test_scan_in[28]- (Test Sc + n Port) = test_scan, Output, test_scan_out[28]- (Test Scan Port) 3= dpaux, Input, dp_hot_plug_detect- (Dp Aux Hot Plug) + PSU_IOU_SLCR_MIO_PIN_28_L2_SEL 3 + + Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[2]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[2]- (GPIO bank 1) 1= can + , Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL signa + ) 3= pjtag, Output, pjtag_tdo- (PJTAG TDO) 4= spi0, Output, spi0_n_ss_out[1]- (SPI Master Selects) 5= ttc1, Input, ttc1_clk_i + - (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= trace, Output, tracedq[6]- (Trace Port Databus) + PSU_IOU_SLCR_MIO_PIN_28_L3_SEL 0 + + Configures MIO Pin 28 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF180070, 0x000000FEU ,0x00000018U) + RegMask = (IOU_SLCR_MIO_PIN_28_L0_SEL_MASK | IOU_SLCR_MIO_PIN_28_L1_SEL_MASK | IOU_SLCR_MIO_PIN_28_L2_SEL_MASK | IOU_SLCR_MIO_PIN_28_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_28_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_28_L1_SEL_SHIFT + | 0x00000003U << IOU_SLCR_MIO_PIN_28_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_28_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_28_OFFSET ,0x000000FEU ,0x00000018U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_29 @ 0XFF180074

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem0, Output, gem0_rgmii_txd[2]- (TX RGMII data) + PSU_IOU_SLCR_MIO_PIN_29_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= pcie, Input, pcie_reset_n- (PCIE Reset signal) + PSU_IOU_SLCR_MIO_PIN_29_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= pmu, Input, pmu_gpi[3]- (PMU GPI) 2= test_scan, Input, test_scan_in[29]- (Test Sc + n Port) = test_scan, Output, test_scan_out[29]- (Test Scan Port) 3= dpaux, Input, dp_aux_data_in- (Dp Aux Data) = dpaux, Outp + t, dp_aux_data_out- (Dp Aux Data) + PSU_IOU_SLCR_MIO_PIN_29_L2_SEL 3 + + Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[3]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[3]- (GPIO bank 1) 1= can + , Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA signal + 3= pjtag, Input, pjtag_tms- (PJTAG TMS) 4= spi0, Input, spi0_n_ss_in- (SPI Master Selects) 4= spi0, Output, spi0_n_ss_out[0] + (SPI Master Selects) 5= ttc1, Output, ttc1_wave_out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial inpu + ) 7= trace, Output, tracedq[7]- (Trace Port Databus) + PSU_IOU_SLCR_MIO_PIN_29_L3_SEL 0 + + Configures MIO Pin 29 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF180074, 0x000000FEU ,0x00000018U) + RegMask = (IOU_SLCR_MIO_PIN_29_L0_SEL_MASK | IOU_SLCR_MIO_PIN_29_L1_SEL_MASK | IOU_SLCR_MIO_PIN_29_L2_SEL_MASK | IOU_SLCR_MIO_PIN_29_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_29_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_29_L1_SEL_SHIFT + | 0x00000003U << IOU_SLCR_MIO_PIN_29_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_29_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_29_OFFSET ,0x000000FEU ,0x00000018U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_30 @ 0XFF180078

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem0, Output, gem0_rgmii_txd[3]- (TX RGMII data) + PSU_IOU_SLCR_MIO_PIN_30_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= pcie, Input, pcie_reset_n- (PCIE Reset signal) + PSU_IOU_SLCR_MIO_PIN_30_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= pmu, Input, pmu_gpi[4]- (PMU GPI) 2= test_scan, Input, test_scan_in[30]- (Test Sc + n Port) = test_scan, Output, test_scan_out[30]- (Test Scan Port) 3= dpaux, Input, dp_hot_plug_detect- (Dp Aux Hot Plug) + PSU_IOU_SLCR_MIO_PIN_30_L2_SEL 3 + + Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[4]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[4]- (GPIO bank 1) 1= can + , Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL signal + 3= swdt0, Input, swdt0_clk_in- (Watch Dog Timer Input clock) 4= spi0, Input, spi0_mi- (MISO signal) 4= spi0, Output, spi0_so + (MISO signal) 5= ttc0, Input, ttc0_clk_in- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= trace, Output + tracedq[8]- (Trace Port Databus) + PSU_IOU_SLCR_MIO_PIN_30_L3_SEL 0 + + Configures MIO Pin 30 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF180078, 0x000000FEU ,0x00000018U) + RegMask = (IOU_SLCR_MIO_PIN_30_L0_SEL_MASK | IOU_SLCR_MIO_PIN_30_L1_SEL_MASK | IOU_SLCR_MIO_PIN_30_L2_SEL_MASK | IOU_SLCR_MIO_PIN_30_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_30_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_30_L1_SEL_SHIFT + | 0x00000003U << IOU_SLCR_MIO_PIN_30_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_30_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_30_OFFSET ,0x000000FEU ,0x00000018U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_31 @ 0XFF18007C

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem0, Output, gem0_rgmii_tx_ctl- (TX RGMII control) + PSU_IOU_SLCR_MIO_PIN_31_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= pcie, Input, pcie_reset_n- (PCIE Reset signal) + PSU_IOU_SLCR_MIO_PIN_31_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= pmu, Input, pmu_gpi[5]- (PMU GPI) 2= test_scan, Input, test_scan_in[31]- (Test Sc + n Port) = test_scan, Output, test_scan_out[31]- (Test Scan Port) 3= csu, Input, csu_ext_tamper- (CSU Ext Tamper) + PSU_IOU_SLCR_MIO_PIN_31_L2_SEL 0 + + Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[5]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[5]- (GPIO bank 1) 1= can + , Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA signa + ) 3= swdt0, Output, swdt0_rst_out- (Watch Dog Timer Output clock) 4= spi0, Output, spi0_mo- (MOSI signal) 4= spi0, Input, spi + _si- (MOSI signal) 5= ttc0, Output, ttc0_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter serial out + ut) 7= trace, Output, tracedq[9]- (Trace Port Databus) + PSU_IOU_SLCR_MIO_PIN_31_L3_SEL 0 + + Configures MIO Pin 31 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF18007C, 0x000000FEU ,0x00000000U) + RegMask = (IOU_SLCR_MIO_PIN_31_L0_SEL_MASK | IOU_SLCR_MIO_PIN_31_L1_SEL_MASK | IOU_SLCR_MIO_PIN_31_L2_SEL_MASK | IOU_SLCR_MIO_PIN_31_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_31_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_31_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_31_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_31_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_31_OFFSET ,0x000000FEU ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_32 @ 0XFF180080

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem0, Input, gem0_rgmii_rx_clk- (RX RGMII clock) + PSU_IOU_SLCR_MIO_PIN_32_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_dqs_in- (NAND Strobe) 1= nand, Output, nfc_dqs_out- (NAND Strobe + + PSU_IOU_SLCR_MIO_PIN_32_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= pmu, Output, pmu_gpo[0]- (PMU GPI) 2= test_scan, Input, test_scan_in[32]- (Test S + an Port) = test_scan, Output, test_scan_out[32]- (Test Scan Port) 3= csu, Input, csu_ext_tamper- (CSU Ext Tamper) + PSU_IOU_SLCR_MIO_PIN_32_L2_SEL 1 + + Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[6]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[6]- (GPIO bank 1) 1= can + , Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL signa + ) 3= swdt1, Input, swdt1_clk_in- (Watch Dog Timer Input clock) 4= spi1, Input, spi1_sclk_in- (SPI Clock) 4= spi1, Output, spi + _sclk_out- (SPI Clock) 5= ttc3, Input, ttc3_clk_in- (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= + race, Output, tracedq[10]- (Trace Port Databus) + PSU_IOU_SLCR_MIO_PIN_32_L3_SEL 0 + + Configures MIO Pin 32 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF180080, 0x000000FEU ,0x00000008U) + RegMask = (IOU_SLCR_MIO_PIN_32_L0_SEL_MASK | IOU_SLCR_MIO_PIN_32_L1_SEL_MASK | IOU_SLCR_MIO_PIN_32_L2_SEL_MASK | IOU_SLCR_MIO_PIN_32_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_32_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_32_L1_SEL_SHIFT + | 0x00000001U << IOU_SLCR_MIO_PIN_32_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_32_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_32_OFFSET ,0x000000FEU ,0x00000008U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_33 @ 0XFF180084

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem0, Input, gem0_rgmii_rxd[0]- (RX RGMII data) + PSU_IOU_SLCR_MIO_PIN_33_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= pcie, Input, pcie_reset_n- (PCIE Reset signal) + PSU_IOU_SLCR_MIO_PIN_33_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= pmu, Output, pmu_gpo[1]- (PMU GPI) 2= test_scan, Input, test_scan_in[33]- (Test S + an Port) = test_scan, Output, test_scan_out[33]- (Test Scan Port) 3= csu, Input, csu_ext_tamper- (CSU Ext Tamper) + PSU_IOU_SLCR_MIO_PIN_33_L2_SEL 1 + + Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[7]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[7]- (GPIO bank 1) 1= can + , Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA signal + 3= swdt1, Output, swdt1_rst_out- (Watch Dog Timer Output clock) 4= spi1, Output, spi1_n_ss_out[2]- (SPI Master Selects) 5= t + c3, Output, ttc3_wave_out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial input) 7= trace, Output, traced + [11]- (Trace Port Databus) + PSU_IOU_SLCR_MIO_PIN_33_L3_SEL 0 + + Configures MIO Pin 33 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF180084, 0x000000FEU ,0x00000008U) + RegMask = (IOU_SLCR_MIO_PIN_33_L0_SEL_MASK | IOU_SLCR_MIO_PIN_33_L1_SEL_MASK | IOU_SLCR_MIO_PIN_33_L2_SEL_MASK | IOU_SLCR_MIO_PIN_33_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_33_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_33_L1_SEL_SHIFT + | 0x00000001U << IOU_SLCR_MIO_PIN_33_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_33_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_33_OFFSET ,0x000000FEU ,0x00000008U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_34 @ 0XFF180088

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem0, Input, gem0_rgmii_rxd[1]- (RX RGMII data) + PSU_IOU_SLCR_MIO_PIN_34_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= pcie, Input, pcie_reset_n- (PCIE Reset signal) + PSU_IOU_SLCR_MIO_PIN_34_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= pmu, Output, pmu_gpo[2]- (PMU GPI) 2= test_scan, Input, test_scan_in[34]- (Test S + an Port) = test_scan, Output, test_scan_out[34]- (Test Scan Port) 3= dpaux, Input, dp_aux_data_in- (Dp Aux Data) = dpaux, Out + ut, dp_aux_data_out- (Dp Aux Data) + PSU_IOU_SLCR_MIO_PIN_34_L2_SEL 1 + + Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[8]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[8]- (GPIO bank 1) 1= can + , Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL signal + 3= swdt0, Input, swdt0_clk_in- (Watch Dog Timer Input clock) 4= spi1, Output, spi1_n_ss_out[1]- (SPI Master Selects) 5= ttc2 + Input, ttc2_clk_in- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= trace, Output, tracedq[12]- (Trace P + rt Databus) + PSU_IOU_SLCR_MIO_PIN_34_L3_SEL 0 + + Configures MIO Pin 34 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF180088, 0x000000FEU ,0x00000008U) + RegMask = (IOU_SLCR_MIO_PIN_34_L0_SEL_MASK | IOU_SLCR_MIO_PIN_34_L1_SEL_MASK | IOU_SLCR_MIO_PIN_34_L2_SEL_MASK | IOU_SLCR_MIO_PIN_34_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_34_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_34_L1_SEL_SHIFT + | 0x00000001U << IOU_SLCR_MIO_PIN_34_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_34_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_34_OFFSET ,0x000000FEU ,0x00000008U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_35 @ 0XFF18008C

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem0, Input, gem0_rgmii_rxd[2]- (RX RGMII data) + PSU_IOU_SLCR_MIO_PIN_35_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= pcie, Input, pcie_reset_n- (PCIE Reset signal) + PSU_IOU_SLCR_MIO_PIN_35_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= pmu, Output, pmu_gpo[3]- (PMU GPI) 2= test_scan, Input, test_scan_in[35]- (Test S + an Port) = test_scan, Output, test_scan_out[35]- (Test Scan Port) 3= dpaux, Input, dp_hot_plug_detect- (Dp Aux Hot Plug) + PSU_IOU_SLCR_MIO_PIN_35_L2_SEL 1 + + Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[9]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[9]- (GPIO bank 1) 1= can + , Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA signa + ) 3= swdt0, Output, swdt0_rst_out- (Watch Dog Timer Output clock) 4= spi1, Input, spi1_n_ss_in- (SPI Master Selects) 4= spi1, + Output, spi1_n_ss_out[0]- (SPI Master Selects) 5= ttc2, Output, ttc2_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- + UART transmitter serial output) 7= trace, Output, tracedq[13]- (Trace Port Databus) + PSU_IOU_SLCR_MIO_PIN_35_L3_SEL 0 + + Configures MIO Pin 35 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF18008C, 0x000000FEU ,0x00000008U) + RegMask = (IOU_SLCR_MIO_PIN_35_L0_SEL_MASK | IOU_SLCR_MIO_PIN_35_L1_SEL_MASK | IOU_SLCR_MIO_PIN_35_L2_SEL_MASK | IOU_SLCR_MIO_PIN_35_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_35_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_35_L1_SEL_SHIFT + | 0x00000001U << IOU_SLCR_MIO_PIN_35_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_35_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_35_OFFSET ,0x000000FEU ,0x00000008U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_36 @ 0XFF180090

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem0, Input, gem0_rgmii_rxd[3]- (RX RGMII data) + PSU_IOU_SLCR_MIO_PIN_36_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= pcie, Input, pcie_reset_n- (PCIE Reset signal) + PSU_IOU_SLCR_MIO_PIN_36_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= pmu, Output, pmu_gpo[4]- (PMU GPI) 2= test_scan, Input, test_scan_in[36]- (Test S + an Port) = test_scan, Output, test_scan_out[36]- (Test Scan Port) 3= dpaux, Input, dp_aux_data_in- (Dp Aux Data) = dpaux, Out + ut, dp_aux_data_out- (Dp Aux Data) + PSU_IOU_SLCR_MIO_PIN_36_L2_SEL 1 + + Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[10]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[10]- (GPIO bank 1) 1= c + n1, Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL sig + al) 3= swdt1, Input, swdt1_clk_in- (Watch Dog Timer Input clock) 4= spi1, Input, spi1_mi- (MISO signal) 4= spi1, Output, spi1 + so- (MISO signal) 5= ttc1, Input, ttc1_clk_in- (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= trace + Output, tracedq[14]- (Trace Port Databus) + PSU_IOU_SLCR_MIO_PIN_36_L3_SEL 0 + + Configures MIO Pin 36 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF180090, 0x000000FEU ,0x00000008U) + RegMask = (IOU_SLCR_MIO_PIN_36_L0_SEL_MASK | IOU_SLCR_MIO_PIN_36_L1_SEL_MASK | IOU_SLCR_MIO_PIN_36_L2_SEL_MASK | IOU_SLCR_MIO_PIN_36_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_36_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_36_L1_SEL_SHIFT + | 0x00000001U << IOU_SLCR_MIO_PIN_36_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_36_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_36_OFFSET ,0x000000FEU ,0x00000008U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_37 @ 0XFF180094

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem0, Input, gem0_rgmii_rx_ctl- (RX RGMII control ) + PSU_IOU_SLCR_MIO_PIN_37_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= pcie, Input, pcie_reset_n- (PCIE Reset signal) + PSU_IOU_SLCR_MIO_PIN_37_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= pmu, Output, pmu_gpo[5]- (PMU GPI) 2= test_scan, Input, test_scan_in[37]- (Test S + an Port) = test_scan, Output, test_scan_out[37]- (Test Scan Port) 3= dpaux, Input, dp_hot_plug_detect- (Dp Aux Hot Plug) + PSU_IOU_SLCR_MIO_PIN_37_L2_SEL 1 + + Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[11]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[11]- (GPIO bank 1) 1= c + n1, Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA sign + l) 3= swdt1, Output, swdt1_rst_out- (Watch Dog Timer Output clock) 4= spi1, Output, spi1_mo- (MOSI signal) 4= spi1, Input, sp + 1_si- (MOSI signal) 5= ttc1, Output, ttc1_wave_out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial input) + 7= trace, Output, tracedq[15]- (Trace Port Databus) + PSU_IOU_SLCR_MIO_PIN_37_L3_SEL 0 + + Configures MIO Pin 37 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF180094, 0x000000FEU ,0x00000008U) + RegMask = (IOU_SLCR_MIO_PIN_37_L0_SEL_MASK | IOU_SLCR_MIO_PIN_37_L1_SEL_MASK | IOU_SLCR_MIO_PIN_37_L2_SEL_MASK | IOU_SLCR_MIO_PIN_37_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_37_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_37_L1_SEL_SHIFT + | 0x00000001U << IOU_SLCR_MIO_PIN_37_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_37_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_37_OFFSET ,0x000000FEU ,0x00000008U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_38 @ 0XFF180098

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem1, Output, gem1_rgmii_tx_clk- (TX RGMII clock) + PSU_IOU_SLCR_MIO_PIN_38_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used + PSU_IOU_SLCR_MIO_PIN_38_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Output, sdio0_clk_out- (SDSDIO clock) 2= Not Used 3= Not Used + PSU_IOU_SLCR_MIO_PIN_38_L2_SEL 0 + + Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[12]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[12]- (GPIO bank 1) 1= c + n0, Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL sign + l) 3= pjtag, Input, pjtag_tck- (PJTAG TCK) 4= spi0, Input, spi0_sclk_in- (SPI Clock) 4= spi0, Output, spi0_sclk_out- (SPI Clo + k) 5= ttc0, Input, ttc0_clk_in- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= trace, Output, trace_clk- + (Trace Port Clock) + PSU_IOU_SLCR_MIO_PIN_38_L3_SEL 0 + + Configures MIO Pin 38 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF180098, 0x000000FEU ,0x00000000U) + RegMask = (IOU_SLCR_MIO_PIN_38_L0_SEL_MASK | IOU_SLCR_MIO_PIN_38_L1_SEL_MASK | IOU_SLCR_MIO_PIN_38_L2_SEL_MASK | IOU_SLCR_MIO_PIN_38_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_38_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_38_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_38_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_38_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_38_OFFSET ,0x000000FEU ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_39 @ 0XFF18009C

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem1, Output, gem1_rgmii_txd[0]- (TX RGMII data) + PSU_IOU_SLCR_MIO_PIN_39_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used + PSU_IOU_SLCR_MIO_PIN_39_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sdio0_cd_n- (SD card detect from connector) 2= sd1, Input, sd1_data_i + [4]- (8-bit Data bus) = sd1, Output, sdio1_data_out[4]- (8-bit Data bus) 3= Not Used + PSU_IOU_SLCR_MIO_PIN_39_L2_SEL 0 + + Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[13]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[13]- (GPIO bank 1) 1= c + n0, Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA sig + al) 3= pjtag, Input, pjtag_tdi- (PJTAG TDI) 4= spi0, Output, spi0_n_ss_out[2]- (SPI Master Selects) 5= ttc0, Output, ttc0_wav + _out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter serial output) 7= trace, Output, trace_ctl- (Trace Port + Control Signal) + PSU_IOU_SLCR_MIO_PIN_39_L3_SEL 0 + + Configures MIO Pin 39 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF18009C, 0x000000FEU ,0x00000000U) + RegMask = (IOU_SLCR_MIO_PIN_39_L0_SEL_MASK | IOU_SLCR_MIO_PIN_39_L1_SEL_MASK | IOU_SLCR_MIO_PIN_39_L2_SEL_MASK | IOU_SLCR_MIO_PIN_39_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_39_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_39_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_39_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_39_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_39_OFFSET ,0x000000FEU ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_40 @ 0XFF1800A0

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem1, Output, gem1_rgmii_txd[1]- (TX RGMII data) + PSU_IOU_SLCR_MIO_PIN_40_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used + PSU_IOU_SLCR_MIO_PIN_40_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_cmd_in- (Command Indicator) = sd0, Output, sdio0_cmd_out- (Comman + Indicator) 2= sd1, Input, sd1_data_in[5]- (8-bit Data bus) = sd1, Output, sdio1_data_out[5]- (8-bit Data bus) 3= Not Used + PSU_IOU_SLCR_MIO_PIN_40_L2_SEL 0 + + Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[14]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[14]- (GPIO bank 1) 1= c + n1, Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL sig + al) 3= pjtag, Output, pjtag_tdo- (PJTAG TDO) 4= spi0, Output, spi0_n_ss_out[1]- (SPI Master Selects) 5= ttc3, Input, ttc3_clk + in- (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= trace, Output, tracedq[0]- (Trace Port Databus) + PSU_IOU_SLCR_MIO_PIN_40_L3_SEL 0 + + Configures MIO Pin 40 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF1800A0, 0x000000FEU ,0x00000000U) + RegMask = (IOU_SLCR_MIO_PIN_40_L0_SEL_MASK | IOU_SLCR_MIO_PIN_40_L1_SEL_MASK | IOU_SLCR_MIO_PIN_40_L2_SEL_MASK | IOU_SLCR_MIO_PIN_40_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_40_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_40_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_40_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_40_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_40_OFFSET ,0x000000FEU ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_41 @ 0XFF1800A4

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem1, Output, gem1_rgmii_txd[2]- (TX RGMII data) + PSU_IOU_SLCR_MIO_PIN_41_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used + PSU_IOU_SLCR_MIO_PIN_41_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[0]- (8-bit Data bus) = sd0, Output, sdio0_data_out[0]- (8 + bit Data bus) 2= sd1, Input, sd1_data_in[6]- (8-bit Data bus) = sd1, Output, sdio1_data_out[6]- (8-bit Data bus) 3= Not Used + PSU_IOU_SLCR_MIO_PIN_41_L2_SEL 0 + + Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[15]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[15]- (GPIO bank 1) 1= c + n1, Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA sign + l) 3= pjtag, Input, pjtag_tms- (PJTAG TMS) 4= spi0, Input, spi0_n_ss_in- (SPI Master Selects) 4= spi0, Output, spi0_n_ss_out[ + ]- (SPI Master Selects) 5= ttc3, Output, ttc3_wave_out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial in + ut) 7= trace, Output, tracedq[1]- (Trace Port Databus) + PSU_IOU_SLCR_MIO_PIN_41_L3_SEL 0 + + Configures MIO Pin 41 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF1800A4, 0x000000FEU ,0x00000000U) + RegMask = (IOU_SLCR_MIO_PIN_41_L0_SEL_MASK | IOU_SLCR_MIO_PIN_41_L1_SEL_MASK | IOU_SLCR_MIO_PIN_41_L2_SEL_MASK | IOU_SLCR_MIO_PIN_41_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_41_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_41_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_41_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_41_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_41_OFFSET ,0x000000FEU ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_42 @ 0XFF1800A8

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem1, Output, gem1_rgmii_txd[3]- (TX RGMII data) + PSU_IOU_SLCR_MIO_PIN_42_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used + PSU_IOU_SLCR_MIO_PIN_42_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[1]- (8-bit Data bus) = sd0, Output, sdio0_data_out[1]- (8 + bit Data bus) 2= sd1, Input, sd1_data_in[7]- (8-bit Data bus) = sd1, Output, sdio1_data_out[7]- (8-bit Data bus) 3= Not Used + PSU_IOU_SLCR_MIO_PIN_42_L2_SEL 0 + + Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[16]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[16]- (GPIO bank 1) 1= c + n0, Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL sign + l) 3= swdt0, Input, swdt0_clk_in- (Watch Dog Timer Input clock) 4= spi0, Input, spi0_mi- (MISO signal) 4= spi0, Output, spi0_ + o- (MISO signal) 5= ttc2, Input, ttc2_clk_in- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= trace, Outp + t, tracedq[2]- (Trace Port Databus) + PSU_IOU_SLCR_MIO_PIN_42_L3_SEL 0 + + Configures MIO Pin 42 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF1800A8, 0x000000FEU ,0x00000000U) + RegMask = (IOU_SLCR_MIO_PIN_42_L0_SEL_MASK | IOU_SLCR_MIO_PIN_42_L1_SEL_MASK | IOU_SLCR_MIO_PIN_42_L2_SEL_MASK | IOU_SLCR_MIO_PIN_42_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_42_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_42_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_42_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_42_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_42_OFFSET ,0x000000FEU ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_43 @ 0XFF1800AC

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem1, Output, gem1_rgmii_tx_ctl- (TX RGMII control) + PSU_IOU_SLCR_MIO_PIN_43_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used + PSU_IOU_SLCR_MIO_PIN_43_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[2]- (8-bit Data bus) = sd0, Output, sdio0_data_out[2]- (8 + bit Data bus) 2= sd1, Output, sdio1_bus_pow- (SD card bus power) 3= Not Used + PSU_IOU_SLCR_MIO_PIN_43_L2_SEL 2 + + Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[17]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[17]- (GPIO bank 1) 1= c + n0, Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA sig + al) 3= swdt0, Output, swdt0_rst_out- (Watch Dog Timer Output clock) 4= spi0, Output, spi0_mo- (MOSI signal) 4= spi0, Input, s + i0_si- (MOSI signal) 5= ttc2, Output, ttc2_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter serial o + tput) 7= trace, Output, tracedq[3]- (Trace Port Databus) + PSU_IOU_SLCR_MIO_PIN_43_L3_SEL 0 + + Configures MIO Pin 43 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF1800AC, 0x000000FEU ,0x00000010U) + RegMask = (IOU_SLCR_MIO_PIN_43_L0_SEL_MASK | IOU_SLCR_MIO_PIN_43_L1_SEL_MASK | IOU_SLCR_MIO_PIN_43_L2_SEL_MASK | IOU_SLCR_MIO_PIN_43_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_43_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_43_L1_SEL_SHIFT + | 0x00000002U << IOU_SLCR_MIO_PIN_43_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_43_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_43_OFFSET ,0x000000FEU ,0x00000010U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_44 @ 0XFF1800B0

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem1, Input, gem1_rgmii_rx_clk- (RX RGMII clock) + PSU_IOU_SLCR_MIO_PIN_44_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used + PSU_IOU_SLCR_MIO_PIN_44_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[3]- (8-bit Data bus) = sd0, Output, sdio0_data_out[3]- (8 + bit Data bus) 2= sd1, Input, sdio1_wp- (SD card write protect from connector) 3= Not Used + PSU_IOU_SLCR_MIO_PIN_44_L2_SEL 2 + + Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[18]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[18]- (GPIO bank 1) 1= c + n1, Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL sig + al) 3= swdt1, Input, swdt1_clk_in- (Watch Dog Timer Input clock) 4= spi1, Input, spi1_sclk_in- (SPI Clock) 4= spi1, Output, s + i1_sclk_out- (SPI Clock) 5= ttc1, Input, ttc1_clk_in- (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7 + Not Used + PSU_IOU_SLCR_MIO_PIN_44_L3_SEL 0 + + Configures MIO Pin 44 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF1800B0, 0x000000FEU ,0x00000010U) + RegMask = (IOU_SLCR_MIO_PIN_44_L0_SEL_MASK | IOU_SLCR_MIO_PIN_44_L1_SEL_MASK | IOU_SLCR_MIO_PIN_44_L2_SEL_MASK | IOU_SLCR_MIO_PIN_44_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_44_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_44_L1_SEL_SHIFT + | 0x00000002U << IOU_SLCR_MIO_PIN_44_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_44_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_44_OFFSET ,0x000000FEU ,0x00000010U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_45 @ 0XFF1800B4

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem1, Input, gem1_rgmii_rxd[0]- (RX RGMII data) + PSU_IOU_SLCR_MIO_PIN_45_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used + PSU_IOU_SLCR_MIO_PIN_45_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[4]- (8-bit Data bus) = sd0, Output, sdio0_data_out[4]- (8 + bit Data bus) 2= sd1, Input, sdio1_cd_n- (SD card detect from connector) 3= Not Used + PSU_IOU_SLCR_MIO_PIN_45_L2_SEL 2 + + Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[19]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[19]- (GPIO bank 1) 1= c + n1, Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA sign + l) 3= swdt1, Output, swdt1_rst_out- (Watch Dog Timer Output clock) 4= spi1, Output, spi1_n_ss_out[2]- (SPI Master Selects) 5= + ttc1, Output, ttc1_wave_out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial input) 7= Not Used + PSU_IOU_SLCR_MIO_PIN_45_L3_SEL 0 + + Configures MIO Pin 45 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF1800B4, 0x000000FEU ,0x00000010U) + RegMask = (IOU_SLCR_MIO_PIN_45_L0_SEL_MASK | IOU_SLCR_MIO_PIN_45_L1_SEL_MASK | IOU_SLCR_MIO_PIN_45_L2_SEL_MASK | IOU_SLCR_MIO_PIN_45_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_45_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_45_L1_SEL_SHIFT + | 0x00000002U << IOU_SLCR_MIO_PIN_45_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_45_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_45_OFFSET ,0x000000FEU ,0x00000010U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_46 @ 0XFF1800B8

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem1, Input, gem1_rgmii_rxd[1]- (RX RGMII data) + PSU_IOU_SLCR_MIO_PIN_46_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used + PSU_IOU_SLCR_MIO_PIN_46_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[5]- (8-bit Data bus) = sd0, Output, sdio0_data_out[5]- (8 + bit Data bus) 2= sd1, Input, sd1_data_in[0]- (8-bit Data bus) = sd1, Output, sdio1_data_out[0]- (8-bit Data bus) 3= Not Used + PSU_IOU_SLCR_MIO_PIN_46_L2_SEL 2 + + Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[20]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[20]- (GPIO bank 1) 1= c + n0, Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL sign + l) 3= swdt0, Input, swdt0_clk_in- (Watch Dog Timer Input clock) 4= spi1, Output, spi1_n_ss_out[1]- (SPI Master Selects) 5= tt + 0, Input, ttc0_clk_in- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= Not Used + PSU_IOU_SLCR_MIO_PIN_46_L3_SEL 0 + + Configures MIO Pin 46 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF1800B8, 0x000000FEU ,0x00000010U) + RegMask = (IOU_SLCR_MIO_PIN_46_L0_SEL_MASK | IOU_SLCR_MIO_PIN_46_L1_SEL_MASK | IOU_SLCR_MIO_PIN_46_L2_SEL_MASK | IOU_SLCR_MIO_PIN_46_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_46_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_46_L1_SEL_SHIFT + | 0x00000002U << IOU_SLCR_MIO_PIN_46_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_46_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_46_OFFSET ,0x000000FEU ,0x00000010U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_47 @ 0XFF1800BC

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem1, Input, gem1_rgmii_rxd[2]- (RX RGMII data) + PSU_IOU_SLCR_MIO_PIN_47_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used + PSU_IOU_SLCR_MIO_PIN_47_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[6]- (8-bit Data bus) = sd0, Output, sdio0_data_out[6]- (8 + bit Data bus) 2= sd1, Input, sd1_data_in[1]- (8-bit Data bus) = sd1, Output, sdio1_data_out[1]- (8-bit Data bus) 3= Not Used + PSU_IOU_SLCR_MIO_PIN_47_L2_SEL 2 + + Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[21]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[21]- (GPIO bank 1) 1= c + n0, Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA sig + al) 3= swdt0, Output, swdt0_rst_out- (Watch Dog Timer Output clock) 4= spi1, Input, spi1_n_ss_in- (SPI Master Selects) 4= spi + , Output, spi1_n_ss_out[0]- (SPI Master Selects) 5= ttc0, Output, ttc0_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd + (UART transmitter serial output) 7= Not Used + PSU_IOU_SLCR_MIO_PIN_47_L3_SEL 0 + + Configures MIO Pin 47 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF1800BC, 0x000000FEU ,0x00000010U) + RegMask = (IOU_SLCR_MIO_PIN_47_L0_SEL_MASK | IOU_SLCR_MIO_PIN_47_L1_SEL_MASK | IOU_SLCR_MIO_PIN_47_L2_SEL_MASK | IOU_SLCR_MIO_PIN_47_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_47_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_47_L1_SEL_SHIFT + | 0x00000002U << IOU_SLCR_MIO_PIN_47_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_47_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_47_OFFSET ,0x000000FEU ,0x00000010U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_48 @ 0XFF1800C0

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem1, Input, gem1_rgmii_rxd[3]- (RX RGMII data) + PSU_IOU_SLCR_MIO_PIN_48_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used + PSU_IOU_SLCR_MIO_PIN_48_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[7]- (8-bit Data bus) = sd0, Output, sdio0_data_out[7]- (8 + bit Data bus) 2= sd1, Input, sd1_data_in[2]- (8-bit Data bus) = sd1, Output, sdio1_data_out[2]- (8-bit Data bus) 3= Not Used + PSU_IOU_SLCR_MIO_PIN_48_L2_SEL 2 + + Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[22]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[22]- (GPIO bank 1) 1= c + n1, Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL sig + al) 3= swdt1, Input, swdt1_clk_in- (Watch Dog Timer Input clock) 4= spi1, Input, spi1_mi- (MISO signal) 4= spi1, Output, spi1 + so- (MISO signal) 5= ttc3, Input, ttc3_clk_in- (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= Not U + ed + PSU_IOU_SLCR_MIO_PIN_48_L3_SEL 0 + + Configures MIO Pin 48 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF1800C0, 0x000000FEU ,0x00000010U) + RegMask = (IOU_SLCR_MIO_PIN_48_L0_SEL_MASK | IOU_SLCR_MIO_PIN_48_L1_SEL_MASK | IOU_SLCR_MIO_PIN_48_L2_SEL_MASK | IOU_SLCR_MIO_PIN_48_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_48_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_48_L1_SEL_SHIFT + | 0x00000002U << IOU_SLCR_MIO_PIN_48_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_48_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_48_OFFSET ,0x000000FEU ,0x00000010U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_49 @ 0XFF1800C4

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem1, Input, gem1_rgmii_rx_ctl- (RX RGMII control ) + PSU_IOU_SLCR_MIO_PIN_49_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used + PSU_IOU_SLCR_MIO_PIN_49_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Output, sdio0_bus_pow- (SD card bus power) 2= sd1, Input, sd1_data_in[3]- (8 + bit Data bus) = sd1, Output, sdio1_data_out[3]- (8-bit Data bus) 3= Not Used + PSU_IOU_SLCR_MIO_PIN_49_L2_SEL 2 + + Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[23]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[23]- (GPIO bank 1) 1= c + n1, Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA sign + l) 3= swdt1, Output, swdt1_rst_out- (Watch Dog Timer Output clock) 4= spi1, Output, spi1_mo- (MOSI signal) 4= spi1, Input, sp + 1_si- (MOSI signal) 5= ttc3, Output, ttc3_wave_out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial input) + 7= Not Used + PSU_IOU_SLCR_MIO_PIN_49_L3_SEL 0 + + Configures MIO Pin 49 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF1800C4, 0x000000FEU ,0x00000010U) + RegMask = (IOU_SLCR_MIO_PIN_49_L0_SEL_MASK | IOU_SLCR_MIO_PIN_49_L1_SEL_MASK | IOU_SLCR_MIO_PIN_49_L2_SEL_MASK | IOU_SLCR_MIO_PIN_49_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_49_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_49_L1_SEL_SHIFT + | 0x00000002U << IOU_SLCR_MIO_PIN_49_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_49_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_49_OFFSET ,0x000000FEU ,0x00000010U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_50 @ 0XFF1800C8

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem_tsu, Input, gem_tsu_clk- (TSU clock) + PSU_IOU_SLCR_MIO_PIN_50_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used + PSU_IOU_SLCR_MIO_PIN_50_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sdio0_wp- (SD card write protect from connector) 2= sd1, Input, sd1_c + d_in- (Command Indicator) = sd1, Output, sdio1_cmd_out- (Command Indicator) 3= Not Used + PSU_IOU_SLCR_MIO_PIN_50_L2_SEL 2 + + Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[24]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[24]- (GPIO bank 1) 1= c + n0, Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL sign + l) 3= swdt0, Input, swdt0_clk_in- (Watch Dog Timer Input clock) 4= mdio1, Output, gem1_mdc- (MDIO Clock) 5= ttc2, Input, ttc2 + clk_in- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= Not Used + PSU_IOU_SLCR_MIO_PIN_50_L3_SEL 0 + + Configures MIO Pin 50 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF1800C8, 0x000000FEU ,0x00000010U) + RegMask = (IOU_SLCR_MIO_PIN_50_L0_SEL_MASK | IOU_SLCR_MIO_PIN_50_L1_SEL_MASK | IOU_SLCR_MIO_PIN_50_L2_SEL_MASK | IOU_SLCR_MIO_PIN_50_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_50_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_50_L1_SEL_SHIFT + | 0x00000002U << IOU_SLCR_MIO_PIN_50_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_50_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_50_OFFSET ,0x000000FEU ,0x00000010U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_51 @ 0XFF1800CC

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem_tsu, Input, gem_tsu_clk- (TSU clock) + PSU_IOU_SLCR_MIO_PIN_51_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used + PSU_IOU_SLCR_MIO_PIN_51_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= sd1, Output, sdio1_clk_out- (SDSDIO clock) 3= Not Used + PSU_IOU_SLCR_MIO_PIN_51_L2_SEL 2 + + Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[25]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[25]- (GPIO bank 1) 1= c + n0, Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA sig + al) 3= swdt0, Output, swdt0_rst_out- (Watch Dog Timer Output clock) 4= mdio1, Input, gem1_mdio_in- (MDIO Data) 4= mdio1, Outp + t, gem1_mdio_out- (MDIO Data) 5= ttc2, Output, ttc2_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter + serial output) 7= Not Used + PSU_IOU_SLCR_MIO_PIN_51_L3_SEL 0 + + Configures MIO Pin 51 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF1800CC, 0x000000FEU ,0x00000010U) + RegMask = (IOU_SLCR_MIO_PIN_51_L0_SEL_MASK | IOU_SLCR_MIO_PIN_51_L1_SEL_MASK | IOU_SLCR_MIO_PIN_51_L2_SEL_MASK | IOU_SLCR_MIO_PIN_51_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_51_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_51_L1_SEL_SHIFT + | 0x00000002U << IOU_SLCR_MIO_PIN_51_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_51_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_51_OFFSET ,0x000000FEU ,0x00000010U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_52 @ 0XFF1800D0

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem2, Output, gem2_rgmii_tx_clk- (TX RGMII clock) + PSU_IOU_SLCR_MIO_PIN_52_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= usb0, Input, usb0_ulpi_clk_in- (ULPI Clock) + PSU_IOU_SLCR_MIO_PIN_52_L1_SEL 1 + + Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= Not Used 3= Not Used + PSU_IOU_SLCR_MIO_PIN_52_L2_SEL 0 + + Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[0]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[0]- (GPIO bank 2) 1= can + , Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL signa + ) 3= pjtag, Input, pjtag_tck- (PJTAG TCK) 4= spi0, Input, spi0_sclk_in- (SPI Clock) 4= spi0, Output, spi0_sclk_out- (SPI Cloc + ) 5= ttc1, Input, ttc1_clk_in- (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= trace, Output, trace_ + lk- (Trace Port Clock) + PSU_IOU_SLCR_MIO_PIN_52_L3_SEL 0 + + Configures MIO Pin 52 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF1800D0, 0x000000FEU ,0x00000004U) + RegMask = (IOU_SLCR_MIO_PIN_52_L0_SEL_MASK | IOU_SLCR_MIO_PIN_52_L1_SEL_MASK | IOU_SLCR_MIO_PIN_52_L2_SEL_MASK | IOU_SLCR_MIO_PIN_52_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_52_L0_SEL_SHIFT + | 0x00000001U << IOU_SLCR_MIO_PIN_52_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_52_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_52_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_52_OFFSET ,0x000000FEU ,0x00000004U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_53 @ 0XFF1800D4

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem2, Output, gem2_rgmii_txd[0]- (TX RGMII data) + PSU_IOU_SLCR_MIO_PIN_53_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= usb0, Input, usb0_ulpi_dir- (Data bus direction control) + PSU_IOU_SLCR_MIO_PIN_53_L1_SEL 1 + + Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= Not Used 3= Not Used + PSU_IOU_SLCR_MIO_PIN_53_L2_SEL 0 + + Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[1]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[1]- (GPIO bank 2) 1= can + , Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA signal + 3= pjtag, Input, pjtag_tdi- (PJTAG TDI) 4= spi0, Output, spi0_n_ss_out[2]- (SPI Master Selects) 5= ttc1, Output, ttc1_wave_o + t- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial input) 7= trace, Output, trace_ctl- (Trace Port Control + Signal) + PSU_IOU_SLCR_MIO_PIN_53_L3_SEL 0 + + Configures MIO Pin 53 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF1800D4, 0x000000FEU ,0x00000004U) + RegMask = (IOU_SLCR_MIO_PIN_53_L0_SEL_MASK | IOU_SLCR_MIO_PIN_53_L1_SEL_MASK | IOU_SLCR_MIO_PIN_53_L2_SEL_MASK | IOU_SLCR_MIO_PIN_53_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_53_L0_SEL_SHIFT + | 0x00000001U << IOU_SLCR_MIO_PIN_53_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_53_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_53_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_53_OFFSET ,0x000000FEU ,0x00000004U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_54 @ 0XFF1800D8

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem2, Output, gem2_rgmii_txd[1]- (TX RGMII data) + PSU_IOU_SLCR_MIO_PIN_54_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= usb0, Input, usb0_ulpi_rx_data[2]- (ULPI data bus) 1= usb0, Output, usb0_ulpi_tx_ + ata[2]- (ULPI data bus) + PSU_IOU_SLCR_MIO_PIN_54_L1_SEL 1 + + Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= Not Used 3= Not Used + PSU_IOU_SLCR_MIO_PIN_54_L2_SEL 0 + + Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[2]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[2]- (GPIO bank 2) 1= can + , Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL signal + 3= pjtag, Output, pjtag_tdo- (PJTAG TDO) 4= spi0, Output, spi0_n_ss_out[1]- (SPI Master Selects) 5= ttc0, Input, ttc0_clk_in + (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= trace, Output, tracedq[0]- (Trace Port Databus) + PSU_IOU_SLCR_MIO_PIN_54_L3_SEL 0 + + Configures MIO Pin 54 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF1800D8, 0x000000FEU ,0x00000004U) + RegMask = (IOU_SLCR_MIO_PIN_54_L0_SEL_MASK | IOU_SLCR_MIO_PIN_54_L1_SEL_MASK | IOU_SLCR_MIO_PIN_54_L2_SEL_MASK | IOU_SLCR_MIO_PIN_54_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_54_L0_SEL_SHIFT + | 0x00000001U << IOU_SLCR_MIO_PIN_54_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_54_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_54_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_54_OFFSET ,0x000000FEU ,0x00000004U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_55 @ 0XFF1800DC

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem2, Output, gem2_rgmii_txd[2]- (TX RGMII data) + PSU_IOU_SLCR_MIO_PIN_55_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= usb0, Input, usb0_ulpi_nxt- (Data flow control signal from the PHY) + PSU_IOU_SLCR_MIO_PIN_55_L1_SEL 1 + + Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= Not Used 3= Not Used + PSU_IOU_SLCR_MIO_PIN_55_L2_SEL 0 + + Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[3]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[3]- (GPIO bank 2) 1= can + , Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA signa + ) 3= pjtag, Input, pjtag_tms- (PJTAG TMS) 4= spi0, Input, spi0_n_ss_in- (SPI Master Selects) 4= spi0, Output, spi0_n_ss_out[0 + - (SPI Master Selects) 5= ttc0, Output, ttc0_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter serial + output) 7= trace, Output, tracedq[1]- (Trace Port Databus) + PSU_IOU_SLCR_MIO_PIN_55_L3_SEL 0 + + Configures MIO Pin 55 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF1800DC, 0x000000FEU ,0x00000004U) + RegMask = (IOU_SLCR_MIO_PIN_55_L0_SEL_MASK | IOU_SLCR_MIO_PIN_55_L1_SEL_MASK | IOU_SLCR_MIO_PIN_55_L2_SEL_MASK | IOU_SLCR_MIO_PIN_55_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_55_L0_SEL_SHIFT + | 0x00000001U << IOU_SLCR_MIO_PIN_55_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_55_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_55_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_55_OFFSET ,0x000000FEU ,0x00000004U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_56 @ 0XFF1800E0

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem2, Output, gem2_rgmii_txd[3]- (TX RGMII data) + PSU_IOU_SLCR_MIO_PIN_56_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= usb0, Input, usb0_ulpi_rx_data[0]- (ULPI data bus) 1= usb0, Output, usb0_ulpi_tx_ + ata[0]- (ULPI data bus) + PSU_IOU_SLCR_MIO_PIN_56_L1_SEL 1 + + Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= Not Used 3= Not Used + PSU_IOU_SLCR_MIO_PIN_56_L2_SEL 0 + + Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[4]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[4]- (GPIO bank 2) 1= can + , Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL signa + ) 3= swdt1, Input, swdt1_clk_in- (Watch Dog Timer Input clock) 4= spi0, Input, spi0_mi- (MISO signal) 4= spi0, Output, spi0_s + - (MISO signal) 5= ttc3, Input, ttc3_clk_in- (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= trace, + utput, tracedq[2]- (Trace Port Databus) + PSU_IOU_SLCR_MIO_PIN_56_L3_SEL 0 + + Configures MIO Pin 56 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF1800E0, 0x000000FEU ,0x00000004U) + RegMask = (IOU_SLCR_MIO_PIN_56_L0_SEL_MASK | IOU_SLCR_MIO_PIN_56_L1_SEL_MASK | IOU_SLCR_MIO_PIN_56_L2_SEL_MASK | IOU_SLCR_MIO_PIN_56_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_56_L0_SEL_SHIFT + | 0x00000001U << IOU_SLCR_MIO_PIN_56_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_56_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_56_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_56_OFFSET ,0x000000FEU ,0x00000004U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_57 @ 0XFF1800E4

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem2, Output, gem2_rgmii_tx_ctl- (TX RGMII control) + PSU_IOU_SLCR_MIO_PIN_57_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= usb0, Input, usb0_ulpi_rx_data[1]- (ULPI data bus) 1= usb0, Output, usb0_ulpi_tx_ + ata[1]- (ULPI data bus) + PSU_IOU_SLCR_MIO_PIN_57_L1_SEL 1 + + Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= Not Used 3= Not Used + PSU_IOU_SLCR_MIO_PIN_57_L2_SEL 0 + + Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[5]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[5]- (GPIO bank 2) 1= can + , Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA signal + 3= swdt1, Output, swdt1_rst_out- (Watch Dog Timer Output clock) 4= spi0, Output, spi0_mo- (MOSI signal) 4= spi0, Input, spi0 + si- (MOSI signal) 5= ttc3, Output, ttc3_wave_out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial input) 7 + trace, Output, tracedq[3]- (Trace Port Databus) + PSU_IOU_SLCR_MIO_PIN_57_L3_SEL 0 + + Configures MIO Pin 57 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF1800E4, 0x000000FEU ,0x00000004U) + RegMask = (IOU_SLCR_MIO_PIN_57_L0_SEL_MASK | IOU_SLCR_MIO_PIN_57_L1_SEL_MASK | IOU_SLCR_MIO_PIN_57_L2_SEL_MASK | IOU_SLCR_MIO_PIN_57_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_57_L0_SEL_SHIFT + | 0x00000001U << IOU_SLCR_MIO_PIN_57_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_57_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_57_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_57_OFFSET ,0x000000FEU ,0x00000004U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_58 @ 0XFF1800E8

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem2, Input, gem2_rgmii_rx_clk- (RX RGMII clock) + PSU_IOU_SLCR_MIO_PIN_58_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= usb0, Output, usb0_ulpi_stp- (Asserted to end or interrupt transfers) + PSU_IOU_SLCR_MIO_PIN_58_L1_SEL 1 + + Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= Not Used 3= Not Used + PSU_IOU_SLCR_MIO_PIN_58_L2_SEL 0 + + Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[6]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[6]- (GPIO bank 2) 1= can + , Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL signal + 3= pjtag, Input, pjtag_tck- (PJTAG TCK) 4= spi1, Input, spi1_sclk_in- (SPI Clock) 4= spi1, Output, spi1_sclk_out- (SPI Clock + 5= ttc2, Input, ttc2_clk_in- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= trace, Output, tracedq[4]- + Trace Port Databus) + PSU_IOU_SLCR_MIO_PIN_58_L3_SEL 0 + + Configures MIO Pin 58 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF1800E8, 0x000000FEU ,0x00000004U) + RegMask = (IOU_SLCR_MIO_PIN_58_L0_SEL_MASK | IOU_SLCR_MIO_PIN_58_L1_SEL_MASK | IOU_SLCR_MIO_PIN_58_L2_SEL_MASK | IOU_SLCR_MIO_PIN_58_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_58_L0_SEL_SHIFT + | 0x00000001U << IOU_SLCR_MIO_PIN_58_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_58_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_58_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_58_OFFSET ,0x000000FEU ,0x00000004U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_59 @ 0XFF1800EC

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem2, Input, gem2_rgmii_rxd[0]- (RX RGMII data) + PSU_IOU_SLCR_MIO_PIN_59_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= usb0, Input, usb0_ulpi_rx_data[3]- (ULPI data bus) 1= usb0, Output, usb0_ulpi_tx_ + ata[3]- (ULPI data bus) + PSU_IOU_SLCR_MIO_PIN_59_L1_SEL 1 + + Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= Not Used 3= Not Used + PSU_IOU_SLCR_MIO_PIN_59_L2_SEL 0 + + Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[7]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[7]- (GPIO bank 2) 1= can + , Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA signa + ) 3= pjtag, Input, pjtag_tdi- (PJTAG TDI) 4= spi1, Output, spi1_n_ss_out[2]- (SPI Master Selects) 5= ttc2, Output, ttc2_wave_ + ut- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter serial output) 7= trace, Output, tracedq[5]- (Trace Port + atabus) + PSU_IOU_SLCR_MIO_PIN_59_L3_SEL 0 + + Configures MIO Pin 59 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF1800EC, 0x000000FEU ,0x00000004U) + RegMask = (IOU_SLCR_MIO_PIN_59_L0_SEL_MASK | IOU_SLCR_MIO_PIN_59_L1_SEL_MASK | IOU_SLCR_MIO_PIN_59_L2_SEL_MASK | IOU_SLCR_MIO_PIN_59_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_59_L0_SEL_SHIFT + | 0x00000001U << IOU_SLCR_MIO_PIN_59_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_59_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_59_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_59_OFFSET ,0x000000FEU ,0x00000004U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_60 @ 0XFF1800F0

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem2, Input, gem2_rgmii_rxd[1]- (RX RGMII data) + PSU_IOU_SLCR_MIO_PIN_60_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= usb0, Input, usb0_ulpi_rx_data[4]- (ULPI data bus) 1= usb0, Output, usb0_ulpi_tx_ + ata[4]- (ULPI data bus) + PSU_IOU_SLCR_MIO_PIN_60_L1_SEL 1 + + Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= Not Used 3= Not Used + PSU_IOU_SLCR_MIO_PIN_60_L2_SEL 0 + + Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[8]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[8]- (GPIO bank 2) 1= can + , Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL signa + ) 3= pjtag, Output, pjtag_tdo- (PJTAG TDO) 4= spi1, Output, spi1_n_ss_out[1]- (SPI Master Selects) 5= ttc1, Input, ttc1_clk_i + - (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= trace, Output, tracedq[6]- (Trace Port Databus) + PSU_IOU_SLCR_MIO_PIN_60_L3_SEL 0 + + Configures MIO Pin 60 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF1800F0, 0x000000FEU ,0x00000004U) + RegMask = (IOU_SLCR_MIO_PIN_60_L0_SEL_MASK | IOU_SLCR_MIO_PIN_60_L1_SEL_MASK | IOU_SLCR_MIO_PIN_60_L2_SEL_MASK | IOU_SLCR_MIO_PIN_60_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_60_L0_SEL_SHIFT + | 0x00000001U << IOU_SLCR_MIO_PIN_60_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_60_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_60_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_60_OFFSET ,0x000000FEU ,0x00000004U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_61 @ 0XFF1800F4

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem2, Input, gem2_rgmii_rxd[2]- (RX RGMII data) + PSU_IOU_SLCR_MIO_PIN_61_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= usb0, Input, usb0_ulpi_rx_data[5]- (ULPI data bus) 1= usb0, Output, usb0_ulpi_tx_ + ata[5]- (ULPI data bus) + PSU_IOU_SLCR_MIO_PIN_61_L1_SEL 1 + + Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= Not Used 3= Not Used + PSU_IOU_SLCR_MIO_PIN_61_L2_SEL 0 + + Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[9]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[9]- (GPIO bank 2) 1= can + , Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA signal + 3= pjtag, Input, pjtag_tms- (PJTAG TMS) 4= spi1, Input, spi1_n_ss_in- (SPI Master Selects) 4= spi1, Output, spi1_n_ss_out[0] + (SPI Master Selects) 5= ttc1, Output, ttc1_wave_out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial inpu + ) 7= trace, Output, tracedq[7]- (Trace Port Databus) + PSU_IOU_SLCR_MIO_PIN_61_L3_SEL 0 + + Configures MIO Pin 61 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF1800F4, 0x000000FEU ,0x00000004U) + RegMask = (IOU_SLCR_MIO_PIN_61_L0_SEL_MASK | IOU_SLCR_MIO_PIN_61_L1_SEL_MASK | IOU_SLCR_MIO_PIN_61_L2_SEL_MASK | IOU_SLCR_MIO_PIN_61_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_61_L0_SEL_SHIFT + | 0x00000001U << IOU_SLCR_MIO_PIN_61_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_61_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_61_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_61_OFFSET ,0x000000FEU ,0x00000004U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_62 @ 0XFF1800F8

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem2, Input, gem2_rgmii_rxd[3]- (RX RGMII data) + PSU_IOU_SLCR_MIO_PIN_62_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= usb0, Input, usb0_ulpi_rx_data[6]- (ULPI data bus) 1= usb0, Output, usb0_ulpi_tx_ + ata[6]- (ULPI data bus) + PSU_IOU_SLCR_MIO_PIN_62_L1_SEL 1 + + Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= Not Used 3= Not Used + PSU_IOU_SLCR_MIO_PIN_62_L2_SEL 0 + + Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[10]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[10]- (GPIO bank 2) 1= c + n0, Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL sign + l) 3= swdt0, Input, swdt0_clk_in- (Watch Dog Timer Input clock) 4= spi1, Input, spi1_mi- (MISO signal) 4= spi1, Output, spi1_ + o- (MISO signal) 5= ttc0, Input, ttc0_clk_in- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= trace, Outp + t, tracedq[8]- (Trace Port Databus) + PSU_IOU_SLCR_MIO_PIN_62_L3_SEL 0 + + Configures MIO Pin 62 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF1800F8, 0x000000FEU ,0x00000004U) + RegMask = (IOU_SLCR_MIO_PIN_62_L0_SEL_MASK | IOU_SLCR_MIO_PIN_62_L1_SEL_MASK | IOU_SLCR_MIO_PIN_62_L2_SEL_MASK | IOU_SLCR_MIO_PIN_62_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_62_L0_SEL_SHIFT + | 0x00000001U << IOU_SLCR_MIO_PIN_62_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_62_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_62_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_62_OFFSET ,0x000000FEU ,0x00000004U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_63 @ 0XFF1800FC

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem2, Input, gem2_rgmii_rx_ctl- (RX RGMII control ) + PSU_IOU_SLCR_MIO_PIN_63_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= usb0, Input, usb0_ulpi_rx_data[7]- (ULPI data bus) 1= usb0, Output, usb0_ulpi_tx_ + ata[7]- (ULPI data bus) + PSU_IOU_SLCR_MIO_PIN_63_L1_SEL 1 + + Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= Not Used 3= Not Used + PSU_IOU_SLCR_MIO_PIN_63_L2_SEL 0 + + Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[11]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[11]- (GPIO bank 2) 1= c + n0, Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA sig + al) 3= swdt0, Output, swdt0_rst_out- (Watch Dog Timer Output clock) 4= spi1, Output, spi1_mo- (MOSI signal) 4= spi1, Input, s + i1_si- (MOSI signal) 5= ttc0, Output, ttc0_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter serial o + tput) 7= trace, Output, tracedq[9]- (Trace Port Databus) + PSU_IOU_SLCR_MIO_PIN_63_L3_SEL 0 + + Configures MIO Pin 63 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF1800FC, 0x000000FEU ,0x00000004U) + RegMask = (IOU_SLCR_MIO_PIN_63_L0_SEL_MASK | IOU_SLCR_MIO_PIN_63_L1_SEL_MASK | IOU_SLCR_MIO_PIN_63_L2_SEL_MASK | IOU_SLCR_MIO_PIN_63_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_63_L0_SEL_SHIFT + | 0x00000001U << IOU_SLCR_MIO_PIN_63_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_63_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_63_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_63_OFFSET ,0x000000FEU ,0x00000004U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_64 @ 0XFF180100

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem3, Output, gem3_rgmii_tx_clk- (TX RGMII clock) + PSU_IOU_SLCR_MIO_PIN_64_L0_SEL 1 + + Level 1 Mux Select 0= Level 2 Mux Output 1= usb1, Input, usb1_ulpi_clk_in- (ULPI Clock) + PSU_IOU_SLCR_MIO_PIN_64_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Output, sdio0_clk_out- (SDSDIO clock) 2= Not Used 3= Not Used + PSU_IOU_SLCR_MIO_PIN_64_L2_SEL 0 + + Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[12]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[12]- (GPIO bank 2) 1= c + n1, Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL sig + al) 3= swdt1, Input, swdt1_clk_in- (Watch Dog Timer Input clock) 4= spi0, Input, spi0_sclk_in- (SPI Clock) 4= spi0, Output, s + i0_sclk_out- (SPI Clock) 5= ttc3, Input, ttc3_clk_in- (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7 + trace, Output, tracedq[10]- (Trace Port Databus) + PSU_IOU_SLCR_MIO_PIN_64_L3_SEL 0 + + Configures MIO Pin 64 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF180100, 0x000000FEU ,0x00000002U) + RegMask = (IOU_SLCR_MIO_PIN_64_L0_SEL_MASK | IOU_SLCR_MIO_PIN_64_L1_SEL_MASK | IOU_SLCR_MIO_PIN_64_L2_SEL_MASK | IOU_SLCR_MIO_PIN_64_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_64_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_64_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_64_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_64_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_64_OFFSET ,0x000000FEU ,0x00000002U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_65 @ 0XFF180104

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem3, Output, gem3_rgmii_txd[0]- (TX RGMII data) + PSU_IOU_SLCR_MIO_PIN_65_L0_SEL 1 + + Level 1 Mux Select 0= Level 2 Mux Output 1= usb1, Input, usb1_ulpi_dir- (Data bus direction control) + PSU_IOU_SLCR_MIO_PIN_65_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sdio0_cd_n- (SD card detect from connector) 2= Not Used 3= Not Used + PSU_IOU_SLCR_MIO_PIN_65_L2_SEL 0 + + Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[13]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[13]- (GPIO bank 2) 1= c + n1, Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA sign + l) 3= swdt1, Output, swdt1_rst_out- (Watch Dog Timer Output clock) 4= spi0, Output, spi0_n_ss_out[2]- (SPI Master Selects) 5= + ttc3, Output, ttc3_wave_out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial input) 7= trace, Output, trac + dq[11]- (Trace Port Databus) + PSU_IOU_SLCR_MIO_PIN_65_L3_SEL 0 + + Configures MIO Pin 65 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF180104, 0x000000FEU ,0x00000002U) + RegMask = (IOU_SLCR_MIO_PIN_65_L0_SEL_MASK | IOU_SLCR_MIO_PIN_65_L1_SEL_MASK | IOU_SLCR_MIO_PIN_65_L2_SEL_MASK | IOU_SLCR_MIO_PIN_65_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_65_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_65_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_65_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_65_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_65_OFFSET ,0x000000FEU ,0x00000002U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_66 @ 0XFF180108

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem3, Output, gem3_rgmii_txd[1]- (TX RGMII data) + PSU_IOU_SLCR_MIO_PIN_66_L0_SEL 1 + + Level 1 Mux Select 0= Level 2 Mux Output 1= usb1, Input, usb1_ulpi_rx_data[2]- (ULPI data bus) 1= usb1, Output, usb1_ulpi_tx_ + ata[2]- (ULPI data bus) + PSU_IOU_SLCR_MIO_PIN_66_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_cmd_in- (Command Indicator) = sd0, Output, sdio0_cmd_out- (Comman + Indicator) 2= Not Used 3= Not Used + PSU_IOU_SLCR_MIO_PIN_66_L2_SEL 0 + + Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[14]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[14]- (GPIO bank 2) 1= c + n0, Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL sign + l) 3= swdt0, Input, swdt0_clk_in- (Watch Dog Timer Input clock) 4= spi0, Output, spi0_n_ss_out[1]- (SPI Master Selects) 5= tt + 2, Input, ttc2_clk_in- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= trace, Output, tracedq[12]- (Trace + Port Databus) + PSU_IOU_SLCR_MIO_PIN_66_L3_SEL 0 + + Configures MIO Pin 66 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF180108, 0x000000FEU ,0x00000002U) + RegMask = (IOU_SLCR_MIO_PIN_66_L0_SEL_MASK | IOU_SLCR_MIO_PIN_66_L1_SEL_MASK | IOU_SLCR_MIO_PIN_66_L2_SEL_MASK | IOU_SLCR_MIO_PIN_66_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_66_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_66_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_66_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_66_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_66_OFFSET ,0x000000FEU ,0x00000002U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_67 @ 0XFF18010C

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem3, Output, gem3_rgmii_txd[2]- (TX RGMII data) + PSU_IOU_SLCR_MIO_PIN_67_L0_SEL 1 + + Level 1 Mux Select 0= Level 2 Mux Output 1= usb1, Input, usb1_ulpi_nxt- (Data flow control signal from the PHY) + PSU_IOU_SLCR_MIO_PIN_67_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[0]- (8-bit Data bus) = sd0, Output, sdio0_data_out[0]- (8 + bit Data bus) 2= Not Used 3= Not Used + PSU_IOU_SLCR_MIO_PIN_67_L2_SEL 0 + + Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[15]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[15]- (GPIO bank 2) 1= c + n0, Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA sig + al) 3= swdt0, Output, swdt0_rst_out- (Watch Dog Timer Output clock) 4= spi0, Input, spi0_n_ss_in- (SPI Master Selects) 4= spi + , Output, spi0_n_ss_out[0]- (SPI Master Selects) 5= ttc2, Output, ttc2_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd + (UART transmitter serial output) 7= trace, Output, tracedq[13]- (Trace Port Databus) + PSU_IOU_SLCR_MIO_PIN_67_L3_SEL 0 + + Configures MIO Pin 67 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF18010C, 0x000000FEU ,0x00000002U) + RegMask = (IOU_SLCR_MIO_PIN_67_L0_SEL_MASK | IOU_SLCR_MIO_PIN_67_L1_SEL_MASK | IOU_SLCR_MIO_PIN_67_L2_SEL_MASK | IOU_SLCR_MIO_PIN_67_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_67_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_67_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_67_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_67_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_67_OFFSET ,0x000000FEU ,0x00000002U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_68 @ 0XFF180110

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem3, Output, gem3_rgmii_txd[3]- (TX RGMII data) + PSU_IOU_SLCR_MIO_PIN_68_L0_SEL 1 + + Level 1 Mux Select 0= Level 2 Mux Output 1= usb1, Input, usb1_ulpi_rx_data[0]- (ULPI data bus) 1= usb1, Output, usb1_ulpi_tx_ + ata[0]- (ULPI data bus) + PSU_IOU_SLCR_MIO_PIN_68_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[1]- (8-bit Data bus) = sd0, Output, sdio0_data_out[1]- (8 + bit Data bus) 2= Not Used 3= Not Used + PSU_IOU_SLCR_MIO_PIN_68_L2_SEL 0 + + Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[16]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[16]- (GPIO bank 2) 1= c + n1, Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL sig + al) 3= swdt1, Input, swdt1_clk_in- (Watch Dog Timer Input clock) 4= spi0, Input, spi0_mi- (MISO signal) 4= spi0, Output, spi0 + so- (MISO signal) 5= ttc1, Input, ttc1_clk_in- (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= trace + Output, tracedq[14]- (Trace Port Databus) + PSU_IOU_SLCR_MIO_PIN_68_L3_SEL 0 + + Configures MIO Pin 68 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF180110, 0x000000FEU ,0x00000002U) + RegMask = (IOU_SLCR_MIO_PIN_68_L0_SEL_MASK | IOU_SLCR_MIO_PIN_68_L1_SEL_MASK | IOU_SLCR_MIO_PIN_68_L2_SEL_MASK | IOU_SLCR_MIO_PIN_68_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_68_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_68_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_68_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_68_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_68_OFFSET ,0x000000FEU ,0x00000002U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_69 @ 0XFF180114

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem3, Output, gem3_rgmii_tx_ctl- (TX RGMII control) + PSU_IOU_SLCR_MIO_PIN_69_L0_SEL 1 + + Level 1 Mux Select 0= Level 2 Mux Output 1= usb1, Input, usb1_ulpi_rx_data[1]- (ULPI data bus) 1= usb1, Output, usb1_ulpi_tx_ + ata[1]- (ULPI data bus) + PSU_IOU_SLCR_MIO_PIN_69_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[2]- (8-bit Data bus) = sd0, Output, sdio0_data_out[2]- (8 + bit Data bus) 2= sd1, Input, sdio1_wp- (SD card write protect from connector) 3= Not Used + PSU_IOU_SLCR_MIO_PIN_69_L2_SEL 0 + + Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[17]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[17]- (GPIO bank 2) 1= c + n1, Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA sign + l) 3= swdt1, Output, swdt1_rst_out- (Watch Dog Timer Output clock) 4= spi0, Output, spi0_mo- (MOSI signal) 4= spi0, Input, sp + 0_si- (MOSI signal) 5= ttc1, Output, ttc1_wave_out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial input) + 7= trace, Output, tracedq[15]- (Trace Port Databus) + PSU_IOU_SLCR_MIO_PIN_69_L3_SEL 0 + + Configures MIO Pin 69 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF180114, 0x000000FEU ,0x00000002U) + RegMask = (IOU_SLCR_MIO_PIN_69_L0_SEL_MASK | IOU_SLCR_MIO_PIN_69_L1_SEL_MASK | IOU_SLCR_MIO_PIN_69_L2_SEL_MASK | IOU_SLCR_MIO_PIN_69_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_69_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_69_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_69_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_69_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_69_OFFSET ,0x000000FEU ,0x00000002U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_70 @ 0XFF180118

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem3, Input, gem3_rgmii_rx_clk- (RX RGMII clock) + PSU_IOU_SLCR_MIO_PIN_70_L0_SEL 1 + + Level 1 Mux Select 0= Level 2 Mux Output 1= usb1, Output, usb1_ulpi_stp- (Asserted to end or interrupt transfers) + PSU_IOU_SLCR_MIO_PIN_70_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[3]- (8-bit Data bus) = sd0, Output, sdio0_data_out[3]- (8 + bit Data bus) 2= sd1, Output, sdio1_bus_pow- (SD card bus power) 3= Not Used + PSU_IOU_SLCR_MIO_PIN_70_L2_SEL 0 + + Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[18]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[18]- (GPIO bank 2) 1= c + n0, Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL sign + l) 3= swdt0, Input, swdt0_clk_in- (Watch Dog Timer Input clock) 4= spi1, Input, spi1_sclk_in- (SPI Clock) 4= spi1, Output, sp + 1_sclk_out- (SPI Clock) 5= ttc0, Input, ttc0_clk_in- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= Not + sed + PSU_IOU_SLCR_MIO_PIN_70_L3_SEL 0 + + Configures MIO Pin 70 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF180118, 0x000000FEU ,0x00000002U) + RegMask = (IOU_SLCR_MIO_PIN_70_L0_SEL_MASK | IOU_SLCR_MIO_PIN_70_L1_SEL_MASK | IOU_SLCR_MIO_PIN_70_L2_SEL_MASK | IOU_SLCR_MIO_PIN_70_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_70_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_70_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_70_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_70_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_70_OFFSET ,0x000000FEU ,0x00000002U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_71 @ 0XFF18011C

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem3, Input, gem3_rgmii_rxd[0]- (RX RGMII data) + PSU_IOU_SLCR_MIO_PIN_71_L0_SEL 1 + + Level 1 Mux Select 0= Level 2 Mux Output 1= usb1, Input, usb1_ulpi_rx_data[3]- (ULPI data bus) 1= usb1, Output, usb1_ulpi_tx_ + ata[3]- (ULPI data bus) + PSU_IOU_SLCR_MIO_PIN_71_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[4]- (8-bit Data bus) = sd0, Output, sdio0_data_out[4]- (8 + bit Data bus) 2= sd1, Input, sd1_data_in[0]- (8-bit Data bus) = sd1, Output, sdio1_data_out[0]- (8-bit Data bus) 3= Not Used + PSU_IOU_SLCR_MIO_PIN_71_L2_SEL 0 + + Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[19]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[19]- (GPIO bank 2) 1= c + n0, Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA sig + al) 3= swdt0, Output, swdt0_rst_out- (Watch Dog Timer Output clock) 4= spi1, Output, spi1_n_ss_out[2]- (SPI Master Selects) 5 + ttc0, Output, ttc0_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter serial output) 7= Not Used + PSU_IOU_SLCR_MIO_PIN_71_L3_SEL 0 + + Configures MIO Pin 71 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF18011C, 0x000000FEU ,0x00000002U) + RegMask = (IOU_SLCR_MIO_PIN_71_L0_SEL_MASK | IOU_SLCR_MIO_PIN_71_L1_SEL_MASK | IOU_SLCR_MIO_PIN_71_L2_SEL_MASK | IOU_SLCR_MIO_PIN_71_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_71_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_71_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_71_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_71_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_71_OFFSET ,0x000000FEU ,0x00000002U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_72 @ 0XFF180120

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem3, Input, gem3_rgmii_rxd[1]- (RX RGMII data) + PSU_IOU_SLCR_MIO_PIN_72_L0_SEL 1 + + Level 1 Mux Select 0= Level 2 Mux Output 1= usb1, Input, usb1_ulpi_rx_data[4]- (ULPI data bus) 1= usb1, Output, usb1_ulpi_tx_ + ata[4]- (ULPI data bus) + PSU_IOU_SLCR_MIO_PIN_72_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[5]- (8-bit Data bus) = sd0, Output, sdio0_data_out[5]- (8 + bit Data bus) 2= sd1, Input, sd1_data_in[1]- (8-bit Data bus) = sd1, Output, sdio1_data_out[1]- (8-bit Data bus) 3= Not Used + PSU_IOU_SLCR_MIO_PIN_72_L2_SEL 0 + + Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[20]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[20]- (GPIO bank 2) 1= c + n1, Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL sig + al) 3= swdt1, Input, swdt1_clk_in- (Watch Dog Timer Input clock) 4= spi1, Output, spi1_n_ss_out[1]- (SPI Master Selects) 5= N + t Used 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= Not Used + PSU_IOU_SLCR_MIO_PIN_72_L3_SEL 0 + + Configures MIO Pin 72 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF180120, 0x000000FEU ,0x00000002U) + RegMask = (IOU_SLCR_MIO_PIN_72_L0_SEL_MASK | IOU_SLCR_MIO_PIN_72_L1_SEL_MASK | IOU_SLCR_MIO_PIN_72_L2_SEL_MASK | IOU_SLCR_MIO_PIN_72_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_72_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_72_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_72_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_72_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_72_OFFSET ,0x000000FEU ,0x00000002U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_73 @ 0XFF180124

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem3, Input, gem3_rgmii_rxd[2]- (RX RGMII data) + PSU_IOU_SLCR_MIO_PIN_73_L0_SEL 1 + + Level 1 Mux Select 0= Level 2 Mux Output 1= usb1, Input, usb1_ulpi_rx_data[5]- (ULPI data bus) 1= usb1, Output, usb1_ulpi_tx_ + ata[5]- (ULPI data bus) + PSU_IOU_SLCR_MIO_PIN_73_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[6]- (8-bit Data bus) = sd0, Output, sdio0_data_out[6]- (8 + bit Data bus) 2= sd1, Input, sd1_data_in[2]- (8-bit Data bus) = sd1, Output, sdio1_data_out[2]- (8-bit Data bus) 3= Not Used + PSU_IOU_SLCR_MIO_PIN_73_L2_SEL 0 + + Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[21]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[21]- (GPIO bank 2) 1= c + n1, Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA sign + l) 3= swdt1, Output, swdt1_rst_out- (Watch Dog Timer Output clock) 4= spi1, Input, spi1_n_ss_in- (SPI Master Selects) 4= spi1 + Output, spi1_n_ss_out[0]- (SPI Master Selects) 5= Not Used 6= ua1, Input, ua1_rxd- (UART receiver serial input) 7= Not Used + PSU_IOU_SLCR_MIO_PIN_73_L3_SEL 0 + + Configures MIO Pin 73 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF180124, 0x000000FEU ,0x00000002U) + RegMask = (IOU_SLCR_MIO_PIN_73_L0_SEL_MASK | IOU_SLCR_MIO_PIN_73_L1_SEL_MASK | IOU_SLCR_MIO_PIN_73_L2_SEL_MASK | IOU_SLCR_MIO_PIN_73_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_73_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_73_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_73_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_73_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_73_OFFSET ,0x000000FEU ,0x00000002U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_74 @ 0XFF180128

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem3, Input, gem3_rgmii_rxd[3]- (RX RGMII data) + PSU_IOU_SLCR_MIO_PIN_74_L0_SEL 1 + + Level 1 Mux Select 0= Level 2 Mux Output 1= usb1, Input, usb1_ulpi_rx_data[6]- (ULPI data bus) 1= usb1, Output, usb1_ulpi_tx_ + ata[6]- (ULPI data bus) + PSU_IOU_SLCR_MIO_PIN_74_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[7]- (8-bit Data bus) = sd0, Output, sdio0_data_out[7]- (8 + bit Data bus) 2= sd1, Input, sd1_data_in[3]- (8-bit Data bus) = sd1, Output, sdio1_data_out[3]- (8-bit Data bus) 3= Not Used + PSU_IOU_SLCR_MIO_PIN_74_L2_SEL 0 + + Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[22]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[22]- (GPIO bank 2) 1= c + n0, Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL sign + l) 3= swdt0, Input, swdt0_clk_in- (Watch Dog Timer Input clock) 4= spi1, Input, spi1_mi- (MISO signal) 4= spi1, Output, spi1_ + o- (MISO signal) 5= Not Used 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= Not Used + PSU_IOU_SLCR_MIO_PIN_74_L3_SEL 0 + + Configures MIO Pin 74 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF180128, 0x000000FEU ,0x00000002U) + RegMask = (IOU_SLCR_MIO_PIN_74_L0_SEL_MASK | IOU_SLCR_MIO_PIN_74_L1_SEL_MASK | IOU_SLCR_MIO_PIN_74_L2_SEL_MASK | IOU_SLCR_MIO_PIN_74_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_74_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_74_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_74_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_74_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_74_OFFSET ,0x000000FEU ,0x00000002U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_75 @ 0XFF18012C

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= gem3, Input, gem3_rgmii_rx_ctl- (RX RGMII control ) + PSU_IOU_SLCR_MIO_PIN_75_L0_SEL 1 + + Level 1 Mux Select 0= Level 2 Mux Output 1= usb1, Input, usb1_ulpi_rx_data[7]- (ULPI data bus) 1= usb1, Output, usb1_ulpi_tx_ + ata[7]- (ULPI data bus) + PSU_IOU_SLCR_MIO_PIN_75_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Output, sdio0_bus_pow- (SD card bus power) 2= sd1, Input, sd1_cmd_in- (Comma + d Indicator) = sd1, Output, sdio1_cmd_out- (Command Indicator) 3= Not Used + PSU_IOU_SLCR_MIO_PIN_75_L2_SEL 0 + + Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[23]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[23]- (GPIO bank 2) 1= c + n0, Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA sig + al) 3= swdt0, Output, swdt0_rst_out- (Watch Dog Timer Output clock) 4= spi1, Output, spi1_mo- (MOSI signal) 4= spi1, Input, s + i1_si- (MOSI signal) 5= Not Used 6= ua0, Output, ua0_txd- (UART transmitter serial output) 7= Not Used + PSU_IOU_SLCR_MIO_PIN_75_L3_SEL 0 + + Configures MIO Pin 75 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF18012C, 0x000000FEU ,0x00000002U) + RegMask = (IOU_SLCR_MIO_PIN_75_L0_SEL_MASK | IOU_SLCR_MIO_PIN_75_L1_SEL_MASK | IOU_SLCR_MIO_PIN_75_L2_SEL_MASK | IOU_SLCR_MIO_PIN_75_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_75_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_75_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_75_L2_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_75_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_75_OFFSET ,0x000000FEU ,0x00000002U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_76 @ 0XFF180130

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used + PSU_IOU_SLCR_MIO_PIN_76_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used + PSU_IOU_SLCR_MIO_PIN_76_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sdio0_wp- (SD card write protect from connector) 2= sd1, Output, sdio + _clk_out- (SDSDIO clock) 3= Not Used + PSU_IOU_SLCR_MIO_PIN_76_L2_SEL 0 + + Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[24]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[24]- (GPIO bank 2) 1= c + n1, Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL sig + al) 3= mdio0, Output, gem0_mdc- (MDIO Clock) 4= mdio1, Output, gem1_mdc- (MDIO Clock) 5= mdio2, Output, gem2_mdc- (MDIO Clock + 6= mdio3, Output, gem3_mdc- (MDIO Clock) 7= Not Used + PSU_IOU_SLCR_MIO_PIN_76_L3_SEL 6 + + Configures MIO Pin 76 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF180130, 0x000000FEU ,0x000000C0U) + RegMask = (IOU_SLCR_MIO_PIN_76_L0_SEL_MASK | IOU_SLCR_MIO_PIN_76_L1_SEL_MASK | IOU_SLCR_MIO_PIN_76_L2_SEL_MASK | IOU_SLCR_MIO_PIN_76_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_76_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_76_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_76_L2_SEL_SHIFT + | 0x00000006U << IOU_SLCR_MIO_PIN_76_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_76_OFFSET ,0x000000FEU ,0x000000C0U); + /*############################################################################################################################ */ + + /*Register : MIO_PIN_77 @ 0XFF180134

+ + Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used + PSU_IOU_SLCR_MIO_PIN_77_L0_SEL 0 + + Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used + PSU_IOU_SLCR_MIO_PIN_77_L1_SEL 0 + + Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= sd1, Input, sdio1_cd_n- (SD card detect from connector) 3= Not Used + PSU_IOU_SLCR_MIO_PIN_77_L2_SEL 0 + + Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[25]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[25]- (GPIO bank 2) 1= c + n1, Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA sign + l) 3= mdio0, Input, gem0_mdio_in- (MDIO Data) 3= mdio0, Output, gem0_mdio_out- (MDIO Data) 4= mdio1, Input, gem1_mdio_in- (MD + O Data) 4= mdio1, Output, gem1_mdio_out- (MDIO Data) 5= mdio2, Input, gem2_mdio_in- (MDIO Data) 5= mdio2, Output, gem2_mdio_o + t- (MDIO Data) 6= mdio3, Input, gem3_mdio_in- (MDIO Data) 6= mdio3, Output, gem3_mdio_out- (MDIO Data) 7= Not Used + PSU_IOU_SLCR_MIO_PIN_77_L3_SEL 6 + + Configures MIO Pin 77 peripheral interface mapping + (OFFSET, MASK, VALUE) (0XFF180134, 0x000000FEU ,0x000000C0U) + RegMask = (IOU_SLCR_MIO_PIN_77_L0_SEL_MASK | IOU_SLCR_MIO_PIN_77_L1_SEL_MASK | IOU_SLCR_MIO_PIN_77_L2_SEL_MASK | IOU_SLCR_MIO_PIN_77_L3_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_77_L0_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_77_L1_SEL_SHIFT + | 0x00000000U << IOU_SLCR_MIO_PIN_77_L2_SEL_SHIFT + | 0x00000006U << IOU_SLCR_MIO_PIN_77_L3_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_PIN_77_OFFSET ,0x000000FEU ,0x000000C0U); + /*############################################################################################################################ */ + + /*Register : MIO_MST_TRI0 @ 0XFF180204

+ + Master Tri-state Enable for pin 0, active high + PSU_IOU_SLCR_MIO_MST_TRI0_PIN_00_TRI 0 + + Master Tri-state Enable for pin 1, active high + PSU_IOU_SLCR_MIO_MST_TRI0_PIN_01_TRI 0 + + Master Tri-state Enable for pin 2, active high + PSU_IOU_SLCR_MIO_MST_TRI0_PIN_02_TRI 0 + + Master Tri-state Enable for pin 3, active high + PSU_IOU_SLCR_MIO_MST_TRI0_PIN_03_TRI 0 + + Master Tri-state Enable for pin 4, active high + PSU_IOU_SLCR_MIO_MST_TRI0_PIN_04_TRI 0 + + Master Tri-state Enable for pin 5, active high + PSU_IOU_SLCR_MIO_MST_TRI0_PIN_05_TRI 0 + + Master Tri-state Enable for pin 6, active high + PSU_IOU_SLCR_MIO_MST_TRI0_PIN_06_TRI 0 + + Master Tri-state Enable for pin 7, active high + PSU_IOU_SLCR_MIO_MST_TRI0_PIN_07_TRI 0 + + Master Tri-state Enable for pin 8, active high + PSU_IOU_SLCR_MIO_MST_TRI0_PIN_08_TRI 0 + + Master Tri-state Enable for pin 9, active high + PSU_IOU_SLCR_MIO_MST_TRI0_PIN_09_TRI 0 + + Master Tri-state Enable for pin 10, active high + PSU_IOU_SLCR_MIO_MST_TRI0_PIN_10_TRI 0 + + Master Tri-state Enable for pin 11, active high + PSU_IOU_SLCR_MIO_MST_TRI0_PIN_11_TRI 0 + + Master Tri-state Enable for pin 12, active high + PSU_IOU_SLCR_MIO_MST_TRI0_PIN_12_TRI 0 + + Master Tri-state Enable for pin 13, active high + PSU_IOU_SLCR_MIO_MST_TRI0_PIN_13_TRI 0 + + Master Tri-state Enable for pin 14, active high + PSU_IOU_SLCR_MIO_MST_TRI0_PIN_14_TRI 0 + + Master Tri-state Enable for pin 15, active high + PSU_IOU_SLCR_MIO_MST_TRI0_PIN_15_TRI 0 + + Master Tri-state Enable for pin 16, active high + PSU_IOU_SLCR_MIO_MST_TRI0_PIN_16_TRI 0 + + Master Tri-state Enable for pin 17, active high + PSU_IOU_SLCR_MIO_MST_TRI0_PIN_17_TRI 0 + + Master Tri-state Enable for pin 18, active high + PSU_IOU_SLCR_MIO_MST_TRI0_PIN_18_TRI 1 + + Master Tri-state Enable for pin 19, active high + PSU_IOU_SLCR_MIO_MST_TRI0_PIN_19_TRI 0 + + Master Tri-state Enable for pin 20, active high + PSU_IOU_SLCR_MIO_MST_TRI0_PIN_20_TRI 0 + + Master Tri-state Enable for pin 21, active high + PSU_IOU_SLCR_MIO_MST_TRI0_PIN_21_TRI 1 + + Master Tri-state Enable for pin 22, active high + PSU_IOU_SLCR_MIO_MST_TRI0_PIN_22_TRI 0 + + Master Tri-state Enable for pin 23, active high + PSU_IOU_SLCR_MIO_MST_TRI0_PIN_23_TRI 0 + + Master Tri-state Enable for pin 24, active high + PSU_IOU_SLCR_MIO_MST_TRI0_PIN_24_TRI 0 + + Master Tri-state Enable for pin 25, active high + PSU_IOU_SLCR_MIO_MST_TRI0_PIN_25_TRI 1 + + Master Tri-state Enable for pin 26, active high + PSU_IOU_SLCR_MIO_MST_TRI0_PIN_26_TRI 0 + + Master Tri-state Enable for pin 27, active high + PSU_IOU_SLCR_MIO_MST_TRI0_PIN_27_TRI 0 + + Master Tri-state Enable for pin 28, active high + PSU_IOU_SLCR_MIO_MST_TRI0_PIN_28_TRI 1 + + Master Tri-state Enable for pin 29, active high + PSU_IOU_SLCR_MIO_MST_TRI0_PIN_29_TRI 0 + + Master Tri-state Enable for pin 30, active high + PSU_IOU_SLCR_MIO_MST_TRI0_PIN_30_TRI 1 + + Master Tri-state Enable for pin 31, active high + PSU_IOU_SLCR_MIO_MST_TRI0_PIN_31_TRI 0 + + MIO pin Tri-state Enables, 31:0 + (OFFSET, MASK, VALUE) (0XFF180204, 0xFFFFFFFFU ,0x52240000U) + RegMask = (IOU_SLCR_MIO_MST_TRI0_PIN_00_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_01_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_02_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_03_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_04_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_05_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_06_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_07_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_08_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_09_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_10_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_11_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_12_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_13_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_14_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_15_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_16_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_17_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_18_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_19_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_20_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_21_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_22_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_23_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_24_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_25_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_26_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_27_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_28_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_29_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_30_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_31_TRI_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_00_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_01_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_02_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_03_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_04_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_05_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_06_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_07_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_08_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_09_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_10_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_11_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_12_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_13_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_14_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_15_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_16_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_17_TRI_SHIFT + | 0x00000001U << IOU_SLCR_MIO_MST_TRI0_PIN_18_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_19_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_20_TRI_SHIFT + | 0x00000001U << IOU_SLCR_MIO_MST_TRI0_PIN_21_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_22_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_23_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_24_TRI_SHIFT + | 0x00000001U << IOU_SLCR_MIO_MST_TRI0_PIN_25_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_26_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_27_TRI_SHIFT + | 0x00000001U << IOU_SLCR_MIO_MST_TRI0_PIN_28_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_29_TRI_SHIFT + | 0x00000001U << IOU_SLCR_MIO_MST_TRI0_PIN_30_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_31_TRI_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_MST_TRI0_OFFSET ,0xFFFFFFFFU ,0x52240000U); + /*############################################################################################################################ */ + + /*Register : MIO_MST_TRI1 @ 0XFF180208

+ + Master Tri-state Enable for pin 32, active high + PSU_IOU_SLCR_MIO_MST_TRI1_PIN_32_TRI 0 + + Master Tri-state Enable for pin 33, active high + PSU_IOU_SLCR_MIO_MST_TRI1_PIN_33_TRI 0 + + Master Tri-state Enable for pin 34, active high + PSU_IOU_SLCR_MIO_MST_TRI1_PIN_34_TRI 0 + + Master Tri-state Enable for pin 35, active high + PSU_IOU_SLCR_MIO_MST_TRI1_PIN_35_TRI 0 + + Master Tri-state Enable for pin 36, active high + PSU_IOU_SLCR_MIO_MST_TRI1_PIN_36_TRI 0 + + Master Tri-state Enable for pin 37, active high + PSU_IOU_SLCR_MIO_MST_TRI1_PIN_37_TRI 0 + + Master Tri-state Enable for pin 38, active high + PSU_IOU_SLCR_MIO_MST_TRI1_PIN_38_TRI 0 + + Master Tri-state Enable for pin 39, active high + PSU_IOU_SLCR_MIO_MST_TRI1_PIN_39_TRI 0 + + Master Tri-state Enable for pin 40, active high + PSU_IOU_SLCR_MIO_MST_TRI1_PIN_40_TRI 0 + + Master Tri-state Enable for pin 41, active high + PSU_IOU_SLCR_MIO_MST_TRI1_PIN_41_TRI 0 + + Master Tri-state Enable for pin 42, active high + PSU_IOU_SLCR_MIO_MST_TRI1_PIN_42_TRI 0 + + Master Tri-state Enable for pin 43, active high + PSU_IOU_SLCR_MIO_MST_TRI1_PIN_43_TRI 0 + + Master Tri-state Enable for pin 44, active high + PSU_IOU_SLCR_MIO_MST_TRI1_PIN_44_TRI 1 + + Master Tri-state Enable for pin 45, active high + PSU_IOU_SLCR_MIO_MST_TRI1_PIN_45_TRI 1 + + Master Tri-state Enable for pin 46, active high + PSU_IOU_SLCR_MIO_MST_TRI1_PIN_46_TRI 0 + + Master Tri-state Enable for pin 47, active high + PSU_IOU_SLCR_MIO_MST_TRI1_PIN_47_TRI 0 + + Master Tri-state Enable for pin 48, active high + PSU_IOU_SLCR_MIO_MST_TRI1_PIN_48_TRI 0 + + Master Tri-state Enable for pin 49, active high + PSU_IOU_SLCR_MIO_MST_TRI1_PIN_49_TRI 0 + + Master Tri-state Enable for pin 50, active high + PSU_IOU_SLCR_MIO_MST_TRI1_PIN_50_TRI 0 + + Master Tri-state Enable for pin 51, active high + PSU_IOU_SLCR_MIO_MST_TRI1_PIN_51_TRI 0 + + Master Tri-state Enable for pin 52, active high + PSU_IOU_SLCR_MIO_MST_TRI1_PIN_52_TRI 1 + + Master Tri-state Enable for pin 53, active high + PSU_IOU_SLCR_MIO_MST_TRI1_PIN_53_TRI 1 + + Master Tri-state Enable for pin 54, active high + PSU_IOU_SLCR_MIO_MST_TRI1_PIN_54_TRI 0 + + Master Tri-state Enable for pin 55, active high + PSU_IOU_SLCR_MIO_MST_TRI1_PIN_55_TRI 1 + + Master Tri-state Enable for pin 56, active high + PSU_IOU_SLCR_MIO_MST_TRI1_PIN_56_TRI 0 + + Master Tri-state Enable for pin 57, active high + PSU_IOU_SLCR_MIO_MST_TRI1_PIN_57_TRI 0 + + Master Tri-state Enable for pin 58, active high + PSU_IOU_SLCR_MIO_MST_TRI1_PIN_58_TRI 0 + + Master Tri-state Enable for pin 59, active high + PSU_IOU_SLCR_MIO_MST_TRI1_PIN_59_TRI 0 + + Master Tri-state Enable for pin 60, active high + PSU_IOU_SLCR_MIO_MST_TRI1_PIN_60_TRI 0 + + Master Tri-state Enable for pin 61, active high + PSU_IOU_SLCR_MIO_MST_TRI1_PIN_61_TRI 0 + + Master Tri-state Enable for pin 62, active high + PSU_IOU_SLCR_MIO_MST_TRI1_PIN_62_TRI 0 + + Master Tri-state Enable for pin 63, active high + PSU_IOU_SLCR_MIO_MST_TRI1_PIN_63_TRI 0 + + MIO pin Tri-state Enables, 63:32 + (OFFSET, MASK, VALUE) (0XFF180208, 0xFFFFFFFFU ,0x00B03000U) + RegMask = (IOU_SLCR_MIO_MST_TRI1_PIN_32_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_33_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_34_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_35_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_36_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_37_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_38_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_39_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_40_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_41_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_42_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_43_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_44_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_45_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_46_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_47_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_48_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_49_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_50_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_51_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_52_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_53_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_54_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_55_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_56_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_57_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_58_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_59_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_60_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_61_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_62_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_63_TRI_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_32_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_33_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_34_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_35_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_36_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_37_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_38_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_39_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_40_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_41_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_42_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_43_TRI_SHIFT + | 0x00000001U << IOU_SLCR_MIO_MST_TRI1_PIN_44_TRI_SHIFT + | 0x00000001U << IOU_SLCR_MIO_MST_TRI1_PIN_45_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_46_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_47_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_48_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_49_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_50_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_51_TRI_SHIFT + | 0x00000001U << IOU_SLCR_MIO_MST_TRI1_PIN_52_TRI_SHIFT + | 0x00000001U << IOU_SLCR_MIO_MST_TRI1_PIN_53_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_54_TRI_SHIFT + | 0x00000001U << IOU_SLCR_MIO_MST_TRI1_PIN_55_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_56_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_57_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_58_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_59_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_60_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_61_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_62_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_63_TRI_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_MST_TRI1_OFFSET ,0xFFFFFFFFU ,0x00B03000U); + /*############################################################################################################################ */ + + /*Register : MIO_MST_TRI2 @ 0XFF18020C

+ + Master Tri-state Enable for pin 64, active high + PSU_IOU_SLCR_MIO_MST_TRI2_PIN_64_TRI 0 + + Master Tri-state Enable for pin 65, active high + PSU_IOU_SLCR_MIO_MST_TRI2_PIN_65_TRI 0 + + Master Tri-state Enable for pin 66, active high + PSU_IOU_SLCR_MIO_MST_TRI2_PIN_66_TRI 0 + + Master Tri-state Enable for pin 67, active high + PSU_IOU_SLCR_MIO_MST_TRI2_PIN_67_TRI 0 + + Master Tri-state Enable for pin 68, active high + PSU_IOU_SLCR_MIO_MST_TRI2_PIN_68_TRI 0 + + Master Tri-state Enable for pin 69, active high + PSU_IOU_SLCR_MIO_MST_TRI2_PIN_69_TRI 0 + + Master Tri-state Enable for pin 70, active high + PSU_IOU_SLCR_MIO_MST_TRI2_PIN_70_TRI 1 + + Master Tri-state Enable for pin 71, active high + PSU_IOU_SLCR_MIO_MST_TRI2_PIN_71_TRI 1 + + Master Tri-state Enable for pin 72, active high + PSU_IOU_SLCR_MIO_MST_TRI2_PIN_72_TRI 1 + + Master Tri-state Enable for pin 73, active high + PSU_IOU_SLCR_MIO_MST_TRI2_PIN_73_TRI 1 + + Master Tri-state Enable for pin 74, active high + PSU_IOU_SLCR_MIO_MST_TRI2_PIN_74_TRI 1 + + Master Tri-state Enable for pin 75, active high + PSU_IOU_SLCR_MIO_MST_TRI2_PIN_75_TRI 1 + + Master Tri-state Enable for pin 76, active high + PSU_IOU_SLCR_MIO_MST_TRI2_PIN_76_TRI 0 + + Master Tri-state Enable for pin 77, active high + PSU_IOU_SLCR_MIO_MST_TRI2_PIN_77_TRI 0 + + MIO pin Tri-state Enables, 77:64 + (OFFSET, MASK, VALUE) (0XFF18020C, 0x00003FFFU ,0x00000FC0U) + RegMask = (IOU_SLCR_MIO_MST_TRI2_PIN_64_TRI_MASK | IOU_SLCR_MIO_MST_TRI2_PIN_65_TRI_MASK | IOU_SLCR_MIO_MST_TRI2_PIN_66_TRI_MASK | IOU_SLCR_MIO_MST_TRI2_PIN_67_TRI_MASK | IOU_SLCR_MIO_MST_TRI2_PIN_68_TRI_MASK | IOU_SLCR_MIO_MST_TRI2_PIN_69_TRI_MASK | IOU_SLCR_MIO_MST_TRI2_PIN_70_TRI_MASK | IOU_SLCR_MIO_MST_TRI2_PIN_71_TRI_MASK | IOU_SLCR_MIO_MST_TRI2_PIN_72_TRI_MASK | IOU_SLCR_MIO_MST_TRI2_PIN_73_TRI_MASK | IOU_SLCR_MIO_MST_TRI2_PIN_74_TRI_MASK | IOU_SLCR_MIO_MST_TRI2_PIN_75_TRI_MASK | IOU_SLCR_MIO_MST_TRI2_PIN_76_TRI_MASK | IOU_SLCR_MIO_MST_TRI2_PIN_77_TRI_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_MST_TRI2_PIN_64_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI2_PIN_65_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI2_PIN_66_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI2_PIN_67_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI2_PIN_68_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI2_PIN_69_TRI_SHIFT + | 0x00000001U << IOU_SLCR_MIO_MST_TRI2_PIN_70_TRI_SHIFT + | 0x00000001U << IOU_SLCR_MIO_MST_TRI2_PIN_71_TRI_SHIFT + | 0x00000001U << IOU_SLCR_MIO_MST_TRI2_PIN_72_TRI_SHIFT + | 0x00000001U << IOU_SLCR_MIO_MST_TRI2_PIN_73_TRI_SHIFT + | 0x00000001U << IOU_SLCR_MIO_MST_TRI2_PIN_74_TRI_SHIFT + | 0x00000001U << IOU_SLCR_MIO_MST_TRI2_PIN_75_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI2_PIN_76_TRI_SHIFT + | 0x00000000U << IOU_SLCR_MIO_MST_TRI2_PIN_77_TRI_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_MST_TRI2_OFFSET ,0x00003FFFU ,0x00000FC0U); + /*############################################################################################################################ */ + + /*Register : bank0_ctrl0 @ 0XFF180138

+ + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_0 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_1 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_2 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_3 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_4 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_5 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_6 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_7 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_8 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_9 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_10 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_11 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_12 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_13 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_14 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_15 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_16 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_17 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_18 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_19 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_20 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_21 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_22 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_23 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_24 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_25 1 + + Drive0 control to MIO Bank 0 - control MIO[25:0] + (OFFSET, MASK, VALUE) (0XFF180138, 0x03FFFFFFU ,0x03FFFFFFU) + RegMask = (IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_0_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_1_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_2_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_3_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_4_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_5_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_6_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_7_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_8_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_9_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_10_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_11_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_12_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_13_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_14_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_15_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_16_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_17_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_18_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_19_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_20_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_21_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_22_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_23_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_24_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_25_MASK | 0 ); + + RegVal = ((0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_0_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_1_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_2_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_3_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_4_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_5_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_6_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_7_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_8_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_9_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_10_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_11_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_12_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_13_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_14_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_15_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_16_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_17_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_18_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_19_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_20_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_21_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_22_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_23_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_24_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_25_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_BANK0_CTRL0_OFFSET ,0x03FFFFFFU ,0x03FFFFFFU); + /*############################################################################################################################ */ + + /*Register : bank0_ctrl1 @ 0XFF18013C

+ + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_0 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_1 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_2 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_3 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_4 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_5 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_6 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_7 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_8 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_9 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_10 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_11 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_12 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_13 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_14 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_15 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_16 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_17 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_18 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_19 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_20 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_21 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_22 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_23 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_24 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_25 1 + + Drive1 control to MIO Bank 0 - control MIO[25:0] + (OFFSET, MASK, VALUE) (0XFF18013C, 0x03FFFFFFU ,0x03FFFFFFU) + RegMask = (IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_0_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_1_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_2_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_3_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_4_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_5_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_6_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_7_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_8_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_9_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_10_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_11_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_12_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_13_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_14_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_15_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_16_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_17_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_18_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_19_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_20_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_21_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_22_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_23_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_24_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_25_MASK | 0 ); + + RegVal = ((0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_0_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_1_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_2_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_3_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_4_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_5_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_6_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_7_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_8_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_9_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_10_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_11_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_12_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_13_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_14_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_15_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_16_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_17_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_18_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_19_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_20_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_21_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_22_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_23_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_24_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_25_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_BANK0_CTRL1_OFFSET ,0x03FFFFFFU ,0x03FFFFFFU); + /*############################################################################################################################ */ + + /*Register : bank0_ctrl3 @ 0XFF180140

+ + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_0 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_1 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_2 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_3 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_4 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_5 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_6 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_7 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_8 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_9 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_10 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_11 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_12 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_13 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_14 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_15 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_16 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_17 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_18 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_19 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_20 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_21 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_22 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_23 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_24 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_25 0 + + Selects either Schmitt or CMOS input for MIO Bank 0 - control MIO[25:0] + (OFFSET, MASK, VALUE) (0XFF180140, 0x03FFFFFFU ,0x00000000U) + RegMask = (IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_0_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_1_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_2_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_3_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_4_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_5_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_6_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_7_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_8_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_9_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_10_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_11_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_12_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_13_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_14_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_15_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_16_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_17_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_18_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_19_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_20_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_21_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_22_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_23_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_24_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_25_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_0_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_1_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_2_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_3_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_4_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_5_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_6_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_7_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_8_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_9_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_10_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_11_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_12_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_13_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_14_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_15_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_16_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_17_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_18_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_19_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_20_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_21_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_22_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_23_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_24_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_25_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_BANK0_CTRL3_OFFSET ,0x03FFFFFFU ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : bank0_ctrl4 @ 0XFF180144

+ + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_0 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_1 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_2 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_3 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_4 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_5 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_6 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_7 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_8 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_9 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_10 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_11 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_12 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_13 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_14 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_15 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_16 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_17 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_18 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_19 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_20 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_21 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_22 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_23 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_24 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_25 1 + + When mio_bank0_pull_enable is set, this selects pull up or pull down for MIO Bank 0 - control MIO[25:0] + (OFFSET, MASK, VALUE) (0XFF180144, 0x03FFFFFFU ,0x03FFFFFFU) + RegMask = (IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_0_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_1_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_2_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_3_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_4_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_5_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_6_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_7_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_8_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_9_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_10_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_11_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_12_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_13_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_14_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_15_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_16_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_17_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_18_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_19_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_20_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_21_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_22_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_23_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_24_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_25_MASK | 0 ); + + RegVal = ((0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_0_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_1_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_2_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_3_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_4_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_5_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_6_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_7_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_8_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_9_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_10_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_11_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_12_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_13_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_14_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_15_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_16_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_17_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_18_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_19_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_20_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_21_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_22_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_23_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_24_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_25_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_BANK0_CTRL4_OFFSET ,0x03FFFFFFU ,0x03FFFFFFU); + /*############################################################################################################################ */ + + /*Register : bank0_ctrl5 @ 0XFF180148

+ + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_0 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_1 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_2 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_3 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_4 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_5 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_6 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_7 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_8 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_9 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_10 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_11 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_12 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_13 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_14 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_15 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_16 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_17 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_18 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_19 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_20 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_21 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_22 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_23 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_24 1 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_25 1 + + When set, this enables mio_bank0_pullupdown to selects pull up or pull down for MIO Bank 0 - control MIO[25:0] + (OFFSET, MASK, VALUE) (0XFF180148, 0x03FFFFFFU ,0x03FFFFFFU) + RegMask = (IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_0_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_1_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_2_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_3_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_4_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_5_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_6_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_7_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_8_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_9_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_10_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_11_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_12_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_13_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_14_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_15_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_16_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_17_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_18_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_19_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_20_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_21_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_22_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_23_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_24_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_25_MASK | 0 ); + + RegVal = ((0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_0_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_1_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_2_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_3_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_4_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_5_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_6_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_7_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_8_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_9_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_10_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_11_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_12_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_13_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_14_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_15_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_16_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_17_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_18_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_19_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_20_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_21_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_22_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_23_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_24_SHIFT + | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_25_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_BANK0_CTRL5_OFFSET ,0x03FFFFFFU ,0x03FFFFFFU); + /*############################################################################################################################ */ + + /*Register : bank0_ctrl6 @ 0XFF18014C

+ + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_0 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_1 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_2 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_3 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_4 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_5 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_6 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_7 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_8 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_9 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_10 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_11 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_12 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_13 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_14 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_15 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_16 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_17 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_18 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_19 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_20 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_21 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_22 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_23 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_24 0 + + Each bit applies to a single IO. Bit 0 for MIO[0]. + PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_25 0 + + Slew rate control to MIO Bank 0 - control MIO[25:0] + (OFFSET, MASK, VALUE) (0XFF18014C, 0x03FFFFFFU ,0x00000000U) + RegMask = (IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_0_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_1_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_2_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_3_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_4_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_5_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_6_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_7_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_8_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_9_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_10_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_11_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_12_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_13_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_14_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_15_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_16_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_17_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_18_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_19_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_20_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_21_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_22_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_23_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_24_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_25_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_0_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_1_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_2_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_3_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_4_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_5_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_6_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_7_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_8_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_9_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_10_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_11_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_12_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_13_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_14_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_15_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_16_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_17_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_18_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_19_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_20_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_21_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_22_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_23_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_24_SHIFT + | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_25_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_BANK0_CTRL6_OFFSET ,0x03FFFFFFU ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : bank1_ctrl0 @ 0XFF180154

+ + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_0 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_1 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_2 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_3 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_4 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_5 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_6 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_7 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_8 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_9 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_10 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_11 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_12 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_13 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_14 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_15 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_16 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_17 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_18 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_19 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_20 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_21 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_22 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_23 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_24 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_25 1 + + Drive0 control to MIO Bank 1 - control MIO[51:26] + (OFFSET, MASK, VALUE) (0XFF180154, 0x03FFFFFFU ,0x03FFFFFFU) + RegMask = (IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_0_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_1_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_2_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_3_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_4_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_5_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_6_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_7_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_8_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_9_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_10_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_11_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_12_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_13_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_14_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_15_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_16_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_17_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_18_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_19_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_20_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_21_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_22_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_23_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_24_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_25_MASK | 0 ); + + RegVal = ((0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_0_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_1_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_2_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_3_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_4_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_5_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_6_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_7_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_8_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_9_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_10_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_11_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_12_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_13_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_14_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_15_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_16_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_17_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_18_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_19_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_20_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_21_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_22_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_23_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_24_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_25_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_BANK1_CTRL0_OFFSET ,0x03FFFFFFU ,0x03FFFFFFU); + /*############################################################################################################################ */ + + /*Register : bank1_ctrl1 @ 0XFF180158

+ + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_0 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_1 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_2 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_3 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_4 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_5 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_6 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_7 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_8 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_9 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_10 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_11 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_12 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_13 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_14 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_15 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_16 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_17 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_18 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_19 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_20 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_21 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_22 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_23 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_24 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_25 1 + + Drive1 control to MIO Bank 1 - control MIO[51:26] + (OFFSET, MASK, VALUE) (0XFF180158, 0x03FFFFFFU ,0x03FFFFFFU) + RegMask = (IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_0_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_1_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_2_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_3_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_4_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_5_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_6_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_7_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_8_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_9_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_10_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_11_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_12_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_13_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_14_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_15_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_16_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_17_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_18_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_19_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_20_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_21_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_22_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_23_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_24_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_25_MASK | 0 ); + + RegVal = ((0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_0_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_1_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_2_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_3_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_4_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_5_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_6_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_7_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_8_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_9_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_10_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_11_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_12_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_13_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_14_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_15_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_16_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_17_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_18_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_19_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_20_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_21_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_22_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_23_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_24_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_25_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_BANK1_CTRL1_OFFSET ,0x03FFFFFFU ,0x03FFFFFFU); + /*############################################################################################################################ */ + + /*Register : bank1_ctrl3 @ 0XFF18015C

+ + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_0 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_1 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_2 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_3 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_4 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_5 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_6 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_7 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_8 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_9 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_10 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_11 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_12 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_13 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_14 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_15 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_16 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_17 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_18 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_19 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_20 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_21 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_22 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_23 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_24 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_25 0 + + Selects either Schmitt or CMOS input for MIO Bank 1 - control MIO[51:26] + (OFFSET, MASK, VALUE) (0XFF18015C, 0x03FFFFFFU ,0x00000000U) + RegMask = (IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_0_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_1_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_2_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_3_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_4_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_5_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_6_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_7_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_8_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_9_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_10_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_11_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_12_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_13_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_14_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_15_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_16_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_17_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_18_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_19_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_20_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_21_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_22_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_23_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_24_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_25_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_0_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_1_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_2_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_3_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_4_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_5_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_6_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_7_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_8_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_9_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_10_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_11_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_12_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_13_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_14_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_15_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_16_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_17_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_18_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_19_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_20_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_21_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_22_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_23_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_24_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_25_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_BANK1_CTRL3_OFFSET ,0x03FFFFFFU ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : bank1_ctrl4 @ 0XFF180160

+ + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_0 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_1 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_2 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_3 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_4 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_5 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_6 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_7 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_8 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_9 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_10 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_11 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_12 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_13 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_14 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_15 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_16 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_17 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_18 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_19 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_20 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_21 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_22 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_23 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_24 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_25 1 + + When mio_bank1_pull_enable is set, this selects pull up or pull down for MIO Bank 1 - control MIO[51:26] + (OFFSET, MASK, VALUE) (0XFF180160, 0x03FFFFFFU ,0x03FFFFFFU) + RegMask = (IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_0_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_1_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_2_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_3_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_4_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_5_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_6_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_7_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_8_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_9_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_10_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_11_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_12_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_13_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_14_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_15_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_16_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_17_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_18_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_19_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_20_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_21_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_22_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_23_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_24_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_25_MASK | 0 ); + + RegVal = ((0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_0_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_1_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_2_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_3_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_4_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_5_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_6_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_7_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_8_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_9_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_10_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_11_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_12_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_13_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_14_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_15_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_16_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_17_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_18_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_19_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_20_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_21_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_22_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_23_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_24_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_25_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_BANK1_CTRL4_OFFSET ,0x03FFFFFFU ,0x03FFFFFFU); + /*############################################################################################################################ */ + + /*Register : bank1_ctrl5 @ 0XFF180164

+ + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_0 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_1 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_2 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_3 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_4 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_5 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_6 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_7 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_8 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_9 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_10 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_11 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_12 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_13 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_14 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_15 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_16 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_17 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_18 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_19 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_20 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_21 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_22 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_23 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_24 1 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_25 1 + + When set, this enables mio_bank1_pullupdown to selects pull up or pull down for MIO Bank 1 - control MIO[51:26] + (OFFSET, MASK, VALUE) (0XFF180164, 0x03FFFFFFU ,0x03FFFFFFU) + RegMask = (IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_0_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_1_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_2_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_3_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_4_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_5_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_6_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_7_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_8_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_9_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_10_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_11_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_12_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_13_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_14_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_15_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_16_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_17_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_18_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_19_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_20_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_21_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_22_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_23_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_24_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_25_MASK | 0 ); + + RegVal = ((0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_0_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_1_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_2_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_3_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_4_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_5_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_6_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_7_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_8_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_9_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_10_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_11_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_12_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_13_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_14_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_15_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_16_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_17_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_18_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_19_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_20_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_21_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_22_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_23_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_24_SHIFT + | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_25_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_BANK1_CTRL5_OFFSET ,0x03FFFFFFU ,0x03FFFFFFU); + /*############################################################################################################################ */ + + /*Register : bank1_ctrl6 @ 0XFF180168

+ + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_0 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_1 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_2 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_3 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_4 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_5 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_6 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_7 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_8 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_9 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_10 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_11 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_12 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_13 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_14 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_15 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_16 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_17 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_18 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_19 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_20 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_21 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_22 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_23 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_24 0 + + Each bit applies to a single IO. Bit 0 for MIO[26]. + PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_25 0 + + Slew rate control to MIO Bank 1 - control MIO[51:26] + (OFFSET, MASK, VALUE) (0XFF180168, 0x03FFFFFFU ,0x00000000U) + RegMask = (IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_0_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_1_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_2_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_3_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_4_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_5_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_6_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_7_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_8_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_9_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_10_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_11_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_12_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_13_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_14_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_15_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_16_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_17_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_18_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_19_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_20_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_21_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_22_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_23_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_24_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_25_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_0_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_1_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_2_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_3_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_4_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_5_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_6_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_7_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_8_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_9_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_10_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_11_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_12_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_13_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_14_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_15_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_16_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_17_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_18_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_19_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_20_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_21_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_22_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_23_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_24_SHIFT + | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_25_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_BANK1_CTRL6_OFFSET ,0x03FFFFFFU ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : bank2_ctrl0 @ 0XFF180170

+ + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_0 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_1 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_2 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_3 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_4 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_5 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_6 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_7 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_8 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_9 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_10 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_11 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_12 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_13 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_14 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_15 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_16 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_17 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_18 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_19 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_20 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_21 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_22 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_23 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_24 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_25 1 + + Drive0 control to MIO Bank 2 - control MIO[77:52] + (OFFSET, MASK, VALUE) (0XFF180170, 0x03FFFFFFU ,0x03FFFFFFU) + RegMask = (IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_0_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_1_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_2_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_3_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_4_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_5_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_6_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_7_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_8_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_9_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_10_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_11_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_12_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_13_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_14_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_15_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_16_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_17_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_18_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_19_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_20_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_21_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_22_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_23_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_24_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_25_MASK | 0 ); + + RegVal = ((0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_0_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_1_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_2_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_3_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_4_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_5_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_6_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_7_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_8_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_9_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_10_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_11_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_12_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_13_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_14_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_15_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_16_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_17_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_18_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_19_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_20_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_21_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_22_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_23_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_24_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_25_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_BANK2_CTRL0_OFFSET ,0x03FFFFFFU ,0x03FFFFFFU); + /*############################################################################################################################ */ + + /*Register : bank2_ctrl1 @ 0XFF180174

+ + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_0 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_1 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_2 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_3 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_4 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_5 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_6 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_7 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_8 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_9 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_10 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_11 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_12 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_13 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_14 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_15 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_16 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_17 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_18 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_19 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_20 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_21 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_22 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_23 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_24 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_25 1 + + Drive1 control to MIO Bank 2 - control MIO[77:52] + (OFFSET, MASK, VALUE) (0XFF180174, 0x03FFFFFFU ,0x03FFFFFFU) + RegMask = (IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_0_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_1_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_2_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_3_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_4_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_5_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_6_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_7_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_8_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_9_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_10_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_11_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_12_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_13_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_14_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_15_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_16_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_17_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_18_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_19_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_20_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_21_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_22_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_23_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_24_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_25_MASK | 0 ); + + RegVal = ((0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_0_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_1_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_2_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_3_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_4_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_5_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_6_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_7_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_8_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_9_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_10_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_11_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_12_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_13_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_14_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_15_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_16_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_17_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_18_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_19_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_20_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_21_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_22_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_23_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_24_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_25_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_BANK2_CTRL1_OFFSET ,0x03FFFFFFU ,0x03FFFFFFU); + /*############################################################################################################################ */ + + /*Register : bank2_ctrl3 @ 0XFF180178

+ + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_0 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_1 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_2 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_3 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_4 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_5 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_6 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_7 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_8 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_9 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_10 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_11 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_12 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_13 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_14 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_15 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_16 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_17 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_18 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_19 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_20 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_21 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_22 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_23 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_24 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_25 0 + + Selects either Schmitt or CMOS input for MIO Bank 2 - control MIO[77:52] + (OFFSET, MASK, VALUE) (0XFF180178, 0x03FFFFFFU ,0x00000000U) + RegMask = (IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_0_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_1_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_2_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_3_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_4_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_5_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_6_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_7_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_8_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_9_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_10_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_11_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_12_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_13_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_14_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_15_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_16_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_17_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_18_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_19_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_20_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_21_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_22_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_23_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_24_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_25_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_0_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_1_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_2_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_3_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_4_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_5_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_6_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_7_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_8_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_9_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_10_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_11_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_12_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_13_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_14_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_15_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_16_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_17_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_18_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_19_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_20_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_21_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_22_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_23_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_24_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_25_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_BANK2_CTRL3_OFFSET ,0x03FFFFFFU ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : bank2_ctrl4 @ 0XFF18017C

+ + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_0 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_1 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_2 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_3 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_4 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_5 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_6 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_7 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_8 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_9 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_10 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_11 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_12 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_13 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_14 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_15 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_16 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_17 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_18 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_19 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_20 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_21 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_22 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_23 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_24 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_25 1 + + When mio_bank2_pull_enable is set, this selects pull up or pull down for MIO Bank 2 - control MIO[77:52] + (OFFSET, MASK, VALUE) (0XFF18017C, 0x03FFFFFFU ,0x03FFFFFFU) + RegMask = (IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_0_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_1_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_2_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_3_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_4_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_5_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_6_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_7_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_8_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_9_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_10_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_11_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_12_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_13_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_14_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_15_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_16_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_17_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_18_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_19_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_20_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_21_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_22_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_23_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_24_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_25_MASK | 0 ); + + RegVal = ((0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_0_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_1_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_2_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_3_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_4_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_5_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_6_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_7_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_8_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_9_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_10_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_11_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_12_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_13_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_14_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_15_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_16_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_17_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_18_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_19_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_20_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_21_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_22_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_23_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_24_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_25_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_BANK2_CTRL4_OFFSET ,0x03FFFFFFU ,0x03FFFFFFU); + /*############################################################################################################################ */ + + /*Register : bank2_ctrl5 @ 0XFF180180

+ + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_0 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_1 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_2 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_3 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_4 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_5 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_6 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_7 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_8 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_9 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_10 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_11 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_12 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_13 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_14 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_15 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_16 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_17 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_18 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_19 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_20 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_21 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_22 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_23 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_24 1 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_25 1 + + When set, this enables mio_bank2_pullupdown to selects pull up or pull down for MIO Bank 2 - control MIO[77:52] + (OFFSET, MASK, VALUE) (0XFF180180, 0x03FFFFFFU ,0x03FFFFFFU) + RegMask = (IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_0_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_1_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_2_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_3_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_4_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_5_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_6_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_7_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_8_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_9_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_10_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_11_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_12_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_13_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_14_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_15_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_16_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_17_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_18_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_19_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_20_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_21_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_22_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_23_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_24_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_25_MASK | 0 ); + + RegVal = ((0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_0_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_1_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_2_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_3_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_4_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_5_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_6_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_7_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_8_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_9_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_10_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_11_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_12_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_13_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_14_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_15_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_16_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_17_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_18_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_19_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_20_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_21_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_22_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_23_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_24_SHIFT + | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_25_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_BANK2_CTRL5_OFFSET ,0x03FFFFFFU ,0x03FFFFFFU); + /*############################################################################################################################ */ + + /*Register : bank2_ctrl6 @ 0XFF180184

+ + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_0 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_1 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_2 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_3 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_4 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_5 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_6 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_7 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_8 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_9 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_10 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_11 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_12 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_13 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_14 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_15 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_16 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_17 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_18 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_19 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_20 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_21 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_22 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_23 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_24 0 + + Each bit applies to a single IO. Bit 0 for MIO[52]. + PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_25 0 + + Slew rate control to MIO Bank 2 - control MIO[77:52] + (OFFSET, MASK, VALUE) (0XFF180184, 0x03FFFFFFU ,0x00000000U) + RegMask = (IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_0_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_1_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_2_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_3_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_4_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_5_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_6_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_7_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_8_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_9_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_10_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_11_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_12_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_13_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_14_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_15_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_16_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_17_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_18_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_19_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_20_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_21_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_22_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_23_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_24_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_25_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_0_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_1_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_2_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_3_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_4_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_5_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_6_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_7_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_8_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_9_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_10_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_11_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_12_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_13_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_14_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_15_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_16_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_17_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_18_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_19_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_20_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_21_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_22_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_23_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_24_SHIFT + | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_25_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_BANK2_CTRL6_OFFSET ,0x03FFFFFFU ,0x00000000U); + /*############################################################################################################################ */ + + // : LOOPBACK + /*Register : MIO_LOOPBACK @ 0XFF180200

+ + I2C Loopback Control. 0 = Connect I2C inputs according to MIO mapping. 1 = Loop I2C 0 outputs to I2C 1 inputs, and I2C 1 outp + ts to I2C 0 inputs. + PSU_IOU_SLCR_MIO_LOOPBACK_I2C0_LOOP_I2C1 0 + + CAN Loopback Control. 0 = Connect CAN inputs according to MIO mapping. 1 = Loop CAN 0 Tx to CAN 1 Rx, and CAN 1 Tx to CAN 0 R + . + PSU_IOU_SLCR_MIO_LOOPBACK_CAN0_LOOP_CAN1 0 + + UART Loopback Control. 0 = Connect UART inputs according to MIO mapping. 1 = Loop UART 0 outputs to UART 1 inputs, and UART 1 + outputs to UART 0 inputs. RXD/TXD cross-connected. RTS/CTS cross-connected. DSR, DTR, DCD and RI not used. + PSU_IOU_SLCR_MIO_LOOPBACK_UA0_LOOP_UA1 0 + + SPI Loopback Control. 0 = Connect SPI inputs according to MIO mapping. 1 = Loop SPI 0 outputs to SPI 1 inputs, and SPI 1 outp + ts to SPI 0 inputs. The other SPI core will appear on the LS Slave Select. + PSU_IOU_SLCR_MIO_LOOPBACK_SPI0_LOOP_SPI1 0 + + Loopback function within MIO + (OFFSET, MASK, VALUE) (0XFF180200, 0x0000000FU ,0x00000000U) + RegMask = (IOU_SLCR_MIO_LOOPBACK_I2C0_LOOP_I2C1_MASK | IOU_SLCR_MIO_LOOPBACK_CAN0_LOOP_CAN1_MASK | IOU_SLCR_MIO_LOOPBACK_UA0_LOOP_UA1_MASK | IOU_SLCR_MIO_LOOPBACK_SPI0_LOOP_SPI1_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_MIO_LOOPBACK_I2C0_LOOP_I2C1_SHIFT + | 0x00000000U << IOU_SLCR_MIO_LOOPBACK_CAN0_LOOP_CAN1_SHIFT + | 0x00000000U << IOU_SLCR_MIO_LOOPBACK_UA0_LOOP_UA1_SHIFT + | 0x00000000U << IOU_SLCR_MIO_LOOPBACK_SPI0_LOOP_SPI1_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_MIO_LOOPBACK_OFFSET ,0x0000000FU ,0x00000000U); + /*############################################################################################################################ */ + + + return 1; +} +unsigned long psu_peripherals_init_data() { + // : RESET BLOCKS + // : TIMESTAMP + /*Register : RST_LPD_IOU2 @ 0XFF5E0238

+ + Block level reset + PSU_CRL_APB_RST_LPD_IOU2_TIMESTAMP_RESET 0 + + Software control register for the IOU block. Each bit will cause a singlerperipheral or part of the peripheral to be reset. + (OFFSET, MASK, VALUE) (0XFF5E0238, 0x00100000U ,0x00000000U) + RegMask = (CRL_APB_RST_LPD_IOU2_TIMESTAMP_RESET_MASK | 0 ); + + RegVal = ((0x00000000U << CRL_APB_RST_LPD_IOU2_TIMESTAMP_RESET_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_RST_LPD_IOU2_OFFSET ,0x00100000U ,0x00000000U); + /*############################################################################################################################ */ + + // : ENET + /*Register : RST_LPD_IOU0 @ 0XFF5E0230

+ + GEM 3 reset + PSU_CRL_APB_RST_LPD_IOU0_GEM3_RESET 0 + + Software controlled reset for the GEMs + (OFFSET, MASK, VALUE) (0XFF5E0230, 0x00000008U ,0x00000000U) + RegMask = (CRL_APB_RST_LPD_IOU0_GEM3_RESET_MASK | 0 ); + + RegVal = ((0x00000000U << CRL_APB_RST_LPD_IOU0_GEM3_RESET_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_RST_LPD_IOU0_OFFSET ,0x00000008U ,0x00000000U); + /*############################################################################################################################ */ + + // : QSPI + /*Register : RST_LPD_IOU2 @ 0XFF5E0238

+ + Block level reset + PSU_CRL_APB_RST_LPD_IOU2_QSPI_RESET 0 + + Software control register for the IOU block. Each bit will cause a singlerperipheral or part of the peripheral to be reset. + (OFFSET, MASK, VALUE) (0XFF5E0238, 0x00000001U ,0x00000000U) + RegMask = (CRL_APB_RST_LPD_IOU2_QSPI_RESET_MASK | 0 ); + + RegVal = ((0x00000000U << CRL_APB_RST_LPD_IOU2_QSPI_RESET_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_RST_LPD_IOU2_OFFSET ,0x00000001U ,0x00000000U); + /*############################################################################################################################ */ + + // : QSPI TAP DELAY + /*Register : IOU_TAPDLY_BYPASS @ 0XFF180390

+ + 0: Do not by pass the tap delays on the Rx clock signal of LQSPI 1: Bypass the Tap delay on the Rx clock signal of LQSPI + PSU_IOU_SLCR_IOU_TAPDLY_BYPASS_LQSPI_RX 1 + + IOU tap delay bypass for the LQSPI and NAND controllers + (OFFSET, MASK, VALUE) (0XFF180390, 0x00000004U ,0x00000004U) + RegMask = (IOU_SLCR_IOU_TAPDLY_BYPASS_LQSPI_RX_MASK | 0 ); + + RegVal = ((0x00000001U << IOU_SLCR_IOU_TAPDLY_BYPASS_LQSPI_RX_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_IOU_TAPDLY_BYPASS_OFFSET ,0x00000004U ,0x00000004U); + /*############################################################################################################################ */ + + // : NAND + // : USB + /*Register : RST_LPD_TOP @ 0XFF5E023C

+ + USB 0 reset for control registers + PSU_CRL_APB_RST_LPD_TOP_USB0_APB_RESET 0 + + USB 0 sleep circuit reset + PSU_CRL_APB_RST_LPD_TOP_USB0_HIBERRESET 0 + + USB 0 reset + PSU_CRL_APB_RST_LPD_TOP_USB0_CORERESET 0 + + Software control register for the LPD block. + (OFFSET, MASK, VALUE) (0XFF5E023C, 0x00000540U ,0x00000000U) + RegMask = (CRL_APB_RST_LPD_TOP_USB0_APB_RESET_MASK | CRL_APB_RST_LPD_TOP_USB0_HIBERRESET_MASK | CRL_APB_RST_LPD_TOP_USB0_CORERESET_MASK | 0 ); + + RegVal = ((0x00000000U << CRL_APB_RST_LPD_TOP_USB0_APB_RESET_SHIFT + | 0x00000000U << CRL_APB_RST_LPD_TOP_USB0_HIBERRESET_SHIFT + | 0x00000000U << CRL_APB_RST_LPD_TOP_USB0_CORERESET_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_RST_LPD_TOP_OFFSET ,0x00000540U ,0x00000000U); + /*############################################################################################################################ */ + + // : FPD RESET + /*Register : RST_FPD_TOP @ 0XFD1A0100

+ + Display Port block level reset (includes DPDMA) + PSU_CRF_APB_RST_FPD_TOP_DP_RESET 0 + + FPD WDT reset + PSU_CRF_APB_RST_FPD_TOP_SWDT_RESET 0 + + GDMA block level reset + PSU_CRF_APB_RST_FPD_TOP_GDMA_RESET 0 + + Pixel Processor (submodule of GPU) block level reset + PSU_CRF_APB_RST_FPD_TOP_GPU_PP0_RESET 0 + + Pixel Processor (submodule of GPU) block level reset + PSU_CRF_APB_RST_FPD_TOP_GPU_PP1_RESET 0 + + GPU block level reset + PSU_CRF_APB_RST_FPD_TOP_GPU_RESET 0 + + GT block level reset + PSU_CRF_APB_RST_FPD_TOP_GT_RESET 0 + + Sata block level reset + PSU_CRF_APB_RST_FPD_TOP_SATA_RESET 0 + + FPD Block level software controlled reset + (OFFSET, MASK, VALUE) (0XFD1A0100, 0x0001807EU ,0x00000000U) + RegMask = (CRF_APB_RST_FPD_TOP_DP_RESET_MASK | CRF_APB_RST_FPD_TOP_SWDT_RESET_MASK | CRF_APB_RST_FPD_TOP_GDMA_RESET_MASK | CRF_APB_RST_FPD_TOP_GPU_PP0_RESET_MASK | CRF_APB_RST_FPD_TOP_GPU_PP1_RESET_MASK | CRF_APB_RST_FPD_TOP_GPU_RESET_MASK | CRF_APB_RST_FPD_TOP_GT_RESET_MASK | CRF_APB_RST_FPD_TOP_SATA_RESET_MASK | 0 ); + + RegVal = ((0x00000000U << CRF_APB_RST_FPD_TOP_DP_RESET_SHIFT + | 0x00000000U << CRF_APB_RST_FPD_TOP_SWDT_RESET_SHIFT + | 0x00000000U << CRF_APB_RST_FPD_TOP_GDMA_RESET_SHIFT + | 0x00000000U << CRF_APB_RST_FPD_TOP_GPU_PP0_RESET_SHIFT + | 0x00000000U << CRF_APB_RST_FPD_TOP_GPU_PP1_RESET_SHIFT + | 0x00000000U << CRF_APB_RST_FPD_TOP_GPU_RESET_SHIFT + | 0x00000000U << CRF_APB_RST_FPD_TOP_GT_RESET_SHIFT + | 0x00000000U << CRF_APB_RST_FPD_TOP_SATA_RESET_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRF_APB_RST_FPD_TOP_OFFSET ,0x0001807EU ,0x00000000U); + /*############################################################################################################################ */ + + // : SD + /*Register : RST_LPD_IOU2 @ 0XFF5E0238

+ + Block level reset + PSU_CRL_APB_RST_LPD_IOU2_SDIO1_RESET 0 + + Software control register for the IOU block. Each bit will cause a singlerperipheral or part of the peripheral to be reset. + (OFFSET, MASK, VALUE) (0XFF5E0238, 0x00000040U ,0x00000000U) + RegMask = (CRL_APB_RST_LPD_IOU2_SDIO1_RESET_MASK | 0 ); + + RegVal = ((0x00000000U << CRL_APB_RST_LPD_IOU2_SDIO1_RESET_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_RST_LPD_IOU2_OFFSET ,0x00000040U ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : CTRL_REG_SD @ 0XFF180310

+ + SD or eMMC selection on SDIO1 0: SD enabled 1: eMMC enabled + PSU_IOU_SLCR_CTRL_REG_SD_SD1_EMMC_SEL 0 + + SD eMMC selection + (OFFSET, MASK, VALUE) (0XFF180310, 0x00008000U ,0x00000000U) + RegMask = (IOU_SLCR_CTRL_REG_SD_SD1_EMMC_SEL_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_CTRL_REG_SD_SD1_EMMC_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_CTRL_REG_SD_OFFSET ,0x00008000U ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : SD_CONFIG_REG2 @ 0XFF180320

+ + Should be set based on the final product usage 00 - Removable SCard Slot 01 - Embedded Slot for One Device 10 - Shared Bus Sl + t 11 - Reserved + PSU_IOU_SLCR_SD_CONFIG_REG2_SD1_SLOTTYPE 0 + + 1.8V Support 1: 1.8V supported 0: 1.8V not supported support + PSU_IOU_SLCR_SD_CONFIG_REG2_SD1_1P8V 0 + + 3.0V Support 1: 3.0V supported 0: 3.0V not supported support + PSU_IOU_SLCR_SD_CONFIG_REG2_SD1_3P0V 0 + + 3.3V Support 1: 3.3V supported 0: 3.3V not supported support + PSU_IOU_SLCR_SD_CONFIG_REG2_SD1_3P3V 1 + + SD Config Register 2 + (OFFSET, MASK, VALUE) (0XFF180320, 0x33800000U ,0x00800000U) + RegMask = (IOU_SLCR_SD_CONFIG_REG2_SD1_SLOTTYPE_MASK | IOU_SLCR_SD_CONFIG_REG2_SD1_1P8V_MASK | IOU_SLCR_SD_CONFIG_REG2_SD1_3P0V_MASK | IOU_SLCR_SD_CONFIG_REG2_SD1_3P3V_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_SD_CONFIG_REG2_SD1_SLOTTYPE_SHIFT + | 0x00000000U << IOU_SLCR_SD_CONFIG_REG2_SD1_1P8V_SHIFT + | 0x00000000U << IOU_SLCR_SD_CONFIG_REG2_SD1_3P0V_SHIFT + | 0x00000001U << IOU_SLCR_SD_CONFIG_REG2_SD1_3P3V_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_SD_CONFIG_REG2_OFFSET ,0x33800000U ,0x00800000U); + /*############################################################################################################################ */ + + // : SD1 BASE CLOCK + /*Register : SD_CONFIG_REG1 @ 0XFF18031C

+ + Base Clock Frequency for SD Clock. This is the frequency of the xin_clk. + PSU_IOU_SLCR_SD_CONFIG_REG1_SD1_BASECLK 0xc7 + + SD Config Register 1 + (OFFSET, MASK, VALUE) (0XFF18031C, 0x7F800000U ,0x63800000U) + RegMask = (IOU_SLCR_SD_CONFIG_REG1_SD1_BASECLK_MASK | 0 ); + + RegVal = ((0x000000C7U << IOU_SLCR_SD_CONFIG_REG1_SD1_BASECLK_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_SD_CONFIG_REG1_OFFSET ,0x7F800000U ,0x63800000U); + /*############################################################################################################################ */ + + // : SD1 RETUNER + /*Register : SD_CONFIG_REG3 @ 0XFF180324

+ + This is the Timer Count for Re-Tuning Timer for Re-Tuning Mode 1 to 3. Setting to 4'b0 disables Re-Tuning Timer. 0h - Get inf + rmation via other source 1h = 1 seconds 2h = 2 seconds 3h = 4 seconds 4h = 8 seconds -- n = 2(n-1) seconds -- Bh = 1024 secon + s Fh - Ch = Reserved + PSU_IOU_SLCR_SD_CONFIG_REG3_SD1_RETUNETMR 0X0 + + SD Config Register 3 + (OFFSET, MASK, VALUE) (0XFF180324, 0x03C00000U ,0x00000000U) + RegMask = (IOU_SLCR_SD_CONFIG_REG3_SD1_RETUNETMR_MASK | 0 ); + + RegVal = ((0x00000000U << IOU_SLCR_SD_CONFIG_REG3_SD1_RETUNETMR_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SLCR_SD_CONFIG_REG3_OFFSET ,0x03C00000U ,0x00000000U); + /*############################################################################################################################ */ + + // : CAN + /*Register : RST_LPD_IOU2 @ 0XFF5E0238

+ + Block level reset + PSU_CRL_APB_RST_LPD_IOU2_CAN1_RESET 0 + + Software control register for the IOU block. Each bit will cause a singlerperipheral or part of the peripheral to be reset. + (OFFSET, MASK, VALUE) (0XFF5E0238, 0x00000100U ,0x00000000U) + RegMask = (CRL_APB_RST_LPD_IOU2_CAN1_RESET_MASK | 0 ); + + RegVal = ((0x00000000U << CRL_APB_RST_LPD_IOU2_CAN1_RESET_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_RST_LPD_IOU2_OFFSET ,0x00000100U ,0x00000000U); + /*############################################################################################################################ */ + + // : I2C + /*Register : RST_LPD_IOU2 @ 0XFF5E0238

+ + Block level reset + PSU_CRL_APB_RST_LPD_IOU2_I2C0_RESET 0 + + Block level reset + PSU_CRL_APB_RST_LPD_IOU2_I2C1_RESET 0 + + Software control register for the IOU block. Each bit will cause a singlerperipheral or part of the peripheral to be reset. + (OFFSET, MASK, VALUE) (0XFF5E0238, 0x00000600U ,0x00000000U) + RegMask = (CRL_APB_RST_LPD_IOU2_I2C0_RESET_MASK | CRL_APB_RST_LPD_IOU2_I2C1_RESET_MASK | 0 ); + + RegVal = ((0x00000000U << CRL_APB_RST_LPD_IOU2_I2C0_RESET_SHIFT + | 0x00000000U << CRL_APB_RST_LPD_IOU2_I2C1_RESET_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_RST_LPD_IOU2_OFFSET ,0x00000600U ,0x00000000U); + /*############################################################################################################################ */ + + // : SWDT + /*Register : RST_LPD_IOU2 @ 0XFF5E0238

+ + Block level reset + PSU_CRL_APB_RST_LPD_IOU2_SWDT_RESET 0 + + Software control register for the IOU block. Each bit will cause a singlerperipheral or part of the peripheral to be reset. + (OFFSET, MASK, VALUE) (0XFF5E0238, 0x00008000U ,0x00000000U) + RegMask = (CRL_APB_RST_LPD_IOU2_SWDT_RESET_MASK | 0 ); + + RegVal = ((0x00000000U << CRL_APB_RST_LPD_IOU2_SWDT_RESET_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_RST_LPD_IOU2_OFFSET ,0x00008000U ,0x00000000U); + /*############################################################################################################################ */ + + // : SPI + // : TTC + /*Register : RST_LPD_IOU2 @ 0XFF5E0238

+ + Block level reset + PSU_CRL_APB_RST_LPD_IOU2_TTC0_RESET 0 + + Block level reset + PSU_CRL_APB_RST_LPD_IOU2_TTC1_RESET 0 + + Block level reset + PSU_CRL_APB_RST_LPD_IOU2_TTC2_RESET 0 + + Block level reset + PSU_CRL_APB_RST_LPD_IOU2_TTC3_RESET 0 + + Software control register for the IOU block. Each bit will cause a singlerperipheral or part of the peripheral to be reset. + (OFFSET, MASK, VALUE) (0XFF5E0238, 0x00007800U ,0x00000000U) + RegMask = (CRL_APB_RST_LPD_IOU2_TTC0_RESET_MASK | CRL_APB_RST_LPD_IOU2_TTC1_RESET_MASK | CRL_APB_RST_LPD_IOU2_TTC2_RESET_MASK | CRL_APB_RST_LPD_IOU2_TTC3_RESET_MASK | 0 ); + + RegVal = ((0x00000000U << CRL_APB_RST_LPD_IOU2_TTC0_RESET_SHIFT + | 0x00000000U << CRL_APB_RST_LPD_IOU2_TTC1_RESET_SHIFT + | 0x00000000U << CRL_APB_RST_LPD_IOU2_TTC2_RESET_SHIFT + | 0x00000000U << CRL_APB_RST_LPD_IOU2_TTC3_RESET_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_RST_LPD_IOU2_OFFSET ,0x00007800U ,0x00000000U); + /*############################################################################################################################ */ + + // : UART + /*Register : RST_LPD_IOU2 @ 0XFF5E0238

+ + Block level reset + PSU_CRL_APB_RST_LPD_IOU2_UART0_RESET 0 + + Block level reset + PSU_CRL_APB_RST_LPD_IOU2_UART1_RESET 0 + + Software control register for the IOU block. Each bit will cause a singlerperipheral or part of the peripheral to be reset. + (OFFSET, MASK, VALUE) (0XFF5E0238, 0x00000006U ,0x00000000U) + RegMask = (CRL_APB_RST_LPD_IOU2_UART0_RESET_MASK | CRL_APB_RST_LPD_IOU2_UART1_RESET_MASK | 0 ); + + RegVal = ((0x00000000U << CRL_APB_RST_LPD_IOU2_UART0_RESET_SHIFT + | 0x00000000U << CRL_APB_RST_LPD_IOU2_UART1_RESET_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_RST_LPD_IOU2_OFFSET ,0x00000006U ,0x00000000U); + /*############################################################################################################################ */ + + // : TPIU WIDTH + // : TRACE LOCK ACCESS REGISTER + /*Register : LAR @ 0XFE980FB0

+ + A write of 0xC5ACCE55 enables further write access to this device. A write of any value other than 0xC5ACCE55 will have the a + fect of removing write access. + PSU_TPIU_LAR_ACCESS_W 0XC5ACCE55 + + This is used to enable write access to device registers. External accesses from a debugger (paddrdbg31 = 1) are not subject t + the Lock Registers. A debugger does not have to unlock the component in order to write and modify the registers in the compo + ent. + (OFFSET, MASK, VALUE) (0XFE980FB0, 0xFFFFFFFFU ,0xC5ACCE55U) + RegMask = (TPIU_LAR_ACCESS_W_MASK | 0 ); + + RegVal = ((0xC5ACCE55U << TPIU_LAR_ACCESS_W_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (TPIU_LAR_OFFSET ,0xFFFFFFFFU ,0xC5ACCE55U); + /*############################################################################################################################ */ + + // : TRACE CURRENT PORT SIZE + /*Register : Current_port_size @ 0XFE980004

+ + Indicates whether the current port size of the TPIU is 32 bits. + PSU_TPIU_CURRENT_PORT_SIZE_PORT_SIZE_32 1 + + The Current Port Size Register has the same format as the Supported Port Sizes register but only one bit is set, and all othe + s must be zero. Writing values with more than one bit set or setting a bit that is not indicated as supported is not supporte + and causes unpredictable behavior.On reset this defaults to the smallest possible port size, 1 bit, and so reads as 0x000000 + 1.Note : Do not modify the value while the Trace Port is still active, or without correctly stopping the formatter (see Forma + ter and Flush Control Register, 0x304). This can result in data not being aligned to the port width. For example, data on an + -bit Trace Port might not be byte aligned. + (OFFSET, MASK, VALUE) (0XFE980004, 0x80000000U ,0x80000000U) + RegMask = (TPIU_CURRENT_PORT_SIZE_PORT_SIZE_32_MASK | 0 ); + + RegVal = ((0x00000001U << TPIU_CURRENT_PORT_SIZE_PORT_SIZE_32_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (TPIU_CURRENT_PORT_SIZE_OFFSET ,0x80000000U ,0x80000000U); + /*############################################################################################################################ */ + + // : TRACE LOCK ACCESS REGISTER + /*Register : LAR @ 0XFE980FB0

+ + A write of 0xC5ACCE55 enables further write access to this device. A write of any value other than 0xC5ACCE55 will have the a + fect of removing write access. + PSU_TPIU_LAR_ACCESS_W 0X0 + + This is used to enable write access to device registers. External accesses from a debugger (paddrdbg31 = 1) are not subject t + the Lock Registers. A debugger does not have to unlock the component in order to write and modify the registers in the compo + ent. + (OFFSET, MASK, VALUE) (0XFE980FB0, 0xFFFFFFFFU ,0x00000000U) + RegMask = (TPIU_LAR_ACCESS_W_MASK | 0 ); + + RegVal = ((0x00000000U << TPIU_LAR_ACCESS_W_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (TPIU_LAR_OFFSET ,0xFFFFFFFFU ,0x00000000U); + /*############################################################################################################################ */ + + // : UART BAUD RATE + /*Register : Baud_rate_divider_reg0 @ 0XFF000034

+ + Baud rate divider value: 0 - 3: ignored 4 - 255: Baud rate + PSU_UART0_BAUD_RATE_DIVIDER_REG0_BDIV 0x5 + + Baud Rate Divider Register + (OFFSET, MASK, VALUE) (0XFF000034, 0x000000FFU ,0x00000005U) + RegMask = (UART0_BAUD_RATE_DIVIDER_REG0_BDIV_MASK | 0 ); + + RegVal = ((0x00000005U << UART0_BAUD_RATE_DIVIDER_REG0_BDIV_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (UART0_BAUD_RATE_DIVIDER_REG0_OFFSET ,0x000000FFU ,0x00000005U); + /*############################################################################################################################ */ + + /*Register : Baud_rate_gen_reg0 @ 0XFF000018

+ + Baud Rate Clock Divisor Value: 0: Disables baud_sample 1: Clock divisor bypass (baud_sample = sel_clk) 2 - 65535: baud_sample + PSU_UART0_BAUD_RATE_GEN_REG0_CD 0x8f + + Baud Rate Generator Register. + (OFFSET, MASK, VALUE) (0XFF000018, 0x0000FFFFU ,0x0000008FU) + RegMask = (UART0_BAUD_RATE_GEN_REG0_CD_MASK | 0 ); + + RegVal = ((0x0000008FU << UART0_BAUD_RATE_GEN_REG0_CD_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (UART0_BAUD_RATE_GEN_REG0_OFFSET ,0x0000FFFFU ,0x0000008FU); + /*############################################################################################################################ */ + + /*Register : Control_reg0 @ 0XFF000000

+ + Stop transmitter break: 0: no affect 1: stop transmission of the break after a minimum of one character length and transmit a + high level during 12 bit periods. It can be set regardless of the value of STTBRK. + PSU_UART0_CONTROL_REG0_STPBRK 0x0 + + Start transmitter break: 0: no affect 1: start to transmit a break after the characters currently present in the FIFO and the + transmit shift register have been transmitted. It can only be set if STPBRK (Stop transmitter break) is not high. + PSU_UART0_CONTROL_REG0_STTBRK 0x0 + + Restart receiver timeout counter: 1: receiver timeout counter is restarted. This bit is self clearing once the restart has co + pleted. + PSU_UART0_CONTROL_REG0_RSTTO 0x0 + + Transmit disable: 0: enable transmitter 1: disable transmitter + PSU_UART0_CONTROL_REG0_TXDIS 0x0 + + Transmit enable: 0: disable transmitter 1: enable transmitter, provided the TXDIS field is set to 0. + PSU_UART0_CONTROL_REG0_TXEN 0x1 + + Receive disable: 0: enable 1: disable, regardless of the value of RXEN + PSU_UART0_CONTROL_REG0_RXDIS 0x0 + + Receive enable: 0: disable 1: enable When set to one, the receiver logic is enabled, provided the RXDIS field is set to zero. + PSU_UART0_CONTROL_REG0_RXEN 0x1 + + Software reset for Tx data path: 0: no affect 1: transmitter logic is reset and all pending transmitter data is discarded Thi + bit is self clearing once the reset has completed. + PSU_UART0_CONTROL_REG0_TXRES 0x1 + + Software reset for Rx data path: 0: no affect 1: receiver logic is reset and all pending receiver data is discarded. This bit + is self clearing once the reset has completed. + PSU_UART0_CONTROL_REG0_RXRES 0x1 + + UART Control Register + (OFFSET, MASK, VALUE) (0XFF000000, 0x000001FFU ,0x00000017U) + RegMask = (UART0_CONTROL_REG0_STPBRK_MASK | UART0_CONTROL_REG0_STTBRK_MASK | UART0_CONTROL_REG0_RSTTO_MASK | UART0_CONTROL_REG0_TXDIS_MASK | UART0_CONTROL_REG0_TXEN_MASK | UART0_CONTROL_REG0_RXDIS_MASK | UART0_CONTROL_REG0_RXEN_MASK | UART0_CONTROL_REG0_TXRES_MASK | UART0_CONTROL_REG0_RXRES_MASK | 0 ); + + RegVal = ((0x00000000U << UART0_CONTROL_REG0_STPBRK_SHIFT + | 0x00000000U << UART0_CONTROL_REG0_STTBRK_SHIFT + | 0x00000000U << UART0_CONTROL_REG0_RSTTO_SHIFT + | 0x00000000U << UART0_CONTROL_REG0_TXDIS_SHIFT + | 0x00000001U << UART0_CONTROL_REG0_TXEN_SHIFT + | 0x00000000U << UART0_CONTROL_REG0_RXDIS_SHIFT + | 0x00000001U << UART0_CONTROL_REG0_RXEN_SHIFT + | 0x00000001U << UART0_CONTROL_REG0_TXRES_SHIFT + | 0x00000001U << UART0_CONTROL_REG0_RXRES_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (UART0_CONTROL_REG0_OFFSET ,0x000001FFU ,0x00000017U); + /*############################################################################################################################ */ + + /*Register : mode_reg0 @ 0XFF000004

+ + Channel mode: Defines the mode of operation of the UART. 00: normal 01: automatic echo 10: local loopback 11: remote loopback + PSU_UART0_MODE_REG0_CHMODE 0x0 + + Number of stop bits: Defines the number of stop bits to detect on receive and to generate on transmit. 00: 1 stop bit 01: 1.5 + stop bits 10: 2 stop bits 11: reserved + PSU_UART0_MODE_REG0_NBSTOP 0x0 + + Parity type select: Defines the expected parity to check on receive and the parity to generate on transmit. 000: even parity + 01: odd parity 010: forced to 0 parity (space) 011: forced to 1 parity (mark) 1xx: no parity + PSU_UART0_MODE_REG0_PAR 0x4 + + Character length select: Defines the number of bits in each character. 11: 6 bits 10: 7 bits 0x: 8 bits + PSU_UART0_MODE_REG0_CHRL 0x0 + + Clock source select: This field defines whether a pre-scalar of 8 is applied to the baud rate generator input clock. 0: clock + source is uart_ref_clk 1: clock source is uart_ref_clk/8 + PSU_UART0_MODE_REG0_CLKS 0x0 + + UART Mode Register + (OFFSET, MASK, VALUE) (0XFF000004, 0x000003FFU ,0x00000020U) + RegMask = (UART0_MODE_REG0_CHMODE_MASK | UART0_MODE_REG0_NBSTOP_MASK | UART0_MODE_REG0_PAR_MASK | UART0_MODE_REG0_CHRL_MASK | UART0_MODE_REG0_CLKS_MASK | 0 ); + + RegVal = ((0x00000000U << UART0_MODE_REG0_CHMODE_SHIFT + | 0x00000000U << UART0_MODE_REG0_NBSTOP_SHIFT + | 0x00000004U << UART0_MODE_REG0_PAR_SHIFT + | 0x00000000U << UART0_MODE_REG0_CHRL_SHIFT + | 0x00000000U << UART0_MODE_REG0_CLKS_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (UART0_MODE_REG0_OFFSET ,0x000003FFU ,0x00000020U); + /*############################################################################################################################ */ + + /*Register : Baud_rate_divider_reg0 @ 0XFF010034

+ + Baud rate divider value: 0 - 3: ignored 4 - 255: Baud rate + PSU_UART1_BAUD_RATE_DIVIDER_REG0_BDIV 0x5 + + Baud Rate Divider Register + (OFFSET, MASK, VALUE) (0XFF010034, 0x000000FFU ,0x00000005U) + RegMask = (UART1_BAUD_RATE_DIVIDER_REG0_BDIV_MASK | 0 ); + + RegVal = ((0x00000005U << UART1_BAUD_RATE_DIVIDER_REG0_BDIV_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (UART1_BAUD_RATE_DIVIDER_REG0_OFFSET ,0x000000FFU ,0x00000005U); + /*############################################################################################################################ */ + + /*Register : Baud_rate_gen_reg0 @ 0XFF010018

+ + Baud Rate Clock Divisor Value: 0: Disables baud_sample 1: Clock divisor bypass (baud_sample = sel_clk) 2 - 65535: baud_sample + PSU_UART1_BAUD_RATE_GEN_REG0_CD 0x8f + + Baud Rate Generator Register. + (OFFSET, MASK, VALUE) (0XFF010018, 0x0000FFFFU ,0x0000008FU) + RegMask = (UART1_BAUD_RATE_GEN_REG0_CD_MASK | 0 ); + + RegVal = ((0x0000008FU << UART1_BAUD_RATE_GEN_REG0_CD_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (UART1_BAUD_RATE_GEN_REG0_OFFSET ,0x0000FFFFU ,0x0000008FU); + /*############################################################################################################################ */ + + /*Register : Control_reg0 @ 0XFF010000

+ + Stop transmitter break: 0: no affect 1: stop transmission of the break after a minimum of one character length and transmit a + high level during 12 bit periods. It can be set regardless of the value of STTBRK. + PSU_UART1_CONTROL_REG0_STPBRK 0x0 + + Start transmitter break: 0: no affect 1: start to transmit a break after the characters currently present in the FIFO and the + transmit shift register have been transmitted. It can only be set if STPBRK (Stop transmitter break) is not high. + PSU_UART1_CONTROL_REG0_STTBRK 0x0 + + Restart receiver timeout counter: 1: receiver timeout counter is restarted. This bit is self clearing once the restart has co + pleted. + PSU_UART1_CONTROL_REG0_RSTTO 0x0 + + Transmit disable: 0: enable transmitter 1: disable transmitter + PSU_UART1_CONTROL_REG0_TXDIS 0x0 + + Transmit enable: 0: disable transmitter 1: enable transmitter, provided the TXDIS field is set to 0. + PSU_UART1_CONTROL_REG0_TXEN 0x1 + + Receive disable: 0: enable 1: disable, regardless of the value of RXEN + PSU_UART1_CONTROL_REG0_RXDIS 0x0 + + Receive enable: 0: disable 1: enable When set to one, the receiver logic is enabled, provided the RXDIS field is set to zero. + PSU_UART1_CONTROL_REG0_RXEN 0x1 + + Software reset for Tx data path: 0: no affect 1: transmitter logic is reset and all pending transmitter data is discarded Thi + bit is self clearing once the reset has completed. + PSU_UART1_CONTROL_REG0_TXRES 0x1 + + Software reset for Rx data path: 0: no affect 1: receiver logic is reset and all pending receiver data is discarded. This bit + is self clearing once the reset has completed. + PSU_UART1_CONTROL_REG0_RXRES 0x1 + + UART Control Register + (OFFSET, MASK, VALUE) (0XFF010000, 0x000001FFU ,0x00000017U) + RegMask = (UART1_CONTROL_REG0_STPBRK_MASK | UART1_CONTROL_REG0_STTBRK_MASK | UART1_CONTROL_REG0_RSTTO_MASK | UART1_CONTROL_REG0_TXDIS_MASK | UART1_CONTROL_REG0_TXEN_MASK | UART1_CONTROL_REG0_RXDIS_MASK | UART1_CONTROL_REG0_RXEN_MASK | UART1_CONTROL_REG0_TXRES_MASK | UART1_CONTROL_REG0_RXRES_MASK | 0 ); + + RegVal = ((0x00000000U << UART1_CONTROL_REG0_STPBRK_SHIFT + | 0x00000000U << UART1_CONTROL_REG0_STTBRK_SHIFT + | 0x00000000U << UART1_CONTROL_REG0_RSTTO_SHIFT + | 0x00000000U << UART1_CONTROL_REG0_TXDIS_SHIFT + | 0x00000001U << UART1_CONTROL_REG0_TXEN_SHIFT + | 0x00000000U << UART1_CONTROL_REG0_RXDIS_SHIFT + | 0x00000001U << UART1_CONTROL_REG0_RXEN_SHIFT + | 0x00000001U << UART1_CONTROL_REG0_TXRES_SHIFT + | 0x00000001U << UART1_CONTROL_REG0_RXRES_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (UART1_CONTROL_REG0_OFFSET ,0x000001FFU ,0x00000017U); + /*############################################################################################################################ */ + + /*Register : mode_reg0 @ 0XFF010004

+ + Channel mode: Defines the mode of operation of the UART. 00: normal 01: automatic echo 10: local loopback 11: remote loopback + PSU_UART1_MODE_REG0_CHMODE 0x0 + + Number of stop bits: Defines the number of stop bits to detect on receive and to generate on transmit. 00: 1 stop bit 01: 1.5 + stop bits 10: 2 stop bits 11: reserved + PSU_UART1_MODE_REG0_NBSTOP 0x0 + + Parity type select: Defines the expected parity to check on receive and the parity to generate on transmit. 000: even parity + 01: odd parity 010: forced to 0 parity (space) 011: forced to 1 parity (mark) 1xx: no parity + PSU_UART1_MODE_REG0_PAR 0x4 + + Character length select: Defines the number of bits in each character. 11: 6 bits 10: 7 bits 0x: 8 bits + PSU_UART1_MODE_REG0_CHRL 0x0 + + Clock source select: This field defines whether a pre-scalar of 8 is applied to the baud rate generator input clock. 0: clock + source is uart_ref_clk 1: clock source is uart_ref_clk/8 + PSU_UART1_MODE_REG0_CLKS 0x0 + + UART Mode Register + (OFFSET, MASK, VALUE) (0XFF010004, 0x000003FFU ,0x00000020U) + RegMask = (UART1_MODE_REG0_CHMODE_MASK | UART1_MODE_REG0_NBSTOP_MASK | UART1_MODE_REG0_PAR_MASK | UART1_MODE_REG0_CHRL_MASK | UART1_MODE_REG0_CLKS_MASK | 0 ); + + RegVal = ((0x00000000U << UART1_MODE_REG0_CHMODE_SHIFT + | 0x00000000U << UART1_MODE_REG0_NBSTOP_SHIFT + | 0x00000004U << UART1_MODE_REG0_PAR_SHIFT + | 0x00000000U << UART1_MODE_REG0_CHRL_SHIFT + | 0x00000000U << UART1_MODE_REG0_CLKS_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (UART1_MODE_REG0_OFFSET ,0x000003FFU ,0x00000020U); + /*############################################################################################################################ */ + + // : GPIO + // : ADMA TZ + /*Register : slcr_adma @ 0XFF4B0024

+ + TrustZone Classification for ADMA + PSU_LPD_SLCR_SECURE_SLCR_ADMA_TZ 0XFF + + RPU TrustZone settings + (OFFSET, MASK, VALUE) (0XFF4B0024, 0x000000FFU ,0x000000FFU) + RegMask = (LPD_SLCR_SECURE_SLCR_ADMA_TZ_MASK | 0 ); + + RegVal = ((0x000000FFU << LPD_SLCR_SECURE_SLCR_ADMA_TZ_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_SLCR_SECURE_SLCR_ADMA_OFFSET ,0x000000FFU ,0x000000FFU); + /*############################################################################################################################ */ + + // : CSU TAMPERING + // : CSU TAMPER STATUS + /*Register : tamper_status @ 0XFFCA5000

+ + CSU regsiter + PSU_CSU_TAMPER_STATUS_TAMPER_0 0 + + External MIO + PSU_CSU_TAMPER_STATUS_TAMPER_1 0 + + JTAG toggle detect + PSU_CSU_TAMPER_STATUS_TAMPER_2 0 + + PL SEU error + PSU_CSU_TAMPER_STATUS_TAMPER_3 0 + + AMS over temperature alarm for LPD + PSU_CSU_TAMPER_STATUS_TAMPER_4 0 + + AMS over temperature alarm for APU + PSU_CSU_TAMPER_STATUS_TAMPER_5 0 + + AMS voltage alarm for VCCPINT_FPD + PSU_CSU_TAMPER_STATUS_TAMPER_6 0 + + AMS voltage alarm for VCCPINT_LPD + PSU_CSU_TAMPER_STATUS_TAMPER_7 0 + + AMS voltage alarm for VCCPAUX + PSU_CSU_TAMPER_STATUS_TAMPER_8 0 + + AMS voltage alarm for DDRPHY + PSU_CSU_TAMPER_STATUS_TAMPER_9 0 + + AMS voltage alarm for PSIO bank 0/1/2 + PSU_CSU_TAMPER_STATUS_TAMPER_10 0 + + AMS voltage alarm for PSIO bank 3 (dedicated pins) + PSU_CSU_TAMPER_STATUS_TAMPER_11 0 + + AMS voltaage alarm for GT + PSU_CSU_TAMPER_STATUS_TAMPER_12 0 + + Tamper Response Status + (OFFSET, MASK, VALUE) (0XFFCA5000, 0x00001FFFU ,0x00000000U) + RegMask = (CSU_TAMPER_STATUS_TAMPER_0_MASK | CSU_TAMPER_STATUS_TAMPER_1_MASK | CSU_TAMPER_STATUS_TAMPER_2_MASK | CSU_TAMPER_STATUS_TAMPER_3_MASK | CSU_TAMPER_STATUS_TAMPER_4_MASK | CSU_TAMPER_STATUS_TAMPER_5_MASK | CSU_TAMPER_STATUS_TAMPER_6_MASK | CSU_TAMPER_STATUS_TAMPER_7_MASK | CSU_TAMPER_STATUS_TAMPER_8_MASK | CSU_TAMPER_STATUS_TAMPER_9_MASK | CSU_TAMPER_STATUS_TAMPER_10_MASK | CSU_TAMPER_STATUS_TAMPER_11_MASK | CSU_TAMPER_STATUS_TAMPER_12_MASK | 0 ); + + RegVal = ((0x00000000U << CSU_TAMPER_STATUS_TAMPER_0_SHIFT + | 0x00000000U << CSU_TAMPER_STATUS_TAMPER_1_SHIFT + | 0x00000000U << CSU_TAMPER_STATUS_TAMPER_2_SHIFT + | 0x00000000U << CSU_TAMPER_STATUS_TAMPER_3_SHIFT + | 0x00000000U << CSU_TAMPER_STATUS_TAMPER_4_SHIFT + | 0x00000000U << CSU_TAMPER_STATUS_TAMPER_5_SHIFT + | 0x00000000U << CSU_TAMPER_STATUS_TAMPER_6_SHIFT + | 0x00000000U << CSU_TAMPER_STATUS_TAMPER_7_SHIFT + | 0x00000000U << CSU_TAMPER_STATUS_TAMPER_8_SHIFT + | 0x00000000U << CSU_TAMPER_STATUS_TAMPER_9_SHIFT + | 0x00000000U << CSU_TAMPER_STATUS_TAMPER_10_SHIFT + | 0x00000000U << CSU_TAMPER_STATUS_TAMPER_11_SHIFT + | 0x00000000U << CSU_TAMPER_STATUS_TAMPER_12_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CSU_TAMPER_STATUS_OFFSET ,0x00001FFFU ,0x00000000U); + /*############################################################################################################################ */ + + // : CSU TAMPER RESPONSE + // : CPU QOS DEFAULT + /*Register : ACE_CTRL @ 0XFD5C0060

+ + Set ACE outgoing AWQOS value + PSU_APU_ACE_CTRL_AWQOS 0X0 + + Set ACE outgoing ARQOS value + PSU_APU_ACE_CTRL_ARQOS 0X0 + + ACE Control Register + (OFFSET, MASK, VALUE) (0XFD5C0060, 0x000F000FU ,0x00000000U) + RegMask = (APU_ACE_CTRL_AWQOS_MASK | APU_ACE_CTRL_ARQOS_MASK | 0 ); + + RegVal = ((0x00000000U << APU_ACE_CTRL_AWQOS_SHIFT + | 0x00000000U << APU_ACE_CTRL_ARQOS_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (APU_ACE_CTRL_OFFSET ,0x000F000FU ,0x00000000U); + /*############################################################################################################################ */ + + // : ENABLES RTC SWITCH TO BATTERY WHEN VCC_PSAUX IS NOT AVAILABLE + /*Register : CONTROL @ 0XFFA60040

+ + Enables the RTC. By writing a 0 to this bit, RTC will be powered off and the only module that potentially draws current from + he battery will be BBRAM. The value read through this bit does not necessarily reflect whether RTC is enabled or not. It is e + pected that RTC is enabled every time it is being configured. If RTC is not used in the design, FSBL will disable it by writi + g a 0 to this bit. + PSU_RTC_CONTROL_BATTERY_DISABLE 0X1 + + This register controls various functionalities within the RTC + (OFFSET, MASK, VALUE) (0XFFA60040, 0x80000000U ,0x80000000U) + RegMask = (RTC_CONTROL_BATTERY_DISABLE_MASK | 0 ); + + RegVal = ((0x00000001U << RTC_CONTROL_BATTERY_DISABLE_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (RTC_CONTROL_OFFSET ,0x80000000U ,0x80000000U); + /*############################################################################################################################ */ + + // : TIMESTAMP COUNTER + /*Register : base_frequency_ID_register @ 0XFF260020

+ + Frequency in number of ticks per second. Valid range from 10 MHz to 100 MHz. + PSU_IOU_SCNTRS_BASE_FREQUENCY_ID_REGISTER_FREQ 0x5f5e100 + + Program this register to match the clock frequency of the timestamp generator, in ticks per second. For example, for a 50 MHz + clock, program 0x02FAF080. This register is not accessible to the read-only programming interface. + (OFFSET, MASK, VALUE) (0XFF260020, 0xFFFFFFFFU ,0x05F5E100U) + RegMask = (IOU_SCNTRS_BASE_FREQUENCY_ID_REGISTER_FREQ_MASK | 0 ); + + RegVal = ((0x05F5E100U << IOU_SCNTRS_BASE_FREQUENCY_ID_REGISTER_FREQ_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SCNTRS_BASE_FREQUENCY_ID_REGISTER_OFFSET ,0xFFFFFFFFU ,0x05F5E100U); + /*############################################################################################################################ */ + + /*Register : counter_control_register @ 0XFF260000

+ + Enable 0: The counter is disabled and not incrementing. 1: The counter is enabled and is incrementing. + PSU_IOU_SCNTRS_COUNTER_CONTROL_REGISTER_EN 0x1 + + Controls the counter increments. This register is not accessible to the read-only programming interface. + (OFFSET, MASK, VALUE) (0XFF260000, 0x00000001U ,0x00000001U) + RegMask = (IOU_SCNTRS_COUNTER_CONTROL_REGISTER_EN_MASK | 0 ); + + RegVal = ((0x00000001U << IOU_SCNTRS_COUNTER_CONTROL_REGISTER_EN_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (IOU_SCNTRS_COUNTER_CONTROL_REGISTER_OFFSET ,0x00000001U ,0x00000001U); + /*############################################################################################################################ */ + + // : TTC SRC SELECT + + return 1; +} +unsigned long psu_post_config_data() { + // : POST_CONFIG + + return 1; +} +unsigned long psu_peripherals_powerdwn_data() { + // : POWER DOWN REQUEST INTERRUPT ENABLE + // : POWER DOWN TRIGGER + + return 1; +} +unsigned long psu_lpd_xppu_data() { + // : MASTER ID LIST + /*Register : MASTER_ID00 @ 0XFF980100

+ + If set, only read transactions are allowed for the masters matching this register + PSU_LPD_XPPU_CFG_MASTER_ID00_MIDR 1 + + Mask to be applied before comparing + PSU_LPD_XPPU_CFG_MASTER_ID00_MIDM 960 + + Predefined Master ID for PMU + PSU_LPD_XPPU_CFG_MASTER_ID00_MID 128 + + Master ID 00 Register + (OFFSET, MASK, VALUE) (0XFF980100, 0x43FF03FFU ,0x43C00080U) + RegMask = (LPD_XPPU_CFG_MASTER_ID00_MIDR_MASK | LPD_XPPU_CFG_MASTER_ID00_MIDM_MASK | LPD_XPPU_CFG_MASTER_ID00_MID_MASK | 0 ); + + RegVal = ((0x00000001U << LPD_XPPU_CFG_MASTER_ID00_MIDR_SHIFT + | 0x000003C0U << LPD_XPPU_CFG_MASTER_ID00_MIDM_SHIFT + | 0x00000080U << LPD_XPPU_CFG_MASTER_ID00_MID_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_MASTER_ID00_OFFSET ,0x43FF03FFU ,0x43C00080U); + /*############################################################################################################################ */ + + /*Register : MASTER_ID01 @ 0XFF980104

+ + If set, only read transactions are allowed for the masters matching this register + PSU_LPD_XPPU_CFG_MASTER_ID01_MIDR 1 + + Mask to be applied before comparing + PSU_LPD_XPPU_CFG_MASTER_ID01_MIDM 1023 + + Predefined Master ID for RPU0 + PSU_LPD_XPPU_CFG_MASTER_ID01_MID 64 + + Master ID 01 Register + (OFFSET, MASK, VALUE) (0XFF980104, 0x43FF03FFU ,0x43FF0040U) + RegMask = (LPD_XPPU_CFG_MASTER_ID01_MIDR_MASK | LPD_XPPU_CFG_MASTER_ID01_MIDM_MASK | LPD_XPPU_CFG_MASTER_ID01_MID_MASK | 0 ); + + RegVal = ((0x00000001U << LPD_XPPU_CFG_MASTER_ID01_MIDR_SHIFT + | 0x000003FFU << LPD_XPPU_CFG_MASTER_ID01_MIDM_SHIFT + | 0x00000040U << LPD_XPPU_CFG_MASTER_ID01_MID_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_MASTER_ID01_OFFSET ,0x43FF03FFU ,0x43FF0040U); + /*############################################################################################################################ */ + + /*Register : MASTER_ID02 @ 0XFF980108

+ + If set, only read transactions are allowed for the masters matching this register + PSU_LPD_XPPU_CFG_MASTER_ID02_MIDR 1 + + Mask to be applied before comparing + PSU_LPD_XPPU_CFG_MASTER_ID02_MIDM 1008 + + Predefined Master ID for RPU1 + PSU_LPD_XPPU_CFG_MASTER_ID02_MID 0 + + Master ID 02 Register + (OFFSET, MASK, VALUE) (0XFF980108, 0x43FF03FFU ,0x43F00000U) + RegMask = (LPD_XPPU_CFG_MASTER_ID02_MIDR_MASK | LPD_XPPU_CFG_MASTER_ID02_MIDM_MASK | LPD_XPPU_CFG_MASTER_ID02_MID_MASK | 0 ); + + RegVal = ((0x00000001U << LPD_XPPU_CFG_MASTER_ID02_MIDR_SHIFT + | 0x000003F0U << LPD_XPPU_CFG_MASTER_ID02_MIDM_SHIFT + | 0x00000000U << LPD_XPPU_CFG_MASTER_ID02_MID_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_MASTER_ID02_OFFSET ,0x43FF03FFU ,0x43F00000U); + /*############################################################################################################################ */ + + /*Register : MASTER_ID03 @ 0XFF98010C

+ + If set, only read transactions are allowed for the masters matching this register + PSU_LPD_XPPU_CFG_MASTER_ID03_MIDR 1 + + Mask to be applied before comparing + PSU_LPD_XPPU_CFG_MASTER_ID03_MIDM 1008 + + Predefined Master ID for APU + PSU_LPD_XPPU_CFG_MASTER_ID03_MID 16 + + Master ID 03 Register + (OFFSET, MASK, VALUE) (0XFF98010C, 0x43FF03FFU ,0x43F00010U) + RegMask = (LPD_XPPU_CFG_MASTER_ID03_MIDR_MASK | LPD_XPPU_CFG_MASTER_ID03_MIDM_MASK | LPD_XPPU_CFG_MASTER_ID03_MID_MASK | 0 ); + + RegVal = ((0x00000001U << LPD_XPPU_CFG_MASTER_ID03_MIDR_SHIFT + | 0x000003F0U << LPD_XPPU_CFG_MASTER_ID03_MIDM_SHIFT + | 0x00000010U << LPD_XPPU_CFG_MASTER_ID03_MID_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_MASTER_ID03_OFFSET ,0x43FF03FFU ,0x43F00010U); + /*############################################################################################################################ */ + + /*Register : MASTER_ID04 @ 0XFF980110

+ + If set, only read transactions are allowed for the masters matching this register + PSU_LPD_XPPU_CFG_MASTER_ID04_MIDR 0 + + Mask to be applied before comparing + PSU_LPD_XPPU_CFG_MASTER_ID04_MIDM 960 + + Predefined Master ID for A53 Core 0 + PSU_LPD_XPPU_CFG_MASTER_ID04_MID 128 + + Master ID 04 Register + (OFFSET, MASK, VALUE) (0XFF980110, 0x43FF03FFU ,0x03C00080U) + RegMask = (LPD_XPPU_CFG_MASTER_ID04_MIDR_MASK | LPD_XPPU_CFG_MASTER_ID04_MIDM_MASK | LPD_XPPU_CFG_MASTER_ID04_MID_MASK | 0 ); + + RegVal = ((0x00000000U << LPD_XPPU_CFG_MASTER_ID04_MIDR_SHIFT + | 0x000003C0U << LPD_XPPU_CFG_MASTER_ID04_MIDM_SHIFT + | 0x00000080U << LPD_XPPU_CFG_MASTER_ID04_MID_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_MASTER_ID04_OFFSET ,0x43FF03FFU ,0x03C00080U); + /*############################################################################################################################ */ + + /*Register : MASTER_ID05 @ 0XFF980114

+ + If set, only read transactions are allowed for the masters matching this register + PSU_LPD_XPPU_CFG_MASTER_ID05_MIDR 0 + + Mask to be applied before comparing + PSU_LPD_XPPU_CFG_MASTER_ID05_MIDM 1023 + + Predefined Master ID for A53 Core 1 + PSU_LPD_XPPU_CFG_MASTER_ID05_MID 64 + + Master ID 05 Register + (OFFSET, MASK, VALUE) (0XFF980114, 0x43FF03FFU ,0x03FF0040U) + RegMask = (LPD_XPPU_CFG_MASTER_ID05_MIDR_MASK | LPD_XPPU_CFG_MASTER_ID05_MIDM_MASK | LPD_XPPU_CFG_MASTER_ID05_MID_MASK | 0 ); + + RegVal = ((0x00000000U << LPD_XPPU_CFG_MASTER_ID05_MIDR_SHIFT + | 0x000003FFU << LPD_XPPU_CFG_MASTER_ID05_MIDM_SHIFT + | 0x00000040U << LPD_XPPU_CFG_MASTER_ID05_MID_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_MASTER_ID05_OFFSET ,0x43FF03FFU ,0x03FF0040U); + /*############################################################################################################################ */ + + /*Register : MASTER_ID06 @ 0XFF980118

+ + If set, only read transactions are allowed for the masters matching this register + PSU_LPD_XPPU_CFG_MASTER_ID06_MIDR 0 + + Mask to be applied before comparing + PSU_LPD_XPPU_CFG_MASTER_ID06_MIDM 1008 + + Predefined Master ID for A53 Core 2 + PSU_LPD_XPPU_CFG_MASTER_ID06_MID 0 + + Master ID 06 Register + (OFFSET, MASK, VALUE) (0XFF980118, 0x43FF03FFU ,0x03F00000U) + RegMask = (LPD_XPPU_CFG_MASTER_ID06_MIDR_MASK | LPD_XPPU_CFG_MASTER_ID06_MIDM_MASK | LPD_XPPU_CFG_MASTER_ID06_MID_MASK | 0 ); + + RegVal = ((0x00000000U << LPD_XPPU_CFG_MASTER_ID06_MIDR_SHIFT + | 0x000003F0U << LPD_XPPU_CFG_MASTER_ID06_MIDM_SHIFT + | 0x00000000U << LPD_XPPU_CFG_MASTER_ID06_MID_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_MASTER_ID06_OFFSET ,0x43FF03FFU ,0x03F00000U); + /*############################################################################################################################ */ + + /*Register : MASTER_ID07 @ 0XFF98011C

+ + If set, only read transactions are allowed for the masters matching this register + PSU_LPD_XPPU_CFG_MASTER_ID07_MIDR 0 + + Mask to be applied before comparing + PSU_LPD_XPPU_CFG_MASTER_ID07_MIDM 1008 + + Predefined Master ID for A53 Core 3 + PSU_LPD_XPPU_CFG_MASTER_ID07_MID 16 + + Master ID 07 Register + (OFFSET, MASK, VALUE) (0XFF98011C, 0x43FF03FFU ,0x03F00010U) + RegMask = (LPD_XPPU_CFG_MASTER_ID07_MIDR_MASK | LPD_XPPU_CFG_MASTER_ID07_MIDM_MASK | LPD_XPPU_CFG_MASTER_ID07_MID_MASK | 0 ); + + RegVal = ((0x00000000U << LPD_XPPU_CFG_MASTER_ID07_MIDR_SHIFT + | 0x000003F0U << LPD_XPPU_CFG_MASTER_ID07_MIDM_SHIFT + | 0x00000010U << LPD_XPPU_CFG_MASTER_ID07_MID_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_MASTER_ID07_OFFSET ,0x43FF03FFU ,0x03F00010U); + /*############################################################################################################################ */ + + /*Register : MASTER_ID19 @ 0XFF98014C

+ + If set, only read transactions are allowed for the masters matching this register + PSU_LPD_XPPU_CFG_MASTER_ID19_MIDR 0 + + Mask to be applied before comparing + PSU_LPD_XPPU_CFG_MASTER_ID19_MIDM 0 + + Programmable Master ID + PSU_LPD_XPPU_CFG_MASTER_ID19_MID 0 + + Master ID 19 Register + (OFFSET, MASK, VALUE) (0XFF98014C, 0x43FF03FFU ,0x00000000U) + RegMask = (LPD_XPPU_CFG_MASTER_ID19_MIDR_MASK | LPD_XPPU_CFG_MASTER_ID19_MIDM_MASK | LPD_XPPU_CFG_MASTER_ID19_MID_MASK | 0 ); + + RegVal = ((0x00000000U << LPD_XPPU_CFG_MASTER_ID19_MIDR_SHIFT + | 0x00000000U << LPD_XPPU_CFG_MASTER_ID19_MIDM_SHIFT + | 0x00000000U << LPD_XPPU_CFG_MASTER_ID19_MID_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_MASTER_ID19_OFFSET ,0x43FF03FFU ,0x00000000U); + /*############################################################################################################################ */ + + // : APERTURE PERMISIION LIST + // : APERTURE NAME: UART0, START ADDRESS: FF000000, END ADDRESS: FF00FFFF + // : APERTURE NAME: UART1, START ADDRESS: FF010000, END ADDRESS: FF01FFFF + // : APERTURE NAME: I2C0, START ADDRESS: FF020000, END ADDRESS: FF02FFFF + // : APERTURE NAME: I2C1, START ADDRESS: FF030000, END ADDRESS: FF03FFFF + // : APERTURE NAME: SPI0, START ADDRESS: FF040000, END ADDRESS: FF04FFFF + // : APERTURE NAME: SPI1, START ADDRESS: FF050000, END ADDRESS: FF05FFFF + // : APERTURE NAME: CAN0, START ADDRESS: FF060000, END ADDRESS: FF06FFFF + // : APERTURE NAME: CAN1, START ADDRESS: FF070000, END ADDRESS: FF07FFFF + // : APERTURE NAME: RPU_UNUSED_12, START ADDRESS: FF080000, END ADDRESS: FF09FFFF + // : APERTURE NAME: RPU_UNUSED_12, START ADDRESS: FF080000, END ADDRESS: FF09FFFF + // : APERTURE NAME: GPIO, START ADDRESS: FF0A0000, END ADDRESS: FF0AFFFF + // : APERTURE NAME: GEM0, START ADDRESS: FF0B0000, END ADDRESS: FF0BFFFF + // : APERTURE NAME: GEM1, START ADDRESS: FF0C0000, END ADDRESS: FF0CFFFF + // : APERTURE NAME: GEM2, START ADDRESS: FF0D0000, END ADDRESS: FF0DFFFF + // : APERTURE NAME: GEM3, START ADDRESS: FF0E0000, END ADDRESS: FF0EFFFF + // : APERTURE NAME: QSPI, START ADDRESS: FF0F0000, END ADDRESS: FF0FFFFF + // : APERTURE NAME: NAND, START ADDRESS: FF100000, END ADDRESS: FF10FFFF + // : APERTURE NAME: TTC0, START ADDRESS: FF110000, END ADDRESS: FF11FFFF + // : APERTURE NAME: TTC1, START ADDRESS: FF120000, END ADDRESS: FF12FFFF + // : APERTURE NAME: TTC2, START ADDRESS: FF130000, END ADDRESS: FF13FFFF + // : APERTURE NAME: TTC3, START ADDRESS: FF140000, END ADDRESS: FF14FFFF + // : APERTURE NAME: SWDT, START ADDRESS: FF150000, END ADDRESS: FF15FFFF + // : APERTURE NAME: SD0, START ADDRESS: FF160000, END ADDRESS: FF16FFFF + // : APERTURE NAME: SD1, START ADDRESS: FF170000, END ADDRESS: FF17FFFF + // : APERTURE NAME: IOU_SLCR, START ADDRESS: FF180000, END ADDRESS: FF23FFFF + // : APERTURE NAME: IOU_SLCR, START ADDRESS: FF180000, END ADDRESS: FF23FFFF + // : APERTURE NAME: IOU_SLCR, START ADDRESS: FF180000, END ADDRESS: FF23FFFF + // : APERTURE NAME: IOU_SLCR, START ADDRESS: FF180000, END ADDRESS: FF23FFFF + // : APERTURE NAME: IOU_SLCR, START ADDRESS: FF180000, END ADDRESS: FF23FFFF + // : APERTURE NAME: IOU_SLCR, START ADDRESS: FF180000, END ADDRESS: FF23FFFF + // : APERTURE NAME: IOU_SLCR, START ADDRESS: FF180000, END ADDRESS: FF23FFFF + // : APERTURE NAME: IOU_SLCR, START ADDRESS: FF180000, END ADDRESS: FF23FFFF + // : APERTURE NAME: IOU_SLCR, START ADDRESS: FF180000, END ADDRESS: FF23FFFF + // : APERTURE NAME: IOU_SLCR, START ADDRESS: FF180000, END ADDRESS: FF23FFFF + // : APERTURE NAME: IOU_SLCR, START ADDRESS: FF180000, END ADDRESS: FF23FFFF + // : APERTURE NAME: IOU_SLCR, START ADDRESS: FF180000, END ADDRESS: FF23FFFF + // : APERTURE NAME: IOU_SECURE_SLCR, START ADDRESS: FF240000, END ADDRESS: FF24FFFF + // : APERTURE NAME: IOU_SCNTR, START ADDRESS: FF250000, END ADDRESS: FF25FFFF + // : APERTURE NAME: IOU_SCNTRS, START ADDRESS: FF260000, END ADDRESS: FF26FFFF + // : APERTURE NAME: RPU_UNUSED_11, START ADDRESS: FF270000, END ADDRESS: FF2AFFFF + // : APERTURE NAME: RPU_UNUSED_11, START ADDRESS: FF270000, END ADDRESS: FF2AFFFF + // : APERTURE NAME: RPU_UNUSED_11, START ADDRESS: FF270000, END ADDRESS: FF2AFFFF + // : APERTURE NAME: RPU_UNUSED_11, START ADDRESS: FF270000, END ADDRESS: FF2AFFFF + // : APERTURE NAME: LPD_UNUSED_14, START ADDRESS: FF2B0000, END ADDRESS: FF2FFFFF + // : APERTURE NAME: LPD_UNUSED_14, START ADDRESS: FF2B0000, END ADDRESS: FF2FFFFF + // : APERTURE NAME: LPD_UNUSED_14, START ADDRESS: FF2B0000, END ADDRESS: FF2FFFFF + // : APERTURE NAME: LPD_UNUSED_14, START ADDRESS: FF2B0000, END ADDRESS: FF2FFFFF + // : APERTURE NAME: LPD_UNUSED_14, START ADDRESS: FF2B0000, END ADDRESS: FF2FFFFF + // : APERTURE NAME: IPI_0, START ADDRESS: FF300000, END ADDRESS: FF30FFFF + /*Register : APERPERM_048 @ 0XFF9810C0

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_048_PERMISSION 0x10 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_048_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_048_PARITY 0x0 + + Entry 048 of the Aperture Permission List, for the 64K-byte aperture at BASE_64KB + 0x00300000 + (OFFSET, MASK, VALUE) (0XFF9810C0, 0xF80FFFFFU ,0x08000010U) + RegMask = (LPD_XPPU_CFG_APERPERM_048_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_048_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_048_PARITY_MASK | 0 ); + + RegVal = ((0x00000010U << LPD_XPPU_CFG_APERPERM_048_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_048_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_048_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_048_OFFSET ,0xF80FFFFFU ,0x08000010U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_1, START ADDRESS: FF310000, END ADDRESS: FF31FFFF + /*Register : APERPERM_049 @ 0XFF9810C4

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_049_PERMISSION 0x40 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_049_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_049_PARITY 0x0 + + Entry 049 of the Aperture Permission List, for the 64K-byte aperture at BASE_64KB + 0x00310000 + (OFFSET, MASK, VALUE) (0XFF9810C4, 0xF80FFFFFU ,0x08000040U) + RegMask = (LPD_XPPU_CFG_APERPERM_049_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_049_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_049_PARITY_MASK | 0 ); + + RegVal = ((0x00000040U << LPD_XPPU_CFG_APERPERM_049_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_049_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_049_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_049_OFFSET ,0xF80FFFFFU ,0x08000040U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_2, START ADDRESS: FF320000, END ADDRESS: FF32FFFF + /*Register : APERPERM_050 @ 0XFF9810C8

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_050_PERMISSION 0x80 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_050_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_050_PARITY 0x0 + + Entry 050 of the Aperture Permission List, for the 64K-byte aperture at BASE_64KB + 0x00320000 + (OFFSET, MASK, VALUE) (0XFF9810C8, 0xF80FFFFFU ,0x08000080U) + RegMask = (LPD_XPPU_CFG_APERPERM_050_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_050_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_050_PARITY_MASK | 0 ); + + RegVal = ((0x00000080U << LPD_XPPU_CFG_APERPERM_050_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_050_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_050_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_050_OFFSET ,0xF80FFFFFU ,0x08000080U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_PMU, START ADDRESS: FF330000, END ADDRESS: FF33FFFF + /*Register : APERPERM_051 @ 0XFF9810CC

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_051_PERMISSION 0x20 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_051_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_051_PARITY 0x0 + + Entry 051 of the Aperture Permission List, for the 64K-byte aperture at BASE_64KB + 0x00330000 + (OFFSET, MASK, VALUE) (0XFF9810CC, 0xF80FFFFFU ,0x08000020U) + RegMask = (LPD_XPPU_CFG_APERPERM_051_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_051_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_051_PARITY_MASK | 0 ); + + RegVal = ((0x00000020U << LPD_XPPU_CFG_APERPERM_051_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_051_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_051_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_051_OFFSET ,0xF80FFFFFU ,0x08000020U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_7, START ADDRESS: FF340000, END ADDRESS: FF34FFFF + // : APERTURE NAME: IPI_8, START ADDRESS: FF350000, END ADDRESS: FF35FFFF + // : APERTURE NAME: IPI_9, START ADDRESS: FF360000, END ADDRESS: FF36FFFF + // : APERTURE NAME: IPI_10, START ADDRESS: FF370000, END ADDRESS: FF37FFFF + // : APERTURE NAME: IPI_CTRL, START ADDRESS: FF380000, END ADDRESS: FF3FFFFF + // : APERTURE NAME: IPI_CTRL, START ADDRESS: FF380000, END ADDRESS: FF3FFFFF + // : APERTURE NAME: IPI_CTRL, START ADDRESS: FF380000, END ADDRESS: FF3FFFFF + // : APERTURE NAME: IPI_CTRL, START ADDRESS: FF380000, END ADDRESS: FF3FFFFF + // : APERTURE NAME: IPI_CTRL, START ADDRESS: FF380000, END ADDRESS: FF3FFFFF + // : APERTURE NAME: IPI_CTRL, START ADDRESS: FF380000, END ADDRESS: FF3FFFFF + // : APERTURE NAME: IPI_CTRL, START ADDRESS: FF380000, END ADDRESS: FF3FFFFF + // : APERTURE NAME: IPI_CTRL, START ADDRESS: FF380000, END ADDRESS: FF3FFFFF + // : APERTURE NAME: LPD_UNUSED_1, START ADDRESS: FF400000, END ADDRESS: FF40FFFF + // : APERTURE NAME: LPD_SLCR, START ADDRESS: FF410000, END ADDRESS: FF4AFFFF + // : APERTURE NAME: LPD_SLCR, START ADDRESS: FF410000, END ADDRESS: FF4AFFFF + // : APERTURE NAME: LPD_SLCR, START ADDRESS: FF410000, END ADDRESS: FF4AFFFF + // : APERTURE NAME: LPD_SLCR, START ADDRESS: FF410000, END ADDRESS: FF4AFFFF + // : APERTURE NAME: LPD_SLCR, START ADDRESS: FF410000, END ADDRESS: FF4AFFFF + // : APERTURE NAME: LPD_SLCR, START ADDRESS: FF410000, END ADDRESS: FF4AFFFF + // : APERTURE NAME: LPD_SLCR, START ADDRESS: FF410000, END ADDRESS: FF4AFFFF + // : APERTURE NAME: LPD_SLCR, START ADDRESS: FF410000, END ADDRESS: FF4AFFFF + // : APERTURE NAME: LPD_SLCR, START ADDRESS: FF410000, END ADDRESS: FF4AFFFF + // : APERTURE NAME: LPD_SLCR, START ADDRESS: FF410000, END ADDRESS: FF4AFFFF + // : APERTURE NAME: LPD_SLCR_SECURE, START ADDRESS: FF4B0000, END ADDRESS: FF4DFFFF + // : APERTURE NAME: LPD_SLCR_SECURE, START ADDRESS: FF4B0000, END ADDRESS: FF4DFFFF + // : APERTURE NAME: LPD_SLCR_SECURE, START ADDRESS: FF4B0000, END ADDRESS: FF4DFFFF + // : APERTURE NAME: LPD_UNUSED_2, START ADDRESS: FF4E0000, END ADDRESS: FF5DFFFF + // : APERTURE NAME: LPD_UNUSED_2, START ADDRESS: FF4E0000, END ADDRESS: FF5DFFFF + // : APERTURE NAME: LPD_UNUSED_2, START ADDRESS: FF4E0000, END ADDRESS: FF5DFFFF + // : APERTURE NAME: LPD_UNUSED_2, START ADDRESS: FF4E0000, END ADDRESS: FF5DFFFF + // : APERTURE NAME: LPD_UNUSED_2, START ADDRESS: FF4E0000, END ADDRESS: FF5DFFFF + // : APERTURE NAME: LPD_UNUSED_2, START ADDRESS: FF4E0000, END ADDRESS: FF5DFFFF + // : APERTURE NAME: LPD_UNUSED_2, START ADDRESS: FF4E0000, END ADDRESS: FF5DFFFF + // : APERTURE NAME: LPD_UNUSED_2, START ADDRESS: FF4E0000, END ADDRESS: FF5DFFFF + // : APERTURE NAME: LPD_UNUSED_2, START ADDRESS: FF4E0000, END ADDRESS: FF5DFFFF + // : APERTURE NAME: LPD_UNUSED_2, START ADDRESS: FF4E0000, END ADDRESS: FF5DFFFF + // : APERTURE NAME: LPD_UNUSED_2, START ADDRESS: FF4E0000, END ADDRESS: FF5DFFFF + // : APERTURE NAME: LPD_UNUSED_2, START ADDRESS: FF4E0000, END ADDRESS: FF5DFFFF + // : APERTURE NAME: LPD_UNUSED_2, START ADDRESS: FF4E0000, END ADDRESS: FF5DFFFF + // : APERTURE NAME: LPD_UNUSED_2, START ADDRESS: FF4E0000, END ADDRESS: FF5DFFFF + // : APERTURE NAME: LPD_UNUSED_2, START ADDRESS: FF4E0000, END ADDRESS: FF5DFFFF + // : APERTURE NAME: LPD_UNUSED_2, START ADDRESS: FF4E0000, END ADDRESS: FF5DFFFF + // : APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF + // : APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF + // : APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF + // : APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF + // : APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF + // : APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF + // : APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF + // : APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF + // : APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF + // : APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF + // : APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF + // : APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF + // : APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF + // : APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF + // : APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF + // : APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF + // : APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF + // : APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF + // : APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF + // : APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF + // : APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF + // : APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF + // : APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF + // : APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF + // : APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF + // : APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF + // : APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF + // : APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF + // : APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF + // : APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF + // : APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF + // : APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF + // : APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF + // : APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF + // : APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF + // : APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF + // : APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF + // : APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF + // : APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF + // : APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF + // : APERTURE NAME: LPD_UNUSED_3, START ADDRESS: FF860000, END ADDRESS: FF95FFFF + // : APERTURE NAME: LPD_UNUSED_3, START ADDRESS: FF860000, END ADDRESS: FF95FFFF + // : APERTURE NAME: LPD_UNUSED_3, START ADDRESS: FF860000, END ADDRESS: FF95FFFF + // : APERTURE NAME: LPD_UNUSED_3, START ADDRESS: FF860000, END ADDRESS: FF95FFFF + // : APERTURE NAME: LPD_UNUSED_3, START ADDRESS: FF860000, END ADDRESS: FF95FFFF + // : APERTURE NAME: LPD_UNUSED_3, START ADDRESS: FF860000, END ADDRESS: FF95FFFF + // : APERTURE NAME: LPD_UNUSED_3, START ADDRESS: FF860000, END ADDRESS: FF95FFFF + // : APERTURE NAME: LPD_UNUSED_3, START ADDRESS: FF860000, END ADDRESS: FF95FFFF + // : APERTURE NAME: LPD_UNUSED_3, START ADDRESS: FF860000, END ADDRESS: FF95FFFF + // : APERTURE NAME: LPD_UNUSED_3, START ADDRESS: FF860000, END ADDRESS: FF95FFFF + // : APERTURE NAME: LPD_UNUSED_3, START ADDRESS: FF860000, END ADDRESS: FF95FFFF + // : APERTURE NAME: LPD_UNUSED_3, START ADDRESS: FF860000, END ADDRESS: FF95FFFF + // : APERTURE NAME: LPD_UNUSED_3, START ADDRESS: FF860000, END ADDRESS: FF95FFFF + // : APERTURE NAME: LPD_UNUSED_3, START ADDRESS: FF860000, END ADDRESS: FF95FFFF + // : APERTURE NAME: LPD_UNUSED_3, START ADDRESS: FF860000, END ADDRESS: FF95FFFF + // : APERTURE NAME: LPD_UNUSED_3, START ADDRESS: FF860000, END ADDRESS: FF95FFFF + // : APERTURE NAME: OCM_SLCR, START ADDRESS: FF960000, END ADDRESS: FF96FFFF + // : APERTURE NAME: LPD_UNUSED_4, START ADDRESS: FF970000, END ADDRESS: FF97FFFF + // : APERTURE NAME: LPD_XPPU, START ADDRESS: FF980000, END ADDRESS: FF99FFFF + // : APERTURE NAME: RPU, START ADDRESS: FF9A0000, END ADDRESS: FF9AFFFF + // : APERTURE NAME: AFIFM6, START ADDRESS: FF9B0000, END ADDRESS: FF9BFFFF + // : APERTURE NAME: LPD_XPPU_SINK, START ADDRESS: FF9C0000, END ADDRESS: FF9CFFFF + // : APERTURE NAME: USB3_0, START ADDRESS: FF9D0000, END ADDRESS: FF9DFFFF + // : APERTURE NAME: USB3_1, START ADDRESS: FF9E0000, END ADDRESS: FF9EFFFF + // : APERTURE NAME: LPD_UNUSED_5, START ADDRESS: FF9F0000, END ADDRESS: FF9FFFFF + // : APERTURE NAME: APM0, START ADDRESS: FFA00000, END ADDRESS: FFA0FFFF + // : APERTURE NAME: APM1, START ADDRESS: FFA10000, END ADDRESS: FFA1FFFF + // : APERTURE NAME: APM_INTC_IOU, START ADDRESS: FFA20000, END ADDRESS: FFA2FFFF + // : APERTURE NAME: APM_FPD_LPD, START ADDRESS: FFA30000, END ADDRESS: FFA3FFFF + // : APERTURE NAME: LPD_UNUSED_6, START ADDRESS: FFA40000, END ADDRESS: FFA4FFFF + // : APERTURE NAME: AMS, START ADDRESS: FFA50000, END ADDRESS: FFA5FFFF + // : APERTURE NAME: RTC, START ADDRESS: FFA60000, END ADDRESS: FFA6FFFF + // : APERTURE NAME: OCM_XMPU_CFG, START ADDRESS: FFA70000, END ADDRESS: FFA7FFFF + // : APERTURE NAME: ADMA_0, START ADDRESS: FFA80000, END ADDRESS: FFA8FFFF + // : APERTURE NAME: ADMA_1, START ADDRESS: FFA90000, END ADDRESS: FFA9FFFF + // : APERTURE NAME: ADMA_2, START ADDRESS: FFAA0000, END ADDRESS: FFAAFFFF + // : APERTURE NAME: ADMA_3, START ADDRESS: FFAB0000, END ADDRESS: FFABFFFF + // : APERTURE NAME: ADMA_4, START ADDRESS: FFAC0000, END ADDRESS: FFACFFFF + // : APERTURE NAME: ADMA_5, START ADDRESS: FFAD0000, END ADDRESS: FFADFFFF + // : APERTURE NAME: ADMA_6, START ADDRESS: FFAE0000, END ADDRESS: FFAEFFFF + // : APERTURE NAME: ADMA_7, START ADDRESS: FFAF0000, END ADDRESS: FFAFFFFF + // : APERTURE NAME: LPD_UNUSED_7, START ADDRESS: FFB00000, END ADDRESS: FFBFFFFF + // : APERTURE NAME: LPD_UNUSED_7, START ADDRESS: FFB00000, END ADDRESS: FFBFFFFF + // : APERTURE NAME: LPD_UNUSED_7, START ADDRESS: FFB00000, END ADDRESS: FFBFFFFF + // : APERTURE NAME: LPD_UNUSED_7, START ADDRESS: FFB00000, END ADDRESS: FFBFFFFF + // : APERTURE NAME: LPD_UNUSED_7, START ADDRESS: FFB00000, END ADDRESS: FFBFFFFF + // : APERTURE NAME: LPD_UNUSED_7, START ADDRESS: FFB00000, END ADDRESS: FFBFFFFF + // : APERTURE NAME: LPD_UNUSED_7, START ADDRESS: FFB00000, END ADDRESS: FFBFFFFF + // : APERTURE NAME: LPD_UNUSED_7, START ADDRESS: FFB00000, END ADDRESS: FFBFFFFF + // : APERTURE NAME: LPD_UNUSED_7, START ADDRESS: FFB00000, END ADDRESS: FFBFFFFF + // : APERTURE NAME: LPD_UNUSED_7, START ADDRESS: FFB00000, END ADDRESS: FFBFFFFF + // : APERTURE NAME: LPD_UNUSED_7, START ADDRESS: FFB00000, END ADDRESS: FFBFFFFF + // : APERTURE NAME: LPD_UNUSED_7, START ADDRESS: FFB00000, END ADDRESS: FFBFFFFF + // : APERTURE NAME: LPD_UNUSED_7, START ADDRESS: FFB00000, END ADDRESS: FFBFFFFF + // : APERTURE NAME: LPD_UNUSED_7, START ADDRESS: FFB00000, END ADDRESS: FFBFFFFF + // : APERTURE NAME: LPD_UNUSED_7, START ADDRESS: FFB00000, END ADDRESS: FFBFFFFF + // : APERTURE NAME: LPD_UNUSED_7, START ADDRESS: FFB00000, END ADDRESS: FFBFFFFF + // : APERTURE NAME: CSU_ROM, START ADDRESS: FFC00000, END ADDRESS: FFC1FFFF + // : APERTURE NAME: CSU_ROM, START ADDRESS: FFC00000, END ADDRESS: FFC1FFFF + // : APERTURE NAME: CSU_LOCAL, START ADDRESS: FFC20000, END ADDRESS: FFC2FFFF + // : APERTURE NAME: PUF, START ADDRESS: FFC30000, END ADDRESS: FFC3FFFF + // : APERTURE NAME: CSU_RAM, START ADDRESS: FFC40000, END ADDRESS: FFC5FFFF + // : APERTURE NAME: CSU_RAM, START ADDRESS: FFC40000, END ADDRESS: FFC5FFFF + // : APERTURE NAME: CSU_IOMODULE, START ADDRESS: FFC60000, END ADDRESS: FFC7FFFF + // : APERTURE NAME: CSU_IOMODULE, START ADDRESS: FFC60000, END ADDRESS: FFC7FFFF + // : APERTURE NAME: CSUDMA, START ADDRESS: FFC80000, END ADDRESS: FFC9FFFF + // : APERTURE NAME: CSUDMA, START ADDRESS: FFC80000, END ADDRESS: FFC9FFFF + // : APERTURE NAME: CSU, START ADDRESS: FFCA0000, END ADDRESS: FFCAFFFF + // : APERTURE NAME: CSU_WDT, START ADDRESS: FFCB0000, END ADDRESS: FFCBFFFF + // : APERTURE NAME: EFUSE, START ADDRESS: FFCC0000, END ADDRESS: FFCCFFFF + // : APERTURE NAME: BBRAM, START ADDRESS: FFCD0000, END ADDRESS: FFCDFFFF + // : APERTURE NAME: RSA_CORE, START ADDRESS: FFCE0000, END ADDRESS: FFCEFFFF + // : APERTURE NAME: MBISTJTAG, START ADDRESS: FFCF0000, END ADDRESS: FFCFFFFF + // : APERTURE NAME: PMU_ROM, START ADDRESS: FFD00000, END ADDRESS: FFD3FFFF + // : APERTURE NAME: PMU_ROM, START ADDRESS: FFD00000, END ADDRESS: FFD3FFFF + // : APERTURE NAME: PMU_ROM, START ADDRESS: FFD00000, END ADDRESS: FFD3FFFF + // : APERTURE NAME: PMU_ROM, START ADDRESS: FFD00000, END ADDRESS: FFD3FFFF + // : APERTURE NAME: PMU_IOMODULE, START ADDRESS: FFD40000, END ADDRESS: FFD5FFFF + // : APERTURE NAME: PMU_IOMODULE, START ADDRESS: FFD40000, END ADDRESS: FFD5FFFF + // : APERTURE NAME: PMU_LOCAL, START ADDRESS: FFD60000, END ADDRESS: FFD7FFFF + // : APERTURE NAME: PMU_LOCAL, START ADDRESS: FFD60000, END ADDRESS: FFD7FFFF + // : APERTURE NAME: PMU_GLOBAL, START ADDRESS: FFD80000, END ADDRESS: FFDBFFFF + // : APERTURE NAME: PMU_GLOBAL, START ADDRESS: FFD80000, END ADDRESS: FFDBFFFF + // : APERTURE NAME: PMU_GLOBAL, START ADDRESS: FFD80000, END ADDRESS: FFDBFFFF + // : APERTURE NAME: PMU_GLOBAL, START ADDRESS: FFD80000, END ADDRESS: FFDBFFFF + // : APERTURE NAME: PMU_RAM, START ADDRESS: FFDC0000, END ADDRESS: FFDFFFFF + // : APERTURE NAME: PMU_RAM, START ADDRESS: FFDC0000, END ADDRESS: FFDFFFFF + // : APERTURE NAME: PMU_RAM, START ADDRESS: FFDC0000, END ADDRESS: FFDFFFFF + // : APERTURE NAME: PMU_RAM, START ADDRESS: FFDC0000, END ADDRESS: FFDFFFFF + // : APERTURE NAME: R5_0_ATCM, START ADDRESS: FFE00000, END ADDRESS: FFE0FFFF + // : APERTURE NAME: R5_0_ATCM_LOCKSTEP, START ADDRESS: FFE10000, END ADDRESS: FFE1FFFF + // : APERTURE NAME: R5_0_BTCM, START ADDRESS: FFE20000, END ADDRESS: FFE2FFFF + // : APERTURE NAME: R5_0_BTCM_LOCKSTEP, START ADDRESS: FFE30000, END ADDRESS: FFE3FFFF + // : APERTURE NAME: R5_0_INSTRUCTION_CACHE, START ADDRESS: FFE40000, END ADDRESS: FFE4FFFF + // : APERTURE NAME: R5_0_DATA_CACHE, START ADDRESS: FFE50000, END ADDRESS: FFE5FFFF + // : APERTURE NAME: LPD_UNUSED_8, START ADDRESS: FFE60000, END ADDRESS: FFE8FFFF + // : APERTURE NAME: LPD_UNUSED_8, START ADDRESS: FFE60000, END ADDRESS: FFE8FFFF + // : APERTURE NAME: LPD_UNUSED_8, START ADDRESS: FFE60000, END ADDRESS: FFE8FFFF + // : APERTURE NAME: R5_1_ATCM_, START ADDRESS: FFE90000, END ADDRESS: FFE9FFFF + // : APERTURE NAME: RPU_UNUSED_10, START ADDRESS: FFEA0000, END ADDRESS: FFEAFFFF + // : APERTURE NAME: R5_1_BTCM_, START ADDRESS: FFEB0000, END ADDRESS: FFEBFFFF + // : APERTURE NAME: R5_1_INSTRUCTION_CACHE, START ADDRESS: FFEC0000, END ADDRESS: FFECFFFF + // : APERTURE NAME: R5_1_DATA_CACHE, START ADDRESS: FFED0000, END ADDRESS: FFEDFFFF + // : APERTURE NAME: LPD_UNUSED_9, START ADDRESS: FFEE0000, END ADDRESS: FFFBFFFF + // : APERTURE NAME: LPD_UNUSED_9, START ADDRESS: FFEE0000, END ADDRESS: FFFBFFFF + // : APERTURE NAME: LPD_UNUSED_9, START ADDRESS: FFEE0000, END ADDRESS: FFFBFFFF + // : APERTURE NAME: LPD_UNUSED_9, START ADDRESS: FFEE0000, END ADDRESS: FFFBFFFF + // : APERTURE NAME: LPD_UNUSED_9, START ADDRESS: FFEE0000, END ADDRESS: FFFBFFFF + // : APERTURE NAME: LPD_UNUSED_9, START ADDRESS: FFEE0000, END ADDRESS: FFFBFFFF + // : APERTURE NAME: LPD_UNUSED_9, START ADDRESS: FFEE0000, END ADDRESS: FFFBFFFF + // : APERTURE NAME: LPD_UNUSED_9, START ADDRESS: FFEE0000, END ADDRESS: FFFBFFFF + // : APERTURE NAME: LPD_UNUSED_9, START ADDRESS: FFEE0000, END ADDRESS: FFFBFFFF + // : APERTURE NAME: LPD_UNUSED_9, START ADDRESS: FFEE0000, END ADDRESS: FFFBFFFF + // : APERTURE NAME: LPD_UNUSED_9, START ADDRESS: FFEE0000, END ADDRESS: FFFBFFFF + // : APERTURE NAME: LPD_UNUSED_9, START ADDRESS: FFEE0000, END ADDRESS: FFFBFFFF + // : APERTURE NAME: LPD_UNUSED_9, START ADDRESS: FFEE0000, END ADDRESS: FFFBFFFF + // : APERTURE NAME: LPD_UNUSED_9, START ADDRESS: FFEE0000, END ADDRESS: FFFBFFFF + // : APERTURE NAME: LPD_UNUSED_9, START ADDRESS: FFEE0000, END ADDRESS: FFFBFFFF + // : APERTURE NAME: LPD_UNUSED_15, START ADDRESS: FFFD0000, END ADDRESS: FFFFFFFF + // : APERTURE NAME: LPD_UNUSED_15, START ADDRESS: FFFD0000, END ADDRESS: FFFFFFFF + // : APERTURE NAME: LPD_UNUSED_15, START ADDRESS: FFFD0000, END ADDRESS: FFFFFFFF + // : APERTURE NAME: IPI_1, START ADDRESS: FF310000, END ADDRESS: FF31FFFF + /*Register : APERPERM_256 @ 0XFF981400

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_256_PERMISSION 0x40 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_256_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_256_PARITY 0x0 + + Entry 256 of the Aperture Permission List, for 32-byte IPI buffer 000 at BASE_32B + 0x00000000 + (OFFSET, MASK, VALUE) (0XFF981400, 0xF80FFFFFU ,0x08000040U) + RegMask = (LPD_XPPU_CFG_APERPERM_256_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_256_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_256_PARITY_MASK | 0 ); + + RegVal = ((0x00000040U << LPD_XPPU_CFG_APERPERM_256_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_256_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_256_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_256_OFFSET ,0xF80FFFFFU ,0x08000040U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_1, START ADDRESS: FF310000, END ADDRESS: FF31FFFF + /*Register : APERPERM_257 @ 0XFF981404

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_257_PERMISSION 0x40 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_257_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_257_PARITY 0x0 + + Entry 257 of the Aperture Permission List, for 32-byte IPI buffer 001 at BASE_32B + 0x00000020 + (OFFSET, MASK, VALUE) (0XFF981404, 0xF80FFFFFU ,0x08000040U) + RegMask = (LPD_XPPU_CFG_APERPERM_257_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_257_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_257_PARITY_MASK | 0 ); + + RegVal = ((0x00000040U << LPD_XPPU_CFG_APERPERM_257_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_257_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_257_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_257_OFFSET ,0xF80FFFFFU ,0x08000040U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_1, START ADDRESS: FF310000, END ADDRESS: FF31FFFF + /*Register : APERPERM_258 @ 0XFF981408

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_258_PERMISSION 0x48 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_258_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_258_PARITY 0x0 + + Entry 258 of the Aperture Permission List, for 32-byte IPI buffer 002 at BASE_32B + 0x00000040 + (OFFSET, MASK, VALUE) (0XFF981408, 0xF80FFFFFU ,0x08000048U) + RegMask = (LPD_XPPU_CFG_APERPERM_258_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_258_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_258_PARITY_MASK | 0 ); + + RegVal = ((0x00000048U << LPD_XPPU_CFG_APERPERM_258_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_258_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_258_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_258_OFFSET ,0xF80FFFFFU ,0x08000048U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_1, START ADDRESS: FF310000, END ADDRESS: FF31FFFF + /*Register : APERPERM_259 @ 0XFF98140C

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_259_PERMISSION 0x84 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_259_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_259_PARITY 0x0 + + Entry 259 of the Aperture Permission List, for 32-byte IPI buffer 003 at BASE_32B + 0x00000060 + (OFFSET, MASK, VALUE) (0XFF98140C, 0xF80FFFFFU ,0x08000084U) + RegMask = (LPD_XPPU_CFG_APERPERM_259_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_259_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_259_PARITY_MASK | 0 ); + + RegVal = ((0x00000084U << LPD_XPPU_CFG_APERPERM_259_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_259_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_259_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_259_OFFSET ,0xF80FFFFFU ,0x08000084U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_1, START ADDRESS: FF310000, END ADDRESS: FF31FFFF + /*Register : APERPERM_260 @ 0XFF981410

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_260_PERMISSION 0x41 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_260_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_260_PARITY 0x0 + + Entry 260 of the Aperture Permission List, for 32-byte IPI buffer 004 at BASE_32B + 0x00000080 + (OFFSET, MASK, VALUE) (0XFF981410, 0xF80FFFFFU ,0x08000041U) + RegMask = (LPD_XPPU_CFG_APERPERM_260_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_260_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_260_PARITY_MASK | 0 ); + + RegVal = ((0x00000041U << LPD_XPPU_CFG_APERPERM_260_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_260_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_260_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_260_OFFSET ,0xF80FFFFFU ,0x08000041U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_1, START ADDRESS: FF310000, END ADDRESS: FF31FFFF + /*Register : APERPERM_261 @ 0XFF981414

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_261_PERMISSION 0x14 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_261_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_261_PARITY 0x0 + + Entry 261 of the Aperture Permission List, for 32-byte IPI buffer 005 at BASE_32B + 0x000000A0 + (OFFSET, MASK, VALUE) (0XFF981414, 0xF80FFFFFU ,0x08000014U) + RegMask = (LPD_XPPU_CFG_APERPERM_261_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_261_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_261_PARITY_MASK | 0 ); + + RegVal = ((0x00000014U << LPD_XPPU_CFG_APERPERM_261_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_261_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_261_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_261_OFFSET ,0xF80FFFFFU ,0x08000014U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_1, START ADDRESS: FF310000, END ADDRESS: FF31FFFF + /*Register : APERPERM_262 @ 0XFF981418

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_262_PERMISSION 0x40 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_262_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_262_PARITY 0x0 + + Entry 262 of the Aperture Permission List, for 32-byte IPI buffer 006 at BASE_32B + 0x000000C0 + (OFFSET, MASK, VALUE) (0XFF981418, 0xF80FFFFFU ,0x08000040U) + RegMask = (LPD_XPPU_CFG_APERPERM_262_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_262_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_262_PARITY_MASK | 0 ); + + RegVal = ((0x00000040U << LPD_XPPU_CFG_APERPERM_262_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_262_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_262_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_262_OFFSET ,0xF80FFFFFU ,0x08000040U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_1, START ADDRESS: FF310000, END ADDRESS: FF31FFFF + /*Register : APERPERM_263 @ 0XFF98141C

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_263_PERMISSION 0x4 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_263_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_263_PARITY 0x0 + + Entry 263 of the Aperture Permission List, for 32-byte IPI buffer 007 at BASE_32B + 0x000000E0 + (OFFSET, MASK, VALUE) (0XFF98141C, 0xF80FFFFFU ,0x08000004U) + RegMask = (LPD_XPPU_CFG_APERPERM_263_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_263_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_263_PARITY_MASK | 0 ); + + RegVal = ((0x00000004U << LPD_XPPU_CFG_APERPERM_263_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_263_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_263_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_263_OFFSET ,0xF80FFFFFU ,0x08000004U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_1, START ADDRESS: FF310000, END ADDRESS: FF31FFFF + /*Register : APERPERM_264 @ 0XFF981420

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_264_PERMISSION 0x40 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_264_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_264_PARITY 0x0 + + Entry 264 of the Aperture Permission List, for 32-byte IPI buffer 008 at BASE_32B + 0x00000100 + (OFFSET, MASK, VALUE) (0XFF981420, 0xF80FFFFFU ,0x08000040U) + RegMask = (LPD_XPPU_CFG_APERPERM_264_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_264_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_264_PARITY_MASK | 0 ); + + RegVal = ((0x00000040U << LPD_XPPU_CFG_APERPERM_264_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_264_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_264_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_264_OFFSET ,0xF80FFFFFU ,0x08000040U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_1, START ADDRESS: FF310000, END ADDRESS: FF31FFFF + /*Register : APERPERM_265 @ 0XFF981424

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_265_PERMISSION 0x4 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_265_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_265_PARITY 0x0 + + Entry 265 of the Aperture Permission List, for 32-byte IPI buffer 009 at BASE_32B + 0x00000120 + (OFFSET, MASK, VALUE) (0XFF981424, 0xF80FFFFFU ,0x08000004U) + RegMask = (LPD_XPPU_CFG_APERPERM_265_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_265_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_265_PARITY_MASK | 0 ); + + RegVal = ((0x00000004U << LPD_XPPU_CFG_APERPERM_265_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_265_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_265_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_265_OFFSET ,0xF80FFFFFU ,0x08000004U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_1, START ADDRESS: FF310000, END ADDRESS: FF31FFFF + /*Register : APERPERM_266 @ 0XFF981428

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_266_PERMISSION 0x40 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_266_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_266_PARITY 0x0 + + Entry 266 of the Aperture Permission List, for 32-byte IPI buffer 010 at BASE_32B + 0x00000140 + (OFFSET, MASK, VALUE) (0XFF981428, 0xF80FFFFFU ,0x08000040U) + RegMask = (LPD_XPPU_CFG_APERPERM_266_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_266_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_266_PARITY_MASK | 0 ); + + RegVal = ((0x00000040U << LPD_XPPU_CFG_APERPERM_266_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_266_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_266_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_266_OFFSET ,0xF80FFFFFU ,0x08000040U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_1, START ADDRESS: FF310000, END ADDRESS: FF31FFFF + /*Register : APERPERM_267 @ 0XFF98142C

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_267_PERMISSION 0x4 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_267_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_267_PARITY 0x0 + + Entry 267 of the Aperture Permission List, for 32-byte IPI buffer 011 at BASE_32B + 0x00000160 + (OFFSET, MASK, VALUE) (0XFF98142C, 0xF80FFFFFU ,0x08000004U) + RegMask = (LPD_XPPU_CFG_APERPERM_267_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_267_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_267_PARITY_MASK | 0 ); + + RegVal = ((0x00000004U << LPD_XPPU_CFG_APERPERM_267_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_267_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_267_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_267_OFFSET ,0xF80FFFFFU ,0x08000004U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_1, START ADDRESS: FF310000, END ADDRESS: FF31FFFF + /*Register : APERPERM_268 @ 0XFF981430

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_268_PERMISSION 0x40 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_268_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_268_PARITY 0x0 + + Entry 268 of the Aperture Permission List, for 32-byte IPI buffer 012 at BASE_32B + 0x00000180 + (OFFSET, MASK, VALUE) (0XFF981430, 0xF80FFFFFU ,0x08000040U) + RegMask = (LPD_XPPU_CFG_APERPERM_268_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_268_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_268_PARITY_MASK | 0 ); + + RegVal = ((0x00000040U << LPD_XPPU_CFG_APERPERM_268_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_268_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_268_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_268_OFFSET ,0xF80FFFFFU ,0x08000040U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_1, START ADDRESS: FF310000, END ADDRESS: FF31FFFF + /*Register : APERPERM_269 @ 0XFF981434

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_269_PERMISSION 0x4 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_269_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_269_PARITY 0x0 + + Entry 269 of the Aperture Permission List, for 32-byte IPI buffer 013 at BASE_32B + 0x000001A0 + (OFFSET, MASK, VALUE) (0XFF981434, 0xF80FFFFFU ,0x08000004U) + RegMask = (LPD_XPPU_CFG_APERPERM_269_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_269_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_269_PARITY_MASK | 0 ); + + RegVal = ((0x00000004U << LPD_XPPU_CFG_APERPERM_269_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_269_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_269_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_269_OFFSET ,0xF80FFFFFU ,0x08000004U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_1, START ADDRESS: FF310000, END ADDRESS: FF31FFFF + /*Register : APERPERM_270 @ 0XFF981438

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_270_PERMISSION 0x42 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_270_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_270_PARITY 0x0 + + Entry 270 of the Aperture Permission List, for 32-byte IPI buffer 014 at BASE_32B + 0x000001C0 + (OFFSET, MASK, VALUE) (0XFF981438, 0xF80FFFFFU ,0x08000042U) + RegMask = (LPD_XPPU_CFG_APERPERM_270_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_270_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_270_PARITY_MASK | 0 ); + + RegVal = ((0x00000042U << LPD_XPPU_CFG_APERPERM_270_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_270_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_270_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_270_OFFSET ,0xF80FFFFFU ,0x08000042U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_1, START ADDRESS: FF310000, END ADDRESS: FF31FFFF + /*Register : APERPERM_271 @ 0XFF98143C

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_271_PERMISSION 0x24 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_271_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_271_PARITY 0x0 + + Entry 271 of the Aperture Permission List, for 32-byte IPI buffer 015 at BASE_32B + 0x000001E0 + (OFFSET, MASK, VALUE) (0XFF98143C, 0xF80FFFFFU ,0x08000024U) + RegMask = (LPD_XPPU_CFG_APERPERM_271_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_271_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_271_PARITY_MASK | 0 ); + + RegVal = ((0x00000024U << LPD_XPPU_CFG_APERPERM_271_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_271_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_271_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_271_OFFSET ,0xF80FFFFFU ,0x08000024U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_2, START ADDRESS: FF320000, END ADDRESS: FF32FFFF + /*Register : APERPERM_272 @ 0XFF981440

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_272_PERMISSION 0x84 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_272_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_272_PARITY 0x0 + + Entry 272 of the Aperture Permission List, for 32-byte IPI buffer 016 at BASE_32B + 0x00000200 + (OFFSET, MASK, VALUE) (0XFF981440, 0xF80FFFFFU ,0x08000084U) + RegMask = (LPD_XPPU_CFG_APERPERM_272_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_272_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_272_PARITY_MASK | 0 ); + + RegVal = ((0x00000084U << LPD_XPPU_CFG_APERPERM_272_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_272_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_272_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_272_OFFSET ,0xF80FFFFFU ,0x08000084U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_2, START ADDRESS: FF320000, END ADDRESS: FF32FFFF + /*Register : APERPERM_273 @ 0XFF981444

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_273_PERMISSION 0x48 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_273_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_273_PARITY 0x0 + + Entry 273 of the Aperture Permission List, for 32-byte IPI buffer 017 at BASE_32B + 0x00000220 + (OFFSET, MASK, VALUE) (0XFF981444, 0xF80FFFFFU ,0x08000048U) + RegMask = (LPD_XPPU_CFG_APERPERM_273_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_273_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_273_PARITY_MASK | 0 ); + + RegVal = ((0x00000048U << LPD_XPPU_CFG_APERPERM_273_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_273_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_273_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_273_OFFSET ,0xF80FFFFFU ,0x08000048U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_2, START ADDRESS: FF320000, END ADDRESS: FF32FFFF + /*Register : APERPERM_274 @ 0XFF981448

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_274_PERMISSION 0x80 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_274_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_274_PARITY 0x0 + + Entry 274 of the Aperture Permission List, for 32-byte IPI buffer 018 at BASE_32B + 0x00000240 + (OFFSET, MASK, VALUE) (0XFF981448, 0xF80FFFFFU ,0x08000080U) + RegMask = (LPD_XPPU_CFG_APERPERM_274_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_274_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_274_PARITY_MASK | 0 ); + + RegVal = ((0x00000080U << LPD_XPPU_CFG_APERPERM_274_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_274_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_274_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_274_OFFSET ,0xF80FFFFFU ,0x08000080U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_2, START ADDRESS: FF320000, END ADDRESS: FF32FFFF + /*Register : APERPERM_275 @ 0XFF98144C

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_275_PERMISSION 0x80 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_275_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_275_PARITY 0x0 + + Entry 275 of the Aperture Permission List, for 32-byte IPI buffer 019 at BASE_32B + 0x00000260 + (OFFSET, MASK, VALUE) (0XFF98144C, 0xF80FFFFFU ,0x08000080U) + RegMask = (LPD_XPPU_CFG_APERPERM_275_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_275_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_275_PARITY_MASK | 0 ); + + RegVal = ((0x00000080U << LPD_XPPU_CFG_APERPERM_275_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_275_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_275_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_275_OFFSET ,0xF80FFFFFU ,0x08000080U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_2, START ADDRESS: FF320000, END ADDRESS: FF32FFFF + /*Register : APERPERM_276 @ 0XFF981450

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_276_PERMISSION 0x81 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_276_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_276_PARITY 0x0 + + Entry 276 of the Aperture Permission List, for 32-byte IPI buffer 020 at BASE_32B + 0x00000280 + (OFFSET, MASK, VALUE) (0XFF981450, 0xF80FFFFFU ,0x08000081U) + RegMask = (LPD_XPPU_CFG_APERPERM_276_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_276_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_276_PARITY_MASK | 0 ); + + RegVal = ((0x00000081U << LPD_XPPU_CFG_APERPERM_276_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_276_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_276_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_276_OFFSET ,0xF80FFFFFU ,0x08000081U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_2, START ADDRESS: FF320000, END ADDRESS: FF32FFFF + /*Register : APERPERM_277 @ 0XFF981454

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_277_PERMISSION 0x18 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_277_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_277_PARITY 0x0 + + Entry 277 of the Aperture Permission List, for 32-byte IPI buffer 021 at BASE_32B + 0x000002A0 + (OFFSET, MASK, VALUE) (0XFF981454, 0xF80FFFFFU ,0x08000018U) + RegMask = (LPD_XPPU_CFG_APERPERM_277_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_277_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_277_PARITY_MASK | 0 ); + + RegVal = ((0x00000018U << LPD_XPPU_CFG_APERPERM_277_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_277_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_277_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_277_OFFSET ,0xF80FFFFFU ,0x08000018U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_2, START ADDRESS: FF320000, END ADDRESS: FF32FFFF + /*Register : APERPERM_278 @ 0XFF981458

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_278_PERMISSION 0x80 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_278_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_278_PARITY 0x0 + + Entry 278 of the Aperture Permission List, for 32-byte IPI buffer 022 at BASE_32B + 0x000002C0 + (OFFSET, MASK, VALUE) (0XFF981458, 0xF80FFFFFU ,0x08000080U) + RegMask = (LPD_XPPU_CFG_APERPERM_278_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_278_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_278_PARITY_MASK | 0 ); + + RegVal = ((0x00000080U << LPD_XPPU_CFG_APERPERM_278_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_278_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_278_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_278_OFFSET ,0xF80FFFFFU ,0x08000080U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_2, START ADDRESS: FF320000, END ADDRESS: FF32FFFF + /*Register : APERPERM_279 @ 0XFF98145C

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_279_PERMISSION 0x8 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_279_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_279_PARITY 0x0 + + Entry 279 of the Aperture Permission List, for 32-byte IPI buffer 023 at BASE_32B + 0x000002E0 + (OFFSET, MASK, VALUE) (0XFF98145C, 0xF80FFFFFU ,0x08000008U) + RegMask = (LPD_XPPU_CFG_APERPERM_279_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_279_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_279_PARITY_MASK | 0 ); + + RegVal = ((0x00000008U << LPD_XPPU_CFG_APERPERM_279_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_279_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_279_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_279_OFFSET ,0xF80FFFFFU ,0x08000008U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_2, START ADDRESS: FF320000, END ADDRESS: FF32FFFF + /*Register : APERPERM_280 @ 0XFF981460

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_280_PERMISSION 0x80 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_280_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_280_PARITY 0x0 + + Entry 280 of the Aperture Permission List, for 32-byte IPI buffer 024 at BASE_32B + 0x00000300 + (OFFSET, MASK, VALUE) (0XFF981460, 0xF80FFFFFU ,0x08000080U) + RegMask = (LPD_XPPU_CFG_APERPERM_280_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_280_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_280_PARITY_MASK | 0 ); + + RegVal = ((0x00000080U << LPD_XPPU_CFG_APERPERM_280_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_280_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_280_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_280_OFFSET ,0xF80FFFFFU ,0x08000080U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_2, START ADDRESS: FF320000, END ADDRESS: FF32FFFF + /*Register : APERPERM_281 @ 0XFF981464

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_281_PERMISSION 0x8 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_281_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_281_PARITY 0x0 + + Entry 281 of the Aperture Permission List, for 32-byte IPI buffer 025 at BASE_32B + 0x00000320 + (OFFSET, MASK, VALUE) (0XFF981464, 0xF80FFFFFU ,0x08000008U) + RegMask = (LPD_XPPU_CFG_APERPERM_281_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_281_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_281_PARITY_MASK | 0 ); + + RegVal = ((0x00000008U << LPD_XPPU_CFG_APERPERM_281_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_281_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_281_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_281_OFFSET ,0xF80FFFFFU ,0x08000008U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_2, START ADDRESS: FF320000, END ADDRESS: FF32FFFF + /*Register : APERPERM_282 @ 0XFF981468

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_282_PERMISSION 0x80 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_282_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_282_PARITY 0x0 + + Entry 282 of the Aperture Permission List, for 32-byte IPI buffer 026 at BASE_32B + 0x00000340 + (OFFSET, MASK, VALUE) (0XFF981468, 0xF80FFFFFU ,0x08000080U) + RegMask = (LPD_XPPU_CFG_APERPERM_282_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_282_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_282_PARITY_MASK | 0 ); + + RegVal = ((0x00000080U << LPD_XPPU_CFG_APERPERM_282_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_282_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_282_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_282_OFFSET ,0xF80FFFFFU ,0x08000080U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_2, START ADDRESS: FF320000, END ADDRESS: FF32FFFF + /*Register : APERPERM_283 @ 0XFF98146C

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_283_PERMISSION 0x8 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_283_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_283_PARITY 0x0 + + Entry 283 of the Aperture Permission List, for 32-byte IPI buffer 027 at BASE_32B + 0x00000360 + (OFFSET, MASK, VALUE) (0XFF98146C, 0xF80FFFFFU ,0x08000008U) + RegMask = (LPD_XPPU_CFG_APERPERM_283_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_283_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_283_PARITY_MASK | 0 ); + + RegVal = ((0x00000008U << LPD_XPPU_CFG_APERPERM_283_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_283_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_283_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_283_OFFSET ,0xF80FFFFFU ,0x08000008U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_2, START ADDRESS: FF320000, END ADDRESS: FF32FFFF + /*Register : APERPERM_284 @ 0XFF981470

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_284_PERMISSION 0x80 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_284_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_284_PARITY 0x0 + + Entry 284 of the Aperture Permission List, for 32-byte IPI buffer 028 at BASE_32B + 0x00000380 + (OFFSET, MASK, VALUE) (0XFF981470, 0xF80FFFFFU ,0x08000080U) + RegMask = (LPD_XPPU_CFG_APERPERM_284_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_284_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_284_PARITY_MASK | 0 ); + + RegVal = ((0x00000080U << LPD_XPPU_CFG_APERPERM_284_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_284_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_284_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_284_OFFSET ,0xF80FFFFFU ,0x08000080U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_2, START ADDRESS: FF320000, END ADDRESS: FF32FFFF + /*Register : APERPERM_285 @ 0XFF981474

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_285_PERMISSION 0x8 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_285_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_285_PARITY 0x0 + + Entry 285 of the Aperture Permission List, for 32-byte IPI buffer 029 at BASE_32B + 0x000003A0 + (OFFSET, MASK, VALUE) (0XFF981474, 0xF80FFFFFU ,0x08000008U) + RegMask = (LPD_XPPU_CFG_APERPERM_285_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_285_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_285_PARITY_MASK | 0 ); + + RegVal = ((0x00000008U << LPD_XPPU_CFG_APERPERM_285_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_285_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_285_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_285_OFFSET ,0xF80FFFFFU ,0x08000008U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_2, START ADDRESS: FF320000, END ADDRESS: FF32FFFF + /*Register : APERPERM_286 @ 0XFF981478

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_286_PERMISSION 0x82 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_286_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_286_PARITY 0x0 + + Entry 286 of the Aperture Permission List, for 32-byte IPI buffer 030 at BASE_32B + 0x000003C0 + (OFFSET, MASK, VALUE) (0XFF981478, 0xF80FFFFFU ,0x08000082U) + RegMask = (LPD_XPPU_CFG_APERPERM_286_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_286_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_286_PARITY_MASK | 0 ); + + RegVal = ((0x00000082U << LPD_XPPU_CFG_APERPERM_286_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_286_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_286_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_286_OFFSET ,0xF80FFFFFU ,0x08000082U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_2, START ADDRESS: FF320000, END ADDRESS: FF32FFFF + /*Register : APERPERM_287 @ 0XFF98147C

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_287_PERMISSION 0x28 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_287_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_287_PARITY 0x0 + + Entry 287 of the Aperture Permission List, for 32-byte IPI buffer 031 at BASE_32B + 0x000003E0 + (OFFSET, MASK, VALUE) (0XFF98147C, 0xF80FFFFFU ,0x08000028U) + RegMask = (LPD_XPPU_CFG_APERPERM_287_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_287_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_287_PARITY_MASK | 0 ); + + RegVal = ((0x00000028U << LPD_XPPU_CFG_APERPERM_287_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_287_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_287_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_287_OFFSET ,0xF80FFFFFU ,0x08000028U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_0, START ADDRESS: FF300000, END ADDRESS: FF30FFFF + /*Register : APERPERM_288 @ 0XFF981480

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_288_PERMISSION 0x14 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_288_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_288_PARITY 0x0 + + Entry 288 of the Aperture Permission List, for 32-byte IPI buffer 032 at BASE_32B + 0x00000400 + (OFFSET, MASK, VALUE) (0XFF981480, 0xF80FFFFFU ,0x08000014U) + RegMask = (LPD_XPPU_CFG_APERPERM_288_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_288_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_288_PARITY_MASK | 0 ); + + RegVal = ((0x00000014U << LPD_XPPU_CFG_APERPERM_288_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_288_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_288_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_288_OFFSET ,0xF80FFFFFU ,0x08000014U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_0, START ADDRESS: FF300000, END ADDRESS: FF30FFFF + /*Register : APERPERM_289 @ 0XFF981484

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_289_PERMISSION 0x41 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_289_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_289_PARITY 0x0 + + Entry 289 of the Aperture Permission List, for 32-byte IPI buffer 033 at BASE_32B + 0x00000420 + (OFFSET, MASK, VALUE) (0XFF981484, 0xF80FFFFFU ,0x08000041U) + RegMask = (LPD_XPPU_CFG_APERPERM_289_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_289_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_289_PARITY_MASK | 0 ); + + RegVal = ((0x00000041U << LPD_XPPU_CFG_APERPERM_289_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_289_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_289_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_289_OFFSET ,0xF80FFFFFU ,0x08000041U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_0, START ADDRESS: FF300000, END ADDRESS: FF30FFFF + /*Register : APERPERM_290 @ 0XFF981488

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_290_PERMISSION 0x18 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_290_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_290_PARITY 0x0 + + Entry 290 of the Aperture Permission List, for 32-byte IPI buffer 034 at BASE_32B + 0x00000440 + (OFFSET, MASK, VALUE) (0XFF981488, 0xF80FFFFFU ,0x08000018U) + RegMask = (LPD_XPPU_CFG_APERPERM_290_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_290_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_290_PARITY_MASK | 0 ); + + RegVal = ((0x00000018U << LPD_XPPU_CFG_APERPERM_290_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_290_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_290_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_290_OFFSET ,0xF80FFFFFU ,0x08000018U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_0, START ADDRESS: FF300000, END ADDRESS: FF30FFFF + /*Register : APERPERM_291 @ 0XFF98148C

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_291_PERMISSION 0x81 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_291_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_291_PARITY 0x0 + + Entry 291 of the Aperture Permission List, for 32-byte IPI buffer 035 at BASE_32B + 0x00000460 + (OFFSET, MASK, VALUE) (0XFF98148C, 0xF80FFFFFU ,0x08000081U) + RegMask = (LPD_XPPU_CFG_APERPERM_291_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_291_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_291_PARITY_MASK | 0 ); + + RegVal = ((0x00000081U << LPD_XPPU_CFG_APERPERM_291_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_291_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_291_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_291_OFFSET ,0xF80FFFFFU ,0x08000081U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_0, START ADDRESS: FF300000, END ADDRESS: FF30FFFF + /*Register : APERPERM_292 @ 0XFF981490

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_292_PERMISSION 0x10 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_292_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_292_PARITY 0x0 + + Entry 292 of the Aperture Permission List, for 32-byte IPI buffer 036 at BASE_32B + 0x00000480 + (OFFSET, MASK, VALUE) (0XFF981490, 0xF80FFFFFU ,0x08000010U) + RegMask = (LPD_XPPU_CFG_APERPERM_292_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_292_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_292_PARITY_MASK | 0 ); + + RegVal = ((0x00000010U << LPD_XPPU_CFG_APERPERM_292_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_292_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_292_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_292_OFFSET ,0xF80FFFFFU ,0x08000010U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_0, START ADDRESS: FF300000, END ADDRESS: FF30FFFF + /*Register : APERPERM_293 @ 0XFF981494

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_293_PERMISSION 0x10 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_293_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_293_PARITY 0x0 + + Entry 293 of the Aperture Permission List, for 32-byte IPI buffer 037 at BASE_32B + 0x000004A0 + (OFFSET, MASK, VALUE) (0XFF981494, 0xF80FFFFFU ,0x08000010U) + RegMask = (LPD_XPPU_CFG_APERPERM_293_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_293_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_293_PARITY_MASK | 0 ); + + RegVal = ((0x00000010U << LPD_XPPU_CFG_APERPERM_293_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_293_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_293_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_293_OFFSET ,0xF80FFFFFU ,0x08000010U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_0, START ADDRESS: FF300000, END ADDRESS: FF30FFFF + /*Register : APERPERM_294 @ 0XFF981498

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_294_PERMISSION 0x10 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_294_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_294_PARITY 0x0 + + Entry 294 of the Aperture Permission List, for 32-byte IPI buffer 038 at BASE_32B + 0x000004C0 + (OFFSET, MASK, VALUE) (0XFF981498, 0xF80FFFFFU ,0x08000010U) + RegMask = (LPD_XPPU_CFG_APERPERM_294_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_294_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_294_PARITY_MASK | 0 ); + + RegVal = ((0x00000010U << LPD_XPPU_CFG_APERPERM_294_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_294_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_294_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_294_OFFSET ,0xF80FFFFFU ,0x08000010U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_0, START ADDRESS: FF300000, END ADDRESS: FF30FFFF + /*Register : APERPERM_295 @ 0XFF98149C

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_295_PERMISSION 0x1 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_295_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_295_PARITY 0x0 + + Entry 295 of the Aperture Permission List, for 32-byte IPI buffer 039 at BASE_32B + 0x000004E0 + (OFFSET, MASK, VALUE) (0XFF98149C, 0xF80FFFFFU ,0x08000001U) + RegMask = (LPD_XPPU_CFG_APERPERM_295_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_295_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_295_PARITY_MASK | 0 ); + + RegVal = ((0x00000001U << LPD_XPPU_CFG_APERPERM_295_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_295_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_295_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_295_OFFSET ,0xF80FFFFFU ,0x08000001U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_0, START ADDRESS: FF300000, END ADDRESS: FF30FFFF + /*Register : APERPERM_296 @ 0XFF9814A0

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_296_PERMISSION 0x10 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_296_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_296_PARITY 0x0 + + Entry 296 of the Aperture Permission List, for 32-byte IPI buffer 040 at BASE_32B + 0x00000500 + (OFFSET, MASK, VALUE) (0XFF9814A0, 0xF80FFFFFU ,0x08000010U) + RegMask = (LPD_XPPU_CFG_APERPERM_296_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_296_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_296_PARITY_MASK | 0 ); + + RegVal = ((0x00000010U << LPD_XPPU_CFG_APERPERM_296_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_296_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_296_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_296_OFFSET ,0xF80FFFFFU ,0x08000010U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_0, START ADDRESS: FF300000, END ADDRESS: FF30FFFF + /*Register : APERPERM_297 @ 0XFF9814A4

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_297_PERMISSION 0x1 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_297_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_297_PARITY 0x0 + + Entry 297 of the Aperture Permission List, for 32-byte IPI buffer 041 at BASE_32B + 0x00000520 + (OFFSET, MASK, VALUE) (0XFF9814A4, 0xF80FFFFFU ,0x08000001U) + RegMask = (LPD_XPPU_CFG_APERPERM_297_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_297_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_297_PARITY_MASK | 0 ); + + RegVal = ((0x00000001U << LPD_XPPU_CFG_APERPERM_297_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_297_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_297_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_297_OFFSET ,0xF80FFFFFU ,0x08000001U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_0, START ADDRESS: FF300000, END ADDRESS: FF30FFFF + /*Register : APERPERM_298 @ 0XFF9814A8

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_298_PERMISSION 0x10 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_298_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_298_PARITY 0x0 + + Entry 298 of the Aperture Permission List, for 32-byte IPI buffer 042 at BASE_32B + 0x00000540 + (OFFSET, MASK, VALUE) (0XFF9814A8, 0xF80FFFFFU ,0x08000010U) + RegMask = (LPD_XPPU_CFG_APERPERM_298_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_298_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_298_PARITY_MASK | 0 ); + + RegVal = ((0x00000010U << LPD_XPPU_CFG_APERPERM_298_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_298_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_298_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_298_OFFSET ,0xF80FFFFFU ,0x08000010U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_0, START ADDRESS: FF300000, END ADDRESS: FF30FFFF + /*Register : APERPERM_299 @ 0XFF9814AC

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_299_PERMISSION 0x1 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_299_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_299_PARITY 0x0 + + Entry 299 of the Aperture Permission List, for 32-byte IPI buffer 043 at BASE_32B + 0x00000560 + (OFFSET, MASK, VALUE) (0XFF9814AC, 0xF80FFFFFU ,0x08000001U) + RegMask = (LPD_XPPU_CFG_APERPERM_299_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_299_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_299_PARITY_MASK | 0 ); + + RegVal = ((0x00000001U << LPD_XPPU_CFG_APERPERM_299_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_299_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_299_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_299_OFFSET ,0xF80FFFFFU ,0x08000001U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_0, START ADDRESS: FF300000, END ADDRESS: FF30FFFF + /*Register : APERPERM_300 @ 0XFF9814B0

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_300_PERMISSION 0x10 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_300_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_300_PARITY 0x0 + + Entry 300 of the Aperture Permission List, for 32-byte IPI buffer 044 at BASE_32B + 0x00000580 + (OFFSET, MASK, VALUE) (0XFF9814B0, 0xF80FFFFFU ,0x08000010U) + RegMask = (LPD_XPPU_CFG_APERPERM_300_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_300_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_300_PARITY_MASK | 0 ); + + RegVal = ((0x00000010U << LPD_XPPU_CFG_APERPERM_300_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_300_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_300_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_300_OFFSET ,0xF80FFFFFU ,0x08000010U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_0, START ADDRESS: FF300000, END ADDRESS: FF30FFFF + /*Register : APERPERM_301 @ 0XFF9814B4

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_301_PERMISSION 0x1 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_301_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_301_PARITY 0x0 + + Entry 301 of the Aperture Permission List, for 32-byte IPI buffer 045 at BASE_32B + 0x000005A0 + (OFFSET, MASK, VALUE) (0XFF9814B4, 0xF80FFFFFU ,0x08000001U) + RegMask = (LPD_XPPU_CFG_APERPERM_301_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_301_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_301_PARITY_MASK | 0 ); + + RegVal = ((0x00000001U << LPD_XPPU_CFG_APERPERM_301_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_301_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_301_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_301_OFFSET ,0xF80FFFFFU ,0x08000001U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_0, START ADDRESS: FF300000, END ADDRESS: FF30FFFF + /*Register : APERPERM_302 @ 0XFF9814B8

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_302_PERMISSION 0x12 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_302_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_302_PARITY 0x0 + + Entry 302 of the Aperture Permission List, for 32-byte IPI buffer 046 at BASE_32B + 0x000005C0 + (OFFSET, MASK, VALUE) (0XFF9814B8, 0xF80FFFFFU ,0x08000012U) + RegMask = (LPD_XPPU_CFG_APERPERM_302_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_302_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_302_PARITY_MASK | 0 ); + + RegVal = ((0x00000012U << LPD_XPPU_CFG_APERPERM_302_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_302_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_302_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_302_OFFSET ,0xF80FFFFFU ,0x08000012U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_0, START ADDRESS: FF300000, END ADDRESS: FF30FFFF + /*Register : APERPERM_303 @ 0XFF9814BC

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_303_PERMISSION 0x21 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_303_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_303_PARITY 0x0 + + Entry 303 of the Aperture Permission List, for 32-byte IPI buffer 047 at BASE_32B + 0x000005E0 + (OFFSET, MASK, VALUE) (0XFF9814BC, 0xF80FFFFFU ,0x08000021U) + RegMask = (LPD_XPPU_CFG_APERPERM_303_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_303_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_303_PARITY_MASK | 0 ); + + RegVal = ((0x00000021U << LPD_XPPU_CFG_APERPERM_303_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_303_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_303_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_303_OFFSET ,0xF80FFFFFU ,0x08000021U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_7, START ADDRESS: FF340000, END ADDRESS: FF34FFFF + /*Register : APERPERM_304 @ 0XFF9814C0

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_304_PERMISSION 0x4 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_304_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_304_PARITY 0x0 + + Entry 304 of the Aperture Permission List, for 32-byte IPI buffer 048 at BASE_32B + 0x00000600 + (OFFSET, MASK, VALUE) (0XFF9814C0, 0xF80FFFFFU ,0x08000004U) + RegMask = (LPD_XPPU_CFG_APERPERM_304_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_304_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_304_PARITY_MASK | 0 ); + + RegVal = ((0x00000004U << LPD_XPPU_CFG_APERPERM_304_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_304_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_304_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_304_OFFSET ,0xF80FFFFFU ,0x08000004U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_7, START ADDRESS: FF340000, END ADDRESS: FF34FFFF + /*Register : APERPERM_305 @ 0XFF9814C4

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_305_PERMISSION 0x40 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_305_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_305_PARITY 0x0 + + Entry 305 of the Aperture Permission List, for 32-byte IPI buffer 049 at BASE_32B + 0x00000620 + (OFFSET, MASK, VALUE) (0XFF9814C4, 0xF80FFFFFU ,0x08000040U) + RegMask = (LPD_XPPU_CFG_APERPERM_305_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_305_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_305_PARITY_MASK | 0 ); + + RegVal = ((0x00000040U << LPD_XPPU_CFG_APERPERM_305_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_305_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_305_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_305_OFFSET ,0xF80FFFFFU ,0x08000040U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_7, START ADDRESS: FF340000, END ADDRESS: FF34FFFF + /*Register : APERPERM_306 @ 0XFF9814C8

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_306_PERMISSION 0x8 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_306_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_306_PARITY 0x0 + + Entry 306 of the Aperture Permission List, for 32-byte IPI buffer 050 at BASE_32B + 0x00000640 + (OFFSET, MASK, VALUE) (0XFF9814C8, 0xF80FFFFFU ,0x08000008U) + RegMask = (LPD_XPPU_CFG_APERPERM_306_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_306_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_306_PARITY_MASK | 0 ); + + RegVal = ((0x00000008U << LPD_XPPU_CFG_APERPERM_306_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_306_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_306_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_306_OFFSET ,0xF80FFFFFU ,0x08000008U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_7, START ADDRESS: FF340000, END ADDRESS: FF34FFFF + /*Register : APERPERM_307 @ 0XFF9814CC

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_307_PERMISSION 0x80 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_307_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_307_PARITY 0x0 + + Entry 307 of the Aperture Permission List, for 32-byte IPI buffer 051 at BASE_32B + 0x00000660 + (OFFSET, MASK, VALUE) (0XFF9814CC, 0xF80FFFFFU ,0x08000080U) + RegMask = (LPD_XPPU_CFG_APERPERM_307_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_307_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_307_PARITY_MASK | 0 ); + + RegVal = ((0x00000080U << LPD_XPPU_CFG_APERPERM_307_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_307_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_307_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_307_OFFSET ,0xF80FFFFFU ,0x08000080U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_7, START ADDRESS: FF340000, END ADDRESS: FF34FFFF + /*Register : APERPERM_308 @ 0XFF9814D0

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_308_PERMISSION 0x1 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_308_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_308_PARITY 0x0 + + Entry 308 of the Aperture Permission List, for 32-byte IPI buffer 052 at BASE_32B + 0x00000680 + (OFFSET, MASK, VALUE) (0XFF9814D0, 0xF80FFFFFU ,0x08000001U) + RegMask = (LPD_XPPU_CFG_APERPERM_308_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_308_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_308_PARITY_MASK | 0 ); + + RegVal = ((0x00000001U << LPD_XPPU_CFG_APERPERM_308_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_308_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_308_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_308_OFFSET ,0xF80FFFFFU ,0x08000001U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_7, START ADDRESS: FF340000, END ADDRESS: FF34FFFF + /*Register : APERPERM_309 @ 0XFF9814D4

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_309_PERMISSION 0x10 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_309_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_309_PARITY 0x0 + + Entry 309 of the Aperture Permission List, for 32-byte IPI buffer 053 at BASE_32B + 0x000006A0 + (OFFSET, MASK, VALUE) (0XFF9814D4, 0xF80FFFFFU ,0x08000010U) + RegMask = (LPD_XPPU_CFG_APERPERM_309_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_309_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_309_PARITY_MASK | 0 ); + + RegVal = ((0x00000010U << LPD_XPPU_CFG_APERPERM_309_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_309_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_309_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_309_OFFSET ,0xF80FFFFFU ,0x08000010U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_7, START ADDRESS: FF340000, END ADDRESS: FF34FFFF + // : APERTURE NAME: IPI_7, START ADDRESS: FF340000, END ADDRESS: FF34FFFF + // : APERTURE NAME: IPI_7, START ADDRESS: FF340000, END ADDRESS: FF34FFFF + // : APERTURE NAME: IPI_7, START ADDRESS: FF340000, END ADDRESS: FF34FFFF + // : APERTURE NAME: IPI_7, START ADDRESS: FF340000, END ADDRESS: FF34FFFF + // : APERTURE NAME: IPI_7, START ADDRESS: FF340000, END ADDRESS: FF34FFFF + // : APERTURE NAME: IPI_7, START ADDRESS: FF340000, END ADDRESS: FF34FFFF + // : APERTURE NAME: IPI_7, START ADDRESS: FF340000, END ADDRESS: FF34FFFF + // : APERTURE NAME: IPI_7, START ADDRESS: FF340000, END ADDRESS: FF34FFFF + /*Register : APERPERM_318 @ 0XFF9814F8

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_318_PERMISSION 0x2 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_318_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_318_PARITY 0x0 + + Entry 318 of the Aperture Permission List, for 32-byte IPI buffer 062 at BASE_32B + 0x000007C0 + (OFFSET, MASK, VALUE) (0XFF9814F8, 0xF80FFFFFU ,0x08000002U) + RegMask = (LPD_XPPU_CFG_APERPERM_318_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_318_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_318_PARITY_MASK | 0 ); + + RegVal = ((0x00000002U << LPD_XPPU_CFG_APERPERM_318_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_318_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_318_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_318_OFFSET ,0xF80FFFFFU ,0x08000002U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_7, START ADDRESS: FF340000, END ADDRESS: FF34FFFF + /*Register : APERPERM_319 @ 0XFF9814FC

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_319_PERMISSION 0x20 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_319_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_319_PARITY 0x0 + + Entry 319 of the Aperture Permission List, for 32-byte IPI buffer 063 at BASE_32B + 0x000007E0 + (OFFSET, MASK, VALUE) (0XFF9814FC, 0xF80FFFFFU ,0x08000020U) + RegMask = (LPD_XPPU_CFG_APERPERM_319_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_319_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_319_PARITY_MASK | 0 ); + + RegVal = ((0x00000020U << LPD_XPPU_CFG_APERPERM_319_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_319_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_319_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_319_OFFSET ,0xF80FFFFFU ,0x08000020U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_8, START ADDRESS: FF350000, END ADDRESS: FF35FFFF + /*Register : APERPERM_320 @ 0XFF981500

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_320_PERMISSION 0x4 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_320_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_320_PARITY 0x0 + + Entry 320 of the Aperture Permission List, for 32-byte IPI buffer 064 at BASE_32B + 0x00000800 + (OFFSET, MASK, VALUE) (0XFF981500, 0xF80FFFFFU ,0x08000004U) + RegMask = (LPD_XPPU_CFG_APERPERM_320_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_320_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_320_PARITY_MASK | 0 ); + + RegVal = ((0x00000004U << LPD_XPPU_CFG_APERPERM_320_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_320_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_320_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_320_OFFSET ,0xF80FFFFFU ,0x08000004U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_8, START ADDRESS: FF350000, END ADDRESS: FF35FFFF + /*Register : APERPERM_321 @ 0XFF981504

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_321_PERMISSION 0x40 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_321_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_321_PARITY 0x0 + + Entry 321 of the Aperture Permission List, for 32-byte IPI buffer 065 at BASE_32B + 0x00000820 + (OFFSET, MASK, VALUE) (0XFF981504, 0xF80FFFFFU ,0x08000040U) + RegMask = (LPD_XPPU_CFG_APERPERM_321_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_321_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_321_PARITY_MASK | 0 ); + + RegVal = ((0x00000040U << LPD_XPPU_CFG_APERPERM_321_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_321_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_321_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_321_OFFSET ,0xF80FFFFFU ,0x08000040U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_8, START ADDRESS: FF350000, END ADDRESS: FF35FFFF + /*Register : APERPERM_322 @ 0XFF981508

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_322_PERMISSION 0x8 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_322_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_322_PARITY 0x0 + + Entry 322 of the Aperture Permission List, for 32-byte IPI buffer 066 at BASE_32B + 0x00000840 + (OFFSET, MASK, VALUE) (0XFF981508, 0xF80FFFFFU ,0x08000008U) + RegMask = (LPD_XPPU_CFG_APERPERM_322_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_322_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_322_PARITY_MASK | 0 ); + + RegVal = ((0x00000008U << LPD_XPPU_CFG_APERPERM_322_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_322_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_322_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_322_OFFSET ,0xF80FFFFFU ,0x08000008U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_8, START ADDRESS: FF350000, END ADDRESS: FF35FFFF + /*Register : APERPERM_323 @ 0XFF98150C

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_323_PERMISSION 0x80 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_323_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_323_PARITY 0x0 + + Entry 323 of the Aperture Permission List, for 32-byte IPI buffer 067 at BASE_32B + 0x00000860 + (OFFSET, MASK, VALUE) (0XFF98150C, 0xF80FFFFFU ,0x08000080U) + RegMask = (LPD_XPPU_CFG_APERPERM_323_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_323_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_323_PARITY_MASK | 0 ); + + RegVal = ((0x00000080U << LPD_XPPU_CFG_APERPERM_323_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_323_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_323_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_323_OFFSET ,0xF80FFFFFU ,0x08000080U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_8, START ADDRESS: FF350000, END ADDRESS: FF35FFFF + /*Register : APERPERM_324 @ 0XFF981510

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_324_PERMISSION 0x1 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_324_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_324_PARITY 0x0 + + Entry 324 of the Aperture Permission List, for 32-byte IPI buffer 068 at BASE_32B + 0x00000880 + (OFFSET, MASK, VALUE) (0XFF981510, 0xF80FFFFFU ,0x08000001U) + RegMask = (LPD_XPPU_CFG_APERPERM_324_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_324_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_324_PARITY_MASK | 0 ); + + RegVal = ((0x00000001U << LPD_XPPU_CFG_APERPERM_324_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_324_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_324_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_324_OFFSET ,0xF80FFFFFU ,0x08000001U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_8, START ADDRESS: FF350000, END ADDRESS: FF35FFFF + /*Register : APERPERM_325 @ 0XFF981514

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_325_PERMISSION 0x10 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_325_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_325_PARITY 0x0 + + Entry 325 of the Aperture Permission List, for 32-byte IPI buffer 069 at BASE_32B + 0x000008A0 + (OFFSET, MASK, VALUE) (0XFF981514, 0xF80FFFFFU ,0x08000010U) + RegMask = (LPD_XPPU_CFG_APERPERM_325_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_325_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_325_PARITY_MASK | 0 ); + + RegVal = ((0x00000010U << LPD_XPPU_CFG_APERPERM_325_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_325_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_325_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_325_OFFSET ,0xF80FFFFFU ,0x08000010U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_8, START ADDRESS: FF350000, END ADDRESS: FF35FFFF + // : APERTURE NAME: IPI_8, START ADDRESS: FF350000, END ADDRESS: FF35FFFF + // : APERTURE NAME: IPI_8, START ADDRESS: FF350000, END ADDRESS: FF35FFFF + // : APERTURE NAME: IPI_8, START ADDRESS: FF350000, END ADDRESS: FF35FFFF + // : APERTURE NAME: IPI_8, START ADDRESS: FF350000, END ADDRESS: FF35FFFF + // : APERTURE NAME: IPI_8, START ADDRESS: FF350000, END ADDRESS: FF35FFFF + // : APERTURE NAME: IPI_8, START ADDRESS: FF350000, END ADDRESS: FF35FFFF + // : APERTURE NAME: IPI_8, START ADDRESS: FF350000, END ADDRESS: FF35FFFF + // : APERTURE NAME: IPI_8, START ADDRESS: FF350000, END ADDRESS: FF35FFFF + /*Register : APERPERM_334 @ 0XFF981538

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_334_PERMISSION 0x2 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_334_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_334_PARITY 0x0 + + Entry 334 of the Aperture Permission List, for 32-byte IPI buffer 078 at BASE_32B + 0x000009C0 + (OFFSET, MASK, VALUE) (0XFF981538, 0xF80FFFFFU ,0x08000002U) + RegMask = (LPD_XPPU_CFG_APERPERM_334_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_334_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_334_PARITY_MASK | 0 ); + + RegVal = ((0x00000002U << LPD_XPPU_CFG_APERPERM_334_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_334_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_334_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_334_OFFSET ,0xF80FFFFFU ,0x08000002U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_8, START ADDRESS: FF350000, END ADDRESS: FF35FFFF + /*Register : APERPERM_335 @ 0XFF98153C

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_335_PERMISSION 0x20 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_335_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_335_PARITY 0x0 + + Entry 335 of the Aperture Permission List, for 32-byte IPI buffer 079 at BASE_32B + 0x000009E0 + (OFFSET, MASK, VALUE) (0XFF98153C, 0xF80FFFFFU ,0x08000020U) + RegMask = (LPD_XPPU_CFG_APERPERM_335_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_335_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_335_PARITY_MASK | 0 ); + + RegVal = ((0x00000020U << LPD_XPPU_CFG_APERPERM_335_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_335_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_335_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_335_OFFSET ,0xF80FFFFFU ,0x08000020U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_9, START ADDRESS: FF360000, END ADDRESS: FF36FFFF + /*Register : APERPERM_336 @ 0XFF981540

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_336_PERMISSION 0x4 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_336_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_336_PARITY 0x0 + + Entry 336 of the Aperture Permission List, for 32-byte IPI buffer 080 at BASE_32B + 0x00000A00 + (OFFSET, MASK, VALUE) (0XFF981540, 0xF80FFFFFU ,0x08000004U) + RegMask = (LPD_XPPU_CFG_APERPERM_336_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_336_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_336_PARITY_MASK | 0 ); + + RegVal = ((0x00000004U << LPD_XPPU_CFG_APERPERM_336_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_336_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_336_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_336_OFFSET ,0xF80FFFFFU ,0x08000004U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_9, START ADDRESS: FF360000, END ADDRESS: FF36FFFF + /*Register : APERPERM_337 @ 0XFF981544

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_337_PERMISSION 0x40 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_337_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_337_PARITY 0x0 + + Entry 337 of the Aperture Permission List, for 32-byte IPI buffer 081 at BASE_32B + 0x00000A20 + (OFFSET, MASK, VALUE) (0XFF981544, 0xF80FFFFFU ,0x08000040U) + RegMask = (LPD_XPPU_CFG_APERPERM_337_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_337_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_337_PARITY_MASK | 0 ); + + RegVal = ((0x00000040U << LPD_XPPU_CFG_APERPERM_337_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_337_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_337_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_337_OFFSET ,0xF80FFFFFU ,0x08000040U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_9, START ADDRESS: FF360000, END ADDRESS: FF36FFFF + /*Register : APERPERM_338 @ 0XFF981548

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_338_PERMISSION 0x8 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_338_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_338_PARITY 0x0 + + Entry 338 of the Aperture Permission List, for 32-byte IPI buffer 082 at BASE_32B + 0x00000A40 + (OFFSET, MASK, VALUE) (0XFF981548, 0xF80FFFFFU ,0x08000008U) + RegMask = (LPD_XPPU_CFG_APERPERM_338_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_338_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_338_PARITY_MASK | 0 ); + + RegVal = ((0x00000008U << LPD_XPPU_CFG_APERPERM_338_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_338_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_338_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_338_OFFSET ,0xF80FFFFFU ,0x08000008U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_9, START ADDRESS: FF360000, END ADDRESS: FF36FFFF + /*Register : APERPERM_339 @ 0XFF98154C

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_339_PERMISSION 0x80 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_339_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_339_PARITY 0x0 + + Entry 339 of the Aperture Permission List, for 32-byte IPI buffer 083 at BASE_32B + 0x00000A60 + (OFFSET, MASK, VALUE) (0XFF98154C, 0xF80FFFFFU ,0x08000080U) + RegMask = (LPD_XPPU_CFG_APERPERM_339_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_339_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_339_PARITY_MASK | 0 ); + + RegVal = ((0x00000080U << LPD_XPPU_CFG_APERPERM_339_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_339_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_339_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_339_OFFSET ,0xF80FFFFFU ,0x08000080U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_9, START ADDRESS: FF360000, END ADDRESS: FF36FFFF + /*Register : APERPERM_340 @ 0XFF981550

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_340_PERMISSION 0x1 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_340_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_340_PARITY 0x0 + + Entry 340 of the Aperture Permission List, for 32-byte IPI buffer 084 at BASE_32B + 0x00000A80 + (OFFSET, MASK, VALUE) (0XFF981550, 0xF80FFFFFU ,0x08000001U) + RegMask = (LPD_XPPU_CFG_APERPERM_340_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_340_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_340_PARITY_MASK | 0 ); + + RegVal = ((0x00000001U << LPD_XPPU_CFG_APERPERM_340_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_340_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_340_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_340_OFFSET ,0xF80FFFFFU ,0x08000001U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_9, START ADDRESS: FF360000, END ADDRESS: FF36FFFF + /*Register : APERPERM_341 @ 0XFF981554

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_341_PERMISSION 0x10 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_341_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_341_PARITY 0x0 + + Entry 341 of the Aperture Permission List, for 32-byte IPI buffer 085 at BASE_32B + 0x00000AA0 + (OFFSET, MASK, VALUE) (0XFF981554, 0xF80FFFFFU ,0x08000010U) + RegMask = (LPD_XPPU_CFG_APERPERM_341_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_341_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_341_PARITY_MASK | 0 ); + + RegVal = ((0x00000010U << LPD_XPPU_CFG_APERPERM_341_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_341_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_341_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_341_OFFSET ,0xF80FFFFFU ,0x08000010U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_9, START ADDRESS: FF360000, END ADDRESS: FF36FFFF + // : APERTURE NAME: IPI_9, START ADDRESS: FF360000, END ADDRESS: FF36FFFF + // : APERTURE NAME: IPI_9, START ADDRESS: FF360000, END ADDRESS: FF36FFFF + // : APERTURE NAME: IPI_9, START ADDRESS: FF360000, END ADDRESS: FF36FFFF + // : APERTURE NAME: IPI_9, START ADDRESS: FF360000, END ADDRESS: FF36FFFF + // : APERTURE NAME: IPI_9, START ADDRESS: FF360000, END ADDRESS: FF36FFFF + // : APERTURE NAME: IPI_9, START ADDRESS: FF360000, END ADDRESS: FF36FFFF + // : APERTURE NAME: IPI_9, START ADDRESS: FF360000, END ADDRESS: FF36FFFF + // : APERTURE NAME: IPI_9, START ADDRESS: FF360000, END ADDRESS: FF36FFFF + /*Register : APERPERM_350 @ 0XFF981578

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_350_PERMISSION 0x2 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_350_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_350_PARITY 0x0 + + Entry 350 of the Aperture Permission List, for 32-byte IPI buffer 094 at BASE_32B + 0x00000BC0 + (OFFSET, MASK, VALUE) (0XFF981578, 0xF80FFFFFU ,0x08000002U) + RegMask = (LPD_XPPU_CFG_APERPERM_350_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_350_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_350_PARITY_MASK | 0 ); + + RegVal = ((0x00000002U << LPD_XPPU_CFG_APERPERM_350_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_350_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_350_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_350_OFFSET ,0xF80FFFFFU ,0x08000002U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_9, START ADDRESS: FF360000, END ADDRESS: FF36FFFF + /*Register : APERPERM_351 @ 0XFF98157C

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_351_PERMISSION 0x20 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_351_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_351_PARITY 0x0 + + Entry 351 of the Aperture Permission List, for 32-byte IPI buffer 095 at BASE_32B + 0x00000BE0 + (OFFSET, MASK, VALUE) (0XFF98157C, 0xF80FFFFFU ,0x08000020U) + RegMask = (LPD_XPPU_CFG_APERPERM_351_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_351_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_351_PARITY_MASK | 0 ); + + RegVal = ((0x00000020U << LPD_XPPU_CFG_APERPERM_351_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_351_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_351_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_351_OFFSET ,0xF80FFFFFU ,0x08000020U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_10, START ADDRESS: FF370000, END ADDRESS: FF37FFFF + /*Register : APERPERM_352 @ 0XFF981580

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_352_PERMISSION 0x4 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_352_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_352_PARITY 0x0 + + Entry 352 of the Aperture Permission List, for 32-byte IPI buffer 096 at BASE_32B + 0x00000C00 + (OFFSET, MASK, VALUE) (0XFF981580, 0xF80FFFFFU ,0x08000004U) + RegMask = (LPD_XPPU_CFG_APERPERM_352_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_352_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_352_PARITY_MASK | 0 ); + + RegVal = ((0x00000004U << LPD_XPPU_CFG_APERPERM_352_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_352_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_352_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_352_OFFSET ,0xF80FFFFFU ,0x08000004U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_10, START ADDRESS: FF370000, END ADDRESS: FF37FFFF + /*Register : APERPERM_353 @ 0XFF981584

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_353_PERMISSION 0x40 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_353_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_353_PARITY 0x0 + + Entry 353 of the Aperture Permission List, for 32-byte IPI buffer 097 at BASE_32B + 0x00000C20 + (OFFSET, MASK, VALUE) (0XFF981584, 0xF80FFFFFU ,0x08000040U) + RegMask = (LPD_XPPU_CFG_APERPERM_353_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_353_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_353_PARITY_MASK | 0 ); + + RegVal = ((0x00000040U << LPD_XPPU_CFG_APERPERM_353_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_353_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_353_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_353_OFFSET ,0xF80FFFFFU ,0x08000040U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_10, START ADDRESS: FF370000, END ADDRESS: FF37FFFF + /*Register : APERPERM_354 @ 0XFF981588

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_354_PERMISSION 0x8 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_354_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_354_PARITY 0x0 + + Entry 354 of the Aperture Permission List, for 32-byte IPI buffer 098 at BASE_32B + 0x00000C40 + (OFFSET, MASK, VALUE) (0XFF981588, 0xF80FFFFFU ,0x08000008U) + RegMask = (LPD_XPPU_CFG_APERPERM_354_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_354_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_354_PARITY_MASK | 0 ); + + RegVal = ((0x00000008U << LPD_XPPU_CFG_APERPERM_354_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_354_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_354_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_354_OFFSET ,0xF80FFFFFU ,0x08000008U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_10, START ADDRESS: FF370000, END ADDRESS: FF37FFFF + /*Register : APERPERM_355 @ 0XFF98158C

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_355_PERMISSION 0x80 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_355_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_355_PARITY 0x0 + + Entry 355 of the Aperture Permission List, for 32-byte IPI buffer 099 at BASE_32B + 0x00000C60 + (OFFSET, MASK, VALUE) (0XFF98158C, 0xF80FFFFFU ,0x08000080U) + RegMask = (LPD_XPPU_CFG_APERPERM_355_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_355_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_355_PARITY_MASK | 0 ); + + RegVal = ((0x00000080U << LPD_XPPU_CFG_APERPERM_355_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_355_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_355_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_355_OFFSET ,0xF80FFFFFU ,0x08000080U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_10, START ADDRESS: FF370000, END ADDRESS: FF37FFFF + /*Register : APERPERM_356 @ 0XFF981590

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_356_PERMISSION 0x1 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_356_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_356_PARITY 0x0 + + Entry 356 of the Aperture Permission List, for 32-byte IPI buffer 100 at BASE_32B + 0x00000C80 + (OFFSET, MASK, VALUE) (0XFF981590, 0xF80FFFFFU ,0x08000001U) + RegMask = (LPD_XPPU_CFG_APERPERM_356_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_356_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_356_PARITY_MASK | 0 ); + + RegVal = ((0x00000001U << LPD_XPPU_CFG_APERPERM_356_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_356_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_356_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_356_OFFSET ,0xF80FFFFFU ,0x08000001U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_10, START ADDRESS: FF370000, END ADDRESS: FF37FFFF + /*Register : APERPERM_357 @ 0XFF981594

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_357_PERMISSION 0x10 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_357_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_357_PARITY 0x0 + + Entry 357 of the Aperture Permission List, for 32-byte IPI buffer 101 at BASE_32B + 0x00000CA0 + (OFFSET, MASK, VALUE) (0XFF981594, 0xF80FFFFFU ,0x08000010U) + RegMask = (LPD_XPPU_CFG_APERPERM_357_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_357_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_357_PARITY_MASK | 0 ); + + RegVal = ((0x00000010U << LPD_XPPU_CFG_APERPERM_357_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_357_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_357_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_357_OFFSET ,0xF80FFFFFU ,0x08000010U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_10, START ADDRESS: FF370000, END ADDRESS: FF37FFFF + // : APERTURE NAME: IPI_10, START ADDRESS: FF370000, END ADDRESS: FF37FFFF + // : APERTURE NAME: IPI_10, START ADDRESS: FF370000, END ADDRESS: FF37FFFF + // : APERTURE NAME: IPI_10, START ADDRESS: FF370000, END ADDRESS: FF37FFFF + // : APERTURE NAME: IPI_10, START ADDRESS: FF370000, END ADDRESS: FF37FFFF + // : APERTURE NAME: IPI_10, START ADDRESS: FF370000, END ADDRESS: FF37FFFF + // : APERTURE NAME: IPI_10, START ADDRESS: FF370000, END ADDRESS: FF37FFFF + // : APERTURE NAME: IPI_10, START ADDRESS: FF370000, END ADDRESS: FF37FFFF + // : APERTURE NAME: IPI_10, START ADDRESS: FF370000, END ADDRESS: FF37FFFF + /*Register : APERPERM_366 @ 0XFF9815B8

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_366_PERMISSION 0x2 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_366_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_366_PARITY 0x0 + + Entry 366 of the Aperture Permission List, for 32-byte IPI buffer 110 at BASE_32B + 0x00000DC0 + (OFFSET, MASK, VALUE) (0XFF9815B8, 0xF80FFFFFU ,0x08000002U) + RegMask = (LPD_XPPU_CFG_APERPERM_366_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_366_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_366_PARITY_MASK | 0 ); + + RegVal = ((0x00000002U << LPD_XPPU_CFG_APERPERM_366_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_366_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_366_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_366_OFFSET ,0xF80FFFFFU ,0x08000002U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_10, START ADDRESS: FF370000, END ADDRESS: FF37FFFF + /*Register : APERPERM_367 @ 0XFF9815BC

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_367_PERMISSION 0x20 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_367_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_367_PARITY 0x0 + + Entry 367 of the Aperture Permission List, for 32-byte IPI buffer 111 at BASE_32B + 0x00000DE0 + (OFFSET, MASK, VALUE) (0XFF9815BC, 0xF80FFFFFU ,0x08000020U) + RegMask = (LPD_XPPU_CFG_APERPERM_367_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_367_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_367_PARITY_MASK | 0 ); + + RegVal = ((0x00000020U << LPD_XPPU_CFG_APERPERM_367_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_367_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_367_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_367_OFFSET ,0xF80FFFFFU ,0x08000020U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_PMU, START ADDRESS: FF330000, END ADDRESS: FF33FFFF + /*Register : APERPERM_368 @ 0XFF9815C0

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_368_PERMISSION 0x24 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_368_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_368_PARITY 0x0 + + Entry 368 of the Aperture Permission List, for 32-byte IPI buffer 112 at BASE_32B + 0x00000E00 + (OFFSET, MASK, VALUE) (0XFF9815C0, 0xF80FFFFFU ,0x08000024U) + RegMask = (LPD_XPPU_CFG_APERPERM_368_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_368_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_368_PARITY_MASK | 0 ); + + RegVal = ((0x00000024U << LPD_XPPU_CFG_APERPERM_368_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_368_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_368_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_368_OFFSET ,0xF80FFFFFU ,0x08000024U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_PMU, START ADDRESS: FF330000, END ADDRESS: FF33FFFF + /*Register : APERPERM_369 @ 0XFF9815C4

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_369_PERMISSION 0x42 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_369_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_369_PARITY 0x0 + + Entry 369 of the Aperture Permission List, for 32-byte IPI buffer 113 at BASE_32B + 0x00000E20 + (OFFSET, MASK, VALUE) (0XFF9815C4, 0xF80FFFFFU ,0x08000042U) + RegMask = (LPD_XPPU_CFG_APERPERM_369_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_369_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_369_PARITY_MASK | 0 ); + + RegVal = ((0x00000042U << LPD_XPPU_CFG_APERPERM_369_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_369_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_369_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_369_OFFSET ,0xF80FFFFFU ,0x08000042U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_PMU, START ADDRESS: FF330000, END ADDRESS: FF33FFFF + /*Register : APERPERM_370 @ 0XFF9815C8

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_370_PERMISSION 0x28 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_370_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_370_PARITY 0x0 + + Entry 370 of the Aperture Permission List, for 32-byte IPI buffer 114 at BASE_32B + 0x00000E40 + (OFFSET, MASK, VALUE) (0XFF9815C8, 0xF80FFFFFU ,0x08000028U) + RegMask = (LPD_XPPU_CFG_APERPERM_370_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_370_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_370_PARITY_MASK | 0 ); + + RegVal = ((0x00000028U << LPD_XPPU_CFG_APERPERM_370_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_370_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_370_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_370_OFFSET ,0xF80FFFFFU ,0x08000028U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_PMU, START ADDRESS: FF330000, END ADDRESS: FF33FFFF + /*Register : APERPERM_371 @ 0XFF9815CC

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_371_PERMISSION 0x82 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_371_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_371_PARITY 0x0 + + Entry 371 of the Aperture Permission List, for 32-byte IPI buffer 115 at BASE_32B + 0x00000E60 + (OFFSET, MASK, VALUE) (0XFF9815CC, 0xF80FFFFFU ,0x08000082U) + RegMask = (LPD_XPPU_CFG_APERPERM_371_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_371_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_371_PARITY_MASK | 0 ); + + RegVal = ((0x00000082U << LPD_XPPU_CFG_APERPERM_371_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_371_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_371_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_371_OFFSET ,0xF80FFFFFU ,0x08000082U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_PMU, START ADDRESS: FF330000, END ADDRESS: FF33FFFF + /*Register : APERPERM_372 @ 0XFF9815D0

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_372_PERMISSION 0x21 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_372_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_372_PARITY 0x0 + + Entry 372 of the Aperture Permission List, for 32-byte IPI buffer 116 at BASE_32B + 0x00000E80 + (OFFSET, MASK, VALUE) (0XFF9815D0, 0xF80FFFFFU ,0x08000021U) + RegMask = (LPD_XPPU_CFG_APERPERM_372_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_372_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_372_PARITY_MASK | 0 ); + + RegVal = ((0x00000021U << LPD_XPPU_CFG_APERPERM_372_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_372_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_372_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_372_OFFSET ,0xF80FFFFFU ,0x08000021U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_PMU, START ADDRESS: FF330000, END ADDRESS: FF33FFFF + /*Register : APERPERM_373 @ 0XFF9815D4

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_373_PERMISSION 0x12 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_373_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_373_PARITY 0x0 + + Entry 373 of the Aperture Permission List, for 32-byte IPI buffer 117 at BASE_32B + 0x00000EA0 + (OFFSET, MASK, VALUE) (0XFF9815D4, 0xF80FFFFFU ,0x08000012U) + RegMask = (LPD_XPPU_CFG_APERPERM_373_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_373_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_373_PARITY_MASK | 0 ); + + RegVal = ((0x00000012U << LPD_XPPU_CFG_APERPERM_373_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_373_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_373_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_373_OFFSET ,0xF80FFFFFU ,0x08000012U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_PMU, START ADDRESS: FF330000, END ADDRESS: FF33FFFF + /*Register : APERPERM_374 @ 0XFF9815D8

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_374_PERMISSION 0x20 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_374_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_374_PARITY 0x0 + + Entry 374 of the Aperture Permission List, for 32-byte IPI buffer 118 at BASE_32B + 0x00000EC0 + (OFFSET, MASK, VALUE) (0XFF9815D8, 0xF80FFFFFU ,0x08000020U) + RegMask = (LPD_XPPU_CFG_APERPERM_374_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_374_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_374_PARITY_MASK | 0 ); + + RegVal = ((0x00000020U << LPD_XPPU_CFG_APERPERM_374_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_374_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_374_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_374_OFFSET ,0xF80FFFFFU ,0x08000020U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_PMU, START ADDRESS: FF330000, END ADDRESS: FF33FFFF + /*Register : APERPERM_375 @ 0XFF9815DC

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_375_PERMISSION 0x2 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_375_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_375_PARITY 0x0 + + Entry 375 of the Aperture Permission List, for 32-byte IPI buffer 119 at BASE_32B + 0x00000EE0 + (OFFSET, MASK, VALUE) (0XFF9815DC, 0xF80FFFFFU ,0x08000002U) + RegMask = (LPD_XPPU_CFG_APERPERM_375_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_375_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_375_PARITY_MASK | 0 ); + + RegVal = ((0x00000002U << LPD_XPPU_CFG_APERPERM_375_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_375_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_375_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_375_OFFSET ,0xF80FFFFFU ,0x08000002U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_PMU, START ADDRESS: FF330000, END ADDRESS: FF33FFFF + /*Register : APERPERM_376 @ 0XFF9815E0

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_376_PERMISSION 0x20 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_376_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_376_PARITY 0x0 + + Entry 376 of the Aperture Permission List, for 32-byte IPI buffer 120 at BASE_32B + 0x00000F00 + (OFFSET, MASK, VALUE) (0XFF9815E0, 0xF80FFFFFU ,0x08000020U) + RegMask = (LPD_XPPU_CFG_APERPERM_376_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_376_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_376_PARITY_MASK | 0 ); + + RegVal = ((0x00000020U << LPD_XPPU_CFG_APERPERM_376_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_376_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_376_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_376_OFFSET ,0xF80FFFFFU ,0x08000020U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_PMU, START ADDRESS: FF330000, END ADDRESS: FF33FFFF + /*Register : APERPERM_377 @ 0XFF9815E4

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_377_PERMISSION 0x2 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_377_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_377_PARITY 0x0 + + Entry 377 of the Aperture Permission List, for 32-byte IPI buffer 121 at BASE_32B + 0x00000F20 + (OFFSET, MASK, VALUE) (0XFF9815E4, 0xF80FFFFFU ,0x08000002U) + RegMask = (LPD_XPPU_CFG_APERPERM_377_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_377_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_377_PARITY_MASK | 0 ); + + RegVal = ((0x00000002U << LPD_XPPU_CFG_APERPERM_377_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_377_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_377_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_377_OFFSET ,0xF80FFFFFU ,0x08000002U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_PMU, START ADDRESS: FF330000, END ADDRESS: FF33FFFF + /*Register : APERPERM_378 @ 0XFF9815E8

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_378_PERMISSION 0x20 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_378_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_378_PARITY 0x0 + + Entry 378 of the Aperture Permission List, for 32-byte IPI buffer 122 at BASE_32B + 0x00000F40 + (OFFSET, MASK, VALUE) (0XFF9815E8, 0xF80FFFFFU ,0x08000020U) + RegMask = (LPD_XPPU_CFG_APERPERM_378_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_378_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_378_PARITY_MASK | 0 ); + + RegVal = ((0x00000020U << LPD_XPPU_CFG_APERPERM_378_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_378_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_378_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_378_OFFSET ,0xF80FFFFFU ,0x08000020U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_PMU, START ADDRESS: FF330000, END ADDRESS: FF33FFFF + /*Register : APERPERM_379 @ 0XFF9815EC

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_379_PERMISSION 0x2 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_379_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_379_PARITY 0x0 + + Entry 379 of the Aperture Permission List, for 32-byte IPI buffer 123 at BASE_32B + 0x00000F60 + (OFFSET, MASK, VALUE) (0XFF9815EC, 0xF80FFFFFU ,0x08000002U) + RegMask = (LPD_XPPU_CFG_APERPERM_379_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_379_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_379_PARITY_MASK | 0 ); + + RegVal = ((0x00000002U << LPD_XPPU_CFG_APERPERM_379_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_379_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_379_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_379_OFFSET ,0xF80FFFFFU ,0x08000002U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_PMU, START ADDRESS: FF330000, END ADDRESS: FF33FFFF + /*Register : APERPERM_380 @ 0XFF9815F0

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_380_PERMISSION 0x20 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_380_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_380_PARITY 0x0 + + Entry 380 of the Aperture Permission List, for 32-byte IPI buffer 124 at BASE_32B + 0x00000F80 + (OFFSET, MASK, VALUE) (0XFF9815F0, 0xF80FFFFFU ,0x08000020U) + RegMask = (LPD_XPPU_CFG_APERPERM_380_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_380_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_380_PARITY_MASK | 0 ); + + RegVal = ((0x00000020U << LPD_XPPU_CFG_APERPERM_380_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_380_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_380_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_380_OFFSET ,0xF80FFFFFU ,0x08000020U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_PMU, START ADDRESS: FF330000, END ADDRESS: FF33FFFF + /*Register : APERPERM_381 @ 0XFF9815F4

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_381_PERMISSION 0x2 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_381_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_381_PARITY 0x0 + + Entry 381 of the Aperture Permission List, for 32-byte IPI buffer 125 at BASE_32B + 0x00000FA0 + (OFFSET, MASK, VALUE) (0XFF9815F4, 0xF80FFFFFU ,0x08000002U) + RegMask = (LPD_XPPU_CFG_APERPERM_381_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_381_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_381_PARITY_MASK | 0 ); + + RegVal = ((0x00000002U << LPD_XPPU_CFG_APERPERM_381_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_381_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_381_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_381_OFFSET ,0xF80FFFFFU ,0x08000002U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_PMU, START ADDRESS: FF330000, END ADDRESS: FF33FFFF + /*Register : APERPERM_382 @ 0XFF9815F8

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_382_PERMISSION 0x20 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_382_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_382_PARITY 0x0 + + Entry 382 of the Aperture Permission List, for 32-byte IPI buffer 126 at BASE_32B + 0x00000FC0 + (OFFSET, MASK, VALUE) (0XFF9815F8, 0xF80FFFFFU ,0x08000020U) + RegMask = (LPD_XPPU_CFG_APERPERM_382_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_382_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_382_PARITY_MASK | 0 ); + + RegVal = ((0x00000020U << LPD_XPPU_CFG_APERPERM_382_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_382_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_382_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_382_OFFSET ,0xF80FFFFFU ,0x08000020U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IPI_PMU, START ADDRESS: FF330000, END ADDRESS: FF33FFFF + /*Register : APERPERM_383 @ 0XFF9815FC

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_383_PERMISSION 0x20 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_383_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_383_PARITY 0x0 + + Entry 383 of the Aperture Permission List, for 32-byte IPI buffer 127 at BASE_32B + 0x00000FE0 + (OFFSET, MASK, VALUE) (0XFF9815FC, 0xF80FFFFFU ,0x08000020U) + RegMask = (LPD_XPPU_CFG_APERPERM_383_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_383_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_383_PARITY_MASK | 0 ); + + RegVal = ((0x00000020U << LPD_XPPU_CFG_APERPERM_383_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_383_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_383_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_383_OFFSET ,0xF80FFFFFU ,0x08000020U); + /*############################################################################################################################ */ + + // : APERTURE NAME: IOU_GPV, START ADDRESS: FE000000, END ADDRESS: FE0FFFFF + // : APERTURE NAME: LPD_GPV, START ADDRESS: FE100000, END ADDRESS: FE1FFFFF + // : APERTURE NAME: USB3_0_XHCI, START ADDRESS: FE200000, END ADDRESS: FE2FFFFF + // : APERTURE NAME: USB3_1_XHCI, START ADDRESS: FE300000, END ADDRESS: FE3FFFFF + // : APERTURE NAME: LPD_UNUSED_13, START ADDRESS: FE400000, END ADDRESS: FE7FFFFF + // : APERTURE NAME: LPD_UNUSED_13, START ADDRESS: FE400000, END ADDRESS: FE7FFFFF + // : APERTURE NAME: LPD_UNUSED_13, START ADDRESS: FE400000, END ADDRESS: FE7FFFFF + // : APERTURE NAME: LPD_UNUSED_13, START ADDRESS: FE400000, END ADDRESS: FE7FFFFF + // : APERTURE NAME: CORESIGHT, START ADDRESS: FE800000, END ADDRESS: FEFFFFFF + // : APERTURE NAME: CORESIGHT, START ADDRESS: FE800000, END ADDRESS: FEFFFFFF + // : APERTURE NAME: CORESIGHT, START ADDRESS: FE800000, END ADDRESS: FEFFFFFF + // : APERTURE NAME: CORESIGHT, START ADDRESS: FE800000, END ADDRESS: FEFFFFFF + // : APERTURE NAME: CORESIGHT, START ADDRESS: FE800000, END ADDRESS: FEFFFFFF + // : APERTURE NAME: CORESIGHT, START ADDRESS: FE800000, END ADDRESS: FEFFFFFF + // : APERTURE NAME: CORESIGHT, START ADDRESS: FE800000, END ADDRESS: FEFFFFFF + // : APERTURE NAME: CORESIGHT, START ADDRESS: FE800000, END ADDRESS: FEFFFFFF + // : APERTURE NAME: QSPI_LINEAR_ADDRESS, START ADDRESS: C0000000, END ADDRESS: DFFFFFFF + // : XPPU CONTROL + /*Register : err_ctrl @ 0XFF9CFFEC

+ + Whether an APB access to the "hole" region and to an unimplemented register space causes PSLVERR + PSU_LPD_XPPU_SINK_ERR_CTRL_PSLVERR 1 + + Error control register + (OFFSET, MASK, VALUE) (0XFF9CFFEC, 0x00000001U ,0x00000001U) + RegMask = (LPD_XPPU_SINK_ERR_CTRL_PSLVERR_MASK | 0 ); + + RegVal = ((0x00000001U << LPD_XPPU_SINK_ERR_CTRL_PSLVERR_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_SINK_ERR_CTRL_OFFSET ,0x00000001U ,0x00000001U); + /*############################################################################################################################ */ + + /*Register : CTRL @ 0XFF980000

+ + 0=Bypass XPPU (transparent) 1=Enable XPPU permission checking + PSU_LPD_XPPU_CFG_CTRL_ENABLE 1 + + XPPU Control Register + (OFFSET, MASK, VALUE) (0XFF980000, 0x00000001U ,0x00000001U) + RegMask = (LPD_XPPU_CFG_CTRL_ENABLE_MASK | 0 ); + + RegVal = ((0x00000001U << LPD_XPPU_CFG_CTRL_ENABLE_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_CTRL_OFFSET ,0x00000001U ,0x00000001U); + /*############################################################################################################################ */ + + // : XPPU INTERRUPT ENABLE + /*Register : IEN @ 0XFF980018

+ + See Interuppt Status Register for details + PSU_LPD_XPPU_CFG_IEN_APER_PARITY 0X1 + + See Interuppt Status Register for details + PSU_LPD_XPPU_CFG_IEN_APER_TZ 0X1 + + See Interuppt Status Register for details + PSU_LPD_XPPU_CFG_IEN_APER_PERM 0X1 + + See Interuppt Status Register for details + PSU_LPD_XPPU_CFG_IEN_MID_PARITY 0X1 + + See Interuppt Status Register for details + PSU_LPD_XPPU_CFG_IEN_MID_RO 0X1 + + See Interuppt Status Register for details + PSU_LPD_XPPU_CFG_IEN_MID_MISS 0X1 + + See Interuppt Status Register for details + PSU_LPD_XPPU_CFG_IEN_INV_APB 0X1 + + Interrupt Enable Register + (OFFSET, MASK, VALUE) (0XFF980018, 0x000000EFU ,0x000000EFU) + RegMask = (LPD_XPPU_CFG_IEN_APER_PARITY_MASK | LPD_XPPU_CFG_IEN_APER_TZ_MASK | LPD_XPPU_CFG_IEN_APER_PERM_MASK | LPD_XPPU_CFG_IEN_MID_PARITY_MASK | LPD_XPPU_CFG_IEN_MID_RO_MASK | LPD_XPPU_CFG_IEN_MID_MISS_MASK | LPD_XPPU_CFG_IEN_INV_APB_MASK | 0 ); + + RegVal = ((0x00000001U << LPD_XPPU_CFG_IEN_APER_PARITY_SHIFT + | 0x00000001U << LPD_XPPU_CFG_IEN_APER_TZ_SHIFT + | 0x00000001U << LPD_XPPU_CFG_IEN_APER_PERM_SHIFT + | 0x00000001U << LPD_XPPU_CFG_IEN_MID_PARITY_SHIFT + | 0x00000001U << LPD_XPPU_CFG_IEN_MID_RO_SHIFT + | 0x00000001U << LPD_XPPU_CFG_IEN_MID_MISS_SHIFT + | 0x00000001U << LPD_XPPU_CFG_IEN_INV_APB_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_IEN_OFFSET ,0x000000EFU ,0x000000EFU); + /*############################################################################################################################ */ + + + return 1; +} +unsigned long psu_ddr_xmpu0_data() { + // : DDR XMPU0 + + return 1; +} +unsigned long psu_ddr_xmpu1_data() { + // : DDR XMPU1 + + return 1; +} +unsigned long psu_ddr_xmpu2_data() { + // : DDR XMPU2 + + return 1; +} +unsigned long psu_ddr_xmpu3_data() { + // : DDR XMPU3 + + return 1; +} +unsigned long psu_ddr_xmpu4_data() { + // : DDR XMPU4 + + return 1; +} +unsigned long psu_ddr_xmpu5_data() { + // : DDR XMPU5 + + return 1; +} +unsigned long psu_ocm_xmpu_data() { + // : OCM XMPU + + return 1; +} +unsigned long psu_fpd_xmpu_data() { + // : FPD XMPU + + return 1; +} +unsigned long psu_protection_lock_data() { + // : LOCKING PROTECTION MODULE + // : XPPU LOCK + // : APERTURE NAME: LPD_XPPU, START ADDRESS: FF980000, END ADDRESS: FF99FFFF + /*Register : APERPERM_152 @ 0XFF981260

+ + This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h. + PSU_LPD_XPPU_CFG_APERPERM_152_PERMISSION 0x0 + + 1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed + PSU_LPD_XPPU_CFG_APERPERM_152_TRUSTZONE 0x1 + + SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0 + PSU_LPD_XPPU_CFG_APERPERM_152_PARITY 0x0 + + Entry 152 of the Aperture Permission List, for the 64K-byte aperture at BASE_64KB + 0x00980000 + (OFFSET, MASK, VALUE) (0XFF981260, 0xF80FFFFFU ,0x08000000U) + RegMask = (LPD_XPPU_CFG_APERPERM_152_PERMISSION_MASK | LPD_XPPU_CFG_APERPERM_152_TRUSTZONE_MASK | LPD_XPPU_CFG_APERPERM_152_PARITY_MASK | 0 ); + + RegVal = ((0x00000000U << LPD_XPPU_CFG_APERPERM_152_PERMISSION_SHIFT + | 0x00000001U << LPD_XPPU_CFG_APERPERM_152_TRUSTZONE_SHIFT + | 0x00000000U << LPD_XPPU_CFG_APERPERM_152_PARITY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_XPPU_CFG_APERPERM_152_OFFSET ,0xF80FFFFFU ,0x08000000U); + /*############################################################################################################################ */ + + // : XMPU LOCK + + return 1; +} +unsigned long psu_apply_master_tz() { + // : RPU + // : DP TZ + // : SATA TZ + // : PCIE TZ + // : USB TZ + // : SD TZ + // : GEM TZ + // : QSPI TZ + // : NAND TZ + + return 1; +} +unsigned long psu_serdes_init_data() { + // : SERDES INITIALIZATION + // : GT REFERENCE CLOCK SOURCE SELECTION + /*Register : PLL_REF_SEL0 @ 0XFD410000

+ + PLL0 Reference Selection. 0x0 - 5MHz, 0x1 - 9.6MHz, 0x2 - 10MHz, 0x3 - 12MHz, 0x4 - 13MHz, 0x5 - 19.2MHz, 0x6 - 20MHz, 0x7 - + 4MHz, 0x8 - 26MHz, 0x9 - 27MHz, 0xA - 38.4MHz, 0xB - 40MHz, 0xC - 52MHz, 0xD - 100MHz, 0xE - 108MHz, 0xF - 125MHz, 0x10 - 135 + Hz, 0x11 - 150 MHz. 0x12 to 0x1F - Reserved + PSU_SERDES_PLL_REF_SEL0_PLLREFSEL0 0x9 + + PLL0 Reference Selection Register + (OFFSET, MASK, VALUE) (0XFD410000, 0x0000001FU ,0x00000009U) + RegMask = (SERDES_PLL_REF_SEL0_PLLREFSEL0_MASK | 0 ); + + RegVal = ((0x00000009U << SERDES_PLL_REF_SEL0_PLLREFSEL0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_PLL_REF_SEL0_OFFSET ,0x0000001FU ,0x00000009U); + /*############################################################################################################################ */ + + /*Register : PLL_REF_SEL1 @ 0XFD410004

+ + PLL1 Reference Selection. 0x0 - 5MHz, 0x1 - 9.6MHz, 0x2 - 10MHz, 0x3 - 12MHz, 0x4 - 13MHz, 0x5 - 19.2MHz, 0x6 - 20MHz, 0x7 - + 4MHz, 0x8 - 26MHz, 0x9 - 27MHz, 0xA - 38.4MHz, 0xB - 40MHz, 0xC - 52MHz, 0xD - 100MHz, 0xE - 108MHz, 0xF - 125MHz, 0x10 - 135 + Hz, 0x11 - 150 MHz. 0x12 to 0x1F - Reserved + PSU_SERDES_PLL_REF_SEL1_PLLREFSEL1 0x9 + + PLL1 Reference Selection Register + (OFFSET, MASK, VALUE) (0XFD410004, 0x0000001FU ,0x00000009U) + RegMask = (SERDES_PLL_REF_SEL1_PLLREFSEL1_MASK | 0 ); + + RegVal = ((0x00000009U << SERDES_PLL_REF_SEL1_PLLREFSEL1_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_PLL_REF_SEL1_OFFSET ,0x0000001FU ,0x00000009U); + /*############################################################################################################################ */ + + /*Register : PLL_REF_SEL2 @ 0XFD410008

+ + PLL2 Reference Selection. 0x0 - 5MHz, 0x1 - 9.6MHz, 0x2 - 10MHz, 0x3 - 12MHz, 0x4 - 13MHz, 0x5 - 19.2MHz, 0x6 - 20MHz, 0x7 - + 4MHz, 0x8 - 26MHz, 0x9 - 27MHz, 0xA - 38.4MHz, 0xB - 40MHz, 0xC - 52MHz, 0xD - 100MHz, 0xE - 108MHz, 0xF - 125MHz, 0x10 - 135 + Hz, 0x11 - 150 MHz. 0x12 to 0x1F - Reserved + PSU_SERDES_PLL_REF_SEL2_PLLREFSEL2 0x8 + + PLL2 Reference Selection Register + (OFFSET, MASK, VALUE) (0XFD410008, 0x0000001FU ,0x00000008U) + RegMask = (SERDES_PLL_REF_SEL2_PLLREFSEL2_MASK | 0 ); + + RegVal = ((0x00000008U << SERDES_PLL_REF_SEL2_PLLREFSEL2_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_PLL_REF_SEL2_OFFSET ,0x0000001FU ,0x00000008U); + /*############################################################################################################################ */ + + /*Register : PLL_REF_SEL3 @ 0XFD41000C

+ + PLL3 Reference Selection. 0x0 - 5MHz, 0x1 - 9.6MHz, 0x2 - 10MHz, 0x3 - 12MHz, 0x4 - 13MHz, 0x5 - 19.2MHz, 0x6 - 20MHz, 0x7 - + 4MHz, 0x8 - 26MHz, 0x9 - 27MHz, 0xA - 38.4MHz, 0xB - 40MHz, 0xC - 52MHz, 0xD - 100MHz, 0xE - 108MHz, 0xF - 125MHz, 0x10 - 135 + Hz, 0x11 - 150 MHz. 0x12 to 0x1F - Reserved + PSU_SERDES_PLL_REF_SEL3_PLLREFSEL3 0xF + + PLL3 Reference Selection Register + (OFFSET, MASK, VALUE) (0XFD41000C, 0x0000001FU ,0x0000000FU) + RegMask = (SERDES_PLL_REF_SEL3_PLLREFSEL3_MASK | 0 ); + + RegVal = ((0x0000000FU << SERDES_PLL_REF_SEL3_PLLREFSEL3_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_PLL_REF_SEL3_OFFSET ,0x0000001FU ,0x0000000FU); + /*############################################################################################################################ */ + + // : GT REFERENCE CLOCK FREQUENCY SELECTION + /*Register : L0_L0_REF_CLK_SEL @ 0XFD402860

+ + Sel of lane 0 ref clock local mux. Set to 1 to select lane 0 slicer output. Set to 0 to select lane0 ref clock mux output. + PSU_SERDES_L0_L0_REF_CLK_SEL_L0_REF_CLK_LCL_SEL 0x0 + + Bit 3 of lane 0 ref clock mux one hot sel. Set to 1 to select lane 3 slicer output from ref clock network + PSU_SERDES_L0_L0_REF_CLK_SEL_L0_REF_CLK_SEL_3 0x1 + + Lane0 Ref Clock Selection Register + (OFFSET, MASK, VALUE) (0XFD402860, 0x00000088U ,0x00000008U) + RegMask = (SERDES_L0_L0_REF_CLK_SEL_L0_REF_CLK_LCL_SEL_MASK | SERDES_L0_L0_REF_CLK_SEL_L0_REF_CLK_SEL_3_MASK | 0 ); + + RegVal = ((0x00000000U << SERDES_L0_L0_REF_CLK_SEL_L0_REF_CLK_LCL_SEL_SHIFT + | 0x00000001U << SERDES_L0_L0_REF_CLK_SEL_L0_REF_CLK_SEL_3_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L0_L0_REF_CLK_SEL_OFFSET ,0x00000088U ,0x00000008U); + /*############################################################################################################################ */ + + /*Register : L0_L1_REF_CLK_SEL @ 0XFD402864

+ + Sel of lane 1 ref clock local mux. Set to 1 to select lane 1 slicer output. Set to 0 to select lane1 ref clock mux output. + PSU_SERDES_L0_L1_REF_CLK_SEL_L1_REF_CLK_LCL_SEL 0x0 + + Bit 3 of lane 1 ref clock mux one hot sel. Set to 1 to select lane 3 slicer output from ref clock network + PSU_SERDES_L0_L1_REF_CLK_SEL_L1_REF_CLK_SEL_3 0x1 + + Lane1 Ref Clock Selection Register + (OFFSET, MASK, VALUE) (0XFD402864, 0x00000088U ,0x00000008U) + RegMask = (SERDES_L0_L1_REF_CLK_SEL_L1_REF_CLK_LCL_SEL_MASK | SERDES_L0_L1_REF_CLK_SEL_L1_REF_CLK_SEL_3_MASK | 0 ); + + RegVal = ((0x00000000U << SERDES_L0_L1_REF_CLK_SEL_L1_REF_CLK_LCL_SEL_SHIFT + | 0x00000001U << SERDES_L0_L1_REF_CLK_SEL_L1_REF_CLK_SEL_3_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L0_L1_REF_CLK_SEL_OFFSET ,0x00000088U ,0x00000008U); + /*############################################################################################################################ */ + + /*Register : L0_L2_REF_CLK_SEL @ 0XFD402868

+ + Sel of lane 2 ref clock local mux. Set to 1 to select lane 1 slicer output. Set to 0 to select lane2 ref clock mux output. + PSU_SERDES_L0_L2_REF_CLK_SEL_L2_REF_CLK_LCL_SEL 0x1 + + Lane2 Ref Clock Selection Register + (OFFSET, MASK, VALUE) (0XFD402868, 0x00000080U ,0x00000080U) + RegMask = (SERDES_L0_L2_REF_CLK_SEL_L2_REF_CLK_LCL_SEL_MASK | 0 ); + + RegVal = ((0x00000001U << SERDES_L0_L2_REF_CLK_SEL_L2_REF_CLK_LCL_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L0_L2_REF_CLK_SEL_OFFSET ,0x00000080U ,0x00000080U); + /*############################################################################################################################ */ + + /*Register : L0_L3_REF_CLK_SEL @ 0XFD40286C

+ + Sel of lane 3 ref clock local mux. Set to 1 to select lane 3 slicer output. Set to 0 to select lane3 ref clock mux output. + PSU_SERDES_L0_L3_REF_CLK_SEL_L3_REF_CLK_LCL_SEL 0x0 + + Bit 1 of lane 3 ref clock mux one hot sel. Set to 1 to select lane 1 slicer output from ref clock network + PSU_SERDES_L0_L3_REF_CLK_SEL_L3_REF_CLK_SEL_1 0x1 + + Lane3 Ref Clock Selection Register + (OFFSET, MASK, VALUE) (0XFD40286C, 0x00000082U ,0x00000002U) + RegMask = (SERDES_L0_L3_REF_CLK_SEL_L3_REF_CLK_LCL_SEL_MASK | SERDES_L0_L3_REF_CLK_SEL_L3_REF_CLK_SEL_1_MASK | 0 ); + + RegVal = ((0x00000000U << SERDES_L0_L3_REF_CLK_SEL_L3_REF_CLK_LCL_SEL_SHIFT + | 0x00000001U << SERDES_L0_L3_REF_CLK_SEL_L3_REF_CLK_SEL_1_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L0_L3_REF_CLK_SEL_OFFSET ,0x00000082U ,0x00000002U); + /*############################################################################################################################ */ + + // : ENABLE SPREAD SPECTRUM + /*Register : L2_TM_PLL_DIG_37 @ 0XFD40A094

+ + Enable/Disable coarse code satureation limiting logic + PSU_SERDES_L2_TM_PLL_DIG_37_TM_ENABLE_COARSE_SATURATION 0x1 + + Test mode register 37 + (OFFSET, MASK, VALUE) (0XFD40A094, 0x00000010U ,0x00000010U) + RegMask = (SERDES_L2_TM_PLL_DIG_37_TM_ENABLE_COARSE_SATURATION_MASK | 0 ); + + RegVal = ((0x00000001U << SERDES_L2_TM_PLL_DIG_37_TM_ENABLE_COARSE_SATURATION_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L2_TM_PLL_DIG_37_OFFSET ,0x00000010U ,0x00000010U); + /*############################################################################################################################ */ + + /*Register : L2_PLL_SS_STEPS_0_LSB @ 0XFD40A368

+ + Spread Spectrum No of Steps [7:0] + PSU_SERDES_L2_PLL_SS_STEPS_0_LSB_SS_NUM_OF_STEPS_0_LSB 0x38 + + Spread Spectrum No of Steps bits 7:0 + (OFFSET, MASK, VALUE) (0XFD40A368, 0x000000FFU ,0x00000038U) + RegMask = (SERDES_L2_PLL_SS_STEPS_0_LSB_SS_NUM_OF_STEPS_0_LSB_MASK | 0 ); + + RegVal = ((0x00000038U << SERDES_L2_PLL_SS_STEPS_0_LSB_SS_NUM_OF_STEPS_0_LSB_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L2_PLL_SS_STEPS_0_LSB_OFFSET ,0x000000FFU ,0x00000038U); + /*############################################################################################################################ */ + + /*Register : L2_PLL_SS_STEPS_1_MSB @ 0XFD40A36C

+ + Spread Spectrum No of Steps [10:8] + PSU_SERDES_L2_PLL_SS_STEPS_1_MSB_SS_NUM_OF_STEPS_1_MSB 0x03 + + Spread Spectrum No of Steps bits 10:8 + (OFFSET, MASK, VALUE) (0XFD40A36C, 0x00000007U ,0x00000003U) + RegMask = (SERDES_L2_PLL_SS_STEPS_1_MSB_SS_NUM_OF_STEPS_1_MSB_MASK | 0 ); + + RegVal = ((0x00000003U << SERDES_L2_PLL_SS_STEPS_1_MSB_SS_NUM_OF_STEPS_1_MSB_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L2_PLL_SS_STEPS_1_MSB_OFFSET ,0x00000007U ,0x00000003U); + /*############################################################################################################################ */ + + /*Register : L3_PLL_SS_STEPS_0_LSB @ 0XFD40E368

+ + Spread Spectrum No of Steps [7:0] + PSU_SERDES_L3_PLL_SS_STEPS_0_LSB_SS_NUM_OF_STEPS_0_LSB 0xE0 + + Spread Spectrum No of Steps bits 7:0 + (OFFSET, MASK, VALUE) (0XFD40E368, 0x000000FFU ,0x000000E0U) + RegMask = (SERDES_L3_PLL_SS_STEPS_0_LSB_SS_NUM_OF_STEPS_0_LSB_MASK | 0 ); + + RegVal = ((0x000000E0U << SERDES_L3_PLL_SS_STEPS_0_LSB_SS_NUM_OF_STEPS_0_LSB_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L3_PLL_SS_STEPS_0_LSB_OFFSET ,0x000000FFU ,0x000000E0U); + /*############################################################################################################################ */ + + /*Register : L3_PLL_SS_STEPS_1_MSB @ 0XFD40E36C

+ + Spread Spectrum No of Steps [10:8] + PSU_SERDES_L3_PLL_SS_STEPS_1_MSB_SS_NUM_OF_STEPS_1_MSB 0x3 + + Spread Spectrum No of Steps bits 10:8 + (OFFSET, MASK, VALUE) (0XFD40E36C, 0x00000007U ,0x00000003U) + RegMask = (SERDES_L3_PLL_SS_STEPS_1_MSB_SS_NUM_OF_STEPS_1_MSB_MASK | 0 ); + + RegVal = ((0x00000003U << SERDES_L3_PLL_SS_STEPS_1_MSB_SS_NUM_OF_STEPS_1_MSB_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L3_PLL_SS_STEPS_1_MSB_OFFSET ,0x00000007U ,0x00000003U); + /*############################################################################################################################ */ + + /*Register : L0_PLL_SS_STEPS_0_LSB @ 0XFD402368

+ + Spread Spectrum No of Steps [7:0] + PSU_SERDES_L0_PLL_SS_STEPS_0_LSB_SS_NUM_OF_STEPS_0_LSB 0x58 + + Spread Spectrum No of Steps bits 7:0 + (OFFSET, MASK, VALUE) (0XFD402368, 0x000000FFU ,0x00000058U) + RegMask = (SERDES_L0_PLL_SS_STEPS_0_LSB_SS_NUM_OF_STEPS_0_LSB_MASK | 0 ); + + RegVal = ((0x00000058U << SERDES_L0_PLL_SS_STEPS_0_LSB_SS_NUM_OF_STEPS_0_LSB_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L0_PLL_SS_STEPS_0_LSB_OFFSET ,0x000000FFU ,0x00000058U); + /*############################################################################################################################ */ + + /*Register : L0_PLL_SS_STEPS_1_MSB @ 0XFD40236C

+ + Spread Spectrum No of Steps [10:8] + PSU_SERDES_L0_PLL_SS_STEPS_1_MSB_SS_NUM_OF_STEPS_1_MSB 0x3 + + Spread Spectrum No of Steps bits 10:8 + (OFFSET, MASK, VALUE) (0XFD40236C, 0x00000007U ,0x00000003U) + RegMask = (SERDES_L0_PLL_SS_STEPS_1_MSB_SS_NUM_OF_STEPS_1_MSB_MASK | 0 ); + + RegVal = ((0x00000003U << SERDES_L0_PLL_SS_STEPS_1_MSB_SS_NUM_OF_STEPS_1_MSB_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L0_PLL_SS_STEPS_1_MSB_OFFSET ,0x00000007U ,0x00000003U); + /*############################################################################################################################ */ + + /*Register : L1_PLL_SS_STEPS_0_LSB @ 0XFD406368

+ + Spread Spectrum No of Steps [7:0] + PSU_SERDES_L1_PLL_SS_STEPS_0_LSB_SS_NUM_OF_STEPS_0_LSB 0x58 + + Spread Spectrum No of Steps bits 7:0 + (OFFSET, MASK, VALUE) (0XFD406368, 0x000000FFU ,0x00000058U) + RegMask = (SERDES_L1_PLL_SS_STEPS_0_LSB_SS_NUM_OF_STEPS_0_LSB_MASK | 0 ); + + RegVal = ((0x00000058U << SERDES_L1_PLL_SS_STEPS_0_LSB_SS_NUM_OF_STEPS_0_LSB_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L1_PLL_SS_STEPS_0_LSB_OFFSET ,0x000000FFU ,0x00000058U); + /*############################################################################################################################ */ + + /*Register : L1_PLL_SS_STEPS_1_MSB @ 0XFD40636C

+ + Spread Spectrum No of Steps [10:8] + PSU_SERDES_L1_PLL_SS_STEPS_1_MSB_SS_NUM_OF_STEPS_1_MSB 0x3 + + Spread Spectrum No of Steps bits 10:8 + (OFFSET, MASK, VALUE) (0XFD40636C, 0x00000007U ,0x00000003U) + RegMask = (SERDES_L1_PLL_SS_STEPS_1_MSB_SS_NUM_OF_STEPS_1_MSB_MASK | 0 ); + + RegVal = ((0x00000003U << SERDES_L1_PLL_SS_STEPS_1_MSB_SS_NUM_OF_STEPS_1_MSB_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L1_PLL_SS_STEPS_1_MSB_OFFSET ,0x00000007U ,0x00000003U); + /*############################################################################################################################ */ + + /*Register : L0_PLL_SS_STEP_SIZE_0_LSB @ 0XFD402370

+ + Step Size for Spread Spectrum [7:0] + PSU_SERDES_L0_PLL_SS_STEP_SIZE_0_LSB_SS_STEP_SIZE_0_LSB 0x7C + + Step Size for Spread Spectrum LSB + (OFFSET, MASK, VALUE) (0XFD402370, 0x000000FFU ,0x0000007CU) + RegMask = (SERDES_L0_PLL_SS_STEP_SIZE_0_LSB_SS_STEP_SIZE_0_LSB_MASK | 0 ); + + RegVal = ((0x0000007CU << SERDES_L0_PLL_SS_STEP_SIZE_0_LSB_SS_STEP_SIZE_0_LSB_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L0_PLL_SS_STEP_SIZE_0_LSB_OFFSET ,0x000000FFU ,0x0000007CU); + /*############################################################################################################################ */ + + /*Register : L0_PLL_SS_STEP_SIZE_1 @ 0XFD402374

+ + Step Size for Spread Spectrum [15:8] + PSU_SERDES_L0_PLL_SS_STEP_SIZE_1_SS_STEP_SIZE_1 0x33 + + Step Size for Spread Spectrum 1 + (OFFSET, MASK, VALUE) (0XFD402374, 0x000000FFU ,0x00000033U) + RegMask = (SERDES_L0_PLL_SS_STEP_SIZE_1_SS_STEP_SIZE_1_MASK | 0 ); + + RegVal = ((0x00000033U << SERDES_L0_PLL_SS_STEP_SIZE_1_SS_STEP_SIZE_1_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L0_PLL_SS_STEP_SIZE_1_OFFSET ,0x000000FFU ,0x00000033U); + /*############################################################################################################################ */ + + /*Register : L0_PLL_SS_STEP_SIZE_2 @ 0XFD402378

+ + Step Size for Spread Spectrum [23:16] + PSU_SERDES_L0_PLL_SS_STEP_SIZE_2_SS_STEP_SIZE_2 0x2 + + Step Size for Spread Spectrum 2 + (OFFSET, MASK, VALUE) (0XFD402378, 0x000000FFU ,0x00000002U) + RegMask = (SERDES_L0_PLL_SS_STEP_SIZE_2_SS_STEP_SIZE_2_MASK | 0 ); + + RegVal = ((0x00000002U << SERDES_L0_PLL_SS_STEP_SIZE_2_SS_STEP_SIZE_2_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L0_PLL_SS_STEP_SIZE_2_OFFSET ,0x000000FFU ,0x00000002U); + /*############################################################################################################################ */ + + /*Register : L0_PLL_SS_STEP_SIZE_3_MSB @ 0XFD40237C

+ + Step Size for Spread Spectrum [25:24] + PSU_SERDES_L0_PLL_SS_STEP_SIZE_3_MSB_SS_STEP_SIZE_3_MSB 0x0 + + Enable/Disable test mode force on SS step size + PSU_SERDES_L0_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_STEP_SIZE 0x1 + + Enable/Disable test mode force on SS no of steps + PSU_SERDES_L0_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_NUM_OF_STEPS 0x1 + + Enable force on enable Spread Spectrum + (OFFSET, MASK, VALUE) (0XFD40237C, 0x00000033U ,0x00000030U) + RegMask = (SERDES_L0_PLL_SS_STEP_SIZE_3_MSB_SS_STEP_SIZE_3_MSB_MASK | SERDES_L0_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_STEP_SIZE_MASK | SERDES_L0_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_NUM_OF_STEPS_MASK | 0 ); + + RegVal = ((0x00000000U << SERDES_L0_PLL_SS_STEP_SIZE_3_MSB_SS_STEP_SIZE_3_MSB_SHIFT + | 0x00000001U << SERDES_L0_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_STEP_SIZE_SHIFT + | 0x00000001U << SERDES_L0_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_NUM_OF_STEPS_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L0_PLL_SS_STEP_SIZE_3_MSB_OFFSET ,0x00000033U ,0x00000030U); + /*############################################################################################################################ */ + + /*Register : L1_PLL_SS_STEP_SIZE_0_LSB @ 0XFD406370

+ + Step Size for Spread Spectrum [7:0] + PSU_SERDES_L1_PLL_SS_STEP_SIZE_0_LSB_SS_STEP_SIZE_0_LSB 0x7C + + Step Size for Spread Spectrum LSB + (OFFSET, MASK, VALUE) (0XFD406370, 0x000000FFU ,0x0000007CU) + RegMask = (SERDES_L1_PLL_SS_STEP_SIZE_0_LSB_SS_STEP_SIZE_0_LSB_MASK | 0 ); + + RegVal = ((0x0000007CU << SERDES_L1_PLL_SS_STEP_SIZE_0_LSB_SS_STEP_SIZE_0_LSB_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L1_PLL_SS_STEP_SIZE_0_LSB_OFFSET ,0x000000FFU ,0x0000007CU); + /*############################################################################################################################ */ + + /*Register : L1_PLL_SS_STEP_SIZE_1 @ 0XFD406374

+ + Step Size for Spread Spectrum [15:8] + PSU_SERDES_L1_PLL_SS_STEP_SIZE_1_SS_STEP_SIZE_1 0x33 + + Step Size for Spread Spectrum 1 + (OFFSET, MASK, VALUE) (0XFD406374, 0x000000FFU ,0x00000033U) + RegMask = (SERDES_L1_PLL_SS_STEP_SIZE_1_SS_STEP_SIZE_1_MASK | 0 ); + + RegVal = ((0x00000033U << SERDES_L1_PLL_SS_STEP_SIZE_1_SS_STEP_SIZE_1_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L1_PLL_SS_STEP_SIZE_1_OFFSET ,0x000000FFU ,0x00000033U); + /*############################################################################################################################ */ + + /*Register : L1_PLL_SS_STEP_SIZE_2 @ 0XFD406378

+ + Step Size for Spread Spectrum [23:16] + PSU_SERDES_L1_PLL_SS_STEP_SIZE_2_SS_STEP_SIZE_2 0x2 + + Step Size for Spread Spectrum 2 + (OFFSET, MASK, VALUE) (0XFD406378, 0x000000FFU ,0x00000002U) + RegMask = (SERDES_L1_PLL_SS_STEP_SIZE_2_SS_STEP_SIZE_2_MASK | 0 ); + + RegVal = ((0x00000002U << SERDES_L1_PLL_SS_STEP_SIZE_2_SS_STEP_SIZE_2_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L1_PLL_SS_STEP_SIZE_2_OFFSET ,0x000000FFU ,0x00000002U); + /*############################################################################################################################ */ + + /*Register : L1_PLL_SS_STEP_SIZE_3_MSB @ 0XFD40637C

+ + Step Size for Spread Spectrum [25:24] + PSU_SERDES_L1_PLL_SS_STEP_SIZE_3_MSB_SS_STEP_SIZE_3_MSB 0x0 + + Enable/Disable test mode force on SS step size + PSU_SERDES_L1_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_STEP_SIZE 0x1 + + Enable/Disable test mode force on SS no of steps + PSU_SERDES_L1_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_NUM_OF_STEPS 0x1 + + Enable force on enable Spread Spectrum + (OFFSET, MASK, VALUE) (0XFD40637C, 0x00000033U ,0x00000030U) + RegMask = (SERDES_L1_PLL_SS_STEP_SIZE_3_MSB_SS_STEP_SIZE_3_MSB_MASK | SERDES_L1_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_STEP_SIZE_MASK | SERDES_L1_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_NUM_OF_STEPS_MASK | 0 ); + + RegVal = ((0x00000000U << SERDES_L1_PLL_SS_STEP_SIZE_3_MSB_SS_STEP_SIZE_3_MSB_SHIFT + | 0x00000001U << SERDES_L1_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_STEP_SIZE_SHIFT + | 0x00000001U << SERDES_L1_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_NUM_OF_STEPS_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L1_PLL_SS_STEP_SIZE_3_MSB_OFFSET ,0x00000033U ,0x00000030U); + /*############################################################################################################################ */ + + /*Register : L2_PLL_SS_STEP_SIZE_0_LSB @ 0XFD40A370

+ + Step Size for Spread Spectrum [7:0] + PSU_SERDES_L2_PLL_SS_STEP_SIZE_0_LSB_SS_STEP_SIZE_0_LSB 0xF4 + + Step Size for Spread Spectrum LSB + (OFFSET, MASK, VALUE) (0XFD40A370, 0x000000FFU ,0x000000F4U) + RegMask = (SERDES_L2_PLL_SS_STEP_SIZE_0_LSB_SS_STEP_SIZE_0_LSB_MASK | 0 ); + + RegVal = ((0x000000F4U << SERDES_L2_PLL_SS_STEP_SIZE_0_LSB_SS_STEP_SIZE_0_LSB_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L2_PLL_SS_STEP_SIZE_0_LSB_OFFSET ,0x000000FFU ,0x000000F4U); + /*############################################################################################################################ */ + + /*Register : L2_PLL_SS_STEP_SIZE_1 @ 0XFD40A374

+ + Step Size for Spread Spectrum [15:8] + PSU_SERDES_L2_PLL_SS_STEP_SIZE_1_SS_STEP_SIZE_1 0x31 + + Step Size for Spread Spectrum 1 + (OFFSET, MASK, VALUE) (0XFD40A374, 0x000000FFU ,0x00000031U) + RegMask = (SERDES_L2_PLL_SS_STEP_SIZE_1_SS_STEP_SIZE_1_MASK | 0 ); + + RegVal = ((0x00000031U << SERDES_L2_PLL_SS_STEP_SIZE_1_SS_STEP_SIZE_1_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L2_PLL_SS_STEP_SIZE_1_OFFSET ,0x000000FFU ,0x00000031U); + /*############################################################################################################################ */ + + /*Register : L2_PLL_SS_STEP_SIZE_2 @ 0XFD40A378

+ + Step Size for Spread Spectrum [23:16] + PSU_SERDES_L2_PLL_SS_STEP_SIZE_2_SS_STEP_SIZE_2 0x2 + + Step Size for Spread Spectrum 2 + (OFFSET, MASK, VALUE) (0XFD40A378, 0x000000FFU ,0x00000002U) + RegMask = (SERDES_L2_PLL_SS_STEP_SIZE_2_SS_STEP_SIZE_2_MASK | 0 ); + + RegVal = ((0x00000002U << SERDES_L2_PLL_SS_STEP_SIZE_2_SS_STEP_SIZE_2_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L2_PLL_SS_STEP_SIZE_2_OFFSET ,0x000000FFU ,0x00000002U); + /*############################################################################################################################ */ + + /*Register : L2_PLL_SS_STEP_SIZE_3_MSB @ 0XFD40A37C

+ + Step Size for Spread Spectrum [25:24] + PSU_SERDES_L2_PLL_SS_STEP_SIZE_3_MSB_SS_STEP_SIZE_3_MSB 0x0 + + Enable/Disable test mode force on SS step size + PSU_SERDES_L2_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_STEP_SIZE 0x1 + + Enable/Disable test mode force on SS no of steps + PSU_SERDES_L2_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_NUM_OF_STEPS 0x1 + + Enable force on enable Spread Spectrum + (OFFSET, MASK, VALUE) (0XFD40A37C, 0x00000033U ,0x00000030U) + RegMask = (SERDES_L2_PLL_SS_STEP_SIZE_3_MSB_SS_STEP_SIZE_3_MSB_MASK | SERDES_L2_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_STEP_SIZE_MASK | SERDES_L2_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_NUM_OF_STEPS_MASK | 0 ); + + RegVal = ((0x00000000U << SERDES_L2_PLL_SS_STEP_SIZE_3_MSB_SS_STEP_SIZE_3_MSB_SHIFT + | 0x00000001U << SERDES_L2_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_STEP_SIZE_SHIFT + | 0x00000001U << SERDES_L2_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_NUM_OF_STEPS_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L2_PLL_SS_STEP_SIZE_3_MSB_OFFSET ,0x00000033U ,0x00000030U); + /*############################################################################################################################ */ + + /*Register : L3_PLL_SS_STEP_SIZE_0_LSB @ 0XFD40E370

+ + Step Size for Spread Spectrum [7:0] + PSU_SERDES_L3_PLL_SS_STEP_SIZE_0_LSB_SS_STEP_SIZE_0_LSB 0xC9 + + Step Size for Spread Spectrum LSB + (OFFSET, MASK, VALUE) (0XFD40E370, 0x000000FFU ,0x000000C9U) + RegMask = (SERDES_L3_PLL_SS_STEP_SIZE_0_LSB_SS_STEP_SIZE_0_LSB_MASK | 0 ); + + RegVal = ((0x000000C9U << SERDES_L3_PLL_SS_STEP_SIZE_0_LSB_SS_STEP_SIZE_0_LSB_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L3_PLL_SS_STEP_SIZE_0_LSB_OFFSET ,0x000000FFU ,0x000000C9U); + /*############################################################################################################################ */ + + /*Register : L3_PLL_SS_STEP_SIZE_1 @ 0XFD40E374

+ + Step Size for Spread Spectrum [15:8] + PSU_SERDES_L3_PLL_SS_STEP_SIZE_1_SS_STEP_SIZE_1 0xD2 + + Step Size for Spread Spectrum 1 + (OFFSET, MASK, VALUE) (0XFD40E374, 0x000000FFU ,0x000000D2U) + RegMask = (SERDES_L3_PLL_SS_STEP_SIZE_1_SS_STEP_SIZE_1_MASK | 0 ); + + RegVal = ((0x000000D2U << SERDES_L3_PLL_SS_STEP_SIZE_1_SS_STEP_SIZE_1_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L3_PLL_SS_STEP_SIZE_1_OFFSET ,0x000000FFU ,0x000000D2U); + /*############################################################################################################################ */ + + /*Register : L3_PLL_SS_STEP_SIZE_2 @ 0XFD40E378

+ + Step Size for Spread Spectrum [23:16] + PSU_SERDES_L3_PLL_SS_STEP_SIZE_2_SS_STEP_SIZE_2 0x1 + + Step Size for Spread Spectrum 2 + (OFFSET, MASK, VALUE) (0XFD40E378, 0x000000FFU ,0x00000001U) + RegMask = (SERDES_L3_PLL_SS_STEP_SIZE_2_SS_STEP_SIZE_2_MASK | 0 ); + + RegVal = ((0x00000001U << SERDES_L3_PLL_SS_STEP_SIZE_2_SS_STEP_SIZE_2_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L3_PLL_SS_STEP_SIZE_2_OFFSET ,0x000000FFU ,0x00000001U); + /*############################################################################################################################ */ + + /*Register : L3_PLL_SS_STEP_SIZE_3_MSB @ 0XFD40E37C

+ + Step Size for Spread Spectrum [25:24] + PSU_SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_SS_STEP_SIZE_3_MSB 0x0 + + Enable/Disable test mode force on SS step size + PSU_SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_STEP_SIZE 0x1 + + Enable/Disable test mode force on SS no of steps + PSU_SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_NUM_OF_STEPS 0x1 + + Enable test mode forcing on enable Spread Spectrum + PSU_SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_TM_FORCE_EN_SS 0x1 + + Enable force on enable Spread Spectrum + (OFFSET, MASK, VALUE) (0XFD40E37C, 0x000000B3U ,0x000000B0U) + RegMask = (SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_SS_STEP_SIZE_3_MSB_MASK | SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_STEP_SIZE_MASK | SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_NUM_OF_STEPS_MASK | SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_TM_FORCE_EN_SS_MASK | 0 ); + + RegVal = ((0x00000000U << SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_SS_STEP_SIZE_3_MSB_SHIFT + | 0x00000001U << SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_STEP_SIZE_SHIFT + | 0x00000001U << SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_NUM_OF_STEPS_SHIFT + | 0x00000001U << SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_TM_FORCE_EN_SS_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_OFFSET ,0x000000B3U ,0x000000B0U); + /*############################################################################################################################ */ + + /*Register : L2_TM_DIG_6 @ 0XFD40906C

+ + Bypass Descrambler + PSU_SERDES_L2_TM_DIG_6_BYPASS_DESCRAM 0x1 + + Enable Bypass for <1> TM_DIG_CTRL_6 + PSU_SERDES_L2_TM_DIG_6_FORCE_BYPASS_DESCRAM 0x1 + + Data path test modes in decoder and descram + (OFFSET, MASK, VALUE) (0XFD40906C, 0x00000003U ,0x00000003U) + RegMask = (SERDES_L2_TM_DIG_6_BYPASS_DESCRAM_MASK | SERDES_L2_TM_DIG_6_FORCE_BYPASS_DESCRAM_MASK | 0 ); + + RegVal = ((0x00000001U << SERDES_L2_TM_DIG_6_BYPASS_DESCRAM_SHIFT + | 0x00000001U << SERDES_L2_TM_DIG_6_FORCE_BYPASS_DESCRAM_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L2_TM_DIG_6_OFFSET ,0x00000003U ,0x00000003U); + /*############################################################################################################################ */ + + /*Register : L2_TX_DIG_TM_61 @ 0XFD4080F4

+ + Bypass scrambler signal + PSU_SERDES_L2_TX_DIG_TM_61_BYPASS_SCRAM 0x1 + + Enable/disable scrambler bypass signal + PSU_SERDES_L2_TX_DIG_TM_61_FORCE_BYPASS_SCRAM 0x1 + + MPHY PLL Gear and bypass scrambler + (OFFSET, MASK, VALUE) (0XFD4080F4, 0x00000003U ,0x00000003U) + RegMask = (SERDES_L2_TX_DIG_TM_61_BYPASS_SCRAM_MASK | SERDES_L2_TX_DIG_TM_61_FORCE_BYPASS_SCRAM_MASK | 0 ); + + RegVal = ((0x00000001U << SERDES_L2_TX_DIG_TM_61_BYPASS_SCRAM_SHIFT + | 0x00000001U << SERDES_L2_TX_DIG_TM_61_FORCE_BYPASS_SCRAM_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L2_TX_DIG_TM_61_OFFSET ,0x00000003U ,0x00000003U); + /*############################################################################################################################ */ + + /*Register : L3_PLL_FBDIV_FRAC_3_MSB @ 0XFD40E360

+ + Enable test mode force on fractional mode enable + PSU_SERDES_L3_PLL_FBDIV_FRAC_3_MSB_TM_FORCE_EN_FRAC 0x1 + + Fractional feedback division control and fractional value for feedback division bits 26:24 + (OFFSET, MASK, VALUE) (0XFD40E360, 0x00000040U ,0x00000040U) + RegMask = (SERDES_L3_PLL_FBDIV_FRAC_3_MSB_TM_FORCE_EN_FRAC_MASK | 0 ); + + RegVal = ((0x00000001U << SERDES_L3_PLL_FBDIV_FRAC_3_MSB_TM_FORCE_EN_FRAC_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L3_PLL_FBDIV_FRAC_3_MSB_OFFSET ,0x00000040U ,0x00000040U); + /*############################################################################################################################ */ + + /*Register : L3_TM_DIG_6 @ 0XFD40D06C

+ + Bypass 8b10b decoder + PSU_SERDES_L3_TM_DIG_6_BYPASS_DECODER 0x1 + + Enable Bypass for <3> TM_DIG_CTRL_6 + PSU_SERDES_L3_TM_DIG_6_FORCE_BYPASS_DEC 0x1 + + Bypass Descrambler + PSU_SERDES_L3_TM_DIG_6_BYPASS_DESCRAM 0x1 + + Enable Bypass for <1> TM_DIG_CTRL_6 + PSU_SERDES_L3_TM_DIG_6_FORCE_BYPASS_DESCRAM 0x1 + + Data path test modes in decoder and descram + (OFFSET, MASK, VALUE) (0XFD40D06C, 0x0000000FU ,0x0000000FU) + RegMask = (SERDES_L3_TM_DIG_6_BYPASS_DECODER_MASK | SERDES_L3_TM_DIG_6_FORCE_BYPASS_DEC_MASK | SERDES_L3_TM_DIG_6_BYPASS_DESCRAM_MASK | SERDES_L3_TM_DIG_6_FORCE_BYPASS_DESCRAM_MASK | 0 ); + + RegVal = ((0x00000001U << SERDES_L3_TM_DIG_6_BYPASS_DECODER_SHIFT + | 0x00000001U << SERDES_L3_TM_DIG_6_FORCE_BYPASS_DEC_SHIFT + | 0x00000001U << SERDES_L3_TM_DIG_6_BYPASS_DESCRAM_SHIFT + | 0x00000001U << SERDES_L3_TM_DIG_6_FORCE_BYPASS_DESCRAM_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L3_TM_DIG_6_OFFSET ,0x0000000FU ,0x0000000FU); + /*############################################################################################################################ */ + + /*Register : L3_TX_DIG_TM_61 @ 0XFD40C0F4

+ + Enable/disable encoder bypass signal + PSU_SERDES_L3_TX_DIG_TM_61_BYPASS_ENC 0x1 + + Bypass scrambler signal + PSU_SERDES_L3_TX_DIG_TM_61_BYPASS_SCRAM 0x1 + + Enable/disable scrambler bypass signal + PSU_SERDES_L3_TX_DIG_TM_61_FORCE_BYPASS_SCRAM 0x1 + + MPHY PLL Gear and bypass scrambler + (OFFSET, MASK, VALUE) (0XFD40C0F4, 0x0000000BU ,0x0000000BU) + RegMask = (SERDES_L3_TX_DIG_TM_61_BYPASS_ENC_MASK | SERDES_L3_TX_DIG_TM_61_BYPASS_SCRAM_MASK | SERDES_L3_TX_DIG_TM_61_FORCE_BYPASS_SCRAM_MASK | 0 ); + + RegVal = ((0x00000001U << SERDES_L3_TX_DIG_TM_61_BYPASS_ENC_SHIFT + | 0x00000001U << SERDES_L3_TX_DIG_TM_61_BYPASS_SCRAM_SHIFT + | 0x00000001U << SERDES_L3_TX_DIG_TM_61_FORCE_BYPASS_SCRAM_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L3_TX_DIG_TM_61_OFFSET ,0x0000000BU ,0x0000000BU); + /*############################################################################################################################ */ + + /*Register : L3_TXPMA_ST_0 @ 0XFD40CB00

+ + PHY Mode: 4'b000 - PCIe, 4'b001 - USB3, 4'b0010 - SATA, 4'b0100 - SGMII, 4'b0101 - DP, 4'b1000 - MPHY + PSU_SERDES_L3_TXPMA_ST_0_TX_PHY_MODE 0x21 + + Opmode Info + (OFFSET, MASK, VALUE) (0XFD40CB00, 0x000000F0U ,0x000000F0U) + RegMask = (SERDES_L3_TXPMA_ST_0_TX_PHY_MODE_MASK | 0 ); + + RegVal = ((0x00000021U << SERDES_L3_TXPMA_ST_0_TX_PHY_MODE_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L3_TXPMA_ST_0_OFFSET ,0x000000F0U ,0x000000F0U); + /*############################################################################################################################ */ + + // : ENABLE CHICKEN BIT FOR PCIE AND USB + /*Register : L2_TM_AUX_0 @ 0XFD4090CC

+ + Spare- not used + PSU_SERDES_L2_TM_AUX_0_BIT_2 1 + + Spare registers + (OFFSET, MASK, VALUE) (0XFD4090CC, 0x00000020U ,0x00000020U) + RegMask = (SERDES_L2_TM_AUX_0_BIT_2_MASK | 0 ); + + RegVal = ((0x00000001U << SERDES_L2_TM_AUX_0_BIT_2_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L2_TM_AUX_0_OFFSET ,0x00000020U ,0x00000020U); + /*############################################################################################################################ */ + + // : ENABLING EYE SURF + /*Register : L0_TM_DIG_8 @ 0XFD401074

+ + Enable Eye Surf + PSU_SERDES_L0_TM_DIG_8_EYESURF_ENABLE 0x1 + + Test modes for Elastic buffer and enabling Eye Surf + (OFFSET, MASK, VALUE) (0XFD401074, 0x00000010U ,0x00000010U) + RegMask = (SERDES_L0_TM_DIG_8_EYESURF_ENABLE_MASK | 0 ); + + RegVal = ((0x00000001U << SERDES_L0_TM_DIG_8_EYESURF_ENABLE_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L0_TM_DIG_8_OFFSET ,0x00000010U ,0x00000010U); + /*############################################################################################################################ */ + + /*Register : L1_TM_DIG_8 @ 0XFD405074

+ + Enable Eye Surf + PSU_SERDES_L1_TM_DIG_8_EYESURF_ENABLE 0x1 + + Test modes for Elastic buffer and enabling Eye Surf + (OFFSET, MASK, VALUE) (0XFD405074, 0x00000010U ,0x00000010U) + RegMask = (SERDES_L1_TM_DIG_8_EYESURF_ENABLE_MASK | 0 ); + + RegVal = ((0x00000001U << SERDES_L1_TM_DIG_8_EYESURF_ENABLE_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L1_TM_DIG_8_OFFSET ,0x00000010U ,0x00000010U); + /*############################################################################################################################ */ + + /*Register : L2_TM_DIG_8 @ 0XFD409074

+ + Enable Eye Surf + PSU_SERDES_L2_TM_DIG_8_EYESURF_ENABLE 0x1 + + Test modes for Elastic buffer and enabling Eye Surf + (OFFSET, MASK, VALUE) (0XFD409074, 0x00000010U ,0x00000010U) + RegMask = (SERDES_L2_TM_DIG_8_EYESURF_ENABLE_MASK | 0 ); + + RegVal = ((0x00000001U << SERDES_L2_TM_DIG_8_EYESURF_ENABLE_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L2_TM_DIG_8_OFFSET ,0x00000010U ,0x00000010U); + /*############################################################################################################################ */ + + /*Register : L3_TM_DIG_8 @ 0XFD40D074

+ + Enable Eye Surf + PSU_SERDES_L3_TM_DIG_8_EYESURF_ENABLE 0x1 + + Test modes for Elastic buffer and enabling Eye Surf + (OFFSET, MASK, VALUE) (0XFD40D074, 0x00000010U ,0x00000010U) + RegMask = (SERDES_L3_TM_DIG_8_EYESURF_ENABLE_MASK | 0 ); + + RegVal = ((0x00000001U << SERDES_L3_TM_DIG_8_EYESURF_ENABLE_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L3_TM_DIG_8_OFFSET ,0x00000010U ,0x00000010U); + /*############################################################################################################################ */ + + // : ILL SETTINGS FOR GAIN AND LOCK SETTINGS + /*Register : L2_TM_MISC2 @ 0XFD40989C

+ + ILL calib counts BYPASSED with calcode bits + PSU_SERDES_L2_TM_MISC2_ILL_CAL_BYPASS_COUNTS 0x1 + + sampler cal + (OFFSET, MASK, VALUE) (0XFD40989C, 0x00000080U ,0x00000080U) + RegMask = (SERDES_L2_TM_MISC2_ILL_CAL_BYPASS_COUNTS_MASK | 0 ); + + RegVal = ((0x00000001U << SERDES_L2_TM_MISC2_ILL_CAL_BYPASS_COUNTS_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L2_TM_MISC2_OFFSET ,0x00000080U ,0x00000080U); + /*############################################################################################################################ */ + + /*Register : L2_TM_IQ_ILL1 @ 0XFD4098F8

+ + IQ ILL F0 CALCODE bypass value. MPHY : G1a, PCIE : Gen 1, SATA : Gen1 , USB3 : SS + PSU_SERDES_L2_TM_IQ_ILL1_ILL_BYPASS_IQ_CALCODE_F0 0x1A + + iqpi cal code + (OFFSET, MASK, VALUE) (0XFD4098F8, 0x000000FFU ,0x0000001AU) + RegMask = (SERDES_L2_TM_IQ_ILL1_ILL_BYPASS_IQ_CALCODE_F0_MASK | 0 ); + + RegVal = ((0x0000001AU << SERDES_L2_TM_IQ_ILL1_ILL_BYPASS_IQ_CALCODE_F0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L2_TM_IQ_ILL1_OFFSET ,0x000000FFU ,0x0000001AU); + /*############################################################################################################################ */ + + /*Register : L2_TM_IQ_ILL2 @ 0XFD4098FC

+ + IQ ILL F1 CALCODE bypass value. MPHY : G1b, PCIE : Gen2, SATA: Gen2 + PSU_SERDES_L2_TM_IQ_ILL2_ILL_BYPASS_IQ_CALCODE_F1 0x1A + + iqpi cal code + (OFFSET, MASK, VALUE) (0XFD4098FC, 0x000000FFU ,0x0000001AU) + RegMask = (SERDES_L2_TM_IQ_ILL2_ILL_BYPASS_IQ_CALCODE_F1_MASK | 0 ); + + RegVal = ((0x0000001AU << SERDES_L2_TM_IQ_ILL2_ILL_BYPASS_IQ_CALCODE_F1_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L2_TM_IQ_ILL2_OFFSET ,0x000000FFU ,0x0000001AU); + /*############################################################################################################################ */ + + /*Register : L2_TM_ILL12 @ 0XFD409990

+ + G1A pll ctr bypass value + PSU_SERDES_L2_TM_ILL12_G1A_PLL_CTR_BYP_VAL 0x10 + + ill pll counter values + (OFFSET, MASK, VALUE) (0XFD409990, 0x000000FFU ,0x00000010U) + RegMask = (SERDES_L2_TM_ILL12_G1A_PLL_CTR_BYP_VAL_MASK | 0 ); + + RegVal = ((0x00000010U << SERDES_L2_TM_ILL12_G1A_PLL_CTR_BYP_VAL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L2_TM_ILL12_OFFSET ,0x000000FFU ,0x00000010U); + /*############################################################################################################################ */ + + /*Register : L2_TM_E_ILL1 @ 0XFD409924

+ + E ILL F0 CALCODE bypass value. MPHY : G1a, PCIE : Gen 1, SATA : Gen1 , USB3 : SS + PSU_SERDES_L2_TM_E_ILL1_ILL_BYPASS_E_CALCODE_F0 0xFE + + epi cal code + (OFFSET, MASK, VALUE) (0XFD409924, 0x000000FFU ,0x000000FEU) + RegMask = (SERDES_L2_TM_E_ILL1_ILL_BYPASS_E_CALCODE_F0_MASK | 0 ); + + RegVal = ((0x000000FEU << SERDES_L2_TM_E_ILL1_ILL_BYPASS_E_CALCODE_F0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L2_TM_E_ILL1_OFFSET ,0x000000FFU ,0x000000FEU); + /*############################################################################################################################ */ + + /*Register : L2_TM_E_ILL2 @ 0XFD409928

+ + E ILL F1 CALCODE bypass value. MPHY : G1b, PCIE : Gen2, SATA: Gen2 + PSU_SERDES_L2_TM_E_ILL2_ILL_BYPASS_E_CALCODE_F1 0x0 + + epi cal code + (OFFSET, MASK, VALUE) (0XFD409928, 0x000000FFU ,0x00000000U) + RegMask = (SERDES_L2_TM_E_ILL2_ILL_BYPASS_E_CALCODE_F1_MASK | 0 ); + + RegVal = ((0x00000000U << SERDES_L2_TM_E_ILL2_ILL_BYPASS_E_CALCODE_F1_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L2_TM_E_ILL2_OFFSET ,0x000000FFU ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : L2_TM_IQ_ILL3 @ 0XFD409900

+ + IQ ILL F2CALCODE bypass value. MPHY : G2a, SATA : Gen3 + PSU_SERDES_L2_TM_IQ_ILL3_ILL_BYPASS_IQ_CALCODE_F2 0x1A + + iqpi cal code + (OFFSET, MASK, VALUE) (0XFD409900, 0x000000FFU ,0x0000001AU) + RegMask = (SERDES_L2_TM_IQ_ILL3_ILL_BYPASS_IQ_CALCODE_F2_MASK | 0 ); + + RegVal = ((0x0000001AU << SERDES_L2_TM_IQ_ILL3_ILL_BYPASS_IQ_CALCODE_F2_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L2_TM_IQ_ILL3_OFFSET ,0x000000FFU ,0x0000001AU); + /*############################################################################################################################ */ + + /*Register : L2_TM_E_ILL3 @ 0XFD40992C

+ + E ILL F2CALCODE bypass value. MPHY : G2a, SATA : Gen3 + PSU_SERDES_L2_TM_E_ILL3_ILL_BYPASS_E_CALCODE_F2 0x0 + + epi cal code + (OFFSET, MASK, VALUE) (0XFD40992C, 0x000000FFU ,0x00000000U) + RegMask = (SERDES_L2_TM_E_ILL3_ILL_BYPASS_E_CALCODE_F2_MASK | 0 ); + + RegVal = ((0x00000000U << SERDES_L2_TM_E_ILL3_ILL_BYPASS_E_CALCODE_F2_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L2_TM_E_ILL3_OFFSET ,0x000000FFU ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : L2_TM_ILL8 @ 0XFD409980

+ + ILL calibration code change wait time + PSU_SERDES_L2_TM_ILL8_ILL_CAL_ITER_WAIT 0xFF + + ILL cal routine control + (OFFSET, MASK, VALUE) (0XFD409980, 0x000000FFU ,0x000000FFU) + RegMask = (SERDES_L2_TM_ILL8_ILL_CAL_ITER_WAIT_MASK | 0 ); + + RegVal = ((0x000000FFU << SERDES_L2_TM_ILL8_ILL_CAL_ITER_WAIT_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L2_TM_ILL8_OFFSET ,0x000000FFU ,0x000000FFU); + /*############################################################################################################################ */ + + /*Register : L2_TM_IQ_ILL8 @ 0XFD409914

+ + IQ ILL polytrim bypass value + PSU_SERDES_L2_TM_IQ_ILL8_ILL_BYPASS_IQ_POLYTRIM_VAL 0xF7 + + iqpi polytrim + (OFFSET, MASK, VALUE) (0XFD409914, 0x000000FFU ,0x000000F7U) + RegMask = (SERDES_L2_TM_IQ_ILL8_ILL_BYPASS_IQ_POLYTRIM_VAL_MASK | 0 ); + + RegVal = ((0x000000F7U << SERDES_L2_TM_IQ_ILL8_ILL_BYPASS_IQ_POLYTRIM_VAL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L2_TM_IQ_ILL8_OFFSET ,0x000000FFU ,0x000000F7U); + /*############################################################################################################################ */ + + /*Register : L2_TM_IQ_ILL9 @ 0XFD409918

+ + bypass IQ polytrim + PSU_SERDES_L2_TM_IQ_ILL9_ILL_BYPASS_IQ_POLYTIM 0x1 + + enables for lf,constant gm trim and polytirm + (OFFSET, MASK, VALUE) (0XFD409918, 0x00000001U ,0x00000001U) + RegMask = (SERDES_L2_TM_IQ_ILL9_ILL_BYPASS_IQ_POLYTIM_MASK | 0 ); + + RegVal = ((0x00000001U << SERDES_L2_TM_IQ_ILL9_ILL_BYPASS_IQ_POLYTIM_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L2_TM_IQ_ILL9_OFFSET ,0x00000001U ,0x00000001U); + /*############################################################################################################################ */ + + /*Register : L2_TM_E_ILL8 @ 0XFD409940

+ + E ILL polytrim bypass value + PSU_SERDES_L2_TM_E_ILL8_ILL_BYPASS_E_POLYTRIM_VAL 0xF7 + + epi polytrim + (OFFSET, MASK, VALUE) (0XFD409940, 0x000000FFU ,0x000000F7U) + RegMask = (SERDES_L2_TM_E_ILL8_ILL_BYPASS_E_POLYTRIM_VAL_MASK | 0 ); + + RegVal = ((0x000000F7U << SERDES_L2_TM_E_ILL8_ILL_BYPASS_E_POLYTRIM_VAL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L2_TM_E_ILL8_OFFSET ,0x000000FFU ,0x000000F7U); + /*############################################################################################################################ */ + + /*Register : L2_TM_E_ILL9 @ 0XFD409944

+ + bypass E polytrim + PSU_SERDES_L2_TM_E_ILL9_ILL_BYPASS_E_POLYTIM 0x1 + + enables for lf,constant gm trim and polytirm + (OFFSET, MASK, VALUE) (0XFD409944, 0x00000001U ,0x00000001U) + RegMask = (SERDES_L2_TM_E_ILL9_ILL_BYPASS_E_POLYTIM_MASK | 0 ); + + RegVal = ((0x00000001U << SERDES_L2_TM_E_ILL9_ILL_BYPASS_E_POLYTIM_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L2_TM_E_ILL9_OFFSET ,0x00000001U ,0x00000001U); + /*############################################################################################################################ */ + + /*Register : L3_TM_MISC2 @ 0XFD40D89C

+ + ILL calib counts BYPASSED with calcode bits + PSU_SERDES_L3_TM_MISC2_ILL_CAL_BYPASS_COUNTS 0x1 + + sampler cal + (OFFSET, MASK, VALUE) (0XFD40D89C, 0x00000080U ,0x00000080U) + RegMask = (SERDES_L3_TM_MISC2_ILL_CAL_BYPASS_COUNTS_MASK | 0 ); + + RegVal = ((0x00000001U << SERDES_L3_TM_MISC2_ILL_CAL_BYPASS_COUNTS_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L3_TM_MISC2_OFFSET ,0x00000080U ,0x00000080U); + /*############################################################################################################################ */ + + /*Register : L3_TM_IQ_ILL1 @ 0XFD40D8F8

+ + IQ ILL F0 CALCODE bypass value. MPHY : G1a, PCIE : Gen 1, SATA : Gen1 , USB3 : SS + PSU_SERDES_L3_TM_IQ_ILL1_ILL_BYPASS_IQ_CALCODE_F0 0x7D + + iqpi cal code + (OFFSET, MASK, VALUE) (0XFD40D8F8, 0x000000FFU ,0x0000007DU) + RegMask = (SERDES_L3_TM_IQ_ILL1_ILL_BYPASS_IQ_CALCODE_F0_MASK | 0 ); + + RegVal = ((0x0000007DU << SERDES_L3_TM_IQ_ILL1_ILL_BYPASS_IQ_CALCODE_F0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L3_TM_IQ_ILL1_OFFSET ,0x000000FFU ,0x0000007DU); + /*############################################################################################################################ */ + + /*Register : L3_TM_IQ_ILL2 @ 0XFD40D8FC

+ + IQ ILL F1 CALCODE bypass value. MPHY : G1b, PCIE : Gen2, SATA: Gen2 + PSU_SERDES_L3_TM_IQ_ILL2_ILL_BYPASS_IQ_CALCODE_F1 0x7D + + iqpi cal code + (OFFSET, MASK, VALUE) (0XFD40D8FC, 0x000000FFU ,0x0000007DU) + RegMask = (SERDES_L3_TM_IQ_ILL2_ILL_BYPASS_IQ_CALCODE_F1_MASK | 0 ); + + RegVal = ((0x0000007DU << SERDES_L3_TM_IQ_ILL2_ILL_BYPASS_IQ_CALCODE_F1_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L3_TM_IQ_ILL2_OFFSET ,0x000000FFU ,0x0000007DU); + /*############################################################################################################################ */ + + /*Register : L3_TM_ILL12 @ 0XFD40D990

+ + G1A pll ctr bypass value + PSU_SERDES_L3_TM_ILL12_G1A_PLL_CTR_BYP_VAL 0x1 + + ill pll counter values + (OFFSET, MASK, VALUE) (0XFD40D990, 0x000000FFU ,0x00000001U) + RegMask = (SERDES_L3_TM_ILL12_G1A_PLL_CTR_BYP_VAL_MASK | 0 ); + + RegVal = ((0x00000001U << SERDES_L3_TM_ILL12_G1A_PLL_CTR_BYP_VAL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L3_TM_ILL12_OFFSET ,0x000000FFU ,0x00000001U); + /*############################################################################################################################ */ + + /*Register : L3_TM_E_ILL1 @ 0XFD40D924

+ + E ILL F0 CALCODE bypass value. MPHY : G1a, PCIE : Gen 1, SATA : Gen1 , USB3 : SS + PSU_SERDES_L3_TM_E_ILL1_ILL_BYPASS_E_CALCODE_F0 0x9C + + epi cal code + (OFFSET, MASK, VALUE) (0XFD40D924, 0x000000FFU ,0x0000009CU) + RegMask = (SERDES_L3_TM_E_ILL1_ILL_BYPASS_E_CALCODE_F0_MASK | 0 ); + + RegVal = ((0x0000009CU << SERDES_L3_TM_E_ILL1_ILL_BYPASS_E_CALCODE_F0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L3_TM_E_ILL1_OFFSET ,0x000000FFU ,0x0000009CU); + /*############################################################################################################################ */ + + /*Register : L3_TM_E_ILL2 @ 0XFD40D928

+ + E ILL F1 CALCODE bypass value. MPHY : G1b, PCIE : Gen2, SATA: Gen2 + PSU_SERDES_L3_TM_E_ILL2_ILL_BYPASS_E_CALCODE_F1 0x39 + + epi cal code + (OFFSET, MASK, VALUE) (0XFD40D928, 0x000000FFU ,0x00000039U) + RegMask = (SERDES_L3_TM_E_ILL2_ILL_BYPASS_E_CALCODE_F1_MASK | 0 ); + + RegVal = ((0x00000039U << SERDES_L3_TM_E_ILL2_ILL_BYPASS_E_CALCODE_F1_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L3_TM_E_ILL2_OFFSET ,0x000000FFU ,0x00000039U); + /*############################################################################################################################ */ + + /*Register : L3_TM_ILL11 @ 0XFD40D98C

+ + G2A_PCIe1 PLL ctr bypass value + PSU_SERDES_L3_TM_ILL11_G2A_PCIEG1_PLL_CTR_11_8_BYP_VAL 0x2 + + ill pll counter values + (OFFSET, MASK, VALUE) (0XFD40D98C, 0x000000F0U ,0x00000020U) + RegMask = (SERDES_L3_TM_ILL11_G2A_PCIEG1_PLL_CTR_11_8_BYP_VAL_MASK | 0 ); + + RegVal = ((0x00000002U << SERDES_L3_TM_ILL11_G2A_PCIEG1_PLL_CTR_11_8_BYP_VAL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L3_TM_ILL11_OFFSET ,0x000000F0U ,0x00000020U); + /*############################################################################################################################ */ + + /*Register : L3_TM_IQ_ILL3 @ 0XFD40D900

+ + IQ ILL F2CALCODE bypass value. MPHY : G2a, SATA : Gen3 + PSU_SERDES_L3_TM_IQ_ILL3_ILL_BYPASS_IQ_CALCODE_F2 0x7D + + iqpi cal code + (OFFSET, MASK, VALUE) (0XFD40D900, 0x000000FFU ,0x0000007DU) + RegMask = (SERDES_L3_TM_IQ_ILL3_ILL_BYPASS_IQ_CALCODE_F2_MASK | 0 ); + + RegVal = ((0x0000007DU << SERDES_L3_TM_IQ_ILL3_ILL_BYPASS_IQ_CALCODE_F2_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L3_TM_IQ_ILL3_OFFSET ,0x000000FFU ,0x0000007DU); + /*############################################################################################################################ */ + + /*Register : L3_TM_E_ILL3 @ 0XFD40D92C

+ + E ILL F2CALCODE bypass value. MPHY : G2a, SATA : Gen3 + PSU_SERDES_L3_TM_E_ILL3_ILL_BYPASS_E_CALCODE_F2 0x64 + + epi cal code + (OFFSET, MASK, VALUE) (0XFD40D92C, 0x000000FFU ,0x00000064U) + RegMask = (SERDES_L3_TM_E_ILL3_ILL_BYPASS_E_CALCODE_F2_MASK | 0 ); + + RegVal = ((0x00000064U << SERDES_L3_TM_E_ILL3_ILL_BYPASS_E_CALCODE_F2_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L3_TM_E_ILL3_OFFSET ,0x000000FFU ,0x00000064U); + /*############################################################################################################################ */ + + /*Register : L3_TM_ILL8 @ 0XFD40D980

+ + ILL calibration code change wait time + PSU_SERDES_L3_TM_ILL8_ILL_CAL_ITER_WAIT 0xFF + + ILL cal routine control + (OFFSET, MASK, VALUE) (0XFD40D980, 0x000000FFU ,0x000000FFU) + RegMask = (SERDES_L3_TM_ILL8_ILL_CAL_ITER_WAIT_MASK | 0 ); + + RegVal = ((0x000000FFU << SERDES_L3_TM_ILL8_ILL_CAL_ITER_WAIT_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L3_TM_ILL8_OFFSET ,0x000000FFU ,0x000000FFU); + /*############################################################################################################################ */ + + /*Register : L3_TM_IQ_ILL8 @ 0XFD40D914

+ + IQ ILL polytrim bypass value + PSU_SERDES_L3_TM_IQ_ILL8_ILL_BYPASS_IQ_POLYTRIM_VAL 0xF7 + + iqpi polytrim + (OFFSET, MASK, VALUE) (0XFD40D914, 0x000000FFU ,0x000000F7U) + RegMask = (SERDES_L3_TM_IQ_ILL8_ILL_BYPASS_IQ_POLYTRIM_VAL_MASK | 0 ); + + RegVal = ((0x000000F7U << SERDES_L3_TM_IQ_ILL8_ILL_BYPASS_IQ_POLYTRIM_VAL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L3_TM_IQ_ILL8_OFFSET ,0x000000FFU ,0x000000F7U); + /*############################################################################################################################ */ + + /*Register : L3_TM_IQ_ILL9 @ 0XFD40D918

+ + bypass IQ polytrim + PSU_SERDES_L3_TM_IQ_ILL9_ILL_BYPASS_IQ_POLYTIM 0x1 + + enables for lf,constant gm trim and polytirm + (OFFSET, MASK, VALUE) (0XFD40D918, 0x00000001U ,0x00000001U) + RegMask = (SERDES_L3_TM_IQ_ILL9_ILL_BYPASS_IQ_POLYTIM_MASK | 0 ); + + RegVal = ((0x00000001U << SERDES_L3_TM_IQ_ILL9_ILL_BYPASS_IQ_POLYTIM_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L3_TM_IQ_ILL9_OFFSET ,0x00000001U ,0x00000001U); + /*############################################################################################################################ */ + + /*Register : L3_TM_E_ILL8 @ 0XFD40D940

+ + E ILL polytrim bypass value + PSU_SERDES_L3_TM_E_ILL8_ILL_BYPASS_E_POLYTRIM_VAL 0xF7 + + epi polytrim + (OFFSET, MASK, VALUE) (0XFD40D940, 0x000000FFU ,0x000000F7U) + RegMask = (SERDES_L3_TM_E_ILL8_ILL_BYPASS_E_POLYTRIM_VAL_MASK | 0 ); + + RegVal = ((0x000000F7U << SERDES_L3_TM_E_ILL8_ILL_BYPASS_E_POLYTRIM_VAL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L3_TM_E_ILL8_OFFSET ,0x000000FFU ,0x000000F7U); + /*############################################################################################################################ */ + + /*Register : L3_TM_E_ILL9 @ 0XFD40D944

+ + bypass E polytrim + PSU_SERDES_L3_TM_E_ILL9_ILL_BYPASS_E_POLYTIM 0x1 + + enables for lf,constant gm trim and polytirm + (OFFSET, MASK, VALUE) (0XFD40D944, 0x00000001U ,0x00000001U) + RegMask = (SERDES_L3_TM_E_ILL9_ILL_BYPASS_E_POLYTIM_MASK | 0 ); + + RegVal = ((0x00000001U << SERDES_L3_TM_E_ILL9_ILL_BYPASS_E_POLYTIM_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L3_TM_E_ILL9_OFFSET ,0x00000001U ,0x00000001U); + /*############################################################################################################################ */ + + // : SYMBOL LOCK AND WAIT + // : SIOU SETTINGS FOR BYPASS CONTROL,HSRX-DIG + /*Register : L0_TM_RST_DLY @ 0XFD4019A4

+ + Delay apb reset by specified amount + PSU_SERDES_L0_TM_RST_DLY_APB_RST_DLY 0xFF + + reset delay for apb reset w.r.t pso of hsrx + (OFFSET, MASK, VALUE) (0XFD4019A4, 0x000000FFU ,0x000000FFU) + RegMask = (SERDES_L0_TM_RST_DLY_APB_RST_DLY_MASK | 0 ); + + RegVal = ((0x000000FFU << SERDES_L0_TM_RST_DLY_APB_RST_DLY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L0_TM_RST_DLY_OFFSET ,0x000000FFU ,0x000000FFU); + /*############################################################################################################################ */ + + /*Register : L0_TM_ANA_BYP_15 @ 0XFD401038

+ + Enable Bypass for <7> of TM_ANA_BYPS_15 + PSU_SERDES_L0_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE 0x1 + + Bypass control for pcs-pma interface. EQ supplies, main master supply and ps for samp c2c + (OFFSET, MASK, VALUE) (0XFD401038, 0x00000040U ,0x00000040U) + RegMask = (SERDES_L0_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE_MASK | 0 ); + + RegVal = ((0x00000001U << SERDES_L0_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L0_TM_ANA_BYP_15_OFFSET ,0x00000040U ,0x00000040U); + /*############################################################################################################################ */ + + /*Register : L0_TM_ANA_BYP_12 @ 0XFD40102C

+ + Enable Bypass for <7> of TM_ANA_BYPS_12 + PSU_SERDES_L0_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG 0x1 + + Bypass control for pcs-pma interface. Hsrx supply, hsrx des, and cdr enable controls + (OFFSET, MASK, VALUE) (0XFD40102C, 0x00000040U ,0x00000040U) + RegMask = (SERDES_L0_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG_MASK | 0 ); + + RegVal = ((0x00000001U << SERDES_L0_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L0_TM_ANA_BYP_12_OFFSET ,0x00000040U ,0x00000040U); + /*############################################################################################################################ */ + + /*Register : L1_TM_RST_DLY @ 0XFD4059A4

+ + Delay apb reset by specified amount + PSU_SERDES_L1_TM_RST_DLY_APB_RST_DLY 0xFF + + reset delay for apb reset w.r.t pso of hsrx + (OFFSET, MASK, VALUE) (0XFD4059A4, 0x000000FFU ,0x000000FFU) + RegMask = (SERDES_L1_TM_RST_DLY_APB_RST_DLY_MASK | 0 ); + + RegVal = ((0x000000FFU << SERDES_L1_TM_RST_DLY_APB_RST_DLY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L1_TM_RST_DLY_OFFSET ,0x000000FFU ,0x000000FFU); + /*############################################################################################################################ */ + + /*Register : L1_TM_ANA_BYP_15 @ 0XFD405038

+ + Enable Bypass for <7> of TM_ANA_BYPS_15 + PSU_SERDES_L1_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE 0x1 + + Bypass control for pcs-pma interface. EQ supplies, main master supply and ps for samp c2c + (OFFSET, MASK, VALUE) (0XFD405038, 0x00000040U ,0x00000040U) + RegMask = (SERDES_L1_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE_MASK | 0 ); + + RegVal = ((0x00000001U << SERDES_L1_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L1_TM_ANA_BYP_15_OFFSET ,0x00000040U ,0x00000040U); + /*############################################################################################################################ */ + + /*Register : L1_TM_ANA_BYP_12 @ 0XFD40502C

+ + Enable Bypass for <7> of TM_ANA_BYPS_12 + PSU_SERDES_L1_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG 0x1 + + Bypass control for pcs-pma interface. Hsrx supply, hsrx des, and cdr enable controls + (OFFSET, MASK, VALUE) (0XFD40502C, 0x00000040U ,0x00000040U) + RegMask = (SERDES_L1_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG_MASK | 0 ); + + RegVal = ((0x00000001U << SERDES_L1_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L1_TM_ANA_BYP_12_OFFSET ,0x00000040U ,0x00000040U); + /*############################################################################################################################ */ + + /*Register : L2_TM_RST_DLY @ 0XFD4099A4

+ + Delay apb reset by specified amount + PSU_SERDES_L2_TM_RST_DLY_APB_RST_DLY 0xFF + + reset delay for apb reset w.r.t pso of hsrx + (OFFSET, MASK, VALUE) (0XFD4099A4, 0x000000FFU ,0x000000FFU) + RegMask = (SERDES_L2_TM_RST_DLY_APB_RST_DLY_MASK | 0 ); + + RegVal = ((0x000000FFU << SERDES_L2_TM_RST_DLY_APB_RST_DLY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L2_TM_RST_DLY_OFFSET ,0x000000FFU ,0x000000FFU); + /*############################################################################################################################ */ + + /*Register : L2_TM_ANA_BYP_15 @ 0XFD409038

+ + Enable Bypass for <7> of TM_ANA_BYPS_15 + PSU_SERDES_L2_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE 0x1 + + Bypass control for pcs-pma interface. EQ supplies, main master supply and ps for samp c2c + (OFFSET, MASK, VALUE) (0XFD409038, 0x00000040U ,0x00000040U) + RegMask = (SERDES_L2_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE_MASK | 0 ); + + RegVal = ((0x00000001U << SERDES_L2_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L2_TM_ANA_BYP_15_OFFSET ,0x00000040U ,0x00000040U); + /*############################################################################################################################ */ + + /*Register : L2_TM_ANA_BYP_12 @ 0XFD40902C

+ + Enable Bypass for <7> of TM_ANA_BYPS_12 + PSU_SERDES_L2_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG 0x1 + + Bypass control for pcs-pma interface. Hsrx supply, hsrx des, and cdr enable controls + (OFFSET, MASK, VALUE) (0XFD40902C, 0x00000040U ,0x00000040U) + RegMask = (SERDES_L2_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG_MASK | 0 ); + + RegVal = ((0x00000001U << SERDES_L2_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L2_TM_ANA_BYP_12_OFFSET ,0x00000040U ,0x00000040U); + /*############################################################################################################################ */ + + /*Register : L3_TM_RST_DLY @ 0XFD40D9A4

+ + Delay apb reset by specified amount + PSU_SERDES_L3_TM_RST_DLY_APB_RST_DLY 0xFF + + reset delay for apb reset w.r.t pso of hsrx + (OFFSET, MASK, VALUE) (0XFD40D9A4, 0x000000FFU ,0x000000FFU) + RegMask = (SERDES_L3_TM_RST_DLY_APB_RST_DLY_MASK | 0 ); + + RegVal = ((0x000000FFU << SERDES_L3_TM_RST_DLY_APB_RST_DLY_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L3_TM_RST_DLY_OFFSET ,0x000000FFU ,0x000000FFU); + /*############################################################################################################################ */ + + /*Register : L3_TM_ANA_BYP_15 @ 0XFD40D038

+ + Enable Bypass for <7> of TM_ANA_BYPS_15 + PSU_SERDES_L3_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE 0x1 + + Bypass control for pcs-pma interface. EQ supplies, main master supply and ps for samp c2c + (OFFSET, MASK, VALUE) (0XFD40D038, 0x00000040U ,0x00000040U) + RegMask = (SERDES_L3_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE_MASK | 0 ); + + RegVal = ((0x00000001U << SERDES_L3_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L3_TM_ANA_BYP_15_OFFSET ,0x00000040U ,0x00000040U); + /*############################################################################################################################ */ + + /*Register : L3_TM_ANA_BYP_12 @ 0XFD40D02C

+ + Enable Bypass for <7> of TM_ANA_BYPS_12 + PSU_SERDES_L3_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG 0x1 + + Bypass control for pcs-pma interface. Hsrx supply, hsrx des, and cdr enable controls + (OFFSET, MASK, VALUE) (0XFD40D02C, 0x00000040U ,0x00000040U) + RegMask = (SERDES_L3_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG_MASK | 0 ); + + RegVal = ((0x00000001U << SERDES_L3_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L3_TM_ANA_BYP_12_OFFSET ,0x00000040U ,0x00000040U); + /*############################################################################################################################ */ + + // : GT LANE SETTINGS + /*Register : ICM_CFG0 @ 0XFD410010

+ + Controls UPHY Lane 0 protocol configuration. 0 - PowerDown, 1 - PCIe .0, 2 - Sata0, 3 - USB0, 4 - DP.1, 5 - SGMII0, 6 - Unuse + , 7 - Unused + PSU_SERDES_ICM_CFG0_L0_ICM_CFG 4 + + Controls UPHY Lane 1 protocol configuration. 0 - PowerDown, 1 - PCIe.1, 2 - Sata1, 3 - USB0, 4 - DP.0, 5 - SGMII1, 6 - Unused + 7 - Unused + PSU_SERDES_ICM_CFG0_L1_ICM_CFG 4 + + ICM Configuration Register 0 + (OFFSET, MASK, VALUE) (0XFD410010, 0x00000077U ,0x00000044U) + RegMask = (SERDES_ICM_CFG0_L0_ICM_CFG_MASK | SERDES_ICM_CFG0_L1_ICM_CFG_MASK | 0 ); + + RegVal = ((0x00000004U << SERDES_ICM_CFG0_L0_ICM_CFG_SHIFT + | 0x00000004U << SERDES_ICM_CFG0_L1_ICM_CFG_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_ICM_CFG0_OFFSET ,0x00000077U ,0x00000044U); + /*############################################################################################################################ */ + + /*Register : ICM_CFG1 @ 0XFD410014

+ + Controls UPHY Lane 2 protocol configuration. 0 - PowerDown, 1 - PCIe.1, 2 - Sata0, 3 - USB0, 4 - DP.1, 5 - SGMII2, 6 - Unused + 7 - Unused + PSU_SERDES_ICM_CFG1_L2_ICM_CFG 3 + + Controls UPHY Lane 3 protocol configuration. 0 - PowerDown, 1 - PCIe.3, 2 - Sata1, 3 - USB1, 4 - DP.0, 5 - SGMII3, 6 - Unused + 7 - Unused + PSU_SERDES_ICM_CFG1_L3_ICM_CFG 2 + + ICM Configuration Register 1 + (OFFSET, MASK, VALUE) (0XFD410014, 0x00000077U ,0x00000023U) + RegMask = (SERDES_ICM_CFG1_L2_ICM_CFG_MASK | SERDES_ICM_CFG1_L3_ICM_CFG_MASK | 0 ); + + RegVal = ((0x00000003U << SERDES_ICM_CFG1_L2_ICM_CFG_SHIFT + | 0x00000002U << SERDES_ICM_CFG1_L3_ICM_CFG_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_ICM_CFG1_OFFSET ,0x00000077U ,0x00000023U); + /*############################################################################################################################ */ + + // : CHECKING PLL LOCK + // : ENABLE SERIAL DATA MUX DEEMPH + /*Register : L0_TXPMD_TM_45 @ 0XFD400CB4

+ + Enable/disable DP post2 path + PSU_SERDES_L0_TXPMD_TM_45_DP_TM_TX_DP_ENABLE_POST2_PATH 0x1 + + Override enable/disable of DP post2 path + PSU_SERDES_L0_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_POST2_PATH 0x1 + + Override enable/disable of DP post1 path + PSU_SERDES_L0_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_POST1_PATH 0x1 + + Enable/disable DP main path + PSU_SERDES_L0_TXPMD_TM_45_DP_TM_TX_DP_ENABLE_MAIN_PATH 0x1 + + Override enable/disable of DP main path + PSU_SERDES_L0_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_MAIN_PATH 0x1 + + Post or pre or main DP path selection + (OFFSET, MASK, VALUE) (0XFD400CB4, 0x00000037U ,0x00000037U) + RegMask = (SERDES_L0_TXPMD_TM_45_DP_TM_TX_DP_ENABLE_POST2_PATH_MASK | SERDES_L0_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_POST2_PATH_MASK | SERDES_L0_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_POST1_PATH_MASK | SERDES_L0_TXPMD_TM_45_DP_TM_TX_DP_ENABLE_MAIN_PATH_MASK | SERDES_L0_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_MAIN_PATH_MASK | 0 ); + + RegVal = ((0x00000001U << SERDES_L0_TXPMD_TM_45_DP_TM_TX_DP_ENABLE_POST2_PATH_SHIFT + | 0x00000001U << SERDES_L0_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_POST2_PATH_SHIFT + | 0x00000001U << SERDES_L0_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_POST1_PATH_SHIFT + | 0x00000001U << SERDES_L0_TXPMD_TM_45_DP_TM_TX_DP_ENABLE_MAIN_PATH_SHIFT + | 0x00000001U << SERDES_L0_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_MAIN_PATH_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L0_TXPMD_TM_45_OFFSET ,0x00000037U ,0x00000037U); + /*############################################################################################################################ */ + + /*Register : L1_TXPMD_TM_45 @ 0XFD404CB4

+ + Enable/disable DP post2 path + PSU_SERDES_L1_TXPMD_TM_45_DP_TM_TX_DP_ENABLE_POST2_PATH 0x1 + + Override enable/disable of DP post2 path + PSU_SERDES_L1_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_POST2_PATH 0x1 + + Override enable/disable of DP post1 path + PSU_SERDES_L1_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_POST1_PATH 0x1 + + Enable/disable DP main path + PSU_SERDES_L1_TXPMD_TM_45_DP_TM_TX_DP_ENABLE_MAIN_PATH 0x1 + + Override enable/disable of DP main path + PSU_SERDES_L1_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_MAIN_PATH 0x1 + + Post or pre or main DP path selection + (OFFSET, MASK, VALUE) (0XFD404CB4, 0x00000037U ,0x00000037U) + RegMask = (SERDES_L1_TXPMD_TM_45_DP_TM_TX_DP_ENABLE_POST2_PATH_MASK | SERDES_L1_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_POST2_PATH_MASK | SERDES_L1_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_POST1_PATH_MASK | SERDES_L1_TXPMD_TM_45_DP_TM_TX_DP_ENABLE_MAIN_PATH_MASK | SERDES_L1_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_MAIN_PATH_MASK | 0 ); + + RegVal = ((0x00000001U << SERDES_L1_TXPMD_TM_45_DP_TM_TX_DP_ENABLE_POST2_PATH_SHIFT + | 0x00000001U << SERDES_L1_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_POST2_PATH_SHIFT + | 0x00000001U << SERDES_L1_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_POST1_PATH_SHIFT + | 0x00000001U << SERDES_L1_TXPMD_TM_45_DP_TM_TX_DP_ENABLE_MAIN_PATH_SHIFT + | 0x00000001U << SERDES_L1_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_MAIN_PATH_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L1_TXPMD_TM_45_OFFSET ,0x00000037U ,0x00000037U); + /*############################################################################################################################ */ + + /*Register : L0_TX_ANA_TM_118 @ 0XFD4001D8

+ + Test register force for enabling/disablign TX deemphasis bits <17:0> + PSU_SERDES_L0_TX_ANA_TM_118_FORCE_TX_DEEMPH_17_0 0x1 + + Enable Override of TX deemphasis + (OFFSET, MASK, VALUE) (0XFD4001D8, 0x00000001U ,0x00000001U) + RegMask = (SERDES_L0_TX_ANA_TM_118_FORCE_TX_DEEMPH_17_0_MASK | 0 ); + + RegVal = ((0x00000001U << SERDES_L0_TX_ANA_TM_118_FORCE_TX_DEEMPH_17_0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L0_TX_ANA_TM_118_OFFSET ,0x00000001U ,0x00000001U); + /*############################################################################################################################ */ + + /*Register : L1_TX_ANA_TM_118 @ 0XFD4041D8

+ + Test register force for enabling/disablign TX deemphasis bits <17:0> + PSU_SERDES_L1_TX_ANA_TM_118_FORCE_TX_DEEMPH_17_0 0x1 + + Enable Override of TX deemphasis + (OFFSET, MASK, VALUE) (0XFD4041D8, 0x00000001U ,0x00000001U) + RegMask = (SERDES_L1_TX_ANA_TM_118_FORCE_TX_DEEMPH_17_0_MASK | 0 ); + + RegVal = ((0x00000001U << SERDES_L1_TX_ANA_TM_118_FORCE_TX_DEEMPH_17_0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L1_TX_ANA_TM_118_OFFSET ,0x00000001U ,0x00000001U); + /*############################################################################################################################ */ + + /*Register : L3_TX_ANA_TM_118 @ 0XFD40C1D8

+ + Test register force for enabling/disablign TX deemphasis bits <17:0> + PSU_SERDES_L3_TX_ANA_TM_118_FORCE_TX_DEEMPH_17_0 0x1 + + Enable Override of TX deemphasis + (OFFSET, MASK, VALUE) (0XFD40C1D8, 0x00000001U ,0x00000001U) + RegMask = (SERDES_L3_TX_ANA_TM_118_FORCE_TX_DEEMPH_17_0_MASK | 0 ); + + RegVal = ((0x00000001U << SERDES_L3_TX_ANA_TM_118_FORCE_TX_DEEMPH_17_0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L3_TX_ANA_TM_118_OFFSET ,0x00000001U ,0x00000001U); + /*############################################################################################################################ */ + + // : CDR AND RX EQUALIZATION SETTINGS + /*Register : L3_TM_CDR5 @ 0XFD40DC14

+ + FPHL FSM accumulate cycles + PSU_SERDES_L3_TM_CDR5_FPHL_FSM_ACC_CYCLES 0x7 + + FFL Phase0 int gain aka 2ol SD update rate + PSU_SERDES_L3_TM_CDR5_FFL_PH0_INT_GAIN 0x6 + + Fast phase lock controls -- FSM accumulator cycle control and phase 0 int gain control. + (OFFSET, MASK, VALUE) (0XFD40DC14, 0x000000FFU ,0x000000E6U) + RegMask = (SERDES_L3_TM_CDR5_FPHL_FSM_ACC_CYCLES_MASK | SERDES_L3_TM_CDR5_FFL_PH0_INT_GAIN_MASK | 0 ); + + RegVal = ((0x00000007U << SERDES_L3_TM_CDR5_FPHL_FSM_ACC_CYCLES_SHIFT + | 0x00000006U << SERDES_L3_TM_CDR5_FFL_PH0_INT_GAIN_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L3_TM_CDR5_OFFSET ,0x000000FFU ,0x000000E6U); + /*############################################################################################################################ */ + + /*Register : L3_TM_CDR16 @ 0XFD40DC40

+ + FFL Phase0 prop gain aka 1ol SD update rate + PSU_SERDES_L3_TM_CDR16_FFL_PH0_PROP_GAIN 0xC + + Fast phase lock controls -- phase 0 prop gain + (OFFSET, MASK, VALUE) (0XFD40DC40, 0x0000001FU ,0x0000000CU) + RegMask = (SERDES_L3_TM_CDR16_FFL_PH0_PROP_GAIN_MASK | 0 ); + + RegVal = ((0x0000000CU << SERDES_L3_TM_CDR16_FFL_PH0_PROP_GAIN_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L3_TM_CDR16_OFFSET ,0x0000001FU ,0x0000000CU); + /*############################################################################################################################ */ + + /*Register : L3_TM_EQ0 @ 0XFD40D94C

+ + EQ stg 2 controls BYPASSED + PSU_SERDES_L3_TM_EQ0_EQ_STG2_CTRL_BYP 1 + + eq stg1 and stg2 controls + (OFFSET, MASK, VALUE) (0XFD40D94C, 0x00000020U ,0x00000020U) + RegMask = (SERDES_L3_TM_EQ0_EQ_STG2_CTRL_BYP_MASK | 0 ); + + RegVal = ((0x00000001U << SERDES_L3_TM_EQ0_EQ_STG2_CTRL_BYP_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L3_TM_EQ0_OFFSET ,0x00000020U ,0x00000020U); + /*############################################################################################################################ */ + + /*Register : L3_TM_EQ1 @ 0XFD40D950

+ + EQ STG2 RL PROG + PSU_SERDES_L3_TM_EQ1_EQ_STG2_RL_PROG 0x2 + + EQ stg 2 preamp mode val + PSU_SERDES_L3_TM_EQ1_EQ_STG2_PREAMP_MODE_VAL 0x1 + + eq stg1 and stg2 controls + (OFFSET, MASK, VALUE) (0XFD40D950, 0x00000007U ,0x00000006U) + RegMask = (SERDES_L3_TM_EQ1_EQ_STG2_RL_PROG_MASK | SERDES_L3_TM_EQ1_EQ_STG2_PREAMP_MODE_VAL_MASK | 0 ); + + RegVal = ((0x00000002U << SERDES_L3_TM_EQ1_EQ_STG2_RL_PROG_SHIFT + | 0x00000001U << SERDES_L3_TM_EQ1_EQ_STG2_PREAMP_MODE_VAL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L3_TM_EQ1_OFFSET ,0x00000007U ,0x00000006U); + /*############################################################################################################################ */ + + // : GEM SERDES SETTINGS + // : ENABLE PRE EMPHAIS AND VOLTAGE SWING + /*Register : L1_TXPMD_TM_48 @ 0XFD404CC0

+ + Margining factor value + PSU_SERDES_L1_TXPMD_TM_48_TM_RESULTANT_MARGINING_FACTOR 0 + + Margining factor + (OFFSET, MASK, VALUE) (0XFD404CC0, 0x0000001FU ,0x00000000U) + RegMask = (SERDES_L1_TXPMD_TM_48_TM_RESULTANT_MARGINING_FACTOR_MASK | 0 ); + + RegVal = ((0x00000000U << SERDES_L1_TXPMD_TM_48_TM_RESULTANT_MARGINING_FACTOR_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L1_TXPMD_TM_48_OFFSET ,0x0000001FU ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : L0_TXPMD_TM_48 @ 0XFD400CC0

+ + Margining factor value + PSU_SERDES_L0_TXPMD_TM_48_TM_RESULTANT_MARGINING_FACTOR 0 + + Margining factor + (OFFSET, MASK, VALUE) (0XFD400CC0, 0x0000001FU ,0x00000000U) + RegMask = (SERDES_L0_TXPMD_TM_48_TM_RESULTANT_MARGINING_FACTOR_MASK | 0 ); + + RegVal = ((0x00000000U << SERDES_L0_TXPMD_TM_48_TM_RESULTANT_MARGINING_FACTOR_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L0_TXPMD_TM_48_OFFSET ,0x0000001FU ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : L1_TX_ANA_TM_18 @ 0XFD404048

+ + pipe_TX_Deemph. 0: -6dB de-emphasis, 1: -3.5dB de-emphasis, 2 : No de-emphasis, Others: reserved + PSU_SERDES_L1_TX_ANA_TM_18_PIPE_TX_DEEMPH_7_0 0 + + Override for PIPE TX de-emphasis + (OFFSET, MASK, VALUE) (0XFD404048, 0x000000FFU ,0x00000000U) + RegMask = (SERDES_L1_TX_ANA_TM_18_PIPE_TX_DEEMPH_7_0_MASK | 0 ); + + RegVal = ((0x00000000U << SERDES_L1_TX_ANA_TM_18_PIPE_TX_DEEMPH_7_0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L1_TX_ANA_TM_18_OFFSET ,0x000000FFU ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : L0_TX_ANA_TM_18 @ 0XFD400048

+ + pipe_TX_Deemph. 0: -6dB de-emphasis, 1: -3.5dB de-emphasis, 2 : No de-emphasis, Others: reserved + PSU_SERDES_L0_TX_ANA_TM_18_PIPE_TX_DEEMPH_7_0 0 + + Override for PIPE TX de-emphasis + (OFFSET, MASK, VALUE) (0XFD400048, 0x000000FFU ,0x00000000U) + RegMask = (SERDES_L0_TX_ANA_TM_18_PIPE_TX_DEEMPH_7_0_MASK | 0 ); + + RegVal = ((0x00000000U << SERDES_L0_TX_ANA_TM_18_PIPE_TX_DEEMPH_7_0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L0_TX_ANA_TM_18_OFFSET ,0x000000FFU ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : L3_TX_ANA_TM_18 @ 0XFD40C048

+ + pipe_TX_Deemph. 0: -6dB de-emphasis, 1: -3.5dB de-emphasis, 2 : No de-emphasis, Others: reserved + PSU_SERDES_L3_TX_ANA_TM_18_PIPE_TX_DEEMPH_7_0 0x1 + + Override for PIPE TX de-emphasis + (OFFSET, MASK, VALUE) (0XFD40C048, 0x000000FFU ,0x00000001U) + RegMask = (SERDES_L3_TX_ANA_TM_18_PIPE_TX_DEEMPH_7_0_MASK | 0 ); + + RegVal = ((0x00000001U << SERDES_L3_TX_ANA_TM_18_PIPE_TX_DEEMPH_7_0_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SERDES_L3_TX_ANA_TM_18_OFFSET ,0x000000FFU ,0x00000001U); + /*############################################################################################################################ */ + + + return 1; +} +unsigned long psu_resetout_init_data() { + // : TAKING SERDES PERIPHERAL OUT OF RESET RESET + // : PUTTING USB0 IN RESET + /*Register : RST_LPD_TOP @ 0XFF5E023C

+ + USB 0 reset for control registers + PSU_CRL_APB_RST_LPD_TOP_USB0_APB_RESET 0X0 + + Software control register for the LPD block. + (OFFSET, MASK, VALUE) (0XFF5E023C, 0x00000400U ,0x00000000U) + RegMask = (CRL_APB_RST_LPD_TOP_USB0_APB_RESET_MASK | 0 ); + + RegVal = ((0x00000000U << CRL_APB_RST_LPD_TOP_USB0_APB_RESET_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_RST_LPD_TOP_OFFSET ,0x00000400U ,0x00000000U); + /*############################################################################################################################ */ + + // : USB0 PIPE POWER PRESENT + /*Register : fpd_power_prsnt @ 0XFF9D0080

+ + This bit is used to choose between PIPE power present and 1'b1 + PSU_USB3_0_FPD_POWER_PRSNT_OPTION 0X1 + + fpd_power_prsnt + (OFFSET, MASK, VALUE) (0XFF9D0080, 0x00000001U ,0x00000001U) + RegMask = (USB3_0_FPD_POWER_PRSNT_OPTION_MASK | 0 ); + + RegVal = ((0x00000001U << USB3_0_FPD_POWER_PRSNT_OPTION_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (USB3_0_FPD_POWER_PRSNT_OFFSET ,0x00000001U ,0x00000001U); + /*############################################################################################################################ */ + + /*Register : fpd_pipe_clk @ 0XFF9D007C

+ + This bit is used to choose between PIPE clock coming from SerDes and the suspend clk + PSU_USB3_0_FPD_PIPE_CLK_OPTION 0x0 + + fpd_pipe_clk + (OFFSET, MASK, VALUE) (0XFF9D007C, 0x00000001U ,0x00000000U) + RegMask = (USB3_0_FPD_PIPE_CLK_OPTION_MASK | 0 ); + + RegVal = ((0x00000000U << USB3_0_FPD_PIPE_CLK_OPTION_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (USB3_0_FPD_PIPE_CLK_OFFSET ,0x00000001U ,0x00000000U); + /*############################################################################################################################ */ + + // : + /*Register : RST_LPD_TOP @ 0XFF5E023C

+ + USB 0 sleep circuit reset + PSU_CRL_APB_RST_LPD_TOP_USB0_HIBERRESET 0X0 + + USB 0 reset + PSU_CRL_APB_RST_LPD_TOP_USB0_CORERESET 0X0 + + Software control register for the LPD block. + (OFFSET, MASK, VALUE) (0XFF5E023C, 0x00000140U ,0x00000000U) + RegMask = (CRL_APB_RST_LPD_TOP_USB0_HIBERRESET_MASK | CRL_APB_RST_LPD_TOP_USB0_CORERESET_MASK | 0 ); + + RegVal = ((0x00000000U << CRL_APB_RST_LPD_TOP_USB0_HIBERRESET_SHIFT + | 0x00000000U << CRL_APB_RST_LPD_TOP_USB0_CORERESET_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_RST_LPD_TOP_OFFSET ,0x00000140U ,0x00000000U); + /*############################################################################################################################ */ + + // : PUTTING GEM0 IN RESET + /*Register : RST_LPD_IOU0 @ 0XFF5E0230

+ + GEM 3 reset + PSU_CRL_APB_RST_LPD_IOU0_GEM3_RESET 0X0 + + Software controlled reset for the GEMs + (OFFSET, MASK, VALUE) (0XFF5E0230, 0x00000008U ,0x00000000U) + RegMask = (CRL_APB_RST_LPD_IOU0_GEM3_RESET_MASK | 0 ); + + RegVal = ((0x00000000U << CRL_APB_RST_LPD_IOU0_GEM3_RESET_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_RST_LPD_IOU0_OFFSET ,0x00000008U ,0x00000000U); + /*############################################################################################################################ */ + + // : PUTTING SATA IN RESET + /*Register : sata_misc_ctrl @ 0XFD3D0100

+ + Sata PM clock control select + PSU_SIOU_SATA_MISC_CTRL_SATA_PM_CLK_SEL 0x3 + + Misc Contorls for SATA.This register may only be modified during bootup (while SATA block is disabled) + (OFFSET, MASK, VALUE) (0XFD3D0100, 0x00000003U ,0x00000003U) + RegMask = (SIOU_SATA_MISC_CTRL_SATA_PM_CLK_SEL_MASK | 0 ); + + RegVal = ((0x00000003U << SIOU_SATA_MISC_CTRL_SATA_PM_CLK_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SIOU_SATA_MISC_CTRL_OFFSET ,0x00000003U ,0x00000003U); + /*############################################################################################################################ */ + + /*Register : RST_FPD_TOP @ 0XFD1A0100

+ + Sata block level reset + PSU_CRF_APB_RST_FPD_TOP_SATA_RESET 0X0 + + FPD Block level software controlled reset + (OFFSET, MASK, VALUE) (0XFD1A0100, 0x00000002U ,0x00000000U) + RegMask = (CRF_APB_RST_FPD_TOP_SATA_RESET_MASK | 0 ); + + RegVal = ((0x00000000U << CRF_APB_RST_FPD_TOP_SATA_RESET_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRF_APB_RST_FPD_TOP_OFFSET ,0x00000002U ,0x00000000U); + /*############################################################################################################################ */ + + // : PUTTING DP IN RESET + /*Register : RST_FPD_TOP @ 0XFD1A0100

+ + Display Port block level reset (includes DPDMA) + PSU_CRF_APB_RST_FPD_TOP_DP_RESET 0X0 + + FPD Block level software controlled reset + (OFFSET, MASK, VALUE) (0XFD1A0100, 0x00010000U ,0x00000000U) + RegMask = (CRF_APB_RST_FPD_TOP_DP_RESET_MASK | 0 ); + + RegVal = ((0x00000000U << CRF_APB_RST_FPD_TOP_DP_RESET_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRF_APB_RST_FPD_TOP_OFFSET ,0x00010000U ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : DP_PHY_RESET @ 0XFD4A0200

+ + Set to '1' to hold the GT in reset. Clear to release. + PSU_DP_DP_PHY_RESET_GT_RESET 0X0 + + Reset the transmitter PHY. + (OFFSET, MASK, VALUE) (0XFD4A0200, 0x00000002U ,0x00000000U) + RegMask = (DP_DP_PHY_RESET_GT_RESET_MASK | 0 ); + + RegVal = ((0x00000000U << DP_DP_PHY_RESET_GT_RESET_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DP_DP_PHY_RESET_OFFSET ,0x00000002U ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : DP_TX_PHY_POWER_DOWN @ 0XFD4A0238

+ + Two bits per lane. When set to 11, moves the GT to power down mode. When set to 00, GT will be in active state. bits [1:0] - + ane0 Bits [3:2] - lane 1 + PSU_DP_DP_TX_PHY_POWER_DOWN_POWER_DWN 0X0 + + Control PHY Power down + (OFFSET, MASK, VALUE) (0XFD4A0238, 0x0000000FU ,0x00000000U) + RegMask = (DP_DP_TX_PHY_POWER_DOWN_POWER_DWN_MASK | 0 ); + + RegVal = ((0x00000000U << DP_DP_TX_PHY_POWER_DOWN_POWER_DWN_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DP_DP_TX_PHY_POWER_DOWN_OFFSET ,0x0000000FU ,0x00000000U); + /*############################################################################################################################ */ + + // : USB0 GFLADJ + /*Register : GUSB2PHYCFG @ 0XFE20C200

+ + USB 2.0 Turnaround Time (USBTrdTim) Sets the turnaround time in PHY clocks. Specifies the response time for a MAC request to + he Packet FIFO Controller (PFC) to fetch data from the DFIFO (SPRAM). The following are the required values for the minimum S + C bus frequency of 60 MHz. USB turnaround time is a critical certification criteria when using long cables and five hub level + . The required values for this field: - 4'h5: When the MAC interface is 16-bit UTMI+. - 4'h9: When the MAC interface is 8-bit + UTMI+/ULPI. If SoC bus clock is less than 60 MHz, and USB turnaround time is not critical, this field can be set to a larger + alue. Note: This field is valid only in device mode. + PSU_USB3_0_XHCI_GUSB2PHYCFG_USBTRDTIM 0x9 + + Transceiver Delay: Enables a delay between the assertion of the UTMI/ULPI Transceiver Select signal (for HS) and the assertio + of the TxValid signal during a HS Chirp. When this bit is set to 1, a delay (of approximately 2.5 us) is introduced from the + time when the Transceiver Select is set to 2'b00 (HS) to the time the TxValid is driven to 0 for sending the chirp-K. This de + ay is required for some UTMI/ULPI PHYs. Note: - If you enable the hibernation feature when the device core comes out of power + off, you must re-initialize this bit with the appropriate value because the core does not save and restore this bit value dur + ng hibernation. - This bit is valid only in device mode. + PSU_USB3_0_XHCI_GUSB2PHYCFG_XCVRDLY 0x0 + + Enable utmi_sleep_n and utmi_l1_suspend_n (EnblSlpM) The application uses this bit to control utmi_sleep_n and utmi_l1_suspen + _n assertion to the PHY in the L1 state. - 1'b0: utmi_sleep_n and utmi_l1_suspend_n assertion from the core is not transferre + to the external PHY. - 1'b1: utmi_sleep_n and utmi_l1_suspend_n assertion from the core is transferred to the external PHY. + ote: This bit must be set high for Port0 if PHY is used. Note: In Device mode - Before issuing any device endpoint command wh + n operating in 2.0 speeds, disable this bit and enable it after the command completes. Without disabling this bit, if a comma + d is issued when the device is in L1 state and if mac2_clk (utmi_clk/ulpi_clk) is gated off, the command will not get complet + d. + PSU_USB3_0_XHCI_GUSB2PHYCFG_ENBLSLPM 0x0 + + USB 2.0 High-Speed PHY or USB 1.1 Full-Speed Serial Transceiver Select The application uses this bit to select a high-speed P + Y or a full-speed transceiver. - 1'b0: USB 2.0 high-speed UTMI+ or ULPI PHY. This bit is always 0, with Write Only access. - + 'b1: USB 1.1 full-speed serial transceiver. This bit is always 1, with Write Only access. If both interface types are selecte + in coreConsultant (that is, parameters' values are not zero), the application uses this bit to select the active interface i + active, with Read-Write bit access. Note: USB 1.1 full-serial transceiver is not supported. This bit always reads as 1'b0. + PSU_USB3_0_XHCI_GUSB2PHYCFG_PHYSEL 0x0 + + Full-Speed Serial Interface Select (FSIntf) The application uses this bit to select a unidirectional or bidirectional USB 1.1 + full-speed serial transceiver interface. - 1'b0: 6-pin unidirectional full-speed serial interface. This bit is set to 0 with + ead Only access. - 1'b1: 3-pin bidirectional full-speed serial interface. This bit is set to 0 with Read Only access. Note: U + B 1.1 full-speed serial interface is not supported. This bit always reads as 1'b0. + PSU_USB3_0_XHCI_GUSB2PHYCFG_FSINTF 0x0 + + ULPI or UTMI+ Select (ULPI_UTMI_Sel) The application uses this bit to select a UTMI+ or ULPI Interface. - 1'b0: UTMI+ Interfa + e - 1'b1: ULPI Interface This bit is writable only if UTMI+ and ULPI is specified for High-Speed PHY Interface(s) in coreCons + ltant configuration (DWC_USB3_HSPHY_INTERFACE = 3). Otherwise, this bit is read-only and the value depends on the interface s + lected through DWC_USB3_HSPHY_INTERFACE. + PSU_USB3_0_XHCI_GUSB2PHYCFG_ULPI_UTMI_SEL 0x1 + + PHY Interface (PHYIf) If UTMI+ is selected, the application uses this bit to configure the core to support a UTMI+ PHY with a + 8- or 16-bit interface. - 1'b0: 8 bits - 1'b1: 16 bits ULPI Mode: 1'b0 Note: - All the enabled 2.0 ports must have the same + lock frequency as Port0 clock frequency (utmi_clk[0]). - The UTMI 8-bit and 16-bit modes cannot be used together for differen + ports at the same time (that is, all the ports must be in 8-bit mode, or all of them must be in 16-bit mode, at a time). - I + any of the USB 2.0 ports is selected as ULPI port for operation, then all the USB 2.0 ports must be operating at 60 MHz. + PSU_USB3_0_XHCI_GUSB2PHYCFG_PHYIF 0x0 + + HS/FS Timeout Calibration (TOutCal) The number of PHY clocks, as indicated by the application in this field, is multiplied by + a bit-time factor; this factor is added to the high-speed/full-speed interpacket timeout duration in the core to account for + dditional delays introduced by the PHY. This may be required, since the delay introduced by the PHY in generating the linesta + e condition may vary among PHYs. The USB standard timeout value for high-speed operation is 736 to 816 (inclusive) bit times. + The USB standard timeout value for full-speed operation is 16 to 18 (inclusive) bit times. The application must program this + ield based on the speed of connection. The number of bit times added per PHY clock are: High-speed operation: - One 30-MHz PH + clock = 16 bit times - One 60-MHz PHY clock = 8 bit times Full-speed operation: - One 30-MHz PHY clock = 0.4 bit times - One + 60-MHz PHY clock = 0.2 bit times - One 48-MHz PHY clock = 0.25 bit times + PSU_USB3_0_XHCI_GUSB2PHYCFG_TOUTCAL 0x7 + + Global USB2 PHY Configuration Register The application must program this register before starting any transactions on either + he SoC bus or the USB. In Device-only configurations, only one register is needed. In Host mode, per-port registers are imple + ented. + (OFFSET, MASK, VALUE) (0XFE20C200, 0x00003FBFU ,0x00002417U) + RegMask = (USB3_0_XHCI_GUSB2PHYCFG_USBTRDTIM_MASK | USB3_0_XHCI_GUSB2PHYCFG_XCVRDLY_MASK | USB3_0_XHCI_GUSB2PHYCFG_ENBLSLPM_MASK | USB3_0_XHCI_GUSB2PHYCFG_PHYSEL_MASK | USB3_0_XHCI_GUSB2PHYCFG_FSINTF_MASK | USB3_0_XHCI_GUSB2PHYCFG_ULPI_UTMI_SEL_MASK | USB3_0_XHCI_GUSB2PHYCFG_PHYIF_MASK | USB3_0_XHCI_GUSB2PHYCFG_TOUTCAL_MASK | 0 ); + + RegVal = ((0x00000009U << USB3_0_XHCI_GUSB2PHYCFG_USBTRDTIM_SHIFT + | 0x00000000U << USB3_0_XHCI_GUSB2PHYCFG_XCVRDLY_SHIFT + | 0x00000000U << USB3_0_XHCI_GUSB2PHYCFG_ENBLSLPM_SHIFT + | 0x00000000U << USB3_0_XHCI_GUSB2PHYCFG_PHYSEL_SHIFT + | 0x00000000U << USB3_0_XHCI_GUSB2PHYCFG_FSINTF_SHIFT + | 0x00000001U << USB3_0_XHCI_GUSB2PHYCFG_ULPI_UTMI_SEL_SHIFT + | 0x00000000U << USB3_0_XHCI_GUSB2PHYCFG_PHYIF_SHIFT + | 0x00000007U << USB3_0_XHCI_GUSB2PHYCFG_TOUTCAL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (USB3_0_XHCI_GUSB2PHYCFG_OFFSET ,0x00003FBFU ,0x00002417U); + /*############################################################################################################################ */ + + /*Register : GFLADJ @ 0XFE20C630

+ + This field indicates the frame length adjustment to be applied when SOF/ITP counter is running on the ref_clk. This register + alue is used to adjust the ITP interval when GCTL[SOFITPSYNC] is set to '1'; SOF and ITP interval when GLADJ.GFLADJ_REFCLK_LP + _SEL is set to '1'. This field must be programmed to a non-zero value only if GFLADJ_REFCLK_LPM_SEL is set to '1' or GCTL.SOF + TPSYNC is set to '1'. The value is derived as follows: FLADJ_REF_CLK_FLADJ=((125000/ref_clk_period_integer)-(125000/ref_clk_p + riod)) * ref_clk_period where - the ref_clk_period_integer is the integer value of the ref_clk period got by truncating the d + cimal (fractional) value that is programmed in the GUCTL.REF_CLK_PERIOD field. - the ref_clk_period is the ref_clk period inc + uding the fractional value. Examples: If the ref_clk is 24 MHz then - GUCTL.REF_CLK_PERIOD = 41 - GFLADJ.GLADJ_REFCLK_FLADJ = + ((125000/41)-(125000/41.6666))*41.6666 = 2032 (ignoring the fractional value) If the ref_clk is 48 MHz then - GUCTL.REF_CLK_P + RIOD = 20 - GFLADJ.GLADJ_REFCLK_FLADJ = ((125000/20)-(125000/20.8333))*20.8333 = 5208 (ignoring the fractional value) + PSU_USB3_0_XHCI_GFLADJ_GFLADJ_REFCLK_FLADJ 0x0 + + Global Frame Length Adjustment Register This register provides options for the software to control the core behavior with res + ect to SOF (Start of Frame) and ITP (Isochronous Timestamp Packet) timers and frame timer functionality. It provides an optio + to override the fladj_30mhz_reg sideband signal. In addition, it enables running SOF or ITP frame timer counters completely + rom the ref_clk. This facilitates hardware LPM in host mode with the SOF or ITP counters being run from the ref_clk signal. + (OFFSET, MASK, VALUE) (0XFE20C630, 0x003FFF00U ,0x00000000U) + RegMask = (USB3_0_XHCI_GFLADJ_GFLADJ_REFCLK_FLADJ_MASK | 0 ); + + RegVal = ((0x00000000U << USB3_0_XHCI_GFLADJ_GFLADJ_REFCLK_FLADJ_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (USB3_0_XHCI_GFLADJ_OFFSET ,0x003FFF00U ,0x00000000U); + /*############################################################################################################################ */ + + // : UPDATING TWO PCIE REGISTERS DEFAULT VALUES, AS THESE REGISTERS HAVE INCORRECT RESET VALUES IN SILICON. + /*Register : ATTR_25 @ 0XFD480064

+ + If TRUE Completion Timeout Disable is supported. This is required to be TRUE for Endpoint and either setting allowed for Root + ports. Drives Device Capability 2 [4]; EP=0x0001; RP=0x0001 + PSU_PCIE_ATTRIB_ATTR_25_ATTR_CPL_TIMEOUT_DISABLE_SUPPORTED 0X1 + + ATTR_25 + (OFFSET, MASK, VALUE) (0XFD480064, 0x00000200U ,0x00000200U) + RegMask = (PCIE_ATTRIB_ATTR_25_ATTR_CPL_TIMEOUT_DISABLE_SUPPORTED_MASK | 0 ); + + RegVal = ((0x00000001U << PCIE_ATTRIB_ATTR_25_ATTR_CPL_TIMEOUT_DISABLE_SUPPORTED_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (PCIE_ATTRIB_ATTR_25_OFFSET ,0x00000200U ,0x00000200U); + /*############################################################################################################################ */ + + // : CHECK PLL LOCK FOR LANE1 + /*Register : L1_PLL_STATUS_READ_1 @ 0XFD4063E4

+ + Status Read value of PLL Lock + PSU_SERDES_L1_PLL_STATUS_READ_1_PLL_LOCK_STATUS_READ 1 + (OFFSET, MASK, VALUE) (0XFD4063E4, 0x00000010U ,0x00000010U) */ + mask_poll(SERDES_L1_PLL_STATUS_READ_1_OFFSET,0x00000010U); + + /*############################################################################################################################ */ + + // : CHECK PLL LOCK FOR LANE2 + /*Register : L2_PLL_STATUS_READ_1 @ 0XFD40A3E4

+ + Status Read value of PLL Lock + PSU_SERDES_L2_PLL_STATUS_READ_1_PLL_LOCK_STATUS_READ 1 + (OFFSET, MASK, VALUE) (0XFD40A3E4, 0x00000010U ,0x00000010U) */ + mask_poll(SERDES_L2_PLL_STATUS_READ_1_OFFSET,0x00000010U); + + /*############################################################################################################################ */ + + // : CHECK PLL LOCK FOR LANE3 + /*Register : L3_PLL_STATUS_READ_1 @ 0XFD40E3E4

+ + Status Read value of PLL Lock + PSU_SERDES_L3_PLL_STATUS_READ_1_PLL_LOCK_STATUS_READ 1 + (OFFSET, MASK, VALUE) (0XFD40E3E4, 0x00000010U ,0x00000010U) */ + mask_poll(SERDES_L3_PLL_STATUS_READ_1_OFFSET,0x00000010U); + + /*############################################################################################################################ */ + + // : SATA AHCI VENDOR SETTING + /*Register : PP2C @ 0XFD0C00AC

+ + CIBGMN: COMINIT Burst Gap Minimum. + PSU_SATA_AHCI_VENDOR_PP2C_CIBGMN 0x18 + + CIBGMX: COMINIT Burst Gap Maximum. + PSU_SATA_AHCI_VENDOR_PP2C_CIBGMX 0x40 + + CIBGN: COMINIT Burst Gap Nominal. + PSU_SATA_AHCI_VENDOR_PP2C_CIBGN 0x18 + + CINMP: COMINIT Negate Minimum Period. + PSU_SATA_AHCI_VENDOR_PP2C_CINMP 0x28 + + PP2C - Port Phy2Cfg Register. This register controls the configuration of the Phy Control OOB timing for the COMINIT paramete + s for either Port 0 or Port 1. The Port configured is controlled by the value programmed into the Port Config Register. + (OFFSET, MASK, VALUE) (0XFD0C00AC, 0xFFFFFFFFU ,0x28184018U) + RegMask = (SATA_AHCI_VENDOR_PP2C_CIBGMN_MASK | SATA_AHCI_VENDOR_PP2C_CIBGMX_MASK | SATA_AHCI_VENDOR_PP2C_CIBGN_MASK | SATA_AHCI_VENDOR_PP2C_CINMP_MASK | 0 ); + + RegVal = ((0x00000018U << SATA_AHCI_VENDOR_PP2C_CIBGMN_SHIFT + | 0x00000040U << SATA_AHCI_VENDOR_PP2C_CIBGMX_SHIFT + | 0x00000018U << SATA_AHCI_VENDOR_PP2C_CIBGN_SHIFT + | 0x00000028U << SATA_AHCI_VENDOR_PP2C_CINMP_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SATA_AHCI_VENDOR_PP2C_OFFSET ,0xFFFFFFFFU ,0x28184018U); + /*############################################################################################################################ */ + + /*Register : PP3C @ 0XFD0C00B0

+ + CWBGMN: COMWAKE Burst Gap Minimum. + PSU_SATA_AHCI_VENDOR_PP3C_CWBGMN 0x06 + + CWBGMX: COMWAKE Burst Gap Maximum. + PSU_SATA_AHCI_VENDOR_PP3C_CWBGMX 0x14 + + CWBGN: COMWAKE Burst Gap Nominal. + PSU_SATA_AHCI_VENDOR_PP3C_CWBGN 0x08 + + CWNMP: COMWAKE Negate Minimum Period. + PSU_SATA_AHCI_VENDOR_PP3C_CWNMP 0x0E + + PP3C - Port Phy3CfgRegister. This register controls the configuration of the Phy Control OOB timing for the COMWAKE parameter + for either Port 0 or Port 1. The Port configured is controlled by the value programmed into the Port Config Register. + (OFFSET, MASK, VALUE) (0XFD0C00B0, 0xFFFFFFFFU ,0x0E081406U) + RegMask = (SATA_AHCI_VENDOR_PP3C_CWBGMN_MASK | SATA_AHCI_VENDOR_PP3C_CWBGMX_MASK | SATA_AHCI_VENDOR_PP3C_CWBGN_MASK | SATA_AHCI_VENDOR_PP3C_CWNMP_MASK | 0 ); + + RegVal = ((0x00000006U << SATA_AHCI_VENDOR_PP3C_CWBGMN_SHIFT + | 0x00000014U << SATA_AHCI_VENDOR_PP3C_CWBGMX_SHIFT + | 0x00000008U << SATA_AHCI_VENDOR_PP3C_CWBGN_SHIFT + | 0x0000000EU << SATA_AHCI_VENDOR_PP3C_CWNMP_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SATA_AHCI_VENDOR_PP3C_OFFSET ,0xFFFFFFFFU ,0x0E081406U); + /*############################################################################################################################ */ + + /*Register : PP4C @ 0XFD0C00B4

+ + BMX: COM Burst Maximum. + PSU_SATA_AHCI_VENDOR_PP4C_BMX 0x13 + + BNM: COM Burst Nominal. + PSU_SATA_AHCI_VENDOR_PP4C_BNM 0x08 + + SFD: Signal Failure Detection, if the signal detection de-asserts for a time greater than this then the OOB detector will det + rmine this is a line idle and cause the PhyInit state machine to exit the Phy Ready State. A value of zero disables the Signa + Failure Detector. The value is based on the OOB Detector Clock typically (PMCLK Clock Period) * SFD giving a nominal time of + 500ns based on a 150MHz PMCLK. + PSU_SATA_AHCI_VENDOR_PP4C_SFD 0x4A + + PTST: Partial to Slumber timer value, specific delay the controller should apply while in partial before entering slumber. Th + value is bases on the system clock divided by 128, total delay = (Sys Clock Period) * PTST * 128 + PSU_SATA_AHCI_VENDOR_PP4C_PTST 0x06 + + PP4C - Port Phy4Cfg Register. This register controls the configuration of the Phy Control Burst timing for the COM parameters + for either Port 0 or Port 1. The Port configured is controlled by the value programmed into the Port Config Register. + (OFFSET, MASK, VALUE) (0XFD0C00B4, 0xFFFFFFFFU ,0x064A0813U) + RegMask = (SATA_AHCI_VENDOR_PP4C_BMX_MASK | SATA_AHCI_VENDOR_PP4C_BNM_MASK | SATA_AHCI_VENDOR_PP4C_SFD_MASK | SATA_AHCI_VENDOR_PP4C_PTST_MASK | 0 ); + + RegVal = ((0x00000013U << SATA_AHCI_VENDOR_PP4C_BMX_SHIFT + | 0x00000008U << SATA_AHCI_VENDOR_PP4C_BNM_SHIFT + | 0x0000004AU << SATA_AHCI_VENDOR_PP4C_SFD_SHIFT + | 0x00000006U << SATA_AHCI_VENDOR_PP4C_PTST_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SATA_AHCI_VENDOR_PP4C_OFFSET ,0xFFFFFFFFU ,0x064A0813U); + /*############################################################################################################################ */ + + /*Register : PP5C @ 0XFD0C00B8

+ + RIT: Retry Interval Timer. The calculated value divided by two, the lower digit of precision is not needed. + PSU_SATA_AHCI_VENDOR_PP5C_RIT 0xC96A4 + + RCT: Rate Change Timer, a value based on the 54.2us for which a SATA device will transmit at a fixed rate ALIGNp after OOB ha + completed, for a fast SERDES it is suggested that this value be 54.2us / 4 + PSU_SATA_AHCI_VENDOR_PP5C_RCT 0x3FF + + PP5C - Port Phy5Cfg Register. This register controls the configuration of the Phy Control Retry Interval timing for either Po + t 0 or Port 1. The Port configured is controlled by the value programmed into the Port Config Register. + (OFFSET, MASK, VALUE) (0XFD0C00B8, 0xFFFFFFFFU ,0x3FFC96A4U) + RegMask = (SATA_AHCI_VENDOR_PP5C_RIT_MASK | SATA_AHCI_VENDOR_PP5C_RCT_MASK | 0 ); + + RegVal = ((0x000C96A4U << SATA_AHCI_VENDOR_PP5C_RIT_SHIFT + | 0x000003FFU << SATA_AHCI_VENDOR_PP5C_RCT_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (SATA_AHCI_VENDOR_PP5C_OFFSET ,0xFFFFFFFFU ,0x3FFC96A4U); + /*############################################################################################################################ */ + + + return 1; +} +unsigned long psu_resetin_init_data() { + // : PUTTING SERDES PERIPHERAL IN RESET + // : PUTTING USB0 IN RESET + /*Register : RST_LPD_TOP @ 0XFF5E023C

+ + USB 0 reset for control registers + PSU_CRL_APB_RST_LPD_TOP_USB0_APB_RESET 0X1 + + USB 0 sleep circuit reset + PSU_CRL_APB_RST_LPD_TOP_USB0_HIBERRESET 0X1 + + USB 0 reset + PSU_CRL_APB_RST_LPD_TOP_USB0_CORERESET 0X1 + + Software control register for the LPD block. + (OFFSET, MASK, VALUE) (0XFF5E023C, 0x00000540U ,0x00000540U) + RegMask = (CRL_APB_RST_LPD_TOP_USB0_APB_RESET_MASK | CRL_APB_RST_LPD_TOP_USB0_HIBERRESET_MASK | CRL_APB_RST_LPD_TOP_USB0_CORERESET_MASK | 0 ); + + RegVal = ((0x00000001U << CRL_APB_RST_LPD_TOP_USB0_APB_RESET_SHIFT + | 0x00000001U << CRL_APB_RST_LPD_TOP_USB0_HIBERRESET_SHIFT + | 0x00000001U << CRL_APB_RST_LPD_TOP_USB0_CORERESET_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_RST_LPD_TOP_OFFSET ,0x00000540U ,0x00000540U); + /*############################################################################################################################ */ + + // : PUTTING GEM0 IN RESET + /*Register : RST_LPD_IOU0 @ 0XFF5E0230

+ + GEM 3 reset + PSU_CRL_APB_RST_LPD_IOU0_GEM3_RESET 0X1 + + Software controlled reset for the GEMs + (OFFSET, MASK, VALUE) (0XFF5E0230, 0x00000008U ,0x00000008U) + RegMask = (CRL_APB_RST_LPD_IOU0_GEM3_RESET_MASK | 0 ); + + RegVal = ((0x00000001U << CRL_APB_RST_LPD_IOU0_GEM3_RESET_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_RST_LPD_IOU0_OFFSET ,0x00000008U ,0x00000008U); + /*############################################################################################################################ */ + + // : PUTTING SATA IN RESET + /*Register : RST_FPD_TOP @ 0XFD1A0100

+ + Sata block level reset + PSU_CRF_APB_RST_FPD_TOP_SATA_RESET 0X1 + + FPD Block level software controlled reset + (OFFSET, MASK, VALUE) (0XFD1A0100, 0x00000002U ,0x00000002U) + RegMask = (CRF_APB_RST_FPD_TOP_SATA_RESET_MASK | 0 ); + + RegVal = ((0x00000001U << CRF_APB_RST_FPD_TOP_SATA_RESET_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRF_APB_RST_FPD_TOP_OFFSET ,0x00000002U ,0x00000002U); + /*############################################################################################################################ */ + + // : PUTTING DP IN RESET + /*Register : DP_TX_PHY_POWER_DOWN @ 0XFD4A0238

+ + Two bits per lane. When set to 11, moves the GT to power down mode. When set to 00, GT will be in active state. bits [1:0] - + ane0 Bits [3:2] - lane 1 + PSU_DP_DP_TX_PHY_POWER_DOWN_POWER_DWN 0XA + + Control PHY Power down + (OFFSET, MASK, VALUE) (0XFD4A0238, 0x0000000FU ,0x0000000AU) + RegMask = (DP_DP_TX_PHY_POWER_DOWN_POWER_DWN_MASK | 0 ); + + RegVal = ((0x0000000AU << DP_DP_TX_PHY_POWER_DOWN_POWER_DWN_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DP_DP_TX_PHY_POWER_DOWN_OFFSET ,0x0000000FU ,0x0000000AU); + /*############################################################################################################################ */ + + /*Register : DP_PHY_RESET @ 0XFD4A0200

+ + Set to '1' to hold the GT in reset. Clear to release. + PSU_DP_DP_PHY_RESET_GT_RESET 0X1 + + Reset the transmitter PHY. + (OFFSET, MASK, VALUE) (0XFD4A0200, 0x00000002U ,0x00000002U) + RegMask = (DP_DP_PHY_RESET_GT_RESET_MASK | 0 ); + + RegVal = ((0x00000001U << DP_DP_PHY_RESET_GT_RESET_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (DP_DP_PHY_RESET_OFFSET ,0x00000002U ,0x00000002U); + /*############################################################################################################################ */ + + /*Register : RST_FPD_TOP @ 0XFD1A0100

+ + Display Port block level reset (includes DPDMA) + PSU_CRF_APB_RST_FPD_TOP_DP_RESET 0X1 + + FPD Block level software controlled reset + (OFFSET, MASK, VALUE) (0XFD1A0100, 0x00010000U ,0x00010000U) + RegMask = (CRF_APB_RST_FPD_TOP_DP_RESET_MASK | 0 ); + + RegVal = ((0x00000001U << CRF_APB_RST_FPD_TOP_DP_RESET_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRF_APB_RST_FPD_TOP_OFFSET ,0x00010000U ,0x00010000U); + /*############################################################################################################################ */ + + + return 1; +} +unsigned long psu_ps_pl_isolation_removal_data() { + // : AFI RESET + /*Register : RST_FPD_TOP @ 0XFD1A0100

+ + AF_FM0 block level reset + PSU_CRF_APB_RST_FPD_TOP_AFI_FM0_RESET 0 + + AF_FM1 block level reset + PSU_CRF_APB_RST_FPD_TOP_AFI_FM1_RESET 0 + + AF_FM2 block level reset + PSU_CRF_APB_RST_FPD_TOP_AFI_FM2_RESET 0 + + AF_FM3 block level reset + PSU_CRF_APB_RST_FPD_TOP_AFI_FM3_RESET 0 + + AF_FM4 block level reset + PSU_CRF_APB_RST_FPD_TOP_AFI_FM4_RESET 0 + + AF_FM5 block level reset + PSU_CRF_APB_RST_FPD_TOP_AFI_FM5_RESET 0 + + FPD Block level software controlled reset + (OFFSET, MASK, VALUE) (0XFD1A0100, 0x00001F80U ,0x00000000U) + RegMask = (CRF_APB_RST_FPD_TOP_AFI_FM0_RESET_MASK | CRF_APB_RST_FPD_TOP_AFI_FM1_RESET_MASK | CRF_APB_RST_FPD_TOP_AFI_FM2_RESET_MASK | CRF_APB_RST_FPD_TOP_AFI_FM3_RESET_MASK | CRF_APB_RST_FPD_TOP_AFI_FM4_RESET_MASK | CRF_APB_RST_FPD_TOP_AFI_FM5_RESET_MASK | 0 ); + + RegVal = ((0x00000000U << CRF_APB_RST_FPD_TOP_AFI_FM0_RESET_SHIFT + | 0x00000000U << CRF_APB_RST_FPD_TOP_AFI_FM1_RESET_SHIFT + | 0x00000000U << CRF_APB_RST_FPD_TOP_AFI_FM2_RESET_SHIFT + | 0x00000000U << CRF_APB_RST_FPD_TOP_AFI_FM3_RESET_SHIFT + | 0x00000000U << CRF_APB_RST_FPD_TOP_AFI_FM4_RESET_SHIFT + | 0x00000000U << CRF_APB_RST_FPD_TOP_AFI_FM5_RESET_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRF_APB_RST_FPD_TOP_OFFSET ,0x00001F80U ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : RST_LPD_TOP @ 0XFF5E023C

+ + AFI FM 6 + PSU_CRL_APB_RST_LPD_TOP_AFI_FM6_RESET 0 + + Software control register for the LPD block. + (OFFSET, MASK, VALUE) (0XFF5E023C, 0x00080000U ,0x00000000U) + RegMask = (CRL_APB_RST_LPD_TOP_AFI_FM6_RESET_MASK | 0 ); + + RegVal = ((0x00000000U << CRL_APB_RST_LPD_TOP_AFI_FM6_RESET_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (CRL_APB_RST_LPD_TOP_OFFSET ,0x00080000U ,0x00000000U); + /*############################################################################################################################ */ + + // : AFIFM INTERFACE WIDTH + /*Register : afi_fs @ 0XFD615000

+ + Select the 32/64/128-bit data width selection for the Slave 0 00: 32-bit AXI data width (default) 01: 64-bit AXI data width 1 + : 128-bit AXI data width 11: reserved + PSU_FPD_SLCR_AFI_FS_DW_SS0_SEL 0x2 + + Select the 32/64/128-bit data width selection for the Slave 1 00: 32-bit AXI data width (default) 01: 64-bit AXI data width 1 + : 128-bit AXI data width 11: reserved + PSU_FPD_SLCR_AFI_FS_DW_SS1_SEL 0x2 + + afi fs SLCR control register. This register is static and should not be modified during operation. + (OFFSET, MASK, VALUE) (0XFD615000, 0x00000F00U ,0x00000A00U) + RegMask = (FPD_SLCR_AFI_FS_DW_SS0_SEL_MASK | FPD_SLCR_AFI_FS_DW_SS1_SEL_MASK | 0 ); + + RegVal = ((0x00000002U << FPD_SLCR_AFI_FS_DW_SS0_SEL_SHIFT + | 0x00000002U << FPD_SLCR_AFI_FS_DW_SS1_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (FPD_SLCR_AFI_FS_OFFSET ,0x00000F00U ,0x00000A00U); + /*############################################################################################################################ */ + + /*Register : afi_fs @ 0XFF419000

+ + Select the 32/64/128-bit data width selection for the Slave 0 00: 32-bit AXI data width (default) 01: 64-bit AXI data width 1 + : 128-bit AXI data width 11: reserved + PSU_LPD_SLCR_AFI_FS_DW_SS2_SEL 0x2 + + afi fs SLCR control register. Do not change the bits durin + (OFFSET, MASK, VALUE) (0XFF419000, 0x00000300U ,0x00000200U) + RegMask = (LPD_SLCR_AFI_FS_DW_SS2_SEL_MASK | 0 ); + + RegVal = ((0x00000002U << LPD_SLCR_AFI_FS_DW_SS2_SEL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (LPD_SLCR_AFI_FS_OFFSET ,0x00000300U ,0x00000200U); + /*############################################################################################################################ */ + + /*Register : AFIFM_RDCTRL @ 0XFD360000

+ + Configures the Read Channel Fabric interface width. 2'b11 : Reserved 2'b10 : 32-bit Fabric 2'b01 : 64-bit enabled 2'b00 : 128 + bit enabled + PSU_AFIFM0_AFIFM_RDCTRL_FABRIC_WIDTH 0x0 + + Read Channel Control Register + (OFFSET, MASK, VALUE) (0XFD360000, 0x00000003U ,0x00000000U) + RegMask = (AFIFM0_AFIFM_RDCTRL_FABRIC_WIDTH_MASK | 0 ); + + RegVal = ((0x00000000U << AFIFM0_AFIFM_RDCTRL_FABRIC_WIDTH_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (AFIFM0_AFIFM_RDCTRL_OFFSET ,0x00000003U ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : AFIFM_RDCTRL @ 0XFD370000

+ + Configures the Read Channel Fabric interface width. 2'b11 : Reserved 2'b10 : 32-bit Fabric 2'b01 : 64-bit enabled 2'b00 : 128 + bit enabled + PSU_AFIFM1_AFIFM_RDCTRL_FABRIC_WIDTH 0x0 + + Read Channel Control Register + (OFFSET, MASK, VALUE) (0XFD370000, 0x00000003U ,0x00000000U) + RegMask = (AFIFM1_AFIFM_RDCTRL_FABRIC_WIDTH_MASK | 0 ); + + RegVal = ((0x00000000U << AFIFM1_AFIFM_RDCTRL_FABRIC_WIDTH_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (AFIFM1_AFIFM_RDCTRL_OFFSET ,0x00000003U ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : AFIFM_RDCTRL @ 0XFD380000

+ + Configures the Read Channel Fabric interface width. 2'b11 : Reserved 2'b10 : 32-bit Fabric 2'b01 : 64-bit enabled 2'b00 : 128 + bit enabled + PSU_AFIFM2_AFIFM_RDCTRL_FABRIC_WIDTH 0x0 + + Read Channel Control Register + (OFFSET, MASK, VALUE) (0XFD380000, 0x00000003U ,0x00000000U) + RegMask = (AFIFM2_AFIFM_RDCTRL_FABRIC_WIDTH_MASK | 0 ); + + RegVal = ((0x00000000U << AFIFM2_AFIFM_RDCTRL_FABRIC_WIDTH_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (AFIFM2_AFIFM_RDCTRL_OFFSET ,0x00000003U ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : AFIFM_RDCTRL @ 0XFD390000

+ + Configures the Read Channel Fabric interface width. 2'b11 : Reserved 2'b10 : 32-bit Fabric 2'b01 : 64-bit enabled 2'b00 : 128 + bit enabled + PSU_AFIFM3_AFIFM_RDCTRL_FABRIC_WIDTH 0x0 + + Read Channel Control Register + (OFFSET, MASK, VALUE) (0XFD390000, 0x00000003U ,0x00000000U) + RegMask = (AFIFM3_AFIFM_RDCTRL_FABRIC_WIDTH_MASK | 0 ); + + RegVal = ((0x00000000U << AFIFM3_AFIFM_RDCTRL_FABRIC_WIDTH_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (AFIFM3_AFIFM_RDCTRL_OFFSET ,0x00000003U ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : AFIFM_RDCTRL @ 0XFD3A0000

+ + Configures the Read Channel Fabric interface width. 2'b11 : Reserved 2'b10 : 32-bit Fabric 2'b01 : 64-bit enabled 2'b00 : 128 + bit enabled + PSU_AFIFM4_AFIFM_RDCTRL_FABRIC_WIDTH 0x0 + + Read Channel Control Register + (OFFSET, MASK, VALUE) (0XFD3A0000, 0x00000003U ,0x00000000U) + RegMask = (AFIFM4_AFIFM_RDCTRL_FABRIC_WIDTH_MASK | 0 ); + + RegVal = ((0x00000000U << AFIFM4_AFIFM_RDCTRL_FABRIC_WIDTH_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (AFIFM4_AFIFM_RDCTRL_OFFSET ,0x00000003U ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : AFIFM_RDCTRL @ 0XFD3B0000

+ + Configures the Read Channel Fabric interface width. 2'b11 : Reserved 2'b10 : 32-bit Fabric 2'b01 : 64-bit enabled 2'b00 : 128 + bit enabled + PSU_AFIFM5_AFIFM_RDCTRL_FABRIC_WIDTH 0x0 + + Read Channel Control Register + (OFFSET, MASK, VALUE) (0XFD3B0000, 0x00000003U ,0x00000000U) + RegMask = (AFIFM5_AFIFM_RDCTRL_FABRIC_WIDTH_MASK | 0 ); + + RegVal = ((0x00000000U << AFIFM5_AFIFM_RDCTRL_FABRIC_WIDTH_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (AFIFM5_AFIFM_RDCTRL_OFFSET ,0x00000003U ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : AFIFM_RDCTRL @ 0XFF9B0000

+ + Configures the Read Channel Fabric interface width. 2'b11 : Reserved 2'b10 : 32-bit Fabric 2'b01 : 64-bit enabled 2'b00 : 128 + bit enabled + PSU_AFIFM6_AFIFM_RDCTRL_FABRIC_WIDTH 0x0 + + Read Channel Control Register + (OFFSET, MASK, VALUE) (0XFF9B0000, 0x00000003U ,0x00000000U) + RegMask = (AFIFM6_AFIFM_RDCTRL_FABRIC_WIDTH_MASK | 0 ); + + RegVal = ((0x00000000U << AFIFM6_AFIFM_RDCTRL_FABRIC_WIDTH_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (AFIFM6_AFIFM_RDCTRL_OFFSET ,0x00000003U ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : AFIFM_WRCTRL @ 0XFD360014

+ + Configures the Write Channel Fabric interface width. 2'b11 : Reserved 2'b10 : 32-bit Fabric 2'b01 : 64-bit enabled 2'b00 : 12 + -bit enabled + PSU_AFIFM0_AFIFM_WRCTRL_FABRIC_WIDTH 0x0 + + Write Channel Control Register + (OFFSET, MASK, VALUE) (0XFD360014, 0x00000003U ,0x00000000U) + RegMask = (AFIFM0_AFIFM_WRCTRL_FABRIC_WIDTH_MASK | 0 ); + + RegVal = ((0x00000000U << AFIFM0_AFIFM_WRCTRL_FABRIC_WIDTH_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (AFIFM0_AFIFM_WRCTRL_OFFSET ,0x00000003U ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : AFIFM_WRCTRL @ 0XFD370014

+ + Configures the Write Channel Fabric interface width. 2'b11 : Reserved 2'b10 : 32-bit Fabric 2'b01 : 64-bit enabled 2'b00 : 12 + -bit enabled + PSU_AFIFM1_AFIFM_WRCTRL_FABRIC_WIDTH 0x0 + + Write Channel Control Register + (OFFSET, MASK, VALUE) (0XFD370014, 0x00000003U ,0x00000000U) + RegMask = (AFIFM1_AFIFM_WRCTRL_FABRIC_WIDTH_MASK | 0 ); + + RegVal = ((0x00000000U << AFIFM1_AFIFM_WRCTRL_FABRIC_WIDTH_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (AFIFM1_AFIFM_WRCTRL_OFFSET ,0x00000003U ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : AFIFM_WRCTRL @ 0XFD380014

+ + Configures the Write Channel Fabric interface width. 2'b11 : Reserved 2'b10 : 32-bit Fabric 2'b01 : 64-bit enabled 2'b00 : 12 + -bit enabled + PSU_AFIFM2_AFIFM_WRCTRL_FABRIC_WIDTH 0x0 + + Write Channel Control Register + (OFFSET, MASK, VALUE) (0XFD380014, 0x00000003U ,0x00000000U) + RegMask = (AFIFM2_AFIFM_WRCTRL_FABRIC_WIDTH_MASK | 0 ); + + RegVal = ((0x00000000U << AFIFM2_AFIFM_WRCTRL_FABRIC_WIDTH_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (AFIFM2_AFIFM_WRCTRL_OFFSET ,0x00000003U ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : AFIFM_WRCTRL @ 0XFD390014

+ + Configures the Write Channel Fabric interface width. 2'b11 : Reserved 2'b10 : 32-bit Fabric 2'b01 : 64-bit enabled 2'b00 : 12 + -bit enabled + PSU_AFIFM3_AFIFM_WRCTRL_FABRIC_WIDTH 0x0 + + Write Channel Control Register + (OFFSET, MASK, VALUE) (0XFD390014, 0x00000003U ,0x00000000U) + RegMask = (AFIFM3_AFIFM_WRCTRL_FABRIC_WIDTH_MASK | 0 ); + + RegVal = ((0x00000000U << AFIFM3_AFIFM_WRCTRL_FABRIC_WIDTH_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (AFIFM3_AFIFM_WRCTRL_OFFSET ,0x00000003U ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : AFIFM_WRCTRL @ 0XFD3A0014

+ + Configures the Write Channel Fabric interface width. 2'b11 : Reserved 2'b10 : 32-bit Fabric 2'b01 : 64-bit enabled 2'b00 : 12 + -bit enabled + PSU_AFIFM4_AFIFM_WRCTRL_FABRIC_WIDTH 0x0 + + Write Channel Control Register + (OFFSET, MASK, VALUE) (0XFD3A0014, 0x00000003U ,0x00000000U) + RegMask = (AFIFM4_AFIFM_WRCTRL_FABRIC_WIDTH_MASK | 0 ); + + RegVal = ((0x00000000U << AFIFM4_AFIFM_WRCTRL_FABRIC_WIDTH_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (AFIFM4_AFIFM_WRCTRL_OFFSET ,0x00000003U ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : AFIFM_WRCTRL @ 0XFD3B0014

+ + Configures the Write Channel Fabric interface width. 2'b11 : Reserved 2'b10 : 32-bit Fabric 2'b01 : 64-bit enabled 2'b00 : 12 + -bit enabled + PSU_AFIFM5_AFIFM_WRCTRL_FABRIC_WIDTH 0x0 + + Write Channel Control Register + (OFFSET, MASK, VALUE) (0XFD3B0014, 0x00000003U ,0x00000000U) + RegMask = (AFIFM5_AFIFM_WRCTRL_FABRIC_WIDTH_MASK | 0 ); + + RegVal = ((0x00000000U << AFIFM5_AFIFM_WRCTRL_FABRIC_WIDTH_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (AFIFM5_AFIFM_WRCTRL_OFFSET ,0x00000003U ,0x00000000U); + /*############################################################################################################################ */ + + /*Register : AFIFM_WRCTRL @ 0XFF9B0014

+ + Configures the Write Channel Fabric interface width. 2'b11 : Reserved 2'b10 : 32-bit Fabric 2'b01 : 64-bit enabled 2'b00 : 12 + -bit enabled + PSU_AFIFM6_AFIFM_WRCTRL_FABRIC_WIDTH 0x0 + + Write Channel Control Register + (OFFSET, MASK, VALUE) (0XFF9B0014, 0x00000003U ,0x00000000U) + RegMask = (AFIFM6_AFIFM_WRCTRL_FABRIC_WIDTH_MASK | 0 ); + + RegVal = ((0x00000000U << AFIFM6_AFIFM_WRCTRL_FABRIC_WIDTH_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (AFIFM6_AFIFM_WRCTRL_OFFSET ,0x00000003U ,0x00000000U); + /*############################################################################################################################ */ + + // : PS-PL POWER UP REQUEST + /*Register : REQ_PWRUP_INT_EN @ 0XFFD80118

+ + Power-up Request Interrupt Enable for PL + PSU_PMU_GLOBAL_REQ_PWRUP_INT_EN_PL 1 + + Power-up Request Interrupt Enable Register. Writing a 1 to this location will unmask the interrupt. + (OFFSET, MASK, VALUE) (0XFFD80118, 0x00800000U ,0x00800000U) + RegMask = (PMU_GLOBAL_REQ_PWRUP_INT_EN_PL_MASK | 0 ); + + RegVal = ((0x00000001U << PMU_GLOBAL_REQ_PWRUP_INT_EN_PL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (PMU_GLOBAL_REQ_PWRUP_INT_EN_OFFSET ,0x00800000U ,0x00800000U); + /*############################################################################################################################ */ + + /*Register : REQ_PWRUP_TRIG @ 0XFFD80120

+ + Power-up Request Trigger for PL + PSU_PMU_GLOBAL_REQ_PWRUP_TRIG_PL 1 + + Power-up Request Trigger Register. A write of one to this location will generate a power-up request to the PMU. + (OFFSET, MASK, VALUE) (0XFFD80120, 0x00800000U ,0x00800000U) + RegMask = (PMU_GLOBAL_REQ_PWRUP_TRIG_PL_MASK | 0 ); + + RegVal = ((0x00000001U << PMU_GLOBAL_REQ_PWRUP_TRIG_PL_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (PMU_GLOBAL_REQ_PWRUP_TRIG_OFFSET ,0x00800000U ,0x00800000U); + /*############################################################################################################################ */ + + // : POLL ON PL POWER STATUS + /*Register : REQ_PWRUP_STATUS @ 0XFFD80110

+ + Power-up Request Status for PL + PSU_PMU_GLOBAL_REQ_PWRUP_STATUS_PL 1 + (OFFSET, MASK, VALUE) (0XFFD80110, 0x00800000U ,0x00000000U) */ + mask_pollOnValue(PMU_GLOBAL_REQ_PWRUP_STATUS_OFFSET,0x00800000U,0x00000000U); + + /*############################################################################################################################ */ + + + return 1; +} +unsigned long psu_ps_pl_reset_config_data() { + // : PS PL RESET SEQUENCE + // : FABRIC RESET USING EMIO + /*Register : MASK_DATA_5_MSW @ 0XFF0A002C

+ + Operation is the same as MASK_DATA_0_LSW[MASK_0_LSW] + PSU_GPIO_MASK_DATA_5_MSW_MASK_5_MSW 0x8000 + + Maskable Output Data (GPIO Bank5, EMIO, Upper 16bits) + (OFFSET, MASK, VALUE) (0XFF0A002C, 0xFFFF0000U ,0x80000000U) + RegMask = (GPIO_MASK_DATA_5_MSW_MASK_5_MSW_MASK | 0 ); + + RegVal = ((0x00008000U << GPIO_MASK_DATA_5_MSW_MASK_5_MSW_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (GPIO_MASK_DATA_5_MSW_OFFSET ,0xFFFF0000U ,0x80000000U); + /*############################################################################################################################ */ + + /*Register : DIRM_5 @ 0XFF0A0344

+ + Operation is the same as DIRM_0[DIRECTION_0] + PSU_GPIO_DIRM_5_DIRECTION_5 0x80000000 + + Direction mode (GPIO Bank5, EMIO) + (OFFSET, MASK, VALUE) (0XFF0A0344, 0xFFFFFFFFU ,0x80000000U) + RegMask = (GPIO_DIRM_5_DIRECTION_5_MASK | 0 ); + + RegVal = ((0x80000000U << GPIO_DIRM_5_DIRECTION_5_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (GPIO_DIRM_5_OFFSET ,0xFFFFFFFFU ,0x80000000U); + /*############################################################################################################################ */ + + /*Register : OEN_5 @ 0XFF0A0348

+ + Operation is the same as OEN_0[OP_ENABLE_0] + PSU_GPIO_OEN_5_OP_ENABLE_5 0x80000000 + + Output enable (GPIO Bank5, EMIO) + (OFFSET, MASK, VALUE) (0XFF0A0348, 0xFFFFFFFFU ,0x80000000U) + RegMask = (GPIO_OEN_5_OP_ENABLE_5_MASK | 0 ); + + RegVal = ((0x80000000U << GPIO_OEN_5_OP_ENABLE_5_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (GPIO_OEN_5_OFFSET ,0xFFFFFFFFU ,0x80000000U); + /*############################################################################################################################ */ + + /*Register : DATA_5 @ 0XFF0A0054

+ + Output Data + PSU_GPIO_DATA_5_DATA_5 0x80000000 + + Output Data (GPIO Bank5, EMIO) + (OFFSET, MASK, VALUE) (0XFF0A0054, 0xFFFFFFFFU ,0x80000000U) + RegMask = (GPIO_DATA_5_DATA_5_MASK | 0 ); + + RegVal = ((0x80000000U << GPIO_DATA_5_DATA_5_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (GPIO_DATA_5_OFFSET ,0xFFFFFFFFU ,0x80000000U); + /*############################################################################################################################ */ + + mask_delay(1); + + /*############################################################################################################################ */ + + // : FABRIC RESET USING DATA_5 TOGGLE + /*Register : DATA_5 @ 0XFF0A0054

+ + Output Data + PSU_GPIO_DATA_5_DATA_5 0X00000000 + + Output Data (GPIO Bank5, EMIO) + (OFFSET, MASK, VALUE) (0XFF0A0054, 0xFFFFFFFFU ,0x00000000U) + RegMask = (GPIO_DATA_5_DATA_5_MASK | 0 ); + + RegVal = ((0x00000000U << GPIO_DATA_5_DATA_5_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (GPIO_DATA_5_OFFSET ,0xFFFFFFFFU ,0x00000000U); + /*############################################################################################################################ */ + + mask_delay(1); + + /*############################################################################################################################ */ + + // : FABRIC RESET USING DATA_5 TOGGLE + /*Register : DATA_5 @ 0XFF0A0054

+ + Output Data + PSU_GPIO_DATA_5_DATA_5 0x80000000 + + Output Data (GPIO Bank5, EMIO) + (OFFSET, MASK, VALUE) (0XFF0A0054, 0xFFFFFFFFU ,0x80000000U) + RegMask = (GPIO_DATA_5_DATA_5_MASK | 0 ); + + RegVal = ((0x80000000U << GPIO_DATA_5_DATA_5_SHIFT + | 0 ) & RegMask); */ + PSU_Mask_Write (GPIO_DATA_5_OFFSET ,0xFFFFFFFFU ,0x80000000U); + /*############################################################################################################################ */ + + + return 1; +} + +unsigned long psu_ddr_phybringup_data() { + + + unsigned int regval = 0; + int dpll_divisor; + dpll_divisor = (Xil_In32(0xFD1A0080U) & 0x00003F00U) >> 0x00000008U; + prog_reg (0xFD1A0080U, 0x00003F00U, 0x00000008U, 0x00000005U); + prog_reg (0xFD080028U, 0x00000001U, 0x00000000U, 0x00000001U); + Xil_Out32(0xFD080004U, 0x00040003U); + while ((Xil_In32(0xFD080030U) & 0x00000001U) != 0x00000001U); + prog_reg (0xFD080684U, 0x06000000U, 0x00000019U, 0x00000001U); + prog_reg (0xFD0806A4U, 0x06000000U, 0x00000019U, 0x00000001U); + prog_reg (0xFD0806C4U, 0x06000000U, 0x00000019U, 0x00000001U); + prog_reg (0xFD0806E4U, 0x06000000U, 0x00000019U, 0x00000001U); + prog_reg (0xFD1A0080, 0x3F00, 0x8, dpll_divisor); + Xil_Out32(0xFD080004U, 0x40040071U); + while ((Xil_In32(0xFD080030U) & 0x00000001U) != 0x00000001U); + Xil_Out32(0xFD080004U, 0x40040001U); + while ((Xil_In32(0xFD080030U) & 0x00000001U) != 0x00000001U); + // PHY BRINGUP SEQ + while ((Xil_In32(0xFD080030U) & 0x0000000FU) != 0x0000000FU); + prog_reg (0xFD080004U, 0x00000001U, 0x00000000U, 0x00000001U); + //poll for PHY initialization to complete + while ((Xil_In32(0xFD080030U) & 0x000000FFU) != 0x0000001FU); + + Xil_Out32(0xFD0701B0U, 0x00000001U); + Xil_Out32(0xFD070320U, 0x00000001U); + while ((Xil_In32(0xFD070004U) & 0x0000000FU) != 0x00000001U); + prog_reg (0xFD080014U, 0x00000040U, 0x00000006U, 0x00000001U); + Xil_Out32(0xFD080004, 0x0004FE01); //PUB_PIR + regval = Xil_In32(0xFD080030); //PUB_PGSR0 + while(regval != 0x80000FFF){ + regval = Xil_In32(0xFD080030); //PUB_PGSR0 + } + + + // Run Vref training in static read mode + Xil_Out32(0xFD080200U, 0x100091C7U); + Xil_Out32(0xFD080018U, 0x00F01EF2U); + Xil_Out32(0xFD08001CU, 0x55AA5498U); + Xil_Out32(0xFD08142CU, 0x00041830U); + Xil_Out32(0xFD08146CU, 0x00041830U); + Xil_Out32(0xFD0814ACU, 0x00041830U); + Xil_Out32(0xFD0814ECU, 0x00041830U); + Xil_Out32(0xFD08152CU, 0x00041830U); + + + Xil_Out32(0xFD080004, 0x00060001); //PUB_PIR + regval = Xil_In32(0xFD080030); //PUB_PGSR0 + while((regval & 0x80004001) != 0x80004001){ + regval = Xil_In32(0xFD080030); //PUB_PGSR0 + } + + // Vref training is complete, disabling static read mode + Xil_Out32(0xFD080200U, 0x800091C7U); + Xil_Out32(0xFD080018U, 0x00F12302U); + Xil_Out32(0xFD08001CU, 0x55AA5480U); + Xil_Out32(0xFD08142CU, 0x00041800U); + Xil_Out32(0xFD08146CU, 0x00041800U); + Xil_Out32(0xFD0814ACU, 0x00041800U); + Xil_Out32(0xFD0814ECU, 0x00041800U); + Xil_Out32(0xFD08152CU, 0x00041800U); + + + Xil_Out32(0xFD080004, 0x0000C001); //PUB_PIR + regval = Xil_In32(0xFD080030); //PUB_PGSR0 + while((regval & 0x80000C01) != 0x80000C01){ + regval = Xil_In32(0xFD080030); //PUB_PGSR0 + } + + Xil_Out32(0xFD070180U, 0x01000040U); + Xil_Out32(0xFD070060U, 0x00000000U); + prog_reg (0xFD080014U, 0x00000040U, 0x00000006U, 0x00000000U); + +return 1; +} + +/** + * CRL_APB Base Address + */ +#define CRL_APB_BASEADDR 0XFF5E0000U +#define CRL_APB_RST_LPD_IOU0 ( ( CRL_APB_BASEADDR ) + 0X00000230U ) +#define CRL_APB_RST_LPD_IOU1 ( ( CRL_APB_BASEADDR ) + 0X00000234U ) +#define CRL_APB_RST_LPD_IOU2 ( ( CRL_APB_BASEADDR ) + 0X00000238U ) +#define CRL_APB_RST_LPD_TOP ( ( CRL_APB_BASEADDR ) + 0X0000023CU ) +#define CRL_APB_IOU_SWITCH_CTRL ( ( CRL_APB_BASEADDR ) + 0X0000009CU ) + +/** + * CRF_APB Base Address + */ +#define CRF_APB_BASEADDR 0XFD1A0000U + +#define CRF_APB_RST_FPD_TOP ( ( CRF_APB_BASEADDR ) + 0X00000100U ) +#define CRF_APB_GPU_REF_CTRL ( ( CRF_APB_BASEADDR ) + 0X00000084U ) +#define CRF_APB_RST_DDR_SS ( ( CRF_APB_BASEADDR ) + 0X00000108U ) +#define PSU_MASK_POLL_TIME 1100000 + + +int mask_pollOnValue(u32 add , u32 mask, u32 value ) { + volatile u32 *addr = (volatile u32*)(unsigned long) add; + int i = 0; + while ((*addr & mask)!= value) { + if (i == PSU_MASK_POLL_TIME) { + return 0; + } + i++; + } + return 1; + //xil_printf("MaskPoll : 0x%x --> 0x%x \n \r" , add, *addr); +} + +int mask_poll(u32 add , u32 mask) { + volatile u32 *addr = (volatile u32*)(unsigned long) add; + int i = 0; + while (!(*addr & mask)) { + if (i == PSU_MASK_POLL_TIME) { + return 0; + } + i++; + } + return 1; + //xil_printf("MaskPoll : 0x%x --> 0x%x \n \r" , add, *addr); +} + +void mask_delay(u32 delay) { + usleep (delay); +} + +u32 mask_read(u32 add , u32 mask ) { + volatile u32 *addr = (volatile u32*)(unsigned long) add; + u32 val = (*addr & mask); + //xil_printf("MaskRead : 0x%x --> 0x%x \n \r" , add, val); + return val; +} + + +//Following SERDES programming sequences that a user need to follow to work around the known limitation with SERDES. +//These sequences should done before STEP 1 and STEP 2 as described in previous section. These programming steps are +//required for current silicon version and are likely to undergo further changes with subsequent silicon versions. + + + +int serdes_fixcal_code() { + int MaskStatus = 1; + + // L3_TM_CALIB_DIG19 + Xil_Out32(0xFD40EC4C,0x00000020); + //ICM_CFG0 + Xil_Out32(0xFD410010,0x00000001); + + //is calibration done, polling on L3_CALIB_DONE_STATUS + MaskStatus = mask_poll(0xFD40EF14, 0x2); + + if (MaskStatus == 0) + { + xil_printf("SERDES initialization timed out\n\r"); + } + + unsigned int tmp_0_1; + tmp_0_1 = mask_read(0xFD400B0C, 0x3F); + + unsigned int tmp_0_2 = tmp_0_1 & (0x7); + unsigned int tmp_0_3 = tmp_0_1 & (0x38); + //Configure ICM for de-asserting CMN_Resetn + Xil_Out32(0xFD410010,0x00000000); + Xil_Out32(0xFD410014,0x00000000); + + unsigned int tmp_0_2_mod = (tmp_0_2 <<1) | (0x1); + tmp_0_2_mod = (tmp_0_2_mod <<4); + + tmp_0_3 = tmp_0_3 >>3; + Xil_Out32(0xFD40EC4C,tmp_0_3); + + //L3_TM_CALIB_DIG18 + Xil_Out32(0xFD40EC48,tmp_0_2_mod); + return MaskStatus; + + +} + +int serdes_enb_coarse_saturation() { + //Enable PLL Coarse Code saturation Logic + Xil_Out32(0xFD402094,0x00000010); + Xil_Out32(0xFD406094,0x00000010); + Xil_Out32(0xFD40A094,0x00000010); + Xil_Out32(0xFD40E094,0x00000010); + return 1; +} + +int init_serdes() { + int status = 1; + status &= psu_resetin_init_data(); + + status &= serdes_fixcal_code(); + status &= serdes_enb_coarse_saturation(); + + status &= psu_serdes_init_data(); + status &= psu_resetout_init_data(); + + return status; +} + + + + + + +void init_peripheral() +{ + unsigned int RegValue; + + /* Turn on IOU Clock */ + //Xil_Out32( CRL_APB_IOU_SWITCH_CTRL, 0x01001500); + + /* Release all resets in the IOU */ + Xil_Out32( CRL_APB_RST_LPD_IOU0, 0x00000000); + Xil_Out32( CRL_APB_RST_LPD_IOU1, 0x00000000); + Xil_Out32( CRL_APB_RST_LPD_IOU2, 0x00000000); + + /* Activate GPU clocks */ + //Xil_Out32(CRF_APB_GPU_REF_CTRL, 0x07001500); + + /* Take LPD out of reset except R5 */ + RegValue = Xil_In32(CRL_APB_RST_LPD_TOP); + RegValue &= 0x7; + Xil_Out32( CRL_APB_RST_LPD_TOP, RegValue); + + /* Take most of FPD out of reset */ + Xil_Out32( CRF_APB_RST_FPD_TOP, 0x00000000); + + /* Making DPDMA as secure */ + unsigned int tmp_regval; + tmp_regval = Xil_In32(0xFD690040); + tmp_regval &= ~0x00000001; + Xil_Out32(0xFD690040, tmp_regval); + + /* Making PCIe as secure */ + tmp_regval = Xil_In32(0xFD690030); + tmp_regval &= ~0x00000001; + Xil_Out32(0xFD690030, tmp_regval); +} + +int psu_init_xppu_aper_ram() { + unsigned long APER_OFFSET = 0xFF981000; + int i = 0; + for (; i <= 400; i++) { + PSU_Mask_Write (APER_OFFSET ,0xF80FFFFFU ,0x08080000U); + APER_OFFSET = APER_OFFSET + 0x4; + } + + return 0; +} + +int psu_lpd_protection() { + psu_init_xppu_aper_ram(); + psu_lpd_xppu_data(); + return 0; +} + +int psu_ddr_protection() { + psu_ddr_xmpu0_data(); + psu_ddr_xmpu1_data(); + psu_ddr_xmpu2_data(); + psu_ddr_xmpu3_data(); + psu_ddr_xmpu4_data(); + psu_ddr_xmpu5_data(); + return 0; +} +int psu_ocm_protection() { + psu_ocm_xmpu_data(); + return 0; +} + +int psu_fpd_protection() { + psu_fpd_xmpu_data(); + return 0; +} + +int psu_protection_lock() { + psu_protection_lock_data(); + return 0; +} + +int psu_protection() { + psu_ddr_protection(); + psu_ocm_protection(); + psu_fpd_protection(); + psu_lpd_protection(); + return 0; +} + + + +int +psu_init() +{ + int status = 1; + status &= psu_mio_init_data (); + status &= psu_pll_init_data (); + status &= psu_clock_init_data (); + + status &= psu_ddr_init_data (); + status &= psu_ddr_phybringup_data (); + status &= psu_peripherals_init_data (); + + status &= init_serdes(); + init_peripheral (); + + status &= psu_peripherals_powerdwn_data (); + + if (status == 0) { + return 1; + } + return 0; +} diff --git a/board/xilinx/zynqmp/zynqmp-zcu102/psu_init_gpl.h b/board/xilinx/zynqmp/zynqmp-zcu102/psu_init_gpl.h new file mode 100644 index 0000000..68e3562 --- /dev/null +++ b/board/xilinx/zynqmp/zynqmp-zcu102/psu_init_gpl.h @@ -0,0 +1,30391 @@ +/****************************************************************************** +* +* Copyright (C) 2015 Xilinx, Inc. All rights reserved. +* +* This program is free software; you can redistribute it and/or modify +* it under the terms of the GNU General Public License as published by +* the Free Software Foundation; either version 2 of the License, or +* (at your option) any later version. +* +* This program is distributed in the hope that it will be useful, +* but WITHOUT ANY WARRANTY; without even the implied warranty of +* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the +* GNU General Public License for more details. +* +* You should have received a copy of the GNU General Public License along +* with this program; if not, see +* +* +******************************************************************************/ +/****************************************************************************/ +/** +* +* @file psu_init_gpl.h +* +* This file is automatically generated +* +*****************************************************************************/ + + +#undef CRL_APB_RPLL_CFG_OFFSET +#define CRL_APB_RPLL_CFG_OFFSET 0XFF5E0034 +#undef CRL_APB_RPLL_CTRL_OFFSET +#define CRL_APB_RPLL_CTRL_OFFSET 0XFF5E0030 +#undef CRL_APB_RPLL_CTRL_OFFSET +#define CRL_APB_RPLL_CTRL_OFFSET 0XFF5E0030 +#undef CRL_APB_RPLL_CTRL_OFFSET +#define CRL_APB_RPLL_CTRL_OFFSET 0XFF5E0030 +#undef CRL_APB_RPLL_CTRL_OFFSET +#define CRL_APB_RPLL_CTRL_OFFSET 0XFF5E0030 +#undef CRL_APB_RPLL_CTRL_OFFSET +#define CRL_APB_RPLL_CTRL_OFFSET 0XFF5E0030 +#undef CRL_APB_RPLL_TO_FPD_CTRL_OFFSET +#define CRL_APB_RPLL_TO_FPD_CTRL_OFFSET 0XFF5E0048 +#undef CRL_APB_RPLL_FRAC_CFG_OFFSET +#define CRL_APB_RPLL_FRAC_CFG_OFFSET 0XFF5E0038 +#undef CRL_APB_IOPLL_CFG_OFFSET +#define CRL_APB_IOPLL_CFG_OFFSET 0XFF5E0024 +#undef CRL_APB_IOPLL_CTRL_OFFSET +#define CRL_APB_IOPLL_CTRL_OFFSET 0XFF5E0020 +#undef CRL_APB_IOPLL_CTRL_OFFSET +#define CRL_APB_IOPLL_CTRL_OFFSET 0XFF5E0020 +#undef CRL_APB_IOPLL_CTRL_OFFSET +#define CRL_APB_IOPLL_CTRL_OFFSET 0XFF5E0020 +#undef CRL_APB_IOPLL_CTRL_OFFSET +#define CRL_APB_IOPLL_CTRL_OFFSET 0XFF5E0020 +#undef CRL_APB_IOPLL_CTRL_OFFSET +#define CRL_APB_IOPLL_CTRL_OFFSET 0XFF5E0020 +#undef CRL_APB_IOPLL_TO_FPD_CTRL_OFFSET +#define CRL_APB_IOPLL_TO_FPD_CTRL_OFFSET 0XFF5E0044 +#undef CRL_APB_IOPLL_FRAC_CFG_OFFSET +#define CRL_APB_IOPLL_FRAC_CFG_OFFSET 0XFF5E0028 +#undef CRF_APB_APLL_CFG_OFFSET +#define CRF_APB_APLL_CFG_OFFSET 0XFD1A0024 +#undef CRF_APB_APLL_CTRL_OFFSET +#define CRF_APB_APLL_CTRL_OFFSET 0XFD1A0020 +#undef CRF_APB_APLL_CTRL_OFFSET +#define CRF_APB_APLL_CTRL_OFFSET 0XFD1A0020 +#undef CRF_APB_APLL_CTRL_OFFSET +#define CRF_APB_APLL_CTRL_OFFSET 0XFD1A0020 +#undef CRF_APB_APLL_CTRL_OFFSET +#define CRF_APB_APLL_CTRL_OFFSET 0XFD1A0020 +#undef CRF_APB_APLL_CTRL_OFFSET +#define CRF_APB_APLL_CTRL_OFFSET 0XFD1A0020 +#undef CRF_APB_APLL_TO_LPD_CTRL_OFFSET +#define CRF_APB_APLL_TO_LPD_CTRL_OFFSET 0XFD1A0048 +#undef CRF_APB_APLL_FRAC_CFG_OFFSET +#define CRF_APB_APLL_FRAC_CFG_OFFSET 0XFD1A0028 +#undef CRF_APB_DPLL_CFG_OFFSET +#define CRF_APB_DPLL_CFG_OFFSET 0XFD1A0030 +#undef CRF_APB_DPLL_CTRL_OFFSET +#define CRF_APB_DPLL_CTRL_OFFSET 0XFD1A002C +#undef CRF_APB_DPLL_CTRL_OFFSET +#define CRF_APB_DPLL_CTRL_OFFSET 0XFD1A002C +#undef CRF_APB_DPLL_CTRL_OFFSET +#define CRF_APB_DPLL_CTRL_OFFSET 0XFD1A002C +#undef CRF_APB_DPLL_CTRL_OFFSET +#define CRF_APB_DPLL_CTRL_OFFSET 0XFD1A002C +#undef CRF_APB_DPLL_CTRL_OFFSET +#define CRF_APB_DPLL_CTRL_OFFSET 0XFD1A002C +#undef CRF_APB_DPLL_TO_LPD_CTRL_OFFSET +#define CRF_APB_DPLL_TO_LPD_CTRL_OFFSET 0XFD1A004C +#undef CRF_APB_DPLL_FRAC_CFG_OFFSET +#define CRF_APB_DPLL_FRAC_CFG_OFFSET 0XFD1A0034 +#undef CRF_APB_VPLL_CFG_OFFSET +#define CRF_APB_VPLL_CFG_OFFSET 0XFD1A003C +#undef CRF_APB_VPLL_CTRL_OFFSET +#define CRF_APB_VPLL_CTRL_OFFSET 0XFD1A0038 +#undef CRF_APB_VPLL_CTRL_OFFSET +#define CRF_APB_VPLL_CTRL_OFFSET 0XFD1A0038 +#undef CRF_APB_VPLL_CTRL_OFFSET +#define CRF_APB_VPLL_CTRL_OFFSET 0XFD1A0038 +#undef CRF_APB_VPLL_CTRL_OFFSET +#define CRF_APB_VPLL_CTRL_OFFSET 0XFD1A0038 +#undef CRF_APB_VPLL_CTRL_OFFSET +#define CRF_APB_VPLL_CTRL_OFFSET 0XFD1A0038 +#undef CRF_APB_VPLL_TO_LPD_CTRL_OFFSET +#define CRF_APB_VPLL_TO_LPD_CTRL_OFFSET 0XFD1A0050 +#undef CRF_APB_VPLL_FRAC_CFG_OFFSET +#define CRF_APB_VPLL_FRAC_CFG_OFFSET 0XFD1A0040 + +/*PLL loop filter resistor control*/ +#undef CRL_APB_RPLL_CFG_RES_DEFVAL +#undef CRL_APB_RPLL_CFG_RES_SHIFT +#undef CRL_APB_RPLL_CFG_RES_MASK +#define CRL_APB_RPLL_CFG_RES_DEFVAL 0x00000000 +#define CRL_APB_RPLL_CFG_RES_SHIFT 0 +#define CRL_APB_RPLL_CFG_RES_MASK 0x0000000FU + +/*PLL charge pump control*/ +#undef CRL_APB_RPLL_CFG_CP_DEFVAL +#undef CRL_APB_RPLL_CFG_CP_SHIFT +#undef CRL_APB_RPLL_CFG_CP_MASK +#define CRL_APB_RPLL_CFG_CP_DEFVAL 0x00000000 +#define CRL_APB_RPLL_CFG_CP_SHIFT 5 +#define CRL_APB_RPLL_CFG_CP_MASK 0x000001E0U + +/*PLL loop filter high frequency capacitor control*/ +#undef CRL_APB_RPLL_CFG_LFHF_DEFVAL +#undef CRL_APB_RPLL_CFG_LFHF_SHIFT +#undef CRL_APB_RPLL_CFG_LFHF_MASK +#define CRL_APB_RPLL_CFG_LFHF_DEFVAL 0x00000000 +#define CRL_APB_RPLL_CFG_LFHF_SHIFT 10 +#define CRL_APB_RPLL_CFG_LFHF_MASK 0x00000C00U + +/*Lock circuit counter setting*/ +#undef CRL_APB_RPLL_CFG_LOCK_CNT_DEFVAL +#undef CRL_APB_RPLL_CFG_LOCK_CNT_SHIFT +#undef CRL_APB_RPLL_CFG_LOCK_CNT_MASK +#define CRL_APB_RPLL_CFG_LOCK_CNT_DEFVAL 0x00000000 +#define CRL_APB_RPLL_CFG_LOCK_CNT_SHIFT 13 +#define CRL_APB_RPLL_CFG_LOCK_CNT_MASK 0x007FE000U + +/*Lock circuit configuration settings for lock windowsize*/ +#undef CRL_APB_RPLL_CFG_LOCK_DLY_DEFVAL +#undef CRL_APB_RPLL_CFG_LOCK_DLY_SHIFT +#undef CRL_APB_RPLL_CFG_LOCK_DLY_MASK +#define CRL_APB_RPLL_CFG_LOCK_DLY_DEFVAL 0x00000000 +#define CRL_APB_RPLL_CFG_LOCK_DLY_SHIFT 25 +#define CRL_APB_RPLL_CFG_LOCK_DLY_MASK 0xFE000000U + +/*Mux select for determining which clock feeds this PLL. 0XX pss_ref_clk is the source 100 video clk is the source 101 pss_alt_ + ef_clk is the source 110 aux_refclk[X] is the source 111 gt_crx_ref_clk is the source*/ +#undef CRL_APB_RPLL_CTRL_PRE_SRC_DEFVAL +#undef CRL_APB_RPLL_CTRL_PRE_SRC_SHIFT +#undef CRL_APB_RPLL_CTRL_PRE_SRC_MASK +#define CRL_APB_RPLL_CTRL_PRE_SRC_DEFVAL 0x00012C09 +#define CRL_APB_RPLL_CTRL_PRE_SRC_SHIFT 20 +#define CRL_APB_RPLL_CTRL_PRE_SRC_MASK 0x00700000U + +/*The integer portion of the feedback divider to the PLL*/ +#undef CRL_APB_RPLL_CTRL_FBDIV_DEFVAL +#undef CRL_APB_RPLL_CTRL_FBDIV_SHIFT +#undef CRL_APB_RPLL_CTRL_FBDIV_MASK +#define CRL_APB_RPLL_CTRL_FBDIV_DEFVAL 0x00012C09 +#define CRL_APB_RPLL_CTRL_FBDIV_SHIFT 8 +#define CRL_APB_RPLL_CTRL_FBDIV_MASK 0x00007F00U + +/*This turns on the divide by 2 that is inside of the PLL. This does not change the VCO frequency, just the output frequency*/ +#undef CRL_APB_RPLL_CTRL_DIV2_DEFVAL +#undef CRL_APB_RPLL_CTRL_DIV2_SHIFT +#undef CRL_APB_RPLL_CTRL_DIV2_MASK +#define CRL_APB_RPLL_CTRL_DIV2_DEFVAL 0x00012C09 +#define CRL_APB_RPLL_CTRL_DIV2_SHIFT 16 +#define CRL_APB_RPLL_CTRL_DIV2_MASK 0x00010000U + +/*Bypasses the PLL clock. The usable clock will be determined from the POST_SRC field. (This signal may only be toggled after 4 + cycles of the old clock and 4 cycles of the new clock. This is not usually an issue, but designers must be aware.)*/ +#undef CRL_APB_RPLL_CTRL_BYPASS_DEFVAL +#undef CRL_APB_RPLL_CTRL_BYPASS_SHIFT +#undef CRL_APB_RPLL_CTRL_BYPASS_MASK +#define CRL_APB_RPLL_CTRL_BYPASS_DEFVAL 0x00012C09 +#define CRL_APB_RPLL_CTRL_BYPASS_SHIFT 3 +#define CRL_APB_RPLL_CTRL_BYPASS_MASK 0x00000008U + +/*Asserts Reset to the PLL. When asserting reset, the PLL must already be in BYPASS.*/ +#undef CRL_APB_RPLL_CTRL_RESET_DEFVAL +#undef CRL_APB_RPLL_CTRL_RESET_SHIFT +#undef CRL_APB_RPLL_CTRL_RESET_MASK +#define CRL_APB_RPLL_CTRL_RESET_DEFVAL 0x00012C09 +#define CRL_APB_RPLL_CTRL_RESET_SHIFT 0 +#define CRL_APB_RPLL_CTRL_RESET_MASK 0x00000001U + +/*Asserts Reset to the PLL. When asserting reset, the PLL must already be in BYPASS.*/ +#undef CRL_APB_RPLL_CTRL_RESET_DEFVAL +#undef CRL_APB_RPLL_CTRL_RESET_SHIFT +#undef CRL_APB_RPLL_CTRL_RESET_MASK +#define CRL_APB_RPLL_CTRL_RESET_DEFVAL 0x00012C09 +#define CRL_APB_RPLL_CTRL_RESET_SHIFT 0 +#define CRL_APB_RPLL_CTRL_RESET_MASK 0x00000001U + +/*RPLL is locked*/ +#undef CRL_APB_PLL_STATUS_RPLL_LOCK_DEFVAL +#undef CRL_APB_PLL_STATUS_RPLL_LOCK_SHIFT +#undef CRL_APB_PLL_STATUS_RPLL_LOCK_MASK +#define CRL_APB_PLL_STATUS_RPLL_LOCK_DEFVAL 0x00000018 +#define CRL_APB_PLL_STATUS_RPLL_LOCK_SHIFT 1 +#define CRL_APB_PLL_STATUS_RPLL_LOCK_MASK 0x00000002U +#define CRL_APB_PLL_STATUS_OFFSET 0XFF5E0040 + +/*Bypasses the PLL clock. The usable clock will be determined from the POST_SRC field. (This signal may only be toggled after 4 + cycles of the old clock and 4 cycles of the new clock. This is not usually an issue, but designers must be aware.)*/ +#undef CRL_APB_RPLL_CTRL_BYPASS_DEFVAL +#undef CRL_APB_RPLL_CTRL_BYPASS_SHIFT +#undef CRL_APB_RPLL_CTRL_BYPASS_MASK +#define CRL_APB_RPLL_CTRL_BYPASS_DEFVAL 0x00012C09 +#define CRL_APB_RPLL_CTRL_BYPASS_SHIFT 3 +#define CRL_APB_RPLL_CTRL_BYPASS_MASK 0x00000008U + +/*Divisor value for this clock.*/ +#undef CRL_APB_RPLL_TO_FPD_CTRL_DIVISOR0_DEFVAL +#undef CRL_APB_RPLL_TO_FPD_CTRL_DIVISOR0_SHIFT +#undef CRL_APB_RPLL_TO_FPD_CTRL_DIVISOR0_MASK +#define CRL_APB_RPLL_TO_FPD_CTRL_DIVISOR0_DEFVAL 0x00000400 +#define CRL_APB_RPLL_TO_FPD_CTRL_DIVISOR0_SHIFT 8 +#define CRL_APB_RPLL_TO_FPD_CTRL_DIVISOR0_MASK 0x00003F00U + +/*Fractional SDM bypass control. When 0, PLL is in integer mode and it ignores all fractional data. When 1, PLL is in fractiona + mode and uses DATA of this register for the fractional portion of the feedback divider.*/ +#undef CRL_APB_RPLL_FRAC_CFG_ENABLED_DEFVAL +#undef CRL_APB_RPLL_FRAC_CFG_ENABLED_SHIFT +#undef CRL_APB_RPLL_FRAC_CFG_ENABLED_MASK +#define CRL_APB_RPLL_FRAC_CFG_ENABLED_DEFVAL 0x00000000 +#define CRL_APB_RPLL_FRAC_CFG_ENABLED_SHIFT 31 +#define CRL_APB_RPLL_FRAC_CFG_ENABLED_MASK 0x80000000U + +/*Fractional value for the Feedback value.*/ +#undef CRL_APB_RPLL_FRAC_CFG_DATA_DEFVAL +#undef CRL_APB_RPLL_FRAC_CFG_DATA_SHIFT +#undef CRL_APB_RPLL_FRAC_CFG_DATA_MASK +#define CRL_APB_RPLL_FRAC_CFG_DATA_DEFVAL 0x00000000 +#define CRL_APB_RPLL_FRAC_CFG_DATA_SHIFT 0 +#define CRL_APB_RPLL_FRAC_CFG_DATA_MASK 0x0000FFFFU + +/*PLL loop filter resistor control*/ +#undef CRL_APB_IOPLL_CFG_RES_DEFVAL +#undef CRL_APB_IOPLL_CFG_RES_SHIFT +#undef CRL_APB_IOPLL_CFG_RES_MASK +#define CRL_APB_IOPLL_CFG_RES_DEFVAL 0x00000000 +#define CRL_APB_IOPLL_CFG_RES_SHIFT 0 +#define CRL_APB_IOPLL_CFG_RES_MASK 0x0000000FU + +/*PLL charge pump control*/ +#undef CRL_APB_IOPLL_CFG_CP_DEFVAL +#undef CRL_APB_IOPLL_CFG_CP_SHIFT +#undef CRL_APB_IOPLL_CFG_CP_MASK +#define CRL_APB_IOPLL_CFG_CP_DEFVAL 0x00000000 +#define CRL_APB_IOPLL_CFG_CP_SHIFT 5 +#define CRL_APB_IOPLL_CFG_CP_MASK 0x000001E0U + +/*PLL loop filter high frequency capacitor control*/ +#undef CRL_APB_IOPLL_CFG_LFHF_DEFVAL +#undef CRL_APB_IOPLL_CFG_LFHF_SHIFT +#undef CRL_APB_IOPLL_CFG_LFHF_MASK +#define CRL_APB_IOPLL_CFG_LFHF_DEFVAL 0x00000000 +#define CRL_APB_IOPLL_CFG_LFHF_SHIFT 10 +#define CRL_APB_IOPLL_CFG_LFHF_MASK 0x00000C00U + +/*Lock circuit counter setting*/ +#undef CRL_APB_IOPLL_CFG_LOCK_CNT_DEFVAL +#undef CRL_APB_IOPLL_CFG_LOCK_CNT_SHIFT +#undef CRL_APB_IOPLL_CFG_LOCK_CNT_MASK +#define CRL_APB_IOPLL_CFG_LOCK_CNT_DEFVAL 0x00000000 +#define CRL_APB_IOPLL_CFG_LOCK_CNT_SHIFT 13 +#define CRL_APB_IOPLL_CFG_LOCK_CNT_MASK 0x007FE000U + +/*Lock circuit configuration settings for lock windowsize*/ +#undef CRL_APB_IOPLL_CFG_LOCK_DLY_DEFVAL +#undef CRL_APB_IOPLL_CFG_LOCK_DLY_SHIFT +#undef CRL_APB_IOPLL_CFG_LOCK_DLY_MASK +#define CRL_APB_IOPLL_CFG_LOCK_DLY_DEFVAL 0x00000000 +#define CRL_APB_IOPLL_CFG_LOCK_DLY_SHIFT 25 +#define CRL_APB_IOPLL_CFG_LOCK_DLY_MASK 0xFE000000U + +/*Mux select for determining which clock feeds this PLL. 0XX pss_ref_clk is the source 100 video clk is the source 101 pss_alt_ + ef_clk is the source 110 aux_refclk[X] is the source 111 gt_crx_ref_clk is the source*/ +#undef CRL_APB_IOPLL_CTRL_PRE_SRC_DEFVAL +#undef CRL_APB_IOPLL_CTRL_PRE_SRC_SHIFT +#undef CRL_APB_IOPLL_CTRL_PRE_SRC_MASK +#define CRL_APB_IOPLL_CTRL_PRE_SRC_DEFVAL 0x00012C09 +#define CRL_APB_IOPLL_CTRL_PRE_SRC_SHIFT 20 +#define CRL_APB_IOPLL_CTRL_PRE_SRC_MASK 0x00700000U + +/*The integer portion of the feedback divider to the PLL*/ +#undef CRL_APB_IOPLL_CTRL_FBDIV_DEFVAL +#undef CRL_APB_IOPLL_CTRL_FBDIV_SHIFT +#undef CRL_APB_IOPLL_CTRL_FBDIV_MASK +#define CRL_APB_IOPLL_CTRL_FBDIV_DEFVAL 0x00012C09 +#define CRL_APB_IOPLL_CTRL_FBDIV_SHIFT 8 +#define CRL_APB_IOPLL_CTRL_FBDIV_MASK 0x00007F00U + +/*This turns on the divide by 2 that is inside of the PLL. This does not change the VCO frequency, just the output frequency*/ +#undef CRL_APB_IOPLL_CTRL_DIV2_DEFVAL +#undef CRL_APB_IOPLL_CTRL_DIV2_SHIFT +#undef CRL_APB_IOPLL_CTRL_DIV2_MASK +#define CRL_APB_IOPLL_CTRL_DIV2_DEFVAL 0x00012C09 +#define CRL_APB_IOPLL_CTRL_DIV2_SHIFT 16 +#define CRL_APB_IOPLL_CTRL_DIV2_MASK 0x00010000U + +/*Bypasses the PLL clock. The usable clock will be determined from the POST_SRC field. (This signal may only be toggled after 4 + cycles of the old clock and 4 cycles of the new clock. This is not usually an issue, but designers must be aware.)*/ +#undef CRL_APB_IOPLL_CTRL_BYPASS_DEFVAL +#undef CRL_APB_IOPLL_CTRL_BYPASS_SHIFT +#undef CRL_APB_IOPLL_CTRL_BYPASS_MASK +#define CRL_APB_IOPLL_CTRL_BYPASS_DEFVAL 0x00012C09 +#define CRL_APB_IOPLL_CTRL_BYPASS_SHIFT 3 +#define CRL_APB_IOPLL_CTRL_BYPASS_MASK 0x00000008U + +/*Asserts Reset to the PLL. When asserting reset, the PLL must already be in BYPASS.*/ +#undef CRL_APB_IOPLL_CTRL_RESET_DEFVAL +#undef CRL_APB_IOPLL_CTRL_RESET_SHIFT +#undef CRL_APB_IOPLL_CTRL_RESET_MASK +#define CRL_APB_IOPLL_CTRL_RESET_DEFVAL 0x00012C09 +#define CRL_APB_IOPLL_CTRL_RESET_SHIFT 0 +#define CRL_APB_IOPLL_CTRL_RESET_MASK 0x00000001U + +/*Asserts Reset to the PLL. When asserting reset, the PLL must already be in BYPASS.*/ +#undef CRL_APB_IOPLL_CTRL_RESET_DEFVAL +#undef CRL_APB_IOPLL_CTRL_RESET_SHIFT +#undef CRL_APB_IOPLL_CTRL_RESET_MASK +#define CRL_APB_IOPLL_CTRL_RESET_DEFVAL 0x00012C09 +#define CRL_APB_IOPLL_CTRL_RESET_SHIFT 0 +#define CRL_APB_IOPLL_CTRL_RESET_MASK 0x00000001U + +/*IOPLL is locked*/ +#undef CRL_APB_PLL_STATUS_IOPLL_LOCK_DEFVAL +#undef CRL_APB_PLL_STATUS_IOPLL_LOCK_SHIFT +#undef CRL_APB_PLL_STATUS_IOPLL_LOCK_MASK +#define CRL_APB_PLL_STATUS_IOPLL_LOCK_DEFVAL 0x00000018 +#define CRL_APB_PLL_STATUS_IOPLL_LOCK_SHIFT 0 +#define CRL_APB_PLL_STATUS_IOPLL_LOCK_MASK 0x00000001U +#define CRL_APB_PLL_STATUS_OFFSET 0XFF5E0040 + +/*Bypasses the PLL clock. The usable clock will be determined from the POST_SRC field. (This signal may only be toggled after 4 + cycles of the old clock and 4 cycles of the new clock. This is not usually an issue, but designers must be aware.)*/ +#undef CRL_APB_IOPLL_CTRL_BYPASS_DEFVAL +#undef CRL_APB_IOPLL_CTRL_BYPASS_SHIFT +#undef CRL_APB_IOPLL_CTRL_BYPASS_MASK +#define CRL_APB_IOPLL_CTRL_BYPASS_DEFVAL 0x00012C09 +#define CRL_APB_IOPLL_CTRL_BYPASS_SHIFT 3 +#define CRL_APB_IOPLL_CTRL_BYPASS_MASK 0x00000008U + +/*Divisor value for this clock.*/ +#undef CRL_APB_IOPLL_TO_FPD_CTRL_DIVISOR0_DEFVAL +#undef CRL_APB_IOPLL_TO_FPD_CTRL_DIVISOR0_SHIFT +#undef CRL_APB_IOPLL_TO_FPD_CTRL_DIVISOR0_MASK +#define CRL_APB_IOPLL_TO_FPD_CTRL_DIVISOR0_DEFVAL 0x00000400 +#define CRL_APB_IOPLL_TO_FPD_CTRL_DIVISOR0_SHIFT 8 +#define CRL_APB_IOPLL_TO_FPD_CTRL_DIVISOR0_MASK 0x00003F00U + +/*Fractional SDM bypass control. When 0, PLL is in integer mode and it ignores all fractional data. When 1, PLL is in fractiona + mode and uses DATA of this register for the fractional portion of the feedback divider.*/ +#undef CRL_APB_IOPLL_FRAC_CFG_ENABLED_DEFVAL +#undef CRL_APB_IOPLL_FRAC_CFG_ENABLED_SHIFT +#undef CRL_APB_IOPLL_FRAC_CFG_ENABLED_MASK +#define CRL_APB_IOPLL_FRAC_CFG_ENABLED_DEFVAL 0x00000000 +#define CRL_APB_IOPLL_FRAC_CFG_ENABLED_SHIFT 31 +#define CRL_APB_IOPLL_FRAC_CFG_ENABLED_MASK 0x80000000U + +/*Fractional value for the Feedback value.*/ +#undef CRL_APB_IOPLL_FRAC_CFG_DATA_DEFVAL +#undef CRL_APB_IOPLL_FRAC_CFG_DATA_SHIFT +#undef CRL_APB_IOPLL_FRAC_CFG_DATA_MASK +#define CRL_APB_IOPLL_FRAC_CFG_DATA_DEFVAL 0x00000000 +#define CRL_APB_IOPLL_FRAC_CFG_DATA_SHIFT 0 +#define CRL_APB_IOPLL_FRAC_CFG_DATA_MASK 0x0000FFFFU + +/*PLL loop filter resistor control*/ +#undef CRF_APB_APLL_CFG_RES_DEFVAL +#undef CRF_APB_APLL_CFG_RES_SHIFT +#undef CRF_APB_APLL_CFG_RES_MASK +#define CRF_APB_APLL_CFG_RES_DEFVAL 0x00000000 +#define CRF_APB_APLL_CFG_RES_SHIFT 0 +#define CRF_APB_APLL_CFG_RES_MASK 0x0000000FU + +/*PLL charge pump control*/ +#undef CRF_APB_APLL_CFG_CP_DEFVAL +#undef CRF_APB_APLL_CFG_CP_SHIFT +#undef CRF_APB_APLL_CFG_CP_MASK +#define CRF_APB_APLL_CFG_CP_DEFVAL 0x00000000 +#define CRF_APB_APLL_CFG_CP_SHIFT 5 +#define CRF_APB_APLL_CFG_CP_MASK 0x000001E0U + +/*PLL loop filter high frequency capacitor control*/ +#undef CRF_APB_APLL_CFG_LFHF_DEFVAL +#undef CRF_APB_APLL_CFG_LFHF_SHIFT +#undef CRF_APB_APLL_CFG_LFHF_MASK +#define CRF_APB_APLL_CFG_LFHF_DEFVAL 0x00000000 +#define CRF_APB_APLL_CFG_LFHF_SHIFT 10 +#define CRF_APB_APLL_CFG_LFHF_MASK 0x00000C00U + +/*Lock circuit counter setting*/ +#undef CRF_APB_APLL_CFG_LOCK_CNT_DEFVAL +#undef CRF_APB_APLL_CFG_LOCK_CNT_SHIFT +#undef CRF_APB_APLL_CFG_LOCK_CNT_MASK +#define CRF_APB_APLL_CFG_LOCK_CNT_DEFVAL 0x00000000 +#define CRF_APB_APLL_CFG_LOCK_CNT_SHIFT 13 +#define CRF_APB_APLL_CFG_LOCK_CNT_MASK 0x007FE000U + +/*Lock circuit configuration settings for lock windowsize*/ +#undef CRF_APB_APLL_CFG_LOCK_DLY_DEFVAL +#undef CRF_APB_APLL_CFG_LOCK_DLY_SHIFT +#undef CRF_APB_APLL_CFG_LOCK_DLY_MASK +#define CRF_APB_APLL_CFG_LOCK_DLY_DEFVAL 0x00000000 +#define CRF_APB_APLL_CFG_LOCK_DLY_SHIFT 25 +#define CRF_APB_APLL_CFG_LOCK_DLY_MASK 0xFE000000U + +/*Mux select for determining which clock feeds this PLL. 0XX pss_ref_clk is the source 100 video clk is the source 101 pss_alt_ + ef_clk is the source 110 aux_refclk[X] is the source 111 gt_crx_ref_clk is the source*/ +#undef CRF_APB_APLL_CTRL_PRE_SRC_DEFVAL +#undef CRF_APB_APLL_CTRL_PRE_SRC_SHIFT +#undef CRF_APB_APLL_CTRL_PRE_SRC_MASK +#define CRF_APB_APLL_CTRL_PRE_SRC_DEFVAL 0x00012C09 +#define CRF_APB_APLL_CTRL_PRE_SRC_SHIFT 20 +#define CRF_APB_APLL_CTRL_PRE_SRC_MASK 0x00700000U + +/*The integer portion of the feedback divider to the PLL*/ +#undef CRF_APB_APLL_CTRL_FBDIV_DEFVAL +#undef CRF_APB_APLL_CTRL_FBDIV_SHIFT +#undef CRF_APB_APLL_CTRL_FBDIV_MASK +#define CRF_APB_APLL_CTRL_FBDIV_DEFVAL 0x00012C09 +#define CRF_APB_APLL_CTRL_FBDIV_SHIFT 8 +#define CRF_APB_APLL_CTRL_FBDIV_MASK 0x00007F00U + +/*This turns on the divide by 2 that is inside of the PLL. This does not change the VCO frequency, just the output frequency*/ +#undef CRF_APB_APLL_CTRL_DIV2_DEFVAL +#undef CRF_APB_APLL_CTRL_DIV2_SHIFT +#undef CRF_APB_APLL_CTRL_DIV2_MASK +#define CRF_APB_APLL_CTRL_DIV2_DEFVAL 0x00012C09 +#define CRF_APB_APLL_CTRL_DIV2_SHIFT 16 +#define CRF_APB_APLL_CTRL_DIV2_MASK 0x00010000U + +/*Bypasses the PLL clock. The usable clock will be determined from the POST_SRC field. (This signal may only be toggled after 4 + cycles of the old clock and 4 cycles of the new clock. This is not usually an issue, but designers must be aware.)*/ +#undef CRF_APB_APLL_CTRL_BYPASS_DEFVAL +#undef CRF_APB_APLL_CTRL_BYPASS_SHIFT +#undef CRF_APB_APLL_CTRL_BYPASS_MASK +#define CRF_APB_APLL_CTRL_BYPASS_DEFVAL 0x00012C09 +#define CRF_APB_APLL_CTRL_BYPASS_SHIFT 3 +#define CRF_APB_APLL_CTRL_BYPASS_MASK 0x00000008U + +/*Asserts Reset to the PLL. When asserting reset, the PLL must already be in BYPASS.*/ +#undef CRF_APB_APLL_CTRL_RESET_DEFVAL +#undef CRF_APB_APLL_CTRL_RESET_SHIFT +#undef CRF_APB_APLL_CTRL_RESET_MASK +#define CRF_APB_APLL_CTRL_RESET_DEFVAL 0x00012C09 +#define CRF_APB_APLL_CTRL_RESET_SHIFT 0 +#define CRF_APB_APLL_CTRL_RESET_MASK 0x00000001U + +/*Asserts Reset to the PLL. When asserting reset, the PLL must already be in BYPASS.*/ +#undef CRF_APB_APLL_CTRL_RESET_DEFVAL +#undef CRF_APB_APLL_CTRL_RESET_SHIFT +#undef CRF_APB_APLL_CTRL_RESET_MASK +#define CRF_APB_APLL_CTRL_RESET_DEFVAL 0x00012C09 +#define CRF_APB_APLL_CTRL_RESET_SHIFT 0 +#define CRF_APB_APLL_CTRL_RESET_MASK 0x00000001U + +/*APLL is locked*/ +#undef CRF_APB_PLL_STATUS_APLL_LOCK_DEFVAL +#undef CRF_APB_PLL_STATUS_APLL_LOCK_SHIFT +#undef CRF_APB_PLL_STATUS_APLL_LOCK_MASK +#define CRF_APB_PLL_STATUS_APLL_LOCK_DEFVAL 0x00000038 +#define CRF_APB_PLL_STATUS_APLL_LOCK_SHIFT 0 +#define CRF_APB_PLL_STATUS_APLL_LOCK_MASK 0x00000001U +#define CRF_APB_PLL_STATUS_OFFSET 0XFD1A0044 + +/*Bypasses the PLL clock. The usable clock will be determined from the POST_SRC field. (This signal may only be toggled after 4 + cycles of the old clock and 4 cycles of the new clock. This is not usually an issue, but designers must be aware.)*/ +#undef CRF_APB_APLL_CTRL_BYPASS_DEFVAL +#undef CRF_APB_APLL_CTRL_BYPASS_SHIFT +#undef CRF_APB_APLL_CTRL_BYPASS_MASK +#define CRF_APB_APLL_CTRL_BYPASS_DEFVAL 0x00012C09 +#define CRF_APB_APLL_CTRL_BYPASS_SHIFT 3 +#define CRF_APB_APLL_CTRL_BYPASS_MASK 0x00000008U + +/*Divisor value for this clock.*/ +#undef CRF_APB_APLL_TO_LPD_CTRL_DIVISOR0_DEFVAL +#undef CRF_APB_APLL_TO_LPD_CTRL_DIVISOR0_SHIFT +#undef CRF_APB_APLL_TO_LPD_CTRL_DIVISOR0_MASK +#define CRF_APB_APLL_TO_LPD_CTRL_DIVISOR0_DEFVAL 0x00000400 +#define CRF_APB_APLL_TO_LPD_CTRL_DIVISOR0_SHIFT 8 +#define CRF_APB_APLL_TO_LPD_CTRL_DIVISOR0_MASK 0x00003F00U + +/*Fractional SDM bypass control. When 0, PLL is in integer mode and it ignores all fractional data. When 1, PLL is in fractiona + mode and uses DATA of this register for the fractional portion of the feedback divider.*/ +#undef CRF_APB_APLL_FRAC_CFG_ENABLED_DEFVAL +#undef CRF_APB_APLL_FRAC_CFG_ENABLED_SHIFT +#undef CRF_APB_APLL_FRAC_CFG_ENABLED_MASK +#define CRF_APB_APLL_FRAC_CFG_ENABLED_DEFVAL 0x00000000 +#define CRF_APB_APLL_FRAC_CFG_ENABLED_SHIFT 31 +#define CRF_APB_APLL_FRAC_CFG_ENABLED_MASK 0x80000000U + +/*Fractional value for the Feedback value.*/ +#undef CRF_APB_APLL_FRAC_CFG_DATA_DEFVAL +#undef CRF_APB_APLL_FRAC_CFG_DATA_SHIFT +#undef CRF_APB_APLL_FRAC_CFG_DATA_MASK +#define CRF_APB_APLL_FRAC_CFG_DATA_DEFVAL 0x00000000 +#define CRF_APB_APLL_FRAC_CFG_DATA_SHIFT 0 +#define CRF_APB_APLL_FRAC_CFG_DATA_MASK 0x0000FFFFU + +/*PLL loop filter resistor control*/ +#undef CRF_APB_DPLL_CFG_RES_DEFVAL +#undef CRF_APB_DPLL_CFG_RES_SHIFT +#undef CRF_APB_DPLL_CFG_RES_MASK +#define CRF_APB_DPLL_CFG_RES_DEFVAL 0x00000000 +#define CRF_APB_DPLL_CFG_RES_SHIFT 0 +#define CRF_APB_DPLL_CFG_RES_MASK 0x0000000FU + +/*PLL charge pump control*/ +#undef CRF_APB_DPLL_CFG_CP_DEFVAL +#undef CRF_APB_DPLL_CFG_CP_SHIFT +#undef CRF_APB_DPLL_CFG_CP_MASK +#define CRF_APB_DPLL_CFG_CP_DEFVAL 0x00000000 +#define CRF_APB_DPLL_CFG_CP_SHIFT 5 +#define CRF_APB_DPLL_CFG_CP_MASK 0x000001E0U + +/*PLL loop filter high frequency capacitor control*/ +#undef CRF_APB_DPLL_CFG_LFHF_DEFVAL +#undef CRF_APB_DPLL_CFG_LFHF_SHIFT +#undef CRF_APB_DPLL_CFG_LFHF_MASK +#define CRF_APB_DPLL_CFG_LFHF_DEFVAL 0x00000000 +#define CRF_APB_DPLL_CFG_LFHF_SHIFT 10 +#define CRF_APB_DPLL_CFG_LFHF_MASK 0x00000C00U + +/*Lock circuit counter setting*/ +#undef CRF_APB_DPLL_CFG_LOCK_CNT_DEFVAL +#undef CRF_APB_DPLL_CFG_LOCK_CNT_SHIFT +#undef CRF_APB_DPLL_CFG_LOCK_CNT_MASK +#define CRF_APB_DPLL_CFG_LOCK_CNT_DEFVAL 0x00000000 +#define CRF_APB_DPLL_CFG_LOCK_CNT_SHIFT 13 +#define CRF_APB_DPLL_CFG_LOCK_CNT_MASK 0x007FE000U + +/*Lock circuit configuration settings for lock windowsize*/ +#undef CRF_APB_DPLL_CFG_LOCK_DLY_DEFVAL +#undef CRF_APB_DPLL_CFG_LOCK_DLY_SHIFT +#undef CRF_APB_DPLL_CFG_LOCK_DLY_MASK +#define CRF_APB_DPLL_CFG_LOCK_DLY_DEFVAL 0x00000000 +#define CRF_APB_DPLL_CFG_LOCK_DLY_SHIFT 25 +#define CRF_APB_DPLL_CFG_LOCK_DLY_MASK 0xFE000000U + +/*Mux select for determining which clock feeds this PLL. 0XX pss_ref_clk is the source 100 video clk is the source 101 pss_alt_ + ef_clk is the source 110 aux_refclk[X] is the source 111 gt_crx_ref_clk is the source*/ +#undef CRF_APB_DPLL_CTRL_PRE_SRC_DEFVAL +#undef CRF_APB_DPLL_CTRL_PRE_SRC_SHIFT +#undef CRF_APB_DPLL_CTRL_PRE_SRC_MASK +#define CRF_APB_DPLL_CTRL_PRE_SRC_DEFVAL 0x00002C09 +#define CRF_APB_DPLL_CTRL_PRE_SRC_SHIFT 20 +#define CRF_APB_DPLL_CTRL_PRE_SRC_MASK 0x00700000U + +/*The integer portion of the feedback divider to the PLL*/ +#undef CRF_APB_DPLL_CTRL_FBDIV_DEFVAL +#undef CRF_APB_DPLL_CTRL_FBDIV_SHIFT +#undef CRF_APB_DPLL_CTRL_FBDIV_MASK +#define CRF_APB_DPLL_CTRL_FBDIV_DEFVAL 0x00002C09 +#define CRF_APB_DPLL_CTRL_FBDIV_SHIFT 8 +#define CRF_APB_DPLL_CTRL_FBDIV_MASK 0x00007F00U + +/*This turns on the divide by 2 that is inside of the PLL. This does not change the VCO frequency, just the output frequency*/ +#undef CRF_APB_DPLL_CTRL_DIV2_DEFVAL +#undef CRF_APB_DPLL_CTRL_DIV2_SHIFT +#undef CRF_APB_DPLL_CTRL_DIV2_MASK +#define CRF_APB_DPLL_CTRL_DIV2_DEFVAL 0x00002C09 +#define CRF_APB_DPLL_CTRL_DIV2_SHIFT 16 +#define CRF_APB_DPLL_CTRL_DIV2_MASK 0x00010000U + +/*Bypasses the PLL clock. The usable clock will be determined from the POST_SRC field. (This signal may only be toggled after 4 + cycles of the old clock and 4 cycles of the new clock. This is not usually an issue, but designers must be aware.)*/ +#undef CRF_APB_DPLL_CTRL_BYPASS_DEFVAL +#undef CRF_APB_DPLL_CTRL_BYPASS_SHIFT +#undef CRF_APB_DPLL_CTRL_BYPASS_MASK +#define CRF_APB_DPLL_CTRL_BYPASS_DEFVAL 0x00002C09 +#define CRF_APB_DPLL_CTRL_BYPASS_SHIFT 3 +#define CRF_APB_DPLL_CTRL_BYPASS_MASK 0x00000008U + +/*Asserts Reset to the PLL. When asserting reset, the PLL must already be in BYPASS.*/ +#undef CRF_APB_DPLL_CTRL_RESET_DEFVAL +#undef CRF_APB_DPLL_CTRL_RESET_SHIFT +#undef CRF_APB_DPLL_CTRL_RESET_MASK +#define CRF_APB_DPLL_CTRL_RESET_DEFVAL 0x00002C09 +#define CRF_APB_DPLL_CTRL_RESET_SHIFT 0 +#define CRF_APB_DPLL_CTRL_RESET_MASK 0x00000001U + +/*Asserts Reset to the PLL. When asserting reset, the PLL must already be in BYPASS.*/ +#undef CRF_APB_DPLL_CTRL_RESET_DEFVAL +#undef CRF_APB_DPLL_CTRL_RESET_SHIFT +#undef CRF_APB_DPLL_CTRL_RESET_MASK +#define CRF_APB_DPLL_CTRL_RESET_DEFVAL 0x00002C09 +#define CRF_APB_DPLL_CTRL_RESET_SHIFT 0 +#define CRF_APB_DPLL_CTRL_RESET_MASK 0x00000001U + +/*DPLL is locked*/ +#undef CRF_APB_PLL_STATUS_DPLL_LOCK_DEFVAL +#undef CRF_APB_PLL_STATUS_DPLL_LOCK_SHIFT +#undef CRF_APB_PLL_STATUS_DPLL_LOCK_MASK +#define CRF_APB_PLL_STATUS_DPLL_LOCK_DEFVAL 0x00000038 +#define CRF_APB_PLL_STATUS_DPLL_LOCK_SHIFT 1 +#define CRF_APB_PLL_STATUS_DPLL_LOCK_MASK 0x00000002U +#define CRF_APB_PLL_STATUS_OFFSET 0XFD1A0044 + +/*Bypasses the PLL clock. The usable clock will be determined from the POST_SRC field. (This signal may only be toggled after 4 + cycles of the old clock and 4 cycles of the new clock. This is not usually an issue, but designers must be aware.)*/ +#undef CRF_APB_DPLL_CTRL_BYPASS_DEFVAL +#undef CRF_APB_DPLL_CTRL_BYPASS_SHIFT +#undef CRF_APB_DPLL_CTRL_BYPASS_MASK +#define CRF_APB_DPLL_CTRL_BYPASS_DEFVAL 0x00002C09 +#define CRF_APB_DPLL_CTRL_BYPASS_SHIFT 3 +#define CRF_APB_DPLL_CTRL_BYPASS_MASK 0x00000008U + +/*Divisor value for this clock.*/ +#undef CRF_APB_DPLL_TO_LPD_CTRL_DIVISOR0_DEFVAL +#undef CRF_APB_DPLL_TO_LPD_CTRL_DIVISOR0_SHIFT +#undef CRF_APB_DPLL_TO_LPD_CTRL_DIVISOR0_MASK +#define CRF_APB_DPLL_TO_LPD_CTRL_DIVISOR0_DEFVAL 0x00000400 +#define CRF_APB_DPLL_TO_LPD_CTRL_DIVISOR0_SHIFT 8 +#define CRF_APB_DPLL_TO_LPD_CTRL_DIVISOR0_MASK 0x00003F00U + +/*Fractional SDM bypass control. When 0, PLL is in integer mode and it ignores all fractional data. When 1, PLL is in fractiona + mode and uses DATA of this register for the fractional portion of the feedback divider.*/ +#undef CRF_APB_DPLL_FRAC_CFG_ENABLED_DEFVAL +#undef CRF_APB_DPLL_FRAC_CFG_ENABLED_SHIFT +#undef CRF_APB_DPLL_FRAC_CFG_ENABLED_MASK +#define CRF_APB_DPLL_FRAC_CFG_ENABLED_DEFVAL 0x00000000 +#define CRF_APB_DPLL_FRAC_CFG_ENABLED_SHIFT 31 +#define CRF_APB_DPLL_FRAC_CFG_ENABLED_MASK 0x80000000U + +/*Fractional value for the Feedback value.*/ +#undef CRF_APB_DPLL_FRAC_CFG_DATA_DEFVAL +#undef CRF_APB_DPLL_FRAC_CFG_DATA_SHIFT +#undef CRF_APB_DPLL_FRAC_CFG_DATA_MASK +#define CRF_APB_DPLL_FRAC_CFG_DATA_DEFVAL 0x00000000 +#define CRF_APB_DPLL_FRAC_CFG_DATA_SHIFT 0 +#define CRF_APB_DPLL_FRAC_CFG_DATA_MASK 0x0000FFFFU + +/*PLL loop filter resistor control*/ +#undef CRF_APB_VPLL_CFG_RES_DEFVAL +#undef CRF_APB_VPLL_CFG_RES_SHIFT +#undef CRF_APB_VPLL_CFG_RES_MASK +#define CRF_APB_VPLL_CFG_RES_DEFVAL 0x00000000 +#define CRF_APB_VPLL_CFG_RES_SHIFT 0 +#define CRF_APB_VPLL_CFG_RES_MASK 0x0000000FU + +/*PLL charge pump control*/ +#undef CRF_APB_VPLL_CFG_CP_DEFVAL +#undef CRF_APB_VPLL_CFG_CP_SHIFT +#undef CRF_APB_VPLL_CFG_CP_MASK +#define CRF_APB_VPLL_CFG_CP_DEFVAL 0x00000000 +#define CRF_APB_VPLL_CFG_CP_SHIFT 5 +#define CRF_APB_VPLL_CFG_CP_MASK 0x000001E0U + +/*PLL loop filter high frequency capacitor control*/ +#undef CRF_APB_VPLL_CFG_LFHF_DEFVAL +#undef CRF_APB_VPLL_CFG_LFHF_SHIFT +#undef CRF_APB_VPLL_CFG_LFHF_MASK +#define CRF_APB_VPLL_CFG_LFHF_DEFVAL 0x00000000 +#define CRF_APB_VPLL_CFG_LFHF_SHIFT 10 +#define CRF_APB_VPLL_CFG_LFHF_MASK 0x00000C00U + +/*Lock circuit counter setting*/ +#undef CRF_APB_VPLL_CFG_LOCK_CNT_DEFVAL +#undef CRF_APB_VPLL_CFG_LOCK_CNT_SHIFT +#undef CRF_APB_VPLL_CFG_LOCK_CNT_MASK +#define CRF_APB_VPLL_CFG_LOCK_CNT_DEFVAL 0x00000000 +#define CRF_APB_VPLL_CFG_LOCK_CNT_SHIFT 13 +#define CRF_APB_VPLL_CFG_LOCK_CNT_MASK 0x007FE000U + +/*Lock circuit configuration settings for lock windowsize*/ +#undef CRF_APB_VPLL_CFG_LOCK_DLY_DEFVAL +#undef CRF_APB_VPLL_CFG_LOCK_DLY_SHIFT +#undef CRF_APB_VPLL_CFG_LOCK_DLY_MASK +#define CRF_APB_VPLL_CFG_LOCK_DLY_DEFVAL 0x00000000 +#define CRF_APB_VPLL_CFG_LOCK_DLY_SHIFT 25 +#define CRF_APB_VPLL_CFG_LOCK_DLY_MASK 0xFE000000U + +/*Mux select for determining which clock feeds this PLL. 0XX pss_ref_clk is the source 100 video clk is the source 101 pss_alt_ + ef_clk is the source 110 aux_refclk[X] is the source 111 gt_crx_ref_clk is the source*/ +#undef CRF_APB_VPLL_CTRL_PRE_SRC_DEFVAL +#undef CRF_APB_VPLL_CTRL_PRE_SRC_SHIFT +#undef CRF_APB_VPLL_CTRL_PRE_SRC_MASK +#define CRF_APB_VPLL_CTRL_PRE_SRC_DEFVAL 0x00012809 +#define CRF_APB_VPLL_CTRL_PRE_SRC_SHIFT 20 +#define CRF_APB_VPLL_CTRL_PRE_SRC_MASK 0x00700000U + +/*The integer portion of the feedback divider to the PLL*/ +#undef CRF_APB_VPLL_CTRL_FBDIV_DEFVAL +#undef CRF_APB_VPLL_CTRL_FBDIV_SHIFT +#undef CRF_APB_VPLL_CTRL_FBDIV_MASK +#define CRF_APB_VPLL_CTRL_FBDIV_DEFVAL 0x00012809 +#define CRF_APB_VPLL_CTRL_FBDIV_SHIFT 8 +#define CRF_APB_VPLL_CTRL_FBDIV_MASK 0x00007F00U + +/*This turns on the divide by 2 that is inside of the PLL. This does not change the VCO frequency, just the output frequency*/ +#undef CRF_APB_VPLL_CTRL_DIV2_DEFVAL +#undef CRF_APB_VPLL_CTRL_DIV2_SHIFT +#undef CRF_APB_VPLL_CTRL_DIV2_MASK +#define CRF_APB_VPLL_CTRL_DIV2_DEFVAL 0x00012809 +#define CRF_APB_VPLL_CTRL_DIV2_SHIFT 16 +#define CRF_APB_VPLL_CTRL_DIV2_MASK 0x00010000U + +/*Bypasses the PLL clock. The usable clock will be determined from the POST_SRC field. (This signal may only be toggled after 4 + cycles of the old clock and 4 cycles of the new clock. This is not usually an issue, but designers must be aware.)*/ +#undef CRF_APB_VPLL_CTRL_BYPASS_DEFVAL +#undef CRF_APB_VPLL_CTRL_BYPASS_SHIFT +#undef CRF_APB_VPLL_CTRL_BYPASS_MASK +#define CRF_APB_VPLL_CTRL_BYPASS_DEFVAL 0x00012809 +#define CRF_APB_VPLL_CTRL_BYPASS_SHIFT 3 +#define CRF_APB_VPLL_CTRL_BYPASS_MASK 0x00000008U + +/*Asserts Reset to the PLL. When asserting reset, the PLL must already be in BYPASS.*/ +#undef CRF_APB_VPLL_CTRL_RESET_DEFVAL +#undef CRF_APB_VPLL_CTRL_RESET_SHIFT +#undef CRF_APB_VPLL_CTRL_RESET_MASK +#define CRF_APB_VPLL_CTRL_RESET_DEFVAL 0x00012809 +#define CRF_APB_VPLL_CTRL_RESET_SHIFT 0 +#define CRF_APB_VPLL_CTRL_RESET_MASK 0x00000001U + +/*Asserts Reset to the PLL. When asserting reset, the PLL must already be in BYPASS.*/ +#undef CRF_APB_VPLL_CTRL_RESET_DEFVAL +#undef CRF_APB_VPLL_CTRL_RESET_SHIFT +#undef CRF_APB_VPLL_CTRL_RESET_MASK +#define CRF_APB_VPLL_CTRL_RESET_DEFVAL 0x00012809 +#define CRF_APB_VPLL_CTRL_RESET_SHIFT 0 +#define CRF_APB_VPLL_CTRL_RESET_MASK 0x00000001U + +/*VPLL is locked*/ +#undef CRF_APB_PLL_STATUS_VPLL_LOCK_DEFVAL +#undef CRF_APB_PLL_STATUS_VPLL_LOCK_SHIFT +#undef CRF_APB_PLL_STATUS_VPLL_LOCK_MASK +#define CRF_APB_PLL_STATUS_VPLL_LOCK_DEFVAL 0x00000038 +#define CRF_APB_PLL_STATUS_VPLL_LOCK_SHIFT 2 +#define CRF_APB_PLL_STATUS_VPLL_LOCK_MASK 0x00000004U +#define CRF_APB_PLL_STATUS_OFFSET 0XFD1A0044 + +/*Bypasses the PLL clock. The usable clock will be determined from the POST_SRC field. (This signal may only be toggled after 4 + cycles of the old clock and 4 cycles of the new clock. This is not usually an issue, but designers must be aware.)*/ +#undef CRF_APB_VPLL_CTRL_BYPASS_DEFVAL +#undef CRF_APB_VPLL_CTRL_BYPASS_SHIFT +#undef CRF_APB_VPLL_CTRL_BYPASS_MASK +#define CRF_APB_VPLL_CTRL_BYPASS_DEFVAL 0x00012809 +#define CRF_APB_VPLL_CTRL_BYPASS_SHIFT 3 +#define CRF_APB_VPLL_CTRL_BYPASS_MASK 0x00000008U + +/*Divisor value for this clock.*/ +#undef CRF_APB_VPLL_TO_LPD_CTRL_DIVISOR0_DEFVAL +#undef CRF_APB_VPLL_TO_LPD_CTRL_DIVISOR0_SHIFT +#undef CRF_APB_VPLL_TO_LPD_CTRL_DIVISOR0_MASK +#define CRF_APB_VPLL_TO_LPD_CTRL_DIVISOR0_DEFVAL 0x00000400 +#define CRF_APB_VPLL_TO_LPD_CTRL_DIVISOR0_SHIFT 8 +#define CRF_APB_VPLL_TO_LPD_CTRL_DIVISOR0_MASK 0x00003F00U + +/*Fractional SDM bypass control. When 0, PLL is in integer mode and it ignores all fractional data. When 1, PLL is in fractiona + mode and uses DATA of this register for the fractional portion of the feedback divider.*/ +#undef CRF_APB_VPLL_FRAC_CFG_ENABLED_DEFVAL +#undef CRF_APB_VPLL_FRAC_CFG_ENABLED_SHIFT +#undef CRF_APB_VPLL_FRAC_CFG_ENABLED_MASK +#define CRF_APB_VPLL_FRAC_CFG_ENABLED_DEFVAL 0x00000000 +#define CRF_APB_VPLL_FRAC_CFG_ENABLED_SHIFT 31 +#define CRF_APB_VPLL_FRAC_CFG_ENABLED_MASK 0x80000000U + +/*Fractional value for the Feedback value.*/ +#undef CRF_APB_VPLL_FRAC_CFG_DATA_DEFVAL +#undef CRF_APB_VPLL_FRAC_CFG_DATA_SHIFT +#undef CRF_APB_VPLL_FRAC_CFG_DATA_MASK +#define CRF_APB_VPLL_FRAC_CFG_DATA_DEFVAL 0x00000000 +#define CRF_APB_VPLL_FRAC_CFG_DATA_SHIFT 0 +#define CRF_APB_VPLL_FRAC_CFG_DATA_MASK 0x0000FFFFU +#undef CRL_APB_GEM3_REF_CTRL_OFFSET +#define CRL_APB_GEM3_REF_CTRL_OFFSET 0XFF5E005C +#undef CRL_APB_USB0_BUS_REF_CTRL_OFFSET +#define CRL_APB_USB0_BUS_REF_CTRL_OFFSET 0XFF5E0060 +#undef CRL_APB_USB3_DUAL_REF_CTRL_OFFSET +#define CRL_APB_USB3_DUAL_REF_CTRL_OFFSET 0XFF5E004C +#undef CRL_APB_QSPI_REF_CTRL_OFFSET +#define CRL_APB_QSPI_REF_CTRL_OFFSET 0XFF5E0068 +#undef CRL_APB_SDIO1_REF_CTRL_OFFSET +#define CRL_APB_SDIO1_REF_CTRL_OFFSET 0XFF5E0070 +#undef IOU_SLCR_SDIO_CLK_CTRL_OFFSET +#define IOU_SLCR_SDIO_CLK_CTRL_OFFSET 0XFF18030C +#undef CRL_APB_UART0_REF_CTRL_OFFSET +#define CRL_APB_UART0_REF_CTRL_OFFSET 0XFF5E0074 +#undef CRL_APB_UART1_REF_CTRL_OFFSET +#define CRL_APB_UART1_REF_CTRL_OFFSET 0XFF5E0078 +#undef CRL_APB_I2C0_REF_CTRL_OFFSET +#define CRL_APB_I2C0_REF_CTRL_OFFSET 0XFF5E0120 +#undef CRL_APB_I2C1_REF_CTRL_OFFSET +#define CRL_APB_I2C1_REF_CTRL_OFFSET 0XFF5E0124 +#undef CRL_APB_CAN1_REF_CTRL_OFFSET +#define CRL_APB_CAN1_REF_CTRL_OFFSET 0XFF5E0088 +#undef CRL_APB_CPU_R5_CTRL_OFFSET +#define CRL_APB_CPU_R5_CTRL_OFFSET 0XFF5E0090 +#undef CRL_APB_IOU_SWITCH_CTRL_OFFSET +#define CRL_APB_IOU_SWITCH_CTRL_OFFSET 0XFF5E009C +#undef CRL_APB_PCAP_CTRL_OFFSET +#define CRL_APB_PCAP_CTRL_OFFSET 0XFF5E00A4 +#undef CRL_APB_LPD_SWITCH_CTRL_OFFSET +#define CRL_APB_LPD_SWITCH_CTRL_OFFSET 0XFF5E00A8 +#undef CRL_APB_LPD_LSBUS_CTRL_OFFSET +#define CRL_APB_LPD_LSBUS_CTRL_OFFSET 0XFF5E00AC +#undef CRL_APB_DBG_LPD_CTRL_OFFSET +#define CRL_APB_DBG_LPD_CTRL_OFFSET 0XFF5E00B0 +#undef CRL_APB_ADMA_REF_CTRL_OFFSET +#define CRL_APB_ADMA_REF_CTRL_OFFSET 0XFF5E00B8 +#undef CRL_APB_PL0_REF_CTRL_OFFSET +#define CRL_APB_PL0_REF_CTRL_OFFSET 0XFF5E00C0 +#undef CRL_APB_PL1_REF_CTRL_OFFSET +#define CRL_APB_PL1_REF_CTRL_OFFSET 0XFF5E00C4 +#undef CRL_APB_PL2_REF_CTRL_OFFSET +#define CRL_APB_PL2_REF_CTRL_OFFSET 0XFF5E00C8 +#undef CRL_APB_PL3_REF_CTRL_OFFSET +#define CRL_APB_PL3_REF_CTRL_OFFSET 0XFF5E00CC +#undef CRL_APB_AMS_REF_CTRL_OFFSET +#define CRL_APB_AMS_REF_CTRL_OFFSET 0XFF5E0108 +#undef CRL_APB_DLL_REF_CTRL_OFFSET +#define CRL_APB_DLL_REF_CTRL_OFFSET 0XFF5E0104 +#undef CRL_APB_TIMESTAMP_REF_CTRL_OFFSET +#define CRL_APB_TIMESTAMP_REF_CTRL_OFFSET 0XFF5E0128 +#undef CRF_APB_SATA_REF_CTRL_OFFSET +#define CRF_APB_SATA_REF_CTRL_OFFSET 0XFD1A00A0 +#undef CRF_APB_DP_VIDEO_REF_CTRL_OFFSET +#define CRF_APB_DP_VIDEO_REF_CTRL_OFFSET 0XFD1A0070 +#undef CRF_APB_DP_AUDIO_REF_CTRL_OFFSET +#define CRF_APB_DP_AUDIO_REF_CTRL_OFFSET 0XFD1A0074 +#undef CRF_APB_DP_STC_REF_CTRL_OFFSET +#define CRF_APB_DP_STC_REF_CTRL_OFFSET 0XFD1A007C +#undef CRF_APB_ACPU_CTRL_OFFSET +#define CRF_APB_ACPU_CTRL_OFFSET 0XFD1A0060 +#undef CRF_APB_DBG_TRACE_CTRL_OFFSET +#define CRF_APB_DBG_TRACE_CTRL_OFFSET 0XFD1A0064 +#undef CRF_APB_DBG_FPD_CTRL_OFFSET +#define CRF_APB_DBG_FPD_CTRL_OFFSET 0XFD1A0068 +#undef CRF_APB_DDR_CTRL_OFFSET +#define CRF_APB_DDR_CTRL_OFFSET 0XFD1A0080 +#undef CRF_APB_GPU_REF_CTRL_OFFSET +#define CRF_APB_GPU_REF_CTRL_OFFSET 0XFD1A0084 +#undef CRF_APB_GDMA_REF_CTRL_OFFSET +#define CRF_APB_GDMA_REF_CTRL_OFFSET 0XFD1A00B8 +#undef CRF_APB_DPDMA_REF_CTRL_OFFSET +#define CRF_APB_DPDMA_REF_CTRL_OFFSET 0XFD1A00BC +#undef CRF_APB_TOPSW_MAIN_CTRL_OFFSET +#define CRF_APB_TOPSW_MAIN_CTRL_OFFSET 0XFD1A00C0 +#undef CRF_APB_TOPSW_LSBUS_CTRL_OFFSET +#define CRF_APB_TOPSW_LSBUS_CTRL_OFFSET 0XFD1A00C4 +#undef CRF_APB_DBG_TSTMP_CTRL_OFFSET +#define CRF_APB_DBG_TSTMP_CTRL_OFFSET 0XFD1A00F8 +#undef IOU_SLCR_IOU_TTC_APB_CLK_OFFSET +#define IOU_SLCR_IOU_TTC_APB_CLK_OFFSET 0XFF180380 +#undef FPD_SLCR_WDT_CLK_SEL_OFFSET +#define FPD_SLCR_WDT_CLK_SEL_OFFSET 0XFD610100 +#undef IOU_SLCR_WDT_CLK_SEL_OFFSET +#define IOU_SLCR_WDT_CLK_SEL_OFFSET 0XFF180300 +#undef LPD_SLCR_CSUPMU_WDT_CLK_SEL_OFFSET +#define LPD_SLCR_CSUPMU_WDT_CLK_SEL_OFFSET 0XFF410050 + +/*Clock active for the RX channel*/ +#undef CRL_APB_GEM3_REF_CTRL_RX_CLKACT_DEFVAL +#undef CRL_APB_GEM3_REF_CTRL_RX_CLKACT_SHIFT +#undef CRL_APB_GEM3_REF_CTRL_RX_CLKACT_MASK +#define CRL_APB_GEM3_REF_CTRL_RX_CLKACT_DEFVAL 0x00002500 +#define CRL_APB_GEM3_REF_CTRL_RX_CLKACT_SHIFT 26 +#define CRL_APB_GEM3_REF_CTRL_RX_CLKACT_MASK 0x04000000U + +/*Clock active signal. Switch to 0 to disable the clock*/ +#undef CRL_APB_GEM3_REF_CTRL_CLKACT_DEFVAL +#undef CRL_APB_GEM3_REF_CTRL_CLKACT_SHIFT +#undef CRL_APB_GEM3_REF_CTRL_CLKACT_MASK +#define CRL_APB_GEM3_REF_CTRL_CLKACT_DEFVAL 0x00002500 +#define CRL_APB_GEM3_REF_CTRL_CLKACT_SHIFT 25 +#define CRL_APB_GEM3_REF_CTRL_CLKACT_MASK 0x02000000U + +/*6 bit divider*/ +#undef CRL_APB_GEM3_REF_CTRL_DIVISOR1_DEFVAL +#undef CRL_APB_GEM3_REF_CTRL_DIVISOR1_SHIFT +#undef CRL_APB_GEM3_REF_CTRL_DIVISOR1_MASK +#define CRL_APB_GEM3_REF_CTRL_DIVISOR1_DEFVAL 0x00002500 +#define CRL_APB_GEM3_REF_CTRL_DIVISOR1_SHIFT 16 +#define CRL_APB_GEM3_REF_CTRL_DIVISOR1_MASK 0x003F0000U + +/*6 bit divider*/ +#undef CRL_APB_GEM3_REF_CTRL_DIVISOR0_DEFVAL +#undef CRL_APB_GEM3_REF_CTRL_DIVISOR0_SHIFT +#undef CRL_APB_GEM3_REF_CTRL_DIVISOR0_MASK +#define CRL_APB_GEM3_REF_CTRL_DIVISOR0_DEFVAL 0x00002500 +#define CRL_APB_GEM3_REF_CTRL_DIVISOR0_SHIFT 8 +#define CRL_APB_GEM3_REF_CTRL_DIVISOR0_MASK 0x00003F00U + +/*000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + clock. This is not usually an issue, but designers must be aware.)*/ +#undef CRL_APB_GEM3_REF_CTRL_SRCSEL_DEFVAL +#undef CRL_APB_GEM3_REF_CTRL_SRCSEL_SHIFT +#undef CRL_APB_GEM3_REF_CTRL_SRCSEL_MASK +#define CRL_APB_GEM3_REF_CTRL_SRCSEL_DEFVAL 0x00002500 +#define CRL_APB_GEM3_REF_CTRL_SRCSEL_SHIFT 0 +#define CRL_APB_GEM3_REF_CTRL_SRCSEL_MASK 0x00000007U + +/*Clock active signal. Switch to 0 to disable the clock*/ +#undef CRL_APB_USB0_BUS_REF_CTRL_CLKACT_DEFVAL +#undef CRL_APB_USB0_BUS_REF_CTRL_CLKACT_SHIFT +#undef CRL_APB_USB0_BUS_REF_CTRL_CLKACT_MASK +#define CRL_APB_USB0_BUS_REF_CTRL_CLKACT_DEFVAL 0x00052000 +#define CRL_APB_USB0_BUS_REF_CTRL_CLKACT_SHIFT 25 +#define CRL_APB_USB0_BUS_REF_CTRL_CLKACT_MASK 0x02000000U + +/*6 bit divider*/ +#undef CRL_APB_USB0_BUS_REF_CTRL_DIVISOR1_DEFVAL +#undef CRL_APB_USB0_BUS_REF_CTRL_DIVISOR1_SHIFT +#undef CRL_APB_USB0_BUS_REF_CTRL_DIVISOR1_MASK +#define CRL_APB_USB0_BUS_REF_CTRL_DIVISOR1_DEFVAL 0x00052000 +#define CRL_APB_USB0_BUS_REF_CTRL_DIVISOR1_SHIFT 16 +#define CRL_APB_USB0_BUS_REF_CTRL_DIVISOR1_MASK 0x003F0000U + +/*6 bit divider*/ +#undef CRL_APB_USB0_BUS_REF_CTRL_DIVISOR0_DEFVAL +#undef CRL_APB_USB0_BUS_REF_CTRL_DIVISOR0_SHIFT +#undef CRL_APB_USB0_BUS_REF_CTRL_DIVISOR0_MASK +#define CRL_APB_USB0_BUS_REF_CTRL_DIVISOR0_DEFVAL 0x00052000 +#define CRL_APB_USB0_BUS_REF_CTRL_DIVISOR0_SHIFT 8 +#define CRL_APB_USB0_BUS_REF_CTRL_DIVISOR0_MASK 0x00003F00U + +/*000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + clock. This is not usually an issue, but designers must be aware.)*/ +#undef CRL_APB_USB0_BUS_REF_CTRL_SRCSEL_DEFVAL +#undef CRL_APB_USB0_BUS_REF_CTRL_SRCSEL_SHIFT +#undef CRL_APB_USB0_BUS_REF_CTRL_SRCSEL_MASK +#define CRL_APB_USB0_BUS_REF_CTRL_SRCSEL_DEFVAL 0x00052000 +#define CRL_APB_USB0_BUS_REF_CTRL_SRCSEL_SHIFT 0 +#define CRL_APB_USB0_BUS_REF_CTRL_SRCSEL_MASK 0x00000007U + +/*Clock active signal. Switch to 0 to disable the clock*/ +#undef CRL_APB_USB3_DUAL_REF_CTRL_CLKACT_DEFVAL +#undef CRL_APB_USB3_DUAL_REF_CTRL_CLKACT_SHIFT +#undef CRL_APB_USB3_DUAL_REF_CTRL_CLKACT_MASK +#define CRL_APB_USB3_DUAL_REF_CTRL_CLKACT_DEFVAL 0x00052000 +#define CRL_APB_USB3_DUAL_REF_CTRL_CLKACT_SHIFT 25 +#define CRL_APB_USB3_DUAL_REF_CTRL_CLKACT_MASK 0x02000000U + +/*6 bit divider*/ +#undef CRL_APB_USB3_DUAL_REF_CTRL_DIVISOR1_DEFVAL +#undef CRL_APB_USB3_DUAL_REF_CTRL_DIVISOR1_SHIFT +#undef CRL_APB_USB3_DUAL_REF_CTRL_DIVISOR1_MASK +#define CRL_APB_USB3_DUAL_REF_CTRL_DIVISOR1_DEFVAL 0x00052000 +#define CRL_APB_USB3_DUAL_REF_CTRL_DIVISOR1_SHIFT 16 +#define CRL_APB_USB3_DUAL_REF_CTRL_DIVISOR1_MASK 0x003F0000U + +/*6 bit divider*/ +#undef CRL_APB_USB3_DUAL_REF_CTRL_DIVISOR0_DEFVAL +#undef CRL_APB_USB3_DUAL_REF_CTRL_DIVISOR0_SHIFT +#undef CRL_APB_USB3_DUAL_REF_CTRL_DIVISOR0_MASK +#define CRL_APB_USB3_DUAL_REF_CTRL_DIVISOR0_DEFVAL 0x00052000 +#define CRL_APB_USB3_DUAL_REF_CTRL_DIVISOR0_SHIFT 8 +#define CRL_APB_USB3_DUAL_REF_CTRL_DIVISOR0_MASK 0x00003F00U + +/*000 = IOPLL; 010 = RPLL; 011 = DPLL. (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + clock. This is not usually an issue, but designers must be aware.)*/ +#undef CRL_APB_USB3_DUAL_REF_CTRL_SRCSEL_DEFVAL +#undef CRL_APB_USB3_DUAL_REF_CTRL_SRCSEL_SHIFT +#undef CRL_APB_USB3_DUAL_REF_CTRL_SRCSEL_MASK +#define CRL_APB_USB3_DUAL_REF_CTRL_SRCSEL_DEFVAL 0x00052000 +#define CRL_APB_USB3_DUAL_REF_CTRL_SRCSEL_SHIFT 0 +#define CRL_APB_USB3_DUAL_REF_CTRL_SRCSEL_MASK 0x00000007U + +/*Clock active signal. Switch to 0 to disable the clock*/ +#undef CRL_APB_QSPI_REF_CTRL_CLKACT_DEFVAL +#undef CRL_APB_QSPI_REF_CTRL_CLKACT_SHIFT +#undef CRL_APB_QSPI_REF_CTRL_CLKACT_MASK +#define CRL_APB_QSPI_REF_CTRL_CLKACT_DEFVAL 0x01000800 +#define CRL_APB_QSPI_REF_CTRL_CLKACT_SHIFT 24 +#define CRL_APB_QSPI_REF_CTRL_CLKACT_MASK 0x01000000U + +/*6 bit divider*/ +#undef CRL_APB_QSPI_REF_CTRL_DIVISOR1_DEFVAL +#undef CRL_APB_QSPI_REF_CTRL_DIVISOR1_SHIFT +#undef CRL_APB_QSPI_REF_CTRL_DIVISOR1_MASK +#define CRL_APB_QSPI_REF_CTRL_DIVISOR1_DEFVAL 0x01000800 +#define CRL_APB_QSPI_REF_CTRL_DIVISOR1_SHIFT 16 +#define CRL_APB_QSPI_REF_CTRL_DIVISOR1_MASK 0x003F0000U + +/*6 bit divider*/ +#undef CRL_APB_QSPI_REF_CTRL_DIVISOR0_DEFVAL +#undef CRL_APB_QSPI_REF_CTRL_DIVISOR0_SHIFT +#undef CRL_APB_QSPI_REF_CTRL_DIVISOR0_MASK +#define CRL_APB_QSPI_REF_CTRL_DIVISOR0_DEFVAL 0x01000800 +#define CRL_APB_QSPI_REF_CTRL_DIVISOR0_SHIFT 8 +#define CRL_APB_QSPI_REF_CTRL_DIVISOR0_MASK 0x00003F00U + +/*000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + clock. This is not usually an issue, but designers must be aware.)*/ +#undef CRL_APB_QSPI_REF_CTRL_SRCSEL_DEFVAL +#undef CRL_APB_QSPI_REF_CTRL_SRCSEL_SHIFT +#undef CRL_APB_QSPI_REF_CTRL_SRCSEL_MASK +#define CRL_APB_QSPI_REF_CTRL_SRCSEL_DEFVAL 0x01000800 +#define CRL_APB_QSPI_REF_CTRL_SRCSEL_SHIFT 0 +#define CRL_APB_QSPI_REF_CTRL_SRCSEL_MASK 0x00000007U + +/*Clock active signal. Switch to 0 to disable the clock*/ +#undef CRL_APB_SDIO1_REF_CTRL_CLKACT_DEFVAL +#undef CRL_APB_SDIO1_REF_CTRL_CLKACT_SHIFT +#undef CRL_APB_SDIO1_REF_CTRL_CLKACT_MASK +#define CRL_APB_SDIO1_REF_CTRL_CLKACT_DEFVAL 0x01000F00 +#define CRL_APB_SDIO1_REF_CTRL_CLKACT_SHIFT 24 +#define CRL_APB_SDIO1_REF_CTRL_CLKACT_MASK 0x01000000U + +/*6 bit divider*/ +#undef CRL_APB_SDIO1_REF_CTRL_DIVISOR1_DEFVAL +#undef CRL_APB_SDIO1_REF_CTRL_DIVISOR1_SHIFT +#undef CRL_APB_SDIO1_REF_CTRL_DIVISOR1_MASK +#define CRL_APB_SDIO1_REF_CTRL_DIVISOR1_DEFVAL 0x01000F00 +#define CRL_APB_SDIO1_REF_CTRL_DIVISOR1_SHIFT 16 +#define CRL_APB_SDIO1_REF_CTRL_DIVISOR1_MASK 0x003F0000U + +/*6 bit divider*/ +#undef CRL_APB_SDIO1_REF_CTRL_DIVISOR0_DEFVAL +#undef CRL_APB_SDIO1_REF_CTRL_DIVISOR0_SHIFT +#undef CRL_APB_SDIO1_REF_CTRL_DIVISOR0_MASK +#define CRL_APB_SDIO1_REF_CTRL_DIVISOR0_DEFVAL 0x01000F00 +#define CRL_APB_SDIO1_REF_CTRL_DIVISOR0_SHIFT 8 +#define CRL_APB_SDIO1_REF_CTRL_DIVISOR0_MASK 0x00003F00U + +/*000 = IOPLL; 010 = RPLL; 011 = VPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + clock. This is not usually an issue, but designers must be aware.)*/ +#undef CRL_APB_SDIO1_REF_CTRL_SRCSEL_DEFVAL +#undef CRL_APB_SDIO1_REF_CTRL_SRCSEL_SHIFT +#undef CRL_APB_SDIO1_REF_CTRL_SRCSEL_MASK +#define CRL_APB_SDIO1_REF_CTRL_SRCSEL_DEFVAL 0x01000F00 +#define CRL_APB_SDIO1_REF_CTRL_SRCSEL_SHIFT 0 +#define CRL_APB_SDIO1_REF_CTRL_SRCSEL_MASK 0x00000007U + +/*MIO pad selection for sdio1_rx_clk (feedback clock from the PAD) 0: MIO [51] 1: MIO [76]*/ +#undef IOU_SLCR_SDIO_CLK_CTRL_SDIO1_RX_SRC_SEL_DEFVAL +#undef IOU_SLCR_SDIO_CLK_CTRL_SDIO1_RX_SRC_SEL_SHIFT +#undef IOU_SLCR_SDIO_CLK_CTRL_SDIO1_RX_SRC_SEL_MASK +#define IOU_SLCR_SDIO_CLK_CTRL_SDIO1_RX_SRC_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_SDIO_CLK_CTRL_SDIO1_RX_SRC_SEL_SHIFT 17 +#define IOU_SLCR_SDIO_CLK_CTRL_SDIO1_RX_SRC_SEL_MASK 0x00020000U + +/*Clock active signal. Switch to 0 to disable the clock*/ +#undef CRL_APB_UART0_REF_CTRL_CLKACT_DEFVAL +#undef CRL_APB_UART0_REF_CTRL_CLKACT_SHIFT +#undef CRL_APB_UART0_REF_CTRL_CLKACT_MASK +#define CRL_APB_UART0_REF_CTRL_CLKACT_DEFVAL 0x01001800 +#define CRL_APB_UART0_REF_CTRL_CLKACT_SHIFT 24 +#define CRL_APB_UART0_REF_CTRL_CLKACT_MASK 0x01000000U + +/*6 bit divider*/ +#undef CRL_APB_UART0_REF_CTRL_DIVISOR1_DEFVAL +#undef CRL_APB_UART0_REF_CTRL_DIVISOR1_SHIFT +#undef CRL_APB_UART0_REF_CTRL_DIVISOR1_MASK +#define CRL_APB_UART0_REF_CTRL_DIVISOR1_DEFVAL 0x01001800 +#define CRL_APB_UART0_REF_CTRL_DIVISOR1_SHIFT 16 +#define CRL_APB_UART0_REF_CTRL_DIVISOR1_MASK 0x003F0000U + +/*6 bit divider*/ +#undef CRL_APB_UART0_REF_CTRL_DIVISOR0_DEFVAL +#undef CRL_APB_UART0_REF_CTRL_DIVISOR0_SHIFT +#undef CRL_APB_UART0_REF_CTRL_DIVISOR0_MASK +#define CRL_APB_UART0_REF_CTRL_DIVISOR0_DEFVAL 0x01001800 +#define CRL_APB_UART0_REF_CTRL_DIVISOR0_SHIFT 8 +#define CRL_APB_UART0_REF_CTRL_DIVISOR0_MASK 0x00003F00U + +/*000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + clock. This is not usually an issue, but designers must be aware.)*/ +#undef CRL_APB_UART0_REF_CTRL_SRCSEL_DEFVAL +#undef CRL_APB_UART0_REF_CTRL_SRCSEL_SHIFT +#undef CRL_APB_UART0_REF_CTRL_SRCSEL_MASK +#define CRL_APB_UART0_REF_CTRL_SRCSEL_DEFVAL 0x01001800 +#define CRL_APB_UART0_REF_CTRL_SRCSEL_SHIFT 0 +#define CRL_APB_UART0_REF_CTRL_SRCSEL_MASK 0x00000007U + +/*Clock active signal. Switch to 0 to disable the clock*/ +#undef CRL_APB_UART1_REF_CTRL_CLKACT_DEFVAL +#undef CRL_APB_UART1_REF_CTRL_CLKACT_SHIFT +#undef CRL_APB_UART1_REF_CTRL_CLKACT_MASK +#define CRL_APB_UART1_REF_CTRL_CLKACT_DEFVAL 0x01001800 +#define CRL_APB_UART1_REF_CTRL_CLKACT_SHIFT 24 +#define CRL_APB_UART1_REF_CTRL_CLKACT_MASK 0x01000000U + +/*6 bit divider*/ +#undef CRL_APB_UART1_REF_CTRL_DIVISOR1_DEFVAL +#undef CRL_APB_UART1_REF_CTRL_DIVISOR1_SHIFT +#undef CRL_APB_UART1_REF_CTRL_DIVISOR1_MASK +#define CRL_APB_UART1_REF_CTRL_DIVISOR1_DEFVAL 0x01001800 +#define CRL_APB_UART1_REF_CTRL_DIVISOR1_SHIFT 16 +#define CRL_APB_UART1_REF_CTRL_DIVISOR1_MASK 0x003F0000U + +/*6 bit divider*/ +#undef CRL_APB_UART1_REF_CTRL_DIVISOR0_DEFVAL +#undef CRL_APB_UART1_REF_CTRL_DIVISOR0_SHIFT +#undef CRL_APB_UART1_REF_CTRL_DIVISOR0_MASK +#define CRL_APB_UART1_REF_CTRL_DIVISOR0_DEFVAL 0x01001800 +#define CRL_APB_UART1_REF_CTRL_DIVISOR0_SHIFT 8 +#define CRL_APB_UART1_REF_CTRL_DIVISOR0_MASK 0x00003F00U + +/*000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + clock. This is not usually an issue, but designers must be aware.)*/ +#undef CRL_APB_UART1_REF_CTRL_SRCSEL_DEFVAL +#undef CRL_APB_UART1_REF_CTRL_SRCSEL_SHIFT +#undef CRL_APB_UART1_REF_CTRL_SRCSEL_MASK +#define CRL_APB_UART1_REF_CTRL_SRCSEL_DEFVAL 0x01001800 +#define CRL_APB_UART1_REF_CTRL_SRCSEL_SHIFT 0 +#define CRL_APB_UART1_REF_CTRL_SRCSEL_MASK 0x00000007U + +/*Clock active signal. Switch to 0 to disable the clock*/ +#undef CRL_APB_I2C0_REF_CTRL_CLKACT_DEFVAL +#undef CRL_APB_I2C0_REF_CTRL_CLKACT_SHIFT +#undef CRL_APB_I2C0_REF_CTRL_CLKACT_MASK +#define CRL_APB_I2C0_REF_CTRL_CLKACT_DEFVAL 0x01000500 +#define CRL_APB_I2C0_REF_CTRL_CLKACT_SHIFT 24 +#define CRL_APB_I2C0_REF_CTRL_CLKACT_MASK 0x01000000U + +/*6 bit divider*/ +#undef CRL_APB_I2C0_REF_CTRL_DIVISOR1_DEFVAL +#undef CRL_APB_I2C0_REF_CTRL_DIVISOR1_SHIFT +#undef CRL_APB_I2C0_REF_CTRL_DIVISOR1_MASK +#define CRL_APB_I2C0_REF_CTRL_DIVISOR1_DEFVAL 0x01000500 +#define CRL_APB_I2C0_REF_CTRL_DIVISOR1_SHIFT 16 +#define CRL_APB_I2C0_REF_CTRL_DIVISOR1_MASK 0x003F0000U + +/*6 bit divider*/ +#undef CRL_APB_I2C0_REF_CTRL_DIVISOR0_DEFVAL +#undef CRL_APB_I2C0_REF_CTRL_DIVISOR0_SHIFT +#undef CRL_APB_I2C0_REF_CTRL_DIVISOR0_MASK +#define CRL_APB_I2C0_REF_CTRL_DIVISOR0_DEFVAL 0x01000500 +#define CRL_APB_I2C0_REF_CTRL_DIVISOR0_SHIFT 8 +#define CRL_APB_I2C0_REF_CTRL_DIVISOR0_MASK 0x00003F00U + +/*000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + clock. This is not usually an issue, but designers must be aware.)*/ +#undef CRL_APB_I2C0_REF_CTRL_SRCSEL_DEFVAL +#undef CRL_APB_I2C0_REF_CTRL_SRCSEL_SHIFT +#undef CRL_APB_I2C0_REF_CTRL_SRCSEL_MASK +#define CRL_APB_I2C0_REF_CTRL_SRCSEL_DEFVAL 0x01000500 +#define CRL_APB_I2C0_REF_CTRL_SRCSEL_SHIFT 0 +#define CRL_APB_I2C0_REF_CTRL_SRCSEL_MASK 0x00000007U + +/*Clock active signal. Switch to 0 to disable the clock*/ +#undef CRL_APB_I2C1_REF_CTRL_CLKACT_DEFVAL +#undef CRL_APB_I2C1_REF_CTRL_CLKACT_SHIFT +#undef CRL_APB_I2C1_REF_CTRL_CLKACT_MASK +#define CRL_APB_I2C1_REF_CTRL_CLKACT_DEFVAL 0x01000500 +#define CRL_APB_I2C1_REF_CTRL_CLKACT_SHIFT 24 +#define CRL_APB_I2C1_REF_CTRL_CLKACT_MASK 0x01000000U + +/*6 bit divider*/ +#undef CRL_APB_I2C1_REF_CTRL_DIVISOR1_DEFVAL +#undef CRL_APB_I2C1_REF_CTRL_DIVISOR1_SHIFT +#undef CRL_APB_I2C1_REF_CTRL_DIVISOR1_MASK +#define CRL_APB_I2C1_REF_CTRL_DIVISOR1_DEFVAL 0x01000500 +#define CRL_APB_I2C1_REF_CTRL_DIVISOR1_SHIFT 16 +#define CRL_APB_I2C1_REF_CTRL_DIVISOR1_MASK 0x003F0000U + +/*6 bit divider*/ +#undef CRL_APB_I2C1_REF_CTRL_DIVISOR0_DEFVAL +#undef CRL_APB_I2C1_REF_CTRL_DIVISOR0_SHIFT +#undef CRL_APB_I2C1_REF_CTRL_DIVISOR0_MASK +#define CRL_APB_I2C1_REF_CTRL_DIVISOR0_DEFVAL 0x01000500 +#define CRL_APB_I2C1_REF_CTRL_DIVISOR0_SHIFT 8 +#define CRL_APB_I2C1_REF_CTRL_DIVISOR0_MASK 0x00003F00U + +/*000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + clock. This is not usually an issue, but designers must be aware.)*/ +#undef CRL_APB_I2C1_REF_CTRL_SRCSEL_DEFVAL +#undef CRL_APB_I2C1_REF_CTRL_SRCSEL_SHIFT +#undef CRL_APB_I2C1_REF_CTRL_SRCSEL_MASK +#define CRL_APB_I2C1_REF_CTRL_SRCSEL_DEFVAL 0x01000500 +#define CRL_APB_I2C1_REF_CTRL_SRCSEL_SHIFT 0 +#define CRL_APB_I2C1_REF_CTRL_SRCSEL_MASK 0x00000007U + +/*Clock active signal. Switch to 0 to disable the clock*/ +#undef CRL_APB_CAN1_REF_CTRL_CLKACT_DEFVAL +#undef CRL_APB_CAN1_REF_CTRL_CLKACT_SHIFT +#undef CRL_APB_CAN1_REF_CTRL_CLKACT_MASK +#define CRL_APB_CAN1_REF_CTRL_CLKACT_DEFVAL 0x01001800 +#define CRL_APB_CAN1_REF_CTRL_CLKACT_SHIFT 24 +#define CRL_APB_CAN1_REF_CTRL_CLKACT_MASK 0x01000000U + +/*6 bit divider*/ +#undef CRL_APB_CAN1_REF_CTRL_DIVISOR1_DEFVAL +#undef CRL_APB_CAN1_REF_CTRL_DIVISOR1_SHIFT +#undef CRL_APB_CAN1_REF_CTRL_DIVISOR1_MASK +#define CRL_APB_CAN1_REF_CTRL_DIVISOR1_DEFVAL 0x01001800 +#define CRL_APB_CAN1_REF_CTRL_DIVISOR1_SHIFT 16 +#define CRL_APB_CAN1_REF_CTRL_DIVISOR1_MASK 0x003F0000U + +/*6 bit divider*/ +#undef CRL_APB_CAN1_REF_CTRL_DIVISOR0_DEFVAL +#undef CRL_APB_CAN1_REF_CTRL_DIVISOR0_SHIFT +#undef CRL_APB_CAN1_REF_CTRL_DIVISOR0_MASK +#define CRL_APB_CAN1_REF_CTRL_DIVISOR0_DEFVAL 0x01001800 +#define CRL_APB_CAN1_REF_CTRL_DIVISOR0_SHIFT 8 +#define CRL_APB_CAN1_REF_CTRL_DIVISOR0_MASK 0x00003F00U + +/*000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + clock. This is not usually an issue, but designers must be aware.)*/ +#undef CRL_APB_CAN1_REF_CTRL_SRCSEL_DEFVAL +#undef CRL_APB_CAN1_REF_CTRL_SRCSEL_SHIFT +#undef CRL_APB_CAN1_REF_CTRL_SRCSEL_MASK +#define CRL_APB_CAN1_REF_CTRL_SRCSEL_DEFVAL 0x01001800 +#define CRL_APB_CAN1_REF_CTRL_SRCSEL_SHIFT 0 +#define CRL_APB_CAN1_REF_CTRL_SRCSEL_MASK 0x00000007U + +/*Turing this off will shut down the OCM, some parts of the APM, and prevent transactions going from the FPD to the LPD and cou + d lead to system hang*/ +#undef CRL_APB_CPU_R5_CTRL_CLKACT_DEFVAL +#undef CRL_APB_CPU_R5_CTRL_CLKACT_SHIFT +#undef CRL_APB_CPU_R5_CTRL_CLKACT_MASK +#define CRL_APB_CPU_R5_CTRL_CLKACT_DEFVAL 0x03000600 +#define CRL_APB_CPU_R5_CTRL_CLKACT_SHIFT 24 +#define CRL_APB_CPU_R5_CTRL_CLKACT_MASK 0x01000000U + +/*6 bit divider*/ +#undef CRL_APB_CPU_R5_CTRL_DIVISOR0_DEFVAL +#undef CRL_APB_CPU_R5_CTRL_DIVISOR0_SHIFT +#undef CRL_APB_CPU_R5_CTRL_DIVISOR0_MASK +#define CRL_APB_CPU_R5_CTRL_DIVISOR0_DEFVAL 0x03000600 +#define CRL_APB_CPU_R5_CTRL_DIVISOR0_SHIFT 8 +#define CRL_APB_CPU_R5_CTRL_DIVISOR0_MASK 0x00003F00U + +/*000 = RPLL; 010 = IOPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + clock. This is not usually an issue, but designers must be aware.)*/ +#undef CRL_APB_CPU_R5_CTRL_SRCSEL_DEFVAL +#undef CRL_APB_CPU_R5_CTRL_SRCSEL_SHIFT +#undef CRL_APB_CPU_R5_CTRL_SRCSEL_MASK +#define CRL_APB_CPU_R5_CTRL_SRCSEL_DEFVAL 0x03000600 +#define CRL_APB_CPU_R5_CTRL_SRCSEL_SHIFT 0 +#define CRL_APB_CPU_R5_CTRL_SRCSEL_MASK 0x00000007U + +/*Clock active signal. Switch to 0 to disable the clock*/ +#undef CRL_APB_IOU_SWITCH_CTRL_CLKACT_DEFVAL +#undef CRL_APB_IOU_SWITCH_CTRL_CLKACT_SHIFT +#undef CRL_APB_IOU_SWITCH_CTRL_CLKACT_MASK +#define CRL_APB_IOU_SWITCH_CTRL_CLKACT_DEFVAL 0x00001500 +#define CRL_APB_IOU_SWITCH_CTRL_CLKACT_SHIFT 24 +#define CRL_APB_IOU_SWITCH_CTRL_CLKACT_MASK 0x01000000U + +/*6 bit divider*/ +#undef CRL_APB_IOU_SWITCH_CTRL_DIVISOR0_DEFVAL +#undef CRL_APB_IOU_SWITCH_CTRL_DIVISOR0_SHIFT +#undef CRL_APB_IOU_SWITCH_CTRL_DIVISOR0_MASK +#define CRL_APB_IOU_SWITCH_CTRL_DIVISOR0_DEFVAL 0x00001500 +#define CRL_APB_IOU_SWITCH_CTRL_DIVISOR0_SHIFT 8 +#define CRL_APB_IOU_SWITCH_CTRL_DIVISOR0_MASK 0x00003F00U + +/*000 = RPLL; 010 = IOPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + clock. This is not usually an issue, but designers must be aware.)*/ +#undef CRL_APB_IOU_SWITCH_CTRL_SRCSEL_DEFVAL +#undef CRL_APB_IOU_SWITCH_CTRL_SRCSEL_SHIFT +#undef CRL_APB_IOU_SWITCH_CTRL_SRCSEL_MASK +#define CRL_APB_IOU_SWITCH_CTRL_SRCSEL_DEFVAL 0x00001500 +#define CRL_APB_IOU_SWITCH_CTRL_SRCSEL_SHIFT 0 +#define CRL_APB_IOU_SWITCH_CTRL_SRCSEL_MASK 0x00000007U + +/*Clock active signal. Switch to 0 to disable the clock*/ +#undef CRL_APB_PCAP_CTRL_CLKACT_DEFVAL +#undef CRL_APB_PCAP_CTRL_CLKACT_SHIFT +#undef CRL_APB_PCAP_CTRL_CLKACT_MASK +#define CRL_APB_PCAP_CTRL_CLKACT_DEFVAL 0x00001500 +#define CRL_APB_PCAP_CTRL_CLKACT_SHIFT 24 +#define CRL_APB_PCAP_CTRL_CLKACT_MASK 0x01000000U + +/*6 bit divider*/ +#undef CRL_APB_PCAP_CTRL_DIVISOR0_DEFVAL +#undef CRL_APB_PCAP_CTRL_DIVISOR0_SHIFT +#undef CRL_APB_PCAP_CTRL_DIVISOR0_MASK +#define CRL_APB_PCAP_CTRL_DIVISOR0_DEFVAL 0x00001500 +#define CRL_APB_PCAP_CTRL_DIVISOR0_SHIFT 8 +#define CRL_APB_PCAP_CTRL_DIVISOR0_MASK 0x00003F00U + +/*000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + clock. This is not usually an issue, but designers must be aware.)*/ +#undef CRL_APB_PCAP_CTRL_SRCSEL_DEFVAL +#undef CRL_APB_PCAP_CTRL_SRCSEL_SHIFT +#undef CRL_APB_PCAP_CTRL_SRCSEL_MASK +#define CRL_APB_PCAP_CTRL_SRCSEL_DEFVAL 0x00001500 +#define CRL_APB_PCAP_CTRL_SRCSEL_SHIFT 0 +#define CRL_APB_PCAP_CTRL_SRCSEL_MASK 0x00000007U + +/*Clock active signal. Switch to 0 to disable the clock*/ +#undef CRL_APB_LPD_SWITCH_CTRL_CLKACT_DEFVAL +#undef CRL_APB_LPD_SWITCH_CTRL_CLKACT_SHIFT +#undef CRL_APB_LPD_SWITCH_CTRL_CLKACT_MASK +#define CRL_APB_LPD_SWITCH_CTRL_CLKACT_DEFVAL 0x01000500 +#define CRL_APB_LPD_SWITCH_CTRL_CLKACT_SHIFT 24 +#define CRL_APB_LPD_SWITCH_CTRL_CLKACT_MASK 0x01000000U + +/*6 bit divider*/ +#undef CRL_APB_LPD_SWITCH_CTRL_DIVISOR0_DEFVAL +#undef CRL_APB_LPD_SWITCH_CTRL_DIVISOR0_SHIFT +#undef CRL_APB_LPD_SWITCH_CTRL_DIVISOR0_MASK +#define CRL_APB_LPD_SWITCH_CTRL_DIVISOR0_DEFVAL 0x01000500 +#define CRL_APB_LPD_SWITCH_CTRL_DIVISOR0_SHIFT 8 +#define CRL_APB_LPD_SWITCH_CTRL_DIVISOR0_MASK 0x00003F00U + +/*000 = RPLL; 010 = IOPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + clock. This is not usually an issue, but designers must be aware.)*/ +#undef CRL_APB_LPD_SWITCH_CTRL_SRCSEL_DEFVAL +#undef CRL_APB_LPD_SWITCH_CTRL_SRCSEL_SHIFT +#undef CRL_APB_LPD_SWITCH_CTRL_SRCSEL_MASK +#define CRL_APB_LPD_SWITCH_CTRL_SRCSEL_DEFVAL 0x01000500 +#define CRL_APB_LPD_SWITCH_CTRL_SRCSEL_SHIFT 0 +#define CRL_APB_LPD_SWITCH_CTRL_SRCSEL_MASK 0x00000007U + +/*Clock active signal. Switch to 0 to disable the clock*/ +#undef CRL_APB_LPD_LSBUS_CTRL_CLKACT_DEFVAL +#undef CRL_APB_LPD_LSBUS_CTRL_CLKACT_SHIFT +#undef CRL_APB_LPD_LSBUS_CTRL_CLKACT_MASK +#define CRL_APB_LPD_LSBUS_CTRL_CLKACT_DEFVAL 0x01001800 +#define CRL_APB_LPD_LSBUS_CTRL_CLKACT_SHIFT 24 +#define CRL_APB_LPD_LSBUS_CTRL_CLKACT_MASK 0x01000000U + +/*6 bit divider*/ +#undef CRL_APB_LPD_LSBUS_CTRL_DIVISOR0_DEFVAL +#undef CRL_APB_LPD_LSBUS_CTRL_DIVISOR0_SHIFT +#undef CRL_APB_LPD_LSBUS_CTRL_DIVISOR0_MASK +#define CRL_APB_LPD_LSBUS_CTRL_DIVISOR0_DEFVAL 0x01001800 +#define CRL_APB_LPD_LSBUS_CTRL_DIVISOR0_SHIFT 8 +#define CRL_APB_LPD_LSBUS_CTRL_DIVISOR0_MASK 0x00003F00U + +/*000 = RPLL; 010 = IOPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + clock. This is not usually an issue, but designers must be aware.)*/ +#undef CRL_APB_LPD_LSBUS_CTRL_SRCSEL_DEFVAL +#undef CRL_APB_LPD_LSBUS_CTRL_SRCSEL_SHIFT +#undef CRL_APB_LPD_LSBUS_CTRL_SRCSEL_MASK +#define CRL_APB_LPD_LSBUS_CTRL_SRCSEL_DEFVAL 0x01001800 +#define CRL_APB_LPD_LSBUS_CTRL_SRCSEL_SHIFT 0 +#define CRL_APB_LPD_LSBUS_CTRL_SRCSEL_MASK 0x00000007U + +/*Clock active signal. Switch to 0 to disable the clock*/ +#undef CRL_APB_DBG_LPD_CTRL_CLKACT_DEFVAL +#undef CRL_APB_DBG_LPD_CTRL_CLKACT_SHIFT +#undef CRL_APB_DBG_LPD_CTRL_CLKACT_MASK +#define CRL_APB_DBG_LPD_CTRL_CLKACT_DEFVAL 0x01002000 +#define CRL_APB_DBG_LPD_CTRL_CLKACT_SHIFT 24 +#define CRL_APB_DBG_LPD_CTRL_CLKACT_MASK 0x01000000U + +/*6 bit divider*/ +#undef CRL_APB_DBG_LPD_CTRL_DIVISOR0_DEFVAL +#undef CRL_APB_DBG_LPD_CTRL_DIVISOR0_SHIFT +#undef CRL_APB_DBG_LPD_CTRL_DIVISOR0_MASK +#define CRL_APB_DBG_LPD_CTRL_DIVISOR0_DEFVAL 0x01002000 +#define CRL_APB_DBG_LPD_CTRL_DIVISOR0_SHIFT 8 +#define CRL_APB_DBG_LPD_CTRL_DIVISOR0_MASK 0x00003F00U + +/*000 = RPLL; 010 = IOPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + clock. This is not usually an issue, but designers must be aware.)*/ +#undef CRL_APB_DBG_LPD_CTRL_SRCSEL_DEFVAL +#undef CRL_APB_DBG_LPD_CTRL_SRCSEL_SHIFT +#undef CRL_APB_DBG_LPD_CTRL_SRCSEL_MASK +#define CRL_APB_DBG_LPD_CTRL_SRCSEL_DEFVAL 0x01002000 +#define CRL_APB_DBG_LPD_CTRL_SRCSEL_SHIFT 0 +#define CRL_APB_DBG_LPD_CTRL_SRCSEL_MASK 0x00000007U + +/*Clock active signal. Switch to 0 to disable the clock*/ +#undef CRL_APB_ADMA_REF_CTRL_CLKACT_DEFVAL +#undef CRL_APB_ADMA_REF_CTRL_CLKACT_SHIFT +#undef CRL_APB_ADMA_REF_CTRL_CLKACT_MASK +#define CRL_APB_ADMA_REF_CTRL_CLKACT_DEFVAL 0x00002000 +#define CRL_APB_ADMA_REF_CTRL_CLKACT_SHIFT 24 +#define CRL_APB_ADMA_REF_CTRL_CLKACT_MASK 0x01000000U + +/*6 bit divider*/ +#undef CRL_APB_ADMA_REF_CTRL_DIVISOR0_DEFVAL +#undef CRL_APB_ADMA_REF_CTRL_DIVISOR0_SHIFT +#undef CRL_APB_ADMA_REF_CTRL_DIVISOR0_MASK +#define CRL_APB_ADMA_REF_CTRL_DIVISOR0_DEFVAL 0x00002000 +#define CRL_APB_ADMA_REF_CTRL_DIVISOR0_SHIFT 8 +#define CRL_APB_ADMA_REF_CTRL_DIVISOR0_MASK 0x00003F00U + +/*000 = RPLL; 010 = IOPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + clock. This is not usually an issue, but designers must be aware.)*/ +#undef CRL_APB_ADMA_REF_CTRL_SRCSEL_DEFVAL +#undef CRL_APB_ADMA_REF_CTRL_SRCSEL_SHIFT +#undef CRL_APB_ADMA_REF_CTRL_SRCSEL_MASK +#define CRL_APB_ADMA_REF_CTRL_SRCSEL_DEFVAL 0x00002000 +#define CRL_APB_ADMA_REF_CTRL_SRCSEL_SHIFT 0 +#define CRL_APB_ADMA_REF_CTRL_SRCSEL_MASK 0x00000007U + +/*Clock active signal. Switch to 0 to disable the clock*/ +#undef CRL_APB_PL0_REF_CTRL_CLKACT_DEFVAL +#undef CRL_APB_PL0_REF_CTRL_CLKACT_SHIFT +#undef CRL_APB_PL0_REF_CTRL_CLKACT_MASK +#define CRL_APB_PL0_REF_CTRL_CLKACT_DEFVAL 0x00052000 +#define CRL_APB_PL0_REF_CTRL_CLKACT_SHIFT 24 +#define CRL_APB_PL0_REF_CTRL_CLKACT_MASK 0x01000000U + +/*6 bit divider*/ +#undef CRL_APB_PL0_REF_CTRL_DIVISOR1_DEFVAL +#undef CRL_APB_PL0_REF_CTRL_DIVISOR1_SHIFT +#undef CRL_APB_PL0_REF_CTRL_DIVISOR1_MASK +#define CRL_APB_PL0_REF_CTRL_DIVISOR1_DEFVAL 0x00052000 +#define CRL_APB_PL0_REF_CTRL_DIVISOR1_SHIFT 16 +#define CRL_APB_PL0_REF_CTRL_DIVISOR1_MASK 0x003F0000U + +/*6 bit divider*/ +#undef CRL_APB_PL0_REF_CTRL_DIVISOR0_DEFVAL +#undef CRL_APB_PL0_REF_CTRL_DIVISOR0_SHIFT +#undef CRL_APB_PL0_REF_CTRL_DIVISOR0_MASK +#define CRL_APB_PL0_REF_CTRL_DIVISOR0_DEFVAL 0x00052000 +#define CRL_APB_PL0_REF_CTRL_DIVISOR0_SHIFT 8 +#define CRL_APB_PL0_REF_CTRL_DIVISOR0_MASK 0x00003F00U + +/*000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + clock. This is not usually an issue, but designers must be aware.)*/ +#undef CRL_APB_PL0_REF_CTRL_SRCSEL_DEFVAL +#undef CRL_APB_PL0_REF_CTRL_SRCSEL_SHIFT +#undef CRL_APB_PL0_REF_CTRL_SRCSEL_MASK +#define CRL_APB_PL0_REF_CTRL_SRCSEL_DEFVAL 0x00052000 +#define CRL_APB_PL0_REF_CTRL_SRCSEL_SHIFT 0 +#define CRL_APB_PL0_REF_CTRL_SRCSEL_MASK 0x00000007U + +/*Clock active signal. Switch to 0 to disable the clock*/ +#undef CRL_APB_PL1_REF_CTRL_CLKACT_DEFVAL +#undef CRL_APB_PL1_REF_CTRL_CLKACT_SHIFT +#undef CRL_APB_PL1_REF_CTRL_CLKACT_MASK +#define CRL_APB_PL1_REF_CTRL_CLKACT_DEFVAL 0x00052000 +#define CRL_APB_PL1_REF_CTRL_CLKACT_SHIFT 24 +#define CRL_APB_PL1_REF_CTRL_CLKACT_MASK 0x01000000U + +/*6 bit divider*/ +#undef CRL_APB_PL1_REF_CTRL_DIVISOR1_DEFVAL +#undef CRL_APB_PL1_REF_CTRL_DIVISOR1_SHIFT +#undef CRL_APB_PL1_REF_CTRL_DIVISOR1_MASK +#define CRL_APB_PL1_REF_CTRL_DIVISOR1_DEFVAL 0x00052000 +#define CRL_APB_PL1_REF_CTRL_DIVISOR1_SHIFT 16 +#define CRL_APB_PL1_REF_CTRL_DIVISOR1_MASK 0x003F0000U + +/*6 bit divider*/ +#undef CRL_APB_PL1_REF_CTRL_DIVISOR0_DEFVAL +#undef CRL_APB_PL1_REF_CTRL_DIVISOR0_SHIFT +#undef CRL_APB_PL1_REF_CTRL_DIVISOR0_MASK +#define CRL_APB_PL1_REF_CTRL_DIVISOR0_DEFVAL 0x00052000 +#define CRL_APB_PL1_REF_CTRL_DIVISOR0_SHIFT 8 +#define CRL_APB_PL1_REF_CTRL_DIVISOR0_MASK 0x00003F00U + +/*000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + clock. This is not usually an issue, but designers must be aware.)*/ +#undef CRL_APB_PL1_REF_CTRL_SRCSEL_DEFVAL +#undef CRL_APB_PL1_REF_CTRL_SRCSEL_SHIFT +#undef CRL_APB_PL1_REF_CTRL_SRCSEL_MASK +#define CRL_APB_PL1_REF_CTRL_SRCSEL_DEFVAL 0x00052000 +#define CRL_APB_PL1_REF_CTRL_SRCSEL_SHIFT 0 +#define CRL_APB_PL1_REF_CTRL_SRCSEL_MASK 0x00000007U + +/*Clock active signal. Switch to 0 to disable the clock*/ +#undef CRL_APB_PL2_REF_CTRL_CLKACT_DEFVAL +#undef CRL_APB_PL2_REF_CTRL_CLKACT_SHIFT +#undef CRL_APB_PL2_REF_CTRL_CLKACT_MASK +#define CRL_APB_PL2_REF_CTRL_CLKACT_DEFVAL 0x00052000 +#define CRL_APB_PL2_REF_CTRL_CLKACT_SHIFT 24 +#define CRL_APB_PL2_REF_CTRL_CLKACT_MASK 0x01000000U + +/*6 bit divider*/ +#undef CRL_APB_PL2_REF_CTRL_DIVISOR1_DEFVAL +#undef CRL_APB_PL2_REF_CTRL_DIVISOR1_SHIFT +#undef CRL_APB_PL2_REF_CTRL_DIVISOR1_MASK +#define CRL_APB_PL2_REF_CTRL_DIVISOR1_DEFVAL 0x00052000 +#define CRL_APB_PL2_REF_CTRL_DIVISOR1_SHIFT 16 +#define CRL_APB_PL2_REF_CTRL_DIVISOR1_MASK 0x003F0000U + +/*6 bit divider*/ +#undef CRL_APB_PL2_REF_CTRL_DIVISOR0_DEFVAL +#undef CRL_APB_PL2_REF_CTRL_DIVISOR0_SHIFT +#undef CRL_APB_PL2_REF_CTRL_DIVISOR0_MASK +#define CRL_APB_PL2_REF_CTRL_DIVISOR0_DEFVAL 0x00052000 +#define CRL_APB_PL2_REF_CTRL_DIVISOR0_SHIFT 8 +#define CRL_APB_PL2_REF_CTRL_DIVISOR0_MASK 0x00003F00U + +/*000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + clock. This is not usually an issue, but designers must be aware.)*/ +#undef CRL_APB_PL2_REF_CTRL_SRCSEL_DEFVAL +#undef CRL_APB_PL2_REF_CTRL_SRCSEL_SHIFT +#undef CRL_APB_PL2_REF_CTRL_SRCSEL_MASK +#define CRL_APB_PL2_REF_CTRL_SRCSEL_DEFVAL 0x00052000 +#define CRL_APB_PL2_REF_CTRL_SRCSEL_SHIFT 0 +#define CRL_APB_PL2_REF_CTRL_SRCSEL_MASK 0x00000007U + +/*Clock active signal. Switch to 0 to disable the clock*/ +#undef CRL_APB_PL3_REF_CTRL_CLKACT_DEFVAL +#undef CRL_APB_PL3_REF_CTRL_CLKACT_SHIFT +#undef CRL_APB_PL3_REF_CTRL_CLKACT_MASK +#define CRL_APB_PL3_REF_CTRL_CLKACT_DEFVAL 0x00052000 +#define CRL_APB_PL3_REF_CTRL_CLKACT_SHIFT 24 +#define CRL_APB_PL3_REF_CTRL_CLKACT_MASK 0x01000000U + +/*6 bit divider*/ +#undef CRL_APB_PL3_REF_CTRL_DIVISOR1_DEFVAL +#undef CRL_APB_PL3_REF_CTRL_DIVISOR1_SHIFT +#undef CRL_APB_PL3_REF_CTRL_DIVISOR1_MASK +#define CRL_APB_PL3_REF_CTRL_DIVISOR1_DEFVAL 0x00052000 +#define CRL_APB_PL3_REF_CTRL_DIVISOR1_SHIFT 16 +#define CRL_APB_PL3_REF_CTRL_DIVISOR1_MASK 0x003F0000U + +/*6 bit divider*/ +#undef CRL_APB_PL3_REF_CTRL_DIVISOR0_DEFVAL +#undef CRL_APB_PL3_REF_CTRL_DIVISOR0_SHIFT +#undef CRL_APB_PL3_REF_CTRL_DIVISOR0_MASK +#define CRL_APB_PL3_REF_CTRL_DIVISOR0_DEFVAL 0x00052000 +#define CRL_APB_PL3_REF_CTRL_DIVISOR0_SHIFT 8 +#define CRL_APB_PL3_REF_CTRL_DIVISOR0_MASK 0x00003F00U + +/*000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + clock. This is not usually an issue, but designers must be aware.)*/ +#undef CRL_APB_PL3_REF_CTRL_SRCSEL_DEFVAL +#undef CRL_APB_PL3_REF_CTRL_SRCSEL_SHIFT +#undef CRL_APB_PL3_REF_CTRL_SRCSEL_MASK +#define CRL_APB_PL3_REF_CTRL_SRCSEL_DEFVAL 0x00052000 +#define CRL_APB_PL3_REF_CTRL_SRCSEL_SHIFT 0 +#define CRL_APB_PL3_REF_CTRL_SRCSEL_MASK 0x00000007U + +/*6 bit divider*/ +#undef CRL_APB_AMS_REF_CTRL_DIVISOR1_DEFVAL +#undef CRL_APB_AMS_REF_CTRL_DIVISOR1_SHIFT +#undef CRL_APB_AMS_REF_CTRL_DIVISOR1_MASK +#define CRL_APB_AMS_REF_CTRL_DIVISOR1_DEFVAL 0x01001800 +#define CRL_APB_AMS_REF_CTRL_DIVISOR1_SHIFT 16 +#define CRL_APB_AMS_REF_CTRL_DIVISOR1_MASK 0x003F0000U + +/*6 bit divider*/ +#undef CRL_APB_AMS_REF_CTRL_DIVISOR0_DEFVAL +#undef CRL_APB_AMS_REF_CTRL_DIVISOR0_SHIFT +#undef CRL_APB_AMS_REF_CTRL_DIVISOR0_MASK +#define CRL_APB_AMS_REF_CTRL_DIVISOR0_DEFVAL 0x01001800 +#define CRL_APB_AMS_REF_CTRL_DIVISOR0_SHIFT 8 +#define CRL_APB_AMS_REF_CTRL_DIVISOR0_MASK 0x00003F00U + +/*000 = RPLL; 010 = IOPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + clock. This is not usually an issue, but designers must be aware.)*/ +#undef CRL_APB_AMS_REF_CTRL_SRCSEL_DEFVAL +#undef CRL_APB_AMS_REF_CTRL_SRCSEL_SHIFT +#undef CRL_APB_AMS_REF_CTRL_SRCSEL_MASK +#define CRL_APB_AMS_REF_CTRL_SRCSEL_DEFVAL 0x01001800 +#define CRL_APB_AMS_REF_CTRL_SRCSEL_SHIFT 0 +#define CRL_APB_AMS_REF_CTRL_SRCSEL_MASK 0x00000007U + +/*Clock active signal. Switch to 0 to disable the clock*/ +#undef CRL_APB_AMS_REF_CTRL_CLKACT_DEFVAL +#undef CRL_APB_AMS_REF_CTRL_CLKACT_SHIFT +#undef CRL_APB_AMS_REF_CTRL_CLKACT_MASK +#define CRL_APB_AMS_REF_CTRL_CLKACT_DEFVAL 0x01001800 +#define CRL_APB_AMS_REF_CTRL_CLKACT_SHIFT 24 +#define CRL_APB_AMS_REF_CTRL_CLKACT_MASK 0x01000000U + +/*000 = IOPLL; 001 = RPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new clock. This + is not usually an issue, but designers must be aware.)*/ +#undef CRL_APB_DLL_REF_CTRL_SRCSEL_DEFVAL +#undef CRL_APB_DLL_REF_CTRL_SRCSEL_SHIFT +#undef CRL_APB_DLL_REF_CTRL_SRCSEL_MASK +#define CRL_APB_DLL_REF_CTRL_SRCSEL_DEFVAL 0x00000000 +#define CRL_APB_DLL_REF_CTRL_SRCSEL_SHIFT 0 +#define CRL_APB_DLL_REF_CTRL_SRCSEL_MASK 0x00000007U + +/*6 bit divider*/ +#undef CRL_APB_TIMESTAMP_REF_CTRL_DIVISOR0_DEFVAL +#undef CRL_APB_TIMESTAMP_REF_CTRL_DIVISOR0_SHIFT +#undef CRL_APB_TIMESTAMP_REF_CTRL_DIVISOR0_MASK +#define CRL_APB_TIMESTAMP_REF_CTRL_DIVISOR0_DEFVAL 0x00001800 +#define CRL_APB_TIMESTAMP_REF_CTRL_DIVISOR0_SHIFT 8 +#define CRL_APB_TIMESTAMP_REF_CTRL_DIVISOR0_MASK 0x00003F00U + +/*1XX = pss_ref_clk; 000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and + cycles of the new clock. This is not usually an issue, but designers must be aware.)*/ +#undef CRL_APB_TIMESTAMP_REF_CTRL_SRCSEL_DEFVAL +#undef CRL_APB_TIMESTAMP_REF_CTRL_SRCSEL_SHIFT +#undef CRL_APB_TIMESTAMP_REF_CTRL_SRCSEL_MASK +#define CRL_APB_TIMESTAMP_REF_CTRL_SRCSEL_DEFVAL 0x00001800 +#define CRL_APB_TIMESTAMP_REF_CTRL_SRCSEL_SHIFT 0 +#define CRL_APB_TIMESTAMP_REF_CTRL_SRCSEL_MASK 0x00000007U + +/*Clock active signal. Switch to 0 to disable the clock*/ +#undef CRL_APB_TIMESTAMP_REF_CTRL_CLKACT_DEFVAL +#undef CRL_APB_TIMESTAMP_REF_CTRL_CLKACT_SHIFT +#undef CRL_APB_TIMESTAMP_REF_CTRL_CLKACT_MASK +#define CRL_APB_TIMESTAMP_REF_CTRL_CLKACT_DEFVAL 0x00001800 +#define CRL_APB_TIMESTAMP_REF_CTRL_CLKACT_SHIFT 24 +#define CRL_APB_TIMESTAMP_REF_CTRL_CLKACT_MASK 0x01000000U + +/*000 = IOPLL_TO_FPD; 010 = APLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of + he new clock. This is not usually an issue, but designers must be aware.)*/ +#undef CRF_APB_SATA_REF_CTRL_SRCSEL_DEFVAL +#undef CRF_APB_SATA_REF_CTRL_SRCSEL_SHIFT +#undef CRF_APB_SATA_REF_CTRL_SRCSEL_MASK +#define CRF_APB_SATA_REF_CTRL_SRCSEL_DEFVAL 0x01001600 +#define CRF_APB_SATA_REF_CTRL_SRCSEL_SHIFT 0 +#define CRF_APB_SATA_REF_CTRL_SRCSEL_MASK 0x00000007U + +/*Clock active signal. Switch to 0 to disable the clock*/ +#undef CRF_APB_SATA_REF_CTRL_CLKACT_DEFVAL +#undef CRF_APB_SATA_REF_CTRL_CLKACT_SHIFT +#undef CRF_APB_SATA_REF_CTRL_CLKACT_MASK +#define CRF_APB_SATA_REF_CTRL_CLKACT_DEFVAL 0x01001600 +#define CRF_APB_SATA_REF_CTRL_CLKACT_SHIFT 24 +#define CRF_APB_SATA_REF_CTRL_CLKACT_MASK 0x01000000U + +/*6 bit divider*/ +#undef CRF_APB_SATA_REF_CTRL_DIVISOR0_DEFVAL +#undef CRF_APB_SATA_REF_CTRL_DIVISOR0_SHIFT +#undef CRF_APB_SATA_REF_CTRL_DIVISOR0_MASK +#define CRF_APB_SATA_REF_CTRL_DIVISOR0_DEFVAL 0x01001600 +#define CRF_APB_SATA_REF_CTRL_DIVISOR0_SHIFT 8 +#define CRF_APB_SATA_REF_CTRL_DIVISOR0_MASK 0x00003F00U + +/*6 bit divider*/ +#undef CRF_APB_DP_VIDEO_REF_CTRL_DIVISOR1_DEFVAL +#undef CRF_APB_DP_VIDEO_REF_CTRL_DIVISOR1_SHIFT +#undef CRF_APB_DP_VIDEO_REF_CTRL_DIVISOR1_MASK +#define CRF_APB_DP_VIDEO_REF_CTRL_DIVISOR1_DEFVAL 0x01002300 +#define CRF_APB_DP_VIDEO_REF_CTRL_DIVISOR1_SHIFT 16 +#define CRF_APB_DP_VIDEO_REF_CTRL_DIVISOR1_MASK 0x003F0000U + +/*6 bit divider*/ +#undef CRF_APB_DP_VIDEO_REF_CTRL_DIVISOR0_DEFVAL +#undef CRF_APB_DP_VIDEO_REF_CTRL_DIVISOR0_SHIFT +#undef CRF_APB_DP_VIDEO_REF_CTRL_DIVISOR0_MASK +#define CRF_APB_DP_VIDEO_REF_CTRL_DIVISOR0_DEFVAL 0x01002300 +#define CRF_APB_DP_VIDEO_REF_CTRL_DIVISOR0_SHIFT 8 +#define CRF_APB_DP_VIDEO_REF_CTRL_DIVISOR0_MASK 0x00003F00U + +/*000 = VPLL; 010 = DPLL; 011 = RPLL_TO_FPD - might be using extra mux; (This signal may only be toggled after 4 cycles of the + ld clock and 4 cycles of the new clock. This is not usually an issue, but designers must be aware.)*/ +#undef CRF_APB_DP_VIDEO_REF_CTRL_SRCSEL_DEFVAL +#undef CRF_APB_DP_VIDEO_REF_CTRL_SRCSEL_SHIFT +#undef CRF_APB_DP_VIDEO_REF_CTRL_SRCSEL_MASK +#define CRF_APB_DP_VIDEO_REF_CTRL_SRCSEL_DEFVAL 0x01002300 +#define CRF_APB_DP_VIDEO_REF_CTRL_SRCSEL_SHIFT 0 +#define CRF_APB_DP_VIDEO_REF_CTRL_SRCSEL_MASK 0x00000007U + +/*Clock active signal. Switch to 0 to disable the clock*/ +#undef CRF_APB_DP_VIDEO_REF_CTRL_CLKACT_DEFVAL +#undef CRF_APB_DP_VIDEO_REF_CTRL_CLKACT_SHIFT +#undef CRF_APB_DP_VIDEO_REF_CTRL_CLKACT_MASK +#define CRF_APB_DP_VIDEO_REF_CTRL_CLKACT_DEFVAL 0x01002300 +#define CRF_APB_DP_VIDEO_REF_CTRL_CLKACT_SHIFT 24 +#define CRF_APB_DP_VIDEO_REF_CTRL_CLKACT_MASK 0x01000000U + +/*6 bit divider*/ +#undef CRF_APB_DP_AUDIO_REF_CTRL_DIVISOR1_DEFVAL +#undef CRF_APB_DP_AUDIO_REF_CTRL_DIVISOR1_SHIFT +#undef CRF_APB_DP_AUDIO_REF_CTRL_DIVISOR1_MASK +#define CRF_APB_DP_AUDIO_REF_CTRL_DIVISOR1_DEFVAL 0x01032300 +#define CRF_APB_DP_AUDIO_REF_CTRL_DIVISOR1_SHIFT 16 +#define CRF_APB_DP_AUDIO_REF_CTRL_DIVISOR1_MASK 0x003F0000U + +/*6 bit divider*/ +#undef CRF_APB_DP_AUDIO_REF_CTRL_DIVISOR0_DEFVAL +#undef CRF_APB_DP_AUDIO_REF_CTRL_DIVISOR0_SHIFT +#undef CRF_APB_DP_AUDIO_REF_CTRL_DIVISOR0_MASK +#define CRF_APB_DP_AUDIO_REF_CTRL_DIVISOR0_DEFVAL 0x01032300 +#define CRF_APB_DP_AUDIO_REF_CTRL_DIVISOR0_SHIFT 8 +#define CRF_APB_DP_AUDIO_REF_CTRL_DIVISOR0_MASK 0x00003F00U + +/*000 = VPLL; 010 = DPLL; 011 = RPLL_TO_FPD - might be using extra mux; (This signal may only be toggled after 4 cycles of the + ld clock and 4 cycles of the new clock. This is not usually an issue, but designers must be aware.)*/ +#undef CRF_APB_DP_AUDIO_REF_CTRL_SRCSEL_DEFVAL +#undef CRF_APB_DP_AUDIO_REF_CTRL_SRCSEL_SHIFT +#undef CRF_APB_DP_AUDIO_REF_CTRL_SRCSEL_MASK +#define CRF_APB_DP_AUDIO_REF_CTRL_SRCSEL_DEFVAL 0x01032300 +#define CRF_APB_DP_AUDIO_REF_CTRL_SRCSEL_SHIFT 0 +#define CRF_APB_DP_AUDIO_REF_CTRL_SRCSEL_MASK 0x00000007U + +/*Clock active signal. Switch to 0 to disable the clock*/ +#undef CRF_APB_DP_AUDIO_REF_CTRL_CLKACT_DEFVAL +#undef CRF_APB_DP_AUDIO_REF_CTRL_CLKACT_SHIFT +#undef CRF_APB_DP_AUDIO_REF_CTRL_CLKACT_MASK +#define CRF_APB_DP_AUDIO_REF_CTRL_CLKACT_DEFVAL 0x01032300 +#define CRF_APB_DP_AUDIO_REF_CTRL_CLKACT_SHIFT 24 +#define CRF_APB_DP_AUDIO_REF_CTRL_CLKACT_MASK 0x01000000U + +/*6 bit divider*/ +#undef CRF_APB_DP_STC_REF_CTRL_DIVISOR1_DEFVAL +#undef CRF_APB_DP_STC_REF_CTRL_DIVISOR1_SHIFT +#undef CRF_APB_DP_STC_REF_CTRL_DIVISOR1_MASK +#define CRF_APB_DP_STC_REF_CTRL_DIVISOR1_DEFVAL 0x01203200 +#define CRF_APB_DP_STC_REF_CTRL_DIVISOR1_SHIFT 16 +#define CRF_APB_DP_STC_REF_CTRL_DIVISOR1_MASK 0x003F0000U + +/*6 bit divider*/ +#undef CRF_APB_DP_STC_REF_CTRL_DIVISOR0_DEFVAL +#undef CRF_APB_DP_STC_REF_CTRL_DIVISOR0_SHIFT +#undef CRF_APB_DP_STC_REF_CTRL_DIVISOR0_MASK +#define CRF_APB_DP_STC_REF_CTRL_DIVISOR0_DEFVAL 0x01203200 +#define CRF_APB_DP_STC_REF_CTRL_DIVISOR0_SHIFT 8 +#define CRF_APB_DP_STC_REF_CTRL_DIVISOR0_MASK 0x00003F00U + +/*000 = VPLL; 010 = DPLL; 011 = RPLL_TO_FPD; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of t + e new clock. This is not usually an issue, but designers must be aware.)*/ +#undef CRF_APB_DP_STC_REF_CTRL_SRCSEL_DEFVAL +#undef CRF_APB_DP_STC_REF_CTRL_SRCSEL_SHIFT +#undef CRF_APB_DP_STC_REF_CTRL_SRCSEL_MASK +#define CRF_APB_DP_STC_REF_CTRL_SRCSEL_DEFVAL 0x01203200 +#define CRF_APB_DP_STC_REF_CTRL_SRCSEL_SHIFT 0 +#define CRF_APB_DP_STC_REF_CTRL_SRCSEL_MASK 0x00000007U + +/*Clock active signal. Switch to 0 to disable the clock*/ +#undef CRF_APB_DP_STC_REF_CTRL_CLKACT_DEFVAL +#undef CRF_APB_DP_STC_REF_CTRL_CLKACT_SHIFT +#undef CRF_APB_DP_STC_REF_CTRL_CLKACT_MASK +#define CRF_APB_DP_STC_REF_CTRL_CLKACT_DEFVAL 0x01203200 +#define CRF_APB_DP_STC_REF_CTRL_CLKACT_SHIFT 24 +#define CRF_APB_DP_STC_REF_CTRL_CLKACT_MASK 0x01000000U + +/*6 bit divider*/ +#undef CRF_APB_ACPU_CTRL_DIVISOR0_DEFVAL +#undef CRF_APB_ACPU_CTRL_DIVISOR0_SHIFT +#undef CRF_APB_ACPU_CTRL_DIVISOR0_MASK +#define CRF_APB_ACPU_CTRL_DIVISOR0_DEFVAL 0x03000400 +#define CRF_APB_ACPU_CTRL_DIVISOR0_SHIFT 8 +#define CRF_APB_ACPU_CTRL_DIVISOR0_MASK 0x00003F00U + +/*000 = APLL; 010 = DPLL; 011 = VPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + lock. This is not usually an issue, but designers must be aware.)*/ +#undef CRF_APB_ACPU_CTRL_SRCSEL_DEFVAL +#undef CRF_APB_ACPU_CTRL_SRCSEL_SHIFT +#undef CRF_APB_ACPU_CTRL_SRCSEL_MASK +#define CRF_APB_ACPU_CTRL_SRCSEL_DEFVAL 0x03000400 +#define CRF_APB_ACPU_CTRL_SRCSEL_SHIFT 0 +#define CRF_APB_ACPU_CTRL_SRCSEL_MASK 0x00000007U + +/*Clock active signal. Switch to 0 to disable the clock. For the half speed APU Clock*/ +#undef CRF_APB_ACPU_CTRL_CLKACT_HALF_DEFVAL +#undef CRF_APB_ACPU_CTRL_CLKACT_HALF_SHIFT +#undef CRF_APB_ACPU_CTRL_CLKACT_HALF_MASK +#define CRF_APB_ACPU_CTRL_CLKACT_HALF_DEFVAL 0x03000400 +#define CRF_APB_ACPU_CTRL_CLKACT_HALF_SHIFT 25 +#define CRF_APB_ACPU_CTRL_CLKACT_HALF_MASK 0x02000000U + +/*Clock active signal. Switch to 0 to disable the clock. For the full speed ACPUX Clock. This will shut off the high speed cloc + to the entire APU*/ +#undef CRF_APB_ACPU_CTRL_CLKACT_FULL_DEFVAL +#undef CRF_APB_ACPU_CTRL_CLKACT_FULL_SHIFT +#undef CRF_APB_ACPU_CTRL_CLKACT_FULL_MASK +#define CRF_APB_ACPU_CTRL_CLKACT_FULL_DEFVAL 0x03000400 +#define CRF_APB_ACPU_CTRL_CLKACT_FULL_SHIFT 24 +#define CRF_APB_ACPU_CTRL_CLKACT_FULL_MASK 0x01000000U + +/*6 bit divider*/ +#undef CRF_APB_DBG_TRACE_CTRL_DIVISOR0_DEFVAL +#undef CRF_APB_DBG_TRACE_CTRL_DIVISOR0_SHIFT +#undef CRF_APB_DBG_TRACE_CTRL_DIVISOR0_MASK +#define CRF_APB_DBG_TRACE_CTRL_DIVISOR0_DEFVAL 0x00002500 +#define CRF_APB_DBG_TRACE_CTRL_DIVISOR0_SHIFT 8 +#define CRF_APB_DBG_TRACE_CTRL_DIVISOR0_MASK 0x00003F00U + +/*000 = IOPLL_TO_FPD; 010 = DPLL; 011 = APLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of + he new clock. This is not usually an issue, but designers must be aware.)*/ +#undef CRF_APB_DBG_TRACE_CTRL_SRCSEL_DEFVAL +#undef CRF_APB_DBG_TRACE_CTRL_SRCSEL_SHIFT +#undef CRF_APB_DBG_TRACE_CTRL_SRCSEL_MASK +#define CRF_APB_DBG_TRACE_CTRL_SRCSEL_DEFVAL 0x00002500 +#define CRF_APB_DBG_TRACE_CTRL_SRCSEL_SHIFT 0 +#define CRF_APB_DBG_TRACE_CTRL_SRCSEL_MASK 0x00000007U + +/*Clock active signal. Switch to 0 to disable the clock*/ +#undef CRF_APB_DBG_TRACE_CTRL_CLKACT_DEFVAL +#undef CRF_APB_DBG_TRACE_CTRL_CLKACT_SHIFT +#undef CRF_APB_DBG_TRACE_CTRL_CLKACT_MASK +#define CRF_APB_DBG_TRACE_CTRL_CLKACT_DEFVAL 0x00002500 +#define CRF_APB_DBG_TRACE_CTRL_CLKACT_SHIFT 24 +#define CRF_APB_DBG_TRACE_CTRL_CLKACT_MASK 0x01000000U + +/*6 bit divider*/ +#undef CRF_APB_DBG_FPD_CTRL_DIVISOR0_DEFVAL +#undef CRF_APB_DBG_FPD_CTRL_DIVISOR0_SHIFT +#undef CRF_APB_DBG_FPD_CTRL_DIVISOR0_MASK +#define CRF_APB_DBG_FPD_CTRL_DIVISOR0_DEFVAL 0x01002500 +#define CRF_APB_DBG_FPD_CTRL_DIVISOR0_SHIFT 8 +#define CRF_APB_DBG_FPD_CTRL_DIVISOR0_MASK 0x00003F00U + +/*000 = IOPLL_TO_FPD; 010 = DPLL; 011 = APLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of + he new clock. This is not usually an issue, but designers must be aware.)*/ +#undef CRF_APB_DBG_FPD_CTRL_SRCSEL_DEFVAL +#undef CRF_APB_DBG_FPD_CTRL_SRCSEL_SHIFT +#undef CRF_APB_DBG_FPD_CTRL_SRCSEL_MASK +#define CRF_APB_DBG_FPD_CTRL_SRCSEL_DEFVAL 0x01002500 +#define CRF_APB_DBG_FPD_CTRL_SRCSEL_SHIFT 0 +#define CRF_APB_DBG_FPD_CTRL_SRCSEL_MASK 0x00000007U + +/*Clock active signal. Switch to 0 to disable the clock*/ +#undef CRF_APB_DBG_FPD_CTRL_CLKACT_DEFVAL +#undef CRF_APB_DBG_FPD_CTRL_CLKACT_SHIFT +#undef CRF_APB_DBG_FPD_CTRL_CLKACT_MASK +#define CRF_APB_DBG_FPD_CTRL_CLKACT_DEFVAL 0x01002500 +#define CRF_APB_DBG_FPD_CTRL_CLKACT_SHIFT 24 +#define CRF_APB_DBG_FPD_CTRL_CLKACT_MASK 0x01000000U + +/*6 bit divider*/ +#undef CRF_APB_DDR_CTRL_DIVISOR0_DEFVAL +#undef CRF_APB_DDR_CTRL_DIVISOR0_SHIFT +#undef CRF_APB_DDR_CTRL_DIVISOR0_MASK +#define CRF_APB_DDR_CTRL_DIVISOR0_DEFVAL 0x01000500 +#define CRF_APB_DDR_CTRL_DIVISOR0_SHIFT 8 +#define CRF_APB_DDR_CTRL_DIVISOR0_MASK 0x00003F00U + +/*000 = DPLL; 001 = VPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new clock. This + s not usually an issue, but designers must be aware.)*/ +#undef CRF_APB_DDR_CTRL_SRCSEL_DEFVAL +#undef CRF_APB_DDR_CTRL_SRCSEL_SHIFT +#undef CRF_APB_DDR_CTRL_SRCSEL_MASK +#define CRF_APB_DDR_CTRL_SRCSEL_DEFVAL 0x01000500 +#define CRF_APB_DDR_CTRL_SRCSEL_SHIFT 0 +#define CRF_APB_DDR_CTRL_SRCSEL_MASK 0x00000007U + +/*6 bit divider*/ +#undef CRF_APB_GPU_REF_CTRL_DIVISOR0_DEFVAL +#undef CRF_APB_GPU_REF_CTRL_DIVISOR0_SHIFT +#undef CRF_APB_GPU_REF_CTRL_DIVISOR0_MASK +#define CRF_APB_GPU_REF_CTRL_DIVISOR0_DEFVAL 0x00001500 +#define CRF_APB_GPU_REF_CTRL_DIVISOR0_SHIFT 8 +#define CRF_APB_GPU_REF_CTRL_DIVISOR0_MASK 0x00003F00U + +/*000 = IOPLL_TO_FPD; 010 = VPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of + he new clock. This is not usually an issue, but designers must be aware.)*/ +#undef CRF_APB_GPU_REF_CTRL_SRCSEL_DEFVAL +#undef CRF_APB_GPU_REF_CTRL_SRCSEL_SHIFT +#undef CRF_APB_GPU_REF_CTRL_SRCSEL_MASK +#define CRF_APB_GPU_REF_CTRL_SRCSEL_DEFVAL 0x00001500 +#define CRF_APB_GPU_REF_CTRL_SRCSEL_SHIFT 0 +#define CRF_APB_GPU_REF_CTRL_SRCSEL_MASK 0x00000007U + +/*Clock active signal. Switch to 0 to disable the clock, which will stop clock for GPU (and both Pixel Processors).*/ +#undef CRF_APB_GPU_REF_CTRL_CLKACT_DEFVAL +#undef CRF_APB_GPU_REF_CTRL_CLKACT_SHIFT +#undef CRF_APB_GPU_REF_CTRL_CLKACT_MASK +#define CRF_APB_GPU_REF_CTRL_CLKACT_DEFVAL 0x00001500 +#define CRF_APB_GPU_REF_CTRL_CLKACT_SHIFT 24 +#define CRF_APB_GPU_REF_CTRL_CLKACT_MASK 0x01000000U + +/*Clock active signal for Pixel Processor. Switch to 0 to disable the clock only to this Pixel Processor*/ +#undef CRF_APB_GPU_REF_CTRL_PP0_CLKACT_DEFVAL +#undef CRF_APB_GPU_REF_CTRL_PP0_CLKACT_SHIFT +#undef CRF_APB_GPU_REF_CTRL_PP0_CLKACT_MASK +#define CRF_APB_GPU_REF_CTRL_PP0_CLKACT_DEFVAL 0x00001500 +#define CRF_APB_GPU_REF_CTRL_PP0_CLKACT_SHIFT 25 +#define CRF_APB_GPU_REF_CTRL_PP0_CLKACT_MASK 0x02000000U + +/*Clock active signal for Pixel Processor. Switch to 0 to disable the clock only to this Pixel Processor*/ +#undef CRF_APB_GPU_REF_CTRL_PP1_CLKACT_DEFVAL +#undef CRF_APB_GPU_REF_CTRL_PP1_CLKACT_SHIFT +#undef CRF_APB_GPU_REF_CTRL_PP1_CLKACT_MASK +#define CRF_APB_GPU_REF_CTRL_PP1_CLKACT_DEFVAL 0x00001500 +#define CRF_APB_GPU_REF_CTRL_PP1_CLKACT_SHIFT 26 +#define CRF_APB_GPU_REF_CTRL_PP1_CLKACT_MASK 0x04000000U + +/*6 bit divider*/ +#undef CRF_APB_GDMA_REF_CTRL_DIVISOR0_DEFVAL +#undef CRF_APB_GDMA_REF_CTRL_DIVISOR0_SHIFT +#undef CRF_APB_GDMA_REF_CTRL_DIVISOR0_MASK +#define CRF_APB_GDMA_REF_CTRL_DIVISOR0_DEFVAL 0x01000500 +#define CRF_APB_GDMA_REF_CTRL_DIVISOR0_SHIFT 8 +#define CRF_APB_GDMA_REF_CTRL_DIVISOR0_MASK 0x00003F00U + +/*000 = APLL; 010 = VPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + lock. This is not usually an issue, but designers must be aware.)*/ +#undef CRF_APB_GDMA_REF_CTRL_SRCSEL_DEFVAL +#undef CRF_APB_GDMA_REF_CTRL_SRCSEL_SHIFT +#undef CRF_APB_GDMA_REF_CTRL_SRCSEL_MASK +#define CRF_APB_GDMA_REF_CTRL_SRCSEL_DEFVAL 0x01000500 +#define CRF_APB_GDMA_REF_CTRL_SRCSEL_SHIFT 0 +#define CRF_APB_GDMA_REF_CTRL_SRCSEL_MASK 0x00000007U + +/*Clock active signal. Switch to 0 to disable the clock*/ +#undef CRF_APB_GDMA_REF_CTRL_CLKACT_DEFVAL +#undef CRF_APB_GDMA_REF_CTRL_CLKACT_SHIFT +#undef CRF_APB_GDMA_REF_CTRL_CLKACT_MASK +#define CRF_APB_GDMA_REF_CTRL_CLKACT_DEFVAL 0x01000500 +#define CRF_APB_GDMA_REF_CTRL_CLKACT_SHIFT 24 +#define CRF_APB_GDMA_REF_CTRL_CLKACT_MASK 0x01000000U + +/*6 bit divider*/ +#undef CRF_APB_DPDMA_REF_CTRL_DIVISOR0_DEFVAL +#undef CRF_APB_DPDMA_REF_CTRL_DIVISOR0_SHIFT +#undef CRF_APB_DPDMA_REF_CTRL_DIVISOR0_MASK +#define CRF_APB_DPDMA_REF_CTRL_DIVISOR0_DEFVAL 0x01000500 +#define CRF_APB_DPDMA_REF_CTRL_DIVISOR0_SHIFT 8 +#define CRF_APB_DPDMA_REF_CTRL_DIVISOR0_MASK 0x00003F00U + +/*000 = APLL; 010 = VPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + lock. This is not usually an issue, but designers must be aware.)*/ +#undef CRF_APB_DPDMA_REF_CTRL_SRCSEL_DEFVAL +#undef CRF_APB_DPDMA_REF_CTRL_SRCSEL_SHIFT +#undef CRF_APB_DPDMA_REF_CTRL_SRCSEL_MASK +#define CRF_APB_DPDMA_REF_CTRL_SRCSEL_DEFVAL 0x01000500 +#define CRF_APB_DPDMA_REF_CTRL_SRCSEL_SHIFT 0 +#define CRF_APB_DPDMA_REF_CTRL_SRCSEL_MASK 0x00000007U + +/*Clock active signal. Switch to 0 to disable the clock*/ +#undef CRF_APB_DPDMA_REF_CTRL_CLKACT_DEFVAL +#undef CRF_APB_DPDMA_REF_CTRL_CLKACT_SHIFT +#undef CRF_APB_DPDMA_REF_CTRL_CLKACT_MASK +#define CRF_APB_DPDMA_REF_CTRL_CLKACT_DEFVAL 0x01000500 +#define CRF_APB_DPDMA_REF_CTRL_CLKACT_SHIFT 24 +#define CRF_APB_DPDMA_REF_CTRL_CLKACT_MASK 0x01000000U + +/*6 bit divider*/ +#undef CRF_APB_TOPSW_MAIN_CTRL_DIVISOR0_DEFVAL +#undef CRF_APB_TOPSW_MAIN_CTRL_DIVISOR0_SHIFT +#undef CRF_APB_TOPSW_MAIN_CTRL_DIVISOR0_MASK +#define CRF_APB_TOPSW_MAIN_CTRL_DIVISOR0_DEFVAL 0x01000400 +#define CRF_APB_TOPSW_MAIN_CTRL_DIVISOR0_SHIFT 8 +#define CRF_APB_TOPSW_MAIN_CTRL_DIVISOR0_MASK 0x00003F00U + +/*000 = APLL; 010 = VPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new + lock. This is not usually an issue, but designers must be aware.)*/ +#undef CRF_APB_TOPSW_MAIN_CTRL_SRCSEL_DEFVAL +#undef CRF_APB_TOPSW_MAIN_CTRL_SRCSEL_SHIFT +#undef CRF_APB_TOPSW_MAIN_CTRL_SRCSEL_MASK +#define CRF_APB_TOPSW_MAIN_CTRL_SRCSEL_DEFVAL 0x01000400 +#define CRF_APB_TOPSW_MAIN_CTRL_SRCSEL_SHIFT 0 +#define CRF_APB_TOPSW_MAIN_CTRL_SRCSEL_MASK 0x00000007U + +/*Clock active signal. Switch to 0 to disable the clock*/ +#undef CRF_APB_TOPSW_MAIN_CTRL_CLKACT_DEFVAL +#undef CRF_APB_TOPSW_MAIN_CTRL_CLKACT_SHIFT +#undef CRF_APB_TOPSW_MAIN_CTRL_CLKACT_MASK +#define CRF_APB_TOPSW_MAIN_CTRL_CLKACT_DEFVAL 0x01000400 +#define CRF_APB_TOPSW_MAIN_CTRL_CLKACT_SHIFT 24 +#define CRF_APB_TOPSW_MAIN_CTRL_CLKACT_MASK 0x01000000U + +/*6 bit divider*/ +#undef CRF_APB_TOPSW_LSBUS_CTRL_DIVISOR0_DEFVAL +#undef CRF_APB_TOPSW_LSBUS_CTRL_DIVISOR0_SHIFT +#undef CRF_APB_TOPSW_LSBUS_CTRL_DIVISOR0_MASK +#define CRF_APB_TOPSW_LSBUS_CTRL_DIVISOR0_DEFVAL 0x01000800 +#define CRF_APB_TOPSW_LSBUS_CTRL_DIVISOR0_SHIFT 8 +#define CRF_APB_TOPSW_LSBUS_CTRL_DIVISOR0_MASK 0x00003F00U + +/*000 = APLL; 010 = IOPLL_TO_FPD; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of + he new clock. This is not usually an issue, but designers must be aware.)*/ +#undef CRF_APB_TOPSW_LSBUS_CTRL_SRCSEL_DEFVAL +#undef CRF_APB_TOPSW_LSBUS_CTRL_SRCSEL_SHIFT +#undef CRF_APB_TOPSW_LSBUS_CTRL_SRCSEL_MASK +#define CRF_APB_TOPSW_LSBUS_CTRL_SRCSEL_DEFVAL 0x01000800 +#define CRF_APB_TOPSW_LSBUS_CTRL_SRCSEL_SHIFT 0 +#define CRF_APB_TOPSW_LSBUS_CTRL_SRCSEL_MASK 0x00000007U + +/*Clock active signal. Switch to 0 to disable the clock*/ +#undef CRF_APB_TOPSW_LSBUS_CTRL_CLKACT_DEFVAL +#undef CRF_APB_TOPSW_LSBUS_CTRL_CLKACT_SHIFT +#undef CRF_APB_TOPSW_LSBUS_CTRL_CLKACT_MASK +#define CRF_APB_TOPSW_LSBUS_CTRL_CLKACT_DEFVAL 0x01000800 +#define CRF_APB_TOPSW_LSBUS_CTRL_CLKACT_SHIFT 24 +#define CRF_APB_TOPSW_LSBUS_CTRL_CLKACT_MASK 0x01000000U + +/*6 bit divider*/ +#undef CRF_APB_DBG_TSTMP_CTRL_DIVISOR0_DEFVAL +#undef CRF_APB_DBG_TSTMP_CTRL_DIVISOR0_SHIFT +#undef CRF_APB_DBG_TSTMP_CTRL_DIVISOR0_MASK +#define CRF_APB_DBG_TSTMP_CTRL_DIVISOR0_DEFVAL 0x00000A00 +#define CRF_APB_DBG_TSTMP_CTRL_DIVISOR0_SHIFT 8 +#define CRF_APB_DBG_TSTMP_CTRL_DIVISOR0_MASK 0x00003F00U + +/*000 = IOPLL_TO_FPD; 010 = DPLL; 011 = APLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of + he new clock. This is not usually an issue, but designers must be aware.)*/ +#undef CRF_APB_DBG_TSTMP_CTRL_SRCSEL_DEFVAL +#undef CRF_APB_DBG_TSTMP_CTRL_SRCSEL_SHIFT +#undef CRF_APB_DBG_TSTMP_CTRL_SRCSEL_MASK +#define CRF_APB_DBG_TSTMP_CTRL_SRCSEL_DEFVAL 0x00000A00 +#define CRF_APB_DBG_TSTMP_CTRL_SRCSEL_SHIFT 0 +#define CRF_APB_DBG_TSTMP_CTRL_SRCSEL_MASK 0x00000007U + +/*00" = Select the APB switch clock for the APB interface of TTC0'01" = Select the PLL ref clock for the APB interface of TTC0' + 0" = Select the R5 clock for the APB interface of TTC0*/ +#undef IOU_SLCR_IOU_TTC_APB_CLK_TTC0_SEL_DEFVAL +#undef IOU_SLCR_IOU_TTC_APB_CLK_TTC0_SEL_SHIFT +#undef IOU_SLCR_IOU_TTC_APB_CLK_TTC0_SEL_MASK +#define IOU_SLCR_IOU_TTC_APB_CLK_TTC0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_IOU_TTC_APB_CLK_TTC0_SEL_SHIFT 0 +#define IOU_SLCR_IOU_TTC_APB_CLK_TTC0_SEL_MASK 0x00000003U + +/*00" = Select the APB switch clock for the APB interface of TTC1'01" = Select the PLL ref clock for the APB interface of TTC1' + 0" = Select the R5 clock for the APB interface of TTC1*/ +#undef IOU_SLCR_IOU_TTC_APB_CLK_TTC1_SEL_DEFVAL +#undef IOU_SLCR_IOU_TTC_APB_CLK_TTC1_SEL_SHIFT +#undef IOU_SLCR_IOU_TTC_APB_CLK_TTC1_SEL_MASK +#define IOU_SLCR_IOU_TTC_APB_CLK_TTC1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_IOU_TTC_APB_CLK_TTC1_SEL_SHIFT 2 +#define IOU_SLCR_IOU_TTC_APB_CLK_TTC1_SEL_MASK 0x0000000CU + +/*00" = Select the APB switch clock for the APB interface of TTC2'01" = Select the PLL ref clock for the APB interface of TTC2' + 0" = Select the R5 clock for the APB interface of TTC2*/ +#undef IOU_SLCR_IOU_TTC_APB_CLK_TTC2_SEL_DEFVAL +#undef IOU_SLCR_IOU_TTC_APB_CLK_TTC2_SEL_SHIFT +#undef IOU_SLCR_IOU_TTC_APB_CLK_TTC2_SEL_MASK +#define IOU_SLCR_IOU_TTC_APB_CLK_TTC2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_IOU_TTC_APB_CLK_TTC2_SEL_SHIFT 4 +#define IOU_SLCR_IOU_TTC_APB_CLK_TTC2_SEL_MASK 0x00000030U + +/*00" = Select the APB switch clock for the APB interface of TTC3'01" = Select the PLL ref clock for the APB interface of TTC3' + 0" = Select the R5 clock for the APB interface of TTC3*/ +#undef IOU_SLCR_IOU_TTC_APB_CLK_TTC3_SEL_DEFVAL +#undef IOU_SLCR_IOU_TTC_APB_CLK_TTC3_SEL_SHIFT +#undef IOU_SLCR_IOU_TTC_APB_CLK_TTC3_SEL_MASK +#define IOU_SLCR_IOU_TTC_APB_CLK_TTC3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_IOU_TTC_APB_CLK_TTC3_SEL_SHIFT 6 +#define IOU_SLCR_IOU_TTC_APB_CLK_TTC3_SEL_MASK 0x000000C0U + +/*System watchdog timer clock source selection: 0: Internal APB clock 1: External (PL clock via EMIO or Pinout clock via MIO)*/ +#undef FPD_SLCR_WDT_CLK_SEL_SELECT_DEFVAL +#undef FPD_SLCR_WDT_CLK_SEL_SELECT_SHIFT +#undef FPD_SLCR_WDT_CLK_SEL_SELECT_MASK +#define FPD_SLCR_WDT_CLK_SEL_SELECT_DEFVAL 0x00000000 +#define FPD_SLCR_WDT_CLK_SEL_SELECT_SHIFT 0 +#define FPD_SLCR_WDT_CLK_SEL_SELECT_MASK 0x00000001U + +/*System watchdog timer clock source selection: 0: internal clock APB clock 1: external clock from PL via EMIO, or from pinout + ia MIO*/ +#undef IOU_SLCR_WDT_CLK_SEL_SELECT_DEFVAL +#undef IOU_SLCR_WDT_CLK_SEL_SELECT_SHIFT +#undef IOU_SLCR_WDT_CLK_SEL_SELECT_MASK +#define IOU_SLCR_WDT_CLK_SEL_SELECT_DEFVAL 0x00000000 +#define IOU_SLCR_WDT_CLK_SEL_SELECT_SHIFT 0 +#define IOU_SLCR_WDT_CLK_SEL_SELECT_MASK 0x00000001U + +/*System watchdog timer clock source selection: 0: internal clock APB clock 1: external clock pss_ref_clk*/ +#undef LPD_SLCR_CSUPMU_WDT_CLK_SEL_SELECT_DEFVAL +#undef LPD_SLCR_CSUPMU_WDT_CLK_SEL_SELECT_SHIFT +#undef LPD_SLCR_CSUPMU_WDT_CLK_SEL_SELECT_MASK +#define LPD_SLCR_CSUPMU_WDT_CLK_SEL_SELECT_DEFVAL 0x00000000 +#define LPD_SLCR_CSUPMU_WDT_CLK_SEL_SELECT_SHIFT 0 +#define LPD_SLCR_CSUPMU_WDT_CLK_SEL_SELECT_MASK 0x00000001U +#undef CRF_APB_RST_DDR_SS_OFFSET +#define CRF_APB_RST_DDR_SS_OFFSET 0XFD1A0108 +#undef DDRC_MSTR_OFFSET +#define DDRC_MSTR_OFFSET 0XFD070000 +#undef DDRC_MRCTRL0_OFFSET +#define DDRC_MRCTRL0_OFFSET 0XFD070010 +#undef DDRC_DERATEEN_OFFSET +#define DDRC_DERATEEN_OFFSET 0XFD070020 +#undef DDRC_DERATEINT_OFFSET +#define DDRC_DERATEINT_OFFSET 0XFD070024 +#undef DDRC_PWRCTL_OFFSET +#define DDRC_PWRCTL_OFFSET 0XFD070030 +#undef DDRC_PWRTMG_OFFSET +#define DDRC_PWRTMG_OFFSET 0XFD070034 +#undef DDRC_RFSHCTL0_OFFSET +#define DDRC_RFSHCTL0_OFFSET 0XFD070050 +#undef DDRC_RFSHCTL3_OFFSET +#define DDRC_RFSHCTL3_OFFSET 0XFD070060 +#undef DDRC_RFSHTMG_OFFSET +#define DDRC_RFSHTMG_OFFSET 0XFD070064 +#undef DDRC_ECCCFG0_OFFSET +#define DDRC_ECCCFG0_OFFSET 0XFD070070 +#undef DDRC_ECCCFG1_OFFSET +#define DDRC_ECCCFG1_OFFSET 0XFD070074 +#undef DDRC_CRCPARCTL1_OFFSET +#define DDRC_CRCPARCTL1_OFFSET 0XFD0700C4 +#undef DDRC_CRCPARCTL2_OFFSET +#define DDRC_CRCPARCTL2_OFFSET 0XFD0700C8 +#undef DDRC_INIT0_OFFSET +#define DDRC_INIT0_OFFSET 0XFD0700D0 +#undef DDRC_INIT1_OFFSET +#define DDRC_INIT1_OFFSET 0XFD0700D4 +#undef DDRC_INIT2_OFFSET +#define DDRC_INIT2_OFFSET 0XFD0700D8 +#undef DDRC_INIT3_OFFSET +#define DDRC_INIT3_OFFSET 0XFD0700DC +#undef DDRC_INIT4_OFFSET +#define DDRC_INIT4_OFFSET 0XFD0700E0 +#undef DDRC_INIT5_OFFSET +#define DDRC_INIT5_OFFSET 0XFD0700E4 +#undef DDRC_INIT6_OFFSET +#define DDRC_INIT6_OFFSET 0XFD0700E8 +#undef DDRC_INIT7_OFFSET +#define DDRC_INIT7_OFFSET 0XFD0700EC +#undef DDRC_DIMMCTL_OFFSET +#define DDRC_DIMMCTL_OFFSET 0XFD0700F0 +#undef DDRC_RANKCTL_OFFSET +#define DDRC_RANKCTL_OFFSET 0XFD0700F4 +#undef DDRC_DRAMTMG0_OFFSET +#define DDRC_DRAMTMG0_OFFSET 0XFD070100 +#undef DDRC_DRAMTMG1_OFFSET +#define DDRC_DRAMTMG1_OFFSET 0XFD070104 +#undef DDRC_DRAMTMG2_OFFSET +#define DDRC_DRAMTMG2_OFFSET 0XFD070108 +#undef DDRC_DRAMTMG3_OFFSET +#define DDRC_DRAMTMG3_OFFSET 0XFD07010C +#undef DDRC_DRAMTMG4_OFFSET +#define DDRC_DRAMTMG4_OFFSET 0XFD070110 +#undef DDRC_DRAMTMG5_OFFSET +#define DDRC_DRAMTMG5_OFFSET 0XFD070114 +#undef DDRC_DRAMTMG6_OFFSET +#define DDRC_DRAMTMG6_OFFSET 0XFD070118 +#undef DDRC_DRAMTMG7_OFFSET +#define DDRC_DRAMTMG7_OFFSET 0XFD07011C +#undef DDRC_DRAMTMG8_OFFSET +#define DDRC_DRAMTMG8_OFFSET 0XFD070120 +#undef DDRC_DRAMTMG9_OFFSET +#define DDRC_DRAMTMG9_OFFSET 0XFD070124 +#undef DDRC_DRAMTMG11_OFFSET +#define DDRC_DRAMTMG11_OFFSET 0XFD07012C +#undef DDRC_DRAMTMG12_OFFSET +#define DDRC_DRAMTMG12_OFFSET 0XFD070130 +#undef DDRC_ZQCTL0_OFFSET +#define DDRC_ZQCTL0_OFFSET 0XFD070180 +#undef DDRC_ZQCTL1_OFFSET +#define DDRC_ZQCTL1_OFFSET 0XFD070184 +#undef DDRC_DFITMG0_OFFSET +#define DDRC_DFITMG0_OFFSET 0XFD070190 +#undef DDRC_DFITMG1_OFFSET +#define DDRC_DFITMG1_OFFSET 0XFD070194 +#undef DDRC_DFILPCFG0_OFFSET +#define DDRC_DFILPCFG0_OFFSET 0XFD070198 +#undef DDRC_DFILPCFG1_OFFSET +#define DDRC_DFILPCFG1_OFFSET 0XFD07019C +#undef DDRC_DFIUPD1_OFFSET +#define DDRC_DFIUPD1_OFFSET 0XFD0701A4 +#undef DDRC_DFIMISC_OFFSET +#define DDRC_DFIMISC_OFFSET 0XFD0701B0 +#undef DDRC_DFITMG2_OFFSET +#define DDRC_DFITMG2_OFFSET 0XFD0701B4 +#undef DDRC_DBICTL_OFFSET +#define DDRC_DBICTL_OFFSET 0XFD0701C0 +#undef DDRC_ADDRMAP0_OFFSET +#define DDRC_ADDRMAP0_OFFSET 0XFD070200 +#undef DDRC_ADDRMAP1_OFFSET +#define DDRC_ADDRMAP1_OFFSET 0XFD070204 +#undef DDRC_ADDRMAP2_OFFSET +#define DDRC_ADDRMAP2_OFFSET 0XFD070208 +#undef DDRC_ADDRMAP3_OFFSET +#define DDRC_ADDRMAP3_OFFSET 0XFD07020C +#undef DDRC_ADDRMAP4_OFFSET +#define DDRC_ADDRMAP4_OFFSET 0XFD070210 +#undef DDRC_ADDRMAP5_OFFSET +#define DDRC_ADDRMAP5_OFFSET 0XFD070214 +#undef DDRC_ADDRMAP6_OFFSET +#define DDRC_ADDRMAP6_OFFSET 0XFD070218 +#undef DDRC_ADDRMAP7_OFFSET +#define DDRC_ADDRMAP7_OFFSET 0XFD07021C +#undef DDRC_ADDRMAP8_OFFSET +#define DDRC_ADDRMAP8_OFFSET 0XFD070220 +#undef DDRC_ADDRMAP9_OFFSET +#define DDRC_ADDRMAP9_OFFSET 0XFD070224 +#undef DDRC_ADDRMAP10_OFFSET +#define DDRC_ADDRMAP10_OFFSET 0XFD070228 +#undef DDRC_ADDRMAP11_OFFSET +#define DDRC_ADDRMAP11_OFFSET 0XFD07022C +#undef DDRC_ODTCFG_OFFSET +#define DDRC_ODTCFG_OFFSET 0XFD070240 +#undef DDRC_ODTMAP_OFFSET +#define DDRC_ODTMAP_OFFSET 0XFD070244 +#undef DDRC_SCHED_OFFSET +#define DDRC_SCHED_OFFSET 0XFD070250 +#undef DDRC_PERFLPR1_OFFSET +#define DDRC_PERFLPR1_OFFSET 0XFD070264 +#undef DDRC_PERFWR1_OFFSET +#define DDRC_PERFWR1_OFFSET 0XFD07026C +#undef DDRC_DQMAP5_OFFSET +#define DDRC_DQMAP5_OFFSET 0XFD070294 +#undef DDRC_DBG0_OFFSET +#define DDRC_DBG0_OFFSET 0XFD070300 +#undef DDRC_DBGCMD_OFFSET +#define DDRC_DBGCMD_OFFSET 0XFD07030C +#undef DDRC_SWCTL_OFFSET +#define DDRC_SWCTL_OFFSET 0XFD070320 +#undef DDRC_PCCFG_OFFSET +#define DDRC_PCCFG_OFFSET 0XFD070400 +#undef DDRC_PCFGR_0_OFFSET +#define DDRC_PCFGR_0_OFFSET 0XFD070404 +#undef DDRC_PCFGW_0_OFFSET +#define DDRC_PCFGW_0_OFFSET 0XFD070408 +#undef DDRC_PCTRL_0_OFFSET +#define DDRC_PCTRL_0_OFFSET 0XFD070490 +#undef DDRC_PCFGQOS0_0_OFFSET +#define DDRC_PCFGQOS0_0_OFFSET 0XFD070494 +#undef DDRC_PCFGQOS1_0_OFFSET +#define DDRC_PCFGQOS1_0_OFFSET 0XFD070498 +#undef DDRC_PCFGR_1_OFFSET +#define DDRC_PCFGR_1_OFFSET 0XFD0704B4 +#undef DDRC_PCFGW_1_OFFSET +#define DDRC_PCFGW_1_OFFSET 0XFD0704B8 +#undef DDRC_PCTRL_1_OFFSET +#define DDRC_PCTRL_1_OFFSET 0XFD070540 +#undef DDRC_PCFGQOS0_1_OFFSET +#define DDRC_PCFGQOS0_1_OFFSET 0XFD070544 +#undef DDRC_PCFGQOS1_1_OFFSET +#define DDRC_PCFGQOS1_1_OFFSET 0XFD070548 +#undef DDRC_PCFGR_2_OFFSET +#define DDRC_PCFGR_2_OFFSET 0XFD070564 +#undef DDRC_PCFGW_2_OFFSET +#define DDRC_PCFGW_2_OFFSET 0XFD070568 +#undef DDRC_PCTRL_2_OFFSET +#define DDRC_PCTRL_2_OFFSET 0XFD0705F0 +#undef DDRC_PCFGQOS0_2_OFFSET +#define DDRC_PCFGQOS0_2_OFFSET 0XFD0705F4 +#undef DDRC_PCFGQOS1_2_OFFSET +#define DDRC_PCFGQOS1_2_OFFSET 0XFD0705F8 +#undef DDRC_PCFGR_3_OFFSET +#define DDRC_PCFGR_3_OFFSET 0XFD070614 +#undef DDRC_PCFGW_3_OFFSET +#define DDRC_PCFGW_3_OFFSET 0XFD070618 +#undef DDRC_PCTRL_3_OFFSET +#define DDRC_PCTRL_3_OFFSET 0XFD0706A0 +#undef DDRC_PCFGQOS0_3_OFFSET +#define DDRC_PCFGQOS0_3_OFFSET 0XFD0706A4 +#undef DDRC_PCFGQOS1_3_OFFSET +#define DDRC_PCFGQOS1_3_OFFSET 0XFD0706A8 +#undef DDRC_PCFGWQOS0_3_OFFSET +#define DDRC_PCFGWQOS0_3_OFFSET 0XFD0706AC +#undef DDRC_PCFGWQOS1_3_OFFSET +#define DDRC_PCFGWQOS1_3_OFFSET 0XFD0706B0 +#undef DDRC_PCFGR_4_OFFSET +#define DDRC_PCFGR_4_OFFSET 0XFD0706C4 +#undef DDRC_PCFGW_4_OFFSET +#define DDRC_PCFGW_4_OFFSET 0XFD0706C8 +#undef DDRC_PCTRL_4_OFFSET +#define DDRC_PCTRL_4_OFFSET 0XFD070750 +#undef DDRC_PCFGQOS0_4_OFFSET +#define DDRC_PCFGQOS0_4_OFFSET 0XFD070754 +#undef DDRC_PCFGQOS1_4_OFFSET +#define DDRC_PCFGQOS1_4_OFFSET 0XFD070758 +#undef DDRC_PCFGWQOS0_4_OFFSET +#define DDRC_PCFGWQOS0_4_OFFSET 0XFD07075C +#undef DDRC_PCFGWQOS1_4_OFFSET +#define DDRC_PCFGWQOS1_4_OFFSET 0XFD070760 +#undef DDRC_PCFGR_5_OFFSET +#define DDRC_PCFGR_5_OFFSET 0XFD070774 +#undef DDRC_PCFGW_5_OFFSET +#define DDRC_PCFGW_5_OFFSET 0XFD070778 +#undef DDRC_PCTRL_5_OFFSET +#define DDRC_PCTRL_5_OFFSET 0XFD070800 +#undef DDRC_PCFGQOS0_5_OFFSET +#define DDRC_PCFGQOS0_5_OFFSET 0XFD070804 +#undef DDRC_PCFGQOS1_5_OFFSET +#define DDRC_PCFGQOS1_5_OFFSET 0XFD070808 +#undef DDRC_PCFGWQOS0_5_OFFSET +#define DDRC_PCFGWQOS0_5_OFFSET 0XFD07080C +#undef DDRC_PCFGWQOS1_5_OFFSET +#define DDRC_PCFGWQOS1_5_OFFSET 0XFD070810 +#undef DDRC_SARBASE0_OFFSET +#define DDRC_SARBASE0_OFFSET 0XFD070F04 +#undef DDRC_SARSIZE0_OFFSET +#define DDRC_SARSIZE0_OFFSET 0XFD070F08 +#undef DDRC_SARBASE1_OFFSET +#define DDRC_SARBASE1_OFFSET 0XFD070F0C +#undef DDRC_SARSIZE1_OFFSET +#define DDRC_SARSIZE1_OFFSET 0XFD070F10 +#undef DDRC_DFITMG0_SHADOW_OFFSET +#define DDRC_DFITMG0_SHADOW_OFFSET 0XFD072190 +#undef CRF_APB_RST_DDR_SS_OFFSET +#define CRF_APB_RST_DDR_SS_OFFSET 0XFD1A0108 +#undef DDR_PHY_PGCR0_OFFSET +#define DDR_PHY_PGCR0_OFFSET 0XFD080010 +#undef DDR_PHY_PGCR2_OFFSET +#define DDR_PHY_PGCR2_OFFSET 0XFD080018 +#undef DDR_PHY_PGCR3_OFFSET +#define DDR_PHY_PGCR3_OFFSET 0XFD08001C +#undef DDR_PHY_PGCR5_OFFSET +#define DDR_PHY_PGCR5_OFFSET 0XFD080024 +#undef DDR_PHY_PTR0_OFFSET +#define DDR_PHY_PTR0_OFFSET 0XFD080040 +#undef DDR_PHY_PTR1_OFFSET +#define DDR_PHY_PTR1_OFFSET 0XFD080044 +#undef DDR_PHY_DSGCR_OFFSET +#define DDR_PHY_DSGCR_OFFSET 0XFD080090 +#undef DDR_PHY_DCR_OFFSET +#define DDR_PHY_DCR_OFFSET 0XFD080100 +#undef DDR_PHY_DTPR0_OFFSET +#define DDR_PHY_DTPR0_OFFSET 0XFD080110 +#undef DDR_PHY_DTPR1_OFFSET +#define DDR_PHY_DTPR1_OFFSET 0XFD080114 +#undef DDR_PHY_DTPR2_OFFSET +#define DDR_PHY_DTPR2_OFFSET 0XFD080118 +#undef DDR_PHY_DTPR3_OFFSET +#define DDR_PHY_DTPR3_OFFSET 0XFD08011C +#undef DDR_PHY_DTPR4_OFFSET +#define DDR_PHY_DTPR4_OFFSET 0XFD080120 +#undef DDR_PHY_DTPR5_OFFSET +#define DDR_PHY_DTPR5_OFFSET 0XFD080124 +#undef DDR_PHY_DTPR6_OFFSET +#define DDR_PHY_DTPR6_OFFSET 0XFD080128 +#undef DDR_PHY_RDIMMGCR0_OFFSET +#define DDR_PHY_RDIMMGCR0_OFFSET 0XFD080140 +#undef DDR_PHY_RDIMMGCR1_OFFSET +#define DDR_PHY_RDIMMGCR1_OFFSET 0XFD080144 +#undef DDR_PHY_RDIMMCR0_OFFSET +#define DDR_PHY_RDIMMCR0_OFFSET 0XFD080150 +#undef DDR_PHY_RDIMMCR1_OFFSET +#define DDR_PHY_RDIMMCR1_OFFSET 0XFD080154 +#undef DDR_PHY_MR0_OFFSET +#define DDR_PHY_MR0_OFFSET 0XFD080180 +#undef DDR_PHY_MR1_OFFSET +#define DDR_PHY_MR1_OFFSET 0XFD080184 +#undef DDR_PHY_MR2_OFFSET +#define DDR_PHY_MR2_OFFSET 0XFD080188 +#undef DDR_PHY_MR3_OFFSET +#define DDR_PHY_MR3_OFFSET 0XFD08018C +#undef DDR_PHY_MR4_OFFSET +#define DDR_PHY_MR4_OFFSET 0XFD080190 +#undef DDR_PHY_MR5_OFFSET +#define DDR_PHY_MR5_OFFSET 0XFD080194 +#undef DDR_PHY_MR6_OFFSET +#define DDR_PHY_MR6_OFFSET 0XFD080198 +#undef DDR_PHY_MR11_OFFSET +#define DDR_PHY_MR11_OFFSET 0XFD0801AC +#undef DDR_PHY_MR12_OFFSET +#define DDR_PHY_MR12_OFFSET 0XFD0801B0 +#undef DDR_PHY_MR13_OFFSET +#define DDR_PHY_MR13_OFFSET 0XFD0801B4 +#undef DDR_PHY_MR14_OFFSET +#define DDR_PHY_MR14_OFFSET 0XFD0801B8 +#undef DDR_PHY_MR22_OFFSET +#define DDR_PHY_MR22_OFFSET 0XFD0801D8 +#undef DDR_PHY_DTCR0_OFFSET +#define DDR_PHY_DTCR0_OFFSET 0XFD080200 +#undef DDR_PHY_DTCR1_OFFSET +#define DDR_PHY_DTCR1_OFFSET 0XFD080204 +#undef DDR_PHY_CATR0_OFFSET +#define DDR_PHY_CATR0_OFFSET 0XFD080240 +#undef DDR_PHY_BISTLSR_OFFSET +#define DDR_PHY_BISTLSR_OFFSET 0XFD080414 +#undef DDR_PHY_RIOCR5_OFFSET +#define DDR_PHY_RIOCR5_OFFSET 0XFD0804F4 +#undef DDR_PHY_ACIOCR0_OFFSET +#define DDR_PHY_ACIOCR0_OFFSET 0XFD080500 +#undef DDR_PHY_ACIOCR2_OFFSET +#define DDR_PHY_ACIOCR2_OFFSET 0XFD080508 +#undef DDR_PHY_ACIOCR3_OFFSET +#define DDR_PHY_ACIOCR3_OFFSET 0XFD08050C +#undef DDR_PHY_ACIOCR4_OFFSET +#define DDR_PHY_ACIOCR4_OFFSET 0XFD080510 +#undef DDR_PHY_IOVCR0_OFFSET +#define DDR_PHY_IOVCR0_OFFSET 0XFD080520 +#undef DDR_PHY_VTCR0_OFFSET +#define DDR_PHY_VTCR0_OFFSET 0XFD080528 +#undef DDR_PHY_VTCR1_OFFSET +#define DDR_PHY_VTCR1_OFFSET 0XFD08052C +#undef DDR_PHY_ACBDLR1_OFFSET +#define DDR_PHY_ACBDLR1_OFFSET 0XFD080544 +#undef DDR_PHY_ACBDLR2_OFFSET +#define DDR_PHY_ACBDLR2_OFFSET 0XFD080548 +#undef DDR_PHY_ACBDLR6_OFFSET +#define DDR_PHY_ACBDLR6_OFFSET 0XFD080558 +#undef DDR_PHY_ACBDLR7_OFFSET +#define DDR_PHY_ACBDLR7_OFFSET 0XFD08055C +#undef DDR_PHY_ACBDLR8_OFFSET +#define DDR_PHY_ACBDLR8_OFFSET 0XFD080560 +#undef DDR_PHY_ACBDLR9_OFFSET +#define DDR_PHY_ACBDLR9_OFFSET 0XFD080564 +#undef DDR_PHY_ZQCR_OFFSET +#define DDR_PHY_ZQCR_OFFSET 0XFD080680 +#undef DDR_PHY_ZQ0PR0_OFFSET +#define DDR_PHY_ZQ0PR0_OFFSET 0XFD080684 +#undef DDR_PHY_ZQ0OR0_OFFSET +#define DDR_PHY_ZQ0OR0_OFFSET 0XFD080694 +#undef DDR_PHY_ZQ0OR1_OFFSET +#define DDR_PHY_ZQ0OR1_OFFSET 0XFD080698 +#undef DDR_PHY_ZQ1PR0_OFFSET +#define DDR_PHY_ZQ1PR0_OFFSET 0XFD0806A4 +#undef DDR_PHY_DX0GCR0_OFFSET +#define DDR_PHY_DX0GCR0_OFFSET 0XFD080700 +#undef DDR_PHY_DX0GCR4_OFFSET +#define DDR_PHY_DX0GCR4_OFFSET 0XFD080710 +#undef DDR_PHY_DX0GCR5_OFFSET +#define DDR_PHY_DX0GCR5_OFFSET 0XFD080714 +#undef DDR_PHY_DX0GCR6_OFFSET +#define DDR_PHY_DX0GCR6_OFFSET 0XFD080718 +#undef DDR_PHY_DX0LCDLR2_OFFSET +#define DDR_PHY_DX0LCDLR2_OFFSET 0XFD080788 +#undef DDR_PHY_DX0GTR0_OFFSET +#define DDR_PHY_DX0GTR0_OFFSET 0XFD0807C0 +#undef DDR_PHY_DX1GCR0_OFFSET +#define DDR_PHY_DX1GCR0_OFFSET 0XFD080800 +#undef DDR_PHY_DX1GCR4_OFFSET +#define DDR_PHY_DX1GCR4_OFFSET 0XFD080810 +#undef DDR_PHY_DX1GCR5_OFFSET +#define DDR_PHY_DX1GCR5_OFFSET 0XFD080814 +#undef DDR_PHY_DX1GCR6_OFFSET +#define DDR_PHY_DX1GCR6_OFFSET 0XFD080818 +#undef DDR_PHY_DX1LCDLR2_OFFSET +#define DDR_PHY_DX1LCDLR2_OFFSET 0XFD080888 +#undef DDR_PHY_DX1GTR0_OFFSET +#define DDR_PHY_DX1GTR0_OFFSET 0XFD0808C0 +#undef DDR_PHY_DX2GCR0_OFFSET +#define DDR_PHY_DX2GCR0_OFFSET 0XFD080900 +#undef DDR_PHY_DX2GCR1_OFFSET +#define DDR_PHY_DX2GCR1_OFFSET 0XFD080904 +#undef DDR_PHY_DX2GCR4_OFFSET +#define DDR_PHY_DX2GCR4_OFFSET 0XFD080910 +#undef DDR_PHY_DX2GCR5_OFFSET +#define DDR_PHY_DX2GCR5_OFFSET 0XFD080914 +#undef DDR_PHY_DX2GCR6_OFFSET +#define DDR_PHY_DX2GCR6_OFFSET 0XFD080918 +#undef DDR_PHY_DX2LCDLR2_OFFSET +#define DDR_PHY_DX2LCDLR2_OFFSET 0XFD080988 +#undef DDR_PHY_DX2GTR0_OFFSET +#define DDR_PHY_DX2GTR0_OFFSET 0XFD0809C0 +#undef DDR_PHY_DX3GCR0_OFFSET +#define DDR_PHY_DX3GCR0_OFFSET 0XFD080A00 +#undef DDR_PHY_DX3GCR1_OFFSET +#define DDR_PHY_DX3GCR1_OFFSET 0XFD080A04 +#undef DDR_PHY_DX3GCR4_OFFSET +#define DDR_PHY_DX3GCR4_OFFSET 0XFD080A10 +#undef DDR_PHY_DX3GCR5_OFFSET +#define DDR_PHY_DX3GCR5_OFFSET 0XFD080A14 +#undef DDR_PHY_DX3GCR6_OFFSET +#define DDR_PHY_DX3GCR6_OFFSET 0XFD080A18 +#undef DDR_PHY_DX3LCDLR2_OFFSET +#define DDR_PHY_DX3LCDLR2_OFFSET 0XFD080A88 +#undef DDR_PHY_DX3GTR0_OFFSET +#define DDR_PHY_DX3GTR0_OFFSET 0XFD080AC0 +#undef DDR_PHY_DX4GCR0_OFFSET +#define DDR_PHY_DX4GCR0_OFFSET 0XFD080B00 +#undef DDR_PHY_DX4GCR1_OFFSET +#define DDR_PHY_DX4GCR1_OFFSET 0XFD080B04 +#undef DDR_PHY_DX4GCR4_OFFSET +#define DDR_PHY_DX4GCR4_OFFSET 0XFD080B10 +#undef DDR_PHY_DX4GCR5_OFFSET +#define DDR_PHY_DX4GCR5_OFFSET 0XFD080B14 +#undef DDR_PHY_DX4GCR6_OFFSET +#define DDR_PHY_DX4GCR6_OFFSET 0XFD080B18 +#undef DDR_PHY_DX4LCDLR2_OFFSET +#define DDR_PHY_DX4LCDLR2_OFFSET 0XFD080B88 +#undef DDR_PHY_DX4GTR0_OFFSET +#define DDR_PHY_DX4GTR0_OFFSET 0XFD080BC0 +#undef DDR_PHY_DX5GCR0_OFFSET +#define DDR_PHY_DX5GCR0_OFFSET 0XFD080C00 +#undef DDR_PHY_DX5GCR1_OFFSET +#define DDR_PHY_DX5GCR1_OFFSET 0XFD080C04 +#undef DDR_PHY_DX5GCR4_OFFSET +#define DDR_PHY_DX5GCR4_OFFSET 0XFD080C10 +#undef DDR_PHY_DX5GCR5_OFFSET +#define DDR_PHY_DX5GCR5_OFFSET 0XFD080C14 +#undef DDR_PHY_DX5GCR6_OFFSET +#define DDR_PHY_DX5GCR6_OFFSET 0XFD080C18 +#undef DDR_PHY_DX5LCDLR2_OFFSET +#define DDR_PHY_DX5LCDLR2_OFFSET 0XFD080C88 +#undef DDR_PHY_DX5GTR0_OFFSET +#define DDR_PHY_DX5GTR0_OFFSET 0XFD080CC0 +#undef DDR_PHY_DX6GCR0_OFFSET +#define DDR_PHY_DX6GCR0_OFFSET 0XFD080D00 +#undef DDR_PHY_DX6GCR1_OFFSET +#define DDR_PHY_DX6GCR1_OFFSET 0XFD080D04 +#undef DDR_PHY_DX6GCR4_OFFSET +#define DDR_PHY_DX6GCR4_OFFSET 0XFD080D10 +#undef DDR_PHY_DX6GCR5_OFFSET +#define DDR_PHY_DX6GCR5_OFFSET 0XFD080D14 +#undef DDR_PHY_DX6GCR6_OFFSET +#define DDR_PHY_DX6GCR6_OFFSET 0XFD080D18 +#undef DDR_PHY_DX6LCDLR2_OFFSET +#define DDR_PHY_DX6LCDLR2_OFFSET 0XFD080D88 +#undef DDR_PHY_DX6GTR0_OFFSET +#define DDR_PHY_DX6GTR0_OFFSET 0XFD080DC0 +#undef DDR_PHY_DX7GCR0_OFFSET +#define DDR_PHY_DX7GCR0_OFFSET 0XFD080E00 +#undef DDR_PHY_DX7GCR1_OFFSET +#define DDR_PHY_DX7GCR1_OFFSET 0XFD080E04 +#undef DDR_PHY_DX7GCR4_OFFSET +#define DDR_PHY_DX7GCR4_OFFSET 0XFD080E10 +#undef DDR_PHY_DX7GCR5_OFFSET +#define DDR_PHY_DX7GCR5_OFFSET 0XFD080E14 +#undef DDR_PHY_DX7GCR6_OFFSET +#define DDR_PHY_DX7GCR6_OFFSET 0XFD080E18 +#undef DDR_PHY_DX7LCDLR2_OFFSET +#define DDR_PHY_DX7LCDLR2_OFFSET 0XFD080E88 +#undef DDR_PHY_DX7GTR0_OFFSET +#define DDR_PHY_DX7GTR0_OFFSET 0XFD080EC0 +#undef DDR_PHY_DX8GCR0_OFFSET +#define DDR_PHY_DX8GCR0_OFFSET 0XFD080F00 +#undef DDR_PHY_DX8GCR1_OFFSET +#define DDR_PHY_DX8GCR1_OFFSET 0XFD080F04 +#undef DDR_PHY_DX8GCR4_OFFSET +#define DDR_PHY_DX8GCR4_OFFSET 0XFD080F10 +#undef DDR_PHY_DX8GCR5_OFFSET +#define DDR_PHY_DX8GCR5_OFFSET 0XFD080F14 +#undef DDR_PHY_DX8GCR6_OFFSET +#define DDR_PHY_DX8GCR6_OFFSET 0XFD080F18 +#undef DDR_PHY_DX8LCDLR2_OFFSET +#define DDR_PHY_DX8LCDLR2_OFFSET 0XFD080F88 +#undef DDR_PHY_DX8GTR0_OFFSET +#define DDR_PHY_DX8GTR0_OFFSET 0XFD080FC0 +#undef DDR_PHY_DX8SL0OSC_OFFSET +#define DDR_PHY_DX8SL0OSC_OFFSET 0XFD081400 +#undef DDR_PHY_DX8SL0DQSCTL_OFFSET +#define DDR_PHY_DX8SL0DQSCTL_OFFSET 0XFD08141C +#undef DDR_PHY_DX8SL0DXCTL2_OFFSET +#define DDR_PHY_DX8SL0DXCTL2_OFFSET 0XFD08142C +#undef DDR_PHY_DX8SL0IOCR_OFFSET +#define DDR_PHY_DX8SL0IOCR_OFFSET 0XFD081430 +#undef DDR_PHY_DX8SL1OSC_OFFSET +#define DDR_PHY_DX8SL1OSC_OFFSET 0XFD081440 +#undef DDR_PHY_DX8SL1DQSCTL_OFFSET +#define DDR_PHY_DX8SL1DQSCTL_OFFSET 0XFD08145C +#undef DDR_PHY_DX8SL1DXCTL2_OFFSET +#define DDR_PHY_DX8SL1DXCTL2_OFFSET 0XFD08146C +#undef DDR_PHY_DX8SL1IOCR_OFFSET +#define DDR_PHY_DX8SL1IOCR_OFFSET 0XFD081470 +#undef DDR_PHY_DX8SL2OSC_OFFSET +#define DDR_PHY_DX8SL2OSC_OFFSET 0XFD081480 +#undef DDR_PHY_DX8SL2DQSCTL_OFFSET +#define DDR_PHY_DX8SL2DQSCTL_OFFSET 0XFD08149C +#undef DDR_PHY_DX8SL2DXCTL2_OFFSET +#define DDR_PHY_DX8SL2DXCTL2_OFFSET 0XFD0814AC +#undef DDR_PHY_DX8SL2IOCR_OFFSET +#define DDR_PHY_DX8SL2IOCR_OFFSET 0XFD0814B0 +#undef DDR_PHY_DX8SL3OSC_OFFSET +#define DDR_PHY_DX8SL3OSC_OFFSET 0XFD0814C0 +#undef DDR_PHY_DX8SL3DQSCTL_OFFSET +#define DDR_PHY_DX8SL3DQSCTL_OFFSET 0XFD0814DC +#undef DDR_PHY_DX8SL3DXCTL2_OFFSET +#define DDR_PHY_DX8SL3DXCTL2_OFFSET 0XFD0814EC +#undef DDR_PHY_DX8SL3IOCR_OFFSET +#define DDR_PHY_DX8SL3IOCR_OFFSET 0XFD0814F0 +#undef DDR_PHY_DX8SL4OSC_OFFSET +#define DDR_PHY_DX8SL4OSC_OFFSET 0XFD081500 +#undef DDR_PHY_DX8SL4DQSCTL_OFFSET +#define DDR_PHY_DX8SL4DQSCTL_OFFSET 0XFD08151C +#undef DDR_PHY_DX8SL4DXCTL2_OFFSET +#define DDR_PHY_DX8SL4DXCTL2_OFFSET 0XFD08152C +#undef DDR_PHY_DX8SL4IOCR_OFFSET +#define DDR_PHY_DX8SL4IOCR_OFFSET 0XFD081530 +#undef DDR_PHY_DX8SLBDQSCTL_OFFSET +#define DDR_PHY_DX8SLBDQSCTL_OFFSET 0XFD0817DC +#undef DDR_PHY_PIR_OFFSET +#define DDR_PHY_PIR_OFFSET 0XFD080004 + +/*DDR block level reset inside of the DDR Sub System*/ +#undef CRF_APB_RST_DDR_SS_DDR_RESET_DEFVAL +#undef CRF_APB_RST_DDR_SS_DDR_RESET_SHIFT +#undef CRF_APB_RST_DDR_SS_DDR_RESET_MASK +#define CRF_APB_RST_DDR_SS_DDR_RESET_DEFVAL 0x0000000F +#define CRF_APB_RST_DDR_SS_DDR_RESET_SHIFT 3 +#define CRF_APB_RST_DDR_SS_DDR_RESET_MASK 0x00000008U + +/*Indicates the configuration of the device used in the system. - 00 - x4 device - 01 - x8 device - 10 - x16 device - 11 - x32 + evice*/ +#undef DDRC_MSTR_DEVICE_CONFIG_DEFVAL +#undef DDRC_MSTR_DEVICE_CONFIG_SHIFT +#undef DDRC_MSTR_DEVICE_CONFIG_MASK +#define DDRC_MSTR_DEVICE_CONFIG_DEFVAL 0x03040001 +#define DDRC_MSTR_DEVICE_CONFIG_SHIFT 30 +#define DDRC_MSTR_DEVICE_CONFIG_MASK 0xC0000000U + +/*Choose which registers are used. - 0 - Original registers - 1 - Shadow registers*/ +#undef DDRC_MSTR_FREQUENCY_MODE_DEFVAL +#undef DDRC_MSTR_FREQUENCY_MODE_SHIFT +#undef DDRC_MSTR_FREQUENCY_MODE_MASK +#define DDRC_MSTR_FREQUENCY_MODE_DEFVAL 0x03040001 +#define DDRC_MSTR_FREQUENCY_MODE_SHIFT 29 +#define DDRC_MSTR_FREQUENCY_MODE_MASK 0x20000000U + +/*Only present for multi-rank configurations. Each bit represents one rank. For two-rank configurations, only bits[25:24] are p + esent. - 1 - populated - 0 - unpopulated LSB is the lowest rank number. For 2 ranks following combinations are legal: - 01 - + ne rank - 11 - Two ranks - Others - Reserved. For 4 ranks following combinations are legal: - 0001 - One rank - 0011 - Two ra + ks - 1111 - Four ranks*/ +#undef DDRC_MSTR_ACTIVE_RANKS_DEFVAL +#undef DDRC_MSTR_ACTIVE_RANKS_SHIFT +#undef DDRC_MSTR_ACTIVE_RANKS_MASK +#define DDRC_MSTR_ACTIVE_RANKS_DEFVAL 0x03040001 +#define DDRC_MSTR_ACTIVE_RANKS_SHIFT 24 +#define DDRC_MSTR_ACTIVE_RANKS_MASK 0x03000000U + +/*SDRAM burst length used: - 0001 - Burst length of 2 (only supported for mDDR) - 0010 - Burst length of 4 - 0100 - Burst lengt + of 8 - 1000 - Burst length of 16 (only supported for mDDR, LPDDR2, and LPDDR4) All other values are reserved. This controls + he burst size used to access the SDRAM. This must match the burst length mode register setting in the SDRAM. (For BC4/8 on-th + -fly mode of DDR3 and DDR4, set this field to 0x0100) Burst length of 2 is not supported with AXI ports when MEMC_BURST_LENGT + is 8. Burst length of 2 is only supported with MEMC_FREQ_RATIO = 1*/ +#undef DDRC_MSTR_BURST_RDWR_DEFVAL +#undef DDRC_MSTR_BURST_RDWR_SHIFT +#undef DDRC_MSTR_BURST_RDWR_MASK +#define DDRC_MSTR_BURST_RDWR_DEFVAL 0x03040001 +#define DDRC_MSTR_BURST_RDWR_SHIFT 16 +#define DDRC_MSTR_BURST_RDWR_MASK 0x000F0000U + +/*Set to 1 when the uMCTL2 and DRAM has to be put in DLL-off mode for low frequency operation. Set to 0 to put uMCTL2 and DRAM + n DLL-on mode for normal frequency operation. If DDR4 CRC/parity retry is enabled (CRCPARCTL1.crc_parity_retry_enable = 1), d + l_off_mode is not supported, and this bit must be set to '0'.*/ +#undef DDRC_MSTR_DLL_OFF_MODE_DEFVAL +#undef DDRC_MSTR_DLL_OFF_MODE_SHIFT +#undef DDRC_MSTR_DLL_OFF_MODE_MASK +#define DDRC_MSTR_DLL_OFF_MODE_DEFVAL 0x03040001 +#define DDRC_MSTR_DLL_OFF_MODE_SHIFT 15 +#define DDRC_MSTR_DLL_OFF_MODE_MASK 0x00008000U + +/*Selects proportion of DQ bus width that is used by the SDRAM - 00 - Full DQ bus width to SDRAM - 01 - Half DQ bus width to SD + AM - 10 - Quarter DQ bus width to SDRAM - 11 - Reserved. Note that half bus width mode is only supported when the SDRAM bus w + dth is a multiple of 16, and quarter bus width mode is only supported when the SDRAM bus width is a multiple of 32 and the co + figuration parameter MEMC_QBUS_SUPPORT is set. Bus width refers to DQ bus width (excluding any ECC width).*/ +#undef DDRC_MSTR_DATA_BUS_WIDTH_DEFVAL +#undef DDRC_MSTR_DATA_BUS_WIDTH_SHIFT +#undef DDRC_MSTR_DATA_BUS_WIDTH_MASK +#define DDRC_MSTR_DATA_BUS_WIDTH_DEFVAL 0x03040001 +#define DDRC_MSTR_DATA_BUS_WIDTH_SHIFT 12 +#define DDRC_MSTR_DATA_BUS_WIDTH_MASK 0x00003000U + +/*1 indicates put the DRAM in geardown mode (2N) and 0 indicates put the DRAM in normal mode (1N). This register can be changed + only when the Controller is in self-refresh mode. This signal must be set the same value as MR3 bit A3. Note: Geardown mode + s not supported if the configuration parameter MEMC_CMD_RTN2IDLE is set*/ +#undef DDRC_MSTR_GEARDOWN_MODE_DEFVAL +#undef DDRC_MSTR_GEARDOWN_MODE_SHIFT +#undef DDRC_MSTR_GEARDOWN_MODE_MASK +#define DDRC_MSTR_GEARDOWN_MODE_DEFVAL 0x03040001 +#define DDRC_MSTR_GEARDOWN_MODE_SHIFT 11 +#define DDRC_MSTR_GEARDOWN_MODE_MASK 0x00000800U + +/*If 1, then uMCTL2 uses 2T timing. Otherwise, uses 1T timing. In 2T timing, all command signals (except chip select) are held + or 2 clocks on the SDRAM bus. Chip select is asserted on the second cycle of the command Note: 2T timing is not supported in + PDDR2/LPDDR3/LPDDR4 mode Note: 2T timing is not supported if the configuration parameter MEMC_CMD_RTN2IDLE is set Note: 2T ti + ing is not supported in DDR4 geardown mode.*/ +#undef DDRC_MSTR_EN_2T_TIMING_MODE_DEFVAL +#undef DDRC_MSTR_EN_2T_TIMING_MODE_SHIFT +#undef DDRC_MSTR_EN_2T_TIMING_MODE_MASK +#define DDRC_MSTR_EN_2T_TIMING_MODE_DEFVAL 0x03040001 +#define DDRC_MSTR_EN_2T_TIMING_MODE_SHIFT 10 +#define DDRC_MSTR_EN_2T_TIMING_MODE_MASK 0x00000400U + +/*When set, enable burst-chop in DDR3/DDR4. Burst Chop for Reads is exercised only in HIF configurations (UMCTL2_INCL_ARB not s + t) and if in full bus width mode (MSTR.data_bus_width = 00). Burst Chop for Writes is exercised only if Partial Writes enable + (UMCTL2_PARTIAL_WR=1) and if CRC is disabled (CRCPARCTL1.crc_enable = 0). If DDR4 CRC/parity retry is enabled (CRCPARCTL1.cr + _parity_retry_enable = 1), burst chop is not supported, and this bit must be set to '0'*/ +#undef DDRC_MSTR_BURSTCHOP_DEFVAL +#undef DDRC_MSTR_BURSTCHOP_SHIFT +#undef DDRC_MSTR_BURSTCHOP_MASK +#define DDRC_MSTR_BURSTCHOP_DEFVAL 0x03040001 +#define DDRC_MSTR_BURSTCHOP_SHIFT 9 +#define DDRC_MSTR_BURSTCHOP_MASK 0x00000200U + +/*Select LPDDR4 SDRAM - 1 - LPDDR4 SDRAM device in use. - 0 - non-LPDDR4 device in use Present only in designs configured to su + port LPDDR4.*/ +#undef DDRC_MSTR_LPDDR4_DEFVAL +#undef DDRC_MSTR_LPDDR4_SHIFT +#undef DDRC_MSTR_LPDDR4_MASK +#define DDRC_MSTR_LPDDR4_DEFVAL 0x03040001 +#define DDRC_MSTR_LPDDR4_SHIFT 5 +#define DDRC_MSTR_LPDDR4_MASK 0x00000020U + +/*Select DDR4 SDRAM - 1 - DDR4 SDRAM device in use. - 0 - non-DDR4 device in use Present only in designs configured to support + DR4.*/ +#undef DDRC_MSTR_DDR4_DEFVAL +#undef DDRC_MSTR_DDR4_SHIFT +#undef DDRC_MSTR_DDR4_MASK +#define DDRC_MSTR_DDR4_DEFVAL 0x03040001 +#define DDRC_MSTR_DDR4_SHIFT 4 +#define DDRC_MSTR_DDR4_MASK 0x00000010U + +/*Select LPDDR3 SDRAM - 1 - LPDDR3 SDRAM device in use. - 0 - non-LPDDR3 device in use Present only in designs configured to su + port LPDDR3.*/ +#undef DDRC_MSTR_LPDDR3_DEFVAL +#undef DDRC_MSTR_LPDDR3_SHIFT +#undef DDRC_MSTR_LPDDR3_MASK +#define DDRC_MSTR_LPDDR3_DEFVAL 0x03040001 +#define DDRC_MSTR_LPDDR3_SHIFT 3 +#define DDRC_MSTR_LPDDR3_MASK 0x00000008U + +/*Select LPDDR2 SDRAM - 1 - LPDDR2 SDRAM device in use. - 0 - non-LPDDR2 device in use Present only in designs configured to su + port LPDDR2.*/ +#undef DDRC_MSTR_LPDDR2_DEFVAL +#undef DDRC_MSTR_LPDDR2_SHIFT +#undef DDRC_MSTR_LPDDR2_MASK +#define DDRC_MSTR_LPDDR2_DEFVAL 0x03040001 +#define DDRC_MSTR_LPDDR2_SHIFT 2 +#define DDRC_MSTR_LPDDR2_MASK 0x00000004U + +/*Select DDR3 SDRAM - 1 - DDR3 SDRAM device in use - 0 - non-DDR3 SDRAM device in use Only present in designs that support DDR3 + */ +#undef DDRC_MSTR_DDR3_DEFVAL +#undef DDRC_MSTR_DDR3_SHIFT +#undef DDRC_MSTR_DDR3_MASK +#define DDRC_MSTR_DDR3_DEFVAL 0x03040001 +#define DDRC_MSTR_DDR3_SHIFT 0 +#define DDRC_MSTR_DDR3_MASK 0x00000001U + +/*Setting this register bit to 1 triggers a mode register read or write operation. When the MR operation is complete, the uMCTL + automatically clears this bit. The other register fields of this register must be written in a separate APB transaction, bef + re setting this mr_wr bit. It is recommended NOT to set this signal if in Init, Deep power-down or MPSM operating modes.*/ +#undef DDRC_MRCTRL0_MR_WR_DEFVAL +#undef DDRC_MRCTRL0_MR_WR_SHIFT +#undef DDRC_MRCTRL0_MR_WR_MASK +#define DDRC_MRCTRL0_MR_WR_DEFVAL 0x00000030 +#define DDRC_MRCTRL0_MR_WR_SHIFT 31 +#define DDRC_MRCTRL0_MR_WR_MASK 0x80000000U + +/*Address of the mode register that is to be written to. - 0000 - MR0 - 0001 - MR1 - 0010 - MR2 - 0011 - MR3 - 0100 - MR4 - 010 + - MR5 - 0110 - MR6 - 0111 - MR7 Don't Care for LPDDR2/LPDDR3/LPDDR4 (see MRCTRL1.mr_data for mode register addressing in LPD + R2/LPDDR3/LPDDR4) This signal is also used for writing to control words of RDIMMs. In that case, it corresponds to the bank a + dress bits sent to the RDIMM In case of DDR4, the bit[3:2] corresponds to the bank group bits. Therefore, the bit[3] as well + s the bit[2:0] must be set to an appropriate value which is considered both the Address Mirroring of UDIMMs/RDIMMs and the Ou + put Inversion of RDIMMs.*/ +#undef DDRC_MRCTRL0_MR_ADDR_DEFVAL +#undef DDRC_MRCTRL0_MR_ADDR_SHIFT +#undef DDRC_MRCTRL0_MR_ADDR_MASK +#define DDRC_MRCTRL0_MR_ADDR_DEFVAL 0x00000030 +#define DDRC_MRCTRL0_MR_ADDR_SHIFT 12 +#define DDRC_MRCTRL0_MR_ADDR_MASK 0x0000F000U + +/*Controls which rank is accessed by MRCTRL0.mr_wr. Normally, it is desired to access all ranks, so all bits should be set to 1 + However, for multi-rank UDIMMs/RDIMMs which implement address mirroring, it may be necessary to access ranks individually. E + amples (assume uMCTL2 is configured for 4 ranks): - 0x1 - select rank 0 only - 0x2 - select rank 1 only - 0x5 - select ranks + and 2 - 0xA - select ranks 1 and 3 - 0xF - select ranks 0, 1, 2 and 3*/ +#undef DDRC_MRCTRL0_MR_RANK_DEFVAL +#undef DDRC_MRCTRL0_MR_RANK_SHIFT +#undef DDRC_MRCTRL0_MR_RANK_MASK +#define DDRC_MRCTRL0_MR_RANK_DEFVAL 0x00000030 +#define DDRC_MRCTRL0_MR_RANK_SHIFT 4 +#define DDRC_MRCTRL0_MR_RANK_MASK 0x00000030U + +/*Indicates whether Software intervention is allowed via MRCTRL0/MRCTRL1 before automatic SDRAM initialization routine or not. + or DDR4, this bit can be used to initialize the DDR4 RCD (MR7) before automatic SDRAM initialization. For LPDDR4, this bit ca + be used to program additional mode registers before automatic SDRAM initialization if necessary. Note: This must be cleared + o 0 after completing Software operation. Otherwise, SDRAM initialization routine will not re-start. - 0 - Software interventi + n is not allowed - 1 - Software intervention is allowed*/ +#undef DDRC_MRCTRL0_SW_INIT_INT_DEFVAL +#undef DDRC_MRCTRL0_SW_INIT_INT_SHIFT +#undef DDRC_MRCTRL0_SW_INIT_INT_MASK +#define DDRC_MRCTRL0_SW_INIT_INT_DEFVAL 0x00000030 +#define DDRC_MRCTRL0_SW_INIT_INT_SHIFT 3 +#define DDRC_MRCTRL0_SW_INIT_INT_MASK 0x00000008U + +/*Indicates whether the mode register operation is MRS in PDA mode or not - 0 - MRS - 1 - MRS in Per DRAM Addressability mode*/ +#undef DDRC_MRCTRL0_PDA_EN_DEFVAL +#undef DDRC_MRCTRL0_PDA_EN_SHIFT +#undef DDRC_MRCTRL0_PDA_EN_MASK +#define DDRC_MRCTRL0_PDA_EN_DEFVAL 0x00000030 +#define DDRC_MRCTRL0_PDA_EN_SHIFT 2 +#define DDRC_MRCTRL0_PDA_EN_MASK 0x00000004U + +/*Indicates whether the mode register operation is MRS or WR/RD for MPR (only supported for DDR4) - 0 - MRS - 1 - WR/RD for MPR*/ +#undef DDRC_MRCTRL0_MPR_EN_DEFVAL +#undef DDRC_MRCTRL0_MPR_EN_SHIFT +#undef DDRC_MRCTRL0_MPR_EN_MASK +#define DDRC_MRCTRL0_MPR_EN_DEFVAL 0x00000030 +#define DDRC_MRCTRL0_MPR_EN_SHIFT 1 +#define DDRC_MRCTRL0_MPR_EN_MASK 0x00000002U + +/*Indicates whether the mode register operation is read or write. Only used for LPDDR2/LPDDR3/LPDDR4/DDR4. - 0 - Write - 1 - Re + d*/ +#undef DDRC_MRCTRL0_MR_TYPE_DEFVAL +#undef DDRC_MRCTRL0_MR_TYPE_SHIFT +#undef DDRC_MRCTRL0_MR_TYPE_MASK +#define DDRC_MRCTRL0_MR_TYPE_DEFVAL 0x00000030 +#define DDRC_MRCTRL0_MR_TYPE_SHIFT 0 +#define DDRC_MRCTRL0_MR_TYPE_MASK 0x00000001U + +/*Derate value of tRC for LPDDR4 - 0 - Derating uses +1. - 1 - Derating uses +2. - 2 - Derating uses +3. - 3 - Derating uses +4 + Present only in designs configured to support LPDDR4. The required number of cycles for derating can be determined by dividi + g 3.75ns by the core_ddrc_core_clk period, and rounding up the next integer.*/ +#undef DDRC_DERATEEN_RC_DERATE_VALUE_DEFVAL +#undef DDRC_DERATEEN_RC_DERATE_VALUE_SHIFT +#undef DDRC_DERATEEN_RC_DERATE_VALUE_MASK +#define DDRC_DERATEEN_RC_DERATE_VALUE_DEFVAL 0x00000000 +#define DDRC_DERATEEN_RC_DERATE_VALUE_SHIFT 8 +#define DDRC_DERATEEN_RC_DERATE_VALUE_MASK 0x00000300U + +/*Derate byte Present only in designs configured to support LPDDR2/LPDDR3/LPDDR4 Indicates which byte of the MRR data is used f + r derating. The maximum valid value depends on MEMC_DRAM_TOTAL_DATA_WIDTH.*/ +#undef DDRC_DERATEEN_DERATE_BYTE_DEFVAL +#undef DDRC_DERATEEN_DERATE_BYTE_SHIFT +#undef DDRC_DERATEEN_DERATE_BYTE_MASK +#define DDRC_DERATEEN_DERATE_BYTE_DEFVAL 0x00000000 +#define DDRC_DERATEEN_DERATE_BYTE_SHIFT 4 +#define DDRC_DERATEEN_DERATE_BYTE_MASK 0x000000F0U + +/*Derate value - 0 - Derating uses +1. - 1 - Derating uses +2. Present only in designs configured to support LPDDR2/LPDDR3/LPDD + 4 Set to 0 for all LPDDR2 speed grades as derating value of +1.875 ns is less than a core_ddrc_core_clk period. Can be 0 or 1 + for LPDDR3/LPDDR4, depending if +1.875 ns is less than a core_ddrc_core_clk period or not.*/ +#undef DDRC_DERATEEN_DERATE_VALUE_DEFVAL +#undef DDRC_DERATEEN_DERATE_VALUE_SHIFT +#undef DDRC_DERATEEN_DERATE_VALUE_MASK +#define DDRC_DERATEEN_DERATE_VALUE_DEFVAL 0x00000000 +#define DDRC_DERATEEN_DERATE_VALUE_SHIFT 1 +#define DDRC_DERATEEN_DERATE_VALUE_MASK 0x00000002U + +/*Enables derating - 0 - Timing parameter derating is disabled - 1 - Timing parameter derating is enabled using MR4 read value. + Present only in designs configured to support LPDDR2/LPDDR3/LPDDR4 This field must be set to '0' for non-LPDDR2/LPDDR3/LPDDR4 + mode.*/ +#undef DDRC_DERATEEN_DERATE_ENABLE_DEFVAL +#undef DDRC_DERATEEN_DERATE_ENABLE_SHIFT +#undef DDRC_DERATEEN_DERATE_ENABLE_MASK +#define DDRC_DERATEEN_DERATE_ENABLE_DEFVAL 0x00000000 +#define DDRC_DERATEEN_DERATE_ENABLE_SHIFT 0 +#define DDRC_DERATEEN_DERATE_ENABLE_MASK 0x00000001U + +/*Interval between two MR4 reads, used to derate the timing parameters. Present only in designs configured to support LPDDR2/LP + DR3/LPDDR4. This register must not be set to zero*/ +#undef DDRC_DERATEINT_MR4_READ_INTERVAL_DEFVAL +#undef DDRC_DERATEINT_MR4_READ_INTERVAL_SHIFT +#undef DDRC_DERATEINT_MR4_READ_INTERVAL_MASK +#define DDRC_DERATEINT_MR4_READ_INTERVAL_DEFVAL +#define DDRC_DERATEINT_MR4_READ_INTERVAL_SHIFT 0 +#define DDRC_DERATEINT_MR4_READ_INTERVAL_MASK 0xFFFFFFFFU + +/*Self refresh state is an intermediate state to enter to Self refresh power down state or exit Self refresh power down state f + r LPDDR4. This register controls transition from the Self refresh state. - 1 - Prohibit transition from Self refresh state - + - Allow transition from Self refresh state*/ +#undef DDRC_PWRCTL_STAY_IN_SELFREF_DEFVAL +#undef DDRC_PWRCTL_STAY_IN_SELFREF_SHIFT +#undef DDRC_PWRCTL_STAY_IN_SELFREF_MASK +#define DDRC_PWRCTL_STAY_IN_SELFREF_DEFVAL 0x00000000 +#define DDRC_PWRCTL_STAY_IN_SELFREF_SHIFT 6 +#define DDRC_PWRCTL_STAY_IN_SELFREF_MASK 0x00000040U + +/*A value of 1 to this register causes system to move to Self Refresh state immediately, as long as it is not in INIT or DPD/MP + M operating_mode. This is referred to as Software Entry/Exit to Self Refresh. - 1 - Software Entry to Self Refresh - 0 - Soft + are Exit from Self Refresh*/ +#undef DDRC_PWRCTL_SELFREF_SW_DEFVAL +#undef DDRC_PWRCTL_SELFREF_SW_SHIFT +#undef DDRC_PWRCTL_SELFREF_SW_MASK +#define DDRC_PWRCTL_SELFREF_SW_DEFVAL 0x00000000 +#define DDRC_PWRCTL_SELFREF_SW_SHIFT 5 +#define DDRC_PWRCTL_SELFREF_SW_MASK 0x00000020U + +/*When this is 1, the uMCTL2 puts the SDRAM into maximum power saving mode when the transaction store is empty. This register m + st be reset to '0' to bring uMCTL2 out of maximum power saving mode. Present only in designs configured to support DDR4. For + on-DDR4, this register should not be set to 1. Note that MPSM is not supported when using a DWC DDR PHY, if the PHY parameter + DWC_AC_CS_USE is disabled, as the MPSM exit sequence requires the chip-select signal to toggle. FOR PERFORMANCE ONLY.*/ +#undef DDRC_PWRCTL_MPSM_EN_DEFVAL +#undef DDRC_PWRCTL_MPSM_EN_SHIFT +#undef DDRC_PWRCTL_MPSM_EN_MASK +#define DDRC_PWRCTL_MPSM_EN_DEFVAL 0x00000000 +#define DDRC_PWRCTL_MPSM_EN_SHIFT 4 +#define DDRC_PWRCTL_MPSM_EN_MASK 0x00000010U + +/*Enable the assertion of dfi_dram_clk_disable whenever a clock is not required by the SDRAM. If set to 0, dfi_dram_clk_disable + is never asserted. Assertion of dfi_dram_clk_disable is as follows: In DDR2/DDR3, can only be asserted in Self Refresh. In DD + 4, can be asserted in following: - in Self Refresh. - in Maximum Power Saving Mode In mDDR/LPDDR2/LPDDR3, can be asserted in + ollowing: - in Self Refresh - in Power Down - in Deep Power Down - during Normal operation (Clock Stop) In LPDDR4, can be ass + rted in following: - in Self Refresh Power Down - in Power Down - during Normal operation (Clock Stop)*/ +#undef DDRC_PWRCTL_EN_DFI_DRAM_CLK_DISABLE_DEFVAL +#undef DDRC_PWRCTL_EN_DFI_DRAM_CLK_DISABLE_SHIFT +#undef DDRC_PWRCTL_EN_DFI_DRAM_CLK_DISABLE_MASK +#define DDRC_PWRCTL_EN_DFI_DRAM_CLK_DISABLE_DEFVAL 0x00000000 +#define DDRC_PWRCTL_EN_DFI_DRAM_CLK_DISABLE_SHIFT 3 +#define DDRC_PWRCTL_EN_DFI_DRAM_CLK_DISABLE_MASK 0x00000008U + +/*When this is 1, uMCTL2 puts the SDRAM into deep power-down mode when the transaction store is empty. This register must be re + et to '0' to bring uMCTL2 out of deep power-down mode. Controller performs automatic SDRAM initialization on deep power-down + xit. Present only in designs configured to support mDDR or LPDDR2 or LPDDR3. For non-mDDR/non-LPDDR2/non-LPDDR3, this registe + should not be set to 1. FOR PERFORMANCE ONLY.*/ +#undef DDRC_PWRCTL_DEEPPOWERDOWN_EN_DEFVAL +#undef DDRC_PWRCTL_DEEPPOWERDOWN_EN_SHIFT +#undef DDRC_PWRCTL_DEEPPOWERDOWN_EN_MASK +#define DDRC_PWRCTL_DEEPPOWERDOWN_EN_DEFVAL 0x00000000 +#define DDRC_PWRCTL_DEEPPOWERDOWN_EN_SHIFT 2 +#define DDRC_PWRCTL_DEEPPOWERDOWN_EN_MASK 0x00000004U + +/*If true then the uMCTL2 goes into power-down after a programmable number of cycles 'maximum idle clocks before power down' (P + RTMG.powerdown_to_x32). This register bit may be re-programmed during the course of normal operation.*/ +#undef DDRC_PWRCTL_POWERDOWN_EN_DEFVAL +#undef DDRC_PWRCTL_POWERDOWN_EN_SHIFT +#undef DDRC_PWRCTL_POWERDOWN_EN_MASK +#define DDRC_PWRCTL_POWERDOWN_EN_DEFVAL 0x00000000 +#define DDRC_PWRCTL_POWERDOWN_EN_SHIFT 1 +#define DDRC_PWRCTL_POWERDOWN_EN_MASK 0x00000002U + +/*If true then the uMCTL2 puts the SDRAM into Self Refresh after a programmable number of cycles 'maximum idle clocks before Se + f Refresh (PWRTMG.selfref_to_x32)'. This register bit may be re-programmed during the course of normal operation.*/ +#undef DDRC_PWRCTL_SELFREF_EN_DEFVAL +#undef DDRC_PWRCTL_SELFREF_EN_SHIFT +#undef DDRC_PWRCTL_SELFREF_EN_MASK +#define DDRC_PWRCTL_SELFREF_EN_DEFVAL 0x00000000 +#define DDRC_PWRCTL_SELFREF_EN_SHIFT 0 +#define DDRC_PWRCTL_SELFREF_EN_MASK 0x00000001U + +/*After this many clocks of NOP or deselect the uMCTL2 automatically puts the SDRAM into Self Refresh. This must be enabled in + he PWRCTL.selfref_en. Unit: Multiples of 32 clocks. FOR PERFORMANCE ONLY.*/ +#undef DDRC_PWRTMG_SELFREF_TO_X32_DEFVAL +#undef DDRC_PWRTMG_SELFREF_TO_X32_SHIFT +#undef DDRC_PWRTMG_SELFREF_TO_X32_MASK +#define DDRC_PWRTMG_SELFREF_TO_X32_DEFVAL 0x00402010 +#define DDRC_PWRTMG_SELFREF_TO_X32_SHIFT 16 +#define DDRC_PWRTMG_SELFREF_TO_X32_MASK 0x00FF0000U + +/*Minimum deep power-down time. For mDDR, value from the JEDEC specification is 0 as mDDR exits from deep power-down mode immed + ately after PWRCTL.deeppowerdown_en is de-asserted. For LPDDR2/LPDDR3, value from the JEDEC specification is 500us. Unit: Mul + iples of 4096 clocks. Present only in designs configured to support mDDR, LPDDR2 or LPDDR3. FOR PERFORMANCE ONLY.*/ +#undef DDRC_PWRTMG_T_DPD_X4096_DEFVAL +#undef DDRC_PWRTMG_T_DPD_X4096_SHIFT +#undef DDRC_PWRTMG_T_DPD_X4096_MASK +#define DDRC_PWRTMG_T_DPD_X4096_DEFVAL 0x00402010 +#define DDRC_PWRTMG_T_DPD_X4096_SHIFT 8 +#define DDRC_PWRTMG_T_DPD_X4096_MASK 0x0000FF00U + +/*After this many clocks of NOP or deselect the uMCTL2 automatically puts the SDRAM into power-down. This must be enabled in th + PWRCTL.powerdown_en. Unit: Multiples of 32 clocks FOR PERFORMANCE ONLY.*/ +#undef DDRC_PWRTMG_POWERDOWN_TO_X32_DEFVAL +#undef DDRC_PWRTMG_POWERDOWN_TO_X32_SHIFT +#undef DDRC_PWRTMG_POWERDOWN_TO_X32_MASK +#define DDRC_PWRTMG_POWERDOWN_TO_X32_DEFVAL 0x00402010 +#define DDRC_PWRTMG_POWERDOWN_TO_X32_SHIFT 0 +#define DDRC_PWRTMG_POWERDOWN_TO_X32_MASK 0x0000001FU + +/*Threshold value in number of clock cycles before the critical refresh or page timer expires. A critical refresh is to be issu + d before this threshold is reached. It is recommended that this not be changed from the default value, currently shown as 0x2 + It must always be less than internally used t_rfc_nom_x32. Note that, in LPDDR2/LPDDR3/LPDDR4, internally used t_rfc_nom_x32 + may be equal to RFSHTMG.t_rfc_nom_x32>>2 if derating is enabled (DERATEEN.derate_enable=1). Otherwise, internally used t_rfc_ + om_x32 will be equal to RFSHTMG.t_rfc_nom_x32. Unit: Multiples of 32 clocks.*/ +#undef DDRC_RFSHCTL0_REFRESH_MARGIN_DEFVAL +#undef DDRC_RFSHCTL0_REFRESH_MARGIN_SHIFT +#undef DDRC_RFSHCTL0_REFRESH_MARGIN_MASK +#define DDRC_RFSHCTL0_REFRESH_MARGIN_DEFVAL 0x00210000 +#define DDRC_RFSHCTL0_REFRESH_MARGIN_SHIFT 20 +#define DDRC_RFSHCTL0_REFRESH_MARGIN_MASK 0x00F00000U + +/*If the refresh timer (tRFCnom, also known as tREFI) has expired at least once, but it has not expired (RFSHCTL0.refresh_burst + 1) times yet, then a speculative refresh may be performed. A speculative refresh is a refresh performed at a time when refres + would be useful, but before it is absolutely required. When the SDRAM bus is idle for a period of time determined by this RF + HCTL0.refresh_to_x32 and the refresh timer has expired at least once since the last refresh, then a speculative refresh is pe + formed. Speculative refreshes continues successively until there are no refreshes pending or until new reads or writes are is + ued to the uMCTL2. FOR PERFORMANCE ONLY.*/ +#undef DDRC_RFSHCTL0_REFRESH_TO_X32_DEFVAL +#undef DDRC_RFSHCTL0_REFRESH_TO_X32_SHIFT +#undef DDRC_RFSHCTL0_REFRESH_TO_X32_MASK +#define DDRC_RFSHCTL0_REFRESH_TO_X32_DEFVAL 0x00210000 +#define DDRC_RFSHCTL0_REFRESH_TO_X32_SHIFT 12 +#define DDRC_RFSHCTL0_REFRESH_TO_X32_MASK 0x0001F000U + +/*The programmed value + 1 is the number of refresh timeouts that is allowed to accumulate before traffic is blocked and the re + reshes are forced to execute. Closing pages to perform a refresh is a one-time penalty that must be paid for each group of re + reshes. Therefore, performing refreshes in a burst reduces the per-refresh penalty of these page closings. Higher numbers for + RFSHCTL.refresh_burst slightly increases utilization; lower numbers decreases the worst-case latency associated with refreshe + . - 0 - single refresh - 1 - burst-of-2 refresh - 7 - burst-of-8 refresh For information on burst refresh feature refer to se + tion 3.9 of DDR2 JEDEC specification - JESD79-2F.pdf. For DDR2/3, the refresh is always per-rank and not per-bank. The rank r + fresh can be accumulated over 8*tREFI cycles using the burst refresh feature. In DDR4 mode, according to Fine Granularity fea + ure, 8 refreshes can be postponed in 1X mode, 16 refreshes in 2X mode and 32 refreshes in 4X mode. If using PHY-initiated upd + tes, care must be taken in the setting of RFSHCTL0.refresh_burst, to ensure that tRFCmax is not violated due to a PHY-initiat + d update occurring shortly before a refresh burst was due. In this situation, the refresh burst will be delayed until the PHY + initiated update is complete.*/ +#undef DDRC_RFSHCTL0_REFRESH_BURST_DEFVAL +#undef DDRC_RFSHCTL0_REFRESH_BURST_SHIFT +#undef DDRC_RFSHCTL0_REFRESH_BURST_MASK +#define DDRC_RFSHCTL0_REFRESH_BURST_DEFVAL 0x00210000 +#define DDRC_RFSHCTL0_REFRESH_BURST_SHIFT 4 +#define DDRC_RFSHCTL0_REFRESH_BURST_MASK 0x000001F0U + +/*- 1 - Per bank refresh; - 0 - All bank refresh. Per bank refresh allows traffic to flow to other banks. Per bank refresh is n + t supported by all LPDDR2 devices but should be supported by all LPDDR3/LPDDR4 devices. Present only in designs configured to + support LPDDR2/LPDDR3/LPDDR4*/ +#undef DDRC_RFSHCTL0_PER_BANK_REFRESH_DEFVAL +#undef DDRC_RFSHCTL0_PER_BANK_REFRESH_SHIFT +#undef DDRC_RFSHCTL0_PER_BANK_REFRESH_MASK +#define DDRC_RFSHCTL0_PER_BANK_REFRESH_DEFVAL 0x00210000 +#define DDRC_RFSHCTL0_PER_BANK_REFRESH_SHIFT 2 +#define DDRC_RFSHCTL0_PER_BANK_REFRESH_MASK 0x00000004U + +/*Fine Granularity Refresh Mode - 000 - Fixed 1x (Normal mode) - 001 - Fixed 2x - 010 - Fixed 4x - 101 - Enable on the fly 2x ( + ot supported) - 110 - Enable on the fly 4x (not supported) - Everything else - reserved Note: The on-the-fly modes is not sup + orted in this version of the uMCTL2. Note: This must be set up while the Controller is in reset or while the Controller is in + self-refresh mode. Changing this during normal operation is not allowed. Making this a dynamic register will be supported in + uture version of the uMCTL2.*/ +#undef DDRC_RFSHCTL3_REFRESH_MODE_DEFVAL +#undef DDRC_RFSHCTL3_REFRESH_MODE_SHIFT +#undef DDRC_RFSHCTL3_REFRESH_MODE_MASK +#define DDRC_RFSHCTL3_REFRESH_MODE_DEFVAL 0x00000000 +#define DDRC_RFSHCTL3_REFRESH_MODE_SHIFT 4 +#define DDRC_RFSHCTL3_REFRESH_MODE_MASK 0x00000070U + +/*Toggle this signal (either from 0 to 1 or from 1 to 0) to indicate that the refresh register(s) have been updated. The value + s automatically updated when exiting reset, so it does not need to be toggled initially.*/ +#undef DDRC_RFSHCTL3_REFRESH_UPDATE_LEVEL_DEFVAL +#undef DDRC_RFSHCTL3_REFRESH_UPDATE_LEVEL_SHIFT +#undef DDRC_RFSHCTL3_REFRESH_UPDATE_LEVEL_MASK +#define DDRC_RFSHCTL3_REFRESH_UPDATE_LEVEL_DEFVAL 0x00000000 +#define DDRC_RFSHCTL3_REFRESH_UPDATE_LEVEL_SHIFT 1 +#define DDRC_RFSHCTL3_REFRESH_UPDATE_LEVEL_MASK 0x00000002U + +/*When '1', disable auto-refresh generated by the uMCTL2. When auto-refresh is disabled, the SoC core must generate refreshes u + ing the registers reg_ddrc_rank0_refresh, reg_ddrc_rank1_refresh, reg_ddrc_rank2_refresh and reg_ddrc_rank3_refresh. When dis + auto_refresh transitions from 0 to 1, any pending refreshes are immediately scheduled by the uMCTL2. If DDR4 CRC/parity retry + is enabled (CRCPARCTL1.crc_parity_retry_enable = 1), disable auto-refresh is not supported, and this bit must be set to '0'. + his register field is changeable on the fly.*/ +#undef DDRC_RFSHCTL3_DIS_AUTO_REFRESH_DEFVAL +#undef DDRC_RFSHCTL3_DIS_AUTO_REFRESH_SHIFT +#undef DDRC_RFSHCTL3_DIS_AUTO_REFRESH_MASK +#define DDRC_RFSHCTL3_DIS_AUTO_REFRESH_DEFVAL 0x00000000 +#define DDRC_RFSHCTL3_DIS_AUTO_REFRESH_SHIFT 0 +#define DDRC_RFSHCTL3_DIS_AUTO_REFRESH_MASK 0x00000001U + +/*tREFI: Average time interval between refreshes per rank (Specification: 7.8us for DDR2, DDR3 and DDR4. See JEDEC specificatio + for mDDR, LPDDR2, LPDDR3 and LPDDR4). For LPDDR2/LPDDR3/LPDDR4: - if using all-bank refreshes (RFSHCTL0.per_bank_refresh = 0 + , this register should be set to tREFIab - if using per-bank refreshes (RFSHCTL0.per_bank_refresh = 1), this register should + e set to tREFIpb For configurations with MEMC_FREQ_RATIO=2, program this to (tREFI/2), no rounding up. In DDR4 mode, tREFI va + ue is different depending on the refresh mode. The user should program the appropriate value from the spec based on the value + programmed in the refresh mode register. Note that RFSHTMG.t_rfc_nom_x32 * 32 must be greater than RFSHTMG.t_rfc_min, and RFS + TMG.t_rfc_nom_x32 must be greater than 0x1. Unit: Multiples of 32 clocks.*/ +#undef DDRC_RFSHTMG_T_RFC_NOM_X32_DEFVAL +#undef DDRC_RFSHTMG_T_RFC_NOM_X32_SHIFT +#undef DDRC_RFSHTMG_T_RFC_NOM_X32_MASK +#define DDRC_RFSHTMG_T_RFC_NOM_X32_DEFVAL 0x0062008C +#define DDRC_RFSHTMG_T_RFC_NOM_X32_SHIFT 16 +#define DDRC_RFSHTMG_T_RFC_NOM_X32_MASK 0x0FFF0000U + +/*Used only when LPDDR3 memory type is connected. Should only be changed when uMCTL2 is in reset. Specifies whether to use the + REFBW parameter (required by some LPDDR3 devices which comply with earlier versions of the LPDDR3 JEDEC specification) or not + - 0 - tREFBW parameter not used - 1 - tREFBW parameter used*/ +#undef DDRC_RFSHTMG_LPDDR3_TREFBW_EN_DEFVAL +#undef DDRC_RFSHTMG_LPDDR3_TREFBW_EN_SHIFT +#undef DDRC_RFSHTMG_LPDDR3_TREFBW_EN_MASK +#define DDRC_RFSHTMG_LPDDR3_TREFBW_EN_DEFVAL 0x0062008C +#define DDRC_RFSHTMG_LPDDR3_TREFBW_EN_SHIFT 15 +#define DDRC_RFSHTMG_LPDDR3_TREFBW_EN_MASK 0x00008000U + +/*tRFC (min): Minimum time from refresh to refresh or activate. For MEMC_FREQ_RATIO=1 configurations, t_rfc_min should be set t + RoundUp(tRFCmin/tCK). For MEMC_FREQ_RATIO=2 configurations, t_rfc_min should be set to RoundUp(RoundUp(tRFCmin/tCK)/2). In L + DDR2/LPDDR3/LPDDR4 mode: - if using all-bank refreshes, the tRFCmin value in the above equations is equal to tRFCab - if usin + per-bank refreshes, the tRFCmin value in the above equations is equal to tRFCpb In DDR4 mode, the tRFCmin value in the above + equations is different depending on the refresh mode (fixed 1X,2X,4X) and the device density. The user should program the app + opriate value from the spec based on the 'refresh_mode' and the device density that is used. Unit: Clocks.*/ +#undef DDRC_RFSHTMG_T_RFC_MIN_DEFVAL +#undef DDRC_RFSHTMG_T_RFC_MIN_SHIFT +#undef DDRC_RFSHTMG_T_RFC_MIN_MASK +#define DDRC_RFSHTMG_T_RFC_MIN_DEFVAL 0x0062008C +#define DDRC_RFSHTMG_T_RFC_MIN_SHIFT 0 +#define DDRC_RFSHTMG_T_RFC_MIN_MASK 0x000003FFU + +/*Disable ECC scrubs. Valid only when ECCCFG0.ecc_mode = 3'b100 and MEMC_USE_RMW is defined*/ +#undef DDRC_ECCCFG0_DIS_SCRUB_DEFVAL +#undef DDRC_ECCCFG0_DIS_SCRUB_SHIFT +#undef DDRC_ECCCFG0_DIS_SCRUB_MASK +#define DDRC_ECCCFG0_DIS_SCRUB_DEFVAL 0x00000000 +#define DDRC_ECCCFG0_DIS_SCRUB_SHIFT 4 +#define DDRC_ECCCFG0_DIS_SCRUB_MASK 0x00000010U + +/*ECC mode indicator - 000 - ECC disabled - 100 - ECC enabled - SEC/DED over 1 beat - all other settings are reserved for futur + use*/ +#undef DDRC_ECCCFG0_ECC_MODE_DEFVAL +#undef DDRC_ECCCFG0_ECC_MODE_SHIFT +#undef DDRC_ECCCFG0_ECC_MODE_MASK +#define DDRC_ECCCFG0_ECC_MODE_DEFVAL 0x00000000 +#define DDRC_ECCCFG0_ECC_MODE_SHIFT 0 +#define DDRC_ECCCFG0_ECC_MODE_MASK 0x00000007U + +/*Selects whether to poison 1 or 2 bits - if 0 -> 2-bit (uncorrectable) data poisoning, if 1 -> 1-bit (correctable) data poison + ng, if ECCCFG1.data_poison_en=1*/ +#undef DDRC_ECCCFG1_DATA_POISON_BIT_DEFVAL +#undef DDRC_ECCCFG1_DATA_POISON_BIT_SHIFT +#undef DDRC_ECCCFG1_DATA_POISON_BIT_MASK +#define DDRC_ECCCFG1_DATA_POISON_BIT_DEFVAL 0x00000000 +#define DDRC_ECCCFG1_DATA_POISON_BIT_SHIFT 1 +#define DDRC_ECCCFG1_DATA_POISON_BIT_MASK 0x00000002U + +/*Enable ECC data poisoning - introduces ECC errors on writes to address specified by the ECCPOISONADDR0/1 registers*/ +#undef DDRC_ECCCFG1_DATA_POISON_EN_DEFVAL +#undef DDRC_ECCCFG1_DATA_POISON_EN_SHIFT +#undef DDRC_ECCCFG1_DATA_POISON_EN_MASK +#define DDRC_ECCCFG1_DATA_POISON_EN_DEFVAL 0x00000000 +#define DDRC_ECCCFG1_DATA_POISON_EN_SHIFT 0 +#define DDRC_ECCCFG1_DATA_POISON_EN_MASK 0x00000001U + +/*The maximum number of DFI PHY clock cycles allowed from the assertion of the dfi_rddata_en signal to the assertion of each of + the corresponding bits of the dfi_rddata_valid signal. This corresponds to the DFI timing parameter tphy_rdlat. Refer to PHY + pecification for correct value. This value it only used for detecting read data timeout when DDR4 retry is enabled by CRCPARC + L1.crc_parity_retry_enable=1. Maximum supported value: - 1:1 Frequency mode : DFITMG0.dfi_t_rddata_en + CRCPARCTL1.dfi_t_phy_ + dlat < 'd114 - 1:2 Frequency mode ANDAND DFITMG0.dfi_rddata_use_sdr == 1 : CRCPARCTL1.dfi_t_phy_rdlat < 64 - 1:2 Frequency mo + e ANDAND DFITMG0.dfi_rddata_use_sdr == 0 : DFITMG0.dfi_t_rddata_en + CRCPARCTL1.dfi_t_phy_rdlat < 'd114 Unit: DFI Clocks*/ +#undef DDRC_CRCPARCTL1_DFI_T_PHY_RDLAT_DEFVAL +#undef DDRC_CRCPARCTL1_DFI_T_PHY_RDLAT_SHIFT +#undef DDRC_CRCPARCTL1_DFI_T_PHY_RDLAT_MASK +#define DDRC_CRCPARCTL1_DFI_T_PHY_RDLAT_DEFVAL 0x10000200 +#define DDRC_CRCPARCTL1_DFI_T_PHY_RDLAT_SHIFT 24 +#define DDRC_CRCPARCTL1_DFI_T_PHY_RDLAT_MASK 0x3F000000U + +/*After a Parity or CRC error is flagged on dfi_alert_n signal, the software has an option to read the mode registers in the DR + M before the hardware begins the retry process - 1: Wait for software to read/write the mode registers before hardware begins + the retry. After software is done with its operations, it will clear the alert interrupt register bit - 0: Hardware can begin + the retry right away after the dfi_alert_n pulse goes away. The value on this register is valid only when retry is enabled (P + RCTRL.crc_parity_retry_enable = 1) If this register is set to 1 and if the software doesn't clear the interrupt register afte + handling the parity/CRC error, then the hardware will not begin the retry process and the system will hang. In the case of P + rity/CRC error, there are two possibilities when the software doesn't reset MR5[4] to 0. - (i) If 'Persistent parity' mode re + ister bit is NOT set: the commands sent during retry and normal operation are executed without parity checking. The value in + he Parity error log register MPR Page 1 is valid. - (ii) If 'Persistent parity' mode register bit is SET: Parity checking is + one for commands sent during retry and normal operation. If multiple errors occur before MR5[4] is cleared, the error log in + PR Page 1 should be treated as 'Don't care'.*/ +#undef DDRC_CRCPARCTL1_ALERT_WAIT_FOR_SW_DEFVAL +#undef DDRC_CRCPARCTL1_ALERT_WAIT_FOR_SW_SHIFT +#undef DDRC_CRCPARCTL1_ALERT_WAIT_FOR_SW_MASK +#define DDRC_CRCPARCTL1_ALERT_WAIT_FOR_SW_DEFVAL 0x10000200 +#define DDRC_CRCPARCTL1_ALERT_WAIT_FOR_SW_SHIFT 9 +#define DDRC_CRCPARCTL1_ALERT_WAIT_FOR_SW_MASK 0x00000200U + +/*- 1: Enable command retry mechanism in case of C/A Parity or CRC error - 0: Disable command retry mechanism when C/A Parity o + CRC features are enabled. Note that retry functionality is not supported if burst chop is enabled (MSTR.burstchop = 1) and/o + disable auto-refresh is enabled (RFSHCTL3.dis_auto_refresh = 1)*/ +#undef DDRC_CRCPARCTL1_CRC_PARITY_RETRY_ENABLE_DEFVAL +#undef DDRC_CRCPARCTL1_CRC_PARITY_RETRY_ENABLE_SHIFT +#undef DDRC_CRCPARCTL1_CRC_PARITY_RETRY_ENABLE_MASK +#define DDRC_CRCPARCTL1_CRC_PARITY_RETRY_ENABLE_DEFVAL 0x10000200 +#define DDRC_CRCPARCTL1_CRC_PARITY_RETRY_ENABLE_SHIFT 8 +#define DDRC_CRCPARCTL1_CRC_PARITY_RETRY_ENABLE_MASK 0x00000100U + +/*CRC Calculation setting register - 1: CRC includes DM signal - 0: CRC not includes DM signal Present only in designs configur + d to support DDR4.*/ +#undef DDRC_CRCPARCTL1_CRC_INC_DM_DEFVAL +#undef DDRC_CRCPARCTL1_CRC_INC_DM_SHIFT +#undef DDRC_CRCPARCTL1_CRC_INC_DM_MASK +#define DDRC_CRCPARCTL1_CRC_INC_DM_DEFVAL 0x10000200 +#define DDRC_CRCPARCTL1_CRC_INC_DM_SHIFT 7 +#define DDRC_CRCPARCTL1_CRC_INC_DM_MASK 0x00000080U + +/*CRC enable Register - 1: Enable generation of CRC - 0: Disable generation of CRC The setting of this register should match th + CRC mode register setting in the DRAM.*/ +#undef DDRC_CRCPARCTL1_CRC_ENABLE_DEFVAL +#undef DDRC_CRCPARCTL1_CRC_ENABLE_SHIFT +#undef DDRC_CRCPARCTL1_CRC_ENABLE_MASK +#define DDRC_CRCPARCTL1_CRC_ENABLE_DEFVAL 0x10000200 +#define DDRC_CRCPARCTL1_CRC_ENABLE_SHIFT 4 +#define DDRC_CRCPARCTL1_CRC_ENABLE_MASK 0x00000010U + +/*C/A Parity enable register - 1: Enable generation of C/A parity and detection of C/A parity error - 0: Disable generation of + /A parity and disable detection of C/A parity error If RCD's parity error detection or SDRAM's parity detection is enabled, t + is register should be 1.*/ +#undef DDRC_CRCPARCTL1_PARITY_ENABLE_DEFVAL +#undef DDRC_CRCPARCTL1_PARITY_ENABLE_SHIFT +#undef DDRC_CRCPARCTL1_PARITY_ENABLE_MASK +#define DDRC_CRCPARCTL1_PARITY_ENABLE_DEFVAL 0x10000200 +#define DDRC_CRCPARCTL1_PARITY_ENABLE_SHIFT 0 +#define DDRC_CRCPARCTL1_PARITY_ENABLE_MASK 0x00000001U + +/*Value from the DRAM spec indicating the maximum width of the dfi_alert_n pulse when a parity error occurs. Recommended values + - tPAR_ALERT_PW.MAX For configurations with MEMC_FREQ_RATIO=2, program this to tPAR_ALERT_PW.MAX/2 and round up to next inte + er value. Values of 0, 1 and 2 are illegal. This value must be greater than CRCPARCTL2.t_crc_alert_pw_max.*/ +#undef DDRC_CRCPARCTL2_T_PAR_ALERT_PW_MAX_DEFVAL +#undef DDRC_CRCPARCTL2_T_PAR_ALERT_PW_MAX_SHIFT +#undef DDRC_CRCPARCTL2_T_PAR_ALERT_PW_MAX_MASK +#define DDRC_CRCPARCTL2_T_PAR_ALERT_PW_MAX_DEFVAL 0x0030050C +#define DDRC_CRCPARCTL2_T_PAR_ALERT_PW_MAX_SHIFT 16 +#define DDRC_CRCPARCTL2_T_PAR_ALERT_PW_MAX_MASK 0x01FF0000U + +/*Value from the DRAM spec indicating the maximum width of the dfi_alert_n pulse when a CRC error occurs. Recommended values: - + tCRC_ALERT_PW.MAX For configurations with MEMC_FREQ_RATIO=2, program this to tCRC_ALERT_PW.MAX/2 and round up to next integer + value. Values of 0, 1 and 2 are illegal. This value must be less than CRCPARCTL2.t_par_alert_pw_max.*/ +#undef DDRC_CRCPARCTL2_T_CRC_ALERT_PW_MAX_DEFVAL +#undef DDRC_CRCPARCTL2_T_CRC_ALERT_PW_MAX_SHIFT +#undef DDRC_CRCPARCTL2_T_CRC_ALERT_PW_MAX_MASK +#define DDRC_CRCPARCTL2_T_CRC_ALERT_PW_MAX_DEFVAL 0x0030050C +#define DDRC_CRCPARCTL2_T_CRC_ALERT_PW_MAX_SHIFT 8 +#define DDRC_CRCPARCTL2_T_CRC_ALERT_PW_MAX_MASK 0x00001F00U + +/*Indicates the maximum duration in number of DRAM clock cycles for which a command should be held in the Command Retry FIFO be + ore it is popped out. Every location in the Command Retry FIFO has an associated down counting timer that will use this regis + er as the start value. The down counting starts when a command is loaded into the FIFO. The timer counts down every 4 DRAM cy + les. When the counter reaches zero, the entry is popped from the FIFO. All the counters are frozen, if a C/A Parity or CRC er + or occurs before the counter reaches zero. The counter is reset to 0, after all the commands in the FIFO are retried. Recomme + ded(minimum) values: - Only C/A Parity is enabled. RoundUp((PHY Command Latency(DRAM CLK) + CAL + RDIMM delay + tPAR_ALERT_ON + max + tPAR_UNKNOWN + PHY Alert Latency(DRAM CLK) + board delay) / 4) + 2 - Both C/A Parity and CRC is enabled/ Only CRC is en + bled. RoundUp((PHY Command Latency(DRAM CLK) + CAL + RDIMM delay + WL + 5(BL10)+ tCRC_ALERT.max + PHY Alert Latency(DRAM CLK) + + board delay) / 4) + 2 Note 1: All value (e.g. tPAR_ALERT_ON) should be in terms of DRAM Clock and round up Note 2: Board de + ay(Command/Alert_n) should be considered. Note 3: Use the worst case(longer) value for PHY Latencies/Board delay Note 4: The + ecommended values are minimum value to be set. For mode detail, See 'Calculation of FIFO Depth' section. Max value can be set + to this register is defined below: - MEMC_BURST_LENGTH == 16 Full bus Mode (CRC=OFF) Max value = UMCTL2_RETRY_CMD_FIFO_DEPTH- + Full bus Mode (CRC=ON) Max value = UMCTL2_RETRY_CMD_FIFO_DEPTH-3 Half bus Mode (CRC=OFF) Max value = UMCTL2_RETRY_CMD_FIFO_D + PTH-4 Half bus Mode (CRC=ON) Max value = UMCTL2_RETRY_CMD_FIFO_DEPTH-6 Quarter bus Mode (CRC=OFF) Max value = UMCTL2_RETRY_CM + _FIFO_DEPTH-8 Quarter bus Mode (CRC=ON) Max value = UMCTL2_RETRY_CMD_FIFO_DEPTH-12 - MEMC_BURST_LENGTH != 16 Full bus Mode (C + C=OFF) Max value = UMCTL2_RETRY_CMD_FIFO_DEPTH-1 Full bus Mode (CRC=ON) Max value = UMCTL2_RETRY_CMD_FIFO_DEPTH-2 Half bus Mo + e (CRC=OFF) Max value = UMCTL2_RETRY_CMD_FIFO_DEPTH-2 Half bus Mode (CRC=ON) Max value = UMCTL2_RETRY_CMD_FIFO_DEPTH-3 Quarte + bus Mode (CRC=OFF) Max value = UMCTL2_RETRY_CMD_FIFO_DEPTH-4 Quarter bus Mode (CRC=ON) Max value = UMCTL2_RETRY_CMD_FIFO_DEP + H-6 Values of 0, 1 and 2 are illegal.*/ +#undef DDRC_CRCPARCTL2_RETRY_FIFO_MAX_HOLD_TIMER_X4_DEFVAL +#undef DDRC_CRCPARCTL2_RETRY_FIFO_MAX_HOLD_TIMER_X4_SHIFT +#undef DDRC_CRCPARCTL2_RETRY_FIFO_MAX_HOLD_TIMER_X4_MASK +#define DDRC_CRCPARCTL2_RETRY_FIFO_MAX_HOLD_TIMER_X4_DEFVAL 0x0030050C +#define DDRC_CRCPARCTL2_RETRY_FIFO_MAX_HOLD_TIMER_X4_SHIFT 0 +#define DDRC_CRCPARCTL2_RETRY_FIFO_MAX_HOLD_TIMER_X4_MASK 0x0000003FU + +/*If lower bit is enabled the SDRAM initialization routine is skipped. The upper bit decides what state the controller starts u + in when reset is removed - 00 - SDRAM Intialization routine is run after power-up - 01 - SDRAM Intialization routine is skip + ed after power-up. Controller starts up in Normal Mode - 11 - SDRAM Intialization routine is skipped after power-up. Controll + r starts up in Self-refresh Mode - 10 - SDRAM Intialization routine is run after power-up. Note: The only 2'b00 is supported + or LPDDR4 in this version of the uMCTL2.*/ +#undef DDRC_INIT0_SKIP_DRAM_INIT_DEFVAL +#undef DDRC_INIT0_SKIP_DRAM_INIT_SHIFT +#undef DDRC_INIT0_SKIP_DRAM_INIT_MASK +#define DDRC_INIT0_SKIP_DRAM_INIT_DEFVAL 0x0002004E +#define DDRC_INIT0_SKIP_DRAM_INIT_SHIFT 30 +#define DDRC_INIT0_SKIP_DRAM_INIT_MASK 0xC0000000U + +/*Cycles to wait after driving CKE high to start the SDRAM initialization sequence. Unit: 1024 clocks. DDR2 typically requires + 400 ns delay, requiring this value to be programmed to 2 at all clock speeds. LPDDR2/LPDDR3 typically requires this to be pr + grammed for a delay of 200 us. LPDDR4 typically requires this to be programmed for a delay of 2 us. For configurations with M + MC_FREQ_RATIO=2, program this to JEDEC spec value divided by 2, and round it up to next integer value.*/ +#undef DDRC_INIT0_POST_CKE_X1024_DEFVAL +#undef DDRC_INIT0_POST_CKE_X1024_SHIFT +#undef DDRC_INIT0_POST_CKE_X1024_MASK +#define DDRC_INIT0_POST_CKE_X1024_DEFVAL 0x0002004E +#define DDRC_INIT0_POST_CKE_X1024_SHIFT 16 +#define DDRC_INIT0_POST_CKE_X1024_MASK 0x03FF0000U + +/*Cycles to wait after reset before driving CKE high to start the SDRAM initialization sequence. Unit: 1024 clock cycles. DDR2 + pecifications typically require this to be programmed for a delay of >= 200 us. LPDDR2/LPDDR3: tINIT1 of 100 ns (min) LPDDR4: + tINIT3 of 2 ms (min) For configurations with MEMC_FREQ_RATIO=2, program this to JEDEC spec value divided by 2, and round it u + to next integer value.*/ +#undef DDRC_INIT0_PRE_CKE_X1024_DEFVAL +#undef DDRC_INIT0_PRE_CKE_X1024_SHIFT +#undef DDRC_INIT0_PRE_CKE_X1024_MASK +#define DDRC_INIT0_PRE_CKE_X1024_DEFVAL 0x0002004E +#define DDRC_INIT0_PRE_CKE_X1024_SHIFT 0 +#define DDRC_INIT0_PRE_CKE_X1024_MASK 0x00000FFFU + +/*Number of cycles to assert SDRAM reset signal during init sequence. This is only present for designs supporting DDR3, DDR4 or + LPDDR4 devices. For use with a DDR PHY, this should be set to a minimum of 1*/ +#undef DDRC_INIT1_DRAM_RSTN_X1024_DEFVAL +#undef DDRC_INIT1_DRAM_RSTN_X1024_SHIFT +#undef DDRC_INIT1_DRAM_RSTN_X1024_MASK +#define DDRC_INIT1_DRAM_RSTN_X1024_DEFVAL 0x00000000 +#define DDRC_INIT1_DRAM_RSTN_X1024_SHIFT 16 +#define DDRC_INIT1_DRAM_RSTN_X1024_MASK 0x01FF0000U + +/*Cycles to wait after completing the SDRAM initialization sequence before starting the dynamic scheduler. Unit: Counts of a gl + bal timer that pulses every 32 clock cycles. There is no known specific requirement for this; it may be set to zero.*/ +#undef DDRC_INIT1_FINAL_WAIT_X32_DEFVAL +#undef DDRC_INIT1_FINAL_WAIT_X32_SHIFT +#undef DDRC_INIT1_FINAL_WAIT_X32_MASK +#define DDRC_INIT1_FINAL_WAIT_X32_DEFVAL 0x00000000 +#define DDRC_INIT1_FINAL_WAIT_X32_SHIFT 8 +#define DDRC_INIT1_FINAL_WAIT_X32_MASK 0x00007F00U + +/*Wait period before driving the OCD complete command to SDRAM. Unit: Counts of a global timer that pulses every 32 clock cycle + . There is no known specific requirement for this; it may be set to zero.*/ +#undef DDRC_INIT1_PRE_OCD_X32_DEFVAL +#undef DDRC_INIT1_PRE_OCD_X32_SHIFT +#undef DDRC_INIT1_PRE_OCD_X32_MASK +#define DDRC_INIT1_PRE_OCD_X32_DEFVAL 0x00000000 +#define DDRC_INIT1_PRE_OCD_X32_SHIFT 0 +#define DDRC_INIT1_PRE_OCD_X32_MASK 0x0000000FU + +/*Idle time after the reset command, tINIT4. Present only in designs configured to support LPDDR2. Unit: 32 clock cycles.*/ +#undef DDRC_INIT2_IDLE_AFTER_RESET_X32_DEFVAL +#undef DDRC_INIT2_IDLE_AFTER_RESET_X32_SHIFT +#undef DDRC_INIT2_IDLE_AFTER_RESET_X32_MASK +#define DDRC_INIT2_IDLE_AFTER_RESET_X32_DEFVAL 0x00000D05 +#define DDRC_INIT2_IDLE_AFTER_RESET_X32_SHIFT 8 +#define DDRC_INIT2_IDLE_AFTER_RESET_X32_MASK 0x0000FF00U + +/*Time to wait after the first CKE high, tINIT2. Present only in designs configured to support LPDDR2/LPDDR3. Unit: 1 clock cyc + e. LPDDR2/LPDDR3 typically requires 5 x tCK delay.*/ +#undef DDRC_INIT2_MIN_STABLE_CLOCK_X1_DEFVAL +#undef DDRC_INIT2_MIN_STABLE_CLOCK_X1_SHIFT +#undef DDRC_INIT2_MIN_STABLE_CLOCK_X1_MASK +#define DDRC_INIT2_MIN_STABLE_CLOCK_X1_DEFVAL 0x00000D05 +#define DDRC_INIT2_MIN_STABLE_CLOCK_X1_SHIFT 0 +#define DDRC_INIT2_MIN_STABLE_CLOCK_X1_MASK 0x0000000FU + +/*DDR2: Value to write to MR register. Bit 8 is for DLL and the setting here is ignored. The uMCTL2 sets this bit appropriately + DDR3/DDR4: Value loaded into MR0 register. mDDR: Value to write to MR register. LPDDR2/LPDDR3/LPDDR4 - Value to write to MR1 + register*/ +#undef DDRC_INIT3_MR_DEFVAL +#undef DDRC_INIT3_MR_SHIFT +#undef DDRC_INIT3_MR_MASK +#define DDRC_INIT3_MR_DEFVAL 0x00000510 +#define DDRC_INIT3_MR_SHIFT 16 +#define DDRC_INIT3_MR_MASK 0xFFFF0000U + +/*DDR2: Value to write to EMR register. Bits 9:7 are for OCD and the setting in this register is ignored. The uMCTL2 sets those + bits appropriately. DDR3/DDR4: Value to write to MR1 register Set bit 7 to 0. If PHY-evaluation mode training is enabled, thi + bit is set appropriately by the uMCTL2 during write leveling. mDDR: Value to write to EMR register. LPDDR2/LPDDR3/LPDDR4 - V + lue to write to MR2 register*/ +#undef DDRC_INIT3_EMR_DEFVAL +#undef DDRC_INIT3_EMR_SHIFT +#undef DDRC_INIT3_EMR_MASK +#define DDRC_INIT3_EMR_DEFVAL 0x00000510 +#define DDRC_INIT3_EMR_SHIFT 0 +#define DDRC_INIT3_EMR_MASK 0x0000FFFFU + +/*DDR2: Value to write to EMR2 register. DDR3/DDR4: Value to write to MR2 register LPDDR2/LPDDR3/LPDDR4: Value to write to MR3 + egister mDDR: Unused*/ +#undef DDRC_INIT4_EMR2_DEFVAL +#undef DDRC_INIT4_EMR2_SHIFT +#undef DDRC_INIT4_EMR2_MASK +#define DDRC_INIT4_EMR2_DEFVAL 0x00000000 +#define DDRC_INIT4_EMR2_SHIFT 16 +#define DDRC_INIT4_EMR2_MASK 0xFFFF0000U + +/*DDR2: Value to write to EMR3 register. DDR3/DDR4: Value to write to MR3 register mDDR/LPDDR2/LPDDR3: Unused LPDDR4: Value to + rite to MR13 register*/ +#undef DDRC_INIT4_EMR3_DEFVAL +#undef DDRC_INIT4_EMR3_SHIFT +#undef DDRC_INIT4_EMR3_MASK +#define DDRC_INIT4_EMR3_DEFVAL 0x00000000 +#define DDRC_INIT4_EMR3_SHIFT 0 +#define DDRC_INIT4_EMR3_MASK 0x0000FFFFU + +/*ZQ initial calibration, tZQINIT. Present only in designs configured to support DDR3 or DDR4 or LPDDR2/LPDDR3. Unit: 32 clock + ycles. DDR3 typically requires 512 clocks. DDR4 requires 1024 clocks. LPDDR2/LPDDR3 requires 1 us.*/ +#undef DDRC_INIT5_DEV_ZQINIT_X32_DEFVAL +#undef DDRC_INIT5_DEV_ZQINIT_X32_SHIFT +#undef DDRC_INIT5_DEV_ZQINIT_X32_MASK +#define DDRC_INIT5_DEV_ZQINIT_X32_DEFVAL 0x00100004 +#define DDRC_INIT5_DEV_ZQINIT_X32_SHIFT 16 +#define DDRC_INIT5_DEV_ZQINIT_X32_MASK 0x00FF0000U + +/*Maximum duration of the auto initialization, tINIT5. Present only in designs configured to support LPDDR2/LPDDR3. LPDDR2/LPDD + 3 typically requires 10 us.*/ +#undef DDRC_INIT5_MAX_AUTO_INIT_X1024_DEFVAL +#undef DDRC_INIT5_MAX_AUTO_INIT_X1024_SHIFT +#undef DDRC_INIT5_MAX_AUTO_INIT_X1024_MASK +#define DDRC_INIT5_MAX_AUTO_INIT_X1024_DEFVAL 0x00100004 +#define DDRC_INIT5_MAX_AUTO_INIT_X1024_SHIFT 0 +#define DDRC_INIT5_MAX_AUTO_INIT_X1024_MASK 0x000003FFU + +/*DDR4- Value to be loaded into SDRAM MR4 registers. Used in DDR4 designs only.*/ +#undef DDRC_INIT6_MR4_DEFVAL +#undef DDRC_INIT6_MR4_SHIFT +#undef DDRC_INIT6_MR4_MASK +#define DDRC_INIT6_MR4_DEFVAL 0x00000000 +#define DDRC_INIT6_MR4_SHIFT 16 +#define DDRC_INIT6_MR4_MASK 0xFFFF0000U + +/*DDR4- Value to be loaded into SDRAM MR5 registers. Used in DDR4 designs only.*/ +#undef DDRC_INIT6_MR5_DEFVAL +#undef DDRC_INIT6_MR5_SHIFT +#undef DDRC_INIT6_MR5_MASK +#define DDRC_INIT6_MR5_DEFVAL 0x00000000 +#define DDRC_INIT6_MR5_SHIFT 0 +#define DDRC_INIT6_MR5_MASK 0x0000FFFFU + +/*DDR4- Value to be loaded into SDRAM MR6 registers. Used in DDR4 designs only.*/ +#undef DDRC_INIT7_MR6_DEFVAL +#undef DDRC_INIT7_MR6_SHIFT +#undef DDRC_INIT7_MR6_MASK +#define DDRC_INIT7_MR6_DEFVAL +#define DDRC_INIT7_MR6_SHIFT 16 +#define DDRC_INIT7_MR6_MASK 0xFFFF0000U + +/*Disabling Address Mirroring for BG bits. When this is set to 1, BG0 and BG1 are NOT swapped even if Address Mirroring is enab + ed. This will be required for DDR4 DIMMs with x16 devices. - 1 - BG0 and BG1 are NOT swapped. - 0 - BG0 and BG1 are swapped i + address mirroring is enabled.*/ +#undef DDRC_DIMMCTL_DIMM_DIS_BG_MIRRORING_DEFVAL +#undef DDRC_DIMMCTL_DIMM_DIS_BG_MIRRORING_SHIFT +#undef DDRC_DIMMCTL_DIMM_DIS_BG_MIRRORING_MASK +#define DDRC_DIMMCTL_DIMM_DIS_BG_MIRRORING_DEFVAL 0x00000000 +#define DDRC_DIMMCTL_DIMM_DIS_BG_MIRRORING_SHIFT 5 +#define DDRC_DIMMCTL_DIMM_DIS_BG_MIRRORING_MASK 0x00000020U + +/*Enable for BG1 bit of MRS command. BG1 bit of the mode register address is specified as RFU (Reserved for Future Use) and mus + be programmed to 0 during MRS. In case where DRAMs which do not have BG1 are attached and both the CA parity and the Output + nversion are enabled, this must be set to 0, so that the calculation of CA parity will not include BG1 bit. Note: This has no + effect on the address of any other memory accesses, or of software-driven mode register accesses. If address mirroring is ena + led, this is applied to BG1 of even ranks and BG0 of odd ranks. - 1 - Enabled - 0 - Disabled*/ +#undef DDRC_DIMMCTL_MRS_BG1_EN_DEFVAL +#undef DDRC_DIMMCTL_MRS_BG1_EN_SHIFT +#undef DDRC_DIMMCTL_MRS_BG1_EN_MASK +#define DDRC_DIMMCTL_MRS_BG1_EN_DEFVAL 0x00000000 +#define DDRC_DIMMCTL_MRS_BG1_EN_SHIFT 4 +#define DDRC_DIMMCTL_MRS_BG1_EN_MASK 0x00000010U + +/*Enable for A17 bit of MRS command. A17 bit of the mode register address is specified as RFU (Reserved for Future Use) and mus + be programmed to 0 during MRS. In case where DRAMs which do not have A17 are attached and the Output Inversion are enabled, + his must be set to 0, so that the calculation of CA parity will not include A17 bit. Note: This has no effect on the address + f any other memory accesses, or of software-driven mode register accesses. - 1 - Enabled - 0 - Disabled*/ +#undef DDRC_DIMMCTL_MRS_A17_EN_DEFVAL +#undef DDRC_DIMMCTL_MRS_A17_EN_SHIFT +#undef DDRC_DIMMCTL_MRS_A17_EN_MASK +#define DDRC_DIMMCTL_MRS_A17_EN_DEFVAL 0x00000000 +#define DDRC_DIMMCTL_MRS_A17_EN_SHIFT 3 +#define DDRC_DIMMCTL_MRS_A17_EN_MASK 0x00000008U + +/*Output Inversion Enable (for DDR4 RDIMM implementations only). DDR4 RDIMM implements the Output Inversion feature by default, + which means that the following address, bank address and bank group bits of B-side DRAMs are inverted: A3-A9, A11, A13, A17, + A0-BA1, BG0-BG1. Setting this bit ensures that, for mode register accesses generated by the uMCTL2 during the automatic initi + lization routine and enabling of a particular DDR4 feature, separate A-side and B-side mode register accesses are generated. + or B-side mode register accesses, these bits are inverted within the uMCTL2 to compensate for this RDIMM inversion. Note: Thi + has no effect on the address of any other memory accesses, or of software-driven mode register accesses. - 1 - Implement out + ut inversion for B-side DRAMs. - 0 - Do not implement output inversion for B-side DRAMs.*/ +#undef DDRC_DIMMCTL_DIMM_OUTPUT_INV_EN_DEFVAL +#undef DDRC_DIMMCTL_DIMM_OUTPUT_INV_EN_SHIFT +#undef DDRC_DIMMCTL_DIMM_OUTPUT_INV_EN_MASK +#define DDRC_DIMMCTL_DIMM_OUTPUT_INV_EN_DEFVAL 0x00000000 +#define DDRC_DIMMCTL_DIMM_OUTPUT_INV_EN_SHIFT 2 +#define DDRC_DIMMCTL_DIMM_OUTPUT_INV_EN_MASK 0x00000004U + +/*Address Mirroring Enable (for multi-rank UDIMM implementations and multi-rank DDR4 RDIMM implementations). Some UDIMMs and DD + 4 RDIMMs implement address mirroring for odd ranks, which means that the following address, bank address and bank group bits + re swapped: (A3, A4), (A5, A6), (A7, A8), (BA0, BA1) and also (A11, A13), (BG0, BG1) for the DDR4. Setting this bit ensures t + at, for mode register accesses during the automatic initialization routine, these bits are swapped within the uMCTL2 to compe + sate for this UDIMM/RDIMM swapping. In addition to the automatic initialization routine, in case of DDR4 UDIMM/RDIMM, they ar + swapped during the automatic MRS access to enable/disable of a particular DDR4 feature. Note: This has no effect on the addr + ss of any other memory accesses, or of software-driven mode register accesses. This is not supported for mDDR, LPDDR2, LPDDR3 + or LPDDR4 SDRAMs. Note: In case of x16 DDR4 DIMMs, BG1 output of MRS for the odd ranks is same as BG0 because BG1 is invalid, + hence dimm_dis_bg_mirroring register must be set to 1. - 1 - For odd ranks, implement address mirroring for MRS commands to d + ring initialization and for any automatic DDR4 MRS commands (to be used if UDIMM/RDIMM implements address mirroring) - 0 - Do + not implement address mirroring*/ +#undef DDRC_DIMMCTL_DIMM_ADDR_MIRR_EN_DEFVAL +#undef DDRC_DIMMCTL_DIMM_ADDR_MIRR_EN_SHIFT +#undef DDRC_DIMMCTL_DIMM_ADDR_MIRR_EN_MASK +#define DDRC_DIMMCTL_DIMM_ADDR_MIRR_EN_DEFVAL 0x00000000 +#define DDRC_DIMMCTL_DIMM_ADDR_MIRR_EN_SHIFT 1 +#define DDRC_DIMMCTL_DIMM_ADDR_MIRR_EN_MASK 0x00000002U + +/*Staggering enable for multi-rank accesses (for multi-rank UDIMM and RDIMM implementations only). This is not supported for mD + R, LPDDR2, LPDDR3 or LPDDR4 SDRAMs. Note: Even if this bit is set it does not take care of software driven MR commands (via M + CTRL0/MRCTRL1), where software is responsible to send them to seperate ranks as appropriate. - 1 - (DDR4) Send MRS commands t + each ranks seperately - 1 - (non-DDR4) Send all commands to even and odd ranks seperately - 0 - Do not stagger accesses*/ +#undef DDRC_DIMMCTL_DIMM_STAGGER_CS_EN_DEFVAL +#undef DDRC_DIMMCTL_DIMM_STAGGER_CS_EN_SHIFT +#undef DDRC_DIMMCTL_DIMM_STAGGER_CS_EN_MASK +#define DDRC_DIMMCTL_DIMM_STAGGER_CS_EN_DEFVAL 0x00000000 +#define DDRC_DIMMCTL_DIMM_STAGGER_CS_EN_SHIFT 0 +#define DDRC_DIMMCTL_DIMM_STAGGER_CS_EN_MASK 0x00000001U + +/*Only present for multi-rank configurations. Indicates the number of clocks of gap in data responses when performing consecuti + e writes to different ranks. This is used to switch the delays in the PHY to match the rank requirements. This value should c + nsider both PHY requirement and ODT requirement. - PHY requirement: tphy_wrcsgap + 1 (see PHY databook for value of tphy_wrcs + ap) If CRC feature is enabled, should be increased by 1. If write preamble is set to 2tCK(DDR4/LPDDR4 only), should be increa + ed by 1. If write postamble is set to 1.5tCK(LPDDR4 only), should be increased by 1. - ODT requirement: The value programmed + n this register takes care of the ODT switch off timing requirement when switching ranks during writes. For LPDDR4, the requi + ement is ODTLoff - ODTLon - BL/2 + 1 For configurations with MEMC_FREQ_RATIO=1, program this to the larger of PHY requirement + or ODT requirement. For configurations with MEMC_FREQ_RATIO=2, program this to the larger value divided by two and round it u + to the next integer.*/ +#undef DDRC_RANKCTL_DIFF_RANK_WR_GAP_DEFVAL +#undef DDRC_RANKCTL_DIFF_RANK_WR_GAP_SHIFT +#undef DDRC_RANKCTL_DIFF_RANK_WR_GAP_MASK +#define DDRC_RANKCTL_DIFF_RANK_WR_GAP_DEFVAL 0x0000066F +#define DDRC_RANKCTL_DIFF_RANK_WR_GAP_SHIFT 8 +#define DDRC_RANKCTL_DIFF_RANK_WR_GAP_MASK 0x00000F00U + +/*Only present for multi-rank configurations. Indicates the number of clocks of gap in data responses when performing consecuti + e reads to different ranks. This is used to switch the delays in the PHY to match the rank requirements. This value should co + sider both PHY requirement and ODT requirement. - PHY requirement: tphy_rdcsgap + 1 (see PHY databook for value of tphy_rdcsg + p) If read preamble is set to 2tCK(DDR4/LPDDR4 only), should be increased by 1. If read postamble is set to 1.5tCK(LPDDR4 onl + ), should be increased by 1. - ODT requirement: The value programmed in this register takes care of the ODT switch off timing + requirement when switching ranks during reads. For configurations with MEMC_FREQ_RATIO=1, program this to the larger of PHY r + quirement or ODT requirement. For configurations with MEMC_FREQ_RATIO=2, program this to the larger value divided by two and + ound it up to the next integer.*/ +#undef DDRC_RANKCTL_DIFF_RANK_RD_GAP_DEFVAL +#undef DDRC_RANKCTL_DIFF_RANK_RD_GAP_SHIFT +#undef DDRC_RANKCTL_DIFF_RANK_RD_GAP_MASK +#define DDRC_RANKCTL_DIFF_RANK_RD_GAP_DEFVAL 0x0000066F +#define DDRC_RANKCTL_DIFF_RANK_RD_GAP_SHIFT 4 +#define DDRC_RANKCTL_DIFF_RANK_RD_GAP_MASK 0x000000F0U + +/*Only present for multi-rank configurations. Background: Reads to the same rank can be performed back-to-back. Reads to differ + nt ranks require additional gap dictated by the register RANKCTL.diff_rank_rd_gap. This is to avoid possible data bus content + on as well as to give PHY enough time to switch the delay when changing ranks. The uMCTL2 arbitrates for bus access on a cycl + -by-cycle basis; therefore after a read is scheduled, there are few clock cycles (determined by the value on RANKCTL.diff_ran + _rd_gap register) in which only reads from the same rank are eligible to be scheduled. This prevents reads from other ranks f + om having fair access to the data bus. This parameter represents the maximum number of reads that can be scheduled consecutiv + ly to the same rank. After this number is reached, a delay equal to RANKCTL.diff_rank_rd_gap is inserted by the scheduler to + llow all ranks a fair opportunity to be scheduled. Higher numbers increase bandwidth utilization, lower numbers increase fair + ess. This feature can be DISABLED by setting this register to 0. When set to 0, the Controller will stay on the same rank as + ong as commands are available for it. Minimum programmable value is 0 (feature disabled) and maximum programmable value is 0x + . FOR PERFORMANCE ONLY.*/ +#undef DDRC_RANKCTL_MAX_RANK_RD_DEFVAL +#undef DDRC_RANKCTL_MAX_RANK_RD_SHIFT +#undef DDRC_RANKCTL_MAX_RANK_RD_MASK +#define DDRC_RANKCTL_MAX_RANK_RD_DEFVAL 0x0000066F +#define DDRC_RANKCTL_MAX_RANK_RD_SHIFT 0 +#define DDRC_RANKCTL_MAX_RANK_RD_MASK 0x0000000FU + +/*Minimum time between write and precharge to same bank. Unit: Clocks Specifications: WL + BL/2 + tWR = approximately 8 cycles + 15 ns = 14 clocks @400MHz and less for lower frequencies where: - WL = write latency - BL = burst length. This must match th + value programmed in the BL bit of the mode register to the SDRAM. BST (burst terminate) is not supported at present. - tWR = + Write recovery time. This comes directly from the SDRAM specification. Add one extra cycle for LPDDR2/LPDDR3/LPDDR4 for this + arameter. For configurations with MEMC_FREQ_RATIO=2, 1T mode, divide the above value by 2. No rounding up. For configurations + with MEMC_FREQ_RATIO=2, 2T mode or LPDDR4 mode, divide the above value by 2 and round it up to the next integer value.*/ +#undef DDRC_DRAMTMG0_WR2PRE_DEFVAL +#undef DDRC_DRAMTMG0_WR2PRE_SHIFT +#undef DDRC_DRAMTMG0_WR2PRE_MASK +#define DDRC_DRAMTMG0_WR2PRE_DEFVAL 0x0F101B0F +#define DDRC_DRAMTMG0_WR2PRE_SHIFT 24 +#define DDRC_DRAMTMG0_WR2PRE_MASK 0x7F000000U + +/*tFAW Valid only when 8 or more banks(or banks x bank groups) are present. In 8-bank design, at most 4 banks must be activated + in a rolling window of tFAW cycles. For configurations with MEMC_FREQ_RATIO=2, program this to (tFAW/2) and round up to next + nteger value. In a 4-bank design, set this register to 0x1 independent of the MEMC_FREQ_RATIO configuration. Unit: Clocks*/ +#undef DDRC_DRAMTMG0_T_FAW_DEFVAL +#undef DDRC_DRAMTMG0_T_FAW_SHIFT +#undef DDRC_DRAMTMG0_T_FAW_MASK +#define DDRC_DRAMTMG0_T_FAW_DEFVAL 0x0F101B0F +#define DDRC_DRAMTMG0_T_FAW_SHIFT 16 +#define DDRC_DRAMTMG0_T_FAW_MASK 0x003F0000U + +/*tRAS(max): Maximum time between activate and precharge to same bank. This is the maximum time that a page can be kept open Mi + imum value of this register is 1. Zero is invalid. For configurations with MEMC_FREQ_RATIO=2, program this to (tRAS(max)-1)/2 + No rounding up. Unit: Multiples of 1024 clocks.*/ +#undef DDRC_DRAMTMG0_T_RAS_MAX_DEFVAL +#undef DDRC_DRAMTMG0_T_RAS_MAX_SHIFT +#undef DDRC_DRAMTMG0_T_RAS_MAX_MASK +#define DDRC_DRAMTMG0_T_RAS_MAX_DEFVAL 0x0F101B0F +#define DDRC_DRAMTMG0_T_RAS_MAX_SHIFT 8 +#define DDRC_DRAMTMG0_T_RAS_MAX_MASK 0x00007F00U + +/*tRAS(min): Minimum time between activate and precharge to the same bank. For configurations with MEMC_FREQ_RATIO=2, 1T mode, + rogram this to tRAS(min)/2. No rounding up. For configurations with MEMC_FREQ_RATIO=2, 2T mode or LPDDR4 mode, program this t + (tRAS(min)/2) and round it up to the next integer value. Unit: Clocks*/ +#undef DDRC_DRAMTMG0_T_RAS_MIN_DEFVAL +#undef DDRC_DRAMTMG0_T_RAS_MIN_SHIFT +#undef DDRC_DRAMTMG0_T_RAS_MIN_MASK +#define DDRC_DRAMTMG0_T_RAS_MIN_DEFVAL 0x0F101B0F +#define DDRC_DRAMTMG0_T_RAS_MIN_SHIFT 0 +#define DDRC_DRAMTMG0_T_RAS_MIN_MASK 0x0000003FU + +/*tXP: Minimum time after power-down exit to any operation. For DDR3, this should be programmed to tXPDLL if slow powerdown exi + is selected in MR0[12]. If C/A parity for DDR4 is used, set to (tXP+PL) instead. For configurations with MEMC_FREQ_RATIO=2, + rogram this to (tXP/2) and round it up to the next integer value. Units: Clocks*/ +#undef DDRC_DRAMTMG1_T_XP_DEFVAL +#undef DDRC_DRAMTMG1_T_XP_SHIFT +#undef DDRC_DRAMTMG1_T_XP_MASK +#define DDRC_DRAMTMG1_T_XP_DEFVAL 0x00080414 +#define DDRC_DRAMTMG1_T_XP_SHIFT 16 +#define DDRC_DRAMTMG1_T_XP_MASK 0x001F0000U + +/*tRTP: Minimum time from read to precharge of same bank. - DDR2: tAL + BL/2 + max(tRTP, 2) - 2 - DDR3: tAL + max (tRTP, 4) - D + R4: Max of following two equations: tAL + max (tRTP, 4) or, RL + BL/2 - tRP. - mDDR: BL/2 - LPDDR2: Depends on if it's LPDDR2 + S2 or LPDDR2-S4: LPDDR2-S2: BL/2 + tRTP - 1. LPDDR2-S4: BL/2 + max(tRTP,2) - 2. - LPDDR3: BL/2 + max(tRTP,4) - 4 - LPDDR4: BL + 2 + max(tRTP,8) - 8 For configurations with MEMC_FREQ_RATIO=2, 1T mode, divide the above value by 2. No rounding up. For conf + gurations with MEMC_FREQ_RATIO=2, 2T mode or LPDDR4 mode, divide the above value by 2 and round it up to the next integer val + e. Unit: Clocks.*/ +#undef DDRC_DRAMTMG1_RD2PRE_DEFVAL +#undef DDRC_DRAMTMG1_RD2PRE_SHIFT +#undef DDRC_DRAMTMG1_RD2PRE_MASK +#define DDRC_DRAMTMG1_RD2PRE_DEFVAL 0x00080414 +#define DDRC_DRAMTMG1_RD2PRE_SHIFT 8 +#define DDRC_DRAMTMG1_RD2PRE_MASK 0x00001F00U + +/*tRC: Minimum time between activates to same bank. For configurations with MEMC_FREQ_RATIO=2, program this to (tRC/2) and roun + up to next integer value. Unit: Clocks.*/ +#undef DDRC_DRAMTMG1_T_RC_DEFVAL +#undef DDRC_DRAMTMG1_T_RC_SHIFT +#undef DDRC_DRAMTMG1_T_RC_MASK +#define DDRC_DRAMTMG1_T_RC_DEFVAL 0x00080414 +#define DDRC_DRAMTMG1_T_RC_SHIFT 0 +#define DDRC_DRAMTMG1_T_RC_MASK 0x0000007FU + +/*Set to WL Time from write command to write data on SDRAM interface. This must be set to WL. For mDDR, it should normally be s + t to 1. Note that, depending on the PHY, if using RDIMM, it may be necessary to use a value of WL + 1 to compensate for the e + tra cycle of latency through the RDIMM For configurations with MEMC_FREQ_RATIO=2, divide the value calculated using the above + equation by 2, and round it up to next integer. This register field is not required for DDR2 and DDR3 (except if MEMC_TRAININ + is set), as the DFI read and write latencies defined in DFITMG0 and DFITMG1 are sufficient for those protocols Unit: clocks*/ +#undef DDRC_DRAMTMG2_WRITE_LATENCY_DEFVAL +#undef DDRC_DRAMTMG2_WRITE_LATENCY_SHIFT +#undef DDRC_DRAMTMG2_WRITE_LATENCY_MASK +#define DDRC_DRAMTMG2_WRITE_LATENCY_DEFVAL 0x0305060D +#define DDRC_DRAMTMG2_WRITE_LATENCY_SHIFT 24 +#define DDRC_DRAMTMG2_WRITE_LATENCY_MASK 0x3F000000U + +/*Set to RL Time from read command to read data on SDRAM interface. This must be set to RL. Note that, depending on the PHY, if + using RDIMM, it mat be necessary to use a value of RL + 1 to compensate for the extra cycle of latency through the RDIMM For + onfigurations with MEMC_FREQ_RATIO=2, divide the value calculated using the above equation by 2, and round it up to next inte + er. This register field is not required for DDR2 and DDR3 (except if MEMC_TRAINING is set), as the DFI read and write latenci + s defined in DFITMG0 and DFITMG1 are sufficient for those protocols Unit: clocks*/ +#undef DDRC_DRAMTMG2_READ_LATENCY_DEFVAL +#undef DDRC_DRAMTMG2_READ_LATENCY_SHIFT +#undef DDRC_DRAMTMG2_READ_LATENCY_MASK +#define DDRC_DRAMTMG2_READ_LATENCY_DEFVAL 0x0305060D +#define DDRC_DRAMTMG2_READ_LATENCY_SHIFT 16 +#define DDRC_DRAMTMG2_READ_LATENCY_MASK 0x003F0000U + +/*DDR2/3/mDDR: RL + BL/2 + 2 - WL DDR4: RL + BL/2 + 1 + WR_PREAMBLE - WL LPDDR2/LPDDR3: RL + BL/2 + RU(tDQSCKmax/tCK) + 1 - WL + PDDR4(DQ ODT is Disabled): RL + BL/2 + RU(tDQSCKmax/tCK) + WR_PREAMBLE + RD_POSTAMBLE - WL LPDDR4(DQ ODT is Enabled) : RL + B + /2 + RU(tDQSCKmax/tCK) + RD_POSTAMBLE - ODTLon - RU(tODTon(min)/tCK) Minimum time from read command to write command. Include + time for bus turnaround and all per-bank, per-rank, and global constraints. Unit: Clocks. Where: - WL = write latency - BL = + urst length. This must match the value programmed in the BL bit of the mode register to the SDRAM - RL = read latency = CAS l + tency - WR_PREAMBLE = write preamble. This is unique to DDR4 and LPDDR4. - RD_POSTAMBLE = read postamble. This is unique to L + DDR4. For LPDDR2/LPDDR3/LPDDR4, if derating is enabled (DERATEEN.derate_enable=1), derated tDQSCKmax should be used. For conf + gurations with MEMC_FREQ_RATIO=2, divide the value calculated using the above equation by 2, and round it up to next integer.*/ +#undef DDRC_DRAMTMG2_RD2WR_DEFVAL +#undef DDRC_DRAMTMG2_RD2WR_SHIFT +#undef DDRC_DRAMTMG2_RD2WR_MASK +#define DDRC_DRAMTMG2_RD2WR_DEFVAL 0x0305060D +#define DDRC_DRAMTMG2_RD2WR_SHIFT 8 +#define DDRC_DRAMTMG2_RD2WR_MASK 0x00003F00U + +/*DDR4: CWL + PL + BL/2 + tWTR_L Others: CWL + BL/2 + tWTR In DDR4, minimum time from write command to read command for same ba + k group. In others, minimum time from write command to read command. Includes time for bus turnaround, recovery times, and al + per-bank, per-rank, and global constraints. Unit: Clocks. Where: - CWL = CAS write latency - PL = Parity latency - BL = burs + length. This must match the value programmed in the BL bit of the mode register to the SDRAM - tWTR_L = internal write to re + d command delay for same bank group. This comes directly from the SDRAM specification. - tWTR = internal write to read comman + delay. This comes directly from the SDRAM specification. Add one extra cycle for LPDDR2/LPDDR3/LPDDR4 operation. For configu + ations with MEMC_FREQ_RATIO=2, divide the value calculated using the above equation by 2, and round it up to next integer.*/ +#undef DDRC_DRAMTMG2_WR2RD_DEFVAL +#undef DDRC_DRAMTMG2_WR2RD_SHIFT +#undef DDRC_DRAMTMG2_WR2RD_MASK +#define DDRC_DRAMTMG2_WR2RD_DEFVAL 0x0305060D +#define DDRC_DRAMTMG2_WR2RD_SHIFT 0 +#define DDRC_DRAMTMG2_WR2RD_MASK 0x0000003FU + +/*Time to wait after a mode register write or read (MRW or MRR). Present only in designs configured to support LPDDR2, LPDDR3 o + LPDDR4. LPDDR2 typically requires value of 5. LPDDR3 typically requires value of 10. LPDDR4: Set this to the larger of tMRW + nd tMRWCKEL. For LPDDR2, this register is used for the time from a MRW/MRR to all other commands. For LDPDR3, this register i + used for the time from a MRW/MRR to a MRW/MRR.*/ +#undef DDRC_DRAMTMG3_T_MRW_DEFVAL +#undef DDRC_DRAMTMG3_T_MRW_SHIFT +#undef DDRC_DRAMTMG3_T_MRW_MASK +#define DDRC_DRAMTMG3_T_MRW_DEFVAL 0x0050400C +#define DDRC_DRAMTMG3_T_MRW_SHIFT 20 +#define DDRC_DRAMTMG3_T_MRW_MASK 0x3FF00000U + +/*tMRD: Cycles to wait after a mode register write or read. Depending on the connected SDRAM, tMRD represents: DDR2/mDDR: Time + rom MRS to any command DDR3/4: Time from MRS to MRS command LPDDR2: not used LPDDR3/4: Time from MRS to non-MRS command For c + nfigurations with MEMC_FREQ_RATIO=2, program this to (tMRD/2) and round it up to the next integer value. If C/A parity for DD + 4 is used, set to tMRD_PAR(tMOD+PL) instead.*/ +#undef DDRC_DRAMTMG3_T_MRD_DEFVAL +#undef DDRC_DRAMTMG3_T_MRD_SHIFT +#undef DDRC_DRAMTMG3_T_MRD_MASK +#define DDRC_DRAMTMG3_T_MRD_DEFVAL 0x0050400C +#define DDRC_DRAMTMG3_T_MRD_SHIFT 12 +#define DDRC_DRAMTMG3_T_MRD_MASK 0x0003F000U + +/*tMOD: Parameter used only in DDR3 and DDR4. Cycles between load mode command and following non-load mode command. If C/A pari + y for DDR4 is used, set to tMOD_PAR(tMOD+PL) instead. Set to tMOD if MEMC_FREQ_RATIO=1, or tMOD/2 (rounded up to next integer + if MEMC_FREQ_RATIO=2. Note that if using RDIMM, depending on the PHY, it may be necessary to use a value of tMOD + 1 or (tMO + + 1)/2 to compensate for the extra cycle of latency applied to mode register writes by the RDIMM chip.*/ +#undef DDRC_DRAMTMG3_T_MOD_DEFVAL +#undef DDRC_DRAMTMG3_T_MOD_SHIFT +#undef DDRC_DRAMTMG3_T_MOD_MASK +#define DDRC_DRAMTMG3_T_MOD_DEFVAL 0x0050400C +#define DDRC_DRAMTMG3_T_MOD_SHIFT 0 +#define DDRC_DRAMTMG3_T_MOD_MASK 0x000003FFU + +/*tRCD - tAL: Minimum time from activate to read or write command to same bank. For configurations with MEMC_FREQ_RATIO=2, prog + am this to ((tRCD - tAL)/2) and round it up to the next integer value. Minimum value allowed for this register is 1, which im + lies minimum (tRCD - tAL) value to be 2 in configurations with MEMC_FREQ_RATIO=2. Unit: Clocks.*/ +#undef DDRC_DRAMTMG4_T_RCD_DEFVAL +#undef DDRC_DRAMTMG4_T_RCD_SHIFT +#undef DDRC_DRAMTMG4_T_RCD_MASK +#define DDRC_DRAMTMG4_T_RCD_DEFVAL 0x05040405 +#define DDRC_DRAMTMG4_T_RCD_SHIFT 24 +#define DDRC_DRAMTMG4_T_RCD_MASK 0x1F000000U + +/*DDR4: tCCD_L: This is the minimum time between two reads or two writes for same bank group. Others: tCCD: This is the minimum + time between two reads or two writes. For configurations with MEMC_FREQ_RATIO=2, program this to (tCCD_L/2 or tCCD/2) and rou + d it up to the next integer value. Unit: clocks.*/ +#undef DDRC_DRAMTMG4_T_CCD_DEFVAL +#undef DDRC_DRAMTMG4_T_CCD_SHIFT +#undef DDRC_DRAMTMG4_T_CCD_MASK +#define DDRC_DRAMTMG4_T_CCD_DEFVAL 0x05040405 +#define DDRC_DRAMTMG4_T_CCD_SHIFT 16 +#define DDRC_DRAMTMG4_T_CCD_MASK 0x000F0000U + +/*DDR4: tRRD_L: Minimum time between activates from bank 'a' to bank 'b' for same bank group. Others: tRRD: Minimum time betwee + activates from bank 'a' to bank 'b'For configurations with MEMC_FREQ_RATIO=2, program this to (tRRD_L/2 or tRRD/2) and round + it up to the next integer value. Unit: Clocks.*/ +#undef DDRC_DRAMTMG4_T_RRD_DEFVAL +#undef DDRC_DRAMTMG4_T_RRD_SHIFT +#undef DDRC_DRAMTMG4_T_RRD_MASK +#define DDRC_DRAMTMG4_T_RRD_DEFVAL 0x05040405 +#define DDRC_DRAMTMG4_T_RRD_SHIFT 8 +#define DDRC_DRAMTMG4_T_RRD_MASK 0x00000F00U + +/*tRP: Minimum time from precharge to activate of same bank. For MEMC_FREQ_RATIO=1 configurations, t_rp should be set to RoundU + (tRP/tCK). For MEMC_FREQ_RATIO=2 configurations, t_rp should be set to RoundDown(RoundUp(tRP/tCK)/2) + 1. For MEMC_FREQ_RATIO + 2 configurations in LPDDR4, t_rp should be set to RoundUp(RoundUp(tRP/tCK)/2). Unit: Clocks.*/ +#undef DDRC_DRAMTMG4_T_RP_DEFVAL +#undef DDRC_DRAMTMG4_T_RP_SHIFT +#undef DDRC_DRAMTMG4_T_RP_MASK +#define DDRC_DRAMTMG4_T_RP_DEFVAL 0x05040405 +#define DDRC_DRAMTMG4_T_RP_SHIFT 0 +#define DDRC_DRAMTMG4_T_RP_MASK 0x0000001FU + +/*This is the time before Self Refresh Exit that CK is maintained as a valid clock before issuing SRX. Specifies the clock stab + e time before SRX. Recommended settings: - mDDR: 1 - LPDDR2: 2 - LPDDR3: 2 - LPDDR4: tCKCKEH - DDR2: 1 - DDR3: tCKSRX - DDR4: + tCKSRX For configurations with MEMC_FREQ_RATIO=2, program this to recommended value divided by two and round it up to next in + eger.*/ +#undef DDRC_DRAMTMG5_T_CKSRX_DEFVAL +#undef DDRC_DRAMTMG5_T_CKSRX_SHIFT +#undef DDRC_DRAMTMG5_T_CKSRX_MASK +#define DDRC_DRAMTMG5_T_CKSRX_DEFVAL 0x05050403 +#define DDRC_DRAMTMG5_T_CKSRX_SHIFT 24 +#define DDRC_DRAMTMG5_T_CKSRX_MASK 0x0F000000U + +/*This is the time after Self Refresh Down Entry that CK is maintained as a valid clock. Specifies the clock disable delay afte + SRE. Recommended settings: - mDDR: 0 - LPDDR2: 2 - LPDDR3: 2 - LPDDR4: tCKCKEL - DDR2: 1 - DDR3: max (10 ns, 5 tCK) - DDR4: + ax (10 ns, 5 tCK) For configurations with MEMC_FREQ_RATIO=2, program this to recommended value divided by two and round it up + to next integer.*/ +#undef DDRC_DRAMTMG5_T_CKSRE_DEFVAL +#undef DDRC_DRAMTMG5_T_CKSRE_SHIFT +#undef DDRC_DRAMTMG5_T_CKSRE_MASK +#define DDRC_DRAMTMG5_T_CKSRE_DEFVAL 0x05050403 +#define DDRC_DRAMTMG5_T_CKSRE_SHIFT 16 +#define DDRC_DRAMTMG5_T_CKSRE_MASK 0x000F0000U + +/*Minimum CKE low width for Self refresh or Self refresh power down entry to exit timing in memory clock cycles. Recommended se + tings: - mDDR: tRFC - LPDDR2: tCKESR - LPDDR3: tCKESR - LPDDR4: max(tCKELPD, tSR) - DDR2: tCKE - DDR3: tCKE + 1 - DDR4: tCKE + 1 For configurations with MEMC_FREQ_RATIO=2, program this to recommended value divided by two and round it up to next intege + .*/ +#undef DDRC_DRAMTMG5_T_CKESR_DEFVAL +#undef DDRC_DRAMTMG5_T_CKESR_SHIFT +#undef DDRC_DRAMTMG5_T_CKESR_MASK +#define DDRC_DRAMTMG5_T_CKESR_DEFVAL 0x05050403 +#define DDRC_DRAMTMG5_T_CKESR_SHIFT 8 +#define DDRC_DRAMTMG5_T_CKESR_MASK 0x00003F00U + +/*Minimum number of cycles of CKE HIGH/LOW during power-down and self refresh. - LPDDR2/LPDDR3 mode: Set this to the larger of + CKE or tCKESR - LPDDR4 mode: Set this to the larger of tCKE, tCKELPD or tSR. - Non-LPDDR2/non-LPDDR3/non-LPDDR4 designs: Set + his to tCKE value. For configurations with MEMC_FREQ_RATIO=2, program this to (value described above)/2 and round it up to th + next integer value. Unit: Clocks.*/ +#undef DDRC_DRAMTMG5_T_CKE_DEFVAL +#undef DDRC_DRAMTMG5_T_CKE_SHIFT +#undef DDRC_DRAMTMG5_T_CKE_MASK +#define DDRC_DRAMTMG5_T_CKE_DEFVAL 0x05050403 +#define DDRC_DRAMTMG5_T_CKE_SHIFT 0 +#define DDRC_DRAMTMG5_T_CKE_MASK 0x0000001FU + +/*This is the time after Deep Power Down Entry that CK is maintained as a valid clock. Specifies the clock disable delay after + PDE. Recommended settings: - mDDR: 0 - LPDDR2: 2 - LPDDR3: 2 For configurations with MEMC_FREQ_RATIO=2, program this to recom + ended value divided by two and round it up to next integer. This is only present for designs supporting mDDR or LPDDR2/LPDDR3 + devices.*/ +#undef DDRC_DRAMTMG6_T_CKDPDE_DEFVAL +#undef DDRC_DRAMTMG6_T_CKDPDE_SHIFT +#undef DDRC_DRAMTMG6_T_CKDPDE_MASK +#define DDRC_DRAMTMG6_T_CKDPDE_DEFVAL 0x02020005 +#define DDRC_DRAMTMG6_T_CKDPDE_SHIFT 24 +#define DDRC_DRAMTMG6_T_CKDPDE_MASK 0x0F000000U + +/*This is the time before Deep Power Down Exit that CK is maintained as a valid clock before issuing DPDX. Specifies the clock + table time before DPDX. Recommended settings: - mDDR: 1 - LPDDR2: 2 - LPDDR3: 2 For configurations with MEMC_FREQ_RATIO=2, pr + gram this to recommended value divided by two and round it up to next integer. This is only present for designs supporting mD + R or LPDDR2 devices.*/ +#undef DDRC_DRAMTMG6_T_CKDPDX_DEFVAL +#undef DDRC_DRAMTMG6_T_CKDPDX_SHIFT +#undef DDRC_DRAMTMG6_T_CKDPDX_MASK +#define DDRC_DRAMTMG6_T_CKDPDX_DEFVAL 0x02020005 +#define DDRC_DRAMTMG6_T_CKDPDX_SHIFT 16 +#define DDRC_DRAMTMG6_T_CKDPDX_MASK 0x000F0000U + +/*This is the time before Clock Stop Exit that CK is maintained as a valid clock before issuing Clock Stop Exit. Specifies the + lock stable time before next command after Clock Stop Exit. Recommended settings: - mDDR: 1 - LPDDR2: tXP + 2 - LPDDR3: tXP + + 2 - LPDDR4: tXP + 2 For configurations with MEMC_FREQ_RATIO=2, program this to recommended value divided by two and round it + p to next integer. This is only present for designs supporting mDDR or LPDDR2/LPDDR3/LPDDR4 devices.*/ +#undef DDRC_DRAMTMG6_T_CKCSX_DEFVAL +#undef DDRC_DRAMTMG6_T_CKCSX_SHIFT +#undef DDRC_DRAMTMG6_T_CKCSX_MASK +#define DDRC_DRAMTMG6_T_CKCSX_DEFVAL 0x02020005 +#define DDRC_DRAMTMG6_T_CKCSX_SHIFT 0 +#define DDRC_DRAMTMG6_T_CKCSX_MASK 0x0000000FU + +/*This is the time after Power Down Entry that CK is maintained as a valid clock. Specifies the clock disable delay after PDE. + ecommended settings: - mDDR: 0 - LPDDR2: 2 - LPDDR3: 2 - LPDDR4: tCKCKEL For configurations with MEMC_FREQ_RATIO=2, program t + is to recommended value divided by two and round it up to next integer. This is only present for designs supporting mDDR or L + DDR2/LPDDR3/LPDDR4 devices.*/ +#undef DDRC_DRAMTMG7_T_CKPDE_DEFVAL +#undef DDRC_DRAMTMG7_T_CKPDE_SHIFT +#undef DDRC_DRAMTMG7_T_CKPDE_MASK +#define DDRC_DRAMTMG7_T_CKPDE_DEFVAL 0x00000202 +#define DDRC_DRAMTMG7_T_CKPDE_SHIFT 8 +#define DDRC_DRAMTMG7_T_CKPDE_MASK 0x00000F00U + +/*This is the time before Power Down Exit that CK is maintained as a valid clock before issuing PDX. Specifies the clock stable + time before PDX. Recommended settings: - mDDR: 0 - LPDDR2: 2 - LPDDR3: 2 - LPDDR4: 2 For configurations with MEMC_FREQ_RATIO= + , program this to recommended value divided by two and round it up to next integer. This is only present for designs supporti + g mDDR or LPDDR2/LPDDR3/LPDDR4 devices.*/ +#undef DDRC_DRAMTMG7_T_CKPDX_DEFVAL +#undef DDRC_DRAMTMG7_T_CKPDX_SHIFT +#undef DDRC_DRAMTMG7_T_CKPDX_MASK +#define DDRC_DRAMTMG7_T_CKPDX_DEFVAL 0x00000202 +#define DDRC_DRAMTMG7_T_CKPDX_SHIFT 0 +#define DDRC_DRAMTMG7_T_CKPDX_MASK 0x0000000FU + +/*tXS_FAST: Exit Self Refresh to ZQCL, ZQCS and MRS (only CL, WR, RTP and Geardown mode). For configurations with MEMC_FREQ_RAT + O=2, program this to the above value divided by 2 and round up to next integer value. Unit: Multiples of 32 clocks. Note: Thi + is applicable to only ZQCL/ZQCS commands. Note: Ensure this is less than or equal to t_xs_x32.*/ +#undef DDRC_DRAMTMG8_T_XS_FAST_X32_DEFVAL +#undef DDRC_DRAMTMG8_T_XS_FAST_X32_SHIFT +#undef DDRC_DRAMTMG8_T_XS_FAST_X32_MASK +#define DDRC_DRAMTMG8_T_XS_FAST_X32_DEFVAL 0x03034405 +#define DDRC_DRAMTMG8_T_XS_FAST_X32_SHIFT 24 +#define DDRC_DRAMTMG8_T_XS_FAST_X32_MASK 0x7F000000U + +/*tXS_ABORT: Exit Self Refresh to commands not requiring a locked DLL in Self Refresh Abort. For configurations with MEMC_FREQ_ + ATIO=2, program this to the above value divided by 2 and round up to next integer value. Unit: Multiples of 32 clocks. Note: + nsure this is less than or equal to t_xs_x32.*/ +#undef DDRC_DRAMTMG8_T_XS_ABORT_X32_DEFVAL +#undef DDRC_DRAMTMG8_T_XS_ABORT_X32_SHIFT +#undef DDRC_DRAMTMG8_T_XS_ABORT_X32_MASK +#define DDRC_DRAMTMG8_T_XS_ABORT_X32_DEFVAL 0x03034405 +#define DDRC_DRAMTMG8_T_XS_ABORT_X32_SHIFT 16 +#define DDRC_DRAMTMG8_T_XS_ABORT_X32_MASK 0x007F0000U + +/*tXSDLL: Exit Self Refresh to commands requiring a locked DLL. For configurations with MEMC_FREQ_RATIO=2, program this to the + bove value divided by 2 and round up to next integer value. Unit: Multiples of 32 clocks. Note: Used only for DDR2, DDR3 and + DR4 SDRAMs.*/ +#undef DDRC_DRAMTMG8_T_XS_DLL_X32_DEFVAL +#undef DDRC_DRAMTMG8_T_XS_DLL_X32_SHIFT +#undef DDRC_DRAMTMG8_T_XS_DLL_X32_MASK +#define DDRC_DRAMTMG8_T_XS_DLL_X32_DEFVAL 0x03034405 +#define DDRC_DRAMTMG8_T_XS_DLL_X32_SHIFT 8 +#define DDRC_DRAMTMG8_T_XS_DLL_X32_MASK 0x00007F00U + +/*tXS: Exit Self Refresh to commands not requiring a locked DLL. For configurations with MEMC_FREQ_RATIO=2, program this to the + above value divided by 2 and round up to next integer value. Unit: Multiples of 32 clocks. Note: Used only for DDR2, DDR3 and + DDR4 SDRAMs.*/ +#undef DDRC_DRAMTMG8_T_XS_X32_DEFVAL +#undef DDRC_DRAMTMG8_T_XS_X32_SHIFT +#undef DDRC_DRAMTMG8_T_XS_X32_MASK +#define DDRC_DRAMTMG8_T_XS_X32_DEFVAL 0x03034405 +#define DDRC_DRAMTMG8_T_XS_X32_SHIFT 0 +#define DDRC_DRAMTMG8_T_XS_X32_MASK 0x0000007FU + +/*DDR4 Write preamble mode - 0: 1tCK preamble - 1: 2tCK preamble Present only with MEMC_FREQ_RATIO=2*/ +#undef DDRC_DRAMTMG9_DDR4_WR_PREAMBLE_DEFVAL +#undef DDRC_DRAMTMG9_DDR4_WR_PREAMBLE_SHIFT +#undef DDRC_DRAMTMG9_DDR4_WR_PREAMBLE_MASK +#define DDRC_DRAMTMG9_DDR4_WR_PREAMBLE_DEFVAL 0x0004040D +#define DDRC_DRAMTMG9_DDR4_WR_PREAMBLE_SHIFT 30 +#define DDRC_DRAMTMG9_DDR4_WR_PREAMBLE_MASK 0x40000000U + +/*tCCD_S: This is the minimum time between two reads or two writes for different bank group. For bank switching (from bank 'a' + o bank 'b'), the minimum time is this value + 1. For configurations with MEMC_FREQ_RATIO=2, program this to (tCCD_S/2) and ro + nd it up to the next integer value. Present only in designs configured to support DDR4. Unit: clocks.*/ +#undef DDRC_DRAMTMG9_T_CCD_S_DEFVAL +#undef DDRC_DRAMTMG9_T_CCD_S_SHIFT +#undef DDRC_DRAMTMG9_T_CCD_S_MASK +#define DDRC_DRAMTMG9_T_CCD_S_DEFVAL 0x0004040D +#define DDRC_DRAMTMG9_T_CCD_S_SHIFT 16 +#define DDRC_DRAMTMG9_T_CCD_S_MASK 0x00070000U + +/*tRRD_S: Minimum time between activates from bank 'a' to bank 'b' for different bank group. For configurations with MEMC_FREQ_ + ATIO=2, program this to (tRRD_S/2) and round it up to the next integer value. Present only in designs configured to support D + R4. Unit: Clocks.*/ +#undef DDRC_DRAMTMG9_T_RRD_S_DEFVAL +#undef DDRC_DRAMTMG9_T_RRD_S_SHIFT +#undef DDRC_DRAMTMG9_T_RRD_S_MASK +#define DDRC_DRAMTMG9_T_RRD_S_DEFVAL 0x0004040D +#define DDRC_DRAMTMG9_T_RRD_S_SHIFT 8 +#define DDRC_DRAMTMG9_T_RRD_S_MASK 0x00000F00U + +/*CWL + PL + BL/2 + tWTR_S Minimum time from write command to read command for different bank group. Includes time for bus turn + round, recovery times, and all per-bank, per-rank, and global constraints. Present only in designs configured to support DDR4 + Unit: Clocks. Where: - CWL = CAS write latency - PL = Parity latency - BL = burst length. This must match the value programm + d in the BL bit of the mode register to the SDRAM - tWTR_S = internal write to read command delay for different bank group. T + is comes directly from the SDRAM specification. For configurations with MEMC_FREQ_RATIO=2, divide the value calculated using + he above equation by 2, and round it up to next integer.*/ +#undef DDRC_DRAMTMG9_WR2RD_S_DEFVAL +#undef DDRC_DRAMTMG9_WR2RD_S_SHIFT +#undef DDRC_DRAMTMG9_WR2RD_S_MASK +#define DDRC_DRAMTMG9_WR2RD_S_DEFVAL 0x0004040D +#define DDRC_DRAMTMG9_WR2RD_S_SHIFT 0 +#define DDRC_DRAMTMG9_WR2RD_S_MASK 0x0000003FU + +/*tXMPDLL: This is the minimum Exit MPSM to commands requiring a locked DLL. For configurations with MEMC_FREQ_RATIO=2, program + this to (tXMPDLL/2) and round it up to the next integer value. Present only in designs configured to support DDR4. Unit: Mult + ples of 32 clocks.*/ +#undef DDRC_DRAMTMG11_POST_MPSM_GAP_X32_DEFVAL +#undef DDRC_DRAMTMG11_POST_MPSM_GAP_X32_SHIFT +#undef DDRC_DRAMTMG11_POST_MPSM_GAP_X32_MASK +#define DDRC_DRAMTMG11_POST_MPSM_GAP_X32_DEFVAL 0x440C021C +#define DDRC_DRAMTMG11_POST_MPSM_GAP_X32_SHIFT 24 +#define DDRC_DRAMTMG11_POST_MPSM_GAP_X32_MASK 0x7F000000U + +/*tMPX_LH: This is the minimum CS_n Low hold time to CKE rising edge. For configurations with MEMC_FREQ_RATIO=2, program this t + RoundUp(tMPX_LH/2)+1. Present only in designs configured to support DDR4. Unit: clocks.*/ +#undef DDRC_DRAMTMG11_T_MPX_LH_DEFVAL +#undef DDRC_DRAMTMG11_T_MPX_LH_SHIFT +#undef DDRC_DRAMTMG11_T_MPX_LH_MASK +#define DDRC_DRAMTMG11_T_MPX_LH_DEFVAL 0x440C021C +#define DDRC_DRAMTMG11_T_MPX_LH_SHIFT 16 +#define DDRC_DRAMTMG11_T_MPX_LH_MASK 0x001F0000U + +/*tMPX_S: Minimum time CS setup time to CKE. For configurations with MEMC_FREQ_RATIO=2, program this to (tMPX_S/2) and round it + up to the next integer value. Present only in designs configured to support DDR4. Unit: Clocks.*/ +#undef DDRC_DRAMTMG11_T_MPX_S_DEFVAL +#undef DDRC_DRAMTMG11_T_MPX_S_SHIFT +#undef DDRC_DRAMTMG11_T_MPX_S_MASK +#define DDRC_DRAMTMG11_T_MPX_S_DEFVAL 0x440C021C +#define DDRC_DRAMTMG11_T_MPX_S_SHIFT 8 +#define DDRC_DRAMTMG11_T_MPX_S_MASK 0x00000300U + +/*tCKMPE: Minimum valid clock requirement after MPSM entry. Present only in designs configured to support DDR4. Unit: Clocks. F + r configurations with MEMC_FREQ_RATIO=2, divide the value calculated using the above equation by 2, and round it up to next i + teger.*/ +#undef DDRC_DRAMTMG11_T_CKMPE_DEFVAL +#undef DDRC_DRAMTMG11_T_CKMPE_SHIFT +#undef DDRC_DRAMTMG11_T_CKMPE_MASK +#define DDRC_DRAMTMG11_T_CKMPE_DEFVAL 0x440C021C +#define DDRC_DRAMTMG11_T_CKMPE_SHIFT 0 +#define DDRC_DRAMTMG11_T_CKMPE_MASK 0x0000001FU + +/*tCMDCKE: Delay from valid command to CKE input LOW. Set this to the larger of tESCKE or tCMDCKE For configurations with MEMC_ + REQ_RATIO=2, program this to (max(tESCKE, tCMDCKE)/2) and round it up to next integer value.*/ +#undef DDRC_DRAMTMG12_T_CMDCKE_DEFVAL +#undef DDRC_DRAMTMG12_T_CMDCKE_SHIFT +#undef DDRC_DRAMTMG12_T_CMDCKE_MASK +#define DDRC_DRAMTMG12_T_CMDCKE_DEFVAL 0x00020610 +#define DDRC_DRAMTMG12_T_CMDCKE_SHIFT 16 +#define DDRC_DRAMTMG12_T_CMDCKE_MASK 0x00030000U + +/*tCKEHCMD: Valid command requirement after CKE input HIGH. For configurations with MEMC_FREQ_RATIO=2, program this to (tCKEHCM + /2) and round it up to next integer value.*/ +#undef DDRC_DRAMTMG12_T_CKEHCMD_DEFVAL +#undef DDRC_DRAMTMG12_T_CKEHCMD_SHIFT +#undef DDRC_DRAMTMG12_T_CKEHCMD_MASK +#define DDRC_DRAMTMG12_T_CKEHCMD_DEFVAL 0x00020610 +#define DDRC_DRAMTMG12_T_CKEHCMD_SHIFT 8 +#define DDRC_DRAMTMG12_T_CKEHCMD_MASK 0x00000F00U + +/*tMRD_PDA: This is the Mode Register Set command cycle time in PDA mode. For configurations with MEMC_FREQ_RATIO=2, program th + s to (tMRD_PDA/2) and round it up to next integer value.*/ +#undef DDRC_DRAMTMG12_T_MRD_PDA_DEFVAL +#undef DDRC_DRAMTMG12_T_MRD_PDA_SHIFT +#undef DDRC_DRAMTMG12_T_MRD_PDA_MASK +#define DDRC_DRAMTMG12_T_MRD_PDA_DEFVAL 0x00020610 +#define DDRC_DRAMTMG12_T_MRD_PDA_SHIFT 0 +#define DDRC_DRAMTMG12_T_MRD_PDA_MASK 0x0000001FU + +/*- 1 - Disable uMCTL2 generation of ZQCS/MPC(ZQ calibration) command. Register DBGCMD.zq_calib_short can be used instead to is + ue ZQ calibration request from APB module. - 0 - Internally generate ZQCS/MPC(ZQ calibration) commands based on ZQCTL1.t_zq_s + ort_interval_x1024. This is only present for designs supporting DDR3/DDR4 or LPDDR2/LPDDR3/LPDDR4 devices.*/ +#undef DDRC_ZQCTL0_DIS_AUTO_ZQ_DEFVAL +#undef DDRC_ZQCTL0_DIS_AUTO_ZQ_SHIFT +#undef DDRC_ZQCTL0_DIS_AUTO_ZQ_MASK +#define DDRC_ZQCTL0_DIS_AUTO_ZQ_DEFVAL 0x02000040 +#define DDRC_ZQCTL0_DIS_AUTO_ZQ_SHIFT 31 +#define DDRC_ZQCTL0_DIS_AUTO_ZQ_MASK 0x80000000U + +/*- 1 - Disable issuing of ZQCL/MPC(ZQ calibration) command at Self-Refresh/SR-Powerdown exit. Only applicable when run in DDR3 + or DDR4 or LPDDR2 or LPDDR3 or LPDDR4 mode. - 0 - Enable issuing of ZQCL/MPC(ZQ calibration) command at Self-Refresh/SR-Power + own exit. Only applicable when run in DDR3 or DDR4 or LPDDR2 or LPDDR3 or LPDDR4 mode. This is only present for designs suppo + ting DDR3/DDR4 or LPDDR2/LPDDR3/LPDDR4 devices.*/ +#undef DDRC_ZQCTL0_DIS_SRX_ZQCL_DEFVAL +#undef DDRC_ZQCTL0_DIS_SRX_ZQCL_SHIFT +#undef DDRC_ZQCTL0_DIS_SRX_ZQCL_MASK +#define DDRC_ZQCTL0_DIS_SRX_ZQCL_DEFVAL 0x02000040 +#define DDRC_ZQCTL0_DIS_SRX_ZQCL_SHIFT 30 +#define DDRC_ZQCTL0_DIS_SRX_ZQCL_MASK 0x40000000U + +/*- 1 - Denotes that ZQ resistor is shared between ranks. Means ZQinit/ZQCL/ZQCS/MPC(ZQ calibration) commands are sent to one r + nk at a time with tZQinit/tZQCL/tZQCS/tZQCAL/tZQLAT timing met between commands so that commands to different ranks do not ov + rlap. - 0 - ZQ resistor is not shared. This is only present for designs supporting DDR3/DDR4 or LPDDR2/LPDDR3/LPDDR4 devices.*/ +#undef DDRC_ZQCTL0_ZQ_RESISTOR_SHARED_DEFVAL +#undef DDRC_ZQCTL0_ZQ_RESISTOR_SHARED_SHIFT +#undef DDRC_ZQCTL0_ZQ_RESISTOR_SHARED_MASK +#define DDRC_ZQCTL0_ZQ_RESISTOR_SHARED_DEFVAL 0x02000040 +#define DDRC_ZQCTL0_ZQ_RESISTOR_SHARED_SHIFT 29 +#define DDRC_ZQCTL0_ZQ_RESISTOR_SHARED_MASK 0x20000000U + +/*- 1 - Disable issuing of ZQCL command at Maximum Power Saving Mode exit. Only applicable when run in DDR4 mode. - 0 - Enable + ssuing of ZQCL command at Maximum Power Saving Mode exit. Only applicable when run in DDR4 mode. This is only present for des + gns supporting DDR4 devices.*/ +#undef DDRC_ZQCTL0_DIS_MPSMX_ZQCL_DEFVAL +#undef DDRC_ZQCTL0_DIS_MPSMX_ZQCL_SHIFT +#undef DDRC_ZQCTL0_DIS_MPSMX_ZQCL_MASK +#define DDRC_ZQCTL0_DIS_MPSMX_ZQCL_DEFVAL 0x02000040 +#define DDRC_ZQCTL0_DIS_MPSMX_ZQCL_SHIFT 28 +#define DDRC_ZQCTL0_DIS_MPSMX_ZQCL_MASK 0x10000000U + +/*tZQoper for DDR3/DDR4, tZQCL for LPDDR2/LPDDR3, tZQCAL for LPDDR4: Number of cycles of NOP required after a ZQCL (ZQ calibrat + on long)/MPC(ZQ Start) command is issued to SDRAM. For configurations with MEMC_FREQ_RATIO=2: DDR3/DDR4: program this to tZQo + er/2 and round it up to the next integer value. LPDDR2/LPDDR3: program this to tZQCL/2 and round it up to the next integer va + ue. LPDDR4: program this to tZQCAL/2 and round it up to the next integer value. Unit: Clock cycles. This is only present for + esigns supporting DDR3/DDR4 or LPDDR2/LPDDR3/LPDDR4 devices.*/ +#undef DDRC_ZQCTL0_T_ZQ_LONG_NOP_DEFVAL +#undef DDRC_ZQCTL0_T_ZQ_LONG_NOP_SHIFT +#undef DDRC_ZQCTL0_T_ZQ_LONG_NOP_MASK +#define DDRC_ZQCTL0_T_ZQ_LONG_NOP_DEFVAL 0x02000040 +#define DDRC_ZQCTL0_T_ZQ_LONG_NOP_SHIFT 16 +#define DDRC_ZQCTL0_T_ZQ_LONG_NOP_MASK 0x07FF0000U + +/*tZQCS for DDR3/DD4/LPDDR2/LPDDR3, tZQLAT for LPDDR4: Number of cycles of NOP required after a ZQCS (ZQ calibration short)/MPC + ZQ Latch) command is issued to SDRAM. For configurations with MEMC_FREQ_RATIO=2, program this to tZQCS/2 and round it up to t + e next integer value. Unit: Clock cycles. This is only present for designs supporting DDR3/DDR4 or LPDDR2/LPDDR3/LPDDR4 devic + s.*/ +#undef DDRC_ZQCTL0_T_ZQ_SHORT_NOP_DEFVAL +#undef DDRC_ZQCTL0_T_ZQ_SHORT_NOP_SHIFT +#undef DDRC_ZQCTL0_T_ZQ_SHORT_NOP_MASK +#define DDRC_ZQCTL0_T_ZQ_SHORT_NOP_DEFVAL 0x02000040 +#define DDRC_ZQCTL0_T_ZQ_SHORT_NOP_SHIFT 0 +#define DDRC_ZQCTL0_T_ZQ_SHORT_NOP_MASK 0x000003FFU + +/*tZQReset: Number of cycles of NOP required after a ZQReset (ZQ calibration Reset) command is issued to SDRAM. For configurati + ns with MEMC_FREQ_RATIO=2, program this to tZQReset/2 and round it up to the next integer value. Unit: Clock cycles. This is + nly present for designs supporting LPDDR2/LPDDR3/LPDDR4 devices.*/ +#undef DDRC_ZQCTL1_T_ZQ_RESET_NOP_DEFVAL +#undef DDRC_ZQCTL1_T_ZQ_RESET_NOP_SHIFT +#undef DDRC_ZQCTL1_T_ZQ_RESET_NOP_MASK +#define DDRC_ZQCTL1_T_ZQ_RESET_NOP_DEFVAL 0x02000100 +#define DDRC_ZQCTL1_T_ZQ_RESET_NOP_SHIFT 20 +#define DDRC_ZQCTL1_T_ZQ_RESET_NOP_MASK 0x3FF00000U + +/*Average interval to wait between automatically issuing ZQCS (ZQ calibration short)/MPC(ZQ calibration) commands to DDR3/DDR4/ + PDDR2/LPDDR3/LPDDR4 devices. Meaningless, if ZQCTL0.dis_auto_zq=1. Unit: 1024 clock cycles. This is only present for designs + upporting DDR3/DDR4 or LPDDR2/LPDDR3/LPDDR4 devices.*/ +#undef DDRC_ZQCTL1_T_ZQ_SHORT_INTERVAL_X1024_DEFVAL +#undef DDRC_ZQCTL1_T_ZQ_SHORT_INTERVAL_X1024_SHIFT +#undef DDRC_ZQCTL1_T_ZQ_SHORT_INTERVAL_X1024_MASK +#define DDRC_ZQCTL1_T_ZQ_SHORT_INTERVAL_X1024_DEFVAL 0x02000100 +#define DDRC_ZQCTL1_T_ZQ_SHORT_INTERVAL_X1024_SHIFT 0 +#define DDRC_ZQCTL1_T_ZQ_SHORT_INTERVAL_X1024_MASK 0x000FFFFFU + +/*Specifies the number of DFI clock cycles after an assertion or de-assertion of the DFI control signals that the control signa + s at the PHY-DRAM interface reflect the assertion or de-assertion. If the DFI clock and the memory clock are not phase-aligne + , this timing parameter should be rounded up to the next integer value. Note that if using RDIMM, it is necessary to incremen + this parameter by RDIMM's extra cycle of latency in terms of DFI clock.*/ +#undef DDRC_DFITMG0_DFI_T_CTRL_DELAY_DEFVAL +#undef DDRC_DFITMG0_DFI_T_CTRL_DELAY_SHIFT +#undef DDRC_DFITMG0_DFI_T_CTRL_DELAY_MASK +#define DDRC_DFITMG0_DFI_T_CTRL_DELAY_DEFVAL 0x07020002 +#define DDRC_DFITMG0_DFI_T_CTRL_DELAY_SHIFT 24 +#define DDRC_DFITMG0_DFI_T_CTRL_DELAY_MASK 0x1F000000U + +/*Defines whether dfi_rddata_en/dfi_rddata/dfi_rddata_valid is generated using HDR or SDR values Selects whether value in DFITM + 0.dfi_t_rddata_en is in terms of SDR or HDR clock cycles: - 0 in terms of HDR clock cycles - 1 in terms of SDR clock cycles R + fer to PHY specification for correct value.*/ +#undef DDRC_DFITMG0_DFI_RDDATA_USE_SDR_DEFVAL +#undef DDRC_DFITMG0_DFI_RDDATA_USE_SDR_SHIFT +#undef DDRC_DFITMG0_DFI_RDDATA_USE_SDR_MASK +#define DDRC_DFITMG0_DFI_RDDATA_USE_SDR_DEFVAL 0x07020002 +#define DDRC_DFITMG0_DFI_RDDATA_USE_SDR_SHIFT 23 +#define DDRC_DFITMG0_DFI_RDDATA_USE_SDR_MASK 0x00800000U + +/*Time from the assertion of a read command on the DFI interface to the assertion of the dfi_rddata_en signal. Refer to PHY spe + ification for correct value. This corresponds to the DFI parameter trddata_en. Note that, depending on the PHY, if using RDIM + , it may be necessary to use the value (CL + 1) in the calculation of trddata_en. This is to compensate for the extra cycle o + latency through the RDIMM. Unit: Clocks*/ +#undef DDRC_DFITMG0_DFI_T_RDDATA_EN_DEFVAL +#undef DDRC_DFITMG0_DFI_T_RDDATA_EN_SHIFT +#undef DDRC_DFITMG0_DFI_T_RDDATA_EN_MASK +#define DDRC_DFITMG0_DFI_T_RDDATA_EN_DEFVAL 0x07020002 +#define DDRC_DFITMG0_DFI_T_RDDATA_EN_SHIFT 16 +#define DDRC_DFITMG0_DFI_T_RDDATA_EN_MASK 0x003F0000U + +/*Defines whether dfi_wrdata_en/dfi_wrdata/dfi_wrdata_mask is generated using HDR or SDR values Selects whether value in DFITMG + .dfi_tphy_wrlat is in terms of SDR or HDR clock cycles Selects whether value in DFITMG0.dfi_tphy_wrdata is in terms of SDR or + HDR clock cycles - 0 in terms of HDR clock cycles - 1 in terms of SDR clock cycles Refer to PHY specification for correct val + e.*/ +#undef DDRC_DFITMG0_DFI_WRDATA_USE_SDR_DEFVAL +#undef DDRC_DFITMG0_DFI_WRDATA_USE_SDR_SHIFT +#undef DDRC_DFITMG0_DFI_WRDATA_USE_SDR_MASK +#define DDRC_DFITMG0_DFI_WRDATA_USE_SDR_DEFVAL 0x07020002 +#define DDRC_DFITMG0_DFI_WRDATA_USE_SDR_SHIFT 15 +#define DDRC_DFITMG0_DFI_WRDATA_USE_SDR_MASK 0x00008000U + +/*Specifies the number of clock cycles between when dfi_wrdata_en is asserted to when the associated write data is driven on th + dfi_wrdata signal. This corresponds to the DFI timing parameter tphy_wrdata. Refer to PHY specification for correct value. N + te, max supported value is 8. Unit: Clocks*/ +#undef DDRC_DFITMG0_DFI_TPHY_WRDATA_DEFVAL +#undef DDRC_DFITMG0_DFI_TPHY_WRDATA_SHIFT +#undef DDRC_DFITMG0_DFI_TPHY_WRDATA_MASK +#define DDRC_DFITMG0_DFI_TPHY_WRDATA_DEFVAL 0x07020002 +#define DDRC_DFITMG0_DFI_TPHY_WRDATA_SHIFT 8 +#define DDRC_DFITMG0_DFI_TPHY_WRDATA_MASK 0x00003F00U + +/*Write latency Number of clocks from the write command to write data enable (dfi_wrdata_en). This corresponds to the DFI timin + parameter tphy_wrlat. Refer to PHY specification for correct value.Note that, depending on the PHY, if using RDIMM, it may b + necessary to use the value (CL + 1) in the calculation of tphy_wrlat. This is to compensate for the extra cycle of latency t + rough the RDIMM.*/ +#undef DDRC_DFITMG0_DFI_TPHY_WRLAT_DEFVAL +#undef DDRC_DFITMG0_DFI_TPHY_WRLAT_SHIFT +#undef DDRC_DFITMG0_DFI_TPHY_WRLAT_MASK +#define DDRC_DFITMG0_DFI_TPHY_WRLAT_DEFVAL 0x07020002 +#define DDRC_DFITMG0_DFI_TPHY_WRLAT_SHIFT 0 +#define DDRC_DFITMG0_DFI_TPHY_WRLAT_MASK 0x0000003FU + +/*Specifies the number of DFI PHY clocks between when the dfi_cs signal is asserted and when the associated command is driven. + his field is used for CAL mode, should be set to '0' or the value which matches the CAL mode register setting in the DRAM. If + the PHY can add the latency for CAL mode, this should be set to '0'. Valid Range: 0, 3, 4, 5, 6, and 8*/ +#undef DDRC_DFITMG1_DFI_T_CMD_LAT_DEFVAL +#undef DDRC_DFITMG1_DFI_T_CMD_LAT_SHIFT +#undef DDRC_DFITMG1_DFI_T_CMD_LAT_MASK +#define DDRC_DFITMG1_DFI_T_CMD_LAT_DEFVAL 0x00000404 +#define DDRC_DFITMG1_DFI_T_CMD_LAT_SHIFT 28 +#define DDRC_DFITMG1_DFI_T_CMD_LAT_MASK 0xF0000000U + +/*Specifies the number of DFI PHY clocks between when the dfi_cs signal is asserted and when the associated dfi_parity_in signa + is driven.*/ +#undef DDRC_DFITMG1_DFI_T_PARIN_LAT_DEFVAL +#undef DDRC_DFITMG1_DFI_T_PARIN_LAT_SHIFT +#undef DDRC_DFITMG1_DFI_T_PARIN_LAT_MASK +#define DDRC_DFITMG1_DFI_T_PARIN_LAT_DEFVAL 0x00000404 +#define DDRC_DFITMG1_DFI_T_PARIN_LAT_SHIFT 24 +#define DDRC_DFITMG1_DFI_T_PARIN_LAT_MASK 0x03000000U + +/*Specifies the number of DFI clocks between when the dfi_wrdata_en signal is asserted and when the corresponding write data tr + nsfer is completed on the DRAM bus. This corresponds to the DFI timing parameter twrdata_delay. Refer to PHY specification fo + correct value. For DFI 3.0 PHY, set to twrdata_delay, a new timing parameter introduced in DFI 3.0. For DFI 2.1 PHY, set to + phy_wrdata + (delay of DFI write data to the DRAM). Value to be programmed is in terms of DFI clocks, not PHY clocks. In FREQ + RATIO=2, divide PHY's value by 2 and round up to next integer. If using DFITMG0.dfi_wrdata_use_sdr=1, add 1 to the value. Uni + : Clocks*/ +#undef DDRC_DFITMG1_DFI_T_WRDATA_DELAY_DEFVAL +#undef DDRC_DFITMG1_DFI_T_WRDATA_DELAY_SHIFT +#undef DDRC_DFITMG1_DFI_T_WRDATA_DELAY_MASK +#define DDRC_DFITMG1_DFI_T_WRDATA_DELAY_DEFVAL 0x00000404 +#define DDRC_DFITMG1_DFI_T_WRDATA_DELAY_SHIFT 16 +#define DDRC_DFITMG1_DFI_T_WRDATA_DELAY_MASK 0x001F0000U + +/*Specifies the number of DFI clock cycles from the assertion of the dfi_dram_clk_disable signal on the DFI until the clock to + he DRAM memory devices, at the PHY-DRAM boundary, maintains a low value. If the DFI clock and the memory clock are not phase + ligned, this timing parameter should be rounded up to the next integer value.*/ +#undef DDRC_DFITMG1_DFI_T_DRAM_CLK_DISABLE_DEFVAL +#undef DDRC_DFITMG1_DFI_T_DRAM_CLK_DISABLE_SHIFT +#undef DDRC_DFITMG1_DFI_T_DRAM_CLK_DISABLE_MASK +#define DDRC_DFITMG1_DFI_T_DRAM_CLK_DISABLE_DEFVAL 0x00000404 +#define DDRC_DFITMG1_DFI_T_DRAM_CLK_DISABLE_SHIFT 8 +#define DDRC_DFITMG1_DFI_T_DRAM_CLK_DISABLE_MASK 0x00000F00U + +/*Specifies the number of DFI clock cycles from the de-assertion of the dfi_dram_clk_disable signal on the DFI until the first + alid rising edge of the clock to the DRAM memory devices, at the PHY-DRAM boundary. If the DFI clock and the memory clock are + not phase aligned, this timing parameter should be rounded up to the next integer value.*/ +#undef DDRC_DFITMG1_DFI_T_DRAM_CLK_ENABLE_DEFVAL +#undef DDRC_DFITMG1_DFI_T_DRAM_CLK_ENABLE_SHIFT +#undef DDRC_DFITMG1_DFI_T_DRAM_CLK_ENABLE_MASK +#define DDRC_DFITMG1_DFI_T_DRAM_CLK_ENABLE_DEFVAL 0x00000404 +#define DDRC_DFITMG1_DFI_T_DRAM_CLK_ENABLE_SHIFT 0 +#define DDRC_DFITMG1_DFI_T_DRAM_CLK_ENABLE_MASK 0x0000000FU + +/*Setting for DFI's tlp_resp time. Same value is used for both Power Down, Self Refresh, Deep Power Down and Maximum Power Savi + g modes. DFI 2.1 specification onwards, recommends using a fixed value of 7 always.*/ +#undef DDRC_DFILPCFG0_DFI_TLP_RESP_DEFVAL +#undef DDRC_DFILPCFG0_DFI_TLP_RESP_SHIFT +#undef DDRC_DFILPCFG0_DFI_TLP_RESP_MASK +#define DDRC_DFILPCFG0_DFI_TLP_RESP_DEFVAL 0x07000000 +#define DDRC_DFILPCFG0_DFI_TLP_RESP_SHIFT 24 +#define DDRC_DFILPCFG0_DFI_TLP_RESP_MASK 0x0F000000U + +/*Value to drive on dfi_lp_wakeup signal when Deep Power Down mode is entered. Determines the DFI's tlp_wakeup time: - 0x0 - 16 + cycles - 0x1 - 32 cycles - 0x2 - 64 cycles - 0x3 - 128 cycles - 0x4 - 256 cycles - 0x5 - 512 cycles - 0x6 - 1024 cycles - 0x7 + - 2048 cycles - 0x8 - 4096 cycles - 0x9 - 8192 cycles - 0xA - 16384 cycles - 0xB - 32768 cycles - 0xC - 65536 cycles - 0xD - + 31072 cycles - 0xE - 262144 cycles - 0xF - Unlimited This is only present for designs supporting mDDR or LPDDR2/LPDDR3 device + .*/ +#undef DDRC_DFILPCFG0_DFI_LP_WAKEUP_DPD_DEFVAL +#undef DDRC_DFILPCFG0_DFI_LP_WAKEUP_DPD_SHIFT +#undef DDRC_DFILPCFG0_DFI_LP_WAKEUP_DPD_MASK +#define DDRC_DFILPCFG0_DFI_LP_WAKEUP_DPD_DEFVAL 0x07000000 +#define DDRC_DFILPCFG0_DFI_LP_WAKEUP_DPD_SHIFT 20 +#define DDRC_DFILPCFG0_DFI_LP_WAKEUP_DPD_MASK 0x00F00000U + +/*Enables DFI Low Power interface handshaking during Deep Power Down Entry/Exit. - 0 - Disabled - 1 - Enabled This is only pres + nt for designs supporting mDDR or LPDDR2/LPDDR3 devices.*/ +#undef DDRC_DFILPCFG0_DFI_LP_EN_DPD_DEFVAL +#undef DDRC_DFILPCFG0_DFI_LP_EN_DPD_SHIFT +#undef DDRC_DFILPCFG0_DFI_LP_EN_DPD_MASK +#define DDRC_DFILPCFG0_DFI_LP_EN_DPD_DEFVAL 0x07000000 +#define DDRC_DFILPCFG0_DFI_LP_EN_DPD_SHIFT 16 +#define DDRC_DFILPCFG0_DFI_LP_EN_DPD_MASK 0x00010000U + +/*Value to drive on dfi_lp_wakeup signal when Self Refresh mode is entered. Determines the DFI's tlp_wakeup time: - 0x0 - 16 cy + les - 0x1 - 32 cycles - 0x2 - 64 cycles - 0x3 - 128 cycles - 0x4 - 256 cycles - 0x5 - 512 cycles - 0x6 - 1024 cycles - 0x7 - + 048 cycles - 0x8 - 4096 cycles - 0x9 - 8192 cycles - 0xA - 16384 cycles - 0xB - 32768 cycles - 0xC - 65536 cycles - 0xD - 131 + 72 cycles - 0xE - 262144 cycles - 0xF - Unlimited*/ +#undef DDRC_DFILPCFG0_DFI_LP_WAKEUP_SR_DEFVAL +#undef DDRC_DFILPCFG0_DFI_LP_WAKEUP_SR_SHIFT +#undef DDRC_DFILPCFG0_DFI_LP_WAKEUP_SR_MASK +#define DDRC_DFILPCFG0_DFI_LP_WAKEUP_SR_DEFVAL 0x07000000 +#define DDRC_DFILPCFG0_DFI_LP_WAKEUP_SR_SHIFT 12 +#define DDRC_DFILPCFG0_DFI_LP_WAKEUP_SR_MASK 0x0000F000U + +/*Enables DFI Low Power interface handshaking during Self Refresh Entry/Exit. - 0 - Disabled - 1 - Enabled*/ +#undef DDRC_DFILPCFG0_DFI_LP_EN_SR_DEFVAL +#undef DDRC_DFILPCFG0_DFI_LP_EN_SR_SHIFT +#undef DDRC_DFILPCFG0_DFI_LP_EN_SR_MASK +#define DDRC_DFILPCFG0_DFI_LP_EN_SR_DEFVAL 0x07000000 +#define DDRC_DFILPCFG0_DFI_LP_EN_SR_SHIFT 8 +#define DDRC_DFILPCFG0_DFI_LP_EN_SR_MASK 0x00000100U + +/*Value to drive on dfi_lp_wakeup signal when Power Down mode is entered. Determines the DFI's tlp_wakeup time: - 0x0 - 16 cycl + s - 0x1 - 32 cycles - 0x2 - 64 cycles - 0x3 - 128 cycles - 0x4 - 256 cycles - 0x5 - 512 cycles - 0x6 - 1024 cycles - 0x7 - 20 + 8 cycles - 0x8 - 4096 cycles - 0x9 - 8192 cycles - 0xA - 16384 cycles - 0xB - 32768 cycles - 0xC - 65536 cycles - 0xD - 13107 + cycles - 0xE - 262144 cycles - 0xF - Unlimited*/ +#undef DDRC_DFILPCFG0_DFI_LP_WAKEUP_PD_DEFVAL +#undef DDRC_DFILPCFG0_DFI_LP_WAKEUP_PD_SHIFT +#undef DDRC_DFILPCFG0_DFI_LP_WAKEUP_PD_MASK +#define DDRC_DFILPCFG0_DFI_LP_WAKEUP_PD_DEFVAL 0x07000000 +#define DDRC_DFILPCFG0_DFI_LP_WAKEUP_PD_SHIFT 4 +#define DDRC_DFILPCFG0_DFI_LP_WAKEUP_PD_MASK 0x000000F0U + +/*Enables DFI Low Power interface handshaking during Power Down Entry/Exit. - 0 - Disabled - 1 - Enabled*/ +#undef DDRC_DFILPCFG0_DFI_LP_EN_PD_DEFVAL +#undef DDRC_DFILPCFG0_DFI_LP_EN_PD_SHIFT +#undef DDRC_DFILPCFG0_DFI_LP_EN_PD_MASK +#define DDRC_DFILPCFG0_DFI_LP_EN_PD_DEFVAL 0x07000000 +#define DDRC_DFILPCFG0_DFI_LP_EN_PD_SHIFT 0 +#define DDRC_DFILPCFG0_DFI_LP_EN_PD_MASK 0x00000001U + +/*Value to drive on dfi_lp_wakeup signal when Maximum Power Saving Mode is entered. Determines the DFI's tlp_wakeup time: - 0x0 + - 16 cycles - 0x1 - 32 cycles - 0x2 - 64 cycles - 0x3 - 128 cycles - 0x4 - 256 cycles - 0x5 - 512 cycles - 0x6 - 1024 cycles + 0x7 - 2048 cycles - 0x8 - 4096 cycles - 0x9 - 8192 cycles - 0xA - 16384 cycles - 0xB - 32768 cycles - 0xC - 65536 cycles - 0 + D - 131072 cycles - 0xE - 262144 cycles - 0xF - Unlimited This is only present for designs supporting DDR4 devices.*/ +#undef DDRC_DFILPCFG1_DFI_LP_WAKEUP_MPSM_DEFVAL +#undef DDRC_DFILPCFG1_DFI_LP_WAKEUP_MPSM_SHIFT +#undef DDRC_DFILPCFG1_DFI_LP_WAKEUP_MPSM_MASK +#define DDRC_DFILPCFG1_DFI_LP_WAKEUP_MPSM_DEFVAL 0x00000000 +#define DDRC_DFILPCFG1_DFI_LP_WAKEUP_MPSM_SHIFT 4 +#define DDRC_DFILPCFG1_DFI_LP_WAKEUP_MPSM_MASK 0x000000F0U + +/*Enables DFI Low Power interface handshaking during Maximum Power Saving Mode Entry/Exit. - 0 - Disabled - 1 - Enabled This is + only present for designs supporting DDR4 devices.*/ +#undef DDRC_DFILPCFG1_DFI_LP_EN_MPSM_DEFVAL +#undef DDRC_DFILPCFG1_DFI_LP_EN_MPSM_SHIFT +#undef DDRC_DFILPCFG1_DFI_LP_EN_MPSM_MASK +#define DDRC_DFILPCFG1_DFI_LP_EN_MPSM_DEFVAL 0x00000000 +#define DDRC_DFILPCFG1_DFI_LP_EN_MPSM_SHIFT 0 +#define DDRC_DFILPCFG1_DFI_LP_EN_MPSM_MASK 0x00000001U + +/*This is the minimum amount of time between uMCTL2 initiated DFI update requests (which is executed whenever the uMCTL2 is idl + ). Set this number higher to reduce the frequency of update requests, which can have a small impact on the latency of the fir + t read request when the uMCTL2 is idle. Unit: 1024 clocks*/ +#undef DDRC_DFIUPD1_DFI_T_CTRLUPD_INTERVAL_MIN_X1024_DEFVAL +#undef DDRC_DFIUPD1_DFI_T_CTRLUPD_INTERVAL_MIN_X1024_SHIFT +#undef DDRC_DFIUPD1_DFI_T_CTRLUPD_INTERVAL_MIN_X1024_MASK +#define DDRC_DFIUPD1_DFI_T_CTRLUPD_INTERVAL_MIN_X1024_DEFVAL 0x00000000 +#define DDRC_DFIUPD1_DFI_T_CTRLUPD_INTERVAL_MIN_X1024_SHIFT 16 +#define DDRC_DFIUPD1_DFI_T_CTRLUPD_INTERVAL_MIN_X1024_MASK 0x00FF0000U + +/*This is the maximum amount of time between uMCTL2 initiated DFI update requests. This timer resets with each update request; + hen the timer expires dfi_ctrlupd_req is sent and traffic is blocked until the dfi_ctrlupd_ackx is received. PHY can use this + idle time to recalibrate the delay lines to the DLLs. The DFI controller update is also used to reset PHY FIFO pointers in ca + e of data capture errors. Updates are required to maintain calibration over PVT, but frequent updates may impact performance. + Note: Value programmed for DFIUPD1.dfi_t_ctrlupd_interval_max_x1024 must be greater than DFIUPD1.dfi_t_ctrlupd_interval_min_x + 024. Unit: 1024 clocks*/ +#undef DDRC_DFIUPD1_DFI_T_CTRLUPD_INTERVAL_MAX_X1024_DEFVAL +#undef DDRC_DFIUPD1_DFI_T_CTRLUPD_INTERVAL_MAX_X1024_SHIFT +#undef DDRC_DFIUPD1_DFI_T_CTRLUPD_INTERVAL_MAX_X1024_MASK +#define DDRC_DFIUPD1_DFI_T_CTRLUPD_INTERVAL_MAX_X1024_DEFVAL 0x00000000 +#define DDRC_DFIUPD1_DFI_T_CTRLUPD_INTERVAL_MAX_X1024_SHIFT 0 +#define DDRC_DFIUPD1_DFI_T_CTRLUPD_INTERVAL_MAX_X1024_MASK 0x000000FFU + +/*Defines polarity of dfi_wrdata_cs and dfi_rddata_cs signals. - 0: Signals are active low - 1: Signals are active high*/ +#undef DDRC_DFIMISC_DFI_DATA_CS_POLARITY_DEFVAL +#undef DDRC_DFIMISC_DFI_DATA_CS_POLARITY_SHIFT +#undef DDRC_DFIMISC_DFI_DATA_CS_POLARITY_MASK +#define DDRC_DFIMISC_DFI_DATA_CS_POLARITY_DEFVAL 0x00000001 +#define DDRC_DFIMISC_DFI_DATA_CS_POLARITY_SHIFT 2 +#define DDRC_DFIMISC_DFI_DATA_CS_POLARITY_MASK 0x00000004U + +/*DBI implemented in DDRC or PHY. - 0 - DDRC implements DBI functionality. - 1 - PHY implements DBI functionality. Present only + in designs configured to support DDR4 and LPDDR4.*/ +#undef DDRC_DFIMISC_PHY_DBI_MODE_DEFVAL +#undef DDRC_DFIMISC_PHY_DBI_MODE_SHIFT +#undef DDRC_DFIMISC_PHY_DBI_MODE_MASK +#define DDRC_DFIMISC_PHY_DBI_MODE_DEFVAL 0x00000001 +#define DDRC_DFIMISC_PHY_DBI_MODE_SHIFT 1 +#define DDRC_DFIMISC_PHY_DBI_MODE_MASK 0x00000002U + +/*PHY initialization complete enable signal. When asserted the dfi_init_complete signal can be used to trigger SDRAM initialisa + ion*/ +#undef DDRC_DFIMISC_DFI_INIT_COMPLETE_EN_DEFVAL +#undef DDRC_DFIMISC_DFI_INIT_COMPLETE_EN_SHIFT +#undef DDRC_DFIMISC_DFI_INIT_COMPLETE_EN_MASK +#define DDRC_DFIMISC_DFI_INIT_COMPLETE_EN_DEFVAL 0x00000001 +#define DDRC_DFIMISC_DFI_INIT_COMPLETE_EN_SHIFT 0 +#define DDRC_DFIMISC_DFI_INIT_COMPLETE_EN_MASK 0x00000001U + +/*>Number of clocks between when a read command is sent on the DFI control interface and when the associated dfi_rddata_cs sign + l is asserted. This corresponds to the DFI timing parameter tphy_rdcslat. Refer to PHY specification for correct value.*/ +#undef DDRC_DFITMG2_DFI_TPHY_RDCSLAT_DEFVAL +#undef DDRC_DFITMG2_DFI_TPHY_RDCSLAT_SHIFT +#undef DDRC_DFITMG2_DFI_TPHY_RDCSLAT_MASK +#define DDRC_DFITMG2_DFI_TPHY_RDCSLAT_DEFVAL 0x00000202 +#define DDRC_DFITMG2_DFI_TPHY_RDCSLAT_SHIFT 8 +#define DDRC_DFITMG2_DFI_TPHY_RDCSLAT_MASK 0x00003F00U + +/*Number of clocks between when a write command is sent on the DFI control interface and when the associated dfi_wrdata_cs sign + l is asserted. This corresponds to the DFI timing parameter tphy_wrcslat. Refer to PHY specification for correct value.*/ +#undef DDRC_DFITMG2_DFI_TPHY_WRCSLAT_DEFVAL +#undef DDRC_DFITMG2_DFI_TPHY_WRCSLAT_SHIFT +#undef DDRC_DFITMG2_DFI_TPHY_WRCSLAT_MASK +#define DDRC_DFITMG2_DFI_TPHY_WRCSLAT_DEFVAL 0x00000202 +#define DDRC_DFITMG2_DFI_TPHY_WRCSLAT_SHIFT 0 +#define DDRC_DFITMG2_DFI_TPHY_WRCSLAT_MASK 0x0000003FU + +/*Read DBI enable signal in DDRC. - 0 - Read DBI is disabled. - 1 - Read DBI is enabled. This signal must be set the same value + as DRAM's mode register. - DDR4: MR5 bit A12. When x4 devices are used, this signal must be set to 0. - LPDDR4: MR3[6]*/ +#undef DDRC_DBICTL_RD_DBI_EN_DEFVAL +#undef DDRC_DBICTL_RD_DBI_EN_SHIFT +#undef DDRC_DBICTL_RD_DBI_EN_MASK +#define DDRC_DBICTL_RD_DBI_EN_DEFVAL 0x00000001 +#define DDRC_DBICTL_RD_DBI_EN_SHIFT 2 +#define DDRC_DBICTL_RD_DBI_EN_MASK 0x00000004U + +/*Write DBI enable signal in DDRC. - 0 - Write DBI is disabled. - 1 - Write DBI is enabled. This signal must be set the same va + ue as DRAM's mode register. - DDR4: MR5 bit A11. When x4 devices are used, this signal must be set to 0. - LPDDR4: MR3[7]*/ +#undef DDRC_DBICTL_WR_DBI_EN_DEFVAL +#undef DDRC_DBICTL_WR_DBI_EN_SHIFT +#undef DDRC_DBICTL_WR_DBI_EN_MASK +#define DDRC_DBICTL_WR_DBI_EN_DEFVAL 0x00000001 +#define DDRC_DBICTL_WR_DBI_EN_SHIFT 1 +#define DDRC_DBICTL_WR_DBI_EN_MASK 0x00000002U + +/*DM enable signal in DDRC. - 0 - DM is disabled. - 1 - DM is enabled. This signal must be set the same logical value as DRAM's + mode register. - DDR4: Set this to same value as MR5 bit A10. When x4 devices are used, this signal must be set to 0. - LPDDR + : Set this to inverted value of MR13[5] which is opposite polarity from this signal*/ +#undef DDRC_DBICTL_DM_EN_DEFVAL +#undef DDRC_DBICTL_DM_EN_SHIFT +#undef DDRC_DBICTL_DM_EN_MASK +#define DDRC_DBICTL_DM_EN_DEFVAL 0x00000001 +#define DDRC_DBICTL_DM_EN_SHIFT 0 +#define DDRC_DBICTL_DM_EN_MASK 0x00000001U + +/*Selects the HIF address bit used as rank address bit 0. Valid Range: 0 to 27, and 31 Internal Base: 6 The selected HIF addres + bit is determined by adding the internal base to the value of this field. If set to 31, rank address bit 0 is set to 0.*/ +#undef DDRC_ADDRMAP0_ADDRMAP_CS_BIT0_DEFVAL +#undef DDRC_ADDRMAP0_ADDRMAP_CS_BIT0_SHIFT +#undef DDRC_ADDRMAP0_ADDRMAP_CS_BIT0_MASK +#define DDRC_ADDRMAP0_ADDRMAP_CS_BIT0_DEFVAL +#define DDRC_ADDRMAP0_ADDRMAP_CS_BIT0_SHIFT 0 +#define DDRC_ADDRMAP0_ADDRMAP_CS_BIT0_MASK 0x0000001FU + +/*Selects the HIF address bit used as bank address bit 2. Valid Range: 0 to 29 and 31 Internal Base: 4 The selected HIF address + bit is determined by adding the internal base to the value of this field. If set to 31, bank address bit 2 is set to 0.*/ +#undef DDRC_ADDRMAP1_ADDRMAP_BANK_B2_DEFVAL +#undef DDRC_ADDRMAP1_ADDRMAP_BANK_B2_SHIFT +#undef DDRC_ADDRMAP1_ADDRMAP_BANK_B2_MASK +#define DDRC_ADDRMAP1_ADDRMAP_BANK_B2_DEFVAL 0x00000000 +#define DDRC_ADDRMAP1_ADDRMAP_BANK_B2_SHIFT 16 +#define DDRC_ADDRMAP1_ADDRMAP_BANK_B2_MASK 0x001F0000U + +/*Selects the HIF address bits used as bank address bit 1. Valid Range: 0 to 30 Internal Base: 3 The selected HIF address bit f + r each of the bank address bits is determined by adding the internal base to the value of this field.*/ +#undef DDRC_ADDRMAP1_ADDRMAP_BANK_B1_DEFVAL +#undef DDRC_ADDRMAP1_ADDRMAP_BANK_B1_SHIFT +#undef DDRC_ADDRMAP1_ADDRMAP_BANK_B1_MASK +#define DDRC_ADDRMAP1_ADDRMAP_BANK_B1_DEFVAL 0x00000000 +#define DDRC_ADDRMAP1_ADDRMAP_BANK_B1_SHIFT 8 +#define DDRC_ADDRMAP1_ADDRMAP_BANK_B1_MASK 0x00001F00U + +/*Selects the HIF address bits used as bank address bit 0. Valid Range: 0 to 30 Internal Base: 2 The selected HIF address bit f + r each of the bank address bits is determined by adding the internal base to the value of this field.*/ +#undef DDRC_ADDRMAP1_ADDRMAP_BANK_B0_DEFVAL +#undef DDRC_ADDRMAP1_ADDRMAP_BANK_B0_SHIFT +#undef DDRC_ADDRMAP1_ADDRMAP_BANK_B0_MASK +#define DDRC_ADDRMAP1_ADDRMAP_BANK_B0_DEFVAL 0x00000000 +#define DDRC_ADDRMAP1_ADDRMAP_BANK_B0_SHIFT 0 +#define DDRC_ADDRMAP1_ADDRMAP_BANK_B0_MASK 0x0000001FU + +/*- Full bus width mode: Selects the HIF address bit used as column address bit 5. - Half bus width mode: Selects the HIF addre + s bit used as column address bit 6. - Quarter bus width mode: Selects the HIF address bit used as column address bit 7 . Vali + Range: 0 to 7, and 15 Internal Base: 5 The selected HIF address bit is determined by adding the internal base to the value o + this field. If set to 15, this column address bit is set to 0.*/ +#undef DDRC_ADDRMAP2_ADDRMAP_COL_B5_DEFVAL +#undef DDRC_ADDRMAP2_ADDRMAP_COL_B5_SHIFT +#undef DDRC_ADDRMAP2_ADDRMAP_COL_B5_MASK +#define DDRC_ADDRMAP2_ADDRMAP_COL_B5_DEFVAL 0x00000000 +#define DDRC_ADDRMAP2_ADDRMAP_COL_B5_SHIFT 24 +#define DDRC_ADDRMAP2_ADDRMAP_COL_B5_MASK 0x0F000000U + +/*- Full bus width mode: Selects the HIF address bit used as column address bit 4. - Half bus width mode: Selects the HIF addre + s bit used as column address bit 5. - Quarter bus width mode: Selects the HIF address bit used as column address bit 6. Valid + Range: 0 to 7, and 15 Internal Base: 4 The selected HIF address bit is determined by adding the internal base to the value of + this field. If set to 15, this column address bit is set to 0.*/ +#undef DDRC_ADDRMAP2_ADDRMAP_COL_B4_DEFVAL +#undef DDRC_ADDRMAP2_ADDRMAP_COL_B4_SHIFT +#undef DDRC_ADDRMAP2_ADDRMAP_COL_B4_MASK +#define DDRC_ADDRMAP2_ADDRMAP_COL_B4_DEFVAL 0x00000000 +#define DDRC_ADDRMAP2_ADDRMAP_COL_B4_SHIFT 16 +#define DDRC_ADDRMAP2_ADDRMAP_COL_B4_MASK 0x000F0000U + +/*- Full bus width mode: Selects the HIF address bit used as column address bit 3. - Half bus width mode: Selects the HIF addre + s bit used as column address bit 4. - Quarter bus width mode: Selects the HIF address bit used as column address bit 5. Valid + Range: 0 to 7 Internal Base: 3 The selected HIF address bit is determined by adding the internal base to the value of this fi + ld. Note, if UMCTL2_INCL_ARB=1 and MEMC_BURST_LENGTH=16, it is required to program this to 0, hence register does not exist i + this case.*/ +#undef DDRC_ADDRMAP2_ADDRMAP_COL_B3_DEFVAL +#undef DDRC_ADDRMAP2_ADDRMAP_COL_B3_SHIFT +#undef DDRC_ADDRMAP2_ADDRMAP_COL_B3_MASK +#define DDRC_ADDRMAP2_ADDRMAP_COL_B3_DEFVAL 0x00000000 +#define DDRC_ADDRMAP2_ADDRMAP_COL_B3_SHIFT 8 +#define DDRC_ADDRMAP2_ADDRMAP_COL_B3_MASK 0x00000F00U + +/*- Full bus width mode: Selects the HIF address bit used as column address bit 2. - Half bus width mode: Selects the HIF addre + s bit used as column address bit 3. - Quarter bus width mode: Selects the HIF address bit used as column address bit 4. Valid + Range: 0 to 7 Internal Base: 2 The selected HIF address bit is determined by adding the internal base to the value of this fi + ld. Note, if UMCTL2_INCL_ARB=1 and MEMC_BURST_LENGTH=8 or 16, it is required to program this to 0.*/ +#undef DDRC_ADDRMAP2_ADDRMAP_COL_B2_DEFVAL +#undef DDRC_ADDRMAP2_ADDRMAP_COL_B2_SHIFT +#undef DDRC_ADDRMAP2_ADDRMAP_COL_B2_MASK +#define DDRC_ADDRMAP2_ADDRMAP_COL_B2_DEFVAL 0x00000000 +#define DDRC_ADDRMAP2_ADDRMAP_COL_B2_SHIFT 0 +#define DDRC_ADDRMAP2_ADDRMAP_COL_B2_MASK 0x0000000FU + +/*- Full bus width mode: Selects the HIF address bit used as column address bit 9. - Half bus width mode: Selects the HIF addre + s bit used as column address bit 11 (10 in LPDDR2/LPDDR3 mode). - Quarter bus width mode: Selects the HIF address bit used as + column address bit 13 (11 in LPDDR2/LPDDR3 mode). Valid Range: 0 to 7, and 15 Internal Base: 9 The selected HIF address bit i + determined by adding the internal base to the value of this field. If set to 15, this column address bit is set to 0. Note: + er JEDEC DDR2/3/mDDR specification, column address bit 10 is reserved for indicating auto-precharge, and hence no source addr + ss bit can be mapped to column address bit 10. In LPDDR2/LPDDR3, there is a dedicated bit for auto-precharge in the CA bus an + hence column bit 10 is used.*/ +#undef DDRC_ADDRMAP3_ADDRMAP_COL_B9_DEFVAL +#undef DDRC_ADDRMAP3_ADDRMAP_COL_B9_SHIFT +#undef DDRC_ADDRMAP3_ADDRMAP_COL_B9_MASK +#define DDRC_ADDRMAP3_ADDRMAP_COL_B9_DEFVAL 0x00000000 +#define DDRC_ADDRMAP3_ADDRMAP_COL_B9_SHIFT 24 +#define DDRC_ADDRMAP3_ADDRMAP_COL_B9_MASK 0x0F000000U + +/*- Full bus width mode: Selects the HIF address bit used as column address bit 8. - Half bus width mode: Selects the HIF addre + s bit used as column address bit 9. - Quarter bus width mode: Selects the HIF address bit used as column address bit 11 (10 i + LPDDR2/LPDDR3 mode). Valid Range: 0 to 7, and 15 Internal Base: 8 The selected HIF address bit is determined by adding the i + ternal base to the value of this field. If set to 15, this column address bit is set to 0. Note: Per JEDEC DDR2/3/mDDR specif + cation, column address bit 10 is reserved for indicating auto-precharge, and hence no source address bit can be mapped to col + mn address bit 10. In LPDDR2/LPDDR3, there is a dedicated bit for auto-precharge in the CA bus and hence column bit 10 is use + .*/ +#undef DDRC_ADDRMAP3_ADDRMAP_COL_B8_DEFVAL +#undef DDRC_ADDRMAP3_ADDRMAP_COL_B8_SHIFT +#undef DDRC_ADDRMAP3_ADDRMAP_COL_B8_MASK +#define DDRC_ADDRMAP3_ADDRMAP_COL_B8_DEFVAL 0x00000000 +#define DDRC_ADDRMAP3_ADDRMAP_COL_B8_SHIFT 16 +#define DDRC_ADDRMAP3_ADDRMAP_COL_B8_MASK 0x000F0000U + +/*- Full bus width mode: Selects the HIF address bit used as column address bit 7. - Half bus width mode: Selects the HIF addre + s bit used as column address bit 8. - Quarter bus width mode: Selects the HIF address bit used as column address bit 9. Valid + Range: 0 to 7, and 15 Internal Base: 7 The selected HIF address bit is determined by adding the internal base to the value of + this field. If set to 15, this column address bit is set to 0.*/ +#undef DDRC_ADDRMAP3_ADDRMAP_COL_B7_DEFVAL +#undef DDRC_ADDRMAP3_ADDRMAP_COL_B7_SHIFT +#undef DDRC_ADDRMAP3_ADDRMAP_COL_B7_MASK +#define DDRC_ADDRMAP3_ADDRMAP_COL_B7_DEFVAL 0x00000000 +#define DDRC_ADDRMAP3_ADDRMAP_COL_B7_SHIFT 8 +#define DDRC_ADDRMAP3_ADDRMAP_COL_B7_MASK 0x00000F00U + +/*- Full bus width mode: Selects the HIF address bit used as column address bit 6. - Half bus width mode: Selects the HIF addre + s bit used as column address bit 7. - Quarter bus width mode: Selects the HIF address bit used as column address bit 8. Valid + Range: 0 to 7, and 15 Internal Base: 6 The selected HIF address bit is determined by adding the internal base to the value of + this field. If set to 15, this column address bit is set to 0.*/ +#undef DDRC_ADDRMAP3_ADDRMAP_COL_B6_DEFVAL +#undef DDRC_ADDRMAP3_ADDRMAP_COL_B6_SHIFT +#undef DDRC_ADDRMAP3_ADDRMAP_COL_B6_MASK +#define DDRC_ADDRMAP3_ADDRMAP_COL_B6_DEFVAL 0x00000000 +#define DDRC_ADDRMAP3_ADDRMAP_COL_B6_SHIFT 0 +#define DDRC_ADDRMAP3_ADDRMAP_COL_B6_MASK 0x0000000FU + +/*- Full bus width mode: Selects the HIF address bit used as column address bit 13 (11 in LPDDR2/LPDDR3 mode). - Half bus width + mode: Unused. To make it unused, this should be tied to 4'hF. - Quarter bus width mode: Unused. To make it unused, this must + e tied to 4'hF. Valid Range: 0 to 7, and 15 Internal Base: 11 The selected HIF address bit is determined by adding the intern + l base to the value of this field. If set to 15, this column address bit is set to 0. Note: Per JEDEC DDR2/3/mDDR specificati + n, column address bit 10 is reserved for indicating auto-precharge, and hence no source address bit can be mapped to column a + dress bit 10. In LPDDR2/LPDDR3, there is a dedicated bit for auto-precharge in the CA bus and hence column bit 10 is used.*/ +#undef DDRC_ADDRMAP4_ADDRMAP_COL_B11_DEFVAL +#undef DDRC_ADDRMAP4_ADDRMAP_COL_B11_SHIFT +#undef DDRC_ADDRMAP4_ADDRMAP_COL_B11_MASK +#define DDRC_ADDRMAP4_ADDRMAP_COL_B11_DEFVAL 0x00000000 +#define DDRC_ADDRMAP4_ADDRMAP_COL_B11_SHIFT 8 +#define DDRC_ADDRMAP4_ADDRMAP_COL_B11_MASK 0x00000F00U + +/*- Full bus width mode: Selects the HIF address bit used as column address bit 11 (10 in LPDDR2/LPDDR3 mode). - Half bus width + mode: Selects the HIF address bit used as column address bit 13 (11 in LPDDR2/LPDDR3 mode). - Quarter bus width mode: UNUSED. + To make it unused, this must be tied to 4'hF. Valid Range: 0 to 7, and 15 Internal Base: 10 The selected HIF address bit is d + termined by adding the internal base to the value of this field. If set to 15, this column address bit is set to 0. Note: Per + JEDEC DDR2/3/mDDR specification, column address bit 10 is reserved for indicating auto-precharge, and hence no source address + bit can be mapped to column address bit 10. In LPDDR2/LPDDR3, there is a dedicated bit for auto-precharge in the CA bus and h + nce column bit 10 is used.*/ +#undef DDRC_ADDRMAP4_ADDRMAP_COL_B10_DEFVAL +#undef DDRC_ADDRMAP4_ADDRMAP_COL_B10_SHIFT +#undef DDRC_ADDRMAP4_ADDRMAP_COL_B10_MASK +#define DDRC_ADDRMAP4_ADDRMAP_COL_B10_DEFVAL 0x00000000 +#define DDRC_ADDRMAP4_ADDRMAP_COL_B10_SHIFT 0 +#define DDRC_ADDRMAP4_ADDRMAP_COL_B10_MASK 0x0000000FU + +/*Selects the HIF address bit used as row address bit 11. Valid Range: 0 to 11, and 15 Internal Base: 17 The selected HIF addre + s bit is determined by adding the internal base to the value of this field. If set to 15, row address bit 11 is set to 0.*/ +#undef DDRC_ADDRMAP5_ADDRMAP_ROW_B11_DEFVAL +#undef DDRC_ADDRMAP5_ADDRMAP_ROW_B11_SHIFT +#undef DDRC_ADDRMAP5_ADDRMAP_ROW_B11_MASK +#define DDRC_ADDRMAP5_ADDRMAP_ROW_B11_DEFVAL 0x00000000 +#define DDRC_ADDRMAP5_ADDRMAP_ROW_B11_SHIFT 24 +#define DDRC_ADDRMAP5_ADDRMAP_ROW_B11_MASK 0x0F000000U + +/*Selects the HIF address bits used as row address bits 2 to 10. Valid Range: 0 to 11, and 15 Internal Base: 8 (for row address + bit 2), 9 (for row address bit 3), 10 (for row address bit 4) etc increasing to 16 (for row address bit 10) The selected HIF + ddress bit for each of the row address bits is determined by adding the internal base to the value of this field. When value + 5 is used the values of row address bits 2 to 10 are defined by registers ADDRMAP9, ADDRMAP10, ADDRMAP11.*/ +#undef DDRC_ADDRMAP5_ADDRMAP_ROW_B2_10_DEFVAL +#undef DDRC_ADDRMAP5_ADDRMAP_ROW_B2_10_SHIFT +#undef DDRC_ADDRMAP5_ADDRMAP_ROW_B2_10_MASK +#define DDRC_ADDRMAP5_ADDRMAP_ROW_B2_10_DEFVAL 0x00000000 +#define DDRC_ADDRMAP5_ADDRMAP_ROW_B2_10_SHIFT 16 +#define DDRC_ADDRMAP5_ADDRMAP_ROW_B2_10_MASK 0x000F0000U + +/*Selects the HIF address bits used as row address bit 1. Valid Range: 0 to 11 Internal Base: 7 The selected HIF address bit fo + each of the row address bits is determined by adding the internal base to the value of this field.*/ +#undef DDRC_ADDRMAP5_ADDRMAP_ROW_B1_DEFVAL +#undef DDRC_ADDRMAP5_ADDRMAP_ROW_B1_SHIFT +#undef DDRC_ADDRMAP5_ADDRMAP_ROW_B1_MASK +#define DDRC_ADDRMAP5_ADDRMAP_ROW_B1_DEFVAL 0x00000000 +#define DDRC_ADDRMAP5_ADDRMAP_ROW_B1_SHIFT 8 +#define DDRC_ADDRMAP5_ADDRMAP_ROW_B1_MASK 0x00000F00U + +/*Selects the HIF address bits used as row address bit 0. Valid Range: 0 to 11 Internal Base: 6 The selected HIF address bit fo + each of the row address bits is determined by adding the internal base to the value of this field.*/ +#undef DDRC_ADDRMAP5_ADDRMAP_ROW_B0_DEFVAL +#undef DDRC_ADDRMAP5_ADDRMAP_ROW_B0_SHIFT +#undef DDRC_ADDRMAP5_ADDRMAP_ROW_B0_MASK +#define DDRC_ADDRMAP5_ADDRMAP_ROW_B0_DEFVAL 0x00000000 +#define DDRC_ADDRMAP5_ADDRMAP_ROW_B0_SHIFT 0 +#define DDRC_ADDRMAP5_ADDRMAP_ROW_B0_MASK 0x0000000FU + +/*Set this to 1 if there is an LPDDR3 SDRAM 6Gb or 12Gb device in use. - 1 - LPDDR3 SDRAM 6Gb/12Gb device in use. Every address + having row[14:13]==2'b11 is considered as invalid - 0 - non-LPDDR3 6Gb/12Gb device in use. All addresses are valid Present on + y in designs configured to support LPDDR3.*/ +#undef DDRC_ADDRMAP6_LPDDR3_6GB_12GB_DEFVAL +#undef DDRC_ADDRMAP6_LPDDR3_6GB_12GB_SHIFT +#undef DDRC_ADDRMAP6_LPDDR3_6GB_12GB_MASK +#define DDRC_ADDRMAP6_LPDDR3_6GB_12GB_DEFVAL 0x00000000 +#define DDRC_ADDRMAP6_LPDDR3_6GB_12GB_SHIFT 31 +#define DDRC_ADDRMAP6_LPDDR3_6GB_12GB_MASK 0x80000000U + +/*Selects the HIF address bit used as row address bit 15. Valid Range: 0 to 11, and 15 Internal Base: 21 The selected HIF addre + s bit is determined by adding the internal base to the value of this field. If set to 15, row address bit 15 is set to 0.*/ +#undef DDRC_ADDRMAP6_ADDRMAP_ROW_B15_DEFVAL +#undef DDRC_ADDRMAP6_ADDRMAP_ROW_B15_SHIFT +#undef DDRC_ADDRMAP6_ADDRMAP_ROW_B15_MASK +#define DDRC_ADDRMAP6_ADDRMAP_ROW_B15_DEFVAL 0x00000000 +#define DDRC_ADDRMAP6_ADDRMAP_ROW_B15_SHIFT 24 +#define DDRC_ADDRMAP6_ADDRMAP_ROW_B15_MASK 0x0F000000U + +/*Selects the HIF address bit used as row address bit 14. Valid Range: 0 to 11, and 15 Internal Base: 20 The selected HIF addre + s bit is determined by adding the internal base to the value of this field. If set to 15, row address bit 14 is set to 0.*/ +#undef DDRC_ADDRMAP6_ADDRMAP_ROW_B14_DEFVAL +#undef DDRC_ADDRMAP6_ADDRMAP_ROW_B14_SHIFT +#undef DDRC_ADDRMAP6_ADDRMAP_ROW_B14_MASK +#define DDRC_ADDRMAP6_ADDRMAP_ROW_B14_DEFVAL 0x00000000 +#define DDRC_ADDRMAP6_ADDRMAP_ROW_B14_SHIFT 16 +#define DDRC_ADDRMAP6_ADDRMAP_ROW_B14_MASK 0x000F0000U + +/*Selects the HIF address bit used as row address bit 13. Valid Range: 0 to 11, and 15 Internal Base: 19 The selected HIF addre + s bit is determined by adding the internal base to the value of this field. If set to 15, row address bit 13 is set to 0.*/ +#undef DDRC_ADDRMAP6_ADDRMAP_ROW_B13_DEFVAL +#undef DDRC_ADDRMAP6_ADDRMAP_ROW_B13_SHIFT +#undef DDRC_ADDRMAP6_ADDRMAP_ROW_B13_MASK +#define DDRC_ADDRMAP6_ADDRMAP_ROW_B13_DEFVAL 0x00000000 +#define DDRC_ADDRMAP6_ADDRMAP_ROW_B13_SHIFT 8 +#define DDRC_ADDRMAP6_ADDRMAP_ROW_B13_MASK 0x00000F00U + +/*Selects the HIF address bit used as row address bit 12. Valid Range: 0 to 11, and 15 Internal Base: 18 The selected HIF addre + s bit is determined by adding the internal base to the value of this field. If set to 15, row address bit 12 is set to 0.*/ +#undef DDRC_ADDRMAP6_ADDRMAP_ROW_B12_DEFVAL +#undef DDRC_ADDRMAP6_ADDRMAP_ROW_B12_SHIFT +#undef DDRC_ADDRMAP6_ADDRMAP_ROW_B12_MASK +#define DDRC_ADDRMAP6_ADDRMAP_ROW_B12_DEFVAL 0x00000000 +#define DDRC_ADDRMAP6_ADDRMAP_ROW_B12_SHIFT 0 +#define DDRC_ADDRMAP6_ADDRMAP_ROW_B12_MASK 0x0000000FU + +/*Selects the HIF address bit used as row address bit 17. Valid Range: 0 to 10, and 15 Internal Base: 23 The selected HIF addre + s bit is determined by adding the internal base to the value of this field. If set to 15, row address bit 17 is set to 0.*/ +#undef DDRC_ADDRMAP7_ADDRMAP_ROW_B17_DEFVAL +#undef DDRC_ADDRMAP7_ADDRMAP_ROW_B17_SHIFT +#undef DDRC_ADDRMAP7_ADDRMAP_ROW_B17_MASK +#define DDRC_ADDRMAP7_ADDRMAP_ROW_B17_DEFVAL 0x00000000 +#define DDRC_ADDRMAP7_ADDRMAP_ROW_B17_SHIFT 8 +#define DDRC_ADDRMAP7_ADDRMAP_ROW_B17_MASK 0x00000F00U + +/*Selects the HIF address bit used as row address bit 16. Valid Range: 0 to 11, and 15 Internal Base: 22 The selected HIF addre + s bit is determined by adding the internal base to the value of this field. If set to 15, row address bit 16 is set to 0.*/ +#undef DDRC_ADDRMAP7_ADDRMAP_ROW_B16_DEFVAL +#undef DDRC_ADDRMAP7_ADDRMAP_ROW_B16_SHIFT +#undef DDRC_ADDRMAP7_ADDRMAP_ROW_B16_MASK +#define DDRC_ADDRMAP7_ADDRMAP_ROW_B16_DEFVAL 0x00000000 +#define DDRC_ADDRMAP7_ADDRMAP_ROW_B16_SHIFT 0 +#define DDRC_ADDRMAP7_ADDRMAP_ROW_B16_MASK 0x0000000FU + +/*Selects the HIF address bits used as bank group address bit 1. Valid Range: 0 to 30, and 31 Internal Base: 3 The selected HIF + address bit for each of the bank group address bits is determined by adding the internal base to the value of this field. If + et to 31, bank group address bit 1 is set to 0.*/ +#undef DDRC_ADDRMAP8_ADDRMAP_BG_B1_DEFVAL +#undef DDRC_ADDRMAP8_ADDRMAP_BG_B1_SHIFT +#undef DDRC_ADDRMAP8_ADDRMAP_BG_B1_MASK +#define DDRC_ADDRMAP8_ADDRMAP_BG_B1_DEFVAL 0x00000000 +#define DDRC_ADDRMAP8_ADDRMAP_BG_B1_SHIFT 8 +#define DDRC_ADDRMAP8_ADDRMAP_BG_B1_MASK 0x00001F00U + +/*Selects the HIF address bits used as bank group address bit 0. Valid Range: 0 to 30 Internal Base: 2 The selected HIF address + bit for each of the bank group address bits is determined by adding the internal base to the value of this field.*/ +#undef DDRC_ADDRMAP8_ADDRMAP_BG_B0_DEFVAL +#undef DDRC_ADDRMAP8_ADDRMAP_BG_B0_SHIFT +#undef DDRC_ADDRMAP8_ADDRMAP_BG_B0_MASK +#define DDRC_ADDRMAP8_ADDRMAP_BG_B0_DEFVAL 0x00000000 +#define DDRC_ADDRMAP8_ADDRMAP_BG_B0_SHIFT 0 +#define DDRC_ADDRMAP8_ADDRMAP_BG_B0_MASK 0x0000001FU + +/*Selects the HIF address bits used as row address bit 5. Valid Range: 0 to 11 Internal Base: 11 The selected HIF address bit f + r each of the row address bits is determined by adding the internal base to the value of this field. This register field is u + ed only when ADDRMAP5.addrmap_row_b2_10 is set to value 15.*/ +#undef DDRC_ADDRMAP9_ADDRMAP_ROW_B5_DEFVAL +#undef DDRC_ADDRMAP9_ADDRMAP_ROW_B5_SHIFT +#undef DDRC_ADDRMAP9_ADDRMAP_ROW_B5_MASK +#define DDRC_ADDRMAP9_ADDRMAP_ROW_B5_DEFVAL 0x00000000 +#define DDRC_ADDRMAP9_ADDRMAP_ROW_B5_SHIFT 24 +#define DDRC_ADDRMAP9_ADDRMAP_ROW_B5_MASK 0x0F000000U + +/*Selects the HIF address bits used as row address bit 4. Valid Range: 0 to 11 Internal Base: 10 The selected HIF address bit f + r each of the row address bits is determined by adding the internal base to the value of this field. This register field is u + ed only when ADDRMAP5.addrmap_row_b2_10 is set to value 15.*/ +#undef DDRC_ADDRMAP9_ADDRMAP_ROW_B4_DEFVAL +#undef DDRC_ADDRMAP9_ADDRMAP_ROW_B4_SHIFT +#undef DDRC_ADDRMAP9_ADDRMAP_ROW_B4_MASK +#define DDRC_ADDRMAP9_ADDRMAP_ROW_B4_DEFVAL 0x00000000 +#define DDRC_ADDRMAP9_ADDRMAP_ROW_B4_SHIFT 16 +#define DDRC_ADDRMAP9_ADDRMAP_ROW_B4_MASK 0x000F0000U + +/*Selects the HIF address bits used as row address bit 3. Valid Range: 0 to 11 Internal Base: 9 The selected HIF address bit fo + each of the row address bits is determined by adding the internal base to the value of this field. This register field is us + d only when ADDRMAP5.addrmap_row_b2_10 is set to value 15.*/ +#undef DDRC_ADDRMAP9_ADDRMAP_ROW_B3_DEFVAL +#undef DDRC_ADDRMAP9_ADDRMAP_ROW_B3_SHIFT +#undef DDRC_ADDRMAP9_ADDRMAP_ROW_B3_MASK +#define DDRC_ADDRMAP9_ADDRMAP_ROW_B3_DEFVAL 0x00000000 +#define DDRC_ADDRMAP9_ADDRMAP_ROW_B3_SHIFT 8 +#define DDRC_ADDRMAP9_ADDRMAP_ROW_B3_MASK 0x00000F00U + +/*Selects the HIF address bits used as row address bit 2. Valid Range: 0 to 11 Internal Base: 8 The selected HIF address bit fo + each of the row address bits is determined by adding the internal base to the value of this field. This register field is us + d only when ADDRMAP5.addrmap_row_b2_10 is set to value 15.*/ +#undef DDRC_ADDRMAP9_ADDRMAP_ROW_B2_DEFVAL +#undef DDRC_ADDRMAP9_ADDRMAP_ROW_B2_SHIFT +#undef DDRC_ADDRMAP9_ADDRMAP_ROW_B2_MASK +#define DDRC_ADDRMAP9_ADDRMAP_ROW_B2_DEFVAL 0x00000000 +#define DDRC_ADDRMAP9_ADDRMAP_ROW_B2_SHIFT 0 +#define DDRC_ADDRMAP9_ADDRMAP_ROW_B2_MASK 0x0000000FU + +/*Selects the HIF address bits used as row address bit 9. Valid Range: 0 to 11 Internal Base: 15 The selected HIF address bit f + r each of the row address bits is determined by adding the internal base to the value of this field. This register field is u + ed only when ADDRMAP5.addrmap_row_b2_10 is set to value 15.*/ +#undef DDRC_ADDRMAP10_ADDRMAP_ROW_B9_DEFVAL +#undef DDRC_ADDRMAP10_ADDRMAP_ROW_B9_SHIFT +#undef DDRC_ADDRMAP10_ADDRMAP_ROW_B9_MASK +#define DDRC_ADDRMAP10_ADDRMAP_ROW_B9_DEFVAL 0x00000000 +#define DDRC_ADDRMAP10_ADDRMAP_ROW_B9_SHIFT 24 +#define DDRC_ADDRMAP10_ADDRMAP_ROW_B9_MASK 0x0F000000U + +/*Selects the HIF address bits used as row address bit 8. Valid Range: 0 to 11 Internal Base: 14 The selected HIF address bit f + r each of the row address bits is determined by adding the internal base to the value of this field. This register field is u + ed only when ADDRMAP5.addrmap_row_b2_10 is set to value 15.*/ +#undef DDRC_ADDRMAP10_ADDRMAP_ROW_B8_DEFVAL +#undef DDRC_ADDRMAP10_ADDRMAP_ROW_B8_SHIFT +#undef DDRC_ADDRMAP10_ADDRMAP_ROW_B8_MASK +#define DDRC_ADDRMAP10_ADDRMAP_ROW_B8_DEFVAL 0x00000000 +#define DDRC_ADDRMAP10_ADDRMAP_ROW_B8_SHIFT 16 +#define DDRC_ADDRMAP10_ADDRMAP_ROW_B8_MASK 0x000F0000U + +/*Selects the HIF address bits used as row address bit 7. Valid Range: 0 to 11 Internal Base: 13 The selected HIF address bit f + r each of the row address bits is determined by adding the internal base to the value of this field. This register field is u + ed only when ADDRMAP5.addrmap_row_b2_10 is set to value 15.*/ +#undef DDRC_ADDRMAP10_ADDRMAP_ROW_B7_DEFVAL +#undef DDRC_ADDRMAP10_ADDRMAP_ROW_B7_SHIFT +#undef DDRC_ADDRMAP10_ADDRMAP_ROW_B7_MASK +#define DDRC_ADDRMAP10_ADDRMAP_ROW_B7_DEFVAL 0x00000000 +#define DDRC_ADDRMAP10_ADDRMAP_ROW_B7_SHIFT 8 +#define DDRC_ADDRMAP10_ADDRMAP_ROW_B7_MASK 0x00000F00U + +/*Selects the HIF address bits used as row address bit 6. Valid Range: 0 to 11 Internal Base: 12 The selected HIF address bit f + r each of the row address bits is determined by adding the internal base to the value of this field. This register field is u + ed only when ADDRMAP5.addrmap_row_b2_10 is set to value 15.*/ +#undef DDRC_ADDRMAP10_ADDRMAP_ROW_B6_DEFVAL +#undef DDRC_ADDRMAP10_ADDRMAP_ROW_B6_SHIFT +#undef DDRC_ADDRMAP10_ADDRMAP_ROW_B6_MASK +#define DDRC_ADDRMAP10_ADDRMAP_ROW_B6_DEFVAL 0x00000000 +#define DDRC_ADDRMAP10_ADDRMAP_ROW_B6_SHIFT 0 +#define DDRC_ADDRMAP10_ADDRMAP_ROW_B6_MASK 0x0000000FU + +/*Selects the HIF address bits used as row address bit 10. Valid Range: 0 to 11 Internal Base: 16 The selected HIF address bit + or each of the row address bits is determined by adding the internal base to the value of this field. This register field is + sed only when ADDRMAP5.addrmap_row_b2_10 is set to value 15.*/ +#undef DDRC_ADDRMAP11_ADDRMAP_ROW_B10_DEFVAL +#undef DDRC_ADDRMAP11_ADDRMAP_ROW_B10_SHIFT +#undef DDRC_ADDRMAP11_ADDRMAP_ROW_B10_MASK +#define DDRC_ADDRMAP11_ADDRMAP_ROW_B10_DEFVAL +#define DDRC_ADDRMAP11_ADDRMAP_ROW_B10_SHIFT 0 +#define DDRC_ADDRMAP11_ADDRMAP_ROW_B10_MASK 0x0000000FU + +/*Cycles to hold ODT for a write command. The minimum supported value is 2. Recommended values: DDR2: - BL8: 0x5 (DDR2-400/533/ + 67), 0x6 (DDR2-800), 0x7 (DDR2-1066) - BL4: 0x3 (DDR2-400/533/667), 0x4 (DDR2-800), 0x5 (DDR2-1066) DDR3: - BL8: 0x6 DDR4: - + L8: 5 + WR_PREAMBLE + CRC_MODE WR_PREAMBLE = 1 (1tCK write preamble), 2 (2tCK write preamble) CRC_MODE = 0 (not CRC mode), 1 + CRC mode) LPDDR3: - BL8: 7 + RU(tODTon(max)/tCK)*/ +#undef DDRC_ODTCFG_WR_ODT_HOLD_DEFVAL +#undef DDRC_ODTCFG_WR_ODT_HOLD_SHIFT +#undef DDRC_ODTCFG_WR_ODT_HOLD_MASK +#define DDRC_ODTCFG_WR_ODT_HOLD_DEFVAL 0x04000400 +#define DDRC_ODTCFG_WR_ODT_HOLD_SHIFT 24 +#define DDRC_ODTCFG_WR_ODT_HOLD_MASK 0x0F000000U + +/*The delay, in clock cycles, from issuing a write command to setting ODT values associated with that command. ODT setting must + remain constant for the entire time that DQS is driven by the uMCTL2. Recommended values: DDR2: - CWL + AL - 3 (DDR2-400/533/ + 67), CWL + AL - 4 (DDR2-800), CWL + AL - 5 (DDR2-1066) If (CWL + AL - 3 < 0), uMCTL2 does not support ODT for write operation + DDR3: - 0x0 DDR4: - DFITMG1.dfi_t_cmd_lat (to adjust for CAL mode) LPDDR3: - WL - 1 - RU(tODTon(max)/tCK))*/ +#undef DDRC_ODTCFG_WR_ODT_DELAY_DEFVAL +#undef DDRC_ODTCFG_WR_ODT_DELAY_SHIFT +#undef DDRC_ODTCFG_WR_ODT_DELAY_MASK +#define DDRC_ODTCFG_WR_ODT_DELAY_DEFVAL 0x04000400 +#define DDRC_ODTCFG_WR_ODT_DELAY_SHIFT 16 +#define DDRC_ODTCFG_WR_ODT_DELAY_MASK 0x001F0000U + +/*Cycles to hold ODT for a read command. The minimum supported value is 2. Recommended values: DDR2: - BL8: 0x6 (not DDR2-1066) + 0x7 (DDR2-1066) - BL4: 0x4 (not DDR2-1066), 0x5 (DDR2-1066) DDR3: - BL8 - 0x6 DDR4: - BL8: 5 + RD_PREAMBLE RD_PREAMBLE = 1 ( + tCK write preamble), 2 (2tCK write preamble) LPDDR3: - BL8: 5 + RU(tDQSCK(max)/tCK) - RD(tDQSCK(min)/tCK) + RU(tODTon(max)/tC + )*/ +#undef DDRC_ODTCFG_RD_ODT_HOLD_DEFVAL +#undef DDRC_ODTCFG_RD_ODT_HOLD_SHIFT +#undef DDRC_ODTCFG_RD_ODT_HOLD_MASK +#define DDRC_ODTCFG_RD_ODT_HOLD_DEFVAL 0x04000400 +#define DDRC_ODTCFG_RD_ODT_HOLD_SHIFT 8 +#define DDRC_ODTCFG_RD_ODT_HOLD_MASK 0x00000F00U + +/*The delay, in clock cycles, from issuing a read command to setting ODT values associated with that command. ODT setting must + emain constant for the entire time that DQS is driven by the uMCTL2. Recommended values: DDR2: - CL + AL - 4 (not DDR2-1066), + CL + AL - 5 (DDR2-1066) If (CL + AL - 4 < 0), uMCTL2 does not support ODT for read operation. DDR3: - CL - CWL DDR4: - CL - C + L - RD_PREAMBLE + WR_PREAMBLE + DFITMG1.dfi_t_cmd_lat (to adjust for CAL mode) WR_PREAMBLE = 1 (1tCK write preamble), 2 (2tCK + write preamble) RD_PREAMBLE = 1 (1tCK write preamble), 2 (2tCK write preamble) If (CL - CWL - RD_PREAMBLE + WR_PREAMBLE) < 0, + uMCTL2 does not support ODT for read operation. LPDDR3: - RL + RD(tDQSCK(min)/tCK) - 1 - RU(tODTon(max)/tCK)*/ +#undef DDRC_ODTCFG_RD_ODT_DELAY_DEFVAL +#undef DDRC_ODTCFG_RD_ODT_DELAY_SHIFT +#undef DDRC_ODTCFG_RD_ODT_DELAY_MASK +#define DDRC_ODTCFG_RD_ODT_DELAY_DEFVAL 0x04000400 +#define DDRC_ODTCFG_RD_ODT_DELAY_SHIFT 2 +#define DDRC_ODTCFG_RD_ODT_DELAY_MASK 0x0000007CU + +/*Indicates which remote ODTs must be turned on during a read from rank 1. Each rank has a remote ODT (in the SDRAM) which can + e turned on by setting the appropriate bit here. Rank 0 is controlled by the LSB; rank 1 is controlled by bit next to the LSB + etc. For each rank, set its bit to 1 to enable its ODT. Present only in configurations that have 2 or more ranks*/ +#undef DDRC_ODTMAP_RANK1_RD_ODT_DEFVAL +#undef DDRC_ODTMAP_RANK1_RD_ODT_SHIFT +#undef DDRC_ODTMAP_RANK1_RD_ODT_MASK +#define DDRC_ODTMAP_RANK1_RD_ODT_DEFVAL 0x00002211 +#define DDRC_ODTMAP_RANK1_RD_ODT_SHIFT 12 +#define DDRC_ODTMAP_RANK1_RD_ODT_MASK 0x00003000U + +/*Indicates which remote ODTs must be turned on during a write to rank 1. Each rank has a remote ODT (in the SDRAM) which can b + turned on by setting the appropriate bit here. Rank 0 is controlled by the LSB; rank 1 is controlled by bit next to the LSB, + etc. For each rank, set its bit to 1 to enable its ODT. Present only in configurations that have 2 or more ranks*/ +#undef DDRC_ODTMAP_RANK1_WR_ODT_DEFVAL +#undef DDRC_ODTMAP_RANK1_WR_ODT_SHIFT +#undef DDRC_ODTMAP_RANK1_WR_ODT_MASK +#define DDRC_ODTMAP_RANK1_WR_ODT_DEFVAL 0x00002211 +#define DDRC_ODTMAP_RANK1_WR_ODT_SHIFT 8 +#define DDRC_ODTMAP_RANK1_WR_ODT_MASK 0x00000300U + +/*Indicates which remote ODTs must be turned on during a read from rank 0. Each rank has a remote ODT (in the SDRAM) which can + e turned on by setting the appropriate bit here. Rank 0 is controlled by the LSB; rank 1 is controlled by bit next to the LSB + etc. For each rank, set its bit to 1 to enable its ODT.*/ +#undef DDRC_ODTMAP_RANK0_RD_ODT_DEFVAL +#undef DDRC_ODTMAP_RANK0_RD_ODT_SHIFT +#undef DDRC_ODTMAP_RANK0_RD_ODT_MASK +#define DDRC_ODTMAP_RANK0_RD_ODT_DEFVAL 0x00002211 +#define DDRC_ODTMAP_RANK0_RD_ODT_SHIFT 4 +#define DDRC_ODTMAP_RANK0_RD_ODT_MASK 0x00000030U + +/*Indicates which remote ODTs must be turned on during a write to rank 0. Each rank has a remote ODT (in the SDRAM) which can b + turned on by setting the appropriate bit here. Rank 0 is controlled by the LSB; rank 1 is controlled by bit next to the LSB, + etc. For each rank, set its bit to 1 to enable its ODT.*/ +#undef DDRC_ODTMAP_RANK0_WR_ODT_DEFVAL +#undef DDRC_ODTMAP_RANK0_WR_ODT_SHIFT +#undef DDRC_ODTMAP_RANK0_WR_ODT_MASK +#define DDRC_ODTMAP_RANK0_WR_ODT_DEFVAL 0x00002211 +#define DDRC_ODTMAP_RANK0_WR_ODT_SHIFT 0 +#define DDRC_ODTMAP_RANK0_WR_ODT_MASK 0x00000003U + +/*When the preferred transaction store is empty for these many clock cycles, switch to the alternate transaction store if it is + non-empty. The read transaction store (both high and low priority) is the default preferred transaction store and the write t + ansaction store is the alternative store. When prefer write over read is set this is reversed. 0x0 is a legal value for this + egister. When set to 0x0, the transaction store switching will happen immediately when the switching conditions become true. + OR PERFORMANCE ONLY*/ +#undef DDRC_SCHED_RDWR_IDLE_GAP_DEFVAL +#undef DDRC_SCHED_RDWR_IDLE_GAP_SHIFT +#undef DDRC_SCHED_RDWR_IDLE_GAP_MASK +#define DDRC_SCHED_RDWR_IDLE_GAP_DEFVAL 0x00002005 +#define DDRC_SCHED_RDWR_IDLE_GAP_SHIFT 24 +#define DDRC_SCHED_RDWR_IDLE_GAP_MASK 0x7F000000U + +/*UNUSED*/ +#undef DDRC_SCHED_GO2CRITICAL_HYSTERESIS_DEFVAL +#undef DDRC_SCHED_GO2CRITICAL_HYSTERESIS_SHIFT +#undef DDRC_SCHED_GO2CRITICAL_HYSTERESIS_MASK +#define DDRC_SCHED_GO2CRITICAL_HYSTERESIS_DEFVAL 0x00002005 +#define DDRC_SCHED_GO2CRITICAL_HYSTERESIS_SHIFT 16 +#define DDRC_SCHED_GO2CRITICAL_HYSTERESIS_MASK 0x00FF0000U + +/*Number of entries in the low priority transaction store is this value + 1. (MEMC_NO_OF_ENTRY - (SCHED.lpr_num_entries + 1)) i + the number of entries available for the high priority transaction store. Setting this to maximum value allocates all entries + to low priority transaction store. Setting this to 0 allocates 1 entry to low priority transaction store and the rest to high + priority transaction store. Note: In ECC configurations, the numbers of write and low priority read credits issued is one les + than in the non-ECC case. One entry each is reserved in the write and low-priority read CAMs for storing the RMW requests ar + sing out of single bit error correction RMW operation.*/ +#undef DDRC_SCHED_LPR_NUM_ENTRIES_DEFVAL +#undef DDRC_SCHED_LPR_NUM_ENTRIES_SHIFT +#undef DDRC_SCHED_LPR_NUM_ENTRIES_MASK +#define DDRC_SCHED_LPR_NUM_ENTRIES_DEFVAL 0x00002005 +#define DDRC_SCHED_LPR_NUM_ENTRIES_SHIFT 8 +#define DDRC_SCHED_LPR_NUM_ENTRIES_MASK 0x00003F00U + +/*If true, bank is kept open only while there are page hit transactions available in the CAM to that bank. The last read or wri + e command in the CAM with a bank and page hit will be executed with auto-precharge if SCHED1.pageclose_timer=0. Even if this + egister set to 1 and SCHED1.pageclose_timer is set to 0, explicit precharge (and not auto-precharge) may be issued in some ca + es where there is a mode switch between Write and Read or between LPR and HPR. The Read and Write commands that are executed + s part of the ECC scrub requests are also executed without auto-precharge. If false, the bank remains open until there is a n + ed to close it (to open a different page, or for page timeout or refresh timeout) - also known as open page policy. The open + age policy can be overridden by setting the per-command-autopre bit on the HIF interface (hif_cmd_autopre). The pageclose fea + ure provids a midway between Open and Close page policies. FOR PERFORMANCE ONLY.*/ +#undef DDRC_SCHED_PAGECLOSE_DEFVAL +#undef DDRC_SCHED_PAGECLOSE_SHIFT +#undef DDRC_SCHED_PAGECLOSE_MASK +#define DDRC_SCHED_PAGECLOSE_DEFVAL 0x00002005 +#define DDRC_SCHED_PAGECLOSE_SHIFT 2 +#define DDRC_SCHED_PAGECLOSE_MASK 0x00000004U + +/*If set then the bank selector prefers writes over reads. FOR DEBUG ONLY.*/ +#undef DDRC_SCHED_PREFER_WRITE_DEFVAL +#undef DDRC_SCHED_PREFER_WRITE_SHIFT +#undef DDRC_SCHED_PREFER_WRITE_MASK +#define DDRC_SCHED_PREFER_WRITE_DEFVAL 0x00002005 +#define DDRC_SCHED_PREFER_WRITE_SHIFT 1 +#define DDRC_SCHED_PREFER_WRITE_MASK 0x00000002U + +/*Active low signal. When asserted ('0'), all incoming transactions are forced to low priority. This implies that all High Prio + ity Read (HPR) and Variable Priority Read commands (VPR) will be treated as Low Priority Read (LPR) commands. On the write si + e, all Variable Priority Write (VPW) commands will be treated as Normal Priority Write (NPW) commands. Forcing the incoming t + ansactions to low priority implicitly turns off Bypass path for read commands. FOR PERFORMANCE ONLY.*/ +#undef DDRC_SCHED_FORCE_LOW_PRI_N_DEFVAL +#undef DDRC_SCHED_FORCE_LOW_PRI_N_SHIFT +#undef DDRC_SCHED_FORCE_LOW_PRI_N_MASK +#define DDRC_SCHED_FORCE_LOW_PRI_N_DEFVAL 0x00002005 +#define DDRC_SCHED_FORCE_LOW_PRI_N_SHIFT 0 +#define DDRC_SCHED_FORCE_LOW_PRI_N_MASK 0x00000001U + +/*Number of transactions that are serviced once the LPR queue goes critical is the smaller of: - (a) This number - (b) Number o + transactions available. Unit: Transaction. FOR PERFORMANCE ONLY.*/ +#undef DDRC_PERFLPR1_LPR_XACT_RUN_LENGTH_DEFVAL +#undef DDRC_PERFLPR1_LPR_XACT_RUN_LENGTH_SHIFT +#undef DDRC_PERFLPR1_LPR_XACT_RUN_LENGTH_MASK +#define DDRC_PERFLPR1_LPR_XACT_RUN_LENGTH_DEFVAL 0x0F00007F +#define DDRC_PERFLPR1_LPR_XACT_RUN_LENGTH_SHIFT 24 +#define DDRC_PERFLPR1_LPR_XACT_RUN_LENGTH_MASK 0xFF000000U + +/*Number of clocks that the LPR queue can be starved before it goes critical. The minimum valid functional value for this regis + er is 0x1. Programming it to 0x0 will disable the starvation functionality; during normal operation, this function should not + be disabled as it will cause excessive latencies. Unit: Clock cycles. FOR PERFORMANCE ONLY.*/ +#undef DDRC_PERFLPR1_LPR_MAX_STARVE_DEFVAL +#undef DDRC_PERFLPR1_LPR_MAX_STARVE_SHIFT +#undef DDRC_PERFLPR1_LPR_MAX_STARVE_MASK +#define DDRC_PERFLPR1_LPR_MAX_STARVE_DEFVAL 0x0F00007F +#define DDRC_PERFLPR1_LPR_MAX_STARVE_SHIFT 0 +#define DDRC_PERFLPR1_LPR_MAX_STARVE_MASK 0x0000FFFFU + +/*Number of transactions that are serviced once the WR queue goes critical is the smaller of: - (a) This number - (b) Number of + transactions available. Unit: Transaction. FOR PERFORMANCE ONLY.*/ +#undef DDRC_PERFWR1_W_XACT_RUN_LENGTH_DEFVAL +#undef DDRC_PERFWR1_W_XACT_RUN_LENGTH_SHIFT +#undef DDRC_PERFWR1_W_XACT_RUN_LENGTH_MASK +#define DDRC_PERFWR1_W_XACT_RUN_LENGTH_DEFVAL 0x0F00007F +#define DDRC_PERFWR1_W_XACT_RUN_LENGTH_SHIFT 24 +#define DDRC_PERFWR1_W_XACT_RUN_LENGTH_MASK 0xFF000000U + +/*Number of clocks that the WR queue can be starved before it goes critical. The minimum valid functional value for this regist + r is 0x1. Programming it to 0x0 will disable the starvation functionality; during normal operation, this function should not + e disabled as it will cause excessive latencies. Unit: Clock cycles. FOR PERFORMANCE ONLY.*/ +#undef DDRC_PERFWR1_W_MAX_STARVE_DEFVAL +#undef DDRC_PERFWR1_W_MAX_STARVE_SHIFT +#undef DDRC_PERFWR1_W_MAX_STARVE_MASK +#define DDRC_PERFWR1_W_MAX_STARVE_DEFVAL 0x0F00007F +#define DDRC_PERFWR1_W_MAX_STARVE_SHIFT 0 +#define DDRC_PERFWR1_W_MAX_STARVE_MASK 0x0000FFFFU + +/*All even ranks have the same DQ mapping controled by DQMAP0-4 register as rank 0. This register provides DQ swap function for + all odd ranks to support CRC feature. rank based DQ swapping is: swap bit 0 with 1, swap bit 2 with 3, swap bit 4 with 5 and + wap bit 6 with 7. 1: Disable rank based DQ swapping 0: Enable rank based DQ swapping Present only in designs configured to su + port DDR4.*/ +#undef DDRC_DQMAP5_DIS_DQ_RANK_SWAP_DEFVAL +#undef DDRC_DQMAP5_DIS_DQ_RANK_SWAP_SHIFT +#undef DDRC_DQMAP5_DIS_DQ_RANK_SWAP_MASK +#define DDRC_DQMAP5_DIS_DQ_RANK_SWAP_DEFVAL +#define DDRC_DQMAP5_DIS_DQ_RANK_SWAP_SHIFT 0 +#define DDRC_DQMAP5_DIS_DQ_RANK_SWAP_MASK 0x00000001U + +/*When this is set to '0', auto-precharge is disabled for the flushed command in a collision case. Collision cases are write fo + lowed by read to same address, read followed by write to same address, or write followed by write to same address with DBG0.d + s_wc bit = 1 (where same address comparisons exclude the two address bits representing critical word). FOR DEBUG ONLY.*/ +#undef DDRC_DBG0_DIS_COLLISION_PAGE_OPT_DEFVAL +#undef DDRC_DBG0_DIS_COLLISION_PAGE_OPT_SHIFT +#undef DDRC_DBG0_DIS_COLLISION_PAGE_OPT_MASK +#define DDRC_DBG0_DIS_COLLISION_PAGE_OPT_DEFVAL 0x00000000 +#define DDRC_DBG0_DIS_COLLISION_PAGE_OPT_SHIFT 4 +#define DDRC_DBG0_DIS_COLLISION_PAGE_OPT_MASK 0x00000010U + +/*When 1, disable write combine. FOR DEBUG ONLY*/ +#undef DDRC_DBG0_DIS_WC_DEFVAL +#undef DDRC_DBG0_DIS_WC_SHIFT +#undef DDRC_DBG0_DIS_WC_MASK +#define DDRC_DBG0_DIS_WC_DEFVAL 0x00000000 +#define DDRC_DBG0_DIS_WC_SHIFT 0 +#define DDRC_DBG0_DIS_WC_MASK 0x00000001U + +/*Setting this register bit to 1 allows refresh and ZQCS commands to be triggered from hardware via the IOs ext_*. If set to 1, + the fields DBGCMD.zq_calib_short and DBGCMD.rank*_refresh have no function, and are ignored by the uMCTL2 logic. Setting this + register bit to 0 allows refresh and ZQCS to be triggered from software, via the fields DBGCMD.zq_calib_short and DBGCMD.rank + _refresh. If set to 0, the hardware pins ext_* have no function, and are ignored by the uMCTL2 logic. This register is static + and may only be changed when the DDRC reset signal, core_ddrc_rstn, is asserted (0).*/ +#undef DDRC_DBGCMD_HW_REF_ZQ_EN_DEFVAL +#undef DDRC_DBGCMD_HW_REF_ZQ_EN_SHIFT +#undef DDRC_DBGCMD_HW_REF_ZQ_EN_MASK +#define DDRC_DBGCMD_HW_REF_ZQ_EN_DEFVAL 0x00000000 +#define DDRC_DBGCMD_HW_REF_ZQ_EN_SHIFT 31 +#define DDRC_DBGCMD_HW_REF_ZQ_EN_MASK 0x80000000U + +/*Setting this register bit to 1 indicates to the uMCTL2 to issue a dfi_ctrlupd_req to the PHY. When this request is stored in + he uMCTL2, the bit is automatically cleared. This operation must only be performed when DFIUPD0.dis_auto_ctrlupd=1.*/ +#undef DDRC_DBGCMD_CTRLUPD_DEFVAL +#undef DDRC_DBGCMD_CTRLUPD_SHIFT +#undef DDRC_DBGCMD_CTRLUPD_MASK +#define DDRC_DBGCMD_CTRLUPD_DEFVAL 0x00000000 +#define DDRC_DBGCMD_CTRLUPD_SHIFT 5 +#define DDRC_DBGCMD_CTRLUPD_MASK 0x00000020U + +/*Setting this register bit to 1 indicates to the uMCTL2 to issue a ZQCS (ZQ calibration short)/MPC(ZQ calibration) command to + he SDRAM. When this request is stored in the uMCTL2, the bit is automatically cleared. This operation can be performed only w + en ZQCTL0.dis_auto_zq=1. It is recommended NOT to set this register bit if in Init operating mode. This register bit is ignor + d when in Self-Refresh(except LPDDR4) and SR-Powerdown(LPDDR4) and Deep power-down operating modes and Maximum Power Saving M + de.*/ +#undef DDRC_DBGCMD_ZQ_CALIB_SHORT_DEFVAL +#undef DDRC_DBGCMD_ZQ_CALIB_SHORT_SHIFT +#undef DDRC_DBGCMD_ZQ_CALIB_SHORT_MASK +#define DDRC_DBGCMD_ZQ_CALIB_SHORT_DEFVAL 0x00000000 +#define DDRC_DBGCMD_ZQ_CALIB_SHORT_SHIFT 4 +#define DDRC_DBGCMD_ZQ_CALIB_SHORT_MASK 0x00000010U + +/*Setting this register bit to 1 indicates to the uMCTL2 to issue a refresh to rank 1. Writing to this bit causes DBGSTAT.rank1 + refresh_busy to be set. When DBGSTAT.rank1_refresh_busy is cleared, the command has been stored in uMCTL2. This operation can + be performed only when RFSHCTL3.dis_auto_refresh=1. It is recommended NOT to set this register bit if in Init or Deep power-d + wn operating modes or Maximum Power Saving Mode.*/ +#undef DDRC_DBGCMD_RANK1_REFRESH_DEFVAL +#undef DDRC_DBGCMD_RANK1_REFRESH_SHIFT +#undef DDRC_DBGCMD_RANK1_REFRESH_MASK +#define DDRC_DBGCMD_RANK1_REFRESH_DEFVAL 0x00000000 +#define DDRC_DBGCMD_RANK1_REFRESH_SHIFT 1 +#define DDRC_DBGCMD_RANK1_REFRESH_MASK 0x00000002U + +/*Setting this register bit to 1 indicates to the uMCTL2 to issue a refresh to rank 0. Writing to this bit causes DBGSTAT.rank0 + refresh_busy to be set. When DBGSTAT.rank0_refresh_busy is cleared, the command has been stored in uMCTL2. This operation can + be performed only when RFSHCTL3.dis_auto_refresh=1. It is recommended NOT to set this register bit if in Init or Deep power-d + wn operating modes or Maximum Power Saving Mode.*/ +#undef DDRC_DBGCMD_RANK0_REFRESH_DEFVAL +#undef DDRC_DBGCMD_RANK0_REFRESH_SHIFT +#undef DDRC_DBGCMD_RANK0_REFRESH_MASK +#define DDRC_DBGCMD_RANK0_REFRESH_DEFVAL 0x00000000 +#define DDRC_DBGCMD_RANK0_REFRESH_SHIFT 0 +#define DDRC_DBGCMD_RANK0_REFRESH_MASK 0x00000001U + +/*Enable quasi-dynamic register programming outside reset. Program register to 0 to enable quasi-dynamic programming. Set back + egister to 1 once programming is done.*/ +#undef DDRC_SWCTL_SW_DONE_DEFVAL +#undef DDRC_SWCTL_SW_DONE_SHIFT +#undef DDRC_SWCTL_SW_DONE_MASK +#define DDRC_SWCTL_SW_DONE_DEFVAL +#define DDRC_SWCTL_SW_DONE_SHIFT 0 +#define DDRC_SWCTL_SW_DONE_MASK 0x00000001U + +/*Burst length expansion mode. By default (i.e. bl_exp_mode==0) XPI expands every AXI burst into multiple HIF commands, using t + e memory burst length as a unit. If set to 1, then XPI will use half of the memory burst length as a unit. This applies to bo + h reads and writes. When MSTR.data_bus_width==00, setting bl_exp_mode to 1 has no effect. This can be used in cases where Par + ial Writes is enabled (UMCTL2_PARTIAL_WR=1) and DBG0.dis_wc=1, in order to avoid or minimize t_ccd_l penalty in DDR4 and t_cc + _mw penalty in LPDDR4. Note that if DBICTL.reg_ddrc_dm_en=0, functionality is not supported in the following cases: - UMCTL2_ + ARTIAL_WR=0 - UMCTL2_PARTIAL_WR=1, MSTR.reg_ddrc_data_bus_width=01, MEMC_BURST_LENGTH=8 and MSTR.reg_ddrc_burst_rdwr=1000 (LP + DR4 only) - UMCTL2_PARTIAL_WR=1, MSTR.reg_ddrc_data_bus_width=01, MEMC_BURST_LENGTH=4 and MSTR.reg_ddrc_burst_rdwr=0100 (DDR4 + only), with either MSTR.reg_ddrc_burstchop=0 or CRCPARCTL1.reg_ddrc_crc_enable=1 Functionality is also not supported if Share + -AC is enabled*/ +#undef DDRC_PCCFG_BL_EXP_MODE_DEFVAL +#undef DDRC_PCCFG_BL_EXP_MODE_SHIFT +#undef DDRC_PCCFG_BL_EXP_MODE_MASK +#define DDRC_PCCFG_BL_EXP_MODE_DEFVAL 0x00000000 +#define DDRC_PCCFG_BL_EXP_MODE_SHIFT 8 +#define DDRC_PCCFG_BL_EXP_MODE_MASK 0x00000100U + +/*Page match four limit. If set to 1, limits the number of consecutive same page DDRC transactions that can be granted by the P + rt Arbiter to four when Page Match feature is enabled. If set to 0, there is no limit imposed on number of consecutive same p + ge DDRC transactions.*/ +#undef DDRC_PCCFG_PAGEMATCH_LIMIT_DEFVAL +#undef DDRC_PCCFG_PAGEMATCH_LIMIT_SHIFT +#undef DDRC_PCCFG_PAGEMATCH_LIMIT_MASK +#define DDRC_PCCFG_PAGEMATCH_LIMIT_DEFVAL 0x00000000 +#define DDRC_PCCFG_PAGEMATCH_LIMIT_SHIFT 4 +#define DDRC_PCCFG_PAGEMATCH_LIMIT_MASK 0x00000010U + +/*If set to 1 (enabled), sets co_gs_go2critical_wr and co_gs_go2critical_lpr/co_gs_go2critical_hpr signals going to DDRC based + n urgent input (awurgent, arurgent) coming from AXI master. If set to 0 (disabled), co_gs_go2critical_wr and co_gs_go2critica + _lpr/co_gs_go2critical_hpr signals at DDRC are driven to 1b'0.*/ +#undef DDRC_PCCFG_GO2CRITICAL_EN_DEFVAL +#undef DDRC_PCCFG_GO2CRITICAL_EN_SHIFT +#undef DDRC_PCCFG_GO2CRITICAL_EN_MASK +#define DDRC_PCCFG_GO2CRITICAL_EN_DEFVAL 0x00000000 +#define DDRC_PCCFG_GO2CRITICAL_EN_SHIFT 0 +#define DDRC_PCCFG_GO2CRITICAL_EN_MASK 0x00000001U + +/*If set to 1, enables the Page Match feature. If enabled, once a requesting port is granted, the port is continued to be grant + d if the following immediate commands are to the same memory page (same bank and same row). See also related PCCFG.pagematch_ + imit register.*/ +#undef DDRC_PCFGR_0_RD_PORT_PAGEMATCH_EN_DEFVAL +#undef DDRC_PCFGR_0_RD_PORT_PAGEMATCH_EN_SHIFT +#undef DDRC_PCFGR_0_RD_PORT_PAGEMATCH_EN_MASK +#define DDRC_PCFGR_0_RD_PORT_PAGEMATCH_EN_DEFVAL 0x00000000 +#define DDRC_PCFGR_0_RD_PORT_PAGEMATCH_EN_SHIFT 14 +#define DDRC_PCFGR_0_RD_PORT_PAGEMATCH_EN_MASK 0x00004000U + +/*If set to 1, enables the AXI urgent sideband signal (arurgent). When enabled and arurgent is asserted by the master, that por + becomes the highest priority and co_gs_go2critical_lpr/co_gs_go2critical_hpr signal to DDRC is asserted if enabled in PCCFG. + o2critical_en register. Note that arurgent signal can be asserted anytime and as long as required which is independent of add + ess handshaking (it is not associated with any particular command).*/ +#undef DDRC_PCFGR_0_RD_PORT_URGENT_EN_DEFVAL +#undef DDRC_PCFGR_0_RD_PORT_URGENT_EN_SHIFT +#undef DDRC_PCFGR_0_RD_PORT_URGENT_EN_MASK +#define DDRC_PCFGR_0_RD_PORT_URGENT_EN_DEFVAL 0x00000000 +#define DDRC_PCFGR_0_RD_PORT_URGENT_EN_SHIFT 13 +#define DDRC_PCFGR_0_RD_PORT_URGENT_EN_MASK 0x00002000U + +/*If set to 1, enables aging function for the read channel of the port.*/ +#undef DDRC_PCFGR_0_RD_PORT_AGING_EN_DEFVAL +#undef DDRC_PCFGR_0_RD_PORT_AGING_EN_SHIFT +#undef DDRC_PCFGR_0_RD_PORT_AGING_EN_MASK +#define DDRC_PCFGR_0_RD_PORT_AGING_EN_DEFVAL 0x00000000 +#define DDRC_PCFGR_0_RD_PORT_AGING_EN_SHIFT 12 +#define DDRC_PCFGR_0_RD_PORT_AGING_EN_MASK 0x00001000U + +/*Determines the initial load value of read aging counters. These counters will be parallel loaded after reset, or after each g + ant to the corresponding port. The aging counters down-count every clock cycle where the port is requesting but not granted. + he higher significant 5-bits of the read aging counter sets the priority of the read channel of a given port. Port's priority + will increase as the higher significant 5-bits of the counter starts to decrease. When the aging counter becomes 0, the corre + ponding port channel will have the highest priority level (timeout condition - Priority0). For multi-port configurations, the + aging counters cannot be used to set port priorities when external dynamic priority inputs (arqos) are enabled (timeout is st + ll applicable). For single port configurations, the aging counters are only used when they timeout (become 0) to force read-w + ite direction switching. In this case, external dynamic priority input, arqos (for reads only) can still be used to set the D + RC read priority (2 priority levels: low priority read - LPR, high priority read - HPR) on a command by command basis. Note: + he two LSBs of this register field are tied internally to 2'b00.*/ +#undef DDRC_PCFGR_0_RD_PORT_PRIORITY_DEFVAL +#undef DDRC_PCFGR_0_RD_PORT_PRIORITY_SHIFT +#undef DDRC_PCFGR_0_RD_PORT_PRIORITY_MASK +#define DDRC_PCFGR_0_RD_PORT_PRIORITY_DEFVAL 0x00000000 +#define DDRC_PCFGR_0_RD_PORT_PRIORITY_SHIFT 0 +#define DDRC_PCFGR_0_RD_PORT_PRIORITY_MASK 0x000003FFU + +/*If set to 1, enables the Page Match feature. If enabled, once a requesting port is granted, the port is continued to be grant + d if the following immediate commands are to the same memory page (same bank and same row). See also related PCCFG.pagematch_ + imit register.*/ +#undef DDRC_PCFGW_0_WR_PORT_PAGEMATCH_EN_DEFVAL +#undef DDRC_PCFGW_0_WR_PORT_PAGEMATCH_EN_SHIFT +#undef DDRC_PCFGW_0_WR_PORT_PAGEMATCH_EN_MASK +#define DDRC_PCFGW_0_WR_PORT_PAGEMATCH_EN_DEFVAL 0x00004000 +#define DDRC_PCFGW_0_WR_PORT_PAGEMATCH_EN_SHIFT 14 +#define DDRC_PCFGW_0_WR_PORT_PAGEMATCH_EN_MASK 0x00004000U + +/*If set to 1, enables the AXI urgent sideband signal (awurgent). When enabled and awurgent is asserted by the master, that por + becomes the highest priority and co_gs_go2critical_wr signal to DDRC is asserted if enabled in PCCFG.go2critical_en register + Note that awurgent signal can be asserted anytime and as long as required which is independent of address handshaking (it is + not associated with any particular command).*/ +#undef DDRC_PCFGW_0_WR_PORT_URGENT_EN_DEFVAL +#undef DDRC_PCFGW_0_WR_PORT_URGENT_EN_SHIFT +#undef DDRC_PCFGW_0_WR_PORT_URGENT_EN_MASK +#define DDRC_PCFGW_0_WR_PORT_URGENT_EN_DEFVAL 0x00004000 +#define DDRC_PCFGW_0_WR_PORT_URGENT_EN_SHIFT 13 +#define DDRC_PCFGW_0_WR_PORT_URGENT_EN_MASK 0x00002000U + +/*If set to 1, enables aging function for the write channel of the port.*/ +#undef DDRC_PCFGW_0_WR_PORT_AGING_EN_DEFVAL +#undef DDRC_PCFGW_0_WR_PORT_AGING_EN_SHIFT +#undef DDRC_PCFGW_0_WR_PORT_AGING_EN_MASK +#define DDRC_PCFGW_0_WR_PORT_AGING_EN_DEFVAL 0x00004000 +#define DDRC_PCFGW_0_WR_PORT_AGING_EN_SHIFT 12 +#define DDRC_PCFGW_0_WR_PORT_AGING_EN_MASK 0x00001000U + +/*Determines the initial load value of write aging counters. These counters will be parallel loaded after reset, or after each + rant to the corresponding port. The aging counters down-count every clock cycle where the port is requesting but not granted. + The higher significant 5-bits of the write aging counter sets the initial priority of the write channel of a given port. Port + s priority will increase as the higher significant 5-bits of the counter starts to decrease. When the aging counter becomes 0 + the corresponding port channel will have the highest priority level. For multi-port configurations, the aging counters canno + be used to set port priorities when external dynamic priority inputs (awqos) are enabled (timeout is still applicable). For + ingle port configurations, the aging counters are only used when they timeout (become 0) to force read-write direction switch + ng. Note: The two LSBs of this register field are tied internally to 2'b00.*/ +#undef DDRC_PCFGW_0_WR_PORT_PRIORITY_DEFVAL +#undef DDRC_PCFGW_0_WR_PORT_PRIORITY_SHIFT +#undef DDRC_PCFGW_0_WR_PORT_PRIORITY_MASK +#define DDRC_PCFGW_0_WR_PORT_PRIORITY_DEFVAL 0x00004000 +#define DDRC_PCFGW_0_WR_PORT_PRIORITY_SHIFT 0 +#define DDRC_PCFGW_0_WR_PORT_PRIORITY_MASK 0x000003FFU + +/*Enables port n.*/ +#undef DDRC_PCTRL_0_PORT_EN_DEFVAL +#undef DDRC_PCTRL_0_PORT_EN_SHIFT +#undef DDRC_PCTRL_0_PORT_EN_MASK +#define DDRC_PCTRL_0_PORT_EN_DEFVAL +#define DDRC_PCTRL_0_PORT_EN_SHIFT 0 +#define DDRC_PCTRL_0_PORT_EN_MASK 0x00000001U + +/*This bitfield indicates the traffic class of region 1. Valid values are: 0 : LPR, 1: VPR, 2: HPR. For dual address queue conf + gurations, region1 maps to the blue address queue. In this case, valid values are 0: LPR and 1: VPR only. When VPR support is + disabled (UMCTL2_VPR_EN = 0) and traffic class of region 1 is set to 1 (VPR), VPR traffic is aliased to LPR traffic.*/ +#undef DDRC_PCFGQOS0_0_RQOS_MAP_REGION1_DEFVAL +#undef DDRC_PCFGQOS0_0_RQOS_MAP_REGION1_SHIFT +#undef DDRC_PCFGQOS0_0_RQOS_MAP_REGION1_MASK +#define DDRC_PCFGQOS0_0_RQOS_MAP_REGION1_DEFVAL 0x00000000 +#define DDRC_PCFGQOS0_0_RQOS_MAP_REGION1_SHIFT 20 +#define DDRC_PCFGQOS0_0_RQOS_MAP_REGION1_MASK 0x00300000U + +/*This bitfield indicates the traffic class of region 0. Valid values are: 0: LPR, 1: VPR, 2: HPR. For dual address queue confi + urations, region 0 maps to the blue address queue. In this case, valid values are: 0: LPR and 1: VPR only. When VPR support i + disabled (UMCTL2_VPR_EN = 0) and traffic class of region0 is set to 1 (VPR), VPR traffic is aliased to LPR traffic.*/ +#undef DDRC_PCFGQOS0_0_RQOS_MAP_REGION0_DEFVAL +#undef DDRC_PCFGQOS0_0_RQOS_MAP_REGION0_SHIFT +#undef DDRC_PCFGQOS0_0_RQOS_MAP_REGION0_MASK +#define DDRC_PCFGQOS0_0_RQOS_MAP_REGION0_DEFVAL 0x00000000 +#define DDRC_PCFGQOS0_0_RQOS_MAP_REGION0_SHIFT 16 +#define DDRC_PCFGQOS0_0_RQOS_MAP_REGION0_MASK 0x00030000U + +/*Separation level1 indicating the end of region0 mapping; start of region0 is 0. Possible values for level1 are 0 to 13 (for d + al RAQ) or 0 to 14 (for single RAQ) which corresponds to arqos. Note that for PA, arqos values are used directly as port prio + ities, where the higher the value corresponds to higher port priority. All of the map_level* registers must be set to distinc + values.*/ +#undef DDRC_PCFGQOS0_0_RQOS_MAP_LEVEL1_DEFVAL +#undef DDRC_PCFGQOS0_0_RQOS_MAP_LEVEL1_SHIFT +#undef DDRC_PCFGQOS0_0_RQOS_MAP_LEVEL1_MASK +#define DDRC_PCFGQOS0_0_RQOS_MAP_LEVEL1_DEFVAL 0x00000000 +#define DDRC_PCFGQOS0_0_RQOS_MAP_LEVEL1_SHIFT 0 +#define DDRC_PCFGQOS0_0_RQOS_MAP_LEVEL1_MASK 0x0000000FU + +/*Specifies the timeout value for transactions mapped to the red address queue.*/ +#undef DDRC_PCFGQOS1_0_RQOS_MAP_TIMEOUTR_DEFVAL +#undef DDRC_PCFGQOS1_0_RQOS_MAP_TIMEOUTR_SHIFT +#undef DDRC_PCFGQOS1_0_RQOS_MAP_TIMEOUTR_MASK +#define DDRC_PCFGQOS1_0_RQOS_MAP_TIMEOUTR_DEFVAL 0x00000000 +#define DDRC_PCFGQOS1_0_RQOS_MAP_TIMEOUTR_SHIFT 16 +#define DDRC_PCFGQOS1_0_RQOS_MAP_TIMEOUTR_MASK 0x07FF0000U + +/*Specifies the timeout value for transactions mapped to the blue address queue.*/ +#undef DDRC_PCFGQOS1_0_RQOS_MAP_TIMEOUTB_DEFVAL +#undef DDRC_PCFGQOS1_0_RQOS_MAP_TIMEOUTB_SHIFT +#undef DDRC_PCFGQOS1_0_RQOS_MAP_TIMEOUTB_MASK +#define DDRC_PCFGQOS1_0_RQOS_MAP_TIMEOUTB_DEFVAL 0x00000000 +#define DDRC_PCFGQOS1_0_RQOS_MAP_TIMEOUTB_SHIFT 0 +#define DDRC_PCFGQOS1_0_RQOS_MAP_TIMEOUTB_MASK 0x000007FFU + +/*If set to 1, enables the Page Match feature. If enabled, once a requesting port is granted, the port is continued to be grant + d if the following immediate commands are to the same memory page (same bank and same row). See also related PCCFG.pagematch_ + imit register.*/ +#undef DDRC_PCFGR_1_RD_PORT_PAGEMATCH_EN_DEFVAL +#undef DDRC_PCFGR_1_RD_PORT_PAGEMATCH_EN_SHIFT +#undef DDRC_PCFGR_1_RD_PORT_PAGEMATCH_EN_MASK +#define DDRC_PCFGR_1_RD_PORT_PAGEMATCH_EN_DEFVAL 0x00000000 +#define DDRC_PCFGR_1_RD_PORT_PAGEMATCH_EN_SHIFT 14 +#define DDRC_PCFGR_1_RD_PORT_PAGEMATCH_EN_MASK 0x00004000U + +/*If set to 1, enables the AXI urgent sideband signal (arurgent). When enabled and arurgent is asserted by the master, that por + becomes the highest priority and co_gs_go2critical_lpr/co_gs_go2critical_hpr signal to DDRC is asserted if enabled in PCCFG. + o2critical_en register. Note that arurgent signal can be asserted anytime and as long as required which is independent of add + ess handshaking (it is not associated with any particular command).*/ +#undef DDRC_PCFGR_1_RD_PORT_URGENT_EN_DEFVAL +#undef DDRC_PCFGR_1_RD_PORT_URGENT_EN_SHIFT +#undef DDRC_PCFGR_1_RD_PORT_URGENT_EN_MASK +#define DDRC_PCFGR_1_RD_PORT_URGENT_EN_DEFVAL 0x00000000 +#define DDRC_PCFGR_1_RD_PORT_URGENT_EN_SHIFT 13 +#define DDRC_PCFGR_1_RD_PORT_URGENT_EN_MASK 0x00002000U + +/*If set to 1, enables aging function for the read channel of the port.*/ +#undef DDRC_PCFGR_1_RD_PORT_AGING_EN_DEFVAL +#undef DDRC_PCFGR_1_RD_PORT_AGING_EN_SHIFT +#undef DDRC_PCFGR_1_RD_PORT_AGING_EN_MASK +#define DDRC_PCFGR_1_RD_PORT_AGING_EN_DEFVAL 0x00000000 +#define DDRC_PCFGR_1_RD_PORT_AGING_EN_SHIFT 12 +#define DDRC_PCFGR_1_RD_PORT_AGING_EN_MASK 0x00001000U + +/*Determines the initial load value of read aging counters. These counters will be parallel loaded after reset, or after each g + ant to the corresponding port. The aging counters down-count every clock cycle where the port is requesting but not granted. + he higher significant 5-bits of the read aging counter sets the priority of the read channel of a given port. Port's priority + will increase as the higher significant 5-bits of the counter starts to decrease. When the aging counter becomes 0, the corre + ponding port channel will have the highest priority level (timeout condition - Priority0). For multi-port configurations, the + aging counters cannot be used to set port priorities when external dynamic priority inputs (arqos) are enabled (timeout is st + ll applicable). For single port configurations, the aging counters are only used when they timeout (become 0) to force read-w + ite direction switching. In this case, external dynamic priority input, arqos (for reads only) can still be used to set the D + RC read priority (2 priority levels: low priority read - LPR, high priority read - HPR) on a command by command basis. Note: + he two LSBs of this register field are tied internally to 2'b00.*/ +#undef DDRC_PCFGR_1_RD_PORT_PRIORITY_DEFVAL +#undef DDRC_PCFGR_1_RD_PORT_PRIORITY_SHIFT +#undef DDRC_PCFGR_1_RD_PORT_PRIORITY_MASK +#define DDRC_PCFGR_1_RD_PORT_PRIORITY_DEFVAL 0x00000000 +#define DDRC_PCFGR_1_RD_PORT_PRIORITY_SHIFT 0 +#define DDRC_PCFGR_1_RD_PORT_PRIORITY_MASK 0x000003FFU + +/*If set to 1, enables the Page Match feature. If enabled, once a requesting port is granted, the port is continued to be grant + d if the following immediate commands are to the same memory page (same bank and same row). See also related PCCFG.pagematch_ + imit register.*/ +#undef DDRC_PCFGW_1_WR_PORT_PAGEMATCH_EN_DEFVAL +#undef DDRC_PCFGW_1_WR_PORT_PAGEMATCH_EN_SHIFT +#undef DDRC_PCFGW_1_WR_PORT_PAGEMATCH_EN_MASK +#define DDRC_PCFGW_1_WR_PORT_PAGEMATCH_EN_DEFVAL 0x00004000 +#define DDRC_PCFGW_1_WR_PORT_PAGEMATCH_EN_SHIFT 14 +#define DDRC_PCFGW_1_WR_PORT_PAGEMATCH_EN_MASK 0x00004000U + +/*If set to 1, enables the AXI urgent sideband signal (awurgent). When enabled and awurgent is asserted by the master, that por + becomes the highest priority and co_gs_go2critical_wr signal to DDRC is asserted if enabled in PCCFG.go2critical_en register + Note that awurgent signal can be asserted anytime and as long as required which is independent of address handshaking (it is + not associated with any particular command).*/ +#undef DDRC_PCFGW_1_WR_PORT_URGENT_EN_DEFVAL +#undef DDRC_PCFGW_1_WR_PORT_URGENT_EN_SHIFT +#undef DDRC_PCFGW_1_WR_PORT_URGENT_EN_MASK +#define DDRC_PCFGW_1_WR_PORT_URGENT_EN_DEFVAL 0x00004000 +#define DDRC_PCFGW_1_WR_PORT_URGENT_EN_SHIFT 13 +#define DDRC_PCFGW_1_WR_PORT_URGENT_EN_MASK 0x00002000U + +/*If set to 1, enables aging function for the write channel of the port.*/ +#undef DDRC_PCFGW_1_WR_PORT_AGING_EN_DEFVAL +#undef DDRC_PCFGW_1_WR_PORT_AGING_EN_SHIFT +#undef DDRC_PCFGW_1_WR_PORT_AGING_EN_MASK +#define DDRC_PCFGW_1_WR_PORT_AGING_EN_DEFVAL 0x00004000 +#define DDRC_PCFGW_1_WR_PORT_AGING_EN_SHIFT 12 +#define DDRC_PCFGW_1_WR_PORT_AGING_EN_MASK 0x00001000U + +/*Determines the initial load value of write aging counters. These counters will be parallel loaded after reset, or after each + rant to the corresponding port. The aging counters down-count every clock cycle where the port is requesting but not granted. + The higher significant 5-bits of the write aging counter sets the initial priority of the write channel of a given port. Port + s priority will increase as the higher significant 5-bits of the counter starts to decrease. When the aging counter becomes 0 + the corresponding port channel will have the highest priority level. For multi-port configurations, the aging counters canno + be used to set port priorities when external dynamic priority inputs (awqos) are enabled (timeout is still applicable). For + ingle port configurations, the aging counters are only used when they timeout (become 0) to force read-write direction switch + ng. Note: The two LSBs of this register field are tied internally to 2'b00.*/ +#undef DDRC_PCFGW_1_WR_PORT_PRIORITY_DEFVAL +#undef DDRC_PCFGW_1_WR_PORT_PRIORITY_SHIFT +#undef DDRC_PCFGW_1_WR_PORT_PRIORITY_MASK +#define DDRC_PCFGW_1_WR_PORT_PRIORITY_DEFVAL 0x00004000 +#define DDRC_PCFGW_1_WR_PORT_PRIORITY_SHIFT 0 +#define DDRC_PCFGW_1_WR_PORT_PRIORITY_MASK 0x000003FFU + +/*Enables port n.*/ +#undef DDRC_PCTRL_1_PORT_EN_DEFVAL +#undef DDRC_PCTRL_1_PORT_EN_SHIFT +#undef DDRC_PCTRL_1_PORT_EN_MASK +#define DDRC_PCTRL_1_PORT_EN_DEFVAL +#define DDRC_PCTRL_1_PORT_EN_SHIFT 0 +#define DDRC_PCTRL_1_PORT_EN_MASK 0x00000001U + +/*This bitfield indicates the traffic class of region2. For dual address queue configurations, region2 maps to the red address + ueue. Valid values are 1: VPR and 2: HPR only. When VPR support is disabled (UMCTL2_VPR_EN = 0) and traffic class of region2 + s set to 1 (VPR), VPR traffic is aliased to LPR traffic.*/ +#undef DDRC_PCFGQOS0_1_RQOS_MAP_REGION2_DEFVAL +#undef DDRC_PCFGQOS0_1_RQOS_MAP_REGION2_SHIFT +#undef DDRC_PCFGQOS0_1_RQOS_MAP_REGION2_MASK +#define DDRC_PCFGQOS0_1_RQOS_MAP_REGION2_DEFVAL 0x02000E00 +#define DDRC_PCFGQOS0_1_RQOS_MAP_REGION2_SHIFT 24 +#define DDRC_PCFGQOS0_1_RQOS_MAP_REGION2_MASK 0x03000000U + +/*This bitfield indicates the traffic class of region 1. Valid values are: 0 : LPR, 1: VPR, 2: HPR. For dual address queue conf + gurations, region1 maps to the blue address queue. In this case, valid values are 0: LPR and 1: VPR only. When VPR support is + disabled (UMCTL2_VPR_EN = 0) and traffic class of region 1 is set to 1 (VPR), VPR traffic is aliased to LPR traffic.*/ +#undef DDRC_PCFGQOS0_1_RQOS_MAP_REGION1_DEFVAL +#undef DDRC_PCFGQOS0_1_RQOS_MAP_REGION1_SHIFT +#undef DDRC_PCFGQOS0_1_RQOS_MAP_REGION1_MASK +#define DDRC_PCFGQOS0_1_RQOS_MAP_REGION1_DEFVAL 0x02000E00 +#define DDRC_PCFGQOS0_1_RQOS_MAP_REGION1_SHIFT 20 +#define DDRC_PCFGQOS0_1_RQOS_MAP_REGION1_MASK 0x00300000U + +/*This bitfield indicates the traffic class of region 0. Valid values are: 0: LPR, 1: VPR, 2: HPR. For dual address queue confi + urations, region 0 maps to the blue address queue. In this case, valid values are: 0: LPR and 1: VPR only. When VPR support i + disabled (UMCTL2_VPR_EN = 0) and traffic class of region0 is set to 1 (VPR), VPR traffic is aliased to LPR traffic.*/ +#undef DDRC_PCFGQOS0_1_RQOS_MAP_REGION0_DEFVAL +#undef DDRC_PCFGQOS0_1_RQOS_MAP_REGION0_SHIFT +#undef DDRC_PCFGQOS0_1_RQOS_MAP_REGION0_MASK +#define DDRC_PCFGQOS0_1_RQOS_MAP_REGION0_DEFVAL 0x02000E00 +#define DDRC_PCFGQOS0_1_RQOS_MAP_REGION0_SHIFT 16 +#define DDRC_PCFGQOS0_1_RQOS_MAP_REGION0_MASK 0x00030000U + +/*Separation level2 indicating the end of region1 mapping; start of region1 is (level1 + 1). Possible values for level2 are (le + el1 + 1) to 14 which corresponds to arqos. Region2 starts from (level2 + 1) up to 15. Note that for PA, arqos values are used + directly as port priorities, where the higher the value corresponds to higher port priority. All of the map_level* registers + ust be set to distinct values.*/ +#undef DDRC_PCFGQOS0_1_RQOS_MAP_LEVEL2_DEFVAL +#undef DDRC_PCFGQOS0_1_RQOS_MAP_LEVEL2_SHIFT +#undef DDRC_PCFGQOS0_1_RQOS_MAP_LEVEL2_MASK +#define DDRC_PCFGQOS0_1_RQOS_MAP_LEVEL2_DEFVAL 0x02000E00 +#define DDRC_PCFGQOS0_1_RQOS_MAP_LEVEL2_SHIFT 8 +#define DDRC_PCFGQOS0_1_RQOS_MAP_LEVEL2_MASK 0x00000F00U + +/*Separation level1 indicating the end of region0 mapping; start of region0 is 0. Possible values for level1 are 0 to 13 (for d + al RAQ) or 0 to 14 (for single RAQ) which corresponds to arqos. Note that for PA, arqos values are used directly as port prio + ities, where the higher the value corresponds to higher port priority. All of the map_level* registers must be set to distinc + values.*/ +#undef DDRC_PCFGQOS0_1_RQOS_MAP_LEVEL1_DEFVAL +#undef DDRC_PCFGQOS0_1_RQOS_MAP_LEVEL1_SHIFT +#undef DDRC_PCFGQOS0_1_RQOS_MAP_LEVEL1_MASK +#define DDRC_PCFGQOS0_1_RQOS_MAP_LEVEL1_DEFVAL 0x02000E00 +#define DDRC_PCFGQOS0_1_RQOS_MAP_LEVEL1_SHIFT 0 +#define DDRC_PCFGQOS0_1_RQOS_MAP_LEVEL1_MASK 0x0000000FU + +/*Specifies the timeout value for transactions mapped to the red address queue.*/ +#undef DDRC_PCFGQOS1_1_RQOS_MAP_TIMEOUTR_DEFVAL +#undef DDRC_PCFGQOS1_1_RQOS_MAP_TIMEOUTR_SHIFT +#undef DDRC_PCFGQOS1_1_RQOS_MAP_TIMEOUTR_MASK +#define DDRC_PCFGQOS1_1_RQOS_MAP_TIMEOUTR_DEFVAL 0x00000000 +#define DDRC_PCFGQOS1_1_RQOS_MAP_TIMEOUTR_SHIFT 16 +#define DDRC_PCFGQOS1_1_RQOS_MAP_TIMEOUTR_MASK 0x07FF0000U + +/*Specifies the timeout value for transactions mapped to the blue address queue.*/ +#undef DDRC_PCFGQOS1_1_RQOS_MAP_TIMEOUTB_DEFVAL +#undef DDRC_PCFGQOS1_1_RQOS_MAP_TIMEOUTB_SHIFT +#undef DDRC_PCFGQOS1_1_RQOS_MAP_TIMEOUTB_MASK +#define DDRC_PCFGQOS1_1_RQOS_MAP_TIMEOUTB_DEFVAL 0x00000000 +#define DDRC_PCFGQOS1_1_RQOS_MAP_TIMEOUTB_SHIFT 0 +#define DDRC_PCFGQOS1_1_RQOS_MAP_TIMEOUTB_MASK 0x000007FFU + +/*If set to 1, enables the Page Match feature. If enabled, once a requesting port is granted, the port is continued to be grant + d if the following immediate commands are to the same memory page (same bank and same row). See also related PCCFG.pagematch_ + imit register.*/ +#undef DDRC_PCFGR_2_RD_PORT_PAGEMATCH_EN_DEFVAL +#undef DDRC_PCFGR_2_RD_PORT_PAGEMATCH_EN_SHIFT +#undef DDRC_PCFGR_2_RD_PORT_PAGEMATCH_EN_MASK +#define DDRC_PCFGR_2_RD_PORT_PAGEMATCH_EN_DEFVAL 0x00000000 +#define DDRC_PCFGR_2_RD_PORT_PAGEMATCH_EN_SHIFT 14 +#define DDRC_PCFGR_2_RD_PORT_PAGEMATCH_EN_MASK 0x00004000U + +/*If set to 1, enables the AXI urgent sideband signal (arurgent). When enabled and arurgent is asserted by the master, that por + becomes the highest priority and co_gs_go2critical_lpr/co_gs_go2critical_hpr signal to DDRC is asserted if enabled in PCCFG. + o2critical_en register. Note that arurgent signal can be asserted anytime and as long as required which is independent of add + ess handshaking (it is not associated with any particular command).*/ +#undef DDRC_PCFGR_2_RD_PORT_URGENT_EN_DEFVAL +#undef DDRC_PCFGR_2_RD_PORT_URGENT_EN_SHIFT +#undef DDRC_PCFGR_2_RD_PORT_URGENT_EN_MASK +#define DDRC_PCFGR_2_RD_PORT_URGENT_EN_DEFVAL 0x00000000 +#define DDRC_PCFGR_2_RD_PORT_URGENT_EN_SHIFT 13 +#define DDRC_PCFGR_2_RD_PORT_URGENT_EN_MASK 0x00002000U + +/*If set to 1, enables aging function for the read channel of the port.*/ +#undef DDRC_PCFGR_2_RD_PORT_AGING_EN_DEFVAL +#undef DDRC_PCFGR_2_RD_PORT_AGING_EN_SHIFT +#undef DDRC_PCFGR_2_RD_PORT_AGING_EN_MASK +#define DDRC_PCFGR_2_RD_PORT_AGING_EN_DEFVAL 0x00000000 +#define DDRC_PCFGR_2_RD_PORT_AGING_EN_SHIFT 12 +#define DDRC_PCFGR_2_RD_PORT_AGING_EN_MASK 0x00001000U + +/*Determines the initial load value of read aging counters. These counters will be parallel loaded after reset, or after each g + ant to the corresponding port. The aging counters down-count every clock cycle where the port is requesting but not granted. + he higher significant 5-bits of the read aging counter sets the priority of the read channel of a given port. Port's priority + will increase as the higher significant 5-bits of the counter starts to decrease. When the aging counter becomes 0, the corre + ponding port channel will have the highest priority level (timeout condition - Priority0). For multi-port configurations, the + aging counters cannot be used to set port priorities when external dynamic priority inputs (arqos) are enabled (timeout is st + ll applicable). For single port configurations, the aging counters are only used when they timeout (become 0) to force read-w + ite direction switching. In this case, external dynamic priority input, arqos (for reads only) can still be used to set the D + RC read priority (2 priority levels: low priority read - LPR, high priority read - HPR) on a command by command basis. Note: + he two LSBs of this register field are tied internally to 2'b00.*/ +#undef DDRC_PCFGR_2_RD_PORT_PRIORITY_DEFVAL +#undef DDRC_PCFGR_2_RD_PORT_PRIORITY_SHIFT +#undef DDRC_PCFGR_2_RD_PORT_PRIORITY_MASK +#define DDRC_PCFGR_2_RD_PORT_PRIORITY_DEFVAL 0x00000000 +#define DDRC_PCFGR_2_RD_PORT_PRIORITY_SHIFT 0 +#define DDRC_PCFGR_2_RD_PORT_PRIORITY_MASK 0x000003FFU + +/*If set to 1, enables the Page Match feature. If enabled, once a requesting port is granted, the port is continued to be grant + d if the following immediate commands are to the same memory page (same bank and same row). See also related PCCFG.pagematch_ + imit register.*/ +#undef DDRC_PCFGW_2_WR_PORT_PAGEMATCH_EN_DEFVAL +#undef DDRC_PCFGW_2_WR_PORT_PAGEMATCH_EN_SHIFT +#undef DDRC_PCFGW_2_WR_PORT_PAGEMATCH_EN_MASK +#define DDRC_PCFGW_2_WR_PORT_PAGEMATCH_EN_DEFVAL 0x00004000 +#define DDRC_PCFGW_2_WR_PORT_PAGEMATCH_EN_SHIFT 14 +#define DDRC_PCFGW_2_WR_PORT_PAGEMATCH_EN_MASK 0x00004000U + +/*If set to 1, enables the AXI urgent sideband signal (awurgent). When enabled and awurgent is asserted by the master, that por + becomes the highest priority and co_gs_go2critical_wr signal to DDRC is asserted if enabled in PCCFG.go2critical_en register + Note that awurgent signal can be asserted anytime and as long as required which is independent of address handshaking (it is + not associated with any particular command).*/ +#undef DDRC_PCFGW_2_WR_PORT_URGENT_EN_DEFVAL +#undef DDRC_PCFGW_2_WR_PORT_URGENT_EN_SHIFT +#undef DDRC_PCFGW_2_WR_PORT_URGENT_EN_MASK +#define DDRC_PCFGW_2_WR_PORT_URGENT_EN_DEFVAL 0x00004000 +#define DDRC_PCFGW_2_WR_PORT_URGENT_EN_SHIFT 13 +#define DDRC_PCFGW_2_WR_PORT_URGENT_EN_MASK 0x00002000U + +/*If set to 1, enables aging function for the write channel of the port.*/ +#undef DDRC_PCFGW_2_WR_PORT_AGING_EN_DEFVAL +#undef DDRC_PCFGW_2_WR_PORT_AGING_EN_SHIFT +#undef DDRC_PCFGW_2_WR_PORT_AGING_EN_MASK +#define DDRC_PCFGW_2_WR_PORT_AGING_EN_DEFVAL 0x00004000 +#define DDRC_PCFGW_2_WR_PORT_AGING_EN_SHIFT 12 +#define DDRC_PCFGW_2_WR_PORT_AGING_EN_MASK 0x00001000U + +/*Determines the initial load value of write aging counters. These counters will be parallel loaded after reset, or after each + rant to the corresponding port. The aging counters down-count every clock cycle where the port is requesting but not granted. + The higher significant 5-bits of the write aging counter sets the initial priority of the write channel of a given port. Port + s priority will increase as the higher significant 5-bits of the counter starts to decrease. When the aging counter becomes 0 + the corresponding port channel will have the highest priority level. For multi-port configurations, the aging counters canno + be used to set port priorities when external dynamic priority inputs (awqos) are enabled (timeout is still applicable). For + ingle port configurations, the aging counters are only used when they timeout (become 0) to force read-write direction switch + ng. Note: The two LSBs of this register field are tied internally to 2'b00.*/ +#undef DDRC_PCFGW_2_WR_PORT_PRIORITY_DEFVAL +#undef DDRC_PCFGW_2_WR_PORT_PRIORITY_SHIFT +#undef DDRC_PCFGW_2_WR_PORT_PRIORITY_MASK +#define DDRC_PCFGW_2_WR_PORT_PRIORITY_DEFVAL 0x00004000 +#define DDRC_PCFGW_2_WR_PORT_PRIORITY_SHIFT 0 +#define DDRC_PCFGW_2_WR_PORT_PRIORITY_MASK 0x000003FFU + +/*Enables port n.*/ +#undef DDRC_PCTRL_2_PORT_EN_DEFVAL +#undef DDRC_PCTRL_2_PORT_EN_SHIFT +#undef DDRC_PCTRL_2_PORT_EN_MASK +#define DDRC_PCTRL_2_PORT_EN_DEFVAL +#define DDRC_PCTRL_2_PORT_EN_SHIFT 0 +#define DDRC_PCTRL_2_PORT_EN_MASK 0x00000001U + +/*This bitfield indicates the traffic class of region2. For dual address queue configurations, region2 maps to the red address + ueue. Valid values are 1: VPR and 2: HPR only. When VPR support is disabled (UMCTL2_VPR_EN = 0) and traffic class of region2 + s set to 1 (VPR), VPR traffic is aliased to LPR traffic.*/ +#undef DDRC_PCFGQOS0_2_RQOS_MAP_REGION2_DEFVAL +#undef DDRC_PCFGQOS0_2_RQOS_MAP_REGION2_SHIFT +#undef DDRC_PCFGQOS0_2_RQOS_MAP_REGION2_MASK +#define DDRC_PCFGQOS0_2_RQOS_MAP_REGION2_DEFVAL 0x02000E00 +#define DDRC_PCFGQOS0_2_RQOS_MAP_REGION2_SHIFT 24 +#define DDRC_PCFGQOS0_2_RQOS_MAP_REGION2_MASK 0x03000000U + +/*This bitfield indicates the traffic class of region 1. Valid values are: 0 : LPR, 1: VPR, 2: HPR. For dual address queue conf + gurations, region1 maps to the blue address queue. In this case, valid values are 0: LPR and 1: VPR only. When VPR support is + disabled (UMCTL2_VPR_EN = 0) and traffic class of region 1 is set to 1 (VPR), VPR traffic is aliased to LPR traffic.*/ +#undef DDRC_PCFGQOS0_2_RQOS_MAP_REGION1_DEFVAL +#undef DDRC_PCFGQOS0_2_RQOS_MAP_REGION1_SHIFT +#undef DDRC_PCFGQOS0_2_RQOS_MAP_REGION1_MASK +#define DDRC_PCFGQOS0_2_RQOS_MAP_REGION1_DEFVAL 0x02000E00 +#define DDRC_PCFGQOS0_2_RQOS_MAP_REGION1_SHIFT 20 +#define DDRC_PCFGQOS0_2_RQOS_MAP_REGION1_MASK 0x00300000U + +/*This bitfield indicates the traffic class of region 0. Valid values are: 0: LPR, 1: VPR, 2: HPR. For dual address queue confi + urations, region 0 maps to the blue address queue. In this case, valid values are: 0: LPR and 1: VPR only. When VPR support i + disabled (UMCTL2_VPR_EN = 0) and traffic class of region0 is set to 1 (VPR), VPR traffic is aliased to LPR traffic.*/ +#undef DDRC_PCFGQOS0_2_RQOS_MAP_REGION0_DEFVAL +#undef DDRC_PCFGQOS0_2_RQOS_MAP_REGION0_SHIFT +#undef DDRC_PCFGQOS0_2_RQOS_MAP_REGION0_MASK +#define DDRC_PCFGQOS0_2_RQOS_MAP_REGION0_DEFVAL 0x02000E00 +#define DDRC_PCFGQOS0_2_RQOS_MAP_REGION0_SHIFT 16 +#define DDRC_PCFGQOS0_2_RQOS_MAP_REGION0_MASK 0x00030000U + +/*Separation level2 indicating the end of region1 mapping; start of region1 is (level1 + 1). Possible values for level2 are (le + el1 + 1) to 14 which corresponds to arqos. Region2 starts from (level2 + 1) up to 15. Note that for PA, arqos values are used + directly as port priorities, where the higher the value corresponds to higher port priority. All of the map_level* registers + ust be set to distinct values.*/ +#undef DDRC_PCFGQOS0_2_RQOS_MAP_LEVEL2_DEFVAL +#undef DDRC_PCFGQOS0_2_RQOS_MAP_LEVEL2_SHIFT +#undef DDRC_PCFGQOS0_2_RQOS_MAP_LEVEL2_MASK +#define DDRC_PCFGQOS0_2_RQOS_MAP_LEVEL2_DEFVAL 0x02000E00 +#define DDRC_PCFGQOS0_2_RQOS_MAP_LEVEL2_SHIFT 8 +#define DDRC_PCFGQOS0_2_RQOS_MAP_LEVEL2_MASK 0x00000F00U + +/*Separation level1 indicating the end of region0 mapping; start of region0 is 0. Possible values for level1 are 0 to 13 (for d + al RAQ) or 0 to 14 (for single RAQ) which corresponds to arqos. Note that for PA, arqos values are used directly as port prio + ities, where the higher the value corresponds to higher port priority. All of the map_level* registers must be set to distinc + values.*/ +#undef DDRC_PCFGQOS0_2_RQOS_MAP_LEVEL1_DEFVAL +#undef DDRC_PCFGQOS0_2_RQOS_MAP_LEVEL1_SHIFT +#undef DDRC_PCFGQOS0_2_RQOS_MAP_LEVEL1_MASK +#define DDRC_PCFGQOS0_2_RQOS_MAP_LEVEL1_DEFVAL 0x02000E00 +#define DDRC_PCFGQOS0_2_RQOS_MAP_LEVEL1_SHIFT 0 +#define DDRC_PCFGQOS0_2_RQOS_MAP_LEVEL1_MASK 0x0000000FU + +/*Specifies the timeout value for transactions mapped to the red address queue.*/ +#undef DDRC_PCFGQOS1_2_RQOS_MAP_TIMEOUTR_DEFVAL +#undef DDRC_PCFGQOS1_2_RQOS_MAP_TIMEOUTR_SHIFT +#undef DDRC_PCFGQOS1_2_RQOS_MAP_TIMEOUTR_MASK +#define DDRC_PCFGQOS1_2_RQOS_MAP_TIMEOUTR_DEFVAL 0x00000000 +#define DDRC_PCFGQOS1_2_RQOS_MAP_TIMEOUTR_SHIFT 16 +#define DDRC_PCFGQOS1_2_RQOS_MAP_TIMEOUTR_MASK 0x07FF0000U + +/*Specifies the timeout value for transactions mapped to the blue address queue.*/ +#undef DDRC_PCFGQOS1_2_RQOS_MAP_TIMEOUTB_DEFVAL +#undef DDRC_PCFGQOS1_2_RQOS_MAP_TIMEOUTB_SHIFT +#undef DDRC_PCFGQOS1_2_RQOS_MAP_TIMEOUTB_MASK +#define DDRC_PCFGQOS1_2_RQOS_MAP_TIMEOUTB_DEFVAL 0x00000000 +#define DDRC_PCFGQOS1_2_RQOS_MAP_TIMEOUTB_SHIFT 0 +#define DDRC_PCFGQOS1_2_RQOS_MAP_TIMEOUTB_MASK 0x000007FFU + +/*If set to 1, enables the Page Match feature. If enabled, once a requesting port is granted, the port is continued to be grant + d if the following immediate commands are to the same memory page (same bank and same row). See also related PCCFG.pagematch_ + imit register.*/ +#undef DDRC_PCFGR_3_RD_PORT_PAGEMATCH_EN_DEFVAL +#undef DDRC_PCFGR_3_RD_PORT_PAGEMATCH_EN_SHIFT +#undef DDRC_PCFGR_3_RD_PORT_PAGEMATCH_EN_MASK +#define DDRC_PCFGR_3_RD_PORT_PAGEMATCH_EN_DEFVAL 0x00000000 +#define DDRC_PCFGR_3_RD_PORT_PAGEMATCH_EN_SHIFT 14 +#define DDRC_PCFGR_3_RD_PORT_PAGEMATCH_EN_MASK 0x00004000U + +/*If set to 1, enables the AXI urgent sideband signal (arurgent). When enabled and arurgent is asserted by the master, that por + becomes the highest priority and co_gs_go2critical_lpr/co_gs_go2critical_hpr signal to DDRC is asserted if enabled in PCCFG. + o2critical_en register. Note that arurgent signal can be asserted anytime and as long as required which is independent of add + ess handshaking (it is not associated with any particular command).*/ +#undef DDRC_PCFGR_3_RD_PORT_URGENT_EN_DEFVAL +#undef DDRC_PCFGR_3_RD_PORT_URGENT_EN_SHIFT +#undef DDRC_PCFGR_3_RD_PORT_URGENT_EN_MASK +#define DDRC_PCFGR_3_RD_PORT_URGENT_EN_DEFVAL 0x00000000 +#define DDRC_PCFGR_3_RD_PORT_URGENT_EN_SHIFT 13 +#define DDRC_PCFGR_3_RD_PORT_URGENT_EN_MASK 0x00002000U + +/*If set to 1, enables aging function for the read channel of the port.*/ +#undef DDRC_PCFGR_3_RD_PORT_AGING_EN_DEFVAL +#undef DDRC_PCFGR_3_RD_PORT_AGING_EN_SHIFT +#undef DDRC_PCFGR_3_RD_PORT_AGING_EN_MASK +#define DDRC_PCFGR_3_RD_PORT_AGING_EN_DEFVAL 0x00000000 +#define DDRC_PCFGR_3_RD_PORT_AGING_EN_SHIFT 12 +#define DDRC_PCFGR_3_RD_PORT_AGING_EN_MASK 0x00001000U + +/*Determines the initial load value of read aging counters. These counters will be parallel loaded after reset, or after each g + ant to the corresponding port. The aging counters down-count every clock cycle where the port is requesting but not granted. + he higher significant 5-bits of the read aging counter sets the priority of the read channel of a given port. Port's priority + will increase as the higher significant 5-bits of the counter starts to decrease. When the aging counter becomes 0, the corre + ponding port channel will have the highest priority level (timeout condition - Priority0). For multi-port configurations, the + aging counters cannot be used to set port priorities when external dynamic priority inputs (arqos) are enabled (timeout is st + ll applicable). For single port configurations, the aging counters are only used when they timeout (become 0) to force read-w + ite direction switching. In this case, external dynamic priority input, arqos (for reads only) can still be used to set the D + RC read priority (2 priority levels: low priority read - LPR, high priority read - HPR) on a command by command basis. Note: + he two LSBs of this register field are tied internally to 2'b00.*/ +#undef DDRC_PCFGR_3_RD_PORT_PRIORITY_DEFVAL +#undef DDRC_PCFGR_3_RD_PORT_PRIORITY_SHIFT +#undef DDRC_PCFGR_3_RD_PORT_PRIORITY_MASK +#define DDRC_PCFGR_3_RD_PORT_PRIORITY_DEFVAL 0x00000000 +#define DDRC_PCFGR_3_RD_PORT_PRIORITY_SHIFT 0 +#define DDRC_PCFGR_3_RD_PORT_PRIORITY_MASK 0x000003FFU + +/*If set to 1, enables the Page Match feature. If enabled, once a requesting port is granted, the port is continued to be grant + d if the following immediate commands are to the same memory page (same bank and same row). See also related PCCFG.pagematch_ + imit register.*/ +#undef DDRC_PCFGW_3_WR_PORT_PAGEMATCH_EN_DEFVAL +#undef DDRC_PCFGW_3_WR_PORT_PAGEMATCH_EN_SHIFT +#undef DDRC_PCFGW_3_WR_PORT_PAGEMATCH_EN_MASK +#define DDRC_PCFGW_3_WR_PORT_PAGEMATCH_EN_DEFVAL 0x00004000 +#define DDRC_PCFGW_3_WR_PORT_PAGEMATCH_EN_SHIFT 14 +#define DDRC_PCFGW_3_WR_PORT_PAGEMATCH_EN_MASK 0x00004000U + +/*If set to 1, enables the AXI urgent sideband signal (awurgent). When enabled and awurgent is asserted by the master, that por + becomes the highest priority and co_gs_go2critical_wr signal to DDRC is asserted if enabled in PCCFG.go2critical_en register + Note that awurgent signal can be asserted anytime and as long as required which is independent of address handshaking (it is + not associated with any particular command).*/ +#undef DDRC_PCFGW_3_WR_PORT_URGENT_EN_DEFVAL +#undef DDRC_PCFGW_3_WR_PORT_URGENT_EN_SHIFT +#undef DDRC_PCFGW_3_WR_PORT_URGENT_EN_MASK +#define DDRC_PCFGW_3_WR_PORT_URGENT_EN_DEFVAL 0x00004000 +#define DDRC_PCFGW_3_WR_PORT_URGENT_EN_SHIFT 13 +#define DDRC_PCFGW_3_WR_PORT_URGENT_EN_MASK 0x00002000U + +/*If set to 1, enables aging function for the write channel of the port.*/ +#undef DDRC_PCFGW_3_WR_PORT_AGING_EN_DEFVAL +#undef DDRC_PCFGW_3_WR_PORT_AGING_EN_SHIFT +#undef DDRC_PCFGW_3_WR_PORT_AGING_EN_MASK +#define DDRC_PCFGW_3_WR_PORT_AGING_EN_DEFVAL 0x00004000 +#define DDRC_PCFGW_3_WR_PORT_AGING_EN_SHIFT 12 +#define DDRC_PCFGW_3_WR_PORT_AGING_EN_MASK 0x00001000U + +/*Determines the initial load value of write aging counters. These counters will be parallel loaded after reset, or after each + rant to the corresponding port. The aging counters down-count every clock cycle where the port is requesting but not granted. + The higher significant 5-bits of the write aging counter sets the initial priority of the write channel of a given port. Port + s priority will increase as the higher significant 5-bits of the counter starts to decrease. When the aging counter becomes 0 + the corresponding port channel will have the highest priority level. For multi-port configurations, the aging counters canno + be used to set port priorities when external dynamic priority inputs (awqos) are enabled (timeout is still applicable). For + ingle port configurations, the aging counters are only used when they timeout (become 0) to force read-write direction switch + ng. Note: The two LSBs of this register field are tied internally to 2'b00.*/ +#undef DDRC_PCFGW_3_WR_PORT_PRIORITY_DEFVAL +#undef DDRC_PCFGW_3_WR_PORT_PRIORITY_SHIFT +#undef DDRC_PCFGW_3_WR_PORT_PRIORITY_MASK +#define DDRC_PCFGW_3_WR_PORT_PRIORITY_DEFVAL 0x00004000 +#define DDRC_PCFGW_3_WR_PORT_PRIORITY_SHIFT 0 +#define DDRC_PCFGW_3_WR_PORT_PRIORITY_MASK 0x000003FFU + +/*Enables port n.*/ +#undef DDRC_PCTRL_3_PORT_EN_DEFVAL +#undef DDRC_PCTRL_3_PORT_EN_SHIFT +#undef DDRC_PCTRL_3_PORT_EN_MASK +#define DDRC_PCTRL_3_PORT_EN_DEFVAL +#define DDRC_PCTRL_3_PORT_EN_SHIFT 0 +#define DDRC_PCTRL_3_PORT_EN_MASK 0x00000001U + +/*This bitfield indicates the traffic class of region 1. Valid values are: 0 : LPR, 1: VPR, 2: HPR. For dual address queue conf + gurations, region1 maps to the blue address queue. In this case, valid values are 0: LPR and 1: VPR only. When VPR support is + disabled (UMCTL2_VPR_EN = 0) and traffic class of region 1 is set to 1 (VPR), VPR traffic is aliased to LPR traffic.*/ +#undef DDRC_PCFGQOS0_3_RQOS_MAP_REGION1_DEFVAL +#undef DDRC_PCFGQOS0_3_RQOS_MAP_REGION1_SHIFT +#undef DDRC_PCFGQOS0_3_RQOS_MAP_REGION1_MASK +#define DDRC_PCFGQOS0_3_RQOS_MAP_REGION1_DEFVAL 0x00000000 +#define DDRC_PCFGQOS0_3_RQOS_MAP_REGION1_SHIFT 20 +#define DDRC_PCFGQOS0_3_RQOS_MAP_REGION1_MASK 0x00300000U + +/*This bitfield indicates the traffic class of region 0. Valid values are: 0: LPR, 1: VPR, 2: HPR. For dual address queue confi + urations, region 0 maps to the blue address queue. In this case, valid values are: 0: LPR and 1: VPR only. When VPR support i + disabled (UMCTL2_VPR_EN = 0) and traffic class of region0 is set to 1 (VPR), VPR traffic is aliased to LPR traffic.*/ +#undef DDRC_PCFGQOS0_3_RQOS_MAP_REGION0_DEFVAL +#undef DDRC_PCFGQOS0_3_RQOS_MAP_REGION0_SHIFT +#undef DDRC_PCFGQOS0_3_RQOS_MAP_REGION0_MASK +#define DDRC_PCFGQOS0_3_RQOS_MAP_REGION0_DEFVAL 0x00000000 +#define DDRC_PCFGQOS0_3_RQOS_MAP_REGION0_SHIFT 16 +#define DDRC_PCFGQOS0_3_RQOS_MAP_REGION0_MASK 0x00030000U + +/*Separation level1 indicating the end of region0 mapping; start of region0 is 0. Possible values for level1 are 0 to 13 (for d + al RAQ) or 0 to 14 (for single RAQ) which corresponds to arqos. Note that for PA, arqos values are used directly as port prio + ities, where the higher the value corresponds to higher port priority. All of the map_level* registers must be set to distinc + values.*/ +#undef DDRC_PCFGQOS0_3_RQOS_MAP_LEVEL1_DEFVAL +#undef DDRC_PCFGQOS0_3_RQOS_MAP_LEVEL1_SHIFT +#undef DDRC_PCFGQOS0_3_RQOS_MAP_LEVEL1_MASK +#define DDRC_PCFGQOS0_3_RQOS_MAP_LEVEL1_DEFVAL 0x00000000 +#define DDRC_PCFGQOS0_3_RQOS_MAP_LEVEL1_SHIFT 0 +#define DDRC_PCFGQOS0_3_RQOS_MAP_LEVEL1_MASK 0x0000000FU + +/*Specifies the timeout value for transactions mapped to the red address queue.*/ +#undef DDRC_PCFGQOS1_3_RQOS_MAP_TIMEOUTR_DEFVAL +#undef DDRC_PCFGQOS1_3_RQOS_MAP_TIMEOUTR_SHIFT +#undef DDRC_PCFGQOS1_3_RQOS_MAP_TIMEOUTR_MASK +#define DDRC_PCFGQOS1_3_RQOS_MAP_TIMEOUTR_DEFVAL 0x00000000 +#define DDRC_PCFGQOS1_3_RQOS_MAP_TIMEOUTR_SHIFT 16 +#define DDRC_PCFGQOS1_3_RQOS_MAP_TIMEOUTR_MASK 0x07FF0000U + +/*Specifies the timeout value for transactions mapped to the blue address queue.*/ +#undef DDRC_PCFGQOS1_3_RQOS_MAP_TIMEOUTB_DEFVAL +#undef DDRC_PCFGQOS1_3_RQOS_MAP_TIMEOUTB_SHIFT +#undef DDRC_PCFGQOS1_3_RQOS_MAP_TIMEOUTB_MASK +#define DDRC_PCFGQOS1_3_RQOS_MAP_TIMEOUTB_DEFVAL 0x00000000 +#define DDRC_PCFGQOS1_3_RQOS_MAP_TIMEOUTB_SHIFT 0 +#define DDRC_PCFGQOS1_3_RQOS_MAP_TIMEOUTB_MASK 0x000007FFU + +/*This bitfield indicates the traffic class of region 1. Valid values are: 0: NPW, 1: VPW. When VPW support is disabled (UMCTL2 + VPW_EN = 0) and traffic class of region 1 is set to 1 (VPW), VPW traffic is aliased to LPW traffic.*/ +#undef DDRC_PCFGWQOS0_3_WQOS_MAP_REGION1_DEFVAL +#undef DDRC_PCFGWQOS0_3_WQOS_MAP_REGION1_SHIFT +#undef DDRC_PCFGWQOS0_3_WQOS_MAP_REGION1_MASK +#define DDRC_PCFGWQOS0_3_WQOS_MAP_REGION1_DEFVAL 0x00000000 +#define DDRC_PCFGWQOS0_3_WQOS_MAP_REGION1_SHIFT 20 +#define DDRC_PCFGWQOS0_3_WQOS_MAP_REGION1_MASK 0x00300000U + +/*This bitfield indicates the traffic class of region 0. Valid values are: 0: NPW, 1: VPW. When VPW support is disabled (UMCTL2 + VPW_EN = 0) and traffic class of region0 is set to 1 (VPW), VPW traffic is aliased to NPW traffic.*/ +#undef DDRC_PCFGWQOS0_3_WQOS_MAP_REGION0_DEFVAL +#undef DDRC_PCFGWQOS0_3_WQOS_MAP_REGION0_SHIFT +#undef DDRC_PCFGWQOS0_3_WQOS_MAP_REGION0_MASK +#define DDRC_PCFGWQOS0_3_WQOS_MAP_REGION0_DEFVAL 0x00000000 +#define DDRC_PCFGWQOS0_3_WQOS_MAP_REGION0_SHIFT 16 +#define DDRC_PCFGWQOS0_3_WQOS_MAP_REGION0_MASK 0x00030000U + +/*Separation level indicating the end of region0 mapping; start of region0 is 0. Possible values for level1 are 0 to 14 which c + rresponds to awqos. Note that for PA, awqos values are used directly as port priorities, where the higher the value correspon + s to higher port priority.*/ +#undef DDRC_PCFGWQOS0_3_WQOS_MAP_LEVEL_DEFVAL +#undef DDRC_PCFGWQOS0_3_WQOS_MAP_LEVEL_SHIFT +#undef DDRC_PCFGWQOS0_3_WQOS_MAP_LEVEL_MASK +#define DDRC_PCFGWQOS0_3_WQOS_MAP_LEVEL_DEFVAL 0x00000000 +#define DDRC_PCFGWQOS0_3_WQOS_MAP_LEVEL_SHIFT 0 +#define DDRC_PCFGWQOS0_3_WQOS_MAP_LEVEL_MASK 0x0000000FU + +/*Specifies the timeout value for write transactions.*/ +#undef DDRC_PCFGWQOS1_3_WQOS_MAP_TIMEOUT_DEFVAL +#undef DDRC_PCFGWQOS1_3_WQOS_MAP_TIMEOUT_SHIFT +#undef DDRC_PCFGWQOS1_3_WQOS_MAP_TIMEOUT_MASK +#define DDRC_PCFGWQOS1_3_WQOS_MAP_TIMEOUT_DEFVAL +#define DDRC_PCFGWQOS1_3_WQOS_MAP_TIMEOUT_SHIFT 0 +#define DDRC_PCFGWQOS1_3_WQOS_MAP_TIMEOUT_MASK 0x000007FFU + +/*If set to 1, enables the Page Match feature. If enabled, once a requesting port is granted, the port is continued to be grant + d if the following immediate commands are to the same memory page (same bank and same row). See also related PCCFG.pagematch_ + imit register.*/ +#undef DDRC_PCFGR_4_RD_PORT_PAGEMATCH_EN_DEFVAL +#undef DDRC_PCFGR_4_RD_PORT_PAGEMATCH_EN_SHIFT +#undef DDRC_PCFGR_4_RD_PORT_PAGEMATCH_EN_MASK +#define DDRC_PCFGR_4_RD_PORT_PAGEMATCH_EN_DEFVAL 0x00000000 +#define DDRC_PCFGR_4_RD_PORT_PAGEMATCH_EN_SHIFT 14 +#define DDRC_PCFGR_4_RD_PORT_PAGEMATCH_EN_MASK 0x00004000U + +/*If set to 1, enables the AXI urgent sideband signal (arurgent). When enabled and arurgent is asserted by the master, that por + becomes the highest priority and co_gs_go2critical_lpr/co_gs_go2critical_hpr signal to DDRC is asserted if enabled in PCCFG. + o2critical_en register. Note that arurgent signal can be asserted anytime and as long as required which is independent of add + ess handshaking (it is not associated with any particular command).*/ +#undef DDRC_PCFGR_4_RD_PORT_URGENT_EN_DEFVAL +#undef DDRC_PCFGR_4_RD_PORT_URGENT_EN_SHIFT +#undef DDRC_PCFGR_4_RD_PORT_URGENT_EN_MASK +#define DDRC_PCFGR_4_RD_PORT_URGENT_EN_DEFVAL 0x00000000 +#define DDRC_PCFGR_4_RD_PORT_URGENT_EN_SHIFT 13 +#define DDRC_PCFGR_4_RD_PORT_URGENT_EN_MASK 0x00002000U + +/*If set to 1, enables aging function for the read channel of the port.*/ +#undef DDRC_PCFGR_4_RD_PORT_AGING_EN_DEFVAL +#undef DDRC_PCFGR_4_RD_PORT_AGING_EN_SHIFT +#undef DDRC_PCFGR_4_RD_PORT_AGING_EN_MASK +#define DDRC_PCFGR_4_RD_PORT_AGING_EN_DEFVAL 0x00000000 +#define DDRC_PCFGR_4_RD_PORT_AGING_EN_SHIFT 12 +#define DDRC_PCFGR_4_RD_PORT_AGING_EN_MASK 0x00001000U + +/*Determines the initial load value of read aging counters. These counters will be parallel loaded after reset, or after each g + ant to the corresponding port. The aging counters down-count every clock cycle where the port is requesting but not granted. + he higher significant 5-bits of the read aging counter sets the priority of the read channel of a given port. Port's priority + will increase as the higher significant 5-bits of the counter starts to decrease. When the aging counter becomes 0, the corre + ponding port channel will have the highest priority level (timeout condition - Priority0). For multi-port configurations, the + aging counters cannot be used to set port priorities when external dynamic priority inputs (arqos) are enabled (timeout is st + ll applicable). For single port configurations, the aging counters are only used when they timeout (become 0) to force read-w + ite direction switching. In this case, external dynamic priority input, arqos (for reads only) can still be used to set the D + RC read priority (2 priority levels: low priority read - LPR, high priority read - HPR) on a command by command basis. Note: + he two LSBs of this register field are tied internally to 2'b00.*/ +#undef DDRC_PCFGR_4_RD_PORT_PRIORITY_DEFVAL +#undef DDRC_PCFGR_4_RD_PORT_PRIORITY_SHIFT +#undef DDRC_PCFGR_4_RD_PORT_PRIORITY_MASK +#define DDRC_PCFGR_4_RD_PORT_PRIORITY_DEFVAL 0x00000000 +#define DDRC_PCFGR_4_RD_PORT_PRIORITY_SHIFT 0 +#define DDRC_PCFGR_4_RD_PORT_PRIORITY_MASK 0x000003FFU + +/*If set to 1, enables the Page Match feature. If enabled, once a requesting port is granted, the port is continued to be grant + d if the following immediate commands are to the same memory page (same bank and same row). See also related PCCFG.pagematch_ + imit register.*/ +#undef DDRC_PCFGW_4_WR_PORT_PAGEMATCH_EN_DEFVAL +#undef DDRC_PCFGW_4_WR_PORT_PAGEMATCH_EN_SHIFT +#undef DDRC_PCFGW_4_WR_PORT_PAGEMATCH_EN_MASK +#define DDRC_PCFGW_4_WR_PORT_PAGEMATCH_EN_DEFVAL 0x00004000 +#define DDRC_PCFGW_4_WR_PORT_PAGEMATCH_EN_SHIFT 14 +#define DDRC_PCFGW_4_WR_PORT_PAGEMATCH_EN_MASK 0x00004000U + +/*If set to 1, enables the AXI urgent sideband signal (awurgent). When enabled and awurgent is asserted by the master, that por + becomes the highest priority and co_gs_go2critical_wr signal to DDRC is asserted if enabled in PCCFG.go2critical_en register + Note that awurgent signal can be asserted anytime and as long as required which is independent of address handshaking (it is + not associated with any particular command).*/ +#undef DDRC_PCFGW_4_WR_PORT_URGENT_EN_DEFVAL +#undef DDRC_PCFGW_4_WR_PORT_URGENT_EN_SHIFT +#undef DDRC_PCFGW_4_WR_PORT_URGENT_EN_MASK +#define DDRC_PCFGW_4_WR_PORT_URGENT_EN_DEFVAL 0x00004000 +#define DDRC_PCFGW_4_WR_PORT_URGENT_EN_SHIFT 13 +#define DDRC_PCFGW_4_WR_PORT_URGENT_EN_MASK 0x00002000U + +/*If set to 1, enables aging function for the write channel of the port.*/ +#undef DDRC_PCFGW_4_WR_PORT_AGING_EN_DEFVAL +#undef DDRC_PCFGW_4_WR_PORT_AGING_EN_SHIFT +#undef DDRC_PCFGW_4_WR_PORT_AGING_EN_MASK +#define DDRC_PCFGW_4_WR_PORT_AGING_EN_DEFVAL 0x00004000 +#define DDRC_PCFGW_4_WR_PORT_AGING_EN_SHIFT 12 +#define DDRC_PCFGW_4_WR_PORT_AGING_EN_MASK 0x00001000U + +/*Determines the initial load value of write aging counters. These counters will be parallel loaded after reset, or after each + rant to the corresponding port. The aging counters down-count every clock cycle where the port is requesting but not granted. + The higher significant 5-bits of the write aging counter sets the initial priority of the write channel of a given port. Port + s priority will increase as the higher significant 5-bits of the counter starts to decrease. When the aging counter becomes 0 + the corresponding port channel will have the highest priority level. For multi-port configurations, the aging counters canno + be used to set port priorities when external dynamic priority inputs (awqos) are enabled (timeout is still applicable). For + ingle port configurations, the aging counters are only used when they timeout (become 0) to force read-write direction switch + ng. Note: The two LSBs of this register field are tied internally to 2'b00.*/ +#undef DDRC_PCFGW_4_WR_PORT_PRIORITY_DEFVAL +#undef DDRC_PCFGW_4_WR_PORT_PRIORITY_SHIFT +#undef DDRC_PCFGW_4_WR_PORT_PRIORITY_MASK +#define DDRC_PCFGW_4_WR_PORT_PRIORITY_DEFVAL 0x00004000 +#define DDRC_PCFGW_4_WR_PORT_PRIORITY_SHIFT 0 +#define DDRC_PCFGW_4_WR_PORT_PRIORITY_MASK 0x000003FFU + +/*Enables port n.*/ +#undef DDRC_PCTRL_4_PORT_EN_DEFVAL +#undef DDRC_PCTRL_4_PORT_EN_SHIFT +#undef DDRC_PCTRL_4_PORT_EN_MASK +#define DDRC_PCTRL_4_PORT_EN_DEFVAL +#define DDRC_PCTRL_4_PORT_EN_SHIFT 0 +#define DDRC_PCTRL_4_PORT_EN_MASK 0x00000001U + +/*This bitfield indicates the traffic class of region 1. Valid values are: 0 : LPR, 1: VPR, 2: HPR. For dual address queue conf + gurations, region1 maps to the blue address queue. In this case, valid values are 0: LPR and 1: VPR only. When VPR support is + disabled (UMCTL2_VPR_EN = 0) and traffic class of region 1 is set to 1 (VPR), VPR traffic is aliased to LPR traffic.*/ +#undef DDRC_PCFGQOS0_4_RQOS_MAP_REGION1_DEFVAL +#undef DDRC_PCFGQOS0_4_RQOS_MAP_REGION1_SHIFT +#undef DDRC_PCFGQOS0_4_RQOS_MAP_REGION1_MASK +#define DDRC_PCFGQOS0_4_RQOS_MAP_REGION1_DEFVAL 0x00000000 +#define DDRC_PCFGQOS0_4_RQOS_MAP_REGION1_SHIFT 20 +#define DDRC_PCFGQOS0_4_RQOS_MAP_REGION1_MASK 0x00300000U + +/*This bitfield indicates the traffic class of region 0. Valid values are: 0: LPR, 1: VPR, 2: HPR. For dual address queue confi + urations, region 0 maps to the blue address queue. In this case, valid values are: 0: LPR and 1: VPR only. When VPR support i + disabled (UMCTL2_VPR_EN = 0) and traffic class of region0 is set to 1 (VPR), VPR traffic is aliased to LPR traffic.*/ +#undef DDRC_PCFGQOS0_4_RQOS_MAP_REGION0_DEFVAL +#undef DDRC_PCFGQOS0_4_RQOS_MAP_REGION0_SHIFT +#undef DDRC_PCFGQOS0_4_RQOS_MAP_REGION0_MASK +#define DDRC_PCFGQOS0_4_RQOS_MAP_REGION0_DEFVAL 0x00000000 +#define DDRC_PCFGQOS0_4_RQOS_MAP_REGION0_SHIFT 16 +#define DDRC_PCFGQOS0_4_RQOS_MAP_REGION0_MASK 0x00030000U + +/*Separation level1 indicating the end of region0 mapping; start of region0 is 0. Possible values for level1 are 0 to 13 (for d + al RAQ) or 0 to 14 (for single RAQ) which corresponds to arqos. Note that for PA, arqos values are used directly as port prio + ities, where the higher the value corresponds to higher port priority. All of the map_level* registers must be set to distinc + values.*/ +#undef DDRC_PCFGQOS0_4_RQOS_MAP_LEVEL1_DEFVAL +#undef DDRC_PCFGQOS0_4_RQOS_MAP_LEVEL1_SHIFT +#undef DDRC_PCFGQOS0_4_RQOS_MAP_LEVEL1_MASK +#define DDRC_PCFGQOS0_4_RQOS_MAP_LEVEL1_DEFVAL 0x00000000 +#define DDRC_PCFGQOS0_4_RQOS_MAP_LEVEL1_SHIFT 0 +#define DDRC_PCFGQOS0_4_RQOS_MAP_LEVEL1_MASK 0x0000000FU + +/*Specifies the timeout value for transactions mapped to the red address queue.*/ +#undef DDRC_PCFGQOS1_4_RQOS_MAP_TIMEOUTR_DEFVAL +#undef DDRC_PCFGQOS1_4_RQOS_MAP_TIMEOUTR_SHIFT +#undef DDRC_PCFGQOS1_4_RQOS_MAP_TIMEOUTR_MASK +#define DDRC_PCFGQOS1_4_RQOS_MAP_TIMEOUTR_DEFVAL 0x00000000 +#define DDRC_PCFGQOS1_4_RQOS_MAP_TIMEOUTR_SHIFT 16 +#define DDRC_PCFGQOS1_4_RQOS_MAP_TIMEOUTR_MASK 0x07FF0000U + +/*Specifies the timeout value for transactions mapped to the blue address queue.*/ +#undef DDRC_PCFGQOS1_4_RQOS_MAP_TIMEOUTB_DEFVAL +#undef DDRC_PCFGQOS1_4_RQOS_MAP_TIMEOUTB_SHIFT +#undef DDRC_PCFGQOS1_4_RQOS_MAP_TIMEOUTB_MASK +#define DDRC_PCFGQOS1_4_RQOS_MAP_TIMEOUTB_DEFVAL 0x00000000 +#define DDRC_PCFGQOS1_4_RQOS_MAP_TIMEOUTB_SHIFT 0 +#define DDRC_PCFGQOS1_4_RQOS_MAP_TIMEOUTB_MASK 0x000007FFU + +/*This bitfield indicates the traffic class of region 1. Valid values are: 0: NPW, 1: VPW. When VPW support is disabled (UMCTL2 + VPW_EN = 0) and traffic class of region 1 is set to 1 (VPW), VPW traffic is aliased to LPW traffic.*/ +#undef DDRC_PCFGWQOS0_4_WQOS_MAP_REGION1_DEFVAL +#undef DDRC_PCFGWQOS0_4_WQOS_MAP_REGION1_SHIFT +#undef DDRC_PCFGWQOS0_4_WQOS_MAP_REGION1_MASK +#define DDRC_PCFGWQOS0_4_WQOS_MAP_REGION1_DEFVAL 0x00000000 +#define DDRC_PCFGWQOS0_4_WQOS_MAP_REGION1_SHIFT 20 +#define DDRC_PCFGWQOS0_4_WQOS_MAP_REGION1_MASK 0x00300000U + +/*This bitfield indicates the traffic class of region 0. Valid values are: 0: NPW, 1: VPW. When VPW support is disabled (UMCTL2 + VPW_EN = 0) and traffic class of region0 is set to 1 (VPW), VPW traffic is aliased to NPW traffic.*/ +#undef DDRC_PCFGWQOS0_4_WQOS_MAP_REGION0_DEFVAL +#undef DDRC_PCFGWQOS0_4_WQOS_MAP_REGION0_SHIFT +#undef DDRC_PCFGWQOS0_4_WQOS_MAP_REGION0_MASK +#define DDRC_PCFGWQOS0_4_WQOS_MAP_REGION0_DEFVAL 0x00000000 +#define DDRC_PCFGWQOS0_4_WQOS_MAP_REGION0_SHIFT 16 +#define DDRC_PCFGWQOS0_4_WQOS_MAP_REGION0_MASK 0x00030000U + +/*Separation level indicating the end of region0 mapping; start of region0 is 0. Possible values for level1 are 0 to 14 which c + rresponds to awqos. Note that for PA, awqos values are used directly as port priorities, where the higher the value correspon + s to higher port priority.*/ +#undef DDRC_PCFGWQOS0_4_WQOS_MAP_LEVEL_DEFVAL +#undef DDRC_PCFGWQOS0_4_WQOS_MAP_LEVEL_SHIFT +#undef DDRC_PCFGWQOS0_4_WQOS_MAP_LEVEL_MASK +#define DDRC_PCFGWQOS0_4_WQOS_MAP_LEVEL_DEFVAL 0x00000000 +#define DDRC_PCFGWQOS0_4_WQOS_MAP_LEVEL_SHIFT 0 +#define DDRC_PCFGWQOS0_4_WQOS_MAP_LEVEL_MASK 0x0000000FU + +/*Specifies the timeout value for write transactions.*/ +#undef DDRC_PCFGWQOS1_4_WQOS_MAP_TIMEOUT_DEFVAL +#undef DDRC_PCFGWQOS1_4_WQOS_MAP_TIMEOUT_SHIFT +#undef DDRC_PCFGWQOS1_4_WQOS_MAP_TIMEOUT_MASK +#define DDRC_PCFGWQOS1_4_WQOS_MAP_TIMEOUT_DEFVAL +#define DDRC_PCFGWQOS1_4_WQOS_MAP_TIMEOUT_SHIFT 0 +#define DDRC_PCFGWQOS1_4_WQOS_MAP_TIMEOUT_MASK 0x000007FFU + +/*If set to 1, enables the Page Match feature. If enabled, once a requesting port is granted, the port is continued to be grant + d if the following immediate commands are to the same memory page (same bank and same row). See also related PCCFG.pagematch_ + imit register.*/ +#undef DDRC_PCFGR_5_RD_PORT_PAGEMATCH_EN_DEFVAL +#undef DDRC_PCFGR_5_RD_PORT_PAGEMATCH_EN_SHIFT +#undef DDRC_PCFGR_5_RD_PORT_PAGEMATCH_EN_MASK +#define DDRC_PCFGR_5_RD_PORT_PAGEMATCH_EN_DEFVAL 0x00000000 +#define DDRC_PCFGR_5_RD_PORT_PAGEMATCH_EN_SHIFT 14 +#define DDRC_PCFGR_5_RD_PORT_PAGEMATCH_EN_MASK 0x00004000U + +/*If set to 1, enables the AXI urgent sideband signal (arurgent). When enabled and arurgent is asserted by the master, that por + becomes the highest priority and co_gs_go2critical_lpr/co_gs_go2critical_hpr signal to DDRC is asserted if enabled in PCCFG. + o2critical_en register. Note that arurgent signal can be asserted anytime and as long as required which is independent of add + ess handshaking (it is not associated with any particular command).*/ +#undef DDRC_PCFGR_5_RD_PORT_URGENT_EN_DEFVAL +#undef DDRC_PCFGR_5_RD_PORT_URGENT_EN_SHIFT +#undef DDRC_PCFGR_5_RD_PORT_URGENT_EN_MASK +#define DDRC_PCFGR_5_RD_PORT_URGENT_EN_DEFVAL 0x00000000 +#define DDRC_PCFGR_5_RD_PORT_URGENT_EN_SHIFT 13 +#define DDRC_PCFGR_5_RD_PORT_URGENT_EN_MASK 0x00002000U + +/*If set to 1, enables aging function for the read channel of the port.*/ +#undef DDRC_PCFGR_5_RD_PORT_AGING_EN_DEFVAL +#undef DDRC_PCFGR_5_RD_PORT_AGING_EN_SHIFT +#undef DDRC_PCFGR_5_RD_PORT_AGING_EN_MASK +#define DDRC_PCFGR_5_RD_PORT_AGING_EN_DEFVAL 0x00000000 +#define DDRC_PCFGR_5_RD_PORT_AGING_EN_SHIFT 12 +#define DDRC_PCFGR_5_RD_PORT_AGING_EN_MASK 0x00001000U + +/*Determines the initial load value of read aging counters. These counters will be parallel loaded after reset, or after each g + ant to the corresponding port. The aging counters down-count every clock cycle where the port is requesting but not granted. + he higher significant 5-bits of the read aging counter sets the priority of the read channel of a given port. Port's priority + will increase as the higher significant 5-bits of the counter starts to decrease. When the aging counter becomes 0, the corre + ponding port channel will have the highest priority level (timeout condition - Priority0). For multi-port configurations, the + aging counters cannot be used to set port priorities when external dynamic priority inputs (arqos) are enabled (timeout is st + ll applicable). For single port configurations, the aging counters are only used when they timeout (become 0) to force read-w + ite direction switching. In this case, external dynamic priority input, arqos (for reads only) can still be used to set the D + RC read priority (2 priority levels: low priority read - LPR, high priority read - HPR) on a command by command basis. Note: + he two LSBs of this register field are tied internally to 2'b00.*/ +#undef DDRC_PCFGR_5_RD_PORT_PRIORITY_DEFVAL +#undef DDRC_PCFGR_5_RD_PORT_PRIORITY_SHIFT +#undef DDRC_PCFGR_5_RD_PORT_PRIORITY_MASK +#define DDRC_PCFGR_5_RD_PORT_PRIORITY_DEFVAL 0x00000000 +#define DDRC_PCFGR_5_RD_PORT_PRIORITY_SHIFT 0 +#define DDRC_PCFGR_5_RD_PORT_PRIORITY_MASK 0x000003FFU + +/*If set to 1, enables the Page Match feature. If enabled, once a requesting port is granted, the port is continued to be grant + d if the following immediate commands are to the same memory page (same bank and same row). See also related PCCFG.pagematch_ + imit register.*/ +#undef DDRC_PCFGW_5_WR_PORT_PAGEMATCH_EN_DEFVAL +#undef DDRC_PCFGW_5_WR_PORT_PAGEMATCH_EN_SHIFT +#undef DDRC_PCFGW_5_WR_PORT_PAGEMATCH_EN_MASK +#define DDRC_PCFGW_5_WR_PORT_PAGEMATCH_EN_DEFVAL 0x00004000 +#define DDRC_PCFGW_5_WR_PORT_PAGEMATCH_EN_SHIFT 14 +#define DDRC_PCFGW_5_WR_PORT_PAGEMATCH_EN_MASK 0x00004000U + +/*If set to 1, enables the AXI urgent sideband signal (awurgent). When enabled and awurgent is asserted by the master, that por + becomes the highest priority and co_gs_go2critical_wr signal to DDRC is asserted if enabled in PCCFG.go2critical_en register + Note that awurgent signal can be asserted anytime and as long as required which is independent of address handshaking (it is + not associated with any particular command).*/ +#undef DDRC_PCFGW_5_WR_PORT_URGENT_EN_DEFVAL +#undef DDRC_PCFGW_5_WR_PORT_URGENT_EN_SHIFT +#undef DDRC_PCFGW_5_WR_PORT_URGENT_EN_MASK +#define DDRC_PCFGW_5_WR_PORT_URGENT_EN_DEFVAL 0x00004000 +#define DDRC_PCFGW_5_WR_PORT_URGENT_EN_SHIFT 13 +#define DDRC_PCFGW_5_WR_PORT_URGENT_EN_MASK 0x00002000U + +/*If set to 1, enables aging function for the write channel of the port.*/ +#undef DDRC_PCFGW_5_WR_PORT_AGING_EN_DEFVAL +#undef DDRC_PCFGW_5_WR_PORT_AGING_EN_SHIFT +#undef DDRC_PCFGW_5_WR_PORT_AGING_EN_MASK +#define DDRC_PCFGW_5_WR_PORT_AGING_EN_DEFVAL 0x00004000 +#define DDRC_PCFGW_5_WR_PORT_AGING_EN_SHIFT 12 +#define DDRC_PCFGW_5_WR_PORT_AGING_EN_MASK 0x00001000U + +/*Determines the initial load value of write aging counters. These counters will be parallel loaded after reset, or after each + rant to the corresponding port. The aging counters down-count every clock cycle where the port is requesting but not granted. + The higher significant 5-bits of the write aging counter sets the initial priority of the write channel of a given port. Port + s priority will increase as the higher significant 5-bits of the counter starts to decrease. When the aging counter becomes 0 + the corresponding port channel will have the highest priority level. For multi-port configurations, the aging counters canno + be used to set port priorities when external dynamic priority inputs (awqos) are enabled (timeout is still applicable). For + ingle port configurations, the aging counters are only used when they timeout (become 0) to force read-write direction switch + ng. Note: The two LSBs of this register field are tied internally to 2'b00.*/ +#undef DDRC_PCFGW_5_WR_PORT_PRIORITY_DEFVAL +#undef DDRC_PCFGW_5_WR_PORT_PRIORITY_SHIFT +#undef DDRC_PCFGW_5_WR_PORT_PRIORITY_MASK +#define DDRC_PCFGW_5_WR_PORT_PRIORITY_DEFVAL 0x00004000 +#define DDRC_PCFGW_5_WR_PORT_PRIORITY_SHIFT 0 +#define DDRC_PCFGW_5_WR_PORT_PRIORITY_MASK 0x000003FFU + +/*Enables port n.*/ +#undef DDRC_PCTRL_5_PORT_EN_DEFVAL +#undef DDRC_PCTRL_5_PORT_EN_SHIFT +#undef DDRC_PCTRL_5_PORT_EN_MASK +#define DDRC_PCTRL_5_PORT_EN_DEFVAL +#define DDRC_PCTRL_5_PORT_EN_SHIFT 0 +#define DDRC_PCTRL_5_PORT_EN_MASK 0x00000001U + +/*This bitfield indicates the traffic class of region 1. Valid values are: 0 : LPR, 1: VPR, 2: HPR. For dual address queue conf + gurations, region1 maps to the blue address queue. In this case, valid values are 0: LPR and 1: VPR only. When VPR support is + disabled (UMCTL2_VPR_EN = 0) and traffic class of region 1 is set to 1 (VPR), VPR traffic is aliased to LPR traffic.*/ +#undef DDRC_PCFGQOS0_5_RQOS_MAP_REGION1_DEFVAL +#undef DDRC_PCFGQOS0_5_RQOS_MAP_REGION1_SHIFT +#undef DDRC_PCFGQOS0_5_RQOS_MAP_REGION1_MASK +#define DDRC_PCFGQOS0_5_RQOS_MAP_REGION1_DEFVAL 0x00000000 +#define DDRC_PCFGQOS0_5_RQOS_MAP_REGION1_SHIFT 20 +#define DDRC_PCFGQOS0_5_RQOS_MAP_REGION1_MASK 0x00300000U + +/*This bitfield indicates the traffic class of region 0. Valid values are: 0: LPR, 1: VPR, 2: HPR. For dual address queue confi + urations, region 0 maps to the blue address queue. In this case, valid values are: 0: LPR and 1: VPR only. When VPR support i + disabled (UMCTL2_VPR_EN = 0) and traffic class of region0 is set to 1 (VPR), VPR traffic is aliased to LPR traffic.*/ +#undef DDRC_PCFGQOS0_5_RQOS_MAP_REGION0_DEFVAL +#undef DDRC_PCFGQOS0_5_RQOS_MAP_REGION0_SHIFT +#undef DDRC_PCFGQOS0_5_RQOS_MAP_REGION0_MASK +#define DDRC_PCFGQOS0_5_RQOS_MAP_REGION0_DEFVAL 0x00000000 +#define DDRC_PCFGQOS0_5_RQOS_MAP_REGION0_SHIFT 16 +#define DDRC_PCFGQOS0_5_RQOS_MAP_REGION0_MASK 0x00030000U + +/*Separation level1 indicating the end of region0 mapping; start of region0 is 0. Possible values for level1 are 0 to 13 (for d + al RAQ) or 0 to 14 (for single RAQ) which corresponds to arqos. Note that for PA, arqos values are used directly as port prio + ities, where the higher the value corresponds to higher port priority. All of the map_level* registers must be set to distinc + values.*/ +#undef DDRC_PCFGQOS0_5_RQOS_MAP_LEVEL1_DEFVAL +#undef DDRC_PCFGQOS0_5_RQOS_MAP_LEVEL1_SHIFT +#undef DDRC_PCFGQOS0_5_RQOS_MAP_LEVEL1_MASK +#define DDRC_PCFGQOS0_5_RQOS_MAP_LEVEL1_DEFVAL 0x00000000 +#define DDRC_PCFGQOS0_5_RQOS_MAP_LEVEL1_SHIFT 0 +#define DDRC_PCFGQOS0_5_RQOS_MAP_LEVEL1_MASK 0x0000000FU + +/*Specifies the timeout value for transactions mapped to the red address queue.*/ +#undef DDRC_PCFGQOS1_5_RQOS_MAP_TIMEOUTR_DEFVAL +#undef DDRC_PCFGQOS1_5_RQOS_MAP_TIMEOUTR_SHIFT +#undef DDRC_PCFGQOS1_5_RQOS_MAP_TIMEOUTR_MASK +#define DDRC_PCFGQOS1_5_RQOS_MAP_TIMEOUTR_DEFVAL 0x00000000 +#define DDRC_PCFGQOS1_5_RQOS_MAP_TIMEOUTR_SHIFT 16 +#define DDRC_PCFGQOS1_5_RQOS_MAP_TIMEOUTR_MASK 0x07FF0000U + +/*Specifies the timeout value for transactions mapped to the blue address queue.*/ +#undef DDRC_PCFGQOS1_5_RQOS_MAP_TIMEOUTB_DEFVAL +#undef DDRC_PCFGQOS1_5_RQOS_MAP_TIMEOUTB_SHIFT +#undef DDRC_PCFGQOS1_5_RQOS_MAP_TIMEOUTB_MASK +#define DDRC_PCFGQOS1_5_RQOS_MAP_TIMEOUTB_DEFVAL 0x00000000 +#define DDRC_PCFGQOS1_5_RQOS_MAP_TIMEOUTB_SHIFT 0 +#define DDRC_PCFGQOS1_5_RQOS_MAP_TIMEOUTB_MASK 0x000007FFU + +/*This bitfield indicates the traffic class of region 1. Valid values are: 0: NPW, 1: VPW. When VPW support is disabled (UMCTL2 + VPW_EN = 0) and traffic class of region 1 is set to 1 (VPW), VPW traffic is aliased to LPW traffic.*/ +#undef DDRC_PCFGWQOS0_5_WQOS_MAP_REGION1_DEFVAL +#undef DDRC_PCFGWQOS0_5_WQOS_MAP_REGION1_SHIFT +#undef DDRC_PCFGWQOS0_5_WQOS_MAP_REGION1_MASK +#define DDRC_PCFGWQOS0_5_WQOS_MAP_REGION1_DEFVAL 0x00000000 +#define DDRC_PCFGWQOS0_5_WQOS_MAP_REGION1_SHIFT 20 +#define DDRC_PCFGWQOS0_5_WQOS_MAP_REGION1_MASK 0x00300000U + +/*This bitfield indicates the traffic class of region 0. Valid values are: 0: NPW, 1: VPW. When VPW support is disabled (UMCTL2 + VPW_EN = 0) and traffic class of region0 is set to 1 (VPW), VPW traffic is aliased to NPW traffic.*/ +#undef DDRC_PCFGWQOS0_5_WQOS_MAP_REGION0_DEFVAL +#undef DDRC_PCFGWQOS0_5_WQOS_MAP_REGION0_SHIFT +#undef DDRC_PCFGWQOS0_5_WQOS_MAP_REGION0_MASK +#define DDRC_PCFGWQOS0_5_WQOS_MAP_REGION0_DEFVAL 0x00000000 +#define DDRC_PCFGWQOS0_5_WQOS_MAP_REGION0_SHIFT 16 +#define DDRC_PCFGWQOS0_5_WQOS_MAP_REGION0_MASK 0x00030000U + +/*Separation level indicating the end of region0 mapping; start of region0 is 0. Possible values for level1 are 0 to 14 which c + rresponds to awqos. Note that for PA, awqos values are used directly as port priorities, where the higher the value correspon + s to higher port priority.*/ +#undef DDRC_PCFGWQOS0_5_WQOS_MAP_LEVEL_DEFVAL +#undef DDRC_PCFGWQOS0_5_WQOS_MAP_LEVEL_SHIFT +#undef DDRC_PCFGWQOS0_5_WQOS_MAP_LEVEL_MASK +#define DDRC_PCFGWQOS0_5_WQOS_MAP_LEVEL_DEFVAL 0x00000000 +#define DDRC_PCFGWQOS0_5_WQOS_MAP_LEVEL_SHIFT 0 +#define DDRC_PCFGWQOS0_5_WQOS_MAP_LEVEL_MASK 0x0000000FU + +/*Specifies the timeout value for write transactions.*/ +#undef DDRC_PCFGWQOS1_5_WQOS_MAP_TIMEOUT_DEFVAL +#undef DDRC_PCFGWQOS1_5_WQOS_MAP_TIMEOUT_SHIFT +#undef DDRC_PCFGWQOS1_5_WQOS_MAP_TIMEOUT_MASK +#define DDRC_PCFGWQOS1_5_WQOS_MAP_TIMEOUT_DEFVAL +#define DDRC_PCFGWQOS1_5_WQOS_MAP_TIMEOUT_SHIFT 0 +#define DDRC_PCFGWQOS1_5_WQOS_MAP_TIMEOUT_MASK 0x000007FFU + +/*Base address for address region n specified as awaddr[UMCTL2_A_ADDRW-1:x] and araddr[UMCTL2_A_ADDRW-1:x] where x is determine + by the minimum block size parameter UMCTL2_SARMINSIZE: (x=log2(block size)).*/ +#undef DDRC_SARBASE0_BASE_ADDR_DEFVAL +#undef DDRC_SARBASE0_BASE_ADDR_SHIFT +#undef DDRC_SARBASE0_BASE_ADDR_MASK +#define DDRC_SARBASE0_BASE_ADDR_DEFVAL +#define DDRC_SARBASE0_BASE_ADDR_SHIFT 0 +#define DDRC_SARBASE0_BASE_ADDR_MASK 0x000001FFU + +/*Number of blocks for address region n. This register determines the total size of the region in multiples of minimum block si + e as specified by the hardware parameter UMCTL2_SARMINSIZE. The register value is encoded as number of blocks = nblocks + 1. + or example, if register is programmed to 0, region will have 1 block.*/ +#undef DDRC_SARSIZE0_NBLOCKS_DEFVAL +#undef DDRC_SARSIZE0_NBLOCKS_SHIFT +#undef DDRC_SARSIZE0_NBLOCKS_MASK +#define DDRC_SARSIZE0_NBLOCKS_DEFVAL +#define DDRC_SARSIZE0_NBLOCKS_SHIFT 0 +#define DDRC_SARSIZE0_NBLOCKS_MASK 0x000000FFU + +/*Base address for address region n specified as awaddr[UMCTL2_A_ADDRW-1:x] and araddr[UMCTL2_A_ADDRW-1:x] where x is determine + by the minimum block size parameter UMCTL2_SARMINSIZE: (x=log2(block size)).*/ +#undef DDRC_SARBASE1_BASE_ADDR_DEFVAL +#undef DDRC_SARBASE1_BASE_ADDR_SHIFT +#undef DDRC_SARBASE1_BASE_ADDR_MASK +#define DDRC_SARBASE1_BASE_ADDR_DEFVAL +#define DDRC_SARBASE1_BASE_ADDR_SHIFT 0 +#define DDRC_SARBASE1_BASE_ADDR_MASK 0x000001FFU + +/*Number of blocks for address region n. This register determines the total size of the region in multiples of minimum block si + e as specified by the hardware parameter UMCTL2_SARMINSIZE. The register value is encoded as number of blocks = nblocks + 1. + or example, if register is programmed to 0, region will have 1 block.*/ +#undef DDRC_SARSIZE1_NBLOCKS_DEFVAL +#undef DDRC_SARSIZE1_NBLOCKS_SHIFT +#undef DDRC_SARSIZE1_NBLOCKS_MASK +#define DDRC_SARSIZE1_NBLOCKS_DEFVAL +#define DDRC_SARSIZE1_NBLOCKS_SHIFT 0 +#define DDRC_SARSIZE1_NBLOCKS_MASK 0x000000FFU + +/*Specifies the number of DFI clock cycles after an assertion or de-assertion of the DFI control signals that the control signa + s at the PHY-DRAM interface reflect the assertion or de-assertion. If the DFI clock and the memory clock are not phase-aligne + , this timing parameter should be rounded up to the next integer value. Note that if using RDIMM, it is necessary to incremen + this parameter by RDIMM's extra cycle of latency in terms of DFI clock.*/ +#undef DDRC_DFITMG0_SHADOW_DFI_T_CTRL_DELAY_DEFVAL +#undef DDRC_DFITMG0_SHADOW_DFI_T_CTRL_DELAY_SHIFT +#undef DDRC_DFITMG0_SHADOW_DFI_T_CTRL_DELAY_MASK +#define DDRC_DFITMG0_SHADOW_DFI_T_CTRL_DELAY_DEFVAL 0x07020002 +#define DDRC_DFITMG0_SHADOW_DFI_T_CTRL_DELAY_SHIFT 24 +#define DDRC_DFITMG0_SHADOW_DFI_T_CTRL_DELAY_MASK 0x1F000000U + +/*Defines whether dfi_rddata_en/dfi_rddata/dfi_rddata_valid is generated using HDR or SDR values Selects whether value in DFITM + 0.dfi_t_rddata_en is in terms of SDR or HDR clock cycles: - 0 in terms of HDR clock cycles - 1 in terms of SDR clock cycles R + fer to PHY specification for correct value.*/ +#undef DDRC_DFITMG0_SHADOW_DFI_RDDATA_USE_SDR_DEFVAL +#undef DDRC_DFITMG0_SHADOW_DFI_RDDATA_USE_SDR_SHIFT +#undef DDRC_DFITMG0_SHADOW_DFI_RDDATA_USE_SDR_MASK +#define DDRC_DFITMG0_SHADOW_DFI_RDDATA_USE_SDR_DEFVAL 0x07020002 +#define DDRC_DFITMG0_SHADOW_DFI_RDDATA_USE_SDR_SHIFT 23 +#define DDRC_DFITMG0_SHADOW_DFI_RDDATA_USE_SDR_MASK 0x00800000U + +/*Time from the assertion of a read command on the DFI interface to the assertion of the dfi_rddata_en signal. Refer to PHY spe + ification for correct value. This corresponds to the DFI parameter trddata_en. Note that, depending on the PHY, if using RDIM + , it may be necessary to use the value (CL + 1) in the calculation of trddata_en. This is to compensate for the extra cycle o + latency through the RDIMM. Unit: Clocks*/ +#undef DDRC_DFITMG0_SHADOW_DFI_T_RDDATA_EN_DEFVAL +#undef DDRC_DFITMG0_SHADOW_DFI_T_RDDATA_EN_SHIFT +#undef DDRC_DFITMG0_SHADOW_DFI_T_RDDATA_EN_MASK +#define DDRC_DFITMG0_SHADOW_DFI_T_RDDATA_EN_DEFVAL 0x07020002 +#define DDRC_DFITMG0_SHADOW_DFI_T_RDDATA_EN_SHIFT 16 +#define DDRC_DFITMG0_SHADOW_DFI_T_RDDATA_EN_MASK 0x003F0000U + +/*Defines whether dfi_wrdata_en/dfi_wrdata/dfi_wrdata_mask is generated using HDR or SDR values Selects whether value in DFITMG + .dfi_tphy_wrlat is in terms of SDR or HDR clock cycles Selects whether value in DFITMG0.dfi_tphy_wrdata is in terms of SDR or + HDR clock cycles - 0 in terms of HDR clock cycles - 1 in terms of SDR clock cycles Refer to PHY specification for correct val + e.*/ +#undef DDRC_DFITMG0_SHADOW_DFI_WRDATA_USE_SDR_DEFVAL +#undef DDRC_DFITMG0_SHADOW_DFI_WRDATA_USE_SDR_SHIFT +#undef DDRC_DFITMG0_SHADOW_DFI_WRDATA_USE_SDR_MASK +#define DDRC_DFITMG0_SHADOW_DFI_WRDATA_USE_SDR_DEFVAL 0x07020002 +#define DDRC_DFITMG0_SHADOW_DFI_WRDATA_USE_SDR_SHIFT 15 +#define DDRC_DFITMG0_SHADOW_DFI_WRDATA_USE_SDR_MASK 0x00008000U + +/*Specifies the number of clock cycles between when dfi_wrdata_en is asserted to when the associated write data is driven on th + dfi_wrdata signal. This corresponds to the DFI timing parameter tphy_wrdata. Refer to PHY specification for correct value. N + te, max supported value is 8. Unit: Clocks*/ +#undef DDRC_DFITMG0_SHADOW_DFI_TPHY_WRDATA_DEFVAL +#undef DDRC_DFITMG0_SHADOW_DFI_TPHY_WRDATA_SHIFT +#undef DDRC_DFITMG0_SHADOW_DFI_TPHY_WRDATA_MASK +#define DDRC_DFITMG0_SHADOW_DFI_TPHY_WRDATA_DEFVAL 0x07020002 +#define DDRC_DFITMG0_SHADOW_DFI_TPHY_WRDATA_SHIFT 8 +#define DDRC_DFITMG0_SHADOW_DFI_TPHY_WRDATA_MASK 0x00003F00U + +/*Write latency Number of clocks from the write command to write data enable (dfi_wrdata_en). This corresponds to the DFI timin + parameter tphy_wrlat. Refer to PHY specification for correct value.Note that, depending on the PHY, if using RDIMM, it may b + necessary to use the value (CL + 1) in the calculation of tphy_wrlat. This is to compensate for the extra cycle of latency t + rough the RDIMM.*/ +#undef DDRC_DFITMG0_SHADOW_DFI_TPHY_WRLAT_DEFVAL +#undef DDRC_DFITMG0_SHADOW_DFI_TPHY_WRLAT_SHIFT +#undef DDRC_DFITMG0_SHADOW_DFI_TPHY_WRLAT_MASK +#define DDRC_DFITMG0_SHADOW_DFI_TPHY_WRLAT_DEFVAL 0x07020002 +#define DDRC_DFITMG0_SHADOW_DFI_TPHY_WRLAT_SHIFT 0 +#define DDRC_DFITMG0_SHADOW_DFI_TPHY_WRLAT_MASK 0x0000003FU + +/*DDR block level reset inside of the DDR Sub System*/ +#undef CRF_APB_RST_DDR_SS_DDR_RESET_DEFVAL +#undef CRF_APB_RST_DDR_SS_DDR_RESET_SHIFT +#undef CRF_APB_RST_DDR_SS_DDR_RESET_MASK +#define CRF_APB_RST_DDR_SS_DDR_RESET_DEFVAL 0x0000000F +#define CRF_APB_RST_DDR_SS_DDR_RESET_SHIFT 3 +#define CRF_APB_RST_DDR_SS_DDR_RESET_MASK 0x00000008U + +/*Address Copy*/ +#undef DDR_PHY_PGCR0_ADCP_DEFVAL +#undef DDR_PHY_PGCR0_ADCP_SHIFT +#undef DDR_PHY_PGCR0_ADCP_MASK +#define DDR_PHY_PGCR0_ADCP_DEFVAL 0x07001E00 +#define DDR_PHY_PGCR0_ADCP_SHIFT 31 +#define DDR_PHY_PGCR0_ADCP_MASK 0x80000000U + +/*Reserved. Returns zeroes on reads.*/ +#undef DDR_PHY_PGCR0_RESERVED_30_27_DEFVAL +#undef DDR_PHY_PGCR0_RESERVED_30_27_SHIFT +#undef DDR_PHY_PGCR0_RESERVED_30_27_MASK +#define DDR_PHY_PGCR0_RESERVED_30_27_DEFVAL 0x07001E00 +#define DDR_PHY_PGCR0_RESERVED_30_27_SHIFT 27 +#define DDR_PHY_PGCR0_RESERVED_30_27_MASK 0x78000000U + +/*PHY FIFO Reset*/ +#undef DDR_PHY_PGCR0_PHYFRST_DEFVAL +#undef DDR_PHY_PGCR0_PHYFRST_SHIFT +#undef DDR_PHY_PGCR0_PHYFRST_MASK +#define DDR_PHY_PGCR0_PHYFRST_DEFVAL 0x07001E00 +#define DDR_PHY_PGCR0_PHYFRST_SHIFT 26 +#define DDR_PHY_PGCR0_PHYFRST_MASK 0x04000000U + +/*Oscillator Mode Address/Command Delay Line Select*/ +#undef DDR_PHY_PGCR0_OSCACDL_DEFVAL +#undef DDR_PHY_PGCR0_OSCACDL_SHIFT +#undef DDR_PHY_PGCR0_OSCACDL_MASK +#define DDR_PHY_PGCR0_OSCACDL_DEFVAL 0x07001E00 +#define DDR_PHY_PGCR0_OSCACDL_SHIFT 24 +#define DDR_PHY_PGCR0_OSCACDL_MASK 0x03000000U + +/*Reserved. Returns zeroes on reads.*/ +#undef DDR_PHY_PGCR0_RESERVED_23_19_DEFVAL +#undef DDR_PHY_PGCR0_RESERVED_23_19_SHIFT +#undef DDR_PHY_PGCR0_RESERVED_23_19_MASK +#define DDR_PHY_PGCR0_RESERVED_23_19_DEFVAL 0x07001E00 +#define DDR_PHY_PGCR0_RESERVED_23_19_SHIFT 19 +#define DDR_PHY_PGCR0_RESERVED_23_19_MASK 0x00F80000U + +/*Digital Test Output Select*/ +#undef DDR_PHY_PGCR0_DTOSEL_DEFVAL +#undef DDR_PHY_PGCR0_DTOSEL_SHIFT +#undef DDR_PHY_PGCR0_DTOSEL_MASK +#define DDR_PHY_PGCR0_DTOSEL_DEFVAL 0x07001E00 +#define DDR_PHY_PGCR0_DTOSEL_SHIFT 14 +#define DDR_PHY_PGCR0_DTOSEL_MASK 0x0007C000U + +/*Reserved. Returns zeroes on reads.*/ +#undef DDR_PHY_PGCR0_RESERVED_13_DEFVAL +#undef DDR_PHY_PGCR0_RESERVED_13_SHIFT +#undef DDR_PHY_PGCR0_RESERVED_13_MASK +#define DDR_PHY_PGCR0_RESERVED_13_DEFVAL 0x07001E00 +#define DDR_PHY_PGCR0_RESERVED_13_SHIFT 13 +#define DDR_PHY_PGCR0_RESERVED_13_MASK 0x00002000U + +/*Oscillator Mode Division*/ +#undef DDR_PHY_PGCR0_OSCDIV_DEFVAL +#undef DDR_PHY_PGCR0_OSCDIV_SHIFT +#undef DDR_PHY_PGCR0_OSCDIV_MASK +#define DDR_PHY_PGCR0_OSCDIV_DEFVAL 0x07001E00 +#define DDR_PHY_PGCR0_OSCDIV_SHIFT 9 +#define DDR_PHY_PGCR0_OSCDIV_MASK 0x00001E00U + +/*Oscillator Enable*/ +#undef DDR_PHY_PGCR0_OSCEN_DEFVAL +#undef DDR_PHY_PGCR0_OSCEN_SHIFT +#undef DDR_PHY_PGCR0_OSCEN_MASK +#define DDR_PHY_PGCR0_OSCEN_DEFVAL 0x07001E00 +#define DDR_PHY_PGCR0_OSCEN_SHIFT 8 +#define DDR_PHY_PGCR0_OSCEN_MASK 0x00000100U + +/*Reserved. Returns zeroes on reads.*/ +#undef DDR_PHY_PGCR0_RESERVED_7_0_DEFVAL +#undef DDR_PHY_PGCR0_RESERVED_7_0_SHIFT +#undef DDR_PHY_PGCR0_RESERVED_7_0_MASK +#define DDR_PHY_PGCR0_RESERVED_7_0_DEFVAL 0x07001E00 +#define DDR_PHY_PGCR0_RESERVED_7_0_SHIFT 0 +#define DDR_PHY_PGCR0_RESERVED_7_0_MASK 0x000000FFU + +/*Clear Training Status Registers*/ +#undef DDR_PHY_PGCR2_CLRTSTAT_DEFVAL +#undef DDR_PHY_PGCR2_CLRTSTAT_SHIFT +#undef DDR_PHY_PGCR2_CLRTSTAT_MASK +#define DDR_PHY_PGCR2_CLRTSTAT_DEFVAL 0x00F12480 +#define DDR_PHY_PGCR2_CLRTSTAT_SHIFT 31 +#define DDR_PHY_PGCR2_CLRTSTAT_MASK 0x80000000U + +/*Clear Impedance Calibration*/ +#undef DDR_PHY_PGCR2_CLRZCAL_DEFVAL +#undef DDR_PHY_PGCR2_CLRZCAL_SHIFT +#undef DDR_PHY_PGCR2_CLRZCAL_MASK +#define DDR_PHY_PGCR2_CLRZCAL_DEFVAL 0x00F12480 +#define DDR_PHY_PGCR2_CLRZCAL_SHIFT 30 +#define DDR_PHY_PGCR2_CLRZCAL_MASK 0x40000000U + +/*Clear Parity Error*/ +#undef DDR_PHY_PGCR2_CLRPERR_DEFVAL +#undef DDR_PHY_PGCR2_CLRPERR_SHIFT +#undef DDR_PHY_PGCR2_CLRPERR_MASK +#define DDR_PHY_PGCR2_CLRPERR_DEFVAL 0x00F12480 +#define DDR_PHY_PGCR2_CLRPERR_SHIFT 29 +#define DDR_PHY_PGCR2_CLRPERR_MASK 0x20000000U + +/*Initialization Complete Pin Configuration*/ +#undef DDR_PHY_PGCR2_ICPC_DEFVAL +#undef DDR_PHY_PGCR2_ICPC_SHIFT +#undef DDR_PHY_PGCR2_ICPC_MASK +#define DDR_PHY_PGCR2_ICPC_DEFVAL 0x00F12480 +#define DDR_PHY_PGCR2_ICPC_SHIFT 28 +#define DDR_PHY_PGCR2_ICPC_MASK 0x10000000U + +/*Data Training PUB Mode Exit Timer*/ +#undef DDR_PHY_PGCR2_DTPMXTMR_DEFVAL +#undef DDR_PHY_PGCR2_DTPMXTMR_SHIFT +#undef DDR_PHY_PGCR2_DTPMXTMR_MASK +#define DDR_PHY_PGCR2_DTPMXTMR_DEFVAL 0x00F12480 +#define DDR_PHY_PGCR2_DTPMXTMR_SHIFT 20 +#define DDR_PHY_PGCR2_DTPMXTMR_MASK 0x0FF00000U + +/*Initialization Bypass*/ +#undef DDR_PHY_PGCR2_INITFSMBYP_DEFVAL +#undef DDR_PHY_PGCR2_INITFSMBYP_SHIFT +#undef DDR_PHY_PGCR2_INITFSMBYP_MASK +#define DDR_PHY_PGCR2_INITFSMBYP_DEFVAL 0x00F12480 +#define DDR_PHY_PGCR2_INITFSMBYP_SHIFT 19 +#define DDR_PHY_PGCR2_INITFSMBYP_MASK 0x00080000U + +/*PLL FSM Bypass*/ +#undef DDR_PHY_PGCR2_PLLFSMBYP_DEFVAL +#undef DDR_PHY_PGCR2_PLLFSMBYP_SHIFT +#undef DDR_PHY_PGCR2_PLLFSMBYP_MASK +#define DDR_PHY_PGCR2_PLLFSMBYP_DEFVAL 0x00F12480 +#define DDR_PHY_PGCR2_PLLFSMBYP_SHIFT 18 +#define DDR_PHY_PGCR2_PLLFSMBYP_MASK 0x00040000U + +/*Refresh Period*/ +#undef DDR_PHY_PGCR2_TREFPRD_DEFVAL +#undef DDR_PHY_PGCR2_TREFPRD_SHIFT +#undef DDR_PHY_PGCR2_TREFPRD_MASK +#define DDR_PHY_PGCR2_TREFPRD_DEFVAL 0x00F12480 +#define DDR_PHY_PGCR2_TREFPRD_SHIFT 0 +#define DDR_PHY_PGCR2_TREFPRD_MASK 0x0003FFFFU + +/*CKN Enable*/ +#undef DDR_PHY_PGCR3_CKNEN_DEFVAL +#undef DDR_PHY_PGCR3_CKNEN_SHIFT +#undef DDR_PHY_PGCR3_CKNEN_MASK +#define DDR_PHY_PGCR3_CKNEN_DEFVAL 0x55AA0080 +#define DDR_PHY_PGCR3_CKNEN_SHIFT 24 +#define DDR_PHY_PGCR3_CKNEN_MASK 0xFF000000U + +/*CK Enable*/ +#undef DDR_PHY_PGCR3_CKEN_DEFVAL +#undef DDR_PHY_PGCR3_CKEN_SHIFT +#undef DDR_PHY_PGCR3_CKEN_MASK +#define DDR_PHY_PGCR3_CKEN_DEFVAL 0x55AA0080 +#define DDR_PHY_PGCR3_CKEN_SHIFT 16 +#define DDR_PHY_PGCR3_CKEN_MASK 0x00FF0000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_PGCR3_RESERVED_15_DEFVAL +#undef DDR_PHY_PGCR3_RESERVED_15_SHIFT +#undef DDR_PHY_PGCR3_RESERVED_15_MASK +#define DDR_PHY_PGCR3_RESERVED_15_DEFVAL 0x55AA0080 +#define DDR_PHY_PGCR3_RESERVED_15_SHIFT 15 +#define DDR_PHY_PGCR3_RESERVED_15_MASK 0x00008000U + +/*Enable Clock Gating for AC [0] ctl_rd_clk*/ +#undef DDR_PHY_PGCR3_GATEACRDCLK_DEFVAL +#undef DDR_PHY_PGCR3_GATEACRDCLK_SHIFT +#undef DDR_PHY_PGCR3_GATEACRDCLK_MASK +#define DDR_PHY_PGCR3_GATEACRDCLK_DEFVAL 0x55AA0080 +#define DDR_PHY_PGCR3_GATEACRDCLK_SHIFT 13 +#define DDR_PHY_PGCR3_GATEACRDCLK_MASK 0x00006000U + +/*Enable Clock Gating for AC [0] ddr_clk*/ +#undef DDR_PHY_PGCR3_GATEACDDRCLK_DEFVAL +#undef DDR_PHY_PGCR3_GATEACDDRCLK_SHIFT +#undef DDR_PHY_PGCR3_GATEACDDRCLK_MASK +#define DDR_PHY_PGCR3_GATEACDDRCLK_DEFVAL 0x55AA0080 +#define DDR_PHY_PGCR3_GATEACDDRCLK_SHIFT 11 +#define DDR_PHY_PGCR3_GATEACDDRCLK_MASK 0x00001800U + +/*Enable Clock Gating for AC [0] ctl_clk*/ +#undef DDR_PHY_PGCR3_GATEACCTLCLK_DEFVAL +#undef DDR_PHY_PGCR3_GATEACCTLCLK_SHIFT +#undef DDR_PHY_PGCR3_GATEACCTLCLK_MASK +#define DDR_PHY_PGCR3_GATEACCTLCLK_DEFVAL 0x55AA0080 +#define DDR_PHY_PGCR3_GATEACCTLCLK_SHIFT 9 +#define DDR_PHY_PGCR3_GATEACCTLCLK_MASK 0x00000600U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_PGCR3_RESERVED_8_DEFVAL +#undef DDR_PHY_PGCR3_RESERVED_8_SHIFT +#undef DDR_PHY_PGCR3_RESERVED_8_MASK +#define DDR_PHY_PGCR3_RESERVED_8_DEFVAL 0x55AA0080 +#define DDR_PHY_PGCR3_RESERVED_8_SHIFT 8 +#define DDR_PHY_PGCR3_RESERVED_8_MASK 0x00000100U + +/*Controls DDL Bypass Modes*/ +#undef DDR_PHY_PGCR3_DDLBYPMODE_DEFVAL +#undef DDR_PHY_PGCR3_DDLBYPMODE_SHIFT +#undef DDR_PHY_PGCR3_DDLBYPMODE_MASK +#define DDR_PHY_PGCR3_DDLBYPMODE_DEFVAL 0x55AA0080 +#define DDR_PHY_PGCR3_DDLBYPMODE_SHIFT 6 +#define DDR_PHY_PGCR3_DDLBYPMODE_MASK 0x000000C0U + +/*IO Loop-Back Select*/ +#undef DDR_PHY_PGCR3_IOLB_DEFVAL +#undef DDR_PHY_PGCR3_IOLB_SHIFT +#undef DDR_PHY_PGCR3_IOLB_MASK +#define DDR_PHY_PGCR3_IOLB_DEFVAL 0x55AA0080 +#define DDR_PHY_PGCR3_IOLB_SHIFT 5 +#define DDR_PHY_PGCR3_IOLB_MASK 0x00000020U + +/*AC Receive FIFO Read Mode*/ +#undef DDR_PHY_PGCR3_RDMODE_DEFVAL +#undef DDR_PHY_PGCR3_RDMODE_SHIFT +#undef DDR_PHY_PGCR3_RDMODE_MASK +#define DDR_PHY_PGCR3_RDMODE_DEFVAL 0x55AA0080 +#define DDR_PHY_PGCR3_RDMODE_SHIFT 3 +#define DDR_PHY_PGCR3_RDMODE_MASK 0x00000018U + +/*Read FIFO Reset Disable*/ +#undef DDR_PHY_PGCR3_DISRST_DEFVAL +#undef DDR_PHY_PGCR3_DISRST_SHIFT +#undef DDR_PHY_PGCR3_DISRST_MASK +#define DDR_PHY_PGCR3_DISRST_DEFVAL 0x55AA0080 +#define DDR_PHY_PGCR3_DISRST_SHIFT 2 +#define DDR_PHY_PGCR3_DISRST_MASK 0x00000004U + +/*Clock Level when Clock Gating*/ +#undef DDR_PHY_PGCR3_CLKLEVEL_DEFVAL +#undef DDR_PHY_PGCR3_CLKLEVEL_SHIFT +#undef DDR_PHY_PGCR3_CLKLEVEL_MASK +#define DDR_PHY_PGCR3_CLKLEVEL_DEFVAL 0x55AA0080 +#define DDR_PHY_PGCR3_CLKLEVEL_SHIFT 0 +#define DDR_PHY_PGCR3_CLKLEVEL_MASK 0x00000003U + +/*Frequency B Ratio Term*/ +#undef DDR_PHY_PGCR5_FRQBT_DEFVAL +#undef DDR_PHY_PGCR5_FRQBT_SHIFT +#undef DDR_PHY_PGCR5_FRQBT_MASK +#define DDR_PHY_PGCR5_FRQBT_DEFVAL 0x01010000 +#define DDR_PHY_PGCR5_FRQBT_SHIFT 24 +#define DDR_PHY_PGCR5_FRQBT_MASK 0xFF000000U + +/*Frequency A Ratio Term*/ +#undef DDR_PHY_PGCR5_FRQAT_DEFVAL +#undef DDR_PHY_PGCR5_FRQAT_SHIFT +#undef DDR_PHY_PGCR5_FRQAT_MASK +#define DDR_PHY_PGCR5_FRQAT_DEFVAL 0x01010000 +#define DDR_PHY_PGCR5_FRQAT_SHIFT 16 +#define DDR_PHY_PGCR5_FRQAT_MASK 0x00FF0000U + +/*DFI Disconnect Time Period*/ +#undef DDR_PHY_PGCR5_DISCNPERIOD_DEFVAL +#undef DDR_PHY_PGCR5_DISCNPERIOD_SHIFT +#undef DDR_PHY_PGCR5_DISCNPERIOD_MASK +#define DDR_PHY_PGCR5_DISCNPERIOD_DEFVAL 0x01010000 +#define DDR_PHY_PGCR5_DISCNPERIOD_SHIFT 8 +#define DDR_PHY_PGCR5_DISCNPERIOD_MASK 0x0000FF00U + +/*Receiver bias core side control*/ +#undef DDR_PHY_PGCR5_VREF_RBCTRL_DEFVAL +#undef DDR_PHY_PGCR5_VREF_RBCTRL_SHIFT +#undef DDR_PHY_PGCR5_VREF_RBCTRL_MASK +#define DDR_PHY_PGCR5_VREF_RBCTRL_DEFVAL 0x01010000 +#define DDR_PHY_PGCR5_VREF_RBCTRL_SHIFT 4 +#define DDR_PHY_PGCR5_VREF_RBCTRL_MASK 0x000000F0U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_PGCR5_RESERVED_3_DEFVAL +#undef DDR_PHY_PGCR5_RESERVED_3_SHIFT +#undef DDR_PHY_PGCR5_RESERVED_3_MASK +#define DDR_PHY_PGCR5_RESERVED_3_DEFVAL 0x01010000 +#define DDR_PHY_PGCR5_RESERVED_3_SHIFT 3 +#define DDR_PHY_PGCR5_RESERVED_3_MASK 0x00000008U + +/*Internal VREF generator REFSEL ragne select*/ +#undef DDR_PHY_PGCR5_DXREFISELRANGE_DEFVAL +#undef DDR_PHY_PGCR5_DXREFISELRANGE_SHIFT +#undef DDR_PHY_PGCR5_DXREFISELRANGE_MASK +#define DDR_PHY_PGCR5_DXREFISELRANGE_DEFVAL 0x01010000 +#define DDR_PHY_PGCR5_DXREFISELRANGE_SHIFT 2 +#define DDR_PHY_PGCR5_DXREFISELRANGE_MASK 0x00000004U + +/*DDL Page Read Write select*/ +#undef DDR_PHY_PGCR5_DDLPGACT_DEFVAL +#undef DDR_PHY_PGCR5_DDLPGACT_SHIFT +#undef DDR_PHY_PGCR5_DDLPGACT_MASK +#define DDR_PHY_PGCR5_DDLPGACT_DEFVAL 0x01010000 +#define DDR_PHY_PGCR5_DDLPGACT_SHIFT 1 +#define DDR_PHY_PGCR5_DDLPGACT_MASK 0x00000002U + +/*DDL Page Read Write select*/ +#undef DDR_PHY_PGCR5_DDLPGRW_DEFVAL +#undef DDR_PHY_PGCR5_DDLPGRW_SHIFT +#undef DDR_PHY_PGCR5_DDLPGRW_MASK +#define DDR_PHY_PGCR5_DDLPGRW_DEFVAL 0x01010000 +#define DDR_PHY_PGCR5_DDLPGRW_SHIFT 0 +#define DDR_PHY_PGCR5_DDLPGRW_MASK 0x00000001U + +/*PLL Power-Down Time*/ +#undef DDR_PHY_PTR0_TPLLPD_DEFVAL +#undef DDR_PHY_PTR0_TPLLPD_SHIFT +#undef DDR_PHY_PTR0_TPLLPD_MASK +#define DDR_PHY_PTR0_TPLLPD_DEFVAL 0x42C21590 +#define DDR_PHY_PTR0_TPLLPD_SHIFT 21 +#define DDR_PHY_PTR0_TPLLPD_MASK 0xFFE00000U + +/*PLL Gear Shift Time*/ +#undef DDR_PHY_PTR0_TPLLGS_DEFVAL +#undef DDR_PHY_PTR0_TPLLGS_SHIFT +#undef DDR_PHY_PTR0_TPLLGS_MASK +#define DDR_PHY_PTR0_TPLLGS_DEFVAL 0x42C21590 +#define DDR_PHY_PTR0_TPLLGS_SHIFT 6 +#define DDR_PHY_PTR0_TPLLGS_MASK 0x001FFFC0U + +/*PHY Reset Time*/ +#undef DDR_PHY_PTR0_TPHYRST_DEFVAL +#undef DDR_PHY_PTR0_TPHYRST_SHIFT +#undef DDR_PHY_PTR0_TPHYRST_MASK +#define DDR_PHY_PTR0_TPHYRST_DEFVAL 0x42C21590 +#define DDR_PHY_PTR0_TPHYRST_SHIFT 0 +#define DDR_PHY_PTR0_TPHYRST_MASK 0x0000003FU + +/*PLL Lock Time*/ +#undef DDR_PHY_PTR1_TPLLLOCK_DEFVAL +#undef DDR_PHY_PTR1_TPLLLOCK_SHIFT +#undef DDR_PHY_PTR1_TPLLLOCK_MASK +#define DDR_PHY_PTR1_TPLLLOCK_DEFVAL 0xD05612C0 +#define DDR_PHY_PTR1_TPLLLOCK_SHIFT 16 +#define DDR_PHY_PTR1_TPLLLOCK_MASK 0xFFFF0000U + +/*Reserved. Returns zeroes on reads.*/ +#undef DDR_PHY_PTR1_RESERVED_15_13_DEFVAL +#undef DDR_PHY_PTR1_RESERVED_15_13_SHIFT +#undef DDR_PHY_PTR1_RESERVED_15_13_MASK +#define DDR_PHY_PTR1_RESERVED_15_13_DEFVAL 0xD05612C0 +#define DDR_PHY_PTR1_RESERVED_15_13_SHIFT 13 +#define DDR_PHY_PTR1_RESERVED_15_13_MASK 0x0000E000U + +/*PLL Reset Time*/ +#undef DDR_PHY_PTR1_TPLLRST_DEFVAL +#undef DDR_PHY_PTR1_TPLLRST_SHIFT +#undef DDR_PHY_PTR1_TPLLRST_MASK +#define DDR_PHY_PTR1_TPLLRST_DEFVAL 0xD05612C0 +#define DDR_PHY_PTR1_TPLLRST_SHIFT 0 +#define DDR_PHY_PTR1_TPLLRST_MASK 0x00001FFFU + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DSGCR_RESERVED_31_28_DEFVAL +#undef DDR_PHY_DSGCR_RESERVED_31_28_SHIFT +#undef DDR_PHY_DSGCR_RESERVED_31_28_MASK +#define DDR_PHY_DSGCR_RESERVED_31_28_DEFVAL 0x02A04101 +#define DDR_PHY_DSGCR_RESERVED_31_28_SHIFT 28 +#define DDR_PHY_DSGCR_RESERVED_31_28_MASK 0xF0000000U + +/*When RDBI enabled, this bit is used to select RDBI CL calculation, if it is 1b1, calculation will use RDBICL, otherwise use d + fault calculation.*/ +#undef DDR_PHY_DSGCR_RDBICLSEL_DEFVAL +#undef DDR_PHY_DSGCR_RDBICLSEL_SHIFT +#undef DDR_PHY_DSGCR_RDBICLSEL_MASK +#define DDR_PHY_DSGCR_RDBICLSEL_DEFVAL 0x02A04101 +#define DDR_PHY_DSGCR_RDBICLSEL_SHIFT 27 +#define DDR_PHY_DSGCR_RDBICLSEL_MASK 0x08000000U + +/*When RDBI enabled, if RDBICLSEL is asserted, RDBI CL adjust using this value.*/ +#undef DDR_PHY_DSGCR_RDBICL_DEFVAL +#undef DDR_PHY_DSGCR_RDBICL_SHIFT +#undef DDR_PHY_DSGCR_RDBICL_MASK +#define DDR_PHY_DSGCR_RDBICL_DEFVAL 0x02A04101 +#define DDR_PHY_DSGCR_RDBICL_SHIFT 24 +#define DDR_PHY_DSGCR_RDBICL_MASK 0x07000000U + +/*PHY Impedance Update Enable*/ +#undef DDR_PHY_DSGCR_PHYZUEN_DEFVAL +#undef DDR_PHY_DSGCR_PHYZUEN_SHIFT +#undef DDR_PHY_DSGCR_PHYZUEN_MASK +#define DDR_PHY_DSGCR_PHYZUEN_DEFVAL 0x02A04101 +#define DDR_PHY_DSGCR_PHYZUEN_SHIFT 23 +#define DDR_PHY_DSGCR_PHYZUEN_MASK 0x00800000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DSGCR_RESERVED_22_DEFVAL +#undef DDR_PHY_DSGCR_RESERVED_22_SHIFT +#undef DDR_PHY_DSGCR_RESERVED_22_MASK +#define DDR_PHY_DSGCR_RESERVED_22_DEFVAL 0x02A04101 +#define DDR_PHY_DSGCR_RESERVED_22_SHIFT 22 +#define DDR_PHY_DSGCR_RESERVED_22_MASK 0x00400000U + +/*SDRAM Reset Output Enable*/ +#undef DDR_PHY_DSGCR_RSTOE_DEFVAL +#undef DDR_PHY_DSGCR_RSTOE_SHIFT +#undef DDR_PHY_DSGCR_RSTOE_MASK +#define DDR_PHY_DSGCR_RSTOE_DEFVAL 0x02A04101 +#define DDR_PHY_DSGCR_RSTOE_SHIFT 21 +#define DDR_PHY_DSGCR_RSTOE_MASK 0x00200000U + +/*Single Data Rate Mode*/ +#undef DDR_PHY_DSGCR_SDRMODE_DEFVAL +#undef DDR_PHY_DSGCR_SDRMODE_SHIFT +#undef DDR_PHY_DSGCR_SDRMODE_MASK +#define DDR_PHY_DSGCR_SDRMODE_DEFVAL 0x02A04101 +#define DDR_PHY_DSGCR_SDRMODE_SHIFT 19 +#define DDR_PHY_DSGCR_SDRMODE_MASK 0x00180000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DSGCR_RESERVED_18_DEFVAL +#undef DDR_PHY_DSGCR_RESERVED_18_SHIFT +#undef DDR_PHY_DSGCR_RESERVED_18_MASK +#define DDR_PHY_DSGCR_RESERVED_18_DEFVAL 0x02A04101 +#define DDR_PHY_DSGCR_RESERVED_18_SHIFT 18 +#define DDR_PHY_DSGCR_RESERVED_18_MASK 0x00040000U + +/*ATO Analog Test Enable*/ +#undef DDR_PHY_DSGCR_ATOAE_DEFVAL +#undef DDR_PHY_DSGCR_ATOAE_SHIFT +#undef DDR_PHY_DSGCR_ATOAE_MASK +#define DDR_PHY_DSGCR_ATOAE_DEFVAL 0x02A04101 +#define DDR_PHY_DSGCR_ATOAE_SHIFT 17 +#define DDR_PHY_DSGCR_ATOAE_MASK 0x00020000U + +/*DTO Output Enable*/ +#undef DDR_PHY_DSGCR_DTOOE_DEFVAL +#undef DDR_PHY_DSGCR_DTOOE_SHIFT +#undef DDR_PHY_DSGCR_DTOOE_MASK +#define DDR_PHY_DSGCR_DTOOE_DEFVAL 0x02A04101 +#define DDR_PHY_DSGCR_DTOOE_SHIFT 16 +#define DDR_PHY_DSGCR_DTOOE_MASK 0x00010000U + +/*DTO I/O Mode*/ +#undef DDR_PHY_DSGCR_DTOIOM_DEFVAL +#undef DDR_PHY_DSGCR_DTOIOM_SHIFT +#undef DDR_PHY_DSGCR_DTOIOM_MASK +#define DDR_PHY_DSGCR_DTOIOM_DEFVAL 0x02A04101 +#define DDR_PHY_DSGCR_DTOIOM_SHIFT 15 +#define DDR_PHY_DSGCR_DTOIOM_MASK 0x00008000U + +/*DTO Power Down Receiver*/ +#undef DDR_PHY_DSGCR_DTOPDR_DEFVAL +#undef DDR_PHY_DSGCR_DTOPDR_SHIFT +#undef DDR_PHY_DSGCR_DTOPDR_MASK +#define DDR_PHY_DSGCR_DTOPDR_DEFVAL 0x02A04101 +#define DDR_PHY_DSGCR_DTOPDR_SHIFT 14 +#define DDR_PHY_DSGCR_DTOPDR_MASK 0x00004000U + +/*Reserved. Return zeroes on reads*/ +#undef DDR_PHY_DSGCR_RESERVED_13_DEFVAL +#undef DDR_PHY_DSGCR_RESERVED_13_SHIFT +#undef DDR_PHY_DSGCR_RESERVED_13_MASK +#define DDR_PHY_DSGCR_RESERVED_13_DEFVAL 0x02A04101 +#define DDR_PHY_DSGCR_RESERVED_13_SHIFT 13 +#define DDR_PHY_DSGCR_RESERVED_13_MASK 0x00002000U + +/*DTO On-Die Termination*/ +#undef DDR_PHY_DSGCR_DTOODT_DEFVAL +#undef DDR_PHY_DSGCR_DTOODT_SHIFT +#undef DDR_PHY_DSGCR_DTOODT_MASK +#define DDR_PHY_DSGCR_DTOODT_DEFVAL 0x02A04101 +#define DDR_PHY_DSGCR_DTOODT_SHIFT 12 +#define DDR_PHY_DSGCR_DTOODT_MASK 0x00001000U + +/*PHY Update Acknowledge Delay*/ +#undef DDR_PHY_DSGCR_PUAD_DEFVAL +#undef DDR_PHY_DSGCR_PUAD_SHIFT +#undef DDR_PHY_DSGCR_PUAD_MASK +#define DDR_PHY_DSGCR_PUAD_DEFVAL 0x02A04101 +#define DDR_PHY_DSGCR_PUAD_SHIFT 6 +#define DDR_PHY_DSGCR_PUAD_MASK 0x00000FC0U + +/*Controller Update Acknowledge Enable*/ +#undef DDR_PHY_DSGCR_CUAEN_DEFVAL +#undef DDR_PHY_DSGCR_CUAEN_SHIFT +#undef DDR_PHY_DSGCR_CUAEN_MASK +#define DDR_PHY_DSGCR_CUAEN_DEFVAL 0x02A04101 +#define DDR_PHY_DSGCR_CUAEN_SHIFT 5 +#define DDR_PHY_DSGCR_CUAEN_MASK 0x00000020U + +/*Reserved. Return zeroes on reads*/ +#undef DDR_PHY_DSGCR_RESERVED_4_3_DEFVAL +#undef DDR_PHY_DSGCR_RESERVED_4_3_SHIFT +#undef DDR_PHY_DSGCR_RESERVED_4_3_MASK +#define DDR_PHY_DSGCR_RESERVED_4_3_DEFVAL 0x02A04101 +#define DDR_PHY_DSGCR_RESERVED_4_3_SHIFT 3 +#define DDR_PHY_DSGCR_RESERVED_4_3_MASK 0x00000018U + +/*Controller Impedance Update Enable*/ +#undef DDR_PHY_DSGCR_CTLZUEN_DEFVAL +#undef DDR_PHY_DSGCR_CTLZUEN_SHIFT +#undef DDR_PHY_DSGCR_CTLZUEN_MASK +#define DDR_PHY_DSGCR_CTLZUEN_DEFVAL 0x02A04101 +#define DDR_PHY_DSGCR_CTLZUEN_SHIFT 2 +#define DDR_PHY_DSGCR_CTLZUEN_MASK 0x00000004U + +/*Reserved. Return zeroes on reads*/ +#undef DDR_PHY_DSGCR_RESERVED_1_DEFVAL +#undef DDR_PHY_DSGCR_RESERVED_1_SHIFT +#undef DDR_PHY_DSGCR_RESERVED_1_MASK +#define DDR_PHY_DSGCR_RESERVED_1_DEFVAL 0x02A04101 +#define DDR_PHY_DSGCR_RESERVED_1_SHIFT 1 +#define DDR_PHY_DSGCR_RESERVED_1_MASK 0x00000002U + +/*PHY Update Request Enable*/ +#undef DDR_PHY_DSGCR_PUREN_DEFVAL +#undef DDR_PHY_DSGCR_PUREN_SHIFT +#undef DDR_PHY_DSGCR_PUREN_MASK +#define DDR_PHY_DSGCR_PUREN_DEFVAL 0x02A04101 +#define DDR_PHY_DSGCR_PUREN_SHIFT 0 +#define DDR_PHY_DSGCR_PUREN_MASK 0x00000001U + +/*DDR4 Gear Down Timing.*/ +#undef DDR_PHY_DCR_GEARDN_DEFVAL +#undef DDR_PHY_DCR_GEARDN_SHIFT +#undef DDR_PHY_DCR_GEARDN_MASK +#define DDR_PHY_DCR_GEARDN_DEFVAL 0x0000040D +#define DDR_PHY_DCR_GEARDN_SHIFT 31 +#define DDR_PHY_DCR_GEARDN_MASK 0x80000000U + +/*Un-used Bank Group*/ +#undef DDR_PHY_DCR_UBG_DEFVAL +#undef DDR_PHY_DCR_UBG_SHIFT +#undef DDR_PHY_DCR_UBG_MASK +#define DDR_PHY_DCR_UBG_DEFVAL 0x0000040D +#define DDR_PHY_DCR_UBG_SHIFT 30 +#define DDR_PHY_DCR_UBG_MASK 0x40000000U + +/*Un-buffered DIMM Address Mirroring*/ +#undef DDR_PHY_DCR_UDIMM_DEFVAL +#undef DDR_PHY_DCR_UDIMM_SHIFT +#undef DDR_PHY_DCR_UDIMM_MASK +#define DDR_PHY_DCR_UDIMM_DEFVAL 0x0000040D +#define DDR_PHY_DCR_UDIMM_SHIFT 29 +#define DDR_PHY_DCR_UDIMM_MASK 0x20000000U + +/*DDR 2T Timing*/ +#undef DDR_PHY_DCR_DDR2T_DEFVAL +#undef DDR_PHY_DCR_DDR2T_SHIFT +#undef DDR_PHY_DCR_DDR2T_MASK +#define DDR_PHY_DCR_DDR2T_DEFVAL 0x0000040D +#define DDR_PHY_DCR_DDR2T_SHIFT 28 +#define DDR_PHY_DCR_DDR2T_MASK 0x10000000U + +/*No Simultaneous Rank Access*/ +#undef DDR_PHY_DCR_NOSRA_DEFVAL +#undef DDR_PHY_DCR_NOSRA_SHIFT +#undef DDR_PHY_DCR_NOSRA_MASK +#define DDR_PHY_DCR_NOSRA_DEFVAL 0x0000040D +#define DDR_PHY_DCR_NOSRA_SHIFT 27 +#define DDR_PHY_DCR_NOSRA_MASK 0x08000000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DCR_RESERVED_26_18_DEFVAL +#undef DDR_PHY_DCR_RESERVED_26_18_SHIFT +#undef DDR_PHY_DCR_RESERVED_26_18_MASK +#define DDR_PHY_DCR_RESERVED_26_18_DEFVAL 0x0000040D +#define DDR_PHY_DCR_RESERVED_26_18_SHIFT 18 +#define DDR_PHY_DCR_RESERVED_26_18_MASK 0x07FC0000U + +/*Byte Mask*/ +#undef DDR_PHY_DCR_BYTEMASK_DEFVAL +#undef DDR_PHY_DCR_BYTEMASK_SHIFT +#undef DDR_PHY_DCR_BYTEMASK_MASK +#define DDR_PHY_DCR_BYTEMASK_DEFVAL 0x0000040D +#define DDR_PHY_DCR_BYTEMASK_SHIFT 10 +#define DDR_PHY_DCR_BYTEMASK_MASK 0x0003FC00U + +/*DDR Type*/ +#undef DDR_PHY_DCR_DDRTYPE_DEFVAL +#undef DDR_PHY_DCR_DDRTYPE_SHIFT +#undef DDR_PHY_DCR_DDRTYPE_MASK +#define DDR_PHY_DCR_DDRTYPE_DEFVAL 0x0000040D +#define DDR_PHY_DCR_DDRTYPE_SHIFT 8 +#define DDR_PHY_DCR_DDRTYPE_MASK 0x00000300U + +/*Multi-Purpose Register (MPR) DQ (DDR3 Only)*/ +#undef DDR_PHY_DCR_MPRDQ_DEFVAL +#undef DDR_PHY_DCR_MPRDQ_SHIFT +#undef DDR_PHY_DCR_MPRDQ_MASK +#define DDR_PHY_DCR_MPRDQ_DEFVAL 0x0000040D +#define DDR_PHY_DCR_MPRDQ_SHIFT 7 +#define DDR_PHY_DCR_MPRDQ_MASK 0x00000080U + +/*Primary DQ (DDR3 Only)*/ +#undef DDR_PHY_DCR_PDQ_DEFVAL +#undef DDR_PHY_DCR_PDQ_SHIFT +#undef DDR_PHY_DCR_PDQ_MASK +#define DDR_PHY_DCR_PDQ_DEFVAL 0x0000040D +#define DDR_PHY_DCR_PDQ_SHIFT 4 +#define DDR_PHY_DCR_PDQ_MASK 0x00000070U + +/*DDR 8-Bank*/ +#undef DDR_PHY_DCR_DDR8BNK_DEFVAL +#undef DDR_PHY_DCR_DDR8BNK_SHIFT +#undef DDR_PHY_DCR_DDR8BNK_MASK +#define DDR_PHY_DCR_DDR8BNK_DEFVAL 0x0000040D +#define DDR_PHY_DCR_DDR8BNK_SHIFT 3 +#define DDR_PHY_DCR_DDR8BNK_MASK 0x00000008U + +/*DDR Mode*/ +#undef DDR_PHY_DCR_DDRMD_DEFVAL +#undef DDR_PHY_DCR_DDRMD_SHIFT +#undef DDR_PHY_DCR_DDRMD_MASK +#define DDR_PHY_DCR_DDRMD_DEFVAL 0x0000040D +#define DDR_PHY_DCR_DDRMD_SHIFT 0 +#define DDR_PHY_DCR_DDRMD_MASK 0x00000007U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DTPR0_RESERVED_31_29_DEFVAL +#undef DDR_PHY_DTPR0_RESERVED_31_29_SHIFT +#undef DDR_PHY_DTPR0_RESERVED_31_29_MASK +#define DDR_PHY_DTPR0_RESERVED_31_29_DEFVAL 0x105A2D08 +#define DDR_PHY_DTPR0_RESERVED_31_29_SHIFT 29 +#define DDR_PHY_DTPR0_RESERVED_31_29_MASK 0xE0000000U + +/*Activate to activate command delay (different banks)*/ +#undef DDR_PHY_DTPR0_TRRD_DEFVAL +#undef DDR_PHY_DTPR0_TRRD_SHIFT +#undef DDR_PHY_DTPR0_TRRD_MASK +#define DDR_PHY_DTPR0_TRRD_DEFVAL 0x105A2D08 +#define DDR_PHY_DTPR0_TRRD_SHIFT 24 +#define DDR_PHY_DTPR0_TRRD_MASK 0x1F000000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DTPR0_RESERVED_23_DEFVAL +#undef DDR_PHY_DTPR0_RESERVED_23_SHIFT +#undef DDR_PHY_DTPR0_RESERVED_23_MASK +#define DDR_PHY_DTPR0_RESERVED_23_DEFVAL 0x105A2D08 +#define DDR_PHY_DTPR0_RESERVED_23_SHIFT 23 +#define DDR_PHY_DTPR0_RESERVED_23_MASK 0x00800000U + +/*Activate to precharge command delay*/ +#undef DDR_PHY_DTPR0_TRAS_DEFVAL +#undef DDR_PHY_DTPR0_TRAS_SHIFT +#undef DDR_PHY_DTPR0_TRAS_MASK +#define DDR_PHY_DTPR0_TRAS_DEFVAL 0x105A2D08 +#define DDR_PHY_DTPR0_TRAS_SHIFT 16 +#define DDR_PHY_DTPR0_TRAS_MASK 0x007F0000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DTPR0_RESERVED_15_DEFVAL +#undef DDR_PHY_DTPR0_RESERVED_15_SHIFT +#undef DDR_PHY_DTPR0_RESERVED_15_MASK +#define DDR_PHY_DTPR0_RESERVED_15_DEFVAL 0x105A2D08 +#define DDR_PHY_DTPR0_RESERVED_15_SHIFT 15 +#define DDR_PHY_DTPR0_RESERVED_15_MASK 0x00008000U + +/*Precharge command period*/ +#undef DDR_PHY_DTPR0_TRP_DEFVAL +#undef DDR_PHY_DTPR0_TRP_SHIFT +#undef DDR_PHY_DTPR0_TRP_MASK +#define DDR_PHY_DTPR0_TRP_DEFVAL 0x105A2D08 +#define DDR_PHY_DTPR0_TRP_SHIFT 8 +#define DDR_PHY_DTPR0_TRP_MASK 0x00007F00U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DTPR0_RESERVED_7_5_DEFVAL +#undef DDR_PHY_DTPR0_RESERVED_7_5_SHIFT +#undef DDR_PHY_DTPR0_RESERVED_7_5_MASK +#define DDR_PHY_DTPR0_RESERVED_7_5_DEFVAL 0x105A2D08 +#define DDR_PHY_DTPR0_RESERVED_7_5_SHIFT 5 +#define DDR_PHY_DTPR0_RESERVED_7_5_MASK 0x000000E0U + +/*Internal read to precharge command delay*/ +#undef DDR_PHY_DTPR0_TRTP_DEFVAL +#undef DDR_PHY_DTPR0_TRTP_SHIFT +#undef DDR_PHY_DTPR0_TRTP_MASK +#define DDR_PHY_DTPR0_TRTP_DEFVAL 0x105A2D08 +#define DDR_PHY_DTPR0_TRTP_SHIFT 0 +#define DDR_PHY_DTPR0_TRTP_MASK 0x0000001FU + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DTPR1_RESERVED_31_DEFVAL +#undef DDR_PHY_DTPR1_RESERVED_31_SHIFT +#undef DDR_PHY_DTPR1_RESERVED_31_MASK +#define DDR_PHY_DTPR1_RESERVED_31_DEFVAL 0x5656041E +#define DDR_PHY_DTPR1_RESERVED_31_SHIFT 31 +#define DDR_PHY_DTPR1_RESERVED_31_MASK 0x80000000U + +/*Minimum delay from when write leveling mode is programmed to the first DQS/DQS# rising edge.*/ +#undef DDR_PHY_DTPR1_TWLMRD_DEFVAL +#undef DDR_PHY_DTPR1_TWLMRD_SHIFT +#undef DDR_PHY_DTPR1_TWLMRD_MASK +#define DDR_PHY_DTPR1_TWLMRD_DEFVAL 0x5656041E +#define DDR_PHY_DTPR1_TWLMRD_SHIFT 24 +#define DDR_PHY_DTPR1_TWLMRD_MASK 0x7F000000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DTPR1_RESERVED_23_DEFVAL +#undef DDR_PHY_DTPR1_RESERVED_23_SHIFT +#undef DDR_PHY_DTPR1_RESERVED_23_MASK +#define DDR_PHY_DTPR1_RESERVED_23_DEFVAL 0x5656041E +#define DDR_PHY_DTPR1_RESERVED_23_SHIFT 23 +#define DDR_PHY_DTPR1_RESERVED_23_MASK 0x00800000U + +/*4-bank activate period*/ +#undef DDR_PHY_DTPR1_TFAW_DEFVAL +#undef DDR_PHY_DTPR1_TFAW_SHIFT +#undef DDR_PHY_DTPR1_TFAW_MASK +#define DDR_PHY_DTPR1_TFAW_DEFVAL 0x5656041E +#define DDR_PHY_DTPR1_TFAW_SHIFT 16 +#define DDR_PHY_DTPR1_TFAW_MASK 0x007F0000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DTPR1_RESERVED_15_11_DEFVAL +#undef DDR_PHY_DTPR1_RESERVED_15_11_SHIFT +#undef DDR_PHY_DTPR1_RESERVED_15_11_MASK +#define DDR_PHY_DTPR1_RESERVED_15_11_DEFVAL 0x5656041E +#define DDR_PHY_DTPR1_RESERVED_15_11_SHIFT 11 +#define DDR_PHY_DTPR1_RESERVED_15_11_MASK 0x0000F800U + +/*Load mode update delay (DDR4 and DDR3 only)*/ +#undef DDR_PHY_DTPR1_TMOD_DEFVAL +#undef DDR_PHY_DTPR1_TMOD_SHIFT +#undef DDR_PHY_DTPR1_TMOD_MASK +#define DDR_PHY_DTPR1_TMOD_DEFVAL 0x5656041E +#define DDR_PHY_DTPR1_TMOD_SHIFT 8 +#define DDR_PHY_DTPR1_TMOD_MASK 0x00000700U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DTPR1_RESERVED_7_5_DEFVAL +#undef DDR_PHY_DTPR1_RESERVED_7_5_SHIFT +#undef DDR_PHY_DTPR1_RESERVED_7_5_MASK +#define DDR_PHY_DTPR1_RESERVED_7_5_DEFVAL 0x5656041E +#define DDR_PHY_DTPR1_RESERVED_7_5_SHIFT 5 +#define DDR_PHY_DTPR1_RESERVED_7_5_MASK 0x000000E0U + +/*Load mode cycle time*/ +#undef DDR_PHY_DTPR1_TMRD_DEFVAL +#undef DDR_PHY_DTPR1_TMRD_SHIFT +#undef DDR_PHY_DTPR1_TMRD_MASK +#define DDR_PHY_DTPR1_TMRD_DEFVAL 0x5656041E +#define DDR_PHY_DTPR1_TMRD_SHIFT 0 +#define DDR_PHY_DTPR1_TMRD_MASK 0x0000001FU + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DTPR2_RESERVED_31_29_DEFVAL +#undef DDR_PHY_DTPR2_RESERVED_31_29_SHIFT +#undef DDR_PHY_DTPR2_RESERVED_31_29_MASK +#define DDR_PHY_DTPR2_RESERVED_31_29_DEFVAL 0x000B01D0 +#define DDR_PHY_DTPR2_RESERVED_31_29_SHIFT 29 +#define DDR_PHY_DTPR2_RESERVED_31_29_MASK 0xE0000000U + +/*Read to Write command delay. Valid values are*/ +#undef DDR_PHY_DTPR2_TRTW_DEFVAL +#undef DDR_PHY_DTPR2_TRTW_SHIFT +#undef DDR_PHY_DTPR2_TRTW_MASK +#define DDR_PHY_DTPR2_TRTW_DEFVAL 0x000B01D0 +#define DDR_PHY_DTPR2_TRTW_SHIFT 28 +#define DDR_PHY_DTPR2_TRTW_MASK 0x10000000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DTPR2_RESERVED_27_25_DEFVAL +#undef DDR_PHY_DTPR2_RESERVED_27_25_SHIFT +#undef DDR_PHY_DTPR2_RESERVED_27_25_MASK +#define DDR_PHY_DTPR2_RESERVED_27_25_DEFVAL 0x000B01D0 +#define DDR_PHY_DTPR2_RESERVED_27_25_SHIFT 25 +#define DDR_PHY_DTPR2_RESERVED_27_25_MASK 0x0E000000U + +/*Read to ODT delay (DDR3 only)*/ +#undef DDR_PHY_DTPR2_TRTODT_DEFVAL +#undef DDR_PHY_DTPR2_TRTODT_SHIFT +#undef DDR_PHY_DTPR2_TRTODT_MASK +#define DDR_PHY_DTPR2_TRTODT_DEFVAL 0x000B01D0 +#define DDR_PHY_DTPR2_TRTODT_SHIFT 24 +#define DDR_PHY_DTPR2_TRTODT_MASK 0x01000000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DTPR2_RESERVED_23_20_DEFVAL +#undef DDR_PHY_DTPR2_RESERVED_23_20_SHIFT +#undef DDR_PHY_DTPR2_RESERVED_23_20_MASK +#define DDR_PHY_DTPR2_RESERVED_23_20_DEFVAL 0x000B01D0 +#define DDR_PHY_DTPR2_RESERVED_23_20_SHIFT 20 +#define DDR_PHY_DTPR2_RESERVED_23_20_MASK 0x00F00000U + +/*CKE minimum pulse width*/ +#undef DDR_PHY_DTPR2_TCKE_DEFVAL +#undef DDR_PHY_DTPR2_TCKE_SHIFT +#undef DDR_PHY_DTPR2_TCKE_MASK +#define DDR_PHY_DTPR2_TCKE_DEFVAL 0x000B01D0 +#define DDR_PHY_DTPR2_TCKE_SHIFT 16 +#define DDR_PHY_DTPR2_TCKE_MASK 0x000F0000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DTPR2_RESERVED_15_10_DEFVAL +#undef DDR_PHY_DTPR2_RESERVED_15_10_SHIFT +#undef DDR_PHY_DTPR2_RESERVED_15_10_MASK +#define DDR_PHY_DTPR2_RESERVED_15_10_DEFVAL 0x000B01D0 +#define DDR_PHY_DTPR2_RESERVED_15_10_SHIFT 10 +#define DDR_PHY_DTPR2_RESERVED_15_10_MASK 0x0000FC00U + +/*Self refresh exit delay*/ +#undef DDR_PHY_DTPR2_TXS_DEFVAL +#undef DDR_PHY_DTPR2_TXS_SHIFT +#undef DDR_PHY_DTPR2_TXS_MASK +#define DDR_PHY_DTPR2_TXS_DEFVAL 0x000B01D0 +#define DDR_PHY_DTPR2_TXS_SHIFT 0 +#define DDR_PHY_DTPR2_TXS_MASK 0x000003FFU + +/*ODT turn-off delay extension*/ +#undef DDR_PHY_DTPR3_TOFDX_DEFVAL +#undef DDR_PHY_DTPR3_TOFDX_SHIFT +#undef DDR_PHY_DTPR3_TOFDX_MASK +#define DDR_PHY_DTPR3_TOFDX_DEFVAL 0x02000804 +#define DDR_PHY_DTPR3_TOFDX_SHIFT 29 +#define DDR_PHY_DTPR3_TOFDX_MASK 0xE0000000U + +/*Read to read and write to write command delay*/ +#undef DDR_PHY_DTPR3_TCCD_DEFVAL +#undef DDR_PHY_DTPR3_TCCD_SHIFT +#undef DDR_PHY_DTPR3_TCCD_MASK +#define DDR_PHY_DTPR3_TCCD_DEFVAL 0x02000804 +#define DDR_PHY_DTPR3_TCCD_SHIFT 26 +#define DDR_PHY_DTPR3_TCCD_MASK 0x1C000000U + +/*DLL locking time*/ +#undef DDR_PHY_DTPR3_TDLLK_DEFVAL +#undef DDR_PHY_DTPR3_TDLLK_SHIFT +#undef DDR_PHY_DTPR3_TDLLK_MASK +#define DDR_PHY_DTPR3_TDLLK_DEFVAL 0x02000804 +#define DDR_PHY_DTPR3_TDLLK_SHIFT 16 +#define DDR_PHY_DTPR3_TDLLK_MASK 0x03FF0000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DTPR3_RESERVED_15_12_DEFVAL +#undef DDR_PHY_DTPR3_RESERVED_15_12_SHIFT +#undef DDR_PHY_DTPR3_RESERVED_15_12_MASK +#define DDR_PHY_DTPR3_RESERVED_15_12_DEFVAL 0x02000804 +#define DDR_PHY_DTPR3_RESERVED_15_12_SHIFT 12 +#define DDR_PHY_DTPR3_RESERVED_15_12_MASK 0x0000F000U + +/*Maximum DQS output access time from CK/CK# (LPDDR2/3 only)*/ +#undef DDR_PHY_DTPR3_TDQSCKMAX_DEFVAL +#undef DDR_PHY_DTPR3_TDQSCKMAX_SHIFT +#undef DDR_PHY_DTPR3_TDQSCKMAX_MASK +#define DDR_PHY_DTPR3_TDQSCKMAX_DEFVAL 0x02000804 +#define DDR_PHY_DTPR3_TDQSCKMAX_SHIFT 8 +#define DDR_PHY_DTPR3_TDQSCKMAX_MASK 0x00000F00U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DTPR3_RESERVED_7_3_DEFVAL +#undef DDR_PHY_DTPR3_RESERVED_7_3_SHIFT +#undef DDR_PHY_DTPR3_RESERVED_7_3_MASK +#define DDR_PHY_DTPR3_RESERVED_7_3_DEFVAL 0x02000804 +#define DDR_PHY_DTPR3_RESERVED_7_3_SHIFT 3 +#define DDR_PHY_DTPR3_RESERVED_7_3_MASK 0x000000F8U + +/*DQS output access time from CK/CK# (LPDDR2/3 only)*/ +#undef DDR_PHY_DTPR3_TDQSCK_DEFVAL +#undef DDR_PHY_DTPR3_TDQSCK_SHIFT +#undef DDR_PHY_DTPR3_TDQSCK_MASK +#define DDR_PHY_DTPR3_TDQSCK_DEFVAL 0x02000804 +#define DDR_PHY_DTPR3_TDQSCK_SHIFT 0 +#define DDR_PHY_DTPR3_TDQSCK_MASK 0x00000007U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DTPR4_RESERVED_31_30_DEFVAL +#undef DDR_PHY_DTPR4_RESERVED_31_30_SHIFT +#undef DDR_PHY_DTPR4_RESERVED_31_30_MASK +#define DDR_PHY_DTPR4_RESERVED_31_30_DEFVAL 0x01C02B10 +#define DDR_PHY_DTPR4_RESERVED_31_30_SHIFT 30 +#define DDR_PHY_DTPR4_RESERVED_31_30_MASK 0xC0000000U + +/*ODT turn-on/turn-off delays (DDR2 only)*/ +#undef DDR_PHY_DTPR4_TAOND_TAOFD_DEFVAL +#undef DDR_PHY_DTPR4_TAOND_TAOFD_SHIFT +#undef DDR_PHY_DTPR4_TAOND_TAOFD_MASK +#define DDR_PHY_DTPR4_TAOND_TAOFD_DEFVAL 0x01C02B10 +#define DDR_PHY_DTPR4_TAOND_TAOFD_SHIFT 28 +#define DDR_PHY_DTPR4_TAOND_TAOFD_MASK 0x30000000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DTPR4_RESERVED_27_26_DEFVAL +#undef DDR_PHY_DTPR4_RESERVED_27_26_SHIFT +#undef DDR_PHY_DTPR4_RESERVED_27_26_MASK +#define DDR_PHY_DTPR4_RESERVED_27_26_DEFVAL 0x01C02B10 +#define DDR_PHY_DTPR4_RESERVED_27_26_SHIFT 26 +#define DDR_PHY_DTPR4_RESERVED_27_26_MASK 0x0C000000U + +/*Refresh-to-Refresh*/ +#undef DDR_PHY_DTPR4_TRFC_DEFVAL +#undef DDR_PHY_DTPR4_TRFC_SHIFT +#undef DDR_PHY_DTPR4_TRFC_MASK +#define DDR_PHY_DTPR4_TRFC_DEFVAL 0x01C02B10 +#define DDR_PHY_DTPR4_TRFC_SHIFT 16 +#define DDR_PHY_DTPR4_TRFC_MASK 0x03FF0000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DTPR4_RESERVED_15_14_DEFVAL +#undef DDR_PHY_DTPR4_RESERVED_15_14_SHIFT +#undef DDR_PHY_DTPR4_RESERVED_15_14_MASK +#define DDR_PHY_DTPR4_RESERVED_15_14_DEFVAL 0x01C02B10 +#define DDR_PHY_DTPR4_RESERVED_15_14_SHIFT 14 +#define DDR_PHY_DTPR4_RESERVED_15_14_MASK 0x0000C000U + +/*Write leveling output delay*/ +#undef DDR_PHY_DTPR4_TWLO_DEFVAL +#undef DDR_PHY_DTPR4_TWLO_SHIFT +#undef DDR_PHY_DTPR4_TWLO_MASK +#define DDR_PHY_DTPR4_TWLO_DEFVAL 0x01C02B10 +#define DDR_PHY_DTPR4_TWLO_SHIFT 8 +#define DDR_PHY_DTPR4_TWLO_MASK 0x00003F00U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DTPR4_RESERVED_7_5_DEFVAL +#undef DDR_PHY_DTPR4_RESERVED_7_5_SHIFT +#undef DDR_PHY_DTPR4_RESERVED_7_5_MASK +#define DDR_PHY_DTPR4_RESERVED_7_5_DEFVAL 0x01C02B10 +#define DDR_PHY_DTPR4_RESERVED_7_5_SHIFT 5 +#define DDR_PHY_DTPR4_RESERVED_7_5_MASK 0x000000E0U + +/*Power down exit delay*/ +#undef DDR_PHY_DTPR4_TXP_DEFVAL +#undef DDR_PHY_DTPR4_TXP_SHIFT +#undef DDR_PHY_DTPR4_TXP_MASK +#define DDR_PHY_DTPR4_TXP_DEFVAL 0x01C02B10 +#define DDR_PHY_DTPR4_TXP_SHIFT 0 +#define DDR_PHY_DTPR4_TXP_MASK 0x0000001FU + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DTPR5_RESERVED_31_24_DEFVAL +#undef DDR_PHY_DTPR5_RESERVED_31_24_SHIFT +#undef DDR_PHY_DTPR5_RESERVED_31_24_MASK +#define DDR_PHY_DTPR5_RESERVED_31_24_DEFVAL 0x00872716 +#define DDR_PHY_DTPR5_RESERVED_31_24_SHIFT 24 +#define DDR_PHY_DTPR5_RESERVED_31_24_MASK 0xFF000000U + +/*Activate to activate command delay (same bank)*/ +#undef DDR_PHY_DTPR5_TRC_DEFVAL +#undef DDR_PHY_DTPR5_TRC_SHIFT +#undef DDR_PHY_DTPR5_TRC_MASK +#define DDR_PHY_DTPR5_TRC_DEFVAL 0x00872716 +#define DDR_PHY_DTPR5_TRC_SHIFT 16 +#define DDR_PHY_DTPR5_TRC_MASK 0x00FF0000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DTPR5_RESERVED_15_DEFVAL +#undef DDR_PHY_DTPR5_RESERVED_15_SHIFT +#undef DDR_PHY_DTPR5_RESERVED_15_MASK +#define DDR_PHY_DTPR5_RESERVED_15_DEFVAL 0x00872716 +#define DDR_PHY_DTPR5_RESERVED_15_SHIFT 15 +#define DDR_PHY_DTPR5_RESERVED_15_MASK 0x00008000U + +/*Activate to read or write delay*/ +#undef DDR_PHY_DTPR5_TRCD_DEFVAL +#undef DDR_PHY_DTPR5_TRCD_SHIFT +#undef DDR_PHY_DTPR5_TRCD_MASK +#define DDR_PHY_DTPR5_TRCD_DEFVAL 0x00872716 +#define DDR_PHY_DTPR5_TRCD_SHIFT 8 +#define DDR_PHY_DTPR5_TRCD_MASK 0x00007F00U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DTPR5_RESERVED_7_5_DEFVAL +#undef DDR_PHY_DTPR5_RESERVED_7_5_SHIFT +#undef DDR_PHY_DTPR5_RESERVED_7_5_MASK +#define DDR_PHY_DTPR5_RESERVED_7_5_DEFVAL 0x00872716 +#define DDR_PHY_DTPR5_RESERVED_7_5_SHIFT 5 +#define DDR_PHY_DTPR5_RESERVED_7_5_MASK 0x000000E0U + +/*Internal write to read command delay*/ +#undef DDR_PHY_DTPR5_TWTR_DEFVAL +#undef DDR_PHY_DTPR5_TWTR_SHIFT +#undef DDR_PHY_DTPR5_TWTR_MASK +#define DDR_PHY_DTPR5_TWTR_DEFVAL 0x00872716 +#define DDR_PHY_DTPR5_TWTR_SHIFT 0 +#define DDR_PHY_DTPR5_TWTR_MASK 0x0000001FU + +/*PUB Write Latency Enable*/ +#undef DDR_PHY_DTPR6_PUBWLEN_DEFVAL +#undef DDR_PHY_DTPR6_PUBWLEN_SHIFT +#undef DDR_PHY_DTPR6_PUBWLEN_MASK +#define DDR_PHY_DTPR6_PUBWLEN_DEFVAL 0x00000505 +#define DDR_PHY_DTPR6_PUBWLEN_SHIFT 31 +#define DDR_PHY_DTPR6_PUBWLEN_MASK 0x80000000U + +/*PUB Read Latency Enable*/ +#undef DDR_PHY_DTPR6_PUBRLEN_DEFVAL +#undef DDR_PHY_DTPR6_PUBRLEN_SHIFT +#undef DDR_PHY_DTPR6_PUBRLEN_MASK +#define DDR_PHY_DTPR6_PUBRLEN_DEFVAL 0x00000505 +#define DDR_PHY_DTPR6_PUBRLEN_SHIFT 30 +#define DDR_PHY_DTPR6_PUBRLEN_MASK 0x40000000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DTPR6_RESERVED_29_14_DEFVAL +#undef DDR_PHY_DTPR6_RESERVED_29_14_SHIFT +#undef DDR_PHY_DTPR6_RESERVED_29_14_MASK +#define DDR_PHY_DTPR6_RESERVED_29_14_DEFVAL 0x00000505 +#define DDR_PHY_DTPR6_RESERVED_29_14_SHIFT 14 +#define DDR_PHY_DTPR6_RESERVED_29_14_MASK 0x3FFFC000U + +/*Write Latency*/ +#undef DDR_PHY_DTPR6_PUBWL_DEFVAL +#undef DDR_PHY_DTPR6_PUBWL_SHIFT +#undef DDR_PHY_DTPR6_PUBWL_MASK +#define DDR_PHY_DTPR6_PUBWL_DEFVAL 0x00000505 +#define DDR_PHY_DTPR6_PUBWL_SHIFT 8 +#define DDR_PHY_DTPR6_PUBWL_MASK 0x00003F00U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DTPR6_RESERVED_7_6_DEFVAL +#undef DDR_PHY_DTPR6_RESERVED_7_6_SHIFT +#undef DDR_PHY_DTPR6_RESERVED_7_6_MASK +#define DDR_PHY_DTPR6_RESERVED_7_6_DEFVAL 0x00000505 +#define DDR_PHY_DTPR6_RESERVED_7_6_SHIFT 6 +#define DDR_PHY_DTPR6_RESERVED_7_6_MASK 0x000000C0U + +/*Read Latency*/ +#undef DDR_PHY_DTPR6_PUBRL_DEFVAL +#undef DDR_PHY_DTPR6_PUBRL_SHIFT +#undef DDR_PHY_DTPR6_PUBRL_MASK +#define DDR_PHY_DTPR6_PUBRL_DEFVAL 0x00000505 +#define DDR_PHY_DTPR6_PUBRL_SHIFT 0 +#define DDR_PHY_DTPR6_PUBRL_MASK 0x0000003FU + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_RDIMMGCR0_RESERVED_31_DEFVAL +#undef DDR_PHY_RDIMMGCR0_RESERVED_31_SHIFT +#undef DDR_PHY_RDIMMGCR0_RESERVED_31_MASK +#define DDR_PHY_RDIMMGCR0_RESERVED_31_DEFVAL 0x08400020 +#define DDR_PHY_RDIMMGCR0_RESERVED_31_SHIFT 31 +#define DDR_PHY_RDIMMGCR0_RESERVED_31_MASK 0x80000000U + +/*RDMIMM Quad CS Enable*/ +#undef DDR_PHY_RDIMMGCR0_QCSEN_DEFVAL +#undef DDR_PHY_RDIMMGCR0_QCSEN_SHIFT +#undef DDR_PHY_RDIMMGCR0_QCSEN_MASK +#define DDR_PHY_RDIMMGCR0_QCSEN_DEFVAL 0x08400020 +#define DDR_PHY_RDIMMGCR0_QCSEN_SHIFT 30 +#define DDR_PHY_RDIMMGCR0_QCSEN_MASK 0x40000000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_RDIMMGCR0_RESERVED_29_28_DEFVAL +#undef DDR_PHY_RDIMMGCR0_RESERVED_29_28_SHIFT +#undef DDR_PHY_RDIMMGCR0_RESERVED_29_28_MASK +#define DDR_PHY_RDIMMGCR0_RESERVED_29_28_DEFVAL 0x08400020 +#define DDR_PHY_RDIMMGCR0_RESERVED_29_28_SHIFT 28 +#define DDR_PHY_RDIMMGCR0_RESERVED_29_28_MASK 0x30000000U + +/*RDIMM Outputs I/O Mode*/ +#undef DDR_PHY_RDIMMGCR0_RDIMMIOM_DEFVAL +#undef DDR_PHY_RDIMMGCR0_RDIMMIOM_SHIFT +#undef DDR_PHY_RDIMMGCR0_RDIMMIOM_MASK +#define DDR_PHY_RDIMMGCR0_RDIMMIOM_DEFVAL 0x08400020 +#define DDR_PHY_RDIMMGCR0_RDIMMIOM_SHIFT 27 +#define DDR_PHY_RDIMMGCR0_RDIMMIOM_MASK 0x08000000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_RDIMMGCR0_RESERVED_26_24_DEFVAL +#undef DDR_PHY_RDIMMGCR0_RESERVED_26_24_SHIFT +#undef DDR_PHY_RDIMMGCR0_RESERVED_26_24_MASK +#define DDR_PHY_RDIMMGCR0_RESERVED_26_24_DEFVAL 0x08400020 +#define DDR_PHY_RDIMMGCR0_RESERVED_26_24_SHIFT 24 +#define DDR_PHY_RDIMMGCR0_RESERVED_26_24_MASK 0x07000000U + +/*ERROUT# Output Enable*/ +#undef DDR_PHY_RDIMMGCR0_ERROUTOE_DEFVAL +#undef DDR_PHY_RDIMMGCR0_ERROUTOE_SHIFT +#undef DDR_PHY_RDIMMGCR0_ERROUTOE_MASK +#define DDR_PHY_RDIMMGCR0_ERROUTOE_DEFVAL 0x08400020 +#define DDR_PHY_RDIMMGCR0_ERROUTOE_SHIFT 23 +#define DDR_PHY_RDIMMGCR0_ERROUTOE_MASK 0x00800000U + +/*ERROUT# I/O Mode*/ +#undef DDR_PHY_RDIMMGCR0_ERROUTIOM_DEFVAL +#undef DDR_PHY_RDIMMGCR0_ERROUTIOM_SHIFT +#undef DDR_PHY_RDIMMGCR0_ERROUTIOM_MASK +#define DDR_PHY_RDIMMGCR0_ERROUTIOM_DEFVAL 0x08400020 +#define DDR_PHY_RDIMMGCR0_ERROUTIOM_SHIFT 22 +#define DDR_PHY_RDIMMGCR0_ERROUTIOM_MASK 0x00400000U + +/*ERROUT# Power Down Receiver*/ +#undef DDR_PHY_RDIMMGCR0_ERROUTPDR_DEFVAL +#undef DDR_PHY_RDIMMGCR0_ERROUTPDR_SHIFT +#undef DDR_PHY_RDIMMGCR0_ERROUTPDR_MASK +#define DDR_PHY_RDIMMGCR0_ERROUTPDR_DEFVAL 0x08400020 +#define DDR_PHY_RDIMMGCR0_ERROUTPDR_SHIFT 21 +#define DDR_PHY_RDIMMGCR0_ERROUTPDR_MASK 0x00200000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_RDIMMGCR0_RESERVED_20_DEFVAL +#undef DDR_PHY_RDIMMGCR0_RESERVED_20_SHIFT +#undef DDR_PHY_RDIMMGCR0_RESERVED_20_MASK +#define DDR_PHY_RDIMMGCR0_RESERVED_20_DEFVAL 0x08400020 +#define DDR_PHY_RDIMMGCR0_RESERVED_20_SHIFT 20 +#define DDR_PHY_RDIMMGCR0_RESERVED_20_MASK 0x00100000U + +/*ERROUT# On-Die Termination*/ +#undef DDR_PHY_RDIMMGCR0_ERROUTODT_DEFVAL +#undef DDR_PHY_RDIMMGCR0_ERROUTODT_SHIFT +#undef DDR_PHY_RDIMMGCR0_ERROUTODT_MASK +#define DDR_PHY_RDIMMGCR0_ERROUTODT_DEFVAL 0x08400020 +#define DDR_PHY_RDIMMGCR0_ERROUTODT_SHIFT 19 +#define DDR_PHY_RDIMMGCR0_ERROUTODT_MASK 0x00080000U + +/*Load Reduced DIMM*/ +#undef DDR_PHY_RDIMMGCR0_LRDIMM_DEFVAL +#undef DDR_PHY_RDIMMGCR0_LRDIMM_SHIFT +#undef DDR_PHY_RDIMMGCR0_LRDIMM_MASK +#define DDR_PHY_RDIMMGCR0_LRDIMM_DEFVAL 0x08400020 +#define DDR_PHY_RDIMMGCR0_LRDIMM_SHIFT 18 +#define DDR_PHY_RDIMMGCR0_LRDIMM_MASK 0x00040000U + +/*PAR_IN I/O Mode*/ +#undef DDR_PHY_RDIMMGCR0_PARINIOM_DEFVAL +#undef DDR_PHY_RDIMMGCR0_PARINIOM_SHIFT +#undef DDR_PHY_RDIMMGCR0_PARINIOM_MASK +#define DDR_PHY_RDIMMGCR0_PARINIOM_DEFVAL 0x08400020 +#define DDR_PHY_RDIMMGCR0_PARINIOM_SHIFT 17 +#define DDR_PHY_RDIMMGCR0_PARINIOM_MASK 0x00020000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_RDIMMGCR0_RESERVED_16_8_DEFVAL +#undef DDR_PHY_RDIMMGCR0_RESERVED_16_8_SHIFT +#undef DDR_PHY_RDIMMGCR0_RESERVED_16_8_MASK +#define DDR_PHY_RDIMMGCR0_RESERVED_16_8_DEFVAL 0x08400020 +#define DDR_PHY_RDIMMGCR0_RESERVED_16_8_SHIFT 8 +#define DDR_PHY_RDIMMGCR0_RESERVED_16_8_MASK 0x0001FF00U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_RDIMMGCR0_RNKMRREN_RSVD_DEFVAL +#undef DDR_PHY_RDIMMGCR0_RNKMRREN_RSVD_SHIFT +#undef DDR_PHY_RDIMMGCR0_RNKMRREN_RSVD_MASK +#define DDR_PHY_RDIMMGCR0_RNKMRREN_RSVD_DEFVAL 0x08400020 +#define DDR_PHY_RDIMMGCR0_RNKMRREN_RSVD_SHIFT 6 +#define DDR_PHY_RDIMMGCR0_RNKMRREN_RSVD_MASK 0x000000C0U + +/*Rank Mirror Enable.*/ +#undef DDR_PHY_RDIMMGCR0_RNKMRREN_DEFVAL +#undef DDR_PHY_RDIMMGCR0_RNKMRREN_SHIFT +#undef DDR_PHY_RDIMMGCR0_RNKMRREN_MASK +#define DDR_PHY_RDIMMGCR0_RNKMRREN_DEFVAL 0x08400020 +#define DDR_PHY_RDIMMGCR0_RNKMRREN_SHIFT 4 +#define DDR_PHY_RDIMMGCR0_RNKMRREN_MASK 0x00000030U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_RDIMMGCR0_RESERVED_3_DEFVAL +#undef DDR_PHY_RDIMMGCR0_RESERVED_3_SHIFT +#undef DDR_PHY_RDIMMGCR0_RESERVED_3_MASK +#define DDR_PHY_RDIMMGCR0_RESERVED_3_DEFVAL 0x08400020 +#define DDR_PHY_RDIMMGCR0_RESERVED_3_SHIFT 3 +#define DDR_PHY_RDIMMGCR0_RESERVED_3_MASK 0x00000008U + +/*Stop on Parity Error*/ +#undef DDR_PHY_RDIMMGCR0_SOPERR_DEFVAL +#undef DDR_PHY_RDIMMGCR0_SOPERR_SHIFT +#undef DDR_PHY_RDIMMGCR0_SOPERR_MASK +#define DDR_PHY_RDIMMGCR0_SOPERR_DEFVAL 0x08400020 +#define DDR_PHY_RDIMMGCR0_SOPERR_SHIFT 2 +#define DDR_PHY_RDIMMGCR0_SOPERR_MASK 0x00000004U + +/*Parity Error No Registering*/ +#undef DDR_PHY_RDIMMGCR0_ERRNOREG_DEFVAL +#undef DDR_PHY_RDIMMGCR0_ERRNOREG_SHIFT +#undef DDR_PHY_RDIMMGCR0_ERRNOREG_MASK +#define DDR_PHY_RDIMMGCR0_ERRNOREG_DEFVAL 0x08400020 +#define DDR_PHY_RDIMMGCR0_ERRNOREG_SHIFT 1 +#define DDR_PHY_RDIMMGCR0_ERRNOREG_MASK 0x00000002U + +/*Registered DIMM*/ +#undef DDR_PHY_RDIMMGCR0_RDIMM_DEFVAL +#undef DDR_PHY_RDIMMGCR0_RDIMM_SHIFT +#undef DDR_PHY_RDIMMGCR0_RDIMM_MASK +#define DDR_PHY_RDIMMGCR0_RDIMM_DEFVAL 0x08400020 +#define DDR_PHY_RDIMMGCR0_RDIMM_SHIFT 0 +#define DDR_PHY_RDIMMGCR0_RDIMM_MASK 0x00000001U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_RDIMMGCR1_RESERVED_31_29_DEFVAL +#undef DDR_PHY_RDIMMGCR1_RESERVED_31_29_SHIFT +#undef DDR_PHY_RDIMMGCR1_RESERVED_31_29_MASK +#define DDR_PHY_RDIMMGCR1_RESERVED_31_29_DEFVAL 0x00000C80 +#define DDR_PHY_RDIMMGCR1_RESERVED_31_29_SHIFT 29 +#define DDR_PHY_RDIMMGCR1_RESERVED_31_29_MASK 0xE0000000U + +/*Address [17] B-side Inversion Disable*/ +#undef DDR_PHY_RDIMMGCR1_A17BID_DEFVAL +#undef DDR_PHY_RDIMMGCR1_A17BID_SHIFT +#undef DDR_PHY_RDIMMGCR1_A17BID_MASK +#define DDR_PHY_RDIMMGCR1_A17BID_DEFVAL 0x00000C80 +#define DDR_PHY_RDIMMGCR1_A17BID_SHIFT 28 +#define DDR_PHY_RDIMMGCR1_A17BID_MASK 0x10000000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_RDIMMGCR1_RESERVED_27_DEFVAL +#undef DDR_PHY_RDIMMGCR1_RESERVED_27_SHIFT +#undef DDR_PHY_RDIMMGCR1_RESERVED_27_MASK +#define DDR_PHY_RDIMMGCR1_RESERVED_27_DEFVAL 0x00000C80 +#define DDR_PHY_RDIMMGCR1_RESERVED_27_SHIFT 27 +#define DDR_PHY_RDIMMGCR1_RESERVED_27_MASK 0x08000000U + +/*Command word to command word programming delay*/ +#undef DDR_PHY_RDIMMGCR1_TBCMRD_L2_DEFVAL +#undef DDR_PHY_RDIMMGCR1_TBCMRD_L2_SHIFT +#undef DDR_PHY_RDIMMGCR1_TBCMRD_L2_MASK +#define DDR_PHY_RDIMMGCR1_TBCMRD_L2_DEFVAL 0x00000C80 +#define DDR_PHY_RDIMMGCR1_TBCMRD_L2_SHIFT 24 +#define DDR_PHY_RDIMMGCR1_TBCMRD_L2_MASK 0x07000000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_RDIMMGCR1_RESERVED_23_DEFVAL +#undef DDR_PHY_RDIMMGCR1_RESERVED_23_SHIFT +#undef DDR_PHY_RDIMMGCR1_RESERVED_23_MASK +#define DDR_PHY_RDIMMGCR1_RESERVED_23_DEFVAL 0x00000C80 +#define DDR_PHY_RDIMMGCR1_RESERVED_23_SHIFT 23 +#define DDR_PHY_RDIMMGCR1_RESERVED_23_MASK 0x00800000U + +/*Command word to command word programming delay*/ +#undef DDR_PHY_RDIMMGCR1_TBCMRD_L_DEFVAL +#undef DDR_PHY_RDIMMGCR1_TBCMRD_L_SHIFT +#undef DDR_PHY_RDIMMGCR1_TBCMRD_L_MASK +#define DDR_PHY_RDIMMGCR1_TBCMRD_L_DEFVAL 0x00000C80 +#define DDR_PHY_RDIMMGCR1_TBCMRD_L_SHIFT 20 +#define DDR_PHY_RDIMMGCR1_TBCMRD_L_MASK 0x00700000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_RDIMMGCR1_RESERVED_19_DEFVAL +#undef DDR_PHY_RDIMMGCR1_RESERVED_19_SHIFT +#undef DDR_PHY_RDIMMGCR1_RESERVED_19_MASK +#define DDR_PHY_RDIMMGCR1_RESERVED_19_DEFVAL 0x00000C80 +#define DDR_PHY_RDIMMGCR1_RESERVED_19_SHIFT 19 +#define DDR_PHY_RDIMMGCR1_RESERVED_19_MASK 0x00080000U + +/*Command word to command word programming delay*/ +#undef DDR_PHY_RDIMMGCR1_TBCMRD_DEFVAL +#undef DDR_PHY_RDIMMGCR1_TBCMRD_SHIFT +#undef DDR_PHY_RDIMMGCR1_TBCMRD_MASK +#define DDR_PHY_RDIMMGCR1_TBCMRD_DEFVAL 0x00000C80 +#define DDR_PHY_RDIMMGCR1_TBCMRD_SHIFT 16 +#define DDR_PHY_RDIMMGCR1_TBCMRD_MASK 0x00070000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_RDIMMGCR1_RESERVED_15_14_DEFVAL +#undef DDR_PHY_RDIMMGCR1_RESERVED_15_14_SHIFT +#undef DDR_PHY_RDIMMGCR1_RESERVED_15_14_MASK +#define DDR_PHY_RDIMMGCR1_RESERVED_15_14_DEFVAL 0x00000C80 +#define DDR_PHY_RDIMMGCR1_RESERVED_15_14_SHIFT 14 +#define DDR_PHY_RDIMMGCR1_RESERVED_15_14_MASK 0x0000C000U + +/*Stabilization time*/ +#undef DDR_PHY_RDIMMGCR1_TBCSTAB_DEFVAL +#undef DDR_PHY_RDIMMGCR1_TBCSTAB_SHIFT +#undef DDR_PHY_RDIMMGCR1_TBCSTAB_MASK +#define DDR_PHY_RDIMMGCR1_TBCSTAB_DEFVAL 0x00000C80 +#define DDR_PHY_RDIMMGCR1_TBCSTAB_SHIFT 0 +#define DDR_PHY_RDIMMGCR1_TBCSTAB_MASK 0x00003FFFU + +/*DDR4/DDR3 Control Word 7*/ +#undef DDR_PHY_RDIMMCR0_RC7_DEFVAL +#undef DDR_PHY_RDIMMCR0_RC7_SHIFT +#undef DDR_PHY_RDIMMCR0_RC7_MASK +#define DDR_PHY_RDIMMCR0_RC7_DEFVAL 0x00000000 +#define DDR_PHY_RDIMMCR0_RC7_SHIFT 28 +#define DDR_PHY_RDIMMCR0_RC7_MASK 0xF0000000U + +/*DDR4 Control Word 6 (Comman space Control Word) / DDR3 Reserved*/ +#undef DDR_PHY_RDIMMCR0_RC6_DEFVAL +#undef DDR_PHY_RDIMMCR0_RC6_SHIFT +#undef DDR_PHY_RDIMMCR0_RC6_MASK +#define DDR_PHY_RDIMMCR0_RC6_DEFVAL 0x00000000 +#define DDR_PHY_RDIMMCR0_RC6_SHIFT 24 +#define DDR_PHY_RDIMMCR0_RC6_MASK 0x0F000000U + +/*DDR4/DDR3 Control Word 5 (CK Driver Characteristics Control Word)*/ +#undef DDR_PHY_RDIMMCR0_RC5_DEFVAL +#undef DDR_PHY_RDIMMCR0_RC5_SHIFT +#undef DDR_PHY_RDIMMCR0_RC5_MASK +#define DDR_PHY_RDIMMCR0_RC5_DEFVAL 0x00000000 +#define DDR_PHY_RDIMMCR0_RC5_SHIFT 20 +#define DDR_PHY_RDIMMCR0_RC5_MASK 0x00F00000U + +/*DDR4 Control Word 4 (ODT and CKE Signals Driver Characteristics Control Word) / DDR3 Control Word 4 (Control Signals Driver C + aracteristics Control Word)*/ +#undef DDR_PHY_RDIMMCR0_RC4_DEFVAL +#undef DDR_PHY_RDIMMCR0_RC4_SHIFT +#undef DDR_PHY_RDIMMCR0_RC4_MASK +#define DDR_PHY_RDIMMCR0_RC4_DEFVAL 0x00000000 +#define DDR_PHY_RDIMMCR0_RC4_SHIFT 16 +#define DDR_PHY_RDIMMCR0_RC4_MASK 0x000F0000U + +/*DDR4 Control Word 3 (CA and CS Signals Driver Characteristics Control Word) / DDR3 Control Word 3 (Command/Address Signals Dr + ver Characteristrics Control Word)*/ +#undef DDR_PHY_RDIMMCR0_RC3_DEFVAL +#undef DDR_PHY_RDIMMCR0_RC3_SHIFT +#undef DDR_PHY_RDIMMCR0_RC3_MASK +#define DDR_PHY_RDIMMCR0_RC3_DEFVAL 0x00000000 +#define DDR_PHY_RDIMMCR0_RC3_SHIFT 12 +#define DDR_PHY_RDIMMCR0_RC3_MASK 0x0000F000U + +/*DDR4 Control Word 2 (Timing and IBT Control Word) / DDR3 Control Word 2 (Timing Control Word)*/ +#undef DDR_PHY_RDIMMCR0_RC2_DEFVAL +#undef DDR_PHY_RDIMMCR0_RC2_SHIFT +#undef DDR_PHY_RDIMMCR0_RC2_MASK +#define DDR_PHY_RDIMMCR0_RC2_DEFVAL 0x00000000 +#define DDR_PHY_RDIMMCR0_RC2_SHIFT 8 +#define DDR_PHY_RDIMMCR0_RC2_MASK 0x00000F00U + +/*DDR4/DDR3 Control Word 1 (Clock Driver Enable Control Word)*/ +#undef DDR_PHY_RDIMMCR0_RC1_DEFVAL +#undef DDR_PHY_RDIMMCR0_RC1_SHIFT +#undef DDR_PHY_RDIMMCR0_RC1_MASK +#define DDR_PHY_RDIMMCR0_RC1_DEFVAL 0x00000000 +#define DDR_PHY_RDIMMCR0_RC1_SHIFT 4 +#define DDR_PHY_RDIMMCR0_RC1_MASK 0x000000F0U + +/*DDR4/DDR3 Control Word 0 (Global Features Control Word)*/ +#undef DDR_PHY_RDIMMCR0_RC0_DEFVAL +#undef DDR_PHY_RDIMMCR0_RC0_SHIFT +#undef DDR_PHY_RDIMMCR0_RC0_MASK +#define DDR_PHY_RDIMMCR0_RC0_DEFVAL 0x00000000 +#define DDR_PHY_RDIMMCR0_RC0_SHIFT 0 +#define DDR_PHY_RDIMMCR0_RC0_MASK 0x0000000FU + +/*Control Word 15*/ +#undef DDR_PHY_RDIMMCR1_RC15_DEFVAL +#undef DDR_PHY_RDIMMCR1_RC15_SHIFT +#undef DDR_PHY_RDIMMCR1_RC15_MASK +#define DDR_PHY_RDIMMCR1_RC15_DEFVAL 0x00000000 +#define DDR_PHY_RDIMMCR1_RC15_SHIFT 28 +#define DDR_PHY_RDIMMCR1_RC15_MASK 0xF0000000U + +/*DDR4 Control Word 14 (Parity Control Word) / DDR3 Reserved*/ +#undef DDR_PHY_RDIMMCR1_RC14_DEFVAL +#undef DDR_PHY_RDIMMCR1_RC14_SHIFT +#undef DDR_PHY_RDIMMCR1_RC14_MASK +#define DDR_PHY_RDIMMCR1_RC14_DEFVAL 0x00000000 +#define DDR_PHY_RDIMMCR1_RC14_SHIFT 24 +#define DDR_PHY_RDIMMCR1_RC14_MASK 0x0F000000U + +/*DDR4 Control Word 13 (DIMM Configuration Control Word) / DDR3 Reserved*/ +#undef DDR_PHY_RDIMMCR1_RC13_DEFVAL +#undef DDR_PHY_RDIMMCR1_RC13_SHIFT +#undef DDR_PHY_RDIMMCR1_RC13_MASK +#define DDR_PHY_RDIMMCR1_RC13_DEFVAL 0x00000000 +#define DDR_PHY_RDIMMCR1_RC13_SHIFT 20 +#define DDR_PHY_RDIMMCR1_RC13_MASK 0x00F00000U + +/*DDR4 Control Word 12 (Training Control Word) / DDR3 Reserved*/ +#undef DDR_PHY_RDIMMCR1_RC12_DEFVAL +#undef DDR_PHY_RDIMMCR1_RC12_SHIFT +#undef DDR_PHY_RDIMMCR1_RC12_MASK +#define DDR_PHY_RDIMMCR1_RC12_DEFVAL 0x00000000 +#define DDR_PHY_RDIMMCR1_RC12_SHIFT 16 +#define DDR_PHY_RDIMMCR1_RC12_MASK 0x000F0000U + +/*DDR4 Control Word 11 (Operating Voltage VDD and VREFCA Source Control Word) / DDR3 Control Word 11 (Operation Voltage VDD Con + rol Word)*/ +#undef DDR_PHY_RDIMMCR1_RC11_DEFVAL +#undef DDR_PHY_RDIMMCR1_RC11_SHIFT +#undef DDR_PHY_RDIMMCR1_RC11_MASK +#define DDR_PHY_RDIMMCR1_RC11_DEFVAL 0x00000000 +#define DDR_PHY_RDIMMCR1_RC11_SHIFT 12 +#define DDR_PHY_RDIMMCR1_RC11_MASK 0x0000F000U + +/*DDR4/DDR3 Control Word 10 (RDIMM Operating Speed Control Word)*/ +#undef DDR_PHY_RDIMMCR1_RC10_DEFVAL +#undef DDR_PHY_RDIMMCR1_RC10_SHIFT +#undef DDR_PHY_RDIMMCR1_RC10_MASK +#define DDR_PHY_RDIMMCR1_RC10_DEFVAL 0x00000000 +#define DDR_PHY_RDIMMCR1_RC10_SHIFT 8 +#define DDR_PHY_RDIMMCR1_RC10_MASK 0x00000F00U + +/*DDR4/DDR3 Control Word 9 (Power Saving Settings Control Word)*/ +#undef DDR_PHY_RDIMMCR1_RC9_DEFVAL +#undef DDR_PHY_RDIMMCR1_RC9_SHIFT +#undef DDR_PHY_RDIMMCR1_RC9_MASK +#define DDR_PHY_RDIMMCR1_RC9_DEFVAL 0x00000000 +#define DDR_PHY_RDIMMCR1_RC9_SHIFT 4 +#define DDR_PHY_RDIMMCR1_RC9_MASK 0x000000F0U + +/*DDR4 Control Word 8 (Input/Output Configuration Control Word) / DDR3 Control Word 8 (Additional Input Bus Termination Setting + Control Word)*/ +#undef DDR_PHY_RDIMMCR1_RC8_DEFVAL +#undef DDR_PHY_RDIMMCR1_RC8_SHIFT +#undef DDR_PHY_RDIMMCR1_RC8_MASK +#define DDR_PHY_RDIMMCR1_RC8_DEFVAL 0x00000000 +#define DDR_PHY_RDIMMCR1_RC8_SHIFT 0 +#define DDR_PHY_RDIMMCR1_RC8_MASK 0x0000000FU + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_MR0_RESERVED_31_8_DEFVAL +#undef DDR_PHY_MR0_RESERVED_31_8_SHIFT +#undef DDR_PHY_MR0_RESERVED_31_8_MASK +#define DDR_PHY_MR0_RESERVED_31_8_DEFVAL 0x00000052 +#define DDR_PHY_MR0_RESERVED_31_8_SHIFT 8 +#define DDR_PHY_MR0_RESERVED_31_8_MASK 0xFFFFFF00U + +/*CA Terminating Rank*/ +#undef DDR_PHY_MR0_CATR_DEFVAL +#undef DDR_PHY_MR0_CATR_SHIFT +#undef DDR_PHY_MR0_CATR_MASK +#define DDR_PHY_MR0_CATR_DEFVAL 0x00000052 +#define DDR_PHY_MR0_CATR_SHIFT 7 +#define DDR_PHY_MR0_CATR_MASK 0x00000080U + +/*Reserved. These are JEDEC reserved bits and are recommended by JEDEC to be programmed to 0x0.*/ +#undef DDR_PHY_MR0_RSVD_6_5_DEFVAL +#undef DDR_PHY_MR0_RSVD_6_5_SHIFT +#undef DDR_PHY_MR0_RSVD_6_5_MASK +#define DDR_PHY_MR0_RSVD_6_5_DEFVAL 0x00000052 +#define DDR_PHY_MR0_RSVD_6_5_SHIFT 5 +#define DDR_PHY_MR0_RSVD_6_5_MASK 0x00000060U + +/*Built-in Self-Test for RZQ*/ +#undef DDR_PHY_MR0_RZQI_DEFVAL +#undef DDR_PHY_MR0_RZQI_SHIFT +#undef DDR_PHY_MR0_RZQI_MASK +#define DDR_PHY_MR0_RZQI_DEFVAL 0x00000052 +#define DDR_PHY_MR0_RZQI_SHIFT 3 +#define DDR_PHY_MR0_RZQI_MASK 0x00000018U + +/*Reserved. These are JEDEC reserved bits and are recommended by JEDEC to be programmed to 0x0.*/ +#undef DDR_PHY_MR0_RSVD_2_0_DEFVAL +#undef DDR_PHY_MR0_RSVD_2_0_SHIFT +#undef DDR_PHY_MR0_RSVD_2_0_MASK +#define DDR_PHY_MR0_RSVD_2_0_DEFVAL 0x00000052 +#define DDR_PHY_MR0_RSVD_2_0_SHIFT 0 +#define DDR_PHY_MR0_RSVD_2_0_MASK 0x00000007U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_MR1_RESERVED_31_8_DEFVAL +#undef DDR_PHY_MR1_RESERVED_31_8_SHIFT +#undef DDR_PHY_MR1_RESERVED_31_8_MASK +#define DDR_PHY_MR1_RESERVED_31_8_DEFVAL 0x00000004 +#define DDR_PHY_MR1_RESERVED_31_8_SHIFT 8 +#define DDR_PHY_MR1_RESERVED_31_8_MASK 0xFFFFFF00U + +/*Read Postamble Length*/ +#undef DDR_PHY_MR1_RDPST_DEFVAL +#undef DDR_PHY_MR1_RDPST_SHIFT +#undef DDR_PHY_MR1_RDPST_MASK +#define DDR_PHY_MR1_RDPST_DEFVAL 0x00000004 +#define DDR_PHY_MR1_RDPST_SHIFT 7 +#define DDR_PHY_MR1_RDPST_MASK 0x00000080U + +/*Write-recovery for auto-precharge command*/ +#undef DDR_PHY_MR1_NWR_DEFVAL +#undef DDR_PHY_MR1_NWR_SHIFT +#undef DDR_PHY_MR1_NWR_MASK +#define DDR_PHY_MR1_NWR_DEFVAL 0x00000004 +#define DDR_PHY_MR1_NWR_SHIFT 4 +#define DDR_PHY_MR1_NWR_MASK 0x00000070U + +/*Read Preamble Length*/ +#undef DDR_PHY_MR1_RDPRE_DEFVAL +#undef DDR_PHY_MR1_RDPRE_SHIFT +#undef DDR_PHY_MR1_RDPRE_MASK +#define DDR_PHY_MR1_RDPRE_DEFVAL 0x00000004 +#define DDR_PHY_MR1_RDPRE_SHIFT 3 +#define DDR_PHY_MR1_RDPRE_MASK 0x00000008U + +/*Write Preamble Length*/ +#undef DDR_PHY_MR1_WRPRE_DEFVAL +#undef DDR_PHY_MR1_WRPRE_SHIFT +#undef DDR_PHY_MR1_WRPRE_MASK +#define DDR_PHY_MR1_WRPRE_DEFVAL 0x00000004 +#define DDR_PHY_MR1_WRPRE_SHIFT 2 +#define DDR_PHY_MR1_WRPRE_MASK 0x00000004U + +/*Burst Length*/ +#undef DDR_PHY_MR1_BL_DEFVAL +#undef DDR_PHY_MR1_BL_SHIFT +#undef DDR_PHY_MR1_BL_MASK +#define DDR_PHY_MR1_BL_DEFVAL 0x00000004 +#define DDR_PHY_MR1_BL_SHIFT 0 +#define DDR_PHY_MR1_BL_MASK 0x00000003U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_MR2_RESERVED_31_8_DEFVAL +#undef DDR_PHY_MR2_RESERVED_31_8_SHIFT +#undef DDR_PHY_MR2_RESERVED_31_8_MASK +#define DDR_PHY_MR2_RESERVED_31_8_DEFVAL 0x00000000 +#define DDR_PHY_MR2_RESERVED_31_8_SHIFT 8 +#define DDR_PHY_MR2_RESERVED_31_8_MASK 0xFFFFFF00U + +/*Write Leveling*/ +#undef DDR_PHY_MR2_WRL_DEFVAL +#undef DDR_PHY_MR2_WRL_SHIFT +#undef DDR_PHY_MR2_WRL_MASK +#define DDR_PHY_MR2_WRL_DEFVAL 0x00000000 +#define DDR_PHY_MR2_WRL_SHIFT 7 +#define DDR_PHY_MR2_WRL_MASK 0x00000080U + +/*Write Latency Set*/ +#undef DDR_PHY_MR2_WLS_DEFVAL +#undef DDR_PHY_MR2_WLS_SHIFT +#undef DDR_PHY_MR2_WLS_MASK +#define DDR_PHY_MR2_WLS_DEFVAL 0x00000000 +#define DDR_PHY_MR2_WLS_SHIFT 6 +#define DDR_PHY_MR2_WLS_MASK 0x00000040U + +/*Write Latency*/ +#undef DDR_PHY_MR2_WL_DEFVAL +#undef DDR_PHY_MR2_WL_SHIFT +#undef DDR_PHY_MR2_WL_MASK +#define DDR_PHY_MR2_WL_DEFVAL 0x00000000 +#define DDR_PHY_MR2_WL_SHIFT 3 +#define DDR_PHY_MR2_WL_MASK 0x00000038U + +/*Read Latency*/ +#undef DDR_PHY_MR2_RL_DEFVAL +#undef DDR_PHY_MR2_RL_SHIFT +#undef DDR_PHY_MR2_RL_MASK +#define DDR_PHY_MR2_RL_DEFVAL 0x00000000 +#define DDR_PHY_MR2_RL_SHIFT 0 +#define DDR_PHY_MR2_RL_MASK 0x00000007U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_MR3_RESERVED_31_8_DEFVAL +#undef DDR_PHY_MR3_RESERVED_31_8_SHIFT +#undef DDR_PHY_MR3_RESERVED_31_8_MASK +#define DDR_PHY_MR3_RESERVED_31_8_DEFVAL 0x00000031 +#define DDR_PHY_MR3_RESERVED_31_8_SHIFT 8 +#define DDR_PHY_MR3_RESERVED_31_8_MASK 0xFFFFFF00U + +/*DBI-Write Enable*/ +#undef DDR_PHY_MR3_DBIWR_DEFVAL +#undef DDR_PHY_MR3_DBIWR_SHIFT +#undef DDR_PHY_MR3_DBIWR_MASK +#define DDR_PHY_MR3_DBIWR_DEFVAL 0x00000031 +#define DDR_PHY_MR3_DBIWR_SHIFT 7 +#define DDR_PHY_MR3_DBIWR_MASK 0x00000080U + +/*DBI-Read Enable*/ +#undef DDR_PHY_MR3_DBIRD_DEFVAL +#undef DDR_PHY_MR3_DBIRD_SHIFT +#undef DDR_PHY_MR3_DBIRD_MASK +#define DDR_PHY_MR3_DBIRD_DEFVAL 0x00000031 +#define DDR_PHY_MR3_DBIRD_SHIFT 6 +#define DDR_PHY_MR3_DBIRD_MASK 0x00000040U + +/*Pull-down Drive Strength*/ +#undef DDR_PHY_MR3_PDDS_DEFVAL +#undef DDR_PHY_MR3_PDDS_SHIFT +#undef DDR_PHY_MR3_PDDS_MASK +#define DDR_PHY_MR3_PDDS_DEFVAL 0x00000031 +#define DDR_PHY_MR3_PDDS_SHIFT 3 +#define DDR_PHY_MR3_PDDS_MASK 0x00000038U + +/*These are JEDEC reserved bits and are recommended by JEDEC to be programmed to 0x0.*/ +#undef DDR_PHY_MR3_RSVD_DEFVAL +#undef DDR_PHY_MR3_RSVD_SHIFT +#undef DDR_PHY_MR3_RSVD_MASK +#define DDR_PHY_MR3_RSVD_DEFVAL 0x00000031 +#define DDR_PHY_MR3_RSVD_SHIFT 2 +#define DDR_PHY_MR3_RSVD_MASK 0x00000004U + +/*Write Postamble Length*/ +#undef DDR_PHY_MR3_WRPST_DEFVAL +#undef DDR_PHY_MR3_WRPST_SHIFT +#undef DDR_PHY_MR3_WRPST_MASK +#define DDR_PHY_MR3_WRPST_DEFVAL 0x00000031 +#define DDR_PHY_MR3_WRPST_SHIFT 1 +#define DDR_PHY_MR3_WRPST_MASK 0x00000002U + +/*Pull-up Calibration Point*/ +#undef DDR_PHY_MR3_PUCAL_DEFVAL +#undef DDR_PHY_MR3_PUCAL_SHIFT +#undef DDR_PHY_MR3_PUCAL_MASK +#define DDR_PHY_MR3_PUCAL_DEFVAL 0x00000031 +#define DDR_PHY_MR3_PUCAL_SHIFT 0 +#define DDR_PHY_MR3_PUCAL_MASK 0x00000001U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_MR4_RESERVED_31_16_DEFVAL +#undef DDR_PHY_MR4_RESERVED_31_16_SHIFT +#undef DDR_PHY_MR4_RESERVED_31_16_MASK +#define DDR_PHY_MR4_RESERVED_31_16_DEFVAL 0x00000000 +#define DDR_PHY_MR4_RESERVED_31_16_SHIFT 16 +#define DDR_PHY_MR4_RESERVED_31_16_MASK 0xFFFF0000U + +/*These are JEDEC reserved bits and are recommended by JEDEC to be programmed to 0x0.*/ +#undef DDR_PHY_MR4_RSVD_15_13_DEFVAL +#undef DDR_PHY_MR4_RSVD_15_13_SHIFT +#undef DDR_PHY_MR4_RSVD_15_13_MASK +#define DDR_PHY_MR4_RSVD_15_13_DEFVAL 0x00000000 +#define DDR_PHY_MR4_RSVD_15_13_SHIFT 13 +#define DDR_PHY_MR4_RSVD_15_13_MASK 0x0000E000U + +/*Write Preamble*/ +#undef DDR_PHY_MR4_WRP_DEFVAL +#undef DDR_PHY_MR4_WRP_SHIFT +#undef DDR_PHY_MR4_WRP_MASK +#define DDR_PHY_MR4_WRP_DEFVAL 0x00000000 +#define DDR_PHY_MR4_WRP_SHIFT 12 +#define DDR_PHY_MR4_WRP_MASK 0x00001000U + +/*Read Preamble*/ +#undef DDR_PHY_MR4_RDP_DEFVAL +#undef DDR_PHY_MR4_RDP_SHIFT +#undef DDR_PHY_MR4_RDP_MASK +#define DDR_PHY_MR4_RDP_DEFVAL 0x00000000 +#define DDR_PHY_MR4_RDP_SHIFT 11 +#define DDR_PHY_MR4_RDP_MASK 0x00000800U + +/*Read Preamble Training Mode*/ +#undef DDR_PHY_MR4_RPTM_DEFVAL +#undef DDR_PHY_MR4_RPTM_SHIFT +#undef DDR_PHY_MR4_RPTM_MASK +#define DDR_PHY_MR4_RPTM_DEFVAL 0x00000000 +#define DDR_PHY_MR4_RPTM_SHIFT 10 +#define DDR_PHY_MR4_RPTM_MASK 0x00000400U + +/*Self Refresh Abort*/ +#undef DDR_PHY_MR4_SRA_DEFVAL +#undef DDR_PHY_MR4_SRA_SHIFT +#undef DDR_PHY_MR4_SRA_MASK +#define DDR_PHY_MR4_SRA_DEFVAL 0x00000000 +#define DDR_PHY_MR4_SRA_SHIFT 9 +#define DDR_PHY_MR4_SRA_MASK 0x00000200U + +/*CS to Command Latency Mode*/ +#undef DDR_PHY_MR4_CS2CMDL_DEFVAL +#undef DDR_PHY_MR4_CS2CMDL_SHIFT +#undef DDR_PHY_MR4_CS2CMDL_MASK +#define DDR_PHY_MR4_CS2CMDL_DEFVAL 0x00000000 +#define DDR_PHY_MR4_CS2CMDL_SHIFT 6 +#define DDR_PHY_MR4_CS2CMDL_MASK 0x000001C0U + +/*These are JEDEC reserved bits and are recommended by JEDEC to be programmed to 0x0.*/ +#undef DDR_PHY_MR4_RSVD1_DEFVAL +#undef DDR_PHY_MR4_RSVD1_SHIFT +#undef DDR_PHY_MR4_RSVD1_MASK +#define DDR_PHY_MR4_RSVD1_DEFVAL 0x00000000 +#define DDR_PHY_MR4_RSVD1_SHIFT 5 +#define DDR_PHY_MR4_RSVD1_MASK 0x00000020U + +/*Internal VREF Monitor*/ +#undef DDR_PHY_MR4_IVM_DEFVAL +#undef DDR_PHY_MR4_IVM_SHIFT +#undef DDR_PHY_MR4_IVM_MASK +#define DDR_PHY_MR4_IVM_DEFVAL 0x00000000 +#define DDR_PHY_MR4_IVM_SHIFT 4 +#define DDR_PHY_MR4_IVM_MASK 0x00000010U + +/*Temperature Controlled Refresh Mode*/ +#undef DDR_PHY_MR4_TCRM_DEFVAL +#undef DDR_PHY_MR4_TCRM_SHIFT +#undef DDR_PHY_MR4_TCRM_MASK +#define DDR_PHY_MR4_TCRM_DEFVAL 0x00000000 +#define DDR_PHY_MR4_TCRM_SHIFT 3 +#define DDR_PHY_MR4_TCRM_MASK 0x00000008U + +/*Temperature Controlled Refresh Range*/ +#undef DDR_PHY_MR4_TCRR_DEFVAL +#undef DDR_PHY_MR4_TCRR_SHIFT +#undef DDR_PHY_MR4_TCRR_MASK +#define DDR_PHY_MR4_TCRR_DEFVAL 0x00000000 +#define DDR_PHY_MR4_TCRR_SHIFT 2 +#define DDR_PHY_MR4_TCRR_MASK 0x00000004U + +/*Maximum Power Down Mode*/ +#undef DDR_PHY_MR4_MPDM_DEFVAL +#undef DDR_PHY_MR4_MPDM_SHIFT +#undef DDR_PHY_MR4_MPDM_MASK +#define DDR_PHY_MR4_MPDM_DEFVAL 0x00000000 +#define DDR_PHY_MR4_MPDM_SHIFT 1 +#define DDR_PHY_MR4_MPDM_MASK 0x00000002U + +/*This is a JEDEC reserved bit and is recommended by JEDEC to be programmed to 0x0.*/ +#undef DDR_PHY_MR4_RSVD_0_DEFVAL +#undef DDR_PHY_MR4_RSVD_0_SHIFT +#undef DDR_PHY_MR4_RSVD_0_MASK +#define DDR_PHY_MR4_RSVD_0_DEFVAL 0x00000000 +#define DDR_PHY_MR4_RSVD_0_SHIFT 0 +#define DDR_PHY_MR4_RSVD_0_MASK 0x00000001U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_MR5_RESERVED_31_16_DEFVAL +#undef DDR_PHY_MR5_RESERVED_31_16_SHIFT +#undef DDR_PHY_MR5_RESERVED_31_16_MASK +#define DDR_PHY_MR5_RESERVED_31_16_DEFVAL 0x00000000 +#define DDR_PHY_MR5_RESERVED_31_16_SHIFT 16 +#define DDR_PHY_MR5_RESERVED_31_16_MASK 0xFFFF0000U + +/*These are JEDEC reserved bits and are recommended by JEDEC to be programmed to 0x0.*/ +#undef DDR_PHY_MR5_RSVD_DEFVAL +#undef DDR_PHY_MR5_RSVD_SHIFT +#undef DDR_PHY_MR5_RSVD_MASK +#define DDR_PHY_MR5_RSVD_DEFVAL 0x00000000 +#define DDR_PHY_MR5_RSVD_SHIFT 13 +#define DDR_PHY_MR5_RSVD_MASK 0x0000E000U + +/*Read DBI*/ +#undef DDR_PHY_MR5_RDBI_DEFVAL +#undef DDR_PHY_MR5_RDBI_SHIFT +#undef DDR_PHY_MR5_RDBI_MASK +#define DDR_PHY_MR5_RDBI_DEFVAL 0x00000000 +#define DDR_PHY_MR5_RDBI_SHIFT 12 +#define DDR_PHY_MR5_RDBI_MASK 0x00001000U + +/*Write DBI*/ +#undef DDR_PHY_MR5_WDBI_DEFVAL +#undef DDR_PHY_MR5_WDBI_SHIFT +#undef DDR_PHY_MR5_WDBI_MASK +#define DDR_PHY_MR5_WDBI_DEFVAL 0x00000000 +#define DDR_PHY_MR5_WDBI_SHIFT 11 +#define DDR_PHY_MR5_WDBI_MASK 0x00000800U + +/*Data Mask*/ +#undef DDR_PHY_MR5_DM_DEFVAL +#undef DDR_PHY_MR5_DM_SHIFT +#undef DDR_PHY_MR5_DM_MASK +#define DDR_PHY_MR5_DM_DEFVAL 0x00000000 +#define DDR_PHY_MR5_DM_SHIFT 10 +#define DDR_PHY_MR5_DM_MASK 0x00000400U + +/*CA Parity Persistent Error*/ +#undef DDR_PHY_MR5_CAPPE_DEFVAL +#undef DDR_PHY_MR5_CAPPE_SHIFT +#undef DDR_PHY_MR5_CAPPE_MASK +#define DDR_PHY_MR5_CAPPE_DEFVAL 0x00000000 +#define DDR_PHY_MR5_CAPPE_SHIFT 9 +#define DDR_PHY_MR5_CAPPE_MASK 0x00000200U + +/*RTT_PARK*/ +#undef DDR_PHY_MR5_RTTPARK_DEFVAL +#undef DDR_PHY_MR5_RTTPARK_SHIFT +#undef DDR_PHY_MR5_RTTPARK_MASK +#define DDR_PHY_MR5_RTTPARK_DEFVAL 0x00000000 +#define DDR_PHY_MR5_RTTPARK_SHIFT 6 +#define DDR_PHY_MR5_RTTPARK_MASK 0x000001C0U + +/*ODT Input Buffer during Power Down mode*/ +#undef DDR_PHY_MR5_ODTIBPD_DEFVAL +#undef DDR_PHY_MR5_ODTIBPD_SHIFT +#undef DDR_PHY_MR5_ODTIBPD_MASK +#define DDR_PHY_MR5_ODTIBPD_DEFVAL 0x00000000 +#define DDR_PHY_MR5_ODTIBPD_SHIFT 5 +#define DDR_PHY_MR5_ODTIBPD_MASK 0x00000020U + +/*C/A Parity Error Status*/ +#undef DDR_PHY_MR5_CAPES_DEFVAL +#undef DDR_PHY_MR5_CAPES_SHIFT +#undef DDR_PHY_MR5_CAPES_MASK +#define DDR_PHY_MR5_CAPES_DEFVAL 0x00000000 +#define DDR_PHY_MR5_CAPES_SHIFT 4 +#define DDR_PHY_MR5_CAPES_MASK 0x00000010U + +/*CRC Error Clear*/ +#undef DDR_PHY_MR5_CRCEC_DEFVAL +#undef DDR_PHY_MR5_CRCEC_SHIFT +#undef DDR_PHY_MR5_CRCEC_MASK +#define DDR_PHY_MR5_CRCEC_DEFVAL 0x00000000 +#define DDR_PHY_MR5_CRCEC_SHIFT 3 +#define DDR_PHY_MR5_CRCEC_MASK 0x00000008U + +/*C/A Parity Latency Mode*/ +#undef DDR_PHY_MR5_CAPM_DEFVAL +#undef DDR_PHY_MR5_CAPM_SHIFT +#undef DDR_PHY_MR5_CAPM_MASK +#define DDR_PHY_MR5_CAPM_DEFVAL 0x00000000 +#define DDR_PHY_MR5_CAPM_SHIFT 0 +#define DDR_PHY_MR5_CAPM_MASK 0x00000007U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_MR6_RESERVED_31_16_DEFVAL +#undef DDR_PHY_MR6_RESERVED_31_16_SHIFT +#undef DDR_PHY_MR6_RESERVED_31_16_MASK +#define DDR_PHY_MR6_RESERVED_31_16_DEFVAL 0x00000000 +#define DDR_PHY_MR6_RESERVED_31_16_SHIFT 16 +#define DDR_PHY_MR6_RESERVED_31_16_MASK 0xFFFF0000U + +/*These are JEDEC reserved bits and are recommended by JEDEC to be programmed to 0x0.*/ +#undef DDR_PHY_MR6_RSVD_15_13_DEFVAL +#undef DDR_PHY_MR6_RSVD_15_13_SHIFT +#undef DDR_PHY_MR6_RSVD_15_13_MASK +#define DDR_PHY_MR6_RSVD_15_13_DEFVAL 0x00000000 +#define DDR_PHY_MR6_RSVD_15_13_SHIFT 13 +#define DDR_PHY_MR6_RSVD_15_13_MASK 0x0000E000U + +/*CAS_n to CAS_n command delay for same bank group (tCCD_L)*/ +#undef DDR_PHY_MR6_TCCDL_DEFVAL +#undef DDR_PHY_MR6_TCCDL_SHIFT +#undef DDR_PHY_MR6_TCCDL_MASK +#define DDR_PHY_MR6_TCCDL_DEFVAL 0x00000000 +#define DDR_PHY_MR6_TCCDL_SHIFT 10 +#define DDR_PHY_MR6_TCCDL_MASK 0x00001C00U + +/*These are JEDEC reserved bits and are recommended by JEDEC to be programmed to 0x0.*/ +#undef DDR_PHY_MR6_RSVD_9_8_DEFVAL +#undef DDR_PHY_MR6_RSVD_9_8_SHIFT +#undef DDR_PHY_MR6_RSVD_9_8_MASK +#define DDR_PHY_MR6_RSVD_9_8_DEFVAL 0x00000000 +#define DDR_PHY_MR6_RSVD_9_8_SHIFT 8 +#define DDR_PHY_MR6_RSVD_9_8_MASK 0x00000300U + +/*VrefDQ Training Enable*/ +#undef DDR_PHY_MR6_VDDQTEN_DEFVAL +#undef DDR_PHY_MR6_VDDQTEN_SHIFT +#undef DDR_PHY_MR6_VDDQTEN_MASK +#define DDR_PHY_MR6_VDDQTEN_DEFVAL 0x00000000 +#define DDR_PHY_MR6_VDDQTEN_SHIFT 7 +#define DDR_PHY_MR6_VDDQTEN_MASK 0x00000080U + +/*VrefDQ Training Range*/ +#undef DDR_PHY_MR6_VDQTRG_DEFVAL +#undef DDR_PHY_MR6_VDQTRG_SHIFT +#undef DDR_PHY_MR6_VDQTRG_MASK +#define DDR_PHY_MR6_VDQTRG_DEFVAL 0x00000000 +#define DDR_PHY_MR6_VDQTRG_SHIFT 6 +#define DDR_PHY_MR6_VDQTRG_MASK 0x00000040U + +/*VrefDQ Training Values*/ +#undef DDR_PHY_MR6_VDQTVAL_DEFVAL +#undef DDR_PHY_MR6_VDQTVAL_SHIFT +#undef DDR_PHY_MR6_VDQTVAL_MASK +#define DDR_PHY_MR6_VDQTVAL_DEFVAL 0x00000000 +#define DDR_PHY_MR6_VDQTVAL_SHIFT 0 +#define DDR_PHY_MR6_VDQTVAL_MASK 0x0000003FU + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_MR11_RESERVED_31_8_DEFVAL +#undef DDR_PHY_MR11_RESERVED_31_8_SHIFT +#undef DDR_PHY_MR11_RESERVED_31_8_MASK +#define DDR_PHY_MR11_RESERVED_31_8_DEFVAL 0x00000000 +#define DDR_PHY_MR11_RESERVED_31_8_SHIFT 8 +#define DDR_PHY_MR11_RESERVED_31_8_MASK 0xFFFFFF00U + +/*These are JEDEC reserved bits and are recommended by JEDEC to be programmed to 0x0.*/ +#undef DDR_PHY_MR11_RSVD_DEFVAL +#undef DDR_PHY_MR11_RSVD_SHIFT +#undef DDR_PHY_MR11_RSVD_MASK +#define DDR_PHY_MR11_RSVD_DEFVAL 0x00000000 +#define DDR_PHY_MR11_RSVD_SHIFT 3 +#define DDR_PHY_MR11_RSVD_MASK 0x000000F8U + +/*Power Down Control*/ +#undef DDR_PHY_MR11_PDCTL_DEFVAL +#undef DDR_PHY_MR11_PDCTL_SHIFT +#undef DDR_PHY_MR11_PDCTL_MASK +#define DDR_PHY_MR11_PDCTL_DEFVAL 0x00000000 +#define DDR_PHY_MR11_PDCTL_SHIFT 2 +#define DDR_PHY_MR11_PDCTL_MASK 0x00000004U + +/*DQ Bus Receiver On-Die-Termination*/ +#undef DDR_PHY_MR11_DQODT_DEFVAL +#undef DDR_PHY_MR11_DQODT_SHIFT +#undef DDR_PHY_MR11_DQODT_MASK +#define DDR_PHY_MR11_DQODT_DEFVAL 0x00000000 +#define DDR_PHY_MR11_DQODT_SHIFT 0 +#define DDR_PHY_MR11_DQODT_MASK 0x00000003U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_MR12_RESERVED_31_8_DEFVAL +#undef DDR_PHY_MR12_RESERVED_31_8_SHIFT +#undef DDR_PHY_MR12_RESERVED_31_8_MASK +#define DDR_PHY_MR12_RESERVED_31_8_DEFVAL 0x0000004D +#define DDR_PHY_MR12_RESERVED_31_8_SHIFT 8 +#define DDR_PHY_MR12_RESERVED_31_8_MASK 0xFFFFFF00U + +/*These are JEDEC reserved bits and are recommended by JEDEC to be programmed to 0x0.*/ +#undef DDR_PHY_MR12_RSVD_DEFVAL +#undef DDR_PHY_MR12_RSVD_SHIFT +#undef DDR_PHY_MR12_RSVD_MASK +#define DDR_PHY_MR12_RSVD_DEFVAL 0x0000004D +#define DDR_PHY_MR12_RSVD_SHIFT 7 +#define DDR_PHY_MR12_RSVD_MASK 0x00000080U + +/*VREF_CA Range Select.*/ +#undef DDR_PHY_MR12_VR_CA_DEFVAL +#undef DDR_PHY_MR12_VR_CA_SHIFT +#undef DDR_PHY_MR12_VR_CA_MASK +#define DDR_PHY_MR12_VR_CA_DEFVAL 0x0000004D +#define DDR_PHY_MR12_VR_CA_SHIFT 6 +#define DDR_PHY_MR12_VR_CA_MASK 0x00000040U + +/*Controls the VREF(ca) levels for Frequency-Set-Point[1:0].*/ +#undef DDR_PHY_MR12_VREF_CA_DEFVAL +#undef DDR_PHY_MR12_VREF_CA_SHIFT +#undef DDR_PHY_MR12_VREF_CA_MASK +#define DDR_PHY_MR12_VREF_CA_DEFVAL 0x0000004D +#define DDR_PHY_MR12_VREF_CA_SHIFT 0 +#define DDR_PHY_MR12_VREF_CA_MASK 0x0000003FU + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_MR13_RESERVED_31_8_DEFVAL +#undef DDR_PHY_MR13_RESERVED_31_8_SHIFT +#undef DDR_PHY_MR13_RESERVED_31_8_MASK +#define DDR_PHY_MR13_RESERVED_31_8_DEFVAL 0x00000000 +#define DDR_PHY_MR13_RESERVED_31_8_SHIFT 8 +#define DDR_PHY_MR13_RESERVED_31_8_MASK 0xFFFFFF00U + +/*Frequency Set Point Operation Mode*/ +#undef DDR_PHY_MR13_FSPOP_DEFVAL +#undef DDR_PHY_MR13_FSPOP_SHIFT +#undef DDR_PHY_MR13_FSPOP_MASK +#define DDR_PHY_MR13_FSPOP_DEFVAL 0x00000000 +#define DDR_PHY_MR13_FSPOP_SHIFT 7 +#define DDR_PHY_MR13_FSPOP_MASK 0x00000080U + +/*Frequency Set Point Write Enable*/ +#undef DDR_PHY_MR13_FSPWR_DEFVAL +#undef DDR_PHY_MR13_FSPWR_SHIFT +#undef DDR_PHY_MR13_FSPWR_MASK +#define DDR_PHY_MR13_FSPWR_DEFVAL 0x00000000 +#define DDR_PHY_MR13_FSPWR_SHIFT 6 +#define DDR_PHY_MR13_FSPWR_MASK 0x00000040U + +/*Data Mask Enable*/ +#undef DDR_PHY_MR13_DMD_DEFVAL +#undef DDR_PHY_MR13_DMD_SHIFT +#undef DDR_PHY_MR13_DMD_MASK +#define DDR_PHY_MR13_DMD_DEFVAL 0x00000000 +#define DDR_PHY_MR13_DMD_SHIFT 5 +#define DDR_PHY_MR13_DMD_MASK 0x00000020U + +/*Refresh Rate Option*/ +#undef DDR_PHY_MR13_RRO_DEFVAL +#undef DDR_PHY_MR13_RRO_SHIFT +#undef DDR_PHY_MR13_RRO_MASK +#define DDR_PHY_MR13_RRO_DEFVAL 0x00000000 +#define DDR_PHY_MR13_RRO_SHIFT 4 +#define DDR_PHY_MR13_RRO_MASK 0x00000010U + +/*VREF Current Generator*/ +#undef DDR_PHY_MR13_VRCG_DEFVAL +#undef DDR_PHY_MR13_VRCG_SHIFT +#undef DDR_PHY_MR13_VRCG_MASK +#define DDR_PHY_MR13_VRCG_DEFVAL 0x00000000 +#define DDR_PHY_MR13_VRCG_SHIFT 3 +#define DDR_PHY_MR13_VRCG_MASK 0x00000008U + +/*VREF Output*/ +#undef DDR_PHY_MR13_VRO_DEFVAL +#undef DDR_PHY_MR13_VRO_SHIFT +#undef DDR_PHY_MR13_VRO_MASK +#define DDR_PHY_MR13_VRO_DEFVAL 0x00000000 +#define DDR_PHY_MR13_VRO_SHIFT 2 +#define DDR_PHY_MR13_VRO_MASK 0x00000004U + +/*Read Preamble Training Mode*/ +#undef DDR_PHY_MR13_RPT_DEFVAL +#undef DDR_PHY_MR13_RPT_SHIFT +#undef DDR_PHY_MR13_RPT_MASK +#define DDR_PHY_MR13_RPT_DEFVAL 0x00000000 +#define DDR_PHY_MR13_RPT_SHIFT 1 +#define DDR_PHY_MR13_RPT_MASK 0x00000002U + +/*Command Bus Training*/ +#undef DDR_PHY_MR13_CBT_DEFVAL +#undef DDR_PHY_MR13_CBT_SHIFT +#undef DDR_PHY_MR13_CBT_MASK +#define DDR_PHY_MR13_CBT_DEFVAL 0x00000000 +#define DDR_PHY_MR13_CBT_SHIFT 0 +#define DDR_PHY_MR13_CBT_MASK 0x00000001U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_MR14_RESERVED_31_8_DEFVAL +#undef DDR_PHY_MR14_RESERVED_31_8_SHIFT +#undef DDR_PHY_MR14_RESERVED_31_8_MASK +#define DDR_PHY_MR14_RESERVED_31_8_DEFVAL 0x0000004D +#define DDR_PHY_MR14_RESERVED_31_8_SHIFT 8 +#define DDR_PHY_MR14_RESERVED_31_8_MASK 0xFFFFFF00U + +/*These are JEDEC reserved bits and are recommended by JEDEC to be programmed to 0x0.*/ +#undef DDR_PHY_MR14_RSVD_DEFVAL +#undef DDR_PHY_MR14_RSVD_SHIFT +#undef DDR_PHY_MR14_RSVD_MASK +#define DDR_PHY_MR14_RSVD_DEFVAL 0x0000004D +#define DDR_PHY_MR14_RSVD_SHIFT 7 +#define DDR_PHY_MR14_RSVD_MASK 0x00000080U + +/*VREFDQ Range Selects.*/ +#undef DDR_PHY_MR14_VR_DQ_DEFVAL +#undef DDR_PHY_MR14_VR_DQ_SHIFT +#undef DDR_PHY_MR14_VR_DQ_MASK +#define DDR_PHY_MR14_VR_DQ_DEFVAL 0x0000004D +#define DDR_PHY_MR14_VR_DQ_SHIFT 6 +#define DDR_PHY_MR14_VR_DQ_MASK 0x00000040U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_MR14_VREF_DQ_DEFVAL +#undef DDR_PHY_MR14_VREF_DQ_SHIFT +#undef DDR_PHY_MR14_VREF_DQ_MASK +#define DDR_PHY_MR14_VREF_DQ_DEFVAL 0x0000004D +#define DDR_PHY_MR14_VREF_DQ_SHIFT 0 +#define DDR_PHY_MR14_VREF_DQ_MASK 0x0000003FU + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_MR22_RESERVED_31_8_DEFVAL +#undef DDR_PHY_MR22_RESERVED_31_8_SHIFT +#undef DDR_PHY_MR22_RESERVED_31_8_MASK +#define DDR_PHY_MR22_RESERVED_31_8_DEFVAL 0x00000000 +#define DDR_PHY_MR22_RESERVED_31_8_SHIFT 8 +#define DDR_PHY_MR22_RESERVED_31_8_MASK 0xFFFFFF00U + +/*These are JEDEC reserved bits and are recommended by JEDEC to be programmed to 0x0.*/ +#undef DDR_PHY_MR22_RSVD_DEFVAL +#undef DDR_PHY_MR22_RSVD_SHIFT +#undef DDR_PHY_MR22_RSVD_MASK +#define DDR_PHY_MR22_RSVD_DEFVAL 0x00000000 +#define DDR_PHY_MR22_RSVD_SHIFT 6 +#define DDR_PHY_MR22_RSVD_MASK 0x000000C0U + +/*CA ODT termination disable.*/ +#undef DDR_PHY_MR22_ODTD_CA_DEFVAL +#undef DDR_PHY_MR22_ODTD_CA_SHIFT +#undef DDR_PHY_MR22_ODTD_CA_MASK +#define DDR_PHY_MR22_ODTD_CA_DEFVAL 0x00000000 +#define DDR_PHY_MR22_ODTD_CA_SHIFT 5 +#define DDR_PHY_MR22_ODTD_CA_MASK 0x00000020U + +/*ODT CS override.*/ +#undef DDR_PHY_MR22_ODTE_CS_DEFVAL +#undef DDR_PHY_MR22_ODTE_CS_SHIFT +#undef DDR_PHY_MR22_ODTE_CS_MASK +#define DDR_PHY_MR22_ODTE_CS_DEFVAL 0x00000000 +#define DDR_PHY_MR22_ODTE_CS_SHIFT 4 +#define DDR_PHY_MR22_ODTE_CS_MASK 0x00000010U + +/*ODT CK override.*/ +#undef DDR_PHY_MR22_ODTE_CK_DEFVAL +#undef DDR_PHY_MR22_ODTE_CK_SHIFT +#undef DDR_PHY_MR22_ODTE_CK_MASK +#define DDR_PHY_MR22_ODTE_CK_DEFVAL 0x00000000 +#define DDR_PHY_MR22_ODTE_CK_SHIFT 3 +#define DDR_PHY_MR22_ODTE_CK_MASK 0x00000008U + +/*Controller ODT value for VOH calibration.*/ +#undef DDR_PHY_MR22_CODT_DEFVAL +#undef DDR_PHY_MR22_CODT_SHIFT +#undef DDR_PHY_MR22_CODT_MASK +#define DDR_PHY_MR22_CODT_DEFVAL 0x00000000 +#define DDR_PHY_MR22_CODT_SHIFT 0 +#define DDR_PHY_MR22_CODT_MASK 0x00000007U + +/*Refresh During Training*/ +#undef DDR_PHY_DTCR0_RFSHDT_DEFVAL +#undef DDR_PHY_DTCR0_RFSHDT_SHIFT +#undef DDR_PHY_DTCR0_RFSHDT_MASK +#define DDR_PHY_DTCR0_RFSHDT_DEFVAL 0x800091C7 +#define DDR_PHY_DTCR0_RFSHDT_SHIFT 28 +#define DDR_PHY_DTCR0_RFSHDT_MASK 0xF0000000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DTCR0_RESERVED_27_26_DEFVAL +#undef DDR_PHY_DTCR0_RESERVED_27_26_SHIFT +#undef DDR_PHY_DTCR0_RESERVED_27_26_MASK +#define DDR_PHY_DTCR0_RESERVED_27_26_DEFVAL 0x800091C7 +#define DDR_PHY_DTCR0_RESERVED_27_26_SHIFT 26 +#define DDR_PHY_DTCR0_RESERVED_27_26_MASK 0x0C000000U + +/*Data Training Debug Rank Select*/ +#undef DDR_PHY_DTCR0_DTDRS_DEFVAL +#undef DDR_PHY_DTCR0_DTDRS_SHIFT +#undef DDR_PHY_DTCR0_DTDRS_MASK +#define DDR_PHY_DTCR0_DTDRS_DEFVAL 0x800091C7 +#define DDR_PHY_DTCR0_DTDRS_SHIFT 24 +#define DDR_PHY_DTCR0_DTDRS_MASK 0x03000000U + +/*Data Training with Early/Extended Gate*/ +#undef DDR_PHY_DTCR0_DTEXG_DEFVAL +#undef DDR_PHY_DTCR0_DTEXG_SHIFT +#undef DDR_PHY_DTCR0_DTEXG_MASK +#define DDR_PHY_DTCR0_DTEXG_DEFVAL 0x800091C7 +#define DDR_PHY_DTCR0_DTEXG_SHIFT 23 +#define DDR_PHY_DTCR0_DTEXG_MASK 0x00800000U + +/*Data Training Extended Write DQS*/ +#undef DDR_PHY_DTCR0_DTEXD_DEFVAL +#undef DDR_PHY_DTCR0_DTEXD_SHIFT +#undef DDR_PHY_DTCR0_DTEXD_MASK +#define DDR_PHY_DTCR0_DTEXD_DEFVAL 0x800091C7 +#define DDR_PHY_DTCR0_DTEXD_SHIFT 22 +#define DDR_PHY_DTCR0_DTEXD_MASK 0x00400000U + +/*Data Training Debug Step*/ +#undef DDR_PHY_DTCR0_DTDSTP_DEFVAL +#undef DDR_PHY_DTCR0_DTDSTP_SHIFT +#undef DDR_PHY_DTCR0_DTDSTP_MASK +#define DDR_PHY_DTCR0_DTDSTP_DEFVAL 0x800091C7 +#define DDR_PHY_DTCR0_DTDSTP_SHIFT 21 +#define DDR_PHY_DTCR0_DTDSTP_MASK 0x00200000U + +/*Data Training Debug Enable*/ +#undef DDR_PHY_DTCR0_DTDEN_DEFVAL +#undef DDR_PHY_DTCR0_DTDEN_SHIFT +#undef DDR_PHY_DTCR0_DTDEN_MASK +#define DDR_PHY_DTCR0_DTDEN_DEFVAL 0x800091C7 +#define DDR_PHY_DTCR0_DTDEN_SHIFT 20 +#define DDR_PHY_DTCR0_DTDEN_MASK 0x00100000U + +/*Data Training Debug Byte Select*/ +#undef DDR_PHY_DTCR0_DTDBS_DEFVAL +#undef DDR_PHY_DTCR0_DTDBS_SHIFT +#undef DDR_PHY_DTCR0_DTDBS_MASK +#define DDR_PHY_DTCR0_DTDBS_DEFVAL 0x800091C7 +#define DDR_PHY_DTCR0_DTDBS_SHIFT 16 +#define DDR_PHY_DTCR0_DTDBS_MASK 0x000F0000U + +/*Data Training read DBI deskewing configuration*/ +#undef DDR_PHY_DTCR0_DTRDBITR_DEFVAL +#undef DDR_PHY_DTCR0_DTRDBITR_SHIFT +#undef DDR_PHY_DTCR0_DTRDBITR_MASK +#define DDR_PHY_DTCR0_DTRDBITR_DEFVAL 0x800091C7 +#define DDR_PHY_DTCR0_DTRDBITR_SHIFT 14 +#define DDR_PHY_DTCR0_DTRDBITR_MASK 0x0000C000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DTCR0_RESERVED_13_DEFVAL +#undef DDR_PHY_DTCR0_RESERVED_13_SHIFT +#undef DDR_PHY_DTCR0_RESERVED_13_MASK +#define DDR_PHY_DTCR0_RESERVED_13_DEFVAL 0x800091C7 +#define DDR_PHY_DTCR0_RESERVED_13_SHIFT 13 +#define DDR_PHY_DTCR0_RESERVED_13_MASK 0x00002000U + +/*Data Training Write Bit Deskew Data Mask*/ +#undef DDR_PHY_DTCR0_DTWBDDM_DEFVAL +#undef DDR_PHY_DTCR0_DTWBDDM_SHIFT +#undef DDR_PHY_DTCR0_DTWBDDM_MASK +#define DDR_PHY_DTCR0_DTWBDDM_DEFVAL 0x800091C7 +#define DDR_PHY_DTCR0_DTWBDDM_SHIFT 12 +#define DDR_PHY_DTCR0_DTWBDDM_MASK 0x00001000U + +/*Refreshes Issued During Entry to Training*/ +#undef DDR_PHY_DTCR0_RFSHEN_DEFVAL +#undef DDR_PHY_DTCR0_RFSHEN_SHIFT +#undef DDR_PHY_DTCR0_RFSHEN_MASK +#define DDR_PHY_DTCR0_RFSHEN_DEFVAL 0x800091C7 +#define DDR_PHY_DTCR0_RFSHEN_SHIFT 8 +#define DDR_PHY_DTCR0_RFSHEN_MASK 0x00000F00U + +/*Data Training Compare Data*/ +#undef DDR_PHY_DTCR0_DTCMPD_DEFVAL +#undef DDR_PHY_DTCR0_DTCMPD_SHIFT +#undef DDR_PHY_DTCR0_DTCMPD_MASK +#define DDR_PHY_DTCR0_DTCMPD_DEFVAL 0x800091C7 +#define DDR_PHY_DTCR0_DTCMPD_SHIFT 7 +#define DDR_PHY_DTCR0_DTCMPD_MASK 0x00000080U + +/*Data Training Using MPR*/ +#undef DDR_PHY_DTCR0_DTMPR_DEFVAL +#undef DDR_PHY_DTCR0_DTMPR_SHIFT +#undef DDR_PHY_DTCR0_DTMPR_MASK +#define DDR_PHY_DTCR0_DTMPR_DEFVAL 0x800091C7 +#define DDR_PHY_DTCR0_DTMPR_SHIFT 6 +#define DDR_PHY_DTCR0_DTMPR_MASK 0x00000040U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DTCR0_RESERVED_5_4_DEFVAL +#undef DDR_PHY_DTCR0_RESERVED_5_4_SHIFT +#undef DDR_PHY_DTCR0_RESERVED_5_4_MASK +#define DDR_PHY_DTCR0_RESERVED_5_4_DEFVAL 0x800091C7 +#define DDR_PHY_DTCR0_RESERVED_5_4_SHIFT 4 +#define DDR_PHY_DTCR0_RESERVED_5_4_MASK 0x00000030U + +/*Data Training Repeat Number*/ +#undef DDR_PHY_DTCR0_DTRPTN_DEFVAL +#undef DDR_PHY_DTCR0_DTRPTN_SHIFT +#undef DDR_PHY_DTCR0_DTRPTN_MASK +#define DDR_PHY_DTCR0_DTRPTN_DEFVAL 0x800091C7 +#define DDR_PHY_DTCR0_DTRPTN_SHIFT 0 +#define DDR_PHY_DTCR0_DTRPTN_MASK 0x0000000FU + +/*Rank Enable.*/ +#undef DDR_PHY_DTCR1_RANKEN_RSVD_DEFVAL +#undef DDR_PHY_DTCR1_RANKEN_RSVD_SHIFT +#undef DDR_PHY_DTCR1_RANKEN_RSVD_MASK +#define DDR_PHY_DTCR1_RANKEN_RSVD_DEFVAL 0x00030237 +#define DDR_PHY_DTCR1_RANKEN_RSVD_SHIFT 18 +#define DDR_PHY_DTCR1_RANKEN_RSVD_MASK 0xFFFC0000U + +/*Rank Enable.*/ +#undef DDR_PHY_DTCR1_RANKEN_DEFVAL +#undef DDR_PHY_DTCR1_RANKEN_SHIFT +#undef DDR_PHY_DTCR1_RANKEN_MASK +#define DDR_PHY_DTCR1_RANKEN_DEFVAL 0x00030237 +#define DDR_PHY_DTCR1_RANKEN_SHIFT 16 +#define DDR_PHY_DTCR1_RANKEN_MASK 0x00030000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DTCR1_RESERVED_15_14_DEFVAL +#undef DDR_PHY_DTCR1_RESERVED_15_14_SHIFT +#undef DDR_PHY_DTCR1_RESERVED_15_14_MASK +#define DDR_PHY_DTCR1_RESERVED_15_14_DEFVAL 0x00030237 +#define DDR_PHY_DTCR1_RESERVED_15_14_SHIFT 14 +#define DDR_PHY_DTCR1_RESERVED_15_14_MASK 0x0000C000U + +/*Data Training Rank*/ +#undef DDR_PHY_DTCR1_DTRANK_DEFVAL +#undef DDR_PHY_DTCR1_DTRANK_SHIFT +#undef DDR_PHY_DTCR1_DTRANK_MASK +#define DDR_PHY_DTCR1_DTRANK_DEFVAL 0x00030237 +#define DDR_PHY_DTCR1_DTRANK_SHIFT 12 +#define DDR_PHY_DTCR1_DTRANK_MASK 0x00003000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DTCR1_RESERVED_11_DEFVAL +#undef DDR_PHY_DTCR1_RESERVED_11_SHIFT +#undef DDR_PHY_DTCR1_RESERVED_11_MASK +#define DDR_PHY_DTCR1_RESERVED_11_DEFVAL 0x00030237 +#define DDR_PHY_DTCR1_RESERVED_11_SHIFT 11 +#define DDR_PHY_DTCR1_RESERVED_11_MASK 0x00000800U + +/*Read Leveling Gate Sampling Difference*/ +#undef DDR_PHY_DTCR1_RDLVLGDIFF_DEFVAL +#undef DDR_PHY_DTCR1_RDLVLGDIFF_SHIFT +#undef DDR_PHY_DTCR1_RDLVLGDIFF_MASK +#define DDR_PHY_DTCR1_RDLVLGDIFF_DEFVAL 0x00030237 +#define DDR_PHY_DTCR1_RDLVLGDIFF_SHIFT 8 +#define DDR_PHY_DTCR1_RDLVLGDIFF_MASK 0x00000700U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DTCR1_RESERVED_7_DEFVAL +#undef DDR_PHY_DTCR1_RESERVED_7_SHIFT +#undef DDR_PHY_DTCR1_RESERVED_7_MASK +#define DDR_PHY_DTCR1_RESERVED_7_DEFVAL 0x00030237 +#define DDR_PHY_DTCR1_RESERVED_7_SHIFT 7 +#define DDR_PHY_DTCR1_RESERVED_7_MASK 0x00000080U + +/*Read Leveling Gate Shift*/ +#undef DDR_PHY_DTCR1_RDLVLGS_DEFVAL +#undef DDR_PHY_DTCR1_RDLVLGS_SHIFT +#undef DDR_PHY_DTCR1_RDLVLGS_MASK +#define DDR_PHY_DTCR1_RDLVLGS_DEFVAL 0x00030237 +#define DDR_PHY_DTCR1_RDLVLGS_SHIFT 4 +#define DDR_PHY_DTCR1_RDLVLGS_MASK 0x00000070U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DTCR1_RESERVED_3_DEFVAL +#undef DDR_PHY_DTCR1_RESERVED_3_SHIFT +#undef DDR_PHY_DTCR1_RESERVED_3_MASK +#define DDR_PHY_DTCR1_RESERVED_3_DEFVAL 0x00030237 +#define DDR_PHY_DTCR1_RESERVED_3_SHIFT 3 +#define DDR_PHY_DTCR1_RESERVED_3_MASK 0x00000008U + +/*Read Preamble Training enable*/ +#undef DDR_PHY_DTCR1_RDPRMVL_TRN_DEFVAL +#undef DDR_PHY_DTCR1_RDPRMVL_TRN_SHIFT +#undef DDR_PHY_DTCR1_RDPRMVL_TRN_MASK +#define DDR_PHY_DTCR1_RDPRMVL_TRN_DEFVAL 0x00030237 +#define DDR_PHY_DTCR1_RDPRMVL_TRN_SHIFT 2 +#define DDR_PHY_DTCR1_RDPRMVL_TRN_MASK 0x00000004U + +/*Read Leveling Enable*/ +#undef DDR_PHY_DTCR1_RDLVLEN_DEFVAL +#undef DDR_PHY_DTCR1_RDLVLEN_SHIFT +#undef DDR_PHY_DTCR1_RDLVLEN_MASK +#define DDR_PHY_DTCR1_RDLVLEN_DEFVAL 0x00030237 +#define DDR_PHY_DTCR1_RDLVLEN_SHIFT 1 +#define DDR_PHY_DTCR1_RDLVLEN_MASK 0x00000002U + +/*Basic Gate Training Enable*/ +#undef DDR_PHY_DTCR1_BSTEN_DEFVAL +#undef DDR_PHY_DTCR1_BSTEN_SHIFT +#undef DDR_PHY_DTCR1_BSTEN_MASK +#define DDR_PHY_DTCR1_BSTEN_DEFVAL 0x00030237 +#define DDR_PHY_DTCR1_BSTEN_SHIFT 0 +#define DDR_PHY_DTCR1_BSTEN_MASK 0x00000001U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_CATR0_RESERVED_31_21_DEFVAL +#undef DDR_PHY_CATR0_RESERVED_31_21_SHIFT +#undef DDR_PHY_CATR0_RESERVED_31_21_MASK +#define DDR_PHY_CATR0_RESERVED_31_21_DEFVAL 0x00141054 +#define DDR_PHY_CATR0_RESERVED_31_21_SHIFT 21 +#define DDR_PHY_CATR0_RESERVED_31_21_MASK 0xFFE00000U + +/*Minimum time (in terms of number of dram clocks) between two consectuve CA calibration command*/ +#undef DDR_PHY_CATR0_CACD_DEFVAL +#undef DDR_PHY_CATR0_CACD_SHIFT +#undef DDR_PHY_CATR0_CACD_MASK +#define DDR_PHY_CATR0_CACD_DEFVAL 0x00141054 +#define DDR_PHY_CATR0_CACD_SHIFT 16 +#define DDR_PHY_CATR0_CACD_MASK 0x001F0000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_CATR0_RESERVED_15_13_DEFVAL +#undef DDR_PHY_CATR0_RESERVED_15_13_SHIFT +#undef DDR_PHY_CATR0_RESERVED_15_13_MASK +#define DDR_PHY_CATR0_RESERVED_15_13_DEFVAL 0x00141054 +#define DDR_PHY_CATR0_RESERVED_15_13_SHIFT 13 +#define DDR_PHY_CATR0_RESERVED_15_13_MASK 0x0000E000U + +/*Minimum time (in terms of number of dram clocks) PUB should wait before sampling the CA response after Calibration command ha + been sent to the memory*/ +#undef DDR_PHY_CATR0_CAADR_DEFVAL +#undef DDR_PHY_CATR0_CAADR_SHIFT +#undef DDR_PHY_CATR0_CAADR_MASK +#define DDR_PHY_CATR0_CAADR_DEFVAL 0x00141054 +#define DDR_PHY_CATR0_CAADR_SHIFT 8 +#define DDR_PHY_CATR0_CAADR_MASK 0x00001F00U + +/*CA_1 Response Byte Lane 1*/ +#undef DDR_PHY_CATR0_CA1BYTE1_DEFVAL +#undef DDR_PHY_CATR0_CA1BYTE1_SHIFT +#undef DDR_PHY_CATR0_CA1BYTE1_MASK +#define DDR_PHY_CATR0_CA1BYTE1_DEFVAL 0x00141054 +#define DDR_PHY_CATR0_CA1BYTE1_SHIFT 4 +#define DDR_PHY_CATR0_CA1BYTE1_MASK 0x000000F0U + +/*CA_1 Response Byte Lane 0*/ +#undef DDR_PHY_CATR0_CA1BYTE0_DEFVAL +#undef DDR_PHY_CATR0_CA1BYTE0_SHIFT +#undef DDR_PHY_CATR0_CA1BYTE0_MASK +#define DDR_PHY_CATR0_CA1BYTE0_DEFVAL 0x00141054 +#define DDR_PHY_CATR0_CA1BYTE0_SHIFT 0 +#define DDR_PHY_CATR0_CA1BYTE0_MASK 0x0000000FU + +/*LFSR seed for pseudo-random BIST patterns*/ +#undef DDR_PHY_BISTLSR_SEED_DEFVAL +#undef DDR_PHY_BISTLSR_SEED_SHIFT +#undef DDR_PHY_BISTLSR_SEED_MASK +#define DDR_PHY_BISTLSR_SEED_DEFVAL +#define DDR_PHY_BISTLSR_SEED_SHIFT 0 +#define DDR_PHY_BISTLSR_SEED_MASK 0xFFFFFFFFU + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_RIOCR5_RESERVED_31_16_DEFVAL +#undef DDR_PHY_RIOCR5_RESERVED_31_16_SHIFT +#undef DDR_PHY_RIOCR5_RESERVED_31_16_MASK +#define DDR_PHY_RIOCR5_RESERVED_31_16_DEFVAL 0x00000005 +#define DDR_PHY_RIOCR5_RESERVED_31_16_SHIFT 16 +#define DDR_PHY_RIOCR5_RESERVED_31_16_MASK 0xFFFF0000U + +/*Reserved. Return zeros on reads.*/ +#undef DDR_PHY_RIOCR5_ODTOEMODE_RSVD_DEFVAL +#undef DDR_PHY_RIOCR5_ODTOEMODE_RSVD_SHIFT +#undef DDR_PHY_RIOCR5_ODTOEMODE_RSVD_MASK +#define DDR_PHY_RIOCR5_ODTOEMODE_RSVD_DEFVAL 0x00000005 +#define DDR_PHY_RIOCR5_ODTOEMODE_RSVD_SHIFT 4 +#define DDR_PHY_RIOCR5_ODTOEMODE_RSVD_MASK 0x0000FFF0U + +/*SDRAM On-die Termination Output Enable (OE) Mode Selection.*/ +#undef DDR_PHY_RIOCR5_ODTOEMODE_DEFVAL +#undef DDR_PHY_RIOCR5_ODTOEMODE_SHIFT +#undef DDR_PHY_RIOCR5_ODTOEMODE_MASK +#define DDR_PHY_RIOCR5_ODTOEMODE_DEFVAL 0x00000005 +#define DDR_PHY_RIOCR5_ODTOEMODE_SHIFT 0 +#define DDR_PHY_RIOCR5_ODTOEMODE_MASK 0x0000000FU + +/*Address/Command Slew Rate (D3F I/O Only)*/ +#undef DDR_PHY_ACIOCR0_ACSR_DEFVAL +#undef DDR_PHY_ACIOCR0_ACSR_SHIFT +#undef DDR_PHY_ACIOCR0_ACSR_MASK +#define DDR_PHY_ACIOCR0_ACSR_DEFVAL 0x30000000 +#define DDR_PHY_ACIOCR0_ACSR_SHIFT 30 +#define DDR_PHY_ACIOCR0_ACSR_MASK 0xC0000000U + +/*SDRAM Reset I/O Mode*/ +#undef DDR_PHY_ACIOCR0_RSTIOM_DEFVAL +#undef DDR_PHY_ACIOCR0_RSTIOM_SHIFT +#undef DDR_PHY_ACIOCR0_RSTIOM_MASK +#define DDR_PHY_ACIOCR0_RSTIOM_DEFVAL 0x30000000 +#define DDR_PHY_ACIOCR0_RSTIOM_SHIFT 29 +#define DDR_PHY_ACIOCR0_RSTIOM_MASK 0x20000000U + +/*SDRAM Reset Power Down Receiver*/ +#undef DDR_PHY_ACIOCR0_RSTPDR_DEFVAL +#undef DDR_PHY_ACIOCR0_RSTPDR_SHIFT +#undef DDR_PHY_ACIOCR0_RSTPDR_MASK +#define DDR_PHY_ACIOCR0_RSTPDR_DEFVAL 0x30000000 +#define DDR_PHY_ACIOCR0_RSTPDR_SHIFT 28 +#define DDR_PHY_ACIOCR0_RSTPDR_MASK 0x10000000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_ACIOCR0_RESERVED_27_DEFVAL +#undef DDR_PHY_ACIOCR0_RESERVED_27_SHIFT +#undef DDR_PHY_ACIOCR0_RESERVED_27_MASK +#define DDR_PHY_ACIOCR0_RESERVED_27_DEFVAL 0x30000000 +#define DDR_PHY_ACIOCR0_RESERVED_27_SHIFT 27 +#define DDR_PHY_ACIOCR0_RESERVED_27_MASK 0x08000000U + +/*SDRAM Reset On-Die Termination*/ +#undef DDR_PHY_ACIOCR0_RSTODT_DEFVAL +#undef DDR_PHY_ACIOCR0_RSTODT_SHIFT +#undef DDR_PHY_ACIOCR0_RSTODT_MASK +#define DDR_PHY_ACIOCR0_RSTODT_DEFVAL 0x30000000 +#define DDR_PHY_ACIOCR0_RSTODT_SHIFT 26 +#define DDR_PHY_ACIOCR0_RSTODT_MASK 0x04000000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_ACIOCR0_RESERVED_25_10_DEFVAL +#undef DDR_PHY_ACIOCR0_RESERVED_25_10_SHIFT +#undef DDR_PHY_ACIOCR0_RESERVED_25_10_MASK +#define DDR_PHY_ACIOCR0_RESERVED_25_10_DEFVAL 0x30000000 +#define DDR_PHY_ACIOCR0_RESERVED_25_10_SHIFT 10 +#define DDR_PHY_ACIOCR0_RESERVED_25_10_MASK 0x03FFFC00U + +/*CK Duty Cycle Correction*/ +#undef DDR_PHY_ACIOCR0_CKDCC_DEFVAL +#undef DDR_PHY_ACIOCR0_CKDCC_SHIFT +#undef DDR_PHY_ACIOCR0_CKDCC_MASK +#define DDR_PHY_ACIOCR0_CKDCC_DEFVAL 0x30000000 +#define DDR_PHY_ACIOCR0_CKDCC_SHIFT 6 +#define DDR_PHY_ACIOCR0_CKDCC_MASK 0x000003C0U + +/*AC Power Down Receiver Mode*/ +#undef DDR_PHY_ACIOCR0_ACPDRMODE_DEFVAL +#undef DDR_PHY_ACIOCR0_ACPDRMODE_SHIFT +#undef DDR_PHY_ACIOCR0_ACPDRMODE_MASK +#define DDR_PHY_ACIOCR0_ACPDRMODE_DEFVAL 0x30000000 +#define DDR_PHY_ACIOCR0_ACPDRMODE_SHIFT 4 +#define DDR_PHY_ACIOCR0_ACPDRMODE_MASK 0x00000030U + +/*AC On-die Termination Mode*/ +#undef DDR_PHY_ACIOCR0_ACODTMODE_DEFVAL +#undef DDR_PHY_ACIOCR0_ACODTMODE_SHIFT +#undef DDR_PHY_ACIOCR0_ACODTMODE_MASK +#define DDR_PHY_ACIOCR0_ACODTMODE_DEFVAL 0x30000000 +#define DDR_PHY_ACIOCR0_ACODTMODE_SHIFT 2 +#define DDR_PHY_ACIOCR0_ACODTMODE_MASK 0x0000000CU + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_ACIOCR0_RESERVED_1_DEFVAL +#undef DDR_PHY_ACIOCR0_RESERVED_1_SHIFT +#undef DDR_PHY_ACIOCR0_RESERVED_1_MASK +#define DDR_PHY_ACIOCR0_RESERVED_1_DEFVAL 0x30000000 +#define DDR_PHY_ACIOCR0_RESERVED_1_SHIFT 1 +#define DDR_PHY_ACIOCR0_RESERVED_1_MASK 0x00000002U + +/*Control delayed or non-delayed clock to CS_N/ODT?CKE AC slices.*/ +#undef DDR_PHY_ACIOCR0_ACRANKCLKSEL_DEFVAL +#undef DDR_PHY_ACIOCR0_ACRANKCLKSEL_SHIFT +#undef DDR_PHY_ACIOCR0_ACRANKCLKSEL_MASK +#define DDR_PHY_ACIOCR0_ACRANKCLKSEL_DEFVAL 0x30000000 +#define DDR_PHY_ACIOCR0_ACRANKCLKSEL_SHIFT 0 +#define DDR_PHY_ACIOCR0_ACRANKCLKSEL_MASK 0x00000001U + +/*Clock gating for glue logic inside CLKGEN and glue logic inside CONTROL slice*/ +#undef DDR_PHY_ACIOCR2_CLKGENCLKGATE_DEFVAL +#undef DDR_PHY_ACIOCR2_CLKGENCLKGATE_SHIFT +#undef DDR_PHY_ACIOCR2_CLKGENCLKGATE_MASK +#define DDR_PHY_ACIOCR2_CLKGENCLKGATE_DEFVAL 0x00000000 +#define DDR_PHY_ACIOCR2_CLKGENCLKGATE_SHIFT 31 +#define DDR_PHY_ACIOCR2_CLKGENCLKGATE_MASK 0x80000000U + +/*Clock gating for Output Enable D slices [0]*/ +#undef DDR_PHY_ACIOCR2_ACOECLKGATE0_DEFVAL +#undef DDR_PHY_ACIOCR2_ACOECLKGATE0_SHIFT +#undef DDR_PHY_ACIOCR2_ACOECLKGATE0_MASK +#define DDR_PHY_ACIOCR2_ACOECLKGATE0_DEFVAL 0x00000000 +#define DDR_PHY_ACIOCR2_ACOECLKGATE0_SHIFT 30 +#define DDR_PHY_ACIOCR2_ACOECLKGATE0_MASK 0x40000000U + +/*Clock gating for Power Down Receiver D slices [0]*/ +#undef DDR_PHY_ACIOCR2_ACPDRCLKGATE0_DEFVAL +#undef DDR_PHY_ACIOCR2_ACPDRCLKGATE0_SHIFT +#undef DDR_PHY_ACIOCR2_ACPDRCLKGATE0_MASK +#define DDR_PHY_ACIOCR2_ACPDRCLKGATE0_DEFVAL 0x00000000 +#define DDR_PHY_ACIOCR2_ACPDRCLKGATE0_SHIFT 29 +#define DDR_PHY_ACIOCR2_ACPDRCLKGATE0_MASK 0x20000000U + +/*Clock gating for Termination Enable D slices [0]*/ +#undef DDR_PHY_ACIOCR2_ACTECLKGATE0_DEFVAL +#undef DDR_PHY_ACIOCR2_ACTECLKGATE0_SHIFT +#undef DDR_PHY_ACIOCR2_ACTECLKGATE0_MASK +#define DDR_PHY_ACIOCR2_ACTECLKGATE0_DEFVAL 0x00000000 +#define DDR_PHY_ACIOCR2_ACTECLKGATE0_SHIFT 28 +#define DDR_PHY_ACIOCR2_ACTECLKGATE0_MASK 0x10000000U + +/*Clock gating for CK# D slices [1:0]*/ +#undef DDR_PHY_ACIOCR2_CKNCLKGATE0_DEFVAL +#undef DDR_PHY_ACIOCR2_CKNCLKGATE0_SHIFT +#undef DDR_PHY_ACIOCR2_CKNCLKGATE0_MASK +#define DDR_PHY_ACIOCR2_CKNCLKGATE0_DEFVAL 0x00000000 +#define DDR_PHY_ACIOCR2_CKNCLKGATE0_SHIFT 26 +#define DDR_PHY_ACIOCR2_CKNCLKGATE0_MASK 0x0C000000U + +/*Clock gating for CK D slices [1:0]*/ +#undef DDR_PHY_ACIOCR2_CKCLKGATE0_DEFVAL +#undef DDR_PHY_ACIOCR2_CKCLKGATE0_SHIFT +#undef DDR_PHY_ACIOCR2_CKCLKGATE0_MASK +#define DDR_PHY_ACIOCR2_CKCLKGATE0_DEFVAL 0x00000000 +#define DDR_PHY_ACIOCR2_CKCLKGATE0_SHIFT 24 +#define DDR_PHY_ACIOCR2_CKCLKGATE0_MASK 0x03000000U + +/*Clock gating for AC D slices [23:0]*/ +#undef DDR_PHY_ACIOCR2_ACCLKGATE0_DEFVAL +#undef DDR_PHY_ACIOCR2_ACCLKGATE0_SHIFT +#undef DDR_PHY_ACIOCR2_ACCLKGATE0_MASK +#define DDR_PHY_ACIOCR2_ACCLKGATE0_DEFVAL 0x00000000 +#define DDR_PHY_ACIOCR2_ACCLKGATE0_SHIFT 0 +#define DDR_PHY_ACIOCR2_ACCLKGATE0_MASK 0x00FFFFFFU + +/*SDRAM Parity Output Enable (OE) Mode Selection*/ +#undef DDR_PHY_ACIOCR3_PAROEMODE_DEFVAL +#undef DDR_PHY_ACIOCR3_PAROEMODE_SHIFT +#undef DDR_PHY_ACIOCR3_PAROEMODE_MASK +#define DDR_PHY_ACIOCR3_PAROEMODE_DEFVAL 0x00000005 +#define DDR_PHY_ACIOCR3_PAROEMODE_SHIFT 30 +#define DDR_PHY_ACIOCR3_PAROEMODE_MASK 0xC0000000U + +/*SDRAM Bank Group Output Enable (OE) Mode Selection*/ +#undef DDR_PHY_ACIOCR3_BGOEMODE_DEFVAL +#undef DDR_PHY_ACIOCR3_BGOEMODE_SHIFT +#undef DDR_PHY_ACIOCR3_BGOEMODE_MASK +#define DDR_PHY_ACIOCR3_BGOEMODE_DEFVAL 0x00000005 +#define DDR_PHY_ACIOCR3_BGOEMODE_SHIFT 26 +#define DDR_PHY_ACIOCR3_BGOEMODE_MASK 0x3C000000U + +/*SDRAM Bank Address Output Enable (OE) Mode Selection*/ +#undef DDR_PHY_ACIOCR3_BAOEMODE_DEFVAL +#undef DDR_PHY_ACIOCR3_BAOEMODE_SHIFT +#undef DDR_PHY_ACIOCR3_BAOEMODE_MASK +#define DDR_PHY_ACIOCR3_BAOEMODE_DEFVAL 0x00000005 +#define DDR_PHY_ACIOCR3_BAOEMODE_SHIFT 22 +#define DDR_PHY_ACIOCR3_BAOEMODE_MASK 0x03C00000U + +/*SDRAM A[17] Output Enable (OE) Mode Selection*/ +#undef DDR_PHY_ACIOCR3_A17OEMODE_DEFVAL +#undef DDR_PHY_ACIOCR3_A17OEMODE_SHIFT +#undef DDR_PHY_ACIOCR3_A17OEMODE_MASK +#define DDR_PHY_ACIOCR3_A17OEMODE_DEFVAL 0x00000005 +#define DDR_PHY_ACIOCR3_A17OEMODE_SHIFT 20 +#define DDR_PHY_ACIOCR3_A17OEMODE_MASK 0x00300000U + +/*SDRAM A[16] / RAS_n Output Enable (OE) Mode Selection*/ +#undef DDR_PHY_ACIOCR3_A16OEMODE_DEFVAL +#undef DDR_PHY_ACIOCR3_A16OEMODE_SHIFT +#undef DDR_PHY_ACIOCR3_A16OEMODE_MASK +#define DDR_PHY_ACIOCR3_A16OEMODE_DEFVAL 0x00000005 +#define DDR_PHY_ACIOCR3_A16OEMODE_SHIFT 18 +#define DDR_PHY_ACIOCR3_A16OEMODE_MASK 0x000C0000U + +/*SDRAM ACT_n Output Enable (OE) Mode Selection (DDR4 only)*/ +#undef DDR_PHY_ACIOCR3_ACTOEMODE_DEFVAL +#undef DDR_PHY_ACIOCR3_ACTOEMODE_SHIFT +#undef DDR_PHY_ACIOCR3_ACTOEMODE_MASK +#define DDR_PHY_ACIOCR3_ACTOEMODE_DEFVAL 0x00000005 +#define DDR_PHY_ACIOCR3_ACTOEMODE_SHIFT 16 +#define DDR_PHY_ACIOCR3_ACTOEMODE_MASK 0x00030000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_ACIOCR3_RESERVED_15_8_DEFVAL +#undef DDR_PHY_ACIOCR3_RESERVED_15_8_SHIFT +#undef DDR_PHY_ACIOCR3_RESERVED_15_8_MASK +#define DDR_PHY_ACIOCR3_RESERVED_15_8_DEFVAL 0x00000005 +#define DDR_PHY_ACIOCR3_RESERVED_15_8_SHIFT 8 +#define DDR_PHY_ACIOCR3_RESERVED_15_8_MASK 0x0000FF00U + +/*Reserved. Return zeros on reads.*/ +#undef DDR_PHY_ACIOCR3_CKOEMODE_RSVD_DEFVAL +#undef DDR_PHY_ACIOCR3_CKOEMODE_RSVD_SHIFT +#undef DDR_PHY_ACIOCR3_CKOEMODE_RSVD_MASK +#define DDR_PHY_ACIOCR3_CKOEMODE_RSVD_DEFVAL 0x00000005 +#define DDR_PHY_ACIOCR3_CKOEMODE_RSVD_SHIFT 4 +#define DDR_PHY_ACIOCR3_CKOEMODE_RSVD_MASK 0x000000F0U + +/*SDRAM CK Output Enable (OE) Mode Selection.*/ +#undef DDR_PHY_ACIOCR3_CKOEMODE_DEFVAL +#undef DDR_PHY_ACIOCR3_CKOEMODE_SHIFT +#undef DDR_PHY_ACIOCR3_CKOEMODE_MASK +#define DDR_PHY_ACIOCR3_CKOEMODE_DEFVAL 0x00000005 +#define DDR_PHY_ACIOCR3_CKOEMODE_SHIFT 0 +#define DDR_PHY_ACIOCR3_CKOEMODE_MASK 0x0000000FU + +/*Clock gating for AC LB slices and loopback read valid slices*/ +#undef DDR_PHY_ACIOCR4_LBCLKGATE_DEFVAL +#undef DDR_PHY_ACIOCR4_LBCLKGATE_SHIFT +#undef DDR_PHY_ACIOCR4_LBCLKGATE_MASK +#define DDR_PHY_ACIOCR4_LBCLKGATE_DEFVAL 0x00000000 +#define DDR_PHY_ACIOCR4_LBCLKGATE_SHIFT 31 +#define DDR_PHY_ACIOCR4_LBCLKGATE_MASK 0x80000000U + +/*Clock gating for Output Enable D slices [1]*/ +#undef DDR_PHY_ACIOCR4_ACOECLKGATE1_DEFVAL +#undef DDR_PHY_ACIOCR4_ACOECLKGATE1_SHIFT +#undef DDR_PHY_ACIOCR4_ACOECLKGATE1_MASK +#define DDR_PHY_ACIOCR4_ACOECLKGATE1_DEFVAL 0x00000000 +#define DDR_PHY_ACIOCR4_ACOECLKGATE1_SHIFT 30 +#define DDR_PHY_ACIOCR4_ACOECLKGATE1_MASK 0x40000000U + +/*Clock gating for Power Down Receiver D slices [1]*/ +#undef DDR_PHY_ACIOCR4_ACPDRCLKGATE1_DEFVAL +#undef DDR_PHY_ACIOCR4_ACPDRCLKGATE1_SHIFT +#undef DDR_PHY_ACIOCR4_ACPDRCLKGATE1_MASK +#define DDR_PHY_ACIOCR4_ACPDRCLKGATE1_DEFVAL 0x00000000 +#define DDR_PHY_ACIOCR4_ACPDRCLKGATE1_SHIFT 29 +#define DDR_PHY_ACIOCR4_ACPDRCLKGATE1_MASK 0x20000000U + +/*Clock gating for Termination Enable D slices [1]*/ +#undef DDR_PHY_ACIOCR4_ACTECLKGATE1_DEFVAL +#undef DDR_PHY_ACIOCR4_ACTECLKGATE1_SHIFT +#undef DDR_PHY_ACIOCR4_ACTECLKGATE1_MASK +#define DDR_PHY_ACIOCR4_ACTECLKGATE1_DEFVAL 0x00000000 +#define DDR_PHY_ACIOCR4_ACTECLKGATE1_SHIFT 28 +#define DDR_PHY_ACIOCR4_ACTECLKGATE1_MASK 0x10000000U + +/*Clock gating for CK# D slices [3:2]*/ +#undef DDR_PHY_ACIOCR4_CKNCLKGATE1_DEFVAL +#undef DDR_PHY_ACIOCR4_CKNCLKGATE1_SHIFT +#undef DDR_PHY_ACIOCR4_CKNCLKGATE1_MASK +#define DDR_PHY_ACIOCR4_CKNCLKGATE1_DEFVAL 0x00000000 +#define DDR_PHY_ACIOCR4_CKNCLKGATE1_SHIFT 26 +#define DDR_PHY_ACIOCR4_CKNCLKGATE1_MASK 0x0C000000U + +/*Clock gating for CK D slices [3:2]*/ +#undef DDR_PHY_ACIOCR4_CKCLKGATE1_DEFVAL +#undef DDR_PHY_ACIOCR4_CKCLKGATE1_SHIFT +#undef DDR_PHY_ACIOCR4_CKCLKGATE1_MASK +#define DDR_PHY_ACIOCR4_CKCLKGATE1_DEFVAL 0x00000000 +#define DDR_PHY_ACIOCR4_CKCLKGATE1_SHIFT 24 +#define DDR_PHY_ACIOCR4_CKCLKGATE1_MASK 0x03000000U + +/*Clock gating for AC D slices [47:24]*/ +#undef DDR_PHY_ACIOCR4_ACCLKGATE1_DEFVAL +#undef DDR_PHY_ACIOCR4_ACCLKGATE1_SHIFT +#undef DDR_PHY_ACIOCR4_ACCLKGATE1_MASK +#define DDR_PHY_ACIOCR4_ACCLKGATE1_DEFVAL 0x00000000 +#define DDR_PHY_ACIOCR4_ACCLKGATE1_SHIFT 0 +#define DDR_PHY_ACIOCR4_ACCLKGATE1_MASK 0x00FFFFFFU + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_IOVCR0_RESERVED_31_29_DEFVAL +#undef DDR_PHY_IOVCR0_RESERVED_31_29_SHIFT +#undef DDR_PHY_IOVCR0_RESERVED_31_29_MASK +#define DDR_PHY_IOVCR0_RESERVED_31_29_DEFVAL 0x0F000000 +#define DDR_PHY_IOVCR0_RESERVED_31_29_SHIFT 29 +#define DDR_PHY_IOVCR0_RESERVED_31_29_MASK 0xE0000000U + +/*Address/command lane VREF Pad Enable*/ +#undef DDR_PHY_IOVCR0_ACREFPEN_DEFVAL +#undef DDR_PHY_IOVCR0_ACREFPEN_SHIFT +#undef DDR_PHY_IOVCR0_ACREFPEN_MASK +#define DDR_PHY_IOVCR0_ACREFPEN_DEFVAL 0x0F000000 +#define DDR_PHY_IOVCR0_ACREFPEN_SHIFT 28 +#define DDR_PHY_IOVCR0_ACREFPEN_MASK 0x10000000U + +/*Address/command lane Internal VREF Enable*/ +#undef DDR_PHY_IOVCR0_ACREFEEN_DEFVAL +#undef DDR_PHY_IOVCR0_ACREFEEN_SHIFT +#undef DDR_PHY_IOVCR0_ACREFEEN_MASK +#define DDR_PHY_IOVCR0_ACREFEEN_DEFVAL 0x0F000000 +#define DDR_PHY_IOVCR0_ACREFEEN_SHIFT 26 +#define DDR_PHY_IOVCR0_ACREFEEN_MASK 0x0C000000U + +/*Address/command lane Single-End VREF Enable*/ +#undef DDR_PHY_IOVCR0_ACREFSEN_DEFVAL +#undef DDR_PHY_IOVCR0_ACREFSEN_SHIFT +#undef DDR_PHY_IOVCR0_ACREFSEN_MASK +#define DDR_PHY_IOVCR0_ACREFSEN_DEFVAL 0x0F000000 +#define DDR_PHY_IOVCR0_ACREFSEN_SHIFT 25 +#define DDR_PHY_IOVCR0_ACREFSEN_MASK 0x02000000U + +/*Address/command lane Internal VREF Enable*/ +#undef DDR_PHY_IOVCR0_ACREFIEN_DEFVAL +#undef DDR_PHY_IOVCR0_ACREFIEN_SHIFT +#undef DDR_PHY_IOVCR0_ACREFIEN_MASK +#define DDR_PHY_IOVCR0_ACREFIEN_DEFVAL 0x0F000000 +#define DDR_PHY_IOVCR0_ACREFIEN_SHIFT 24 +#define DDR_PHY_IOVCR0_ACREFIEN_MASK 0x01000000U + +/*External VREF generato REFSEL range select*/ +#undef DDR_PHY_IOVCR0_ACREFESELRANGE_DEFVAL +#undef DDR_PHY_IOVCR0_ACREFESELRANGE_SHIFT +#undef DDR_PHY_IOVCR0_ACREFESELRANGE_MASK +#define DDR_PHY_IOVCR0_ACREFESELRANGE_DEFVAL 0x0F000000 +#define DDR_PHY_IOVCR0_ACREFESELRANGE_SHIFT 23 +#define DDR_PHY_IOVCR0_ACREFESELRANGE_MASK 0x00800000U + +/*Address/command lane External VREF Select*/ +#undef DDR_PHY_IOVCR0_ACREFESEL_DEFVAL +#undef DDR_PHY_IOVCR0_ACREFESEL_SHIFT +#undef DDR_PHY_IOVCR0_ACREFESEL_MASK +#define DDR_PHY_IOVCR0_ACREFESEL_DEFVAL 0x0F000000 +#define DDR_PHY_IOVCR0_ACREFESEL_SHIFT 16 +#define DDR_PHY_IOVCR0_ACREFESEL_MASK 0x007F0000U + +/*Single ended VREF generator REFSEL range select*/ +#undef DDR_PHY_IOVCR0_ACREFSSELRANGE_DEFVAL +#undef DDR_PHY_IOVCR0_ACREFSSELRANGE_SHIFT +#undef DDR_PHY_IOVCR0_ACREFSSELRANGE_MASK +#define DDR_PHY_IOVCR0_ACREFSSELRANGE_DEFVAL 0x0F000000 +#define DDR_PHY_IOVCR0_ACREFSSELRANGE_SHIFT 15 +#define DDR_PHY_IOVCR0_ACREFSSELRANGE_MASK 0x00008000U + +/*Address/command lane Single-End VREF Select*/ +#undef DDR_PHY_IOVCR0_ACREFSSEL_DEFVAL +#undef DDR_PHY_IOVCR0_ACREFSSEL_SHIFT +#undef DDR_PHY_IOVCR0_ACREFSSEL_MASK +#define DDR_PHY_IOVCR0_ACREFSSEL_DEFVAL 0x0F000000 +#define DDR_PHY_IOVCR0_ACREFSSEL_SHIFT 8 +#define DDR_PHY_IOVCR0_ACREFSSEL_MASK 0x00007F00U + +/*Internal VREF generator REFSEL ragne select*/ +#undef DDR_PHY_IOVCR0_ACVREFISELRANGE_DEFVAL +#undef DDR_PHY_IOVCR0_ACVREFISELRANGE_SHIFT +#undef DDR_PHY_IOVCR0_ACVREFISELRANGE_MASK +#define DDR_PHY_IOVCR0_ACVREFISELRANGE_DEFVAL 0x0F000000 +#define DDR_PHY_IOVCR0_ACVREFISELRANGE_SHIFT 7 +#define DDR_PHY_IOVCR0_ACVREFISELRANGE_MASK 0x00000080U + +/*REFSEL Control for internal AC IOs*/ +#undef DDR_PHY_IOVCR0_ACVREFISEL_DEFVAL +#undef DDR_PHY_IOVCR0_ACVREFISEL_SHIFT +#undef DDR_PHY_IOVCR0_ACVREFISEL_MASK +#define DDR_PHY_IOVCR0_ACVREFISEL_DEFVAL 0x0F000000 +#define DDR_PHY_IOVCR0_ACVREFISEL_SHIFT 0 +#define DDR_PHY_IOVCR0_ACVREFISEL_MASK 0x0000007FU + +/*Number of ctl_clk required to meet (> 150ns) timing requirements during DRAM DQ VREF training*/ +#undef DDR_PHY_VTCR0_TVREF_DEFVAL +#undef DDR_PHY_VTCR0_TVREF_SHIFT +#undef DDR_PHY_VTCR0_TVREF_MASK +#define DDR_PHY_VTCR0_TVREF_DEFVAL 0x70032019 +#define DDR_PHY_VTCR0_TVREF_SHIFT 29 +#define DDR_PHY_VTCR0_TVREF_MASK 0xE0000000U + +/*DRM DQ VREF training Enable*/ +#undef DDR_PHY_VTCR0_DVEN_DEFVAL +#undef DDR_PHY_VTCR0_DVEN_SHIFT +#undef DDR_PHY_VTCR0_DVEN_MASK +#define DDR_PHY_VTCR0_DVEN_DEFVAL 0x70032019 +#define DDR_PHY_VTCR0_DVEN_SHIFT 28 +#define DDR_PHY_VTCR0_DVEN_MASK 0x10000000U + +/*Per Device Addressability Enable*/ +#undef DDR_PHY_VTCR0_PDAEN_DEFVAL +#undef DDR_PHY_VTCR0_PDAEN_SHIFT +#undef DDR_PHY_VTCR0_PDAEN_MASK +#define DDR_PHY_VTCR0_PDAEN_DEFVAL 0x70032019 +#define DDR_PHY_VTCR0_PDAEN_SHIFT 27 +#define DDR_PHY_VTCR0_PDAEN_MASK 0x08000000U + +/*Reserved. Returns zeroes on reads.*/ +#undef DDR_PHY_VTCR0_RESERVED_26_DEFVAL +#undef DDR_PHY_VTCR0_RESERVED_26_SHIFT +#undef DDR_PHY_VTCR0_RESERVED_26_MASK +#define DDR_PHY_VTCR0_RESERVED_26_DEFVAL 0x70032019 +#define DDR_PHY_VTCR0_RESERVED_26_SHIFT 26 +#define DDR_PHY_VTCR0_RESERVED_26_MASK 0x04000000U + +/*VREF Word Count*/ +#undef DDR_PHY_VTCR0_VWCR_DEFVAL +#undef DDR_PHY_VTCR0_VWCR_SHIFT +#undef DDR_PHY_VTCR0_VWCR_MASK +#define DDR_PHY_VTCR0_VWCR_DEFVAL 0x70032019 +#define DDR_PHY_VTCR0_VWCR_SHIFT 22 +#define DDR_PHY_VTCR0_VWCR_MASK 0x03C00000U + +/*DRAM DQ VREF step size used during DRAM VREF training*/ +#undef DDR_PHY_VTCR0_DVSS_DEFVAL +#undef DDR_PHY_VTCR0_DVSS_SHIFT +#undef DDR_PHY_VTCR0_DVSS_MASK +#define DDR_PHY_VTCR0_DVSS_DEFVAL 0x70032019 +#define DDR_PHY_VTCR0_DVSS_SHIFT 18 +#define DDR_PHY_VTCR0_DVSS_MASK 0x003C0000U + +/*Maximum VREF limit value used during DRAM VREF training*/ +#undef DDR_PHY_VTCR0_DVMAX_DEFVAL +#undef DDR_PHY_VTCR0_DVMAX_SHIFT +#undef DDR_PHY_VTCR0_DVMAX_MASK +#define DDR_PHY_VTCR0_DVMAX_DEFVAL 0x70032019 +#define DDR_PHY_VTCR0_DVMAX_SHIFT 12 +#define DDR_PHY_VTCR0_DVMAX_MASK 0x0003F000U + +/*Minimum VREF limit value used during DRAM VREF training*/ +#undef DDR_PHY_VTCR0_DVMIN_DEFVAL +#undef DDR_PHY_VTCR0_DVMIN_SHIFT +#undef DDR_PHY_VTCR0_DVMIN_MASK +#define DDR_PHY_VTCR0_DVMIN_DEFVAL 0x70032019 +#define DDR_PHY_VTCR0_DVMIN_SHIFT 6 +#define DDR_PHY_VTCR0_DVMIN_MASK 0x00000FC0U + +/*Initial DRAM DQ VREF value used during DRAM VREF training*/ +#undef DDR_PHY_VTCR0_DVINIT_DEFVAL +#undef DDR_PHY_VTCR0_DVINIT_SHIFT +#undef DDR_PHY_VTCR0_DVINIT_MASK +#define DDR_PHY_VTCR0_DVINIT_DEFVAL 0x70032019 +#define DDR_PHY_VTCR0_DVINIT_SHIFT 0 +#define DDR_PHY_VTCR0_DVINIT_MASK 0x0000003FU + +/*Host VREF step size used during VREF training. The register value of N indicates step size of (N+1)*/ +#undef DDR_PHY_VTCR1_HVSS_DEFVAL +#undef DDR_PHY_VTCR1_HVSS_SHIFT +#undef DDR_PHY_VTCR1_HVSS_MASK +#define DDR_PHY_VTCR1_HVSS_DEFVAL 0x07F00072 +#define DDR_PHY_VTCR1_HVSS_SHIFT 28 +#define DDR_PHY_VTCR1_HVSS_MASK 0xF0000000U + +/*Reserved. Returns zeroes on reads.*/ +#undef DDR_PHY_VTCR1_RESERVED_27_DEFVAL +#undef DDR_PHY_VTCR1_RESERVED_27_SHIFT +#undef DDR_PHY_VTCR1_RESERVED_27_MASK +#define DDR_PHY_VTCR1_RESERVED_27_DEFVAL 0x07F00072 +#define DDR_PHY_VTCR1_RESERVED_27_SHIFT 27 +#define DDR_PHY_VTCR1_RESERVED_27_MASK 0x08000000U + +/*Maximum VREF limit value used during DRAM VREF training.*/ +#undef DDR_PHY_VTCR1_HVMAX_DEFVAL +#undef DDR_PHY_VTCR1_HVMAX_SHIFT +#undef DDR_PHY_VTCR1_HVMAX_MASK +#define DDR_PHY_VTCR1_HVMAX_DEFVAL 0x07F00072 +#define DDR_PHY_VTCR1_HVMAX_SHIFT 20 +#define DDR_PHY_VTCR1_HVMAX_MASK 0x07F00000U + +/*Reserved. Returns zeroes on reads.*/ +#undef DDR_PHY_VTCR1_RESERVED_19_DEFVAL +#undef DDR_PHY_VTCR1_RESERVED_19_SHIFT +#undef DDR_PHY_VTCR1_RESERVED_19_MASK +#define DDR_PHY_VTCR1_RESERVED_19_DEFVAL 0x07F00072 +#define DDR_PHY_VTCR1_RESERVED_19_SHIFT 19 +#define DDR_PHY_VTCR1_RESERVED_19_MASK 0x00080000U + +/*Minimum VREF limit value used during DRAM VREF training.*/ +#undef DDR_PHY_VTCR1_HVMIN_DEFVAL +#undef DDR_PHY_VTCR1_HVMIN_SHIFT +#undef DDR_PHY_VTCR1_HVMIN_MASK +#define DDR_PHY_VTCR1_HVMIN_DEFVAL 0x07F00072 +#define DDR_PHY_VTCR1_HVMIN_SHIFT 12 +#define DDR_PHY_VTCR1_HVMIN_MASK 0x0007F000U + +/*Reserved. Returns zeroes on reads.*/ +#undef DDR_PHY_VTCR1_RESERVED_11_DEFVAL +#undef DDR_PHY_VTCR1_RESERVED_11_SHIFT +#undef DDR_PHY_VTCR1_RESERVED_11_MASK +#define DDR_PHY_VTCR1_RESERVED_11_DEFVAL 0x07F00072 +#define DDR_PHY_VTCR1_RESERVED_11_SHIFT 11 +#define DDR_PHY_VTCR1_RESERVED_11_MASK 0x00000800U + +/*Static Host Vref Rank Value*/ +#undef DDR_PHY_VTCR1_SHRNK_DEFVAL +#undef DDR_PHY_VTCR1_SHRNK_SHIFT +#undef DDR_PHY_VTCR1_SHRNK_MASK +#define DDR_PHY_VTCR1_SHRNK_DEFVAL 0x07F00072 +#define DDR_PHY_VTCR1_SHRNK_SHIFT 9 +#define DDR_PHY_VTCR1_SHRNK_MASK 0x00000600U + +/*Static Host Vref Rank Enable*/ +#undef DDR_PHY_VTCR1_SHREN_DEFVAL +#undef DDR_PHY_VTCR1_SHREN_SHIFT +#undef DDR_PHY_VTCR1_SHREN_MASK +#define DDR_PHY_VTCR1_SHREN_DEFVAL 0x07F00072 +#define DDR_PHY_VTCR1_SHREN_SHIFT 8 +#define DDR_PHY_VTCR1_SHREN_MASK 0x00000100U + +/*Number of ctl_clk required to meet (> 200ns) VREF Settling timing requirements during Host IO VREF training*/ +#undef DDR_PHY_VTCR1_TVREFIO_DEFVAL +#undef DDR_PHY_VTCR1_TVREFIO_SHIFT +#undef DDR_PHY_VTCR1_TVREFIO_MASK +#define DDR_PHY_VTCR1_TVREFIO_DEFVAL 0x07F00072 +#define DDR_PHY_VTCR1_TVREFIO_SHIFT 5 +#define DDR_PHY_VTCR1_TVREFIO_MASK 0x000000E0U + +/*Eye LCDL Offset value for VREF training*/ +#undef DDR_PHY_VTCR1_EOFF_DEFVAL +#undef DDR_PHY_VTCR1_EOFF_SHIFT +#undef DDR_PHY_VTCR1_EOFF_MASK +#define DDR_PHY_VTCR1_EOFF_DEFVAL 0x07F00072 +#define DDR_PHY_VTCR1_EOFF_SHIFT 3 +#define DDR_PHY_VTCR1_EOFF_MASK 0x00000018U + +/*Number of LCDL Eye points for which VREF training is repeated*/ +#undef DDR_PHY_VTCR1_ENUM_DEFVAL +#undef DDR_PHY_VTCR1_ENUM_SHIFT +#undef DDR_PHY_VTCR1_ENUM_MASK +#define DDR_PHY_VTCR1_ENUM_DEFVAL 0x07F00072 +#define DDR_PHY_VTCR1_ENUM_SHIFT 2 +#define DDR_PHY_VTCR1_ENUM_MASK 0x00000004U + +/*HOST (IO) internal VREF training Enable*/ +#undef DDR_PHY_VTCR1_HVEN_DEFVAL +#undef DDR_PHY_VTCR1_HVEN_SHIFT +#undef DDR_PHY_VTCR1_HVEN_MASK +#define DDR_PHY_VTCR1_HVEN_DEFVAL 0x07F00072 +#define DDR_PHY_VTCR1_HVEN_SHIFT 1 +#define DDR_PHY_VTCR1_HVEN_MASK 0x00000002U + +/*Host IO Type Control*/ +#undef DDR_PHY_VTCR1_HVIO_DEFVAL +#undef DDR_PHY_VTCR1_HVIO_SHIFT +#undef DDR_PHY_VTCR1_HVIO_MASK +#define DDR_PHY_VTCR1_HVIO_DEFVAL 0x07F00072 +#define DDR_PHY_VTCR1_HVIO_SHIFT 0 +#define DDR_PHY_VTCR1_HVIO_MASK 0x00000001U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_ACBDLR1_RESERVED_31_30_DEFVAL +#undef DDR_PHY_ACBDLR1_RESERVED_31_30_SHIFT +#undef DDR_PHY_ACBDLR1_RESERVED_31_30_MASK +#define DDR_PHY_ACBDLR1_RESERVED_31_30_DEFVAL 0x00000000 +#define DDR_PHY_ACBDLR1_RESERVED_31_30_SHIFT 30 +#define DDR_PHY_ACBDLR1_RESERVED_31_30_MASK 0xC0000000U + +/*Delay select for the BDL on Parity.*/ +#undef DDR_PHY_ACBDLR1_PARBD_DEFVAL +#undef DDR_PHY_ACBDLR1_PARBD_SHIFT +#undef DDR_PHY_ACBDLR1_PARBD_MASK +#define DDR_PHY_ACBDLR1_PARBD_DEFVAL 0x00000000 +#define DDR_PHY_ACBDLR1_PARBD_SHIFT 24 +#define DDR_PHY_ACBDLR1_PARBD_MASK 0x3F000000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_ACBDLR1_RESERVED_23_22_DEFVAL +#undef DDR_PHY_ACBDLR1_RESERVED_23_22_SHIFT +#undef DDR_PHY_ACBDLR1_RESERVED_23_22_MASK +#define DDR_PHY_ACBDLR1_RESERVED_23_22_DEFVAL 0x00000000 +#define DDR_PHY_ACBDLR1_RESERVED_23_22_SHIFT 22 +#define DDR_PHY_ACBDLR1_RESERVED_23_22_MASK 0x00C00000U + +/*Delay select for the BDL on Address A[16]. In DDR3 mode this pin is connected to WE.*/ +#undef DDR_PHY_ACBDLR1_A16BD_DEFVAL +#undef DDR_PHY_ACBDLR1_A16BD_SHIFT +#undef DDR_PHY_ACBDLR1_A16BD_MASK +#define DDR_PHY_ACBDLR1_A16BD_DEFVAL 0x00000000 +#define DDR_PHY_ACBDLR1_A16BD_SHIFT 16 +#define DDR_PHY_ACBDLR1_A16BD_MASK 0x003F0000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_ACBDLR1_RESERVED_15_14_DEFVAL +#undef DDR_PHY_ACBDLR1_RESERVED_15_14_SHIFT +#undef DDR_PHY_ACBDLR1_RESERVED_15_14_MASK +#define DDR_PHY_ACBDLR1_RESERVED_15_14_DEFVAL 0x00000000 +#define DDR_PHY_ACBDLR1_RESERVED_15_14_SHIFT 14 +#define DDR_PHY_ACBDLR1_RESERVED_15_14_MASK 0x0000C000U + +/*Delay select for the BDL on Address A[17]. When not in DDR4 modemode this pin is connected to CAS.*/ +#undef DDR_PHY_ACBDLR1_A17BD_DEFVAL +#undef DDR_PHY_ACBDLR1_A17BD_SHIFT +#undef DDR_PHY_ACBDLR1_A17BD_MASK +#define DDR_PHY_ACBDLR1_A17BD_DEFVAL 0x00000000 +#define DDR_PHY_ACBDLR1_A17BD_SHIFT 8 +#define DDR_PHY_ACBDLR1_A17BD_MASK 0x00003F00U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_ACBDLR1_RESERVED_7_6_DEFVAL +#undef DDR_PHY_ACBDLR1_RESERVED_7_6_SHIFT +#undef DDR_PHY_ACBDLR1_RESERVED_7_6_MASK +#define DDR_PHY_ACBDLR1_RESERVED_7_6_DEFVAL 0x00000000 +#define DDR_PHY_ACBDLR1_RESERVED_7_6_SHIFT 6 +#define DDR_PHY_ACBDLR1_RESERVED_7_6_MASK 0x000000C0U + +/*Delay select for the BDL on ACTN.*/ +#undef DDR_PHY_ACBDLR1_ACTBD_DEFVAL +#undef DDR_PHY_ACBDLR1_ACTBD_SHIFT +#undef DDR_PHY_ACBDLR1_ACTBD_MASK +#define DDR_PHY_ACBDLR1_ACTBD_DEFVAL 0x00000000 +#define DDR_PHY_ACBDLR1_ACTBD_SHIFT 0 +#define DDR_PHY_ACBDLR1_ACTBD_MASK 0x0000003FU + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_ACBDLR2_RESERVED_31_30_DEFVAL +#undef DDR_PHY_ACBDLR2_RESERVED_31_30_SHIFT +#undef DDR_PHY_ACBDLR2_RESERVED_31_30_MASK +#define DDR_PHY_ACBDLR2_RESERVED_31_30_DEFVAL 0x00000000 +#define DDR_PHY_ACBDLR2_RESERVED_31_30_SHIFT 30 +#define DDR_PHY_ACBDLR2_RESERVED_31_30_MASK 0xC0000000U + +/*Delay select for the BDL on BG[1].*/ +#undef DDR_PHY_ACBDLR2_BG1BD_DEFVAL +#undef DDR_PHY_ACBDLR2_BG1BD_SHIFT +#undef DDR_PHY_ACBDLR2_BG1BD_MASK +#define DDR_PHY_ACBDLR2_BG1BD_DEFVAL 0x00000000 +#define DDR_PHY_ACBDLR2_BG1BD_SHIFT 24 +#define DDR_PHY_ACBDLR2_BG1BD_MASK 0x3F000000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_ACBDLR2_RESERVED_23_22_DEFVAL +#undef DDR_PHY_ACBDLR2_RESERVED_23_22_SHIFT +#undef DDR_PHY_ACBDLR2_RESERVED_23_22_MASK +#define DDR_PHY_ACBDLR2_RESERVED_23_22_DEFVAL 0x00000000 +#define DDR_PHY_ACBDLR2_RESERVED_23_22_SHIFT 22 +#define DDR_PHY_ACBDLR2_RESERVED_23_22_MASK 0x00C00000U + +/*Delay select for the BDL on BG[0].*/ +#undef DDR_PHY_ACBDLR2_BG0BD_DEFVAL +#undef DDR_PHY_ACBDLR2_BG0BD_SHIFT +#undef DDR_PHY_ACBDLR2_BG0BD_MASK +#define DDR_PHY_ACBDLR2_BG0BD_DEFVAL 0x00000000 +#define DDR_PHY_ACBDLR2_BG0BD_SHIFT 16 +#define DDR_PHY_ACBDLR2_BG0BD_MASK 0x003F0000U + +/*Reser.ved Return zeroes on reads.*/ +#undef DDR_PHY_ACBDLR2_RESERVED_15_14_DEFVAL +#undef DDR_PHY_ACBDLR2_RESERVED_15_14_SHIFT +#undef DDR_PHY_ACBDLR2_RESERVED_15_14_MASK +#define DDR_PHY_ACBDLR2_RESERVED_15_14_DEFVAL 0x00000000 +#define DDR_PHY_ACBDLR2_RESERVED_15_14_SHIFT 14 +#define DDR_PHY_ACBDLR2_RESERVED_15_14_MASK 0x0000C000U + +/*Delay select for the BDL on BA[1].*/ +#undef DDR_PHY_ACBDLR2_BA1BD_DEFVAL +#undef DDR_PHY_ACBDLR2_BA1BD_SHIFT +#undef DDR_PHY_ACBDLR2_BA1BD_MASK +#define DDR_PHY_ACBDLR2_BA1BD_DEFVAL 0x00000000 +#define DDR_PHY_ACBDLR2_BA1BD_SHIFT 8 +#define DDR_PHY_ACBDLR2_BA1BD_MASK 0x00003F00U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_ACBDLR2_RESERVED_7_6_DEFVAL +#undef DDR_PHY_ACBDLR2_RESERVED_7_6_SHIFT +#undef DDR_PHY_ACBDLR2_RESERVED_7_6_MASK +#define DDR_PHY_ACBDLR2_RESERVED_7_6_DEFVAL 0x00000000 +#define DDR_PHY_ACBDLR2_RESERVED_7_6_SHIFT 6 +#define DDR_PHY_ACBDLR2_RESERVED_7_6_MASK 0x000000C0U + +/*Delay select for the BDL on BA[0].*/ +#undef DDR_PHY_ACBDLR2_BA0BD_DEFVAL +#undef DDR_PHY_ACBDLR2_BA0BD_SHIFT +#undef DDR_PHY_ACBDLR2_BA0BD_MASK +#define DDR_PHY_ACBDLR2_BA0BD_DEFVAL 0x00000000 +#define DDR_PHY_ACBDLR2_BA0BD_SHIFT 0 +#define DDR_PHY_ACBDLR2_BA0BD_MASK 0x0000003FU + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_ACBDLR6_RESERVED_31_30_DEFVAL +#undef DDR_PHY_ACBDLR6_RESERVED_31_30_SHIFT +#undef DDR_PHY_ACBDLR6_RESERVED_31_30_MASK +#define DDR_PHY_ACBDLR6_RESERVED_31_30_DEFVAL 0x00000000 +#define DDR_PHY_ACBDLR6_RESERVED_31_30_SHIFT 30 +#define DDR_PHY_ACBDLR6_RESERVED_31_30_MASK 0xC0000000U + +/*Delay select for the BDL on Address A[3].*/ +#undef DDR_PHY_ACBDLR6_A03BD_DEFVAL +#undef DDR_PHY_ACBDLR6_A03BD_SHIFT +#undef DDR_PHY_ACBDLR6_A03BD_MASK +#define DDR_PHY_ACBDLR6_A03BD_DEFVAL 0x00000000 +#define DDR_PHY_ACBDLR6_A03BD_SHIFT 24 +#define DDR_PHY_ACBDLR6_A03BD_MASK 0x3F000000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_ACBDLR6_RESERVED_23_22_DEFVAL +#undef DDR_PHY_ACBDLR6_RESERVED_23_22_SHIFT +#undef DDR_PHY_ACBDLR6_RESERVED_23_22_MASK +#define DDR_PHY_ACBDLR6_RESERVED_23_22_DEFVAL 0x00000000 +#define DDR_PHY_ACBDLR6_RESERVED_23_22_SHIFT 22 +#define DDR_PHY_ACBDLR6_RESERVED_23_22_MASK 0x00C00000U + +/*Delay select for the BDL on Address A[2].*/ +#undef DDR_PHY_ACBDLR6_A02BD_DEFVAL +#undef DDR_PHY_ACBDLR6_A02BD_SHIFT +#undef DDR_PHY_ACBDLR6_A02BD_MASK +#define DDR_PHY_ACBDLR6_A02BD_DEFVAL 0x00000000 +#define DDR_PHY_ACBDLR6_A02BD_SHIFT 16 +#define DDR_PHY_ACBDLR6_A02BD_MASK 0x003F0000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_ACBDLR6_RESERVED_15_14_DEFVAL +#undef DDR_PHY_ACBDLR6_RESERVED_15_14_SHIFT +#undef DDR_PHY_ACBDLR6_RESERVED_15_14_MASK +#define DDR_PHY_ACBDLR6_RESERVED_15_14_DEFVAL 0x00000000 +#define DDR_PHY_ACBDLR6_RESERVED_15_14_SHIFT 14 +#define DDR_PHY_ACBDLR6_RESERVED_15_14_MASK 0x0000C000U + +/*Delay select for the BDL on Address A[1].*/ +#undef DDR_PHY_ACBDLR6_A01BD_DEFVAL +#undef DDR_PHY_ACBDLR6_A01BD_SHIFT +#undef DDR_PHY_ACBDLR6_A01BD_MASK +#define DDR_PHY_ACBDLR6_A01BD_DEFVAL 0x00000000 +#define DDR_PHY_ACBDLR6_A01BD_SHIFT 8 +#define DDR_PHY_ACBDLR6_A01BD_MASK 0x00003F00U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_ACBDLR6_RESERVED_7_6_DEFVAL +#undef DDR_PHY_ACBDLR6_RESERVED_7_6_SHIFT +#undef DDR_PHY_ACBDLR6_RESERVED_7_6_MASK +#define DDR_PHY_ACBDLR6_RESERVED_7_6_DEFVAL 0x00000000 +#define DDR_PHY_ACBDLR6_RESERVED_7_6_SHIFT 6 +#define DDR_PHY_ACBDLR6_RESERVED_7_6_MASK 0x000000C0U + +/*Delay select for the BDL on Address A[0].*/ +#undef DDR_PHY_ACBDLR6_A00BD_DEFVAL +#undef DDR_PHY_ACBDLR6_A00BD_SHIFT +#undef DDR_PHY_ACBDLR6_A00BD_MASK +#define DDR_PHY_ACBDLR6_A00BD_DEFVAL 0x00000000 +#define DDR_PHY_ACBDLR6_A00BD_SHIFT 0 +#define DDR_PHY_ACBDLR6_A00BD_MASK 0x0000003FU + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_ACBDLR7_RESERVED_31_30_DEFVAL +#undef DDR_PHY_ACBDLR7_RESERVED_31_30_SHIFT +#undef DDR_PHY_ACBDLR7_RESERVED_31_30_MASK +#define DDR_PHY_ACBDLR7_RESERVED_31_30_DEFVAL 0x00000000 +#define DDR_PHY_ACBDLR7_RESERVED_31_30_SHIFT 30 +#define DDR_PHY_ACBDLR7_RESERVED_31_30_MASK 0xC0000000U + +/*Delay select for the BDL on Address A[7].*/ +#undef DDR_PHY_ACBDLR7_A07BD_DEFVAL +#undef DDR_PHY_ACBDLR7_A07BD_SHIFT +#undef DDR_PHY_ACBDLR7_A07BD_MASK +#define DDR_PHY_ACBDLR7_A07BD_DEFVAL 0x00000000 +#define DDR_PHY_ACBDLR7_A07BD_SHIFT 24 +#define DDR_PHY_ACBDLR7_A07BD_MASK 0x3F000000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_ACBDLR7_RESERVED_23_22_DEFVAL +#undef DDR_PHY_ACBDLR7_RESERVED_23_22_SHIFT +#undef DDR_PHY_ACBDLR7_RESERVED_23_22_MASK +#define DDR_PHY_ACBDLR7_RESERVED_23_22_DEFVAL 0x00000000 +#define DDR_PHY_ACBDLR7_RESERVED_23_22_SHIFT 22 +#define DDR_PHY_ACBDLR7_RESERVED_23_22_MASK 0x00C00000U + +/*Delay select for the BDL on Address A[6].*/ +#undef DDR_PHY_ACBDLR7_A06BD_DEFVAL +#undef DDR_PHY_ACBDLR7_A06BD_SHIFT +#undef DDR_PHY_ACBDLR7_A06BD_MASK +#define DDR_PHY_ACBDLR7_A06BD_DEFVAL 0x00000000 +#define DDR_PHY_ACBDLR7_A06BD_SHIFT 16 +#define DDR_PHY_ACBDLR7_A06BD_MASK 0x003F0000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_ACBDLR7_RESERVED_15_14_DEFVAL +#undef DDR_PHY_ACBDLR7_RESERVED_15_14_SHIFT +#undef DDR_PHY_ACBDLR7_RESERVED_15_14_MASK +#define DDR_PHY_ACBDLR7_RESERVED_15_14_DEFVAL 0x00000000 +#define DDR_PHY_ACBDLR7_RESERVED_15_14_SHIFT 14 +#define DDR_PHY_ACBDLR7_RESERVED_15_14_MASK 0x0000C000U + +/*Delay select for the BDL on Address A[5].*/ +#undef DDR_PHY_ACBDLR7_A05BD_DEFVAL +#undef DDR_PHY_ACBDLR7_A05BD_SHIFT +#undef DDR_PHY_ACBDLR7_A05BD_MASK +#define DDR_PHY_ACBDLR7_A05BD_DEFVAL 0x00000000 +#define DDR_PHY_ACBDLR7_A05BD_SHIFT 8 +#define DDR_PHY_ACBDLR7_A05BD_MASK 0x00003F00U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_ACBDLR7_RESERVED_7_6_DEFVAL +#undef DDR_PHY_ACBDLR7_RESERVED_7_6_SHIFT +#undef DDR_PHY_ACBDLR7_RESERVED_7_6_MASK +#define DDR_PHY_ACBDLR7_RESERVED_7_6_DEFVAL 0x00000000 +#define DDR_PHY_ACBDLR7_RESERVED_7_6_SHIFT 6 +#define DDR_PHY_ACBDLR7_RESERVED_7_6_MASK 0x000000C0U + +/*Delay select for the BDL on Address A[4].*/ +#undef DDR_PHY_ACBDLR7_A04BD_DEFVAL +#undef DDR_PHY_ACBDLR7_A04BD_SHIFT +#undef DDR_PHY_ACBDLR7_A04BD_MASK +#define DDR_PHY_ACBDLR7_A04BD_DEFVAL 0x00000000 +#define DDR_PHY_ACBDLR7_A04BD_SHIFT 0 +#define DDR_PHY_ACBDLR7_A04BD_MASK 0x0000003FU + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_ACBDLR8_RESERVED_31_30_DEFVAL +#undef DDR_PHY_ACBDLR8_RESERVED_31_30_SHIFT +#undef DDR_PHY_ACBDLR8_RESERVED_31_30_MASK +#define DDR_PHY_ACBDLR8_RESERVED_31_30_DEFVAL 0x00000000 +#define DDR_PHY_ACBDLR8_RESERVED_31_30_SHIFT 30 +#define DDR_PHY_ACBDLR8_RESERVED_31_30_MASK 0xC0000000U + +/*Delay select for the BDL on Address A[11].*/ +#undef DDR_PHY_ACBDLR8_A11BD_DEFVAL +#undef DDR_PHY_ACBDLR8_A11BD_SHIFT +#undef DDR_PHY_ACBDLR8_A11BD_MASK +#define DDR_PHY_ACBDLR8_A11BD_DEFVAL 0x00000000 +#define DDR_PHY_ACBDLR8_A11BD_SHIFT 24 +#define DDR_PHY_ACBDLR8_A11BD_MASK 0x3F000000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_ACBDLR8_RESERVED_23_22_DEFVAL +#undef DDR_PHY_ACBDLR8_RESERVED_23_22_SHIFT +#undef DDR_PHY_ACBDLR8_RESERVED_23_22_MASK +#define DDR_PHY_ACBDLR8_RESERVED_23_22_DEFVAL 0x00000000 +#define DDR_PHY_ACBDLR8_RESERVED_23_22_SHIFT 22 +#define DDR_PHY_ACBDLR8_RESERVED_23_22_MASK 0x00C00000U + +/*Delay select for the BDL on Address A[10].*/ +#undef DDR_PHY_ACBDLR8_A10BD_DEFVAL +#undef DDR_PHY_ACBDLR8_A10BD_SHIFT +#undef DDR_PHY_ACBDLR8_A10BD_MASK +#define DDR_PHY_ACBDLR8_A10BD_DEFVAL 0x00000000 +#define DDR_PHY_ACBDLR8_A10BD_SHIFT 16 +#define DDR_PHY_ACBDLR8_A10BD_MASK 0x003F0000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_ACBDLR8_RESERVED_15_14_DEFVAL +#undef DDR_PHY_ACBDLR8_RESERVED_15_14_SHIFT +#undef DDR_PHY_ACBDLR8_RESERVED_15_14_MASK +#define DDR_PHY_ACBDLR8_RESERVED_15_14_DEFVAL 0x00000000 +#define DDR_PHY_ACBDLR8_RESERVED_15_14_SHIFT 14 +#define DDR_PHY_ACBDLR8_RESERVED_15_14_MASK 0x0000C000U + +/*Delay select for the BDL on Address A[9].*/ +#undef DDR_PHY_ACBDLR8_A09BD_DEFVAL +#undef DDR_PHY_ACBDLR8_A09BD_SHIFT +#undef DDR_PHY_ACBDLR8_A09BD_MASK +#define DDR_PHY_ACBDLR8_A09BD_DEFVAL 0x00000000 +#define DDR_PHY_ACBDLR8_A09BD_SHIFT 8 +#define DDR_PHY_ACBDLR8_A09BD_MASK 0x00003F00U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_ACBDLR8_RESERVED_7_6_DEFVAL +#undef DDR_PHY_ACBDLR8_RESERVED_7_6_SHIFT +#undef DDR_PHY_ACBDLR8_RESERVED_7_6_MASK +#define DDR_PHY_ACBDLR8_RESERVED_7_6_DEFVAL 0x00000000 +#define DDR_PHY_ACBDLR8_RESERVED_7_6_SHIFT 6 +#define DDR_PHY_ACBDLR8_RESERVED_7_6_MASK 0x000000C0U + +/*Delay select for the BDL on Address A[8].*/ +#undef DDR_PHY_ACBDLR8_A08BD_DEFVAL +#undef DDR_PHY_ACBDLR8_A08BD_SHIFT +#undef DDR_PHY_ACBDLR8_A08BD_MASK +#define DDR_PHY_ACBDLR8_A08BD_DEFVAL 0x00000000 +#define DDR_PHY_ACBDLR8_A08BD_SHIFT 0 +#define DDR_PHY_ACBDLR8_A08BD_MASK 0x0000003FU + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_ACBDLR9_RESERVED_31_30_DEFVAL +#undef DDR_PHY_ACBDLR9_RESERVED_31_30_SHIFT +#undef DDR_PHY_ACBDLR9_RESERVED_31_30_MASK +#define DDR_PHY_ACBDLR9_RESERVED_31_30_DEFVAL 0x00000000 +#define DDR_PHY_ACBDLR9_RESERVED_31_30_SHIFT 30 +#define DDR_PHY_ACBDLR9_RESERVED_31_30_MASK 0xC0000000U + +/*Delay select for the BDL on Address A[15].*/ +#undef DDR_PHY_ACBDLR9_A15BD_DEFVAL +#undef DDR_PHY_ACBDLR9_A15BD_SHIFT +#undef DDR_PHY_ACBDLR9_A15BD_MASK +#define DDR_PHY_ACBDLR9_A15BD_DEFVAL 0x00000000 +#define DDR_PHY_ACBDLR9_A15BD_SHIFT 24 +#define DDR_PHY_ACBDLR9_A15BD_MASK 0x3F000000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_ACBDLR9_RESERVED_23_22_DEFVAL +#undef DDR_PHY_ACBDLR9_RESERVED_23_22_SHIFT +#undef DDR_PHY_ACBDLR9_RESERVED_23_22_MASK +#define DDR_PHY_ACBDLR9_RESERVED_23_22_DEFVAL 0x00000000 +#define DDR_PHY_ACBDLR9_RESERVED_23_22_SHIFT 22 +#define DDR_PHY_ACBDLR9_RESERVED_23_22_MASK 0x00C00000U + +/*Delay select for the BDL on Address A[14].*/ +#undef DDR_PHY_ACBDLR9_A14BD_DEFVAL +#undef DDR_PHY_ACBDLR9_A14BD_SHIFT +#undef DDR_PHY_ACBDLR9_A14BD_MASK +#define DDR_PHY_ACBDLR9_A14BD_DEFVAL 0x00000000 +#define DDR_PHY_ACBDLR9_A14BD_SHIFT 16 +#define DDR_PHY_ACBDLR9_A14BD_MASK 0x003F0000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_ACBDLR9_RESERVED_15_14_DEFVAL +#undef DDR_PHY_ACBDLR9_RESERVED_15_14_SHIFT +#undef DDR_PHY_ACBDLR9_RESERVED_15_14_MASK +#define DDR_PHY_ACBDLR9_RESERVED_15_14_DEFVAL 0x00000000 +#define DDR_PHY_ACBDLR9_RESERVED_15_14_SHIFT 14 +#define DDR_PHY_ACBDLR9_RESERVED_15_14_MASK 0x0000C000U + +/*Delay select for the BDL on Address A[13].*/ +#undef DDR_PHY_ACBDLR9_A13BD_DEFVAL +#undef DDR_PHY_ACBDLR9_A13BD_SHIFT +#undef DDR_PHY_ACBDLR9_A13BD_MASK +#define DDR_PHY_ACBDLR9_A13BD_DEFVAL 0x00000000 +#define DDR_PHY_ACBDLR9_A13BD_SHIFT 8 +#define DDR_PHY_ACBDLR9_A13BD_MASK 0x00003F00U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_ACBDLR9_RESERVED_7_6_DEFVAL +#undef DDR_PHY_ACBDLR9_RESERVED_7_6_SHIFT +#undef DDR_PHY_ACBDLR9_RESERVED_7_6_MASK +#define DDR_PHY_ACBDLR9_RESERVED_7_6_DEFVAL 0x00000000 +#define DDR_PHY_ACBDLR9_RESERVED_7_6_SHIFT 6 +#define DDR_PHY_ACBDLR9_RESERVED_7_6_MASK 0x000000C0U + +/*Delay select for the BDL on Address A[12].*/ +#undef DDR_PHY_ACBDLR9_A12BD_DEFVAL +#undef DDR_PHY_ACBDLR9_A12BD_SHIFT +#undef DDR_PHY_ACBDLR9_A12BD_MASK +#define DDR_PHY_ACBDLR9_A12BD_DEFVAL 0x00000000 +#define DDR_PHY_ACBDLR9_A12BD_SHIFT 0 +#define DDR_PHY_ACBDLR9_A12BD_MASK 0x0000003FU + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_ZQCR_RESERVED_31_26_DEFVAL +#undef DDR_PHY_ZQCR_RESERVED_31_26_SHIFT +#undef DDR_PHY_ZQCR_RESERVED_31_26_MASK +#define DDR_PHY_ZQCR_RESERVED_31_26_DEFVAL 0x008A2858 +#define DDR_PHY_ZQCR_RESERVED_31_26_SHIFT 26 +#define DDR_PHY_ZQCR_RESERVED_31_26_MASK 0xFC000000U + +/*ZQ VREF Range*/ +#undef DDR_PHY_ZQCR_ZQREFISELRANGE_DEFVAL +#undef DDR_PHY_ZQCR_ZQREFISELRANGE_SHIFT +#undef DDR_PHY_ZQCR_ZQREFISELRANGE_MASK +#define DDR_PHY_ZQCR_ZQREFISELRANGE_DEFVAL 0x008A2858 +#define DDR_PHY_ZQCR_ZQREFISELRANGE_SHIFT 25 +#define DDR_PHY_ZQCR_ZQREFISELRANGE_MASK 0x02000000U + +/*Programmable Wait for Frequency B*/ +#undef DDR_PHY_ZQCR_PGWAIT_FRQB_DEFVAL +#undef DDR_PHY_ZQCR_PGWAIT_FRQB_SHIFT +#undef DDR_PHY_ZQCR_PGWAIT_FRQB_MASK +#define DDR_PHY_ZQCR_PGWAIT_FRQB_DEFVAL 0x008A2858 +#define DDR_PHY_ZQCR_PGWAIT_FRQB_SHIFT 19 +#define DDR_PHY_ZQCR_PGWAIT_FRQB_MASK 0x01F80000U + +/*Programmable Wait for Frequency A*/ +#undef DDR_PHY_ZQCR_PGWAIT_FRQA_DEFVAL +#undef DDR_PHY_ZQCR_PGWAIT_FRQA_SHIFT +#undef DDR_PHY_ZQCR_PGWAIT_FRQA_MASK +#define DDR_PHY_ZQCR_PGWAIT_FRQA_DEFVAL 0x008A2858 +#define DDR_PHY_ZQCR_PGWAIT_FRQA_SHIFT 13 +#define DDR_PHY_ZQCR_PGWAIT_FRQA_MASK 0x0007E000U + +/*ZQ VREF Pad Enable*/ +#undef DDR_PHY_ZQCR_ZQREFPEN_DEFVAL +#undef DDR_PHY_ZQCR_ZQREFPEN_SHIFT +#undef DDR_PHY_ZQCR_ZQREFPEN_MASK +#define DDR_PHY_ZQCR_ZQREFPEN_DEFVAL 0x008A2858 +#define DDR_PHY_ZQCR_ZQREFPEN_SHIFT 12 +#define DDR_PHY_ZQCR_ZQREFPEN_MASK 0x00001000U + +/*ZQ Internal VREF Enable*/ +#undef DDR_PHY_ZQCR_ZQREFIEN_DEFVAL +#undef DDR_PHY_ZQCR_ZQREFIEN_SHIFT +#undef DDR_PHY_ZQCR_ZQREFIEN_MASK +#define DDR_PHY_ZQCR_ZQREFIEN_DEFVAL 0x008A2858 +#define DDR_PHY_ZQCR_ZQREFIEN_SHIFT 11 +#define DDR_PHY_ZQCR_ZQREFIEN_MASK 0x00000800U + +/*Choice of termination mode*/ +#undef DDR_PHY_ZQCR_ODT_MODE_DEFVAL +#undef DDR_PHY_ZQCR_ODT_MODE_SHIFT +#undef DDR_PHY_ZQCR_ODT_MODE_MASK +#define DDR_PHY_ZQCR_ODT_MODE_DEFVAL 0x008A2858 +#define DDR_PHY_ZQCR_ODT_MODE_SHIFT 9 +#define DDR_PHY_ZQCR_ODT_MODE_MASK 0x00000600U + +/*Force ZCAL VT update*/ +#undef DDR_PHY_ZQCR_FORCE_ZCAL_VT_UPDATE_DEFVAL +#undef DDR_PHY_ZQCR_FORCE_ZCAL_VT_UPDATE_SHIFT +#undef DDR_PHY_ZQCR_FORCE_ZCAL_VT_UPDATE_MASK +#define DDR_PHY_ZQCR_FORCE_ZCAL_VT_UPDATE_DEFVAL 0x008A2858 +#define DDR_PHY_ZQCR_FORCE_ZCAL_VT_UPDATE_SHIFT 8 +#define DDR_PHY_ZQCR_FORCE_ZCAL_VT_UPDATE_MASK 0x00000100U + +/*IO VT Drift Limit*/ +#undef DDR_PHY_ZQCR_IODLMT_DEFVAL +#undef DDR_PHY_ZQCR_IODLMT_SHIFT +#undef DDR_PHY_ZQCR_IODLMT_MASK +#define DDR_PHY_ZQCR_IODLMT_DEFVAL 0x008A2858 +#define DDR_PHY_ZQCR_IODLMT_SHIFT 5 +#define DDR_PHY_ZQCR_IODLMT_MASK 0x000000E0U + +/*Averaging algorithm enable, if set, enables averaging algorithm*/ +#undef DDR_PHY_ZQCR_AVGEN_DEFVAL +#undef DDR_PHY_ZQCR_AVGEN_SHIFT +#undef DDR_PHY_ZQCR_AVGEN_MASK +#define DDR_PHY_ZQCR_AVGEN_DEFVAL 0x008A2858 +#define DDR_PHY_ZQCR_AVGEN_SHIFT 4 +#define DDR_PHY_ZQCR_AVGEN_MASK 0x00000010U + +/*Maximum number of averaging rounds to be used by averaging algorithm*/ +#undef DDR_PHY_ZQCR_AVGMAX_DEFVAL +#undef DDR_PHY_ZQCR_AVGMAX_SHIFT +#undef DDR_PHY_ZQCR_AVGMAX_MASK +#define DDR_PHY_ZQCR_AVGMAX_DEFVAL 0x008A2858 +#define DDR_PHY_ZQCR_AVGMAX_SHIFT 2 +#define DDR_PHY_ZQCR_AVGMAX_MASK 0x0000000CU + +/*ZQ Calibration Type*/ +#undef DDR_PHY_ZQCR_ZCALT_DEFVAL +#undef DDR_PHY_ZQCR_ZCALT_SHIFT +#undef DDR_PHY_ZQCR_ZCALT_MASK +#define DDR_PHY_ZQCR_ZCALT_DEFVAL 0x008A2858 +#define DDR_PHY_ZQCR_ZCALT_SHIFT 1 +#define DDR_PHY_ZQCR_ZCALT_MASK 0x00000002U + +/*ZQ Power Down*/ +#undef DDR_PHY_ZQCR_ZQPD_DEFVAL +#undef DDR_PHY_ZQCR_ZQPD_SHIFT +#undef DDR_PHY_ZQCR_ZQPD_MASK +#define DDR_PHY_ZQCR_ZQPD_DEFVAL 0x008A2858 +#define DDR_PHY_ZQCR_ZQPD_SHIFT 0 +#define DDR_PHY_ZQCR_ZQPD_MASK 0x00000001U + +/*Pull-down drive strength ZCTRL over-ride enable*/ +#undef DDR_PHY_ZQ0PR0_PD_DRV_ZDEN_DEFVAL +#undef DDR_PHY_ZQ0PR0_PD_DRV_ZDEN_SHIFT +#undef DDR_PHY_ZQ0PR0_PD_DRV_ZDEN_MASK +#define DDR_PHY_ZQ0PR0_PD_DRV_ZDEN_DEFVAL 0x000077BB +#define DDR_PHY_ZQ0PR0_PD_DRV_ZDEN_SHIFT 31 +#define DDR_PHY_ZQ0PR0_PD_DRV_ZDEN_MASK 0x80000000U + +/*Pull-up drive strength ZCTRL over-ride enable*/ +#undef DDR_PHY_ZQ0PR0_PU_DRV_ZDEN_DEFVAL +#undef DDR_PHY_ZQ0PR0_PU_DRV_ZDEN_SHIFT +#undef DDR_PHY_ZQ0PR0_PU_DRV_ZDEN_MASK +#define DDR_PHY_ZQ0PR0_PU_DRV_ZDEN_DEFVAL 0x000077BB +#define DDR_PHY_ZQ0PR0_PU_DRV_ZDEN_SHIFT 30 +#define DDR_PHY_ZQ0PR0_PU_DRV_ZDEN_MASK 0x40000000U + +/*Pull-down termination ZCTRL over-ride enable*/ +#undef DDR_PHY_ZQ0PR0_PD_ODT_ZDEN_DEFVAL +#undef DDR_PHY_ZQ0PR0_PD_ODT_ZDEN_SHIFT +#undef DDR_PHY_ZQ0PR0_PD_ODT_ZDEN_MASK +#define DDR_PHY_ZQ0PR0_PD_ODT_ZDEN_DEFVAL 0x000077BB +#define DDR_PHY_ZQ0PR0_PD_ODT_ZDEN_SHIFT 29 +#define DDR_PHY_ZQ0PR0_PD_ODT_ZDEN_MASK 0x20000000U + +/*Pull-up termination ZCTRL over-ride enable*/ +#undef DDR_PHY_ZQ0PR0_PU_ODT_ZDEN_DEFVAL +#undef DDR_PHY_ZQ0PR0_PU_ODT_ZDEN_SHIFT +#undef DDR_PHY_ZQ0PR0_PU_ODT_ZDEN_MASK +#define DDR_PHY_ZQ0PR0_PU_ODT_ZDEN_DEFVAL 0x000077BB +#define DDR_PHY_ZQ0PR0_PU_ODT_ZDEN_SHIFT 28 +#define DDR_PHY_ZQ0PR0_PU_ODT_ZDEN_MASK 0x10000000U + +/*Calibration segment bypass*/ +#undef DDR_PHY_ZQ0PR0_ZSEGBYP_DEFVAL +#undef DDR_PHY_ZQ0PR0_ZSEGBYP_SHIFT +#undef DDR_PHY_ZQ0PR0_ZSEGBYP_MASK +#define DDR_PHY_ZQ0PR0_ZSEGBYP_DEFVAL 0x000077BB +#define DDR_PHY_ZQ0PR0_ZSEGBYP_SHIFT 27 +#define DDR_PHY_ZQ0PR0_ZSEGBYP_MASK 0x08000000U + +/*VREF latch mode controls the mode in which the ZLE pin of the PVREF cell is driven by the PUB*/ +#undef DDR_PHY_ZQ0PR0_ZLE_MODE_DEFVAL +#undef DDR_PHY_ZQ0PR0_ZLE_MODE_SHIFT +#undef DDR_PHY_ZQ0PR0_ZLE_MODE_MASK +#define DDR_PHY_ZQ0PR0_ZLE_MODE_DEFVAL 0x000077BB +#define DDR_PHY_ZQ0PR0_ZLE_MODE_SHIFT 25 +#define DDR_PHY_ZQ0PR0_ZLE_MODE_MASK 0x06000000U + +/*Termination adjustment*/ +#undef DDR_PHY_ZQ0PR0_ODT_ADJUST_DEFVAL +#undef DDR_PHY_ZQ0PR0_ODT_ADJUST_SHIFT +#undef DDR_PHY_ZQ0PR0_ODT_ADJUST_MASK +#define DDR_PHY_ZQ0PR0_ODT_ADJUST_DEFVAL 0x000077BB +#define DDR_PHY_ZQ0PR0_ODT_ADJUST_SHIFT 22 +#define DDR_PHY_ZQ0PR0_ODT_ADJUST_MASK 0x01C00000U + +/*Pulldown drive strength adjustment*/ +#undef DDR_PHY_ZQ0PR0_PD_DRV_ADJUST_DEFVAL +#undef DDR_PHY_ZQ0PR0_PD_DRV_ADJUST_SHIFT +#undef DDR_PHY_ZQ0PR0_PD_DRV_ADJUST_MASK +#define DDR_PHY_ZQ0PR0_PD_DRV_ADJUST_DEFVAL 0x000077BB +#define DDR_PHY_ZQ0PR0_PD_DRV_ADJUST_SHIFT 19 +#define DDR_PHY_ZQ0PR0_PD_DRV_ADJUST_MASK 0x00380000U + +/*Pullup drive strength adjustment*/ +#undef DDR_PHY_ZQ0PR0_PU_DRV_ADJUST_DEFVAL +#undef DDR_PHY_ZQ0PR0_PU_DRV_ADJUST_SHIFT +#undef DDR_PHY_ZQ0PR0_PU_DRV_ADJUST_MASK +#define DDR_PHY_ZQ0PR0_PU_DRV_ADJUST_DEFVAL 0x000077BB +#define DDR_PHY_ZQ0PR0_PU_DRV_ADJUST_SHIFT 16 +#define DDR_PHY_ZQ0PR0_PU_DRV_ADJUST_MASK 0x00070000U + +/*DRAM Impedance Divide Ratio*/ +#undef DDR_PHY_ZQ0PR0_ZPROG_DRAM_ODT_DEFVAL +#undef DDR_PHY_ZQ0PR0_ZPROG_DRAM_ODT_SHIFT +#undef DDR_PHY_ZQ0PR0_ZPROG_DRAM_ODT_MASK +#define DDR_PHY_ZQ0PR0_ZPROG_DRAM_ODT_DEFVAL 0x000077BB +#define DDR_PHY_ZQ0PR0_ZPROG_DRAM_ODT_SHIFT 12 +#define DDR_PHY_ZQ0PR0_ZPROG_DRAM_ODT_MASK 0x0000F000U + +/*HOST Impedance Divide Ratio*/ +#undef DDR_PHY_ZQ0PR0_ZPROG_HOST_ODT_DEFVAL +#undef DDR_PHY_ZQ0PR0_ZPROG_HOST_ODT_SHIFT +#undef DDR_PHY_ZQ0PR0_ZPROG_HOST_ODT_MASK +#define DDR_PHY_ZQ0PR0_ZPROG_HOST_ODT_DEFVAL 0x000077BB +#define DDR_PHY_ZQ0PR0_ZPROG_HOST_ODT_SHIFT 8 +#define DDR_PHY_ZQ0PR0_ZPROG_HOST_ODT_MASK 0x00000F00U + +/*Impedance Divide Ratio (pulldown drive calibration during asymmetric drive strength calibration)*/ +#undef DDR_PHY_ZQ0PR0_ZPROG_ASYM_DRV_PD_DEFVAL +#undef DDR_PHY_ZQ0PR0_ZPROG_ASYM_DRV_PD_SHIFT +#undef DDR_PHY_ZQ0PR0_ZPROG_ASYM_DRV_PD_MASK +#define DDR_PHY_ZQ0PR0_ZPROG_ASYM_DRV_PD_DEFVAL 0x000077BB +#define DDR_PHY_ZQ0PR0_ZPROG_ASYM_DRV_PD_SHIFT 4 +#define DDR_PHY_ZQ0PR0_ZPROG_ASYM_DRV_PD_MASK 0x000000F0U + +/*Impedance Divide Ratio (pullup drive calibration during asymmetric drive strength calibration)*/ +#undef DDR_PHY_ZQ0PR0_ZPROG_ASYM_DRV_PU_DEFVAL +#undef DDR_PHY_ZQ0PR0_ZPROG_ASYM_DRV_PU_SHIFT +#undef DDR_PHY_ZQ0PR0_ZPROG_ASYM_DRV_PU_MASK +#define DDR_PHY_ZQ0PR0_ZPROG_ASYM_DRV_PU_DEFVAL 0x000077BB +#define DDR_PHY_ZQ0PR0_ZPROG_ASYM_DRV_PU_SHIFT 0 +#define DDR_PHY_ZQ0PR0_ZPROG_ASYM_DRV_PU_MASK 0x0000000FU + +/*Reserved. Return zeros on reads.*/ +#undef DDR_PHY_ZQ0OR0_RESERVED_31_26_DEFVAL +#undef DDR_PHY_ZQ0OR0_RESERVED_31_26_SHIFT +#undef DDR_PHY_ZQ0OR0_RESERVED_31_26_MASK +#define DDR_PHY_ZQ0OR0_RESERVED_31_26_DEFVAL 0x00000000 +#define DDR_PHY_ZQ0OR0_RESERVED_31_26_SHIFT 26 +#define DDR_PHY_ZQ0OR0_RESERVED_31_26_MASK 0xFC000000U + +/*Override value for the pull-up output impedance*/ +#undef DDR_PHY_ZQ0OR0_ZDATA_PU_DRV_OVRD_DEFVAL +#undef DDR_PHY_ZQ0OR0_ZDATA_PU_DRV_OVRD_SHIFT +#undef DDR_PHY_ZQ0OR0_ZDATA_PU_DRV_OVRD_MASK +#define DDR_PHY_ZQ0OR0_ZDATA_PU_DRV_OVRD_DEFVAL 0x00000000 +#define DDR_PHY_ZQ0OR0_ZDATA_PU_DRV_OVRD_SHIFT 16 +#define DDR_PHY_ZQ0OR0_ZDATA_PU_DRV_OVRD_MASK 0x03FF0000U + +/*Reserved. Return zeros on reads.*/ +#undef DDR_PHY_ZQ0OR0_RESERVED_15_10_DEFVAL +#undef DDR_PHY_ZQ0OR0_RESERVED_15_10_SHIFT +#undef DDR_PHY_ZQ0OR0_RESERVED_15_10_MASK +#define DDR_PHY_ZQ0OR0_RESERVED_15_10_DEFVAL 0x00000000 +#define DDR_PHY_ZQ0OR0_RESERVED_15_10_SHIFT 10 +#define DDR_PHY_ZQ0OR0_RESERVED_15_10_MASK 0x0000FC00U + +/*Override value for the pull-down output impedance*/ +#undef DDR_PHY_ZQ0OR0_ZDATA_PD_DRV_OVRD_DEFVAL +#undef DDR_PHY_ZQ0OR0_ZDATA_PD_DRV_OVRD_SHIFT +#undef DDR_PHY_ZQ0OR0_ZDATA_PD_DRV_OVRD_MASK +#define DDR_PHY_ZQ0OR0_ZDATA_PD_DRV_OVRD_DEFVAL 0x00000000 +#define DDR_PHY_ZQ0OR0_ZDATA_PD_DRV_OVRD_SHIFT 0 +#define DDR_PHY_ZQ0OR0_ZDATA_PD_DRV_OVRD_MASK 0x000003FFU + +/*Reserved. Return zeros on reads.*/ +#undef DDR_PHY_ZQ0OR1_RESERVED_31_26_DEFVAL +#undef DDR_PHY_ZQ0OR1_RESERVED_31_26_SHIFT +#undef DDR_PHY_ZQ0OR1_RESERVED_31_26_MASK +#define DDR_PHY_ZQ0OR1_RESERVED_31_26_DEFVAL 0x00000000 +#define DDR_PHY_ZQ0OR1_RESERVED_31_26_SHIFT 26 +#define DDR_PHY_ZQ0OR1_RESERVED_31_26_MASK 0xFC000000U + +/*Override value for the pull-up termination*/ +#undef DDR_PHY_ZQ0OR1_ZDATA_PU_ODT_OVRD_DEFVAL +#undef DDR_PHY_ZQ0OR1_ZDATA_PU_ODT_OVRD_SHIFT +#undef DDR_PHY_ZQ0OR1_ZDATA_PU_ODT_OVRD_MASK +#define DDR_PHY_ZQ0OR1_ZDATA_PU_ODT_OVRD_DEFVAL 0x00000000 +#define DDR_PHY_ZQ0OR1_ZDATA_PU_ODT_OVRD_SHIFT 16 +#define DDR_PHY_ZQ0OR1_ZDATA_PU_ODT_OVRD_MASK 0x03FF0000U + +/*Reserved. Return zeros on reads.*/ +#undef DDR_PHY_ZQ0OR1_RESERVED_15_10_DEFVAL +#undef DDR_PHY_ZQ0OR1_RESERVED_15_10_SHIFT +#undef DDR_PHY_ZQ0OR1_RESERVED_15_10_MASK +#define DDR_PHY_ZQ0OR1_RESERVED_15_10_DEFVAL 0x00000000 +#define DDR_PHY_ZQ0OR1_RESERVED_15_10_SHIFT 10 +#define DDR_PHY_ZQ0OR1_RESERVED_15_10_MASK 0x0000FC00U + +/*Override value for the pull-down termination*/ +#undef DDR_PHY_ZQ0OR1_ZDATA_PD_ODT_OVRD_DEFVAL +#undef DDR_PHY_ZQ0OR1_ZDATA_PD_ODT_OVRD_SHIFT +#undef DDR_PHY_ZQ0OR1_ZDATA_PD_ODT_OVRD_MASK +#define DDR_PHY_ZQ0OR1_ZDATA_PD_ODT_OVRD_DEFVAL 0x00000000 +#define DDR_PHY_ZQ0OR1_ZDATA_PD_ODT_OVRD_SHIFT 0 +#define DDR_PHY_ZQ0OR1_ZDATA_PD_ODT_OVRD_MASK 0x000003FFU + +/*Pull-down drive strength ZCTRL over-ride enable*/ +#undef DDR_PHY_ZQ1PR0_PD_DRV_ZDEN_DEFVAL +#undef DDR_PHY_ZQ1PR0_PD_DRV_ZDEN_SHIFT +#undef DDR_PHY_ZQ1PR0_PD_DRV_ZDEN_MASK +#define DDR_PHY_ZQ1PR0_PD_DRV_ZDEN_DEFVAL 0x000077BB +#define DDR_PHY_ZQ1PR0_PD_DRV_ZDEN_SHIFT 31 +#define DDR_PHY_ZQ1PR0_PD_DRV_ZDEN_MASK 0x80000000U + +/*Pull-up drive strength ZCTRL over-ride enable*/ +#undef DDR_PHY_ZQ1PR0_PU_DRV_ZDEN_DEFVAL +#undef DDR_PHY_ZQ1PR0_PU_DRV_ZDEN_SHIFT +#undef DDR_PHY_ZQ1PR0_PU_DRV_ZDEN_MASK +#define DDR_PHY_ZQ1PR0_PU_DRV_ZDEN_DEFVAL 0x000077BB +#define DDR_PHY_ZQ1PR0_PU_DRV_ZDEN_SHIFT 30 +#define DDR_PHY_ZQ1PR0_PU_DRV_ZDEN_MASK 0x40000000U + +/*Pull-down termination ZCTRL over-ride enable*/ +#undef DDR_PHY_ZQ1PR0_PD_ODT_ZDEN_DEFVAL +#undef DDR_PHY_ZQ1PR0_PD_ODT_ZDEN_SHIFT +#undef DDR_PHY_ZQ1PR0_PD_ODT_ZDEN_MASK +#define DDR_PHY_ZQ1PR0_PD_ODT_ZDEN_DEFVAL 0x000077BB +#define DDR_PHY_ZQ1PR0_PD_ODT_ZDEN_SHIFT 29 +#define DDR_PHY_ZQ1PR0_PD_ODT_ZDEN_MASK 0x20000000U + +/*Pull-up termination ZCTRL over-ride enable*/ +#undef DDR_PHY_ZQ1PR0_PU_ODT_ZDEN_DEFVAL +#undef DDR_PHY_ZQ1PR0_PU_ODT_ZDEN_SHIFT +#undef DDR_PHY_ZQ1PR0_PU_ODT_ZDEN_MASK +#define DDR_PHY_ZQ1PR0_PU_ODT_ZDEN_DEFVAL 0x000077BB +#define DDR_PHY_ZQ1PR0_PU_ODT_ZDEN_SHIFT 28 +#define DDR_PHY_ZQ1PR0_PU_ODT_ZDEN_MASK 0x10000000U + +/*Calibration segment bypass*/ +#undef DDR_PHY_ZQ1PR0_ZSEGBYP_DEFVAL +#undef DDR_PHY_ZQ1PR0_ZSEGBYP_SHIFT +#undef DDR_PHY_ZQ1PR0_ZSEGBYP_MASK +#define DDR_PHY_ZQ1PR0_ZSEGBYP_DEFVAL 0x000077BB +#define DDR_PHY_ZQ1PR0_ZSEGBYP_SHIFT 27 +#define DDR_PHY_ZQ1PR0_ZSEGBYP_MASK 0x08000000U + +/*VREF latch mode controls the mode in which the ZLE pin of the PVREF cell is driven by the PUB*/ +#undef DDR_PHY_ZQ1PR0_ZLE_MODE_DEFVAL +#undef DDR_PHY_ZQ1PR0_ZLE_MODE_SHIFT +#undef DDR_PHY_ZQ1PR0_ZLE_MODE_MASK +#define DDR_PHY_ZQ1PR0_ZLE_MODE_DEFVAL 0x000077BB +#define DDR_PHY_ZQ1PR0_ZLE_MODE_SHIFT 25 +#define DDR_PHY_ZQ1PR0_ZLE_MODE_MASK 0x06000000U + +/*Termination adjustment*/ +#undef DDR_PHY_ZQ1PR0_ODT_ADJUST_DEFVAL +#undef DDR_PHY_ZQ1PR0_ODT_ADJUST_SHIFT +#undef DDR_PHY_ZQ1PR0_ODT_ADJUST_MASK +#define DDR_PHY_ZQ1PR0_ODT_ADJUST_DEFVAL 0x000077BB +#define DDR_PHY_ZQ1PR0_ODT_ADJUST_SHIFT 22 +#define DDR_PHY_ZQ1PR0_ODT_ADJUST_MASK 0x01C00000U + +/*Pulldown drive strength adjustment*/ +#undef DDR_PHY_ZQ1PR0_PD_DRV_ADJUST_DEFVAL +#undef DDR_PHY_ZQ1PR0_PD_DRV_ADJUST_SHIFT +#undef DDR_PHY_ZQ1PR0_PD_DRV_ADJUST_MASK +#define DDR_PHY_ZQ1PR0_PD_DRV_ADJUST_DEFVAL 0x000077BB +#define DDR_PHY_ZQ1PR0_PD_DRV_ADJUST_SHIFT 19 +#define DDR_PHY_ZQ1PR0_PD_DRV_ADJUST_MASK 0x00380000U + +/*Pullup drive strength adjustment*/ +#undef DDR_PHY_ZQ1PR0_PU_DRV_ADJUST_DEFVAL +#undef DDR_PHY_ZQ1PR0_PU_DRV_ADJUST_SHIFT +#undef DDR_PHY_ZQ1PR0_PU_DRV_ADJUST_MASK +#define DDR_PHY_ZQ1PR0_PU_DRV_ADJUST_DEFVAL 0x000077BB +#define DDR_PHY_ZQ1PR0_PU_DRV_ADJUST_SHIFT 16 +#define DDR_PHY_ZQ1PR0_PU_DRV_ADJUST_MASK 0x00070000U + +/*DRAM Impedance Divide Ratio*/ +#undef DDR_PHY_ZQ1PR0_ZPROG_DRAM_ODT_DEFVAL +#undef DDR_PHY_ZQ1PR0_ZPROG_DRAM_ODT_SHIFT +#undef DDR_PHY_ZQ1PR0_ZPROG_DRAM_ODT_MASK +#define DDR_PHY_ZQ1PR0_ZPROG_DRAM_ODT_DEFVAL 0x000077BB +#define DDR_PHY_ZQ1PR0_ZPROG_DRAM_ODT_SHIFT 12 +#define DDR_PHY_ZQ1PR0_ZPROG_DRAM_ODT_MASK 0x0000F000U + +/*HOST Impedance Divide Ratio*/ +#undef DDR_PHY_ZQ1PR0_ZPROG_HOST_ODT_DEFVAL +#undef DDR_PHY_ZQ1PR0_ZPROG_HOST_ODT_SHIFT +#undef DDR_PHY_ZQ1PR0_ZPROG_HOST_ODT_MASK +#define DDR_PHY_ZQ1PR0_ZPROG_HOST_ODT_DEFVAL 0x000077BB +#define DDR_PHY_ZQ1PR0_ZPROG_HOST_ODT_SHIFT 8 +#define DDR_PHY_ZQ1PR0_ZPROG_HOST_ODT_MASK 0x00000F00U + +/*Impedance Divide Ratio (pulldown drive calibration during asymmetric drive strength calibration)*/ +#undef DDR_PHY_ZQ1PR0_ZPROG_ASYM_DRV_PD_DEFVAL +#undef DDR_PHY_ZQ1PR0_ZPROG_ASYM_DRV_PD_SHIFT +#undef DDR_PHY_ZQ1PR0_ZPROG_ASYM_DRV_PD_MASK +#define DDR_PHY_ZQ1PR0_ZPROG_ASYM_DRV_PD_DEFVAL 0x000077BB +#define DDR_PHY_ZQ1PR0_ZPROG_ASYM_DRV_PD_SHIFT 4 +#define DDR_PHY_ZQ1PR0_ZPROG_ASYM_DRV_PD_MASK 0x000000F0U + +/*Impedance Divide Ratio (pullup drive calibration during asymmetric drive strength calibration)*/ +#undef DDR_PHY_ZQ1PR0_ZPROG_ASYM_DRV_PU_DEFVAL +#undef DDR_PHY_ZQ1PR0_ZPROG_ASYM_DRV_PU_SHIFT +#undef DDR_PHY_ZQ1PR0_ZPROG_ASYM_DRV_PU_MASK +#define DDR_PHY_ZQ1PR0_ZPROG_ASYM_DRV_PU_DEFVAL 0x000077BB +#define DDR_PHY_ZQ1PR0_ZPROG_ASYM_DRV_PU_SHIFT 0 +#define DDR_PHY_ZQ1PR0_ZPROG_ASYM_DRV_PU_MASK 0x0000000FU + +/*Calibration Bypass*/ +#undef DDR_PHY_DX0GCR0_CALBYP_DEFVAL +#undef DDR_PHY_DX0GCR0_CALBYP_SHIFT +#undef DDR_PHY_DX0GCR0_CALBYP_MASK +#define DDR_PHY_DX0GCR0_CALBYP_DEFVAL 0x40200204 +#define DDR_PHY_DX0GCR0_CALBYP_SHIFT 31 +#define DDR_PHY_DX0GCR0_CALBYP_MASK 0x80000000U + +/*Master Delay Line Enable*/ +#undef DDR_PHY_DX0GCR0_MDLEN_DEFVAL +#undef DDR_PHY_DX0GCR0_MDLEN_SHIFT +#undef DDR_PHY_DX0GCR0_MDLEN_MASK +#define DDR_PHY_DX0GCR0_MDLEN_DEFVAL 0x40200204 +#define DDR_PHY_DX0GCR0_MDLEN_SHIFT 30 +#define DDR_PHY_DX0GCR0_MDLEN_MASK 0x40000000U + +/*Configurable ODT(TE) Phase Shift*/ +#undef DDR_PHY_DX0GCR0_CODTSHFT_DEFVAL +#undef DDR_PHY_DX0GCR0_CODTSHFT_SHIFT +#undef DDR_PHY_DX0GCR0_CODTSHFT_MASK +#define DDR_PHY_DX0GCR0_CODTSHFT_DEFVAL 0x40200204 +#define DDR_PHY_DX0GCR0_CODTSHFT_SHIFT 28 +#define DDR_PHY_DX0GCR0_CODTSHFT_MASK 0x30000000U + +/*DQS Duty Cycle Correction*/ +#undef DDR_PHY_DX0GCR0_DQSDCC_DEFVAL +#undef DDR_PHY_DX0GCR0_DQSDCC_SHIFT +#undef DDR_PHY_DX0GCR0_DQSDCC_MASK +#define DDR_PHY_DX0GCR0_DQSDCC_DEFVAL 0x40200204 +#define DDR_PHY_DX0GCR0_DQSDCC_SHIFT 24 +#define DDR_PHY_DX0GCR0_DQSDCC_MASK 0x0F000000U + +/*Number of Cycles ( in terms of ctl_clk) to generate ctl_dx_get_static_rd input for the respective bypte lane of the PHY*/ +#undef DDR_PHY_DX0GCR0_RDDLY_DEFVAL +#undef DDR_PHY_DX0GCR0_RDDLY_SHIFT +#undef DDR_PHY_DX0GCR0_RDDLY_MASK +#define DDR_PHY_DX0GCR0_RDDLY_DEFVAL 0x40200204 +#define DDR_PHY_DX0GCR0_RDDLY_SHIFT 20 +#define DDR_PHY_DX0GCR0_RDDLY_MASK 0x00F00000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX0GCR0_RESERVED_19_14_DEFVAL +#undef DDR_PHY_DX0GCR0_RESERVED_19_14_SHIFT +#undef DDR_PHY_DX0GCR0_RESERVED_19_14_MASK +#define DDR_PHY_DX0GCR0_RESERVED_19_14_DEFVAL 0x40200204 +#define DDR_PHY_DX0GCR0_RESERVED_19_14_SHIFT 14 +#define DDR_PHY_DX0GCR0_RESERVED_19_14_MASK 0x000FC000U + +/*DQSNSE Power Down Receiver*/ +#undef DDR_PHY_DX0GCR0_DQSNSEPDR_DEFVAL +#undef DDR_PHY_DX0GCR0_DQSNSEPDR_SHIFT +#undef DDR_PHY_DX0GCR0_DQSNSEPDR_MASK +#define DDR_PHY_DX0GCR0_DQSNSEPDR_DEFVAL 0x40200204 +#define DDR_PHY_DX0GCR0_DQSNSEPDR_SHIFT 13 +#define DDR_PHY_DX0GCR0_DQSNSEPDR_MASK 0x00002000U + +/*DQSSE Power Down Receiver*/ +#undef DDR_PHY_DX0GCR0_DQSSEPDR_DEFVAL +#undef DDR_PHY_DX0GCR0_DQSSEPDR_SHIFT +#undef DDR_PHY_DX0GCR0_DQSSEPDR_MASK +#define DDR_PHY_DX0GCR0_DQSSEPDR_DEFVAL 0x40200204 +#define DDR_PHY_DX0GCR0_DQSSEPDR_SHIFT 12 +#define DDR_PHY_DX0GCR0_DQSSEPDR_MASK 0x00001000U + +/*RTT On Additive Latency*/ +#undef DDR_PHY_DX0GCR0_RTTOAL_DEFVAL +#undef DDR_PHY_DX0GCR0_RTTOAL_SHIFT +#undef DDR_PHY_DX0GCR0_RTTOAL_MASK +#define DDR_PHY_DX0GCR0_RTTOAL_DEFVAL 0x40200204 +#define DDR_PHY_DX0GCR0_RTTOAL_SHIFT 11 +#define DDR_PHY_DX0GCR0_RTTOAL_MASK 0x00000800U + +/*RTT Output Hold*/ +#undef DDR_PHY_DX0GCR0_RTTOH_DEFVAL +#undef DDR_PHY_DX0GCR0_RTTOH_SHIFT +#undef DDR_PHY_DX0GCR0_RTTOH_MASK +#define DDR_PHY_DX0GCR0_RTTOH_DEFVAL 0x40200204 +#define DDR_PHY_DX0GCR0_RTTOH_SHIFT 9 +#define DDR_PHY_DX0GCR0_RTTOH_MASK 0x00000600U + +/*Configurable PDR Phase Shift*/ +#undef DDR_PHY_DX0GCR0_CPDRSHFT_DEFVAL +#undef DDR_PHY_DX0GCR0_CPDRSHFT_SHIFT +#undef DDR_PHY_DX0GCR0_CPDRSHFT_MASK +#define DDR_PHY_DX0GCR0_CPDRSHFT_DEFVAL 0x40200204 +#define DDR_PHY_DX0GCR0_CPDRSHFT_SHIFT 7 +#define DDR_PHY_DX0GCR0_CPDRSHFT_MASK 0x00000180U + +/*DQSR Power Down*/ +#undef DDR_PHY_DX0GCR0_DQSRPD_DEFVAL +#undef DDR_PHY_DX0GCR0_DQSRPD_SHIFT +#undef DDR_PHY_DX0GCR0_DQSRPD_MASK +#define DDR_PHY_DX0GCR0_DQSRPD_DEFVAL 0x40200204 +#define DDR_PHY_DX0GCR0_DQSRPD_SHIFT 6 +#define DDR_PHY_DX0GCR0_DQSRPD_MASK 0x00000040U + +/*DQSG Power Down Receiver*/ +#undef DDR_PHY_DX0GCR0_DQSGPDR_DEFVAL +#undef DDR_PHY_DX0GCR0_DQSGPDR_SHIFT +#undef DDR_PHY_DX0GCR0_DQSGPDR_MASK +#define DDR_PHY_DX0GCR0_DQSGPDR_DEFVAL 0x40200204 +#define DDR_PHY_DX0GCR0_DQSGPDR_SHIFT 5 +#define DDR_PHY_DX0GCR0_DQSGPDR_MASK 0x00000020U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX0GCR0_RESERVED_4_DEFVAL +#undef DDR_PHY_DX0GCR0_RESERVED_4_SHIFT +#undef DDR_PHY_DX0GCR0_RESERVED_4_MASK +#define DDR_PHY_DX0GCR0_RESERVED_4_DEFVAL 0x40200204 +#define DDR_PHY_DX0GCR0_RESERVED_4_SHIFT 4 +#define DDR_PHY_DX0GCR0_RESERVED_4_MASK 0x00000010U + +/*DQSG On-Die Termination*/ +#undef DDR_PHY_DX0GCR0_DQSGODT_DEFVAL +#undef DDR_PHY_DX0GCR0_DQSGODT_SHIFT +#undef DDR_PHY_DX0GCR0_DQSGODT_MASK +#define DDR_PHY_DX0GCR0_DQSGODT_DEFVAL 0x40200204 +#define DDR_PHY_DX0GCR0_DQSGODT_SHIFT 3 +#define DDR_PHY_DX0GCR0_DQSGODT_MASK 0x00000008U + +/*DQSG Output Enable*/ +#undef DDR_PHY_DX0GCR0_DQSGOE_DEFVAL +#undef DDR_PHY_DX0GCR0_DQSGOE_SHIFT +#undef DDR_PHY_DX0GCR0_DQSGOE_MASK +#define DDR_PHY_DX0GCR0_DQSGOE_DEFVAL 0x40200204 +#define DDR_PHY_DX0GCR0_DQSGOE_SHIFT 2 +#define DDR_PHY_DX0GCR0_DQSGOE_MASK 0x00000004U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX0GCR0_RESERVED_1_0_DEFVAL +#undef DDR_PHY_DX0GCR0_RESERVED_1_0_SHIFT +#undef DDR_PHY_DX0GCR0_RESERVED_1_0_MASK +#define DDR_PHY_DX0GCR0_RESERVED_1_0_DEFVAL 0x40200204 +#define DDR_PHY_DX0GCR0_RESERVED_1_0_SHIFT 0 +#define DDR_PHY_DX0GCR0_RESERVED_1_0_MASK 0x00000003U + +/*Byte lane VREF IOM (Used only by D4MU IOs)*/ +#undef DDR_PHY_DX0GCR4_RESERVED_31_29_DEFVAL +#undef DDR_PHY_DX0GCR4_RESERVED_31_29_SHIFT +#undef DDR_PHY_DX0GCR4_RESERVED_31_29_MASK +#define DDR_PHY_DX0GCR4_RESERVED_31_29_DEFVAL 0x0E00003C +#define DDR_PHY_DX0GCR4_RESERVED_31_29_SHIFT 29 +#define DDR_PHY_DX0GCR4_RESERVED_31_29_MASK 0xE0000000U + +/*Byte Lane VREF Pad Enable*/ +#undef DDR_PHY_DX0GCR4_DXREFPEN_DEFVAL +#undef DDR_PHY_DX0GCR4_DXREFPEN_SHIFT +#undef DDR_PHY_DX0GCR4_DXREFPEN_MASK +#define DDR_PHY_DX0GCR4_DXREFPEN_DEFVAL 0x0E00003C +#define DDR_PHY_DX0GCR4_DXREFPEN_SHIFT 28 +#define DDR_PHY_DX0GCR4_DXREFPEN_MASK 0x10000000U + +/*Byte Lane Internal VREF Enable*/ +#undef DDR_PHY_DX0GCR4_DXREFEEN_DEFVAL +#undef DDR_PHY_DX0GCR4_DXREFEEN_SHIFT +#undef DDR_PHY_DX0GCR4_DXREFEEN_MASK +#define DDR_PHY_DX0GCR4_DXREFEEN_DEFVAL 0x0E00003C +#define DDR_PHY_DX0GCR4_DXREFEEN_SHIFT 26 +#define DDR_PHY_DX0GCR4_DXREFEEN_MASK 0x0C000000U + +/*Byte Lane Single-End VREF Enable*/ +#undef DDR_PHY_DX0GCR4_DXREFSEN_DEFVAL +#undef DDR_PHY_DX0GCR4_DXREFSEN_SHIFT +#undef DDR_PHY_DX0GCR4_DXREFSEN_MASK +#define DDR_PHY_DX0GCR4_DXREFSEN_DEFVAL 0x0E00003C +#define DDR_PHY_DX0GCR4_DXREFSEN_SHIFT 25 +#define DDR_PHY_DX0GCR4_DXREFSEN_MASK 0x02000000U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX0GCR4_RESERVED_24_DEFVAL +#undef DDR_PHY_DX0GCR4_RESERVED_24_SHIFT +#undef DDR_PHY_DX0GCR4_RESERVED_24_MASK +#define DDR_PHY_DX0GCR4_RESERVED_24_DEFVAL 0x0E00003C +#define DDR_PHY_DX0GCR4_RESERVED_24_SHIFT 24 +#define DDR_PHY_DX0GCR4_RESERVED_24_MASK 0x01000000U + +/*External VREF generator REFSEL range select*/ +#undef DDR_PHY_DX0GCR4_DXREFESELRANGE_DEFVAL +#undef DDR_PHY_DX0GCR4_DXREFESELRANGE_SHIFT +#undef DDR_PHY_DX0GCR4_DXREFESELRANGE_MASK +#define DDR_PHY_DX0GCR4_DXREFESELRANGE_DEFVAL 0x0E00003C +#define DDR_PHY_DX0GCR4_DXREFESELRANGE_SHIFT 23 +#define DDR_PHY_DX0GCR4_DXREFESELRANGE_MASK 0x00800000U + +/*Byte Lane External VREF Select*/ +#undef DDR_PHY_DX0GCR4_DXREFESEL_DEFVAL +#undef DDR_PHY_DX0GCR4_DXREFESEL_SHIFT +#undef DDR_PHY_DX0GCR4_DXREFESEL_MASK +#define DDR_PHY_DX0GCR4_DXREFESEL_DEFVAL 0x0E00003C +#define DDR_PHY_DX0GCR4_DXREFESEL_SHIFT 16 +#define DDR_PHY_DX0GCR4_DXREFESEL_MASK 0x007F0000U + +/*Single ended VREF generator REFSEL range select*/ +#undef DDR_PHY_DX0GCR4_DXREFSSELRANGE_DEFVAL +#undef DDR_PHY_DX0GCR4_DXREFSSELRANGE_SHIFT +#undef DDR_PHY_DX0GCR4_DXREFSSELRANGE_MASK +#define DDR_PHY_DX0GCR4_DXREFSSELRANGE_DEFVAL 0x0E00003C +#define DDR_PHY_DX0GCR4_DXREFSSELRANGE_SHIFT 15 +#define DDR_PHY_DX0GCR4_DXREFSSELRANGE_MASK 0x00008000U + +/*Byte Lane Single-End VREF Select*/ +#undef DDR_PHY_DX0GCR4_DXREFSSEL_DEFVAL +#undef DDR_PHY_DX0GCR4_DXREFSSEL_SHIFT +#undef DDR_PHY_DX0GCR4_DXREFSSEL_MASK +#define DDR_PHY_DX0GCR4_DXREFSSEL_DEFVAL 0x0E00003C +#define DDR_PHY_DX0GCR4_DXREFSSEL_SHIFT 8 +#define DDR_PHY_DX0GCR4_DXREFSSEL_MASK 0x00007F00U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX0GCR4_RESERVED_7_6_DEFVAL +#undef DDR_PHY_DX0GCR4_RESERVED_7_6_SHIFT +#undef DDR_PHY_DX0GCR4_RESERVED_7_6_MASK +#define DDR_PHY_DX0GCR4_RESERVED_7_6_DEFVAL 0x0E00003C +#define DDR_PHY_DX0GCR4_RESERVED_7_6_SHIFT 6 +#define DDR_PHY_DX0GCR4_RESERVED_7_6_MASK 0x000000C0U + +/*VREF Enable control for DQ IO (Single Ended) buffers of a byte lane.*/ +#undef DDR_PHY_DX0GCR4_DXREFIEN_DEFVAL +#undef DDR_PHY_DX0GCR4_DXREFIEN_SHIFT +#undef DDR_PHY_DX0GCR4_DXREFIEN_MASK +#define DDR_PHY_DX0GCR4_DXREFIEN_DEFVAL 0x0E00003C +#define DDR_PHY_DX0GCR4_DXREFIEN_SHIFT 2 +#define DDR_PHY_DX0GCR4_DXREFIEN_MASK 0x0000003CU + +/*VRMON control for DQ IO (Single Ended) buffers of a byte lane.*/ +#undef DDR_PHY_DX0GCR4_DXREFIMON_DEFVAL +#undef DDR_PHY_DX0GCR4_DXREFIMON_SHIFT +#undef DDR_PHY_DX0GCR4_DXREFIMON_MASK +#define DDR_PHY_DX0GCR4_DXREFIMON_DEFVAL 0x0E00003C +#define DDR_PHY_DX0GCR4_DXREFIMON_SHIFT 0 +#define DDR_PHY_DX0GCR4_DXREFIMON_MASK 0x00000003U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX0GCR5_RESERVED_31_DEFVAL +#undef DDR_PHY_DX0GCR5_RESERVED_31_SHIFT +#undef DDR_PHY_DX0GCR5_RESERVED_31_MASK +#define DDR_PHY_DX0GCR5_RESERVED_31_DEFVAL 0x09090909 +#define DDR_PHY_DX0GCR5_RESERVED_31_SHIFT 31 +#define DDR_PHY_DX0GCR5_RESERVED_31_MASK 0x80000000U + +/*Byte Lane internal VREF Select for Rank 3*/ +#undef DDR_PHY_DX0GCR5_DXREFISELR3_DEFVAL +#undef DDR_PHY_DX0GCR5_DXREFISELR3_SHIFT +#undef DDR_PHY_DX0GCR5_DXREFISELR3_MASK +#define DDR_PHY_DX0GCR5_DXREFISELR3_DEFVAL 0x09090909 +#define DDR_PHY_DX0GCR5_DXREFISELR3_SHIFT 24 +#define DDR_PHY_DX0GCR5_DXREFISELR3_MASK 0x7F000000U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX0GCR5_RESERVED_23_DEFVAL +#undef DDR_PHY_DX0GCR5_RESERVED_23_SHIFT +#undef DDR_PHY_DX0GCR5_RESERVED_23_MASK +#define DDR_PHY_DX0GCR5_RESERVED_23_DEFVAL 0x09090909 +#define DDR_PHY_DX0GCR5_RESERVED_23_SHIFT 23 +#define DDR_PHY_DX0GCR5_RESERVED_23_MASK 0x00800000U + +/*Byte Lane internal VREF Select for Rank 2*/ +#undef DDR_PHY_DX0GCR5_DXREFISELR2_DEFVAL +#undef DDR_PHY_DX0GCR5_DXREFISELR2_SHIFT +#undef DDR_PHY_DX0GCR5_DXREFISELR2_MASK +#define DDR_PHY_DX0GCR5_DXREFISELR2_DEFVAL 0x09090909 +#define DDR_PHY_DX0GCR5_DXREFISELR2_SHIFT 16 +#define DDR_PHY_DX0GCR5_DXREFISELR2_MASK 0x007F0000U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX0GCR5_RESERVED_15_DEFVAL +#undef DDR_PHY_DX0GCR5_RESERVED_15_SHIFT +#undef DDR_PHY_DX0GCR5_RESERVED_15_MASK +#define DDR_PHY_DX0GCR5_RESERVED_15_DEFVAL 0x09090909 +#define DDR_PHY_DX0GCR5_RESERVED_15_SHIFT 15 +#define DDR_PHY_DX0GCR5_RESERVED_15_MASK 0x00008000U + +/*Byte Lane internal VREF Select for Rank 1*/ +#undef DDR_PHY_DX0GCR5_DXREFISELR1_DEFVAL +#undef DDR_PHY_DX0GCR5_DXREFISELR1_SHIFT +#undef DDR_PHY_DX0GCR5_DXREFISELR1_MASK +#define DDR_PHY_DX0GCR5_DXREFISELR1_DEFVAL 0x09090909 +#define DDR_PHY_DX0GCR5_DXREFISELR1_SHIFT 8 +#define DDR_PHY_DX0GCR5_DXREFISELR1_MASK 0x00007F00U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX0GCR5_RESERVED_7_DEFVAL +#undef DDR_PHY_DX0GCR5_RESERVED_7_SHIFT +#undef DDR_PHY_DX0GCR5_RESERVED_7_MASK +#define DDR_PHY_DX0GCR5_RESERVED_7_DEFVAL 0x09090909 +#define DDR_PHY_DX0GCR5_RESERVED_7_SHIFT 7 +#define DDR_PHY_DX0GCR5_RESERVED_7_MASK 0x00000080U + +/*Byte Lane internal VREF Select for Rank 0*/ +#undef DDR_PHY_DX0GCR5_DXREFISELR0_DEFVAL +#undef DDR_PHY_DX0GCR5_DXREFISELR0_SHIFT +#undef DDR_PHY_DX0GCR5_DXREFISELR0_MASK +#define DDR_PHY_DX0GCR5_DXREFISELR0_DEFVAL 0x09090909 +#define DDR_PHY_DX0GCR5_DXREFISELR0_SHIFT 0 +#define DDR_PHY_DX0GCR5_DXREFISELR0_MASK 0x0000007FU + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX0GCR6_RESERVED_31_30_DEFVAL +#undef DDR_PHY_DX0GCR6_RESERVED_31_30_SHIFT +#undef DDR_PHY_DX0GCR6_RESERVED_31_30_MASK +#define DDR_PHY_DX0GCR6_RESERVED_31_30_DEFVAL 0x09090909 +#define DDR_PHY_DX0GCR6_RESERVED_31_30_SHIFT 30 +#define DDR_PHY_DX0GCR6_RESERVED_31_30_MASK 0xC0000000U + +/*DRAM DQ VREF Select for Rank3*/ +#undef DDR_PHY_DX0GCR6_DXDQVREFR3_DEFVAL +#undef DDR_PHY_DX0GCR6_DXDQVREFR3_SHIFT +#undef DDR_PHY_DX0GCR6_DXDQVREFR3_MASK +#define DDR_PHY_DX0GCR6_DXDQVREFR3_DEFVAL 0x09090909 +#define DDR_PHY_DX0GCR6_DXDQVREFR3_SHIFT 24 +#define DDR_PHY_DX0GCR6_DXDQVREFR3_MASK 0x3F000000U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX0GCR6_RESERVED_23_22_DEFVAL +#undef DDR_PHY_DX0GCR6_RESERVED_23_22_SHIFT +#undef DDR_PHY_DX0GCR6_RESERVED_23_22_MASK +#define DDR_PHY_DX0GCR6_RESERVED_23_22_DEFVAL 0x09090909 +#define DDR_PHY_DX0GCR6_RESERVED_23_22_SHIFT 22 +#define DDR_PHY_DX0GCR6_RESERVED_23_22_MASK 0x00C00000U + +/*DRAM DQ VREF Select for Rank2*/ +#undef DDR_PHY_DX0GCR6_DXDQVREFR2_DEFVAL +#undef DDR_PHY_DX0GCR6_DXDQVREFR2_SHIFT +#undef DDR_PHY_DX0GCR6_DXDQVREFR2_MASK +#define DDR_PHY_DX0GCR6_DXDQVREFR2_DEFVAL 0x09090909 +#define DDR_PHY_DX0GCR6_DXDQVREFR2_SHIFT 16 +#define DDR_PHY_DX0GCR6_DXDQVREFR2_MASK 0x003F0000U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX0GCR6_RESERVED_15_14_DEFVAL +#undef DDR_PHY_DX0GCR6_RESERVED_15_14_SHIFT +#undef DDR_PHY_DX0GCR6_RESERVED_15_14_MASK +#define DDR_PHY_DX0GCR6_RESERVED_15_14_DEFVAL 0x09090909 +#define DDR_PHY_DX0GCR6_RESERVED_15_14_SHIFT 14 +#define DDR_PHY_DX0GCR6_RESERVED_15_14_MASK 0x0000C000U + +/*DRAM DQ VREF Select for Rank1*/ +#undef DDR_PHY_DX0GCR6_DXDQVREFR1_DEFVAL +#undef DDR_PHY_DX0GCR6_DXDQVREFR1_SHIFT +#undef DDR_PHY_DX0GCR6_DXDQVREFR1_MASK +#define DDR_PHY_DX0GCR6_DXDQVREFR1_DEFVAL 0x09090909 +#define DDR_PHY_DX0GCR6_DXDQVREFR1_SHIFT 8 +#define DDR_PHY_DX0GCR6_DXDQVREFR1_MASK 0x00003F00U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX0GCR6_RESERVED_7_6_DEFVAL +#undef DDR_PHY_DX0GCR6_RESERVED_7_6_SHIFT +#undef DDR_PHY_DX0GCR6_RESERVED_7_6_MASK +#define DDR_PHY_DX0GCR6_RESERVED_7_6_DEFVAL 0x09090909 +#define DDR_PHY_DX0GCR6_RESERVED_7_6_SHIFT 6 +#define DDR_PHY_DX0GCR6_RESERVED_7_6_MASK 0x000000C0U + +/*DRAM DQ VREF Select for Rank0*/ +#undef DDR_PHY_DX0GCR6_DXDQVREFR0_DEFVAL +#undef DDR_PHY_DX0GCR6_DXDQVREFR0_SHIFT +#undef DDR_PHY_DX0GCR6_DXDQVREFR0_MASK +#define DDR_PHY_DX0GCR6_DXDQVREFR0_DEFVAL 0x09090909 +#define DDR_PHY_DX0GCR6_DXDQVREFR0_SHIFT 0 +#define DDR_PHY_DX0GCR6_DXDQVREFR0_MASK 0x0000003FU + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX0LCDLR2_RESERVED_31_25_DEFVAL +#undef DDR_PHY_DX0LCDLR2_RESERVED_31_25_SHIFT +#undef DDR_PHY_DX0LCDLR2_RESERVED_31_25_MASK +#define DDR_PHY_DX0LCDLR2_RESERVED_31_25_DEFVAL 0x00000000 +#define DDR_PHY_DX0LCDLR2_RESERVED_31_25_SHIFT 25 +#define DDR_PHY_DX0LCDLR2_RESERVED_31_25_MASK 0xFE000000U + +/*Reserved. Caution, do not write to this register field.*/ +#undef DDR_PHY_DX0LCDLR2_RESERVED_24_16_DEFVAL +#undef DDR_PHY_DX0LCDLR2_RESERVED_24_16_SHIFT +#undef DDR_PHY_DX0LCDLR2_RESERVED_24_16_MASK +#define DDR_PHY_DX0LCDLR2_RESERVED_24_16_DEFVAL 0x00000000 +#define DDR_PHY_DX0LCDLR2_RESERVED_24_16_SHIFT 16 +#define DDR_PHY_DX0LCDLR2_RESERVED_24_16_MASK 0x01FF0000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX0LCDLR2_RESERVED_15_9_DEFVAL +#undef DDR_PHY_DX0LCDLR2_RESERVED_15_9_SHIFT +#undef DDR_PHY_DX0LCDLR2_RESERVED_15_9_MASK +#define DDR_PHY_DX0LCDLR2_RESERVED_15_9_DEFVAL 0x00000000 +#define DDR_PHY_DX0LCDLR2_RESERVED_15_9_SHIFT 9 +#define DDR_PHY_DX0LCDLR2_RESERVED_15_9_MASK 0x0000FE00U + +/*Read DQS Gating Delay*/ +#undef DDR_PHY_DX0LCDLR2_DQSGD_DEFVAL +#undef DDR_PHY_DX0LCDLR2_DQSGD_SHIFT +#undef DDR_PHY_DX0LCDLR2_DQSGD_MASK +#define DDR_PHY_DX0LCDLR2_DQSGD_DEFVAL 0x00000000 +#define DDR_PHY_DX0LCDLR2_DQSGD_SHIFT 0 +#define DDR_PHY_DX0LCDLR2_DQSGD_MASK 0x000001FFU + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX0GTR0_RESERVED_31_24_DEFVAL +#undef DDR_PHY_DX0GTR0_RESERVED_31_24_SHIFT +#undef DDR_PHY_DX0GTR0_RESERVED_31_24_MASK +#define DDR_PHY_DX0GTR0_RESERVED_31_24_DEFVAL 0x00020000 +#define DDR_PHY_DX0GTR0_RESERVED_31_24_SHIFT 27 +#define DDR_PHY_DX0GTR0_RESERVED_31_24_MASK 0xF8000000U + +/*DQ Write Path Latency Pipeline*/ +#undef DDR_PHY_DX0GTR0_WDQSL_DEFVAL +#undef DDR_PHY_DX0GTR0_WDQSL_SHIFT +#undef DDR_PHY_DX0GTR0_WDQSL_MASK +#define DDR_PHY_DX0GTR0_WDQSL_DEFVAL 0x00020000 +#define DDR_PHY_DX0GTR0_WDQSL_SHIFT 24 +#define DDR_PHY_DX0GTR0_WDQSL_MASK 0x07000000U + +/*Reserved. Caution, do not write to this register field.*/ +#undef DDR_PHY_DX0GTR0_RESERVED_23_20_DEFVAL +#undef DDR_PHY_DX0GTR0_RESERVED_23_20_SHIFT +#undef DDR_PHY_DX0GTR0_RESERVED_23_20_MASK +#define DDR_PHY_DX0GTR0_RESERVED_23_20_DEFVAL 0x00020000 +#define DDR_PHY_DX0GTR0_RESERVED_23_20_SHIFT 20 +#define DDR_PHY_DX0GTR0_RESERVED_23_20_MASK 0x00F00000U + +/*Write Leveling System Latency*/ +#undef DDR_PHY_DX0GTR0_WLSL_DEFVAL +#undef DDR_PHY_DX0GTR0_WLSL_SHIFT +#undef DDR_PHY_DX0GTR0_WLSL_MASK +#define DDR_PHY_DX0GTR0_WLSL_DEFVAL 0x00020000 +#define DDR_PHY_DX0GTR0_WLSL_SHIFT 16 +#define DDR_PHY_DX0GTR0_WLSL_MASK 0x000F0000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX0GTR0_RESERVED_15_13_DEFVAL +#undef DDR_PHY_DX0GTR0_RESERVED_15_13_SHIFT +#undef DDR_PHY_DX0GTR0_RESERVED_15_13_MASK +#define DDR_PHY_DX0GTR0_RESERVED_15_13_DEFVAL 0x00020000 +#define DDR_PHY_DX0GTR0_RESERVED_15_13_SHIFT 13 +#define DDR_PHY_DX0GTR0_RESERVED_15_13_MASK 0x0000E000U + +/*Reserved. Caution, do not write to this register field.*/ +#undef DDR_PHY_DX0GTR0_RESERVED_12_8_DEFVAL +#undef DDR_PHY_DX0GTR0_RESERVED_12_8_SHIFT +#undef DDR_PHY_DX0GTR0_RESERVED_12_8_MASK +#define DDR_PHY_DX0GTR0_RESERVED_12_8_DEFVAL 0x00020000 +#define DDR_PHY_DX0GTR0_RESERVED_12_8_SHIFT 8 +#define DDR_PHY_DX0GTR0_RESERVED_12_8_MASK 0x00001F00U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX0GTR0_RESERVED_7_5_DEFVAL +#undef DDR_PHY_DX0GTR0_RESERVED_7_5_SHIFT +#undef DDR_PHY_DX0GTR0_RESERVED_7_5_MASK +#define DDR_PHY_DX0GTR0_RESERVED_7_5_DEFVAL 0x00020000 +#define DDR_PHY_DX0GTR0_RESERVED_7_5_SHIFT 5 +#define DDR_PHY_DX0GTR0_RESERVED_7_5_MASK 0x000000E0U + +/*DQS Gating System Latency*/ +#undef DDR_PHY_DX0GTR0_DGSL_DEFVAL +#undef DDR_PHY_DX0GTR0_DGSL_SHIFT +#undef DDR_PHY_DX0GTR0_DGSL_MASK +#define DDR_PHY_DX0GTR0_DGSL_DEFVAL 0x00020000 +#define DDR_PHY_DX0GTR0_DGSL_SHIFT 0 +#define DDR_PHY_DX0GTR0_DGSL_MASK 0x0000001FU + +/*Calibration Bypass*/ +#undef DDR_PHY_DX1GCR0_CALBYP_DEFVAL +#undef DDR_PHY_DX1GCR0_CALBYP_SHIFT +#undef DDR_PHY_DX1GCR0_CALBYP_MASK +#define DDR_PHY_DX1GCR0_CALBYP_DEFVAL 0x40200204 +#define DDR_PHY_DX1GCR0_CALBYP_SHIFT 31 +#define DDR_PHY_DX1GCR0_CALBYP_MASK 0x80000000U + +/*Master Delay Line Enable*/ +#undef DDR_PHY_DX1GCR0_MDLEN_DEFVAL +#undef DDR_PHY_DX1GCR0_MDLEN_SHIFT +#undef DDR_PHY_DX1GCR0_MDLEN_MASK +#define DDR_PHY_DX1GCR0_MDLEN_DEFVAL 0x40200204 +#define DDR_PHY_DX1GCR0_MDLEN_SHIFT 30 +#define DDR_PHY_DX1GCR0_MDLEN_MASK 0x40000000U + +/*Configurable ODT(TE) Phase Shift*/ +#undef DDR_PHY_DX1GCR0_CODTSHFT_DEFVAL +#undef DDR_PHY_DX1GCR0_CODTSHFT_SHIFT +#undef DDR_PHY_DX1GCR0_CODTSHFT_MASK +#define DDR_PHY_DX1GCR0_CODTSHFT_DEFVAL 0x40200204 +#define DDR_PHY_DX1GCR0_CODTSHFT_SHIFT 28 +#define DDR_PHY_DX1GCR0_CODTSHFT_MASK 0x30000000U + +/*DQS Duty Cycle Correction*/ +#undef DDR_PHY_DX1GCR0_DQSDCC_DEFVAL +#undef DDR_PHY_DX1GCR0_DQSDCC_SHIFT +#undef DDR_PHY_DX1GCR0_DQSDCC_MASK +#define DDR_PHY_DX1GCR0_DQSDCC_DEFVAL 0x40200204 +#define DDR_PHY_DX1GCR0_DQSDCC_SHIFT 24 +#define DDR_PHY_DX1GCR0_DQSDCC_MASK 0x0F000000U + +/*Number of Cycles ( in terms of ctl_clk) to generate ctl_dx_get_static_rd input for the respective bypte lane of the PHY*/ +#undef DDR_PHY_DX1GCR0_RDDLY_DEFVAL +#undef DDR_PHY_DX1GCR0_RDDLY_SHIFT +#undef DDR_PHY_DX1GCR0_RDDLY_MASK +#define DDR_PHY_DX1GCR0_RDDLY_DEFVAL 0x40200204 +#define DDR_PHY_DX1GCR0_RDDLY_SHIFT 20 +#define DDR_PHY_DX1GCR0_RDDLY_MASK 0x00F00000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX1GCR0_RESERVED_19_14_DEFVAL +#undef DDR_PHY_DX1GCR0_RESERVED_19_14_SHIFT +#undef DDR_PHY_DX1GCR0_RESERVED_19_14_MASK +#define DDR_PHY_DX1GCR0_RESERVED_19_14_DEFVAL 0x40200204 +#define DDR_PHY_DX1GCR0_RESERVED_19_14_SHIFT 14 +#define DDR_PHY_DX1GCR0_RESERVED_19_14_MASK 0x000FC000U + +/*DQSNSE Power Down Receiver*/ +#undef DDR_PHY_DX1GCR0_DQSNSEPDR_DEFVAL +#undef DDR_PHY_DX1GCR0_DQSNSEPDR_SHIFT +#undef DDR_PHY_DX1GCR0_DQSNSEPDR_MASK +#define DDR_PHY_DX1GCR0_DQSNSEPDR_DEFVAL 0x40200204 +#define DDR_PHY_DX1GCR0_DQSNSEPDR_SHIFT 13 +#define DDR_PHY_DX1GCR0_DQSNSEPDR_MASK 0x00002000U + +/*DQSSE Power Down Receiver*/ +#undef DDR_PHY_DX1GCR0_DQSSEPDR_DEFVAL +#undef DDR_PHY_DX1GCR0_DQSSEPDR_SHIFT +#undef DDR_PHY_DX1GCR0_DQSSEPDR_MASK +#define DDR_PHY_DX1GCR0_DQSSEPDR_DEFVAL 0x40200204 +#define DDR_PHY_DX1GCR0_DQSSEPDR_SHIFT 12 +#define DDR_PHY_DX1GCR0_DQSSEPDR_MASK 0x00001000U + +/*RTT On Additive Latency*/ +#undef DDR_PHY_DX1GCR0_RTTOAL_DEFVAL +#undef DDR_PHY_DX1GCR0_RTTOAL_SHIFT +#undef DDR_PHY_DX1GCR0_RTTOAL_MASK +#define DDR_PHY_DX1GCR0_RTTOAL_DEFVAL 0x40200204 +#define DDR_PHY_DX1GCR0_RTTOAL_SHIFT 11 +#define DDR_PHY_DX1GCR0_RTTOAL_MASK 0x00000800U + +/*RTT Output Hold*/ +#undef DDR_PHY_DX1GCR0_RTTOH_DEFVAL +#undef DDR_PHY_DX1GCR0_RTTOH_SHIFT +#undef DDR_PHY_DX1GCR0_RTTOH_MASK +#define DDR_PHY_DX1GCR0_RTTOH_DEFVAL 0x40200204 +#define DDR_PHY_DX1GCR0_RTTOH_SHIFT 9 +#define DDR_PHY_DX1GCR0_RTTOH_MASK 0x00000600U + +/*Configurable PDR Phase Shift*/ +#undef DDR_PHY_DX1GCR0_CPDRSHFT_DEFVAL +#undef DDR_PHY_DX1GCR0_CPDRSHFT_SHIFT +#undef DDR_PHY_DX1GCR0_CPDRSHFT_MASK +#define DDR_PHY_DX1GCR0_CPDRSHFT_DEFVAL 0x40200204 +#define DDR_PHY_DX1GCR0_CPDRSHFT_SHIFT 7 +#define DDR_PHY_DX1GCR0_CPDRSHFT_MASK 0x00000180U + +/*DQSR Power Down*/ +#undef DDR_PHY_DX1GCR0_DQSRPD_DEFVAL +#undef DDR_PHY_DX1GCR0_DQSRPD_SHIFT +#undef DDR_PHY_DX1GCR0_DQSRPD_MASK +#define DDR_PHY_DX1GCR0_DQSRPD_DEFVAL 0x40200204 +#define DDR_PHY_DX1GCR0_DQSRPD_SHIFT 6 +#define DDR_PHY_DX1GCR0_DQSRPD_MASK 0x00000040U + +/*DQSG Power Down Receiver*/ +#undef DDR_PHY_DX1GCR0_DQSGPDR_DEFVAL +#undef DDR_PHY_DX1GCR0_DQSGPDR_SHIFT +#undef DDR_PHY_DX1GCR0_DQSGPDR_MASK +#define DDR_PHY_DX1GCR0_DQSGPDR_DEFVAL 0x40200204 +#define DDR_PHY_DX1GCR0_DQSGPDR_SHIFT 5 +#define DDR_PHY_DX1GCR0_DQSGPDR_MASK 0x00000020U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX1GCR0_RESERVED_4_DEFVAL +#undef DDR_PHY_DX1GCR0_RESERVED_4_SHIFT +#undef DDR_PHY_DX1GCR0_RESERVED_4_MASK +#define DDR_PHY_DX1GCR0_RESERVED_4_DEFVAL 0x40200204 +#define DDR_PHY_DX1GCR0_RESERVED_4_SHIFT 4 +#define DDR_PHY_DX1GCR0_RESERVED_4_MASK 0x00000010U + +/*DQSG On-Die Termination*/ +#undef DDR_PHY_DX1GCR0_DQSGODT_DEFVAL +#undef DDR_PHY_DX1GCR0_DQSGODT_SHIFT +#undef DDR_PHY_DX1GCR0_DQSGODT_MASK +#define DDR_PHY_DX1GCR0_DQSGODT_DEFVAL 0x40200204 +#define DDR_PHY_DX1GCR0_DQSGODT_SHIFT 3 +#define DDR_PHY_DX1GCR0_DQSGODT_MASK 0x00000008U + +/*DQSG Output Enable*/ +#undef DDR_PHY_DX1GCR0_DQSGOE_DEFVAL +#undef DDR_PHY_DX1GCR0_DQSGOE_SHIFT +#undef DDR_PHY_DX1GCR0_DQSGOE_MASK +#define DDR_PHY_DX1GCR0_DQSGOE_DEFVAL 0x40200204 +#define DDR_PHY_DX1GCR0_DQSGOE_SHIFT 2 +#define DDR_PHY_DX1GCR0_DQSGOE_MASK 0x00000004U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX1GCR0_RESERVED_1_0_DEFVAL +#undef DDR_PHY_DX1GCR0_RESERVED_1_0_SHIFT +#undef DDR_PHY_DX1GCR0_RESERVED_1_0_MASK +#define DDR_PHY_DX1GCR0_RESERVED_1_0_DEFVAL 0x40200204 +#define DDR_PHY_DX1GCR0_RESERVED_1_0_SHIFT 0 +#define DDR_PHY_DX1GCR0_RESERVED_1_0_MASK 0x00000003U + +/*Byte lane VREF IOM (Used only by D4MU IOs)*/ +#undef DDR_PHY_DX1GCR4_RESERVED_31_29_DEFVAL +#undef DDR_PHY_DX1GCR4_RESERVED_31_29_SHIFT +#undef DDR_PHY_DX1GCR4_RESERVED_31_29_MASK +#define DDR_PHY_DX1GCR4_RESERVED_31_29_DEFVAL 0x0E00003C +#define DDR_PHY_DX1GCR4_RESERVED_31_29_SHIFT 29 +#define DDR_PHY_DX1GCR4_RESERVED_31_29_MASK 0xE0000000U + +/*Byte Lane VREF Pad Enable*/ +#undef DDR_PHY_DX1GCR4_DXREFPEN_DEFVAL +#undef DDR_PHY_DX1GCR4_DXREFPEN_SHIFT +#undef DDR_PHY_DX1GCR4_DXREFPEN_MASK +#define DDR_PHY_DX1GCR4_DXREFPEN_DEFVAL 0x0E00003C +#define DDR_PHY_DX1GCR4_DXREFPEN_SHIFT 28 +#define DDR_PHY_DX1GCR4_DXREFPEN_MASK 0x10000000U + +/*Byte Lane Internal VREF Enable*/ +#undef DDR_PHY_DX1GCR4_DXREFEEN_DEFVAL +#undef DDR_PHY_DX1GCR4_DXREFEEN_SHIFT +#undef DDR_PHY_DX1GCR4_DXREFEEN_MASK +#define DDR_PHY_DX1GCR4_DXREFEEN_DEFVAL 0x0E00003C +#define DDR_PHY_DX1GCR4_DXREFEEN_SHIFT 26 +#define DDR_PHY_DX1GCR4_DXREFEEN_MASK 0x0C000000U + +/*Byte Lane Single-End VREF Enable*/ +#undef DDR_PHY_DX1GCR4_DXREFSEN_DEFVAL +#undef DDR_PHY_DX1GCR4_DXREFSEN_SHIFT +#undef DDR_PHY_DX1GCR4_DXREFSEN_MASK +#define DDR_PHY_DX1GCR4_DXREFSEN_DEFVAL 0x0E00003C +#define DDR_PHY_DX1GCR4_DXREFSEN_SHIFT 25 +#define DDR_PHY_DX1GCR4_DXREFSEN_MASK 0x02000000U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX1GCR4_RESERVED_24_DEFVAL +#undef DDR_PHY_DX1GCR4_RESERVED_24_SHIFT +#undef DDR_PHY_DX1GCR4_RESERVED_24_MASK +#define DDR_PHY_DX1GCR4_RESERVED_24_DEFVAL 0x0E00003C +#define DDR_PHY_DX1GCR4_RESERVED_24_SHIFT 24 +#define DDR_PHY_DX1GCR4_RESERVED_24_MASK 0x01000000U + +/*External VREF generator REFSEL range select*/ +#undef DDR_PHY_DX1GCR4_DXREFESELRANGE_DEFVAL +#undef DDR_PHY_DX1GCR4_DXREFESELRANGE_SHIFT +#undef DDR_PHY_DX1GCR4_DXREFESELRANGE_MASK +#define DDR_PHY_DX1GCR4_DXREFESELRANGE_DEFVAL 0x0E00003C +#define DDR_PHY_DX1GCR4_DXREFESELRANGE_SHIFT 23 +#define DDR_PHY_DX1GCR4_DXREFESELRANGE_MASK 0x00800000U + +/*Byte Lane External VREF Select*/ +#undef DDR_PHY_DX1GCR4_DXREFESEL_DEFVAL +#undef DDR_PHY_DX1GCR4_DXREFESEL_SHIFT +#undef DDR_PHY_DX1GCR4_DXREFESEL_MASK +#define DDR_PHY_DX1GCR4_DXREFESEL_DEFVAL 0x0E00003C +#define DDR_PHY_DX1GCR4_DXREFESEL_SHIFT 16 +#define DDR_PHY_DX1GCR4_DXREFESEL_MASK 0x007F0000U + +/*Single ended VREF generator REFSEL range select*/ +#undef DDR_PHY_DX1GCR4_DXREFSSELRANGE_DEFVAL +#undef DDR_PHY_DX1GCR4_DXREFSSELRANGE_SHIFT +#undef DDR_PHY_DX1GCR4_DXREFSSELRANGE_MASK +#define DDR_PHY_DX1GCR4_DXREFSSELRANGE_DEFVAL 0x0E00003C +#define DDR_PHY_DX1GCR4_DXREFSSELRANGE_SHIFT 15 +#define DDR_PHY_DX1GCR4_DXREFSSELRANGE_MASK 0x00008000U + +/*Byte Lane Single-End VREF Select*/ +#undef DDR_PHY_DX1GCR4_DXREFSSEL_DEFVAL +#undef DDR_PHY_DX1GCR4_DXREFSSEL_SHIFT +#undef DDR_PHY_DX1GCR4_DXREFSSEL_MASK +#define DDR_PHY_DX1GCR4_DXREFSSEL_DEFVAL 0x0E00003C +#define DDR_PHY_DX1GCR4_DXREFSSEL_SHIFT 8 +#define DDR_PHY_DX1GCR4_DXREFSSEL_MASK 0x00007F00U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX1GCR4_RESERVED_7_6_DEFVAL +#undef DDR_PHY_DX1GCR4_RESERVED_7_6_SHIFT +#undef DDR_PHY_DX1GCR4_RESERVED_7_6_MASK +#define DDR_PHY_DX1GCR4_RESERVED_7_6_DEFVAL 0x0E00003C +#define DDR_PHY_DX1GCR4_RESERVED_7_6_SHIFT 6 +#define DDR_PHY_DX1GCR4_RESERVED_7_6_MASK 0x000000C0U + +/*VREF Enable control for DQ IO (Single Ended) buffers of a byte lane.*/ +#undef DDR_PHY_DX1GCR4_DXREFIEN_DEFVAL +#undef DDR_PHY_DX1GCR4_DXREFIEN_SHIFT +#undef DDR_PHY_DX1GCR4_DXREFIEN_MASK +#define DDR_PHY_DX1GCR4_DXREFIEN_DEFVAL 0x0E00003C +#define DDR_PHY_DX1GCR4_DXREFIEN_SHIFT 2 +#define DDR_PHY_DX1GCR4_DXREFIEN_MASK 0x0000003CU + +/*VRMON control for DQ IO (Single Ended) buffers of a byte lane.*/ +#undef DDR_PHY_DX1GCR4_DXREFIMON_DEFVAL +#undef DDR_PHY_DX1GCR4_DXREFIMON_SHIFT +#undef DDR_PHY_DX1GCR4_DXREFIMON_MASK +#define DDR_PHY_DX1GCR4_DXREFIMON_DEFVAL 0x0E00003C +#define DDR_PHY_DX1GCR4_DXREFIMON_SHIFT 0 +#define DDR_PHY_DX1GCR4_DXREFIMON_MASK 0x00000003U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX1GCR5_RESERVED_31_DEFVAL +#undef DDR_PHY_DX1GCR5_RESERVED_31_SHIFT +#undef DDR_PHY_DX1GCR5_RESERVED_31_MASK +#define DDR_PHY_DX1GCR5_RESERVED_31_DEFVAL 0x09090909 +#define DDR_PHY_DX1GCR5_RESERVED_31_SHIFT 31 +#define DDR_PHY_DX1GCR5_RESERVED_31_MASK 0x80000000U + +/*Byte Lane internal VREF Select for Rank 3*/ +#undef DDR_PHY_DX1GCR5_DXREFISELR3_DEFVAL +#undef DDR_PHY_DX1GCR5_DXREFISELR3_SHIFT +#undef DDR_PHY_DX1GCR5_DXREFISELR3_MASK +#define DDR_PHY_DX1GCR5_DXREFISELR3_DEFVAL 0x09090909 +#define DDR_PHY_DX1GCR5_DXREFISELR3_SHIFT 24 +#define DDR_PHY_DX1GCR5_DXREFISELR3_MASK 0x7F000000U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX1GCR5_RESERVED_23_DEFVAL +#undef DDR_PHY_DX1GCR5_RESERVED_23_SHIFT +#undef DDR_PHY_DX1GCR5_RESERVED_23_MASK +#define DDR_PHY_DX1GCR5_RESERVED_23_DEFVAL 0x09090909 +#define DDR_PHY_DX1GCR5_RESERVED_23_SHIFT 23 +#define DDR_PHY_DX1GCR5_RESERVED_23_MASK 0x00800000U + +/*Byte Lane internal VREF Select for Rank 2*/ +#undef DDR_PHY_DX1GCR5_DXREFISELR2_DEFVAL +#undef DDR_PHY_DX1GCR5_DXREFISELR2_SHIFT +#undef DDR_PHY_DX1GCR5_DXREFISELR2_MASK +#define DDR_PHY_DX1GCR5_DXREFISELR2_DEFVAL 0x09090909 +#define DDR_PHY_DX1GCR5_DXREFISELR2_SHIFT 16 +#define DDR_PHY_DX1GCR5_DXREFISELR2_MASK 0x007F0000U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX1GCR5_RESERVED_15_DEFVAL +#undef DDR_PHY_DX1GCR5_RESERVED_15_SHIFT +#undef DDR_PHY_DX1GCR5_RESERVED_15_MASK +#define DDR_PHY_DX1GCR5_RESERVED_15_DEFVAL 0x09090909 +#define DDR_PHY_DX1GCR5_RESERVED_15_SHIFT 15 +#define DDR_PHY_DX1GCR5_RESERVED_15_MASK 0x00008000U + +/*Byte Lane internal VREF Select for Rank 1*/ +#undef DDR_PHY_DX1GCR5_DXREFISELR1_DEFVAL +#undef DDR_PHY_DX1GCR5_DXREFISELR1_SHIFT +#undef DDR_PHY_DX1GCR5_DXREFISELR1_MASK +#define DDR_PHY_DX1GCR5_DXREFISELR1_DEFVAL 0x09090909 +#define DDR_PHY_DX1GCR5_DXREFISELR1_SHIFT 8 +#define DDR_PHY_DX1GCR5_DXREFISELR1_MASK 0x00007F00U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX1GCR5_RESERVED_7_DEFVAL +#undef DDR_PHY_DX1GCR5_RESERVED_7_SHIFT +#undef DDR_PHY_DX1GCR5_RESERVED_7_MASK +#define DDR_PHY_DX1GCR5_RESERVED_7_DEFVAL 0x09090909 +#define DDR_PHY_DX1GCR5_RESERVED_7_SHIFT 7 +#define DDR_PHY_DX1GCR5_RESERVED_7_MASK 0x00000080U + +/*Byte Lane internal VREF Select for Rank 0*/ +#undef DDR_PHY_DX1GCR5_DXREFISELR0_DEFVAL +#undef DDR_PHY_DX1GCR5_DXREFISELR0_SHIFT +#undef DDR_PHY_DX1GCR5_DXREFISELR0_MASK +#define DDR_PHY_DX1GCR5_DXREFISELR0_DEFVAL 0x09090909 +#define DDR_PHY_DX1GCR5_DXREFISELR0_SHIFT 0 +#define DDR_PHY_DX1GCR5_DXREFISELR0_MASK 0x0000007FU + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX1GCR6_RESERVED_31_30_DEFVAL +#undef DDR_PHY_DX1GCR6_RESERVED_31_30_SHIFT +#undef DDR_PHY_DX1GCR6_RESERVED_31_30_MASK +#define DDR_PHY_DX1GCR6_RESERVED_31_30_DEFVAL 0x09090909 +#define DDR_PHY_DX1GCR6_RESERVED_31_30_SHIFT 30 +#define DDR_PHY_DX1GCR6_RESERVED_31_30_MASK 0xC0000000U + +/*DRAM DQ VREF Select for Rank3*/ +#undef DDR_PHY_DX1GCR6_DXDQVREFR3_DEFVAL +#undef DDR_PHY_DX1GCR6_DXDQVREFR3_SHIFT +#undef DDR_PHY_DX1GCR6_DXDQVREFR3_MASK +#define DDR_PHY_DX1GCR6_DXDQVREFR3_DEFVAL 0x09090909 +#define DDR_PHY_DX1GCR6_DXDQVREFR3_SHIFT 24 +#define DDR_PHY_DX1GCR6_DXDQVREFR3_MASK 0x3F000000U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX1GCR6_RESERVED_23_22_DEFVAL +#undef DDR_PHY_DX1GCR6_RESERVED_23_22_SHIFT +#undef DDR_PHY_DX1GCR6_RESERVED_23_22_MASK +#define DDR_PHY_DX1GCR6_RESERVED_23_22_DEFVAL 0x09090909 +#define DDR_PHY_DX1GCR6_RESERVED_23_22_SHIFT 22 +#define DDR_PHY_DX1GCR6_RESERVED_23_22_MASK 0x00C00000U + +/*DRAM DQ VREF Select for Rank2*/ +#undef DDR_PHY_DX1GCR6_DXDQVREFR2_DEFVAL +#undef DDR_PHY_DX1GCR6_DXDQVREFR2_SHIFT +#undef DDR_PHY_DX1GCR6_DXDQVREFR2_MASK +#define DDR_PHY_DX1GCR6_DXDQVREFR2_DEFVAL 0x09090909 +#define DDR_PHY_DX1GCR6_DXDQVREFR2_SHIFT 16 +#define DDR_PHY_DX1GCR6_DXDQVREFR2_MASK 0x003F0000U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX1GCR6_RESERVED_15_14_DEFVAL +#undef DDR_PHY_DX1GCR6_RESERVED_15_14_SHIFT +#undef DDR_PHY_DX1GCR6_RESERVED_15_14_MASK +#define DDR_PHY_DX1GCR6_RESERVED_15_14_DEFVAL 0x09090909 +#define DDR_PHY_DX1GCR6_RESERVED_15_14_SHIFT 14 +#define DDR_PHY_DX1GCR6_RESERVED_15_14_MASK 0x0000C000U + +/*DRAM DQ VREF Select for Rank1*/ +#undef DDR_PHY_DX1GCR6_DXDQVREFR1_DEFVAL +#undef DDR_PHY_DX1GCR6_DXDQVREFR1_SHIFT +#undef DDR_PHY_DX1GCR6_DXDQVREFR1_MASK +#define DDR_PHY_DX1GCR6_DXDQVREFR1_DEFVAL 0x09090909 +#define DDR_PHY_DX1GCR6_DXDQVREFR1_SHIFT 8 +#define DDR_PHY_DX1GCR6_DXDQVREFR1_MASK 0x00003F00U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX1GCR6_RESERVED_7_6_DEFVAL +#undef DDR_PHY_DX1GCR6_RESERVED_7_6_SHIFT +#undef DDR_PHY_DX1GCR6_RESERVED_7_6_MASK +#define DDR_PHY_DX1GCR6_RESERVED_7_6_DEFVAL 0x09090909 +#define DDR_PHY_DX1GCR6_RESERVED_7_6_SHIFT 6 +#define DDR_PHY_DX1GCR6_RESERVED_7_6_MASK 0x000000C0U + +/*DRAM DQ VREF Select for Rank0*/ +#undef DDR_PHY_DX1GCR6_DXDQVREFR0_DEFVAL +#undef DDR_PHY_DX1GCR6_DXDQVREFR0_SHIFT +#undef DDR_PHY_DX1GCR6_DXDQVREFR0_MASK +#define DDR_PHY_DX1GCR6_DXDQVREFR0_DEFVAL 0x09090909 +#define DDR_PHY_DX1GCR6_DXDQVREFR0_SHIFT 0 +#define DDR_PHY_DX1GCR6_DXDQVREFR0_MASK 0x0000003FU + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX1LCDLR2_RESERVED_31_25_DEFVAL +#undef DDR_PHY_DX1LCDLR2_RESERVED_31_25_SHIFT +#undef DDR_PHY_DX1LCDLR2_RESERVED_31_25_MASK +#define DDR_PHY_DX1LCDLR2_RESERVED_31_25_DEFVAL 0x00000000 +#define DDR_PHY_DX1LCDLR2_RESERVED_31_25_SHIFT 25 +#define DDR_PHY_DX1LCDLR2_RESERVED_31_25_MASK 0xFE000000U + +/*Reserved. Caution, do not write to this register field.*/ +#undef DDR_PHY_DX1LCDLR2_RESERVED_24_16_DEFVAL +#undef DDR_PHY_DX1LCDLR2_RESERVED_24_16_SHIFT +#undef DDR_PHY_DX1LCDLR2_RESERVED_24_16_MASK +#define DDR_PHY_DX1LCDLR2_RESERVED_24_16_DEFVAL 0x00000000 +#define DDR_PHY_DX1LCDLR2_RESERVED_24_16_SHIFT 16 +#define DDR_PHY_DX1LCDLR2_RESERVED_24_16_MASK 0x01FF0000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX1LCDLR2_RESERVED_15_9_DEFVAL +#undef DDR_PHY_DX1LCDLR2_RESERVED_15_9_SHIFT +#undef DDR_PHY_DX1LCDLR2_RESERVED_15_9_MASK +#define DDR_PHY_DX1LCDLR2_RESERVED_15_9_DEFVAL 0x00000000 +#define DDR_PHY_DX1LCDLR2_RESERVED_15_9_SHIFT 9 +#define DDR_PHY_DX1LCDLR2_RESERVED_15_9_MASK 0x0000FE00U + +/*Read DQS Gating Delay*/ +#undef DDR_PHY_DX1LCDLR2_DQSGD_DEFVAL +#undef DDR_PHY_DX1LCDLR2_DQSGD_SHIFT +#undef DDR_PHY_DX1LCDLR2_DQSGD_MASK +#define DDR_PHY_DX1LCDLR2_DQSGD_DEFVAL 0x00000000 +#define DDR_PHY_DX1LCDLR2_DQSGD_SHIFT 0 +#define DDR_PHY_DX1LCDLR2_DQSGD_MASK 0x000001FFU + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX1GTR0_RESERVED_31_24_DEFVAL +#undef DDR_PHY_DX1GTR0_RESERVED_31_24_SHIFT +#undef DDR_PHY_DX1GTR0_RESERVED_31_24_MASK +#define DDR_PHY_DX1GTR0_RESERVED_31_24_DEFVAL 0x00020000 +#define DDR_PHY_DX1GTR0_RESERVED_31_24_SHIFT 27 +#define DDR_PHY_DX1GTR0_RESERVED_31_24_MASK 0xF8000000U + +/*DQ Write Path Latency Pipeline*/ +#undef DDR_PHY_DX1GTR0_WDQSL_DEFVAL +#undef DDR_PHY_DX1GTR0_WDQSL_SHIFT +#undef DDR_PHY_DX1GTR0_WDQSL_MASK +#define DDR_PHY_DX1GTR0_WDQSL_DEFVAL 0x00020000 +#define DDR_PHY_DX1GTR0_WDQSL_SHIFT 24 +#define DDR_PHY_DX1GTR0_WDQSL_MASK 0x07000000U + +/*Reserved. Caution, do not write to this register field.*/ +#undef DDR_PHY_DX1GTR0_RESERVED_23_20_DEFVAL +#undef DDR_PHY_DX1GTR0_RESERVED_23_20_SHIFT +#undef DDR_PHY_DX1GTR0_RESERVED_23_20_MASK +#define DDR_PHY_DX1GTR0_RESERVED_23_20_DEFVAL 0x00020000 +#define DDR_PHY_DX1GTR0_RESERVED_23_20_SHIFT 20 +#define DDR_PHY_DX1GTR0_RESERVED_23_20_MASK 0x00F00000U + +/*Write Leveling System Latency*/ +#undef DDR_PHY_DX1GTR0_WLSL_DEFVAL +#undef DDR_PHY_DX1GTR0_WLSL_SHIFT +#undef DDR_PHY_DX1GTR0_WLSL_MASK +#define DDR_PHY_DX1GTR0_WLSL_DEFVAL 0x00020000 +#define DDR_PHY_DX1GTR0_WLSL_SHIFT 16 +#define DDR_PHY_DX1GTR0_WLSL_MASK 0x000F0000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX1GTR0_RESERVED_15_13_DEFVAL +#undef DDR_PHY_DX1GTR0_RESERVED_15_13_SHIFT +#undef DDR_PHY_DX1GTR0_RESERVED_15_13_MASK +#define DDR_PHY_DX1GTR0_RESERVED_15_13_DEFVAL 0x00020000 +#define DDR_PHY_DX1GTR0_RESERVED_15_13_SHIFT 13 +#define DDR_PHY_DX1GTR0_RESERVED_15_13_MASK 0x0000E000U + +/*Reserved. Caution, do not write to this register field.*/ +#undef DDR_PHY_DX1GTR0_RESERVED_12_8_DEFVAL +#undef DDR_PHY_DX1GTR0_RESERVED_12_8_SHIFT +#undef DDR_PHY_DX1GTR0_RESERVED_12_8_MASK +#define DDR_PHY_DX1GTR0_RESERVED_12_8_DEFVAL 0x00020000 +#define DDR_PHY_DX1GTR0_RESERVED_12_8_SHIFT 8 +#define DDR_PHY_DX1GTR0_RESERVED_12_8_MASK 0x00001F00U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX1GTR0_RESERVED_7_5_DEFVAL +#undef DDR_PHY_DX1GTR0_RESERVED_7_5_SHIFT +#undef DDR_PHY_DX1GTR0_RESERVED_7_5_MASK +#define DDR_PHY_DX1GTR0_RESERVED_7_5_DEFVAL 0x00020000 +#define DDR_PHY_DX1GTR0_RESERVED_7_5_SHIFT 5 +#define DDR_PHY_DX1GTR0_RESERVED_7_5_MASK 0x000000E0U + +/*DQS Gating System Latency*/ +#undef DDR_PHY_DX1GTR0_DGSL_DEFVAL +#undef DDR_PHY_DX1GTR0_DGSL_SHIFT +#undef DDR_PHY_DX1GTR0_DGSL_MASK +#define DDR_PHY_DX1GTR0_DGSL_DEFVAL 0x00020000 +#define DDR_PHY_DX1GTR0_DGSL_SHIFT 0 +#define DDR_PHY_DX1GTR0_DGSL_MASK 0x0000001FU + +/*Calibration Bypass*/ +#undef DDR_PHY_DX2GCR0_CALBYP_DEFVAL +#undef DDR_PHY_DX2GCR0_CALBYP_SHIFT +#undef DDR_PHY_DX2GCR0_CALBYP_MASK +#define DDR_PHY_DX2GCR0_CALBYP_DEFVAL 0x40200204 +#define DDR_PHY_DX2GCR0_CALBYP_SHIFT 31 +#define DDR_PHY_DX2GCR0_CALBYP_MASK 0x80000000U + +/*Master Delay Line Enable*/ +#undef DDR_PHY_DX2GCR0_MDLEN_DEFVAL +#undef DDR_PHY_DX2GCR0_MDLEN_SHIFT +#undef DDR_PHY_DX2GCR0_MDLEN_MASK +#define DDR_PHY_DX2GCR0_MDLEN_DEFVAL 0x40200204 +#define DDR_PHY_DX2GCR0_MDLEN_SHIFT 30 +#define DDR_PHY_DX2GCR0_MDLEN_MASK 0x40000000U + +/*Configurable ODT(TE) Phase Shift*/ +#undef DDR_PHY_DX2GCR0_CODTSHFT_DEFVAL +#undef DDR_PHY_DX2GCR0_CODTSHFT_SHIFT +#undef DDR_PHY_DX2GCR0_CODTSHFT_MASK +#define DDR_PHY_DX2GCR0_CODTSHFT_DEFVAL 0x40200204 +#define DDR_PHY_DX2GCR0_CODTSHFT_SHIFT 28 +#define DDR_PHY_DX2GCR0_CODTSHFT_MASK 0x30000000U + +/*DQS Duty Cycle Correction*/ +#undef DDR_PHY_DX2GCR0_DQSDCC_DEFVAL +#undef DDR_PHY_DX2GCR0_DQSDCC_SHIFT +#undef DDR_PHY_DX2GCR0_DQSDCC_MASK +#define DDR_PHY_DX2GCR0_DQSDCC_DEFVAL 0x40200204 +#define DDR_PHY_DX2GCR0_DQSDCC_SHIFT 24 +#define DDR_PHY_DX2GCR0_DQSDCC_MASK 0x0F000000U + +/*Number of Cycles ( in terms of ctl_clk) to generate ctl_dx_get_static_rd input for the respective bypte lane of the PHY*/ +#undef DDR_PHY_DX2GCR0_RDDLY_DEFVAL +#undef DDR_PHY_DX2GCR0_RDDLY_SHIFT +#undef DDR_PHY_DX2GCR0_RDDLY_MASK +#define DDR_PHY_DX2GCR0_RDDLY_DEFVAL 0x40200204 +#define DDR_PHY_DX2GCR0_RDDLY_SHIFT 20 +#define DDR_PHY_DX2GCR0_RDDLY_MASK 0x00F00000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX2GCR0_RESERVED_19_14_DEFVAL +#undef DDR_PHY_DX2GCR0_RESERVED_19_14_SHIFT +#undef DDR_PHY_DX2GCR0_RESERVED_19_14_MASK +#define DDR_PHY_DX2GCR0_RESERVED_19_14_DEFVAL 0x40200204 +#define DDR_PHY_DX2GCR0_RESERVED_19_14_SHIFT 14 +#define DDR_PHY_DX2GCR0_RESERVED_19_14_MASK 0x000FC000U + +/*DQSNSE Power Down Receiver*/ +#undef DDR_PHY_DX2GCR0_DQSNSEPDR_DEFVAL +#undef DDR_PHY_DX2GCR0_DQSNSEPDR_SHIFT +#undef DDR_PHY_DX2GCR0_DQSNSEPDR_MASK +#define DDR_PHY_DX2GCR0_DQSNSEPDR_DEFVAL 0x40200204 +#define DDR_PHY_DX2GCR0_DQSNSEPDR_SHIFT 13 +#define DDR_PHY_DX2GCR0_DQSNSEPDR_MASK 0x00002000U + +/*DQSSE Power Down Receiver*/ +#undef DDR_PHY_DX2GCR0_DQSSEPDR_DEFVAL +#undef DDR_PHY_DX2GCR0_DQSSEPDR_SHIFT +#undef DDR_PHY_DX2GCR0_DQSSEPDR_MASK +#define DDR_PHY_DX2GCR0_DQSSEPDR_DEFVAL 0x40200204 +#define DDR_PHY_DX2GCR0_DQSSEPDR_SHIFT 12 +#define DDR_PHY_DX2GCR0_DQSSEPDR_MASK 0x00001000U + +/*RTT On Additive Latency*/ +#undef DDR_PHY_DX2GCR0_RTTOAL_DEFVAL +#undef DDR_PHY_DX2GCR0_RTTOAL_SHIFT +#undef DDR_PHY_DX2GCR0_RTTOAL_MASK +#define DDR_PHY_DX2GCR0_RTTOAL_DEFVAL 0x40200204 +#define DDR_PHY_DX2GCR0_RTTOAL_SHIFT 11 +#define DDR_PHY_DX2GCR0_RTTOAL_MASK 0x00000800U + +/*RTT Output Hold*/ +#undef DDR_PHY_DX2GCR0_RTTOH_DEFVAL +#undef DDR_PHY_DX2GCR0_RTTOH_SHIFT +#undef DDR_PHY_DX2GCR0_RTTOH_MASK +#define DDR_PHY_DX2GCR0_RTTOH_DEFVAL 0x40200204 +#define DDR_PHY_DX2GCR0_RTTOH_SHIFT 9 +#define DDR_PHY_DX2GCR0_RTTOH_MASK 0x00000600U + +/*Configurable PDR Phase Shift*/ +#undef DDR_PHY_DX2GCR0_CPDRSHFT_DEFVAL +#undef DDR_PHY_DX2GCR0_CPDRSHFT_SHIFT +#undef DDR_PHY_DX2GCR0_CPDRSHFT_MASK +#define DDR_PHY_DX2GCR0_CPDRSHFT_DEFVAL 0x40200204 +#define DDR_PHY_DX2GCR0_CPDRSHFT_SHIFT 7 +#define DDR_PHY_DX2GCR0_CPDRSHFT_MASK 0x00000180U + +/*DQSR Power Down*/ +#undef DDR_PHY_DX2GCR0_DQSRPD_DEFVAL +#undef DDR_PHY_DX2GCR0_DQSRPD_SHIFT +#undef DDR_PHY_DX2GCR0_DQSRPD_MASK +#define DDR_PHY_DX2GCR0_DQSRPD_DEFVAL 0x40200204 +#define DDR_PHY_DX2GCR0_DQSRPD_SHIFT 6 +#define DDR_PHY_DX2GCR0_DQSRPD_MASK 0x00000040U + +/*DQSG Power Down Receiver*/ +#undef DDR_PHY_DX2GCR0_DQSGPDR_DEFVAL +#undef DDR_PHY_DX2GCR0_DQSGPDR_SHIFT +#undef DDR_PHY_DX2GCR0_DQSGPDR_MASK +#define DDR_PHY_DX2GCR0_DQSGPDR_DEFVAL 0x40200204 +#define DDR_PHY_DX2GCR0_DQSGPDR_SHIFT 5 +#define DDR_PHY_DX2GCR0_DQSGPDR_MASK 0x00000020U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX2GCR0_RESERVED_4_DEFVAL +#undef DDR_PHY_DX2GCR0_RESERVED_4_SHIFT +#undef DDR_PHY_DX2GCR0_RESERVED_4_MASK +#define DDR_PHY_DX2GCR0_RESERVED_4_DEFVAL 0x40200204 +#define DDR_PHY_DX2GCR0_RESERVED_4_SHIFT 4 +#define DDR_PHY_DX2GCR0_RESERVED_4_MASK 0x00000010U + +/*DQSG On-Die Termination*/ +#undef DDR_PHY_DX2GCR0_DQSGODT_DEFVAL +#undef DDR_PHY_DX2GCR0_DQSGODT_SHIFT +#undef DDR_PHY_DX2GCR0_DQSGODT_MASK +#define DDR_PHY_DX2GCR0_DQSGODT_DEFVAL 0x40200204 +#define DDR_PHY_DX2GCR0_DQSGODT_SHIFT 3 +#define DDR_PHY_DX2GCR0_DQSGODT_MASK 0x00000008U + +/*DQSG Output Enable*/ +#undef DDR_PHY_DX2GCR0_DQSGOE_DEFVAL +#undef DDR_PHY_DX2GCR0_DQSGOE_SHIFT +#undef DDR_PHY_DX2GCR0_DQSGOE_MASK +#define DDR_PHY_DX2GCR0_DQSGOE_DEFVAL 0x40200204 +#define DDR_PHY_DX2GCR0_DQSGOE_SHIFT 2 +#define DDR_PHY_DX2GCR0_DQSGOE_MASK 0x00000004U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX2GCR0_RESERVED_1_0_DEFVAL +#undef DDR_PHY_DX2GCR0_RESERVED_1_0_SHIFT +#undef DDR_PHY_DX2GCR0_RESERVED_1_0_MASK +#define DDR_PHY_DX2GCR0_RESERVED_1_0_DEFVAL 0x40200204 +#define DDR_PHY_DX2GCR0_RESERVED_1_0_SHIFT 0 +#define DDR_PHY_DX2GCR0_RESERVED_1_0_MASK 0x00000003U + +/*Enables the PDR mode for DQ[7:0]*/ +#undef DDR_PHY_DX2GCR1_DXPDRMODE_DEFVAL +#undef DDR_PHY_DX2GCR1_DXPDRMODE_SHIFT +#undef DDR_PHY_DX2GCR1_DXPDRMODE_MASK +#define DDR_PHY_DX2GCR1_DXPDRMODE_DEFVAL 0x00007FFF +#define DDR_PHY_DX2GCR1_DXPDRMODE_SHIFT 16 +#define DDR_PHY_DX2GCR1_DXPDRMODE_MASK 0xFFFF0000U + +/*Reserved. Returns zeroes on reads.*/ +#undef DDR_PHY_DX2GCR1_RESERVED_15_DEFVAL +#undef DDR_PHY_DX2GCR1_RESERVED_15_SHIFT +#undef DDR_PHY_DX2GCR1_RESERVED_15_MASK +#define DDR_PHY_DX2GCR1_RESERVED_15_DEFVAL 0x00007FFF +#define DDR_PHY_DX2GCR1_RESERVED_15_SHIFT 15 +#define DDR_PHY_DX2GCR1_RESERVED_15_MASK 0x00008000U + +/*Select the delayed or non-delayed read data strobe #*/ +#undef DDR_PHY_DX2GCR1_QSNSEL_DEFVAL +#undef DDR_PHY_DX2GCR1_QSNSEL_SHIFT +#undef DDR_PHY_DX2GCR1_QSNSEL_MASK +#define DDR_PHY_DX2GCR1_QSNSEL_DEFVAL 0x00007FFF +#define DDR_PHY_DX2GCR1_QSNSEL_SHIFT 14 +#define DDR_PHY_DX2GCR1_QSNSEL_MASK 0x00004000U + +/*Select the delayed or non-delayed read data strobe*/ +#undef DDR_PHY_DX2GCR1_QSSEL_DEFVAL +#undef DDR_PHY_DX2GCR1_QSSEL_SHIFT +#undef DDR_PHY_DX2GCR1_QSSEL_MASK +#define DDR_PHY_DX2GCR1_QSSEL_DEFVAL 0x00007FFF +#define DDR_PHY_DX2GCR1_QSSEL_SHIFT 13 +#define DDR_PHY_DX2GCR1_QSSEL_MASK 0x00002000U + +/*Enables Read Data Strobe in a byte lane*/ +#undef DDR_PHY_DX2GCR1_OEEN_DEFVAL +#undef DDR_PHY_DX2GCR1_OEEN_SHIFT +#undef DDR_PHY_DX2GCR1_OEEN_MASK +#define DDR_PHY_DX2GCR1_OEEN_DEFVAL 0x00007FFF +#define DDR_PHY_DX2GCR1_OEEN_SHIFT 12 +#define DDR_PHY_DX2GCR1_OEEN_MASK 0x00001000U + +/*Enables PDR in a byte lane*/ +#undef DDR_PHY_DX2GCR1_PDREN_DEFVAL +#undef DDR_PHY_DX2GCR1_PDREN_SHIFT +#undef DDR_PHY_DX2GCR1_PDREN_MASK +#define DDR_PHY_DX2GCR1_PDREN_DEFVAL 0x00007FFF +#define DDR_PHY_DX2GCR1_PDREN_SHIFT 11 +#define DDR_PHY_DX2GCR1_PDREN_MASK 0x00000800U + +/*Enables ODT/TE in a byte lane*/ +#undef DDR_PHY_DX2GCR1_TEEN_DEFVAL +#undef DDR_PHY_DX2GCR1_TEEN_SHIFT +#undef DDR_PHY_DX2GCR1_TEEN_MASK +#define DDR_PHY_DX2GCR1_TEEN_DEFVAL 0x00007FFF +#define DDR_PHY_DX2GCR1_TEEN_SHIFT 10 +#define DDR_PHY_DX2GCR1_TEEN_MASK 0x00000400U + +/*Enables Write Data strobe in a byte lane*/ +#undef DDR_PHY_DX2GCR1_DSEN_DEFVAL +#undef DDR_PHY_DX2GCR1_DSEN_SHIFT +#undef DDR_PHY_DX2GCR1_DSEN_MASK +#define DDR_PHY_DX2GCR1_DSEN_DEFVAL 0x00007FFF +#define DDR_PHY_DX2GCR1_DSEN_SHIFT 9 +#define DDR_PHY_DX2GCR1_DSEN_MASK 0x00000200U + +/*Enables DM pin in a byte lane*/ +#undef DDR_PHY_DX2GCR1_DMEN_DEFVAL +#undef DDR_PHY_DX2GCR1_DMEN_SHIFT +#undef DDR_PHY_DX2GCR1_DMEN_MASK +#define DDR_PHY_DX2GCR1_DMEN_DEFVAL 0x00007FFF +#define DDR_PHY_DX2GCR1_DMEN_SHIFT 8 +#define DDR_PHY_DX2GCR1_DMEN_MASK 0x00000100U + +/*Enables DQ corresponding to each bit in a byte*/ +#undef DDR_PHY_DX2GCR1_DQEN_DEFVAL +#undef DDR_PHY_DX2GCR1_DQEN_SHIFT +#undef DDR_PHY_DX2GCR1_DQEN_MASK +#define DDR_PHY_DX2GCR1_DQEN_DEFVAL 0x00007FFF +#define DDR_PHY_DX2GCR1_DQEN_SHIFT 0 +#define DDR_PHY_DX2GCR1_DQEN_MASK 0x000000FFU + +/*Byte lane VREF IOM (Used only by D4MU IOs)*/ +#undef DDR_PHY_DX2GCR4_RESERVED_31_29_DEFVAL +#undef DDR_PHY_DX2GCR4_RESERVED_31_29_SHIFT +#undef DDR_PHY_DX2GCR4_RESERVED_31_29_MASK +#define DDR_PHY_DX2GCR4_RESERVED_31_29_DEFVAL 0x0E00003C +#define DDR_PHY_DX2GCR4_RESERVED_31_29_SHIFT 29 +#define DDR_PHY_DX2GCR4_RESERVED_31_29_MASK 0xE0000000U + +/*Byte Lane VREF Pad Enable*/ +#undef DDR_PHY_DX2GCR4_DXREFPEN_DEFVAL +#undef DDR_PHY_DX2GCR4_DXREFPEN_SHIFT +#undef DDR_PHY_DX2GCR4_DXREFPEN_MASK +#define DDR_PHY_DX2GCR4_DXREFPEN_DEFVAL 0x0E00003C +#define DDR_PHY_DX2GCR4_DXREFPEN_SHIFT 28 +#define DDR_PHY_DX2GCR4_DXREFPEN_MASK 0x10000000U + +/*Byte Lane Internal VREF Enable*/ +#undef DDR_PHY_DX2GCR4_DXREFEEN_DEFVAL +#undef DDR_PHY_DX2GCR4_DXREFEEN_SHIFT +#undef DDR_PHY_DX2GCR4_DXREFEEN_MASK +#define DDR_PHY_DX2GCR4_DXREFEEN_DEFVAL 0x0E00003C +#define DDR_PHY_DX2GCR4_DXREFEEN_SHIFT 26 +#define DDR_PHY_DX2GCR4_DXREFEEN_MASK 0x0C000000U + +/*Byte Lane Single-End VREF Enable*/ +#undef DDR_PHY_DX2GCR4_DXREFSEN_DEFVAL +#undef DDR_PHY_DX2GCR4_DXREFSEN_SHIFT +#undef DDR_PHY_DX2GCR4_DXREFSEN_MASK +#define DDR_PHY_DX2GCR4_DXREFSEN_DEFVAL 0x0E00003C +#define DDR_PHY_DX2GCR4_DXREFSEN_SHIFT 25 +#define DDR_PHY_DX2GCR4_DXREFSEN_MASK 0x02000000U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX2GCR4_RESERVED_24_DEFVAL +#undef DDR_PHY_DX2GCR4_RESERVED_24_SHIFT +#undef DDR_PHY_DX2GCR4_RESERVED_24_MASK +#define DDR_PHY_DX2GCR4_RESERVED_24_DEFVAL 0x0E00003C +#define DDR_PHY_DX2GCR4_RESERVED_24_SHIFT 24 +#define DDR_PHY_DX2GCR4_RESERVED_24_MASK 0x01000000U + +/*External VREF generator REFSEL range select*/ +#undef DDR_PHY_DX2GCR4_DXREFESELRANGE_DEFVAL +#undef DDR_PHY_DX2GCR4_DXREFESELRANGE_SHIFT +#undef DDR_PHY_DX2GCR4_DXREFESELRANGE_MASK +#define DDR_PHY_DX2GCR4_DXREFESELRANGE_DEFVAL 0x0E00003C +#define DDR_PHY_DX2GCR4_DXREFESELRANGE_SHIFT 23 +#define DDR_PHY_DX2GCR4_DXREFESELRANGE_MASK 0x00800000U + +/*Byte Lane External VREF Select*/ +#undef DDR_PHY_DX2GCR4_DXREFESEL_DEFVAL +#undef DDR_PHY_DX2GCR4_DXREFESEL_SHIFT +#undef DDR_PHY_DX2GCR4_DXREFESEL_MASK +#define DDR_PHY_DX2GCR4_DXREFESEL_DEFVAL 0x0E00003C +#define DDR_PHY_DX2GCR4_DXREFESEL_SHIFT 16 +#define DDR_PHY_DX2GCR4_DXREFESEL_MASK 0x007F0000U + +/*Single ended VREF generator REFSEL range select*/ +#undef DDR_PHY_DX2GCR4_DXREFSSELRANGE_DEFVAL +#undef DDR_PHY_DX2GCR4_DXREFSSELRANGE_SHIFT +#undef DDR_PHY_DX2GCR4_DXREFSSELRANGE_MASK +#define DDR_PHY_DX2GCR4_DXREFSSELRANGE_DEFVAL 0x0E00003C +#define DDR_PHY_DX2GCR4_DXREFSSELRANGE_SHIFT 15 +#define DDR_PHY_DX2GCR4_DXREFSSELRANGE_MASK 0x00008000U + +/*Byte Lane Single-End VREF Select*/ +#undef DDR_PHY_DX2GCR4_DXREFSSEL_DEFVAL +#undef DDR_PHY_DX2GCR4_DXREFSSEL_SHIFT +#undef DDR_PHY_DX2GCR4_DXREFSSEL_MASK +#define DDR_PHY_DX2GCR4_DXREFSSEL_DEFVAL 0x0E00003C +#define DDR_PHY_DX2GCR4_DXREFSSEL_SHIFT 8 +#define DDR_PHY_DX2GCR4_DXREFSSEL_MASK 0x00007F00U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX2GCR4_RESERVED_7_6_DEFVAL +#undef DDR_PHY_DX2GCR4_RESERVED_7_6_SHIFT +#undef DDR_PHY_DX2GCR4_RESERVED_7_6_MASK +#define DDR_PHY_DX2GCR4_RESERVED_7_6_DEFVAL 0x0E00003C +#define DDR_PHY_DX2GCR4_RESERVED_7_6_SHIFT 6 +#define DDR_PHY_DX2GCR4_RESERVED_7_6_MASK 0x000000C0U + +/*VREF Enable control for DQ IO (Single Ended) buffers of a byte lane.*/ +#undef DDR_PHY_DX2GCR4_DXREFIEN_DEFVAL +#undef DDR_PHY_DX2GCR4_DXREFIEN_SHIFT +#undef DDR_PHY_DX2GCR4_DXREFIEN_MASK +#define DDR_PHY_DX2GCR4_DXREFIEN_DEFVAL 0x0E00003C +#define DDR_PHY_DX2GCR4_DXREFIEN_SHIFT 2 +#define DDR_PHY_DX2GCR4_DXREFIEN_MASK 0x0000003CU + +/*VRMON control for DQ IO (Single Ended) buffers of a byte lane.*/ +#undef DDR_PHY_DX2GCR4_DXREFIMON_DEFVAL +#undef DDR_PHY_DX2GCR4_DXREFIMON_SHIFT +#undef DDR_PHY_DX2GCR4_DXREFIMON_MASK +#define DDR_PHY_DX2GCR4_DXREFIMON_DEFVAL 0x0E00003C +#define DDR_PHY_DX2GCR4_DXREFIMON_SHIFT 0 +#define DDR_PHY_DX2GCR4_DXREFIMON_MASK 0x00000003U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX2GCR5_RESERVED_31_DEFVAL +#undef DDR_PHY_DX2GCR5_RESERVED_31_SHIFT +#undef DDR_PHY_DX2GCR5_RESERVED_31_MASK +#define DDR_PHY_DX2GCR5_RESERVED_31_DEFVAL 0x09090909 +#define DDR_PHY_DX2GCR5_RESERVED_31_SHIFT 31 +#define DDR_PHY_DX2GCR5_RESERVED_31_MASK 0x80000000U + +/*Byte Lane internal VREF Select for Rank 3*/ +#undef DDR_PHY_DX2GCR5_DXREFISELR3_DEFVAL +#undef DDR_PHY_DX2GCR5_DXREFISELR3_SHIFT +#undef DDR_PHY_DX2GCR5_DXREFISELR3_MASK +#define DDR_PHY_DX2GCR5_DXREFISELR3_DEFVAL 0x09090909 +#define DDR_PHY_DX2GCR5_DXREFISELR3_SHIFT 24 +#define DDR_PHY_DX2GCR5_DXREFISELR3_MASK 0x7F000000U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX2GCR5_RESERVED_23_DEFVAL +#undef DDR_PHY_DX2GCR5_RESERVED_23_SHIFT +#undef DDR_PHY_DX2GCR5_RESERVED_23_MASK +#define DDR_PHY_DX2GCR5_RESERVED_23_DEFVAL 0x09090909 +#define DDR_PHY_DX2GCR5_RESERVED_23_SHIFT 23 +#define DDR_PHY_DX2GCR5_RESERVED_23_MASK 0x00800000U + +/*Byte Lane internal VREF Select for Rank 2*/ +#undef DDR_PHY_DX2GCR5_DXREFISELR2_DEFVAL +#undef DDR_PHY_DX2GCR5_DXREFISELR2_SHIFT +#undef DDR_PHY_DX2GCR5_DXREFISELR2_MASK +#define DDR_PHY_DX2GCR5_DXREFISELR2_DEFVAL 0x09090909 +#define DDR_PHY_DX2GCR5_DXREFISELR2_SHIFT 16 +#define DDR_PHY_DX2GCR5_DXREFISELR2_MASK 0x007F0000U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX2GCR5_RESERVED_15_DEFVAL +#undef DDR_PHY_DX2GCR5_RESERVED_15_SHIFT +#undef DDR_PHY_DX2GCR5_RESERVED_15_MASK +#define DDR_PHY_DX2GCR5_RESERVED_15_DEFVAL 0x09090909 +#define DDR_PHY_DX2GCR5_RESERVED_15_SHIFT 15 +#define DDR_PHY_DX2GCR5_RESERVED_15_MASK 0x00008000U + +/*Byte Lane internal VREF Select for Rank 1*/ +#undef DDR_PHY_DX2GCR5_DXREFISELR1_DEFVAL +#undef DDR_PHY_DX2GCR5_DXREFISELR1_SHIFT +#undef DDR_PHY_DX2GCR5_DXREFISELR1_MASK +#define DDR_PHY_DX2GCR5_DXREFISELR1_DEFVAL 0x09090909 +#define DDR_PHY_DX2GCR5_DXREFISELR1_SHIFT 8 +#define DDR_PHY_DX2GCR5_DXREFISELR1_MASK 0x00007F00U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX2GCR5_RESERVED_7_DEFVAL +#undef DDR_PHY_DX2GCR5_RESERVED_7_SHIFT +#undef DDR_PHY_DX2GCR5_RESERVED_7_MASK +#define DDR_PHY_DX2GCR5_RESERVED_7_DEFVAL 0x09090909 +#define DDR_PHY_DX2GCR5_RESERVED_7_SHIFT 7 +#define DDR_PHY_DX2GCR5_RESERVED_7_MASK 0x00000080U + +/*Byte Lane internal VREF Select for Rank 0*/ +#undef DDR_PHY_DX2GCR5_DXREFISELR0_DEFVAL +#undef DDR_PHY_DX2GCR5_DXREFISELR0_SHIFT +#undef DDR_PHY_DX2GCR5_DXREFISELR0_MASK +#define DDR_PHY_DX2GCR5_DXREFISELR0_DEFVAL 0x09090909 +#define DDR_PHY_DX2GCR5_DXREFISELR0_SHIFT 0 +#define DDR_PHY_DX2GCR5_DXREFISELR0_MASK 0x0000007FU + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX2GCR6_RESERVED_31_30_DEFVAL +#undef DDR_PHY_DX2GCR6_RESERVED_31_30_SHIFT +#undef DDR_PHY_DX2GCR6_RESERVED_31_30_MASK +#define DDR_PHY_DX2GCR6_RESERVED_31_30_DEFVAL 0x09090909 +#define DDR_PHY_DX2GCR6_RESERVED_31_30_SHIFT 30 +#define DDR_PHY_DX2GCR6_RESERVED_31_30_MASK 0xC0000000U + +/*DRAM DQ VREF Select for Rank3*/ +#undef DDR_PHY_DX2GCR6_DXDQVREFR3_DEFVAL +#undef DDR_PHY_DX2GCR6_DXDQVREFR3_SHIFT +#undef DDR_PHY_DX2GCR6_DXDQVREFR3_MASK +#define DDR_PHY_DX2GCR6_DXDQVREFR3_DEFVAL 0x09090909 +#define DDR_PHY_DX2GCR6_DXDQVREFR3_SHIFT 24 +#define DDR_PHY_DX2GCR6_DXDQVREFR3_MASK 0x3F000000U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX2GCR6_RESERVED_23_22_DEFVAL +#undef DDR_PHY_DX2GCR6_RESERVED_23_22_SHIFT +#undef DDR_PHY_DX2GCR6_RESERVED_23_22_MASK +#define DDR_PHY_DX2GCR6_RESERVED_23_22_DEFVAL 0x09090909 +#define DDR_PHY_DX2GCR6_RESERVED_23_22_SHIFT 22 +#define DDR_PHY_DX2GCR6_RESERVED_23_22_MASK 0x00C00000U + +/*DRAM DQ VREF Select for Rank2*/ +#undef DDR_PHY_DX2GCR6_DXDQVREFR2_DEFVAL +#undef DDR_PHY_DX2GCR6_DXDQVREFR2_SHIFT +#undef DDR_PHY_DX2GCR6_DXDQVREFR2_MASK +#define DDR_PHY_DX2GCR6_DXDQVREFR2_DEFVAL 0x09090909 +#define DDR_PHY_DX2GCR6_DXDQVREFR2_SHIFT 16 +#define DDR_PHY_DX2GCR6_DXDQVREFR2_MASK 0x003F0000U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX2GCR6_RESERVED_15_14_DEFVAL +#undef DDR_PHY_DX2GCR6_RESERVED_15_14_SHIFT +#undef DDR_PHY_DX2GCR6_RESERVED_15_14_MASK +#define DDR_PHY_DX2GCR6_RESERVED_15_14_DEFVAL 0x09090909 +#define DDR_PHY_DX2GCR6_RESERVED_15_14_SHIFT 14 +#define DDR_PHY_DX2GCR6_RESERVED_15_14_MASK 0x0000C000U + +/*DRAM DQ VREF Select for Rank1*/ +#undef DDR_PHY_DX2GCR6_DXDQVREFR1_DEFVAL +#undef DDR_PHY_DX2GCR6_DXDQVREFR1_SHIFT +#undef DDR_PHY_DX2GCR6_DXDQVREFR1_MASK +#define DDR_PHY_DX2GCR6_DXDQVREFR1_DEFVAL 0x09090909 +#define DDR_PHY_DX2GCR6_DXDQVREFR1_SHIFT 8 +#define DDR_PHY_DX2GCR6_DXDQVREFR1_MASK 0x00003F00U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX2GCR6_RESERVED_7_6_DEFVAL +#undef DDR_PHY_DX2GCR6_RESERVED_7_6_SHIFT +#undef DDR_PHY_DX2GCR6_RESERVED_7_6_MASK +#define DDR_PHY_DX2GCR6_RESERVED_7_6_DEFVAL 0x09090909 +#define DDR_PHY_DX2GCR6_RESERVED_7_6_SHIFT 6 +#define DDR_PHY_DX2GCR6_RESERVED_7_6_MASK 0x000000C0U + +/*DRAM DQ VREF Select for Rank0*/ +#undef DDR_PHY_DX2GCR6_DXDQVREFR0_DEFVAL +#undef DDR_PHY_DX2GCR6_DXDQVREFR0_SHIFT +#undef DDR_PHY_DX2GCR6_DXDQVREFR0_MASK +#define DDR_PHY_DX2GCR6_DXDQVREFR0_DEFVAL 0x09090909 +#define DDR_PHY_DX2GCR6_DXDQVREFR0_SHIFT 0 +#define DDR_PHY_DX2GCR6_DXDQVREFR0_MASK 0x0000003FU + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX2LCDLR2_RESERVED_31_25_DEFVAL +#undef DDR_PHY_DX2LCDLR2_RESERVED_31_25_SHIFT +#undef DDR_PHY_DX2LCDLR2_RESERVED_31_25_MASK +#define DDR_PHY_DX2LCDLR2_RESERVED_31_25_DEFVAL 0x00000000 +#define DDR_PHY_DX2LCDLR2_RESERVED_31_25_SHIFT 25 +#define DDR_PHY_DX2LCDLR2_RESERVED_31_25_MASK 0xFE000000U + +/*Reserved. Caution, do not write to this register field.*/ +#undef DDR_PHY_DX2LCDLR2_RESERVED_24_16_DEFVAL +#undef DDR_PHY_DX2LCDLR2_RESERVED_24_16_SHIFT +#undef DDR_PHY_DX2LCDLR2_RESERVED_24_16_MASK +#define DDR_PHY_DX2LCDLR2_RESERVED_24_16_DEFVAL 0x00000000 +#define DDR_PHY_DX2LCDLR2_RESERVED_24_16_SHIFT 16 +#define DDR_PHY_DX2LCDLR2_RESERVED_24_16_MASK 0x01FF0000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX2LCDLR2_RESERVED_15_9_DEFVAL +#undef DDR_PHY_DX2LCDLR2_RESERVED_15_9_SHIFT +#undef DDR_PHY_DX2LCDLR2_RESERVED_15_9_MASK +#define DDR_PHY_DX2LCDLR2_RESERVED_15_9_DEFVAL 0x00000000 +#define DDR_PHY_DX2LCDLR2_RESERVED_15_9_SHIFT 9 +#define DDR_PHY_DX2LCDLR2_RESERVED_15_9_MASK 0x0000FE00U + +/*Read DQS Gating Delay*/ +#undef DDR_PHY_DX2LCDLR2_DQSGD_DEFVAL +#undef DDR_PHY_DX2LCDLR2_DQSGD_SHIFT +#undef DDR_PHY_DX2LCDLR2_DQSGD_MASK +#define DDR_PHY_DX2LCDLR2_DQSGD_DEFVAL 0x00000000 +#define DDR_PHY_DX2LCDLR2_DQSGD_SHIFT 0 +#define DDR_PHY_DX2LCDLR2_DQSGD_MASK 0x000001FFU + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX2GTR0_RESERVED_31_24_DEFVAL +#undef DDR_PHY_DX2GTR0_RESERVED_31_24_SHIFT +#undef DDR_PHY_DX2GTR0_RESERVED_31_24_MASK +#define DDR_PHY_DX2GTR0_RESERVED_31_24_DEFVAL 0x00020000 +#define DDR_PHY_DX2GTR0_RESERVED_31_24_SHIFT 27 +#define DDR_PHY_DX2GTR0_RESERVED_31_24_MASK 0xF8000000U + +/*DQ Write Path Latency Pipeline*/ +#undef DDR_PHY_DX2GTR0_WDQSL_DEFVAL +#undef DDR_PHY_DX2GTR0_WDQSL_SHIFT +#undef DDR_PHY_DX2GTR0_WDQSL_MASK +#define DDR_PHY_DX2GTR0_WDQSL_DEFVAL 0x00020000 +#define DDR_PHY_DX2GTR0_WDQSL_SHIFT 24 +#define DDR_PHY_DX2GTR0_WDQSL_MASK 0x07000000U + +/*Reserved. Caution, do not write to this register field.*/ +#undef DDR_PHY_DX2GTR0_RESERVED_23_20_DEFVAL +#undef DDR_PHY_DX2GTR0_RESERVED_23_20_SHIFT +#undef DDR_PHY_DX2GTR0_RESERVED_23_20_MASK +#define DDR_PHY_DX2GTR0_RESERVED_23_20_DEFVAL 0x00020000 +#define DDR_PHY_DX2GTR0_RESERVED_23_20_SHIFT 20 +#define DDR_PHY_DX2GTR0_RESERVED_23_20_MASK 0x00F00000U + +/*Write Leveling System Latency*/ +#undef DDR_PHY_DX2GTR0_WLSL_DEFVAL +#undef DDR_PHY_DX2GTR0_WLSL_SHIFT +#undef DDR_PHY_DX2GTR0_WLSL_MASK +#define DDR_PHY_DX2GTR0_WLSL_DEFVAL 0x00020000 +#define DDR_PHY_DX2GTR0_WLSL_SHIFT 16 +#define DDR_PHY_DX2GTR0_WLSL_MASK 0x000F0000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX2GTR0_RESERVED_15_13_DEFVAL +#undef DDR_PHY_DX2GTR0_RESERVED_15_13_SHIFT +#undef DDR_PHY_DX2GTR0_RESERVED_15_13_MASK +#define DDR_PHY_DX2GTR0_RESERVED_15_13_DEFVAL 0x00020000 +#define DDR_PHY_DX2GTR0_RESERVED_15_13_SHIFT 13 +#define DDR_PHY_DX2GTR0_RESERVED_15_13_MASK 0x0000E000U + +/*Reserved. Caution, do not write to this register field.*/ +#undef DDR_PHY_DX2GTR0_RESERVED_12_8_DEFVAL +#undef DDR_PHY_DX2GTR0_RESERVED_12_8_SHIFT +#undef DDR_PHY_DX2GTR0_RESERVED_12_8_MASK +#define DDR_PHY_DX2GTR0_RESERVED_12_8_DEFVAL 0x00020000 +#define DDR_PHY_DX2GTR0_RESERVED_12_8_SHIFT 8 +#define DDR_PHY_DX2GTR0_RESERVED_12_8_MASK 0x00001F00U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX2GTR0_RESERVED_7_5_DEFVAL +#undef DDR_PHY_DX2GTR0_RESERVED_7_5_SHIFT +#undef DDR_PHY_DX2GTR0_RESERVED_7_5_MASK +#define DDR_PHY_DX2GTR0_RESERVED_7_5_DEFVAL 0x00020000 +#define DDR_PHY_DX2GTR0_RESERVED_7_5_SHIFT 5 +#define DDR_PHY_DX2GTR0_RESERVED_7_5_MASK 0x000000E0U + +/*DQS Gating System Latency*/ +#undef DDR_PHY_DX2GTR0_DGSL_DEFVAL +#undef DDR_PHY_DX2GTR0_DGSL_SHIFT +#undef DDR_PHY_DX2GTR0_DGSL_MASK +#define DDR_PHY_DX2GTR0_DGSL_DEFVAL 0x00020000 +#define DDR_PHY_DX2GTR0_DGSL_SHIFT 0 +#define DDR_PHY_DX2GTR0_DGSL_MASK 0x0000001FU + +/*Calibration Bypass*/ +#undef DDR_PHY_DX3GCR0_CALBYP_DEFVAL +#undef DDR_PHY_DX3GCR0_CALBYP_SHIFT +#undef DDR_PHY_DX3GCR0_CALBYP_MASK +#define DDR_PHY_DX3GCR0_CALBYP_DEFVAL 0x40200204 +#define DDR_PHY_DX3GCR0_CALBYP_SHIFT 31 +#define DDR_PHY_DX3GCR0_CALBYP_MASK 0x80000000U + +/*Master Delay Line Enable*/ +#undef DDR_PHY_DX3GCR0_MDLEN_DEFVAL +#undef DDR_PHY_DX3GCR0_MDLEN_SHIFT +#undef DDR_PHY_DX3GCR0_MDLEN_MASK +#define DDR_PHY_DX3GCR0_MDLEN_DEFVAL 0x40200204 +#define DDR_PHY_DX3GCR0_MDLEN_SHIFT 30 +#define DDR_PHY_DX3GCR0_MDLEN_MASK 0x40000000U + +/*Configurable ODT(TE) Phase Shift*/ +#undef DDR_PHY_DX3GCR0_CODTSHFT_DEFVAL +#undef DDR_PHY_DX3GCR0_CODTSHFT_SHIFT +#undef DDR_PHY_DX3GCR0_CODTSHFT_MASK +#define DDR_PHY_DX3GCR0_CODTSHFT_DEFVAL 0x40200204 +#define DDR_PHY_DX3GCR0_CODTSHFT_SHIFT 28 +#define DDR_PHY_DX3GCR0_CODTSHFT_MASK 0x30000000U + +/*DQS Duty Cycle Correction*/ +#undef DDR_PHY_DX3GCR0_DQSDCC_DEFVAL +#undef DDR_PHY_DX3GCR0_DQSDCC_SHIFT +#undef DDR_PHY_DX3GCR0_DQSDCC_MASK +#define DDR_PHY_DX3GCR0_DQSDCC_DEFVAL 0x40200204 +#define DDR_PHY_DX3GCR0_DQSDCC_SHIFT 24 +#define DDR_PHY_DX3GCR0_DQSDCC_MASK 0x0F000000U + +/*Number of Cycles ( in terms of ctl_clk) to generate ctl_dx_get_static_rd input for the respective bypte lane of the PHY*/ +#undef DDR_PHY_DX3GCR0_RDDLY_DEFVAL +#undef DDR_PHY_DX3GCR0_RDDLY_SHIFT +#undef DDR_PHY_DX3GCR0_RDDLY_MASK +#define DDR_PHY_DX3GCR0_RDDLY_DEFVAL 0x40200204 +#define DDR_PHY_DX3GCR0_RDDLY_SHIFT 20 +#define DDR_PHY_DX3GCR0_RDDLY_MASK 0x00F00000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX3GCR0_RESERVED_19_14_DEFVAL +#undef DDR_PHY_DX3GCR0_RESERVED_19_14_SHIFT +#undef DDR_PHY_DX3GCR0_RESERVED_19_14_MASK +#define DDR_PHY_DX3GCR0_RESERVED_19_14_DEFVAL 0x40200204 +#define DDR_PHY_DX3GCR0_RESERVED_19_14_SHIFT 14 +#define DDR_PHY_DX3GCR0_RESERVED_19_14_MASK 0x000FC000U + +/*DQSNSE Power Down Receiver*/ +#undef DDR_PHY_DX3GCR0_DQSNSEPDR_DEFVAL +#undef DDR_PHY_DX3GCR0_DQSNSEPDR_SHIFT +#undef DDR_PHY_DX3GCR0_DQSNSEPDR_MASK +#define DDR_PHY_DX3GCR0_DQSNSEPDR_DEFVAL 0x40200204 +#define DDR_PHY_DX3GCR0_DQSNSEPDR_SHIFT 13 +#define DDR_PHY_DX3GCR0_DQSNSEPDR_MASK 0x00002000U + +/*DQSSE Power Down Receiver*/ +#undef DDR_PHY_DX3GCR0_DQSSEPDR_DEFVAL +#undef DDR_PHY_DX3GCR0_DQSSEPDR_SHIFT +#undef DDR_PHY_DX3GCR0_DQSSEPDR_MASK +#define DDR_PHY_DX3GCR0_DQSSEPDR_DEFVAL 0x40200204 +#define DDR_PHY_DX3GCR0_DQSSEPDR_SHIFT 12 +#define DDR_PHY_DX3GCR0_DQSSEPDR_MASK 0x00001000U + +/*RTT On Additive Latency*/ +#undef DDR_PHY_DX3GCR0_RTTOAL_DEFVAL +#undef DDR_PHY_DX3GCR0_RTTOAL_SHIFT +#undef DDR_PHY_DX3GCR0_RTTOAL_MASK +#define DDR_PHY_DX3GCR0_RTTOAL_DEFVAL 0x40200204 +#define DDR_PHY_DX3GCR0_RTTOAL_SHIFT 11 +#define DDR_PHY_DX3GCR0_RTTOAL_MASK 0x00000800U + +/*RTT Output Hold*/ +#undef DDR_PHY_DX3GCR0_RTTOH_DEFVAL +#undef DDR_PHY_DX3GCR0_RTTOH_SHIFT +#undef DDR_PHY_DX3GCR0_RTTOH_MASK +#define DDR_PHY_DX3GCR0_RTTOH_DEFVAL 0x40200204 +#define DDR_PHY_DX3GCR0_RTTOH_SHIFT 9 +#define DDR_PHY_DX3GCR0_RTTOH_MASK 0x00000600U + +/*Configurable PDR Phase Shift*/ +#undef DDR_PHY_DX3GCR0_CPDRSHFT_DEFVAL +#undef DDR_PHY_DX3GCR0_CPDRSHFT_SHIFT +#undef DDR_PHY_DX3GCR0_CPDRSHFT_MASK +#define DDR_PHY_DX3GCR0_CPDRSHFT_DEFVAL 0x40200204 +#define DDR_PHY_DX3GCR0_CPDRSHFT_SHIFT 7 +#define DDR_PHY_DX3GCR0_CPDRSHFT_MASK 0x00000180U + +/*DQSR Power Down*/ +#undef DDR_PHY_DX3GCR0_DQSRPD_DEFVAL +#undef DDR_PHY_DX3GCR0_DQSRPD_SHIFT +#undef DDR_PHY_DX3GCR0_DQSRPD_MASK +#define DDR_PHY_DX3GCR0_DQSRPD_DEFVAL 0x40200204 +#define DDR_PHY_DX3GCR0_DQSRPD_SHIFT 6 +#define DDR_PHY_DX3GCR0_DQSRPD_MASK 0x00000040U + +/*DQSG Power Down Receiver*/ +#undef DDR_PHY_DX3GCR0_DQSGPDR_DEFVAL +#undef DDR_PHY_DX3GCR0_DQSGPDR_SHIFT +#undef DDR_PHY_DX3GCR0_DQSGPDR_MASK +#define DDR_PHY_DX3GCR0_DQSGPDR_DEFVAL 0x40200204 +#define DDR_PHY_DX3GCR0_DQSGPDR_SHIFT 5 +#define DDR_PHY_DX3GCR0_DQSGPDR_MASK 0x00000020U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX3GCR0_RESERVED_4_DEFVAL +#undef DDR_PHY_DX3GCR0_RESERVED_4_SHIFT +#undef DDR_PHY_DX3GCR0_RESERVED_4_MASK +#define DDR_PHY_DX3GCR0_RESERVED_4_DEFVAL 0x40200204 +#define DDR_PHY_DX3GCR0_RESERVED_4_SHIFT 4 +#define DDR_PHY_DX3GCR0_RESERVED_4_MASK 0x00000010U + +/*DQSG On-Die Termination*/ +#undef DDR_PHY_DX3GCR0_DQSGODT_DEFVAL +#undef DDR_PHY_DX3GCR0_DQSGODT_SHIFT +#undef DDR_PHY_DX3GCR0_DQSGODT_MASK +#define DDR_PHY_DX3GCR0_DQSGODT_DEFVAL 0x40200204 +#define DDR_PHY_DX3GCR0_DQSGODT_SHIFT 3 +#define DDR_PHY_DX3GCR0_DQSGODT_MASK 0x00000008U + +/*DQSG Output Enable*/ +#undef DDR_PHY_DX3GCR0_DQSGOE_DEFVAL +#undef DDR_PHY_DX3GCR0_DQSGOE_SHIFT +#undef DDR_PHY_DX3GCR0_DQSGOE_MASK +#define DDR_PHY_DX3GCR0_DQSGOE_DEFVAL 0x40200204 +#define DDR_PHY_DX3GCR0_DQSGOE_SHIFT 2 +#define DDR_PHY_DX3GCR0_DQSGOE_MASK 0x00000004U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX3GCR0_RESERVED_1_0_DEFVAL +#undef DDR_PHY_DX3GCR0_RESERVED_1_0_SHIFT +#undef DDR_PHY_DX3GCR0_RESERVED_1_0_MASK +#define DDR_PHY_DX3GCR0_RESERVED_1_0_DEFVAL 0x40200204 +#define DDR_PHY_DX3GCR0_RESERVED_1_0_SHIFT 0 +#define DDR_PHY_DX3GCR0_RESERVED_1_0_MASK 0x00000003U + +/*Enables the PDR mode for DQ[7:0]*/ +#undef DDR_PHY_DX3GCR1_DXPDRMODE_DEFVAL +#undef DDR_PHY_DX3GCR1_DXPDRMODE_SHIFT +#undef DDR_PHY_DX3GCR1_DXPDRMODE_MASK +#define DDR_PHY_DX3GCR1_DXPDRMODE_DEFVAL 0x00007FFF +#define DDR_PHY_DX3GCR1_DXPDRMODE_SHIFT 16 +#define DDR_PHY_DX3GCR1_DXPDRMODE_MASK 0xFFFF0000U + +/*Reserved. Returns zeroes on reads.*/ +#undef DDR_PHY_DX3GCR1_RESERVED_15_DEFVAL +#undef DDR_PHY_DX3GCR1_RESERVED_15_SHIFT +#undef DDR_PHY_DX3GCR1_RESERVED_15_MASK +#define DDR_PHY_DX3GCR1_RESERVED_15_DEFVAL 0x00007FFF +#define DDR_PHY_DX3GCR1_RESERVED_15_SHIFT 15 +#define DDR_PHY_DX3GCR1_RESERVED_15_MASK 0x00008000U + +/*Select the delayed or non-delayed read data strobe #*/ +#undef DDR_PHY_DX3GCR1_QSNSEL_DEFVAL +#undef DDR_PHY_DX3GCR1_QSNSEL_SHIFT +#undef DDR_PHY_DX3GCR1_QSNSEL_MASK +#define DDR_PHY_DX3GCR1_QSNSEL_DEFVAL 0x00007FFF +#define DDR_PHY_DX3GCR1_QSNSEL_SHIFT 14 +#define DDR_PHY_DX3GCR1_QSNSEL_MASK 0x00004000U + +/*Select the delayed or non-delayed read data strobe*/ +#undef DDR_PHY_DX3GCR1_QSSEL_DEFVAL +#undef DDR_PHY_DX3GCR1_QSSEL_SHIFT +#undef DDR_PHY_DX3GCR1_QSSEL_MASK +#define DDR_PHY_DX3GCR1_QSSEL_DEFVAL 0x00007FFF +#define DDR_PHY_DX3GCR1_QSSEL_SHIFT 13 +#define DDR_PHY_DX3GCR1_QSSEL_MASK 0x00002000U + +/*Enables Read Data Strobe in a byte lane*/ +#undef DDR_PHY_DX3GCR1_OEEN_DEFVAL +#undef DDR_PHY_DX3GCR1_OEEN_SHIFT +#undef DDR_PHY_DX3GCR1_OEEN_MASK +#define DDR_PHY_DX3GCR1_OEEN_DEFVAL 0x00007FFF +#define DDR_PHY_DX3GCR1_OEEN_SHIFT 12 +#define DDR_PHY_DX3GCR1_OEEN_MASK 0x00001000U + +/*Enables PDR in a byte lane*/ +#undef DDR_PHY_DX3GCR1_PDREN_DEFVAL +#undef DDR_PHY_DX3GCR1_PDREN_SHIFT +#undef DDR_PHY_DX3GCR1_PDREN_MASK +#define DDR_PHY_DX3GCR1_PDREN_DEFVAL 0x00007FFF +#define DDR_PHY_DX3GCR1_PDREN_SHIFT 11 +#define DDR_PHY_DX3GCR1_PDREN_MASK 0x00000800U + +/*Enables ODT/TE in a byte lane*/ +#undef DDR_PHY_DX3GCR1_TEEN_DEFVAL +#undef DDR_PHY_DX3GCR1_TEEN_SHIFT +#undef DDR_PHY_DX3GCR1_TEEN_MASK +#define DDR_PHY_DX3GCR1_TEEN_DEFVAL 0x00007FFF +#define DDR_PHY_DX3GCR1_TEEN_SHIFT 10 +#define DDR_PHY_DX3GCR1_TEEN_MASK 0x00000400U + +/*Enables Write Data strobe in a byte lane*/ +#undef DDR_PHY_DX3GCR1_DSEN_DEFVAL +#undef DDR_PHY_DX3GCR1_DSEN_SHIFT +#undef DDR_PHY_DX3GCR1_DSEN_MASK +#define DDR_PHY_DX3GCR1_DSEN_DEFVAL 0x00007FFF +#define DDR_PHY_DX3GCR1_DSEN_SHIFT 9 +#define DDR_PHY_DX3GCR1_DSEN_MASK 0x00000200U + +/*Enables DM pin in a byte lane*/ +#undef DDR_PHY_DX3GCR1_DMEN_DEFVAL +#undef DDR_PHY_DX3GCR1_DMEN_SHIFT +#undef DDR_PHY_DX3GCR1_DMEN_MASK +#define DDR_PHY_DX3GCR1_DMEN_DEFVAL 0x00007FFF +#define DDR_PHY_DX3GCR1_DMEN_SHIFT 8 +#define DDR_PHY_DX3GCR1_DMEN_MASK 0x00000100U + +/*Enables DQ corresponding to each bit in a byte*/ +#undef DDR_PHY_DX3GCR1_DQEN_DEFVAL +#undef DDR_PHY_DX3GCR1_DQEN_SHIFT +#undef DDR_PHY_DX3GCR1_DQEN_MASK +#define DDR_PHY_DX3GCR1_DQEN_DEFVAL 0x00007FFF +#define DDR_PHY_DX3GCR1_DQEN_SHIFT 0 +#define DDR_PHY_DX3GCR1_DQEN_MASK 0x000000FFU + +/*Byte lane VREF IOM (Used only by D4MU IOs)*/ +#undef DDR_PHY_DX3GCR4_RESERVED_31_29_DEFVAL +#undef DDR_PHY_DX3GCR4_RESERVED_31_29_SHIFT +#undef DDR_PHY_DX3GCR4_RESERVED_31_29_MASK +#define DDR_PHY_DX3GCR4_RESERVED_31_29_DEFVAL 0x0E00003C +#define DDR_PHY_DX3GCR4_RESERVED_31_29_SHIFT 29 +#define DDR_PHY_DX3GCR4_RESERVED_31_29_MASK 0xE0000000U + +/*Byte Lane VREF Pad Enable*/ +#undef DDR_PHY_DX3GCR4_DXREFPEN_DEFVAL +#undef DDR_PHY_DX3GCR4_DXREFPEN_SHIFT +#undef DDR_PHY_DX3GCR4_DXREFPEN_MASK +#define DDR_PHY_DX3GCR4_DXREFPEN_DEFVAL 0x0E00003C +#define DDR_PHY_DX3GCR4_DXREFPEN_SHIFT 28 +#define DDR_PHY_DX3GCR4_DXREFPEN_MASK 0x10000000U + +/*Byte Lane Internal VREF Enable*/ +#undef DDR_PHY_DX3GCR4_DXREFEEN_DEFVAL +#undef DDR_PHY_DX3GCR4_DXREFEEN_SHIFT +#undef DDR_PHY_DX3GCR4_DXREFEEN_MASK +#define DDR_PHY_DX3GCR4_DXREFEEN_DEFVAL 0x0E00003C +#define DDR_PHY_DX3GCR4_DXREFEEN_SHIFT 26 +#define DDR_PHY_DX3GCR4_DXREFEEN_MASK 0x0C000000U + +/*Byte Lane Single-End VREF Enable*/ +#undef DDR_PHY_DX3GCR4_DXREFSEN_DEFVAL +#undef DDR_PHY_DX3GCR4_DXREFSEN_SHIFT +#undef DDR_PHY_DX3GCR4_DXREFSEN_MASK +#define DDR_PHY_DX3GCR4_DXREFSEN_DEFVAL 0x0E00003C +#define DDR_PHY_DX3GCR4_DXREFSEN_SHIFT 25 +#define DDR_PHY_DX3GCR4_DXREFSEN_MASK 0x02000000U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX3GCR4_RESERVED_24_DEFVAL +#undef DDR_PHY_DX3GCR4_RESERVED_24_SHIFT +#undef DDR_PHY_DX3GCR4_RESERVED_24_MASK +#define DDR_PHY_DX3GCR4_RESERVED_24_DEFVAL 0x0E00003C +#define DDR_PHY_DX3GCR4_RESERVED_24_SHIFT 24 +#define DDR_PHY_DX3GCR4_RESERVED_24_MASK 0x01000000U + +/*External VREF generator REFSEL range select*/ +#undef DDR_PHY_DX3GCR4_DXREFESELRANGE_DEFVAL +#undef DDR_PHY_DX3GCR4_DXREFESELRANGE_SHIFT +#undef DDR_PHY_DX3GCR4_DXREFESELRANGE_MASK +#define DDR_PHY_DX3GCR4_DXREFESELRANGE_DEFVAL 0x0E00003C +#define DDR_PHY_DX3GCR4_DXREFESELRANGE_SHIFT 23 +#define DDR_PHY_DX3GCR4_DXREFESELRANGE_MASK 0x00800000U + +/*Byte Lane External VREF Select*/ +#undef DDR_PHY_DX3GCR4_DXREFESEL_DEFVAL +#undef DDR_PHY_DX3GCR4_DXREFESEL_SHIFT +#undef DDR_PHY_DX3GCR4_DXREFESEL_MASK +#define DDR_PHY_DX3GCR4_DXREFESEL_DEFVAL 0x0E00003C +#define DDR_PHY_DX3GCR4_DXREFESEL_SHIFT 16 +#define DDR_PHY_DX3GCR4_DXREFESEL_MASK 0x007F0000U + +/*Single ended VREF generator REFSEL range select*/ +#undef DDR_PHY_DX3GCR4_DXREFSSELRANGE_DEFVAL +#undef DDR_PHY_DX3GCR4_DXREFSSELRANGE_SHIFT +#undef DDR_PHY_DX3GCR4_DXREFSSELRANGE_MASK +#define DDR_PHY_DX3GCR4_DXREFSSELRANGE_DEFVAL 0x0E00003C +#define DDR_PHY_DX3GCR4_DXREFSSELRANGE_SHIFT 15 +#define DDR_PHY_DX3GCR4_DXREFSSELRANGE_MASK 0x00008000U + +/*Byte Lane Single-End VREF Select*/ +#undef DDR_PHY_DX3GCR4_DXREFSSEL_DEFVAL +#undef DDR_PHY_DX3GCR4_DXREFSSEL_SHIFT +#undef DDR_PHY_DX3GCR4_DXREFSSEL_MASK +#define DDR_PHY_DX3GCR4_DXREFSSEL_DEFVAL 0x0E00003C +#define DDR_PHY_DX3GCR4_DXREFSSEL_SHIFT 8 +#define DDR_PHY_DX3GCR4_DXREFSSEL_MASK 0x00007F00U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX3GCR4_RESERVED_7_6_DEFVAL +#undef DDR_PHY_DX3GCR4_RESERVED_7_6_SHIFT +#undef DDR_PHY_DX3GCR4_RESERVED_7_6_MASK +#define DDR_PHY_DX3GCR4_RESERVED_7_6_DEFVAL 0x0E00003C +#define DDR_PHY_DX3GCR4_RESERVED_7_6_SHIFT 6 +#define DDR_PHY_DX3GCR4_RESERVED_7_6_MASK 0x000000C0U + +/*VREF Enable control for DQ IO (Single Ended) buffers of a byte lane.*/ +#undef DDR_PHY_DX3GCR4_DXREFIEN_DEFVAL +#undef DDR_PHY_DX3GCR4_DXREFIEN_SHIFT +#undef DDR_PHY_DX3GCR4_DXREFIEN_MASK +#define DDR_PHY_DX3GCR4_DXREFIEN_DEFVAL 0x0E00003C +#define DDR_PHY_DX3GCR4_DXREFIEN_SHIFT 2 +#define DDR_PHY_DX3GCR4_DXREFIEN_MASK 0x0000003CU + +/*VRMON control for DQ IO (Single Ended) buffers of a byte lane.*/ +#undef DDR_PHY_DX3GCR4_DXREFIMON_DEFVAL +#undef DDR_PHY_DX3GCR4_DXREFIMON_SHIFT +#undef DDR_PHY_DX3GCR4_DXREFIMON_MASK +#define DDR_PHY_DX3GCR4_DXREFIMON_DEFVAL 0x0E00003C +#define DDR_PHY_DX3GCR4_DXREFIMON_SHIFT 0 +#define DDR_PHY_DX3GCR4_DXREFIMON_MASK 0x00000003U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX3GCR5_RESERVED_31_DEFVAL +#undef DDR_PHY_DX3GCR5_RESERVED_31_SHIFT +#undef DDR_PHY_DX3GCR5_RESERVED_31_MASK +#define DDR_PHY_DX3GCR5_RESERVED_31_DEFVAL 0x09090909 +#define DDR_PHY_DX3GCR5_RESERVED_31_SHIFT 31 +#define DDR_PHY_DX3GCR5_RESERVED_31_MASK 0x80000000U + +/*Byte Lane internal VREF Select for Rank 3*/ +#undef DDR_PHY_DX3GCR5_DXREFISELR3_DEFVAL +#undef DDR_PHY_DX3GCR5_DXREFISELR3_SHIFT +#undef DDR_PHY_DX3GCR5_DXREFISELR3_MASK +#define DDR_PHY_DX3GCR5_DXREFISELR3_DEFVAL 0x09090909 +#define DDR_PHY_DX3GCR5_DXREFISELR3_SHIFT 24 +#define DDR_PHY_DX3GCR5_DXREFISELR3_MASK 0x7F000000U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX3GCR5_RESERVED_23_DEFVAL +#undef DDR_PHY_DX3GCR5_RESERVED_23_SHIFT +#undef DDR_PHY_DX3GCR5_RESERVED_23_MASK +#define DDR_PHY_DX3GCR5_RESERVED_23_DEFVAL 0x09090909 +#define DDR_PHY_DX3GCR5_RESERVED_23_SHIFT 23 +#define DDR_PHY_DX3GCR5_RESERVED_23_MASK 0x00800000U + +/*Byte Lane internal VREF Select for Rank 2*/ +#undef DDR_PHY_DX3GCR5_DXREFISELR2_DEFVAL +#undef DDR_PHY_DX3GCR5_DXREFISELR2_SHIFT +#undef DDR_PHY_DX3GCR5_DXREFISELR2_MASK +#define DDR_PHY_DX3GCR5_DXREFISELR2_DEFVAL 0x09090909 +#define DDR_PHY_DX3GCR5_DXREFISELR2_SHIFT 16 +#define DDR_PHY_DX3GCR5_DXREFISELR2_MASK 0x007F0000U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX3GCR5_RESERVED_15_DEFVAL +#undef DDR_PHY_DX3GCR5_RESERVED_15_SHIFT +#undef DDR_PHY_DX3GCR5_RESERVED_15_MASK +#define DDR_PHY_DX3GCR5_RESERVED_15_DEFVAL 0x09090909 +#define DDR_PHY_DX3GCR5_RESERVED_15_SHIFT 15 +#define DDR_PHY_DX3GCR5_RESERVED_15_MASK 0x00008000U + +/*Byte Lane internal VREF Select for Rank 1*/ +#undef DDR_PHY_DX3GCR5_DXREFISELR1_DEFVAL +#undef DDR_PHY_DX3GCR5_DXREFISELR1_SHIFT +#undef DDR_PHY_DX3GCR5_DXREFISELR1_MASK +#define DDR_PHY_DX3GCR5_DXREFISELR1_DEFVAL 0x09090909 +#define DDR_PHY_DX3GCR5_DXREFISELR1_SHIFT 8 +#define DDR_PHY_DX3GCR5_DXREFISELR1_MASK 0x00007F00U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX3GCR5_RESERVED_7_DEFVAL +#undef DDR_PHY_DX3GCR5_RESERVED_7_SHIFT +#undef DDR_PHY_DX3GCR5_RESERVED_7_MASK +#define DDR_PHY_DX3GCR5_RESERVED_7_DEFVAL 0x09090909 +#define DDR_PHY_DX3GCR5_RESERVED_7_SHIFT 7 +#define DDR_PHY_DX3GCR5_RESERVED_7_MASK 0x00000080U + +/*Byte Lane internal VREF Select for Rank 0*/ +#undef DDR_PHY_DX3GCR5_DXREFISELR0_DEFVAL +#undef DDR_PHY_DX3GCR5_DXREFISELR0_SHIFT +#undef DDR_PHY_DX3GCR5_DXREFISELR0_MASK +#define DDR_PHY_DX3GCR5_DXREFISELR0_DEFVAL 0x09090909 +#define DDR_PHY_DX3GCR5_DXREFISELR0_SHIFT 0 +#define DDR_PHY_DX3GCR5_DXREFISELR0_MASK 0x0000007FU + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX3GCR6_RESERVED_31_30_DEFVAL +#undef DDR_PHY_DX3GCR6_RESERVED_31_30_SHIFT +#undef DDR_PHY_DX3GCR6_RESERVED_31_30_MASK +#define DDR_PHY_DX3GCR6_RESERVED_31_30_DEFVAL 0x09090909 +#define DDR_PHY_DX3GCR6_RESERVED_31_30_SHIFT 30 +#define DDR_PHY_DX3GCR6_RESERVED_31_30_MASK 0xC0000000U + +/*DRAM DQ VREF Select for Rank3*/ +#undef DDR_PHY_DX3GCR6_DXDQVREFR3_DEFVAL +#undef DDR_PHY_DX3GCR6_DXDQVREFR3_SHIFT +#undef DDR_PHY_DX3GCR6_DXDQVREFR3_MASK +#define DDR_PHY_DX3GCR6_DXDQVREFR3_DEFVAL 0x09090909 +#define DDR_PHY_DX3GCR6_DXDQVREFR3_SHIFT 24 +#define DDR_PHY_DX3GCR6_DXDQVREFR3_MASK 0x3F000000U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX3GCR6_RESERVED_23_22_DEFVAL +#undef DDR_PHY_DX3GCR6_RESERVED_23_22_SHIFT +#undef DDR_PHY_DX3GCR6_RESERVED_23_22_MASK +#define DDR_PHY_DX3GCR6_RESERVED_23_22_DEFVAL 0x09090909 +#define DDR_PHY_DX3GCR6_RESERVED_23_22_SHIFT 22 +#define DDR_PHY_DX3GCR6_RESERVED_23_22_MASK 0x00C00000U + +/*DRAM DQ VREF Select for Rank2*/ +#undef DDR_PHY_DX3GCR6_DXDQVREFR2_DEFVAL +#undef DDR_PHY_DX3GCR6_DXDQVREFR2_SHIFT +#undef DDR_PHY_DX3GCR6_DXDQVREFR2_MASK +#define DDR_PHY_DX3GCR6_DXDQVREFR2_DEFVAL 0x09090909 +#define DDR_PHY_DX3GCR6_DXDQVREFR2_SHIFT 16 +#define DDR_PHY_DX3GCR6_DXDQVREFR2_MASK 0x003F0000U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX3GCR6_RESERVED_15_14_DEFVAL +#undef DDR_PHY_DX3GCR6_RESERVED_15_14_SHIFT +#undef DDR_PHY_DX3GCR6_RESERVED_15_14_MASK +#define DDR_PHY_DX3GCR6_RESERVED_15_14_DEFVAL 0x09090909 +#define DDR_PHY_DX3GCR6_RESERVED_15_14_SHIFT 14 +#define DDR_PHY_DX3GCR6_RESERVED_15_14_MASK 0x0000C000U + +/*DRAM DQ VREF Select for Rank1*/ +#undef DDR_PHY_DX3GCR6_DXDQVREFR1_DEFVAL +#undef DDR_PHY_DX3GCR6_DXDQVREFR1_SHIFT +#undef DDR_PHY_DX3GCR6_DXDQVREFR1_MASK +#define DDR_PHY_DX3GCR6_DXDQVREFR1_DEFVAL 0x09090909 +#define DDR_PHY_DX3GCR6_DXDQVREFR1_SHIFT 8 +#define DDR_PHY_DX3GCR6_DXDQVREFR1_MASK 0x00003F00U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX3GCR6_RESERVED_7_6_DEFVAL +#undef DDR_PHY_DX3GCR6_RESERVED_7_6_SHIFT +#undef DDR_PHY_DX3GCR6_RESERVED_7_6_MASK +#define DDR_PHY_DX3GCR6_RESERVED_7_6_DEFVAL 0x09090909 +#define DDR_PHY_DX3GCR6_RESERVED_7_6_SHIFT 6 +#define DDR_PHY_DX3GCR6_RESERVED_7_6_MASK 0x000000C0U + +/*DRAM DQ VREF Select for Rank0*/ +#undef DDR_PHY_DX3GCR6_DXDQVREFR0_DEFVAL +#undef DDR_PHY_DX3GCR6_DXDQVREFR0_SHIFT +#undef DDR_PHY_DX3GCR6_DXDQVREFR0_MASK +#define DDR_PHY_DX3GCR6_DXDQVREFR0_DEFVAL 0x09090909 +#define DDR_PHY_DX3GCR6_DXDQVREFR0_SHIFT 0 +#define DDR_PHY_DX3GCR6_DXDQVREFR0_MASK 0x0000003FU + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX3LCDLR2_RESERVED_31_25_DEFVAL +#undef DDR_PHY_DX3LCDLR2_RESERVED_31_25_SHIFT +#undef DDR_PHY_DX3LCDLR2_RESERVED_31_25_MASK +#define DDR_PHY_DX3LCDLR2_RESERVED_31_25_DEFVAL 0x00000000 +#define DDR_PHY_DX3LCDLR2_RESERVED_31_25_SHIFT 25 +#define DDR_PHY_DX3LCDLR2_RESERVED_31_25_MASK 0xFE000000U + +/*Reserved. Caution, do not write to this register field.*/ +#undef DDR_PHY_DX3LCDLR2_RESERVED_24_16_DEFVAL +#undef DDR_PHY_DX3LCDLR2_RESERVED_24_16_SHIFT +#undef DDR_PHY_DX3LCDLR2_RESERVED_24_16_MASK +#define DDR_PHY_DX3LCDLR2_RESERVED_24_16_DEFVAL 0x00000000 +#define DDR_PHY_DX3LCDLR2_RESERVED_24_16_SHIFT 16 +#define DDR_PHY_DX3LCDLR2_RESERVED_24_16_MASK 0x01FF0000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX3LCDLR2_RESERVED_15_9_DEFVAL +#undef DDR_PHY_DX3LCDLR2_RESERVED_15_9_SHIFT +#undef DDR_PHY_DX3LCDLR2_RESERVED_15_9_MASK +#define DDR_PHY_DX3LCDLR2_RESERVED_15_9_DEFVAL 0x00000000 +#define DDR_PHY_DX3LCDLR2_RESERVED_15_9_SHIFT 9 +#define DDR_PHY_DX3LCDLR2_RESERVED_15_9_MASK 0x0000FE00U + +/*Read DQS Gating Delay*/ +#undef DDR_PHY_DX3LCDLR2_DQSGD_DEFVAL +#undef DDR_PHY_DX3LCDLR2_DQSGD_SHIFT +#undef DDR_PHY_DX3LCDLR2_DQSGD_MASK +#define DDR_PHY_DX3LCDLR2_DQSGD_DEFVAL 0x00000000 +#define DDR_PHY_DX3LCDLR2_DQSGD_SHIFT 0 +#define DDR_PHY_DX3LCDLR2_DQSGD_MASK 0x000001FFU + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX3GTR0_RESERVED_31_24_DEFVAL +#undef DDR_PHY_DX3GTR0_RESERVED_31_24_SHIFT +#undef DDR_PHY_DX3GTR0_RESERVED_31_24_MASK +#define DDR_PHY_DX3GTR0_RESERVED_31_24_DEFVAL 0x00020000 +#define DDR_PHY_DX3GTR0_RESERVED_31_24_SHIFT 27 +#define DDR_PHY_DX3GTR0_RESERVED_31_24_MASK 0xF8000000U + +/*DQ Write Path Latency Pipeline*/ +#undef DDR_PHY_DX3GTR0_WDQSL_DEFVAL +#undef DDR_PHY_DX3GTR0_WDQSL_SHIFT +#undef DDR_PHY_DX3GTR0_WDQSL_MASK +#define DDR_PHY_DX3GTR0_WDQSL_DEFVAL 0x00020000 +#define DDR_PHY_DX3GTR0_WDQSL_SHIFT 24 +#define DDR_PHY_DX3GTR0_WDQSL_MASK 0x07000000U + +/*Reserved. Caution, do not write to this register field.*/ +#undef DDR_PHY_DX3GTR0_RESERVED_23_20_DEFVAL +#undef DDR_PHY_DX3GTR0_RESERVED_23_20_SHIFT +#undef DDR_PHY_DX3GTR0_RESERVED_23_20_MASK +#define DDR_PHY_DX3GTR0_RESERVED_23_20_DEFVAL 0x00020000 +#define DDR_PHY_DX3GTR0_RESERVED_23_20_SHIFT 20 +#define DDR_PHY_DX3GTR0_RESERVED_23_20_MASK 0x00F00000U + +/*Write Leveling System Latency*/ +#undef DDR_PHY_DX3GTR0_WLSL_DEFVAL +#undef DDR_PHY_DX3GTR0_WLSL_SHIFT +#undef DDR_PHY_DX3GTR0_WLSL_MASK +#define DDR_PHY_DX3GTR0_WLSL_DEFVAL 0x00020000 +#define DDR_PHY_DX3GTR0_WLSL_SHIFT 16 +#define DDR_PHY_DX3GTR0_WLSL_MASK 0x000F0000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX3GTR0_RESERVED_15_13_DEFVAL +#undef DDR_PHY_DX3GTR0_RESERVED_15_13_SHIFT +#undef DDR_PHY_DX3GTR0_RESERVED_15_13_MASK +#define DDR_PHY_DX3GTR0_RESERVED_15_13_DEFVAL 0x00020000 +#define DDR_PHY_DX3GTR0_RESERVED_15_13_SHIFT 13 +#define DDR_PHY_DX3GTR0_RESERVED_15_13_MASK 0x0000E000U + +/*Reserved. Caution, do not write to this register field.*/ +#undef DDR_PHY_DX3GTR0_RESERVED_12_8_DEFVAL +#undef DDR_PHY_DX3GTR0_RESERVED_12_8_SHIFT +#undef DDR_PHY_DX3GTR0_RESERVED_12_8_MASK +#define DDR_PHY_DX3GTR0_RESERVED_12_8_DEFVAL 0x00020000 +#define DDR_PHY_DX3GTR0_RESERVED_12_8_SHIFT 8 +#define DDR_PHY_DX3GTR0_RESERVED_12_8_MASK 0x00001F00U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX3GTR0_RESERVED_7_5_DEFVAL +#undef DDR_PHY_DX3GTR0_RESERVED_7_5_SHIFT +#undef DDR_PHY_DX3GTR0_RESERVED_7_5_MASK +#define DDR_PHY_DX3GTR0_RESERVED_7_5_DEFVAL 0x00020000 +#define DDR_PHY_DX3GTR0_RESERVED_7_5_SHIFT 5 +#define DDR_PHY_DX3GTR0_RESERVED_7_5_MASK 0x000000E0U + +/*DQS Gating System Latency*/ +#undef DDR_PHY_DX3GTR0_DGSL_DEFVAL +#undef DDR_PHY_DX3GTR0_DGSL_SHIFT +#undef DDR_PHY_DX3GTR0_DGSL_MASK +#define DDR_PHY_DX3GTR0_DGSL_DEFVAL 0x00020000 +#define DDR_PHY_DX3GTR0_DGSL_SHIFT 0 +#define DDR_PHY_DX3GTR0_DGSL_MASK 0x0000001FU + +/*Calibration Bypass*/ +#undef DDR_PHY_DX4GCR0_CALBYP_DEFVAL +#undef DDR_PHY_DX4GCR0_CALBYP_SHIFT +#undef DDR_PHY_DX4GCR0_CALBYP_MASK +#define DDR_PHY_DX4GCR0_CALBYP_DEFVAL 0x40200204 +#define DDR_PHY_DX4GCR0_CALBYP_SHIFT 31 +#define DDR_PHY_DX4GCR0_CALBYP_MASK 0x80000000U + +/*Master Delay Line Enable*/ +#undef DDR_PHY_DX4GCR0_MDLEN_DEFVAL +#undef DDR_PHY_DX4GCR0_MDLEN_SHIFT +#undef DDR_PHY_DX4GCR0_MDLEN_MASK +#define DDR_PHY_DX4GCR0_MDLEN_DEFVAL 0x40200204 +#define DDR_PHY_DX4GCR0_MDLEN_SHIFT 30 +#define DDR_PHY_DX4GCR0_MDLEN_MASK 0x40000000U + +/*Configurable ODT(TE) Phase Shift*/ +#undef DDR_PHY_DX4GCR0_CODTSHFT_DEFVAL +#undef DDR_PHY_DX4GCR0_CODTSHFT_SHIFT +#undef DDR_PHY_DX4GCR0_CODTSHFT_MASK +#define DDR_PHY_DX4GCR0_CODTSHFT_DEFVAL 0x40200204 +#define DDR_PHY_DX4GCR0_CODTSHFT_SHIFT 28 +#define DDR_PHY_DX4GCR0_CODTSHFT_MASK 0x30000000U + +/*DQS Duty Cycle Correction*/ +#undef DDR_PHY_DX4GCR0_DQSDCC_DEFVAL +#undef DDR_PHY_DX4GCR0_DQSDCC_SHIFT +#undef DDR_PHY_DX4GCR0_DQSDCC_MASK +#define DDR_PHY_DX4GCR0_DQSDCC_DEFVAL 0x40200204 +#define DDR_PHY_DX4GCR0_DQSDCC_SHIFT 24 +#define DDR_PHY_DX4GCR0_DQSDCC_MASK 0x0F000000U + +/*Number of Cycles ( in terms of ctl_clk) to generate ctl_dx_get_static_rd input for the respective bypte lane of the PHY*/ +#undef DDR_PHY_DX4GCR0_RDDLY_DEFVAL +#undef DDR_PHY_DX4GCR0_RDDLY_SHIFT +#undef DDR_PHY_DX4GCR0_RDDLY_MASK +#define DDR_PHY_DX4GCR0_RDDLY_DEFVAL 0x40200204 +#define DDR_PHY_DX4GCR0_RDDLY_SHIFT 20 +#define DDR_PHY_DX4GCR0_RDDLY_MASK 0x00F00000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX4GCR0_RESERVED_19_14_DEFVAL +#undef DDR_PHY_DX4GCR0_RESERVED_19_14_SHIFT +#undef DDR_PHY_DX4GCR0_RESERVED_19_14_MASK +#define DDR_PHY_DX4GCR0_RESERVED_19_14_DEFVAL 0x40200204 +#define DDR_PHY_DX4GCR0_RESERVED_19_14_SHIFT 14 +#define DDR_PHY_DX4GCR0_RESERVED_19_14_MASK 0x000FC000U + +/*DQSNSE Power Down Receiver*/ +#undef DDR_PHY_DX4GCR0_DQSNSEPDR_DEFVAL +#undef DDR_PHY_DX4GCR0_DQSNSEPDR_SHIFT +#undef DDR_PHY_DX4GCR0_DQSNSEPDR_MASK +#define DDR_PHY_DX4GCR0_DQSNSEPDR_DEFVAL 0x40200204 +#define DDR_PHY_DX4GCR0_DQSNSEPDR_SHIFT 13 +#define DDR_PHY_DX4GCR0_DQSNSEPDR_MASK 0x00002000U + +/*DQSSE Power Down Receiver*/ +#undef DDR_PHY_DX4GCR0_DQSSEPDR_DEFVAL +#undef DDR_PHY_DX4GCR0_DQSSEPDR_SHIFT +#undef DDR_PHY_DX4GCR0_DQSSEPDR_MASK +#define DDR_PHY_DX4GCR0_DQSSEPDR_DEFVAL 0x40200204 +#define DDR_PHY_DX4GCR0_DQSSEPDR_SHIFT 12 +#define DDR_PHY_DX4GCR0_DQSSEPDR_MASK 0x00001000U + +/*RTT On Additive Latency*/ +#undef DDR_PHY_DX4GCR0_RTTOAL_DEFVAL +#undef DDR_PHY_DX4GCR0_RTTOAL_SHIFT +#undef DDR_PHY_DX4GCR0_RTTOAL_MASK +#define DDR_PHY_DX4GCR0_RTTOAL_DEFVAL 0x40200204 +#define DDR_PHY_DX4GCR0_RTTOAL_SHIFT 11 +#define DDR_PHY_DX4GCR0_RTTOAL_MASK 0x00000800U + +/*RTT Output Hold*/ +#undef DDR_PHY_DX4GCR0_RTTOH_DEFVAL +#undef DDR_PHY_DX4GCR0_RTTOH_SHIFT +#undef DDR_PHY_DX4GCR0_RTTOH_MASK +#define DDR_PHY_DX4GCR0_RTTOH_DEFVAL 0x40200204 +#define DDR_PHY_DX4GCR0_RTTOH_SHIFT 9 +#define DDR_PHY_DX4GCR0_RTTOH_MASK 0x00000600U + +/*Configurable PDR Phase Shift*/ +#undef DDR_PHY_DX4GCR0_CPDRSHFT_DEFVAL +#undef DDR_PHY_DX4GCR0_CPDRSHFT_SHIFT +#undef DDR_PHY_DX4GCR0_CPDRSHFT_MASK +#define DDR_PHY_DX4GCR0_CPDRSHFT_DEFVAL 0x40200204 +#define DDR_PHY_DX4GCR0_CPDRSHFT_SHIFT 7 +#define DDR_PHY_DX4GCR0_CPDRSHFT_MASK 0x00000180U + +/*DQSR Power Down*/ +#undef DDR_PHY_DX4GCR0_DQSRPD_DEFVAL +#undef DDR_PHY_DX4GCR0_DQSRPD_SHIFT +#undef DDR_PHY_DX4GCR0_DQSRPD_MASK +#define DDR_PHY_DX4GCR0_DQSRPD_DEFVAL 0x40200204 +#define DDR_PHY_DX4GCR0_DQSRPD_SHIFT 6 +#define DDR_PHY_DX4GCR0_DQSRPD_MASK 0x00000040U + +/*DQSG Power Down Receiver*/ +#undef DDR_PHY_DX4GCR0_DQSGPDR_DEFVAL +#undef DDR_PHY_DX4GCR0_DQSGPDR_SHIFT +#undef DDR_PHY_DX4GCR0_DQSGPDR_MASK +#define DDR_PHY_DX4GCR0_DQSGPDR_DEFVAL 0x40200204 +#define DDR_PHY_DX4GCR0_DQSGPDR_SHIFT 5 +#define DDR_PHY_DX4GCR0_DQSGPDR_MASK 0x00000020U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX4GCR0_RESERVED_4_DEFVAL +#undef DDR_PHY_DX4GCR0_RESERVED_4_SHIFT +#undef DDR_PHY_DX4GCR0_RESERVED_4_MASK +#define DDR_PHY_DX4GCR0_RESERVED_4_DEFVAL 0x40200204 +#define DDR_PHY_DX4GCR0_RESERVED_4_SHIFT 4 +#define DDR_PHY_DX4GCR0_RESERVED_4_MASK 0x00000010U + +/*DQSG On-Die Termination*/ +#undef DDR_PHY_DX4GCR0_DQSGODT_DEFVAL +#undef DDR_PHY_DX4GCR0_DQSGODT_SHIFT +#undef DDR_PHY_DX4GCR0_DQSGODT_MASK +#define DDR_PHY_DX4GCR0_DQSGODT_DEFVAL 0x40200204 +#define DDR_PHY_DX4GCR0_DQSGODT_SHIFT 3 +#define DDR_PHY_DX4GCR0_DQSGODT_MASK 0x00000008U + +/*DQSG Output Enable*/ +#undef DDR_PHY_DX4GCR0_DQSGOE_DEFVAL +#undef DDR_PHY_DX4GCR0_DQSGOE_SHIFT +#undef DDR_PHY_DX4GCR0_DQSGOE_MASK +#define DDR_PHY_DX4GCR0_DQSGOE_DEFVAL 0x40200204 +#define DDR_PHY_DX4GCR0_DQSGOE_SHIFT 2 +#define DDR_PHY_DX4GCR0_DQSGOE_MASK 0x00000004U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX4GCR0_RESERVED_1_0_DEFVAL +#undef DDR_PHY_DX4GCR0_RESERVED_1_0_SHIFT +#undef DDR_PHY_DX4GCR0_RESERVED_1_0_MASK +#define DDR_PHY_DX4GCR0_RESERVED_1_0_DEFVAL 0x40200204 +#define DDR_PHY_DX4GCR0_RESERVED_1_0_SHIFT 0 +#define DDR_PHY_DX4GCR0_RESERVED_1_0_MASK 0x00000003U + +/*Enables the PDR mode for DQ[7:0]*/ +#undef DDR_PHY_DX4GCR1_DXPDRMODE_DEFVAL +#undef DDR_PHY_DX4GCR1_DXPDRMODE_SHIFT +#undef DDR_PHY_DX4GCR1_DXPDRMODE_MASK +#define DDR_PHY_DX4GCR1_DXPDRMODE_DEFVAL 0x00007FFF +#define DDR_PHY_DX4GCR1_DXPDRMODE_SHIFT 16 +#define DDR_PHY_DX4GCR1_DXPDRMODE_MASK 0xFFFF0000U + +/*Reserved. Returns zeroes on reads.*/ +#undef DDR_PHY_DX4GCR1_RESERVED_15_DEFVAL +#undef DDR_PHY_DX4GCR1_RESERVED_15_SHIFT +#undef DDR_PHY_DX4GCR1_RESERVED_15_MASK +#define DDR_PHY_DX4GCR1_RESERVED_15_DEFVAL 0x00007FFF +#define DDR_PHY_DX4GCR1_RESERVED_15_SHIFT 15 +#define DDR_PHY_DX4GCR1_RESERVED_15_MASK 0x00008000U + +/*Select the delayed or non-delayed read data strobe #*/ +#undef DDR_PHY_DX4GCR1_QSNSEL_DEFVAL +#undef DDR_PHY_DX4GCR1_QSNSEL_SHIFT +#undef DDR_PHY_DX4GCR1_QSNSEL_MASK +#define DDR_PHY_DX4GCR1_QSNSEL_DEFVAL 0x00007FFF +#define DDR_PHY_DX4GCR1_QSNSEL_SHIFT 14 +#define DDR_PHY_DX4GCR1_QSNSEL_MASK 0x00004000U + +/*Select the delayed or non-delayed read data strobe*/ +#undef DDR_PHY_DX4GCR1_QSSEL_DEFVAL +#undef DDR_PHY_DX4GCR1_QSSEL_SHIFT +#undef DDR_PHY_DX4GCR1_QSSEL_MASK +#define DDR_PHY_DX4GCR1_QSSEL_DEFVAL 0x00007FFF +#define DDR_PHY_DX4GCR1_QSSEL_SHIFT 13 +#define DDR_PHY_DX4GCR1_QSSEL_MASK 0x00002000U + +/*Enables Read Data Strobe in a byte lane*/ +#undef DDR_PHY_DX4GCR1_OEEN_DEFVAL +#undef DDR_PHY_DX4GCR1_OEEN_SHIFT +#undef DDR_PHY_DX4GCR1_OEEN_MASK +#define DDR_PHY_DX4GCR1_OEEN_DEFVAL 0x00007FFF +#define DDR_PHY_DX4GCR1_OEEN_SHIFT 12 +#define DDR_PHY_DX4GCR1_OEEN_MASK 0x00001000U + +/*Enables PDR in a byte lane*/ +#undef DDR_PHY_DX4GCR1_PDREN_DEFVAL +#undef DDR_PHY_DX4GCR1_PDREN_SHIFT +#undef DDR_PHY_DX4GCR1_PDREN_MASK +#define DDR_PHY_DX4GCR1_PDREN_DEFVAL 0x00007FFF +#define DDR_PHY_DX4GCR1_PDREN_SHIFT 11 +#define DDR_PHY_DX4GCR1_PDREN_MASK 0x00000800U + +/*Enables ODT/TE in a byte lane*/ +#undef DDR_PHY_DX4GCR1_TEEN_DEFVAL +#undef DDR_PHY_DX4GCR1_TEEN_SHIFT +#undef DDR_PHY_DX4GCR1_TEEN_MASK +#define DDR_PHY_DX4GCR1_TEEN_DEFVAL 0x00007FFF +#define DDR_PHY_DX4GCR1_TEEN_SHIFT 10 +#define DDR_PHY_DX4GCR1_TEEN_MASK 0x00000400U + +/*Enables Write Data strobe in a byte lane*/ +#undef DDR_PHY_DX4GCR1_DSEN_DEFVAL +#undef DDR_PHY_DX4GCR1_DSEN_SHIFT +#undef DDR_PHY_DX4GCR1_DSEN_MASK +#define DDR_PHY_DX4GCR1_DSEN_DEFVAL 0x00007FFF +#define DDR_PHY_DX4GCR1_DSEN_SHIFT 9 +#define DDR_PHY_DX4GCR1_DSEN_MASK 0x00000200U + +/*Enables DM pin in a byte lane*/ +#undef DDR_PHY_DX4GCR1_DMEN_DEFVAL +#undef DDR_PHY_DX4GCR1_DMEN_SHIFT +#undef DDR_PHY_DX4GCR1_DMEN_MASK +#define DDR_PHY_DX4GCR1_DMEN_DEFVAL 0x00007FFF +#define DDR_PHY_DX4GCR1_DMEN_SHIFT 8 +#define DDR_PHY_DX4GCR1_DMEN_MASK 0x00000100U + +/*Enables DQ corresponding to each bit in a byte*/ +#undef DDR_PHY_DX4GCR1_DQEN_DEFVAL +#undef DDR_PHY_DX4GCR1_DQEN_SHIFT +#undef DDR_PHY_DX4GCR1_DQEN_MASK +#define DDR_PHY_DX4GCR1_DQEN_DEFVAL 0x00007FFF +#define DDR_PHY_DX4GCR1_DQEN_SHIFT 0 +#define DDR_PHY_DX4GCR1_DQEN_MASK 0x000000FFU + +/*Byte lane VREF IOM (Used only by D4MU IOs)*/ +#undef DDR_PHY_DX4GCR4_RESERVED_31_29_DEFVAL +#undef DDR_PHY_DX4GCR4_RESERVED_31_29_SHIFT +#undef DDR_PHY_DX4GCR4_RESERVED_31_29_MASK +#define DDR_PHY_DX4GCR4_RESERVED_31_29_DEFVAL 0x0E00003C +#define DDR_PHY_DX4GCR4_RESERVED_31_29_SHIFT 29 +#define DDR_PHY_DX4GCR4_RESERVED_31_29_MASK 0xE0000000U + +/*Byte Lane VREF Pad Enable*/ +#undef DDR_PHY_DX4GCR4_DXREFPEN_DEFVAL +#undef DDR_PHY_DX4GCR4_DXREFPEN_SHIFT +#undef DDR_PHY_DX4GCR4_DXREFPEN_MASK +#define DDR_PHY_DX4GCR4_DXREFPEN_DEFVAL 0x0E00003C +#define DDR_PHY_DX4GCR4_DXREFPEN_SHIFT 28 +#define DDR_PHY_DX4GCR4_DXREFPEN_MASK 0x10000000U + +/*Byte Lane Internal VREF Enable*/ +#undef DDR_PHY_DX4GCR4_DXREFEEN_DEFVAL +#undef DDR_PHY_DX4GCR4_DXREFEEN_SHIFT +#undef DDR_PHY_DX4GCR4_DXREFEEN_MASK +#define DDR_PHY_DX4GCR4_DXREFEEN_DEFVAL 0x0E00003C +#define DDR_PHY_DX4GCR4_DXREFEEN_SHIFT 26 +#define DDR_PHY_DX4GCR4_DXREFEEN_MASK 0x0C000000U + +/*Byte Lane Single-End VREF Enable*/ +#undef DDR_PHY_DX4GCR4_DXREFSEN_DEFVAL +#undef DDR_PHY_DX4GCR4_DXREFSEN_SHIFT +#undef DDR_PHY_DX4GCR4_DXREFSEN_MASK +#define DDR_PHY_DX4GCR4_DXREFSEN_DEFVAL 0x0E00003C +#define DDR_PHY_DX4GCR4_DXREFSEN_SHIFT 25 +#define DDR_PHY_DX4GCR4_DXREFSEN_MASK 0x02000000U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX4GCR4_RESERVED_24_DEFVAL +#undef DDR_PHY_DX4GCR4_RESERVED_24_SHIFT +#undef DDR_PHY_DX4GCR4_RESERVED_24_MASK +#define DDR_PHY_DX4GCR4_RESERVED_24_DEFVAL 0x0E00003C +#define DDR_PHY_DX4GCR4_RESERVED_24_SHIFT 24 +#define DDR_PHY_DX4GCR4_RESERVED_24_MASK 0x01000000U + +/*External VREF generator REFSEL range select*/ +#undef DDR_PHY_DX4GCR4_DXREFESELRANGE_DEFVAL +#undef DDR_PHY_DX4GCR4_DXREFESELRANGE_SHIFT +#undef DDR_PHY_DX4GCR4_DXREFESELRANGE_MASK +#define DDR_PHY_DX4GCR4_DXREFESELRANGE_DEFVAL 0x0E00003C +#define DDR_PHY_DX4GCR4_DXREFESELRANGE_SHIFT 23 +#define DDR_PHY_DX4GCR4_DXREFESELRANGE_MASK 0x00800000U + +/*Byte Lane External VREF Select*/ +#undef DDR_PHY_DX4GCR4_DXREFESEL_DEFVAL +#undef DDR_PHY_DX4GCR4_DXREFESEL_SHIFT +#undef DDR_PHY_DX4GCR4_DXREFESEL_MASK +#define DDR_PHY_DX4GCR4_DXREFESEL_DEFVAL 0x0E00003C +#define DDR_PHY_DX4GCR4_DXREFESEL_SHIFT 16 +#define DDR_PHY_DX4GCR4_DXREFESEL_MASK 0x007F0000U + +/*Single ended VREF generator REFSEL range select*/ +#undef DDR_PHY_DX4GCR4_DXREFSSELRANGE_DEFVAL +#undef DDR_PHY_DX4GCR4_DXREFSSELRANGE_SHIFT +#undef DDR_PHY_DX4GCR4_DXREFSSELRANGE_MASK +#define DDR_PHY_DX4GCR4_DXREFSSELRANGE_DEFVAL 0x0E00003C +#define DDR_PHY_DX4GCR4_DXREFSSELRANGE_SHIFT 15 +#define DDR_PHY_DX4GCR4_DXREFSSELRANGE_MASK 0x00008000U + +/*Byte Lane Single-End VREF Select*/ +#undef DDR_PHY_DX4GCR4_DXREFSSEL_DEFVAL +#undef DDR_PHY_DX4GCR4_DXREFSSEL_SHIFT +#undef DDR_PHY_DX4GCR4_DXREFSSEL_MASK +#define DDR_PHY_DX4GCR4_DXREFSSEL_DEFVAL 0x0E00003C +#define DDR_PHY_DX4GCR4_DXREFSSEL_SHIFT 8 +#define DDR_PHY_DX4GCR4_DXREFSSEL_MASK 0x00007F00U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX4GCR4_RESERVED_7_6_DEFVAL +#undef DDR_PHY_DX4GCR4_RESERVED_7_6_SHIFT +#undef DDR_PHY_DX4GCR4_RESERVED_7_6_MASK +#define DDR_PHY_DX4GCR4_RESERVED_7_6_DEFVAL 0x0E00003C +#define DDR_PHY_DX4GCR4_RESERVED_7_6_SHIFT 6 +#define DDR_PHY_DX4GCR4_RESERVED_7_6_MASK 0x000000C0U + +/*VREF Enable control for DQ IO (Single Ended) buffers of a byte lane.*/ +#undef DDR_PHY_DX4GCR4_DXREFIEN_DEFVAL +#undef DDR_PHY_DX4GCR4_DXREFIEN_SHIFT +#undef DDR_PHY_DX4GCR4_DXREFIEN_MASK +#define DDR_PHY_DX4GCR4_DXREFIEN_DEFVAL 0x0E00003C +#define DDR_PHY_DX4GCR4_DXREFIEN_SHIFT 2 +#define DDR_PHY_DX4GCR4_DXREFIEN_MASK 0x0000003CU + +/*VRMON control for DQ IO (Single Ended) buffers of a byte lane.*/ +#undef DDR_PHY_DX4GCR4_DXREFIMON_DEFVAL +#undef DDR_PHY_DX4GCR4_DXREFIMON_SHIFT +#undef DDR_PHY_DX4GCR4_DXREFIMON_MASK +#define DDR_PHY_DX4GCR4_DXREFIMON_DEFVAL 0x0E00003C +#define DDR_PHY_DX4GCR4_DXREFIMON_SHIFT 0 +#define DDR_PHY_DX4GCR4_DXREFIMON_MASK 0x00000003U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX4GCR5_RESERVED_31_DEFVAL +#undef DDR_PHY_DX4GCR5_RESERVED_31_SHIFT +#undef DDR_PHY_DX4GCR5_RESERVED_31_MASK +#define DDR_PHY_DX4GCR5_RESERVED_31_DEFVAL 0x09090909 +#define DDR_PHY_DX4GCR5_RESERVED_31_SHIFT 31 +#define DDR_PHY_DX4GCR5_RESERVED_31_MASK 0x80000000U + +/*Byte Lane internal VREF Select for Rank 3*/ +#undef DDR_PHY_DX4GCR5_DXREFISELR3_DEFVAL +#undef DDR_PHY_DX4GCR5_DXREFISELR3_SHIFT +#undef DDR_PHY_DX4GCR5_DXREFISELR3_MASK +#define DDR_PHY_DX4GCR5_DXREFISELR3_DEFVAL 0x09090909 +#define DDR_PHY_DX4GCR5_DXREFISELR3_SHIFT 24 +#define DDR_PHY_DX4GCR5_DXREFISELR3_MASK 0x7F000000U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX4GCR5_RESERVED_23_DEFVAL +#undef DDR_PHY_DX4GCR5_RESERVED_23_SHIFT +#undef DDR_PHY_DX4GCR5_RESERVED_23_MASK +#define DDR_PHY_DX4GCR5_RESERVED_23_DEFVAL 0x09090909 +#define DDR_PHY_DX4GCR5_RESERVED_23_SHIFT 23 +#define DDR_PHY_DX4GCR5_RESERVED_23_MASK 0x00800000U + +/*Byte Lane internal VREF Select for Rank 2*/ +#undef DDR_PHY_DX4GCR5_DXREFISELR2_DEFVAL +#undef DDR_PHY_DX4GCR5_DXREFISELR2_SHIFT +#undef DDR_PHY_DX4GCR5_DXREFISELR2_MASK +#define DDR_PHY_DX4GCR5_DXREFISELR2_DEFVAL 0x09090909 +#define DDR_PHY_DX4GCR5_DXREFISELR2_SHIFT 16 +#define DDR_PHY_DX4GCR5_DXREFISELR2_MASK 0x007F0000U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX4GCR5_RESERVED_15_DEFVAL +#undef DDR_PHY_DX4GCR5_RESERVED_15_SHIFT +#undef DDR_PHY_DX4GCR5_RESERVED_15_MASK +#define DDR_PHY_DX4GCR5_RESERVED_15_DEFVAL 0x09090909 +#define DDR_PHY_DX4GCR5_RESERVED_15_SHIFT 15 +#define DDR_PHY_DX4GCR5_RESERVED_15_MASK 0x00008000U + +/*Byte Lane internal VREF Select for Rank 1*/ +#undef DDR_PHY_DX4GCR5_DXREFISELR1_DEFVAL +#undef DDR_PHY_DX4GCR5_DXREFISELR1_SHIFT +#undef DDR_PHY_DX4GCR5_DXREFISELR1_MASK +#define DDR_PHY_DX4GCR5_DXREFISELR1_DEFVAL 0x09090909 +#define DDR_PHY_DX4GCR5_DXREFISELR1_SHIFT 8 +#define DDR_PHY_DX4GCR5_DXREFISELR1_MASK 0x00007F00U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX4GCR5_RESERVED_7_DEFVAL +#undef DDR_PHY_DX4GCR5_RESERVED_7_SHIFT +#undef DDR_PHY_DX4GCR5_RESERVED_7_MASK +#define DDR_PHY_DX4GCR5_RESERVED_7_DEFVAL 0x09090909 +#define DDR_PHY_DX4GCR5_RESERVED_7_SHIFT 7 +#define DDR_PHY_DX4GCR5_RESERVED_7_MASK 0x00000080U + +/*Byte Lane internal VREF Select for Rank 0*/ +#undef DDR_PHY_DX4GCR5_DXREFISELR0_DEFVAL +#undef DDR_PHY_DX4GCR5_DXREFISELR0_SHIFT +#undef DDR_PHY_DX4GCR5_DXREFISELR0_MASK +#define DDR_PHY_DX4GCR5_DXREFISELR0_DEFVAL 0x09090909 +#define DDR_PHY_DX4GCR5_DXREFISELR0_SHIFT 0 +#define DDR_PHY_DX4GCR5_DXREFISELR0_MASK 0x0000007FU + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX4GCR6_RESERVED_31_30_DEFVAL +#undef DDR_PHY_DX4GCR6_RESERVED_31_30_SHIFT +#undef DDR_PHY_DX4GCR6_RESERVED_31_30_MASK +#define DDR_PHY_DX4GCR6_RESERVED_31_30_DEFVAL 0x09090909 +#define DDR_PHY_DX4GCR6_RESERVED_31_30_SHIFT 30 +#define DDR_PHY_DX4GCR6_RESERVED_31_30_MASK 0xC0000000U + +/*DRAM DQ VREF Select for Rank3*/ +#undef DDR_PHY_DX4GCR6_DXDQVREFR3_DEFVAL +#undef DDR_PHY_DX4GCR6_DXDQVREFR3_SHIFT +#undef DDR_PHY_DX4GCR6_DXDQVREFR3_MASK +#define DDR_PHY_DX4GCR6_DXDQVREFR3_DEFVAL 0x09090909 +#define DDR_PHY_DX4GCR6_DXDQVREFR3_SHIFT 24 +#define DDR_PHY_DX4GCR6_DXDQVREFR3_MASK 0x3F000000U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX4GCR6_RESERVED_23_22_DEFVAL +#undef DDR_PHY_DX4GCR6_RESERVED_23_22_SHIFT +#undef DDR_PHY_DX4GCR6_RESERVED_23_22_MASK +#define DDR_PHY_DX4GCR6_RESERVED_23_22_DEFVAL 0x09090909 +#define DDR_PHY_DX4GCR6_RESERVED_23_22_SHIFT 22 +#define DDR_PHY_DX4GCR6_RESERVED_23_22_MASK 0x00C00000U + +/*DRAM DQ VREF Select for Rank2*/ +#undef DDR_PHY_DX4GCR6_DXDQVREFR2_DEFVAL +#undef DDR_PHY_DX4GCR6_DXDQVREFR2_SHIFT +#undef DDR_PHY_DX4GCR6_DXDQVREFR2_MASK +#define DDR_PHY_DX4GCR6_DXDQVREFR2_DEFVAL 0x09090909 +#define DDR_PHY_DX4GCR6_DXDQVREFR2_SHIFT 16 +#define DDR_PHY_DX4GCR6_DXDQVREFR2_MASK 0x003F0000U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX4GCR6_RESERVED_15_14_DEFVAL +#undef DDR_PHY_DX4GCR6_RESERVED_15_14_SHIFT +#undef DDR_PHY_DX4GCR6_RESERVED_15_14_MASK +#define DDR_PHY_DX4GCR6_RESERVED_15_14_DEFVAL 0x09090909 +#define DDR_PHY_DX4GCR6_RESERVED_15_14_SHIFT 14 +#define DDR_PHY_DX4GCR6_RESERVED_15_14_MASK 0x0000C000U + +/*DRAM DQ VREF Select for Rank1*/ +#undef DDR_PHY_DX4GCR6_DXDQVREFR1_DEFVAL +#undef DDR_PHY_DX4GCR6_DXDQVREFR1_SHIFT +#undef DDR_PHY_DX4GCR6_DXDQVREFR1_MASK +#define DDR_PHY_DX4GCR6_DXDQVREFR1_DEFVAL 0x09090909 +#define DDR_PHY_DX4GCR6_DXDQVREFR1_SHIFT 8 +#define DDR_PHY_DX4GCR6_DXDQVREFR1_MASK 0x00003F00U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX4GCR6_RESERVED_7_6_DEFVAL +#undef DDR_PHY_DX4GCR6_RESERVED_7_6_SHIFT +#undef DDR_PHY_DX4GCR6_RESERVED_7_6_MASK +#define DDR_PHY_DX4GCR6_RESERVED_7_6_DEFVAL 0x09090909 +#define DDR_PHY_DX4GCR6_RESERVED_7_6_SHIFT 6 +#define DDR_PHY_DX4GCR6_RESERVED_7_6_MASK 0x000000C0U + +/*DRAM DQ VREF Select for Rank0*/ +#undef DDR_PHY_DX4GCR6_DXDQVREFR0_DEFVAL +#undef DDR_PHY_DX4GCR6_DXDQVREFR0_SHIFT +#undef DDR_PHY_DX4GCR6_DXDQVREFR0_MASK +#define DDR_PHY_DX4GCR6_DXDQVREFR0_DEFVAL 0x09090909 +#define DDR_PHY_DX4GCR6_DXDQVREFR0_SHIFT 0 +#define DDR_PHY_DX4GCR6_DXDQVREFR0_MASK 0x0000003FU + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX4LCDLR2_RESERVED_31_25_DEFVAL +#undef DDR_PHY_DX4LCDLR2_RESERVED_31_25_SHIFT +#undef DDR_PHY_DX4LCDLR2_RESERVED_31_25_MASK +#define DDR_PHY_DX4LCDLR2_RESERVED_31_25_DEFVAL 0x00000000 +#define DDR_PHY_DX4LCDLR2_RESERVED_31_25_SHIFT 25 +#define DDR_PHY_DX4LCDLR2_RESERVED_31_25_MASK 0xFE000000U + +/*Reserved. Caution, do not write to this register field.*/ +#undef DDR_PHY_DX4LCDLR2_RESERVED_24_16_DEFVAL +#undef DDR_PHY_DX4LCDLR2_RESERVED_24_16_SHIFT +#undef DDR_PHY_DX4LCDLR2_RESERVED_24_16_MASK +#define DDR_PHY_DX4LCDLR2_RESERVED_24_16_DEFVAL 0x00000000 +#define DDR_PHY_DX4LCDLR2_RESERVED_24_16_SHIFT 16 +#define DDR_PHY_DX4LCDLR2_RESERVED_24_16_MASK 0x01FF0000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX4LCDLR2_RESERVED_15_9_DEFVAL +#undef DDR_PHY_DX4LCDLR2_RESERVED_15_9_SHIFT +#undef DDR_PHY_DX4LCDLR2_RESERVED_15_9_MASK +#define DDR_PHY_DX4LCDLR2_RESERVED_15_9_DEFVAL 0x00000000 +#define DDR_PHY_DX4LCDLR2_RESERVED_15_9_SHIFT 9 +#define DDR_PHY_DX4LCDLR2_RESERVED_15_9_MASK 0x0000FE00U + +/*Read DQS Gating Delay*/ +#undef DDR_PHY_DX4LCDLR2_DQSGD_DEFVAL +#undef DDR_PHY_DX4LCDLR2_DQSGD_SHIFT +#undef DDR_PHY_DX4LCDLR2_DQSGD_MASK +#define DDR_PHY_DX4LCDLR2_DQSGD_DEFVAL 0x00000000 +#define DDR_PHY_DX4LCDLR2_DQSGD_SHIFT 0 +#define DDR_PHY_DX4LCDLR2_DQSGD_MASK 0x000001FFU + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX4GTR0_RESERVED_31_24_DEFVAL +#undef DDR_PHY_DX4GTR0_RESERVED_31_24_SHIFT +#undef DDR_PHY_DX4GTR0_RESERVED_31_24_MASK +#define DDR_PHY_DX4GTR0_RESERVED_31_24_DEFVAL 0x00020000 +#define DDR_PHY_DX4GTR0_RESERVED_31_24_SHIFT 27 +#define DDR_PHY_DX4GTR0_RESERVED_31_24_MASK 0xF8000000U + +/*DQ Write Path Latency Pipeline*/ +#undef DDR_PHY_DX4GTR0_WDQSL_DEFVAL +#undef DDR_PHY_DX4GTR0_WDQSL_SHIFT +#undef DDR_PHY_DX4GTR0_WDQSL_MASK +#define DDR_PHY_DX4GTR0_WDQSL_DEFVAL 0x00020000 +#define DDR_PHY_DX4GTR0_WDQSL_SHIFT 24 +#define DDR_PHY_DX4GTR0_WDQSL_MASK 0x07000000U + +/*Reserved. Caution, do not write to this register field.*/ +#undef DDR_PHY_DX4GTR0_RESERVED_23_20_DEFVAL +#undef DDR_PHY_DX4GTR0_RESERVED_23_20_SHIFT +#undef DDR_PHY_DX4GTR0_RESERVED_23_20_MASK +#define DDR_PHY_DX4GTR0_RESERVED_23_20_DEFVAL 0x00020000 +#define DDR_PHY_DX4GTR0_RESERVED_23_20_SHIFT 20 +#define DDR_PHY_DX4GTR0_RESERVED_23_20_MASK 0x00F00000U + +/*Write Leveling System Latency*/ +#undef DDR_PHY_DX4GTR0_WLSL_DEFVAL +#undef DDR_PHY_DX4GTR0_WLSL_SHIFT +#undef DDR_PHY_DX4GTR0_WLSL_MASK +#define DDR_PHY_DX4GTR0_WLSL_DEFVAL 0x00020000 +#define DDR_PHY_DX4GTR0_WLSL_SHIFT 16 +#define DDR_PHY_DX4GTR0_WLSL_MASK 0x000F0000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX4GTR0_RESERVED_15_13_DEFVAL +#undef DDR_PHY_DX4GTR0_RESERVED_15_13_SHIFT +#undef DDR_PHY_DX4GTR0_RESERVED_15_13_MASK +#define DDR_PHY_DX4GTR0_RESERVED_15_13_DEFVAL 0x00020000 +#define DDR_PHY_DX4GTR0_RESERVED_15_13_SHIFT 13 +#define DDR_PHY_DX4GTR0_RESERVED_15_13_MASK 0x0000E000U + +/*Reserved. Caution, do not write to this register field.*/ +#undef DDR_PHY_DX4GTR0_RESERVED_12_8_DEFVAL +#undef DDR_PHY_DX4GTR0_RESERVED_12_8_SHIFT +#undef DDR_PHY_DX4GTR0_RESERVED_12_8_MASK +#define DDR_PHY_DX4GTR0_RESERVED_12_8_DEFVAL 0x00020000 +#define DDR_PHY_DX4GTR0_RESERVED_12_8_SHIFT 8 +#define DDR_PHY_DX4GTR0_RESERVED_12_8_MASK 0x00001F00U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX4GTR0_RESERVED_7_5_DEFVAL +#undef DDR_PHY_DX4GTR0_RESERVED_7_5_SHIFT +#undef DDR_PHY_DX4GTR0_RESERVED_7_5_MASK +#define DDR_PHY_DX4GTR0_RESERVED_7_5_DEFVAL 0x00020000 +#define DDR_PHY_DX4GTR0_RESERVED_7_5_SHIFT 5 +#define DDR_PHY_DX4GTR0_RESERVED_7_5_MASK 0x000000E0U + +/*DQS Gating System Latency*/ +#undef DDR_PHY_DX4GTR0_DGSL_DEFVAL +#undef DDR_PHY_DX4GTR0_DGSL_SHIFT +#undef DDR_PHY_DX4GTR0_DGSL_MASK +#define DDR_PHY_DX4GTR0_DGSL_DEFVAL 0x00020000 +#define DDR_PHY_DX4GTR0_DGSL_SHIFT 0 +#define DDR_PHY_DX4GTR0_DGSL_MASK 0x0000001FU + +/*Calibration Bypass*/ +#undef DDR_PHY_DX5GCR0_CALBYP_DEFVAL +#undef DDR_PHY_DX5GCR0_CALBYP_SHIFT +#undef DDR_PHY_DX5GCR0_CALBYP_MASK +#define DDR_PHY_DX5GCR0_CALBYP_DEFVAL 0x40200204 +#define DDR_PHY_DX5GCR0_CALBYP_SHIFT 31 +#define DDR_PHY_DX5GCR0_CALBYP_MASK 0x80000000U + +/*Master Delay Line Enable*/ +#undef DDR_PHY_DX5GCR0_MDLEN_DEFVAL +#undef DDR_PHY_DX5GCR0_MDLEN_SHIFT +#undef DDR_PHY_DX5GCR0_MDLEN_MASK +#define DDR_PHY_DX5GCR0_MDLEN_DEFVAL 0x40200204 +#define DDR_PHY_DX5GCR0_MDLEN_SHIFT 30 +#define DDR_PHY_DX5GCR0_MDLEN_MASK 0x40000000U + +/*Configurable ODT(TE) Phase Shift*/ +#undef DDR_PHY_DX5GCR0_CODTSHFT_DEFVAL +#undef DDR_PHY_DX5GCR0_CODTSHFT_SHIFT +#undef DDR_PHY_DX5GCR0_CODTSHFT_MASK +#define DDR_PHY_DX5GCR0_CODTSHFT_DEFVAL 0x40200204 +#define DDR_PHY_DX5GCR0_CODTSHFT_SHIFT 28 +#define DDR_PHY_DX5GCR0_CODTSHFT_MASK 0x30000000U + +/*DQS Duty Cycle Correction*/ +#undef DDR_PHY_DX5GCR0_DQSDCC_DEFVAL +#undef DDR_PHY_DX5GCR0_DQSDCC_SHIFT +#undef DDR_PHY_DX5GCR0_DQSDCC_MASK +#define DDR_PHY_DX5GCR0_DQSDCC_DEFVAL 0x40200204 +#define DDR_PHY_DX5GCR0_DQSDCC_SHIFT 24 +#define DDR_PHY_DX5GCR0_DQSDCC_MASK 0x0F000000U + +/*Number of Cycles ( in terms of ctl_clk) to generate ctl_dx_get_static_rd input for the respective bypte lane of the PHY*/ +#undef DDR_PHY_DX5GCR0_RDDLY_DEFVAL +#undef DDR_PHY_DX5GCR0_RDDLY_SHIFT +#undef DDR_PHY_DX5GCR0_RDDLY_MASK +#define DDR_PHY_DX5GCR0_RDDLY_DEFVAL 0x40200204 +#define DDR_PHY_DX5GCR0_RDDLY_SHIFT 20 +#define DDR_PHY_DX5GCR0_RDDLY_MASK 0x00F00000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX5GCR0_RESERVED_19_14_DEFVAL +#undef DDR_PHY_DX5GCR0_RESERVED_19_14_SHIFT +#undef DDR_PHY_DX5GCR0_RESERVED_19_14_MASK +#define DDR_PHY_DX5GCR0_RESERVED_19_14_DEFVAL 0x40200204 +#define DDR_PHY_DX5GCR0_RESERVED_19_14_SHIFT 14 +#define DDR_PHY_DX5GCR0_RESERVED_19_14_MASK 0x000FC000U + +/*DQSNSE Power Down Receiver*/ +#undef DDR_PHY_DX5GCR0_DQSNSEPDR_DEFVAL +#undef DDR_PHY_DX5GCR0_DQSNSEPDR_SHIFT +#undef DDR_PHY_DX5GCR0_DQSNSEPDR_MASK +#define DDR_PHY_DX5GCR0_DQSNSEPDR_DEFVAL 0x40200204 +#define DDR_PHY_DX5GCR0_DQSNSEPDR_SHIFT 13 +#define DDR_PHY_DX5GCR0_DQSNSEPDR_MASK 0x00002000U + +/*DQSSE Power Down Receiver*/ +#undef DDR_PHY_DX5GCR0_DQSSEPDR_DEFVAL +#undef DDR_PHY_DX5GCR0_DQSSEPDR_SHIFT +#undef DDR_PHY_DX5GCR0_DQSSEPDR_MASK +#define DDR_PHY_DX5GCR0_DQSSEPDR_DEFVAL 0x40200204 +#define DDR_PHY_DX5GCR0_DQSSEPDR_SHIFT 12 +#define DDR_PHY_DX5GCR0_DQSSEPDR_MASK 0x00001000U + +/*RTT On Additive Latency*/ +#undef DDR_PHY_DX5GCR0_RTTOAL_DEFVAL +#undef DDR_PHY_DX5GCR0_RTTOAL_SHIFT +#undef DDR_PHY_DX5GCR0_RTTOAL_MASK +#define DDR_PHY_DX5GCR0_RTTOAL_DEFVAL 0x40200204 +#define DDR_PHY_DX5GCR0_RTTOAL_SHIFT 11 +#define DDR_PHY_DX5GCR0_RTTOAL_MASK 0x00000800U + +/*RTT Output Hold*/ +#undef DDR_PHY_DX5GCR0_RTTOH_DEFVAL +#undef DDR_PHY_DX5GCR0_RTTOH_SHIFT +#undef DDR_PHY_DX5GCR0_RTTOH_MASK +#define DDR_PHY_DX5GCR0_RTTOH_DEFVAL 0x40200204 +#define DDR_PHY_DX5GCR0_RTTOH_SHIFT 9 +#define DDR_PHY_DX5GCR0_RTTOH_MASK 0x00000600U + +/*Configurable PDR Phase Shift*/ +#undef DDR_PHY_DX5GCR0_CPDRSHFT_DEFVAL +#undef DDR_PHY_DX5GCR0_CPDRSHFT_SHIFT +#undef DDR_PHY_DX5GCR0_CPDRSHFT_MASK +#define DDR_PHY_DX5GCR0_CPDRSHFT_DEFVAL 0x40200204 +#define DDR_PHY_DX5GCR0_CPDRSHFT_SHIFT 7 +#define DDR_PHY_DX5GCR0_CPDRSHFT_MASK 0x00000180U + +/*DQSR Power Down*/ +#undef DDR_PHY_DX5GCR0_DQSRPD_DEFVAL +#undef DDR_PHY_DX5GCR0_DQSRPD_SHIFT +#undef DDR_PHY_DX5GCR0_DQSRPD_MASK +#define DDR_PHY_DX5GCR0_DQSRPD_DEFVAL 0x40200204 +#define DDR_PHY_DX5GCR0_DQSRPD_SHIFT 6 +#define DDR_PHY_DX5GCR0_DQSRPD_MASK 0x00000040U + +/*DQSG Power Down Receiver*/ +#undef DDR_PHY_DX5GCR0_DQSGPDR_DEFVAL +#undef DDR_PHY_DX5GCR0_DQSGPDR_SHIFT +#undef DDR_PHY_DX5GCR0_DQSGPDR_MASK +#define DDR_PHY_DX5GCR0_DQSGPDR_DEFVAL 0x40200204 +#define DDR_PHY_DX5GCR0_DQSGPDR_SHIFT 5 +#define DDR_PHY_DX5GCR0_DQSGPDR_MASK 0x00000020U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX5GCR0_RESERVED_4_DEFVAL +#undef DDR_PHY_DX5GCR0_RESERVED_4_SHIFT +#undef DDR_PHY_DX5GCR0_RESERVED_4_MASK +#define DDR_PHY_DX5GCR0_RESERVED_4_DEFVAL 0x40200204 +#define DDR_PHY_DX5GCR0_RESERVED_4_SHIFT 4 +#define DDR_PHY_DX5GCR0_RESERVED_4_MASK 0x00000010U + +/*DQSG On-Die Termination*/ +#undef DDR_PHY_DX5GCR0_DQSGODT_DEFVAL +#undef DDR_PHY_DX5GCR0_DQSGODT_SHIFT +#undef DDR_PHY_DX5GCR0_DQSGODT_MASK +#define DDR_PHY_DX5GCR0_DQSGODT_DEFVAL 0x40200204 +#define DDR_PHY_DX5GCR0_DQSGODT_SHIFT 3 +#define DDR_PHY_DX5GCR0_DQSGODT_MASK 0x00000008U + +/*DQSG Output Enable*/ +#undef DDR_PHY_DX5GCR0_DQSGOE_DEFVAL +#undef DDR_PHY_DX5GCR0_DQSGOE_SHIFT +#undef DDR_PHY_DX5GCR0_DQSGOE_MASK +#define DDR_PHY_DX5GCR0_DQSGOE_DEFVAL 0x40200204 +#define DDR_PHY_DX5GCR0_DQSGOE_SHIFT 2 +#define DDR_PHY_DX5GCR0_DQSGOE_MASK 0x00000004U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX5GCR0_RESERVED_1_0_DEFVAL +#undef DDR_PHY_DX5GCR0_RESERVED_1_0_SHIFT +#undef DDR_PHY_DX5GCR0_RESERVED_1_0_MASK +#define DDR_PHY_DX5GCR0_RESERVED_1_0_DEFVAL 0x40200204 +#define DDR_PHY_DX5GCR0_RESERVED_1_0_SHIFT 0 +#define DDR_PHY_DX5GCR0_RESERVED_1_0_MASK 0x00000003U + +/*Enables the PDR mode for DQ[7:0]*/ +#undef DDR_PHY_DX5GCR1_DXPDRMODE_DEFVAL +#undef DDR_PHY_DX5GCR1_DXPDRMODE_SHIFT +#undef DDR_PHY_DX5GCR1_DXPDRMODE_MASK +#define DDR_PHY_DX5GCR1_DXPDRMODE_DEFVAL 0x00007FFF +#define DDR_PHY_DX5GCR1_DXPDRMODE_SHIFT 16 +#define DDR_PHY_DX5GCR1_DXPDRMODE_MASK 0xFFFF0000U + +/*Reserved. Returns zeroes on reads.*/ +#undef DDR_PHY_DX5GCR1_RESERVED_15_DEFVAL +#undef DDR_PHY_DX5GCR1_RESERVED_15_SHIFT +#undef DDR_PHY_DX5GCR1_RESERVED_15_MASK +#define DDR_PHY_DX5GCR1_RESERVED_15_DEFVAL 0x00007FFF +#define DDR_PHY_DX5GCR1_RESERVED_15_SHIFT 15 +#define DDR_PHY_DX5GCR1_RESERVED_15_MASK 0x00008000U + +/*Select the delayed or non-delayed read data strobe #*/ +#undef DDR_PHY_DX5GCR1_QSNSEL_DEFVAL +#undef DDR_PHY_DX5GCR1_QSNSEL_SHIFT +#undef DDR_PHY_DX5GCR1_QSNSEL_MASK +#define DDR_PHY_DX5GCR1_QSNSEL_DEFVAL 0x00007FFF +#define DDR_PHY_DX5GCR1_QSNSEL_SHIFT 14 +#define DDR_PHY_DX5GCR1_QSNSEL_MASK 0x00004000U + +/*Select the delayed or non-delayed read data strobe*/ +#undef DDR_PHY_DX5GCR1_QSSEL_DEFVAL +#undef DDR_PHY_DX5GCR1_QSSEL_SHIFT +#undef DDR_PHY_DX5GCR1_QSSEL_MASK +#define DDR_PHY_DX5GCR1_QSSEL_DEFVAL 0x00007FFF +#define DDR_PHY_DX5GCR1_QSSEL_SHIFT 13 +#define DDR_PHY_DX5GCR1_QSSEL_MASK 0x00002000U + +/*Enables Read Data Strobe in a byte lane*/ +#undef DDR_PHY_DX5GCR1_OEEN_DEFVAL +#undef DDR_PHY_DX5GCR1_OEEN_SHIFT +#undef DDR_PHY_DX5GCR1_OEEN_MASK +#define DDR_PHY_DX5GCR1_OEEN_DEFVAL 0x00007FFF +#define DDR_PHY_DX5GCR1_OEEN_SHIFT 12 +#define DDR_PHY_DX5GCR1_OEEN_MASK 0x00001000U + +/*Enables PDR in a byte lane*/ +#undef DDR_PHY_DX5GCR1_PDREN_DEFVAL +#undef DDR_PHY_DX5GCR1_PDREN_SHIFT +#undef DDR_PHY_DX5GCR1_PDREN_MASK +#define DDR_PHY_DX5GCR1_PDREN_DEFVAL 0x00007FFF +#define DDR_PHY_DX5GCR1_PDREN_SHIFT 11 +#define DDR_PHY_DX5GCR1_PDREN_MASK 0x00000800U + +/*Enables ODT/TE in a byte lane*/ +#undef DDR_PHY_DX5GCR1_TEEN_DEFVAL +#undef DDR_PHY_DX5GCR1_TEEN_SHIFT +#undef DDR_PHY_DX5GCR1_TEEN_MASK +#define DDR_PHY_DX5GCR1_TEEN_DEFVAL 0x00007FFF +#define DDR_PHY_DX5GCR1_TEEN_SHIFT 10 +#define DDR_PHY_DX5GCR1_TEEN_MASK 0x00000400U + +/*Enables Write Data strobe in a byte lane*/ +#undef DDR_PHY_DX5GCR1_DSEN_DEFVAL +#undef DDR_PHY_DX5GCR1_DSEN_SHIFT +#undef DDR_PHY_DX5GCR1_DSEN_MASK +#define DDR_PHY_DX5GCR1_DSEN_DEFVAL 0x00007FFF +#define DDR_PHY_DX5GCR1_DSEN_SHIFT 9 +#define DDR_PHY_DX5GCR1_DSEN_MASK 0x00000200U + +/*Enables DM pin in a byte lane*/ +#undef DDR_PHY_DX5GCR1_DMEN_DEFVAL +#undef DDR_PHY_DX5GCR1_DMEN_SHIFT +#undef DDR_PHY_DX5GCR1_DMEN_MASK +#define DDR_PHY_DX5GCR1_DMEN_DEFVAL 0x00007FFF +#define DDR_PHY_DX5GCR1_DMEN_SHIFT 8 +#define DDR_PHY_DX5GCR1_DMEN_MASK 0x00000100U + +/*Enables DQ corresponding to each bit in a byte*/ +#undef DDR_PHY_DX5GCR1_DQEN_DEFVAL +#undef DDR_PHY_DX5GCR1_DQEN_SHIFT +#undef DDR_PHY_DX5GCR1_DQEN_MASK +#define DDR_PHY_DX5GCR1_DQEN_DEFVAL 0x00007FFF +#define DDR_PHY_DX5GCR1_DQEN_SHIFT 0 +#define DDR_PHY_DX5GCR1_DQEN_MASK 0x000000FFU + +/*Byte lane VREF IOM (Used only by D4MU IOs)*/ +#undef DDR_PHY_DX5GCR4_RESERVED_31_29_DEFVAL +#undef DDR_PHY_DX5GCR4_RESERVED_31_29_SHIFT +#undef DDR_PHY_DX5GCR4_RESERVED_31_29_MASK +#define DDR_PHY_DX5GCR4_RESERVED_31_29_DEFVAL 0x0E00003C +#define DDR_PHY_DX5GCR4_RESERVED_31_29_SHIFT 29 +#define DDR_PHY_DX5GCR4_RESERVED_31_29_MASK 0xE0000000U + +/*Byte Lane VREF Pad Enable*/ +#undef DDR_PHY_DX5GCR4_DXREFPEN_DEFVAL +#undef DDR_PHY_DX5GCR4_DXREFPEN_SHIFT +#undef DDR_PHY_DX5GCR4_DXREFPEN_MASK +#define DDR_PHY_DX5GCR4_DXREFPEN_DEFVAL 0x0E00003C +#define DDR_PHY_DX5GCR4_DXREFPEN_SHIFT 28 +#define DDR_PHY_DX5GCR4_DXREFPEN_MASK 0x10000000U + +/*Byte Lane Internal VREF Enable*/ +#undef DDR_PHY_DX5GCR4_DXREFEEN_DEFVAL +#undef DDR_PHY_DX5GCR4_DXREFEEN_SHIFT +#undef DDR_PHY_DX5GCR4_DXREFEEN_MASK +#define DDR_PHY_DX5GCR4_DXREFEEN_DEFVAL 0x0E00003C +#define DDR_PHY_DX5GCR4_DXREFEEN_SHIFT 26 +#define DDR_PHY_DX5GCR4_DXREFEEN_MASK 0x0C000000U + +/*Byte Lane Single-End VREF Enable*/ +#undef DDR_PHY_DX5GCR4_DXREFSEN_DEFVAL +#undef DDR_PHY_DX5GCR4_DXREFSEN_SHIFT +#undef DDR_PHY_DX5GCR4_DXREFSEN_MASK +#define DDR_PHY_DX5GCR4_DXREFSEN_DEFVAL 0x0E00003C +#define DDR_PHY_DX5GCR4_DXREFSEN_SHIFT 25 +#define DDR_PHY_DX5GCR4_DXREFSEN_MASK 0x02000000U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX5GCR4_RESERVED_24_DEFVAL +#undef DDR_PHY_DX5GCR4_RESERVED_24_SHIFT +#undef DDR_PHY_DX5GCR4_RESERVED_24_MASK +#define DDR_PHY_DX5GCR4_RESERVED_24_DEFVAL 0x0E00003C +#define DDR_PHY_DX5GCR4_RESERVED_24_SHIFT 24 +#define DDR_PHY_DX5GCR4_RESERVED_24_MASK 0x01000000U + +/*External VREF generator REFSEL range select*/ +#undef DDR_PHY_DX5GCR4_DXREFESELRANGE_DEFVAL +#undef DDR_PHY_DX5GCR4_DXREFESELRANGE_SHIFT +#undef DDR_PHY_DX5GCR4_DXREFESELRANGE_MASK +#define DDR_PHY_DX5GCR4_DXREFESELRANGE_DEFVAL 0x0E00003C +#define DDR_PHY_DX5GCR4_DXREFESELRANGE_SHIFT 23 +#define DDR_PHY_DX5GCR4_DXREFESELRANGE_MASK 0x00800000U + +/*Byte Lane External VREF Select*/ +#undef DDR_PHY_DX5GCR4_DXREFESEL_DEFVAL +#undef DDR_PHY_DX5GCR4_DXREFESEL_SHIFT +#undef DDR_PHY_DX5GCR4_DXREFESEL_MASK +#define DDR_PHY_DX5GCR4_DXREFESEL_DEFVAL 0x0E00003C +#define DDR_PHY_DX5GCR4_DXREFESEL_SHIFT 16 +#define DDR_PHY_DX5GCR4_DXREFESEL_MASK 0x007F0000U + +/*Single ended VREF generator REFSEL range select*/ +#undef DDR_PHY_DX5GCR4_DXREFSSELRANGE_DEFVAL +#undef DDR_PHY_DX5GCR4_DXREFSSELRANGE_SHIFT +#undef DDR_PHY_DX5GCR4_DXREFSSELRANGE_MASK +#define DDR_PHY_DX5GCR4_DXREFSSELRANGE_DEFVAL 0x0E00003C +#define DDR_PHY_DX5GCR4_DXREFSSELRANGE_SHIFT 15 +#define DDR_PHY_DX5GCR4_DXREFSSELRANGE_MASK 0x00008000U + +/*Byte Lane Single-End VREF Select*/ +#undef DDR_PHY_DX5GCR4_DXREFSSEL_DEFVAL +#undef DDR_PHY_DX5GCR4_DXREFSSEL_SHIFT +#undef DDR_PHY_DX5GCR4_DXREFSSEL_MASK +#define DDR_PHY_DX5GCR4_DXREFSSEL_DEFVAL 0x0E00003C +#define DDR_PHY_DX5GCR4_DXREFSSEL_SHIFT 8 +#define DDR_PHY_DX5GCR4_DXREFSSEL_MASK 0x00007F00U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX5GCR4_RESERVED_7_6_DEFVAL +#undef DDR_PHY_DX5GCR4_RESERVED_7_6_SHIFT +#undef DDR_PHY_DX5GCR4_RESERVED_7_6_MASK +#define DDR_PHY_DX5GCR4_RESERVED_7_6_DEFVAL 0x0E00003C +#define DDR_PHY_DX5GCR4_RESERVED_7_6_SHIFT 6 +#define DDR_PHY_DX5GCR4_RESERVED_7_6_MASK 0x000000C0U + +/*VREF Enable control for DQ IO (Single Ended) buffers of a byte lane.*/ +#undef DDR_PHY_DX5GCR4_DXREFIEN_DEFVAL +#undef DDR_PHY_DX5GCR4_DXREFIEN_SHIFT +#undef DDR_PHY_DX5GCR4_DXREFIEN_MASK +#define DDR_PHY_DX5GCR4_DXREFIEN_DEFVAL 0x0E00003C +#define DDR_PHY_DX5GCR4_DXREFIEN_SHIFT 2 +#define DDR_PHY_DX5GCR4_DXREFIEN_MASK 0x0000003CU + +/*VRMON control for DQ IO (Single Ended) buffers of a byte lane.*/ +#undef DDR_PHY_DX5GCR4_DXREFIMON_DEFVAL +#undef DDR_PHY_DX5GCR4_DXREFIMON_SHIFT +#undef DDR_PHY_DX5GCR4_DXREFIMON_MASK +#define DDR_PHY_DX5GCR4_DXREFIMON_DEFVAL 0x0E00003C +#define DDR_PHY_DX5GCR4_DXREFIMON_SHIFT 0 +#define DDR_PHY_DX5GCR4_DXREFIMON_MASK 0x00000003U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX5GCR5_RESERVED_31_DEFVAL +#undef DDR_PHY_DX5GCR5_RESERVED_31_SHIFT +#undef DDR_PHY_DX5GCR5_RESERVED_31_MASK +#define DDR_PHY_DX5GCR5_RESERVED_31_DEFVAL 0x09090909 +#define DDR_PHY_DX5GCR5_RESERVED_31_SHIFT 31 +#define DDR_PHY_DX5GCR5_RESERVED_31_MASK 0x80000000U + +/*Byte Lane internal VREF Select for Rank 3*/ +#undef DDR_PHY_DX5GCR5_DXREFISELR3_DEFVAL +#undef DDR_PHY_DX5GCR5_DXREFISELR3_SHIFT +#undef DDR_PHY_DX5GCR5_DXREFISELR3_MASK +#define DDR_PHY_DX5GCR5_DXREFISELR3_DEFVAL 0x09090909 +#define DDR_PHY_DX5GCR5_DXREFISELR3_SHIFT 24 +#define DDR_PHY_DX5GCR5_DXREFISELR3_MASK 0x7F000000U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX5GCR5_RESERVED_23_DEFVAL +#undef DDR_PHY_DX5GCR5_RESERVED_23_SHIFT +#undef DDR_PHY_DX5GCR5_RESERVED_23_MASK +#define DDR_PHY_DX5GCR5_RESERVED_23_DEFVAL 0x09090909 +#define DDR_PHY_DX5GCR5_RESERVED_23_SHIFT 23 +#define DDR_PHY_DX5GCR5_RESERVED_23_MASK 0x00800000U + +/*Byte Lane internal VREF Select for Rank 2*/ +#undef DDR_PHY_DX5GCR5_DXREFISELR2_DEFVAL +#undef DDR_PHY_DX5GCR5_DXREFISELR2_SHIFT +#undef DDR_PHY_DX5GCR5_DXREFISELR2_MASK +#define DDR_PHY_DX5GCR5_DXREFISELR2_DEFVAL 0x09090909 +#define DDR_PHY_DX5GCR5_DXREFISELR2_SHIFT 16 +#define DDR_PHY_DX5GCR5_DXREFISELR2_MASK 0x007F0000U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX5GCR5_RESERVED_15_DEFVAL +#undef DDR_PHY_DX5GCR5_RESERVED_15_SHIFT +#undef DDR_PHY_DX5GCR5_RESERVED_15_MASK +#define DDR_PHY_DX5GCR5_RESERVED_15_DEFVAL 0x09090909 +#define DDR_PHY_DX5GCR5_RESERVED_15_SHIFT 15 +#define DDR_PHY_DX5GCR5_RESERVED_15_MASK 0x00008000U + +/*Byte Lane internal VREF Select for Rank 1*/ +#undef DDR_PHY_DX5GCR5_DXREFISELR1_DEFVAL +#undef DDR_PHY_DX5GCR5_DXREFISELR1_SHIFT +#undef DDR_PHY_DX5GCR5_DXREFISELR1_MASK +#define DDR_PHY_DX5GCR5_DXREFISELR1_DEFVAL 0x09090909 +#define DDR_PHY_DX5GCR5_DXREFISELR1_SHIFT 8 +#define DDR_PHY_DX5GCR5_DXREFISELR1_MASK 0x00007F00U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX5GCR5_RESERVED_7_DEFVAL +#undef DDR_PHY_DX5GCR5_RESERVED_7_SHIFT +#undef DDR_PHY_DX5GCR5_RESERVED_7_MASK +#define DDR_PHY_DX5GCR5_RESERVED_7_DEFVAL 0x09090909 +#define DDR_PHY_DX5GCR5_RESERVED_7_SHIFT 7 +#define DDR_PHY_DX5GCR5_RESERVED_7_MASK 0x00000080U + +/*Byte Lane internal VREF Select for Rank 0*/ +#undef DDR_PHY_DX5GCR5_DXREFISELR0_DEFVAL +#undef DDR_PHY_DX5GCR5_DXREFISELR0_SHIFT +#undef DDR_PHY_DX5GCR5_DXREFISELR0_MASK +#define DDR_PHY_DX5GCR5_DXREFISELR0_DEFVAL 0x09090909 +#define DDR_PHY_DX5GCR5_DXREFISELR0_SHIFT 0 +#define DDR_PHY_DX5GCR5_DXREFISELR0_MASK 0x0000007FU + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX5GCR6_RESERVED_31_30_DEFVAL +#undef DDR_PHY_DX5GCR6_RESERVED_31_30_SHIFT +#undef DDR_PHY_DX5GCR6_RESERVED_31_30_MASK +#define DDR_PHY_DX5GCR6_RESERVED_31_30_DEFVAL 0x09090909 +#define DDR_PHY_DX5GCR6_RESERVED_31_30_SHIFT 30 +#define DDR_PHY_DX5GCR6_RESERVED_31_30_MASK 0xC0000000U + +/*DRAM DQ VREF Select for Rank3*/ +#undef DDR_PHY_DX5GCR6_DXDQVREFR3_DEFVAL +#undef DDR_PHY_DX5GCR6_DXDQVREFR3_SHIFT +#undef DDR_PHY_DX5GCR6_DXDQVREFR3_MASK +#define DDR_PHY_DX5GCR6_DXDQVREFR3_DEFVAL 0x09090909 +#define DDR_PHY_DX5GCR6_DXDQVREFR3_SHIFT 24 +#define DDR_PHY_DX5GCR6_DXDQVREFR3_MASK 0x3F000000U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX5GCR6_RESERVED_23_22_DEFVAL +#undef DDR_PHY_DX5GCR6_RESERVED_23_22_SHIFT +#undef DDR_PHY_DX5GCR6_RESERVED_23_22_MASK +#define DDR_PHY_DX5GCR6_RESERVED_23_22_DEFVAL 0x09090909 +#define DDR_PHY_DX5GCR6_RESERVED_23_22_SHIFT 22 +#define DDR_PHY_DX5GCR6_RESERVED_23_22_MASK 0x00C00000U + +/*DRAM DQ VREF Select for Rank2*/ +#undef DDR_PHY_DX5GCR6_DXDQVREFR2_DEFVAL +#undef DDR_PHY_DX5GCR6_DXDQVREFR2_SHIFT +#undef DDR_PHY_DX5GCR6_DXDQVREFR2_MASK +#define DDR_PHY_DX5GCR6_DXDQVREFR2_DEFVAL 0x09090909 +#define DDR_PHY_DX5GCR6_DXDQVREFR2_SHIFT 16 +#define DDR_PHY_DX5GCR6_DXDQVREFR2_MASK 0x003F0000U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX5GCR6_RESERVED_15_14_DEFVAL +#undef DDR_PHY_DX5GCR6_RESERVED_15_14_SHIFT +#undef DDR_PHY_DX5GCR6_RESERVED_15_14_MASK +#define DDR_PHY_DX5GCR6_RESERVED_15_14_DEFVAL 0x09090909 +#define DDR_PHY_DX5GCR6_RESERVED_15_14_SHIFT 14 +#define DDR_PHY_DX5GCR6_RESERVED_15_14_MASK 0x0000C000U + +/*DRAM DQ VREF Select for Rank1*/ +#undef DDR_PHY_DX5GCR6_DXDQVREFR1_DEFVAL +#undef DDR_PHY_DX5GCR6_DXDQVREFR1_SHIFT +#undef DDR_PHY_DX5GCR6_DXDQVREFR1_MASK +#define DDR_PHY_DX5GCR6_DXDQVREFR1_DEFVAL 0x09090909 +#define DDR_PHY_DX5GCR6_DXDQVREFR1_SHIFT 8 +#define DDR_PHY_DX5GCR6_DXDQVREFR1_MASK 0x00003F00U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX5GCR6_RESERVED_7_6_DEFVAL +#undef DDR_PHY_DX5GCR6_RESERVED_7_6_SHIFT +#undef DDR_PHY_DX5GCR6_RESERVED_7_6_MASK +#define DDR_PHY_DX5GCR6_RESERVED_7_6_DEFVAL 0x09090909 +#define DDR_PHY_DX5GCR6_RESERVED_7_6_SHIFT 6 +#define DDR_PHY_DX5GCR6_RESERVED_7_6_MASK 0x000000C0U + +/*DRAM DQ VREF Select for Rank0*/ +#undef DDR_PHY_DX5GCR6_DXDQVREFR0_DEFVAL +#undef DDR_PHY_DX5GCR6_DXDQVREFR0_SHIFT +#undef DDR_PHY_DX5GCR6_DXDQVREFR0_MASK +#define DDR_PHY_DX5GCR6_DXDQVREFR0_DEFVAL 0x09090909 +#define DDR_PHY_DX5GCR6_DXDQVREFR0_SHIFT 0 +#define DDR_PHY_DX5GCR6_DXDQVREFR0_MASK 0x0000003FU + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX5LCDLR2_RESERVED_31_25_DEFVAL +#undef DDR_PHY_DX5LCDLR2_RESERVED_31_25_SHIFT +#undef DDR_PHY_DX5LCDLR2_RESERVED_31_25_MASK +#define DDR_PHY_DX5LCDLR2_RESERVED_31_25_DEFVAL 0x00000000 +#define DDR_PHY_DX5LCDLR2_RESERVED_31_25_SHIFT 25 +#define DDR_PHY_DX5LCDLR2_RESERVED_31_25_MASK 0xFE000000U + +/*Reserved. Caution, do not write to this register field.*/ +#undef DDR_PHY_DX5LCDLR2_RESERVED_24_16_DEFVAL +#undef DDR_PHY_DX5LCDLR2_RESERVED_24_16_SHIFT +#undef DDR_PHY_DX5LCDLR2_RESERVED_24_16_MASK +#define DDR_PHY_DX5LCDLR2_RESERVED_24_16_DEFVAL 0x00000000 +#define DDR_PHY_DX5LCDLR2_RESERVED_24_16_SHIFT 16 +#define DDR_PHY_DX5LCDLR2_RESERVED_24_16_MASK 0x01FF0000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX5LCDLR2_RESERVED_15_9_DEFVAL +#undef DDR_PHY_DX5LCDLR2_RESERVED_15_9_SHIFT +#undef DDR_PHY_DX5LCDLR2_RESERVED_15_9_MASK +#define DDR_PHY_DX5LCDLR2_RESERVED_15_9_DEFVAL 0x00000000 +#define DDR_PHY_DX5LCDLR2_RESERVED_15_9_SHIFT 9 +#define DDR_PHY_DX5LCDLR2_RESERVED_15_9_MASK 0x0000FE00U + +/*Read DQS Gating Delay*/ +#undef DDR_PHY_DX5LCDLR2_DQSGD_DEFVAL +#undef DDR_PHY_DX5LCDLR2_DQSGD_SHIFT +#undef DDR_PHY_DX5LCDLR2_DQSGD_MASK +#define DDR_PHY_DX5LCDLR2_DQSGD_DEFVAL 0x00000000 +#define DDR_PHY_DX5LCDLR2_DQSGD_SHIFT 0 +#define DDR_PHY_DX5LCDLR2_DQSGD_MASK 0x000001FFU + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX5GTR0_RESERVED_31_24_DEFVAL +#undef DDR_PHY_DX5GTR0_RESERVED_31_24_SHIFT +#undef DDR_PHY_DX5GTR0_RESERVED_31_24_MASK +#define DDR_PHY_DX5GTR0_RESERVED_31_24_DEFVAL 0x00020000 +#define DDR_PHY_DX5GTR0_RESERVED_31_24_SHIFT 27 +#define DDR_PHY_DX5GTR0_RESERVED_31_24_MASK 0xF8000000U + +/*DQ Write Path Latency Pipeline*/ +#undef DDR_PHY_DX5GTR0_WDQSL_DEFVAL +#undef DDR_PHY_DX5GTR0_WDQSL_SHIFT +#undef DDR_PHY_DX5GTR0_WDQSL_MASK +#define DDR_PHY_DX5GTR0_WDQSL_DEFVAL 0x00020000 +#define DDR_PHY_DX5GTR0_WDQSL_SHIFT 24 +#define DDR_PHY_DX5GTR0_WDQSL_MASK 0x07000000U + +/*Reserved. Caution, do not write to this register field.*/ +#undef DDR_PHY_DX5GTR0_RESERVED_23_20_DEFVAL +#undef DDR_PHY_DX5GTR0_RESERVED_23_20_SHIFT +#undef DDR_PHY_DX5GTR0_RESERVED_23_20_MASK +#define DDR_PHY_DX5GTR0_RESERVED_23_20_DEFVAL 0x00020000 +#define DDR_PHY_DX5GTR0_RESERVED_23_20_SHIFT 20 +#define DDR_PHY_DX5GTR0_RESERVED_23_20_MASK 0x00F00000U + +/*Write Leveling System Latency*/ +#undef DDR_PHY_DX5GTR0_WLSL_DEFVAL +#undef DDR_PHY_DX5GTR0_WLSL_SHIFT +#undef DDR_PHY_DX5GTR0_WLSL_MASK +#define DDR_PHY_DX5GTR0_WLSL_DEFVAL 0x00020000 +#define DDR_PHY_DX5GTR0_WLSL_SHIFT 16 +#define DDR_PHY_DX5GTR0_WLSL_MASK 0x000F0000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX5GTR0_RESERVED_15_13_DEFVAL +#undef DDR_PHY_DX5GTR0_RESERVED_15_13_SHIFT +#undef DDR_PHY_DX5GTR0_RESERVED_15_13_MASK +#define DDR_PHY_DX5GTR0_RESERVED_15_13_DEFVAL 0x00020000 +#define DDR_PHY_DX5GTR0_RESERVED_15_13_SHIFT 13 +#define DDR_PHY_DX5GTR0_RESERVED_15_13_MASK 0x0000E000U + +/*Reserved. Caution, do not write to this register field.*/ +#undef DDR_PHY_DX5GTR0_RESERVED_12_8_DEFVAL +#undef DDR_PHY_DX5GTR0_RESERVED_12_8_SHIFT +#undef DDR_PHY_DX5GTR0_RESERVED_12_8_MASK +#define DDR_PHY_DX5GTR0_RESERVED_12_8_DEFVAL 0x00020000 +#define DDR_PHY_DX5GTR0_RESERVED_12_8_SHIFT 8 +#define DDR_PHY_DX5GTR0_RESERVED_12_8_MASK 0x00001F00U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX5GTR0_RESERVED_7_5_DEFVAL +#undef DDR_PHY_DX5GTR0_RESERVED_7_5_SHIFT +#undef DDR_PHY_DX5GTR0_RESERVED_7_5_MASK +#define DDR_PHY_DX5GTR0_RESERVED_7_5_DEFVAL 0x00020000 +#define DDR_PHY_DX5GTR0_RESERVED_7_5_SHIFT 5 +#define DDR_PHY_DX5GTR0_RESERVED_7_5_MASK 0x000000E0U + +/*DQS Gating System Latency*/ +#undef DDR_PHY_DX5GTR0_DGSL_DEFVAL +#undef DDR_PHY_DX5GTR0_DGSL_SHIFT +#undef DDR_PHY_DX5GTR0_DGSL_MASK +#define DDR_PHY_DX5GTR0_DGSL_DEFVAL 0x00020000 +#define DDR_PHY_DX5GTR0_DGSL_SHIFT 0 +#define DDR_PHY_DX5GTR0_DGSL_MASK 0x0000001FU + +/*Calibration Bypass*/ +#undef DDR_PHY_DX6GCR0_CALBYP_DEFVAL +#undef DDR_PHY_DX6GCR0_CALBYP_SHIFT +#undef DDR_PHY_DX6GCR0_CALBYP_MASK +#define DDR_PHY_DX6GCR0_CALBYP_DEFVAL 0x40200204 +#define DDR_PHY_DX6GCR0_CALBYP_SHIFT 31 +#define DDR_PHY_DX6GCR0_CALBYP_MASK 0x80000000U + +/*Master Delay Line Enable*/ +#undef DDR_PHY_DX6GCR0_MDLEN_DEFVAL +#undef DDR_PHY_DX6GCR0_MDLEN_SHIFT +#undef DDR_PHY_DX6GCR0_MDLEN_MASK +#define DDR_PHY_DX6GCR0_MDLEN_DEFVAL 0x40200204 +#define DDR_PHY_DX6GCR0_MDLEN_SHIFT 30 +#define DDR_PHY_DX6GCR0_MDLEN_MASK 0x40000000U + +/*Configurable ODT(TE) Phase Shift*/ +#undef DDR_PHY_DX6GCR0_CODTSHFT_DEFVAL +#undef DDR_PHY_DX6GCR0_CODTSHFT_SHIFT +#undef DDR_PHY_DX6GCR0_CODTSHFT_MASK +#define DDR_PHY_DX6GCR0_CODTSHFT_DEFVAL 0x40200204 +#define DDR_PHY_DX6GCR0_CODTSHFT_SHIFT 28 +#define DDR_PHY_DX6GCR0_CODTSHFT_MASK 0x30000000U + +/*DQS Duty Cycle Correction*/ +#undef DDR_PHY_DX6GCR0_DQSDCC_DEFVAL +#undef DDR_PHY_DX6GCR0_DQSDCC_SHIFT +#undef DDR_PHY_DX6GCR0_DQSDCC_MASK +#define DDR_PHY_DX6GCR0_DQSDCC_DEFVAL 0x40200204 +#define DDR_PHY_DX6GCR0_DQSDCC_SHIFT 24 +#define DDR_PHY_DX6GCR0_DQSDCC_MASK 0x0F000000U + +/*Number of Cycles ( in terms of ctl_clk) to generate ctl_dx_get_static_rd input for the respective bypte lane of the PHY*/ +#undef DDR_PHY_DX6GCR0_RDDLY_DEFVAL +#undef DDR_PHY_DX6GCR0_RDDLY_SHIFT +#undef DDR_PHY_DX6GCR0_RDDLY_MASK +#define DDR_PHY_DX6GCR0_RDDLY_DEFVAL 0x40200204 +#define DDR_PHY_DX6GCR0_RDDLY_SHIFT 20 +#define DDR_PHY_DX6GCR0_RDDLY_MASK 0x00F00000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX6GCR0_RESERVED_19_14_DEFVAL +#undef DDR_PHY_DX6GCR0_RESERVED_19_14_SHIFT +#undef DDR_PHY_DX6GCR0_RESERVED_19_14_MASK +#define DDR_PHY_DX6GCR0_RESERVED_19_14_DEFVAL 0x40200204 +#define DDR_PHY_DX6GCR0_RESERVED_19_14_SHIFT 14 +#define DDR_PHY_DX6GCR0_RESERVED_19_14_MASK 0x000FC000U + +/*DQSNSE Power Down Receiver*/ +#undef DDR_PHY_DX6GCR0_DQSNSEPDR_DEFVAL +#undef DDR_PHY_DX6GCR0_DQSNSEPDR_SHIFT +#undef DDR_PHY_DX6GCR0_DQSNSEPDR_MASK +#define DDR_PHY_DX6GCR0_DQSNSEPDR_DEFVAL 0x40200204 +#define DDR_PHY_DX6GCR0_DQSNSEPDR_SHIFT 13 +#define DDR_PHY_DX6GCR0_DQSNSEPDR_MASK 0x00002000U + +/*DQSSE Power Down Receiver*/ +#undef DDR_PHY_DX6GCR0_DQSSEPDR_DEFVAL +#undef DDR_PHY_DX6GCR0_DQSSEPDR_SHIFT +#undef DDR_PHY_DX6GCR0_DQSSEPDR_MASK +#define DDR_PHY_DX6GCR0_DQSSEPDR_DEFVAL 0x40200204 +#define DDR_PHY_DX6GCR0_DQSSEPDR_SHIFT 12 +#define DDR_PHY_DX6GCR0_DQSSEPDR_MASK 0x00001000U + +/*RTT On Additive Latency*/ +#undef DDR_PHY_DX6GCR0_RTTOAL_DEFVAL +#undef DDR_PHY_DX6GCR0_RTTOAL_SHIFT +#undef DDR_PHY_DX6GCR0_RTTOAL_MASK +#define DDR_PHY_DX6GCR0_RTTOAL_DEFVAL 0x40200204 +#define DDR_PHY_DX6GCR0_RTTOAL_SHIFT 11 +#define DDR_PHY_DX6GCR0_RTTOAL_MASK 0x00000800U + +/*RTT Output Hold*/ +#undef DDR_PHY_DX6GCR0_RTTOH_DEFVAL +#undef DDR_PHY_DX6GCR0_RTTOH_SHIFT +#undef DDR_PHY_DX6GCR0_RTTOH_MASK +#define DDR_PHY_DX6GCR0_RTTOH_DEFVAL 0x40200204 +#define DDR_PHY_DX6GCR0_RTTOH_SHIFT 9 +#define DDR_PHY_DX6GCR0_RTTOH_MASK 0x00000600U + +/*Configurable PDR Phase Shift*/ +#undef DDR_PHY_DX6GCR0_CPDRSHFT_DEFVAL +#undef DDR_PHY_DX6GCR0_CPDRSHFT_SHIFT +#undef DDR_PHY_DX6GCR0_CPDRSHFT_MASK +#define DDR_PHY_DX6GCR0_CPDRSHFT_DEFVAL 0x40200204 +#define DDR_PHY_DX6GCR0_CPDRSHFT_SHIFT 7 +#define DDR_PHY_DX6GCR0_CPDRSHFT_MASK 0x00000180U + +/*DQSR Power Down*/ +#undef DDR_PHY_DX6GCR0_DQSRPD_DEFVAL +#undef DDR_PHY_DX6GCR0_DQSRPD_SHIFT +#undef DDR_PHY_DX6GCR0_DQSRPD_MASK +#define DDR_PHY_DX6GCR0_DQSRPD_DEFVAL 0x40200204 +#define DDR_PHY_DX6GCR0_DQSRPD_SHIFT 6 +#define DDR_PHY_DX6GCR0_DQSRPD_MASK 0x00000040U + +/*DQSG Power Down Receiver*/ +#undef DDR_PHY_DX6GCR0_DQSGPDR_DEFVAL +#undef DDR_PHY_DX6GCR0_DQSGPDR_SHIFT +#undef DDR_PHY_DX6GCR0_DQSGPDR_MASK +#define DDR_PHY_DX6GCR0_DQSGPDR_DEFVAL 0x40200204 +#define DDR_PHY_DX6GCR0_DQSGPDR_SHIFT 5 +#define DDR_PHY_DX6GCR0_DQSGPDR_MASK 0x00000020U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX6GCR0_RESERVED_4_DEFVAL +#undef DDR_PHY_DX6GCR0_RESERVED_4_SHIFT +#undef DDR_PHY_DX6GCR0_RESERVED_4_MASK +#define DDR_PHY_DX6GCR0_RESERVED_4_DEFVAL 0x40200204 +#define DDR_PHY_DX6GCR0_RESERVED_4_SHIFT 4 +#define DDR_PHY_DX6GCR0_RESERVED_4_MASK 0x00000010U + +/*DQSG On-Die Termination*/ +#undef DDR_PHY_DX6GCR0_DQSGODT_DEFVAL +#undef DDR_PHY_DX6GCR0_DQSGODT_SHIFT +#undef DDR_PHY_DX6GCR0_DQSGODT_MASK +#define DDR_PHY_DX6GCR0_DQSGODT_DEFVAL 0x40200204 +#define DDR_PHY_DX6GCR0_DQSGODT_SHIFT 3 +#define DDR_PHY_DX6GCR0_DQSGODT_MASK 0x00000008U + +/*DQSG Output Enable*/ +#undef DDR_PHY_DX6GCR0_DQSGOE_DEFVAL +#undef DDR_PHY_DX6GCR0_DQSGOE_SHIFT +#undef DDR_PHY_DX6GCR0_DQSGOE_MASK +#define DDR_PHY_DX6GCR0_DQSGOE_DEFVAL 0x40200204 +#define DDR_PHY_DX6GCR0_DQSGOE_SHIFT 2 +#define DDR_PHY_DX6GCR0_DQSGOE_MASK 0x00000004U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX6GCR0_RESERVED_1_0_DEFVAL +#undef DDR_PHY_DX6GCR0_RESERVED_1_0_SHIFT +#undef DDR_PHY_DX6GCR0_RESERVED_1_0_MASK +#define DDR_PHY_DX6GCR0_RESERVED_1_0_DEFVAL 0x40200204 +#define DDR_PHY_DX6GCR0_RESERVED_1_0_SHIFT 0 +#define DDR_PHY_DX6GCR0_RESERVED_1_0_MASK 0x00000003U + +/*Enables the PDR mode for DQ[7:0]*/ +#undef DDR_PHY_DX6GCR1_DXPDRMODE_DEFVAL +#undef DDR_PHY_DX6GCR1_DXPDRMODE_SHIFT +#undef DDR_PHY_DX6GCR1_DXPDRMODE_MASK +#define DDR_PHY_DX6GCR1_DXPDRMODE_DEFVAL 0x00007FFF +#define DDR_PHY_DX6GCR1_DXPDRMODE_SHIFT 16 +#define DDR_PHY_DX6GCR1_DXPDRMODE_MASK 0xFFFF0000U + +/*Reserved. Returns zeroes on reads.*/ +#undef DDR_PHY_DX6GCR1_RESERVED_15_DEFVAL +#undef DDR_PHY_DX6GCR1_RESERVED_15_SHIFT +#undef DDR_PHY_DX6GCR1_RESERVED_15_MASK +#define DDR_PHY_DX6GCR1_RESERVED_15_DEFVAL 0x00007FFF +#define DDR_PHY_DX6GCR1_RESERVED_15_SHIFT 15 +#define DDR_PHY_DX6GCR1_RESERVED_15_MASK 0x00008000U + +/*Select the delayed or non-delayed read data strobe #*/ +#undef DDR_PHY_DX6GCR1_QSNSEL_DEFVAL +#undef DDR_PHY_DX6GCR1_QSNSEL_SHIFT +#undef DDR_PHY_DX6GCR1_QSNSEL_MASK +#define DDR_PHY_DX6GCR1_QSNSEL_DEFVAL 0x00007FFF +#define DDR_PHY_DX6GCR1_QSNSEL_SHIFT 14 +#define DDR_PHY_DX6GCR1_QSNSEL_MASK 0x00004000U + +/*Select the delayed or non-delayed read data strobe*/ +#undef DDR_PHY_DX6GCR1_QSSEL_DEFVAL +#undef DDR_PHY_DX6GCR1_QSSEL_SHIFT +#undef DDR_PHY_DX6GCR1_QSSEL_MASK +#define DDR_PHY_DX6GCR1_QSSEL_DEFVAL 0x00007FFF +#define DDR_PHY_DX6GCR1_QSSEL_SHIFT 13 +#define DDR_PHY_DX6GCR1_QSSEL_MASK 0x00002000U + +/*Enables Read Data Strobe in a byte lane*/ +#undef DDR_PHY_DX6GCR1_OEEN_DEFVAL +#undef DDR_PHY_DX6GCR1_OEEN_SHIFT +#undef DDR_PHY_DX6GCR1_OEEN_MASK +#define DDR_PHY_DX6GCR1_OEEN_DEFVAL 0x00007FFF +#define DDR_PHY_DX6GCR1_OEEN_SHIFT 12 +#define DDR_PHY_DX6GCR1_OEEN_MASK 0x00001000U + +/*Enables PDR in a byte lane*/ +#undef DDR_PHY_DX6GCR1_PDREN_DEFVAL +#undef DDR_PHY_DX6GCR1_PDREN_SHIFT +#undef DDR_PHY_DX6GCR1_PDREN_MASK +#define DDR_PHY_DX6GCR1_PDREN_DEFVAL 0x00007FFF +#define DDR_PHY_DX6GCR1_PDREN_SHIFT 11 +#define DDR_PHY_DX6GCR1_PDREN_MASK 0x00000800U + +/*Enables ODT/TE in a byte lane*/ +#undef DDR_PHY_DX6GCR1_TEEN_DEFVAL +#undef DDR_PHY_DX6GCR1_TEEN_SHIFT +#undef DDR_PHY_DX6GCR1_TEEN_MASK +#define DDR_PHY_DX6GCR1_TEEN_DEFVAL 0x00007FFF +#define DDR_PHY_DX6GCR1_TEEN_SHIFT 10 +#define DDR_PHY_DX6GCR1_TEEN_MASK 0x00000400U + +/*Enables Write Data strobe in a byte lane*/ +#undef DDR_PHY_DX6GCR1_DSEN_DEFVAL +#undef DDR_PHY_DX6GCR1_DSEN_SHIFT +#undef DDR_PHY_DX6GCR1_DSEN_MASK +#define DDR_PHY_DX6GCR1_DSEN_DEFVAL 0x00007FFF +#define DDR_PHY_DX6GCR1_DSEN_SHIFT 9 +#define DDR_PHY_DX6GCR1_DSEN_MASK 0x00000200U + +/*Enables DM pin in a byte lane*/ +#undef DDR_PHY_DX6GCR1_DMEN_DEFVAL +#undef DDR_PHY_DX6GCR1_DMEN_SHIFT +#undef DDR_PHY_DX6GCR1_DMEN_MASK +#define DDR_PHY_DX6GCR1_DMEN_DEFVAL 0x00007FFF +#define DDR_PHY_DX6GCR1_DMEN_SHIFT 8 +#define DDR_PHY_DX6GCR1_DMEN_MASK 0x00000100U + +/*Enables DQ corresponding to each bit in a byte*/ +#undef DDR_PHY_DX6GCR1_DQEN_DEFVAL +#undef DDR_PHY_DX6GCR1_DQEN_SHIFT +#undef DDR_PHY_DX6GCR1_DQEN_MASK +#define DDR_PHY_DX6GCR1_DQEN_DEFVAL 0x00007FFF +#define DDR_PHY_DX6GCR1_DQEN_SHIFT 0 +#define DDR_PHY_DX6GCR1_DQEN_MASK 0x000000FFU + +/*Byte lane VREF IOM (Used only by D4MU IOs)*/ +#undef DDR_PHY_DX6GCR4_RESERVED_31_29_DEFVAL +#undef DDR_PHY_DX6GCR4_RESERVED_31_29_SHIFT +#undef DDR_PHY_DX6GCR4_RESERVED_31_29_MASK +#define DDR_PHY_DX6GCR4_RESERVED_31_29_DEFVAL 0x0E00003C +#define DDR_PHY_DX6GCR4_RESERVED_31_29_SHIFT 29 +#define DDR_PHY_DX6GCR4_RESERVED_31_29_MASK 0xE0000000U + +/*Byte Lane VREF Pad Enable*/ +#undef DDR_PHY_DX6GCR4_DXREFPEN_DEFVAL +#undef DDR_PHY_DX6GCR4_DXREFPEN_SHIFT +#undef DDR_PHY_DX6GCR4_DXREFPEN_MASK +#define DDR_PHY_DX6GCR4_DXREFPEN_DEFVAL 0x0E00003C +#define DDR_PHY_DX6GCR4_DXREFPEN_SHIFT 28 +#define DDR_PHY_DX6GCR4_DXREFPEN_MASK 0x10000000U + +/*Byte Lane Internal VREF Enable*/ +#undef DDR_PHY_DX6GCR4_DXREFEEN_DEFVAL +#undef DDR_PHY_DX6GCR4_DXREFEEN_SHIFT +#undef DDR_PHY_DX6GCR4_DXREFEEN_MASK +#define DDR_PHY_DX6GCR4_DXREFEEN_DEFVAL 0x0E00003C +#define DDR_PHY_DX6GCR4_DXREFEEN_SHIFT 26 +#define DDR_PHY_DX6GCR4_DXREFEEN_MASK 0x0C000000U + +/*Byte Lane Single-End VREF Enable*/ +#undef DDR_PHY_DX6GCR4_DXREFSEN_DEFVAL +#undef DDR_PHY_DX6GCR4_DXREFSEN_SHIFT +#undef DDR_PHY_DX6GCR4_DXREFSEN_MASK +#define DDR_PHY_DX6GCR4_DXREFSEN_DEFVAL 0x0E00003C +#define DDR_PHY_DX6GCR4_DXREFSEN_SHIFT 25 +#define DDR_PHY_DX6GCR4_DXREFSEN_MASK 0x02000000U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX6GCR4_RESERVED_24_DEFVAL +#undef DDR_PHY_DX6GCR4_RESERVED_24_SHIFT +#undef DDR_PHY_DX6GCR4_RESERVED_24_MASK +#define DDR_PHY_DX6GCR4_RESERVED_24_DEFVAL 0x0E00003C +#define DDR_PHY_DX6GCR4_RESERVED_24_SHIFT 24 +#define DDR_PHY_DX6GCR4_RESERVED_24_MASK 0x01000000U + +/*External VREF generator REFSEL range select*/ +#undef DDR_PHY_DX6GCR4_DXREFESELRANGE_DEFVAL +#undef DDR_PHY_DX6GCR4_DXREFESELRANGE_SHIFT +#undef DDR_PHY_DX6GCR4_DXREFESELRANGE_MASK +#define DDR_PHY_DX6GCR4_DXREFESELRANGE_DEFVAL 0x0E00003C +#define DDR_PHY_DX6GCR4_DXREFESELRANGE_SHIFT 23 +#define DDR_PHY_DX6GCR4_DXREFESELRANGE_MASK 0x00800000U + +/*Byte Lane External VREF Select*/ +#undef DDR_PHY_DX6GCR4_DXREFESEL_DEFVAL +#undef DDR_PHY_DX6GCR4_DXREFESEL_SHIFT +#undef DDR_PHY_DX6GCR4_DXREFESEL_MASK +#define DDR_PHY_DX6GCR4_DXREFESEL_DEFVAL 0x0E00003C +#define DDR_PHY_DX6GCR4_DXREFESEL_SHIFT 16 +#define DDR_PHY_DX6GCR4_DXREFESEL_MASK 0x007F0000U + +/*Single ended VREF generator REFSEL range select*/ +#undef DDR_PHY_DX6GCR4_DXREFSSELRANGE_DEFVAL +#undef DDR_PHY_DX6GCR4_DXREFSSELRANGE_SHIFT +#undef DDR_PHY_DX6GCR4_DXREFSSELRANGE_MASK +#define DDR_PHY_DX6GCR4_DXREFSSELRANGE_DEFVAL 0x0E00003C +#define DDR_PHY_DX6GCR4_DXREFSSELRANGE_SHIFT 15 +#define DDR_PHY_DX6GCR4_DXREFSSELRANGE_MASK 0x00008000U + +/*Byte Lane Single-End VREF Select*/ +#undef DDR_PHY_DX6GCR4_DXREFSSEL_DEFVAL +#undef DDR_PHY_DX6GCR4_DXREFSSEL_SHIFT +#undef DDR_PHY_DX6GCR4_DXREFSSEL_MASK +#define DDR_PHY_DX6GCR4_DXREFSSEL_DEFVAL 0x0E00003C +#define DDR_PHY_DX6GCR4_DXREFSSEL_SHIFT 8 +#define DDR_PHY_DX6GCR4_DXREFSSEL_MASK 0x00007F00U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX6GCR4_RESERVED_7_6_DEFVAL +#undef DDR_PHY_DX6GCR4_RESERVED_7_6_SHIFT +#undef DDR_PHY_DX6GCR4_RESERVED_7_6_MASK +#define DDR_PHY_DX6GCR4_RESERVED_7_6_DEFVAL 0x0E00003C +#define DDR_PHY_DX6GCR4_RESERVED_7_6_SHIFT 6 +#define DDR_PHY_DX6GCR4_RESERVED_7_6_MASK 0x000000C0U + +/*VREF Enable control for DQ IO (Single Ended) buffers of a byte lane.*/ +#undef DDR_PHY_DX6GCR4_DXREFIEN_DEFVAL +#undef DDR_PHY_DX6GCR4_DXREFIEN_SHIFT +#undef DDR_PHY_DX6GCR4_DXREFIEN_MASK +#define DDR_PHY_DX6GCR4_DXREFIEN_DEFVAL 0x0E00003C +#define DDR_PHY_DX6GCR4_DXREFIEN_SHIFT 2 +#define DDR_PHY_DX6GCR4_DXREFIEN_MASK 0x0000003CU + +/*VRMON control for DQ IO (Single Ended) buffers of a byte lane.*/ +#undef DDR_PHY_DX6GCR4_DXREFIMON_DEFVAL +#undef DDR_PHY_DX6GCR4_DXREFIMON_SHIFT +#undef DDR_PHY_DX6GCR4_DXREFIMON_MASK +#define DDR_PHY_DX6GCR4_DXREFIMON_DEFVAL 0x0E00003C +#define DDR_PHY_DX6GCR4_DXREFIMON_SHIFT 0 +#define DDR_PHY_DX6GCR4_DXREFIMON_MASK 0x00000003U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX6GCR5_RESERVED_31_DEFVAL +#undef DDR_PHY_DX6GCR5_RESERVED_31_SHIFT +#undef DDR_PHY_DX6GCR5_RESERVED_31_MASK +#define DDR_PHY_DX6GCR5_RESERVED_31_DEFVAL 0x09090909 +#define DDR_PHY_DX6GCR5_RESERVED_31_SHIFT 31 +#define DDR_PHY_DX6GCR5_RESERVED_31_MASK 0x80000000U + +/*Byte Lane internal VREF Select for Rank 3*/ +#undef DDR_PHY_DX6GCR5_DXREFISELR3_DEFVAL +#undef DDR_PHY_DX6GCR5_DXREFISELR3_SHIFT +#undef DDR_PHY_DX6GCR5_DXREFISELR3_MASK +#define DDR_PHY_DX6GCR5_DXREFISELR3_DEFVAL 0x09090909 +#define DDR_PHY_DX6GCR5_DXREFISELR3_SHIFT 24 +#define DDR_PHY_DX6GCR5_DXREFISELR3_MASK 0x7F000000U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX6GCR5_RESERVED_23_DEFVAL +#undef DDR_PHY_DX6GCR5_RESERVED_23_SHIFT +#undef DDR_PHY_DX6GCR5_RESERVED_23_MASK +#define DDR_PHY_DX6GCR5_RESERVED_23_DEFVAL 0x09090909 +#define DDR_PHY_DX6GCR5_RESERVED_23_SHIFT 23 +#define DDR_PHY_DX6GCR5_RESERVED_23_MASK 0x00800000U + +/*Byte Lane internal VREF Select for Rank 2*/ +#undef DDR_PHY_DX6GCR5_DXREFISELR2_DEFVAL +#undef DDR_PHY_DX6GCR5_DXREFISELR2_SHIFT +#undef DDR_PHY_DX6GCR5_DXREFISELR2_MASK +#define DDR_PHY_DX6GCR5_DXREFISELR2_DEFVAL 0x09090909 +#define DDR_PHY_DX6GCR5_DXREFISELR2_SHIFT 16 +#define DDR_PHY_DX6GCR5_DXREFISELR2_MASK 0x007F0000U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX6GCR5_RESERVED_15_DEFVAL +#undef DDR_PHY_DX6GCR5_RESERVED_15_SHIFT +#undef DDR_PHY_DX6GCR5_RESERVED_15_MASK +#define DDR_PHY_DX6GCR5_RESERVED_15_DEFVAL 0x09090909 +#define DDR_PHY_DX6GCR5_RESERVED_15_SHIFT 15 +#define DDR_PHY_DX6GCR5_RESERVED_15_MASK 0x00008000U + +/*Byte Lane internal VREF Select for Rank 1*/ +#undef DDR_PHY_DX6GCR5_DXREFISELR1_DEFVAL +#undef DDR_PHY_DX6GCR5_DXREFISELR1_SHIFT +#undef DDR_PHY_DX6GCR5_DXREFISELR1_MASK +#define DDR_PHY_DX6GCR5_DXREFISELR1_DEFVAL 0x09090909 +#define DDR_PHY_DX6GCR5_DXREFISELR1_SHIFT 8 +#define DDR_PHY_DX6GCR5_DXREFISELR1_MASK 0x00007F00U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX6GCR5_RESERVED_7_DEFVAL +#undef DDR_PHY_DX6GCR5_RESERVED_7_SHIFT +#undef DDR_PHY_DX6GCR5_RESERVED_7_MASK +#define DDR_PHY_DX6GCR5_RESERVED_7_DEFVAL 0x09090909 +#define DDR_PHY_DX6GCR5_RESERVED_7_SHIFT 7 +#define DDR_PHY_DX6GCR5_RESERVED_7_MASK 0x00000080U + +/*Byte Lane internal VREF Select for Rank 0*/ +#undef DDR_PHY_DX6GCR5_DXREFISELR0_DEFVAL +#undef DDR_PHY_DX6GCR5_DXREFISELR0_SHIFT +#undef DDR_PHY_DX6GCR5_DXREFISELR0_MASK +#define DDR_PHY_DX6GCR5_DXREFISELR0_DEFVAL 0x09090909 +#define DDR_PHY_DX6GCR5_DXREFISELR0_SHIFT 0 +#define DDR_PHY_DX6GCR5_DXREFISELR0_MASK 0x0000007FU + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX6GCR6_RESERVED_31_30_DEFVAL +#undef DDR_PHY_DX6GCR6_RESERVED_31_30_SHIFT +#undef DDR_PHY_DX6GCR6_RESERVED_31_30_MASK +#define DDR_PHY_DX6GCR6_RESERVED_31_30_DEFVAL 0x09090909 +#define DDR_PHY_DX6GCR6_RESERVED_31_30_SHIFT 30 +#define DDR_PHY_DX6GCR6_RESERVED_31_30_MASK 0xC0000000U + +/*DRAM DQ VREF Select for Rank3*/ +#undef DDR_PHY_DX6GCR6_DXDQVREFR3_DEFVAL +#undef DDR_PHY_DX6GCR6_DXDQVREFR3_SHIFT +#undef DDR_PHY_DX6GCR6_DXDQVREFR3_MASK +#define DDR_PHY_DX6GCR6_DXDQVREFR3_DEFVAL 0x09090909 +#define DDR_PHY_DX6GCR6_DXDQVREFR3_SHIFT 24 +#define DDR_PHY_DX6GCR6_DXDQVREFR3_MASK 0x3F000000U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX6GCR6_RESERVED_23_22_DEFVAL +#undef DDR_PHY_DX6GCR6_RESERVED_23_22_SHIFT +#undef DDR_PHY_DX6GCR6_RESERVED_23_22_MASK +#define DDR_PHY_DX6GCR6_RESERVED_23_22_DEFVAL 0x09090909 +#define DDR_PHY_DX6GCR6_RESERVED_23_22_SHIFT 22 +#define DDR_PHY_DX6GCR6_RESERVED_23_22_MASK 0x00C00000U + +/*DRAM DQ VREF Select for Rank2*/ +#undef DDR_PHY_DX6GCR6_DXDQVREFR2_DEFVAL +#undef DDR_PHY_DX6GCR6_DXDQVREFR2_SHIFT +#undef DDR_PHY_DX6GCR6_DXDQVREFR2_MASK +#define DDR_PHY_DX6GCR6_DXDQVREFR2_DEFVAL 0x09090909 +#define DDR_PHY_DX6GCR6_DXDQVREFR2_SHIFT 16 +#define DDR_PHY_DX6GCR6_DXDQVREFR2_MASK 0x003F0000U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX6GCR6_RESERVED_15_14_DEFVAL +#undef DDR_PHY_DX6GCR6_RESERVED_15_14_SHIFT +#undef DDR_PHY_DX6GCR6_RESERVED_15_14_MASK +#define DDR_PHY_DX6GCR6_RESERVED_15_14_DEFVAL 0x09090909 +#define DDR_PHY_DX6GCR6_RESERVED_15_14_SHIFT 14 +#define DDR_PHY_DX6GCR6_RESERVED_15_14_MASK 0x0000C000U + +/*DRAM DQ VREF Select for Rank1*/ +#undef DDR_PHY_DX6GCR6_DXDQVREFR1_DEFVAL +#undef DDR_PHY_DX6GCR6_DXDQVREFR1_SHIFT +#undef DDR_PHY_DX6GCR6_DXDQVREFR1_MASK +#define DDR_PHY_DX6GCR6_DXDQVREFR1_DEFVAL 0x09090909 +#define DDR_PHY_DX6GCR6_DXDQVREFR1_SHIFT 8 +#define DDR_PHY_DX6GCR6_DXDQVREFR1_MASK 0x00003F00U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX6GCR6_RESERVED_7_6_DEFVAL +#undef DDR_PHY_DX6GCR6_RESERVED_7_6_SHIFT +#undef DDR_PHY_DX6GCR6_RESERVED_7_6_MASK +#define DDR_PHY_DX6GCR6_RESERVED_7_6_DEFVAL 0x09090909 +#define DDR_PHY_DX6GCR6_RESERVED_7_6_SHIFT 6 +#define DDR_PHY_DX6GCR6_RESERVED_7_6_MASK 0x000000C0U + +/*DRAM DQ VREF Select for Rank0*/ +#undef DDR_PHY_DX6GCR6_DXDQVREFR0_DEFVAL +#undef DDR_PHY_DX6GCR6_DXDQVREFR0_SHIFT +#undef DDR_PHY_DX6GCR6_DXDQVREFR0_MASK +#define DDR_PHY_DX6GCR6_DXDQVREFR0_DEFVAL 0x09090909 +#define DDR_PHY_DX6GCR6_DXDQVREFR0_SHIFT 0 +#define DDR_PHY_DX6GCR6_DXDQVREFR0_MASK 0x0000003FU + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX6LCDLR2_RESERVED_31_25_DEFVAL +#undef DDR_PHY_DX6LCDLR2_RESERVED_31_25_SHIFT +#undef DDR_PHY_DX6LCDLR2_RESERVED_31_25_MASK +#define DDR_PHY_DX6LCDLR2_RESERVED_31_25_DEFVAL 0x00000000 +#define DDR_PHY_DX6LCDLR2_RESERVED_31_25_SHIFT 25 +#define DDR_PHY_DX6LCDLR2_RESERVED_31_25_MASK 0xFE000000U + +/*Reserved. Caution, do not write to this register field.*/ +#undef DDR_PHY_DX6LCDLR2_RESERVED_24_16_DEFVAL +#undef DDR_PHY_DX6LCDLR2_RESERVED_24_16_SHIFT +#undef DDR_PHY_DX6LCDLR2_RESERVED_24_16_MASK +#define DDR_PHY_DX6LCDLR2_RESERVED_24_16_DEFVAL 0x00000000 +#define DDR_PHY_DX6LCDLR2_RESERVED_24_16_SHIFT 16 +#define DDR_PHY_DX6LCDLR2_RESERVED_24_16_MASK 0x01FF0000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX6LCDLR2_RESERVED_15_9_DEFVAL +#undef DDR_PHY_DX6LCDLR2_RESERVED_15_9_SHIFT +#undef DDR_PHY_DX6LCDLR2_RESERVED_15_9_MASK +#define DDR_PHY_DX6LCDLR2_RESERVED_15_9_DEFVAL 0x00000000 +#define DDR_PHY_DX6LCDLR2_RESERVED_15_9_SHIFT 9 +#define DDR_PHY_DX6LCDLR2_RESERVED_15_9_MASK 0x0000FE00U + +/*Read DQS Gating Delay*/ +#undef DDR_PHY_DX6LCDLR2_DQSGD_DEFVAL +#undef DDR_PHY_DX6LCDLR2_DQSGD_SHIFT +#undef DDR_PHY_DX6LCDLR2_DQSGD_MASK +#define DDR_PHY_DX6LCDLR2_DQSGD_DEFVAL 0x00000000 +#define DDR_PHY_DX6LCDLR2_DQSGD_SHIFT 0 +#define DDR_PHY_DX6LCDLR2_DQSGD_MASK 0x000001FFU + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX6GTR0_RESERVED_31_24_DEFVAL +#undef DDR_PHY_DX6GTR0_RESERVED_31_24_SHIFT +#undef DDR_PHY_DX6GTR0_RESERVED_31_24_MASK +#define DDR_PHY_DX6GTR0_RESERVED_31_24_DEFVAL 0x00020000 +#define DDR_PHY_DX6GTR0_RESERVED_31_24_SHIFT 27 +#define DDR_PHY_DX6GTR0_RESERVED_31_24_MASK 0xF8000000U + +/*DQ Write Path Latency Pipeline*/ +#undef DDR_PHY_DX6GTR0_WDQSL_DEFVAL +#undef DDR_PHY_DX6GTR0_WDQSL_SHIFT +#undef DDR_PHY_DX6GTR0_WDQSL_MASK +#define DDR_PHY_DX6GTR0_WDQSL_DEFVAL 0x00020000 +#define DDR_PHY_DX6GTR0_WDQSL_SHIFT 24 +#define DDR_PHY_DX6GTR0_WDQSL_MASK 0x07000000U + +/*Reserved. Caution, do not write to this register field.*/ +#undef DDR_PHY_DX6GTR0_RESERVED_23_20_DEFVAL +#undef DDR_PHY_DX6GTR0_RESERVED_23_20_SHIFT +#undef DDR_PHY_DX6GTR0_RESERVED_23_20_MASK +#define DDR_PHY_DX6GTR0_RESERVED_23_20_DEFVAL 0x00020000 +#define DDR_PHY_DX6GTR0_RESERVED_23_20_SHIFT 20 +#define DDR_PHY_DX6GTR0_RESERVED_23_20_MASK 0x00F00000U + +/*Write Leveling System Latency*/ +#undef DDR_PHY_DX6GTR0_WLSL_DEFVAL +#undef DDR_PHY_DX6GTR0_WLSL_SHIFT +#undef DDR_PHY_DX6GTR0_WLSL_MASK +#define DDR_PHY_DX6GTR0_WLSL_DEFVAL 0x00020000 +#define DDR_PHY_DX6GTR0_WLSL_SHIFT 16 +#define DDR_PHY_DX6GTR0_WLSL_MASK 0x000F0000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX6GTR0_RESERVED_15_13_DEFVAL +#undef DDR_PHY_DX6GTR0_RESERVED_15_13_SHIFT +#undef DDR_PHY_DX6GTR0_RESERVED_15_13_MASK +#define DDR_PHY_DX6GTR0_RESERVED_15_13_DEFVAL 0x00020000 +#define DDR_PHY_DX6GTR0_RESERVED_15_13_SHIFT 13 +#define DDR_PHY_DX6GTR0_RESERVED_15_13_MASK 0x0000E000U + +/*Reserved. Caution, do not write to this register field.*/ +#undef DDR_PHY_DX6GTR0_RESERVED_12_8_DEFVAL +#undef DDR_PHY_DX6GTR0_RESERVED_12_8_SHIFT +#undef DDR_PHY_DX6GTR0_RESERVED_12_8_MASK +#define DDR_PHY_DX6GTR0_RESERVED_12_8_DEFVAL 0x00020000 +#define DDR_PHY_DX6GTR0_RESERVED_12_8_SHIFT 8 +#define DDR_PHY_DX6GTR0_RESERVED_12_8_MASK 0x00001F00U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX6GTR0_RESERVED_7_5_DEFVAL +#undef DDR_PHY_DX6GTR0_RESERVED_7_5_SHIFT +#undef DDR_PHY_DX6GTR0_RESERVED_7_5_MASK +#define DDR_PHY_DX6GTR0_RESERVED_7_5_DEFVAL 0x00020000 +#define DDR_PHY_DX6GTR0_RESERVED_7_5_SHIFT 5 +#define DDR_PHY_DX6GTR0_RESERVED_7_5_MASK 0x000000E0U + +/*DQS Gating System Latency*/ +#undef DDR_PHY_DX6GTR0_DGSL_DEFVAL +#undef DDR_PHY_DX6GTR0_DGSL_SHIFT +#undef DDR_PHY_DX6GTR0_DGSL_MASK +#define DDR_PHY_DX6GTR0_DGSL_DEFVAL 0x00020000 +#define DDR_PHY_DX6GTR0_DGSL_SHIFT 0 +#define DDR_PHY_DX6GTR0_DGSL_MASK 0x0000001FU + +/*Calibration Bypass*/ +#undef DDR_PHY_DX7GCR0_CALBYP_DEFVAL +#undef DDR_PHY_DX7GCR0_CALBYP_SHIFT +#undef DDR_PHY_DX7GCR0_CALBYP_MASK +#define DDR_PHY_DX7GCR0_CALBYP_DEFVAL 0x40200204 +#define DDR_PHY_DX7GCR0_CALBYP_SHIFT 31 +#define DDR_PHY_DX7GCR0_CALBYP_MASK 0x80000000U + +/*Master Delay Line Enable*/ +#undef DDR_PHY_DX7GCR0_MDLEN_DEFVAL +#undef DDR_PHY_DX7GCR0_MDLEN_SHIFT +#undef DDR_PHY_DX7GCR0_MDLEN_MASK +#define DDR_PHY_DX7GCR0_MDLEN_DEFVAL 0x40200204 +#define DDR_PHY_DX7GCR0_MDLEN_SHIFT 30 +#define DDR_PHY_DX7GCR0_MDLEN_MASK 0x40000000U + +/*Configurable ODT(TE) Phase Shift*/ +#undef DDR_PHY_DX7GCR0_CODTSHFT_DEFVAL +#undef DDR_PHY_DX7GCR0_CODTSHFT_SHIFT +#undef DDR_PHY_DX7GCR0_CODTSHFT_MASK +#define DDR_PHY_DX7GCR0_CODTSHFT_DEFVAL 0x40200204 +#define DDR_PHY_DX7GCR0_CODTSHFT_SHIFT 28 +#define DDR_PHY_DX7GCR0_CODTSHFT_MASK 0x30000000U + +/*DQS Duty Cycle Correction*/ +#undef DDR_PHY_DX7GCR0_DQSDCC_DEFVAL +#undef DDR_PHY_DX7GCR0_DQSDCC_SHIFT +#undef DDR_PHY_DX7GCR0_DQSDCC_MASK +#define DDR_PHY_DX7GCR0_DQSDCC_DEFVAL 0x40200204 +#define DDR_PHY_DX7GCR0_DQSDCC_SHIFT 24 +#define DDR_PHY_DX7GCR0_DQSDCC_MASK 0x0F000000U + +/*Number of Cycles ( in terms of ctl_clk) to generate ctl_dx_get_static_rd input for the respective bypte lane of the PHY*/ +#undef DDR_PHY_DX7GCR0_RDDLY_DEFVAL +#undef DDR_PHY_DX7GCR0_RDDLY_SHIFT +#undef DDR_PHY_DX7GCR0_RDDLY_MASK +#define DDR_PHY_DX7GCR0_RDDLY_DEFVAL 0x40200204 +#define DDR_PHY_DX7GCR0_RDDLY_SHIFT 20 +#define DDR_PHY_DX7GCR0_RDDLY_MASK 0x00F00000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX7GCR0_RESERVED_19_14_DEFVAL +#undef DDR_PHY_DX7GCR0_RESERVED_19_14_SHIFT +#undef DDR_PHY_DX7GCR0_RESERVED_19_14_MASK +#define DDR_PHY_DX7GCR0_RESERVED_19_14_DEFVAL 0x40200204 +#define DDR_PHY_DX7GCR0_RESERVED_19_14_SHIFT 14 +#define DDR_PHY_DX7GCR0_RESERVED_19_14_MASK 0x000FC000U + +/*DQSNSE Power Down Receiver*/ +#undef DDR_PHY_DX7GCR0_DQSNSEPDR_DEFVAL +#undef DDR_PHY_DX7GCR0_DQSNSEPDR_SHIFT +#undef DDR_PHY_DX7GCR0_DQSNSEPDR_MASK +#define DDR_PHY_DX7GCR0_DQSNSEPDR_DEFVAL 0x40200204 +#define DDR_PHY_DX7GCR0_DQSNSEPDR_SHIFT 13 +#define DDR_PHY_DX7GCR0_DQSNSEPDR_MASK 0x00002000U + +/*DQSSE Power Down Receiver*/ +#undef DDR_PHY_DX7GCR0_DQSSEPDR_DEFVAL +#undef DDR_PHY_DX7GCR0_DQSSEPDR_SHIFT +#undef DDR_PHY_DX7GCR0_DQSSEPDR_MASK +#define DDR_PHY_DX7GCR0_DQSSEPDR_DEFVAL 0x40200204 +#define DDR_PHY_DX7GCR0_DQSSEPDR_SHIFT 12 +#define DDR_PHY_DX7GCR0_DQSSEPDR_MASK 0x00001000U + +/*RTT On Additive Latency*/ +#undef DDR_PHY_DX7GCR0_RTTOAL_DEFVAL +#undef DDR_PHY_DX7GCR0_RTTOAL_SHIFT +#undef DDR_PHY_DX7GCR0_RTTOAL_MASK +#define DDR_PHY_DX7GCR0_RTTOAL_DEFVAL 0x40200204 +#define DDR_PHY_DX7GCR0_RTTOAL_SHIFT 11 +#define DDR_PHY_DX7GCR0_RTTOAL_MASK 0x00000800U + +/*RTT Output Hold*/ +#undef DDR_PHY_DX7GCR0_RTTOH_DEFVAL +#undef DDR_PHY_DX7GCR0_RTTOH_SHIFT +#undef DDR_PHY_DX7GCR0_RTTOH_MASK +#define DDR_PHY_DX7GCR0_RTTOH_DEFVAL 0x40200204 +#define DDR_PHY_DX7GCR0_RTTOH_SHIFT 9 +#define DDR_PHY_DX7GCR0_RTTOH_MASK 0x00000600U + +/*Configurable PDR Phase Shift*/ +#undef DDR_PHY_DX7GCR0_CPDRSHFT_DEFVAL +#undef DDR_PHY_DX7GCR0_CPDRSHFT_SHIFT +#undef DDR_PHY_DX7GCR0_CPDRSHFT_MASK +#define DDR_PHY_DX7GCR0_CPDRSHFT_DEFVAL 0x40200204 +#define DDR_PHY_DX7GCR0_CPDRSHFT_SHIFT 7 +#define DDR_PHY_DX7GCR0_CPDRSHFT_MASK 0x00000180U + +/*DQSR Power Down*/ +#undef DDR_PHY_DX7GCR0_DQSRPD_DEFVAL +#undef DDR_PHY_DX7GCR0_DQSRPD_SHIFT +#undef DDR_PHY_DX7GCR0_DQSRPD_MASK +#define DDR_PHY_DX7GCR0_DQSRPD_DEFVAL 0x40200204 +#define DDR_PHY_DX7GCR0_DQSRPD_SHIFT 6 +#define DDR_PHY_DX7GCR0_DQSRPD_MASK 0x00000040U + +/*DQSG Power Down Receiver*/ +#undef DDR_PHY_DX7GCR0_DQSGPDR_DEFVAL +#undef DDR_PHY_DX7GCR0_DQSGPDR_SHIFT +#undef DDR_PHY_DX7GCR0_DQSGPDR_MASK +#define DDR_PHY_DX7GCR0_DQSGPDR_DEFVAL 0x40200204 +#define DDR_PHY_DX7GCR0_DQSGPDR_SHIFT 5 +#define DDR_PHY_DX7GCR0_DQSGPDR_MASK 0x00000020U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX7GCR0_RESERVED_4_DEFVAL +#undef DDR_PHY_DX7GCR0_RESERVED_4_SHIFT +#undef DDR_PHY_DX7GCR0_RESERVED_4_MASK +#define DDR_PHY_DX7GCR0_RESERVED_4_DEFVAL 0x40200204 +#define DDR_PHY_DX7GCR0_RESERVED_4_SHIFT 4 +#define DDR_PHY_DX7GCR0_RESERVED_4_MASK 0x00000010U + +/*DQSG On-Die Termination*/ +#undef DDR_PHY_DX7GCR0_DQSGODT_DEFVAL +#undef DDR_PHY_DX7GCR0_DQSGODT_SHIFT +#undef DDR_PHY_DX7GCR0_DQSGODT_MASK +#define DDR_PHY_DX7GCR0_DQSGODT_DEFVAL 0x40200204 +#define DDR_PHY_DX7GCR0_DQSGODT_SHIFT 3 +#define DDR_PHY_DX7GCR0_DQSGODT_MASK 0x00000008U + +/*DQSG Output Enable*/ +#undef DDR_PHY_DX7GCR0_DQSGOE_DEFVAL +#undef DDR_PHY_DX7GCR0_DQSGOE_SHIFT +#undef DDR_PHY_DX7GCR0_DQSGOE_MASK +#define DDR_PHY_DX7GCR0_DQSGOE_DEFVAL 0x40200204 +#define DDR_PHY_DX7GCR0_DQSGOE_SHIFT 2 +#define DDR_PHY_DX7GCR0_DQSGOE_MASK 0x00000004U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX7GCR0_RESERVED_1_0_DEFVAL +#undef DDR_PHY_DX7GCR0_RESERVED_1_0_SHIFT +#undef DDR_PHY_DX7GCR0_RESERVED_1_0_MASK +#define DDR_PHY_DX7GCR0_RESERVED_1_0_DEFVAL 0x40200204 +#define DDR_PHY_DX7GCR0_RESERVED_1_0_SHIFT 0 +#define DDR_PHY_DX7GCR0_RESERVED_1_0_MASK 0x00000003U + +/*Enables the PDR mode for DQ[7:0]*/ +#undef DDR_PHY_DX7GCR1_DXPDRMODE_DEFVAL +#undef DDR_PHY_DX7GCR1_DXPDRMODE_SHIFT +#undef DDR_PHY_DX7GCR1_DXPDRMODE_MASK +#define DDR_PHY_DX7GCR1_DXPDRMODE_DEFVAL 0x00007FFF +#define DDR_PHY_DX7GCR1_DXPDRMODE_SHIFT 16 +#define DDR_PHY_DX7GCR1_DXPDRMODE_MASK 0xFFFF0000U + +/*Reserved. Returns zeroes on reads.*/ +#undef DDR_PHY_DX7GCR1_RESERVED_15_DEFVAL +#undef DDR_PHY_DX7GCR1_RESERVED_15_SHIFT +#undef DDR_PHY_DX7GCR1_RESERVED_15_MASK +#define DDR_PHY_DX7GCR1_RESERVED_15_DEFVAL 0x00007FFF +#define DDR_PHY_DX7GCR1_RESERVED_15_SHIFT 15 +#define DDR_PHY_DX7GCR1_RESERVED_15_MASK 0x00008000U + +/*Select the delayed or non-delayed read data strobe #*/ +#undef DDR_PHY_DX7GCR1_QSNSEL_DEFVAL +#undef DDR_PHY_DX7GCR1_QSNSEL_SHIFT +#undef DDR_PHY_DX7GCR1_QSNSEL_MASK +#define DDR_PHY_DX7GCR1_QSNSEL_DEFVAL 0x00007FFF +#define DDR_PHY_DX7GCR1_QSNSEL_SHIFT 14 +#define DDR_PHY_DX7GCR1_QSNSEL_MASK 0x00004000U + +/*Select the delayed or non-delayed read data strobe*/ +#undef DDR_PHY_DX7GCR1_QSSEL_DEFVAL +#undef DDR_PHY_DX7GCR1_QSSEL_SHIFT +#undef DDR_PHY_DX7GCR1_QSSEL_MASK +#define DDR_PHY_DX7GCR1_QSSEL_DEFVAL 0x00007FFF +#define DDR_PHY_DX7GCR1_QSSEL_SHIFT 13 +#define DDR_PHY_DX7GCR1_QSSEL_MASK 0x00002000U + +/*Enables Read Data Strobe in a byte lane*/ +#undef DDR_PHY_DX7GCR1_OEEN_DEFVAL +#undef DDR_PHY_DX7GCR1_OEEN_SHIFT +#undef DDR_PHY_DX7GCR1_OEEN_MASK +#define DDR_PHY_DX7GCR1_OEEN_DEFVAL 0x00007FFF +#define DDR_PHY_DX7GCR1_OEEN_SHIFT 12 +#define DDR_PHY_DX7GCR1_OEEN_MASK 0x00001000U + +/*Enables PDR in a byte lane*/ +#undef DDR_PHY_DX7GCR1_PDREN_DEFVAL +#undef DDR_PHY_DX7GCR1_PDREN_SHIFT +#undef DDR_PHY_DX7GCR1_PDREN_MASK +#define DDR_PHY_DX7GCR1_PDREN_DEFVAL 0x00007FFF +#define DDR_PHY_DX7GCR1_PDREN_SHIFT 11 +#define DDR_PHY_DX7GCR1_PDREN_MASK 0x00000800U + +/*Enables ODT/TE in a byte lane*/ +#undef DDR_PHY_DX7GCR1_TEEN_DEFVAL +#undef DDR_PHY_DX7GCR1_TEEN_SHIFT +#undef DDR_PHY_DX7GCR1_TEEN_MASK +#define DDR_PHY_DX7GCR1_TEEN_DEFVAL 0x00007FFF +#define DDR_PHY_DX7GCR1_TEEN_SHIFT 10 +#define DDR_PHY_DX7GCR1_TEEN_MASK 0x00000400U + +/*Enables Write Data strobe in a byte lane*/ +#undef DDR_PHY_DX7GCR1_DSEN_DEFVAL +#undef DDR_PHY_DX7GCR1_DSEN_SHIFT +#undef DDR_PHY_DX7GCR1_DSEN_MASK +#define DDR_PHY_DX7GCR1_DSEN_DEFVAL 0x00007FFF +#define DDR_PHY_DX7GCR1_DSEN_SHIFT 9 +#define DDR_PHY_DX7GCR1_DSEN_MASK 0x00000200U + +/*Enables DM pin in a byte lane*/ +#undef DDR_PHY_DX7GCR1_DMEN_DEFVAL +#undef DDR_PHY_DX7GCR1_DMEN_SHIFT +#undef DDR_PHY_DX7GCR1_DMEN_MASK +#define DDR_PHY_DX7GCR1_DMEN_DEFVAL 0x00007FFF +#define DDR_PHY_DX7GCR1_DMEN_SHIFT 8 +#define DDR_PHY_DX7GCR1_DMEN_MASK 0x00000100U + +/*Enables DQ corresponding to each bit in a byte*/ +#undef DDR_PHY_DX7GCR1_DQEN_DEFVAL +#undef DDR_PHY_DX7GCR1_DQEN_SHIFT +#undef DDR_PHY_DX7GCR1_DQEN_MASK +#define DDR_PHY_DX7GCR1_DQEN_DEFVAL 0x00007FFF +#define DDR_PHY_DX7GCR1_DQEN_SHIFT 0 +#define DDR_PHY_DX7GCR1_DQEN_MASK 0x000000FFU + +/*Byte lane VREF IOM (Used only by D4MU IOs)*/ +#undef DDR_PHY_DX7GCR4_RESERVED_31_29_DEFVAL +#undef DDR_PHY_DX7GCR4_RESERVED_31_29_SHIFT +#undef DDR_PHY_DX7GCR4_RESERVED_31_29_MASK +#define DDR_PHY_DX7GCR4_RESERVED_31_29_DEFVAL 0x0E00003C +#define DDR_PHY_DX7GCR4_RESERVED_31_29_SHIFT 29 +#define DDR_PHY_DX7GCR4_RESERVED_31_29_MASK 0xE0000000U + +/*Byte Lane VREF Pad Enable*/ +#undef DDR_PHY_DX7GCR4_DXREFPEN_DEFVAL +#undef DDR_PHY_DX7GCR4_DXREFPEN_SHIFT +#undef DDR_PHY_DX7GCR4_DXREFPEN_MASK +#define DDR_PHY_DX7GCR4_DXREFPEN_DEFVAL 0x0E00003C +#define DDR_PHY_DX7GCR4_DXREFPEN_SHIFT 28 +#define DDR_PHY_DX7GCR4_DXREFPEN_MASK 0x10000000U + +/*Byte Lane Internal VREF Enable*/ +#undef DDR_PHY_DX7GCR4_DXREFEEN_DEFVAL +#undef DDR_PHY_DX7GCR4_DXREFEEN_SHIFT +#undef DDR_PHY_DX7GCR4_DXREFEEN_MASK +#define DDR_PHY_DX7GCR4_DXREFEEN_DEFVAL 0x0E00003C +#define DDR_PHY_DX7GCR4_DXREFEEN_SHIFT 26 +#define DDR_PHY_DX7GCR4_DXREFEEN_MASK 0x0C000000U + +/*Byte Lane Single-End VREF Enable*/ +#undef DDR_PHY_DX7GCR4_DXREFSEN_DEFVAL +#undef DDR_PHY_DX7GCR4_DXREFSEN_SHIFT +#undef DDR_PHY_DX7GCR4_DXREFSEN_MASK +#define DDR_PHY_DX7GCR4_DXREFSEN_DEFVAL 0x0E00003C +#define DDR_PHY_DX7GCR4_DXREFSEN_SHIFT 25 +#define DDR_PHY_DX7GCR4_DXREFSEN_MASK 0x02000000U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX7GCR4_RESERVED_24_DEFVAL +#undef DDR_PHY_DX7GCR4_RESERVED_24_SHIFT +#undef DDR_PHY_DX7GCR4_RESERVED_24_MASK +#define DDR_PHY_DX7GCR4_RESERVED_24_DEFVAL 0x0E00003C +#define DDR_PHY_DX7GCR4_RESERVED_24_SHIFT 24 +#define DDR_PHY_DX7GCR4_RESERVED_24_MASK 0x01000000U + +/*External VREF generator REFSEL range select*/ +#undef DDR_PHY_DX7GCR4_DXREFESELRANGE_DEFVAL +#undef DDR_PHY_DX7GCR4_DXREFESELRANGE_SHIFT +#undef DDR_PHY_DX7GCR4_DXREFESELRANGE_MASK +#define DDR_PHY_DX7GCR4_DXREFESELRANGE_DEFVAL 0x0E00003C +#define DDR_PHY_DX7GCR4_DXREFESELRANGE_SHIFT 23 +#define DDR_PHY_DX7GCR4_DXREFESELRANGE_MASK 0x00800000U + +/*Byte Lane External VREF Select*/ +#undef DDR_PHY_DX7GCR4_DXREFESEL_DEFVAL +#undef DDR_PHY_DX7GCR4_DXREFESEL_SHIFT +#undef DDR_PHY_DX7GCR4_DXREFESEL_MASK +#define DDR_PHY_DX7GCR4_DXREFESEL_DEFVAL 0x0E00003C +#define DDR_PHY_DX7GCR4_DXREFESEL_SHIFT 16 +#define DDR_PHY_DX7GCR4_DXREFESEL_MASK 0x007F0000U + +/*Single ended VREF generator REFSEL range select*/ +#undef DDR_PHY_DX7GCR4_DXREFSSELRANGE_DEFVAL +#undef DDR_PHY_DX7GCR4_DXREFSSELRANGE_SHIFT +#undef DDR_PHY_DX7GCR4_DXREFSSELRANGE_MASK +#define DDR_PHY_DX7GCR4_DXREFSSELRANGE_DEFVAL 0x0E00003C +#define DDR_PHY_DX7GCR4_DXREFSSELRANGE_SHIFT 15 +#define DDR_PHY_DX7GCR4_DXREFSSELRANGE_MASK 0x00008000U + +/*Byte Lane Single-End VREF Select*/ +#undef DDR_PHY_DX7GCR4_DXREFSSEL_DEFVAL +#undef DDR_PHY_DX7GCR4_DXREFSSEL_SHIFT +#undef DDR_PHY_DX7GCR4_DXREFSSEL_MASK +#define DDR_PHY_DX7GCR4_DXREFSSEL_DEFVAL 0x0E00003C +#define DDR_PHY_DX7GCR4_DXREFSSEL_SHIFT 8 +#define DDR_PHY_DX7GCR4_DXREFSSEL_MASK 0x00007F00U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX7GCR4_RESERVED_7_6_DEFVAL +#undef DDR_PHY_DX7GCR4_RESERVED_7_6_SHIFT +#undef DDR_PHY_DX7GCR4_RESERVED_7_6_MASK +#define DDR_PHY_DX7GCR4_RESERVED_7_6_DEFVAL 0x0E00003C +#define DDR_PHY_DX7GCR4_RESERVED_7_6_SHIFT 6 +#define DDR_PHY_DX7GCR4_RESERVED_7_6_MASK 0x000000C0U + +/*VREF Enable control for DQ IO (Single Ended) buffers of a byte lane.*/ +#undef DDR_PHY_DX7GCR4_DXREFIEN_DEFVAL +#undef DDR_PHY_DX7GCR4_DXREFIEN_SHIFT +#undef DDR_PHY_DX7GCR4_DXREFIEN_MASK +#define DDR_PHY_DX7GCR4_DXREFIEN_DEFVAL 0x0E00003C +#define DDR_PHY_DX7GCR4_DXREFIEN_SHIFT 2 +#define DDR_PHY_DX7GCR4_DXREFIEN_MASK 0x0000003CU + +/*VRMON control for DQ IO (Single Ended) buffers of a byte lane.*/ +#undef DDR_PHY_DX7GCR4_DXREFIMON_DEFVAL +#undef DDR_PHY_DX7GCR4_DXREFIMON_SHIFT +#undef DDR_PHY_DX7GCR4_DXREFIMON_MASK +#define DDR_PHY_DX7GCR4_DXREFIMON_DEFVAL 0x0E00003C +#define DDR_PHY_DX7GCR4_DXREFIMON_SHIFT 0 +#define DDR_PHY_DX7GCR4_DXREFIMON_MASK 0x00000003U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX7GCR5_RESERVED_31_DEFVAL +#undef DDR_PHY_DX7GCR5_RESERVED_31_SHIFT +#undef DDR_PHY_DX7GCR5_RESERVED_31_MASK +#define DDR_PHY_DX7GCR5_RESERVED_31_DEFVAL 0x09090909 +#define DDR_PHY_DX7GCR5_RESERVED_31_SHIFT 31 +#define DDR_PHY_DX7GCR5_RESERVED_31_MASK 0x80000000U + +/*Byte Lane internal VREF Select for Rank 3*/ +#undef DDR_PHY_DX7GCR5_DXREFISELR3_DEFVAL +#undef DDR_PHY_DX7GCR5_DXREFISELR3_SHIFT +#undef DDR_PHY_DX7GCR5_DXREFISELR3_MASK +#define DDR_PHY_DX7GCR5_DXREFISELR3_DEFVAL 0x09090909 +#define DDR_PHY_DX7GCR5_DXREFISELR3_SHIFT 24 +#define DDR_PHY_DX7GCR5_DXREFISELR3_MASK 0x7F000000U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX7GCR5_RESERVED_23_DEFVAL +#undef DDR_PHY_DX7GCR5_RESERVED_23_SHIFT +#undef DDR_PHY_DX7GCR5_RESERVED_23_MASK +#define DDR_PHY_DX7GCR5_RESERVED_23_DEFVAL 0x09090909 +#define DDR_PHY_DX7GCR5_RESERVED_23_SHIFT 23 +#define DDR_PHY_DX7GCR5_RESERVED_23_MASK 0x00800000U + +/*Byte Lane internal VREF Select for Rank 2*/ +#undef DDR_PHY_DX7GCR5_DXREFISELR2_DEFVAL +#undef DDR_PHY_DX7GCR5_DXREFISELR2_SHIFT +#undef DDR_PHY_DX7GCR5_DXREFISELR2_MASK +#define DDR_PHY_DX7GCR5_DXREFISELR2_DEFVAL 0x09090909 +#define DDR_PHY_DX7GCR5_DXREFISELR2_SHIFT 16 +#define DDR_PHY_DX7GCR5_DXREFISELR2_MASK 0x007F0000U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX7GCR5_RESERVED_15_DEFVAL +#undef DDR_PHY_DX7GCR5_RESERVED_15_SHIFT +#undef DDR_PHY_DX7GCR5_RESERVED_15_MASK +#define DDR_PHY_DX7GCR5_RESERVED_15_DEFVAL 0x09090909 +#define DDR_PHY_DX7GCR5_RESERVED_15_SHIFT 15 +#define DDR_PHY_DX7GCR5_RESERVED_15_MASK 0x00008000U + +/*Byte Lane internal VREF Select for Rank 1*/ +#undef DDR_PHY_DX7GCR5_DXREFISELR1_DEFVAL +#undef DDR_PHY_DX7GCR5_DXREFISELR1_SHIFT +#undef DDR_PHY_DX7GCR5_DXREFISELR1_MASK +#define DDR_PHY_DX7GCR5_DXREFISELR1_DEFVAL 0x09090909 +#define DDR_PHY_DX7GCR5_DXREFISELR1_SHIFT 8 +#define DDR_PHY_DX7GCR5_DXREFISELR1_MASK 0x00007F00U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX7GCR5_RESERVED_7_DEFVAL +#undef DDR_PHY_DX7GCR5_RESERVED_7_SHIFT +#undef DDR_PHY_DX7GCR5_RESERVED_7_MASK +#define DDR_PHY_DX7GCR5_RESERVED_7_DEFVAL 0x09090909 +#define DDR_PHY_DX7GCR5_RESERVED_7_SHIFT 7 +#define DDR_PHY_DX7GCR5_RESERVED_7_MASK 0x00000080U + +/*Byte Lane internal VREF Select for Rank 0*/ +#undef DDR_PHY_DX7GCR5_DXREFISELR0_DEFVAL +#undef DDR_PHY_DX7GCR5_DXREFISELR0_SHIFT +#undef DDR_PHY_DX7GCR5_DXREFISELR0_MASK +#define DDR_PHY_DX7GCR5_DXREFISELR0_DEFVAL 0x09090909 +#define DDR_PHY_DX7GCR5_DXREFISELR0_SHIFT 0 +#define DDR_PHY_DX7GCR5_DXREFISELR0_MASK 0x0000007FU + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX7GCR6_RESERVED_31_30_DEFVAL +#undef DDR_PHY_DX7GCR6_RESERVED_31_30_SHIFT +#undef DDR_PHY_DX7GCR6_RESERVED_31_30_MASK +#define DDR_PHY_DX7GCR6_RESERVED_31_30_DEFVAL 0x09090909 +#define DDR_PHY_DX7GCR6_RESERVED_31_30_SHIFT 30 +#define DDR_PHY_DX7GCR6_RESERVED_31_30_MASK 0xC0000000U + +/*DRAM DQ VREF Select for Rank3*/ +#undef DDR_PHY_DX7GCR6_DXDQVREFR3_DEFVAL +#undef DDR_PHY_DX7GCR6_DXDQVREFR3_SHIFT +#undef DDR_PHY_DX7GCR6_DXDQVREFR3_MASK +#define DDR_PHY_DX7GCR6_DXDQVREFR3_DEFVAL 0x09090909 +#define DDR_PHY_DX7GCR6_DXDQVREFR3_SHIFT 24 +#define DDR_PHY_DX7GCR6_DXDQVREFR3_MASK 0x3F000000U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX7GCR6_RESERVED_23_22_DEFVAL +#undef DDR_PHY_DX7GCR6_RESERVED_23_22_SHIFT +#undef DDR_PHY_DX7GCR6_RESERVED_23_22_MASK +#define DDR_PHY_DX7GCR6_RESERVED_23_22_DEFVAL 0x09090909 +#define DDR_PHY_DX7GCR6_RESERVED_23_22_SHIFT 22 +#define DDR_PHY_DX7GCR6_RESERVED_23_22_MASK 0x00C00000U + +/*DRAM DQ VREF Select for Rank2*/ +#undef DDR_PHY_DX7GCR6_DXDQVREFR2_DEFVAL +#undef DDR_PHY_DX7GCR6_DXDQVREFR2_SHIFT +#undef DDR_PHY_DX7GCR6_DXDQVREFR2_MASK +#define DDR_PHY_DX7GCR6_DXDQVREFR2_DEFVAL 0x09090909 +#define DDR_PHY_DX7GCR6_DXDQVREFR2_SHIFT 16 +#define DDR_PHY_DX7GCR6_DXDQVREFR2_MASK 0x003F0000U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX7GCR6_RESERVED_15_14_DEFVAL +#undef DDR_PHY_DX7GCR6_RESERVED_15_14_SHIFT +#undef DDR_PHY_DX7GCR6_RESERVED_15_14_MASK +#define DDR_PHY_DX7GCR6_RESERVED_15_14_DEFVAL 0x09090909 +#define DDR_PHY_DX7GCR6_RESERVED_15_14_SHIFT 14 +#define DDR_PHY_DX7GCR6_RESERVED_15_14_MASK 0x0000C000U + +/*DRAM DQ VREF Select for Rank1*/ +#undef DDR_PHY_DX7GCR6_DXDQVREFR1_DEFVAL +#undef DDR_PHY_DX7GCR6_DXDQVREFR1_SHIFT +#undef DDR_PHY_DX7GCR6_DXDQVREFR1_MASK +#define DDR_PHY_DX7GCR6_DXDQVREFR1_DEFVAL 0x09090909 +#define DDR_PHY_DX7GCR6_DXDQVREFR1_SHIFT 8 +#define DDR_PHY_DX7GCR6_DXDQVREFR1_MASK 0x00003F00U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX7GCR6_RESERVED_7_6_DEFVAL +#undef DDR_PHY_DX7GCR6_RESERVED_7_6_SHIFT +#undef DDR_PHY_DX7GCR6_RESERVED_7_6_MASK +#define DDR_PHY_DX7GCR6_RESERVED_7_6_DEFVAL 0x09090909 +#define DDR_PHY_DX7GCR6_RESERVED_7_6_SHIFT 6 +#define DDR_PHY_DX7GCR6_RESERVED_7_6_MASK 0x000000C0U + +/*DRAM DQ VREF Select for Rank0*/ +#undef DDR_PHY_DX7GCR6_DXDQVREFR0_DEFVAL +#undef DDR_PHY_DX7GCR6_DXDQVREFR0_SHIFT +#undef DDR_PHY_DX7GCR6_DXDQVREFR0_MASK +#define DDR_PHY_DX7GCR6_DXDQVREFR0_DEFVAL 0x09090909 +#define DDR_PHY_DX7GCR6_DXDQVREFR0_SHIFT 0 +#define DDR_PHY_DX7GCR6_DXDQVREFR0_MASK 0x0000003FU + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX7LCDLR2_RESERVED_31_25_DEFVAL +#undef DDR_PHY_DX7LCDLR2_RESERVED_31_25_SHIFT +#undef DDR_PHY_DX7LCDLR2_RESERVED_31_25_MASK +#define DDR_PHY_DX7LCDLR2_RESERVED_31_25_DEFVAL 0x00000000 +#define DDR_PHY_DX7LCDLR2_RESERVED_31_25_SHIFT 25 +#define DDR_PHY_DX7LCDLR2_RESERVED_31_25_MASK 0xFE000000U + +/*Reserved. Caution, do not write to this register field.*/ +#undef DDR_PHY_DX7LCDLR2_RESERVED_24_16_DEFVAL +#undef DDR_PHY_DX7LCDLR2_RESERVED_24_16_SHIFT +#undef DDR_PHY_DX7LCDLR2_RESERVED_24_16_MASK +#define DDR_PHY_DX7LCDLR2_RESERVED_24_16_DEFVAL 0x00000000 +#define DDR_PHY_DX7LCDLR2_RESERVED_24_16_SHIFT 16 +#define DDR_PHY_DX7LCDLR2_RESERVED_24_16_MASK 0x01FF0000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX7LCDLR2_RESERVED_15_9_DEFVAL +#undef DDR_PHY_DX7LCDLR2_RESERVED_15_9_SHIFT +#undef DDR_PHY_DX7LCDLR2_RESERVED_15_9_MASK +#define DDR_PHY_DX7LCDLR2_RESERVED_15_9_DEFVAL 0x00000000 +#define DDR_PHY_DX7LCDLR2_RESERVED_15_9_SHIFT 9 +#define DDR_PHY_DX7LCDLR2_RESERVED_15_9_MASK 0x0000FE00U + +/*Read DQS Gating Delay*/ +#undef DDR_PHY_DX7LCDLR2_DQSGD_DEFVAL +#undef DDR_PHY_DX7LCDLR2_DQSGD_SHIFT +#undef DDR_PHY_DX7LCDLR2_DQSGD_MASK +#define DDR_PHY_DX7LCDLR2_DQSGD_DEFVAL 0x00000000 +#define DDR_PHY_DX7LCDLR2_DQSGD_SHIFT 0 +#define DDR_PHY_DX7LCDLR2_DQSGD_MASK 0x000001FFU + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX7GTR0_RESERVED_31_24_DEFVAL +#undef DDR_PHY_DX7GTR0_RESERVED_31_24_SHIFT +#undef DDR_PHY_DX7GTR0_RESERVED_31_24_MASK +#define DDR_PHY_DX7GTR0_RESERVED_31_24_DEFVAL 0x00020000 +#define DDR_PHY_DX7GTR0_RESERVED_31_24_SHIFT 27 +#define DDR_PHY_DX7GTR0_RESERVED_31_24_MASK 0xF8000000U + +/*DQ Write Path Latency Pipeline*/ +#undef DDR_PHY_DX7GTR0_WDQSL_DEFVAL +#undef DDR_PHY_DX7GTR0_WDQSL_SHIFT +#undef DDR_PHY_DX7GTR0_WDQSL_MASK +#define DDR_PHY_DX7GTR0_WDQSL_DEFVAL 0x00020000 +#define DDR_PHY_DX7GTR0_WDQSL_SHIFT 24 +#define DDR_PHY_DX7GTR0_WDQSL_MASK 0x07000000U + +/*Reserved. Caution, do not write to this register field.*/ +#undef DDR_PHY_DX7GTR0_RESERVED_23_20_DEFVAL +#undef DDR_PHY_DX7GTR0_RESERVED_23_20_SHIFT +#undef DDR_PHY_DX7GTR0_RESERVED_23_20_MASK +#define DDR_PHY_DX7GTR0_RESERVED_23_20_DEFVAL 0x00020000 +#define DDR_PHY_DX7GTR0_RESERVED_23_20_SHIFT 20 +#define DDR_PHY_DX7GTR0_RESERVED_23_20_MASK 0x00F00000U + +/*Write Leveling System Latency*/ +#undef DDR_PHY_DX7GTR0_WLSL_DEFVAL +#undef DDR_PHY_DX7GTR0_WLSL_SHIFT +#undef DDR_PHY_DX7GTR0_WLSL_MASK +#define DDR_PHY_DX7GTR0_WLSL_DEFVAL 0x00020000 +#define DDR_PHY_DX7GTR0_WLSL_SHIFT 16 +#define DDR_PHY_DX7GTR0_WLSL_MASK 0x000F0000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX7GTR0_RESERVED_15_13_DEFVAL +#undef DDR_PHY_DX7GTR0_RESERVED_15_13_SHIFT +#undef DDR_PHY_DX7GTR0_RESERVED_15_13_MASK +#define DDR_PHY_DX7GTR0_RESERVED_15_13_DEFVAL 0x00020000 +#define DDR_PHY_DX7GTR0_RESERVED_15_13_SHIFT 13 +#define DDR_PHY_DX7GTR0_RESERVED_15_13_MASK 0x0000E000U + +/*Reserved. Caution, do not write to this register field.*/ +#undef DDR_PHY_DX7GTR0_RESERVED_12_8_DEFVAL +#undef DDR_PHY_DX7GTR0_RESERVED_12_8_SHIFT +#undef DDR_PHY_DX7GTR0_RESERVED_12_8_MASK +#define DDR_PHY_DX7GTR0_RESERVED_12_8_DEFVAL 0x00020000 +#define DDR_PHY_DX7GTR0_RESERVED_12_8_SHIFT 8 +#define DDR_PHY_DX7GTR0_RESERVED_12_8_MASK 0x00001F00U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX7GTR0_RESERVED_7_5_DEFVAL +#undef DDR_PHY_DX7GTR0_RESERVED_7_5_SHIFT +#undef DDR_PHY_DX7GTR0_RESERVED_7_5_MASK +#define DDR_PHY_DX7GTR0_RESERVED_7_5_DEFVAL 0x00020000 +#define DDR_PHY_DX7GTR0_RESERVED_7_5_SHIFT 5 +#define DDR_PHY_DX7GTR0_RESERVED_7_5_MASK 0x000000E0U + +/*DQS Gating System Latency*/ +#undef DDR_PHY_DX7GTR0_DGSL_DEFVAL +#undef DDR_PHY_DX7GTR0_DGSL_SHIFT +#undef DDR_PHY_DX7GTR0_DGSL_MASK +#define DDR_PHY_DX7GTR0_DGSL_DEFVAL 0x00020000 +#define DDR_PHY_DX7GTR0_DGSL_SHIFT 0 +#define DDR_PHY_DX7GTR0_DGSL_MASK 0x0000001FU + +/*Calibration Bypass*/ +#undef DDR_PHY_DX8GCR0_CALBYP_DEFVAL +#undef DDR_PHY_DX8GCR0_CALBYP_SHIFT +#undef DDR_PHY_DX8GCR0_CALBYP_MASK +#define DDR_PHY_DX8GCR0_CALBYP_DEFVAL 0x40200204 +#define DDR_PHY_DX8GCR0_CALBYP_SHIFT 31 +#define DDR_PHY_DX8GCR0_CALBYP_MASK 0x80000000U + +/*Master Delay Line Enable*/ +#undef DDR_PHY_DX8GCR0_MDLEN_DEFVAL +#undef DDR_PHY_DX8GCR0_MDLEN_SHIFT +#undef DDR_PHY_DX8GCR0_MDLEN_MASK +#define DDR_PHY_DX8GCR0_MDLEN_DEFVAL 0x40200204 +#define DDR_PHY_DX8GCR0_MDLEN_SHIFT 30 +#define DDR_PHY_DX8GCR0_MDLEN_MASK 0x40000000U + +/*Configurable ODT(TE) Phase Shift*/ +#undef DDR_PHY_DX8GCR0_CODTSHFT_DEFVAL +#undef DDR_PHY_DX8GCR0_CODTSHFT_SHIFT +#undef DDR_PHY_DX8GCR0_CODTSHFT_MASK +#define DDR_PHY_DX8GCR0_CODTSHFT_DEFVAL 0x40200204 +#define DDR_PHY_DX8GCR0_CODTSHFT_SHIFT 28 +#define DDR_PHY_DX8GCR0_CODTSHFT_MASK 0x30000000U + +/*DQS Duty Cycle Correction*/ +#undef DDR_PHY_DX8GCR0_DQSDCC_DEFVAL +#undef DDR_PHY_DX8GCR0_DQSDCC_SHIFT +#undef DDR_PHY_DX8GCR0_DQSDCC_MASK +#define DDR_PHY_DX8GCR0_DQSDCC_DEFVAL 0x40200204 +#define DDR_PHY_DX8GCR0_DQSDCC_SHIFT 24 +#define DDR_PHY_DX8GCR0_DQSDCC_MASK 0x0F000000U + +/*Number of Cycles ( in terms of ctl_clk) to generate ctl_dx_get_static_rd input for the respective bypte lane of the PHY*/ +#undef DDR_PHY_DX8GCR0_RDDLY_DEFVAL +#undef DDR_PHY_DX8GCR0_RDDLY_SHIFT +#undef DDR_PHY_DX8GCR0_RDDLY_MASK +#define DDR_PHY_DX8GCR0_RDDLY_DEFVAL 0x40200204 +#define DDR_PHY_DX8GCR0_RDDLY_SHIFT 20 +#define DDR_PHY_DX8GCR0_RDDLY_MASK 0x00F00000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8GCR0_RESERVED_19_14_DEFVAL +#undef DDR_PHY_DX8GCR0_RESERVED_19_14_SHIFT +#undef DDR_PHY_DX8GCR0_RESERVED_19_14_MASK +#define DDR_PHY_DX8GCR0_RESERVED_19_14_DEFVAL 0x40200204 +#define DDR_PHY_DX8GCR0_RESERVED_19_14_SHIFT 14 +#define DDR_PHY_DX8GCR0_RESERVED_19_14_MASK 0x000FC000U + +/*DQSNSE Power Down Receiver*/ +#undef DDR_PHY_DX8GCR0_DQSNSEPDR_DEFVAL +#undef DDR_PHY_DX8GCR0_DQSNSEPDR_SHIFT +#undef DDR_PHY_DX8GCR0_DQSNSEPDR_MASK +#define DDR_PHY_DX8GCR0_DQSNSEPDR_DEFVAL 0x40200204 +#define DDR_PHY_DX8GCR0_DQSNSEPDR_SHIFT 13 +#define DDR_PHY_DX8GCR0_DQSNSEPDR_MASK 0x00002000U + +/*DQSSE Power Down Receiver*/ +#undef DDR_PHY_DX8GCR0_DQSSEPDR_DEFVAL +#undef DDR_PHY_DX8GCR0_DQSSEPDR_SHIFT +#undef DDR_PHY_DX8GCR0_DQSSEPDR_MASK +#define DDR_PHY_DX8GCR0_DQSSEPDR_DEFVAL 0x40200204 +#define DDR_PHY_DX8GCR0_DQSSEPDR_SHIFT 12 +#define DDR_PHY_DX8GCR0_DQSSEPDR_MASK 0x00001000U + +/*RTT On Additive Latency*/ +#undef DDR_PHY_DX8GCR0_RTTOAL_DEFVAL +#undef DDR_PHY_DX8GCR0_RTTOAL_SHIFT +#undef DDR_PHY_DX8GCR0_RTTOAL_MASK +#define DDR_PHY_DX8GCR0_RTTOAL_DEFVAL 0x40200204 +#define DDR_PHY_DX8GCR0_RTTOAL_SHIFT 11 +#define DDR_PHY_DX8GCR0_RTTOAL_MASK 0x00000800U + +/*RTT Output Hold*/ +#undef DDR_PHY_DX8GCR0_RTTOH_DEFVAL +#undef DDR_PHY_DX8GCR0_RTTOH_SHIFT +#undef DDR_PHY_DX8GCR0_RTTOH_MASK +#define DDR_PHY_DX8GCR0_RTTOH_DEFVAL 0x40200204 +#define DDR_PHY_DX8GCR0_RTTOH_SHIFT 9 +#define DDR_PHY_DX8GCR0_RTTOH_MASK 0x00000600U + +/*Configurable PDR Phase Shift*/ +#undef DDR_PHY_DX8GCR0_CPDRSHFT_DEFVAL +#undef DDR_PHY_DX8GCR0_CPDRSHFT_SHIFT +#undef DDR_PHY_DX8GCR0_CPDRSHFT_MASK +#define DDR_PHY_DX8GCR0_CPDRSHFT_DEFVAL 0x40200204 +#define DDR_PHY_DX8GCR0_CPDRSHFT_SHIFT 7 +#define DDR_PHY_DX8GCR0_CPDRSHFT_MASK 0x00000180U + +/*DQSR Power Down*/ +#undef DDR_PHY_DX8GCR0_DQSRPD_DEFVAL +#undef DDR_PHY_DX8GCR0_DQSRPD_SHIFT +#undef DDR_PHY_DX8GCR0_DQSRPD_MASK +#define DDR_PHY_DX8GCR0_DQSRPD_DEFVAL 0x40200204 +#define DDR_PHY_DX8GCR0_DQSRPD_SHIFT 6 +#define DDR_PHY_DX8GCR0_DQSRPD_MASK 0x00000040U + +/*DQSG Power Down Receiver*/ +#undef DDR_PHY_DX8GCR0_DQSGPDR_DEFVAL +#undef DDR_PHY_DX8GCR0_DQSGPDR_SHIFT +#undef DDR_PHY_DX8GCR0_DQSGPDR_MASK +#define DDR_PHY_DX8GCR0_DQSGPDR_DEFVAL 0x40200204 +#define DDR_PHY_DX8GCR0_DQSGPDR_SHIFT 5 +#define DDR_PHY_DX8GCR0_DQSGPDR_MASK 0x00000020U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8GCR0_RESERVED_4_DEFVAL +#undef DDR_PHY_DX8GCR0_RESERVED_4_SHIFT +#undef DDR_PHY_DX8GCR0_RESERVED_4_MASK +#define DDR_PHY_DX8GCR0_RESERVED_4_DEFVAL 0x40200204 +#define DDR_PHY_DX8GCR0_RESERVED_4_SHIFT 4 +#define DDR_PHY_DX8GCR0_RESERVED_4_MASK 0x00000010U + +/*DQSG On-Die Termination*/ +#undef DDR_PHY_DX8GCR0_DQSGODT_DEFVAL +#undef DDR_PHY_DX8GCR0_DQSGODT_SHIFT +#undef DDR_PHY_DX8GCR0_DQSGODT_MASK +#define DDR_PHY_DX8GCR0_DQSGODT_DEFVAL 0x40200204 +#define DDR_PHY_DX8GCR0_DQSGODT_SHIFT 3 +#define DDR_PHY_DX8GCR0_DQSGODT_MASK 0x00000008U + +/*DQSG Output Enable*/ +#undef DDR_PHY_DX8GCR0_DQSGOE_DEFVAL +#undef DDR_PHY_DX8GCR0_DQSGOE_SHIFT +#undef DDR_PHY_DX8GCR0_DQSGOE_MASK +#define DDR_PHY_DX8GCR0_DQSGOE_DEFVAL 0x40200204 +#define DDR_PHY_DX8GCR0_DQSGOE_SHIFT 2 +#define DDR_PHY_DX8GCR0_DQSGOE_MASK 0x00000004U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8GCR0_RESERVED_1_0_DEFVAL +#undef DDR_PHY_DX8GCR0_RESERVED_1_0_SHIFT +#undef DDR_PHY_DX8GCR0_RESERVED_1_0_MASK +#define DDR_PHY_DX8GCR0_RESERVED_1_0_DEFVAL 0x40200204 +#define DDR_PHY_DX8GCR0_RESERVED_1_0_SHIFT 0 +#define DDR_PHY_DX8GCR0_RESERVED_1_0_MASK 0x00000003U + +/*Enables the PDR mode for DQ[7:0]*/ +#undef DDR_PHY_DX8GCR1_DXPDRMODE_DEFVAL +#undef DDR_PHY_DX8GCR1_DXPDRMODE_SHIFT +#undef DDR_PHY_DX8GCR1_DXPDRMODE_MASK +#define DDR_PHY_DX8GCR1_DXPDRMODE_DEFVAL 0x00007FFF +#define DDR_PHY_DX8GCR1_DXPDRMODE_SHIFT 16 +#define DDR_PHY_DX8GCR1_DXPDRMODE_MASK 0xFFFF0000U + +/*Reserved. Returns zeroes on reads.*/ +#undef DDR_PHY_DX8GCR1_RESERVED_15_DEFVAL +#undef DDR_PHY_DX8GCR1_RESERVED_15_SHIFT +#undef DDR_PHY_DX8GCR1_RESERVED_15_MASK +#define DDR_PHY_DX8GCR1_RESERVED_15_DEFVAL 0x00007FFF +#define DDR_PHY_DX8GCR1_RESERVED_15_SHIFT 15 +#define DDR_PHY_DX8GCR1_RESERVED_15_MASK 0x00008000U + +/*Select the delayed or non-delayed read data strobe #*/ +#undef DDR_PHY_DX8GCR1_QSNSEL_DEFVAL +#undef DDR_PHY_DX8GCR1_QSNSEL_SHIFT +#undef DDR_PHY_DX8GCR1_QSNSEL_MASK +#define DDR_PHY_DX8GCR1_QSNSEL_DEFVAL 0x00007FFF +#define DDR_PHY_DX8GCR1_QSNSEL_SHIFT 14 +#define DDR_PHY_DX8GCR1_QSNSEL_MASK 0x00004000U + +/*Select the delayed or non-delayed read data strobe*/ +#undef DDR_PHY_DX8GCR1_QSSEL_DEFVAL +#undef DDR_PHY_DX8GCR1_QSSEL_SHIFT +#undef DDR_PHY_DX8GCR1_QSSEL_MASK +#define DDR_PHY_DX8GCR1_QSSEL_DEFVAL 0x00007FFF +#define DDR_PHY_DX8GCR1_QSSEL_SHIFT 13 +#define DDR_PHY_DX8GCR1_QSSEL_MASK 0x00002000U + +/*Enables Read Data Strobe in a byte lane*/ +#undef DDR_PHY_DX8GCR1_OEEN_DEFVAL +#undef DDR_PHY_DX8GCR1_OEEN_SHIFT +#undef DDR_PHY_DX8GCR1_OEEN_MASK +#define DDR_PHY_DX8GCR1_OEEN_DEFVAL 0x00007FFF +#define DDR_PHY_DX8GCR1_OEEN_SHIFT 12 +#define DDR_PHY_DX8GCR1_OEEN_MASK 0x00001000U + +/*Enables PDR in a byte lane*/ +#undef DDR_PHY_DX8GCR1_PDREN_DEFVAL +#undef DDR_PHY_DX8GCR1_PDREN_SHIFT +#undef DDR_PHY_DX8GCR1_PDREN_MASK +#define DDR_PHY_DX8GCR1_PDREN_DEFVAL 0x00007FFF +#define DDR_PHY_DX8GCR1_PDREN_SHIFT 11 +#define DDR_PHY_DX8GCR1_PDREN_MASK 0x00000800U + +/*Enables ODT/TE in a byte lane*/ +#undef DDR_PHY_DX8GCR1_TEEN_DEFVAL +#undef DDR_PHY_DX8GCR1_TEEN_SHIFT +#undef DDR_PHY_DX8GCR1_TEEN_MASK +#define DDR_PHY_DX8GCR1_TEEN_DEFVAL 0x00007FFF +#define DDR_PHY_DX8GCR1_TEEN_SHIFT 10 +#define DDR_PHY_DX8GCR1_TEEN_MASK 0x00000400U + +/*Enables Write Data strobe in a byte lane*/ +#undef DDR_PHY_DX8GCR1_DSEN_DEFVAL +#undef DDR_PHY_DX8GCR1_DSEN_SHIFT +#undef DDR_PHY_DX8GCR1_DSEN_MASK +#define DDR_PHY_DX8GCR1_DSEN_DEFVAL 0x00007FFF +#define DDR_PHY_DX8GCR1_DSEN_SHIFT 9 +#define DDR_PHY_DX8GCR1_DSEN_MASK 0x00000200U + +/*Enables DM pin in a byte lane*/ +#undef DDR_PHY_DX8GCR1_DMEN_DEFVAL +#undef DDR_PHY_DX8GCR1_DMEN_SHIFT +#undef DDR_PHY_DX8GCR1_DMEN_MASK +#define DDR_PHY_DX8GCR1_DMEN_DEFVAL 0x00007FFF +#define DDR_PHY_DX8GCR1_DMEN_SHIFT 8 +#define DDR_PHY_DX8GCR1_DMEN_MASK 0x00000100U + +/*Enables DQ corresponding to each bit in a byte*/ +#undef DDR_PHY_DX8GCR1_DQEN_DEFVAL +#undef DDR_PHY_DX8GCR1_DQEN_SHIFT +#undef DDR_PHY_DX8GCR1_DQEN_MASK +#define DDR_PHY_DX8GCR1_DQEN_DEFVAL 0x00007FFF +#define DDR_PHY_DX8GCR1_DQEN_SHIFT 0 +#define DDR_PHY_DX8GCR1_DQEN_MASK 0x000000FFU + +/*Byte lane VREF IOM (Used only by D4MU IOs)*/ +#undef DDR_PHY_DX8GCR4_RESERVED_31_29_DEFVAL +#undef DDR_PHY_DX8GCR4_RESERVED_31_29_SHIFT +#undef DDR_PHY_DX8GCR4_RESERVED_31_29_MASK +#define DDR_PHY_DX8GCR4_RESERVED_31_29_DEFVAL 0x0E00003C +#define DDR_PHY_DX8GCR4_RESERVED_31_29_SHIFT 29 +#define DDR_PHY_DX8GCR4_RESERVED_31_29_MASK 0xE0000000U + +/*Byte Lane VREF Pad Enable*/ +#undef DDR_PHY_DX8GCR4_DXREFPEN_DEFVAL +#undef DDR_PHY_DX8GCR4_DXREFPEN_SHIFT +#undef DDR_PHY_DX8GCR4_DXREFPEN_MASK +#define DDR_PHY_DX8GCR4_DXREFPEN_DEFVAL 0x0E00003C +#define DDR_PHY_DX8GCR4_DXREFPEN_SHIFT 28 +#define DDR_PHY_DX8GCR4_DXREFPEN_MASK 0x10000000U + +/*Byte Lane Internal VREF Enable*/ +#undef DDR_PHY_DX8GCR4_DXREFEEN_DEFVAL +#undef DDR_PHY_DX8GCR4_DXREFEEN_SHIFT +#undef DDR_PHY_DX8GCR4_DXREFEEN_MASK +#define DDR_PHY_DX8GCR4_DXREFEEN_DEFVAL 0x0E00003C +#define DDR_PHY_DX8GCR4_DXREFEEN_SHIFT 26 +#define DDR_PHY_DX8GCR4_DXREFEEN_MASK 0x0C000000U + +/*Byte Lane Single-End VREF Enable*/ +#undef DDR_PHY_DX8GCR4_DXREFSEN_DEFVAL +#undef DDR_PHY_DX8GCR4_DXREFSEN_SHIFT +#undef DDR_PHY_DX8GCR4_DXREFSEN_MASK +#define DDR_PHY_DX8GCR4_DXREFSEN_DEFVAL 0x0E00003C +#define DDR_PHY_DX8GCR4_DXREFSEN_SHIFT 25 +#define DDR_PHY_DX8GCR4_DXREFSEN_MASK 0x02000000U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX8GCR4_RESERVED_24_DEFVAL +#undef DDR_PHY_DX8GCR4_RESERVED_24_SHIFT +#undef DDR_PHY_DX8GCR4_RESERVED_24_MASK +#define DDR_PHY_DX8GCR4_RESERVED_24_DEFVAL 0x0E00003C +#define DDR_PHY_DX8GCR4_RESERVED_24_SHIFT 24 +#define DDR_PHY_DX8GCR4_RESERVED_24_MASK 0x01000000U + +/*External VREF generator REFSEL range select*/ +#undef DDR_PHY_DX8GCR4_DXREFESELRANGE_DEFVAL +#undef DDR_PHY_DX8GCR4_DXREFESELRANGE_SHIFT +#undef DDR_PHY_DX8GCR4_DXREFESELRANGE_MASK +#define DDR_PHY_DX8GCR4_DXREFESELRANGE_DEFVAL 0x0E00003C +#define DDR_PHY_DX8GCR4_DXREFESELRANGE_SHIFT 23 +#define DDR_PHY_DX8GCR4_DXREFESELRANGE_MASK 0x00800000U + +/*Byte Lane External VREF Select*/ +#undef DDR_PHY_DX8GCR4_DXREFESEL_DEFVAL +#undef DDR_PHY_DX8GCR4_DXREFESEL_SHIFT +#undef DDR_PHY_DX8GCR4_DXREFESEL_MASK +#define DDR_PHY_DX8GCR4_DXREFESEL_DEFVAL 0x0E00003C +#define DDR_PHY_DX8GCR4_DXREFESEL_SHIFT 16 +#define DDR_PHY_DX8GCR4_DXREFESEL_MASK 0x007F0000U + +/*Single ended VREF generator REFSEL range select*/ +#undef DDR_PHY_DX8GCR4_DXREFSSELRANGE_DEFVAL +#undef DDR_PHY_DX8GCR4_DXREFSSELRANGE_SHIFT +#undef DDR_PHY_DX8GCR4_DXREFSSELRANGE_MASK +#define DDR_PHY_DX8GCR4_DXREFSSELRANGE_DEFVAL 0x0E00003C +#define DDR_PHY_DX8GCR4_DXREFSSELRANGE_SHIFT 15 +#define DDR_PHY_DX8GCR4_DXREFSSELRANGE_MASK 0x00008000U + +/*Byte Lane Single-End VREF Select*/ +#undef DDR_PHY_DX8GCR4_DXREFSSEL_DEFVAL +#undef DDR_PHY_DX8GCR4_DXREFSSEL_SHIFT +#undef DDR_PHY_DX8GCR4_DXREFSSEL_MASK +#define DDR_PHY_DX8GCR4_DXREFSSEL_DEFVAL 0x0E00003C +#define DDR_PHY_DX8GCR4_DXREFSSEL_SHIFT 8 +#define DDR_PHY_DX8GCR4_DXREFSSEL_MASK 0x00007F00U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX8GCR4_RESERVED_7_6_DEFVAL +#undef DDR_PHY_DX8GCR4_RESERVED_7_6_SHIFT +#undef DDR_PHY_DX8GCR4_RESERVED_7_6_MASK +#define DDR_PHY_DX8GCR4_RESERVED_7_6_DEFVAL 0x0E00003C +#define DDR_PHY_DX8GCR4_RESERVED_7_6_SHIFT 6 +#define DDR_PHY_DX8GCR4_RESERVED_7_6_MASK 0x000000C0U + +/*VREF Enable control for DQ IO (Single Ended) buffers of a byte lane.*/ +#undef DDR_PHY_DX8GCR4_DXREFIEN_DEFVAL +#undef DDR_PHY_DX8GCR4_DXREFIEN_SHIFT +#undef DDR_PHY_DX8GCR4_DXREFIEN_MASK +#define DDR_PHY_DX8GCR4_DXREFIEN_DEFVAL 0x0E00003C +#define DDR_PHY_DX8GCR4_DXREFIEN_SHIFT 2 +#define DDR_PHY_DX8GCR4_DXREFIEN_MASK 0x0000003CU + +/*VRMON control for DQ IO (Single Ended) buffers of a byte lane.*/ +#undef DDR_PHY_DX8GCR4_DXREFIMON_DEFVAL +#undef DDR_PHY_DX8GCR4_DXREFIMON_SHIFT +#undef DDR_PHY_DX8GCR4_DXREFIMON_MASK +#define DDR_PHY_DX8GCR4_DXREFIMON_DEFVAL 0x0E00003C +#define DDR_PHY_DX8GCR4_DXREFIMON_SHIFT 0 +#define DDR_PHY_DX8GCR4_DXREFIMON_MASK 0x00000003U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX8GCR5_RESERVED_31_DEFVAL +#undef DDR_PHY_DX8GCR5_RESERVED_31_SHIFT +#undef DDR_PHY_DX8GCR5_RESERVED_31_MASK +#define DDR_PHY_DX8GCR5_RESERVED_31_DEFVAL 0x09090909 +#define DDR_PHY_DX8GCR5_RESERVED_31_SHIFT 31 +#define DDR_PHY_DX8GCR5_RESERVED_31_MASK 0x80000000U + +/*Byte Lane internal VREF Select for Rank 3*/ +#undef DDR_PHY_DX8GCR5_DXREFISELR3_DEFVAL +#undef DDR_PHY_DX8GCR5_DXREFISELR3_SHIFT +#undef DDR_PHY_DX8GCR5_DXREFISELR3_MASK +#define DDR_PHY_DX8GCR5_DXREFISELR3_DEFVAL 0x09090909 +#define DDR_PHY_DX8GCR5_DXREFISELR3_SHIFT 24 +#define DDR_PHY_DX8GCR5_DXREFISELR3_MASK 0x7F000000U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX8GCR5_RESERVED_23_DEFVAL +#undef DDR_PHY_DX8GCR5_RESERVED_23_SHIFT +#undef DDR_PHY_DX8GCR5_RESERVED_23_MASK +#define DDR_PHY_DX8GCR5_RESERVED_23_DEFVAL 0x09090909 +#define DDR_PHY_DX8GCR5_RESERVED_23_SHIFT 23 +#define DDR_PHY_DX8GCR5_RESERVED_23_MASK 0x00800000U + +/*Byte Lane internal VREF Select for Rank 2*/ +#undef DDR_PHY_DX8GCR5_DXREFISELR2_DEFVAL +#undef DDR_PHY_DX8GCR5_DXREFISELR2_SHIFT +#undef DDR_PHY_DX8GCR5_DXREFISELR2_MASK +#define DDR_PHY_DX8GCR5_DXREFISELR2_DEFVAL 0x09090909 +#define DDR_PHY_DX8GCR5_DXREFISELR2_SHIFT 16 +#define DDR_PHY_DX8GCR5_DXREFISELR2_MASK 0x007F0000U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX8GCR5_RESERVED_15_DEFVAL +#undef DDR_PHY_DX8GCR5_RESERVED_15_SHIFT +#undef DDR_PHY_DX8GCR5_RESERVED_15_MASK +#define DDR_PHY_DX8GCR5_RESERVED_15_DEFVAL 0x09090909 +#define DDR_PHY_DX8GCR5_RESERVED_15_SHIFT 15 +#define DDR_PHY_DX8GCR5_RESERVED_15_MASK 0x00008000U + +/*Byte Lane internal VREF Select for Rank 1*/ +#undef DDR_PHY_DX8GCR5_DXREFISELR1_DEFVAL +#undef DDR_PHY_DX8GCR5_DXREFISELR1_SHIFT +#undef DDR_PHY_DX8GCR5_DXREFISELR1_MASK +#define DDR_PHY_DX8GCR5_DXREFISELR1_DEFVAL 0x09090909 +#define DDR_PHY_DX8GCR5_DXREFISELR1_SHIFT 8 +#define DDR_PHY_DX8GCR5_DXREFISELR1_MASK 0x00007F00U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX8GCR5_RESERVED_7_DEFVAL +#undef DDR_PHY_DX8GCR5_RESERVED_7_SHIFT +#undef DDR_PHY_DX8GCR5_RESERVED_7_MASK +#define DDR_PHY_DX8GCR5_RESERVED_7_DEFVAL 0x09090909 +#define DDR_PHY_DX8GCR5_RESERVED_7_SHIFT 7 +#define DDR_PHY_DX8GCR5_RESERVED_7_MASK 0x00000080U + +/*Byte Lane internal VREF Select for Rank 0*/ +#undef DDR_PHY_DX8GCR5_DXREFISELR0_DEFVAL +#undef DDR_PHY_DX8GCR5_DXREFISELR0_SHIFT +#undef DDR_PHY_DX8GCR5_DXREFISELR0_MASK +#define DDR_PHY_DX8GCR5_DXREFISELR0_DEFVAL 0x09090909 +#define DDR_PHY_DX8GCR5_DXREFISELR0_SHIFT 0 +#define DDR_PHY_DX8GCR5_DXREFISELR0_MASK 0x0000007FU + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX8GCR6_RESERVED_31_30_DEFVAL +#undef DDR_PHY_DX8GCR6_RESERVED_31_30_SHIFT +#undef DDR_PHY_DX8GCR6_RESERVED_31_30_MASK +#define DDR_PHY_DX8GCR6_RESERVED_31_30_DEFVAL 0x09090909 +#define DDR_PHY_DX8GCR6_RESERVED_31_30_SHIFT 30 +#define DDR_PHY_DX8GCR6_RESERVED_31_30_MASK 0xC0000000U + +/*DRAM DQ VREF Select for Rank3*/ +#undef DDR_PHY_DX8GCR6_DXDQVREFR3_DEFVAL +#undef DDR_PHY_DX8GCR6_DXDQVREFR3_SHIFT +#undef DDR_PHY_DX8GCR6_DXDQVREFR3_MASK +#define DDR_PHY_DX8GCR6_DXDQVREFR3_DEFVAL 0x09090909 +#define DDR_PHY_DX8GCR6_DXDQVREFR3_SHIFT 24 +#define DDR_PHY_DX8GCR6_DXDQVREFR3_MASK 0x3F000000U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX8GCR6_RESERVED_23_22_DEFVAL +#undef DDR_PHY_DX8GCR6_RESERVED_23_22_SHIFT +#undef DDR_PHY_DX8GCR6_RESERVED_23_22_MASK +#define DDR_PHY_DX8GCR6_RESERVED_23_22_DEFVAL 0x09090909 +#define DDR_PHY_DX8GCR6_RESERVED_23_22_SHIFT 22 +#define DDR_PHY_DX8GCR6_RESERVED_23_22_MASK 0x00C00000U + +/*DRAM DQ VREF Select for Rank2*/ +#undef DDR_PHY_DX8GCR6_DXDQVREFR2_DEFVAL +#undef DDR_PHY_DX8GCR6_DXDQVREFR2_SHIFT +#undef DDR_PHY_DX8GCR6_DXDQVREFR2_MASK +#define DDR_PHY_DX8GCR6_DXDQVREFR2_DEFVAL 0x09090909 +#define DDR_PHY_DX8GCR6_DXDQVREFR2_SHIFT 16 +#define DDR_PHY_DX8GCR6_DXDQVREFR2_MASK 0x003F0000U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX8GCR6_RESERVED_15_14_DEFVAL +#undef DDR_PHY_DX8GCR6_RESERVED_15_14_SHIFT +#undef DDR_PHY_DX8GCR6_RESERVED_15_14_MASK +#define DDR_PHY_DX8GCR6_RESERVED_15_14_DEFVAL 0x09090909 +#define DDR_PHY_DX8GCR6_RESERVED_15_14_SHIFT 14 +#define DDR_PHY_DX8GCR6_RESERVED_15_14_MASK 0x0000C000U + +/*DRAM DQ VREF Select for Rank1*/ +#undef DDR_PHY_DX8GCR6_DXDQVREFR1_DEFVAL +#undef DDR_PHY_DX8GCR6_DXDQVREFR1_SHIFT +#undef DDR_PHY_DX8GCR6_DXDQVREFR1_MASK +#define DDR_PHY_DX8GCR6_DXDQVREFR1_DEFVAL 0x09090909 +#define DDR_PHY_DX8GCR6_DXDQVREFR1_SHIFT 8 +#define DDR_PHY_DX8GCR6_DXDQVREFR1_MASK 0x00003F00U + +/*Reserved. Returns zeros on reads.*/ +#undef DDR_PHY_DX8GCR6_RESERVED_7_6_DEFVAL +#undef DDR_PHY_DX8GCR6_RESERVED_7_6_SHIFT +#undef DDR_PHY_DX8GCR6_RESERVED_7_6_MASK +#define DDR_PHY_DX8GCR6_RESERVED_7_6_DEFVAL 0x09090909 +#define DDR_PHY_DX8GCR6_RESERVED_7_6_SHIFT 6 +#define DDR_PHY_DX8GCR6_RESERVED_7_6_MASK 0x000000C0U + +/*DRAM DQ VREF Select for Rank0*/ +#undef DDR_PHY_DX8GCR6_DXDQVREFR0_DEFVAL +#undef DDR_PHY_DX8GCR6_DXDQVREFR0_SHIFT +#undef DDR_PHY_DX8GCR6_DXDQVREFR0_MASK +#define DDR_PHY_DX8GCR6_DXDQVREFR0_DEFVAL 0x09090909 +#define DDR_PHY_DX8GCR6_DXDQVREFR0_SHIFT 0 +#define DDR_PHY_DX8GCR6_DXDQVREFR0_MASK 0x0000003FU + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8LCDLR2_RESERVED_31_25_DEFVAL +#undef DDR_PHY_DX8LCDLR2_RESERVED_31_25_SHIFT +#undef DDR_PHY_DX8LCDLR2_RESERVED_31_25_MASK +#define DDR_PHY_DX8LCDLR2_RESERVED_31_25_DEFVAL 0x00000000 +#define DDR_PHY_DX8LCDLR2_RESERVED_31_25_SHIFT 25 +#define DDR_PHY_DX8LCDLR2_RESERVED_31_25_MASK 0xFE000000U + +/*Reserved. Caution, do not write to this register field.*/ +#undef DDR_PHY_DX8LCDLR2_RESERVED_24_16_DEFVAL +#undef DDR_PHY_DX8LCDLR2_RESERVED_24_16_SHIFT +#undef DDR_PHY_DX8LCDLR2_RESERVED_24_16_MASK +#define DDR_PHY_DX8LCDLR2_RESERVED_24_16_DEFVAL 0x00000000 +#define DDR_PHY_DX8LCDLR2_RESERVED_24_16_SHIFT 16 +#define DDR_PHY_DX8LCDLR2_RESERVED_24_16_MASK 0x01FF0000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8LCDLR2_RESERVED_15_9_DEFVAL +#undef DDR_PHY_DX8LCDLR2_RESERVED_15_9_SHIFT +#undef DDR_PHY_DX8LCDLR2_RESERVED_15_9_MASK +#define DDR_PHY_DX8LCDLR2_RESERVED_15_9_DEFVAL 0x00000000 +#define DDR_PHY_DX8LCDLR2_RESERVED_15_9_SHIFT 9 +#define DDR_PHY_DX8LCDLR2_RESERVED_15_9_MASK 0x0000FE00U + +/*Read DQS Gating Delay*/ +#undef DDR_PHY_DX8LCDLR2_DQSGD_DEFVAL +#undef DDR_PHY_DX8LCDLR2_DQSGD_SHIFT +#undef DDR_PHY_DX8LCDLR2_DQSGD_MASK +#define DDR_PHY_DX8LCDLR2_DQSGD_DEFVAL 0x00000000 +#define DDR_PHY_DX8LCDLR2_DQSGD_SHIFT 0 +#define DDR_PHY_DX8LCDLR2_DQSGD_MASK 0x000001FFU + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8GTR0_RESERVED_31_24_DEFVAL +#undef DDR_PHY_DX8GTR0_RESERVED_31_24_SHIFT +#undef DDR_PHY_DX8GTR0_RESERVED_31_24_MASK +#define DDR_PHY_DX8GTR0_RESERVED_31_24_DEFVAL 0x00020000 +#define DDR_PHY_DX8GTR0_RESERVED_31_24_SHIFT 27 +#define DDR_PHY_DX8GTR0_RESERVED_31_24_MASK 0xF8000000U + +/*DQ Write Path Latency Pipeline*/ +#undef DDR_PHY_DX8GTR0_WDQSL_DEFVAL +#undef DDR_PHY_DX8GTR0_WDQSL_SHIFT +#undef DDR_PHY_DX8GTR0_WDQSL_MASK +#define DDR_PHY_DX8GTR0_WDQSL_DEFVAL 0x00020000 +#define DDR_PHY_DX8GTR0_WDQSL_SHIFT 24 +#define DDR_PHY_DX8GTR0_WDQSL_MASK 0x07000000U + +/*Reserved. Caution, do not write to this register field.*/ +#undef DDR_PHY_DX8GTR0_RESERVED_23_20_DEFVAL +#undef DDR_PHY_DX8GTR0_RESERVED_23_20_SHIFT +#undef DDR_PHY_DX8GTR0_RESERVED_23_20_MASK +#define DDR_PHY_DX8GTR0_RESERVED_23_20_DEFVAL 0x00020000 +#define DDR_PHY_DX8GTR0_RESERVED_23_20_SHIFT 20 +#define DDR_PHY_DX8GTR0_RESERVED_23_20_MASK 0x00F00000U + +/*Write Leveling System Latency*/ +#undef DDR_PHY_DX8GTR0_WLSL_DEFVAL +#undef DDR_PHY_DX8GTR0_WLSL_SHIFT +#undef DDR_PHY_DX8GTR0_WLSL_MASK +#define DDR_PHY_DX8GTR0_WLSL_DEFVAL 0x00020000 +#define DDR_PHY_DX8GTR0_WLSL_SHIFT 16 +#define DDR_PHY_DX8GTR0_WLSL_MASK 0x000F0000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8GTR0_RESERVED_15_13_DEFVAL +#undef DDR_PHY_DX8GTR0_RESERVED_15_13_SHIFT +#undef DDR_PHY_DX8GTR0_RESERVED_15_13_MASK +#define DDR_PHY_DX8GTR0_RESERVED_15_13_DEFVAL 0x00020000 +#define DDR_PHY_DX8GTR0_RESERVED_15_13_SHIFT 13 +#define DDR_PHY_DX8GTR0_RESERVED_15_13_MASK 0x0000E000U + +/*Reserved. Caution, do not write to this register field.*/ +#undef DDR_PHY_DX8GTR0_RESERVED_12_8_DEFVAL +#undef DDR_PHY_DX8GTR0_RESERVED_12_8_SHIFT +#undef DDR_PHY_DX8GTR0_RESERVED_12_8_MASK +#define DDR_PHY_DX8GTR0_RESERVED_12_8_DEFVAL 0x00020000 +#define DDR_PHY_DX8GTR0_RESERVED_12_8_SHIFT 8 +#define DDR_PHY_DX8GTR0_RESERVED_12_8_MASK 0x00001F00U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8GTR0_RESERVED_7_5_DEFVAL +#undef DDR_PHY_DX8GTR0_RESERVED_7_5_SHIFT +#undef DDR_PHY_DX8GTR0_RESERVED_7_5_MASK +#define DDR_PHY_DX8GTR0_RESERVED_7_5_DEFVAL 0x00020000 +#define DDR_PHY_DX8GTR0_RESERVED_7_5_SHIFT 5 +#define DDR_PHY_DX8GTR0_RESERVED_7_5_MASK 0x000000E0U + +/*DQS Gating System Latency*/ +#undef DDR_PHY_DX8GTR0_DGSL_DEFVAL +#undef DDR_PHY_DX8GTR0_DGSL_SHIFT +#undef DDR_PHY_DX8GTR0_DGSL_MASK +#define DDR_PHY_DX8GTR0_DGSL_DEFVAL 0x00020000 +#define DDR_PHY_DX8GTR0_DGSL_SHIFT 0 +#define DDR_PHY_DX8GTR0_DGSL_MASK 0x0000001FU + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL0OSC_RESERVED_31_30_DEFVAL +#undef DDR_PHY_DX8SL0OSC_RESERVED_31_30_SHIFT +#undef DDR_PHY_DX8SL0OSC_RESERVED_31_30_MASK +#define DDR_PHY_DX8SL0OSC_RESERVED_31_30_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL0OSC_RESERVED_31_30_SHIFT 30 +#define DDR_PHY_DX8SL0OSC_RESERVED_31_30_MASK 0xC0000000U + +/*Enable Clock Gating for DX ddr_clk*/ +#undef DDR_PHY_DX8SL0OSC_GATEDXRDCLK_DEFVAL +#undef DDR_PHY_DX8SL0OSC_GATEDXRDCLK_SHIFT +#undef DDR_PHY_DX8SL0OSC_GATEDXRDCLK_MASK +#define DDR_PHY_DX8SL0OSC_GATEDXRDCLK_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL0OSC_GATEDXRDCLK_SHIFT 28 +#define DDR_PHY_DX8SL0OSC_GATEDXRDCLK_MASK 0x30000000U + +/*Enable Clock Gating for DX ctl_rd_clk*/ +#undef DDR_PHY_DX8SL0OSC_GATEDXDDRCLK_DEFVAL +#undef DDR_PHY_DX8SL0OSC_GATEDXDDRCLK_SHIFT +#undef DDR_PHY_DX8SL0OSC_GATEDXDDRCLK_MASK +#define DDR_PHY_DX8SL0OSC_GATEDXDDRCLK_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL0OSC_GATEDXDDRCLK_SHIFT 26 +#define DDR_PHY_DX8SL0OSC_GATEDXDDRCLK_MASK 0x0C000000U + +/*Enable Clock Gating for DX ctl_clk*/ +#undef DDR_PHY_DX8SL0OSC_GATEDXCTLCLK_DEFVAL +#undef DDR_PHY_DX8SL0OSC_GATEDXCTLCLK_SHIFT +#undef DDR_PHY_DX8SL0OSC_GATEDXCTLCLK_MASK +#define DDR_PHY_DX8SL0OSC_GATEDXCTLCLK_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL0OSC_GATEDXCTLCLK_SHIFT 24 +#define DDR_PHY_DX8SL0OSC_GATEDXCTLCLK_MASK 0x03000000U + +/*Selects the level to which clocks will be stalled when clock gating is enabled.*/ +#undef DDR_PHY_DX8SL0OSC_CLKLEVEL_DEFVAL +#undef DDR_PHY_DX8SL0OSC_CLKLEVEL_SHIFT +#undef DDR_PHY_DX8SL0OSC_CLKLEVEL_MASK +#define DDR_PHY_DX8SL0OSC_CLKLEVEL_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL0OSC_CLKLEVEL_SHIFT 22 +#define DDR_PHY_DX8SL0OSC_CLKLEVEL_MASK 0x00C00000U + +/*Loopback Mode*/ +#undef DDR_PHY_DX8SL0OSC_LBMODE_DEFVAL +#undef DDR_PHY_DX8SL0OSC_LBMODE_SHIFT +#undef DDR_PHY_DX8SL0OSC_LBMODE_MASK +#define DDR_PHY_DX8SL0OSC_LBMODE_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL0OSC_LBMODE_SHIFT 21 +#define DDR_PHY_DX8SL0OSC_LBMODE_MASK 0x00200000U + +/*Load GSDQS LCDL with 2x the calibrated GSDQSPRD value*/ +#undef DDR_PHY_DX8SL0OSC_LBGSDQS_DEFVAL +#undef DDR_PHY_DX8SL0OSC_LBGSDQS_SHIFT +#undef DDR_PHY_DX8SL0OSC_LBGSDQS_MASK +#define DDR_PHY_DX8SL0OSC_LBGSDQS_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL0OSC_LBGSDQS_SHIFT 20 +#define DDR_PHY_DX8SL0OSC_LBGSDQS_MASK 0x00100000U + +/*Loopback DQS Gating*/ +#undef DDR_PHY_DX8SL0OSC_LBGDQS_DEFVAL +#undef DDR_PHY_DX8SL0OSC_LBGDQS_SHIFT +#undef DDR_PHY_DX8SL0OSC_LBGDQS_MASK +#define DDR_PHY_DX8SL0OSC_LBGDQS_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL0OSC_LBGDQS_SHIFT 18 +#define DDR_PHY_DX8SL0OSC_LBGDQS_MASK 0x000C0000U + +/*Loopback DQS Shift*/ +#undef DDR_PHY_DX8SL0OSC_LBDQSS_DEFVAL +#undef DDR_PHY_DX8SL0OSC_LBDQSS_SHIFT +#undef DDR_PHY_DX8SL0OSC_LBDQSS_MASK +#define DDR_PHY_DX8SL0OSC_LBDQSS_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL0OSC_LBDQSS_SHIFT 17 +#define DDR_PHY_DX8SL0OSC_LBDQSS_MASK 0x00020000U + +/*PHY High-Speed Reset*/ +#undef DDR_PHY_DX8SL0OSC_PHYHRST_DEFVAL +#undef DDR_PHY_DX8SL0OSC_PHYHRST_SHIFT +#undef DDR_PHY_DX8SL0OSC_PHYHRST_MASK +#define DDR_PHY_DX8SL0OSC_PHYHRST_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL0OSC_PHYHRST_SHIFT 16 +#define DDR_PHY_DX8SL0OSC_PHYHRST_MASK 0x00010000U + +/*PHY FIFO Reset*/ +#undef DDR_PHY_DX8SL0OSC_PHYFRST_DEFVAL +#undef DDR_PHY_DX8SL0OSC_PHYFRST_SHIFT +#undef DDR_PHY_DX8SL0OSC_PHYFRST_MASK +#define DDR_PHY_DX8SL0OSC_PHYFRST_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL0OSC_PHYFRST_SHIFT 15 +#define DDR_PHY_DX8SL0OSC_PHYFRST_MASK 0x00008000U + +/*Delay Line Test Start*/ +#undef DDR_PHY_DX8SL0OSC_DLTST_DEFVAL +#undef DDR_PHY_DX8SL0OSC_DLTST_SHIFT +#undef DDR_PHY_DX8SL0OSC_DLTST_MASK +#define DDR_PHY_DX8SL0OSC_DLTST_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL0OSC_DLTST_SHIFT 14 +#define DDR_PHY_DX8SL0OSC_DLTST_MASK 0x00004000U + +/*Delay Line Test Mode*/ +#undef DDR_PHY_DX8SL0OSC_DLTMODE_DEFVAL +#undef DDR_PHY_DX8SL0OSC_DLTMODE_SHIFT +#undef DDR_PHY_DX8SL0OSC_DLTMODE_MASK +#define DDR_PHY_DX8SL0OSC_DLTMODE_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL0OSC_DLTMODE_SHIFT 13 +#define DDR_PHY_DX8SL0OSC_DLTMODE_MASK 0x00002000U + +/*Reserved. Caution, do not write to this register field.*/ +#undef DDR_PHY_DX8SL0OSC_RESERVED_12_11_DEFVAL +#undef DDR_PHY_DX8SL0OSC_RESERVED_12_11_SHIFT +#undef DDR_PHY_DX8SL0OSC_RESERVED_12_11_MASK +#define DDR_PHY_DX8SL0OSC_RESERVED_12_11_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL0OSC_RESERVED_12_11_SHIFT 11 +#define DDR_PHY_DX8SL0OSC_RESERVED_12_11_MASK 0x00001800U + +/*Oscillator Mode Write-Data Delay Line Select*/ +#undef DDR_PHY_DX8SL0OSC_OSCWDDL_DEFVAL +#undef DDR_PHY_DX8SL0OSC_OSCWDDL_SHIFT +#undef DDR_PHY_DX8SL0OSC_OSCWDDL_MASK +#define DDR_PHY_DX8SL0OSC_OSCWDDL_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL0OSC_OSCWDDL_SHIFT 9 +#define DDR_PHY_DX8SL0OSC_OSCWDDL_MASK 0x00000600U + +/*Reserved. Caution, do not write to this register field.*/ +#undef DDR_PHY_DX8SL0OSC_RESERVED_8_7_DEFVAL +#undef DDR_PHY_DX8SL0OSC_RESERVED_8_7_SHIFT +#undef DDR_PHY_DX8SL0OSC_RESERVED_8_7_MASK +#define DDR_PHY_DX8SL0OSC_RESERVED_8_7_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL0OSC_RESERVED_8_7_SHIFT 7 +#define DDR_PHY_DX8SL0OSC_RESERVED_8_7_MASK 0x00000180U + +/*Oscillator Mode Write-Leveling Delay Line Select*/ +#undef DDR_PHY_DX8SL0OSC_OSCWDL_DEFVAL +#undef DDR_PHY_DX8SL0OSC_OSCWDL_SHIFT +#undef DDR_PHY_DX8SL0OSC_OSCWDL_MASK +#define DDR_PHY_DX8SL0OSC_OSCWDL_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL0OSC_OSCWDL_SHIFT 5 +#define DDR_PHY_DX8SL0OSC_OSCWDL_MASK 0x00000060U + +/*Oscillator Mode Division*/ +#undef DDR_PHY_DX8SL0OSC_OSCDIV_DEFVAL +#undef DDR_PHY_DX8SL0OSC_OSCDIV_SHIFT +#undef DDR_PHY_DX8SL0OSC_OSCDIV_MASK +#define DDR_PHY_DX8SL0OSC_OSCDIV_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL0OSC_OSCDIV_SHIFT 1 +#define DDR_PHY_DX8SL0OSC_OSCDIV_MASK 0x0000001EU + +/*Oscillator Enable*/ +#undef DDR_PHY_DX8SL0OSC_OSCEN_DEFVAL +#undef DDR_PHY_DX8SL0OSC_OSCEN_SHIFT +#undef DDR_PHY_DX8SL0OSC_OSCEN_MASK +#define DDR_PHY_DX8SL0OSC_OSCEN_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL0OSC_OSCEN_SHIFT 0 +#define DDR_PHY_DX8SL0OSC_OSCEN_MASK 0x00000001U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL0DQSCTL_RESERVED_31_25_DEFVAL +#undef DDR_PHY_DX8SL0DQSCTL_RESERVED_31_25_SHIFT +#undef DDR_PHY_DX8SL0DQSCTL_RESERVED_31_25_MASK +#define DDR_PHY_DX8SL0DQSCTL_RESERVED_31_25_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL0DQSCTL_RESERVED_31_25_SHIFT 25 +#define DDR_PHY_DX8SL0DQSCTL_RESERVED_31_25_MASK 0xFE000000U + +/*Read Path Rise-to-Rise Mode*/ +#undef DDR_PHY_DX8SL0DQSCTL_RRRMODE_DEFVAL +#undef DDR_PHY_DX8SL0DQSCTL_RRRMODE_SHIFT +#undef DDR_PHY_DX8SL0DQSCTL_RRRMODE_MASK +#define DDR_PHY_DX8SL0DQSCTL_RRRMODE_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL0DQSCTL_RRRMODE_SHIFT 24 +#define DDR_PHY_DX8SL0DQSCTL_RRRMODE_MASK 0x01000000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL0DQSCTL_RESERVED_23_22_DEFVAL +#undef DDR_PHY_DX8SL0DQSCTL_RESERVED_23_22_SHIFT +#undef DDR_PHY_DX8SL0DQSCTL_RESERVED_23_22_MASK +#define DDR_PHY_DX8SL0DQSCTL_RESERVED_23_22_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL0DQSCTL_RESERVED_23_22_SHIFT 22 +#define DDR_PHY_DX8SL0DQSCTL_RESERVED_23_22_MASK 0x00C00000U + +/*Write Path Rise-to-Rise Mode*/ +#undef DDR_PHY_DX8SL0DQSCTL_WRRMODE_DEFVAL +#undef DDR_PHY_DX8SL0DQSCTL_WRRMODE_SHIFT +#undef DDR_PHY_DX8SL0DQSCTL_WRRMODE_MASK +#define DDR_PHY_DX8SL0DQSCTL_WRRMODE_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL0DQSCTL_WRRMODE_SHIFT 21 +#define DDR_PHY_DX8SL0DQSCTL_WRRMODE_MASK 0x00200000U + +/*DQS Gate Extension*/ +#undef DDR_PHY_DX8SL0DQSCTL_DQSGX_DEFVAL +#undef DDR_PHY_DX8SL0DQSCTL_DQSGX_SHIFT +#undef DDR_PHY_DX8SL0DQSCTL_DQSGX_MASK +#define DDR_PHY_DX8SL0DQSCTL_DQSGX_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL0DQSCTL_DQSGX_SHIFT 19 +#define DDR_PHY_DX8SL0DQSCTL_DQSGX_MASK 0x00180000U + +/*Low Power PLL Power Down*/ +#undef DDR_PHY_DX8SL0DQSCTL_LPPLLPD_DEFVAL +#undef DDR_PHY_DX8SL0DQSCTL_LPPLLPD_SHIFT +#undef DDR_PHY_DX8SL0DQSCTL_LPPLLPD_MASK +#define DDR_PHY_DX8SL0DQSCTL_LPPLLPD_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL0DQSCTL_LPPLLPD_SHIFT 18 +#define DDR_PHY_DX8SL0DQSCTL_LPPLLPD_MASK 0x00040000U + +/*Low Power I/O Power Down*/ +#undef DDR_PHY_DX8SL0DQSCTL_LPIOPD_DEFVAL +#undef DDR_PHY_DX8SL0DQSCTL_LPIOPD_SHIFT +#undef DDR_PHY_DX8SL0DQSCTL_LPIOPD_MASK +#define DDR_PHY_DX8SL0DQSCTL_LPIOPD_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL0DQSCTL_LPIOPD_SHIFT 17 +#define DDR_PHY_DX8SL0DQSCTL_LPIOPD_MASK 0x00020000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL0DQSCTL_RESERVED_16_15_DEFVAL +#undef DDR_PHY_DX8SL0DQSCTL_RESERVED_16_15_SHIFT +#undef DDR_PHY_DX8SL0DQSCTL_RESERVED_16_15_MASK +#define DDR_PHY_DX8SL0DQSCTL_RESERVED_16_15_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL0DQSCTL_RESERVED_16_15_SHIFT 15 +#define DDR_PHY_DX8SL0DQSCTL_RESERVED_16_15_MASK 0x00018000U + +/*QS Counter Enable*/ +#undef DDR_PHY_DX8SL0DQSCTL_QSCNTEN_DEFVAL +#undef DDR_PHY_DX8SL0DQSCTL_QSCNTEN_SHIFT +#undef DDR_PHY_DX8SL0DQSCTL_QSCNTEN_MASK +#define DDR_PHY_DX8SL0DQSCTL_QSCNTEN_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL0DQSCTL_QSCNTEN_SHIFT 14 +#define DDR_PHY_DX8SL0DQSCTL_QSCNTEN_MASK 0x00004000U + +/*Unused DQ I/O Mode*/ +#undef DDR_PHY_DX8SL0DQSCTL_UDQIOM_DEFVAL +#undef DDR_PHY_DX8SL0DQSCTL_UDQIOM_SHIFT +#undef DDR_PHY_DX8SL0DQSCTL_UDQIOM_MASK +#define DDR_PHY_DX8SL0DQSCTL_UDQIOM_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL0DQSCTL_UDQIOM_SHIFT 13 +#define DDR_PHY_DX8SL0DQSCTL_UDQIOM_MASK 0x00002000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL0DQSCTL_RESERVED_12_10_DEFVAL +#undef DDR_PHY_DX8SL0DQSCTL_RESERVED_12_10_SHIFT +#undef DDR_PHY_DX8SL0DQSCTL_RESERVED_12_10_MASK +#define DDR_PHY_DX8SL0DQSCTL_RESERVED_12_10_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL0DQSCTL_RESERVED_12_10_SHIFT 10 +#define DDR_PHY_DX8SL0DQSCTL_RESERVED_12_10_MASK 0x00001C00U + +/*Data Slew Rate*/ +#undef DDR_PHY_DX8SL0DQSCTL_DXSR_DEFVAL +#undef DDR_PHY_DX8SL0DQSCTL_DXSR_SHIFT +#undef DDR_PHY_DX8SL0DQSCTL_DXSR_MASK +#define DDR_PHY_DX8SL0DQSCTL_DXSR_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL0DQSCTL_DXSR_SHIFT 8 +#define DDR_PHY_DX8SL0DQSCTL_DXSR_MASK 0x00000300U + +/*DQS_N Resistor*/ +#undef DDR_PHY_DX8SL0DQSCTL_DQSNRES_DEFVAL +#undef DDR_PHY_DX8SL0DQSCTL_DQSNRES_SHIFT +#undef DDR_PHY_DX8SL0DQSCTL_DQSNRES_MASK +#define DDR_PHY_DX8SL0DQSCTL_DQSNRES_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL0DQSCTL_DQSNRES_SHIFT 4 +#define DDR_PHY_DX8SL0DQSCTL_DQSNRES_MASK 0x000000F0U + +/*DQS Resistor*/ +#undef DDR_PHY_DX8SL0DQSCTL_DQSRES_DEFVAL +#undef DDR_PHY_DX8SL0DQSCTL_DQSRES_SHIFT +#undef DDR_PHY_DX8SL0DQSCTL_DQSRES_MASK +#define DDR_PHY_DX8SL0DQSCTL_DQSRES_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL0DQSCTL_DQSRES_SHIFT 0 +#define DDR_PHY_DX8SL0DQSCTL_DQSRES_MASK 0x0000000FU + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL0DXCTL2_RESERVED_31_24_DEFVAL +#undef DDR_PHY_DX8SL0DXCTL2_RESERVED_31_24_SHIFT +#undef DDR_PHY_DX8SL0DXCTL2_RESERVED_31_24_MASK +#define DDR_PHY_DX8SL0DXCTL2_RESERVED_31_24_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL0DXCTL2_RESERVED_31_24_SHIFT 24 +#define DDR_PHY_DX8SL0DXCTL2_RESERVED_31_24_MASK 0xFF000000U + +/*Configurable Read Data Enable*/ +#undef DDR_PHY_DX8SL0DXCTL2_CRDEN_DEFVAL +#undef DDR_PHY_DX8SL0DXCTL2_CRDEN_SHIFT +#undef DDR_PHY_DX8SL0DXCTL2_CRDEN_MASK +#define DDR_PHY_DX8SL0DXCTL2_CRDEN_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL0DXCTL2_CRDEN_SHIFT 23 +#define DDR_PHY_DX8SL0DXCTL2_CRDEN_MASK 0x00800000U + +/*OX Extension during Post-amble*/ +#undef DDR_PHY_DX8SL0DXCTL2_POSOEX_DEFVAL +#undef DDR_PHY_DX8SL0DXCTL2_POSOEX_SHIFT +#undef DDR_PHY_DX8SL0DXCTL2_POSOEX_MASK +#define DDR_PHY_DX8SL0DXCTL2_POSOEX_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL0DXCTL2_POSOEX_SHIFT 20 +#define DDR_PHY_DX8SL0DXCTL2_POSOEX_MASK 0x00700000U + +/*OE Extension during Pre-amble*/ +#undef DDR_PHY_DX8SL0DXCTL2_PREOEX_DEFVAL +#undef DDR_PHY_DX8SL0DXCTL2_PREOEX_SHIFT +#undef DDR_PHY_DX8SL0DXCTL2_PREOEX_MASK +#define DDR_PHY_DX8SL0DXCTL2_PREOEX_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL0DXCTL2_PREOEX_SHIFT 18 +#define DDR_PHY_DX8SL0DXCTL2_PREOEX_MASK 0x000C0000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL0DXCTL2_RESERVED_17_DEFVAL +#undef DDR_PHY_DX8SL0DXCTL2_RESERVED_17_SHIFT +#undef DDR_PHY_DX8SL0DXCTL2_RESERVED_17_MASK +#define DDR_PHY_DX8SL0DXCTL2_RESERVED_17_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL0DXCTL2_RESERVED_17_SHIFT 17 +#define DDR_PHY_DX8SL0DXCTL2_RESERVED_17_MASK 0x00020000U + +/*I/O Assisted Gate Select*/ +#undef DDR_PHY_DX8SL0DXCTL2_IOAG_DEFVAL +#undef DDR_PHY_DX8SL0DXCTL2_IOAG_SHIFT +#undef DDR_PHY_DX8SL0DXCTL2_IOAG_MASK +#define DDR_PHY_DX8SL0DXCTL2_IOAG_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL0DXCTL2_IOAG_SHIFT 16 +#define DDR_PHY_DX8SL0DXCTL2_IOAG_MASK 0x00010000U + +/*I/O Loopback Select*/ +#undef DDR_PHY_DX8SL0DXCTL2_IOLB_DEFVAL +#undef DDR_PHY_DX8SL0DXCTL2_IOLB_SHIFT +#undef DDR_PHY_DX8SL0DXCTL2_IOLB_MASK +#define DDR_PHY_DX8SL0DXCTL2_IOLB_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL0DXCTL2_IOLB_SHIFT 15 +#define DDR_PHY_DX8SL0DXCTL2_IOLB_MASK 0x00008000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL0DXCTL2_RESERVED_14_13_DEFVAL +#undef DDR_PHY_DX8SL0DXCTL2_RESERVED_14_13_SHIFT +#undef DDR_PHY_DX8SL0DXCTL2_RESERVED_14_13_MASK +#define DDR_PHY_DX8SL0DXCTL2_RESERVED_14_13_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL0DXCTL2_RESERVED_14_13_SHIFT 13 +#define DDR_PHY_DX8SL0DXCTL2_RESERVED_14_13_MASK 0x00006000U + +/*Low Power Wakeup Threshold*/ +#undef DDR_PHY_DX8SL0DXCTL2_LPWAKEUP_THRSH_DEFVAL +#undef DDR_PHY_DX8SL0DXCTL2_LPWAKEUP_THRSH_SHIFT +#undef DDR_PHY_DX8SL0DXCTL2_LPWAKEUP_THRSH_MASK +#define DDR_PHY_DX8SL0DXCTL2_LPWAKEUP_THRSH_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL0DXCTL2_LPWAKEUP_THRSH_SHIFT 9 +#define DDR_PHY_DX8SL0DXCTL2_LPWAKEUP_THRSH_MASK 0x00001E00U + +/*Read Data Bus Inversion Enable*/ +#undef DDR_PHY_DX8SL0DXCTL2_RDBI_DEFVAL +#undef DDR_PHY_DX8SL0DXCTL2_RDBI_SHIFT +#undef DDR_PHY_DX8SL0DXCTL2_RDBI_MASK +#define DDR_PHY_DX8SL0DXCTL2_RDBI_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL0DXCTL2_RDBI_SHIFT 8 +#define DDR_PHY_DX8SL0DXCTL2_RDBI_MASK 0x00000100U + +/*Write Data Bus Inversion Enable*/ +#undef DDR_PHY_DX8SL0DXCTL2_WDBI_DEFVAL +#undef DDR_PHY_DX8SL0DXCTL2_WDBI_SHIFT +#undef DDR_PHY_DX8SL0DXCTL2_WDBI_MASK +#define DDR_PHY_DX8SL0DXCTL2_WDBI_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL0DXCTL2_WDBI_SHIFT 7 +#define DDR_PHY_DX8SL0DXCTL2_WDBI_MASK 0x00000080U + +/*PUB Read FIFO Bypass*/ +#undef DDR_PHY_DX8SL0DXCTL2_PRFBYP_DEFVAL +#undef DDR_PHY_DX8SL0DXCTL2_PRFBYP_SHIFT +#undef DDR_PHY_DX8SL0DXCTL2_PRFBYP_MASK +#define DDR_PHY_DX8SL0DXCTL2_PRFBYP_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL0DXCTL2_PRFBYP_SHIFT 6 +#define DDR_PHY_DX8SL0DXCTL2_PRFBYP_MASK 0x00000040U + +/*DATX8 Receive FIFO Read Mode*/ +#undef DDR_PHY_DX8SL0DXCTL2_RDMODE_DEFVAL +#undef DDR_PHY_DX8SL0DXCTL2_RDMODE_SHIFT +#undef DDR_PHY_DX8SL0DXCTL2_RDMODE_MASK +#define DDR_PHY_DX8SL0DXCTL2_RDMODE_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL0DXCTL2_RDMODE_SHIFT 4 +#define DDR_PHY_DX8SL0DXCTL2_RDMODE_MASK 0x00000030U + +/*Disables the Read FIFO Reset*/ +#undef DDR_PHY_DX8SL0DXCTL2_DISRST_DEFVAL +#undef DDR_PHY_DX8SL0DXCTL2_DISRST_SHIFT +#undef DDR_PHY_DX8SL0DXCTL2_DISRST_MASK +#define DDR_PHY_DX8SL0DXCTL2_DISRST_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL0DXCTL2_DISRST_SHIFT 3 +#define DDR_PHY_DX8SL0DXCTL2_DISRST_MASK 0x00000008U + +/*Read DQS Gate I/O Loopback*/ +#undef DDR_PHY_DX8SL0DXCTL2_DQSGLB_DEFVAL +#undef DDR_PHY_DX8SL0DXCTL2_DQSGLB_SHIFT +#undef DDR_PHY_DX8SL0DXCTL2_DQSGLB_MASK +#define DDR_PHY_DX8SL0DXCTL2_DQSGLB_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL0DXCTL2_DQSGLB_SHIFT 1 +#define DDR_PHY_DX8SL0DXCTL2_DQSGLB_MASK 0x00000006U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL0DXCTL2_RESERVED_0_DEFVAL +#undef DDR_PHY_DX8SL0DXCTL2_RESERVED_0_SHIFT +#undef DDR_PHY_DX8SL0DXCTL2_RESERVED_0_MASK +#define DDR_PHY_DX8SL0DXCTL2_RESERVED_0_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL0DXCTL2_RESERVED_0_SHIFT 0 +#define DDR_PHY_DX8SL0DXCTL2_RESERVED_0_MASK 0x00000001U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL0IOCR_RESERVED_31_DEFVAL +#undef DDR_PHY_DX8SL0IOCR_RESERVED_31_SHIFT +#undef DDR_PHY_DX8SL0IOCR_RESERVED_31_MASK +#define DDR_PHY_DX8SL0IOCR_RESERVED_31_DEFVAL 0x00000000 +#define DDR_PHY_DX8SL0IOCR_RESERVED_31_SHIFT 31 +#define DDR_PHY_DX8SL0IOCR_RESERVED_31_MASK 0x80000000U + +/*PVREF_DAC REFSEL range select*/ +#undef DDR_PHY_DX8SL0IOCR_DXDACRANGE_DEFVAL +#undef DDR_PHY_DX8SL0IOCR_DXDACRANGE_SHIFT +#undef DDR_PHY_DX8SL0IOCR_DXDACRANGE_MASK +#define DDR_PHY_DX8SL0IOCR_DXDACRANGE_DEFVAL 0x00000000 +#define DDR_PHY_DX8SL0IOCR_DXDACRANGE_SHIFT 28 +#define DDR_PHY_DX8SL0IOCR_DXDACRANGE_MASK 0x70000000U + +/*IOM bits for PVREF, PVREF_DAC and PVREFE cells in DX IO ring*/ +#undef DDR_PHY_DX8SL0IOCR_DXVREFIOM_DEFVAL +#undef DDR_PHY_DX8SL0IOCR_DXVREFIOM_SHIFT +#undef DDR_PHY_DX8SL0IOCR_DXVREFIOM_MASK +#define DDR_PHY_DX8SL0IOCR_DXVREFIOM_DEFVAL 0x00000000 +#define DDR_PHY_DX8SL0IOCR_DXVREFIOM_SHIFT 25 +#define DDR_PHY_DX8SL0IOCR_DXVREFIOM_MASK 0x0E000000U + +/*DX IO Mode*/ +#undef DDR_PHY_DX8SL0IOCR_DXIOM_DEFVAL +#undef DDR_PHY_DX8SL0IOCR_DXIOM_SHIFT +#undef DDR_PHY_DX8SL0IOCR_DXIOM_MASK +#define DDR_PHY_DX8SL0IOCR_DXIOM_DEFVAL 0x00000000 +#define DDR_PHY_DX8SL0IOCR_DXIOM_SHIFT 22 +#define DDR_PHY_DX8SL0IOCR_DXIOM_MASK 0x01C00000U + +/*DX IO Transmitter Mode*/ +#undef DDR_PHY_DX8SL0IOCR_DXTXM_DEFVAL +#undef DDR_PHY_DX8SL0IOCR_DXTXM_SHIFT +#undef DDR_PHY_DX8SL0IOCR_DXTXM_MASK +#define DDR_PHY_DX8SL0IOCR_DXTXM_DEFVAL 0x00000000 +#define DDR_PHY_DX8SL0IOCR_DXTXM_SHIFT 11 +#define DDR_PHY_DX8SL0IOCR_DXTXM_MASK 0x003FF800U + +/*DX IO Receiver Mode*/ +#undef DDR_PHY_DX8SL0IOCR_DXRXM_DEFVAL +#undef DDR_PHY_DX8SL0IOCR_DXRXM_SHIFT +#undef DDR_PHY_DX8SL0IOCR_DXRXM_MASK +#define DDR_PHY_DX8SL0IOCR_DXRXM_DEFVAL 0x00000000 +#define DDR_PHY_DX8SL0IOCR_DXRXM_SHIFT 0 +#define DDR_PHY_DX8SL0IOCR_DXRXM_MASK 0x000007FFU + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL1OSC_RESERVED_31_30_DEFVAL +#undef DDR_PHY_DX8SL1OSC_RESERVED_31_30_SHIFT +#undef DDR_PHY_DX8SL1OSC_RESERVED_31_30_MASK +#define DDR_PHY_DX8SL1OSC_RESERVED_31_30_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL1OSC_RESERVED_31_30_SHIFT 30 +#define DDR_PHY_DX8SL1OSC_RESERVED_31_30_MASK 0xC0000000U + +/*Enable Clock Gating for DX ddr_clk*/ +#undef DDR_PHY_DX8SL1OSC_GATEDXRDCLK_DEFVAL +#undef DDR_PHY_DX8SL1OSC_GATEDXRDCLK_SHIFT +#undef DDR_PHY_DX8SL1OSC_GATEDXRDCLK_MASK +#define DDR_PHY_DX8SL1OSC_GATEDXRDCLK_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL1OSC_GATEDXRDCLK_SHIFT 28 +#define DDR_PHY_DX8SL1OSC_GATEDXRDCLK_MASK 0x30000000U + +/*Enable Clock Gating for DX ctl_rd_clk*/ +#undef DDR_PHY_DX8SL1OSC_GATEDXDDRCLK_DEFVAL +#undef DDR_PHY_DX8SL1OSC_GATEDXDDRCLK_SHIFT +#undef DDR_PHY_DX8SL1OSC_GATEDXDDRCLK_MASK +#define DDR_PHY_DX8SL1OSC_GATEDXDDRCLK_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL1OSC_GATEDXDDRCLK_SHIFT 26 +#define DDR_PHY_DX8SL1OSC_GATEDXDDRCLK_MASK 0x0C000000U + +/*Enable Clock Gating for DX ctl_clk*/ +#undef DDR_PHY_DX8SL1OSC_GATEDXCTLCLK_DEFVAL +#undef DDR_PHY_DX8SL1OSC_GATEDXCTLCLK_SHIFT +#undef DDR_PHY_DX8SL1OSC_GATEDXCTLCLK_MASK +#define DDR_PHY_DX8SL1OSC_GATEDXCTLCLK_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL1OSC_GATEDXCTLCLK_SHIFT 24 +#define DDR_PHY_DX8SL1OSC_GATEDXCTLCLK_MASK 0x03000000U + +/*Selects the level to which clocks will be stalled when clock gating is enabled.*/ +#undef DDR_PHY_DX8SL1OSC_CLKLEVEL_DEFVAL +#undef DDR_PHY_DX8SL1OSC_CLKLEVEL_SHIFT +#undef DDR_PHY_DX8SL1OSC_CLKLEVEL_MASK +#define DDR_PHY_DX8SL1OSC_CLKLEVEL_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL1OSC_CLKLEVEL_SHIFT 22 +#define DDR_PHY_DX8SL1OSC_CLKLEVEL_MASK 0x00C00000U + +/*Loopback Mode*/ +#undef DDR_PHY_DX8SL1OSC_LBMODE_DEFVAL +#undef DDR_PHY_DX8SL1OSC_LBMODE_SHIFT +#undef DDR_PHY_DX8SL1OSC_LBMODE_MASK +#define DDR_PHY_DX8SL1OSC_LBMODE_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL1OSC_LBMODE_SHIFT 21 +#define DDR_PHY_DX8SL1OSC_LBMODE_MASK 0x00200000U + +/*Load GSDQS LCDL with 2x the calibrated GSDQSPRD value*/ +#undef DDR_PHY_DX8SL1OSC_LBGSDQS_DEFVAL +#undef DDR_PHY_DX8SL1OSC_LBGSDQS_SHIFT +#undef DDR_PHY_DX8SL1OSC_LBGSDQS_MASK +#define DDR_PHY_DX8SL1OSC_LBGSDQS_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL1OSC_LBGSDQS_SHIFT 20 +#define DDR_PHY_DX8SL1OSC_LBGSDQS_MASK 0x00100000U + +/*Loopback DQS Gating*/ +#undef DDR_PHY_DX8SL1OSC_LBGDQS_DEFVAL +#undef DDR_PHY_DX8SL1OSC_LBGDQS_SHIFT +#undef DDR_PHY_DX8SL1OSC_LBGDQS_MASK +#define DDR_PHY_DX8SL1OSC_LBGDQS_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL1OSC_LBGDQS_SHIFT 18 +#define DDR_PHY_DX8SL1OSC_LBGDQS_MASK 0x000C0000U + +/*Loopback DQS Shift*/ +#undef DDR_PHY_DX8SL1OSC_LBDQSS_DEFVAL +#undef DDR_PHY_DX8SL1OSC_LBDQSS_SHIFT +#undef DDR_PHY_DX8SL1OSC_LBDQSS_MASK +#define DDR_PHY_DX8SL1OSC_LBDQSS_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL1OSC_LBDQSS_SHIFT 17 +#define DDR_PHY_DX8SL1OSC_LBDQSS_MASK 0x00020000U + +/*PHY High-Speed Reset*/ +#undef DDR_PHY_DX8SL1OSC_PHYHRST_DEFVAL +#undef DDR_PHY_DX8SL1OSC_PHYHRST_SHIFT +#undef DDR_PHY_DX8SL1OSC_PHYHRST_MASK +#define DDR_PHY_DX8SL1OSC_PHYHRST_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL1OSC_PHYHRST_SHIFT 16 +#define DDR_PHY_DX8SL1OSC_PHYHRST_MASK 0x00010000U + +/*PHY FIFO Reset*/ +#undef DDR_PHY_DX8SL1OSC_PHYFRST_DEFVAL +#undef DDR_PHY_DX8SL1OSC_PHYFRST_SHIFT +#undef DDR_PHY_DX8SL1OSC_PHYFRST_MASK +#define DDR_PHY_DX8SL1OSC_PHYFRST_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL1OSC_PHYFRST_SHIFT 15 +#define DDR_PHY_DX8SL1OSC_PHYFRST_MASK 0x00008000U + +/*Delay Line Test Start*/ +#undef DDR_PHY_DX8SL1OSC_DLTST_DEFVAL +#undef DDR_PHY_DX8SL1OSC_DLTST_SHIFT +#undef DDR_PHY_DX8SL1OSC_DLTST_MASK +#define DDR_PHY_DX8SL1OSC_DLTST_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL1OSC_DLTST_SHIFT 14 +#define DDR_PHY_DX8SL1OSC_DLTST_MASK 0x00004000U + +/*Delay Line Test Mode*/ +#undef DDR_PHY_DX8SL1OSC_DLTMODE_DEFVAL +#undef DDR_PHY_DX8SL1OSC_DLTMODE_SHIFT +#undef DDR_PHY_DX8SL1OSC_DLTMODE_MASK +#define DDR_PHY_DX8SL1OSC_DLTMODE_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL1OSC_DLTMODE_SHIFT 13 +#define DDR_PHY_DX8SL1OSC_DLTMODE_MASK 0x00002000U + +/*Reserved. Caution, do not write to this register field.*/ +#undef DDR_PHY_DX8SL1OSC_RESERVED_12_11_DEFVAL +#undef DDR_PHY_DX8SL1OSC_RESERVED_12_11_SHIFT +#undef DDR_PHY_DX8SL1OSC_RESERVED_12_11_MASK +#define DDR_PHY_DX8SL1OSC_RESERVED_12_11_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL1OSC_RESERVED_12_11_SHIFT 11 +#define DDR_PHY_DX8SL1OSC_RESERVED_12_11_MASK 0x00001800U + +/*Oscillator Mode Write-Data Delay Line Select*/ +#undef DDR_PHY_DX8SL1OSC_OSCWDDL_DEFVAL +#undef DDR_PHY_DX8SL1OSC_OSCWDDL_SHIFT +#undef DDR_PHY_DX8SL1OSC_OSCWDDL_MASK +#define DDR_PHY_DX8SL1OSC_OSCWDDL_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL1OSC_OSCWDDL_SHIFT 9 +#define DDR_PHY_DX8SL1OSC_OSCWDDL_MASK 0x00000600U + +/*Reserved. Caution, do not write to this register field.*/ +#undef DDR_PHY_DX8SL1OSC_RESERVED_8_7_DEFVAL +#undef DDR_PHY_DX8SL1OSC_RESERVED_8_7_SHIFT +#undef DDR_PHY_DX8SL1OSC_RESERVED_8_7_MASK +#define DDR_PHY_DX8SL1OSC_RESERVED_8_7_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL1OSC_RESERVED_8_7_SHIFT 7 +#define DDR_PHY_DX8SL1OSC_RESERVED_8_7_MASK 0x00000180U + +/*Oscillator Mode Write-Leveling Delay Line Select*/ +#undef DDR_PHY_DX8SL1OSC_OSCWDL_DEFVAL +#undef DDR_PHY_DX8SL1OSC_OSCWDL_SHIFT +#undef DDR_PHY_DX8SL1OSC_OSCWDL_MASK +#define DDR_PHY_DX8SL1OSC_OSCWDL_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL1OSC_OSCWDL_SHIFT 5 +#define DDR_PHY_DX8SL1OSC_OSCWDL_MASK 0x00000060U + +/*Oscillator Mode Division*/ +#undef DDR_PHY_DX8SL1OSC_OSCDIV_DEFVAL +#undef DDR_PHY_DX8SL1OSC_OSCDIV_SHIFT +#undef DDR_PHY_DX8SL1OSC_OSCDIV_MASK +#define DDR_PHY_DX8SL1OSC_OSCDIV_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL1OSC_OSCDIV_SHIFT 1 +#define DDR_PHY_DX8SL1OSC_OSCDIV_MASK 0x0000001EU + +/*Oscillator Enable*/ +#undef DDR_PHY_DX8SL1OSC_OSCEN_DEFVAL +#undef DDR_PHY_DX8SL1OSC_OSCEN_SHIFT +#undef DDR_PHY_DX8SL1OSC_OSCEN_MASK +#define DDR_PHY_DX8SL1OSC_OSCEN_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL1OSC_OSCEN_SHIFT 0 +#define DDR_PHY_DX8SL1OSC_OSCEN_MASK 0x00000001U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL1DQSCTL_RESERVED_31_25_DEFVAL +#undef DDR_PHY_DX8SL1DQSCTL_RESERVED_31_25_SHIFT +#undef DDR_PHY_DX8SL1DQSCTL_RESERVED_31_25_MASK +#define DDR_PHY_DX8SL1DQSCTL_RESERVED_31_25_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL1DQSCTL_RESERVED_31_25_SHIFT 25 +#define DDR_PHY_DX8SL1DQSCTL_RESERVED_31_25_MASK 0xFE000000U + +/*Read Path Rise-to-Rise Mode*/ +#undef DDR_PHY_DX8SL1DQSCTL_RRRMODE_DEFVAL +#undef DDR_PHY_DX8SL1DQSCTL_RRRMODE_SHIFT +#undef DDR_PHY_DX8SL1DQSCTL_RRRMODE_MASK +#define DDR_PHY_DX8SL1DQSCTL_RRRMODE_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL1DQSCTL_RRRMODE_SHIFT 24 +#define DDR_PHY_DX8SL1DQSCTL_RRRMODE_MASK 0x01000000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL1DQSCTL_RESERVED_23_22_DEFVAL +#undef DDR_PHY_DX8SL1DQSCTL_RESERVED_23_22_SHIFT +#undef DDR_PHY_DX8SL1DQSCTL_RESERVED_23_22_MASK +#define DDR_PHY_DX8SL1DQSCTL_RESERVED_23_22_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL1DQSCTL_RESERVED_23_22_SHIFT 22 +#define DDR_PHY_DX8SL1DQSCTL_RESERVED_23_22_MASK 0x00C00000U + +/*Write Path Rise-to-Rise Mode*/ +#undef DDR_PHY_DX8SL1DQSCTL_WRRMODE_DEFVAL +#undef DDR_PHY_DX8SL1DQSCTL_WRRMODE_SHIFT +#undef DDR_PHY_DX8SL1DQSCTL_WRRMODE_MASK +#define DDR_PHY_DX8SL1DQSCTL_WRRMODE_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL1DQSCTL_WRRMODE_SHIFT 21 +#define DDR_PHY_DX8SL1DQSCTL_WRRMODE_MASK 0x00200000U + +/*DQS Gate Extension*/ +#undef DDR_PHY_DX8SL1DQSCTL_DQSGX_DEFVAL +#undef DDR_PHY_DX8SL1DQSCTL_DQSGX_SHIFT +#undef DDR_PHY_DX8SL1DQSCTL_DQSGX_MASK +#define DDR_PHY_DX8SL1DQSCTL_DQSGX_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL1DQSCTL_DQSGX_SHIFT 19 +#define DDR_PHY_DX8SL1DQSCTL_DQSGX_MASK 0x00180000U + +/*Low Power PLL Power Down*/ +#undef DDR_PHY_DX8SL1DQSCTL_LPPLLPD_DEFVAL +#undef DDR_PHY_DX8SL1DQSCTL_LPPLLPD_SHIFT +#undef DDR_PHY_DX8SL1DQSCTL_LPPLLPD_MASK +#define DDR_PHY_DX8SL1DQSCTL_LPPLLPD_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL1DQSCTL_LPPLLPD_SHIFT 18 +#define DDR_PHY_DX8SL1DQSCTL_LPPLLPD_MASK 0x00040000U + +/*Low Power I/O Power Down*/ +#undef DDR_PHY_DX8SL1DQSCTL_LPIOPD_DEFVAL +#undef DDR_PHY_DX8SL1DQSCTL_LPIOPD_SHIFT +#undef DDR_PHY_DX8SL1DQSCTL_LPIOPD_MASK +#define DDR_PHY_DX8SL1DQSCTL_LPIOPD_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL1DQSCTL_LPIOPD_SHIFT 17 +#define DDR_PHY_DX8SL1DQSCTL_LPIOPD_MASK 0x00020000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL1DQSCTL_RESERVED_16_15_DEFVAL +#undef DDR_PHY_DX8SL1DQSCTL_RESERVED_16_15_SHIFT +#undef DDR_PHY_DX8SL1DQSCTL_RESERVED_16_15_MASK +#define DDR_PHY_DX8SL1DQSCTL_RESERVED_16_15_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL1DQSCTL_RESERVED_16_15_SHIFT 15 +#define DDR_PHY_DX8SL1DQSCTL_RESERVED_16_15_MASK 0x00018000U + +/*QS Counter Enable*/ +#undef DDR_PHY_DX8SL1DQSCTL_QSCNTEN_DEFVAL +#undef DDR_PHY_DX8SL1DQSCTL_QSCNTEN_SHIFT +#undef DDR_PHY_DX8SL1DQSCTL_QSCNTEN_MASK +#define DDR_PHY_DX8SL1DQSCTL_QSCNTEN_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL1DQSCTL_QSCNTEN_SHIFT 14 +#define DDR_PHY_DX8SL1DQSCTL_QSCNTEN_MASK 0x00004000U + +/*Unused DQ I/O Mode*/ +#undef DDR_PHY_DX8SL1DQSCTL_UDQIOM_DEFVAL +#undef DDR_PHY_DX8SL1DQSCTL_UDQIOM_SHIFT +#undef DDR_PHY_DX8SL1DQSCTL_UDQIOM_MASK +#define DDR_PHY_DX8SL1DQSCTL_UDQIOM_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL1DQSCTL_UDQIOM_SHIFT 13 +#define DDR_PHY_DX8SL1DQSCTL_UDQIOM_MASK 0x00002000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL1DQSCTL_RESERVED_12_10_DEFVAL +#undef DDR_PHY_DX8SL1DQSCTL_RESERVED_12_10_SHIFT +#undef DDR_PHY_DX8SL1DQSCTL_RESERVED_12_10_MASK +#define DDR_PHY_DX8SL1DQSCTL_RESERVED_12_10_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL1DQSCTL_RESERVED_12_10_SHIFT 10 +#define DDR_PHY_DX8SL1DQSCTL_RESERVED_12_10_MASK 0x00001C00U + +/*Data Slew Rate*/ +#undef DDR_PHY_DX8SL1DQSCTL_DXSR_DEFVAL +#undef DDR_PHY_DX8SL1DQSCTL_DXSR_SHIFT +#undef DDR_PHY_DX8SL1DQSCTL_DXSR_MASK +#define DDR_PHY_DX8SL1DQSCTL_DXSR_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL1DQSCTL_DXSR_SHIFT 8 +#define DDR_PHY_DX8SL1DQSCTL_DXSR_MASK 0x00000300U + +/*DQS_N Resistor*/ +#undef DDR_PHY_DX8SL1DQSCTL_DQSNRES_DEFVAL +#undef DDR_PHY_DX8SL1DQSCTL_DQSNRES_SHIFT +#undef DDR_PHY_DX8SL1DQSCTL_DQSNRES_MASK +#define DDR_PHY_DX8SL1DQSCTL_DQSNRES_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL1DQSCTL_DQSNRES_SHIFT 4 +#define DDR_PHY_DX8SL1DQSCTL_DQSNRES_MASK 0x000000F0U + +/*DQS Resistor*/ +#undef DDR_PHY_DX8SL1DQSCTL_DQSRES_DEFVAL +#undef DDR_PHY_DX8SL1DQSCTL_DQSRES_SHIFT +#undef DDR_PHY_DX8SL1DQSCTL_DQSRES_MASK +#define DDR_PHY_DX8SL1DQSCTL_DQSRES_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL1DQSCTL_DQSRES_SHIFT 0 +#define DDR_PHY_DX8SL1DQSCTL_DQSRES_MASK 0x0000000FU + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL1DXCTL2_RESERVED_31_24_DEFVAL +#undef DDR_PHY_DX8SL1DXCTL2_RESERVED_31_24_SHIFT +#undef DDR_PHY_DX8SL1DXCTL2_RESERVED_31_24_MASK +#define DDR_PHY_DX8SL1DXCTL2_RESERVED_31_24_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL1DXCTL2_RESERVED_31_24_SHIFT 24 +#define DDR_PHY_DX8SL1DXCTL2_RESERVED_31_24_MASK 0xFF000000U + +/*Configurable Read Data Enable*/ +#undef DDR_PHY_DX8SL1DXCTL2_CRDEN_DEFVAL +#undef DDR_PHY_DX8SL1DXCTL2_CRDEN_SHIFT +#undef DDR_PHY_DX8SL1DXCTL2_CRDEN_MASK +#define DDR_PHY_DX8SL1DXCTL2_CRDEN_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL1DXCTL2_CRDEN_SHIFT 23 +#define DDR_PHY_DX8SL1DXCTL2_CRDEN_MASK 0x00800000U + +/*OX Extension during Post-amble*/ +#undef DDR_PHY_DX8SL1DXCTL2_POSOEX_DEFVAL +#undef DDR_PHY_DX8SL1DXCTL2_POSOEX_SHIFT +#undef DDR_PHY_DX8SL1DXCTL2_POSOEX_MASK +#define DDR_PHY_DX8SL1DXCTL2_POSOEX_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL1DXCTL2_POSOEX_SHIFT 20 +#define DDR_PHY_DX8SL1DXCTL2_POSOEX_MASK 0x00700000U + +/*OE Extension during Pre-amble*/ +#undef DDR_PHY_DX8SL1DXCTL2_PREOEX_DEFVAL +#undef DDR_PHY_DX8SL1DXCTL2_PREOEX_SHIFT +#undef DDR_PHY_DX8SL1DXCTL2_PREOEX_MASK +#define DDR_PHY_DX8SL1DXCTL2_PREOEX_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL1DXCTL2_PREOEX_SHIFT 18 +#define DDR_PHY_DX8SL1DXCTL2_PREOEX_MASK 0x000C0000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL1DXCTL2_RESERVED_17_DEFVAL +#undef DDR_PHY_DX8SL1DXCTL2_RESERVED_17_SHIFT +#undef DDR_PHY_DX8SL1DXCTL2_RESERVED_17_MASK +#define DDR_PHY_DX8SL1DXCTL2_RESERVED_17_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL1DXCTL2_RESERVED_17_SHIFT 17 +#define DDR_PHY_DX8SL1DXCTL2_RESERVED_17_MASK 0x00020000U + +/*I/O Assisted Gate Select*/ +#undef DDR_PHY_DX8SL1DXCTL2_IOAG_DEFVAL +#undef DDR_PHY_DX8SL1DXCTL2_IOAG_SHIFT +#undef DDR_PHY_DX8SL1DXCTL2_IOAG_MASK +#define DDR_PHY_DX8SL1DXCTL2_IOAG_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL1DXCTL2_IOAG_SHIFT 16 +#define DDR_PHY_DX8SL1DXCTL2_IOAG_MASK 0x00010000U + +/*I/O Loopback Select*/ +#undef DDR_PHY_DX8SL1DXCTL2_IOLB_DEFVAL +#undef DDR_PHY_DX8SL1DXCTL2_IOLB_SHIFT +#undef DDR_PHY_DX8SL1DXCTL2_IOLB_MASK +#define DDR_PHY_DX8SL1DXCTL2_IOLB_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL1DXCTL2_IOLB_SHIFT 15 +#define DDR_PHY_DX8SL1DXCTL2_IOLB_MASK 0x00008000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL1DXCTL2_RESERVED_14_13_DEFVAL +#undef DDR_PHY_DX8SL1DXCTL2_RESERVED_14_13_SHIFT +#undef DDR_PHY_DX8SL1DXCTL2_RESERVED_14_13_MASK +#define DDR_PHY_DX8SL1DXCTL2_RESERVED_14_13_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL1DXCTL2_RESERVED_14_13_SHIFT 13 +#define DDR_PHY_DX8SL1DXCTL2_RESERVED_14_13_MASK 0x00006000U + +/*Low Power Wakeup Threshold*/ +#undef DDR_PHY_DX8SL1DXCTL2_LPWAKEUP_THRSH_DEFVAL +#undef DDR_PHY_DX8SL1DXCTL2_LPWAKEUP_THRSH_SHIFT +#undef DDR_PHY_DX8SL1DXCTL2_LPWAKEUP_THRSH_MASK +#define DDR_PHY_DX8SL1DXCTL2_LPWAKEUP_THRSH_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL1DXCTL2_LPWAKEUP_THRSH_SHIFT 9 +#define DDR_PHY_DX8SL1DXCTL2_LPWAKEUP_THRSH_MASK 0x00001E00U + +/*Read Data Bus Inversion Enable*/ +#undef DDR_PHY_DX8SL1DXCTL2_RDBI_DEFVAL +#undef DDR_PHY_DX8SL1DXCTL2_RDBI_SHIFT +#undef DDR_PHY_DX8SL1DXCTL2_RDBI_MASK +#define DDR_PHY_DX8SL1DXCTL2_RDBI_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL1DXCTL2_RDBI_SHIFT 8 +#define DDR_PHY_DX8SL1DXCTL2_RDBI_MASK 0x00000100U + +/*Write Data Bus Inversion Enable*/ +#undef DDR_PHY_DX8SL1DXCTL2_WDBI_DEFVAL +#undef DDR_PHY_DX8SL1DXCTL2_WDBI_SHIFT +#undef DDR_PHY_DX8SL1DXCTL2_WDBI_MASK +#define DDR_PHY_DX8SL1DXCTL2_WDBI_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL1DXCTL2_WDBI_SHIFT 7 +#define DDR_PHY_DX8SL1DXCTL2_WDBI_MASK 0x00000080U + +/*PUB Read FIFO Bypass*/ +#undef DDR_PHY_DX8SL1DXCTL2_PRFBYP_DEFVAL +#undef DDR_PHY_DX8SL1DXCTL2_PRFBYP_SHIFT +#undef DDR_PHY_DX8SL1DXCTL2_PRFBYP_MASK +#define DDR_PHY_DX8SL1DXCTL2_PRFBYP_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL1DXCTL2_PRFBYP_SHIFT 6 +#define DDR_PHY_DX8SL1DXCTL2_PRFBYP_MASK 0x00000040U + +/*DATX8 Receive FIFO Read Mode*/ +#undef DDR_PHY_DX8SL1DXCTL2_RDMODE_DEFVAL +#undef DDR_PHY_DX8SL1DXCTL2_RDMODE_SHIFT +#undef DDR_PHY_DX8SL1DXCTL2_RDMODE_MASK +#define DDR_PHY_DX8SL1DXCTL2_RDMODE_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL1DXCTL2_RDMODE_SHIFT 4 +#define DDR_PHY_DX8SL1DXCTL2_RDMODE_MASK 0x00000030U + +/*Disables the Read FIFO Reset*/ +#undef DDR_PHY_DX8SL1DXCTL2_DISRST_DEFVAL +#undef DDR_PHY_DX8SL1DXCTL2_DISRST_SHIFT +#undef DDR_PHY_DX8SL1DXCTL2_DISRST_MASK +#define DDR_PHY_DX8SL1DXCTL2_DISRST_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL1DXCTL2_DISRST_SHIFT 3 +#define DDR_PHY_DX8SL1DXCTL2_DISRST_MASK 0x00000008U + +/*Read DQS Gate I/O Loopback*/ +#undef DDR_PHY_DX8SL1DXCTL2_DQSGLB_DEFVAL +#undef DDR_PHY_DX8SL1DXCTL2_DQSGLB_SHIFT +#undef DDR_PHY_DX8SL1DXCTL2_DQSGLB_MASK +#define DDR_PHY_DX8SL1DXCTL2_DQSGLB_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL1DXCTL2_DQSGLB_SHIFT 1 +#define DDR_PHY_DX8SL1DXCTL2_DQSGLB_MASK 0x00000006U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL1DXCTL2_RESERVED_0_DEFVAL +#undef DDR_PHY_DX8SL1DXCTL2_RESERVED_0_SHIFT +#undef DDR_PHY_DX8SL1DXCTL2_RESERVED_0_MASK +#define DDR_PHY_DX8SL1DXCTL2_RESERVED_0_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL1DXCTL2_RESERVED_0_SHIFT 0 +#define DDR_PHY_DX8SL1DXCTL2_RESERVED_0_MASK 0x00000001U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL1IOCR_RESERVED_31_DEFVAL +#undef DDR_PHY_DX8SL1IOCR_RESERVED_31_SHIFT +#undef DDR_PHY_DX8SL1IOCR_RESERVED_31_MASK +#define DDR_PHY_DX8SL1IOCR_RESERVED_31_DEFVAL 0x00000000 +#define DDR_PHY_DX8SL1IOCR_RESERVED_31_SHIFT 31 +#define DDR_PHY_DX8SL1IOCR_RESERVED_31_MASK 0x80000000U + +/*PVREF_DAC REFSEL range select*/ +#undef DDR_PHY_DX8SL1IOCR_DXDACRANGE_DEFVAL +#undef DDR_PHY_DX8SL1IOCR_DXDACRANGE_SHIFT +#undef DDR_PHY_DX8SL1IOCR_DXDACRANGE_MASK +#define DDR_PHY_DX8SL1IOCR_DXDACRANGE_DEFVAL 0x00000000 +#define DDR_PHY_DX8SL1IOCR_DXDACRANGE_SHIFT 28 +#define DDR_PHY_DX8SL1IOCR_DXDACRANGE_MASK 0x70000000U + +/*IOM bits for PVREF, PVREF_DAC and PVREFE cells in DX IO ring*/ +#undef DDR_PHY_DX8SL1IOCR_DXVREFIOM_DEFVAL +#undef DDR_PHY_DX8SL1IOCR_DXVREFIOM_SHIFT +#undef DDR_PHY_DX8SL1IOCR_DXVREFIOM_MASK +#define DDR_PHY_DX8SL1IOCR_DXVREFIOM_DEFVAL 0x00000000 +#define DDR_PHY_DX8SL1IOCR_DXVREFIOM_SHIFT 25 +#define DDR_PHY_DX8SL1IOCR_DXVREFIOM_MASK 0x0E000000U + +/*DX IO Mode*/ +#undef DDR_PHY_DX8SL1IOCR_DXIOM_DEFVAL +#undef DDR_PHY_DX8SL1IOCR_DXIOM_SHIFT +#undef DDR_PHY_DX8SL1IOCR_DXIOM_MASK +#define DDR_PHY_DX8SL1IOCR_DXIOM_DEFVAL 0x00000000 +#define DDR_PHY_DX8SL1IOCR_DXIOM_SHIFT 22 +#define DDR_PHY_DX8SL1IOCR_DXIOM_MASK 0x01C00000U + +/*DX IO Transmitter Mode*/ +#undef DDR_PHY_DX8SL1IOCR_DXTXM_DEFVAL +#undef DDR_PHY_DX8SL1IOCR_DXTXM_SHIFT +#undef DDR_PHY_DX8SL1IOCR_DXTXM_MASK +#define DDR_PHY_DX8SL1IOCR_DXTXM_DEFVAL 0x00000000 +#define DDR_PHY_DX8SL1IOCR_DXTXM_SHIFT 11 +#define DDR_PHY_DX8SL1IOCR_DXTXM_MASK 0x003FF800U + +/*DX IO Receiver Mode*/ +#undef DDR_PHY_DX8SL1IOCR_DXRXM_DEFVAL +#undef DDR_PHY_DX8SL1IOCR_DXRXM_SHIFT +#undef DDR_PHY_DX8SL1IOCR_DXRXM_MASK +#define DDR_PHY_DX8SL1IOCR_DXRXM_DEFVAL 0x00000000 +#define DDR_PHY_DX8SL1IOCR_DXRXM_SHIFT 0 +#define DDR_PHY_DX8SL1IOCR_DXRXM_MASK 0x000007FFU + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL2OSC_RESERVED_31_30_DEFVAL +#undef DDR_PHY_DX8SL2OSC_RESERVED_31_30_SHIFT +#undef DDR_PHY_DX8SL2OSC_RESERVED_31_30_MASK +#define DDR_PHY_DX8SL2OSC_RESERVED_31_30_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL2OSC_RESERVED_31_30_SHIFT 30 +#define DDR_PHY_DX8SL2OSC_RESERVED_31_30_MASK 0xC0000000U + +/*Enable Clock Gating for DX ddr_clk*/ +#undef DDR_PHY_DX8SL2OSC_GATEDXRDCLK_DEFVAL +#undef DDR_PHY_DX8SL2OSC_GATEDXRDCLK_SHIFT +#undef DDR_PHY_DX8SL2OSC_GATEDXRDCLK_MASK +#define DDR_PHY_DX8SL2OSC_GATEDXRDCLK_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL2OSC_GATEDXRDCLK_SHIFT 28 +#define DDR_PHY_DX8SL2OSC_GATEDXRDCLK_MASK 0x30000000U + +/*Enable Clock Gating for DX ctl_rd_clk*/ +#undef DDR_PHY_DX8SL2OSC_GATEDXDDRCLK_DEFVAL +#undef DDR_PHY_DX8SL2OSC_GATEDXDDRCLK_SHIFT +#undef DDR_PHY_DX8SL2OSC_GATEDXDDRCLK_MASK +#define DDR_PHY_DX8SL2OSC_GATEDXDDRCLK_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL2OSC_GATEDXDDRCLK_SHIFT 26 +#define DDR_PHY_DX8SL2OSC_GATEDXDDRCLK_MASK 0x0C000000U + +/*Enable Clock Gating for DX ctl_clk*/ +#undef DDR_PHY_DX8SL2OSC_GATEDXCTLCLK_DEFVAL +#undef DDR_PHY_DX8SL2OSC_GATEDXCTLCLK_SHIFT +#undef DDR_PHY_DX8SL2OSC_GATEDXCTLCLK_MASK +#define DDR_PHY_DX8SL2OSC_GATEDXCTLCLK_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL2OSC_GATEDXCTLCLK_SHIFT 24 +#define DDR_PHY_DX8SL2OSC_GATEDXCTLCLK_MASK 0x03000000U + +/*Selects the level to which clocks will be stalled when clock gating is enabled.*/ +#undef DDR_PHY_DX8SL2OSC_CLKLEVEL_DEFVAL +#undef DDR_PHY_DX8SL2OSC_CLKLEVEL_SHIFT +#undef DDR_PHY_DX8SL2OSC_CLKLEVEL_MASK +#define DDR_PHY_DX8SL2OSC_CLKLEVEL_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL2OSC_CLKLEVEL_SHIFT 22 +#define DDR_PHY_DX8SL2OSC_CLKLEVEL_MASK 0x00C00000U + +/*Loopback Mode*/ +#undef DDR_PHY_DX8SL2OSC_LBMODE_DEFVAL +#undef DDR_PHY_DX8SL2OSC_LBMODE_SHIFT +#undef DDR_PHY_DX8SL2OSC_LBMODE_MASK +#define DDR_PHY_DX8SL2OSC_LBMODE_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL2OSC_LBMODE_SHIFT 21 +#define DDR_PHY_DX8SL2OSC_LBMODE_MASK 0x00200000U + +/*Load GSDQS LCDL with 2x the calibrated GSDQSPRD value*/ +#undef DDR_PHY_DX8SL2OSC_LBGSDQS_DEFVAL +#undef DDR_PHY_DX8SL2OSC_LBGSDQS_SHIFT +#undef DDR_PHY_DX8SL2OSC_LBGSDQS_MASK +#define DDR_PHY_DX8SL2OSC_LBGSDQS_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL2OSC_LBGSDQS_SHIFT 20 +#define DDR_PHY_DX8SL2OSC_LBGSDQS_MASK 0x00100000U + +/*Loopback DQS Gating*/ +#undef DDR_PHY_DX8SL2OSC_LBGDQS_DEFVAL +#undef DDR_PHY_DX8SL2OSC_LBGDQS_SHIFT +#undef DDR_PHY_DX8SL2OSC_LBGDQS_MASK +#define DDR_PHY_DX8SL2OSC_LBGDQS_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL2OSC_LBGDQS_SHIFT 18 +#define DDR_PHY_DX8SL2OSC_LBGDQS_MASK 0x000C0000U + +/*Loopback DQS Shift*/ +#undef DDR_PHY_DX8SL2OSC_LBDQSS_DEFVAL +#undef DDR_PHY_DX8SL2OSC_LBDQSS_SHIFT +#undef DDR_PHY_DX8SL2OSC_LBDQSS_MASK +#define DDR_PHY_DX8SL2OSC_LBDQSS_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL2OSC_LBDQSS_SHIFT 17 +#define DDR_PHY_DX8SL2OSC_LBDQSS_MASK 0x00020000U + +/*PHY High-Speed Reset*/ +#undef DDR_PHY_DX8SL2OSC_PHYHRST_DEFVAL +#undef DDR_PHY_DX8SL2OSC_PHYHRST_SHIFT +#undef DDR_PHY_DX8SL2OSC_PHYHRST_MASK +#define DDR_PHY_DX8SL2OSC_PHYHRST_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL2OSC_PHYHRST_SHIFT 16 +#define DDR_PHY_DX8SL2OSC_PHYHRST_MASK 0x00010000U + +/*PHY FIFO Reset*/ +#undef DDR_PHY_DX8SL2OSC_PHYFRST_DEFVAL +#undef DDR_PHY_DX8SL2OSC_PHYFRST_SHIFT +#undef DDR_PHY_DX8SL2OSC_PHYFRST_MASK +#define DDR_PHY_DX8SL2OSC_PHYFRST_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL2OSC_PHYFRST_SHIFT 15 +#define DDR_PHY_DX8SL2OSC_PHYFRST_MASK 0x00008000U + +/*Delay Line Test Start*/ +#undef DDR_PHY_DX8SL2OSC_DLTST_DEFVAL +#undef DDR_PHY_DX8SL2OSC_DLTST_SHIFT +#undef DDR_PHY_DX8SL2OSC_DLTST_MASK +#define DDR_PHY_DX8SL2OSC_DLTST_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL2OSC_DLTST_SHIFT 14 +#define DDR_PHY_DX8SL2OSC_DLTST_MASK 0x00004000U + +/*Delay Line Test Mode*/ +#undef DDR_PHY_DX8SL2OSC_DLTMODE_DEFVAL +#undef DDR_PHY_DX8SL2OSC_DLTMODE_SHIFT +#undef DDR_PHY_DX8SL2OSC_DLTMODE_MASK +#define DDR_PHY_DX8SL2OSC_DLTMODE_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL2OSC_DLTMODE_SHIFT 13 +#define DDR_PHY_DX8SL2OSC_DLTMODE_MASK 0x00002000U + +/*Reserved. Caution, do not write to this register field.*/ +#undef DDR_PHY_DX8SL2OSC_RESERVED_12_11_DEFVAL +#undef DDR_PHY_DX8SL2OSC_RESERVED_12_11_SHIFT +#undef DDR_PHY_DX8SL2OSC_RESERVED_12_11_MASK +#define DDR_PHY_DX8SL2OSC_RESERVED_12_11_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL2OSC_RESERVED_12_11_SHIFT 11 +#define DDR_PHY_DX8SL2OSC_RESERVED_12_11_MASK 0x00001800U + +/*Oscillator Mode Write-Data Delay Line Select*/ +#undef DDR_PHY_DX8SL2OSC_OSCWDDL_DEFVAL +#undef DDR_PHY_DX8SL2OSC_OSCWDDL_SHIFT +#undef DDR_PHY_DX8SL2OSC_OSCWDDL_MASK +#define DDR_PHY_DX8SL2OSC_OSCWDDL_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL2OSC_OSCWDDL_SHIFT 9 +#define DDR_PHY_DX8SL2OSC_OSCWDDL_MASK 0x00000600U + +/*Reserved. Caution, do not write to this register field.*/ +#undef DDR_PHY_DX8SL2OSC_RESERVED_8_7_DEFVAL +#undef DDR_PHY_DX8SL2OSC_RESERVED_8_7_SHIFT +#undef DDR_PHY_DX8SL2OSC_RESERVED_8_7_MASK +#define DDR_PHY_DX8SL2OSC_RESERVED_8_7_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL2OSC_RESERVED_8_7_SHIFT 7 +#define DDR_PHY_DX8SL2OSC_RESERVED_8_7_MASK 0x00000180U + +/*Oscillator Mode Write-Leveling Delay Line Select*/ +#undef DDR_PHY_DX8SL2OSC_OSCWDL_DEFVAL +#undef DDR_PHY_DX8SL2OSC_OSCWDL_SHIFT +#undef DDR_PHY_DX8SL2OSC_OSCWDL_MASK +#define DDR_PHY_DX8SL2OSC_OSCWDL_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL2OSC_OSCWDL_SHIFT 5 +#define DDR_PHY_DX8SL2OSC_OSCWDL_MASK 0x00000060U + +/*Oscillator Mode Division*/ +#undef DDR_PHY_DX8SL2OSC_OSCDIV_DEFVAL +#undef DDR_PHY_DX8SL2OSC_OSCDIV_SHIFT +#undef DDR_PHY_DX8SL2OSC_OSCDIV_MASK +#define DDR_PHY_DX8SL2OSC_OSCDIV_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL2OSC_OSCDIV_SHIFT 1 +#define DDR_PHY_DX8SL2OSC_OSCDIV_MASK 0x0000001EU + +/*Oscillator Enable*/ +#undef DDR_PHY_DX8SL2OSC_OSCEN_DEFVAL +#undef DDR_PHY_DX8SL2OSC_OSCEN_SHIFT +#undef DDR_PHY_DX8SL2OSC_OSCEN_MASK +#define DDR_PHY_DX8SL2OSC_OSCEN_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL2OSC_OSCEN_SHIFT 0 +#define DDR_PHY_DX8SL2OSC_OSCEN_MASK 0x00000001U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL2DQSCTL_RESERVED_31_25_DEFVAL +#undef DDR_PHY_DX8SL2DQSCTL_RESERVED_31_25_SHIFT +#undef DDR_PHY_DX8SL2DQSCTL_RESERVED_31_25_MASK +#define DDR_PHY_DX8SL2DQSCTL_RESERVED_31_25_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL2DQSCTL_RESERVED_31_25_SHIFT 25 +#define DDR_PHY_DX8SL2DQSCTL_RESERVED_31_25_MASK 0xFE000000U + +/*Read Path Rise-to-Rise Mode*/ +#undef DDR_PHY_DX8SL2DQSCTL_RRRMODE_DEFVAL +#undef DDR_PHY_DX8SL2DQSCTL_RRRMODE_SHIFT +#undef DDR_PHY_DX8SL2DQSCTL_RRRMODE_MASK +#define DDR_PHY_DX8SL2DQSCTL_RRRMODE_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL2DQSCTL_RRRMODE_SHIFT 24 +#define DDR_PHY_DX8SL2DQSCTL_RRRMODE_MASK 0x01000000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL2DQSCTL_RESERVED_23_22_DEFVAL +#undef DDR_PHY_DX8SL2DQSCTL_RESERVED_23_22_SHIFT +#undef DDR_PHY_DX8SL2DQSCTL_RESERVED_23_22_MASK +#define DDR_PHY_DX8SL2DQSCTL_RESERVED_23_22_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL2DQSCTL_RESERVED_23_22_SHIFT 22 +#define DDR_PHY_DX8SL2DQSCTL_RESERVED_23_22_MASK 0x00C00000U + +/*Write Path Rise-to-Rise Mode*/ +#undef DDR_PHY_DX8SL2DQSCTL_WRRMODE_DEFVAL +#undef DDR_PHY_DX8SL2DQSCTL_WRRMODE_SHIFT +#undef DDR_PHY_DX8SL2DQSCTL_WRRMODE_MASK +#define DDR_PHY_DX8SL2DQSCTL_WRRMODE_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL2DQSCTL_WRRMODE_SHIFT 21 +#define DDR_PHY_DX8SL2DQSCTL_WRRMODE_MASK 0x00200000U + +/*DQS Gate Extension*/ +#undef DDR_PHY_DX8SL2DQSCTL_DQSGX_DEFVAL +#undef DDR_PHY_DX8SL2DQSCTL_DQSGX_SHIFT +#undef DDR_PHY_DX8SL2DQSCTL_DQSGX_MASK +#define DDR_PHY_DX8SL2DQSCTL_DQSGX_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL2DQSCTL_DQSGX_SHIFT 19 +#define DDR_PHY_DX8SL2DQSCTL_DQSGX_MASK 0x00180000U + +/*Low Power PLL Power Down*/ +#undef DDR_PHY_DX8SL2DQSCTL_LPPLLPD_DEFVAL +#undef DDR_PHY_DX8SL2DQSCTL_LPPLLPD_SHIFT +#undef DDR_PHY_DX8SL2DQSCTL_LPPLLPD_MASK +#define DDR_PHY_DX8SL2DQSCTL_LPPLLPD_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL2DQSCTL_LPPLLPD_SHIFT 18 +#define DDR_PHY_DX8SL2DQSCTL_LPPLLPD_MASK 0x00040000U + +/*Low Power I/O Power Down*/ +#undef DDR_PHY_DX8SL2DQSCTL_LPIOPD_DEFVAL +#undef DDR_PHY_DX8SL2DQSCTL_LPIOPD_SHIFT +#undef DDR_PHY_DX8SL2DQSCTL_LPIOPD_MASK +#define DDR_PHY_DX8SL2DQSCTL_LPIOPD_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL2DQSCTL_LPIOPD_SHIFT 17 +#define DDR_PHY_DX8SL2DQSCTL_LPIOPD_MASK 0x00020000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL2DQSCTL_RESERVED_16_15_DEFVAL +#undef DDR_PHY_DX8SL2DQSCTL_RESERVED_16_15_SHIFT +#undef DDR_PHY_DX8SL2DQSCTL_RESERVED_16_15_MASK +#define DDR_PHY_DX8SL2DQSCTL_RESERVED_16_15_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL2DQSCTL_RESERVED_16_15_SHIFT 15 +#define DDR_PHY_DX8SL2DQSCTL_RESERVED_16_15_MASK 0x00018000U + +/*QS Counter Enable*/ +#undef DDR_PHY_DX8SL2DQSCTL_QSCNTEN_DEFVAL +#undef DDR_PHY_DX8SL2DQSCTL_QSCNTEN_SHIFT +#undef DDR_PHY_DX8SL2DQSCTL_QSCNTEN_MASK +#define DDR_PHY_DX8SL2DQSCTL_QSCNTEN_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL2DQSCTL_QSCNTEN_SHIFT 14 +#define DDR_PHY_DX8SL2DQSCTL_QSCNTEN_MASK 0x00004000U + +/*Unused DQ I/O Mode*/ +#undef DDR_PHY_DX8SL2DQSCTL_UDQIOM_DEFVAL +#undef DDR_PHY_DX8SL2DQSCTL_UDQIOM_SHIFT +#undef DDR_PHY_DX8SL2DQSCTL_UDQIOM_MASK +#define DDR_PHY_DX8SL2DQSCTL_UDQIOM_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL2DQSCTL_UDQIOM_SHIFT 13 +#define DDR_PHY_DX8SL2DQSCTL_UDQIOM_MASK 0x00002000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL2DQSCTL_RESERVED_12_10_DEFVAL +#undef DDR_PHY_DX8SL2DQSCTL_RESERVED_12_10_SHIFT +#undef DDR_PHY_DX8SL2DQSCTL_RESERVED_12_10_MASK +#define DDR_PHY_DX8SL2DQSCTL_RESERVED_12_10_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL2DQSCTL_RESERVED_12_10_SHIFT 10 +#define DDR_PHY_DX8SL2DQSCTL_RESERVED_12_10_MASK 0x00001C00U + +/*Data Slew Rate*/ +#undef DDR_PHY_DX8SL2DQSCTL_DXSR_DEFVAL +#undef DDR_PHY_DX8SL2DQSCTL_DXSR_SHIFT +#undef DDR_PHY_DX8SL2DQSCTL_DXSR_MASK +#define DDR_PHY_DX8SL2DQSCTL_DXSR_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL2DQSCTL_DXSR_SHIFT 8 +#define DDR_PHY_DX8SL2DQSCTL_DXSR_MASK 0x00000300U + +/*DQS_N Resistor*/ +#undef DDR_PHY_DX8SL2DQSCTL_DQSNRES_DEFVAL +#undef DDR_PHY_DX8SL2DQSCTL_DQSNRES_SHIFT +#undef DDR_PHY_DX8SL2DQSCTL_DQSNRES_MASK +#define DDR_PHY_DX8SL2DQSCTL_DQSNRES_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL2DQSCTL_DQSNRES_SHIFT 4 +#define DDR_PHY_DX8SL2DQSCTL_DQSNRES_MASK 0x000000F0U + +/*DQS Resistor*/ +#undef DDR_PHY_DX8SL2DQSCTL_DQSRES_DEFVAL +#undef DDR_PHY_DX8SL2DQSCTL_DQSRES_SHIFT +#undef DDR_PHY_DX8SL2DQSCTL_DQSRES_MASK +#define DDR_PHY_DX8SL2DQSCTL_DQSRES_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL2DQSCTL_DQSRES_SHIFT 0 +#define DDR_PHY_DX8SL2DQSCTL_DQSRES_MASK 0x0000000FU + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL2DXCTL2_RESERVED_31_24_DEFVAL +#undef DDR_PHY_DX8SL2DXCTL2_RESERVED_31_24_SHIFT +#undef DDR_PHY_DX8SL2DXCTL2_RESERVED_31_24_MASK +#define DDR_PHY_DX8SL2DXCTL2_RESERVED_31_24_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL2DXCTL2_RESERVED_31_24_SHIFT 24 +#define DDR_PHY_DX8SL2DXCTL2_RESERVED_31_24_MASK 0xFF000000U + +/*Configurable Read Data Enable*/ +#undef DDR_PHY_DX8SL2DXCTL2_CRDEN_DEFVAL +#undef DDR_PHY_DX8SL2DXCTL2_CRDEN_SHIFT +#undef DDR_PHY_DX8SL2DXCTL2_CRDEN_MASK +#define DDR_PHY_DX8SL2DXCTL2_CRDEN_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL2DXCTL2_CRDEN_SHIFT 23 +#define DDR_PHY_DX8SL2DXCTL2_CRDEN_MASK 0x00800000U + +/*OX Extension during Post-amble*/ +#undef DDR_PHY_DX8SL2DXCTL2_POSOEX_DEFVAL +#undef DDR_PHY_DX8SL2DXCTL2_POSOEX_SHIFT +#undef DDR_PHY_DX8SL2DXCTL2_POSOEX_MASK +#define DDR_PHY_DX8SL2DXCTL2_POSOEX_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL2DXCTL2_POSOEX_SHIFT 20 +#define DDR_PHY_DX8SL2DXCTL2_POSOEX_MASK 0x00700000U + +/*OE Extension during Pre-amble*/ +#undef DDR_PHY_DX8SL2DXCTL2_PREOEX_DEFVAL +#undef DDR_PHY_DX8SL2DXCTL2_PREOEX_SHIFT +#undef DDR_PHY_DX8SL2DXCTL2_PREOEX_MASK +#define DDR_PHY_DX8SL2DXCTL2_PREOEX_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL2DXCTL2_PREOEX_SHIFT 18 +#define DDR_PHY_DX8SL2DXCTL2_PREOEX_MASK 0x000C0000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL2DXCTL2_RESERVED_17_DEFVAL +#undef DDR_PHY_DX8SL2DXCTL2_RESERVED_17_SHIFT +#undef DDR_PHY_DX8SL2DXCTL2_RESERVED_17_MASK +#define DDR_PHY_DX8SL2DXCTL2_RESERVED_17_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL2DXCTL2_RESERVED_17_SHIFT 17 +#define DDR_PHY_DX8SL2DXCTL2_RESERVED_17_MASK 0x00020000U + +/*I/O Assisted Gate Select*/ +#undef DDR_PHY_DX8SL2DXCTL2_IOAG_DEFVAL +#undef DDR_PHY_DX8SL2DXCTL2_IOAG_SHIFT +#undef DDR_PHY_DX8SL2DXCTL2_IOAG_MASK +#define DDR_PHY_DX8SL2DXCTL2_IOAG_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL2DXCTL2_IOAG_SHIFT 16 +#define DDR_PHY_DX8SL2DXCTL2_IOAG_MASK 0x00010000U + +/*I/O Loopback Select*/ +#undef DDR_PHY_DX8SL2DXCTL2_IOLB_DEFVAL +#undef DDR_PHY_DX8SL2DXCTL2_IOLB_SHIFT +#undef DDR_PHY_DX8SL2DXCTL2_IOLB_MASK +#define DDR_PHY_DX8SL2DXCTL2_IOLB_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL2DXCTL2_IOLB_SHIFT 15 +#define DDR_PHY_DX8SL2DXCTL2_IOLB_MASK 0x00008000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL2DXCTL2_RESERVED_14_13_DEFVAL +#undef DDR_PHY_DX8SL2DXCTL2_RESERVED_14_13_SHIFT +#undef DDR_PHY_DX8SL2DXCTL2_RESERVED_14_13_MASK +#define DDR_PHY_DX8SL2DXCTL2_RESERVED_14_13_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL2DXCTL2_RESERVED_14_13_SHIFT 13 +#define DDR_PHY_DX8SL2DXCTL2_RESERVED_14_13_MASK 0x00006000U + +/*Low Power Wakeup Threshold*/ +#undef DDR_PHY_DX8SL2DXCTL2_LPWAKEUP_THRSH_DEFVAL +#undef DDR_PHY_DX8SL2DXCTL2_LPWAKEUP_THRSH_SHIFT +#undef DDR_PHY_DX8SL2DXCTL2_LPWAKEUP_THRSH_MASK +#define DDR_PHY_DX8SL2DXCTL2_LPWAKEUP_THRSH_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL2DXCTL2_LPWAKEUP_THRSH_SHIFT 9 +#define DDR_PHY_DX8SL2DXCTL2_LPWAKEUP_THRSH_MASK 0x00001E00U + +/*Read Data Bus Inversion Enable*/ +#undef DDR_PHY_DX8SL2DXCTL2_RDBI_DEFVAL +#undef DDR_PHY_DX8SL2DXCTL2_RDBI_SHIFT +#undef DDR_PHY_DX8SL2DXCTL2_RDBI_MASK +#define DDR_PHY_DX8SL2DXCTL2_RDBI_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL2DXCTL2_RDBI_SHIFT 8 +#define DDR_PHY_DX8SL2DXCTL2_RDBI_MASK 0x00000100U + +/*Write Data Bus Inversion Enable*/ +#undef DDR_PHY_DX8SL2DXCTL2_WDBI_DEFVAL +#undef DDR_PHY_DX8SL2DXCTL2_WDBI_SHIFT +#undef DDR_PHY_DX8SL2DXCTL2_WDBI_MASK +#define DDR_PHY_DX8SL2DXCTL2_WDBI_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL2DXCTL2_WDBI_SHIFT 7 +#define DDR_PHY_DX8SL2DXCTL2_WDBI_MASK 0x00000080U + +/*PUB Read FIFO Bypass*/ +#undef DDR_PHY_DX8SL2DXCTL2_PRFBYP_DEFVAL +#undef DDR_PHY_DX8SL2DXCTL2_PRFBYP_SHIFT +#undef DDR_PHY_DX8SL2DXCTL2_PRFBYP_MASK +#define DDR_PHY_DX8SL2DXCTL2_PRFBYP_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL2DXCTL2_PRFBYP_SHIFT 6 +#define DDR_PHY_DX8SL2DXCTL2_PRFBYP_MASK 0x00000040U + +/*DATX8 Receive FIFO Read Mode*/ +#undef DDR_PHY_DX8SL2DXCTL2_RDMODE_DEFVAL +#undef DDR_PHY_DX8SL2DXCTL2_RDMODE_SHIFT +#undef DDR_PHY_DX8SL2DXCTL2_RDMODE_MASK +#define DDR_PHY_DX8SL2DXCTL2_RDMODE_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL2DXCTL2_RDMODE_SHIFT 4 +#define DDR_PHY_DX8SL2DXCTL2_RDMODE_MASK 0x00000030U + +/*Disables the Read FIFO Reset*/ +#undef DDR_PHY_DX8SL2DXCTL2_DISRST_DEFVAL +#undef DDR_PHY_DX8SL2DXCTL2_DISRST_SHIFT +#undef DDR_PHY_DX8SL2DXCTL2_DISRST_MASK +#define DDR_PHY_DX8SL2DXCTL2_DISRST_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL2DXCTL2_DISRST_SHIFT 3 +#define DDR_PHY_DX8SL2DXCTL2_DISRST_MASK 0x00000008U + +/*Read DQS Gate I/O Loopback*/ +#undef DDR_PHY_DX8SL2DXCTL2_DQSGLB_DEFVAL +#undef DDR_PHY_DX8SL2DXCTL2_DQSGLB_SHIFT +#undef DDR_PHY_DX8SL2DXCTL2_DQSGLB_MASK +#define DDR_PHY_DX8SL2DXCTL2_DQSGLB_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL2DXCTL2_DQSGLB_SHIFT 1 +#define DDR_PHY_DX8SL2DXCTL2_DQSGLB_MASK 0x00000006U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL2DXCTL2_RESERVED_0_DEFVAL +#undef DDR_PHY_DX8SL2DXCTL2_RESERVED_0_SHIFT +#undef DDR_PHY_DX8SL2DXCTL2_RESERVED_0_MASK +#define DDR_PHY_DX8SL2DXCTL2_RESERVED_0_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL2DXCTL2_RESERVED_0_SHIFT 0 +#define DDR_PHY_DX8SL2DXCTL2_RESERVED_0_MASK 0x00000001U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL2IOCR_RESERVED_31_DEFVAL +#undef DDR_PHY_DX8SL2IOCR_RESERVED_31_SHIFT +#undef DDR_PHY_DX8SL2IOCR_RESERVED_31_MASK +#define DDR_PHY_DX8SL2IOCR_RESERVED_31_DEFVAL 0x00000000 +#define DDR_PHY_DX8SL2IOCR_RESERVED_31_SHIFT 31 +#define DDR_PHY_DX8SL2IOCR_RESERVED_31_MASK 0x80000000U + +/*PVREF_DAC REFSEL range select*/ +#undef DDR_PHY_DX8SL2IOCR_DXDACRANGE_DEFVAL +#undef DDR_PHY_DX8SL2IOCR_DXDACRANGE_SHIFT +#undef DDR_PHY_DX8SL2IOCR_DXDACRANGE_MASK +#define DDR_PHY_DX8SL2IOCR_DXDACRANGE_DEFVAL 0x00000000 +#define DDR_PHY_DX8SL2IOCR_DXDACRANGE_SHIFT 28 +#define DDR_PHY_DX8SL2IOCR_DXDACRANGE_MASK 0x70000000U + +/*IOM bits for PVREF, PVREF_DAC and PVREFE cells in DX IO ring*/ +#undef DDR_PHY_DX8SL2IOCR_DXVREFIOM_DEFVAL +#undef DDR_PHY_DX8SL2IOCR_DXVREFIOM_SHIFT +#undef DDR_PHY_DX8SL2IOCR_DXVREFIOM_MASK +#define DDR_PHY_DX8SL2IOCR_DXVREFIOM_DEFVAL 0x00000000 +#define DDR_PHY_DX8SL2IOCR_DXVREFIOM_SHIFT 25 +#define DDR_PHY_DX8SL2IOCR_DXVREFIOM_MASK 0x0E000000U + +/*DX IO Mode*/ +#undef DDR_PHY_DX8SL2IOCR_DXIOM_DEFVAL +#undef DDR_PHY_DX8SL2IOCR_DXIOM_SHIFT +#undef DDR_PHY_DX8SL2IOCR_DXIOM_MASK +#define DDR_PHY_DX8SL2IOCR_DXIOM_DEFVAL 0x00000000 +#define DDR_PHY_DX8SL2IOCR_DXIOM_SHIFT 22 +#define DDR_PHY_DX8SL2IOCR_DXIOM_MASK 0x01C00000U + +/*DX IO Transmitter Mode*/ +#undef DDR_PHY_DX8SL2IOCR_DXTXM_DEFVAL +#undef DDR_PHY_DX8SL2IOCR_DXTXM_SHIFT +#undef DDR_PHY_DX8SL2IOCR_DXTXM_MASK +#define DDR_PHY_DX8SL2IOCR_DXTXM_DEFVAL 0x00000000 +#define DDR_PHY_DX8SL2IOCR_DXTXM_SHIFT 11 +#define DDR_PHY_DX8SL2IOCR_DXTXM_MASK 0x003FF800U + +/*DX IO Receiver Mode*/ +#undef DDR_PHY_DX8SL2IOCR_DXRXM_DEFVAL +#undef DDR_PHY_DX8SL2IOCR_DXRXM_SHIFT +#undef DDR_PHY_DX8SL2IOCR_DXRXM_MASK +#define DDR_PHY_DX8SL2IOCR_DXRXM_DEFVAL 0x00000000 +#define DDR_PHY_DX8SL2IOCR_DXRXM_SHIFT 0 +#define DDR_PHY_DX8SL2IOCR_DXRXM_MASK 0x000007FFU + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL3OSC_RESERVED_31_30_DEFVAL +#undef DDR_PHY_DX8SL3OSC_RESERVED_31_30_SHIFT +#undef DDR_PHY_DX8SL3OSC_RESERVED_31_30_MASK +#define DDR_PHY_DX8SL3OSC_RESERVED_31_30_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL3OSC_RESERVED_31_30_SHIFT 30 +#define DDR_PHY_DX8SL3OSC_RESERVED_31_30_MASK 0xC0000000U + +/*Enable Clock Gating for DX ddr_clk*/ +#undef DDR_PHY_DX8SL3OSC_GATEDXRDCLK_DEFVAL +#undef DDR_PHY_DX8SL3OSC_GATEDXRDCLK_SHIFT +#undef DDR_PHY_DX8SL3OSC_GATEDXRDCLK_MASK +#define DDR_PHY_DX8SL3OSC_GATEDXRDCLK_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL3OSC_GATEDXRDCLK_SHIFT 28 +#define DDR_PHY_DX8SL3OSC_GATEDXRDCLK_MASK 0x30000000U + +/*Enable Clock Gating for DX ctl_rd_clk*/ +#undef DDR_PHY_DX8SL3OSC_GATEDXDDRCLK_DEFVAL +#undef DDR_PHY_DX8SL3OSC_GATEDXDDRCLK_SHIFT +#undef DDR_PHY_DX8SL3OSC_GATEDXDDRCLK_MASK +#define DDR_PHY_DX8SL3OSC_GATEDXDDRCLK_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL3OSC_GATEDXDDRCLK_SHIFT 26 +#define DDR_PHY_DX8SL3OSC_GATEDXDDRCLK_MASK 0x0C000000U + +/*Enable Clock Gating for DX ctl_clk*/ +#undef DDR_PHY_DX8SL3OSC_GATEDXCTLCLK_DEFVAL +#undef DDR_PHY_DX8SL3OSC_GATEDXCTLCLK_SHIFT +#undef DDR_PHY_DX8SL3OSC_GATEDXCTLCLK_MASK +#define DDR_PHY_DX8SL3OSC_GATEDXCTLCLK_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL3OSC_GATEDXCTLCLK_SHIFT 24 +#define DDR_PHY_DX8SL3OSC_GATEDXCTLCLK_MASK 0x03000000U + +/*Selects the level to which clocks will be stalled when clock gating is enabled.*/ +#undef DDR_PHY_DX8SL3OSC_CLKLEVEL_DEFVAL +#undef DDR_PHY_DX8SL3OSC_CLKLEVEL_SHIFT +#undef DDR_PHY_DX8SL3OSC_CLKLEVEL_MASK +#define DDR_PHY_DX8SL3OSC_CLKLEVEL_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL3OSC_CLKLEVEL_SHIFT 22 +#define DDR_PHY_DX8SL3OSC_CLKLEVEL_MASK 0x00C00000U + +/*Loopback Mode*/ +#undef DDR_PHY_DX8SL3OSC_LBMODE_DEFVAL +#undef DDR_PHY_DX8SL3OSC_LBMODE_SHIFT +#undef DDR_PHY_DX8SL3OSC_LBMODE_MASK +#define DDR_PHY_DX8SL3OSC_LBMODE_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL3OSC_LBMODE_SHIFT 21 +#define DDR_PHY_DX8SL3OSC_LBMODE_MASK 0x00200000U + +/*Load GSDQS LCDL with 2x the calibrated GSDQSPRD value*/ +#undef DDR_PHY_DX8SL3OSC_LBGSDQS_DEFVAL +#undef DDR_PHY_DX8SL3OSC_LBGSDQS_SHIFT +#undef DDR_PHY_DX8SL3OSC_LBGSDQS_MASK +#define DDR_PHY_DX8SL3OSC_LBGSDQS_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL3OSC_LBGSDQS_SHIFT 20 +#define DDR_PHY_DX8SL3OSC_LBGSDQS_MASK 0x00100000U + +/*Loopback DQS Gating*/ +#undef DDR_PHY_DX8SL3OSC_LBGDQS_DEFVAL +#undef DDR_PHY_DX8SL3OSC_LBGDQS_SHIFT +#undef DDR_PHY_DX8SL3OSC_LBGDQS_MASK +#define DDR_PHY_DX8SL3OSC_LBGDQS_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL3OSC_LBGDQS_SHIFT 18 +#define DDR_PHY_DX8SL3OSC_LBGDQS_MASK 0x000C0000U + +/*Loopback DQS Shift*/ +#undef DDR_PHY_DX8SL3OSC_LBDQSS_DEFVAL +#undef DDR_PHY_DX8SL3OSC_LBDQSS_SHIFT +#undef DDR_PHY_DX8SL3OSC_LBDQSS_MASK +#define DDR_PHY_DX8SL3OSC_LBDQSS_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL3OSC_LBDQSS_SHIFT 17 +#define DDR_PHY_DX8SL3OSC_LBDQSS_MASK 0x00020000U + +/*PHY High-Speed Reset*/ +#undef DDR_PHY_DX8SL3OSC_PHYHRST_DEFVAL +#undef DDR_PHY_DX8SL3OSC_PHYHRST_SHIFT +#undef DDR_PHY_DX8SL3OSC_PHYHRST_MASK +#define DDR_PHY_DX8SL3OSC_PHYHRST_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL3OSC_PHYHRST_SHIFT 16 +#define DDR_PHY_DX8SL3OSC_PHYHRST_MASK 0x00010000U + +/*PHY FIFO Reset*/ +#undef DDR_PHY_DX8SL3OSC_PHYFRST_DEFVAL +#undef DDR_PHY_DX8SL3OSC_PHYFRST_SHIFT +#undef DDR_PHY_DX8SL3OSC_PHYFRST_MASK +#define DDR_PHY_DX8SL3OSC_PHYFRST_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL3OSC_PHYFRST_SHIFT 15 +#define DDR_PHY_DX8SL3OSC_PHYFRST_MASK 0x00008000U + +/*Delay Line Test Start*/ +#undef DDR_PHY_DX8SL3OSC_DLTST_DEFVAL +#undef DDR_PHY_DX8SL3OSC_DLTST_SHIFT +#undef DDR_PHY_DX8SL3OSC_DLTST_MASK +#define DDR_PHY_DX8SL3OSC_DLTST_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL3OSC_DLTST_SHIFT 14 +#define DDR_PHY_DX8SL3OSC_DLTST_MASK 0x00004000U + +/*Delay Line Test Mode*/ +#undef DDR_PHY_DX8SL3OSC_DLTMODE_DEFVAL +#undef DDR_PHY_DX8SL3OSC_DLTMODE_SHIFT +#undef DDR_PHY_DX8SL3OSC_DLTMODE_MASK +#define DDR_PHY_DX8SL3OSC_DLTMODE_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL3OSC_DLTMODE_SHIFT 13 +#define DDR_PHY_DX8SL3OSC_DLTMODE_MASK 0x00002000U + +/*Reserved. Caution, do not write to this register field.*/ +#undef DDR_PHY_DX8SL3OSC_RESERVED_12_11_DEFVAL +#undef DDR_PHY_DX8SL3OSC_RESERVED_12_11_SHIFT +#undef DDR_PHY_DX8SL3OSC_RESERVED_12_11_MASK +#define DDR_PHY_DX8SL3OSC_RESERVED_12_11_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL3OSC_RESERVED_12_11_SHIFT 11 +#define DDR_PHY_DX8SL3OSC_RESERVED_12_11_MASK 0x00001800U + +/*Oscillator Mode Write-Data Delay Line Select*/ +#undef DDR_PHY_DX8SL3OSC_OSCWDDL_DEFVAL +#undef DDR_PHY_DX8SL3OSC_OSCWDDL_SHIFT +#undef DDR_PHY_DX8SL3OSC_OSCWDDL_MASK +#define DDR_PHY_DX8SL3OSC_OSCWDDL_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL3OSC_OSCWDDL_SHIFT 9 +#define DDR_PHY_DX8SL3OSC_OSCWDDL_MASK 0x00000600U + +/*Reserved. Caution, do not write to this register field.*/ +#undef DDR_PHY_DX8SL3OSC_RESERVED_8_7_DEFVAL +#undef DDR_PHY_DX8SL3OSC_RESERVED_8_7_SHIFT +#undef DDR_PHY_DX8SL3OSC_RESERVED_8_7_MASK +#define DDR_PHY_DX8SL3OSC_RESERVED_8_7_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL3OSC_RESERVED_8_7_SHIFT 7 +#define DDR_PHY_DX8SL3OSC_RESERVED_8_7_MASK 0x00000180U + +/*Oscillator Mode Write-Leveling Delay Line Select*/ +#undef DDR_PHY_DX8SL3OSC_OSCWDL_DEFVAL +#undef DDR_PHY_DX8SL3OSC_OSCWDL_SHIFT +#undef DDR_PHY_DX8SL3OSC_OSCWDL_MASK +#define DDR_PHY_DX8SL3OSC_OSCWDL_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL3OSC_OSCWDL_SHIFT 5 +#define DDR_PHY_DX8SL3OSC_OSCWDL_MASK 0x00000060U + +/*Oscillator Mode Division*/ +#undef DDR_PHY_DX8SL3OSC_OSCDIV_DEFVAL +#undef DDR_PHY_DX8SL3OSC_OSCDIV_SHIFT +#undef DDR_PHY_DX8SL3OSC_OSCDIV_MASK +#define DDR_PHY_DX8SL3OSC_OSCDIV_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL3OSC_OSCDIV_SHIFT 1 +#define DDR_PHY_DX8SL3OSC_OSCDIV_MASK 0x0000001EU + +/*Oscillator Enable*/ +#undef DDR_PHY_DX8SL3OSC_OSCEN_DEFVAL +#undef DDR_PHY_DX8SL3OSC_OSCEN_SHIFT +#undef DDR_PHY_DX8SL3OSC_OSCEN_MASK +#define DDR_PHY_DX8SL3OSC_OSCEN_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL3OSC_OSCEN_SHIFT 0 +#define DDR_PHY_DX8SL3OSC_OSCEN_MASK 0x00000001U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL3DQSCTL_RESERVED_31_25_DEFVAL +#undef DDR_PHY_DX8SL3DQSCTL_RESERVED_31_25_SHIFT +#undef DDR_PHY_DX8SL3DQSCTL_RESERVED_31_25_MASK +#define DDR_PHY_DX8SL3DQSCTL_RESERVED_31_25_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL3DQSCTL_RESERVED_31_25_SHIFT 25 +#define DDR_PHY_DX8SL3DQSCTL_RESERVED_31_25_MASK 0xFE000000U + +/*Read Path Rise-to-Rise Mode*/ +#undef DDR_PHY_DX8SL3DQSCTL_RRRMODE_DEFVAL +#undef DDR_PHY_DX8SL3DQSCTL_RRRMODE_SHIFT +#undef DDR_PHY_DX8SL3DQSCTL_RRRMODE_MASK +#define DDR_PHY_DX8SL3DQSCTL_RRRMODE_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL3DQSCTL_RRRMODE_SHIFT 24 +#define DDR_PHY_DX8SL3DQSCTL_RRRMODE_MASK 0x01000000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL3DQSCTL_RESERVED_23_22_DEFVAL +#undef DDR_PHY_DX8SL3DQSCTL_RESERVED_23_22_SHIFT +#undef DDR_PHY_DX8SL3DQSCTL_RESERVED_23_22_MASK +#define DDR_PHY_DX8SL3DQSCTL_RESERVED_23_22_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL3DQSCTL_RESERVED_23_22_SHIFT 22 +#define DDR_PHY_DX8SL3DQSCTL_RESERVED_23_22_MASK 0x00C00000U + +/*Write Path Rise-to-Rise Mode*/ +#undef DDR_PHY_DX8SL3DQSCTL_WRRMODE_DEFVAL +#undef DDR_PHY_DX8SL3DQSCTL_WRRMODE_SHIFT +#undef DDR_PHY_DX8SL3DQSCTL_WRRMODE_MASK +#define DDR_PHY_DX8SL3DQSCTL_WRRMODE_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL3DQSCTL_WRRMODE_SHIFT 21 +#define DDR_PHY_DX8SL3DQSCTL_WRRMODE_MASK 0x00200000U + +/*DQS Gate Extension*/ +#undef DDR_PHY_DX8SL3DQSCTL_DQSGX_DEFVAL +#undef DDR_PHY_DX8SL3DQSCTL_DQSGX_SHIFT +#undef DDR_PHY_DX8SL3DQSCTL_DQSGX_MASK +#define DDR_PHY_DX8SL3DQSCTL_DQSGX_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL3DQSCTL_DQSGX_SHIFT 19 +#define DDR_PHY_DX8SL3DQSCTL_DQSGX_MASK 0x00180000U + +/*Low Power PLL Power Down*/ +#undef DDR_PHY_DX8SL3DQSCTL_LPPLLPD_DEFVAL +#undef DDR_PHY_DX8SL3DQSCTL_LPPLLPD_SHIFT +#undef DDR_PHY_DX8SL3DQSCTL_LPPLLPD_MASK +#define DDR_PHY_DX8SL3DQSCTL_LPPLLPD_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL3DQSCTL_LPPLLPD_SHIFT 18 +#define DDR_PHY_DX8SL3DQSCTL_LPPLLPD_MASK 0x00040000U + +/*Low Power I/O Power Down*/ +#undef DDR_PHY_DX8SL3DQSCTL_LPIOPD_DEFVAL +#undef DDR_PHY_DX8SL3DQSCTL_LPIOPD_SHIFT +#undef DDR_PHY_DX8SL3DQSCTL_LPIOPD_MASK +#define DDR_PHY_DX8SL3DQSCTL_LPIOPD_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL3DQSCTL_LPIOPD_SHIFT 17 +#define DDR_PHY_DX8SL3DQSCTL_LPIOPD_MASK 0x00020000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL3DQSCTL_RESERVED_16_15_DEFVAL +#undef DDR_PHY_DX8SL3DQSCTL_RESERVED_16_15_SHIFT +#undef DDR_PHY_DX8SL3DQSCTL_RESERVED_16_15_MASK +#define DDR_PHY_DX8SL3DQSCTL_RESERVED_16_15_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL3DQSCTL_RESERVED_16_15_SHIFT 15 +#define DDR_PHY_DX8SL3DQSCTL_RESERVED_16_15_MASK 0x00018000U + +/*QS Counter Enable*/ +#undef DDR_PHY_DX8SL3DQSCTL_QSCNTEN_DEFVAL +#undef DDR_PHY_DX8SL3DQSCTL_QSCNTEN_SHIFT +#undef DDR_PHY_DX8SL3DQSCTL_QSCNTEN_MASK +#define DDR_PHY_DX8SL3DQSCTL_QSCNTEN_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL3DQSCTL_QSCNTEN_SHIFT 14 +#define DDR_PHY_DX8SL3DQSCTL_QSCNTEN_MASK 0x00004000U + +/*Unused DQ I/O Mode*/ +#undef DDR_PHY_DX8SL3DQSCTL_UDQIOM_DEFVAL +#undef DDR_PHY_DX8SL3DQSCTL_UDQIOM_SHIFT +#undef DDR_PHY_DX8SL3DQSCTL_UDQIOM_MASK +#define DDR_PHY_DX8SL3DQSCTL_UDQIOM_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL3DQSCTL_UDQIOM_SHIFT 13 +#define DDR_PHY_DX8SL3DQSCTL_UDQIOM_MASK 0x00002000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL3DQSCTL_RESERVED_12_10_DEFVAL +#undef DDR_PHY_DX8SL3DQSCTL_RESERVED_12_10_SHIFT +#undef DDR_PHY_DX8SL3DQSCTL_RESERVED_12_10_MASK +#define DDR_PHY_DX8SL3DQSCTL_RESERVED_12_10_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL3DQSCTL_RESERVED_12_10_SHIFT 10 +#define DDR_PHY_DX8SL3DQSCTL_RESERVED_12_10_MASK 0x00001C00U + +/*Data Slew Rate*/ +#undef DDR_PHY_DX8SL3DQSCTL_DXSR_DEFVAL +#undef DDR_PHY_DX8SL3DQSCTL_DXSR_SHIFT +#undef DDR_PHY_DX8SL3DQSCTL_DXSR_MASK +#define DDR_PHY_DX8SL3DQSCTL_DXSR_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL3DQSCTL_DXSR_SHIFT 8 +#define DDR_PHY_DX8SL3DQSCTL_DXSR_MASK 0x00000300U + +/*DQS_N Resistor*/ +#undef DDR_PHY_DX8SL3DQSCTL_DQSNRES_DEFVAL +#undef DDR_PHY_DX8SL3DQSCTL_DQSNRES_SHIFT +#undef DDR_PHY_DX8SL3DQSCTL_DQSNRES_MASK +#define DDR_PHY_DX8SL3DQSCTL_DQSNRES_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL3DQSCTL_DQSNRES_SHIFT 4 +#define DDR_PHY_DX8SL3DQSCTL_DQSNRES_MASK 0x000000F0U + +/*DQS Resistor*/ +#undef DDR_PHY_DX8SL3DQSCTL_DQSRES_DEFVAL +#undef DDR_PHY_DX8SL3DQSCTL_DQSRES_SHIFT +#undef DDR_PHY_DX8SL3DQSCTL_DQSRES_MASK +#define DDR_PHY_DX8SL3DQSCTL_DQSRES_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL3DQSCTL_DQSRES_SHIFT 0 +#define DDR_PHY_DX8SL3DQSCTL_DQSRES_MASK 0x0000000FU + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL3DXCTL2_RESERVED_31_24_DEFVAL +#undef DDR_PHY_DX8SL3DXCTL2_RESERVED_31_24_SHIFT +#undef DDR_PHY_DX8SL3DXCTL2_RESERVED_31_24_MASK +#define DDR_PHY_DX8SL3DXCTL2_RESERVED_31_24_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL3DXCTL2_RESERVED_31_24_SHIFT 24 +#define DDR_PHY_DX8SL3DXCTL2_RESERVED_31_24_MASK 0xFF000000U + +/*Configurable Read Data Enable*/ +#undef DDR_PHY_DX8SL3DXCTL2_CRDEN_DEFVAL +#undef DDR_PHY_DX8SL3DXCTL2_CRDEN_SHIFT +#undef DDR_PHY_DX8SL3DXCTL2_CRDEN_MASK +#define DDR_PHY_DX8SL3DXCTL2_CRDEN_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL3DXCTL2_CRDEN_SHIFT 23 +#define DDR_PHY_DX8SL3DXCTL2_CRDEN_MASK 0x00800000U + +/*OX Extension during Post-amble*/ +#undef DDR_PHY_DX8SL3DXCTL2_POSOEX_DEFVAL +#undef DDR_PHY_DX8SL3DXCTL2_POSOEX_SHIFT +#undef DDR_PHY_DX8SL3DXCTL2_POSOEX_MASK +#define DDR_PHY_DX8SL3DXCTL2_POSOEX_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL3DXCTL2_POSOEX_SHIFT 20 +#define DDR_PHY_DX8SL3DXCTL2_POSOEX_MASK 0x00700000U + +/*OE Extension during Pre-amble*/ +#undef DDR_PHY_DX8SL3DXCTL2_PREOEX_DEFVAL +#undef DDR_PHY_DX8SL3DXCTL2_PREOEX_SHIFT +#undef DDR_PHY_DX8SL3DXCTL2_PREOEX_MASK +#define DDR_PHY_DX8SL3DXCTL2_PREOEX_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL3DXCTL2_PREOEX_SHIFT 18 +#define DDR_PHY_DX8SL3DXCTL2_PREOEX_MASK 0x000C0000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL3DXCTL2_RESERVED_17_DEFVAL +#undef DDR_PHY_DX8SL3DXCTL2_RESERVED_17_SHIFT +#undef DDR_PHY_DX8SL3DXCTL2_RESERVED_17_MASK +#define DDR_PHY_DX8SL3DXCTL2_RESERVED_17_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL3DXCTL2_RESERVED_17_SHIFT 17 +#define DDR_PHY_DX8SL3DXCTL2_RESERVED_17_MASK 0x00020000U + +/*I/O Assisted Gate Select*/ +#undef DDR_PHY_DX8SL3DXCTL2_IOAG_DEFVAL +#undef DDR_PHY_DX8SL3DXCTL2_IOAG_SHIFT +#undef DDR_PHY_DX8SL3DXCTL2_IOAG_MASK +#define DDR_PHY_DX8SL3DXCTL2_IOAG_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL3DXCTL2_IOAG_SHIFT 16 +#define DDR_PHY_DX8SL3DXCTL2_IOAG_MASK 0x00010000U + +/*I/O Loopback Select*/ +#undef DDR_PHY_DX8SL3DXCTL2_IOLB_DEFVAL +#undef DDR_PHY_DX8SL3DXCTL2_IOLB_SHIFT +#undef DDR_PHY_DX8SL3DXCTL2_IOLB_MASK +#define DDR_PHY_DX8SL3DXCTL2_IOLB_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL3DXCTL2_IOLB_SHIFT 15 +#define DDR_PHY_DX8SL3DXCTL2_IOLB_MASK 0x00008000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL3DXCTL2_RESERVED_14_13_DEFVAL +#undef DDR_PHY_DX8SL3DXCTL2_RESERVED_14_13_SHIFT +#undef DDR_PHY_DX8SL3DXCTL2_RESERVED_14_13_MASK +#define DDR_PHY_DX8SL3DXCTL2_RESERVED_14_13_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL3DXCTL2_RESERVED_14_13_SHIFT 13 +#define DDR_PHY_DX8SL3DXCTL2_RESERVED_14_13_MASK 0x00006000U + +/*Low Power Wakeup Threshold*/ +#undef DDR_PHY_DX8SL3DXCTL2_LPWAKEUP_THRSH_DEFVAL +#undef DDR_PHY_DX8SL3DXCTL2_LPWAKEUP_THRSH_SHIFT +#undef DDR_PHY_DX8SL3DXCTL2_LPWAKEUP_THRSH_MASK +#define DDR_PHY_DX8SL3DXCTL2_LPWAKEUP_THRSH_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL3DXCTL2_LPWAKEUP_THRSH_SHIFT 9 +#define DDR_PHY_DX8SL3DXCTL2_LPWAKEUP_THRSH_MASK 0x00001E00U + +/*Read Data Bus Inversion Enable*/ +#undef DDR_PHY_DX8SL3DXCTL2_RDBI_DEFVAL +#undef DDR_PHY_DX8SL3DXCTL2_RDBI_SHIFT +#undef DDR_PHY_DX8SL3DXCTL2_RDBI_MASK +#define DDR_PHY_DX8SL3DXCTL2_RDBI_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL3DXCTL2_RDBI_SHIFT 8 +#define DDR_PHY_DX8SL3DXCTL2_RDBI_MASK 0x00000100U + +/*Write Data Bus Inversion Enable*/ +#undef DDR_PHY_DX8SL3DXCTL2_WDBI_DEFVAL +#undef DDR_PHY_DX8SL3DXCTL2_WDBI_SHIFT +#undef DDR_PHY_DX8SL3DXCTL2_WDBI_MASK +#define DDR_PHY_DX8SL3DXCTL2_WDBI_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL3DXCTL2_WDBI_SHIFT 7 +#define DDR_PHY_DX8SL3DXCTL2_WDBI_MASK 0x00000080U + +/*PUB Read FIFO Bypass*/ +#undef DDR_PHY_DX8SL3DXCTL2_PRFBYP_DEFVAL +#undef DDR_PHY_DX8SL3DXCTL2_PRFBYP_SHIFT +#undef DDR_PHY_DX8SL3DXCTL2_PRFBYP_MASK +#define DDR_PHY_DX8SL3DXCTL2_PRFBYP_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL3DXCTL2_PRFBYP_SHIFT 6 +#define DDR_PHY_DX8SL3DXCTL2_PRFBYP_MASK 0x00000040U + +/*DATX8 Receive FIFO Read Mode*/ +#undef DDR_PHY_DX8SL3DXCTL2_RDMODE_DEFVAL +#undef DDR_PHY_DX8SL3DXCTL2_RDMODE_SHIFT +#undef DDR_PHY_DX8SL3DXCTL2_RDMODE_MASK +#define DDR_PHY_DX8SL3DXCTL2_RDMODE_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL3DXCTL2_RDMODE_SHIFT 4 +#define DDR_PHY_DX8SL3DXCTL2_RDMODE_MASK 0x00000030U + +/*Disables the Read FIFO Reset*/ +#undef DDR_PHY_DX8SL3DXCTL2_DISRST_DEFVAL +#undef DDR_PHY_DX8SL3DXCTL2_DISRST_SHIFT +#undef DDR_PHY_DX8SL3DXCTL2_DISRST_MASK +#define DDR_PHY_DX8SL3DXCTL2_DISRST_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL3DXCTL2_DISRST_SHIFT 3 +#define DDR_PHY_DX8SL3DXCTL2_DISRST_MASK 0x00000008U + +/*Read DQS Gate I/O Loopback*/ +#undef DDR_PHY_DX8SL3DXCTL2_DQSGLB_DEFVAL +#undef DDR_PHY_DX8SL3DXCTL2_DQSGLB_SHIFT +#undef DDR_PHY_DX8SL3DXCTL2_DQSGLB_MASK +#define DDR_PHY_DX8SL3DXCTL2_DQSGLB_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL3DXCTL2_DQSGLB_SHIFT 1 +#define DDR_PHY_DX8SL3DXCTL2_DQSGLB_MASK 0x00000006U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL3DXCTL2_RESERVED_0_DEFVAL +#undef DDR_PHY_DX8SL3DXCTL2_RESERVED_0_SHIFT +#undef DDR_PHY_DX8SL3DXCTL2_RESERVED_0_MASK +#define DDR_PHY_DX8SL3DXCTL2_RESERVED_0_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL3DXCTL2_RESERVED_0_SHIFT 0 +#define DDR_PHY_DX8SL3DXCTL2_RESERVED_0_MASK 0x00000001U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL3IOCR_RESERVED_31_DEFVAL +#undef DDR_PHY_DX8SL3IOCR_RESERVED_31_SHIFT +#undef DDR_PHY_DX8SL3IOCR_RESERVED_31_MASK +#define DDR_PHY_DX8SL3IOCR_RESERVED_31_DEFVAL 0x00000000 +#define DDR_PHY_DX8SL3IOCR_RESERVED_31_SHIFT 31 +#define DDR_PHY_DX8SL3IOCR_RESERVED_31_MASK 0x80000000U + +/*PVREF_DAC REFSEL range select*/ +#undef DDR_PHY_DX8SL3IOCR_DXDACRANGE_DEFVAL +#undef DDR_PHY_DX8SL3IOCR_DXDACRANGE_SHIFT +#undef DDR_PHY_DX8SL3IOCR_DXDACRANGE_MASK +#define DDR_PHY_DX8SL3IOCR_DXDACRANGE_DEFVAL 0x00000000 +#define DDR_PHY_DX8SL3IOCR_DXDACRANGE_SHIFT 28 +#define DDR_PHY_DX8SL3IOCR_DXDACRANGE_MASK 0x70000000U + +/*IOM bits for PVREF, PVREF_DAC and PVREFE cells in DX IO ring*/ +#undef DDR_PHY_DX8SL3IOCR_DXVREFIOM_DEFVAL +#undef DDR_PHY_DX8SL3IOCR_DXVREFIOM_SHIFT +#undef DDR_PHY_DX8SL3IOCR_DXVREFIOM_MASK +#define DDR_PHY_DX8SL3IOCR_DXVREFIOM_DEFVAL 0x00000000 +#define DDR_PHY_DX8SL3IOCR_DXVREFIOM_SHIFT 25 +#define DDR_PHY_DX8SL3IOCR_DXVREFIOM_MASK 0x0E000000U + +/*DX IO Mode*/ +#undef DDR_PHY_DX8SL3IOCR_DXIOM_DEFVAL +#undef DDR_PHY_DX8SL3IOCR_DXIOM_SHIFT +#undef DDR_PHY_DX8SL3IOCR_DXIOM_MASK +#define DDR_PHY_DX8SL3IOCR_DXIOM_DEFVAL 0x00000000 +#define DDR_PHY_DX8SL3IOCR_DXIOM_SHIFT 22 +#define DDR_PHY_DX8SL3IOCR_DXIOM_MASK 0x01C00000U + +/*DX IO Transmitter Mode*/ +#undef DDR_PHY_DX8SL3IOCR_DXTXM_DEFVAL +#undef DDR_PHY_DX8SL3IOCR_DXTXM_SHIFT +#undef DDR_PHY_DX8SL3IOCR_DXTXM_MASK +#define DDR_PHY_DX8SL3IOCR_DXTXM_DEFVAL 0x00000000 +#define DDR_PHY_DX8SL3IOCR_DXTXM_SHIFT 11 +#define DDR_PHY_DX8SL3IOCR_DXTXM_MASK 0x003FF800U + +/*DX IO Receiver Mode*/ +#undef DDR_PHY_DX8SL3IOCR_DXRXM_DEFVAL +#undef DDR_PHY_DX8SL3IOCR_DXRXM_SHIFT +#undef DDR_PHY_DX8SL3IOCR_DXRXM_MASK +#define DDR_PHY_DX8SL3IOCR_DXRXM_DEFVAL 0x00000000 +#define DDR_PHY_DX8SL3IOCR_DXRXM_SHIFT 0 +#define DDR_PHY_DX8SL3IOCR_DXRXM_MASK 0x000007FFU + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL4OSC_RESERVED_31_30_DEFVAL +#undef DDR_PHY_DX8SL4OSC_RESERVED_31_30_SHIFT +#undef DDR_PHY_DX8SL4OSC_RESERVED_31_30_MASK +#define DDR_PHY_DX8SL4OSC_RESERVED_31_30_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL4OSC_RESERVED_31_30_SHIFT 30 +#define DDR_PHY_DX8SL4OSC_RESERVED_31_30_MASK 0xC0000000U + +/*Enable Clock Gating for DX ddr_clk*/ +#undef DDR_PHY_DX8SL4OSC_GATEDXRDCLK_DEFVAL +#undef DDR_PHY_DX8SL4OSC_GATEDXRDCLK_SHIFT +#undef DDR_PHY_DX8SL4OSC_GATEDXRDCLK_MASK +#define DDR_PHY_DX8SL4OSC_GATEDXRDCLK_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL4OSC_GATEDXRDCLK_SHIFT 28 +#define DDR_PHY_DX8SL4OSC_GATEDXRDCLK_MASK 0x30000000U + +/*Enable Clock Gating for DX ctl_rd_clk*/ +#undef DDR_PHY_DX8SL4OSC_GATEDXDDRCLK_DEFVAL +#undef DDR_PHY_DX8SL4OSC_GATEDXDDRCLK_SHIFT +#undef DDR_PHY_DX8SL4OSC_GATEDXDDRCLK_MASK +#define DDR_PHY_DX8SL4OSC_GATEDXDDRCLK_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL4OSC_GATEDXDDRCLK_SHIFT 26 +#define DDR_PHY_DX8SL4OSC_GATEDXDDRCLK_MASK 0x0C000000U + +/*Enable Clock Gating for DX ctl_clk*/ +#undef DDR_PHY_DX8SL4OSC_GATEDXCTLCLK_DEFVAL +#undef DDR_PHY_DX8SL4OSC_GATEDXCTLCLK_SHIFT +#undef DDR_PHY_DX8SL4OSC_GATEDXCTLCLK_MASK +#define DDR_PHY_DX8SL4OSC_GATEDXCTLCLK_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL4OSC_GATEDXCTLCLK_SHIFT 24 +#define DDR_PHY_DX8SL4OSC_GATEDXCTLCLK_MASK 0x03000000U + +/*Selects the level to which clocks will be stalled when clock gating is enabled.*/ +#undef DDR_PHY_DX8SL4OSC_CLKLEVEL_DEFVAL +#undef DDR_PHY_DX8SL4OSC_CLKLEVEL_SHIFT +#undef DDR_PHY_DX8SL4OSC_CLKLEVEL_MASK +#define DDR_PHY_DX8SL4OSC_CLKLEVEL_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL4OSC_CLKLEVEL_SHIFT 22 +#define DDR_PHY_DX8SL4OSC_CLKLEVEL_MASK 0x00C00000U + +/*Loopback Mode*/ +#undef DDR_PHY_DX8SL4OSC_LBMODE_DEFVAL +#undef DDR_PHY_DX8SL4OSC_LBMODE_SHIFT +#undef DDR_PHY_DX8SL4OSC_LBMODE_MASK +#define DDR_PHY_DX8SL4OSC_LBMODE_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL4OSC_LBMODE_SHIFT 21 +#define DDR_PHY_DX8SL4OSC_LBMODE_MASK 0x00200000U + +/*Load GSDQS LCDL with 2x the calibrated GSDQSPRD value*/ +#undef DDR_PHY_DX8SL4OSC_LBGSDQS_DEFVAL +#undef DDR_PHY_DX8SL4OSC_LBGSDQS_SHIFT +#undef DDR_PHY_DX8SL4OSC_LBGSDQS_MASK +#define DDR_PHY_DX8SL4OSC_LBGSDQS_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL4OSC_LBGSDQS_SHIFT 20 +#define DDR_PHY_DX8SL4OSC_LBGSDQS_MASK 0x00100000U + +/*Loopback DQS Gating*/ +#undef DDR_PHY_DX8SL4OSC_LBGDQS_DEFVAL +#undef DDR_PHY_DX8SL4OSC_LBGDQS_SHIFT +#undef DDR_PHY_DX8SL4OSC_LBGDQS_MASK +#define DDR_PHY_DX8SL4OSC_LBGDQS_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL4OSC_LBGDQS_SHIFT 18 +#define DDR_PHY_DX8SL4OSC_LBGDQS_MASK 0x000C0000U + +/*Loopback DQS Shift*/ +#undef DDR_PHY_DX8SL4OSC_LBDQSS_DEFVAL +#undef DDR_PHY_DX8SL4OSC_LBDQSS_SHIFT +#undef DDR_PHY_DX8SL4OSC_LBDQSS_MASK +#define DDR_PHY_DX8SL4OSC_LBDQSS_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL4OSC_LBDQSS_SHIFT 17 +#define DDR_PHY_DX8SL4OSC_LBDQSS_MASK 0x00020000U + +/*PHY High-Speed Reset*/ +#undef DDR_PHY_DX8SL4OSC_PHYHRST_DEFVAL +#undef DDR_PHY_DX8SL4OSC_PHYHRST_SHIFT +#undef DDR_PHY_DX8SL4OSC_PHYHRST_MASK +#define DDR_PHY_DX8SL4OSC_PHYHRST_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL4OSC_PHYHRST_SHIFT 16 +#define DDR_PHY_DX8SL4OSC_PHYHRST_MASK 0x00010000U + +/*PHY FIFO Reset*/ +#undef DDR_PHY_DX8SL4OSC_PHYFRST_DEFVAL +#undef DDR_PHY_DX8SL4OSC_PHYFRST_SHIFT +#undef DDR_PHY_DX8SL4OSC_PHYFRST_MASK +#define DDR_PHY_DX8SL4OSC_PHYFRST_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL4OSC_PHYFRST_SHIFT 15 +#define DDR_PHY_DX8SL4OSC_PHYFRST_MASK 0x00008000U + +/*Delay Line Test Start*/ +#undef DDR_PHY_DX8SL4OSC_DLTST_DEFVAL +#undef DDR_PHY_DX8SL4OSC_DLTST_SHIFT +#undef DDR_PHY_DX8SL4OSC_DLTST_MASK +#define DDR_PHY_DX8SL4OSC_DLTST_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL4OSC_DLTST_SHIFT 14 +#define DDR_PHY_DX8SL4OSC_DLTST_MASK 0x00004000U + +/*Delay Line Test Mode*/ +#undef DDR_PHY_DX8SL4OSC_DLTMODE_DEFVAL +#undef DDR_PHY_DX8SL4OSC_DLTMODE_SHIFT +#undef DDR_PHY_DX8SL4OSC_DLTMODE_MASK +#define DDR_PHY_DX8SL4OSC_DLTMODE_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL4OSC_DLTMODE_SHIFT 13 +#define DDR_PHY_DX8SL4OSC_DLTMODE_MASK 0x00002000U + +/*Reserved. Caution, do not write to this register field.*/ +#undef DDR_PHY_DX8SL4OSC_RESERVED_12_11_DEFVAL +#undef DDR_PHY_DX8SL4OSC_RESERVED_12_11_SHIFT +#undef DDR_PHY_DX8SL4OSC_RESERVED_12_11_MASK +#define DDR_PHY_DX8SL4OSC_RESERVED_12_11_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL4OSC_RESERVED_12_11_SHIFT 11 +#define DDR_PHY_DX8SL4OSC_RESERVED_12_11_MASK 0x00001800U + +/*Oscillator Mode Write-Data Delay Line Select*/ +#undef DDR_PHY_DX8SL4OSC_OSCWDDL_DEFVAL +#undef DDR_PHY_DX8SL4OSC_OSCWDDL_SHIFT +#undef DDR_PHY_DX8SL4OSC_OSCWDDL_MASK +#define DDR_PHY_DX8SL4OSC_OSCWDDL_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL4OSC_OSCWDDL_SHIFT 9 +#define DDR_PHY_DX8SL4OSC_OSCWDDL_MASK 0x00000600U + +/*Reserved. Caution, do not write to this register field.*/ +#undef DDR_PHY_DX8SL4OSC_RESERVED_8_7_DEFVAL +#undef DDR_PHY_DX8SL4OSC_RESERVED_8_7_SHIFT +#undef DDR_PHY_DX8SL4OSC_RESERVED_8_7_MASK +#define DDR_PHY_DX8SL4OSC_RESERVED_8_7_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL4OSC_RESERVED_8_7_SHIFT 7 +#define DDR_PHY_DX8SL4OSC_RESERVED_8_7_MASK 0x00000180U + +/*Oscillator Mode Write-Leveling Delay Line Select*/ +#undef DDR_PHY_DX8SL4OSC_OSCWDL_DEFVAL +#undef DDR_PHY_DX8SL4OSC_OSCWDL_SHIFT +#undef DDR_PHY_DX8SL4OSC_OSCWDL_MASK +#define DDR_PHY_DX8SL4OSC_OSCWDL_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL4OSC_OSCWDL_SHIFT 5 +#define DDR_PHY_DX8SL4OSC_OSCWDL_MASK 0x00000060U + +/*Oscillator Mode Division*/ +#undef DDR_PHY_DX8SL4OSC_OSCDIV_DEFVAL +#undef DDR_PHY_DX8SL4OSC_OSCDIV_SHIFT +#undef DDR_PHY_DX8SL4OSC_OSCDIV_MASK +#define DDR_PHY_DX8SL4OSC_OSCDIV_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL4OSC_OSCDIV_SHIFT 1 +#define DDR_PHY_DX8SL4OSC_OSCDIV_MASK 0x0000001EU + +/*Oscillator Enable*/ +#undef DDR_PHY_DX8SL4OSC_OSCEN_DEFVAL +#undef DDR_PHY_DX8SL4OSC_OSCEN_SHIFT +#undef DDR_PHY_DX8SL4OSC_OSCEN_MASK +#define DDR_PHY_DX8SL4OSC_OSCEN_DEFVAL 0x00019FFE +#define DDR_PHY_DX8SL4OSC_OSCEN_SHIFT 0 +#define DDR_PHY_DX8SL4OSC_OSCEN_MASK 0x00000001U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL4DQSCTL_RESERVED_31_25_DEFVAL +#undef DDR_PHY_DX8SL4DQSCTL_RESERVED_31_25_SHIFT +#undef DDR_PHY_DX8SL4DQSCTL_RESERVED_31_25_MASK +#define DDR_PHY_DX8SL4DQSCTL_RESERVED_31_25_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL4DQSCTL_RESERVED_31_25_SHIFT 25 +#define DDR_PHY_DX8SL4DQSCTL_RESERVED_31_25_MASK 0xFE000000U + +/*Read Path Rise-to-Rise Mode*/ +#undef DDR_PHY_DX8SL4DQSCTL_RRRMODE_DEFVAL +#undef DDR_PHY_DX8SL4DQSCTL_RRRMODE_SHIFT +#undef DDR_PHY_DX8SL4DQSCTL_RRRMODE_MASK +#define DDR_PHY_DX8SL4DQSCTL_RRRMODE_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL4DQSCTL_RRRMODE_SHIFT 24 +#define DDR_PHY_DX8SL4DQSCTL_RRRMODE_MASK 0x01000000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL4DQSCTL_RESERVED_23_22_DEFVAL +#undef DDR_PHY_DX8SL4DQSCTL_RESERVED_23_22_SHIFT +#undef DDR_PHY_DX8SL4DQSCTL_RESERVED_23_22_MASK +#define DDR_PHY_DX8SL4DQSCTL_RESERVED_23_22_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL4DQSCTL_RESERVED_23_22_SHIFT 22 +#define DDR_PHY_DX8SL4DQSCTL_RESERVED_23_22_MASK 0x00C00000U + +/*Write Path Rise-to-Rise Mode*/ +#undef DDR_PHY_DX8SL4DQSCTL_WRRMODE_DEFVAL +#undef DDR_PHY_DX8SL4DQSCTL_WRRMODE_SHIFT +#undef DDR_PHY_DX8SL4DQSCTL_WRRMODE_MASK +#define DDR_PHY_DX8SL4DQSCTL_WRRMODE_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL4DQSCTL_WRRMODE_SHIFT 21 +#define DDR_PHY_DX8SL4DQSCTL_WRRMODE_MASK 0x00200000U + +/*DQS Gate Extension*/ +#undef DDR_PHY_DX8SL4DQSCTL_DQSGX_DEFVAL +#undef DDR_PHY_DX8SL4DQSCTL_DQSGX_SHIFT +#undef DDR_PHY_DX8SL4DQSCTL_DQSGX_MASK +#define DDR_PHY_DX8SL4DQSCTL_DQSGX_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL4DQSCTL_DQSGX_SHIFT 19 +#define DDR_PHY_DX8SL4DQSCTL_DQSGX_MASK 0x00180000U + +/*Low Power PLL Power Down*/ +#undef DDR_PHY_DX8SL4DQSCTL_LPPLLPD_DEFVAL +#undef DDR_PHY_DX8SL4DQSCTL_LPPLLPD_SHIFT +#undef DDR_PHY_DX8SL4DQSCTL_LPPLLPD_MASK +#define DDR_PHY_DX8SL4DQSCTL_LPPLLPD_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL4DQSCTL_LPPLLPD_SHIFT 18 +#define DDR_PHY_DX8SL4DQSCTL_LPPLLPD_MASK 0x00040000U + +/*Low Power I/O Power Down*/ +#undef DDR_PHY_DX8SL4DQSCTL_LPIOPD_DEFVAL +#undef DDR_PHY_DX8SL4DQSCTL_LPIOPD_SHIFT +#undef DDR_PHY_DX8SL4DQSCTL_LPIOPD_MASK +#define DDR_PHY_DX8SL4DQSCTL_LPIOPD_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL4DQSCTL_LPIOPD_SHIFT 17 +#define DDR_PHY_DX8SL4DQSCTL_LPIOPD_MASK 0x00020000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL4DQSCTL_RESERVED_16_15_DEFVAL +#undef DDR_PHY_DX8SL4DQSCTL_RESERVED_16_15_SHIFT +#undef DDR_PHY_DX8SL4DQSCTL_RESERVED_16_15_MASK +#define DDR_PHY_DX8SL4DQSCTL_RESERVED_16_15_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL4DQSCTL_RESERVED_16_15_SHIFT 15 +#define DDR_PHY_DX8SL4DQSCTL_RESERVED_16_15_MASK 0x00018000U + +/*QS Counter Enable*/ +#undef DDR_PHY_DX8SL4DQSCTL_QSCNTEN_DEFVAL +#undef DDR_PHY_DX8SL4DQSCTL_QSCNTEN_SHIFT +#undef DDR_PHY_DX8SL4DQSCTL_QSCNTEN_MASK +#define DDR_PHY_DX8SL4DQSCTL_QSCNTEN_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL4DQSCTL_QSCNTEN_SHIFT 14 +#define DDR_PHY_DX8SL4DQSCTL_QSCNTEN_MASK 0x00004000U + +/*Unused DQ I/O Mode*/ +#undef DDR_PHY_DX8SL4DQSCTL_UDQIOM_DEFVAL +#undef DDR_PHY_DX8SL4DQSCTL_UDQIOM_SHIFT +#undef DDR_PHY_DX8SL4DQSCTL_UDQIOM_MASK +#define DDR_PHY_DX8SL4DQSCTL_UDQIOM_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL4DQSCTL_UDQIOM_SHIFT 13 +#define DDR_PHY_DX8SL4DQSCTL_UDQIOM_MASK 0x00002000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL4DQSCTL_RESERVED_12_10_DEFVAL +#undef DDR_PHY_DX8SL4DQSCTL_RESERVED_12_10_SHIFT +#undef DDR_PHY_DX8SL4DQSCTL_RESERVED_12_10_MASK +#define DDR_PHY_DX8SL4DQSCTL_RESERVED_12_10_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL4DQSCTL_RESERVED_12_10_SHIFT 10 +#define DDR_PHY_DX8SL4DQSCTL_RESERVED_12_10_MASK 0x00001C00U + +/*Data Slew Rate*/ +#undef DDR_PHY_DX8SL4DQSCTL_DXSR_DEFVAL +#undef DDR_PHY_DX8SL4DQSCTL_DXSR_SHIFT +#undef DDR_PHY_DX8SL4DQSCTL_DXSR_MASK +#define DDR_PHY_DX8SL4DQSCTL_DXSR_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL4DQSCTL_DXSR_SHIFT 8 +#define DDR_PHY_DX8SL4DQSCTL_DXSR_MASK 0x00000300U + +/*DQS_N Resistor*/ +#undef DDR_PHY_DX8SL4DQSCTL_DQSNRES_DEFVAL +#undef DDR_PHY_DX8SL4DQSCTL_DQSNRES_SHIFT +#undef DDR_PHY_DX8SL4DQSCTL_DQSNRES_MASK +#define DDR_PHY_DX8SL4DQSCTL_DQSNRES_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL4DQSCTL_DQSNRES_SHIFT 4 +#define DDR_PHY_DX8SL4DQSCTL_DQSNRES_MASK 0x000000F0U + +/*DQS Resistor*/ +#undef DDR_PHY_DX8SL4DQSCTL_DQSRES_DEFVAL +#undef DDR_PHY_DX8SL4DQSCTL_DQSRES_SHIFT +#undef DDR_PHY_DX8SL4DQSCTL_DQSRES_MASK +#define DDR_PHY_DX8SL4DQSCTL_DQSRES_DEFVAL 0x01264000 +#define DDR_PHY_DX8SL4DQSCTL_DQSRES_SHIFT 0 +#define DDR_PHY_DX8SL4DQSCTL_DQSRES_MASK 0x0000000FU + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL4DXCTL2_RESERVED_31_24_DEFVAL +#undef DDR_PHY_DX8SL4DXCTL2_RESERVED_31_24_SHIFT +#undef DDR_PHY_DX8SL4DXCTL2_RESERVED_31_24_MASK +#define DDR_PHY_DX8SL4DXCTL2_RESERVED_31_24_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL4DXCTL2_RESERVED_31_24_SHIFT 24 +#define DDR_PHY_DX8SL4DXCTL2_RESERVED_31_24_MASK 0xFF000000U + +/*Configurable Read Data Enable*/ +#undef DDR_PHY_DX8SL4DXCTL2_CRDEN_DEFVAL +#undef DDR_PHY_DX8SL4DXCTL2_CRDEN_SHIFT +#undef DDR_PHY_DX8SL4DXCTL2_CRDEN_MASK +#define DDR_PHY_DX8SL4DXCTL2_CRDEN_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL4DXCTL2_CRDEN_SHIFT 23 +#define DDR_PHY_DX8SL4DXCTL2_CRDEN_MASK 0x00800000U + +/*OX Extension during Post-amble*/ +#undef DDR_PHY_DX8SL4DXCTL2_POSOEX_DEFVAL +#undef DDR_PHY_DX8SL4DXCTL2_POSOEX_SHIFT +#undef DDR_PHY_DX8SL4DXCTL2_POSOEX_MASK +#define DDR_PHY_DX8SL4DXCTL2_POSOEX_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL4DXCTL2_POSOEX_SHIFT 20 +#define DDR_PHY_DX8SL4DXCTL2_POSOEX_MASK 0x00700000U + +/*OE Extension during Pre-amble*/ +#undef DDR_PHY_DX8SL4DXCTL2_PREOEX_DEFVAL +#undef DDR_PHY_DX8SL4DXCTL2_PREOEX_SHIFT +#undef DDR_PHY_DX8SL4DXCTL2_PREOEX_MASK +#define DDR_PHY_DX8SL4DXCTL2_PREOEX_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL4DXCTL2_PREOEX_SHIFT 18 +#define DDR_PHY_DX8SL4DXCTL2_PREOEX_MASK 0x000C0000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL4DXCTL2_RESERVED_17_DEFVAL +#undef DDR_PHY_DX8SL4DXCTL2_RESERVED_17_SHIFT +#undef DDR_PHY_DX8SL4DXCTL2_RESERVED_17_MASK +#define DDR_PHY_DX8SL4DXCTL2_RESERVED_17_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL4DXCTL2_RESERVED_17_SHIFT 17 +#define DDR_PHY_DX8SL4DXCTL2_RESERVED_17_MASK 0x00020000U + +/*I/O Assisted Gate Select*/ +#undef DDR_PHY_DX8SL4DXCTL2_IOAG_DEFVAL +#undef DDR_PHY_DX8SL4DXCTL2_IOAG_SHIFT +#undef DDR_PHY_DX8SL4DXCTL2_IOAG_MASK +#define DDR_PHY_DX8SL4DXCTL2_IOAG_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL4DXCTL2_IOAG_SHIFT 16 +#define DDR_PHY_DX8SL4DXCTL2_IOAG_MASK 0x00010000U + +/*I/O Loopback Select*/ +#undef DDR_PHY_DX8SL4DXCTL2_IOLB_DEFVAL +#undef DDR_PHY_DX8SL4DXCTL2_IOLB_SHIFT +#undef DDR_PHY_DX8SL4DXCTL2_IOLB_MASK +#define DDR_PHY_DX8SL4DXCTL2_IOLB_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL4DXCTL2_IOLB_SHIFT 15 +#define DDR_PHY_DX8SL4DXCTL2_IOLB_MASK 0x00008000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL4DXCTL2_RESERVED_14_13_DEFVAL +#undef DDR_PHY_DX8SL4DXCTL2_RESERVED_14_13_SHIFT +#undef DDR_PHY_DX8SL4DXCTL2_RESERVED_14_13_MASK +#define DDR_PHY_DX8SL4DXCTL2_RESERVED_14_13_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL4DXCTL2_RESERVED_14_13_SHIFT 13 +#define DDR_PHY_DX8SL4DXCTL2_RESERVED_14_13_MASK 0x00006000U + +/*Low Power Wakeup Threshold*/ +#undef DDR_PHY_DX8SL4DXCTL2_LPWAKEUP_THRSH_DEFVAL +#undef DDR_PHY_DX8SL4DXCTL2_LPWAKEUP_THRSH_SHIFT +#undef DDR_PHY_DX8SL4DXCTL2_LPWAKEUP_THRSH_MASK +#define DDR_PHY_DX8SL4DXCTL2_LPWAKEUP_THRSH_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL4DXCTL2_LPWAKEUP_THRSH_SHIFT 9 +#define DDR_PHY_DX8SL4DXCTL2_LPWAKEUP_THRSH_MASK 0x00001E00U + +/*Read Data Bus Inversion Enable*/ +#undef DDR_PHY_DX8SL4DXCTL2_RDBI_DEFVAL +#undef DDR_PHY_DX8SL4DXCTL2_RDBI_SHIFT +#undef DDR_PHY_DX8SL4DXCTL2_RDBI_MASK +#define DDR_PHY_DX8SL4DXCTL2_RDBI_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL4DXCTL2_RDBI_SHIFT 8 +#define DDR_PHY_DX8SL4DXCTL2_RDBI_MASK 0x00000100U + +/*Write Data Bus Inversion Enable*/ +#undef DDR_PHY_DX8SL4DXCTL2_WDBI_DEFVAL +#undef DDR_PHY_DX8SL4DXCTL2_WDBI_SHIFT +#undef DDR_PHY_DX8SL4DXCTL2_WDBI_MASK +#define DDR_PHY_DX8SL4DXCTL2_WDBI_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL4DXCTL2_WDBI_SHIFT 7 +#define DDR_PHY_DX8SL4DXCTL2_WDBI_MASK 0x00000080U + +/*PUB Read FIFO Bypass*/ +#undef DDR_PHY_DX8SL4DXCTL2_PRFBYP_DEFVAL +#undef DDR_PHY_DX8SL4DXCTL2_PRFBYP_SHIFT +#undef DDR_PHY_DX8SL4DXCTL2_PRFBYP_MASK +#define DDR_PHY_DX8SL4DXCTL2_PRFBYP_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL4DXCTL2_PRFBYP_SHIFT 6 +#define DDR_PHY_DX8SL4DXCTL2_PRFBYP_MASK 0x00000040U + +/*DATX8 Receive FIFO Read Mode*/ +#undef DDR_PHY_DX8SL4DXCTL2_RDMODE_DEFVAL +#undef DDR_PHY_DX8SL4DXCTL2_RDMODE_SHIFT +#undef DDR_PHY_DX8SL4DXCTL2_RDMODE_MASK +#define DDR_PHY_DX8SL4DXCTL2_RDMODE_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL4DXCTL2_RDMODE_SHIFT 4 +#define DDR_PHY_DX8SL4DXCTL2_RDMODE_MASK 0x00000030U + +/*Disables the Read FIFO Reset*/ +#undef DDR_PHY_DX8SL4DXCTL2_DISRST_DEFVAL +#undef DDR_PHY_DX8SL4DXCTL2_DISRST_SHIFT +#undef DDR_PHY_DX8SL4DXCTL2_DISRST_MASK +#define DDR_PHY_DX8SL4DXCTL2_DISRST_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL4DXCTL2_DISRST_SHIFT 3 +#define DDR_PHY_DX8SL4DXCTL2_DISRST_MASK 0x00000008U + +/*Read DQS Gate I/O Loopback*/ +#undef DDR_PHY_DX8SL4DXCTL2_DQSGLB_DEFVAL +#undef DDR_PHY_DX8SL4DXCTL2_DQSGLB_SHIFT +#undef DDR_PHY_DX8SL4DXCTL2_DQSGLB_MASK +#define DDR_PHY_DX8SL4DXCTL2_DQSGLB_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL4DXCTL2_DQSGLB_SHIFT 1 +#define DDR_PHY_DX8SL4DXCTL2_DQSGLB_MASK 0x00000006U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL4DXCTL2_RESERVED_0_DEFVAL +#undef DDR_PHY_DX8SL4DXCTL2_RESERVED_0_SHIFT +#undef DDR_PHY_DX8SL4DXCTL2_RESERVED_0_MASK +#define DDR_PHY_DX8SL4DXCTL2_RESERVED_0_DEFVAL 0x00141800 +#define DDR_PHY_DX8SL4DXCTL2_RESERVED_0_SHIFT 0 +#define DDR_PHY_DX8SL4DXCTL2_RESERVED_0_MASK 0x00000001U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SL4IOCR_RESERVED_31_DEFVAL +#undef DDR_PHY_DX8SL4IOCR_RESERVED_31_SHIFT +#undef DDR_PHY_DX8SL4IOCR_RESERVED_31_MASK +#define DDR_PHY_DX8SL4IOCR_RESERVED_31_DEFVAL 0x00000000 +#define DDR_PHY_DX8SL4IOCR_RESERVED_31_SHIFT 31 +#define DDR_PHY_DX8SL4IOCR_RESERVED_31_MASK 0x80000000U + +/*PVREF_DAC REFSEL range select*/ +#undef DDR_PHY_DX8SL4IOCR_DXDACRANGE_DEFVAL +#undef DDR_PHY_DX8SL4IOCR_DXDACRANGE_SHIFT +#undef DDR_PHY_DX8SL4IOCR_DXDACRANGE_MASK +#define DDR_PHY_DX8SL4IOCR_DXDACRANGE_DEFVAL 0x00000000 +#define DDR_PHY_DX8SL4IOCR_DXDACRANGE_SHIFT 28 +#define DDR_PHY_DX8SL4IOCR_DXDACRANGE_MASK 0x70000000U + +/*IOM bits for PVREF, PVREF_DAC and PVREFE cells in DX IO ring*/ +#undef DDR_PHY_DX8SL4IOCR_DXVREFIOM_DEFVAL +#undef DDR_PHY_DX8SL4IOCR_DXVREFIOM_SHIFT +#undef DDR_PHY_DX8SL4IOCR_DXVREFIOM_MASK +#define DDR_PHY_DX8SL4IOCR_DXVREFIOM_DEFVAL 0x00000000 +#define DDR_PHY_DX8SL4IOCR_DXVREFIOM_SHIFT 25 +#define DDR_PHY_DX8SL4IOCR_DXVREFIOM_MASK 0x0E000000U + +/*DX IO Mode*/ +#undef DDR_PHY_DX8SL4IOCR_DXIOM_DEFVAL +#undef DDR_PHY_DX8SL4IOCR_DXIOM_SHIFT +#undef DDR_PHY_DX8SL4IOCR_DXIOM_MASK +#define DDR_PHY_DX8SL4IOCR_DXIOM_DEFVAL 0x00000000 +#define DDR_PHY_DX8SL4IOCR_DXIOM_SHIFT 22 +#define DDR_PHY_DX8SL4IOCR_DXIOM_MASK 0x01C00000U + +/*DX IO Transmitter Mode*/ +#undef DDR_PHY_DX8SL4IOCR_DXTXM_DEFVAL +#undef DDR_PHY_DX8SL4IOCR_DXTXM_SHIFT +#undef DDR_PHY_DX8SL4IOCR_DXTXM_MASK +#define DDR_PHY_DX8SL4IOCR_DXTXM_DEFVAL 0x00000000 +#define DDR_PHY_DX8SL4IOCR_DXTXM_SHIFT 11 +#define DDR_PHY_DX8SL4IOCR_DXTXM_MASK 0x003FF800U + +/*DX IO Receiver Mode*/ +#undef DDR_PHY_DX8SL4IOCR_DXRXM_DEFVAL +#undef DDR_PHY_DX8SL4IOCR_DXRXM_SHIFT +#undef DDR_PHY_DX8SL4IOCR_DXRXM_MASK +#define DDR_PHY_DX8SL4IOCR_DXRXM_DEFVAL 0x00000000 +#define DDR_PHY_DX8SL4IOCR_DXRXM_SHIFT 0 +#define DDR_PHY_DX8SL4IOCR_DXRXM_MASK 0x000007FFU + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SLBDQSCTL_RESERVED_31_25_DEFVAL +#undef DDR_PHY_DX8SLBDQSCTL_RESERVED_31_25_SHIFT +#undef DDR_PHY_DX8SLBDQSCTL_RESERVED_31_25_MASK +#define DDR_PHY_DX8SLBDQSCTL_RESERVED_31_25_DEFVAL 0x00000000 +#define DDR_PHY_DX8SLBDQSCTL_RESERVED_31_25_SHIFT 25 +#define DDR_PHY_DX8SLBDQSCTL_RESERVED_31_25_MASK 0xFE000000U + +/*Read Path Rise-to-Rise Mode*/ +#undef DDR_PHY_DX8SLBDQSCTL_RRRMODE_DEFVAL +#undef DDR_PHY_DX8SLBDQSCTL_RRRMODE_SHIFT +#undef DDR_PHY_DX8SLBDQSCTL_RRRMODE_MASK +#define DDR_PHY_DX8SLBDQSCTL_RRRMODE_DEFVAL 0x00000000 +#define DDR_PHY_DX8SLBDQSCTL_RRRMODE_SHIFT 24 +#define DDR_PHY_DX8SLBDQSCTL_RRRMODE_MASK 0x01000000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SLBDQSCTL_RESERVED_23_22_DEFVAL +#undef DDR_PHY_DX8SLBDQSCTL_RESERVED_23_22_SHIFT +#undef DDR_PHY_DX8SLBDQSCTL_RESERVED_23_22_MASK +#define DDR_PHY_DX8SLBDQSCTL_RESERVED_23_22_DEFVAL 0x00000000 +#define DDR_PHY_DX8SLBDQSCTL_RESERVED_23_22_SHIFT 22 +#define DDR_PHY_DX8SLBDQSCTL_RESERVED_23_22_MASK 0x00C00000U + +/*Write Path Rise-to-Rise Mode*/ +#undef DDR_PHY_DX8SLBDQSCTL_WRRMODE_DEFVAL +#undef DDR_PHY_DX8SLBDQSCTL_WRRMODE_SHIFT +#undef DDR_PHY_DX8SLBDQSCTL_WRRMODE_MASK +#define DDR_PHY_DX8SLBDQSCTL_WRRMODE_DEFVAL 0x00000000 +#define DDR_PHY_DX8SLBDQSCTL_WRRMODE_SHIFT 21 +#define DDR_PHY_DX8SLBDQSCTL_WRRMODE_MASK 0x00200000U + +/*DQS Gate Extension*/ +#undef DDR_PHY_DX8SLBDQSCTL_DQSGX_DEFVAL +#undef DDR_PHY_DX8SLBDQSCTL_DQSGX_SHIFT +#undef DDR_PHY_DX8SLBDQSCTL_DQSGX_MASK +#define DDR_PHY_DX8SLBDQSCTL_DQSGX_DEFVAL 0x00000000 +#define DDR_PHY_DX8SLBDQSCTL_DQSGX_SHIFT 19 +#define DDR_PHY_DX8SLBDQSCTL_DQSGX_MASK 0x00180000U + +/*Low Power PLL Power Down*/ +#undef DDR_PHY_DX8SLBDQSCTL_LPPLLPD_DEFVAL +#undef DDR_PHY_DX8SLBDQSCTL_LPPLLPD_SHIFT +#undef DDR_PHY_DX8SLBDQSCTL_LPPLLPD_MASK +#define DDR_PHY_DX8SLBDQSCTL_LPPLLPD_DEFVAL 0x00000000 +#define DDR_PHY_DX8SLBDQSCTL_LPPLLPD_SHIFT 18 +#define DDR_PHY_DX8SLBDQSCTL_LPPLLPD_MASK 0x00040000U + +/*Low Power I/O Power Down*/ +#undef DDR_PHY_DX8SLBDQSCTL_LPIOPD_DEFVAL +#undef DDR_PHY_DX8SLBDQSCTL_LPIOPD_SHIFT +#undef DDR_PHY_DX8SLBDQSCTL_LPIOPD_MASK +#define DDR_PHY_DX8SLBDQSCTL_LPIOPD_DEFVAL 0x00000000 +#define DDR_PHY_DX8SLBDQSCTL_LPIOPD_SHIFT 17 +#define DDR_PHY_DX8SLBDQSCTL_LPIOPD_MASK 0x00020000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SLBDQSCTL_RESERVED_16_15_DEFVAL +#undef DDR_PHY_DX8SLBDQSCTL_RESERVED_16_15_SHIFT +#undef DDR_PHY_DX8SLBDQSCTL_RESERVED_16_15_MASK +#define DDR_PHY_DX8SLBDQSCTL_RESERVED_16_15_DEFVAL 0x00000000 +#define DDR_PHY_DX8SLBDQSCTL_RESERVED_16_15_SHIFT 15 +#define DDR_PHY_DX8SLBDQSCTL_RESERVED_16_15_MASK 0x00018000U + +/*QS Counter Enable*/ +#undef DDR_PHY_DX8SLBDQSCTL_QSCNTEN_DEFVAL +#undef DDR_PHY_DX8SLBDQSCTL_QSCNTEN_SHIFT +#undef DDR_PHY_DX8SLBDQSCTL_QSCNTEN_MASK +#define DDR_PHY_DX8SLBDQSCTL_QSCNTEN_DEFVAL 0x00000000 +#define DDR_PHY_DX8SLBDQSCTL_QSCNTEN_SHIFT 14 +#define DDR_PHY_DX8SLBDQSCTL_QSCNTEN_MASK 0x00004000U + +/*Unused DQ I/O Mode*/ +#undef DDR_PHY_DX8SLBDQSCTL_UDQIOM_DEFVAL +#undef DDR_PHY_DX8SLBDQSCTL_UDQIOM_SHIFT +#undef DDR_PHY_DX8SLBDQSCTL_UDQIOM_MASK +#define DDR_PHY_DX8SLBDQSCTL_UDQIOM_DEFVAL 0x00000000 +#define DDR_PHY_DX8SLBDQSCTL_UDQIOM_SHIFT 13 +#define DDR_PHY_DX8SLBDQSCTL_UDQIOM_MASK 0x00002000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_DX8SLBDQSCTL_RESERVED_12_10_DEFVAL +#undef DDR_PHY_DX8SLBDQSCTL_RESERVED_12_10_SHIFT +#undef DDR_PHY_DX8SLBDQSCTL_RESERVED_12_10_MASK +#define DDR_PHY_DX8SLBDQSCTL_RESERVED_12_10_DEFVAL 0x00000000 +#define DDR_PHY_DX8SLBDQSCTL_RESERVED_12_10_SHIFT 10 +#define DDR_PHY_DX8SLBDQSCTL_RESERVED_12_10_MASK 0x00001C00U + +/*Data Slew Rate*/ +#undef DDR_PHY_DX8SLBDQSCTL_DXSR_DEFVAL +#undef DDR_PHY_DX8SLBDQSCTL_DXSR_SHIFT +#undef DDR_PHY_DX8SLBDQSCTL_DXSR_MASK +#define DDR_PHY_DX8SLBDQSCTL_DXSR_DEFVAL 0x00000000 +#define DDR_PHY_DX8SLBDQSCTL_DXSR_SHIFT 8 +#define DDR_PHY_DX8SLBDQSCTL_DXSR_MASK 0x00000300U + +/*DQS# Resistor*/ +#undef DDR_PHY_DX8SLBDQSCTL_DQSNRES_DEFVAL +#undef DDR_PHY_DX8SLBDQSCTL_DQSNRES_SHIFT +#undef DDR_PHY_DX8SLBDQSCTL_DQSNRES_MASK +#define DDR_PHY_DX8SLBDQSCTL_DQSNRES_DEFVAL 0x00000000 +#define DDR_PHY_DX8SLBDQSCTL_DQSNRES_SHIFT 4 +#define DDR_PHY_DX8SLBDQSCTL_DQSNRES_MASK 0x000000F0U + +/*DQS Resistor*/ +#undef DDR_PHY_DX8SLBDQSCTL_DQSRES_DEFVAL +#undef DDR_PHY_DX8SLBDQSCTL_DQSRES_SHIFT +#undef DDR_PHY_DX8SLBDQSCTL_DQSRES_MASK +#define DDR_PHY_DX8SLBDQSCTL_DQSRES_DEFVAL 0x00000000 +#define DDR_PHY_DX8SLBDQSCTL_DQSRES_SHIFT 0 +#define DDR_PHY_DX8SLBDQSCTL_DQSRES_MASK 0x0000000FU + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_PIR_RESERVED_31_DEFVAL +#undef DDR_PHY_PIR_RESERVED_31_SHIFT +#undef DDR_PHY_PIR_RESERVED_31_MASK +#define DDR_PHY_PIR_RESERVED_31_DEFVAL 0x00000000 +#define DDR_PHY_PIR_RESERVED_31_SHIFT 31 +#define DDR_PHY_PIR_RESERVED_31_MASK 0x80000000U + +/*Impedance Calibration Bypass*/ +#undef DDR_PHY_PIR_ZCALBYP_DEFVAL +#undef DDR_PHY_PIR_ZCALBYP_SHIFT +#undef DDR_PHY_PIR_ZCALBYP_MASK +#define DDR_PHY_PIR_ZCALBYP_DEFVAL 0x00000000 +#define DDR_PHY_PIR_ZCALBYP_SHIFT 30 +#define DDR_PHY_PIR_ZCALBYP_MASK 0x40000000U + +/*Digital Delay Line (DDL) Calibration Pause*/ +#undef DDR_PHY_PIR_DCALPSE_DEFVAL +#undef DDR_PHY_PIR_DCALPSE_SHIFT +#undef DDR_PHY_PIR_DCALPSE_MASK +#define DDR_PHY_PIR_DCALPSE_DEFVAL 0x00000000 +#define DDR_PHY_PIR_DCALPSE_SHIFT 29 +#define DDR_PHY_PIR_DCALPSE_MASK 0x20000000U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_PIR_RESERVED_28_21_DEFVAL +#undef DDR_PHY_PIR_RESERVED_28_21_SHIFT +#undef DDR_PHY_PIR_RESERVED_28_21_MASK +#define DDR_PHY_PIR_RESERVED_28_21_DEFVAL 0x00000000 +#define DDR_PHY_PIR_RESERVED_28_21_SHIFT 21 +#define DDR_PHY_PIR_RESERVED_28_21_MASK 0x1FE00000U + +/*Write DQS2DQ Training*/ +#undef DDR_PHY_PIR_DQS2DQ_DEFVAL +#undef DDR_PHY_PIR_DQS2DQ_SHIFT +#undef DDR_PHY_PIR_DQS2DQ_MASK +#define DDR_PHY_PIR_DQS2DQ_DEFVAL 0x00000000 +#define DDR_PHY_PIR_DQS2DQ_SHIFT 20 +#define DDR_PHY_PIR_DQS2DQ_MASK 0x00100000U + +/*RDIMM Initialization*/ +#undef DDR_PHY_PIR_RDIMMINIT_DEFVAL +#undef DDR_PHY_PIR_RDIMMINIT_SHIFT +#undef DDR_PHY_PIR_RDIMMINIT_MASK +#define DDR_PHY_PIR_RDIMMINIT_DEFVAL 0x00000000 +#define DDR_PHY_PIR_RDIMMINIT_SHIFT 19 +#define DDR_PHY_PIR_RDIMMINIT_MASK 0x00080000U + +/*Controller DRAM Initialization*/ +#undef DDR_PHY_PIR_CTLDINIT_DEFVAL +#undef DDR_PHY_PIR_CTLDINIT_SHIFT +#undef DDR_PHY_PIR_CTLDINIT_MASK +#define DDR_PHY_PIR_CTLDINIT_DEFVAL 0x00000000 +#define DDR_PHY_PIR_CTLDINIT_SHIFT 18 +#define DDR_PHY_PIR_CTLDINIT_MASK 0x00040000U + +/*VREF Training*/ +#undef DDR_PHY_PIR_VREF_DEFVAL +#undef DDR_PHY_PIR_VREF_SHIFT +#undef DDR_PHY_PIR_VREF_MASK +#define DDR_PHY_PIR_VREF_DEFVAL 0x00000000 +#define DDR_PHY_PIR_VREF_SHIFT 17 +#define DDR_PHY_PIR_VREF_MASK 0x00020000U + +/*Static Read Training*/ +#undef DDR_PHY_PIR_SRD_DEFVAL +#undef DDR_PHY_PIR_SRD_SHIFT +#undef DDR_PHY_PIR_SRD_MASK +#define DDR_PHY_PIR_SRD_DEFVAL 0x00000000 +#define DDR_PHY_PIR_SRD_SHIFT 16 +#define DDR_PHY_PIR_SRD_MASK 0x00010000U + +/*Write Data Eye Training*/ +#undef DDR_PHY_PIR_WREYE_DEFVAL +#undef DDR_PHY_PIR_WREYE_SHIFT +#undef DDR_PHY_PIR_WREYE_MASK +#define DDR_PHY_PIR_WREYE_DEFVAL 0x00000000 +#define DDR_PHY_PIR_WREYE_SHIFT 15 +#define DDR_PHY_PIR_WREYE_MASK 0x00008000U + +/*Read Data Eye Training*/ +#undef DDR_PHY_PIR_RDEYE_DEFVAL +#undef DDR_PHY_PIR_RDEYE_SHIFT +#undef DDR_PHY_PIR_RDEYE_MASK +#define DDR_PHY_PIR_RDEYE_DEFVAL 0x00000000 +#define DDR_PHY_PIR_RDEYE_SHIFT 14 +#define DDR_PHY_PIR_RDEYE_MASK 0x00004000U + +/*Write Data Bit Deskew*/ +#undef DDR_PHY_PIR_WRDSKW_DEFVAL +#undef DDR_PHY_PIR_WRDSKW_SHIFT +#undef DDR_PHY_PIR_WRDSKW_MASK +#define DDR_PHY_PIR_WRDSKW_DEFVAL 0x00000000 +#define DDR_PHY_PIR_WRDSKW_SHIFT 13 +#define DDR_PHY_PIR_WRDSKW_MASK 0x00002000U + +/*Read Data Bit Deskew*/ +#undef DDR_PHY_PIR_RDDSKW_DEFVAL +#undef DDR_PHY_PIR_RDDSKW_SHIFT +#undef DDR_PHY_PIR_RDDSKW_MASK +#define DDR_PHY_PIR_RDDSKW_DEFVAL 0x00000000 +#define DDR_PHY_PIR_RDDSKW_SHIFT 12 +#define DDR_PHY_PIR_RDDSKW_MASK 0x00001000U + +/*Write Leveling Adjust*/ +#undef DDR_PHY_PIR_WLADJ_DEFVAL +#undef DDR_PHY_PIR_WLADJ_SHIFT +#undef DDR_PHY_PIR_WLADJ_MASK +#define DDR_PHY_PIR_WLADJ_DEFVAL 0x00000000 +#define DDR_PHY_PIR_WLADJ_SHIFT 11 +#define DDR_PHY_PIR_WLADJ_MASK 0x00000800U + +/*Read DQS Gate Training*/ +#undef DDR_PHY_PIR_QSGATE_DEFVAL +#undef DDR_PHY_PIR_QSGATE_SHIFT +#undef DDR_PHY_PIR_QSGATE_MASK +#define DDR_PHY_PIR_QSGATE_DEFVAL 0x00000000 +#define DDR_PHY_PIR_QSGATE_SHIFT 10 +#define DDR_PHY_PIR_QSGATE_MASK 0x00000400U + +/*Write Leveling*/ +#undef DDR_PHY_PIR_WL_DEFVAL +#undef DDR_PHY_PIR_WL_SHIFT +#undef DDR_PHY_PIR_WL_MASK +#define DDR_PHY_PIR_WL_DEFVAL 0x00000000 +#define DDR_PHY_PIR_WL_SHIFT 9 +#define DDR_PHY_PIR_WL_MASK 0x00000200U + +/*DRAM Initialization*/ +#undef DDR_PHY_PIR_DRAMINIT_DEFVAL +#undef DDR_PHY_PIR_DRAMINIT_SHIFT +#undef DDR_PHY_PIR_DRAMINIT_MASK +#define DDR_PHY_PIR_DRAMINIT_DEFVAL 0x00000000 +#define DDR_PHY_PIR_DRAMINIT_SHIFT 8 +#define DDR_PHY_PIR_DRAMINIT_MASK 0x00000100U + +/*DRAM Reset (DDR3/DDR4/LPDDR4 Only)*/ +#undef DDR_PHY_PIR_DRAMRST_DEFVAL +#undef DDR_PHY_PIR_DRAMRST_SHIFT +#undef DDR_PHY_PIR_DRAMRST_MASK +#define DDR_PHY_PIR_DRAMRST_DEFVAL 0x00000000 +#define DDR_PHY_PIR_DRAMRST_SHIFT 7 +#define DDR_PHY_PIR_DRAMRST_MASK 0x00000080U + +/*PHY Reset*/ +#undef DDR_PHY_PIR_PHYRST_DEFVAL +#undef DDR_PHY_PIR_PHYRST_SHIFT +#undef DDR_PHY_PIR_PHYRST_MASK +#define DDR_PHY_PIR_PHYRST_DEFVAL 0x00000000 +#define DDR_PHY_PIR_PHYRST_SHIFT 6 +#define DDR_PHY_PIR_PHYRST_MASK 0x00000040U + +/*Digital Delay Line (DDL) Calibration*/ +#undef DDR_PHY_PIR_DCAL_DEFVAL +#undef DDR_PHY_PIR_DCAL_SHIFT +#undef DDR_PHY_PIR_DCAL_MASK +#define DDR_PHY_PIR_DCAL_DEFVAL 0x00000000 +#define DDR_PHY_PIR_DCAL_SHIFT 5 +#define DDR_PHY_PIR_DCAL_MASK 0x00000020U + +/*PLL Initialiazation*/ +#undef DDR_PHY_PIR_PLLINIT_DEFVAL +#undef DDR_PHY_PIR_PLLINIT_SHIFT +#undef DDR_PHY_PIR_PLLINIT_MASK +#define DDR_PHY_PIR_PLLINIT_DEFVAL 0x00000000 +#define DDR_PHY_PIR_PLLINIT_SHIFT 4 +#define DDR_PHY_PIR_PLLINIT_MASK 0x00000010U + +/*Reserved. Return zeroes on reads.*/ +#undef DDR_PHY_PIR_RESERVED_3_DEFVAL +#undef DDR_PHY_PIR_RESERVED_3_SHIFT +#undef DDR_PHY_PIR_RESERVED_3_MASK +#define DDR_PHY_PIR_RESERVED_3_DEFVAL 0x00000000 +#define DDR_PHY_PIR_RESERVED_3_SHIFT 3 +#define DDR_PHY_PIR_RESERVED_3_MASK 0x00000008U + +/*CA Training*/ +#undef DDR_PHY_PIR_CA_DEFVAL +#undef DDR_PHY_PIR_CA_SHIFT +#undef DDR_PHY_PIR_CA_MASK +#define DDR_PHY_PIR_CA_DEFVAL 0x00000000 +#define DDR_PHY_PIR_CA_SHIFT 2 +#define DDR_PHY_PIR_CA_MASK 0x00000004U + +/*Impedance Calibration*/ +#undef DDR_PHY_PIR_ZCAL_DEFVAL +#undef DDR_PHY_PIR_ZCAL_SHIFT +#undef DDR_PHY_PIR_ZCAL_MASK +#define DDR_PHY_PIR_ZCAL_DEFVAL 0x00000000 +#define DDR_PHY_PIR_ZCAL_SHIFT 1 +#define DDR_PHY_PIR_ZCAL_MASK 0x00000002U + +/*Initialization Trigger*/ +#undef DDR_PHY_PIR_INIT_DEFVAL +#undef DDR_PHY_PIR_INIT_SHIFT +#undef DDR_PHY_PIR_INIT_MASK +#define DDR_PHY_PIR_INIT_DEFVAL 0x00000000 +#define DDR_PHY_PIR_INIT_SHIFT 0 +#define DDR_PHY_PIR_INIT_MASK 0x00000001U +#undef IOU_SLCR_MIO_PIN_0_OFFSET +#define IOU_SLCR_MIO_PIN_0_OFFSET 0XFF180000 +#undef IOU_SLCR_MIO_PIN_1_OFFSET +#define IOU_SLCR_MIO_PIN_1_OFFSET 0XFF180004 +#undef IOU_SLCR_MIO_PIN_2_OFFSET +#define IOU_SLCR_MIO_PIN_2_OFFSET 0XFF180008 +#undef IOU_SLCR_MIO_PIN_3_OFFSET +#define IOU_SLCR_MIO_PIN_3_OFFSET 0XFF18000C +#undef IOU_SLCR_MIO_PIN_4_OFFSET +#define IOU_SLCR_MIO_PIN_4_OFFSET 0XFF180010 +#undef IOU_SLCR_MIO_PIN_5_OFFSET +#define IOU_SLCR_MIO_PIN_5_OFFSET 0XFF180014 +#undef IOU_SLCR_MIO_PIN_6_OFFSET +#define IOU_SLCR_MIO_PIN_6_OFFSET 0XFF180018 +#undef IOU_SLCR_MIO_PIN_7_OFFSET +#define IOU_SLCR_MIO_PIN_7_OFFSET 0XFF18001C +#undef IOU_SLCR_MIO_PIN_8_OFFSET +#define IOU_SLCR_MIO_PIN_8_OFFSET 0XFF180020 +#undef IOU_SLCR_MIO_PIN_9_OFFSET +#define IOU_SLCR_MIO_PIN_9_OFFSET 0XFF180024 +#undef IOU_SLCR_MIO_PIN_10_OFFSET +#define IOU_SLCR_MIO_PIN_10_OFFSET 0XFF180028 +#undef IOU_SLCR_MIO_PIN_11_OFFSET +#define IOU_SLCR_MIO_PIN_11_OFFSET 0XFF18002C +#undef IOU_SLCR_MIO_PIN_12_OFFSET +#define IOU_SLCR_MIO_PIN_12_OFFSET 0XFF180030 +#undef IOU_SLCR_MIO_PIN_13_OFFSET +#define IOU_SLCR_MIO_PIN_13_OFFSET 0XFF180034 +#undef IOU_SLCR_MIO_PIN_14_OFFSET +#define IOU_SLCR_MIO_PIN_14_OFFSET 0XFF180038 +#undef IOU_SLCR_MIO_PIN_15_OFFSET +#define IOU_SLCR_MIO_PIN_15_OFFSET 0XFF18003C +#undef IOU_SLCR_MIO_PIN_16_OFFSET +#define IOU_SLCR_MIO_PIN_16_OFFSET 0XFF180040 +#undef IOU_SLCR_MIO_PIN_17_OFFSET +#define IOU_SLCR_MIO_PIN_17_OFFSET 0XFF180044 +#undef IOU_SLCR_MIO_PIN_18_OFFSET +#define IOU_SLCR_MIO_PIN_18_OFFSET 0XFF180048 +#undef IOU_SLCR_MIO_PIN_19_OFFSET +#define IOU_SLCR_MIO_PIN_19_OFFSET 0XFF18004C +#undef IOU_SLCR_MIO_PIN_20_OFFSET +#define IOU_SLCR_MIO_PIN_20_OFFSET 0XFF180050 +#undef IOU_SLCR_MIO_PIN_21_OFFSET +#define IOU_SLCR_MIO_PIN_21_OFFSET 0XFF180054 +#undef IOU_SLCR_MIO_PIN_22_OFFSET +#define IOU_SLCR_MIO_PIN_22_OFFSET 0XFF180058 +#undef IOU_SLCR_MIO_PIN_23_OFFSET +#define IOU_SLCR_MIO_PIN_23_OFFSET 0XFF18005C +#undef IOU_SLCR_MIO_PIN_24_OFFSET +#define IOU_SLCR_MIO_PIN_24_OFFSET 0XFF180060 +#undef IOU_SLCR_MIO_PIN_25_OFFSET +#define IOU_SLCR_MIO_PIN_25_OFFSET 0XFF180064 +#undef IOU_SLCR_MIO_PIN_26_OFFSET +#define IOU_SLCR_MIO_PIN_26_OFFSET 0XFF180068 +#undef IOU_SLCR_MIO_PIN_27_OFFSET +#define IOU_SLCR_MIO_PIN_27_OFFSET 0XFF18006C +#undef IOU_SLCR_MIO_PIN_28_OFFSET +#define IOU_SLCR_MIO_PIN_28_OFFSET 0XFF180070 +#undef IOU_SLCR_MIO_PIN_29_OFFSET +#define IOU_SLCR_MIO_PIN_29_OFFSET 0XFF180074 +#undef IOU_SLCR_MIO_PIN_30_OFFSET +#define IOU_SLCR_MIO_PIN_30_OFFSET 0XFF180078 +#undef IOU_SLCR_MIO_PIN_31_OFFSET +#define IOU_SLCR_MIO_PIN_31_OFFSET 0XFF18007C +#undef IOU_SLCR_MIO_PIN_32_OFFSET +#define IOU_SLCR_MIO_PIN_32_OFFSET 0XFF180080 +#undef IOU_SLCR_MIO_PIN_33_OFFSET +#define IOU_SLCR_MIO_PIN_33_OFFSET 0XFF180084 +#undef IOU_SLCR_MIO_PIN_34_OFFSET +#define IOU_SLCR_MIO_PIN_34_OFFSET 0XFF180088 +#undef IOU_SLCR_MIO_PIN_35_OFFSET +#define IOU_SLCR_MIO_PIN_35_OFFSET 0XFF18008C +#undef IOU_SLCR_MIO_PIN_36_OFFSET +#define IOU_SLCR_MIO_PIN_36_OFFSET 0XFF180090 +#undef IOU_SLCR_MIO_PIN_37_OFFSET +#define IOU_SLCR_MIO_PIN_37_OFFSET 0XFF180094 +#undef IOU_SLCR_MIO_PIN_38_OFFSET +#define IOU_SLCR_MIO_PIN_38_OFFSET 0XFF180098 +#undef IOU_SLCR_MIO_PIN_39_OFFSET +#define IOU_SLCR_MIO_PIN_39_OFFSET 0XFF18009C +#undef IOU_SLCR_MIO_PIN_40_OFFSET +#define IOU_SLCR_MIO_PIN_40_OFFSET 0XFF1800A0 +#undef IOU_SLCR_MIO_PIN_41_OFFSET +#define IOU_SLCR_MIO_PIN_41_OFFSET 0XFF1800A4 +#undef IOU_SLCR_MIO_PIN_42_OFFSET +#define IOU_SLCR_MIO_PIN_42_OFFSET 0XFF1800A8 +#undef IOU_SLCR_MIO_PIN_43_OFFSET +#define IOU_SLCR_MIO_PIN_43_OFFSET 0XFF1800AC +#undef IOU_SLCR_MIO_PIN_44_OFFSET +#define IOU_SLCR_MIO_PIN_44_OFFSET 0XFF1800B0 +#undef IOU_SLCR_MIO_PIN_45_OFFSET +#define IOU_SLCR_MIO_PIN_45_OFFSET 0XFF1800B4 +#undef IOU_SLCR_MIO_PIN_46_OFFSET +#define IOU_SLCR_MIO_PIN_46_OFFSET 0XFF1800B8 +#undef IOU_SLCR_MIO_PIN_47_OFFSET +#define IOU_SLCR_MIO_PIN_47_OFFSET 0XFF1800BC +#undef IOU_SLCR_MIO_PIN_48_OFFSET +#define IOU_SLCR_MIO_PIN_48_OFFSET 0XFF1800C0 +#undef IOU_SLCR_MIO_PIN_49_OFFSET +#define IOU_SLCR_MIO_PIN_49_OFFSET 0XFF1800C4 +#undef IOU_SLCR_MIO_PIN_50_OFFSET +#define IOU_SLCR_MIO_PIN_50_OFFSET 0XFF1800C8 +#undef IOU_SLCR_MIO_PIN_51_OFFSET +#define IOU_SLCR_MIO_PIN_51_OFFSET 0XFF1800CC +#undef IOU_SLCR_MIO_PIN_52_OFFSET +#define IOU_SLCR_MIO_PIN_52_OFFSET 0XFF1800D0 +#undef IOU_SLCR_MIO_PIN_53_OFFSET +#define IOU_SLCR_MIO_PIN_53_OFFSET 0XFF1800D4 +#undef IOU_SLCR_MIO_PIN_54_OFFSET +#define IOU_SLCR_MIO_PIN_54_OFFSET 0XFF1800D8 +#undef IOU_SLCR_MIO_PIN_55_OFFSET +#define IOU_SLCR_MIO_PIN_55_OFFSET 0XFF1800DC +#undef IOU_SLCR_MIO_PIN_56_OFFSET +#define IOU_SLCR_MIO_PIN_56_OFFSET 0XFF1800E0 +#undef IOU_SLCR_MIO_PIN_57_OFFSET +#define IOU_SLCR_MIO_PIN_57_OFFSET 0XFF1800E4 +#undef IOU_SLCR_MIO_PIN_58_OFFSET +#define IOU_SLCR_MIO_PIN_58_OFFSET 0XFF1800E8 +#undef IOU_SLCR_MIO_PIN_59_OFFSET +#define IOU_SLCR_MIO_PIN_59_OFFSET 0XFF1800EC +#undef IOU_SLCR_MIO_PIN_60_OFFSET +#define IOU_SLCR_MIO_PIN_60_OFFSET 0XFF1800F0 +#undef IOU_SLCR_MIO_PIN_61_OFFSET +#define IOU_SLCR_MIO_PIN_61_OFFSET 0XFF1800F4 +#undef IOU_SLCR_MIO_PIN_62_OFFSET +#define IOU_SLCR_MIO_PIN_62_OFFSET 0XFF1800F8 +#undef IOU_SLCR_MIO_PIN_63_OFFSET +#define IOU_SLCR_MIO_PIN_63_OFFSET 0XFF1800FC +#undef IOU_SLCR_MIO_PIN_64_OFFSET +#define IOU_SLCR_MIO_PIN_64_OFFSET 0XFF180100 +#undef IOU_SLCR_MIO_PIN_65_OFFSET +#define IOU_SLCR_MIO_PIN_65_OFFSET 0XFF180104 +#undef IOU_SLCR_MIO_PIN_66_OFFSET +#define IOU_SLCR_MIO_PIN_66_OFFSET 0XFF180108 +#undef IOU_SLCR_MIO_PIN_67_OFFSET +#define IOU_SLCR_MIO_PIN_67_OFFSET 0XFF18010C +#undef IOU_SLCR_MIO_PIN_68_OFFSET +#define IOU_SLCR_MIO_PIN_68_OFFSET 0XFF180110 +#undef IOU_SLCR_MIO_PIN_69_OFFSET +#define IOU_SLCR_MIO_PIN_69_OFFSET 0XFF180114 +#undef IOU_SLCR_MIO_PIN_70_OFFSET +#define IOU_SLCR_MIO_PIN_70_OFFSET 0XFF180118 +#undef IOU_SLCR_MIO_PIN_71_OFFSET +#define IOU_SLCR_MIO_PIN_71_OFFSET 0XFF18011C +#undef IOU_SLCR_MIO_PIN_72_OFFSET +#define IOU_SLCR_MIO_PIN_72_OFFSET 0XFF180120 +#undef IOU_SLCR_MIO_PIN_73_OFFSET +#define IOU_SLCR_MIO_PIN_73_OFFSET 0XFF180124 +#undef IOU_SLCR_MIO_PIN_74_OFFSET +#define IOU_SLCR_MIO_PIN_74_OFFSET 0XFF180128 +#undef IOU_SLCR_MIO_PIN_75_OFFSET +#define IOU_SLCR_MIO_PIN_75_OFFSET 0XFF18012C +#undef IOU_SLCR_MIO_PIN_76_OFFSET +#define IOU_SLCR_MIO_PIN_76_OFFSET 0XFF180130 +#undef IOU_SLCR_MIO_PIN_77_OFFSET +#define IOU_SLCR_MIO_PIN_77_OFFSET 0XFF180134 +#undef IOU_SLCR_MIO_MST_TRI0_OFFSET +#define IOU_SLCR_MIO_MST_TRI0_OFFSET 0XFF180204 +#undef IOU_SLCR_MIO_MST_TRI1_OFFSET +#define IOU_SLCR_MIO_MST_TRI1_OFFSET 0XFF180208 +#undef IOU_SLCR_MIO_MST_TRI2_OFFSET +#define IOU_SLCR_MIO_MST_TRI2_OFFSET 0XFF18020C +#undef IOU_SLCR_BANK0_CTRL0_OFFSET +#define IOU_SLCR_BANK0_CTRL0_OFFSET 0XFF180138 +#undef IOU_SLCR_BANK0_CTRL1_OFFSET +#define IOU_SLCR_BANK0_CTRL1_OFFSET 0XFF18013C +#undef IOU_SLCR_BANK0_CTRL3_OFFSET +#define IOU_SLCR_BANK0_CTRL3_OFFSET 0XFF180140 +#undef IOU_SLCR_BANK0_CTRL4_OFFSET +#define IOU_SLCR_BANK0_CTRL4_OFFSET 0XFF180144 +#undef IOU_SLCR_BANK0_CTRL5_OFFSET +#define IOU_SLCR_BANK0_CTRL5_OFFSET 0XFF180148 +#undef IOU_SLCR_BANK0_CTRL6_OFFSET +#define IOU_SLCR_BANK0_CTRL6_OFFSET 0XFF18014C +#undef IOU_SLCR_BANK1_CTRL0_OFFSET +#define IOU_SLCR_BANK1_CTRL0_OFFSET 0XFF180154 +#undef IOU_SLCR_BANK1_CTRL1_OFFSET +#define IOU_SLCR_BANK1_CTRL1_OFFSET 0XFF180158 +#undef IOU_SLCR_BANK1_CTRL3_OFFSET +#define IOU_SLCR_BANK1_CTRL3_OFFSET 0XFF18015C +#undef IOU_SLCR_BANK1_CTRL4_OFFSET +#define IOU_SLCR_BANK1_CTRL4_OFFSET 0XFF180160 +#undef IOU_SLCR_BANK1_CTRL5_OFFSET +#define IOU_SLCR_BANK1_CTRL5_OFFSET 0XFF180164 +#undef IOU_SLCR_BANK1_CTRL6_OFFSET +#define IOU_SLCR_BANK1_CTRL6_OFFSET 0XFF180168 +#undef IOU_SLCR_BANK2_CTRL0_OFFSET +#define IOU_SLCR_BANK2_CTRL0_OFFSET 0XFF180170 +#undef IOU_SLCR_BANK2_CTRL1_OFFSET +#define IOU_SLCR_BANK2_CTRL1_OFFSET 0XFF180174 +#undef IOU_SLCR_BANK2_CTRL3_OFFSET +#define IOU_SLCR_BANK2_CTRL3_OFFSET 0XFF180178 +#undef IOU_SLCR_BANK2_CTRL4_OFFSET +#define IOU_SLCR_BANK2_CTRL4_OFFSET 0XFF18017C +#undef IOU_SLCR_BANK2_CTRL5_OFFSET +#define IOU_SLCR_BANK2_CTRL5_OFFSET 0XFF180180 +#undef IOU_SLCR_BANK2_CTRL6_OFFSET +#define IOU_SLCR_BANK2_CTRL6_OFFSET 0XFF180184 +#undef IOU_SLCR_MIO_LOOPBACK_OFFSET +#define IOU_SLCR_MIO_LOOPBACK_OFFSET 0XFF180200 + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Output, qspi_sclk_out- (QSPI Clock)*/ +#undef IOU_SLCR_MIO_PIN_0_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_0_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_0_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_0_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_0_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_0_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used*/ +#undef IOU_SLCR_MIO_PIN_0_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_0_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_0_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_0_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_0_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_0_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input, test_scan_in[0]- (Test Scan Port) = test_scan, Outp + t, test_scan_out[0]- (Test Scan Port) 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_0_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_0_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_0_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_0_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_0_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_0_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[0]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[0]- (GPIO bank 0) 1= can + , Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL signa + ) 3= pjtag, Input, pjtag_tck- (PJTAG TCK) 4= spi0, Input, spi0_sclk_in- (SPI Clock) 4= spi0, Output, spi0_sclk_out- (SPI Cloc + ) 5= ttc3, Input, ttc3_clk_in- (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= trace, Output, trace_ + lk- (Trace Port Clock)*/ +#undef IOU_SLCR_MIO_PIN_0_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_0_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_0_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_0_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_0_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_0_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Input, qspi_mi_mi1- (QSPI Databus) 1= qspi, Output, qspi_so_mo1- (QSPI Data + us)*/ +#undef IOU_SLCR_MIO_PIN_1_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_1_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_1_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_1_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_1_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_1_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used*/ +#undef IOU_SLCR_MIO_PIN_1_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_1_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_1_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_1_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_1_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_1_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input, test_scan_in[1]- (Test Scan Port) = test_scan, Outp + t, test_scan_out[1]- (Test Scan Port) 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_1_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_1_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_1_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_1_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_1_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_1_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[1]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[1]- (GPIO bank 0) 1= can + , Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA signal + 3= pjtag, Input, pjtag_tdi- (PJTAG TDI) 4= spi0, Output, spi0_n_ss_out[2]- (SPI Master Selects) 5= ttc3, Output, ttc3_wave_o + t- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial input) 7= trace, Output, trace_ctl- (Trace Port Control + Signal)*/ +#undef IOU_SLCR_MIO_PIN_1_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_1_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_1_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_1_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_1_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_1_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Input, qspi_mi2- (QSPI Databus) 1= qspi, Output, qspi_mo2- (QSPI Databus)*/ +#undef IOU_SLCR_MIO_PIN_2_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_2_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_2_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_2_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_2_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_2_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used*/ +#undef IOU_SLCR_MIO_PIN_2_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_2_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_2_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_2_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_2_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_2_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input, test_scan_in[2]- (Test Scan Port) = test_scan, Outp + t, test_scan_out[2]- (Test Scan Port) 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_2_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_2_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_2_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_2_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_2_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_2_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[2]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[2]- (GPIO bank 0) 1= can + , Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL signal + 3= pjtag, Output, pjtag_tdo- (PJTAG TDO) 4= spi0, Output, spi0_n_ss_out[1]- (SPI Master Selects) 5= ttc2, Input, ttc2_clk_in + (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= trace, Output, tracedq[0]- (Trace Port Databus)*/ +#undef IOU_SLCR_MIO_PIN_2_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_2_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_2_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_2_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_2_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_2_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Input, qspi_mi3- (QSPI Databus) 1= qspi, Output, qspi_mo3- (QSPI Databus)*/ +#undef IOU_SLCR_MIO_PIN_3_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_3_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_3_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_3_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_3_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_3_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used*/ +#undef IOU_SLCR_MIO_PIN_3_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_3_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_3_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_3_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_3_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_3_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input, test_scan_in[3]- (Test Scan Port) = test_scan, Outp + t, test_scan_out[3]- (Test Scan Port) 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_3_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_3_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_3_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_3_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_3_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_3_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[3]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[3]- (GPIO bank 0) 1= can + , Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA signa + ) 3= pjtag, Input, pjtag_tms- (PJTAG TMS) 4= spi0, Input, spi0_n_ss_in- (SPI Master Selects) 4= spi0, Output, spi0_n_ss_out[0 + - (SPI Master Selects) 5= ttc2, Output, ttc2_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter serial + output) 7= trace, Output, tracedq[1]- (Trace Port Databus)*/ +#undef IOU_SLCR_MIO_PIN_3_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_3_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_3_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_3_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_3_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_3_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Output, qspi_mo_mo0- (QSPI Databus) 1= qspi, Input, qspi_si_mi0- (QSPI Data + us)*/ +#undef IOU_SLCR_MIO_PIN_4_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_4_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_4_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_4_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_4_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_4_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used*/ +#undef IOU_SLCR_MIO_PIN_4_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_4_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_4_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_4_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_4_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_4_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input, test_scan_in[4]- (Test Scan Port) = test_scan, Outp + t, test_scan_out[4]- (Test Scan Port) 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_4_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_4_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_4_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_4_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_4_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_4_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[4]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[4]- (GPIO bank 0) 1= can + , Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL signa + ) 3= swdt1, Input, swdt1_clk_in- (Watch Dog Timer Input clock) 4= spi0, Input, spi0_mi- (MISO signal) 4= spi0, Output, spi0_s + - (MISO signal) 5= ttc1, Input, ttc1_clk_in- (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= trace, + utput, tracedq[2]- (Trace Port Databus)*/ +#undef IOU_SLCR_MIO_PIN_4_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_4_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_4_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_4_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_4_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_4_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Output, qspi_n_ss_out- (QSPI Slave Select)*/ +#undef IOU_SLCR_MIO_PIN_5_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_5_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_5_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_5_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_5_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_5_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used*/ +#undef IOU_SLCR_MIO_PIN_5_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_5_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_5_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_5_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_5_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_5_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input, test_scan_in[5]- (Test Scan Port) = test_scan, Outp + t, test_scan_out[5]- (Test Scan Port) 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_5_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_5_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_5_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_5_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_5_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_5_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[5]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[5]- (GPIO bank 0) 1= can + , Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA signal + 3= swdt1, Output, swdt1_rst_out- (Watch Dog Timer Output clock) 4= spi0, Output, spi0_mo- (MOSI signal) 4= spi0, Input, spi0 + si- (MOSI signal) 5= ttc1, Output, ttc1_wave_out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial input) 7 + trace, Output, tracedq[3]- (Trace Port Databus)*/ +#undef IOU_SLCR_MIO_PIN_5_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_5_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_5_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_5_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_5_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_5_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Output, qspi_clk_for_lpbk- (QSPI Clock to be fed-back)*/ +#undef IOU_SLCR_MIO_PIN_6_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_6_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_6_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_6_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_6_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_6_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used*/ +#undef IOU_SLCR_MIO_PIN_6_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_6_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_6_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_6_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_6_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_6_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input, test_scan_in[6]- (Test Scan Port) = test_scan, Outp + t, test_scan_out[6]- (Test Scan Port) 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_6_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_6_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_6_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_6_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_6_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_6_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[6]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[6]- (GPIO bank 0) 1= can + , Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL signal + 3= swdt0, Input, swdt0_clk_in- (Watch Dog Timer Input clock) 4= spi1, Input, spi1_sclk_in- (SPI Clock) 4= spi1, Output, spi1 + sclk_out- (SPI Clock) 5= ttc0, Input, ttc0_clk_in- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= trace, + Output, tracedq[4]- (Trace Port Databus)*/ +#undef IOU_SLCR_MIO_PIN_6_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_6_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_6_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_6_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_6_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_6_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Output, qspi_n_ss_out_upper- (QSPI Slave Select upper)*/ +#undef IOU_SLCR_MIO_PIN_7_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_7_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_7_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_7_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_7_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_7_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used*/ +#undef IOU_SLCR_MIO_PIN_7_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_7_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_7_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_7_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_7_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_7_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input, test_scan_in[7]- (Test Scan Port) = test_scan, Outp + t, test_scan_out[7]- (Test Scan Port) 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_7_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_7_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_7_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_7_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_7_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_7_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[7]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[7]- (GPIO bank 0) 1= can + , Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA signa + ) 3= swdt0, Output, swdt0_rst_out- (Watch Dog Timer Output clock) 4= spi1, Output, spi1_n_ss_out[2]- (SPI Master Selects) 5= + tc0, Output, ttc0_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter serial output) 7= trace, Output, + racedq[5]- (Trace Port Databus)*/ +#undef IOU_SLCR_MIO_PIN_7_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_7_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_7_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_7_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_7_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_7_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Input, qspi_mi_upper[0]- (QSPI Upper Databus) 1= qspi, Output, qspi_mo_uppe + [0]- (QSPI Upper Databus)*/ +#undef IOU_SLCR_MIO_PIN_8_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_8_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_8_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_8_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_8_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_8_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used*/ +#undef IOU_SLCR_MIO_PIN_8_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_8_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_8_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_8_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_8_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_8_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input, test_scan_in[8]- (Test Scan Port) = test_scan, Outp + t, test_scan_out[8]- (Test Scan Port) 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_8_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_8_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_8_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_8_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_8_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_8_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[8]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[8]- (GPIO bank 0) 1= can + , Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL signa + ) 3= swdt1, Input, swdt1_clk_in- (Watch Dog Timer Input clock) 4= spi1, Output, spi1_n_ss_out[1]- (SPI Master Selects) 5= ttc + , Input, ttc3_clk_in- (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= trace, Output, tracedq[6]- (Tr + ce Port Databus)*/ +#undef IOU_SLCR_MIO_PIN_8_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_8_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_8_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_8_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_8_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_8_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Input, qspi_mi_upper[1]- (QSPI Upper Databus) 1= qspi, Output, qspi_mo_uppe + [1]- (QSPI Upper Databus)*/ +#undef IOU_SLCR_MIO_PIN_9_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_9_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_9_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_9_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_9_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_9_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Output, nfc_ce[1]- (NAND chip enable)*/ +#undef IOU_SLCR_MIO_PIN_9_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_9_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_9_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_9_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_9_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_9_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input, test_scan_in[9]- (Test Scan Port) = test_scan, Outp + t, test_scan_out[9]- (Test Scan Port) 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_9_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_9_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_9_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_9_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_9_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_9_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[9]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[9]- (GPIO bank 0) 1= can + , Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA signal + 3= swdt1, Output, swdt1_rst_out- (Watch Dog Timer Output clock) 4= spi1, Input, spi1_n_ss_in- (SPI Master Selects) 4= spi1, + utput, spi1_n_ss_out[0]- (SPI Master Selects) 5= ttc3, Output, ttc3_wave_out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (U + RT receiver serial input) 7= trace, Output, tracedq[7]- (Trace Port Databus)*/ +#undef IOU_SLCR_MIO_PIN_9_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_9_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_9_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_9_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_9_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_9_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Input, qspi_mi_upper[2]- (QSPI Upper Databus) 1= qspi, Output, qspi_mo_uppe + [2]- (QSPI Upper Databus)*/ +#undef IOU_SLCR_MIO_PIN_10_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_10_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_10_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_10_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_10_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_10_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_rb_n[0]- (NAND Ready/Busy)*/ +#undef IOU_SLCR_MIO_PIN_10_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_10_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_10_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_10_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_10_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_10_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input, test_scan_in[10]- (Test Scan Port) = test_scan, Out + ut, test_scan_out[10]- (Test Scan Port) 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_10_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_10_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_10_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_10_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_10_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_10_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[10]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[10]- (GPIO bank 0) 1= c + n0, Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL sign + l) 3= swdt0, Input, swdt0_clk_in- (Watch Dog Timer Input clock) 4= spi1, Input, spi1_mi- (MISO signal) 4= spi1, Output, spi1_ + o- (MISO signal) 5= ttc2, Input, ttc2_clk_in- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= trace, Outp + t, tracedq[8]- (Trace Port Databus)*/ +#undef IOU_SLCR_MIO_PIN_10_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_10_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_10_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_10_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_10_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_10_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Input, qspi_mi_upper[3]- (QSPI Upper Databus) 1= qspi, Output, qspi_mo_uppe + [3]- (QSPI Upper Databus)*/ +#undef IOU_SLCR_MIO_PIN_11_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_11_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_11_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_11_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_11_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_11_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_rb_n[1]- (NAND Ready/Busy)*/ +#undef IOU_SLCR_MIO_PIN_11_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_11_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_11_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_11_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_11_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_11_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input, test_scan_in[11]- (Test Scan Port) = test_scan, Out + ut, test_scan_out[11]- (Test Scan Port) 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_11_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_11_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_11_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_11_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_11_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_11_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[11]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[11]- (GPIO bank 0) 1= c + n0, Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA sig + al) 3= swdt0, Output, swdt0_rst_out- (Watch Dog Timer Output clock) 4= spi1, Output, spi1_mo- (MOSI signal) 4= spi1, Input, s + i1_si- (MOSI signal) 5= ttc2, Output, ttc2_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter serial o + tput) 7= trace, Output, tracedq[9]- (Trace Port Databus)*/ +#undef IOU_SLCR_MIO_PIN_11_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_11_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_11_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_11_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_11_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_11_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Output, qspi_sclk_out_upper- (QSPI Upper Clock)*/ +#undef IOU_SLCR_MIO_PIN_12_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_12_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_12_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_12_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_12_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_12_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_dqs_in- (NAND Strobe) 1= nand, Output, nfc_dqs_out- (NAND Strobe + */ +#undef IOU_SLCR_MIO_PIN_12_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_12_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_12_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_12_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_12_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_12_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input, test_scan_in[12]- (Test Scan Port) = test_scan, Out + ut, test_scan_out[12]- (Test Scan Port) 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_12_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_12_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_12_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_12_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_12_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_12_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[12]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[12]- (GPIO bank 0) 1= c + n1, Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL sig + al) 3= pjtag, Input, pjtag_tck- (PJTAG TCK) 4= spi0, Input, spi0_sclk_in- (SPI Clock) 4= spi0, Output, spi0_sclk_out- (SPI Cl + ck) 5= ttc1, Input, ttc1_clk_in- (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= trace, Output, trac + dq[10]- (Trace Port Databus)*/ +#undef IOU_SLCR_MIO_PIN_12_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_12_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_12_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_12_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_12_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_12_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used*/ +#undef IOU_SLCR_MIO_PIN_13_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_13_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_13_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_13_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_13_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_13_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Output, nfc_ce[0]- (NAND chip enable)*/ +#undef IOU_SLCR_MIO_PIN_13_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_13_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_13_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_13_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_13_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_13_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[0]- (8-bit Data bus) = sd0, Output, sdio0_data_out[0]- (8 + bit Data bus) 2= test_scan, Input, test_scan_in[13]- (Test Scan Port) = test_scan, Output, test_scan_out[13]- (Test Scan Port + 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_13_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_13_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_13_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_13_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_13_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_13_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[13]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[13]- (GPIO bank 0) 1= c + n1, Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA sign + l) 3= pjtag, Input, pjtag_tdi- (PJTAG TDI) 4= spi0, Output, spi0_n_ss_out[2]- (SPI Master Selects) 5= ttc1, Output, ttc1_wave + out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial input) 7= trace, Output, tracedq[11]- (Trace Port Dat + bus)*/ +#undef IOU_SLCR_MIO_PIN_13_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_13_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_13_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_13_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_13_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_13_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used*/ +#undef IOU_SLCR_MIO_PIN_14_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_14_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_14_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_14_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_14_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_14_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Output, nfc_cle- (NAND Command Latch Enable)*/ +#undef IOU_SLCR_MIO_PIN_14_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_14_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_14_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_14_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_14_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_14_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[1]- (8-bit Data bus) = sd0, Output, sdio0_data_out[1]- (8 + bit Data bus) 2= test_scan, Input, test_scan_in[14]- (Test Scan Port) = test_scan, Output, test_scan_out[14]- (Test Scan Port + 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_14_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_14_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_14_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_14_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_14_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_14_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[14]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[14]- (GPIO bank 0) 1= c + n0, Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL sign + l) 3= pjtag, Output, pjtag_tdo- (PJTAG TDO) 4= spi0, Output, spi0_n_ss_out[1]- (SPI Master Selects) 5= ttc0, Input, ttc0_clk_ + n- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= trace, Output, tracedq[12]- (Trace Port Databus)*/ +#undef IOU_SLCR_MIO_PIN_14_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_14_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_14_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_14_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_14_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_14_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used*/ +#undef IOU_SLCR_MIO_PIN_15_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_15_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_15_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_15_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_15_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_15_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Output, nfc_ale- (NAND Address Latch Enable)*/ +#undef IOU_SLCR_MIO_PIN_15_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_15_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_15_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_15_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_15_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_15_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[2]- (8-bit Data bus) = sd0, Output, sdio0_data_out[2]- (8 + bit Data bus) 2= test_scan, Input, test_scan_in[15]- (Test Scan Port) = test_scan, Output, test_scan_out[15]- (Test Scan Port + 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_15_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_15_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_15_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_15_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_15_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_15_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[15]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[15]- (GPIO bank 0) 1= c + n0, Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA sig + al) 3= pjtag, Input, pjtag_tms- (PJTAG TMS) 4= spi0, Input, spi0_n_ss_in- (SPI Master Selects) 4= spi0, Output, spi0_n_ss_out + 0]- (SPI Master Selects) 5= ttc0, Output, ttc0_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter seri + l output) 7= trace, Output, tracedq[13]- (Trace Port Databus)*/ +#undef IOU_SLCR_MIO_PIN_15_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_15_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_15_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_15_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_15_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_15_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used*/ +#undef IOU_SLCR_MIO_PIN_16_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_16_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_16_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_16_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_16_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_16_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_dq_in[0]- (NAND Data Bus) 1= nand, Output, nfc_dq_out[0]- (NAND + ata Bus)*/ +#undef IOU_SLCR_MIO_PIN_16_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_16_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_16_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_16_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_16_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_16_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[3]- (8-bit Data bus) = sd0, Output, sdio0_data_out[3]- (8 + bit Data bus) 2= test_scan, Input, test_scan_in[16]- (Test Scan Port) = test_scan, Output, test_scan_out[16]- (Test Scan Port + 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_16_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_16_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_16_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_16_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_16_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_16_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[16]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[16]- (GPIO bank 0) 1= c + n1, Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL sig + al) 3= swdt1, Input, swdt1_clk_in- (Watch Dog Timer Input clock) 4= spi0, Input, spi0_mi- (MISO signal) 4= spi0, Output, spi0 + so- (MISO signal) 5= ttc3, Input, ttc3_clk_in- (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= trace + Output, tracedq[14]- (Trace Port Databus)*/ +#undef IOU_SLCR_MIO_PIN_16_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_16_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_16_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_16_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_16_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_16_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used*/ +#undef IOU_SLCR_MIO_PIN_17_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_17_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_17_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_17_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_17_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_17_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_dq_in[1]- (NAND Data Bus) 1= nand, Output, nfc_dq_out[1]- (NAND + ata Bus)*/ +#undef IOU_SLCR_MIO_PIN_17_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_17_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_17_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_17_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_17_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_17_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[4]- (8-bit Data bus) = sd0, Output, sdio0_data_out[4]- (8 + bit Data bus) 2= test_scan, Input, test_scan_in[17]- (Test Scan Port) = test_scan, Output, test_scan_out[17]- (Test Scan Port + 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_17_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_17_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_17_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_17_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_17_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_17_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[17]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[17]- (GPIO bank 0) 1= c + n1, Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA sign + l) 3= swdt1, Output, swdt1_rst_out- (Watch Dog Timer Output clock) 4= spi0, Output, spi0_mo- (MOSI signal) 4= spi0, Input, sp + 0_si- (MOSI signal) 5= ttc3, Output, ttc3_wave_out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial input) + 7= trace, Output, tracedq[15]- (Trace Port Databus)*/ +#undef IOU_SLCR_MIO_PIN_17_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_17_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_17_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_17_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_17_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_17_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used*/ +#undef IOU_SLCR_MIO_PIN_18_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_18_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_18_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_18_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_18_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_18_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_dq_in[2]- (NAND Data Bus) 1= nand, Output, nfc_dq_out[2]- (NAND + ata Bus)*/ +#undef IOU_SLCR_MIO_PIN_18_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_18_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_18_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_18_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_18_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_18_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[5]- (8-bit Data bus) = sd0, Output, sdio0_data_out[5]- (8 + bit Data bus) 2= test_scan, Input, test_scan_in[18]- (Test Scan Port) = test_scan, Output, test_scan_out[18]- (Test Scan Port + 3= csu, Input, csu_ext_tamper- (CSU Ext Tamper)*/ +#undef IOU_SLCR_MIO_PIN_18_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_18_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_18_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_18_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_18_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_18_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[18]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[18]- (GPIO bank 0) 1= c + n0, Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL sign + l) 3= swdt0, Input, swdt0_clk_in- (Watch Dog Timer Input clock) 4= spi1, Input, spi1_mi- (MISO signal) 4= spi1, Output, spi1_ + o- (MISO signal) 5= ttc2, Input, ttc2_clk_in- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= Not Used*/ +#undef IOU_SLCR_MIO_PIN_18_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_18_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_18_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_18_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_18_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_18_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used*/ +#undef IOU_SLCR_MIO_PIN_19_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_19_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_19_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_19_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_19_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_19_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_dq_in[3]- (NAND Data Bus) 1= nand, Output, nfc_dq_out[3]- (NAND + ata Bus)*/ +#undef IOU_SLCR_MIO_PIN_19_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_19_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_19_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_19_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_19_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_19_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[6]- (8-bit Data bus) = sd0, Output, sdio0_data_out[6]- (8 + bit Data bus) 2= test_scan, Input, test_scan_in[19]- (Test Scan Port) = test_scan, Output, test_scan_out[19]- (Test Scan Port + 3= csu, Input, csu_ext_tamper- (CSU Ext Tamper)*/ +#undef IOU_SLCR_MIO_PIN_19_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_19_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_19_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_19_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_19_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_19_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[19]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[19]- (GPIO bank 0) 1= c + n0, Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA sig + al) 3= swdt0, Output, swdt0_rst_out- (Watch Dog Timer Output clock) 4= spi1, Output, spi1_n_ss_out[2]- (SPI Master Selects) 5 + ttc2, Output, ttc2_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter serial output) 7= Not Used*/ +#undef IOU_SLCR_MIO_PIN_19_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_19_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_19_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_19_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_19_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_19_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used*/ +#undef IOU_SLCR_MIO_PIN_20_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_20_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_20_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_20_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_20_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_20_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_dq_in[4]- (NAND Data Bus) 1= nand, Output, nfc_dq_out[4]- (NAND + ata Bus)*/ +#undef IOU_SLCR_MIO_PIN_20_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_20_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_20_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_20_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_20_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_20_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[7]- (8-bit Data bus) = sd0, Output, sdio0_data_out[7]- (8 + bit Data bus) 2= test_scan, Input, test_scan_in[20]- (Test Scan Port) = test_scan, Output, test_scan_out[20]- (Test Scan Port + 3= csu, Input, csu_ext_tamper- (CSU Ext Tamper)*/ +#undef IOU_SLCR_MIO_PIN_20_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_20_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_20_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_20_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_20_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_20_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[20]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[20]- (GPIO bank 0) 1= c + n1, Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL sig + al) 3= swdt1, Input, swdt1_clk_in- (Watch Dog Timer Input clock) 4= spi1, Output, spi1_n_ss_out[1]- (SPI Master Selects) 5= t + c1, Input, ttc1_clk_in- (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= Not Used*/ +#undef IOU_SLCR_MIO_PIN_20_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_20_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_20_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_20_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_20_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_20_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used*/ +#undef IOU_SLCR_MIO_PIN_21_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_21_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_21_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_21_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_21_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_21_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_dq_in[5]- (NAND Data Bus) 1= nand, Output, nfc_dq_out[5]- (NAND + ata Bus)*/ +#undef IOU_SLCR_MIO_PIN_21_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_21_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_21_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_21_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_21_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_21_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_cmd_in- (Command Indicator) = sd0, Output, sdio0_cmd_out- (Comman + Indicator) 2= test_scan, Input, test_scan_in[21]- (Test Scan Port) = test_scan, Output, test_scan_out[21]- (Test Scan Port) + = csu, Input, csu_ext_tamper- (CSU Ext Tamper)*/ +#undef IOU_SLCR_MIO_PIN_21_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_21_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_21_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_21_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_21_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_21_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[21]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[21]- (GPIO bank 0) 1= c + n1, Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA sign + l) 3= swdt1, Output, swdt1_rst_out- (Watch Dog Timer Output clock) 4= spi1, Input, spi1_n_ss_in- (SPI Master Selects) 4= spi1 + Output, spi1_n_ss_out[0]- (SPI Master Selects) 5= ttc1, Output, ttc1_wave_out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- + UART receiver serial input) 7= Not Used*/ +#undef IOU_SLCR_MIO_PIN_21_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_21_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_21_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_21_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_21_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_21_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used*/ +#undef IOU_SLCR_MIO_PIN_22_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_22_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_22_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_22_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_22_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_22_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Output, nfc_we_b- (NAND Write Enable)*/ +#undef IOU_SLCR_MIO_PIN_22_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_22_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_22_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_22_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_22_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_22_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Output, sdio0_clk_out- (SDSDIO clock) 2= test_scan, Input, test_scan_in[22]- + (Test Scan Port) = test_scan, Output, test_scan_out[22]- (Test Scan Port) 3= csu, Input, csu_ext_tamper- (CSU Ext Tamper)*/ +#undef IOU_SLCR_MIO_PIN_22_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_22_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_22_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_22_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_22_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_22_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[22]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[22]- (GPIO bank 0) 1= c + n0, Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL sign + l) 3= swdt0, Input, swdt0_clk_in- (Watch Dog Timer Input clock) 4= spi1, Input, spi1_sclk_in- (SPI Clock) 4= spi1, Output, sp + 1_sclk_out- (SPI Clock) 5= ttc0, Input, ttc0_clk_in- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= Not + sed*/ +#undef IOU_SLCR_MIO_PIN_22_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_22_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_22_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_22_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_22_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_22_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used*/ +#undef IOU_SLCR_MIO_PIN_23_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_23_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_23_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_23_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_23_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_23_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_dq_in[6]- (NAND Data Bus) 1= nand, Output, nfc_dq_out[6]- (NAND + ata Bus)*/ +#undef IOU_SLCR_MIO_PIN_23_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_23_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_23_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_23_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_23_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_23_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Output, sdio0_bus_pow- (SD card bus power) 2= test_scan, Input, test_scan_in + 23]- (Test Scan Port) = test_scan, Output, test_scan_out[23]- (Test Scan Port) 3= csu, Input, csu_ext_tamper- (CSU Ext Tamper + */ +#undef IOU_SLCR_MIO_PIN_23_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_23_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_23_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_23_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_23_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_23_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[23]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[23]- (GPIO bank 0) 1= c + n0, Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA sig + al) 3= swdt0, Output, swdt0_rst_out- (Watch Dog Timer Output clock) 4= spi1, Output, spi1_mo- (MOSI signal) 4= spi1, Input, s + i1_si- (MOSI signal) 5= ttc0, Output, ttc0_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter serial o + tput) 7= Not Used*/ +#undef IOU_SLCR_MIO_PIN_23_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_23_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_23_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_23_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_23_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_23_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used*/ +#undef IOU_SLCR_MIO_PIN_24_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_24_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_24_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_24_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_24_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_24_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_dq_in[7]- (NAND Data Bus) 1= nand, Output, nfc_dq_out[7]- (NAND + ata Bus)*/ +#undef IOU_SLCR_MIO_PIN_24_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_24_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_24_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_24_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_24_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_24_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sdio0_cd_n- (SD card detect from connector) 2= test_scan, Input, test + scan_in[24]- (Test Scan Port) = test_scan, Output, test_scan_out[24]- (Test Scan Port) 3= csu, Input, csu_ext_tamper- (CSU Ex + Tamper)*/ +#undef IOU_SLCR_MIO_PIN_24_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_24_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_24_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_24_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_24_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_24_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[24]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[24]- (GPIO bank 0) 1= c + n1, Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL sig + al) 3= swdt1, Input, swdt1_clk_in- (Watch Dog Timer Input clock) 4= Not Used 5= ttc3, Input, ttc3_clk_in- (TTC Clock) 6= ua1, + Output, ua1_txd- (UART transmitter serial output) 7= Not Used*/ +#undef IOU_SLCR_MIO_PIN_24_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_24_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_24_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_24_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_24_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_24_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used*/ +#undef IOU_SLCR_MIO_PIN_25_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_25_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_25_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_25_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_25_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_25_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Output, nfc_re_n- (NAND Read Enable)*/ +#undef IOU_SLCR_MIO_PIN_25_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_25_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_25_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_25_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_25_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_25_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sdio0_wp- (SD card write protect from connector) 2= test_scan, Input, + test_scan_in[25]- (Test Scan Port) = test_scan, Output, test_scan_out[25]- (Test Scan Port) 3= csu, Input, csu_ext_tamper- (C + U Ext Tamper)*/ +#undef IOU_SLCR_MIO_PIN_25_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_25_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_25_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_25_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_25_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_25_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[25]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[25]- (GPIO bank 0) 1= c + n1, Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA sign + l) 3= swdt1, Output, swdt1_rst_out- (Watch Dog Timer Output clock) 4= Not Used 5= ttc3, Output, ttc3_wave_out- (TTC Waveform + lock) 6= ua1, Input, ua1_rxd- (UART receiver serial input) 7= Not Used*/ +#undef IOU_SLCR_MIO_PIN_25_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_25_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_25_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_25_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_25_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_25_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem0, Output, gem0_rgmii_tx_clk- (TX RGMII clock)*/ +#undef IOU_SLCR_MIO_PIN_26_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_26_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_26_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_26_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_26_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_26_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Output, nfc_ce[1]- (NAND chip enable)*/ +#undef IOU_SLCR_MIO_PIN_26_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_26_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_26_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_26_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_26_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_26_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= pmu, Input, pmu_gpi[0]- (PMU GPI) 2= test_scan, Input, test_scan_in[26]- (Test Sc + n Port) = test_scan, Output, test_scan_out[26]- (Test Scan Port) 3= csu, Input, csu_ext_tamper- (CSU Ext Tamper)*/ +#undef IOU_SLCR_MIO_PIN_26_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_26_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_26_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_26_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_26_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_26_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[0]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[0]- (GPIO bank 1) 1= can + , Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL signal + 3= pjtag, Input, pjtag_tck- (PJTAG TCK) 4= spi0, Input, spi0_sclk_in- (SPI Clock) 4= spi0, Output, spi0_sclk_out- (SPI Clock + 5= ttc2, Input, ttc2_clk_in- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= trace, Output, tracedq[4]- + Trace Port Databus)*/ +#undef IOU_SLCR_MIO_PIN_26_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_26_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_26_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_26_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_26_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_26_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem0, Output, gem0_rgmii_txd[0]- (TX RGMII data)*/ +#undef IOU_SLCR_MIO_PIN_27_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_27_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_27_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_27_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_27_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_27_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_rb_n[0]- (NAND Ready/Busy)*/ +#undef IOU_SLCR_MIO_PIN_27_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_27_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_27_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_27_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_27_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_27_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= pmu, Input, pmu_gpi[1]- (PMU GPI) 2= test_scan, Input, test_scan_in[27]- (Test Sc + n Port) = test_scan, Output, test_scan_out[27]- (Test Scan Port) 3= dpaux, Input, dp_aux_data_in- (Dp Aux Data) = dpaux, Outp + t, dp_aux_data_out- (Dp Aux Data)*/ +#undef IOU_SLCR_MIO_PIN_27_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_27_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_27_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_27_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_27_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_27_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[1]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[1]- (GPIO bank 1) 1= can + , Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA signa + ) 3= pjtag, Input, pjtag_tdi- (PJTAG TDI) 4= spi0, Output, spi0_n_ss_out[2]- (SPI Master Selects) 5= ttc2, Output, ttc2_wave_ + ut- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter serial output) 7= trace, Output, tracedq[5]- (Trace Port + atabus)*/ +#undef IOU_SLCR_MIO_PIN_27_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_27_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_27_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_27_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_27_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_27_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem0, Output, gem0_rgmii_txd[1]- (TX RGMII data)*/ +#undef IOU_SLCR_MIO_PIN_28_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_28_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_28_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_28_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_28_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_28_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_rb_n[1]- (NAND Ready/Busy)*/ +#undef IOU_SLCR_MIO_PIN_28_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_28_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_28_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_28_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_28_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_28_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= pmu, Input, pmu_gpi[2]- (PMU GPI) 2= test_scan, Input, test_scan_in[28]- (Test Sc + n Port) = test_scan, Output, test_scan_out[28]- (Test Scan Port) 3= dpaux, Input, dp_hot_plug_detect- (Dp Aux Hot Plug)*/ +#undef IOU_SLCR_MIO_PIN_28_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_28_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_28_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_28_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_28_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_28_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[2]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[2]- (GPIO bank 1) 1= can + , Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL signa + ) 3= pjtag, Output, pjtag_tdo- (PJTAG TDO) 4= spi0, Output, spi0_n_ss_out[1]- (SPI Master Selects) 5= ttc1, Input, ttc1_clk_i + - (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= trace, Output, tracedq[6]- (Trace Port Databus)*/ +#undef IOU_SLCR_MIO_PIN_28_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_28_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_28_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_28_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_28_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_28_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem0, Output, gem0_rgmii_txd[2]- (TX RGMII data)*/ +#undef IOU_SLCR_MIO_PIN_29_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_29_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_29_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_29_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_29_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_29_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= pcie, Input, pcie_reset_n- (PCIE Reset signal)*/ +#undef IOU_SLCR_MIO_PIN_29_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_29_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_29_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_29_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_29_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_29_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= pmu, Input, pmu_gpi[3]- (PMU GPI) 2= test_scan, Input, test_scan_in[29]- (Test Sc + n Port) = test_scan, Output, test_scan_out[29]- (Test Scan Port) 3= dpaux, Input, dp_aux_data_in- (Dp Aux Data) = dpaux, Outp + t, dp_aux_data_out- (Dp Aux Data)*/ +#undef IOU_SLCR_MIO_PIN_29_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_29_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_29_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_29_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_29_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_29_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[3]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[3]- (GPIO bank 1) 1= can + , Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA signal + 3= pjtag, Input, pjtag_tms- (PJTAG TMS) 4= spi0, Input, spi0_n_ss_in- (SPI Master Selects) 4= spi0, Output, spi0_n_ss_out[0] + (SPI Master Selects) 5= ttc1, Output, ttc1_wave_out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial inpu + ) 7= trace, Output, tracedq[7]- (Trace Port Databus)*/ +#undef IOU_SLCR_MIO_PIN_29_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_29_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_29_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_29_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_29_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_29_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem0, Output, gem0_rgmii_txd[3]- (TX RGMII data)*/ +#undef IOU_SLCR_MIO_PIN_30_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_30_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_30_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_30_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_30_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_30_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= pcie, Input, pcie_reset_n- (PCIE Reset signal)*/ +#undef IOU_SLCR_MIO_PIN_30_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_30_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_30_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_30_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_30_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_30_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= pmu, Input, pmu_gpi[4]- (PMU GPI) 2= test_scan, Input, test_scan_in[30]- (Test Sc + n Port) = test_scan, Output, test_scan_out[30]- (Test Scan Port) 3= dpaux, Input, dp_hot_plug_detect- (Dp Aux Hot Plug)*/ +#undef IOU_SLCR_MIO_PIN_30_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_30_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_30_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_30_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_30_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_30_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[4]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[4]- (GPIO bank 1) 1= can + , Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL signal + 3= swdt0, Input, swdt0_clk_in- (Watch Dog Timer Input clock) 4= spi0, Input, spi0_mi- (MISO signal) 4= spi0, Output, spi0_so + (MISO signal) 5= ttc0, Input, ttc0_clk_in- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= trace, Output + tracedq[8]- (Trace Port Databus)*/ +#undef IOU_SLCR_MIO_PIN_30_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_30_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_30_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_30_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_30_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_30_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem0, Output, gem0_rgmii_tx_ctl- (TX RGMII control)*/ +#undef IOU_SLCR_MIO_PIN_31_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_31_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_31_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_31_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_31_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_31_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= pcie, Input, pcie_reset_n- (PCIE Reset signal)*/ +#undef IOU_SLCR_MIO_PIN_31_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_31_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_31_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_31_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_31_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_31_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= pmu, Input, pmu_gpi[5]- (PMU GPI) 2= test_scan, Input, test_scan_in[31]- (Test Sc + n Port) = test_scan, Output, test_scan_out[31]- (Test Scan Port) 3= csu, Input, csu_ext_tamper- (CSU Ext Tamper)*/ +#undef IOU_SLCR_MIO_PIN_31_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_31_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_31_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_31_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_31_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_31_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[5]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[5]- (GPIO bank 1) 1= can + , Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA signa + ) 3= swdt0, Output, swdt0_rst_out- (Watch Dog Timer Output clock) 4= spi0, Output, spi0_mo- (MOSI signal) 4= spi0, Input, spi + _si- (MOSI signal) 5= ttc0, Output, ttc0_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter serial out + ut) 7= trace, Output, tracedq[9]- (Trace Port Databus)*/ +#undef IOU_SLCR_MIO_PIN_31_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_31_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_31_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_31_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_31_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_31_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem0, Input, gem0_rgmii_rx_clk- (RX RGMII clock)*/ +#undef IOU_SLCR_MIO_PIN_32_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_32_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_32_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_32_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_32_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_32_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_dqs_in- (NAND Strobe) 1= nand, Output, nfc_dqs_out- (NAND Strobe + */ +#undef IOU_SLCR_MIO_PIN_32_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_32_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_32_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_32_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_32_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_32_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= pmu, Output, pmu_gpo[0]- (PMU GPI) 2= test_scan, Input, test_scan_in[32]- (Test S + an Port) = test_scan, Output, test_scan_out[32]- (Test Scan Port) 3= csu, Input, csu_ext_tamper- (CSU Ext Tamper)*/ +#undef IOU_SLCR_MIO_PIN_32_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_32_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_32_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_32_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_32_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_32_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[6]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[6]- (GPIO bank 1) 1= can + , Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL signa + ) 3= swdt1, Input, swdt1_clk_in- (Watch Dog Timer Input clock) 4= spi1, Input, spi1_sclk_in- (SPI Clock) 4= spi1, Output, spi + _sclk_out- (SPI Clock) 5= ttc3, Input, ttc3_clk_in- (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= + race, Output, tracedq[10]- (Trace Port Databus)*/ +#undef IOU_SLCR_MIO_PIN_32_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_32_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_32_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_32_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_32_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_32_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem0, Input, gem0_rgmii_rxd[0]- (RX RGMII data)*/ +#undef IOU_SLCR_MIO_PIN_33_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_33_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_33_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_33_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_33_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_33_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= pcie, Input, pcie_reset_n- (PCIE Reset signal)*/ +#undef IOU_SLCR_MIO_PIN_33_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_33_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_33_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_33_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_33_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_33_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= pmu, Output, pmu_gpo[1]- (PMU GPI) 2= test_scan, Input, test_scan_in[33]- (Test S + an Port) = test_scan, Output, test_scan_out[33]- (Test Scan Port) 3= csu, Input, csu_ext_tamper- (CSU Ext Tamper)*/ +#undef IOU_SLCR_MIO_PIN_33_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_33_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_33_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_33_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_33_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_33_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[7]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[7]- (GPIO bank 1) 1= can + , Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA signal + 3= swdt1, Output, swdt1_rst_out- (Watch Dog Timer Output clock) 4= spi1, Output, spi1_n_ss_out[2]- (SPI Master Selects) 5= t + c3, Output, ttc3_wave_out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial input) 7= trace, Output, traced + [11]- (Trace Port Databus)*/ +#undef IOU_SLCR_MIO_PIN_33_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_33_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_33_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_33_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_33_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_33_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem0, Input, gem0_rgmii_rxd[1]- (RX RGMII data)*/ +#undef IOU_SLCR_MIO_PIN_34_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_34_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_34_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_34_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_34_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_34_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= pcie, Input, pcie_reset_n- (PCIE Reset signal)*/ +#undef IOU_SLCR_MIO_PIN_34_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_34_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_34_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_34_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_34_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_34_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= pmu, Output, pmu_gpo[2]- (PMU GPI) 2= test_scan, Input, test_scan_in[34]- (Test S + an Port) = test_scan, Output, test_scan_out[34]- (Test Scan Port) 3= dpaux, Input, dp_aux_data_in- (Dp Aux Data) = dpaux, Out + ut, dp_aux_data_out- (Dp Aux Data)*/ +#undef IOU_SLCR_MIO_PIN_34_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_34_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_34_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_34_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_34_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_34_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[8]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[8]- (GPIO bank 1) 1= can + , Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL signal + 3= swdt0, Input, swdt0_clk_in- (Watch Dog Timer Input clock) 4= spi1, Output, spi1_n_ss_out[1]- (SPI Master Selects) 5= ttc2 + Input, ttc2_clk_in- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= trace, Output, tracedq[12]- (Trace P + rt Databus)*/ +#undef IOU_SLCR_MIO_PIN_34_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_34_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_34_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_34_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_34_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_34_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem0, Input, gem0_rgmii_rxd[2]- (RX RGMII data)*/ +#undef IOU_SLCR_MIO_PIN_35_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_35_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_35_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_35_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_35_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_35_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= pcie, Input, pcie_reset_n- (PCIE Reset signal)*/ +#undef IOU_SLCR_MIO_PIN_35_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_35_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_35_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_35_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_35_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_35_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= pmu, Output, pmu_gpo[3]- (PMU GPI) 2= test_scan, Input, test_scan_in[35]- (Test S + an Port) = test_scan, Output, test_scan_out[35]- (Test Scan Port) 3= dpaux, Input, dp_hot_plug_detect- (Dp Aux Hot Plug)*/ +#undef IOU_SLCR_MIO_PIN_35_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_35_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_35_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_35_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_35_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_35_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[9]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[9]- (GPIO bank 1) 1= can + , Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA signa + ) 3= swdt0, Output, swdt0_rst_out- (Watch Dog Timer Output clock) 4= spi1, Input, spi1_n_ss_in- (SPI Master Selects) 4= spi1, + Output, spi1_n_ss_out[0]- (SPI Master Selects) 5= ttc2, Output, ttc2_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- + UART transmitter serial output) 7= trace, Output, tracedq[13]- (Trace Port Databus)*/ +#undef IOU_SLCR_MIO_PIN_35_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_35_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_35_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_35_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_35_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_35_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem0, Input, gem0_rgmii_rxd[3]- (RX RGMII data)*/ +#undef IOU_SLCR_MIO_PIN_36_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_36_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_36_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_36_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_36_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_36_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= pcie, Input, pcie_reset_n- (PCIE Reset signal)*/ +#undef IOU_SLCR_MIO_PIN_36_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_36_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_36_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_36_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_36_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_36_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= pmu, Output, pmu_gpo[4]- (PMU GPI) 2= test_scan, Input, test_scan_in[36]- (Test S + an Port) = test_scan, Output, test_scan_out[36]- (Test Scan Port) 3= dpaux, Input, dp_aux_data_in- (Dp Aux Data) = dpaux, Out + ut, dp_aux_data_out- (Dp Aux Data)*/ +#undef IOU_SLCR_MIO_PIN_36_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_36_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_36_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_36_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_36_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_36_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[10]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[10]- (GPIO bank 1) 1= c + n1, Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL sig + al) 3= swdt1, Input, swdt1_clk_in- (Watch Dog Timer Input clock) 4= spi1, Input, spi1_mi- (MISO signal) 4= spi1, Output, spi1 + so- (MISO signal) 5= ttc1, Input, ttc1_clk_in- (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= trace + Output, tracedq[14]- (Trace Port Databus)*/ +#undef IOU_SLCR_MIO_PIN_36_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_36_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_36_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_36_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_36_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_36_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem0, Input, gem0_rgmii_rx_ctl- (RX RGMII control )*/ +#undef IOU_SLCR_MIO_PIN_37_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_37_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_37_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_37_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_37_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_37_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= pcie, Input, pcie_reset_n- (PCIE Reset signal)*/ +#undef IOU_SLCR_MIO_PIN_37_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_37_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_37_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_37_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_37_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_37_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= pmu, Output, pmu_gpo[5]- (PMU GPI) 2= test_scan, Input, test_scan_in[37]- (Test S + an Port) = test_scan, Output, test_scan_out[37]- (Test Scan Port) 3= dpaux, Input, dp_hot_plug_detect- (Dp Aux Hot Plug)*/ +#undef IOU_SLCR_MIO_PIN_37_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_37_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_37_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_37_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_37_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_37_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[11]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[11]- (GPIO bank 1) 1= c + n1, Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA sign + l) 3= swdt1, Output, swdt1_rst_out- (Watch Dog Timer Output clock) 4= spi1, Output, spi1_mo- (MOSI signal) 4= spi1, Input, sp + 1_si- (MOSI signal) 5= ttc1, Output, ttc1_wave_out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial input) + 7= trace, Output, tracedq[15]- (Trace Port Databus)*/ +#undef IOU_SLCR_MIO_PIN_37_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_37_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_37_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_37_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_37_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_37_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem1, Output, gem1_rgmii_tx_clk- (TX RGMII clock)*/ +#undef IOU_SLCR_MIO_PIN_38_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_38_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_38_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_38_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_38_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_38_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used*/ +#undef IOU_SLCR_MIO_PIN_38_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_38_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_38_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_38_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_38_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_38_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Output, sdio0_clk_out- (SDSDIO clock) 2= Not Used 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_38_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_38_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_38_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_38_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_38_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_38_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[12]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[12]- (GPIO bank 1) 1= c + n0, Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL sign + l) 3= pjtag, Input, pjtag_tck- (PJTAG TCK) 4= spi0, Input, spi0_sclk_in- (SPI Clock) 4= spi0, Output, spi0_sclk_out- (SPI Clo + k) 5= ttc0, Input, ttc0_clk_in- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= trace, Output, trace_clk- + (Trace Port Clock)*/ +#undef IOU_SLCR_MIO_PIN_38_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_38_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_38_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_38_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_38_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_38_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem1, Output, gem1_rgmii_txd[0]- (TX RGMII data)*/ +#undef IOU_SLCR_MIO_PIN_39_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_39_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_39_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_39_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_39_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_39_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used*/ +#undef IOU_SLCR_MIO_PIN_39_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_39_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_39_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_39_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_39_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_39_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sdio0_cd_n- (SD card detect from connector) 2= sd1, Input, sd1_data_i + [4]- (8-bit Data bus) = sd1, Output, sdio1_data_out[4]- (8-bit Data bus) 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_39_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_39_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_39_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_39_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_39_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_39_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[13]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[13]- (GPIO bank 1) 1= c + n0, Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA sig + al) 3= pjtag, Input, pjtag_tdi- (PJTAG TDI) 4= spi0, Output, spi0_n_ss_out[2]- (SPI Master Selects) 5= ttc0, Output, ttc0_wav + _out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter serial output) 7= trace, Output, trace_ctl- (Trace Port + Control Signal)*/ +#undef IOU_SLCR_MIO_PIN_39_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_39_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_39_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_39_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_39_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_39_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem1, Output, gem1_rgmii_txd[1]- (TX RGMII data)*/ +#undef IOU_SLCR_MIO_PIN_40_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_40_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_40_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_40_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_40_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_40_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used*/ +#undef IOU_SLCR_MIO_PIN_40_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_40_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_40_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_40_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_40_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_40_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_cmd_in- (Command Indicator) = sd0, Output, sdio0_cmd_out- (Comman + Indicator) 2= sd1, Input, sd1_data_in[5]- (8-bit Data bus) = sd1, Output, sdio1_data_out[5]- (8-bit Data bus) 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_40_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_40_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_40_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_40_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_40_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_40_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[14]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[14]- (GPIO bank 1) 1= c + n1, Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL sig + al) 3= pjtag, Output, pjtag_tdo- (PJTAG TDO) 4= spi0, Output, spi0_n_ss_out[1]- (SPI Master Selects) 5= ttc3, Input, ttc3_clk + in- (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= trace, Output, tracedq[0]- (Trace Port Databus)*/ +#undef IOU_SLCR_MIO_PIN_40_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_40_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_40_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_40_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_40_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_40_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem1, Output, gem1_rgmii_txd[2]- (TX RGMII data)*/ +#undef IOU_SLCR_MIO_PIN_41_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_41_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_41_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_41_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_41_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_41_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used*/ +#undef IOU_SLCR_MIO_PIN_41_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_41_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_41_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_41_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_41_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_41_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[0]- (8-bit Data bus) = sd0, Output, sdio0_data_out[0]- (8 + bit Data bus) 2= sd1, Input, sd1_data_in[6]- (8-bit Data bus) = sd1, Output, sdio1_data_out[6]- (8-bit Data bus) 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_41_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_41_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_41_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_41_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_41_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_41_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[15]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[15]- (GPIO bank 1) 1= c + n1, Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA sign + l) 3= pjtag, Input, pjtag_tms- (PJTAG TMS) 4= spi0, Input, spi0_n_ss_in- (SPI Master Selects) 4= spi0, Output, spi0_n_ss_out[ + ]- (SPI Master Selects) 5= ttc3, Output, ttc3_wave_out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial in + ut) 7= trace, Output, tracedq[1]- (Trace Port Databus)*/ +#undef IOU_SLCR_MIO_PIN_41_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_41_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_41_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_41_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_41_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_41_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem1, Output, gem1_rgmii_txd[3]- (TX RGMII data)*/ +#undef IOU_SLCR_MIO_PIN_42_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_42_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_42_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_42_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_42_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_42_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used*/ +#undef IOU_SLCR_MIO_PIN_42_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_42_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_42_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_42_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_42_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_42_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[1]- (8-bit Data bus) = sd0, Output, sdio0_data_out[1]- (8 + bit Data bus) 2= sd1, Input, sd1_data_in[7]- (8-bit Data bus) = sd1, Output, sdio1_data_out[7]- (8-bit Data bus) 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_42_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_42_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_42_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_42_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_42_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_42_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[16]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[16]- (GPIO bank 1) 1= c + n0, Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL sign + l) 3= swdt0, Input, swdt0_clk_in- (Watch Dog Timer Input clock) 4= spi0, Input, spi0_mi- (MISO signal) 4= spi0, Output, spi0_ + o- (MISO signal) 5= ttc2, Input, ttc2_clk_in- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= trace, Outp + t, tracedq[2]- (Trace Port Databus)*/ +#undef IOU_SLCR_MIO_PIN_42_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_42_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_42_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_42_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_42_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_42_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem1, Output, gem1_rgmii_tx_ctl- (TX RGMII control)*/ +#undef IOU_SLCR_MIO_PIN_43_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_43_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_43_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_43_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_43_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_43_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used*/ +#undef IOU_SLCR_MIO_PIN_43_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_43_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_43_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_43_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_43_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_43_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[2]- (8-bit Data bus) = sd0, Output, sdio0_data_out[2]- (8 + bit Data bus) 2= sd1, Output, sdio1_bus_pow- (SD card bus power) 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_43_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_43_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_43_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_43_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_43_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_43_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[17]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[17]- (GPIO bank 1) 1= c + n0, Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA sig + al) 3= swdt0, Output, swdt0_rst_out- (Watch Dog Timer Output clock) 4= spi0, Output, spi0_mo- (MOSI signal) 4= spi0, Input, s + i0_si- (MOSI signal) 5= ttc2, Output, ttc2_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter serial o + tput) 7= trace, Output, tracedq[3]- (Trace Port Databus)*/ +#undef IOU_SLCR_MIO_PIN_43_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_43_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_43_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_43_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_43_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_43_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem1, Input, gem1_rgmii_rx_clk- (RX RGMII clock)*/ +#undef IOU_SLCR_MIO_PIN_44_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_44_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_44_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_44_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_44_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_44_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used*/ +#undef IOU_SLCR_MIO_PIN_44_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_44_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_44_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_44_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_44_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_44_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[3]- (8-bit Data bus) = sd0, Output, sdio0_data_out[3]- (8 + bit Data bus) 2= sd1, Input, sdio1_wp- (SD card write protect from connector) 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_44_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_44_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_44_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_44_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_44_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_44_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[18]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[18]- (GPIO bank 1) 1= c + n1, Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL sig + al) 3= swdt1, Input, swdt1_clk_in- (Watch Dog Timer Input clock) 4= spi1, Input, spi1_sclk_in- (SPI Clock) 4= spi1, Output, s + i1_sclk_out- (SPI Clock) 5= ttc1, Input, ttc1_clk_in- (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7 + Not Used*/ +#undef IOU_SLCR_MIO_PIN_44_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_44_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_44_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_44_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_44_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_44_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem1, Input, gem1_rgmii_rxd[0]- (RX RGMII data)*/ +#undef IOU_SLCR_MIO_PIN_45_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_45_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_45_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_45_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_45_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_45_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used*/ +#undef IOU_SLCR_MIO_PIN_45_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_45_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_45_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_45_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_45_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_45_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[4]- (8-bit Data bus) = sd0, Output, sdio0_data_out[4]- (8 + bit Data bus) 2= sd1, Input, sdio1_cd_n- (SD card detect from connector) 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_45_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_45_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_45_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_45_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_45_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_45_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[19]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[19]- (GPIO bank 1) 1= c + n1, Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA sign + l) 3= swdt1, Output, swdt1_rst_out- (Watch Dog Timer Output clock) 4= spi1, Output, spi1_n_ss_out[2]- (SPI Master Selects) 5= + ttc1, Output, ttc1_wave_out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial input) 7= Not Used*/ +#undef IOU_SLCR_MIO_PIN_45_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_45_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_45_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_45_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_45_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_45_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem1, Input, gem1_rgmii_rxd[1]- (RX RGMII data)*/ +#undef IOU_SLCR_MIO_PIN_46_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_46_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_46_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_46_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_46_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_46_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used*/ +#undef IOU_SLCR_MIO_PIN_46_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_46_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_46_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_46_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_46_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_46_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[5]- (8-bit Data bus) = sd0, Output, sdio0_data_out[5]- (8 + bit Data bus) 2= sd1, Input, sd1_data_in[0]- (8-bit Data bus) = sd1, Output, sdio1_data_out[0]- (8-bit Data bus) 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_46_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_46_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_46_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_46_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_46_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_46_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[20]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[20]- (GPIO bank 1) 1= c + n0, Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL sign + l) 3= swdt0, Input, swdt0_clk_in- (Watch Dog Timer Input clock) 4= spi1, Output, spi1_n_ss_out[1]- (SPI Master Selects) 5= tt + 0, Input, ttc0_clk_in- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= Not Used*/ +#undef IOU_SLCR_MIO_PIN_46_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_46_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_46_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_46_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_46_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_46_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem1, Input, gem1_rgmii_rxd[2]- (RX RGMII data)*/ +#undef IOU_SLCR_MIO_PIN_47_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_47_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_47_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_47_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_47_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_47_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used*/ +#undef IOU_SLCR_MIO_PIN_47_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_47_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_47_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_47_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_47_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_47_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[6]- (8-bit Data bus) = sd0, Output, sdio0_data_out[6]- (8 + bit Data bus) 2= sd1, Input, sd1_data_in[1]- (8-bit Data bus) = sd1, Output, sdio1_data_out[1]- (8-bit Data bus) 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_47_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_47_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_47_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_47_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_47_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_47_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[21]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[21]- (GPIO bank 1) 1= c + n0, Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA sig + al) 3= swdt0, Output, swdt0_rst_out- (Watch Dog Timer Output clock) 4= spi1, Input, spi1_n_ss_in- (SPI Master Selects) 4= spi + , Output, spi1_n_ss_out[0]- (SPI Master Selects) 5= ttc0, Output, ttc0_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd + (UART transmitter serial output) 7= Not Used*/ +#undef IOU_SLCR_MIO_PIN_47_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_47_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_47_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_47_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_47_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_47_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem1, Input, gem1_rgmii_rxd[3]- (RX RGMII data)*/ +#undef IOU_SLCR_MIO_PIN_48_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_48_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_48_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_48_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_48_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_48_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used*/ +#undef IOU_SLCR_MIO_PIN_48_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_48_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_48_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_48_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_48_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_48_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[7]- (8-bit Data bus) = sd0, Output, sdio0_data_out[7]- (8 + bit Data bus) 2= sd1, Input, sd1_data_in[2]- (8-bit Data bus) = sd1, Output, sdio1_data_out[2]- (8-bit Data bus) 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_48_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_48_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_48_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_48_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_48_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_48_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[22]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[22]- (GPIO bank 1) 1= c + n1, Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL sig + al) 3= swdt1, Input, swdt1_clk_in- (Watch Dog Timer Input clock) 4= spi1, Input, spi1_mi- (MISO signal) 4= spi1, Output, spi1 + so- (MISO signal) 5= ttc3, Input, ttc3_clk_in- (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= Not U + ed*/ +#undef IOU_SLCR_MIO_PIN_48_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_48_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_48_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_48_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_48_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_48_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem1, Input, gem1_rgmii_rx_ctl- (RX RGMII control )*/ +#undef IOU_SLCR_MIO_PIN_49_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_49_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_49_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_49_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_49_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_49_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used*/ +#undef IOU_SLCR_MIO_PIN_49_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_49_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_49_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_49_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_49_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_49_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Output, sdio0_bus_pow- (SD card bus power) 2= sd1, Input, sd1_data_in[3]- (8 + bit Data bus) = sd1, Output, sdio1_data_out[3]- (8-bit Data bus) 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_49_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_49_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_49_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_49_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_49_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_49_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[23]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[23]- (GPIO bank 1) 1= c + n1, Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA sign + l) 3= swdt1, Output, swdt1_rst_out- (Watch Dog Timer Output clock) 4= spi1, Output, spi1_mo- (MOSI signal) 4= spi1, Input, sp + 1_si- (MOSI signal) 5= ttc3, Output, ttc3_wave_out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial input) + 7= Not Used*/ +#undef IOU_SLCR_MIO_PIN_49_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_49_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_49_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_49_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_49_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_49_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem_tsu, Input, gem_tsu_clk- (TSU clock)*/ +#undef IOU_SLCR_MIO_PIN_50_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_50_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_50_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_50_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_50_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_50_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used*/ +#undef IOU_SLCR_MIO_PIN_50_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_50_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_50_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_50_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_50_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_50_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sdio0_wp- (SD card write protect from connector) 2= sd1, Input, sd1_c + d_in- (Command Indicator) = sd1, Output, sdio1_cmd_out- (Command Indicator) 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_50_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_50_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_50_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_50_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_50_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_50_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[24]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[24]- (GPIO bank 1) 1= c + n0, Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL sign + l) 3= swdt0, Input, swdt0_clk_in- (Watch Dog Timer Input clock) 4= mdio1, Output, gem1_mdc- (MDIO Clock) 5= ttc2, Input, ttc2 + clk_in- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= Not Used*/ +#undef IOU_SLCR_MIO_PIN_50_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_50_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_50_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_50_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_50_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_50_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem_tsu, Input, gem_tsu_clk- (TSU clock)*/ +#undef IOU_SLCR_MIO_PIN_51_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_51_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_51_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_51_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_51_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_51_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used*/ +#undef IOU_SLCR_MIO_PIN_51_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_51_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_51_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_51_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_51_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_51_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= sd1, Output, sdio1_clk_out- (SDSDIO clock) 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_51_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_51_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_51_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_51_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_51_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_51_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[25]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[25]- (GPIO bank 1) 1= c + n0, Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA sig + al) 3= swdt0, Output, swdt0_rst_out- (Watch Dog Timer Output clock) 4= mdio1, Input, gem1_mdio_in- (MDIO Data) 4= mdio1, Outp + t, gem1_mdio_out- (MDIO Data) 5= ttc2, Output, ttc2_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter + serial output) 7= Not Used*/ +#undef IOU_SLCR_MIO_PIN_51_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_51_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_51_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_51_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_51_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_51_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem2, Output, gem2_rgmii_tx_clk- (TX RGMII clock)*/ +#undef IOU_SLCR_MIO_PIN_52_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_52_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_52_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_52_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_52_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_52_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= usb0, Input, usb0_ulpi_clk_in- (ULPI Clock)*/ +#undef IOU_SLCR_MIO_PIN_52_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_52_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_52_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_52_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_52_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_52_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= Not Used 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_52_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_52_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_52_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_52_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_52_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_52_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[0]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[0]- (GPIO bank 2) 1= can + , Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL signa + ) 3= pjtag, Input, pjtag_tck- (PJTAG TCK) 4= spi0, Input, spi0_sclk_in- (SPI Clock) 4= spi0, Output, spi0_sclk_out- (SPI Cloc + ) 5= ttc1, Input, ttc1_clk_in- (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= trace, Output, trace_ + lk- (Trace Port Clock)*/ +#undef IOU_SLCR_MIO_PIN_52_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_52_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_52_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_52_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_52_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_52_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem2, Output, gem2_rgmii_txd[0]- (TX RGMII data)*/ +#undef IOU_SLCR_MIO_PIN_53_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_53_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_53_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_53_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_53_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_53_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= usb0, Input, usb0_ulpi_dir- (Data bus direction control)*/ +#undef IOU_SLCR_MIO_PIN_53_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_53_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_53_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_53_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_53_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_53_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= Not Used 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_53_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_53_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_53_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_53_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_53_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_53_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[1]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[1]- (GPIO bank 2) 1= can + , Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA signal + 3= pjtag, Input, pjtag_tdi- (PJTAG TDI) 4= spi0, Output, spi0_n_ss_out[2]- (SPI Master Selects) 5= ttc1, Output, ttc1_wave_o + t- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial input) 7= trace, Output, trace_ctl- (Trace Port Control + Signal)*/ +#undef IOU_SLCR_MIO_PIN_53_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_53_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_53_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_53_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_53_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_53_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem2, Output, gem2_rgmii_txd[1]- (TX RGMII data)*/ +#undef IOU_SLCR_MIO_PIN_54_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_54_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_54_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_54_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_54_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_54_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= usb0, Input, usb0_ulpi_rx_data[2]- (ULPI data bus) 1= usb0, Output, usb0_ulpi_tx_ + ata[2]- (ULPI data bus)*/ +#undef IOU_SLCR_MIO_PIN_54_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_54_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_54_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_54_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_54_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_54_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= Not Used 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_54_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_54_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_54_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_54_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_54_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_54_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[2]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[2]- (GPIO bank 2) 1= can + , Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL signal + 3= pjtag, Output, pjtag_tdo- (PJTAG TDO) 4= spi0, Output, spi0_n_ss_out[1]- (SPI Master Selects) 5= ttc0, Input, ttc0_clk_in + (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= trace, Output, tracedq[0]- (Trace Port Databus)*/ +#undef IOU_SLCR_MIO_PIN_54_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_54_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_54_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_54_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_54_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_54_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem2, Output, gem2_rgmii_txd[2]- (TX RGMII data)*/ +#undef IOU_SLCR_MIO_PIN_55_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_55_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_55_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_55_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_55_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_55_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= usb0, Input, usb0_ulpi_nxt- (Data flow control signal from the PHY)*/ +#undef IOU_SLCR_MIO_PIN_55_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_55_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_55_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_55_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_55_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_55_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= Not Used 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_55_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_55_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_55_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_55_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_55_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_55_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[3]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[3]- (GPIO bank 2) 1= can + , Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA signa + ) 3= pjtag, Input, pjtag_tms- (PJTAG TMS) 4= spi0, Input, spi0_n_ss_in- (SPI Master Selects) 4= spi0, Output, spi0_n_ss_out[0 + - (SPI Master Selects) 5= ttc0, Output, ttc0_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter serial + output) 7= trace, Output, tracedq[1]- (Trace Port Databus)*/ +#undef IOU_SLCR_MIO_PIN_55_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_55_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_55_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_55_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_55_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_55_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem2, Output, gem2_rgmii_txd[3]- (TX RGMII data)*/ +#undef IOU_SLCR_MIO_PIN_56_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_56_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_56_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_56_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_56_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_56_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= usb0, Input, usb0_ulpi_rx_data[0]- (ULPI data bus) 1= usb0, Output, usb0_ulpi_tx_ + ata[0]- (ULPI data bus)*/ +#undef IOU_SLCR_MIO_PIN_56_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_56_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_56_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_56_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_56_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_56_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= Not Used 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_56_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_56_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_56_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_56_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_56_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_56_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[4]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[4]- (GPIO bank 2) 1= can + , Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL signa + ) 3= swdt1, Input, swdt1_clk_in- (Watch Dog Timer Input clock) 4= spi0, Input, spi0_mi- (MISO signal) 4= spi0, Output, spi0_s + - (MISO signal) 5= ttc3, Input, ttc3_clk_in- (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= trace, + utput, tracedq[2]- (Trace Port Databus)*/ +#undef IOU_SLCR_MIO_PIN_56_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_56_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_56_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_56_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_56_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_56_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem2, Output, gem2_rgmii_tx_ctl- (TX RGMII control)*/ +#undef IOU_SLCR_MIO_PIN_57_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_57_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_57_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_57_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_57_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_57_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= usb0, Input, usb0_ulpi_rx_data[1]- (ULPI data bus) 1= usb0, Output, usb0_ulpi_tx_ + ata[1]- (ULPI data bus)*/ +#undef IOU_SLCR_MIO_PIN_57_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_57_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_57_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_57_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_57_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_57_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= Not Used 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_57_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_57_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_57_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_57_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_57_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_57_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[5]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[5]- (GPIO bank 2) 1= can + , Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA signal + 3= swdt1, Output, swdt1_rst_out- (Watch Dog Timer Output clock) 4= spi0, Output, spi0_mo- (MOSI signal) 4= spi0, Input, spi0 + si- (MOSI signal) 5= ttc3, Output, ttc3_wave_out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial input) 7 + trace, Output, tracedq[3]- (Trace Port Databus)*/ +#undef IOU_SLCR_MIO_PIN_57_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_57_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_57_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_57_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_57_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_57_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem2, Input, gem2_rgmii_rx_clk- (RX RGMII clock)*/ +#undef IOU_SLCR_MIO_PIN_58_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_58_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_58_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_58_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_58_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_58_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= usb0, Output, usb0_ulpi_stp- (Asserted to end or interrupt transfers)*/ +#undef IOU_SLCR_MIO_PIN_58_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_58_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_58_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_58_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_58_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_58_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= Not Used 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_58_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_58_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_58_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_58_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_58_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_58_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[6]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[6]- (GPIO bank 2) 1= can + , Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL signal + 3= pjtag, Input, pjtag_tck- (PJTAG TCK) 4= spi1, Input, spi1_sclk_in- (SPI Clock) 4= spi1, Output, spi1_sclk_out- (SPI Clock + 5= ttc2, Input, ttc2_clk_in- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= trace, Output, tracedq[4]- + Trace Port Databus)*/ +#undef IOU_SLCR_MIO_PIN_58_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_58_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_58_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_58_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_58_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_58_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem2, Input, gem2_rgmii_rxd[0]- (RX RGMII data)*/ +#undef IOU_SLCR_MIO_PIN_59_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_59_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_59_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_59_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_59_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_59_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= usb0, Input, usb0_ulpi_rx_data[3]- (ULPI data bus) 1= usb0, Output, usb0_ulpi_tx_ + ata[3]- (ULPI data bus)*/ +#undef IOU_SLCR_MIO_PIN_59_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_59_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_59_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_59_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_59_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_59_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= Not Used 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_59_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_59_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_59_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_59_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_59_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_59_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[7]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[7]- (GPIO bank 2) 1= can + , Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA signa + ) 3= pjtag, Input, pjtag_tdi- (PJTAG TDI) 4= spi1, Output, spi1_n_ss_out[2]- (SPI Master Selects) 5= ttc2, Output, ttc2_wave_ + ut- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter serial output) 7= trace, Output, tracedq[5]- (Trace Port + atabus)*/ +#undef IOU_SLCR_MIO_PIN_59_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_59_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_59_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_59_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_59_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_59_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem2, Input, gem2_rgmii_rxd[1]- (RX RGMII data)*/ +#undef IOU_SLCR_MIO_PIN_60_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_60_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_60_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_60_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_60_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_60_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= usb0, Input, usb0_ulpi_rx_data[4]- (ULPI data bus) 1= usb0, Output, usb0_ulpi_tx_ + ata[4]- (ULPI data bus)*/ +#undef IOU_SLCR_MIO_PIN_60_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_60_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_60_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_60_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_60_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_60_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= Not Used 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_60_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_60_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_60_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_60_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_60_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_60_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[8]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[8]- (GPIO bank 2) 1= can + , Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL signa + ) 3= pjtag, Output, pjtag_tdo- (PJTAG TDO) 4= spi1, Output, spi1_n_ss_out[1]- (SPI Master Selects) 5= ttc1, Input, ttc1_clk_i + - (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= trace, Output, tracedq[6]- (Trace Port Databus)*/ +#undef IOU_SLCR_MIO_PIN_60_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_60_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_60_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_60_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_60_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_60_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem2, Input, gem2_rgmii_rxd[2]- (RX RGMII data)*/ +#undef IOU_SLCR_MIO_PIN_61_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_61_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_61_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_61_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_61_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_61_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= usb0, Input, usb0_ulpi_rx_data[5]- (ULPI data bus) 1= usb0, Output, usb0_ulpi_tx_ + ata[5]- (ULPI data bus)*/ +#undef IOU_SLCR_MIO_PIN_61_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_61_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_61_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_61_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_61_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_61_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= Not Used 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_61_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_61_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_61_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_61_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_61_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_61_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[9]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[9]- (GPIO bank 2) 1= can + , Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA signal + 3= pjtag, Input, pjtag_tms- (PJTAG TMS) 4= spi1, Input, spi1_n_ss_in- (SPI Master Selects) 4= spi1, Output, spi1_n_ss_out[0] + (SPI Master Selects) 5= ttc1, Output, ttc1_wave_out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial inpu + ) 7= trace, Output, tracedq[7]- (Trace Port Databus)*/ +#undef IOU_SLCR_MIO_PIN_61_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_61_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_61_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_61_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_61_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_61_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem2, Input, gem2_rgmii_rxd[3]- (RX RGMII data)*/ +#undef IOU_SLCR_MIO_PIN_62_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_62_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_62_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_62_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_62_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_62_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= usb0, Input, usb0_ulpi_rx_data[6]- (ULPI data bus) 1= usb0, Output, usb0_ulpi_tx_ + ata[6]- (ULPI data bus)*/ +#undef IOU_SLCR_MIO_PIN_62_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_62_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_62_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_62_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_62_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_62_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= Not Used 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_62_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_62_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_62_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_62_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_62_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_62_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[10]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[10]- (GPIO bank 2) 1= c + n0, Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL sign + l) 3= swdt0, Input, swdt0_clk_in- (Watch Dog Timer Input clock) 4= spi1, Input, spi1_mi- (MISO signal) 4= spi1, Output, spi1_ + o- (MISO signal) 5= ttc0, Input, ttc0_clk_in- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= trace, Outp + t, tracedq[8]- (Trace Port Databus)*/ +#undef IOU_SLCR_MIO_PIN_62_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_62_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_62_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_62_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_62_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_62_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem2, Input, gem2_rgmii_rx_ctl- (RX RGMII control )*/ +#undef IOU_SLCR_MIO_PIN_63_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_63_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_63_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_63_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_63_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_63_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= usb0, Input, usb0_ulpi_rx_data[7]- (ULPI data bus) 1= usb0, Output, usb0_ulpi_tx_ + ata[7]- (ULPI data bus)*/ +#undef IOU_SLCR_MIO_PIN_63_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_63_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_63_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_63_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_63_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_63_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= Not Used 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_63_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_63_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_63_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_63_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_63_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_63_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[11]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[11]- (GPIO bank 2) 1= c + n0, Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA sig + al) 3= swdt0, Output, swdt0_rst_out- (Watch Dog Timer Output clock) 4= spi1, Output, spi1_mo- (MOSI signal) 4= spi1, Input, s + i1_si- (MOSI signal) 5= ttc0, Output, ttc0_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter serial o + tput) 7= trace, Output, tracedq[9]- (Trace Port Databus)*/ +#undef IOU_SLCR_MIO_PIN_63_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_63_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_63_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_63_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_63_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_63_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem3, Output, gem3_rgmii_tx_clk- (TX RGMII clock)*/ +#undef IOU_SLCR_MIO_PIN_64_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_64_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_64_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_64_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_64_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_64_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= usb1, Input, usb1_ulpi_clk_in- (ULPI Clock)*/ +#undef IOU_SLCR_MIO_PIN_64_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_64_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_64_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_64_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_64_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_64_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Output, sdio0_clk_out- (SDSDIO clock) 2= Not Used 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_64_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_64_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_64_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_64_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_64_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_64_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[12]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[12]- (GPIO bank 2) 1= c + n1, Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL sig + al) 3= swdt1, Input, swdt1_clk_in- (Watch Dog Timer Input clock) 4= spi0, Input, spi0_sclk_in- (SPI Clock) 4= spi0, Output, s + i0_sclk_out- (SPI Clock) 5= ttc3, Input, ttc3_clk_in- (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7 + trace, Output, tracedq[10]- (Trace Port Databus)*/ +#undef IOU_SLCR_MIO_PIN_64_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_64_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_64_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_64_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_64_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_64_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem3, Output, gem3_rgmii_txd[0]- (TX RGMII data)*/ +#undef IOU_SLCR_MIO_PIN_65_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_65_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_65_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_65_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_65_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_65_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= usb1, Input, usb1_ulpi_dir- (Data bus direction control)*/ +#undef IOU_SLCR_MIO_PIN_65_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_65_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_65_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_65_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_65_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_65_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sdio0_cd_n- (SD card detect from connector) 2= Not Used 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_65_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_65_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_65_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_65_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_65_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_65_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[13]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[13]- (GPIO bank 2) 1= c + n1, Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA sign + l) 3= swdt1, Output, swdt1_rst_out- (Watch Dog Timer Output clock) 4= spi0, Output, spi0_n_ss_out[2]- (SPI Master Selects) 5= + ttc3, Output, ttc3_wave_out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial input) 7= trace, Output, trac + dq[11]- (Trace Port Databus)*/ +#undef IOU_SLCR_MIO_PIN_65_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_65_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_65_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_65_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_65_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_65_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem3, Output, gem3_rgmii_txd[1]- (TX RGMII data)*/ +#undef IOU_SLCR_MIO_PIN_66_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_66_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_66_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_66_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_66_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_66_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= usb1, Input, usb1_ulpi_rx_data[2]- (ULPI data bus) 1= usb1, Output, usb1_ulpi_tx_ + ata[2]- (ULPI data bus)*/ +#undef IOU_SLCR_MIO_PIN_66_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_66_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_66_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_66_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_66_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_66_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_cmd_in- (Command Indicator) = sd0, Output, sdio0_cmd_out- (Comman + Indicator) 2= Not Used 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_66_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_66_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_66_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_66_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_66_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_66_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[14]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[14]- (GPIO bank 2) 1= c + n0, Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL sign + l) 3= swdt0, Input, swdt0_clk_in- (Watch Dog Timer Input clock) 4= spi0, Output, spi0_n_ss_out[1]- (SPI Master Selects) 5= tt + 2, Input, ttc2_clk_in- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= trace, Output, tracedq[12]- (Trace + Port Databus)*/ +#undef IOU_SLCR_MIO_PIN_66_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_66_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_66_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_66_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_66_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_66_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem3, Output, gem3_rgmii_txd[2]- (TX RGMII data)*/ +#undef IOU_SLCR_MIO_PIN_67_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_67_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_67_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_67_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_67_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_67_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= usb1, Input, usb1_ulpi_nxt- (Data flow control signal from the PHY)*/ +#undef IOU_SLCR_MIO_PIN_67_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_67_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_67_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_67_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_67_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_67_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[0]- (8-bit Data bus) = sd0, Output, sdio0_data_out[0]- (8 + bit Data bus) 2= Not Used 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_67_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_67_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_67_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_67_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_67_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_67_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[15]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[15]- (GPIO bank 2) 1= c + n0, Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA sig + al) 3= swdt0, Output, swdt0_rst_out- (Watch Dog Timer Output clock) 4= spi0, Input, spi0_n_ss_in- (SPI Master Selects) 4= spi + , Output, spi0_n_ss_out[0]- (SPI Master Selects) 5= ttc2, Output, ttc2_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd + (UART transmitter serial output) 7= trace, Output, tracedq[13]- (Trace Port Databus)*/ +#undef IOU_SLCR_MIO_PIN_67_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_67_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_67_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_67_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_67_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_67_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem3, Output, gem3_rgmii_txd[3]- (TX RGMII data)*/ +#undef IOU_SLCR_MIO_PIN_68_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_68_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_68_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_68_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_68_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_68_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= usb1, Input, usb1_ulpi_rx_data[0]- (ULPI data bus) 1= usb1, Output, usb1_ulpi_tx_ + ata[0]- (ULPI data bus)*/ +#undef IOU_SLCR_MIO_PIN_68_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_68_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_68_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_68_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_68_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_68_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[1]- (8-bit Data bus) = sd0, Output, sdio0_data_out[1]- (8 + bit Data bus) 2= Not Used 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_68_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_68_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_68_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_68_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_68_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_68_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[16]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[16]- (GPIO bank 2) 1= c + n1, Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL sig + al) 3= swdt1, Input, swdt1_clk_in- (Watch Dog Timer Input clock) 4= spi0, Input, spi0_mi- (MISO signal) 4= spi0, Output, spi0 + so- (MISO signal) 5= ttc1, Input, ttc1_clk_in- (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= trace + Output, tracedq[14]- (Trace Port Databus)*/ +#undef IOU_SLCR_MIO_PIN_68_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_68_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_68_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_68_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_68_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_68_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem3, Output, gem3_rgmii_tx_ctl- (TX RGMII control)*/ +#undef IOU_SLCR_MIO_PIN_69_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_69_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_69_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_69_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_69_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_69_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= usb1, Input, usb1_ulpi_rx_data[1]- (ULPI data bus) 1= usb1, Output, usb1_ulpi_tx_ + ata[1]- (ULPI data bus)*/ +#undef IOU_SLCR_MIO_PIN_69_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_69_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_69_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_69_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_69_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_69_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[2]- (8-bit Data bus) = sd0, Output, sdio0_data_out[2]- (8 + bit Data bus) 2= sd1, Input, sdio1_wp- (SD card write protect from connector) 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_69_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_69_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_69_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_69_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_69_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_69_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[17]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[17]- (GPIO bank 2) 1= c + n1, Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA sign + l) 3= swdt1, Output, swdt1_rst_out- (Watch Dog Timer Output clock) 4= spi0, Output, spi0_mo- (MOSI signal) 4= spi0, Input, sp + 0_si- (MOSI signal) 5= ttc1, Output, ttc1_wave_out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial input) + 7= trace, Output, tracedq[15]- (Trace Port Databus)*/ +#undef IOU_SLCR_MIO_PIN_69_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_69_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_69_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_69_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_69_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_69_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem3, Input, gem3_rgmii_rx_clk- (RX RGMII clock)*/ +#undef IOU_SLCR_MIO_PIN_70_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_70_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_70_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_70_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_70_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_70_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= usb1, Output, usb1_ulpi_stp- (Asserted to end or interrupt transfers)*/ +#undef IOU_SLCR_MIO_PIN_70_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_70_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_70_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_70_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_70_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_70_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[3]- (8-bit Data bus) = sd0, Output, sdio0_data_out[3]- (8 + bit Data bus) 2= sd1, Output, sdio1_bus_pow- (SD card bus power) 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_70_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_70_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_70_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_70_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_70_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_70_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[18]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[18]- (GPIO bank 2) 1= c + n0, Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL sign + l) 3= swdt0, Input, swdt0_clk_in- (Watch Dog Timer Input clock) 4= spi1, Input, spi1_sclk_in- (SPI Clock) 4= spi1, Output, sp + 1_sclk_out- (SPI Clock) 5= ttc0, Input, ttc0_clk_in- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= Not + sed*/ +#undef IOU_SLCR_MIO_PIN_70_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_70_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_70_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_70_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_70_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_70_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem3, Input, gem3_rgmii_rxd[0]- (RX RGMII data)*/ +#undef IOU_SLCR_MIO_PIN_71_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_71_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_71_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_71_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_71_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_71_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= usb1, Input, usb1_ulpi_rx_data[3]- (ULPI data bus) 1= usb1, Output, usb1_ulpi_tx_ + ata[3]- (ULPI data bus)*/ +#undef IOU_SLCR_MIO_PIN_71_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_71_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_71_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_71_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_71_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_71_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[4]- (8-bit Data bus) = sd0, Output, sdio0_data_out[4]- (8 + bit Data bus) 2= sd1, Input, sd1_data_in[0]- (8-bit Data bus) = sd1, Output, sdio1_data_out[0]- (8-bit Data bus) 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_71_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_71_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_71_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_71_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_71_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_71_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[19]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[19]- (GPIO bank 2) 1= c + n0, Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA sig + al) 3= swdt0, Output, swdt0_rst_out- (Watch Dog Timer Output clock) 4= spi1, Output, spi1_n_ss_out[2]- (SPI Master Selects) 5 + ttc0, Output, ttc0_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter serial output) 7= Not Used*/ +#undef IOU_SLCR_MIO_PIN_71_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_71_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_71_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_71_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_71_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_71_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem3, Input, gem3_rgmii_rxd[1]- (RX RGMII data)*/ +#undef IOU_SLCR_MIO_PIN_72_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_72_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_72_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_72_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_72_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_72_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= usb1, Input, usb1_ulpi_rx_data[4]- (ULPI data bus) 1= usb1, Output, usb1_ulpi_tx_ + ata[4]- (ULPI data bus)*/ +#undef IOU_SLCR_MIO_PIN_72_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_72_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_72_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_72_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_72_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_72_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[5]- (8-bit Data bus) = sd0, Output, sdio0_data_out[5]- (8 + bit Data bus) 2= sd1, Input, sd1_data_in[1]- (8-bit Data bus) = sd1, Output, sdio1_data_out[1]- (8-bit Data bus) 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_72_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_72_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_72_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_72_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_72_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_72_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[20]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[20]- (GPIO bank 2) 1= c + n1, Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL sig + al) 3= swdt1, Input, swdt1_clk_in- (Watch Dog Timer Input clock) 4= spi1, Output, spi1_n_ss_out[1]- (SPI Master Selects) 5= N + t Used 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= Not Used*/ +#undef IOU_SLCR_MIO_PIN_72_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_72_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_72_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_72_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_72_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_72_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem3, Input, gem3_rgmii_rxd[2]- (RX RGMII data)*/ +#undef IOU_SLCR_MIO_PIN_73_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_73_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_73_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_73_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_73_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_73_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= usb1, Input, usb1_ulpi_rx_data[5]- (ULPI data bus) 1= usb1, Output, usb1_ulpi_tx_ + ata[5]- (ULPI data bus)*/ +#undef IOU_SLCR_MIO_PIN_73_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_73_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_73_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_73_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_73_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_73_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[6]- (8-bit Data bus) = sd0, Output, sdio0_data_out[6]- (8 + bit Data bus) 2= sd1, Input, sd1_data_in[2]- (8-bit Data bus) = sd1, Output, sdio1_data_out[2]- (8-bit Data bus) 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_73_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_73_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_73_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_73_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_73_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_73_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[21]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[21]- (GPIO bank 2) 1= c + n1, Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA sign + l) 3= swdt1, Output, swdt1_rst_out- (Watch Dog Timer Output clock) 4= spi1, Input, spi1_n_ss_in- (SPI Master Selects) 4= spi1 + Output, spi1_n_ss_out[0]- (SPI Master Selects) 5= Not Used 6= ua1, Input, ua1_rxd- (UART receiver serial input) 7= Not Used*/ +#undef IOU_SLCR_MIO_PIN_73_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_73_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_73_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_73_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_73_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_73_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem3, Input, gem3_rgmii_rxd[3]- (RX RGMII data)*/ +#undef IOU_SLCR_MIO_PIN_74_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_74_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_74_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_74_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_74_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_74_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= usb1, Input, usb1_ulpi_rx_data[6]- (ULPI data bus) 1= usb1, Output, usb1_ulpi_tx_ + ata[6]- (ULPI data bus)*/ +#undef IOU_SLCR_MIO_PIN_74_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_74_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_74_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_74_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_74_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_74_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[7]- (8-bit Data bus) = sd0, Output, sdio0_data_out[7]- (8 + bit Data bus) 2= sd1, Input, sd1_data_in[3]- (8-bit Data bus) = sd1, Output, sdio1_data_out[3]- (8-bit Data bus) 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_74_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_74_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_74_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_74_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_74_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_74_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[22]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[22]- (GPIO bank 2) 1= c + n0, Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL sign + l) 3= swdt0, Input, swdt0_clk_in- (Watch Dog Timer Input clock) 4= spi1, Input, spi1_mi- (MISO signal) 4= spi1, Output, spi1_ + o- (MISO signal) 5= Not Used 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= Not Used*/ +#undef IOU_SLCR_MIO_PIN_74_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_74_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_74_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_74_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_74_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_74_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= gem3, Input, gem3_rgmii_rx_ctl- (RX RGMII control )*/ +#undef IOU_SLCR_MIO_PIN_75_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_75_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_75_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_75_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_75_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_75_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= usb1, Input, usb1_ulpi_rx_data[7]- (ULPI data bus) 1= usb1, Output, usb1_ulpi_tx_ + ata[7]- (ULPI data bus)*/ +#undef IOU_SLCR_MIO_PIN_75_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_75_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_75_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_75_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_75_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_75_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Output, sdio0_bus_pow- (SD card bus power) 2= sd1, Input, sd1_cmd_in- (Comma + d Indicator) = sd1, Output, sdio1_cmd_out- (Command Indicator) 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_75_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_75_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_75_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_75_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_75_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_75_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[23]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[23]- (GPIO bank 2) 1= c + n0, Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA sig + al) 3= swdt0, Output, swdt0_rst_out- (Watch Dog Timer Output clock) 4= spi1, Output, spi1_mo- (MOSI signal) 4= spi1, Input, s + i1_si- (MOSI signal) 5= Not Used 6= ua0, Output, ua0_txd- (UART transmitter serial output) 7= Not Used*/ +#undef IOU_SLCR_MIO_PIN_75_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_75_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_75_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_75_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_75_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_75_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used*/ +#undef IOU_SLCR_MIO_PIN_76_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_76_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_76_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_76_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_76_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_76_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used*/ +#undef IOU_SLCR_MIO_PIN_76_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_76_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_76_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_76_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_76_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_76_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sdio0_wp- (SD card write protect from connector) 2= sd1, Output, sdio + _clk_out- (SDSDIO clock) 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_76_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_76_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_76_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_76_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_76_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_76_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[24]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[24]- (GPIO bank 2) 1= c + n1, Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL sig + al) 3= mdio0, Output, gem0_mdc- (MDIO Clock) 4= mdio1, Output, gem1_mdc- (MDIO Clock) 5= mdio2, Output, gem2_mdc- (MDIO Clock + 6= mdio3, Output, gem3_mdc- (MDIO Clock) 7= Not Used*/ +#undef IOU_SLCR_MIO_PIN_76_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_76_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_76_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_76_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_76_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_76_L3_SEL_MASK 0x000000E0U + +/*Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used*/ +#undef IOU_SLCR_MIO_PIN_77_L0_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_77_L0_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_77_L0_SEL_MASK +#define IOU_SLCR_MIO_PIN_77_L0_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_77_L0_SEL_SHIFT 1 +#define IOU_SLCR_MIO_PIN_77_L0_SEL_MASK 0x00000002U + +/*Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used*/ +#undef IOU_SLCR_MIO_PIN_77_L1_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_77_L1_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_77_L1_SEL_MASK +#define IOU_SLCR_MIO_PIN_77_L1_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_77_L1_SEL_SHIFT 2 +#define IOU_SLCR_MIO_PIN_77_L1_SEL_MASK 0x00000004U + +/*Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= sd1, Input, sdio1_cd_n- (SD card detect from connector) 3= Not Used*/ +#undef IOU_SLCR_MIO_PIN_77_L2_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_77_L2_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_77_L2_SEL_MASK +#define IOU_SLCR_MIO_PIN_77_L2_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_77_L2_SEL_SHIFT 3 +#define IOU_SLCR_MIO_PIN_77_L2_SEL_MASK 0x00000018U + +/*Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[25]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[25]- (GPIO bank 2) 1= c + n1, Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA sign + l) 3= mdio0, Input, gem0_mdio_in- (MDIO Data) 3= mdio0, Output, gem0_mdio_out- (MDIO Data) 4= mdio1, Input, gem1_mdio_in- (MD + O Data) 4= mdio1, Output, gem1_mdio_out- (MDIO Data) 5= mdio2, Input, gem2_mdio_in- (MDIO Data) 5= mdio2, Output, gem2_mdio_o + t- (MDIO Data) 6= mdio3, Input, gem3_mdio_in- (MDIO Data) 6= mdio3, Output, gem3_mdio_out- (MDIO Data) 7= Not Used*/ +#undef IOU_SLCR_MIO_PIN_77_L3_SEL_DEFVAL +#undef IOU_SLCR_MIO_PIN_77_L3_SEL_SHIFT +#undef IOU_SLCR_MIO_PIN_77_L3_SEL_MASK +#define IOU_SLCR_MIO_PIN_77_L3_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_PIN_77_L3_SEL_SHIFT 5 +#define IOU_SLCR_MIO_PIN_77_L3_SEL_MASK 0x000000E0U + +/*Master Tri-state Enable for pin 0, active high*/ +#undef IOU_SLCR_MIO_MST_TRI0_PIN_00_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI0_PIN_00_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI0_PIN_00_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI0_PIN_00_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI0_PIN_00_TRI_SHIFT 0 +#define IOU_SLCR_MIO_MST_TRI0_PIN_00_TRI_MASK 0x00000001U + +/*Master Tri-state Enable for pin 1, active high*/ +#undef IOU_SLCR_MIO_MST_TRI0_PIN_01_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI0_PIN_01_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI0_PIN_01_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI0_PIN_01_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI0_PIN_01_TRI_SHIFT 1 +#define IOU_SLCR_MIO_MST_TRI0_PIN_01_TRI_MASK 0x00000002U + +/*Master Tri-state Enable for pin 2, active high*/ +#undef IOU_SLCR_MIO_MST_TRI0_PIN_02_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI0_PIN_02_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI0_PIN_02_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI0_PIN_02_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI0_PIN_02_TRI_SHIFT 2 +#define IOU_SLCR_MIO_MST_TRI0_PIN_02_TRI_MASK 0x00000004U + +/*Master Tri-state Enable for pin 3, active high*/ +#undef IOU_SLCR_MIO_MST_TRI0_PIN_03_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI0_PIN_03_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI0_PIN_03_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI0_PIN_03_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI0_PIN_03_TRI_SHIFT 3 +#define IOU_SLCR_MIO_MST_TRI0_PIN_03_TRI_MASK 0x00000008U + +/*Master Tri-state Enable for pin 4, active high*/ +#undef IOU_SLCR_MIO_MST_TRI0_PIN_04_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI0_PIN_04_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI0_PIN_04_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI0_PIN_04_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI0_PIN_04_TRI_SHIFT 4 +#define IOU_SLCR_MIO_MST_TRI0_PIN_04_TRI_MASK 0x00000010U + +/*Master Tri-state Enable for pin 5, active high*/ +#undef IOU_SLCR_MIO_MST_TRI0_PIN_05_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI0_PIN_05_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI0_PIN_05_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI0_PIN_05_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI0_PIN_05_TRI_SHIFT 5 +#define IOU_SLCR_MIO_MST_TRI0_PIN_05_TRI_MASK 0x00000020U + +/*Master Tri-state Enable for pin 6, active high*/ +#undef IOU_SLCR_MIO_MST_TRI0_PIN_06_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI0_PIN_06_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI0_PIN_06_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI0_PIN_06_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI0_PIN_06_TRI_SHIFT 6 +#define IOU_SLCR_MIO_MST_TRI0_PIN_06_TRI_MASK 0x00000040U + +/*Master Tri-state Enable for pin 7, active high*/ +#undef IOU_SLCR_MIO_MST_TRI0_PIN_07_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI0_PIN_07_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI0_PIN_07_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI0_PIN_07_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI0_PIN_07_TRI_SHIFT 7 +#define IOU_SLCR_MIO_MST_TRI0_PIN_07_TRI_MASK 0x00000080U + +/*Master Tri-state Enable for pin 8, active high*/ +#undef IOU_SLCR_MIO_MST_TRI0_PIN_08_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI0_PIN_08_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI0_PIN_08_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI0_PIN_08_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI0_PIN_08_TRI_SHIFT 8 +#define IOU_SLCR_MIO_MST_TRI0_PIN_08_TRI_MASK 0x00000100U + +/*Master Tri-state Enable for pin 9, active high*/ +#undef IOU_SLCR_MIO_MST_TRI0_PIN_09_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI0_PIN_09_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI0_PIN_09_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI0_PIN_09_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI0_PIN_09_TRI_SHIFT 9 +#define IOU_SLCR_MIO_MST_TRI0_PIN_09_TRI_MASK 0x00000200U + +/*Master Tri-state Enable for pin 10, active high*/ +#undef IOU_SLCR_MIO_MST_TRI0_PIN_10_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI0_PIN_10_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI0_PIN_10_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI0_PIN_10_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI0_PIN_10_TRI_SHIFT 10 +#define IOU_SLCR_MIO_MST_TRI0_PIN_10_TRI_MASK 0x00000400U + +/*Master Tri-state Enable for pin 11, active high*/ +#undef IOU_SLCR_MIO_MST_TRI0_PIN_11_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI0_PIN_11_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI0_PIN_11_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI0_PIN_11_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI0_PIN_11_TRI_SHIFT 11 +#define IOU_SLCR_MIO_MST_TRI0_PIN_11_TRI_MASK 0x00000800U + +/*Master Tri-state Enable for pin 12, active high*/ +#undef IOU_SLCR_MIO_MST_TRI0_PIN_12_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI0_PIN_12_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI0_PIN_12_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI0_PIN_12_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI0_PIN_12_TRI_SHIFT 12 +#define IOU_SLCR_MIO_MST_TRI0_PIN_12_TRI_MASK 0x00001000U + +/*Master Tri-state Enable for pin 13, active high*/ +#undef IOU_SLCR_MIO_MST_TRI0_PIN_13_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI0_PIN_13_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI0_PIN_13_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI0_PIN_13_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI0_PIN_13_TRI_SHIFT 13 +#define IOU_SLCR_MIO_MST_TRI0_PIN_13_TRI_MASK 0x00002000U + +/*Master Tri-state Enable for pin 14, active high*/ +#undef IOU_SLCR_MIO_MST_TRI0_PIN_14_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI0_PIN_14_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI0_PIN_14_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI0_PIN_14_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI0_PIN_14_TRI_SHIFT 14 +#define IOU_SLCR_MIO_MST_TRI0_PIN_14_TRI_MASK 0x00004000U + +/*Master Tri-state Enable for pin 15, active high*/ +#undef IOU_SLCR_MIO_MST_TRI0_PIN_15_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI0_PIN_15_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI0_PIN_15_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI0_PIN_15_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI0_PIN_15_TRI_SHIFT 15 +#define IOU_SLCR_MIO_MST_TRI0_PIN_15_TRI_MASK 0x00008000U + +/*Master Tri-state Enable for pin 16, active high*/ +#undef IOU_SLCR_MIO_MST_TRI0_PIN_16_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI0_PIN_16_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI0_PIN_16_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI0_PIN_16_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI0_PIN_16_TRI_SHIFT 16 +#define IOU_SLCR_MIO_MST_TRI0_PIN_16_TRI_MASK 0x00010000U + +/*Master Tri-state Enable for pin 17, active high*/ +#undef IOU_SLCR_MIO_MST_TRI0_PIN_17_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI0_PIN_17_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI0_PIN_17_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI0_PIN_17_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI0_PIN_17_TRI_SHIFT 17 +#define IOU_SLCR_MIO_MST_TRI0_PIN_17_TRI_MASK 0x00020000U + +/*Master Tri-state Enable for pin 18, active high*/ +#undef IOU_SLCR_MIO_MST_TRI0_PIN_18_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI0_PIN_18_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI0_PIN_18_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI0_PIN_18_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI0_PIN_18_TRI_SHIFT 18 +#define IOU_SLCR_MIO_MST_TRI0_PIN_18_TRI_MASK 0x00040000U + +/*Master Tri-state Enable for pin 19, active high*/ +#undef IOU_SLCR_MIO_MST_TRI0_PIN_19_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI0_PIN_19_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI0_PIN_19_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI0_PIN_19_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI0_PIN_19_TRI_SHIFT 19 +#define IOU_SLCR_MIO_MST_TRI0_PIN_19_TRI_MASK 0x00080000U + +/*Master Tri-state Enable for pin 20, active high*/ +#undef IOU_SLCR_MIO_MST_TRI0_PIN_20_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI0_PIN_20_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI0_PIN_20_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI0_PIN_20_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI0_PIN_20_TRI_SHIFT 20 +#define IOU_SLCR_MIO_MST_TRI0_PIN_20_TRI_MASK 0x00100000U + +/*Master Tri-state Enable for pin 21, active high*/ +#undef IOU_SLCR_MIO_MST_TRI0_PIN_21_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI0_PIN_21_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI0_PIN_21_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI0_PIN_21_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI0_PIN_21_TRI_SHIFT 21 +#define IOU_SLCR_MIO_MST_TRI0_PIN_21_TRI_MASK 0x00200000U + +/*Master Tri-state Enable for pin 22, active high*/ +#undef IOU_SLCR_MIO_MST_TRI0_PIN_22_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI0_PIN_22_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI0_PIN_22_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI0_PIN_22_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI0_PIN_22_TRI_SHIFT 22 +#define IOU_SLCR_MIO_MST_TRI0_PIN_22_TRI_MASK 0x00400000U + +/*Master Tri-state Enable for pin 23, active high*/ +#undef IOU_SLCR_MIO_MST_TRI0_PIN_23_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI0_PIN_23_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI0_PIN_23_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI0_PIN_23_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI0_PIN_23_TRI_SHIFT 23 +#define IOU_SLCR_MIO_MST_TRI0_PIN_23_TRI_MASK 0x00800000U + +/*Master Tri-state Enable for pin 24, active high*/ +#undef IOU_SLCR_MIO_MST_TRI0_PIN_24_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI0_PIN_24_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI0_PIN_24_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI0_PIN_24_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI0_PIN_24_TRI_SHIFT 24 +#define IOU_SLCR_MIO_MST_TRI0_PIN_24_TRI_MASK 0x01000000U + +/*Master Tri-state Enable for pin 25, active high*/ +#undef IOU_SLCR_MIO_MST_TRI0_PIN_25_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI0_PIN_25_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI0_PIN_25_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI0_PIN_25_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI0_PIN_25_TRI_SHIFT 25 +#define IOU_SLCR_MIO_MST_TRI0_PIN_25_TRI_MASK 0x02000000U + +/*Master Tri-state Enable for pin 26, active high*/ +#undef IOU_SLCR_MIO_MST_TRI0_PIN_26_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI0_PIN_26_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI0_PIN_26_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI0_PIN_26_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI0_PIN_26_TRI_SHIFT 26 +#define IOU_SLCR_MIO_MST_TRI0_PIN_26_TRI_MASK 0x04000000U + +/*Master Tri-state Enable for pin 27, active high*/ +#undef IOU_SLCR_MIO_MST_TRI0_PIN_27_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI0_PIN_27_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI0_PIN_27_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI0_PIN_27_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI0_PIN_27_TRI_SHIFT 27 +#define IOU_SLCR_MIO_MST_TRI0_PIN_27_TRI_MASK 0x08000000U + +/*Master Tri-state Enable for pin 28, active high*/ +#undef IOU_SLCR_MIO_MST_TRI0_PIN_28_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI0_PIN_28_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI0_PIN_28_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI0_PIN_28_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI0_PIN_28_TRI_SHIFT 28 +#define IOU_SLCR_MIO_MST_TRI0_PIN_28_TRI_MASK 0x10000000U + +/*Master Tri-state Enable for pin 29, active high*/ +#undef IOU_SLCR_MIO_MST_TRI0_PIN_29_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI0_PIN_29_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI0_PIN_29_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI0_PIN_29_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI0_PIN_29_TRI_SHIFT 29 +#define IOU_SLCR_MIO_MST_TRI0_PIN_29_TRI_MASK 0x20000000U + +/*Master Tri-state Enable for pin 30, active high*/ +#undef IOU_SLCR_MIO_MST_TRI0_PIN_30_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI0_PIN_30_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI0_PIN_30_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI0_PIN_30_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI0_PIN_30_TRI_SHIFT 30 +#define IOU_SLCR_MIO_MST_TRI0_PIN_30_TRI_MASK 0x40000000U + +/*Master Tri-state Enable for pin 31, active high*/ +#undef IOU_SLCR_MIO_MST_TRI0_PIN_31_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI0_PIN_31_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI0_PIN_31_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI0_PIN_31_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI0_PIN_31_TRI_SHIFT 31 +#define IOU_SLCR_MIO_MST_TRI0_PIN_31_TRI_MASK 0x80000000U + +/*Master Tri-state Enable for pin 32, active high*/ +#undef IOU_SLCR_MIO_MST_TRI1_PIN_32_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI1_PIN_32_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI1_PIN_32_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI1_PIN_32_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI1_PIN_32_TRI_SHIFT 0 +#define IOU_SLCR_MIO_MST_TRI1_PIN_32_TRI_MASK 0x00000001U + +/*Master Tri-state Enable for pin 33, active high*/ +#undef IOU_SLCR_MIO_MST_TRI1_PIN_33_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI1_PIN_33_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI1_PIN_33_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI1_PIN_33_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI1_PIN_33_TRI_SHIFT 1 +#define IOU_SLCR_MIO_MST_TRI1_PIN_33_TRI_MASK 0x00000002U + +/*Master Tri-state Enable for pin 34, active high*/ +#undef IOU_SLCR_MIO_MST_TRI1_PIN_34_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI1_PIN_34_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI1_PIN_34_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI1_PIN_34_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI1_PIN_34_TRI_SHIFT 2 +#define IOU_SLCR_MIO_MST_TRI1_PIN_34_TRI_MASK 0x00000004U + +/*Master Tri-state Enable for pin 35, active high*/ +#undef IOU_SLCR_MIO_MST_TRI1_PIN_35_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI1_PIN_35_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI1_PIN_35_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI1_PIN_35_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI1_PIN_35_TRI_SHIFT 3 +#define IOU_SLCR_MIO_MST_TRI1_PIN_35_TRI_MASK 0x00000008U + +/*Master Tri-state Enable for pin 36, active high*/ +#undef IOU_SLCR_MIO_MST_TRI1_PIN_36_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI1_PIN_36_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI1_PIN_36_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI1_PIN_36_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI1_PIN_36_TRI_SHIFT 4 +#define IOU_SLCR_MIO_MST_TRI1_PIN_36_TRI_MASK 0x00000010U + +/*Master Tri-state Enable for pin 37, active high*/ +#undef IOU_SLCR_MIO_MST_TRI1_PIN_37_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI1_PIN_37_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI1_PIN_37_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI1_PIN_37_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI1_PIN_37_TRI_SHIFT 5 +#define IOU_SLCR_MIO_MST_TRI1_PIN_37_TRI_MASK 0x00000020U + +/*Master Tri-state Enable for pin 38, active high*/ +#undef IOU_SLCR_MIO_MST_TRI1_PIN_38_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI1_PIN_38_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI1_PIN_38_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI1_PIN_38_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI1_PIN_38_TRI_SHIFT 6 +#define IOU_SLCR_MIO_MST_TRI1_PIN_38_TRI_MASK 0x00000040U + +/*Master Tri-state Enable for pin 39, active high*/ +#undef IOU_SLCR_MIO_MST_TRI1_PIN_39_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI1_PIN_39_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI1_PIN_39_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI1_PIN_39_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI1_PIN_39_TRI_SHIFT 7 +#define IOU_SLCR_MIO_MST_TRI1_PIN_39_TRI_MASK 0x00000080U + +/*Master Tri-state Enable for pin 40, active high*/ +#undef IOU_SLCR_MIO_MST_TRI1_PIN_40_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI1_PIN_40_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI1_PIN_40_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI1_PIN_40_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI1_PIN_40_TRI_SHIFT 8 +#define IOU_SLCR_MIO_MST_TRI1_PIN_40_TRI_MASK 0x00000100U + +/*Master Tri-state Enable for pin 41, active high*/ +#undef IOU_SLCR_MIO_MST_TRI1_PIN_41_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI1_PIN_41_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI1_PIN_41_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI1_PIN_41_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI1_PIN_41_TRI_SHIFT 9 +#define IOU_SLCR_MIO_MST_TRI1_PIN_41_TRI_MASK 0x00000200U + +/*Master Tri-state Enable for pin 42, active high*/ +#undef IOU_SLCR_MIO_MST_TRI1_PIN_42_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI1_PIN_42_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI1_PIN_42_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI1_PIN_42_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI1_PIN_42_TRI_SHIFT 10 +#define IOU_SLCR_MIO_MST_TRI1_PIN_42_TRI_MASK 0x00000400U + +/*Master Tri-state Enable for pin 43, active high*/ +#undef IOU_SLCR_MIO_MST_TRI1_PIN_43_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI1_PIN_43_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI1_PIN_43_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI1_PIN_43_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI1_PIN_43_TRI_SHIFT 11 +#define IOU_SLCR_MIO_MST_TRI1_PIN_43_TRI_MASK 0x00000800U + +/*Master Tri-state Enable for pin 44, active high*/ +#undef IOU_SLCR_MIO_MST_TRI1_PIN_44_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI1_PIN_44_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI1_PIN_44_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI1_PIN_44_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI1_PIN_44_TRI_SHIFT 12 +#define IOU_SLCR_MIO_MST_TRI1_PIN_44_TRI_MASK 0x00001000U + +/*Master Tri-state Enable for pin 45, active high*/ +#undef IOU_SLCR_MIO_MST_TRI1_PIN_45_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI1_PIN_45_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI1_PIN_45_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI1_PIN_45_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI1_PIN_45_TRI_SHIFT 13 +#define IOU_SLCR_MIO_MST_TRI1_PIN_45_TRI_MASK 0x00002000U + +/*Master Tri-state Enable for pin 46, active high*/ +#undef IOU_SLCR_MIO_MST_TRI1_PIN_46_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI1_PIN_46_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI1_PIN_46_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI1_PIN_46_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI1_PIN_46_TRI_SHIFT 14 +#define IOU_SLCR_MIO_MST_TRI1_PIN_46_TRI_MASK 0x00004000U + +/*Master Tri-state Enable for pin 47, active high*/ +#undef IOU_SLCR_MIO_MST_TRI1_PIN_47_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI1_PIN_47_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI1_PIN_47_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI1_PIN_47_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI1_PIN_47_TRI_SHIFT 15 +#define IOU_SLCR_MIO_MST_TRI1_PIN_47_TRI_MASK 0x00008000U + +/*Master Tri-state Enable for pin 48, active high*/ +#undef IOU_SLCR_MIO_MST_TRI1_PIN_48_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI1_PIN_48_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI1_PIN_48_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI1_PIN_48_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI1_PIN_48_TRI_SHIFT 16 +#define IOU_SLCR_MIO_MST_TRI1_PIN_48_TRI_MASK 0x00010000U + +/*Master Tri-state Enable for pin 49, active high*/ +#undef IOU_SLCR_MIO_MST_TRI1_PIN_49_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI1_PIN_49_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI1_PIN_49_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI1_PIN_49_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI1_PIN_49_TRI_SHIFT 17 +#define IOU_SLCR_MIO_MST_TRI1_PIN_49_TRI_MASK 0x00020000U + +/*Master Tri-state Enable for pin 50, active high*/ +#undef IOU_SLCR_MIO_MST_TRI1_PIN_50_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI1_PIN_50_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI1_PIN_50_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI1_PIN_50_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI1_PIN_50_TRI_SHIFT 18 +#define IOU_SLCR_MIO_MST_TRI1_PIN_50_TRI_MASK 0x00040000U + +/*Master Tri-state Enable for pin 51, active high*/ +#undef IOU_SLCR_MIO_MST_TRI1_PIN_51_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI1_PIN_51_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI1_PIN_51_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI1_PIN_51_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI1_PIN_51_TRI_SHIFT 19 +#define IOU_SLCR_MIO_MST_TRI1_PIN_51_TRI_MASK 0x00080000U + +/*Master Tri-state Enable for pin 52, active high*/ +#undef IOU_SLCR_MIO_MST_TRI1_PIN_52_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI1_PIN_52_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI1_PIN_52_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI1_PIN_52_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI1_PIN_52_TRI_SHIFT 20 +#define IOU_SLCR_MIO_MST_TRI1_PIN_52_TRI_MASK 0x00100000U + +/*Master Tri-state Enable for pin 53, active high*/ +#undef IOU_SLCR_MIO_MST_TRI1_PIN_53_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI1_PIN_53_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI1_PIN_53_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI1_PIN_53_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI1_PIN_53_TRI_SHIFT 21 +#define IOU_SLCR_MIO_MST_TRI1_PIN_53_TRI_MASK 0x00200000U + +/*Master Tri-state Enable for pin 54, active high*/ +#undef IOU_SLCR_MIO_MST_TRI1_PIN_54_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI1_PIN_54_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI1_PIN_54_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI1_PIN_54_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI1_PIN_54_TRI_SHIFT 22 +#define IOU_SLCR_MIO_MST_TRI1_PIN_54_TRI_MASK 0x00400000U + +/*Master Tri-state Enable for pin 55, active high*/ +#undef IOU_SLCR_MIO_MST_TRI1_PIN_55_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI1_PIN_55_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI1_PIN_55_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI1_PIN_55_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI1_PIN_55_TRI_SHIFT 23 +#define IOU_SLCR_MIO_MST_TRI1_PIN_55_TRI_MASK 0x00800000U + +/*Master Tri-state Enable for pin 56, active high*/ +#undef IOU_SLCR_MIO_MST_TRI1_PIN_56_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI1_PIN_56_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI1_PIN_56_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI1_PIN_56_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI1_PIN_56_TRI_SHIFT 24 +#define IOU_SLCR_MIO_MST_TRI1_PIN_56_TRI_MASK 0x01000000U + +/*Master Tri-state Enable for pin 57, active high*/ +#undef IOU_SLCR_MIO_MST_TRI1_PIN_57_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI1_PIN_57_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI1_PIN_57_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI1_PIN_57_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI1_PIN_57_TRI_SHIFT 25 +#define IOU_SLCR_MIO_MST_TRI1_PIN_57_TRI_MASK 0x02000000U + +/*Master Tri-state Enable for pin 58, active high*/ +#undef IOU_SLCR_MIO_MST_TRI1_PIN_58_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI1_PIN_58_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI1_PIN_58_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI1_PIN_58_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI1_PIN_58_TRI_SHIFT 26 +#define IOU_SLCR_MIO_MST_TRI1_PIN_58_TRI_MASK 0x04000000U + +/*Master Tri-state Enable for pin 59, active high*/ +#undef IOU_SLCR_MIO_MST_TRI1_PIN_59_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI1_PIN_59_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI1_PIN_59_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI1_PIN_59_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI1_PIN_59_TRI_SHIFT 27 +#define IOU_SLCR_MIO_MST_TRI1_PIN_59_TRI_MASK 0x08000000U + +/*Master Tri-state Enable for pin 60, active high*/ +#undef IOU_SLCR_MIO_MST_TRI1_PIN_60_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI1_PIN_60_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI1_PIN_60_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI1_PIN_60_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI1_PIN_60_TRI_SHIFT 28 +#define IOU_SLCR_MIO_MST_TRI1_PIN_60_TRI_MASK 0x10000000U + +/*Master Tri-state Enable for pin 61, active high*/ +#undef IOU_SLCR_MIO_MST_TRI1_PIN_61_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI1_PIN_61_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI1_PIN_61_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI1_PIN_61_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI1_PIN_61_TRI_SHIFT 29 +#define IOU_SLCR_MIO_MST_TRI1_PIN_61_TRI_MASK 0x20000000U + +/*Master Tri-state Enable for pin 62, active high*/ +#undef IOU_SLCR_MIO_MST_TRI1_PIN_62_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI1_PIN_62_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI1_PIN_62_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI1_PIN_62_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI1_PIN_62_TRI_SHIFT 30 +#define IOU_SLCR_MIO_MST_TRI1_PIN_62_TRI_MASK 0x40000000U + +/*Master Tri-state Enable for pin 63, active high*/ +#undef IOU_SLCR_MIO_MST_TRI1_PIN_63_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI1_PIN_63_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI1_PIN_63_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI1_PIN_63_TRI_DEFVAL 0xFFFFFFFF +#define IOU_SLCR_MIO_MST_TRI1_PIN_63_TRI_SHIFT 31 +#define IOU_SLCR_MIO_MST_TRI1_PIN_63_TRI_MASK 0x80000000U + +/*Master Tri-state Enable for pin 64, active high*/ +#undef IOU_SLCR_MIO_MST_TRI2_PIN_64_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI2_PIN_64_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI2_PIN_64_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI2_PIN_64_TRI_DEFVAL 0x00003FFF +#define IOU_SLCR_MIO_MST_TRI2_PIN_64_TRI_SHIFT 0 +#define IOU_SLCR_MIO_MST_TRI2_PIN_64_TRI_MASK 0x00000001U + +/*Master Tri-state Enable for pin 65, active high*/ +#undef IOU_SLCR_MIO_MST_TRI2_PIN_65_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI2_PIN_65_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI2_PIN_65_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI2_PIN_65_TRI_DEFVAL 0x00003FFF +#define IOU_SLCR_MIO_MST_TRI2_PIN_65_TRI_SHIFT 1 +#define IOU_SLCR_MIO_MST_TRI2_PIN_65_TRI_MASK 0x00000002U + +/*Master Tri-state Enable for pin 66, active high*/ +#undef IOU_SLCR_MIO_MST_TRI2_PIN_66_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI2_PIN_66_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI2_PIN_66_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI2_PIN_66_TRI_DEFVAL 0x00003FFF +#define IOU_SLCR_MIO_MST_TRI2_PIN_66_TRI_SHIFT 2 +#define IOU_SLCR_MIO_MST_TRI2_PIN_66_TRI_MASK 0x00000004U + +/*Master Tri-state Enable for pin 67, active high*/ +#undef IOU_SLCR_MIO_MST_TRI2_PIN_67_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI2_PIN_67_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI2_PIN_67_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI2_PIN_67_TRI_DEFVAL 0x00003FFF +#define IOU_SLCR_MIO_MST_TRI2_PIN_67_TRI_SHIFT 3 +#define IOU_SLCR_MIO_MST_TRI2_PIN_67_TRI_MASK 0x00000008U + +/*Master Tri-state Enable for pin 68, active high*/ +#undef IOU_SLCR_MIO_MST_TRI2_PIN_68_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI2_PIN_68_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI2_PIN_68_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI2_PIN_68_TRI_DEFVAL 0x00003FFF +#define IOU_SLCR_MIO_MST_TRI2_PIN_68_TRI_SHIFT 4 +#define IOU_SLCR_MIO_MST_TRI2_PIN_68_TRI_MASK 0x00000010U + +/*Master Tri-state Enable for pin 69, active high*/ +#undef IOU_SLCR_MIO_MST_TRI2_PIN_69_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI2_PIN_69_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI2_PIN_69_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI2_PIN_69_TRI_DEFVAL 0x00003FFF +#define IOU_SLCR_MIO_MST_TRI2_PIN_69_TRI_SHIFT 5 +#define IOU_SLCR_MIO_MST_TRI2_PIN_69_TRI_MASK 0x00000020U + +/*Master Tri-state Enable for pin 70, active high*/ +#undef IOU_SLCR_MIO_MST_TRI2_PIN_70_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI2_PIN_70_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI2_PIN_70_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI2_PIN_70_TRI_DEFVAL 0x00003FFF +#define IOU_SLCR_MIO_MST_TRI2_PIN_70_TRI_SHIFT 6 +#define IOU_SLCR_MIO_MST_TRI2_PIN_70_TRI_MASK 0x00000040U + +/*Master Tri-state Enable for pin 71, active high*/ +#undef IOU_SLCR_MIO_MST_TRI2_PIN_71_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI2_PIN_71_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI2_PIN_71_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI2_PIN_71_TRI_DEFVAL 0x00003FFF +#define IOU_SLCR_MIO_MST_TRI2_PIN_71_TRI_SHIFT 7 +#define IOU_SLCR_MIO_MST_TRI2_PIN_71_TRI_MASK 0x00000080U + +/*Master Tri-state Enable for pin 72, active high*/ +#undef IOU_SLCR_MIO_MST_TRI2_PIN_72_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI2_PIN_72_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI2_PIN_72_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI2_PIN_72_TRI_DEFVAL 0x00003FFF +#define IOU_SLCR_MIO_MST_TRI2_PIN_72_TRI_SHIFT 8 +#define IOU_SLCR_MIO_MST_TRI2_PIN_72_TRI_MASK 0x00000100U + +/*Master Tri-state Enable for pin 73, active high*/ +#undef IOU_SLCR_MIO_MST_TRI2_PIN_73_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI2_PIN_73_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI2_PIN_73_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI2_PIN_73_TRI_DEFVAL 0x00003FFF +#define IOU_SLCR_MIO_MST_TRI2_PIN_73_TRI_SHIFT 9 +#define IOU_SLCR_MIO_MST_TRI2_PIN_73_TRI_MASK 0x00000200U + +/*Master Tri-state Enable for pin 74, active high*/ +#undef IOU_SLCR_MIO_MST_TRI2_PIN_74_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI2_PIN_74_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI2_PIN_74_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI2_PIN_74_TRI_DEFVAL 0x00003FFF +#define IOU_SLCR_MIO_MST_TRI2_PIN_74_TRI_SHIFT 10 +#define IOU_SLCR_MIO_MST_TRI2_PIN_74_TRI_MASK 0x00000400U + +/*Master Tri-state Enable for pin 75, active high*/ +#undef IOU_SLCR_MIO_MST_TRI2_PIN_75_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI2_PIN_75_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI2_PIN_75_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI2_PIN_75_TRI_DEFVAL 0x00003FFF +#define IOU_SLCR_MIO_MST_TRI2_PIN_75_TRI_SHIFT 11 +#define IOU_SLCR_MIO_MST_TRI2_PIN_75_TRI_MASK 0x00000800U + +/*Master Tri-state Enable for pin 76, active high*/ +#undef IOU_SLCR_MIO_MST_TRI2_PIN_76_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI2_PIN_76_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI2_PIN_76_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI2_PIN_76_TRI_DEFVAL 0x00003FFF +#define IOU_SLCR_MIO_MST_TRI2_PIN_76_TRI_SHIFT 12 +#define IOU_SLCR_MIO_MST_TRI2_PIN_76_TRI_MASK 0x00001000U + +/*Master Tri-state Enable for pin 77, active high*/ +#undef IOU_SLCR_MIO_MST_TRI2_PIN_77_TRI_DEFVAL +#undef IOU_SLCR_MIO_MST_TRI2_PIN_77_TRI_SHIFT +#undef IOU_SLCR_MIO_MST_TRI2_PIN_77_TRI_MASK +#define IOU_SLCR_MIO_MST_TRI2_PIN_77_TRI_DEFVAL 0x00003FFF +#define IOU_SLCR_MIO_MST_TRI2_PIN_77_TRI_SHIFT 13 +#define IOU_SLCR_MIO_MST_TRI2_PIN_77_TRI_MASK 0x00002000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_0_DEFVAL +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_0_SHIFT +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_0_MASK +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_0_DEFVAL +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_0_SHIFT 0 +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_0_MASK 0x00000001U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_1_DEFVAL +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_1_SHIFT +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_1_MASK +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_1_DEFVAL +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_1_SHIFT 1 +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_1_MASK 0x00000002U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_2_DEFVAL +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_2_SHIFT +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_2_MASK +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_2_DEFVAL +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_2_SHIFT 2 +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_2_MASK 0x00000004U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_3_DEFVAL +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_3_SHIFT +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_3_MASK +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_3_DEFVAL +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_3_SHIFT 3 +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_3_MASK 0x00000008U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_4_DEFVAL +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_4_SHIFT +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_4_MASK +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_4_DEFVAL +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_4_SHIFT 4 +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_4_MASK 0x00000010U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_5_DEFVAL +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_5_SHIFT +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_5_MASK +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_5_DEFVAL +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_5_SHIFT 5 +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_5_MASK 0x00000020U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_6_DEFVAL +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_6_SHIFT +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_6_MASK +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_6_DEFVAL +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_6_SHIFT 6 +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_6_MASK 0x00000040U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_7_DEFVAL +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_7_SHIFT +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_7_MASK +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_7_DEFVAL +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_7_SHIFT 7 +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_7_MASK 0x00000080U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_8_DEFVAL +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_8_SHIFT +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_8_MASK +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_8_DEFVAL +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_8_SHIFT 8 +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_8_MASK 0x00000100U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_9_DEFVAL +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_9_SHIFT +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_9_MASK +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_9_DEFVAL +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_9_SHIFT 9 +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_9_MASK 0x00000200U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_10_DEFVAL +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_10_SHIFT +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_10_MASK +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_10_DEFVAL +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_10_SHIFT 10 +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_10_MASK 0x00000400U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_11_DEFVAL +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_11_SHIFT +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_11_MASK +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_11_DEFVAL +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_11_SHIFT 11 +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_11_MASK 0x00000800U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_12_DEFVAL +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_12_SHIFT +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_12_MASK +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_12_DEFVAL +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_12_SHIFT 12 +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_12_MASK 0x00001000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_13_DEFVAL +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_13_SHIFT +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_13_MASK +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_13_DEFVAL +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_13_SHIFT 13 +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_13_MASK 0x00002000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_14_DEFVAL +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_14_SHIFT +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_14_MASK +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_14_DEFVAL +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_14_SHIFT 14 +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_14_MASK 0x00004000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_15_DEFVAL +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_15_SHIFT +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_15_MASK +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_15_DEFVAL +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_15_SHIFT 15 +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_15_MASK 0x00008000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_16_DEFVAL +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_16_SHIFT +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_16_MASK +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_16_DEFVAL +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_16_SHIFT 16 +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_16_MASK 0x00010000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_17_DEFVAL +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_17_SHIFT +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_17_MASK +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_17_DEFVAL +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_17_SHIFT 17 +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_17_MASK 0x00020000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_18_DEFVAL +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_18_SHIFT +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_18_MASK +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_18_DEFVAL +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_18_SHIFT 18 +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_18_MASK 0x00040000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_19_DEFVAL +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_19_SHIFT +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_19_MASK +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_19_DEFVAL +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_19_SHIFT 19 +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_19_MASK 0x00080000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_20_DEFVAL +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_20_SHIFT +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_20_MASK +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_20_DEFVAL +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_20_SHIFT 20 +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_20_MASK 0x00100000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_21_DEFVAL +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_21_SHIFT +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_21_MASK +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_21_DEFVAL +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_21_SHIFT 21 +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_21_MASK 0x00200000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_22_DEFVAL +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_22_SHIFT +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_22_MASK +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_22_DEFVAL +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_22_SHIFT 22 +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_22_MASK 0x00400000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_23_DEFVAL +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_23_SHIFT +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_23_MASK +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_23_DEFVAL +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_23_SHIFT 23 +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_23_MASK 0x00800000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_24_DEFVAL +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_24_SHIFT +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_24_MASK +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_24_DEFVAL +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_24_SHIFT 24 +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_24_MASK 0x01000000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_25_DEFVAL +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_25_SHIFT +#undef IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_25_MASK +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_25_DEFVAL +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_25_SHIFT 25 +#define IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_25_MASK 0x02000000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_0_DEFVAL +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_0_SHIFT +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_0_MASK +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_0_DEFVAL +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_0_SHIFT 0 +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_0_MASK 0x00000001U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_1_DEFVAL +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_1_SHIFT +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_1_MASK +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_1_DEFVAL +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_1_SHIFT 1 +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_1_MASK 0x00000002U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_2_DEFVAL +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_2_SHIFT +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_2_MASK +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_2_DEFVAL +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_2_SHIFT 2 +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_2_MASK 0x00000004U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_3_DEFVAL +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_3_SHIFT +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_3_MASK +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_3_DEFVAL +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_3_SHIFT 3 +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_3_MASK 0x00000008U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_4_DEFVAL +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_4_SHIFT +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_4_MASK +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_4_DEFVAL +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_4_SHIFT 4 +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_4_MASK 0x00000010U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_5_DEFVAL +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_5_SHIFT +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_5_MASK +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_5_DEFVAL +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_5_SHIFT 5 +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_5_MASK 0x00000020U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_6_DEFVAL +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_6_SHIFT +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_6_MASK +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_6_DEFVAL +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_6_SHIFT 6 +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_6_MASK 0x00000040U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_7_DEFVAL +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_7_SHIFT +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_7_MASK +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_7_DEFVAL +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_7_SHIFT 7 +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_7_MASK 0x00000080U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_8_DEFVAL +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_8_SHIFT +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_8_MASK +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_8_DEFVAL +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_8_SHIFT 8 +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_8_MASK 0x00000100U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_9_DEFVAL +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_9_SHIFT +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_9_MASK +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_9_DEFVAL +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_9_SHIFT 9 +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_9_MASK 0x00000200U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_10_DEFVAL +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_10_SHIFT +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_10_MASK +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_10_DEFVAL +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_10_SHIFT 10 +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_10_MASK 0x00000400U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_11_DEFVAL +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_11_SHIFT +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_11_MASK +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_11_DEFVAL +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_11_SHIFT 11 +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_11_MASK 0x00000800U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_12_DEFVAL +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_12_SHIFT +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_12_MASK +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_12_DEFVAL +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_12_SHIFT 12 +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_12_MASK 0x00001000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_13_DEFVAL +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_13_SHIFT +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_13_MASK +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_13_DEFVAL +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_13_SHIFT 13 +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_13_MASK 0x00002000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_14_DEFVAL +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_14_SHIFT +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_14_MASK +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_14_DEFVAL +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_14_SHIFT 14 +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_14_MASK 0x00004000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_15_DEFVAL +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_15_SHIFT +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_15_MASK +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_15_DEFVAL +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_15_SHIFT 15 +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_15_MASK 0x00008000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_16_DEFVAL +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_16_SHIFT +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_16_MASK +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_16_DEFVAL +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_16_SHIFT 16 +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_16_MASK 0x00010000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_17_DEFVAL +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_17_SHIFT +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_17_MASK +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_17_DEFVAL +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_17_SHIFT 17 +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_17_MASK 0x00020000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_18_DEFVAL +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_18_SHIFT +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_18_MASK +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_18_DEFVAL +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_18_SHIFT 18 +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_18_MASK 0x00040000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_19_DEFVAL +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_19_SHIFT +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_19_MASK +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_19_DEFVAL +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_19_SHIFT 19 +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_19_MASK 0x00080000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_20_DEFVAL +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_20_SHIFT +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_20_MASK +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_20_DEFVAL +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_20_SHIFT 20 +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_20_MASK 0x00100000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_21_DEFVAL +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_21_SHIFT +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_21_MASK +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_21_DEFVAL +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_21_SHIFT 21 +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_21_MASK 0x00200000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_22_DEFVAL +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_22_SHIFT +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_22_MASK +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_22_DEFVAL +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_22_SHIFT 22 +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_22_MASK 0x00400000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_23_DEFVAL +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_23_SHIFT +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_23_MASK +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_23_DEFVAL +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_23_SHIFT 23 +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_23_MASK 0x00800000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_24_DEFVAL +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_24_SHIFT +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_24_MASK +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_24_DEFVAL +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_24_SHIFT 24 +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_24_MASK 0x01000000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_25_DEFVAL +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_25_SHIFT +#undef IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_25_MASK +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_25_DEFVAL +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_25_SHIFT 25 +#define IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_25_MASK 0x02000000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_0_DEFVAL +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_0_SHIFT +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_0_MASK +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_0_DEFVAL +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_0_SHIFT 0 +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_0_MASK 0x00000001U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_1_DEFVAL +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_1_SHIFT +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_1_MASK +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_1_DEFVAL +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_1_SHIFT 1 +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_1_MASK 0x00000002U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_2_DEFVAL +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_2_SHIFT +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_2_MASK +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_2_DEFVAL +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_2_SHIFT 2 +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_2_MASK 0x00000004U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_3_DEFVAL +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_3_SHIFT +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_3_MASK +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_3_DEFVAL +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_3_SHIFT 3 +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_3_MASK 0x00000008U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_4_DEFVAL +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_4_SHIFT +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_4_MASK +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_4_DEFVAL +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_4_SHIFT 4 +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_4_MASK 0x00000010U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_5_DEFVAL +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_5_SHIFT +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_5_MASK +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_5_DEFVAL +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_5_SHIFT 5 +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_5_MASK 0x00000020U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_6_DEFVAL +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_6_SHIFT +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_6_MASK +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_6_DEFVAL +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_6_SHIFT 6 +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_6_MASK 0x00000040U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_7_DEFVAL +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_7_SHIFT +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_7_MASK +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_7_DEFVAL +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_7_SHIFT 7 +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_7_MASK 0x00000080U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_8_DEFVAL +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_8_SHIFT +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_8_MASK +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_8_DEFVAL +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_8_SHIFT 8 +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_8_MASK 0x00000100U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_9_DEFVAL +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_9_SHIFT +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_9_MASK +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_9_DEFVAL +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_9_SHIFT 9 +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_9_MASK 0x00000200U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_10_DEFVAL +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_10_SHIFT +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_10_MASK +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_10_DEFVAL +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_10_SHIFT 10 +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_10_MASK 0x00000400U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_11_DEFVAL +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_11_SHIFT +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_11_MASK +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_11_DEFVAL +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_11_SHIFT 11 +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_11_MASK 0x00000800U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_12_DEFVAL +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_12_SHIFT +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_12_MASK +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_12_DEFVAL +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_12_SHIFT 12 +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_12_MASK 0x00001000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_13_DEFVAL +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_13_SHIFT +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_13_MASK +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_13_DEFVAL +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_13_SHIFT 13 +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_13_MASK 0x00002000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_14_DEFVAL +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_14_SHIFT +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_14_MASK +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_14_DEFVAL +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_14_SHIFT 14 +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_14_MASK 0x00004000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_15_DEFVAL +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_15_SHIFT +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_15_MASK +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_15_DEFVAL +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_15_SHIFT 15 +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_15_MASK 0x00008000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_16_DEFVAL +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_16_SHIFT +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_16_MASK +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_16_DEFVAL +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_16_SHIFT 16 +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_16_MASK 0x00010000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_17_DEFVAL +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_17_SHIFT +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_17_MASK +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_17_DEFVAL +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_17_SHIFT 17 +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_17_MASK 0x00020000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_18_DEFVAL +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_18_SHIFT +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_18_MASK +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_18_DEFVAL +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_18_SHIFT 18 +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_18_MASK 0x00040000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_19_DEFVAL +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_19_SHIFT +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_19_MASK +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_19_DEFVAL +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_19_SHIFT 19 +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_19_MASK 0x00080000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_20_DEFVAL +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_20_SHIFT +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_20_MASK +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_20_DEFVAL +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_20_SHIFT 20 +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_20_MASK 0x00100000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_21_DEFVAL +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_21_SHIFT +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_21_MASK +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_21_DEFVAL +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_21_SHIFT 21 +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_21_MASK 0x00200000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_22_DEFVAL +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_22_SHIFT +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_22_MASK +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_22_DEFVAL +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_22_SHIFT 22 +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_22_MASK 0x00400000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_23_DEFVAL +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_23_SHIFT +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_23_MASK +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_23_DEFVAL +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_23_SHIFT 23 +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_23_MASK 0x00800000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_24_DEFVAL +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_24_SHIFT +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_24_MASK +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_24_DEFVAL +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_24_SHIFT 24 +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_24_MASK 0x01000000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_25_DEFVAL +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_25_SHIFT +#undef IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_25_MASK +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_25_DEFVAL +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_25_SHIFT 25 +#define IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_25_MASK 0x02000000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_0_DEFVAL +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_0_SHIFT +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_0_MASK +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_0_DEFVAL +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_0_SHIFT 0 +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_0_MASK 0x00000001U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_1_DEFVAL +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_1_SHIFT +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_1_MASK +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_1_DEFVAL +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_1_SHIFT 1 +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_1_MASK 0x00000002U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_2_DEFVAL +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_2_SHIFT +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_2_MASK +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_2_DEFVAL +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_2_SHIFT 2 +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_2_MASK 0x00000004U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_3_DEFVAL +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_3_SHIFT +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_3_MASK +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_3_DEFVAL +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_3_SHIFT 3 +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_3_MASK 0x00000008U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_4_DEFVAL +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_4_SHIFT +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_4_MASK +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_4_DEFVAL +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_4_SHIFT 4 +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_4_MASK 0x00000010U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_5_DEFVAL +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_5_SHIFT +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_5_MASK +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_5_DEFVAL +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_5_SHIFT 5 +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_5_MASK 0x00000020U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_6_DEFVAL +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_6_SHIFT +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_6_MASK +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_6_DEFVAL +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_6_SHIFT 6 +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_6_MASK 0x00000040U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_7_DEFVAL +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_7_SHIFT +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_7_MASK +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_7_DEFVAL +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_7_SHIFT 7 +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_7_MASK 0x00000080U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_8_DEFVAL +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_8_SHIFT +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_8_MASK +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_8_DEFVAL +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_8_SHIFT 8 +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_8_MASK 0x00000100U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_9_DEFVAL +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_9_SHIFT +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_9_MASK +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_9_DEFVAL +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_9_SHIFT 9 +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_9_MASK 0x00000200U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_10_DEFVAL +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_10_SHIFT +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_10_MASK +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_10_DEFVAL +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_10_SHIFT 10 +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_10_MASK 0x00000400U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_11_DEFVAL +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_11_SHIFT +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_11_MASK +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_11_DEFVAL +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_11_SHIFT 11 +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_11_MASK 0x00000800U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_12_DEFVAL +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_12_SHIFT +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_12_MASK +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_12_DEFVAL +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_12_SHIFT 12 +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_12_MASK 0x00001000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_13_DEFVAL +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_13_SHIFT +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_13_MASK +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_13_DEFVAL +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_13_SHIFT 13 +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_13_MASK 0x00002000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_14_DEFVAL +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_14_SHIFT +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_14_MASK +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_14_DEFVAL +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_14_SHIFT 14 +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_14_MASK 0x00004000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_15_DEFVAL +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_15_SHIFT +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_15_MASK +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_15_DEFVAL +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_15_SHIFT 15 +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_15_MASK 0x00008000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_16_DEFVAL +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_16_SHIFT +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_16_MASK +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_16_DEFVAL +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_16_SHIFT 16 +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_16_MASK 0x00010000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_17_DEFVAL +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_17_SHIFT +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_17_MASK +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_17_DEFVAL +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_17_SHIFT 17 +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_17_MASK 0x00020000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_18_DEFVAL +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_18_SHIFT +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_18_MASK +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_18_DEFVAL +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_18_SHIFT 18 +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_18_MASK 0x00040000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_19_DEFVAL +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_19_SHIFT +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_19_MASK +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_19_DEFVAL +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_19_SHIFT 19 +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_19_MASK 0x00080000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_20_DEFVAL +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_20_SHIFT +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_20_MASK +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_20_DEFVAL +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_20_SHIFT 20 +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_20_MASK 0x00100000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_21_DEFVAL +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_21_SHIFT +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_21_MASK +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_21_DEFVAL +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_21_SHIFT 21 +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_21_MASK 0x00200000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_22_DEFVAL +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_22_SHIFT +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_22_MASK +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_22_DEFVAL +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_22_SHIFT 22 +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_22_MASK 0x00400000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_23_DEFVAL +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_23_SHIFT +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_23_MASK +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_23_DEFVAL +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_23_SHIFT 23 +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_23_MASK 0x00800000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_24_DEFVAL +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_24_SHIFT +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_24_MASK +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_24_DEFVAL +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_24_SHIFT 24 +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_24_MASK 0x01000000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_25_DEFVAL +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_25_SHIFT +#undef IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_25_MASK +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_25_DEFVAL +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_25_SHIFT 25 +#define IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_25_MASK 0x02000000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_0_DEFVAL +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_0_SHIFT +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_0_MASK +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_0_DEFVAL +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_0_SHIFT 0 +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_0_MASK 0x00000001U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_1_DEFVAL +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_1_SHIFT +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_1_MASK +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_1_DEFVAL +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_1_SHIFT 1 +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_1_MASK 0x00000002U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_2_DEFVAL +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_2_SHIFT +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_2_MASK +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_2_DEFVAL +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_2_SHIFT 2 +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_2_MASK 0x00000004U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_3_DEFVAL +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_3_SHIFT +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_3_MASK +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_3_DEFVAL +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_3_SHIFT 3 +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_3_MASK 0x00000008U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_4_DEFVAL +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_4_SHIFT +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_4_MASK +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_4_DEFVAL +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_4_SHIFT 4 +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_4_MASK 0x00000010U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_5_DEFVAL +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_5_SHIFT +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_5_MASK +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_5_DEFVAL +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_5_SHIFT 5 +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_5_MASK 0x00000020U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_6_DEFVAL +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_6_SHIFT +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_6_MASK +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_6_DEFVAL +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_6_SHIFT 6 +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_6_MASK 0x00000040U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_7_DEFVAL +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_7_SHIFT +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_7_MASK +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_7_DEFVAL +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_7_SHIFT 7 +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_7_MASK 0x00000080U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_8_DEFVAL +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_8_SHIFT +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_8_MASK +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_8_DEFVAL +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_8_SHIFT 8 +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_8_MASK 0x00000100U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_9_DEFVAL +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_9_SHIFT +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_9_MASK +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_9_DEFVAL +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_9_SHIFT 9 +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_9_MASK 0x00000200U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_10_DEFVAL +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_10_SHIFT +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_10_MASK +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_10_DEFVAL +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_10_SHIFT 10 +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_10_MASK 0x00000400U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_11_DEFVAL +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_11_SHIFT +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_11_MASK +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_11_DEFVAL +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_11_SHIFT 11 +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_11_MASK 0x00000800U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_12_DEFVAL +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_12_SHIFT +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_12_MASK +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_12_DEFVAL +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_12_SHIFT 12 +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_12_MASK 0x00001000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_13_DEFVAL +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_13_SHIFT +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_13_MASK +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_13_DEFVAL +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_13_SHIFT 13 +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_13_MASK 0x00002000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_14_DEFVAL +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_14_SHIFT +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_14_MASK +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_14_DEFVAL +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_14_SHIFT 14 +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_14_MASK 0x00004000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_15_DEFVAL +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_15_SHIFT +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_15_MASK +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_15_DEFVAL +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_15_SHIFT 15 +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_15_MASK 0x00008000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_16_DEFVAL +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_16_SHIFT +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_16_MASK +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_16_DEFVAL +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_16_SHIFT 16 +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_16_MASK 0x00010000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_17_DEFVAL +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_17_SHIFT +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_17_MASK +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_17_DEFVAL +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_17_SHIFT 17 +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_17_MASK 0x00020000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_18_DEFVAL +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_18_SHIFT +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_18_MASK +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_18_DEFVAL +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_18_SHIFT 18 +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_18_MASK 0x00040000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_19_DEFVAL +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_19_SHIFT +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_19_MASK +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_19_DEFVAL +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_19_SHIFT 19 +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_19_MASK 0x00080000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_20_DEFVAL +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_20_SHIFT +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_20_MASK +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_20_DEFVAL +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_20_SHIFT 20 +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_20_MASK 0x00100000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_21_DEFVAL +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_21_SHIFT +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_21_MASK +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_21_DEFVAL +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_21_SHIFT 21 +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_21_MASK 0x00200000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_22_DEFVAL +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_22_SHIFT +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_22_MASK +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_22_DEFVAL +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_22_SHIFT 22 +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_22_MASK 0x00400000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_23_DEFVAL +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_23_SHIFT +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_23_MASK +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_23_DEFVAL +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_23_SHIFT 23 +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_23_MASK 0x00800000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_24_DEFVAL +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_24_SHIFT +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_24_MASK +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_24_DEFVAL +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_24_SHIFT 24 +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_24_MASK 0x01000000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_25_DEFVAL +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_25_SHIFT +#undef IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_25_MASK +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_25_DEFVAL +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_25_SHIFT 25 +#define IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_25_MASK 0x02000000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_0_DEFVAL +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_0_SHIFT +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_0_MASK +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_0_DEFVAL +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_0_SHIFT 0 +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_0_MASK 0x00000001U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_1_DEFVAL +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_1_SHIFT +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_1_MASK +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_1_DEFVAL +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_1_SHIFT 1 +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_1_MASK 0x00000002U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_2_DEFVAL +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_2_SHIFT +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_2_MASK +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_2_DEFVAL +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_2_SHIFT 2 +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_2_MASK 0x00000004U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_3_DEFVAL +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_3_SHIFT +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_3_MASK +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_3_DEFVAL +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_3_SHIFT 3 +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_3_MASK 0x00000008U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_4_DEFVAL +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_4_SHIFT +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_4_MASK +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_4_DEFVAL +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_4_SHIFT 4 +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_4_MASK 0x00000010U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_5_DEFVAL +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_5_SHIFT +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_5_MASK +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_5_DEFVAL +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_5_SHIFT 5 +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_5_MASK 0x00000020U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_6_DEFVAL +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_6_SHIFT +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_6_MASK +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_6_DEFVAL +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_6_SHIFT 6 +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_6_MASK 0x00000040U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_7_DEFVAL +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_7_SHIFT +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_7_MASK +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_7_DEFVAL +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_7_SHIFT 7 +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_7_MASK 0x00000080U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_8_DEFVAL +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_8_SHIFT +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_8_MASK +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_8_DEFVAL +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_8_SHIFT 8 +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_8_MASK 0x00000100U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_9_DEFVAL +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_9_SHIFT +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_9_MASK +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_9_DEFVAL +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_9_SHIFT 9 +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_9_MASK 0x00000200U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_10_DEFVAL +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_10_SHIFT +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_10_MASK +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_10_DEFVAL +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_10_SHIFT 10 +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_10_MASK 0x00000400U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_11_DEFVAL +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_11_SHIFT +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_11_MASK +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_11_DEFVAL +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_11_SHIFT 11 +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_11_MASK 0x00000800U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_12_DEFVAL +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_12_SHIFT +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_12_MASK +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_12_DEFVAL +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_12_SHIFT 12 +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_12_MASK 0x00001000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_13_DEFVAL +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_13_SHIFT +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_13_MASK +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_13_DEFVAL +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_13_SHIFT 13 +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_13_MASK 0x00002000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_14_DEFVAL +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_14_SHIFT +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_14_MASK +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_14_DEFVAL +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_14_SHIFT 14 +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_14_MASK 0x00004000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_15_DEFVAL +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_15_SHIFT +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_15_MASK +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_15_DEFVAL +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_15_SHIFT 15 +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_15_MASK 0x00008000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_16_DEFVAL +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_16_SHIFT +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_16_MASK +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_16_DEFVAL +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_16_SHIFT 16 +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_16_MASK 0x00010000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_17_DEFVAL +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_17_SHIFT +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_17_MASK +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_17_DEFVAL +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_17_SHIFT 17 +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_17_MASK 0x00020000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_18_DEFVAL +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_18_SHIFT +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_18_MASK +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_18_DEFVAL +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_18_SHIFT 18 +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_18_MASK 0x00040000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_19_DEFVAL +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_19_SHIFT +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_19_MASK +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_19_DEFVAL +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_19_SHIFT 19 +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_19_MASK 0x00080000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_20_DEFVAL +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_20_SHIFT +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_20_MASK +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_20_DEFVAL +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_20_SHIFT 20 +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_20_MASK 0x00100000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_21_DEFVAL +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_21_SHIFT +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_21_MASK +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_21_DEFVAL +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_21_SHIFT 21 +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_21_MASK 0x00200000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_22_DEFVAL +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_22_SHIFT +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_22_MASK +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_22_DEFVAL +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_22_SHIFT 22 +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_22_MASK 0x00400000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_23_DEFVAL +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_23_SHIFT +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_23_MASK +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_23_DEFVAL +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_23_SHIFT 23 +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_23_MASK 0x00800000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_24_DEFVAL +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_24_SHIFT +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_24_MASK +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_24_DEFVAL +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_24_SHIFT 24 +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_24_MASK 0x01000000U + +/*Each bit applies to a single IO. Bit 0 for MIO[0].*/ +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_25_DEFVAL +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_25_SHIFT +#undef IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_25_MASK +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_25_DEFVAL +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_25_SHIFT 25 +#define IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_25_MASK 0x02000000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_0_DEFVAL +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_0_SHIFT +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_0_MASK +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_0_DEFVAL +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_0_SHIFT 0 +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_0_MASK 0x00000001U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_1_DEFVAL +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_1_SHIFT +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_1_MASK +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_1_DEFVAL +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_1_SHIFT 1 +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_1_MASK 0x00000002U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_2_DEFVAL +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_2_SHIFT +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_2_MASK +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_2_DEFVAL +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_2_SHIFT 2 +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_2_MASK 0x00000004U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_3_DEFVAL +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_3_SHIFT +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_3_MASK +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_3_DEFVAL +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_3_SHIFT 3 +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_3_MASK 0x00000008U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_4_DEFVAL +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_4_SHIFT +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_4_MASK +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_4_DEFVAL +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_4_SHIFT 4 +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_4_MASK 0x00000010U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_5_DEFVAL +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_5_SHIFT +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_5_MASK +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_5_DEFVAL +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_5_SHIFT 5 +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_5_MASK 0x00000020U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_6_DEFVAL +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_6_SHIFT +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_6_MASK +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_6_DEFVAL +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_6_SHIFT 6 +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_6_MASK 0x00000040U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_7_DEFVAL +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_7_SHIFT +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_7_MASK +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_7_DEFVAL +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_7_SHIFT 7 +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_7_MASK 0x00000080U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_8_DEFVAL +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_8_SHIFT +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_8_MASK +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_8_DEFVAL +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_8_SHIFT 8 +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_8_MASK 0x00000100U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_9_DEFVAL +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_9_SHIFT +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_9_MASK +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_9_DEFVAL +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_9_SHIFT 9 +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_9_MASK 0x00000200U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_10_DEFVAL +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_10_SHIFT +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_10_MASK +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_10_DEFVAL +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_10_SHIFT 10 +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_10_MASK 0x00000400U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_11_DEFVAL +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_11_SHIFT +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_11_MASK +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_11_DEFVAL +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_11_SHIFT 11 +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_11_MASK 0x00000800U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_12_DEFVAL +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_12_SHIFT +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_12_MASK +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_12_DEFVAL +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_12_SHIFT 12 +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_12_MASK 0x00001000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_13_DEFVAL +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_13_SHIFT +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_13_MASK +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_13_DEFVAL +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_13_SHIFT 13 +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_13_MASK 0x00002000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_14_DEFVAL +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_14_SHIFT +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_14_MASK +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_14_DEFVAL +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_14_SHIFT 14 +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_14_MASK 0x00004000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_15_DEFVAL +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_15_SHIFT +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_15_MASK +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_15_DEFVAL +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_15_SHIFT 15 +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_15_MASK 0x00008000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_16_DEFVAL +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_16_SHIFT +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_16_MASK +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_16_DEFVAL +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_16_SHIFT 16 +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_16_MASK 0x00010000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_17_DEFVAL +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_17_SHIFT +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_17_MASK +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_17_DEFVAL +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_17_SHIFT 17 +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_17_MASK 0x00020000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_18_DEFVAL +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_18_SHIFT +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_18_MASK +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_18_DEFVAL +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_18_SHIFT 18 +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_18_MASK 0x00040000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_19_DEFVAL +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_19_SHIFT +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_19_MASK +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_19_DEFVAL +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_19_SHIFT 19 +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_19_MASK 0x00080000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_20_DEFVAL +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_20_SHIFT +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_20_MASK +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_20_DEFVAL +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_20_SHIFT 20 +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_20_MASK 0x00100000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_21_DEFVAL +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_21_SHIFT +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_21_MASK +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_21_DEFVAL +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_21_SHIFT 21 +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_21_MASK 0x00200000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_22_DEFVAL +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_22_SHIFT +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_22_MASK +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_22_DEFVAL +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_22_SHIFT 22 +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_22_MASK 0x00400000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_23_DEFVAL +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_23_SHIFT +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_23_MASK +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_23_DEFVAL +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_23_SHIFT 23 +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_23_MASK 0x00800000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_24_DEFVAL +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_24_SHIFT +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_24_MASK +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_24_DEFVAL +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_24_SHIFT 24 +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_24_MASK 0x01000000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_25_DEFVAL +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_25_SHIFT +#undef IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_25_MASK +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_25_DEFVAL +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_25_SHIFT 25 +#define IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_25_MASK 0x02000000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_0_DEFVAL +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_0_SHIFT +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_0_MASK +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_0_DEFVAL +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_0_SHIFT 0 +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_0_MASK 0x00000001U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_1_DEFVAL +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_1_SHIFT +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_1_MASK +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_1_DEFVAL +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_1_SHIFT 1 +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_1_MASK 0x00000002U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_2_DEFVAL +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_2_SHIFT +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_2_MASK +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_2_DEFVAL +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_2_SHIFT 2 +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_2_MASK 0x00000004U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_3_DEFVAL +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_3_SHIFT +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_3_MASK +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_3_DEFVAL +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_3_SHIFT 3 +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_3_MASK 0x00000008U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_4_DEFVAL +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_4_SHIFT +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_4_MASK +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_4_DEFVAL +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_4_SHIFT 4 +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_4_MASK 0x00000010U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_5_DEFVAL +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_5_SHIFT +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_5_MASK +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_5_DEFVAL +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_5_SHIFT 5 +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_5_MASK 0x00000020U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_6_DEFVAL +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_6_SHIFT +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_6_MASK +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_6_DEFVAL +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_6_SHIFT 6 +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_6_MASK 0x00000040U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_7_DEFVAL +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_7_SHIFT +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_7_MASK +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_7_DEFVAL +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_7_SHIFT 7 +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_7_MASK 0x00000080U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_8_DEFVAL +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_8_SHIFT +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_8_MASK +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_8_DEFVAL +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_8_SHIFT 8 +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_8_MASK 0x00000100U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_9_DEFVAL +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_9_SHIFT +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_9_MASK +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_9_DEFVAL +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_9_SHIFT 9 +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_9_MASK 0x00000200U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_10_DEFVAL +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_10_SHIFT +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_10_MASK +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_10_DEFVAL +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_10_SHIFT 10 +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_10_MASK 0x00000400U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_11_DEFVAL +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_11_SHIFT +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_11_MASK +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_11_DEFVAL +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_11_SHIFT 11 +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_11_MASK 0x00000800U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_12_DEFVAL +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_12_SHIFT +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_12_MASK +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_12_DEFVAL +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_12_SHIFT 12 +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_12_MASK 0x00001000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_13_DEFVAL +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_13_SHIFT +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_13_MASK +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_13_DEFVAL +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_13_SHIFT 13 +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_13_MASK 0x00002000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_14_DEFVAL +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_14_SHIFT +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_14_MASK +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_14_DEFVAL +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_14_SHIFT 14 +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_14_MASK 0x00004000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_15_DEFVAL +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_15_SHIFT +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_15_MASK +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_15_DEFVAL +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_15_SHIFT 15 +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_15_MASK 0x00008000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_16_DEFVAL +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_16_SHIFT +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_16_MASK +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_16_DEFVAL +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_16_SHIFT 16 +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_16_MASK 0x00010000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_17_DEFVAL +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_17_SHIFT +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_17_MASK +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_17_DEFVAL +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_17_SHIFT 17 +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_17_MASK 0x00020000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_18_DEFVAL +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_18_SHIFT +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_18_MASK +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_18_DEFVAL +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_18_SHIFT 18 +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_18_MASK 0x00040000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_19_DEFVAL +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_19_SHIFT +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_19_MASK +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_19_DEFVAL +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_19_SHIFT 19 +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_19_MASK 0x00080000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_20_DEFVAL +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_20_SHIFT +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_20_MASK +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_20_DEFVAL +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_20_SHIFT 20 +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_20_MASK 0x00100000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_21_DEFVAL +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_21_SHIFT +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_21_MASK +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_21_DEFVAL +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_21_SHIFT 21 +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_21_MASK 0x00200000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_22_DEFVAL +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_22_SHIFT +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_22_MASK +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_22_DEFVAL +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_22_SHIFT 22 +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_22_MASK 0x00400000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_23_DEFVAL +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_23_SHIFT +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_23_MASK +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_23_DEFVAL +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_23_SHIFT 23 +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_23_MASK 0x00800000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_24_DEFVAL +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_24_SHIFT +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_24_MASK +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_24_DEFVAL +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_24_SHIFT 24 +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_24_MASK 0x01000000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_25_DEFVAL +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_25_SHIFT +#undef IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_25_MASK +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_25_DEFVAL +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_25_SHIFT 25 +#define IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_25_MASK 0x02000000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_0_DEFVAL +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_0_SHIFT +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_0_MASK +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_0_DEFVAL +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_0_SHIFT 0 +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_0_MASK 0x00000001U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_1_DEFVAL +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_1_SHIFT +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_1_MASK +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_1_DEFVAL +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_1_SHIFT 1 +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_1_MASK 0x00000002U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_2_DEFVAL +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_2_SHIFT +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_2_MASK +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_2_DEFVAL +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_2_SHIFT 2 +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_2_MASK 0x00000004U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_3_DEFVAL +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_3_SHIFT +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_3_MASK +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_3_DEFVAL +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_3_SHIFT 3 +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_3_MASK 0x00000008U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_4_DEFVAL +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_4_SHIFT +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_4_MASK +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_4_DEFVAL +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_4_SHIFT 4 +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_4_MASK 0x00000010U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_5_DEFVAL +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_5_SHIFT +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_5_MASK +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_5_DEFVAL +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_5_SHIFT 5 +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_5_MASK 0x00000020U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_6_DEFVAL +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_6_SHIFT +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_6_MASK +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_6_DEFVAL +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_6_SHIFT 6 +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_6_MASK 0x00000040U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_7_DEFVAL +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_7_SHIFT +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_7_MASK +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_7_DEFVAL +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_7_SHIFT 7 +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_7_MASK 0x00000080U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_8_DEFVAL +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_8_SHIFT +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_8_MASK +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_8_DEFVAL +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_8_SHIFT 8 +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_8_MASK 0x00000100U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_9_DEFVAL +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_9_SHIFT +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_9_MASK +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_9_DEFVAL +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_9_SHIFT 9 +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_9_MASK 0x00000200U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_10_DEFVAL +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_10_SHIFT +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_10_MASK +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_10_DEFVAL +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_10_SHIFT 10 +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_10_MASK 0x00000400U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_11_DEFVAL +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_11_SHIFT +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_11_MASK +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_11_DEFVAL +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_11_SHIFT 11 +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_11_MASK 0x00000800U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_12_DEFVAL +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_12_SHIFT +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_12_MASK +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_12_DEFVAL +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_12_SHIFT 12 +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_12_MASK 0x00001000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_13_DEFVAL +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_13_SHIFT +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_13_MASK +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_13_DEFVAL +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_13_SHIFT 13 +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_13_MASK 0x00002000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_14_DEFVAL +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_14_SHIFT +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_14_MASK +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_14_DEFVAL +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_14_SHIFT 14 +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_14_MASK 0x00004000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_15_DEFVAL +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_15_SHIFT +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_15_MASK +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_15_DEFVAL +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_15_SHIFT 15 +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_15_MASK 0x00008000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_16_DEFVAL +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_16_SHIFT +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_16_MASK +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_16_DEFVAL +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_16_SHIFT 16 +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_16_MASK 0x00010000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_17_DEFVAL +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_17_SHIFT +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_17_MASK +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_17_DEFVAL +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_17_SHIFT 17 +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_17_MASK 0x00020000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_18_DEFVAL +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_18_SHIFT +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_18_MASK +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_18_DEFVAL +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_18_SHIFT 18 +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_18_MASK 0x00040000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_19_DEFVAL +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_19_SHIFT +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_19_MASK +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_19_DEFVAL +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_19_SHIFT 19 +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_19_MASK 0x00080000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_20_DEFVAL +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_20_SHIFT +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_20_MASK +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_20_DEFVAL +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_20_SHIFT 20 +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_20_MASK 0x00100000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_21_DEFVAL +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_21_SHIFT +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_21_MASK +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_21_DEFVAL +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_21_SHIFT 21 +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_21_MASK 0x00200000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_22_DEFVAL +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_22_SHIFT +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_22_MASK +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_22_DEFVAL +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_22_SHIFT 22 +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_22_MASK 0x00400000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_23_DEFVAL +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_23_SHIFT +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_23_MASK +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_23_DEFVAL +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_23_SHIFT 23 +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_23_MASK 0x00800000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_24_DEFVAL +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_24_SHIFT +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_24_MASK +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_24_DEFVAL +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_24_SHIFT 24 +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_24_MASK 0x01000000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_25_DEFVAL +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_25_SHIFT +#undef IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_25_MASK +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_25_DEFVAL +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_25_SHIFT 25 +#define IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_25_MASK 0x02000000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_0_DEFVAL +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_0_SHIFT +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_0_MASK +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_0_DEFVAL +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_0_SHIFT 0 +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_0_MASK 0x00000001U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_1_DEFVAL +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_1_SHIFT +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_1_MASK +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_1_DEFVAL +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_1_SHIFT 1 +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_1_MASK 0x00000002U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_2_DEFVAL +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_2_SHIFT +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_2_MASK +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_2_DEFVAL +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_2_SHIFT 2 +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_2_MASK 0x00000004U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_3_DEFVAL +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_3_SHIFT +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_3_MASK +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_3_DEFVAL +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_3_SHIFT 3 +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_3_MASK 0x00000008U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_4_DEFVAL +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_4_SHIFT +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_4_MASK +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_4_DEFVAL +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_4_SHIFT 4 +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_4_MASK 0x00000010U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_5_DEFVAL +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_5_SHIFT +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_5_MASK +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_5_DEFVAL +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_5_SHIFT 5 +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_5_MASK 0x00000020U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_6_DEFVAL +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_6_SHIFT +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_6_MASK +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_6_DEFVAL +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_6_SHIFT 6 +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_6_MASK 0x00000040U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_7_DEFVAL +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_7_SHIFT +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_7_MASK +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_7_DEFVAL +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_7_SHIFT 7 +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_7_MASK 0x00000080U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_8_DEFVAL +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_8_SHIFT +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_8_MASK +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_8_DEFVAL +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_8_SHIFT 8 +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_8_MASK 0x00000100U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_9_DEFVAL +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_9_SHIFT +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_9_MASK +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_9_DEFVAL +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_9_SHIFT 9 +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_9_MASK 0x00000200U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_10_DEFVAL +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_10_SHIFT +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_10_MASK +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_10_DEFVAL +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_10_SHIFT 10 +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_10_MASK 0x00000400U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_11_DEFVAL +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_11_SHIFT +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_11_MASK +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_11_DEFVAL +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_11_SHIFT 11 +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_11_MASK 0x00000800U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_12_DEFVAL +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_12_SHIFT +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_12_MASK +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_12_DEFVAL +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_12_SHIFT 12 +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_12_MASK 0x00001000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_13_DEFVAL +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_13_SHIFT +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_13_MASK +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_13_DEFVAL +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_13_SHIFT 13 +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_13_MASK 0x00002000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_14_DEFVAL +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_14_SHIFT +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_14_MASK +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_14_DEFVAL +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_14_SHIFT 14 +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_14_MASK 0x00004000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_15_DEFVAL +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_15_SHIFT +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_15_MASK +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_15_DEFVAL +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_15_SHIFT 15 +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_15_MASK 0x00008000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_16_DEFVAL +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_16_SHIFT +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_16_MASK +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_16_DEFVAL +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_16_SHIFT 16 +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_16_MASK 0x00010000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_17_DEFVAL +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_17_SHIFT +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_17_MASK +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_17_DEFVAL +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_17_SHIFT 17 +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_17_MASK 0x00020000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_18_DEFVAL +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_18_SHIFT +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_18_MASK +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_18_DEFVAL +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_18_SHIFT 18 +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_18_MASK 0x00040000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_19_DEFVAL +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_19_SHIFT +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_19_MASK +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_19_DEFVAL +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_19_SHIFT 19 +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_19_MASK 0x00080000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_20_DEFVAL +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_20_SHIFT +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_20_MASK +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_20_DEFVAL +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_20_SHIFT 20 +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_20_MASK 0x00100000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_21_DEFVAL +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_21_SHIFT +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_21_MASK +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_21_DEFVAL +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_21_SHIFT 21 +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_21_MASK 0x00200000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_22_DEFVAL +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_22_SHIFT +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_22_MASK +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_22_DEFVAL +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_22_SHIFT 22 +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_22_MASK 0x00400000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_23_DEFVAL +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_23_SHIFT +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_23_MASK +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_23_DEFVAL +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_23_SHIFT 23 +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_23_MASK 0x00800000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_24_DEFVAL +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_24_SHIFT +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_24_MASK +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_24_DEFVAL +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_24_SHIFT 24 +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_24_MASK 0x01000000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_25_DEFVAL +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_25_SHIFT +#undef IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_25_MASK +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_25_DEFVAL +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_25_SHIFT 25 +#define IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_25_MASK 0x02000000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_0_DEFVAL +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_0_SHIFT +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_0_MASK +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_0_DEFVAL +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_0_SHIFT 12 +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_0_MASK 0x00001000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_1_DEFVAL +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_1_SHIFT +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_1_MASK +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_1_DEFVAL +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_1_SHIFT 13 +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_1_MASK 0x00002000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_2_DEFVAL +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_2_SHIFT +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_2_MASK +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_2_DEFVAL +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_2_SHIFT 14 +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_2_MASK 0x00004000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_3_DEFVAL +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_3_SHIFT +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_3_MASK +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_3_DEFVAL +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_3_SHIFT 15 +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_3_MASK 0x00008000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_4_DEFVAL +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_4_SHIFT +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_4_MASK +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_4_DEFVAL +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_4_SHIFT 16 +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_4_MASK 0x00010000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_5_DEFVAL +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_5_SHIFT +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_5_MASK +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_5_DEFVAL +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_5_SHIFT 17 +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_5_MASK 0x00020000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_6_DEFVAL +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_6_SHIFT +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_6_MASK +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_6_DEFVAL +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_6_SHIFT 18 +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_6_MASK 0x00040000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_7_DEFVAL +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_7_SHIFT +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_7_MASK +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_7_DEFVAL +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_7_SHIFT 19 +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_7_MASK 0x00080000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_8_DEFVAL +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_8_SHIFT +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_8_MASK +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_8_DEFVAL +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_8_SHIFT 20 +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_8_MASK 0x00100000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_9_DEFVAL +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_9_SHIFT +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_9_MASK +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_9_DEFVAL +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_9_SHIFT 21 +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_9_MASK 0x00200000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_10_DEFVAL +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_10_SHIFT +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_10_MASK +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_10_DEFVAL +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_10_SHIFT 22 +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_10_MASK 0x00400000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_11_DEFVAL +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_11_SHIFT +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_11_MASK +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_11_DEFVAL +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_11_SHIFT 23 +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_11_MASK 0x00800000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_12_DEFVAL +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_12_SHIFT +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_12_MASK +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_12_DEFVAL +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_12_SHIFT 24 +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_12_MASK 0x01000000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_13_DEFVAL +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_13_SHIFT +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_13_MASK +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_13_DEFVAL +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_13_SHIFT 25 +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_13_MASK 0x02000000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_14_DEFVAL +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_14_SHIFT +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_14_MASK +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_14_DEFVAL +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_14_SHIFT 0 +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_14_MASK 0x00000001U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_15_DEFVAL +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_15_SHIFT +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_15_MASK +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_15_DEFVAL +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_15_SHIFT 1 +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_15_MASK 0x00000002U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_16_DEFVAL +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_16_SHIFT +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_16_MASK +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_16_DEFVAL +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_16_SHIFT 2 +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_16_MASK 0x00000004U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_17_DEFVAL +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_17_SHIFT +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_17_MASK +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_17_DEFVAL +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_17_SHIFT 3 +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_17_MASK 0x00000008U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_18_DEFVAL +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_18_SHIFT +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_18_MASK +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_18_DEFVAL +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_18_SHIFT 4 +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_18_MASK 0x00000010U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_19_DEFVAL +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_19_SHIFT +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_19_MASK +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_19_DEFVAL +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_19_SHIFT 5 +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_19_MASK 0x00000020U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_20_DEFVAL +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_20_SHIFT +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_20_MASK +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_20_DEFVAL +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_20_SHIFT 6 +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_20_MASK 0x00000040U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_21_DEFVAL +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_21_SHIFT +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_21_MASK +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_21_DEFVAL +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_21_SHIFT 7 +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_21_MASK 0x00000080U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_22_DEFVAL +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_22_SHIFT +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_22_MASK +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_22_DEFVAL +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_22_SHIFT 8 +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_22_MASK 0x00000100U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_23_DEFVAL +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_23_SHIFT +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_23_MASK +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_23_DEFVAL +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_23_SHIFT 9 +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_23_MASK 0x00000200U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_24_DEFVAL +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_24_SHIFT +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_24_MASK +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_24_DEFVAL +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_24_SHIFT 10 +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_24_MASK 0x00000400U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_25_DEFVAL +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_25_SHIFT +#undef IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_25_MASK +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_25_DEFVAL +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_25_SHIFT 11 +#define IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_25_MASK 0x00000800U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_0_DEFVAL +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_0_SHIFT +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_0_MASK +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_0_DEFVAL +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_0_SHIFT 0 +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_0_MASK 0x00000001U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_1_DEFVAL +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_1_SHIFT +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_1_MASK +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_1_DEFVAL +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_1_SHIFT 1 +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_1_MASK 0x00000002U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_2_DEFVAL +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_2_SHIFT +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_2_MASK +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_2_DEFVAL +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_2_SHIFT 2 +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_2_MASK 0x00000004U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_3_DEFVAL +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_3_SHIFT +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_3_MASK +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_3_DEFVAL +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_3_SHIFT 3 +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_3_MASK 0x00000008U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_4_DEFVAL +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_4_SHIFT +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_4_MASK +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_4_DEFVAL +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_4_SHIFT 4 +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_4_MASK 0x00000010U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_5_DEFVAL +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_5_SHIFT +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_5_MASK +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_5_DEFVAL +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_5_SHIFT 5 +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_5_MASK 0x00000020U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_6_DEFVAL +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_6_SHIFT +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_6_MASK +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_6_DEFVAL +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_6_SHIFT 6 +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_6_MASK 0x00000040U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_7_DEFVAL +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_7_SHIFT +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_7_MASK +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_7_DEFVAL +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_7_SHIFT 7 +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_7_MASK 0x00000080U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_8_DEFVAL +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_8_SHIFT +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_8_MASK +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_8_DEFVAL +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_8_SHIFT 8 +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_8_MASK 0x00000100U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_9_DEFVAL +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_9_SHIFT +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_9_MASK +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_9_DEFVAL +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_9_SHIFT 9 +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_9_MASK 0x00000200U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_10_DEFVAL +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_10_SHIFT +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_10_MASK +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_10_DEFVAL +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_10_SHIFT 10 +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_10_MASK 0x00000400U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_11_DEFVAL +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_11_SHIFT +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_11_MASK +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_11_DEFVAL +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_11_SHIFT 11 +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_11_MASK 0x00000800U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_12_DEFVAL +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_12_SHIFT +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_12_MASK +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_12_DEFVAL +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_12_SHIFT 12 +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_12_MASK 0x00001000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_13_DEFVAL +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_13_SHIFT +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_13_MASK +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_13_DEFVAL +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_13_SHIFT 13 +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_13_MASK 0x00002000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_14_DEFVAL +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_14_SHIFT +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_14_MASK +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_14_DEFVAL +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_14_SHIFT 14 +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_14_MASK 0x00004000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_15_DEFVAL +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_15_SHIFT +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_15_MASK +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_15_DEFVAL +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_15_SHIFT 15 +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_15_MASK 0x00008000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_16_DEFVAL +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_16_SHIFT +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_16_MASK +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_16_DEFVAL +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_16_SHIFT 16 +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_16_MASK 0x00010000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_17_DEFVAL +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_17_SHIFT +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_17_MASK +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_17_DEFVAL +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_17_SHIFT 17 +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_17_MASK 0x00020000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_18_DEFVAL +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_18_SHIFT +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_18_MASK +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_18_DEFVAL +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_18_SHIFT 18 +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_18_MASK 0x00040000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_19_DEFVAL +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_19_SHIFT +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_19_MASK +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_19_DEFVAL +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_19_SHIFT 19 +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_19_MASK 0x00080000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_20_DEFVAL +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_20_SHIFT +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_20_MASK +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_20_DEFVAL +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_20_SHIFT 20 +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_20_MASK 0x00100000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_21_DEFVAL +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_21_SHIFT +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_21_MASK +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_21_DEFVAL +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_21_SHIFT 21 +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_21_MASK 0x00200000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_22_DEFVAL +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_22_SHIFT +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_22_MASK +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_22_DEFVAL +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_22_SHIFT 22 +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_22_MASK 0x00400000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_23_DEFVAL +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_23_SHIFT +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_23_MASK +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_23_DEFVAL +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_23_SHIFT 23 +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_23_MASK 0x00800000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_24_DEFVAL +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_24_SHIFT +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_24_MASK +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_24_DEFVAL +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_24_SHIFT 24 +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_24_MASK 0x01000000U + +/*Each bit applies to a single IO. Bit 0 for MIO[26].*/ +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_25_DEFVAL +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_25_SHIFT +#undef IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_25_MASK +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_25_DEFVAL +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_25_SHIFT 25 +#define IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_25_MASK 0x02000000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_0_DEFVAL +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_0_SHIFT +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_0_MASK +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_0_DEFVAL +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_0_SHIFT 0 +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_0_MASK 0x00000001U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_1_DEFVAL +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_1_SHIFT +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_1_MASK +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_1_DEFVAL +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_1_SHIFT 1 +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_1_MASK 0x00000002U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_2_DEFVAL +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_2_SHIFT +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_2_MASK +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_2_DEFVAL +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_2_SHIFT 2 +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_2_MASK 0x00000004U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_3_DEFVAL +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_3_SHIFT +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_3_MASK +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_3_DEFVAL +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_3_SHIFT 3 +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_3_MASK 0x00000008U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_4_DEFVAL +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_4_SHIFT +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_4_MASK +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_4_DEFVAL +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_4_SHIFT 4 +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_4_MASK 0x00000010U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_5_DEFVAL +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_5_SHIFT +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_5_MASK +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_5_DEFVAL +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_5_SHIFT 5 +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_5_MASK 0x00000020U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_6_DEFVAL +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_6_SHIFT +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_6_MASK +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_6_DEFVAL +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_6_SHIFT 6 +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_6_MASK 0x00000040U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_7_DEFVAL +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_7_SHIFT +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_7_MASK +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_7_DEFVAL +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_7_SHIFT 7 +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_7_MASK 0x00000080U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_8_DEFVAL +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_8_SHIFT +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_8_MASK +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_8_DEFVAL +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_8_SHIFT 8 +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_8_MASK 0x00000100U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_9_DEFVAL +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_9_SHIFT +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_9_MASK +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_9_DEFVAL +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_9_SHIFT 9 +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_9_MASK 0x00000200U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_10_DEFVAL +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_10_SHIFT +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_10_MASK +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_10_DEFVAL +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_10_SHIFT 10 +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_10_MASK 0x00000400U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_11_DEFVAL +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_11_SHIFT +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_11_MASK +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_11_DEFVAL +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_11_SHIFT 11 +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_11_MASK 0x00000800U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_12_DEFVAL +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_12_SHIFT +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_12_MASK +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_12_DEFVAL +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_12_SHIFT 12 +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_12_MASK 0x00001000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_13_DEFVAL +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_13_SHIFT +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_13_MASK +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_13_DEFVAL +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_13_SHIFT 13 +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_13_MASK 0x00002000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_14_DEFVAL +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_14_SHIFT +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_14_MASK +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_14_DEFVAL +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_14_SHIFT 14 +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_14_MASK 0x00004000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_15_DEFVAL +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_15_SHIFT +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_15_MASK +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_15_DEFVAL +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_15_SHIFT 15 +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_15_MASK 0x00008000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_16_DEFVAL +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_16_SHIFT +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_16_MASK +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_16_DEFVAL +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_16_SHIFT 16 +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_16_MASK 0x00010000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_17_DEFVAL +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_17_SHIFT +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_17_MASK +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_17_DEFVAL +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_17_SHIFT 17 +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_17_MASK 0x00020000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_18_DEFVAL +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_18_SHIFT +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_18_MASK +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_18_DEFVAL +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_18_SHIFT 18 +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_18_MASK 0x00040000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_19_DEFVAL +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_19_SHIFT +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_19_MASK +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_19_DEFVAL +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_19_SHIFT 19 +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_19_MASK 0x00080000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_20_DEFVAL +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_20_SHIFT +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_20_MASK +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_20_DEFVAL +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_20_SHIFT 20 +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_20_MASK 0x00100000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_21_DEFVAL +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_21_SHIFT +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_21_MASK +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_21_DEFVAL +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_21_SHIFT 21 +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_21_MASK 0x00200000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_22_DEFVAL +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_22_SHIFT +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_22_MASK +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_22_DEFVAL +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_22_SHIFT 22 +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_22_MASK 0x00400000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_23_DEFVAL +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_23_SHIFT +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_23_MASK +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_23_DEFVAL +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_23_SHIFT 23 +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_23_MASK 0x00800000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_24_DEFVAL +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_24_SHIFT +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_24_MASK +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_24_DEFVAL +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_24_SHIFT 24 +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_24_MASK 0x01000000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_25_DEFVAL +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_25_SHIFT +#undef IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_25_MASK +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_25_DEFVAL +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_25_SHIFT 25 +#define IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_25_MASK 0x02000000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_0_DEFVAL +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_0_SHIFT +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_0_MASK +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_0_DEFVAL +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_0_SHIFT 0 +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_0_MASK 0x00000001U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_1_DEFVAL +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_1_SHIFT +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_1_MASK +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_1_DEFVAL +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_1_SHIFT 1 +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_1_MASK 0x00000002U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_2_DEFVAL +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_2_SHIFT +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_2_MASK +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_2_DEFVAL +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_2_SHIFT 2 +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_2_MASK 0x00000004U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_3_DEFVAL +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_3_SHIFT +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_3_MASK +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_3_DEFVAL +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_3_SHIFT 3 +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_3_MASK 0x00000008U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_4_DEFVAL +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_4_SHIFT +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_4_MASK +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_4_DEFVAL +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_4_SHIFT 4 +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_4_MASK 0x00000010U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_5_DEFVAL +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_5_SHIFT +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_5_MASK +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_5_DEFVAL +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_5_SHIFT 5 +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_5_MASK 0x00000020U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_6_DEFVAL +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_6_SHIFT +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_6_MASK +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_6_DEFVAL +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_6_SHIFT 6 +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_6_MASK 0x00000040U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_7_DEFVAL +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_7_SHIFT +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_7_MASK +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_7_DEFVAL +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_7_SHIFT 7 +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_7_MASK 0x00000080U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_8_DEFVAL +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_8_SHIFT +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_8_MASK +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_8_DEFVAL +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_8_SHIFT 8 +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_8_MASK 0x00000100U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_9_DEFVAL +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_9_SHIFT +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_9_MASK +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_9_DEFVAL +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_9_SHIFT 9 +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_9_MASK 0x00000200U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_10_DEFVAL +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_10_SHIFT +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_10_MASK +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_10_DEFVAL +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_10_SHIFT 10 +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_10_MASK 0x00000400U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_11_DEFVAL +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_11_SHIFT +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_11_MASK +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_11_DEFVAL +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_11_SHIFT 11 +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_11_MASK 0x00000800U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_12_DEFVAL +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_12_SHIFT +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_12_MASK +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_12_DEFVAL +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_12_SHIFT 12 +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_12_MASK 0x00001000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_13_DEFVAL +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_13_SHIFT +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_13_MASK +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_13_DEFVAL +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_13_SHIFT 13 +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_13_MASK 0x00002000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_14_DEFVAL +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_14_SHIFT +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_14_MASK +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_14_DEFVAL +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_14_SHIFT 14 +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_14_MASK 0x00004000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_15_DEFVAL +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_15_SHIFT +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_15_MASK +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_15_DEFVAL +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_15_SHIFT 15 +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_15_MASK 0x00008000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_16_DEFVAL +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_16_SHIFT +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_16_MASK +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_16_DEFVAL +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_16_SHIFT 16 +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_16_MASK 0x00010000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_17_DEFVAL +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_17_SHIFT +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_17_MASK +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_17_DEFVAL +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_17_SHIFT 17 +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_17_MASK 0x00020000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_18_DEFVAL +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_18_SHIFT +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_18_MASK +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_18_DEFVAL +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_18_SHIFT 18 +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_18_MASK 0x00040000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_19_DEFVAL +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_19_SHIFT +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_19_MASK +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_19_DEFVAL +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_19_SHIFT 19 +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_19_MASK 0x00080000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_20_DEFVAL +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_20_SHIFT +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_20_MASK +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_20_DEFVAL +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_20_SHIFT 20 +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_20_MASK 0x00100000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_21_DEFVAL +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_21_SHIFT +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_21_MASK +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_21_DEFVAL +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_21_SHIFT 21 +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_21_MASK 0x00200000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_22_DEFVAL +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_22_SHIFT +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_22_MASK +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_22_DEFVAL +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_22_SHIFT 22 +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_22_MASK 0x00400000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_23_DEFVAL +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_23_SHIFT +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_23_MASK +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_23_DEFVAL +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_23_SHIFT 23 +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_23_MASK 0x00800000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_24_DEFVAL +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_24_SHIFT +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_24_MASK +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_24_DEFVAL +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_24_SHIFT 24 +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_24_MASK 0x01000000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_25_DEFVAL +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_25_SHIFT +#undef IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_25_MASK +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_25_DEFVAL +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_25_SHIFT 25 +#define IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_25_MASK 0x02000000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_0_DEFVAL +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_0_SHIFT +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_0_MASK +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_0_DEFVAL +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_0_SHIFT 0 +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_0_MASK 0x00000001U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_1_DEFVAL +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_1_SHIFT +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_1_MASK +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_1_DEFVAL +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_1_SHIFT 1 +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_1_MASK 0x00000002U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_2_DEFVAL +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_2_SHIFT +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_2_MASK +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_2_DEFVAL +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_2_SHIFT 2 +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_2_MASK 0x00000004U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_3_DEFVAL +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_3_SHIFT +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_3_MASK +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_3_DEFVAL +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_3_SHIFT 3 +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_3_MASK 0x00000008U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_4_DEFVAL +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_4_SHIFT +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_4_MASK +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_4_DEFVAL +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_4_SHIFT 4 +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_4_MASK 0x00000010U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_5_DEFVAL +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_5_SHIFT +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_5_MASK +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_5_DEFVAL +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_5_SHIFT 5 +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_5_MASK 0x00000020U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_6_DEFVAL +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_6_SHIFT +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_6_MASK +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_6_DEFVAL +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_6_SHIFT 6 +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_6_MASK 0x00000040U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_7_DEFVAL +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_7_SHIFT +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_7_MASK +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_7_DEFVAL +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_7_SHIFT 7 +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_7_MASK 0x00000080U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_8_DEFVAL +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_8_SHIFT +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_8_MASK +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_8_DEFVAL +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_8_SHIFT 8 +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_8_MASK 0x00000100U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_9_DEFVAL +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_9_SHIFT +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_9_MASK +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_9_DEFVAL +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_9_SHIFT 9 +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_9_MASK 0x00000200U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_10_DEFVAL +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_10_SHIFT +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_10_MASK +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_10_DEFVAL +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_10_SHIFT 10 +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_10_MASK 0x00000400U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_11_DEFVAL +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_11_SHIFT +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_11_MASK +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_11_DEFVAL +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_11_SHIFT 11 +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_11_MASK 0x00000800U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_12_DEFVAL +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_12_SHIFT +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_12_MASK +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_12_DEFVAL +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_12_SHIFT 12 +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_12_MASK 0x00001000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_13_DEFVAL +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_13_SHIFT +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_13_MASK +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_13_DEFVAL +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_13_SHIFT 13 +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_13_MASK 0x00002000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_14_DEFVAL +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_14_SHIFT +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_14_MASK +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_14_DEFVAL +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_14_SHIFT 14 +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_14_MASK 0x00004000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_15_DEFVAL +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_15_SHIFT +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_15_MASK +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_15_DEFVAL +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_15_SHIFT 15 +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_15_MASK 0x00008000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_16_DEFVAL +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_16_SHIFT +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_16_MASK +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_16_DEFVAL +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_16_SHIFT 16 +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_16_MASK 0x00010000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_17_DEFVAL +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_17_SHIFT +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_17_MASK +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_17_DEFVAL +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_17_SHIFT 17 +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_17_MASK 0x00020000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_18_DEFVAL +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_18_SHIFT +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_18_MASK +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_18_DEFVAL +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_18_SHIFT 18 +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_18_MASK 0x00040000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_19_DEFVAL +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_19_SHIFT +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_19_MASK +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_19_DEFVAL +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_19_SHIFT 19 +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_19_MASK 0x00080000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_20_DEFVAL +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_20_SHIFT +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_20_MASK +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_20_DEFVAL +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_20_SHIFT 20 +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_20_MASK 0x00100000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_21_DEFVAL +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_21_SHIFT +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_21_MASK +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_21_DEFVAL +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_21_SHIFT 21 +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_21_MASK 0x00200000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_22_DEFVAL +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_22_SHIFT +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_22_MASK +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_22_DEFVAL +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_22_SHIFT 22 +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_22_MASK 0x00400000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_23_DEFVAL +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_23_SHIFT +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_23_MASK +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_23_DEFVAL +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_23_SHIFT 23 +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_23_MASK 0x00800000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_24_DEFVAL +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_24_SHIFT +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_24_MASK +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_24_DEFVAL +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_24_SHIFT 24 +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_24_MASK 0x01000000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_25_DEFVAL +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_25_SHIFT +#undef IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_25_MASK +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_25_DEFVAL +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_25_SHIFT 25 +#define IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_25_MASK 0x02000000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_0_DEFVAL +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_0_SHIFT +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_0_MASK +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_0_DEFVAL +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_0_SHIFT 0 +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_0_MASK 0x00000001U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_1_DEFVAL +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_1_SHIFT +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_1_MASK +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_1_DEFVAL +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_1_SHIFT 1 +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_1_MASK 0x00000002U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_2_DEFVAL +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_2_SHIFT +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_2_MASK +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_2_DEFVAL +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_2_SHIFT 2 +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_2_MASK 0x00000004U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_3_DEFVAL +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_3_SHIFT +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_3_MASK +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_3_DEFVAL +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_3_SHIFT 3 +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_3_MASK 0x00000008U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_4_DEFVAL +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_4_SHIFT +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_4_MASK +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_4_DEFVAL +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_4_SHIFT 4 +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_4_MASK 0x00000010U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_5_DEFVAL +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_5_SHIFT +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_5_MASK +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_5_DEFVAL +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_5_SHIFT 5 +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_5_MASK 0x00000020U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_6_DEFVAL +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_6_SHIFT +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_6_MASK +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_6_DEFVAL +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_6_SHIFT 6 +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_6_MASK 0x00000040U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_7_DEFVAL +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_7_SHIFT +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_7_MASK +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_7_DEFVAL +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_7_SHIFT 7 +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_7_MASK 0x00000080U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_8_DEFVAL +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_8_SHIFT +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_8_MASK +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_8_DEFVAL +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_8_SHIFT 8 +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_8_MASK 0x00000100U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_9_DEFVAL +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_9_SHIFT +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_9_MASK +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_9_DEFVAL +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_9_SHIFT 9 +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_9_MASK 0x00000200U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_10_DEFVAL +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_10_SHIFT +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_10_MASK +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_10_DEFVAL +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_10_SHIFT 10 +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_10_MASK 0x00000400U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_11_DEFVAL +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_11_SHIFT +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_11_MASK +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_11_DEFVAL +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_11_SHIFT 11 +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_11_MASK 0x00000800U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_12_DEFVAL +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_12_SHIFT +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_12_MASK +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_12_DEFVAL +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_12_SHIFT 12 +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_12_MASK 0x00001000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_13_DEFVAL +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_13_SHIFT +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_13_MASK +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_13_DEFVAL +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_13_SHIFT 13 +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_13_MASK 0x00002000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_14_DEFVAL +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_14_SHIFT +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_14_MASK +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_14_DEFVAL +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_14_SHIFT 14 +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_14_MASK 0x00004000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_15_DEFVAL +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_15_SHIFT +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_15_MASK +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_15_DEFVAL +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_15_SHIFT 15 +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_15_MASK 0x00008000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_16_DEFVAL +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_16_SHIFT +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_16_MASK +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_16_DEFVAL +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_16_SHIFT 16 +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_16_MASK 0x00010000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_17_DEFVAL +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_17_SHIFT +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_17_MASK +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_17_DEFVAL +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_17_SHIFT 17 +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_17_MASK 0x00020000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_18_DEFVAL +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_18_SHIFT +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_18_MASK +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_18_DEFVAL +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_18_SHIFT 18 +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_18_MASK 0x00040000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_19_DEFVAL +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_19_SHIFT +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_19_MASK +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_19_DEFVAL +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_19_SHIFT 19 +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_19_MASK 0x00080000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_20_DEFVAL +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_20_SHIFT +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_20_MASK +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_20_DEFVAL +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_20_SHIFT 20 +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_20_MASK 0x00100000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_21_DEFVAL +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_21_SHIFT +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_21_MASK +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_21_DEFVAL +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_21_SHIFT 21 +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_21_MASK 0x00200000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_22_DEFVAL +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_22_SHIFT +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_22_MASK +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_22_DEFVAL +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_22_SHIFT 22 +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_22_MASK 0x00400000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_23_DEFVAL +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_23_SHIFT +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_23_MASK +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_23_DEFVAL +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_23_SHIFT 23 +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_23_MASK 0x00800000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_24_DEFVAL +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_24_SHIFT +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_24_MASK +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_24_DEFVAL +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_24_SHIFT 24 +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_24_MASK 0x01000000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_25_DEFVAL +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_25_SHIFT +#undef IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_25_MASK +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_25_DEFVAL +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_25_SHIFT 25 +#define IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_25_MASK 0x02000000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_0_DEFVAL +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_0_SHIFT +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_0_MASK +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_0_DEFVAL +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_0_SHIFT 0 +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_0_MASK 0x00000001U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_1_DEFVAL +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_1_SHIFT +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_1_MASK +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_1_DEFVAL +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_1_SHIFT 1 +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_1_MASK 0x00000002U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_2_DEFVAL +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_2_SHIFT +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_2_MASK +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_2_DEFVAL +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_2_SHIFT 2 +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_2_MASK 0x00000004U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_3_DEFVAL +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_3_SHIFT +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_3_MASK +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_3_DEFVAL +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_3_SHIFT 3 +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_3_MASK 0x00000008U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_4_DEFVAL +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_4_SHIFT +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_4_MASK +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_4_DEFVAL +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_4_SHIFT 4 +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_4_MASK 0x00000010U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_5_DEFVAL +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_5_SHIFT +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_5_MASK +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_5_DEFVAL +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_5_SHIFT 5 +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_5_MASK 0x00000020U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_6_DEFVAL +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_6_SHIFT +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_6_MASK +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_6_DEFVAL +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_6_SHIFT 6 +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_6_MASK 0x00000040U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_7_DEFVAL +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_7_SHIFT +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_7_MASK +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_7_DEFVAL +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_7_SHIFT 7 +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_7_MASK 0x00000080U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_8_DEFVAL +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_8_SHIFT +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_8_MASK +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_8_DEFVAL +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_8_SHIFT 8 +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_8_MASK 0x00000100U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_9_DEFVAL +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_9_SHIFT +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_9_MASK +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_9_DEFVAL +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_9_SHIFT 9 +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_9_MASK 0x00000200U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_10_DEFVAL +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_10_SHIFT +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_10_MASK +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_10_DEFVAL +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_10_SHIFT 10 +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_10_MASK 0x00000400U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_11_DEFVAL +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_11_SHIFT +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_11_MASK +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_11_DEFVAL +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_11_SHIFT 11 +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_11_MASK 0x00000800U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_12_DEFVAL +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_12_SHIFT +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_12_MASK +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_12_DEFVAL +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_12_SHIFT 12 +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_12_MASK 0x00001000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_13_DEFVAL +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_13_SHIFT +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_13_MASK +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_13_DEFVAL +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_13_SHIFT 13 +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_13_MASK 0x00002000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_14_DEFVAL +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_14_SHIFT +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_14_MASK +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_14_DEFVAL +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_14_SHIFT 14 +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_14_MASK 0x00004000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_15_DEFVAL +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_15_SHIFT +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_15_MASK +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_15_DEFVAL +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_15_SHIFT 15 +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_15_MASK 0x00008000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_16_DEFVAL +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_16_SHIFT +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_16_MASK +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_16_DEFVAL +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_16_SHIFT 16 +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_16_MASK 0x00010000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_17_DEFVAL +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_17_SHIFT +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_17_MASK +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_17_DEFVAL +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_17_SHIFT 17 +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_17_MASK 0x00020000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_18_DEFVAL +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_18_SHIFT +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_18_MASK +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_18_DEFVAL +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_18_SHIFT 18 +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_18_MASK 0x00040000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_19_DEFVAL +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_19_SHIFT +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_19_MASK +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_19_DEFVAL +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_19_SHIFT 19 +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_19_MASK 0x00080000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_20_DEFVAL +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_20_SHIFT +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_20_MASK +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_20_DEFVAL +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_20_SHIFT 20 +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_20_MASK 0x00100000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_21_DEFVAL +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_21_SHIFT +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_21_MASK +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_21_DEFVAL +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_21_SHIFT 21 +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_21_MASK 0x00200000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_22_DEFVAL +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_22_SHIFT +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_22_MASK +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_22_DEFVAL +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_22_SHIFT 22 +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_22_MASK 0x00400000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_23_DEFVAL +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_23_SHIFT +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_23_MASK +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_23_DEFVAL +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_23_SHIFT 23 +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_23_MASK 0x00800000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_24_DEFVAL +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_24_SHIFT +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_24_MASK +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_24_DEFVAL +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_24_SHIFT 24 +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_24_MASK 0x01000000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_25_DEFVAL +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_25_SHIFT +#undef IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_25_MASK +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_25_DEFVAL +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_25_SHIFT 25 +#define IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_25_MASK 0x02000000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_0_DEFVAL +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_0_SHIFT +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_0_MASK +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_0_DEFVAL +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_0_SHIFT 0 +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_0_MASK 0x00000001U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_1_DEFVAL +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_1_SHIFT +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_1_MASK +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_1_DEFVAL +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_1_SHIFT 1 +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_1_MASK 0x00000002U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_2_DEFVAL +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_2_SHIFT +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_2_MASK +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_2_DEFVAL +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_2_SHIFT 2 +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_2_MASK 0x00000004U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_3_DEFVAL +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_3_SHIFT +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_3_MASK +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_3_DEFVAL +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_3_SHIFT 3 +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_3_MASK 0x00000008U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_4_DEFVAL +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_4_SHIFT +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_4_MASK +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_4_DEFVAL +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_4_SHIFT 4 +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_4_MASK 0x00000010U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_5_DEFVAL +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_5_SHIFT +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_5_MASK +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_5_DEFVAL +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_5_SHIFT 5 +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_5_MASK 0x00000020U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_6_DEFVAL +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_6_SHIFT +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_6_MASK +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_6_DEFVAL +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_6_SHIFT 6 +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_6_MASK 0x00000040U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_7_DEFVAL +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_7_SHIFT +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_7_MASK +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_7_DEFVAL +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_7_SHIFT 7 +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_7_MASK 0x00000080U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_8_DEFVAL +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_8_SHIFT +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_8_MASK +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_8_DEFVAL +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_8_SHIFT 8 +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_8_MASK 0x00000100U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_9_DEFVAL +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_9_SHIFT +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_9_MASK +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_9_DEFVAL +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_9_SHIFT 9 +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_9_MASK 0x00000200U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_10_DEFVAL +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_10_SHIFT +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_10_MASK +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_10_DEFVAL +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_10_SHIFT 10 +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_10_MASK 0x00000400U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_11_DEFVAL +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_11_SHIFT +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_11_MASK +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_11_DEFVAL +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_11_SHIFT 11 +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_11_MASK 0x00000800U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_12_DEFVAL +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_12_SHIFT +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_12_MASK +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_12_DEFVAL +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_12_SHIFT 12 +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_12_MASK 0x00001000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_13_DEFVAL +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_13_SHIFT +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_13_MASK +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_13_DEFVAL +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_13_SHIFT 13 +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_13_MASK 0x00002000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_14_DEFVAL +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_14_SHIFT +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_14_MASK +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_14_DEFVAL +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_14_SHIFT 14 +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_14_MASK 0x00004000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_15_DEFVAL +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_15_SHIFT +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_15_MASK +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_15_DEFVAL +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_15_SHIFT 15 +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_15_MASK 0x00008000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_16_DEFVAL +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_16_SHIFT +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_16_MASK +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_16_DEFVAL +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_16_SHIFT 16 +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_16_MASK 0x00010000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_17_DEFVAL +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_17_SHIFT +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_17_MASK +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_17_DEFVAL +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_17_SHIFT 17 +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_17_MASK 0x00020000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_18_DEFVAL +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_18_SHIFT +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_18_MASK +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_18_DEFVAL +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_18_SHIFT 18 +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_18_MASK 0x00040000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_19_DEFVAL +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_19_SHIFT +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_19_MASK +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_19_DEFVAL +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_19_SHIFT 19 +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_19_MASK 0x00080000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_20_DEFVAL +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_20_SHIFT +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_20_MASK +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_20_DEFVAL +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_20_SHIFT 20 +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_20_MASK 0x00100000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_21_DEFVAL +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_21_SHIFT +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_21_MASK +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_21_DEFVAL +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_21_SHIFT 21 +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_21_MASK 0x00200000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_22_DEFVAL +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_22_SHIFT +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_22_MASK +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_22_DEFVAL +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_22_SHIFT 22 +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_22_MASK 0x00400000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_23_DEFVAL +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_23_SHIFT +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_23_MASK +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_23_DEFVAL +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_23_SHIFT 23 +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_23_MASK 0x00800000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_24_DEFVAL +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_24_SHIFT +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_24_MASK +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_24_DEFVAL +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_24_SHIFT 24 +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_24_MASK 0x01000000U + +/*Each bit applies to a single IO. Bit 0 for MIO[52].*/ +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_25_DEFVAL +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_25_SHIFT +#undef IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_25_MASK +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_25_DEFVAL +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_25_SHIFT 25 +#define IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_25_MASK 0x02000000U + +/*I2C Loopback Control. 0 = Connect I2C inputs according to MIO mapping. 1 = Loop I2C 0 outputs to I2C 1 inputs, and I2C 1 outp + ts to I2C 0 inputs.*/ +#undef IOU_SLCR_MIO_LOOPBACK_I2C0_LOOP_I2C1_DEFVAL +#undef IOU_SLCR_MIO_LOOPBACK_I2C0_LOOP_I2C1_SHIFT +#undef IOU_SLCR_MIO_LOOPBACK_I2C0_LOOP_I2C1_MASK +#define IOU_SLCR_MIO_LOOPBACK_I2C0_LOOP_I2C1_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_LOOPBACK_I2C0_LOOP_I2C1_SHIFT 3 +#define IOU_SLCR_MIO_LOOPBACK_I2C0_LOOP_I2C1_MASK 0x00000008U + +/*CAN Loopback Control. 0 = Connect CAN inputs according to MIO mapping. 1 = Loop CAN 0 Tx to CAN 1 Rx, and CAN 1 Tx to CAN 0 R + .*/ +#undef IOU_SLCR_MIO_LOOPBACK_CAN0_LOOP_CAN1_DEFVAL +#undef IOU_SLCR_MIO_LOOPBACK_CAN0_LOOP_CAN1_SHIFT +#undef IOU_SLCR_MIO_LOOPBACK_CAN0_LOOP_CAN1_MASK +#define IOU_SLCR_MIO_LOOPBACK_CAN0_LOOP_CAN1_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_LOOPBACK_CAN0_LOOP_CAN1_SHIFT 2 +#define IOU_SLCR_MIO_LOOPBACK_CAN0_LOOP_CAN1_MASK 0x00000004U + +/*UART Loopback Control. 0 = Connect UART inputs according to MIO mapping. 1 = Loop UART 0 outputs to UART 1 inputs, and UART 1 + outputs to UART 0 inputs. RXD/TXD cross-connected. RTS/CTS cross-connected. DSR, DTR, DCD and RI not used.*/ +#undef IOU_SLCR_MIO_LOOPBACK_UA0_LOOP_UA1_DEFVAL +#undef IOU_SLCR_MIO_LOOPBACK_UA0_LOOP_UA1_SHIFT +#undef IOU_SLCR_MIO_LOOPBACK_UA0_LOOP_UA1_MASK +#define IOU_SLCR_MIO_LOOPBACK_UA0_LOOP_UA1_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_LOOPBACK_UA0_LOOP_UA1_SHIFT 1 +#define IOU_SLCR_MIO_LOOPBACK_UA0_LOOP_UA1_MASK 0x00000002U + +/*SPI Loopback Control. 0 = Connect SPI inputs according to MIO mapping. 1 = Loop SPI 0 outputs to SPI 1 inputs, and SPI 1 outp + ts to SPI 0 inputs. The other SPI core will appear on the LS Slave Select.*/ +#undef IOU_SLCR_MIO_LOOPBACK_SPI0_LOOP_SPI1_DEFVAL +#undef IOU_SLCR_MIO_LOOPBACK_SPI0_LOOP_SPI1_SHIFT +#undef IOU_SLCR_MIO_LOOPBACK_SPI0_LOOP_SPI1_MASK +#define IOU_SLCR_MIO_LOOPBACK_SPI0_LOOP_SPI1_DEFVAL 0x00000000 +#define IOU_SLCR_MIO_LOOPBACK_SPI0_LOOP_SPI1_SHIFT 0 +#define IOU_SLCR_MIO_LOOPBACK_SPI0_LOOP_SPI1_MASK 0x00000001U +#undef CRL_APB_RST_LPD_IOU2_OFFSET +#define CRL_APB_RST_LPD_IOU2_OFFSET 0XFF5E0238 +#undef CRL_APB_RST_LPD_IOU0_OFFSET +#define CRL_APB_RST_LPD_IOU0_OFFSET 0XFF5E0230 +#undef CRL_APB_RST_LPD_IOU2_OFFSET +#define CRL_APB_RST_LPD_IOU2_OFFSET 0XFF5E0238 +#undef IOU_SLCR_IOU_TAPDLY_BYPASS_OFFSET +#define IOU_SLCR_IOU_TAPDLY_BYPASS_OFFSET 0XFF180390 +#undef CRL_APB_RST_LPD_TOP_OFFSET +#define CRL_APB_RST_LPD_TOP_OFFSET 0XFF5E023C +#undef CRF_APB_RST_FPD_TOP_OFFSET +#define CRF_APB_RST_FPD_TOP_OFFSET 0XFD1A0100 +#undef CRL_APB_RST_LPD_IOU2_OFFSET +#define CRL_APB_RST_LPD_IOU2_OFFSET 0XFF5E0238 +#undef IOU_SLCR_CTRL_REG_SD_OFFSET +#define IOU_SLCR_CTRL_REG_SD_OFFSET 0XFF180310 +#undef IOU_SLCR_SD_CONFIG_REG2_OFFSET +#define IOU_SLCR_SD_CONFIG_REG2_OFFSET 0XFF180320 +#undef IOU_SLCR_SD_CONFIG_REG1_OFFSET +#define IOU_SLCR_SD_CONFIG_REG1_OFFSET 0XFF18031C +#undef IOU_SLCR_SD_CONFIG_REG3_OFFSET +#define IOU_SLCR_SD_CONFIG_REG3_OFFSET 0XFF180324 +#undef CRL_APB_RST_LPD_IOU2_OFFSET +#define CRL_APB_RST_LPD_IOU2_OFFSET 0XFF5E0238 +#undef CRL_APB_RST_LPD_IOU2_OFFSET +#define CRL_APB_RST_LPD_IOU2_OFFSET 0XFF5E0238 +#undef CRL_APB_RST_LPD_IOU2_OFFSET +#define CRL_APB_RST_LPD_IOU2_OFFSET 0XFF5E0238 +#undef CRL_APB_RST_LPD_IOU2_OFFSET +#define CRL_APB_RST_LPD_IOU2_OFFSET 0XFF5E0238 +#undef CRL_APB_RST_LPD_IOU2_OFFSET +#define CRL_APB_RST_LPD_IOU2_OFFSET 0XFF5E0238 +#undef TPIU_LAR_OFFSET +#define TPIU_LAR_OFFSET 0XFE980FB0 +#undef TPIU_CURRENT_PORT_SIZE_OFFSET +#define TPIU_CURRENT_PORT_SIZE_OFFSET 0XFE980004 +#undef TPIU_LAR_OFFSET +#define TPIU_LAR_OFFSET 0XFE980FB0 +#undef UART0_BAUD_RATE_DIVIDER_REG0_OFFSET +#define UART0_BAUD_RATE_DIVIDER_REG0_OFFSET 0XFF000034 +#undef UART0_BAUD_RATE_GEN_REG0_OFFSET +#define UART0_BAUD_RATE_GEN_REG0_OFFSET 0XFF000018 +#undef UART0_CONTROL_REG0_OFFSET +#define UART0_CONTROL_REG0_OFFSET 0XFF000000 +#undef UART0_MODE_REG0_OFFSET +#define UART0_MODE_REG0_OFFSET 0XFF000004 +#undef UART1_BAUD_RATE_DIVIDER_REG0_OFFSET +#define UART1_BAUD_RATE_DIVIDER_REG0_OFFSET 0XFF010034 +#undef UART1_BAUD_RATE_GEN_REG0_OFFSET +#define UART1_BAUD_RATE_GEN_REG0_OFFSET 0XFF010018 +#undef UART1_CONTROL_REG0_OFFSET +#define UART1_CONTROL_REG0_OFFSET 0XFF010000 +#undef UART1_MODE_REG0_OFFSET +#define UART1_MODE_REG0_OFFSET 0XFF010004 +#undef LPD_SLCR_SECURE_SLCR_ADMA_OFFSET +#define LPD_SLCR_SECURE_SLCR_ADMA_OFFSET 0XFF4B0024 +#undef CSU_TAMPER_STATUS_OFFSET +#define CSU_TAMPER_STATUS_OFFSET 0XFFCA5000 +#undef APU_ACE_CTRL_OFFSET +#define APU_ACE_CTRL_OFFSET 0XFD5C0060 +#undef RTC_CONTROL_OFFSET +#define RTC_CONTROL_OFFSET 0XFFA60040 +#undef IOU_SCNTRS_BASE_FREQUENCY_ID_REGISTER_OFFSET +#define IOU_SCNTRS_BASE_FREQUENCY_ID_REGISTER_OFFSET 0XFF260020 +#undef IOU_SCNTRS_COUNTER_CONTROL_REGISTER_OFFSET +#define IOU_SCNTRS_COUNTER_CONTROL_REGISTER_OFFSET 0XFF260000 + +/*Block level reset*/ +#undef CRL_APB_RST_LPD_IOU2_TIMESTAMP_RESET_DEFVAL +#undef CRL_APB_RST_LPD_IOU2_TIMESTAMP_RESET_SHIFT +#undef CRL_APB_RST_LPD_IOU2_TIMESTAMP_RESET_MASK +#define CRL_APB_RST_LPD_IOU2_TIMESTAMP_RESET_DEFVAL 0x0017FFFF +#define CRL_APB_RST_LPD_IOU2_TIMESTAMP_RESET_SHIFT 20 +#define CRL_APB_RST_LPD_IOU2_TIMESTAMP_RESET_MASK 0x00100000U + +/*GEM 3 reset*/ +#undef CRL_APB_RST_LPD_IOU0_GEM3_RESET_DEFVAL +#undef CRL_APB_RST_LPD_IOU0_GEM3_RESET_SHIFT +#undef CRL_APB_RST_LPD_IOU0_GEM3_RESET_MASK +#define CRL_APB_RST_LPD_IOU0_GEM3_RESET_DEFVAL 0x0000000F +#define CRL_APB_RST_LPD_IOU0_GEM3_RESET_SHIFT 3 +#define CRL_APB_RST_LPD_IOU0_GEM3_RESET_MASK 0x00000008U + +/*Block level reset*/ +#undef CRL_APB_RST_LPD_IOU2_QSPI_RESET_DEFVAL +#undef CRL_APB_RST_LPD_IOU2_QSPI_RESET_SHIFT +#undef CRL_APB_RST_LPD_IOU2_QSPI_RESET_MASK +#define CRL_APB_RST_LPD_IOU2_QSPI_RESET_DEFVAL 0x0017FFFF +#define CRL_APB_RST_LPD_IOU2_QSPI_RESET_SHIFT 0 +#define CRL_APB_RST_LPD_IOU2_QSPI_RESET_MASK 0x00000001U + +/*0: Do not by pass the tap delays on the Rx clock signal of LQSPI 1: Bypass the Tap delay on the Rx clock signal of LQSPI*/ +#undef IOU_SLCR_IOU_TAPDLY_BYPASS_LQSPI_RX_DEFVAL +#undef IOU_SLCR_IOU_TAPDLY_BYPASS_LQSPI_RX_SHIFT +#undef IOU_SLCR_IOU_TAPDLY_BYPASS_LQSPI_RX_MASK +#define IOU_SLCR_IOU_TAPDLY_BYPASS_LQSPI_RX_DEFVAL 0x00000007 +#define IOU_SLCR_IOU_TAPDLY_BYPASS_LQSPI_RX_SHIFT 2 +#define IOU_SLCR_IOU_TAPDLY_BYPASS_LQSPI_RX_MASK 0x00000004U + +/*USB 0 reset for control registers*/ +#undef CRL_APB_RST_LPD_TOP_USB0_APB_RESET_DEFVAL +#undef CRL_APB_RST_LPD_TOP_USB0_APB_RESET_SHIFT +#undef CRL_APB_RST_LPD_TOP_USB0_APB_RESET_MASK +#define CRL_APB_RST_LPD_TOP_USB0_APB_RESET_DEFVAL 0x00188FDF +#define CRL_APB_RST_LPD_TOP_USB0_APB_RESET_SHIFT 10 +#define CRL_APB_RST_LPD_TOP_USB0_APB_RESET_MASK 0x00000400U + +/*USB 0 sleep circuit reset*/ +#undef CRL_APB_RST_LPD_TOP_USB0_HIBERRESET_DEFVAL +#undef CRL_APB_RST_LPD_TOP_USB0_HIBERRESET_SHIFT +#undef CRL_APB_RST_LPD_TOP_USB0_HIBERRESET_MASK +#define CRL_APB_RST_LPD_TOP_USB0_HIBERRESET_DEFVAL 0x00188FDF +#define CRL_APB_RST_LPD_TOP_USB0_HIBERRESET_SHIFT 8 +#define CRL_APB_RST_LPD_TOP_USB0_HIBERRESET_MASK 0x00000100U + +/*USB 0 reset*/ +#undef CRL_APB_RST_LPD_TOP_USB0_CORERESET_DEFVAL +#undef CRL_APB_RST_LPD_TOP_USB0_CORERESET_SHIFT +#undef CRL_APB_RST_LPD_TOP_USB0_CORERESET_MASK +#define CRL_APB_RST_LPD_TOP_USB0_CORERESET_DEFVAL 0x00188FDF +#define CRL_APB_RST_LPD_TOP_USB0_CORERESET_SHIFT 6 +#define CRL_APB_RST_LPD_TOP_USB0_CORERESET_MASK 0x00000040U + +/*Display Port block level reset (includes DPDMA)*/ +#undef CRF_APB_RST_FPD_TOP_DP_RESET_DEFVAL +#undef CRF_APB_RST_FPD_TOP_DP_RESET_SHIFT +#undef CRF_APB_RST_FPD_TOP_DP_RESET_MASK +#define CRF_APB_RST_FPD_TOP_DP_RESET_DEFVAL 0x000F9FFE +#define CRF_APB_RST_FPD_TOP_DP_RESET_SHIFT 16 +#define CRF_APB_RST_FPD_TOP_DP_RESET_MASK 0x00010000U + +/*FPD WDT reset*/ +#undef CRF_APB_RST_FPD_TOP_SWDT_RESET_DEFVAL +#undef CRF_APB_RST_FPD_TOP_SWDT_RESET_SHIFT +#undef CRF_APB_RST_FPD_TOP_SWDT_RESET_MASK +#define CRF_APB_RST_FPD_TOP_SWDT_RESET_DEFVAL 0x000F9FFE +#define CRF_APB_RST_FPD_TOP_SWDT_RESET_SHIFT 15 +#define CRF_APB_RST_FPD_TOP_SWDT_RESET_MASK 0x00008000U + +/*GDMA block level reset*/ +#undef CRF_APB_RST_FPD_TOP_GDMA_RESET_DEFVAL +#undef CRF_APB_RST_FPD_TOP_GDMA_RESET_SHIFT +#undef CRF_APB_RST_FPD_TOP_GDMA_RESET_MASK +#define CRF_APB_RST_FPD_TOP_GDMA_RESET_DEFVAL 0x000F9FFE +#define CRF_APB_RST_FPD_TOP_GDMA_RESET_SHIFT 6 +#define CRF_APB_RST_FPD_TOP_GDMA_RESET_MASK 0x00000040U + +/*Pixel Processor (submodule of GPU) block level reset*/ +#undef CRF_APB_RST_FPD_TOP_GPU_PP0_RESET_DEFVAL +#undef CRF_APB_RST_FPD_TOP_GPU_PP0_RESET_SHIFT +#undef CRF_APB_RST_FPD_TOP_GPU_PP0_RESET_MASK +#define CRF_APB_RST_FPD_TOP_GPU_PP0_RESET_DEFVAL 0x000F9FFE +#define CRF_APB_RST_FPD_TOP_GPU_PP0_RESET_SHIFT 4 +#define CRF_APB_RST_FPD_TOP_GPU_PP0_RESET_MASK 0x00000010U + +/*Pixel Processor (submodule of GPU) block level reset*/ +#undef CRF_APB_RST_FPD_TOP_GPU_PP1_RESET_DEFVAL +#undef CRF_APB_RST_FPD_TOP_GPU_PP1_RESET_SHIFT +#undef CRF_APB_RST_FPD_TOP_GPU_PP1_RESET_MASK +#define CRF_APB_RST_FPD_TOP_GPU_PP1_RESET_DEFVAL 0x000F9FFE +#define CRF_APB_RST_FPD_TOP_GPU_PP1_RESET_SHIFT 5 +#define CRF_APB_RST_FPD_TOP_GPU_PP1_RESET_MASK 0x00000020U + +/*GPU block level reset*/ +#undef CRF_APB_RST_FPD_TOP_GPU_RESET_DEFVAL +#undef CRF_APB_RST_FPD_TOP_GPU_RESET_SHIFT +#undef CRF_APB_RST_FPD_TOP_GPU_RESET_MASK +#define CRF_APB_RST_FPD_TOP_GPU_RESET_DEFVAL 0x000F9FFE +#define CRF_APB_RST_FPD_TOP_GPU_RESET_SHIFT 3 +#define CRF_APB_RST_FPD_TOP_GPU_RESET_MASK 0x00000008U + +/*GT block level reset*/ +#undef CRF_APB_RST_FPD_TOP_GT_RESET_DEFVAL +#undef CRF_APB_RST_FPD_TOP_GT_RESET_SHIFT +#undef CRF_APB_RST_FPD_TOP_GT_RESET_MASK +#define CRF_APB_RST_FPD_TOP_GT_RESET_DEFVAL 0x000F9FFE +#define CRF_APB_RST_FPD_TOP_GT_RESET_SHIFT 2 +#define CRF_APB_RST_FPD_TOP_GT_RESET_MASK 0x00000004U + +/*Sata block level reset*/ +#undef CRF_APB_RST_FPD_TOP_SATA_RESET_DEFVAL +#undef CRF_APB_RST_FPD_TOP_SATA_RESET_SHIFT +#undef CRF_APB_RST_FPD_TOP_SATA_RESET_MASK +#define CRF_APB_RST_FPD_TOP_SATA_RESET_DEFVAL 0x000F9FFE +#define CRF_APB_RST_FPD_TOP_SATA_RESET_SHIFT 1 +#define CRF_APB_RST_FPD_TOP_SATA_RESET_MASK 0x00000002U + +/*Block level reset*/ +#undef CRL_APB_RST_LPD_IOU2_SDIO1_RESET_DEFVAL +#undef CRL_APB_RST_LPD_IOU2_SDIO1_RESET_SHIFT +#undef CRL_APB_RST_LPD_IOU2_SDIO1_RESET_MASK +#define CRL_APB_RST_LPD_IOU2_SDIO1_RESET_DEFVAL 0x0017FFFF +#define CRL_APB_RST_LPD_IOU2_SDIO1_RESET_SHIFT 6 +#define CRL_APB_RST_LPD_IOU2_SDIO1_RESET_MASK 0x00000040U + +/*SD or eMMC selection on SDIO1 0: SD enabled 1: eMMC enabled*/ +#undef IOU_SLCR_CTRL_REG_SD_SD1_EMMC_SEL_DEFVAL +#undef IOU_SLCR_CTRL_REG_SD_SD1_EMMC_SEL_SHIFT +#undef IOU_SLCR_CTRL_REG_SD_SD1_EMMC_SEL_MASK +#define IOU_SLCR_CTRL_REG_SD_SD1_EMMC_SEL_DEFVAL 0x00000000 +#define IOU_SLCR_CTRL_REG_SD_SD1_EMMC_SEL_SHIFT 15 +#define IOU_SLCR_CTRL_REG_SD_SD1_EMMC_SEL_MASK 0x00008000U + +/*Should be set based on the final product usage 00 - Removable SCard Slot 01 - Embedded Slot for One Device 10 - Shared Bus Sl + t 11 - Reserved*/ +#undef IOU_SLCR_SD_CONFIG_REG2_SD1_SLOTTYPE_DEFVAL +#undef IOU_SLCR_SD_CONFIG_REG2_SD1_SLOTTYPE_SHIFT +#undef IOU_SLCR_SD_CONFIG_REG2_SD1_SLOTTYPE_MASK +#define IOU_SLCR_SD_CONFIG_REG2_SD1_SLOTTYPE_DEFVAL 0x0FFC0FFC +#define IOU_SLCR_SD_CONFIG_REG2_SD1_SLOTTYPE_SHIFT 28 +#define IOU_SLCR_SD_CONFIG_REG2_SD1_SLOTTYPE_MASK 0x30000000U + +/*1.8V Support 1: 1.8V supported 0: 1.8V not supported support*/ +#undef IOU_SLCR_SD_CONFIG_REG2_SD1_1P8V_DEFVAL +#undef IOU_SLCR_SD_CONFIG_REG2_SD1_1P8V_SHIFT +#undef IOU_SLCR_SD_CONFIG_REG2_SD1_1P8V_MASK +#define IOU_SLCR_SD_CONFIG_REG2_SD1_1P8V_DEFVAL 0x0FFC0FFC +#define IOU_SLCR_SD_CONFIG_REG2_SD1_1P8V_SHIFT 25 +#define IOU_SLCR_SD_CONFIG_REG2_SD1_1P8V_MASK 0x02000000U + +/*3.0V Support 1: 3.0V supported 0: 3.0V not supported support*/ +#undef IOU_SLCR_SD_CONFIG_REG2_SD1_3P0V_DEFVAL +#undef IOU_SLCR_SD_CONFIG_REG2_SD1_3P0V_SHIFT +#undef IOU_SLCR_SD_CONFIG_REG2_SD1_3P0V_MASK +#define IOU_SLCR_SD_CONFIG_REG2_SD1_3P0V_DEFVAL 0x0FFC0FFC +#define IOU_SLCR_SD_CONFIG_REG2_SD1_3P0V_SHIFT 24 +#define IOU_SLCR_SD_CONFIG_REG2_SD1_3P0V_MASK 0x01000000U + +/*3.3V Support 1: 3.3V supported 0: 3.3V not supported support*/ +#undef IOU_SLCR_SD_CONFIG_REG2_SD1_3P3V_DEFVAL +#undef IOU_SLCR_SD_CONFIG_REG2_SD1_3P3V_SHIFT +#undef IOU_SLCR_SD_CONFIG_REG2_SD1_3P3V_MASK +#define IOU_SLCR_SD_CONFIG_REG2_SD1_3P3V_DEFVAL 0x0FFC0FFC +#define IOU_SLCR_SD_CONFIG_REG2_SD1_3P3V_SHIFT 23 +#define IOU_SLCR_SD_CONFIG_REG2_SD1_3P3V_MASK 0x00800000U + +/*Base Clock Frequency for SD Clock. This is the frequency of the xin_clk.*/ +#undef IOU_SLCR_SD_CONFIG_REG1_SD1_BASECLK_DEFVAL +#undef IOU_SLCR_SD_CONFIG_REG1_SD1_BASECLK_SHIFT +#undef IOU_SLCR_SD_CONFIG_REG1_SD1_BASECLK_MASK +#define IOU_SLCR_SD_CONFIG_REG1_SD1_BASECLK_DEFVAL 0x32403240 +#define IOU_SLCR_SD_CONFIG_REG1_SD1_BASECLK_SHIFT 23 +#define IOU_SLCR_SD_CONFIG_REG1_SD1_BASECLK_MASK 0x7F800000U + +/*This is the Timer Count for Re-Tuning Timer for Re-Tuning Mode 1 to 3. Setting to 4'b0 disables Re-Tuning Timer. 0h - Get inf + rmation via other source 1h = 1 seconds 2h = 2 seconds 3h = 4 seconds 4h = 8 seconds -- n = 2(n-1) seconds -- Bh = 1024 secon + s Fh - Ch = Reserved*/ +#undef IOU_SLCR_SD_CONFIG_REG3_SD1_RETUNETMR_DEFVAL +#undef IOU_SLCR_SD_CONFIG_REG3_SD1_RETUNETMR_SHIFT +#undef IOU_SLCR_SD_CONFIG_REG3_SD1_RETUNETMR_MASK +#define IOU_SLCR_SD_CONFIG_REG3_SD1_RETUNETMR_DEFVAL 0x06070607 +#define IOU_SLCR_SD_CONFIG_REG3_SD1_RETUNETMR_SHIFT 22 +#define IOU_SLCR_SD_CONFIG_REG3_SD1_RETUNETMR_MASK 0x03C00000U + +/*Block level reset*/ +#undef CRL_APB_RST_LPD_IOU2_CAN1_RESET_DEFVAL +#undef CRL_APB_RST_LPD_IOU2_CAN1_RESET_SHIFT +#undef CRL_APB_RST_LPD_IOU2_CAN1_RESET_MASK +#define CRL_APB_RST_LPD_IOU2_CAN1_RESET_DEFVAL 0x0017FFFF +#define CRL_APB_RST_LPD_IOU2_CAN1_RESET_SHIFT 8 +#define CRL_APB_RST_LPD_IOU2_CAN1_RESET_MASK 0x00000100U + +/*Block level reset*/ +#undef CRL_APB_RST_LPD_IOU2_I2C0_RESET_DEFVAL +#undef CRL_APB_RST_LPD_IOU2_I2C0_RESET_SHIFT +#undef CRL_APB_RST_LPD_IOU2_I2C0_RESET_MASK +#define CRL_APB_RST_LPD_IOU2_I2C0_RESET_DEFVAL 0x0017FFFF +#define CRL_APB_RST_LPD_IOU2_I2C0_RESET_SHIFT 9 +#define CRL_APB_RST_LPD_IOU2_I2C0_RESET_MASK 0x00000200U + +/*Block level reset*/ +#undef CRL_APB_RST_LPD_IOU2_I2C1_RESET_DEFVAL +#undef CRL_APB_RST_LPD_IOU2_I2C1_RESET_SHIFT +#undef CRL_APB_RST_LPD_IOU2_I2C1_RESET_MASK +#define CRL_APB_RST_LPD_IOU2_I2C1_RESET_DEFVAL 0x0017FFFF +#define CRL_APB_RST_LPD_IOU2_I2C1_RESET_SHIFT 10 +#define CRL_APB_RST_LPD_IOU2_I2C1_RESET_MASK 0x00000400U + +/*Block level reset*/ +#undef CRL_APB_RST_LPD_IOU2_SWDT_RESET_DEFVAL +#undef CRL_APB_RST_LPD_IOU2_SWDT_RESET_SHIFT +#undef CRL_APB_RST_LPD_IOU2_SWDT_RESET_MASK +#define CRL_APB_RST_LPD_IOU2_SWDT_RESET_DEFVAL 0x0017FFFF +#define CRL_APB_RST_LPD_IOU2_SWDT_RESET_SHIFT 15 +#define CRL_APB_RST_LPD_IOU2_SWDT_RESET_MASK 0x00008000U + +/*Block level reset*/ +#undef CRL_APB_RST_LPD_IOU2_TTC0_RESET_DEFVAL +#undef CRL_APB_RST_LPD_IOU2_TTC0_RESET_SHIFT +#undef CRL_APB_RST_LPD_IOU2_TTC0_RESET_MASK +#define CRL_APB_RST_LPD_IOU2_TTC0_RESET_DEFVAL 0x0017FFFF +#define CRL_APB_RST_LPD_IOU2_TTC0_RESET_SHIFT 11 +#define CRL_APB_RST_LPD_IOU2_TTC0_RESET_MASK 0x00000800U + +/*Block level reset*/ +#undef CRL_APB_RST_LPD_IOU2_TTC1_RESET_DEFVAL +#undef CRL_APB_RST_LPD_IOU2_TTC1_RESET_SHIFT +#undef CRL_APB_RST_LPD_IOU2_TTC1_RESET_MASK +#define CRL_APB_RST_LPD_IOU2_TTC1_RESET_DEFVAL 0x0017FFFF +#define CRL_APB_RST_LPD_IOU2_TTC1_RESET_SHIFT 12 +#define CRL_APB_RST_LPD_IOU2_TTC1_RESET_MASK 0x00001000U + +/*Block level reset*/ +#undef CRL_APB_RST_LPD_IOU2_TTC2_RESET_DEFVAL +#undef CRL_APB_RST_LPD_IOU2_TTC2_RESET_SHIFT +#undef CRL_APB_RST_LPD_IOU2_TTC2_RESET_MASK +#define CRL_APB_RST_LPD_IOU2_TTC2_RESET_DEFVAL 0x0017FFFF +#define CRL_APB_RST_LPD_IOU2_TTC2_RESET_SHIFT 13 +#define CRL_APB_RST_LPD_IOU2_TTC2_RESET_MASK 0x00002000U + +/*Block level reset*/ +#undef CRL_APB_RST_LPD_IOU2_TTC3_RESET_DEFVAL +#undef CRL_APB_RST_LPD_IOU2_TTC3_RESET_SHIFT +#undef CRL_APB_RST_LPD_IOU2_TTC3_RESET_MASK +#define CRL_APB_RST_LPD_IOU2_TTC3_RESET_DEFVAL 0x0017FFFF +#define CRL_APB_RST_LPD_IOU2_TTC3_RESET_SHIFT 14 +#define CRL_APB_RST_LPD_IOU2_TTC3_RESET_MASK 0x00004000U + +/*Block level reset*/ +#undef CRL_APB_RST_LPD_IOU2_UART0_RESET_DEFVAL +#undef CRL_APB_RST_LPD_IOU2_UART0_RESET_SHIFT +#undef CRL_APB_RST_LPD_IOU2_UART0_RESET_MASK +#define CRL_APB_RST_LPD_IOU2_UART0_RESET_DEFVAL 0x0017FFFF +#define CRL_APB_RST_LPD_IOU2_UART0_RESET_SHIFT 1 +#define CRL_APB_RST_LPD_IOU2_UART0_RESET_MASK 0x00000002U + +/*Block level reset*/ +#undef CRL_APB_RST_LPD_IOU2_UART1_RESET_DEFVAL +#undef CRL_APB_RST_LPD_IOU2_UART1_RESET_SHIFT +#undef CRL_APB_RST_LPD_IOU2_UART1_RESET_MASK +#define CRL_APB_RST_LPD_IOU2_UART1_RESET_DEFVAL 0x0017FFFF +#define CRL_APB_RST_LPD_IOU2_UART1_RESET_SHIFT 2 +#define CRL_APB_RST_LPD_IOU2_UART1_RESET_MASK 0x00000004U + +/*A write of 0xC5ACCE55 enables further write access to this device. A write of any value other than 0xC5ACCE55 will have the a + fect of removing write access.*/ +#undef TPIU_LAR_ACCESS_W_DEFVAL +#undef TPIU_LAR_ACCESS_W_SHIFT +#undef TPIU_LAR_ACCESS_W_MASK +#define TPIU_LAR_ACCESS_W_DEFVAL +#define TPIU_LAR_ACCESS_W_SHIFT 0 +#define TPIU_LAR_ACCESS_W_MASK 0xFFFFFFFFU + +/*Indicates whether the current port size of the TPIU is 32 bits.*/ +#undef TPIU_CURRENT_PORT_SIZE_PORT_SIZE_32_DEFVAL +#undef TPIU_CURRENT_PORT_SIZE_PORT_SIZE_32_SHIFT +#undef TPIU_CURRENT_PORT_SIZE_PORT_SIZE_32_MASK +#define TPIU_CURRENT_PORT_SIZE_PORT_SIZE_32_DEFVAL 0x00000001 +#define TPIU_CURRENT_PORT_SIZE_PORT_SIZE_32_SHIFT 31 +#define TPIU_CURRENT_PORT_SIZE_PORT_SIZE_32_MASK 0x80000000U + +/*A write of 0xC5ACCE55 enables further write access to this device. A write of any value other than 0xC5ACCE55 will have the a + fect of removing write access.*/ +#undef TPIU_LAR_ACCESS_W_DEFVAL +#undef TPIU_LAR_ACCESS_W_SHIFT +#undef TPIU_LAR_ACCESS_W_MASK +#define TPIU_LAR_ACCESS_W_DEFVAL +#define TPIU_LAR_ACCESS_W_SHIFT 0 +#define TPIU_LAR_ACCESS_W_MASK 0xFFFFFFFFU + +/*Baud rate divider value: 0 - 3: ignored 4 - 255: Baud rate*/ +#undef UART0_BAUD_RATE_DIVIDER_REG0_BDIV_DEFVAL +#undef UART0_BAUD_RATE_DIVIDER_REG0_BDIV_SHIFT +#undef UART0_BAUD_RATE_DIVIDER_REG0_BDIV_MASK +#define UART0_BAUD_RATE_DIVIDER_REG0_BDIV_DEFVAL 0x0000000F +#define UART0_BAUD_RATE_DIVIDER_REG0_BDIV_SHIFT 0 +#define UART0_BAUD_RATE_DIVIDER_REG0_BDIV_MASK 0x000000FFU + +/*Baud Rate Clock Divisor Value: 0: Disables baud_sample 1: Clock divisor bypass (baud_sample = sel_clk) 2 - 65535: baud_sample*/ +#undef UART0_BAUD_RATE_GEN_REG0_CD_DEFVAL +#undef UART0_BAUD_RATE_GEN_REG0_CD_SHIFT +#undef UART0_BAUD_RATE_GEN_REG0_CD_MASK +#define UART0_BAUD_RATE_GEN_REG0_CD_DEFVAL 0x0000028B +#define UART0_BAUD_RATE_GEN_REG0_CD_SHIFT 0 +#define UART0_BAUD_RATE_GEN_REG0_CD_MASK 0x0000FFFFU + +/*Stop transmitter break: 0: no affect 1: stop transmission of the break after a minimum of one character length and transmit a + high level during 12 bit periods. It can be set regardless of the value of STTBRK.*/ +#undef UART0_CONTROL_REG0_STPBRK_DEFVAL +#undef UART0_CONTROL_REG0_STPBRK_SHIFT +#undef UART0_CONTROL_REG0_STPBRK_MASK +#define UART0_CONTROL_REG0_STPBRK_DEFVAL 0x00000128 +#define UART0_CONTROL_REG0_STPBRK_SHIFT 8 +#define UART0_CONTROL_REG0_STPBRK_MASK 0x00000100U + +/*Start transmitter break: 0: no affect 1: start to transmit a break after the characters currently present in the FIFO and the + transmit shift register have been transmitted. It can only be set if STPBRK (Stop transmitter break) is not high.*/ +#undef UART0_CONTROL_REG0_STTBRK_DEFVAL +#undef UART0_CONTROL_REG0_STTBRK_SHIFT +#undef UART0_CONTROL_REG0_STTBRK_MASK +#define UART0_CONTROL_REG0_STTBRK_DEFVAL 0x00000128 +#define UART0_CONTROL_REG0_STTBRK_SHIFT 7 +#define UART0_CONTROL_REG0_STTBRK_MASK 0x00000080U + +/*Restart receiver timeout counter: 1: receiver timeout counter is restarted. This bit is self clearing once the restart has co + pleted.*/ +#undef UART0_CONTROL_REG0_RSTTO_DEFVAL +#undef UART0_CONTROL_REG0_RSTTO_SHIFT +#undef UART0_CONTROL_REG0_RSTTO_MASK +#define UART0_CONTROL_REG0_RSTTO_DEFVAL 0x00000128 +#define UART0_CONTROL_REG0_RSTTO_SHIFT 6 +#define UART0_CONTROL_REG0_RSTTO_MASK 0x00000040U + +/*Transmit disable: 0: enable transmitter 1: disable transmitter*/ +#undef UART0_CONTROL_REG0_TXDIS_DEFVAL +#undef UART0_CONTROL_REG0_TXDIS_SHIFT +#undef UART0_CONTROL_REG0_TXDIS_MASK +#define UART0_CONTROL_REG0_TXDIS_DEFVAL 0x00000128 +#define UART0_CONTROL_REG0_TXDIS_SHIFT 5 +#define UART0_CONTROL_REG0_TXDIS_MASK 0x00000020U + +/*Transmit enable: 0: disable transmitter 1: enable transmitter, provided the TXDIS field is set to 0.*/ +#undef UART0_CONTROL_REG0_TXEN_DEFVAL +#undef UART0_CONTROL_REG0_TXEN_SHIFT +#undef UART0_CONTROL_REG0_TXEN_MASK +#define UART0_CONTROL_REG0_TXEN_DEFVAL 0x00000128 +#define UART0_CONTROL_REG0_TXEN_SHIFT 4 +#define UART0_CONTROL_REG0_TXEN_MASK 0x00000010U + +/*Receive disable: 0: enable 1: disable, regardless of the value of RXEN*/ +#undef UART0_CONTROL_REG0_RXDIS_DEFVAL +#undef UART0_CONTROL_REG0_RXDIS_SHIFT +#undef UART0_CONTROL_REG0_RXDIS_MASK +#define UART0_CONTROL_REG0_RXDIS_DEFVAL 0x00000128 +#define UART0_CONTROL_REG0_RXDIS_SHIFT 3 +#define UART0_CONTROL_REG0_RXDIS_MASK 0x00000008U + +/*Receive enable: 0: disable 1: enable When set to one, the receiver logic is enabled, provided the RXDIS field is set to zero.*/ +#undef UART0_CONTROL_REG0_RXEN_DEFVAL +#undef UART0_CONTROL_REG0_RXEN_SHIFT +#undef UART0_CONTROL_REG0_RXEN_MASK +#define UART0_CONTROL_REG0_RXEN_DEFVAL 0x00000128 +#define UART0_CONTROL_REG0_RXEN_SHIFT 2 +#define UART0_CONTROL_REG0_RXEN_MASK 0x00000004U + +/*Software reset for Tx data path: 0: no affect 1: transmitter logic is reset and all pending transmitter data is discarded Thi + bit is self clearing once the reset has completed.*/ +#undef UART0_CONTROL_REG0_TXRES_DEFVAL +#undef UART0_CONTROL_REG0_TXRES_SHIFT +#undef UART0_CONTROL_REG0_TXRES_MASK +#define UART0_CONTROL_REG0_TXRES_DEFVAL 0x00000128 +#define UART0_CONTROL_REG0_TXRES_SHIFT 1 +#define UART0_CONTROL_REG0_TXRES_MASK 0x00000002U + +/*Software reset for Rx data path: 0: no affect 1: receiver logic is reset and all pending receiver data is discarded. This bit + is self clearing once the reset has completed.*/ +#undef UART0_CONTROL_REG0_RXRES_DEFVAL +#undef UART0_CONTROL_REG0_RXRES_SHIFT +#undef UART0_CONTROL_REG0_RXRES_MASK +#define UART0_CONTROL_REG0_RXRES_DEFVAL 0x00000128 +#define UART0_CONTROL_REG0_RXRES_SHIFT 0 +#define UART0_CONTROL_REG0_RXRES_MASK 0x00000001U + +/*Channel mode: Defines the mode of operation of the UART. 00: normal 01: automatic echo 10: local loopback 11: remote loopback*/ +#undef UART0_MODE_REG0_CHMODE_DEFVAL +#undef UART0_MODE_REG0_CHMODE_SHIFT +#undef UART0_MODE_REG0_CHMODE_MASK +#define UART0_MODE_REG0_CHMODE_DEFVAL 0x00000000 +#define UART0_MODE_REG0_CHMODE_SHIFT 8 +#define UART0_MODE_REG0_CHMODE_MASK 0x00000300U + +/*Number of stop bits: Defines the number of stop bits to detect on receive and to generate on transmit. 00: 1 stop bit 01: 1.5 + stop bits 10: 2 stop bits 11: reserved*/ +#undef UART0_MODE_REG0_NBSTOP_DEFVAL +#undef UART0_MODE_REG0_NBSTOP_SHIFT +#undef UART0_MODE_REG0_NBSTOP_MASK +#define UART0_MODE_REG0_NBSTOP_DEFVAL 0x00000000 +#define UART0_MODE_REG0_NBSTOP_SHIFT 6 +#define UART0_MODE_REG0_NBSTOP_MASK 0x000000C0U + +/*Parity type select: Defines the expected parity to check on receive and the parity to generate on transmit. 000: even parity + 01: odd parity 010: forced to 0 parity (space) 011: forced to 1 parity (mark) 1xx: no parity*/ +#undef UART0_MODE_REG0_PAR_DEFVAL +#undef UART0_MODE_REG0_PAR_SHIFT +#undef UART0_MODE_REG0_PAR_MASK +#define UART0_MODE_REG0_PAR_DEFVAL 0x00000000 +#define UART0_MODE_REG0_PAR_SHIFT 3 +#define UART0_MODE_REG0_PAR_MASK 0x00000038U + +/*Character length select: Defines the number of bits in each character. 11: 6 bits 10: 7 bits 0x: 8 bits*/ +#undef UART0_MODE_REG0_CHRL_DEFVAL +#undef UART0_MODE_REG0_CHRL_SHIFT +#undef UART0_MODE_REG0_CHRL_MASK +#define UART0_MODE_REG0_CHRL_DEFVAL 0x00000000 +#define UART0_MODE_REG0_CHRL_SHIFT 1 +#define UART0_MODE_REG0_CHRL_MASK 0x00000006U + +/*Clock source select: This field defines whether a pre-scalar of 8 is applied to the baud rate generator input clock. 0: clock + source is uart_ref_clk 1: clock source is uart_ref_clk/8*/ +#undef UART0_MODE_REG0_CLKS_DEFVAL +#undef UART0_MODE_REG0_CLKS_SHIFT +#undef UART0_MODE_REG0_CLKS_MASK +#define UART0_MODE_REG0_CLKS_DEFVAL 0x00000000 +#define UART0_MODE_REG0_CLKS_SHIFT 0 +#define UART0_MODE_REG0_CLKS_MASK 0x00000001U + +/*Baud rate divider value: 0 - 3: ignored 4 - 255: Baud rate*/ +#undef UART1_BAUD_RATE_DIVIDER_REG0_BDIV_DEFVAL +#undef UART1_BAUD_RATE_DIVIDER_REG0_BDIV_SHIFT +#undef UART1_BAUD_RATE_DIVIDER_REG0_BDIV_MASK +#define UART1_BAUD_RATE_DIVIDER_REG0_BDIV_DEFVAL 0x0000000F +#define UART1_BAUD_RATE_DIVIDER_REG0_BDIV_SHIFT 0 +#define UART1_BAUD_RATE_DIVIDER_REG0_BDIV_MASK 0x000000FFU + +/*Baud Rate Clock Divisor Value: 0: Disables baud_sample 1: Clock divisor bypass (baud_sample = sel_clk) 2 - 65535: baud_sample*/ +#undef UART1_BAUD_RATE_GEN_REG0_CD_DEFVAL +#undef UART1_BAUD_RATE_GEN_REG0_CD_SHIFT +#undef UART1_BAUD_RATE_GEN_REG0_CD_MASK +#define UART1_BAUD_RATE_GEN_REG0_CD_DEFVAL 0x0000028B +#define UART1_BAUD_RATE_GEN_REG0_CD_SHIFT 0 +#define UART1_BAUD_RATE_GEN_REG0_CD_MASK 0x0000FFFFU + +/*Stop transmitter break: 0: no affect 1: stop transmission of the break after a minimum of one character length and transmit a + high level during 12 bit periods. It can be set regardless of the value of STTBRK.*/ +#undef UART1_CONTROL_REG0_STPBRK_DEFVAL +#undef UART1_CONTROL_REG0_STPBRK_SHIFT +#undef UART1_CONTROL_REG0_STPBRK_MASK +#define UART1_CONTROL_REG0_STPBRK_DEFVAL 0x00000128 +#define UART1_CONTROL_REG0_STPBRK_SHIFT 8 +#define UART1_CONTROL_REG0_STPBRK_MASK 0x00000100U + +/*Start transmitter break: 0: no affect 1: start to transmit a break after the characters currently present in the FIFO and the + transmit shift register have been transmitted. It can only be set if STPBRK (Stop transmitter break) is not high.*/ +#undef UART1_CONTROL_REG0_STTBRK_DEFVAL +#undef UART1_CONTROL_REG0_STTBRK_SHIFT +#undef UART1_CONTROL_REG0_STTBRK_MASK +#define UART1_CONTROL_REG0_STTBRK_DEFVAL 0x00000128 +#define UART1_CONTROL_REG0_STTBRK_SHIFT 7 +#define UART1_CONTROL_REG0_STTBRK_MASK 0x00000080U + +/*Restart receiver timeout counter: 1: receiver timeout counter is restarted. This bit is self clearing once the restart has co + pleted.*/ +#undef UART1_CONTROL_REG0_RSTTO_DEFVAL +#undef UART1_CONTROL_REG0_RSTTO_SHIFT +#undef UART1_CONTROL_REG0_RSTTO_MASK +#define UART1_CONTROL_REG0_RSTTO_DEFVAL 0x00000128 +#define UART1_CONTROL_REG0_RSTTO_SHIFT 6 +#define UART1_CONTROL_REG0_RSTTO_MASK 0x00000040U + +/*Transmit disable: 0: enable transmitter 1: disable transmitter*/ +#undef UART1_CONTROL_REG0_TXDIS_DEFVAL +#undef UART1_CONTROL_REG0_TXDIS_SHIFT +#undef UART1_CONTROL_REG0_TXDIS_MASK +#define UART1_CONTROL_REG0_TXDIS_DEFVAL 0x00000128 +#define UART1_CONTROL_REG0_TXDIS_SHIFT 5 +#define UART1_CONTROL_REG0_TXDIS_MASK 0x00000020U + +/*Transmit enable: 0: disable transmitter 1: enable transmitter, provided the TXDIS field is set to 0.*/ +#undef UART1_CONTROL_REG0_TXEN_DEFVAL +#undef UART1_CONTROL_REG0_TXEN_SHIFT +#undef UART1_CONTROL_REG0_TXEN_MASK +#define UART1_CONTROL_REG0_TXEN_DEFVAL 0x00000128 +#define UART1_CONTROL_REG0_TXEN_SHIFT 4 +#define UART1_CONTROL_REG0_TXEN_MASK 0x00000010U + +/*Receive disable: 0: enable 1: disable, regardless of the value of RXEN*/ +#undef UART1_CONTROL_REG0_RXDIS_DEFVAL +#undef UART1_CONTROL_REG0_RXDIS_SHIFT +#undef UART1_CONTROL_REG0_RXDIS_MASK +#define UART1_CONTROL_REG0_RXDIS_DEFVAL 0x00000128 +#define UART1_CONTROL_REG0_RXDIS_SHIFT 3 +#define UART1_CONTROL_REG0_RXDIS_MASK 0x00000008U + +/*Receive enable: 0: disable 1: enable When set to one, the receiver logic is enabled, provided the RXDIS field is set to zero.*/ +#undef UART1_CONTROL_REG0_RXEN_DEFVAL +#undef UART1_CONTROL_REG0_RXEN_SHIFT +#undef UART1_CONTROL_REG0_RXEN_MASK +#define UART1_CONTROL_REG0_RXEN_DEFVAL 0x00000128 +#define UART1_CONTROL_REG0_RXEN_SHIFT 2 +#define UART1_CONTROL_REG0_RXEN_MASK 0x00000004U + +/*Software reset for Tx data path: 0: no affect 1: transmitter logic is reset and all pending transmitter data is discarded Thi + bit is self clearing once the reset has completed.*/ +#undef UART1_CONTROL_REG0_TXRES_DEFVAL +#undef UART1_CONTROL_REG0_TXRES_SHIFT +#undef UART1_CONTROL_REG0_TXRES_MASK +#define UART1_CONTROL_REG0_TXRES_DEFVAL 0x00000128 +#define UART1_CONTROL_REG0_TXRES_SHIFT 1 +#define UART1_CONTROL_REG0_TXRES_MASK 0x00000002U + +/*Software reset for Rx data path: 0: no affect 1: receiver logic is reset and all pending receiver data is discarded. This bit + is self clearing once the reset has completed.*/ +#undef UART1_CONTROL_REG0_RXRES_DEFVAL +#undef UART1_CONTROL_REG0_RXRES_SHIFT +#undef UART1_CONTROL_REG0_RXRES_MASK +#define UART1_CONTROL_REG0_RXRES_DEFVAL 0x00000128 +#define UART1_CONTROL_REG0_RXRES_SHIFT 0 +#define UART1_CONTROL_REG0_RXRES_MASK 0x00000001U + +/*Channel mode: Defines the mode of operation of the UART. 00: normal 01: automatic echo 10: local loopback 11: remote loopback*/ +#undef UART1_MODE_REG0_CHMODE_DEFVAL +#undef UART1_MODE_REG0_CHMODE_SHIFT +#undef UART1_MODE_REG0_CHMODE_MASK +#define UART1_MODE_REG0_CHMODE_DEFVAL 0x00000000 +#define UART1_MODE_REG0_CHMODE_SHIFT 8 +#define UART1_MODE_REG0_CHMODE_MASK 0x00000300U + +/*Number of stop bits: Defines the number of stop bits to detect on receive and to generate on transmit. 00: 1 stop bit 01: 1.5 + stop bits 10: 2 stop bits 11: reserved*/ +#undef UART1_MODE_REG0_NBSTOP_DEFVAL +#undef UART1_MODE_REG0_NBSTOP_SHIFT +#undef UART1_MODE_REG0_NBSTOP_MASK +#define UART1_MODE_REG0_NBSTOP_DEFVAL 0x00000000 +#define UART1_MODE_REG0_NBSTOP_SHIFT 6 +#define UART1_MODE_REG0_NBSTOP_MASK 0x000000C0U + +/*Parity type select: Defines the expected parity to check on receive and the parity to generate on transmit. 000: even parity + 01: odd parity 010: forced to 0 parity (space) 011: forced to 1 parity (mark) 1xx: no parity*/ +#undef UART1_MODE_REG0_PAR_DEFVAL +#undef UART1_MODE_REG0_PAR_SHIFT +#undef UART1_MODE_REG0_PAR_MASK +#define UART1_MODE_REG0_PAR_DEFVAL 0x00000000 +#define UART1_MODE_REG0_PAR_SHIFT 3 +#define UART1_MODE_REG0_PAR_MASK 0x00000038U + +/*Character length select: Defines the number of bits in each character. 11: 6 bits 10: 7 bits 0x: 8 bits*/ +#undef UART1_MODE_REG0_CHRL_DEFVAL +#undef UART1_MODE_REG0_CHRL_SHIFT +#undef UART1_MODE_REG0_CHRL_MASK +#define UART1_MODE_REG0_CHRL_DEFVAL 0x00000000 +#define UART1_MODE_REG0_CHRL_SHIFT 1 +#define UART1_MODE_REG0_CHRL_MASK 0x00000006U + +/*Clock source select: This field defines whether a pre-scalar of 8 is applied to the baud rate generator input clock. 0: clock + source is uart_ref_clk 1: clock source is uart_ref_clk/8*/ +#undef UART1_MODE_REG0_CLKS_DEFVAL +#undef UART1_MODE_REG0_CLKS_SHIFT +#undef UART1_MODE_REG0_CLKS_MASK +#define UART1_MODE_REG0_CLKS_DEFVAL 0x00000000 +#define UART1_MODE_REG0_CLKS_SHIFT 0 +#define UART1_MODE_REG0_CLKS_MASK 0x00000001U + +/*TrustZone Classification for ADMA*/ +#undef LPD_SLCR_SECURE_SLCR_ADMA_TZ_DEFVAL +#undef LPD_SLCR_SECURE_SLCR_ADMA_TZ_SHIFT +#undef LPD_SLCR_SECURE_SLCR_ADMA_TZ_MASK +#define LPD_SLCR_SECURE_SLCR_ADMA_TZ_DEFVAL +#define LPD_SLCR_SECURE_SLCR_ADMA_TZ_SHIFT 0 +#define LPD_SLCR_SECURE_SLCR_ADMA_TZ_MASK 0x000000FFU + +/*CSU regsiter*/ +#undef CSU_TAMPER_STATUS_TAMPER_0_DEFVAL +#undef CSU_TAMPER_STATUS_TAMPER_0_SHIFT +#undef CSU_TAMPER_STATUS_TAMPER_0_MASK +#define CSU_TAMPER_STATUS_TAMPER_0_DEFVAL 0x00000000 +#define CSU_TAMPER_STATUS_TAMPER_0_SHIFT 0 +#define CSU_TAMPER_STATUS_TAMPER_0_MASK 0x00000001U + +/*External MIO*/ +#undef CSU_TAMPER_STATUS_TAMPER_1_DEFVAL +#undef CSU_TAMPER_STATUS_TAMPER_1_SHIFT +#undef CSU_TAMPER_STATUS_TAMPER_1_MASK +#define CSU_TAMPER_STATUS_TAMPER_1_DEFVAL 0x00000000 +#define CSU_TAMPER_STATUS_TAMPER_1_SHIFT 1 +#define CSU_TAMPER_STATUS_TAMPER_1_MASK 0x00000002U + +/*JTAG toggle detect*/ +#undef CSU_TAMPER_STATUS_TAMPER_2_DEFVAL +#undef CSU_TAMPER_STATUS_TAMPER_2_SHIFT +#undef CSU_TAMPER_STATUS_TAMPER_2_MASK +#define CSU_TAMPER_STATUS_TAMPER_2_DEFVAL 0x00000000 +#define CSU_TAMPER_STATUS_TAMPER_2_SHIFT 2 +#define CSU_TAMPER_STATUS_TAMPER_2_MASK 0x00000004U + +/*PL SEU error*/ +#undef CSU_TAMPER_STATUS_TAMPER_3_DEFVAL +#undef CSU_TAMPER_STATUS_TAMPER_3_SHIFT +#undef CSU_TAMPER_STATUS_TAMPER_3_MASK +#define CSU_TAMPER_STATUS_TAMPER_3_DEFVAL 0x00000000 +#define CSU_TAMPER_STATUS_TAMPER_3_SHIFT 3 +#define CSU_TAMPER_STATUS_TAMPER_3_MASK 0x00000008U + +/*AMS over temperature alarm for LPD*/ +#undef CSU_TAMPER_STATUS_TAMPER_4_DEFVAL +#undef CSU_TAMPER_STATUS_TAMPER_4_SHIFT +#undef CSU_TAMPER_STATUS_TAMPER_4_MASK +#define CSU_TAMPER_STATUS_TAMPER_4_DEFVAL 0x00000000 +#define CSU_TAMPER_STATUS_TAMPER_4_SHIFT 4 +#define CSU_TAMPER_STATUS_TAMPER_4_MASK 0x00000010U + +/*AMS over temperature alarm for APU*/ +#undef CSU_TAMPER_STATUS_TAMPER_5_DEFVAL +#undef CSU_TAMPER_STATUS_TAMPER_5_SHIFT +#undef CSU_TAMPER_STATUS_TAMPER_5_MASK +#define CSU_TAMPER_STATUS_TAMPER_5_DEFVAL 0x00000000 +#define CSU_TAMPER_STATUS_TAMPER_5_SHIFT 5 +#define CSU_TAMPER_STATUS_TAMPER_5_MASK 0x00000020U + +/*AMS voltage alarm for VCCPINT_FPD*/ +#undef CSU_TAMPER_STATUS_TAMPER_6_DEFVAL +#undef CSU_TAMPER_STATUS_TAMPER_6_SHIFT +#undef CSU_TAMPER_STATUS_TAMPER_6_MASK +#define CSU_TAMPER_STATUS_TAMPER_6_DEFVAL 0x00000000 +#define CSU_TAMPER_STATUS_TAMPER_6_SHIFT 6 +#define CSU_TAMPER_STATUS_TAMPER_6_MASK 0x00000040U + +/*AMS voltage alarm for VCCPINT_LPD*/ +#undef CSU_TAMPER_STATUS_TAMPER_7_DEFVAL +#undef CSU_TAMPER_STATUS_TAMPER_7_SHIFT +#undef CSU_TAMPER_STATUS_TAMPER_7_MASK +#define CSU_TAMPER_STATUS_TAMPER_7_DEFVAL 0x00000000 +#define CSU_TAMPER_STATUS_TAMPER_7_SHIFT 7 +#define CSU_TAMPER_STATUS_TAMPER_7_MASK 0x00000080U + +/*AMS voltage alarm for VCCPAUX*/ +#undef CSU_TAMPER_STATUS_TAMPER_8_DEFVAL +#undef CSU_TAMPER_STATUS_TAMPER_8_SHIFT +#undef CSU_TAMPER_STATUS_TAMPER_8_MASK +#define CSU_TAMPER_STATUS_TAMPER_8_DEFVAL 0x00000000 +#define CSU_TAMPER_STATUS_TAMPER_8_SHIFT 8 +#define CSU_TAMPER_STATUS_TAMPER_8_MASK 0x00000100U + +/*AMS voltage alarm for DDRPHY*/ +#undef CSU_TAMPER_STATUS_TAMPER_9_DEFVAL +#undef CSU_TAMPER_STATUS_TAMPER_9_SHIFT +#undef CSU_TAMPER_STATUS_TAMPER_9_MASK +#define CSU_TAMPER_STATUS_TAMPER_9_DEFVAL 0x00000000 +#define CSU_TAMPER_STATUS_TAMPER_9_SHIFT 9 +#define CSU_TAMPER_STATUS_TAMPER_9_MASK 0x00000200U + +/*AMS voltage alarm for PSIO bank 0/1/2*/ +#undef CSU_TAMPER_STATUS_TAMPER_10_DEFVAL +#undef CSU_TAMPER_STATUS_TAMPER_10_SHIFT +#undef CSU_TAMPER_STATUS_TAMPER_10_MASK +#define CSU_TAMPER_STATUS_TAMPER_10_DEFVAL 0x00000000 +#define CSU_TAMPER_STATUS_TAMPER_10_SHIFT 10 +#define CSU_TAMPER_STATUS_TAMPER_10_MASK 0x00000400U + +/*AMS voltage alarm for PSIO bank 3 (dedicated pins)*/ +#undef CSU_TAMPER_STATUS_TAMPER_11_DEFVAL +#undef CSU_TAMPER_STATUS_TAMPER_11_SHIFT +#undef CSU_TAMPER_STATUS_TAMPER_11_MASK +#define CSU_TAMPER_STATUS_TAMPER_11_DEFVAL 0x00000000 +#define CSU_TAMPER_STATUS_TAMPER_11_SHIFT 11 +#define CSU_TAMPER_STATUS_TAMPER_11_MASK 0x00000800U + +/*AMS voltaage alarm for GT*/ +#undef CSU_TAMPER_STATUS_TAMPER_12_DEFVAL +#undef CSU_TAMPER_STATUS_TAMPER_12_SHIFT +#undef CSU_TAMPER_STATUS_TAMPER_12_MASK +#define CSU_TAMPER_STATUS_TAMPER_12_DEFVAL 0x00000000 +#define CSU_TAMPER_STATUS_TAMPER_12_SHIFT 12 +#define CSU_TAMPER_STATUS_TAMPER_12_MASK 0x00001000U + +/*Set ACE outgoing AWQOS value*/ +#undef APU_ACE_CTRL_AWQOS_DEFVAL +#undef APU_ACE_CTRL_AWQOS_SHIFT +#undef APU_ACE_CTRL_AWQOS_MASK +#define APU_ACE_CTRL_AWQOS_DEFVAL 0x000F000F +#define APU_ACE_CTRL_AWQOS_SHIFT 16 +#define APU_ACE_CTRL_AWQOS_MASK 0x000F0000U + +/*Set ACE outgoing ARQOS value*/ +#undef APU_ACE_CTRL_ARQOS_DEFVAL +#undef APU_ACE_CTRL_ARQOS_SHIFT +#undef APU_ACE_CTRL_ARQOS_MASK +#define APU_ACE_CTRL_ARQOS_DEFVAL 0x000F000F +#define APU_ACE_CTRL_ARQOS_SHIFT 0 +#define APU_ACE_CTRL_ARQOS_MASK 0x0000000FU + +/*Enables the RTC. By writing a 0 to this bit, RTC will be powered off and the only module that potentially draws current from + he battery will be BBRAM. The value read through this bit does not necessarily reflect whether RTC is enabled or not. It is e + pected that RTC is enabled every time it is being configured. If RTC is not used in the design, FSBL will disable it by writi + g a 0 to this bit.*/ +#undef RTC_CONTROL_BATTERY_DISABLE_DEFVAL +#undef RTC_CONTROL_BATTERY_DISABLE_SHIFT +#undef RTC_CONTROL_BATTERY_DISABLE_MASK +#define RTC_CONTROL_BATTERY_DISABLE_DEFVAL 0x01000000 +#define RTC_CONTROL_BATTERY_DISABLE_SHIFT 31 +#define RTC_CONTROL_BATTERY_DISABLE_MASK 0x80000000U + +/*Frequency in number of ticks per second. Valid range from 10 MHz to 100 MHz.*/ +#undef IOU_SCNTRS_BASE_FREQUENCY_ID_REGISTER_FREQ_DEFVAL +#undef IOU_SCNTRS_BASE_FREQUENCY_ID_REGISTER_FREQ_SHIFT +#undef IOU_SCNTRS_BASE_FREQUENCY_ID_REGISTER_FREQ_MASK +#define IOU_SCNTRS_BASE_FREQUENCY_ID_REGISTER_FREQ_DEFVAL +#define IOU_SCNTRS_BASE_FREQUENCY_ID_REGISTER_FREQ_SHIFT 0 +#define IOU_SCNTRS_BASE_FREQUENCY_ID_REGISTER_FREQ_MASK 0xFFFFFFFFU + +/*Enable 0: The counter is disabled and not incrementing. 1: The counter is enabled and is incrementing.*/ +#undef IOU_SCNTRS_COUNTER_CONTROL_REGISTER_EN_DEFVAL +#undef IOU_SCNTRS_COUNTER_CONTROL_REGISTER_EN_SHIFT +#undef IOU_SCNTRS_COUNTER_CONTROL_REGISTER_EN_MASK +#define IOU_SCNTRS_COUNTER_CONTROL_REGISTER_EN_DEFVAL 0x00000000 +#define IOU_SCNTRS_COUNTER_CONTROL_REGISTER_EN_SHIFT 0 +#define IOU_SCNTRS_COUNTER_CONTROL_REGISTER_EN_MASK 0x00000001U +#undef LPD_XPPU_CFG_MASTER_ID00_OFFSET +#define LPD_XPPU_CFG_MASTER_ID00_OFFSET 0XFF980100 +#undef LPD_XPPU_CFG_MASTER_ID01_OFFSET +#define LPD_XPPU_CFG_MASTER_ID01_OFFSET 0XFF980104 +#undef LPD_XPPU_CFG_MASTER_ID02_OFFSET +#define LPD_XPPU_CFG_MASTER_ID02_OFFSET 0XFF980108 +#undef LPD_XPPU_CFG_MASTER_ID03_OFFSET +#define LPD_XPPU_CFG_MASTER_ID03_OFFSET 0XFF98010C +#undef LPD_XPPU_CFG_MASTER_ID04_OFFSET +#define LPD_XPPU_CFG_MASTER_ID04_OFFSET 0XFF980110 +#undef LPD_XPPU_CFG_MASTER_ID05_OFFSET +#define LPD_XPPU_CFG_MASTER_ID05_OFFSET 0XFF980114 +#undef LPD_XPPU_CFG_MASTER_ID06_OFFSET +#define LPD_XPPU_CFG_MASTER_ID06_OFFSET 0XFF980118 +#undef LPD_XPPU_CFG_MASTER_ID07_OFFSET +#define LPD_XPPU_CFG_MASTER_ID07_OFFSET 0XFF98011C +#undef LPD_XPPU_CFG_MASTER_ID19_OFFSET +#define LPD_XPPU_CFG_MASTER_ID19_OFFSET 0XFF98014C +#undef LPD_XPPU_CFG_APERPERM_048_OFFSET +#define LPD_XPPU_CFG_APERPERM_048_OFFSET 0XFF9810C0 +#undef LPD_XPPU_CFG_APERPERM_049_OFFSET +#define LPD_XPPU_CFG_APERPERM_049_OFFSET 0XFF9810C4 +#undef LPD_XPPU_CFG_APERPERM_050_OFFSET +#define LPD_XPPU_CFG_APERPERM_050_OFFSET 0XFF9810C8 +#undef LPD_XPPU_CFG_APERPERM_051_OFFSET +#define LPD_XPPU_CFG_APERPERM_051_OFFSET 0XFF9810CC +#undef LPD_XPPU_CFG_APERPERM_256_OFFSET +#define LPD_XPPU_CFG_APERPERM_256_OFFSET 0XFF981400 +#undef LPD_XPPU_CFG_APERPERM_257_OFFSET +#define LPD_XPPU_CFG_APERPERM_257_OFFSET 0XFF981404 +#undef LPD_XPPU_CFG_APERPERM_258_OFFSET +#define LPD_XPPU_CFG_APERPERM_258_OFFSET 0XFF981408 +#undef LPD_XPPU_CFG_APERPERM_259_OFFSET +#define LPD_XPPU_CFG_APERPERM_259_OFFSET 0XFF98140C +#undef LPD_XPPU_CFG_APERPERM_260_OFFSET +#define LPD_XPPU_CFG_APERPERM_260_OFFSET 0XFF981410 +#undef LPD_XPPU_CFG_APERPERM_261_OFFSET +#define LPD_XPPU_CFG_APERPERM_261_OFFSET 0XFF981414 +#undef LPD_XPPU_CFG_APERPERM_262_OFFSET +#define LPD_XPPU_CFG_APERPERM_262_OFFSET 0XFF981418 +#undef LPD_XPPU_CFG_APERPERM_263_OFFSET +#define LPD_XPPU_CFG_APERPERM_263_OFFSET 0XFF98141C +#undef LPD_XPPU_CFG_APERPERM_264_OFFSET +#define LPD_XPPU_CFG_APERPERM_264_OFFSET 0XFF981420 +#undef LPD_XPPU_CFG_APERPERM_265_OFFSET +#define LPD_XPPU_CFG_APERPERM_265_OFFSET 0XFF981424 +#undef LPD_XPPU_CFG_APERPERM_266_OFFSET +#define LPD_XPPU_CFG_APERPERM_266_OFFSET 0XFF981428 +#undef LPD_XPPU_CFG_APERPERM_267_OFFSET +#define LPD_XPPU_CFG_APERPERM_267_OFFSET 0XFF98142C +#undef LPD_XPPU_CFG_APERPERM_268_OFFSET +#define LPD_XPPU_CFG_APERPERM_268_OFFSET 0XFF981430 +#undef LPD_XPPU_CFG_APERPERM_269_OFFSET +#define LPD_XPPU_CFG_APERPERM_269_OFFSET 0XFF981434 +#undef LPD_XPPU_CFG_APERPERM_270_OFFSET +#define LPD_XPPU_CFG_APERPERM_270_OFFSET 0XFF981438 +#undef LPD_XPPU_CFG_APERPERM_271_OFFSET +#define LPD_XPPU_CFG_APERPERM_271_OFFSET 0XFF98143C +#undef LPD_XPPU_CFG_APERPERM_272_OFFSET +#define LPD_XPPU_CFG_APERPERM_272_OFFSET 0XFF981440 +#undef LPD_XPPU_CFG_APERPERM_273_OFFSET +#define LPD_XPPU_CFG_APERPERM_273_OFFSET 0XFF981444 +#undef LPD_XPPU_CFG_APERPERM_274_OFFSET +#define LPD_XPPU_CFG_APERPERM_274_OFFSET 0XFF981448 +#undef LPD_XPPU_CFG_APERPERM_275_OFFSET +#define LPD_XPPU_CFG_APERPERM_275_OFFSET 0XFF98144C +#undef LPD_XPPU_CFG_APERPERM_276_OFFSET +#define LPD_XPPU_CFG_APERPERM_276_OFFSET 0XFF981450 +#undef LPD_XPPU_CFG_APERPERM_277_OFFSET +#define LPD_XPPU_CFG_APERPERM_277_OFFSET 0XFF981454 +#undef LPD_XPPU_CFG_APERPERM_278_OFFSET +#define LPD_XPPU_CFG_APERPERM_278_OFFSET 0XFF981458 +#undef LPD_XPPU_CFG_APERPERM_279_OFFSET +#define LPD_XPPU_CFG_APERPERM_279_OFFSET 0XFF98145C +#undef LPD_XPPU_CFG_APERPERM_280_OFFSET +#define LPD_XPPU_CFG_APERPERM_280_OFFSET 0XFF981460 +#undef LPD_XPPU_CFG_APERPERM_281_OFFSET +#define LPD_XPPU_CFG_APERPERM_281_OFFSET 0XFF981464 +#undef LPD_XPPU_CFG_APERPERM_282_OFFSET +#define LPD_XPPU_CFG_APERPERM_282_OFFSET 0XFF981468 +#undef LPD_XPPU_CFG_APERPERM_283_OFFSET +#define LPD_XPPU_CFG_APERPERM_283_OFFSET 0XFF98146C +#undef LPD_XPPU_CFG_APERPERM_284_OFFSET +#define LPD_XPPU_CFG_APERPERM_284_OFFSET 0XFF981470 +#undef LPD_XPPU_CFG_APERPERM_285_OFFSET +#define LPD_XPPU_CFG_APERPERM_285_OFFSET 0XFF981474 +#undef LPD_XPPU_CFG_APERPERM_286_OFFSET +#define LPD_XPPU_CFG_APERPERM_286_OFFSET 0XFF981478 +#undef LPD_XPPU_CFG_APERPERM_287_OFFSET +#define LPD_XPPU_CFG_APERPERM_287_OFFSET 0XFF98147C +#undef LPD_XPPU_CFG_APERPERM_288_OFFSET +#define LPD_XPPU_CFG_APERPERM_288_OFFSET 0XFF981480 +#undef LPD_XPPU_CFG_APERPERM_289_OFFSET +#define LPD_XPPU_CFG_APERPERM_289_OFFSET 0XFF981484 +#undef LPD_XPPU_CFG_APERPERM_290_OFFSET +#define LPD_XPPU_CFG_APERPERM_290_OFFSET 0XFF981488 +#undef LPD_XPPU_CFG_APERPERM_291_OFFSET +#define LPD_XPPU_CFG_APERPERM_291_OFFSET 0XFF98148C +#undef LPD_XPPU_CFG_APERPERM_292_OFFSET +#define LPD_XPPU_CFG_APERPERM_292_OFFSET 0XFF981490 +#undef LPD_XPPU_CFG_APERPERM_293_OFFSET +#define LPD_XPPU_CFG_APERPERM_293_OFFSET 0XFF981494 +#undef LPD_XPPU_CFG_APERPERM_294_OFFSET +#define LPD_XPPU_CFG_APERPERM_294_OFFSET 0XFF981498 +#undef LPD_XPPU_CFG_APERPERM_295_OFFSET +#define LPD_XPPU_CFG_APERPERM_295_OFFSET 0XFF98149C +#undef LPD_XPPU_CFG_APERPERM_296_OFFSET +#define LPD_XPPU_CFG_APERPERM_296_OFFSET 0XFF9814A0 +#undef LPD_XPPU_CFG_APERPERM_297_OFFSET +#define LPD_XPPU_CFG_APERPERM_297_OFFSET 0XFF9814A4 +#undef LPD_XPPU_CFG_APERPERM_298_OFFSET +#define LPD_XPPU_CFG_APERPERM_298_OFFSET 0XFF9814A8 +#undef LPD_XPPU_CFG_APERPERM_299_OFFSET +#define LPD_XPPU_CFG_APERPERM_299_OFFSET 0XFF9814AC +#undef LPD_XPPU_CFG_APERPERM_300_OFFSET +#define LPD_XPPU_CFG_APERPERM_300_OFFSET 0XFF9814B0 +#undef LPD_XPPU_CFG_APERPERM_301_OFFSET +#define LPD_XPPU_CFG_APERPERM_301_OFFSET 0XFF9814B4 +#undef LPD_XPPU_CFG_APERPERM_302_OFFSET +#define LPD_XPPU_CFG_APERPERM_302_OFFSET 0XFF9814B8 +#undef LPD_XPPU_CFG_APERPERM_303_OFFSET +#define LPD_XPPU_CFG_APERPERM_303_OFFSET 0XFF9814BC +#undef LPD_XPPU_CFG_APERPERM_304_OFFSET +#define LPD_XPPU_CFG_APERPERM_304_OFFSET 0XFF9814C0 +#undef LPD_XPPU_CFG_APERPERM_305_OFFSET +#define LPD_XPPU_CFG_APERPERM_305_OFFSET 0XFF9814C4 +#undef LPD_XPPU_CFG_APERPERM_306_OFFSET +#define LPD_XPPU_CFG_APERPERM_306_OFFSET 0XFF9814C8 +#undef LPD_XPPU_CFG_APERPERM_307_OFFSET +#define LPD_XPPU_CFG_APERPERM_307_OFFSET 0XFF9814CC +#undef LPD_XPPU_CFG_APERPERM_308_OFFSET +#define LPD_XPPU_CFG_APERPERM_308_OFFSET 0XFF9814D0 +#undef LPD_XPPU_CFG_APERPERM_309_OFFSET +#define LPD_XPPU_CFG_APERPERM_309_OFFSET 0XFF9814D4 +#undef LPD_XPPU_CFG_APERPERM_318_OFFSET +#define LPD_XPPU_CFG_APERPERM_318_OFFSET 0XFF9814F8 +#undef LPD_XPPU_CFG_APERPERM_319_OFFSET +#define LPD_XPPU_CFG_APERPERM_319_OFFSET 0XFF9814FC +#undef LPD_XPPU_CFG_APERPERM_320_OFFSET +#define LPD_XPPU_CFG_APERPERM_320_OFFSET 0XFF981500 +#undef LPD_XPPU_CFG_APERPERM_321_OFFSET +#define LPD_XPPU_CFG_APERPERM_321_OFFSET 0XFF981504 +#undef LPD_XPPU_CFG_APERPERM_322_OFFSET +#define LPD_XPPU_CFG_APERPERM_322_OFFSET 0XFF981508 +#undef LPD_XPPU_CFG_APERPERM_323_OFFSET +#define LPD_XPPU_CFG_APERPERM_323_OFFSET 0XFF98150C +#undef LPD_XPPU_CFG_APERPERM_324_OFFSET +#define LPD_XPPU_CFG_APERPERM_324_OFFSET 0XFF981510 +#undef LPD_XPPU_CFG_APERPERM_325_OFFSET +#define LPD_XPPU_CFG_APERPERM_325_OFFSET 0XFF981514 +#undef LPD_XPPU_CFG_APERPERM_334_OFFSET +#define LPD_XPPU_CFG_APERPERM_334_OFFSET 0XFF981538 +#undef LPD_XPPU_CFG_APERPERM_335_OFFSET +#define LPD_XPPU_CFG_APERPERM_335_OFFSET 0XFF98153C +#undef LPD_XPPU_CFG_APERPERM_336_OFFSET +#define LPD_XPPU_CFG_APERPERM_336_OFFSET 0XFF981540 +#undef LPD_XPPU_CFG_APERPERM_337_OFFSET +#define LPD_XPPU_CFG_APERPERM_337_OFFSET 0XFF981544 +#undef LPD_XPPU_CFG_APERPERM_338_OFFSET +#define LPD_XPPU_CFG_APERPERM_338_OFFSET 0XFF981548 +#undef LPD_XPPU_CFG_APERPERM_339_OFFSET +#define LPD_XPPU_CFG_APERPERM_339_OFFSET 0XFF98154C +#undef LPD_XPPU_CFG_APERPERM_340_OFFSET +#define LPD_XPPU_CFG_APERPERM_340_OFFSET 0XFF981550 +#undef LPD_XPPU_CFG_APERPERM_341_OFFSET +#define LPD_XPPU_CFG_APERPERM_341_OFFSET 0XFF981554 +#undef LPD_XPPU_CFG_APERPERM_350_OFFSET +#define LPD_XPPU_CFG_APERPERM_350_OFFSET 0XFF981578 +#undef LPD_XPPU_CFG_APERPERM_351_OFFSET +#define LPD_XPPU_CFG_APERPERM_351_OFFSET 0XFF98157C +#undef LPD_XPPU_CFG_APERPERM_352_OFFSET +#define LPD_XPPU_CFG_APERPERM_352_OFFSET 0XFF981580 +#undef LPD_XPPU_CFG_APERPERM_353_OFFSET +#define LPD_XPPU_CFG_APERPERM_353_OFFSET 0XFF981584 +#undef LPD_XPPU_CFG_APERPERM_354_OFFSET +#define LPD_XPPU_CFG_APERPERM_354_OFFSET 0XFF981588 +#undef LPD_XPPU_CFG_APERPERM_355_OFFSET +#define LPD_XPPU_CFG_APERPERM_355_OFFSET 0XFF98158C +#undef LPD_XPPU_CFG_APERPERM_356_OFFSET +#define LPD_XPPU_CFG_APERPERM_356_OFFSET 0XFF981590 +#undef LPD_XPPU_CFG_APERPERM_357_OFFSET +#define LPD_XPPU_CFG_APERPERM_357_OFFSET 0XFF981594 +#undef LPD_XPPU_CFG_APERPERM_366_OFFSET +#define LPD_XPPU_CFG_APERPERM_366_OFFSET 0XFF9815B8 +#undef LPD_XPPU_CFG_APERPERM_367_OFFSET +#define LPD_XPPU_CFG_APERPERM_367_OFFSET 0XFF9815BC +#undef LPD_XPPU_CFG_APERPERM_368_OFFSET +#define LPD_XPPU_CFG_APERPERM_368_OFFSET 0XFF9815C0 +#undef LPD_XPPU_CFG_APERPERM_369_OFFSET +#define LPD_XPPU_CFG_APERPERM_369_OFFSET 0XFF9815C4 +#undef LPD_XPPU_CFG_APERPERM_370_OFFSET +#define LPD_XPPU_CFG_APERPERM_370_OFFSET 0XFF9815C8 +#undef LPD_XPPU_CFG_APERPERM_371_OFFSET +#define LPD_XPPU_CFG_APERPERM_371_OFFSET 0XFF9815CC +#undef LPD_XPPU_CFG_APERPERM_372_OFFSET +#define LPD_XPPU_CFG_APERPERM_372_OFFSET 0XFF9815D0 +#undef LPD_XPPU_CFG_APERPERM_373_OFFSET +#define LPD_XPPU_CFG_APERPERM_373_OFFSET 0XFF9815D4 +#undef LPD_XPPU_CFG_APERPERM_374_OFFSET +#define LPD_XPPU_CFG_APERPERM_374_OFFSET 0XFF9815D8 +#undef LPD_XPPU_CFG_APERPERM_375_OFFSET +#define LPD_XPPU_CFG_APERPERM_375_OFFSET 0XFF9815DC +#undef LPD_XPPU_CFG_APERPERM_376_OFFSET +#define LPD_XPPU_CFG_APERPERM_376_OFFSET 0XFF9815E0 +#undef LPD_XPPU_CFG_APERPERM_377_OFFSET +#define LPD_XPPU_CFG_APERPERM_377_OFFSET 0XFF9815E4 +#undef LPD_XPPU_CFG_APERPERM_378_OFFSET +#define LPD_XPPU_CFG_APERPERM_378_OFFSET 0XFF9815E8 +#undef LPD_XPPU_CFG_APERPERM_379_OFFSET +#define LPD_XPPU_CFG_APERPERM_379_OFFSET 0XFF9815EC +#undef LPD_XPPU_CFG_APERPERM_380_OFFSET +#define LPD_XPPU_CFG_APERPERM_380_OFFSET 0XFF9815F0 +#undef LPD_XPPU_CFG_APERPERM_381_OFFSET +#define LPD_XPPU_CFG_APERPERM_381_OFFSET 0XFF9815F4 +#undef LPD_XPPU_CFG_APERPERM_382_OFFSET +#define LPD_XPPU_CFG_APERPERM_382_OFFSET 0XFF9815F8 +#undef LPD_XPPU_CFG_APERPERM_383_OFFSET +#define LPD_XPPU_CFG_APERPERM_383_OFFSET 0XFF9815FC +#undef LPD_XPPU_SINK_ERR_CTRL_OFFSET +#define LPD_XPPU_SINK_ERR_CTRL_OFFSET 0XFF9CFFEC +#undef LPD_XPPU_CFG_CTRL_OFFSET +#define LPD_XPPU_CFG_CTRL_OFFSET 0XFF980000 +#undef LPD_XPPU_CFG_IEN_OFFSET +#define LPD_XPPU_CFG_IEN_OFFSET 0XFF980018 + +/*If set, only read transactions are allowed for the masters matching this register*/ +#undef LPD_XPPU_CFG_MASTER_ID00_MIDR_DEFVAL +#undef LPD_XPPU_CFG_MASTER_ID00_MIDR_SHIFT +#undef LPD_XPPU_CFG_MASTER_ID00_MIDR_MASK +#define LPD_XPPU_CFG_MASTER_ID00_MIDR_DEFVAL 0x83FF0040 +#define LPD_XPPU_CFG_MASTER_ID00_MIDR_SHIFT 30 +#define LPD_XPPU_CFG_MASTER_ID00_MIDR_MASK 0x40000000U + +/*Mask to be applied before comparing*/ +#undef LPD_XPPU_CFG_MASTER_ID00_MIDM_DEFVAL +#undef LPD_XPPU_CFG_MASTER_ID00_MIDM_SHIFT +#undef LPD_XPPU_CFG_MASTER_ID00_MIDM_MASK +#define LPD_XPPU_CFG_MASTER_ID00_MIDM_DEFVAL 0x83FF0040 +#define LPD_XPPU_CFG_MASTER_ID00_MIDM_SHIFT 16 +#define LPD_XPPU_CFG_MASTER_ID00_MIDM_MASK 0x03FF0000U + +/*Predefined Master ID for PMU*/ +#undef LPD_XPPU_CFG_MASTER_ID00_MID_DEFVAL +#undef LPD_XPPU_CFG_MASTER_ID00_MID_SHIFT +#undef LPD_XPPU_CFG_MASTER_ID00_MID_MASK +#define LPD_XPPU_CFG_MASTER_ID00_MID_DEFVAL 0x83FF0040 +#define LPD_XPPU_CFG_MASTER_ID00_MID_SHIFT 0 +#define LPD_XPPU_CFG_MASTER_ID00_MID_MASK 0x000003FFU + +/*If set, only read transactions are allowed for the masters matching this register*/ +#undef LPD_XPPU_CFG_MASTER_ID01_MIDR_DEFVAL +#undef LPD_XPPU_CFG_MASTER_ID01_MIDR_SHIFT +#undef LPD_XPPU_CFG_MASTER_ID01_MIDR_MASK +#define LPD_XPPU_CFG_MASTER_ID01_MIDR_DEFVAL 0x03F00000 +#define LPD_XPPU_CFG_MASTER_ID01_MIDR_SHIFT 30 +#define LPD_XPPU_CFG_MASTER_ID01_MIDR_MASK 0x40000000U + +/*Mask to be applied before comparing*/ +#undef LPD_XPPU_CFG_MASTER_ID01_MIDM_DEFVAL +#undef LPD_XPPU_CFG_MASTER_ID01_MIDM_SHIFT +#undef LPD_XPPU_CFG_MASTER_ID01_MIDM_MASK +#define LPD_XPPU_CFG_MASTER_ID01_MIDM_DEFVAL 0x03F00000 +#define LPD_XPPU_CFG_MASTER_ID01_MIDM_SHIFT 16 +#define LPD_XPPU_CFG_MASTER_ID01_MIDM_MASK 0x03FF0000U + +/*Predefined Master ID for RPU0*/ +#undef LPD_XPPU_CFG_MASTER_ID01_MID_DEFVAL +#undef LPD_XPPU_CFG_MASTER_ID01_MID_SHIFT +#undef LPD_XPPU_CFG_MASTER_ID01_MID_MASK +#define LPD_XPPU_CFG_MASTER_ID01_MID_DEFVAL 0x03F00000 +#define LPD_XPPU_CFG_MASTER_ID01_MID_SHIFT 0 +#define LPD_XPPU_CFG_MASTER_ID01_MID_MASK 0x000003FFU + +/*If set, only read transactions are allowed for the masters matching this register*/ +#undef LPD_XPPU_CFG_MASTER_ID02_MIDR_DEFVAL +#undef LPD_XPPU_CFG_MASTER_ID02_MIDR_SHIFT +#undef LPD_XPPU_CFG_MASTER_ID02_MIDR_MASK +#define LPD_XPPU_CFG_MASTER_ID02_MIDR_DEFVAL 0x83F00010 +#define LPD_XPPU_CFG_MASTER_ID02_MIDR_SHIFT 30 +#define LPD_XPPU_CFG_MASTER_ID02_MIDR_MASK 0x40000000U + +/*Mask to be applied before comparing*/ +#undef LPD_XPPU_CFG_MASTER_ID02_MIDM_DEFVAL +#undef LPD_XPPU_CFG_MASTER_ID02_MIDM_SHIFT +#undef LPD_XPPU_CFG_MASTER_ID02_MIDM_MASK +#define LPD_XPPU_CFG_MASTER_ID02_MIDM_DEFVAL 0x83F00010 +#define LPD_XPPU_CFG_MASTER_ID02_MIDM_SHIFT 16 +#define LPD_XPPU_CFG_MASTER_ID02_MIDM_MASK 0x03FF0000U + +/*Predefined Master ID for RPU1*/ +#undef LPD_XPPU_CFG_MASTER_ID02_MID_DEFVAL +#undef LPD_XPPU_CFG_MASTER_ID02_MID_SHIFT +#undef LPD_XPPU_CFG_MASTER_ID02_MID_MASK +#define LPD_XPPU_CFG_MASTER_ID02_MID_DEFVAL 0x83F00010 +#define LPD_XPPU_CFG_MASTER_ID02_MID_SHIFT 0 +#define LPD_XPPU_CFG_MASTER_ID02_MID_MASK 0x000003FFU + +/*If set, only read transactions are allowed for the masters matching this register*/ +#undef LPD_XPPU_CFG_MASTER_ID03_MIDR_DEFVAL +#undef LPD_XPPU_CFG_MASTER_ID03_MIDR_SHIFT +#undef LPD_XPPU_CFG_MASTER_ID03_MIDR_MASK +#define LPD_XPPU_CFG_MASTER_ID03_MIDR_DEFVAL 0x83C00080 +#define LPD_XPPU_CFG_MASTER_ID03_MIDR_SHIFT 30 +#define LPD_XPPU_CFG_MASTER_ID03_MIDR_MASK 0x40000000U + +/*Mask to be applied before comparing*/ +#undef LPD_XPPU_CFG_MASTER_ID03_MIDM_DEFVAL +#undef LPD_XPPU_CFG_MASTER_ID03_MIDM_SHIFT +#undef LPD_XPPU_CFG_MASTER_ID03_MIDM_MASK +#define LPD_XPPU_CFG_MASTER_ID03_MIDM_DEFVAL 0x83C00080 +#define LPD_XPPU_CFG_MASTER_ID03_MIDM_SHIFT 16 +#define LPD_XPPU_CFG_MASTER_ID03_MIDM_MASK 0x03FF0000U + +/*Predefined Master ID for APU*/ +#undef LPD_XPPU_CFG_MASTER_ID03_MID_DEFVAL +#undef LPD_XPPU_CFG_MASTER_ID03_MID_SHIFT +#undef LPD_XPPU_CFG_MASTER_ID03_MID_MASK +#define LPD_XPPU_CFG_MASTER_ID03_MID_DEFVAL 0x83C00080 +#define LPD_XPPU_CFG_MASTER_ID03_MID_SHIFT 0 +#define LPD_XPPU_CFG_MASTER_ID03_MID_MASK 0x000003FFU + +/*If set, only read transactions are allowed for the masters matching this register*/ +#undef LPD_XPPU_CFG_MASTER_ID04_MIDR_DEFVAL +#undef LPD_XPPU_CFG_MASTER_ID04_MIDR_SHIFT +#undef LPD_XPPU_CFG_MASTER_ID04_MIDR_MASK +#define LPD_XPPU_CFG_MASTER_ID04_MIDR_DEFVAL 0x83C30080 +#define LPD_XPPU_CFG_MASTER_ID04_MIDR_SHIFT 30 +#define LPD_XPPU_CFG_MASTER_ID04_MIDR_MASK 0x40000000U + +/*Mask to be applied before comparing*/ +#undef LPD_XPPU_CFG_MASTER_ID04_MIDM_DEFVAL +#undef LPD_XPPU_CFG_MASTER_ID04_MIDM_SHIFT +#undef LPD_XPPU_CFG_MASTER_ID04_MIDM_MASK +#define LPD_XPPU_CFG_MASTER_ID04_MIDM_DEFVAL 0x83C30080 +#define LPD_XPPU_CFG_MASTER_ID04_MIDM_SHIFT 16 +#define LPD_XPPU_CFG_MASTER_ID04_MIDM_MASK 0x03FF0000U + +/*Predefined Master ID for A53 Core 0*/ +#undef LPD_XPPU_CFG_MASTER_ID04_MID_DEFVAL +#undef LPD_XPPU_CFG_MASTER_ID04_MID_SHIFT +#undef LPD_XPPU_CFG_MASTER_ID04_MID_MASK +#define LPD_XPPU_CFG_MASTER_ID04_MID_DEFVAL 0x83C30080 +#define LPD_XPPU_CFG_MASTER_ID04_MID_SHIFT 0 +#define LPD_XPPU_CFG_MASTER_ID04_MID_MASK 0x000003FFU + +/*If set, only read transactions are allowed for the masters matching this register*/ +#undef LPD_XPPU_CFG_MASTER_ID05_MIDR_DEFVAL +#undef LPD_XPPU_CFG_MASTER_ID05_MIDR_SHIFT +#undef LPD_XPPU_CFG_MASTER_ID05_MIDR_MASK +#define LPD_XPPU_CFG_MASTER_ID05_MIDR_DEFVAL 0x03C30081 +#define LPD_XPPU_CFG_MASTER_ID05_MIDR_SHIFT 30 +#define LPD_XPPU_CFG_MASTER_ID05_MIDR_MASK 0x40000000U + +/*Mask to be applied before comparing*/ +#undef LPD_XPPU_CFG_MASTER_ID05_MIDM_DEFVAL +#undef LPD_XPPU_CFG_MASTER_ID05_MIDM_SHIFT +#undef LPD_XPPU_CFG_MASTER_ID05_MIDM_MASK +#define LPD_XPPU_CFG_MASTER_ID05_MIDM_DEFVAL 0x03C30081 +#define LPD_XPPU_CFG_MASTER_ID05_MIDM_SHIFT 16 +#define LPD_XPPU_CFG_MASTER_ID05_MIDM_MASK 0x03FF0000U + +/*Predefined Master ID for A53 Core 1*/ +#undef LPD_XPPU_CFG_MASTER_ID05_MID_DEFVAL +#undef LPD_XPPU_CFG_MASTER_ID05_MID_SHIFT +#undef LPD_XPPU_CFG_MASTER_ID05_MID_MASK +#define LPD_XPPU_CFG_MASTER_ID05_MID_DEFVAL 0x03C30081 +#define LPD_XPPU_CFG_MASTER_ID05_MID_SHIFT 0 +#define LPD_XPPU_CFG_MASTER_ID05_MID_MASK 0x000003FFU + +/*If set, only read transactions are allowed for the masters matching this register*/ +#undef LPD_XPPU_CFG_MASTER_ID06_MIDR_DEFVAL +#undef LPD_XPPU_CFG_MASTER_ID06_MIDR_SHIFT +#undef LPD_XPPU_CFG_MASTER_ID06_MIDR_MASK +#define LPD_XPPU_CFG_MASTER_ID06_MIDR_DEFVAL 0x03C30082 +#define LPD_XPPU_CFG_MASTER_ID06_MIDR_SHIFT 30 +#define LPD_XPPU_CFG_MASTER_ID06_MIDR_MASK 0x40000000U + +/*Mask to be applied before comparing*/ +#undef LPD_XPPU_CFG_MASTER_ID06_MIDM_DEFVAL +#undef LPD_XPPU_CFG_MASTER_ID06_MIDM_SHIFT +#undef LPD_XPPU_CFG_MASTER_ID06_MIDM_MASK +#define LPD_XPPU_CFG_MASTER_ID06_MIDM_DEFVAL 0x03C30082 +#define LPD_XPPU_CFG_MASTER_ID06_MIDM_SHIFT 16 +#define LPD_XPPU_CFG_MASTER_ID06_MIDM_MASK 0x03FF0000U + +/*Predefined Master ID for A53 Core 2*/ +#undef LPD_XPPU_CFG_MASTER_ID06_MID_DEFVAL +#undef LPD_XPPU_CFG_MASTER_ID06_MID_SHIFT +#undef LPD_XPPU_CFG_MASTER_ID06_MID_MASK +#define LPD_XPPU_CFG_MASTER_ID06_MID_DEFVAL 0x03C30082 +#define LPD_XPPU_CFG_MASTER_ID06_MID_SHIFT 0 +#define LPD_XPPU_CFG_MASTER_ID06_MID_MASK 0x000003FFU + +/*If set, only read transactions are allowed for the masters matching this register*/ +#undef LPD_XPPU_CFG_MASTER_ID07_MIDR_DEFVAL +#undef LPD_XPPU_CFG_MASTER_ID07_MIDR_SHIFT +#undef LPD_XPPU_CFG_MASTER_ID07_MIDR_MASK +#define LPD_XPPU_CFG_MASTER_ID07_MIDR_DEFVAL 0x83C30083 +#define LPD_XPPU_CFG_MASTER_ID07_MIDR_SHIFT 30 +#define LPD_XPPU_CFG_MASTER_ID07_MIDR_MASK 0x40000000U + +/*Mask to be applied before comparing*/ +#undef LPD_XPPU_CFG_MASTER_ID07_MIDM_DEFVAL +#undef LPD_XPPU_CFG_MASTER_ID07_MIDM_SHIFT +#undef LPD_XPPU_CFG_MASTER_ID07_MIDM_MASK +#define LPD_XPPU_CFG_MASTER_ID07_MIDM_DEFVAL 0x83C30083 +#define LPD_XPPU_CFG_MASTER_ID07_MIDM_SHIFT 16 +#define LPD_XPPU_CFG_MASTER_ID07_MIDM_MASK 0x03FF0000U + +/*Predefined Master ID for A53 Core 3*/ +#undef LPD_XPPU_CFG_MASTER_ID07_MID_DEFVAL +#undef LPD_XPPU_CFG_MASTER_ID07_MID_SHIFT +#undef LPD_XPPU_CFG_MASTER_ID07_MID_MASK +#define LPD_XPPU_CFG_MASTER_ID07_MID_DEFVAL 0x83C30083 +#define LPD_XPPU_CFG_MASTER_ID07_MID_SHIFT 0 +#define LPD_XPPU_CFG_MASTER_ID07_MID_MASK 0x000003FFU + +/*If set, only read transactions are allowed for the masters matching this register*/ +#undef LPD_XPPU_CFG_MASTER_ID19_MIDR_DEFVAL +#undef LPD_XPPU_CFG_MASTER_ID19_MIDR_SHIFT +#undef LPD_XPPU_CFG_MASTER_ID19_MIDR_MASK +#define LPD_XPPU_CFG_MASTER_ID19_MIDR_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_MASTER_ID19_MIDR_SHIFT 30 +#define LPD_XPPU_CFG_MASTER_ID19_MIDR_MASK 0x40000000U + +/*Mask to be applied before comparing*/ +#undef LPD_XPPU_CFG_MASTER_ID19_MIDM_DEFVAL +#undef LPD_XPPU_CFG_MASTER_ID19_MIDM_SHIFT +#undef LPD_XPPU_CFG_MASTER_ID19_MIDM_MASK +#define LPD_XPPU_CFG_MASTER_ID19_MIDM_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_MASTER_ID19_MIDM_SHIFT 16 +#define LPD_XPPU_CFG_MASTER_ID19_MIDM_MASK 0x03FF0000U + +/*Programmable Master ID*/ +#undef LPD_XPPU_CFG_MASTER_ID19_MID_DEFVAL +#undef LPD_XPPU_CFG_MASTER_ID19_MID_SHIFT +#undef LPD_XPPU_CFG_MASTER_ID19_MID_MASK +#define LPD_XPPU_CFG_MASTER_ID19_MID_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_MASTER_ID19_MID_SHIFT 0 +#define LPD_XPPU_CFG_MASTER_ID19_MID_MASK 0x000003FFU + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_048_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_048_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_048_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_048_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_048_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_048_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_048_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_048_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_048_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_048_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_048_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_048_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_048_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_048_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_048_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_048_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_048_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_048_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_049_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_049_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_049_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_049_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_049_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_049_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_049_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_049_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_049_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_049_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_049_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_049_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_049_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_049_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_049_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_049_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_049_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_049_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_050_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_050_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_050_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_050_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_050_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_050_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_050_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_050_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_050_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_050_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_050_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_050_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_050_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_050_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_050_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_050_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_050_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_050_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_051_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_051_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_051_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_051_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_051_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_051_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_051_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_051_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_051_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_051_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_051_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_051_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_051_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_051_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_051_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_051_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_051_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_051_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_256_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_256_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_256_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_256_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_256_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_256_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_256_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_256_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_256_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_256_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_256_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_256_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_256_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_256_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_256_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_256_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_256_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_256_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_257_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_257_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_257_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_257_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_257_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_257_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_257_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_257_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_257_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_257_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_257_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_257_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_257_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_257_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_257_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_257_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_257_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_257_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_258_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_258_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_258_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_258_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_258_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_258_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_258_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_258_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_258_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_258_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_258_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_258_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_258_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_258_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_258_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_258_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_258_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_258_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_259_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_259_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_259_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_259_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_259_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_259_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_259_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_259_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_259_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_259_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_259_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_259_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_259_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_259_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_259_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_259_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_259_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_259_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_260_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_260_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_260_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_260_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_260_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_260_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_260_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_260_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_260_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_260_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_260_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_260_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_260_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_260_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_260_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_260_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_260_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_260_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_261_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_261_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_261_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_261_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_261_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_261_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_261_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_261_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_261_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_261_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_261_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_261_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_261_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_261_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_261_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_261_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_261_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_261_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_262_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_262_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_262_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_262_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_262_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_262_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_262_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_262_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_262_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_262_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_262_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_262_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_262_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_262_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_262_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_262_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_262_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_262_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_263_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_263_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_263_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_263_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_263_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_263_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_263_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_263_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_263_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_263_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_263_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_263_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_263_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_263_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_263_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_263_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_263_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_263_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_264_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_264_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_264_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_264_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_264_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_264_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_264_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_264_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_264_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_264_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_264_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_264_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_264_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_264_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_264_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_264_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_264_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_264_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_265_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_265_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_265_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_265_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_265_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_265_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_265_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_265_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_265_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_265_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_265_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_265_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_265_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_265_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_265_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_265_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_265_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_265_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_266_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_266_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_266_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_266_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_266_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_266_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_266_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_266_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_266_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_266_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_266_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_266_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_266_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_266_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_266_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_266_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_266_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_266_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_267_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_267_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_267_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_267_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_267_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_267_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_267_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_267_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_267_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_267_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_267_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_267_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_267_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_267_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_267_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_267_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_267_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_267_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_268_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_268_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_268_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_268_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_268_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_268_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_268_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_268_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_268_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_268_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_268_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_268_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_268_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_268_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_268_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_268_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_268_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_268_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_269_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_269_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_269_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_269_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_269_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_269_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_269_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_269_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_269_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_269_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_269_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_269_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_269_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_269_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_269_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_269_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_269_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_269_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_270_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_270_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_270_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_270_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_270_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_270_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_270_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_270_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_270_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_270_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_270_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_270_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_270_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_270_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_270_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_270_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_270_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_270_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_271_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_271_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_271_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_271_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_271_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_271_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_271_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_271_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_271_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_271_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_271_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_271_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_271_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_271_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_271_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_271_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_271_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_271_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_272_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_272_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_272_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_272_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_272_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_272_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_272_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_272_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_272_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_272_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_272_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_272_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_272_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_272_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_272_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_272_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_272_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_272_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_273_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_273_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_273_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_273_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_273_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_273_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_273_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_273_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_273_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_273_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_273_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_273_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_273_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_273_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_273_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_273_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_273_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_273_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_274_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_274_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_274_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_274_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_274_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_274_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_274_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_274_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_274_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_274_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_274_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_274_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_274_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_274_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_274_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_274_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_274_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_274_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_275_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_275_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_275_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_275_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_275_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_275_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_275_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_275_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_275_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_275_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_275_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_275_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_275_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_275_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_275_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_275_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_275_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_275_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_276_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_276_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_276_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_276_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_276_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_276_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_276_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_276_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_276_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_276_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_276_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_276_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_276_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_276_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_276_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_276_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_276_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_276_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_277_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_277_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_277_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_277_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_277_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_277_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_277_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_277_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_277_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_277_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_277_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_277_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_277_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_277_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_277_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_277_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_277_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_277_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_278_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_278_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_278_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_278_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_278_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_278_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_278_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_278_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_278_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_278_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_278_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_278_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_278_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_278_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_278_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_278_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_278_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_278_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_279_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_279_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_279_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_279_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_279_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_279_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_279_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_279_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_279_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_279_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_279_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_279_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_279_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_279_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_279_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_279_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_279_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_279_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_280_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_280_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_280_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_280_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_280_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_280_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_280_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_280_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_280_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_280_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_280_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_280_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_280_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_280_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_280_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_280_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_280_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_280_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_281_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_281_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_281_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_281_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_281_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_281_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_281_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_281_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_281_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_281_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_281_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_281_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_281_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_281_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_281_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_281_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_281_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_281_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_282_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_282_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_282_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_282_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_282_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_282_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_282_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_282_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_282_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_282_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_282_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_282_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_282_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_282_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_282_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_282_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_282_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_282_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_283_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_283_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_283_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_283_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_283_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_283_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_283_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_283_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_283_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_283_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_283_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_283_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_283_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_283_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_283_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_283_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_283_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_283_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_284_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_284_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_284_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_284_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_284_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_284_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_284_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_284_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_284_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_284_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_284_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_284_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_284_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_284_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_284_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_284_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_284_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_284_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_285_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_285_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_285_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_285_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_285_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_285_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_285_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_285_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_285_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_285_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_285_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_285_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_285_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_285_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_285_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_285_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_285_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_285_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_286_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_286_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_286_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_286_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_286_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_286_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_286_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_286_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_286_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_286_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_286_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_286_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_286_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_286_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_286_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_286_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_286_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_286_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_287_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_287_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_287_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_287_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_287_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_287_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_287_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_287_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_287_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_287_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_287_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_287_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_287_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_287_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_287_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_287_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_287_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_287_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_288_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_288_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_288_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_288_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_288_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_288_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_288_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_288_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_288_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_288_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_288_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_288_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_288_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_288_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_288_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_288_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_288_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_288_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_289_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_289_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_289_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_289_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_289_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_289_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_289_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_289_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_289_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_289_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_289_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_289_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_289_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_289_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_289_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_289_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_289_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_289_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_290_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_290_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_290_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_290_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_290_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_290_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_290_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_290_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_290_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_290_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_290_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_290_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_290_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_290_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_290_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_290_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_290_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_290_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_291_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_291_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_291_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_291_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_291_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_291_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_291_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_291_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_291_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_291_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_291_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_291_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_291_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_291_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_291_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_291_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_291_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_291_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_292_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_292_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_292_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_292_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_292_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_292_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_292_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_292_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_292_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_292_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_292_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_292_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_292_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_292_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_292_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_292_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_292_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_292_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_293_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_293_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_293_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_293_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_293_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_293_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_293_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_293_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_293_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_293_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_293_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_293_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_293_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_293_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_293_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_293_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_293_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_293_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_294_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_294_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_294_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_294_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_294_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_294_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_294_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_294_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_294_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_294_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_294_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_294_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_294_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_294_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_294_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_294_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_294_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_294_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_295_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_295_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_295_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_295_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_295_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_295_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_295_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_295_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_295_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_295_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_295_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_295_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_295_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_295_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_295_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_295_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_295_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_295_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_296_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_296_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_296_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_296_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_296_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_296_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_296_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_296_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_296_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_296_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_296_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_296_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_296_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_296_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_296_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_296_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_296_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_296_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_297_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_297_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_297_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_297_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_297_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_297_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_297_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_297_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_297_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_297_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_297_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_297_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_297_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_297_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_297_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_297_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_297_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_297_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_298_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_298_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_298_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_298_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_298_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_298_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_298_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_298_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_298_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_298_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_298_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_298_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_298_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_298_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_298_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_298_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_298_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_298_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_299_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_299_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_299_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_299_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_299_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_299_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_299_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_299_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_299_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_299_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_299_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_299_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_299_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_299_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_299_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_299_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_299_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_299_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_300_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_300_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_300_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_300_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_300_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_300_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_300_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_300_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_300_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_300_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_300_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_300_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_300_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_300_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_300_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_300_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_300_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_300_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_301_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_301_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_301_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_301_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_301_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_301_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_301_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_301_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_301_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_301_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_301_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_301_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_301_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_301_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_301_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_301_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_301_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_301_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_302_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_302_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_302_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_302_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_302_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_302_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_302_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_302_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_302_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_302_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_302_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_302_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_302_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_302_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_302_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_302_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_302_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_302_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_303_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_303_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_303_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_303_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_303_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_303_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_303_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_303_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_303_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_303_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_303_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_303_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_303_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_303_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_303_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_303_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_303_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_303_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_304_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_304_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_304_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_304_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_304_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_304_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_304_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_304_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_304_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_304_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_304_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_304_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_304_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_304_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_304_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_304_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_304_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_304_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_305_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_305_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_305_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_305_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_305_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_305_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_305_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_305_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_305_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_305_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_305_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_305_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_305_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_305_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_305_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_305_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_305_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_305_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_306_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_306_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_306_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_306_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_306_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_306_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_306_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_306_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_306_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_306_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_306_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_306_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_306_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_306_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_306_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_306_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_306_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_306_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_307_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_307_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_307_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_307_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_307_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_307_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_307_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_307_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_307_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_307_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_307_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_307_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_307_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_307_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_307_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_307_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_307_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_307_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_308_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_308_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_308_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_308_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_308_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_308_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_308_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_308_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_308_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_308_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_308_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_308_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_308_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_308_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_308_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_308_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_308_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_308_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_309_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_309_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_309_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_309_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_309_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_309_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_309_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_309_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_309_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_309_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_309_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_309_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_309_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_309_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_309_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_309_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_309_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_309_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_318_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_318_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_318_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_318_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_318_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_318_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_318_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_318_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_318_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_318_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_318_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_318_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_318_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_318_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_318_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_318_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_318_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_318_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_319_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_319_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_319_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_319_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_319_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_319_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_319_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_319_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_319_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_319_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_319_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_319_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_319_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_319_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_319_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_319_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_319_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_319_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_320_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_320_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_320_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_320_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_320_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_320_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_320_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_320_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_320_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_320_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_320_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_320_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_320_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_320_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_320_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_320_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_320_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_320_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_321_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_321_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_321_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_321_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_321_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_321_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_321_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_321_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_321_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_321_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_321_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_321_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_321_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_321_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_321_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_321_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_321_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_321_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_322_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_322_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_322_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_322_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_322_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_322_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_322_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_322_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_322_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_322_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_322_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_322_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_322_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_322_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_322_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_322_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_322_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_322_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_323_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_323_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_323_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_323_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_323_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_323_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_323_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_323_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_323_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_323_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_323_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_323_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_323_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_323_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_323_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_323_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_323_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_323_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_324_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_324_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_324_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_324_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_324_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_324_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_324_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_324_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_324_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_324_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_324_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_324_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_324_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_324_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_324_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_324_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_324_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_324_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_325_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_325_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_325_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_325_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_325_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_325_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_325_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_325_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_325_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_325_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_325_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_325_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_325_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_325_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_325_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_325_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_325_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_325_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_334_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_334_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_334_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_334_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_334_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_334_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_334_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_334_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_334_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_334_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_334_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_334_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_334_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_334_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_334_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_334_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_334_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_334_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_335_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_335_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_335_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_335_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_335_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_335_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_335_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_335_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_335_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_335_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_335_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_335_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_335_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_335_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_335_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_335_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_335_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_335_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_336_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_336_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_336_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_336_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_336_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_336_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_336_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_336_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_336_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_336_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_336_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_336_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_336_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_336_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_336_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_336_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_336_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_336_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_337_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_337_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_337_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_337_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_337_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_337_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_337_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_337_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_337_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_337_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_337_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_337_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_337_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_337_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_337_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_337_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_337_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_337_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_338_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_338_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_338_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_338_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_338_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_338_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_338_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_338_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_338_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_338_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_338_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_338_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_338_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_338_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_338_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_338_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_338_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_338_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_339_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_339_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_339_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_339_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_339_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_339_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_339_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_339_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_339_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_339_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_339_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_339_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_339_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_339_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_339_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_339_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_339_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_339_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_340_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_340_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_340_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_340_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_340_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_340_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_340_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_340_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_340_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_340_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_340_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_340_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_340_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_340_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_340_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_340_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_340_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_340_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_341_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_341_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_341_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_341_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_341_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_341_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_341_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_341_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_341_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_341_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_341_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_341_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_341_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_341_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_341_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_341_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_341_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_341_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_350_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_350_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_350_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_350_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_350_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_350_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_350_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_350_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_350_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_350_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_350_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_350_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_350_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_350_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_350_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_350_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_350_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_350_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_351_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_351_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_351_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_351_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_351_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_351_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_351_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_351_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_351_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_351_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_351_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_351_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_351_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_351_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_351_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_351_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_351_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_351_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_352_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_352_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_352_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_352_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_352_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_352_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_352_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_352_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_352_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_352_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_352_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_352_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_352_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_352_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_352_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_352_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_352_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_352_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_353_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_353_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_353_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_353_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_353_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_353_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_353_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_353_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_353_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_353_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_353_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_353_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_353_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_353_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_353_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_353_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_353_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_353_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_354_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_354_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_354_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_354_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_354_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_354_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_354_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_354_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_354_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_354_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_354_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_354_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_354_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_354_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_354_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_354_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_354_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_354_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_355_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_355_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_355_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_355_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_355_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_355_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_355_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_355_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_355_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_355_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_355_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_355_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_355_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_355_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_355_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_355_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_355_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_355_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_356_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_356_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_356_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_356_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_356_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_356_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_356_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_356_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_356_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_356_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_356_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_356_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_356_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_356_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_356_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_356_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_356_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_356_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_357_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_357_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_357_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_357_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_357_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_357_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_357_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_357_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_357_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_357_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_357_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_357_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_357_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_357_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_357_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_357_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_357_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_357_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_366_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_366_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_366_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_366_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_366_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_366_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_366_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_366_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_366_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_366_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_366_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_366_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_366_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_366_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_366_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_366_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_366_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_366_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_367_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_367_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_367_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_367_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_367_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_367_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_367_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_367_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_367_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_367_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_367_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_367_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_367_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_367_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_367_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_367_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_367_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_367_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_368_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_368_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_368_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_368_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_368_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_368_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_368_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_368_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_368_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_368_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_368_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_368_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_368_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_368_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_368_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_368_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_368_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_368_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_369_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_369_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_369_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_369_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_369_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_369_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_369_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_369_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_369_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_369_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_369_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_369_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_369_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_369_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_369_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_369_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_369_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_369_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_370_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_370_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_370_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_370_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_370_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_370_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_370_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_370_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_370_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_370_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_370_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_370_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_370_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_370_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_370_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_370_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_370_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_370_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_371_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_371_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_371_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_371_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_371_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_371_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_371_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_371_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_371_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_371_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_371_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_371_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_371_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_371_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_371_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_371_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_371_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_371_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_372_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_372_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_372_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_372_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_372_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_372_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_372_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_372_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_372_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_372_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_372_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_372_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_372_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_372_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_372_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_372_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_372_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_372_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_373_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_373_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_373_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_373_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_373_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_373_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_373_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_373_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_373_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_373_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_373_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_373_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_373_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_373_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_373_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_373_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_373_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_373_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_374_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_374_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_374_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_374_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_374_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_374_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_374_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_374_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_374_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_374_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_374_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_374_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_374_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_374_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_374_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_374_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_374_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_374_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_375_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_375_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_375_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_375_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_375_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_375_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_375_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_375_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_375_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_375_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_375_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_375_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_375_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_375_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_375_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_375_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_375_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_375_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_376_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_376_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_376_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_376_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_376_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_376_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_376_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_376_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_376_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_376_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_376_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_376_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_376_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_376_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_376_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_376_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_376_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_376_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_377_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_377_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_377_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_377_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_377_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_377_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_377_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_377_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_377_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_377_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_377_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_377_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_377_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_377_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_377_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_377_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_377_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_377_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_378_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_378_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_378_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_378_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_378_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_378_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_378_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_378_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_378_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_378_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_378_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_378_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_378_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_378_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_378_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_378_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_378_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_378_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_379_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_379_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_379_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_379_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_379_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_379_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_379_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_379_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_379_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_379_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_379_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_379_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_379_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_379_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_379_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_379_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_379_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_379_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_380_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_380_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_380_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_380_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_380_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_380_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_380_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_380_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_380_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_380_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_380_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_380_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_380_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_380_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_380_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_380_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_380_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_380_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_381_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_381_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_381_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_381_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_381_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_381_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_381_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_381_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_381_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_381_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_381_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_381_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_381_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_381_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_381_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_381_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_381_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_381_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_382_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_382_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_382_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_382_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_382_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_382_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_382_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_382_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_382_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_382_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_382_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_382_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_382_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_382_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_382_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_382_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_382_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_382_PARITY_MASK 0xF0000000U + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_383_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_383_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_383_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_383_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_383_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_383_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_383_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_383_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_383_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_383_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_383_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_383_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_383_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_383_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_383_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_383_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_383_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_383_PARITY_MASK 0xF0000000U + +/*Whether an APB access to the "hole" region and to an unimplemented register space causes PSLVERR*/ +#undef LPD_XPPU_SINK_ERR_CTRL_PSLVERR_DEFVAL +#undef LPD_XPPU_SINK_ERR_CTRL_PSLVERR_SHIFT +#undef LPD_XPPU_SINK_ERR_CTRL_PSLVERR_MASK +#define LPD_XPPU_SINK_ERR_CTRL_PSLVERR_DEFVAL 0x00000000 +#define LPD_XPPU_SINK_ERR_CTRL_PSLVERR_SHIFT 0 +#define LPD_XPPU_SINK_ERR_CTRL_PSLVERR_MASK 0x00000001U + +/*0=Bypass XPPU (transparent) 1=Enable XPPU permission checking*/ +#undef LPD_XPPU_CFG_CTRL_ENABLE_DEFVAL +#undef LPD_XPPU_CFG_CTRL_ENABLE_SHIFT +#undef LPD_XPPU_CFG_CTRL_ENABLE_MASK +#define LPD_XPPU_CFG_CTRL_ENABLE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_CTRL_ENABLE_SHIFT 0 +#define LPD_XPPU_CFG_CTRL_ENABLE_MASK 0x00000001U + +/*See Interuppt Status Register for details*/ +#undef LPD_XPPU_CFG_IEN_APER_PARITY_DEFVAL +#undef LPD_XPPU_CFG_IEN_APER_PARITY_SHIFT +#undef LPD_XPPU_CFG_IEN_APER_PARITY_MASK +#define LPD_XPPU_CFG_IEN_APER_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_IEN_APER_PARITY_SHIFT 7 +#define LPD_XPPU_CFG_IEN_APER_PARITY_MASK 0x00000080U + +/*See Interuppt Status Register for details*/ +#undef LPD_XPPU_CFG_IEN_APER_TZ_DEFVAL +#undef LPD_XPPU_CFG_IEN_APER_TZ_SHIFT +#undef LPD_XPPU_CFG_IEN_APER_TZ_MASK +#define LPD_XPPU_CFG_IEN_APER_TZ_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_IEN_APER_TZ_SHIFT 6 +#define LPD_XPPU_CFG_IEN_APER_TZ_MASK 0x00000040U + +/*See Interuppt Status Register for details*/ +#undef LPD_XPPU_CFG_IEN_APER_PERM_DEFVAL +#undef LPD_XPPU_CFG_IEN_APER_PERM_SHIFT +#undef LPD_XPPU_CFG_IEN_APER_PERM_MASK +#define LPD_XPPU_CFG_IEN_APER_PERM_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_IEN_APER_PERM_SHIFT 5 +#define LPD_XPPU_CFG_IEN_APER_PERM_MASK 0x00000020U + +/*See Interuppt Status Register for details*/ +#undef LPD_XPPU_CFG_IEN_MID_PARITY_DEFVAL +#undef LPD_XPPU_CFG_IEN_MID_PARITY_SHIFT +#undef LPD_XPPU_CFG_IEN_MID_PARITY_MASK +#define LPD_XPPU_CFG_IEN_MID_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_IEN_MID_PARITY_SHIFT 3 +#define LPD_XPPU_CFG_IEN_MID_PARITY_MASK 0x00000008U + +/*See Interuppt Status Register for details*/ +#undef LPD_XPPU_CFG_IEN_MID_RO_DEFVAL +#undef LPD_XPPU_CFG_IEN_MID_RO_SHIFT +#undef LPD_XPPU_CFG_IEN_MID_RO_MASK +#define LPD_XPPU_CFG_IEN_MID_RO_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_IEN_MID_RO_SHIFT 2 +#define LPD_XPPU_CFG_IEN_MID_RO_MASK 0x00000004U + +/*See Interuppt Status Register for details*/ +#undef LPD_XPPU_CFG_IEN_MID_MISS_DEFVAL +#undef LPD_XPPU_CFG_IEN_MID_MISS_SHIFT +#undef LPD_XPPU_CFG_IEN_MID_MISS_MASK +#define LPD_XPPU_CFG_IEN_MID_MISS_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_IEN_MID_MISS_SHIFT 1 +#define LPD_XPPU_CFG_IEN_MID_MISS_MASK 0x00000002U + +/*See Interuppt Status Register for details*/ +#undef LPD_XPPU_CFG_IEN_INV_APB_DEFVAL +#undef LPD_XPPU_CFG_IEN_INV_APB_SHIFT +#undef LPD_XPPU_CFG_IEN_INV_APB_MASK +#define LPD_XPPU_CFG_IEN_INV_APB_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_IEN_INV_APB_SHIFT 0 +#define LPD_XPPU_CFG_IEN_INV_APB_MASK 0x00000001U +#undef LPD_XPPU_CFG_APERPERM_152_OFFSET +#define LPD_XPPU_CFG_APERPERM_152_OFFSET 0XFF981260 + +/*This field defines the MASTER ID match criteria. Each entry in the IDL corresponds to a bit in this field. 0=not match, 1=mat + h.*/ +#undef LPD_XPPU_CFG_APERPERM_152_PERMISSION_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_152_PERMISSION_SHIFT +#undef LPD_XPPU_CFG_APERPERM_152_PERMISSION_MASK +#define LPD_XPPU_CFG_APERPERM_152_PERMISSION_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_152_PERMISSION_SHIFT 0 +#define LPD_XPPU_CFG_APERPERM_152_PERMISSION_MASK 0x000FFFFFU + +/*1=secure or non-secure transactions are allowed 0=only secure transactiona are allowed*/ +#undef LPD_XPPU_CFG_APERPERM_152_TRUSTZONE_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_152_TRUSTZONE_SHIFT +#undef LPD_XPPU_CFG_APERPERM_152_TRUSTZONE_MASK +#define LPD_XPPU_CFG_APERPERM_152_TRUSTZONE_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_152_TRUSTZONE_SHIFT 27 +#define LPD_XPPU_CFG_APERPERM_152_TRUSTZONE_MASK 0x08000000U + +/*SW must calculate and set up parity, if parity check is enabled by the CTRL register. 31: parity for bits 19:15 30: parity fo + bits 14:10 29: parity for bits 9:5 28: parity for bits 27, 4:0*/ +#undef LPD_XPPU_CFG_APERPERM_152_PARITY_DEFVAL +#undef LPD_XPPU_CFG_APERPERM_152_PARITY_SHIFT +#undef LPD_XPPU_CFG_APERPERM_152_PARITY_MASK +#define LPD_XPPU_CFG_APERPERM_152_PARITY_DEFVAL 0x00000000 +#define LPD_XPPU_CFG_APERPERM_152_PARITY_SHIFT 28 +#define LPD_XPPU_CFG_APERPERM_152_PARITY_MASK 0xF0000000U +#undef SERDES_PLL_REF_SEL0_OFFSET +#define SERDES_PLL_REF_SEL0_OFFSET 0XFD410000 +#undef SERDES_PLL_REF_SEL1_OFFSET +#define SERDES_PLL_REF_SEL1_OFFSET 0XFD410004 +#undef SERDES_PLL_REF_SEL2_OFFSET +#define SERDES_PLL_REF_SEL2_OFFSET 0XFD410008 +#undef SERDES_PLL_REF_SEL3_OFFSET +#define SERDES_PLL_REF_SEL3_OFFSET 0XFD41000C +#undef SERDES_L0_L0_REF_CLK_SEL_OFFSET +#define SERDES_L0_L0_REF_CLK_SEL_OFFSET 0XFD402860 +#undef SERDES_L0_L1_REF_CLK_SEL_OFFSET +#define SERDES_L0_L1_REF_CLK_SEL_OFFSET 0XFD402864 +#undef SERDES_L0_L2_REF_CLK_SEL_OFFSET +#define SERDES_L0_L2_REF_CLK_SEL_OFFSET 0XFD402868 +#undef SERDES_L0_L3_REF_CLK_SEL_OFFSET +#define SERDES_L0_L3_REF_CLK_SEL_OFFSET 0XFD40286C +#undef SERDES_L2_TM_PLL_DIG_37_OFFSET +#define SERDES_L2_TM_PLL_DIG_37_OFFSET 0XFD40A094 +#undef SERDES_L2_PLL_SS_STEPS_0_LSB_OFFSET +#define SERDES_L2_PLL_SS_STEPS_0_LSB_OFFSET 0XFD40A368 +#undef SERDES_L2_PLL_SS_STEPS_1_MSB_OFFSET +#define SERDES_L2_PLL_SS_STEPS_1_MSB_OFFSET 0XFD40A36C +#undef SERDES_L3_PLL_SS_STEPS_0_LSB_OFFSET +#define SERDES_L3_PLL_SS_STEPS_0_LSB_OFFSET 0XFD40E368 +#undef SERDES_L3_PLL_SS_STEPS_1_MSB_OFFSET +#define SERDES_L3_PLL_SS_STEPS_1_MSB_OFFSET 0XFD40E36C +#undef SERDES_L0_PLL_SS_STEPS_0_LSB_OFFSET +#define SERDES_L0_PLL_SS_STEPS_0_LSB_OFFSET 0XFD402368 +#undef SERDES_L0_PLL_SS_STEPS_1_MSB_OFFSET +#define SERDES_L0_PLL_SS_STEPS_1_MSB_OFFSET 0XFD40236C +#undef SERDES_L1_PLL_SS_STEPS_0_LSB_OFFSET +#define SERDES_L1_PLL_SS_STEPS_0_LSB_OFFSET 0XFD406368 +#undef SERDES_L1_PLL_SS_STEPS_1_MSB_OFFSET +#define SERDES_L1_PLL_SS_STEPS_1_MSB_OFFSET 0XFD40636C +#undef SERDES_L0_PLL_SS_STEP_SIZE_0_LSB_OFFSET +#define SERDES_L0_PLL_SS_STEP_SIZE_0_LSB_OFFSET 0XFD402370 +#undef SERDES_L0_PLL_SS_STEP_SIZE_1_OFFSET +#define SERDES_L0_PLL_SS_STEP_SIZE_1_OFFSET 0XFD402374 +#undef SERDES_L0_PLL_SS_STEP_SIZE_2_OFFSET +#define SERDES_L0_PLL_SS_STEP_SIZE_2_OFFSET 0XFD402378 +#undef SERDES_L0_PLL_SS_STEP_SIZE_3_MSB_OFFSET +#define SERDES_L0_PLL_SS_STEP_SIZE_3_MSB_OFFSET 0XFD40237C +#undef SERDES_L1_PLL_SS_STEP_SIZE_0_LSB_OFFSET +#define SERDES_L1_PLL_SS_STEP_SIZE_0_LSB_OFFSET 0XFD406370 +#undef SERDES_L1_PLL_SS_STEP_SIZE_1_OFFSET +#define SERDES_L1_PLL_SS_STEP_SIZE_1_OFFSET 0XFD406374 +#undef SERDES_L1_PLL_SS_STEP_SIZE_2_OFFSET +#define SERDES_L1_PLL_SS_STEP_SIZE_2_OFFSET 0XFD406378 +#undef SERDES_L1_PLL_SS_STEP_SIZE_3_MSB_OFFSET +#define SERDES_L1_PLL_SS_STEP_SIZE_3_MSB_OFFSET 0XFD40637C +#undef SERDES_L2_PLL_SS_STEP_SIZE_0_LSB_OFFSET +#define SERDES_L2_PLL_SS_STEP_SIZE_0_LSB_OFFSET 0XFD40A370 +#undef SERDES_L2_PLL_SS_STEP_SIZE_1_OFFSET +#define SERDES_L2_PLL_SS_STEP_SIZE_1_OFFSET 0XFD40A374 +#undef SERDES_L2_PLL_SS_STEP_SIZE_2_OFFSET +#define SERDES_L2_PLL_SS_STEP_SIZE_2_OFFSET 0XFD40A378 +#undef SERDES_L2_PLL_SS_STEP_SIZE_3_MSB_OFFSET +#define SERDES_L2_PLL_SS_STEP_SIZE_3_MSB_OFFSET 0XFD40A37C +#undef SERDES_L3_PLL_SS_STEP_SIZE_0_LSB_OFFSET +#define SERDES_L3_PLL_SS_STEP_SIZE_0_LSB_OFFSET 0XFD40E370 +#undef SERDES_L3_PLL_SS_STEP_SIZE_1_OFFSET +#define SERDES_L3_PLL_SS_STEP_SIZE_1_OFFSET 0XFD40E374 +#undef SERDES_L3_PLL_SS_STEP_SIZE_2_OFFSET +#define SERDES_L3_PLL_SS_STEP_SIZE_2_OFFSET 0XFD40E378 +#undef SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_OFFSET +#define SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_OFFSET 0XFD40E37C +#undef SERDES_L2_TM_DIG_6_OFFSET +#define SERDES_L2_TM_DIG_6_OFFSET 0XFD40906C +#undef SERDES_L2_TX_DIG_TM_61_OFFSET +#define SERDES_L2_TX_DIG_TM_61_OFFSET 0XFD4080F4 +#undef SERDES_L3_PLL_FBDIV_FRAC_3_MSB_OFFSET +#define SERDES_L3_PLL_FBDIV_FRAC_3_MSB_OFFSET 0XFD40E360 +#undef SERDES_L3_TM_DIG_6_OFFSET +#define SERDES_L3_TM_DIG_6_OFFSET 0XFD40D06C +#undef SERDES_L3_TX_DIG_TM_61_OFFSET +#define SERDES_L3_TX_DIG_TM_61_OFFSET 0XFD40C0F4 +#undef SERDES_L3_TXPMA_ST_0_OFFSET +#define SERDES_L3_TXPMA_ST_0_OFFSET 0XFD40CB00 +#undef SERDES_L2_TM_AUX_0_OFFSET +#define SERDES_L2_TM_AUX_0_OFFSET 0XFD4090CC +#undef SERDES_L0_TM_DIG_8_OFFSET +#define SERDES_L0_TM_DIG_8_OFFSET 0XFD401074 +#undef SERDES_L1_TM_DIG_8_OFFSET +#define SERDES_L1_TM_DIG_8_OFFSET 0XFD405074 +#undef SERDES_L2_TM_DIG_8_OFFSET +#define SERDES_L2_TM_DIG_8_OFFSET 0XFD409074 +#undef SERDES_L3_TM_DIG_8_OFFSET +#define SERDES_L3_TM_DIG_8_OFFSET 0XFD40D074 +#undef SERDES_L2_TM_MISC2_OFFSET +#define SERDES_L2_TM_MISC2_OFFSET 0XFD40989C +#undef SERDES_L2_TM_IQ_ILL1_OFFSET +#define SERDES_L2_TM_IQ_ILL1_OFFSET 0XFD4098F8 +#undef SERDES_L2_TM_IQ_ILL2_OFFSET +#define SERDES_L2_TM_IQ_ILL2_OFFSET 0XFD4098FC +#undef SERDES_L2_TM_ILL12_OFFSET +#define SERDES_L2_TM_ILL12_OFFSET 0XFD409990 +#undef SERDES_L2_TM_E_ILL1_OFFSET +#define SERDES_L2_TM_E_ILL1_OFFSET 0XFD409924 +#undef SERDES_L2_TM_E_ILL2_OFFSET +#define SERDES_L2_TM_E_ILL2_OFFSET 0XFD409928 +#undef SERDES_L2_TM_IQ_ILL3_OFFSET +#define SERDES_L2_TM_IQ_ILL3_OFFSET 0XFD409900 +#undef SERDES_L2_TM_E_ILL3_OFFSET +#define SERDES_L2_TM_E_ILL3_OFFSET 0XFD40992C +#undef SERDES_L2_TM_ILL8_OFFSET +#define SERDES_L2_TM_ILL8_OFFSET 0XFD409980 +#undef SERDES_L2_TM_IQ_ILL8_OFFSET +#define SERDES_L2_TM_IQ_ILL8_OFFSET 0XFD409914 +#undef SERDES_L2_TM_IQ_ILL9_OFFSET +#define SERDES_L2_TM_IQ_ILL9_OFFSET 0XFD409918 +#undef SERDES_L2_TM_E_ILL8_OFFSET +#define SERDES_L2_TM_E_ILL8_OFFSET 0XFD409940 +#undef SERDES_L2_TM_E_ILL9_OFFSET +#define SERDES_L2_TM_E_ILL9_OFFSET 0XFD409944 +#undef SERDES_L3_TM_MISC2_OFFSET +#define SERDES_L3_TM_MISC2_OFFSET 0XFD40D89C +#undef SERDES_L3_TM_IQ_ILL1_OFFSET +#define SERDES_L3_TM_IQ_ILL1_OFFSET 0XFD40D8F8 +#undef SERDES_L3_TM_IQ_ILL2_OFFSET +#define SERDES_L3_TM_IQ_ILL2_OFFSET 0XFD40D8FC +#undef SERDES_L3_TM_ILL12_OFFSET +#define SERDES_L3_TM_ILL12_OFFSET 0XFD40D990 +#undef SERDES_L3_TM_E_ILL1_OFFSET +#define SERDES_L3_TM_E_ILL1_OFFSET 0XFD40D924 +#undef SERDES_L3_TM_E_ILL2_OFFSET +#define SERDES_L3_TM_E_ILL2_OFFSET 0XFD40D928 +#undef SERDES_L3_TM_ILL11_OFFSET +#define SERDES_L3_TM_ILL11_OFFSET 0XFD40D98C +#undef SERDES_L3_TM_IQ_ILL3_OFFSET +#define SERDES_L3_TM_IQ_ILL3_OFFSET 0XFD40D900 +#undef SERDES_L3_TM_E_ILL3_OFFSET +#define SERDES_L3_TM_E_ILL3_OFFSET 0XFD40D92C +#undef SERDES_L3_TM_ILL8_OFFSET +#define SERDES_L3_TM_ILL8_OFFSET 0XFD40D980 +#undef SERDES_L3_TM_IQ_ILL8_OFFSET +#define SERDES_L3_TM_IQ_ILL8_OFFSET 0XFD40D914 +#undef SERDES_L3_TM_IQ_ILL9_OFFSET +#define SERDES_L3_TM_IQ_ILL9_OFFSET 0XFD40D918 +#undef SERDES_L3_TM_E_ILL8_OFFSET +#define SERDES_L3_TM_E_ILL8_OFFSET 0XFD40D940 +#undef SERDES_L3_TM_E_ILL9_OFFSET +#define SERDES_L3_TM_E_ILL9_OFFSET 0XFD40D944 +#undef SERDES_L0_TM_RST_DLY_OFFSET +#define SERDES_L0_TM_RST_DLY_OFFSET 0XFD4019A4 +#undef SERDES_L0_TM_ANA_BYP_15_OFFSET +#define SERDES_L0_TM_ANA_BYP_15_OFFSET 0XFD401038 +#undef SERDES_L0_TM_ANA_BYP_12_OFFSET +#define SERDES_L0_TM_ANA_BYP_12_OFFSET 0XFD40102C +#undef SERDES_L1_TM_RST_DLY_OFFSET +#define SERDES_L1_TM_RST_DLY_OFFSET 0XFD4059A4 +#undef SERDES_L1_TM_ANA_BYP_15_OFFSET +#define SERDES_L1_TM_ANA_BYP_15_OFFSET 0XFD405038 +#undef SERDES_L1_TM_ANA_BYP_12_OFFSET +#define SERDES_L1_TM_ANA_BYP_12_OFFSET 0XFD40502C +#undef SERDES_L2_TM_RST_DLY_OFFSET +#define SERDES_L2_TM_RST_DLY_OFFSET 0XFD4099A4 +#undef SERDES_L2_TM_ANA_BYP_15_OFFSET +#define SERDES_L2_TM_ANA_BYP_15_OFFSET 0XFD409038 +#undef SERDES_L2_TM_ANA_BYP_12_OFFSET +#define SERDES_L2_TM_ANA_BYP_12_OFFSET 0XFD40902C +#undef SERDES_L3_TM_RST_DLY_OFFSET +#define SERDES_L3_TM_RST_DLY_OFFSET 0XFD40D9A4 +#undef SERDES_L3_TM_ANA_BYP_15_OFFSET +#define SERDES_L3_TM_ANA_BYP_15_OFFSET 0XFD40D038 +#undef SERDES_L3_TM_ANA_BYP_12_OFFSET +#define SERDES_L3_TM_ANA_BYP_12_OFFSET 0XFD40D02C +#undef SERDES_ICM_CFG0_OFFSET +#define SERDES_ICM_CFG0_OFFSET 0XFD410010 +#undef SERDES_ICM_CFG1_OFFSET +#define SERDES_ICM_CFG1_OFFSET 0XFD410014 +#undef SERDES_L0_TXPMD_TM_45_OFFSET +#define SERDES_L0_TXPMD_TM_45_OFFSET 0XFD400CB4 +#undef SERDES_L1_TXPMD_TM_45_OFFSET +#define SERDES_L1_TXPMD_TM_45_OFFSET 0XFD404CB4 +#undef SERDES_L0_TX_ANA_TM_118_OFFSET +#define SERDES_L0_TX_ANA_TM_118_OFFSET 0XFD4001D8 +#undef SERDES_L1_TX_ANA_TM_118_OFFSET +#define SERDES_L1_TX_ANA_TM_118_OFFSET 0XFD4041D8 +#undef SERDES_L3_TX_ANA_TM_118_OFFSET +#define SERDES_L3_TX_ANA_TM_118_OFFSET 0XFD40C1D8 +#undef SERDES_L3_TM_CDR5_OFFSET +#define SERDES_L3_TM_CDR5_OFFSET 0XFD40DC14 +#undef SERDES_L3_TM_CDR16_OFFSET +#define SERDES_L3_TM_CDR16_OFFSET 0XFD40DC40 +#undef SERDES_L3_TM_EQ0_OFFSET +#define SERDES_L3_TM_EQ0_OFFSET 0XFD40D94C +#undef SERDES_L3_TM_EQ1_OFFSET +#define SERDES_L3_TM_EQ1_OFFSET 0XFD40D950 +#undef SERDES_L1_TXPMD_TM_48_OFFSET +#define SERDES_L1_TXPMD_TM_48_OFFSET 0XFD404CC0 +#undef SERDES_L0_TXPMD_TM_48_OFFSET +#define SERDES_L0_TXPMD_TM_48_OFFSET 0XFD400CC0 +#undef SERDES_L1_TX_ANA_TM_18_OFFSET +#define SERDES_L1_TX_ANA_TM_18_OFFSET 0XFD404048 +#undef SERDES_L0_TX_ANA_TM_18_OFFSET +#define SERDES_L0_TX_ANA_TM_18_OFFSET 0XFD400048 +#undef SERDES_L3_TX_ANA_TM_18_OFFSET +#define SERDES_L3_TX_ANA_TM_18_OFFSET 0XFD40C048 + +/*PLL0 Reference Selection. 0x0 - 5MHz, 0x1 - 9.6MHz, 0x2 - 10MHz, 0x3 - 12MHz, 0x4 - 13MHz, 0x5 - 19.2MHz, 0x6 - 20MHz, 0x7 - + 4MHz, 0x8 - 26MHz, 0x9 - 27MHz, 0xA - 38.4MHz, 0xB - 40MHz, 0xC - 52MHz, 0xD - 100MHz, 0xE - 108MHz, 0xF - 125MHz, 0x10 - 135 + Hz, 0x11 - 150 MHz. 0x12 to 0x1F - Reserved*/ +#undef SERDES_PLL_REF_SEL0_PLLREFSEL0_DEFVAL +#undef SERDES_PLL_REF_SEL0_PLLREFSEL0_SHIFT +#undef SERDES_PLL_REF_SEL0_PLLREFSEL0_MASK +#define SERDES_PLL_REF_SEL0_PLLREFSEL0_DEFVAL 0x0000000D +#define SERDES_PLL_REF_SEL0_PLLREFSEL0_SHIFT 0 +#define SERDES_PLL_REF_SEL0_PLLREFSEL0_MASK 0x0000001FU + +/*PLL1 Reference Selection. 0x0 - 5MHz, 0x1 - 9.6MHz, 0x2 - 10MHz, 0x3 - 12MHz, 0x4 - 13MHz, 0x5 - 19.2MHz, 0x6 - 20MHz, 0x7 - + 4MHz, 0x8 - 26MHz, 0x9 - 27MHz, 0xA - 38.4MHz, 0xB - 40MHz, 0xC - 52MHz, 0xD - 100MHz, 0xE - 108MHz, 0xF - 125MHz, 0x10 - 135 + Hz, 0x11 - 150 MHz. 0x12 to 0x1F - Reserved*/ +#undef SERDES_PLL_REF_SEL1_PLLREFSEL1_DEFVAL +#undef SERDES_PLL_REF_SEL1_PLLREFSEL1_SHIFT +#undef SERDES_PLL_REF_SEL1_PLLREFSEL1_MASK +#define SERDES_PLL_REF_SEL1_PLLREFSEL1_DEFVAL 0x00000008 +#define SERDES_PLL_REF_SEL1_PLLREFSEL1_SHIFT 0 +#define SERDES_PLL_REF_SEL1_PLLREFSEL1_MASK 0x0000001FU + +/*PLL2 Reference Selection. 0x0 - 5MHz, 0x1 - 9.6MHz, 0x2 - 10MHz, 0x3 - 12MHz, 0x4 - 13MHz, 0x5 - 19.2MHz, 0x6 - 20MHz, 0x7 - + 4MHz, 0x8 - 26MHz, 0x9 - 27MHz, 0xA - 38.4MHz, 0xB - 40MHz, 0xC - 52MHz, 0xD - 100MHz, 0xE - 108MHz, 0xF - 125MHz, 0x10 - 135 + Hz, 0x11 - 150 MHz. 0x12 to 0x1F - Reserved*/ +#undef SERDES_PLL_REF_SEL2_PLLREFSEL2_DEFVAL +#undef SERDES_PLL_REF_SEL2_PLLREFSEL2_SHIFT +#undef SERDES_PLL_REF_SEL2_PLLREFSEL2_MASK +#define SERDES_PLL_REF_SEL2_PLLREFSEL2_DEFVAL 0x0000000F +#define SERDES_PLL_REF_SEL2_PLLREFSEL2_SHIFT 0 +#define SERDES_PLL_REF_SEL2_PLLREFSEL2_MASK 0x0000001FU + +/*PLL3 Reference Selection. 0x0 - 5MHz, 0x1 - 9.6MHz, 0x2 - 10MHz, 0x3 - 12MHz, 0x4 - 13MHz, 0x5 - 19.2MHz, 0x6 - 20MHz, 0x7 - + 4MHz, 0x8 - 26MHz, 0x9 - 27MHz, 0xA - 38.4MHz, 0xB - 40MHz, 0xC - 52MHz, 0xD - 100MHz, 0xE - 108MHz, 0xF - 125MHz, 0x10 - 135 + Hz, 0x11 - 150 MHz. 0x12 to 0x1F - Reserved*/ +#undef SERDES_PLL_REF_SEL3_PLLREFSEL3_DEFVAL +#undef SERDES_PLL_REF_SEL3_PLLREFSEL3_SHIFT +#undef SERDES_PLL_REF_SEL3_PLLREFSEL3_MASK +#define SERDES_PLL_REF_SEL3_PLLREFSEL3_DEFVAL 0x0000000E +#define SERDES_PLL_REF_SEL3_PLLREFSEL3_SHIFT 0 +#define SERDES_PLL_REF_SEL3_PLLREFSEL3_MASK 0x0000001FU + +/*Sel of lane 0 ref clock local mux. Set to 1 to select lane 0 slicer output. Set to 0 to select lane0 ref clock mux output.*/ +#undef SERDES_L0_L0_REF_CLK_SEL_L0_REF_CLK_LCL_SEL_DEFVAL +#undef SERDES_L0_L0_REF_CLK_SEL_L0_REF_CLK_LCL_SEL_SHIFT +#undef SERDES_L0_L0_REF_CLK_SEL_L0_REF_CLK_LCL_SEL_MASK +#define SERDES_L0_L0_REF_CLK_SEL_L0_REF_CLK_LCL_SEL_DEFVAL 0x00000080 +#define SERDES_L0_L0_REF_CLK_SEL_L0_REF_CLK_LCL_SEL_SHIFT 7 +#define SERDES_L0_L0_REF_CLK_SEL_L0_REF_CLK_LCL_SEL_MASK 0x00000080U + +/*Bit 3 of lane 0 ref clock mux one hot sel. Set to 1 to select lane 3 slicer output from ref clock network*/ +#undef SERDES_L0_L0_REF_CLK_SEL_L0_REF_CLK_SEL_3_DEFVAL +#undef SERDES_L0_L0_REF_CLK_SEL_L0_REF_CLK_SEL_3_SHIFT +#undef SERDES_L0_L0_REF_CLK_SEL_L0_REF_CLK_SEL_3_MASK +#define SERDES_L0_L0_REF_CLK_SEL_L0_REF_CLK_SEL_3_DEFVAL 0x00000080 +#define SERDES_L0_L0_REF_CLK_SEL_L0_REF_CLK_SEL_3_SHIFT 3 +#define SERDES_L0_L0_REF_CLK_SEL_L0_REF_CLK_SEL_3_MASK 0x00000008U + +/*Sel of lane 1 ref clock local mux. Set to 1 to select lane 1 slicer output. Set to 0 to select lane1 ref clock mux output.*/ +#undef SERDES_L0_L1_REF_CLK_SEL_L1_REF_CLK_LCL_SEL_DEFVAL +#undef SERDES_L0_L1_REF_CLK_SEL_L1_REF_CLK_LCL_SEL_SHIFT +#undef SERDES_L0_L1_REF_CLK_SEL_L1_REF_CLK_LCL_SEL_MASK +#define SERDES_L0_L1_REF_CLK_SEL_L1_REF_CLK_LCL_SEL_DEFVAL 0x00000080 +#define SERDES_L0_L1_REF_CLK_SEL_L1_REF_CLK_LCL_SEL_SHIFT 7 +#define SERDES_L0_L1_REF_CLK_SEL_L1_REF_CLK_LCL_SEL_MASK 0x00000080U + +/*Bit 3 of lane 1 ref clock mux one hot sel. Set to 1 to select lane 3 slicer output from ref clock network*/ +#undef SERDES_L0_L1_REF_CLK_SEL_L1_REF_CLK_SEL_3_DEFVAL +#undef SERDES_L0_L1_REF_CLK_SEL_L1_REF_CLK_SEL_3_SHIFT +#undef SERDES_L0_L1_REF_CLK_SEL_L1_REF_CLK_SEL_3_MASK +#define SERDES_L0_L1_REF_CLK_SEL_L1_REF_CLK_SEL_3_DEFVAL 0x00000080 +#define SERDES_L0_L1_REF_CLK_SEL_L1_REF_CLK_SEL_3_SHIFT 3 +#define SERDES_L0_L1_REF_CLK_SEL_L1_REF_CLK_SEL_3_MASK 0x00000008U + +/*Sel of lane 2 ref clock local mux. Set to 1 to select lane 1 slicer output. Set to 0 to select lane2 ref clock mux output.*/ +#undef SERDES_L0_L2_REF_CLK_SEL_L2_REF_CLK_LCL_SEL_DEFVAL +#undef SERDES_L0_L2_REF_CLK_SEL_L2_REF_CLK_LCL_SEL_SHIFT +#undef SERDES_L0_L2_REF_CLK_SEL_L2_REF_CLK_LCL_SEL_MASK +#define SERDES_L0_L2_REF_CLK_SEL_L2_REF_CLK_LCL_SEL_DEFVAL 0x00000080 +#define SERDES_L0_L2_REF_CLK_SEL_L2_REF_CLK_LCL_SEL_SHIFT 7 +#define SERDES_L0_L2_REF_CLK_SEL_L2_REF_CLK_LCL_SEL_MASK 0x00000080U + +/*Sel of lane 3 ref clock local mux. Set to 1 to select lane 3 slicer output. Set to 0 to select lane3 ref clock mux output.*/ +#undef SERDES_L0_L3_REF_CLK_SEL_L3_REF_CLK_LCL_SEL_DEFVAL +#undef SERDES_L0_L3_REF_CLK_SEL_L3_REF_CLK_LCL_SEL_SHIFT +#undef SERDES_L0_L3_REF_CLK_SEL_L3_REF_CLK_LCL_SEL_MASK +#define SERDES_L0_L3_REF_CLK_SEL_L3_REF_CLK_LCL_SEL_DEFVAL 0x00000080 +#define SERDES_L0_L3_REF_CLK_SEL_L3_REF_CLK_LCL_SEL_SHIFT 7 +#define SERDES_L0_L3_REF_CLK_SEL_L3_REF_CLK_LCL_SEL_MASK 0x00000080U + +/*Bit 1 of lane 3 ref clock mux one hot sel. Set to 1 to select lane 1 slicer output from ref clock network*/ +#undef SERDES_L0_L3_REF_CLK_SEL_L3_REF_CLK_SEL_1_DEFVAL +#undef SERDES_L0_L3_REF_CLK_SEL_L3_REF_CLK_SEL_1_SHIFT +#undef SERDES_L0_L3_REF_CLK_SEL_L3_REF_CLK_SEL_1_MASK +#define SERDES_L0_L3_REF_CLK_SEL_L3_REF_CLK_SEL_1_DEFVAL 0x00000080 +#define SERDES_L0_L3_REF_CLK_SEL_L3_REF_CLK_SEL_1_SHIFT 1 +#define SERDES_L0_L3_REF_CLK_SEL_L3_REF_CLK_SEL_1_MASK 0x00000002U + +/*Enable/Disable coarse code satureation limiting logic*/ +#undef SERDES_L2_TM_PLL_DIG_37_TM_ENABLE_COARSE_SATURATION_DEFVAL +#undef SERDES_L2_TM_PLL_DIG_37_TM_ENABLE_COARSE_SATURATION_SHIFT +#undef SERDES_L2_TM_PLL_DIG_37_TM_ENABLE_COARSE_SATURATION_MASK +#define SERDES_L2_TM_PLL_DIG_37_TM_ENABLE_COARSE_SATURATION_DEFVAL 0x00000000 +#define SERDES_L2_TM_PLL_DIG_37_TM_ENABLE_COARSE_SATURATION_SHIFT 4 +#define SERDES_L2_TM_PLL_DIG_37_TM_ENABLE_COARSE_SATURATION_MASK 0x00000010U + +/*Spread Spectrum No of Steps [7:0]*/ +#undef SERDES_L2_PLL_SS_STEPS_0_LSB_SS_NUM_OF_STEPS_0_LSB_DEFVAL +#undef SERDES_L2_PLL_SS_STEPS_0_LSB_SS_NUM_OF_STEPS_0_LSB_SHIFT +#undef SERDES_L2_PLL_SS_STEPS_0_LSB_SS_NUM_OF_STEPS_0_LSB_MASK +#define SERDES_L2_PLL_SS_STEPS_0_LSB_SS_NUM_OF_STEPS_0_LSB_DEFVAL 0x00000000 +#define SERDES_L2_PLL_SS_STEPS_0_LSB_SS_NUM_OF_STEPS_0_LSB_SHIFT 0 +#define SERDES_L2_PLL_SS_STEPS_0_LSB_SS_NUM_OF_STEPS_0_LSB_MASK 0x000000FFU + +/*Spread Spectrum No of Steps [10:8]*/ +#undef SERDES_L2_PLL_SS_STEPS_1_MSB_SS_NUM_OF_STEPS_1_MSB_DEFVAL +#undef SERDES_L2_PLL_SS_STEPS_1_MSB_SS_NUM_OF_STEPS_1_MSB_SHIFT +#undef SERDES_L2_PLL_SS_STEPS_1_MSB_SS_NUM_OF_STEPS_1_MSB_MASK +#define SERDES_L2_PLL_SS_STEPS_1_MSB_SS_NUM_OF_STEPS_1_MSB_DEFVAL 0x00000000 +#define SERDES_L2_PLL_SS_STEPS_1_MSB_SS_NUM_OF_STEPS_1_MSB_SHIFT 0 +#define SERDES_L2_PLL_SS_STEPS_1_MSB_SS_NUM_OF_STEPS_1_MSB_MASK 0x00000007U + +/*Spread Spectrum No of Steps [7:0]*/ +#undef SERDES_L3_PLL_SS_STEPS_0_LSB_SS_NUM_OF_STEPS_0_LSB_DEFVAL +#undef SERDES_L3_PLL_SS_STEPS_0_LSB_SS_NUM_OF_STEPS_0_LSB_SHIFT +#undef SERDES_L3_PLL_SS_STEPS_0_LSB_SS_NUM_OF_STEPS_0_LSB_MASK +#define SERDES_L3_PLL_SS_STEPS_0_LSB_SS_NUM_OF_STEPS_0_LSB_DEFVAL 0x00000000 +#define SERDES_L3_PLL_SS_STEPS_0_LSB_SS_NUM_OF_STEPS_0_LSB_SHIFT 0 +#define SERDES_L3_PLL_SS_STEPS_0_LSB_SS_NUM_OF_STEPS_0_LSB_MASK 0x000000FFU + +/*Spread Spectrum No of Steps [10:8]*/ +#undef SERDES_L3_PLL_SS_STEPS_1_MSB_SS_NUM_OF_STEPS_1_MSB_DEFVAL +#undef SERDES_L3_PLL_SS_STEPS_1_MSB_SS_NUM_OF_STEPS_1_MSB_SHIFT +#undef SERDES_L3_PLL_SS_STEPS_1_MSB_SS_NUM_OF_STEPS_1_MSB_MASK +#define SERDES_L3_PLL_SS_STEPS_1_MSB_SS_NUM_OF_STEPS_1_MSB_DEFVAL 0x00000000 +#define SERDES_L3_PLL_SS_STEPS_1_MSB_SS_NUM_OF_STEPS_1_MSB_SHIFT 0 +#define SERDES_L3_PLL_SS_STEPS_1_MSB_SS_NUM_OF_STEPS_1_MSB_MASK 0x00000007U + +/*Spread Spectrum No of Steps [7:0]*/ +#undef SERDES_L0_PLL_SS_STEPS_0_LSB_SS_NUM_OF_STEPS_0_LSB_DEFVAL +#undef SERDES_L0_PLL_SS_STEPS_0_LSB_SS_NUM_OF_STEPS_0_LSB_SHIFT +#undef SERDES_L0_PLL_SS_STEPS_0_LSB_SS_NUM_OF_STEPS_0_LSB_MASK +#define SERDES_L0_PLL_SS_STEPS_0_LSB_SS_NUM_OF_STEPS_0_LSB_DEFVAL 0x00000000 +#define SERDES_L0_PLL_SS_STEPS_0_LSB_SS_NUM_OF_STEPS_0_LSB_SHIFT 0 +#define SERDES_L0_PLL_SS_STEPS_0_LSB_SS_NUM_OF_STEPS_0_LSB_MASK 0x000000FFU + +/*Spread Spectrum No of Steps [10:8]*/ +#undef SERDES_L0_PLL_SS_STEPS_1_MSB_SS_NUM_OF_STEPS_1_MSB_DEFVAL +#undef SERDES_L0_PLL_SS_STEPS_1_MSB_SS_NUM_OF_STEPS_1_MSB_SHIFT +#undef SERDES_L0_PLL_SS_STEPS_1_MSB_SS_NUM_OF_STEPS_1_MSB_MASK +#define SERDES_L0_PLL_SS_STEPS_1_MSB_SS_NUM_OF_STEPS_1_MSB_DEFVAL 0x00000000 +#define SERDES_L0_PLL_SS_STEPS_1_MSB_SS_NUM_OF_STEPS_1_MSB_SHIFT 0 +#define SERDES_L0_PLL_SS_STEPS_1_MSB_SS_NUM_OF_STEPS_1_MSB_MASK 0x00000007U + +/*Spread Spectrum No of Steps [7:0]*/ +#undef SERDES_L1_PLL_SS_STEPS_0_LSB_SS_NUM_OF_STEPS_0_LSB_DEFVAL +#undef SERDES_L1_PLL_SS_STEPS_0_LSB_SS_NUM_OF_STEPS_0_LSB_SHIFT +#undef SERDES_L1_PLL_SS_STEPS_0_LSB_SS_NUM_OF_STEPS_0_LSB_MASK +#define SERDES_L1_PLL_SS_STEPS_0_LSB_SS_NUM_OF_STEPS_0_LSB_DEFVAL 0x00000000 +#define SERDES_L1_PLL_SS_STEPS_0_LSB_SS_NUM_OF_STEPS_0_LSB_SHIFT 0 +#define SERDES_L1_PLL_SS_STEPS_0_LSB_SS_NUM_OF_STEPS_0_LSB_MASK 0x000000FFU + +/*Spread Spectrum No of Steps [10:8]*/ +#undef SERDES_L1_PLL_SS_STEPS_1_MSB_SS_NUM_OF_STEPS_1_MSB_DEFVAL +#undef SERDES_L1_PLL_SS_STEPS_1_MSB_SS_NUM_OF_STEPS_1_MSB_SHIFT +#undef SERDES_L1_PLL_SS_STEPS_1_MSB_SS_NUM_OF_STEPS_1_MSB_MASK +#define SERDES_L1_PLL_SS_STEPS_1_MSB_SS_NUM_OF_STEPS_1_MSB_DEFVAL 0x00000000 +#define SERDES_L1_PLL_SS_STEPS_1_MSB_SS_NUM_OF_STEPS_1_MSB_SHIFT 0 +#define SERDES_L1_PLL_SS_STEPS_1_MSB_SS_NUM_OF_STEPS_1_MSB_MASK 0x00000007U + +/*Step Size for Spread Spectrum [7:0]*/ +#undef SERDES_L0_PLL_SS_STEP_SIZE_0_LSB_SS_STEP_SIZE_0_LSB_DEFVAL +#undef SERDES_L0_PLL_SS_STEP_SIZE_0_LSB_SS_STEP_SIZE_0_LSB_SHIFT +#undef SERDES_L0_PLL_SS_STEP_SIZE_0_LSB_SS_STEP_SIZE_0_LSB_MASK +#define SERDES_L0_PLL_SS_STEP_SIZE_0_LSB_SS_STEP_SIZE_0_LSB_DEFVAL 0x00000000 +#define SERDES_L0_PLL_SS_STEP_SIZE_0_LSB_SS_STEP_SIZE_0_LSB_SHIFT 0 +#define SERDES_L0_PLL_SS_STEP_SIZE_0_LSB_SS_STEP_SIZE_0_LSB_MASK 0x000000FFU + +/*Step Size for Spread Spectrum [15:8]*/ +#undef SERDES_L0_PLL_SS_STEP_SIZE_1_SS_STEP_SIZE_1_DEFVAL +#undef SERDES_L0_PLL_SS_STEP_SIZE_1_SS_STEP_SIZE_1_SHIFT +#undef SERDES_L0_PLL_SS_STEP_SIZE_1_SS_STEP_SIZE_1_MASK +#define SERDES_L0_PLL_SS_STEP_SIZE_1_SS_STEP_SIZE_1_DEFVAL 0x00000000 +#define SERDES_L0_PLL_SS_STEP_SIZE_1_SS_STEP_SIZE_1_SHIFT 0 +#define SERDES_L0_PLL_SS_STEP_SIZE_1_SS_STEP_SIZE_1_MASK 0x000000FFU + +/*Step Size for Spread Spectrum [23:16]*/ +#undef SERDES_L0_PLL_SS_STEP_SIZE_2_SS_STEP_SIZE_2_DEFVAL +#undef SERDES_L0_PLL_SS_STEP_SIZE_2_SS_STEP_SIZE_2_SHIFT +#undef SERDES_L0_PLL_SS_STEP_SIZE_2_SS_STEP_SIZE_2_MASK +#define SERDES_L0_PLL_SS_STEP_SIZE_2_SS_STEP_SIZE_2_DEFVAL 0x00000000 +#define SERDES_L0_PLL_SS_STEP_SIZE_2_SS_STEP_SIZE_2_SHIFT 0 +#define SERDES_L0_PLL_SS_STEP_SIZE_2_SS_STEP_SIZE_2_MASK 0x000000FFU + +/*Step Size for Spread Spectrum [25:24]*/ +#undef SERDES_L0_PLL_SS_STEP_SIZE_3_MSB_SS_STEP_SIZE_3_MSB_DEFVAL +#undef SERDES_L0_PLL_SS_STEP_SIZE_3_MSB_SS_STEP_SIZE_3_MSB_SHIFT +#undef SERDES_L0_PLL_SS_STEP_SIZE_3_MSB_SS_STEP_SIZE_3_MSB_MASK +#define SERDES_L0_PLL_SS_STEP_SIZE_3_MSB_SS_STEP_SIZE_3_MSB_DEFVAL 0x00000000 +#define SERDES_L0_PLL_SS_STEP_SIZE_3_MSB_SS_STEP_SIZE_3_MSB_SHIFT 0 +#define SERDES_L0_PLL_SS_STEP_SIZE_3_MSB_SS_STEP_SIZE_3_MSB_MASK 0x00000003U + +/*Enable/Disable test mode force on SS step size*/ +#undef SERDES_L0_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_STEP_SIZE_DEFVAL +#undef SERDES_L0_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_STEP_SIZE_SHIFT +#undef SERDES_L0_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_STEP_SIZE_MASK +#define SERDES_L0_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_STEP_SIZE_DEFVAL 0x00000000 +#define SERDES_L0_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_STEP_SIZE_SHIFT 4 +#define SERDES_L0_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_STEP_SIZE_MASK 0x00000010U + +/*Enable/Disable test mode force on SS no of steps*/ +#undef SERDES_L0_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_NUM_OF_STEPS_DEFVAL +#undef SERDES_L0_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_NUM_OF_STEPS_SHIFT +#undef SERDES_L0_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_NUM_OF_STEPS_MASK +#define SERDES_L0_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_NUM_OF_STEPS_DEFVAL 0x00000000 +#define SERDES_L0_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_NUM_OF_STEPS_SHIFT 5 +#define SERDES_L0_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_NUM_OF_STEPS_MASK 0x00000020U + +/*Step Size for Spread Spectrum [7:0]*/ +#undef SERDES_L1_PLL_SS_STEP_SIZE_0_LSB_SS_STEP_SIZE_0_LSB_DEFVAL +#undef SERDES_L1_PLL_SS_STEP_SIZE_0_LSB_SS_STEP_SIZE_0_LSB_SHIFT +#undef SERDES_L1_PLL_SS_STEP_SIZE_0_LSB_SS_STEP_SIZE_0_LSB_MASK +#define SERDES_L1_PLL_SS_STEP_SIZE_0_LSB_SS_STEP_SIZE_0_LSB_DEFVAL 0x00000000 +#define SERDES_L1_PLL_SS_STEP_SIZE_0_LSB_SS_STEP_SIZE_0_LSB_SHIFT 0 +#define SERDES_L1_PLL_SS_STEP_SIZE_0_LSB_SS_STEP_SIZE_0_LSB_MASK 0x000000FFU + +/*Step Size for Spread Spectrum [15:8]*/ +#undef SERDES_L1_PLL_SS_STEP_SIZE_1_SS_STEP_SIZE_1_DEFVAL +#undef SERDES_L1_PLL_SS_STEP_SIZE_1_SS_STEP_SIZE_1_SHIFT +#undef SERDES_L1_PLL_SS_STEP_SIZE_1_SS_STEP_SIZE_1_MASK +#define SERDES_L1_PLL_SS_STEP_SIZE_1_SS_STEP_SIZE_1_DEFVAL 0x00000000 +#define SERDES_L1_PLL_SS_STEP_SIZE_1_SS_STEP_SIZE_1_SHIFT 0 +#define SERDES_L1_PLL_SS_STEP_SIZE_1_SS_STEP_SIZE_1_MASK 0x000000FFU + +/*Step Size for Spread Spectrum [23:16]*/ +#undef SERDES_L1_PLL_SS_STEP_SIZE_2_SS_STEP_SIZE_2_DEFVAL +#undef SERDES_L1_PLL_SS_STEP_SIZE_2_SS_STEP_SIZE_2_SHIFT +#undef SERDES_L1_PLL_SS_STEP_SIZE_2_SS_STEP_SIZE_2_MASK +#define SERDES_L1_PLL_SS_STEP_SIZE_2_SS_STEP_SIZE_2_DEFVAL 0x00000000 +#define SERDES_L1_PLL_SS_STEP_SIZE_2_SS_STEP_SIZE_2_SHIFT 0 +#define SERDES_L1_PLL_SS_STEP_SIZE_2_SS_STEP_SIZE_2_MASK 0x000000FFU + +/*Step Size for Spread Spectrum [25:24]*/ +#undef SERDES_L1_PLL_SS_STEP_SIZE_3_MSB_SS_STEP_SIZE_3_MSB_DEFVAL +#undef SERDES_L1_PLL_SS_STEP_SIZE_3_MSB_SS_STEP_SIZE_3_MSB_SHIFT +#undef SERDES_L1_PLL_SS_STEP_SIZE_3_MSB_SS_STEP_SIZE_3_MSB_MASK +#define SERDES_L1_PLL_SS_STEP_SIZE_3_MSB_SS_STEP_SIZE_3_MSB_DEFVAL 0x00000000 +#define SERDES_L1_PLL_SS_STEP_SIZE_3_MSB_SS_STEP_SIZE_3_MSB_SHIFT 0 +#define SERDES_L1_PLL_SS_STEP_SIZE_3_MSB_SS_STEP_SIZE_3_MSB_MASK 0x00000003U + +/*Enable/Disable test mode force on SS step size*/ +#undef SERDES_L1_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_STEP_SIZE_DEFVAL +#undef SERDES_L1_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_STEP_SIZE_SHIFT +#undef SERDES_L1_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_STEP_SIZE_MASK +#define SERDES_L1_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_STEP_SIZE_DEFVAL 0x00000000 +#define SERDES_L1_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_STEP_SIZE_SHIFT 4 +#define SERDES_L1_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_STEP_SIZE_MASK 0x00000010U + +/*Enable/Disable test mode force on SS no of steps*/ +#undef SERDES_L1_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_NUM_OF_STEPS_DEFVAL +#undef SERDES_L1_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_NUM_OF_STEPS_SHIFT +#undef SERDES_L1_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_NUM_OF_STEPS_MASK +#define SERDES_L1_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_NUM_OF_STEPS_DEFVAL 0x00000000 +#define SERDES_L1_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_NUM_OF_STEPS_SHIFT 5 +#define SERDES_L1_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_NUM_OF_STEPS_MASK 0x00000020U + +/*Step Size for Spread Spectrum [7:0]*/ +#undef SERDES_L2_PLL_SS_STEP_SIZE_0_LSB_SS_STEP_SIZE_0_LSB_DEFVAL +#undef SERDES_L2_PLL_SS_STEP_SIZE_0_LSB_SS_STEP_SIZE_0_LSB_SHIFT +#undef SERDES_L2_PLL_SS_STEP_SIZE_0_LSB_SS_STEP_SIZE_0_LSB_MASK +#define SERDES_L2_PLL_SS_STEP_SIZE_0_LSB_SS_STEP_SIZE_0_LSB_DEFVAL 0x00000000 +#define SERDES_L2_PLL_SS_STEP_SIZE_0_LSB_SS_STEP_SIZE_0_LSB_SHIFT 0 +#define SERDES_L2_PLL_SS_STEP_SIZE_0_LSB_SS_STEP_SIZE_0_LSB_MASK 0x000000FFU + +/*Step Size for Spread Spectrum [15:8]*/ +#undef SERDES_L2_PLL_SS_STEP_SIZE_1_SS_STEP_SIZE_1_DEFVAL +#undef SERDES_L2_PLL_SS_STEP_SIZE_1_SS_STEP_SIZE_1_SHIFT +#undef SERDES_L2_PLL_SS_STEP_SIZE_1_SS_STEP_SIZE_1_MASK +#define SERDES_L2_PLL_SS_STEP_SIZE_1_SS_STEP_SIZE_1_DEFVAL 0x00000000 +#define SERDES_L2_PLL_SS_STEP_SIZE_1_SS_STEP_SIZE_1_SHIFT 0 +#define SERDES_L2_PLL_SS_STEP_SIZE_1_SS_STEP_SIZE_1_MASK 0x000000FFU + +/*Step Size for Spread Spectrum [23:16]*/ +#undef SERDES_L2_PLL_SS_STEP_SIZE_2_SS_STEP_SIZE_2_DEFVAL +#undef SERDES_L2_PLL_SS_STEP_SIZE_2_SS_STEP_SIZE_2_SHIFT +#undef SERDES_L2_PLL_SS_STEP_SIZE_2_SS_STEP_SIZE_2_MASK +#define SERDES_L2_PLL_SS_STEP_SIZE_2_SS_STEP_SIZE_2_DEFVAL 0x00000000 +#define SERDES_L2_PLL_SS_STEP_SIZE_2_SS_STEP_SIZE_2_SHIFT 0 +#define SERDES_L2_PLL_SS_STEP_SIZE_2_SS_STEP_SIZE_2_MASK 0x000000FFU + +/*Step Size for Spread Spectrum [25:24]*/ +#undef SERDES_L2_PLL_SS_STEP_SIZE_3_MSB_SS_STEP_SIZE_3_MSB_DEFVAL +#undef SERDES_L2_PLL_SS_STEP_SIZE_3_MSB_SS_STEP_SIZE_3_MSB_SHIFT +#undef SERDES_L2_PLL_SS_STEP_SIZE_3_MSB_SS_STEP_SIZE_3_MSB_MASK +#define SERDES_L2_PLL_SS_STEP_SIZE_3_MSB_SS_STEP_SIZE_3_MSB_DEFVAL 0x00000000 +#define SERDES_L2_PLL_SS_STEP_SIZE_3_MSB_SS_STEP_SIZE_3_MSB_SHIFT 0 +#define SERDES_L2_PLL_SS_STEP_SIZE_3_MSB_SS_STEP_SIZE_3_MSB_MASK 0x00000003U + +/*Enable/Disable test mode force on SS step size*/ +#undef SERDES_L2_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_STEP_SIZE_DEFVAL +#undef SERDES_L2_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_STEP_SIZE_SHIFT +#undef SERDES_L2_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_STEP_SIZE_MASK +#define SERDES_L2_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_STEP_SIZE_DEFVAL 0x00000000 +#define SERDES_L2_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_STEP_SIZE_SHIFT 4 +#define SERDES_L2_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_STEP_SIZE_MASK 0x00000010U + +/*Enable/Disable test mode force on SS no of steps*/ +#undef SERDES_L2_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_NUM_OF_STEPS_DEFVAL +#undef SERDES_L2_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_NUM_OF_STEPS_SHIFT +#undef SERDES_L2_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_NUM_OF_STEPS_MASK +#define SERDES_L2_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_NUM_OF_STEPS_DEFVAL 0x00000000 +#define SERDES_L2_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_NUM_OF_STEPS_SHIFT 5 +#define SERDES_L2_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_NUM_OF_STEPS_MASK 0x00000020U + +/*Step Size for Spread Spectrum [7:0]*/ +#undef SERDES_L3_PLL_SS_STEP_SIZE_0_LSB_SS_STEP_SIZE_0_LSB_DEFVAL +#undef SERDES_L3_PLL_SS_STEP_SIZE_0_LSB_SS_STEP_SIZE_0_LSB_SHIFT +#undef SERDES_L3_PLL_SS_STEP_SIZE_0_LSB_SS_STEP_SIZE_0_LSB_MASK +#define SERDES_L3_PLL_SS_STEP_SIZE_0_LSB_SS_STEP_SIZE_0_LSB_DEFVAL 0x00000000 +#define SERDES_L3_PLL_SS_STEP_SIZE_0_LSB_SS_STEP_SIZE_0_LSB_SHIFT 0 +#define SERDES_L3_PLL_SS_STEP_SIZE_0_LSB_SS_STEP_SIZE_0_LSB_MASK 0x000000FFU + +/*Step Size for Spread Spectrum [15:8]*/ +#undef SERDES_L3_PLL_SS_STEP_SIZE_1_SS_STEP_SIZE_1_DEFVAL +#undef SERDES_L3_PLL_SS_STEP_SIZE_1_SS_STEP_SIZE_1_SHIFT +#undef SERDES_L3_PLL_SS_STEP_SIZE_1_SS_STEP_SIZE_1_MASK +#define SERDES_L3_PLL_SS_STEP_SIZE_1_SS_STEP_SIZE_1_DEFVAL 0x00000000 +#define SERDES_L3_PLL_SS_STEP_SIZE_1_SS_STEP_SIZE_1_SHIFT 0 +#define SERDES_L3_PLL_SS_STEP_SIZE_1_SS_STEP_SIZE_1_MASK 0x000000FFU + +/*Step Size for Spread Spectrum [23:16]*/ +#undef SERDES_L3_PLL_SS_STEP_SIZE_2_SS_STEP_SIZE_2_DEFVAL +#undef SERDES_L3_PLL_SS_STEP_SIZE_2_SS_STEP_SIZE_2_SHIFT +#undef SERDES_L3_PLL_SS_STEP_SIZE_2_SS_STEP_SIZE_2_MASK +#define SERDES_L3_PLL_SS_STEP_SIZE_2_SS_STEP_SIZE_2_DEFVAL 0x00000000 +#define SERDES_L3_PLL_SS_STEP_SIZE_2_SS_STEP_SIZE_2_SHIFT 0 +#define SERDES_L3_PLL_SS_STEP_SIZE_2_SS_STEP_SIZE_2_MASK 0x000000FFU + +/*Step Size for Spread Spectrum [25:24]*/ +#undef SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_SS_STEP_SIZE_3_MSB_DEFVAL +#undef SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_SS_STEP_SIZE_3_MSB_SHIFT +#undef SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_SS_STEP_SIZE_3_MSB_MASK +#define SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_SS_STEP_SIZE_3_MSB_DEFVAL 0x00000000 +#define SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_SS_STEP_SIZE_3_MSB_SHIFT 0 +#define SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_SS_STEP_SIZE_3_MSB_MASK 0x00000003U + +/*Enable/Disable test mode force on SS step size*/ +#undef SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_STEP_SIZE_DEFVAL +#undef SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_STEP_SIZE_SHIFT +#undef SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_STEP_SIZE_MASK +#define SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_STEP_SIZE_DEFVAL 0x00000000 +#define SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_STEP_SIZE_SHIFT 4 +#define SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_STEP_SIZE_MASK 0x00000010U + +/*Enable/Disable test mode force on SS no of steps*/ +#undef SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_NUM_OF_STEPS_DEFVAL +#undef SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_NUM_OF_STEPS_SHIFT +#undef SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_NUM_OF_STEPS_MASK +#define SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_NUM_OF_STEPS_DEFVAL 0x00000000 +#define SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_NUM_OF_STEPS_SHIFT 5 +#define SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_NUM_OF_STEPS_MASK 0x00000020U + +/*Enable test mode forcing on enable Spread Spectrum*/ +#undef SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_TM_FORCE_EN_SS_DEFVAL +#undef SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_TM_FORCE_EN_SS_SHIFT +#undef SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_TM_FORCE_EN_SS_MASK +#define SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_TM_FORCE_EN_SS_DEFVAL 0x00000000 +#define SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_TM_FORCE_EN_SS_SHIFT 7 +#define SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_TM_FORCE_EN_SS_MASK 0x00000080U + +/*Bypass Descrambler*/ +#undef SERDES_L2_TM_DIG_6_BYPASS_DESCRAM_DEFVAL +#undef SERDES_L2_TM_DIG_6_BYPASS_DESCRAM_SHIFT +#undef SERDES_L2_TM_DIG_6_BYPASS_DESCRAM_MASK +#define SERDES_L2_TM_DIG_6_BYPASS_DESCRAM_DEFVAL 0x00000000 +#define SERDES_L2_TM_DIG_6_BYPASS_DESCRAM_SHIFT 1 +#define SERDES_L2_TM_DIG_6_BYPASS_DESCRAM_MASK 0x00000002U + +/*Enable Bypass for <1> TM_DIG_CTRL_6*/ +#undef SERDES_L2_TM_DIG_6_FORCE_BYPASS_DESCRAM_DEFVAL +#undef SERDES_L2_TM_DIG_6_FORCE_BYPASS_DESCRAM_SHIFT +#undef SERDES_L2_TM_DIG_6_FORCE_BYPASS_DESCRAM_MASK +#define SERDES_L2_TM_DIG_6_FORCE_BYPASS_DESCRAM_DEFVAL 0x00000000 +#define SERDES_L2_TM_DIG_6_FORCE_BYPASS_DESCRAM_SHIFT 0 +#define SERDES_L2_TM_DIG_6_FORCE_BYPASS_DESCRAM_MASK 0x00000001U + +/*Bypass scrambler signal*/ +#undef SERDES_L2_TX_DIG_TM_61_BYPASS_SCRAM_DEFVAL +#undef SERDES_L2_TX_DIG_TM_61_BYPASS_SCRAM_SHIFT +#undef SERDES_L2_TX_DIG_TM_61_BYPASS_SCRAM_MASK +#define SERDES_L2_TX_DIG_TM_61_BYPASS_SCRAM_DEFVAL 0x00000000 +#define SERDES_L2_TX_DIG_TM_61_BYPASS_SCRAM_SHIFT 1 +#define SERDES_L2_TX_DIG_TM_61_BYPASS_SCRAM_MASK 0x00000002U + +/*Enable/disable scrambler bypass signal*/ +#undef SERDES_L2_TX_DIG_TM_61_FORCE_BYPASS_SCRAM_DEFVAL +#undef SERDES_L2_TX_DIG_TM_61_FORCE_BYPASS_SCRAM_SHIFT +#undef SERDES_L2_TX_DIG_TM_61_FORCE_BYPASS_SCRAM_MASK +#define SERDES_L2_TX_DIG_TM_61_FORCE_BYPASS_SCRAM_DEFVAL 0x00000000 +#define SERDES_L2_TX_DIG_TM_61_FORCE_BYPASS_SCRAM_SHIFT 0 +#define SERDES_L2_TX_DIG_TM_61_FORCE_BYPASS_SCRAM_MASK 0x00000001U + +/*Enable test mode force on fractional mode enable*/ +#undef SERDES_L3_PLL_FBDIV_FRAC_3_MSB_TM_FORCE_EN_FRAC_DEFVAL +#undef SERDES_L3_PLL_FBDIV_FRAC_3_MSB_TM_FORCE_EN_FRAC_SHIFT +#undef SERDES_L3_PLL_FBDIV_FRAC_3_MSB_TM_FORCE_EN_FRAC_MASK +#define SERDES_L3_PLL_FBDIV_FRAC_3_MSB_TM_FORCE_EN_FRAC_DEFVAL 0x00000000 +#define SERDES_L3_PLL_FBDIV_FRAC_3_MSB_TM_FORCE_EN_FRAC_SHIFT 6 +#define SERDES_L3_PLL_FBDIV_FRAC_3_MSB_TM_FORCE_EN_FRAC_MASK 0x00000040U + +/*Bypass 8b10b decoder*/ +#undef SERDES_L3_TM_DIG_6_BYPASS_DECODER_DEFVAL +#undef SERDES_L3_TM_DIG_6_BYPASS_DECODER_SHIFT +#undef SERDES_L3_TM_DIG_6_BYPASS_DECODER_MASK +#define SERDES_L3_TM_DIG_6_BYPASS_DECODER_DEFVAL 0x00000000 +#define SERDES_L3_TM_DIG_6_BYPASS_DECODER_SHIFT 3 +#define SERDES_L3_TM_DIG_6_BYPASS_DECODER_MASK 0x00000008U + +/*Enable Bypass for <3> TM_DIG_CTRL_6*/ +#undef SERDES_L3_TM_DIG_6_FORCE_BYPASS_DEC_DEFVAL +#undef SERDES_L3_TM_DIG_6_FORCE_BYPASS_DEC_SHIFT +#undef SERDES_L3_TM_DIG_6_FORCE_BYPASS_DEC_MASK +#define SERDES_L3_TM_DIG_6_FORCE_BYPASS_DEC_DEFVAL 0x00000000 +#define SERDES_L3_TM_DIG_6_FORCE_BYPASS_DEC_SHIFT 2 +#define SERDES_L3_TM_DIG_6_FORCE_BYPASS_DEC_MASK 0x00000004U + +/*Bypass Descrambler*/ +#undef SERDES_L3_TM_DIG_6_BYPASS_DESCRAM_DEFVAL +#undef SERDES_L3_TM_DIG_6_BYPASS_DESCRAM_SHIFT +#undef SERDES_L3_TM_DIG_6_BYPASS_DESCRAM_MASK +#define SERDES_L3_TM_DIG_6_BYPASS_DESCRAM_DEFVAL 0x00000000 +#define SERDES_L3_TM_DIG_6_BYPASS_DESCRAM_SHIFT 1 +#define SERDES_L3_TM_DIG_6_BYPASS_DESCRAM_MASK 0x00000002U + +/*Enable Bypass for <1> TM_DIG_CTRL_6*/ +#undef SERDES_L3_TM_DIG_6_FORCE_BYPASS_DESCRAM_DEFVAL +#undef SERDES_L3_TM_DIG_6_FORCE_BYPASS_DESCRAM_SHIFT +#undef SERDES_L3_TM_DIG_6_FORCE_BYPASS_DESCRAM_MASK +#define SERDES_L3_TM_DIG_6_FORCE_BYPASS_DESCRAM_DEFVAL 0x00000000 +#define SERDES_L3_TM_DIG_6_FORCE_BYPASS_DESCRAM_SHIFT 0 +#define SERDES_L3_TM_DIG_6_FORCE_BYPASS_DESCRAM_MASK 0x00000001U + +/*Enable/disable encoder bypass signal*/ +#undef SERDES_L3_TX_DIG_TM_61_BYPASS_ENC_DEFVAL +#undef SERDES_L3_TX_DIG_TM_61_BYPASS_ENC_SHIFT +#undef SERDES_L3_TX_DIG_TM_61_BYPASS_ENC_MASK +#define SERDES_L3_TX_DIG_TM_61_BYPASS_ENC_DEFVAL 0x00000000 +#define SERDES_L3_TX_DIG_TM_61_BYPASS_ENC_SHIFT 3 +#define SERDES_L3_TX_DIG_TM_61_BYPASS_ENC_MASK 0x00000008U + +/*Bypass scrambler signal*/ +#undef SERDES_L3_TX_DIG_TM_61_BYPASS_SCRAM_DEFVAL +#undef SERDES_L3_TX_DIG_TM_61_BYPASS_SCRAM_SHIFT +#undef SERDES_L3_TX_DIG_TM_61_BYPASS_SCRAM_MASK +#define SERDES_L3_TX_DIG_TM_61_BYPASS_SCRAM_DEFVAL 0x00000000 +#define SERDES_L3_TX_DIG_TM_61_BYPASS_SCRAM_SHIFT 1 +#define SERDES_L3_TX_DIG_TM_61_BYPASS_SCRAM_MASK 0x00000002U + +/*Enable/disable scrambler bypass signal*/ +#undef SERDES_L3_TX_DIG_TM_61_FORCE_BYPASS_SCRAM_DEFVAL +#undef SERDES_L3_TX_DIG_TM_61_FORCE_BYPASS_SCRAM_SHIFT +#undef SERDES_L3_TX_DIG_TM_61_FORCE_BYPASS_SCRAM_MASK +#define SERDES_L3_TX_DIG_TM_61_FORCE_BYPASS_SCRAM_DEFVAL 0x00000000 +#define SERDES_L3_TX_DIG_TM_61_FORCE_BYPASS_SCRAM_SHIFT 0 +#define SERDES_L3_TX_DIG_TM_61_FORCE_BYPASS_SCRAM_MASK 0x00000001U + +/*PHY Mode: 4'b000 - PCIe, 4'b001 - USB3, 4'b0010 - SATA, 4'b0100 - SGMII, 4'b0101 - DP, 4'b1000 - MPHY*/ +#undef SERDES_L3_TXPMA_ST_0_TX_PHY_MODE_DEFVAL +#undef SERDES_L3_TXPMA_ST_0_TX_PHY_MODE_SHIFT +#undef SERDES_L3_TXPMA_ST_0_TX_PHY_MODE_MASK +#define SERDES_L3_TXPMA_ST_0_TX_PHY_MODE_DEFVAL 0x00000001 +#define SERDES_L3_TXPMA_ST_0_TX_PHY_MODE_SHIFT 4 +#define SERDES_L3_TXPMA_ST_0_TX_PHY_MODE_MASK 0x000000F0U + +/*Spare- not used*/ +#undef SERDES_L2_TM_AUX_0_BIT_2_DEFVAL +#undef SERDES_L2_TM_AUX_0_BIT_2_SHIFT +#undef SERDES_L2_TM_AUX_0_BIT_2_MASK +#define SERDES_L2_TM_AUX_0_BIT_2_DEFVAL 0x00000000 +#define SERDES_L2_TM_AUX_0_BIT_2_SHIFT 5 +#define SERDES_L2_TM_AUX_0_BIT_2_MASK 0x00000020U + +/*Enable Eye Surf*/ +#undef SERDES_L0_TM_DIG_8_EYESURF_ENABLE_DEFVAL +#undef SERDES_L0_TM_DIG_8_EYESURF_ENABLE_SHIFT +#undef SERDES_L0_TM_DIG_8_EYESURF_ENABLE_MASK +#define SERDES_L0_TM_DIG_8_EYESURF_ENABLE_DEFVAL 0x00000000 +#define SERDES_L0_TM_DIG_8_EYESURF_ENABLE_SHIFT 4 +#define SERDES_L0_TM_DIG_8_EYESURF_ENABLE_MASK 0x00000010U + +/*Enable Eye Surf*/ +#undef SERDES_L1_TM_DIG_8_EYESURF_ENABLE_DEFVAL +#undef SERDES_L1_TM_DIG_8_EYESURF_ENABLE_SHIFT +#undef SERDES_L1_TM_DIG_8_EYESURF_ENABLE_MASK +#define SERDES_L1_TM_DIG_8_EYESURF_ENABLE_DEFVAL 0x00000000 +#define SERDES_L1_TM_DIG_8_EYESURF_ENABLE_SHIFT 4 +#define SERDES_L1_TM_DIG_8_EYESURF_ENABLE_MASK 0x00000010U + +/*Enable Eye Surf*/ +#undef SERDES_L2_TM_DIG_8_EYESURF_ENABLE_DEFVAL +#undef SERDES_L2_TM_DIG_8_EYESURF_ENABLE_SHIFT +#undef SERDES_L2_TM_DIG_8_EYESURF_ENABLE_MASK +#define SERDES_L2_TM_DIG_8_EYESURF_ENABLE_DEFVAL 0x00000000 +#define SERDES_L2_TM_DIG_8_EYESURF_ENABLE_SHIFT 4 +#define SERDES_L2_TM_DIG_8_EYESURF_ENABLE_MASK 0x00000010U + +/*Enable Eye Surf*/ +#undef SERDES_L3_TM_DIG_8_EYESURF_ENABLE_DEFVAL +#undef SERDES_L3_TM_DIG_8_EYESURF_ENABLE_SHIFT +#undef SERDES_L3_TM_DIG_8_EYESURF_ENABLE_MASK +#define SERDES_L3_TM_DIG_8_EYESURF_ENABLE_DEFVAL 0x00000000 +#define SERDES_L3_TM_DIG_8_EYESURF_ENABLE_SHIFT 4 +#define SERDES_L3_TM_DIG_8_EYESURF_ENABLE_MASK 0x00000010U + +/*ILL calib counts BYPASSED with calcode bits*/ +#undef SERDES_L2_TM_MISC2_ILL_CAL_BYPASS_COUNTS_DEFVAL +#undef SERDES_L2_TM_MISC2_ILL_CAL_BYPASS_COUNTS_SHIFT +#undef SERDES_L2_TM_MISC2_ILL_CAL_BYPASS_COUNTS_MASK +#define SERDES_L2_TM_MISC2_ILL_CAL_BYPASS_COUNTS_DEFVAL 0x00000000 +#define SERDES_L2_TM_MISC2_ILL_CAL_BYPASS_COUNTS_SHIFT 7 +#define SERDES_L2_TM_MISC2_ILL_CAL_BYPASS_COUNTS_MASK 0x00000080U + +/*IQ ILL F0 CALCODE bypass value. MPHY : G1a, PCIE : Gen 1, SATA : Gen1 , USB3 : SS*/ +#undef SERDES_L2_TM_IQ_ILL1_ILL_BYPASS_IQ_CALCODE_F0_DEFVAL +#undef SERDES_L2_TM_IQ_ILL1_ILL_BYPASS_IQ_CALCODE_F0_SHIFT +#undef SERDES_L2_TM_IQ_ILL1_ILL_BYPASS_IQ_CALCODE_F0_MASK +#define SERDES_L2_TM_IQ_ILL1_ILL_BYPASS_IQ_CALCODE_F0_DEFVAL 0x00000000 +#define SERDES_L2_TM_IQ_ILL1_ILL_BYPASS_IQ_CALCODE_F0_SHIFT 0 +#define SERDES_L2_TM_IQ_ILL1_ILL_BYPASS_IQ_CALCODE_F0_MASK 0x000000FFU + +/*IQ ILL F1 CALCODE bypass value. MPHY : G1b, PCIE : Gen2, SATA: Gen2*/ +#undef SERDES_L2_TM_IQ_ILL2_ILL_BYPASS_IQ_CALCODE_F1_DEFVAL +#undef SERDES_L2_TM_IQ_ILL2_ILL_BYPASS_IQ_CALCODE_F1_SHIFT +#undef SERDES_L2_TM_IQ_ILL2_ILL_BYPASS_IQ_CALCODE_F1_MASK +#define SERDES_L2_TM_IQ_ILL2_ILL_BYPASS_IQ_CALCODE_F1_DEFVAL 0x00000000 +#define SERDES_L2_TM_IQ_ILL2_ILL_BYPASS_IQ_CALCODE_F1_SHIFT 0 +#define SERDES_L2_TM_IQ_ILL2_ILL_BYPASS_IQ_CALCODE_F1_MASK 0x000000FFU + +/*G1A pll ctr bypass value*/ +#undef SERDES_L2_TM_ILL12_G1A_PLL_CTR_BYP_VAL_DEFVAL +#undef SERDES_L2_TM_ILL12_G1A_PLL_CTR_BYP_VAL_SHIFT +#undef SERDES_L2_TM_ILL12_G1A_PLL_CTR_BYP_VAL_MASK +#define SERDES_L2_TM_ILL12_G1A_PLL_CTR_BYP_VAL_DEFVAL 0x00000000 +#define SERDES_L2_TM_ILL12_G1A_PLL_CTR_BYP_VAL_SHIFT 0 +#define SERDES_L2_TM_ILL12_G1A_PLL_CTR_BYP_VAL_MASK 0x000000FFU + +/*E ILL F0 CALCODE bypass value. MPHY : G1a, PCIE : Gen 1, SATA : Gen1 , USB3 : SS*/ +#undef SERDES_L2_TM_E_ILL1_ILL_BYPASS_E_CALCODE_F0_DEFVAL +#undef SERDES_L2_TM_E_ILL1_ILL_BYPASS_E_CALCODE_F0_SHIFT +#undef SERDES_L2_TM_E_ILL1_ILL_BYPASS_E_CALCODE_F0_MASK +#define SERDES_L2_TM_E_ILL1_ILL_BYPASS_E_CALCODE_F0_DEFVAL 0x00000000 +#define SERDES_L2_TM_E_ILL1_ILL_BYPASS_E_CALCODE_F0_SHIFT 0 +#define SERDES_L2_TM_E_ILL1_ILL_BYPASS_E_CALCODE_F0_MASK 0x000000FFU + +/*E ILL F1 CALCODE bypass value. MPHY : G1b, PCIE : Gen2, SATA: Gen2*/ +#undef SERDES_L2_TM_E_ILL2_ILL_BYPASS_E_CALCODE_F1_DEFVAL +#undef SERDES_L2_TM_E_ILL2_ILL_BYPASS_E_CALCODE_F1_SHIFT +#undef SERDES_L2_TM_E_ILL2_ILL_BYPASS_E_CALCODE_F1_MASK +#define SERDES_L2_TM_E_ILL2_ILL_BYPASS_E_CALCODE_F1_DEFVAL 0x00000000 +#define SERDES_L2_TM_E_ILL2_ILL_BYPASS_E_CALCODE_F1_SHIFT 0 +#define SERDES_L2_TM_E_ILL2_ILL_BYPASS_E_CALCODE_F1_MASK 0x000000FFU + +/*IQ ILL F2CALCODE bypass value. MPHY : G2a, SATA : Gen3*/ +#undef SERDES_L2_TM_IQ_ILL3_ILL_BYPASS_IQ_CALCODE_F2_DEFVAL +#undef SERDES_L2_TM_IQ_ILL3_ILL_BYPASS_IQ_CALCODE_F2_SHIFT +#undef SERDES_L2_TM_IQ_ILL3_ILL_BYPASS_IQ_CALCODE_F2_MASK +#define SERDES_L2_TM_IQ_ILL3_ILL_BYPASS_IQ_CALCODE_F2_DEFVAL 0x00000000 +#define SERDES_L2_TM_IQ_ILL3_ILL_BYPASS_IQ_CALCODE_F2_SHIFT 0 +#define SERDES_L2_TM_IQ_ILL3_ILL_BYPASS_IQ_CALCODE_F2_MASK 0x000000FFU + +/*E ILL F2CALCODE bypass value. MPHY : G2a, SATA : Gen3*/ +#undef SERDES_L2_TM_E_ILL3_ILL_BYPASS_E_CALCODE_F2_DEFVAL +#undef SERDES_L2_TM_E_ILL3_ILL_BYPASS_E_CALCODE_F2_SHIFT +#undef SERDES_L2_TM_E_ILL3_ILL_BYPASS_E_CALCODE_F2_MASK +#define SERDES_L2_TM_E_ILL3_ILL_BYPASS_E_CALCODE_F2_DEFVAL 0x00000000 +#define SERDES_L2_TM_E_ILL3_ILL_BYPASS_E_CALCODE_F2_SHIFT 0 +#define SERDES_L2_TM_E_ILL3_ILL_BYPASS_E_CALCODE_F2_MASK 0x000000FFU + +/*ILL calibration code change wait time*/ +#undef SERDES_L2_TM_ILL8_ILL_CAL_ITER_WAIT_DEFVAL +#undef SERDES_L2_TM_ILL8_ILL_CAL_ITER_WAIT_SHIFT +#undef SERDES_L2_TM_ILL8_ILL_CAL_ITER_WAIT_MASK +#define SERDES_L2_TM_ILL8_ILL_CAL_ITER_WAIT_DEFVAL 0x00000002 +#define SERDES_L2_TM_ILL8_ILL_CAL_ITER_WAIT_SHIFT 0 +#define SERDES_L2_TM_ILL8_ILL_CAL_ITER_WAIT_MASK 0x000000FFU + +/*IQ ILL polytrim bypass value*/ +#undef SERDES_L2_TM_IQ_ILL8_ILL_BYPASS_IQ_POLYTRIM_VAL_DEFVAL +#undef SERDES_L2_TM_IQ_ILL8_ILL_BYPASS_IQ_POLYTRIM_VAL_SHIFT +#undef SERDES_L2_TM_IQ_ILL8_ILL_BYPASS_IQ_POLYTRIM_VAL_MASK +#define SERDES_L2_TM_IQ_ILL8_ILL_BYPASS_IQ_POLYTRIM_VAL_DEFVAL 0x00000000 +#define SERDES_L2_TM_IQ_ILL8_ILL_BYPASS_IQ_POLYTRIM_VAL_SHIFT 0 +#define SERDES_L2_TM_IQ_ILL8_ILL_BYPASS_IQ_POLYTRIM_VAL_MASK 0x000000FFU + +/*bypass IQ polytrim*/ +#undef SERDES_L2_TM_IQ_ILL9_ILL_BYPASS_IQ_POLYTIM_DEFVAL +#undef SERDES_L2_TM_IQ_ILL9_ILL_BYPASS_IQ_POLYTIM_SHIFT +#undef SERDES_L2_TM_IQ_ILL9_ILL_BYPASS_IQ_POLYTIM_MASK +#define SERDES_L2_TM_IQ_ILL9_ILL_BYPASS_IQ_POLYTIM_DEFVAL 0x00000000 +#define SERDES_L2_TM_IQ_ILL9_ILL_BYPASS_IQ_POLYTIM_SHIFT 0 +#define SERDES_L2_TM_IQ_ILL9_ILL_BYPASS_IQ_POLYTIM_MASK 0x00000001U + +/*E ILL polytrim bypass value*/ +#undef SERDES_L2_TM_E_ILL8_ILL_BYPASS_E_POLYTRIM_VAL_DEFVAL +#undef SERDES_L2_TM_E_ILL8_ILL_BYPASS_E_POLYTRIM_VAL_SHIFT +#undef SERDES_L2_TM_E_ILL8_ILL_BYPASS_E_POLYTRIM_VAL_MASK +#define SERDES_L2_TM_E_ILL8_ILL_BYPASS_E_POLYTRIM_VAL_DEFVAL 0x00000000 +#define SERDES_L2_TM_E_ILL8_ILL_BYPASS_E_POLYTRIM_VAL_SHIFT 0 +#define SERDES_L2_TM_E_ILL8_ILL_BYPASS_E_POLYTRIM_VAL_MASK 0x000000FFU + +/*bypass E polytrim*/ +#undef SERDES_L2_TM_E_ILL9_ILL_BYPASS_E_POLYTIM_DEFVAL +#undef SERDES_L2_TM_E_ILL9_ILL_BYPASS_E_POLYTIM_SHIFT +#undef SERDES_L2_TM_E_ILL9_ILL_BYPASS_E_POLYTIM_MASK +#define SERDES_L2_TM_E_ILL9_ILL_BYPASS_E_POLYTIM_DEFVAL 0x00000000 +#define SERDES_L2_TM_E_ILL9_ILL_BYPASS_E_POLYTIM_SHIFT 0 +#define SERDES_L2_TM_E_ILL9_ILL_BYPASS_E_POLYTIM_MASK 0x00000001U + +/*ILL calib counts BYPASSED with calcode bits*/ +#undef SERDES_L3_TM_MISC2_ILL_CAL_BYPASS_COUNTS_DEFVAL +#undef SERDES_L3_TM_MISC2_ILL_CAL_BYPASS_COUNTS_SHIFT +#undef SERDES_L3_TM_MISC2_ILL_CAL_BYPASS_COUNTS_MASK +#define SERDES_L3_TM_MISC2_ILL_CAL_BYPASS_COUNTS_DEFVAL 0x00000000 +#define SERDES_L3_TM_MISC2_ILL_CAL_BYPASS_COUNTS_SHIFT 7 +#define SERDES_L3_TM_MISC2_ILL_CAL_BYPASS_COUNTS_MASK 0x00000080U + +/*IQ ILL F0 CALCODE bypass value. MPHY : G1a, PCIE : Gen 1, SATA : Gen1 , USB3 : SS*/ +#undef SERDES_L3_TM_IQ_ILL1_ILL_BYPASS_IQ_CALCODE_F0_DEFVAL +#undef SERDES_L3_TM_IQ_ILL1_ILL_BYPASS_IQ_CALCODE_F0_SHIFT +#undef SERDES_L3_TM_IQ_ILL1_ILL_BYPASS_IQ_CALCODE_F0_MASK +#define SERDES_L3_TM_IQ_ILL1_ILL_BYPASS_IQ_CALCODE_F0_DEFVAL 0x00000000 +#define SERDES_L3_TM_IQ_ILL1_ILL_BYPASS_IQ_CALCODE_F0_SHIFT 0 +#define SERDES_L3_TM_IQ_ILL1_ILL_BYPASS_IQ_CALCODE_F0_MASK 0x000000FFU + +/*IQ ILL F1 CALCODE bypass value. MPHY : G1b, PCIE : Gen2, SATA: Gen2*/ +#undef SERDES_L3_TM_IQ_ILL2_ILL_BYPASS_IQ_CALCODE_F1_DEFVAL +#undef SERDES_L3_TM_IQ_ILL2_ILL_BYPASS_IQ_CALCODE_F1_SHIFT +#undef SERDES_L3_TM_IQ_ILL2_ILL_BYPASS_IQ_CALCODE_F1_MASK +#define SERDES_L3_TM_IQ_ILL2_ILL_BYPASS_IQ_CALCODE_F1_DEFVAL 0x00000000 +#define SERDES_L3_TM_IQ_ILL2_ILL_BYPASS_IQ_CALCODE_F1_SHIFT 0 +#define SERDES_L3_TM_IQ_ILL2_ILL_BYPASS_IQ_CALCODE_F1_MASK 0x000000FFU + +/*G1A pll ctr bypass value*/ +#undef SERDES_L3_TM_ILL12_G1A_PLL_CTR_BYP_VAL_DEFVAL +#undef SERDES_L3_TM_ILL12_G1A_PLL_CTR_BYP_VAL_SHIFT +#undef SERDES_L3_TM_ILL12_G1A_PLL_CTR_BYP_VAL_MASK +#define SERDES_L3_TM_ILL12_G1A_PLL_CTR_BYP_VAL_DEFVAL 0x00000000 +#define SERDES_L3_TM_ILL12_G1A_PLL_CTR_BYP_VAL_SHIFT 0 +#define SERDES_L3_TM_ILL12_G1A_PLL_CTR_BYP_VAL_MASK 0x000000FFU + +/*E ILL F0 CALCODE bypass value. MPHY : G1a, PCIE : Gen 1, SATA : Gen1 , USB3 : SS*/ +#undef SERDES_L3_TM_E_ILL1_ILL_BYPASS_E_CALCODE_F0_DEFVAL +#undef SERDES_L3_TM_E_ILL1_ILL_BYPASS_E_CALCODE_F0_SHIFT +#undef SERDES_L3_TM_E_ILL1_ILL_BYPASS_E_CALCODE_F0_MASK +#define SERDES_L3_TM_E_ILL1_ILL_BYPASS_E_CALCODE_F0_DEFVAL 0x00000000 +#define SERDES_L3_TM_E_ILL1_ILL_BYPASS_E_CALCODE_F0_SHIFT 0 +#define SERDES_L3_TM_E_ILL1_ILL_BYPASS_E_CALCODE_F0_MASK 0x000000FFU + +/*E ILL F1 CALCODE bypass value. MPHY : G1b, PCIE : Gen2, SATA: Gen2*/ +#undef SERDES_L3_TM_E_ILL2_ILL_BYPASS_E_CALCODE_F1_DEFVAL +#undef SERDES_L3_TM_E_ILL2_ILL_BYPASS_E_CALCODE_F1_SHIFT +#undef SERDES_L3_TM_E_ILL2_ILL_BYPASS_E_CALCODE_F1_MASK +#define SERDES_L3_TM_E_ILL2_ILL_BYPASS_E_CALCODE_F1_DEFVAL 0x00000000 +#define SERDES_L3_TM_E_ILL2_ILL_BYPASS_E_CALCODE_F1_SHIFT 0 +#define SERDES_L3_TM_E_ILL2_ILL_BYPASS_E_CALCODE_F1_MASK 0x000000FFU + +/*G2A_PCIe1 PLL ctr bypass value*/ +#undef SERDES_L3_TM_ILL11_G2A_PCIEG1_PLL_CTR_11_8_BYP_VAL_DEFVAL +#undef SERDES_L3_TM_ILL11_G2A_PCIEG1_PLL_CTR_11_8_BYP_VAL_SHIFT +#undef SERDES_L3_TM_ILL11_G2A_PCIEG1_PLL_CTR_11_8_BYP_VAL_MASK +#define SERDES_L3_TM_ILL11_G2A_PCIEG1_PLL_CTR_11_8_BYP_VAL_DEFVAL 0x00000000 +#define SERDES_L3_TM_ILL11_G2A_PCIEG1_PLL_CTR_11_8_BYP_VAL_SHIFT 4 +#define SERDES_L3_TM_ILL11_G2A_PCIEG1_PLL_CTR_11_8_BYP_VAL_MASK 0x000000F0U + +/*IQ ILL F2CALCODE bypass value. MPHY : G2a, SATA : Gen3*/ +#undef SERDES_L3_TM_IQ_ILL3_ILL_BYPASS_IQ_CALCODE_F2_DEFVAL +#undef SERDES_L3_TM_IQ_ILL3_ILL_BYPASS_IQ_CALCODE_F2_SHIFT +#undef SERDES_L3_TM_IQ_ILL3_ILL_BYPASS_IQ_CALCODE_F2_MASK +#define SERDES_L3_TM_IQ_ILL3_ILL_BYPASS_IQ_CALCODE_F2_DEFVAL 0x00000000 +#define SERDES_L3_TM_IQ_ILL3_ILL_BYPASS_IQ_CALCODE_F2_SHIFT 0 +#define SERDES_L3_TM_IQ_ILL3_ILL_BYPASS_IQ_CALCODE_F2_MASK 0x000000FFU + +/*E ILL F2CALCODE bypass value. MPHY : G2a, SATA : Gen3*/ +#undef SERDES_L3_TM_E_ILL3_ILL_BYPASS_E_CALCODE_F2_DEFVAL +#undef SERDES_L3_TM_E_ILL3_ILL_BYPASS_E_CALCODE_F2_SHIFT +#undef SERDES_L3_TM_E_ILL3_ILL_BYPASS_E_CALCODE_F2_MASK +#define SERDES_L3_TM_E_ILL3_ILL_BYPASS_E_CALCODE_F2_DEFVAL 0x00000000 +#define SERDES_L3_TM_E_ILL3_ILL_BYPASS_E_CALCODE_F2_SHIFT 0 +#define SERDES_L3_TM_E_ILL3_ILL_BYPASS_E_CALCODE_F2_MASK 0x000000FFU + +/*ILL calibration code change wait time*/ +#undef SERDES_L3_TM_ILL8_ILL_CAL_ITER_WAIT_DEFVAL +#undef SERDES_L3_TM_ILL8_ILL_CAL_ITER_WAIT_SHIFT +#undef SERDES_L3_TM_ILL8_ILL_CAL_ITER_WAIT_MASK +#define SERDES_L3_TM_ILL8_ILL_CAL_ITER_WAIT_DEFVAL 0x00000002 +#define SERDES_L3_TM_ILL8_ILL_CAL_ITER_WAIT_SHIFT 0 +#define SERDES_L3_TM_ILL8_ILL_CAL_ITER_WAIT_MASK 0x000000FFU + +/*IQ ILL polytrim bypass value*/ +#undef SERDES_L3_TM_IQ_ILL8_ILL_BYPASS_IQ_POLYTRIM_VAL_DEFVAL +#undef SERDES_L3_TM_IQ_ILL8_ILL_BYPASS_IQ_POLYTRIM_VAL_SHIFT +#undef SERDES_L3_TM_IQ_ILL8_ILL_BYPASS_IQ_POLYTRIM_VAL_MASK +#define SERDES_L3_TM_IQ_ILL8_ILL_BYPASS_IQ_POLYTRIM_VAL_DEFVAL 0x00000000 +#define SERDES_L3_TM_IQ_ILL8_ILL_BYPASS_IQ_POLYTRIM_VAL_SHIFT 0 +#define SERDES_L3_TM_IQ_ILL8_ILL_BYPASS_IQ_POLYTRIM_VAL_MASK 0x000000FFU + +/*bypass IQ polytrim*/ +#undef SERDES_L3_TM_IQ_ILL9_ILL_BYPASS_IQ_POLYTIM_DEFVAL +#undef SERDES_L3_TM_IQ_ILL9_ILL_BYPASS_IQ_POLYTIM_SHIFT +#undef SERDES_L3_TM_IQ_ILL9_ILL_BYPASS_IQ_POLYTIM_MASK +#define SERDES_L3_TM_IQ_ILL9_ILL_BYPASS_IQ_POLYTIM_DEFVAL 0x00000000 +#define SERDES_L3_TM_IQ_ILL9_ILL_BYPASS_IQ_POLYTIM_SHIFT 0 +#define SERDES_L3_TM_IQ_ILL9_ILL_BYPASS_IQ_POLYTIM_MASK 0x00000001U + +/*E ILL polytrim bypass value*/ +#undef SERDES_L3_TM_E_ILL8_ILL_BYPASS_E_POLYTRIM_VAL_DEFVAL +#undef SERDES_L3_TM_E_ILL8_ILL_BYPASS_E_POLYTRIM_VAL_SHIFT +#undef SERDES_L3_TM_E_ILL8_ILL_BYPASS_E_POLYTRIM_VAL_MASK +#define SERDES_L3_TM_E_ILL8_ILL_BYPASS_E_POLYTRIM_VAL_DEFVAL 0x00000000 +#define SERDES_L3_TM_E_ILL8_ILL_BYPASS_E_POLYTRIM_VAL_SHIFT 0 +#define SERDES_L3_TM_E_ILL8_ILL_BYPASS_E_POLYTRIM_VAL_MASK 0x000000FFU + +/*bypass E polytrim*/ +#undef SERDES_L3_TM_E_ILL9_ILL_BYPASS_E_POLYTIM_DEFVAL +#undef SERDES_L3_TM_E_ILL9_ILL_BYPASS_E_POLYTIM_SHIFT +#undef SERDES_L3_TM_E_ILL9_ILL_BYPASS_E_POLYTIM_MASK +#define SERDES_L3_TM_E_ILL9_ILL_BYPASS_E_POLYTIM_DEFVAL 0x00000000 +#define SERDES_L3_TM_E_ILL9_ILL_BYPASS_E_POLYTIM_SHIFT 0 +#define SERDES_L3_TM_E_ILL9_ILL_BYPASS_E_POLYTIM_MASK 0x00000001U + +/*Delay apb reset by specified amount*/ +#undef SERDES_L0_TM_RST_DLY_APB_RST_DLY_DEFVAL +#undef SERDES_L0_TM_RST_DLY_APB_RST_DLY_SHIFT +#undef SERDES_L0_TM_RST_DLY_APB_RST_DLY_MASK +#define SERDES_L0_TM_RST_DLY_APB_RST_DLY_DEFVAL 0x00000000 +#define SERDES_L0_TM_RST_DLY_APB_RST_DLY_SHIFT 0 +#define SERDES_L0_TM_RST_DLY_APB_RST_DLY_MASK 0x000000FFU + +/*Enable Bypass for <7> of TM_ANA_BYPS_15*/ +#undef SERDES_L0_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE_DEFVAL +#undef SERDES_L0_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE_SHIFT +#undef SERDES_L0_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE_MASK +#define SERDES_L0_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE_DEFVAL 0x00000000 +#define SERDES_L0_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE_SHIFT 6 +#define SERDES_L0_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE_MASK 0x00000040U + +/*Enable Bypass for <7> of TM_ANA_BYPS_12*/ +#undef SERDES_L0_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG_DEFVAL +#undef SERDES_L0_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG_SHIFT +#undef SERDES_L0_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG_MASK +#define SERDES_L0_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG_DEFVAL 0x00000000 +#define SERDES_L0_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG_SHIFT 6 +#define SERDES_L0_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG_MASK 0x00000040U + +/*Delay apb reset by specified amount*/ +#undef SERDES_L1_TM_RST_DLY_APB_RST_DLY_DEFVAL +#undef SERDES_L1_TM_RST_DLY_APB_RST_DLY_SHIFT +#undef SERDES_L1_TM_RST_DLY_APB_RST_DLY_MASK +#define SERDES_L1_TM_RST_DLY_APB_RST_DLY_DEFVAL 0x00000000 +#define SERDES_L1_TM_RST_DLY_APB_RST_DLY_SHIFT 0 +#define SERDES_L1_TM_RST_DLY_APB_RST_DLY_MASK 0x000000FFU + +/*Enable Bypass for <7> of TM_ANA_BYPS_15*/ +#undef SERDES_L1_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE_DEFVAL +#undef SERDES_L1_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE_SHIFT +#undef SERDES_L1_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE_MASK +#define SERDES_L1_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE_DEFVAL 0x00000000 +#define SERDES_L1_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE_SHIFT 6 +#define SERDES_L1_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE_MASK 0x00000040U + +/*Enable Bypass for <7> of TM_ANA_BYPS_12*/ +#undef SERDES_L1_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG_DEFVAL +#undef SERDES_L1_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG_SHIFT +#undef SERDES_L1_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG_MASK +#define SERDES_L1_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG_DEFVAL 0x00000000 +#define SERDES_L1_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG_SHIFT 6 +#define SERDES_L1_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG_MASK 0x00000040U + +/*Delay apb reset by specified amount*/ +#undef SERDES_L2_TM_RST_DLY_APB_RST_DLY_DEFVAL +#undef SERDES_L2_TM_RST_DLY_APB_RST_DLY_SHIFT +#undef SERDES_L2_TM_RST_DLY_APB_RST_DLY_MASK +#define SERDES_L2_TM_RST_DLY_APB_RST_DLY_DEFVAL 0x00000000 +#define SERDES_L2_TM_RST_DLY_APB_RST_DLY_SHIFT 0 +#define SERDES_L2_TM_RST_DLY_APB_RST_DLY_MASK 0x000000FFU + +/*Enable Bypass for <7> of TM_ANA_BYPS_15*/ +#undef SERDES_L2_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE_DEFVAL +#undef SERDES_L2_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE_SHIFT +#undef SERDES_L2_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE_MASK +#define SERDES_L2_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE_DEFVAL 0x00000000 +#define SERDES_L2_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE_SHIFT 6 +#define SERDES_L2_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE_MASK 0x00000040U + +/*Enable Bypass for <7> of TM_ANA_BYPS_12*/ +#undef SERDES_L2_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG_DEFVAL +#undef SERDES_L2_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG_SHIFT +#undef SERDES_L2_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG_MASK +#define SERDES_L2_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG_DEFVAL 0x00000000 +#define SERDES_L2_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG_SHIFT 6 +#define SERDES_L2_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG_MASK 0x00000040U + +/*Delay apb reset by specified amount*/ +#undef SERDES_L3_TM_RST_DLY_APB_RST_DLY_DEFVAL +#undef SERDES_L3_TM_RST_DLY_APB_RST_DLY_SHIFT +#undef SERDES_L3_TM_RST_DLY_APB_RST_DLY_MASK +#define SERDES_L3_TM_RST_DLY_APB_RST_DLY_DEFVAL 0x00000000 +#define SERDES_L3_TM_RST_DLY_APB_RST_DLY_SHIFT 0 +#define SERDES_L3_TM_RST_DLY_APB_RST_DLY_MASK 0x000000FFU + +/*Enable Bypass for <7> of TM_ANA_BYPS_15*/ +#undef SERDES_L3_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE_DEFVAL +#undef SERDES_L3_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE_SHIFT +#undef SERDES_L3_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE_MASK +#define SERDES_L3_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE_DEFVAL 0x00000000 +#define SERDES_L3_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE_SHIFT 6 +#define SERDES_L3_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE_MASK 0x00000040U + +/*Enable Bypass for <7> of TM_ANA_BYPS_12*/ +#undef SERDES_L3_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG_DEFVAL +#undef SERDES_L3_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG_SHIFT +#undef SERDES_L3_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG_MASK +#define SERDES_L3_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG_DEFVAL 0x00000000 +#define SERDES_L3_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG_SHIFT 6 +#define SERDES_L3_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG_MASK 0x00000040U + +/*Controls UPHY Lane 0 protocol configuration. 0 - PowerDown, 1 - PCIe .0, 2 - Sata0, 3 - USB0, 4 - DP.1, 5 - SGMII0, 6 - Unuse + , 7 - Unused*/ +#undef SERDES_ICM_CFG0_L0_ICM_CFG_DEFVAL +#undef SERDES_ICM_CFG0_L0_ICM_CFG_SHIFT +#undef SERDES_ICM_CFG0_L0_ICM_CFG_MASK +#define SERDES_ICM_CFG0_L0_ICM_CFG_DEFVAL 0x00000000 +#define SERDES_ICM_CFG0_L0_ICM_CFG_SHIFT 0 +#define SERDES_ICM_CFG0_L0_ICM_CFG_MASK 0x00000007U + +/*Controls UPHY Lane 1 protocol configuration. 0 - PowerDown, 1 - PCIe.1, 2 - Sata1, 3 - USB0, 4 - DP.0, 5 - SGMII1, 6 - Unused + 7 - Unused*/ +#undef SERDES_ICM_CFG0_L1_ICM_CFG_DEFVAL +#undef SERDES_ICM_CFG0_L1_ICM_CFG_SHIFT +#undef SERDES_ICM_CFG0_L1_ICM_CFG_MASK +#define SERDES_ICM_CFG0_L1_ICM_CFG_DEFVAL 0x00000000 +#define SERDES_ICM_CFG0_L1_ICM_CFG_SHIFT 4 +#define SERDES_ICM_CFG0_L1_ICM_CFG_MASK 0x00000070U + +/*Controls UPHY Lane 2 protocol configuration. 0 - PowerDown, 1 - PCIe.1, 2 - Sata0, 3 - USB0, 4 - DP.1, 5 - SGMII2, 6 - Unused + 7 - Unused*/ +#undef SERDES_ICM_CFG1_L2_ICM_CFG_DEFVAL +#undef SERDES_ICM_CFG1_L2_ICM_CFG_SHIFT +#undef SERDES_ICM_CFG1_L2_ICM_CFG_MASK +#define SERDES_ICM_CFG1_L2_ICM_CFG_DEFVAL 0x00000000 +#define SERDES_ICM_CFG1_L2_ICM_CFG_SHIFT 0 +#define SERDES_ICM_CFG1_L2_ICM_CFG_MASK 0x00000007U + +/*Controls UPHY Lane 3 protocol configuration. 0 - PowerDown, 1 - PCIe.3, 2 - Sata1, 3 - USB1, 4 - DP.0, 5 - SGMII3, 6 - Unused + 7 - Unused*/ +#undef SERDES_ICM_CFG1_L3_ICM_CFG_DEFVAL +#undef SERDES_ICM_CFG1_L3_ICM_CFG_SHIFT +#undef SERDES_ICM_CFG1_L3_ICM_CFG_MASK +#define SERDES_ICM_CFG1_L3_ICM_CFG_DEFVAL 0x00000000 +#define SERDES_ICM_CFG1_L3_ICM_CFG_SHIFT 4 +#define SERDES_ICM_CFG1_L3_ICM_CFG_MASK 0x00000070U + +/*Enable/disable DP post2 path*/ +#undef SERDES_L0_TXPMD_TM_45_DP_TM_TX_DP_ENABLE_POST2_PATH_DEFVAL +#undef SERDES_L0_TXPMD_TM_45_DP_TM_TX_DP_ENABLE_POST2_PATH_SHIFT +#undef SERDES_L0_TXPMD_TM_45_DP_TM_TX_DP_ENABLE_POST2_PATH_MASK +#define SERDES_L0_TXPMD_TM_45_DP_TM_TX_DP_ENABLE_POST2_PATH_DEFVAL 0x00000000 +#define SERDES_L0_TXPMD_TM_45_DP_TM_TX_DP_ENABLE_POST2_PATH_SHIFT 5 +#define SERDES_L0_TXPMD_TM_45_DP_TM_TX_DP_ENABLE_POST2_PATH_MASK 0x00000020U + +/*Override enable/disable of DP post2 path*/ +#undef SERDES_L0_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_POST2_PATH_DEFVAL +#undef SERDES_L0_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_POST2_PATH_SHIFT +#undef SERDES_L0_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_POST2_PATH_MASK +#define SERDES_L0_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_POST2_PATH_DEFVAL 0x00000000 +#define SERDES_L0_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_POST2_PATH_SHIFT 4 +#define SERDES_L0_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_POST2_PATH_MASK 0x00000010U + +/*Override enable/disable of DP post1 path*/ +#undef SERDES_L0_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_POST1_PATH_DEFVAL +#undef SERDES_L0_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_POST1_PATH_SHIFT +#undef SERDES_L0_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_POST1_PATH_MASK +#define SERDES_L0_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_POST1_PATH_DEFVAL 0x00000000 +#define SERDES_L0_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_POST1_PATH_SHIFT 2 +#define SERDES_L0_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_POST1_PATH_MASK 0x00000004U + +/*Enable/disable DP main path*/ +#undef SERDES_L0_TXPMD_TM_45_DP_TM_TX_DP_ENABLE_MAIN_PATH_DEFVAL +#undef SERDES_L0_TXPMD_TM_45_DP_TM_TX_DP_ENABLE_MAIN_PATH_SHIFT +#undef SERDES_L0_TXPMD_TM_45_DP_TM_TX_DP_ENABLE_MAIN_PATH_MASK +#define SERDES_L0_TXPMD_TM_45_DP_TM_TX_DP_ENABLE_MAIN_PATH_DEFVAL 0x00000000 +#define SERDES_L0_TXPMD_TM_45_DP_TM_TX_DP_ENABLE_MAIN_PATH_SHIFT 1 +#define SERDES_L0_TXPMD_TM_45_DP_TM_TX_DP_ENABLE_MAIN_PATH_MASK 0x00000002U + +/*Override enable/disable of DP main path*/ +#undef SERDES_L0_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_MAIN_PATH_DEFVAL +#undef SERDES_L0_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_MAIN_PATH_SHIFT +#undef SERDES_L0_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_MAIN_PATH_MASK +#define SERDES_L0_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_MAIN_PATH_DEFVAL 0x00000000 +#define SERDES_L0_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_MAIN_PATH_SHIFT 0 +#define SERDES_L0_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_MAIN_PATH_MASK 0x00000001U + +/*Enable/disable DP post2 path*/ +#undef SERDES_L1_TXPMD_TM_45_DP_TM_TX_DP_ENABLE_POST2_PATH_DEFVAL +#undef SERDES_L1_TXPMD_TM_45_DP_TM_TX_DP_ENABLE_POST2_PATH_SHIFT +#undef SERDES_L1_TXPMD_TM_45_DP_TM_TX_DP_ENABLE_POST2_PATH_MASK +#define SERDES_L1_TXPMD_TM_45_DP_TM_TX_DP_ENABLE_POST2_PATH_DEFVAL 0x00000000 +#define SERDES_L1_TXPMD_TM_45_DP_TM_TX_DP_ENABLE_POST2_PATH_SHIFT 5 +#define SERDES_L1_TXPMD_TM_45_DP_TM_TX_DP_ENABLE_POST2_PATH_MASK 0x00000020U + +/*Override enable/disable of DP post2 path*/ +#undef SERDES_L1_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_POST2_PATH_DEFVAL +#undef SERDES_L1_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_POST2_PATH_SHIFT +#undef SERDES_L1_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_POST2_PATH_MASK +#define SERDES_L1_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_POST2_PATH_DEFVAL 0x00000000 +#define SERDES_L1_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_POST2_PATH_SHIFT 4 +#define SERDES_L1_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_POST2_PATH_MASK 0x00000010U + +/*Override enable/disable of DP post1 path*/ +#undef SERDES_L1_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_POST1_PATH_DEFVAL +#undef SERDES_L1_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_POST1_PATH_SHIFT +#undef SERDES_L1_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_POST1_PATH_MASK +#define SERDES_L1_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_POST1_PATH_DEFVAL 0x00000000 +#define SERDES_L1_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_POST1_PATH_SHIFT 2 +#define SERDES_L1_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_POST1_PATH_MASK 0x00000004U + +/*Enable/disable DP main path*/ +#undef SERDES_L1_TXPMD_TM_45_DP_TM_TX_DP_ENABLE_MAIN_PATH_DEFVAL +#undef SERDES_L1_TXPMD_TM_45_DP_TM_TX_DP_ENABLE_MAIN_PATH_SHIFT +#undef SERDES_L1_TXPMD_TM_45_DP_TM_TX_DP_ENABLE_MAIN_PATH_MASK +#define SERDES_L1_TXPMD_TM_45_DP_TM_TX_DP_ENABLE_MAIN_PATH_DEFVAL 0x00000000 +#define SERDES_L1_TXPMD_TM_45_DP_TM_TX_DP_ENABLE_MAIN_PATH_SHIFT 1 +#define SERDES_L1_TXPMD_TM_45_DP_TM_TX_DP_ENABLE_MAIN_PATH_MASK 0x00000002U + +/*Override enable/disable of DP main path*/ +#undef SERDES_L1_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_MAIN_PATH_DEFVAL +#undef SERDES_L1_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_MAIN_PATH_SHIFT +#undef SERDES_L1_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_MAIN_PATH_MASK +#define SERDES_L1_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_MAIN_PATH_DEFVAL 0x00000000 +#define SERDES_L1_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_MAIN_PATH_SHIFT 0 +#define SERDES_L1_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_MAIN_PATH_MASK 0x00000001U + +/*Test register force for enabling/disablign TX deemphasis bits <17:0>*/ +#undef SERDES_L0_TX_ANA_TM_118_FORCE_TX_DEEMPH_17_0_DEFVAL +#undef SERDES_L0_TX_ANA_TM_118_FORCE_TX_DEEMPH_17_0_SHIFT +#undef SERDES_L0_TX_ANA_TM_118_FORCE_TX_DEEMPH_17_0_MASK +#define SERDES_L0_TX_ANA_TM_118_FORCE_TX_DEEMPH_17_0_DEFVAL 0x00000000 +#define SERDES_L0_TX_ANA_TM_118_FORCE_TX_DEEMPH_17_0_SHIFT 0 +#define SERDES_L0_TX_ANA_TM_118_FORCE_TX_DEEMPH_17_0_MASK 0x00000001U + +/*Test register force for enabling/disablign TX deemphasis bits <17:0>*/ +#undef SERDES_L1_TX_ANA_TM_118_FORCE_TX_DEEMPH_17_0_DEFVAL +#undef SERDES_L1_TX_ANA_TM_118_FORCE_TX_DEEMPH_17_0_SHIFT +#undef SERDES_L1_TX_ANA_TM_118_FORCE_TX_DEEMPH_17_0_MASK +#define SERDES_L1_TX_ANA_TM_118_FORCE_TX_DEEMPH_17_0_DEFVAL 0x00000000 +#define SERDES_L1_TX_ANA_TM_118_FORCE_TX_DEEMPH_17_0_SHIFT 0 +#define SERDES_L1_TX_ANA_TM_118_FORCE_TX_DEEMPH_17_0_MASK 0x00000001U + +/*Test register force for enabling/disablign TX deemphasis bits <17:0>*/ +#undef SERDES_L3_TX_ANA_TM_118_FORCE_TX_DEEMPH_17_0_DEFVAL +#undef SERDES_L3_TX_ANA_TM_118_FORCE_TX_DEEMPH_17_0_SHIFT +#undef SERDES_L3_TX_ANA_TM_118_FORCE_TX_DEEMPH_17_0_MASK +#define SERDES_L3_TX_ANA_TM_118_FORCE_TX_DEEMPH_17_0_DEFVAL 0x00000000 +#define SERDES_L3_TX_ANA_TM_118_FORCE_TX_DEEMPH_17_0_SHIFT 0 +#define SERDES_L3_TX_ANA_TM_118_FORCE_TX_DEEMPH_17_0_MASK 0x00000001U + +/*FPHL FSM accumulate cycles*/ +#undef SERDES_L3_TM_CDR5_FPHL_FSM_ACC_CYCLES_DEFVAL +#undef SERDES_L3_TM_CDR5_FPHL_FSM_ACC_CYCLES_SHIFT +#undef SERDES_L3_TM_CDR5_FPHL_FSM_ACC_CYCLES_MASK +#define SERDES_L3_TM_CDR5_FPHL_FSM_ACC_CYCLES_DEFVAL 0x00000000 +#define SERDES_L3_TM_CDR5_FPHL_FSM_ACC_CYCLES_SHIFT 5 +#define SERDES_L3_TM_CDR5_FPHL_FSM_ACC_CYCLES_MASK 0x000000E0U + +/*FFL Phase0 int gain aka 2ol SD update rate*/ +#undef SERDES_L3_TM_CDR5_FFL_PH0_INT_GAIN_DEFVAL +#undef SERDES_L3_TM_CDR5_FFL_PH0_INT_GAIN_SHIFT +#undef SERDES_L3_TM_CDR5_FFL_PH0_INT_GAIN_MASK +#define SERDES_L3_TM_CDR5_FFL_PH0_INT_GAIN_DEFVAL 0x00000000 +#define SERDES_L3_TM_CDR5_FFL_PH0_INT_GAIN_SHIFT 0 +#define SERDES_L3_TM_CDR5_FFL_PH0_INT_GAIN_MASK 0x0000001FU + +/*FFL Phase0 prop gain aka 1ol SD update rate*/ +#undef SERDES_L3_TM_CDR16_FFL_PH0_PROP_GAIN_DEFVAL +#undef SERDES_L3_TM_CDR16_FFL_PH0_PROP_GAIN_SHIFT +#undef SERDES_L3_TM_CDR16_FFL_PH0_PROP_GAIN_MASK +#define SERDES_L3_TM_CDR16_FFL_PH0_PROP_GAIN_DEFVAL 0x00000000 +#define SERDES_L3_TM_CDR16_FFL_PH0_PROP_GAIN_SHIFT 0 +#define SERDES_L3_TM_CDR16_FFL_PH0_PROP_GAIN_MASK 0x0000001FU + +/*EQ stg 2 controls BYPASSED*/ +#undef SERDES_L3_TM_EQ0_EQ_STG2_CTRL_BYP_DEFVAL +#undef SERDES_L3_TM_EQ0_EQ_STG2_CTRL_BYP_SHIFT +#undef SERDES_L3_TM_EQ0_EQ_STG2_CTRL_BYP_MASK +#define SERDES_L3_TM_EQ0_EQ_STG2_CTRL_BYP_DEFVAL 0x00000000 +#define SERDES_L3_TM_EQ0_EQ_STG2_CTRL_BYP_SHIFT 5 +#define SERDES_L3_TM_EQ0_EQ_STG2_CTRL_BYP_MASK 0x00000020U + +/*EQ STG2 RL PROG*/ +#undef SERDES_L3_TM_EQ1_EQ_STG2_RL_PROG_DEFVAL +#undef SERDES_L3_TM_EQ1_EQ_STG2_RL_PROG_SHIFT +#undef SERDES_L3_TM_EQ1_EQ_STG2_RL_PROG_MASK +#define SERDES_L3_TM_EQ1_EQ_STG2_RL_PROG_DEFVAL 0x00000000 +#define SERDES_L3_TM_EQ1_EQ_STG2_RL_PROG_SHIFT 0 +#define SERDES_L3_TM_EQ1_EQ_STG2_RL_PROG_MASK 0x00000003U + +/*EQ stg 2 preamp mode val*/ +#undef SERDES_L3_TM_EQ1_EQ_STG2_PREAMP_MODE_VAL_DEFVAL +#undef SERDES_L3_TM_EQ1_EQ_STG2_PREAMP_MODE_VAL_SHIFT +#undef SERDES_L3_TM_EQ1_EQ_STG2_PREAMP_MODE_VAL_MASK +#define SERDES_L3_TM_EQ1_EQ_STG2_PREAMP_MODE_VAL_DEFVAL 0x00000000 +#define SERDES_L3_TM_EQ1_EQ_STG2_PREAMP_MODE_VAL_SHIFT 2 +#define SERDES_L3_TM_EQ1_EQ_STG2_PREAMP_MODE_VAL_MASK 0x00000004U + +/*Margining factor value*/ +#undef SERDES_L1_TXPMD_TM_48_TM_RESULTANT_MARGINING_FACTOR_DEFVAL +#undef SERDES_L1_TXPMD_TM_48_TM_RESULTANT_MARGINING_FACTOR_SHIFT +#undef SERDES_L1_TXPMD_TM_48_TM_RESULTANT_MARGINING_FACTOR_MASK +#define SERDES_L1_TXPMD_TM_48_TM_RESULTANT_MARGINING_FACTOR_DEFVAL 0x00000000 +#define SERDES_L1_TXPMD_TM_48_TM_RESULTANT_MARGINING_FACTOR_SHIFT 0 +#define SERDES_L1_TXPMD_TM_48_TM_RESULTANT_MARGINING_FACTOR_MASK 0x0000001FU + +/*Margining factor value*/ +#undef SERDES_L0_TXPMD_TM_48_TM_RESULTANT_MARGINING_FACTOR_DEFVAL +#undef SERDES_L0_TXPMD_TM_48_TM_RESULTANT_MARGINING_FACTOR_SHIFT +#undef SERDES_L0_TXPMD_TM_48_TM_RESULTANT_MARGINING_FACTOR_MASK +#define SERDES_L0_TXPMD_TM_48_TM_RESULTANT_MARGINING_FACTOR_DEFVAL 0x00000000 +#define SERDES_L0_TXPMD_TM_48_TM_RESULTANT_MARGINING_FACTOR_SHIFT 0 +#define SERDES_L0_TXPMD_TM_48_TM_RESULTANT_MARGINING_FACTOR_MASK 0x0000001FU + +/*pipe_TX_Deemph. 0: -6dB de-emphasis, 1: -3.5dB de-emphasis, 2 : No de-emphasis, Others: reserved*/ +#undef SERDES_L1_TX_ANA_TM_18_PIPE_TX_DEEMPH_7_0_DEFVAL +#undef SERDES_L1_TX_ANA_TM_18_PIPE_TX_DEEMPH_7_0_SHIFT +#undef SERDES_L1_TX_ANA_TM_18_PIPE_TX_DEEMPH_7_0_MASK +#define SERDES_L1_TX_ANA_TM_18_PIPE_TX_DEEMPH_7_0_DEFVAL 0x00000002 +#define SERDES_L1_TX_ANA_TM_18_PIPE_TX_DEEMPH_7_0_SHIFT 0 +#define SERDES_L1_TX_ANA_TM_18_PIPE_TX_DEEMPH_7_0_MASK 0x000000FFU + +/*pipe_TX_Deemph. 0: -6dB de-emphasis, 1: -3.5dB de-emphasis, 2 : No de-emphasis, Others: reserved*/ +#undef SERDES_L0_TX_ANA_TM_18_PIPE_TX_DEEMPH_7_0_DEFVAL +#undef SERDES_L0_TX_ANA_TM_18_PIPE_TX_DEEMPH_7_0_SHIFT +#undef SERDES_L0_TX_ANA_TM_18_PIPE_TX_DEEMPH_7_0_MASK +#define SERDES_L0_TX_ANA_TM_18_PIPE_TX_DEEMPH_7_0_DEFVAL 0x00000002 +#define SERDES_L0_TX_ANA_TM_18_PIPE_TX_DEEMPH_7_0_SHIFT 0 +#define SERDES_L0_TX_ANA_TM_18_PIPE_TX_DEEMPH_7_0_MASK 0x000000FFU + +/*pipe_TX_Deemph. 0: -6dB de-emphasis, 1: -3.5dB de-emphasis, 2 : No de-emphasis, Others: reserved*/ +#undef SERDES_L3_TX_ANA_TM_18_PIPE_TX_DEEMPH_7_0_DEFVAL +#undef SERDES_L3_TX_ANA_TM_18_PIPE_TX_DEEMPH_7_0_SHIFT +#undef SERDES_L3_TX_ANA_TM_18_PIPE_TX_DEEMPH_7_0_MASK +#define SERDES_L3_TX_ANA_TM_18_PIPE_TX_DEEMPH_7_0_DEFVAL 0x00000002 +#define SERDES_L3_TX_ANA_TM_18_PIPE_TX_DEEMPH_7_0_SHIFT 0 +#define SERDES_L3_TX_ANA_TM_18_PIPE_TX_DEEMPH_7_0_MASK 0x000000FFU +#undef CRL_APB_RST_LPD_TOP_OFFSET +#define CRL_APB_RST_LPD_TOP_OFFSET 0XFF5E023C +#undef USB3_0_FPD_POWER_PRSNT_OFFSET +#define USB3_0_FPD_POWER_PRSNT_OFFSET 0XFF9D0080 +#undef USB3_0_FPD_PIPE_CLK_OFFSET +#define USB3_0_FPD_PIPE_CLK_OFFSET 0XFF9D007C +#undef CRL_APB_RST_LPD_TOP_OFFSET +#define CRL_APB_RST_LPD_TOP_OFFSET 0XFF5E023C +#undef CRL_APB_RST_LPD_IOU0_OFFSET +#define CRL_APB_RST_LPD_IOU0_OFFSET 0XFF5E0230 +#undef SIOU_SATA_MISC_CTRL_OFFSET +#define SIOU_SATA_MISC_CTRL_OFFSET 0XFD3D0100 +#undef CRF_APB_RST_FPD_TOP_OFFSET +#define CRF_APB_RST_FPD_TOP_OFFSET 0XFD1A0100 +#undef CRF_APB_RST_FPD_TOP_OFFSET +#define CRF_APB_RST_FPD_TOP_OFFSET 0XFD1A0100 +#undef DP_DP_PHY_RESET_OFFSET +#define DP_DP_PHY_RESET_OFFSET 0XFD4A0200 +#undef DP_DP_TX_PHY_POWER_DOWN_OFFSET +#define DP_DP_TX_PHY_POWER_DOWN_OFFSET 0XFD4A0238 +#undef USB3_0_XHCI_GUSB2PHYCFG_OFFSET +#define USB3_0_XHCI_GUSB2PHYCFG_OFFSET 0XFE20C200 +#undef USB3_0_XHCI_GFLADJ_OFFSET +#define USB3_0_XHCI_GFLADJ_OFFSET 0XFE20C630 +#undef PCIE_ATTRIB_ATTR_25_OFFSET +#define PCIE_ATTRIB_ATTR_25_OFFSET 0XFD480064 +#undef SATA_AHCI_VENDOR_PP2C_OFFSET +#define SATA_AHCI_VENDOR_PP2C_OFFSET 0XFD0C00AC +#undef SATA_AHCI_VENDOR_PP3C_OFFSET +#define SATA_AHCI_VENDOR_PP3C_OFFSET 0XFD0C00B0 +#undef SATA_AHCI_VENDOR_PP4C_OFFSET +#define SATA_AHCI_VENDOR_PP4C_OFFSET 0XFD0C00B4 +#undef SATA_AHCI_VENDOR_PP5C_OFFSET +#define SATA_AHCI_VENDOR_PP5C_OFFSET 0XFD0C00B8 + +/*USB 0 reset for control registers*/ +#undef CRL_APB_RST_LPD_TOP_USB0_APB_RESET_DEFVAL +#undef CRL_APB_RST_LPD_TOP_USB0_APB_RESET_SHIFT +#undef CRL_APB_RST_LPD_TOP_USB0_APB_RESET_MASK +#define CRL_APB_RST_LPD_TOP_USB0_APB_RESET_DEFVAL 0x00188FDF +#define CRL_APB_RST_LPD_TOP_USB0_APB_RESET_SHIFT 10 +#define CRL_APB_RST_LPD_TOP_USB0_APB_RESET_MASK 0x00000400U + +/*This bit is used to choose between PIPE power present and 1'b1*/ +#undef USB3_0_FPD_POWER_PRSNT_OPTION_DEFVAL +#undef USB3_0_FPD_POWER_PRSNT_OPTION_SHIFT +#undef USB3_0_FPD_POWER_PRSNT_OPTION_MASK +#define USB3_0_FPD_POWER_PRSNT_OPTION_DEFVAL +#define USB3_0_FPD_POWER_PRSNT_OPTION_SHIFT 0 +#define USB3_0_FPD_POWER_PRSNT_OPTION_MASK 0x00000001U + +/*This bit is used to choose between PIPE clock coming from SerDes and the suspend clk*/ +#undef USB3_0_FPD_PIPE_CLK_OPTION_DEFVAL +#undef USB3_0_FPD_PIPE_CLK_OPTION_SHIFT +#undef USB3_0_FPD_PIPE_CLK_OPTION_MASK +#define USB3_0_FPD_PIPE_CLK_OPTION_DEFVAL +#define USB3_0_FPD_PIPE_CLK_OPTION_SHIFT 0 +#define USB3_0_FPD_PIPE_CLK_OPTION_MASK 0x00000001U + +/*USB 0 sleep circuit reset*/ +#undef CRL_APB_RST_LPD_TOP_USB0_HIBERRESET_DEFVAL +#undef CRL_APB_RST_LPD_TOP_USB0_HIBERRESET_SHIFT +#undef CRL_APB_RST_LPD_TOP_USB0_HIBERRESET_MASK +#define CRL_APB_RST_LPD_TOP_USB0_HIBERRESET_DEFVAL 0x00188FDF +#define CRL_APB_RST_LPD_TOP_USB0_HIBERRESET_SHIFT 8 +#define CRL_APB_RST_LPD_TOP_USB0_HIBERRESET_MASK 0x00000100U + +/*USB 0 reset*/ +#undef CRL_APB_RST_LPD_TOP_USB0_CORERESET_DEFVAL +#undef CRL_APB_RST_LPD_TOP_USB0_CORERESET_SHIFT +#undef CRL_APB_RST_LPD_TOP_USB0_CORERESET_MASK +#define CRL_APB_RST_LPD_TOP_USB0_CORERESET_DEFVAL 0x00188FDF +#define CRL_APB_RST_LPD_TOP_USB0_CORERESET_SHIFT 6 +#define CRL_APB_RST_LPD_TOP_USB0_CORERESET_MASK 0x00000040U + +/*GEM 3 reset*/ +#undef CRL_APB_RST_LPD_IOU0_GEM3_RESET_DEFVAL +#undef CRL_APB_RST_LPD_IOU0_GEM3_RESET_SHIFT +#undef CRL_APB_RST_LPD_IOU0_GEM3_RESET_MASK +#define CRL_APB_RST_LPD_IOU0_GEM3_RESET_DEFVAL 0x0000000F +#define CRL_APB_RST_LPD_IOU0_GEM3_RESET_SHIFT 3 +#define CRL_APB_RST_LPD_IOU0_GEM3_RESET_MASK 0x00000008U + +/*Sata PM clock control select*/ +#undef SIOU_SATA_MISC_CTRL_SATA_PM_CLK_SEL_DEFVAL +#undef SIOU_SATA_MISC_CTRL_SATA_PM_CLK_SEL_SHIFT +#undef SIOU_SATA_MISC_CTRL_SATA_PM_CLK_SEL_MASK +#define SIOU_SATA_MISC_CTRL_SATA_PM_CLK_SEL_DEFVAL +#define SIOU_SATA_MISC_CTRL_SATA_PM_CLK_SEL_SHIFT 0 +#define SIOU_SATA_MISC_CTRL_SATA_PM_CLK_SEL_MASK 0x00000003U + +/*Sata block level reset*/ +#undef CRF_APB_RST_FPD_TOP_SATA_RESET_DEFVAL +#undef CRF_APB_RST_FPD_TOP_SATA_RESET_SHIFT +#undef CRF_APB_RST_FPD_TOP_SATA_RESET_MASK +#define CRF_APB_RST_FPD_TOP_SATA_RESET_DEFVAL 0x000F9FFE +#define CRF_APB_RST_FPD_TOP_SATA_RESET_SHIFT 1 +#define CRF_APB_RST_FPD_TOP_SATA_RESET_MASK 0x00000002U + +/*Display Port block level reset (includes DPDMA)*/ +#undef CRF_APB_RST_FPD_TOP_DP_RESET_DEFVAL +#undef CRF_APB_RST_FPD_TOP_DP_RESET_SHIFT +#undef CRF_APB_RST_FPD_TOP_DP_RESET_MASK +#define CRF_APB_RST_FPD_TOP_DP_RESET_DEFVAL 0x000F9FFE +#define CRF_APB_RST_FPD_TOP_DP_RESET_SHIFT 16 +#define CRF_APB_RST_FPD_TOP_DP_RESET_MASK 0x00010000U + +/*Set to '1' to hold the GT in reset. Clear to release.*/ +#undef DP_DP_PHY_RESET_GT_RESET_DEFVAL +#undef DP_DP_PHY_RESET_GT_RESET_SHIFT +#undef DP_DP_PHY_RESET_GT_RESET_MASK +#define DP_DP_PHY_RESET_GT_RESET_DEFVAL 0x00010003 +#define DP_DP_PHY_RESET_GT_RESET_SHIFT 1 +#define DP_DP_PHY_RESET_GT_RESET_MASK 0x00000002U + +/*Two bits per lane. When set to 11, moves the GT to power down mode. When set to 00, GT will be in active state. bits [1:0] - + ane0 Bits [3:2] - lane 1*/ +#undef DP_DP_TX_PHY_POWER_DOWN_POWER_DWN_DEFVAL +#undef DP_DP_TX_PHY_POWER_DOWN_POWER_DWN_SHIFT +#undef DP_DP_TX_PHY_POWER_DOWN_POWER_DWN_MASK +#define DP_DP_TX_PHY_POWER_DOWN_POWER_DWN_DEFVAL 0x00000000 +#define DP_DP_TX_PHY_POWER_DOWN_POWER_DWN_SHIFT 0 +#define DP_DP_TX_PHY_POWER_DOWN_POWER_DWN_MASK 0x0000000FU + +/*USB 2.0 Turnaround Time (USBTrdTim) Sets the turnaround time in PHY clocks. Specifies the response time for a MAC request to + he Packet FIFO Controller (PFC) to fetch data from the DFIFO (SPRAM). The following are the required values for the minimum S + C bus frequency of 60 MHz. USB turnaround time is a critical certification criteria when using long cables and five hub level + . The required values for this field: - 4'h5: When the MAC interface is 16-bit UTMI+. - 4'h9: When the MAC interface is 8-bit + UTMI+/ULPI. If SoC bus clock is less than 60 MHz, and USB turnaround time is not critical, this field can be set to a larger + alue. Note: This field is valid only in device mode.*/ +#undef USB3_0_XHCI_GUSB2PHYCFG_USBTRDTIM_DEFVAL +#undef USB3_0_XHCI_GUSB2PHYCFG_USBTRDTIM_SHIFT +#undef USB3_0_XHCI_GUSB2PHYCFG_USBTRDTIM_MASK +#define USB3_0_XHCI_GUSB2PHYCFG_USBTRDTIM_DEFVAL 0x00000000 +#define USB3_0_XHCI_GUSB2PHYCFG_USBTRDTIM_SHIFT 10 +#define USB3_0_XHCI_GUSB2PHYCFG_USBTRDTIM_MASK 0x00003C00U + +/*Transceiver Delay: Enables a delay between the assertion of the UTMI/ULPI Transceiver Select signal (for HS) and the assertio + of the TxValid signal during a HS Chirp. When this bit is set to 1, a delay (of approximately 2.5 us) is introduced from the + time when the Transceiver Select is set to 2'b00 (HS) to the time the TxValid is driven to 0 for sending the chirp-K. This de + ay is required for some UTMI/ULPI PHYs. Note: - If you enable the hibernation feature when the device core comes out of power + off, you must re-initialize this bit with the appropriate value because the core does not save and restore this bit value dur + ng hibernation. - This bit is valid only in device mode.*/ +#undef USB3_0_XHCI_GUSB2PHYCFG_XCVRDLY_DEFVAL +#undef USB3_0_XHCI_GUSB2PHYCFG_XCVRDLY_SHIFT +#undef USB3_0_XHCI_GUSB2PHYCFG_XCVRDLY_MASK +#define USB3_0_XHCI_GUSB2PHYCFG_XCVRDLY_DEFVAL 0x00000000 +#define USB3_0_XHCI_GUSB2PHYCFG_XCVRDLY_SHIFT 9 +#define USB3_0_XHCI_GUSB2PHYCFG_XCVRDLY_MASK 0x00000200U + +/*Enable utmi_sleep_n and utmi_l1_suspend_n (EnblSlpM) The application uses this bit to control utmi_sleep_n and utmi_l1_suspen + _n assertion to the PHY in the L1 state. - 1'b0: utmi_sleep_n and utmi_l1_suspend_n assertion from the core is not transferre + to the external PHY. - 1'b1: utmi_sleep_n and utmi_l1_suspend_n assertion from the core is transferred to the external PHY. + ote: This bit must be set high for Port0 if PHY is used. Note: In Device mode - Before issuing any device endpoint command wh + n operating in 2.0 speeds, disable this bit and enable it after the command completes. Without disabling this bit, if a comma + d is issued when the device is in L1 state and if mac2_clk (utmi_clk/ulpi_clk) is gated off, the command will not get complet + d.*/ +#undef USB3_0_XHCI_GUSB2PHYCFG_ENBLSLPM_DEFVAL +#undef USB3_0_XHCI_GUSB2PHYCFG_ENBLSLPM_SHIFT +#undef USB3_0_XHCI_GUSB2PHYCFG_ENBLSLPM_MASK +#define USB3_0_XHCI_GUSB2PHYCFG_ENBLSLPM_DEFVAL 0x00000000 +#define USB3_0_XHCI_GUSB2PHYCFG_ENBLSLPM_SHIFT 8 +#define USB3_0_XHCI_GUSB2PHYCFG_ENBLSLPM_MASK 0x00000100U + +/*USB 2.0 High-Speed PHY or USB 1.1 Full-Speed Serial Transceiver Select The application uses this bit to select a high-speed P + Y or a full-speed transceiver. - 1'b0: USB 2.0 high-speed UTMI+ or ULPI PHY. This bit is always 0, with Write Only access. - + 'b1: USB 1.1 full-speed serial transceiver. This bit is always 1, with Write Only access. If both interface types are selecte + in coreConsultant (that is, parameters' values are not zero), the application uses this bit to select the active interface i + active, with Read-Write bit access. Note: USB 1.1 full-serial transceiver is not supported. This bit always reads as 1'b0.*/ +#undef USB3_0_XHCI_GUSB2PHYCFG_PHYSEL_DEFVAL +#undef USB3_0_XHCI_GUSB2PHYCFG_PHYSEL_SHIFT +#undef USB3_0_XHCI_GUSB2PHYCFG_PHYSEL_MASK +#define USB3_0_XHCI_GUSB2PHYCFG_PHYSEL_DEFVAL 0x00000000 +#define USB3_0_XHCI_GUSB2PHYCFG_PHYSEL_SHIFT 7 +#define USB3_0_XHCI_GUSB2PHYCFG_PHYSEL_MASK 0x00000080U + +/*Full-Speed Serial Interface Select (FSIntf) The application uses this bit to select a unidirectional or bidirectional USB 1.1 + full-speed serial transceiver interface. - 1'b0: 6-pin unidirectional full-speed serial interface. This bit is set to 0 with + ead Only access. - 1'b1: 3-pin bidirectional full-speed serial interface. This bit is set to 0 with Read Only access. Note: U + B 1.1 full-speed serial interface is not supported. This bit always reads as 1'b0.*/ +#undef USB3_0_XHCI_GUSB2PHYCFG_FSINTF_DEFVAL +#undef USB3_0_XHCI_GUSB2PHYCFG_FSINTF_SHIFT +#undef USB3_0_XHCI_GUSB2PHYCFG_FSINTF_MASK +#define USB3_0_XHCI_GUSB2PHYCFG_FSINTF_DEFVAL 0x00000000 +#define USB3_0_XHCI_GUSB2PHYCFG_FSINTF_SHIFT 5 +#define USB3_0_XHCI_GUSB2PHYCFG_FSINTF_MASK 0x00000020U + +/*ULPI or UTMI+ Select (ULPI_UTMI_Sel) The application uses this bit to select a UTMI+ or ULPI Interface. - 1'b0: UTMI+ Interfa + e - 1'b1: ULPI Interface This bit is writable only if UTMI+ and ULPI is specified for High-Speed PHY Interface(s) in coreCons + ltant configuration (DWC_USB3_HSPHY_INTERFACE = 3). Otherwise, this bit is read-only and the value depends on the interface s + lected through DWC_USB3_HSPHY_INTERFACE.*/ +#undef USB3_0_XHCI_GUSB2PHYCFG_ULPI_UTMI_SEL_DEFVAL +#undef USB3_0_XHCI_GUSB2PHYCFG_ULPI_UTMI_SEL_SHIFT +#undef USB3_0_XHCI_GUSB2PHYCFG_ULPI_UTMI_SEL_MASK +#define USB3_0_XHCI_GUSB2PHYCFG_ULPI_UTMI_SEL_DEFVAL 0x00000000 +#define USB3_0_XHCI_GUSB2PHYCFG_ULPI_UTMI_SEL_SHIFT 4 +#define USB3_0_XHCI_GUSB2PHYCFG_ULPI_UTMI_SEL_MASK 0x00000010U + +/*PHY Interface (PHYIf) If UTMI+ is selected, the application uses this bit to configure the core to support a UTMI+ PHY with a + 8- or 16-bit interface. - 1'b0: 8 bits - 1'b1: 16 bits ULPI Mode: 1'b0 Note: - All the enabled 2.0 ports must have the same + lock frequency as Port0 clock frequency (utmi_clk[0]). - The UTMI 8-bit and 16-bit modes cannot be used together for differen + ports at the same time (that is, all the ports must be in 8-bit mode, or all of them must be in 16-bit mode, at a time). - I + any of the USB 2.0 ports is selected as ULPI port for operation, then all the USB 2.0 ports must be operating at 60 MHz.*/ +#undef USB3_0_XHCI_GUSB2PHYCFG_PHYIF_DEFVAL +#undef USB3_0_XHCI_GUSB2PHYCFG_PHYIF_SHIFT +#undef USB3_0_XHCI_GUSB2PHYCFG_PHYIF_MASK +#define USB3_0_XHCI_GUSB2PHYCFG_PHYIF_DEFVAL 0x00000000 +#define USB3_0_XHCI_GUSB2PHYCFG_PHYIF_SHIFT 3 +#define USB3_0_XHCI_GUSB2PHYCFG_PHYIF_MASK 0x00000008U + +/*HS/FS Timeout Calibration (TOutCal) The number of PHY clocks, as indicated by the application in this field, is multiplied by + a bit-time factor; this factor is added to the high-speed/full-speed interpacket timeout duration in the core to account for + dditional delays introduced by the PHY. This may be required, since the delay introduced by the PHY in generating the linesta + e condition may vary among PHYs. The USB standard timeout value for high-speed operation is 736 to 816 (inclusive) bit times. + The USB standard timeout value for full-speed operation is 16 to 18 (inclusive) bit times. The application must program this + ield based on the speed of connection. The number of bit times added per PHY clock are: High-speed operation: - One 30-MHz PH + clock = 16 bit times - One 60-MHz PHY clock = 8 bit times Full-speed operation: - One 30-MHz PHY clock = 0.4 bit times - One + 60-MHz PHY clock = 0.2 bit times - One 48-MHz PHY clock = 0.25 bit times*/ +#undef USB3_0_XHCI_GUSB2PHYCFG_TOUTCAL_DEFVAL +#undef USB3_0_XHCI_GUSB2PHYCFG_TOUTCAL_SHIFT +#undef USB3_0_XHCI_GUSB2PHYCFG_TOUTCAL_MASK +#define USB3_0_XHCI_GUSB2PHYCFG_TOUTCAL_DEFVAL 0x00000000 +#define USB3_0_XHCI_GUSB2PHYCFG_TOUTCAL_SHIFT 0 +#define USB3_0_XHCI_GUSB2PHYCFG_TOUTCAL_MASK 0x00000007U + +/*This field indicates the frame length adjustment to be applied when SOF/ITP counter is running on the ref_clk. This register + alue is used to adjust the ITP interval when GCTL[SOFITPSYNC] is set to '1'; SOF and ITP interval when GLADJ.GFLADJ_REFCLK_LP + _SEL is set to '1'. This field must be programmed to a non-zero value only if GFLADJ_REFCLK_LPM_SEL is set to '1' or GCTL.SOF + TPSYNC is set to '1'. The value is derived as follows: FLADJ_REF_CLK_FLADJ=((125000/ref_clk_period_integer)-(125000/ref_clk_p + riod)) * ref_clk_period where - the ref_clk_period_integer is the integer value of the ref_clk period got by truncating the d + cimal (fractional) value that is programmed in the GUCTL.REF_CLK_PERIOD field. - the ref_clk_period is the ref_clk period inc + uding the fractional value. Examples: If the ref_clk is 24 MHz then - GUCTL.REF_CLK_PERIOD = 41 - GFLADJ.GLADJ_REFCLK_FLADJ = + ((125000/41)-(125000/41.6666))*41.6666 = 2032 (ignoring the fractional value) If the ref_clk is 48 MHz then - GUCTL.REF_CLK_P + RIOD = 20 - GFLADJ.GLADJ_REFCLK_FLADJ = ((125000/20)-(125000/20.8333))*20.8333 = 5208 (ignoring the fractional value)*/ +#undef USB3_0_XHCI_GFLADJ_GFLADJ_REFCLK_FLADJ_DEFVAL +#undef USB3_0_XHCI_GFLADJ_GFLADJ_REFCLK_FLADJ_SHIFT +#undef USB3_0_XHCI_GFLADJ_GFLADJ_REFCLK_FLADJ_MASK +#define USB3_0_XHCI_GFLADJ_GFLADJ_REFCLK_FLADJ_DEFVAL 0x00000000 +#define USB3_0_XHCI_GFLADJ_GFLADJ_REFCLK_FLADJ_SHIFT 8 +#define USB3_0_XHCI_GFLADJ_GFLADJ_REFCLK_FLADJ_MASK 0x003FFF00U + +/*If TRUE Completion Timeout Disable is supported. This is required to be TRUE for Endpoint and either setting allowed for Root + ports. Drives Device Capability 2 [4]; EP=0x0001; RP=0x0001*/ +#undef PCIE_ATTRIB_ATTR_25_ATTR_CPL_TIMEOUT_DISABLE_SUPPORTED_DEFVAL +#undef PCIE_ATTRIB_ATTR_25_ATTR_CPL_TIMEOUT_DISABLE_SUPPORTED_SHIFT +#undef PCIE_ATTRIB_ATTR_25_ATTR_CPL_TIMEOUT_DISABLE_SUPPORTED_MASK +#define PCIE_ATTRIB_ATTR_25_ATTR_CPL_TIMEOUT_DISABLE_SUPPORTED_DEFVAL 0x00000905 +#define PCIE_ATTRIB_ATTR_25_ATTR_CPL_TIMEOUT_DISABLE_SUPPORTED_SHIFT 9 +#define PCIE_ATTRIB_ATTR_25_ATTR_CPL_TIMEOUT_DISABLE_SUPPORTED_MASK 0x00000200U + +/*Status Read value of PLL Lock*/ +#undef SERDES_L1_PLL_STATUS_READ_1_PLL_LOCK_STATUS_READ_DEFVAL +#undef SERDES_L1_PLL_STATUS_READ_1_PLL_LOCK_STATUS_READ_SHIFT +#undef SERDES_L1_PLL_STATUS_READ_1_PLL_LOCK_STATUS_READ_MASK +#define SERDES_L1_PLL_STATUS_READ_1_PLL_LOCK_STATUS_READ_DEFVAL 0x00000001 +#define SERDES_L1_PLL_STATUS_READ_1_PLL_LOCK_STATUS_READ_SHIFT 4 +#define SERDES_L1_PLL_STATUS_READ_1_PLL_LOCK_STATUS_READ_MASK 0x00000010U +#define SERDES_L1_PLL_STATUS_READ_1_OFFSET 0XFD4063E4 + +/*Status Read value of PLL Lock*/ +#undef SERDES_L2_PLL_STATUS_READ_1_PLL_LOCK_STATUS_READ_DEFVAL +#undef SERDES_L2_PLL_STATUS_READ_1_PLL_LOCK_STATUS_READ_SHIFT +#undef SERDES_L2_PLL_STATUS_READ_1_PLL_LOCK_STATUS_READ_MASK +#define SERDES_L2_PLL_STATUS_READ_1_PLL_LOCK_STATUS_READ_DEFVAL 0x00000001 +#define SERDES_L2_PLL_STATUS_READ_1_PLL_LOCK_STATUS_READ_SHIFT 4 +#define SERDES_L2_PLL_STATUS_READ_1_PLL_LOCK_STATUS_READ_MASK 0x00000010U +#define SERDES_L2_PLL_STATUS_READ_1_OFFSET 0XFD40A3E4 + +/*Status Read value of PLL Lock*/ +#undef SERDES_L3_PLL_STATUS_READ_1_PLL_LOCK_STATUS_READ_DEFVAL +#undef SERDES_L3_PLL_STATUS_READ_1_PLL_LOCK_STATUS_READ_SHIFT +#undef SERDES_L3_PLL_STATUS_READ_1_PLL_LOCK_STATUS_READ_MASK +#define SERDES_L3_PLL_STATUS_READ_1_PLL_LOCK_STATUS_READ_DEFVAL 0x00000001 +#define SERDES_L3_PLL_STATUS_READ_1_PLL_LOCK_STATUS_READ_SHIFT 4 +#define SERDES_L3_PLL_STATUS_READ_1_PLL_LOCK_STATUS_READ_MASK 0x00000010U +#define SERDES_L3_PLL_STATUS_READ_1_OFFSET 0XFD40E3E4 + +/*CIBGMN: COMINIT Burst Gap Minimum.*/ +#undef SATA_AHCI_VENDOR_PP2C_CIBGMN_DEFVAL +#undef SATA_AHCI_VENDOR_PP2C_CIBGMN_SHIFT +#undef SATA_AHCI_VENDOR_PP2C_CIBGMN_MASK +#define SATA_AHCI_VENDOR_PP2C_CIBGMN_DEFVAL 0x28184D1B +#define SATA_AHCI_VENDOR_PP2C_CIBGMN_SHIFT 0 +#define SATA_AHCI_VENDOR_PP2C_CIBGMN_MASK 0x000000FFU + +/*CIBGMX: COMINIT Burst Gap Maximum.*/ +#undef SATA_AHCI_VENDOR_PP2C_CIBGMX_DEFVAL +#undef SATA_AHCI_VENDOR_PP2C_CIBGMX_SHIFT +#undef SATA_AHCI_VENDOR_PP2C_CIBGMX_MASK +#define SATA_AHCI_VENDOR_PP2C_CIBGMX_DEFVAL 0x28184D1B +#define SATA_AHCI_VENDOR_PP2C_CIBGMX_SHIFT 8 +#define SATA_AHCI_VENDOR_PP2C_CIBGMX_MASK 0x0000FF00U + +/*CIBGN: COMINIT Burst Gap Nominal.*/ +#undef SATA_AHCI_VENDOR_PP2C_CIBGN_DEFVAL +#undef SATA_AHCI_VENDOR_PP2C_CIBGN_SHIFT +#undef SATA_AHCI_VENDOR_PP2C_CIBGN_MASK +#define SATA_AHCI_VENDOR_PP2C_CIBGN_DEFVAL 0x28184D1B +#define SATA_AHCI_VENDOR_PP2C_CIBGN_SHIFT 16 +#define SATA_AHCI_VENDOR_PP2C_CIBGN_MASK 0x00FF0000U + +/*CINMP: COMINIT Negate Minimum Period.*/ +#undef SATA_AHCI_VENDOR_PP2C_CINMP_DEFVAL +#undef SATA_AHCI_VENDOR_PP2C_CINMP_SHIFT +#undef SATA_AHCI_VENDOR_PP2C_CINMP_MASK +#define SATA_AHCI_VENDOR_PP2C_CINMP_DEFVAL 0x28184D1B +#define SATA_AHCI_VENDOR_PP2C_CINMP_SHIFT 24 +#define SATA_AHCI_VENDOR_PP2C_CINMP_MASK 0xFF000000U + +/*CWBGMN: COMWAKE Burst Gap Minimum.*/ +#undef SATA_AHCI_VENDOR_PP3C_CWBGMN_DEFVAL +#undef SATA_AHCI_VENDOR_PP3C_CWBGMN_SHIFT +#undef SATA_AHCI_VENDOR_PP3C_CWBGMN_MASK +#define SATA_AHCI_VENDOR_PP3C_CWBGMN_DEFVAL 0x0E081906 +#define SATA_AHCI_VENDOR_PP3C_CWBGMN_SHIFT 0 +#define SATA_AHCI_VENDOR_PP3C_CWBGMN_MASK 0x000000FFU + +/*CWBGMX: COMWAKE Burst Gap Maximum.*/ +#undef SATA_AHCI_VENDOR_PP3C_CWBGMX_DEFVAL +#undef SATA_AHCI_VENDOR_PP3C_CWBGMX_SHIFT +#undef SATA_AHCI_VENDOR_PP3C_CWBGMX_MASK +#define SATA_AHCI_VENDOR_PP3C_CWBGMX_DEFVAL 0x0E081906 +#define SATA_AHCI_VENDOR_PP3C_CWBGMX_SHIFT 8 +#define SATA_AHCI_VENDOR_PP3C_CWBGMX_MASK 0x0000FF00U + +/*CWBGN: COMWAKE Burst Gap Nominal.*/ +#undef SATA_AHCI_VENDOR_PP3C_CWBGN_DEFVAL +#undef SATA_AHCI_VENDOR_PP3C_CWBGN_SHIFT +#undef SATA_AHCI_VENDOR_PP3C_CWBGN_MASK +#define SATA_AHCI_VENDOR_PP3C_CWBGN_DEFVAL 0x0E081906 +#define SATA_AHCI_VENDOR_PP3C_CWBGN_SHIFT 16 +#define SATA_AHCI_VENDOR_PP3C_CWBGN_MASK 0x00FF0000U + +/*CWNMP: COMWAKE Negate Minimum Period.*/ +#undef SATA_AHCI_VENDOR_PP3C_CWNMP_DEFVAL +#undef SATA_AHCI_VENDOR_PP3C_CWNMP_SHIFT +#undef SATA_AHCI_VENDOR_PP3C_CWNMP_MASK +#define SATA_AHCI_VENDOR_PP3C_CWNMP_DEFVAL 0x0E081906 +#define SATA_AHCI_VENDOR_PP3C_CWNMP_SHIFT 24 +#define SATA_AHCI_VENDOR_PP3C_CWNMP_MASK 0xFF000000U + +/*BMX: COM Burst Maximum.*/ +#undef SATA_AHCI_VENDOR_PP4C_BMX_DEFVAL +#undef SATA_AHCI_VENDOR_PP4C_BMX_SHIFT +#undef SATA_AHCI_VENDOR_PP4C_BMX_MASK +#define SATA_AHCI_VENDOR_PP4C_BMX_DEFVAL 0x064A0813 +#define SATA_AHCI_VENDOR_PP4C_BMX_SHIFT 0 +#define SATA_AHCI_VENDOR_PP4C_BMX_MASK 0x000000FFU + +/*BNM: COM Burst Nominal.*/ +#undef SATA_AHCI_VENDOR_PP4C_BNM_DEFVAL +#undef SATA_AHCI_VENDOR_PP4C_BNM_SHIFT +#undef SATA_AHCI_VENDOR_PP4C_BNM_MASK +#define SATA_AHCI_VENDOR_PP4C_BNM_DEFVAL 0x064A0813 +#define SATA_AHCI_VENDOR_PP4C_BNM_SHIFT 8 +#define SATA_AHCI_VENDOR_PP4C_BNM_MASK 0x0000FF00U + +/*SFD: Signal Failure Detection, if the signal detection de-asserts for a time greater than this then the OOB detector will det + rmine this is a line idle and cause the PhyInit state machine to exit the Phy Ready State. A value of zero disables the Signa + Failure Detector. The value is based on the OOB Detector Clock typically (PMCLK Clock Period) * SFD giving a nominal time of + 500ns based on a 150MHz PMCLK.*/ +#undef SATA_AHCI_VENDOR_PP4C_SFD_DEFVAL +#undef SATA_AHCI_VENDOR_PP4C_SFD_SHIFT +#undef SATA_AHCI_VENDOR_PP4C_SFD_MASK +#define SATA_AHCI_VENDOR_PP4C_SFD_DEFVAL 0x064A0813 +#define SATA_AHCI_VENDOR_PP4C_SFD_SHIFT 16 +#define SATA_AHCI_VENDOR_PP4C_SFD_MASK 0x00FF0000U + +/*PTST: Partial to Slumber timer value, specific delay the controller should apply while in partial before entering slumber. Th + value is bases on the system clock divided by 128, total delay = (Sys Clock Period) * PTST * 128*/ +#undef SATA_AHCI_VENDOR_PP4C_PTST_DEFVAL +#undef SATA_AHCI_VENDOR_PP4C_PTST_SHIFT +#undef SATA_AHCI_VENDOR_PP4C_PTST_MASK +#define SATA_AHCI_VENDOR_PP4C_PTST_DEFVAL 0x064A0813 +#define SATA_AHCI_VENDOR_PP4C_PTST_SHIFT 24 +#define SATA_AHCI_VENDOR_PP4C_PTST_MASK 0xFF000000U + +/*RIT: Retry Interval Timer. The calculated value divided by two, the lower digit of precision is not needed.*/ +#undef SATA_AHCI_VENDOR_PP5C_RIT_DEFVAL +#undef SATA_AHCI_VENDOR_PP5C_RIT_SHIFT +#undef SATA_AHCI_VENDOR_PP5C_RIT_MASK +#define SATA_AHCI_VENDOR_PP5C_RIT_DEFVAL 0x3FFC96A4 +#define SATA_AHCI_VENDOR_PP5C_RIT_SHIFT 0 +#define SATA_AHCI_VENDOR_PP5C_RIT_MASK 0x000FFFFFU + +/*RCT: Rate Change Timer, a value based on the 54.2us for which a SATA device will transmit at a fixed rate ALIGNp after OOB ha + completed, for a fast SERDES it is suggested that this value be 54.2us / 4*/ +#undef SATA_AHCI_VENDOR_PP5C_RCT_DEFVAL +#undef SATA_AHCI_VENDOR_PP5C_RCT_SHIFT +#undef SATA_AHCI_VENDOR_PP5C_RCT_MASK +#define SATA_AHCI_VENDOR_PP5C_RCT_DEFVAL 0x3FFC96A4 +#define SATA_AHCI_VENDOR_PP5C_RCT_SHIFT 20 +#define SATA_AHCI_VENDOR_PP5C_RCT_MASK 0xFFF00000U +#undef CRL_APB_RST_LPD_TOP_OFFSET +#define CRL_APB_RST_LPD_TOP_OFFSET 0XFF5E023C +#undef CRL_APB_RST_LPD_IOU0_OFFSET +#define CRL_APB_RST_LPD_IOU0_OFFSET 0XFF5E0230 +#undef CRF_APB_RST_FPD_TOP_OFFSET +#define CRF_APB_RST_FPD_TOP_OFFSET 0XFD1A0100 +#undef DP_DP_TX_PHY_POWER_DOWN_OFFSET +#define DP_DP_TX_PHY_POWER_DOWN_OFFSET 0XFD4A0238 +#undef DP_DP_PHY_RESET_OFFSET +#define DP_DP_PHY_RESET_OFFSET 0XFD4A0200 +#undef CRF_APB_RST_FPD_TOP_OFFSET +#define CRF_APB_RST_FPD_TOP_OFFSET 0XFD1A0100 + +/*USB 0 reset for control registers*/ +#undef CRL_APB_RST_LPD_TOP_USB0_APB_RESET_DEFVAL +#undef CRL_APB_RST_LPD_TOP_USB0_APB_RESET_SHIFT +#undef CRL_APB_RST_LPD_TOP_USB0_APB_RESET_MASK +#define CRL_APB_RST_LPD_TOP_USB0_APB_RESET_DEFVAL 0x00188FDF +#define CRL_APB_RST_LPD_TOP_USB0_APB_RESET_SHIFT 10 +#define CRL_APB_RST_LPD_TOP_USB0_APB_RESET_MASK 0x00000400U + +/*USB 0 sleep circuit reset*/ +#undef CRL_APB_RST_LPD_TOP_USB0_HIBERRESET_DEFVAL +#undef CRL_APB_RST_LPD_TOP_USB0_HIBERRESET_SHIFT +#undef CRL_APB_RST_LPD_TOP_USB0_HIBERRESET_MASK +#define CRL_APB_RST_LPD_TOP_USB0_HIBERRESET_DEFVAL 0x00188FDF +#define CRL_APB_RST_LPD_TOP_USB0_HIBERRESET_SHIFT 8 +#define CRL_APB_RST_LPD_TOP_USB0_HIBERRESET_MASK 0x00000100U + +/*USB 0 reset*/ +#undef CRL_APB_RST_LPD_TOP_USB0_CORERESET_DEFVAL +#undef CRL_APB_RST_LPD_TOP_USB0_CORERESET_SHIFT +#undef CRL_APB_RST_LPD_TOP_USB0_CORERESET_MASK +#define CRL_APB_RST_LPD_TOP_USB0_CORERESET_DEFVAL 0x00188FDF +#define CRL_APB_RST_LPD_TOP_USB0_CORERESET_SHIFT 6 +#define CRL_APB_RST_LPD_TOP_USB0_CORERESET_MASK 0x00000040U + +/*GEM 3 reset*/ +#undef CRL_APB_RST_LPD_IOU0_GEM3_RESET_DEFVAL +#undef CRL_APB_RST_LPD_IOU0_GEM3_RESET_SHIFT +#undef CRL_APB_RST_LPD_IOU0_GEM3_RESET_MASK +#define CRL_APB_RST_LPD_IOU0_GEM3_RESET_DEFVAL 0x0000000F +#define CRL_APB_RST_LPD_IOU0_GEM3_RESET_SHIFT 3 +#define CRL_APB_RST_LPD_IOU0_GEM3_RESET_MASK 0x00000008U + +/*Sata block level reset*/ +#undef CRF_APB_RST_FPD_TOP_SATA_RESET_DEFVAL +#undef CRF_APB_RST_FPD_TOP_SATA_RESET_SHIFT +#undef CRF_APB_RST_FPD_TOP_SATA_RESET_MASK +#define CRF_APB_RST_FPD_TOP_SATA_RESET_DEFVAL 0x000F9FFE +#define CRF_APB_RST_FPD_TOP_SATA_RESET_SHIFT 1 +#define CRF_APB_RST_FPD_TOP_SATA_RESET_MASK 0x00000002U + +/*Two bits per lane. When set to 11, moves the GT to power down mode. When set to 00, GT will be in active state. bits [1:0] - + ane0 Bits [3:2] - lane 1*/ +#undef DP_DP_TX_PHY_POWER_DOWN_POWER_DWN_DEFVAL +#undef DP_DP_TX_PHY_POWER_DOWN_POWER_DWN_SHIFT +#undef DP_DP_TX_PHY_POWER_DOWN_POWER_DWN_MASK +#define DP_DP_TX_PHY_POWER_DOWN_POWER_DWN_DEFVAL 0x00000000 +#define DP_DP_TX_PHY_POWER_DOWN_POWER_DWN_SHIFT 0 +#define DP_DP_TX_PHY_POWER_DOWN_POWER_DWN_MASK 0x0000000FU + +/*Set to '1' to hold the GT in reset. Clear to release.*/ +#undef DP_DP_PHY_RESET_GT_RESET_DEFVAL +#undef DP_DP_PHY_RESET_GT_RESET_SHIFT +#undef DP_DP_PHY_RESET_GT_RESET_MASK +#define DP_DP_PHY_RESET_GT_RESET_DEFVAL 0x00010003 +#define DP_DP_PHY_RESET_GT_RESET_SHIFT 1 +#define DP_DP_PHY_RESET_GT_RESET_MASK 0x00000002U + +/*Display Port block level reset (includes DPDMA)*/ +#undef CRF_APB_RST_FPD_TOP_DP_RESET_DEFVAL +#undef CRF_APB_RST_FPD_TOP_DP_RESET_SHIFT +#undef CRF_APB_RST_FPD_TOP_DP_RESET_MASK +#define CRF_APB_RST_FPD_TOP_DP_RESET_DEFVAL 0x000F9FFE +#define CRF_APB_RST_FPD_TOP_DP_RESET_SHIFT 16 +#define CRF_APB_RST_FPD_TOP_DP_RESET_MASK 0x00010000U +#undef CRF_APB_RST_FPD_TOP_OFFSET +#define CRF_APB_RST_FPD_TOP_OFFSET 0XFD1A0100 +#undef CRL_APB_RST_LPD_TOP_OFFSET +#define CRL_APB_RST_LPD_TOP_OFFSET 0XFF5E023C +#undef FPD_SLCR_AFI_FS_OFFSET +#define FPD_SLCR_AFI_FS_OFFSET 0XFD615000 +#undef LPD_SLCR_AFI_FS_OFFSET +#define LPD_SLCR_AFI_FS_OFFSET 0XFF419000 +#undef AFIFM0_AFIFM_RDCTRL_OFFSET +#define AFIFM0_AFIFM_RDCTRL_OFFSET 0XFD360000 +#undef AFIFM1_AFIFM_RDCTRL_OFFSET +#define AFIFM1_AFIFM_RDCTRL_OFFSET 0XFD370000 +#undef AFIFM2_AFIFM_RDCTRL_OFFSET +#define AFIFM2_AFIFM_RDCTRL_OFFSET 0XFD380000 +#undef AFIFM3_AFIFM_RDCTRL_OFFSET +#define AFIFM3_AFIFM_RDCTRL_OFFSET 0XFD390000 +#undef AFIFM4_AFIFM_RDCTRL_OFFSET +#define AFIFM4_AFIFM_RDCTRL_OFFSET 0XFD3A0000 +#undef AFIFM5_AFIFM_RDCTRL_OFFSET +#define AFIFM5_AFIFM_RDCTRL_OFFSET 0XFD3B0000 +#undef AFIFM6_AFIFM_RDCTRL_OFFSET +#define AFIFM6_AFIFM_RDCTRL_OFFSET 0XFF9B0000 +#undef AFIFM0_AFIFM_WRCTRL_OFFSET +#define AFIFM0_AFIFM_WRCTRL_OFFSET 0XFD360014 +#undef AFIFM1_AFIFM_WRCTRL_OFFSET +#define AFIFM1_AFIFM_WRCTRL_OFFSET 0XFD370014 +#undef AFIFM2_AFIFM_WRCTRL_OFFSET +#define AFIFM2_AFIFM_WRCTRL_OFFSET 0XFD380014 +#undef AFIFM3_AFIFM_WRCTRL_OFFSET +#define AFIFM3_AFIFM_WRCTRL_OFFSET 0XFD390014 +#undef AFIFM4_AFIFM_WRCTRL_OFFSET +#define AFIFM4_AFIFM_WRCTRL_OFFSET 0XFD3A0014 +#undef AFIFM5_AFIFM_WRCTRL_OFFSET +#define AFIFM5_AFIFM_WRCTRL_OFFSET 0XFD3B0014 +#undef AFIFM6_AFIFM_WRCTRL_OFFSET +#define AFIFM6_AFIFM_WRCTRL_OFFSET 0XFF9B0014 +#undef PMU_GLOBAL_REQ_PWRUP_INT_EN_OFFSET +#define PMU_GLOBAL_REQ_PWRUP_INT_EN_OFFSET 0XFFD80118 +#undef PMU_GLOBAL_REQ_PWRUP_TRIG_OFFSET +#define PMU_GLOBAL_REQ_PWRUP_TRIG_OFFSET 0XFFD80120 + +/*AF_FM0 block level reset*/ +#undef CRF_APB_RST_FPD_TOP_AFI_FM0_RESET_DEFVAL +#undef CRF_APB_RST_FPD_TOP_AFI_FM0_RESET_SHIFT +#undef CRF_APB_RST_FPD_TOP_AFI_FM0_RESET_MASK +#define CRF_APB_RST_FPD_TOP_AFI_FM0_RESET_DEFVAL 0x000F9FFE +#define CRF_APB_RST_FPD_TOP_AFI_FM0_RESET_SHIFT 7 +#define CRF_APB_RST_FPD_TOP_AFI_FM0_RESET_MASK 0x00000080U + +/*AF_FM1 block level reset*/ +#undef CRF_APB_RST_FPD_TOP_AFI_FM1_RESET_DEFVAL +#undef CRF_APB_RST_FPD_TOP_AFI_FM1_RESET_SHIFT +#undef CRF_APB_RST_FPD_TOP_AFI_FM1_RESET_MASK +#define CRF_APB_RST_FPD_TOP_AFI_FM1_RESET_DEFVAL 0x000F9FFE +#define CRF_APB_RST_FPD_TOP_AFI_FM1_RESET_SHIFT 8 +#define CRF_APB_RST_FPD_TOP_AFI_FM1_RESET_MASK 0x00000100U + +/*AF_FM2 block level reset*/ +#undef CRF_APB_RST_FPD_TOP_AFI_FM2_RESET_DEFVAL +#undef CRF_APB_RST_FPD_TOP_AFI_FM2_RESET_SHIFT +#undef CRF_APB_RST_FPD_TOP_AFI_FM2_RESET_MASK +#define CRF_APB_RST_FPD_TOP_AFI_FM2_RESET_DEFVAL 0x000F9FFE +#define CRF_APB_RST_FPD_TOP_AFI_FM2_RESET_SHIFT 9 +#define CRF_APB_RST_FPD_TOP_AFI_FM2_RESET_MASK 0x00000200U + +/*AF_FM3 block level reset*/ +#undef CRF_APB_RST_FPD_TOP_AFI_FM3_RESET_DEFVAL +#undef CRF_APB_RST_FPD_TOP_AFI_FM3_RESET_SHIFT +#undef CRF_APB_RST_FPD_TOP_AFI_FM3_RESET_MASK +#define CRF_APB_RST_FPD_TOP_AFI_FM3_RESET_DEFVAL 0x000F9FFE +#define CRF_APB_RST_FPD_TOP_AFI_FM3_RESET_SHIFT 10 +#define CRF_APB_RST_FPD_TOP_AFI_FM3_RESET_MASK 0x00000400U + +/*AF_FM4 block level reset*/ +#undef CRF_APB_RST_FPD_TOP_AFI_FM4_RESET_DEFVAL +#undef CRF_APB_RST_FPD_TOP_AFI_FM4_RESET_SHIFT +#undef CRF_APB_RST_FPD_TOP_AFI_FM4_RESET_MASK +#define CRF_APB_RST_FPD_TOP_AFI_FM4_RESET_DEFVAL 0x000F9FFE +#define CRF_APB_RST_FPD_TOP_AFI_FM4_RESET_SHIFT 11 +#define CRF_APB_RST_FPD_TOP_AFI_FM4_RESET_MASK 0x00000800U + +/*AF_FM5 block level reset*/ +#undef CRF_APB_RST_FPD_TOP_AFI_FM5_RESET_DEFVAL +#undef CRF_APB_RST_FPD_TOP_AFI_FM5_RESET_SHIFT +#undef CRF_APB_RST_FPD_TOP_AFI_FM5_RESET_MASK +#define CRF_APB_RST_FPD_TOP_AFI_FM5_RESET_DEFVAL 0x000F9FFE +#define CRF_APB_RST_FPD_TOP_AFI_FM5_RESET_SHIFT 12 +#define CRF_APB_RST_FPD_TOP_AFI_FM5_RESET_MASK 0x00001000U + +/*AFI FM 6*/ +#undef CRL_APB_RST_LPD_TOP_AFI_FM6_RESET_DEFVAL +#undef CRL_APB_RST_LPD_TOP_AFI_FM6_RESET_SHIFT +#undef CRL_APB_RST_LPD_TOP_AFI_FM6_RESET_MASK +#define CRL_APB_RST_LPD_TOP_AFI_FM6_RESET_DEFVAL 0x00188FDF +#define CRL_APB_RST_LPD_TOP_AFI_FM6_RESET_SHIFT 19 +#define CRL_APB_RST_LPD_TOP_AFI_FM6_RESET_MASK 0x00080000U + +/*Select the 32/64/128-bit data width selection for the Slave 0 00: 32-bit AXI data width (default) 01: 64-bit AXI data width 1 + : 128-bit AXI data width 11: reserved*/ +#undef FPD_SLCR_AFI_FS_DW_SS0_SEL_DEFVAL +#undef FPD_SLCR_AFI_FS_DW_SS0_SEL_SHIFT +#undef FPD_SLCR_AFI_FS_DW_SS0_SEL_MASK +#define FPD_SLCR_AFI_FS_DW_SS0_SEL_DEFVAL 0x00000A00 +#define FPD_SLCR_AFI_FS_DW_SS0_SEL_SHIFT 8 +#define FPD_SLCR_AFI_FS_DW_SS0_SEL_MASK 0x00000300U + +/*Select the 32/64/128-bit data width selection for the Slave 1 00: 32-bit AXI data width (default) 01: 64-bit AXI data width 1 + : 128-bit AXI data width 11: reserved*/ +#undef FPD_SLCR_AFI_FS_DW_SS1_SEL_DEFVAL +#undef FPD_SLCR_AFI_FS_DW_SS1_SEL_SHIFT +#undef FPD_SLCR_AFI_FS_DW_SS1_SEL_MASK +#define FPD_SLCR_AFI_FS_DW_SS1_SEL_DEFVAL 0x00000A00 +#define FPD_SLCR_AFI_FS_DW_SS1_SEL_SHIFT 10 +#define FPD_SLCR_AFI_FS_DW_SS1_SEL_MASK 0x00000C00U + +/*Select the 32/64/128-bit data width selection for the Slave 0 00: 32-bit AXI data width (default) 01: 64-bit AXI data width 1 + : 128-bit AXI data width 11: reserved*/ +#undef LPD_SLCR_AFI_FS_DW_SS2_SEL_DEFVAL +#undef LPD_SLCR_AFI_FS_DW_SS2_SEL_SHIFT +#undef LPD_SLCR_AFI_FS_DW_SS2_SEL_MASK +#define LPD_SLCR_AFI_FS_DW_SS2_SEL_DEFVAL 0x00000200 +#define LPD_SLCR_AFI_FS_DW_SS2_SEL_SHIFT 8 +#define LPD_SLCR_AFI_FS_DW_SS2_SEL_MASK 0x00000300U + +/*Configures the Read Channel Fabric interface width. 2'b11 : Reserved 2'b10 : 32-bit Fabric 2'b01 : 64-bit enabled 2'b00 : 128 + bit enabled*/ +#undef AFIFM0_AFIFM_RDCTRL_FABRIC_WIDTH_DEFVAL +#undef AFIFM0_AFIFM_RDCTRL_FABRIC_WIDTH_SHIFT +#undef AFIFM0_AFIFM_RDCTRL_FABRIC_WIDTH_MASK +#define AFIFM0_AFIFM_RDCTRL_FABRIC_WIDTH_DEFVAL 0x000003B0 +#define AFIFM0_AFIFM_RDCTRL_FABRIC_WIDTH_SHIFT 0 +#define AFIFM0_AFIFM_RDCTRL_FABRIC_WIDTH_MASK 0x00000003U + +/*Configures the Read Channel Fabric interface width. 2'b11 : Reserved 2'b10 : 32-bit Fabric 2'b01 : 64-bit enabled 2'b00 : 128 + bit enabled*/ +#undef AFIFM1_AFIFM_RDCTRL_FABRIC_WIDTH_DEFVAL +#undef AFIFM1_AFIFM_RDCTRL_FABRIC_WIDTH_SHIFT +#undef AFIFM1_AFIFM_RDCTRL_FABRIC_WIDTH_MASK +#define AFIFM1_AFIFM_RDCTRL_FABRIC_WIDTH_DEFVAL 0x000003B0 +#define AFIFM1_AFIFM_RDCTRL_FABRIC_WIDTH_SHIFT 0 +#define AFIFM1_AFIFM_RDCTRL_FABRIC_WIDTH_MASK 0x00000003U + +/*Configures the Read Channel Fabric interface width. 2'b11 : Reserved 2'b10 : 32-bit Fabric 2'b01 : 64-bit enabled 2'b00 : 128 + bit enabled*/ +#undef AFIFM2_AFIFM_RDCTRL_FABRIC_WIDTH_DEFVAL +#undef AFIFM2_AFIFM_RDCTRL_FABRIC_WIDTH_SHIFT +#undef AFIFM2_AFIFM_RDCTRL_FABRIC_WIDTH_MASK +#define AFIFM2_AFIFM_RDCTRL_FABRIC_WIDTH_DEFVAL 0x000003B0 +#define AFIFM2_AFIFM_RDCTRL_FABRIC_WIDTH_SHIFT 0 +#define AFIFM2_AFIFM_RDCTRL_FABRIC_WIDTH_MASK 0x00000003U + +/*Configures the Read Channel Fabric interface width. 2'b11 : Reserved 2'b10 : 32-bit Fabric 2'b01 : 64-bit enabled 2'b00 : 128 + bit enabled*/ +#undef AFIFM3_AFIFM_RDCTRL_FABRIC_WIDTH_DEFVAL +#undef AFIFM3_AFIFM_RDCTRL_FABRIC_WIDTH_SHIFT +#undef AFIFM3_AFIFM_RDCTRL_FABRIC_WIDTH_MASK +#define AFIFM3_AFIFM_RDCTRL_FABRIC_WIDTH_DEFVAL 0x000003B0 +#define AFIFM3_AFIFM_RDCTRL_FABRIC_WIDTH_SHIFT 0 +#define AFIFM3_AFIFM_RDCTRL_FABRIC_WIDTH_MASK 0x00000003U + +/*Configures the Read Channel Fabric interface width. 2'b11 : Reserved 2'b10 : 32-bit Fabric 2'b01 : 64-bit enabled 2'b00 : 128 + bit enabled*/ +#undef AFIFM4_AFIFM_RDCTRL_FABRIC_WIDTH_DEFVAL +#undef AFIFM4_AFIFM_RDCTRL_FABRIC_WIDTH_SHIFT +#undef AFIFM4_AFIFM_RDCTRL_FABRIC_WIDTH_MASK +#define AFIFM4_AFIFM_RDCTRL_FABRIC_WIDTH_DEFVAL 0x000003B0 +#define AFIFM4_AFIFM_RDCTRL_FABRIC_WIDTH_SHIFT 0 +#define AFIFM4_AFIFM_RDCTRL_FABRIC_WIDTH_MASK 0x00000003U + +/*Configures the Read Channel Fabric interface width. 2'b11 : Reserved 2'b10 : 32-bit Fabric 2'b01 : 64-bit enabled 2'b00 : 128 + bit enabled*/ +#undef AFIFM5_AFIFM_RDCTRL_FABRIC_WIDTH_DEFVAL +#undef AFIFM5_AFIFM_RDCTRL_FABRIC_WIDTH_SHIFT +#undef AFIFM5_AFIFM_RDCTRL_FABRIC_WIDTH_MASK +#define AFIFM5_AFIFM_RDCTRL_FABRIC_WIDTH_DEFVAL 0x000003B0 +#define AFIFM5_AFIFM_RDCTRL_FABRIC_WIDTH_SHIFT 0 +#define AFIFM5_AFIFM_RDCTRL_FABRIC_WIDTH_MASK 0x00000003U + +/*Configures the Read Channel Fabric interface width. 2'b11 : Reserved 2'b10 : 32-bit Fabric 2'b01 : 64-bit enabled 2'b00 : 128 + bit enabled*/ +#undef AFIFM6_AFIFM_RDCTRL_FABRIC_WIDTH_DEFVAL +#undef AFIFM6_AFIFM_RDCTRL_FABRIC_WIDTH_SHIFT +#undef AFIFM6_AFIFM_RDCTRL_FABRIC_WIDTH_MASK +#define AFIFM6_AFIFM_RDCTRL_FABRIC_WIDTH_DEFVAL 0x000003B0 +#define AFIFM6_AFIFM_RDCTRL_FABRIC_WIDTH_SHIFT 0 +#define AFIFM6_AFIFM_RDCTRL_FABRIC_WIDTH_MASK 0x00000003U + +/*Configures the Write Channel Fabric interface width. 2'b11 : Reserved 2'b10 : 32-bit Fabric 2'b01 : 64-bit enabled 2'b00 : 12 + -bit enabled*/ +#undef AFIFM0_AFIFM_WRCTRL_FABRIC_WIDTH_DEFVAL +#undef AFIFM0_AFIFM_WRCTRL_FABRIC_WIDTH_SHIFT +#undef AFIFM0_AFIFM_WRCTRL_FABRIC_WIDTH_MASK +#define AFIFM0_AFIFM_WRCTRL_FABRIC_WIDTH_DEFVAL 0x000003B0 +#define AFIFM0_AFIFM_WRCTRL_FABRIC_WIDTH_SHIFT 0 +#define AFIFM0_AFIFM_WRCTRL_FABRIC_WIDTH_MASK 0x00000003U + +/*Configures the Write Channel Fabric interface width. 2'b11 : Reserved 2'b10 : 32-bit Fabric 2'b01 : 64-bit enabled 2'b00 : 12 + -bit enabled*/ +#undef AFIFM1_AFIFM_WRCTRL_FABRIC_WIDTH_DEFVAL +#undef AFIFM1_AFIFM_WRCTRL_FABRIC_WIDTH_SHIFT +#undef AFIFM1_AFIFM_WRCTRL_FABRIC_WIDTH_MASK +#define AFIFM1_AFIFM_WRCTRL_FABRIC_WIDTH_DEFVAL 0x000003B0 +#define AFIFM1_AFIFM_WRCTRL_FABRIC_WIDTH_SHIFT 0 +#define AFIFM1_AFIFM_WRCTRL_FABRIC_WIDTH_MASK 0x00000003U + +/*Configures the Write Channel Fabric interface width. 2'b11 : Reserved 2'b10 : 32-bit Fabric 2'b01 : 64-bit enabled 2'b00 : 12 + -bit enabled*/ +#undef AFIFM2_AFIFM_WRCTRL_FABRIC_WIDTH_DEFVAL +#undef AFIFM2_AFIFM_WRCTRL_FABRIC_WIDTH_SHIFT +#undef AFIFM2_AFIFM_WRCTRL_FABRIC_WIDTH_MASK +#define AFIFM2_AFIFM_WRCTRL_FABRIC_WIDTH_DEFVAL 0x000003B0 +#define AFIFM2_AFIFM_WRCTRL_FABRIC_WIDTH_SHIFT 0 +#define AFIFM2_AFIFM_WRCTRL_FABRIC_WIDTH_MASK 0x00000003U + +/*Configures the Write Channel Fabric interface width. 2'b11 : Reserved 2'b10 : 32-bit Fabric 2'b01 : 64-bit enabled 2'b00 : 12 + -bit enabled*/ +#undef AFIFM3_AFIFM_WRCTRL_FABRIC_WIDTH_DEFVAL +#undef AFIFM3_AFIFM_WRCTRL_FABRIC_WIDTH_SHIFT +#undef AFIFM3_AFIFM_WRCTRL_FABRIC_WIDTH_MASK +#define AFIFM3_AFIFM_WRCTRL_FABRIC_WIDTH_DEFVAL 0x000003B0 +#define AFIFM3_AFIFM_WRCTRL_FABRIC_WIDTH_SHIFT 0 +#define AFIFM3_AFIFM_WRCTRL_FABRIC_WIDTH_MASK 0x00000003U + +/*Configures the Write Channel Fabric interface width. 2'b11 : Reserved 2'b10 : 32-bit Fabric 2'b01 : 64-bit enabled 2'b00 : 12 + -bit enabled*/ +#undef AFIFM4_AFIFM_WRCTRL_FABRIC_WIDTH_DEFVAL +#undef AFIFM4_AFIFM_WRCTRL_FABRIC_WIDTH_SHIFT +#undef AFIFM4_AFIFM_WRCTRL_FABRIC_WIDTH_MASK +#define AFIFM4_AFIFM_WRCTRL_FABRIC_WIDTH_DEFVAL 0x000003B0 +#define AFIFM4_AFIFM_WRCTRL_FABRIC_WIDTH_SHIFT 0 +#define AFIFM4_AFIFM_WRCTRL_FABRIC_WIDTH_MASK 0x00000003U + +/*Configures the Write Channel Fabric interface width. 2'b11 : Reserved 2'b10 : 32-bit Fabric 2'b01 : 64-bit enabled 2'b00 : 12 + -bit enabled*/ +#undef AFIFM5_AFIFM_WRCTRL_FABRIC_WIDTH_DEFVAL +#undef AFIFM5_AFIFM_WRCTRL_FABRIC_WIDTH_SHIFT +#undef AFIFM5_AFIFM_WRCTRL_FABRIC_WIDTH_MASK +#define AFIFM5_AFIFM_WRCTRL_FABRIC_WIDTH_DEFVAL 0x000003B0 +#define AFIFM5_AFIFM_WRCTRL_FABRIC_WIDTH_SHIFT 0 +#define AFIFM5_AFIFM_WRCTRL_FABRIC_WIDTH_MASK 0x00000003U + +/*Configures the Write Channel Fabric interface width. 2'b11 : Reserved 2'b10 : 32-bit Fabric 2'b01 : 64-bit enabled 2'b00 : 12 + -bit enabled*/ +#undef AFIFM6_AFIFM_WRCTRL_FABRIC_WIDTH_DEFVAL +#undef AFIFM6_AFIFM_WRCTRL_FABRIC_WIDTH_SHIFT +#undef AFIFM6_AFIFM_WRCTRL_FABRIC_WIDTH_MASK +#define AFIFM6_AFIFM_WRCTRL_FABRIC_WIDTH_DEFVAL 0x000003B0 +#define AFIFM6_AFIFM_WRCTRL_FABRIC_WIDTH_SHIFT 0 +#define AFIFM6_AFIFM_WRCTRL_FABRIC_WIDTH_MASK 0x00000003U + +/*Power-up Request Interrupt Enable for PL*/ +#undef PMU_GLOBAL_REQ_PWRUP_INT_EN_PL_DEFVAL +#undef PMU_GLOBAL_REQ_PWRUP_INT_EN_PL_SHIFT +#undef PMU_GLOBAL_REQ_PWRUP_INT_EN_PL_MASK +#define PMU_GLOBAL_REQ_PWRUP_INT_EN_PL_DEFVAL 0x00000000 +#define PMU_GLOBAL_REQ_PWRUP_INT_EN_PL_SHIFT 23 +#define PMU_GLOBAL_REQ_PWRUP_INT_EN_PL_MASK 0x00800000U + +/*Power-up Request Trigger for PL*/ +#undef PMU_GLOBAL_REQ_PWRUP_TRIG_PL_DEFVAL +#undef PMU_GLOBAL_REQ_PWRUP_TRIG_PL_SHIFT +#undef PMU_GLOBAL_REQ_PWRUP_TRIG_PL_MASK +#define PMU_GLOBAL_REQ_PWRUP_TRIG_PL_DEFVAL 0x00000000 +#define PMU_GLOBAL_REQ_PWRUP_TRIG_PL_SHIFT 23 +#define PMU_GLOBAL_REQ_PWRUP_TRIG_PL_MASK 0x00800000U + +/*Power-up Request Status for PL*/ +#undef PMU_GLOBAL_REQ_PWRUP_STATUS_PL_DEFVAL +#undef PMU_GLOBAL_REQ_PWRUP_STATUS_PL_SHIFT +#undef PMU_GLOBAL_REQ_PWRUP_STATUS_PL_MASK +#define PMU_GLOBAL_REQ_PWRUP_STATUS_PL_DEFVAL 0x00000000 +#define PMU_GLOBAL_REQ_PWRUP_STATUS_PL_SHIFT 23 +#define PMU_GLOBAL_REQ_PWRUP_STATUS_PL_MASK 0x00800000U +#define PMU_GLOBAL_REQ_PWRUP_STATUS_OFFSET 0XFFD80110 +#undef GPIO_MASK_DATA_5_MSW_OFFSET +#define GPIO_MASK_DATA_5_MSW_OFFSET 0XFF0A002C +#undef GPIO_DIRM_5_OFFSET +#define GPIO_DIRM_5_OFFSET 0XFF0A0344 +#undef GPIO_OEN_5_OFFSET +#define GPIO_OEN_5_OFFSET 0XFF0A0348 +#undef GPIO_DATA_5_OFFSET +#define GPIO_DATA_5_OFFSET 0XFF0A0054 +#undef GPIO_DATA_5_OFFSET +#define GPIO_DATA_5_OFFSET 0XFF0A0054 +#undef GPIO_DATA_5_OFFSET +#define GPIO_DATA_5_OFFSET 0XFF0A0054 + +/*Operation is the same as MASK_DATA_0_LSW[MASK_0_LSW]*/ +#undef GPIO_MASK_DATA_5_MSW_MASK_5_MSW_DEFVAL +#undef GPIO_MASK_DATA_5_MSW_MASK_5_MSW_SHIFT +#undef GPIO_MASK_DATA_5_MSW_MASK_5_MSW_MASK +#define GPIO_MASK_DATA_5_MSW_MASK_5_MSW_DEFVAL 0x00000000 +#define GPIO_MASK_DATA_5_MSW_MASK_5_MSW_SHIFT 16 +#define GPIO_MASK_DATA_5_MSW_MASK_5_MSW_MASK 0xFFFF0000U + +/*Operation is the same as DIRM_0[DIRECTION_0]*/ +#undef GPIO_DIRM_5_DIRECTION_5_DEFVAL +#undef GPIO_DIRM_5_DIRECTION_5_SHIFT +#undef GPIO_DIRM_5_DIRECTION_5_MASK +#define GPIO_DIRM_5_DIRECTION_5_DEFVAL +#define GPIO_DIRM_5_DIRECTION_5_SHIFT 0 +#define GPIO_DIRM_5_DIRECTION_5_MASK 0xFFFFFFFFU + +/*Operation is the same as OEN_0[OP_ENABLE_0]*/ +#undef GPIO_OEN_5_OP_ENABLE_5_DEFVAL +#undef GPIO_OEN_5_OP_ENABLE_5_SHIFT +#undef GPIO_OEN_5_OP_ENABLE_5_MASK +#define GPIO_OEN_5_OP_ENABLE_5_DEFVAL +#define GPIO_OEN_5_OP_ENABLE_5_SHIFT 0 +#define GPIO_OEN_5_OP_ENABLE_5_MASK 0xFFFFFFFFU + +/*Output Data*/ +#undef GPIO_DATA_5_DATA_5_DEFVAL +#undef GPIO_DATA_5_DATA_5_SHIFT +#undef GPIO_DATA_5_DATA_5_MASK +#define GPIO_DATA_5_DATA_5_DEFVAL +#define GPIO_DATA_5_DATA_5_SHIFT 0 +#define GPIO_DATA_5_DATA_5_MASK 0xFFFFFFFFU + +/*Output Data*/ +#undef GPIO_DATA_5_DATA_5_DEFVAL +#undef GPIO_DATA_5_DATA_5_SHIFT +#undef GPIO_DATA_5_DATA_5_MASK +#define GPIO_DATA_5_DATA_5_DEFVAL +#define GPIO_DATA_5_DATA_5_SHIFT 0 +#define GPIO_DATA_5_DATA_5_MASK 0xFFFFFFFFU + +/*Output Data*/ +#undef GPIO_DATA_5_DATA_5_DEFVAL +#undef GPIO_DATA_5_DATA_5_SHIFT +#undef GPIO_DATA_5_DATA_5_MASK +#define GPIO_DATA_5_DATA_5_DEFVAL +#define GPIO_DATA_5_DATA_5_SHIFT 0 +#define GPIO_DATA_5_DATA_5_MASK 0xFFFFFFFFU +#ifdef __cplusplus +extern "C" { +#endif + int psu_init (); + unsigned long psu_ps_pl_isolation_removal_data(); + unsigned long psu_ps_pl_reset_config_data(); + int psu_protection(); + int psu_fpd_protection(); + int psu_ocm_protection(); + int psu_ddr_protection(); + int psu_lpd_protection(); + int psu_protection_lock(); + unsigned long psu_apply_master_tz(); +#ifdef __cplusplus +} +#endif -- cgit v0.10.2 From f1a88cf6af6c474bcf53f8f2f32aea3af5419e7a Mon Sep 17 00:00:00 2001 From: Michal Simek Date: Thu, 8 Dec 2016 10:06:26 +0100 Subject: common: miiphyutil: Add helper function for mdio bus name The most of ethernet drivers are using this mdio registration sequence. strcpy(priv->bus->name, "emac"); mdio_register(priv->bus); Where driver can be used only with one MDIO bus because only unique name should be used. Other drivers are using unique device name for MDIO registration to support multiple instances. snprintf(priv->bus->name, sizeof(bus->name), "%s", name); With DM dev->seq is used more even in logs (like random MAC address generation: printf("\nWarning: %s (eth%d) using random MAC address - %pM\n", dev->name, dev->seq, pdata->enetaddr); ) where eth%d prefix is used. Simplify driver code to register mdio device with dev->seq number to simplify mdio registration and reduce code duplication across all drivers. With DM_SEQ_ALIAS enabled dev->seq reflects alias setting. Signed-off-by: Michal Simek --- For example: Board: Xilinx Zynq Net: ZYNQ GEM: e000b000, phyaddr 7, interface rgmii-id Warning: ethernet@e000b000 (eth0) using random MAC address - 7a:fc:90:53:6a:41 eth0: ethernet@e000b000ZYNQ GEM: e000c000, phyaddr ffffffff, interface rgmii-id Warning: ethernet@e000c000 (eth3) using random MAC address - 1a:ff:d7:1a:a1:b2 , eth3: ethernet@e000c000 ** Bad device size - mmc 0 ** Checking if uenvcmd is set ... Hit any key to stop autoboot: 0 Zynq> mdio list eth0: 17 - Marvell 88E1111S <--> ethernet@e000b000 eth3: 17 - Marvell 88E1111S <--> ethernet@e000c000 Zynq> diff --git a/common/miiphyutil.c b/common/miiphyutil.c index aca18db..0a83d64 100644 --- a/common/miiphyutil.c +++ b/common/miiphyutil.c @@ -107,6 +107,18 @@ int mdio_register(struct mii_dev *bus) return 0; } +int mdio_register_seq_name(struct mii_dev *bus, int seq) +{ + int ret; + + /* Setup a unique name for each mdio bus */ + ret = snprintf(bus->name, MDIO_NAME_LEN, "eth%d", seq); + if (ret < 0) + return ret; + + return mdio_register(bus); +} + int mdio_unregister(struct mii_dev *bus) { if (!bus) diff --git a/include/miiphy.h b/include/miiphy.h index 83141b4..47923bf 100644 --- a/include/miiphy.h +++ b/include/miiphy.h @@ -48,6 +48,7 @@ void miiphy_listdev(void); struct mii_dev *mdio_alloc(void); void mdio_free(struct mii_dev *bus); int mdio_register(struct mii_dev *bus); +int mdio_register_seq_name(struct mii_dev *bus, int seq); int mdio_unregister(struct mii_dev *bus); void mdio_list_devices(void); -- cgit v0.10.2 From b63cb3abbc626dc918828f302bd8ea72e7c226d2 Mon Sep 17 00:00:00 2001 From: Michal Simek Date: Thu, 8 Dec 2016 10:25:44 +0100 Subject: net: xilinx: Use mdio_register_seq() to support multiple instances axi_emac, emaclite and gem have the same issue with registering multiple instances with mdio busses. mdio bus name has to be uniq but drivers are setting up only one name for all. Use mdio_register_seq() and pass dev->seq number to allow multiple mdio instances registration. Reported-by: Phani Kiran Kara Signed-off-by: Michal Simek Series-to: u-boot Series-cc: Phani Kiran Kara diff --git a/drivers/net/xilinx_axi_emac.c b/drivers/net/xilinx_axi_emac.c index 5de06ef..51c7426 100644 --- a/drivers/net/xilinx_axi_emac.c +++ b/drivers/net/xilinx_axi_emac.c @@ -648,9 +648,8 @@ static int axi_emac_probe(struct udevice *dev) priv->bus->read = axiemac_miiphy_read; priv->bus->write = axiemac_miiphy_write; priv->bus->priv = priv; - strcpy(priv->bus->name, "axi_emac"); - ret = mdio_register(priv->bus); + ret = mdio_register_seq(priv->bus, dev->seq); if (ret) return ret; diff --git a/drivers/net/xilinx_emaclite.c b/drivers/net/xilinx_emaclite.c index 78ff44c..ea93cf9 100644 --- a/drivers/net/xilinx_emaclite.c +++ b/drivers/net/xilinx_emaclite.c @@ -566,9 +566,8 @@ static int emaclite_probe(struct udevice *dev) emaclite->bus->read = emaclite_miiphy_read; emaclite->bus->write = emaclite_miiphy_write; emaclite->bus->priv = emaclite; - strcpy(emaclite->bus->name, "emaclite"); - ret = mdio_register(emaclite->bus); + ret = mdio_register_seq(emaclite->bus, dev->seq); if (ret) return ret; diff --git a/drivers/net/zynq_gem.c b/drivers/net/zynq_gem.c index 526eac6..4ab7b40 100644 --- a/drivers/net/zynq_gem.c +++ b/drivers/net/zynq_gem.c @@ -647,9 +647,8 @@ static int zynq_gem_probe(struct udevice *dev) priv->bus->read = zynq_gem_miiphy_read; priv->bus->write = zynq_gem_miiphy_write; priv->bus->priv = priv; - strcpy(priv->bus->name, "gem"); - ret = mdio_register(priv->bus); + ret = mdio_register_seq_name(priv->bus, dev->seq); if (ret) return ret; -- cgit v0.10.2