Updating LockPick to support firmware version 18.0.0. Thanks to @Decscots on GitHub

Updating lockpick to work with 17.0.0
Bump version to v1.9.10
2024-03-28 15:13:21 +01:00 · 2023-10-11 17:31:37 +02:00 · 2023-02-22 16:18:38 -08:00 · 2023-02-22 16:05:22 -08:00 · 2023-02-21 23:10:17 +00:00 · 2022-11-06 17:59:36 -08:00
147 changed files with 9226 additions and 5055 deletions
--- a/.gitignore
+++ b/.gitignore
@ -1,4 +1,10 @@
 .vs
 .vscode
-build
+build/*
-output
+output/*
-research
+research/*
 loader/payload_00.h
 loader/payload_01.h
 tools/bin2c/bin2c
 keygen/tsec_keygen.h
 tools/lz/lz77
--- a/88
+++ b/88
@ -8,19 +8,21 @@ include $(DEVKITARM)/base_rules
 ################################################################################
-IPL_LOAD_ADDR := 0x40003000
+IPL_LOAD_ADDR := 0x40008000
-LPVERSION_MAJOR := 1
+MAGIC = 0x4B434F4C #"LOCK"
-LPVERSION_MINOR := 9
+include ./Versions.inc
 LPVERSION_BUGFX := 0
 ################################################################################
 TARGET := Lockpick_RCM
 BUILDDIR := build
 OUTPUTDIR := output
-SOURCEDIR = source
+SOURCEDIR := source
 BDKDIR := bdk
 BDKINC := -I./$(BDKDIR)
 KEYGENDIR := keygen
 KEYGEN := tsec_keygen
 KEYGENH := tsec_keygen.h
 VPATH = $(dir ./$(SOURCEDIR)/) $(dir $(wildcard ./$(SOURCEDIR)/*/)) $(dir $(wildcard ./$(SOURCEDIR)/*/*/))
 VPATH += $(dir $(wildcard ./$(BDKDIR)/)) $(dir $(wildcard ./$(BDKDIR)/*/)) $(dir $(wildcard ./$(BDKDIR)/*/*/))
@ -36,53 +38,93 @@ FFCFG_INC := '"../$(SOURCEDIR)/libs/fatfs/ffconf.h"'
 ################################################################################
-CUSTOMDEFINES := -DIPL_LOAD_ADDR=$(IPL_LOAD_ADDR)
+CUSTOMDEFINES := -DIPL_LOAD_ADDR=$(IPL_LOAD_ADDR) -DLP_MAGIC=$(MAGIC)
-CUSTOMDEFINES += -DLP_VER_MJ=$(LPVERSION_MAJOR) -DLP_VER_MN=$(LPVERSION_MINOR) -DLP_VER_BF=$(LPVERSION_BUGFX)
+CUSTOMDEFINES += -DLP_VER_MJ=$(LPVERSION_MAJOR) -DLP_VER_MN=$(LPVERSION_MINOR) -DLP_VER_BF=$(LPVERSION_BUGFX) -DLP_RESERVED=$(LPVERSION_RSVD)
 CUSTOMDEFINES += -DGFX_INC=$(GFX_INC) -DFFCFG_INC=$(FFCFG_INC)
 # 0: UART_A, 1: UART_B.
 #CUSTOMDEFINES += -DDEBUG_UART_PORT=0
 #CUSTOMDEFINES += -DDEBUG
 # UART Logging: Max baudrate 12.5M.
 # DEBUG_UART_PORT - 0: UART_A, 1: UART_B, 2: UART_C.
 #CUSTOMDEFINES += -DDEBUG_UART_BAUDRATE=115200 -DDEBUG_UART_INVERT=0 -DDEBUG_UART_PORT=0
 #TODO: Considering reinstating some of these when pointer warnings have been fixed.
 WARNINGS := -Wall -Wno-array-bounds -Wno-stringop-overread -Wno-stringop-overflow
 ARCH := -march=armv4t -mtune=arm7tdmi -mthumb -mthumb-interwork
-CFLAGS = $(ARCH) -Os -nostdlib -ffunction-sections -fdata-sections -fomit-frame-pointer -fno-inline -std=gnu11 -Wall $(CUSTOMDEFINES)
+CFLAGS = $(ARCH) -O2 -g -nostdlib -ffunction-sections -fdata-sections -fomit-frame-pointer -fno-inline -std=gnu11 $(WARNINGS) $(CUSTOMDEFINES)
 LDFLAGS = $(ARCH) -nostartfiles -lgcc -Wl,--nmagic,--gc-sections -Xlinker --defsym=IPL_LOAD_ADDR=$(IPL_LOAD_ADDR)
 LDRDIR := $(wildcard loader)
 TOOLSLZ := $(wildcard tools/lz)
 TOOLSB2C := $(wildcard tools/bin2c)
 TOOLS := $(TOOLSLZ) $(TOOLSB2C)
 ################################################################################
-.PHONY: all clean
+.PHONY: all clean $(LDRDIR) $(TOOLS)
-all: $(OUTPUTDIR)/$(TARGET).bin
+all: $(OUTPUTDIR)/$(TARGET).bin $(LDRDIR)
-	@echo -n "Payload size is "
+	@echo "--------------------------------------"
 	@echo -n "Uncompr size: "
 	$(eval BIN_SIZE = $(shell wc -c < $(OUTPUTDIR)/$(TARGET)_unc.bin))
 	@echo $(BIN_SIZE)" Bytes"
 	@echo "Uncompr Max:  140288 Bytes + 3 KiB BSS"
 	@if [ ${BIN_SIZE} -gt 140288 ]; then echo "\e[1;33mUncompr size exceeds limit!\e[0m"; fi
 	@echo -n "Payload size: "
 	$(eval BIN_SIZE = $(shell wc -c < $(OUTPUTDIR)/$(TARGET).bin))
-	@echo $(BIN_SIZE)
+	@echo $(BIN_SIZE)" Bytes"
-	@echo "Max size is 126296 Bytes."
+	@echo "Payload Max:  126296 Bytes"
 	@if [ ${BIN_SIZE} -gt 126296 ]; then echo "\e[1;33mPayload size exceeds limit!\e[0m"; fi
 	@echo "--------------------------------------"
-clean:
+clean: $(TOOLS)
 	@rm -rf $(BUILDDIR)
 	@rm -rf $(OUTPUTDIR)
-$(OUTPUTDIR)/$(TARGET).bin: $(BUILDDIR)/$(TARGET)/$(TARGET).elf
+$(LDRDIR): $(OUTPUTDIR)/$(TARGET).bin
 	@$(TOOLSLZ)/lz77 $(OUTPUTDIR)/$(TARGET).bin
 	mv $(OUTPUTDIR)/$(TARGET).bin $(OUTPUTDIR)/$(TARGET)_unc.bin
 	@mv $(OUTPUTDIR)/$(TARGET).bin.00.lz payload_00
 	@mv $(OUTPUTDIR)/$(TARGET).bin.01.lz payload_01
 	@$(TOOLSB2C)/bin2c payload_00 > $(LDRDIR)/payload_00.h
 	@$(TOOLSB2C)/bin2c payload_01 > $(LDRDIR)/payload_01.h
 	@rm payload_00
 	@rm payload_01
 	@$(MAKE) --no-print-directory -C $@ $(MAKECMDGOALS) -$(MAKEFLAGS) PAYLOAD_NAME=$(TARGET)
 $(TOOLS):
 	@$(MAKE) --no-print-directory -C $@ $(MAKECMDGOALS) -$(MAKEFLAGS)
 $(OUTPUTDIR)/$(TARGET).bin: $(BUILDDIR)/$(TARGET)/$(TARGET).elf $(TOOLS)
 	@mkdir -p "$(@D)"
 	$(OBJCOPY) -S -O binary $< $@
 $(BUILDDIR)/$(TARGET)/$(TARGET).elf: $(OBJS)
-	$(CC) $(LDFLAGS) -T $(SOURCEDIR)/link.ld $^ -o $@
+	@$(CC) $(LDFLAGS) -T $(SOURCEDIR)/link.ld $^ -o $@
 	@echo "Lockpick_RCM was built with the following flags:\nCFLAGS:  "$(CFLAGS)"\nLDFLAGS: "$(LDFLAGS)
 $(OBJS): | $(KEYGENDIR)
 $(KEYGENDIR): $(TOOLS)
 	@cd $(KEYGENDIR) && ../$(TOOLSB2C)/bin2c $(KEYGEN) > $(KEYGENH)
 $(BUILDDIR)/$(TARGET)/%.o: $(SOURCEDIR)/%.c
 	@mkdir -p "$(@D)"
-	$(CC) $(CFLAGS) $(BDKINC) -c $< -o $@
+	@echo Building $@
 	@$(CC) $(CFLAGS) $(BDKINC) -c $< -o $@
 $(BUILDDIR)/$(TARGET)/%.o: $(SOURCEDIR)/%.S
 	@mkdir -p "$(@D)"
-	$(CC) $(CFLAGS) -c $< -o $@
+	@echo Building $@
 	@$(CC) $(CFLAGS) -c $< -o $@
 $(BUILDDIR)/$(TARGET)/%.o: $(BDKDIR)/%.c
 	@mkdir -p "$(@D)"
-	$(CC) $(CFLAGS) $(BDKINC) -c $< -o $@
+	@echo Building $@
 	@$(CC) $(CFLAGS) $(BDKINC) -c $< -o $@
 $(BUILDDIR)/$(TARGET)/%.o: $(BDKDIR)/%.S
 	@mkdir -p "$(@D)"
-	$(CC) $(CFLAGS) -c $< -o $@
+	@echo Building $@
 	@$(CC) $(CFLAGS) -c $< -o $@
--- a/README.md
+++ b/README.md
@ -9,7 +9,30 @@ Usage
 * It is highly recommended, but not required, to place Minerva on SD from the latest [Hekate](https://github.com/CTCaer/hekate/releases) for best performance, especially while dumping titlekeys - the file and path is `/bootloader/sys/libsys_minerva.bso`
 * Launch Lockpick_RCM.bin using your favorite payload injector or chainloader
 * Upon completion, keys will be saved to `/switch/prod.keys` and titlekeys to `/switch/title.keys` on SD
-* If the console has Firmware 7.x or higher, the `/sept/` folder from [Atmosphère](https://github.com/Atmosphere-NX/Atmosphere/releases) or [Kosmos](https://github.com/AtlasNX/Kosmos/releases) release zip must be present on SD or else only keyblob master key derivation is possible (ie. up to `master_key_05` only)
+* This release bundles the Falcon keygen from [Atmosphère-NX](https://github.com/Atmosphere-NX/Atmosphere)
 Mariko-Specific Keys
 =
 Mariko consoles have several unique keys and protected keyslots. To get your SBK or the Mariko specific keys, you will need to use the `/switch/partialaes.keys` file along with a brute forcing tool such as <https://files.sshnuke.net/PartialAesKeyCrack.zip>. The contents of this file are the keyslot number followed by the result of that keyslot encrypting 16 null bytes. With the tool linked above, enter them in sequence for a given keyslot you want the contents of, for example: `PartialAesKeyCrack.exe <num1> <num2> <num3> <num4>` with the `--numthreads=N` where N is the number of threads you can dedicate to the brute force.
 The keyslots are as follows, with names recognized by `hactool`:
 * 0-11 - `mariko_aes_class_key_xx` (this is not used by the Switch but is set by the bootrom; hactoolnet recognizes it but it serves no purpose)
 * 12 - `mariko_kek` (not unique - this is used for master key derivation)
 * 13 - `mariko_bek` (not unique - this is used for BCT and package1 decryption)
 * 14 - `secure_boot_key` (console unique - this isn't needed for further key derivation than what Lockpick_RCM does but might be nice to have for your records)
 * 15 - Secure storage key (console unique - this is not used on retail or dev consoles and not recognized by any tools)
 So if you want to brute force the `mariko_kek`, open your `partialaes.keys` and observe the numbers beneath keyslot 12. Here's an example with fake numbers:
 ```
 12
 11111111111111111111111111111111 22222222222222222222222222222222 33333333333333333333333333333333 44444444444444444444444444444444
 ```
 Then take those numbers and open a command prompt window at the location of the exe linked above and type:
 `PartialAesKeyCrack.exe 11111111111111111111111111111111 22222222222222222222222222222222 33333333333333333333333333333333 44444444444444444444444444444444` and if you're on a powerful enough multicore system, add ` --numthreads=[whatever number of threads]`, ideally not your system's maximum if it's, for example, an older laptop with a low-end dual core CPU. On a Ryzen 3900x with 24 threads this generates a lot of heat but finishes in about 45 seconds.
 These keys never change so a brute force need only be conducted once.
 This works due to the security engine immediately flushing writes to keyslots which can be written one 32-bit chunk at a time. See: <https://switchbrew.org/wiki/Switch_System_Flaws#Hardware>
 Building
 =
@ -22,3 +45,7 @@ This software is heavily based on [Hekate](https://github.com/CTCaer/hekate). Be
 License
 =
 This project is under the GPLv2 license. The Save processing module is adapted from [hactool](https://github.com/SciresM/hactool) code under ISC.
 Unofficial Repo
 =
 This repository is just a clone of [shchmue](https://github.com/shchmue)'s DMCA'd Lockpick_RCM repository with keys updated from the [Atmosphere](<https://github.com/Atmosphere-NX/Atmosphere>) repository
--- a/Versions.inc
+++ b/Versions.inc
@ -0,0 +1,5 @@
 # LP Version.
 LPVERSION_MAJOR := 1
 LPVERSION_MINOR := 9
 LPVERSION_BUGFX := 12
 LPVERSION_RSVD := 0
--- a/bdk/display/di.c
+++ b/bdk/display/di.c
@ -1,6 +1,6 @@
 /*
 * Copyright (c) 2018 naehrwert
- * Copyright (c) 2018-2020 CTCaer
+ * Copyright (c) 2018-2021 CTCaer
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
@ -20,7 +20,9 @@
 #include "di.h"
 #include <power/max77620.h>
 #include <power/max7762x.h>
 #include <mem/heap.h>
 #include <soc/clock.h>
 #include <soc/fuse.h>
 #include <soc/gpio.h>
 #include <soc/hw_init.h>
 #include <soc/i2c.h>
@ -34,6 +36,7 @@
 extern volatile nyx_storage_t *nyx_str;
 static u32 _display_id = 0;
 static bool nx_aula = false;
 static void _display_panel_and_hw_end(bool no_panel_deinit);
@ -90,7 +93,7 @@ int display_dsi_read(u8 cmd, u32 len, void *data, bool video_enabled)
 		// Wait for vblank before starting the transfer.
 		DISPLAY_A(_DIREG(DC_CMD_INT_STATUS)) = DC_CMD_INT_FRAME_END_INT; // Clear interrupt.
-		while (DISPLAY_A(_DIREG(DC_CMD_INT_STATUS)) & DC_CMD_INT_FRAME_END_INT)
+		while (!(DISPLAY_A(_DIREG(DC_CMD_INT_STATUS)) & DC_CMD_INT_FRAME_END_INT))
 			;
 	}
@ -133,19 +136,22 @@ int display_dsi_read(u8 cmd, u32 len, void *data, bool video_enabled)
 		case DCS_2_BYTE_SHORT_RD_RES:
 			memcpy(data, &fifo[2], 2);
 			break;
 		case ACK_ERROR_RES:
 		default:
 			res = 1;
 			break;
 		}
 	}
 	else
 		res = 1;
 	// Disable host cmd packets during video and restore host control.
 	if (video_enabled)
 	{
 		// Wait for vblank before reseting sync points.
 		DISPLAY_A(_DIREG(DC_CMD_INT_STATUS)) = DC_CMD_INT_FRAME_END_INT; // Clear interrupt.
-		while (DISPLAY_A(_DIREG(DC_CMD_INT_STATUS)) & DC_CMD_INT_FRAME_END_INT)
+		while (!(DISPLAY_A(_DIREG(DC_CMD_INT_STATUS)) & DC_CMD_INT_FRAME_END_INT))
 			;
 		// Reset all states of syncpt block.
@ -170,9 +176,9 @@ int display_dsi_read(u8 cmd, u32 len, void *data, bool video_enabled)
 void display_dsi_write(u8 cmd, u32 len, void *data, bool video_enabled)
 {
 	u8  *fifo8;
 	u32 *fifo32;
 	u32 host_control;
 	u32 fifo32[DSI_STATUS_RX_FIFO_SIZE] = {0};
 	u8 *fifo8 = (u8 *)fifo32;
 	// Enable host cmd packets during video and save host control.
 	if (video_enabled)
@ -180,7 +186,7 @@ void display_dsi_write(u8 cmd, u32 len, void *data, bool video_enabled)
 	host_control = DSI(_DSIREG(DSI_HOST_CONTROL));
 	// Enable host transfer trigger.
-	DSI(_DSIREG(DSI_HOST_CONTROL)) |= DSI_HOST_CONTROL_TX_TRIG_HOST;
+	DSI(_DSIREG(DSI_HOST_CONTROL)) = host_control | DSI_HOST_CONTROL_TX_TRIG_HOST;
 	switch (len)
 	{
@ -193,6 +199,8 @@ void display_dsi_write(u8 cmd, u32 len, void *data, bool video_enabled)
 		break;
 	default:
 		fifo32 = calloc(DSI_STATUS_RX_FIFO_SIZE * 8, 4);
 		fifo8 = (u8 *)fifo32;
 		fifo32[0] = (len << 8) | MIPI_DSI_DCS_LONG_WRITE;
 		fifo8[4] = cmd;
 		memcpy(&fifo8[5], data, len);
@ -200,6 +208,7 @@ void display_dsi_write(u8 cmd, u32 len, void *data, bool video_enabled)
 		for (u32 i = 0; i < (ALIGN(len, 4) / 4); i++)
 			DSI(_DSIREG(DSI_WR_DATA)) = fifo32[i];
 		DSI(_DSIREG(DSI_TRIGGER)) = DSI_TRIGGER_HOST;
 		free(fifo32);
 		break;
 	}
@ -212,32 +221,96 @@ void display_dsi_write(u8 cmd, u32 len, void *data, bool video_enabled)
 	DSI(_DSIREG(DSI_HOST_CONTROL)) = host_control;
 }
 void display_dsi_vblank_write(u8 cmd, u32 len, void *data)
 {
 	u8  *fifo8;
 	u32 *fifo32;
 	// Enable vblank interrupt.
 	DISPLAY_A(_DIREG(DC_CMD_INT_ENABLE)) = DC_CMD_INT_FRAME_END_INT;
 	// Use the 4th line to transmit the host cmd packet.
 	DSI(_DSIREG(DSI_VIDEO_MODE_CONTROL)) = DSI_CMD_PKT_VID_ENABLE | DSI_DSI_LINE_TYPE(4);
 	// Wait for vblank before starting the transfer.
 	DISPLAY_A(_DIREG(DC_CMD_INT_STATUS)) = DC_CMD_INT_FRAME_END_INT; // Clear interrupt.
 	while (!(DISPLAY_A(_DIREG(DC_CMD_INT_STATUS)) & DC_CMD_INT_FRAME_END_INT))
 		;
 	switch (len)
 	{
 	case 0:
 		DSI(_DSIREG(DSI_WR_DATA)) = (cmd << 8) | MIPI_DSI_DCS_SHORT_WRITE;
 		break;
 	case 1:
 		DSI(_DSIREG(DSI_WR_DATA)) = ((cmd | (*(u8 *)data << 8)) << 8) | MIPI_DSI_DCS_SHORT_WRITE_PARAM;
 		break;
 	default:
 		fifo32 = calloc(DSI_STATUS_RX_FIFO_SIZE * 8, 4);
 		fifo8 = (u8 *)fifo32;
 		fifo32[0] = (len << 8) | MIPI_DSI_DCS_LONG_WRITE;
 		fifo8[4] = cmd;
 		memcpy(&fifo8[5], data, len);
 		len += 4 + 1; // Increase length by CMD/length word and DCS CMD.
 		for (u32 i = 0; i < (ALIGN(len, 4) / 4); i++)
 			DSI(_DSIREG(DSI_WR_DATA)) = fifo32[i];
 		free(fifo32);
 		break;
 	}
 	// Wait for vblank before reseting sync points.
 	DISPLAY_A(_DIREG(DC_CMD_INT_STATUS)) = DC_CMD_INT_FRAME_END_INT; // Clear interrupt.
 	while (!(DISPLAY_A(_DIREG(DC_CMD_INT_STATUS)) & DC_CMD_INT_FRAME_END_INT))
 		;
 	// Reset all states of syncpt block.
 	DSI(_DSIREG(DSI_INCR_SYNCPT_CNTRL)) = DSI_INCR_SYNCPT_SOFT_RESET;
 	usleep(300); // Stabilization delay.
 	// Clear syncpt block reset.
 	DSI(_DSIREG(DSI_INCR_SYNCPT_CNTRL)) = 0;
 	usleep(300); // Stabilization delay.
 	// Restore video mode and host control.
 	DSI(_DSIREG(DSI_VIDEO_MODE_CONTROL)) = 0;
 	// Disable and clear vblank interrupt.
 	DISPLAY_A(_DIREG(DC_CMD_INT_ENABLE)) = 0;
 	DISPLAY_A(_DIREG(DC_CMD_INT_STATUS)) = DC_CMD_INT_FRAME_END_INT;
 }
 void display_init()
 {
 	// Get Hardware type, as it's used in various DI functions.
 	nx_aula = fuse_read_hw_type() == FUSE_NX_HW_TYPE_AULA;
 	// Check if display is already initialized.
-	if (CLOCK(CLK_RST_CONTROLLER_CLK_ENB_L_SET) & BIT(CLK_L_DISP1))
+	if (CLOCK(CLK_RST_CONTROLLER_CLK_OUT_ENB_L) & BIT(CLK_L_DISP1))
 		_display_panel_and_hw_end(true);
 	// Get Chip ID.
 	bool tegra_t210 = hw_get_chip_id() == GP_HIDREV_MAJOR_T210;
-	// T210B01: Power on SD2 regulator for supplying LD0.
+	// T210B01: Power on SD2 regulator for supplying LDO0.
 	if (!tegra_t210)
 	{
 		// Set SD2 regulator voltage.
-		max77620_regulator_set_voltage(REGULATOR_SD2, 1325000);
+		max7762x_regulator_set_voltage(REGULATOR_SD2, 1325000);
 		// Set slew rate and enable SD2 regulator.
 		i2c_send_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_SD2_CFG, (1 << MAX77620_SD_SR_SHIFT) | MAX77620_SD_CFG1_FSRADE_SD_ENABLE);
-		max77620_regulator_enable(REGULATOR_SD2, 1);
+		max7762x_regulator_enable(REGULATOR_SD2, true);
 	}
 	// Enable power to display panel controller.
-	max77620_regulator_set_volt_and_flags(REGULATOR_LDO0, 1200000, MAX77620_POWER_MODE_NORMAL); // Configure to 1.2V.
+	max7762x_regulator_set_voltage(REGULATOR_LDO0, 1200000);
 	max7762x_regulator_enable(REGULATOR_LDO0, true);
 	if (tegra_t210)
-		i2c_send_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_GPIO7,
+		max77620_config_gpio(7, MAX77620_GPIO_OUTPUT_ENABLE); // T210: LD0 -> GPIO7 -> Display panel.
 			MAX77620_CNFG_GPIO_OUTPUT_VAL_HIGH | MAX77620_CNFG_GPIO_DRV_PUSHPULL); // T210: LD0 -> GPIO7 -> Display panel.
 	// Enable Display Interface specific clocks.
 	CLOCK(CLK_RST_CONTROLLER_RST_DEV_H_CLR) = BIT(CLK_H_MIPI_CAL) | BIT(CLK_H_DSI);
@ -265,6 +338,14 @@ void display_init()
 	PINMUX_AUX(PINMUX_AUX_LCD_BL_PWM) &= ~PINMUX_TRISTATE; // PULL_DOWN | 1
 	PINMUX_AUX(PINMUX_AUX_LCD_BL_EN)  &= ~PINMUX_TRISTATE; // PULL_DOWN
 	if (nx_aula)
 	{
 		// Configure LCD RST pin.
 		gpio_config(GPIO_PORT_V, GPIO_PIN_2, GPIO_MODE_GPIO);
 		gpio_output_enable(GPIO_PORT_V, GPIO_PIN_2, GPIO_OUTPUT_ENABLE);
 	}
 	else
 	{
 		// Set LCD +-5V pins mode and direction
 		gpio_config(GPIO_PORT_I, GPIO_PIN_0 | GPIO_PIN_1, GPIO_MODE_GPIO);
 		gpio_output_enable(GPIO_PORT_I, GPIO_PIN_0 | GPIO_PIN_1, GPIO_OUTPUT_ENABLE);
@ -281,6 +362,7 @@ void display_init()
 		 // Enable Backlight power.
 		gpio_write(GPIO_PORT_V, GPIO_PIN_1, GPIO_HIGH);
 	}
 	// Power up supply regulator for display interface.
 	MIPI_CAL(_DSIREG(MIPI_CAL_MIPI_BIAS_PAD_CFG2)) = 0;
@ -293,7 +375,7 @@ void display_init()
 	// Set DISP1 clock source and parent clock.
 	CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_DISP1) = 0x40000000; // PLLD_OUT.
-	u32 plld_div = (3 << 20) | (20 << 11) | 1; // DIVM: 1, DIVN: 20, DIVP: 3. PLLD_OUT: 768 MHz, PLLD_OUT0 (DSI): 96 MHz.
+	u32 plld_div = (3 << 20) | (20 << 11) | 1; // DIVM: 1, DIVN: 20, DIVP: 3. PLLD_OUT: 768 MHz, PLLD_OUT0 (DSI): 97.5 MHz (offset).
 	CLOCK(CLK_RST_CONTROLLER_PLLD_BASE) = PLLCX_BASE_ENABLE | PLLCX_BASE_LOCK | plld_div;
 	if (tegra_t210)
@ -331,32 +413,18 @@ void display_init()
 	usleep(60000);
 	// Setup DSI device takeover timeout.
-	DSI(_DSIREG(DSI_BTA_TIMING)) = 0x50204;
+	DSI(_DSIREG(DSI_BTA_TIMING)) = nx_aula ? 0x40103 : 0x50204;
 #if 0
 	// Get Display ID.
 	_display_id = 0xCCCCCC;
 	display_dsi_read(MIPI_DCS_GET_DISPLAY_ID, 3, &_display_id, DSI_VIDEO_DISABLED);
 #else
 	// Set reply size.
 	_display_dsi_send_cmd(MIPI_DSI_SET_MAXIMUM_RETURN_PACKET_SIZE, 3, 0);
 	_display_dsi_wait(250000, _DSIREG(DSI_TRIGGER), DSI_TRIGGER_HOST | DSI_TRIGGER_VIDEO);
 	// Request register read.
 	_display_dsi_send_cmd(MIPI_DSI_DCS_READ, MIPI_DCS_GET_DISPLAY_ID, 0);
 	_display_dsi_wait(250000, _DSIREG(DSI_TRIGGER), DSI_TRIGGER_HOST | DSI_TRIGGER_VIDEO);
 	// Transfer bus control to device for transmitting the reply.
 	DSI(_DSIREG(DSI_HOST_CONTROL)) = DSI_HOST_CONTROL_TX_TRIG_HOST | DSI_HOST_CONTROL_IMM_BTA | DSI_HOST_CONTROL_CS | DSI_HOST_CONTROL_ECC;
 	_display_dsi_wait(150000, _DSIREG(DSI_HOST_CONTROL), DSI_HOST_CONTROL_IMM_BTA);
 	// Wait a bit for the reply.
 	usleep(5000);
 	// MIPI_DCS_GET_DISPLAY_ID reply is a long read, size 3 x u32.
 	for (u32 i = 0; i < 3; i++)
-		_display_id = DSI(_DSIREG(DSI_RD_DATA)) & 0xFFFFFF; // Skip ack and msg type info and get the payload (display id).
+	{
-#endif
+		if (!display_dsi_read(MIPI_DCS_GET_DISPLAY_ID, 3, &_display_id, DSI_VIDEO_DISABLED))
 			break;
 		usleep(10000);
 	}
 	// Save raw Display ID to Nyx storage.
 	nyx_str->info.disp_id = _display_id;
@ -366,9 +434,23 @@ void display_init()
 	if ((_display_id & 0xFF) == PANEL_JDI_XXX062M)
 		_display_id = PANEL_JDI_XXX062M;
 	// For Aula ensure that we have a compatible panel id.
 	if (nx_aula && _display_id == 0xCCCC)
 		_display_id = PANEL_SAM_AMS699VC01;
 	// Initialize display panel.
 	switch (_display_id)
 	{
 	case PANEL_SAM_AMS699VC01:
 		_display_dsi_send_cmd(MIPI_DSI_DCS_SHORT_WRITE, MIPI_DCS_EXIT_SLEEP_MODE, 180000);
 		_display_dsi_send_cmd(MIPI_DSI_DCS_SHORT_WRITE_PARAM, 0xA0, 0); // Write 0 to 0xA0.
 		_display_dsi_send_cmd(MIPI_DSI_DCS_SHORT_WRITE_PARAM, MIPI_DCS_SET_CONTROL_DISPLAY | (DCS_CONTROL_DISPLAY_BRIGHTNESS_CTRL << 8), 0); // Enable brightness control.
 		DSI(_DSIREG(DSI_WR_DATA)) = 0x339;    // MIPI_DSI_DCS_LONG_WRITE: 3 bytes.
 		DSI(_DSIREG(DSI_WR_DATA)) = 0x000051; // MIPI_DCS_SET_BRIGHTNESS 0000: 0%. FF07: 100%.
 		DSI(_DSIREG(DSI_TRIGGER)) = DSI_TRIGGER_HOST;
 		usleep(5000);
 		break;
 	case PANEL_JDI_XXX062M:
 		exec_cfg((u32 *)DSI_BASE, _display_init_config_jdi, 43);
 		_display_dsi_send_cmd(MIPI_DSI_DCS_SHORT_WRITE, MIPI_DCS_EXIT_SLEEP_MODE, 180000);
@ -407,11 +489,11 @@ void display_init()
 	_display_dsi_send_cmd(MIPI_DSI_DCS_SHORT_WRITE, MIPI_DCS_SET_DISPLAY_ON, 20000);
 	// Configure PLLD for DISP1.
-	plld_div = (1 << 20) | (24 << 11) | 1; // DIVM: 1, DIVN: 24, DIVP: 1. PLLD_OUT: 768 MHz, PLLD_OUT0 (DSI): 230.4 MHz.
+	plld_div = (1 << 20) | (24 << 11) | 1; // DIVM: 1, DIVN: 24, DIVP: 1. PLLD_OUT: 768 MHz, PLLD_OUT0 (DSI): 234 MHz (offset, it's ddr btw, so normally div2).
 	CLOCK(CLK_RST_CONTROLLER_PLLD_BASE) = PLLCX_BASE_ENABLE | PLLCX_BASE_LOCK | plld_div;
 	if (tegra_t210)
-		CLOCK(CLK_RST_CONTROLLER_PLLD_MISC1) = 0x20; // PLLD_SETUP
+		CLOCK(CLK_RST_CONTROLLER_PLLD_MISC1) = 0x20; // PLLD_SETUP.
 	else
 		CLOCK(CLK_RST_CONTROLLER_PLLD_MISC1) = 0;
 	CLOCK(CLK_RST_CONTROLLER_PLLD_MISC) = 0x2DFC00;  // Use new PLLD_SDM_DIN.
@ -420,7 +502,7 @@ void display_init()
 	DSI(_DSIREG(DSI_PAD_CONTROL_1)) = 0;
 	DSI(_DSIREG(DSI_PHY_TIMING_0)) = tegra_t210 ? 0x6070601 : 0x6070603;
 	exec_cfg((u32 *)DSI_BASE, _display_dsi_packet_config, 19);
-	// Set pixel clock dividers: 230.4 / 3 / 1 = 76.8 MHz. 60 Hz.
+	// Set pixel clock dividers: 234 / 3 / 1 = 78 MHz (offset) for 60 Hz.
 	DISPLAY_A(_DIREG(DC_DISP_DISP_CLOCK_CONTROL)) = PIXEL_CLK_DIVIDER_PCD1 | SHIFT_CLK_DIVIDER(4); // 4: div3.
 	exec_cfg((u32 *)DSI_BASE, _display_dsi_mode_config, 10);
 	usleep(10000);
@ -457,6 +539,9 @@ void display_init()
 void display_backlight_pwm_init()
 {
 	if (_display_id == PANEL_SAM_AMS699VC01)
 		return;
 	clock_enable_pwm();
 	PWM(PWM_CONTROLLER_PWM_CSR_0) = PWM_CSR_EN; // Enable PWM and set it to 25KHz PFM. 29.5KHz is stock.
@ -470,20 +555,27 @@ void display_backlight(bool enable)
 	gpio_write(GPIO_PORT_V, GPIO_PIN_0, enable ? GPIO_HIGH : GPIO_LOW); // Backlight PWM GPIO.
 }
-void display_backlight_brightness(u32 brightness, u32 step_delay)
+void display_dsi_backlight_brightness(u32 brightness)
 {
 	// Normalize brightness value by 82% and a base of 45 duty.
 	if (brightness)
 		brightness = (brightness * PANEL_OLED_BL_COEFF / 100) + PANEL_OLED_BL_OFFSET;
 	u16 bl_ctrl = byte_swap_16((u16)(brightness * 8));
 	display_dsi_vblank_write(MIPI_DCS_SET_BRIGHTNESS, 2, &bl_ctrl);
 }
 void display_pwm_backlight_brightness(u32 brightness, u32 step_delay)
 {
 	u32 old_value = (PWM(PWM_CONTROLLER_PWM_CSR_0) >> 16) & 0xFF;
 	if (brightness == old_value)
 		return;
 	if (brightness > 255)
 		brightness = 255;
 	if (old_value < brightness)
 	{
 		for (u32 i = old_value; i < brightness + 1; i++)
 		{
-			PWM(PWM_CONTROLLER_PWM_CSR_0) = PWM_CSR_EN | (i << 16); // Enable PWM and set it to 25KHz PFM.
+			PWM(PWM_CONTROLLER_PWM_CSR_0) = PWM_CSR_EN | (i << 16);
 			usleep(step_delay);
 		}
 	}
@ -491,7 +583,7 @@ void display_backlight_brightness(u32 brightness, u32 step_delay)
 	{
 		for (u32 i = old_value; i > brightness; i--)
 		{
-			PWM(PWM_CONTROLLER_PWM_CSR_0) = PWM_CSR_EN | (i << 16); // Enable PWM and set it to 25KHz PFM.
+			PWM(PWM_CONTROLLER_PWM_CSR_0) = PWM_CSR_EN | (i << 16);
 			usleep(step_delay);
 		}
 	}
@ -499,6 +591,22 @@ void display_backlight_brightness(u32 brightness, u32 step_delay)
 		PWM(PWM_CONTROLLER_PWM_CSR_0) = 0;
 }
 void display_backlight_brightness(u32 brightness, u32 step_delay)
 {
 	if (brightness > 255)
 		brightness = 255;
 	if (_display_id != PANEL_SAM_AMS699VC01)
 		display_pwm_backlight_brightness(brightness, step_delay);
 	else
 		display_dsi_backlight_brightness(brightness);
 }
 u32 display_get_backlight_brightness()
 {
 	return ((PWM(PWM_CONTROLLER_PWM_CSR_0) >> 16) & 0xFF);
 }
 static void _display_panel_and_hw_end(bool no_panel_deinit)
 {
 	if (no_panel_deinit)
@ -519,6 +627,8 @@ static void _display_panel_and_hw_end(bool no_panel_deinit)
 	// De-initialize video controller.
 	exec_cfg((u32 *)DISPLAY_A_BASE, _display_video_disp_controller_disable_config, 17);
 	exec_cfg((u32 *)DSI_BASE, _display_dsi_timing_deinit_config, 16);
 	if (_display_id != PANEL_SAM_AMS699VC01)
 		usleep(10000);
 	// De-initialize display panel.
@ -571,16 +681,23 @@ static void _display_panel_and_hw_end(bool no_panel_deinit)
 	}
 	// Blank - powerdown.
-	_display_dsi_send_cmd(MIPI_DSI_DCS_SHORT_WRITE, MIPI_DCS_ENTER_SLEEP_MODE, 50000);
+	_display_dsi_send_cmd(MIPI_DSI_DCS_SHORT_WRITE, MIPI_DCS_ENTER_SLEEP_MODE,
 		(_display_id == PANEL_SAM_AMS699VC01) ? 120000 : 50000);
 skip_panel_deinit:
 	// Disable LCD power pins.
 	gpio_write(GPIO_PORT_V, GPIO_PIN_2, GPIO_LOW);     // LCD Reset disable.
 	if (!nx_aula) // HOS uses panel id.
 	{
 		usleep(10000);
 		gpio_write(GPIO_PORT_I, GPIO_PIN_1, GPIO_LOW); // LCD -5V disable.
 		usleep(10000);
 		gpio_write(GPIO_PORT_I, GPIO_PIN_0, GPIO_LOW); // LCD +5V disable.
 		usleep(10000);
 	}
 	else
 		usleep(30000); // Aula Panel.
 	// Disable Display Interface specific clocks.
 	CLOCK(CLK_RST_CONTROLLER_RST_DEV_H_SET) = BIT(CLK_H_MIPI_CAL) | BIT(CLK_H_DSI);
@ -593,18 +710,37 @@ skip_panel_deinit:
 	DSI(_DSIREG(DSI_POWER_CONTROL)) = 0;
 	// Switch LCD PWM backlight pin to special function mode and enable PWM0 mode.
 	if (!nx_aula)
 	{
 		gpio_config(GPIO_PORT_V, GPIO_PIN_0, GPIO_MODE_SPIO); // Backlight PWM.
 		PINMUX_AUX(PINMUX_AUX_LCD_BL_PWM) = (PINMUX_AUX(PINMUX_AUX_LCD_BL_PWM) & ~PINMUX_TRISTATE) | PINMUX_TRISTATE;
 		PINMUX_AUX(PINMUX_AUX_LCD_BL_PWM) = (PINMUX_AUX(PINMUX_AUX_LCD_BL_PWM) & ~PINMUX_FUNC_MASK) | 1; // Set PWM0 mode.
 	}
 }
 void display_end() { _display_panel_and_hw_end(false); };
-u16 display_get_decoded_lcd_id()
+u16 display_get_decoded_panel_id()
 {
 	return _display_id;
 }
 void display_set_decoded_panel_id(u32 id)
 {
 	// Get Hardware type, as it's used in various DI functions.
 	nx_aula = fuse_read_hw_type() == FUSE_NX_HW_TYPE_AULA;
 	// Decode Display ID.
 	_display_id = ((id >> 8) & 0xFF00) | (id & 0xFF);
 	if ((_display_id & 0xFF) == PANEL_JDI_XXX062M)
 		_display_id = PANEL_JDI_XXX062M;
 	// For Aula ensure that we have a compatible panel id.
 	if (nx_aula && _display_id == 0xCCCC)
 		_display_id = PANEL_SAM_AMS699VC01;
 }
 void display_color_screen(u32 color)
 {
 	exec_cfg((u32 *)DISPLAY_A_BASE, cfg_display_one_color, 8);
@ -615,9 +751,12 @@ void display_color_screen(u32 color)
 	DISPLAY_A(_DIREG(DC_WIN_CD_WIN_OPTIONS)) = 0;
 	DISPLAY_A(_DIREG(DC_DISP_BLEND_BACKGROUND_COLOR)) = color;
 	DISPLAY_A(_DIREG(DC_CMD_STATE_CONTROL)) = (DISPLAY_A(_DIREG(DC_CMD_STATE_CONTROL)) & 0xFFFFFFFE) | GENERAL_ACT_REQ;
-	usleep(35000);
+	usleep(35000); // No need to wait on Aula.
 	if (_display_id != PANEL_SAM_AMS699VC01)
 		display_backlight(true);
 	else
 		display_backlight_brightness(255, 0);
 }
 u32 *display_init_framebuffer_pitch()
@ -627,7 +766,7 @@ u32 *display_init_framebuffer_pitch()
 	// This configures the framebuffer @ IPL_FB_ADDRESS with a resolution of 1280x720 (line stride 720).
 	exec_cfg((u32 *)DISPLAY_A_BASE, cfg_display_framebuffer_pitch, 32);
-	usleep(35000);
+	usleep(35000); // No need to wait on Aula.
 	return (u32 *)IPL_FB_ADDRESS;
 }
@ -636,8 +775,7 @@ u32 *display_init_framebuffer_pitch_inv()
 {
 	// This configures the framebuffer @ NYX_FB_ADDRESS with a resolution of 1280x720 (line stride 720).
 	exec_cfg((u32 *)DISPLAY_A_BASE, cfg_display_framebuffer_pitch_inv, 34);
-
+	usleep(35000); // No need to wait on Aula.
 	usleep(35000);
 	return (u32 *)NYX_FB_ADDRESS;
 }
@ -646,8 +784,7 @@ u32 *display_init_framebuffer_block()
 {
 	// This configures the framebuffer @ NYX_FB_ADDRESS with a resolution of 1280x720 (line stride 720).
 	exec_cfg((u32 *)DISPLAY_A_BASE, cfg_display_framebuffer_block, 34);
-
+	usleep(35000); // No need to wait on Aula.
 	usleep(35000);
 	return (u32 *)NYX_FB_ADDRESS;
 }
--- a/bdk/display/di.h
+++ b/bdk/display/di.h
@ -1,6 +1,6 @@
 /*
 * Copyright (c) 2018 naehrwert
- * Copyright (c) 2018-2020 CTCaer
+ * Copyright (c) 2018-2021 CTCaer
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
@ -547,17 +547,17 @@
 #define MIPI_DCS_GET_DISPLAY_ID1       0xDA // GET_DISPLAY_ID Byte0, Module Manufacturer ID.
 #define MIPI_DCS_GET_DISPLAY_ID2       0xDB // GET_DISPLAY_ID Byte1, Module/Driver Version ID.
 #define MIPI_DCS_GET_DISPLAY_ID3       0xDC // GET_DISPLAY_ID Byte2, Module/Driver ID.
-#define MIPI_DCS_GET_NUM_ERRORS        0x05
+#define MIPI_DCS_GET_NUM_ERRORS        0x05 // 1 byte.
 #define MIPI_DCS_GET_RED_CHANNEL       0x06
 #define MIPI_DCS_GET_GREEN_CHANNEL     0x07
 #define MIPI_DCS_GET_BLUE_CHANNEL      0x08
-#define MIPI_DCS_GET_DISPLAY_STATUS    0x09
+#define MIPI_DCS_GET_DISPLAY_STATUS    0x09 // 4 bytes.
-#define MIPI_DCS_GET_POWER_MODE	       0x0A
+#define MIPI_DCS_GET_POWER_MODE	       0x0A // 1 byte. 2: DISON, 3: NORON, 4: SLPOUT, 7: BSTON.
-#define MIPI_DCS_GET_ADDRESS_MODE      0x0B
+#define MIPI_DCS_GET_ADDRESS_MODE      0x0B // Display Access Control. 1 byte. 0: GS, 1: SS, 3: BGR.
-#define MIPI_DCS_GET_PIXEL_FORMAT      0x0C
+#define MIPI_DCS_GET_PIXEL_FORMAT      0x0C // 1 byte. 4-6: DPI.
-#define MIPI_DCS_GET_DISPLAY_MODE      0x0D
+#define MIPI_DCS_GET_DISPLAY_MODE      0x0D // 1 byte. 0-2: GCS, 3: ALLPOFF, 4: ALLPON, 5: INVON.
-#define MIPI_DCS_GET_SIGNAL_MODE       0x0E
+#define MIPI_DCS_GET_SIGNAL_MODE       0x0E // 1 byte. 0: EODSI, 2: DEON, 3: PCLKON, 4: VSON, 5: HSON, 7: TEON.
-#define MIPI_DCS_GET_DIAGNOSTIC_RESULT 0x0F
+#define MIPI_DCS_GET_DIAGNOSTIC_RESULT 0x0F // 1 byte. 6: FUNDT, 7: REGLD.
 #define MIPI_DCS_ENTER_SLEEP_MODE      0x10
 #define MIPI_DCS_EXIT_SLEEP_MODE       0x11
 #define MIPI_DCS_ENTER_PARTIAL_MODE    0x12
@ -567,7 +567,7 @@
 #define MIPI_DCS_ALL_PIXELS_OFF        0x22
 #define MIPI_DCS_ALL_PIXELS_ON         0x23
 #define MIPI_DCS_SET_CONTRAST          0x25 // VCON in 40mV steps. 7-bit integer.
-#define MIPI_DCS_SET_GAMMA_CURVE       0x26
+#define MIPI_DCS_SET_GAMMA_CURVE       0x26 // 1 byte. 0-7: GC.
 #define MIPI_DCS_SET_DISPLAY_OFF       0x28
 #define MIPI_DCS_SET_DISPLAY_ON        0x29
 #define MIPI_DCS_SET_COLUMN_ADDRESS    0x2A
@ -580,11 +580,11 @@
 #define MIPI_DCS_SET_SCROLL_AREA       0x33
 #define MIPI_DCS_SET_TEAR_OFF          0x34
 #define MIPI_DCS_SET_TEAR_ON           0x35
-#define MIPI_DCS_SET_ADDRESS_MODE      0x36
+#define MIPI_DCS_SET_ADDRESS_MODE      0x36 // Display Access Control. 1 byte. 0: GS, 1: SS, 3: BGR.
 #define MIPI_DCS_SET_SCROLL_START      0x37
 #define MIPI_DCS_EXIT_IDLE_MODE        0x38
 #define MIPI_DCS_ENTER_IDLE_MODE       0x39
-#define MIPI_DCS_SET_PIXEL_FORMAT      0x3A
+#define MIPI_DCS_SET_PIXEL_FORMAT      0x3A // 1 byte. 4-6: DPI.
 #define MIPI_DCS_WRITE_MEMORY_CONTINUE 0x3C
 #define MIPI_DCS_READ_MEMORY_CONTINUE  0x3E
 #define MIPI_DCS_GET_3D_CONTROL        0x3F
@ -593,26 +593,34 @@
 #define MIPI_DCS_GET_SCANLINE          0x45
 #define MIPI_DCS_SET_TEAR_SCANLINE_WIDTH 0x46
 #define MIPI_DCS_GET_SCANLINE_WIDTH    0x47
-#define MIPI_DCS_SET_BRIGHTNESS        0x51 // DCS_CONTROL_DISPLAY_BRIGHTNESS_CTRL.
+#define MIPI_DCS_SET_BRIGHTNESS        0x51 // DCS_CONTROL_DISPLAY_BRIGHTNESS_CTRL. 1 byte. 0-7: DBV.
-#define MIPI_DCS_GET_BRIGHTNESS        0x52
+#define MIPI_DCS_GET_BRIGHTNESS        0x52 // 1 byte. 0-7: DBV.
-#define MIPI_DCS_SET_CONTROL_DISPLAY   0x53
+#define MIPI_DCS_SET_CONTROL_DISPLAY   0x53 // 1 byte. 2: BL, 3: DD, 5: BCTRL.
-#define MIPI_DCS_GET_CONTROL_DISPLAY   0x54
+#define MIPI_DCS_GET_CONTROL_DISPLAY   0x54 // 1 byte. 2: BL, 3: DD, 5: BCTRL.
-#define MIPI_DCS_SET_CABC_VALUE        0x55
+#define MIPI_DCS_SET_CABC_VALUE        0x55 // 1 byte. 0-32: C, 4-7: C.
-#define MIPI_DCS_GET_CABC_VALUE        0x56
+#define MIPI_DCS_GET_CABC_VALUE        0x56 // 1 byte. 0-32: C, 4-7: C.
-#define MIPI_DCS_SET_CABC_MIN_BRI      0x5E
+#define MIPI_DCS_SET_CABC_MIN_BRI      0x5E // 1 byte. 0-7: CMB.
-#define MIPI_DCS_GET_CABC_MIN_BRI      0x5F
+#define MIPI_DCS_GET_CABC_MIN_BRI      0x5F // 1 byte. 0-7: CMB.
 #define MIPI_DCS_GET_AUTO_BRI_DIAG_RES 0x68 // 1 byte. 6-7: D.
 #define MIPI_DCS_READ_DDB_START        0xA1
-#define MIPI_DCS_READ_DDB_CONTINUE     0xA8
+#define MIPI_DCS_READ_DDB_CONTINUE     0xA8 // 0x100 size.
 /*! MIPI DCS Panel Private CMDs. */
 #define MIPI_DCS_PRIV_UNK_A0            0xA0
 #define MIPI_DCS_PRIV_SET_POWER_CONTROL 0xB1
-#define MIPI_DCS_PRIV_SET_EXTC          0xB9
+#define MIPI_DCS_PRIV_SET_EXTC          0xB9 // Enable extended commands.
 #define MIPI_DCS_PRIV_UNK_BD            0xBD
 #define MIPI_DCS_PRIV_UNK_D5            0xD5
 #define MIPI_DCS_PRIV_UNK_D6            0xD6
 #define MIPI_DCS_PRIV_UNK_D8            0xD8
 #define MIPI_DCS_PRIV_UNK_D9            0xD9
 #define MIPI_DCS_PRIV_READ_EXTC_CMD_SPI 0xFE // Read EXTC Command In SPI. 1 byte. 0-6: EXT_SPI_CNT, 7:EXT_SP.
 #define MIPI_DCS_PRIV_SET_EXTC_CMD_REG  0xFF // EXTC Command Set enable register. 5 bytes. Pass: FF 98 06 04, PAGE.
 /*! MIPI DCS Panel Private CMDs PAGE 1. */
 #define MIPI_DCS_PRIV_GET_DISPLAY_ID4   0x00
 #define MIPI_DCS_PRIV_GET_DISPLAY_ID5   0x01
 #define MIPI_DCS_PRIV_GET_DISPLAY_ID6   0x02
 /*! MIPI DCS CMD Defines. */
 #define DCS_POWER_MODE_DISPLAY_ON           BIT(2)
@ -644,20 +652,29 @@
 #define DCS_CONTROL_DISPLAY_DIMMING_CTRL    BIT(3)
 #define DCS_CONTROL_DISPLAY_BRIGHTNESS_CTRL BIT(5)
 #define PANEL_OLED_BL_COEFF  82 // 82%.
 #define PANEL_OLED_BL_OFFSET 45 // Least legible backlight duty.
 /* Switch Panels:
 *
 * 6.2" panels for Icosa and Iowa skus:
 * [10] 81 [26]: JDI LPM062M326A
 * [10] 96 [09]: JDI LAM062M109A
 * [20] 93 [0F]: InnoLux P062CCA-AZ1 (Rev A1)
- * [20] 95 [0F]: InnoLux P062CCA-AZ2
+ * [20] 95 [0F]: InnoLux P062CCA-AZ2 (Rev B1)
 * [20] 96 [0F]: InnoLux P062CCA-AZ3 [UNCONFIRMED MODEL REV]
 * [20] 98 [0F]: InnoLux P062CCA-??? [UNCONFIRMED MODEL REV]
 * [30] 94 [0F]: AUO A062TAN01 (59.06A33.001)
 * [30] 95 [0F]: AUO A062TAN02 (59.06A33.002)
 * [30] XX [0F]: AUO A062TAN03 (59.06A33.003) [UNCONFIRMED ID]
 *
 * 5.5" panels for Hoag skus:
 * [20] 94 [10]: InnoLux 2J055IA-27A (Rev B1)
- * [30] XX [10]: AUO A055TAN01 (59.05A30.001) [UNCONFIRMED ID]
+ * [30] 93 [10]: AUO A055TAN01 (59.05A30.001)
 * [40] XX [10]: Vendor 40 [UNCONFIRMED ID]
 *
 * 7.0" OLED panels for Aula skus:
 * [50] 9B [20]: Samsung AMS699VC01-0 (Rev 2.5)
 */
 /* Display ID Decoding:
@ -670,11 +687,13 @@
 * 10h: Japan Display Inc.
 * 20h: InnoLux Corporation
 * 30h: AU Optronics
- * 40h: Unknown1
+ * 40h: Unknown0
 * 50h: Samsung
 *
 * Boards, Panel Size:
 * 0Fh: Icosa/Iowa, 6.2"
 * 10h: Hoag,       5.5"
 * 20h: Aula,       7.0"
 */
 enum
@ -686,15 +705,17 @@ enum
 	PANEL_AUO_A062TAN01   = 0x0F30,
 	PANEL_INL_2J055IA_27A = 0x1020,
 	PANEL_AUO_A055TAN01   = 0x1030,
-	PANEL_V40_55_UNK      = 0x1040
+	PANEL_V40_55_UNK      = 0x1040,
 	PANEL_SAM_AMS699VC01  = 0x2050
 };
 void display_init();
 void display_backlight_pwm_init();
 void display_end();
-/*! Get Display panel ID. */
+/*! Get/Set Display panel ID. */
-u16 display_get_decoded_lcd_id();
+u16  display_get_decoded_panel_id();
 void display_set_decoded_panel_id(u32 id);
 /*! Show one single color on the display. */
 void display_color_screen(u32 color);
@ -702,6 +723,7 @@ void display_color_screen(u32 color);
 /*! Switches screen backlight ON/OFF. */
 void display_backlight(bool enable);
 void display_backlight_brightness(u32 brightness, u32 step_delay);
 u32  display_get_backlight_brightness();
 /*! Init display in full 1280x720 resolution (B8G8R8A8, line stride 768, framebuffer size = 1280*768*4 bytes). */
 u32 *display_init_framebuffer_pitch();
--- a/bdk/display/di.inl
+++ b/bdk/display/di.inl
@ -200,10 +200,10 @@ static const cfg_op_t _display_dsi_init_config_part6[14] = {
 //DSI panel config.
 static const cfg_op_t _display_init_config_jdi[43] = {
-	{DSI_WR_DATA, 0x439},      // MIPI_DSI_DCS_LONG_WRITE: 4 bytes.
+	{DSI_WR_DATA, 0x0439},     // MIPI_DSI_DCS_LONG_WRITE: 4 bytes.
 	{DSI_WR_DATA, 0x9483FFB9}, // MIPI_DCS_PRIV_SET_EXTC. (Pass: FF 83 94).
 	{DSI_TRIGGER, DSI_TRIGGER_HOST},
-	{DSI_WR_DATA, 0x00BD15},   // MIPI_DSI_DCS_SHORT_WRITE_PARAM: 0 to 0xBD.
+	{DSI_WR_DATA, 0xBD15},     // MIPI_DSI_DCS_SHORT_WRITE_PARAM: 0 to 0xBD.
 	{DSI_TRIGGER, DSI_TRIGGER_HOST},
 	{DSI_WR_DATA, 0x1939},     // MIPI_DSI_DCS_LONG_WRITE: 25 bytes.
 	{DSI_WR_DATA, 0xAAAAAAD8}, // Register: 0xD8.
--- a/bdk/ianos/ianos.c
+++ b/bdk/ianos/ianos.c
@ -21,6 +21,7 @@
 #include "elfload/elfload.h"
 #include <module.h>
 #include <mem/heap.h>
 #include <power/max7762x.h>
 #include <storage/nx_sd.h>
 #include <utils/types.h>
@ -43,6 +44,10 @@ static void _ianos_call_ep(moduleEntrypoint_t entrypoint, void *moduleConfig)
 	bdkParameters->memset = (memset_t)&memset;
 	bdkParameters->sharedHeap = &_heap;
 	// Extra functions.
 	bdkParameters->extension_magic = IANOS_EXT0;
 	bdkParameters->reg_voltage_set = (reg_voltage_set_t)&max7762x_regulator_set_voltage;
 	entrypoint(moduleConfig, bdkParameters);
 }
--- a/bdk/input/als.c
+++ b/bdk/input/als.c
@ -17,103 +17,140 @@
 */
 #include "als.h"
 #include <power/max77620.h>
 #include <power/max7762x.h>
 #include <soc/clock.h>
 #include <soc/i2c.h>
 #include <soc/pinmux.h>
 #include <utils/util.h>
-#define HOS_GAIN  BH1730_GAIN_64X
+#define BH1730_DEFAULT_GAIN        BH1730_GAIN_64X
-#define HOS_ITIME 38
+#define BH1730_DEFAULT_ICYCLE       38
-void set_als_cfg(als_table_t *als_val, u8 gain, u8 itime)
+#define BH1730_INTERNAL_CLOCK_NS   2800
 #define BH1730_ADC_CALC_DELAY_US   2000 /* BH1730_INTERNAL_CLOCK_MS * 714 */
 #define BH1730_ITIME_CYCLE_TO_US   2700 /* BH1730_INTERNAL_CLOCK_MS * 964 */
 #define BH1730_DEFAULT_ITIME_MS	   100
 #define BH1730_LUX_MULTIPLIER      3600
 #define BH1730_LUX_MULTIPLIER_AULA 1410
 #define BH1730_LUX_MAX            100000
 typedef struct _opt_win_cal_t
 {
-	i2c_send_byte(I2C_2, BH1730_I2C_ADDR, BH1730_ADDR(BH1730_GAIN_REG), gain);
+	u32 rc;
-	i2c_send_byte(I2C_2, BH1730_I2C_ADDR, BH1730_ADDR(BH1730_TIMING_REG), (256 - itime));
+	u32 cv;
 	u32 ci;
 } opt_win_cal_t;
-	als_val->gain = gain;
+// Nintendo Switch Icosa/Iowa Optical Window calibration.
-	als_val->itime = itime;
+const opt_win_cal_t opt_win_cal_default[] = {
 	{  500, 5002, 7502 },
 	{  754, 2250, 2000 },
 	{ 1029, 1999, 1667 },
 	{ 1373,  884,  583 },
 	{ 1879,  309,  165 }
 };
 // Nintendo Switch Aula Optical Window calibration.
 const opt_win_cal_t opt_win_cal_aula[] = {
 	{  231, 9697, 30300 },
 	{  993, 3333,  2778 },
 	{ 1478, 1621,  1053 },
 	{ 7500,   81,    10 }
 };
 const u32 als_gain_idx_tbl[4] = { 1, 2, 64, 128 };
 void set_als_cfg(als_ctxt_t *als_ctxt, u8 gain, u8 cycle)
 {
 	if (gain > BH1730_GAIN_128X)
 		gain = BH1730_GAIN_128X;
 	if (!cycle)
 		cycle = 1;
 	else if (cycle > 255)
 		cycle = 255;
 	i2c_send_byte(I2C_2, BH1730_I2C_ADDR, BH1730_ADDR(BH1730_GAIN_REG), gain);
 	i2c_send_byte(I2C_2, BH1730_I2C_ADDR, BH1730_ADDR(BH1730_TIMING_REG), (256 - cycle));
 	als_ctxt->gain = gain;
 	als_ctxt->cycle = cycle;
 }
-void get_als_lux(als_table_t *als_val)
+void get_als_lux(als_ctxt_t *als_ctxt)
 {
 	u32 data[2];
-	float pre_gain_lux;
+	u32 visible_light;
-	float visible_light;
+	u32 ir_light;
-	float ir_light;
+	u64 lux = 0;
-	float light_ratio;
+	u32 itime_us = BH1730_ITIME_CYCLE_TO_US * als_ctxt->cycle;
-	u8 adc_ready = 0;
+	// Get visible and ir light raw data. Mode is continuous so waiting for new values doesn't matter.
 	u8 retries = 100;
 	const float als_gain_idx_tbl[4] = { 1.0, 2.0, 64.0, 128.0 };
 	const float als_norm_res = 100.0;
 	const float als_multiplier = 3.6;
 	const float als_tint = 2.7;
 	// Wait for ADC to prepare new data.
 	while (!(adc_ready & BH1730_CTL_ADC_VALID) && retries)
 	{
 		retries--;
 		adc_ready = i2c_recv_byte(I2C_2, BH1730_I2C_ADDR, BH1730_ADDR(BH1730_CONTROL_REG));
 	}
 	// Get visible and ir light raw data.
 	data[0] = i2c_recv_byte(I2C_2, BH1730_I2C_ADDR, BH1730_ADDR(BH1730_DATA0LOW_REG)) +
 		(i2c_recv_byte(I2C_2, BH1730_I2C_ADDR, BH1730_ADDR(BH1730_DATA0HIGH_REG)) << 8);
 	data[1] = i2c_recv_byte(I2C_2, BH1730_I2C_ADDR, BH1730_ADDR(BH1730_DATA1LOW_REG)) +
 		(i2c_recv_byte(I2C_2, BH1730_I2C_ADDR, BH1730_ADDR(BH1730_DATA1HIGH_REG)) << 8);
-	als_val->over_limit = data[0] > 65534 || data[1] > 65534;
+	visible_light = data[0];
-	als_val->vi_light = data[0];
+	ir_light = data[1];
 	als_val->ir_light = data[1];
-	if (!data[0] || !retries)
+	als_ctxt->over_limit = visible_light > 65534 || ir_light > 65534;
 	als_ctxt->vi_light = visible_light;
 	als_ctxt->ir_light = ir_light;
 	if (!visible_light)
 	{
-		als_val->lux = 0.0;
+		als_ctxt->lux = 0;
 		return;
 	}
-	visible_light = (float)data[0];
+	// Set calibration parameters.
-	ir_light = (float)data[1];
+	u32 lux_multiplier = BH1730_LUX_MULTIPLIER;
-	light_ratio = (float)data[1] / (float)data[0];
+	u32 opt_win_cal_count = ARRAY_SIZE(opt_win_cal_default);
 	const opt_win_cal_t *opt_win_cal = opt_win_cal_default;
-	// The following are specific to the light filter Switch uses.
+	// Apply optical window calibration coefficients.
-	if (light_ratio < 0.5)
+	for (u32 i = 0; i < opt_win_cal_count; i++)
-		pre_gain_lux = visible_light * 5.002 - ir_light * 7.502;
+	{
-	else if (light_ratio < 0.754)
+		if (1000 * ir_light / visible_light < opt_win_cal[i].rc)
-		pre_gain_lux = visible_light * 2.250 - ir_light * 2.000;
+		{
-	else if (light_ratio < 1.029)
+			lux = ((u64)opt_win_cal[i].cv * data[0]) - (opt_win_cal[i].ci * data[1]);
-		pre_gain_lux = visible_light * 1.999 - ir_light * 1.667;
+			break;
-	else if (light_ratio < 1.373)
+		}
 		pre_gain_lux = visible_light * 0.884 - ir_light * 0.583;
 	else if (light_ratio < 1.879)
 		pre_gain_lux = visible_light * 0.309 - ir_light * 0.165;
 	else pre_gain_lux = 0.0;
 	als_val->lux = (pre_gain_lux / als_gain_idx_tbl[als_val->gain]) * (als_norm_res / ((float)als_val->itime * als_tint)) * als_multiplier;
 	}
-u8 als_init(als_table_t *als_val)
+	lux *= BH1730_DEFAULT_ITIME_MS * lux_multiplier;
 	lux /= als_gain_idx_tbl[als_ctxt->gain] * itime_us;
 	lux /= 1000;
 	if (lux > BH1730_LUX_MAX)
 		lux = BH1730_LUX_MAX;
 	als_ctxt->lux = lux;
 }
 u8 als_power_on(als_ctxt_t *als_ctxt)
 {
 	// Enable power to ALS IC.
 	max7762x_regulator_set_voltage(REGULATOR_LDO6, 2900000);
 	max7762x_regulator_enable(REGULATOR_LDO6, true);
 	// Init I2C2.
 	pinmux_config_i2c(I2C_2);
 	clock_enable_i2c(I2C_2);
 	i2c_init(I2C_2);
-	max77620_regulator_set_volt_and_flags(REGULATOR_LDO6, 2900000, MAX77620_POWER_MODE_NORMAL);
+	// Initialize ALS.
 	i2c_send_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_LDO6_CFG2,
 		 (MAX77620_POWER_MODE_NORMAL << MAX77620_LDO_POWER_MODE_SHIFT | (3 << 3) | MAX77620_LDO_CFG2_ADE_ENABLE));
 	u8 id = i2c_recv_byte(I2C_2, BH1730_I2C_ADDR, BH1730_ADDR(0x12));
 	i2c_send_byte(I2C_2, BH1730_I2C_ADDR, BH1730_SPEC(BH1730_SPECCMD_RESET), 0);
 	i2c_send_byte(I2C_2, BH1730_I2C_ADDR, BH1730_ADDR(BH1730_GAIN_REG), HOS_GAIN);
 	i2c_send_byte(I2C_2, BH1730_I2C_ADDR, BH1730_ADDR(BH1730_TIMING_REG), (256 - HOS_ITIME));
 	i2c_send_byte(I2C_2, BH1730_I2C_ADDR, BH1730_ADDR(BH1730_CONTROL_REG), BH1730_CTL_POWER_ON | BH1730_CTL_ADC_EN);
-	als_val->gain = HOS_GAIN;
+	set_als_cfg(als_ctxt, BH1730_DEFAULT_GAIN, BH1730_DEFAULT_ICYCLE);
-	als_val->itime = HOS_ITIME;
+
 	i2c_send_byte(I2C_2, BH1730_I2C_ADDR, BH1730_ADDR(BH1730_CONTROL_REG), BH1730_CTL_POWER_ON | BH1730_CTL_ADC_EN);
 	return id;
 }
--- a/bdk/input/als.h
+++ b/bdk/input/als.h
@ -48,18 +48,18 @@
 #define BH1730_ADDR(reg) (BH1730_CMD_MAGIC | BH1730_CMD_SETADDR | (reg))
 #define BH1730_SPEC(cmd) (BH1730_CMD_MAGIC | BH1730_CMD_SPECCMD | (cmd))
-typedef struct _als_table_t
+typedef struct _als_ctxt_t
 {
-	float lux;
+	u32  lux;
 	bool over_limit;
 	u32  vi_light;
 	u32  ir_light;
 	u8   gain;
-	u8 itime;
+	u8   cycle;
-} als_table_t;
+} als_ctxt_t;
-void set_als_cfg(als_table_t *als_val, u8 gain, u8 itime);
+void set_als_cfg(als_ctxt_t *als_ctxt, u8 gain, u8 cycle);
-void get_als_lux(als_table_t *als_val);
+void get_als_lux(als_ctxt_t *als_ctxt);
-u8 als_init(als_table_t *als_val);
+u8   als_power_on(als_ctxt_t *als_ctxt);
 #endif /* __ALS_H_ */
--- a/bdk/input/joycon.c
+++ b/bdk/input/joycon.c
@ -1,7 +1,7 @@
 /*
 * Joy-Con UART driver for Nintendo Switch
 *
- * Copyright (c) 2019 CTCaer
+ * Copyright (c) 2019-2021 CTCaer
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
@ -39,6 +39,9 @@
 #define JC_WIRED_INIT_REPLY      0x94
 #define JC_INIT_HANDSHAKE        0xA5
 #define JC_HORI_INPUT_RPT_CMD    0x9A
 #define JC_HORI_INPUT_RPT        0x00
 #define JC_WIRED_CMD_MAC         0x01
 #define JC_WIRED_CMD_10          0x10
@ -61,8 +64,12 @@
 #define JC_BTN_MASK_L 0xFF2900 // 0xFFE900: with charge status.
 #define JC_BTN_MASK_R 0x0056FF
-#define JC_ID_L 1
+#define JC_ID_L     0x01
-#define JC_ID_R 2
+#define JC_ID_R     0x02
 #define JC_ID_HORI  0x20
 #define JC_CRC8_INIT    0x00
 #define JC_CRC8_POLY    0x8D
 enum
 {
@ -80,25 +87,31 @@ static const u8 init_jc[] = {
 static const u8 init_handshake[] = {
 	0x19, 0x01, 0x03, 0x07, 0x00,      // Uart header.
 	JC_INIT_HANDSHAKE, 0x02,           // Wired cmd and wired subcmd.
-	0x01, 0x7E, 0x00, 0x00, 0x00       // Wired subcmd data.
+	0x01, 0x7E, 0x00, 0x00, 0x00       // Wired subcmd data and crc.
 };
 static const u8 init_get_info[]  = {
 	0x19, 0x01, 0x03, 0x07, 0x00,      // Uart header.
 	JC_WIRED_CMD, JC_WIRED_CMD_MAC,    // Wired cmd and subcmd.
-	0x00, 0x00, 0x00, 0x00, 0x24       // Wired subcmd data.
+	0x00, 0x00, 0x00, 0x00, 0x24       // Wired subcmd data and crc.
 };
-static const u8 init_finilize[]  = {
+static const u8 init_finalize[]  = {
 	0x19, 0x01, 0x03, 0x07, 0x00,      // Uart header.
 	JC_WIRED_CMD, JC_WIRED_CMD_10,     // Wired cmd and subcmd.
-	0x00, 0x00, 0x00, 0x00, 0x3D       // Wired subcmd data.
+	0x00, 0x00, 0x00, 0x00, 0x3D       // Wired subcmd data and crc.
 };
 static const u8 nx_pad_status[]  = {
 	0x19, 0x01, 0x03, 0x08, 0x00,      // Uart header.
 	JC_WIRED_HID, 0x00,                // Wired cmd and hid cmd.
-	0x01, 0x00, 0x00, 0x69, 0x2D, 0x1F // hid data.
+	0x01, 0x00, 0x00, 0x69, 0x2D, 0x1F // hid data and crc.
 };
 static const u8 hori_pad_status[] = {
 	0x19, 0x01, 0x03, 0x07, 0x00,      // Uart header.
 	JC_HORI_INPUT_RPT_CMD, 0x01,       // Hori cmd and hori subcmd.
 	0x00, 0x00, 0x00, 0x00, 0x48       // Hori cmd data and crc.
 };
 typedef struct _jc_uart_hdr_t
@ -185,8 +198,8 @@ typedef struct _joycon_ctxt_t
 	u8 connected;
 } joycon_ctxt_t;
-static joycon_ctxt_t jc_l;
+static joycon_ctxt_t jc_l = {0};
-static joycon_ctxt_t jc_r;
+static joycon_ctxt_t jc_r = {0};
 static bool jc_init_done = false;
 static u32 hid_pkt_inc = 0;
@ -195,13 +208,29 @@ static jc_gamepad_rpt_t jc_gamepad;
 void jc_power_supply(u8 uart, bool enable);
 static u8 jc_crc(u8 *data, u16 len)
 {
 	u8 crc = JC_CRC8_INIT;
 	u16 i, j;
 	for (i = 0; i < len; i++) {
 		crc ^= data[i];
 		for (j = 0; j < 8; j++) {
 			if ((crc & 0x80) != 0)
 				crc = (u8)((crc << 1) ^ JC_CRC8_POLY);
 			else
 				crc <<= 1;
 		}
 	}
 	return crc;
 }
 void joycon_send_raw(u8 uart_port, const u8 *buf, u16 size)
 {
 	uart_send(uart_port, buf, size);
 	uart_wait_idle(uart_port, UART_TX_IDLE);
 }
-static u16 jc_packet_add_uart_hdr(jc_wired_hdr_t *out, u8 wired_cmd, u8 *data, u16 size)
+static u16 jc_packet_add_uart_hdr(jc_wired_hdr_t *out, u8 wired_cmd, u8 *data, u16 size, bool crc)
 {
 	out->uart_hdr.magic[0] = 0x19;
 	out->uart_hdr.magic[1] = 0x01;
@ -214,14 +243,14 @@ static u16 jc_packet_add_uart_hdr(jc_wired_hdr_t *out, u8 wired_cmd, u8 *data, u
 	if (data)
 		memcpy(out->data, data, size);
-	out->crc = 0; // wired crc8ccit can be skipped.
+	out->crc = crc ? jc_crc(&out->uart_hdr.total_size_msb, sizeof(out->uart_hdr.total_size_msb) + sizeof(out->cmd) + sizeof(out->data)) : 0;
 	return sizeof(jc_wired_hdr_t);
 }
-static u16 jc_hid_output_rpt_craft(jc_wired_hdr_t *rpt, u8 *payload, u16 size)
+static u16 jc_hid_output_rpt_craft(jc_wired_hdr_t *rpt, u8 *payload, u16 size, bool crc)
 {
-	u16 pkt_size = jc_packet_add_uart_hdr(rpt, JC_WIRED_HID, NULL, 0);
+	u16 pkt_size = jc_packet_add_uart_hdr(rpt, JC_WIRED_HID, NULL, 0, crc);
 	pkt_size += size;
 	rpt->uart_hdr.total_size_lsb += size;
@ -234,12 +263,12 @@ static u16 jc_hid_output_rpt_craft(jc_wired_hdr_t *rpt, u8 *payload, u16 size)
 	return pkt_size;
 }
-void jc_send_hid_output_rpt(u8 uart, u8 *payload, u16 size)
+void jc_send_hid_output_rpt(u8 uart, u8 *payload, u16 size, bool crc)
 {
 	u8 rpt[0x50];
 	memset(rpt, 0, sizeof(rpt));
-	u32 rpt_size = jc_hid_output_rpt_craft((jc_wired_hdr_t *)rpt, payload, size);
+	u32 rpt_size = jc_hid_output_rpt_craft((jc_wired_hdr_t *)rpt, payload, size, crc);
 	joycon_send_raw(uart, rpt, rpt_size);
 }
@ -275,18 +304,18 @@ void jc_send_hid_cmd(u8 uart, u8 subcmd, u8 *data, u16 size)
 		hid_pkt->subcmd = JC_HID_SUBCMD_RUMBLE_CTL;
 		hid_pkt->subcmd_data[0] = 1;
 		if (send_r_rumble)
-			jc_send_hid_output_rpt(UART_B, (u8 *)hid_pkt, 0x10);
+			jc_send_hid_output_rpt(UART_B, (u8 *)hid_pkt, 0x10, false);
 		if (send_l_rumble)
-			jc_send_hid_output_rpt(UART_C, (u8 *)hid_pkt, 0x10);
+			jc_send_hid_output_rpt(UART_C, (u8 *)hid_pkt, 0x10, false);
 		// Send rumble.
 		hid_pkt->cmd = JC_HID_RUMBLE_RPT;
 		hid_pkt->pkt_id = jc_hid_pkt_id_incr();
 		memcpy(hid_pkt->rumble, rumble_init, sizeof(rumble_init));
 		if (send_r_rumble)
-			jc_send_hid_output_rpt(UART_B, (u8 *)hid_pkt, 10);
+			jc_send_hid_output_rpt(UART_B, (u8 *)hid_pkt, 10, false);
 		if (send_l_rumble)
-			jc_send_hid_output_rpt(UART_C, (u8 *)hid_pkt, 10);
+			jc_send_hid_output_rpt(UART_C, (u8 *)hid_pkt, 10, false);
 		msleep(15);
@ -297,21 +326,21 @@ void jc_send_hid_cmd(u8 uart, u8 subcmd, u8 *data, u16 size)
 		hid_pkt->subcmd_data[0] = 0;
 		memcpy(hid_pkt->rumble, rumble_neutral, sizeof(rumble_neutral));
 		if (send_r_rumble)
-			jc_send_hid_output_rpt(UART_B, (u8 *)hid_pkt, 0x10);
+			jc_send_hid_output_rpt(UART_B, (u8 *)hid_pkt, 0x10, false);
 		if (send_l_rumble)
-			jc_send_hid_output_rpt(UART_C, (u8 *)hid_pkt, 0x10);
+			jc_send_hid_output_rpt(UART_C, (u8 *)hid_pkt, 0x10, false);
 	}
 	else
 	{
 		bool crc_needed = (jc_l.uart == uart) ? (jc_l.type & JC_ID_HORI) : (jc_r.type & JC_ID_HORI);
 		hid_pkt->cmd = JC_HID_OUTPUT_RPT;
 		hid_pkt->pkt_id = jc_hid_pkt_id_incr();
 		hid_pkt->subcmd = subcmd;
 		if (data)
 			memcpy(hid_pkt->subcmd_data, data, size);
-		u8 pkt_size = sizeof(jc_hid_out_rpt_t) + size;
+		jc_send_hid_output_rpt(uart, (u8 *)hid_pkt, sizeof(jc_hid_out_rpt_t) + size, crc_needed);
 		jc_send_hid_output_rpt(uart, (u8 *)hid_pkt, pkt_size);
 	}
 }
@ -333,6 +362,7 @@ static void jc_parse_wired_hid(joycon_ctxt_t *jc, const u8* packet, u32 size)
 	switch (hid_pkt->cmd)
 	{
 	case JC_HORI_INPUT_RPT:
 	case JC_HID_INPUT_RPT:
 		btn_tmp = hid_pkt->btn_right | hid_pkt->btn_shared << 8 | hid_pkt->btn_left << 16;
@ -412,6 +442,7 @@ static void jc_uart_pkt_parse(joycon_ctxt_t *jc, const u8* packet, size_t size)
 	jc_wired_hdr_t *pkt = (jc_wired_hdr_t *)packet;
 	switch (pkt->cmd)
 	{
 	case JC_HORI_INPUT_RPT_CMD:
 	case JC_WIRED_HID:
 		jc_parse_wired_hid(jc, pkt->payload, (pkt->data[0] << 8) | pkt->data[1]);
 		break;
@ -432,7 +463,7 @@ static void jc_rcv_pkt(joycon_ctxt_t *jc)
 	// Check if device stopped sending data.
 	u32 uart_irq = uart_get_IIR(jc->uart);
-	if ((uart_irq & 0x8) != 0x8)
+	if (uart_irq != UART_IIR_REDI)
 		return;
 	u32 len = uart_recv(jc->uart, (u8 *)jc->buf, 0x100);
@ -473,11 +504,16 @@ static bool jc_send_init_rumble(joycon_ctxt_t *jc)
 }
 static void jc_req_nx_pad_status(joycon_ctxt_t *jc)
 {
 	bool is_nxpad = !(jc->type & JC_ID_HORI);
 	if (is_nxpad)
 	{
 		bool sent_rumble = jc_send_init_rumble(jc);
 		if (sent_rumble)
 			return;
 	}
 	if (jc->last_status_req_time > get_tmr_ms() || !jc->connected)
 		return;
@ -488,7 +524,10 @@ static void jc_req_nx_pad_status(joycon_ctxt_t *jc)
 	else
 		gpio_config(GPIO_PORT_D, GPIO_PIN_1, GPIO_MODE_SPIO);
 	if (is_nxpad)
 		joycon_send_raw(jc->uart, nx_pad_status, sizeof(nx_pad_status));
 	else
 		joycon_send_raw(jc->uart, hori_pad_status, sizeof(hori_pad_status));
 	// Turn Joy-Con detect on.
 	if (jc->uart == UART_B)
@ -655,24 +694,31 @@ retry:
 void jc_deinit()
 {
 	// Disable power.
 	jc_power_supply(UART_B, false);
 	jc_power_supply(UART_C, false);
 	// Turn off Joy-Con detect.
 	gpio_config(GPIO_PORT_G, GPIO_PIN_0, GPIO_MODE_SPIO);
 	gpio_config(GPIO_PORT_D, GPIO_PIN_1, GPIO_MODE_SPIO);
 	// Send sleep command.
 	u8 data = HCI_STATE_SLEEP;
-	if (jc_r.connected)
+	if (jc_r.connected && !(jc_r.type & JC_ID_HORI))
 	{
 		jc_send_hid_cmd(UART_B, JC_HID_SUBCMD_HCI_STATE, &data, 1);
 		jc_rcv_pkt(&jc_r);
 	}
-	if (jc_l.connected)
+	if (jc_l.connected && !(jc_l.type & JC_ID_HORI))
 	{
 		jc_send_hid_cmd(UART_C, JC_HID_SUBCMD_HCI_STATE, &data, 1);
 		jc_rcv_pkt(&jc_l);
 	}
-	jc_power_supply(UART_B, false);
+	// Disable UART B and C clocks.
-	jc_power_supply(UART_C, false);
+	clock_disable_uart(UART_B);
 	clock_disable_uart(UART_C);
 }
 static void jc_init_conn(joycon_ctxt_t *jc)
@ -709,9 +755,12 @@ static void jc_init_conn(joycon_ctxt_t *jc)
 		msleep(5);
 		jc_rcv_pkt(jc);
-		joycon_send_raw(jc->uart, init_finilize, sizeof(init_finilize));
+		if (!(jc->type & JC_ID_HORI))
 		{
 			joycon_send_raw(jc->uart, init_finalize, sizeof(init_finalize));
 			msleep(5);
 			jc_rcv_pkt(jc);
 		}
 		// Turn Joy-Con detect on.
 		if (jc->uart == UART_B)
@ -766,10 +815,10 @@ void jc_power_supply(u8 uart, bool enable)
 {
 	if (enable)
 	{
-		if (regulator_get_5v_dev_enabled(1 << uart))
+		if (regulator_5v_get_dev_enabled(1 << uart))
 			return;
-		regulator_enable_5v(1 << uart);
+		regulator_5v_enable(1 << uart);
 		if (jc_init_done)
 		{
@ -799,10 +848,10 @@ void jc_power_supply(u8 uart, bool enable)
 	}
 	else
 	{
-		if (!regulator_get_5v_dev_enabled(1 << uart))
+		if (!regulator_5v_get_dev_enabled(1 << uart))
 			return;
-		regulator_disable_5v(1 << uart);
+		regulator_5v_disable(1 << uart);
 		if (uart == UART_C)
 			gpio_write(GPIO_PORT_CC, GPIO_PIN_3, GPIO_LOW);
@ -816,10 +865,10 @@ void jc_init_hw()
 	jc_l.uart = UART_C;
 	jc_r.uart = UART_B;
 #if !defined(DEBUG_UART_PORT) || !(DEBUG_UART_PORT)
 	if (fuse_read_hw_type() == FUSE_NX_HW_TYPE_HOAG)
 		return;
 #ifndef DEBUG_UART_PORT
 	jc_power_supply(UART_C, true);
 	jc_power_supply(UART_B, true);
@ -836,14 +885,14 @@ void jc_init_hw()
 	pinmux_config_uart(UART_C);
 	// Ease the stress to APB.
-	bpmp_clk_rate_set(BPMP_CLK_NORMAL);
+	bpmp_freq_t prev_fid = bpmp_clk_rate_set(BPMP_CLK_NORMAL);
 	// Enable UART B and C clocks.
 	clock_enable_uart(UART_B);
 	clock_enable_uart(UART_C);
 	// Restore OC.
-	bpmp_clk_rate_set(BPMP_CLK_DEFAULT_BOOST);
+	bpmp_clk_rate_set(prev_fid);
 	// Turn Joy-Con detect on.
 	gpio_config(GPIO_PORT_G, GPIO_PIN_0, GPIO_MODE_GPIO);
--- a/bdk/input/touch.c
+++ b/bdk/input/touch.c
@ -23,7 +23,6 @@
 #include <soc/i2c.h>
 #include <soc/pinmux.h>
 #include <power/max7762x.h>
 #include <power/max77620.h>
 #include <soc/gpio.h>
 #include <soc/t210.h>
 #include <utils/btn.h>
@ -34,6 +33,16 @@
 #include <gfx_utils.h>
 #define DPRINTF(...) gfx_printf(__VA_ARGS__)
 static touch_panel_info_t _panels[] =
 {
 	{  0,  1, 1, 1,  "NISSHA NFT-K12D" },
 	{  1,  0, 1, 1,  "GiS GGM6 B2X"    },
 	{  2,  0, 0, 0,  "NISSHA NBF-K9A"  },
 	{  3,  1, 0, 0,  "GiS 5.5\""       },
 	{  4,  0, 0, 1,  "Samsung BH2109"  },
 	{ -1,  1, 0, 1,  "GiS VA 6.2\""    }
 };
 static int touch_command(u8 cmd, u8 *buf, u8 size)
 {
 	int res = i2c_send_buf_small(I2C_3, STMFTS_I2C_ADDR, cmd, buf, size);
@ -53,7 +62,7 @@ static int touch_read_reg(u8 *cmd, u32 csize, u8 *buf, u32 size)
 	return 0;
 }
-static int touch_wait_event(u8 event, u8 status, u32 timeout)
+static int touch_wait_event(u8 event, u8 status, u32 timeout, u8 *buf)
 {
 	u32 timer = get_tmr_ms() + timeout;
 	while (true)
@ -61,7 +70,11 @@ static int touch_wait_event(u8 event, u8 status, u32 timeout)
 		u8 tmp[8] = {0};
 		i2c_recv_buf_small(tmp, 8, I2C_3, STMFTS_I2C_ADDR, STMFTS_READ_ONE_EVENT);
 		if (tmp[1] == event && tmp[2] == status)
 		{
 			if (buf)
 				memcpy(buf, &tmp[3], 5);
 			return 0;
 		}
 		if (get_tmr_ms() > timer)
 			return 1;
@ -147,10 +160,10 @@ static void _touch_parse_event(touch_event *event)
 			event->type = STMFTS_EV_MULTI_TOUCH_LEAVE;
 	}
-	// gfx_con_setpos(&gfx_con, 0, 300);
+	// gfx_con_setpos(0, 300);
 	// DPRINTF("x = %d    \ny = %d    \nz = %d  \n", event->x, event->y, event->z);
-	// DPRINTF("0 = %02X\n1 = %02x\n2 = %02x\n3 = %02x\n", event->raw[0], event->raw[1], event->raw[2], event->raw[3]);
+	// DPRINTF("0 = %02X\n1 = %02X\n2 = %02X\n3 = %02X\n", event->raw[0], event->raw[1], event->raw[2], event->raw[3]);
-	// DPRINTF("4 = %02X\n5 = %02x\n6 = %02x\n7 = %02x\n", event->raw[4], event->raw[5], event->raw[6], event->raw[7]);
+	// DPRINTF("4 = %02X\n5 = %02X\n6 = %02X\n7 = %02X\n", event->raw[4], event->raw[5], event->raw[6], event->raw[7]);
 }
 void touch_poll(touch_event *event)
@ -183,16 +196,45 @@ touch_info touch_get_info()
 	info.config_id = buf[4];
 	info.config_ver = buf[5];
-	//DPRINTF("ID: %04X, FW Ver: %d.%02d\nCfg ID: %02x, Cfg Ver: %d\n",
+	//DPRINTF("ID: %04X, FW Ver: %d.%02d\nCfg ID: %02X, Cfg Ver: %d\n",
 	//	info.chip_id, info.fw_ver >> 8, info.fw_ver & 0xFF, info.config_id, info.config_ver);
 	return info;
 }
 touch_panel_info_t *touch_get_panel_vendor()
 {
 	u8 buf[5] = {0};
 	u8 cmd = STMFTS_VENDOR_GPIO_STATE;
 	static touch_panel_info_t panel_info = { -2,  0, 0, 0,  ""};
 	if (touch_command(STMFTS_VENDOR, &cmd, 1))
 		return NULL;
 	if (touch_wait_event(STMFTS_EV_VENDOR, STMFTS_VENDOR_GPIO_STATE, 2000, buf))
 		return NULL;
 	for (u32 i = 0; i < ARRAY_SIZE(_panels); i++)
 	{
 		touch_panel_info_t *panel = &_panels[i];
 		if (buf[0] == panel->gpio0 && buf[1] == panel->gpio1 && buf[2] == panel->gpio2)
 			return panel;
 	}
 	// Touch panel not found, return current gpios.
 	panel_info.gpio0 = buf[0];
 	panel_info.gpio1 = buf[1];
 	panel_info.gpio2 = buf[2];
 	return &panel_info;
 }
 int touch_get_fw_info(touch_fw_info_t *fw)
 {
 	u8 buf[8] = {0};
 	memset(fw, 0, sizeof(touch_fw_info_t));
 	// Get fw address info.
 	u8 cmd[3] = { STMFTS_RW_FRAMEBUFFER_REG, 0, 0x60 };
 	int res = touch_read_reg(cmd, 3, buf, 3);
@ -227,7 +269,7 @@ int touch_sys_reset()
 			continue;
 		}
 		msleep(10);
-		if (touch_wait_event(STMFTS_EV_CONTROLLER_READY, 0, 20))
+		if (touch_wait_event(STMFTS_EV_CONTROLLER_READY, 0, 20, NULL))
 			continue;
 		else
 			return 0;
@ -301,9 +343,9 @@ int touch_get_fb_info(u8 *buf)
 int touch_sense_enable()
 {
-	// Enable auto tuning calibration and multi-touch sensing.
+	// Switch sense mode and enable multi-touch sensing.
-	u8 cmd = 1;
+	u8 cmd = STMFTS_FINGER_MODE;
-	if (touch_command(STMFTS_AUTO_CALIBRATION, &cmd, 1))
+	if (touch_command(STMFTS_SWITCH_SENSE_MODE, &cmd, 1))
 		return 0;
 	if (touch_command(STMFTS_MS_MT_SENSE_ON, NULL, 0))
@ -329,19 +371,19 @@ int touch_execute_autotune()
 	// Apply Mutual Sense Compensation tuning.
 	if (touch_command(STMFTS_MS_CX_TUNING, NULL, 0))
 		return 0;
-	if (touch_wait_event(STMFTS_EV_STATUS, STMFTS_EV_STATUS_MS_CX_TUNING_DONE, 2000))
+	if (touch_wait_event(STMFTS_EV_STATUS, STMFTS_EV_STATUS_MS_CX_TUNING_DONE, 2000, NULL))
 		return 0;
 	// Apply Self Sense Compensation tuning.
 	if (touch_command(STMFTS_SS_CX_TUNING, NULL, 0))
 		return 0;
-	if (touch_wait_event(STMFTS_EV_STATUS, STMFTS_EV_STATUS_SS_CX_TUNING_DONE, 2000))
+	if (touch_wait_event(STMFTS_EV_STATUS, STMFTS_EV_STATUS_SS_CX_TUNING_DONE, 2000, NULL))
 		return 0;
 	// Save Compensation data to EEPROM.
 	if (touch_command(STMFTS_SAVE_CX_TUNING, NULL, 0))
 		return 0;
-	if (touch_wait_event(STMFTS_EV_STATUS, STMFTS_EV_STATUS_WRITE_CX_TUNE_DONE, 2000))
+	if (touch_wait_event(STMFTS_EV_STATUS, STMFTS_EV_STATUS_WRITE_CX_TUNE_DONE, 2000, NULL))
 		return 0;
 	return touch_sense_enable();
@ -358,12 +400,11 @@ static int touch_init()
 int touch_power_on()
 {
-	// Enables LDO6 for touchscreen VDD/AVDD supply
+	// Enable LDO6 for touchscreen AVDD supply.
-	max77620_regulator_set_volt_and_flags(REGULATOR_LDO6, 2900000, MAX77620_POWER_MODE_NORMAL);
+	max7762x_regulator_set_voltage(REGULATOR_LDO6, 2900000);
-	i2c_send_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_LDO6_CFG2,
+	max7762x_regulator_enable(REGULATOR_LDO6, true);
 		 (MAX77620_POWER_MODE_NORMAL << MAX77620_LDO_POWER_MODE_SHIFT | (3 << 3) | MAX77620_LDO_CFG2_ADE_ENABLE));
-	// Configure touchscreen GPIO.
+	// Configure touchscreen VDD GPIO.
 	PINMUX_AUX(PINMUX_AUX_DAP4_SCLK) = PINMUX_PULL_DOWN | 1;
 	gpio_config(GPIO_PORT_J, GPIO_PIN_7, GPIO_MODE_GPIO);
 	gpio_output_enable(GPIO_PORT_J, GPIO_PIN_7, GPIO_OUTPUT_ENABLE);
@ -377,7 +418,7 @@ int touch_power_on()
 	// Configure Touscreen and GCAsic shared GPIO.
 	PINMUX_AUX(PINMUX_AUX_CAM_I2C_SDA) = PINMUX_LPDR | PINMUX_INPUT_ENABLE | PINMUX_TRISTATE | PINMUX_PULL_UP | 2;
 	PINMUX_AUX(PINMUX_AUX_CAM_I2C_SCL) = PINMUX_IO_HV | PINMUX_LPDR | PINMUX_TRISTATE | PINMUX_PULL_DOWN | 2;
-	gpio_config(GPIO_PORT_S, GPIO_PIN_3, GPIO_MODE_GPIO);
+	gpio_config(GPIO_PORT_S, GPIO_PIN_3, GPIO_MODE_GPIO); // GC detect.
 	// Initialize I2C3.
 	pinmux_config_i2c(I2C_3);
@ -385,7 +426,7 @@ int touch_power_on()
 	i2c_init(I2C_3);
 	// Wait for the touchscreen module to get ready.
-	touch_wait_event(STMFTS_EV_CONTROLLER_READY, 0, 20);
+	touch_wait_event(STMFTS_EV_CONTROLLER_READY, 0, 20, NULL);
 	// Check for forced boot time calibration.
 	if (btn_read_vol() == (BTN_VOL_UP | BTN_VOL_DOWN))
@ -414,9 +455,7 @@ void touch_power_off()
 	gpio_write(GPIO_PORT_J, GPIO_PIN_7, GPIO_LOW);
 	// Disables LDO6 for touchscreen VDD, AVDD supply
-	max77620_regulator_enable(REGULATOR_LDO6, 0);
+	max7762x_regulator_enable(REGULATOR_LDO6, false);
 	i2c_send_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_LDO6_CFG2,
 		MAX77620_LDO_CFG2_ADE_ENABLE | (2 << 3) | (MAX77620_POWER_MODE_NORMAL << MAX77620_LDO_POWER_MODE_SHIFT));
 	clock_disable_i2c(I2C_3);
 }
--- a/bdk/input/touch.h
+++ b/bdk/input/touch.h
@ -47,19 +47,27 @@
 #define STMFTS_ITO_CHECK               0xA7
 #define STMFTS_RELEASEINFO             0xAA
 #define STMFTS_WRITE_REG               0xB6
-#define STMFTS_AUTO_CALIBRATION        0xC3
+#define STMFTS_SWITCH_SENSE_MODE       0xC3
 #define STMFTS_NOISE_WRITE             0xC7
 #define STMFTS_NOISE_READ              0xC8
 #define STMFTS_RW_FRAMEBUFFER_REG      0xD0
 #define STMFTS_SAVE_CX_TUNING          0xFC
-#define STMFTS_UNK0 0xB8 //Request compensation
+#define STMFTS_DETECTION_CONFIG        0xB0
-#define STMFTS_UNK1 0xCF
+#define STMFTS_REQU_COMP_DATA          0xB8
-#define STMFTS_UNK2 0xF7
+#define STMFTS_VENDOR                  0xCF
-#define STMFTS_UNK3 0xFA
+#define STMFTS_FLASH_UNLOCK            0xF7
-#define STMFTS_UNK4 0xF9
+#define STMFTS_FLASH_WRITE_64K         0xF8
 #define STMFTS_FLASH_STATUS            0xF9
 #define STMFTS_FLASH_OP                0xFA
 #define STMFTS_UNK5 0x62
 /* cmd parameters */
 #define STMFTS_VENDOR_GPIO_STATE       0x01
 #define STMFTS_VENDOR_SENSE_MODE       0x02
 #define STMFTS_STYLUS_MODE             0x00
 #define STMFTS_FINGER_MODE             0x01
 #define STMFTS_HOVER_MODE              0x02
 /* events */
 #define STMFTS_EV_NO_EVENT             0x00
@ -74,6 +82,7 @@
 #define STMFTS_EV_ERROR                0x0f
 #define STMFTS_EV_NOISE_READ           0x17
 #define STMFTS_EV_NOISE_WRITE          0x18
 #define STMFTS_EV_VENDOR               0x20
 #define STMFTS_EV_CONTROLLER_READY     0x10
 #define STMFTS_EV_STATUS               0x16
@ -131,6 +140,15 @@ typedef struct _touch_event {
 	bool touch;
 } touch_event;
 typedef struct _touch_panel_info_t
 {
 	u8 idx;
 	u8 gpio0;
 	u8 gpio1;
 	u8 gpio2;
 	char *vendor;
 } touch_panel_info_t;
 typedef struct _touch_info {
 	u16 chip_id;
 	u16 fw_ver;
@ -146,6 +164,7 @@ typedef struct _touch_fw_info_t {
 void touch_poll(touch_event *event);
 touch_event touch_poll_wait();
 touch_panel_info_t *touch_get_panel_vendor();
 int touch_get_fw_info(touch_fw_info_t *fw);
 touch_info touch_get_info();
 int touch_panel_ito_test(u8 *err);
--- a/bdk/libs/compr/lz4.c
+++ b/bdk/libs/compr/lz4.c
@ -839,10 +839,12 @@ int LZ4_compress_fast_extState_fastReset(void* state, const char* src, char* dst
 int LZ4_compress_fast(const char* source, char* dest, int inputSize, int maxOutputSize, int acceleration)
 {
    int result;
-    LZ4_stream_t ctx;
+    LZ4_stream_t* ctx = (LZ4_stream_t*)ALLOC(sizeof(LZ4_stream_t));
-    LZ4_stream_t* const ctxPtr = &ctx;
+    LZ4_stream_t* const ctxPtr = ctx;
    result = LZ4_compress_fast_extState(ctxPtr, source, dest, inputSize, maxOutputSize, acceleration);
    FREEMEM(ctx);
    return result;
 }
@ -857,13 +859,18 @@ int LZ4_compress_default(const char* source, char* dest, int inputSize, int maxO
 /* strangely enough, gcc generates faster code when this function is uncommented, even if unused */
 int LZ4_compress_fast_force(const char* source, char* dest, int inputSize, int maxOutputSize, int acceleration)
 {
-    LZ4_stream_t ctx;
+    int result;
-    LZ4_resetStream(&ctx);
+    LZ4_stream_t* ctx = (LZ4_stream_t*)ALLOC(sizeof(LZ4_stream_t));
    LZ4_resetStream(ctx);
    if (inputSize < LZ4_64Klimit)
-        return LZ4_compress_generic(&ctx.internal_donotuse, source, dest, inputSize, maxOutputSize, limitedOutput, byU16,                        noDict, noDictIssue, acceleration);
+        result = LZ4_compress_generic(&ctx->internal_donotuse, source, dest, inputSize, maxOutputSize, limitedOutput, byU16,                        noDict, noDictIssue, acceleration);
    else
-        return LZ4_compress_generic(&ctx.internal_donotuse, source, dest, inputSize, maxOutputSize, limitedOutput, sizeof(void*)==8 ? byU32 : byPtr, noDict, noDictIssue, acceleration);
+        result = LZ4_compress_generic(&ctx->internal_donotuse, source, dest, inputSize, maxOutputSize, limitedOutput, sizeof(void*)==8 ? byU32 : byPtr, noDict, noDictIssue, acceleration);
    FREEMEM(ctx);
    return result;
 }
@ -1045,11 +1052,13 @@ static int LZ4_compress_destSize_extState (LZ4_stream_t* state, const char* src,
 int LZ4_compress_destSize(const char* src, char* dst, int* srcSizePtr, int targetDstSize)
 {
-    LZ4_stream_t ctxBody;
+    LZ4_stream_t* ctxBody = (LZ4_stream_t*)ALLOC(sizeof(LZ4_stream_t));;
-    LZ4_stream_t* ctx = &ctxBody;
+    LZ4_stream_t* ctx = ctxBody;
    int result = LZ4_compress_destSize_extState(ctx, src, dst, srcSizePtr, targetDstSize);
    FREEMEM(ctxBody);
    return result;
 }
--- a/bdk/libs/fatfs/diskio.h
+++ b/bdk/libs/fatfs/diskio.h
@ -27,7 +27,8 @@ typedef enum {
 	DRIVE_SD   = 0,
 	DRIVE_RAM  = 1,
 	DRIVE_EMMC = 2,
-	DRIVE_BIS  = 3
+	DRIVE_BIS  = 3,
 	DRIVE_EMU  = 4
 } DDRIVE;
@ -59,6 +60,7 @@ DRESULT disk_set_info (BYTE pdrv, BYTE cmd, void *buff);
 #define GET_SECTOR_SIZE		2	/* Get sector size (needed at FF_MAX_SS != FF_MIN_SS) */
 #define GET_BLOCK_SIZE		3	/* Get erase block size (needed at FF_USE_MKFS == 1) */
 #define CTRL_TRIM			4	/* Inform device that the data on the block of sectors is no longer used (needed at FF_USE_TRIM == 1) */
 #define SET_SECTOR_OFFSET	5	/* Set media logical offset */
 /* Generic command (Not used by FatFs) */
 #define CTRL_POWER			5	/* Get/Set power status */
--- a/bdk/libs/fatfs/ff.c
+++ b/bdk/libs/fatfs/ff.c
@ -1,6 +1,6 @@
 /*
 * Copyright (c) 2018 naehrwert
- * Copyright (c) 2018-2019 CTCaer
+ * Copyright (c) 2018-2021 CTCaer
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
@ -38,6 +38,7 @@
 #include "ff.h"			/* Declarations of FatFs API */
 #include "diskio.h"		/* Declarations of device I/O functions */
 #include <storage/mbr_gpt.h>
 #include <gfx_utils.h>
 #define EFSPRINTF(text, ...) print_error(); gfx_printf("%k"text"%k\n", 0xFFFFFF00, 0xFFFFFFFF);
@ -3273,7 +3274,6 @@ static FRESULT find_volume (	/* FR_OK(0): successful, !=0: an error occurred */
 		stat = disk_status(fs->pdrv);
 		if (!(stat & STA_NOINIT)) {		/* and the physical drive is kept initialized */
 			if (!FF_FS_READONLY && mode && (stat & STA_PROTECT)) {	/* Check write protection if needed */
 				EFSPRINTF("WPEN1");
 				return FR_WRITE_PROTECTED;
 			}
 			return FR_OK;				/* The filesystem object is valid */
@ -3284,14 +3284,13 @@ static FRESULT find_volume (	/* FR_OK(0): successful, !=0: an error occurred */
 	/* Following code attempts to mount the volume. (analyze BPB and initialize the filesystem object) */
 	fs->fs_type = 0;					/* Clear the filesystem object */
 	fs->part_type = 0;					/* Clear the Partition object */
 	fs->pdrv = LD2PD(vol);				/* Bind the logical drive and a physical drive */
 	stat = disk_initialize(fs->pdrv);	/* Initialize the physical drive */
 	if (stat & STA_NOINIT) { 			/* Check if the initialization succeeded */
 		EFSPRINTF("MDNR");
 		return FR_NOT_READY;			/* Failed to initialize due to no medium or hard error */
 	}
 	if (!FF_FS_READONLY && mode && (stat & STA_PROTECT)) { /* Check disk write protection if needed */
 		EFSPRINTF("WPEN2");
 		return FR_WRITE_PROTECTED;
 	}
 #if FF_MAX_SS != FF_MIN_SS				/* Get sector size (multiple sector size cfg only) */
@ -3318,6 +3317,20 @@ static FRESULT find_volume (	/* FR_OK(0): successful, !=0: an error occurred */
 		EFSPRINTF("BRNL");
 		return FR_DISK_ERR;		/* An error occured in the disk I/O layer */
 	}
 #if FF_SIMPLE_GPT
 	if (fmt >= 2) {
 		/* If GPT Check the first partition */
 		gpt_header_t *gpt_header = (gpt_header_t *)fs->win;
 		if (move_window(fs, 1) != FR_OK) return FR_DISK_ERR;
 		if (!mem_cmp(&gpt_header->signature, "EFI PART", 8)) {
 			if (move_window(fs, gpt_header->part_ent_lba) != FR_OK) return FR_DISK_ERR;
 			gpt_entry_t *gpt_entry = (gpt_entry_t *)fs->win;
 			fs->part_type = 1;
 			bsect = gpt_entry->lba_start;
 			fmt = bsect ? check_fs(fs, bsect) : 3;	/* Check the partition */
 		}
 	}
 #endif
 	if (fmt >= 2) {
 		EFSPRINTF("NOFAT");
 		return FR_NO_FILESYSTEM;	/* No FAT volume is found */
@ -4696,9 +4709,9 @@ DWORD *f_expand_cltbl (
 	}
 	if (f_lseek(fp, CREATE_LINKMAP)) {	/* Create cluster link table */
 		ff_memfree(fp->cltbl);
-		fp->cltbl = NULL;
+		fp->cltbl = (void *)0;
 		EFSPRINTF("CLTBLSZ");
-		return NULL;
+		return (void *)0;
 	}
 	f_lseek(fp, 0);
@ -6169,7 +6182,9 @@ FRESULT f_mkfs (
 #endif
 		/* Create FAT VBR */
 		mem_set(buf, 0, ss);
-		mem_cpy(buf + BS_JmpBoot, "\xEB\xFE\x90" "MSDOS5.0", 11);/* Boot jump code (x86), OEM name */
+		/* Boot jump code (x86), OEM name */
 		if (!(opt & FM_PRF2)) mem_cpy(buf + BS_JmpBoot, "\xEB\xFE\x90" "NYX1.0.0", 11);
 		else mem_cpy(buf + BS_JmpBoot, "\xEB\xE9\x90\x00\x00\x00\x00\x00\x00\x00\x00", 11);
 		st_word(buf + BPB_BytsPerSec, ss);				/* Sector size [byte] */
 		buf[BPB_SecPerClus] = (BYTE)pau;				/* Cluster size [sector] */
 		st_word(buf + BPB_RsvdSecCnt, (WORD)sz_rsv);	/* Size of reserved area */
@ -6182,23 +6197,27 @@ FRESULT f_mkfs (
 		}
 		buf[BPB_Media] = 0xF8;							/* Media descriptor byte */
 		st_word(buf + BPB_SecPerTrk, 63);				/* Number of sectors per track (for int13) */
-		st_word(buf + BPB_NumHeads, 255);				/* Number of heads (for int13) */
+		st_word(buf + BPB_NumHeads, (opt & FM_PRF2) ? 16 : 255);	/* Number of heads (for int13) */
 		st_dword(buf + BPB_HiddSec, b_vol);				/* Volume offset in the physical drive [sector] */
 		if (fmt == FS_FAT32) {
-			st_dword(buf + BS_VolID32, GET_FATTIME());	/* VSN */
+			st_dword(buf + BS_VolID32, (opt & FM_PRF2) ? 0 : GET_FATTIME());	/* VSN */
 			st_dword(buf + BPB_FATSz32, sz_fat);		/* FAT size [sector] */
 			st_dword(buf + BPB_RootClus32, 2);			/* Root directory cluster # (2) */
 			st_word(buf + BPB_FSInfo32, 1);				/* Offset of FSINFO sector (VBR + 1) */
 			st_word(buf + BPB_BkBootSec32, 6);			/* Offset of backup VBR (VBR + 6) */
 			buf[BS_DrvNum32] = 0x80;					/* Drive number (for int13) */
 			buf[BS_BootSig32] = 0x29;					/* Extended boot signature */
-			mem_cpy(buf + BS_VolLab32, "SWITCH SD  " "FAT32   ", 19);	/* Volume label, FAT signature */
+			/* Volume label, FAT signature */
 			if (!(opt & FM_PRF2)) mem_cpy(buf + BS_VolLab32, FF_MKFS_LABEL "FAT32   ", 19);
 			else mem_cpy(buf + BS_VolLab32, "NO NAME    " "FAT32   ", 19);
 		} else {
 			st_dword(buf + BS_VolID, GET_FATTIME());	/* VSN */
 			st_word(buf + BPB_FATSz16, (WORD)sz_fat);	/* FAT size [sector] */
 			buf[BS_DrvNum] = 0x80;						/* Drive number (for int13) */
 			buf[BS_BootSig] = 0x29;						/* Extended boot signature */
-			mem_cpy(buf + BS_VolLab, "SWITCH SD  " "FAT     ", 19);	/* Volume label, FAT signature */
+			/* Volume label, FAT signature */
 			if (!(opt & FM_PRF2)) mem_cpy(buf + BS_VolLab, FF_MKFS_LABEL "FAT     ", 19);
 			else mem_cpy(buf + BS_VolLab, "NO NAME    " "FAT     ", 19);
 		}
 		st_word(buf + BS_55AA, 0xAA55);					/* Signature (offset is fixed here regardless of sector size) */
 		if (disk_write(pdrv, buf, b_vol, 1) != RES_OK) LEAVE_MKFS(FR_DISK_ERR);	/* Write it to the VBR sector */
@ -6216,6 +6235,16 @@ FRESULT f_mkfs (
 			disk_write(pdrv, buf, b_vol + 1, 1);		/* Write original FSINFO (VBR + 1) */
 		}
 		/* Create PRF2SAFE info */
 		if (fmt == FS_FAT32 && opt & FM_PRF2) {
 			mem_set(buf, 0, ss);
 			buf[16] = 0x64;							/* Record type */
 			st_dword(buf + 32, 0x03);				/* Unknown. SYSTEM: 0x3F00. USER: 0x03. Volatile. */
 			st_dword(buf + 36, 25);					/* Entries. SYSTEM: 22. USER: 25.Static? */
 			st_dword(buf + 508, 0x517BBFE0);		/* Custom CRC32. SYSTEM: 0x6B673904. USER: 0x517BBFE0. */
 			disk_write(pdrv, buf, b_vol + 3, 1);	/* Write PRF2SAFE info (VBR + 3) */
 		}
 		/* Initialize FAT area */
 		mem_set(buf, 0, (UINT)szb_buf);
 		sect = b_fat;		/* FAT start sector */
@ -6705,6 +6734,8 @@ int f_puts (
 	putbuff pb;
 	if (str == (void *)0) return EOF; /* String is NULL */
 	putc_init(&pb, fp);
 	while (*str) putc_bfd(&pb, *str++);		/* Put the string */
 	return putc_flush(&pb);
@ -6731,6 +6762,8 @@ int f_printf (
 	TCHAR c, d, str[32], *p;
 	if (fmt == (void *)0) return EOF; /* String is NULL */
 	putc_init(&pb, fp);
 	va_start(arp, fmt);
--- a/bdk/libs/fatfs/ff.h
+++ b/bdk/libs/fatfs/ff.h
@ -97,6 +97,7 @@ typedef DWORD FSIZE_t;
 typedef struct {
 	BYTE	win[FF_MAX_SS];	/* Disk access window for Directory, FAT (and file data at tiny cfg) */
 	BYTE	fs_type;		/* Filesystem type (0:not mounted) */
 	BYTE	part_type;		/* Partition type (0:MBR, 1:GPT) */
 	BYTE	pdrv;			/* Associated physical drive */
 	BYTE	n_fats;			/* Number of FATs (1 or 2) */
 	BYTE	wflag;			/* win[] flag (b0:dirty) */
@ -168,9 +169,6 @@ typedef struct {
 /* File object structure (FIL) */
 typedef struct {
 #if !FF_FS_TINY
 	BYTE	buf[FF_MAX_SS];	/* File private data read/write window */
 #endif
 	FFOBJID	obj;			/* Object identifier (must be the 1st member to detect invalid object pointer) */
 	BYTE	flag;			/* File status flags */
 	BYTE	err;			/* Abort flag (error code) */
@ -184,6 +182,9 @@ typedef struct {
 #if FF_USE_FASTSEEK
 	DWORD*	cltbl;			/* Pointer to the cluster link map table (nulled on open, set by application) */
 #endif
 #if !FF_FS_TINY
 	BYTE	buf[FF_MAX_SS] __attribute__((aligned(8)));	/* File private data read/write window. DMA aligned. */
 #endif
 } FIL;
@ -365,6 +366,7 @@ int ff_del_syncobj (FF_SYNC_t sobj);	/* Delete a sync object */
 #define FM_EXFAT	0x04
 #define FM_ANY		0x07
 #define FM_SFD		0x08
 #define FM_PRF2		0x10
 /* Filesystem type (FATFS.fs_type) */
 #define FS_FAT12	1
--- a/bdk/libs/lv_conf.h
+++ b/bdk/libs/lv_conf.h
@ -155,7 +155,7 @@
 /*Log settings*/
-#ifdef DEBUG_UART_PORT
+#ifdef DEBUG_UART_LV_LOG
 #  define USE_LV_LOG        1   /*Enable/disable the log module*/
 #else
 #  define USE_LV_LOG        0   /*Enable/disable the log module*/
--- a/bdk/libs/lvgl/lv_misc/lv_log.c
+++ b/bdk/libs/lvgl/lv_misc/lv_log.c
@ -63,7 +63,7 @@ void lv_log_add(lv_log_level_t level, const char * file, int line, const char *
    if(level >= LV_LOG_LEVEL) {
-#if LV_LOG_PRINTF
+#if LV_LOG_PRINTF && defined(DEBUG_UART_PORT)
        static const char * lvl_prefix[] = {"Trace", "Info", "Warn", "Error"};
        char *log = (char *)malloc(0x1000);
        s_printf(log, "%s: %s \t(%s #%d)\r\n", lvl_prefix[level], dsc,  file, line);
--- a/bdk/libs/nx_savedata/header.h
+++ b/bdk/libs/nx_savedata/header.h
@ -1,5 +1,5 @@
 /*
- * Copyright (c) 2019-2020 shchmue
+ * Copyright (c) 2019-2022 shchmue
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
@ -61,7 +61,7 @@ OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
 #define VERSION_RMAP         0x10000
 #define VERSION_IVFC         0x20000
-#define SAVE_BLOCK_SIZE_DEFAULT 0x4000
+#define SAVE_BLOCK_SIZE_DEFAULT SZ_16K
 #define SAVE_NUM_HEADERS 2
@ -232,6 +232,6 @@ typedef struct {
    };
 } save_header_t;
-static_assert(sizeof(save_header_t) == 0x4000, "Save header size is wrong!");
+static_assert(sizeof(save_header_t) == SZ_16K, "Save header size is wrong!");
 #endif
--- a/bdk/libs/nx_savedata/remap_storage.h
+++ b/bdk/libs/nx_savedata/remap_storage.h
@ -1,5 +1,5 @@
 /*
- * Copyright (c) 2019-2020 shchmue
+ * Copyright (c) 2019-2022 shchmue
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
@ -41,7 +41,7 @@ OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
 #include <stdint.h>
 #define RMAP_ALIGN_SMALL 0x200
-#define RMAP_ALIGN_LARGE 0x4000
+#define RMAP_ALIGN_LARGE SZ_16K
 typedef struct {
    uint32_t magic; /* RMAP */
--- a/bdk/libs/nx_savedata/save_fs_list.c
+++ b/bdk/libs/nx_savedata/save_fs_list.c
@ -250,7 +250,7 @@ uint32_t save_fs_list_allocate_entry(save_filesystem_list_ctx_t *ctx) {
    if (capacity == 0 || length >= capacity) {
        uint64_t current_size, new_size;
        save_allocation_table_storage_get_size(&ctx->storage, &current_size);
-        if (!save_allocation_table_storage_set_size(&ctx->storage, current_size + 0x4000))
+        if (!save_allocation_table_storage_set_size(&ctx->storage, current_size + SZ_16K))
            return 0;
        save_allocation_table_storage_get_size(&ctx->storage, &new_size);
        if (!save_fs_list_set_capacity(ctx, (uint32_t)(new_size / sizeof(save_fs_list_entry_t))))
--- a/bdk/libs/nx_savedata/save_fs_list.h
+++ b/bdk/libs/nx_savedata/save_fs_list.h
@ -1,5 +1,5 @@
 /*
- * Copyright (c) 2019-2020 shchmue
+ * Copyright (c) 2019-2022 shchmue
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
--- a/bdk/mem/mc.c
+++ b/bdk/mem/mc.c
@ -1,6 +1,6 @@
 /*
 * Copyright (c) 2018 naehrwert
- * Copyright (c) 2018 CTCaer
+ * Copyright (c) 2018-2021 CTCaer
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
@ -15,11 +15,14 @@
 * along with this program.  If not, see <http://www.gnu.org/licenses/>.
 */
 #include <memory_map.h>
 #include <mem/mc.h>
 #include <soc/t210.h>
 #include <soc/clock.h>
 #include <utils/util.h>
 //#define CONFIG_ENABLE_AHB_REDIRECT
 void mc_config_tsec_carveout(u32 bom, u32 size1mb, bool lock)
 {
 	MC(MC_SEC_CARVEOUT_BOM) = bom;
@ -122,13 +125,13 @@ void mc_config_carveout()
 	MC(MC_SECURITY_CARVEOUT5_CFG0) = 0x8F;
 }
-void mc_enable_ahb_redirect()
+void mc_enable_ahb_redirect(bool full_aperture)
 {
 	// Enable ARC_CLK_OVR_ON.
 	CLOCK(CLK_RST_CONTROLLER_LVL2_CLK_GATE_OVRD) = (CLOCK(CLK_RST_CONTROLLER_LVL2_CLK_GATE_OVRD) & 0xFFF7FFFF) | 0x80000;
 	//MC(MC_IRAM_REG_CTRL) &= 0xFFFFFFFE;
 	MC(MC_IRAM_BOM) = 0x40000000;
-	MC(MC_IRAM_TOM) = 0x4003F000;
+	MC(MC_IRAM_TOM) = full_aperture ? DRAM_START : 0x4003F000;
 }
 void mc_disable_ahb_redirect()
@ -143,17 +146,19 @@ void mc_disable_ahb_redirect()
 void mc_enable()
 {
 	// Reset EMC source to PLLP.
 	CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_EMC) = (CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_EMC) & 0x1FFFFFFF) | 0x40000000;
 	// Enable memory clocks.
-	CLOCK(CLK_RST_CONTROLLER_CLK_ENB_H_SET) = (CLOCK(CLK_RST_CONTROLLER_CLK_ENB_H_SET) & ~BIT(CLK_H_EMC))     | BIT(CLK_H_EMC);
+	CLOCK(CLK_RST_CONTROLLER_CLK_ENB_H_SET) = BIT(CLK_H_EMC);
-	CLOCK(CLK_RST_CONTROLLER_CLK_ENB_H_SET) = (CLOCK(CLK_RST_CONTROLLER_CLK_ENB_H_SET) & ~BIT(CLK_H_MEM))     | BIT(CLK_H_MEM);
+	CLOCK(CLK_RST_CONTROLLER_CLK_ENB_H_SET) = BIT(CLK_H_MEM);
-	CLOCK(CLK_RST_CONTROLLER_CLK_ENB_X_SET) = (CLOCK(CLK_RST_CONTROLLER_CLK_ENB_X_SET) & ~BIT(CLK_X_EMC_DLL)) | BIT(CLK_X_EMC_DLL);
+	CLOCK(CLK_RST_CONTROLLER_CLK_ENB_X_SET) = BIT(CLK_X_EMC_DLL);
 	// Clear clock resets for memory.
 	CLOCK(CLK_RST_CONTROLLER_RST_DEV_H_CLR) = BIT(CLK_H_EMC) | BIT(CLK_H_MEM);
 	usleep(5);
-	//#ifdef CONFIG_ENABLE_AHB_REDIRECT
+#ifdef CONFIG_ENABLE_AHB_REDIRECT
 	mc_enable_ahb_redirect();
 #else
 	mc_disable_ahb_redirect();
-	//mc_enable_ahb_redirect();
+#endif
 	//#endif
 }
--- a/bdk/mem/mc.h
+++ b/bdk/mem/mc.h
@ -23,7 +23,7 @@
 void mc_config_tsec_carveout(u32 bom, u32 size1mb, bool lock);
 void mc_config_carveout();
 void mc_config_carveout_finalize();
-void mc_enable_ahb_redirect();
+void mc_enable_ahb_redirect(bool full_aperture);
 void mc_disable_ahb_redirect();
 void mc_enable();
--- a/bdk/mem/minerva.c
+++ b/bdk/mem/minerva.c
@ -60,7 +60,7 @@ u32 minerva_init()
 		mtc_config_t mtc_tmp;
 		mtc_tmp.mtc_table = mtc_cfg->mtc_table;
-		mtc_tmp.sdram_id = (fuse_read_odm(4) >> 3) & 0x1F;
+		mtc_tmp.sdram_id  = fuse_read_dramid(false);
 		mtc_tmp.init_done = MTC_NEW_MAGIC;
 		u32 ep_addr = ianos_loader("bootloader/sys/libsys_minerva.bso", DRAM_LIB, (void *)&mtc_tmp);
@ -81,7 +81,7 @@ u32 minerva_init()
 	// Set table to nyx storage.
 	mtc_cfg->mtc_table = (emc_table_t *)nyx_str->mtc_table;
-	mtc_cfg->sdram_id = (fuse_read_odm(4) >> 3) & 0x1F;
+	mtc_cfg->sdram_id  = fuse_read_dramid(false);
 	mtc_cfg->init_done = MTC_NEW_MAGIC; // Initialize mtc table.
 	u32 ep_addr = ianos_loader("bootloader/sys/libsys_minerva.bso", DRAM_LIB, (void *)mtc_cfg);
@ -104,21 +104,21 @@ u32 minerva_init()
 	}
 	mtc_cfg->rate_from = mtc_cfg->mtc_table[curr_ram_idx].rate_khz;
-	mtc_cfg->rate_to = 204000;
+	mtc_cfg->rate_to = FREQ_204;
 	mtc_cfg->train_mode = OP_TRAIN;
 	minerva_cfg(mtc_cfg, NULL);
-	mtc_cfg->rate_to = 800000;
+	mtc_cfg->rate_to = FREQ_800;
 	minerva_cfg(mtc_cfg, NULL);
-	mtc_cfg->rate_to = 1600000;
+	mtc_cfg->rate_to = FREQ_1600;
 	minerva_cfg(mtc_cfg, NULL);
 	// FSP WAR.
 	mtc_cfg->train_mode = OP_SWITCH;
-	mtc_cfg->rate_to = 800000;
+	mtc_cfg->rate_to = FREQ_800;
 	minerva_cfg(mtc_cfg, NULL);
 	// Switch to max.
-	mtc_cfg->rate_to = 1600000;
+	mtc_cfg->rate_to = FREQ_1600;
 	minerva_cfg(mtc_cfg, NULL);
 	return 0;
@ -129,6 +129,7 @@ void minerva_change_freq(minerva_freq_t freq)
 	if (!minerva_cfg)
 		return;
 	// Check if requested frequency is different. Do not allow otherwise because it will hang.
 	mtc_config_t *mtc_cfg = (mtc_config_t *)&nyx_str->mtc_cfg;
 	if (mtc_cfg->rate_from != freq)
 	{
@ -138,6 +139,23 @@ void minerva_change_freq(minerva_freq_t freq)
 	}
 }
 void minerva_prep_boot_freq()
 {
 	if (!minerva_cfg)
 		return;
 	mtc_config_t *mtc_cfg = (mtc_config_t *)&nyx_str->mtc_cfg;
 	// Check if there's RAM OC. If not exit.
 	if (mtc_cfg->mtc_table[mtc_cfg->table_entries - 1].rate_khz == FREQ_1600)
 		return;
 	// FSP WAR.
 	minerva_change_freq(FREQ_204);
 	// Scale down to 800 MHz boot freq.
 	minerva_change_freq(FREQ_800);
 }
 void minerva_periodic_training()
 {
 	if (!minerva_cfg)
--- a/bdk/mem/minerva.h
+++ b/bdk/mem/minerva.h
@ -27,8 +27,8 @@
 typedef struct
 {
-	s32 rate_to;
+	u32 rate_to;
-	s32 rate_from;
+	u32 rate_from;
 	emc_table_t *mtc_table;
 	u32 table_entries;
 	emc_table_t *current_emc_table;
@ -60,6 +60,7 @@ typedef enum
 extern void (*minerva_cfg)(mtc_config_t *mtc_cfg, void *);
 u32  minerva_init();
 void minerva_change_freq(minerva_freq_t freq);
 void minerva_prep_boot_freq();
 void minerva_periodic_training();
 #endif
--- a/bdk/mem/sdram.c
+++ b/bdk/mem/sdram.c
@ -1,7 +1,7 @@
 /*
 * Copyright (c) 2018 naehrwert
 * Copyright (c) 2018 balika011
- * Copyright (c) 2019-2020 CTCaer
+ * Copyright (c) 2019-2021 CTCaer
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
@ -36,29 +36,48 @@
 #define CONFIG_SDRAM_KEEP_ALIVE
 //#define CONFIG_SDRAM_COMPRESS_CFG
 typedef struct _sdram_vendor_patch_t
 {
 	u32 val;
-	u32 addr:10;
+	u32 offset:16;
-	u32 dramid:22;
+	u32 dramcf:16;
 } sdram_vendor_patch_t;
-#ifdef CONFIG_SDRAM_COMPRESS_CFG
+static const u8 dram_encoding_t210b01[] = {
-	#include <libs/compr/lz.h>
+	LPDDR4X_UNUSED,
-	#include "sdram_config_lz.inl"
+	LPDDR4X_UNUSED,
-#else
+	LPDDR4X_UNUSED,
 	LPDDR4X_4GB_HYNIX_1Y_A,
 	LPDDR4X_UNUSED,
 	LPDDR4X_4GB_HYNIX_1Y_A,
 	LPDDR4X_4GB_HYNIX_1Y_A,
 	LPDDR4X_4GB_SAMSUNG_X1X2,
 	LPDDR4X_NO_PATCH,
 	LPDDR4X_8GB_SAMSUNG_K4UBE3D4AM_MGCJ,
 	LPDDR4X_NO_PATCH,
 	LPDDR4X_4GB_MICRON_MT53E512M32D2NP_046_WTE,
 	LPDDR4X_NO_PATCH,
 	LPDDR4X_8GB_SAMSUNG_K4UBE3D4AM_MGCJ,
 	LPDDR4X_NO_PATCH,
 	LPDDR4X_4GB_MICRON_MT53E512M32D2NP_046_WTE,
 	LPDDR4X_4GB_SAMSUNG_Y,
 	LPDDR4X_4GB_SAMSUNG_K4U6E3S4AA_MGCL,
 	LPDDR4X_8GB_SAMSUNG_K4UBE3D4AA_MGCL,
 	LPDDR4X_4GB_SAMSUNG_K4U6E3S4AA_MGCL,
 	LPDDR4X_4GB_SAMSUNG_1Y_Y,
 	LPDDR4X_8GB_SAMSUNG_1Y_Y,
 	LPDDR4X_UNUSED, // Removed.
 	LPDDR4X_8GB_SAMSUNG_K4UBE3D4AA_MGCL,
 	LPDDR4X_4GB_SAMSUNG_K4U6E3S4AA_MGCL,
 	LPDDR4X_4GB_MICRON_MT53E512M32D2NP_046_WTF,
 	LPDDR4X_4GB_MICRON_MT53E512M32D2NP_046_WTF,
 	LPDDR4X_4GB_MICRON_MT53E512M32D2NP_046_WTF,
 	LPDDR4X_8GB_SAMSUNG_K4UBE3D4AA_MGCL,
 };
 #include "sdram_config.inl"
 #endif
 #include "sdram_config_t210b01.inl"
 static u32 _sdram_get_id()
 {
 	return ((fuse_read_odm(4) & 0xF8) >> 3);
 }
 static bool _sdram_wait_emc_status(u32 reg_offset, u32 bit_mask, bool updated_state, s32 emc_channel)
 {
 	bool err = true;
@ -1355,100 +1374,42 @@ static void _sdram_config_t210b01(const sdram_params_t210b01_t *params)
 	SYSREG(AHB_ARBITRATION_XBAR_CTRL) = (SYSREG(AHB_ARBITRATION_XBAR_CTRL) & 0xFFFEFFFF) | (params->ahb_arbitration_xbar_ctrl_meminit_done << 16);
 }
 #ifndef CONFIG_SDRAM_COMPRESS_CFG
 static void _sdram_patch_model_params_t210(u32 dramid, u32 *params)
 {
 	for (u32 i = 0; i < ARRAY_SIZE(sdram_cfg_vendor_patches_t210); i++)
 		if (sdram_cfg_vendor_patches_t210[i].dramid & DRAM_ID(dramid))
 			params[sdram_cfg_vendor_patches_t210[i].addr] = sdram_cfg_vendor_patches_t210[i].val;
 }
 #endif
 static void _sdram_patch_model_params_t210b01(u32 dramid, u32 *params)
 {
 	for (u32 i = 0; i < ARRAY_SIZE(sdram_cfg_vendor_patches_t210b01); i++)
 		if (sdram_cfg_vendor_patches_t210b01[i].dramid & DRAM_ID2(dramid))
 			params[sdram_cfg_vendor_patches_t210b01[i].addr] = sdram_cfg_vendor_patches_t210b01[i].val;
 }
 static void *_sdram_get_params_t210()
 {
 	// Check if id is proper.
-	u32 dramid = _sdram_get_id();
+	u32 dramid = fuse_read_dramid(false);
 	if (dramid > 6)
 		dramid = 0;
-#ifdef CONFIG_SDRAM_COMPRESS_CFG
+	// Copy base parameters.
 	u32 *params = (u32 *)SDRAM_PARAMS_ADDR;
 	memcpy(params, &_dram_cfg_0_samsung_4gb, sizeof(sdram_params_t210_t));
-	u8 *buf = (u8 *)SDRAM_PARAMS_ADDR;
+	// Patch parameters if needed.
-	LZ_Uncompress(_dram_cfg_lz, buf, sizeof(_dram_cfg_lz));
+	for (u32 i = 0; i < ARRAY_SIZE(sdram_cfg_vendor_patches_t210); i++)
-	return (void *)&buf[sizeof(sdram_params_t210_t) * dramid];
+		if (sdram_cfg_vendor_patches_t210[i].dramcf & DRAM_ID(dramid))
 			params[sdram_cfg_vendor_patches_t210[i].offset] = sdram_cfg_vendor_patches_t210[i].val;
-#else
+	return (void *)params;
 	u32 *buf = (u32 *)SDRAM_PARAMS_ADDR;
 	memcpy(buf, &_dram_cfg_0_samsung_4gb, sizeof(sdram_params_t210_t));
 	switch (dramid)
 	{
 	case LPDDR4_ICOSA_4GB_SAMSUNG_K4F6E304HB_MGCH:
 	case LPDDR4_ICOSA_4GB_MICRON_MT53B512M32D2NP_062_WT:
 		break;
 	case LPDDR4_ICOSA_4GB_HYNIX_H9HCNNNBPUMLHR_NLE:
 	case LPDDR4_ICOSA_6GB_SAMSUNG_K4FHE3D4HM_MGCH:
 #ifdef CONFIG_SDRAM_COPPER_SUPPORT
 	case LPDDR4_COPPER_4GB_SAMSUNG_K4F6E304HB_MGCH:
 	case LPDDR4_COPPER_4GB_HYNIX_H9HCNNNBPUMLHR_NLE:
 	case LPDDR4_COPPER_4GB_MICRON_MT53B512M32D2NP_062_WT:
 #endif
 		_sdram_patch_model_params_t210(dramid, (u32 *)buf);
 		break;
 	}
 	return (void *)buf;
 #endif
 }
 void *sdram_get_params_t210b01()
 {
 	// Check if id is proper.
-	u32 dramid = _sdram_get_id();
+	u32 dramid = fuse_read_dramid(false);
 	if (dramid > 27)
 		dramid = 8;
-	u32 *buf = (u32 *)SDRAM_PARAMS_ADDR;
+	// Copy base parameters.
-	memcpy(buf, &_dram_cfg_08_10_12_14_samsung_hynix_4gb, sizeof(sdram_params_t210b01_t));
+	u32 *params = (u32 *)SDRAM_PARAMS_ADDR;
 	memcpy(params, &_dram_cfg_08_10_12_14_samsung_hynix_4gb, sizeof(sdram_params_t210b01_t));
-	switch (dramid)
+	// Patch parameters if needed.
-	{
+	u8 dram_code = dram_encoding_t210b01[dramid];
-	case LPDDR4X_IOWA_4GB_SAMSUNG_K4U6E3S4AM_MGCJ:
+	if (!dram_code)
-	case LPDDR4X_IOWA_4GB_HYNIX_H9HCNNNBKMMLHR_NME:
+		return (void *)params;
 	case LPDDR4X_HOAG_4GB_SAMSUNG_K4U6E3S4AM_MGCJ:
 	case LPDDR4X_HOAG_4GB_HYNIX_H9HCNNNBKMMLHR_NME:
 		break;
-	case LPDDR4X_IOWA_4GB_SAMSUNG_X1X2:
+	for (u32 i = 0; i < ARRAY_SIZE(sdram_cfg_vendor_patches_t210b01); i++)
-	case LPDDR4X_IOWA_8GB_SAMSUNG_K4UBE3D4AM_MGCJ:
+		if (sdram_cfg_vendor_patches_t210b01[i].dramcf == dram_code)
-	case LPDDR4X_IOWA_4GB_MICRON_MT53E512M32D2NP_046_WT:
+			params[sdram_cfg_vendor_patches_t210b01[i].offset] = sdram_cfg_vendor_patches_t210b01[i].val;
-	case LPDDR4X_HOAG_8GB_SAMSUNG_K4UBE3D4AM_MGCJ:
+
-	case LPDDR4X_HOAG_4GB_MICRON_MT53E512M32D2NP_046_WT:
+	return (void *)params;
 	case LPDDR4X_IOWA_4GB_SAMSUNG_Y:
 	case LPDDR4X_IOWA_4GB_SAMSUNG_1Y_X:
 	case LPDDR4X_IOWA_8GB_SAMSUNG_1Y_X:
 	case LPDDR4X_HOAG_4GB_SAMSUNG_1Y_X:
 	case LPDDR4X_IOWA_4GB_SAMSUNG_1Y_Y:
 	case LPDDR4X_IOWA_8GB_SAMSUNG_1Y_Y:
 	case LPDDR4X_SDS_4GB_SAMSUNG_1Y_A:
 	case LPDDR4X_SDS_8GB_SAMSUNG_1Y_X:
 	case LPDDR4X_SDS_4GB_SAMSUNG_1Y_X:
 	case LPDDR4X_IOWA_4GB_MICRON_1Y_A:
 	case LPDDR4X_HOAG_4GB_MICRON_1Y_A:
 	case LPDDR4X_SDS_4GB_MICRON_1Y_A:
 		_sdram_patch_model_params_t210b01(dramid, (u32 *)buf);
 		break;
 	}
 	return (void *)buf;
 }
 /*
@ -1494,7 +1455,7 @@ static void _sdram_init_t210()
 	const sdram_params_t210_t *params = (const sdram_params_t210_t *)_sdram_get_params_t210();
 	// Set DRAM voltage.
-	max77620_regulator_set_voltage(REGULATOR_SD1, 1100000);
+	max7762x_regulator_set_voltage(REGULATOR_SD1, 1100000); // HOS uses 1.125V
 	// VDDP Select.
 	PMC(APBDEV_PMC_VDDP_SEL) = params->pmc_vddp_sel;
@ -1539,8 +1500,8 @@ static void _sdram_init_t210b01()
 void sdram_init()
 {
-	// Configure SD regulator for DRAM.
+	// Disable remote sense for SD1.
-	i2c_send_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_SD_CFG2, 0x05);
+	i2c_send_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_SD_CFG2, MAX77620_SD_CNF2_ROVS_EN_SD0 | MAX77620_SD_CNF2_RSVD);
 	if (hw_get_chip_id() == GP_HIDREV_MAJOR_T210)
 		_sdram_init_t210();
--- a/bdk/mem/sdram.h
+++ b/bdk/mem/sdram.h
@ -1,6 +1,6 @@
 /*
 * Copyright (c) 2018 naehrwert
- * Copyright (c) 2020 CTCaer
+ * Copyright (c) 2020-2021 CTCaer
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
@ -23,20 +23,26 @@
 /*
 * Tegra X1/X1+ EMC/DRAM Bandwidth Chart:
 *
- *   40.8 MHz:  0.61 GiB/s
+ * Note: BWbits T210    = Hz x ddr x bus width x channels = Hz x 2 x 32 x 2.
- *   68.0 MHz:  1.01 GiB/s
+ *       BWbits T210B01 = Hz x ddr x bus width x channels = Hz x 2 x 64 x 2.
- *  102.0 MHz:  1.52 GiB/s
+ *       Both assume that both sub-partitions are used and thus reaching max
- *  204.0 MHz:  3.04 GiB/s <-- Tegra X1/X1+ Init/SC7 Frequency
+ *       bandwidth per channel. (T210: 2x16-bit, T210B01: 2x32-bit).
- *  408.0 MHz:  6.08 GiB/s
+ *       Retail Mariko use one sub-partition, in order to meet Erista perf.
- *  665.6 MHz:  9.92 GiB/s
+ *
- *  800.0 MHz: 11.92 GiB/s <-- Tegra X1/X1+ Nvidia OS Boot Frequency
+ *              T210   T210B01
- * 1065.6 MHz: 15.89 GiB/s
+ *   40.8 MHz:  0.61   1.22 GiB/s
- * 1331.2 MHz: 19.84 GiB/s
+ *   68.0 MHz:  1.01   2.02 GiB/s
- * 1600.0 MHz: 23.84 GiB/s <-- Tegra X1  Official Max Frequency
+ *  102.0 MHz:  1.52   3.04 GiB/s
- * 1862.4 MHz: 27.75 GiB/s <-- Tegra X1+ Official Max Frequency
+ *  204.0 MHz:  3.04   6.08 GiB/s <-- Tegra X1/X1+ Init/SC7 Frequency
- * 2131.2 MHz: 31.76 GiB/s
+ *  408.0 MHz:  6.08  12.16 GiB/s
 *  665.6 MHz:  9.92  19.84 GiB/s
 *  800.0 MHz: 11.92  23.84 GiB/s <-- Tegra X1/X1+ Nvidia OS Boot Frequency
 * 1065.6 MHz: 15.89  31.78 GiB/s
 * 1331.2 MHz: 19.84  39.68 GiB/s
 * 1600.0 MHz: 23.84  47.68 GiB/s <-- Tegra X1/X1+ HOS Max Frequency
 * 1862.4 MHz: 27.75  55.50 GiB/s <-- Tegra X1  Official Max Frequency
 * 2131.2 MHz: 31.76  63.52 GiB/s <-- Tegra X1+ Official Max Frequency
 *
 * Note: BWbits = Hz x bus width x channels = Hz x 64 x 2.
 */
 enum sdram_ids_erista
@ -44,46 +50,74 @@ enum sdram_ids_erista
 	// LPDDR4 3200Mbps.
 	LPDDR4_ICOSA_4GB_SAMSUNG_K4F6E304HB_MGCH        = 0,
 	LPDDR4_ICOSA_4GB_HYNIX_H9HCNNNBPUMLHR_NLE       = 1,
-	LPDDR4_ICOSA_4GB_MICRON_MT53B512M32D2NP_062_WT  = 2,
+	LPDDR4_ICOSA_4GB_MICRON_MT53B512M32D2NP_062_WT  = 2, // WT:C.
-	LPDDR4_COPPER_4GB_SAMSUNG_K4F6E304HB_MGCH       = 3,
+	LPDDR4_COPPER_4GB_SAMSUNG_K4F6E304HB_MGCH       = 3, // Changed to Iowa Hynix 4GB 1Y-A.
 	LPDDR4_ICOSA_6GB_SAMSUNG_K4FHE3D4HM_MGCH        = 4,
-	LPDDR4_COPPER_4GB_HYNIX_H9HCNNNBPUMLHR_NLE      = 5,
+	LPDDR4_COPPER_4GB_HYNIX_H9HCNNNBPUMLHR_NLE      = 5, // Changed to Hoag Hynix 4GB 1Y-A.
-	LPDDR4_COPPER_4GB_MICRON_MT53B512M32D2NP_062_WT = 6,
+	LPDDR4_COPPER_4GB_MICRON_MT53B512M32D2NP_062_WT = 6, // Changed to Aula Hynix 4GB 1Y-A.
 };
 enum sdram_ids_mariko
 {
 	// LPDDR4X 4266Mbps.
 	LPDDR4X_IOWA_4GB_HYNIX_1Y_A                     = 3, // Replaced from Copper.
 	LPDDR4X_HOAG_4GB_HYNIX_1Y_A                     = 5, // Replaced from Copper.
 	LPDDR4X_AULA_4GB_HYNIX_1Y_A                     = 6, // Replaced from Copper.
 	// LPDDR4X 3733Mbps.
 	LPDDR4X_IOWA_4GB_SAMSUNG_X1X2                   = 7,
-	LPDDR4X_IOWA_4GB_SAMSUNG_K4U6E3S4AM_MGCJ        = 8,
+	LPDDR4X_IOWA_4GB_SAMSUNG_K4U6E3S4AM_MGCJ        = 8,  // Die-M.
-	LPDDR4X_IOWA_8GB_SAMSUNG_K4UBE3D4AM_MGCJ        = 9,
+	LPDDR4X_IOWA_8GB_SAMSUNG_K4UBE3D4AM_MGCJ        = 9,  // Die-M.
-	LPDDR4X_IOWA_4GB_HYNIX_H9HCNNNBKMMLHR_NME       = 10,
+	LPDDR4X_IOWA_4GB_HYNIX_H9HCNNNBKMMLHR_NME       = 10, // Die-M.
-	LPDDR4X_IOWA_4GB_MICRON_MT53E512M32D2NP_046_WT  = 11, // 4266Mbps.
+	LPDDR4X_IOWA_4GB_MICRON_MT53E512M32D2NP_046_WTE = 11, // 4266Mbps. Die-E.
-	LPDDR4X_HOAG_4GB_SAMSUNG_K4U6E3S4AM_MGCJ        = 12,
+	LPDDR4X_HOAG_4GB_SAMSUNG_K4U6E3S4AM_MGCJ        = 12, // Die-M.
-	LPDDR4X_HOAG_8GB_SAMSUNG_K4UBE3D4AM_MGCJ        = 13,
+	LPDDR4X_HOAG_8GB_SAMSUNG_K4UBE3D4AM_MGCJ        = 13, // Die-M.
-	LPDDR4X_HOAG_4GB_HYNIX_H9HCNNNBKMMLHR_NME       = 14,
+	LPDDR4X_HOAG_4GB_HYNIX_H9HCNNNBKMMLHR_NME       = 14, // Die-M.
-	LPDDR4X_HOAG_4GB_MICRON_MT53E512M32D2NP_046_WT  = 15, // 4266Mbps.
+	LPDDR4X_HOAG_4GB_MICRON_MT53E512M32D2NP_046_WTE = 15, // 4266Mbps. Die-E.
-	// LPDDR4X 4266Mbps?
+	// LPDDR4X 4266Mbps.
 	LPDDR4X_IOWA_4GB_SAMSUNG_Y                      = 16,
-	LPDDR4X_IOWA_4GB_SAMSUNG_1Y_X                   = 17,
+	LPDDR4X_IOWA_4GB_SAMSUNG_K4U6E3S4AA_MGCL        = 17, // Die-A.
-	LPDDR4X_IOWA_8GB_SAMSUNG_1Y_X                   = 18,
+	LPDDR4X_IOWA_8GB_SAMSUNG_K4UBE3D4AA_MGCL        = 18, // Die-A.
-	LPDDR4X_HOAG_4GB_SAMSUNG_1Y_X                   = 19,
+	LPDDR4X_HOAG_4GB_SAMSUNG_K4U6E3S4AA_MGCL        = 19, // Die-A.
 	LPDDR4X_IOWA_4GB_SAMSUNG_1Y_Y                   = 20,
 	LPDDR4X_IOWA_8GB_SAMSUNG_1Y_Y                   = 21,
-	LPDDR4X_SDS_4GB_SAMSUNG_1Y_A                    = 22,
+	// LPDDR4X_AULA_8GB_SAMSUNG_1Y_A                   = 22, // Unused.
-	LPDDR4X_SDS_8GB_SAMSUNG_1Y_X                    = 23,
+	LPDDR4X_HOAG_8GB_SAMSUNG_K4UBE3D4AA_MGCL        = 23, // Die-A.
-	LPDDR4X_SDS_4GB_SAMSUNG_1Y_X                    = 24,
+	LPDDR4X_AULA_4GB_SAMSUNG_K4U6E3S4AA_MGCL        = 24, // Die-A.
-	LPDDR4X_IOWA_4GB_MICRON_1Y_A                    = 25,
+	LPDDR4X_IOWA_4GB_MICRON_MT53E512M32D2NP_046_WTF = 25, // 4266Mbps. Die-F.
-	LPDDR4X_HOAG_4GB_MICRON_1Y_A                    = 26,
+	LPDDR4X_HOAG_4GB_MICRON_MT53E512M32D2NP_046_WTF = 26, // 4266Mbps. Die-F.
-	LPDDR4X_SDS_4GB_MICRON_1Y_A                     = 27
+	LPDDR4X_AULA_4GB_MICRON_MT53E512M32D2NP_046_WTF = 27, // 4266Mbps. Die-F.
 	LPDDR4X_AULA_8GB_SAMSUNG_K4UBE3D4AA_MGCL        = 28, // Die-A.
 };
 enum sdram_codes_mariko
 {
 	LPDDR4X_NO_PATCH                       = 0,
 	LPDDR4X_UNUSED                         = 0,
 	// LPDDR4X_4GB_SAMSUNG_K4U6E3S4AM_MGCJ          DRAM IDs: 08, 12.
 	// LPDDR4X_4GB_HYNIX_H9HCNNNBKMMLHR_NME         DRAM IDs: 10, 14.
 	LPDDR4X_4GB_SAMSUNG_X1X2                   = 1,  // DRAM IDs: 07.
 	LPDDR4X_8GB_SAMSUNG_K4UBE3D4AM_MGCJ        = 2,  // DRAM IDs: 09, 13.
 	LPDDR4X_4GB_MICRON_MT53E512M32D2NP_046_WTE = 3,  // DRAM IDs: 11, 15.
 	LPDDR4X_4GB_SAMSUNG_Y                      = 4,  // DRAM IDs: 16.
 	LPDDR4X_4GB_SAMSUNG_K4U6E3S4AA_MGCL        = 5,  // DRAM IDs: 17, 19, 24.
 	LPDDR4X_8GB_SAMSUNG_K4UBE3D4AA_MGCL        = 6,  // DRAM IDs: 18, 23, 28.
 	LPDDR4X_4GB_SAMSUNG_1Y_Y                   = 7,  // DRAM IDs: 20.
 	LPDDR4X_8GB_SAMSUNG_1Y_Y                   = 8,  // DRAM IDs: 21.
 	//LPDDR4X_8GB_SAMSUNG_1Y_A                   = 9,  // DRAM IDs: 22. Unused.
 	LPDDR4X_4GB_MICRON_MT53E512M32D2NP_046_WTF = 10, // DRAM IDs: 25, 26, 27.
 	LPDDR4X_4GB_HYNIX_1Y_A                     = 11, // DRAM IDs: 03, 05, 06.
 };
 void sdram_init();
--- a/bdk/mem/sdram_config.inl
+++ b/bdk/mem/sdram_config.inl
@ -1,6 +1,6 @@
 /*
 * Copyright (c) 2018 naehrwert
- * Copyright (c) 2020 CTCaer
+ * Copyright (c) 2020-2021 CTCaer
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
@ -97,7 +97,7 @@ static const sdram_params_t210_t _dram_cfg_0_samsung_4gb = {
 	 * DRAM size information
 	 * Specifies the value for EMC_ADR_CFG
 	 */
-	.emc_adr_cfg                                     = 0x00000001, // 2 populated DRAM Devices.
+	.emc_adr_cfg                                     = 0x00000001, // 2 Ranks.
 	/*
 	 * Specifies the time to wait after asserting pin
@ -243,7 +243,7 @@ static const sdram_params_t210_t _dram_cfg_0_samsung_4gb = {
 	.emc_cfg_dig_dll                                 = 0x002C00A0,
 	.emc_cfg_dig_dll_1                               = 0x00003701,
 	.emc_cfg_dig_dll_period                          = 0x00008000,
-	.emc_dev_select                                  = 0x00000000, // Both devices.
+	.emc_dev_select                                  = 0x00000000, // Both Ranks.
 	.emc_sel_dpd_ctrl                                = 0x00040008,
 	/* Pads trimmer delays */
@ -406,7 +406,7 @@ static const sdram_params_t210_t _dram_cfg_0_samsung_4gb = {
 	.pmc_ddr_ctrl                                    = 0x0007FF8B,
 	.emc_acpd_control                                = 0x00000000,
-	.emc_swizzle_rank0_byte0                         = 0x76543201,
+	.emc_swizzle_rank0_byte0                         = 0x76543201, // Overridden to 0x76543201 by spare6/7.
 	.emc_swizzle_rank0_byte1                         = 0x65324710,
 	.emc_swizzle_rank0_byte2                         = 0x25763410,
 	.emc_swizzle_rank0_byte3                         = 0x25673401,
@ -454,7 +454,7 @@ static const sdram_params_t210_t _dram_cfg_0_samsung_4gb = {
 	.emc_pmacro_data_rx_term_mode                    = 0x00000010,
 	.emc_pmacro_cmd_rx_term_mode                     = 0x00003000,
 	.emc_pmacro_data_pad_tx_ctrl                     = 0x02000111,
-	.emc_pmacro_common_pad_tx_ctrl                   = 0x00000008,
+	.emc_pmacro_common_pad_tx_ctrl                   = 0x00000008, // Overridden to 0x0000000A by spare4/5.
 	.emc_pmacro_cmd_pad_tx_ctrl                      = 0x0A000000,
 	.emc_cfg3                                        = 0x00000040,
@ -490,9 +490,9 @@ static const sdram_params_t210_t _dram_cfg_0_samsung_4gb = {
 	.emc_pmacro_cmd_ctrl2                            = 0x0A0A0A0A,
 	/* DRAM size information */
-	.mc_emem_adr_cfg                                 = 0x00000001, // 2 populated DRAM Devices.
+	.mc_emem_adr_cfg                                 = 0x00000001, // 2 Ranks.
-	.mc_emem_adr_cfg_dev0                            = 0x00070302, // Density 512MB.
+	.mc_emem_adr_cfg_dev0                            = 0x00070302, // Rank 0 Density 512MB.
-	.mc_emem_adr_cfg_dev1                            = 0x00070302, // Density 512MB.
+	.mc_emem_adr_cfg_dev1                            = 0x00070302, // Rank 1 Density 512MB.
 	.mc_emem_adr_cfg_channel_mask                    = 0xFFFF2400,
 	.mc_emem_adr_cfg_bank_mask0                      = 0x6E574400,
 	.mc_emem_adr_cfg_bank_mask1                      = 0x39722800,
@ -646,46 +646,51 @@ static const sdram_params_t210_t _dram_cfg_0_samsung_4gb = {
 static const sdram_vendor_patch_t sdram_cfg_vendor_patches_t210[] = {
 	// Hynix timing config.
-	{ 0x0000000D,  67, DRAM_ID(1) | DRAM_ID(5) }, // emc_r2w.
+	{ 0x0000000D, 0x10C / 4, DRAM_ID(1) }, // emc_r2w.
-	{ 0x00000001,  91, DRAM_ID(1) | DRAM_ID(5) }, // emc_puterm_extra.
+	{ 0x00000001, 0x16C / 4, DRAM_ID(1) }, // emc_puterm_extra.
-	{ 0x80000000,  92, DRAM_ID(1) | DRAM_ID(5) }, // emc_puterm_width.
+	{ 0x80000000, 0x170 / 4, DRAM_ID(1) }, // emc_puterm_width.
-	{ 0x00000210, 317, DRAM_ID(1) | DRAM_ID(5) }, // emc_pmacro_data_rx_term_mode.
+	{ 0x00000210, 0x4F4 / 4, DRAM_ID(1) }, // emc_pmacro_data_rx_term_mode.
-	{ 0x00000005, 368, DRAM_ID(1) | DRAM_ID(5) }, // mc_emem_arb_timing_r2w.
+	{ 0x00000005, 0x5C0 / 4, DRAM_ID(1) }, // mc_emem_arb_timing_r2w.
 	// Samsung 6GB density config.
-	{ 0x000C0302, 347, DRAM_ID(4) },              // mc_emem_adr_cfg_dev0. 768MB sub-partition density.
+	{ 0x000C0302, 0x56C / 4, DRAM_ID(4) }, // mc_emem_adr_cfg_dev0. 768MB Rank 0 density.
-	{ 0x000C0302, 348, DRAM_ID(4) },              // mc_emem_adr_cfg_dev1. 768MB sub-partition density.
+	{ 0x000C0302, 0x570 / 4, DRAM_ID(4) }, // mc_emem_adr_cfg_dev1. 768MB Rank 1 density.
-	{ 0x00001800, 353, DRAM_ID(4) },              // mc_emem_cfg. 6GB total density.
+	{ 0x00001800, 0x584 / 4, DRAM_ID(4) }, // mc_emem_cfg. 6GB total density.
 #ifdef CONFIG_SDRAM_COPPER_SUPPORT
 	// Copper prototype Samsung/Hynix/Micron timing configs.
-	{ 0x0000003A,  59, DRAM_ID(6) },              // emc_rfc. Auto refresh.
+	{ 0x0000003A,  0xEC / 4, DRAM_ID(6) },              // emc_rfc. Auto refresh.
-	{ 0x0000001D,  60, DRAM_ID(6) },              // emc_rfc_pb. Bank Auto refresh.
+	{ 0x0000001D,  0xF0 / 4, DRAM_ID(6) },              // emc_rfc_pb. Bank Auto refresh.
-	{ 0x00000012, 108, DRAM_ID(3) | DRAM_ID(5) | DRAM_ID(6) }, // emc_rw2pden.
+	{ 0x0000000D, 0x10C / 4, DRAM_ID(5) },              // emc_r2w.
-	{ 0x0000003B, 112, DRAM_ID(6) },              // emc_txsr.
+	{ 0x00000001, 0x16C / 4, DRAM_ID(5) },              // emc_puterm_extra.
-	{ 0x0000003B, 113, DRAM_ID(6) },              // emc_txsr_dll.
+	{ 0x80000000, 0x170 / 4, DRAM_ID(5) },              // emc_puterm_width.
-	{ 0x00000003, 119, DRAM_ID(3) | DRAM_ID(5) | DRAM_ID(6) }, // emc_tclkstable.
+	{ 0x00000012, 0x1B0 / 4, DRAM_ID(3) | DRAM_ID(5) | DRAM_ID(6) }, // emc_rw2pden.
-	{ 0x00120015, 205, DRAM_ID(5) | DRAM_ID(6) }, // emc_pmacro_ob_ddll_long_dq_rank0_4.
+	{ 0x0000003B, 0x1C0 / 4, DRAM_ID(6) },              // emc_txsr.
-	{ 0x00160012, 206, DRAM_ID(5) | DRAM_ID(6) }, // emc_pmacro_ob_ddll_long_dq_rank0_5.
+	{ 0x0000003B, 0x1C4 / 4, DRAM_ID(6) },              // emc_txsr_dll.
-	{ 0x00120015, 211, DRAM_ID(5) | DRAM_ID(6) }, // emc_pmacro_ob_ddll_long_dq_rank1_4.
+	{ 0x00000003, 0x1DC / 4, DRAM_ID(3) | DRAM_ID(5) | DRAM_ID(6) }, // emc_tclkstable.
-	{ 0x00160012, 212, DRAM_ID(5) | DRAM_ID(6) }, // emc_pmacro_ob_ddll_long_dq_rank1_5.
+	{ 0x00120015, 0x334 / 4, DRAM_ID(5) | DRAM_ID(6) }, // emc_pmacro_ob_ddll_long_dq_rank0_4.
-	{ 0x002F0032, 213, DRAM_ID(5) | DRAM_ID(6) }, // emc_pmacro_ob_ddll_long_dqs_rank0_0.
+	{ 0x00160012, 0x338 / 4, DRAM_ID(5) | DRAM_ID(6) }, // emc_pmacro_ob_ddll_long_dq_rank0_5.
-	{ 0x00310032, 214, DRAM_ID(5) | DRAM_ID(6) }, // emc_pmacro_ob_ddll_long_dqs_rank0_1.
+	{ 0x00120015, 0x34C / 4, DRAM_ID(5) | DRAM_ID(6) }, // emc_pmacro_ob_ddll_long_dq_rank1_4.
-	{ 0x00360034, 215, DRAM_ID(5) | DRAM_ID(6) }, // emc_pmacro_ob_ddll_long_dqs_rank0_2.
+	{ 0x00160012, 0x350 / 4, DRAM_ID(5) | DRAM_ID(6) }, // emc_pmacro_ob_ddll_long_dq_rank1_5.
-	{ 0x0033002F, 216, DRAM_ID(5) | DRAM_ID(6) }, // emc_pmacro_ob_ddll_long_dqs_rank0_3.
+	{ 0x002F0032, 0x354 / 4, DRAM_ID(5) | DRAM_ID(6) }, // emc_pmacro_ob_ddll_long_dqs_rank0_0.
-	{ 0x00000006, 217, DRAM_ID(5) | DRAM_ID(6) }, // emc_pmacro_ob_ddll_long_dqs_rank0_4.
+	{ 0x00310032, 0x358 / 4, DRAM_ID(5) | DRAM_ID(6) }, // emc_pmacro_ob_ddll_long_dqs_rank0_1.
-	{ 0x002F0032, 219, DRAM_ID(5) | DRAM_ID(6) }, // emc_pmacro_ob_ddll_long_dqs_rank1_0.
+	{ 0x00360034, 0x35C / 4, DRAM_ID(5) | DRAM_ID(6) }, // emc_pmacro_ob_ddll_long_dqs_rank0_2.
-	{ 0x00310032, 220, DRAM_ID(5) | DRAM_ID(6) }, // emc_pmacro_ob_ddll_long_dqs_rank1_1.
+	{ 0x0033002F, 0x360 / 4, DRAM_ID(5) | DRAM_ID(6) }, // emc_pmacro_ob_ddll_long_dqs_rank0_3.
-	{ 0x00360034, 221, DRAM_ID(5) | DRAM_ID(6) }, // emc_pmacro_ob_ddll_long_dqs_rank1_2.
+	{ 0x00000006, 0x364 / 4, DRAM_ID(5) | DRAM_ID(6) }, // emc_pmacro_ob_ddll_long_dqs_rank0_4.
-	{ 0x0033002F, 222, DRAM_ID(5) | DRAM_ID(6) }, // emc_pmacro_ob_ddll_long_dqs_rank1_3.
+	{ 0x002F0032, 0x36C / 4, DRAM_ID(5) | DRAM_ID(6) }, // emc_pmacro_ob_ddll_long_dqs_rank1_0.
-	{ 0x00000006, 223, DRAM_ID(5) | DRAM_ID(6) }, // emc_pmacro_ob_ddll_long_dqs_rank1_4.
+	{ 0x00310032, 0x370 / 4, DRAM_ID(5) | DRAM_ID(6) }, // emc_pmacro_ob_ddll_long_dqs_rank1_1.
-	{ 0x00150015, 233, DRAM_ID(5) | DRAM_ID(6) }, // emc_pmacro_ddll_long_cmd_0.
+	{ 0x00360034, 0x374 / 4, DRAM_ID(5) | DRAM_ID(6) }, // emc_pmacro_ob_ddll_long_dqs_rank1_2.
-	{ 0x00120012, 235, DRAM_ID(5) | DRAM_ID(6) }, // emc_pmacro_ddll_long_cmd_2.
+	{ 0x0033002F, 0x378 / 4, DRAM_ID(5) | DRAM_ID(6) }, // emc_pmacro_ob_ddll_long_dqs_rank1_3.
-	{ 0x00160016, 236, DRAM_ID(5) | DRAM_ID(6) }, // emc_pmacro_ddll_long_cmd_3.
+	{ 0x00000006, 0x37C / 4, DRAM_ID(5) | DRAM_ID(6) }, // emc_pmacro_ob_ddll_long_dqs_rank1_4.
-	{ 0x00000015, 237, DRAM_ID(5) | DRAM_ID(6) }, // emc_pmacro_ddll_long_cmd_4.
+	{ 0x00150015, 0x3A4 / 4, DRAM_ID(5) | DRAM_ID(6) }, // emc_pmacro_ddll_long_cmd_0.
-	{ 0x00000012, 295, DRAM_ID(3) | DRAM_ID(5) | DRAM_ID(6) }, // emc_cmd_brlshft2.
+	{ 0x00120012, 0x3AC / 4, DRAM_ID(5) | DRAM_ID(6) }, // emc_pmacro_ddll_long_cmd_2.
-	{ 0x00000012, 296, DRAM_ID(3) | DRAM_ID(5) | DRAM_ID(6) }, // emc_cmd_brlshft3.
+	{ 0x00160016, 0x3B0 / 4, DRAM_ID(5) | DRAM_ID(6) }, // emc_pmacro_ddll_long_cmd_3.
-	{ 0x00000007, 370, DRAM_ID(6) },              // mc_emem_arb_timing_rfcpb. Bank refresh.
+	{ 0x00000015, 0x3B4 / 4, DRAM_ID(5) | DRAM_ID(6) }, // emc_pmacro_ddll_long_cmd_4.
-	{ 0x72A30504, 373, DRAM_ID(6) },              // mc_emem_arb_misc0.
+	{ 0x00000012, 0x49C / 4, DRAM_ID(3) | DRAM_ID(5) | DRAM_ID(6) }, // emc_cmd_brlshft2.
 	{ 0x00000012, 0x4A0 / 4, DRAM_ID(3) | DRAM_ID(5) | DRAM_ID(6) }, // emc_cmd_brlshft3.
 	{ 0x00000210, 0x4F4 / 4, DRAM_ID(5) },              // emc_pmacro_data_rx_term_mode.
 	{ 0x00000005, 0x5C0 / 4, DRAM_ID(5) },              // mc_emem_arb_timing_r2w.
 	{ 0x00000007, 0x5C8 / 4, DRAM_ID(6) },              // mc_emem_arb_timing_rfcpb. Bank refresh.
 	{ 0x72A30504, 0x5D4 / 4, DRAM_ID(6) },              // mc_emem_arb_misc0.
 #endif
 };
--- a/bdk/mem/sdram_config_lz.inl
+++ b/bdk/mem/sdram_config_lz.inl
@ -1,124 +0,0 @@
 /*
 * Copyright (c) 2018 naehrwert
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
 * version 2, as published by the Free Software Foundation.
 *
 * This program is distributed in the hope 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 <http://www.gnu.org/licenses/>.
 */
 static const u8 _dram_cfg_lz[1262] = {
 	0x17, 0x03, 0x00, 0x00, 0x00, 0x01, 0x00, 0x00, 0x00, 0x22, 0x00, 0x00,
 	0x00, 0x2C, 0x17, 0x04, 0x09, 0x00, 0x17, 0x04, 0x04, 0x17, 0x08, 0x08,
 	0x17, 0x10, 0x10, 0x00, 0x00, 0x68, 0xBC, 0x01, 0x70, 0x0A, 0x00, 0x00,
 	0x00, 0x04, 0xB4, 0x01, 0x70, 0x01, 0x32, 0x54, 0x76, 0xC8, 0xE6, 0x00,
 	0x70, 0x17, 0x10, 0x24, 0x34, 0x00, 0x00, 0x00, 0x02, 0x80, 0x18, 0x40,
 	0x00, 0x00, 0x00, 0x17, 0x04, 0x04, 0x17, 0x09, 0x18, 0xFF, 0xFF, 0x1F,
 	0x00, 0xD8, 0x51, 0x1A, 0xA0, 0x00, 0x00, 0x50, 0x05, 0x00, 0x00, 0x77,
 	0x00, 0x17, 0x04, 0x04, 0x17, 0x08, 0x08, 0x17, 0x08, 0x08, 0xA6, 0xA6,
 	0xAF, 0xB3, 0x3C, 0x9E, 0x00, 0x00, 0x03, 0x03, 0xE0, 0xC1, 0x04, 0x04,
 	0x04, 0x04, 0x17, 0x04, 0x04, 0x17, 0x04, 0x3C, 0x1F, 0x1F, 0x1F, 0x1F,
 	0x17, 0x04, 0x04, 0x17, 0x06, 0x06, 0x00, 0x00, 0x04, 0x08, 0x17, 0x06,
 	0x46, 0xA1, 0x01, 0x00, 0x00, 0x32, 0x17, 0x0B, 0x64, 0x01, 0x17, 0x04,
 	0x7C, 0x17, 0x07, 0x0C, 0x03, 0x17, 0x04, 0x04, 0x00, 0x00, 0x00, 0x1E,
 	0x00, 0x00, 0x00, 0x0D, 0x00, 0x00, 0x00, 0x25, 0x00, 0x00, 0x00, 0x13,
 	0x17, 0x0B, 0x2C, 0x09, 0x00, 0x00, 0x00, 0x17, 0x05, 0x5D, 0x17, 0x07,
 	0x10, 0x0B, 0x17, 0x07, 0x28, 0x08, 0x17, 0x07, 0x0C, 0x17, 0x04, 0x1C,
 	0x20, 0x00, 0x00, 0x00, 0x06, 0x17, 0x04, 0x04, 0x17, 0x07, 0x08, 0x17,
 	0x04, 0x50, 0x17, 0x04, 0x2C, 0x17, 0x04, 0x1C, 0x17, 0x04, 0x10, 0x17,
 	0x08, 0x6C, 0x17, 0x04, 0x10, 0x17, 0x04, 0x38, 0x17, 0x04, 0x40, 0x05,
 	0x17, 0x07, 0x1C, 0x17, 0x08, 0x58, 0x17, 0x04, 0x24, 0x17, 0x04, 0x18,
 	0x17, 0x08, 0x64, 0x00, 0x00, 0x01, 0x00, 0x12, 0x00, 0x00, 0x00, 0x14,
 	0x00, 0x00, 0x00, 0x16, 0x00, 0x00, 0x17, 0x09, 0x0C, 0x17, 0x05, 0x82,
 	0x58, 0x17, 0x07, 0x61, 0xC1, 0x17, 0x07, 0x50, 0x17, 0x04, 0x04, 0x17,
 	0x08, 0x81, 0x48, 0x17, 0x04, 0x04, 0x17, 0x04, 0x28, 0x17, 0x04, 0x60,
 	0x17, 0x08, 0x54, 0x27, 0x17, 0x04, 0x04, 0x17, 0x07, 0x14, 0x17, 0x04,
 	0x04, 0x04, 0x17, 0x07, 0x81, 0x58, 0x17, 0x0C, 0x0C, 0x1C, 0x03, 0x00,
 	0x00, 0x0D, 0xA0, 0x60, 0x91, 0xBF, 0x3B, 0x17, 0x04, 0x5A, 0xF3, 0x0C,
 	0x04, 0x05, 0x1B, 0x06, 0x02, 0x03, 0x07, 0x1C, 0x23, 0x25, 0x25, 0x05,
 	0x08, 0x1D, 0x09, 0x0A, 0x24, 0x0B, 0x1E, 0x0D, 0x0C, 0x26, 0x26, 0x03,
 	0x02, 0x1B, 0x1C, 0x23, 0x03, 0x04, 0x07, 0x05, 0x06, 0x25, 0x25, 0x02,
 	0x0A, 0x0B, 0x1D, 0x0D, 0x08, 0x0C, 0x09, 0x1E, 0x24, 0x26, 0x26, 0x08,
 	0x24, 0x06, 0x07, 0x9A, 0x12, 0x17, 0x05, 0x83, 0x41, 0x00, 0xFF, 0x17,
 	0x10, 0x83, 0x6C, 0x04, 0x00, 0x01, 0x08, 0x00, 0x00, 0x02, 0x08, 0x00,
 	0x00, 0x0D, 0x08, 0x00, 0x00, 0x00, 0xC0, 0x71, 0x71, 0x03, 0x08, 0x00,
 	0x00, 0x0B, 0x08, 0x72, 0x72, 0x0E, 0x0C, 0x17, 0x04, 0x20, 0x08, 0x08,
 	0x0D, 0x0C, 0x00, 0x00, 0x0D, 0x0C, 0x14, 0x14, 0x16, 0x08, 0x17, 0x06,
 	0x2C, 0x11, 0x08, 0x17, 0x10, 0x84, 0x67, 0x15, 0x00, 0xCC, 0x00, 0x0A,
 	0x00, 0x33, 0x00, 0x00, 0x00, 0x20, 0xF3, 0x05, 0x08, 0x11, 0x00, 0xFF,
 	0x0F, 0xFF, 0x0F, 0x17, 0x08, 0x83, 0x4C, 0x01, 0x03, 0x00, 0x70, 0x00,
 	0x0C, 0x00, 0x01, 0x17, 0x04, 0x0C, 0x08, 0x44, 0x00, 0x10, 0x04, 0x04,
 	0x00, 0x06, 0x13, 0x07, 0x00, 0x80, 0x17, 0x04, 0x10, 0xA0, 0x00, 0x2C,
 	0x00, 0x01, 0x37, 0x00, 0x00, 0x00, 0x80, 0x17, 0x06, 0x48, 0x08, 0x00,
 	0x04, 0x00, 0x1F, 0x22, 0x20, 0x80, 0x0F, 0xF4, 0x20, 0x02, 0x28, 0x28,
 	0x28, 0x28, 0x17, 0x04, 0x04, 0x11, 0x11, 0x11, 0x11, 0x17, 0x04, 0x04,
 	0xBE, 0x00, 0x00, 0x17, 0x05, 0x58, 0x17, 0x08, 0x5C, 0x17, 0x22, 0x85,
 	0x6A, 0x17, 0x1A, 0x1A, 0x14, 0x00, 0x12, 0x00, 0x10, 0x17, 0x05, 0x83,
 	0x0A, 0x17, 0x16, 0x18, 0x30, 0x00, 0x2E, 0x00, 0x33, 0x00, 0x30, 0x00,
 	0x33, 0x00, 0x35, 0x00, 0x30, 0x00, 0x32, 0x17, 0x05, 0x83, 0x0C, 0x17,
 	0x04, 0x20, 0x17, 0x18, 0x18, 0x28, 0x00, 0x28, 0x17, 0x04, 0x04, 0x17,
 	0x08, 0x08, 0x17, 0x10, 0x10, 0x00, 0x14, 0x17, 0x05, 0x5A, 0x17, 0x04,
 	0x5C, 0x17, 0x04, 0x5E, 0x17, 0x04, 0x0E, 0x17, 0x0E, 0x78, 0x17, 0x09,
 	0x82, 0x50, 0x40, 0x06, 0x00, 0xCC, 0x00, 0x09, 0x00, 0x4F, 0x00, 0x51,
 	0x17, 0x08, 0x18, 0x80, 0x01, 0x00, 0x00, 0x40, 0x17, 0x04, 0x20, 0x03,
 	0x00, 0x00, 0x00, 0xAB, 0x00, 0x0A, 0x04, 0x11, 0x17, 0x08, 0x82, 0x58,
 	0x17, 0x0C, 0x38, 0x17, 0x1B, 0x81, 0x6C, 0x17, 0x08, 0x85, 0x60, 0x17,
 	0x08, 0x86, 0x50, 0x17, 0x08, 0x86, 0x60, 0x17, 0x06, 0x83, 0x21, 0x22,
 	0x04, 0xFF, 0xFF, 0xAF, 0x4F, 0x17, 0x0C, 0x86, 0x74, 0x17, 0x08, 0x2C,
 	0x8B, 0xFF, 0x07, 0x17, 0x06, 0x81, 0x04, 0x32, 0x54, 0x76, 0x10, 0x47,
 	0x32, 0x65, 0x10, 0x34, 0x76, 0x25, 0x01, 0x34, 0x67, 0x25, 0x01, 0x75,
 	0x64, 0x32, 0x01, 0x72, 0x56, 0x34, 0x10, 0x23, 0x74, 0x56, 0x01, 0x45,
 	0x32, 0x67, 0x17, 0x04, 0x24, 0x49, 0x92, 0x24, 0x17, 0x04, 0x04, 0x17,
 	0x11, 0x7C, 0x1B, 0x17, 0x04, 0x04, 0x17, 0x13, 0x81, 0x14, 0x2F, 0x41,
 	0x13, 0x1F, 0x14, 0x00, 0x01, 0x00, 0x17, 0x04, 0x7C, 0xFF, 0xFF, 0xFF,
 	0x7F, 0x0B, 0xD7, 0x06, 0x40, 0x00, 0x00, 0x02, 0x00, 0x08, 0x08, 0x03,
 	0x00, 0x00, 0x5C, 0x01, 0x00, 0x10, 0x10, 0x10, 0x17, 0x06, 0x86, 0x59,
 	0x17, 0x0F, 0x89, 0x14, 0x37, 0x17, 0x07, 0x82, 0x72, 0x10, 0x17, 0x06,
 	0x83, 0x0D, 0x00, 0x11, 0x01, 0x17, 0x05, 0x85, 0x39, 0x17, 0x04, 0x0E,
 	0x0A, 0x17, 0x07, 0x89, 0x29, 0x17, 0x04, 0x1B, 0x17, 0x08, 0x86, 0x77,
 	0x17, 0x09, 0x12, 0x20, 0x00, 0x00, 0x00, 0x81, 0x10, 0x09, 0x28, 0x93,
 	0x32, 0xA5, 0x44, 0x5B, 0x8A, 0x67, 0x76, 0x17, 0x18, 0x82, 0x2C, 0xFF,
 	0xEF, 0xFF, 0xEF, 0xC0, 0xC0, 0xC0, 0xC0, 0x17, 0x04, 0x04, 0xDC, 0xDC,
 	0xDC, 0xDC, 0x0A, 0x0A, 0x0A, 0x0A, 0x17, 0x04, 0x04, 0x17, 0x04, 0x04,
 	0x17, 0x05, 0x82, 0x24, 0x03, 0x07, 0x17, 0x04, 0x04, 0x00, 0x00, 0x24,
 	0xFF, 0xFF, 0x00, 0x44, 0x57, 0x6E, 0x00, 0x28, 0x72, 0x39, 0x00, 0x10,
 	0x9C, 0x4B, 0x17, 0x04, 0x64, 0x01, 0x00, 0x00, 0x08, 0x4C, 0x00, 0x00,
 	0x80, 0x20, 0x10, 0x0A, 0x00, 0x28, 0x10, 0x17, 0x06, 0x85, 0x60, 0x17,
 	0x10, 0x82, 0x74, 0x17, 0x08, 0x08, 0x17, 0x08, 0x88, 0x00, 0x17, 0x04,
 	0x10, 0x04, 0x17, 0x0B, 0x87, 0x6C, 0x01, 0x00, 0x02, 0x02, 0x01, 0x02,
 	0x03, 0x00, 0x04, 0x05, 0xC3, 0x71, 0x0F, 0x0F, 0x17, 0x08, 0x8B, 0x18,
 	0x1F, 0x17, 0x09, 0x81, 0x73, 0x00, 0xFF, 0x00, 0xFF, 0x17, 0x05, 0x86,
 	0x48, 0x17, 0x04, 0x0C, 0x17, 0x07, 0x86, 0x34, 0x00, 0x00, 0xF0, 0x17,
 	0x09, 0x87, 0x54, 0x43, 0xC3, 0xBA, 0xE4, 0xD3, 0x1E, 0x17, 0x0C, 0x81,
 	0x52, 0x17, 0x0A, 0x1C, 0x17, 0x10, 0x81, 0x6C, 0x17, 0x0A, 0x82, 0x21,
 	0x17, 0x07, 0x82, 0x4D, 0x17, 0x0A, 0x8A, 0x1B, 0x17, 0x11, 0x2C, 0x76,
 	0x0C, 0x17, 0x0A, 0x8A, 0x67, 0x17, 0x0F, 0x84, 0x28, 0x17, 0x06, 0x34,
 	0x17, 0x17, 0x3A, 0x7E, 0x16, 0x40, 0x17, 0x0C, 0x8B, 0x1F, 0x17, 0x2A,
 	0x38, 0x1E, 0x17, 0x0A, 0x38, 0x17, 0x13, 0x81, 0x28, 0x00, 0xC0, 0x17,
 	0x17, 0x55, 0x46, 0x24, 0x17, 0x0A, 0x81, 0x28, 0x17, 0x14, 0x38, 0x17,
 	0x18, 0x81, 0x60, 0x46, 0x2C, 0x17, 0x06, 0x38, 0xEC, 0x17, 0x0D, 0x16,
 	0x17, 0x0E, 0x82, 0x3C, 0x17, 0x82, 0x0C, 0x8E, 0x68, 0x17, 0x04, 0x24,
 	0x17, 0x5C, 0x8E, 0x68, 0x17, 0x07, 0x82, 0x5F, 0x80, 0x17, 0x87, 0x01,
 	0x8E, 0x68, 0x02, 0x17, 0x81, 0x4A, 0x8E, 0x68, 0x17, 0x0C, 0x87, 0x78,
 	0x17, 0x85, 0x28, 0x8E, 0x68, 0x17, 0x8E, 0x68, 0x9D, 0x50, 0x17, 0x81,
 	0x24, 0x8E, 0x68, 0x17, 0x04, 0x2C, 0x17, 0x28, 0x8E, 0x68, 0x17, 0x04,
 	0x30, 0x17, 0x85, 0x3C, 0x8E, 0x68, 0x12, 0x17, 0x07, 0x85, 0x70, 0x17,
 	0x88, 0x74, 0x8E, 0x68, 0x17, 0x87, 0x3E, 0x9D, 0x50, 0x0C, 0x17, 0x04,
 	0x04, 0x17, 0x12, 0x8E, 0x68, 0x18, 0x17, 0x87, 0x12, 0xBB, 0x20, 0x17,
 	0x83, 0x04, 0x9D, 0x50, 0x15, 0x17, 0x05, 0x8D, 0x76, 0x17, 0x0F, 0x8B,
 	0x49, 0x17, 0x0B, 0x18, 0x32, 0x00, 0x2F, 0x00, 0x32, 0x00, 0x31, 0x00,
 	0x34, 0x00, 0x36, 0x00, 0x2F, 0x00, 0x33, 0x17, 0x09, 0x84, 0x0C, 0x17,
 	0x18, 0x18, 0x17, 0x20, 0x8E, 0x68, 0x15, 0x17, 0x07, 0x5A, 0x17, 0x06,
 	0x5E, 0x16, 0x00, 0x15, 0x17, 0x82, 0x40, 0x9D, 0x50, 0x17, 0x86, 0x5F,
 	0xBB, 0x20, 0x3A, 0x00, 0x00, 0x00, 0x1D, 0x17, 0x81, 0x4F, 0xAC, 0x38,
 	0x3B, 0x17, 0x04, 0x04, 0x17, 0x86, 0x30, 0x8E, 0x68, 0x17, 0x81, 0x53,
 	0xAC, 0x38, 0x07, 0x17, 0x0D, 0x8E, 0x68, 0xA3, 0x72, 0x17, 0x83, 0x10,
 	0x8E, 0x68
 };
--- a/bdk/mem/sdram_config_t210b01.inl
+++ b/bdk/mem/sdram_config_t210b01.inl
@ -1,5 +1,5 @@
 /*
- * Copyright (c) 2020 CTCaer
+ * Copyright (c) 2020-2021 CTCaer
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
@ -16,8 +16,6 @@
 #define DRAM_CFG_T210B01_SIZE 2104
 #define DRAM_ID2(x) BIT((x) - 7)
 static const sdram_params_t210b01_t _dram_cfg_08_10_12_14_samsung_hynix_4gb = {
 	/* Specifies the type of memory device */
 	.memory_type                                     = MEMORY_TYPE_LPDDR4,
@ -109,7 +107,7 @@ static const sdram_params_t210b01_t _dram_cfg_08_10_12_14_samsung_hynix_4gb = {
 	.emc_pmacro_ca_tx_drive                          = 0x3F3F3F3F,
 	.emc_pmacro_cmd_tx_drive                         = 0x00001220,
 	.emc_pmacro_auto_cal_common                      = 0x00000804,
-	.emc_pmacro_zcrtl                                = 0x505050,
+	.emc_pmacro_zcrtl                                = 0x00505050,
 	/* Specifies the time for the calibration to stabilize (in microseconds) */
 	.emc_auto_cal_wait                               = 0x000001A1,
@ -122,7 +120,7 @@ static const sdram_params_t210b01_t _dram_cfg_08_10_12_14_samsung_hynix_4gb = {
 	 * DRAM size information
 	 * Specifies the value for EMC_ADR_CFG
 	 */
-	.emc_adr_cfg                                     = 0x00000000, // 1 populated DRAM Device.
+	.emc_adr_cfg                                     = 0x00000000, // 1 Rank.
 	/*
 	 * Specifies the time to wait after asserting pin
@ -273,7 +271,7 @@ static const sdram_params_t210b01_t _dram_cfg_08_10_12_14_samsung_hynix_4gb = {
 	.emc_cfg_dig_dll                                 = 0x002C00A0,
 	.emc_cfg_dig_dll_1                               = 0x000F3701,
 	.emc_cfg_dig_dll_period                          = 0x00008000,
-	.emc_dev_select                                  = 0x00000002, // Dev0 only.
+	.emc_dev_select                                  = 0x00000002, // Rank 0 only.
 	.emc_sel_dpd_ctrl                                = 0x0004000C,
 	/* Pads trimmer delays */
@ -543,9 +541,9 @@ static const sdram_params_t210b01_t _dram_cfg_08_10_12_14_samsung_hynix_4gb = {
 	.emc_pmacro_cmd_ctrl2                            = 0x00000000,
 	/* DRAM size information */
-	.mc_emem_adr_cfg                                 = 0x00000000, // 1 populated DRAM Device.
+	.mc_emem_adr_cfg                                 = 0x00000000, // 1 Rank.
-	.mc_emem_adr_cfg_dev0                            = 0x00080302, // Density 1024MB.
+	.mc_emem_adr_cfg_dev0                            = 0x00080302, // Rank 0 Density 1024MB.
-	.mc_emem_adr_cfg_dev1                            = 0x00080302, // Density 1024MB.
+	.mc_emem_adr_cfg_dev1                            = 0x00080302, // Rank 1 Density 1024MB.
 	.mc_emem_adr_cfg_channel_mask                    = 0xFFFF2400,
 	.mc_emem_adr_cfg_bank_mask0                      = 0x6E574400,
 	.mc_emem_adr_cfg_bank_mask1                      = 0x39722800,
@ -708,295 +706,287 @@ static const sdram_params_t210b01_t _dram_cfg_08_10_12_14_samsung_hynix_4gb = {
 static const sdram_vendor_patch_t sdram_cfg_vendor_patches_t210b01[] = {
 	// Samsung LPDDR4X 4GB X1X2 for prototype Iowa.
-	{ 0x000E0022, 0x3AC / 4, DRAM_ID2(7) }, // emc_pmacro_ob_ddll_long_dq_rank0_4.
+	{ 0x000E0022, 0x3AC / 4, LPDDR4X_4GB_SAMSUNG_X1X2 }, // emc_pmacro_ob_ddll_long_dq_rank0_4.
-	{ 0x001B0010, 0x3B0 / 4, DRAM_ID2(7) }, // emc_pmacro_ob_ddll_long_dq_rank0_5.
+	{ 0x001B0010, 0x3B0 / 4, LPDDR4X_4GB_SAMSUNG_X1X2 }, // emc_pmacro_ob_ddll_long_dq_rank0_5.
-	{ 0x000E0022, 0x3C4 / 4, DRAM_ID2(7) }, // emc_pmacro_ob_ddll_long_dq_rank1_4.
+	{ 0x000E0022, 0x3C4 / 4, LPDDR4X_4GB_SAMSUNG_X1X2 }, // emc_pmacro_ob_ddll_long_dq_rank1_4.
-	{ 0x001B0010, 0x3C8 / 4, DRAM_ID2(7) }, // emc_pmacro_ob_ddll_long_dq_rank1_5.
+	{ 0x001B0010, 0x3C8 / 4, LPDDR4X_4GB_SAMSUNG_X1X2 }, // emc_pmacro_ob_ddll_long_dq_rank1_5.
-	{ 0x00490043, 0x3CC / 4, DRAM_ID2(7) }, // emc_pmacro_ob_ddll_long_dqs_rank0_0.
+	{ 0x00490043, 0x3CC / 4, LPDDR4X_4GB_SAMSUNG_X1X2 }, // emc_pmacro_ob_ddll_long_dqs_rank0_0.
-	{ 0x00420045, 0x3D0 / 4, DRAM_ID2(7) }, // emc_pmacro_ob_ddll_long_dqs_rank0_1.
+	{ 0x00420045, 0x3D0 / 4, LPDDR4X_4GB_SAMSUNG_X1X2 }, // emc_pmacro_ob_ddll_long_dqs_rank0_1.
-	{ 0x00490047, 0x3D4 / 4, DRAM_ID2(7) }, // emc_pmacro_ob_ddll_long_dqs_rank0_2.
+	{ 0x00490047, 0x3D4 / 4, LPDDR4X_4GB_SAMSUNG_X1X2 }, // emc_pmacro_ob_ddll_long_dqs_rank0_2.
-	{ 0x00460047, 0x3D8 / 4, DRAM_ID2(7) }, // emc_pmacro_ob_ddll_long_dqs_rank0_3.
+	{ 0x00460047, 0x3D8 / 4, LPDDR4X_4GB_SAMSUNG_X1X2 }, // emc_pmacro_ob_ddll_long_dqs_rank0_3.
-	{ 0x00000016, 0x3DC / 4, DRAM_ID2(7) }, // emc_pmacro_ob_ddll_long_dqs_rank0_4.
+	{ 0x00000016, 0x3DC / 4, LPDDR4X_4GB_SAMSUNG_X1X2 }, // emc_pmacro_ob_ddll_long_dqs_rank0_4.
-	{ 0x00100000, 0x3E0 / 4, DRAM_ID2(7) }, // emc_pmacro_ob_ddll_long_dqs_rank0_5.
+	{ 0x00100000, 0x3E0 / 4, LPDDR4X_4GB_SAMSUNG_X1X2 }, // emc_pmacro_ob_ddll_long_dqs_rank0_5.
-	{ 0x00490043, 0x3E4 / 4, DRAM_ID2(7) }, // emc_pmacro_ob_ddll_long_dqs_rank1_0.
+	{ 0x00490043, 0x3E4 / 4, LPDDR4X_4GB_SAMSUNG_X1X2 }, // emc_pmacro_ob_ddll_long_dqs_rank1_0.
-	{ 0x00420045, 0x3E8 / 4, DRAM_ID2(7) }, // emc_pmacro_ob_ddll_long_dqs_rank1_1.
+	{ 0x00420045, 0x3E8 / 4, LPDDR4X_4GB_SAMSUNG_X1X2 }, // emc_pmacro_ob_ddll_long_dqs_rank1_1.
-	{ 0x00490047, 0x3EC / 4, DRAM_ID2(7) }, // emc_pmacro_ob_ddll_long_dqs_rank1_2.
+	{ 0x00490047, 0x3EC / 4, LPDDR4X_4GB_SAMSUNG_X1X2 }, // emc_pmacro_ob_ddll_long_dqs_rank1_2.
-	{ 0x00460047, 0x3F0 / 4, DRAM_ID2(7) }, // emc_pmacro_ob_ddll_long_dqs_rank1_3.
+	{ 0x00460047, 0x3F0 / 4, LPDDR4X_4GB_SAMSUNG_X1X2 }, // emc_pmacro_ob_ddll_long_dqs_rank1_3.
-	{ 0x00000016, 0x3F4 / 4, DRAM_ID2(7) }, // emc_pmacro_ob_ddll_long_dqs_rank1_4.
+	{ 0x00000016, 0x3F4 / 4, LPDDR4X_4GB_SAMSUNG_X1X2 }, // emc_pmacro_ob_ddll_long_dqs_rank1_4.
-	{ 0x00100000, 0x3F8 / 4, DRAM_ID2(7) }, // emc_pmacro_ob_ddll_long_dqs_rank1_5.
+	{ 0x00100000, 0x3F8 / 4, LPDDR4X_4GB_SAMSUNG_X1X2 }, // emc_pmacro_ob_ddll_long_dqs_rank1_5.
-	{ 0x00220022, 0x41C / 4, DRAM_ID2(7) }, // emc_pmacro_ddll_long_cmd_0.
+	{ 0x00220022, 0x41C / 4, LPDDR4X_4GB_SAMSUNG_X1X2 }, // emc_pmacro_ddll_long_cmd_0.
-	{ 0x000E000E, 0x420 / 4, DRAM_ID2(7) }, // emc_pmacro_ddll_long_cmd_1.
+	{ 0x000E000E, 0x420 / 4, LPDDR4X_4GB_SAMSUNG_X1X2 }, // emc_pmacro_ddll_long_cmd_1.
-	{ 0x00100010, 0x424 / 4, DRAM_ID2(7) }, // emc_pmacro_ddll_long_cmd_2.
+	{ 0x00100010, 0x424 / 4, LPDDR4X_4GB_SAMSUNG_X1X2 }, // emc_pmacro_ddll_long_cmd_2.
-	{ 0x001B001B, 0x428 / 4, DRAM_ID2(7) }, // emc_pmacro_ddll_long_cmd_3.
+	{ 0x001B001B, 0x428 / 4, LPDDR4X_4GB_SAMSUNG_X1X2 }, // emc_pmacro_ddll_long_cmd_3.
-	{ 0x00000022, 0x42C / 4, DRAM_ID2(7) }, // emc_pmacro_ddll_long_cmd_4.
+	{ 0x00000022, 0x42C / 4, LPDDR4X_4GB_SAMSUNG_X1X2 }, // emc_pmacro_ddll_long_cmd_4.
-	// Samsung LPDDR4X 8GB K4UBE3D4AM-MGCJ for SDEV Iowa and Hoag.
+	// Samsung LPDDR4X 8GB K4UBE3D4AM-MGCJ Die-M for SDEV Iowa and Hoag.
-	{ 0x05500000, 0x0D4 / 4, DRAM_ID2(9) | DRAM_ID2(13) }, // emc_auto_cal_config2.
+	{ 0x05500000, 0x0D4 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AM_MGCJ }, // emc_auto_cal_config2.
-	{ 0xC9AFBCBC, 0x0F4 / 4, DRAM_ID2(9) | DRAM_ID2(13) }, // emc_auto_cal_vref_sel0.
+	{ 0xC9AFBCBC, 0x0F4 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AM_MGCJ }, // emc_auto_cal_vref_sel0.
-	{ 0x00000001, 0x134 / 4, DRAM_ID2(9) | DRAM_ID2(13) }, // emc_adr_cfg. 2 populated DRAM Devices.
+	{ 0x00000001, 0x134 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AM_MGCJ }, // emc_adr_cfg. 2 Ranks.
-	{ 0x00000006, 0x1CC / 4, DRAM_ID2(9) | DRAM_ID2(13) }, // emc_quse.
+	{ 0x00000006, 0x1CC / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AM_MGCJ }, // emc_quse.
-	{ 0x00000005, 0x1D0 / 4, DRAM_ID2(9) | DRAM_ID2(13) }, // emc_quse_width.
+	{ 0x00000005, 0x1D0 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AM_MGCJ }, // emc_quse_width.
-	{ 0x00000003, 0x1DC / 4, DRAM_ID2(9) | DRAM_ID2(13) }, // emc_einput.
+	{ 0x00000003, 0x1DC / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AM_MGCJ }, // emc_einput.
-	{ 0x0000000C, 0x1E0 / 4, DRAM_ID2(9) | DRAM_ID2(13) }, // emc_einput_duration.
+	{ 0x0000000C, 0x1E0 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AM_MGCJ }, // emc_einput_duration.
-	{ 0x08010004, 0x2B8 / 4, DRAM_ID2(9) | DRAM_ID2(13) }, // emc_mrw1.
+	{ 0x08010004, 0x2B8 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AM_MGCJ }, // emc_mrw1.
-	{ 0x08020000, 0x2BC / 4, DRAM_ID2(9) | DRAM_ID2(13) }, // emc_mrw2.
+	{ 0x08020000, 0x2BC / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AM_MGCJ }, // emc_mrw2.
-	{ 0x080D0000, 0x2C0 / 4, DRAM_ID2(9) | DRAM_ID2(13) }, // emc_mrw3.
+	{ 0x080D0000, 0x2C0 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AM_MGCJ }, // emc_mrw3.
-	{ 0x08033131, 0x2C8 / 4, DRAM_ID2(9) | DRAM_ID2(13) }, // emc_mrw6.
+	{ 0x08033131, 0x2C8 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AM_MGCJ }, // emc_mrw6.
-	{ 0x080B0000, 0x2CC / 4, DRAM_ID2(9) | DRAM_ID2(13) }, // emc_mrw8.
+	{ 0x080B0000, 0x2CC / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AM_MGCJ }, // emc_mrw8.
-	{ 0x0C0E5D5D, 0x2D0 / 4, DRAM_ID2(9) | DRAM_ID2(13) }, // emc_mrw9.
+	{ 0x0C0E5D5D, 0x2D0 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AM_MGCJ }, // emc_mrw9.
-	{ 0x080C5D5D, 0x2D4 / 4, DRAM_ID2(9) | DRAM_ID2(13) }, // emc_mrw10.
+	{ 0x080C5D5D, 0x2D4 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AM_MGCJ }, // emc_mrw10.
-	{ 0x0C0D0808, 0x2D8 / 4, DRAM_ID2(9) | DRAM_ID2(13) }, // emc_mrw12.
+	{ 0x0C0D0808, 0x2D8 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AM_MGCJ }, // emc_mrw12.
-	{ 0x0C0D0000, 0x2DC / 4, DRAM_ID2(9) | DRAM_ID2(13) }, // emc_mrw13.
+	{ 0x0C0D0000, 0x2DC / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AM_MGCJ }, // emc_mrw13.
-	{ 0x08161414, 0x2E0 / 4, DRAM_ID2(9) | DRAM_ID2(13) }, // emc_mrw14.
+	{ 0x08161414, 0x2E0 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AM_MGCJ }, // emc_mrw14.
-	{ 0x08010004, 0x2E4 / 4, DRAM_ID2(9) | DRAM_ID2(13) }, // emc_mrw_extra.
+	{ 0x08010004, 0x2E4 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AM_MGCJ }, // emc_mrw_extra.
-	{ 0x00000000, 0x340 / 4, DRAM_ID2(9) | DRAM_ID2(13) }, // emc_dev_select. Both devices.
+	{ 0x00000000, 0x340 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AM_MGCJ }, // emc_dev_select. Both devices.
-	{ 0x35353535, 0x350 / 4, DRAM_ID2(9) | DRAM_ID2(13) }, // emc_pmacro_ib_vref_dq_0.
+	{ 0x35353535, 0x350 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AM_MGCJ }, // emc_pmacro_ib_vref_dq_0.
-	{ 0x35353535, 0x354 / 4, DRAM_ID2(9) | DRAM_ID2(13) }, // emc_pmacro_ib_vref_dq_1.
+	{ 0x35353535, 0x354 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AM_MGCJ }, // emc_pmacro_ib_vref_dq_1.
-	{ 0x00100010, 0x3FC / 4, DRAM_ID2(9) | DRAM_ID2(13) }, // emc_pmacro_ib_ddll_long_dqs_rank0_0.
+	{ 0x00100010, 0x3FC / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AM_MGCJ }, // emc_pmacro_ib_ddll_long_dqs_rank0_0.
-	{ 0x00100010, 0x400 / 4, DRAM_ID2(9) | DRAM_ID2(13) }, // emc_pmacro_ib_ddll_long_dqs_rank0_1.
+	{ 0x00100010, 0x400 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AM_MGCJ }, // emc_pmacro_ib_ddll_long_dqs_rank0_1.
-	{ 0x00100010, 0x404 / 4, DRAM_ID2(9) | DRAM_ID2(13) }, // emc_pmacro_ib_ddll_long_dqs_rank0_2.
+	{ 0x00100010, 0x404 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AM_MGCJ }, // emc_pmacro_ib_ddll_long_dqs_rank0_2.
-	{ 0x00100010, 0x408 / 4, DRAM_ID2(9) | DRAM_ID2(13) }, // emc_pmacro_ib_ddll_long_dqs_rank0_3.
+	{ 0x00100010, 0x408 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AM_MGCJ }, // emc_pmacro_ib_ddll_long_dqs_rank0_3.
-	{ 0x00100010, 0x40C / 4, DRAM_ID2(9) | DRAM_ID2(13) }, // emc_pmacro_ib_ddll_long_dqs_rank1_0.
+	{ 0x00100010, 0x40C / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AM_MGCJ }, // emc_pmacro_ib_ddll_long_dqs_rank1_0.
-	{ 0x00100010, 0x410 / 4, DRAM_ID2(9) | DRAM_ID2(13) }, // emc_pmacro_ib_ddll_long_dqs_rank1_1.
+	{ 0x00100010, 0x410 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AM_MGCJ }, // emc_pmacro_ib_ddll_long_dqs_rank1_1.
-	{ 0x00100010, 0x414 / 4, DRAM_ID2(9) | DRAM_ID2(13) }, // emc_pmacro_ib_ddll_long_dqs_rank1_2.
+	{ 0x00100010, 0x414 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AM_MGCJ }, // emc_pmacro_ib_ddll_long_dqs_rank1_2.
-	{ 0x00100010, 0x418 / 4, DRAM_ID2(9) | DRAM_ID2(13) }, // emc_pmacro_ib_ddll_long_dqs_rank1_3.
+	{ 0x00100010, 0x418 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AM_MGCJ }, // emc_pmacro_ib_ddll_long_dqs_rank1_3.
-	{ 0x0051004F, 0x450 / 4, DRAM_ID2(9) | DRAM_ID2(13) }, // emc_zcal_mrw_cmd.
+	{ 0x0051004F, 0x450 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AM_MGCJ }, // emc_zcal_mrw_cmd.
-	{ 0x40000001, 0x45C / 4, DRAM_ID2(9) | DRAM_ID2(13) }, // emc_zcal_init_dev1.
+	{ 0x40000001, 0x45C / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AM_MGCJ }, // emc_zcal_init_dev1.
-	{ 0x00000000, 0x594 / 4, DRAM_ID2(9) | DRAM_ID2(13) }, // emc_pmacro_tx_pwrd4.
+	{ 0x00000000, 0x594 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AM_MGCJ }, // emc_pmacro_tx_pwrd4.
-	{ 0x00001000, 0x598 / 4, DRAM_ID2(9) | DRAM_ID2(13) }, // emc_pmacro_tx_pwrd5.
+	{ 0x00001000, 0x598 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AM_MGCJ }, // emc_pmacro_tx_pwrd5.
-	{ 0x00000001, 0x630 / 4, DRAM_ID2(9) | DRAM_ID2(13) }, // mc_emem_adr_cfg. 2 populated DRAM Devices.
+	{ 0x00000001, 0x630 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AM_MGCJ }, // mc_emem_adr_cfg. 2 Ranks.
-	{ 0x00002000, 0x64C / 4, DRAM_ID2(9) | DRAM_ID2(13) }, // mc_emem_cfg. 8GB total density.
+	{ 0x00002000, 0x64C / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AM_MGCJ }, // mc_emem_cfg. 8GB total density.
-	{ 0x00000002, 0x680 / 4, DRAM_ID2(9) | DRAM_ID2(13) }, // mc_emem_arb_timing_r2r.
+	{ 0x00000002, 0x680 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AM_MGCJ }, // mc_emem_arb_timing_r2r.
-	{ 0x02020001, 0x694 / 4, DRAM_ID2(9) | DRAM_ID2(13) }, // mc_emem_arb_da_turns.
+	{ 0x02020001, 0x694 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AM_MGCJ }, // mc_emem_arb_da_turns.
-	{ 0x2A800000, 0x6DC / 4, DRAM_ID2(9) | DRAM_ID2(13) }, // mc_video_protect_gpu_override0.
+	{ 0x2A800000, 0x6DC / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AM_MGCJ }, // mc_video_protect_gpu_override0.
-	{ 0x00000002, 0x6E0 / 4, DRAM_ID2(9) | DRAM_ID2(13) }, // mc_video_protect_gpu_override1.
+	{ 0x00000002, 0x6E0 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AM_MGCJ }, // mc_video_protect_gpu_override1.
-	// Micron LPDDR4X 4GB MT53D1024M32D1NP-053-WT for Iowa and Hoag.
+	// Micron LPDDR4X 4GB MT53D1024M32D1NP-053-WT:E Die-E for retail Iowa and Hoag.
-	{ 0x05500000, 0x0D4 / 4, DRAM_ID2(11) | DRAM_ID2(15) }, // emc_auto_cal_config2.
+	{ 0x05500000, 0x0D4 / 4, LPDDR4X_4GB_MICRON_MT53E512M32D2NP_046_WTE }, // emc_auto_cal_config2.
-	{ 0xC9AFBCBC, 0x0F4 / 4, DRAM_ID2(11) | DRAM_ID2(15) }, // emc_auto_cal_vref_sel0.
+	{ 0xC9AFBCBC, 0x0F4 / 4, LPDDR4X_4GB_MICRON_MT53E512M32D2NP_046_WTE }, // emc_auto_cal_vref_sel0.
-	{ 0x88161414, 0x2E0 / 4, DRAM_ID2(11) | DRAM_ID2(15) }, // emc_mrw14.
+	{ 0x88161414, 0x2E0 / 4, LPDDR4X_4GB_MICRON_MT53E512M32D2NP_046_WTE }, // emc_mrw14.
-	{ 0x80000713, 0x32C / 4, DRAM_ID2(11) | DRAM_ID2(15) }, // emc_dyn_self_ref_control.
+	{ 0x80000713, 0x32C / 4, LPDDR4X_4GB_MICRON_MT53E512M32D2NP_046_WTE }, // emc_dyn_self_ref_control.
-	{ 0x2A800000, 0x6DC / 4, DRAM_ID2(11) | DRAM_ID2(15) }, // mc_video_protect_gpu_override0.
+	{ 0x2A800000, 0x6DC / 4, LPDDR4X_4GB_MICRON_MT53E512M32D2NP_046_WTE }, // mc_video_protect_gpu_override0.
-	{ 0x00000002, 0x6E0 / 4, DRAM_ID2(11) | DRAM_ID2(15) }, // mc_video_protect_gpu_override1.
+	{ 0x00000002, 0x6E0 / 4, LPDDR4X_4GB_MICRON_MT53E512M32D2NP_046_WTE }, // mc_video_protect_gpu_override1.
-	// Samsung LPDDR4X 4GB Die-Y for Iowa.
+	// Samsung LPDDR4X 4GB (Y01) Die-? for Iowa.
-	{ 0x05500000, 0x0D4 / 4, DRAM_ID2(16) }, // emc_auto_cal_config2.
+	{ 0x05500000, 0x0D4 / 4, LPDDR4X_4GB_SAMSUNG_Y }, // emc_auto_cal_config2.
-	{ 0xC9AFBCBC, 0x0F4 / 4, DRAM_ID2(16) }, // emc_auto_cal_vref_sel0.
+	{ 0xC9AFBCBC, 0x0F4 / 4, LPDDR4X_4GB_SAMSUNG_Y }, // emc_auto_cal_vref_sel0.
-	{ 0x88161414, 0x2E0 / 4, DRAM_ID2(16) }, // emc_mrw14.
+	{ 0x88161414, 0x2E0 / 4, LPDDR4X_4GB_SAMSUNG_Y }, // emc_mrw14.
-	{ 0x80000713, 0x32C / 4, DRAM_ID2(16) }, // emc_dyn_self_ref_control.
+	{ 0x80000713, 0x32C / 4, LPDDR4X_4GB_SAMSUNG_Y }, // emc_dyn_self_ref_control.
-	{ 0x32323232, 0x350 / 4, DRAM_ID2(16) }, // emc_pmacro_ib_vref_dq_0.
+	{ 0x32323232, 0x350 / 4, LPDDR4X_4GB_SAMSUNG_Y }, // emc_pmacro_ib_vref_dq_0.
-	{ 0x32323232, 0x354 / 4, DRAM_ID2(16) }, // emc_pmacro_ib_vref_dq_1.
+	{ 0x32323232, 0x354 / 4, LPDDR4X_4GB_SAMSUNG_Y }, // emc_pmacro_ib_vref_dq_1.
-	{ 0x000F0018, 0x3AC / 4, DRAM_ID2(16) }, // emc_pmacro_ob_ddll_long_dq_rank0_4.
+	{ 0x000F0018, 0x3AC / 4, LPDDR4X_4GB_SAMSUNG_Y }, // emc_pmacro_ob_ddll_long_dq_rank0_4.
-	{ 0x000F0018, 0x3C4 / 4, DRAM_ID2(16) }, // emc_pmacro_ob_ddll_long_dq_rank1_4.
+	{ 0x000F0018, 0x3C4 / 4, LPDDR4X_4GB_SAMSUNG_Y }, // emc_pmacro_ob_ddll_long_dq_rank1_4.
-	{ 0x00440048, 0x3CC / 4, DRAM_ID2(16) }, // emc_pmacro_ob_ddll_long_dqs_rank0_0.
+	{ 0x00440048, 0x3CC / 4, LPDDR4X_4GB_SAMSUNG_Y }, // emc_pmacro_ob_ddll_long_dqs_rank0_0.
-	{ 0x00440045, 0x3D0 / 4, DRAM_ID2(16) }, // emc_pmacro_ob_ddll_long_dqs_rank0_1.
+	{ 0x00440045, 0x3D0 / 4, LPDDR4X_4GB_SAMSUNG_Y }, // emc_pmacro_ob_ddll_long_dqs_rank0_1.
-	{ 0x00470047, 0x3D4 / 4, DRAM_ID2(16) }, // emc_pmacro_ob_ddll_long_dqs_rank0_2.
+	{ 0x00470047, 0x3D4 / 4, LPDDR4X_4GB_SAMSUNG_Y }, // emc_pmacro_ob_ddll_long_dqs_rank0_2.
-	{ 0x0005000D, 0x3DC / 4, DRAM_ID2(16) }, // emc_pmacro_ob_ddll_long_dqs_rank0_4.
+	{ 0x0005000D, 0x3DC / 4, LPDDR4X_4GB_SAMSUNG_Y }, // emc_pmacro_ob_ddll_long_dqs_rank0_4.
-	{ 0x00440048, 0x3E4 / 4, DRAM_ID2(16) }, // emc_pmacro_ob_ddll_long_dqs_rank1_0.
+	{ 0x00440048, 0x3E4 / 4, LPDDR4X_4GB_SAMSUNG_Y }, // emc_pmacro_ob_ddll_long_dqs_rank1_0.
-	{ 0x00440045, 0x3E8 / 4, DRAM_ID2(16) }, // emc_pmacro_ob_ddll_long_dqs_rank1_1.
+	{ 0x00440045, 0x3E8 / 4, LPDDR4X_4GB_SAMSUNG_Y }, // emc_pmacro_ob_ddll_long_dqs_rank1_1.
-	{ 0x00470047, 0x3EC / 4, DRAM_ID2(16) }, // emc_pmacro_ob_ddll_long_dqs_rank1_2.
+	{ 0x00470047, 0x3EC / 4, LPDDR4X_4GB_SAMSUNG_Y }, // emc_pmacro_ob_ddll_long_dqs_rank1_2.
-	{ 0x0005000D, 0x3F4 / 4, DRAM_ID2(16) }, // emc_pmacro_ob_ddll_long_dqs_rank1_4.
+	{ 0x0005000D, 0x3F4 / 4, LPDDR4X_4GB_SAMSUNG_Y }, // emc_pmacro_ob_ddll_long_dqs_rank1_4.
-	{ 0x00780078, 0x3FC / 4, DRAM_ID2(16) }, // emc_pmacro_ib_ddll_long_dqs_rank0_0.
+	{ 0x00780078, 0x3FC / 4, LPDDR4X_4GB_SAMSUNG_Y }, // emc_pmacro_ib_ddll_long_dqs_rank0_0.
-	{ 0x00780078, 0x400 / 4, DRAM_ID2(16) }, // emc_pmacro_ib_ddll_long_dqs_rank0_1.
+	{ 0x00780078, 0x400 / 4, LPDDR4X_4GB_SAMSUNG_Y }, // emc_pmacro_ib_ddll_long_dqs_rank0_1.
-	{ 0x00780078, 0x404 / 4, DRAM_ID2(16) }, // emc_pmacro_ib_ddll_long_dqs_rank0_2.
+	{ 0x00780078, 0x404 / 4, LPDDR4X_4GB_SAMSUNG_Y }, // emc_pmacro_ib_ddll_long_dqs_rank0_2.
-	{ 0x00780078, 0x408 / 4, DRAM_ID2(16) }, // emc_pmacro_ib_ddll_long_dqs_rank0_3.
+	{ 0x00780078, 0x408 / 4, LPDDR4X_4GB_SAMSUNG_Y }, // emc_pmacro_ib_ddll_long_dqs_rank0_3.
-	{ 0x00780078, 0x40C / 4, DRAM_ID2(16) }, // emc_pmacro_ib_ddll_long_dqs_rank1_0.
+	{ 0x00780078, 0x40C / 4, LPDDR4X_4GB_SAMSUNG_Y }, // emc_pmacro_ib_ddll_long_dqs_rank1_0.
-	{ 0x00780078, 0x410 / 4, DRAM_ID2(16) }, // emc_pmacro_ib_ddll_long_dqs_rank1_1.
+	{ 0x00780078, 0x410 / 4, LPDDR4X_4GB_SAMSUNG_Y }, // emc_pmacro_ib_ddll_long_dqs_rank1_1.
-	{ 0x00780078, 0x414 / 4, DRAM_ID2(16) }, // emc_pmacro_ib_ddll_long_dqs_rank1_2.
+	{ 0x00780078, 0x414 / 4, LPDDR4X_4GB_SAMSUNG_Y }, // emc_pmacro_ib_ddll_long_dqs_rank1_2.
-	{ 0x00780078, 0x418 / 4, DRAM_ID2(16) }, // emc_pmacro_ib_ddll_long_dqs_rank1_3.
+	{ 0x00780078, 0x418 / 4, LPDDR4X_4GB_SAMSUNG_Y }, // emc_pmacro_ib_ddll_long_dqs_rank1_3.
-	{ 0x00180018, 0x41C / 4, DRAM_ID2(16) }, // emc_pmacro_ddll_long_cmd_0.
+	{ 0x00180018, 0x41C / 4, LPDDR4X_4GB_SAMSUNG_Y }, // emc_pmacro_ddll_long_cmd_0.
-	{ 0x000F000F, 0x420 / 4, DRAM_ID2(16) }, // emc_pmacro_ddll_long_cmd_1.
+	{ 0x000F000F, 0x420 / 4, LPDDR4X_4GB_SAMSUNG_Y }, // emc_pmacro_ddll_long_cmd_1.
-	{ 0x00000018, 0x42C / 4, DRAM_ID2(16) }, // emc_pmacro_ddll_long_cmd_4.
+	{ 0x00000018, 0x42C / 4, LPDDR4X_4GB_SAMSUNG_Y }, // emc_pmacro_ddll_long_cmd_4.
-	{ 0x2A800000, 0x6DC / 4, DRAM_ID2(16) }, // mc_video_protect_gpu_override0.
+	{ 0x2A800000, 0x6DC / 4, LPDDR4X_4GB_SAMSUNG_Y }, // mc_video_protect_gpu_override0.
-	{ 0x00000002, 0x6E0 / 4, DRAM_ID2(16) }, // mc_video_protect_gpu_override1.
+	{ 0x00000002, 0x6E0 / 4, LPDDR4X_4GB_SAMSUNG_Y }, // mc_video_protect_gpu_override1.
-	// Samsung LPDDR4X 4GB 10nm-class (1y) Die-X for Iowa, Hoag and SDS.
+	// Samsung LPDDR4X 4GB K4U6E3S4AA-MGCL 10nm-class (1y-X03) Die-A for retail Iowa, Hoag and Aula.
-	{ 0x05500000, 0x0D4 / 4, DRAM_ID2(17) | DRAM_ID2(19) | DRAM_ID2(24) }, // emc_auto_cal_config2.
+	{ 0x05500000, 0x0D4 / 4, LPDDR4X_4GB_SAMSUNG_K4U6E3S4AA_MGCL }, // emc_auto_cal_config2.
-	{ 0xC9AFBCBC, 0x0F4 / 4, DRAM_ID2(17) | DRAM_ID2(19) | DRAM_ID2(24) }, // emc_auto_cal_vref_sel0.
+	{ 0xC9AFBCBC, 0x0F4 / 4, LPDDR4X_4GB_SAMSUNG_K4U6E3S4AA_MGCL }, // emc_auto_cal_vref_sel0.
-	{ 0x00000006, 0x1CC / 4, DRAM_ID2(17) | DRAM_ID2(19) | DRAM_ID2(24) }, // emc_quse.
+	{ 0x00000006, 0x1CC / 4, LPDDR4X_4GB_SAMSUNG_K4U6E3S4AA_MGCL }, // emc_quse.
-	{ 0x00000005, 0x1D0 / 4, DRAM_ID2(17) | DRAM_ID2(19) | DRAM_ID2(24) }, // emc_quse_width.
+	{ 0x00000005, 0x1D0 / 4, LPDDR4X_4GB_SAMSUNG_K4U6E3S4AA_MGCL }, // emc_quse_width.
-	{ 0x00000003, 0x1DC / 4, DRAM_ID2(17) | DRAM_ID2(19) | DRAM_ID2(24) }, // emc_einput.
+	{ 0x00000003, 0x1DC / 4, LPDDR4X_4GB_SAMSUNG_K4U6E3S4AA_MGCL }, // emc_einput.
-	{ 0x0000000C, 0x1E0 / 4, DRAM_ID2(17) | DRAM_ID2(19) | DRAM_ID2(24) }, // emc_einput_duration.
+	{ 0x0000000C, 0x1E0 / 4, LPDDR4X_4GB_SAMSUNG_K4U6E3S4AA_MGCL }, // emc_einput_duration.
-	{ 0x88161414, 0x2E0 / 4, DRAM_ID2(17) | DRAM_ID2(19) | DRAM_ID2(24) }, // emc_mrw14.
+	{ 0x88161414, 0x2E0 / 4, LPDDR4X_4GB_SAMSUNG_K4U6E3S4AA_MGCL }, // emc_mrw14.
-	{ 0x80000713, 0x32C / 4, DRAM_ID2(17) | DRAM_ID2(19) | DRAM_ID2(24) }, // emc_dyn_self_ref_control.
+	{ 0x80000713, 0x32C / 4, LPDDR4X_4GB_SAMSUNG_K4U6E3S4AA_MGCL }, // emc_dyn_self_ref_control.
-	{ 0x2A800000, 0x6DC / 4, DRAM_ID2(17) | DRAM_ID2(19) | DRAM_ID2(24) }, // mc_video_protect_gpu_override0.
+	{ 0x2A800000, 0x6DC / 4, LPDDR4X_4GB_SAMSUNG_K4U6E3S4AA_MGCL }, // mc_video_protect_gpu_override0.
-	{ 0x00000002, 0x6E0 / 4, DRAM_ID2(17) | DRAM_ID2(19) | DRAM_ID2(24) }, // mc_video_protect_gpu_override1.
+	{ 0x00000002, 0x6E0 / 4, LPDDR4X_4GB_SAMSUNG_K4U6E3S4AA_MGCL }, // mc_video_protect_gpu_override1.
-	// Samsung LPDDR4X 8GB 10nm-class (1y) Die-X for SDEV Iowa and SDS.
+	// Samsung LPDDR4X 8GB K4UBE3D4AA-MGCL 10nm-class (1y-X03) Die-A for SDEV Iowa, Hoag and Aula.
-	{ 0x05500000, 0x0D4 / 4, DRAM_ID2(18) | DRAM_ID2(23) }, // emc_auto_cal_config2.
+	{ 0x05500000, 0x0D4 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AA_MGCL }, // emc_auto_cal_config2.
-	{ 0xC9AFBCBC, 0x0F4 / 4, DRAM_ID2(18) | DRAM_ID2(23) }, // emc_auto_cal_vref_sel0.
+	{ 0xC9AFBCBC, 0x0F4 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AA_MGCL }, // emc_auto_cal_vref_sel0.
-	{ 0x00000001, 0x134 / 4, DRAM_ID2(18) | DRAM_ID2(23) }, // emc_adr_cfg. 2 populated DRAM Devices.
+	{ 0x00000001, 0x134 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AA_MGCL }, // emc_adr_cfg. 2 Ranks.
-	{ 0x00000006, 0x1CC / 4, DRAM_ID2(18) | DRAM_ID2(23) }, // emc_quse.
+	{ 0x00000006, 0x1CC / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AA_MGCL }, // emc_quse.
-	{ 0x00000005, 0x1D0 / 4, DRAM_ID2(18) | DRAM_ID2(23) }, // emc_quse_width.
+	{ 0x00000005, 0x1D0 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AA_MGCL }, // emc_quse_width.
-	{ 0x00000003, 0x1DC / 4, DRAM_ID2(18) | DRAM_ID2(23) }, // emc_einput.
+	{ 0x00000003, 0x1DC / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AA_MGCL }, // emc_einput.
-	{ 0x0000000C, 0x1E0 / 4, DRAM_ID2(18) | DRAM_ID2(23) }, // emc_einput_duration.
+	{ 0x0000000C, 0x1E0 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AA_MGCL }, // emc_einput_duration.
-	{ 0x00000008, 0x24C / 4, DRAM_ID2(18) | DRAM_ID2(23) }, // emc_tfaw.
+	{ 0x00000008, 0x24C / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AA_MGCL }, // emc_tfaw.
-	{ 0x08010004, 0x2B8 / 4, DRAM_ID2(18) | DRAM_ID2(23) }, // emc_mrw1.
+	{ 0x08010004, 0x2B8 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AA_MGCL }, // emc_mrw1.
-	{ 0x08020000, 0x2BC / 4, DRAM_ID2(18) | DRAM_ID2(23) }, // emc_mrw2.
+	{ 0x08020000, 0x2BC / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AA_MGCL }, // emc_mrw2.
-	{ 0x080D0000, 0x2C0 / 4, DRAM_ID2(18) | DRAM_ID2(23) }, // emc_mrw3.
+	{ 0x080D0000, 0x2C0 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AA_MGCL }, // emc_mrw3.
-	{ 0x08033131, 0x2C8 / 4, DRAM_ID2(18) | DRAM_ID2(23) }, // emc_mrw6.
+	{ 0x08033131, 0x2C8 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AA_MGCL }, // emc_mrw6.
-	{ 0x080B0000, 0x2CC / 4, DRAM_ID2(18) | DRAM_ID2(23) }, // emc_mrw8.
+	{ 0x080B0000, 0x2CC / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AA_MGCL }, // emc_mrw8.
-	{ 0x0C0E5D5D, 0x2D0 / 4, DRAM_ID2(18) | DRAM_ID2(23) }, // emc_mrw9.
+	{ 0x0C0E5D5D, 0x2D0 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AA_MGCL }, // emc_mrw9.
-	{ 0x080C5D5D, 0x2D4 / 4, DRAM_ID2(18) | DRAM_ID2(23) }, // emc_mrw10.
+	{ 0x080C5D5D, 0x2D4 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AA_MGCL }, // emc_mrw10.
-	{ 0x0C0D0808, 0x2D8 / 4, DRAM_ID2(18) | DRAM_ID2(23) }, // emc_mrw12.
+	{ 0x0C0D0808, 0x2D8 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AA_MGCL }, // emc_mrw12.
-	{ 0x0C0D0000, 0x2DC / 4, DRAM_ID2(18) | DRAM_ID2(23) }, // emc_mrw13.
+	{ 0x0C0D0000, 0x2DC / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AA_MGCL }, // emc_mrw13.
-	{ 0x08161414, 0x2E0 / 4, DRAM_ID2(18) | DRAM_ID2(23) }, // emc_mrw14.
+	{ 0x08161414, 0x2E0 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AA_MGCL }, // emc_mrw14.
-	{ 0x08010004, 0x2E4 / 4, DRAM_ID2(18) | DRAM_ID2(23) }, // emc_mrw_extra.
+	{ 0x08010004, 0x2E4 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AA_MGCL }, // emc_mrw_extra.
-	{ 0x00000000, 0x340 / 4, DRAM_ID2(18) | DRAM_ID2(23) }, // emc_dev_select. Both devices.
+	{ 0x00000000, 0x340 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AA_MGCL }, // emc_dev_select. Both devices.
-	{ 0x0051004F, 0x450 / 4, DRAM_ID2(18) | DRAM_ID2(23) }, // emc_zcal_mrw_cmd.
+	{ 0x0051004F, 0x450 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AA_MGCL }, // emc_zcal_mrw_cmd.
-	{ 0x40000001, 0x45C / 4, DRAM_ID2(18) | DRAM_ID2(23) }, // emc_zcal_init_dev1.
+	{ 0x40000001, 0x45C / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AA_MGCL }, // emc_zcal_init_dev1.
-	{ 0x00000000, 0x594 / 4, DRAM_ID2(18) | DRAM_ID2(23) }, // emc_pmacro_tx_pwrd4.
+	{ 0x00000000, 0x594 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AA_MGCL }, // emc_pmacro_tx_pwrd4.
-	{ 0x00001000, 0x598 / 4, DRAM_ID2(18) | DRAM_ID2(23) }, // emc_pmacro_tx_pwrd5.
+	{ 0x00001000, 0x598 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AA_MGCL }, // emc_pmacro_tx_pwrd5.
-	{ 0x00000001, 0x630 / 4, DRAM_ID2(18) | DRAM_ID2(23) }, // mc_emem_adr_cfg. 2 populated DRAM Devices.
+	{ 0x00000001, 0x630 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AA_MGCL }, // mc_emem_adr_cfg. 2 Ranks.
-	{ 0x00002000, 0x64C / 4, DRAM_ID2(18) | DRAM_ID2(23) }, // mc_emem_cfg. 8GB total density.
+	{ 0x00002000, 0x64C / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AA_MGCL }, // mc_emem_cfg. 8GB total density.
-	{ 0x00000001, 0x670 / 4, DRAM_ID2(18) | DRAM_ID2(23) }, // mc_emem_arb_timing_faw.
+	{ 0x00000001, 0x670 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AA_MGCL }, // mc_emem_arb_timing_faw.
-	{ 0x00000002, 0x680 / 4, DRAM_ID2(18) | DRAM_ID2(23) }, // mc_emem_arb_timing_r2r.
+	{ 0x00000002, 0x680 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AA_MGCL }, // mc_emem_arb_timing_r2r.
-	{ 0x02020001, 0x694 / 4, DRAM_ID2(18) | DRAM_ID2(23) }, // mc_emem_arb_da_turns.
+	{ 0x02020001, 0x694 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AA_MGCL }, // mc_emem_arb_da_turns.
-	{ 0x2A800000, 0x6DC / 4, DRAM_ID2(18) | DRAM_ID2(23) }, // mc_video_protect_gpu_override0.
+	{ 0x2A800000, 0x6DC / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AA_MGCL }, // mc_video_protect_gpu_override0.
-	{ 0x00000002, 0x6E0 / 4, DRAM_ID2(18) | DRAM_ID2(23) }, // mc_video_protect_gpu_override1.
+	{ 0x00000002, 0x6E0 / 4, LPDDR4X_8GB_SAMSUNG_K4UBE3D4AA_MGCL }, // mc_video_protect_gpu_override1.
-	// Samsung LPDDR4X 4GB 10nm-class (1y) Die-Y for Iowa.
+	// Samsung LPDDR4X 4GB 10nm-class (1y-Y01) Die-? for Iowa.
-	{ 0x05500000, 0x0D4 / 4, DRAM_ID2(20) }, // emc_auto_cal_config2.
+	{ 0x05500000, 0x0D4 / 4, LPDDR4X_4GB_SAMSUNG_1Y_Y }, // emc_auto_cal_config2.
-	{ 0xC9AFBCBC, 0x0F4 / 4, DRAM_ID2(20) }, // emc_auto_cal_vref_sel0.
+	{ 0xC9AFBCBC, 0x0F4 / 4, LPDDR4X_4GB_SAMSUNG_1Y_Y }, // emc_auto_cal_vref_sel0.
-	{ 0x00000008, 0x24C / 4, DRAM_ID2(20) }, // emc_tfaw.
+	{ 0x00000008, 0x24C / 4, LPDDR4X_4GB_SAMSUNG_1Y_Y }, // emc_tfaw.
-	{ 0x88161414, 0x2E0 / 4, DRAM_ID2(20) }, // emc_mrw14.
+	{ 0x88161414, 0x2E0 / 4, LPDDR4X_4GB_SAMSUNG_1Y_Y }, // emc_mrw14.
-	{ 0x80000713, 0x32C / 4, DRAM_ID2(20) }, // emc_dyn_self_ref_control.
+	{ 0x80000713, 0x32C / 4, LPDDR4X_4GB_SAMSUNG_1Y_Y }, // emc_dyn_self_ref_control.
-	{ 0x000F0018, 0x3AC / 4, DRAM_ID2(20) }, // emc_pmacro_ob_ddll_long_dq_rank0_4.
+	{ 0x000F0018, 0x3AC / 4, LPDDR4X_4GB_SAMSUNG_1Y_Y }, // emc_pmacro_ob_ddll_long_dq_rank0_4.
-	{ 0x000F0018, 0x3C4 / 4, DRAM_ID2(20) }, // emc_pmacro_ob_ddll_long_dq_rank1_4.
+	{ 0x000F0018, 0x3C4 / 4, LPDDR4X_4GB_SAMSUNG_1Y_Y }, // emc_pmacro_ob_ddll_long_dq_rank1_4.
-	{ 0x00440048, 0x3CC / 4, DRAM_ID2(20) }, // emc_pmacro_ob_ddll_long_dqs_rank0_0.
+	{ 0x00440048, 0x3CC / 4, LPDDR4X_4GB_SAMSUNG_1Y_Y }, // emc_pmacro_ob_ddll_long_dqs_rank0_0.
-	{ 0x00440045, 0x3D0 / 4, DRAM_ID2(20) }, // emc_pmacro_ob_ddll_long_dqs_rank0_1.
+	{ 0x00440045, 0x3D0 / 4, LPDDR4X_4GB_SAMSUNG_1Y_Y }, // emc_pmacro_ob_ddll_long_dqs_rank0_1.
-	{ 0x00470047, 0x3D4 / 4, DRAM_ID2(20) }, // emc_pmacro_ob_ddll_long_dqs_rank0_2.
+	{ 0x00470047, 0x3D4 / 4, LPDDR4X_4GB_SAMSUNG_1Y_Y }, // emc_pmacro_ob_ddll_long_dqs_rank0_2.
-	{ 0x0005000D, 0x3DC / 4, DRAM_ID2(20) }, // emc_pmacro_ob_ddll_long_dqs_rank0_4.
+	{ 0x0005000D, 0x3DC / 4, LPDDR4X_4GB_SAMSUNG_1Y_Y }, // emc_pmacro_ob_ddll_long_dqs_rank0_4.
-	{ 0x00440048, 0x3E4 / 4, DRAM_ID2(20) }, // emc_pmacro_ob_ddll_long_dqs_rank1_0.
+	{ 0x00440048, 0x3E4 / 4, LPDDR4X_4GB_SAMSUNG_1Y_Y }, // emc_pmacro_ob_ddll_long_dqs_rank1_0.
-	{ 0x00440045, 0x3E8 / 4, DRAM_ID2(20) }, // emc_pmacro_ob_ddll_long_dqs_rank1_1.
+	{ 0x00440045, 0x3E8 / 4, LPDDR4X_4GB_SAMSUNG_1Y_Y }, // emc_pmacro_ob_ddll_long_dqs_rank1_1.
-	{ 0x00470047, 0x3EC / 4, DRAM_ID2(20) }, // emc_pmacro_ob_ddll_long_dqs_rank1_2.
+	{ 0x00470047, 0x3EC / 4, LPDDR4X_4GB_SAMSUNG_1Y_Y }, // emc_pmacro_ob_ddll_long_dqs_rank1_2.
-	{ 0x0005000D, 0x3F4 / 4, DRAM_ID2(20) }, // emc_pmacro_ob_ddll_long_dqs_rank1_4.
+	{ 0x0005000D, 0x3F4 / 4, LPDDR4X_4GB_SAMSUNG_1Y_Y }, // emc_pmacro_ob_ddll_long_dqs_rank1_4.
-	{ 0x00180018, 0x41C / 4, DRAM_ID2(20) }, // emc_pmacro_ddll_long_cmd_0.
+	{ 0x00180018, 0x41C / 4, LPDDR4X_4GB_SAMSUNG_1Y_Y }, // emc_pmacro_ddll_long_cmd_0.
-	{ 0x000F000F, 0x420 / 4, DRAM_ID2(20) }, // emc_pmacro_ddll_long_cmd_1.
+	{ 0x000F000F, 0x420 / 4, LPDDR4X_4GB_SAMSUNG_1Y_Y }, // emc_pmacro_ddll_long_cmd_1.
-	{ 0x00000018, 0x42C / 4, DRAM_ID2(20) }, // emc_pmacro_ddll_long_cmd_4.
+	{ 0x00000018, 0x42C / 4, LPDDR4X_4GB_SAMSUNG_1Y_Y }, // emc_pmacro_ddll_long_cmd_4.
-	{ 0x00000001, 0x670 / 4, DRAM_ID2(20) }, // mc_emem_arb_timing_faw.
+	{ 0x00000001, 0x670 / 4, LPDDR4X_4GB_SAMSUNG_1Y_Y }, // mc_emem_arb_timing_faw.
-	{ 0x2A800000, 0x6DC / 4, DRAM_ID2(20) }, // mc_video_protect_gpu_override0.
+	{ 0x2A800000, 0x6DC / 4, LPDDR4X_4GB_SAMSUNG_1Y_Y }, // mc_video_protect_gpu_override0.
-	{ 0x00000002, 0x6E0 / 4, DRAM_ID2(20) }, // mc_video_protect_gpu_override1.
+	{ 0x00000002, 0x6E0 / 4, LPDDR4X_4GB_SAMSUNG_1Y_Y }, // mc_video_protect_gpu_override1.
-	// Samsung LPDDR4X 8GB 10nm-class (1y) Die-Y for SDEV Iowa.
+	// Samsung LPDDR4X 8GB 10nm-class (1y-Y01) Die-? for SDEV Iowa.
-	{ 0x05500000, 0x0D4 / 4, DRAM_ID2(21) }, // emc_auto_cal_config2.
+	{ 0x05500000, 0x0D4 / 4, LPDDR4X_8GB_SAMSUNG_1Y_Y }, // emc_auto_cal_config2.
-	{ 0xC9AFBCBC, 0x0F4 / 4, DRAM_ID2(21) }, // emc_auto_cal_vref_sel0.
+	{ 0xC9AFBCBC, 0x0F4 / 4, LPDDR4X_8GB_SAMSUNG_1Y_Y }, // emc_auto_cal_vref_sel0.
-	{ 0x00000001, 0x134 / 4, DRAM_ID2(21) }, // emc_adr_cfg. 2 populated DRAM Devices.
+	{ 0x00000001, 0x134 / 4, LPDDR4X_8GB_SAMSUNG_1Y_Y }, // emc_adr_cfg. 2 Ranks.
-	{ 0x00000008, 0x24C / 4, DRAM_ID2(21) }, // emc_tfaw.
+	{ 0x00000008, 0x24C / 4, LPDDR4X_8GB_SAMSUNG_1Y_Y }, // emc_tfaw.
-	{ 0x08010004, 0x2B8 / 4, DRAM_ID2(21) }, // emc_mrw1.
+	{ 0x08010004, 0x2B8 / 4, LPDDR4X_8GB_SAMSUNG_1Y_Y }, // emc_mrw1.
-	{ 0x08020000, 0x2BC / 4, DRAM_ID2(21) }, // emc_mrw2.
+	{ 0x08020000, 0x2BC / 4, LPDDR4X_8GB_SAMSUNG_1Y_Y }, // emc_mrw2.
-	{ 0x080D0000, 0x2C0 / 4, DRAM_ID2(21) }, // emc_mrw3.
+	{ 0x080D0000, 0x2C0 / 4, LPDDR4X_8GB_SAMSUNG_1Y_Y }, // emc_mrw3.
-	{ 0x08033131, 0x2C8 / 4, DRAM_ID2(21) }, // emc_mrw6.
+	{ 0x08033131, 0x2C8 / 4, LPDDR4X_8GB_SAMSUNG_1Y_Y }, // emc_mrw6.
-	{ 0x080B0000, 0x2CC / 4, DRAM_ID2(21) }, // emc_mrw8.
+	{ 0x080B0000, 0x2CC / 4, LPDDR4X_8GB_SAMSUNG_1Y_Y }, // emc_mrw8.
-	{ 0x0C0E5D5D, 0x2D0 / 4, DRAM_ID2(21) }, // emc_mrw9.
+	{ 0x0C0E5D5D, 0x2D0 / 4, LPDDR4X_8GB_SAMSUNG_1Y_Y }, // emc_mrw9.
-	{ 0x080C5D5D, 0x2D4 / 4, DRAM_ID2(21) }, // emc_mrw10.
+	{ 0x080C5D5D, 0x2D4 / 4, LPDDR4X_8GB_SAMSUNG_1Y_Y }, // emc_mrw10.
-	{ 0x0C0D0808, 0x2D8 / 4, DRAM_ID2(21) }, // emc_mrw12.
+	{ 0x0C0D0808, 0x2D8 / 4, LPDDR4X_8GB_SAMSUNG_1Y_Y }, // emc_mrw12.
-	{ 0x0C0D0000, 0x2DC / 4, DRAM_ID2(21) }, // emc_mrw13.
+	{ 0x0C0D0000, 0x2DC / 4, LPDDR4X_8GB_SAMSUNG_1Y_Y }, // emc_mrw13.
-	{ 0x08161414, 0x2E0 / 4, DRAM_ID2(21) }, // emc_mrw14.
+	{ 0x08161414, 0x2E0 / 4, LPDDR4X_8GB_SAMSUNG_1Y_Y }, // emc_mrw14.
-	{ 0x08010004, 0x2E4 / 4, DRAM_ID2(21) }, // emc_mrw_extra.
+	{ 0x08010004, 0x2E4 / 4, LPDDR4X_8GB_SAMSUNG_1Y_Y }, // emc_mrw_extra.
-	{ 0x00000000, 0x340 / 4, DRAM_ID2(21) }, // emc_dev_select. Both devices.
+	{ 0x00000000, 0x340 / 4, LPDDR4X_8GB_SAMSUNG_1Y_Y }, // emc_dev_select. Both devices.
-	{ 0x32323232, 0x350 / 4, DRAM_ID2(21) }, // emc_pmacro_ib_vref_dq_0.
+	{ 0x32323232, 0x350 / 4, LPDDR4X_8GB_SAMSUNG_1Y_Y }, // emc_pmacro_ib_vref_dq_0.
-	{ 0x32323232, 0x354 / 4, DRAM_ID2(21) }, // emc_pmacro_ib_vref_dq_1.
+	{ 0x32323232, 0x354 / 4, LPDDR4X_8GB_SAMSUNG_1Y_Y }, // emc_pmacro_ib_vref_dq_1.
-	{ 0x000F0018, 0x3AC / 4, DRAM_ID2(21) }, // emc_pmacro_ob_ddll_long_dq_rank0_4.
+	{ 0x000F0018, 0x3AC / 4, LPDDR4X_8GB_SAMSUNG_1Y_Y }, // emc_pmacro_ob_ddll_long_dq_rank0_4.
-	{ 0x000F0018, 0x3C4 / 4, DRAM_ID2(21) }, // emc_pmacro_ob_ddll_long_dq_rank1_4.
+	{ 0x000F0018, 0x3C4 / 4, LPDDR4X_8GB_SAMSUNG_1Y_Y }, // emc_pmacro_ob_ddll_long_dq_rank1_4.
-	{ 0x00440048, 0x3CC / 4, DRAM_ID2(21) }, // emc_pmacro_ob_ddll_long_dqs_rank0_0.
+	{ 0x00440048, 0x3CC / 4, LPDDR4X_8GB_SAMSUNG_1Y_Y }, // emc_pmacro_ob_ddll_long_dqs_rank0_0.
-	{ 0x00440045, 0x3D0 / 4, DRAM_ID2(21) }, // emc_pmacro_ob_ddll_long_dqs_rank0_1.
+	{ 0x00440045, 0x3D0 / 4, LPDDR4X_8GB_SAMSUNG_1Y_Y }, // emc_pmacro_ob_ddll_long_dqs_rank0_1.
-	{ 0x00470047, 0x3D4 / 4, DRAM_ID2(21) }, // emc_pmacro_ob_ddll_long_dqs_rank0_2.
+	{ 0x00470047, 0x3D4 / 4, LPDDR4X_8GB_SAMSUNG_1Y_Y }, // emc_pmacro_ob_ddll_long_dqs_rank0_2.
-	{ 0x0005000D, 0x3DC / 4, DRAM_ID2(21) }, // emc_pmacro_ob_ddll_long_dqs_rank0_4.
+	{ 0x0005000D, 0x3DC / 4, LPDDR4X_8GB_SAMSUNG_1Y_Y }, // emc_pmacro_ob_ddll_long_dqs_rank0_4.
-	{ 0x00440048, 0x3E4 / 4, DRAM_ID2(21) }, // emc_pmacro_ob_ddll_long_dqs_rank1_0.
+	{ 0x00440048, 0x3E4 / 4, LPDDR4X_8GB_SAMSUNG_1Y_Y }, // emc_pmacro_ob_ddll_long_dqs_rank1_0.
-	{ 0x00440045, 0x3E8 / 4, DRAM_ID2(21) }, // emc_pmacro_ob_ddll_long_dqs_rank1_1.
+	{ 0x00440045, 0x3E8 / 4, LPDDR4X_8GB_SAMSUNG_1Y_Y }, // emc_pmacro_ob_ddll_long_dqs_rank1_1.
-	{ 0x00470047, 0x3EC / 4, DRAM_ID2(21) }, // emc_pmacro_ob_ddll_long_dqs_rank1_2.
+	{ 0x00470047, 0x3EC / 4, LPDDR4X_8GB_SAMSUNG_1Y_Y }, // emc_pmacro_ob_ddll_long_dqs_rank1_2.
-	{ 0x0005000D, 0x3F4 / 4, DRAM_ID2(21) }, // emc_pmacro_ob_ddll_long_dqs_rank1_4.
+	{ 0x0005000D, 0x3F4 / 4, LPDDR4X_8GB_SAMSUNG_1Y_Y }, // emc_pmacro_ob_ddll_long_dqs_rank1_4.
-	{ 0x00180018, 0x41C / 4, DRAM_ID2(21) }, // emc_pmacro_ddll_long_cmd_0.
+	{ 0x00180018, 0x41C / 4, LPDDR4X_8GB_SAMSUNG_1Y_Y }, // emc_pmacro_ddll_long_cmd_0.
-	{ 0x000F000F, 0x420 / 4, DRAM_ID2(21) }, // emc_pmacro_ddll_long_cmd_1.
+	{ 0x000F000F, 0x420 / 4, LPDDR4X_8GB_SAMSUNG_1Y_Y }, // emc_pmacro_ddll_long_cmd_1.
-	{ 0x00000018, 0x42C / 4, DRAM_ID2(21) }, // emc_pmacro_ddll_long_cmd_4.
+	{ 0x00000018, 0x42C / 4, LPDDR4X_8GB_SAMSUNG_1Y_Y }, // emc_pmacro_ddll_long_cmd_4.
-	{ 0x0051004F, 0x450 / 4, DRAM_ID2(21) }, // emc_zcal_mrw_cmd.
+	{ 0x0051004F, 0x450 / 4, LPDDR4X_8GB_SAMSUNG_1Y_Y }, // emc_zcal_mrw_cmd.
-	{ 0x40000001, 0x45C / 4, DRAM_ID2(21) }, // emc_zcal_init_dev1.
+	{ 0x40000001, 0x45C / 4, LPDDR4X_8GB_SAMSUNG_1Y_Y }, // emc_zcal_init_dev1.
-	{ 0x00000000, 0x594 / 4, DRAM_ID2(21) }, // emc_pmacro_tx_pwrd4.
+	{ 0x00000000, 0x594 / 4, LPDDR4X_8GB_SAMSUNG_1Y_Y }, // emc_pmacro_tx_pwrd4.
-	{ 0x00001000, 0x598 / 4, DRAM_ID2(21) }, // emc_pmacro_tx_pwrd5.
+	{ 0x00001000, 0x598 / 4, LPDDR4X_8GB_SAMSUNG_1Y_Y }, // emc_pmacro_tx_pwrd5.
-	{ 0x00000001, 0x630 / 4, DRAM_ID2(21) }, // mc_emem_adr_cfg. 2 populated DRAM Devices.
+	{ 0x00000001, 0x630 / 4, LPDDR4X_8GB_SAMSUNG_1Y_Y }, // mc_emem_adr_cfg. 2 Ranks.
-	{ 0x00002000, 0x64C / 4, DRAM_ID2(21) }, // mc_emem_cfg. 8GB total density.
+	{ 0x00002000, 0x64C / 4, LPDDR4X_8GB_SAMSUNG_1Y_Y }, // mc_emem_cfg. 8GB total density.
-	{ 0x00000001, 0x670 / 4, DRAM_ID2(21) }, // mc_emem_arb_timing_faw.
+	{ 0x00000001, 0x670 / 4, LPDDR4X_8GB_SAMSUNG_1Y_Y }, // mc_emem_arb_timing_faw.
-	{ 0x00000002, 0x680 / 4, DRAM_ID2(21) }, // mc_emem_arb_timing_r2r.
+	{ 0x00000002, 0x680 / 4, LPDDR4X_8GB_SAMSUNG_1Y_Y }, // mc_emem_arb_timing_r2r.
-	{ 0x02020001, 0x694 / 4, DRAM_ID2(21) }, // mc_emem_arb_da_turns.
+	{ 0x02020001, 0x694 / 4, LPDDR4X_8GB_SAMSUNG_1Y_Y }, // mc_emem_arb_da_turns.
-	{ 0x2A800000, 0x6DC / 4, DRAM_ID2(21) }, // mc_video_protect_gpu_override0.
+	{ 0x2A800000, 0x6DC / 4, LPDDR4X_8GB_SAMSUNG_1Y_Y }, // mc_video_protect_gpu_override0.
-	{ 0x00000002, 0x6E0 / 4, DRAM_ID2(21) }, // mc_video_protect_gpu_override1.
+	{ 0x00000002, 0x6E0 / 4, LPDDR4X_8GB_SAMSUNG_1Y_Y }, // mc_video_protect_gpu_override1.
-	// Samsung LPDDR4X 4GB 10nm-class (1y) Die-A for Unknown SDS.
+/*
-	{ 0x05500000, 0x0D4 / 4, DRAM_ID2(22) }, // emc_auto_cal_config2.
+	// Samsung LPDDR4X 8GB 10nm-class (1y-A01) Die-? for SDEV Aula?
-	{ 0xC9AFBCBC, 0x0F4 / 4, DRAM_ID2(22) }, // emc_auto_cal_vref_sel0.
+	{ 0x00000001, 0x134 / 4, LPDDR4X_8GB_SAMSUNG_1Y_A }, // emc_adr_cfg. 2 Ranks.
-	{ 0x00000008, 0x24C / 4, DRAM_ID2(22) }, // emc_tfaw.
+	{ 0x08010004, 0x2B8 / 4, LPDDR4X_8GB_SAMSUNG_1Y_A }, // emc_mrw1.
-	{ 0x1C041B06, 0x26C / 4, DRAM_ID2(22) }, // emc_cmd_mapping_cmd0_0.
+	{ 0x08020000, 0x2BC / 4, LPDDR4X_8GB_SAMSUNG_1Y_A }, // emc_mrw2.
-	{ 0x02050307, 0x270 / 4, DRAM_ID2(22) }, // emc_cmd_mapping_cmd0_1.
+	{ 0x080D0000, 0x2C0 / 4, LPDDR4X_8GB_SAMSUNG_1Y_A }, // emc_mrw3.
-	{ 0x03252500, 0x274 / 4, DRAM_ID2(22) }, // emc_cmd_mapping_cmd0_2.
+	{ 0x08033131, 0x2C8 / 4, LPDDR4X_8GB_SAMSUNG_1Y_A }, // emc_mrw6.
-	{ 0x081D1E00, 0x278 / 4, DRAM_ID2(22) }, // emc_cmd_mapping_cmd1_0.
+	{ 0x080B0000, 0x2CC / 4, LPDDR4X_8GB_SAMSUNG_1Y_A }, // emc_mrw8.
-	{ 0x090C0A0D, 0x27C / 4, DRAM_ID2(22) }, // emc_cmd_mapping_cmd1_1.
+	{ 0x0C0E5D5D, 0x2D0 / 4, LPDDR4X_8GB_SAMSUNG_1Y_A }, // emc_mrw9.
-	{ 0x0526260B, 0x280 / 4, DRAM_ID2(22) }, // emc_cmd_mapping_cmd1_2.
+	{ 0x080C5D5D, 0x2D4 / 4, LPDDR4X_8GB_SAMSUNG_1Y_A }, // emc_mrw10.
-	{ 0x05030402, 0x284 / 4, DRAM_ID2(22) }, // emc_cmd_mapping_cmd2_0.
+	{ 0x0C0D0808, 0x2D8 / 4, LPDDR4X_8GB_SAMSUNG_1Y_A }, // emc_mrw12.
-	{ 0x1B1C0600, 0x288 / 4, DRAM_ID2(22) }, // emc_cmd_mapping_cmd2_1.
+	{ 0x0C0D0000, 0x2DC / 4, LPDDR4X_8GB_SAMSUNG_1Y_A }, // emc_mrw13.
-	{ 0x07252507, 0x28C / 4, DRAM_ID2(22) }, // emc_cmd_mapping_cmd2_2.
+	{ 0x08161414, 0x2E0 / 4, LPDDR4X_8GB_SAMSUNG_1Y_A }, // emc_mrw14.
-	{ 0x0C1D0B0A, 0x290 / 4, DRAM_ID2(22) }, // emc_cmd_mapping_cmd3_0.
+	{ 0x08010004, 0x2E4 / 4, LPDDR4X_8GB_SAMSUNG_1Y_A }, // emc_mrw_extra.
-	{ 0x0800090D, 0x294 / 4, DRAM_ID2(22) }, // emc_cmd_mapping_cmd3_1.
+	{ 0x00000000, 0x340 / 4, LPDDR4X_8GB_SAMSUNG_1Y_A }, // emc_dev_select. Both devices.
-	{ 0x0926261E, 0x298 / 4, DRAM_ID2(22) }, // emc_cmd_mapping_cmd3_2.
+	{ 0x35353535, 0x350 / 4, LPDDR4X_8GB_SAMSUNG_1Y_A }, // emc_pmacro_ib_vref_dq_0.
-	{ 0x2A080624, 0x29C / 4, DRAM_ID2(22) }, // emc_cmd_mapping_byte.
+	{ 0x35353535, 0x354 / 4, LPDDR4X_8GB_SAMSUNG_1Y_A }, // emc_pmacro_ib_vref_dq_1.
-	{ 0x88161414, 0x2E0 / 4, DRAM_ID2(22) }, // emc_mrw14.
+	{ 0x35353535, 0x358 / 4, LPDDR4X_8GB_SAMSUNG_1Y_A }, // emc_pmacro_ib_vref_dqs_0.
-	{ 0x80000713, 0x32C / 4, DRAM_ID2(22) }, // emc_dyn_self_ref_control.
+	{ 0x35353535, 0x35C / 4, LPDDR4X_8GB_SAMSUNG_1Y_A }, // emc_pmacro_ib_vref_dqs_1.
-	{ 0x00140010, 0x3AC / 4, DRAM_ID2(22) }, // emc_pmacro_ob_ddll_long_dq_rank0_4.
+	{ 0x00480048, 0x3FC / 4, LPDDR4X_8GB_SAMSUNG_1Y_A }, // emc_pmacro_ib_ddll_long_dqs_rank0_0.
-	{ 0x0013000B, 0x3B0 / 4, DRAM_ID2(22) }, // emc_pmacro_ob_ddll_long_dq_rank0_5.
+	{ 0x00480048, 0x400 / 4, LPDDR4X_8GB_SAMSUNG_1Y_A }, // emc_pmacro_ib_ddll_long_dqs_rank0_1.
-	{ 0x00140010, 0x3C4 / 4, DRAM_ID2(22) }, // emc_pmacro_ob_ddll_long_dq_rank1_4.
+	{ 0x00480048, 0x404 / 4, LPDDR4X_8GB_SAMSUNG_1Y_A }, // emc_pmacro_ib_ddll_long_dqs_rank0_2.
-	{ 0x0013000B, 0x3C8 / 4, DRAM_ID2(22) }, // emc_pmacro_ob_ddll_long_dq_rank1_5.
+	{ 0x00480048, 0x408 / 4, LPDDR4X_8GB_SAMSUNG_1Y_A }, // emc_pmacro_ib_ddll_long_dqs_rank0_3.
-	{ 0x00450047, 0x3CC / 4, DRAM_ID2(22) }, // emc_pmacro_ob_ddll_long_dqs_rank0_0.
+	{ 0x00480048, 0x40C / 4, LPDDR4X_8GB_SAMSUNG_1Y_A }, // emc_pmacro_ib_ddll_long_dqs_rank1_0.
-	{ 0x004D004F, 0x3D0 / 4, DRAM_ID2(22) }, // emc_pmacro_ob_ddll_long_dqs_rank0_1.
+	{ 0x00480048, 0x410 / 4, LPDDR4X_8GB_SAMSUNG_1Y_A }, // emc_pmacro_ib_ddll_long_dqs_rank1_1.
-	{ 0x00460046, 0x3D4 / 4, DRAM_ID2(22) }, // emc_pmacro_ob_ddll_long_dqs_rank0_2.
+	{ 0x00480048, 0x414 / 4, LPDDR4X_8GB_SAMSUNG_1Y_A }, // emc_pmacro_ib_ddll_long_dqs_rank1_2.
-	{ 0x00480048, 0x3D8 / 4, DRAM_ID2(22) }, // emc_pmacro_ob_ddll_long_dqs_rank0_3.
+	{ 0x00480048, 0x418 / 4, LPDDR4X_8GB_SAMSUNG_1Y_A }, // emc_pmacro_ib_ddll_long_dqs_rank1_3.
-	{ 0x000C0008, 0x3DC / 4, DRAM_ID2(22) }, // emc_pmacro_ob_ddll_long_dqs_rank0_4.
+	{ 0x0051004F, 0x450 / 4, LPDDR4X_8GB_SAMSUNG_1Y_A }, // emc_zcal_mrw_cmd.
-	{ 0x000B000C, 0x3E0 / 4, DRAM_ID2(22) }, // emc_pmacro_ob_ddll_long_dqs_rank0_5.
+	{ 0x40000001, 0x45C / 4, LPDDR4X_8GB_SAMSUNG_1Y_A }, // emc_zcal_init_dev1.
-	{ 0x00450047, 0x3E4 / 4, DRAM_ID2(22) }, // emc_pmacro_ob_ddll_long_dqs_rank1_0.
+	{ 0x00010100, 0x594 / 4, LPDDR4X_8GB_SAMSUNG_1Y_A }, // emc_pmacro_tx_pwrd4.
-	{ 0x004D004F, 0x3E8 / 4, DRAM_ID2(22) }, // emc_pmacro_ob_ddll_long_dqs_rank1_1.
+	{ 0x00400010, 0x598 / 4, LPDDR4X_8GB_SAMSUNG_1Y_A }, // emc_pmacro_tx_pwrd5.
-	{ 0x00460046, 0x3EC / 4, DRAM_ID2(22) }, // emc_pmacro_ob_ddll_long_dqs_rank1_2.
+	{ 0x00000001, 0x630 / 4, LPDDR4X_8GB_SAMSUNG_1Y_A }, // mc_emem_adr_cfg. 2 Ranks.
-	{ 0x00480048, 0x3F0 / 4, DRAM_ID2(22) }, // emc_pmacro_ob_ddll_long_dqs_rank1_3.
+	{ 0x00002000, 0x64C / 4, LPDDR4X_8GB_SAMSUNG_1Y_A }, // mc_emem_cfg. 8GB total density.
-	{ 0x000C0008, 0x3F4 / 4, DRAM_ID2(22) }, // emc_pmacro_ob_ddll_long_dqs_rank1_4.
+	{ 0x00000002, 0x670 / 4, LPDDR4X_8GB_SAMSUNG_1Y_A }, // mc_emem_arb_timing_faw.
-	{ 0x000B000C, 0x3F8 / 4, DRAM_ID2(22) }, // emc_pmacro_ob_ddll_long_dqs_rank1_5.
+	{ 0x00000002, 0x680 / 4, LPDDR4X_8GB_SAMSUNG_1Y_A }, // mc_emem_arb_timing_r2r.
-	{ 0x00100010, 0x41C / 4, DRAM_ID2(22) }, // emc_pmacro_ddll_long_cmd_0.
+	{ 0x02020001, 0x694 / 4, LPDDR4X_8GB_SAMSUNG_1Y_A }, // mc_emem_arb_da_turns.
-	{ 0x00140014, 0x420 / 4, DRAM_ID2(22) }, // emc_pmacro_ddll_long_cmd_1.
+*/
 	{ 0x00130013, 0x428 / 4, DRAM_ID2(22) }, // emc_pmacro_ddll_long_cmd_3.
 	{ 0x00000010, 0x42C / 4, DRAM_ID2(22) }, // emc_pmacro_ddll_long_cmd_4.
 	{ 0x40280100, 0x4B4 / 4, DRAM_ID2(22) }, // pmc_ddr_cfg.
 	{ 0x4F9F9FFF, 0x4B8 / 4, DRAM_ID2(22) }, // pmc_io_dpd3_req.
 	{ 0x64032157, 0x4D8 / 4, DRAM_ID2(22) }, // emc_swizzle_rank0_byte0.
 	{ 0x51320467, 0x4DC / 4, DRAM_ID2(22) }, // emc_swizzle_rank0_byte1.
 	{ 0x04735621, 0x4E0 / 4, DRAM_ID2(22) }, // emc_swizzle_rank0_byte2.
 	{ 0x47356012, 0x4E4 / 4, DRAM_ID2(22) }, // emc_swizzle_rank0_byte3.
 	{ 0x12045673, 0x4E8 / 4, DRAM_ID2(22) }, // emc_swizzle_rank1_byte0.
 	{ 0x43657210, 0x4EC / 4, DRAM_ID2(22) }, // emc_swizzle_rank1_byte1.
 	{ 0x65402137, 0x4F0 / 4, DRAM_ID2(22) }, // emc_swizzle_rank1_byte2.
 	{ 0x57302164, 0x4F4 / 4, DRAM_ID2(22) }, // emc_swizzle_rank1_byte3.
 	{ 0x4F9F9FFF, 0x534 / 4, DRAM_ID2(22) }, // emc_pmc_scratch1.
 	{ 0x4033CF1F, 0x53C / 4, DRAM_ID2(22) }, // emc_pmc_scratch3.
 	{ 0x10000000, 0x590 / 4, DRAM_ID2(22) }, // emc_pmacro_tx_pwrd3.
 	{ 0x00030108, 0x594 / 4, DRAM_ID2(22) }, // emc_pmacro_tx_pwrd4.
 	{ 0x01400050, 0x598 / 4, DRAM_ID2(22) }, // emc_pmacro_tx_pwrd5.
 	{ 0x29081081, 0x5A0 / 4, DRAM_ID2(22) }, // emc_pmacro_brick_mapping0.
 	{ 0x54A59332, 0x5A4 / 4, DRAM_ID2(22) }, // emc_pmacro_brick_mapping1.
 	{ 0x87766B4A, 0x5A8 / 4, DRAM_ID2(22) }, // emc_pmacro_brick_mapping2.
 	{ 0x00000001, 0x670 / 4, DRAM_ID2(22) }, // mc_emem_arb_timing_faw.
 	{ 0xE4FACB43, 0x6D4 / 4, DRAM_ID2(22) }, // mc_video_protect_vpr_override. + TSEC, NVENC.
 	{ 0x0600FED3, 0x6D8 / 4, DRAM_ID2(22) }, // mc_video_protect_vpr_override1. + TSECB, TSEC1, TSECB1.
 	{ 0x2A800000, 0x6DC / 4, DRAM_ID2(22) }, // mc_video_protect_gpu_override0.
 	{ 0x00000002, 0x6E0 / 4, DRAM_ID2(22) }, // mc_video_protect_gpu_override1.
 	{ 0x0000009C, 0x814 / 4, DRAM_ID2(22) }, // swizzle_rank_byte_encode.
-	// Micron LPDDR4X 4GB 10nm-class (1y) Die-A for Unknown Iowa/Hoag/SDS.
+	// Micron LPDDR4X 4GB MT53D1024M32D1NP-053-WT:F 10nm-class (1y-01) Die-F for Newer Iowa/Hoag/Aula.
-	{ 0x05500000, 0x0D4 / 4, DRAM_ID2(25) | DRAM_ID2(26) | DRAM_ID2(27) }, // emc_auto_cal_config2.
+	{ 0x05500000, 0x0D4 / 4, LPDDR4X_4GB_MICRON_MT53E512M32D2NP_046_WTF }, // emc_auto_cal_config2.
-	{ 0xC9AFBCBC, 0x0F4 / 4, DRAM_ID2(25) | DRAM_ID2(26) | DRAM_ID2(27) }, // emc_auto_cal_vref_sel0.
+	{ 0xC9AFBCBC, 0x0F4 / 4, LPDDR4X_4GB_MICRON_MT53E512M32D2NP_046_WTF }, // emc_auto_cal_vref_sel0.
-	{ 0x00000006, 0x1CC / 4, DRAM_ID2(25) | DRAM_ID2(26) | DRAM_ID2(27) }, // emc_quse.
+	{ 0x00000006, 0x1CC / 4, LPDDR4X_4GB_MICRON_MT53E512M32D2NP_046_WTF }, // emc_quse.
-	{ 0x00000005, 0x1D0 / 4, DRAM_ID2(25) | DRAM_ID2(26) | DRAM_ID2(27) }, // emc_quse_width.
+	{ 0x00000005, 0x1D0 / 4, LPDDR4X_4GB_MICRON_MT53E512M32D2NP_046_WTF }, // emc_quse_width.
-	{ 0x00000003, 0x1DC / 4, DRAM_ID2(25) | DRAM_ID2(26) | DRAM_ID2(27) }, // emc_einput.
+	{ 0x00000003, 0x1DC / 4, LPDDR4X_4GB_MICRON_MT53E512M32D2NP_046_WTF }, // emc_einput.
-	{ 0x0000000C, 0x1E0 / 4, DRAM_ID2(25) | DRAM_ID2(26) | DRAM_ID2(27) }, // emc_einput_duration.
+	{ 0x0000000C, 0x1E0 / 4, LPDDR4X_4GB_MICRON_MT53E512M32D2NP_046_WTF }, // emc_einput_duration.
-	{ 0x00000008, 0x24C / 4, DRAM_ID2(25) | DRAM_ID2(26) | DRAM_ID2(27) }, // emc_tfaw.
+	{ 0x00000008, 0x24C / 4, LPDDR4X_4GB_MICRON_MT53E512M32D2NP_046_WTF }, // emc_tfaw.
-	{ 0x88161414, 0x2E0 / 4, DRAM_ID2(25) | DRAM_ID2(26) | DRAM_ID2(27) }, // emc_mrw14.
+	{ 0x88161414, 0x2E0 / 4, LPDDR4X_4GB_MICRON_MT53E512M32D2NP_046_WTF }, // emc_mrw14.
-	{ 0x80000713, 0x32C / 4, DRAM_ID2(25) | DRAM_ID2(26) | DRAM_ID2(27) }, // emc_dyn_self_ref_control.
+	{ 0x80000713, 0x32C / 4, LPDDR4X_4GB_MICRON_MT53E512M32D2NP_046_WTF }, // emc_dyn_self_ref_control.
-	{ 0x00000001, 0x670 / 4, DRAM_ID2(25) | DRAM_ID2(26) | DRAM_ID2(27) }, // mc_emem_arb_timing_faw.
+	{ 0x00000001, 0x670 / 4, LPDDR4X_4GB_MICRON_MT53E512M32D2NP_046_WTF }, // mc_emem_arb_timing_faw.
-	{ 0x2A800000, 0x6DC / 4, DRAM_ID2(25) | DRAM_ID2(26) | DRAM_ID2(27) }, // mc_video_protect_gpu_override0.
+	{ 0x2A800000, 0x6DC / 4, LPDDR4X_4GB_MICRON_MT53E512M32D2NP_046_WTF }, // mc_video_protect_gpu_override0.
-	{ 0x00000002, 0x6E0 / 4, DRAM_ID2(25) | DRAM_ID2(26) | DRAM_ID2(27) }, // mc_video_protect_gpu_override1.
+	{ 0x00000002, 0x6E0 / 4, LPDDR4X_4GB_MICRON_MT53E512M32D2NP_046_WTF }, // mc_video_protect_gpu_override1.
 	// Hynix LPDDR4X 4GB 10nm-class (1y-01) Die-A for Unknown Iowa/Hoag/Aula.
 	{ 0x05500000, 0x0D4 / 4, LPDDR4X_4GB_HYNIX_1Y_A }, // emc_auto_cal_config2.
 	{ 0xC9AFBCBC, 0x0F4 / 4, LPDDR4X_4GB_HYNIX_1Y_A }, // emc_auto_cal_vref_sel0.
 	{ 0x00000006, 0x1CC / 4, LPDDR4X_4GB_HYNIX_1Y_A }, // emc_quse.
 	{ 0x00000005, 0x1D0 / 4, LPDDR4X_4GB_HYNIX_1Y_A }, // emc_quse_width.
 	{ 0x00000003, 0x1DC / 4, LPDDR4X_4GB_HYNIX_1Y_A }, // emc_einput.
 	{ 0x0000000C, 0x1E0 / 4, LPDDR4X_4GB_HYNIX_1Y_A }, // emc_einput_duration.
 	{ 0x00000008, 0x24C / 4, LPDDR4X_4GB_HYNIX_1Y_A }, // emc_tfaw.
 	{ 0x88161414, 0x2E0 / 4, LPDDR4X_4GB_HYNIX_1Y_A }, // emc_mrw14.
 	{ 0x80000713, 0x32C / 4, LPDDR4X_4GB_HYNIX_1Y_A }, // emc_dyn_self_ref_control.
 	{ 0x00000001, 0x670 / 4, LPDDR4X_4GB_HYNIX_1Y_A }, // mc_emem_arb_timing_faw.
 	{ 0xE4FACB43, 0x6D4 / 4, LPDDR4X_4GB_HYNIX_1Y_A }, // mc_video_protect_vpr_override. + TSEC, NVENC.
 	{ 0x0600FED3, 0x6D8 / 4, LPDDR4X_4GB_HYNIX_1Y_A }, // mc_video_protect_vpr_override1. + TSECB, TSEC1, TSECB1.
 	{ 0x2A800000, 0x6DC / 4, LPDDR4X_4GB_HYNIX_1Y_A }, // mc_video_protect_gpu_override0.
 	{ 0x00000002, 0x6E0 / 4, LPDDR4X_4GB_HYNIX_1Y_A }, // mc_video_protect_gpu_override1.
 	//!TODO: Too many duplicates.
 };
--- a/bdk/mem/sdram_lp0.c
+++ b/bdk/mem/sdram_lp0.c
@ -1125,408 +1125,408 @@ static void _sdram_lp0_save_params_t210(const void *params)
 	c32(0, scratch4);
 	s(PllMStableTime, 9:0, scratch4, 9:0);
 }
 /*
 #pragma GCC diagnostic ignored "-Wparentheses"
-// #pragma GCC diagnostic ignored "-Wparentheses"
+static void _sdram_lp0_save_params_t210b01(const void *params)
 {
 	struct sdram_params_t210b01 *sdram = (struct sdram_params_t210b01 *)params;
 	struct tegra_pmc_regs *pmc = (struct tegra_pmc_regs *)PMC_BASE;
-// static void _sdram_lp0_save_params_t210b01(const void *params)
+	u32 tmp = 0;
 // {
 // 	struct sdram_params_t210b01 *sdram = (struct sdram_params_t210b01 *)params;
 // 	struct tegra_pmc_regs *pmc = (struct tegra_pmc_regs *)PMC_BASE;
-// 	u32 tmp = 0;
+	sdram->mc_generalized_carveout1_cfg0 = 0;
 	sdram->mc_generalized_carveout2_cfg0 = 0;
 	sdram->mc_generalized_carveout3_cfg0 = 0;
 	sdram->mc_generalized_carveout4_cfg0 = 0;
 	sdram->mc_generalized_carveout5_cfg0 = 0;
-// 	sdram->mc_generalized_carveout1_cfg0 = 0;
+	// Patch SDRAM parameters.
-// 	sdram->mc_generalized_carveout2_cfg0 = 0;
+	u32 t0 = sdram->emc_swizzle_rank0_byte0 << 5 >> 29 > sdram->emc_swizzle_rank0_byte0 << 1 >> 29;
-// 	sdram->mc_generalized_carveout3_cfg0 = 0;
+	u32 t1 = (t0 & 0xFFFFFFEF) | ((sdram->emc_swizzle_rank1_byte0 << 5 >> 29 > sdram->emc_swizzle_rank1_byte0 << 1 >> 29) << 4);
-// 	sdram->mc_generalized_carveout4_cfg0 = 0;
+	u32 t2 = (t1 & 0xFFFFFFFD) | ((sdram->emc_swizzle_rank0_byte1 << 5 >> 29 > sdram->emc_swizzle_rank0_byte1 << 1 >> 29) << 1);
-// 	sdram->mc_generalized_carveout5_cfg0 = 0;
+	u32 t3 = (t2 & 0xFFFFFFDF) | ((sdram->emc_swizzle_rank1_byte1 << 5 >> 29 > sdram->emc_swizzle_rank1_byte1 << 1 >> 29) << 5);
 	u32 t4 = (t3 & 0xFFFFFFFB) | ((sdram->emc_swizzle_rank0_byte2 << 5 >> 29 > sdram->emc_swizzle_rank0_byte2 << 1 >> 29) << 2);
 	u32 t5 = (t4 & 0xFFFFFFBF) | ((sdram->emc_swizzle_rank1_byte2 << 5 >> 29 > sdram->emc_swizzle_rank1_byte2 << 1 >> 29) << 6);
 	u32 t6 = (t5 & 0xFFFFFFF7) | ((sdram->emc_swizzle_rank0_byte3 << 5 >> 29 > sdram->emc_swizzle_rank0_byte3 << 1 >> 29) << 3);
 	u32 t7 = (t6 & 0xFFFFFF7F) | ((sdram->emc_swizzle_rank1_byte3 << 5 >> 29 > sdram->emc_swizzle_rank1_byte3 << 1 >> 29) << 7);
 	sdram->swizzle_rank_byte_encode = t7;
 	sdram->emc_bct_spare2 = 0x40000DD8;
 	sdram->emc_bct_spare3 = t7;
-// 	// Patch SDRAM parameters.
+	s(emc_clock_source, 7:0, scratch6, 15:8);
-// 	u32 t0 = sdram->emc_swizzle_rank0_byte0 << 5 >> 29 > sdram->emc_swizzle_rank0_byte0 << 1 >> 29;
+	s(emc_clock_source_dll, 7:0, scratch6, 23:16);
-// 	u32 t1 = (t0 & 0xFFFFFFEF) | ((sdram->emc_swizzle_rank1_byte0 << 5 >> 29 > sdram->emc_swizzle_rank1_byte0 << 1 >> 29) << 4);
+	s(emc_clock_source, 31:29, scratch6, 26:24);
-// 	u32 t2 = (t1 & 0xFFFFFFFD) | ((sdram->emc_swizzle_rank0_byte1 << 5 >> 29 > sdram->emc_swizzle_rank0_byte1 << 1 >> 29) << 1);
+	s(emc_clock_source_dll, 31:29, scratch6, 29:27);
-// 	u32 t3 = (t2 & 0xFFFFFFDF) | ((sdram->emc_swizzle_rank1_byte1 << 5 >> 29 > sdram->emc_swizzle_rank1_byte1 << 1 >> 29) << 5);
+	s(emc_clock_source_dll, 11:10, scratch6, 31:30);
-// 	u32 t4 = (t3 & 0xFFFFFFFB) | ((sdram->emc_swizzle_rank0_byte2 << 5 >> 29 > sdram->emc_swizzle_rank0_byte2 << 1 >> 29) << 2);
+	pmc->scratch7 = (sdram->emc_rc << 24) | ((sdram->emc_zqcal_lpddr4_warm_boot << 27 >> 31 << 23) | ((sdram->emc_zqcal_lpddr4_warm_boot << 30 >> 31 << 22) | ((sdram->emc_zqcal_lpddr4_warm_boot << 21) & 0x3FFFFF | ((sdram->clk_rst_pllm_misc20_override << 20) & 0x1FFFFF | ((sdram->clk_rst_pllm_misc20_override << 28 >> 31 << 19) | ((sdram->clk_rst_pllm_misc20_override << 27 >> 31 << 18) | ((sdram->clk_rst_pllm_misc20_override << 26 >> 31 << 17) | ((sdram->clk_rst_pllm_misc20_override << 21 >> 31 << 16) | ((sdram->clk_rst_pllm_misc20_override << 20 >> 31 << 15) | ((sdram->clk_rst_pllm_misc20_override << 19 >> 31 << 14) | ((sdram->clk_rst_pllm_misc20_override << 18 >> 31 << 13) | ((sdram->emc_clock_source << 15 >> 31 << 12) | ((sdram->emc_clock_source << 11 >> 31 << 11) | ((sdram->emc_clock_source << 12 >> 31 << 10) | ((sdram->emc_clock_source << 6 >> 31 << 9) | ((sdram->emc_clock_source << 16 >> 31 << 8) | ((32 * sdram->emc_clock_source >> 31 << 7) | ((16 * sdram->emc_clock_source >> 31 << 6) | (16 * (sdram->emc_zqcal_lpddr4_warm_boot >> 30) | (4 * (sdram->clk_rst_pllm_misc20_override << 29 >> 30) | ((sdram->clk_rst_pllm_misc20_override << 22 >> 30) | 4 * (pmc->scratch7 >> 2)) & 0xFFFFFFF3) & 0xFFFFFFCF) & 0xFFFFFFBF) & 0xFFFFFF7F) & 0xFFFFFEFF) & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFFEFFFF) & 0xFFFDFFFF) & 0xFFFBFFFF) & 0xFFF7FFFF) & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0xFFFFFF;
-// 	u32 t5 = (t4 & 0xFFFFFFBF) | ((sdram->emc_swizzle_rank1_byte2 << 5 >> 29 > sdram->emc_swizzle_rank1_byte2 << 1 >> 29) << 6);
+	pmc->scratch8 = (sdram->emc_pmacro_bg_bias_ctrl0 << 18 >> 30 << 30) | ((4 * pmc->scratch8) >> 2);
-// 	u32 t6 = (t5 & 0xFFFFFFF7) | ((sdram->emc_swizzle_rank0_byte3 << 5 >> 29 > sdram->emc_swizzle_rank0_byte3 << 1 >> 29) << 3);
+	pmc->scratch14 = ((u8)(sdram->emc_cfg_pipe_clk) << 31) | (2 * (((u8)(sdram->emc_fdpd_ctrl_cmd_no_ramp) << 30) | pmc->scratch14 & 0xBFFFFFFF) >> 1);
-// 	u32 t7 = (t6 & 0xFFFFFF7F) | ((sdram->emc_swizzle_rank1_byte3 << 5 >> 29 > sdram->emc_swizzle_rank1_byte3 << 1 >> 29) << 7);
+	s(emc_qrst, 6:0, scratch15, 26:20);
-// 	sdram->swizzle_rank_byte_encode = t7;
+	s(emc_qrst, 20:16, scratch15, 31:27);
-// 	sdram->emc_bct_spare2 = 0x40000DD8;
+	s(emc_pmacro_cmd_tx_drive, 5:0, scratch16, 25:20);
-// 	sdram->emc_bct_spare3 = t7;
+	s(emc_pmacro_cmd_tx_drive, 13:8, scratch16, 31:26);
 	pmc->scratch17 = (16 * sdram->emc_fbio_cfg8 >> 31 << 31) | (2 * ((32 * sdram->emc_fbio_cfg8 >> 31 << 30) | ((sdram->emc_fbio_cfg8 << 6 >> 31 << 29) | ((sdram->emc_fbio_cfg8 << 7 >> 31 << 28) | ((sdram->emc_fbio_cfg8 << 8 >> 31 << 27) | ((sdram->emc_fbio_cfg8 << 9 >> 31 << 26) | ((sdram->emc_fbio_cfg8 << 10 >> 31 << 25) | ((sdram->emc_fbio_cfg8 << 11 >> 31 << 24) | ((sdram->emc_fbio_cfg8 << 12 >> 31 << 23) | ((sdram->emc_fbio_cfg8 << 13 >> 31 << 22) | ((sdram->emc_fbio_cfg8 << 14 >> 31 << 21) | ((sdram->emc_fbio_cfg8 << 15 >> 31 << 20) | pmc->scratch17 & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0xFEFFFFFF) & 0xFDFFFFFF) & 0xFBFFFFFF) & 0xF7FFFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 	pmc->scratch18 = ((u16)(sdram->emc_txsr_dll) << 20) | pmc->scratch18 & 0xFFFFF;
 	pmc->scratch19 = (sdram->emc_txdsrvttgen << 20) | pmc->scratch19 & 0xFFFFF;
 	s32(emc_cfg_rsv, scratch22);
 	s32(emc_auto_cal_config, scratch23);
 	s32(emc_auto_cal_vref_sel0, scratch24);
 	s32(emc_pmacro_brick_ctrl_rfu1, scratch25);
 	s32(emc_pmacro_brick_ctrl_rfu2, scratch26);
 	s32(emc_pmc_scratch1, scratch27);
 	s32(emc_pmc_scratch2, scratch28);
 	s32(emc_pmc_scratch3, scratch29);
 	pmc->scratch30 = (sdram->emc_pmacro_perbit_rfu_ctrl0 >> 30 << 30) | (4 * ((4 * sdram->emc_pmacro_perbit_rfu_ctrl0 >> 30 << 28) | ((16 * sdram->emc_pmacro_perbit_rfu_ctrl0 >> 30 << 26) | ((sdram->emc_pmacro_perbit_rfu_ctrl0 << 6 >> 30 << 24) | ((sdram->emc_pmacro_perbit_rfu_ctrl0 << 8 >> 30 << 22) | ((sdram->emc_pmacro_perbit_rfu_ctrl0 << 10 >> 30 << 20) | ((sdram->emc_pmacro_perbit_rfu_ctrl0 << 12 >> 30 << 18) | ((sdram->emc_pmacro_perbit_rfu_ctrl0 << 14 >> 30 << 16) | ((sdram->emc_pmacro_perbit_rfu_ctrl0 << 16 >> 30 << 14) | ((sdram->emc_pmacro_perbit_rfu_ctrl0 << 18 >> 30 << 12) | ((sdram->emc_pmacro_perbit_rfu_ctrl0 << 20 >> 30 << 10) | ((sdram->emc_pmacro_perbit_rfu_ctrl0 << 22 >> 30 << 8) | ((sdram->emc_pmacro_perbit_rfu_ctrl0 << 24 >> 30 << 6) | (16 * (sdram->emc_pmacro_perbit_rfu_ctrl0 << 26 >> 30) | (4 * (sdram->emc_pmacro_perbit_rfu_ctrl0 << 28 >> 30) | (sdram->emc_pmacro_perbit_rfu_ctrl0 & 3 | 4 * (pmc->scratch30 >> 2)) & 0xFFFFFFF3) & 0xFFFFFFCF) & 0xFFFFFF3F) & 0xFFFFFCFF) & 0xFFFFF3FF) & 0xFFFFCFFF) & 0xFFFF3FFF) & 0xFFFCFFFF) & 0xFFF3FFFF) & 0xFFCFFFFF) & 0xFF3FFFFF) & 0xFCFFFFFF) & 0xF3FFFFFF) & 0xCFFFFFFF) >> 2);
 	pmc->scratch31 = (sdram->emc_pmacro_perbit_rfu_ctrl1 >> 30 << 30) | (4 * ((4 * sdram->emc_pmacro_perbit_rfu_ctrl1 >> 30 << 28) | ((16 * sdram->emc_pmacro_perbit_rfu_ctrl1 >> 30 << 26) | ((sdram->emc_pmacro_perbit_rfu_ctrl1 << 6 >> 30 << 24) | ((sdram->emc_pmacro_perbit_rfu_ctrl1 << 8 >> 30 << 22) | ((sdram->emc_pmacro_perbit_rfu_ctrl1 << 10 >> 30 << 20) | ((sdram->emc_pmacro_perbit_rfu_ctrl1 << 12 >> 30 << 18) | ((sdram->emc_pmacro_perbit_rfu_ctrl1 << 14 >> 30 << 16) | ((sdram->emc_pmacro_perbit_rfu_ctrl1 << 16 >> 30 << 14) | ((sdram->emc_pmacro_perbit_rfu_ctrl1 << 18 >> 30 << 12) | ((sdram->emc_pmacro_perbit_rfu_ctrl1 << 20 >> 30 << 10) | ((sdram->emc_pmacro_perbit_rfu_ctrl1 << 22 >> 30 << 8) | ((sdram->emc_pmacro_perbit_rfu_ctrl1 << 24 >> 30 << 6) | (16 * (sdram->emc_pmacro_perbit_rfu_ctrl1 << 26 >> 30) | (4 * (sdram->emc_pmacro_perbit_rfu_ctrl1 << 28 >> 30) | (sdram->emc_pmacro_perbit_rfu_ctrl1 & 3 | 4 * (pmc->scratch31 >> 2)) & 0xFFFFFFF3) & 0xFFFFFFCF) & 0xFFFFFF3F) & 0xFFFFFCFF) & 0xFFFFF3FF) & 0xFFFFCFFF) & 0xFFFF3FFF) & 0xFFFCFFFF) & 0xFFF3FFFF) & 0xFFCFFFFF) & 0xFF3FFFFF) & 0xFCFFFFFF) & 0xF3FFFFFF) & 0xCFFFFFFF) >> 2);
 	pmc->scratch32 = (sdram->emc_pmacro_perbit_rfu_ctrl2 >> 30 << 30) | (4 * ((4 * sdram->emc_pmacro_perbit_rfu_ctrl2 >> 30 << 28) | ((16 * sdram->emc_pmacro_perbit_rfu_ctrl2 >> 30 << 26) | ((sdram->emc_pmacro_perbit_rfu_ctrl2 << 6 >> 30 << 24) | ((sdram->emc_pmacro_perbit_rfu_ctrl2 << 8 >> 30 << 22) | ((sdram->emc_pmacro_perbit_rfu_ctrl2 << 10 >> 30 << 20) | ((sdram->emc_pmacro_perbit_rfu_ctrl2 << 12 >> 30 << 18) | ((sdram->emc_pmacro_perbit_rfu_ctrl2 << 14 >> 30 << 16) | ((sdram->emc_pmacro_perbit_rfu_ctrl2 << 16 >> 30 << 14) | ((sdram->emc_pmacro_perbit_rfu_ctrl2 << 18 >> 30 << 12) | ((sdram->emc_pmacro_perbit_rfu_ctrl2 << 20 >> 30 << 10) | ((sdram->emc_pmacro_perbit_rfu_ctrl2 << 22 >> 30 << 8) | ((sdram->emc_pmacro_perbit_rfu_ctrl2 << 24 >> 30 << 6) | (16 * (sdram->emc_pmacro_perbit_rfu_ctrl2 << 26 >> 30) | (4 * (sdram->emc_pmacro_perbit_rfu_ctrl2 << 28 >> 30) | (sdram->emc_pmacro_perbit_rfu_ctrl2 & 3 | 4 * (pmc->scratch32 >> 2)) & 0xFFFFFFF3) & 0xFFFFFFCF) & 0xFFFFFF3F) & 0xFFFFFCFF) & 0xFFFFF3FF) & 0xFFFFCFFF) & 0xFFFF3FFF) & 0xFFFCFFFF) & 0xFFF3FFFF) & 0xFFCFFFFF) & 0xFF3FFFFF) & 0xFCFFFFFF) & 0xF3FFFFFF) & 0xCFFFFFFF) >> 2);
 	pmc->scratch33 = (sdram->emc_pmacro_perbit_rfu_ctrl3 >> 30 << 30) | (4 * ((4 * sdram->emc_pmacro_perbit_rfu_ctrl3 >> 30 << 28) | ((16 * sdram->emc_pmacro_perbit_rfu_ctrl3 >> 30 << 26) | ((sdram->emc_pmacro_perbit_rfu_ctrl3 << 6 >> 30 << 24) | ((sdram->emc_pmacro_perbit_rfu_ctrl3 << 8 >> 30 << 22) | ((sdram->emc_pmacro_perbit_rfu_ctrl3 << 10 >> 30 << 20) | ((sdram->emc_pmacro_perbit_rfu_ctrl3 << 12 >> 30 << 18) | ((sdram->emc_pmacro_perbit_rfu_ctrl3 << 14 >> 30 << 16) | ((sdram->emc_pmacro_perbit_rfu_ctrl3 << 16 >> 30 << 14) | ((sdram->emc_pmacro_perbit_rfu_ctrl3 << 18 >> 30 << 12) | ((sdram->emc_pmacro_perbit_rfu_ctrl3 << 20 >> 30 << 10) | ((sdram->emc_pmacro_perbit_rfu_ctrl3 << 22 >> 30 << 8) | ((sdram->emc_pmacro_perbit_rfu_ctrl3 << 24 >> 30 << 6) | (16 * (sdram->emc_pmacro_perbit_rfu_ctrl3 << 26 >> 30) | (4 * (sdram->emc_pmacro_perbit_rfu_ctrl3 << 28 >> 30) | (sdram->emc_pmacro_perbit_rfu_ctrl3 & 3 | 4 * (pmc->scratch33 >> 2)) & 0xFFFFFFF3) & 0xFFFFFFCF) & 0xFFFFFF3F) & 0xFFFFFCFF) & 0xFFFFF3FF) & 0xFFFFCFFF) & 0xFFFF3FFF) & 0xFFFCFFFF) & 0xFFF3FFFF) & 0xFFCFFFFF) & 0xFF3FFFFF) & 0xFCFFFFFF) & 0xF3FFFFFF) & 0xCFFFFFFF) >> 2);
 	pmc->scratch40 = (sdram->emc_pmacro_perbit_rfu_ctrl4 >> 30 << 30) | (4 * ((4 * sdram->emc_pmacro_perbit_rfu_ctrl4 >> 30 << 28) | ((16 * sdram->emc_pmacro_perbit_rfu_ctrl4 >> 30 << 26) | ((sdram->emc_pmacro_perbit_rfu_ctrl4 << 6 >> 30 << 24) | ((sdram->emc_pmacro_perbit_rfu_ctrl4 << 8 >> 30 << 22) | ((sdram->emc_pmacro_perbit_rfu_ctrl4 << 10 >> 30 << 20) | ((sdram->emc_pmacro_perbit_rfu_ctrl4 << 12 >> 30 << 18) | ((sdram->emc_pmacro_perbit_rfu_ctrl4 << 14 >> 30 << 16) | ((sdram->emc_pmacro_perbit_rfu_ctrl4 << 16 >> 30 << 14) | ((sdram->emc_pmacro_perbit_rfu_ctrl4 << 18 >> 30 << 12) | ((sdram->emc_pmacro_perbit_rfu_ctrl4 << 20 >> 30 << 10) | ((sdram->emc_pmacro_perbit_rfu_ctrl4 << 22 >> 30 << 8) | ((sdram->emc_pmacro_perbit_rfu_ctrl4 << 24 >> 30 << 6) | (16 * (sdram->emc_pmacro_perbit_rfu_ctrl4 << 26 >> 30) | (4 * (sdram->emc_pmacro_perbit_rfu_ctrl4 << 28 >> 30) | (sdram->emc_pmacro_perbit_rfu_ctrl4 & 3 | 4 * (pmc->scratch40 >> 2)) & 0xFFFFFFF3) & 0xFFFFFFCF) & 0xFFFFFF3F) & 0xFFFFFCFF) & 0xFFFFF3FF) & 0xFFFFCFFF) & 0xFFFF3FFF) & 0xFFFCFFFF) & 0xFFF3FFFF) & 0xFFCFFFFF) & 0xFF3FFFFF) & 0xFCFFFFFF) & 0xF3FFFFFF) & 0xCFFFFFFF) >> 2);
 	pmc->scratch42 = (sdram->emc_pmacro_perbit_rfu_ctrl5 >> 30 << 30) | (4 * ((4 * sdram->emc_pmacro_perbit_rfu_ctrl5 >> 30 << 28) | ((16 * sdram->emc_pmacro_perbit_rfu_ctrl5 >> 30 << 26) | ((sdram->emc_pmacro_perbit_rfu_ctrl5 << 6 >> 30 << 24) | ((sdram->emc_pmacro_perbit_rfu_ctrl5 << 8 >> 30 << 22) | ((sdram->emc_pmacro_perbit_rfu_ctrl5 << 10 >> 30 << 20) | ((sdram->emc_pmacro_perbit_rfu_ctrl5 << 12 >> 30 << 18) | ((sdram->emc_pmacro_perbit_rfu_ctrl5 << 14 >> 30 << 16) | ((sdram->emc_pmacro_perbit_rfu_ctrl5 << 16 >> 30 << 14) | ((sdram->emc_pmacro_perbit_rfu_ctrl5 << 18 >> 30 << 12) | ((sdram->emc_pmacro_perbit_rfu_ctrl5 << 20 >> 30 << 10) | ((sdram->emc_pmacro_perbit_rfu_ctrl5 << 22 >> 30 << 8) | ((sdram->emc_pmacro_perbit_rfu_ctrl5 << 24 >> 30 << 6) | (16 * (sdram->emc_pmacro_perbit_rfu_ctrl5 << 26 >> 30) | (4 * (sdram->emc_pmacro_perbit_rfu_ctrl5 << 28 >> 30) | (sdram->emc_pmacro_perbit_rfu_ctrl5 & 3 | 4 * (pmc->scratch42 >> 2)) & 0xFFFFFFF3) & 0xFFFFFFCF) & 0xFFFFFF3F) & 0xFFFFFCFF) & 0xFFFFF3FF) & 0xFFFFCFFF) & 0xFFFF3FFF) & 0xFFFCFFFF) & 0xFFF3FFFF) & 0xFFCFFFFF) & 0xFF3FFFFF) & 0xFCFFFFFF) & 0xF3FFFFFF) & 0xCFFFFFFF) >> 2);
 	pmc->scratch44 = (sdram->mc_emem_arb_da_turns >> 24 << 24) | ((sdram->mc_emem_arb_da_turns >> 16 << 16) | ((sdram->mc_emem_arb_da_turns << 16 >> 24 << 8) | (sdram->mc_emem_arb_da_turns & 0xFF | (pmc->scratch44 >> 8 << 8)) & 0xFFFF00FF) & 0xFF00FFFF) & 0xFFFFFF;
 	pmc->scratch64 = ((u16)(sdram->mc_emem_arb_misc2) << 31) | (2 * ((sdram->emc_fbio_spare << 30) | ((sdram->emc_fbio_spare << 24 >> 26 << 24) | ((sdram->emc_fbio_spare << 16 >> 24 << 16) | ((sdram->emc_fbio_spare << 8 >> 24 << 8) | ((sdram->emc_fbio_spare >> 24) | (pmc->scratch64 >> 8 << 8)) & 0xFFFF00FF) & 0xFF00FFFF) & 0xC0FFFFFF) & 0xBFFFFFFF) >> 1);
 	pmc->scratch65 = ((u16)(sdram->mc_da_cfg0) << 31 >> 1) | ((2 * sdram->mc_emem_arb_misc0 >> 29 << 27) | ((16 * sdram->mc_emem_arb_misc0 >> 31 << 26) | ((32 * sdram->mc_emem_arb_misc0 >> 26 << 20) | ((sdram->mc_emem_arb_misc0 << 11 >> 27 << 15) | ((sdram->mc_emem_arb_misc0 << 17 >> 25 << 8) | ((u8)sdram->mc_emem_arb_misc0 | (pmc->scratch65 >> 8 << 8)) & 0xFFFF80FF) & 0xFFF07FFF) & 0xFC0FFFFF) & 0xFBFFFFFF) & 0xC7FFFFFF) & 0xBFFFFFFF;
 	pmc->scratch66 = (sdram->emc_fdpd_ctrl_cmd >> 30 << 27) | ((4 * sdram->emc_fdpd_ctrl_cmd >> 31 << 26) | ((8 * sdram->emc_fdpd_ctrl_cmd >> 27 << 21) | ((sdram->emc_fdpd_ctrl_cmd << 8 >> 28 << 17) | ((sdram->emc_fdpd_ctrl_cmd << 15 >> 27 << 12) | ((sdram->emc_fdpd_ctrl_cmd << 20 >> 28 << 8) | ((u8)sdram->emc_fdpd_ctrl_cmd | (pmc->scratch66 >> 8 << 8)) & 0xFFFFF0FF) & 0xFFFE0FFF) & 0xFFE1FFFF) & 0xFC1FFFFF) & 0xFBFFFFFF) & 0xE7FFFFFF;
 	pmc->scratch67 = ((u8)(sdram->emc_burst_refresh_num) << 28) | ((16 * sdram->emc_auto_cal_config2 >> 30 << 26) | ((sdram->emc_auto_cal_config2 << 6 >> 30 << 24) | ((sdram->emc_auto_cal_config2 << 8 >> 30 << 22) | ((sdram->emc_auto_cal_config2 << 10 >> 30 << 20) | ((sdram->emc_auto_cal_config2 << 12 >> 30 << 18) | ((sdram->emc_auto_cal_config2 << 14 >> 30 << 16) | ((sdram->emc_auto_cal_config2 << 16 >> 30 << 14) | ((sdram->emc_auto_cal_config2 << 18 >> 30 << 12) | ((sdram->emc_auto_cal_config2 << 20 >> 30 << 10) | ((sdram->emc_auto_cal_config2 << 22 >> 30 << 8) | ((sdram->emc_auto_cal_config2 << 24 >> 30 << 6) | (16 * (sdram->emc_auto_cal_config2 << 26 >> 30) | (4 * (sdram->emc_auto_cal_config2 << 28 >> 30) | (sdram->emc_auto_cal_config2 & 3 | 4 * (pmc->scratch67 >> 2)) & 0xFFFFFFF3) & 0xFFFFFFCF) & 0xFFFFFF3F) & 0xFFFFFCFF) & 0xFFFFF3FF) & 0xFFFFCFFF) & 0xFFFF3FFF) & 0xFFFCFFFF) & 0xFFF3FFFF) & 0xFFCFFFFF) & 0xFF3FFFFF) & 0xFCFFFFFF) & 0xF3FFFFFF) & 0xFFFFFFF;
 	pmc->scratch68 = ((u8)(sdram->emc_tppd) << 28) | ((sdram->emc_cfg_dig_dll >> 31 << 27) | ((2 * sdram->emc_cfg_dig_dll >> 31 << 26) | ((16 * sdram->emc_cfg_dig_dll >> 31 << 25) | ((sdram->emc_cfg_dig_dll << 6 >> 22 << 15) | ((sdram->emc_cfg_dig_dll << 16 >> 31 << 14) | ((sdram->emc_cfg_dig_dll << 17 >> 31 << 13) | ((sdram->emc_cfg_dig_dll << 18 >> 30 << 11) | ((sdram->emc_cfg_dig_dll << 21 >> 29 << 8) | ((sdram->emc_cfg_dig_dll << 24 >> 30 << 6) | (32 * (sdram->emc_cfg_dig_dll << 26 >> 31) | (16 * (sdram->emc_cfg_dig_dll << 27 >> 31) | (8 * (sdram->emc_cfg_dig_dll << 28 >> 31) | (4 * (sdram->emc_cfg_dig_dll << 29 >> 31) | (2 * (sdram->emc_cfg_dig_dll << 30 >> 31) | (sdram->emc_cfg_dig_dll & 1 | 2 * (pmc->scratch68 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFF3F) & 0xFFFFF8FF) & 0xFFFFE7FF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFE007FFF) & 0xFDFFFFFF) & 0xFBFFFFFF) & 0xF7FFFFFF) & 0xFFFFFFF;
 	pmc->scratch69 = (sdram->emc_r2r << 28) | ((sdram->emc_fdpd_ctrl_dq >> 30 << 26) | ((8 * sdram->emc_fdpd_ctrl_dq >> 27 << 21) | ((sdram->emc_fdpd_ctrl_dq << 8 >> 28 << 17) | ((sdram->emc_fdpd_ctrl_dq << 15 >> 27 << 12) | ((sdram->emc_fdpd_ctrl_dq << 20 >> 28 << 8) | ((u8)sdram->emc_fdpd_ctrl_dq | (pmc->scratch69 >> 8 << 8)) & 0xFFFFF0FF) & 0xFFFE0FFF) & 0xFFE1FFFF) & 0xFC1FFFFF) & 0xF3FFFFFF) & 0xFFFFFFF;
 	pmc->scratch70 = (sdram->emc_w2w << 28) | ((2 * sdram->emc_pmacro_ib_vref_dq_0 >> 25 << 21) | ((sdram->emc_pmacro_ib_vref_dq_0 << 9 >> 25 << 14) | ((sdram->emc_pmacro_ib_vref_dq_0 << 17 >> 25 << 7) | (sdram->emc_pmacro_ib_vref_dq_0 & 0x7F | (pmc->scratch70 >> 7 << 7)) & 0xFFFFC07F) & 0xFFE03FFF) & 0xF01FFFFF) & 0xFFFFFFF;
 	pmc->scratch71 = (sdram->emc_pmacro_vttgen_ctrl0 << 12 >> 28 << 28) | ((2 * sdram->emc_pmacro_ib_vref_dq_1 >> 25 << 21) | ((sdram->emc_pmacro_ib_vref_dq_1 << 9 >> 25 << 14) | ((sdram->emc_pmacro_ib_vref_dq_1 << 17 >> 25 << 7) | ((pmc->scratch71 >> 7 << 7) | sdram->emc_pmacro_ib_vref_dq_1 & 0x7F) & 0xFFFFC07F) & 0xFFE03FFF) & 0xF01FFFFF) & 0xFFFFFFF;
 	pmc->scratch72 = (((sdram->emc_pmacro_ib_vref_dqs_0 << 17 >> 25 << 7) | ((pmc->scratch72 >> 7 << 7) | sdram->emc_pmacro_ib_vref_dqs_0 & 0x7F) & 0xFFFFC07F) & 0xFFE03FFF | (sdram->emc_pmacro_ib_vref_dqs_0 << 9 >> 25 << 14)) & 0xF01FFFFF | (2 * sdram->emc_pmacro_ib_vref_dqs_0 >> 25 << 21);
 	pmc->scratch73 = (2 * sdram->emc_pmacro_ib_vref_dqs_1 >> 25 << 21) | ((sdram->emc_pmacro_ib_vref_dqs_1 << 9 >> 25 << 14) | ((sdram->emc_pmacro_ib_vref_dqs_1 << 17 >> 25 << 7) | ((pmc->scratch73 >> 7 << 7) | sdram->emc_pmacro_ib_vref_dqs_1 & 0x7F) & 0xFFFFC07F) & 0xFFE03FFF) & 0xF01FFFFF;
 	pmc->scratch74 = (2 * sdram->emc_pmacro_ddll_short_cmd_0 >> 25 << 21) | ((sdram->emc_pmacro_ddll_short_cmd_0 << 9 >> 25 << 14) | ((sdram->emc_pmacro_ddll_short_cmd_0 << 17 >> 25 << 7) | (sdram->emc_pmacro_ddll_short_cmd_0 & 0x7F | (pmc->scratch74 >> 7 << 7)) & 0xFFFFC07F) & 0xFFE03FFF) & 0xF01FFFFF;
 	pmc->scratch75 = (2 * sdram->emc_pmacro_ddll_short_cmd_1 >> 25 << 21) | ((sdram->emc_pmacro_ddll_short_cmd_1 << 9 >> 25 << 14) | ((sdram->emc_pmacro_ddll_short_cmd_1 << 17 >> 25 << 7) | (sdram->emc_pmacro_ddll_short_cmd_1 & 0x7F | (pmc->scratch75 >> 7 << 7)) & 0xFFFFC07F) & 0xFFE03FFF) & 0xF01FFFFF;
 	pmc->scratch76 = (sdram->emc_rp << 26) | ((4 * sdram->emc_dll_cfg0 >> 31 << 25) | ((8 * sdram->emc_dll_cfg0 >> 31 << 24) | ((16 * sdram->emc_dll_cfg0 >> 28 << 20) | ((sdram->emc_dll_cfg0 << 8 >> 28 << 16) | ((sdram->emc_dll_cfg0 << 12 >> 28 << 12) | ((sdram->emc_dll_cfg0 << 16 >> 28 << 8) | ((sdram->emc_dll_cfg0 << 20 >> 24) | (pmc->scratch76 >> 8 << 8)) & 0xFFFFF0FF) & 0xFFFF0FFF) & 0xFFF0FFFF) & 0xFF0FFFFF) & 0xFEFFFFFF) & 0xFDFFFFFF) & 0x3FFFFFF;
 	tmp = (sdram->emc_pmacro_tx_pwrd0 << 12 >> 31 << 16) | ((sdram->emc_pmacro_tx_pwrd0 << 13 >> 31 << 15) | ((sdram->emc_pmacro_tx_pwrd0 << 14 >> 31 << 14) | ((sdram->emc_pmacro_tx_pwrd0 << 15 >> 31 << 13) | ((sdram->emc_pmacro_tx_pwrd0 << 18 >> 31 << 12) | ((sdram->emc_pmacro_tx_pwrd0 << 19 >> 31 << 11) | ((sdram->emc_pmacro_tx_pwrd0 << 21 >> 31 << 10) | ((sdram->emc_pmacro_tx_pwrd0 << 22 >> 31 << 9) | ((sdram->emc_pmacro_tx_pwrd0 << 23 >> 31 << 8) | ((sdram->emc_pmacro_tx_pwrd0 << 24 >> 31 << 7) | ((sdram->emc_pmacro_tx_pwrd0 << 25 >> 31 << 6) | (32 * (sdram->emc_pmacro_tx_pwrd0 << 26 >> 31) | (16 * (sdram->emc_pmacro_tx_pwrd0 << 27 >> 31) | (8 * (sdram->emc_pmacro_tx_pwrd0 << 28 >> 31) | (4 * (sdram->emc_pmacro_tx_pwrd0 << 29 >> 31) | (2 * (sdram->emc_pmacro_tx_pwrd0 << 30 >> 31) | (sdram->emc_pmacro_tx_pwrd0 & 1 | 2 * (pmc->scratch77 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFFBF) & 0xFFFFFF7F) & 0xFFFFFEFF) & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFFEFFFF;
 	pmc->scratch77 = (sdram->emc_r2w << 26) | ((4 * sdram->emc_pmacro_tx_pwrd0 >> 31 << 25) | ((8 * sdram->emc_pmacro_tx_pwrd0 >> 31 << 24) | ((32 * sdram->emc_pmacro_tx_pwrd0 >> 31 << 23) | ((sdram->emc_pmacro_tx_pwrd0 << 6 >> 31 << 22) | ((sdram->emc_pmacro_tx_pwrd0 << 7 >> 31 << 21) | ((sdram->emc_pmacro_tx_pwrd0 << 8 >> 31 << 20) | ((sdram->emc_pmacro_tx_pwrd0 << 9 >> 31 << 19) | ((sdram->emc_pmacro_tx_pwrd0 << 10 >> 31 << 18) | ((sdram->emc_pmacro_tx_pwrd0 << 11 >> 31 << 17) | tmp & 0xFFFDFFFF) & 0xFFFBFFFF) & 0xFFF7FFFF) & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0xFEFFFFFF) & 0xFDFFFFFF) & 0x3FFFFFF;
 	tmp = ((8 * sdram->emc_pmacro_tx_pwrd1 >> 31 << 24) | ((32 * sdram->emc_pmacro_tx_pwrd1 >> 31 << 23) | ((sdram->emc_pmacro_tx_pwrd1 << 6 >> 31 << 22) | ((sdram->emc_pmacro_tx_pwrd1 << 7 >> 31 << 21) | ((sdram->emc_pmacro_tx_pwrd1 << 8 >> 31 << 20) | ((sdram->emc_pmacro_tx_pwrd1 << 9 >> 31 << 19) | ((sdram->emc_pmacro_tx_pwrd1 << 10 >> 31 << 18) | ((sdram->emc_pmacro_tx_pwrd1 << 11 >> 31 << 17) | ((sdram->emc_pmacro_tx_pwrd1 << 12 >> 31 << 16) | ((sdram->emc_pmacro_tx_pwrd1 << 13 >> 31 << 15) | ((sdram->emc_pmacro_tx_pwrd1 << 14 >> 31 << 14) | ((sdram->emc_pmacro_tx_pwrd1 << 15 >> 31 << 13) | ((sdram->emc_pmacro_tx_pwrd1 << 18 >> 31 << 12) | ((sdram->emc_pmacro_tx_pwrd1 << 19 >> 31 << 11) | ((sdram->emc_pmacro_tx_pwrd1 << 21 >> 31 << 10) | ((sdram->emc_pmacro_tx_pwrd1 << 22 >> 31 << 9) | ((sdram->emc_pmacro_tx_pwrd1 << 23 >> 31 << 8) | ((sdram->emc_pmacro_tx_pwrd1 << 24 >> 31 << 7) | ((sdram->emc_pmacro_tx_pwrd1 << 25 >> 31 << 6) | (32 * (sdram->emc_pmacro_tx_pwrd1 << 26 >> 31) | (16 * (sdram->emc_pmacro_tx_pwrd1 << 27 >> 31) | (8 * (sdram->emc_pmacro_tx_pwrd1 << 28 >> 31) | (4 * (sdram->emc_pmacro_tx_pwrd1 << 29 >> 31) | (2 * (sdram->emc_pmacro_tx_pwrd1 << 30 >> 31) | (sdram->emc_pmacro_tx_pwrd1 & 1 | 2 * (pmc->scratch78 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFFBF) & 0xFFFFFF7F) & 0xFFFFFEFF) & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFFEFFFF) & 0xFFFDFFFF) & 0xFFFBFFFF) & 0xFFF7FFFF) & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0xFEFFFFFF) & 0xFDFFFFFF;
 	pmc->scratch78 = (sdram->emc_w2r << 26) | ((4 * sdram->emc_pmacro_tx_pwrd1 >> 31 << 25) | tmp) & 0x3FFFFFF;
 	tmp = ((8 * sdram->emc_pmacro_tx_pwrd2 >> 31 << 24) | ((32 * sdram->emc_pmacro_tx_pwrd2 >> 31 << 23) | ((sdram->emc_pmacro_tx_pwrd2 << 6 >> 31 << 22) | ((sdram->emc_pmacro_tx_pwrd2 << 7 >> 31 << 21) | ((sdram->emc_pmacro_tx_pwrd2 << 8 >> 31 << 20) | ((sdram->emc_pmacro_tx_pwrd2 << 9 >> 31 << 19) | ((sdram->emc_pmacro_tx_pwrd2 << 10 >> 31 << 18) | ((sdram->emc_pmacro_tx_pwrd2 << 11 >> 31 << 17) | ((sdram->emc_pmacro_tx_pwrd2 << 12 >> 31 << 16) | ((sdram->emc_pmacro_tx_pwrd2 << 13 >> 31 << 15) | ((sdram->emc_pmacro_tx_pwrd2 << 14 >> 31 << 14) | ((sdram->emc_pmacro_tx_pwrd2 << 15 >> 31 << 13) | ((sdram->emc_pmacro_tx_pwrd2 << 18 >> 31 << 12) | ((sdram->emc_pmacro_tx_pwrd2 << 19 >> 31 << 11) | ((sdram->emc_pmacro_tx_pwrd2 << 21 >> 31 << 10) | ((sdram->emc_pmacro_tx_pwrd2 << 22 >> 31 << 9) | ((sdram->emc_pmacro_tx_pwrd2 << 23 >> 31 << 8) | ((sdram->emc_pmacro_tx_pwrd2 << 24 >> 31 << 7) | ((sdram->emc_pmacro_tx_pwrd2 << 25 >> 31 << 6) | (32 * (sdram->emc_pmacro_tx_pwrd2 << 26 >> 31) | (16 * (sdram->emc_pmacro_tx_pwrd2 << 27 >> 31) | (8 * (sdram->emc_pmacro_tx_pwrd2 << 28 >> 31) | (4 * (sdram->emc_pmacro_tx_pwrd2 << 29 >> 31) | (2 * (sdram->emc_pmacro_tx_pwrd2 << 30 >> 31) | (sdram->emc_pmacro_tx_pwrd2 & 1 | 2 * (pmc->scratch79 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFFBF) & 0xFFFFFF7F) & 0xFFFFFEFF) & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFFEFFFF) & 0xFFFDFFFF) & 0xFFFBFFFF) & 0xFFF7FFFF) & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0xFEFFFFFF) & 0xFDFFFFFF;
 	pmc->scratch79 = (sdram->emc_r2p << 26) | ((4 * sdram->emc_pmacro_tx_pwrd2 >> 31 << 25) | tmp) & 0x3FFFFFF;
 	tmp = (sdram->emc_pmacro_tx_pwrd3 << 23 >> 31 << 8) | ((sdram->emc_pmacro_tx_pwrd3 << 24 >> 31 << 7) | ((sdram->emc_pmacro_tx_pwrd3 << 25 >> 31 << 6) | (32 * (sdram->emc_pmacro_tx_pwrd3 << 26 >> 31) | (16 * (sdram->emc_pmacro_tx_pwrd3 << 27 >> 31) | (8 * (sdram->emc_pmacro_tx_pwrd3 << 28 >> 31) | (4 * (sdram->emc_pmacro_tx_pwrd3 << 29 >> 31) | (2 * (sdram->emc_pmacro_tx_pwrd3 << 30 >> 31) | (sdram->emc_pmacro_tx_pwrd3 & 1 | 2 * (pmc->scratch80 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFFBF) & 0xFFFFFF7F) & 0xFFFFFEFF;
 	pmc->scratch80 = ((u8)(sdram->emc_ccdmw) << 26) | ((4 * sdram->emc_pmacro_tx_pwrd3 >> 31 << 25) | ((8 * sdram->emc_pmacro_tx_pwrd3 >> 31 << 24) | ((32 * sdram->emc_pmacro_tx_pwrd3 >> 31 << 23) | ((sdram->emc_pmacro_tx_pwrd3 << 6 >> 31 << 22) | ((sdram->emc_pmacro_tx_pwrd3 << 7 >> 31 << 21) | ((sdram->emc_pmacro_tx_pwrd3 << 8 >> 31 << 20) | ((sdram->emc_pmacro_tx_pwrd3 << 9 >> 31 << 19) | ((sdram->emc_pmacro_tx_pwrd3 << 10 >> 31 << 18) | ((sdram->emc_pmacro_tx_pwrd3 << 11 >> 31 << 17) | ((sdram->emc_pmacro_tx_pwrd3 << 12 >> 31 << 16) | ((sdram->emc_pmacro_tx_pwrd3 << 13 >> 31 << 15) | ((sdram->emc_pmacro_tx_pwrd3 << 14 >> 31 << 14) | ((sdram->emc_pmacro_tx_pwrd3 << 15 >> 31 << 13) | ((sdram->emc_pmacro_tx_pwrd3 << 18 >> 31 << 12) | ((sdram->emc_pmacro_tx_pwrd3 << 19 >> 31 << 11) | ((sdram->emc_pmacro_tx_pwrd3 << 21 >> 31 << 10) | ((sdram->emc_pmacro_tx_pwrd3 << 22 >> 31 << 9) | tmp & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFFEFFFF) & 0xFFFDFFFF) & 0xFFFBFFFF) & 0xFFF7FFFF) & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0xFEFFFFFF) & 0xFDFFFFFF) & 0x3FFFFFF;
 	tmp = ((8 * sdram->emc_pmacro_tx_pwrd4 >> 31 << 24) | ((32 * sdram->emc_pmacro_tx_pwrd4 >> 31 << 23) | ((sdram->emc_pmacro_tx_pwrd4 << 6 >> 31 << 22) | ((sdram->emc_pmacro_tx_pwrd4 << 7 >> 31 << 21) | ((sdram->emc_pmacro_tx_pwrd4 << 8 >> 31 << 20) | ((sdram->emc_pmacro_tx_pwrd4 << 9 >> 31 << 19) | ((sdram->emc_pmacro_tx_pwrd4 << 10 >> 31 << 18) | ((sdram->emc_pmacro_tx_pwrd4 << 11 >> 31 << 17) | ((sdram->emc_pmacro_tx_pwrd4 << 12 >> 31 << 16) | ((sdram->emc_pmacro_tx_pwrd4 << 13 >> 31 << 15) | ((sdram->emc_pmacro_tx_pwrd4 << 14 >> 31 << 14) | ((sdram->emc_pmacro_tx_pwrd4 << 15 >> 31 << 13) | ((sdram->emc_pmacro_tx_pwrd4 << 18 >> 31 << 12) | ((sdram->emc_pmacro_tx_pwrd4 << 19 >> 31 << 11) | ((sdram->emc_pmacro_tx_pwrd4 << 21 >> 31 << 10) | ((sdram->emc_pmacro_tx_pwrd4 << 22 >> 31 << 9) | ((sdram->emc_pmacro_tx_pwrd4 << 23 >> 31 << 8) | ((sdram->emc_pmacro_tx_pwrd4 << 24 >> 31 << 7) | ((sdram->emc_pmacro_tx_pwrd4 << 25 >> 31 << 6) | (32 * (sdram->emc_pmacro_tx_pwrd4 << 26 >> 31) | (16 * (sdram->emc_pmacro_tx_pwrd4 << 27 >> 31) | (8 * (sdram->emc_pmacro_tx_pwrd4 << 28 >> 31) | (4 * (sdram->emc_pmacro_tx_pwrd4 << 29 >> 31) | (2 * (sdram->emc_pmacro_tx_pwrd4 << 30 >> 31) | (sdram->emc_pmacro_tx_pwrd4 & 1 | 2 * (pmc->scratch81 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFFBF) & 0xFFFFFF7F) & 0xFFFFFEFF) & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFFEFFFF) & 0xFFFDFFFF) & 0xFFFBFFFF) & 0xFFF7FFFF) & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0xFEFFFFFF) & 0xFDFFFFFF;
 	pmc->scratch81 = ((u8)(sdram->emc_rd_rcd) << 26) | ((4 * sdram->emc_pmacro_tx_pwrd4 >> 31 << 25) | tmp) & 0x3FFFFFF;
 	tmp = ((8 * sdram->emc_pmacro_tx_pwrd5 >> 31 << 24) | ((32 * sdram->emc_pmacro_tx_pwrd5 >> 31 << 23) | ((sdram->emc_pmacro_tx_pwrd5 << 6 >> 31 << 22) | ((sdram->emc_pmacro_tx_pwrd5 << 7 >> 31 << 21) | ((sdram->emc_pmacro_tx_pwrd5 << 8 >> 31 << 20) | ((sdram->emc_pmacro_tx_pwrd5 << 9 >> 31 << 19) | ((sdram->emc_pmacro_tx_pwrd5 << 10 >> 31 << 18) | ((sdram->emc_pmacro_tx_pwrd5 << 11 >> 31 << 17) | ((sdram->emc_pmacro_tx_pwrd5 << 12 >> 31 << 16) | ((sdram->emc_pmacro_tx_pwrd5 << 13 >> 31 << 15) | ((sdram->emc_pmacro_tx_pwrd5 << 14 >> 31 << 14) | ((sdram->emc_pmacro_tx_pwrd5 << 15 >> 31 << 13) | ((sdram->emc_pmacro_tx_pwrd5 << 18 >> 31 << 12) | ((sdram->emc_pmacro_tx_pwrd5 << 19 >> 31 << 11) | ((sdram->emc_pmacro_tx_pwrd5 << 21 >> 31 << 10) | ((sdram->emc_pmacro_tx_pwrd5 << 22 >> 31 << 9) | ((sdram->emc_pmacro_tx_pwrd5 << 23 >> 31 << 8) | ((sdram->emc_pmacro_tx_pwrd5 << 24 >> 31 << 7) | ((sdram->emc_pmacro_tx_pwrd5 << 25 >> 31 << 6) | (32 * (sdram->emc_pmacro_tx_pwrd5 << 26 >> 31) | (16 * (sdram->emc_pmacro_tx_pwrd5 << 27 >> 31) | (8 * (sdram->emc_pmacro_tx_pwrd5 << 28 >> 31) | (4 * (sdram->emc_pmacro_tx_pwrd5 << 29 >> 31) | (2 * (sdram->emc_pmacro_tx_pwrd5 << 30 >> 31) | (sdram->emc_pmacro_tx_pwrd5 & 1 | 2 * (pmc->scratch82 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFFBF) & 0xFFFFFF7F) & 0xFFFFFEFF) & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFFEFFFF) & 0xFFFDFFFF) & 0xFFFBFFFF) & 0xFFF7FFFF) & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0xFEFFFFFF) & 0xFDFFFFFF;
 	pmc->scratch82 = ((u16)(sdram->emc_wr_rcd) << 26) | ((4 * sdram->emc_pmacro_tx_pwrd5 >> 31 << 25) | tmp) & 0x3FFFFFF;
 	pmc->scratch83 = ((u8)(sdram->emc_config_sample_delay) << 25) | ((sdram->emc_auto_cal_channel >> 31 << 24) | ((2 * sdram->emc_auto_cal_channel >> 31 << 23) | ((4 * sdram->emc_auto_cal_channel >> 31 << 22) | ((16 * sdram->emc_auto_cal_channel >> 25 << 15) | ((sdram->emc_auto_cal_channel << 11 >> 27 << 10) | ((sdram->emc_auto_cal_channel << 20 >> 28 << 6) | (sdram->emc_auto_cal_channel & 0x3F | (pmc->scratch83 >> 6 << 6)) & 0xFFFFFC3F) & 0xFFFF83FF) & 0xFFC07FFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0xFEFFFFFF) & 0x1FFFFFF;
 	pmc->scratch84 = (sdram->emc_sel_dpd_ctrl << 13 >> 29 << 29) | ((sdram->emc_sel_dpd_ctrl << 23 >> 31 << 28) | ((sdram->emc_sel_dpd_ctrl << 26 >> 31 << 27) | ((sdram->emc_sel_dpd_ctrl << 27 >> 31 << 26) | ((sdram->emc_sel_dpd_ctrl << 28 >> 31 << 25) | ((sdram->emc_sel_dpd_ctrl << 29 >> 31 << 24) | ((4 * sdram->emc_pmacro_rx_term >> 26 << 18) | ((sdram->emc_pmacro_rx_term << 10 >> 26 << 12) | ((sdram->emc_pmacro_rx_term << 18 >> 26 << 6) | (sdram->emc_pmacro_rx_term & 0x3F | (pmc->scratch84 >> 6 << 6)) & 0xFFFFF03F) & 0xFFFC0FFF) & 0xFF03FFFF) & 0xFEFFFFFF) & 0xFDFFFFFF) & 0xFBFFFFFF) & 0xF7FFFFFF) & 0xEFFFFFFF) & 0x1FFFFFFF;
 	pmc->scratch85 = (4 * sdram->emc_obdly >> 30 << 30) | (4 * ((sdram->emc_obdly << 24) | ((4 * sdram->emc_pmacro_dq_tx_drive >> 26 << 18) | ((sdram->emc_pmacro_dq_tx_drive << 10 >> 26 << 12) | ((sdram->emc_pmacro_dq_tx_drive << 18 >> 26 << 6) | (sdram->emc_pmacro_dq_tx_drive & 0x3F | (pmc->scratch85 >> 6 << 6)) & 0xFFFFF03F) & 0xFFFC0FFF) & 0xFF03FFFF) & 0xC0FFFFFF) >> 2);
 	pmc->scratch86 = (sdram->emc_pmacro_vttgen_ctrl1 << 10 >> 30 << 30) | (4 * ((sdram->emc_pmacro_vttgen_ctrl1 << 16 >> 26 << 24) | ((4 * sdram->emc_pmacro_ca_tx_drive >> 26 << 18) | ((sdram->emc_pmacro_ca_tx_drive << 10 >> 26 << 12) | ((sdram->emc_pmacro_ca_tx_drive << 18 >> 26 << 6) | (sdram->emc_pmacro_ca_tx_drive & 0x3F | (pmc->scratch86 >> 6 << 6)) & 0xFFFFF03F) & 0xFFFC0FFF) & 0xFF03FFFF) & 0xC0FFFFFF) >> 2);
 	pmc->scratch87 = (sdram->emc_pmacro_vttgen_ctrl2 >> 16 << 24) | ((16 * sdram->emc_pmacro_zcrtl >> 30 << 22) | ((sdram->emc_pmacro_zcrtl << 6 >> 30 << 20) | ((sdram->emc_pmacro_zcrtl << 8 >> 30 << 18) | ((sdram->emc_pmacro_zcrtl << 10 >> 30 << 16) | ((sdram->emc_pmacro_zcrtl << 12 >> 30 << 14) | ((sdram->emc_pmacro_zcrtl << 14 >> 30 << 12) | ((sdram->emc_pmacro_zcrtl << 16 >> 30 << 10) | ((sdram->emc_pmacro_zcrtl << 18 >> 30 << 8) | ((sdram->emc_pmacro_zcrtl << 20 >> 30 << 6) | (16 * (sdram->emc_pmacro_zcrtl << 22 >> 30) | (4 * (sdram->emc_pmacro_zcrtl << 24 >> 30) | ((sdram->emc_pmacro_zcrtl << 26 >> 30) | 4 * (pmc->scratch87 >> 2)) & 0xFFFFFFF3) & 0xFFFFFFCF) & 0xFFFFFF3F) & 0xFFFFFCFF) & 0xFFFFF3FF) & 0xFFFFCFFF) & 0xFFFF3FFF) & 0xFFFCFFFF) & 0xFFF3FFFF) & 0xFFCFFFFF) & 0xFF3FFFFF) & 0xFFFFFF;
 	pmc->scratch88 = (sdram->mc_emem_arb_timing_rc << 24) | ((sdram->emc_zcal_interval << 14) | ((sdram->emc_zcal_interval << 8 >> 18) | (pmc->scratch88 >> 14 << 14)) & 0xFF003FFF) & 0xFFFFFF;
 	pmc->scratch89 = ((u16)(sdram->mc_emem_arb_rsv) << 24) | ((sdram->emc_data_brlshft0 << 8 >> 29 << 21) | ((sdram->emc_data_brlshft0 << 11 >> 29 << 18) | ((sdram->emc_data_brlshft0 << 14 >> 29 << 15) | ((sdram->emc_data_brlshft0 << 17 >> 29 << 12) | ((sdram->emc_data_brlshft0 << 20 >> 29 << 9) | ((sdram->emc_data_brlshft0 << 23 >> 29 << 6) | (8 * (sdram->emc_data_brlshft0 << 26 >> 29) | (sdram->emc_data_brlshft0 & 7 | 8 * (pmc->scratch89 >> 3)) & 0xFFFFFFC7) & 0xFFFFFE3F) & 0xFFFFF1FF) & 0xFFFF8FFF) & 0xFFFC7FFF) & 0xFFE3FFFF) & 0xFF1FFFFF) & 0xFFFFFF;
 	pmc->scratch90 = (sdram->emc_data_brlshft1 << 8 >> 29 << 21) | ((sdram->emc_data_brlshft1 << 11 >> 29 << 18) | ((sdram->emc_data_brlshft1 << 14 >> 29 << 15) | ((sdram->emc_data_brlshft1 << 17 >> 29 << 12) | ((sdram->emc_data_brlshft1 << 20 >> 29 << 9) | ((sdram->emc_data_brlshft1 << 23 >> 29 << 6) | (8 * (sdram->emc_data_brlshft1 << 26 >> 29) | (sdram->emc_data_brlshft1 & 7 | 8 * (pmc->scratch90 >> 3)) & 0xFFFFFFC7) & 0xFFFFFE3F) & 0xFFFFF1FF) & 0xFFFF8FFF) & 0xFFFC7FFF) & 0xFFE3FFFF) & 0xFF1FFFFF;
 	pmc->scratch91 = (sdram->emc_dqs_brlshft0 << 8 >> 29 << 21) | ((sdram->emc_dqs_brlshft0 << 11 >> 29 << 18) | ((sdram->emc_dqs_brlshft0 << 14 >> 29 << 15) | ((sdram->emc_dqs_brlshft0 << 17 >> 29 << 12) | ((sdram->emc_dqs_brlshft0 << 20 >> 29 << 9) | ((sdram->emc_dqs_brlshft0 << 23 >> 29 << 6) | (8 * (sdram->emc_dqs_brlshft0 << 26 >> 29) | (sdram->emc_dqs_brlshft0 & 7 | 8 * (pmc->scratch91 >> 3)) & 0xFFFFFFC7) & 0xFFFFFE3F) & 0xFFFFF1FF) & 0xFFFF8FFF) & 0xFFFC7FFF) & 0xFFE3FFFF) & 0xFF1FFFFF;
 	pmc->scratch92 = (sdram->emc_dqs_brlshft1 << 8 >> 29 << 21) | ((sdram->emc_dqs_brlshft1 << 11 >> 29 << 18) | ((sdram->emc_dqs_brlshft1 << 14 >> 29 << 15) | ((sdram->emc_dqs_brlshft1 << 17 >> 29 << 12) | ((sdram->emc_dqs_brlshft1 << 20 >> 29 << 9) | ((sdram->emc_dqs_brlshft1 << 23 >> 29 << 6) | (8 * (sdram->emc_dqs_brlshft1 << 26 >> 29) | (sdram->emc_dqs_brlshft1 & 7 | 8 * (pmc->scratch92 >> 3)) & 0xFFFFFFC7) & 0xFFFFFE3F) & 0xFFFFF1FF) & 0xFFFF8FFF) & 0xFFFC7FFF) & 0xFFE3FFFF) & 0xFF1FFFFF;
 	pmc->scratch93 = (2 * sdram->emc_swizzle_rank0_byte0 >> 29 << 21) | ((32 * sdram->emc_swizzle_rank0_byte0 >> 29 << 18) | ((sdram->emc_swizzle_rank0_byte0 << 9 >> 29 << 15) | ((sdram->emc_swizzle_rank0_byte0 << 13 >> 29 << 12) | ((sdram->emc_swizzle_rank0_byte0 << 17 >> 29 << 9) | ((sdram->emc_swizzle_rank0_byte0 << 21 >> 29 << 6) | (8 * (sdram->emc_swizzle_rank0_byte0 << 25 >> 29) | (sdram->emc_swizzle_rank0_byte0 & 7 | 8 * (pmc->scratch93 >> 3)) & 0xFFFFFFC7) & 0xFFFFFE3F) & 0xFFFFF1FF) & 0xFFFF8FFF) & 0xFFFC7FFF) & 0xFFE3FFFF) & 0xFF1FFFFF;
 	pmc->scratch94 = ((u8)(sdram->emc_cfg) << 27 >> 31 << 31) | (2 * ((sdram->emc_ras << 24) | ((2 * sdram->emc_swizzle_rank0_byte1 >> 29 << 21) | ((32 * sdram->emc_swizzle_rank0_byte1 >> 29 << 18) | ((sdram->emc_swizzle_rank0_byte1 << 9 >> 29 << 15) | ((sdram->emc_swizzle_rank0_byte1 << 13 >> 29 << 12) | ((sdram->emc_swizzle_rank0_byte1 << 17 >> 29 << 9) | ((sdram->emc_swizzle_rank0_byte1 << 21 >> 29 << 6) | (8 * (sdram->emc_swizzle_rank0_byte1 << 25 >> 29) | (sdram->emc_swizzle_rank0_byte1 & 7 | 8 * (pmc->scratch94 >> 3)) & 0xFFFFFFC7) & 0xFFFFFE3F) & 0xFFFFF1FF) & 0xFFFF8FFF) & 0xFFFC7FFF) & 0xFFE3FFFF) & 0xFF1FFFFF) & 0x80FFFFFF) >> 1);
 	pmc->scratch95 = ((u8)(sdram->emc_cfg) << 26 >> 31 << 31) | (2 * ((sdram->emc_w2p << 24) | ((2 * sdram->emc_swizzle_rank0_byte2 >> 29 << 21) | ((32 * sdram->emc_swizzle_rank0_byte2 >> 29 << 18) | ((sdram->emc_swizzle_rank0_byte2 << 9 >> 29 << 15) | ((sdram->emc_swizzle_rank0_byte2 << 13 >> 29 << 12) | ((sdram->emc_swizzle_rank0_byte2 << 17 >> 29 << 9) | ((sdram->emc_swizzle_rank0_byte2 << 21 >> 29 << 6) | (8 * (sdram->emc_swizzle_rank0_byte2 << 25 >> 29) | (sdram->emc_swizzle_rank0_byte2 & 7 | 8 * (pmc->scratch95 >> 3)) & 0xFFFFFFC7) & 0xFFFFFE3F) & 0xFFFFF1FF) & 0xFFFF8FFF) & 0xFFFC7FFF) & 0xFFE3FFFF) & 0xFF1FFFFF) & 0x80FFFFFF) >> 1);
 	pmc->scratch96 = ((u8)(sdram->emc_cfg) << 25 >> 31 << 31) | (2 * ((sdram->emc_qsafe << 24) | ((2 * sdram->emc_swizzle_rank0_byte3 >> 29 << 21) | (((sdram->emc_swizzle_rank0_byte3 << 9 >> 29 << 15) | ((sdram->emc_swizzle_rank0_byte3 << 13 >> 29 << 12) | ((sdram->emc_swizzle_rank0_byte3 << 17 >> 29 << 9) | ((sdram->emc_swizzle_rank0_byte3 << 21 >> 29 << 6) | (8 * (sdram->emc_swizzle_rank0_byte3 << 25 >> 29) | (sdram->emc_swizzle_rank0_byte3 & 7 | 8 * (pmc->scratch96 >> 3)) & 0xFFFFFFC7) & 0xFFFFFE3F) & 0xFFFFF1FF) & 0xFFFF8FFF) & 0xFFFC7FFF) & 0xFFE3FFFF | (32 * sdram->emc_swizzle_rank0_byte3 >> 29 << 18)) & 0xFF1FFFFF) & 0x80FFFFFF) >> 1);
 	pmc->scratch97 = ((u8)(sdram->emc_cfg) << 24 >> 31 << 31) | (2 * ((sdram->emc_rdv << 24) | ((2 * sdram->emc_swizzle_rank1_byte0 >> 29 << 21) | (((sdram->emc_swizzle_rank1_byte0 << 9 >> 29 << 15) | ((sdram->emc_swizzle_rank1_byte0 << 13 >> 29 << 12) | ((sdram->emc_swizzle_rank1_byte0 << 17 >> 29 << 9) | ((sdram->emc_swizzle_rank1_byte0 << 21 >> 29 << 6) | (8 * (sdram->emc_swizzle_rank1_byte0 << 25 >> 29) | (sdram->emc_swizzle_rank1_byte0 & 7 | 8 * (pmc->scratch97 >> 3)) & 0xFFFFFFC7) & 0xFFFFFE3F) & 0xFFFFF1FF) & 0xFFFF8FFF) & 0xFFFC7FFF) & 0xFFE3FFFF | (32 * sdram->emc_swizzle_rank1_byte0 >> 29 << 18)) & 0xFF1FFFFF) & 0x80FFFFFF) >> 1);
 	pmc->scratch98 = ((u16)(sdram->emc_cfg) << 23 >> 31 << 31) | (2 * (((u16)(sdram->emc_rw2pden) << 24) | ((2 * sdram->emc_swizzle_rank1_byte1 >> 29 << 21) | ((32 * sdram->emc_swizzle_rank1_byte1 >> 29 << 18) | ((sdram->emc_swizzle_rank1_byte1 << 9 >> 29 << 15) | ((sdram->emc_swizzle_rank1_byte1 << 13 >> 29 << 12) | ((sdram->emc_swizzle_rank1_byte1 << 17 >> 29 << 9) | ((sdram->emc_swizzle_rank1_byte1 << 21 >> 29 << 6) | (8 * (sdram->emc_swizzle_rank1_byte1 << 25 >> 29) | (sdram->emc_swizzle_rank1_byte1 & 7 | 8 * (pmc->scratch98 >> 3)) & 0xFFFFFFC7) & 0xFFFFFE3F) & 0xFFFFF1FF) & 0xFFFF8FFF) & 0xFFFC7FFF) & 0xFFE3FFFF) & 0xFF1FFFFF) & 0x80FFFFFF) >> 1);
 	pmc->scratch99 = ((u16)(sdram->emc_cfg) << 22 >> 31 << 31) | (2 * ((sdram->emc_tfaw << 24) | ((2 * sdram->emc_swizzle_rank1_byte2 >> 29 << 21) | ((32 * sdram->emc_swizzle_rank1_byte2 >> 29 << 18) | ((sdram->emc_swizzle_rank1_byte2 << 9 >> 29 << 15) | ((sdram->emc_swizzle_rank1_byte2 << 13 >> 29 << 12) | ((sdram->emc_swizzle_rank1_byte2 << 17 >> 29 << 9) | ((sdram->emc_swizzle_rank1_byte2 << 21 >> 29 << 6) | (8 * (sdram->emc_swizzle_rank1_byte2 << 25 >> 29) | (sdram->emc_swizzle_rank1_byte2 & 7 | 8 * (pmc->scratch99 >> 3)) & 0xFFFFFFC7) & 0xFFFFFE3F) & 0xFFFFF1FF) & 0xFFFF8FFF) & 0xFFFC7FFF) & 0xFFE3FFFF) & 0xFF1FFFFF) & 0x80FFFFFF) >> 1);
 	pmc->scratch100 = (sdram->emc_cfg << 13 >> 31 << 31) | (2 * ((sdram->emc_tclkstable << 24) | ((2 * sdram->emc_swizzle_rank1_byte3 >> 29 << 21) | ((32 * sdram->emc_swizzle_rank1_byte3 >> 29 << 18) | ((sdram->emc_swizzle_rank1_byte3 << 9 >> 29 << 15) | ((sdram->emc_swizzle_rank1_byte3 << 13 >> 29 << 12) | ((sdram->emc_swizzle_rank1_byte3 << 17 >> 29 << 9) | ((sdram->emc_swizzle_rank1_byte3 << 21 >> 29 << 6) | (8 * (sdram->emc_swizzle_rank1_byte3 << 25 >> 29) | (sdram->emc_swizzle_rank1_byte3 & 7 | 8 * (pmc->scratch100 >> 3)) & 0xFFFFFFC7) & 0xFFFFFE3F) & 0xFFFFF1FF) & 0xFFFF8FFF) & 0xFFFC7FFF) & 0xFFE3FFFF) & 0xFF1FFFFF) & 0x80FFFFFF) >> 1);
 	tmp = 2 * (((u8)(sdram->emc_trtm) << 24) | ((16 * sdram->emc_cfg_pipe2 >> 31 << 23) | ((32 * sdram->emc_cfg_pipe2 >> 31 << 22) | ((sdram->emc_cfg_pipe2 << 6 >> 31 << 21) | ((sdram->emc_cfg_pipe2 << 7 >> 31 << 20) | ((sdram->emc_cfg_pipe2 << 8 >> 31 << 19) | ((sdram->emc_cfg_pipe2 << 9 >> 31 << 18) | ((sdram->emc_cfg_pipe2 << 10 >> 31 << 17) | ((sdram->emc_cfg_pipe2 << 11 >> 31 << 16) | ((sdram->emc_cfg_pipe2 << 12 >> 31 << 15) | ((sdram->emc_cfg_pipe2 << 13 >> 31 << 14) | ((sdram->emc_cfg_pipe2 << 14 >> 31 << 13) | ((sdram->emc_cfg_pipe2 << 15 >> 31 << 12) | ((sdram->emc_cfg_pipe2 << 20 >> 31 << 11) | ((sdram->emc_cfg_pipe2 << 21 >> 31 << 10) | ((sdram->emc_cfg_pipe2 << 22 >> 31 << 9) | ((sdram->emc_cfg_pipe2 << 23 >> 31 << 8) | ((sdram->emc_cfg_pipe2 << 24 >> 31 << 7) | ((sdram->emc_cfg_pipe2 << 25 >> 31 << 6) | (32 * (sdram->emc_cfg_pipe2 << 26 >> 31) | (16 * (sdram->emc_cfg_pipe2 << 27 >> 31) | (8 * (sdram->emc_cfg_pipe2 << 28 >> 31) | (4 * (sdram->emc_cfg_pipe2 << 29 >> 31) | (2 * (sdram->emc_cfg_pipe2 << 30 >> 31) | (sdram->emc_cfg_pipe2 & 1 | 2 * (pmc->scratch101 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFFBF) & 0xFFFFFF7F) & 0xFFFFFEFF) & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFFEFFFF) & 0xFFFDFFFF) & 0xFFFBFFFF) & 0xFFF7FFFF) & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0x80FFFFFF) >> 1;
 	pmc->scratch101 = (sdram->emc_cfg << 10 >> 31 << 31) | tmp;
 	tmp = (2 * (pmc->scratch102 >> 1) | sdram->emc_cfg_pipe1 & 1) & 0xFFFFFFFD;
 	pmc->scratch102 = (sdram->emc_cfg << 9 >> 31 << 31) | (2 * (((u8)(sdram->emc_twtm) << 24) | ((16 * sdram->emc_cfg_pipe1 >> 31 << 23) | ((32 * sdram->emc_cfg_pipe1 >> 31 << 22) | ((sdram->emc_cfg_pipe1 << 6 >> 31 << 21) | ((sdram->emc_cfg_pipe1 << 7 >> 31 << 20) | ((sdram->emc_cfg_pipe1 << 8 >> 31 << 19) | ((sdram->emc_cfg_pipe1 << 9 >> 31 << 18) | ((sdram->emc_cfg_pipe1 << 10 >> 31 << 17) | ((sdram->emc_cfg_pipe1 << 11 >> 31 << 16) | ((sdram->emc_cfg_pipe1 << 12 >> 31 << 15) | ((sdram->emc_cfg_pipe1 << 13 >> 31 << 14) | ((sdram->emc_cfg_pipe1 << 14 >> 31 << 13) | ((sdram->emc_cfg_pipe1 << 15 >> 31 << 12) | ((sdram->emc_cfg_pipe1 << 20 >> 31 << 11) | ((sdram->emc_cfg_pipe1 << 21 >> 31 << 10) | ((sdram->emc_cfg_pipe1 << 22 >> 31 << 9) | ((sdram->emc_cfg_pipe1 << 23 >> 31 << 8) | ((sdram->emc_cfg_pipe1 << 24 >> 31 << 7) | ((sdram->emc_cfg_pipe1 << 25 >> 31 << 6) | (32 * (sdram->emc_cfg_pipe1 << 26 >> 31) | (16 * (sdram->emc_cfg_pipe1 << 27 >> 31) | (8 * (sdram->emc_cfg_pipe1 << 28 >> 31) | (4 * (sdram->emc_cfg_pipe1 << 29 >> 31) | (2 * (sdram->emc_cfg_pipe1 << 30 >> 31) | tmp) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFFBF) & 0xFFFFFF7F) & 0xFFFFFEFF) & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFFEFFFF) & 0xFFFDFFFF) & 0xFFFBFFFF) & 0xFFF7FFFF) & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0x80FFFFFF) >> 1);
 	tmp = 2 * (((u8)(sdram->emc_tratm) << 24) | ((sdram->emc_pmacro_ddll_pwrd0 >> 31 << 23) | ((2 * sdram->emc_pmacro_ddll_pwrd0 >> 31 << 22) | ((8 * sdram->emc_pmacro_ddll_pwrd0 >> 31 << 21) | ((16 * sdram->emc_pmacro_ddll_pwrd0 >> 31 << 20) | ((32 * sdram->emc_pmacro_ddll_pwrd0 >> 31 << 19) | ((sdram->emc_pmacro_ddll_pwrd0 << 6 >> 31 << 18) | ((sdram->emc_pmacro_ddll_pwrd0 << 8 >> 31 << 17) | ((sdram->emc_pmacro_ddll_pwrd0 << 9 >> 31 << 16) | ((sdram->emc_pmacro_ddll_pwrd0 << 11 >> 31 << 15) | ((sdram->emc_pmacro_ddll_pwrd0 << 12 >> 31 << 14) | ((sdram->emc_pmacro_ddll_pwrd0 << 13 >> 31 << 13) | ((sdram->emc_pmacro_ddll_pwrd0 << 14 >> 31 << 12) | ((sdram->emc_pmacro_ddll_pwrd0 << 16 >> 31 << 11) | ((sdram->emc_pmacro_ddll_pwrd0 << 17 >> 31 << 10) | ((sdram->emc_pmacro_ddll_pwrd0 << 19 >> 31 << 9) | ((sdram->emc_pmacro_ddll_pwrd0 << 20 >> 31 << 8) | ((sdram->emc_pmacro_ddll_pwrd0 << 21 >> 31 << 7) | ((sdram->emc_pmacro_ddll_pwrd0 << 22 >> 31 << 6) | (32 * (sdram->emc_pmacro_ddll_pwrd0 << 24 >> 31) | (16 * (sdram->emc_pmacro_ddll_pwrd0 << 25 >> 31) | (8 * (sdram->emc_pmacro_ddll_pwrd0 << 27 >> 31) | (4 * (sdram->emc_pmacro_ddll_pwrd0 << 28 >> 31) | (2 * (sdram->emc_pmacro_ddll_pwrd0 << 29 >> 31) | ((sdram->emc_pmacro_ddll_pwrd0 << 30 >> 31) | 2 * (pmc->scratch103 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFFBF) & 0xFFFFFF7F) & 0xFFFFFEFF) & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFFEFFFF) & 0xFFFDFFFF) & 0xFFFBFFFF) & 0xFFF7FFFF) & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0x80FFFFFF) >> 1;
 	pmc->scratch103 = (sdram->emc_cfg << 8 >> 31 << 31) | tmp;
 	tmp = 2 * (((u8)(sdram->emc_twatm) << 24) | ((sdram->emc_pmacro_ddll_pwrd1 >> 31 << 23) | ((2 * sdram->emc_pmacro_ddll_pwrd1 >> 31 << 22) | ((8 * sdram->emc_pmacro_ddll_pwrd1 >> 31 << 21) | ((16 * sdram->emc_pmacro_ddll_pwrd1 >> 31 << 20) | ((32 * sdram->emc_pmacro_ddll_pwrd1 >> 31 << 19) | ((sdram->emc_pmacro_ddll_pwrd1 << 6 >> 31 << 18) | ((sdram->emc_pmacro_ddll_pwrd1 << 8 >> 31 << 17) | ((sdram->emc_pmacro_ddll_pwrd1 << 9 >> 31 << 16) | ((sdram->emc_pmacro_ddll_pwrd1 << 11 >> 31 << 15) | ((sdram->emc_pmacro_ddll_pwrd1 << 12 >> 31 << 14) | ((sdram->emc_pmacro_ddll_pwrd1 << 13 >> 31 << 13) | ((sdram->emc_pmacro_ddll_pwrd1 << 14 >> 31 << 12) | ((sdram->emc_pmacro_ddll_pwrd1 << 16 >> 31 << 11) | ((sdram->emc_pmacro_ddll_pwrd1 << 17 >> 31 << 10) | ((sdram->emc_pmacro_ddll_pwrd1 << 19 >> 31 << 9) | ((sdram->emc_pmacro_ddll_pwrd1 << 20 >> 31 << 8) | ((sdram->emc_pmacro_ddll_pwrd1 << 21 >> 31 << 7) | ((sdram->emc_pmacro_ddll_pwrd1 << 22 >> 31 << 6) | (32 * (sdram->emc_pmacro_ddll_pwrd1 << 24 >> 31) | (16 * (sdram->emc_pmacro_ddll_pwrd1 << 25 >> 31) | (8 * (sdram->emc_pmacro_ddll_pwrd1 << 27 >> 31) | (4 * (sdram->emc_pmacro_ddll_pwrd1 << 28 >> 31) | (2 * (sdram->emc_pmacro_ddll_pwrd1 << 29 >> 31) | ((sdram->emc_pmacro_ddll_pwrd1 << 30 >> 31) | 2 * (pmc->scratch104 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFFBF) & 0xFFFFFF7F) & 0xFFFFFEFF) & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFFEFFFF) & 0xFFFDFFFF) & 0xFFFBFFFF) & 0xFFF7FFFF) & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0x80FFFFFF) >> 1;
 	pmc->scratch104 = (sdram->emc_cfg << 7 >> 31 << 31) | tmp;
 	tmp = (sdram->emc_pmacro_ddll_pwrd2 << 22 >> 31 << 6) | (32 * (sdram->emc_pmacro_ddll_pwrd2 << 24 >> 31) | (16 * (sdram->emc_pmacro_ddll_pwrd2 << 25 >> 31) | (8 * (sdram->emc_pmacro_ddll_pwrd2 << 27 >> 31) | (4 * (sdram->emc_pmacro_ddll_pwrd2 << 28 >> 31) | (2 * (sdram->emc_pmacro_ddll_pwrd2 << 29 >> 31) | ((sdram->emc_pmacro_ddll_pwrd2 << 30 >> 31) | 2 * (pmc->scratch105 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFFBF;
 	pmc->scratch105 = (sdram->emc_cfg << 6 >> 31 << 31) | (2 * (((u8)(sdram->emc_tr2ref) << 24) | ((sdram->emc_pmacro_ddll_pwrd2 >> 31 << 23) | ((2 * sdram->emc_pmacro_ddll_pwrd2 >> 31 << 22) | ((8 * sdram->emc_pmacro_ddll_pwrd2 >> 31 << 21) | ((16 * sdram->emc_pmacro_ddll_pwrd2 >> 31 << 20) | ((32 * sdram->emc_pmacro_ddll_pwrd2 >> 31 << 19) | ((sdram->emc_pmacro_ddll_pwrd2 << 6 >> 31 << 18) | ((sdram->emc_pmacro_ddll_pwrd2 << 8 >> 31 << 17) | ((sdram->emc_pmacro_ddll_pwrd2 << 9 >> 31 << 16) | ((sdram->emc_pmacro_ddll_pwrd2 << 11 >> 31 << 15) | ((sdram->emc_pmacro_ddll_pwrd2 << 12 >> 31 << 14) | ((sdram->emc_pmacro_ddll_pwrd2 << 13 >> 31 << 13) | ((sdram->emc_pmacro_ddll_pwrd2 << 14 >> 31 << 12) | ((sdram->emc_pmacro_ddll_pwrd2 << 16 >> 31 << 11) | ((sdram->emc_pmacro_ddll_pwrd2 << 17 >> 31 << 10) | ((sdram->emc_pmacro_ddll_pwrd2 << 19 >> 31 << 9) | ((sdram->emc_pmacro_ddll_pwrd2 << 20 >> 31 << 8) | ((sdram->emc_pmacro_ddll_pwrd2 << 21 >> 31 << 7) | tmp & 0xFFFFFF7F) & 0xFFFFFEFF) & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFFEFFFF) & 0xFFFDFFFF) & 0xFFFBFFFF) & 0xFFF7FFFF) & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0x80FFFFFF) >> 1);
 	pmc->scratch106 = (32 * sdram->emc_cfg >> 31 << 31) | (2 * (((u16)(sdram->emc_pdex2mrr) << 24) | ((8 * sdram->emc_pmacro_ddll_periodic_offset >> 31 << 23) | ((16 * sdram->emc_pmacro_ddll_periodic_offset >> 31 << 22) | ((32 * sdram->emc_pmacro_ddll_periodic_offset >> 31 << 21) | ((sdram->emc_pmacro_ddll_periodic_offset << 6 >> 31 << 20) | ((sdram->emc_pmacro_ddll_periodic_offset << 7 >> 31 << 19) | ((sdram->emc_pmacro_ddll_periodic_offset << 8 >> 31 << 18) | ((sdram->emc_pmacro_ddll_periodic_offset << 9 >> 31 << 17) | ((sdram->emc_pmacro_ddll_periodic_offset << 10 >> 31 << 16) | ((sdram->emc_pmacro_ddll_periodic_offset << 11 >> 31 << 15) | ((sdram->emc_pmacro_ddll_periodic_offset << 15 >> 31 << 14) | ((sdram->emc_pmacro_ddll_periodic_offset << 16 >> 31 << 13) | ((sdram->emc_pmacro_ddll_periodic_offset << 17 >> 31 << 12) | ((sdram->emc_pmacro_ddll_periodic_offset << 18 >> 31 << 11) | ((sdram->emc_pmacro_ddll_periodic_offset << 19 >> 31 << 10) | ((sdram->emc_pmacro_ddll_periodic_offset << 20 >> 31 << 9) | ((sdram->emc_pmacro_ddll_periodic_offset << 21 >> 31 << 8) | ((sdram->emc_pmacro_ddll_periodic_offset << 22 >> 31 << 7) | ((sdram->emc_pmacro_ddll_periodic_offset << 23 >> 31 << 6) | (sdram->emc_pmacro_ddll_periodic_offset & 0x3F | (pmc->scratch106 >> 6 << 6)) & 0xFFFFFFBF) & 0xFFFFFF7F) & 0xFFFFFEFF) & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFFEFFFF) & 0xFFFDFFFF) & 0xFFFBFFFF) & 0xFFF7FFFF) & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0x80FFFFFF) >> 1);
 	pmc->scratch107 = (8 * sdram->emc_cfg >> 31 << 31) | (2 * ((sdram->emc_clken_override << 15 >> 31 << 30) | ((sdram->emc_clken_override << 23 >> 31 << 29) | ((sdram->emc_clken_override << 24 >> 31 << 28) | ((sdram->emc_clken_override << 25 >> 31 << 27) | ((sdram->emc_clken_override << 28 >> 31 << 26) | ((sdram->emc_clken_override << 29 >> 31 << 25) | ((sdram->emc_clken_override << 30 >> 31 << 24) | ((sdram->mc_emem_arb_da_covers << 8 >> 24 << 16) | ((sdram->mc_emem_arb_da_covers << 16 >> 24 << 8) | (sdram->mc_emem_arb_da_covers & 0xFF | (pmc->scratch107 >> 8 << 8)) & 0xFFFF00FF) & 0xFF00FFFF) & 0xFEFFFFFF) & 0xFDFFFFFF) & 0xFBFFFFFF) & 0xF7FFFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 	pmc->scratch108 = (sdram->emc_rfc_pb << 23) | ((sdram->emc_xm2_comp_pad_ctrl >> 24 << 15) | ((sdram->emc_xm2_comp_pad_ctrl << 12 >> 24 << 7) | ((sdram->emc_xm2_comp_pad_ctrl << 20 >> 31 << 6) | (32 * (sdram->emc_xm2_comp_pad_ctrl << 22 >> 31) | (4 * (sdram->emc_xm2_comp_pad_ctrl << 25 >> 29) | (sdram->emc_xm2_comp_pad_ctrl & 3 | 4 * (pmc->scratch108 >> 2)) & 0xFFFFFFE3) & 0xFFFFFFDF) & 0xFFFFFFBF) & 0xFFFF807F) & 0xFF807FFF) & 0x7FFFFF;
 	pmc->scratch109 = (sdram->emc_cfg_update >> 31 << 31) | (2 * ((2 * sdram->emc_cfg_update >> 31 << 30) | ((4 * sdram->emc_cfg_update >> 31 << 29) | ((8 * sdram->emc_cfg_update >> 31 << 28) | ((sdram->emc_cfg_update << 21 >> 30 << 26) | ((sdram->emc_cfg_update << 23 >> 31 << 25) | ((sdram->emc_cfg_update << 29 >> 30 << 23) | ((sdram->emc_cfg_update << 22) & 0x7FFFFF | ((sdram->emc_auto_cal_config3 << 8 >> 28 << 18) | ((sdram->emc_auto_cal_config3 << 12 >> 28 << 14) | ((sdram->emc_auto_cal_config3 << 17 >> 25 << 7) | ((pmc->scratch109 >> 7 << 7) | sdram->emc_auto_cal_config3 & 0x7F) & 0xFFFFC07F) & 0xFFFC3FFF) & 0xFFC3FFFF) & 0xFFBFFFFF) & 0xFE7FFFFF) & 0xFDFFFFFF) & 0xF3FFFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 	pmc->scratch110 = (sdram->emc_rfc << 22) | ((sdram->emc_auto_cal_config4 << 8 >> 28 << 18) | ((sdram->emc_auto_cal_config4 << 12 >> 28 << 14) | ((sdram->emc_auto_cal_config4 << 17 >> 25 << 7) | (sdram->emc_auto_cal_config4 & 0x7F | (pmc->scratch110 >> 7 << 7)) & 0xFFFFC07F) & 0xFFFC3FFF) & 0xFFC3FFFF) & 0x3FFFFF;
 	pmc->scratch111 = ((u16)(sdram->emc_txsr) << 22) | ((sdram->emc_auto_cal_config5 << 8 >> 28 << 18) | ((sdram->emc_auto_cal_config5 << 12 >> 28 << 14) | ((sdram->emc_auto_cal_config5 << 17 >> 25 << 7) | ((pmc->scratch111 >> 7 << 7) | sdram->emc_auto_cal_config5 & 0x7F) & 0xFFFFC07F) & 0xFFFC3FFF) & 0xFFC3FFFF) & 0x3FFFFF;
 	pmc->scratch112 = (16 * sdram->emc_mc2emc_q >> 28 << 28) | ((sdram->emc_mc2emc_q << 21 >> 29 << 25) | ((sdram->emc_mc2emc_q << 22) & 0x1FFFFFF | ((sdram->emc_auto_cal_config6 << 8 >> 28 << 18) | ((sdram->emc_auto_cal_config6 << 12 >> 28 << 14) | ((sdram->emc_auto_cal_config6 << 17 >> 25 << 7) | (sdram->emc_auto_cal_config6 & 0x7F | (pmc->scratch112 >> 7 << 7)) & 0xFFFFC07F) & 0xFFFC3FFF) & 0xFFC3FFFF) & 0xFE3FFFFF) & 0xF1FFFFFF) & 0xFFFFFFF;
 	pmc->scratch113 = (sdram->mc_emem_arb_ring1_throttle << 11 >> 27 << 27) | ((sdram->mc_emem_arb_ring1_throttle << 22) | ((sdram->emc_auto_cal_config7 << 8 >> 28 << 18) | ((sdram->emc_auto_cal_config7 << 12 >> 28 << 14) | ((sdram->emc_auto_cal_config7 << 17 >> 25 << 7) | (sdram->emc_auto_cal_config7 & 0x7F | (pmc->scratch113 >> 7 << 7)) & 0xFFFFC07F) & 0xFFFC3FFF) & 0xFFC3FFFF) & 0xF83FFFFF) & 0x7FFFFFF;
 	pmc->scratch114 = (sdram->emc_auto_cal_config8 << 8 >> 28 << 18) | ((sdram->emc_auto_cal_config8 << 12 >> 28 << 14) | ((sdram->emc_auto_cal_config8 << 17 >> 25 << 7) | (sdram->emc_auto_cal_config8 & 0x7F | (pmc->scratch114 >> 7 << 7)) & 0xFFFFC07F) & 0xFFFC3FFF) & 0xFFC3FFFF;
 	pmc->scratch115 = (4 * sdram->emc_cfg >> 31 << 31) | (2 * (((u16)(sdram->emc_ar2pden) << 22) | ((sdram->emc_fbio_cfg7 << 10 >> 30 << 20) | ((sdram->emc_fbio_cfg7 << 12 >> 31 << 19) | ((sdram->emc_fbio_cfg7 << 13 >> 31 << 18) | ((sdram->emc_fbio_cfg7 << 14 >> 31 << 17) | ((sdram->emc_fbio_cfg7 << 15 >> 31 << 16) | ((sdram->emc_fbio_cfg7 << 16 >> 31 << 15) | ((sdram->emc_fbio_cfg7 << 17 >> 31 << 14) | ((sdram->emc_fbio_cfg7 << 18 >> 31 << 13) | ((sdram->emc_fbio_cfg7 << 19 >> 31 << 12) | ((sdram->emc_fbio_cfg7 << 20 >> 31 << 11) | ((sdram->emc_fbio_cfg7 << 21 >> 31 << 10) | ((sdram->emc_fbio_cfg7 << 22 >> 31 << 9) | ((sdram->emc_fbio_cfg7 << 23 >> 31 << 8) | ((sdram->emc_fbio_cfg7 << 24 >> 31 << 7) | ((sdram->emc_fbio_cfg7 << 25 >> 31 << 6) | (32 * (sdram->emc_fbio_cfg7 << 26 >> 31) | (16 * (sdram->emc_fbio_cfg7 << 27 >> 31) | (8 * (sdram->emc_fbio_cfg7 << 28 >> 31) | (4 * (sdram->emc_fbio_cfg7 << 29 >> 31) | (2 * (sdram->emc_fbio_cfg7 << 30 >> 31) | (sdram->emc_fbio_cfg7 & 1 | 2 * (pmc->scratch115 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFFBF) & 0xFFFFFF7F) & 0xFFFFFEFF) & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFFEFFFF) & 0xFFFDFFFF) & 0xFFFBFFFF) & 0xFFF7FFFF) & 0xFFCFFFFF) & 0x803FFFFF) >> 1);
 	pmc->scratch123 = (2 * sdram->emc_cfg >> 31 << 31) | (2 * ((sdram->emc_rfc_slr << 22) | ((32 * sdram->emc_pmacro_quse_ddll_rank0_0 >> 21 << 11) | (sdram->emc_pmacro_quse_ddll_rank0_0 & 0x7FF | (pmc->scratch123 >> 11 << 11)) & 0xFFC007FF) & 0x803FFFFF) >> 1);
 	pmc->scratch124 = (sdram->emc_cfg >> 31 << 31) | (2 * ((4 * sdram->emc_ibdly >> 30 << 29) | ((sdram->emc_ibdly << 22) & 0x1FFFFFFF | ((32 * sdram->emc_pmacro_quse_ddll_rank0_1 >> 21 << 11) | (sdram->emc_pmacro_quse_ddll_rank0_1 & 0x7FF | (pmc->scratch124 >> 11 << 11)) & 0xFFC007FF) & 0xE03FFFFF) & 0x9FFFFFFF) >> 1);
 	pmc->scratch125 = (sdram->emc_fbio_cfg5 << 27 >> 31 << 31) | (2 * (((u16)(sdram->mc_emem_arb_timing_rfcpb) << 22) | ((32 * sdram->emc_pmacro_quse_ddll_rank0_2 >> 21 << 11) | (sdram->emc_pmacro_quse_ddll_rank0_2 & 0x7FF | (pmc->scratch125 >> 11 << 11)) & 0xFFC007FF) & 0x803FFFFF) >> 1);
 	pmc->scratch126 = (sdram->emc_fbio_cfg5 << 16 >> 29 << 29) | ((sdram->emc_auto_cal_config9 << 25 >> 31 << 28) | ((sdram->emc_auto_cal_config9 << 26 >> 31 << 27) | ((sdram->emc_auto_cal_config9 << 27 >> 31 << 26) | ((sdram->emc_auto_cal_config9 << 28 >> 31 << 25) | ((sdram->emc_auto_cal_config9 << 29 >> 31 << 24) | ((sdram->emc_auto_cal_config9 << 30 >> 31 << 23) | ((sdram->emc_auto_cal_config9 << 22) & 0x7FFFFF | ((32 * sdram->emc_pmacro_quse_ddll_rank0_3 >> 21 << 11) | (sdram->emc_pmacro_quse_ddll_rank0_3 & 0x7FF | (pmc->scratch126 >> 11 << 11)) & 0xFFC007FF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0xFEFFFFFF) & 0xFDFFFFFF) & 0xFBFFFFFF) & 0xF7FFFFFF) & 0xEFFFFFFF) & 0x1FFFFFFF;
 	pmc->scratch127 = ((u8)(sdram->emc_cfg2) << 26 >> 29 << 29) | ((sdram->emc_rdv_mask << 22) | ((32 * sdram->emc_pmacro_quse_ddll_rank0_4 >> 21 << 11) | (sdram->emc_pmacro_quse_ddll_rank0_4 & 0x7FF | (pmc->scratch127 >> 11 << 11)) & 0xFFC007FF) & 0xE03FFFFF) & 0x1FFFFFFF;
 	pmc->scratch128 = (sdram->emc_pmacro_cmd_pad_tx_ctrl << 27 >> 29 << 29) | (((u8)(sdram->emc_rdv_early_mask) << 22) | ((32 * sdram->emc_pmacro_quse_ddll_rank0_5 >> 21 << 11) | (sdram->emc_pmacro_quse_ddll_rank0_5 & 0x7FF | (pmc->scratch128 >> 11 << 11)) & 0xFFC007FF) & 0xE03FFFFF) & 0x1FFFFFFF;
 	pmc->scratch129 = (sdram->emc_pmacro_cmd_pad_tx_ctrl << 22 >> 29 << 29) | ((sdram->emc_rdv_early << 22) | ((32 * sdram->emc_pmacro_quse_ddll_rank1_0 >> 21 << 11) | (sdram->emc_pmacro_quse_ddll_rank1_0 & 0x7FF | (pmc->scratch129 >> 11 << 11)) & 0xFFC007FF) & 0xE03FFFFF) & 0x1FFFFFFF;
 	pmc->scratch130 = (sdram->emc_pmacro_cmd_pad_tx_ctrl << 17 >> 29 << 29) | ((4 * sdram->emc_quse_width >> 31 << 28) | ((8 * sdram->emc_quse_width >> 31 << 27) | ((sdram->emc_quse_width << 22) & 0x7FFFFFF | ((32 * sdram->emc_pmacro_quse_ddll_rank1_1 >> 21 << 11) | (sdram->emc_pmacro_quse_ddll_rank1_1 & 0x7FF | (pmc->scratch130 >> 11 << 11)) & 0xFFC007FF) & 0xF83FFFFF) & 0xF7FFFFFF) & 0xEFFFFFFF) & 0x1FFFFFFF;
 	pmc->scratch131 = (sdram->emc_pmacro_cmd_pad_tx_ctrl << 12 >> 29 << 29) | (((u16)(sdram->emc_pmacro_ddll_short_cmd_2) << 22) | ((32 * sdram->emc_pmacro_quse_ddll_rank1_2 >> 21 << 11) | (sdram->emc_pmacro_quse_ddll_rank1_2 & 0x7FF | (pmc->scratch131 >> 11 << 11)) & 0xFFC007FF) & 0xE03FFFFF) & 0x1FFFFFFF;
 	pmc->scratch132 = (sdram->emc_pmacro_data_pad_tx_ctrl << 27 >> 29 << 29) | ((sdram->emc_pmacro_cmd_rx_term_mode << 18 >> 31 << 28) | ((sdram->emc_pmacro_cmd_rx_term_mode << 22 >> 30 << 26) | ((sdram->emc_pmacro_cmd_rx_term_mode << 26 >> 30 << 24) | ((sdram->emc_pmacro_cmd_rx_term_mode << 22) & 0xFFFFFF | ((32 * sdram->emc_pmacro_quse_ddll_rank1_3 >> 21 << 11) | (sdram->emc_pmacro_quse_ddll_rank1_3 & 0x7FF | (pmc->scratch132 >> 11 << 11)) & 0xFFC007FF) & 0xFF3FFFFF) & 0xFCFFFFFF) & 0xF3FFFFFF) & 0xEFFFFFFF) & 0x1FFFFFFF;
 	pmc->scratch133 = (sdram->emc_pmacro_data_pad_tx_ctrl << 22 >> 29 << 29) | ((sdram->emc_pmacro_data_rx_term_mode << 18 >> 31 << 28) | ((sdram->emc_pmacro_data_rx_term_mode << 22 >> 30 << 26) | ((sdram->emc_pmacro_data_rx_term_mode << 26 >> 30 << 24) | ((sdram->emc_pmacro_data_rx_term_mode << 22) & 0xFFFFFF | ((32 * sdram->emc_pmacro_quse_ddll_rank1_4 >> 21 << 11) | (sdram->emc_pmacro_quse_ddll_rank1_4 & 0x7FF | (pmc->scratch133 >> 11 << 11)) & 0xFFC007FF) & 0xFF3FFFFF) & 0xFCFFFFFF) & 0xF3FFFFFF) & 0xEFFFFFFF) & 0x1FFFFFFF;
 	pmc->scratch134 = (sdram->emc_pmacro_data_pad_tx_ctrl << 17 >> 29 << 29) | ((sdram->mc_emem_arb_timing_rp << 22) | ((32 * sdram->emc_pmacro_quse_ddll_rank1_5 >> 21 << 11) | (sdram->emc_pmacro_quse_ddll_rank1_5 & 0x7FF | (pmc->scratch134 >> 11 << 11)) & 0xFFC007FF) & 0xE03FFFFF) & 0x1FFFFFFF;
 	pmc->scratch135 = (sdram->emc_pmacro_data_pad_tx_ctrl << 12 >> 29 << 29) | ((sdram->mc_emem_arb_timing_ras << 22) | ((32 * sdram->emc_pmacro_ob_ddll_long_dq_rank0_0 >> 21 << 11) | (sdram->emc_pmacro_ob_ddll_long_dq_rank0_0 & 0x7FF | (pmc->scratch135 >> 11 << 11)) & 0xFFC007FF) & 0xE03FFFFF) & 0x1FFFFFFF;
 	pmc->scratch136 = (sdram->emc_fbio_cfg5 << 23 >> 31 << 31) | (2 * ((sdram->emc_cfg << 14 >> 30 << 29) | ((sdram->mc_emem_arb_timing_faw << 22) & 0x1FFFFFFF | ((32 * sdram->emc_pmacro_ob_ddll_long_dq_rank0_1 >> 21 << 11) | (sdram->emc_pmacro_ob_ddll_long_dq_rank0_1 & 0x7FF | (pmc->scratch136 >> 11 << 11)) & 0xFFC007FF) & 0xE03FFFFF) & 0x9FFFFFFF) >> 1);
 	pmc->scratch137 = (sdram->emc_fbio_cfg5 << 21 >> 31 << 31) | (2 * ((sdram->emc_fbio_cfg5 << 29) | ((sdram->mc_emem_arb_timing_rap2pre << 22) & 0x1FFFFFFF | ((32 * sdram->emc_pmacro_ob_ddll_long_dq_rank0_2 >> 21 << 11) | (sdram->emc_pmacro_ob_ddll_long_dq_rank0_2 & 0x7FF | (pmc->scratch137 >> 11 << 11)) & 0xFFC007FF) & 0xE03FFFFF) & 0x9FFFFFFF) >> 1);
 	pmc->scratch138 = (sdram->emc_fbio_cfg5 << 19 >> 31 << 31) | (2 * ((sdram->emc_fbio_cfg5 << 28 >> 30 << 29) | ((sdram->mc_emem_arb_timing_wap2pre << 22) & 0x1FFFFFFF | ((32 * sdram->emc_pmacro_ob_ddll_long_dq_rank0_3 >> 21 << 11) | (sdram->emc_pmacro_ob_ddll_long_dq_rank0_3 & 0x7FF | (pmc->scratch138 >> 11 << 11)) & 0xFFC007FF) & 0xE03FFFFF) & 0x9FFFFFFF) >> 1);
 	pmc->scratch139 = (sdram->emc_fbio_cfg5 << 7 >> 31 << 31) | (2 * ((16 * sdram->emc_cfg2 >> 30 << 29) | (((u8)(sdram->mc_emem_arb_timing_r2w) << 22) & 0x1FFFFFFF | ((32 * sdram->emc_pmacro_ob_ddll_long_dq_rank0_4 >> 21 << 11) | (sdram->emc_pmacro_ob_ddll_long_dq_rank0_4 & 0x7FF | (pmc->scratch139 >> 11 << 11)) & 0xFFC007FF) & 0xE03FFFFF) & 0x9FFFFFFF) >> 1);
 	pmc->scratch140 = (16 * sdram->emc_fbio_cfg5 >> 31 << 31) | (2 * ((32 * sdram->emc_fbio_cfg5 >> 31 << 30) | ((sdram->emc_fbio_cfg5 << 6 >> 31 << 29) | (((u8)(sdram->mc_emem_arb_timing_w2r) << 22) & 0x1FFFFFFF | ((32 * sdram->emc_pmacro_ob_ddll_long_dq_rank0_5 >> 21 << 11) | (sdram->emc_pmacro_ob_ddll_long_dq_rank0_5 & 0x7FF | (pmc->scratch140 >> 11 << 11)) & 0xFFC007FF) & 0xE03FFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 	pmc->scratch141 = (sdram->emc_fbio_cfg5 << 8 >> 28 << 28) | (((u16)(sdram->emc_wdv) << 22) | ((32 * sdram->emc_pmacro_ob_ddll_long_dq_rank1_0 >> 21 << 11) | (sdram->emc_pmacro_ob_ddll_long_dq_rank1_0 & 0x7FF | (pmc->scratch141 >> 11 << 11)) & 0xFFC007FF) & 0xF03FFFFF) & 0xFFFFFFF;
 	pmc->scratch142 = ((u8)(sdram->emc_cfg2) << 31) | (2 * ((sdram->emc_fbio_cfg5 >> 31 << 30) | ((2 * sdram->emc_fbio_cfg5 >> 31 << 29) | ((8 * sdram->emc_fbio_cfg5 >> 31 << 28) | ((sdram->emc_quse << 22) & 0xFFFFFFF | ((32 * sdram->emc_pmacro_ob_ddll_long_dq_rank1_1 >> 21 << 11) | (sdram->emc_pmacro_ob_ddll_long_dq_rank1_1 & 0x7FF | (pmc->scratch142 >> 11 << 11)) & 0xFFC007FF) & 0xF03FFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 	pmc->scratch143 = (((u16)(sdram->emc_cfg2) << 21) >> 31 << 31) | (2 * ((((u16)(sdram->emc_cfg2) << 24) >> 31 << 30) | ((((u16)(sdram->emc_cfg2) << 29) >> 31 << 29) | ((((u16)(sdram->emc_cfg2) << 30) >> 31 << 28) | (((u8)(sdram->emc_pdex2wr) << 22) & 0xFFFFFFF | ((32 * sdram->emc_pmacro_ob_ddll_long_dq_rank1_2 >> 21 << 11) | (sdram->emc_pmacro_ob_ddll_long_dq_rank1_2 & 0x7FF | (pmc->scratch143 >> 11 << 11)) & 0xFFC007FF) & 0xF03FFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 	pmc->scratch144 = (sdram->emc_cfg2 << 15 >> 31 << 31) | (2 * ((sdram->emc_cfg2 << 16 >> 31 << 30) | ((sdram->emc_cfg2 << 17 >> 31 << 29) | ((sdram->emc_cfg2 << 20 >> 31 << 28) | (((u8)(sdram->emc_pdex2rd) << 22) & 0xFFFFFFF | ((32 * sdram->emc_pmacro_ob_ddll_long_dq_rank1_3 >> 21 << 11) | (sdram->emc_pmacro_ob_ddll_long_dq_rank1_3 & 0x7FF | (pmc->scratch144 >> 11 << 11)) & 0xFFC007FF) & 0xF03FFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 	pmc->scratch145 = (sdram->emc_cfg2 << 7 >> 31 << 31) | (2 * ((sdram->emc_cfg2 << 8 >> 31 << 30) | ((sdram->emc_cfg2 << 9 >> 31 << 29) | ((sdram->emc_cfg2 << 11 >> 31 << 28) | (((u16)(sdram->emc_pdex2che) << 22) & 0xFFFFFFF | ((32 * sdram->emc_pmacro_ob_ddll_long_dq_rank1_4 >> 21 << 11) | (sdram->emc_pmacro_ob_ddll_long_dq_rank1_4 & 0x7FF | (pmc->scratch145 >> 11 << 11)) & 0xFFC007FF) & 0xF03FFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 	pmc->scratch146 = (2 * sdram->emc_cfg2 >> 31 << 31) | (2 * ((4 * sdram->emc_cfg2 >> 31 << 30) | (((sdram->emc_cfg2 << 6 >> 31 << 28) | (((u8)(sdram->emc_pchg2pden) << 22) & 0xFFFFFFF | ((32 * sdram->emc_pmacro_ob_ddll_long_dq_rank1_5 >> 21 << 11) | (sdram->emc_pmacro_ob_ddll_long_dq_rank1_5 & 0x7FF | (pmc->scratch146 >> 11 << 11)) & 0xFFC007FF) & 0xF03FFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF | (8 * sdram->emc_cfg2 >> 31 << 29)) & 0xBFFFFFFF) >> 1);
 	pmc->scratch147 = (((u8)(sdram->emc_cfg_pipe) << 29) >> 31 << 31) | (2 * ((((u8)(sdram->emc_cfg_pipe) << 30) >> 31 << 30) | ((((u8)(sdram->emc_cfg_pipe) << 31) >> 2) | ((sdram->emc_cfg2 >> 31 << 28) | (((u16)(sdram->emc_act2pden) << 22) & 0xFFFFFFF | ((32 * sdram->emc_pmacro_ob_ddll_long_dqs_rank0_0 >> 21 << 11) | (sdram->emc_pmacro_ob_ddll_long_dqs_rank0_0 & 0x7FF | (pmc->scratch147 >> 11 << 11)) & 0xFFC007FF) & 0xF03FFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 	pmc->scratch148 = (((u8)(sdram->emc_cfg_pipe) << 25) >> 31 << 31) | (2 * ((((u8)(sdram->emc_cfg_pipe) << 26) >> 31 << 30) | ((((u8)(sdram->emc_cfg_pipe) << 27) >> 31 << 29) | ((((u8)(sdram->emc_cfg_pipe) << 28) >> 31 << 28) | (((u16)(sdram->emc_cke2pden) << 22) & 0xFFFFFFF | ((32 * sdram->emc_pmacro_ob_ddll_long_dqs_rank0_1 >> 21 << 11) | (sdram->emc_pmacro_ob_ddll_long_dqs_rank0_1 & 0x7FF | (pmc->scratch148 >> 11 << 11)) & 0xFFC007FF) & 0xF03FFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 	pmc->scratch149 = (((u16)(sdram->emc_cfg_pipe) << 21) >> 31 << 31) | (2 * ((((u16)(sdram->emc_cfg_pipe) << 22) >> 31 << 30) | ((((u16)(sdram->emc_cfg_pipe) << 23) >> 31 << 29) | ((((u16)(sdram->emc_cfg_pipe) << 24) >> 31 << 28) | ((sdram->emc_tcke << 22) & 0xFFFFFFF | ((32 * sdram->emc_pmacro_ob_ddll_long_dqs_rank0_2 >> 21 << 11) | (sdram->emc_pmacro_ob_ddll_long_dqs_rank0_2 & 0x7FF | (pmc->scratch149 >> 11 << 11)) & 0xFFC007FF) & 0xF03FFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 	pmc->scratch150 = (sdram->emc_cfg_pipe << 13 >> 31 << 31) | (2 * ((sdram->emc_cfg_pipe << 14 >> 31 << 30) | (((sdram->emc_cfg_pipe << 20 >> 31 << 28) | ((sdram->emc_trpab << 22) & 0xFFFFFFF | ((32 * sdram->emc_pmacro_ob_ddll_long_dqs_rank0_3 >> 21 << 11) | (sdram->emc_pmacro_ob_ddll_long_dqs_rank0_3 & 0x7FF | (pmc->scratch150 >> 11 << 11)) & 0xFFC007FF) & 0xF03FFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF | (sdram->emc_cfg_pipe << 15 >> 31 << 29)) & 0xBFFFFFFF) >> 1);
 	pmc->scratch151 = (sdram->emc_cfg_pipe << 9 >> 31 << 31) | (2 * ((sdram->emc_cfg_pipe << 10 >> 31 << 30) | ((sdram->emc_cfg_pipe << 11 >> 31 << 29) | ((sdram->emc_cfg_pipe << 12 >> 31 << 28) | ((sdram->emc_einput << 22) & 0xFFFFFFF | ((32 * sdram->emc_pmacro_ob_ddll_long_dqs_rank0_4 >> 21 << 11) | (sdram->emc_pmacro_ob_ddll_long_dqs_rank0_4 & 0x7FF | (pmc->scratch151 >> 11 << 11)) & 0xFFC007FF) & 0xF03FFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 	pmc->scratch152 = (32 * sdram->emc_cfg_pipe >> 31 << 31) | (2 * ((sdram->emc_cfg_pipe << 6 >> 31 << 30) | ((sdram->emc_cfg_pipe << 7 >> 31 << 29) | ((sdram->emc_cfg_pipe << 8 >> 31 << 28) | ((sdram->emc_einput_duration << 22) & 0xFFFFFFF | ((32 * sdram->emc_pmacro_ob_ddll_long_dqs_rank0_5 >> 21 << 11) | (sdram->emc_pmacro_ob_ddll_long_dqs_rank0_5 & 0x7FF | (pmc->scratch152 >> 11 << 11)) & 0xFFC007FF) & 0xF03FFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 	pmc->scratch153 = (((u16)(sdram->emc_pmacro_tx_sel_clk_src0) << 29) >> 31 << 31) | (2 * ((((u16)(sdram->emc_pmacro_tx_sel_clk_src0) << 30) >> 31 << 30) | ((((u16)(sdram->emc_pmacro_tx_sel_clk_src0) << 31) >> 2) | ((16 * sdram->emc_cfg_pipe >> 31 << 28) | ((sdram->emc_puterm_extra << 22) & 0xFFFFFFF | ((32 * sdram->emc_pmacro_ob_ddll_long_dqs_rank1_0 >> 21 << 11) | (sdram->emc_pmacro_ob_ddll_long_dqs_rank1_0 & 0x7FF | (pmc->scratch153 >> 11 << 11)) & 0xFFC007FF) & 0xF03FFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 	pmc->scratch154 = (((u16)(sdram->emc_pmacro_tx_sel_clk_src0) << 25) >> 31 << 31) | (2 * ((((u16)(sdram->emc_pmacro_tx_sel_clk_src0) << 26) >> 31 << 30) | (((((u16)(sdram->emc_pmacro_tx_sel_clk_src0) << 28) >> 31 << 28) | ((sdram->emc_tckesr << 22) & 0xFFFFFFF | ((32 * sdram->emc_pmacro_ob_ddll_long_dqs_rank1_1 >> 21 << 11) | (sdram->emc_pmacro_ob_ddll_long_dqs_rank1_1 & 0x7FF | (pmc->scratch154 >> 11 << 11)) & 0xFFC007FF) & 0xF03FFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF | (((u16)(sdram->emc_pmacro_tx_sel_clk_src0) << 27) >> 31 << 29)) & 0xBFFFFFFF) >> 1);
 	pmc->scratch155 = (((u16)(sdram->emc_pmacro_tx_sel_clk_src0) << 21) >> 31 << 31) | (2 * ((((u16)(sdram->emc_pmacro_tx_sel_clk_src0) << 22) >> 31 << 30) | ((((u16)(sdram->emc_pmacro_tx_sel_clk_src0) << 23) >> 31 << 29) | ((((u16)(sdram->emc_pmacro_tx_sel_clk_src0) << 24) >> 31 << 28) | ((sdram->emc_tpd << 22) & 0xFFFFFFF | ((32 * sdram->emc_pmacro_ob_ddll_long_dqs_rank1_2 >> 21 << 11) | (sdram->emc_pmacro_ob_ddll_long_dqs_rank1_2 & 0x7FF | (pmc->scratch155 >> 11 << 11)) & 0xFFC007FF) & 0xF03FFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 	pmc->scratch156 = (sdram->emc_pmacro_tx_sel_clk_src0 << 12 >> 31 << 31) | (2 * ((sdram->emc_pmacro_tx_sel_clk_src0 << 13 >> 31 << 30) | ((sdram->emc_pmacro_tx_sel_clk_src0 << 14 >> 31 << 29) | ((sdram->emc_pmacro_tx_sel_clk_src0 << 15 >> 31 << 28) | ((sdram->emc_wdv_mask << 22) & 0xFFFFFFF | ((32 * sdram->emc_pmacro_ob_ddll_long_dqs_rank1_3 >> 21 << 11) | (sdram->emc_pmacro_ob_ddll_long_dqs_rank1_3 & 0x7FF | (pmc->scratch156 >> 11 << 11)) & 0xFFC007FF) & 0xF03FFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 	pmc->scratch157 = (sdram->emc_pmacro_tx_sel_clk_src0 << 8 >> 31 << 31) | (2 * ((sdram->emc_pmacro_tx_sel_clk_src0 << 9 >> 31 << 30) | ((sdram->emc_pmacro_tx_sel_clk_src0 << 10 >> 31 << 29) | ((sdram->emc_pmacro_tx_sel_clk_src0 << 11 >> 31 << 28) | (((u16)(sdram->emc_wdv_chk) << 22) & 0xFFFFFFF | ((32 * sdram->emc_pmacro_ob_ddll_long_dqs_rank1_4 >> 21 << 11) | (sdram->emc_pmacro_ob_ddll_long_dqs_rank1_4 & 0x7FF | (pmc->scratch157 >> 11 << 11)) & 0xFFC007FF) & 0xF03FFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 	pmc->scratch158 = ((u16)(sdram->emc_pmacro_tx_sel_clk_src1) << 31) | (2 * ((32 * sdram->emc_pmacro_tx_sel_clk_src0 >> 31 << 30) | ((sdram->emc_pmacro_tx_sel_clk_src0 << 6 >> 31 << 29) | ((sdram->emc_pmacro_tx_sel_clk_src0 << 7 >> 31 << 28) | (((u8)(sdram->emc_cmd_brlshft0) << 26 >> 29 << 25) | (((u8)(sdram->emc_cmd_brlshft0) << 22) & 0x1FFFFFF | ((32 * sdram->emc_pmacro_ob_ddll_long_dqs_rank1_5 >> 21 << 11) | (sdram->emc_pmacro_ob_ddll_long_dqs_rank1_5 & 0x7FF | (pmc->scratch158 >> 11 << 11)) & 0xFFC007FF) & 0xFE3FFFFF) & 0xF1FFFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 	pmc->scratch159 = (((u16)(sdram->emc_pmacro_tx_sel_clk_src1) << 27) >> 31 << 31) | (2 * ((((u16)(sdram->emc_pmacro_tx_sel_clk_src1) << 28) >> 31 << 30) | ((((u16)(sdram->emc_pmacro_tx_sel_clk_src1) << 29) >> 31 << 29) | ((((u16)(sdram->emc_pmacro_tx_sel_clk_src1) << 30) >> 31 << 28) | (((u8)(sdram->emc_cmd_brlshft1) << 26 >> 29 << 25) | (((u8)(sdram->emc_cmd_brlshft1) << 22) & 0x1FFFFFF | ((32 * sdram->emc_pmacro_ib_ddll_long_dqs_rank0_0 >> 21 << 11) | (sdram->emc_pmacro_ib_ddll_long_dqs_rank0_0 & 0x7FF | (pmc->scratch159 >> 11 << 11)) & 0xFFC007FF) & 0xFE3FFFFF) & 0xF1FFFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 	pmc->scratch160 = (((u16)(sdram->emc_pmacro_tx_sel_clk_src1) << 23) >> 31 << 31) | (2 * ((((u16)(sdram->emc_pmacro_tx_sel_clk_src1) << 24) >> 31 << 30) | ((((u16)(sdram->emc_pmacro_tx_sel_clk_src1) << 25) >> 31 << 29) | ((((u16)(sdram->emc_pmacro_tx_sel_clk_src1) << 26) >> 31 << 28) | (((u8)(sdram->emc_cmd_brlshft2) << 26 >> 29 << 25) | (((u8)(sdram->emc_cmd_brlshft2) << 22) & 0x1FFFFFF | ((32 * sdram->emc_pmacro_ib_ddll_long_dqs_rank0_1 >> 21 << 11) | (sdram->emc_pmacro_ib_ddll_long_dqs_rank0_1 & 0x7FF | (pmc->scratch160 >> 11 << 11)) & 0xFFC007FF) & 0xFE3FFFFF) & 0xF1FFFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 	pmc->scratch161 = (sdram->emc_pmacro_tx_sel_clk_src1 << 14 >> 31 << 31) | (2 * ((sdram->emc_pmacro_tx_sel_clk_src1 << 15 >> 31 << 30) | ((sdram->emc_pmacro_tx_sel_clk_src1 << 21 >> 31 << 29) | ((sdram->emc_pmacro_tx_sel_clk_src1 << 22 >> 31 << 28) | (((u8)(sdram->emc_cmd_brlshft3) << 26 >> 29 << 25) | (((u8)(sdram->emc_cmd_brlshft3) << 22) & 0x1FFFFFF | ((32 * sdram->emc_pmacro_ib_ddll_long_dqs_rank0_2 >> 21 << 11) | (sdram->emc_pmacro_ib_ddll_long_dqs_rank0_2 & 0x7FF | (pmc->scratch161 >> 11 << 11)) & 0xFFC007FF) & 0xFE3FFFFF) & 0xF1FFFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 	pmc->scratch162 = (sdram->emc_pmacro_tx_sel_clk_src1 << 10 >> 31 << 31) | (2 * ((sdram->emc_pmacro_tx_sel_clk_src1 << 11 >> 31 << 30) | ((sdram->emc_pmacro_tx_sel_clk_src1 << 12 >> 31 << 29) | ((sdram->emc_pmacro_tx_sel_clk_src1 << 13 >> 31 << 28) | (((u16)(sdram->emc_wev) << 22) & 0xFFFFFFF | ((32 * sdram->emc_pmacro_ib_ddll_long_dqs_rank0_3 >> 21 << 11) | (sdram->emc_pmacro_ib_ddll_long_dqs_rank0_3 & 0x7FF | (pmc->scratch162 >> 11 << 11)) & 0xFFC007FF) & 0xF03FFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 	pmc->scratch163 = (sdram->emc_pmacro_tx_sel_clk_src1 << 6 >> 31 << 31) | (2 * ((sdram->emc_pmacro_tx_sel_clk_src1 << 7 >> 31 << 30) | ((sdram->emc_pmacro_tx_sel_clk_src1 << 8 >> 31 << 29) | ((sdram->emc_pmacro_tx_sel_clk_src1 << 9 >> 31 << 28) | (((u16)(sdram->emc_wsv) << 22) & 0xFFFFFFF | ((32 * sdram->emc_pmacro_ib_ddll_long_dqs_rank1_0 >> 21 << 11) | (sdram->emc_pmacro_ib_ddll_long_dqs_rank1_0 & 0x7FF | (pmc->scratch163 >> 11 << 11)) & 0xFFC007FF) & 0xF03FFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 	pmc->scratch164 = (((u16)(sdram->emc_pmacro_tx_sel_clk_src3) << 29) >> 31 << 31) | (2 * ((((u16)(sdram->emc_pmacro_tx_sel_clk_src3) << 30) >> 31 << 30) | ((((u16)(sdram->emc_pmacro_tx_sel_clk_src3) << 31) >> 2) | ((32 * sdram->emc_pmacro_tx_sel_clk_src1 >> 31 << 28) | (((u8)(sdram->emc_cfg3) << 25 >> 29 << 25) | (((u8)(sdram->emc_cfg3) << 22) & 0x1FFFFFF | ((32 * sdram->emc_pmacro_ib_ddll_long_dqs_rank1_1 >> 21 << 11) | (sdram->emc_pmacro_ib_ddll_long_dqs_rank1_1 & 0x7FF | (pmc->scratch164 >> 11 << 11)) & 0xFFC007FF) & 0xFE3FFFFF) & 0xF1FFFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 	pmc->scratch165 = (((u16)(sdram->emc_pmacro_tx_sel_clk_src3) << 25) >> 31 << 31) | (2 * ((((u16)(sdram->emc_pmacro_tx_sel_clk_src3) << 26) >> 31 << 30) | ((((u16)(sdram->emc_pmacro_tx_sel_clk_src3) << 27) >> 31 << 29) | ((((u16)(sdram->emc_pmacro_tx_sel_clk_src3) << 28) >> 31 << 28) | ((sdram->emc_puterm_width << 23) & 0xFFFFFFF | ((sdram->emc_puterm_width >> 31 << 22) | ((32 * sdram->emc_pmacro_ib_ddll_long_dqs_rank1_2 >> 21 << 11) | (sdram->emc_pmacro_ib_ddll_long_dqs_rank1_2 & 0x7FF | (pmc->scratch165 >> 11 << 11)) & 0xFFC007FF) & 0xFFBFFFFF) & 0xF07FFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 	pmc->scratch166 = (((u16)(sdram->emc_pmacro_tx_sel_clk_src3) << 21) >> 31 << 31) | (2 * ((((u16)(sdram->emc_pmacro_tx_sel_clk_src3) << 22) >> 31 << 30) | ((((u16)(sdram->emc_pmacro_tx_sel_clk_src3) << 23) >> 31 << 29) | ((((u16)(sdram->emc_pmacro_tx_sel_clk_src3) << 24) >> 31 << 28) | ((sdram->mc_emem_arb_timing_rcd << 22) & 0xFFFFFFF | ((32 * sdram->emc_pmacro_ib_ddll_long_dqs_rank1_3 >> 21 << 11) | (sdram->emc_pmacro_ib_ddll_long_dqs_rank1_3 & 0x7FF | (pmc->scratch166 >> 11 << 11)) & 0xFFC007FF) & 0xF03FFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 	pmc->scratch167 = (sdram->emc_pmacro_tx_sel_clk_src3 << 12 >> 31 << 31) | (2 * ((sdram->emc_pmacro_tx_sel_clk_src3 << 13 >> 31 << 30) | ((sdram->emc_pmacro_tx_sel_clk_src3 << 14 >> 31 << 29) | ((sdram->emc_pmacro_tx_sel_clk_src3 << 15 >> 31 << 28) | (((u16)(sdram->mc_emem_arb_timing_ccdmw) << 22) & 0xFFFFFFF | ((32 * sdram->emc_pmacro_ddll_long_cmd_0 >> 21 << 11) | (sdram->emc_pmacro_ddll_long_cmd_0 & 0x7FF | (pmc->scratch167 >> 11 << 11)) & 0xFFC007FF) & 0xF03FFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 	pmc->scratch168 = (sdram->emc_pmacro_tx_sel_clk_src3 << 8 >> 31 << 31) | (2 * ((sdram->emc_pmacro_tx_sel_clk_src3 << 9 >> 31 << 30) | ((sdram->emc_pmacro_tx_sel_clk_src3 << 10 >> 31 << 29) | ((sdram->emc_pmacro_tx_sel_clk_src3 << 11 >> 31 << 28) | ((sdram->mc_emem_arb_override << 28 >> 31 << 27) | (((sdram->mc_emem_arb_override << 21 >> 31 << 25) | ((sdram->mc_emem_arb_override << 15 >> 31 << 24) | ((32 * sdram->mc_emem_arb_override >> 31 << 23) | ((16 * sdram->mc_emem_arb_override >> 31 << 22) | ((32 * sdram->emc_pmacro_ddll_long_cmd_1 >> 21 << 11) | (sdram->emc_pmacro_ddll_long_cmd_1 & 0x7FF | (pmc->scratch168 >> 11 << 11)) & 0xFFC007FF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0xFEFFFFFF) & 0xFDFFFFFF) & 0xFBFFFFFF | (sdram->mc_emem_arb_override << 27 >> 31 << 26)) & 0xF7FFFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 	pmc->scratch169 = ((u16)(sdram->emc_rext) << 27) | (((u16)(sdram->emc_rrd) << 22) | ((32 * sdram->emc_pmacro_ddll_long_cmd_2 >> 21 << 11) | (sdram->emc_pmacro_ddll_long_cmd_2 & 0x7FF | (pmc->scratch169 >> 11 << 11)) & 0xFFC007FF) & 0xF83FFFFF) & 0x7FFFFFF;
 	pmc->scratch170 = ((u16)(sdram->emc_wext) << 27) | ((sdram->emc_tclkstop << 22) | ((32 * sdram->emc_pmacro_ddll_long_cmd_3 >> 21 << 11) | (sdram->emc_pmacro_ddll_long_cmd_3 & 0x7FF | (pmc->scratch170 >> 11 << 11)) & 0xFFC007FF) & 0xF83FFFFF) & 0x7FFFFFF;
 	tmp = (32 * sdram->emc_pmacro_perbit_fgcg_ctrl0 >> 31 << 21) | ((sdram->emc_pmacro_perbit_fgcg_ctrl0 << 6 >> 31 << 20) | ((sdram->emc_pmacro_perbit_fgcg_ctrl0 << 7 >> 31 << 19) | ((sdram->emc_pmacro_perbit_fgcg_ctrl0 << 8 >> 31 << 18) | ((sdram->emc_pmacro_perbit_fgcg_ctrl0 << 9 >> 31 << 17) | ((sdram->emc_pmacro_perbit_fgcg_ctrl0 << 10 >> 31 << 16) | ((sdram->emc_pmacro_perbit_fgcg_ctrl0 << 11 >> 31 << 15) | ((sdram->emc_pmacro_perbit_fgcg_ctrl0 << 12 >> 31 << 14) | ((sdram->emc_pmacro_perbit_fgcg_ctrl0 << 13 >> 31 << 13) | ((sdram->emc_pmacro_perbit_fgcg_ctrl0 << 14 >> 31 << 12) | ((sdram->emc_pmacro_perbit_fgcg_ctrl0 << 15 >> 31 << 11) | ((sdram->emc_pmacro_perbit_fgcg_ctrl0 << 21 >> 31 << 10) | ((sdram->emc_pmacro_perbit_fgcg_ctrl0 << 22 >> 31 << 9) | ((sdram->emc_pmacro_perbit_fgcg_ctrl0 << 23 >> 31 << 8) | ((sdram->emc_pmacro_perbit_fgcg_ctrl0 << 24 >> 31 << 7) | ((sdram->emc_pmacro_perbit_fgcg_ctrl0 << 25 >> 31 << 6) | (32 * (sdram->emc_pmacro_perbit_fgcg_ctrl0 << 26 >> 31) | (16 * (sdram->emc_pmacro_perbit_fgcg_ctrl0 << 27 >> 31) | (8 * (sdram->emc_pmacro_perbit_fgcg_ctrl0 << 28 >> 31) | (4 * (sdram->emc_pmacro_perbit_fgcg_ctrl0 << 29 >> 31) | (2 * (sdram->emc_pmacro_perbit_fgcg_ctrl0 << 30 >> 31) | (sdram->emc_pmacro_perbit_fgcg_ctrl0 & 1 | 2 * (pmc->scratch171 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFFBF) & 0xFFFFFF7F) & 0xFFFFFEFF) & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFFEFFFF) & 0xFFFDFFFF) & 0xFFFBFFFF) & 0xFFF7FFFF) & 0xFFEFFFFF) & 0xFFDFFFFF;
 	pmc->scratch171 = (sdram->emc_we_duration << 27) | ((sdram->emc_ref_ctrl2 >> 31 << 26) | ((32 * sdram->emc_ref_ctrl2 >> 29 << 23) | ((sdram->emc_ref_ctrl2 << 22) & 0x7FFFFF | tmp & 0xFFBFFFFF) & 0xFC7FFFFF) & 0xFBFFFFFF) & 0x7FFFFFF;
 	tmp = (sdram->emc_pmacro_pad_cfg_ctrl << 22 >> 31 << 28) | ((sdram->emc_pmacro_pad_cfg_ctrl << 27) & 0xFFFFFFF | ((sdram->emc_ws_duration << 22) & 0x7FFFFFF | ((32 * sdram->emc_pmacro_perbit_fgcg_ctrl1 >> 31 << 21) | ((sdram->emc_pmacro_perbit_fgcg_ctrl1 << 6 >> 31 << 20) | ((sdram->emc_pmacro_perbit_fgcg_ctrl1 << 7 >> 31 << 19) | ((sdram->emc_pmacro_perbit_fgcg_ctrl1 << 8 >> 31 << 18) | ((sdram->emc_pmacro_perbit_fgcg_ctrl1 << 9 >> 31 << 17) | ((sdram->emc_pmacro_perbit_fgcg_ctrl1 << 10 >> 31 << 16) | ((sdram->emc_pmacro_perbit_fgcg_ctrl1 << 11 >> 31 << 15) | ((sdram->emc_pmacro_perbit_fgcg_ctrl1 << 12 >> 31 << 14) | ((sdram->emc_pmacro_perbit_fgcg_ctrl1 << 13 >> 31 << 13) | ((sdram->emc_pmacro_perbit_fgcg_ctrl1 << 14 >> 31 << 12) | ((sdram->emc_pmacro_perbit_fgcg_ctrl1 << 15 >> 31 << 11) | ((sdram->emc_pmacro_perbit_fgcg_ctrl1 << 21 >> 31 << 10) | ((sdram->emc_pmacro_perbit_fgcg_ctrl1 << 22 >> 31 << 9) | ((sdram->emc_pmacro_perbit_fgcg_ctrl1 << 23 >> 31 << 8) | ((sdram->emc_pmacro_perbit_fgcg_ctrl1 << 24 >> 31 << 7) | ((sdram->emc_pmacro_perbit_fgcg_ctrl1 << 25 >> 31 << 6) | (32 * (sdram->emc_pmacro_perbit_fgcg_ctrl1 << 26 >> 31) | (16 * (sdram->emc_pmacro_perbit_fgcg_ctrl1 << 27 >> 31) | (8 * (sdram->emc_pmacro_perbit_fgcg_ctrl1 << 28 >> 31) | (4 * (sdram->emc_pmacro_perbit_fgcg_ctrl1 << 29 >> 31) | (2 * (sdram->emc_pmacro_perbit_fgcg_ctrl1 << 30 >> 31) | (sdram->emc_pmacro_perbit_fgcg_ctrl1 & 1 | 2 * (pmc->scratch172 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFFBF) & 0xFFFFFF7F) & 0xFFFFFEFF) & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFFEFFFF) & 0xFFFDFFFF) & 0xFFFBFFFF) & 0xFFF7FFFF) & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xF83FFFFF) & 0xF7FFFFFF) & 0xEFFFFFFF;
 	pmc->scratch172 = (sdram->emc_pmacro_pad_cfg_ctrl << 14 >> 30 << 30) | (4 * ((sdram->emc_pmacro_pad_cfg_ctrl << 18 >> 31 << 29) | tmp & 0xDFFFFFFF) >> 2);
 	pmc->scratch173 = ((u8)(sdram->mc_emem_arb_timing_r2r) << 27) | ((sdram->mc_emem_arb_timing_rrd << 22) | ((32 * sdram->emc_pmacro_perbit_fgcg_ctrl2 >> 31 << 21) | ((sdram->emc_pmacro_perbit_fgcg_ctrl2 << 6 >> 31 << 20) | ((sdram->emc_pmacro_perbit_fgcg_ctrl2 << 7 >> 31 << 19) | ((sdram->emc_pmacro_perbit_fgcg_ctrl2 << 8 >> 31 << 18) | ((sdram->emc_pmacro_perbit_fgcg_ctrl2 << 9 >> 31 << 17) | ((sdram->emc_pmacro_perbit_fgcg_ctrl2 << 10 >> 31 << 16) | ((sdram->emc_pmacro_perbit_fgcg_ctrl2 << 11 >> 31 << 15) | ((sdram->emc_pmacro_perbit_fgcg_ctrl2 << 12 >> 31 << 14) | ((sdram->emc_pmacro_perbit_fgcg_ctrl2 << 13 >> 31 << 13) | ((sdram->emc_pmacro_perbit_fgcg_ctrl2 << 14 >> 31 << 12) | ((sdram->emc_pmacro_perbit_fgcg_ctrl2 << 15 >> 31 << 11) | ((sdram->emc_pmacro_perbit_fgcg_ctrl2 << 21 >> 31 << 10) | ((sdram->emc_pmacro_perbit_fgcg_ctrl2 << 22 >> 31 << 9) | ((sdram->emc_pmacro_perbit_fgcg_ctrl2 << 23 >> 31 << 8) | ((sdram->emc_pmacro_perbit_fgcg_ctrl2 << 24 >> 31 << 7) | ((sdram->emc_pmacro_perbit_fgcg_ctrl2 << 25 >> 31 << 6) | (32 * (sdram->emc_pmacro_perbit_fgcg_ctrl2 << 26 >> 31) | (16 * (sdram->emc_pmacro_perbit_fgcg_ctrl2 << 27 >> 31) | (8 * (sdram->emc_pmacro_perbit_fgcg_ctrl2 << 28 >> 31) | (4 * (sdram->emc_pmacro_perbit_fgcg_ctrl2 << 29 >> 31) | (2 * (sdram->emc_pmacro_perbit_fgcg_ctrl2 << 30 >> 31) | (sdram->emc_pmacro_perbit_fgcg_ctrl2 & 1 | 2 * (pmc->scratch173 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFFBF) & 0xFFFFFF7F) & 0xFFFFFEFF) & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFFEFFFF) & 0xFFFDFFFF) & 0xFFFBFFFF) & 0xFFF7FFFF) & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xF83FFFFF) & 0x7FFFFFF;
 	tmp = 32 * (sdram->emc_pmacro_perbit_fgcg_ctrl3 << 26 >> 31) | (16 * (sdram->emc_pmacro_perbit_fgcg_ctrl3 << 27 >> 31) | (8 * (sdram->emc_pmacro_perbit_fgcg_ctrl3 << 28 >> 31) | (4 * (sdram->emc_pmacro_perbit_fgcg_ctrl3 << 29 >> 31) | (2 * (sdram->emc_pmacro_perbit_fgcg_ctrl3 << 30 >> 31) | (sdram->emc_pmacro_perbit_fgcg_ctrl3 & 1 | 2 * (pmc->scratch174 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFFFEF) & 0xFFFFFFDF;
 	pmc->scratch174 = ((u16)(sdram->emc_pmacro_tx_sel_clk_src2) << 30 >> 31 << 31) | (2 * (((u16)(sdram->emc_pmacro_tx_sel_clk_src2) << 30) | ((32 * sdram->emc_pmacro_tx_sel_clk_src3 >> 31 << 29) | ((sdram->emc_pmacro_tx_sel_clk_src3 << 6 >> 31 << 28) | ((sdram->emc_pmacro_tx_sel_clk_src3 << 7 >> 31 << 27) | (((u8)(sdram->mc_emem_arb_timing_w2w) << 22) & 0x7FFFFFF | ((32 * sdram->emc_pmacro_perbit_fgcg_ctrl3 >> 31 << 21) | ((sdram->emc_pmacro_perbit_fgcg_ctrl3 << 6 >> 31 << 20) | ((sdram->emc_pmacro_perbit_fgcg_ctrl3 << 7 >> 31 << 19) | ((sdram->emc_pmacro_perbit_fgcg_ctrl3 << 8 >> 31 << 18) | ((sdram->emc_pmacro_perbit_fgcg_ctrl3 << 9 >> 31 << 17) | ((sdram->emc_pmacro_perbit_fgcg_ctrl3 << 10 >> 31 << 16) | ((sdram->emc_pmacro_perbit_fgcg_ctrl3 << 11 >> 31 << 15) | ((sdram->emc_pmacro_perbit_fgcg_ctrl3 << 12 >> 31 << 14) | ((sdram->emc_pmacro_perbit_fgcg_ctrl3 << 13 >> 31 << 13) | ((sdram->emc_pmacro_perbit_fgcg_ctrl3 << 14 >> 31 << 12) | ((sdram->emc_pmacro_perbit_fgcg_ctrl3 << 15 >> 31 << 11) | ((sdram->emc_pmacro_perbit_fgcg_ctrl3 << 21 >> 31 << 10) | ((sdram->emc_pmacro_perbit_fgcg_ctrl3 << 22 >> 31 << 9) | ((sdram->emc_pmacro_perbit_fgcg_ctrl3 << 23 >> 31 << 8) | ((sdram->emc_pmacro_perbit_fgcg_ctrl3 << 24 >> 31 << 7) | ((sdram->emc_pmacro_perbit_fgcg_ctrl3 << 25 >> 31 << 6) | tmp & 0xFFFFFFBF) & 0xFFFFFF7F) & 0xFFFFFEFF) & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFFEFFFF) & 0xFFFDFFFF) & 0xFFFBFFFF) & 0xFFF7FFFF) & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xF83FFFFF) & 0xF7FFFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 	tmp = (sdram->emc_pmacro_tx_sel_clk_src2 << 28 >> 31 << 23) | ((sdram->emc_pmacro_tx_sel_clk_src2 << 29 >> 31 << 22) | ((32 * sdram->emc_pmacro_perbit_fgcg_ctrl4 >> 31 << 21) | ((sdram->emc_pmacro_perbit_fgcg_ctrl4 << 6 >> 31 << 20) | ((sdram->emc_pmacro_perbit_fgcg_ctrl4 << 7 >> 31 << 19) | ((sdram->emc_pmacro_perbit_fgcg_ctrl4 << 8 >> 31 << 18) | ((sdram->emc_pmacro_perbit_fgcg_ctrl4 << 9 >> 31 << 17) | ((sdram->emc_pmacro_perbit_fgcg_ctrl4 << 10 >> 31 << 16) | ((sdram->emc_pmacro_perbit_fgcg_ctrl4 << 11 >> 31 << 15) | ((sdram->emc_pmacro_perbit_fgcg_ctrl4 << 12 >> 31 << 14) | ((sdram->emc_pmacro_perbit_fgcg_ctrl4 << 13 >> 31 << 13) | ((sdram->emc_pmacro_perbit_fgcg_ctrl4 << 14 >> 31 << 12) | ((sdram->emc_pmacro_perbit_fgcg_ctrl4 << 15 >> 31 << 11) | ((sdram->emc_pmacro_perbit_fgcg_ctrl4 << 21 >> 31 << 10) | ((sdram->emc_pmacro_perbit_fgcg_ctrl4 << 22 >> 31 << 9) | ((sdram->emc_pmacro_perbit_fgcg_ctrl4 << 23 >> 31 << 8) | ((sdram->emc_pmacro_perbit_fgcg_ctrl4 << 24 >> 31 << 7) | ((sdram->emc_pmacro_perbit_fgcg_ctrl4 << 25 >> 31 << 6) | (32 * (sdram->emc_pmacro_perbit_fgcg_ctrl4 << 26 >> 31) | (16 * (sdram->emc_pmacro_perbit_fgcg_ctrl4 << 27 >> 31) | (8 * (sdram->emc_pmacro_perbit_fgcg_ctrl4 << 28 >> 31) | (4 * (sdram->emc_pmacro_perbit_fgcg_ctrl4 << 29 >> 31) | (2 * (sdram->emc_pmacro_perbit_fgcg_ctrl4 << 30 >> 31) | (sdram->emc_pmacro_perbit_fgcg_ctrl4 & 1 | 2 * (pmc->scratch175 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFFBF) & 0xFFFFFF7F) & 0xFFFFFEFF) & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFFEFFFF) & 0xFFFDFFFF) & 0xFFFBFFFF) & 0xFFF7FFFF) & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xFFBFFFFF) & 0xFF7FFFFF;
 	pmc->scratch175 = (sdram->emc_pmacro_tx_sel_clk_src2 << 15 >> 31 << 31) | (2 * ((sdram->emc_pmacro_tx_sel_clk_src2 << 21 >> 31 << 30) | ((sdram->emc_pmacro_tx_sel_clk_src2 << 22 >> 31 << 29) | ((sdram->emc_pmacro_tx_sel_clk_src2 << 23 >> 31 << 28) | ((sdram->emc_pmacro_tx_sel_clk_src2 << 24 >> 31 << 27) | ((sdram->emc_pmacro_tx_sel_clk_src2 << 25 >> 31 << 26) | ((sdram->emc_pmacro_tx_sel_clk_src2 << 26 >> 31 << 25) | ((sdram->emc_pmacro_tx_sel_clk_src2 << 27 >> 31 << 24) | tmp & 0xFEFFFFFF) & 0xFDFFFFFF) & 0xFBFFFFFF) & 0xF7FFFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 	tmp = (sdram->emc_pmacro_tx_sel_clk_src2 << 12 >> 31 << 24) | ((sdram->emc_pmacro_tx_sel_clk_src2 << 13 >> 31 << 23) | ((sdram->emc_pmacro_tx_sel_clk_src2 << 14 >> 31 << 22) | ((32 * sdram->emc_pmacro_perbit_fgcg_ctrl5 >> 31 << 21) | ((sdram->emc_pmacro_perbit_fgcg_ctrl5 << 6 >> 31 << 20) | ((sdram->emc_pmacro_perbit_fgcg_ctrl5 << 7 >> 31 << 19) | ((sdram->emc_pmacro_perbit_fgcg_ctrl5 << 8 >> 31 << 18) | ((sdram->emc_pmacro_perbit_fgcg_ctrl5 << 9 >> 31 << 17) | ((sdram->emc_pmacro_perbit_fgcg_ctrl5 << 10 >> 31 << 16) | ((sdram->emc_pmacro_perbit_fgcg_ctrl5 << 11 >> 31 << 15) | ((sdram->emc_pmacro_perbit_fgcg_ctrl5 << 12 >> 31 << 14) | ((sdram->emc_pmacro_perbit_fgcg_ctrl5 << 13 >> 31 << 13) | ((sdram->emc_pmacro_perbit_fgcg_ctrl5 << 14 >> 31 << 12) | ((sdram->emc_pmacro_perbit_fgcg_ctrl5 << 15 >> 31 << 11) | ((sdram->emc_pmacro_perbit_fgcg_ctrl5 << 21 >> 31 << 10) | ((sdram->emc_pmacro_perbit_fgcg_ctrl5 << 22 >> 31 << 9) | ((sdram->emc_pmacro_perbit_fgcg_ctrl5 << 23 >> 31 << 8) | ((sdram->emc_pmacro_perbit_fgcg_ctrl5 << 24 >> 31 << 7) | ((sdram->emc_pmacro_perbit_fgcg_ctrl5 << 25 >> 31 << 6) | (32 * (sdram->emc_pmacro_perbit_fgcg_ctrl5 << 26 >> 31) | (16 * (sdram->emc_pmacro_perbit_fgcg_ctrl5 << 27 >> 31) | (8 * (sdram->emc_pmacro_perbit_fgcg_ctrl5 << 28 >> 31) | (4 * (sdram->emc_pmacro_perbit_fgcg_ctrl5 << 29 >> 31) | (2 * (sdram->emc_pmacro_perbit_fgcg_ctrl5 << 30 >> 31) | (sdram->emc_pmacro_perbit_fgcg_ctrl5 & 1 | 2 * (pmc->scratch176 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFFBF) & 0xFFFFFF7F) & 0xFFFFFEFF) & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFFEFFFF) & 0xFFFDFFFF) & 0xFFFBFFFF) & 0xFFF7FFFF) & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0xFEFFFFFF;
 	pmc->scratch176 = (32 * sdram->emc_pmacro_tx_sel_clk_src2 >> 31 << 31) | (2 * ((sdram->emc_pmacro_tx_sel_clk_src2 << 6 >> 31 << 30) | ((sdram->emc_pmacro_tx_sel_clk_src2 << 7 >> 31 << 29) | ((sdram->emc_pmacro_tx_sel_clk_src2 << 8 >> 31 << 28) | ((sdram->emc_pmacro_tx_sel_clk_src2 << 9 >> 31 << 27) | ((sdram->emc_pmacro_tx_sel_clk_src2 << 10 >> 31 << 26) | ((sdram->emc_pmacro_tx_sel_clk_src2 << 11 >> 31 << 25) | tmp & 0xFDFFFFFF) & 0xFBFFFFFF) & 0xF7FFFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 	pmc->scratch177 = (sdram->emc_pmacro_tx_sel_clk_src4 << 22 >> 31 << 31) | (2 * ((sdram->emc_pmacro_tx_sel_clk_src4 << 23 >> 31 << 30) | ((sdram->emc_pmacro_tx_sel_clk_src4 << 24 >> 31 << 29) | ((sdram->emc_pmacro_tx_sel_clk_src4 << 25 >> 31 << 28) | ((sdram->emc_pmacro_tx_sel_clk_src4 << 26 >> 31 << 27) | ((sdram->emc_pmacro_tx_sel_clk_src4 << 27 >> 31 << 26) | ((sdram->emc_pmacro_tx_sel_clk_src4 << 28 >> 31 << 25) | ((sdram->emc_pmacro_tx_sel_clk_src4 << 29 >> 31 << 24) | ((sdram->emc_pmacro_tx_sel_clk_src4 << 30 >> 31 << 23) | ((sdram->emc_pmacro_tx_sel_clk_src4 << 22) & 0x7FFFFF | ((sdram->mc_emem_arb_cfg >> 28 << 18) | ((16 * sdram->mc_emem_arb_cfg >> 28 << 14) | ((sdram->mc_emem_arb_cfg << 11 >> 27 << 9) | (sdram->mc_emem_arb_cfg & 0x1FF | (pmc->scratch177 >> 9 << 9)) & 0xFFFFC1FF) & 0xFFFC3FFF) & 0xFFC3FFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0xFEFFFFFF) & 0xFDFFFFFF) & 0xFBFFFFFF) & 0xF7FFFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 	pmc->scratch178 = (sdram->emc_pmacro_tx_sel_clk_src4 << 7 >> 31 << 31) | (2 * ((sdram->emc_pmacro_tx_sel_clk_src4 << 8 >> 31 << 30) | ((sdram->emc_pmacro_tx_sel_clk_src4 << 9 >> 31 << 29) | ((sdram->emc_pmacro_tx_sel_clk_src4 << 10 >> 31 << 28) | ((sdram->emc_pmacro_tx_sel_clk_src4 << 11 >> 31 << 27) | ((sdram->emc_pmacro_tx_sel_clk_src4 << 12 >> 31 << 26) | ((sdram->emc_pmacro_tx_sel_clk_src4 << 13 >> 31 << 25) | ((sdram->emc_pmacro_tx_sel_clk_src4 << 14 >> 31 << 24) | ((sdram->emc_pmacro_tx_sel_clk_src4 << 15 >> 31 << 23) | ((sdram->emc_pmacro_tx_sel_clk_src4 << 21 >> 31 << 22) | ((sdram->mc_emem_arb_misc1 >> 28 << 18) | ((sdram->mc_emem_arb_misc1 << 6 >> 30 << 16) | ((sdram->mc_emem_arb_misc1 << 8 >> 29 << 13) | (16 * (sdram->mc_emem_arb_misc1 << 19 >> 23) | (8 * (sdram->mc_emem_arb_misc1 << 28 >> 31) | (4 * (sdram->mc_emem_arb_misc1 << 29 >> 31) | (2 * (sdram->mc_emem_arb_misc1 << 30 >> 31) | (sdram->mc_emem_arb_misc1 & 1 | 2 * (pmc->scratch178 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFE00F) & 0xFFFF1FFF) & 0xFFFCFFFF) & 0xFFC3FFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0xFEFFFFFF) & 0xFDFFFFFF) & 0xFBFFFFFF) & 0xF7FFFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 	pmc->scratch179 = (sdram->emc_odt_write >> 31 << 31) | (2 * ((sdram->emc_odt_write << 20 >> 28 << 27) | ((sdram->emc_odt_write << 26 >> 31 << 26) | ((sdram->emc_odt_write << 27 >> 31 << 25) | ((sdram->emc_odt_write << 21) & 0x1FFFFFF | ((32 * sdram->emc_mrs_wait_cnt2 >> 21 << 10) | (sdram->emc_mrs_wait_cnt2 & 0x3FF | (pmc->scratch179 >> 10 << 10)) & 0xFFE003FF) & 0xFE1FFFFF) & 0xFDFFFFFF) & 0xFBFFFFFF) & 0x87FFFFFF) >> 1);
 	pmc->scratch180 = (sdram->emc_pmacro_ib_rxrt << 21) | ((32 * sdram->emc_mrs_wait_cnt >> 21 << 10) | (sdram->emc_mrs_wait_cnt & 0x3FF | (pmc->scratch180 >> 10 << 10)) & 0xFFE003FF) & 0x1FFFFF;
 	pmc->scratch181 = ((u16)(sdram->emc_pmacro_ddll_long_cmd_4) << 21) | sdram->emc_auto_cal_interval & 0x1FFFFF;
 	pmc->scratch182 = (sdram->mc_emem_arb_outstanding_req >> 31 << 31) | (2 * ((2 * sdram->mc_emem_arb_outstanding_req >> 31 << 30) | ((sdram->mc_emem_arb_outstanding_req << 23 >> 2) | ((sdram->emc_emem_arb_refpb_hp_ctrl << 9 >> 25 << 14) | ((sdram->emc_emem_arb_refpb_hp_ctrl << 17 >> 25 << 7) | (sdram->emc_emem_arb_refpb_hp_ctrl & 0x7F | (pmc->scratch182 >> 7 << 7)) & 0xFFFFC07F) & 0xFFE03FFF) & 0xC01FFFFF) & 0xBFFFFFFF) >> 1);
 	pmc->scratch183 = (4 * sdram->emc_pmacro_cmd_ctrl0 >> 31 << 31) | (2 * ((8 * sdram->emc_pmacro_cmd_ctrl0 >> 31 << 30) | ((sdram->emc_pmacro_cmd_ctrl0 << 7 >> 31 << 29) | ((sdram->emc_pmacro_cmd_ctrl0 << 10 >> 31 << 28) | ((sdram->emc_pmacro_cmd_ctrl0 << 11 >> 31 << 27) | ((sdram->emc_pmacro_cmd_ctrl0 << 15 >> 31 << 26) | ((sdram->emc_pmacro_cmd_ctrl0 << 18 >> 31 << 25) | ((sdram->emc_pmacro_cmd_ctrl0 << 19 >> 31 << 24) | ((sdram->emc_pmacro_cmd_ctrl0 << 23 >> 31 << 23) | ((sdram->emc_pmacro_cmd_ctrl0 << 26 >> 31 << 22) | ((sdram->emc_pmacro_cmd_ctrl0 << 27 >> 31 << 21) | ((sdram->emc_pmacro_cmd_ctrl0 << 20) & 0x1FFFFF | ((4 * sdram->emc_xm2_comp_pad_ctrl2 >> 26 << 14) | ((sdram->emc_xm2_comp_pad_ctrl2 << 10 >> 30 << 12) | ((sdram->emc_xm2_comp_pad_ctrl2 << 14 >> 31 << 11) | ((sdram->emc_xm2_comp_pad_ctrl2 << 15 >> 31 << 10) | ((sdram->emc_xm2_comp_pad_ctrl2 << 16 >> 30 << 8) | ((sdram->emc_xm2_comp_pad_ctrl2 << 18 >> 30 << 6) | (4 * (sdram->emc_xm2_comp_pad_ctrl2 << 26 >> 28) | (sdram->emc_xm2_comp_pad_ctrl2 & 3 | 4 * (pmc->scratch183 >> 2)) & 0xFFFFFFC3) & 0xFFFFFF3F) & 0xFFFFFCFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFCFFF) & 0xFFF03FFF) & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0xFEFFFFFF) & 0xFDFFFFFF) & 0xFBFFFFFF) & 0xF7FFFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 	pmc->scratch184 = (4 * sdram->emc_pmacro_cmd_ctrl1 >> 31 << 31) | (2 * ((8 * sdram->emc_pmacro_cmd_ctrl1 >> 31 << 30) | ((sdram->emc_pmacro_cmd_ctrl1 << 7 >> 31 << 29) | ((sdram->emc_pmacro_cmd_ctrl1 << 10 >> 31 << 28) | ((sdram->emc_pmacro_cmd_ctrl1 << 11 >> 31 << 27) | ((sdram->emc_pmacro_cmd_ctrl1 << 15 >> 31 << 26) | ((sdram->emc_pmacro_cmd_ctrl1 << 18 >> 31 << 25) | ((sdram->emc_pmacro_cmd_ctrl1 << 19 >> 31 << 24) | ((sdram->emc_pmacro_cmd_ctrl1 << 23 >> 31 << 23) | ((sdram->emc_pmacro_cmd_ctrl1 << 26 >> 31 << 22) | ((sdram->emc_pmacro_cmd_ctrl1 << 27 >> 31 << 21) | ((sdram->emc_pmacro_cmd_ctrl1 << 20) & 0x1FFFFF | ((sdram->emc_cfg_dig_dll_1 << 12 >> 28 << 16) | ((sdram->emc_cfg_dig_dll_1 << 16 >> 28 << 12) | ((sdram->emc_cfg_dig_dll_1 << 20 >> 26 << 6) | (2 * (sdram->emc_cfg_dig_dll_1 << 26 >> 27) | (sdram->emc_cfg_dig_dll_1 & 1 | 2 * (pmc->scratch184 >> 1)) & 0xFFFFFFC1) & 0xFFFFF03F) & 0xFFFF0FFF) & 0xFFF0FFFF) & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0xFEFFFFFF) & 0xFDFFFFFF) & 0xFBFFFFFF) & 0xF7FFFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 	pmc->scratch185 = (4 * sdram->emc_pmacro_cmd_ctrl2 >> 31 << 31) | (2 * ((8 * sdram->emc_pmacro_cmd_ctrl2 >> 31 << 30) | ((sdram->emc_pmacro_cmd_ctrl2 << 7 >> 31 << 29) | ((sdram->emc_pmacro_cmd_ctrl2 << 10 >> 31 << 28) | ((sdram->emc_pmacro_cmd_ctrl2 << 11 >> 31 << 27) | ((sdram->emc_pmacro_cmd_ctrl2 << 15 >> 31 << 26) | ((sdram->emc_pmacro_cmd_ctrl2 << 18 >> 31 << 25) | ((sdram->emc_pmacro_cmd_ctrl2 << 19 >> 31 << 24) | ((sdram->emc_pmacro_cmd_ctrl2 << 23 >> 31 << 23) | ((sdram->emc_pmacro_cmd_ctrl2 << 26 >> 31 << 22) | ((sdram->emc_pmacro_cmd_ctrl2 << 27 >> 31 << 21) | ((sdram->emc_pmacro_cmd_ctrl2 << 20) & 0x1FFFFF | ((sdram->emc_quse_brlshft0 << 12 >> 27 << 15) | ((sdram->emc_quse_brlshft0 << 17 >> 27 << 10) | (32 * (sdram->emc_quse_brlshft0 << 22 >> 27) | (sdram->emc_quse_brlshft0 & 0x1F | 32 * (pmc->scratch185 >> 5)) & 0xFFFFFC1F) & 0xFFFF83FF) & 0xFFF07FFF) & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0xFEFFFFFF) & 0xFDFFFFFF) & 0xFBFFFFFF) & 0xF7FFFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 	pmc->scratch186 = (sdram->emc_pmacro_dsr_vttgen_ctrl0 >> 8 << 24) | ((sdram->emc_pmacro_dsr_vttgen_ctrl0 << 20) | ((sdram->emc_quse_brlshft1 << 12 >> 27 << 15) | ((sdram->emc_quse_brlshft1 << 17 >> 27 << 10) | (32 * (sdram->emc_quse_brlshft1 << 22 >> 27) | (sdram->emc_quse_brlshft1 & 0x1F | 32 * (pmc->scratch186 >> 5)) & 0xFFFFFC1F) & 0xFFFF83FF) & 0xFFF07FFF) & 0xFF0FFFFF) & 0xFFFFFF;
 	pmc->scratch187 = (sdram->emc_pmacro_perbit_rfu1_ctrl0 << 10 >> 30 << 30) | (4 * ((sdram->emc_pmacro_perbit_rfu1_ctrl0 << 12 >> 30 << 28) | ((sdram->emc_pmacro_perbit_rfu1_ctrl0 << 14 >> 30 << 26) | ((sdram->emc_pmacro_perbit_rfu1_ctrl0 << 26 >> 30 << 24) | ((sdram->emc_pmacro_perbit_rfu1_ctrl0 << 28 >> 30 << 22) | ((sdram->emc_pmacro_perbit_rfu1_ctrl0 << 20) & 0x3FFFFF | ((sdram->emc_quse_brlshft2 << 12 >> 27 << 15) | ((sdram->emc_quse_brlshft2 << 17 >> 27 << 10) | (32 * (sdram->emc_quse_brlshft2 << 22 >> 27) | (sdram->emc_quse_brlshft2 & 0x1F | 32 * (pmc->scratch187 >> 5)) & 0xFFFFFC1F) & 0xFFFF83FF) & 0xFFF07FFF) & 0xFFCFFFFF) & 0xFF3FFFFF) & 0xFCFFFFFF) & 0xF3FFFFFF) & 0xCFFFFFFF) >> 2);
 	pmc->scratch188 = (sdram->emc_pmacro_perbit_rfu1_ctrl1 << 10 >> 30 << 30) | (4 * ((sdram->emc_pmacro_perbit_rfu1_ctrl1 << 12 >> 30 << 28) | ((sdram->emc_pmacro_perbit_rfu1_ctrl1 << 14 >> 30 << 26) | ((sdram->emc_pmacro_perbit_rfu1_ctrl1 << 26 >> 30 << 24) | ((sdram->emc_pmacro_perbit_rfu1_ctrl1 << 28 >> 30 << 22) | ((sdram->emc_pmacro_perbit_rfu1_ctrl1 << 20) & 0x3FFFFF | ((sdram->emc_quse_brlshft3 << 12 >> 27 << 15) | ((sdram->emc_quse_brlshft3 << 17 >> 27 << 10) | (32 * (sdram->emc_quse_brlshft3 << 22 >> 27) | (sdram->emc_quse_brlshft3 & 0x1F | 32 * (pmc->scratch188 >> 5)) & 0xFFFFFC1F) & 0xFFFF83FF) & 0xFFF07FFF) & 0xFFCFFFFF) & 0xFF3FFFFF) & 0xFCFFFFFF) & 0xF3FFFFFF) & 0xCFFFFFFF) >> 2);
 	pmc->scratch189 = (sdram->emc_trefbw << 18) | ((sdram->emc_dbg >> 31 << 17) | ((2 * sdram->emc_dbg >> 31 << 16) | ((4 * sdram->emc_dbg >> 31 << 15) | ((8 * sdram->emc_dbg >> 31 << 14) | ((16 * sdram->emc_dbg >> 30 << 12) | ((sdram->emc_dbg << 6 >> 31 << 11) | ((sdram->emc_dbg << 7 >> 31 << 10) | ((sdram->emc_dbg << 18 >> 31 << 9) | ((sdram->emc_dbg << 19 >> 31 << 8) | ((sdram->emc_dbg << 20 >> 31 << 7) | ((sdram->emc_dbg << 21 >> 31 << 6) | (32 * (sdram->emc_dbg << 22 >> 31) | (16 * (sdram->emc_dbg << 27 >> 31) | (8 * (sdram->emc_dbg << 28 >> 31) | (4 * (sdram->emc_dbg << 29 >> 31) | (2 * (sdram->emc_dbg << 30 >> 31) | (sdram->emc_dbg & 1 | 2 * (pmc->scratch189 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFFBF) & 0xFFFFFF7F) & 0xFFFFFEFF) & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFCFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFFEFFFF) & 0xFFFDFFFF) & 0x3FFFF;
 	pmc->scratch191 = (sdram->emc_qpop << 9 >> 25 << 25) | ((sdram->emc_qpop << 18) | ((sdram->emc_zcal_wait_cnt >> 31 << 17) | ((sdram->emc_zcal_wait_cnt << 10 >> 26 << 11) | (sdram->emc_zcal_wait_cnt & 0x7FF | (pmc->scratch191 >> 11 << 11)) & 0xFFFE07FF) & 0xFFFDFFFF) & 0xFE03FFFF) & 0x1FFFFFF;
 	pmc->scratch192 = (sdram->emc_pmacro_tx_sel_clk_src4 << 6 >> 31 << 31) | (2 * ((sdram->emc_pmacro_auto_cal_common << 15 >> 31 << 30) | ((sdram->emc_pmacro_auto_cal_common << 18 >> 26 << 24) | ((sdram->emc_pmacro_auto_cal_common << 18) & 0xFFFFFF | ((sdram->emc_zcal_mrw_cmd >> 30 << 16) | ((sdram->emc_zcal_mrw_cmd << 8 >> 24 << 8) | (sdram->emc_zcal_mrw_cmd & 0xFF | (pmc->scratch192 >> 8 << 8)) & 0xFFFF00FF) & 0xFFFCFFFF) & 0xFF03FFFF) & 0xC0FFFFFF) & 0xBFFFFFFF) >> 1);
 	tmp = (sdram->emc_dll_cfg1 << 7 >> 31 << 17) | ((sdram->emc_dll_cfg1 << 10 >> 31 << 16) | ((sdram->emc_dll_cfg1 << 11 >> 31 << 15) | ((sdram->emc_dll_cfg1 << 14 >> 30 << 13) | ((sdram->emc_dll_cfg1 << 18 >> 31 << 12) | ((sdram->emc_dll_cfg1 << 19 >> 31 << 11) | ((pmc->scratch193 >> 11 << 11) | sdram->emc_dll_cfg1 & 0x7FF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFF9FFF) & 0xFFFF7FFF) & 0xFFFEFFFF) & 0xFFFDFFFF;
 	pmc->scratch193 = (sdram->emc_pmacro_tx_sel_clk_src5 << 31) | (2 * ((32 * sdram->emc_pmacro_tx_sel_clk_src4 >> 31 << 30) | ((sdram->emc_pmacro_perbit_rfu1_ctrl2 << 10 >> 30 << 28) | (((sdram->emc_pmacro_perbit_rfu1_ctrl2 << 14 >> 30 << 24) | ((sdram->emc_pmacro_perbit_rfu1_ctrl2 << 26 >> 30 << 22) | ((sdram->emc_pmacro_perbit_rfu1_ctrl2 << 28 >> 30 << 20) | ((sdram->emc_pmacro_perbit_rfu1_ctrl2 << 18) & 0xFFFFF | tmp & 0xFFF3FFFF) & 0xFFCFFFFF) & 0xFF3FFFFF) & 0xFCFFFFFF) & 0xF3FFFFFF | (sdram->emc_pmacro_perbit_rfu1_ctrl2 << 12 >> 30 << 26)) & 0xCFFFFFFF) & 0xBFFFFFFF) >> 1);
 	pmc->scratch194 = (sdram->emc_pmacro_tx_sel_clk_src5 << 29 >> 31 << 31) | (2 * ((sdram->emc_pmacro_tx_sel_clk_src5 << 30 >> 31 << 30) | ((sdram->emc_pmacro_perbit_rfu1_ctrl3 << 10 >> 30 << 28) | (((sdram->emc_pmacro_perbit_rfu1_ctrl3 << 14 >> 30 << 24) | (((sdram->emc_pmacro_perbit_rfu1_ctrl3 << 28 >> 30 << 20) | ((sdram->emc_pmacro_perbit_rfu1_ctrl3 << 18) & 0xFFFFF | ((sdram->emc_pmacro_cmd_brick_ctrl_fdpd << 14 >> 30 << 16) | ((sdram->emc_pmacro_cmd_brick_ctrl_fdpd << 16 >> 30 << 14) | ((sdram->emc_pmacro_cmd_brick_ctrl_fdpd << 18 >> 30 << 12) | ((sdram->emc_pmacro_cmd_brick_ctrl_fdpd << 20 >> 30 << 10) | ((sdram->emc_pmacro_cmd_brick_ctrl_fdpd << 22 >> 30 << 8) | ((sdram->emc_pmacro_cmd_brick_ctrl_fdpd << 24 >> 30 << 6) | (16 * (sdram->emc_pmacro_cmd_brick_ctrl_fdpd << 26 >> 30) | (4 * (sdram->emc_pmacro_cmd_brick_ctrl_fdpd << 28 >> 30) | (sdram->emc_pmacro_cmd_brick_ctrl_fdpd & 3 | 4 * (pmc->scratch194 >> 2)) & 0xFFFFFFF3) & 0xFFFFFFCF) & 0xFFFFFF3F) & 0xFFFFFCFF) & 0xFFFFF3FF) & 0xFFFFCFFF) & 0xFFFF3FFF) & 0xFFFCFFFF) & 0xFFF3FFFF) & 0xFFCFFFFF) & 0xFF3FFFFF | (sdram->emc_pmacro_perbit_rfu1_ctrl3 << 26 >> 30 << 22)) & 0xFCFFFFFF) & 0xF3FFFFFF | (sdram->emc_pmacro_perbit_rfu1_ctrl3 << 12 >> 30 << 26)) & 0xCFFFFFFF) & 0xBFFFFFFF) >> 1);
 	pmc->scratch195 = (sdram->emc_pmacro_tx_sel_clk_src5 << 27 >> 31 << 31) | (2 * ((sdram->emc_pmacro_tx_sel_clk_src5 << 28 >> 31 << 30) | ((sdram->emc_pmacro_perbit_rfu1_ctrl4 << 10 >> 30 << 28) | (((sdram->emc_pmacro_perbit_rfu1_ctrl4 << 14 >> 30 << 24) | ((sdram->emc_pmacro_perbit_rfu1_ctrl4 << 26 >> 30 << 22) | ((sdram->emc_pmacro_perbit_rfu1_ctrl4 << 28 >> 30 << 20) | ((sdram->emc_pmacro_perbit_rfu1_ctrl4 << 18) & 0xFFFFF | ((sdram->emc_pmacro_data_brick_ctrl_fdpd << 14 >> 30 << 16) | ((sdram->emc_pmacro_data_brick_ctrl_fdpd << 16 >> 30 << 14) | ((sdram->emc_pmacro_data_brick_ctrl_fdpd << 18 >> 30 << 12) | ((sdram->emc_pmacro_data_brick_ctrl_fdpd << 20 >> 30 << 10) | ((sdram->emc_pmacro_data_brick_ctrl_fdpd << 22 >> 30 << 8) | ((sdram->emc_pmacro_data_brick_ctrl_fdpd << 24 >> 30 << 6) | (16 * (sdram->emc_pmacro_data_brick_ctrl_fdpd << 26 >> 30) | (4 * (sdram->emc_pmacro_data_brick_ctrl_fdpd << 28 >> 30) | (sdram->emc_pmacro_data_brick_ctrl_fdpd & 3 | 4 * (pmc->scratch195 >> 2)) & 0xFFFFFFF3) & 0xFFFFFFCF) & 0xFFFFFF3F) & 0xFFFFFCFF) & 0xFFFFF3FF) & 0xFFFFCFFF) & 0xFFFF3FFF) & 0xFFFCFFFF) & 0xFFF3FFFF) & 0xFFCFFFFF) & 0xFF3FFFFF) & 0xFCFFFFFF) & 0xF3FFFFFF | (sdram->emc_pmacro_perbit_rfu1_ctrl4 << 12 >> 30 << 26)) & 0xCFFFFFFF) & 0xBFFFFFFF) >> 1);
 	pmc->scratch196 = (sdram->emc_emem_arb_refpb_bank_ctrl >> 31 << 31) | (2 * ((sdram->emc_emem_arb_refpb_bank_ctrl << 17 >> 25 << 24) | ((sdram->emc_emem_arb_refpb_bank_ctrl << 17) & 0xFFFFFF | ((sdram->emc_dyn_self_ref_control >> 31 << 16) | (sdram->emc_dyn_self_ref_control & 0xFFFF | (pmc->scratch196 >> 16 << 16)) & 0xFFFEFFFF) & 0xFF01FFFF) & 0x80FFFFFF) >> 1);
 	pmc->scratch197 = (sdram->emc_pmacro_tx_sel_clk_src5 << 24 >> 31 << 31) | (2 * ((sdram->emc_pmacro_tx_sel_clk_src5 << 25 >> 31 << 30) | ((sdram->emc_pmacro_tx_sel_clk_src5 << 26 >> 31 << 29) | ((sdram->emc_pmacro_perbit_rfu1_ctrl5 << 10 >> 30 << 27) | (((sdram->emc_pmacro_perbit_rfu1_ctrl5 << 14 >> 30 << 23) | ((sdram->emc_pmacro_perbit_rfu1_ctrl5 << 26 >> 30 << 21) | ((sdram->emc_pmacro_perbit_rfu1_ctrl5 << 28 >> 30 << 19) | ((sdram->emc_pmacro_perbit_rfu1_ctrl5 << 17) & 0x7FFFF | ((16 * sdram->emc_pmacro_cmd_pad_rx_ctrl >> 28 << 13) | ((sdram->emc_pmacro_cmd_pad_rx_ctrl << 8 >> 31 << 12) | ((sdram->emc_pmacro_cmd_pad_rx_ctrl << 9 >> 31 << 11) | ((sdram->emc_pmacro_cmd_pad_rx_ctrl << 10 >> 31 << 10) | ((sdram->emc_pmacro_cmd_pad_rx_ctrl << 12 >> 28 << 6) | (32 * (sdram->emc_pmacro_cmd_pad_rx_ctrl << 16 >> 31) | (16 * (sdram->emc_pmacro_cmd_pad_rx_ctrl << 19 >> 31) | (4 * (sdram->emc_pmacro_cmd_pad_rx_ctrl << 26 >> 30) | (sdram->emc_pmacro_cmd_pad_rx_ctrl & 3 | 4 * (pmc->scratch197 >> 2)) & 0xFFFFFFF3) & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFC3F) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFE1FFF) & 0xFFF9FFFF) & 0xFFE7FFFF) & 0xFF9FFFFF) & 0xFE7FFFFF) & 0xF9FFFFFF | (sdram->emc_pmacro_perbit_rfu1_ctrl5 << 12 >> 30 << 25)) & 0xE7FFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 	pmc->scratch198 = (sdram->emc_pmacro_cmd_pad_tx_ctrl << 31) | (2 * ((32 * sdram->emc_pmacro_tx_sel_clk_src5 >> 31 << 30) | ((sdram->emc_pmacro_tx_sel_clk_src5 << 6 >> 31 << 29) | ((sdram->emc_pmacro_tx_sel_clk_src5 << 7 >> 31 << 28) | ((sdram->emc_pmacro_tx_sel_clk_src5 << 8 >> 31 << 27) | ((sdram->emc_pmacro_tx_sel_clk_src5 << 9 >> 31 << 26) | ((sdram->emc_pmacro_tx_sel_clk_src5 << 10 >> 31 << 25) | ((sdram->emc_pmacro_tx_sel_clk_src5 << 11 >> 31 << 24) | ((sdram->emc_pmacro_tx_sel_clk_src5 << 12 >> 31 << 23) | ((sdram->emc_pmacro_tx_sel_clk_src5 << 13 >> 31 << 22) | ((sdram->emc_pmacro_tx_sel_clk_src5 << 14 >> 31 << 21) | ((sdram->emc_pmacro_tx_sel_clk_src5 << 15 >> 31 << 20) | ((sdram->emc_pmacro_tx_sel_clk_src5 << 21 >> 31 << 19) | ((sdram->emc_pmacro_tx_sel_clk_src5 << 22 >> 31 << 18) | ((sdram->emc_pmacro_tx_sel_clk_src5 << 23 >> 31 << 17) | ((16 * sdram->emc_pmacro_data_pad_rx_ctrl >> 28 << 13) | ((sdram->emc_pmacro_data_pad_rx_ctrl << 8 >> 31 << 12) | ((sdram->emc_pmacro_data_pad_rx_ctrl << 9 >> 31 << 11) | ((sdram->emc_pmacro_data_pad_rx_ctrl << 10 >> 31 << 10) | ((sdram->emc_pmacro_data_pad_rx_ctrl << 12 >> 28 << 6) | (32 * (sdram->emc_pmacro_data_pad_rx_ctrl << 16 >> 31) | (16 * (sdram->emc_pmacro_data_pad_rx_ctrl << 19 >> 31) | (4 * (sdram->emc_pmacro_data_pad_rx_ctrl << 26 >> 30) | (sdram->emc_pmacro_data_pad_rx_ctrl & 3 | 4 * (pmc->scratch198 >> 2)) & 0xFFFFFFF3) & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFC3F) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFE1FFF) & 0xFFFDFFFF) & 0xFFFBFFFF) & 0xFFF7FFFF) & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0xFEFFFFFF) & 0xFDFFFFFF) & 0xFBFFFFFF) & 0xF7FFFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 	pmc->scratch199 = (8 * sdram->emc_cmd_q >> 27 << 27) | ((sdram->emc_cmd_q << 17 >> 29 << 24) | ((sdram->emc_cmd_q << 21 >> 29 << 21) | ((sdram->emc_cmd_q << 16) & 0x1FFFFF | (((u16)(sdram->emc_refresh) << 16 >> 22 << 6) | (sdram->emc_refresh & 0x3F | (pmc->scratch199 >> 6 << 6)) & 0xFFFF003F) & 0xFFE0FFFF) & 0xFF1FFFFF) & 0xF8FFFFFF) & 0x7FFFFFF;
 	pmc->scratch210 = (sdram->emc_auto_cal_vref_sel1 << 16 >> 31 << 31) | (2 * ((sdram->emc_auto_cal_vref_sel1 << 17 >> 25 << 24) | ((sdram->emc_auto_cal_vref_sel1 << 24 >> 31 << 23) | ((sdram->emc_auto_cal_vref_sel1 << 16) & 0x7FFFFF | (sdram->emc_acpd_control & 0xFFFF | (pmc->scratch210 >> 16 << 16)) & 0xFF80FFFF) & 0xFF7FFFFF) & 0x80FFFFFF) >> 1);
 	tmp = 8 * (sdram->emc_pmacro_auto_cal_cfg0 << 28 >> 31) | (4 * (sdram->emc_pmacro_auto_cal_cfg0 << 29 >> 31) | (2 * (sdram->emc_pmacro_auto_cal_cfg0 << 30 >> 31) | (sdram->emc_pmacro_auto_cal_cfg0 & 1 | 2 * (pmc->scratch211 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7;
 	tmp = (sdram->emc_pmacro_auto_cal_cfg1 << 7 >> 31 << 28) | ((sdram->emc_pmacro_auto_cal_cfg1 << 12 >> 31 << 27) | ((sdram->emc_pmacro_auto_cal_cfg1 << 13 >> 31 << 26) | ((sdram->emc_pmacro_auto_cal_cfg1 << 14 >> 31 << 25) | ((sdram->emc_pmacro_auto_cal_cfg1 << 15 >> 31 << 24) | ((sdram->emc_pmacro_auto_cal_cfg1 << 20 >> 31 << 23) | ((sdram->emc_pmacro_auto_cal_cfg1 << 21 >> 31 << 22) | ((sdram->emc_pmacro_auto_cal_cfg1 << 22 >> 31 << 21) | ((sdram->emc_pmacro_auto_cal_cfg1 << 23 >> 31 << 20) | ((sdram->emc_pmacro_auto_cal_cfg1 << 28 >> 31 << 19) | ((sdram->emc_pmacro_auto_cal_cfg1 << 29 >> 31 << 18) | ((sdram->emc_pmacro_auto_cal_cfg1 << 30 >> 31 << 17) | ((sdram->emc_pmacro_auto_cal_cfg1 << 16) & 0x1FFFF | ((16 * sdram->emc_pmacro_auto_cal_cfg0 >> 31 << 15) | ((32 * sdram->emc_pmacro_auto_cal_cfg0 >> 31 << 14) | ((sdram->emc_pmacro_auto_cal_cfg0 << 6 >> 31 << 13) | ((sdram->emc_pmacro_auto_cal_cfg0 << 7 >> 31 << 12) | ((sdram->emc_pmacro_auto_cal_cfg0 << 12 >> 31 << 11) | ((sdram->emc_pmacro_auto_cal_cfg0 << 13 >> 31 << 10) | ((sdram->emc_pmacro_auto_cal_cfg0 << 14 >> 31 << 9) | ((sdram->emc_pmacro_auto_cal_cfg0 << 15 >> 31 << 8) | ((sdram->emc_pmacro_auto_cal_cfg0 << 20 >> 31 << 7) | ((sdram->emc_pmacro_auto_cal_cfg0 << 21 >> 31 << 6) | (32 * (sdram->emc_pmacro_auto_cal_cfg0 << 22 >> 31) | (16 * (sdram->emc_pmacro_auto_cal_cfg0 << 23 >> 31) | tmp & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFFBF) & 0xFFFFFF7F) & 0xFFFFFEFF) & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFFEFFFF) & 0xFFFDFFFF) & 0xFFFBFFFF) & 0xFFF7FFFF) & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0xFEFFFFFF) & 0xFDFFFFFF) & 0xFBFFFFFF) & 0xF7FFFFFF) & 0xEFFFFFFF;
 	pmc->scratch211 = (16 * sdram->emc_pmacro_auto_cal_cfg1 >> 31 << 31) | (2 * ((32 * sdram->emc_pmacro_auto_cal_cfg1 >> 31 << 30) | ((sdram->emc_pmacro_auto_cal_cfg1 << 6 >> 31 << 29) | tmp & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 	pmc->scratch212 = (sdram->emc_xm2_comp_pad_ctrl3 << 8 >> 28 << 28) | ((sdram->emc_xm2_comp_pad_ctrl3 << 14 >> 31 << 27) | ((sdram->emc_xm2_comp_pad_ctrl3 << 15 >> 31 << 26) | ((sdram->emc_xm2_comp_pad_ctrl3 << 16 >> 30 << 24) | ((sdram->emc_xm2_comp_pad_ctrl3 << 18 >> 30 << 22) | ((sdram->emc_xm2_comp_pad_ctrl3 << 26 >> 28 << 18) | ((sdram->emc_xm2_comp_pad_ctrl3 << 16) & 0x3FFFF | ((16 * sdram->emc_pmacro_auto_cal_cfg2 >> 31 << 15) | ((32 * sdram->emc_pmacro_auto_cal_cfg2 >> 31 << 14) | ((sdram->emc_pmacro_auto_cal_cfg2 << 6 >> 31 << 13) | ((sdram->emc_pmacro_auto_cal_cfg2 << 7 >> 31 << 12) | ((sdram->emc_pmacro_auto_cal_cfg2 << 12 >> 31 << 11) | ((sdram->emc_pmacro_auto_cal_cfg2 << 13 >> 31 << 10) | ((sdram->emc_pmacro_auto_cal_cfg2 << 14 >> 31 << 9) | ((sdram->emc_pmacro_auto_cal_cfg2 << 15 >> 31 << 8) | ((sdram->emc_pmacro_auto_cal_cfg2 << 20 >> 31 << 7) | ((sdram->emc_pmacro_auto_cal_cfg2 << 21 >> 31 << 6) | (32 * (sdram->emc_pmacro_auto_cal_cfg2 << 22 >> 31) | (16 * (sdram->emc_pmacro_auto_cal_cfg2 << 23 >> 31) | (8 * (sdram->emc_pmacro_auto_cal_cfg2 << 28 >> 31) | (4 * (sdram->emc_pmacro_auto_cal_cfg2 << 29 >> 31) | (2 * (sdram->emc_pmacro_auto_cal_cfg2 << 30 >> 31) | (sdram->emc_pmacro_auto_cal_cfg2 & 1 | 2 * (pmc->scratch212 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFFBF) & 0xFFFFFF7F) & 0xFFFFFEFF) & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFFCFFFF) & 0xFFC3FFFF) & 0xFF3FFFFF) & 0xFCFFFFFF) & 0xFBFFFFFF) & 0xF7FFFFFF) & 0xFFFFFFF;
 	pmc->scratch213 = ((u16)(sdram->emc_prerefresh_req_cnt) << 16) | (u16)(sdram->emc_cfg_dig_dll_period);
 	pmc->scratch214 = (sdram->emc_pmacro_data_pi_ctrl << 10 >> 26 << 26) | ((sdram->emc_pmacro_data_pi_ctrl << 19 >> 31 << 25) | ((sdram->emc_pmacro_data_pi_ctrl << 20 >> 28 << 21) | ((sdram->emc_pmacro_data_pi_ctrl << 27 >> 31 << 20) | ((sdram->emc_pmacro_data_pi_ctrl << 16) & 0xFFFFF | ((sdram->emc_pmacro_ddll_bypass >> 31 << 15) | ((2 * sdram->emc_pmacro_ddll_bypass >> 31 << 14) | ((4 * sdram->emc_pmacro_ddll_bypass >> 31 << 13) | ((16 * sdram->emc_pmacro_ddll_bypass >> 31 << 12) | ((32 * sdram->emc_pmacro_ddll_bypass >> 31 << 11) | ((sdram->emc_pmacro_ddll_bypass << 6 >> 31 << 10) | ((sdram->emc_pmacro_ddll_bypass << 7 >> 31 << 9) | ((sdram->emc_pmacro_ddll_bypass << 15 >> 31 << 8) | ((sdram->emc_pmacro_ddll_bypass << 16 >> 31 << 7) | ((sdram->emc_pmacro_ddll_bypass << 17 >> 31 << 6) | (32 * (sdram->emc_pmacro_ddll_bypass << 18 >> 31) | (16 * (sdram->emc_pmacro_ddll_bypass << 20 >> 31) | (8 * (sdram->emc_pmacro_ddll_bypass << 21 >> 31) | (4 * (sdram->emc_pmacro_ddll_bypass << 22 >> 31) | (2 * (sdram->emc_pmacro_ddll_bypass << 23 >> 31) | (sdram->emc_pmacro_ddll_bypass & 1 | 2 * (pmc->scratch214 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFFBF) & 0xFFFFFF7F) & 0xFFFFFEFF) & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFF0FFFF) & 0xFFEFFFFF) & 0xFE1FFFFF) & 0xFDFFFFFF) & 0x3FFFFFF;
 	pmc->scratch215 = (sdram->emc_pmacro_cmd_pi_ctrl << 10 >> 26 << 10) | ((sdram->emc_pmacro_cmd_pi_ctrl << 19 >> 31 << 9) | (32 * (sdram->emc_pmacro_cmd_pi_ctrl << 20 >> 28) | (16 * (sdram->emc_pmacro_cmd_pi_ctrl << 27 >> 31) | (sdram->emc_pmacro_cmd_pi_ctrl & 0xF | 16 * (pmc->scratch215 >> 4)) & 0xFFFFFFEF) & 0xFFFFFE1F) & 0xFFFFFDFF) & 0xFFFF03FF;
 	tmp = (sdram->emc_pmacro_data_pad_tx_ctrl << 7 >> 31 << 24) | ((sdram->emc_pmacro_data_pad_tx_ctrl << 8 >> 31 << 23) | ((sdram->emc_pmacro_data_pad_tx_ctrl << 9 >> 31 << 22) | ((sdram->emc_pmacro_data_pad_tx_ctrl << 10 >> 31 << 21) | ((sdram->emc_pmacro_data_pad_tx_ctrl << 15 >> 31 << 20) | ((sdram->emc_pmacro_data_pad_tx_ctrl << 16 >> 31 << 19) | ((sdram->emc_pmacro_data_pad_tx_ctrl << 21 >> 31 << 18) | ((sdram->emc_pmacro_data_pad_tx_ctrl << 25 >> 31 << 17) | ((sdram->emc_pmacro_data_pad_tx_ctrl << 26 >> 31 << 16) | ((sdram->emc_pmacro_data_pad_tx_ctrl << 15) & 0xFFFF | ((2 * sdram->emc_pmacro_cmd_pad_tx_ctrl >> 31 << 14) | ((4 * sdram->emc_pmacro_cmd_pad_tx_ctrl >> 31 << 13) | ((8 * sdram->emc_pmacro_cmd_pad_tx_ctrl >> 31 << 12) | ((16 * sdram->emc_pmacro_cmd_pad_tx_ctrl >> 31 << 11) | ((32 * sdram->emc_pmacro_cmd_pad_tx_ctrl >> 31 << 10) | ((sdram->emc_pmacro_cmd_pad_tx_ctrl << 6 >> 31 << 9) | ((sdram->emc_pmacro_cmd_pad_tx_ctrl << 7 >> 31 << 8) | ((sdram->emc_pmacro_cmd_pad_tx_ctrl << 8 >> 31 << 7) | ((sdram->emc_pmacro_cmd_pad_tx_ctrl << 9 >> 31 << 6) | (32 * (sdram->emc_pmacro_cmd_pad_tx_ctrl << 10 >> 31) | (16 * (sdram->emc_pmacro_cmd_pad_tx_ctrl << 15 >> 31) | (8 * (sdram->emc_pmacro_cmd_pad_tx_ctrl << 16 >> 31) | (4 * (sdram->emc_pmacro_cmd_pad_tx_ctrl << 21 >> 31) | (2 * (sdram->emc_pmacro_cmd_pad_tx_ctrl << 25 >> 31) | ((sdram->emc_pmacro_cmd_pad_tx_ctrl << 26 >> 31) | 2 * (pmc->scratch216 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFFBF) & 0xFFFFFF7F) & 0xFFFFFEFF) & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFFEFFFF) & 0xFFFDFFFF) & 0xFFFBFFFF) & 0xFFF7FFFF) & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0xFEFFFFFF;
-// 	s(emc_clock_source, 7:0, scratch6, 15:8);
+	s(emc_pin_gpio, 1:0, scratch9, 31:30);
-// 	s(emc_clock_source_dll, 7:0, scratch6, 23:16);
+	s(emc_pin_gpio_enable, 1:0, scratch10, 31:30);
-// 	s(emc_clock_source, 31:29, scratch6, 26:24);
+	s(emc_dev_select, 1:0, scratch11, 31:30);
-// 	s(emc_clock_source_dll, 31:29, scratch6, 29:27);
+	s(emc_zcal_warm_cold_boot_enables, 1:0, scratch12, 31:30);
-// 	s(emc_clock_source_dll, 11:10, scratch6, 31:30);
+	s(emc_cfg_dig_dll_period_warm_boot, 1:0, scratch13, 31:30);
-// 	pmc->scratch7 = (sdram->emc_rc << 24) | ((sdram->emc_zqcal_lpddr4_warm_boot << 27 >> 31 << 23) | ((sdram->emc_zqcal_lpddr4_warm_boot << 30 >> 31 << 22) | ((sdram->emc_zqcal_lpddr4_warm_boot << 21) & 0x3FFFFF | ((sdram->clk_rst_pllm_misc20_override << 20) & 0x1FFFFF | ((sdram->clk_rst_pllm_misc20_override << 28 >> 31 << 19) | ((sdram->clk_rst_pllm_misc20_override << 27 >> 31 << 18) | ((sdram->clk_rst_pllm_misc20_override << 26 >> 31 << 17) | ((sdram->clk_rst_pllm_misc20_override << 21 >> 31 << 16) | ((sdram->clk_rst_pllm_misc20_override << 20 >> 31 << 15) | ((sdram->clk_rst_pllm_misc20_override << 19 >> 31 << 14) | ((sdram->clk_rst_pllm_misc20_override << 18 >> 31 << 13) | ((sdram->emc_clock_source << 15 >> 31 << 12) | ((sdram->emc_clock_source << 11 >> 31 << 11) | ((sdram->emc_clock_source << 12 >> 31 << 10) | ((sdram->emc_clock_source << 6 >> 31 << 9) | ((sdram->emc_clock_source << 16 >> 31 << 8) | ((32 * sdram->emc_clock_source >> 31 << 7) | ((16 * sdram->emc_clock_source >> 31 << 6) | (16 * (sdram->emc_zqcal_lpddr4_warm_boot >> 30) | (4 * (sdram->clk_rst_pllm_misc20_override << 29 >> 30) | ((sdram->clk_rst_pllm_misc20_override << 22 >> 30) | 4 * (pmc->scratch7 >> 2)) & 0xFFFFFFF3) & 0xFFFFFFCF) & 0xFFFFFFBF) & 0xFFFFFF7F) & 0xFFFFFEFF) & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFFEFFFF) & 0xFFFDFFFF) & 0xFFFBFFFF) & 0xFFF7FFFF) & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0xFFFFFF;
+	s32(emc_bct_spare13, scratch45);
-// 	pmc->scratch8 = (sdram->emc_pmacro_bg_bias_ctrl0 << 18 >> 30 << 30) | ((4 * pmc->scratch8) >> 2);
+	s32(emc_bct_spare12, scratch46);
-// 	pmc->scratch14 = ((u8)(sdram->emc_cfg_pipe_clk) << 31) | (2 * (((u8)(sdram->emc_fdpd_ctrl_cmd_no_ramp) << 30) | pmc->scratch14 & 0xBFFFFFFF) >> 1);
+	s32(emc_bct_spare7, scratch47);
-// 	s(emc_qrst, 6:0, scratch15, 26:20);
+	s32(emc_bct_spare6, scratch48);
-// 	s(emc_qrst, 20:16, scratch15, 31:27);
+	s32(emc_bct_spare5, scratch50);
-// 	s(emc_pmacro_cmd_tx_drive, 5:0, scratch16, 25:20);
+	s32(emc_bct_spare4, scratch51);
-// 	s(emc_pmacro_cmd_tx_drive, 13:8, scratch16, 31:26);
+	s32(emc_bct_spare3, scratch56);
-// 	pmc->scratch17 = (16 * sdram->emc_fbio_cfg8 >> 31 << 31) | (2 * ((32 * sdram->emc_fbio_cfg8 >> 31 << 30) | ((sdram->emc_fbio_cfg8 << 6 >> 31 << 29) | ((sdram->emc_fbio_cfg8 << 7 >> 31 << 28) | ((sdram->emc_fbio_cfg8 << 8 >> 31 << 27) | ((sdram->emc_fbio_cfg8 << 9 >> 31 << 26) | ((sdram->emc_fbio_cfg8 << 10 >> 31 << 25) | ((sdram->emc_fbio_cfg8 << 11 >> 31 << 24) | ((sdram->emc_fbio_cfg8 << 12 >> 31 << 23) | ((sdram->emc_fbio_cfg8 << 13 >> 31 << 22) | ((sdram->emc_fbio_cfg8 << 14 >> 31 << 21) | ((sdram->emc_fbio_cfg8 << 15 >> 31 << 20) | pmc->scratch17 & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0xFEFFFFFF) & 0xFDFFFFFF) & 0xFBFFFFFF) & 0xF7FFFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
+	s32(emc_bct_spare2, scratch57);
-// 	pmc->scratch18 = ((u16)(sdram->emc_txsr_dll) << 20) | pmc->scratch18 & 0xFFFFF;
+	s32(emc_bct_spare1, scratch58);
-// 	pmc->scratch19 = (sdram->emc_txdsrvttgen << 20) | pmc->scratch19 & 0xFFFFF;
+	s32(emc_bct_spare0, scratch59);
-// 	s32(emc_cfg_rsv, scratch22);
+	s32(emc_bct_spare9, scratch60);
-// 	s32(emc_auto_cal_config, scratch23);
+	s32(emc_bct_spare8, scratch61);
-// 	s32(emc_auto_cal_vref_sel0, scratch24);
+	s32(boot_rom_patch_data, scratch62);
-// 	s32(emc_pmacro_brick_ctrl_rfu1, scratch25);
+	s32(boot_rom_patch_control, scratch63);
-// 	s32(emc_pmacro_brick_ctrl_rfu2, scratch26);
+	s(mc_clken_override_allwarm_boot, 0:0, scratch65, 31:31);
-// 	s32(emc_pmc_scratch1, scratch27);
+	pmc->scratch66 = pmc->scratch66 & 0x1FFFFFFF | ((u8)(sdram->emc_extra_refresh_num) << 29);
-// 	s32(emc_pmc_scratch2, scratch28);
+	pmc->scratch72 = pmc->scratch72 & 0x8FFFFFFF | ((u16)(sdram->pmc_io_dpd3_req_wait) << 28) & 0x70000000;
-// 	s32(emc_pmc_scratch3, scratch29);
+	pmc->scratch72 = ((2 * pmc->scratch72) >> 1) | ((u16)(sdram->emc_clken_override_allwarm_boot) << 31);
-// 	pmc->scratch30 = (sdram->emc_pmacro_perbit_rfu_ctrl0 >> 30 << 30) | (4 * ((4 * sdram->emc_pmacro_perbit_rfu_ctrl0 >> 30 << 28) | ((16 * sdram->emc_pmacro_perbit_rfu_ctrl0 >> 30 << 26) | ((sdram->emc_pmacro_perbit_rfu_ctrl0 << 6 >> 30 << 24) | ((sdram->emc_pmacro_perbit_rfu_ctrl0 << 8 >> 30 << 22) | ((sdram->emc_pmacro_perbit_rfu_ctrl0 << 10 >> 30 << 20) | ((sdram->emc_pmacro_perbit_rfu_ctrl0 << 12 >> 30 << 18) | ((sdram->emc_pmacro_perbit_rfu_ctrl0 << 14 >> 30 << 16) | ((sdram->emc_pmacro_perbit_rfu_ctrl0 << 16 >> 30 << 14) | ((sdram->emc_pmacro_perbit_rfu_ctrl0 << 18 >> 30 << 12) | ((sdram->emc_pmacro_perbit_rfu_ctrl0 << 20 >> 30 << 10) | ((sdram->emc_pmacro_perbit_rfu_ctrl0 << 22 >> 30 << 8) | ((sdram->emc_pmacro_perbit_rfu_ctrl0 << 24 >> 30 << 6) | (16 * (sdram->emc_pmacro_perbit_rfu_ctrl0 << 26 >> 30) | (4 * (sdram->emc_pmacro_perbit_rfu_ctrl0 << 28 >> 30) | (sdram->emc_pmacro_perbit_rfu_ctrl0 & 3 | 4 * (pmc->scratch30 >> 2)) & 0xFFFFFFF3) & 0xFFFFFFCF) & 0xFFFFFF3F) & 0xFFFFFCFF) & 0xFFFFF3FF) & 0xFFFFCFFF) & 0xFFFF3FFF) & 0xFFFCFFFF) & 0xFFF3FFFF) & 0xFFCFFFFF) & 0xFF3FFFFF) & 0xFCFFFFFF) & 0xF3FFFFFF) & 0xCFFFFFFF) >> 2);
+	pmc->scratch73 = pmc->scratch73 & 0x8FFFFFFF | ((u8)(sdram->memory_type) << 28) & 0x70000000;
-// 	pmc->scratch31 = (sdram->emc_pmacro_perbit_rfu_ctrl1 >> 30 << 30) | (4 * ((4 * sdram->emc_pmacro_perbit_rfu_ctrl1 >> 30 << 28) | ((16 * sdram->emc_pmacro_perbit_rfu_ctrl1 >> 30 << 26) | ((sdram->emc_pmacro_perbit_rfu_ctrl1 << 6 >> 30 << 24) | ((sdram->emc_pmacro_perbit_rfu_ctrl1 << 8 >> 30 << 22) | ((sdram->emc_pmacro_perbit_rfu_ctrl1 << 10 >> 30 << 20) | ((sdram->emc_pmacro_perbit_rfu_ctrl1 << 12 >> 30 << 18) | ((sdram->emc_pmacro_perbit_rfu_ctrl1 << 14 >> 30 << 16) | ((sdram->emc_pmacro_perbit_rfu_ctrl1 << 16 >> 30 << 14) | ((sdram->emc_pmacro_perbit_rfu_ctrl1 << 18 >> 30 << 12) | ((sdram->emc_pmacro_perbit_rfu_ctrl1 << 20 >> 30 << 10) | ((sdram->emc_pmacro_perbit_rfu_ctrl1 << 22 >> 30 << 8) | ((sdram->emc_pmacro_perbit_rfu_ctrl1 << 24 >> 30 << 6) | (16 * (sdram->emc_pmacro_perbit_rfu_ctrl1 << 26 >> 30) | (4 * (sdram->emc_pmacro_perbit_rfu_ctrl1 << 28 >> 30) | (sdram->emc_pmacro_perbit_rfu_ctrl1 & 3 | 4 * (pmc->scratch31 >> 2)) & 0xFFFFFFF3) & 0xFFFFFFCF) & 0xFFFFFF3F) & 0xFFFFFCFF) & 0xFFFFF3FF) & 0xFFFFCFFF) & 0xFFFF3FFF) & 0xFFFCFFFF) & 0xFFF3FFFF) & 0xFFCFFFFF) & 0xFF3FFFFF) & 0xFCFFFFFF) & 0xF3FFFFFF) & 0xCFFFFFFF) >> 2);
+	pmc->scratch73 = ((2 * pmc->scratch73) >> 1) | (sdram->emc_mrs_warm_boot_enable << 31);
-// 	pmc->scratch32 = (sdram->emc_pmacro_perbit_rfu_ctrl2 >> 30 << 30) | (4 * ((4 * sdram->emc_pmacro_perbit_rfu_ctrl2 >> 30 << 28) | ((16 * sdram->emc_pmacro_perbit_rfu_ctrl2 >> 30 << 26) | ((sdram->emc_pmacro_perbit_rfu_ctrl2 << 6 >> 30 << 24) | ((sdram->emc_pmacro_perbit_rfu_ctrl2 << 8 >> 30 << 22) | ((sdram->emc_pmacro_perbit_rfu_ctrl2 << 10 >> 30 << 20) | ((sdram->emc_pmacro_perbit_rfu_ctrl2 << 12 >> 30 << 18) | ((sdram->emc_pmacro_perbit_rfu_ctrl2 << 14 >> 30 << 16) | ((sdram->emc_pmacro_perbit_rfu_ctrl2 << 16 >> 30 << 14) | ((sdram->emc_pmacro_perbit_rfu_ctrl2 << 18 >> 30 << 12) | ((sdram->emc_pmacro_perbit_rfu_ctrl2 << 20 >> 30 << 10) | ((sdram->emc_pmacro_perbit_rfu_ctrl2 << 22 >> 30 << 8) | ((sdram->emc_pmacro_perbit_rfu_ctrl2 << 24 >> 30 << 6) | (16 * (sdram->emc_pmacro_perbit_rfu_ctrl2 << 26 >> 30) | (4 * (sdram->emc_pmacro_perbit_rfu_ctrl2 << 28 >> 30) | (sdram->emc_pmacro_perbit_rfu_ctrl2 & 3 | 4 * (pmc->scratch32 >> 2)) & 0xFFFFFFF3) & 0xFFFFFFCF) & 0xFFFFFF3F) & 0xFFFFFCFF) & 0xFFFFF3FF) & 0xFFFFCFFF) & 0xFFFF3FFF) & 0xFFFCFFFF) & 0xFFF3FFFF) & 0xFFCFFFFF) & 0xFF3FFFFF) & 0xFCFFFFFF) & 0xF3FFFFFF) & 0xCFFFFFFF) >> 2);
+	pmc->scratch74 = pmc->scratch74 & 0x8FFFFFFF | (sdram->pmc_io_dpd4_req_wait << 28) & 0x70000000;
-// 	pmc->scratch33 = (sdram->emc_pmacro_perbit_rfu_ctrl3 >> 30 << 30) | (4 * ((4 * sdram->emc_pmacro_perbit_rfu_ctrl3 >> 30 << 28) | ((16 * sdram->emc_pmacro_perbit_rfu_ctrl3 >> 30 << 26) | ((sdram->emc_pmacro_perbit_rfu_ctrl3 << 6 >> 30 << 24) | ((sdram->emc_pmacro_perbit_rfu_ctrl3 << 8 >> 30 << 22) | ((sdram->emc_pmacro_perbit_rfu_ctrl3 << 10 >> 30 << 20) | ((sdram->emc_pmacro_perbit_rfu_ctrl3 << 12 >> 30 << 18) | ((sdram->emc_pmacro_perbit_rfu_ctrl3 << 14 >> 30 << 16) | ((sdram->emc_pmacro_perbit_rfu_ctrl3 << 16 >> 30 << 14) | ((sdram->emc_pmacro_perbit_rfu_ctrl3 << 18 >> 30 << 12) | ((sdram->emc_pmacro_perbit_rfu_ctrl3 << 20 >> 30 << 10) | ((sdram->emc_pmacro_perbit_rfu_ctrl3 << 22 >> 30 << 8) | ((sdram->emc_pmacro_perbit_rfu_ctrl3 << 24 >> 30 << 6) | (16 * (sdram->emc_pmacro_perbit_rfu_ctrl3 << 26 >> 30) | (4 * (sdram->emc_pmacro_perbit_rfu_ctrl3 << 28 >> 30) | (sdram->emc_pmacro_perbit_rfu_ctrl3 & 3 | 4 * (pmc->scratch33 >> 2)) & 0xFFFFFFF3) & 0xFFFFFFCF) & 0xFFFFFF3F) & 0xFFFFFCFF) & 0xFFFFF3FF) & 0xFFFFCFFF) & 0xFFFF3FFF) & 0xFFFCFFFF) & 0xFFF3FFFF) & 0xFFCFFFFF) & 0xFF3FFFFF) & 0xFCFFFFFF) & 0xF3FFFFFF) & 0xCFFFFFFF) >> 2);
+	pmc->scratch74 = ((2 * pmc->scratch74) >> 1) | (sdram->clear_clock2_mc1 << 31);
-// 	pmc->scratch40 = (sdram->emc_pmacro_perbit_rfu_ctrl4 >> 30 << 30) | (4 * ((4 * sdram->emc_pmacro_perbit_rfu_ctrl4 >> 30 << 28) | ((16 * sdram->emc_pmacro_perbit_rfu_ctrl4 >> 30 << 26) | ((sdram->emc_pmacro_perbit_rfu_ctrl4 << 6 >> 30 << 24) | ((sdram->emc_pmacro_perbit_rfu_ctrl4 << 8 >> 30 << 22) | ((sdram->emc_pmacro_perbit_rfu_ctrl4 << 10 >> 30 << 20) | ((sdram->emc_pmacro_perbit_rfu_ctrl4 << 12 >> 30 << 18) | ((sdram->emc_pmacro_perbit_rfu_ctrl4 << 14 >> 30 << 16) | ((sdram->emc_pmacro_perbit_rfu_ctrl4 << 16 >> 30 << 14) | ((sdram->emc_pmacro_perbit_rfu_ctrl4 << 18 >> 30 << 12) | ((sdram->emc_pmacro_perbit_rfu_ctrl4 << 20 >> 30 << 10) | ((sdram->emc_pmacro_perbit_rfu_ctrl4 << 22 >> 30 << 8) | ((sdram->emc_pmacro_perbit_rfu_ctrl4 << 24 >> 30 << 6) | (16 * (sdram->emc_pmacro_perbit_rfu_ctrl4 << 26 >> 30) | (4 * (sdram->emc_pmacro_perbit_rfu_ctrl4 << 28 >> 30) | (sdram->emc_pmacro_perbit_rfu_ctrl4 & 3 | 4 * (pmc->scratch40 >> 2)) & 0xFFFFFFF3) & 0xFFFFFFCF) & 0xFFFFFF3F) & 0xFFFFFCFF) & 0xFFFFF3FF) & 0xFFFFCFFF) & 0xFFFF3FFF) & 0xFFFCFFFF) & 0xFFF3FFFF) & 0xFFCFFFFF) & 0xFF3FFFFF) & 0xFCFFFFFF) & 0xF3FFFFFF) & 0xCFFFFFFF) >> 2);
+	pmc->scratch75 = pmc->scratch75 & 0xEFFFFFFF | (sdram->emc_warm_boot_extramode_reg_write_enable << 28) & 0x10000000;
-// 	pmc->scratch42 = (sdram->emc_pmacro_perbit_rfu_ctrl5 >> 30 << 30) | (4 * ((4 * sdram->emc_pmacro_perbit_rfu_ctrl5 >> 30 << 28) | ((16 * sdram->emc_pmacro_perbit_rfu_ctrl5 >> 30 << 26) | ((sdram->emc_pmacro_perbit_rfu_ctrl5 << 6 >> 30 << 24) | ((sdram->emc_pmacro_perbit_rfu_ctrl5 << 8 >> 30 << 22) | ((sdram->emc_pmacro_perbit_rfu_ctrl5 << 10 >> 30 << 20) | ((sdram->emc_pmacro_perbit_rfu_ctrl5 << 12 >> 30 << 18) | ((sdram->emc_pmacro_perbit_rfu_ctrl5 << 14 >> 30 << 16) | ((sdram->emc_pmacro_perbit_rfu_ctrl5 << 16 >> 30 << 14) | ((sdram->emc_pmacro_perbit_rfu_ctrl5 << 18 >> 30 << 12) | ((sdram->emc_pmacro_perbit_rfu_ctrl5 << 20 >> 30 << 10) | ((sdram->emc_pmacro_perbit_rfu_ctrl5 << 22 >> 30 << 8) | ((sdram->emc_pmacro_perbit_rfu_ctrl5 << 24 >> 30 << 6) | (16 * (sdram->emc_pmacro_perbit_rfu_ctrl5 << 26 >> 30) | (4 * (sdram->emc_pmacro_perbit_rfu_ctrl5 << 28 >> 30) | (sdram->emc_pmacro_perbit_rfu_ctrl5 & 3 | 4 * (pmc->scratch42 >> 2)) & 0xFFFFFFF3) & 0xFFFFFFCF) & 0xFFFFFF3F) & 0xFFFFFCFF) & 0xFFFFF3FF) & 0xFFFFCFFF) & 0xFFFF3FFF) & 0xFFFCFFFF) & 0xFFF3FFFF) & 0xFFCFFFFF) & 0xFF3FFFFF) & 0xFCFFFFFF) & 0xF3FFFFFF) & 0xCFFFFFFF) >> 2);
+	pmc->scratch75 = pmc->scratch75 & 0xDFFFFFFF | (sdram->clk_rst_pllm_misc20_override_enable << 29) & 0x20000000;
-// 	pmc->scratch44 = (sdram->mc_emem_arb_da_turns >> 24 << 24) | ((sdram->mc_emem_arb_da_turns >> 16 << 16) | ((sdram->mc_emem_arb_da_turns << 16 >> 24 << 8) | (sdram->mc_emem_arb_da_turns & 0xFF | (pmc->scratch44 >> 8 << 8)) & 0xFFFF00FF) & 0xFF00FFFF) & 0xFFFFFF;
+	pmc->scratch75 = pmc->scratch75 & 0xBFFFFFFF | ((u16)(sdram->emc_dbg_write_mux) << 30) & 0x40000000;
-// 	pmc->scratch64 = ((u16)(sdram->mc_emem_arb_misc2) << 31) | (2 * ((sdram->emc_fbio_spare << 30) | ((sdram->emc_fbio_spare << 24 >> 26 << 24) | ((sdram->emc_fbio_spare << 16 >> 24 << 16) | ((sdram->emc_fbio_spare << 8 >> 24 << 8) | ((sdram->emc_fbio_spare >> 24) | (pmc->scratch64 >> 8 << 8)) & 0xFFFF00FF) & 0xFF00FFFF) & 0xC0FFFFFF) & 0xBFFFFFFF) >> 1);
+	pmc->scratch75 = ((2 * pmc->scratch75) >> 1) | ((u16)(sdram->ahb_arbitration_xbar_ctrl_meminit_done) << 31);
-// 	pmc->scratch65 = ((u16)(sdram->mc_da_cfg0) << 31 >> 1) | ((2 * sdram->mc_emem_arb_misc0 >> 29 << 27) | ((16 * sdram->mc_emem_arb_misc0 >> 31 << 26) | ((32 * sdram->mc_emem_arb_misc0 >> 26 << 20) | ((sdram->mc_emem_arb_misc0 << 11 >> 27 << 15) | ((sdram->mc_emem_arb_misc0 << 17 >> 25 << 8) | ((u8)sdram->mc_emem_arb_misc0 | (pmc->scratch65 >> 8 << 8)) & 0xFFFF80FF) & 0xFFF07FFF) & 0xFC0FFFFF) & 0xFBFFFFFF) & 0xC7FFFFFF) & 0xBFFFFFFF;
+	pmc->scratch90 = pmc->scratch90 & 0xFFFFFF | (sdram->emc_timing_control_wait << 24);
-// 	pmc->scratch66 = (sdram->emc_fdpd_ctrl_cmd >> 30 << 27) | ((4 * sdram->emc_fdpd_ctrl_cmd >> 31 << 26) | ((8 * sdram->emc_fdpd_ctrl_cmd >> 27 << 21) | ((sdram->emc_fdpd_ctrl_cmd << 8 >> 28 << 17) | ((sdram->emc_fdpd_ctrl_cmd << 15 >> 27 << 12) | ((sdram->emc_fdpd_ctrl_cmd << 20 >> 28 << 8) | ((u8)sdram->emc_fdpd_ctrl_cmd | (pmc->scratch66 >> 8 << 8)) & 0xFFFFF0FF) & 0xFFFE0FFF) & 0xFFE1FFFF) & 0xFC1FFFFF) & 0xFBFFFFFF) & 0xE7FFFFFF;
+	pmc->scratch91 = pmc->scratch91 & 0xFFFFFF | (sdram->emc_zcal_warm_boot_wait << 24);
-// 	pmc->scratch67 = ((u8)(sdram->emc_burst_refresh_num) << 28) | ((16 * sdram->emc_auto_cal_config2 >> 30 << 26) | ((sdram->emc_auto_cal_config2 << 6 >> 30 << 24) | ((sdram->emc_auto_cal_config2 << 8 >> 30 << 22) | ((sdram->emc_auto_cal_config2 << 10 >> 30 << 20) | ((sdram->emc_auto_cal_config2 << 12 >> 30 << 18) | ((sdram->emc_auto_cal_config2 << 14 >> 30 << 16) | ((sdram->emc_auto_cal_config2 << 16 >> 30 << 14) | ((sdram->emc_auto_cal_config2 << 18 >> 30 << 12) | ((sdram->emc_auto_cal_config2 << 20 >> 30 << 10) | ((sdram->emc_auto_cal_config2 << 22 >> 30 << 8) | ((sdram->emc_auto_cal_config2 << 24 >> 30 << 6) | (16 * (sdram->emc_auto_cal_config2 << 26 >> 30) | (4 * (sdram->emc_auto_cal_config2 << 28 >> 30) | (sdram->emc_auto_cal_config2 & 3 | 4 * (pmc->scratch67 >> 2)) & 0xFFFFFFF3) & 0xFFFFFFCF) & 0xFFFFFF3F) & 0xFFFFFCFF) & 0xFFFFF3FF) & 0xFFFFCFFF) & 0xFFFF3FFF) & 0xFFFCFFFF) & 0xFFF3FFFF) & 0xFFCFFFFF) & 0xFF3FFFFF) & 0xFCFFFFFF) & 0xF3FFFFFF) & 0xFFFFFFF;
+	pmc->scratch92 = pmc->scratch92 & 0xFFFFFF | (sdram->warm_boot_wait << 24);
-// 	pmc->scratch68 = ((u8)(sdram->emc_tppd) << 28) | ((sdram->emc_cfg_dig_dll >> 31 << 27) | ((2 * sdram->emc_cfg_dig_dll >> 31 << 26) | ((16 * sdram->emc_cfg_dig_dll >> 31 << 25) | ((sdram->emc_cfg_dig_dll << 6 >> 22 << 15) | ((sdram->emc_cfg_dig_dll << 16 >> 31 << 14) | ((sdram->emc_cfg_dig_dll << 17 >> 31 << 13) | ((sdram->emc_cfg_dig_dll << 18 >> 30 << 11) | ((sdram->emc_cfg_dig_dll << 21 >> 29 << 8) | ((sdram->emc_cfg_dig_dll << 24 >> 30 << 6) | (32 * (sdram->emc_cfg_dig_dll << 26 >> 31) | (16 * (sdram->emc_cfg_dig_dll << 27 >> 31) | (8 * (sdram->emc_cfg_dig_dll << 28 >> 31) | (4 * (sdram->emc_cfg_dig_dll << 29 >> 31) | (2 * (sdram->emc_cfg_dig_dll << 30 >> 31) | (sdram->emc_cfg_dig_dll & 1 | 2 * (pmc->scratch68 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFF3F) & 0xFFFFF8FF) & 0xFFFFE7FF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFE007FFF) & 0xFDFFFFFF) & 0xFBFFFFFF) & 0xF7FFFFFF) & 0xFFFFFFF;
+	pmc->scratch93 = pmc->scratch93 & 0xFFFFFF | ((u16)(sdram->emc_pin_program_wait) << 24);
-// 	pmc->scratch69 = (sdram->emc_r2r << 28) | ((sdram->emc_fdpd_ctrl_dq >> 30 << 26) | ((8 * sdram->emc_fdpd_ctrl_dq >> 27 << 21) | ((sdram->emc_fdpd_ctrl_dq << 8 >> 28 << 17) | ((sdram->emc_fdpd_ctrl_dq << 15 >> 27 << 12) | ((sdram->emc_fdpd_ctrl_dq << 20 >> 28 << 8) | ((u8)sdram->emc_fdpd_ctrl_dq | (pmc->scratch69 >> 8 << 8)) & 0xFFFFF0FF) & 0xFFFE0FFF) & 0xFFE1FFFF) & 0xFC1FFFFF) & 0xF3FFFFFF) & 0xFFFFFFF;
+	pmc->scratch114 = pmc->scratch114 & 0x3FFFFF | ((u16)(sdram->emc_auto_cal_wait) << 22);
-// 	pmc->scratch70 = (sdram->emc_w2w << 28) | ((2 * sdram->emc_pmacro_ib_vref_dq_0 >> 25 << 21) | ((sdram->emc_pmacro_ib_vref_dq_0 << 9 >> 25 << 14) | ((sdram->emc_pmacro_ib_vref_dq_0 << 17 >> 25 << 7) | (sdram->emc_pmacro_ib_vref_dq_0 & 0x7F | (pmc->scratch70 >> 7 << 7)) & 0xFFFFC07F) & 0xFFE03FFF) & 0xF01FFFFF) & 0xFFFFFFF;
+	pmc->scratch215 = (u16)pmc->scratch215 | ((u16)(sdram->swizzle_rank_byte_encode) << 16);
-// 	pmc->scratch71 = (sdram->emc_pmacro_vttgen_ctrl0 << 12 >> 28 << 28) | ((2 * sdram->emc_pmacro_ib_vref_dq_1 >> 25 << 21) | ((sdram->emc_pmacro_ib_vref_dq_1 << 9 >> 25 << 14) | ((sdram->emc_pmacro_ib_vref_dq_1 << 17 >> 25 << 7) | ((pmc->scratch71 >> 7 << 7) | sdram->emc_pmacro_ib_vref_dq_1 & 0x7F) & 0xFFFFC07F) & 0xFFE03FFF) & 0xF01FFFFF) & 0xFFFFFFF;
+	pmc->scratch216 = (2 * sdram->emc_pmacro_data_pad_tx_ctrl >> 31 << 30) | ((4 * sdram->emc_pmacro_data_pad_tx_ctrl >> 31 << 29) | ((8 * sdram->emc_pmacro_data_pad_tx_ctrl >> 31 << 28) | ((16 * sdram->emc_pmacro_data_pad_tx_ctrl >> 31 << 27) | ((32 * sdram->emc_pmacro_data_pad_tx_ctrl >> 31 << 26) | ((sdram->emc_pmacro_data_pad_tx_ctrl << 6 >> 31 << 25) | tmp & 0xFDFFFFFF) & 0xFBFFFFFF) & 0xF7FFFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF;
-// 	pmc->scratch72 = (((sdram->emc_pmacro_ib_vref_dqs_0 << 17 >> 25 << 7) | ((pmc->scratch72 >> 7 << 7) | sdram->emc_pmacro_ib_vref_dqs_0 & 0x7F) & 0xFFFFC07F) & 0xFFE03FFF | (sdram->emc_pmacro_ib_vref_dqs_0 << 9 >> 25 << 14)) & 0xF01FFFFF | (2 * sdram->emc_pmacro_ib_vref_dqs_0 >> 25 << 21);
+	s(emc_mrw_lpddr2zcal_warm_boot, 23:16, scratch5, 7:0);
-// 	pmc->scratch73 = (2 * sdram->emc_pmacro_ib_vref_dqs_1 >> 25 << 21) | ((sdram->emc_pmacro_ib_vref_dqs_1 << 9 >> 25 << 14) | ((sdram->emc_pmacro_ib_vref_dqs_1 << 17 >> 25 << 7) | ((pmc->scratch73 >> 7 << 7) | sdram->emc_pmacro_ib_vref_dqs_1 & 0x7F) & 0xFFFFC07F) & 0xFFE03FFF) & 0xF01FFFFF;
+	s(emc_mrw_lpddr2zcal_warm_boot, 7:0, scratch5, 15:8);
-// 	pmc->scratch74 = (2 * sdram->emc_pmacro_ddll_short_cmd_0 >> 25 << 21) | ((sdram->emc_pmacro_ddll_short_cmd_0 << 9 >> 25 << 14) | ((sdram->emc_pmacro_ddll_short_cmd_0 << 17 >> 25 << 7) | (sdram->emc_pmacro_ddll_short_cmd_0 & 0x7F | (pmc->scratch74 >> 7 << 7)) & 0xFFFFC07F) & 0xFFE03FFF) & 0xF01FFFFF;
+	s(emc_warm_boot_mrw_extra, 23:16, scratch5, 23:16);
-// 	pmc->scratch75 = (2 * sdram->emc_pmacro_ddll_short_cmd_1 >> 25 << 21) | ((sdram->emc_pmacro_ddll_short_cmd_1 << 9 >> 25 << 14) | ((sdram->emc_pmacro_ddll_short_cmd_1 << 17 >> 25 << 7) | (sdram->emc_pmacro_ddll_short_cmd_1 & 0x7F | (pmc->scratch75 >> 7 << 7)) & 0xFFFFC07F) & 0xFFE03FFF) & 0xF01FFFFF;
+	s(emc_warm_boot_mrw_extra, 7:0, scratch5, 31:24);
-// 	pmc->scratch76 = (sdram->emc_rp << 26) | ((4 * sdram->emc_dll_cfg0 >> 31 << 25) | ((8 * sdram->emc_dll_cfg0 >> 31 << 24) | ((16 * sdram->emc_dll_cfg0 >> 28 << 20) | ((sdram->emc_dll_cfg0 << 8 >> 28 << 16) | ((sdram->emc_dll_cfg0 << 12 >> 28 << 12) | ((sdram->emc_dll_cfg0 << 16 >> 28 << 8) | ((sdram->emc_dll_cfg0 << 20 >> 24) | (pmc->scratch76 >> 8 << 8)) & 0xFFFFF0FF) & 0xFFFF0FFF) & 0xFFF0FFFF) & 0xFF0FFFFF) & 0xFEFFFFFF) & 0xFDFFFFFF) & 0x3FFFFFF;
+	s(emc_mrw_lpddr2zcal_warm_boot, 31:30, scratch6, 1:0);
-// 	tmp = (sdram->emc_pmacro_tx_pwrd0 << 12 >> 31 << 16) | ((sdram->emc_pmacro_tx_pwrd0 << 13 >> 31 << 15) | ((sdram->emc_pmacro_tx_pwrd0 << 14 >> 31 << 14) | ((sdram->emc_pmacro_tx_pwrd0 << 15 >> 31 << 13) | ((sdram->emc_pmacro_tx_pwrd0 << 18 >> 31 << 12) | ((sdram->emc_pmacro_tx_pwrd0 << 19 >> 31 << 11) | ((sdram->emc_pmacro_tx_pwrd0 << 21 >> 31 << 10) | ((sdram->emc_pmacro_tx_pwrd0 << 22 >> 31 << 9) | ((sdram->emc_pmacro_tx_pwrd0 << 23 >> 31 << 8) | ((sdram->emc_pmacro_tx_pwrd0 << 24 >> 31 << 7) | ((sdram->emc_pmacro_tx_pwrd0 << 25 >> 31 << 6) | (32 * (sdram->emc_pmacro_tx_pwrd0 << 26 >> 31) | (16 * (sdram->emc_pmacro_tx_pwrd0 << 27 >> 31) | (8 * (sdram->emc_pmacro_tx_pwrd0 << 28 >> 31) | (4 * (sdram->emc_pmacro_tx_pwrd0 << 29 >> 31) | (2 * (sdram->emc_pmacro_tx_pwrd0 << 30 >> 31) | (sdram->emc_pmacro_tx_pwrd0 & 1 | 2 * (pmc->scratch77 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFFBF) & 0xFFFFFF7F) & 0xFFFFFEFF) & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFFEFFFF;
+	s(emc_warm_boot_mrw_extra, 31:30, scratch6, 3:2);
-// 	pmc->scratch77 = (sdram->emc_r2w << 26) | ((4 * sdram->emc_pmacro_tx_pwrd0 >> 31 << 25) | ((8 * sdram->emc_pmacro_tx_pwrd0 >> 31 << 24) | ((32 * sdram->emc_pmacro_tx_pwrd0 >> 31 << 23) | ((sdram->emc_pmacro_tx_pwrd0 << 6 >> 31 << 22) | ((sdram->emc_pmacro_tx_pwrd0 << 7 >> 31 << 21) | ((sdram->emc_pmacro_tx_pwrd0 << 8 >> 31 << 20) | ((sdram->emc_pmacro_tx_pwrd0 << 9 >> 31 << 19) | ((sdram->emc_pmacro_tx_pwrd0 << 10 >> 31 << 18) | ((sdram->emc_pmacro_tx_pwrd0 << 11 >> 31 << 17) | tmp & 0xFFFDFFFF) & 0xFFFBFFFF) & 0xFFF7FFFF) & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0xFEFFFFFF) & 0xFDFFFFFF) & 0x3FFFFFF;
+	s(emc_mrw_lpddr2zcal_warm_boot, 27:26, scratch6, 5:4);
-// 	tmp = ((8 * sdram->emc_pmacro_tx_pwrd1 >> 31 << 24) | ((32 * sdram->emc_pmacro_tx_pwrd1 >> 31 << 23) | ((sdram->emc_pmacro_tx_pwrd1 << 6 >> 31 << 22) | ((sdram->emc_pmacro_tx_pwrd1 << 7 >> 31 << 21) | ((sdram->emc_pmacro_tx_pwrd1 << 8 >> 31 << 20) | ((sdram->emc_pmacro_tx_pwrd1 << 9 >> 31 << 19) | ((sdram->emc_pmacro_tx_pwrd1 << 10 >> 31 << 18) | ((sdram->emc_pmacro_tx_pwrd1 << 11 >> 31 << 17) | ((sdram->emc_pmacro_tx_pwrd1 << 12 >> 31 << 16) | ((sdram->emc_pmacro_tx_pwrd1 << 13 >> 31 << 15) | ((sdram->emc_pmacro_tx_pwrd1 << 14 >> 31 << 14) | ((sdram->emc_pmacro_tx_pwrd1 << 15 >> 31 << 13) | ((sdram->emc_pmacro_tx_pwrd1 << 18 >> 31 << 12) | ((sdram->emc_pmacro_tx_pwrd1 << 19 >> 31 << 11) | ((sdram->emc_pmacro_tx_pwrd1 << 21 >> 31 << 10) | ((sdram->emc_pmacro_tx_pwrd1 << 22 >> 31 << 9) | ((sdram->emc_pmacro_tx_pwrd1 << 23 >> 31 << 8) | ((sdram->emc_pmacro_tx_pwrd1 << 24 >> 31 << 7) | ((sdram->emc_pmacro_tx_pwrd1 << 25 >> 31 << 6) | (32 * (sdram->emc_pmacro_tx_pwrd1 << 26 >> 31) | (16 * (sdram->emc_pmacro_tx_pwrd1 << 27 >> 31) | (8 * (sdram->emc_pmacro_tx_pwrd1 << 28 >> 31) | (4 * (sdram->emc_pmacro_tx_pwrd1 << 29 >> 31) | (2 * (sdram->emc_pmacro_tx_pwrd1 << 30 >> 31) | (sdram->emc_pmacro_tx_pwrd1 & 1 | 2 * (pmc->scratch78 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFFBF) & 0xFFFFFF7F) & 0xFFFFFEFF) & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFFEFFFF) & 0xFFFDFFFF) & 0xFFFBFFFF) & 0xFFF7FFFF) & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0xFEFFFFFF) & 0xFDFFFFFF;
+	s(emc_warm_boot_mrw_extra, 27:26, scratch6, 7:6);
-// 	pmc->scratch78 = (sdram->emc_w2r << 26) | ((4 * sdram->emc_pmacro_tx_pwrd1 >> 31 << 25) | tmp) & 0x3FFFFFF;
+	s(emc_mrw6, 27:0, scratch8, 27:0);
-// 	tmp = ((8 * sdram->emc_pmacro_tx_pwrd2 >> 31 << 24) | ((32 * sdram->emc_pmacro_tx_pwrd2 >> 31 << 23) | ((sdram->emc_pmacro_tx_pwrd2 << 6 >> 31 << 22) | ((sdram->emc_pmacro_tx_pwrd2 << 7 >> 31 << 21) | ((sdram->emc_pmacro_tx_pwrd2 << 8 >> 31 << 20) | ((sdram->emc_pmacro_tx_pwrd2 << 9 >> 31 << 19) | ((sdram->emc_pmacro_tx_pwrd2 << 10 >> 31 << 18) | ((sdram->emc_pmacro_tx_pwrd2 << 11 >> 31 << 17) | ((sdram->emc_pmacro_tx_pwrd2 << 12 >> 31 << 16) | ((sdram->emc_pmacro_tx_pwrd2 << 13 >> 31 << 15) | ((sdram->emc_pmacro_tx_pwrd2 << 14 >> 31 << 14) | ((sdram->emc_pmacro_tx_pwrd2 << 15 >> 31 << 13) | ((sdram->emc_pmacro_tx_pwrd2 << 18 >> 31 << 12) | ((sdram->emc_pmacro_tx_pwrd2 << 19 >> 31 << 11) | ((sdram->emc_pmacro_tx_pwrd2 << 21 >> 31 << 10) | ((sdram->emc_pmacro_tx_pwrd2 << 22 >> 31 << 9) | ((sdram->emc_pmacro_tx_pwrd2 << 23 >> 31 << 8) | ((sdram->emc_pmacro_tx_pwrd2 << 24 >> 31 << 7) | ((sdram->emc_pmacro_tx_pwrd2 << 25 >> 31 << 6) | (32 * (sdram->emc_pmacro_tx_pwrd2 << 26 >> 31) | (16 * (sdram->emc_pmacro_tx_pwrd2 << 27 >> 31) | (8 * (sdram->emc_pmacro_tx_pwrd2 << 28 >> 31) | (4 * (sdram->emc_pmacro_tx_pwrd2 << 29 >> 31) | (2 * (sdram->emc_pmacro_tx_pwrd2 << 30 >> 31) | (sdram->emc_pmacro_tx_pwrd2 & 1 | 2 * (pmc->scratch79 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFFBF) & 0xFFFFFF7F) & 0xFFFFFEFF) & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFFEFFFF) & 0xFFFDFFFF) & 0xFFFBFFFF) & 0xFFF7FFFF) & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0xFEFFFFFF) & 0xFDFFFFFF;
+	s(emc_mrw6, 31:30, scratch8, 29:28);
-// 	pmc->scratch79 = (sdram->emc_r2p << 26) | ((4 * sdram->emc_pmacro_tx_pwrd2 >> 31 << 25) | tmp) & 0x3FFFFFF;
+	s(emc_mrw8, 27:0, scratch9, 27:0);
-// 	tmp = (sdram->emc_pmacro_tx_pwrd3 << 23 >> 31 << 8) | ((sdram->emc_pmacro_tx_pwrd3 << 24 >> 31 << 7) | ((sdram->emc_pmacro_tx_pwrd3 << 25 >> 31 << 6) | (32 * (sdram->emc_pmacro_tx_pwrd3 << 26 >> 31) | (16 * (sdram->emc_pmacro_tx_pwrd3 << 27 >> 31) | (8 * (sdram->emc_pmacro_tx_pwrd3 << 28 >> 31) | (4 * (sdram->emc_pmacro_tx_pwrd3 << 29 >> 31) | (2 * (sdram->emc_pmacro_tx_pwrd3 << 30 >> 31) | (sdram->emc_pmacro_tx_pwrd3 & 1 | 2 * (pmc->scratch80 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFFBF) & 0xFFFFFF7F) & 0xFFFFFEFF;
+	s(emc_mrw8, 31:30, scratch9, 29:28);
-// 	pmc->scratch80 = ((u8)(sdram->emc_ccdmw) << 26) | ((4 * sdram->emc_pmacro_tx_pwrd3 >> 31 << 25) | ((8 * sdram->emc_pmacro_tx_pwrd3 >> 31 << 24) | ((32 * sdram->emc_pmacro_tx_pwrd3 >> 31 << 23) | ((sdram->emc_pmacro_tx_pwrd3 << 6 >> 31 << 22) | ((sdram->emc_pmacro_tx_pwrd3 << 7 >> 31 << 21) | ((sdram->emc_pmacro_tx_pwrd3 << 8 >> 31 << 20) | ((sdram->emc_pmacro_tx_pwrd3 << 9 >> 31 << 19) | ((sdram->emc_pmacro_tx_pwrd3 << 10 >> 31 << 18) | ((sdram->emc_pmacro_tx_pwrd3 << 11 >> 31 << 17) | ((sdram->emc_pmacro_tx_pwrd3 << 12 >> 31 << 16) | ((sdram->emc_pmacro_tx_pwrd3 << 13 >> 31 << 15) | ((sdram->emc_pmacro_tx_pwrd3 << 14 >> 31 << 14) | ((sdram->emc_pmacro_tx_pwrd3 << 15 >> 31 << 13) | ((sdram->emc_pmacro_tx_pwrd3 << 18 >> 31 << 12) | ((sdram->emc_pmacro_tx_pwrd3 << 19 >> 31 << 11) | ((sdram->emc_pmacro_tx_pwrd3 << 21 >> 31 << 10) | ((sdram->emc_pmacro_tx_pwrd3 << 22 >> 31 << 9) | tmp & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFFEFFFF) & 0xFFFDFFFF) & 0xFFFBFFFF) & 0xFFF7FFFF) & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0xFEFFFFFF) & 0xFDFFFFFF) & 0x3FFFFFF;
+	s(emc_mrw9, 27:0, scratch10, 27:0);
-// 	tmp = ((8 * sdram->emc_pmacro_tx_pwrd4 >> 31 << 24) | ((32 * sdram->emc_pmacro_tx_pwrd4 >> 31 << 23) | ((sdram->emc_pmacro_tx_pwrd4 << 6 >> 31 << 22) | ((sdram->emc_pmacro_tx_pwrd4 << 7 >> 31 << 21) | ((sdram->emc_pmacro_tx_pwrd4 << 8 >> 31 << 20) | ((sdram->emc_pmacro_tx_pwrd4 << 9 >> 31 << 19) | ((sdram->emc_pmacro_tx_pwrd4 << 10 >> 31 << 18) | ((sdram->emc_pmacro_tx_pwrd4 << 11 >> 31 << 17) | ((sdram->emc_pmacro_tx_pwrd4 << 12 >> 31 << 16) | ((sdram->emc_pmacro_tx_pwrd4 << 13 >> 31 << 15) | ((sdram->emc_pmacro_tx_pwrd4 << 14 >> 31 << 14) | ((sdram->emc_pmacro_tx_pwrd4 << 15 >> 31 << 13) | ((sdram->emc_pmacro_tx_pwrd4 << 18 >> 31 << 12) | ((sdram->emc_pmacro_tx_pwrd4 << 19 >> 31 << 11) | ((sdram->emc_pmacro_tx_pwrd4 << 21 >> 31 << 10) | ((sdram->emc_pmacro_tx_pwrd4 << 22 >> 31 << 9) | ((sdram->emc_pmacro_tx_pwrd4 << 23 >> 31 << 8) | ((sdram->emc_pmacro_tx_pwrd4 << 24 >> 31 << 7) | ((sdram->emc_pmacro_tx_pwrd4 << 25 >> 31 << 6) | (32 * (sdram->emc_pmacro_tx_pwrd4 << 26 >> 31) | (16 * (sdram->emc_pmacro_tx_pwrd4 << 27 >> 31) | (8 * (sdram->emc_pmacro_tx_pwrd4 << 28 >> 31) | (4 * (sdram->emc_pmacro_tx_pwrd4 << 29 >> 31) | (2 * (sdram->emc_pmacro_tx_pwrd4 << 30 >> 31) | (sdram->emc_pmacro_tx_pwrd4 & 1 | 2 * (pmc->scratch81 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFFBF) & 0xFFFFFF7F) & 0xFFFFFEFF) & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFFEFFFF) & 0xFFFDFFFF) & 0xFFFBFFFF) & 0xFFF7FFFF) & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0xFEFFFFFF) & 0xFDFFFFFF;
+	s(emc_mrw9, 31:30, scratch10, 29:28);
-// 	pmc->scratch81 = ((u8)(sdram->emc_rd_rcd) << 26) | ((4 * sdram->emc_pmacro_tx_pwrd4 >> 31 << 25) | tmp) & 0x3FFFFFF;
+	s(emc_mrw10, 27:0, scratch11, 27:0);
-// 	tmp = ((8 * sdram->emc_pmacro_tx_pwrd5 >> 31 << 24) | ((32 * sdram->emc_pmacro_tx_pwrd5 >> 31 << 23) | ((sdram->emc_pmacro_tx_pwrd5 << 6 >> 31 << 22) | ((sdram->emc_pmacro_tx_pwrd5 << 7 >> 31 << 21) | ((sdram->emc_pmacro_tx_pwrd5 << 8 >> 31 << 20) | ((sdram->emc_pmacro_tx_pwrd5 << 9 >> 31 << 19) | ((sdram->emc_pmacro_tx_pwrd5 << 10 >> 31 << 18) | ((sdram->emc_pmacro_tx_pwrd5 << 11 >> 31 << 17) | ((sdram->emc_pmacro_tx_pwrd5 << 12 >> 31 << 16) | ((sdram->emc_pmacro_tx_pwrd5 << 13 >> 31 << 15) | ((sdram->emc_pmacro_tx_pwrd5 << 14 >> 31 << 14) | ((sdram->emc_pmacro_tx_pwrd5 << 15 >> 31 << 13) | ((sdram->emc_pmacro_tx_pwrd5 << 18 >> 31 << 12) | ((sdram->emc_pmacro_tx_pwrd5 << 19 >> 31 << 11) | ((sdram->emc_pmacro_tx_pwrd5 << 21 >> 31 << 10) | ((sdram->emc_pmacro_tx_pwrd5 << 22 >> 31 << 9) | ((sdram->emc_pmacro_tx_pwrd5 << 23 >> 31 << 8) | ((sdram->emc_pmacro_tx_pwrd5 << 24 >> 31 << 7) | ((sdram->emc_pmacro_tx_pwrd5 << 25 >> 31 << 6) | (32 * (sdram->emc_pmacro_tx_pwrd5 << 26 >> 31) | (16 * (sdram->emc_pmacro_tx_pwrd5 << 27 >> 31) | (8 * (sdram->emc_pmacro_tx_pwrd5 << 28 >> 31) | (4 * (sdram->emc_pmacro_tx_pwrd5 << 29 >> 31) | (2 * (sdram->emc_pmacro_tx_pwrd5 << 30 >> 31) | (sdram->emc_pmacro_tx_pwrd5 & 1 | 2 * (pmc->scratch82 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFFBF) & 0xFFFFFF7F) & 0xFFFFFEFF) & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFFEFFFF) & 0xFFFDFFFF) & 0xFFFBFFFF) & 0xFFF7FFFF) & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0xFEFFFFFF) & 0xFDFFFFFF;
+	s(emc_mrw10, 31:30, scratch11, 29:28);
-// 	pmc->scratch82 = ((u16)(sdram->emc_wr_rcd) << 26) | ((4 * sdram->emc_pmacro_tx_pwrd5 >> 31 << 25) | tmp) & 0x3FFFFFF;
+	s(emc_mrw12, 27:0, scratch12, 27:0);
-// 	pmc->scratch83 = ((u8)(sdram->emc_config_sample_delay) << 25) | ((sdram->emc_auto_cal_channel >> 31 << 24) | ((2 * sdram->emc_auto_cal_channel >> 31 << 23) | ((4 * sdram->emc_auto_cal_channel >> 31 << 22) | ((16 * sdram->emc_auto_cal_channel >> 25 << 15) | ((sdram->emc_auto_cal_channel << 11 >> 27 << 10) | ((sdram->emc_auto_cal_channel << 20 >> 28 << 6) | (sdram->emc_auto_cal_channel & 0x3F | (pmc->scratch83 >> 6 << 6)) & 0xFFFFFC3F) & 0xFFFF83FF) & 0xFFC07FFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0xFEFFFFFF) & 0x1FFFFFF;
+	s(emc_mrw12, 31:30, scratch12, 29:28);
-// 	pmc->scratch84 = (sdram->emc_sel_dpd_ctrl << 13 >> 29 << 29) | ((sdram->emc_sel_dpd_ctrl << 23 >> 31 << 28) | ((sdram->emc_sel_dpd_ctrl << 26 >> 31 << 27) | ((sdram->emc_sel_dpd_ctrl << 27 >> 31 << 26) | ((sdram->emc_sel_dpd_ctrl << 28 >> 31 << 25) | ((sdram->emc_sel_dpd_ctrl << 29 >> 31 << 24) | ((4 * sdram->emc_pmacro_rx_term >> 26 << 18) | ((sdram->emc_pmacro_rx_term << 10 >> 26 << 12) | ((sdram->emc_pmacro_rx_term << 18 >> 26 << 6) | (sdram->emc_pmacro_rx_term & 0x3F | (pmc->scratch84 >> 6 << 6)) & 0xFFFFF03F) & 0xFFFC0FFF) & 0xFF03FFFF) & 0xFEFFFFFF) & 0xFDFFFFFF) & 0xFBFFFFFF) & 0xF7FFFFFF) & 0xEFFFFFFF) & 0x1FFFFFFF;
+	s(emc_mrw13, 27:0, scratch13, 27:0);
-// 	pmc->scratch85 = (4 * sdram->emc_obdly >> 30 << 30) | (4 * ((sdram->emc_obdly << 24) | ((4 * sdram->emc_pmacro_dq_tx_drive >> 26 << 18) | ((sdram->emc_pmacro_dq_tx_drive << 10 >> 26 << 12) | ((sdram->emc_pmacro_dq_tx_drive << 18 >> 26 << 6) | (sdram->emc_pmacro_dq_tx_drive & 0x3F | (pmc->scratch85 >> 6 << 6)) & 0xFFFFF03F) & 0xFFFC0FFF) & 0xFF03FFFF) & 0xC0FFFFFF) >> 2);
+	s(emc_mrw13, 31:30, scratch13, 29:28);
-// 	pmc->scratch86 = (sdram->emc_pmacro_vttgen_ctrl1 << 10 >> 30 << 30) | (4 * ((sdram->emc_pmacro_vttgen_ctrl1 << 16 >> 26 << 24) | ((4 * sdram->emc_pmacro_ca_tx_drive >> 26 << 18) | ((sdram->emc_pmacro_ca_tx_drive << 10 >> 26 << 12) | ((sdram->emc_pmacro_ca_tx_drive << 18 >> 26 << 6) | (sdram->emc_pmacro_ca_tx_drive & 0x3F | (pmc->scratch86 >> 6 << 6)) & 0xFFFFF03F) & 0xFFFC0FFF) & 0xFF03FFFF) & 0xC0FFFFFF) >> 2);
+	s(emc_mrw14, 27:0, scratch14, 27:0);
-// 	pmc->scratch87 = (sdram->emc_pmacro_vttgen_ctrl2 >> 16 << 24) | ((16 * sdram->emc_pmacro_zcrtl >> 30 << 22) | ((sdram->emc_pmacro_zcrtl << 6 >> 30 << 20) | ((sdram->emc_pmacro_zcrtl << 8 >> 30 << 18) | ((sdram->emc_pmacro_zcrtl << 10 >> 30 << 16) | ((sdram->emc_pmacro_zcrtl << 12 >> 30 << 14) | ((sdram->emc_pmacro_zcrtl << 14 >> 30 << 12) | ((sdram->emc_pmacro_zcrtl << 16 >> 30 << 10) | ((sdram->emc_pmacro_zcrtl << 18 >> 30 << 8) | ((sdram->emc_pmacro_zcrtl << 20 >> 30 << 6) | (16 * (sdram->emc_pmacro_zcrtl << 22 >> 30) | (4 * (sdram->emc_pmacro_zcrtl << 24 >> 30) | ((sdram->emc_pmacro_zcrtl << 26 >> 30) | 4 * (pmc->scratch87 >> 2)) & 0xFFFFFFF3) & 0xFFFFFFCF) & 0xFFFFFF3F) & 0xFFFFFCFF) & 0xFFFFF3FF) & 0xFFFFCFFF) & 0xFFFF3FFF) & 0xFFFCFFFF) & 0xFFF3FFFF) & 0xFFCFFFFF) & 0xFF3FFFFF) & 0xFFFFFF;
+	s(emc_mrw14, 31:30, scratch14, 29:28);
-// 	pmc->scratch88 = (sdram->mc_emem_arb_timing_rc << 24) | ((sdram->emc_zcal_interval << 14) | ((sdram->emc_zcal_interval << 8 >> 18) | (pmc->scratch88 >> 14 << 14)) & 0xFF003FFF) & 0xFFFFFF;
+	s(emc_mrw1, 7:0, scratch15, 7:0);
-// 	pmc->scratch89 = ((u16)(sdram->mc_emem_arb_rsv) << 24) | ((sdram->emc_data_brlshft0 << 8 >> 29 << 21) | ((sdram->emc_data_brlshft0 << 11 >> 29 << 18) | ((sdram->emc_data_brlshft0 << 14 >> 29 << 15) | ((sdram->emc_data_brlshft0 << 17 >> 29 << 12) | ((sdram->emc_data_brlshft0 << 20 >> 29 << 9) | ((sdram->emc_data_brlshft0 << 23 >> 29 << 6) | (8 * (sdram->emc_data_brlshft0 << 26 >> 29) | (sdram->emc_data_brlshft0 & 7 | 8 * (pmc->scratch89 >> 3)) & 0xFFFFFFC7) & 0xFFFFFE3F) & 0xFFFFF1FF) & 0xFFFF8FFF) & 0xFFFC7FFF) & 0xFFE3FFFF) & 0xFF1FFFFF) & 0xFFFFFF;
+	s(emc_mrw1, 23:16, scratch15, 15:8);
-// 	pmc->scratch90 = (sdram->emc_data_brlshft1 << 8 >> 29 << 21) | ((sdram->emc_data_brlshft1 << 11 >> 29 << 18) | ((sdram->emc_data_brlshft1 << 14 >> 29 << 15) | ((sdram->emc_data_brlshft1 << 17 >> 29 << 12) | ((sdram->emc_data_brlshft1 << 20 >> 29 << 9) | ((sdram->emc_data_brlshft1 << 23 >> 29 << 6) | (8 * (sdram->emc_data_brlshft1 << 26 >> 29) | (sdram->emc_data_brlshft1 & 7 | 8 * (pmc->scratch90 >> 3)) & 0xFFFFFFC7) & 0xFFFFFE3F) & 0xFFFFF1FF) & 0xFFFF8FFF) & 0xFFFC7FFF) & 0xFFE3FFFF) & 0xFF1FFFFF;
+	s(emc_mrw1, 27:26, scratch15, 17:16);
-// 	pmc->scratch91 = (sdram->emc_dqs_brlshft0 << 8 >> 29 << 21) | ((sdram->emc_dqs_brlshft0 << 11 >> 29 << 18) | ((sdram->emc_dqs_brlshft0 << 14 >> 29 << 15) | ((sdram->emc_dqs_brlshft0 << 17 >> 29 << 12) | ((sdram->emc_dqs_brlshft0 << 20 >> 29 << 9) | ((sdram->emc_dqs_brlshft0 << 23 >> 29 << 6) | (8 * (sdram->emc_dqs_brlshft0 << 26 >> 29) | (sdram->emc_dqs_brlshft0 & 7 | 8 * (pmc->scratch91 >> 3)) & 0xFFFFFFC7) & 0xFFFFFE3F) & 0xFFFFF1FF) & 0xFFFF8FFF) & 0xFFFC7FFF) & 0xFFE3FFFF) & 0xFF1FFFFF;
+	s(emc_mrw1, 31:30, scratch15, 19:18);
-// 	pmc->scratch92 = (sdram->emc_dqs_brlshft1 << 8 >> 29 << 21) | ((sdram->emc_dqs_brlshft1 << 11 >> 29 << 18) | ((sdram->emc_dqs_brlshft1 << 14 >> 29 << 15) | ((sdram->emc_dqs_brlshft1 << 17 >> 29 << 12) | ((sdram->emc_dqs_brlshft1 << 20 >> 29 << 9) | ((sdram->emc_dqs_brlshft1 << 23 >> 29 << 6) | (8 * (sdram->emc_dqs_brlshft1 << 26 >> 29) | (sdram->emc_dqs_brlshft1 & 7 | 8 * (pmc->scratch92 >> 3)) & 0xFFFFFFC7) & 0xFFFFFE3F) & 0xFFFFF1FF) & 0xFFFF8FFF) & 0xFFFC7FFF) & 0xFFE3FFFF) & 0xFF1FFFFF;
+	s(emc_warm_boot_mrw_extra, 7:0, scratch16, 7:0);
-// 	pmc->scratch93 = (2 * sdram->emc_swizzle_rank0_byte0 >> 29 << 21) | ((32 * sdram->emc_swizzle_rank0_byte0 >> 29 << 18) | ((sdram->emc_swizzle_rank0_byte0 << 9 >> 29 << 15) | ((sdram->emc_swizzle_rank0_byte0 << 13 >> 29 << 12) | ((sdram->emc_swizzle_rank0_byte0 << 17 >> 29 << 9) | ((sdram->emc_swizzle_rank0_byte0 << 21 >> 29 << 6) | (8 * (sdram->emc_swizzle_rank0_byte0 << 25 >> 29) | (sdram->emc_swizzle_rank0_byte0 & 7 | 8 * (pmc->scratch93 >> 3)) & 0xFFFFFFC7) & 0xFFFFFE3F) & 0xFFFFF1FF) & 0xFFFF8FFF) & 0xFFFC7FFF) & 0xFFE3FFFF) & 0xFF1FFFFF;
+	s(emc_warm_boot_mrw_extra, 23:16, scratch16, 15:8);
-// 	pmc->scratch94 = ((u8)(sdram->emc_cfg) << 27 >> 31 << 31) | (2 * ((sdram->emc_ras << 24) | ((2 * sdram->emc_swizzle_rank0_byte1 >> 29 << 21) | ((32 * sdram->emc_swizzle_rank0_byte1 >> 29 << 18) | ((sdram->emc_swizzle_rank0_byte1 << 9 >> 29 << 15) | ((sdram->emc_swizzle_rank0_byte1 << 13 >> 29 << 12) | ((sdram->emc_swizzle_rank0_byte1 << 17 >> 29 << 9) | ((sdram->emc_swizzle_rank0_byte1 << 21 >> 29 << 6) | (8 * (sdram->emc_swizzle_rank0_byte1 << 25 >> 29) | (sdram->emc_swizzle_rank0_byte1 & 7 | 8 * (pmc->scratch94 >> 3)) & 0xFFFFFFC7) & 0xFFFFFE3F) & 0xFFFFF1FF) & 0xFFFF8FFF) & 0xFFFC7FFF) & 0xFFE3FFFF) & 0xFF1FFFFF) & 0x80FFFFFF) >> 1);
+	s(emc_warm_boot_mrw_extra, 27:26, scratch16, 17:16);
-// 	pmc->scratch95 = ((u8)(sdram->emc_cfg) << 26 >> 31 << 31) | (2 * ((sdram->emc_w2p << 24) | ((2 * sdram->emc_swizzle_rank0_byte2 >> 29 << 21) | ((32 * sdram->emc_swizzle_rank0_byte2 >> 29 << 18) | ((sdram->emc_swizzle_rank0_byte2 << 9 >> 29 << 15) | ((sdram->emc_swizzle_rank0_byte2 << 13 >> 29 << 12) | ((sdram->emc_swizzle_rank0_byte2 << 17 >> 29 << 9) | ((sdram->emc_swizzle_rank0_byte2 << 21 >> 29 << 6) | (8 * (sdram->emc_swizzle_rank0_byte2 << 25 >> 29) | (sdram->emc_swizzle_rank0_byte2 & 7 | 8 * (pmc->scratch95 >> 3)) & 0xFFFFFFC7) & 0xFFFFFE3F) & 0xFFFFF1FF) & 0xFFFF8FFF) & 0xFFFC7FFF) & 0xFFE3FFFF) & 0xFF1FFFFF) & 0x80FFFFFF) >> 1);
+	s(emc_warm_boot_mrw_extra, 31:30, scratch16, 19:18);
-// 	pmc->scratch96 = ((u8)(sdram->emc_cfg) << 25 >> 31 << 31) | (2 * ((sdram->emc_qsafe << 24) | ((2 * sdram->emc_swizzle_rank0_byte3 >> 29 << 21) | (((sdram->emc_swizzle_rank0_byte3 << 9 >> 29 << 15) | ((sdram->emc_swizzle_rank0_byte3 << 13 >> 29 << 12) | ((sdram->emc_swizzle_rank0_byte3 << 17 >> 29 << 9) | ((sdram->emc_swizzle_rank0_byte3 << 21 >> 29 << 6) | (8 * (sdram->emc_swizzle_rank0_byte3 << 25 >> 29) | (sdram->emc_swizzle_rank0_byte3 & 7 | 8 * (pmc->scratch96 >> 3)) & 0xFFFFFFC7) & 0xFFFFFE3F) & 0xFFFFF1FF) & 0xFFFF8FFF) & 0xFFFC7FFF) & 0xFFE3FFFF | (32 * sdram->emc_swizzle_rank0_byte3 >> 29 << 18)) & 0xFF1FFFFF) & 0x80FFFFFF) >> 1);
+	s(emc_mrw2, 7:0, scratch17, 7:0);
-// 	pmc->scratch97 = ((u8)(sdram->emc_cfg) << 24 >> 31 << 31) | (2 * ((sdram->emc_rdv << 24) | ((2 * sdram->emc_swizzle_rank1_byte0 >> 29 << 21) | (((sdram->emc_swizzle_rank1_byte0 << 9 >> 29 << 15) | ((sdram->emc_swizzle_rank1_byte0 << 13 >> 29 << 12) | ((sdram->emc_swizzle_rank1_byte0 << 17 >> 29 << 9) | ((sdram->emc_swizzle_rank1_byte0 << 21 >> 29 << 6) | (8 * (sdram->emc_swizzle_rank1_byte0 << 25 >> 29) | (sdram->emc_swizzle_rank1_byte0 & 7 | 8 * (pmc->scratch97 >> 3)) & 0xFFFFFFC7) & 0xFFFFFE3F) & 0xFFFFF1FF) & 0xFFFF8FFF) & 0xFFFC7FFF) & 0xFFE3FFFF | (32 * sdram->emc_swizzle_rank1_byte0 >> 29 << 18)) & 0xFF1FFFFF) & 0x80FFFFFF) >> 1);
+	s(emc_mrw2, 23:16, scratch17, 15:8);
-// 	pmc->scratch98 = ((u16)(sdram->emc_cfg) << 23 >> 31 << 31) | (2 * (((u16)(sdram->emc_rw2pden) << 24) | ((2 * sdram->emc_swizzle_rank1_byte1 >> 29 << 21) | ((32 * sdram->emc_swizzle_rank1_byte1 >> 29 << 18) | ((sdram->emc_swizzle_rank1_byte1 << 9 >> 29 << 15) | ((sdram->emc_swizzle_rank1_byte1 << 13 >> 29 << 12) | ((sdram->emc_swizzle_rank1_byte1 << 17 >> 29 << 9) | ((sdram->emc_swizzle_rank1_byte1 << 21 >> 29 << 6) | (8 * (sdram->emc_swizzle_rank1_byte1 << 25 >> 29) | (sdram->emc_swizzle_rank1_byte1 & 7 | 8 * (pmc->scratch98 >> 3)) & 0xFFFFFFC7) & 0xFFFFFE3F) & 0xFFFFF1FF) & 0xFFFF8FFF) & 0xFFFC7FFF) & 0xFFE3FFFF) & 0xFF1FFFFF) & 0x80FFFFFF) >> 1);
+	s(emc_mrw2, 27:26, scratch17, 17:16);
-// 	pmc->scratch99 = ((u16)(sdram->emc_cfg) << 22 >> 31 << 31) | (2 * ((sdram->emc_tfaw << 24) | ((2 * sdram->emc_swizzle_rank1_byte2 >> 29 << 21) | ((32 * sdram->emc_swizzle_rank1_byte2 >> 29 << 18) | ((sdram->emc_swizzle_rank1_byte2 << 9 >> 29 << 15) | ((sdram->emc_swizzle_rank1_byte2 << 13 >> 29 << 12) | ((sdram->emc_swizzle_rank1_byte2 << 17 >> 29 << 9) | ((sdram->emc_swizzle_rank1_byte2 << 21 >> 29 << 6) | (8 * (sdram->emc_swizzle_rank1_byte2 << 25 >> 29) | (sdram->emc_swizzle_rank1_byte2 & 7 | 8 * (pmc->scratch99 >> 3)) & 0xFFFFFFC7) & 0xFFFFFE3F) & 0xFFFFF1FF) & 0xFFFF8FFF) & 0xFFFC7FFF) & 0xFFE3FFFF) & 0xFF1FFFFF) & 0x80FFFFFF) >> 1);
+	s(emc_mrw2, 31:30, scratch17, 19:18);
-// 	pmc->scratch100 = (sdram->emc_cfg << 13 >> 31 << 31) | (2 * ((sdram->emc_tclkstable << 24) | ((2 * sdram->emc_swizzle_rank1_byte3 >> 29 << 21) | ((32 * sdram->emc_swizzle_rank1_byte3 >> 29 << 18) | ((sdram->emc_swizzle_rank1_byte3 << 9 >> 29 << 15) | ((sdram->emc_swizzle_rank1_byte3 << 13 >> 29 << 12) | ((sdram->emc_swizzle_rank1_byte3 << 17 >> 29 << 9) | ((sdram->emc_swizzle_rank1_byte3 << 21 >> 29 << 6) | (8 * (sdram->emc_swizzle_rank1_byte3 << 25 >> 29) | (sdram->emc_swizzle_rank1_byte3 & 7 | 8 * (pmc->scratch100 >> 3)) & 0xFFFFFFC7) & 0xFFFFFE3F) & 0xFFFFF1FF) & 0xFFFF8FFF) & 0xFFFC7FFF) & 0xFFE3FFFF) & 0xFF1FFFFF) & 0x80FFFFFF) >> 1);
+	pmc->scratch18 = (sdram->emc_mrw3 >> 30 << 18) | ((16 * sdram->emc_mrw3 >> 31 << 17) | ((32 * sdram->emc_mrw3 >> 31 << 16) | ((sdram->emc_mrw3 << 8 >> 24 << 8) | ((u8)sdram->emc_mrw3 | (pmc->scratch18 >> 8 << 8)) & 0xFFFF00FF) & 0xFFFEFFFF) & 0xFFFDFFFF) & 0xFFF3FFFF;
-// 	tmp = 2 * (((u8)(sdram->emc_trtm) << 24) | ((16 * sdram->emc_cfg_pipe2 >> 31 << 23) | ((32 * sdram->emc_cfg_pipe2 >> 31 << 22) | ((sdram->emc_cfg_pipe2 << 6 >> 31 << 21) | ((sdram->emc_cfg_pipe2 << 7 >> 31 << 20) | ((sdram->emc_cfg_pipe2 << 8 >> 31 << 19) | ((sdram->emc_cfg_pipe2 << 9 >> 31 << 18) | ((sdram->emc_cfg_pipe2 << 10 >> 31 << 17) | ((sdram->emc_cfg_pipe2 << 11 >> 31 << 16) | ((sdram->emc_cfg_pipe2 << 12 >> 31 << 15) | ((sdram->emc_cfg_pipe2 << 13 >> 31 << 14) | ((sdram->emc_cfg_pipe2 << 14 >> 31 << 13) | ((sdram->emc_cfg_pipe2 << 15 >> 31 << 12) | ((sdram->emc_cfg_pipe2 << 20 >> 31 << 11) | ((sdram->emc_cfg_pipe2 << 21 >> 31 << 10) | ((sdram->emc_cfg_pipe2 << 22 >> 31 << 9) | ((sdram->emc_cfg_pipe2 << 23 >> 31 << 8) | ((sdram->emc_cfg_pipe2 << 24 >> 31 << 7) | ((sdram->emc_cfg_pipe2 << 25 >> 31 << 6) | (32 * (sdram->emc_cfg_pipe2 << 26 >> 31) | (16 * (sdram->emc_cfg_pipe2 << 27 >> 31) | (8 * (sdram->emc_cfg_pipe2 << 28 >> 31) | (4 * (sdram->emc_cfg_pipe2 << 29 >> 31) | (2 * (sdram->emc_cfg_pipe2 << 30 >> 31) | (sdram->emc_cfg_pipe2 & 1 | 2 * (pmc->scratch101 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFFBF) & 0xFFFFFF7F) & 0xFFFFFEFF) & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFFEFFFF) & 0xFFFDFFFF) & 0xFFFBFFFF) & 0xFFF7FFFF) & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0x80FFFFFF) >> 1;
+	pmc->scratch19 = (sdram->emc_mrw4 >> 30 << 18) | ((16 * sdram->emc_mrw4 >> 31 << 17) | ((32 * sdram->emc_mrw4 >> 31 << 16) | ((sdram->emc_mrw4 << 8 >> 24 << 8) | ((u8)sdram->emc_mrw4 | (pmc->scratch19 >> 8 << 8)) & 0xFFFF00FF) & 0xFFFEFFFF) & 0xFFFDFFFF) & 0xFFF3FFFF;
-// 	pmc->scratch101 = (sdram->emc_cfg << 10 >> 31 << 31) | tmp;
+	s32(emc_cmd_mapping_byte, secure_scratch8);
-// 	tmp = (2 * (pmc->scratch102 >> 1) | sdram->emc_cfg_pipe1 & 1) & 0xFFFFFFFD;
+	s32(emc_pmacro_brick_mapping0, secure_scratch9);
-// 	pmc->scratch102 = (sdram->emc_cfg << 9 >> 31 << 31) | (2 * (((u8)(sdram->emc_twtm) << 24) | ((16 * sdram->emc_cfg_pipe1 >> 31 << 23) | ((32 * sdram->emc_cfg_pipe1 >> 31 << 22) | ((sdram->emc_cfg_pipe1 << 6 >> 31 << 21) | ((sdram->emc_cfg_pipe1 << 7 >> 31 << 20) | ((sdram->emc_cfg_pipe1 << 8 >> 31 << 19) | ((sdram->emc_cfg_pipe1 << 9 >> 31 << 18) | ((sdram->emc_cfg_pipe1 << 10 >> 31 << 17) | ((sdram->emc_cfg_pipe1 << 11 >> 31 << 16) | ((sdram->emc_cfg_pipe1 << 12 >> 31 << 15) | ((sdram->emc_cfg_pipe1 << 13 >> 31 << 14) | ((sdram->emc_cfg_pipe1 << 14 >> 31 << 13) | ((sdram->emc_cfg_pipe1 << 15 >> 31 << 12) | ((sdram->emc_cfg_pipe1 << 20 >> 31 << 11) | ((sdram->emc_cfg_pipe1 << 21 >> 31 << 10) | ((sdram->emc_cfg_pipe1 << 22 >> 31 << 9) | ((sdram->emc_cfg_pipe1 << 23 >> 31 << 8) | ((sdram->emc_cfg_pipe1 << 24 >> 31 << 7) | ((sdram->emc_cfg_pipe1 << 25 >> 31 << 6) | (32 * (sdram->emc_cfg_pipe1 << 26 >> 31) | (16 * (sdram->emc_cfg_pipe1 << 27 >> 31) | (8 * (sdram->emc_cfg_pipe1 << 28 >> 31) | (4 * (sdram->emc_cfg_pipe1 << 29 >> 31) | (2 * (sdram->emc_cfg_pipe1 << 30 >> 31) | tmp) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFFBF) & 0xFFFFFF7F) & 0xFFFFFEFF) & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFFEFFFF) & 0xFFFDFFFF) & 0xFFFBFFFF) & 0xFFF7FFFF) & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0x80FFFFFF) >> 1);
+	s32(emc_pmacro_brick_mapping1, secure_scratch10);
-// 	tmp = 2 * (((u8)(sdram->emc_tratm) << 24) | ((sdram->emc_pmacro_ddll_pwrd0 >> 31 << 23) | ((2 * sdram->emc_pmacro_ddll_pwrd0 >> 31 << 22) | ((8 * sdram->emc_pmacro_ddll_pwrd0 >> 31 << 21) | ((16 * sdram->emc_pmacro_ddll_pwrd0 >> 31 << 20) | ((32 * sdram->emc_pmacro_ddll_pwrd0 >> 31 << 19) | ((sdram->emc_pmacro_ddll_pwrd0 << 6 >> 31 << 18) | ((sdram->emc_pmacro_ddll_pwrd0 << 8 >> 31 << 17) | ((sdram->emc_pmacro_ddll_pwrd0 << 9 >> 31 << 16) | ((sdram->emc_pmacro_ddll_pwrd0 << 11 >> 31 << 15) | ((sdram->emc_pmacro_ddll_pwrd0 << 12 >> 31 << 14) | ((sdram->emc_pmacro_ddll_pwrd0 << 13 >> 31 << 13) | ((sdram->emc_pmacro_ddll_pwrd0 << 14 >> 31 << 12) | ((sdram->emc_pmacro_ddll_pwrd0 << 16 >> 31 << 11) | ((sdram->emc_pmacro_ddll_pwrd0 << 17 >> 31 << 10) | ((sdram->emc_pmacro_ddll_pwrd0 << 19 >> 31 << 9) | ((sdram->emc_pmacro_ddll_pwrd0 << 20 >> 31 << 8) | ((sdram->emc_pmacro_ddll_pwrd0 << 21 >> 31 << 7) | ((sdram->emc_pmacro_ddll_pwrd0 << 22 >> 31 << 6) | (32 * (sdram->emc_pmacro_ddll_pwrd0 << 24 >> 31) | (16 * (sdram->emc_pmacro_ddll_pwrd0 << 25 >> 31) | (8 * (sdram->emc_pmacro_ddll_pwrd0 << 27 >> 31) | (4 * (sdram->emc_pmacro_ddll_pwrd0 << 28 >> 31) | (2 * (sdram->emc_pmacro_ddll_pwrd0 << 29 >> 31) | ((sdram->emc_pmacro_ddll_pwrd0 << 30 >> 31) | 2 * (pmc->scratch103 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFFBF) & 0xFFFFFF7F) & 0xFFFFFEFF) & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFFEFFFF) & 0xFFFDFFFF) & 0xFFFBFFFF) & 0xFFF7FFFF) & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0x80FFFFFF) >> 1;
+	s32(emc_pmacro_brick_mapping2, secure_scratch11);
-// 	pmc->scratch103 = (sdram->emc_cfg << 8 >> 31 << 31) | tmp;
+	s32(mc_video_protect_gpu_override0, secure_scratch12);
-// 	tmp = 2 * (((u8)(sdram->emc_twatm) << 24) | ((sdram->emc_pmacro_ddll_pwrd1 >> 31 << 23) | ((2 * sdram->emc_pmacro_ddll_pwrd1 >> 31 << 22) | ((8 * sdram->emc_pmacro_ddll_pwrd1 >> 31 << 21) | ((16 * sdram->emc_pmacro_ddll_pwrd1 >> 31 << 20) | ((32 * sdram->emc_pmacro_ddll_pwrd1 >> 31 << 19) | ((sdram->emc_pmacro_ddll_pwrd1 << 6 >> 31 << 18) | ((sdram->emc_pmacro_ddll_pwrd1 << 8 >> 31 << 17) | ((sdram->emc_pmacro_ddll_pwrd1 << 9 >> 31 << 16) | ((sdram->emc_pmacro_ddll_pwrd1 << 11 >> 31 << 15) | ((sdram->emc_pmacro_ddll_pwrd1 << 12 >> 31 << 14) | ((sdram->emc_pmacro_ddll_pwrd1 << 13 >> 31 << 13) | ((sdram->emc_pmacro_ddll_pwrd1 << 14 >> 31 << 12) | ((sdram->emc_pmacro_ddll_pwrd1 << 16 >> 31 << 11) | ((sdram->emc_pmacro_ddll_pwrd1 << 17 >> 31 << 10) | ((sdram->emc_pmacro_ddll_pwrd1 << 19 >> 31 << 9) | ((sdram->emc_pmacro_ddll_pwrd1 << 20 >> 31 << 8) | ((sdram->emc_pmacro_ddll_pwrd1 << 21 >> 31 << 7) | ((sdram->emc_pmacro_ddll_pwrd1 << 22 >> 31 << 6) | (32 * (sdram->emc_pmacro_ddll_pwrd1 << 24 >> 31) | (16 * (sdram->emc_pmacro_ddll_pwrd1 << 25 >> 31) | (8 * (sdram->emc_pmacro_ddll_pwrd1 << 27 >> 31) | (4 * (sdram->emc_pmacro_ddll_pwrd1 << 28 >> 31) | (2 * (sdram->emc_pmacro_ddll_pwrd1 << 29 >> 31) | ((sdram->emc_pmacro_ddll_pwrd1 << 30 >> 31) | 2 * (pmc->scratch104 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFFBF) & 0xFFFFFF7F) & 0xFFFFFEFF) & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFFEFFFF) & 0xFFFDFFFF) & 0xFFFBFFFF) & 0xFFF7FFFF) & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0x80FFFFFF) >> 1;
+	pmc->secure_scratch13 = ((u16)(sdram->emc_adr_cfg) << 31) | (2 * ((((u16)(sdram->mc_untranslated_region_check) << 22) >> 31 << 30) | ((((u16)(sdram->mc_untranslated_region_check) << 23) >> 31 << 29) | (((u16)(sdram->mc_untranslated_region_check) << 28) & 0x1FFFFFFF | ((2 * sdram->emc_cmd_mapping_cmd0_0 >> 25 << 21) | ((sdram->emc_cmd_mapping_cmd0_0 << 9 >> 25 << 14) | ((sdram->emc_cmd_mapping_cmd0_0 << 17 >> 25 << 7) | (sdram->emc_cmd_mapping_cmd0_0 & 0x7F | (pmc->secure_scratch13 >> 7 << 7)) & 0xFFFFC07F) & 0xFFE03FFF) & 0xF01FFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
-// 	pmc->scratch104 = (sdram->emc_cfg << 7 >> 31 << 31) | tmp;
+	pmc->secure_scratch14 = (sdram->mc_video_protect_write_access << 30 >> 31 << 31) | (2 * ((sdram->mc_video_protect_write_access << 30) | ((sdram->mc_video_protect_bom_adr_hi << 30 >> 2) | ((2 * sdram->emc_cmd_mapping_cmd0_1 >> 25 << 21) | ((sdram->emc_cmd_mapping_cmd0_1 << 9 >> 25 << 14) | ((sdram->emc_cmd_mapping_cmd0_1 << 17 >> 25 << 7) | (sdram->emc_cmd_mapping_cmd0_1 & 0x7F | (pmc->secure_scratch14 >> 7 << 7)) & 0xFFFFC07F) & 0xFFE03FFF) & 0xF01FFFFF) & 0xCFFFFFFF) & 0xBFFFFFFF) >> 1);
-// 	tmp = (sdram->emc_pmacro_ddll_pwrd2 << 22 >> 31 << 6) | (32 * (sdram->emc_pmacro_ddll_pwrd2 << 24 >> 31) | (16 * (sdram->emc_pmacro_ddll_pwrd2 << 25 >> 31) | (8 * (sdram->emc_pmacro_ddll_pwrd2 << 27 >> 31) | (4 * (sdram->emc_pmacro_ddll_pwrd2 << 28 >> 31) | (2 * (sdram->emc_pmacro_ddll_pwrd2 << 29 >> 31) | ((sdram->emc_pmacro_ddll_pwrd2 << 30 >> 31) | 2 * (pmc->scratch105 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFFBF;
+	pmc->secure_scratch15 = ((u16)(sdram->mc_mts_carveout_adr_hi) << 30) | (4 * ((sdram->mc_sec_carveout_adr_hi << 28) | ((2 * sdram->emc_cmd_mapping_cmd1_0 >> 25 << 21) | ((sdram->emc_cmd_mapping_cmd1_0 << 9 >> 25 << 14) | ((sdram->emc_cmd_mapping_cmd1_0 << 17 >> 25 << 7) | (sdram->emc_cmd_mapping_cmd1_0 & 0x7F | (pmc->secure_scratch15 >> 7 << 7)) & 0xFFFFC07F) & 0xFFE03FFF) & 0xF01FFFFF) & 0xCFFFFFFF) >> 2);
-// 	pmc->scratch105 = (sdram->emc_cfg << 6 >> 31 << 31) | (2 * (((u8)(sdram->emc_tr2ref) << 24) | ((sdram->emc_pmacro_ddll_pwrd2 >> 31 << 23) | ((2 * sdram->emc_pmacro_ddll_pwrd2 >> 31 << 22) | ((8 * sdram->emc_pmacro_ddll_pwrd2 >> 31 << 21) | ((16 * sdram->emc_pmacro_ddll_pwrd2 >> 31 << 20) | ((32 * sdram->emc_pmacro_ddll_pwrd2 >> 31 << 19) | ((sdram->emc_pmacro_ddll_pwrd2 << 6 >> 31 << 18) | ((sdram->emc_pmacro_ddll_pwrd2 << 8 >> 31 << 17) | ((sdram->emc_pmacro_ddll_pwrd2 << 9 >> 31 << 16) | ((sdram->emc_pmacro_ddll_pwrd2 << 11 >> 31 << 15) | ((sdram->emc_pmacro_ddll_pwrd2 << 12 >> 31 << 14) | ((sdram->emc_pmacro_ddll_pwrd2 << 13 >> 31 << 13) | ((sdram->emc_pmacro_ddll_pwrd2 << 14 >> 31 << 12) | ((sdram->emc_pmacro_ddll_pwrd2 << 16 >> 31 << 11) | ((sdram->emc_pmacro_ddll_pwrd2 << 17 >> 31 << 10) | ((sdram->emc_pmacro_ddll_pwrd2 << 19 >> 31 << 9) | ((sdram->emc_pmacro_ddll_pwrd2 << 20 >> 31 << 8) | ((sdram->emc_pmacro_ddll_pwrd2 << 21 >> 31 << 7) | tmp & 0xFFFFFF7F) & 0xFFFFFEFF) & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFFEFFFF) & 0xFFFDFFFF) & 0xFFFBFFFF) & 0xFFF7FFFF) & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0x80FFFFFF) >> 1);
+	pmc->secure_scratch16 = (sdram->mc_generalized_carveout3_bom_hi << 30) | (4 * ((sdram->mc_generalized_carveout5_bom_hi << 28) | ((2 * sdram->emc_cmd_mapping_cmd1_1 >> 25 << 21) | ((sdram->emc_cmd_mapping_cmd1_1 << 9 >> 25 << 14) | ((sdram->emc_cmd_mapping_cmd1_1 << 17 >> 25 << 7) | (sdram->emc_cmd_mapping_cmd1_1 & 0x7F | (pmc->secure_scratch16 >> 7 << 7)) & 0xFFFFC07F) & 0xFFE03FFF) & 0xF01FFFFF) & 0xCFFFFFFF) >> 2);
-// 	pmc->scratch106 = (32 * sdram->emc_cfg >> 31 << 31) | (2 * (((u16)(sdram->emc_pdex2mrr) << 24) | ((8 * sdram->emc_pmacro_ddll_periodic_offset >> 31 << 23) | ((16 * sdram->emc_pmacro_ddll_periodic_offset >> 31 << 22) | ((32 * sdram->emc_pmacro_ddll_periodic_offset >> 31 << 21) | ((sdram->emc_pmacro_ddll_periodic_offset << 6 >> 31 << 20) | ((sdram->emc_pmacro_ddll_periodic_offset << 7 >> 31 << 19) | ((sdram->emc_pmacro_ddll_periodic_offset << 8 >> 31 << 18) | ((sdram->emc_pmacro_ddll_periodic_offset << 9 >> 31 << 17) | ((sdram->emc_pmacro_ddll_periodic_offset << 10 >> 31 << 16) | ((sdram->emc_pmacro_ddll_periodic_offset << 11 >> 31 << 15) | ((sdram->emc_pmacro_ddll_periodic_offset << 15 >> 31 << 14) | ((sdram->emc_pmacro_ddll_periodic_offset << 16 >> 31 << 13) | ((sdram->emc_pmacro_ddll_periodic_offset << 17 >> 31 << 12) | ((sdram->emc_pmacro_ddll_periodic_offset << 18 >> 31 << 11) | ((sdram->emc_pmacro_ddll_periodic_offset << 19 >> 31 << 10) | ((sdram->emc_pmacro_ddll_periodic_offset << 20 >> 31 << 9) | ((sdram->emc_pmacro_ddll_periodic_offset << 21 >> 31 << 8) | ((sdram->emc_pmacro_ddll_periodic_offset << 22 >> 31 << 7) | ((sdram->emc_pmacro_ddll_periodic_offset << 23 >> 31 << 6) | (sdram->emc_pmacro_ddll_periodic_offset & 0x3F | (pmc->scratch106 >> 6 << 6)) & 0xFFFFFFBF) & 0xFFFFFF7F) & 0xFFFFFEFF) & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFFEFFFF) & 0xFFFDFFFF) & 0xFFFBFFFF) & 0xFFF7FFFF) & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0x80FFFFFF) >> 1);
+	pmc->secure_scratch17 = ((u16)(sdram->mc_generalized_carveout4_bom_hi) << 30) | (4 * (((u16)(sdram->mc_generalized_carveout2_bom_hi) << 28) | ((2 * sdram->emc_cmd_mapping_cmd2_0 >> 25 << 21) | ((sdram->emc_cmd_mapping_cmd2_0 << 9 >> 25 << 14) | ((sdram->emc_cmd_mapping_cmd2_0 << 17 >> 25 << 7) | (sdram->emc_cmd_mapping_cmd2_0 & 0x7F | (pmc->secure_scratch17 >> 7 << 7)) & 0xFFFFC07F) & 0xFFE03FFF) & 0xF01FFFFF) & 0xCFFFFFFF) >> 2);
-// 	pmc->scratch107 = (8 * sdram->emc_cfg >> 31 << 31) | (2 * ((sdram->emc_clken_override << 15 >> 31 << 30) | ((sdram->emc_clken_override << 23 >> 31 << 29) | ((sdram->emc_clken_override << 24 >> 31 << 28) | ((sdram->emc_clken_override << 25 >> 31 << 27) | ((sdram->emc_clken_override << 28 >> 31 << 26) | ((sdram->emc_clken_override << 29 >> 31 << 25) | ((sdram->emc_clken_override << 30 >> 31 << 24) | ((sdram->mc_emem_arb_da_covers << 8 >> 24 << 16) | ((sdram->mc_emem_arb_da_covers << 16 >> 24 << 8) | (sdram->mc_emem_arb_da_covers & 0xFF | (pmc->scratch107 >> 8 << 8)) & 0xFFFF00FF) & 0xFF00FFFF) & 0xFEFFFFFF) & 0xFDFFFFFF) & 0xFBFFFFFF) & 0xF7FFFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
+	pmc->secure_scratch18 = (sdram->emc_fbio_cfg8 << 16 >> 31 << 31) | (2 * (((u16)(sdram->emc_fbio_spare) << 30 >> 31 << 30) | ((sdram->mc_generalized_carveout1_bom_hi << 30 >> 2) | ((2 * sdram->emc_cmd_mapping_cmd2_1 >> 25 << 21) | ((sdram->emc_cmd_mapping_cmd2_1 << 9 >> 25 << 14) | ((sdram->emc_cmd_mapping_cmd2_1 << 17 >> 25 << 7) | (sdram->emc_cmd_mapping_cmd2_1 & 0x7F | (pmc->secure_scratch18 >> 7 << 7)) & 0xFFFFC07F) & 0xFFE03FFF) & 0xF01FFFFF) & 0xCFFFFFFF) & 0xBFFFFFFF) >> 1);
-// 	pmc->scratch108 = (sdram->emc_rfc_pb << 23) | ((sdram->emc_xm2_comp_pad_ctrl >> 24 << 15) | ((sdram->emc_xm2_comp_pad_ctrl << 12 >> 24 << 7) | ((sdram->emc_xm2_comp_pad_ctrl << 20 >> 31 << 6) | (32 * (sdram->emc_xm2_comp_pad_ctrl << 22 >> 31) | (4 * (sdram->emc_xm2_comp_pad_ctrl << 25 >> 29) | (sdram->emc_xm2_comp_pad_ctrl & 3 | 4 * (pmc->scratch108 >> 2)) & 0xFFFFFFE3) & 0xFFFFFFDF) & 0xFFFFFFBF) & 0xFFFF807F) & 0xFF807FFF) & 0x7FFFFF;
+	pmc->secure_scratch19 = (sdram->mc_video_protect_vpr_override << 31) | (2 * (((u16)(sdram->mc_mts_carveout_reg_ctrl) << 30) | ((sdram->mc_sec_carveout_protect_write_access << 31 >> 2) | (((u16)(sdram->mc_emem_adr_cfg) << 28) & 0x1FFFFFFF | ((2 * sdram->emc_cmd_mapping_cmd3_0 >> 25 << 21) | ((sdram->emc_cmd_mapping_cmd3_0 << 9 >> 25 << 14) | ((sdram->emc_cmd_mapping_cmd3_0 << 17 >> 25 << 7) | (sdram->emc_cmd_mapping_cmd3_0 & 0x7F | (pmc->secure_scratch19 >> 7 << 7)) & 0xFFFFC07F) & 0xFFE03FFF) & 0xF01FFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
-// 	pmc->scratch109 = (sdram->emc_cfg_update >> 31 << 31) | (2 * ((2 * sdram->emc_cfg_update >> 31 << 30) | ((4 * sdram->emc_cfg_update >> 31 << 29) | ((8 * sdram->emc_cfg_update >> 31 << 28) | ((sdram->emc_cfg_update << 21 >> 30 << 26) | ((sdram->emc_cfg_update << 23 >> 31 << 25) | ((sdram->emc_cfg_update << 29 >> 30 << 23) | ((sdram->emc_cfg_update << 22) & 0x7FFFFF | ((sdram->emc_auto_cal_config3 << 8 >> 28 << 18) | ((sdram->emc_auto_cal_config3 << 12 >> 28 << 14) | ((sdram->emc_auto_cal_config3 << 17 >> 25 << 7) | ((pmc->scratch109 >> 7 << 7) | sdram->emc_auto_cal_config3 & 0x7F) & 0xFFFFC07F) & 0xFFFC3FFF) & 0xFFC3FFFF) & 0xFFBFFFFF) & 0xFE7FFFFF) & 0xFDFFFFFF) & 0xF3FFFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
+	pmc->secure_scratch20 = (sdram->mc_generalized_carveout2_cfg0 << 25 >> 28 << 28) | ((2 * sdram->emc_cmd_mapping_cmd3_1 >> 25 << 21) | ((sdram->emc_cmd_mapping_cmd3_1 << 9 >> 25 << 14) | ((sdram->emc_cmd_mapping_cmd3_1 << 17 >> 25 << 7) | (sdram->emc_cmd_mapping_cmd3_1 & 0x7F | (pmc->secure_scratch20 >> 7 << 7)) & 0xFFFFC07F) & 0xFFE03FFF) & 0xF01FFFFF) & 0xFFFFFFF;
-// 	pmc->scratch110 = (sdram->emc_rfc << 22) | ((sdram->emc_auto_cal_config4 << 8 >> 28 << 18) | ((sdram->emc_auto_cal_config4 << 12 >> 28 << 14) | ((sdram->emc_auto_cal_config4 << 17 >> 25 << 7) | (sdram->emc_auto_cal_config4 & 0x7F | (pmc->scratch110 >> 7 << 7)) & 0xFFFFC07F) & 0xFFFC3FFF) & 0xFFC3FFFF) & 0x3FFFFF;
+	pmc->secure_scratch39 = (sdram->mc_video_protect_vpr_override << 30 >> 31 << 31) | (2 * ((sdram->mc_generalized_carveout2_cfg0 << 21 >> 28 << 27) | ((32 * sdram->mc_generalized_carveout4_cfg0 >> 31 << 26) | ((sdram->mc_generalized_carveout4_cfg0 << 6 >> 31 << 25) | ((sdram->mc_generalized_carveout4_cfg0 << 7 >> 31 << 24) | ((sdram->mc_generalized_carveout4_cfg0 << 8 >> 31 << 23) | ((sdram->mc_generalized_carveout4_cfg0 << 9 >> 31 << 22) | ((sdram->mc_generalized_carveout4_cfg0 << 10 >> 28 << 18) | ((sdram->mc_generalized_carveout4_cfg0 << 14 >> 28 << 14) | ((sdram->mc_generalized_carveout4_cfg0 << 18 >> 29 << 11) | ((sdram->mc_generalized_carveout4_cfg0 << 21 >> 28 << 7) | (8 * (sdram->mc_generalized_carveout4_cfg0 << 25 >> 28) | (4 * (sdram->mc_generalized_carveout4_cfg0 << 29 >> 31) | (2 * (sdram->mc_generalized_carveout4_cfg0 << 30 >> 31) | (sdram->mc_generalized_carveout4_cfg0 & 1 | 2 * (pmc->secure_scratch39 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFF87) & 0xFFFFF87F) & 0xFFFFC7FF) & 0xFFFC3FFF) & 0xFFC3FFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0xFEFFFFFF) & 0xFDFFFFFF) & 0xFBFFFFFF) & 0x87FFFFFF) >> 1);
-// 	pmc->scratch111 = ((u16)(sdram->emc_txsr) << 22) | ((sdram->emc_auto_cal_config5 << 8 >> 28 << 18) | ((sdram->emc_auto_cal_config5 << 12 >> 28 << 14) | ((sdram->emc_auto_cal_config5 << 17 >> 25 << 7) | ((pmc->scratch111 >> 7 << 7) | sdram->emc_auto_cal_config5 & 0x7F) & 0xFFFFC07F) & 0xFFFC3FFF) & 0xFFC3FFFF) & 0x3FFFFF;
+	pmc->secure_scratch40 = (sdram->mc_video_protect_vpr_override << 29 >> 31 << 31) | (2 * ((sdram->mc_generalized_carveout2_cfg0 << 14 >> 28 << 27) | ((32 * sdram->mc_generalized_carveout5_cfg0 >> 31 << 26) | ((sdram->mc_generalized_carveout5_cfg0 << 6 >> 31 << 25) | ((sdram->mc_generalized_carveout5_cfg0 << 7 >> 31 << 24) | ((sdram->mc_generalized_carveout5_cfg0 << 8 >> 31 << 23) | ((sdram->mc_generalized_carveout5_cfg0 << 9 >> 31 << 22) | ((sdram->mc_generalized_carveout5_cfg0 << 10 >> 28 << 18) | ((sdram->mc_generalized_carveout5_cfg0 << 14 >> 28 << 14) | ((sdram->mc_generalized_carveout5_cfg0 << 18 >> 29 << 11) | ((sdram->mc_generalized_carveout5_cfg0 << 21 >> 28 << 7) | (8 * (sdram->mc_generalized_carveout5_cfg0 << 25 >> 28) | (4 * (sdram->mc_generalized_carveout5_cfg0 << 29 >> 31) | (2 * (sdram->mc_generalized_carveout5_cfg0 << 30 >> 31) | (sdram->mc_generalized_carveout5_cfg0 & 1 | 2 * (pmc->secure_scratch40 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFF87) & 0xFFFFF87F) & 0xFFFFC7FF) & 0xFFFC3FFF) & 0xFFC3FFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0xFEFFFFFF) & 0xFDFFFFFF) & 0xFBFFFFFF) & 0x87FFFFFF) >> 1);
-// 	pmc->scratch112 = (16 * sdram->emc_mc2emc_q >> 28 << 28) | ((sdram->emc_mc2emc_q << 21 >> 29 << 25) | ((sdram->emc_mc2emc_q << 22) & 0x1FFFFFF | ((sdram->emc_auto_cal_config6 << 8 >> 28 << 18) | ((sdram->emc_auto_cal_config6 << 12 >> 28 << 14) | ((sdram->emc_auto_cal_config6 << 17 >> 25 << 7) | (sdram->emc_auto_cal_config6 & 0x7F | (pmc->scratch112 >> 7 << 7)) & 0xFFFFC07F) & 0xFFFC3FFF) & 0xFFC3FFFF) & 0xFE3FFFFF) & 0xF1FFFFFF) & 0xFFFFFFF;
+	pmc->secure_scratch41 = (sdram->mc_generalized_carveout2_cfg0 << 18 >> 29 << 29) | ((sdram->mc_generalized_carveout2_cfg0 << 10 >> 28 << 25) | ((16 * sdram->emc_cmd_mapping_cmd0_2 >> 28 << 21) | ((sdram->emc_cmd_mapping_cmd0_2 << 9 >> 25 << 14) | ((sdram->emc_cmd_mapping_cmd0_2 << 17 >> 25 << 7) | (sdram->emc_cmd_mapping_cmd0_2 & 0x7F | (pmc->secure_scratch41 >> 7 << 7)) & 0xFFFFC07F) & 0xFFE03FFF) & 0xFE1FFFFF) & 0xE1FFFFFF) & 0x1FFFFFFF;
-// 	pmc->scratch113 = (sdram->mc_emem_arb_ring1_throttle << 11 >> 27 << 27) | ((sdram->mc_emem_arb_ring1_throttle << 22) | ((sdram->emc_auto_cal_config7 << 8 >> 28 << 18) | ((sdram->emc_auto_cal_config7 << 12 >> 28 << 14) | ((sdram->emc_auto_cal_config7 << 17 >> 25 << 7) | (sdram->emc_auto_cal_config7 & 0x7F | (pmc->scratch113 >> 7 << 7)) & 0xFFFFC07F) & 0xFFFC3FFF) & 0xFFC3FFFF) & 0xF83FFFFF) & 0x7FFFFFF;
+	pmc->secure_scratch42 = ((u16)(sdram->mc_generalized_carveout1_cfg0) << 18 >> 29 << 29) | (((u16)(sdram->mc_generalized_carveout1_cfg0) << 25 >> 28 << 25) | ((16 * sdram->emc_cmd_mapping_cmd1_2 >> 28 << 21) | ((sdram->emc_cmd_mapping_cmd1_2 << 9 >> 25 << 14) | ((sdram->emc_cmd_mapping_cmd1_2 << 17 >> 25 << 7) | (sdram->emc_cmd_mapping_cmd1_2 & 0x7F | (pmc->secure_scratch42 >> 7 << 7)) & 0xFFFFC07F) & 0xFFE03FFF) & 0xFE1FFFFF) & 0xE1FFFFFF) & 0x1FFFFFFF;
-// 	pmc->scratch114 = (sdram->emc_auto_cal_config8 << 8 >> 28 << 18) | ((sdram->emc_auto_cal_config8 << 12 >> 28 << 14) | ((sdram->emc_auto_cal_config8 << 17 >> 25 << 7) | (sdram->emc_auto_cal_config8 & 0x7F | (pmc->scratch114 >> 7 << 7)) & 0xFFFFC07F) & 0xFFFC3FFF) & 0xFFC3FFFF;
+	pmc->secure_scratch43 = ((u16)(sdram->mc_generalized_carveout3_cfg0) << 18 >> 29 << 29) | (((u16)(sdram->mc_generalized_carveout1_cfg0) << 21 >> 28 << 25) | ((16 * sdram->emc_cmd_mapping_cmd2_2 >> 28 << 21) | ((sdram->emc_cmd_mapping_cmd2_2 << 9 >> 25 << 14) | ((sdram->emc_cmd_mapping_cmd2_2 << 17 >> 25 << 7) | (sdram->emc_cmd_mapping_cmd2_2 & 0x7F | (pmc->secure_scratch43 >> 7 << 7)) & 0xFFFFC07F) & 0xFFE03FFF) & 0xFE1FFFFF) & 0xE1FFFFFF) & 0x1FFFFFFF;
-// 	pmc->scratch115 = (4 * sdram->emc_cfg >> 31 << 31) | (2 * (((u16)(sdram->emc_ar2pden) << 22) | ((sdram->emc_fbio_cfg7 << 10 >> 30 << 20) | ((sdram->emc_fbio_cfg7 << 12 >> 31 << 19) | ((sdram->emc_fbio_cfg7 << 13 >> 31 << 18) | ((sdram->emc_fbio_cfg7 << 14 >> 31 << 17) | ((sdram->emc_fbio_cfg7 << 15 >> 31 << 16) | ((sdram->emc_fbio_cfg7 << 16 >> 31 << 15) | ((sdram->emc_fbio_cfg7 << 17 >> 31 << 14) | ((sdram->emc_fbio_cfg7 << 18 >> 31 << 13) | ((sdram->emc_fbio_cfg7 << 19 >> 31 << 12) | ((sdram->emc_fbio_cfg7 << 20 >> 31 << 11) | ((sdram->emc_fbio_cfg7 << 21 >> 31 << 10) | ((sdram->emc_fbio_cfg7 << 22 >> 31 << 9) | ((sdram->emc_fbio_cfg7 << 23 >> 31 << 8) | ((sdram->emc_fbio_cfg7 << 24 >> 31 << 7) | ((sdram->emc_fbio_cfg7 << 25 >> 31 << 6) | (32 * (sdram->emc_fbio_cfg7 << 26 >> 31) | (16 * (sdram->emc_fbio_cfg7 << 27 >> 31) | (8 * (sdram->emc_fbio_cfg7 << 28 >> 31) | (4 * (sdram->emc_fbio_cfg7 << 29 >> 31) | (2 * (sdram->emc_fbio_cfg7 << 30 >> 31) | (sdram->emc_fbio_cfg7 & 1 | 2 * (pmc->scratch115 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFFBF) & 0xFFFFFF7F) & 0xFFFFFEFF) & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFFEFFFF) & 0xFFFDFFFF) & 0xFFFBFFFF) & 0xFFF7FFFF) & 0xFFCFFFFF) & 0x803FFFFF) >> 1);
+	pmc->secure_scratch44 = (sdram->mc_video_protect_vpr_override << 24 >> 31 << 31) | (2 * ((sdram->mc_video_protect_vpr_override << 25 >> 31 << 30) | ((sdram->mc_video_protect_vpr_override << 28 >> 31 << 29) | ((sdram->mc_generalized_carveout1_cfg0 << 14 >> 28 << 25) | ((16 * sdram->emc_cmd_mapping_cmd3_2 >> 28 << 21) | ((sdram->emc_cmd_mapping_cmd3_2 << 9 >> 25 << 14) | ((sdram->emc_cmd_mapping_cmd3_2 << 17 >> 25 << 7) | (sdram->emc_cmd_mapping_cmd3_2 & 0x7F | (pmc->secure_scratch44 >> 7 << 7)) & 0xFFFFC07F) & 0xFFE03FFF) & 0xFE1FFFFF) & 0xE1FFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
-// 	pmc->scratch123 = (2 * sdram->emc_cfg >> 31 << 31) | (2 * ((sdram->emc_rfc_slr << 22) | ((32 * sdram->emc_pmacro_quse_ddll_rank0_0 >> 21 << 11) | (sdram->emc_pmacro_quse_ddll_rank0_0 & 0x7FF | (pmc->scratch123 >> 11 << 11)) & 0xFFC007FF) & 0x803FFFFF) >> 1);
+	s(mc_emem_adr_cfg_channel_mask, 31:9, secure_scratch45, 22:0);
-// 	pmc->scratch124 = (sdram->emc_cfg >> 31 << 31) | (2 * ((4 * sdram->emc_ibdly >> 30 << 29) | ((sdram->emc_ibdly << 22) & 0x1FFFFFFF | ((32 * sdram->emc_pmacro_quse_ddll_rank0_1 >> 21 << 11) | (sdram->emc_pmacro_quse_ddll_rank0_1 & 0x7FF | (pmc->scratch124 >> 11 << 11)) & 0xFFC007FF) & 0xE03FFFFF) & 0x9FFFFFFF) >> 1);
+	s(mc_emem_adr_cfg_dev0, 2:0, secure_scratch45, 25:23);
-// 	pmc->scratch125 = (sdram->emc_fbio_cfg5 << 27 >> 31 << 31) | (2 * (((u16)(sdram->mc_emem_arb_timing_rfcpb) << 22) | ((32 * sdram->emc_pmacro_quse_ddll_rank0_2 >> 21 << 11) | (sdram->emc_pmacro_quse_ddll_rank0_2 & 0x7FF | (pmc->scratch125 >> 11 << 11)) & 0xFFC007FF) & 0x803FFFFF) >> 1);
+	s(mc_emem_adr_cfg_dev0, 9:8, secure_scratch45, 27:26);
-// 	pmc->scratch126 = (sdram->emc_fbio_cfg5 << 16 >> 29 << 29) | ((sdram->emc_auto_cal_config9 << 25 >> 31 << 28) | ((sdram->emc_auto_cal_config9 << 26 >> 31 << 27) | ((sdram->emc_auto_cal_config9 << 27 >> 31 << 26) | ((sdram->emc_auto_cal_config9 << 28 >> 31 << 25) | ((sdram->emc_auto_cal_config9 << 29 >> 31 << 24) | ((sdram->emc_auto_cal_config9 << 30 >> 31 << 23) | ((sdram->emc_auto_cal_config9 << 22) & 0x7FFFFF | ((32 * sdram->emc_pmacro_quse_ddll_rank0_3 >> 21 << 11) | (sdram->emc_pmacro_quse_ddll_rank0_3 & 0x7FF | (pmc->scratch126 >> 11 << 11)) & 0xFFC007FF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0xFEFFFFFF) & 0xFDFFFFFF) & 0xFBFFFFFF) & 0xF7FFFFFF) & 0xEFFFFFFF) & 0x1FFFFFFF;
+	s(mc_emem_adr_cfg_dev0, 19:16, secure_scratch45, 31:28);
-// 	pmc->scratch127 = ((u8)(sdram->emc_cfg2) << 26 >> 29 << 29) | ((sdram->emc_rdv_mask << 22) | ((32 * sdram->emc_pmacro_quse_ddll_rank0_4 >> 21 << 11) | (sdram->emc_pmacro_quse_ddll_rank0_4 & 0x7FF | (pmc->scratch127 >> 11 << 11)) & 0xFFC007FF) & 0xE03FFFFF) & 0x1FFFFFFF;
+	pmc->secure_scratch46 = (sdram->mc_video_protect_vpr_override << 23 >> 31 << 31) | (2 * ((sdram->mc_emem_adr_cfg_dev1 << 12 >> 28 << 27) | ((sdram->mc_emem_adr_cfg_dev1 << 22 >> 30 << 25) | ((sdram->mc_emem_adr_cfg_dev1 << 22) & 0x1FFFFFF | ((sdram->mc_emem_adr_cfg_bank_mask0 >> 10) | (pmc->secure_scratch46 >> 22 << 22)) & 0xFE3FFFFF) & 0xF9FFFFFF) & 0x87FFFFFF) >> 1);
-// 	pmc->scratch128 = (sdram->emc_pmacro_cmd_pad_tx_ctrl << 27 >> 29 << 29) | (((u8)(sdram->emc_rdv_early_mask) << 22) | ((32 * sdram->emc_pmacro_quse_ddll_rank0_5 >> 21 << 11) | (sdram->emc_pmacro_quse_ddll_rank0_5 & 0x7FF | (pmc->scratch128 >> 11 << 11)) & 0xFFC007FF) & 0xE03FFFFF) & 0x1FFFFFFF;
+	pmc->secure_scratch47 = (sdram->mc_video_protect_vpr_override << 20 >> 31 << 31) | (2 * ((sdram->mc_video_protect_vpr_override << 22 >> 31 << 30) | (((u8)(sdram->mc_generalized_carveout3_cfg0) << 25 >> 28 << 26) | ((sdram->mc_generalized_carveout1_cfg0 << 10 >> 28 << 22) | ((sdram->mc_emem_adr_cfg_bank_mask1 >> 10) | (pmc->secure_scratch47 >> 22 << 22)) & 0xFC3FFFFF) & 0xC3FFFFFF) & 0xBFFFFFFF) >> 1);
-// 	pmc->scratch129 = (sdram->emc_pmacro_cmd_pad_tx_ctrl << 22 >> 29 << 29) | ((sdram->emc_rdv_early << 22) | ((32 * sdram->emc_pmacro_quse_ddll_rank1_0 >> 21 << 11) | (sdram->emc_pmacro_quse_ddll_rank1_0 & 0x7FF | (pmc->scratch129 >> 11 << 11)) & 0xFFC007FF) & 0xE03FFFFF) & 0x1FFFFFFF;
+	pmc->secure_scratch48 = (sdram->mc_video_protect_vpr_override << 16 >> 31 << 31) | (2 * ((sdram->mc_video_protect_vpr_override << 17 >> 31 << 30) | ((sdram->mc_generalized_carveout3_cfg0 << 14 >> 28 << 26) | ((sdram->mc_generalized_carveout3_cfg0 << 21 >> 28 << 22) | ((sdram->mc_emem_adr_cfg_bank_mask2 >> 10) | (pmc->secure_scratch48 >> 22 << 22)) & 0xFC3FFFFF) & 0xC3FFFFFF) & 0xBFFFFFFF) >> 1);
-// 	pmc->scratch130 = (sdram->emc_pmacro_cmd_pad_tx_ctrl << 17 >> 29 << 29) | ((4 * sdram->emc_quse_width >> 31 << 28) | ((8 * sdram->emc_quse_width >> 31 << 27) | ((sdram->emc_quse_width << 22) & 0x7FFFFFF | ((32 * sdram->emc_pmacro_quse_ddll_rank1_1 >> 21 << 11) | (sdram->emc_pmacro_quse_ddll_rank1_1 & 0x7FF | (pmc->scratch130 >> 11 << 11)) & 0xFFC007FF) & 0xF83FFFFF) & 0xF7FFFFFF) & 0xEFFFFFFF) & 0x1FFFFFFF;
+	pmc->secure_scratch49 = (sdram->mc_video_protect_vpr_override << 14 >> 31 << 31) | (2 * ((sdram->mc_emem_cfg >> 31 << 30) | ((sdram->mc_emem_cfg << 18 >> 2) | (sdram->mc_video_protect_gpu_override1 & 0xFFFF | (pmc->secure_scratch49 >> 16 << 16)) & 0xC000FFFF) & 0xBFFFFFFF) >> 1);
-// 	pmc->scratch131 = (sdram->emc_pmacro_cmd_pad_tx_ctrl << 12 >> 29 << 29) | (((u16)(sdram->emc_pmacro_ddll_short_cmd_2) << 22) | ((32 * sdram->emc_pmacro_quse_ddll_rank1_2 >> 21 << 11) | (sdram->emc_pmacro_quse_ddll_rank1_2 & 0x7FF | (pmc->scratch131 >> 11 << 11)) & 0xFFC007FF) & 0xE03FFFFF) & 0x1FFFFFFF;
+	pmc->secure_scratch50 = (sdram->mc_video_protect_vpr_override << 12 >> 31 << 31) | (2 * ((sdram->mc_video_protect_vpr_override << 13 >> 31 << 30) | ((sdram->mc_generalized_carveout1_bom >> 17 << 15) | ((sdram->mc_generalized_carveout3_bom >> 17) | (pmc->secure_scratch50 >> 15 << 15)) & 0xC0007FFF) & 0xBFFFFFFF) >> 1);
-// 	pmc->scratch132 = (sdram->emc_pmacro_data_pad_tx_ctrl << 27 >> 29 << 29) | ((sdram->emc_pmacro_cmd_rx_term_mode << 18 >> 31 << 28) | ((sdram->emc_pmacro_cmd_rx_term_mode << 22 >> 30 << 26) | ((sdram->emc_pmacro_cmd_rx_term_mode << 26 >> 30 << 24) | ((sdram->emc_pmacro_cmd_rx_term_mode << 22) & 0xFFFFFF | ((32 * sdram->emc_pmacro_quse_ddll_rank1_3 >> 21 << 11) | (sdram->emc_pmacro_quse_ddll_rank1_3 & 0x7FF | (pmc->scratch132 >> 11 << 11)) & 0xFFC007FF) & 0xFF3FFFFF) & 0xFCFFFFFF) & 0xF3FFFFFF) & 0xEFFFFFFF) & 0x1FFFFFFF;
+	pmc->secure_scratch51 = (sdram->mc_video_protect_vpr_override << 10 >> 31 << 31) | (2 * ((sdram->mc_video_protect_vpr_override << 11 >> 31 << 30) | ((sdram->mc_generalized_carveout2_bom >> 17 << 15) | ((sdram->mc_generalized_carveout4_bom >> 17) | (pmc->secure_scratch51 >> 15 << 15)) & 0xC0007FFF) & 0xBFFFFFFF) >> 1);
-// 	pmc->scratch133 = (sdram->emc_pmacro_data_pad_tx_ctrl << 22 >> 29 << 29) | ((sdram->emc_pmacro_data_rx_term_mode << 18 >> 31 << 28) | ((sdram->emc_pmacro_data_rx_term_mode << 22 >> 30 << 26) | ((sdram->emc_pmacro_data_rx_term_mode << 26 >> 30 << 24) | ((sdram->emc_pmacro_data_rx_term_mode << 22) & 0xFFFFFF | ((32 * sdram->emc_pmacro_quse_ddll_rank1_4 >> 21 << 11) | (sdram->emc_pmacro_quse_ddll_rank1_4 & 0x7FF | (pmc->scratch133 >> 11 << 11)) & 0xFFC007FF) & 0xFF3FFFFF) & 0xFCFFFFFF) & 0xF3FFFFFF) & 0xEFFFFFFF) & 0x1FFFFFFF;
+	pmc->secure_scratch52 = (sdram->mc_video_protect_vpr_override << 9 >> 31 << 31) | (2 * ((sdram->mc_generalized_carveout3_cfg0 << 10 >> 28 << 27) | ((sdram->mc_video_protect_bom >> 20 << 15) | ((sdram->mc_generalized_carveout5_bom >> 17) | (pmc->secure_scratch52 >> 15 << 15)) & 0xF8007FFF) & 0x87FFFFFF) >> 1);
-// 	pmc->scratch134 = (sdram->emc_pmacro_data_pad_tx_ctrl << 17 >> 29 << 29) | ((sdram->mc_emem_arb_timing_rp << 22) | ((32 * sdram->emc_pmacro_quse_ddll_rank1_5 >> 21 << 11) | (sdram->emc_pmacro_quse_ddll_rank1_5 & 0x7FF | (pmc->scratch134 >> 11 << 11)) & 0xFFC007FF) & 0xE03FFFFF) & 0x1FFFFFFF;
+	pmc->secure_scratch53 = (sdram->mc_video_protect_vpr_override1 << 27 >> 31 << 31) | (2 * ((sdram->mc_video_protect_vpr_override1 << 30 >> 31 << 30) | ((sdram->mc_video_protect_vpr_override1 << 31 >> 2) | ((sdram->mc_video_protect_vpr_override >> 31 << 28) | ((2 * sdram->mc_video_protect_vpr_override >> 31 << 27) | ((4 * sdram->mc_video_protect_vpr_override >> 31 << 26) | ((32 * sdram->mc_video_protect_vpr_override >> 31 << 25) | ((sdram->mc_video_protect_vpr_override << 8 >> 31 << 24) | ((sdram->mc_sec_carveout_bom >> 20 << 12) | (sdram->mc_video_protect_size_mb & 0xFFF | (pmc->secure_scratch53 >> 12 << 12)) & 0xFF000FFF) & 0xFEFFFFFF) & 0xFDFFFFFF) & 0xFBFFFFFF) & 0xF7FFFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
-// 	pmc->scratch135 = (sdram->emc_pmacro_data_pad_tx_ctrl << 12 >> 29 << 29) | ((sdram->mc_emem_arb_timing_ras << 22) | ((32 * sdram->emc_pmacro_ob_ddll_long_dq_rank0_0 >> 21 << 11) | (sdram->emc_pmacro_ob_ddll_long_dq_rank0_0 & 0x7FF | (pmc->scratch135 >> 11 << 11)) & 0xFFC007FF) & 0xE03FFFFF) & 0x1FFFFFFF;
+	pmc->secure_scratch54 = (sdram->mc_video_protect_vpr_override1 << 19 >> 31 << 31) | (2 * ((sdram->mc_video_protect_vpr_override1 << 20 >> 31 << 30) | ((sdram->mc_video_protect_vpr_override1 << 21 >> 31 << 29) | ((sdram->mc_video_protect_vpr_override1 << 22 >> 31 << 28) | ((sdram->mc_video_protect_vpr_override1 << 23 >> 31 << 27) | ((sdram->mc_video_protect_vpr_override1 << 24 >> 31 << 26) | ((sdram->mc_video_protect_vpr_override1 << 25 >> 31 << 25) | ((sdram->mc_video_protect_vpr_override1 << 26 >> 31 << 24) | ((sdram->mc_mts_carveout_bom >> 20 << 12) | (sdram->mc_sec_carveout_size_mb & 0xFFF | (pmc->secure_scratch54 >> 12 << 12)) & 0xFF000FFF) & 0xFEFFFFFF) & 0xFDFFFFFF) & 0xFBFFFFFF) & 0xF7FFFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
-// 	pmc->scratch136 = (sdram->emc_fbio_cfg5 << 23 >> 31 << 31) | (2 * ((sdram->emc_cfg << 14 >> 30 << 29) | ((sdram->mc_emem_arb_timing_faw << 22) & 0x1FFFFFFF | ((32 * sdram->emc_pmacro_ob_ddll_long_dq_rank0_1 >> 21 << 11) | (sdram->emc_pmacro_ob_ddll_long_dq_rank0_1 & 0x7FF | (pmc->scratch136 >> 11 << 11)) & 0xFFC007FF) & 0xE03FFFFF) & 0x9FFFFFFF) >> 1);
+	pmc->secure_scratch55 = (sdram->mc_generalized_carveout2_cfg0 << 30 >> 31 << 31) | (2 * ((sdram->mc_generalized_carveout2_cfg0 << 30) | ((32 * sdram->mc_video_protect_vpr_override1 >> 31 << 29) | ((sdram->mc_video_protect_vpr_override1 << 6 >> 31 << 28) | ((sdram->mc_video_protect_vpr_override1 << 15 >> 31 << 27) | ((sdram->mc_video_protect_vpr_override1 << 16 >> 31 << 26) | ((sdram->mc_video_protect_vpr_override1 << 17 >> 31 << 25) | ((sdram->mc_video_protect_vpr_override1 << 18 >> 31 << 24) | (((u16)(sdram->mc_generalized_carveout4_size_128kb) << 12) & 0xFFFFFF | (sdram->mc_mts_carveout_size_mb & 0xFFF | (pmc->secure_scratch55 >> 12 << 12)) & 0xFF000FFF) & 0xFEFFFFFF) & 0xFDFFFFFF) & 0xFBFFFFFF) & 0xF7FFFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
-// 	pmc->scratch137 = (sdram->emc_fbio_cfg5 << 21 >> 31 << 31) | (2 * ((sdram->emc_fbio_cfg5 << 29) | ((sdram->mc_emem_arb_timing_rap2pre << 22) & 0x1FFFFFFF | ((32 * sdram->emc_pmacro_ob_ddll_long_dq_rank0_2 >> 21 << 11) | (sdram->emc_pmacro_ob_ddll_long_dq_rank0_2 & 0x7FF | (pmc->scratch137 >> 11 << 11)) & 0xFFC007FF) & 0xE03FFFFF) & 0x9FFFFFFF) >> 1);
+	pmc->secure_scratch56 = ((u16)(sdram->mc_generalized_carveout1_cfg0) << 30 >> 31 << 31) | (2 * (((u16)(sdram->mc_generalized_carveout1_cfg0) << 30) | ((32 * sdram->mc_generalized_carveout2_cfg0 >> 31 << 29) | ((sdram->mc_generalized_carveout2_cfg0 << 6 >> 31 << 28) | ((sdram->mc_generalized_carveout2_cfg0 << 7 >> 31 << 27) | ((sdram->mc_generalized_carveout2_cfg0 << 8 >> 31 << 26) | ((sdram->mc_generalized_carveout2_cfg0 << 9 >> 31 << 25) | ((sdram->mc_generalized_carveout2_cfg0 << 29 >> 31 << 24) | (((u16)(sdram->mc_generalized_carveout2_size_128kb) << 12) & 0xFFFFFF | (sdram->mc_generalized_carveout3_size_128kb & 0xFFF | (pmc->secure_scratch56 >> 12 << 12)) & 0xFF000FFF) & 0xFEFFFFFF) & 0xFDFFFFFF) & 0xFBFFFFFF) & 0xF7FFFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
-// 	pmc->scratch138 = (sdram->emc_fbio_cfg5 << 19 >> 31 << 31) | (2 * ((sdram->emc_fbio_cfg5 << 28 >> 30 << 29) | ((sdram->mc_emem_arb_timing_wap2pre << 22) & 0x1FFFFFFF | ((32 * sdram->emc_pmacro_ob_ddll_long_dq_rank0_3 >> 21 << 11) | (sdram->emc_pmacro_ob_ddll_long_dq_rank0_3 & 0x7FF | (pmc->scratch138 >> 11 << 11)) & 0xFFC007FF) & 0xE03FFFFF) & 0x9FFFFFFF) >> 1);
+	pmc->secure_scratch57 = ((u8)(sdram->mc_generalized_carveout3_cfg0) << 30 >> 31 << 31) | (2 * (((u8)(sdram->mc_generalized_carveout3_cfg0) << 30) | ((32 * sdram->mc_generalized_carveout1_cfg0 >> 31 << 29) | ((sdram->mc_generalized_carveout1_cfg0 << 6 >> 31 << 28) | ((sdram->mc_generalized_carveout1_cfg0 << 7 >> 31 << 27) | ((sdram->mc_generalized_carveout1_cfg0 << 8 >> 31 << 26) | ((sdram->mc_generalized_carveout1_cfg0 << 9 >> 31 << 25) | ((sdram->mc_generalized_carveout1_cfg0 << 29 >> 31 << 24) | ((sdram->mc_generalized_carveout5_size_128kb << 12) & 0xFFFFFF | (sdram->mc_generalized_carveout1_size_128kb & 0xFFF | (pmc->secure_scratch57 >> 12 << 12)) & 0xFF000FFF) & 0xFEFFFFFF) & 0xFDFFFFFF) & 0xFBFFFFFF) & 0xF7FFFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->scratch139 = (sdram->emc_fbio_cfg5 << 7 >> 31 << 31) | (2 * ((16 * sdram->emc_cfg2 >> 30 << 29) | (((u8)(sdram->mc_emem_arb_timing_r2w) << 22) & 0x1FFFFFFF | ((32 * sdram->emc_pmacro_ob_ddll_long_dq_rank0_4 >> 21 << 11) | (sdram->emc_pmacro_ob_ddll_long_dq_rank0_4 & 0x7FF | (pmc->scratch139 >> 11 << 11)) & 0xFFC007FF) & 0xE03FFFFF) & 0x9FFFFFFF) >> 1);
 // 	pmc->scratch140 = (16 * sdram->emc_fbio_cfg5 >> 31 << 31) | (2 * ((32 * sdram->emc_fbio_cfg5 >> 31 << 30) | ((sdram->emc_fbio_cfg5 << 6 >> 31 << 29) | (((u8)(sdram->mc_emem_arb_timing_w2r) << 22) & 0x1FFFFFFF | ((32 * sdram->emc_pmacro_ob_ddll_long_dq_rank0_5 >> 21 << 11) | (sdram->emc_pmacro_ob_ddll_long_dq_rank0_5 & 0x7FF | (pmc->scratch140 >> 11 << 11)) & 0xFFC007FF) & 0xE03FFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->scratch141 = (sdram->emc_fbio_cfg5 << 8 >> 28 << 28) | (((u16)(sdram->emc_wdv) << 22) | ((32 * sdram->emc_pmacro_ob_ddll_long_dq_rank1_0 >> 21 << 11) | (sdram->emc_pmacro_ob_ddll_long_dq_rank1_0 & 0x7FF | (pmc->scratch141 >> 11 << 11)) & 0xFFC007FF) & 0xF03FFFFF) & 0xFFFFFFF;
 // 	pmc->scratch142 = ((u8)(sdram->emc_cfg2) << 31) | (2 * ((sdram->emc_fbio_cfg5 >> 31 << 30) | ((2 * sdram->emc_fbio_cfg5 >> 31 << 29) | ((8 * sdram->emc_fbio_cfg5 >> 31 << 28) | ((sdram->emc_quse << 22) & 0xFFFFFFF | ((32 * sdram->emc_pmacro_ob_ddll_long_dq_rank1_1 >> 21 << 11) | (sdram->emc_pmacro_ob_ddll_long_dq_rank1_1 & 0x7FF | (pmc->scratch142 >> 11 << 11)) & 0xFFC007FF) & 0xF03FFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->scratch143 = (((u16)(sdram->emc_cfg2) << 21) >> 31 << 31) | (2 * ((((u16)(sdram->emc_cfg2) << 24) >> 31 << 30) | ((((u16)(sdram->emc_cfg2) << 29) >> 31 << 29) | ((((u16)(sdram->emc_cfg2) << 30) >> 31 << 28) | (((u8)(sdram->emc_pdex2wr) << 22) & 0xFFFFFFF | ((32 * sdram->emc_pmacro_ob_ddll_long_dq_rank1_2 >> 21 << 11) | (sdram->emc_pmacro_ob_ddll_long_dq_rank1_2 & 0x7FF | (pmc->scratch143 >> 11 << 11)) & 0xFFC007FF) & 0xF03FFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->scratch144 = (sdram->emc_cfg2 << 15 >> 31 << 31) | (2 * ((sdram->emc_cfg2 << 16 >> 31 << 30) | ((sdram->emc_cfg2 << 17 >> 31 << 29) | ((sdram->emc_cfg2 << 20 >> 31 << 28) | (((u8)(sdram->emc_pdex2rd) << 22) & 0xFFFFFFF | ((32 * sdram->emc_pmacro_ob_ddll_long_dq_rank1_3 >> 21 << 11) | (sdram->emc_pmacro_ob_ddll_long_dq_rank1_3 & 0x7FF | (pmc->scratch144 >> 11 << 11)) & 0xFFC007FF) & 0xF03FFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->scratch145 = (sdram->emc_cfg2 << 7 >> 31 << 31) | (2 * ((sdram->emc_cfg2 << 8 >> 31 << 30) | ((sdram->emc_cfg2 << 9 >> 31 << 29) | ((sdram->emc_cfg2 << 11 >> 31 << 28) | (((u16)(sdram->emc_pdex2che) << 22) & 0xFFFFFFF | ((32 * sdram->emc_pmacro_ob_ddll_long_dq_rank1_4 >> 21 << 11) | (sdram->emc_pmacro_ob_ddll_long_dq_rank1_4 & 0x7FF | (pmc->scratch145 >> 11 << 11)) & 0xFFC007FF) & 0xF03FFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->scratch146 = (2 * sdram->emc_cfg2 >> 31 << 31) | (2 * ((4 * sdram->emc_cfg2 >> 31 << 30) | (((sdram->emc_cfg2 << 6 >> 31 << 28) | (((u8)(sdram->emc_pchg2pden) << 22) & 0xFFFFFFF | ((32 * sdram->emc_pmacro_ob_ddll_long_dq_rank1_5 >> 21 << 11) | (sdram->emc_pmacro_ob_ddll_long_dq_rank1_5 & 0x7FF | (pmc->scratch146 >> 11 << 11)) & 0xFFC007FF) & 0xF03FFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF | (8 * sdram->emc_cfg2 >> 31 << 29)) & 0xBFFFFFFF) >> 1);
 // 	pmc->scratch147 = (((u8)(sdram->emc_cfg_pipe) << 29) >> 31 << 31) | (2 * ((((u8)(sdram->emc_cfg_pipe) << 30) >> 31 << 30) | ((((u8)(sdram->emc_cfg_pipe) << 31) >> 2) | ((sdram->emc_cfg2 >> 31 << 28) | (((u16)(sdram->emc_act2pden) << 22) & 0xFFFFFFF | ((32 * sdram->emc_pmacro_ob_ddll_long_dqs_rank0_0 >> 21 << 11) | (sdram->emc_pmacro_ob_ddll_long_dqs_rank0_0 & 0x7FF | (pmc->scratch147 >> 11 << 11)) & 0xFFC007FF) & 0xF03FFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->scratch148 = (((u8)(sdram->emc_cfg_pipe) << 25) >> 31 << 31) | (2 * ((((u8)(sdram->emc_cfg_pipe) << 26) >> 31 << 30) | ((((u8)(sdram->emc_cfg_pipe) << 27) >> 31 << 29) | ((((u8)(sdram->emc_cfg_pipe) << 28) >> 31 << 28) | (((u16)(sdram->emc_cke2pden) << 22) & 0xFFFFFFF | ((32 * sdram->emc_pmacro_ob_ddll_long_dqs_rank0_1 >> 21 << 11) | (sdram->emc_pmacro_ob_ddll_long_dqs_rank0_1 & 0x7FF | (pmc->scratch148 >> 11 << 11)) & 0xFFC007FF) & 0xF03FFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->scratch149 = (((u16)(sdram->emc_cfg_pipe) << 21) >> 31 << 31) | (2 * ((((u16)(sdram->emc_cfg_pipe) << 22) >> 31 << 30) | ((((u16)(sdram->emc_cfg_pipe) << 23) >> 31 << 29) | ((((u16)(sdram->emc_cfg_pipe) << 24) >> 31 << 28) | ((sdram->emc_tcke << 22) & 0xFFFFFFF | ((32 * sdram->emc_pmacro_ob_ddll_long_dqs_rank0_2 >> 21 << 11) | (sdram->emc_pmacro_ob_ddll_long_dqs_rank0_2 & 0x7FF | (pmc->scratch149 >> 11 << 11)) & 0xFFC007FF) & 0xF03FFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->scratch150 = (sdram->emc_cfg_pipe << 13 >> 31 << 31) | (2 * ((sdram->emc_cfg_pipe << 14 >> 31 << 30) | (((sdram->emc_cfg_pipe << 20 >> 31 << 28) | ((sdram->emc_trpab << 22) & 0xFFFFFFF | ((32 * sdram->emc_pmacro_ob_ddll_long_dqs_rank0_3 >> 21 << 11) | (sdram->emc_pmacro_ob_ddll_long_dqs_rank0_3 & 0x7FF | (pmc->scratch150 >> 11 << 11)) & 0xFFC007FF) & 0xF03FFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF | (sdram->emc_cfg_pipe << 15 >> 31 << 29)) & 0xBFFFFFFF) >> 1);
 // 	pmc->scratch151 = (sdram->emc_cfg_pipe << 9 >> 31 << 31) | (2 * ((sdram->emc_cfg_pipe << 10 >> 31 << 30) | ((sdram->emc_cfg_pipe << 11 >> 31 << 29) | ((sdram->emc_cfg_pipe << 12 >> 31 << 28) | ((sdram->emc_einput << 22) & 0xFFFFFFF | ((32 * sdram->emc_pmacro_ob_ddll_long_dqs_rank0_4 >> 21 << 11) | (sdram->emc_pmacro_ob_ddll_long_dqs_rank0_4 & 0x7FF | (pmc->scratch151 >> 11 << 11)) & 0xFFC007FF) & 0xF03FFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->scratch152 = (32 * sdram->emc_cfg_pipe >> 31 << 31) | (2 * ((sdram->emc_cfg_pipe << 6 >> 31 << 30) | ((sdram->emc_cfg_pipe << 7 >> 31 << 29) | ((sdram->emc_cfg_pipe << 8 >> 31 << 28) | ((sdram->emc_einput_duration << 22) & 0xFFFFFFF | ((32 * sdram->emc_pmacro_ob_ddll_long_dqs_rank0_5 >> 21 << 11) | (sdram->emc_pmacro_ob_ddll_long_dqs_rank0_5 & 0x7FF | (pmc->scratch152 >> 11 << 11)) & 0xFFC007FF) & 0xF03FFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->scratch153 = (((u16)(sdram->emc_pmacro_tx_sel_clk_src0) << 29) >> 31 << 31) | (2 * ((((u16)(sdram->emc_pmacro_tx_sel_clk_src0) << 30) >> 31 << 30) | ((((u16)(sdram->emc_pmacro_tx_sel_clk_src0) << 31) >> 2) | ((16 * sdram->emc_cfg_pipe >> 31 << 28) | ((sdram->emc_puterm_extra << 22) & 0xFFFFFFF | ((32 * sdram->emc_pmacro_ob_ddll_long_dqs_rank1_0 >> 21 << 11) | (sdram->emc_pmacro_ob_ddll_long_dqs_rank1_0 & 0x7FF | (pmc->scratch153 >> 11 << 11)) & 0xFFC007FF) & 0xF03FFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->scratch154 = (((u16)(sdram->emc_pmacro_tx_sel_clk_src0) << 25) >> 31 << 31) | (2 * ((((u16)(sdram->emc_pmacro_tx_sel_clk_src0) << 26) >> 31 << 30) | (((((u16)(sdram->emc_pmacro_tx_sel_clk_src0) << 28) >> 31 << 28) | ((sdram->emc_tckesr << 22) & 0xFFFFFFF | ((32 * sdram->emc_pmacro_ob_ddll_long_dqs_rank1_1 >> 21 << 11) | (sdram->emc_pmacro_ob_ddll_long_dqs_rank1_1 & 0x7FF | (pmc->scratch154 >> 11 << 11)) & 0xFFC007FF) & 0xF03FFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF | (((u16)(sdram->emc_pmacro_tx_sel_clk_src0) << 27) >> 31 << 29)) & 0xBFFFFFFF) >> 1);
 // 	pmc->scratch155 = (((u16)(sdram->emc_pmacro_tx_sel_clk_src0) << 21) >> 31 << 31) | (2 * ((((u16)(sdram->emc_pmacro_tx_sel_clk_src0) << 22) >> 31 << 30) | ((((u16)(sdram->emc_pmacro_tx_sel_clk_src0) << 23) >> 31 << 29) | ((((u16)(sdram->emc_pmacro_tx_sel_clk_src0) << 24) >> 31 << 28) | ((sdram->emc_tpd << 22) & 0xFFFFFFF | ((32 * sdram->emc_pmacro_ob_ddll_long_dqs_rank1_2 >> 21 << 11) | (sdram->emc_pmacro_ob_ddll_long_dqs_rank1_2 & 0x7FF | (pmc->scratch155 >> 11 << 11)) & 0xFFC007FF) & 0xF03FFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->scratch156 = (sdram->emc_pmacro_tx_sel_clk_src0 << 12 >> 31 << 31) | (2 * ((sdram->emc_pmacro_tx_sel_clk_src0 << 13 >> 31 << 30) | ((sdram->emc_pmacro_tx_sel_clk_src0 << 14 >> 31 << 29) | ((sdram->emc_pmacro_tx_sel_clk_src0 << 15 >> 31 << 28) | ((sdram->emc_wdv_mask << 22) & 0xFFFFFFF | ((32 * sdram->emc_pmacro_ob_ddll_long_dqs_rank1_3 >> 21 << 11) | (sdram->emc_pmacro_ob_ddll_long_dqs_rank1_3 & 0x7FF | (pmc->scratch156 >> 11 << 11)) & 0xFFC007FF) & 0xF03FFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->scratch157 = (sdram->emc_pmacro_tx_sel_clk_src0 << 8 >> 31 << 31) | (2 * ((sdram->emc_pmacro_tx_sel_clk_src0 << 9 >> 31 << 30) | ((sdram->emc_pmacro_tx_sel_clk_src0 << 10 >> 31 << 29) | ((sdram->emc_pmacro_tx_sel_clk_src0 << 11 >> 31 << 28) | (((u16)(sdram->emc_wdv_chk) << 22) & 0xFFFFFFF | ((32 * sdram->emc_pmacro_ob_ddll_long_dqs_rank1_4 >> 21 << 11) | (sdram->emc_pmacro_ob_ddll_long_dqs_rank1_4 & 0x7FF | (pmc->scratch157 >> 11 << 11)) & 0xFFC007FF) & 0xF03FFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->scratch158 = ((u16)(sdram->emc_pmacro_tx_sel_clk_src1) << 31) | (2 * ((32 * sdram->emc_pmacro_tx_sel_clk_src0 >> 31 << 30) | ((sdram->emc_pmacro_tx_sel_clk_src0 << 6 >> 31 << 29) | ((sdram->emc_pmacro_tx_sel_clk_src0 << 7 >> 31 << 28) | (((u8)(sdram->emc_cmd_brlshft0) << 26 >> 29 << 25) | (((u8)(sdram->emc_cmd_brlshft0) << 22) & 0x1FFFFFF | ((32 * sdram->emc_pmacro_ob_ddll_long_dqs_rank1_5 >> 21 << 11) | (sdram->emc_pmacro_ob_ddll_long_dqs_rank1_5 & 0x7FF | (pmc->scratch158 >> 11 << 11)) & 0xFFC007FF) & 0xFE3FFFFF) & 0xF1FFFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->scratch159 = (((u16)(sdram->emc_pmacro_tx_sel_clk_src1) << 27) >> 31 << 31) | (2 * ((((u16)(sdram->emc_pmacro_tx_sel_clk_src1) << 28) >> 31 << 30) | ((((u16)(sdram->emc_pmacro_tx_sel_clk_src1) << 29) >> 31 << 29) | ((((u16)(sdram->emc_pmacro_tx_sel_clk_src1) << 30) >> 31 << 28) | (((u8)(sdram->emc_cmd_brlshft1) << 26 >> 29 << 25) | (((u8)(sdram->emc_cmd_brlshft1) << 22) & 0x1FFFFFF | ((32 * sdram->emc_pmacro_ib_ddll_long_dqs_rank0_0 >> 21 << 11) | (sdram->emc_pmacro_ib_ddll_long_dqs_rank0_0 & 0x7FF | (pmc->scratch159 >> 11 << 11)) & 0xFFC007FF) & 0xFE3FFFFF) & 0xF1FFFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->scratch160 = (((u16)(sdram->emc_pmacro_tx_sel_clk_src1) << 23) >> 31 << 31) | (2 * ((((u16)(sdram->emc_pmacro_tx_sel_clk_src1) << 24) >> 31 << 30) | ((((u16)(sdram->emc_pmacro_tx_sel_clk_src1) << 25) >> 31 << 29) | ((((u16)(sdram->emc_pmacro_tx_sel_clk_src1) << 26) >> 31 << 28) | (((u8)(sdram->emc_cmd_brlshft2) << 26 >> 29 << 25) | (((u8)(sdram->emc_cmd_brlshft2) << 22) & 0x1FFFFFF | ((32 * sdram->emc_pmacro_ib_ddll_long_dqs_rank0_1 >> 21 << 11) | (sdram->emc_pmacro_ib_ddll_long_dqs_rank0_1 & 0x7FF | (pmc->scratch160 >> 11 << 11)) & 0xFFC007FF) & 0xFE3FFFFF) & 0xF1FFFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->scratch161 = (sdram->emc_pmacro_tx_sel_clk_src1 << 14 >> 31 << 31) | (2 * ((sdram->emc_pmacro_tx_sel_clk_src1 << 15 >> 31 << 30) | ((sdram->emc_pmacro_tx_sel_clk_src1 << 21 >> 31 << 29) | ((sdram->emc_pmacro_tx_sel_clk_src1 << 22 >> 31 << 28) | (((u8)(sdram->emc_cmd_brlshft3) << 26 >> 29 << 25) | (((u8)(sdram->emc_cmd_brlshft3) << 22) & 0x1FFFFFF | ((32 * sdram->emc_pmacro_ib_ddll_long_dqs_rank0_2 >> 21 << 11) | (sdram->emc_pmacro_ib_ddll_long_dqs_rank0_2 & 0x7FF | (pmc->scratch161 >> 11 << 11)) & 0xFFC007FF) & 0xFE3FFFFF) & 0xF1FFFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->scratch162 = (sdram->emc_pmacro_tx_sel_clk_src1 << 10 >> 31 << 31) | (2 * ((sdram->emc_pmacro_tx_sel_clk_src1 << 11 >> 31 << 30) | ((sdram->emc_pmacro_tx_sel_clk_src1 << 12 >> 31 << 29) | ((sdram->emc_pmacro_tx_sel_clk_src1 << 13 >> 31 << 28) | (((u16)(sdram->emc_wev) << 22) & 0xFFFFFFF | ((32 * sdram->emc_pmacro_ib_ddll_long_dqs_rank0_3 >> 21 << 11) | (sdram->emc_pmacro_ib_ddll_long_dqs_rank0_3 & 0x7FF | (pmc->scratch162 >> 11 << 11)) & 0xFFC007FF) & 0xF03FFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->scratch163 = (sdram->emc_pmacro_tx_sel_clk_src1 << 6 >> 31 << 31) | (2 * ((sdram->emc_pmacro_tx_sel_clk_src1 << 7 >> 31 << 30) | ((sdram->emc_pmacro_tx_sel_clk_src1 << 8 >> 31 << 29) | ((sdram->emc_pmacro_tx_sel_clk_src1 << 9 >> 31 << 28) | (((u16)(sdram->emc_wsv) << 22) & 0xFFFFFFF | ((32 * sdram->emc_pmacro_ib_ddll_long_dqs_rank1_0 >> 21 << 11) | (sdram->emc_pmacro_ib_ddll_long_dqs_rank1_0 & 0x7FF | (pmc->scratch163 >> 11 << 11)) & 0xFFC007FF) & 0xF03FFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->scratch164 = (((u16)(sdram->emc_pmacro_tx_sel_clk_src3) << 29) >> 31 << 31) | (2 * ((((u16)(sdram->emc_pmacro_tx_sel_clk_src3) << 30) >> 31 << 30) | ((((u16)(sdram->emc_pmacro_tx_sel_clk_src3) << 31) >> 2) | ((32 * sdram->emc_pmacro_tx_sel_clk_src1 >> 31 << 28) | (((u8)(sdram->emc_cfg3) << 25 >> 29 << 25) | (((u8)(sdram->emc_cfg3) << 22) & 0x1FFFFFF | ((32 * sdram->emc_pmacro_ib_ddll_long_dqs_rank1_1 >> 21 << 11) | (sdram->emc_pmacro_ib_ddll_long_dqs_rank1_1 & 0x7FF | (pmc->scratch164 >> 11 << 11)) & 0xFFC007FF) & 0xFE3FFFFF) & 0xF1FFFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->scratch165 = (((u16)(sdram->emc_pmacro_tx_sel_clk_src3) << 25) >> 31 << 31) | (2 * ((((u16)(sdram->emc_pmacro_tx_sel_clk_src3) << 26) >> 31 << 30) | ((((u16)(sdram->emc_pmacro_tx_sel_clk_src3) << 27) >> 31 << 29) | ((((u16)(sdram->emc_pmacro_tx_sel_clk_src3) << 28) >> 31 << 28) | ((sdram->emc_puterm_width << 23) & 0xFFFFFFF | ((sdram->emc_puterm_width >> 31 << 22) | ((32 * sdram->emc_pmacro_ib_ddll_long_dqs_rank1_2 >> 21 << 11) | (sdram->emc_pmacro_ib_ddll_long_dqs_rank1_2 & 0x7FF | (pmc->scratch165 >> 11 << 11)) & 0xFFC007FF) & 0xFFBFFFFF) & 0xF07FFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->scratch166 = (((u16)(sdram->emc_pmacro_tx_sel_clk_src3) << 21) >> 31 << 31) | (2 * ((((u16)(sdram->emc_pmacro_tx_sel_clk_src3) << 22) >> 31 << 30) | ((((u16)(sdram->emc_pmacro_tx_sel_clk_src3) << 23) >> 31 << 29) | ((((u16)(sdram->emc_pmacro_tx_sel_clk_src3) << 24) >> 31 << 28) | ((sdram->mc_emem_arb_timing_rcd << 22) & 0xFFFFFFF | ((32 * sdram->emc_pmacro_ib_ddll_long_dqs_rank1_3 >> 21 << 11) | (sdram->emc_pmacro_ib_ddll_long_dqs_rank1_3 & 0x7FF | (pmc->scratch166 >> 11 << 11)) & 0xFFC007FF) & 0xF03FFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->scratch167 = (sdram->emc_pmacro_tx_sel_clk_src3 << 12 >> 31 << 31) | (2 * ((sdram->emc_pmacro_tx_sel_clk_src3 << 13 >> 31 << 30) | ((sdram->emc_pmacro_tx_sel_clk_src3 << 14 >> 31 << 29) | ((sdram->emc_pmacro_tx_sel_clk_src3 << 15 >> 31 << 28) | (((u16)(sdram->mc_emem_arb_timing_ccdmw) << 22) & 0xFFFFFFF | ((32 * sdram->emc_pmacro_ddll_long_cmd_0 >> 21 << 11) | (sdram->emc_pmacro_ddll_long_cmd_0 & 0x7FF | (pmc->scratch167 >> 11 << 11)) & 0xFFC007FF) & 0xF03FFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->scratch168 = (sdram->emc_pmacro_tx_sel_clk_src3 << 8 >> 31 << 31) | (2 * ((sdram->emc_pmacro_tx_sel_clk_src3 << 9 >> 31 << 30) | ((sdram->emc_pmacro_tx_sel_clk_src3 << 10 >> 31 << 29) | ((sdram->emc_pmacro_tx_sel_clk_src3 << 11 >> 31 << 28) | ((sdram->mc_emem_arb_override << 28 >> 31 << 27) | (((sdram->mc_emem_arb_override << 21 >> 31 << 25) | ((sdram->mc_emem_arb_override << 15 >> 31 << 24) | ((32 * sdram->mc_emem_arb_override >> 31 << 23) | ((16 * sdram->mc_emem_arb_override >> 31 << 22) | ((32 * sdram->emc_pmacro_ddll_long_cmd_1 >> 21 << 11) | (sdram->emc_pmacro_ddll_long_cmd_1 & 0x7FF | (pmc->scratch168 >> 11 << 11)) & 0xFFC007FF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0xFEFFFFFF) & 0xFDFFFFFF) & 0xFBFFFFFF | (sdram->mc_emem_arb_override << 27 >> 31 << 26)) & 0xF7FFFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->scratch169 = ((u16)(sdram->emc_rext) << 27) | (((u16)(sdram->emc_rrd) << 22) | ((32 * sdram->emc_pmacro_ddll_long_cmd_2 >> 21 << 11) | (sdram->emc_pmacro_ddll_long_cmd_2 & 0x7FF | (pmc->scratch169 >> 11 << 11)) & 0xFFC007FF) & 0xF83FFFFF) & 0x7FFFFFF;
 // 	pmc->scratch170 = ((u16)(sdram->emc_wext) << 27) | ((sdram->emc_tclkstop << 22) | ((32 * sdram->emc_pmacro_ddll_long_cmd_3 >> 21 << 11) | (sdram->emc_pmacro_ddll_long_cmd_3 & 0x7FF | (pmc->scratch170 >> 11 << 11)) & 0xFFC007FF) & 0xF83FFFFF) & 0x7FFFFFF;
 // 	tmp = (32 * sdram->emc_pmacro_perbit_fgcg_ctrl0 >> 31 << 21) | ((sdram->emc_pmacro_perbit_fgcg_ctrl0 << 6 >> 31 << 20) | ((sdram->emc_pmacro_perbit_fgcg_ctrl0 << 7 >> 31 << 19) | ((sdram->emc_pmacro_perbit_fgcg_ctrl0 << 8 >> 31 << 18) | ((sdram->emc_pmacro_perbit_fgcg_ctrl0 << 9 >> 31 << 17) | ((sdram->emc_pmacro_perbit_fgcg_ctrl0 << 10 >> 31 << 16) | ((sdram->emc_pmacro_perbit_fgcg_ctrl0 << 11 >> 31 << 15) | ((sdram->emc_pmacro_perbit_fgcg_ctrl0 << 12 >> 31 << 14) | ((sdram->emc_pmacro_perbit_fgcg_ctrl0 << 13 >> 31 << 13) | ((sdram->emc_pmacro_perbit_fgcg_ctrl0 << 14 >> 31 << 12) | ((sdram->emc_pmacro_perbit_fgcg_ctrl0 << 15 >> 31 << 11) | ((sdram->emc_pmacro_perbit_fgcg_ctrl0 << 21 >> 31 << 10) | ((sdram->emc_pmacro_perbit_fgcg_ctrl0 << 22 >> 31 << 9) | ((sdram->emc_pmacro_perbit_fgcg_ctrl0 << 23 >> 31 << 8) | ((sdram->emc_pmacro_perbit_fgcg_ctrl0 << 24 >> 31 << 7) | ((sdram->emc_pmacro_perbit_fgcg_ctrl0 << 25 >> 31 << 6) | (32 * (sdram->emc_pmacro_perbit_fgcg_ctrl0 << 26 >> 31) | (16 * (sdram->emc_pmacro_perbit_fgcg_ctrl0 << 27 >> 31) | (8 * (sdram->emc_pmacro_perbit_fgcg_ctrl0 << 28 >> 31) | (4 * (sdram->emc_pmacro_perbit_fgcg_ctrl0 << 29 >> 31) | (2 * (sdram->emc_pmacro_perbit_fgcg_ctrl0 << 30 >> 31) | (sdram->emc_pmacro_perbit_fgcg_ctrl0 & 1 | 2 * (pmc->scratch171 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFFBF) & 0xFFFFFF7F) & 0xFFFFFEFF) & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFFEFFFF) & 0xFFFDFFFF) & 0xFFFBFFFF) & 0xFFF7FFFF) & 0xFFEFFFFF) & 0xFFDFFFFF;
 // 	pmc->scratch171 = (sdram->emc_we_duration << 27) | ((sdram->emc_ref_ctrl2 >> 31 << 26) | ((32 * sdram->emc_ref_ctrl2 >> 29 << 23) | ((sdram->emc_ref_ctrl2 << 22) & 0x7FFFFF | tmp & 0xFFBFFFFF) & 0xFC7FFFFF) & 0xFBFFFFFF) & 0x7FFFFFF;
 // 	tmp = (sdram->emc_pmacro_pad_cfg_ctrl << 22 >> 31 << 28) | ((sdram->emc_pmacro_pad_cfg_ctrl << 27) & 0xFFFFFFF | ((sdram->emc_ws_duration << 22) & 0x7FFFFFF | ((32 * sdram->emc_pmacro_perbit_fgcg_ctrl1 >> 31 << 21) | ((sdram->emc_pmacro_perbit_fgcg_ctrl1 << 6 >> 31 << 20) | ((sdram->emc_pmacro_perbit_fgcg_ctrl1 << 7 >> 31 << 19) | ((sdram->emc_pmacro_perbit_fgcg_ctrl1 << 8 >> 31 << 18) | ((sdram->emc_pmacro_perbit_fgcg_ctrl1 << 9 >> 31 << 17) | ((sdram->emc_pmacro_perbit_fgcg_ctrl1 << 10 >> 31 << 16) | ((sdram->emc_pmacro_perbit_fgcg_ctrl1 << 11 >> 31 << 15) | ((sdram->emc_pmacro_perbit_fgcg_ctrl1 << 12 >> 31 << 14) | ((sdram->emc_pmacro_perbit_fgcg_ctrl1 << 13 >> 31 << 13) | ((sdram->emc_pmacro_perbit_fgcg_ctrl1 << 14 >> 31 << 12) | ((sdram->emc_pmacro_perbit_fgcg_ctrl1 << 15 >> 31 << 11) | ((sdram->emc_pmacro_perbit_fgcg_ctrl1 << 21 >> 31 << 10) | ((sdram->emc_pmacro_perbit_fgcg_ctrl1 << 22 >> 31 << 9) | ((sdram->emc_pmacro_perbit_fgcg_ctrl1 << 23 >> 31 << 8) | ((sdram->emc_pmacro_perbit_fgcg_ctrl1 << 24 >> 31 << 7) | ((sdram->emc_pmacro_perbit_fgcg_ctrl1 << 25 >> 31 << 6) | (32 * (sdram->emc_pmacro_perbit_fgcg_ctrl1 << 26 >> 31) | (16 * (sdram->emc_pmacro_perbit_fgcg_ctrl1 << 27 >> 31) | (8 * (sdram->emc_pmacro_perbit_fgcg_ctrl1 << 28 >> 31) | (4 * (sdram->emc_pmacro_perbit_fgcg_ctrl1 << 29 >> 31) | (2 * (sdram->emc_pmacro_perbit_fgcg_ctrl1 << 30 >> 31) | (sdram->emc_pmacro_perbit_fgcg_ctrl1 & 1 | 2 * (pmc->scratch172 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFFBF) & 0xFFFFFF7F) & 0xFFFFFEFF) & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFFEFFFF) & 0xFFFDFFFF) & 0xFFFBFFFF) & 0xFFF7FFFF) & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xF83FFFFF) & 0xF7FFFFFF) & 0xEFFFFFFF;
 // 	pmc->scratch172 = (sdram->emc_pmacro_pad_cfg_ctrl << 14 >> 30 << 30) | (4 * ((sdram->emc_pmacro_pad_cfg_ctrl << 18 >> 31 << 29) | tmp & 0xDFFFFFFF) >> 2);
 // 	pmc->scratch173 = ((u8)(sdram->mc_emem_arb_timing_r2r) << 27) | ((sdram->mc_emem_arb_timing_rrd << 22) | ((32 * sdram->emc_pmacro_perbit_fgcg_ctrl2 >> 31 << 21) | ((sdram->emc_pmacro_perbit_fgcg_ctrl2 << 6 >> 31 << 20) | ((sdram->emc_pmacro_perbit_fgcg_ctrl2 << 7 >> 31 << 19) | ((sdram->emc_pmacro_perbit_fgcg_ctrl2 << 8 >> 31 << 18) | ((sdram->emc_pmacro_perbit_fgcg_ctrl2 << 9 >> 31 << 17) | ((sdram->emc_pmacro_perbit_fgcg_ctrl2 << 10 >> 31 << 16) | ((sdram->emc_pmacro_perbit_fgcg_ctrl2 << 11 >> 31 << 15) | ((sdram->emc_pmacro_perbit_fgcg_ctrl2 << 12 >> 31 << 14) | ((sdram->emc_pmacro_perbit_fgcg_ctrl2 << 13 >> 31 << 13) | ((sdram->emc_pmacro_perbit_fgcg_ctrl2 << 14 >> 31 << 12) | ((sdram->emc_pmacro_perbit_fgcg_ctrl2 << 15 >> 31 << 11) | ((sdram->emc_pmacro_perbit_fgcg_ctrl2 << 21 >> 31 << 10) | ((sdram->emc_pmacro_perbit_fgcg_ctrl2 << 22 >> 31 << 9) | ((sdram->emc_pmacro_perbit_fgcg_ctrl2 << 23 >> 31 << 8) | ((sdram->emc_pmacro_perbit_fgcg_ctrl2 << 24 >> 31 << 7) | ((sdram->emc_pmacro_perbit_fgcg_ctrl2 << 25 >> 31 << 6) | (32 * (sdram->emc_pmacro_perbit_fgcg_ctrl2 << 26 >> 31) | (16 * (sdram->emc_pmacro_perbit_fgcg_ctrl2 << 27 >> 31) | (8 * (sdram->emc_pmacro_perbit_fgcg_ctrl2 << 28 >> 31) | (4 * (sdram->emc_pmacro_perbit_fgcg_ctrl2 << 29 >> 31) | (2 * (sdram->emc_pmacro_perbit_fgcg_ctrl2 << 30 >> 31) | (sdram->emc_pmacro_perbit_fgcg_ctrl2 & 1 | 2 * (pmc->scratch173 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFFBF) & 0xFFFFFF7F) & 0xFFFFFEFF) & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFFEFFFF) & 0xFFFDFFFF) & 0xFFFBFFFF) & 0xFFF7FFFF) & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xF83FFFFF) & 0x7FFFFFF;
 // 	tmp = 32 * (sdram->emc_pmacro_perbit_fgcg_ctrl3 << 26 >> 31) | (16 * (sdram->emc_pmacro_perbit_fgcg_ctrl3 << 27 >> 31) | (8 * (sdram->emc_pmacro_perbit_fgcg_ctrl3 << 28 >> 31) | (4 * (sdram->emc_pmacro_perbit_fgcg_ctrl3 << 29 >> 31) | (2 * (sdram->emc_pmacro_perbit_fgcg_ctrl3 << 30 >> 31) | (sdram->emc_pmacro_perbit_fgcg_ctrl3 & 1 | 2 * (pmc->scratch174 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFFFEF) & 0xFFFFFFDF;
 // 	pmc->scratch174 = ((u16)(sdram->emc_pmacro_tx_sel_clk_src2) << 30 >> 31 << 31) | (2 * (((u16)(sdram->emc_pmacro_tx_sel_clk_src2) << 30) | ((32 * sdram->emc_pmacro_tx_sel_clk_src3 >> 31 << 29) | ((sdram->emc_pmacro_tx_sel_clk_src3 << 6 >> 31 << 28) | ((sdram->emc_pmacro_tx_sel_clk_src3 << 7 >> 31 << 27) | (((u8)(sdram->mc_emem_arb_timing_w2w) << 22) & 0x7FFFFFF | ((32 * sdram->emc_pmacro_perbit_fgcg_ctrl3 >> 31 << 21) | ((sdram->emc_pmacro_perbit_fgcg_ctrl3 << 6 >> 31 << 20) | ((sdram->emc_pmacro_perbit_fgcg_ctrl3 << 7 >> 31 << 19) | ((sdram->emc_pmacro_perbit_fgcg_ctrl3 << 8 >> 31 << 18) | ((sdram->emc_pmacro_perbit_fgcg_ctrl3 << 9 >> 31 << 17) | ((sdram->emc_pmacro_perbit_fgcg_ctrl3 << 10 >> 31 << 16) | ((sdram->emc_pmacro_perbit_fgcg_ctrl3 << 11 >> 31 << 15) | ((sdram->emc_pmacro_perbit_fgcg_ctrl3 << 12 >> 31 << 14) | ((sdram->emc_pmacro_perbit_fgcg_ctrl3 << 13 >> 31 << 13) | ((sdram->emc_pmacro_perbit_fgcg_ctrl3 << 14 >> 31 << 12) | ((sdram->emc_pmacro_perbit_fgcg_ctrl3 << 15 >> 31 << 11) | ((sdram->emc_pmacro_perbit_fgcg_ctrl3 << 21 >> 31 << 10) | ((sdram->emc_pmacro_perbit_fgcg_ctrl3 << 22 >> 31 << 9) | ((sdram->emc_pmacro_perbit_fgcg_ctrl3 << 23 >> 31 << 8) | ((sdram->emc_pmacro_perbit_fgcg_ctrl3 << 24 >> 31 << 7) | ((sdram->emc_pmacro_perbit_fgcg_ctrl3 << 25 >> 31 << 6) | tmp & 0xFFFFFFBF) & 0xFFFFFF7F) & 0xFFFFFEFF) & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFFEFFFF) & 0xFFFDFFFF) & 0xFFFBFFFF) & 0xFFF7FFFF) & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xF83FFFFF) & 0xF7FFFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 // 	tmp = (sdram->emc_pmacro_tx_sel_clk_src2 << 28 >> 31 << 23) | ((sdram->emc_pmacro_tx_sel_clk_src2 << 29 >> 31 << 22) | ((32 * sdram->emc_pmacro_perbit_fgcg_ctrl4 >> 31 << 21) | ((sdram->emc_pmacro_perbit_fgcg_ctrl4 << 6 >> 31 << 20) | ((sdram->emc_pmacro_perbit_fgcg_ctrl4 << 7 >> 31 << 19) | ((sdram->emc_pmacro_perbit_fgcg_ctrl4 << 8 >> 31 << 18) | ((sdram->emc_pmacro_perbit_fgcg_ctrl4 << 9 >> 31 << 17) | ((sdram->emc_pmacro_perbit_fgcg_ctrl4 << 10 >> 31 << 16) | ((sdram->emc_pmacro_perbit_fgcg_ctrl4 << 11 >> 31 << 15) | ((sdram->emc_pmacro_perbit_fgcg_ctrl4 << 12 >> 31 << 14) | ((sdram->emc_pmacro_perbit_fgcg_ctrl4 << 13 >> 31 << 13) | ((sdram->emc_pmacro_perbit_fgcg_ctrl4 << 14 >> 31 << 12) | ((sdram->emc_pmacro_perbit_fgcg_ctrl4 << 15 >> 31 << 11) | ((sdram->emc_pmacro_perbit_fgcg_ctrl4 << 21 >> 31 << 10) | ((sdram->emc_pmacro_perbit_fgcg_ctrl4 << 22 >> 31 << 9) | ((sdram->emc_pmacro_perbit_fgcg_ctrl4 << 23 >> 31 << 8) | ((sdram->emc_pmacro_perbit_fgcg_ctrl4 << 24 >> 31 << 7) | ((sdram->emc_pmacro_perbit_fgcg_ctrl4 << 25 >> 31 << 6) | (32 * (sdram->emc_pmacro_perbit_fgcg_ctrl4 << 26 >> 31) | (16 * (sdram->emc_pmacro_perbit_fgcg_ctrl4 << 27 >> 31) | (8 * (sdram->emc_pmacro_perbit_fgcg_ctrl4 << 28 >> 31) | (4 * (sdram->emc_pmacro_perbit_fgcg_ctrl4 << 29 >> 31) | (2 * (sdram->emc_pmacro_perbit_fgcg_ctrl4 << 30 >> 31) | (sdram->emc_pmacro_perbit_fgcg_ctrl4 & 1 | 2 * (pmc->scratch175 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFFBF) & 0xFFFFFF7F) & 0xFFFFFEFF) & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFFEFFFF) & 0xFFFDFFFF) & 0xFFFBFFFF) & 0xFFF7FFFF) & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xFFBFFFFF) & 0xFF7FFFFF;
 // 	pmc->scratch175 = (sdram->emc_pmacro_tx_sel_clk_src2 << 15 >> 31 << 31) | (2 * ((sdram->emc_pmacro_tx_sel_clk_src2 << 21 >> 31 << 30) | ((sdram->emc_pmacro_tx_sel_clk_src2 << 22 >> 31 << 29) | ((sdram->emc_pmacro_tx_sel_clk_src2 << 23 >> 31 << 28) | ((sdram->emc_pmacro_tx_sel_clk_src2 << 24 >> 31 << 27) | ((sdram->emc_pmacro_tx_sel_clk_src2 << 25 >> 31 << 26) | ((sdram->emc_pmacro_tx_sel_clk_src2 << 26 >> 31 << 25) | ((sdram->emc_pmacro_tx_sel_clk_src2 << 27 >> 31 << 24) | tmp & 0xFEFFFFFF) & 0xFDFFFFFF) & 0xFBFFFFFF) & 0xF7FFFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 // 	tmp = (sdram->emc_pmacro_tx_sel_clk_src2 << 12 >> 31 << 24) | ((sdram->emc_pmacro_tx_sel_clk_src2 << 13 >> 31 << 23) | ((sdram->emc_pmacro_tx_sel_clk_src2 << 14 >> 31 << 22) | ((32 * sdram->emc_pmacro_perbit_fgcg_ctrl5 >> 31 << 21) | ((sdram->emc_pmacro_perbit_fgcg_ctrl5 << 6 >> 31 << 20) | ((sdram->emc_pmacro_perbit_fgcg_ctrl5 << 7 >> 31 << 19) | ((sdram->emc_pmacro_perbit_fgcg_ctrl5 << 8 >> 31 << 18) | ((sdram->emc_pmacro_perbit_fgcg_ctrl5 << 9 >> 31 << 17) | ((sdram->emc_pmacro_perbit_fgcg_ctrl5 << 10 >> 31 << 16) | ((sdram->emc_pmacro_perbit_fgcg_ctrl5 << 11 >> 31 << 15) | ((sdram->emc_pmacro_perbit_fgcg_ctrl5 << 12 >> 31 << 14) | ((sdram->emc_pmacro_perbit_fgcg_ctrl5 << 13 >> 31 << 13) | ((sdram->emc_pmacro_perbit_fgcg_ctrl5 << 14 >> 31 << 12) | ((sdram->emc_pmacro_perbit_fgcg_ctrl5 << 15 >> 31 << 11) | ((sdram->emc_pmacro_perbit_fgcg_ctrl5 << 21 >> 31 << 10) | ((sdram->emc_pmacro_perbit_fgcg_ctrl5 << 22 >> 31 << 9) | ((sdram->emc_pmacro_perbit_fgcg_ctrl5 << 23 >> 31 << 8) | ((sdram->emc_pmacro_perbit_fgcg_ctrl5 << 24 >> 31 << 7) | ((sdram->emc_pmacro_perbit_fgcg_ctrl5 << 25 >> 31 << 6) | (32 * (sdram->emc_pmacro_perbit_fgcg_ctrl5 << 26 >> 31) | (16 * (sdram->emc_pmacro_perbit_fgcg_ctrl5 << 27 >> 31) | (8 * (sdram->emc_pmacro_perbit_fgcg_ctrl5 << 28 >> 31) | (4 * (sdram->emc_pmacro_perbit_fgcg_ctrl5 << 29 >> 31) | (2 * (sdram->emc_pmacro_perbit_fgcg_ctrl5 << 30 >> 31) | (sdram->emc_pmacro_perbit_fgcg_ctrl5 & 1 | 2 * (pmc->scratch176 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFFBF) & 0xFFFFFF7F) & 0xFFFFFEFF) & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFFEFFFF) & 0xFFFDFFFF) & 0xFFFBFFFF) & 0xFFF7FFFF) & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0xFEFFFFFF;
 // 	pmc->scratch176 = (32 * sdram->emc_pmacro_tx_sel_clk_src2 >> 31 << 31) | (2 * ((sdram->emc_pmacro_tx_sel_clk_src2 << 6 >> 31 << 30) | ((sdram->emc_pmacro_tx_sel_clk_src2 << 7 >> 31 << 29) | ((sdram->emc_pmacro_tx_sel_clk_src2 << 8 >> 31 << 28) | ((sdram->emc_pmacro_tx_sel_clk_src2 << 9 >> 31 << 27) | ((sdram->emc_pmacro_tx_sel_clk_src2 << 10 >> 31 << 26) | ((sdram->emc_pmacro_tx_sel_clk_src2 << 11 >> 31 << 25) | tmp & 0xFDFFFFFF) & 0xFBFFFFFF) & 0xF7FFFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->scratch177 = (sdram->emc_pmacro_tx_sel_clk_src4 << 22 >> 31 << 31) | (2 * ((sdram->emc_pmacro_tx_sel_clk_src4 << 23 >> 31 << 30) | ((sdram->emc_pmacro_tx_sel_clk_src4 << 24 >> 31 << 29) | ((sdram->emc_pmacro_tx_sel_clk_src4 << 25 >> 31 << 28) | ((sdram->emc_pmacro_tx_sel_clk_src4 << 26 >> 31 << 27) | ((sdram->emc_pmacro_tx_sel_clk_src4 << 27 >> 31 << 26) | ((sdram->emc_pmacro_tx_sel_clk_src4 << 28 >> 31 << 25) | ((sdram->emc_pmacro_tx_sel_clk_src4 << 29 >> 31 << 24) | ((sdram->emc_pmacro_tx_sel_clk_src4 << 30 >> 31 << 23) | ((sdram->emc_pmacro_tx_sel_clk_src4 << 22) & 0x7FFFFF | ((sdram->mc_emem_arb_cfg >> 28 << 18) | ((16 * sdram->mc_emem_arb_cfg >> 28 << 14) | ((sdram->mc_emem_arb_cfg << 11 >> 27 << 9) | (sdram->mc_emem_arb_cfg & 0x1FF | (pmc->scratch177 >> 9 << 9)) & 0xFFFFC1FF) & 0xFFFC3FFF) & 0xFFC3FFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0xFEFFFFFF) & 0xFDFFFFFF) & 0xFBFFFFFF) & 0xF7FFFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->scratch178 = (sdram->emc_pmacro_tx_sel_clk_src4 << 7 >> 31 << 31) | (2 * ((sdram->emc_pmacro_tx_sel_clk_src4 << 8 >> 31 << 30) | ((sdram->emc_pmacro_tx_sel_clk_src4 << 9 >> 31 << 29) | ((sdram->emc_pmacro_tx_sel_clk_src4 << 10 >> 31 << 28) | ((sdram->emc_pmacro_tx_sel_clk_src4 << 11 >> 31 << 27) | ((sdram->emc_pmacro_tx_sel_clk_src4 << 12 >> 31 << 26) | ((sdram->emc_pmacro_tx_sel_clk_src4 << 13 >> 31 << 25) | ((sdram->emc_pmacro_tx_sel_clk_src4 << 14 >> 31 << 24) | ((sdram->emc_pmacro_tx_sel_clk_src4 << 15 >> 31 << 23) | ((sdram->emc_pmacro_tx_sel_clk_src4 << 21 >> 31 << 22) | ((sdram->mc_emem_arb_misc1 >> 28 << 18) | ((sdram->mc_emem_arb_misc1 << 6 >> 30 << 16) | ((sdram->mc_emem_arb_misc1 << 8 >> 29 << 13) | (16 * (sdram->mc_emem_arb_misc1 << 19 >> 23) | (8 * (sdram->mc_emem_arb_misc1 << 28 >> 31) | (4 * (sdram->mc_emem_arb_misc1 << 29 >> 31) | (2 * (sdram->mc_emem_arb_misc1 << 30 >> 31) | (sdram->mc_emem_arb_misc1 & 1 | 2 * (pmc->scratch178 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFE00F) & 0xFFFF1FFF) & 0xFFFCFFFF) & 0xFFC3FFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0xFEFFFFFF) & 0xFDFFFFFF) & 0xFBFFFFFF) & 0xF7FFFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->scratch179 = (sdram->emc_odt_write >> 31 << 31) | (2 * ((sdram->emc_odt_write << 20 >> 28 << 27) | ((sdram->emc_odt_write << 26 >> 31 << 26) | ((sdram->emc_odt_write << 27 >> 31 << 25) | ((sdram->emc_odt_write << 21) & 0x1FFFFFF | ((32 * sdram->emc_mrs_wait_cnt2 >> 21 << 10) | (sdram->emc_mrs_wait_cnt2 & 0x3FF | (pmc->scratch179 >> 10 << 10)) & 0xFFE003FF) & 0xFE1FFFFF) & 0xFDFFFFFF) & 0xFBFFFFFF) & 0x87FFFFFF) >> 1);
 // 	pmc->scratch180 = (sdram->emc_pmacro_ib_rxrt << 21) | ((32 * sdram->emc_mrs_wait_cnt >> 21 << 10) | (sdram->emc_mrs_wait_cnt & 0x3FF | (pmc->scratch180 >> 10 << 10)) & 0xFFE003FF) & 0x1FFFFF;
 // 	pmc->scratch181 = ((u16)(sdram->emc_pmacro_ddll_long_cmd_4) << 21) | sdram->emc_auto_cal_interval & 0x1FFFFF;
 // 	pmc->scratch182 = (sdram->mc_emem_arb_outstanding_req >> 31 << 31) | (2 * ((2 * sdram->mc_emem_arb_outstanding_req >> 31 << 30) | ((sdram->mc_emem_arb_outstanding_req << 23 >> 2) | ((sdram->emc_emem_arb_refpb_hp_ctrl << 9 >> 25 << 14) | ((sdram->emc_emem_arb_refpb_hp_ctrl << 17 >> 25 << 7) | (sdram->emc_emem_arb_refpb_hp_ctrl & 0x7F | (pmc->scratch182 >> 7 << 7)) & 0xFFFFC07F) & 0xFFE03FFF) & 0xC01FFFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->scratch183 = (4 * sdram->emc_pmacro_cmd_ctrl0 >> 31 << 31) | (2 * ((8 * sdram->emc_pmacro_cmd_ctrl0 >> 31 << 30) | ((sdram->emc_pmacro_cmd_ctrl0 << 7 >> 31 << 29) | ((sdram->emc_pmacro_cmd_ctrl0 << 10 >> 31 << 28) | ((sdram->emc_pmacro_cmd_ctrl0 << 11 >> 31 << 27) | ((sdram->emc_pmacro_cmd_ctrl0 << 15 >> 31 << 26) | ((sdram->emc_pmacro_cmd_ctrl0 << 18 >> 31 << 25) | ((sdram->emc_pmacro_cmd_ctrl0 << 19 >> 31 << 24) | ((sdram->emc_pmacro_cmd_ctrl0 << 23 >> 31 << 23) | ((sdram->emc_pmacro_cmd_ctrl0 << 26 >> 31 << 22) | ((sdram->emc_pmacro_cmd_ctrl0 << 27 >> 31 << 21) | ((sdram->emc_pmacro_cmd_ctrl0 << 20) & 0x1FFFFF | ((4 * sdram->emc_xm2_comp_pad_ctrl2 >> 26 << 14) | ((sdram->emc_xm2_comp_pad_ctrl2 << 10 >> 30 << 12) | ((sdram->emc_xm2_comp_pad_ctrl2 << 14 >> 31 << 11) | ((sdram->emc_xm2_comp_pad_ctrl2 << 15 >> 31 << 10) | ((sdram->emc_xm2_comp_pad_ctrl2 << 16 >> 30 << 8) | ((sdram->emc_xm2_comp_pad_ctrl2 << 18 >> 30 << 6) | (4 * (sdram->emc_xm2_comp_pad_ctrl2 << 26 >> 28) | (sdram->emc_xm2_comp_pad_ctrl2 & 3 | 4 * (pmc->scratch183 >> 2)) & 0xFFFFFFC3) & 0xFFFFFF3F) & 0xFFFFFCFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFCFFF) & 0xFFF03FFF) & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0xFEFFFFFF) & 0xFDFFFFFF) & 0xFBFFFFFF) & 0xF7FFFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->scratch184 = (4 * sdram->emc_pmacro_cmd_ctrl1 >> 31 << 31) | (2 * ((8 * sdram->emc_pmacro_cmd_ctrl1 >> 31 << 30) | ((sdram->emc_pmacro_cmd_ctrl1 << 7 >> 31 << 29) | ((sdram->emc_pmacro_cmd_ctrl1 << 10 >> 31 << 28) | ((sdram->emc_pmacro_cmd_ctrl1 << 11 >> 31 << 27) | ((sdram->emc_pmacro_cmd_ctrl1 << 15 >> 31 << 26) | ((sdram->emc_pmacro_cmd_ctrl1 << 18 >> 31 << 25) | ((sdram->emc_pmacro_cmd_ctrl1 << 19 >> 31 << 24) | ((sdram->emc_pmacro_cmd_ctrl1 << 23 >> 31 << 23) | ((sdram->emc_pmacro_cmd_ctrl1 << 26 >> 31 << 22) | ((sdram->emc_pmacro_cmd_ctrl1 << 27 >> 31 << 21) | ((sdram->emc_pmacro_cmd_ctrl1 << 20) & 0x1FFFFF | ((sdram->emc_cfg_dig_dll_1 << 12 >> 28 << 16) | ((sdram->emc_cfg_dig_dll_1 << 16 >> 28 << 12) | ((sdram->emc_cfg_dig_dll_1 << 20 >> 26 << 6) | (2 * (sdram->emc_cfg_dig_dll_1 << 26 >> 27) | (sdram->emc_cfg_dig_dll_1 & 1 | 2 * (pmc->scratch184 >> 1)) & 0xFFFFFFC1) & 0xFFFFF03F) & 0xFFFF0FFF) & 0xFFF0FFFF) & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0xFEFFFFFF) & 0xFDFFFFFF) & 0xFBFFFFFF) & 0xF7FFFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->scratch185 = (4 * sdram->emc_pmacro_cmd_ctrl2 >> 31 << 31) | (2 * ((8 * sdram->emc_pmacro_cmd_ctrl2 >> 31 << 30) | ((sdram->emc_pmacro_cmd_ctrl2 << 7 >> 31 << 29) | ((sdram->emc_pmacro_cmd_ctrl2 << 10 >> 31 << 28) | ((sdram->emc_pmacro_cmd_ctrl2 << 11 >> 31 << 27) | ((sdram->emc_pmacro_cmd_ctrl2 << 15 >> 31 << 26) | ((sdram->emc_pmacro_cmd_ctrl2 << 18 >> 31 << 25) | ((sdram->emc_pmacro_cmd_ctrl2 << 19 >> 31 << 24) | ((sdram->emc_pmacro_cmd_ctrl2 << 23 >> 31 << 23) | ((sdram->emc_pmacro_cmd_ctrl2 << 26 >> 31 << 22) | ((sdram->emc_pmacro_cmd_ctrl2 << 27 >> 31 << 21) | ((sdram->emc_pmacro_cmd_ctrl2 << 20) & 0x1FFFFF | ((sdram->emc_quse_brlshft0 << 12 >> 27 << 15) | ((sdram->emc_quse_brlshft0 << 17 >> 27 << 10) | (32 * (sdram->emc_quse_brlshft0 << 22 >> 27) | (sdram->emc_quse_brlshft0 & 0x1F | 32 * (pmc->scratch185 >> 5)) & 0xFFFFFC1F) & 0xFFFF83FF) & 0xFFF07FFF) & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0xFEFFFFFF) & 0xFDFFFFFF) & 0xFBFFFFFF) & 0xF7FFFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->scratch186 = (sdram->emc_pmacro_dsr_vttgen_ctrl0 >> 8 << 24) | ((sdram->emc_pmacro_dsr_vttgen_ctrl0 << 20) | ((sdram->emc_quse_brlshft1 << 12 >> 27 << 15) | ((sdram->emc_quse_brlshft1 << 17 >> 27 << 10) | (32 * (sdram->emc_quse_brlshft1 << 22 >> 27) | (sdram->emc_quse_brlshft1 & 0x1F | 32 * (pmc->scratch186 >> 5)) & 0xFFFFFC1F) & 0xFFFF83FF) & 0xFFF07FFF) & 0xFF0FFFFF) & 0xFFFFFF;
 // 	pmc->scratch187 = (sdram->emc_pmacro_perbit_rfu1_ctrl0 << 10 >> 30 << 30) | (4 * ((sdram->emc_pmacro_perbit_rfu1_ctrl0 << 12 >> 30 << 28) | ((sdram->emc_pmacro_perbit_rfu1_ctrl0 << 14 >> 30 << 26) | ((sdram->emc_pmacro_perbit_rfu1_ctrl0 << 26 >> 30 << 24) | ((sdram->emc_pmacro_perbit_rfu1_ctrl0 << 28 >> 30 << 22) | ((sdram->emc_pmacro_perbit_rfu1_ctrl0 << 20) & 0x3FFFFF | ((sdram->emc_quse_brlshft2 << 12 >> 27 << 15) | ((sdram->emc_quse_brlshft2 << 17 >> 27 << 10) | (32 * (sdram->emc_quse_brlshft2 << 22 >> 27) | (sdram->emc_quse_brlshft2 & 0x1F | 32 * (pmc->scratch187 >> 5)) & 0xFFFFFC1F) & 0xFFFF83FF) & 0xFFF07FFF) & 0xFFCFFFFF) & 0xFF3FFFFF) & 0xFCFFFFFF) & 0xF3FFFFFF) & 0xCFFFFFFF) >> 2);
 // 	pmc->scratch188 = (sdram->emc_pmacro_perbit_rfu1_ctrl1 << 10 >> 30 << 30) | (4 * ((sdram->emc_pmacro_perbit_rfu1_ctrl1 << 12 >> 30 << 28) | ((sdram->emc_pmacro_perbit_rfu1_ctrl1 << 14 >> 30 << 26) | ((sdram->emc_pmacro_perbit_rfu1_ctrl1 << 26 >> 30 << 24) | ((sdram->emc_pmacro_perbit_rfu1_ctrl1 << 28 >> 30 << 22) | ((sdram->emc_pmacro_perbit_rfu1_ctrl1 << 20) & 0x3FFFFF | ((sdram->emc_quse_brlshft3 << 12 >> 27 << 15) | ((sdram->emc_quse_brlshft3 << 17 >> 27 << 10) | (32 * (sdram->emc_quse_brlshft3 << 22 >> 27) | (sdram->emc_quse_brlshft3 & 0x1F | 32 * (pmc->scratch188 >> 5)) & 0xFFFFFC1F) & 0xFFFF83FF) & 0xFFF07FFF) & 0xFFCFFFFF) & 0xFF3FFFFF) & 0xFCFFFFFF) & 0xF3FFFFFF) & 0xCFFFFFFF) >> 2);
 // 	pmc->scratch189 = (sdram->emc_trefbw << 18) | ((sdram->emc_dbg >> 31 << 17) | ((2 * sdram->emc_dbg >> 31 << 16) | ((4 * sdram->emc_dbg >> 31 << 15) | ((8 * sdram->emc_dbg >> 31 << 14) | ((16 * sdram->emc_dbg >> 30 << 12) | ((sdram->emc_dbg << 6 >> 31 << 11) | ((sdram->emc_dbg << 7 >> 31 << 10) | ((sdram->emc_dbg << 18 >> 31 << 9) | ((sdram->emc_dbg << 19 >> 31 << 8) | ((sdram->emc_dbg << 20 >> 31 << 7) | ((sdram->emc_dbg << 21 >> 31 << 6) | (32 * (sdram->emc_dbg << 22 >> 31) | (16 * (sdram->emc_dbg << 27 >> 31) | (8 * (sdram->emc_dbg << 28 >> 31) | (4 * (sdram->emc_dbg << 29 >> 31) | (2 * (sdram->emc_dbg << 30 >> 31) | (sdram->emc_dbg & 1 | 2 * (pmc->scratch189 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFFBF) & 0xFFFFFF7F) & 0xFFFFFEFF) & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFCFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFFEFFFF) & 0xFFFDFFFF) & 0x3FFFF;
 // 	pmc->scratch191 = (sdram->emc_qpop << 9 >> 25 << 25) | ((sdram->emc_qpop << 18) | ((sdram->emc_zcal_wait_cnt >> 31 << 17) | ((sdram->emc_zcal_wait_cnt << 10 >> 26 << 11) | (sdram->emc_zcal_wait_cnt & 0x7FF | (pmc->scratch191 >> 11 << 11)) & 0xFFFE07FF) & 0xFFFDFFFF) & 0xFE03FFFF) & 0x1FFFFFF;
 // 	pmc->scratch192 = (sdram->emc_pmacro_tx_sel_clk_src4 << 6 >> 31 << 31) | (2 * ((sdram->emc_pmacro_auto_cal_common << 15 >> 31 << 30) | ((sdram->emc_pmacro_auto_cal_common << 18 >> 26 << 24) | ((sdram->emc_pmacro_auto_cal_common << 18) & 0xFFFFFF | ((sdram->emc_zcal_mrw_cmd >> 30 << 16) | ((sdram->emc_zcal_mrw_cmd << 8 >> 24 << 8) | (sdram->emc_zcal_mrw_cmd & 0xFF | (pmc->scratch192 >> 8 << 8)) & 0xFFFF00FF) & 0xFFFCFFFF) & 0xFF03FFFF) & 0xC0FFFFFF) & 0xBFFFFFFF) >> 1);
 // 	tmp = (sdram->emc_dll_cfg1 << 7 >> 31 << 17) | ((sdram->emc_dll_cfg1 << 10 >> 31 << 16) | ((sdram->emc_dll_cfg1 << 11 >> 31 << 15) | ((sdram->emc_dll_cfg1 << 14 >> 30 << 13) | ((sdram->emc_dll_cfg1 << 18 >> 31 << 12) | ((sdram->emc_dll_cfg1 << 19 >> 31 << 11) | ((pmc->scratch193 >> 11 << 11) | sdram->emc_dll_cfg1 & 0x7FF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFF9FFF) & 0xFFFF7FFF) & 0xFFFEFFFF) & 0xFFFDFFFF;
 // 	pmc->scratch193 = (sdram->emc_pmacro_tx_sel_clk_src5 << 31) | (2 * ((32 * sdram->emc_pmacro_tx_sel_clk_src4 >> 31 << 30) | ((sdram->emc_pmacro_perbit_rfu1_ctrl2 << 10 >> 30 << 28) | (((sdram->emc_pmacro_perbit_rfu1_ctrl2 << 14 >> 30 << 24) | ((sdram->emc_pmacro_perbit_rfu1_ctrl2 << 26 >> 30 << 22) | ((sdram->emc_pmacro_perbit_rfu1_ctrl2 << 28 >> 30 << 20) | ((sdram->emc_pmacro_perbit_rfu1_ctrl2 << 18) & 0xFFFFF | tmp & 0xFFF3FFFF) & 0xFFCFFFFF) & 0xFF3FFFFF) & 0xFCFFFFFF) & 0xF3FFFFFF | (sdram->emc_pmacro_perbit_rfu1_ctrl2 << 12 >> 30 << 26)) & 0xCFFFFFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->scratch194 = (sdram->emc_pmacro_tx_sel_clk_src5 << 29 >> 31 << 31) | (2 * ((sdram->emc_pmacro_tx_sel_clk_src5 << 30 >> 31 << 30) | ((sdram->emc_pmacro_perbit_rfu1_ctrl3 << 10 >> 30 << 28) | (((sdram->emc_pmacro_perbit_rfu1_ctrl3 << 14 >> 30 << 24) | (((sdram->emc_pmacro_perbit_rfu1_ctrl3 << 28 >> 30 << 20) | ((sdram->emc_pmacro_perbit_rfu1_ctrl3 << 18) & 0xFFFFF | ((sdram->emc_pmacro_cmd_brick_ctrl_fdpd << 14 >> 30 << 16) | ((sdram->emc_pmacro_cmd_brick_ctrl_fdpd << 16 >> 30 << 14) | ((sdram->emc_pmacro_cmd_brick_ctrl_fdpd << 18 >> 30 << 12) | ((sdram->emc_pmacro_cmd_brick_ctrl_fdpd << 20 >> 30 << 10) | ((sdram->emc_pmacro_cmd_brick_ctrl_fdpd << 22 >> 30 << 8) | ((sdram->emc_pmacro_cmd_brick_ctrl_fdpd << 24 >> 30 << 6) | (16 * (sdram->emc_pmacro_cmd_brick_ctrl_fdpd << 26 >> 30) | (4 * (sdram->emc_pmacro_cmd_brick_ctrl_fdpd << 28 >> 30) | (sdram->emc_pmacro_cmd_brick_ctrl_fdpd & 3 | 4 * (pmc->scratch194 >> 2)) & 0xFFFFFFF3) & 0xFFFFFFCF) & 0xFFFFFF3F) & 0xFFFFFCFF) & 0xFFFFF3FF) & 0xFFFFCFFF) & 0xFFFF3FFF) & 0xFFFCFFFF) & 0xFFF3FFFF) & 0xFFCFFFFF) & 0xFF3FFFFF | (sdram->emc_pmacro_perbit_rfu1_ctrl3 << 26 >> 30 << 22)) & 0xFCFFFFFF) & 0xF3FFFFFF | (sdram->emc_pmacro_perbit_rfu1_ctrl3 << 12 >> 30 << 26)) & 0xCFFFFFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->scratch195 = (sdram->emc_pmacro_tx_sel_clk_src5 << 27 >> 31 << 31) | (2 * ((sdram->emc_pmacro_tx_sel_clk_src5 << 28 >> 31 << 30) | ((sdram->emc_pmacro_perbit_rfu1_ctrl4 << 10 >> 30 << 28) | (((sdram->emc_pmacro_perbit_rfu1_ctrl4 << 14 >> 30 << 24) | ((sdram->emc_pmacro_perbit_rfu1_ctrl4 << 26 >> 30 << 22) | ((sdram->emc_pmacro_perbit_rfu1_ctrl4 << 28 >> 30 << 20) | ((sdram->emc_pmacro_perbit_rfu1_ctrl4 << 18) & 0xFFFFF | ((sdram->emc_pmacro_data_brick_ctrl_fdpd << 14 >> 30 << 16) | ((sdram->emc_pmacro_data_brick_ctrl_fdpd << 16 >> 30 << 14) | ((sdram->emc_pmacro_data_brick_ctrl_fdpd << 18 >> 30 << 12) | ((sdram->emc_pmacro_data_brick_ctrl_fdpd << 20 >> 30 << 10) | ((sdram->emc_pmacro_data_brick_ctrl_fdpd << 22 >> 30 << 8) | ((sdram->emc_pmacro_data_brick_ctrl_fdpd << 24 >> 30 << 6) | (16 * (sdram->emc_pmacro_data_brick_ctrl_fdpd << 26 >> 30) | (4 * (sdram->emc_pmacro_data_brick_ctrl_fdpd << 28 >> 30) | (sdram->emc_pmacro_data_brick_ctrl_fdpd & 3 | 4 * (pmc->scratch195 >> 2)) & 0xFFFFFFF3) & 0xFFFFFFCF) & 0xFFFFFF3F) & 0xFFFFFCFF) & 0xFFFFF3FF) & 0xFFFFCFFF) & 0xFFFF3FFF) & 0xFFFCFFFF) & 0xFFF3FFFF) & 0xFFCFFFFF) & 0xFF3FFFFF) & 0xFCFFFFFF) & 0xF3FFFFFF | (sdram->emc_pmacro_perbit_rfu1_ctrl4 << 12 >> 30 << 26)) & 0xCFFFFFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->scratch196 = (sdram->emc_emem_arb_refpb_bank_ctrl >> 31 << 31) | (2 * ((sdram->emc_emem_arb_refpb_bank_ctrl << 17 >> 25 << 24) | ((sdram->emc_emem_arb_refpb_bank_ctrl << 17) & 0xFFFFFF | ((sdram->emc_dyn_self_ref_control >> 31 << 16) | (sdram->emc_dyn_self_ref_control & 0xFFFF | (pmc->scratch196 >> 16 << 16)) & 0xFFFEFFFF) & 0xFF01FFFF) & 0x80FFFFFF) >> 1);
 // 	pmc->scratch197 = (sdram->emc_pmacro_tx_sel_clk_src5 << 24 >> 31 << 31) | (2 * ((sdram->emc_pmacro_tx_sel_clk_src5 << 25 >> 31 << 30) | ((sdram->emc_pmacro_tx_sel_clk_src5 << 26 >> 31 << 29) | ((sdram->emc_pmacro_perbit_rfu1_ctrl5 << 10 >> 30 << 27) | (((sdram->emc_pmacro_perbit_rfu1_ctrl5 << 14 >> 30 << 23) | ((sdram->emc_pmacro_perbit_rfu1_ctrl5 << 26 >> 30 << 21) | ((sdram->emc_pmacro_perbit_rfu1_ctrl5 << 28 >> 30 << 19) | ((sdram->emc_pmacro_perbit_rfu1_ctrl5 << 17) & 0x7FFFF | ((16 * sdram->emc_pmacro_cmd_pad_rx_ctrl >> 28 << 13) | ((sdram->emc_pmacro_cmd_pad_rx_ctrl << 8 >> 31 << 12) | ((sdram->emc_pmacro_cmd_pad_rx_ctrl << 9 >> 31 << 11) | ((sdram->emc_pmacro_cmd_pad_rx_ctrl << 10 >> 31 << 10) | ((sdram->emc_pmacro_cmd_pad_rx_ctrl << 12 >> 28 << 6) | (32 * (sdram->emc_pmacro_cmd_pad_rx_ctrl << 16 >> 31) | (16 * (sdram->emc_pmacro_cmd_pad_rx_ctrl << 19 >> 31) | (4 * (sdram->emc_pmacro_cmd_pad_rx_ctrl << 26 >> 30) | (sdram->emc_pmacro_cmd_pad_rx_ctrl & 3 | 4 * (pmc->scratch197 >> 2)) & 0xFFFFFFF3) & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFC3F) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFE1FFF) & 0xFFF9FFFF) & 0xFFE7FFFF) & 0xFF9FFFFF) & 0xFE7FFFFF) & 0xF9FFFFFF | (sdram->emc_pmacro_perbit_rfu1_ctrl5 << 12 >> 30 << 25)) & 0xE7FFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->scratch198 = (sdram->emc_pmacro_cmd_pad_tx_ctrl << 31) | (2 * ((32 * sdram->emc_pmacro_tx_sel_clk_src5 >> 31 << 30) | ((sdram->emc_pmacro_tx_sel_clk_src5 << 6 >> 31 << 29) | ((sdram->emc_pmacro_tx_sel_clk_src5 << 7 >> 31 << 28) | ((sdram->emc_pmacro_tx_sel_clk_src5 << 8 >> 31 << 27) | ((sdram->emc_pmacro_tx_sel_clk_src5 << 9 >> 31 << 26) | ((sdram->emc_pmacro_tx_sel_clk_src5 << 10 >> 31 << 25) | ((sdram->emc_pmacro_tx_sel_clk_src5 << 11 >> 31 << 24) | ((sdram->emc_pmacro_tx_sel_clk_src5 << 12 >> 31 << 23) | ((sdram->emc_pmacro_tx_sel_clk_src5 << 13 >> 31 << 22) | ((sdram->emc_pmacro_tx_sel_clk_src5 << 14 >> 31 << 21) | ((sdram->emc_pmacro_tx_sel_clk_src5 << 15 >> 31 << 20) | ((sdram->emc_pmacro_tx_sel_clk_src5 << 21 >> 31 << 19) | ((sdram->emc_pmacro_tx_sel_clk_src5 << 22 >> 31 << 18) | ((sdram->emc_pmacro_tx_sel_clk_src5 << 23 >> 31 << 17) | ((16 * sdram->emc_pmacro_data_pad_rx_ctrl >> 28 << 13) | ((sdram->emc_pmacro_data_pad_rx_ctrl << 8 >> 31 << 12) | ((sdram->emc_pmacro_data_pad_rx_ctrl << 9 >> 31 << 11) | ((sdram->emc_pmacro_data_pad_rx_ctrl << 10 >> 31 << 10) | ((sdram->emc_pmacro_data_pad_rx_ctrl << 12 >> 28 << 6) | (32 * (sdram->emc_pmacro_data_pad_rx_ctrl << 16 >> 31) | (16 * (sdram->emc_pmacro_data_pad_rx_ctrl << 19 >> 31) | (4 * (sdram->emc_pmacro_data_pad_rx_ctrl << 26 >> 30) | (sdram->emc_pmacro_data_pad_rx_ctrl & 3 | 4 * (pmc->scratch198 >> 2)) & 0xFFFFFFF3) & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFC3F) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFE1FFF) & 0xFFFDFFFF) & 0xFFFBFFFF) & 0xFFF7FFFF) & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0xFEFFFFFF) & 0xFDFFFFFF) & 0xFBFFFFFF) & 0xF7FFFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->scratch199 = (8 * sdram->emc_cmd_q >> 27 << 27) | ((sdram->emc_cmd_q << 17 >> 29 << 24) | ((sdram->emc_cmd_q << 21 >> 29 << 21) | ((sdram->emc_cmd_q << 16) & 0x1FFFFF | (((u16)(sdram->emc_refresh) << 16 >> 22 << 6) | (sdram->emc_refresh & 0x3F | (pmc->scratch199 >> 6 << 6)) & 0xFFFF003F) & 0xFFE0FFFF) & 0xFF1FFFFF) & 0xF8FFFFFF) & 0x7FFFFFF;
 // 	pmc->scratch210 = (sdram->emc_auto_cal_vref_sel1 << 16 >> 31 << 31) | (2 * ((sdram->emc_auto_cal_vref_sel1 << 17 >> 25 << 24) | ((sdram->emc_auto_cal_vref_sel1 << 24 >> 31 << 23) | ((sdram->emc_auto_cal_vref_sel1 << 16) & 0x7FFFFF | (sdram->emc_acpd_control & 0xFFFF | (pmc->scratch210 >> 16 << 16)) & 0xFF80FFFF) & 0xFF7FFFFF) & 0x80FFFFFF) >> 1);
 // 	tmp = 8 * (sdram->emc_pmacro_auto_cal_cfg0 << 28 >> 31) | (4 * (sdram->emc_pmacro_auto_cal_cfg0 << 29 >> 31) | (2 * (sdram->emc_pmacro_auto_cal_cfg0 << 30 >> 31) | (sdram->emc_pmacro_auto_cal_cfg0 & 1 | 2 * (pmc->scratch211 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7;
 // 	tmp = (sdram->emc_pmacro_auto_cal_cfg1 << 7 >> 31 << 28) | ((sdram->emc_pmacro_auto_cal_cfg1 << 12 >> 31 << 27) | ((sdram->emc_pmacro_auto_cal_cfg1 << 13 >> 31 << 26) | ((sdram->emc_pmacro_auto_cal_cfg1 << 14 >> 31 << 25) | ((sdram->emc_pmacro_auto_cal_cfg1 << 15 >> 31 << 24) | ((sdram->emc_pmacro_auto_cal_cfg1 << 20 >> 31 << 23) | ((sdram->emc_pmacro_auto_cal_cfg1 << 21 >> 31 << 22) | ((sdram->emc_pmacro_auto_cal_cfg1 << 22 >> 31 << 21) | ((sdram->emc_pmacro_auto_cal_cfg1 << 23 >> 31 << 20) | ((sdram->emc_pmacro_auto_cal_cfg1 << 28 >> 31 << 19) | ((sdram->emc_pmacro_auto_cal_cfg1 << 29 >> 31 << 18) | ((sdram->emc_pmacro_auto_cal_cfg1 << 30 >> 31 << 17) | ((sdram->emc_pmacro_auto_cal_cfg1 << 16) & 0x1FFFF | ((16 * sdram->emc_pmacro_auto_cal_cfg0 >> 31 << 15) | ((32 * sdram->emc_pmacro_auto_cal_cfg0 >> 31 << 14) | ((sdram->emc_pmacro_auto_cal_cfg0 << 6 >> 31 << 13) | ((sdram->emc_pmacro_auto_cal_cfg0 << 7 >> 31 << 12) | ((sdram->emc_pmacro_auto_cal_cfg0 << 12 >> 31 << 11) | ((sdram->emc_pmacro_auto_cal_cfg0 << 13 >> 31 << 10) | ((sdram->emc_pmacro_auto_cal_cfg0 << 14 >> 31 << 9) | ((sdram->emc_pmacro_auto_cal_cfg0 << 15 >> 31 << 8) | ((sdram->emc_pmacro_auto_cal_cfg0 << 20 >> 31 << 7) | ((sdram->emc_pmacro_auto_cal_cfg0 << 21 >> 31 << 6) | (32 * (sdram->emc_pmacro_auto_cal_cfg0 << 22 >> 31) | (16 * (sdram->emc_pmacro_auto_cal_cfg0 << 23 >> 31) | tmp & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFFBF) & 0xFFFFFF7F) & 0xFFFFFEFF) & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFFEFFFF) & 0xFFFDFFFF) & 0xFFFBFFFF) & 0xFFF7FFFF) & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0xFEFFFFFF) & 0xFDFFFFFF) & 0xFBFFFFFF) & 0xF7FFFFFF) & 0xEFFFFFFF;
 // 	pmc->scratch211 = (16 * sdram->emc_pmacro_auto_cal_cfg1 >> 31 << 31) | (2 * ((32 * sdram->emc_pmacro_auto_cal_cfg1 >> 31 << 30) | ((sdram->emc_pmacro_auto_cal_cfg1 << 6 >> 31 << 29) | tmp & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->scratch212 = (sdram->emc_xm2_comp_pad_ctrl3 << 8 >> 28 << 28) | ((sdram->emc_xm2_comp_pad_ctrl3 << 14 >> 31 << 27) | ((sdram->emc_xm2_comp_pad_ctrl3 << 15 >> 31 << 26) | ((sdram->emc_xm2_comp_pad_ctrl3 << 16 >> 30 << 24) | ((sdram->emc_xm2_comp_pad_ctrl3 << 18 >> 30 << 22) | ((sdram->emc_xm2_comp_pad_ctrl3 << 26 >> 28 << 18) | ((sdram->emc_xm2_comp_pad_ctrl3 << 16) & 0x3FFFF | ((16 * sdram->emc_pmacro_auto_cal_cfg2 >> 31 << 15) | ((32 * sdram->emc_pmacro_auto_cal_cfg2 >> 31 << 14) | ((sdram->emc_pmacro_auto_cal_cfg2 << 6 >> 31 << 13) | ((sdram->emc_pmacro_auto_cal_cfg2 << 7 >> 31 << 12) | ((sdram->emc_pmacro_auto_cal_cfg2 << 12 >> 31 << 11) | ((sdram->emc_pmacro_auto_cal_cfg2 << 13 >> 31 << 10) | ((sdram->emc_pmacro_auto_cal_cfg2 << 14 >> 31 << 9) | ((sdram->emc_pmacro_auto_cal_cfg2 << 15 >> 31 << 8) | ((sdram->emc_pmacro_auto_cal_cfg2 << 20 >> 31 << 7) | ((sdram->emc_pmacro_auto_cal_cfg2 << 21 >> 31 << 6) | (32 * (sdram->emc_pmacro_auto_cal_cfg2 << 22 >> 31) | (16 * (sdram->emc_pmacro_auto_cal_cfg2 << 23 >> 31) | (8 * (sdram->emc_pmacro_auto_cal_cfg2 << 28 >> 31) | (4 * (sdram->emc_pmacro_auto_cal_cfg2 << 29 >> 31) | (2 * (sdram->emc_pmacro_auto_cal_cfg2 << 30 >> 31) | (sdram->emc_pmacro_auto_cal_cfg2 & 1 | 2 * (pmc->scratch212 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFFBF) & 0xFFFFFF7F) & 0xFFFFFEFF) & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFFCFFFF) & 0xFFC3FFFF) & 0xFF3FFFFF) & 0xFCFFFFFF) & 0xFBFFFFFF) & 0xF7FFFFFF) & 0xFFFFFFF;
 // 	pmc->scratch213 = ((u16)(sdram->emc_prerefresh_req_cnt) << 16) | (u16)(sdram->emc_cfg_dig_dll_period);
 // 	pmc->scratch214 = (sdram->emc_pmacro_data_pi_ctrl << 10 >> 26 << 26) | ((sdram->emc_pmacro_data_pi_ctrl << 19 >> 31 << 25) | ((sdram->emc_pmacro_data_pi_ctrl << 20 >> 28 << 21) | ((sdram->emc_pmacro_data_pi_ctrl << 27 >> 31 << 20) | ((sdram->emc_pmacro_data_pi_ctrl << 16) & 0xFFFFF | ((sdram->emc_pmacro_ddll_bypass >> 31 << 15) | ((2 * sdram->emc_pmacro_ddll_bypass >> 31 << 14) | ((4 * sdram->emc_pmacro_ddll_bypass >> 31 << 13) | ((16 * sdram->emc_pmacro_ddll_bypass >> 31 << 12) | ((32 * sdram->emc_pmacro_ddll_bypass >> 31 << 11) | ((sdram->emc_pmacro_ddll_bypass << 6 >> 31 << 10) | ((sdram->emc_pmacro_ddll_bypass << 7 >> 31 << 9) | ((sdram->emc_pmacro_ddll_bypass << 15 >> 31 << 8) | ((sdram->emc_pmacro_ddll_bypass << 16 >> 31 << 7) | ((sdram->emc_pmacro_ddll_bypass << 17 >> 31 << 6) | (32 * (sdram->emc_pmacro_ddll_bypass << 18 >> 31) | (16 * (sdram->emc_pmacro_ddll_bypass << 20 >> 31) | (8 * (sdram->emc_pmacro_ddll_bypass << 21 >> 31) | (4 * (sdram->emc_pmacro_ddll_bypass << 22 >> 31) | (2 * (sdram->emc_pmacro_ddll_bypass << 23 >> 31) | (sdram->emc_pmacro_ddll_bypass & 1 | 2 * (pmc->scratch214 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFFBF) & 0xFFFFFF7F) & 0xFFFFFEFF) & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFF0FFFF) & 0xFFEFFFFF) & 0xFE1FFFFF) & 0xFDFFFFFF) & 0x3FFFFFF;
 // 	pmc->scratch215 = (sdram->emc_pmacro_cmd_pi_ctrl << 10 >> 26 << 10) | ((sdram->emc_pmacro_cmd_pi_ctrl << 19 >> 31 << 9) | (32 * (sdram->emc_pmacro_cmd_pi_ctrl << 20 >> 28) | (16 * (sdram->emc_pmacro_cmd_pi_ctrl << 27 >> 31) | (sdram->emc_pmacro_cmd_pi_ctrl & 0xF | 16 * (pmc->scratch215 >> 4)) & 0xFFFFFFEF) & 0xFFFFFE1F) & 0xFFFFFDFF) & 0xFFFF03FF;
 // 	tmp = (sdram->emc_pmacro_data_pad_tx_ctrl << 7 >> 31 << 24) | ((sdram->emc_pmacro_data_pad_tx_ctrl << 8 >> 31 << 23) | ((sdram->emc_pmacro_data_pad_tx_ctrl << 9 >> 31 << 22) | ((sdram->emc_pmacro_data_pad_tx_ctrl << 10 >> 31 << 21) | ((sdram->emc_pmacro_data_pad_tx_ctrl << 15 >> 31 << 20) | ((sdram->emc_pmacro_data_pad_tx_ctrl << 16 >> 31 << 19) | ((sdram->emc_pmacro_data_pad_tx_ctrl << 21 >> 31 << 18) | ((sdram->emc_pmacro_data_pad_tx_ctrl << 25 >> 31 << 17) | ((sdram->emc_pmacro_data_pad_tx_ctrl << 26 >> 31 << 16) | ((sdram->emc_pmacro_data_pad_tx_ctrl << 15) & 0xFFFF | ((2 * sdram->emc_pmacro_cmd_pad_tx_ctrl >> 31 << 14) | ((4 * sdram->emc_pmacro_cmd_pad_tx_ctrl >> 31 << 13) | ((8 * sdram->emc_pmacro_cmd_pad_tx_ctrl >> 31 << 12) | ((16 * sdram->emc_pmacro_cmd_pad_tx_ctrl >> 31 << 11) | ((32 * sdram->emc_pmacro_cmd_pad_tx_ctrl >> 31 << 10) | ((sdram->emc_pmacro_cmd_pad_tx_ctrl << 6 >> 31 << 9) | ((sdram->emc_pmacro_cmd_pad_tx_ctrl << 7 >> 31 << 8) | ((sdram->emc_pmacro_cmd_pad_tx_ctrl << 8 >> 31 << 7) | ((sdram->emc_pmacro_cmd_pad_tx_ctrl << 9 >> 31 << 6) | (32 * (sdram->emc_pmacro_cmd_pad_tx_ctrl << 10 >> 31) | (16 * (sdram->emc_pmacro_cmd_pad_tx_ctrl << 15 >> 31) | (8 * (sdram->emc_pmacro_cmd_pad_tx_ctrl << 16 >> 31) | (4 * (sdram->emc_pmacro_cmd_pad_tx_ctrl << 21 >> 31) | (2 * (sdram->emc_pmacro_cmd_pad_tx_ctrl << 25 >> 31) | ((sdram->emc_pmacro_cmd_pad_tx_ctrl << 26 >> 31) | 2 * (pmc->scratch216 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFFFEF) & 0xFFFFFFDF) & 0xFFFFFFBF) & 0xFFFFFF7F) & 0xFFFFFEFF) & 0xFFFFFDFF) & 0xFFFFFBFF) & 0xFFFFF7FF) & 0xFFFFEFFF) & 0xFFFFDFFF) & 0xFFFFBFFF) & 0xFFFF7FFF) & 0xFFFEFFFF) & 0xFFFDFFFF) & 0xFFFBFFFF) & 0xFFF7FFFF) & 0xFFEFFFFF) & 0xFFDFFFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0xFEFFFFFF;
-// 	s(emc_pin_gpio, 1:0, scratch9, 31:30);
+	s32(mc_generalized_carveout1_access0, secure_scratch59);
-// 	s(emc_pin_gpio_enable, 1:0, scratch10, 31:30);
+	s32(mc_generalized_carveout1_access1, secure_scratch60);
-// 	s(emc_dev_select, 1:0, scratch11, 31:30);
+	s32(mc_generalized_carveout1_access2, secure_scratch61);
-// 	s(emc_zcal_warm_cold_boot_enables, 1:0, scratch12, 31:30);
+	s32(mc_generalized_carveout1_access3, secure_scratch62);
-// 	s(emc_cfg_dig_dll_period_warm_boot, 1:0, scratch13, 31:30);
+	s32(mc_generalized_carveout1_access4, secure_scratch63);
-// 	s32(emc_bct_spare13, scratch45);
+	s32(mc_generalized_carveout2_access0, secure_scratch64);
-// 	s32(emc_bct_spare12, scratch46);
+	s32(mc_generalized_carveout2_access1, secure_scratch65);
-// 	s32(emc_bct_spare7, scratch47);
+	s32(mc_generalized_carveout2_access2, secure_scratch66);
-// 	s32(emc_bct_spare6, scratch48);
+	s32(mc_generalized_carveout2_access3, secure_scratch67);
-// 	s32(emc_bct_spare5, scratch50);
+	s32(mc_generalized_carveout2_access4, secure_scratch68);
-// 	s32(emc_bct_spare4, scratch51);
+	s32(mc_generalized_carveout3_access0, secure_scratch69);
-// 	s32(emc_bct_spare3, scratch56);
+	s32(mc_generalized_carveout3_access1, secure_scratch70);
-// 	s32(emc_bct_spare2, scratch57);
+	s32(mc_generalized_carveout3_access2, secure_scratch71);
-// 	s32(emc_bct_spare1, scratch58);
+	s32(mc_generalized_carveout3_access3, secure_scratch72);
-// 	s32(emc_bct_spare0, scratch59);
+	s32(mc_generalized_carveout3_access4, secure_scratch73);
-// 	s32(emc_bct_spare9, scratch60);
+	s32(mc_generalized_carveout4_access0, secure_scratch74);
-// 	s32(emc_bct_spare8, scratch61);
+	s32(mc_generalized_carveout4_access1, secure_scratch75);
-// 	s32(boot_rom_patch_data, scratch62);
+	s32(mc_generalized_carveout4_access2, secure_scratch76);
-// 	s32(boot_rom_patch_control, scratch63);
+	s32(mc_generalized_carveout4_access3, secure_scratch77);
-// 	s(mc_clken_override_allwarm_boot, 0:0, scratch65, 31:31);
+	s32(mc_generalized_carveout4_access4, secure_scratch78);
-// 	pmc->scratch66 = pmc->scratch66 & 0x1FFFFFFF | ((u8)(sdram->emc_extra_refresh_num) << 29);
+	s32(mc_generalized_carveout5_access0, secure_scratch79);
-// 	pmc->scratch72 = pmc->scratch72 & 0x8FFFFFFF | ((u16)(sdram->pmc_io_dpd3_req_wait) << 28) & 0x70000000;
+	s32(mc_generalized_carveout5_access1, secure_scratch80);
-// 	pmc->scratch72 = ((2 * pmc->scratch72) >> 1) | ((u16)(sdram->emc_clken_override_allwarm_boot) << 31);
+	s32(mc_generalized_carveout5_access2, secure_scratch81);
-// 	pmc->scratch73 = pmc->scratch73 & 0x8FFFFFFF | ((u8)(sdram->memory_type) << 28) & 0x70000000;
+	s32(mc_generalized_carveout5_access3, secure_scratch82);
-// 	pmc->scratch73 = ((2 * pmc->scratch73) >> 1) | (sdram->emc_mrs_warm_boot_enable << 31);
+	s32(mc_generalized_carveout1_force_internal_access0, secure_scratch84);
-// 	pmc->scratch74 = pmc->scratch74 & 0x8FFFFFFF | (sdram->pmc_io_dpd4_req_wait << 28) & 0x70000000;
+	s32(mc_generalized_carveout1_force_internal_access1, secure_scratch85);
-// 	pmc->scratch74 = ((2 * pmc->scratch74) >> 1) | (sdram->clear_clock2_mc1 << 31);
+	s32(mc_generalized_carveout1_force_internal_access2, secure_scratch86);
-// 	pmc->scratch75 = pmc->scratch75 & 0xEFFFFFFF | (sdram->emc_warm_boot_extramode_reg_write_enable << 28) & 0x10000000;
+	s32(mc_generalized_carveout1_force_internal_access3, secure_scratch87);
-// 	pmc->scratch75 = pmc->scratch75 & 0xDFFFFFFF | (sdram->clk_rst_pllm_misc20_override_enable << 29) & 0x20000000;
+	s32(mc_generalized_carveout1_force_internal_access4, secure_scratch88);
-// 	pmc->scratch75 = pmc->scratch75 & 0xBFFFFFFF | ((u16)(sdram->emc_dbg_write_mux) << 30) & 0x40000000;
+	s32(mc_generalized_carveout2_force_internal_access0, secure_scratch89);
-// 	pmc->scratch75 = ((2 * pmc->scratch75) >> 1) | ((u16)(sdram->ahb_arbitration_xbar_ctrl_meminit_done) << 31);
+	s32(mc_generalized_carveout2_force_internal_access1, secure_scratch90);
-// 	pmc->scratch90 = pmc->scratch90 & 0xFFFFFF | (sdram->emc_timing_control_wait << 24);
+	s32(mc_generalized_carveout2_force_internal_access2, secure_scratch91);
-// 	pmc->scratch91 = pmc->scratch91 & 0xFFFFFF | (sdram->emc_zcal_warm_boot_wait << 24);
+	s32(mc_generalized_carveout2_force_internal_access3, secure_scratch92);
-// 	pmc->scratch92 = pmc->scratch92 & 0xFFFFFF | (sdram->warm_boot_wait << 24);
+	s32(mc_generalized_carveout2_force_internal_access4, secure_scratch93);
-// 	pmc->scratch93 = pmc->scratch93 & 0xFFFFFF | ((u16)(sdram->emc_pin_program_wait) << 24);
+	s32(mc_generalized_carveout3_force_internal_access0, secure_scratch94);
-// 	pmc->scratch114 = pmc->scratch114 & 0x3FFFFF | ((u16)(sdram->emc_auto_cal_wait) << 22);
+	s32(mc_generalized_carveout3_force_internal_access1, secure_scratch95);
-// 	pmc->scratch215 = (u16)pmc->scratch215 | ((u16)(sdram->swizzle_rank_byte_encode) << 16);
+	s32(mc_generalized_carveout3_force_internal_access2, secure_scratch96);
-// 	pmc->scratch216 = (2 * sdram->emc_pmacro_data_pad_tx_ctrl >> 31 << 30) | ((4 * sdram->emc_pmacro_data_pad_tx_ctrl >> 31 << 29) | ((8 * sdram->emc_pmacro_data_pad_tx_ctrl >> 31 << 28) | ((16 * sdram->emc_pmacro_data_pad_tx_ctrl >> 31 << 27) | ((32 * sdram->emc_pmacro_data_pad_tx_ctrl >> 31 << 26) | ((sdram->emc_pmacro_data_pad_tx_ctrl << 6 >> 31 << 25) | tmp & 0xFDFFFFFF) & 0xFBFFFFFF) & 0xF7FFFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF;
+	s32(mc_generalized_carveout3_force_internal_access3, secure_scratch97);
-// 	s(emc_mrw_lpddr2zcal_warm_boot, 23:16, scratch5, 7:0);
+	s32(mc_generalized_carveout3_force_internal_access4, secure_scratch98);
-// 	s(emc_mrw_lpddr2zcal_warm_boot, 7:0, scratch5, 15:8);
+	s32(mc_generalized_carveout4_force_internal_access0, secure_scratch99);
-// 	s(emc_warm_boot_mrw_extra, 23:16, scratch5, 23:16);
+	s32(mc_generalized_carveout4_force_internal_access1, secure_scratch100);
-// 	s(emc_warm_boot_mrw_extra, 7:0, scratch5, 31:24);
+	s32(mc_generalized_carveout4_force_internal_access2, secure_scratch101);
-// 	s(emc_mrw_lpddr2zcal_warm_boot, 31:30, scratch6, 1:0);
+	s32(mc_generalized_carveout4_force_internal_access3, secure_scratch102);
-// 	s(emc_warm_boot_mrw_extra, 31:30, scratch6, 3:2);
+	s32(mc_generalized_carveout4_force_internal_access4, secure_scratch103);
-// 	s(emc_mrw_lpddr2zcal_warm_boot, 27:26, scratch6, 5:4);
+	s32(mc_generalized_carveout5_force_internal_access0, secure_scratch104);
-// 	s(emc_warm_boot_mrw_extra, 27:26, scratch6, 7:6);
+	s32(mc_generalized_carveout5_force_internal_access1, secure_scratch105);
-// 	s(EmcMrw6, 27:0, scratch8, 27:0);
+	s32(mc_generalized_carveout5_force_internal_access2, secure_scratch106);
-// 	s(EmcMrw6, 31:30, scratch8, 29:28);
+	s32(mc_generalized_carveout5_force_internal_access3, secure_scratch107);
 // 	s(EmcMrw8, 27:0, scratch9, 27:0);
 // 	s(EmcMrw8, 31:30, scratch9, 29:28);
 // 	s(EmcMrw9, 27:0, scratch10, 27:0);
 // 	s(EmcMrw9, 31:30, scratch10, 29:28);
 // 	s(EmcMrw10, 27:0, scratch11, 27:0);
 // 	s(EmcMrw10, 31:30, scratch11, 29:28);
 // 	s(EmcMrw12, 27:0, scratch12, 27:0);
 // 	s(EmcMrw12, 31:30, scratch12, 29:28);
 // 	s(EmcMrw13, 27:0, scratch13, 27:0);
 // 	s(EmcMrw13, 31:30, scratch13, 29:28);
 // 	s(EmcMrw14, 27:0, scratch14, 27:0);
 // 	s(EmcMrw14, 31:30, scratch14, 29:28);
 // 	s(EmcMrw1, 7:0, scratch15, 7:0);
 // 	s(EmcMrw1, 23:16, scratch15, 15:8);
 // 	s(EmcMrw1, 27:26, scratch15, 17:16);
 // 	s(EmcMrw1, 31:30, scratch15, 19:18);
 // 	s(emc_warm_boot_mrw_extra, 7:0, scratch16, 7:0);
 // 	s(emc_warm_boot_mrw_extra, 23:16, scratch16, 15:8);
 // 	s(emc_warm_boot_mrw_extra, 27:26, scratch16, 17:16);
 // 	s(emc_warm_boot_mrw_extra, 31:30, scratch16, 19:18);
 // 	s(emc_mrw2, 7:0, scratch17, 7:0);
 // 	s(emc_mrw2, 23:16, scratch17, 15:8);
 // 	s(emc_mrw2, 27:26, scratch17, 17:16);
 // 	s(emc_mrw2, 31:30, scratch17, 19:18);
 // 	pmc->scratch18 = (sdram->emc_mrw3 >> 30 << 18) | ((16 * sdram->emc_mrw3 >> 31 << 17) | ((32 * sdram->emc_mrw3 >> 31 << 16) | ((sdram->emc_mrw3 << 8 >> 24 << 8) | ((u8)sdram->emc_mrw3 | (pmc->scratch18 >> 8 << 8)) & 0xFFFF00FF) & 0xFFFEFFFF) & 0xFFFDFFFF) & 0xFFF3FFFF;
 // 	pmc->scratch19 = (sdram->emc_mrw4 >> 30 << 18) | ((16 * sdram->emc_mrw4 >> 31 << 17) | ((32 * sdram->emc_mrw4 >> 31 << 16) | ((sdram->emc_mrw4 << 8 >> 24 << 8) | ((u8)sdram->emc_mrw4 | (pmc->scratch19 >> 8 << 8)) & 0xFFFF00FF) & 0xFFFEFFFF) & 0xFFFDFFFF) & 0xFFF3FFFF;
 // 	s32(emc_cmd_mapping_byte, secure_scratch8);
 // 	s32(emc_pmacro_brick_mapping0, secure_scratch9);
 // 	s32(emc_pmacro_brick_mapping1, secure_scratch10);
 // 	s32(emc_pmacro_brick_mapping2, secure_scratch11);
 // 	s32(mc_video_protect_gpu_override0, secure_scratch12);
 // 	pmc->secure_scratch13 = ((u16)(sdram->emc_adr_cfg) << 31) | (2 * ((((u16)(sdram->mc_untranslated_region_check) << 22) >> 31 << 30) | ((((u16)(sdram->mc_untranslated_region_check) << 23) >> 31 << 29) | (((u16)(sdram->mc_untranslated_region_check) << 28) & 0x1FFFFFFF | ((2 * sdram->emc_cmd_mapping_cmd0_0 >> 25 << 21) | ((sdram->emc_cmd_mapping_cmd0_0 << 9 >> 25 << 14) | ((sdram->emc_cmd_mapping_cmd0_0 << 17 >> 25 << 7) | (sdram->emc_cmd_mapping_cmd0_0 & 0x7F | (pmc->secure_scratch13 >> 7 << 7)) & 0xFFFFC07F) & 0xFFE03FFF) & 0xF01FFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->secure_scratch14 = (sdram->mc_video_protect_write_access << 30 >> 31 << 31) | (2 * ((sdram->mc_video_protect_write_access << 30) | ((sdram->mc_video_protect_bom_adr_hi << 30 >> 2) | ((2 * sdram->emc_cmd_mapping_cmd0_1 >> 25 << 21) | ((sdram->emc_cmd_mapping_cmd0_1 << 9 >> 25 << 14) | ((sdram->emc_cmd_mapping_cmd0_1 << 17 >> 25 << 7) | (sdram->emc_cmd_mapping_cmd0_1 & 0x7F | (pmc->secure_scratch14 >> 7 << 7)) & 0xFFFFC07F) & 0xFFE03FFF) & 0xF01FFFFF) & 0xCFFFFFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->secure_scratch15 = ((u16)(sdram->mc_mts_carveout_adr_hi) << 30) | (4 * ((sdram->mc_sec_carveout_adr_hi << 28) | ((2 * sdram->emc_cmd_mapping_cmd1_0 >> 25 << 21) | ((sdram->emc_cmd_mapping_cmd1_0 << 9 >> 25 << 14) | ((sdram->emc_cmd_mapping_cmd1_0 << 17 >> 25 << 7) | (sdram->emc_cmd_mapping_cmd1_0 & 0x7F | (pmc->secure_scratch15 >> 7 << 7)) & 0xFFFFC07F) & 0xFFE03FFF) & 0xF01FFFFF) & 0xCFFFFFFF) >> 2);
 // 	pmc->secure_scratch16 = (sdram->mc_generalized_carveout3_bom_hi << 30) | (4 * ((sdram->mc_generalized_carveout5_bom_hi << 28) | ((2 * sdram->emc_cmd_mapping_cmd1_1 >> 25 << 21) | ((sdram->emc_cmd_mapping_cmd1_1 << 9 >> 25 << 14) | ((sdram->emc_cmd_mapping_cmd1_1 << 17 >> 25 << 7) | (sdram->emc_cmd_mapping_cmd1_1 & 0x7F | (pmc->secure_scratch16 >> 7 << 7)) & 0xFFFFC07F) & 0xFFE03FFF) & 0xF01FFFFF) & 0xCFFFFFFF) >> 2);
 // 	pmc->secure_scratch17 = ((u16)(sdram->mc_generalized_carveout4_bom_hi) << 30) | (4 * (((u16)(sdram->mc_generalized_carveout2_bom_hi) << 28) | ((2 * sdram->emc_cmd_mapping_cmd2_0 >> 25 << 21) | ((sdram->emc_cmd_mapping_cmd2_0 << 9 >> 25 << 14) | ((sdram->emc_cmd_mapping_cmd2_0 << 17 >> 25 << 7) | (sdram->emc_cmd_mapping_cmd2_0 & 0x7F | (pmc->secure_scratch17 >> 7 << 7)) & 0xFFFFC07F) & 0xFFE03FFF) & 0xF01FFFFF) & 0xCFFFFFFF) >> 2);
 // 	pmc->secure_scratch18 = (sdram->emc_fbio_cfg8 << 16 >> 31 << 31) | (2 * (((u16)(sdram->emc_fbio_spare) << 30 >> 31 << 30) | ((sdram->mc_generalized_carveout1_bom_hi << 30 >> 2) | ((2 * sdram->emc_cmd_mapping_cmd2_1 >> 25 << 21) | ((sdram->emc_cmd_mapping_cmd2_1 << 9 >> 25 << 14) | ((sdram->emc_cmd_mapping_cmd2_1 << 17 >> 25 << 7) | (sdram->emc_cmd_mapping_cmd2_1 & 0x7F | (pmc->secure_scratch18 >> 7 << 7)) & 0xFFFFC07F) & 0xFFE03FFF) & 0xF01FFFFF) & 0xCFFFFFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->secure_scratch19 = (sdram->mc_video_protect_vpr_override << 31) | (2 * (((u16)(sdram->mc_mts_carveout_reg_ctrl) << 30) | ((sdram->mc_sec_carveout_protect_write_access << 31 >> 2) | (((u16)(sdram->mc_emem_adr_cfg) << 28) & 0x1FFFFFFF | ((2 * sdram->emc_cmd_mapping_cmd3_0 >> 25 << 21) | ((sdram->emc_cmd_mapping_cmd3_0 << 9 >> 25 << 14) | ((sdram->emc_cmd_mapping_cmd3_0 << 17 >> 25 << 7) | (sdram->emc_cmd_mapping_cmd3_0 & 0x7F | (pmc->secure_scratch19 >> 7 << 7)) & 0xFFFFC07F) & 0xFFE03FFF) & 0xF01FFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->secure_scratch20 = (sdram->mc_generalized_carveout2_cfg0 << 25 >> 28 << 28) | ((2 * sdram->emc_cmd_mapping_cmd3_1 >> 25 << 21) | ((sdram->emc_cmd_mapping_cmd3_1 << 9 >> 25 << 14) | ((sdram->emc_cmd_mapping_cmd3_1 << 17 >> 25 << 7) | (sdram->emc_cmd_mapping_cmd3_1 & 0x7F | (pmc->secure_scratch20 >> 7 << 7)) & 0xFFFFC07F) & 0xFFE03FFF) & 0xF01FFFFF) & 0xFFFFFFF;
 // 	pmc->secure_scratch39 = (sdram->mc_video_protect_vpr_override << 30 >> 31 << 31) | (2 * ((sdram->mc_generalized_carveout2_cfg0 << 21 >> 28 << 27) | ((32 * sdram->mc_generalized_carveout4_cfg0 >> 31 << 26) | ((sdram->mc_generalized_carveout4_cfg0 << 6 >> 31 << 25) | ((sdram->mc_generalized_carveout4_cfg0 << 7 >> 31 << 24) | ((sdram->mc_generalized_carveout4_cfg0 << 8 >> 31 << 23) | ((sdram->mc_generalized_carveout4_cfg0 << 9 >> 31 << 22) | ((sdram->mc_generalized_carveout4_cfg0 << 10 >> 28 << 18) | ((sdram->mc_generalized_carveout4_cfg0 << 14 >> 28 << 14) | ((sdram->mc_generalized_carveout4_cfg0 << 18 >> 29 << 11) | ((sdram->mc_generalized_carveout4_cfg0 << 21 >> 28 << 7) | (8 * (sdram->mc_generalized_carveout4_cfg0 << 25 >> 28) | (4 * (sdram->mc_generalized_carveout4_cfg0 << 29 >> 31) | (2 * (sdram->mc_generalized_carveout4_cfg0 << 30 >> 31) | (sdram->mc_generalized_carveout4_cfg0 & 1 | 2 * (pmc->secure_scratch39 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFF87) & 0xFFFFF87F) & 0xFFFFC7FF) & 0xFFFC3FFF) & 0xFFC3FFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0xFEFFFFFF) & 0xFDFFFFFF) & 0xFBFFFFFF) & 0x87FFFFFF) >> 1);
 // 	pmc->secure_scratch40 = (sdram->mc_video_protect_vpr_override << 29 >> 31 << 31) | (2 * ((sdram->mc_generalized_carveout2_cfg0 << 14 >> 28 << 27) | ((32 * sdram->mc_generalized_carveout5_cfg0 >> 31 << 26) | ((sdram->mc_generalized_carveout5_cfg0 << 6 >> 31 << 25) | ((sdram->mc_generalized_carveout5_cfg0 << 7 >> 31 << 24) | ((sdram->mc_generalized_carveout5_cfg0 << 8 >> 31 << 23) | ((sdram->mc_generalized_carveout5_cfg0 << 9 >> 31 << 22) | ((sdram->mc_generalized_carveout5_cfg0 << 10 >> 28 << 18) | ((sdram->mc_generalized_carveout5_cfg0 << 14 >> 28 << 14) | ((sdram->mc_generalized_carveout5_cfg0 << 18 >> 29 << 11) | ((sdram->mc_generalized_carveout5_cfg0 << 21 >> 28 << 7) | (8 * (sdram->mc_generalized_carveout5_cfg0 << 25 >> 28) | (4 * (sdram->mc_generalized_carveout5_cfg0 << 29 >> 31) | (2 * (sdram->mc_generalized_carveout5_cfg0 << 30 >> 31) | (sdram->mc_generalized_carveout5_cfg0 & 1 | 2 * (pmc->secure_scratch40 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFF87) & 0xFFFFF87F) & 0xFFFFC7FF) & 0xFFFC3FFF) & 0xFFC3FFFF) & 0xFFBFFFFF) & 0xFF7FFFFF) & 0xFEFFFFFF) & 0xFDFFFFFF) & 0xFBFFFFFF) & 0x87FFFFFF) >> 1);
 // 	pmc->secure_scratch41 = (sdram->mc_generalized_carveout2_cfg0 << 18 >> 29 << 29) | ((sdram->mc_generalized_carveout2_cfg0 << 10 >> 28 << 25) | ((16 * sdram->emc_cmd_mapping_cmd0_2 >> 28 << 21) | ((sdram->emc_cmd_mapping_cmd0_2 << 9 >> 25 << 14) | ((sdram->emc_cmd_mapping_cmd0_2 << 17 >> 25 << 7) | (sdram->emc_cmd_mapping_cmd0_2 & 0x7F | (pmc->secure_scratch41 >> 7 << 7)) & 0xFFFFC07F) & 0xFFE03FFF) & 0xFE1FFFFF) & 0xE1FFFFFF) & 0x1FFFFFFF;
 // 	pmc->secure_scratch42 = ((u16)(sdram->mc_generalized_carveout1_cfg0) << 18 >> 29 << 29) | (((u16)(sdram->mc_generalized_carveout1_cfg0) << 25 >> 28 << 25) | ((16 * sdram->emc_cmd_mapping_cmd1_2 >> 28 << 21) | ((sdram->emc_cmd_mapping_cmd1_2 << 9 >> 25 << 14) | ((sdram->emc_cmd_mapping_cmd1_2 << 17 >> 25 << 7) | (sdram->emc_cmd_mapping_cmd1_2 & 0x7F | (pmc->secure_scratch42 >> 7 << 7)) & 0xFFFFC07F) & 0xFFE03FFF) & 0xFE1FFFFF) & 0xE1FFFFFF) & 0x1FFFFFFF;
 // 	pmc->secure_scratch43 = ((u16)(sdram->mc_generalized_carveout3_cfg0) << 18 >> 29 << 29) | (((u16)(sdram->mc_generalized_carveout1_cfg0) << 21 >> 28 << 25) | ((16 * sdram->emc_cmd_mapping_cmd2_2 >> 28 << 21) | ((sdram->emc_cmd_mapping_cmd2_2 << 9 >> 25 << 14) | ((sdram->emc_cmd_mapping_cmd2_2 << 17 >> 25 << 7) | (sdram->emc_cmd_mapping_cmd2_2 & 0x7F | (pmc->secure_scratch43 >> 7 << 7)) & 0xFFFFC07F) & 0xFFE03FFF) & 0xFE1FFFFF) & 0xE1FFFFFF) & 0x1FFFFFFF;
 // 	pmc->secure_scratch44 = (sdram->mc_video_protect_vpr_override << 24 >> 31 << 31) | (2 * ((sdram->mc_video_protect_vpr_override << 25 >> 31 << 30) | ((sdram->mc_video_protect_vpr_override << 28 >> 31 << 29) | ((sdram->mc_generalized_carveout1_cfg0 << 14 >> 28 << 25) | ((16 * sdram->emc_cmd_mapping_cmd3_2 >> 28 << 21) | ((sdram->emc_cmd_mapping_cmd3_2 << 9 >> 25 << 14) | ((sdram->emc_cmd_mapping_cmd3_2 << 17 >> 25 << 7) | (sdram->emc_cmd_mapping_cmd3_2 & 0x7F | (pmc->secure_scratch44 >> 7 << 7)) & 0xFFFFC07F) & 0xFFE03FFF) & 0xFE1FFFFF) & 0xE1FFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 // 	s(mc_emem_adr_cfg_channel_mask, 31:9, secure_scratch45, 22:0);
 // 	s(mc_emem_adr_cfg_dev0, 2:0, secure_scratch45, 25:23);
 // 	s(mc_emem_adr_cfg_dev0, 9:8, secure_scratch45, 27:26);
 // 	s(mc_emem_adr_cfg_dev0, 19:16, secure_scratch45, 31:28);
 // 	pmc->secure_scratch46 = (sdram->mc_video_protect_vpr_override << 23 >> 31 << 31) | (2 * ((sdram->mc_emem_adr_cfg_dev1 << 12 >> 28 << 27) | ((sdram->mc_emem_adr_cfg_dev1 << 22 >> 30 << 25) | ((sdram->mc_emem_adr_cfg_dev1 << 22) & 0x1FFFFFF | ((sdram->mc_emem_adr_cfg_bank_mask0 >> 10) | (pmc->secure_scratch46 >> 22 << 22)) & 0xFE3FFFFF) & 0xF9FFFFFF) & 0x87FFFFFF) >> 1);
 // 	pmc->secure_scratch47 = (sdram->mc_video_protect_vpr_override << 20 >> 31 << 31) | (2 * ((sdram->mc_video_protect_vpr_override << 22 >> 31 << 30) | (((u8)(sdram->mc_generalized_carveout3_cfg0) << 25 >> 28 << 26) | ((sdram->mc_generalized_carveout1_cfg0 << 10 >> 28 << 22) | ((sdram->mc_emem_adr_cfg_bank_mask1 >> 10) | (pmc->secure_scratch47 >> 22 << 22)) & 0xFC3FFFFF) & 0xC3FFFFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->secure_scratch48 = (sdram->mc_video_protect_vpr_override << 16 >> 31 << 31) | (2 * ((sdram->mc_video_protect_vpr_override << 17 >> 31 << 30) | ((sdram->mc_generalized_carveout3_cfg0 << 14 >> 28 << 26) | ((sdram->mc_generalized_carveout3_cfg0 << 21 >> 28 << 22) | ((sdram->mc_emem_adr_cfg_bank_mask2 >> 10) | (pmc->secure_scratch48 >> 22 << 22)) & 0xFC3FFFFF) & 0xC3FFFFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->secure_scratch49 = (sdram->mc_video_protect_vpr_override << 14 >> 31 << 31) | (2 * ((sdram->mc_emem_cfg >> 31 << 30) | ((sdram->mc_emem_cfg << 18 >> 2) | (sdram->mc_video_protect_gpu_override1 & 0xFFFF | (pmc->secure_scratch49 >> 16 << 16)) & 0xC000FFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->secure_scratch50 = (sdram->mc_video_protect_vpr_override << 12 >> 31 << 31) | (2 * ((sdram->mc_video_protect_vpr_override << 13 >> 31 << 30) | ((sdram->mc_generalized_carveout1_bom >> 17 << 15) | ((sdram->mc_generalized_carveout3_bom >> 17) | (pmc->secure_scratch50 >> 15 << 15)) & 0xC0007FFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->secure_scratch51 = (sdram->mc_video_protect_vpr_override << 10 >> 31 << 31) | (2 * ((sdram->mc_video_protect_vpr_override << 11 >> 31 << 30) | ((sdram->mc_generalized_carveout2_bom >> 17 << 15) | ((sdram->mc_generalized_carveout4_bom >> 17) | (pmc->secure_scratch51 >> 15 << 15)) & 0xC0007FFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->secure_scratch52 = (sdram->mc_video_protect_vpr_override << 9 >> 31 << 31) | (2 * ((sdram->mc_generalized_carveout3_cfg0 << 10 >> 28 << 27) | ((sdram->mc_video_protect_bom >> 20 << 15) | ((sdram->mc_generalized_carveout5_bom >> 17) | (pmc->secure_scratch52 >> 15 << 15)) & 0xF8007FFF) & 0x87FFFFFF) >> 1);
 // 	pmc->secure_scratch53 = (sdram->mc_video_protect_vpr_override1 << 27 >> 31 << 31) | (2 * ((sdram->mc_video_protect_vpr_override1 << 30 >> 31 << 30) | ((sdram->mc_video_protect_vpr_override1 << 31 >> 2) | ((sdram->mc_video_protect_vpr_override >> 31 << 28) | ((2 * sdram->mc_video_protect_vpr_override >> 31 << 27) | ((4 * sdram->mc_video_protect_vpr_override >> 31 << 26) | ((32 * sdram->mc_video_protect_vpr_override >> 31 << 25) | ((sdram->mc_video_protect_vpr_override << 8 >> 31 << 24) | ((sdram->mc_sec_carveout_bom >> 20 << 12) | (sdram->mc_video_protect_size_mb & 0xFFF | (pmc->secure_scratch53 >> 12 << 12)) & 0xFF000FFF) & 0xFEFFFFFF) & 0xFDFFFFFF) & 0xFBFFFFFF) & 0xF7FFFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->secure_scratch54 = (sdram->mc_video_protect_vpr_override1 << 19 >> 31 << 31) | (2 * ((sdram->mc_video_protect_vpr_override1 << 20 >> 31 << 30) | ((sdram->mc_video_protect_vpr_override1 << 21 >> 31 << 29) | ((sdram->mc_video_protect_vpr_override1 << 22 >> 31 << 28) | ((sdram->mc_video_protect_vpr_override1 << 23 >> 31 << 27) | ((sdram->mc_video_protect_vpr_override1 << 24 >> 31 << 26) | ((sdram->mc_video_protect_vpr_override1 << 25 >> 31 << 25) | ((sdram->mc_video_protect_vpr_override1 << 26 >> 31 << 24) | ((sdram->mc_mts_carveout_bom >> 20 << 12) | (sdram->mc_sec_carveout_size_mb & 0xFFF | (pmc->secure_scratch54 >> 12 << 12)) & 0xFF000FFF) & 0xFEFFFFFF) & 0xFDFFFFFF) & 0xFBFFFFFF) & 0xF7FFFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->secure_scratch55 = (sdram->mc_generalized_carveout2_cfg0 << 30 >> 31 << 31) | (2 * ((sdram->mc_generalized_carveout2_cfg0 << 30) | ((32 * sdram->mc_video_protect_vpr_override1 >> 31 << 29) | ((sdram->mc_video_protect_vpr_override1 << 6 >> 31 << 28) | ((sdram->mc_video_protect_vpr_override1 << 15 >> 31 << 27) | ((sdram->mc_video_protect_vpr_override1 << 16 >> 31 << 26) | ((sdram->mc_video_protect_vpr_override1 << 17 >> 31 << 25) | ((sdram->mc_video_protect_vpr_override1 << 18 >> 31 << 24) | (((u16)(sdram->mc_generalized_carveout4_size_128kb) << 12) & 0xFFFFFF | (sdram->mc_mts_carveout_size_mb & 0xFFF | (pmc->secure_scratch55 >> 12 << 12)) & 0xFF000FFF) & 0xFEFFFFFF) & 0xFDFFFFFF) & 0xFBFFFFFF) & 0xF7FFFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->secure_scratch56 = ((u16)(sdram->mc_generalized_carveout1_cfg0) << 30 >> 31 << 31) | (2 * (((u16)(sdram->mc_generalized_carveout1_cfg0) << 30) | ((32 * sdram->mc_generalized_carveout2_cfg0 >> 31 << 29) | ((sdram->mc_generalized_carveout2_cfg0 << 6 >> 31 << 28) | ((sdram->mc_generalized_carveout2_cfg0 << 7 >> 31 << 27) | ((sdram->mc_generalized_carveout2_cfg0 << 8 >> 31 << 26) | ((sdram->mc_generalized_carveout2_cfg0 << 9 >> 31 << 25) | ((sdram->mc_generalized_carveout2_cfg0 << 29 >> 31 << 24) | (((u16)(sdram->mc_generalized_carveout2_size_128kb) << 12) & 0xFFFFFF | (sdram->mc_generalized_carveout3_size_128kb & 0xFFF | (pmc->secure_scratch56 >> 12 << 12)) & 0xFF000FFF) & 0xFEFFFFFF) & 0xFDFFFFFF) & 0xFBFFFFFF) & 0xF7FFFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
 // 	pmc->secure_scratch57 = ((u8)(sdram->mc_generalized_carveout3_cfg0) << 30 >> 31 << 31) | (2 * (((u8)(sdram->mc_generalized_carveout3_cfg0) << 30) | ((32 * sdram->mc_generalized_carveout1_cfg0 >> 31 << 29) | ((sdram->mc_generalized_carveout1_cfg0 << 6 >> 31 << 28) | ((sdram->mc_generalized_carveout1_cfg0 << 7 >> 31 << 27) | ((sdram->mc_generalized_carveout1_cfg0 << 8 >> 31 << 26) | ((sdram->mc_generalized_carveout1_cfg0 << 9 >> 31 << 25) | ((sdram->mc_generalized_carveout1_cfg0 << 29 >> 31 << 24) | ((sdram->mc_generalized_carveout5_size_128kb << 12) & 0xFFFFFF | (sdram->mc_generalized_carveout1_size_128kb & 0xFFF | (pmc->secure_scratch57 >> 12 << 12)) & 0xFF000FFF) & 0xFEFFFFFF) & 0xFDFFFFFF) & 0xFBFFFFFF) & 0xF7FFFFFF) & 0xEFFFFFFF) & 0xDFFFFFFF) & 0xBFFFFFFF) >> 1);
-// 	s32(mc_generalized_carveout1_access0, secure_scratch59);
+	pmc->secure_scratch58 = 32 * (32 * sdram->mc_generalized_carveout3_cfg0 >> 31) | (16 * (sdram->mc_generalized_carveout3_cfg0 << 6 >> 31) | (8 * (sdram->mc_generalized_carveout3_cfg0 << 7 >> 31) | (4 * (sdram->mc_generalized_carveout3_cfg0 << 8 >> 31) | (2 * (sdram->mc_generalized_carveout3_cfg0 << 9 >> 31) | ((sdram->mc_generalized_carveout3_cfg0 << 29 >> 31) | 2 * (pmc->secure_scratch58 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFFFEF) & 0xFFFFFFDF;
 // 	s32(mc_generalized_carveout1_access1, secure_scratch60);
 // 	s32(mc_generalized_carveout1_access2, secure_scratch61);
 // 	s32(mc_generalized_carveout1_access3, secure_scratch62);
 // 	s32(mc_generalized_carveout1_access4, secure_scratch63);
 // 	s32(mc_generalized_carveout2_access0, secure_scratch64);
 // 	s32(mc_generalized_carveout2_access1, secure_scratch65);
 // 	s32(mc_generalized_carveout2_access2, secure_scratch66);
 // 	s32(mc_generalized_carveout2_access3, secure_scratch67);
 // 	s32(mc_generalized_carveout2_access4, secure_scratch68);
 // 	s32(mc_generalized_carveout3_access0, secure_scratch69);
 // 	s32(mc_generalized_carveout3_access1, secure_scratch70);
 // 	s32(mc_generalized_carveout3_access2, secure_scratch71);
 // 	s32(mc_generalized_carveout3_access3, secure_scratch72);
 // 	s32(mc_generalized_carveout3_access4, secure_scratch73);
 // 	s32(mc_generalized_carveout4_access0, secure_scratch74);
 // 	s32(mc_generalized_carveout4_access1, secure_scratch75);
 // 	s32(mc_generalized_carveout4_access2, secure_scratch76);
 // 	s32(mc_generalized_carveout4_access3, secure_scratch77);
 // 	s32(mc_generalized_carveout4_access4, secure_scratch78);
 // 	s32(mc_generalized_carveout5_access0, secure_scratch79);
 // 	s32(mc_generalized_carveout5_access1, secure_scratch80);
 // 	s32(mc_generalized_carveout5_access2, secure_scratch81);
 // 	s32(mc_generalized_carveout5_access3, secure_scratch82);
 // 	s32(mc_generalized_carveout1_force_internal_access0, secure_scratch84);
 // 	s32(mc_generalized_carveout1_force_internal_access1, secure_scratch85);
 // 	s32(mc_generalized_carveout1_force_internal_access2, secure_scratch86);
 // 	s32(mc_generalized_carveout1_force_internal_access3, secure_scratch87);
 // 	s32(mc_generalized_carveout1_force_internal_access4, secure_scratch88);
 // 	s32(mc_generalized_carveout2_force_internal_access0, secure_scratch89);
 // 	s32(mc_generalized_carveout2_force_internal_access1, secure_scratch90);
 // 	s32(mc_generalized_carveout2_force_internal_access2, secure_scratch91);
 // 	s32(mc_generalized_carveout2_force_internal_access3, secure_scratch92);
 // 	s32(mc_generalized_carveout2_force_internal_access4, secure_scratch93);
 // 	s32(mc_generalized_carveout3_force_internal_access0, secure_scratch94);
 // 	s32(mc_generalized_carveout3_force_internal_access1, secure_scratch95);
 // 	s32(mc_generalized_carveout3_force_internal_access2, secure_scratch96);
 // 	s32(mc_generalized_carveout3_force_internal_access3, secure_scratch97);
 // 	s32(mc_generalized_carveout3_force_internal_access4, secure_scratch98);
 // 	s32(mc_generalized_carveout4_force_internal_access0, secure_scratch99);
 // 	s32(mc_generalized_carveout4_force_internal_access1, secure_scratch100);
 // 	s32(mc_generalized_carveout4_force_internal_access2, secure_scratch101);
 // 	s32(mc_generalized_carveout4_force_internal_access3, secure_scratch102);
 // 	s32(mc_generalized_carveout4_force_internal_access4, secure_scratch103);
 // 	s32(mc_generalized_carveout5_force_internal_access0, secure_scratch104);
 // 	s32(mc_generalized_carveout5_force_internal_access1, secure_scratch105);
 // 	s32(mc_generalized_carveout5_force_internal_access2, secure_scratch106);
 // 	s32(mc_generalized_carveout5_force_internal_access3, secure_scratch107);
-// 	pmc->secure_scratch58 = 32 * (32 * sdram->mc_generalized_carveout3_cfg0 >> 31) | (16 * (sdram->mc_generalized_carveout3_cfg0 << 6 >> 31) | (8 * (sdram->mc_generalized_carveout3_cfg0 << 7 >> 31) | (4 * (sdram->mc_generalized_carveout3_cfg0 << 8 >> 31) | (2 * (sdram->mc_generalized_carveout3_cfg0 << 9 >> 31) | ((sdram->mc_generalized_carveout3_cfg0 << 29 >> 31) | 2 * (pmc->secure_scratch58 >> 1)) & 0xFFFFFFFD) & 0xFFFFFFFB) & 0xFFFFFFF7) & 0xFFFFFFEF) & 0xFFFFFFDF;
+	c32(0, scratch2);
 	s(pllm_input_divider, 7:0, scratch2, 7:0);
 	s(pllm_feedback_divider, 7:0, scratch2, 15:8);
 	s(pllm_post_divider, 4:0, scratch2, 20:16);
 	s(pllm_kvco, 0:0, scratch2, 17:17);
 	s(pllm_kcp, 1:0, scratch2, 19:18);
-// 	c32(0, scratch2);
+	c32(0, scratch35);
-// 	s(pllm_input_divider, 7:0, scratch2, 7:0);
+	s(pllm_setup_control, 15:0, scratch35, 15:0);
 // 	s(pllm_feedback_divider, 7:0, scratch2, 15:8);
 // 	s(pllm_post_divider, 4:0, scratch2, 20:16);
 // 	s(pllm_kvco, 0:0, scratch2, 17:17);
 // 	s(pllm_kcp, 1:0, scratch2, 19:18);
-// 	c32(0, scratch35);
+	c32(0, scratch3);
-// 	s(pllm_setup_control, 15:0, scratch35, 15:0);
+	s(pllm_input_divider, 7:0, scratch3, 7:0);
 	c(0x3e, scratch3, 15:8);
 	c(0, scratch3, 20:16);
 	s(pllm_kvco, 0:0, scratch3, 21:21);
 	s(pllm_kcp, 1:0, scratch3, 23:22);
-// 	c32(0, scratch3);
+	c32(0, scratch36);
-// 	s(pllm_input_divider, 7:0, scratch3, 7:0);
+	s(pllm_setup_control, 23:0, scratch36, 23:0);
 // 	c(0x3e, scratch3, 15:8);
 // 	c(0, scratch3, 20:16);
 // 	s(pllm_kvco, 0:0, scratch3, 21:21);
 // 	s(pllm_kcp, 1:0, scratch3, 23:22);
-// 	c32(0, scratch36);
+	c32(0, scratch4);
-// 	s(PllMSetupControl, 23:0, scratch36, 23:0);
+	s(pllm_stable_time, 9:0, scratch4, 9:0); // s32(pllm_stable_time, scratch4);, s(pllm_stable_time, 31:0, scratch4, 31:10);
-
+	s(pllm_stable_time, 31:0, scratch4, 31:10);
-// 	c32(0, scratch4);
+}
 // 	s(pllm_stable_time, 9:0, scratch4, 9:0); // s32(pllm_stable_time, scratch4);, s(pllm_stable_time, 31:0, scratch4, 31:10);
 // 	s(pllm_stable_time, 31:0, scratch4, 31:10);
 // }
 #pragma GCC diagnostic pop
-
+*/
 void sdram_lp0_save_params(const void *params)
 {
 	// u32 chip_id = (APB_MISC(APB_MISC_GP_HIDREV) >> 4) & 0xF;
--- a/bdk/mem/smmu.c
+++ b/bdk/mem/smmu.c
@ -48,8 +48,8 @@ u8 smmu_payload[] __attribute__((aligned(16))) = {
 void *page_alloc(u32 num)
 {
 	u8 *res = _pageheap;
-	_pageheap += 0x1000 * num;
+	_pageheap += SZ_PAGE * num;
-	memset(res, 0, 0x1000 * num);
+	memset(res, 0, SZ_PAGE * num);
 	return res;
 }
@ -150,8 +150,8 @@ void smmu_map(u32 *pdir, u32 addr, u32 page, int cnt, u32 attr)
 	{
 		u32 *pte = smmu_get_pte(pdir, addr);
 		*pte = SMMU_ADDR_TO_PFN(page) | attr;
-		addr += 0x1000;
+		addr += SZ_PAGE;
-		page += 0x1000;
+		page += SZ_PAGE;
 	}
 	smmu_flush_all();
 }
--- a/bdk/memory_map.h
+++ b/bdk/memory_map.h
@ -1,5 +1,5 @@
 /*
- * Copyright (c) 2019 CTCaer
+ * Copyright (c) 2019-2021 CTCaer
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
@ -19,11 +19,11 @@
 //#define IPL_STACK_TOP  0x4003FF00
 /* --- BIT/BCT: 0x40000000 - 0x40003000 --- */
-/* ---     IPL: 0x40003000 - 0x40028000 --- */
+/* ---     IPL: 0x40008000 - 0x40028000 --- */
 #define LDR_LOAD_ADDR     0x40007000
-#define IPL_LOAD_ADDR     0x40003000
+#define IPL_LOAD_ADDR     0x40008000
-#define  IPL_SZ_MAX          0x20000 // 128KB.
+#define  IPL_SZ_MAX          SZ_128K
 /* --- XUSB EP context and TRB ring buffers --- */
 #define XUSB_RING_ADDR    0x40020000
@ -35,45 +35,51 @@
 /* --- DRAM START --- */
 #define DRAM_START     0x80000000
-#define  HOS_RSVD       0x1000000 // Do not write anything in this area.
+#define  HOS_RSVD          SZ_16M // Do not write anything in this area.
 #define NYX_LOAD_ADDR  0x81000000
-#define  NYX_SZ_MAX     0x1000000 // 16MB
+#define  NYX_SZ_MAX        SZ_16M
 /* --- Gap: 0x82000000 - 0x82FFFFFF --- */
 /* Stack theoretical max: 33MB */
 #define IPL_STACK_TOP  0x83100000
 #define IPL_HEAP_START 0x84000000
-#define  IPL_HEAP_SZ   0x20000000 // 512MB.
+#define  IPL_HEAP_SZ      SZ_512M
 /* --- Gap: 1040MB 0xA4000000 - 0xE4FFFFFF --- */
 // Virtual disk / Chainloader buffers.
 #define RAM_DISK_ADDR     0xA4000000
 #define NX_BIS_CACHE_ADDR RAM_DISK_ADDR
 #define  RAM_DISK_SZ      0x41000000 // 1040MB.
 #define  RAM_DISK2_SZ 0x21000000 //  528MB.
 // NX BIS driver sector cache.
 #define NX_BIS_CACHE_ADDR  0xC5000000
 #define  NX_BIS_CACHE_SZ   0x10020000 // 256MB.
 #define NX_BIS_LOOKUP_ADDR 0xD6000000
 #define  NX_BIS_LOOKUP_SZ   0xF000000 // 240MB.
 // L4T Kernel Panic Storage (PSTORE).
 #define PSTORE_ADDR   0xB0000000
-#define  PSTORE_SZ      0x200000 // 2MB.
+#define  PSTORE_SZ         SZ_2M
 //#define DRAM_LIB_ADDR    0xE0000000
 /* --- Chnldr: 252MB 0xC03C0000 - 0xCFFFFFFF --- */ //! Only used when chainloading.
 // SDMMC DMA buffers 1
 #define SDMMC_UPPER_BUFFER 0xE5000000
-#define  SDMMC_UP_BUF_SZ    0x8000000 // 128MB.
+#define  SDMMC_UP_BUF_SZ      SZ_128M
 // Nyx buffers.
 #define NYX_STORAGE_ADDR 0xED000000
 #define NYX_RES_ADDR     0xEE000000
-#define  NYX_RES_SZ       0x1000000 // 16MB.
+#define  NYX_RES_SZ          SZ_16M
 // SDMMC DMA buffers 2
 #define SDXC_BUF_ALIGNED   0xEF000000
 #define MIXD_BUF_ALIGNED   0xF0000000
 #define TITLEKEY_BUF_ADR   MIXD_BUF_ALIGNED
 #define EMMC_BUF_ALIGNED   MIXD_BUF_ALIGNED
-#define  SDMMC_DMA_BUF_SZ   0x1000000 // 16MB (4MB currently used).
+#define  SDMMC_DMA_BUF_SZ      SZ_16M // 4MB currently used.
 // Nyx LvGL buffers.
 #define NYX_LV_VDB_ADR   0xF1000000
@ -91,22 +97,17 @@
 #define  NYX_FB_SZ         0x384000 // 1280 x 720 x 4.
 #define DRAM_MEM_HOLE_ADR 0xF6A00000
 #define NX_BIS_LOOKUP_ADR DRAM_MEM_HOLE_ADR
 #define DRAM_MEM_HOLE_SZ   0x8140000
 /* ---   Hole: 129MB 0xF6A00000 - 0xFEB3FFFF --- */
 #define DRAM_START2       0xFEB40000
 // NX BIS driver sector cache.
 // #define NX_BIS_CACHE_ADDR 0xFEE00000
 // #define  NX_BIS_CACHE_SZ    0x100000
 // USB buffers.
 #define USBD_ADDR                 0xFEF00000
 #define USB_DESCRIPTOR_ADDR       0xFEF40000
 #define USB_EP_CONTROL_BUF_ADDR   0xFEF80000
 #define USB_EP_BULK_IN_BUF_ADDR   0xFF000000
 #define USB_EP_BULK_OUT_BUF_ADDR  0xFF800000
-#define  USB_EP_BULK_OUT_MAX_XFER   0x800000
+#define  USB_EP_BULK_OUT_MAX_XFER      SZ_8M
 // #define EXT_PAYLOAD_ADDR    0xC0000000
 // #define RCM_PAYLOAD_ADDR    (EXT_PAYLOAD_ADDR + ALIGN(PATCHED_RELOC_SZ, 0x10))
--- a/bdk/module.h
+++ b/bdk/module.h
@ -21,10 +21,13 @@
 #include <stddef.h>
 #include <mem/heap.h>
 #define IANOS_EXT0 0x304E4149
 // Module Callback
 typedef void (*cbMainModule_t)(const char *s);
 typedef void (*memcpy_t)(void *, void *, size_t);
 typedef void (*memset_t)(void *, int, size_t);
 typedef int  (*reg_voltage_set_t)(u32, u32);
 typedef struct _bdkParams_t
 {
@ -33,6 +36,8 @@ typedef struct _bdkParams_t
 	heap_t *sharedHeap;
 	memcpy_t memcpy;
 	memset_t memset;
 	u32 extension_magic;
 	reg_voltage_set_t reg_voltage_set;
 } *bdkParams_t;
 // Module Entrypoint
--- a/bdk/power/max77620.h
+++ b/bdk/power/max77620.h
@ -1,8 +1,7 @@
 /*
 * Defining registers address and its bit definitions of MAX77620 and MAX20024
 *
- * Copyright (c) 2016 NVIDIA CORPORATION. All rights reserved.
+ * Copyright (c) 2019-2020 CTCaer
 * Copyright (c) 2019 CTCaer
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
@ -30,24 +29,33 @@
 #define  MAX77620_CNFGGLBL1_LBHYST_200        (1 << 4)
 #define  MAX77620_CNFGGLBL1_LBHYST_300        (2 << 4)
 #define  MAX77620_CNFGGLBL1_LBHYST_400        (3 << 4)
 #define  MAX77620_CNFGGLBL1_LBHYST            (BIT(5) | BIT(4))
 #define  MAX77620_CNFGGLBL1_MPPLD             BIT(6)
 #define  MAX77620_CNFGGLBL1_LBDAC_EN          BIT(7)
 #define MAX77620_REG_CNFGGLBL2      0x01
 #define MAX77620_REG_CNFGGLBL3      0x02
 #define  MAX77620_WDTC_MASK                   0x3
 #define  MAX77620_WDTEN                       BIT(2)
 #define  MAX77620_WDTSLPC                     BIT(3)
 #define  MAX77620_WDTOFFC                     BIT(4)
 #define  MAX77620_TWD_MASK                    0x3
 #define  MAX77620_TWD_2s                      0x0
 #define  MAX77620_TWD_16s                     0x1
 #define  MAX77620_TWD_64s                     0x2
 #define  MAX77620_TWD_128s                    0x3
 #define  MAX77620_WDTEN                       BIT(2)
 #define  MAX77620_WDTSLPC                     BIT(3)
 #define  MAX77620_WDTOFFC                     BIT(4)
 #define  MAX77620_GLBL_LPM                    BIT(5)
 #define  MAX77620_I2CTWD_MASK                 0xC0
 #define  MAX77620_I2CTWD_DISABLED             0x00
 #define  MAX77620_I2CTWD_1_33ms               0x40
 #define  MAX77620_I2CTWD_35_7ms               0x80
 #define  MAX77620_I2CTWD_41_7ms               0xC0
 #define MAX77620_REG_CNFGGLBL3      0x02
 #define  MAX77620_WDTC_MASK                   0x3
 #define MAX77620_REG_CNFG1_32K      0x03
 #define  MAX77620_CNFG1_PWR_MD_32K_MASK       0x3
 #define  MAX77620_CNFG1_32K_OUT0_EN           BIT(2)
 #define  MAX77620_CNFG1_32KLOAD_MASK          0x30
 #define  MAX77620_CNFG1_32K_OK                BIT(7)
 #define MAX77620_REG_CNFGBBC        0x04
 #define  MAX77620_CNFGBBC_ENABLE              BIT(0)
@ -64,6 +72,7 @@
 #define  MAX77620_CNFGBBC_RESISTOR_6K         (3 << MAX77620_CNFGBBC_RESISTOR_SHIFT)
 #define MAX77620_REG_IRQTOP         0x05
 #define MAX77620_REG_IRQTOPM        0x0D
 #define  MAX77620_IRQ_TOP_ONOFF_MASK          BIT(1)
 #define  MAX77620_IRQ_TOP_32K_MASK            BIT(2)
 #define  MAX77620_IRQ_TOP_RTC_MASK            BIT(3)
@ -73,28 +82,53 @@
 #define  MAX77620_IRQ_TOP_GLBL_MASK           BIT(7)
 #define MAX77620_REG_INTLBT         0x06
-#define MAX77620_REG_IRQTOPM        0x0D
+#define MAX77620_REG_INTENLBT       0x0E
 #define  MAX77620_IRQ_GLBLM_MASK              BIT(0)
 #define  MAX77620_IRQ_TJALRM2_MASK            BIT(1)
 #define  MAX77620_IRQ_TJALRM1_MASK            BIT(2)
 #define  MAX77620_IRQ_LBM_MASK                BIT(3)
 #define MAX77620_REG_IRQSD          0x07
 #define MAX77620_REG_IRQ_LVL2_L0_7  0x08
 #define MAX77620_REG_IRQ_LVL2_L8    0x09
 #define MAX77620_REG_IRQ_LVL2_GPIO  0x0A
 #define MAX77620_REG_ONOFFIRQ       0x0B
 #define MAX77620_REG_NVERC          0x0C
 #define MAX77620_REG_INTENLBT       0x0E
 #define  MAX77620_GLBLM_MASK                  BIT(0)
 #define MAX77620_REG_IRQMASKSD      0x0F
 #define  MAX77620_IRQSD_PFI_SD3               BIT(4)
 #define  MAX77620_IRQSD_PFI_SD2               BIT(5)
 #define  MAX77620_IRQSD_PFI_SD1               BIT(6)
 #define  MAX77620_IRQSD_PFI_SD0               BIT(7)
 #define MAX77620_REG_IRQ_LVL2_L0_7  0x08 // LDO number that irq occured.
 #define MAX77620_REG_IRQ_MSK_L0_7   0x10
 #define MAX77620_REG_IRQ_LVL2_L8    0x09 // LDO number that irq occured. Only bit0: LDO8 is valid.
 #define MAX77620_REG_IRQ_MSK_L8     0x11
 #define MAX77620_REG_IRQ_LVL2_GPIO  0x0A // Edge detection interrupt.
 #define MAX77620_REG_ONOFFIRQ       0x0B
 #define MAX77620_REG_ONOFFIRQM      0x12
 #define  MAX77620_ONOFFIRQ_MRWRN              BIT(0)
 #define  MAX77620_ONOFFIRQ_EN0_1SEC           BIT(1)
 #define  MAX77620_ONOFFIRQ_EN0_F              BIT(2)
 #define  MAX77620_ONOFFIRQ_EN0_R              BIT(3)
 #define  MAX77620_ONOFFIRQ_LID_F              BIT(4)
 #define  MAX77620_ONOFFIRQ_LID_R              BIT(5)
 #define  MAX77620_ONOFFIRQ_ACOK_F             BIT(6)
 #define  MAX77620_ONOFFIRQ_ACOK_R             BIT(7)
 #define MAX77620_REG_NVERC          0x0C // Shutdown reason (non-volatile).
 #define  MAX77620_NVERC_SHDN                  BIT(0)
 #define  MAX77620_NVERC_WTCHDG                BIT(1)
 #define  MAX77620_NVERC_HDRST                 BIT(2)
 #define  MAX77620_NVERC_TOVLD                 BIT(3)
 #define  MAX77620_NVERC_MBLSD                 BIT(4)
 #define  MAX77620_NVERC_MBO                   BIT(5)
 #define  MAX77620_NVERC_MBU                   BIT(6)
 #define  MAX77620_NVERC_RSTIN                 BIT(7)
 #define MAX77620_REG_STATLBT        0x13
 #define MAX77620_REG_STATSD         0x14
 #define MAX77620_REG_ONOFFSTAT      0x15
 #define  MAX77620_ONOFFSTAT_LID     BIT(0)
 #define  MAX77620_ONOFFSTAT_ACOK    BIT(1)
 #define  MAX77620_ONOFFSTAT_EN0     BIT(2)
 /* SD and LDO Registers */
 #define MAX77620_REG_SD0            0x16
@ -102,18 +136,42 @@
 #define MAX77620_REG_SD2            0x18
 #define MAX77620_REG_SD3            0x19
 #define MAX77620_REG_SD4            0x1A
 #define MAX77620_REG_DVSSD0         0x1B
 #define MAX77620_REG_DVSSD1         0x1C
 #define  MAX77620_SDX_VOLT_MASK               0xFF
 #define  MAX77620_SD0_VOLT_MASK               0x3F
 #define  MAX77620_SD1_VOLT_MASK               0x7F
 #define  MAX77620_LDO_VOLT_MASK               0x3F
-#define MAX77620_REG_DVSSD0         0x1B
+
-#define MAX77620_REG_DVSSD1         0x1C
+#define MAX77620_REG_SD0_CFG        0x1D
-#define MAX77620_REG_SD0_CFG        0x1D // SD CNFG1.
+#define MAX77620_REG_SD1_CFG        0x1E
-#define MAX77620_REG_SD1_CFG        0x1E // SD CNFG1.
+#define MAX77620_REG_SD2_CFG        0x1F
-#define MAX77620_REG_SD2_CFG        0x1F // SD CNFG1.
+#define MAX77620_REG_SD3_CFG        0x20
-#define MAX77620_REG_SD3_CFG        0x20 // SD CNFG1.
+#define MAX77620_REG_SD4_CFG        0x21
-#define MAX77620_REG_SD4_CFG        0x21 // SD CNFG1.
+#define  MAX77620_SD_SR_MASK                  0xC0
 #define  MAX77620_SD_SR_SHIFT                 6
 #define  MAX77620_SD_POWER_MODE_MASK          0x30
 #define  MAX77620_SD_POWER_MODE_SHIFT         4
 #define  MAX77620_SD_CFG1_ADE_MASK            BIT(3)
 #define  MAX77620_SD_CFG1_ADE_DISABLE         0
 #define  MAX77620_SD_CFG1_ADE_ENABLE          BIT(3)
 #define  MAX77620_SD_FPWM_MASK                0x04
 #define  MAX77620_SD_FPWM_SHIFT               2
 #define  MAX77620_SD_FSRADE_MASK              0x01
 #define  MAX77620_SD_FSRADE_SHIFT             0
 #define  MAX77620_SD_CFG1_FPWM_SD_MASK        BIT(2)
 #define  MAX77620_SD_CFG1_FPWM_SD_SKIP        0
 #define  MAX77620_SD_CFG1_FPWM_SD_FPWM        BIT(2)
 #define  MAX77620_SD_CFG1_MPOK_MASK           BIT(1)
 #define  MAX77620_SD_CFG1_FSRADE_SD_MASK      BIT(0)
 #define  MAX77620_SD_CFG1_FSRADE_SD_DISABLE   0
 #define  MAX77620_SD_CFG1_FSRADE_SD_ENABLE    BIT(0)
 #define MAX77620_REG_SD_CFG2        0x22
 #define  MAX77620_SD_CNF2_RSVD                BIT(0)
 #define  MAX77620_SD_CNF2_ROVS_EN_SD1         BIT(1)
 #define  MAX77620_SD_CNF2_ROVS_EN_SD0         BIT(2)
 #define MAX77620_REG_LDO0_CFG       0x23
 #define MAX77620_REG_LDO0_CFG2      0x24
 #define MAX77620_REG_LDO1_CFG       0x25
@ -132,26 +190,36 @@
 #define MAX77620_REG_LDO7_CFG2      0x32
 #define MAX77620_REG_LDO8_CFG       0x33
 #define MAX77620_REG_LDO8_CFG2      0x34
-#define  MAX77620_LDO_CFG2_SS_MASK            (1 << 0)
+/*! LDO CFG */
 #define  MAX77620_LDO_CFG2_SS_FAST            (1 << 0)
 #define  MAX77620_LDO_CFG2_SS_SLOW            0
 #define  MAX77620_LDO_CFG2_ADE_MASK           (1 << 1)
 #define  MAX77620_LDO_CFG2_ADE_DISABLE        (0 << 1)
 #define  MAX77620_LDO_CFG2_ADE_ENABLE         (1 << 1)
 #define  MAX20024_LDO_CFG2_MPOK_MASK          BIT(2)
 #define  MAX77620_LDO_POWER_MODE_MASK         0xC0
 #define  MAX77620_LDO_POWER_MODE_SHIFT        6
 #define  MAX77620_LDO_POWER_MODE_MASK         (3 << MAX77620_LDO_POWER_MODE_SHIFT)
 #define  MAX77620_POWER_MODE_NORMAL	          3
 #define  MAX77620_POWER_MODE_LPM              2
 #define  MAX77620_POWER_MODE_GLPM             1
 #define  MAX77620_POWER_MODE_DISABLE          0
 /*! LDO CFG2 */
 #define  MAX77620_LDO_CFG2_SS_MASK            (1 << 0)
 #define  MAX77620_LDO_CFG2_SS_FAST            (0 << 0)
 #define  MAX77620_LDO_CFG2_SS_SLOW            (1 << 0)
 #define  MAX77620_LDO_CFG2_ADE_MASK           (1 << 1)
 #define  MAX77620_LDO_CFG2_ADE_DISABLE        (0 << 1)
 #define  MAX77620_LDO_CFG2_ADE_ENABLE         (1 << 1)
 #define  MAX77620_LDO_CFG2_MPOK_MASK          BIT(2)
 #define  MAX77620_LDO_CFG2_POK_MASK           BIT(3)
 #define  MAX77620_LDO_CFG2_COMP_SHIFT         4
 #define  MAX77620_LDO_CFG2_COMP_MASK          (3 << MAX77620_LDO_COMP_SHIFT)
 #define  MAX77620_LDO_CFG2_COMP_SLOW 	      3
 #define  MAX77620_LDO_CFG2_COMP_MID_SLOW      2
 #define  MAX77620_LDO_CFG2_COMP_MID_FAST      1
 #define  MAX77620_LDO_CFG2_COMP_FAST          0
 #define  MAX77620_LDO_CFG2_ALPM_EN_MASK       BIT(6)
 #define  MAX77620_LDO_CFG2_OVCLMP_MASK        BIT(7)
 #define MAX77620_REG_LDO_CFG3       0x35
 #define  MAX77620_LDO_BIAS_EN                 BIT(0)
 #define  MAX77620_TRACK4_SHIFT                5
 #define  MAX77620_TRACK4_MASK                 (1 << MAX77620_TRACK4_SHIFT)
 #define MAX77620_LDO_SLEW_RATE_MASK 0x1
 #define MAX77620_REG_GPIO0          0x36
 #define MAX77620_REG_GPIO1          0x37
 #define MAX77620_REG_GPIO2          0x38
@ -160,9 +228,6 @@
 #define MAX77620_REG_GPIO5          0x3B
 #define MAX77620_REG_GPIO6          0x3C
 #define MAX77620_REG_GPIO7          0x3D
 #define MAX77620_REG_PUE_GPIO       0x3E
 #define MAX77620_REG_PDE_GPIO       0x3F
 #define MAX77620_REG_AME_GPIO       0x40
 #define  MAX77620_CNFG_GPIO_DRV_MASK          (1 << 0)
 #define  MAX77620_CNFG_GPIO_DRV_PUSHPULL      (1 << 0)
 #define  MAX77620_CNFG_GPIO_DRV_OPENDRAIN     (0 << 0)
@ -181,6 +246,13 @@
 #define  MAX77620_CNFG_GPIO_DBNC_8ms          (0x1 << 6)
 #define  MAX77620_CNFG_GPIO_DBNC_16ms         (0x2 << 6)
 #define  MAX77620_CNFG_GPIO_DBNC_32ms         (0x3 << 6)
 #define  MAX77620_GPIO_OUTPUT_DISABLE         0
 #define  MAX77620_GPIO_OUTPUT_ENABLE          1
 #define MAX77620_REG_PUE_GPIO       0x3E // Gpio Pullup resistor enable.
 #define MAX77620_REG_PDE_GPIO       0x3F // Gpio Pulldown resistor enable.
 #define MAX77620_REG_AME_GPIO       0x40 // Gpio pinmuxing. Clear bits are Standard GPIO.
 #define MAX77620_REG_ONOFFCNFG1     0x41
 #define  MAX20024_ONOFFCNFG1_CLRSE            0x18
@ -188,19 +260,30 @@
 #define  MAX77620_ONOFFCNFG1_SLPEN            BIT(2)
 #define  MAX77620_ONOFFCNFG1_MRT_SHIFT        0x3
 #define  MAX77620_ONOFFCNFG1_MRT_MASK         0x38
 #define  MAX77620_ONOFFCNFG1_RSVD             BIT(6)
 #define  MAX77620_ONOFFCNFG1_SFT_RST          BIT(7)
 #define MAX77620_REG_ONOFFCNFG2     0x42
 #define  MAX77620_ONOFFCNFG2_WK_EN0           BIT(0)
 #define  MAX77620_ONOFFCNFG2_WK_ALARM2        BIT(1)
 #define  MAX77620_ONOFFCNFG2_WK_ALARM1        BIT(2)
 #define  MAX77620_ONOFFCNFG2_WK_MBATT         BIT(3) // MBATT event generates a wakeup signal. use it in android/l4t?
 #define  MAX77620_ONOFFCNFG2_WK_ACOK          BIT(4)
 #define  MAX77620_ONOFFCNFG2_SLP_LPM_MSK      BIT(5)
 #define  MAX77620_ONOFFCNFG2_WD_RST_WK        BIT(6)
 #define  MAX77620_ONOFFCNFG2_SFT_RST_WK       BIT(7)
 /* FPS Registers */
-#define MAX77620_REG_FPS_CFG0       0x43
+#define MAX77620_REG_FPS_CFG0       0x43 // FPS0.
-#define MAX77620_REG_FPS_CFG1       0x44
+#define MAX77620_REG_FPS_CFG1       0x44 // FPS1.
-#define MAX77620_REG_FPS_CFG2       0x45
+#define MAX77620_REG_FPS_CFG2       0x45 // FPS2.
 #define  MAX77620_FPS_ENFPS_SW_MASK           0x01
 #define  MAX77620_FPS_ENFPS_SW                0x01
 #define  MAX77620_FPS_EN_SRC_SHIFT            1
 #define  MAX77620_FPS_EN_SRC_MASK             0x06
 #define  MAX77620_FPS_TIME_PERIOD_SHIFT       3
 #define  MAX77620_FPS_TIME_PERIOD_MASK        0x38
 #define MAX77620_REG_FPS_LDO0       0x46
 #define MAX77620_REG_FPS_LDO1       0x47
 #define MAX77620_REG_FPS_LDO2       0x48
@ -215,77 +298,39 @@
 #define MAX77620_REG_FPS_SD2        0x51
 #define MAX77620_REG_FPS_SD3        0x52
 #define MAX77620_REG_FPS_SD4        0x53
 #define MAX77620_REG_FPS_NONE       0
 #define  MAX77620_FPS_SRC_MASK                0xC0
 #define  MAX77620_FPS_SRC_SHIFT               6
 #define  MAX77620_FPS_PU_PERIOD_MASK          0x38
 #define  MAX77620_FPS_PU_PERIOD_SHIFT         3
 #define  MAX77620_FPS_PD_PERIOD_MASK          0x07
 #define  MAX77620_FPS_PD_PERIOD_SHIFT         0
 /* Minimum and maximum FPS period time (in microseconds) are
 * different for MAX77620 and Max20024.
 */
 #define MAX77620_FPS_COUNT 3
 #define MAX77620_FPS_PERIOD_MIN_US 40
 #define MAX20024_FPS_PERIOD_MIN_US 20
 #define MAX77620_FPS_PERIOD_MAX_US 2560
 #define MAX20024_FPS_PERIOD_MAX_US 5120
 #define MAX77620_REG_FPS_GPIO1      0x54
 #define MAX77620_REG_FPS_GPIO2      0x55
 #define MAX77620_REG_FPS_GPIO3      0x56
 #define  MAX77620_FPS_TIME_PERIOD_MASK        0x38
 #define  MAX77620_FPS_TIME_PERIOD_SHIFT       3
 #define  MAX77620_FPS_EN_SRC_MASK             0x06
 #define  MAX77620_FPS_EN_SRC_SHIFT            1
 #define  MAX77620_FPS_ENFPS_SW_MASK           0x01
 #define  MAX77620_FPS_ENFPS_SW                0x01
 #define MAX77620_REG_FPS_RSO        0x57
 #define  MAX77620_FPS_PD_PERIOD_SHIFT         0
 #define  MAX77620_FPS_PD_PERIOD_MASK          0x07
 #define  MAX77620_FPS_PU_PERIOD_SHIFT         3
 #define  MAX77620_FPS_PU_PERIOD_MASK          0x38
 #define  MAX77620_FPS_SRC_SHIFT               6
 #define  MAX77620_FPS_SRC_MASK                0xC0
 #define MAX77620_FPS_COUNT 3
 #define MAX77620_FPS_PERIOD_MIN_US 40
 #define MAX77620_FPS_PERIOD_MAX_US 2560
 #define MAX77620_REG_CID0           0x58
 #define MAX77620_REG_CID1           0x59
 #define MAX77620_REG_CID2           0x5A
 #define MAX77620_REG_CID3           0x5B
-#define MAX77620_REG_CID4           0x5C
+#define MAX77620_REG_CID4           0x5C // OTP version.
 #define MAX77620_REG_CID5           0x5D
-
+#define  MAX77620_CID_DIDO_MASK               0xF
-#define MAX77620_REG_DVSSD4         0x5E
+#define  MAX77620_CID_DIDO_SHIFT              0
 #define MAX20024_REG_MAX_ADD        0x70
 #define  MAX77620_CID_DIDM_MASK               0xF0
 #define  MAX77620_CID_DIDM_SHIFT              4
 /* CNCG2SD */
 #define MAX77620_SD_CNF2_ROVS_EN_SD1          BIT(1)
 #define MAX77620_SD_CNF2_ROVS_EN_SD0          BIT(2)
 /* Device Identification Metal */
 #define MAX77620_CID5_DIDM(n) (((n) >> 4) & 0xF)
 /* Device Indentification OTP */
 #define MAX77620_CID5_DIDO(n) ((n) & 0xF)
-/* SD CNFG1 */
+#define MAX77620_REG_DVSSD4         0x5E
-#define MAX77620_SD_SR_MASK                   0xC0
+#define MAX20024_REG_MAX_ADD        0x70
 #define MAX77620_SD_SR_SHIFT                  6
 #define MAX77620_SD_POWER_MODE_MASK           0x30
 #define MAX77620_SD_POWER_MODE_SHIFT          4
 #define MAX77620_SD_CFG1_ADE_MASK             BIT(3)
 #define MAX77620_SD_CFG1_ADE_DISABLE          0
 #define MAX77620_SD_CFG1_ADE_ENABLE           BIT(3)
 #define MAX77620_SD_FPWM_MASK                 0x04
 #define MAX77620_SD_FPWM_SHIFT                2
 #define MAX77620_SD_FSRADE_MASK               0x01
 #define MAX77620_SD_FSRADE_SHIFT              0
 #define MAX77620_SD_CFG1_FPWM_SD_MASK         BIT(2)
 #define MAX77620_SD_CFG1_FPWM_SD_SKIP         0
 #define MAX77620_SD_CFG1_FPWM_SD_FPWM         BIT(2)
 #define MAX20024_SD_CFG1_MPOK_MASK            BIT(1)
 #define MAX77620_SD_CFG1_FSRADE_SD_MASK       BIT(0)
 #define MAX77620_SD_CFG1_FSRADE_SD_DISABLE    0
 #define MAX77620_SD_CFG1_FSRADE_SD_ENABLE     BIT(0)
 #define MAX77620_IRQ_LVL2_GPIO_EDGE0          BIT(0)
 #define MAX77620_IRQ_LVL2_GPIO_EDGE1          BIT(1)
@ -332,9 +377,4 @@ enum max77620_fps_src {
 	MAX77620_FPS_SRC_DEF,
 };
 enum max77620_chip_id {
 	MAX77620,
 	MAX20024,
 };
 #endif /* _MFD_MAX77620_H_ */
--- a/bdk/power/max7762x.c
+++ b/bdk/power/max7762x.c
@ -1,6 +1,6 @@
 /*
 * Copyright (c) 2018 naehrwert
- * Copyright (c) 2019 CTCaer
+ * Copyright (c) 2019-2020 CTCaer
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
@ -17,163 +17,323 @@
 #include <power/max7762x.h>
 #include <power/max77620.h>
 #include <power/max77812.h>
 #include <soc/fuse.h>
 #include <soc/i2c.h>
 #include <soc/t210.h>
 #include <utils/util.h>
 #define REGULATOR_SD  0
 #define REGULATOR_LDO 1
 #define REGULATOR_BC0 2
 #define REGULATOR_BC1 3
-typedef struct _max77620_regulator_t
+typedef struct _max77620_fps_t
 {
 	u8 type;
 	const char *name;
 	u8 reg_sd;
 	u32 mv_step;
 	u32 mv_min;
 	u32 mv_default;
 	u32 mv_max;
 	u8 volt_addr;
 	u8 cfg_addr;
 	u8 volt_mask;
 	u8 enable_mask;
 	u8 enable_shift;
 	u8 status_mask;
 	u8 fps_addr;
 	u8 fps_src;
 	u8 pd_period;
 	u8 pu_period;
 } max77620_fps_t;
 typedef struct _max77621_ctrl_t
 {
 	u8 ctrl1_por;
 	u8 ctrl1_hos;
 	u8 ctrl2_por;
 	u8 ctrl2_hos;
 } max77621_ctrl_t;
 typedef struct _max77812_ctrl_t
 {
 	u8 mask;
 	u8 shift;
 	u8 rsvd0;
 	u8 rsvd1;
 } max77812_en_t;
 typedef struct _max77620_regulator_t
 {
 	const char *name;
 	u32 uv_step;
 	u32 uv_min;
 	u32 uv_default;
 	u32 uv_max;
 	u8 type;
 	u8 volt_addr;
 	u8 cfg_addr;
 	u8 volt_mask;
 	union {
 		max77620_fps_t fps;
 		max77621_ctrl_t ctrl;
 		max77812_en_t enable;
 	};
 } max77620_regulator_t;
 static const max77620_regulator_t _pmic_regulators[] = {
-	{  REGULATOR_SD,  "sd0", 0x16,  12500, 600000,  625000, 1400000,      MAX77620_REG_SD0,   MAX77620_REG_SD0_CFG, MAX77620_SD0_VOLT_MASK, MAX77620_SD_POWER_MODE_MASK,  MAX77620_SD_POWER_MODE_SHIFT,  0x80,  MAX77620_REG_FPS_SD0,  1, 7, 1 },
+	{  "sd0",  12500, 600000,  625000, 1400000,  REGULATOR_SD,  MAX77620_REG_SD0,      MAX77620_REG_SD0_CFG,    MAX77620_SD0_VOLT_MASK,  {{ MAX77620_REG_FPS_SD0,  1, 7, 1 }} },
-	{  REGULATOR_SD,  "sd1", 0x17,  12500, 600000, 1125000, 1125000,      MAX77620_REG_SD1,   MAX77620_REG_SD1_CFG, MAX77620_SD1_VOLT_MASK, MAX77620_SD_POWER_MODE_MASK,  MAX77620_SD_POWER_MODE_SHIFT,  0x40,  MAX77620_REG_FPS_SD1,  0, 1, 5 },
+	{  "sd1",  12500, 600000, 1125000, 1250000,  REGULATOR_SD,  MAX77620_REG_SD1,      MAX77620_REG_SD1_CFG,    MAX77620_SD1_VOLT_MASK,  {{ MAX77620_REG_FPS_SD1,  0, 1, 5 }} },
-	{  REGULATOR_SD,  "sd2", 0x18,  12500, 600000, 1325000, 1350000,      MAX77620_REG_SD2,   MAX77620_REG_SD2_CFG, MAX77620_SDX_VOLT_MASK, MAX77620_SD_POWER_MODE_MASK,  MAX77620_SD_POWER_MODE_SHIFT,  0x20,  MAX77620_REG_FPS_SD2,  1, 5, 2 },
+	{  "sd2",  12500, 600000, 1325000, 1350000,  REGULATOR_SD,  MAX77620_REG_SD2,      MAX77620_REG_SD2_CFG,    MAX77620_SDX_VOLT_MASK,  {{ MAX77620_REG_FPS_SD2,  1, 5, 2 }} },
-	{  REGULATOR_SD,  "sd3", 0x19,  12500, 600000, 1800000, 1800000,      MAX77620_REG_SD3,   MAX77620_REG_SD3_CFG, MAX77620_SDX_VOLT_MASK, MAX77620_SD_POWER_MODE_MASK,  MAX77620_SD_POWER_MODE_SHIFT,  0x10,  MAX77620_REG_FPS_SD3,  0, 3, 3 },
+	{  "sd3",  12500, 600000, 1800000, 1800000,  REGULATOR_SD,  MAX77620_REG_SD3,      MAX77620_REG_SD3_CFG,    MAX77620_SDX_VOLT_MASK,  {{ MAX77620_REG_FPS_SD3,  0, 3, 3 }} },
-	{ REGULATOR_LDO, "ldo0", 0x00,  25000, 800000, 1200000, 1200000, MAX77620_REG_LDO0_CFG, MAX77620_REG_LDO0_CFG2, MAX77620_LDO_VOLT_MASK, MAX77620_LDO_POWER_MODE_MASK, MAX77620_LDO_POWER_MODE_SHIFT, 0x00,  MAX77620_REG_FPS_LDO0, 3, 7, 0 },
+	{ "ldo0",  25000, 800000, 1200000, 1200000,  REGULATOR_LDO, MAX77620_REG_LDO0_CFG, MAX77620_REG_LDO0_CFG2,  MAX77620_LDO_VOLT_MASK,  {{ MAX77620_REG_FPS_LDO0, 3, 7, 0 }} },
-	{ REGULATOR_LDO, "ldo1", 0x00,  25000, 800000, 1050000, 1050000, MAX77620_REG_LDO1_CFG, MAX77620_REG_LDO1_CFG2, MAX77620_LDO_VOLT_MASK, MAX77620_LDO_POWER_MODE_MASK, MAX77620_LDO_POWER_MODE_SHIFT, 0x00,  MAX77620_REG_FPS_LDO1, 3, 7, 0 },
+	{ "ldo1",  25000, 800000, 1050000, 1050000,  REGULATOR_LDO, MAX77620_REG_LDO1_CFG, MAX77620_REG_LDO1_CFG2,  MAX77620_LDO_VOLT_MASK,  {{ MAX77620_REG_FPS_LDO1, 3, 7, 0 }} },
-	{ REGULATOR_LDO, "ldo2", 0x00,  50000, 800000, 1800000, 3300000, MAX77620_REG_LDO2_CFG, MAX77620_REG_LDO2_CFG2, MAX77620_LDO_VOLT_MASK, MAX77620_LDO_POWER_MODE_MASK, MAX77620_LDO_POWER_MODE_SHIFT, 0x00,  MAX77620_REG_FPS_LDO2, 3, 7, 0 },
+	{ "ldo2",  50000, 800000, 1800000, 3300000,  REGULATOR_LDO, MAX77620_REG_LDO2_CFG, MAX77620_REG_LDO2_CFG2,  MAX77620_LDO_VOLT_MASK,  {{ MAX77620_REG_FPS_LDO2, 3, 7, 0 }} },
-	{ REGULATOR_LDO, "ldo3", 0x00,  50000, 800000, 3100000, 3100000, MAX77620_REG_LDO3_CFG, MAX77620_REG_LDO3_CFG2, MAX77620_LDO_VOLT_MASK, MAX77620_LDO_POWER_MODE_MASK, MAX77620_LDO_POWER_MODE_SHIFT, 0x00,  MAX77620_REG_FPS_LDO3, 3, 7, 0 },
+	{ "ldo3",  50000, 800000, 3100000, 3100000,  REGULATOR_LDO, MAX77620_REG_LDO3_CFG, MAX77620_REG_LDO3_CFG2,  MAX77620_LDO_VOLT_MASK,  {{ MAX77620_REG_FPS_LDO3, 3, 7, 0 }} },
-	{ REGULATOR_LDO, "ldo4", 0x00,  12500, 800000,  850000,  850000, MAX77620_REG_LDO4_CFG, MAX77620_REG_LDO4_CFG2, MAX77620_LDO_VOLT_MASK, MAX77620_LDO_POWER_MODE_MASK, MAX77620_LDO_POWER_MODE_SHIFT, 0x00,  MAX77620_REG_FPS_LDO4, 0, 7, 1 },
+	{ "ldo4",  12500, 800000,  850000, 1000000,  REGULATOR_LDO, MAX77620_REG_LDO4_CFG, MAX77620_REG_LDO4_CFG2,  MAX77620_LDO_VOLT_MASK,  {{ MAX77620_REG_FPS_LDO4, 0, 7, 1 }} },
-	{ REGULATOR_LDO, "ldo5", 0x00,  50000, 800000, 1800000, 1800000, MAX77620_REG_LDO5_CFG, MAX77620_REG_LDO5_CFG2, MAX77620_LDO_VOLT_MASK, MAX77620_LDO_POWER_MODE_MASK, MAX77620_LDO_POWER_MODE_SHIFT, 0x00,  MAX77620_REG_FPS_LDO5, 3, 7, 0 },
+	{ "ldo5",  50000, 800000, 1800000, 1800000,  REGULATOR_LDO, MAX77620_REG_LDO5_CFG, MAX77620_REG_LDO5_CFG2,  MAX77620_LDO_VOLT_MASK,  {{ MAX77620_REG_FPS_LDO5, 3, 7, 0 }} },
-	{ REGULATOR_LDO, "ldo6", 0x00,  50000, 800000, 2900000, 2900000, MAX77620_REG_LDO6_CFG, MAX77620_REG_LDO6_CFG2, MAX77620_LDO_VOLT_MASK, MAX77620_LDO_POWER_MODE_MASK, MAX77620_LDO_POWER_MODE_SHIFT, 0x00,  MAX77620_REG_FPS_LDO6, 3, 7, 0 },
+	{ "ldo6",  50000, 800000, 2900000, 2900000,  REGULATOR_LDO, MAX77620_REG_LDO6_CFG, MAX77620_REG_LDO6_CFG2,  MAX77620_LDO_VOLT_MASK,  {{ MAX77620_REG_FPS_LDO6, 3, 7, 0 }} },
-	{ REGULATOR_LDO, "ldo7", 0x00,  50000, 800000, 1050000, 1050000, MAX77620_REG_LDO7_CFG, MAX77620_REG_LDO7_CFG2, MAX77620_LDO_VOLT_MASK, MAX77620_LDO_POWER_MODE_MASK, MAX77620_LDO_POWER_MODE_SHIFT, 0x00,  MAX77620_REG_FPS_LDO7, 1, 4, 3 },
+	{ "ldo7",  50000, 800000, 1050000, 1050000,  REGULATOR_LDO, MAX77620_REG_LDO7_CFG, MAX77620_REG_LDO7_CFG2,  MAX77620_LDO_VOLT_MASK,  {{ MAX77620_REG_FPS_LDO7, 1, 4, 3 }} },
-	{ REGULATOR_LDO, "ldo8", 0x00,  50000, 800000, 1050000, 2800000, MAX77620_REG_LDO8_CFG, MAX77620_REG_LDO8_CFG2, MAX77620_LDO_VOLT_MASK, MAX77620_LDO_POWER_MODE_MASK, MAX77620_LDO_POWER_MODE_SHIFT, 0x00,  MAX77620_REG_FPS_LDO8, 3, 7, 0 }
+	{ "ldo8",  50000, 800000, 1050000, 2800000,  REGULATOR_LDO, MAX77620_REG_LDO8_CFG, MAX77620_REG_LDO8_CFG2,  MAX77620_LDO_VOLT_MASK,  {{ MAX77620_REG_FPS_LDO8, 3, 7, 0 }} },
 	{ "max77621_CPU", 6250, 606250, 1000000, 1400000,  REGULATOR_BC0, MAX77621_VOUT_REG,    MAX77621_VOUT_DVS_REG,  MAX77621_DVC_DVS_VOLT_MASK, {{ MAX77621_CPU_CTRL1_POR_DEFAULT, MAX77621_CPU_CTRL1_HOS_DEFAULT, MAX77621_CPU_CTRL2_POR_DEFAULT, MAX77621_CPU_CTRL2_HOS_DEFAULT }} },
 	{ "max77621_GPU", 6250, 606250, 1200000, 1400000,  REGULATOR_BC0, MAX77621_VOUT_REG,    MAX77621_VOUT_DVS_REG,  MAX77621_DVC_DVS_VOLT_MASK, {{ MAX77621_CPU_CTRL1_POR_DEFAULT, MAX77621_CPU_CTRL1_HOS_DEFAULT, MAX77621_CPU_CTRL2_POR_DEFAULT, MAX77621_CPU_CTRL2_HOS_DEFAULT }} },
 	{ "max77812_CPU", 5000, 250000,  600000, 1525000,  REGULATOR_BC1, MAX77812_REG_M4_VOUT, MAX77812_REG_EN_CTRL,   MAX77812_BUCK_VOLT_MASK,    {{ MAX77812_EN_CTRL_EN_M4_MASK, MAX77812_EN_CTRL_EN_M4_SHIFT, 0, 0 }} },
 	//{ "max77812_GPU", 5000, 250000,  600000, 1525000,  REGULATOR_BC1, MAX77812_REG_M1_VOUT, MAX77812_REG_EN_CTRL,   MAX77812_BUCK_VOLT_MASK,    {{ MAX77812_EN_CTRL_EN_M1_MASK, MAX77812_EN_CTRL_EN_M1_SHIFT, 0, 0 }} },
 	//{ "max77812_RAM", 5000, 250000,  600000, 1525000,  REGULATOR_BC1, MAX77812_REG_M3_VOUT, MAX77812_REG_EN_CTRL,   MAX77812_BUCK_VOLT_MASK,    {{ MAX77812_EN_CTRL_EN_M3_MASK, MAX77812_EN_CTRL_EN_M3_SHIFT, 0, 0 }} } // Only on PHASE211 configuration.
 };
-static void _max77620_set_reg(u8 reg, u8 val)
+static u8 _max77812_get_address()
 {
 	static u8 max77812_i2c_addr = 0;
 	if (max77812_i2c_addr)
 		return max77812_i2c_addr;
 	max77812_i2c_addr =
 		!(FUSE(FUSE_RESERVED_ODM28_T210B01) & 1) ? MAX77812_PHASE31_CPU_I2C_ADDR : MAX77812_PHASE211_CPU_I2C_ADDR;
 	return max77812_i2c_addr;
 }
 static u8 _max7762x_get_i2c_address(u32 id)
 {
 	const max77620_regulator_t *reg = &_pmic_regulators[id];
 	// Choose the correct i2c address.
 	switch (reg->type)
 	{
 	case REGULATOR_SD:
 	case REGULATOR_LDO:
 		return MAX77620_I2C_ADDR;
 	case REGULATOR_BC0:
 		return (id == REGULATOR_CPU0 ? MAX77621_CPU_I2C_ADDR : MAX77621_GPU_I2C_ADDR);
 	case REGULATOR_BC1:
 		return _max77812_get_address();
 	default:
 		return 0;
 	}
 }
 static void _max7762x_set_reg(u8 addr, u8 reg, u8 val)
 {
 	u32 retries = 100;
 	while (retries)
 	{
-		if (i2c_send_byte(I2C_5, MAX77620_I2C_ADDR, reg, val))
+		if (i2c_send_byte(I2C_5, addr, reg, val))
 			break;
-		usleep(100);
+
 		usleep(50);
 		retries--;
 	}
 }
 int max77620_regulator_get_status(u32 id)
 {
-	if (id > REGULATOR_MAX)
+	if (id > REGULATOR_LDO8)
 		return 0;
 	const max77620_regulator_t *reg = &_pmic_regulators[id];
 	// SD power OK status.
 	if (reg->type == REGULATOR_SD)
-		return (i2c_recv_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_STATSD) & reg->status_mask) ? 0 : 1;
+	{
-	return (i2c_recv_byte(I2C_5, MAX77620_I2C_ADDR, reg->cfg_addr) & 8) ? 1 : 0;
+		u8 mask = 1u << (7 - id);
 		return (i2c_recv_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_STATSD) & mask) ? 0 : 1;
 	}
 	// LDO power OK status.
 	return (i2c_recv_byte(I2C_5, MAX77620_I2C_ADDR, reg->cfg_addr) & MAX77620_LDO_CFG2_POK_MASK) ? 1 : 0;
 }
 int max77620_regulator_config_fps(u32 id)
 {
-	if (id > REGULATOR_MAX)
+	if (id > REGULATOR_LDO8)
 		return 0;
 	const max77620_regulator_t *reg = &_pmic_regulators[id];
-	_max77620_set_reg(reg->fps_addr,
+	// Set FPS configuration.
-		(reg->fps_src << MAX77620_FPS_SRC_SHIFT) | (reg->pu_period << MAX77620_FPS_PU_PERIOD_SHIFT) | (reg->pd_period));
+	_max7762x_set_reg(MAX77620_I2C_ADDR,
 		reg->fps.fps_addr,
 		(reg->fps.fps_src   << MAX77620_FPS_SRC_SHIFT)       |
 		(reg->fps.pu_period << MAX77620_FPS_PU_PERIOD_SHIFT) |
 		(reg->fps.pd_period << MAX77620_FPS_PD_PERIOD_SHIFT));
 	return 1;
 }
-int max77620_regulator_set_voltage(u32 id, u32 mv)
+int max7762x_regulator_set_voltage(u32 id, u32 mv)
 {
 	if (id > REGULATOR_MAX)
 		return 0;
 	const max77620_regulator_t *reg = &_pmic_regulators[id];
-	if (mv < reg->mv_min || mv > reg->mv_max)
+	if (mv < reg->uv_min || mv > reg->uv_max)
 		return 0;
-	u32 mult = (mv + reg->mv_step - 1 - reg->mv_min) / reg->mv_step;
+	u8 addr = _max7762x_get_i2c_address(id);
-	u8 val = i2c_recv_byte(I2C_5, MAX77620_I2C_ADDR, reg->volt_addr);
+
 	// Calculate voltage multiplier.
 	u32 mult = (mv + reg->uv_step - 1 - reg->uv_min) / reg->uv_step;
 	u8 val = i2c_recv_byte(I2C_5, addr, reg->volt_addr);
 	val = (val & ~reg->volt_mask) | (mult & reg->volt_mask);
-	_max77620_set_reg(reg->volt_addr, val);
+
 	// Set voltage.
 	_max7762x_set_reg(addr, reg->volt_addr, val);
 	// If max77621 set DVS voltage also.
 	if (reg->type == REGULATOR_BC0)
 		_max7762x_set_reg(addr, reg->cfg_addr, MAX77621_VOUT_ENABLE_MASK | val);
 	// Wait for ramp up/down delay.
 	usleep(1000);
 	return 1;
 }
-int max77620_regulator_enable(u32 id, int enable)
+int max7762x_regulator_enable(u32 id, bool enable)
 {
 	u8 reg_addr;
 	u8 enable_val;
 	u8 enable_mask;
 	u8 enable_shift;
 	if (id > REGULATOR_MAX)
 		return 0;
 	const max77620_regulator_t *reg = &_pmic_regulators[id];
-	u32 addr = reg->type == REGULATOR_SD ? reg->cfg_addr : reg->volt_addr;
+	// Choose the correct i2c and register addresses and mask/shift for each type.
-	u8 val = i2c_recv_byte(I2C_5, MAX77620_I2C_ADDR, addr);
+	switch (reg->type)
 	{
 	case REGULATOR_SD:
 		reg_addr     = reg->cfg_addr;
 		enable_val   = MAX77620_POWER_MODE_NORMAL;
 		enable_mask  = MAX77620_SD_POWER_MODE_MASK;
 		enable_shift = MAX77620_SD_POWER_MODE_SHIFT;
 		break;
 	case REGULATOR_LDO:
 		reg_addr     = reg->volt_addr;
 		enable_val   = MAX77620_POWER_MODE_NORMAL;
 		enable_mask  = MAX77620_LDO_POWER_MODE_MASK;
 		enable_shift = MAX77620_LDO_POWER_MODE_SHIFT;
 		break;
 	case REGULATOR_BC0:
 		reg_addr     = reg->volt_addr;
 		enable_val   = MAX77621_VOUT_ENABLE;
 		enable_mask  = MAX77621_DVC_DVS_ENABLE_MASK;
 		enable_shift = MAX77621_DVC_DVS_ENABLE_SHIFT;
 		break;
 	case REGULATOR_BC1:
 		reg_addr     = reg->cfg_addr;
 		enable_val   = MAX77812_EN_CTRL_ENABLE;
 		enable_mask  = reg->enable.mask;
 		enable_shift = reg->enable.shift;
 		break;
 	default:
 		return 0;
 	}
 	u8 addr = _max7762x_get_i2c_address(id);
 	// Read and enable/disable.
 	u8 val = i2c_recv_byte(I2C_5, addr, reg_addr);
 	val &= ~enable_mask;
 	if (enable)
-		val = (val & ~reg->enable_mask) | ((MAX77620_POWER_MODE_NORMAL << reg->enable_shift) & reg->enable_mask);
+		val |= (enable_val << enable_shift);
-	else
+
-		val &= ~reg->enable_mask;
+	// Set enable.
-	_max77620_set_reg(addr, val);
+	_max7762x_set_reg(addr, reg_addr, val);
 	// Wait for enable/disable ramp delay.
 	usleep(1000);
 	return 1;
 }
-// LDO only.
+void max77620_config_gpio(u32 gpio_id, bool enable)
 int max77620_regulator_set_volt_and_flags(u32 id, u32 mv, u8 flags)
 {
-	if (id > REGULATOR_MAX)
+	if (gpio_id > 7)
-		return 0;
+		return;
 	// Configure as standard GPIO.
 	u8 val = i2c_recv_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_AME_GPIO);
 	i2c_send_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_AME_GPIO, val & ~BIT(gpio_id));
 	// Set GPIO configuration.
 	if (enable)
 		val = MAX77620_CNFG_GPIO_OUTPUT_VAL_HIGH | MAX77620_CNFG_GPIO_DIR_OUTPUT | MAX77620_CNFG_GPIO_DRV_PUSHPULL;
 	else
 		val = MAX77620_CNFG_GPIO_DIR_INPUT | MAX77620_CNFG_GPIO_DRV_OPENDRAIN;
 	i2c_send_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_GPIO0 + gpio_id, val);
 }
 void max77621_config_default(u32 id, bool por)
 {
 	const max77620_regulator_t *reg = &_pmic_regulators[id];
-	if (mv < reg->mv_min || mv > reg->mv_max)
+	if (reg->type != REGULATOR_BC0)
-		return 0;
+		return;
-	u32 mult = (mv + reg->mv_step - 1 - reg->mv_min) / reg->mv_step;
+	u8 addr = _max7762x_get_i2c_address(id);
 	u8 val = ((flags << reg->enable_shift) & ~reg->volt_mask) | (mult & reg->volt_mask);
 	_max77620_set_reg(reg->volt_addr, val);
 	usleep(1000);
-	return 1;
+	if (por)
 	{
 		// Set voltage and disable power before changing the inductor.
 		max7762x_regulator_set_voltage(id, 1000000);
 		max7762x_regulator_enable(id, false);
 		// Configure to default.
 		i2c_send_byte(I2C_5, addr, MAX77621_CONTROL1_REG, reg->ctrl.ctrl1_por);
 		i2c_send_byte(I2C_5, addr, MAX77621_CONTROL2_REG, reg->ctrl.ctrl2_por);
 	}
 	else
 	{
 		i2c_send_byte(I2C_5, addr, MAX77621_CONTROL1_REG, reg->ctrl.ctrl1_hos);
 		i2c_send_byte(I2C_5, addr, MAX77621_CONTROL2_REG, reg->ctrl.ctrl2_hos);
 	}
 }
 void max77620_config_default()
 {
-	for (u32 i = 1; i <= REGULATOR_MAX; i++)
+	// Check if Erista OTP.
 	if (i2c_recv_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_CID4) != 0x35)
 		return;
 	// Set default voltages and enable regulators.
 	for (u32 i = 1; i <= REGULATOR_LDO8; i++)
 	{
 		i2c_recv_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_CID4);
 		max77620_regulator_config_fps(i);
-		max77620_regulator_set_voltage(i, _pmic_regulators[i].mv_default);
+		max7762x_regulator_set_voltage(i, _pmic_regulators[i].uv_default);
-		if (_pmic_regulators[i].fps_src != MAX77620_FPS_SRC_NONE)
+		if (_pmic_regulators[i].fps.fps_src != MAX77620_FPS_SRC_NONE)
-			max77620_regulator_enable(i, 1);
+			max7762x_regulator_enable(i, true);
 	}
 	_max77620_set_reg(MAX77620_REG_SD_CFG2, 4);
 	}
 	// Enable SD0 output voltage sense and disable for SD1. Additionally disable the reserved bit.
 	_max7762x_set_reg(MAX77620_I2C_ADDR, MAX77620_REG_SD_CFG2, MAX77620_SD_CNF2_ROVS_EN_SD0);
 }
 // Stock HOS: disabled.
 void max77620_low_battery_monitor_config(bool enable)
 {
-	_max77620_set_reg(MAX77620_REG_CNFGGLBL1,
+	_max7762x_set_reg(MAX77620_I2C_ADDR, MAX77620_REG_CNFGGLBL1,
-		MAX77620_CNFGGLBL1_LBDAC_EN | (enable ? MAX77620_CNFGGLBL1_MPPLD : 0) |
+		MAX77620_CNFGGLBL1_LBDAC_EN             |
-		MAX77620_CNFGGLBL1_LBHYST_200 | MAX77620_CNFGGLBL1_LBDAC_2800);
+		(enable ? MAX77620_CNFGGLBL1_MPPLD : 0) |
 		MAX77620_CNFGGLBL1_LBHYST_200           |
 		MAX77620_CNFGGLBL1_LBDAC_2800);
 }
--- a/bdk/power/max7762x.h
+++ b/bdk/power/max7762x.h
@ -1,6 +1,6 @@
 /*
 * Copyright (c) 2018 naehrwert
- * Copyright (c) 2019 CTCaer
+ * Copyright (c) 2019-2020 CTCaer
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
@ -32,11 +32,11 @@
 *  ldo1 | XUSB, PCIE    | 25000   | 800000 | 1050000    | 1050000 | 1.05V  (pcv)
 *  ldo2 | SDMMC1        | 50000   | 800000 | 1800000    | 3300000 |
 *  ldo3 | GC ASIC       | 50000   | 800000 | 3100000    | 3100000 | 3.1V   (pcv)
-*  ldo4 | RTC           | 12500   | 800000 |  850000    |  850000 |
+*  ldo4 | RTC           | 12500   | 800000 |  850000    |  850000 | 0.85V  (AO, pcv)
 *  ldo5 | GC Card       | 50000   | 800000 | 1800000    | 1800000 | 1.8V   (pcv)
-*  ldo6 | Touch, ALS    | 50000   | 800000 | 2900000    | 2900000 | 2.9V
+*  ldo6 | Touch, ALS    | 50000   | 800000 | 2900000    | 2900000 | 2.9V   (pcv)
-*  ldo7 | XUSB          | 50000   | 800000 | 1050000    | 1050000 |
+*  ldo7 | XUSB          | 50000   | 800000 | 1050000    | 1050000 | 1.05V  (pcv)
-*  ldo8 | XUSB, DC      | 50000   | 800000 | 1050000    | 1050000 |
+*  ldo8 | XUSB, DP, MCU | 50000   | 800000 | 1050000    | 2800000 | 1.05V/2.8V (pcv)
 */
 /*
@ -58,26 +58,40 @@
 #define REGULATOR_LDO6 10
 #define REGULATOR_LDO7 11
 #define REGULATOR_LDO8 12
-#define REGULATOR_MAX 12
+#define REGULATOR_CPU0 13
 #define REGULATOR_GPU0 14
 #define REGULATOR_CPU1 15
 //#define REGULATOR_GPU1 16
 //#define REGULATOR_GPU1 17
 #define REGULATOR_MAX  15
 #define MAX77621_CPU_I2C_ADDR 0x1B
 #define MAX77621_GPU_I2C_ADDR 0x1C
-#define MAX77621_VOUT_REG 0
+#define MAX77621_VOUT_REG     0x00
-#define MAX77621_VOUT_DVS_REG 1
+#define MAX77621_VOUT_DVS_REG 0x01
-#define MAX77621_CONTROL1_REG 2
+#define MAX77621_CONTROL1_REG 0x02
-#define MAX77621_CONTROL2_REG 3
+#define MAX77621_CONTROL2_REG 0x03
-
+#define MAX77621_CHIPID1_REG  0x04
-/* MAX77621_VOUT */
+#define MAX77621_CHIPID2_REG  0x05
 #define MAX77621_VOUT_ENABLE  BIT(7)
 #define MAX77621_VOUT_MASK    0x7F
 #define  MAX77621_VOUT_0_95V  0x37
 #define  MAX77621_VOUT_1_09V  0x4F
 /* MAX77621_VOUT_DVC_DVS */
-#define MAX77621_DVS_VOUT_MASK 0x7F
+#define MAX77621_DVC_DVS_VOLT_MASK    0x7F
 #define MAX77621_DVC_DVS_ENABLE_SHIFT 7
 #define MAX77621_DVC_DVS_ENABLE_MASK  (1 << MAX77621_DVC_DVS_ENABLE_SHIFT)
 /* MAX77621_VOUT */
 #define MAX77621_VOUT_DISABLE     0
 #define MAX77621_VOUT_ENABLE      1
 #define MAX77621_VOUT_ENABLE_MASK (MAX77621_VOUT_ENABLE << MAX77621_DVC_DVS_ENABLE_SHIFT)
 /* MAX77621_CONTROL1 */
 #define MAX77621_RAMP_12mV_PER_US  0x0
 #define MAX77621_RAMP_25mV_PER_US  0x1
 #define MAX77621_RAMP_50mV_PER_US  0x2
 #define MAX77621_RAMP_200mV_PER_US 0x3
 #define MAX77621_RAMP_MASK         0x3
 #define MAX77621_FREQSHIFT_9PER    BIT(2)
 #define MAX77621_BIAS_ENABLE       BIT(3)
 #define MAX77621_AD_ENABLE         BIT(4)
@ -85,34 +99,50 @@
 #define MAX77621_FPWM_EN_M         BIT(6)
 #define MAX77621_SNS_ENABLE        BIT(7)
 #define MAX77621_RAMP_12mV_PER_US  0x0
 #define MAX77621_RAMP_25mV_PER_US  0x1
 #define MAX77621_RAMP_50mV_PER_US  0x2
 #define MAX77621_RAMP_200mV_PER_US 0x3
 #define MAX77621_RAMP_MASK         0x3
 /* MAX77621_CONTROL2 */
 #define MAX77621_INDUCTOR_MIN_30_PER  0
 #define MAX77621_INDUCTOR_NOMINAL     1
 #define MAX77621_INDUCTOR_PLUS_30_PER 2
 #define MAX77621_INDUCTOR_PLUS_60_PER 3
 #define MAX77621_INDUCTOR_MASK        3
 #define MAX77621_CKKADV_TRIP_75mV_PER_US          0x0
 #define MAX77621_CKKADV_TRIP_150mV_PER_US         BIT(2)
 #define MAX77621_CKKADV_TRIP_75mV_PER_US_HIST_DIS BIT(3)
 #define MAX77621_CKKADV_TRIP_DISABLE              (BIT(2) | BIT(3))
 #define MAX77621_CKKADV_TRIP_MASK                 (BIT(2) | BIT(3))
 #define MAX77621_FT_ENABLE       BIT(4)
-#define MAX77621_DISCH_ENBABLE   BIT(5)
+#define MAX77621_DISCH_ENABLE    BIT(5)
 #define MAX77621_WDTMR_ENABLE    BIT(6)
 #define MAX77621_T_JUNCTION_120  BIT(7)
-#define MAX77621_CKKADV_TRIP_DISABLE              0xC
+#define MAX77621_CPU_CTRL1_POR_DEFAULT  (MAX77621_RAMP_50mV_PER_US)
-#define MAX77621_CKKADV_TRIP_75mV_PER_US          0x0
+#define MAX77621_CPU_CTRL1_HOS_DEFAULT  (MAX77621_AD_ENABLE                        | \
-#define MAX77621_CKKADV_TRIP_150mV_PER_US         0x4
+										 MAX77621_NFSR_ENABLE                      | \
-#define MAX77621_CKKADV_TRIP_75mV_PER_US_HIST_DIS 0x8
+										 MAX77621_SNS_ENABLE                       | \
 										 MAX77621_RAMP_12mV_PER_US)
 #define MAX77621_CPU_CTRL2_POR_DEFAULT  (MAX77621_T_JUNCTION_120                   | \
 										 MAX77621_FT_ENABLE                        | \
 										 MAX77621_CKKADV_TRIP_75mV_PER_US_HIST_DIS | \
 										 MAX77621_CKKADV_TRIP_150mV_PER_US         | \
 										 MAX77621_INDUCTOR_NOMINAL)
 #define MAX77621_CPU_CTRL2_HOS_DEFAULT  (MAX77621_T_JUNCTION_120                   | \
 										 MAX77621_WDTMR_ENABLE                     | \
 										 MAX77621_CKKADV_TRIP_75mV_PER_US          | \
 										 MAX77621_INDUCTOR_NOMINAL)
-#define MAX77621_INDUCTOR_MIN_30_PER  0x0
+#define MAX77621_CTRL_HOS_CFG 0
-#define MAX77621_INDUCTOR_NOMINAL     0x1
+#define MAX77621_CTRL_POR_CFG 1
 #define MAX77621_INDUCTOR_PLUS_30_PER 0x2
 #define MAX77621_INDUCTOR_PLUS_60_PER 0x3
 int  max77620_regulator_get_status(u32 id);
 int  max77620_regulator_config_fps(u32 id);
-int max77620_regulator_set_voltage(u32 id, u32 mv);
+int  max7762x_regulator_set_voltage(u32 id, u32 mv);
-int max77620_regulator_enable(u32 id, int enable);
+int  max7762x_regulator_enable(u32 id, bool enable);
-int max77620_regulator_set_volt_and_flags(u32 id, u32 mv, u8 flags);
+void max77620_config_gpio(u32 id, bool enable);
 void max77620_config_default();
 void max77620_low_battery_monitor_config(bool enable);
 void max77621_config_default(u32 id, bool por);
 #endif
--- a/bdk/power/max77812.h
+++ b/bdk/power/max77812.h
@ -17,8 +17,8 @@
 #ifndef _MAX77812_H_
 #define _MAX77812_H_
-#define MAX77812_PHASE31_CPU_I2C_ADDR  0x31
+#define MAX77812_PHASE31_CPU_I2C_ADDR  0x31 // 2 Outputs: 3-phase M1 + 1-phase M4.
-#define MAX77812_PHASE211_CPU_I2C_ADDR 0x33
+#define MAX77812_PHASE211_CPU_I2C_ADDR 0x33 // 3 Outputs: 2-phase M1 + 1-phase M3 + 1-phase M4.
 #define MAX77812_REG_RSET			0x00
 #define MAX77812_REG_INT_SRC		0x01
@ -27,7 +27,15 @@
 #define MAX77812_REG_TOPSYS_INT_M	0x04
 #define MAX77812_REG_TOPSYS_STAT	0x05
 #define MAX77812_REG_EN_CTRL		0x06
-#define  MAX77812_EN_CTRL_EN_M4 BIT(6)
+#define  MAX77812_EN_CTRL_ENABLE      1
 #define  MAX77812_EN_CTRL_EN_M1_SHIFT 0
 #define  MAX77812_EN_CTRL_EN_M1_MASK  (1 << MAX77812_EN_CTRL_EN_M1_SHIFT)
 #define  MAX77812_EN_CTRL_EN_M2_SHIFT 2
 #define  MAX77812_EN_CTRL_EN_M2_MASK  (1 << MAX77812_EN_CTRL_EN_M2_SHIFT)
 #define  MAX77812_EN_CTRL_EN_M3_SHIFT 4
 #define  MAX77812_EN_CTRL_EN_M3_MASK  (1 << MAX77812_EN_CTRL_EN_M3_SHIFT)
 #define  MAX77812_EN_CTRL_EN_M4_SHIFT 6
 #define  MAX77812_EN_CTRL_EN_M4_MASK  (1 << MAX77812_EN_CTRL_EN_M4_SHIFT)
 #define MAX77812_REG_STUP_DLY2		0x07
 #define MAX77812_REG_STUP_DLY3		0x08
 #define MAX77812_REG_STUP_DLY4		0x09
@ -46,11 +54,10 @@
 #define MAX77812_REG_BUCK_INT		0x20
 #define MAX77812_REG_BUCK_INT_M		0x21
 #define MAX77812_REG_BUCK_STAT		0x22
-#define MAX77812_REG_M1_VOUT		0x23
+#define MAX77812_REG_M1_VOUT		0x23 // GPU.
 #define MAX77812_REG_M2_VOUT		0x24
-#define MAX77812_REG_M3_VOUT		0x25
+#define MAX77812_REG_M3_VOUT		0x25 // DRAM on PHASE211.
-#define MAX77812_REG_M4_VOUT		0x26
+#define MAX77812_REG_M4_VOUT		0x26 // CPU.
 #define  MAX77812_M4_VOUT_0_80V 0x6E
 #define MAX77812_REG_M1_VOUT_D		0x27
 #define MAX77812_REG_M2_VOUT_D		0x28
 #define MAX77812_REG_M3_VOUT_D		0x29
@ -66,6 +73,8 @@
 #define MAX77812_REG_GLB_CFG1		0x33
 #define MAX77812_REG_GLB_CFG2		0x34
 #define MAX77812_REG_GLB_CFG3		0x35
 /*! Protected area and settings only for MAX77812_REG_VERSION 4 */
 #define MAX77812_REG_GLB_CFG4		0x36
 #define MAX77812_REG_GLB_CFG5		0x37
 #define MAX77812_REG_GLB_CFG6		0x38
@ -91,10 +100,6 @@
 #define MAX77812_ES2_VERSION				0x04
 #define MAX77812_QS_VERSION					0x05
-#define MAX77812_VOUT_MASK					0xFF
+#define MAX77812_BUCK_VOLT_MASK				0xFF
 #define MAX77812_VOUT_N_VOLTAGE				0xFF
 #define MAX77812_VOUT_VMIN					250000
 #define MAX77812_VOUT_VMAX					1525000
 #define MAX77812_VOUT_STEP					5000
 #endif
--- a/bdk/power/regulator_5v.c
+++ b/bdk/power/regulator_5v.c
@ -1,5 +1,5 @@
 /*
- * Copyright (c) 2019 CTCaer
+ * Copyright (c) 2019-2021 CTCaer
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
@ -14,63 +14,112 @@
 * along with this program.  If not, see <http://www.gnu.org/licenses/>.
 */
 #include <soc/fuse.h>
 #include <soc/gpio.h>
 #include <soc/hw_init.h>
 #include <soc/pinmux.h>
 #include <soc/pmc.h>
 #include <soc/t210.h>
 #include <utils/types.h>
 static u8 reg_5v_dev = 0;
 static bool usb_src = false;
-void regulator_enable_5v(u8 dev)
+void regulator_5v_enable(u8 dev)
 {
 	// The power supply selection from battery or USB is automatic.
 	if (!reg_5v_dev)
 	{
-		// Fan and Rail power from internal 5V regulator (battery).
+		// Fan and Rail power from battery 5V regulator.
 		PINMUX_AUX(PINMUX_AUX_SATA_LED_ACTIVE) = 1;
 		gpio_config(GPIO_PORT_A, GPIO_PIN_5, GPIO_MODE_GPIO);
 		gpio_output_enable(GPIO_PORT_A, GPIO_PIN_5, GPIO_OUTPUT_ENABLE);
 		gpio_write(GPIO_PORT_A, GPIO_PIN_5, GPIO_HIGH);
-		// Fan and Rail power from USB 5V VDD.
+		// Only Icosa and Iowa have USB 5V VBUS rails. Skip on Hoag/Aula.
 		u32 hw_type = fuse_read_hw_type();
 		if (hw_type == FUSE_NX_HW_TYPE_ICOSA ||
 			hw_type == FUSE_NX_HW_TYPE_IOWA)
 		{
 			// Fan and Rail power from USB 5V VBUS.
 			PINMUX_AUX(PINMUX_AUX_USB_VBUS_EN0) = PINMUX_LPDR | 1;
 			gpio_config(GPIO_PORT_CC, GPIO_PIN_4, GPIO_MODE_GPIO);
 			gpio_output_enable(GPIO_PORT_CC, GPIO_PIN_4, GPIO_OUTPUT_ENABLE);
-		gpio_write(GPIO_PORT_CC, GPIO_PIN_4, GPIO_HIGH);
+			gpio_write(GPIO_PORT_CC, GPIO_PIN_4, GPIO_LOW);
 		}
 		// Enable GPIO AO IO rail for T210.
 		if (hw_get_chip_id() == GP_HIDREV_MAJOR_T210)
 		{
 			// Make sure GPIO power is enabled.
 			PMC(APBDEV_PMC_NO_IOPOWER) &= ~PMC_NO_IOPOWER_GPIO_IO_EN;
 			(void)PMC(APBDEV_PMC_NO_IOPOWER); // Commit write.
 			// Override power detect for GPIO AO IO rails.
 			PMC(APBDEV_PMC_PWR_DET_VAL) &= ~PMC_PWR_DET_GPIO_IO_EN;
 			(void)PMC(APBDEV_PMC_PWR_DET_VAL); // Commit write.
 		}
 		usb_src = false;
 	}
 	reg_5v_dev |= dev;
 }
-void regulator_disable_5v(u8 dev)
+void regulator_5v_disable(u8 dev)
 {
 	reg_5v_dev &= ~dev;
 	if (!reg_5v_dev)
 	{
-		// Rail power from internal 5V regulator (battery).
+		// Rail power from battery 5V regulator.
 		gpio_write(GPIO_PORT_A, GPIO_PIN_5, GPIO_LOW);
 		gpio_output_enable(GPIO_PORT_A, GPIO_PIN_5, GPIO_OUTPUT_DISABLE);
 		gpio_config(GPIO_PORT_A, GPIO_PIN_5, GPIO_MODE_SPIO);
 		PINMUX_AUX(PINMUX_AUX_SATA_LED_ACTIVE) = PINMUX_PARKED | PINMUX_INPUT_ENABLE;
-		// Rail power from USB 5V VDD.
+		// Only Icosa and Iowa have USB 5V VBUS rails. Skip on Hoag/Aula.
 		u32 hw_type = fuse_read_hw_type();
 		if (hw_type == FUSE_NX_HW_TYPE_ICOSA ||
 			hw_type == FUSE_NX_HW_TYPE_IOWA)
 		{
 			// Rail power from USB 5V VBUS.
 			gpio_write(GPIO_PORT_CC, GPIO_PIN_4, GPIO_LOW);
 			gpio_output_enable(GPIO_PORT_CC, GPIO_PIN_4, GPIO_OUTPUT_DISABLE);
 			gpio_config(GPIO_PORT_CC, GPIO_PIN_4, GPIO_MODE_SPIO);
 			PINMUX_AUX(PINMUX_AUX_USB_VBUS_EN0) = PINMUX_IO_HV | PINMUX_LPDR | PINMUX_PARKED | PINMUX_INPUT_ENABLE;
 			usb_src = false;
 		}
 		// GPIO AO IO rails.
 		if (hw_get_chip_id() == GP_HIDREV_MAJOR_T210)
 		{
 			PMC(APBDEV_PMC_PWR_DET_VAL) |= PMC_PWR_DET_GPIO_IO_EN;
 			(void)PMC(APBDEV_PMC_PWR_DET_VAL); // Commit write.
 		}
 	}
 }
-bool regulator_get_5v_dev_enabled(u8 dev)
+bool regulator_5v_get_dev_enabled(u8 dev)
 {
 	return (reg_5v_dev & dev);
 }
 void regulator_5v_usb_src_enable(bool enable)
 {
 	// Only for Icosa/Iowa. Skip on Hoag/Aula.
 	u32 hw_type = fuse_read_hw_type();
 	if (hw_type != FUSE_NX_HW_TYPE_ICOSA &&
 		hw_type != FUSE_NX_HW_TYPE_IOWA)
 		return;
 	if (enable && !usb_src)
 	{
 		gpio_write(GPIO_PORT_CC, GPIO_PIN_4, GPIO_HIGH);
 		usb_src = true;
 	}
 	else if (!enable && usb_src)
 	{
 		gpio_write(GPIO_PORT_CC, GPIO_PIN_4, GPIO_LOW);
 		usb_src = false;
 	}
 }
--- a/bdk/power/regulator_5v.h
+++ b/bdk/power/regulator_5v.h
@ -27,8 +27,9 @@ enum
 	REGULATOR_5V_ALL  = 0xFF
 };
-void regulator_enable_5v(u8 dev);
+void regulator_5v_enable(u8 dev);
-void regulator_disable_5v(u8 dev);
+void regulator_5v_disable(u8 dev);
-bool regulator_get_5v_dev_enabled(u8 dev);
+bool regulator_5v_get_dev_enabled(u8 dev);
 void regulator_5v_usb_src_enable(bool enable);
 #endif
--- a/bdk/sec/se.c
+++ b/bdk/sec/se.c
@ -1,8 +1,8 @@
 /*
 * Copyright (c) 2018 naehrwert
- * Copyright (c) 2018 CTCaer
+ * Copyright (c) 2018-2021 CTCaer
 * Copyright (c) 2018 Atmosphère-NX
- * Copyright (c) 2019-2020 shchmue
+ * Copyright (c) 2019-2021 shchmue
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
@ -35,8 +35,8 @@ typedef struct _se_ll_t
 	vu32 size;
 } se_ll_t;
-static u32 _se_rsa_mod_sizes[TEGRA_SE_RSA_KEYSLOT_COUNT];
+static u32 _se_rsa_mod_sizes[SE_RSA_KEYSLOT_COUNT];
-static u32 _se_rsa_exp_sizes[TEGRA_SE_RSA_KEYSLOT_COUNT];
+static u32 _se_rsa_exp_sizes[SE_RSA_KEYSLOT_COUNT];
 static void _gf256_mul_x(void *block)
 {
@ -79,17 +79,17 @@ static void _se_ll_init(se_ll_t *ll, u32 addr, u32 size)
 static void _se_ll_set(se_ll_t *dst, se_ll_t *src)
 {
-	SE(SE_IN_LL_ADDR_REG_OFFSET) = (u32)src;
+	SE(SE_IN_LL_ADDR_REG) = (u32)src;
-	SE(SE_OUT_LL_ADDR_REG_OFFSET) = (u32)dst;
+	SE(SE_OUT_LL_ADDR_REG) = (u32)dst;
 }
 static int _se_wait()
 {
-	while (!(SE(SE_INT_STATUS_REG_OFFSET) & SE_INT_OP_DONE(INT_SET)))
+	while (!(SE(SE_INT_STATUS_REG) & SE_INT_OP_DONE))
 		;
-	if (SE(SE_INT_STATUS_REG_OFFSET) & SE_INT_ERROR(INT_SET) ||
+	if (SE(SE_INT_STATUS_REG) & SE_INT_ERR_STAT ||
-		SE(SE_STATUS_0) & SE_STATUS_0_STATE_WAIT_IN ||
+	   (SE(SE_STATUS_REG) & SE_STATUS_STATE_MASK) != SE_STATUS_STATE_IDLE ||
-		SE(SE_ERR_STATUS_0) != SE_ERR_STATUS_0_SE_NS_ACCESS_CLEAR)
+		SE(SE_ERR_STATUS_REG) != 0)
 		return 0;
 	return 1;
 }
@ -114,12 +114,12 @@ static int _se_execute(u32 op, void *dst, u32 dst_size, const void *src, u32 src
 	_se_ll_set(ll_dst, ll_src);
-	SE(SE_ERR_STATUS_0) = SE(SE_ERR_STATUS_0);
+	SE(SE_ERR_STATUS_REG) = SE(SE_ERR_STATUS_REG);
-	SE(SE_INT_STATUS_REG_OFFSET) = SE(SE_INT_STATUS_REG_OFFSET);
+	SE(SE_INT_STATUS_REG) = SE(SE_INT_STATUS_REG);
 	bpmp_mmu_maintenance(BPMP_MMU_MAINT_CLN_INV_WAY, false);
-	SE(SE_OPERATION_REG_OFFSET) = SE_OPERATION(op);
+	SE(SE_OPERATION_REG) = op;
 	if (is_oneshot)
 	{
@ -168,36 +168,36 @@ static int _se_execute_one_block(u32 op, void *dst, u32 dst_size, const void *sr
 	if (!src || !dst)
 		return 0;
-	u8 *block = (u8 *)malloc(0x10);
+	u8 *block = (u8 *)malloc(SE_AES_BLOCK_SIZE);
-	memset(block, 0, 0x10);
+	memset(block, 0, SE_AES_BLOCK_SIZE);
-	SE(SE_BLOCK_COUNT_REG_OFFSET) = 0;
+	SE(SE_CRYPTO_BLOCK_COUNT_REG) = 1 - 1;
 	memcpy(block, src, src_size);
-	int res = _se_execute_oneshot(op, block, 0x10, block, 0x10);
+	int res = _se_execute_oneshot(op, block, SE_AES_BLOCK_SIZE, block, SE_AES_BLOCK_SIZE);
 	memcpy(dst, block, dst_size);
 	free(block);
 	return res;
 }
-static void _se_aes_ctr_set(void *ctr)
+static void _se_aes_ctr_set(const void *ctr)
 {
-	u32 data[TEGRA_SE_AES_BLOCK_SIZE / 4];
+	u32 data[SE_AES_IV_SIZE / 4];
-	memcpy(data, ctr, TEGRA_SE_AES_BLOCK_SIZE);
+	memcpy(data, ctr, SE_AES_IV_SIZE);
-	for (u32 i = 0; i < (TEGRA_SE_AES_BLOCK_SIZE / 4); i++)
+	for (u32 i = 0; i < SE_CRYPTO_LINEAR_CTR_REG_COUNT; i++)
-		SE(SE_CRYPTO_CTR_REG_OFFSET + (4 * i)) = data[i];
+		SE(SE_CRYPTO_LINEAR_CTR_REG + (4 * i)) = data[i];
 }
 void se_rsa_acc_ctrl(u32 rs, u32 flags)
 {
-	if (flags & SE_RSA_KEY_TBL_DIS_KEY_ALL_FLAG)
+	if (flags & SE_RSA_KEY_TBL_DIS_KEY_ACCESS_FLAG)
-		SE(SE_RSA_KEYTABLE_ACCESS_REG_OFFSET + 4 * rs) =
+		SE(SE_RSA_KEYTABLE_ACCESS_REG + 4 * rs) =
-			((flags >> SE_RSA_KEY_TBL_DIS_KEYUSE_FLAG_SHIFT) & SE_RSA_KEY_TBL_DIS_KEYUSE_FLAG) |
+			(((flags >> 4) & SE_RSA_KEY_TBL_DIS_KEYUSE_FLAG) |(flags & SE_RSA_KEY_TBL_DIS_KEY_READ_UPDATE_FLAG)) ^
-			((flags & SE_RSA_KEY_TBL_DIS_KEY_READ_UPDATE_FLAG) ^ SE_RSA_KEY_TBL_DIS_KEY_ALL_COMMON_FLAG);
+				SE_RSA_KEY_TBL_DIS_KEY_READ_UPDATE_USE_FLAG;
-	if (flags & SE_RSA_KEY_TBL_DIS_KEY_LOCK_FLAG)
+	if (flags & SE_RSA_KEY_LOCK_FLAG)
-		SE(SE_RSA_KEYTABLE_ACCESS_LOCK_OFFSET) &= ~BIT(rs);
+		SE(SE_RSA_SECURITY_PERKEY_REG) &= ~BIT(rs);
 }
 // se_rsa_key_set() was derived from Atmosphère's set_rsa_keyslot
@ -206,15 +206,15 @@ void se_rsa_key_set(u32 ks, const void *mod, u32 mod_size, const void *exp, u32
 	u32 *data = (u32 *)mod;
 	for (u32 i = 0; i < mod_size / 4; i++)
 	{
-		SE(SE_RSA_KEYTABLE_ADDR) = RSA_KEY_NUM(ks) | RSA_KEY_TYPE(RSA_KEY_TYPE_MOD) | i;
+		SE(SE_RSA_KEYTABLE_ADDR_REG) = RSA_KEY_NUM(ks) | SE_RSA_KEYTABLE_TYPE(RSA_KEY_TYPE_MOD) | i;
-		SE(SE_RSA_KEYTABLE_DATA) = byte_swap_32(data[mod_size / 4 - i - 1]);
+		SE(SE_RSA_KEYTABLE_DATA_REG) = byte_swap_32(data[mod_size / 4 - i - 1]);
 	}
 	data = (u32 *)exp;
 	for (u32 i = 0; i < exp_size / 4; i++)
 	{
-		SE(SE_RSA_KEYTABLE_ADDR) = RSA_KEY_NUM(ks) | RSA_KEY_TYPE(RSA_KEY_TYPE_EXP) | i;
+		SE(SE_RSA_KEYTABLE_ADDR_REG) = RSA_KEY_NUM(ks) | SE_RSA_KEYTABLE_TYPE(RSA_KEY_TYPE_EXP) | i;
-		SE(SE_RSA_KEYTABLE_DATA) = byte_swap_32(data[exp_size / 4 - i - 1]);
+		SE(SE_RSA_KEYTABLE_DATA_REG) = byte_swap_32(data[exp_size / 4 - i - 1]);
 	}
 	_se_rsa_mod_sizes[ks] = mod_size;
@ -224,15 +224,15 @@ void se_rsa_key_set(u32 ks, const void *mod, u32 mod_size, const void *exp, u32
 // se_rsa_key_clear() was derived from Atmosphère's clear_rsa_keyslot
 void se_rsa_key_clear(u32 ks)
 {
-	for (u32 i = 0; i < TEGRA_SE_RSA2048_DIGEST_SIZE / 4; i++)
+	for (u32 i = 0; i < SE_RSA2048_DIGEST_SIZE / 4; i++)
 	{
-		SE(SE_RSA_KEYTABLE_ADDR) = RSA_KEY_NUM(ks) | RSA_KEY_TYPE(RSA_KEY_TYPE_MOD) | i;
+		SE(SE_RSA_KEYTABLE_ADDR_REG) = RSA_KEY_NUM(ks) | SE_RSA_KEYTABLE_TYPE(RSA_KEY_TYPE_MOD) | i;
-		SE(SE_RSA_KEYTABLE_DATA) = 0;
+		SE(SE_RSA_KEYTABLE_DATA_REG) = 0;
 	}
-	for (u32 i = 0; i < TEGRA_SE_RSA2048_DIGEST_SIZE / 4; i++)
+	for (u32 i = 0; i < SE_RSA2048_DIGEST_SIZE / 4; i++)
 	{
-		SE(SE_RSA_KEYTABLE_ADDR) = RSA_KEY_NUM(ks) | RSA_KEY_TYPE(RSA_KEY_TYPE_EXP) | i;
+		SE(SE_RSA_KEYTABLE_ADDR_REG) = RSA_KEY_NUM(ks) | SE_RSA_KEYTABLE_TYPE(RSA_KEY_TYPE_EXP) | i;
-		SE(SE_RSA_KEYTABLE_DATA) = 0;
+		SE(SE_RSA_KEYTABLE_DATA_REG) = 0;
 	}
 }
@ -240,22 +240,22 @@ void se_rsa_key_clear(u32 ks)
 int se_rsa_exp_mod(u32 ks, void *dst, u32 dst_size, const void *src, u32 src_size)
 {
 	int res;
-	u8 stack_buf[TEGRA_SE_RSA2048_DIGEST_SIZE];
+	u8 stack_buf[SE_RSA2048_DIGEST_SIZE];
 	for (u32 i = 0; i < src_size; i++)
 		stack_buf[i] = *((u8 *)src + src_size - i - 1);
-	SE(SE_CONFIG_REG_OFFSET) = SE_CONFIG_ENC_ALG(ALG_RSA) | SE_CONFIG_DST(DST_RSAREG);
+	SE(SE_CONFIG_REG) = SE_CONFIG_ENC_ALG(ALG_RSA) | SE_CONFIG_DST(DST_RSAREG);
 	SE(SE_RSA_CONFIG) = RSA_KEY_SLOT(ks);
-	SE(SE_RSA_KEY_SIZE_REG_OFFSET) = (_se_rsa_mod_sizes[ks] >> 6) - 1;
+	SE(SE_RSA_KEY_SIZE_REG) = (_se_rsa_mod_sizes[ks] >> 6) - 1;
-	SE(SE_RSA_EXP_SIZE_REG_OFFSET) = _se_rsa_exp_sizes[ks] >> 2;
+	SE(SE_RSA_EXP_SIZE_REG) = _se_rsa_exp_sizes[ks] >> 2;
-	res = _se_execute_oneshot(OP_START, NULL, 0, stack_buf, src_size);
+	res = _se_execute_oneshot(SE_OP_START, NULL, 0, stack_buf, src_size);
 	// Copy output hash.
 	u32 *dst32 = (u32 *)dst;
 	for (u32 i = 0; i < dst_size / 4; i++)
-		dst32[dst_size / 4 - i - 1] = byte_swap_32(SE(SE_RSA_OUTPUT + (i << 2)));
+		dst32[dst_size / 4 - i - 1] = byte_swap_32(SE(SE_RSA_OUTPUT_REG + (i * 4)));
 	return res;
 }
@ -263,54 +263,54 @@ int se_rsa_exp_mod(u32 ks, void *dst, u32 dst_size, const void *src, u32 src_siz
 void se_key_acc_ctrl(u32 ks, u32 flags)
 {
 	if (flags & SE_KEY_TBL_DIS_KEY_ACCESS_FLAG)
-		SE(SE_KEY_TABLE_ACCESS_REG_OFFSET + 4 * ks) = ~flags;
+		SE(SE_CRYPTO_KEYTABLE_ACCESS_REG + 4 * ks) = ~flags;
-	if (flags & SE_KEY_TBL_DIS_KEY_LOCK_FLAG)
+	if (flags & SE_KEY_LOCK_FLAG)
-		SE(SE_KEY_TABLE_ACCESS_LOCK_OFFSET) &= ~BIT(ks);
+		SE(SE_CRYPTO_SECURITY_PERKEY_REG) &= ~BIT(ks);
 }
 u32 se_key_acc_ctrl_get(u32 ks)
 {
-	return SE(SE_KEY_TABLE_ACCESS_REG_OFFSET + 4 * ks);
+	return SE(SE_CRYPTO_KEYTABLE_ACCESS_REG + 4 * ks);
 }
 void se_aes_key_set(u32 ks, const void *key, u32 size)
 {
-	u32 data[TEGRA_SE_AES_MAX_KEY_SIZE / 4];
+	u32 data[SE_AES_MAX_KEY_SIZE / 4];
 	memcpy(data, key, size);
 	for (u32 i = 0; i < (size / 4); i++)
 	{
-		SE(SE_KEYTABLE_REG_OFFSET) = SE_KEYTABLE_SLOT(ks) | i;
+		SE(SE_CRYPTO_KEYTABLE_ADDR_REG) = SE_KEYTABLE_SLOT(ks) | SE_KEYTABLE_PKT(i); // QUAD is automatically set by PKT.
-		SE(SE_KEYTABLE_DATA0_REG_OFFSET) = data[i];
+		SE(SE_CRYPTO_KEYTABLE_DATA_REG) = data[i];
 	}
 }
 void se_aes_key_partial_set(u32 ks, u32 index, u32 data)
 {
-	SE(SE_KEYTABLE_REG_OFFSET) = SE_KEYTABLE_SLOT(ks) | index;
+	SE(SE_CRYPTO_KEYTABLE_ADDR_REG) = SE_KEYTABLE_SLOT(ks) | index;
-	SE(SE_KEYTABLE_DATA0_REG_OFFSET) = data;
+	SE(SE_CRYPTO_KEYTABLE_DATA_REG) = data;
 }
 void se_aes_iv_set(u32 ks, const void *iv)
 {
-	u32 data[TEGRA_SE_AES_BLOCK_SIZE / 4];
+	u32 data[SE_AES_IV_SIZE / 4];
-	memcpy(data, iv, TEGRA_SE_AES_BLOCK_SIZE);
+	memcpy(data, iv, SE_AES_IV_SIZE);
-	for (u32 i = 0; i < (TEGRA_SE_AES_BLOCK_SIZE / 4); i++)
+	for (u32 i = 0; i < (SE_AES_IV_SIZE / 4); i++)
 	{
-		SE(SE_KEYTABLE_REG_OFFSET) = SE_KEYTABLE_SLOT(ks) | SE_KEYTABLE_QUAD(QUAD_ORG_IV) | i;
+		SE(SE_CRYPTO_KEYTABLE_ADDR_REG) = SE_KEYTABLE_SLOT(ks) | SE_KEYTABLE_QUAD(ORIGINAL_IV) | SE_KEYTABLE_PKT(i);
-		SE(SE_KEYTABLE_DATA0_REG_OFFSET) = data[i];
+		SE(SE_CRYPTO_KEYTABLE_DATA_REG) = data[i];
 	}
 }
 void se_aes_key_get(u32 ks, void *key, u32 size)
 {
-	u32 data[TEGRA_SE_AES_MAX_KEY_SIZE / 4];
+	u32 data[SE_AES_MAX_KEY_SIZE / 4];
 	for (u32 i = 0; i < (size / 4); i++)
 	{
-		SE(SE_KEYTABLE_REG_OFFSET) = SE_KEYTABLE_SLOT(ks) | i;
+		SE(SE_CRYPTO_KEYTABLE_ADDR_REG) = SE_KEYTABLE_SLOT(ks) | SE_KEYTABLE_PKT(i); // QUAD is automatically set by PKT.
-		data[i] = SE(SE_KEYTABLE_DATA0_REG_OFFSET);
+		data[i] = SE(SE_CRYPTO_KEYTABLE_DATA_REG);
 	}
 	memcpy(key, data, size);
@ -318,91 +318,91 @@ void se_aes_key_get(u32 ks, void *key, u32 size)
 void se_aes_key_clear(u32 ks)
 {
-	for (u32 i = 0; i < (TEGRA_SE_AES_MAX_KEY_SIZE / 4); i++)
+	for (u32 i = 0; i < (SE_AES_MAX_KEY_SIZE / 4); i++)
 	{
-		SE(SE_KEYTABLE_REG_OFFSET) = SE_KEYTABLE_SLOT(ks) | i;
+		SE(SE_CRYPTO_KEYTABLE_ADDR_REG) = SE_KEYTABLE_SLOT(ks) | SE_KEYTABLE_PKT(i); // QUAD is automatically set by PKT.
-		SE(SE_KEYTABLE_DATA0_REG_OFFSET) = 0;
+		SE(SE_CRYPTO_KEYTABLE_DATA_REG) = 0;
 	}
 }
 void se_aes_iv_clear(u32 ks)
 {
-	for (u32 i = 0; i < (TEGRA_SE_AES_BLOCK_SIZE / 4); i++)
+	for (u32 i = 0; i < (SE_AES_IV_SIZE / 4); i++)
 	{
-		SE(SE_KEYTABLE_REG_OFFSET) = SE_KEYTABLE_SLOT(ks) | SE_KEYTABLE_QUAD(QUAD_ORG_IV) | i;
+		SE(SE_CRYPTO_KEYTABLE_ADDR_REG) = SE_KEYTABLE_SLOT(ks) | SE_KEYTABLE_QUAD(ORIGINAL_IV) | SE_KEYTABLE_PKT(i);
-		SE(SE_KEYTABLE_DATA0_REG_OFFSET) = 0;
+		SE(SE_CRYPTO_KEYTABLE_DATA_REG) = 0;
 	}
 }
 int se_aes_unwrap_key(u32 ks_dst, u32 ks_src, const void *input)
 {
-	SE(SE_CONFIG_REG_OFFSET) = SE_CONFIG_DEC_ALG(ALG_AES_DEC) | SE_CONFIG_DST(DST_KEYTAB);
+	SE(SE_CONFIG_REG)        = SE_CONFIG_DEC_ALG(ALG_AES_DEC) | SE_CONFIG_DST(DST_KEYTABLE);
-	SE(SE_CRYPTO_REG_OFFSET) = SE_CRYPTO_KEY_INDEX(ks_src) | SE_CRYPTO_CORE_SEL(CORE_DECRYPT);
+	SE(SE_CRYPTO_CONFIG_REG) = SE_CRYPTO_KEY_INDEX(ks_src) | SE_CRYPTO_CORE_SEL(CORE_DECRYPT);
-	SE(SE_BLOCK_COUNT_REG_OFFSET) = 0;
+	SE(SE_CRYPTO_BLOCK_COUNT_REG)  = 1 - 1;
-	SE(SE_CRYPTO_KEYTABLE_DST_REG_OFFSET) = SE_CRYPTO_KEYTABLE_DST_KEY_INDEX(ks_dst);
+	SE(SE_CRYPTO_KEYTABLE_DST_REG) = SE_KEYTABLE_DST_KEY_INDEX(ks_dst) | SE_KEYTABLE_DST_WORD_QUAD(KEYS_0_3);
-	return _se_execute_oneshot(OP_START, NULL, 0, input, 0x10);
+	return _se_execute_oneshot(SE_OP_START, NULL, 0, input, SE_KEY_128_SIZE);
 }
 int se_aes_crypt_ecb(u32 ks, u32 enc, void *dst, u32 dst_size, const void *src, u32 src_size)
 {
 	if (enc)
 	{
-		SE(SE_CONFIG_REG_OFFSET) = SE_CONFIG_ENC_ALG(ALG_AES_ENC) | SE_CONFIG_DST(DST_MEMORY);
+		SE(SE_CONFIG_REG)        = SE_CONFIG_ENC_ALG(ALG_AES_ENC) | SE_CONFIG_DST(DST_MEMORY);
-		SE(SE_CRYPTO_REG_OFFSET) = SE_CRYPTO_KEY_INDEX(ks) | SE_CRYPTO_CORE_SEL(CORE_ENCRYPT);
+		SE(SE_CRYPTO_CONFIG_REG) = SE_CRYPTO_KEY_INDEX(ks) | SE_CRYPTO_CORE_SEL(CORE_ENCRYPT);
 	}
 	else
 	{
-		SE(SE_CONFIG_REG_OFFSET) = SE_CONFIG_DEC_ALG(ALG_AES_DEC) | SE_CONFIG_DST(DST_MEMORY);
+		SE(SE_CONFIG_REG)        = SE_CONFIG_DEC_ALG(ALG_AES_DEC) | SE_CONFIG_DST(DST_MEMORY);
-		SE(SE_CRYPTO_REG_OFFSET) = SE_CRYPTO_KEY_INDEX(ks) | SE_CRYPTO_CORE_SEL(CORE_DECRYPT);
+		SE(SE_CRYPTO_CONFIG_REG) = SE_CRYPTO_KEY_INDEX(ks) | SE_CRYPTO_CORE_SEL(CORE_DECRYPT);
 	}
-	SE(SE_BLOCK_COUNT_REG_OFFSET) = (src_size >> 4) - 1;
+	SE(SE_CRYPTO_BLOCK_COUNT_REG) = (src_size >> 4) - 1;
-	return _se_execute_oneshot(OP_START, dst, dst_size, src, src_size);
+	return _se_execute_oneshot(SE_OP_START, dst, dst_size, src, src_size);
 }
 int se_aes_crypt_cbc(u32 ks, u32 enc, void *dst, u32 dst_size, const void *src, u32 src_size)
 {
 	if (enc)
 	{
-		SE(SE_CONFIG_REG_OFFSET) = SE_CONFIG_ENC_ALG(ALG_AES_ENC) | SE_CONFIG_DST(DST_MEMORY);
+		SE(SE_CONFIG_REG)        = SE_CONFIG_ENC_ALG(ALG_AES_ENC) | SE_CONFIG_DST(DST_MEMORY);
-		SE(SE_CRYPTO_REG_OFFSET) = SE_CRYPTO_KEY_INDEX(ks) | SE_CRYPTO_VCTRAM_SEL(VCTRAM_AESOUT) |
+		SE(SE_CRYPTO_CONFIG_REG) = SE_CRYPTO_KEY_INDEX(ks) | SE_CRYPTO_VCTRAM_SEL(VCTRAM_AESOUT) |
 			SE_CRYPTO_CORE_SEL(CORE_ENCRYPT) | SE_CRYPTO_XOR_POS(XOR_TOP);
 	}
 	else
 	{
-		SE(SE_CONFIG_REG_OFFSET) = SE_CONFIG_DEC_ALG(ALG_AES_DEC) | SE_CONFIG_DST(DST_MEMORY);
+		SE(SE_CONFIG_REG)        = SE_CONFIG_DEC_ALG(ALG_AES_DEC) | SE_CONFIG_DST(DST_MEMORY);
-		SE(SE_CRYPTO_REG_OFFSET) = SE_CRYPTO_KEY_INDEX(ks) | SE_CRYPTO_VCTRAM_SEL(VCTRAM_PREVAHB) |
+		SE(SE_CRYPTO_CONFIG_REG) = SE_CRYPTO_KEY_INDEX(ks) | SE_CRYPTO_VCTRAM_SEL(VCTRAM_PREVMEM) |
 			SE_CRYPTO_CORE_SEL(CORE_DECRYPT) | SE_CRYPTO_XOR_POS(XOR_BOTTOM);
 	}
-	SE(SE_BLOCK_COUNT_REG_OFFSET) = (src_size >> 4) - 1;
+	SE(SE_CRYPTO_BLOCK_COUNT_REG) = (src_size >> 4) - 1;
-	return _se_execute_oneshot(OP_START, dst, dst_size, src, src_size);
+	return _se_execute_oneshot(SE_OP_START, dst, dst_size, src, src_size);
 }
 int se_aes_crypt_block_ecb(u32 ks, u32 enc, void *dst, const void *src)
 {
-	return se_aes_crypt_ecb(ks, enc, dst, 0x10, src, 0x10);
+	return se_aes_crypt_ecb(ks, enc, dst, SE_AES_BLOCK_SIZE, src, SE_AES_BLOCK_SIZE);
 }
-int se_aes_crypt_ctr(u32 ks, void *dst, u32 dst_size, const void *src, u32 src_size, void *ctr)
+int se_aes_crypt_ctr(u32 ks, void *dst, u32 dst_size, const void *src, u32 src_size, const void *ctr)
 {
-	SE(SE_SPARE_0_REG_OFFSET) = 1;
+	SE(SE_SPARE_REG)         = SE_ECO(SE_ERRATA_FIX_ENABLE);
-	SE(SE_CONFIG_REG_OFFSET) = SE_CONFIG_ENC_ALG(ALG_AES_ENC) | SE_CONFIG_DST(DST_MEMORY);
+	SE(SE_CONFIG_REG)        = SE_CONFIG_ENC_ALG(ALG_AES_ENC) | SE_CONFIG_DST(DST_MEMORY);
-	SE(SE_CRYPTO_REG_OFFSET) = SE_CRYPTO_KEY_INDEX(ks) | SE_CRYPTO_CORE_SEL(CORE_ENCRYPT) |
+	SE(SE_CRYPTO_CONFIG_REG) = SE_CRYPTO_KEY_INDEX(ks) | SE_CRYPTO_CORE_SEL(CORE_ENCRYPT) |
-		SE_CRYPTO_XOR_POS(XOR_BOTTOM) | SE_CRYPTO_INPUT_SEL(INPUT_LNR_CTR) | SE_CRYPTO_CTR_VAL(1);
+		SE_CRYPTO_XOR_POS(XOR_BOTTOM) | SE_CRYPTO_INPUT_SEL(INPUT_LNR_CTR) | SE_CRYPTO_CTR_CNTN(1);
 	_se_aes_ctr_set(ctr);
-	u32 src_size_aligned = src_size & 0xFFFFFFF0;
+	u32 src_size_aligned = ALIGN_DOWN(src_size, 0x10);
 	u32 src_size_delta = src_size & 0xF;
 	if (src_size_aligned)
 	{
-		SE(SE_BLOCK_COUNT_REG_OFFSET) = (src_size >> 4) - 1;
+		SE(SE_CRYPTO_BLOCK_COUNT_REG) = (src_size >> 4) - 1;
-		if (!_se_execute_oneshot(OP_START, dst, dst_size, src, src_size_aligned))
+		if (!_se_execute_oneshot(SE_OP_START, dst, dst_size, src, src_size_aligned))
 			return 0;
 	}
 	if (src_size - src_size_aligned && src_size_aligned < dst_size)
-		return _se_execute_one_block(OP_START, dst + src_size_aligned,
+		return _se_execute_one_block(SE_OP_START, dst + src_size_aligned,
 			MIN(src_size_delta, dst_size - src_size_aligned),
 			src + src_size_aligned, src_size_delta);
@ -419,15 +419,15 @@ int se_initialize_rng()
 	u8 *output_buf = (u8 *)malloc(0x10);
-	SE(SE_CONFIG_REG_OFFSET) = SE_CONFIG_ENC_ALG(ALG_RNG) | SE_CONFIG_DST(DST_MEMORY);
+	SE(SE_CONFIG_REG) = SE_CONFIG_ENC_ALG(ALG_RNG) | SE_CONFIG_DST(DST_MEMORY);
-	SE(SE_CRYPTO_REG_OFFSET) = SE_CRYPTO_CORE_SEL(CORE_ENCRYPT) | SE_CRYPTO_INPUT_SEL(INPUT_RANDOM);
+	SE(SE_CRYPTO_CONFIG_REG) = SE_CRYPTO_CORE_SEL(CORE_ENCRYPT) | SE_CRYPTO_INPUT_SEL(INPUT_RANDOM);
-	SE(SE_RNG_CONFIG_REG_OFFSET) = SE_RNG_CONFIG_MODE(RNG_MODE_FORCE_INSTANTION) | SE_RNG_CONFIG_SRC(RNG_SRC_ENTROPY);
+	SE(SE_RNG_CONFIG_REG) = SE_RNG_CONFIG_MODE(MODE_FORCE_INSTANTION) | SE_RNG_CONFIG_SRC(SRC_ENTROPY);
-	SE(SE_RNG_RESEED_INTERVAL_REG_OFFSET) = 70001;
+	SE(SE_RNG_RESEED_INTERVAL_REG) = 70001;
-	SE(SE_RNG_SRC_CONFIG_REG_OFFSET) = SE_RNG_SRC_CONFIG_ENT_SRC(RNG_SRC_RO_ENT_ENABLE) |
+	SE(SE_RNG_SRC_CONFIG_REG) = SE_RNG_SRC_CONFIG_ENTR_SRC(RO_ENTR_ENABLE) |
-		SE_RNG_SRC_CONFIG_ENT_SRC_LOCK(RNG_SRC_RO_ENT_LOCK_ENABLE);
+		SE_RNG_SRC_CONFIG_ENTR_SRC_LOCK(RO_ENTR_LOCK_ENABLE);
-	SE(SE_BLOCK_COUNT_REG_OFFSET) = 0;
+	SE(SE_CRYPTO_BLOCK_COUNT_REG) = 0;
-	int res =_se_execute_oneshot(OP_START, output_buf, 0x10, NULL, 0);
+	int res =_se_execute_oneshot(SE_OP_START, output_buf, 0x10, NULL, 0);
 	free(output_buf);
 	if (res)
@ -437,35 +437,35 @@ int se_initialize_rng()
 int se_generate_random(void *dst, u32 size)
 {
-	SE(SE_CONFIG_REG_OFFSET) = SE_CONFIG_ENC_ALG(ALG_RNG) | SE_CONFIG_DST(DST_MEMORY);
+	SE(SE_CONFIG_REG) = SE_CONFIG_ENC_ALG(ALG_RNG) | SE_CONFIG_DST(DST_MEMORY);
-	SE(SE_CRYPTO_REG_OFFSET) = SE_CRYPTO_CORE_SEL(CORE_ENCRYPT) | SE_CRYPTO_INPUT_SEL(INPUT_RANDOM);
+	SE(SE_CRYPTO_CONFIG_REG) = SE_CRYPTO_CORE_SEL(CORE_ENCRYPT) | SE_CRYPTO_INPUT_SEL(INPUT_RANDOM);
-	SE(SE_RNG_CONFIG_REG_OFFSET) = SE_RNG_CONFIG_MODE(RNG_MODE_NORMAL) | SE_RNG_CONFIG_SRC(RNG_SRC_ENTROPY);
+	SE(SE_RNG_CONFIG_REG) = SE_RNG_CONFIG_MODE(MODE_NORMAL) | SE_RNG_CONFIG_SRC(SRC_ENTROPY);
 	u32 num_blocks = size >> 4;
 	u32 aligned_size = num_blocks << 4;
 	if (num_blocks)
 	{
-		SE(SE_BLOCK_COUNT_REG_OFFSET) = num_blocks - 1;
+		SE(SE_CRYPTO_BLOCK_COUNT_REG) = num_blocks - 1;
-		if (!_se_execute_oneshot(OP_START, dst, aligned_size, NULL, 0))
+		if (!_se_execute_oneshot(SE_OP_START, dst, aligned_size, NULL, 0))
 			return 0;
 	}
 	if (size > aligned_size)
-		return _se_execute_one_block(OP_START, dst + aligned_size, size - aligned_size, NULL, 0);
+		return _se_execute_one_block(SE_OP_START, dst + aligned_size, size - aligned_size, NULL, 0);
 	return 1;
 }
 int se_generate_random_key(u32 ks_dst, u32 ks_src)
 {
-	SE(SE_CONFIG_REG_OFFSET) = SE_CONFIG_ENC_ALG(ALG_RNG) | SE_CONFIG_DST(DST_MEMORY);
+	SE(SE_CONFIG_REG) = SE_CONFIG_ENC_ALG(ALG_RNG) | SE_CONFIG_DST(DST_MEMORY);
-	SE(SE_CRYPTO_REG_OFFSET) = SE_CRYPTO_KEY_INDEX(ks_src) | SE_CRYPTO_CORE_SEL(CORE_ENCRYPT) |
+	SE(SE_CRYPTO_CONFIG_REG) = SE_CRYPTO_KEY_INDEX(ks_src) | SE_CRYPTO_CORE_SEL(CORE_ENCRYPT) |
 		SE_CRYPTO_INPUT_SEL(INPUT_RANDOM);
-	SE(SE_RNG_CONFIG_REG_OFFSET) = SE_RNG_CONFIG_MODE(RNG_MODE_NORMAL) | SE_RNG_CONFIG_SRC(RNG_SRC_ENTROPY);
+	SE(SE_RNG_CONFIG_REG) = SE_RNG_CONFIG_MODE(MODE_NORMAL) | SE_RNG_CONFIG_SRC(SRC_ENTROPY);
-	SE(SE_CRYPTO_KEYTABLE_DST_REG_OFFSET) = SE_CRYPTO_KEYTABLE_DST_KEY_INDEX(ks_dst);
+	SE(SE_CRYPTO_KEYTABLE_DST_REG) = SE_KEYTABLE_DST_KEY_INDEX(ks_dst);
-	if (!_se_execute_oneshot(OP_START, NULL, 0, NULL, 0))
+	if (!_se_execute_oneshot(SE_OP_START, NULL, 0, NULL, 0))
 		return 0;
-	SE(SE_CRYPTO_KEYTABLE_DST_REG_OFFSET) = SE_CRYPTO_KEYTABLE_DST_KEY_INDEX(ks_dst) | 1;
+	SE(SE_CRYPTO_KEYTABLE_DST_REG) = SE_KEYTABLE_DST_KEY_INDEX(ks_dst) | 1;
-	if (!_se_execute_oneshot(OP_START, NULL, 0, NULL, 0))
+	if (!_se_execute_oneshot(SE_OP_START, NULL, 0, NULL, 0))
 		return 0;
 	return 1;
@ -485,7 +485,7 @@ int se_aes_xts_crypt_sec(u32 tweak_ks, u32 crypt_ks, u32 enc, u64 sec, void *dst
 		tweak[i] = sec & 0xFF;
 		sec >>= 8;
 	}
-	if (!se_aes_crypt_block_ecb(tweak_ks, 1, tweak, tweak))
+	if (!se_aes_crypt_block_ecb(tweak_ks, ENCRYPT, tweak, tweak))
 		return 0;
 	memcpy(orig_tweak, tweak, 0x10);
@ -538,14 +538,14 @@ int se_aes_cmac(u32 ks, void *dst, u32 dst_size, const void *src, u32 src_size)
 	u8 *last_block = (u8 *)calloc(0x10, 1);
 	// generate derived key
-	if (!se_aes_crypt_block_ecb(ks, 1, key, key))
+	if (!se_aes_crypt_block_ecb(ks, ENCRYPT, key, key))
 		goto out;
 	_gf256_mul_x(key);
 	if (src_size & 0xF)
 		_gf256_mul_x(key);
-	SE(SE_CONFIG_REG_OFFSET) = SE_CONFIG_ENC_ALG(ALG_AES_ENC) | SE_CONFIG_DST(DST_HASHREG);
+	SE(SE_CONFIG_REG) = SE_CONFIG_ENC_ALG(ALG_AES_ENC) | SE_CONFIG_DST(DST_HASHREG);
-	SE(SE_CRYPTO_REG_OFFSET) = SE_CRYPTO_KEY_INDEX(ks) | SE_CRYPTO_INPUT_SEL(INPUT_AHB) |
+	SE(SE_CRYPTO_CONFIG_REG) = SE_CRYPTO_KEY_INDEX(ks) | SE_CRYPTO_INPUT_SEL(INPUT_MEMORY) |
 		SE_CRYPTO_XOR_POS(XOR_TOP) | SE_CRYPTO_VCTRAM_SEL(VCTRAM_AESOUT) | SE_CRYPTO_HASH(HASH_ENABLE) |
 		SE_CRYPTO_CORE_SEL(CORE_ENCRYPT);
 	se_aes_iv_clear(ks);
@ -553,10 +553,10 @@ int se_aes_cmac(u32 ks, void *dst, u32 dst_size, const void *src, u32 src_size)
 	u32 num_blocks = (src_size + 0xf) >> 4;
 	if (num_blocks > 1)
 	{
-		SE(SE_BLOCK_COUNT_REG_OFFSET) = num_blocks - 2;
+		SE(SE_CRYPTO_BLOCK_COUNT_REG) = num_blocks - 2;
-		if (!_se_execute_oneshot(OP_START, NULL, 0, src, src_size))
+		if (!_se_execute_oneshot(SE_OP_START, NULL, 0, src, src_size))
 			goto out;
-		SE(SE_CRYPTO_REG_OFFSET) |= SE_CRYPTO_IV_SEL(IV_UPDATED);
+		SE(SE_CRYPTO_CONFIG_REG) |= SE_CRYPTO_IV_SEL(IV_UPDATED);
 	}
 	if (src_size & 0xf)
@ -572,12 +572,12 @@ int se_aes_cmac(u32 ks, void *dst, u32 dst_size, const void *src, u32 src_size)
 	for (u32 i = 0; i < 0x10; i++)
 		last_block[i] ^= key[i];
-	SE(SE_BLOCK_COUNT_REG_OFFSET) = 0;
+	SE(SE_CRYPTO_BLOCK_COUNT_REG) = 0;
-	res = _se_execute_oneshot(OP_START, NULL, 0, last_block, 0x10);
+	res = _se_execute_oneshot(SE_OP_START, NULL, 0, last_block, 0x10);
 	u32 *dst32 = (u32 *)dst;
 	for (u32 i = 0; i < (dst_size >> 2); i++)
-		dst32[i] = SE(SE_HASH_RESULT_REG_OFFSET + (i << 2));
+		dst32[i] = SE(SE_HASH_RESULT_REG + (i << 2));
 out:;
 	free(key);
@ -588,62 +588,62 @@ out:;
 int se_calc_sha256(void *hash, u32 *msg_left, const void *src, u32 src_size, u64 total_size, u32 sha_cfg, bool is_oneshot)
 {
 	int res;
-	u32 hash32[TEGRA_SE_SHA_256_SIZE / 4];
+	u32 hash32[SE_SHA_256_SIZE / 4];
 	//! TODO: src_size must be 512 bit aligned if continuing and not last block for SHA256.
 	if (src_size > 0xFFFFFF || !hash) // Max 16MB - 1 chunks and aligned x4 hash buffer.
 		return 0;
 	// Setup config for SHA256.
-	SE(SE_CONFIG_REG_OFFSET) = SE_CONFIG_ENC_MODE(MODE_SHA256) | SE_CONFIG_ENC_ALG(ALG_SHA) | SE_CONFIG_DST(DST_HASHREG);
+	SE(SE_CONFIG_REG) = SE_CONFIG_ENC_MODE(MODE_SHA256) | SE_CONFIG_ENC_ALG(ALG_SHA) | SE_CONFIG_DST(DST_HASHREG);
-	SE(SE_SHA_CONFIG_REG_OFFSET) = sha_cfg;
+	SE(SE_SHA_CONFIG_REG) = sha_cfg;
-	SE(SE_BLOCK_COUNT_REG_OFFSET) = 0;
+	SE(SE_CRYPTO_BLOCK_COUNT_REG) = 1 - 1;
 	// Set total size to current buffer size if empty.
 	if (!total_size)
 		total_size = src_size;
 	// Set total size: BITS(src_size), up to 2 EB.
-	SE(SE_SHA_MSG_LENGTH_0_REG_OFFSET) = (u32)(total_size << 3);
+	SE(SE_SHA_MSG_LENGTH_0_REG) = (u32)(total_size << 3);
-	SE(SE_SHA_MSG_LENGTH_1_REG_OFFSET) = (u32)(total_size >> 29);
+	SE(SE_SHA_MSG_LENGTH_1_REG) = (u32)(total_size >> 29);
-	SE(SE_SHA_MSG_LENGTH_2_REG_OFFSET) = 0;
+	SE(SE_SHA_MSG_LENGTH_2_REG) = 0;
-	SE(SE_SHA_MSG_LENGTH_3_REG_OFFSET) = 0;
+	SE(SE_SHA_MSG_LENGTH_3_REG) = 0;
 	// Set size left to hash.
-	SE(SE_SHA_MSG_LEFT_0_REG_OFFSET) = (u32)(total_size << 3);
+	SE(SE_SHA_MSG_LEFT_0_REG) = (u32)(total_size << 3);
-	SE(SE_SHA_MSG_LEFT_1_REG_OFFSET) = (u32)(total_size >> 29);
+	SE(SE_SHA_MSG_LEFT_1_REG) = (u32)(total_size >> 29);
-	SE(SE_SHA_MSG_LEFT_2_REG_OFFSET) = 0;
+	SE(SE_SHA_MSG_LEFT_2_REG) = 0;
-	SE(SE_SHA_MSG_LEFT_3_REG_OFFSET) = 0;
+	SE(SE_SHA_MSG_LEFT_3_REG) = 0;
 	// If we hash in chunks, copy over the intermediate.
 	if (sha_cfg == SHA_CONTINUE && msg_left)
 	{
 		// Restore message left to process.
-		SE(SE_SHA_MSG_LEFT_0_REG_OFFSET) = msg_left[0];
+		SE(SE_SHA_MSG_LEFT_0_REG) = msg_left[0];
-		SE(SE_SHA_MSG_LEFT_1_REG_OFFSET) = msg_left[1];
+		SE(SE_SHA_MSG_LEFT_1_REG) = msg_left[1];
 		// Restore hash reg.
-		memcpy(hash32, hash, TEGRA_SE_SHA_256_SIZE);
+		memcpy(hash32, hash, SE_SHA_256_SIZE);
-		for (u32 i = 0; i < (TEGRA_SE_SHA_256_SIZE / 4); i++)
+		for (u32 i = 0; i < (SE_SHA_256_SIZE / 4); i++)
-			SE(SE_HASH_RESULT_REG_OFFSET + (i << 2)) = byte_swap_32(hash32[i]);
+			SE(SE_HASH_RESULT_REG + (i * 4)) = byte_swap_32(hash32[i]);
 	}
 	// Trigger the operation.
-	res = _se_execute(OP_START, NULL, 0, src, src_size, is_oneshot);
+	res = _se_execute(SE_OP_START, NULL, 0, src, src_size, is_oneshot);
 	if (is_oneshot)
 	{
 		// Backup message left.
 		if (msg_left)
 		{
-			msg_left[0] = SE(SE_SHA_MSG_LEFT_0_REG_OFFSET);
+			msg_left[0] = SE(SE_SHA_MSG_LEFT_0_REG);
-			msg_left[1] = SE(SE_SHA_MSG_LEFT_1_REG_OFFSET);
+			msg_left[1] = SE(SE_SHA_MSG_LEFT_1_REG);
 		}
 		// Copy output hash.
-		for (u32 i = 0; i < (TEGRA_SE_SHA_256_SIZE / 4); i++)
+		for (u32 i = 0; i < (SE_SHA_256_SIZE / 4); i++)
-			hash32[i] = byte_swap_32(SE(SE_HASH_RESULT_REG_OFFSET + (i << 2)));
+			hash32[i] = byte_swap_32(SE(SE_HASH_RESULT_REG + (i * 4)));
-		memcpy(hash, hash32, TEGRA_SE_SHA_256_SIZE);
+		memcpy(hash, hash32, SE_SHA_256_SIZE);
 	}
 	return res;
@ -656,20 +656,20 @@ int se_calc_sha256_oneshot(void *hash, const void *src, u32 src_size)
 int se_calc_sha256_finalize(void *hash, u32 *msg_left)
 {
-	u32 hash32[TEGRA_SE_SHA_256_SIZE / 4];
+	u32 hash32[SE_SHA_256_SIZE / 4];
 	int res = _se_execute_finalize();
 	// Backup message left.
 	if (msg_left)
 	{
-		msg_left[0] = SE(SE_SHA_MSG_LEFT_0_REG_OFFSET);
+		msg_left[0] = SE(SE_SHA_MSG_LEFT_0_REG);
-		msg_left[1] = SE(SE_SHA_MSG_LEFT_1_REG_OFFSET);
+		msg_left[1] = SE(SE_SHA_MSG_LEFT_1_REG);
 	}
 	// Copy output hash.
-	for (u32 i = 0; i < (TEGRA_SE_SHA_256_SIZE / 4); i++)
+	for (u32 i = 0; i < (SE_SHA_256_SIZE / 4); i++)
-		hash32[i] = byte_swap_32(SE(SE_HASH_RESULT_REG_OFFSET + (i << 2)));
+		hash32[i] = byte_swap_32(SE(SE_HASH_RESULT_REG + (i * 4)));
-	memcpy(hash, hash32, TEGRA_SE_SHA_256_SIZE);
+	memcpy(hash, hash32, SE_SHA_256_SIZE);
 	return res;
 }
@ -718,118 +718,48 @@ out:;
 	return res;
 }
 // _mgf1_xor() and rsa_oaep_decode were derived from Atmosphère
 static void _mgf1_xor(void *masked, u32 masked_size, const void *seed, u32 seed_size)
 {
    u8 cur_hash[0x20] __attribute__((aligned(4)));
    u8 hash_buf[0xe4] __attribute__((aligned(4)));
    u32 hash_buf_size = seed_size + 4;
    memcpy(hash_buf, seed, seed_size);
    u32 round_num = 0;
    u8 *p_out = (u8 *)masked;
    while (masked_size) {
        u32 cur_size = MIN(masked_size, 0x20);
        for (u32 i = 0; i < 4; i++)
            hash_buf[seed_size + 3 - i] = (round_num >> (8 * i)) & 0xff;
        round_num++;
        se_calc_sha256_oneshot(cur_hash, hash_buf, hash_buf_size);
        for (unsigned int i = 0; i < cur_size; i++) {
            *p_out ^= cur_hash[i];
            p_out++;
        }
        masked_size -= cur_size;
    }
 }
 u32 se_rsa_oaep_decode(void *dst, u32 dst_size, const void *label_digest, u32 label_digest_size, u8 *buf, u32 buf_size)
 {
 	if (dst_size <= 0 || buf_size < 0x43 || label_digest_size != 0x20)
 		return 0;
 	bool is_valid = buf[0] == 0;
 	u32 db_len = buf_size - 0x21;
 	u8 *seed = buf + 1;
 	u8 *db = seed + 0x20;
 	_mgf1_xor(seed, 0x20, db, db_len);
 	_mgf1_xor(db, db_len, seed, 0x20);
 	is_valid &= memcmp(label_digest, db, 0x20) ? 0 : 1;
 	db += 0x20;
 	db_len -= 0x20;
 	int msg_ofs = 0;
 	int looking_for_one = 1;
 	int invalid_db_padding = 0;
 	int is_zero;
 	int is_one;
 	for (int i = 0; i < db_len; )
 	{
 		is_zero = (db[i] == 0);
 		is_one  = (db[i] == 1);
 		msg_ofs += (looking_for_one & is_one) * (++i);
 		looking_for_one &= ~is_one;
 		invalid_db_padding |= (looking_for_one & ~is_zero);
 	}
 	is_valid &= (invalid_db_padding == 0);
 	const u32 msg_size = MIN(dst_size, is_valid * (db_len - msg_ofs));
 	memcpy(dst, db + msg_ofs, msg_size);
 	return msg_size;
 }
 void se_get_aes_keys(u8 *buf, u8 *keys, u32 keysize)
 {
 	u8 *aligned_buf = (u8 *)ALIGN((u32)buf, 0x40);
 	// Set Secure Random Key.
-	SE(SE_CONFIG_REG_OFFSET) = SE_CONFIG_ENC_MODE(MODE_KEY128) | SE_CONFIG_ENC_ALG(ALG_RNG) | SE_CONFIG_DST(DST_SRK);
+	SE(SE_CONFIG_REG)        = SE_CONFIG_ENC_MODE(MODE_KEY128) | SE_CONFIG_ENC_ALG(ALG_RNG) | SE_CONFIG_DST(DST_SRK);
-	SE(SE_CRYPTO_REG_OFFSET) = SE_CRYPTO_KEY_INDEX(0) | SE_CRYPTO_CORE_SEL(CORE_ENCRYPT) | SE_CRYPTO_INPUT_SEL(INPUT_RANDOM);
+	SE(SE_CRYPTO_CONFIG_REG) = SE_CRYPTO_KEY_INDEX(0) | SE_CRYPTO_CORE_SEL(CORE_ENCRYPT) | SE_CRYPTO_INPUT_SEL(INPUT_RANDOM);
-	SE(SE_RNG_CONFIG_REG_OFFSET) = SE_RNG_CONFIG_SRC(RNG_SRC_ENTROPY) | SE_RNG_CONFIG_MODE(RNG_MODE_FORCE_RESEED);
+	SE(SE_RNG_CONFIG_REG)    = SE_RNG_CONFIG_SRC(SRC_ENTROPY) | SE_RNG_CONFIG_MODE(MODE_FORCE_RESEED);
 	SE(SE_CRYPTO_LAST_BLOCK) = 0;
-	_se_execute_oneshot(OP_START, NULL, 0, NULL, 0);
+	_se_execute_oneshot(SE_OP_START, NULL, 0, NULL, 0);
 	// Save AES keys.
-	SE(SE_CONFIG_REG_OFFSET) = SE_CONFIG_ENC_MODE(MODE_KEY128) | SE_CONFIG_ENC_ALG(ALG_AES_ENC) | SE_CONFIG_DST(DST_MEMORY);
+	SE(SE_CONFIG_REG) = SE_CONFIG_ENC_MODE(MODE_KEY128) | SE_CONFIG_ENC_ALG(ALG_AES_ENC) | SE_CONFIG_DST(DST_MEMORY);
-	for (u32 i = 0; i < TEGRA_SE_KEYSLOT_COUNT; i++)
+	for (u32 i = 0; i < SE_AES_KEYSLOT_COUNT; i++)
 	{
-		SE(SE_CONTEXT_SAVE_CONFIG_REG_OFFSET) = SE_CONTEXT_SAVE_SRC(AES_KEYTABLE) |
+		SE(SE_CONTEXT_SAVE_CONFIG_REG) = SE_CONTEXT_SRC(AES_KEYTABLE) | SE_KEYTABLE_DST_KEY_INDEX(i) |
-			(i << SE_KEY_INDEX_SHIFT) | SE_CONTEXT_SAVE_WORD_QUAD(KEYS_0_3);
+			SE_CONTEXT_AES_KEY_INDEX(0) | SE_CONTEXT_AES_WORD_QUAD(KEYS_0_3);
 		SE(SE_CRYPTO_LAST_BLOCK) = 0;
-		_se_execute_oneshot(OP_CTX_SAVE, aligned_buf, 0x10, NULL, 0);
+		_se_execute_oneshot(SE_OP_CTX_SAVE, aligned_buf, SE_AES_BLOCK_SIZE, NULL, 0);
-		memcpy(keys + i * keysize, aligned_buf, 0x10);
+		memcpy(keys + i * keysize, aligned_buf, SE_AES_BLOCK_SIZE);
-		if (keysize > 0x10)
+		if (keysize > SE_KEY_128_SIZE)
 		{
-			SE(SE_CONTEXT_SAVE_CONFIG_REG_OFFSET) = SE_CONTEXT_SAVE_SRC(AES_KEYTABLE) |
+			SE(SE_CONTEXT_SAVE_CONFIG_REG) = SE_CONTEXT_SRC(AES_KEYTABLE) | SE_KEYTABLE_DST_KEY_INDEX(i) |
-				(i << SE_KEY_INDEX_SHIFT) | SE_CONTEXT_SAVE_WORD_QUAD(KEYS_4_7);
+				SE_CONTEXT_AES_KEY_INDEX(0) | SE_CONTEXT_AES_WORD_QUAD(KEYS_4_7);
 			SE(SE_CRYPTO_LAST_BLOCK) = 0;
-			_se_execute_oneshot(OP_CTX_SAVE, aligned_buf, 0x10, NULL, 0);
+			_se_execute_oneshot(SE_OP_CTX_SAVE, aligned_buf, SE_AES_BLOCK_SIZE, NULL, 0);
-			memcpy(keys + i * keysize + 0x10, aligned_buf, 0x10);
+			memcpy(keys + i * keysize + SE_AES_BLOCK_SIZE, aligned_buf, SE_AES_BLOCK_SIZE);
 		}
 	}
 	// Save SRK to PMC secure scratches.
-	SE(SE_CONTEXT_SAVE_CONFIG_REG_OFFSET) = SE_CONTEXT_SAVE_SRC(SRK);
+	SE(SE_CONTEXT_SAVE_CONFIG_REG) = SE_CONTEXT_SRC(SRK);
 	SE(SE_CRYPTO_LAST_BLOCK)       = 0;
-	_se_execute_oneshot(OP_CTX_SAVE, NULL, 0, NULL, 0);
+	_se_execute_oneshot(SE_OP_CTX_SAVE, NULL, 0, NULL, 0);
 	// End context save.
-	SE(SE_CONFIG_REG_OFFSET) = 0;
+	SE(SE_CONFIG_REG) = 0;
-	_se_execute_oneshot(OP_CTX_SAVE, NULL, 0, NULL, 0);
+	_se_execute_oneshot(SE_OP_CTX_SAVE, NULL, 0, NULL, 0);
 	// Get SRK.
 	u32 srk[4];
@ -840,7 +770,7 @@ void se_get_aes_keys(u8 *buf, u8 *keys, u32 keysize)
 	// Decrypt context.
 	se_aes_key_clear(3);
-	se_aes_key_set(3, srk, 0x10);
+	se_aes_key_set(3, srk, SE_KEY_128_SIZE);
-	se_aes_crypt_cbc(3, 0, keys, TEGRA_SE_KEYSLOT_COUNT * keysize, keys, TEGRA_SE_KEYSLOT_COUNT * keysize);
+	se_aes_crypt_cbc(3, DECRYPT, keys, SE_AES_KEYSLOT_COUNT * keysize, keys, SE_AES_KEYSLOT_COUNT * keysize);
 	se_aes_key_clear(3);
 }
--- a/bdk/sec/se.h
+++ b/bdk/sec/se.h
@ -1,5 +1,7 @@
 /*
 * Copyright (c) 2018 naehrwert
 * Copyright (c) 2019-2021 CTCaer
 * Copyright (c) 2019-2021 shchmue
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
@ -25,6 +27,7 @@ void se_rsa_key_clear(u32 ks);
 int se_rsa_exp_mod(u32 ks, void *dst, u32 dst_size, const void *src, u32 src_size);
 void se_key_acc_ctrl(u32 ks, u32 flags);
 u32  se_key_acc_ctrl_get(u32 ks);
 void se_get_aes_keys(u8 *buf, u8 *keys, u32 keysize);
 void se_aes_key_set(u32 ks, const void *key, u32 size);
 void se_aes_iv_set(u32 ks, const void *iv);
 void se_aes_key_partial_set(u32 ks, u32 index, u32 data);
@ -35,10 +38,10 @@ int se_initialize_rng();
 int se_generate_random(void *dst, u32 size);
 int se_generate_random_key(u32 ks_dst, u32 ks_src);
 int se_aes_unwrap_key(u32 ks_dst, u32 ks_src, const void *input);
 int se_aes_crypt_cbc(u32 ks, u32 enc, void *dst, u32 dst_size, const void *src, u32 src_size);
 int se_aes_crypt_ecb(u32 ks, u32 enc, void *dst, u32 dst_size, const void *src, u32 src_size);
 int se_aes_crypt_block_ecb(u32 ks, u32 enc, void *dst, const void *src);
-int se_aes_crypt_ctr(u32 ks, void *dst, u32 dst_size, const void *src, u32 src_size, void *ctr);
+int se_aes_crypt_ctr(u32 ks, void *dst, u32 dst_size, const void *src, u32 src_size, const void *ctr);
 int se_aes_crypt_cbc(u32 ks, u32 enc, void *dst, u32 dst_size, const void *src, u32 src_size);
 int se_aes_xts_crypt_sec(u32 tweak_ks, u32 crypt_ks, u32 enc, u64 sec, void *dst, const void *src, u32 sec_size);
 int se_aes_xts_crypt(u32 tweak_ks, u32 crypt_ks, u32 enc, u64 sec, void *dst, const void *src, u32 sec_size, u32 num_secs);
 int se_aes_cmac(u32 ks, void *dst, u32 dst_size, const void *src, u32 src_size);
@ -46,7 +49,5 @@ int se_calc_sha256(void *hash, u32 *msg_left, const void *src, u32 src_size, u64
 int se_calc_sha256_oneshot(void *hash, const void *src, u32 src_size);
 int se_calc_sha256_finalize(void *hash, u32 *msg_left);
 int se_calc_hmac_sha256(void *dst, const void *src, u32 src_size, const void *key, u32 key_size);
 u32 se_rsa_oaep_decode(void *dst, u32 dst_size, const void *label_digest, u32 label_digest_size, u8 *buf, u32 buf_size);
 void se_get_aes_keys(u8 *buf, u8 *keys, u32 keysize);
 #endif
--- a/bdk/sec/se_t210.h
+++ b/bdk/sec/se_t210.h
@ -1,63 +1,102 @@
 /*
-* Driver for Tegra Security Engine
+ * Copyright (c) 2018 naehrwert
 * Copyright (c) 2018-2021 CTCaer
 *
-* Copyright (c) 2011-2013, NVIDIA Corporation. All Rights Reserved.
+ * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
 * version 2, as published by the Free Software Foundation.
 *
-* This program is free software; you can redistribute it and/or modify
+ * This program is distributed in the hope it will be useful, but WITHOUT
 * 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
+ * You should have received a copy of the GNU General Public License
-* with this program; if not, write to the Free Software Foundation, Inc.,
+ * along with this program.  If not, see <http://www.gnu.org/licenses/>.
 * 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301, USA.
 */
-#ifndef _CRYPTO_TEGRA_SE_H
+#ifndef _SE_T210_H
-#define _CRYPTO_TEGRA_SE_H
+#define _SE_T210_H
 #include <utils/types.h>
-#define TEGRA_SE_CRA_PRIORITY	300
+#define SE_CRYPTO_QUEUE_LENGTH 50
 #define TEGRA_SE_COMPOSITE_PRIORITY 400
 #define TEGRA_SE_CRYPTO_QUEUE_LENGTH 50
 #define SE_MAX_SRC_SG_COUNT    50
 #define SE_MAX_DST_SG_COUNT    50
-#define TEGRA_SE_KEYSLOT_COUNT		16
+#define SE_AES_KEYSLOT_COUNT   16
 #define SE_RSA_KEYSLOT_COUNT   2
 #define SE_MAX_LAST_BLOCK_SIZE 0xFFFFF
 #define SE_AES_BLOCK_SIZE   16
 #define SE_AES_IV_SIZE      16
 #define SE_AES_MIN_KEY_SIZE 16
 #define SE_AES_MAX_KEY_SIZE 32
 #define SE_KEY_128_SIZE     16
 #define SE_KEY_192_SIZE     24
 #define SE_KEY_256_SIZE     32
 #define SE_SHA_192_SIZE     24
 #define SE_SHA_256_SIZE     32
 #define SE_SHA_384_SIZE     48
 #define SE_SHA_512_SIZE     64
 #define SE_RNG_IV_SIZE		16
 #define SE_RNG_DT_SIZE		16
 #define SE_RNG_KEY_SIZE		16
 #define SE_RNG_SEED_SIZE (SE_RNG_IV_SIZE + SE_RNG_KEY_SIZE + SE_RNG_DT_SIZE)
 #define SE_AES_CMAC_DIGEST_SIZE 16
 #define SE_RSA512_DIGEST_SIZE   64
 #define SE_RSA1024_DIGEST_SIZE  128
 #define SE_RSA1536_DIGEST_SIZE  192
 #define SE_RSA2048_DIGEST_SIZE  256
 #define  DECRYPT   0
 #define  ENCRYPT   1
 /* SE register definitions */
-#define SE_SECURITY_0 0x000
+#define SE_SE_SECURITY_REG 0x000
-#define SE_KEY_SCHED_READ_SHIFT 3
+#define  SE_HARD_SETTING   BIT(0)
 #define  SE_ENG_DIS        BIT(1)
 #define  SE_PERKEY_SETTING BIT(2)
 #define  SE_SOFT_SETTING   BIT(16)
-#define SE_TZRAM_SECURITY_0 0x004
+#define SE_TZRAM_SECURITY_REG 0x004
 #define  SE_TZRAM_HARD_SETTING BIT(0)
 #define  SE_TZRAM_ENG_DIS      BIT(1)
-#define SE_CONFIG_REG_OFFSET		0x014
+#define SE_OPERATION_REG 0x008
-#define SE_CONFIG_ENC_ALG_SHIFT		12
+#define  SE_OP_ABORT       0
-#define SE_CONFIG_DEC_ALG_SHIFT		8
+#define  SE_OP_START       1
 #define  SE_OP_RESTART_OUT 2
 #define  SE_OP_CTX_SAVE    3
 #define  SE_OP_RESTART_IN  4
 #define SE_INT_ENABLE_REG	0x00C
 #define SE_INT_STATUS_REG	0x010
 #define  SE_INT_IN_LL_BUF_RD  BIT(0)
 #define  SE_INT_IN_DONE       BIT(1)
 #define  SE_INT_OUT_LL_BUF_WR BIT(2)
 #define  SE_INT_OUT_DONE      BIT(3)
 #define  SE_INT_OP_DONE       BIT(4)
 #define  SE_INT_RESEED_NEEDED BIT(5)
 #define  SE_INT_ERR_STAT      BIT(16)
 #define SE_CONFIG_REG 0x014
 #define  DST_MEMORY      0
 #define  DST_HASHREG     1
 #define  DST_KEYTABLE    2
 #define  DST_SRK         3
 #define  DST_RSAREG      4
 #define  SE_CONFIG_DST(x)      ((x) << 2)
 #define  ALG_NOP         0
 #define  ALG_AES_DEC     1
 #define  SE_CONFIG_DEC_ALG(x)  ((x) << 8)
 #define  ALG_NOP         0
 #define  ALG_AES_ENC     1
 #define  ALG_RNG         2
 #define  ALG_SHA         3
 #define  ALG_RSA         4
-#define ALG_NOP			0
+#define  SE_CONFIG_ENC_ALG(x)  ((x) << 12)
 #define ALG_AES_DEC		1
 #define SE_CONFIG_ENC_ALG(x)		((x) << SE_CONFIG_ENC_ALG_SHIFT)
 #define SE_CONFIG_DEC_ALG(x)		((x) << SE_CONFIG_DEC_ALG_SHIFT)
 #define SE_CONFIG_DST_SHIFT			2
 #define DST_MEMORY		0
 #define DST_HASHREG		1
 #define DST_KEYTAB		2
 #define DST_SRK			3
 #define DST_RSAREG		4
 #define SE_CONFIG_DST(x)			((x) << SE_CONFIG_DST_SHIFT)
 #define SE_CONFIG_ENC_MODE_SHIFT	24
 #define SE_CONFIG_DEC_MODE_SHIFT	16
 #define  MODE_KEY128     0
 #define  MODE_KEY192     1
 #define  MODE_KEY256     2
@ -66,226 +105,70 @@
 #define  MODE_SHA256     5
 #define  MODE_SHA384     6
 #define  MODE_SHA512     7
-#define SE_CONFIG_ENC_MODE(x)		((x) << SE_CONFIG_ENC_MODE_SHIFT)
+#define  SE_CONFIG_DEC_MODE(x) ((x) << 16)
-#define SE_CONFIG_DEC_MODE(x)		((x) << SE_CONFIG_DEC_MODE_SHIFT)
+#define  SE_CONFIG_ENC_MODE(x) ((x) << 24)
-#define SE_RNG_CONFIG_REG_OFFSET		0x340
+#define SE_IN_LL_ADDR_REG        0x018
-#define RNG_MODE_SHIFT	0
+#define SE_IN_CUR_BYTE_ADDR_REG  0x01C
-#define RNG_MODE_NORMAL	0
+#define SE_IN_CUR_LL_ID_REG      0x020
-#define RNG_MODE_FORCE_INSTANTION	1
+#define SE_OUT_LL_ADDR_REG       0x024
-#define RNG_MODE_FORCE_RESEED		2
+#define SE_OUT_CUR_BYTE_ADDR_REG 0x028
-#define SE_RNG_CONFIG_MODE(x)		((x) << RNG_MODE_SHIFT)
+#define SE_OUT_CUR_LL_ID_REG     0x02C
 #define RNG_SRC_SHIFT	2
 #define RNG_SRC_NONE	0
 #define RNG_SRC_ENTROPY	1
 #define RNG_SRC_LFSR	2
 #define SE_RNG_CONFIG_SRC(x)		((x) << RNG_SRC_SHIFT)
-#define SE_RNG_SRC_CONFIG_REG_OFFSET	0x344
+#define SE_HASH_RESULT_REG 0x030
-#define RNG_SRC_RO_ENT_SHIFT	1
+#define  SE_HASH_RESULT_REG_COUNT 16
 #define RNG_SRC_RO_ENT_ENABLE	1
 #define RNG_SRC_RO_ENT_DISABLE	0
 #define SE_RNG_SRC_CONFIG_ENT_SRC(x)	((x) << RNG_SRC_RO_ENT_SHIFT)
 #define RNG_SRC_RO_ENT_LOCK_SHIFT	 0
 #define RNG_SRC_RO_ENT_LOCK_ENABLE	 1
 #define RNG_SRC_RO_ENT_LOCK_DISABLE 0
 #define SE_RNG_SRC_CONFIG_ENT_SRC_LOCK(x) ((x) << RNG_SRC_RO_ENT_LOCK_SHIFT)
-#define SE_RNG_RESEED_INTERVAL_REG_OFFSET		0x348
+#define SE_CONTEXT_SAVE_CONFIG_REG 0x070
 #define  KEYS_0_3        0
 #define  KEYS_4_7        1
 #define  ORIGINAL_IV     2
 #define  UPDATED_IV      3
 #define  SE_CONTEXT_AES_WORD_QUAD(x)    ((x) << 0)
 #define  SE_CONTEXT_AES_KEY_INDEX(x)    ((x) << 8)
 #define  KEYS_0_3        0
 #define  KEYS_4_7        1
 #define  KEYS_8_11       2
 #define  KEYS_12_15      3
 #define  SE_CONTEXT_RSA_WORD_QUAD(x)    ((x) << 12)
 #define  SLOT0_EXPONENT  0
 #define  SLOT0_MODULUS   1
 #define  SLOT1_EXPONENT  2
 #define  SLOT1_MODULUS   3
 #define  SE_CONTEXT_RSA_KEY_INDEX(x)    ((x) << 16)
 #define  STICKY_0_3      0
 #define  STICKY_4_7      1
 #define  SE_CONTEXT_STICKY_WORD_QUAD(x) ((x) << 24)
 #define  STICKY_BITS     0
 #define  RSA_KEYTABLE    1
 #define  AES_KEYTABLE    2
 #define  MEM             4
 #define  SRK             6
 #define SE_CONTEXT_SRC(x)               ((x) << 29)
-#define SE_KEYTABLE_REG_OFFSET		0x31c
+#define SE_CTX_SAVE_AUTO_T210B01_REG 0x074
-#define SE_KEYTABLE_SLOT_SHIFT		4
+#define  SE_CTX_SAVE_AUTO_ENABLE		BIT(0)
-#define SE_KEYTABLE_SLOT(x)			((x) << SE_KEYTABLE_SLOT_SHIFT)
+#define  SE_CTX_SAVE_AUTO_LOCK          BIT(8)
-#define SE_KEYTABLE_QUAD_SHIFT		2
+#define  SE_CTX_SAVE_AUTO_CURR_CNT_MASK (0x3FF << 16)
 #define QUAD_KEYS_128	0
 #define QUAD_KEYS_192	1
 #define QUAD_KEYS_256	1
 #define QUAD_ORG_IV		2
 #define QUAD_UPDTD_IV	3
 #define SE_KEYTABLE_QUAD(x)			((x) << SE_KEYTABLE_QUAD_SHIFT)
 #define SE_KEYTABLE_OP_TYPE_SHIFT	9
 #define OP_READ			0
 #define OP_WRITE		1
 #define SE_KEYTABLE_OP_TYPE(x)		((x) << SE_KEYTABLE_OP_TYPE_SHIFT)
 #define SE_KEYTABLE_TABLE_SEL_SHIFT		8
 #define TABLE_KEYIV		0
 #define TABLE_SCHEDULE	1
 #define SE_KEYTABLE_TABLE_SEL(x)	((x) << SE_KEYTABLE_TABLE_SEL_SHIFT)
 #define SE_KEYTABLE_PKT_SHIFT		0
 #define SE_KEYTABLE_PKT(x)			((x) << SE_KEYTABLE_PKT_SHIFT)
 #define SE_OP_DONE_SHIFT	4
 #define OP_DONE	1
 #define SE_OP_DONE(x, y)	((x) && ((y) << SE_OP_DONE_SHIFT))
 #define SE_CRYPTO_LAST_BLOCK 0x080
-#define SE_CRYPTO_REG_OFFSET		0x304
+#define SE_SHA_CONFIG_REG 0x200
 #define SE_CRYPTO_HASH_SHIFT		0
 #define HASH_DISABLE	0
 #define HASH_ENABLE		1
 #define SE_CRYPTO_HASH(x)			((x) << SE_CRYPTO_HASH_SHIFT)
 #define SE_CRYPTO_XOR_POS_SHIFT		1
 #define XOR_BYPASS		0
 #define XOR_TOP			2
 #define XOR_BOTTOM		3
 #define SE_CRYPTO_XOR_POS(x)		((x) << SE_CRYPTO_XOR_POS_SHIFT)
 #define SE_CRYPTO_INPUT_SEL_SHIFT	3
 #define INPUT_AHB		0
 #define INPUT_RANDOM	1
 #define INPUT_AESOUT	2
 #define INPUT_LNR_CTR	3
 #define SE_CRYPTO_INPUT_SEL(x)		((x) << SE_CRYPTO_INPUT_SEL_SHIFT)
 #define SE_CRYPTO_VCTRAM_SEL_SHIFT	5
 #define VCTRAM_AHB		0
 #define VCTRAM_AESOUT	2
 #define VCTRAM_PREVAHB	3
 #define SE_CRYPTO_VCTRAM_SEL(x)		((x) << SE_CRYPTO_VCTRAM_SEL_SHIFT)
 #define SE_CRYPTO_IV_SEL_SHIFT		7
 #define IV_ORIGINAL		0
 #define IV_UPDATED		1
 #define SE_CRYPTO_IV_SEL(x)			((x) << SE_CRYPTO_IV_SEL_SHIFT)
 #define SE_CRYPTO_CORE_SEL_SHIFT	8
 #define CORE_DECRYPT	0
 #define CORE_ENCRYPT	1
 #define SE_CRYPTO_CORE_SEL(x)		((x) << SE_CRYPTO_CORE_SEL_SHIFT)
 #define SE_CRYPTO_CTR_VAL_SHIFT		11
 #define SE_CRYPTO_CTR_VAL(x)		((x) << SE_CRYPTO_CTR_VAL_SHIFT)
 #define SE_CRYPTO_KEY_INDEX_SHIFT	24
 #define SE_CRYPTO_KEY_INDEX(x)		((x) << SE_CRYPTO_KEY_INDEX_SHIFT)
 #define SE_CRYPTO_CTR_CNTN_SHIFT	11
 #define SE_CRYPTO_CTR_CNTN(x)		((x) << SE_CRYPTO_CTR_CNTN_SHIFT)
 #define SE_CRYPTO_CTR_REG_COUNT		4
 #define SE_CRYPTO_CTR_REG_OFFSET	0x308
 #define SE_OPERATION_REG_OFFSET		0x008
 #define SE_OPERATION_SHIFT			0
 #define OP_ABORT		0
 #define OP_START		1
 #define OP_RESTART		2
 #define OP_CTX_SAVE		3
 #define OP_RESTART_IN	4
 #define SE_OPERATION(x)				((x) << SE_OPERATION_SHIFT)
 #define SE_CONTEXT_SAVE_CONFIG_REG_OFFSET		0x070
 #define SE_CONTEXT_SAVE_WORD_QUAD_SHIFT		0
 #define KEYS_0_3		0
 #define KEYS_4_7		1
 #define ORIG_IV		2
 #define UPD_IV		3
 #define SE_CONTEXT_SAVE_WORD_QUAD(x)	((x) << SE_CONTEXT_SAVE_WORD_QUAD_SHIFT)
 #define SE_CONTEXT_SAVE_KEY_INDEX_SHIFT		8
 #define SE_CONTEXT_SAVE_KEY_INDEX(x)	((x) << SE_CONTEXT_SAVE_KEY_INDEX_SHIFT)
 #define SE_CONTEXT_SAVE_STICKY_WORD_QUAD_SHIFT	24
 #define STICKY_0_3		0
 #define STICKY_4_7		1
 #define SE_CONTEXT_SAVE_STICKY_WORD_QUAD(x)		\
 		((x) << SE_CONTEXT_SAVE_STICKY_WORD_QUAD_SHIFT)
 #define SE_CONTEXT_SAVE_SRC_SHIFT		29
 #define STICKY_BITS		0
 #define KEYTABLE		2
 #define MEM		4
 #define SRK		6
 #define RSA_KEYTABLE	1
 #define AES_KEYTABLE	2
 #define SE_CONTEXT_SAVE_SRC(x)		((x) << SE_CONTEXT_SAVE_SRC_SHIFT)
 #define SE_CONTEXT_SAVE_RSA_KEY_INDEX_SHIFT	16
 #define SE_CONTEXT_SAVE_RSA_KEY_INDEX(x)		\
 		((x) << SE_CONTEXT_SAVE_RSA_KEY_INDEX_SHIFT)
 #define SE_CONTEXT_RSA_WORD_QUAD_SHIFT	12
 #define SE_CONTEXT_RSA_WORD_QUAD(x)		\
 		((x) << SE_CONTEXT_RSA_WORD_QUAD_SHIFT)
 #define SE_CTX_SAVE_AUTO            0x074
 #define CTX_SAVE_AUTO_ENABLE        BIT(0)
 #define CTX_SAVE_AUTO_LOCK          BIT(8)
 #define CTX_SAVE_AUTO_CURR_CNT_MASK (0x3FF << 16)
 #define SE_INT_ENABLE_REG_OFFSET	0x00c
 #define SE_INT_STATUS_REG_OFFSET	0x010
 #define INT_DISABLE		0
 #define INT_ENABLE		1
 #define INT_UNSET		0
 #define INT_SET			1
 #define SE_INT_OP_DONE_SHIFT		4
 #define SE_INT_OP_DONE(x)			((x) << SE_INT_OP_DONE_SHIFT)
 #define SE_INT_ERROR_SHIFT		16
 #define SE_INT_ERROR(x)			((x) << SE_INT_ERROR_SHIFT)
 #define SE_STATUS_0 0x800
 #define SE_STATUS_0_STATE_WAIT_IN 3
 #define SE_ERR_STATUS_0			0x804
 #define SE_ERR_STATUS_0_SE_NS_ACCESS_CLEAR 0
 #define SE_CRYPTO_KEYTABLE_DST_REG_OFFSET	0X330
 #define SE_CRYPTO_KEYTABLE_DST_WORD_QUAD_SHIFT		0
 #define SE_CRYPTO_KEYTABLE_DST_WORD_QUAD(x)		\
 		((x) << SE_CRYPTO_KEYTABLE_DST_WORD_QUAD_SHIFT)
 #define SE_KEY_INDEX_SHIFT		8
 #define SE_CRYPTO_KEYTABLE_DST_KEY_INDEX(x)	((x) << SE_KEY_INDEX_SHIFT)
 #define SE_IN_LL_ADDR_REG_OFFSET	0x018
 #define SE_OUT_LL_ADDR_REG_OFFSET	0x024
 #define SE_KEYTABLE_DATA0_REG_OFFSET	0x320
 #define SE_KEYTABLE_REG_MAX_DATA		16
 #define SE_BLOCK_COUNT_REG_OFFSET	0x318
 #define SE_SPARE_0_REG_OFFSET		0x80c
 #define SE_SHA_CONFIG_REG_OFFSET	0x200
 #define  SHA_CONTINUE  0
 #define  SHA_INIT_HASH 1
-#define SE_SHA_MSG_LENGTH_0_REG_OFFSET	0x204
+#define SE_SHA_MSG_LENGTH_0_REG 0x204
-#define SE_SHA_MSG_LENGTH_1_REG_OFFSET	0x208
+#define SE_SHA_MSG_LENGTH_1_REG 0x208
-#define SE_SHA_MSG_LENGTH_2_REG_OFFSET	0x20C
+#define SE_SHA_MSG_LENGTH_2_REG 0x20C
-#define SE_SHA_MSG_LENGTH_3_REG_OFFSET	0x210
+#define SE_SHA_MSG_LENGTH_3_REG 0x210
-#define SE_SHA_MSG_LEFT_0_REG_OFFSET	0x214
+#define SE_SHA_MSG_LEFT_0_REG   0x214
-#define SE_SHA_MSG_LEFT_1_REG_OFFSET	0x218
+#define SE_SHA_MSG_LEFT_1_REG   0x218
-#define SE_SHA_MSG_LEFT_2_REG_OFFSET	0x21C
+#define SE_SHA_MSG_LEFT_2_REG   0x21C
-#define SE_SHA_MSG_LEFT_3_REG_OFFSET	0x220
+#define SE_SHA_MSG_LEFT_3_REG   0x220
-#define SE_HASH_RESULT_REG_COUNT	16
+#define SE_CRYPTO_SECURITY_PERKEY_REG 0x280
-#define SE_HASH_RESULT_REG_OFFSET	0x030
+#define  SE_KEY_LOCK_FLAG   0x80
-#define TEGRA_SE_KEY_256_SIZE		32
+#define SE_CRYPTO_KEYTABLE_ACCESS_REG 0x284
-#define TEGRA_SE_KEY_192_SIZE		24
+#define  SE_CRYPTO_KEYTABLE_ACCESS_REG_COUNT 16
 #define TEGRA_SE_KEY_128_SIZE		16
 #define TEGRA_SE_AES_BLOCK_SIZE		16
 #define TEGRA_SE_AES_MIN_KEY_SIZE	16
 #define TEGRA_SE_AES_MAX_KEY_SIZE	32
 #define TEGRA_SE_AES_IV_SIZE		16
 #define TEGRA_SE_SHA_512_SIZE		64
 #define TEGRA_SE_SHA_384_SIZE		48
 #define TEGRA_SE_SHA_256_SIZE		32
 #define TEGRA_SE_SHA_192_SIZE		24
 #define TEGRA_SE_RNG_IV_SIZE		16
 #define TEGRA_SE_RNG_DT_SIZE		16
 #define TEGRA_SE_RNG_KEY_SIZE		16
 #define TEGRA_SE_RNG_SEED_SIZE		(TEGRA_SE_RNG_IV_SIZE + \
 						TEGRA_SE_RNG_KEY_SIZE + \
 						TEGRA_SE_RNG_DT_SIZE)
 #define TEGRA_SE_AES_CMAC_DIGEST_SIZE	16
 #define TEGRA_SE_RSA512_DIGEST_SIZE	    64
 #define TEGRA_SE_RSA1024_DIGEST_SIZE	128
 #define TEGRA_SE_RSA1536_DIGEST_SIZE	192
 #define TEGRA_SE_RSA2048_DIGEST_SIZE	256
 #define SE_KEY_TABLE_ACCESS_LOCK_OFFSET	0x280
 #define SE_KEY_TBL_DIS_KEY_LOCK_FLAG 0x80
 #define SE_KEY_TABLE_ACCESS_REG_OFFSET	0x284
 #define  SE_KEY_TBL_DIS_KEYREAD_FLAG    BIT(0)
 #define  SE_KEY_TBL_DIS_KEYUPDATE_FLAG  BIT(1)
 #define  SE_KEY_TBL_DIS_OIVREAD_FLAG    BIT(2)
@ -295,106 +178,149 @@
 #define  SE_KEY_TBL_DIS_KEYUSE_FLAG     BIT(6)
 #define  SE_KEY_TBL_DIS_KEY_ACCESS_FLAG 0x7F
-#define SE_KEY_READ_DISABLE_SHIFT		0
+#define SE_CRYPTO_CONFIG_REG 0x304
-#define SE_KEY_UPDATE_DISABLE_SHIFT		1
+#define  HASH_DISABLE   0
 #define  HASH_ENABLE    1
 #define  SE_CRYPTO_HASH(x)          ((x) << 0)
 #define  XOR_BYPASS     0
 #define  XOR_TOP        2
 #define  XOR_BOTTOM     3
 #define  SE_CRYPTO_XOR_POS(x)       ((x) << 1)
 #define  INPUT_MEMORY   0
 #define  INPUT_RANDOM   1
 #define  INPUT_AESOUT   2
 #define  INPUT_LNR_CTR  3
 #define  SE_CRYPTO_INPUT_SEL(x)     ((x) << 3)
 #define  VCTRAM_MEM     0
 #define  VCTRAM_AESOUT  2
 #define  VCTRAM_PREVMEM 3
 #define  SE_CRYPTO_VCTRAM_SEL(x)    ((x) << 5)
 #define  IV_ORIGINAL    0
 #define  IV_UPDATED     1
 #define  SE_CRYPTO_IV_SEL(x)        ((x) << 7)
 #define  CORE_DECRYPT   0
 #define  CORE_ENCRYPT   1
 #define  SE_CRYPTO_CORE_SEL(x)      ((x) << 8)
 #define  SE_CRYPTO_KEYSCH_BYPASS BIT(10)
 #define  SE_CRYPTO_CTR_CNTN(x)      ((x) << 11)
 #define  SE_CRYPTO_KEY_INDEX(x)     ((x) << 24)
 #define  MEMIF_AHB      0
 #define  MEMIF_MCCIF    1
 #define  SE_CRYPTO_MEMIF(x)         ((x) << 31)
-#define SE_CONTEXT_BUFER_SIZE	1072
+#define SE_CRYPTO_LINEAR_CTR_REG 0x308
-#define SE_CONTEXT_DRBG_BUFER_SIZE	2112
+#define  SE_CRYPTO_LINEAR_CTR_REG_COUNT 4
-#define SE_CONTEXT_SAVE_RANDOM_DATA_OFFSET	0
+#define SE_CRYPTO_BLOCK_COUNT_REG 0x318
 #define SE_CONTEXT_SAVE_RANDOM_DATA_SIZE	16
 #define SE_CONTEXT_SAVE_STICKY_BITS_OFFSET	\
 	(SE_CONTEXT_SAVE_RANDOM_DATA_OFFSET + SE_CONTEXT_SAVE_RANDOM_DATA_SIZE)
 #define SE_CONTEXT_SAVE_STICKY_BITS_SIZE	16
-#define SE_CONTEXT_SAVE_KEYS_OFFSET	(SE_CONTEXT_SAVE_STICKY_BITS_OFFSET + \
+#define SE_CRYPTO_KEYTABLE_ADDR_REG 0x31C
-					SE_CONTEXT_SAVE_STICKY_BITS_SIZE)
+#define  SE_KEYTABLE_PKT(x)         ((x) << 0)
-#define SE11_CONTEXT_SAVE_KEYS_OFFSET	(SE_CONTEXT_SAVE_STICKY_BITS_OFFSET + \
+#define  KEYS_0_3        0
-					SE_CONTEXT_SAVE_STICKY_BITS_SIZE + \
+#define  KEYS_4_7        1
-					SE_CONTEXT_SAVE_STICKY_BITS_SIZE)
+#define  ORIGINAL_IV     2
 #define  UPDATED_IV      3
 #define  SE_KEYTABLE_QUAD(x)        ((x) << 2)
 #define  SE_KEYTABLE_SLOT(x)        ((x) << 4)
-#define SE_CONTEXT_SAVE_KEY_LENGTH	512
+#define SE_CRYPTO_KEYTABLE_DATA_REG 0x320
 #define SE_CONTEXT_ORIGINAL_IV_OFFSET	(SE_CONTEXT_SAVE_KEYS_OFFSET + \
 			SE_CONTEXT_SAVE_KEY_LENGTH)
 #define SE11_CONTEXT_ORIGINAL_IV_OFFSET	(SE11_CONTEXT_SAVE_KEYS_OFFSET + \
 			SE_CONTEXT_SAVE_KEY_LENGTH)
-#define SE_CONTEXT_ORIGINAL_IV_LENGTH	256
+#define SE_CRYPTO_KEYTABLE_DST_REG 0x330
 #define  KEYS_0_3        0
 #define  KEYS_4_7        1
 #define  ORIGINAL_IV     2
 #define  UPDATED_IV      3
 #define  SE_KEYTABLE_DST_WORD_QUAD(x) ((x) << 0)
 #define  SE_KEYTABLE_DST_KEY_INDEX(x) ((x) << 8)
-#define SE_CONTEXT_UPDATED_IV_OFFSET	(SE_CONTEXT_ORIGINAL_IV_OFFSET + \
+#define SE_RNG_CONFIG_REG 0x340
-			SE_CONTEXT_ORIGINAL_IV_LENGTH)
+#define  MODE_NORMAL 0
-#define SE11_CONTEXT_UPDATED_IV_OFFSET	(SE11_CONTEXT_ORIGINAL_IV_OFFSET + \
+#define  MODE_FORCE_INSTANTION 1
-			SE_CONTEXT_ORIGINAL_IV_LENGTH)
+#define  MODE_FORCE_RESEED     2
 #define  SE_RNG_CONFIG_MODE(x)        ((x) << 0)
 #define  SRC_NONE        0
 #define  SRC_ENTROPY     1
 #define  SRC_LFSR        2
 #define  SE_RNG_CONFIG_SRC(x)         ((x) << 2)
-#define SE_CONTEXT_UPDATED_IV_LENGTH	256
+#define SE_RNG_SRC_CONFIG_REG	0x344
 #define  RO_ENTR_LOCK_DISABLE  0
 #define  RO_ENTR_LOCK_ENABLE   1
 #define  SE_RNG_SRC_CONFIG_ENTR_SRC_LOCK(x) ((x) << 0)
 #define  RO_ENTR_DISABLE       0
 #define  RO_ENTR_ENABLE        1
 #define  SE_RNG_SRC_CONFIG_ENTR_SRC(x)      ((x) << 1)
 #define  RO_HW_DIS_CYA_DISABLE 0
 #define  RO_HW_DIS_CYA_ENABLE  1
 #define  SE_RNG_SRC_CONFIG_HW_DIS_CYA(x)    ((x) << 2)
 #define  SE_RNG_SRC_CONFIG_ENTR_SUBSMPL(x)  ((x) << 4)
 #define  SE_RNG_SRC_CONFIG_ENTR_DATA_FLUSH  BIT(8)
-#define SE_CONTEXT_SAVE_KNOWN_PATTERN_OFFSET (SE_CONTEXT_UPDATED_IV_OFFSET + \
+#define SE_RNG_RESEED_INTERVAL_REG 0x348
 					SE_CONTEXT_UPDATED_IV_LENGTH)
 #define SE11_CONTEXT_SAVE_KNOWN_PATTERN_OFFSET \
 					(SE11_CONTEXT_UPDATED_IV_OFFSET + \
 					SE_CONTEXT_UPDATED_IV_LENGTH)
 #define SE_CONTEXT_SAVE_RSA_KEYS_OFFSET	SE11_CONTEXT_SAVE_KNOWN_PATTERN_OFFSET
 #define SE_CONTEXT_SAVE_RSA_KEY_LENGTH	1024
 #define SE_CONTEXT_SAVE_RSA_KNOWN_PATTERN_OFFSET	\
 	(SE_CONTEXT_SAVE_RSA_KEYS_OFFSET + SE_CONTEXT_SAVE_RSA_KEY_LENGTH)
 #define SE_CONTEXT_KNOWN_PATTERN_SIZE	16
 #define TEGRA_SE_RSA_KEYSLOT_COUNT		2
 #define SE_RSA_KEYTABLE_ACCESS_LOCK_OFFSET	0x40C
 #define SE_RSA_KEY_TBL_DIS_KEY_LOCK_FLAG    0x80
 #define SE_RSA_KEYTABLE_ACCESS_REG_OFFSET	0x410
 #define SE_RSA_KEY_TBL_DIS_KEYREAD_FLAG         BIT(0)
 #define SE_RSA_KEY_TBL_DIS_KEYUPDATE_FLAG       BIT(1)
 #define SE_RSA_KEY_TBL_DIS_KEY_READ_UPDATE_FLAG (SE_RSA_KEY_TBL_DIS_KEYREAD_FLAG | SE_RSA_KEY_TBL_DIS_KEYUPDATE_FLAG)
 #define SE_RSA_KEY_TBL_DIS_KEYUSE_FLAG          BIT(2)
 #define SE_RSA_KEY_TBL_DIS_KEYUSE_FLAG_SHIFT    BIT(2)
 #define SE_RSA_KEY_TBL_DIS_KEY_ALL_COMMON_FLAG  7
 #define SE_RSA_KEY_TBL_DIS_KEY_ALL_FLAG        0x7F
 #define SE_RSA_KEYTABLE_ADDR	0x420
 #define SE_RSA_KEYTABLE_DATA	0x424
 #define SE_RSA_OUTPUT 0x428
 #define RSA_KEY_READ	0
 #define RSA_KEY_WRITE	1
 #define SE_RSA_KEY_OP_SHIFT	10
 #define SE_RSA_KEY_OP(x)	((x) << SE_RSA_KEY_OP_SHIFT)
 #define RSA_KEY_INPUT_MODE_REG	0
 #define RSA_KEY_INPUT_MODE_DMA	1
 #define RSA_KEY_INPUT_MODE_SHIFT	8
 #define RSA_KEY_INPUT_MODE(x)	((x) << RSA_KEY_INPUT_MODE_SHIFT)
 #define SE_RSA_CONFIG 0x400
 #define  RSA_KEY_SLOT_ONE 0
 #define  RSA_KEY_SLOT_TW0 1
-#define RSA_KEY_NUM_SHIFT	7
+#define  RSA_KEY_SLOT(x)            ((x) << 24)
 #define RSA_KEY_NUM(x)	((x) << RSA_KEY_NUM_SHIFT)
 #define SE_RSA_KEY_SIZE_REG 0x404
 #define  RSA_KEY_WIDTH_512  0
 #define  RSA_KEY_WIDTH_1024 1
 #define  RSA_KEY_WIDTH_1536 2
 #define  RSA_KEY_WIDTH_2048 3
 #define SE_RSA_EXP_SIZE_REG 0x408
 #define SE_RSA_SECURITY_PERKEY_REG 0x40C
 #define  SE_RSA_KEY_LOCK_FLAG               0x80
 #define SE_RSA_KEYTABLE_ACCESS_REG 0x410
 #define  SE_RSA_KEY_TBL_DIS_KEYREAD_FLAG    BIT(0)
 #define  SE_RSA_KEY_TBL_DIS_KEYUPDATE_FLAG  BIT(1)
 #define  SE_RSA_KEY_TBL_DIS_KEYUSE_FLAG     BIT(2)
 #define  SE_RSA_KEY_TBL_DIS_KEY_ACCESS_FLAG 0x7F
 #define  SE_RSA_KEY_TBL_DIS_KEY_READ_UPDATE_FLAG      (SE_RSA_KEY_TBL_DIS_KEYREAD_FLAG | SE_RSA_KEY_TBL_DIS_KEYUPDATE_FLAG)
 #define  SE_RSA_KEY_TBL_DIS_KEY_READ_UPDATE_USE_FLAG  (SE_RSA_KEY_TBL_DIS_KEYREAD_FLAG | SE_RSA_KEY_TBL_DIS_KEYUPDATE_FLAG | SE_RSA_KEY_TBL_DIS_KEYUSE_FLAG)
 #define SE_RSA_KEYTABLE_ADDR_REG 0x420
 #define  SE_RSA_KEYTABLE_PKT(x)        ((x) << 0)
 #define  RSA_KEY_TYPE_EXP       0
 #define  RSA_KEY_TYPE_MOD       1
-#define RSA_KEY_TYPE_SHIFT	6
+#define  SE_RSA_KEYTABLE_TYPE(x)       ((x) << 6)
-#define RSA_KEY_TYPE(x)	((x) << RSA_KEY_TYPE_SHIFT)
+#define  RSA_KEY_NUM(x)                ((x) << 7)
 #define  RSA_KEY_INPUT_MODE_REG 0
 #define  RSA_KEY_INPUT_MODE_DMA 1
 #define  SE_RSA_KEYTABLE_INPUT_MODE(x) ((x) << 8)
 #define  RSA_KEY_READ           0
 #define  RSA_KEY_WRITE          1
 #define  SE_RSA_KEY_OP(x)              ((x) << 10)
-#define SE_RSA_KEY_SIZE_REG_OFFSET	0x404
+#define SE_RSA_KEYTABLE_DATA_REG 0x424
 #define SE_RSA_EXP_SIZE_REG_OFFSET	0x408
-#define RSA_KEY_SLOT_SHIFT	24
+#define SE_RSA_OUTPUT_REG 0x428
-#define RSA_KEY_SLOT(x)	((x) << RSA_KEY_SLOT_SHIFT)
+#define  SE_RSA_OUTPUT_REG_COUNT 64
 #define SE_RSA_CONFIG	0x400
-#define RSA_KEY_PKT_WORD_ADDR_SHIFT	0
+#define SE_STATUS_REG 0x800
-#define RSA_KEY_PKT_WORD_ADDR(x)	((x) << RSA_KEY_PKT_WORD_ADDR_SHIFT)
+#define  SE_STATUS_STATE_IDLE     0
 #define  SE_STATUS_STATE_BUSY     1
 #define  SE_STATUS_STATE_WAIT_OUT 2
 #define  SE_STATUS_STATE_WAIT_IN  3
 #define  SE_STATUS_STATE_MASK     3
-#define RSA_KEY_WORD_ADDR_SHIFT	0
+#define SE_ERR_STATUS_REG 0x804
-#define RSA_KEY_WORD_ADDR(x)	((x) << RSA_KEY_WORD_ADDR_SHIFT)
+#define  SE_ERR_STATUS_SE_NS_ACCESS    BIT(0)
 #define  SE_ERR_STATUS_BUSY_REG_WR     BIT(1)
 #define  SE_ERR_STATUS_DST             BIT(2)
 #define  SE_ERR_STATUS_SRK_USAGE_LIMIT BIT(3)
 #define  SE_ERR_STATUS_TZRAM_NS_ACCESS BIT(24)
 #define  SE_ERR_STATUS_TZRAM_ADDRESS   BIT(25)
-#define SE_RSA_KEYTABLE_PKT_SHIFT	0
+#define SE_MISC_REG 0x808
-#define SE_RSA_KEYTABLE_PKT(x)	((x) << SE_RSA_KEYTABLE_PKT_SHIFT)
+#define  SE_ENTROPY_NEXT_192BIT BIT(0)
 #define  SE_ENTROPY_VN_BYPASS   BIT(1)
 #define  SE_CLK_OVR_ON          BIT(2)
-#endif /* _CRYPTO_TEGRA_SE_H */
+#define SE_SPARE_REG 0x80C
 #define  SE_ERRATA_FIX_DISABLE 0
 #define  SE_ERRATA_FIX_ENABLE  1
 #define  SE_ECO(x) ((x) << 0)
 #endif
--- a/bdk/sec/tsec.c
+++ b/bdk/sec/tsec.c
@ -1,6 +1,6 @@
 /*
 * Copyright (c) 2018 naehrwert
- * Copyright (c) 2018-2019 CTCaer
+ * Copyright (c) 2018-2021 CTCaer
 * Copyright (c) 2018 balika011
 *
 * This program is free software; you can redistribute it and/or modify it
@ -24,6 +24,7 @@
 #include <soc/bpmp.h>
 #include <soc/clock.h>
 #include <soc/kfuse.h>
 #include <soc/pmc.h>
 #include <soc/t210.h>
 #include <mem/heap.h>
 #include <mem/mc.h>
@ -33,7 +34,8 @@
 // #include <gfx_utils.h>
 #define PKG11_MAGIC 0x31314B50
-#define KB_TSEC_FW_EMU_COMPAT 6 // KB ID for HOS 6.2.0.
+
 #define TSEC_HOS_KB_620 6
 static int _tsec_dma_wait_idle()
 {
@ -62,15 +64,16 @@ static int _tsec_dma_pa_to_internal_100(int not_imem, int i_offset, int pa_offse
 	return _tsec_dma_wait_idle();
 }
-int tsec_query(u8 *tsec_keys, u8 kb, tsec_ctxt_t *tsec_ctxt)
+int tsec_query(void *tsec_keys, tsec_ctxt_t *tsec_ctxt)
 {
 	int res = 0;
 	u8 *fwbuf = NULL;
 	u32 type = tsec_ctxt->type;
 	u32 *pdir, *car, *fuse, *pmc, *flowctrl, *se, *mc, *iram, *evec;
 	u32 *pkg11_magic_off;
 	bpmp_mmu_disable();
-	bpmp_clk_rate_set(BPMP_CLK_NORMAL);
+	bpmp_freq_t prev_fid = bpmp_clk_rate_set(BPMP_CLK_NORMAL);
 	// Enable clocks.
 	clock_enable_host1x();
@ -83,6 +86,18 @@ int tsec_query(u8 *tsec_keys, u8 kb, tsec_ctxt_t *tsec_ctxt)
 	kfuse_wait_ready();
 	if (type == TSEC_FW_TYPE_NEW)
 	{
 		// Disable all CCPLEX core rails.
 		pmc_enable_partition(POWER_RAIL_CE0, DISABLE);
 		pmc_enable_partition(POWER_RAIL_CE1, DISABLE);
 		pmc_enable_partition(POWER_RAIL_CE2, DISABLE);
 		pmc_enable_partition(POWER_RAIL_CE3, DISABLE);
 		// Enable AHB aperture and set it to full mmio.
 		mc_enable_ahb_redirect(true);
 	}
 	// Configure Falcon.
 	TSEC(TSEC_DMACTL) = 0;
 	TSEC(TSEC_IRQMSET) =
@ -106,11 +121,11 @@ int tsec_query(u8 *tsec_keys, u8 kb, tsec_ctxt_t *tsec_ctxt)
 	}
 	// Load firmware or emulate memio environment for newer TSEC fw.
-	if (kb == KB_TSEC_FW_EMU_COMPAT)
+	if (type == TSEC_FW_TYPE_EMU)
 		TSEC(TSEC_DMATRFBASE) = (u32)tsec_ctxt->fw >> 8;
 	else
 	{
-		fwbuf = (u8 *)malloc(0x4000);
+		fwbuf = (u8 *)malloc(SZ_16K);
 		u8 *fwbuf_aligned = (u8 *)ALIGN((u32)fwbuf, 0x100);
 		memcpy(fwbuf_aligned, tsec_ctxt->fw, tsec_ctxt->size);
 		TSEC(TSEC_DMATRFBASE) = (u32)fwbuf_aligned >> 8;
@ -125,27 +140,27 @@ int tsec_query(u8 *tsec_keys, u8 kb, tsec_ctxt_t *tsec_ctxt)
 		}
 	}
-	if (kb == KB_TSEC_FW_EMU_COMPAT)
+	if (type == TSEC_FW_TYPE_EMU)
 	{
 		// Init SMMU translation for TSEC.
 		pdir = smmu_init_for_tsec();
-		smmu_init(0x4002B000);
+		smmu_init(tsec_ctxt->secmon_base);
 		// Enable SMMU
 		if (!smmu_is_used())
 			smmu_enable();
 		// Clock reset controller.
 		car = page_alloc(1);
-		memcpy(car, (void *)CLOCK_BASE, 0x1000);
+		memcpy(car, (void *)CLOCK_BASE, SZ_PAGE);
 		car[CLK_RST_CONTROLLER_CLK_SOURCE_TSEC / 4] = 2;
 		smmu_map(pdir, CLOCK_BASE, (u32)car, 1, _WRITABLE | _READABLE | _NONSECURE);
 		// Fuse driver.
 		fuse = page_alloc(1);
-		memcpy((void *)&fuse[0x800/4], (void *)FUSE_BASE, 0x400);
+		memcpy((void *)&fuse[0x800/4], (void *)FUSE_BASE, SZ_1K);
 		fuse[0x82C / 4] = 0;
-		fuse[0x9E0 / 4] = (1 << (kb + 2)) - 1;
+		fuse[0x9E0 / 4] = (1 << (TSEC_HOS_KB_620 + 2)) - 1;
-		fuse[0x9E4 / 4] = (1 << (kb + 2)) - 1;
+		fuse[0x9E4 / 4] = (1 << (TSEC_HOS_KB_620 + 2)) - 1;
 		smmu_map(pdir, (FUSE_BASE - 0x800), (u32)fuse, 1, _READABLE | _NONSECURE);
 		// Power management controller.
@ -158,12 +173,12 @@ int tsec_query(u8 *tsec_keys, u8 kb, tsec_ctxt_t *tsec_ctxt)
 		// Security engine.
 		se = page_alloc(1);
-		memcpy(se, (void *)SE_BASE, 0x1000);
+		memcpy(se, (void *)SE_BASE, SZ_PAGE);
 		smmu_map(pdir, SE_BASE, (u32)se, 1, _READABLE | _WRITABLE | _NONSECURE);
 		// Memory controller.
 		mc = page_alloc(1);
-		memcpy(mc, (void *)MC_BASE, 0x1000);
+		memcpy(mc, (void *)MC_BASE, SZ_PAGE);
 		mc[MC_IRAM_BOM / 4] = 0;
 		mc[MC_IRAM_TOM / 4] = 0x80000000;
 		smmu_map(pdir, MC_BASE, (u32)mc, 1, _READABLE | _NONSECURE);
@ -172,7 +187,7 @@ int tsec_query(u8 *tsec_keys, u8 kb, tsec_ctxt_t *tsec_ctxt)
 		iram = page_alloc(0x30);
 		memcpy(iram, tsec_ctxt->pkg1, 0x30000);
 		// PKG1.1 magic offset.
-		pkg11_magic_off = (u32 *)(iram + (0x7000 / 4));
+		pkg11_magic_off = (u32 *)(iram + ((tsec_ctxt->pkg11_off + 0x20) / 4));
 		smmu_map(pdir, 0x40010000, (u32)iram, 0x30, _READABLE | _WRITABLE | _NONSECURE);
 		// Exception vectors
@ -187,10 +202,10 @@ int tsec_query(u8 *tsec_keys, u8 kb, tsec_ctxt_t *tsec_ctxt)
 	TSEC(TSEC_BOOTVEC) = 0;
 	TSEC(TSEC_CPUCTL) = TSEC_CPUCTL_STARTCPU;
-	if (kb == KB_TSEC_FW_EMU_COMPAT)
+	if (type == TSEC_FW_TYPE_EMU)
 	{
 		u32 start = get_tmr_us();
-		u32 k = se[SE_KEYTABLE_DATA0_REG_OFFSET / 4];
+		u32 k = se[SE_CRYPTO_KEYTABLE_DATA_REG / 4];
 		u32 key[16] = {0};
 		u32 kidx = 0;
@ -198,9 +213,9 @@ int tsec_query(u8 *tsec_keys, u8 kb, tsec_ctxt_t *tsec_ctxt)
 		{
 			smmu_flush_all();
-			if (k != se[SE_KEYTABLE_DATA0_REG_OFFSET / 4])
+			if (k != se[SE_CRYPTO_KEYTABLE_DATA_REG / 4])
 			{
-				k = se[SE_KEYTABLE_DATA0_REG_OFFSET / 4];
+				k = se[SE_CRYPTO_KEYTABLE_DATA_REG / 4];
 				key[kidx++] = k;
 			}
@ -269,7 +284,7 @@ int tsec_query(u8 *tsec_keys, u8 kb, tsec_ctxt_t *tsec_ctxt)
 		SOR1(SOR_NV_PDISP_SOR_TMDS_HDCP_CN_MSB) = 0;
 		SOR1(SOR_NV_PDISP_SOR_TMDS_HDCP_CN_LSB) = 0;
-		memcpy(tsec_keys, &buf, 0x10);
+		memcpy(tsec_keys, &buf, SE_KEY_128_SIZE);
 	}
 out_free:;
@ -284,7 +299,11 @@ out:;
 	clock_disable_sor_safe();
 	clock_disable_tsec();
 	bpmp_mmu_enable();
-	bpmp_clk_rate_set(BPMP_CLK_DEFAULT_BOOST);
+	bpmp_clk_rate_set(prev_fid);
 	// Disable AHB aperture.
 	if (type == TSEC_FW_TYPE_NEW)
 		mc_disable_ahb_redirect();
 	return res;
 }
--- a/bdk/sec/tsec.h
+++ b/bdk/sec/tsec.h
@ -1,6 +1,6 @@
 /*
 * Copyright (c) 2018 naehrwert
-* Copyright (c) 2018 CTCaer
+* Copyright (c) 2018-2021 CTCaer
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
@ -20,32 +20,24 @@
 #include <utils/types.h>
-#define TSEC_KEY_DATA_OFFSET 0x300
+enum tsec_fw_type
 {
 	// Retail Hovi Keygen.
 	TSEC_FW_TYPE_OLD = 0, // 1.0.0 - 6.1.0.
 	TSEC_FW_TYPE_EMU = 1, // 6.2.0 emulated enviroment.
 	TSEC_FW_TYPE_NEW = 2, // 7.0.0+.
 };
 typedef struct _tsec_ctxt_t
 {
-	void *fw;
+	const void *fw;
 	u32 size;
 	u32 type;
 	void *pkg1;
 	u32 pkg11_off;
 	u32 secmon_base;
 } tsec_ctxt_t;
-typedef struct _tsec_key_data_t
+int tsec_query(void *tsec_keys, tsec_ctxt_t *tsec_ctxt);
 {
 	u8 debug_key[0x10];
 	u8 blob0_auth_hash[0x10];
 	u8 blob1_auth_hash[0x10];
 	u8 blob2_auth_hash[0x10];
 	u8 blob2_aes_iv[0x10];
 	u8 hovi_eks_seed[0x10];
 	u8 hovi_common_seed[0x10];
 	u32 blob0_size;
 	u32 blob1_size;
 	u32 blob2_size;
 	u32 blob3_size;
 	u32 blob4_size;
 	u8 reserved[0x7C];
 } tsec_key_data_t;
 int tsec_query(u8 *tsec_keys, u8 kb, tsec_ctxt_t *tsec_ctxt);
 #endif
--- a/bdk/soc/bpmp.c
+++ b/bdk/soc/bpmp.c
@ -1,7 +1,7 @@
 /*
 * BPMP-Lite Cache/MMU and Frequency driver for Tegra X1
 *
- * Copyright (c) 2019-2020 CTCaer
+ * Copyright (c) 2019-2021 CTCaer
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
@ -212,43 +212,45 @@ const u8 pll_divn[] = {
 	//95   // BPMP_CLK_DEV_BOOST: 608MHz 49% - 152MHz APB.
 };
-bpmp_freq_t bpmp_clock_set = BPMP_CLK_NORMAL;
+bpmp_freq_t bpmp_fid_current = BPMP_CLK_NORMAL;
 void bpmp_clk_rate_get()
 {
 	bool clk_src_is_pllp = ((CLOCK(CLK_RST_CONTROLLER_SCLK_BURST_POLICY) >> 4) & 7) == 3;
 	if (clk_src_is_pllp)
-		bpmp_clock_set = BPMP_CLK_NORMAL;
+		bpmp_fid_current = BPMP_CLK_NORMAL;
 	else
 	{
-		bpmp_clock_set = BPMP_CLK_HIGH_BOOST;
+		bpmp_fid_current = BPMP_CLK_HIGH_BOOST;
 		u8 pll_divn_curr = (CLOCK(CLK_RST_CONTROLLER_PLLC_BASE) >> 10) & 0xFF;
 		for (u32 i = 1; i < sizeof(pll_divn); i++)
 		{
 			if (pll_divn[i] == pll_divn_curr)
 			{
-				bpmp_clock_set = i;
+				bpmp_fid_current = i;
 				break;
 			}
 		}
 	}
 }
-void bpmp_clk_rate_set(bpmp_freq_t fid)
+bpmp_freq_t bpmp_clk_rate_set(bpmp_freq_t fid)
 {
 	bpmp_freq_t prev_fid = bpmp_fid_current;
 	if (fid > (BPMP_CLK_MAX - 1))
 		fid = BPMP_CLK_MAX - 1;
-	if (bpmp_clock_set == fid)
+	if (prev_fid == fid)
-		return;
+		return prev_fid;
 	if (fid)
 	{
-		if (bpmp_clock_set)
+		if (prev_fid)
 		{
-			// Restore to PLLP source during PLLC4 configuration.
+			// Restore to PLLP source during PLLC configuration.
 			CLOCK(CLK_RST_CONTROLLER_SCLK_BURST_POLICY) = 0x20003333; // PLLP_OUT.
 			msleep(1); // Wait a bit for clock source change.
 		}
@ -269,7 +271,10 @@ void bpmp_clk_rate_set(bpmp_freq_t fid)
 		// Disable PLLC to save power.
 		clock_disable_pllc();
 	}
-	bpmp_clock_set = fid;
+	bpmp_fid_current = fid;
 	// Return old fid in case of temporary swap.
 	return prev_fid;
 }
 // The following functions halt BPMP to reduce power while sleeping.
--- a/bdk/soc/bpmp.h
+++ b/bdk/soc/bpmp.h
@ -1,7 +1,7 @@
 /*
 * BPMP-Lite Cache/MMU and Frequency driver for Tegra X1
 *
- * Copyright (c) 2019-2020 CTCaer
+ * Copyright (c) 2019-2021 CTCaer
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
@ -53,6 +53,7 @@ typedef enum
 	BPMP_CLK_MAX
 } bpmp_freq_t;
 #define BPMP_CLK_LOWER_BOOST   BPMP_CLK_SUPER_BOOST
 #define BPMP_CLK_DEFAULT_BOOST BPMP_CLK_HYPER_BOOST
 void bpmp_mmu_maintenance(u32 op, bool force);
@ -60,7 +61,7 @@ void bpmp_mmu_set_entry(int idx, bpmp_mmu_entry_t *entry, bool apply);
 void bpmp_mmu_enable();
 void bpmp_mmu_disable();
 void bpmp_clk_rate_get();
-void bpmp_clk_rate_set(bpmp_freq_t fid);
+bpmp_freq_t bpmp_clk_rate_set(bpmp_freq_t fid);
 void bpmp_usleep(u32 us);
 void bpmp_msleep(u32 ms);
 void bpmp_halt();
--- a/bdk/soc/ccplex.c
+++ b/bdk/soc/ccplex.c
@ -16,7 +16,6 @@
 */
 #include <soc/ccplex.h>
 #include <soc/fuse.h>
 #include <soc/hw_init.h>
 #include <soc/i2c.h>
 #include <soc/clock.h>
@ -29,27 +28,24 @@
 void _ccplex_enable_power_t210()
 {
-	u8 tmp = i2c_recv_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_AME_GPIO); // Get current pinmuxing
+	// Configure GPIO5 and enable output in order to power CPU pmic.
-	i2c_send_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_AME_GPIO, tmp & ~BIT(5)); // Disable GPIO5 pinmuxing.
+	max77620_config_gpio(5, MAX77620_GPIO_OUTPUT_ENABLE);
 	i2c_send_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_GPIO5, MAX77620_CNFG_GPIO_DRV_PUSHPULL | MAX77620_CNFG_GPIO_OUTPUT_VAL_HIGH);
-	// Enable cores power.
+	// Configure CPU pmic.
 	// 1-3.x: MAX77621_NFSR_ENABLE.
 	i2c_send_byte(I2C_5, MAX77621_CPU_I2C_ADDR, MAX77621_CONTROL1_REG,
 		MAX77621_AD_ENABLE | MAX77621_NFSR_ENABLE | MAX77621_SNS_ENABLE | MAX77621_RAMP_12mV_PER_US);
 	// 1.0.0-3.x: MAX77621_T_JUNCTION_120 | MAX77621_CKKADV_TRIP_DISABLE | MAX77621_INDUCTOR_NOMINAL.
-	i2c_send_byte(I2C_5, MAX77621_CPU_I2C_ADDR, MAX77621_CONTROL2_REG,
+	max77621_config_default(REGULATOR_CPU0, MAX77621_CTRL_HOS_CFG);
-		MAX77621_T_JUNCTION_120 | MAX77621_WDTMR_ENABLE | MAX77621_CKKADV_TRIP_75mV_PER_US| MAX77621_INDUCTOR_NOMINAL);
+
-	i2c_send_byte(I2C_5, MAX77621_CPU_I2C_ADDR, MAX77621_VOUT_REG, MAX77621_VOUT_ENABLE | MAX77621_VOUT_0_95V);
+	// Set voltage and enable cores power.
-	i2c_send_byte(I2C_5, MAX77621_CPU_I2C_ADDR, MAX77621_VOUT_DVS_REG, MAX77621_VOUT_ENABLE | MAX77621_VOUT_0_95V);
+	max7762x_regulator_set_voltage(REGULATOR_CPU0, 950000);
 	max7762x_regulator_enable(REGULATOR_CPU0, true);
 }
 void _ccplex_enable_power_t210b01()
 {
-	u8 pmic_cpu_addr = !(FUSE(FUSE_RESERVED_ODM28) & 1) ? MAX77812_PHASE31_CPU_I2C_ADDR : MAX77812_PHASE211_CPU_I2C_ADDR;
+	// Set voltage and enable cores power.
-	u8 tmp = i2c_recv_byte(I2C_5, pmic_cpu_addr, MAX77812_REG_EN_CTRL);
+	max7762x_regulator_set_voltage(REGULATOR_CPU1, 800000);
-	i2c_send_byte(I2C_5, pmic_cpu_addr, MAX77812_REG_EN_CTRL, tmp | MAX77812_EN_CTRL_EN_M4);
+	max7762x_regulator_enable(REGULATOR_CPU1, true);
 	i2c_send_byte(I2C_5, pmic_cpu_addr, MAX77812_REG_M4_VOUT, MAX77812_M4_VOUT_0_80V);
 }
 void ccplex_boot_cpu0(u32 entry)
@ -62,24 +58,14 @@ void ccplex_boot_cpu0(u32 entry)
 	else
 		_ccplex_enable_power_t210b01();
-	if (!(CLOCK(CLK_RST_CONTROLLER_PLLX_BASE) & 0x40000000)) // PLLX_ENABLE.
+	clock_enable_pllx();
 	{
 		CLOCK(CLK_RST_CONTROLLER_PLLX_MISC_3) &= 0xFFFFFFF7; // Disable IDDQ.
 		usleep(2);
 		CLOCK(CLK_RST_CONTROLLER_PLLX_BASE) = 0x80404E02;
 		CLOCK(CLK_RST_CONTROLLER_PLLX_BASE) = 0x404E02;
 		CLOCK(CLK_RST_CONTROLLER_PLLX_MISC) = (CLOCK(CLK_RST_CONTROLLER_PLLX_MISC) & 0xFFFBFFFF) | 0x40000;
 		CLOCK(CLK_RST_CONTROLLER_PLLX_BASE) = 0x40404E02;
 	}
 	while (!(CLOCK(CLK_RST_CONTROLLER_PLLX_BASE) & 0x8000000))
 		;
-	// Configure MSELECT source and enable clock.
+	// Configure MSELECT source and enable clock to 102MHz.
 	CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_MSELECT) = (CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_MSELECT) & 0x1FFFFF00) | 6;
-	CLOCK(CLK_RST_CONTROLLER_CLK_OUT_ENB_V) = (CLOCK(CLK_RST_CONTROLLER_CLK_OUT_ENB_V) & ~BIT(CLK_V_MSELECT)) | BIT(CLK_V_MSELECT);
+	CLOCK(CLK_RST_CONTROLLER_CLK_ENB_V_SET) = BIT(CLK_V_MSELECT);
 	// Configure initial CPU clock frequency and enable clock.
-	CLOCK(CLK_RST_CONTROLLER_CCLK_BURST_POLICY) = 0x20008888;
+	CLOCK(CLK_RST_CONTROLLER_CCLK_BURST_POLICY)  = 0x20008888; // PLLX_OUT0_LJ.
 	CLOCK(CLK_RST_CONTROLLER_SUPER_CCLK_DIVIDER) = 0x80000000;
 	CLOCK(CLK_RST_CONTROLLER_CLK_ENB_V_SET) = BIT(CLK_V_CPUG);
@ -88,12 +74,12 @@ void ccplex_boot_cpu0(u32 entry)
 	// CAR2PMC_CPU_ACK_WIDTH should be set to 0.
 	CLOCK(CLK_RST_CONTROLLER_CPU_SOFTRST_CTRL2) &= 0xFFFFF000;
-	// Enable CPU rail.
+	// Enable CPU main rail.
-	pmc_enable_partition(0, 1);
+	pmc_enable_partition(POWER_RAIL_CRAIL, ENABLE);
 	// Enable cluster 0 non-CPU rail.
-	pmc_enable_partition(15, 1);
+	pmc_enable_partition(POWER_RAIL_C0NC,  ENABLE);
-	// Enable CE0 rail.
+	// Enable CPU0 rail.
-	pmc_enable_partition(14, 1);
+	pmc_enable_partition(POWER_RAIL_CE0,   ENABLE);
 	// Request and wait for RAM repair.
 	FLOW_CTLR(FLOW_CTLR_RAM_REPAIR) = 1;
@ -113,7 +99,7 @@ void ccplex_boot_cpu0(u32 entry)
 	// MC(MC_TZ_SECURITY_CTRL) = 1;
 	// Clear MSELECT reset.
-	CLOCK(CLK_RST_CONTROLLER_RST_DEVICES_V) &= ~BIT(CLK_V_MSELECT);
+	CLOCK(CLK_RST_CONTROLLER_RST_DEV_V_CLR) = BIT(CLK_V_MSELECT);
 	// Clear NONCPU reset.
 	CLOCK(CLK_RST_CONTROLLER_RST_CPUG_CMPLX_CLR) = 0x20000000;
 	// Clear CPU0 reset.
--- a/bdk/soc/clock.c
+++ b/bdk/soc/clock.c
@ -21,6 +21,23 @@
 #include <storage/sdmmc.h>
 #include <utils/util.h>
 typedef struct _clock_osc_t
 {
 	u32 freq;
 	u16 min;
 	u16 max;
 } clock_osc_t;
 static const clock_osc_t _clock_osc_cnt[] = {
 	{ 12000, 706,  757 },
 	{ 13000, 766,  820 },
 	{ 16800, 991,  1059 },
 	{ 19200, 1133, 1210 },
 	{ 26000, 1535, 1638 },
 	{ 38400, 2268, 2418 },
 	{ 48000, 2836, 3023 }
 };
 /* clock_t: reset, enable, source, index, clk_src, clk_div */
 static const clock_t _clock_uart[] = {
@ -42,7 +59,7 @@ static const clock_t _clock_i2c[] = {
 };
 static clock_t _clock_se = {
-	CLK_RST_CONTROLLER_RST_DEVICES_V, CLK_RST_CONTROLLER_CLK_OUT_ENB_V, CLK_RST_CONTROLLER_CLK_SOURCE_SE,     CLK_V_SE,       0, 0
+	CLK_RST_CONTROLLER_RST_DEVICES_V, CLK_RST_CONTROLLER_CLK_OUT_ENB_V, CLK_RST_CONTROLLER_CLK_SOURCE_SE,     CLK_V_SE,       0, 0 // 408MHz.
 };
 static clock_t _clock_tzram = {
@ -50,19 +67,19 @@ static clock_t _clock_tzram = {
 };
 static clock_t _clock_host1x = {
-	CLK_RST_CONTROLLER_RST_DEVICES_L, CLK_RST_CONTROLLER_CLK_OUT_ENB_L, CLK_RST_CONTROLLER_CLK_SOURCE_HOST1X, CLK_L_HOST1X,   4, 3
+	CLK_RST_CONTROLLER_RST_DEVICES_L, CLK_RST_CONTROLLER_CLK_OUT_ENB_L, CLK_RST_CONTROLLER_CLK_SOURCE_HOST1X, CLK_L_HOST1X,   4, 3 // 163.2MHz.
 };
 static clock_t _clock_tsec = {
-	CLK_RST_CONTROLLER_RST_DEVICES_U, CLK_RST_CONTROLLER_CLK_OUT_ENB_U, CLK_RST_CONTROLLER_CLK_SOURCE_TSEC,   CLK_U_TSEC,     0, 2
+	CLK_RST_CONTROLLER_RST_DEVICES_U, CLK_RST_CONTROLLER_CLK_OUT_ENB_U, CLK_RST_CONTROLLER_CLK_SOURCE_TSEC,   CLK_U_TSEC,     0, 2 // 204MHz.
 };
 static clock_t _clock_sor_safe = {
 	CLK_RST_CONTROLLER_RST_DEVICES_Y, CLK_RST_CONTROLLER_CLK_OUT_ENB_Y, CLK_NO_SOURCE,                        CLK_Y_SOR_SAFE, 0, 0
 };
 static clock_t _clock_sor0 = {
-	CLK_RST_CONTROLLER_RST_DEVICES_X, CLK_RST_CONTROLLER_CLK_OUT_ENB_X, CLK_NO_SOURCE,                        CLK_X_SOR0,     0, 0
+	CLK_RST_CONTROLLER_RST_DEVICES_X, CLK_RST_CONTROLLER_CLK_OUT_ENB_X, CLK_NOT_USED,                         CLK_X_SOR0,     0, 0
 };
 static clock_t _clock_sor1 = {
-	CLK_RST_CONTROLLER_RST_DEVICES_X, CLK_RST_CONTROLLER_CLK_OUT_ENB_X, CLK_RST_CONTROLLER_CLK_SOURCE_SOR1,   CLK_X_SOR1,     0, 2
+	CLK_RST_CONTROLLER_RST_DEVICES_X, CLK_RST_CONTROLLER_CLK_OUT_ENB_X, CLK_RST_CONTROLLER_CLK_SOURCE_SOR1,   CLK_X_SOR1,     0, 2 //204MHz.
 };
 static clock_t _clock_kfuse = {
 	CLK_RST_CONTROLLER_RST_DEVICES_H, CLK_RST_CONTROLLER_CLK_OUT_ENB_H, CLK_NO_SOURCE,                        CLK_H_KFUSE,    0, 0
@ -72,11 +89,11 @@ static clock_t _clock_cl_dvfs =	{
 	CLK_RST_CONTROLLER_RST_DEVICES_W, CLK_RST_CONTROLLER_CLK_OUT_ENB_W, CLK_NO_SOURCE,                        CLK_W_DVFS,     0, 0
 };
 static clock_t _clock_coresight = {
-	CLK_RST_CONTROLLER_RST_DEVICES_U, CLK_RST_CONTROLLER_CLK_OUT_ENB_U, CLK_RST_CONTROLLER_CLK_SOURCE_CSITE,  CLK_U_CSITE,    0, 4
+	CLK_RST_CONTROLLER_RST_DEVICES_U, CLK_RST_CONTROLLER_CLK_OUT_ENB_U, CLK_RST_CONTROLLER_CLK_SOURCE_CSITE,  CLK_U_CSITE,    0, 4 // 136MHz.
 };
 static clock_t _clock_pwm = {
-	CLK_RST_CONTROLLER_RST_DEVICES_L, CLK_RST_CONTROLLER_CLK_OUT_ENB_L, CLK_RST_CONTROLLER_CLK_SOURCE_PWM,    CLK_L_PWM,      6, 4 // Fref: 6.4MHz. Stock PLLP / 54: 7.55MHz.
+	CLK_RST_CONTROLLER_RST_DEVICES_L, CLK_RST_CONTROLLER_CLK_OUT_ENB_L, CLK_RST_CONTROLLER_CLK_SOURCE_PWM,    CLK_L_PWM,      6, 4 // Fref: 6.4MHz. HOS: PLLP / 54 = 7.55MHz.
 };
 static clock_t _clock_sdmmc_legacy_tm = {
@ -218,13 +235,13 @@ void clock_disable_sor1()
 void clock_enable_kfuse()
 {
-	u32 kfuse_clk_unmask = ~BIT(CLK_H_KFUSE);
+	CLOCK(CLK_RST_CONTROLLER_RST_DEV_H_SET) = BIT(CLK_H_KFUSE);
-	CLOCK(CLK_RST_CONTROLLER_RST_DEVICES_H) = (CLOCK(CLK_RST_CONTROLLER_RST_DEVICES_H) & kfuse_clk_unmask) | BIT(CLK_H_KFUSE);
+	CLOCK(CLK_RST_CONTROLLER_CLK_ENB_H_CLR) = BIT(CLK_H_KFUSE);
-	CLOCK(CLK_RST_CONTROLLER_CLK_OUT_ENB_H) &= kfuse_clk_unmask;
+	CLOCK(CLK_RST_CONTROLLER_CLK_ENB_H_SET) = BIT(CLK_H_KFUSE);
-	CLOCK(CLK_RST_CONTROLLER_CLK_OUT_ENB_H) = (CLOCK(CLK_RST_CONTROLLER_CLK_OUT_ENB_H) & kfuse_clk_unmask) | BIT(CLK_H_KFUSE);
+	usleep(10); // Wait 10s to prevent glitching.
-	usleep(10);
+
-	CLOCK(CLK_RST_CONTROLLER_RST_DEVICES_H) &= kfuse_clk_unmask;
+	CLOCK(CLK_RST_CONTROLLER_RST_DEV_H_CLR) = BIT(CLK_H_KFUSE);
-	usleep(20);
+	usleep(20); // Wait 20s fo kfuse hw to init.
 }
 void clock_disable_kfuse()
@ -262,6 +279,32 @@ void clock_disable_pwm()
 	clock_disable(&_clock_pwm);
 }
 void clock_enable_pllx()
 {
 	// Configure and enable PLLX if disabled.
 	if (!(CLOCK(CLK_RST_CONTROLLER_PLLX_BASE) & PLLX_BASE_ENABLE)) // PLLX_ENABLE.
 	{
 		CLOCK(CLK_RST_CONTROLLER_PLLX_MISC_3) &= ~PLLX_MISC3_IDDQ; // Disable IDDQ.
 		usleep(2);
 		// Set div configuration.
 		const u32 pllx_div_cfg = (2 << 20) | (156 << 8) | 2; // P div: 2 (3), N div: 156, M div: 2. 998.4 MHz.
 		// Bypass dividers.
 		CLOCK(CLK_RST_CONTROLLER_PLLX_BASE) = PLLX_BASE_BYPASS | pllx_div_cfg;
 		// Disable bypass
 		CLOCK(CLK_RST_CONTROLLER_PLLX_BASE) = pllx_div_cfg;
 		// Set PLLX_LOCK_ENABLE.
 		CLOCK(CLK_RST_CONTROLLER_PLLX_MISC) |= PLLX_MISC_LOCK_EN;
 		// Enable PLLX.
 		CLOCK(CLK_RST_CONTROLLER_PLLX_BASE) = PLLX_BASE_ENABLE | pllx_div_cfg;
 	}
 	// Wait for PLL to stabilize.
 	while (!(CLOCK(CLK_RST_CONTROLLER_PLLX_BASE) & PLLX_BASE_LOCK))
 		;
 }
 void clock_enable_pllc(u32 divn)
 {
 	u8 pll_divn_curr = (CLOCK(CLK_RST_CONTROLLER_PLLC_BASE) >> 10) & 0xFF;
@ -721,3 +764,56 @@ void clock_sdmmc_disable(u32 id)
 	_clock_sdmmc_is_reset(id);
 	_clock_disable_pllc4(BIT(id));
 }
 u32 clock_get_osc_freq()
 {
 	CLOCK(CLK_RST_CONTROLLER_OSC_FREQ_DET) = OSC_FREQ_DET_TRIG | (2 - 1); // 2 periods of 32.76KHz window.
 	while (CLOCK(CLK_RST_CONTROLLER_OSC_FREQ_DET_STATUS) & OSC_FREQ_DET_BUSY)
 		;
 	u32 cnt = (CLOCK(CLK_RST_CONTROLLER_OSC_FREQ_DET_STATUS) & OSC_FREQ_DET_CNT);
 	CLOCK(CLK_RST_CONTROLLER_OSC_FREQ_DET) = 0;
 	// Return frequency in KHz.
 	for (u32 i = 0; i < ARRAY_SIZE(_clock_osc_cnt); i++)
 		if (cnt >= _clock_osc_cnt[i].min && cnt <= _clock_osc_cnt[i].max)
 			return _clock_osc_cnt[i].freq;
 	return 0;
 }
 u32 clock_get_dev_freq(clock_pto_id_t id)
 {
 	const u32 pto_win = 16;
 	const u32 pto_osc = 32768;
 	u32 val = ((id & PTO_SRC_SEL_MASK) << PTO_SRC_SEL_SHIFT) | PTO_DIV_SEL_DIV1 | PTO_CLK_ENABLE | (pto_win - 1);
 	CLOCK(CLK_RST_CONTROLLER_PTO_CLK_CNT_CNTL) = val;
 	(void)CLOCK(CLK_RST_CONTROLLER_PTO_CLK_CNT_CNTL);
 	usleep(2);
 	CLOCK(CLK_RST_CONTROLLER_PTO_CLK_CNT_CNTL) = val | PTO_CNT_RST;
 	(void)CLOCK(CLK_RST_CONTROLLER_PTO_CLK_CNT_CNTL);
 	usleep(2);
 	CLOCK(CLK_RST_CONTROLLER_PTO_CLK_CNT_CNTL) = val;
 	(void)CLOCK(CLK_RST_CONTROLLER_PTO_CLK_CNT_CNTL);
 	usleep(2);
 	CLOCK(CLK_RST_CONTROLLER_PTO_CLK_CNT_CNTL) = val | PTO_CNT_EN;
 	(void)CLOCK(CLK_RST_CONTROLLER_PTO_CLK_CNT_CNTL);
 	usleep((1000000 * pto_win / pto_osc) + 12 + 2);
 	while (CLOCK(CLK_RST_CONTROLLER_PTO_CLK_CNT_STATUS) & PTO_CLK_CNT_BUSY)
 		;
 	u32 cnt = CLOCK(CLK_RST_CONTROLLER_PTO_CLK_CNT_STATUS) & PTO_CLK_CNT;
 	CLOCK(CLK_RST_CONTROLLER_PTO_CLK_CNT_CNTL) = 0;
 	(void)CLOCK(CLK_RST_CONTROLLER_PTO_CLK_CNT_CNTL);
 	usleep(2);
 	u32 freq_khz = (u64)cnt * pto_osc / pto_win / 1000;
 	return freq_khz;
 }
--- a/bdk/soc/clock.h
+++ b/bdk/soc/clock.h
@ -35,6 +35,10 @@
 #define CLK_RST_CONTROLLER_CLK_SYSTEM_RATE 0x30
 #define CLK_RST_CONTROLLER_MISC_CLK_ENB 0x48
 #define CLK_RST_CONTROLLER_OSC_CTRL 0x50
 #define CLK_RST_CONTROLLER_OSC_FREQ_DET 0x58
 #define CLK_RST_CONTROLLER_OSC_FREQ_DET_STATUS 0x5C
 #define CLK_RST_CONTROLLER_PTO_CLK_CNT_CNTL 0x60
 #define CLK_RST_CONTROLLER_PTO_CLK_CNT_STATUS 0x64
 #define CLK_RST_CONTROLLER_PLLC_BASE 0x80
 #define CLK_RST_CONTROLLER_PLLC_OUT 0x84
 #define CLK_RST_CONTROLLER_PLLC_MISC 0x88
@ -156,11 +160,20 @@
 #define CLK_RST_CONTROLLER_CLK_SOURCE_UARTAPE 0x710
 #define CLK_NO_SOURCE 0x0
 #define CLK_NOT_USED  0x0
 /*! PLL control and status bits */
 #define PLLX_BASE_LOCK       BIT(27)
 #define PLLX_BASE_REF_DIS    BIT(29)
 #define PLLX_BASE_ENABLE     BIT(30)
 #define PLLX_BASE_BYPASS     BIT(31)
 #define PLLX_MISC_LOCK_EN    BIT(18)
 #define PLLX_MISC3_IDDQ      BIT(3)
 #define PLLCX_BASE_LOCK      BIT(27)
 #define PLLCX_BASE_REF_DIS   BIT(29)
 #define PLLCX_BASE_ENABLE    BIT(30)
 #define PLLCX_BASE_BYPASS    BIT(31)
 #define PLLA_OUT0_RSTN_CLR   BIT(0)
 #define PLLA_OUT0_CLKEN      BIT(1)
@ -178,6 +191,169 @@
 #define UTMIPLL_LOCK         BIT(31)
 /*! PTO_CLK_CNT */
 #define PTO_REF_CLK_WIN_CFG_MASK 0xF
 #define PTO_REF_CLK_WIN_CFG_16P  0xF
 #define PTO_CNT_EN               BIT(9)
 #define PTO_CNT_RST              BIT(10)
 #define PTO_CLK_ENABLE           BIT(13)
 #define PTO_SRC_SEL_SHIFT        14
 #define PTO_SRC_SEL_MASK         0x1FF
 #define PTO_DIV_SEL_MASK         (3 << 23)
 #define PTO_DIV_SEL_GATED        (0 << 23)
 #define PTO_DIV_SEL_DIV1         (1 << 23)
 #define PTO_DIV_SEL_DIV2_RISING  (2 << 23)
 #define PTO_DIV_SEL_DIV2_FALLING (3 << 23)
 #define PTO_DIV_SEL_CPU_EARLY    (0 << 23)
 #define PTO_DIV_SEL_CPU_LATE     (1 << 23)
 #define PTO_CLK_CNT_BUSY         BIT(31)
 #define PTO_CLK_CNT              0xFFFFFF
 /*! OSC_FREQ_DET */
 #define OSC_REF_CLK_WIN_CFG_MASK 0xF
 #define OSC_FREQ_DET_TRIG        BIT(31)
 #define OSC_FREQ_DET_BUSY        BIT(31)
 #define OSC_FREQ_DET_CNT         0xFFFF
 /*! PTO IDs. */
 typedef enum _clock_pto_id_t
 {
 	CLK_PTO_PCLK_SYS =          0x06,
 	CLK_PTO_HCLK_SYS =          0x07,
 	CLK_PTO_UTMIP_240 =         0x0C,
 	CLK_PTO_CCLK_G =            0x12,
 	CLK_PTO_CCLK_G_DIV2 =       0x13,
 	CLK_PTO_SPI1 =              0x17,
 	CLK_PTO_SPI2 =              0x18,
 	CLK_PTO_SPI3 =              0x19,
 	CLK_PTO_SPI4 =              0x1A,
 	CLK_PTO_MAUD =              0x1B,
 	CLK_PTO_SCLK =              0x1C,
 	CLK_PTO_SDMMC1 =            0x20,
 	CLK_PTO_SDMMC2 =            0x21,
 	CLK_PTO_SDMMC3 =            0x22,
 	CLK_PTO_SDMMC4 =            0x23,
 	CLK_PTO_EMC =               0x24,
 	CLK_PTO_CCLK_LP =           0x2B,
 	CLK_PTO_CCLK_LP_DIV2 =      0x2C,
 	CLK_PTO_MSELECT =           0x2F,
 	CLK_PTO_VIC =               0x36,
 	CLK_PTO_NVDEC =             0x39,
 	CLK_PTO_NVENC =             0x3A,
 	CLK_PTO_NVJPG =             0x3B,
 	CLK_PTO_TSEC =              0x3C,
 	CLK_PTO_TSECB =             0x3D,
 	CLK_PTO_SE =                0x3E,
 	CLK_PTO_DSIA_LP =           0x62,
 	CLK_PTO_ISP =               0x64,
 	CLK_PTO_MC =                0x6A,
 	CLK_PTO_ACTMON =            0x6B,
 	CLK_PTO_CSITE =             0x6C,
 	CLK_PTO_HOST1X =            0x6F,
 	CLK_PTO_SE_2 =              0x74, // Same as CLK_PTO_SE.
 	CLK_PTO_SOC_THERM =         0x75,
 	CLK_PTO_TSEC_2 =            0x77, // Same as CLK_PTO_TSEC.
 	CLK_PTO_ACLK =              0x7C,
 	CLK_PTO_QSPI =              0x7D,
 	CLK_PTO_I2S1 =              0x80,
 	CLK_PTO_I2S2 =              0x81,
 	CLK_PTO_I2S3 =              0x82,
 	CLK_PTO_I2S4 =              0x83,
 	CLK_PTO_I2S5 =              0x84,
 	CLK_PTO_AHUB =              0x85,
 	CLK_PTO_APE =               0x86,
 	CLK_PTO_DVFS_SOC =          0x88,
 	CLK_PTO_DVFS_REF =          0x89,
 	CLK_PTO_SPDIF =             0x8F,
 	CLK_PTO_SPDIF_IN =          0x90,
 	CLK_PTO_UART_FST_MIPI_CAL = 0x91,
 	CLK_PTO_PWM =               0x93,
 	CLK_PTO_I2C1 =              0x94,
 	CLK_PTO_I2C2 =              0x95,
 	CLK_PTO_I2C3 =              0x96,
 	CLK_PTO_I2C4 =              0x97,
 	CLK_PTO_I2C5 =              0x98,
 	CLK_PTO_I2C6 =              0x99,
 	CLK_PTO_I2C_SLOW =          0x9A,
 	CLK_PTO_UARTAPE =           0x9B,
 	CLK_PTO_EXTPERIPH1 =        0x9D,
 	CLK_PTO_EXTPERIPH2 =        0x9E,
 	CLK_PTO_ENTROPY =           0xA0,
 	CLK_PTO_UARTA =             0xA1,
 	CLK_PTO_UARTB =             0xA2,
 	CLK_PTO_UARTC =             0xA3,
 	CLK_PTO_UARTD =             0xA4,
 	CLK_PTO_OWR =               0xA5,
 	CLK_PTO_HDA2CODEC_2X =      0xA7,
 	CLK_PTO_HDA =               0xA8,
 	CLK_PTO_SDMMC_LEGACY_TM =   0xAB,
 	CLK_PTO_SOR0 =              0xC0,
 	CLK_PTO_SOR1 =              0xC1,
 	CLK_PTO_DISP2 =             0xC4,
 	CLK_PTO_DISP1 =             0xC5,
 	CLK_PTO_XUSB_FALCON =       0x110,
 	CLK_PTO_XUSB_FS =           0x136,
 	CLK_PTO_XUSB_SS_HOST_DEV =  0x137,
 	CLK_PTO_XUSB_CORE_HOST =    0x138,
 	CLK_PTO_XUSB_CORE_DEV =     0x139,
 	/*
 	 * PLL need PTO enabled in MISC registers.
 	 * Normal div is 2 so result is multiplied with it.
 	 */
 	CLK_PTO_PLLC_DIV2 =              0x01,
 	CLK_PTO_PLLM_DIV2 =              0x02,
 	CLK_PTO_PLLP_DIV2 =              0x03,
 	CLK_PTO_PLLA_DIV2 =              0x04,
 	CLK_PTO_PLLX_DIV2 =              0x05,
 	CLK_PTO_PLLMB_DIV2 =             0x25,
 	CLK_PTO_PLLC4_DIV2 =             0x51,
 	CLK_PTO_PLLA1_DIV2 =             0x55,
 	CLK_PTO_PLLC2_DIV2 =             0x58,
 	CLK_PTO_PLLC3_DIV2 =             0x5A,
 	CLK_PTO_PLLD_DIV2 =              0xCB,
 	CLK_PTO_PLLD2_DIV2 =             0xCD,
 	CLK_PTO_PLLDP_DIV2 =             0xCF,
 	CLK_PTO_PLLU_DIV2 =              0x10D,
 	CLK_PTO_PLLREFE_DIV2 =           0x10F,
 } clock_pto_id_t;
 /*
 * CLOCK Peripherals:
 * L   0 -  31
@ -216,7 +392,7 @@ enum CLK_L_DEV
 	CLK_L_USBD    = 22,
 	CLK_L_ISP     = 23,
 	CLK_L_3D      = 24, // HIDDEN.
-	//CLK_L_      = 25,
+	CLK_L_IDE     = 25, // RESERVED.
 	CLK_L_DISP2   = 26,
 	CLK_L_DISP1   = 27,
 	CLK_L_HOST1X  = 28,
@ -244,11 +420,11 @@ enum CLK_H_DEV
 	CLK_H_SPI3     = 14,
 	CLK_H_I2C5     = 15,
 	CLK_H_DSI      = 16,
-	//CLK_H_       = 17,
+	CLK_H_TVO      = 17, // RESERVED.
 	CLK_H_HSI      = 18, // HIDDEN.
 	CLK_H_HDMI     = 19, // HIDDEN.
 	CLK_H_CSI      = 20,
-	//CLK_H_       = 21,
+	CLK_H_TVDAC    = 21, // RESERVED.
 	CLK_H_I2C2     = 22,
 	CLK_H_UARTC    = 23,
 	CLK_H_MIPI_CAL = 24,
@ -263,14 +439,14 @@ enum CLK_H_DEV
 enum CLK_U_DEV
 {
-	//CLK_U_             = 0,
+	CLK_U_SPEEDO         = 0, // RESERVED.
 	CLK_U_UARTD          = 1,
 	CLK_U_UARTE          = 2, // HIDDEN.
 	CLK_U_I2C3           = 3,
 	CLK_U_SPI4           = 4,
 	CLK_U_SDMMC3         = 5,
 	CLK_U_PCIE           = 6,
-	CLK_U_UNUSED         = 7, // RESERVED
+	CLK_U_OWR            = 7, // RESERVED.
 	CLK_U_AFI            = 8,
 	CLK_U_CSITE          = 9,
 	CLK_U_PCIEXCLK       = 10, // Only reset.
@ -444,9 +620,9 @@ enum CLK_Y_DEV
 /*! Generic clock descriptor. */
 typedef struct _clock_t
 {
-	u32 reset;
+	u16 reset;
-	u32 enable;
+	u16 enable;
-	u32 source;
+	u16 source;
 	u8 index;
 	u8 clk_src;
 	u8 clk_div;
@ -483,6 +659,7 @@ void clock_enable_coresight();
 void clock_disable_coresight();
 void clock_enable_pwm();
 void clock_disable_pwm();
 void clock_enable_pllx();
 void clock_enable_pllc(u32 divn);
 void clock_disable_pllc();
 void clock_enable_pllu();
@ -494,4 +671,7 @@ int  clock_sdmmc_is_not_reset_and_enabled(u32 id);
 void clock_sdmmc_enable(u32 id, u32 val);
 void clock_sdmmc_disable(u32 id);
 u32 clock_get_osc_freq();
 u32 clock_get_dev_freq(clock_pto_id_t id);
 #endif
--- a/bdk/soc/fuse.c
+++ b/bdk/soc/fuse.c
@ -2,7 +2,8 @@
 * Copyright (c) 2018 naehrwert
 * Copyright (c) 2018 shuffle2
 * Copyright (c) 2018 balika011
- * Copyright (c) 2019 CTCaer
+ * Copyright (c) 2019-2021 CTCaer
 * Copyright (c) 2021 shchmue
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
@ -19,6 +20,8 @@
 #include <string.h>
 #include <sec/se.h>
 #include <sec/se_t210.h>
 #include <soc/fuse.h>
 #include <soc/hw_init.h>
 #include <soc/t210.h>
@ -76,32 +79,85 @@ u32 fuse_read_odm_keygen_rev()
 	return 0;
 }
 u32 fuse_read_bootrom_rev()
 {
 	u32 rev = FUSE(FUSE_SOC_SPEEDO_1_CALIB);
 	if (hw_get_chip_id() == GP_HIDREV_MAJOR_T210)
 		return rev;
 	else
 		return rev | (1 << 12);
 }
 u32 fuse_read_dramid(bool raw_id)
 {
 	u32 dramid = (fuse_read_odm(4) & 0xF8) >> 3;
 	if (raw_id)
 		return dramid;
 	if (hw_get_chip_id() == GP_HIDREV_MAJOR_T210)
 	{
 		if (dramid > 6)
 			dramid = 0;
 	}
 	else
 	{
 		if (dramid > 28)
 			dramid = 8;
 	}
 	return dramid;
 }
 u32 fuse_read_hw_state()
 {
 	if ((fuse_read_odm(4) & 3) != 3)
 		return FUSE_NX_HW_STATE_PROD;
 	else
 		return FUSE_NX_HW_STATE_DEV;
 }
 u32 fuse_read_hw_type()
 {
 	if (hw_get_chip_id() == GP_HIDREV_MAJOR_T210B01)
 	{
 		switch ((fuse_read_odm(4) & 0xF0000) >> 16)
 		{
 		case 1:
 			return FUSE_NX_HW_TYPE_IOWA;
 		case 2:
 			return FUSE_NX_HW_TYPE_HOAG;
 		case 4:
 			return FUSE_NX_HW_TYPE_AULA;
 		case 1:
 		default:
 			return FUSE_NX_HW_TYPE_IOWA;
 		}
 	}
 	return FUSE_NX_HW_TYPE_ICOSA;
 }
-u8 fuse_count_burnt(u32 val)
+int fuse_set_sbk()
 {
-	u8 burnt_fuses = 0;
+	if (FUSE(FUSE_PRIVATE_KEY0) != 0xFFFFFFFF)
 	for (u32 i = 0; i < 32; i++)
 	{
-		if ((val >> i) & 1)
+		// Read SBK from fuses.
-			burnt_fuses++;
+		u32 sbk[4] = {
 			FUSE(FUSE_PRIVATE_KEY0),
 			FUSE(FUSE_PRIVATE_KEY1),
 			FUSE(FUSE_PRIVATE_KEY2),
 			FUSE(FUSE_PRIVATE_KEY3)
 		};
 		// Set SBK to slot 14.
 		se_aes_key_set(14, sbk, SE_KEY_128_SIZE);
 		// Lock SBK from being read.
 		se_key_acc_ctrl(14, SE_KEY_TBL_DIS_KEYREAD_FLAG);
 		return 1;
 	}
-	return burnt_fuses;
+	return 0;
 }
 void fuse_wait_idle()
@ -118,6 +174,7 @@ u32 fuse_read(u32 addr)
 	FUSE(FUSE_ADDR) = addr;
 	FUSE(FUSE_CTRL) = (FUSE(FUSE_ADDR) & ~FUSE_CMD_MASK) | FUSE_READ;
 	fuse_wait_idle();
 	return FUSE(FUSE_RDATA);
 }
--- a/bdk/soc/fuse.h
+++ b/bdk/soc/fuse.h
@ -2,6 +2,8 @@
 * Copyright (c) 2018 naehrwert
 * Copyright (c) 2018 shuffle2
 * Copyright (c) 2018 balika011
 * Copyright (c) 2019-2021 CTCaer
 * Copyright (c) 2021 shchmue
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
@ -64,9 +66,10 @@
 #define FUSE_OPT_X_COORDINATE 0x214
 #define FUSE_OPT_Y_COORDINATE 0x218
 #define FUSE_GPU_IDDQ_CALIB	0x228
 #define FUSE_RESERVED_ODM28 0x240
 #define FUSE_USB_CALIB_EXT 0x350
 #define FUSE_RESERVED_ODM28_T210B01 0x240
 /*! Fuse commands. */
 #define FUSE_READ 0x1
 #define FUSE_WRITE 0x2
@ -80,14 +83,24 @@ enum
 {
 	FUSE_NX_HW_TYPE_ICOSA,
 	FUSE_NX_HW_TYPE_IOWA,
-	FUSE_NX_HW_TYPE_HOAG
+	FUSE_NX_HW_TYPE_HOAG,
 	FUSE_NX_HW_TYPE_AULA
 };
 enum
 {
 	FUSE_NX_HW_STATE_PROD,
 	FUSE_NX_HW_STATE_DEV
 };
 void fuse_disable_program();
 u32  fuse_read_odm(u32 idx);
 u32  fuse_read_odm_keygen_rev();
 u32  fuse_read_bootrom_rev();
 u32  fuse_read_dramid(bool raw_id);
 u32  fuse_read_hw_state();
 u32  fuse_read_hw_type();
-u8   fuse_count_burnt(u32 val);
+int  fuse_set_sbk();
 void fuse_wait_idle();
 int  fuse_read_ipatch(void (*ipatch)(u32 offset, u32 value));
 int  fuse_read_evp_thunk(u32 *iram_evp_thunks, u32 *iram_evp_thunks_len);
--- a/bdk/soc/hw_init.c
+++ b/bdk/soc/hw_init.c
@ -1,6 +1,6 @@
 /*
 * Copyright (c) 2018 naehrwert
- * Copyright (c) 2018-2020 CTCaer
+ * Copyright (c) 2018-2021 CTCaer
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
@ -18,7 +18,7 @@
 #include <string.h>
 #include <soc/hw_init.h>
-#include <gfx/di.h>
+#include <display/di.h>
 #include <input/joycon.h>
 #include <input/touch.h>
 #include <sec/se.h>
@ -42,11 +42,23 @@
 #include <storage/nx_sd.h>
 #include <storage/sdmmc.h>
 #include <thermal/fan.h>
 #include <thermal/tmp451.h>
 #include <utils/util.h>
 extern boot_cfg_t b_cfg;
 extern volatile nyx_storage_t *nyx_str;
 u32 hw_rst_status;
 u32 hw_rst_reason;
 u32 hw_get_chip_id()
 {
 	if (((APB_MISC(APB_MISC_GP_HIDREV) >> 4) & 0xF) >= GP_HIDREV_MAJOR_T210B01)
 		return GP_HIDREV_MAJOR_T210B01;
 	else
 		return GP_HIDREV_MAJOR_T210;
 }
 /*
 * CLK_OSC - 38.4 MHz crystal.
 * CLK_M   - 19.2 MHz (osc/2).
@ -56,14 +68,6 @@ extern volatile nyx_storage_t *nyx_str;
 * PCLK    - 68MHz  init (-> 136MHz -> OC/4).
 */
 u32 hw_get_chip_id()
 {
 	if (((APB_MISC(APB_MISC_GP_HIDREV) >> 4) & 0xF) >= GP_HIDREV_MAJOR_T210B01)
 		return GP_HIDREV_MAJOR_T210B01;
 	else
 		return GP_HIDREV_MAJOR_T210;
 }
 static void _config_oscillators()
 {
 	CLOCK(CLK_RST_CONTROLLER_SPARE_REG0) = (CLOCK(CLK_RST_CONTROLLER_SPARE_REG0) & 0xFFFFFFF3) | 4; // Set CLK_M_DIVISOR to 2.
@ -87,6 +91,7 @@ static void _config_oscillators()
 	CLOCK(CLK_RST_CONTROLLER_CLK_SYSTEM_RATE) = 2;             // Set HCLK div to 1 and PCLK div to 3.
 }
 // The uart is skipped for Copper, Hoag and Calcio. Used in Icosa, Iowa and Aula.
 static void _config_gpios(bool nx_hoag)
 {
 	// Clamp inputs when tristated.
@ -248,36 +253,25 @@ static void _mbist_workaround()
 static void _config_se_brom()
 {
-	// Enable fuse clock.
+	// Enable Fuse visibility.
 	clock_enable_fuse(true);
-	// Skip SBK/SSK if sept was run.
+	// Try to set SBK from fuses. If patched, skip.
-	bool sbk_skip = b_cfg.boot_cfg & BOOT_CFG_SEPT_RUN || FUSE(FUSE_PRIVATE_KEY0) == 0xFFFFFFFF;
+	fuse_set_sbk();
 	if (!sbk_skip)
 	{
 		// Bootrom part we skipped.
 		u32 sbk[4] = {
 			FUSE(FUSE_PRIVATE_KEY0),
 			FUSE(FUSE_PRIVATE_KEY1),
 			FUSE(FUSE_PRIVATE_KEY2),
 			FUSE(FUSE_PRIVATE_KEY3)
 		};
 		// Set SBK to slot 14.
 		se_aes_key_set(14, sbk, 0x10);
 		// Lock SBK from being read.
 		se_key_acc_ctrl(14, SE_KEY_TBL_DIS_KEYREAD_FLAG);
 	// Lock SSK (although it's not set and unused anyways).
-		se_key_acc_ctrl(15, SE_KEY_TBL_DIS_KEYREAD_FLAG);
+	// se_key_acc_ctrl(15, SE_KEY_TBL_DIS_KEYREAD_FLAG);
 	}
 	// This memset needs to happen here, else TZRAM will behave weirdly later on.
-	memset((void *)TZRAM_BASE, 0, 0x10000);
+	memset((void *)TZRAM_BASE, 0, SZ_64K);
 	PMC(APBDEV_PMC_CRYPTO_OP) = PMC_CRYPTO_OP_SE_ENABLE;
-	SE(SE_INT_STATUS_REG_OFFSET) = 0x1F;
+	SE(SE_INT_STATUS_REG) = 0x1F; // Clear all SE interrupts.
-	// Clear the boot reason to avoid problems later
+	// Save reset reason.
 	hw_rst_status = PMC(APBDEV_PMC_SCRATCH200);
 	hw_rst_reason = PMC(APBDEV_PMC_RST_STATUS) & PMC_RST_STATUS_MASK;
 	// Clear the boot reason to avoid problems later.
 	PMC(APBDEV_PMC_SCRATCH200) = 0x0;
 	PMC(APBDEV_PMC_RST_STATUS) = 0x0;
 	APB_MISC(APB_MISC_PP_STRAPPING_OPT_A) = (APB_MISC(APB_MISC_PP_STRAPPING_OPT_A) & 0xF0) | (7 << 10);
@ -285,17 +279,21 @@ static void _config_se_brom()
 static void _config_regulators(bool tegra_t210)
 {
 	// Set RTC/AO domain to POR voltage.
 	if (tegra_t210)
 		max7762x_regulator_set_voltage(REGULATOR_LDO4, 1000000);
 	// Disable low battery shutdown monitor.
 	max77620_low_battery_monitor_config(false);
 	// Disable SDMMC1 IO power.
 	gpio_write(GPIO_PORT_E, GPIO_PIN_4, GPIO_LOW);
-	max77620_regulator_enable(REGULATOR_LDO2, 0);
+	max7762x_regulator_enable(REGULATOR_LDO2, false);
 	sd_power_cycle_time_start = get_tmr_ms();
 	i2c_send_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_CNFGBBC, MAX77620_CNFGBBC_RESISTOR_1K);
 	i2c_send_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_ONOFFCNFG1,
-		BIT(6) | (3 << MAX77620_ONOFFCNFG1_MRT_SHIFT)); // PWR delay for forced shutdown off.
+		MAX77620_ONOFFCNFG1_RSVD | (3 << MAX77620_ONOFFCNFG1_MRT_SHIFT)); // PWR delay for forced shutdown off.
 	if (tegra_t210)
 	{
@ -313,28 +311,18 @@ static void _config_regulators(bool tegra_t210)
 			(4 << MAX77620_FPS_TIME_PERIOD_SHIFT) | (2 << MAX77620_FPS_PD_PERIOD_SHIFT)); // 3.x+
 		// Set vdd_core voltage to 1.125V.
-		max77620_regulator_set_voltage(REGULATOR_SD0, 1125000);
+		max7762x_regulator_set_voltage(REGULATOR_SD0, 1125000);
-		// Fix CPU/GPU after a L4T warmboot.
+		// Fix CPU/GPU after L4T warmboot.
-		i2c_send_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_GPIO5, 2);
+		max77620_config_gpio(5, MAX77620_GPIO_OUTPUT_DISABLE);
-		i2c_send_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_GPIO6, 2);
+		max77620_config_gpio(6, MAX77620_GPIO_OUTPUT_DISABLE);
-		i2c_send_byte(I2C_5, MAX77621_CPU_I2C_ADDR, MAX77621_VOUT_REG,     MAX77621_VOUT_0_95V); // Disable power.
+		// Set POR configuration.
-		i2c_send_byte(I2C_5, MAX77621_CPU_I2C_ADDR, MAX77621_VOUT_DVS_REG, MAX77621_VOUT_ENABLE | MAX77621_VOUT_1_09V); // Enable DVS power.
+		max77621_config_default(REGULATOR_CPU0, MAX77621_CTRL_POR_CFG);
-		i2c_send_byte(I2C_5, MAX77621_CPU_I2C_ADDR, MAX77621_CONTROL1_REG, MAX77621_RAMP_50mV_PER_US);
+		max77621_config_default(REGULATOR_GPU0, MAX77621_CTRL_POR_CFG);
 		i2c_send_byte(I2C_5, MAX77621_CPU_I2C_ADDR, MAX77621_CONTROL2_REG,
 			MAX77621_T_JUNCTION_120 | MAX77621_FT_ENABLE | MAX77621_CKKADV_TRIP_75mV_PER_US_HIST_DIS |
 			MAX77621_CKKADV_TRIP_150mV_PER_US | MAX77621_INDUCTOR_NOMINAL);
 		i2c_send_byte(I2C_5, MAX77621_GPU_I2C_ADDR, MAX77621_VOUT_REG,     MAX77621_VOUT_0_95V); // Disable power.
 		i2c_send_byte(I2C_5, MAX77621_GPU_I2C_ADDR, MAX77621_VOUT_DVS_REG, MAX77621_VOUT_ENABLE | MAX77621_VOUT_1_09V); // Enable DVS power.
 		i2c_send_byte(I2C_5, MAX77621_GPU_I2C_ADDR, MAX77621_CONTROL1_REG, MAX77621_RAMP_50mV_PER_US);
 		i2c_send_byte(I2C_5, MAX77621_GPU_I2C_ADDR, MAX77621_CONTROL2_REG,
 			MAX77621_T_JUNCTION_120 | MAX77621_FT_ENABLE | MAX77621_CKKADV_TRIP_75mV_PER_US_HIST_DIS |
 			MAX77621_CKKADV_TRIP_150mV_PER_US | MAX77621_INDUCTOR_NOMINAL);
 	}
 	else // Tegra X1+ set vdd_core voltage to 1.05V.
-		max77620_regulator_set_voltage(REGULATOR_SD0, 1050000);
+		max7762x_regulator_set_voltage(REGULATOR_SD0, 1050000);
 }
 void hw_init()
@ -356,7 +344,7 @@ void hw_init()
 	// Enable Security Engine clock.
 	clock_enable_se();
-	// Enable Fuse clock.
+	// Enable Fuse visibility.
 	clock_enable_fuse(true);
 	// Disable Fuse programming.
@ -373,7 +361,8 @@ void hw_init()
 #ifdef DEBUG_UART_PORT
 	clock_enable_uart(DEBUG_UART_PORT);
-	uart_init(DEBUG_UART_PORT, 115200);
+	uart_init(DEBUG_UART_PORT, DEBUG_UART_BAUDRATE);
 	uart_invert(DEBUG_UART_PORT, DEBUG_UART_INVERT, UART_INVERT_TXD);
 #endif
 	// Enable Dynamic Voltage and Frequency Scaling device clock.
@ -391,17 +380,20 @@ void hw_init()
 	//! TODO: Why? Device is NFC MCU on Lite.
 	if (nx_hoag)
-		max77620_regulator_set_volt_and_flags(REGULATOR_LDO8, 2800000, MAX77620_POWER_MODE_NORMAL);
+	{
 		max7762x_regulator_set_voltage(REGULATOR_LDO8, 2800000);
 		max7762x_regulator_enable(REGULATOR_LDO8, true);
 	}
 	// Initialize I2C1 for various power related devices.
 	i2c_init(I2C_1);
 	// Enable charger in case it's disabled.
 	bq24193_enable_charger();
 	// Initialize various regulators based on Erista/Mariko platform.
 	_config_regulators(tegra_t210);
 	// Enable charger in case it's disabled.
 	bq24193_enable_charger();
 	_config_pmc_scratch(); // Missing from 4.x+
 	// Set BPMP/SCLK to PLLP_OUT (408MHz).
@ -421,19 +413,18 @@ void hw_init()
 	bpmp_mmu_enable();
 }
-void hw_reinit_workaround(bool extra_reconfig, u32 magic)
+void hw_reinit_workaround(bool coreboot, u32 bl_magic)
 {
 	// Disable BPMP max clock.
 	bpmp_clk_rate_set(BPMP_CLK_NORMAL);
 #ifdef NYX
-	// Deinit touchscreen, 5V regulators and Joy-Con.
+	// Disable temperature sensor, touchscreen, 5V regulators and Joy-Con.
-	touch_power_off();
+	tmp451_end();
 	set_fan_duty(0);
 	touch_power_off();
 	jc_deinit();
-	regulator_disable_5v(REGULATOR_5V_ALL);
+	regulator_5v_disable(REGULATOR_5V_ALL);
 	clock_disable_uart(UART_B);
 	clock_disable_uart(UART_C);
 #endif
 	// Flush/disable MMU cache and set DRAM clock to 204MHz.
@ -445,10 +436,10 @@ void hw_reinit_workaround(bool extra_reconfig, u32 magic)
 	CLOCK(CLK_RST_CONTROLLER_CLK_OUT_ENB_V) |= BIT(CLK_V_AHUB);
 	CLOCK(CLK_RST_CONTROLLER_CLK_OUT_ENB_Y) |= BIT(CLK_Y_APE);
-	if (extra_reconfig)
+	// Do coreboot mitigations.
 	if (coreboot)
 	{
 		msleep(10);
 		PMC(APBDEV_PMC_PWR_DET_VAL) |= PMC_PWR_DET_SDMMC1_IO_EN;
 		clock_disable_cl_dvfs();
@ -457,13 +448,27 @@ void hw_reinit_workaround(bool extra_reconfig, u32 magic)
 		gpio_config(GPIO_PORT_D, GPIO_PIN_1, GPIO_MODE_SPIO);
 		gpio_config(GPIO_PORT_E, GPIO_PIN_6, GPIO_MODE_SPIO);
 		gpio_config(GPIO_PORT_H, GPIO_PIN_6, GPIO_MODE_SPIO);
 		// Reinstate SD controller power.
 		PMC(APBDEV_PMC_NO_IOPOWER) &= ~(PMC_NO_IOPOWER_SDMMC1_IO_EN);
 	}
-	// Power off display.
+	// Seamless display or display power off.
 	switch (bl_magic)
 	{
 	case BL_MAGIC_CRBOOT_SLD:;
 		// Set pwm to 0%, switch to gpio mode and restore pwm duty.
 		u32 brightness = display_get_backlight_brightness();
 		display_backlight_brightness(0, 1000);
 		gpio_config(GPIO_PORT_V, GPIO_PIN_0, GPIO_MODE_GPIO);
 		display_backlight_brightness(brightness, 0);
 		break;
 	default:
 		display_end();
 	}
 	// Enable clock to USBD and init SDMMC1 to avoid hangs with bad hw inits.
-	if (magic == 0xBAADF00D)
+	if (bl_magic == BL_MAGIC_BROKEN_HWI)
 	{
 		CLOCK(CLK_RST_CONTROLLER_CLK_ENB_L_SET) = BIT(CLK_L_USBD);
 		sdmmc_init(&sd_sdmmc, SDMMC_1, SDMMC_POWER_3_3, SDMMC_BUS_WIDTH_1, SDHCI_TIMING_SD_ID, 0);
--- a/bdk/soc/hw_init.h
+++ b/bdk/soc/hw_init.h
@ -1,6 +1,6 @@
 /*
 * Copyright (c) 2018 naehrwert
- * Copyright (c) 2018 CTCaer
+ * Copyright (c) 2018-2021 CTCaer
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
@ -20,8 +20,14 @@
 #include <utils/types.h>
 #define BL_MAGIC_CRBOOT_SLD 0x30444C53 // SLD0, seamless display type 0.
 #define BL_MAGIC_BROKEN_HWI 0xBAADF00D // Broken hwinit.
 extern u32 hw_rst_status;
 extern u32 hw_rst_reason;
 void hw_init();
-void hw_reinit_workaround(bool extra_reconfig, u32 magic);
+void hw_reinit_workaround(bool coreboot, u32 magic);
 u32  hw_get_chip_id();
 #endif
--- a/bdk/soc/i2c.c
+++ b/bdk/soc/i2c.c
@ -136,10 +136,10 @@ static int _i2c_send_single(u32 i2c_idx, u32 dev_addr, u8 *buf, u32 size)
 	// Initiate transaction on normal mode.
 	base[I2C_CNFG] = (base[I2C_CNFG] & 0xFFFFF9FF) | NORMAL_MODE_GO;
-	u32 timeout = get_tmr_ms() + 400; // Actual for max 8 bytes at 100KHz is 0.74ms.
+	u32 timeout = get_tmr_us() + 200000; // Actual for max 8 bytes at 100KHz is 0.74ms.
 	while (base[I2C_STATUS] & I2C_STATUS_BUSY)
 	{
-		if (get_tmr_ms() > timeout)
+		if (get_tmr_us() > timeout)
 			return 0;
 	}
@ -168,10 +168,10 @@ static int _i2c_recv_single(u32 i2c_idx, u8 *buf, u32 size, u32 dev_addr)
 	// Initiate transaction on normal mode.
 	base[I2C_CNFG] = (base[I2C_CNFG] & 0xFFFFF9FF) | NORMAL_MODE_GO;
-	u32 timeout = get_tmr_ms() + 400; // Actual for max 8 bytes at 100KHz is 0.74ms.
+	u32 timeout = get_tmr_us() + 200000; // Actual for max 8 bytes at 100KHz is 0.74ms.
 	while (base[I2C_STATUS] & I2C_STATUS_BUSY)
 	{
-		if (get_tmr_ms() > timeout)
+		if (get_tmr_us() > timeout)
 			return 0;
 	}
--- a/bdk/soc/irq.c
+++ b/bdk/soc/irq.c
@ -133,6 +133,10 @@ static irq_status_t _irq_handle_source(u32 irq)
 		}
 	}
 	// Do not re-enable if not handled.
 	if (status == IRQ_NONE)
 		return status;
 	if (irqs[idx].flags & IRQ_FLAG_ONE_OFF)
 		irq_free(irq);
 	else
@ -148,7 +152,9 @@ void irq_handler()
 	if (!irq_init_done)
 	{
 		_irq_disable_source(irq);
 		_irq_ack_source(irq);
 		return;
 	}
@ -156,9 +162,10 @@ void irq_handler()
 	int err = _irq_handle_source(irq);
 	//TODO: disable if unhandhled.
 	if (err == IRQ_NONE)
-		gfx_printf("Unhandled IRQ: %d\n", irq);
+	{
 		DPRINTF("Unhandled IRQ got disabled: %d!\n", irq);
 	}
 }
 static void _irq_init()
@ -170,6 +177,9 @@ static void _irq_init()
 void irq_end()
 {
 	if (!irq_init_done)
 		return;
 	_irq_free_all();
 	irq_disable_cpu_irq_exceptions();
 	irq_init_done = false;
--- a/bdk/soc/pmc.c
+++ b/bdk/soc/pmc.c
@ -14,11 +14,69 @@
 * along with this program.  If not, see <http://www.gnu.org/licenses/>.
 */
 #include <soc/hw_init.h>
 #include <soc/pmc.h>
 #include <soc/t210.h>
 #include <utils/util.h>
-int pmc_enable_partition(u32 part, int enable)
+void pmc_scratch_lock(pmc_sec_lock_t lock_mask)
 {
 	// Lock Private key disable, Fuse write enable, MC carveout, Warmboot PA id and Warmboot address.
 	if (lock_mask & PMC_SEC_LOCK_MISC)
 	{
 		PMC(APBDEV_PMC_SEC_DISABLE)  |= 0x700FF0;   // RW lock: 0-3.
 		PMC(APBDEV_PMC_SEC_DISABLE2) |= 0xFC000000; // RW lock: 21-23.
 		PMC(APBDEV_PMC_SEC_DISABLE3) |= 0x3F0FFF00; // RW lock: 28-33, 36-38.
 		PMC(APBDEV_PMC_SEC_DISABLE6) |= 0xC000000;  // RW lock: 85.
 		PMC(APBDEV_PMC_SEC_DISABLE8) |= 0xFF00FF00; // RW lock: 108-111, 116-119.
 		// SE2 context.
 		if (hw_get_chip_id() == GP_HIDREV_MAJOR_T210B01)
 		{
 			PMC(APBDEV_PMC_SEC_DISABLE9) |= 0x3FF;      // RW lock: 120-124. (0xB38)
 			PMC(APBDEV_PMC_SEC_DISABLE10) = 0xFFFFFFFF; // RW lock: 135-150.
 		}
 	}
 	if (lock_mask & PMC_SEC_LOCK_LP0_PARAMS)
 	{
 		PMC(APBDEV_PMC_SEC_DISABLE2) |= 0x3FCFFFF;  // RW lock: 8-15, 17-20.
 		PMC(APBDEV_PMC_SEC_DISABLE4) |= 0x3F3FFFFF; // RW lock: 40-50, 52-54.
 		PMC(APBDEV_PMC_SEC_DISABLE5)  = 0xFFFFFFFF; // RW lock: 56-71.
 		PMC(APBDEV_PMC_SEC_DISABLE6) |= 0xF3FFC00F; // RW lock: 72-73, 79-84, 86-87.
 		PMC(APBDEV_PMC_SEC_DISABLE7) |= 0x3FFFFF;   // RW lock: 88-98.
 		PMC(APBDEV_PMC_SEC_DISABLE8) |= 0xFF;       // RW lock: 104-107.
 	}
 	if (lock_mask & PMC_SEC_LOCK_RST_VECTOR)
 		PMC(APBDEV_PMC_SEC_DISABLE3) |= 0xF00000;   // RW lock: 34-35.
 	if (lock_mask & PMC_SEC_LOCK_CARVEOUTS)
 	{
 		PMC(APBDEV_PMC_SEC_DISABLE2) |= 0x30000;    // RW lock: 16.
 		PMC(APBDEV_PMC_SEC_DISABLE3) |= 0xC0000000; // RW lock: 39.
 		PMC(APBDEV_PMC_SEC_DISABLE4) |= 0xC0C00000; // RW lock: 51, 55.
 		PMC(APBDEV_PMC_SEC_DISABLE6) |= 0x3FF0;     // RW lock: 74-78.
 		PMC(APBDEV_PMC_SEC_DISABLE7) |= 0xFFC00000; // RW lock: 99-103.
 	}
 	if (lock_mask & PMC_SEC_LOCK_TZ_CMAC_W)
 		PMC(APBDEV_PMC_SEC_DISABLE8) |= 0x550000;   // W lock: 112-115.
 	if (lock_mask & PMC_SEC_LOCK_TZ_CMAC_R)
 		PMC(APBDEV_PMC_SEC_DISABLE8) |= 0xAA0000;   // R lock: 112-115.
 	if (lock_mask & PMC_SEC_LOCK_TZ_KEK_W)
 		PMC(APBDEV_PMC_SEC_DISABLE3) |= 0x55;       // W lock: 24-27.
 	if (lock_mask & PMC_SEC_LOCK_TZ_KEK_R)
 		PMC(APBDEV_PMC_SEC_DISABLE3) |= 0xAA;       // R lock: 24-27.
 	if (lock_mask & PMC_SEC_LOCK_SE_SRK)
 		PMC(APBDEV_PMC_SEC_DISABLE)  |= 0xFF000;    // RW lock: 4-7
 }
 int pmc_enable_partition(pmc_power_rail_t part, u32 enable)
 {
 	u32 part_mask = BIT(part);
 	u32 desired_state = enable << part;
--- a/bdk/soc/pmc.h
+++ b/bdk/soc/pmc.h
@ -60,6 +60,13 @@
 #define APBDEV_PMC_CLK_OUT_CNTRL 0x1A8
 #define  PMC_CLK_OUT_CNTRL_CLK1_FORCE_EN BIT(2)
 #define APBDEV_PMC_RST_STATUS 0x1B4
 #define  PMC_RST_STATUS_MASK 0x7
 #define  PMC_RST_STATUS_POR 0
 #define  PMC_RST_STATUS_WATCHDOG 1
 #define  PMC_RST_STATUS_SENSOR 2
 #define  PMC_RST_STATUS_SW_MAIN 3
 #define  PMC_RST_STATUS_LP0 4
 #define  PMC_RST_STATUS_AOTAG 5
 #define APBDEV_PMC_IO_DPD_REQ 0x1B8
 #define  PMC_IO_DPD_REQ_DPD_OFF BIT(30)
 #define APBDEV_PMC_IO_DPD2_REQ 0x1C0
@ -91,6 +98,8 @@
 #define APBDEV_PMC_SEC_DISABLE6 0x5B8
 #define APBDEV_PMC_SEC_DISABLE7 0x5BC
 #define APBDEV_PMC_SEC_DISABLE8 0x5C0
 #define APBDEV_PMC_SEC_DISABLE9 0x5C4
 #define APBDEV_PMC_SEC_DISABLE10 0x5C8
 #define APBDEV_PMC_SCRATCH188 0x810
 #define APBDEV_PMC_SCRATCH190 0x818
 #define APBDEV_PMC_SCRATCH200 0x840
@ -98,6 +107,54 @@
 #define APBDEV_PMC_TZRAM_SEC_DISABLE 0xBEC
 #define APBDEV_PMC_TZRAM_NON_SEC_DISABLE 0xBF0
-int pmc_enable_partition(u32 part, int enable);
+typedef enum _pmc_sec_lock_t
 {
 	PMC_SEC_LOCK_MISC       = BIT(0),
 	PMC_SEC_LOCK_LP0_PARAMS = BIT(1),
 	PMC_SEC_LOCK_RST_VECTOR = BIT(2),
 	PMC_SEC_LOCK_CARVEOUTS  = BIT(3),
 	PMC_SEC_LOCK_TZ_CMAC_W  = BIT(4),
 	PMC_SEC_LOCK_TZ_CMAC_R  = BIT(5),
 	PMC_SEC_LOCK_TZ_KEK_W   = BIT(6),
 	PMC_SEC_LOCK_TZ_KEK_R   = BIT(7),
 	PMC_SEC_LOCK_SE_SRK     = BIT(8),
 } pmc_sec_lock_t;
 typedef enum _pmc_power_rail_t
 {
 	POWER_RAIL_CRAIL = 0,
 	POWER_RAIL_3D0   = 1,
 	POWER_RAIL_VENC  = 2,
 	POWER_RAIL_PCIE  = 3,
 	POWER_RAIL_VDEC  = 4,
 	POWER_RAIL_L2C   = 5,
 	POWER_RAIL_MPE   = 6,
 	POWER_RAIL_HEG   = 7,
 	POWER_RAIL_SATA  = 8,
 	POWER_RAIL_CE1   = 9,
 	POWER_RAIL_CE2   = 10,
 	POWER_RAIL_CE3   = 11,
 	POWER_RAIL_CELP  = 12,
 	POWER_RAIL_3D1   = 13,
 	POWER_RAIL_CE0   = 14,
 	POWER_RAIL_C0NC  = 15,
 	POWER_RAIL_C1NC  = 16,
 	POWER_RAIL_SOR   = 17,
 	POWER_RAIL_DIS   = 18,
 	POWER_RAIL_DISB  = 19,
 	POWER_RAIL_XUSBA = 20,
 	POWER_RAIL_XUSBB = 21,
 	POWER_RAIL_XUSBC = 22,
 	POWER_RAIL_VIC   = 23,
 	POWER_RAIL_IRAM  = 24,
 	POWER_RAIL_NVDEC = 25,
 	POWER_RAIL_NVJPG = 26,
 	POWER_RAIL_AUD   = 27,
 	POWER_RAIL_DFD   = 28,
 	POWER_RAIL_VE2   = 29
 } pmc_power_rail_t;
 void pmc_scratch_lock(pmc_sec_lock_t lock_mask);
 int  pmc_enable_partition(pmc_power_rail_t part, u32 enable);
 #endif
--- a/bdk/soc/t210.h
+++ b/bdk/soc/t210.h
@ -281,7 +281,6 @@
 /*! Special registers. */
 #define EMC_SCRATCH0 0x324
 #define  EMC_HEKA_UPD BIT(30)
 #define  EMC_SEPT_RUN BIT(31)
 /*! Flow controller registers. */
 #define FLOW_CTLR_HALT_COP_EVENTS  0x4
--- a/bdk/soc/uart.c
+++ b/bdk/soc/uart.c
@ -122,7 +122,12 @@ u32 uart_get_IIR(u32 idx)
 {
 	uart_t *uart = (uart_t *)(UART_BASE + uart_baseoff[idx]);
-	return uart->UART_IIR_FCR;
+	u32 iir = uart->UART_IIR_FCR & UART_IIR_INT_MASK;
 	if (iir & UART_IIR_NO_INT)
 		return 0;
 	else
 		return ((iir >> 1) + 1); // Return encoded interrupt.
 }
 void uart_set_IIR(u32 idx)
--- a/bdk/soc/uart.h
+++ b/bdk/soc/uart.h
@ -54,6 +54,17 @@
 #define UART_IIR_FCR_RX_CLR 0x2
 #define UART_IIR_FCR_EN_FIFO 0x1
 #define UART_IIR_NO_INT BIT(0)
 #define UART_IIR_INT_MASK 0xF
 /* Custom returned interrupt results. Actual interrupts are -1 */
 #define UART_IIR_NOI   0 // No interrupt.
 #define UART_IIR_MSI   1 // Modem status interrupt.
 #define UART_IIR_THRI  2 // Transmitter holding register empty.
 #define UART_IIR_RDI   3 // Receiver data interrupt.
 #define UART_IIR_ERROR 4 // Overrun Error, Parity Error, Framing Error, Break.
 #define UART_IIR_REDI  5 // Receiver end of data interrupt.
 #define UART_IIR_RDTI  7 // Receiver data timeout interrupt.
 #define UART_MCR_RTS 0x2
 #define UART_MCR_DTR 0x1
--- a/bdk/storage/mmc.h
+++ b/bdk/storage/mmc.h
@ -2,6 +2,7 @@
 * Header for MultiMediaCard (MMC)
 *
 * Copyright 2002 Hewlett-Packard Company
 * Copyright 2018-2021 CTCaer
 *
 * Use consistent with the GNU GPL is permitted,
 * provided that this copyright notice is
@ -21,8 +22,8 @@
 *          15 May 2002
 */
-#ifndef LINUX_MMC_MMC_H
+#ifndef MMC_H
-#define LINUX_MMC_MMC_H
+#define MMC_H
 /* Standard MMC commands (4.1)           type  argument     response */
 /* class 1 */
@ -84,6 +85,11 @@
 #define MMC_APP_CMD              55   /* ac   [31:16] RCA        R1  */
 #define MMC_GEN_CMD              56   /* adtc [0] RD/WR          R1  */
 #define MMC_VENDOR_60_CMD        60   /* Vendor Defined              */
 #define MMC_VENDOR_61_CMD        61   /* Vendor Defined              */
 #define MMC_VENDOR_62_CMD        62   /* Vendor Defined              */
 #define MMC_VENDOR_63_CMD        63   /* Vendor Defined              */
 /* class 11 */
 #define MMC_QUE_TASK_PARAMS      44   /* ac   [20:16] task id    R1  */
 #define MMC_QUE_TASK_ADDR        45   /* ac   [31:0] data addr   R1  */
@ -103,18 +109,18 @@
 */
 /*
-MMC status in R1, for native mode (SPI bits are different)
+ * MMC status in R1, for native mode (SPI bits are different)
-Type
+ * Type
-e : error bit
+ * e : error bit
-s : status bit
+ * s : status bit
-r : detected and set for the actual command response
+ * r : detected and set for the actual command response
-x : detected and set during command execution. the host must poll
+ * x : detected and set during command execution. the host must poll
-the card by sending status command in order to read these bits.
+ *     the card by sending status command in order to read these bits.
-Clear condition
+ * Clear condition
-a : according to the card state
+ * a : according to the card state
-b : always related to the previous command. Reception of
+ * b : always related to the previous command. Reception of a valid
-a valid command will clear it (with a delay of one command)
+ *     command will clear it (with a delay of one command)
-c : clear by read
+ * c : clear by read
 */
 #define R1_OUT_OF_RANGE		(1 << 31)	/* er, c */
@ -142,7 +148,11 @@ c : clear by read
 #define R1_SWITCH_ERROR		(1 << 7)	/* sx, c */
 #define R1_EXCEPTION_EVENT	(1 << 6)	/* sr, a */
 #define R1_APP_CMD		(1 << 5)	/* sr, c */
 #define R1_SKIP_STATE_CHECK	(1 << 4)	/* Custom state to skip expected state check */
 #define R1_AKE_SEQ_ERROR	(1 << 3)
 /* R1_CURRENT_STATE 12:9 */
 #define R1_STATE(x)     ((x) << 9)
 #define R1_STATE_IDLE	0
 #define R1_STATE_READY	1
 #define R1_STATE_IDENT	2
@ -179,7 +189,10 @@ c : clear by read
 /*
 * OCR bits are mostly in host.h
 */
-#define MMC_CARD_BUSY	0x80000000	/* Card Power up status bit */
+#define MMC_CARD_VDD_18		(1 << 7)	/* Card VDD voltage 1.8 */
 #define MMC_CARD_VDD_27_34	(0x7F << 15)	/* Card VDD voltage 2.7 ~ 3.4 */
 #define MMC_CARD_CCS		(1 << 30)	/* Card Capacity status bit */
 #define MMC_CARD_BUSY		(1 << 31)	/* Card Power up status bit */
 /*
 * Card Command Classes (CCC)
@ -241,6 +254,7 @@ c : clear by read
 #define EXT_CSD_GP_SIZE_MULT		143	/* R/W */
 #define EXT_CSD_PARTITION_SETTING_COMPLETED 155	/* R/W */
 #define EXT_CSD_PARTITION_ATTRIBUTE	156	/* R/W */
 #define EXT_CSD_MAX_ENH_SIZE_MULT	157	/* RO, 3 bytes */
 #define EXT_CSD_PARTITION_SUPPORT	160	/* RO */
 #define EXT_CSD_HPI_MGMT		161	/* R/W */
 #define EXT_CSD_RST_N_FUNCTION		162	/* R/W */
@ -429,4 +443,9 @@ c : clear by read
 #define MMC_SECURE_ARGS			0x80000000
 #define MMC_TRIM_ARGS			0x00008001
-#endif /* LINUX_MMC_MMC_H */
+/*
 * Vendor definitions and structs
 */
 #define MMC_SANDISK_HEALTH_REPORT 0x96C9D71C
 #endif /* MMC_H */
--- a/bdk/storage/nx_sd.h
+++ b/bdk/storage/nx_sd.h
@ -1,6 +1,6 @@
 /*
 * Copyright (c) 2018 naehrwert
- * Copyright (c) 2018-2019 CTCaer
+ * Copyright (c) 2018-2021 CTCaer
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
@ -45,12 +45,15 @@ extern FATFS sd_fs;
 void sd_error_count_increment(u8 type);
 u16 *sd_get_error_count();
 bool sd_get_card_removed();
 bool sd_get_card_initialized();
 bool sd_get_card_mounted();
 u32  sd_get_mode();
 int  sd_init_retry(bool power_cycle);
 bool sd_initialize(bool power_cycle);
 bool sd_mount();
 void sd_unmount();
 void sd_end();
 bool sd_is_gpt();
 void *sd_file_read(const char *path, u32 *fsize);
 int  sd_save_to_file(void *buf, u32 size, const char *filename);
--- a/bdk/storage/ramdisk.c
+++ b/bdk/storage/ramdisk.c
@ -1,7 +1,7 @@
 /*
 * Ramdisk driver for Tegra X1
 *
- * Copyright (c) 2019 CTCaer
+ * Copyright (c) 2019-2021 CTCaer
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
@ -19,23 +19,40 @@
 #include <string.h>
 #include "ramdisk.h"
 #include <libs/fatfs/diskio.h>
 #include <mem/heap.h>
 #include <utils/types.h>
 #include <memory_map.h>
-int ram_disk_init(FATFS *ram_fs)
+static u32 disk_size = 0;
 int ram_disk_init(FATFS *ram_fs, u32 ramdisk_size)
 {
 	int res = 0;
 	disk_size = ramdisk_size;
 	// If ramdisk is not raw, format it.
 	if (ram_fs)
 	{
 	int res;
 		u8 *buf = malloc(0x400000);
-	f_mount(NULL, "ram:", 1); // Unmount ramdisk.
+		// Set ramdisk size.
 		ramdisk_size >>= 9;
 		disk_set_info(DRIVE_RAM, SET_SECTOR_COUNT, &ramdisk_size);
-	res = f_mkfs("ram:", FM_EXFAT, RAMDISK_CLUSTER_SZ, buf, 0x400000); // Format as exFAT w/ 32KB cluster.
+		// Unmount ramdisk.
 		f_mount(NULL, "ram:", 1);
 		// Format as exFAT w/ 32KB cluster with no MBR.
 		res = f_mkfs("ram:", FM_EXFAT | FM_SFD, RAMDISK_CLUSTER_SZ, buf, 0x400000);
 		// Mount ramdisk.
 		if (!res)
-		res = f_mount(ram_fs, "ram:", 1); // Mount ramdisk.
+			res = f_mount(ram_fs, "ram:", 1);
 		free(buf);
 	}
 	return res;
 }
@ -45,7 +62,7 @@ int ram_disk_read(u32 sector, u32 sector_count, void *buf)
 	u32 sector_off = RAM_DISK_ADDR + (sector << 9);
 	u32 bytes_count = sector_count << 9;
-	if ((sector_off - RAM_DISK_ADDR) > RAM_DISK_SZ)
+	if ((sector_off - RAM_DISK_ADDR) > disk_size)
 		return 1;
 	memcpy(buf, (void *)sector_off, bytes_count);
@ -58,7 +75,7 @@ int ram_disk_write(u32 sector, u32 sector_count, const void *buf)
 	u32 sector_off = RAM_DISK_ADDR + (sector << 9);
 	u32 bytes_count = sector_count << 9;
-	if ((sector_off - RAM_DISK_ADDR) > RAM_DISK_SZ)
+	if ((sector_off - RAM_DISK_ADDR) > disk_size)
 		return 1;
 	memcpy((void *)sector_off, buf, bytes_count);
--- a/bdk/storage/ramdisk.h
+++ b/bdk/storage/ramdisk.h
@ -1,7 +1,7 @@
 /*
 * Ramdisk driver for Tegra X1
 *
- * Copyright (c) 2019 CTCaer
+ * Copyright (c) 2019-2021 CTCaer
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
@ -23,7 +23,7 @@
 #define RAMDISK_CLUSTER_SZ 32768
-int ram_disk_init(FATFS *ram_fs);
+int ram_disk_init(FATFS *ram_fs, u32 ramdisk_size);
 int ram_disk_read(u32 sector, u32 sector_count, void *buf);
 int ram_disk_write(u32 sector, u32 sector_count, const void *buf);
--- a/bdk/storage/sd.h
+++ b/bdk/storage/sd.h
@ -1,6 +1,6 @@
 /*
 *  Copyright (c) 2005-2007 Pierre Ossman, All Rights Reserved.
- *  Copyright (c) 2018 CTCaer
+ *  Copyright (c) 2018-2021 CTCaer
 *
 * 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
@ -17,10 +17,8 @@
 #define SD_SEND_RELATIVE_ADDR     3 /* bcr                     R6  */
 #define SD_SEND_IF_COND           8 /* bcr  [11:0] See below   R7  */
 #define SD_SWITCH_VOLTAGE        11 /* ac                      R1  */
 /* class 10 */
 #define SD_SWITCH                 6 /* adtc [31:0] See below   R1  */
 /* class 5 */
 #define SD_ERASE_WR_BLK_START    32 /* ac   [31:0] data addr   R1  */
 #define SD_ERASE_WR_BLK_END      33 /* ac   [31:0] data addr   R1  */
@ -30,17 +28,32 @@
 #define SD_APP_SD_STATUS                13 /* adtc                    R1  */
 #define SD_APP_SEND_NUM_WR_BLKS         22 /* adtc                    R1  */
 #define SD_APP_OP_COND                  41 /* bcr  [31:0] OCR         R3  */
-#define SD_APP_SET_CLR_CARD_DETECT 42
+#define SD_APP_SET_CLR_CARD_DETECT      42 /* adtc                    R1  */
 #define SD_APP_SEND_SCR                 51 /* adtc                    R1  */
 /* Application secure commands */
 #define SD_APP_SECURE_READ_MULTI_BLOCK  18 /* adtc                      R1  */
 #define SD_APP_SECURE_WRITE_MULTI_BLOCK 25 /* adtc                      R1  */
 #define SD_APP_SECURE_WRITE_MKB         26 /* adtc                      R1  */
 #define SD_APP_SECURE_ERASE             38 /* adtc                      R1b */
 #define SD_APP_GET_MKB                  43 /* adtc   [31:0] See below   R1  */
 #define SD_APP_GET_MID                  44 /* adtc                      R1  */
 #define SD_APP_SET_CER_RN1              45 /* adtc                      R1  */
 #define SD_APP_GET_CER_RN2              46 /* adtc                      R1  */
 #define SD_APP_SET_CER_RES2             47 /* adtc                      R1  */
 #define SD_APP_GET_CER_RES1             48 /* adtc                      R1  */
 #define SD_APP_CHANGE_SECURE_AREA       49 /* adtc                      R1b */
 /* OCR bit definitions */
 #define SD_OCR_VDD_18       (1 << 7)	 /* VDD voltage 1.8 */
 #define SD_VHD_27_36        (1 << 8)     /* VDD voltage 2.7 ~ 3.6 */
 #define SD_OCR_VDD_27_34    (0x7F << 15) /* VDD voltage 2.7 ~ 3.4 */
 #define SD_OCR_VDD_32_33    (1 << 20)	 /* VDD voltage 3.2 ~ 3.3 */
 #define SD_OCR_S18R         (1 << 24)    /* 1.8V switching request */
 #define SD_ROCR_S18A        SD_OCR_S18R  /* 1.8V switching accepted by card */
 #define SD_OCR_XPC          (1 << 28)    /* SDXC power control */
 #define SD_OCR_CCS          (1 << 30)    /* Card Capacity Status */
-#define SD_OCR_VDD_27_34    (0x7F << 15) /* VDD voltage 2.7 ~ 3.4 */
+#define SD_OCR_BUSY         (1 << 31)    /* Card Power up Status */
 #define SD_OCR_VDD_32_33    (1 << 20)	 /* VDD voltage 3.2 ~ 3.3 */
 #define SD_OCR_VDD_18       (1 << 7)	 /* VDD voltage 1.8 */
 /*
 * SD_SWITCH argument format:
@ -63,6 +76,14 @@
 *	[7:0] Check Pattern (0xAA)
 */
 /*
 * SD_APP_GET_MKB argument format:
 *
 *	[31:24] Number of blocks to read (512 block size)
 *	[23:16] MKB ID
 *	[15:0] Block offset
 */
 /*
 * SCR field definitions
 */
--- a/bdk/storage/sdmmc.c
+++ b/bdk/storage/sdmmc.c
@ -1,6 +1,6 @@
 /*
 * Copyright (c) 2018 naehrwert
- * Copyright (c) 2018-2020 CTCaer
+ * Copyright (c) 2018-2021 CTCaer
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
@ -45,7 +45,7 @@ static inline u32 unstuff_bits(u32 *resp, u32 start, u32 size)
 * Common functions for SD and MMC.
 */
-static int _sdmmc_storage_check_result(u32 res)
+static int _sdmmc_storage_check_card_status(u32 res)
 {
 	//Error mask:
 	//TODO: R1_SWITCH_ERROR can be skipped for certain card types.
@ -66,15 +66,15 @@ static int _sdmmc_storage_execute_cmd_type1_ex(sdmmc_storage_t *storage, u32 *re
 {
 	sdmmc_cmd_t cmdbuf;
 	sdmmc_init_cmd(&cmdbuf, cmd, arg, SDMMC_RSP_TYPE_1, check_busy);
-	if (!sdmmc_execute_cmd(storage->sdmmc, &cmdbuf, 0, 0))
+	if (!sdmmc_execute_cmd(storage->sdmmc, &cmdbuf, NULL, NULL))
 		return 0;
 	sdmmc_get_rsp(storage->sdmmc, resp, 4, SDMMC_RSP_TYPE_1);
 	if (mask)
 		*resp &= ~mask;
-	if (_sdmmc_storage_check_result(*resp))
+	if (_sdmmc_storage_check_card_status(*resp))
-		if (expected_state == 0x10 || R1_CURRENT_STATE(*resp) == expected_state)
+		if (expected_state == R1_SKIP_STATE_CHECK || R1_CURRENT_STATE(*resp) == expected_state)
 			return 1;
 	return 0;
@ -88,37 +88,37 @@ static int _sdmmc_storage_execute_cmd_type1(sdmmc_storage_t *storage, u32 cmd, u
 static int _sdmmc_storage_go_idle_state(sdmmc_storage_t *storage)
 {
-	sdmmc_cmd_t cmd;
+	sdmmc_cmd_t cmdbuf;
-	sdmmc_init_cmd(&cmd, MMC_GO_IDLE_STATE, 0, SDMMC_RSP_TYPE_0, 0);
+	sdmmc_init_cmd(&cmdbuf, MMC_GO_IDLE_STATE, 0, SDMMC_RSP_TYPE_0, 0);
-	return sdmmc_execute_cmd(storage->sdmmc, &cmd, 0, 0);
+	return sdmmc_execute_cmd(storage->sdmmc, &cmdbuf, NULL, NULL);
 }
-static int _sdmmc_storage_get_cid(sdmmc_storage_t *storage, void *buf)
+static int _sdmmc_storage_get_cid(sdmmc_storage_t *storage)
 {
-	sdmmc_cmd_t cmd;
+	sdmmc_cmd_t cmdbuf;
-	sdmmc_init_cmd(&cmd, MMC_ALL_SEND_CID, 0, SDMMC_RSP_TYPE_2, 0);
+	sdmmc_init_cmd(&cmdbuf, MMC_ALL_SEND_CID, 0, SDMMC_RSP_TYPE_2, 0);
-	if (!sdmmc_execute_cmd(storage->sdmmc, &cmd, 0, 0))
+	if (!sdmmc_execute_cmd(storage->sdmmc, &cmdbuf, NULL, NULL))
 		return 0;
-	sdmmc_get_rsp(storage->sdmmc, buf, 0x10, SDMMC_RSP_TYPE_2);
+	sdmmc_get_rsp(storage->sdmmc, (u32 *)storage->raw_cid, 16, SDMMC_RSP_TYPE_2);
 	return 1;
 }
 static int _sdmmc_storage_select_card(sdmmc_storage_t *storage)
 {
-	return _sdmmc_storage_execute_cmd_type1(storage, MMC_SELECT_CARD, storage->rca << 16, 1, 0x10);
+	return _sdmmc_storage_execute_cmd_type1(storage, MMC_SELECT_CARD, storage->rca << 16, 1, R1_SKIP_STATE_CHECK);
 }
-static int _sdmmc_storage_get_csd(sdmmc_storage_t *storage, void *buf)
+static int _sdmmc_storage_get_csd(sdmmc_storage_t *storage)
 {
 	sdmmc_cmd_t cmdbuf;
 	sdmmc_init_cmd(&cmdbuf, MMC_SEND_CSD, storage->rca << 16, SDMMC_RSP_TYPE_2, 0);
-	if (!sdmmc_execute_cmd(storage->sdmmc, &cmdbuf, 0, 0))
+	if (!sdmmc_execute_cmd(storage->sdmmc, &cmdbuf, NULL, NULL))
 		return 0;
-	sdmmc_get_rsp(storage->sdmmc, buf, 0x10, SDMMC_RSP_TYPE_2);
+	sdmmc_get_rsp(storage->sdmmc, (u32 *)storage->raw_csd, 16, SDMMC_RSP_TYPE_2);
 	return 1;
 }
@ -139,12 +139,70 @@ static int _sdmmc_storage_check_status(sdmmc_storage_t *storage)
 	return _sdmmc_storage_get_status(storage, &tmp, 0);
 }
 int sdmmc_storage_execute_vendor_cmd(sdmmc_storage_t *storage, u32 arg)
 {
 	sdmmc_cmd_t cmdbuf;
 	sdmmc_init_cmd(&cmdbuf, MMC_VENDOR_62_CMD, arg, SDMMC_RSP_TYPE_1, 1);
 	if (!sdmmc_execute_cmd(storage->sdmmc, &cmdbuf, 0, 0))
 		return 0;
 	u32 resp;
 	sdmmc_get_rsp(storage->sdmmc, &resp, 4, SDMMC_RSP_TYPE_1);
 	resp = -1;
 	u32 timeout = get_tmr_ms() + 1500;
 	while (resp != (R1_READY_FOR_DATA | R1_STATE(R1_STATE_TRAN)))
 	{
 		_sdmmc_storage_get_status(storage, &resp, 0);
 		if (get_tmr_ms() > timeout)
 			break;
 	}
 	return _sdmmc_storage_check_card_status(resp);
 }
 int sdmmc_storage_vendor_sandisk_report(sdmmc_storage_t *storage, void *buf)
 {
 	// Request health report.
 	if (!sdmmc_storage_execute_vendor_cmd(storage, MMC_SANDISK_HEALTH_REPORT))
 		return 2;
 	u32 tmp = 0;
 	sdmmc_cmd_t cmdbuf;
 	sdmmc_req_t reqbuf;
 	sdmmc_init_cmd(&cmdbuf, MMC_VENDOR_63_CMD, 0, SDMMC_RSP_TYPE_1, 0); // similar to CMD17 with arg 0x0.
 	reqbuf.buf = buf;
 	reqbuf.num_sectors = 1;
 	reqbuf.blksize = 512;
 	reqbuf.is_write = 0;
 	reqbuf.is_multi_block = 0;
 	reqbuf.is_auto_stop_trn = 0;
 	u32 blkcnt_out;
 	if (!sdmmc_execute_cmd(storage->sdmmc, &cmdbuf, &reqbuf, &blkcnt_out))
 	{
 		sdmmc_stop_transmission(storage->sdmmc, &tmp);
 		_sdmmc_storage_get_status(storage, &tmp, 0);
 		return 0;
 	}
 	return 1;
 }
 static int _sdmmc_storage_readwrite_ex(sdmmc_storage_t *storage, u32 *blkcnt_out, u32 sector, u32 num_sectors, void *buf, u32 is_write)
 {
 	u32 tmp = 0;
 	sdmmc_cmd_t cmdbuf;
 	sdmmc_req_t reqbuf;
 	// If SDSC convert block address to byte address.
 	if (!storage->has_sector_access)
 		sector <<= 9;
 	sdmmc_init_cmd(&cmdbuf, is_write ? MMC_WRITE_MULTIPLE_BLOCK : MMC_READ_MULTIPLE_BLOCK, sector, SDMMC_RSP_TYPE_1, 0);
 	reqbuf.buf = buf;
@ -152,7 +210,7 @@ static int _sdmmc_storage_readwrite_ex(sdmmc_storage_t *storage, u32 *blkcnt_out
 	reqbuf.blksize = 512;
 	reqbuf.is_write = is_write;
 	reqbuf.is_multi_block = 1;
-	reqbuf.is_auto_cmd12 = 1;
+	reqbuf.is_auto_stop_trn = 1;
 	if (!sdmmc_execute_cmd(storage->sdmmc, &cmdbuf, &reqbuf, blkcnt_out))
 	{
@ -288,25 +346,25 @@ int sdmmc_storage_write(sdmmc_storage_t *storage, u32 sector, u32 num_sectors, v
 static int _mmc_storage_get_op_cond_inner(sdmmc_storage_t *storage, u32 *pout, u32 power)
 {
-	sdmmc_cmd_t cmd;
+	sdmmc_cmd_t cmdbuf;
 	u32 arg = 0;
 	switch (power)
 	{
 	case SDMMC_POWER_1_8:
-		arg = SD_OCR_CCS | SD_OCR_VDD_18;
+		arg = MMC_CARD_CCS | MMC_CARD_VDD_18;
 		break;
 	case SDMMC_POWER_3_3:
-		arg = SD_OCR_CCS | SD_OCR_VDD_27_34;
+		arg = MMC_CARD_CCS | MMC_CARD_VDD_27_34;
 		break;
 	default:
 		return 0;
 	}
-	sdmmc_init_cmd(&cmd, MMC_SEND_OP_COND, arg, SDMMC_RSP_TYPE_3, 0);
+	sdmmc_init_cmd(&cmdbuf, MMC_SEND_OP_COND, arg, SDMMC_RSP_TYPE_3, 0);
-	if (!sdmmc_execute_cmd(storage->sdmmc, &cmd, 0, 0))
+	if (!sdmmc_execute_cmd(storage->sdmmc, &cmdbuf, NULL, NULL))
 		return 0;
 	return sdmmc_get_rsp(storage->sdmmc, pout, 4, SDMMC_RSP_TYPE_3);
@ -316,15 +374,17 @@ static int _mmc_storage_get_op_cond(sdmmc_storage_t *storage, u32 power)
 {
 	u32 timeout = get_tmr_ms() + 1500;
-	while (1)
+	while (true)
 	{
 		u32 cond = 0;
 		if (!_mmc_storage_get_op_cond_inner(storage, &cond, power))
 			break;
 		// Check if power up is done.
 		if (cond & MMC_CARD_BUSY)
 		{
-			if (cond & SD_OCR_CCS)
+			// Check if card is high capacity.
 			if (cond & MMC_CARD_CCS)
 				storage->has_sector_access = 1;
 			return 1;
@ -340,7 +400,7 @@ static int _mmc_storage_get_op_cond(sdmmc_storage_t *storage, u32 power)
 static int _mmc_storage_set_relative_addr(sdmmc_storage_t *storage)
 {
-	return _sdmmc_storage_execute_cmd_type1(storage, MMC_SET_RELATIVE_ADDR, storage->rca << 16, 0, 0x10);
+	return _sdmmc_storage_execute_cmd_type1(storage, MMC_SET_RELATIVE_ADDR, storage->rca << 16, 0, R1_SKIP_STATE_CHECK);
 }
 static void _mmc_storage_parse_cid(sdmmc_storage_t *storage)
@ -362,7 +422,6 @@ static void _mmc_storage_parse_cid(sdmmc_storage_t *storage)
 	case 3: /* MMC v3.1 - v3.3 */
 	case 4: /* MMC v4 */
 		storage->cid.manfid   = unstuff_bits(raw_cid, 120, 8);
 		storage->cid.card_bga = unstuff_bits(raw_cid, 112, 2);
 		storage->cid.oemid    = unstuff_bits(raw_cid, 104, 8);
 		storage->cid.prv      = unstuff_bits(raw_cid, 48, 8);
 		storage->cid.serial   = unstuff_bits(raw_cid, 16, 32);
@ -390,13 +449,14 @@ static void _mmc_storage_parse_cid(sdmmc_storage_t *storage)
 static void _mmc_storage_parse_csd(sdmmc_storage_t *storage)
 {
-	u32 *raw_csd = (u32 *)&(storage->raw_csd);
+	u32 *raw_csd = (u32 *)storage->raw_csd;
 	storage->csd.mmca_vsn = unstuff_bits(raw_csd, 122, 4);
 	storage->csd.structure = unstuff_bits(raw_csd, 126, 2);
 	storage->csd.cmdclass = unstuff_bits(raw_csd, 84, 12);
 	storage->csd.read_blkbits = unstuff_bits(raw_csd, 80, 4);
 	storage->csd.capacity = (1 + unstuff_bits(raw_csd, 62, 12)) << (unstuff_bits(raw_csd, 47, 3) + 2);
 	storage->sec_cnt = storage->csd.capacity;
 }
 static void _mmc_storage_parse_ext_csd(sdmmc_storage_t *storage, u8 *buf)
@ -407,15 +467,25 @@ static void _mmc_storage_parse_ext_csd(sdmmc_storage_t *storage, u8 *buf)
 	storage->ext_csd.dev_version = *(u16 *)&buf[EXT_CSD_DEVICE_VERSION];
 	storage->ext_csd.boot_mult = buf[EXT_CSD_BOOT_MULT];
 	storage->ext_csd.rpmb_mult = buf[EXT_CSD_RPMB_MULT];
-	storage->ext_csd.sectors = *(u32 *)&buf[EXT_CSD_SEC_CNT];
+	//storage->ext_csd.bkops = buf[EXT_CSD_BKOPS_SUPPORT];
-	storage->ext_csd.bkops = buf[EXT_CSD_BKOPS_SUPPORT];
+	//storage->ext_csd.bkops_en = buf[EXT_CSD_BKOPS_EN];
-	storage->ext_csd.bkops_en = buf[EXT_CSD_BKOPS_EN];
+	//storage->ext_csd.bkops_status = buf[EXT_CSD_BKOPS_STATUS];
 	storage->ext_csd.bkops_status = buf[EXT_CSD_BKOPS_STATUS];
 	storage->ext_csd.pre_eol_info = buf[EXT_CSD_PRE_EOL_INFO];
 	storage->ext_csd.dev_life_est_a = buf[EXT_CSD_DEVICE_LIFE_TIME_EST_TYP_A];
 	storage->ext_csd.dev_life_est_b = buf[EXT_CSD_DEVICE_LIFE_TIME_EST_TYP_B];
 	storage->ext_csd.cache_size =
 		 buf[EXT_CSD_CACHE_SIZE]            |
 		(buf[EXT_CSD_CACHE_SIZE + 1] << 8)  |
 		(buf[EXT_CSD_CACHE_SIZE + 2] << 16) |
 		(buf[EXT_CSD_CACHE_SIZE + 3] << 24);
 	storage->ext_csd.max_enh_mult =
 		(buf[EXT_CSD_MAX_ENH_SIZE_MULT]             |
 		(buf[EXT_CSD_MAX_ENH_SIZE_MULT + 1] << 8)   |
 		(buf[EXT_CSD_MAX_ENH_SIZE_MULT + 2] << 16)) *
 		buf[EXT_CSD_HC_WP_GRP_SIZE] * buf[EXT_CSD_HC_ERASE_GRP_SIZE];
 	storage->sec_cnt = *(u32 *)&buf[EXT_CSD_SEC_CNT];
 }
@ -430,21 +500,21 @@ static int _mmc_storage_get_ext_csd(sdmmc_storage_t *storage, void *buf)
 	reqbuf.num_sectors = 1;
 	reqbuf.is_write = 0;
 	reqbuf.is_multi_block = 0;
-	reqbuf.is_auto_cmd12 = 0;
+	reqbuf.is_auto_stop_trn = 0;
-	if (!sdmmc_execute_cmd(storage->sdmmc, &cmdbuf, &reqbuf, 0))
+	if (!sdmmc_execute_cmd(storage->sdmmc, &cmdbuf, &reqbuf, NULL))
 		return 0;
 	u32 tmp = 0;
 	sdmmc_get_rsp(storage->sdmmc, &tmp, 4, SDMMC_RSP_TYPE_1);
 	_mmc_storage_parse_ext_csd(storage, buf);
-	return _sdmmc_storage_check_result(tmp);
+	return _sdmmc_storage_check_card_status(tmp);
 }
 static int _mmc_storage_switch(sdmmc_storage_t *storage, u32 arg)
 {
-	return _sdmmc_storage_execute_cmd_type1(storage, MMC_SWITCH, arg, 1, 0x10);
+	return _sdmmc_storage_execute_cmd_type1(storage, MMC_SWITCH, arg, 1, R1_SKIP_STATE_CHECK);
 }
 static int _mmc_storage_switch_buswidth(sdmmc_storage_t *storage, u32 bus_width)
@ -559,19 +629,21 @@ out:
 	return 1;
 }
 /*
 static int _mmc_storage_enable_bkops(sdmmc_storage_t *storage)
 {
-	if (!_mmc_storage_switch(storage, SDMMC_SWITCH(MMC_SWITCH_MODE_SET_BITS, EXT_CSD_BKOPS_EN, EXT_CSD_BKOPS_LEVEL_2)))
+	if (!_mmc_storage_switch(storage, SDMMC_SWITCH(MMC_SWITCH_MODE_SET_BITS, EXT_CSD_BKOPS_EN, EXT_CSD_AUTO_BKOPS_MASK)))
 		return 0;
 	return _sdmmc_storage_check_status(storage);
 }
 */
 int sdmmc_storage_init_mmc(sdmmc_storage_t *storage, sdmmc_t *sdmmc, u32 bus_width, u32 type)
 {
 	memset(storage, 0, sizeof(sdmmc_storage_t));
 	storage->sdmmc = sdmmc;
-	storage->rca = 2; //TODO: this could be a config item.
+	storage->rca = 2; // Set default device address. This could be a config item.
 	if (!sdmmc_init(sdmmc, SDMMC_4, SDMMC_POWER_1_8, SDMMC_BUS_WIDTH_1, SDHCI_TIMING_MMC_ID, SDMMC_POWER_SAVE_DISABLE))
 		return 0;
@ -587,7 +659,7 @@ DPRINTF("[MMC] went to idle state\n");
 		return 0;
 DPRINTF("[MMC] got op cond\n");
-	if (!_sdmmc_storage_get_cid(storage, storage->raw_cid))
+	if (!_sdmmc_storage_get_cid(storage))
 		return 0;
 DPRINTF("[MMC] got cid\n");
@ -595,7 +667,7 @@ DPRINTF("[MMC] got cid\n");
 		return 0;
 DPRINTF("[MMC] set relative addr\n");
-	if (!_sdmmc_storage_get_csd(storage, storage->raw_csd))
+	if (!_sdmmc_storage_get_csd(storage))
 		return 0;
 DPRINTF("[MMC] got csd\n");
 	_mmc_storage_parse_csd(storage);
@ -612,13 +684,9 @@ DPRINTF("[MMC] card selected\n");
 		return 0;
 DPRINTF("[MMC] set blocklen to 512\n");
 	u32 *csd = (u32 *)storage->raw_csd;
 	// Check system specification version, only version 4.0 and later support below features.
-	if (unstuff_bits(csd, 122, 4) < CSD_SPEC_VER_4)
+	if (storage->csd.mmca_vsn < CSD_SPEC_VER_4)
 	{
 		storage->sec_cnt = (1 + unstuff_bits(csd, 62, 12)) << (unstuff_bits(csd, 47, 3) + 2);
 		return 1;
 	}
 	if (!_mmc_storage_switch_buswidth(storage, bus_width))
 		return 0;
@ -628,21 +696,20 @@ DPRINTF("[MMC] switched buswidth\n");
 		return 0;
 DPRINTF("[MMC] got ext_csd\n");
-	_mmc_storage_parse_cid(storage); //This needs to be after csd and ext_csd
+	_mmc_storage_parse_cid(storage); // This needs to be after csd and ext_csd.
 	//gfx_hexdump(0, ext_csd, 512);
-	/* When auto BKOPS is enabled the mmc device should be powered all the time until we disable this and check status.
+/*
-	   Disable it for now until BKOPS disable added to power down sequence at sdmmc_storage_end().
+	if (storage->ext_csd.bkops & 0x1 && !(storage->ext_csd.bkops_en & EXT_CSD_AUTO_BKOPS_MASK))
 	   Additionally this works only when we put the device in idle mode which we don't after enabling it. */
 	if (0 && storage->ext_csd.bkops & 0x1 && !(storage->ext_csd.bkops_en & EXT_CSD_BKOPS_LEVEL_2))
 	{
 		_mmc_storage_enable_bkops(storage);
 DPRINTF("[MMC] BKOPS enabled\n");
 	}
 */
 	if (!_mmc_storage_enable_highspeed(storage, storage->ext_csd.card_type, type))
 		return 0;
-DPRINTF("[MMC] succesfully switched to HS mode\n");
+DPRINTF("[MMC] successfully switched to HS mode\n");
 	sdmmc_card_clock_powersave(storage->sdmmc, SDMMC_POWER_SAVE_ENABLE);
@ -668,13 +735,13 @@ int sdmmc_storage_set_mmc_partition(sdmmc_storage_t *storage, u32 partition)
 * SD specific functions.
 */
-static int _sd_storage_execute_app_cmd(sdmmc_storage_t *storage, u32 expected_state, u32 mask, sdmmc_cmd_t *cmd, sdmmc_req_t *req, u32 *blkcnt_out)
+static int _sd_storage_execute_app_cmd(sdmmc_storage_t *storage, u32 expected_state, u32 mask, sdmmc_cmd_t *cmdbuf, sdmmc_req_t *req, u32 *blkcnt_out)
 {
 	u32 tmp;
 	if (!_sdmmc_storage_execute_cmd_type1_ex(storage, &tmp, MMC_APP_CMD, storage->rca << 16, 0, expected_state, mask))
 		return 0;
-	return sdmmc_execute_cmd(storage->sdmmc, cmd, req, blkcnt_out);
+	return sdmmc_execute_cmd(storage->sdmmc, cmdbuf, req, blkcnt_out);
 }
 static int _sd_storage_execute_app_cmd_type1(sdmmc_storage_t *storage, u32 *resp, u32 cmd, u32 arg, u32 check_busy, u32 expected_state)
@ -685,60 +752,70 @@ static int _sd_storage_execute_app_cmd_type1(sdmmc_storage_t *storage, u32 *resp
 	return _sdmmc_storage_execute_cmd_type1_ex(storage, resp, cmd, arg, check_busy, expected_state, 0);
 }
-static int _sd_storage_send_if_cond(sdmmc_storage_t *storage)
+static int _sd_storage_send_if_cond(sdmmc_storage_t *storage, bool *is_sdsc)
 {
 	sdmmc_cmd_t cmdbuf;
-	sdmmc_init_cmd(&cmdbuf, SD_SEND_IF_COND, 0x1AA, SDMMC_RSP_TYPE_5, 0);
+	u16 vhd_pattern = SD_VHD_27_36 | 0xAA;
-	if (!sdmmc_execute_cmd(storage->sdmmc, &cmdbuf, 0, 0))
+	sdmmc_init_cmd(&cmdbuf, SD_SEND_IF_COND, vhd_pattern, SDMMC_RSP_TYPE_5, 0);
-		return 1; // The SD Card is version 1.X
+	if (!sdmmc_execute_cmd(storage->sdmmc, &cmdbuf, NULL, NULL))
-
+	{
-	u32 resp = 0;
+		*is_sdsc = 1; // The SD Card is version 1.X
-	if (!sdmmc_get_rsp(storage->sdmmc, &resp, 4, SDMMC_RSP_TYPE_5))
+		return 1;
 		return 2;
 	return (resp & 0xFF) == 0xAA ? 0 : 2;
 	}
-static int _sd_storage_get_op_cond_once(sdmmc_storage_t *storage, u32 *cond, int is_version_1, int bus_low_voltage_support)
+	// For Card version >= 2.0, parse results.
 	u32 resp = 0;
 	sdmmc_get_rsp(storage->sdmmc, &resp, 4, SDMMC_RSP_TYPE_5);
 	// Check if VHD was accepted and pattern was properly returned.
 	if ((resp & 0xFFF) == vhd_pattern)
 		return 1;
 	return 0;
 }
 static int _sd_storage_get_op_cond_once(sdmmc_storage_t *storage, u32 *cond, bool is_sdsc, int bus_uhs_support)
 {
 	sdmmc_cmd_t cmdbuf;
 	// Support for Current > 150mA
-	u32 arg = (~is_version_1 & 1) ? SD_OCR_XPC : 0;
+	u32 arg = !is_sdsc ? SD_OCR_XPC : 0;
 	// Support for handling block-addressed SDHC cards
-	arg	|= (~is_version_1 & 1) ? SD_OCR_CCS : 0;
+	arg	|= !is_sdsc ? SD_OCR_CCS : 0;
 	// Support for 1.8V
-	arg |= (bus_low_voltage_support & ~is_version_1 & 1) ? SD_OCR_S18R : 0;
+	arg |= (bus_uhs_support && !is_sdsc) ? SD_OCR_S18R : 0;
 	// This is needed for most cards. Do not set bit7 even if 1.8V is supported.
 	arg |= SD_OCR_VDD_32_33;
 	sdmmc_init_cmd(&cmdbuf, SD_APP_OP_COND, arg, SDMMC_RSP_TYPE_3, 0);
-	if (!_sd_storage_execute_app_cmd(storage, 0x10, is_version_1 ? 0x400000 : 0, &cmdbuf, 0, 0))
+	if (!_sd_storage_execute_app_cmd(storage, R1_SKIP_STATE_CHECK, is_sdsc ? R1_ILLEGAL_COMMAND : 0, &cmdbuf, NULL, NULL))
 		return 0;
 	return sdmmc_get_rsp(storage->sdmmc, cond, 4, SDMMC_RSP_TYPE_3);
 }
-static int _sd_storage_get_op_cond(sdmmc_storage_t *storage, int is_version_1, int bus_low_voltage_support)
+static int _sd_storage_get_op_cond(sdmmc_storage_t *storage, bool is_sdsc, int bus_uhs_support)
 {
 	u32 timeout = get_tmr_ms() + 1500;
-	while (1)
+	while (true)
 	{
 		u32 cond = 0;
-		if (!_sd_storage_get_op_cond_once(storage, &cond, is_version_1, bus_low_voltage_support))
+		if (!_sd_storage_get_op_cond_once(storage, &cond, is_sdsc, bus_uhs_support))
 			break;
 		if (cond & MMC_CARD_BUSY)
 		{
 DPRINTF("[SD] cond: %08X, lv: %d\n", cond, bus_low_voltage_support);
 		// Check if power up is done.
 		if (cond & SD_OCR_BUSY)
 		{
 DPRINTF("[SD] op cond: %08X, lv: %d\n", cond, bus_uhs_support);
 			// Check if card is high capacity.
 			if (cond & SD_OCR_CCS)
 				storage->has_sector_access = 1;
 			// Check if card supports 1.8V signaling.
-			if (cond & SD_ROCR_S18A && bus_low_voltage_support)
+			if (cond & SD_ROCR_S18A && bus_uhs_support)
 			{
-				//The low voltage regulator configuration is valid for SDMMC1 only.
+				// Switch to 1.8V signaling.
-				if (storage->sdmmc->id == SDMMC_1 &&
+				if (_sdmmc_storage_execute_cmd_type1(storage, SD_SWITCH_VOLTAGE, 0, 0, R1_STATE_READY))
 					_sdmmc_storage_execute_cmd_type1(storage, SD_SWITCH_VOLTAGE, 0, 0, R1_STATE_READY))
 				{
 					if (!sdmmc_enable_low_voltage(storage->sdmmc))
 						return 0;
@ -769,9 +846,9 @@ static int _sd_storage_get_rca(sdmmc_storage_t *storage)
 	u32 timeout = get_tmr_ms() + 1500;
-	while (1)
+	while (true)
 	{
-		if (!sdmmc_execute_cmd(storage->sdmmc, &cmdbuf, 0, 0))
+		if (!sdmmc_execute_cmd(storage->sdmmc, &cmdbuf, NULL, NULL))
 			break;
 		u32 resp = 0;
@ -802,8 +879,9 @@ static void _sd_storage_parse_scr(sdmmc_storage_t *storage)
 	storage->scr.sda_vsn = unstuff_bits(resp, 56, 4);
 	storage->scr.bus_widths = unstuff_bits(resp, 48, 4);
 	/* If v2.0 is supported, check if Physical Layer Spec v3.0 is supported */
 	if (storage->scr.sda_vsn == SCR_SPEC_VER_2)
 		/* Check if Physical Layer Spec v3.0 is supported */
 		storage->scr.sda_spec3 = unstuff_bits(resp, 47, 1);
 	if (storage->scr.sda_spec3)
 		storage->scr.cmds = unstuff_bits(resp, 32, 2);
@ -820,9 +898,9 @@ int _sd_storage_get_scr(sdmmc_storage_t *storage, u8 *buf)
 	reqbuf.num_sectors = 1;
 	reqbuf.is_write = 0;
 	reqbuf.is_multi_block = 0;
-	reqbuf.is_auto_cmd12 = 0;
+	reqbuf.is_auto_stop_trn = 0;
-	if (!_sd_storage_execute_app_cmd(storage, R1_STATE_TRAN, 0, &cmdbuf, &reqbuf, 0))
+	if (!_sd_storage_execute_app_cmd(storage, R1_STATE_TRAN, 0, &cmdbuf, &reqbuf, NULL))
 		return 0;
 	u32 tmp = 0;
@ -838,7 +916,7 @@ int _sd_storage_get_scr(sdmmc_storage_t *storage, u8 *buf)
 	_sd_storage_parse_scr(storage);
 	//gfx_hexdump(0, storage->raw_scr, 8);
-	return _sdmmc_storage_check_result(tmp);
+	return _sdmmc_storage_check_card_status(tmp);
 }
 int _sd_storage_switch_get(sdmmc_storage_t *storage, void *buf)
@ -852,14 +930,14 @@ int _sd_storage_switch_get(sdmmc_storage_t *storage, void *buf)
 	reqbuf.num_sectors = 1;
 	reqbuf.is_write = 0;
 	reqbuf.is_multi_block = 0;
-	reqbuf.is_auto_cmd12 = 0;
+	reqbuf.is_auto_stop_trn = 0;
-	if (!sdmmc_execute_cmd(storage->sdmmc, &cmdbuf, &reqbuf, 0))
+	if (!sdmmc_execute_cmd(storage->sdmmc, &cmdbuf, &reqbuf, NULL))
 		return 0;
 	u32 tmp = 0;
 	sdmmc_get_rsp(storage->sdmmc, &tmp, 4, SDMMC_RSP_TYPE_1);
-	return _sdmmc_storage_check_result(tmp);
+	return _sdmmc_storage_check_card_status(tmp);
 }
 int _sd_storage_switch(sdmmc_storage_t *storage, void *buf, int mode, int group, u32 arg)
@ -876,14 +954,14 @@ int _sd_storage_switch(sdmmc_storage_t *storage, void *buf, int mode, int group,
 	reqbuf.num_sectors = 1;
 	reqbuf.is_write = 0;
 	reqbuf.is_multi_block = 0;
-	reqbuf.is_auto_cmd12 = 0;
+	reqbuf.is_auto_stop_trn = 0;
-	if (!sdmmc_execute_cmd(storage->sdmmc, &cmdbuf, &reqbuf, 0))
+	if (!sdmmc_execute_cmd(storage->sdmmc, &cmdbuf, &reqbuf, NULL))
 		return 0;
 	u32 tmp = 0;
 	sdmmc_get_rsp(storage->sdmmc, &tmp, 4, SDMMC_RSP_TYPE_1);
-	return _sdmmc_storage_check_result(tmp);
+	return _sdmmc_storage_check_card_status(tmp);
 }
 void _sd_storage_set_current_limit(sdmmc_storage_t *storage, u16 current_limit, u8 *buf)
@ -1057,41 +1135,64 @@ int _sd_storage_enable_hs_high_volt(sdmmc_storage_t *storage, u8 *buf)
 	return sdmmc_setup_clock(storage->sdmmc, SDHCI_TIMING_SD_HS25);
 }
 u32 sd_storage_get_ssr_au(sdmmc_storage_t *storage)
 {
 	u32 au_size = storage->ssr.uhs_au_size;
 	if (!au_size)
 		au_size = storage->ssr.au_size;
 	if (au_size <= 10)
 	{
 		u32 shift = au_size;
 		au_size = shift ? 8 : 0;
    	au_size <<= shift;
 	}
 	else
 	{
 		switch (au_size)
 		{
 		case 11:
 			au_size = 12288;
 			break;
 		case 12:
 			au_size = 16384;
 			break;
 		case 13:
 			au_size = 24576;
 			break;
 		case 14:
 			au_size = 32768;
 			break;
 		case 15:
 			au_size = 65536;
 			break;
 		}
 	}
 	return au_size;
 }
 static void _sd_storage_parse_ssr(sdmmc_storage_t *storage)
 {
-	// unstuff_bits supports only 4 u32 so break into 2 x 16byte groups
+	// unstuff_bits supports only 4 u32 so break into 2 x u32x4 groups.
 	u32 raw_ssr1[4];
 	u32 raw_ssr2[4];
-	raw_ssr1[3] = *(u32 *)&storage->raw_ssr[12];
+	memcpy(raw_ssr1, &storage->raw_ssr[0],  16);
-	raw_ssr1[2] = *(u32 *)&storage->raw_ssr[8];
+	memcpy(raw_ssr2, &storage->raw_ssr[16], 16);
 	raw_ssr1[1] = *(u32 *)&storage->raw_ssr[4];
 	raw_ssr1[0] = *(u32 *)&storage->raw_ssr[0];
 	raw_ssr2[3] = *(u32 *)&storage->raw_ssr[28];
 	raw_ssr2[2] = *(u32 *)&storage->raw_ssr[24];
 	raw_ssr2[1] = *(u32 *)&storage->raw_ssr[20];
 	raw_ssr2[0] = *(u32 *)&storage->raw_ssr[16];
 	storage->ssr.bus_width = (unstuff_bits(raw_ssr1, 510 - 384, 2) & SD_BUS_WIDTH_4) ? 4 : 1;
 	storage->ssr.protected_size = unstuff_bits(raw_ssr1, 448 - 384, 32);
-	switch(unstuff_bits(raw_ssr1, 440 - 384, 8))
+	u32 speed_class = unstuff_bits(raw_ssr1, 440 - 384, 8);
 	switch(speed_class)
 	{
 	case 0:
 		storage->ssr.speed_class = 0;
 		break;
 	case 1:
 		storage->ssr.speed_class = 2;
 		break;
 	case 2:
 		storage->ssr.speed_class = 4;
 		break;
 	case 3:
-		storage->ssr.speed_class = 6;
+		storage->ssr.speed_class = speed_class << 1;
 		break;
 	case 4:
@ -1099,16 +1200,18 @@ static void _sd_storage_parse_ssr(sdmmc_storage_t *storage)
 		break;
 	default:
-		storage->ssr.speed_class = unstuff_bits(raw_ssr1, 440 - 384, 8);
+		storage->ssr.speed_class = speed_class;
 		break;
 	}
 	storage->ssr.uhs_grade =   unstuff_bits(raw_ssr1, 396 - 384, 4);
 	storage->ssr.video_class = unstuff_bits(raw_ssr1, 384 - 384, 8);
 	storage->ssr.app_class =   unstuff_bits(raw_ssr2, 336 - 256, 4);
 	storage->ssr.au_size =     unstuff_bits(raw_ssr1, 428 - 384, 4);
 	storage->ssr.uhs_au_size = unstuff_bits(raw_ssr1, 392 - 384, 4);
 }
-static int _sd_storage_get_ssr(sdmmc_storage_t *storage, u8 *buf)
+int sd_storage_get_ssr(sdmmc_storage_t *storage, u8 *buf)
 {
 	sdmmc_cmd_t cmdbuf;
 	sdmmc_init_cmd(&cmdbuf, SD_APP_SD_STATUS, 0, SDMMC_RSP_TYPE_1, 0);
@ -1119,20 +1222,21 @@ static int _sd_storage_get_ssr(sdmmc_storage_t *storage, u8 *buf)
 	reqbuf.num_sectors = 1;
 	reqbuf.is_write = 0;
 	reqbuf.is_multi_block = 0;
-	reqbuf.is_auto_cmd12 = 0;
+	reqbuf.is_auto_stop_trn = 0;
 	if (!(storage->csd.cmdclass & CCC_APP_SPEC))
 	{
-DPRINTF("[SD] ssr: Card lacks mandatory SD Status function\n");
+DPRINTF("[SD] ssr: Not supported\n");
 		return 0;
 	}
-	if (!_sd_storage_execute_app_cmd(storage, R1_STATE_TRAN, 0, &cmdbuf, &reqbuf, 0))
+	if (!_sd_storage_execute_app_cmd(storage, R1_STATE_TRAN, 0, &cmdbuf, &reqbuf, NULL))
 		return 0;
 	u32 tmp = 0;
 	sdmmc_get_rsp(storage->sdmmc, &tmp, 4, SDMMC_RSP_TYPE_1);
-    //Prepare buffer for unstuff_bits
+
 	// Convert buffer to LE.
 	for (int i = 0; i < 64; i += 4)
 	{
 		storage->raw_ssr[i + 3] = buf[i];
@ -1140,10 +1244,11 @@ DPRINTF("[SD] ssr: Card lacks mandatory SD Status function\n");
 		storage->raw_ssr[i + 1] = buf[i + 2];
 		storage->raw_ssr[i]     = buf[i + 3];
 	}
 	_sd_storage_parse_ssr(storage);
 	//gfx_hexdump(0, storage->raw_ssr, 64);
-	return _sdmmc_storage_check_result(tmp);
+	return _sdmmc_storage_check_card_status(tmp);
 }
 static void _sd_storage_parse_cid(sdmmc_storage_t *storage)
@ -1160,8 +1265,8 @@ static void _sd_storage_parse_cid(sdmmc_storage_t *storage)
 	storage->cid.hwrev  =       unstuff_bits(raw_cid, 60,  4);
 	storage->cid.fwrev  =       unstuff_bits(raw_cid, 56,  4);
 	storage->cid.serial =       unstuff_bits(raw_cid, 24,  32);
 	storage->cid.month  = unstuff_bits(raw_cid, 8, 4);
 	storage->cid.year   =       unstuff_bits(raw_cid, 12,  8) + 2000;
 	storage->cid.month  =       unstuff_bits(raw_cid, 8,   4);
 }
 static void _sd_storage_parse_csd(sdmmc_storage_t *storage)
@ -1176,6 +1281,7 @@ static void _sd_storage_parse_csd(sdmmc_storage_t *storage)
 	{
 	case 0:
 		storage->csd.capacity = (1 + unstuff_bits(raw_csd, 62, 12)) << (unstuff_bits(raw_csd, 47, 3) + 2);
 		storage->csd.capacity <<= unstuff_bits(raw_csd, 80, 4) - 9; // Convert native block size to LBA 512B.
 		break;
 	case 1:
@ -1183,10 +1289,16 @@ static void _sd_storage_parse_csd(sdmmc_storage_t *storage)
 		storage->csd.capacity = storage->csd.c_size << 10;
 		storage->csd.read_blkbits = 9;
 		break;
-	}
+
 	default:
 DPRINTF("[SD] unknown CSD structure %d\n", storage->csd.structure);
 		break;
 	}
-static bool _sdmmc_storage_get_low_voltage_support(u32 bus_width, u32 type)
+	storage->sec_cnt = storage->csd.capacity;
 }
 static bool _sdmmc_storage_get_bus_uhs_support(u32 bus_width, u32 type)
 {
 	switch (type)
 	{
@ -1213,8 +1325,10 @@ void sdmmc_storage_init_wait_sd()
 int sdmmc_storage_init_sd(sdmmc_storage_t *storage, sdmmc_t *sdmmc, u32 bus_width, u32 type)
 {
-	int is_version_1 = 0;
+	u32  tmp = 0;
 	int  is_sdsc = 0;
 	u8  *buf = (u8 *)SDMMC_UPPER_BUFFER;
 	bool bus_uhs_support = _sdmmc_storage_get_bus_uhs_support(bus_width, type);
 DPRINTF("[SD] init: bus: %d, type: %d\n", bus_width, type);
@ -1234,18 +1348,15 @@ DPRINTF("[SD] after init\n");
 		return 0;
 DPRINTF("[SD] went to idle state\n");
-	is_version_1 = _sd_storage_send_if_cond(storage);
+	if (!_sd_storage_send_if_cond(storage, &is_sdsc))
 	if (is_version_1 == 2)
 		return 0;
 DPRINTF("[SD] after send if cond\n");
-	bool bus_low_voltage_support = _sdmmc_storage_get_low_voltage_support(bus_width, type);
+	if (!_sd_storage_get_op_cond(storage, is_sdsc, bus_uhs_support))
 	if (!_sd_storage_get_op_cond(storage, is_version_1, bus_low_voltage_support))
 		return 0;
 DPRINTF("[SD] got op cond\n");
-	if (!_sdmmc_storage_get_cid(storage, storage->raw_cid))
+	if (!_sdmmc_storage_get_cid(storage))
 		return 0;
 DPRINTF("[SD] got cid\n");
 	_sd_storage_parse_cid(storage);
@ -1254,30 +1365,16 @@ DPRINTF("[SD] got cid\n");
 		return 0;
 DPRINTF("[SD] got rca (= %04X)\n", storage->rca);
-	if (!_sdmmc_storage_get_csd(storage, storage->raw_csd))
+	if (!_sdmmc_storage_get_csd(storage))
 		return 0;
 DPRINTF("[SD] got csd\n");
 	//Parse CSD.
 	_sd_storage_parse_csd(storage);
 	switch (storage->csd.structure)
 	{
 	case 0:
 		storage->sec_cnt = storage->csd.capacity;
 		break;
 	case 1:
 		storage->sec_cnt = storage->csd.c_size << 10;
 		break;
 	default:
 DPRINTF("[SD] unknown CSD structure %d\n", storage->csd.structure);
 		break;
 	}
 	if (!storage->is_low_voltage)
 	{
 		if (!sdmmc_setup_clock(storage->sdmmc, SDHCI_TIMING_SD_DS12))
 			return 0;
-DPRINTF("[SD] after setup clock\n");
+DPRINTF("[SD] after setup default clock\n");
 	}
 	if (!_sdmmc_storage_select_card(storage))
@ -1288,19 +1385,17 @@ DPRINTF("[SD] card selected\n");
 		return 0;
 DPRINTF("[SD] set blocklen to 512\n");
-	u32 tmp = 0;
+	// Disconnect Card Detect resistor from DAT3.
 	if (!_sd_storage_execute_app_cmd_type1(storage, &tmp, SD_APP_SET_CLR_CARD_DETECT, 0, 0, R1_STATE_TRAN))
 		return 0;
 DPRINTF("[SD] cleared card detect\n");
 	if (!_sd_storage_get_scr(storage, buf))
 		return 0;
 	//gfx_hexdump(0, storage->raw_scr, 8);
 DPRINTF("[SD] got scr\n");
-	// Check if card supports a wider bus and if it's not SD Version 1.X
+	// If card supports a wider bus and if it's not SD Version 1.0 switch bus width.
-	if (bus_width == SDMMC_BUS_WIDTH_4 && (storage->scr.bus_widths & 4) && (storage->scr.sda_vsn & 0xF))
+	if (bus_width == SDMMC_BUS_WIDTH_4 && (storage->scr.bus_widths & BIT(SD_BUS_WIDTH_4)) && storage->scr.sda_vsn)
 	{
 		if (!_sd_storage_execute_app_cmd_type1(storage, &tmp, SD_APP_SET_BUS_WIDTH, SD_BUS_WIDTH_4, 0, R1_STATE_TRAN))
 			return 0;
@ -1310,6 +1405,7 @@ DPRINTF("[SD] switched to wide bus width\n");
 	}
 	else
 	{
 		bus_width = SDMMC_BUS_WIDTH_1;
 DPRINTF("[SD] SD does not support wide bus width\n");
 	}
@ -1318,10 +1414,8 @@ DPRINTF("[SD] SD does not support wide bus width\n");
 		if (!_sd_storage_enable_uhs_low_volt(storage, type, buf))
 			return 0;
 DPRINTF("[SD] enabled UHS\n");
 		sdmmc_card_clock_powersave(sdmmc, SDMMC_POWER_SAVE_ENABLE);
 	}
-	else if (type != SDHCI_TIMING_SD_DS12 && (storage->scr.sda_vsn & 0xF) != 0)
+	else if (type != SDHCI_TIMING_SD_DS12 && storage->scr.sda_vsn) // Not default speed and not SD Version 1.0.
 	{
 		if (!_sd_storage_enable_hs_high_volt(storage, buf))
 			return 0;
@ -1340,11 +1434,13 @@ DPRINTF("[SD] enabled HS\n");
 	}
 	// Parse additional card info from sd status.
-	if (_sd_storage_get_ssr(storage, buf))
+	if (sd_storage_get_ssr(storage, buf))
 	{
 DPRINTF("[SD] got sd status\n");
 	}
 	sdmmc_card_clock_powersave(sdmmc, SDMMC_POWER_SAVE_ENABLE);
 	storage->initialized = 1;
 	return 1;
@ -1358,7 +1454,7 @@ int _gc_storage_custom_cmd(sdmmc_storage_t *storage, void *buf)
 {
 	u32 resp;
 	sdmmc_cmd_t cmdbuf;
-	sdmmc_init_cmd(&cmdbuf, 60, 0, SDMMC_RSP_TYPE_1, 1);
+	sdmmc_init_cmd(&cmdbuf, MMC_VENDOR_60_CMD, 0, SDMMC_RSP_TYPE_1, 1);
 	sdmmc_req_t reqbuf;
 	reqbuf.buf = buf;
@ -1366,9 +1462,9 @@ int _gc_storage_custom_cmd(sdmmc_storage_t *storage, void *buf)
 	reqbuf.num_sectors = 1;
 	reqbuf.is_write = 1;
 	reqbuf.is_multi_block = 0;
-	reqbuf.is_auto_cmd12 = 0;
+	reqbuf.is_auto_stop_trn = 0;
-	if (!sdmmc_execute_cmd(storage->sdmmc, &cmdbuf, &reqbuf, 0))
+	if (!sdmmc_execute_cmd(storage->sdmmc, &cmdbuf, &reqbuf, NULL))
 	{
 		sdmmc_stop_transmission(storage->sdmmc, &resp);
 		return 0;
@ -1376,7 +1472,7 @@ int _gc_storage_custom_cmd(sdmmc_storage_t *storage, void *buf)
 	if (!sdmmc_get_rsp(storage->sdmmc, &resp, 4, SDMMC_RSP_TYPE_1))
 		return 0;
-	if (!_sdmmc_storage_check_result(resp))
+	if (!_sdmmc_storage_check_card_status(resp))
 		return 0;
 	return _sdmmc_storage_check_status(storage);
 }
--- a/bdk/storage/sdmmc.h
+++ b/bdk/storage/sdmmc.h
@ -1,6 +1,6 @@
 /*
 * Copyright (c) 2018 naehrwert
- * Copyright (c) 2018-2020 CTCaer
+ * Copyright (c) 2018-2021 CTCaer
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
@ -30,18 +30,93 @@ typedef enum _sdmmc_type
 	EMMC_GPP   = 0,
 	EMMC_BOOT0 = 1,
-	EMMC_BOOT1 = 2
+	EMMC_BOOT1 = 2,
 	EMMC_RPMB  = 3
 } sdmmc_type;
 typedef struct _mmc_sandisk_advanced_report_t
 {
 	u32 power_inits;
 	u32 max_erase_cycles_sys;
 	u32 max_erase_cycles_slc;
 	u32 max_erase_cycles_mlc;
 	u32 min_erase_cycles_sys;
 	u32 min_erase_cycles_slc;
 	u32 min_erase_cycles_mlc;
 	u32 max_erase_cycles_euda;
 	u32 min_erase_cycles_euda;
 	u32 avg_erase_cycles_euda;
 	u32 read_reclaim_cnt_euda;
 	u32 bad_blocks_euda;
 	u32 pre_eol_euda;
 	u32 pre_eol_sys;
 	u32 pre_eol_mlc;
 	u32 uncorrectable_ecc;
 	u32 temperature_now;
 	u32 temperature_min;
 	u32 temperature_max;
 	u32 health_pct_euda;
 	u32 health_pct_sys;
 	u32 health_pct_mlc;
 	u32 unk0;
 	u32 unk1;
 	u32 unk2;
 	u32 reserved[78];
 } mmc_sandisk_advanced_report_t;
 typedef struct _mmc_sandisk_report_t
 {
 	u32 avg_erase_cycles_sys;
 	u32 avg_erase_cycles_slc;
 	u32 avg_erase_cycles_mlc;
 	u32 read_reclaim_cnt_sys;
 	u32 read_reclaim_cnt_slc;
 	u32 read_reclaim_cnt_mlc;
 	u32 bad_blocks_factory;
 	u32 bad_blocks_sys;
 	u32 bad_blocks_slc;
 	u32 bad_blocks_mlc;
 	u32 fw_updates_cnt;
 	u8  fw_update_date[12];
 	u8  fw_update_time[8];
 	u32 total_writes_100mb;
 	u32 vdrops;
 	u32 vdroops;
 	u32 vdrops_failed_data_rec;
 	u32 vdrops_data_rec_ops;
 	u32 total_writes_slc_100mb;
 	u32 total_writes_mlc_100mb;
 	u32 mlc_bigfile_mode_limit_exceeded;
 	u32 avg_erase_cycles_hybrid;
 	mmc_sandisk_advanced_report_t advanced;
 } mmc_sandisk_report_t;
 typedef struct _mmc_cid
 {
 	u32 manfid;
 	u8  prod_name[8];
 	u8  card_bga;
 	u8  prv;
 	u32 serial;
 	u16 oemid;
 	u16	year;
 	u8  prv;
 	u8  hwrev;
 	u8  fwrev;
 	u8  month;
@ -65,19 +140,20 @@ typedef struct _mmc_csd
 typedef struct _mmc_ext_csd
 {
-	u32 sectors;
+	//u8  bkops;        /* background support bit */
-	int bkops;        /* background support bit */
+	//u8  bkops_en;     /* manual bkops enable bit */
-	int bkops_en;     /* manual bkops enable bit */
+	//u8  bkops_status; /* 246 */
 	u8  rev;
 	u8  ext_struct;   /* 194 */
 	u8  card_type;    /* 196 */
 	u8  bkops_status; /* 246 */
 	u8  pre_eol_info;
 	u8  dev_life_est_a;
 	u8  dev_life_est_b;
 	u8  boot_mult;
 	u8  rpmb_mult;
 	u16 dev_version;
 	u32 cache_size;
 	u32 max_enh_mult;
 } mmc_ext_csd_t;
 typedef struct _sd_scr
@ -95,6 +171,8 @@ typedef struct _sd_ssr
 	u8  uhs_grade;
 	u8  video_class;
 	u8  app_class;
 	u8  au_size;
 	u8  uhs_au_size;
 	u32 protected_size;
 } sd_ssr_t;
@ -107,6 +185,7 @@ typedef struct _sdmmc_storage_t
 	u32 sec_cnt;
 	int is_low_voltage;
 	u32 partition;
 	int initialized;
 	u8  raw_cid[0x10];
 	u8  raw_csd[0x10];
 	u8  raw_scr[8];
@ -116,7 +195,6 @@ typedef struct _sdmmc_storage_t
 	mmc_ext_csd_t ext_csd;
 	sd_scr_t      scr;
 	sd_ssr_t      ssr;
 	int initialized;
 } sdmmc_storage_t;
 int  sdmmc_storage_end(sdmmc_storage_t *storage);
@ -128,4 +206,10 @@ void sdmmc_storage_init_wait_sd();
 int  sdmmc_storage_init_sd(sdmmc_storage_t *storage, sdmmc_t *sdmmc, u32 bus_width, u32 type);
 int  sdmmc_storage_init_gc(sdmmc_storage_t *storage, sdmmc_t *sdmmc);
 int  sdmmc_storage_execute_vendor_cmd(sdmmc_storage_t *storage, u32 arg);
 int  sdmmc_storage_vendor_sandisk_report(sdmmc_storage_t *storage, void *buf);
 int  sd_storage_get_ssr(sdmmc_storage_t *storage, u8 *buf);
 u32  sd_storage_get_ssr_au(sdmmc_storage_t *storage);
 #endif
--- a/bdk/storage/sdmmc_driver.c
+++ b/bdk/storage/sdmmc_driver.c
@ -1,6 +1,6 @@
 /*
 * Copyright (c) 2018 naehrwert
- * Copyright (c) 2018-2020 CTCaer
+ * Copyright (c) 2018-2021 CTCaer
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
@ -501,7 +501,7 @@ int sdmmc_get_rsp(sdmmc_t *sdmmc, u32 *rsp, u32 size, u32 type)
 		break;
 	case SDMMC_RSP_TYPE_2:
-		if (size < 0x10)
+		if (size < 16)
 			return 0;
 		rsp[0] = sdmmc->rsp[0];
 		rsp[1] = sdmmc->rsp[1];
@ -934,12 +934,20 @@ static int _sdmmc_config_dma(sdmmc_t *sdmmc, u32 *blkcnt_out, sdmmc_req_t *req)
 		*blkcnt_out = blkcnt;
 	u32 trnmode = SDHCI_TRNS_DMA;
 	// Set mulitblock request.
 	if (req->is_multi_block)
 		trnmode = SDHCI_TRNS_MULTI | SDHCI_TRNS_BLK_CNT_EN | SDHCI_TRNS_DMA;
 	// Set request direction.
 	if (!req->is_write)
 		trnmode |= SDHCI_TRNS_READ;
-	if (req->is_auto_cmd12)
+
-		trnmode = (trnmode & ~(SDHCI_TRNS_AUTO_CMD12 | SDHCI_TRNS_AUTO_CMD23)) | SDHCI_TRNS_AUTO_CMD12;
+	// Automatic send of stop transmission or set block count cmd.
 	if (req->is_auto_stop_trn)
 		trnmode |= SDHCI_TRNS_AUTO_CMD12;
 	//else if (req->is_auto_set_blkcnt)
 	//	trnmode |= SDHCI_TRNS_AUTO_CMD23;
 	sdmmc->regs->trnmod = trnmode;
@ -1025,12 +1033,10 @@ static int _sdmmc_execute_cmd_inner(sdmmc_t *sdmmc, sdmmc_cmd_t *cmd, sdmmc_req_
 	}
 	int result = _sdmmc_wait_response(sdmmc);
 	if (!result)
 	{
 #ifdef ERROR_EXTRA_PRINTING
 	if (!result)
 		EPRINTF("SDMMC: Transfer timeout!");
 #endif
 	}
 DPRINTF("rsp(%d): %08X, %08X, %08X, %08X\n", result,
 		sdmmc->regs->rspreg0, sdmmc->regs->rspreg1, sdmmc->regs->rspreg2, sdmmc->regs->rspreg3);
 	if (result)
@ -1039,24 +1045,20 @@ DPRINTF("rsp(%d): %08X, %08X, %08X, %08X\n", result,
 		{
 			sdmmc->expected_rsp_type = cmd->rsp_type;
 			result = _sdmmc_cache_rsp(sdmmc, sdmmc->rsp, 0x10, cmd->rsp_type);
 			if (!result)
 			{
 #ifdef ERROR_EXTRA_PRINTING
 			if (!result)
 				EPRINTF("SDMMC: Unknown response type!");
 #endif
 		}
 		}
 		if (req && result)
 		{
 			result = _sdmmc_update_dma(sdmmc);
 			if (!result)
 			{
 #ifdef ERROR_EXTRA_PRINTING
-				EPRINTFARGS("SDMMC: DMA Update failed (%08X)!", result);
+			if (!result)
 				EPRINTF("SDMMC: DMA Update failed!");
 #endif
 		}
 	}
 	}
 	_sdmmc_mask_interrupts(sdmmc);
@ -1070,19 +1072,17 @@ DPRINTF("rsp(%d): %08X, %08X, %08X, %08X\n", result,
 			if (blkcnt_out)
 				*blkcnt_out = blkcnt;
-			if (req->is_auto_cmd12)
+			if (req->is_auto_stop_trn)
 				sdmmc->rsp3 = sdmmc->regs->rspreg3;
 		}
 		if (cmd->check_busy || req)
 		{
 			result = _sdmmc_wait_card_busy(sdmmc);
 			if (!result)
 			{
 #ifdef ERROR_EXTRA_PRINTING
 			if (!result)
 				EPRINTF("SDMMC: Busy timeout!");
 #endif
 			}
 			return result;
 		}
 	}
@ -1200,8 +1200,8 @@ static int _sdmmc_config_sdmmc1(bool t210b01)
 	usleep(10000);
 	// Enable SD card IO power.
-	max77620_regulator_set_voltage(REGULATOR_LDO2, 3300000);
+	max7762x_regulator_set_voltage(REGULATOR_LDO2, 3300000);
-	max77620_regulator_enable(REGULATOR_LDO2, 1);
+	max7762x_regulator_enable(REGULATOR_LDO2, true);
 	usleep(1000);
 	// Set pad slew codes to get good quality clock.
@ -1332,18 +1332,6 @@ int sdmmc_init(sdmmc_t *sdmmc, u32 id, u32 power, u32 bus_width, u32 type, int p
 void sdmmc1_disable_power()
 {
 	// Ensure regulator is into default voltage.
 	if (PMC(APBDEV_PMC_PWR_DET_VAL) & PMC_PWR_DET_SDMMC1_IO_EN)
 	{
 		// Switch to 1.8V and wait for regulator to stabilize.
 		max77620_regulator_set_voltage(REGULATOR_LDO2, 1800000);
 		usleep(150);
 		// Inform IO pads that we switched to 1.8V.
 		PMC(APBDEV_PMC_PWR_DET_VAL) &= ~(PMC_PWR_DET_SDMMC1_IO_EN);
 		(void)PMC(APBDEV_PMC_PWR_DET_VAL); // Commit write.
 	}
 	// T210B01 WAR: Clear pull down from CLK pad.
 	PINMUX_AUX(PINMUX_AUX_SDMMC1_CLK) &= ~PINMUX_PULL_MASK;
@ -1351,7 +1339,7 @@ void sdmmc1_disable_power()
 	_sdmmc_config_sdmmc1_pads(true);
 	// Disable SD card IO power regulator.
-	max77620_regulator_enable(REGULATOR_LDO2, 0);
+	max7762x_regulator_enable(REGULATOR_LDO2, false);
 	usleep(4000);
 	// Disable SD card IO power pin.
@ -1383,12 +1371,12 @@ void sdmmc_end(sdmmc_t *sdmmc)
 		_sdmmc_sd_clock_disable(sdmmc);
 		// Disable SDMMC power.
 		_sdmmc_set_io_power(sdmmc, SDMMC_POWER_OFF);
 		_sdmmc_commit_changes(sdmmc);
 		// Disable SD card power.
 		if (sdmmc->id == SDMMC_1)
 			sdmmc1_disable_power();
 		_sdmmc_commit_changes(sdmmc);
 		clock_sdmmc_disable(sdmmc->id);
 		sdmmc->clock_stopped = 1;
 	}
@ -1440,7 +1428,7 @@ int sdmmc_enable_low_voltage(sdmmc_t *sdmmc)
 	_sdmmc_commit_changes(sdmmc);
 	// Switch to 1.8V and wait for regulator to stabilize. Assume max possible wait needed.
-	max77620_regulator_set_voltage(REGULATOR_LDO2, 1800000);
+	max7762x_regulator_set_voltage(REGULATOR_LDO2, 1800000);
 	usleep(150);
 	// Inform IO pads that we switched to 1.8V.
--- a/bdk/storage/sdmmc_driver.h
+++ b/bdk/storage/sdmmc_driver.h
@ -242,7 +242,7 @@ typedef struct _sdmmc_req_t
 	u32 num_sectors;
 	int is_write;
 	int is_multi_block;
-	int is_auto_cmd12;
+	int is_auto_stop_trn;
 } sdmmc_req_t;
 int  sdmmc_get_io_power(sdmmc_t *sdmmc);
--- a/bdk/thermal/fan.c
+++ b/bdk/thermal/fan.c
@ -1,7 +1,7 @@
 /*
 * Fan driver for Nintendo Switch
 *
- * Copyright (c) 2018-2020 CTCaer
+ * Copyright (c) 2018-2021 CTCaer
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
@ -18,6 +18,7 @@
 #include <thermal/fan.h>
 #include <power/regulator_5v.h>
 #include <soc/fuse.h>
 #include <soc/gpio.h>
 #include <soc/pinmux.h>
 #include <soc/t210.h>
@ -28,9 +29,20 @@ void set_fan_duty(u32 duty)
 	static bool fan_init = false;
 	static u16  curr_duty = -1;
 	if (duty > 236)
 		duty = 236;
 	if (curr_duty == duty)
 		return;
 	curr_duty = duty;
 	//! TODO: Add HOAG/AULA support.
 	u32 hw_type = fuse_read_hw_type();
 	if (hw_type != FUSE_NX_HW_TYPE_ICOSA &&
 		hw_type != FUSE_NX_HW_TYPE_IOWA)
 		return;
 	if (!fan_init)
 	{
 		// Fan tachometer.
@ -46,9 +58,6 @@ void set_fan_duty(u32 duty)
 		fan_init = true;
 	}
 	if (duty > 236)
 		duty = 236;
 	// Inverted polarity.
 	u32 inv_duty = 236 - duty;
@ -56,7 +65,7 @@ void set_fan_duty(u32 duty)
 	if (inv_duty == 236)
 	{
 		PWM(PWM_CONTROLLER_PWM_CSR_1) = PWM_CSR_EN | (0x100 << 16); // Bit 24 is absolute 0%.
-		regulator_disable_5v(REGULATOR_5V_FAN);
+		regulator_5v_disable(REGULATOR_5V_FAN);
 		// Disable fan.
 		PINMUX_AUX(PINMUX_AUX_LCD_GPIO2) =
@ -65,29 +74,26 @@ void set_fan_duty(u32 duty)
 	else // Set PWM duty.
 	{
 		// Fan power supply.
-		regulator_enable_5v(REGULATOR_5V_FAN);
+		regulator_5v_enable(REGULATOR_5V_FAN);
 		PWM(PWM_CONTROLLER_PWM_CSR_1) = PWM_CSR_EN | (inv_duty << 16);
 		// Enable fan.
 		PINMUX_AUX(PINMUX_AUX_LCD_GPIO2) = 1; // Set source to PWM1.
 	}
 	curr_duty = duty;
 }
 void get_fan_speed(u32 *duty, u32 *rpm)
 {
 	if (rpm)
 	{
-		u32  irq_count = 1;
+		u32  irq_count = 0;
 		bool should_read = true;
 		bool irq_val = 0;
-		// Poll irqs for 2 seconds.
+		// Poll irqs for 2 seconds. (5 seconds for accurate count).
-		int timer = get_tmr_us() + 1000000;
+		int  timer = get_tmr_us() + 2000000;
-		while (timer - get_tmr_us())
+		while ((timer - get_tmr_us()) > 0)
 		{
-			irq_val = gpio_read(GPIO_PORT_S, GPIO_PIN_7);
+			bool irq_val = gpio_read(GPIO_PORT_S, GPIO_PIN_7);
 			if (irq_val && should_read)
 			{
 				irq_count++;
@ -97,8 +103,11 @@ void get_fan_speed(u32 *duty, u32 *rpm)
 				should_read = true;
 		}
 		// Halve the irq count.
 		irq_count /= 2;
 		// Calculate rpm based on triggered interrupts.
-		*rpm = 60000000 / ((1000000 * 2) / irq_count);
+		*rpm = irq_count * (60 / 2);
 	}
 	if (duty)
--- a/bdk/thermal/tmp451.c
+++ b/bdk/thermal/tmp451.c
@ -1,7 +1,7 @@
 /*
 * SOC/PCB Temperature driver for Nintendo Switch's TI TMP451
 *
- * Copyright (c) 2018 CTCaer
+ * Copyright (c) 2018-2020 CTCaer
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
@ -16,7 +16,9 @@
 * along with this program.  If not, see <http://www.gnu.org/licenses/>.
 */
 #include <soc/hw_init.h>
 #include <soc/i2c.h>
 #include <soc/t210.h>
 #include <thermal/tmp451.h>
 u16 tmp451_get_soc_temp(bool intenger)
@ -56,6 +58,20 @@ void tmp451_init()
 	// Disable ALARM and Range to 0 - 127 oC.
 	i2c_send_byte(I2C_1, TMP451_I2C_ADDR, TMP451_CONFIG_REG, 0x80);
 	// Set remote sensor offsets based on SoC.
 	if (hw_get_chip_id() == GP_HIDREV_MAJOR_T210)
 	{
 		// Set offset to 0 oC for Erista.
 		i2c_send_byte(I2C_1, TMP451_I2C_ADDR, TMP451_SOC_TMP_OFH_REG, 0);
 		i2c_send_byte(I2C_1, TMP451_I2C_ADDR, TMP451_SOC_TMP_OFL_REG, 0);
 	}
 	else
 	{
 		// Set offset to -12.5 oC for Mariko.
 		i2c_send_byte(I2C_1, TMP451_I2C_ADDR, TMP451_SOC_TMP_OFH_REG, 0xF3); // - 13  oC.
 		i2c_send_byte(I2C_1, TMP451_I2C_ADDR, TMP451_SOC_TMP_OFL_REG, 0x80); // + 0.5 oC.
 	}
 	// Set conversion rate to 32/s and make a read to update the reg.
 	i2c_send_byte(I2C_1, TMP451_I2C_ADDR, TMP451_CNV_RATE_REG, 9);
 	tmp451_get_soc_temp(false);
@ -63,3 +79,9 @@ void tmp451_init()
 	// Set rate to every 4 seconds.
 	i2c_send_byte(I2C_1, TMP451_I2C_ADDR, TMP451_CNV_RATE_REG, 2);
 }
 void tmp451_end()
 {
 	// Place into shutdown mode to conserve power.
 	i2c_send_byte(I2C_1, TMP451_I2C_ADDR, TMP451_CONFIG_REG, 0xC0);
 }
--- a/bdk/thermal/tmp451.h
+++ b/bdk/thermal/tmp451.h
@ -32,11 +32,15 @@
 #define TMP451_SOC_TMP_DEC_REG 0x10
 #define TMP451_PCB_TMP_DEC_REG 0x15
 #define TMP451_SOC_TMP_OFH_REG 0x11
 #define TMP451_SOC_TMP_OFL_REG 0x12
 // If input is false, the return value is packed. MSByte is the integer in oC
 // and the LSByte is the decimal point truncated to 2 decimal places.
 // Otherwise it's an integer oC.
 u16 tmp451_get_soc_temp(bool integer);
 u16 tmp451_get_pcb_temp(bool integer);
 void tmp451_init();
 void tmp451_end();
 #endif /* __TMP451_H_ */
--- a/bdk/usb/usb_gadget_hid.c
+++ b/bdk/usb/usb_gadget_hid.c
@ -309,7 +309,7 @@ static bool _fts_touch_read(touchpad_report_t *rpt)
 static u8 _hid_transfer_start(usb_ctxt_t *usbs, u32 len)
 {
-	u8 status = usb_ops.usb_device_ep1_in_write((u8 *)USB_EP_BULK_IN_BUF_ADDR, len, NULL, USB_XFER_SYNCED);
+	u8 status = usb_ops.usb_device_ep1_in_write((u8 *)USB_EP_BULK_IN_BUF_ADDR, len, NULL, USB_XFER_SYNCED_CMD);
 	if (status == USB_ERROR_XFER_ERROR)
 	{
 		usbs->set_text(usbs->label, "#FFDD00 Error:# EP IN transfer!");
--- a/bdk/usb/usb_gadget_ums.c
+++ b/bdk/usb/usb_gadget_ums.c
@ -4,7 +4,7 @@
 * Copyright (c) 2003-2008 Alan Stern
 * Copyright (c) 2009 Samsung Electronics
 *                    Author: Michal Nazarewicz <m.nazarewicz@samsung.com>
- * Copyright (c) 2019-2020 CTCaer
+ * Copyright (c) 2019-2021 CTCaer
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
@ -58,7 +58,7 @@
 #define UMS_SCSI_TRANSFER_512K (0x80000 >> UMS_DISK_LBA_SHIFT)
-#define UMS_EP_OUT_MAX_XFER (USB_EP_BULK_OUT_MAX_XFER >> UMS_DISK_LBA_SHIFT)
+#define UMS_EP_OUT_MAX_XFER (USB_EP_BULK_OUT_MAX_XFER)
 // Length of a SCSI Command Data Block.
 #define SCSI_MAX_CMD_SZ 16
@ -109,7 +109,7 @@
 #define SS_WRITE_ERROR                        0x30C02
 #define SS_WRITE_PROTECTED                    0x72700
-#define SK(x)   ((u8) ((x) >> 16)) /* Sense Key byte, etc. */
+#define SK(x)   ((u8) ((x) >> 16)) // Sense Key byte, etc.
 #define ASC(x)  ((u8) ((x) >> 8))
 #define ASCQ(x) ((u8) (x))
@ -121,6 +121,15 @@ enum ums_state {
 	UMS_STATE_TERMINATED
 };
 enum ums_result {
 	UMS_RES_OK          = 0,
 	UMS_RES_IO_ERROR    = -5,
 	UMS_RES_TIMEOUT     = -3,
 	UMS_RES_PROT_FATAL  = -4,
 	UMS_RES_INVALID_ARG = -22
 };
 enum data_direction {
 	DATA_DIR_UNKNOWN = 0,
 	DATA_DIR_FROM_HOST,
@ -194,7 +203,7 @@ typedef struct _bulk_ctxt_t {
 typedef struct _usbd_gadget_ums_t {
 	bulk_ctxt_t bulk_ctxt;
-	int  cmnd_size;
+	u32  cmnd_size;
 	u8   cmnd[SCSI_MAX_CMD_SZ];
 	u32  lun_idx; // lun index
@ -208,6 +217,7 @@ typedef struct _usbd_gadget_ums_t {
 	u32  tag;
 	u32  residue;
 	u32  usb_amount_left;
 	bool cbw_req_queued;
 	u32  phase_error;
 	u32  short_packet_received;
@ -283,21 +293,21 @@ static int ums_wedge_bulk_in_endpoint(usbd_gadget_ums_t *ums)
 {
 	/* usbd_set_ep_wedge(bulk_ctxt->bulk_in); */
-	return 0;
+	return UMS_RES_OK;
 }
 static int ums_set_stall(u32 ep)
 {
 	usb_ops.usbd_set_ep_stall(ep, USB_EP_CFG_STALL);
-	return 0;
+	return UMS_RES_OK;
 }
 static int ums_clear_stall(u32 ep)
 {
 	usb_ops.usbd_set_ep_stall(ep, USB_EP_CFG_CLEAR);
-	return 0;
+	return UMS_RES_OK;
 }
 static void ums_flush_endpoint(u32 ep)
@ -306,13 +316,13 @@ static void ums_flush_endpoint(u32 ep)
 		usb_ops.usbd_flush_endpoint(ep);
 }
-static void _ums_transfer_start(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt, u32 ep, bool sync)
+static void _ums_transfer_start(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt, u32 ep, u32 sync_timeout)
 {
 	if (ep == bulk_ctxt->bulk_in)
 	{
 		bulk_ctxt->bulk_in_status = usb_ops.usb_device_ep1_in_write(
 			bulk_ctxt->bulk_in_buf, bulk_ctxt->bulk_in_length,
-			&bulk_ctxt->bulk_in_length_actual, sync);
+			&bulk_ctxt->bulk_in_length_actual, sync_timeout);
 		if (bulk_ctxt->bulk_in_status == USB_ERROR_XFER_ERROR)
 		{
@ -322,14 +332,14 @@ static void _ums_transfer_start(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt,
 		else if (bulk_ctxt->bulk_in_status == USB2_ERROR_XFER_NOT_ALIGNED)
 			ums->set_text(ums->label, "#FFDD00 Error:# EP IN Buffer not aligned!");
-		if (sync)
+		if (sync_timeout)
 			bulk_ctxt->bulk_in_buf_state = BUF_STATE_EMPTY;
 	}
 	else
 	{
 		bulk_ctxt->bulk_out_status = usb_ops.usb_device_ep1_out_read(
 			bulk_ctxt->bulk_out_buf, bulk_ctxt->bulk_out_length,
-			&bulk_ctxt->bulk_out_length_actual, sync);
+			&bulk_ctxt->bulk_out_length_actual, sync_timeout);
 		if (bulk_ctxt->bulk_out_status == USB_ERROR_XFER_ERROR)
 		{
@ -339,7 +349,7 @@ static void _ums_transfer_start(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt,
 		else if (bulk_ctxt->bulk_out_status == USB2_ERROR_XFER_NOT_ALIGNED)
 			ums->set_text(ums->label, "#FFDD00 Error:# EP OUT Buffer not aligned!");
-		if (sync)
+		if (sync_timeout)
 			bulk_ctxt->bulk_out_buf_state = BUF_STATE_FULL;
 	}
 }
@ -359,12 +369,12 @@ static void _ums_transfer_out_big_read(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk
 		bulk_ctxt->bulk_out_buf_state = BUF_STATE_FULL;
 }
-static void _ums_transfer_finish(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt, u32 ep)
+static void _ums_transfer_finish(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt, u32 ep, u32 sync_timeout)
 {
 	if (ep == bulk_ctxt->bulk_in)
 	{
 		bulk_ctxt->bulk_in_status = usb_ops.usb_device_ep1_in_writing_finish(
-			&bulk_ctxt->bulk_in_length_actual);
+			&bulk_ctxt->bulk_in_length_actual, sync_timeout);
 		if (bulk_ctxt->bulk_in_status == USB_ERROR_XFER_ERROR)
 		{
@ -377,7 +387,7 @@ static void _ums_transfer_finish(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt,
 	else
 	{
 		bulk_ctxt->bulk_out_status = usb_ops.usb_device_ep1_out_reading_finish(
-			&bulk_ctxt->bulk_out_length_actual, 1000000);
+			&bulk_ctxt->bulk_out_length_actual, sync_timeout);
 		if (bulk_ctxt->bulk_out_status == USB_ERROR_XFER_ERROR)
 		{
@ -446,20 +456,21 @@ static int _scsi_read(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt)
 		{
 			ums->lun.sense_data = SS_INVALID_FIELD_IN_CDB;
-			return -22; // Invalid argument.
+			return UMS_RES_INVALID_ARG;
 		}
 	}
 	if (lba_offset >= ums->lun.num_sectors)
 	{
 		ums->set_text(ums->label, "#FF8000 Warn:# Read - Out of range! Host notified.");
 		ums->lun.sense_data = SS_LOGICAL_BLOCK_ADDRESS_OUT_OF_RANGE;
-		return -22; // Invalid argument.
+		return UMS_RES_INVALID_ARG;
 	}
 	// Check that request data size is not 0.
 	u32 amount_left = ums->data_size_from_cmnd >> UMS_DISK_LBA_SHIFT;
 	if (!amount_left)
-		return -5; // I/O error. /* No default reply */
+		return UMS_RES_IO_ERROR; // No default reply.
 	// Limit IO transfers based on request for faster concurrent reads.
 	u32 max_io_transfer = (amount_left >= UMS_SCSI_TRANSFER_512K) ?
@ -488,7 +499,7 @@ static int _scsi_read(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt)
 		// Wait for the async USB transfer to finish.
 		if (!first_read)
-			_ums_transfer_finish(ums, bulk_ctxt, bulk_ctxt->bulk_in);
+			_ums_transfer_finish(ums, bulk_ctxt, bulk_ctxt->bulk_in, USB_XFER_SYNCED);
 		lba_offset   += amount;
 		amount_left  -= amount;
@ -520,7 +531,7 @@ static int _scsi_read(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt)
 		sdmmc_buf += amount << UMS_DISK_LBA_SHIFT;
 	}
-	return -5; // I/O error no default reply here. /* No default reply */
+	return UMS_RES_IO_ERROR; // No default reply.
 }
 /*
@ -539,9 +550,10 @@ static int _scsi_write(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt)
 	if (ums->lun.ro)
 	{
 		ums->set_text(ums->label, "#FF8000 Warn:# Write - Read only! Host notified.");
 		ums->lun.sense_data = SS_WRITE_PROTECTED;
-		return -22; // Invalid argument.
+		return UMS_RES_INVALID_ARG;
 	}
 	if (ums->cmnd[0] == SC_WRITE_6)
@ -555,41 +567,40 @@ static int _scsi_write(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt)
 		{
 			ums->lun.sense_data = SS_INVALID_FIELD_IN_CDB;
-			return -22; // Invalid argument.
+			return UMS_RES_INVALID_ARG;
 		}
 	}
 	// Check that starting LBA is not past the end sector offset.
 	if (lba_offset >= ums->lun.num_sectors)
 	{
 		ums->set_text(ums->label, "#FF8000 Warn:# Write - Out of range! Host notified.");
 		ums->lun.sense_data = SS_LOGICAL_BLOCK_ADDRESS_OUT_OF_RANGE;
-		return -22; // Invalid argument.
+		return UMS_RES_INVALID_ARG;
 	}
-	/* Carry out the file writes */
+	// Carry out the file writes.
 	usb_lba_offset = lba_offset;
 	amount_left_to_req = ums->data_size_from_cmnd;
 	amount_left_to_write = ums->data_size_from_cmnd;
 	while (amount_left_to_write > 0)
 	{
-
+		// Queue a request for more data from the host.
-		/* Queue a request for more data from the host */
+		if (amount_left_to_req > 0)
 		if (amount_left_to_req)
 		{
 			// Limit write to max supported read from EP OUT.
-			amount = MIN(amount_left_to_req, UMS_EP_OUT_MAX_XFER << UMS_DISK_LBA_SHIFT);
+			amount = MIN(amount_left_to_req, UMS_EP_OUT_MAX_XFER);
-			if (usb_lba_offset >= ums->lun.num_sectors) //////////Check if it works with concurrency
+			if (usb_lba_offset >= ums->lun.num_sectors)
 			{
 				ums->set_text(ums->label, "#FFDD00 Error:# Write - Past last sector!");
 				amount_left_to_req = 0;
 				ums->lun.sense_data = SS_LOGICAL_BLOCK_ADDRESS_OUT_OF_RANGE;
 				ums->lun.sense_data_info = usb_lba_offset;
 				ums->lun.info_valid = 1;
-				continue;
+				break;
 			}
 			// Get the next buffer.
@ -612,7 +623,7 @@ static int _scsi_write(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt)
 				ums->lun.sense_data = SS_COMMUNICATION_FAILURE;
 				ums->lun.sense_data_info = lba_offset;
 				ums->lun.info_valid = 1;
-				sprintf(txt_buf, "#FFDD00 Error:# Write - Comm failure %d!", bulk_ctxt->bulk_out_status);
+				s_printf(txt_buf, "#FFDD00 Error:# Write - Comm failure %d!", bulk_ctxt->bulk_out_status);
 				ums->set_text(ums->label, txt_buf);
 				break;
 			}
@ -631,12 +642,12 @@ static int _scsi_write(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt)
 			 */
 			amount = MIN(amount, bulk_ctxt->bulk_out_length);
-			/* Don't write a partial block */
+			// Don't write a partial block.
 			amount -= (amount & 511);
 			if (amount == 0)
 				goto empty_write;
-			/* Perform the write */
+			// Perform the write.
 			if (!sdmmc_storage_write(ums->lun.storage, ums->lun.offset + lba_offset,
 				amount >> UMS_DISK_LBA_SHIFT, (u8 *)bulk_ctxt->bulk_out_buf))
 				amount = 0;
@ -647,7 +658,7 @@ DPRINTF("file write %X @ %X\n", amount, lba_offset);
 			amount_left_to_write -= amount;
 			ums->residue         -= amount;
-			/* If an error occurred, report it and its position */
+			// If an error occurred, report it and its position.
 			if (!amount)
 			{
 				ums->set_text(ums->label, "#FFDD00 Error:# SDMMC Write!");
@ -668,7 +679,7 @@ DPRINTF("file write %X @ %X\n", amount, lba_offset);
 		}
 	}
-	return -5; // I/O error. /* No default reply */
+	return UMS_RES_IO_ERROR; // No default reply.
 }
 static int _scsi_verify(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt)
@ -677,9 +688,10 @@ static int _scsi_verify(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt)
 	u32 lba_offset = get_array_be_to_le32(&ums->cmnd[2]);
 	if (lba_offset >= ums->lun.num_sectors)
 	{
 		ums->set_text(ums->label, "#FF8000 Warn:# Verif - Out of range! Host notified.");
 		ums->lun.sense_data = SS_LOGICAL_BLOCK_ADDRESS_OUT_OF_RANGE;
-		return -22; // Invalid argument.
+		return UMS_RES_INVALID_ARG;
 	}
 	// We allow DPO but we don't implement it. Check that nothing else is enabled.
@ -687,12 +699,12 @@ static int _scsi_verify(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt)
 	{
 		ums->lun.sense_data = SS_INVALID_FIELD_IN_CDB;
-		return -22; // Invalid argument.
+		return UMS_RES_INVALID_ARG;
 	}
 	u32  verification_length = get_array_be_to_le16(&ums->cmnd[7]);
 	if (verification_length == 0)
-		return -5; // I/O error. /* No default reply */
+		return UMS_RES_IO_ERROR; // No default reply.
 	u32 amount;
 	while (verification_length > 0)
@ -724,7 +736,7 @@ DPRINTF("File read %X @ %X\n", amount, lba_offset);
 		lba_offset += amount;
 		verification_length -= amount;
 	}
-	return 0;
+	return UMS_RES_OK;
 }
 static int _scsi_inquiry(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt)
@ -742,7 +754,7 @@ static int _scsi_inquiry(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt)
 		buf[3] = 20;  // Additional length.
 		buf += 4;
-		sprintf((char *)buf, "%04X%s",
+		s_printf((char *)buf, "%04X%s",
 			ums->lun.storage->cid.serial, ums->lun.type == MMC_SD ? " SD " : " eMMC ");
 		switch (ums->lun.partition)
@ -751,13 +763,13 @@ static int _scsi_inquiry(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt)
 			strcpy((char *)buf + strlen((char *)buf), "RAW");
 			break;
 		case EMMC_GPP + 1:
-			sprintf((char *)buf + strlen((char *)buf), "GPP");
+			s_printf((char *)buf + strlen((char *)buf), "GPP");
 			break;
 		case EMMC_BOOT0 + 1:
-			sprintf((char *)buf + strlen((char *)buf), "BOOT0");
+			s_printf((char *)buf + strlen((char *)buf), "BOOT0");
 			break;
 		case EMMC_BOOT1 + 1:
-			sprintf((char *)buf + strlen((char *)buf), "BOOT1");
+			s_printf((char *)buf + strlen((char *)buf), "BOOT1");
 			break;
 		}
@ -784,18 +796,18 @@ static int _scsi_inquiry(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt)
 		switch (ums->lun.partition)
 		{
 		case 0:
-			sprintf((char *)buf, "%s", "SD RAW");
+			s_printf((char *)buf, "%s", "SD RAW");
 			break;
 		case EMMC_GPP + 1:
-			sprintf((char *)buf, "%s%s",
+			s_printf((char *)buf, "%s%s",
 				ums->lun.type == MMC_SD ? "SD " : "eMMC ", "GPP");
 			break;
 		case EMMC_BOOT0 + 1:
-			sprintf((char *)buf, "%s%s",
+			s_printf((char *)buf, "%s%s",
 				ums->lun.type == MMC_SD ? "SD " : "eMMC ", "BOOT0");
 			break;
 		case EMMC_BOOT1 + 1:
-			sprintf((char *)buf, "%s%s",
+			s_printf((char *)buf, "%s%s",
 				ums->lun.type == MMC_SD ? "SD " : "eMMC ", "BOOT1");
 			break;
 		}
@ -843,7 +855,7 @@ static int _scsi_read_capacity(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt)
 	{
 		ums->lun.sense_data = SS_INVALID_FIELD_IN_CDB;
-		return -22; // Invalid argument.
+		return UMS_RES_INVALID_ARG;
 	}
 	put_array_le_to_be32(ums->lun.num_sectors - 1, &buf[0]); // Max logical block.
@ -866,14 +878,14 @@ static int _scsi_log_sense(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt)
 	{
 		ums->lun.sense_data = SS_SAVING_PARAMETERS_NOT_SUPPORTED;
-		return -22; // Invalid argument.
+		return UMS_RES_INVALID_ARG;
 	}
 	if (pc != 1) // Current cumulative values.
 	{
 		ums->lun.sense_data = SS_INVALID_FIELD_IN_CDB;
-		return -22; // Invalid argument.
+		return UMS_RES_INVALID_ARG;
 	}
 	memset(buf, 0, 8);
@ -915,7 +927,7 @@ static int _scsi_log_sense(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt)
 	{
 		ums->lun.sense_data = SS_INVALID_FIELD_IN_CDB;
-		return -22; // Invalid argument.
+		return UMS_RES_INVALID_ARG;
 	}
 	put_array_le_to_be16(len - 4, &buf0[2]);
@ -938,14 +950,14 @@ static int _scsi_mode_sense(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt)
 	{
 		ums->lun.sense_data = SS_INVALID_FIELD_IN_CDB;
-		return -22; // Invalid argument.
+		return UMS_RES_INVALID_ARG;
 	}
 	if (pc == 3)
 	{
 		ums->lun.sense_data = SS_SAVING_PARAMETERS_NOT_SUPPORTED;
-		return -22; // Invalid argument.
+		return UMS_RES_INVALID_ARG;
 	}
 	/* Write the mode parameter header.  Fixed values are: default
@ -995,10 +1007,10 @@ static int _scsi_mode_sense(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt)
 	{
 		ums->lun.sense_data = SS_INVALID_FIELD_IN_CDB;
-		return -22; // Invalid argument.
+		return UMS_RES_INVALID_ARG;
 	}
-	/*  Store the mode data length */
+	//  Store the mode data length.
 	if (ums->cmnd[0] == SC_MODE_SENSE_6)
 		buf0[0] = len - 1;
 	else
@ -1015,14 +1027,14 @@ static int _scsi_start_stop(usbd_gadget_ums_t *ums)
 	{
 		ums->lun.sense_data = SS_INVALID_COMMAND;
-		return -22; // Invalid argument.
+		return UMS_RES_INVALID_ARG;
 	}
 	else if ((ums->cmnd[1] & ~0x01) != 0 || // Mask away Immed.
 		(ums->cmnd[4] & ~0x03) != 0)        // Mask LoEj, Start.
 	{
 		ums->lun.sense_data = SS_INVALID_FIELD_IN_CDB;
-		return -22;
+		return UMS_RES_INVALID_ARG;
 	}
 	loej  = ums->cmnd[4] & 0x02;
@ -1035,10 +1047,10 @@ static int _scsi_start_stop(usbd_gadget_ums_t *ums)
 		{
 			ums->lun.sense_data = SS_MEDIUM_NOT_PRESENT;
-			return -22;
+			return UMS_RES_INVALID_ARG;
 		}
-		return 0;
+		return UMS_RES_OK;
 	}
 	// Check if we are allowed to unload the media.
@ -1047,16 +1059,16 @@ static int _scsi_start_stop(usbd_gadget_ums_t *ums)
 		ums->set_text(ums->label, "#C7EA46 Status:# Unload attempt prevented");
 		ums->lun.sense_data = SS_MEDIUM_REMOVAL_PREVENTED;
-		return -22;
+		return UMS_RES_INVALID_ARG;
 	}
 	if (!loej)
-		return 0;
+		return UMS_RES_OK;
 	// Unmount means we exit UMS because of ejection.
 	ums->lun.unmounted = 1;
-	return 0;
+	return UMS_RES_OK;
 }
 static int _scsi_prevent_allow_removal(usbd_gadget_ums_t *ums)
@ -1067,7 +1079,7 @@ static int _scsi_prevent_allow_removal(usbd_gadget_ums_t *ums)
 	{
 		ums->lun.sense_data = SS_INVALID_COMMAND;
-		return -22; // Invalid argument.
+		return UMS_RES_INVALID_ARG;
 	}
 	prevent = ums->cmnd[4] & 0x01;
@ -1075,17 +1087,16 @@ static int _scsi_prevent_allow_removal(usbd_gadget_ums_t *ums)
 	{
 		ums->lun.sense_data = SS_INVALID_FIELD_IN_CDB;
-		return -22; // Invalid argument.
+		return UMS_RES_INVALID_ARG;
 	}
 	// Notify for possible unmounting?
 	// Normally we sync here but we do synced writes to SDMMC.
-	if (ums->lun.prevent_medium_removal && !prevent)
+	if (ums->lun.prevent_medium_removal && !prevent) { /* Do nothing */ }
 		;
 	ums->lun.prevent_medium_removal = prevent;
-	return 0;
+	return UMS_RES_OK;
 }
 static int _scsi_read_format_capacities(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt)
@ -1105,7 +1116,7 @@ static int _scsi_read_format_capacities(usbd_gadget_ums_t *ums, bulk_ctxt_t *bul
 // Check whether the command is properly formed and whether its data size
 // and direction agree with the values we already have.
-static int _ums_check_scsi_cmd(usbd_gadget_ums_t *ums, int cmnd_size,
+static int _ums_check_scsi_cmd(usbd_gadget_ums_t *ums, u32 cmnd_size,
 	enum data_direction data_dir, u32 mask, int needs_medium)
 {
 //const char dirletter[4] = {'u', 'o', 'i', 'n'};
@ -1132,7 +1143,7 @@ DPRINTF("SCSI command: %X;  Dc=%d, D%c=%X;  Hc=%d, H%c=%X\n",
 	{
 		ums->phase_error = 1;
-		return -22; // Invalid argument.
+		return UMS_RES_INVALID_ARG;
 	}
 	// Cmd length verification.
@ -1146,7 +1157,7 @@ DPRINTF("SCSI command: %X;  Dc=%d, D%c=%X;  Hc=%d, H%c=%X\n",
 		{
 			ums->phase_error = 1;
-			return -22; // Invalid argument.
+			return UMS_RES_INVALID_ARG;
 		}
 	}
@ -1167,7 +1178,7 @@ DPRINTF("SCSI command: %X;  Dc=%d, D%c=%X;  Hc=%d, H%c=%X\n",
 		ums->lun.sense_data = ums->lun.unit_attention_data;
 		ums->lun.unit_attention_data = SS_NO_SENSE;
-		return -22;
+		return UMS_RES_INVALID_ARG;
 	}
 	// Check that only command bytes listed in the mask are set.
@ -1178,7 +1189,7 @@ DPRINTF("SCSI command: %X;  Dc=%d, D%c=%X;  Hc=%d, H%c=%X\n",
 		{
 			ums->lun.sense_data = SS_INVALID_FIELD_IN_CDB;
-			return -22; // Invalid argument.
+			return UMS_RES_INVALID_ARG;
 		}
 	}
@ -1187,16 +1198,16 @@ DPRINTF("SCSI command: %X;  Dc=%d, D%c=%X;  Hc=%d, H%c=%X\n",
 	{
 		ums->lun.sense_data = SS_MEDIUM_NOT_PRESENT;
-		return -22;
+		return UMS_RES_INVALID_ARG;
 	}
-	return 0;
+	return UMS_RES_OK;
 }
 static int _ums_parse_scsi_cmd(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt)
 {
 	u32 len;
-	int reply = -22; // Invalid argument.
+	int reply = UMS_RES_INVALID_ARG;
 	ums->phase_error = 0;
 	ums->short_packet_received = 0;
@ -1227,7 +1238,7 @@ static int _ums_parse_scsi_cmd(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt)
 		{
 			// We don't support MODE SELECT.
 			ums->lun.sense_data = SS_INVALID_COMMAND;
-			reply = -22;
+			reply = UMS_RES_INVALID_ARG;
 		}
 		break;
@ -1238,7 +1249,7 @@ static int _ums_parse_scsi_cmd(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt)
 		{
 			// We don't support MODE SELECT.
 			ums->lun.sense_data = SS_INVALID_COMMAND;
-			reply = -22;
+			reply = UMS_RES_INVALID_ARG;
 		}
 		break;
@ -1367,12 +1378,12 @@ static int _ums_parse_scsi_cmd(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt)
 		if (reply == 0)
 		{
 			ums->lun.sense_data = SS_INVALID_COMMAND;
-			reply = -22; // Invalid argument.
+			reply = UMS_RES_INVALID_ARG;
 		}
 		break;
 	}
-	if (reply == -22) // Invalid argument.
+	if (reply == UMS_RES_INVALID_ARG)
 		reply = 0;    // Error reply length.
 	// Set up reply buffer for finish_reply(). Otherwise it's already set.
@ -1384,7 +1395,7 @@ static int _ums_parse_scsi_cmd(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt)
 		ums->residue -= reply;
 	}
-	return 0;
+	return UMS_RES_OK;
 }
 static int pad_with_zeros(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt)
@ -1398,12 +1409,12 @@ static int pad_with_zeros(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt)
 		u32 nsend = MIN(ums->usb_amount_left, USB_EP_BUFFER_MAX_SIZE);
 		memset(bulk_ctxt->bulk_in_buf + current_len_to_keep, 0, nsend - current_len_to_keep);
 		bulk_ctxt->bulk_in_length = nsend;
-		_ums_transfer_start(ums, bulk_ctxt, bulk_ctxt->bulk_in, USB_XFER_SYNCED);
+		_ums_transfer_start(ums, bulk_ctxt, bulk_ctxt->bulk_in, USB_XFER_SYNCED_DATA);
 		ums->usb_amount_left -= nsend;
 		current_len_to_keep = 0;
 	}
-	return 0;
+	return UMS_RES_OK;
 }
 static int throw_away_data(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt)
@ -1416,10 +1427,10 @@ static int throw_away_data(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt)
 			u32 amount = MIN(ums->usb_amount_left, USB_EP_BUFFER_MAX_SIZE);
 			bulk_ctxt->bulk_out_length = amount;
-			_ums_transfer_start(ums, bulk_ctxt, bulk_ctxt->bulk_out, USB_XFER_SYNCED);
+			_ums_transfer_start(ums, bulk_ctxt, bulk_ctxt->bulk_out, USB_XFER_SYNCED_DATA);
 			ums->usb_amount_left -= amount;
-			return 0;
+			return UMS_RES_OK;
 		}
 		// Throw away the data in a filled buffer.
@ -1431,15 +1442,15 @@ static int throw_away_data(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt)
 			bulk_ctxt->bulk_out_status != USB_RES_OK)
 		{
 			raise_exception(ums, UMS_STATE_ABORT_BULK_OUT);
-			return -4; // Interrupted system call
+			return UMS_RES_PROT_FATAL;
 		}
 	}
-	return 0;
+	return UMS_RES_OK;
 }
 static int finish_reply(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt)
 {
-	int rc = 0;
+	int rc = UMS_RES_OK;
 	switch (ums->data_dir) {
 	case DATA_DIR_NONE:
@ -1463,7 +1474,7 @@ static int finish_reply(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt)
 			// If there's no residue, simply send the last buffer.
 			if (!ums->residue)
 			{
-				_ums_transfer_start(ums, bulk_ctxt, bulk_ctxt->bulk_in, USB_XFER_SYNCED);
+				_ums_transfer_start(ums, bulk_ctxt, bulk_ctxt->bulk_in, USB_XFER_SYNCED_DATA);
 			/* For Bulk-only, if we're allowed to stall then send the
 			 * short packet and halt the bulk-in endpoint.  If we can't
@ -1471,7 +1482,7 @@ static int finish_reply(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt)
 			}
 			else if (ums->can_stall)
 			{
-				_ums_transfer_start(ums, bulk_ctxt, bulk_ctxt->bulk_in, USB_XFER_SYNCED);
+				_ums_transfer_start(ums, bulk_ctxt, bulk_ctxt->bulk_in, USB_XFER_SYNCED_DATA);
 				rc = ums_set_stall(bulk_ctxt->bulk_in);
 				ums->set_text(ums->label, "#FFDD00 Error:# Residue. Stalled EP IN!");
 			}
@ -1491,7 +1502,7 @@ static int finish_reply(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt)
 			if (ums->short_packet_received) // Did the host stop sending unexpectedly early?
 			{
 				raise_exception(ums, UMS_STATE_ABORT_BULK_OUT);
-				rc = -4; // Interrupted system call
+				rc = UMS_RES_PROT_FATAL;
 			}
 			else // We can't stall. Read in the excess data and throw it away.
 				rc = throw_away_data(ums, bulk_ctxt);
@ -1531,12 +1542,12 @@ static int finish_reply(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt)
 static int received_cbw(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt)
 {
-	/* Was this a real packet?  Should it be ignored? */
+	// Was this a real packet?  Should it be ignored?
 	if (bulk_ctxt->bulk_out_status || bulk_ctxt->bulk_out_ignore || ums->lun.unmounted)
 	{
 		if (bulk_ctxt->bulk_out_status || ums->lun.unmounted)
 		{
-			DPRINTF("USB: EP timeout\n");
+			DPRINTF("USB: EP timeout (%d)\n", bulk_ctxt->bulk_out_status);
 			// In case we disconnected, exit UMS.
 			// Raise timeout if removable and didn't got a unit ready command inside 4s.
 			if (bulk_ctxt->bulk_out_status == USB2_ERROR_XFER_EP_DISABLED ||
@ -1567,6 +1578,8 @@ static int received_cbw(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt)
 			{
 				ums->set_text(ums->label, "#C7EA46 Status:# Medium unmounted");
 				ums->timeouts++;
 				if (!bulk_ctxt->bulk_out_status)
 					ums->timeouts += 3;
 			}
 			if (ums->timeouts > 20)
@ -1574,32 +1587,37 @@ static int received_cbw(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt)
 		}
 		if (bulk_ctxt->bulk_out_status || bulk_ctxt->bulk_out_ignore)
-			return -22; // Invalid argument.
+			return UMS_RES_INVALID_ARG;
 	}
-	/* Is the CBW valid? */
+	// Clear request flag to allow a new one to be queued.
 	ums->cbw_req_queued = false;
 	// Is the CBW valid?
 	bulk_recv_pkt_t *cbw = (bulk_recv_pkt_t *)bulk_ctxt->bulk_out_buf;
 	if (bulk_ctxt->bulk_out_length_actual != USB_BULK_CB_WRAP_LEN || cbw->Signature != USB_BULK_CB_SIG)
 	{
 		gfx_printf("USB: invalid CBW: len %X sig 0x%X\n", bulk_ctxt->bulk_out_length_actual, cbw->Signature);
-		 // The Bulk-only spec says we MUST stall the IN endpoint
+		/*
-		 // (6.6.1), so it's unavoidable.  It also says we must
+		 * The Bulk-only spec says we MUST stall the IN endpoint
-		 // retain this state until the next reset, but there's
+		 * (6.6.1), so it's unavoidable.  It also says we must
-		 // no way to tell the controller driver it should ignore
+		 * retain this state until the next reset, but there's
-		 // Clear-Feature(HALT) requests.
+		 * no way to tell the controller driver it should ignore
-		 //
+		 * Clear-Feature(HALT) requests.
-		 // We aren't required to halt the OUT endpoint; instead
+		 *
-		 // we can simply accept and discard any data received
+		 * We aren't required to halt the OUT endpoint; instead
-		 // until the next reset.
+		 * we can simply accept and discard any data received
 		 * until the next reset.
 		 */
 		ums_wedge_bulk_in_endpoint(ums);
 		bulk_ctxt->bulk_out_ignore = 1;
-		return -22; // Invalid argument.
+		return UMS_RES_INVALID_ARG;
 	}
-	/* Is the CBW meaningful? */
+	// Is the CBW meaningful?
 	if (cbw->Lun >= UMS_MAX_LUN || cbw->Flags & ~USB_BULK_IN_FLAG ||
-			cbw->Length <= 0 || cbw->Length > SCSI_MAX_CMD_SZ)
+			cbw->Length == 0 || cbw->Length > SCSI_MAX_CMD_SZ)
 	{
 		gfx_printf("USB: non-meaningful CBW: lun = %X, flags = 0x%X, cmdlen %X\n",
 			cbw->Lun, cbw->Flags, cbw->Length);
@ -1613,10 +1631,10 @@ static int received_cbw(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt)
 			ums->set_text(ums->label, "#FFDD00 Error:# CBW unknown - Stalled both EP!");
 		}
-		return -22; // Invalid argument.
+		return UMS_RES_INVALID_ARG;
 	}
-	/* Save the command for later */
+	// Save the command for later.
 	ums->cmnd_size = cbw->Length;
 	memcpy(ums->cmnd, cbw->CDB, ums->cmnd_size);
@ -1636,12 +1654,12 @@ static int received_cbw(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt)
 	if (!ums->lun.unmounted)
 		ums->timeouts = 0;
-	return 0;
+	return UMS_RES_OK;
 }
 static int get_next_command(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt)
 {
-	int rc = 0;
+	int rc = UMS_RES_OK;
 	/* Wait for the next buffer to become available */
 	// while (bulk_ctxt->bulk_out_buf_state != BUF_STATE_EMPTY)
@ -1651,8 +1669,20 @@ static int get_next_command(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt)
 	bulk_ctxt->bulk_out_length = USB_BULK_CB_WRAP_LEN;
-	/* Queue a request to read a Bulk-only CBW */
+	// Queue a request to read a Bulk-only CBW.
-	_ums_transfer_start(ums, bulk_ctxt, bulk_ctxt->bulk_out, USB_XFER_SYNCED);
+	if (!ums->cbw_req_queued)
 		_ums_transfer_start(ums, bulk_ctxt, bulk_ctxt->bulk_out, USB_XFER_SYNCED_CMD);
 	else
 		_ums_transfer_finish(ums, bulk_ctxt, bulk_ctxt->bulk_out, USB_XFER_SYNCED_CMD);
 	/*
 	 * On XUSB do not allow multiple requests for CBW to be done.
 	 * This avoids an issue with some XHCI controllers and OS combos (e.g. ASMedia and Linux/Mac OS)
 	 * which confuse that and concatenate an old CBW request with another write request (SCSI Write)
 	 * and create a babble error (transmit overflow).
 	 */
 	if (ums->xusb)
 		ums->cbw_req_queued = true;
 	/* We will drain the buffer in software, which means we
 	 * can reuse it for the next filling.  No need to advance
@ -1689,7 +1719,7 @@ static void send_status(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt)
 			SK(sd), ASC(sd), ASCQ(sd), ums->lun.sense_data_info);
 	}
-	/* Store and send the Bulk-only CSW */
+	// Store and send the Bulk-only CSW.
 	bulk_send_pkt_t *csw = (bulk_send_pkt_t *)bulk_ctxt->bulk_in_buf;
 	csw->Signature = USB_BULK_CS_SIG;
@ -1698,14 +1728,14 @@ static void send_status(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt)
 	csw->Status = status;
 	bulk_ctxt->bulk_in_length = USB_BULK_CS_WRAP_LEN;
-	_ums_transfer_start(ums, bulk_ctxt, bulk_ctxt->bulk_in, USB_XFER_SYNCED);
+	_ums_transfer_start(ums, bulk_ctxt, bulk_ctxt->bulk_in, USB_XFER_SYNCED_CMD);
 }
 static void handle_exception(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt)
 {
 	enum ums_state old_state;
-	/* Clear out the controller's fifos */
+	// Clear out the controller's fifos.
 	ums_flush_endpoint(bulk_ctxt->bulk_in);
 	ums_flush_endpoint(bulk_ctxt->bulk_out);
@ -1728,7 +1758,7 @@ static void handle_exception(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt)
 	ums->state = UMS_STATE_NORMAL;
-	/* Carry out any extra actions required for the exception */
+	// Carry out any extra actions required for the exception.
 	switch (old_state)
 	{
 	case UMS_STATE_NORMAL:
@ -1750,7 +1780,7 @@ static void handle_exception(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt)
 		break;
 	case UMS_STATE_EXIT:
-		ums->state = UMS_STATE_TERMINATED;	/* Stop the thread */
+		ums->state = UMS_STATE_TERMINATED;	// Stop the thread.
 		break;
 	default:
@ -1765,16 +1795,16 @@ static inline void _system_maintainance(usbd_gadget_ums_t *ums)
 	u32 time = get_tmr_ms();
-	if (timer_dram < time)
+	if (timer_status_bar < time)
 	{
 		minerva_periodic_training();
 		timer_dram = get_tmr_ms() + 100;
 	}
 	else if (timer_status_bar < time)
 	{
 		ums->system_maintenance(true);
 		timer_status_bar = get_tmr_ms() + 30000;
 	}
 	else if (timer_dram < time)
 	{
 		minerva_periodic_training();
 		timer_dram = get_tmr_ms() + EMC_PERIODIC_TRAIN_MS;
 	}
 }
 int usb_device_gadget_ums(usb_ctxt_t *usbs)
@ -1828,6 +1858,7 @@ int usb_device_gadget_ums(usb_ctxt_t *usbs)
 	// Initialize sdmmc.
 	if (usbs->type == MMC_SD)
 	{
 		sd_end();
 		sd_mount();
 		sd_unmount();
 		ums.lun.sdmmc = &sd_sdmmc;
@ -1898,6 +1929,9 @@ int usb_device_gadget_ums(usb_ctxt_t *usbs)
 		send_status(&ums, &ums.bulk_ctxt);
 	} while (ums.state != UMS_STATE_TERMINATED);
 	if (ums.lun.prevent_medium_removal)
 		ums.set_text(ums.label, "#FFDD00 Error:# Disk unsafely ejected");
 	else
 		ums.set_text(ums.label, "#C7EA46 Status:# Disk ejected");
 	goto exit;
--- a/bdk/usb/usb_t210.h
+++ b/bdk/usb/usb_t210.h
@ -1,7 +1,7 @@
 /*
 * Enhanced & eXtensible USB device (EDCI & XDCI) driver for Tegra X1
 *
- * Copyright (c) 2019-2020 CTCaer
+ * Copyright (c) 2019-2021 CTCaer
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
@ -198,7 +198,10 @@ typedef struct _t210_usb2d_t
 #define XUSB_DEV_XHCI_ST                 0x34
 #define  XHCI_ST_RC                      BIT(0)
 #define  XHCI_ST_IP                      BIT(4)
 #define XUSB_DEV_XHCI_RT_IMOD            0x38
 #define XUSB_DEV_XHCI_PORTSC             0x3C
 #define  XHCI_PORTSC_CCS                 BIT(0)
 #define  XHCI_PORTSC_PED                 BIT(1)
 #define  XHCI_PORTSC_PR                  BIT(4)
 #define  XHCI_PORTSC_PLS_MASK            (0xF << 5)
 #define   XHCI_PORTSC_PLS_U0             (0 << 5)
@ -225,11 +228,12 @@ typedef struct _t210_usb2d_t
 #define XUSB_DEV_XHCI_ECPLO              0x40
 #define XUSB_DEV_XHCI_ECPHI              0x44
 #define XUSB_DEV_XHCI_EP_HALT            0x50
-#define  XHCI_EP_HALT_DCI                BIT(0)
+#define  XHCI_EP_HALT_DCI_EP0_IN         BIT(0)
 #define XUSB_DEV_XHCI_EP_PAUSE           0x54
 #define XUSB_DEV_XHCI_EP_RELOAD          0x58
 #define XUSB_DEV_XHCI_EP_STCHG           0x5C
 #define XUSB_DEV_XHCI_PORTHALT           0x6C
 #define XUSB_DEV_XHCI_EP_STOPPED         0x78
 #define  XHCI_PORTHALT_HALT_LTSSM        BIT(0)
 #define  XHCI_PORTHALT_STCHG_REQ         BIT(20)
 #define XUSB_DEV_XHCI_CFG_DEV_FE         0x85C
--- a/bdk/usb/usbd.c
+++ b/bdk/usb/usbd.c
@ -1,7 +1,7 @@
 /*
 * Enhanced USB Device (EDCI) driver for Tegra X1
 *
- * Copyright (c) 2019-2020 CTCaer
+ * Copyright (c) 2019-2021 CTCaer
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
@ -724,7 +724,7 @@ static usb_ep_status_t _usbd_get_ep_status(usb_ep_t endpoint)
 	return USB_EP_STATUS_IDLE;
 }
-static int _usbd_ep_operation(usb_ep_t endpoint, u8 *buf, u32 len, bool sync)
+static int _usbd_ep_operation(usb_ep_t endpoint, u8 *buf, u32 len, u32 sync_timeout)
 {
 	if (!buf)
 		len = 0;
@ -797,12 +797,12 @@ static int _usbd_ep_operation(usb_ep_t endpoint, u8 *buf, u32 len, bool sync)
 	int res = USB_RES_OK;
 	usb_ep_status_t ep_status;
-	if (sync)
+	if (sync_timeout)
 	{
 		ep_status = _usbd_get_ep_status(endpoint);
 		if (ep_status == USB_EP_STATUS_ACTIVE)
 		{
-			u32 retries = 1000000; // Timeout 2s.
+			u32 retries = sync_timeout;
 			while (retries)
 			{
 				ep_status = _usbd_get_ep_status(endpoint);
@ -834,7 +834,7 @@ out:
 static int _usbd_ep_ack(usb_ep_t ep)
 {
-	return _usbd_ep_operation(ep, NULL, 0, true);
+	return _usbd_ep_operation(ep, NULL, 0, USB_XFER_SYNCED_ENUM);
 }
 static void _usbd_set_ep0_stall()
@ -1275,7 +1275,7 @@ static int _usbd_handle_ep0_control_transfer()
 		if (_wLength < size)
 			size = _wLength;
-		res = _usbd_ep_operation(USB_EP_CTRL_IN, usb_ep0_ctrl_buf, size, true);
+		res = _usbd_ep_operation(USB_EP_CTRL_IN, usb_ep0_ctrl_buf, size, USB_XFER_SYNCED_ENUM);
 		if (!res)
 			res = _usbd_ep_ack(USB_EP_CTRL_OUT);
 	}
@ -1402,7 +1402,7 @@ static usb_ep_status_t _usbd_get_ep1_status(usb_dir_t dir)
 	return _usbd_get_ep_status(ep);
 }
-int usb_device_ep1_out_read(u8 *buf, u32 len, u32 *bytes_read, bool sync)
+int usb_device_ep1_out_read(u8 *buf, u32 len, u32 *bytes_read, u32 sync_timeout)
 {
 	if ((u32)buf % USB_EP_BUFFER_ALIGN)
 		return USB2_ERROR_XFER_NOT_ALIGNED;
@ -1410,9 +1410,9 @@ int usb_device_ep1_out_read(u8 *buf, u32 len, u32 *bytes_read, bool sync)
 	if (len > USB_EP_BUFFER_MAX_SIZE)
 		len = USB_EP_BUFFER_MAX_SIZE;
-	int res = _usbd_ep_operation(USB_EP_BULK_OUT, buf, len, sync);
+	int res = _usbd_ep_operation(USB_EP_BULK_OUT, buf, len, sync_timeout);
-	if (sync && bytes_read)
+	if (sync_timeout && bytes_read)
 		*bytes_read = res ? 0 : len;
 	return res;
@ -1435,7 +1435,7 @@ int usb_device_ep1_out_read_big(u8 *buf, u32 len, u32 *bytes_read)
 	{
 		u32 len_ep = MIN(len, USB_EP_BUFFER_MAX_SIZE);
-		res = usb_device_ep1_out_read(buf_curr, len_ep, &bytes, USB_XFER_SYNCED);
+		res = usb_device_ep1_out_read(buf_curr, len_ep, &bytes, USB_XFER_SYNCED_DATA);
 		if (res)
 			return res;
@ -1455,7 +1455,7 @@ static int _usbd_get_ep1_out_bytes_read()
 		return (usbdaemon->ep_bytes_requested[USB_EP_BULK_OUT] - (usbdaemon->qhs[USB_EP_BULK_OUT].token >> 16));
 }
-int usb_device_ep1_out_reading_finish(u32 *pending_bytes, int tries)
+int usb_device_ep1_out_reading_finish(u32 *pending_bytes, u32 sync_timeout)
 {
 	usb_ep_status_t ep_status;
 	do
@ -1480,7 +1480,7 @@ int usb_device_ep1_out_reading_finish(u32 *pending_bytes, int tries)
 		return USB_ERROR_XFER_ERROR;
 }
-int usb_device_ep1_in_write(u8 *buf, u32 len, u32 *bytes_written, bool sync)
+int usb_device_ep1_in_write(u8 *buf, u32 len, u32 *bytes_written, u32 sync_timeout)
 {
 	if ((u32)buf % USB_EP_BUFFER_ALIGN)
 		return USB2_ERROR_XFER_NOT_ALIGNED;
@ -1488,9 +1488,9 @@ int usb_device_ep1_in_write(u8 *buf, u32 len, u32 *bytes_written, bool sync)
 	if (len > USB_EP_BUFFER_MAX_SIZE)
 		len = USB_EP_BUFFER_MAX_SIZE;
-	int res = _usbd_ep_operation(USB_EP_BULK_IN, buf, len, sync);
+	int res = _usbd_ep_operation(USB_EP_BULK_IN, buf, len, sync_timeout);
-	if (sync && bytes_written)
+	if (sync_timeout && bytes_written)
 		*bytes_written = res ? 0 : len;
 	return res;
@ -1504,7 +1504,7 @@ static int _usbd_get_ep1_in_bytes_written()
 		return (usbdaemon->ep_bytes_requested[USB_EP_BULK_IN] - (usbdaemon->qhs[USB_EP_BULK_IN].token >> 16));
 }
-int usb_device_ep1_in_writing_finish(u32 *pending_bytes)
+int usb_device_ep1_in_writing_finish(u32 *pending_bytes, u32 sync_timeout)
 {
 	usb_ep_status_t ep_status;
 	do
--- a/bdk/usb/usbd.h
+++ b/bdk/usb/usbd.h
@ -1,7 +1,7 @@
 /*
 * Enhanced & eXtensible USB Device (EDCI & XDCI) driver for Tegra X1
 *
- * Copyright (c) 2019 CTCaer
+ * Copyright (c) 2019-2021 CTCaer
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
@ -30,8 +30,12 @@
 #define USB_EP_BUFFER_MAX_SIZE  (USB_EP_BUFFER_4_TD)
 #define USB_EP_BUFFER_ALIGN     (USB_TD_BUFFER_PAGE_SIZE)
-#define USB_XFER_START  false
+#define USB_XFER_START        0
-#define USB_XFER_SYNCED true
+#define USB_XFER_SYNCED_ENUM  1000000
 #define USB_XFER_SYNCED_CMD   1000000
 #define USB_XFER_SYNCED_DATA  2000000
 #define USB_XFER_SYNCED_CLASS 5000000
 #define USB_XFER_SYNCED       -1
 typedef enum _usb_hid_type
 {
@ -144,6 +148,7 @@ typedef enum _usb_error_t
 	XUSB_ERROR_INVALID_EP           = USB_ERROR_XFER_ERROR,        // From 2.
 	XUSB_ERROR_XFER_BULK_IN_RESIDUE = 7,
 	XUSB_ERROR_INVALID_CYCLE        = USB2_ERROR_XFER_EP_DISABLED, // From 8.
 	XUSB_ERROR_BABBLE_DETECTED      = 50,
 	XUSB_ERROR_SEQ_NUM              = 51,
 	XUSB_ERROR_XFER_DIR             = 52,
 	XUSB_ERROR_PORT_CFG             = 54
@ -169,11 +174,11 @@ typedef struct _usb_ops_t
 	int  (*usb_device_class_send_max_lun)(u8);
 	int  (*usb_device_class_send_hid_report)();
-	int  (*usb_device_ep1_out_read)(u8 *, u32, u32 *, bool);
+	int  (*usb_device_ep1_out_read)(u8 *, u32, u32 *, u32);
 	int  (*usb_device_ep1_out_read_big)(u8 *, u32, u32 *);
-	int  (*usb_device_ep1_out_reading_finish)(u32 *, int);
+	int  (*usb_device_ep1_out_reading_finish)(u32 *, u32);
-	int  (*usb_device_ep1_in_write)(u8 *, u32, u32 *, bool);
+	int  (*usb_device_ep1_in_write)(u8 *, u32, u32 *, u32);
-	int  (*usb_device_ep1_in_writing_finish)(u32 *);
+	int  (*usb_device_ep1_in_writing_finish)(u32 *, u32);
 	bool (*usb_device_get_suspended)();
 	bool (*usb_device_get_port_in_sleep)();
 } usb_ops_t;
--- a/bdk/usb/xusbd.c
+++ b/bdk/usb/xusbd.c
@ -1,7 +1,7 @@
 /*
 * eXtensible USB Device driver (XDCI) for Tegra X1
 *
- * Copyright (c) 2020 CTCaer
+ * Copyright (c) 2020-2021 CTCaer
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
@ -368,7 +368,7 @@ typedef struct _xusbd_controller_t
 	event_trb_t *event_dequeue_ptr;
 	u32 event_ccs;
 	u32 device_state;
-	u32 bytes_remaining[2];
+	u32 tx_bytes[2];
 	u32 tx_count[2];
 	u32 ctrl_seq_num;
 	u32 config_num;
@ -881,7 +881,7 @@ int xusb_device_init()
 	_xusbd_init_device_clocks();
 	// Enable AHB redirect for access to IRAM for Event/EP ring buffers.
-	mc_enable_ahb_redirect(); // can be skipped if IRAM is not used/////////////////
+	mc_enable_ahb_redirect(false); // Can be skipped if IRAM is not used.
 	 // Enable XUSB device IPFS.
 	XUSB_DEV_DEV(XUSB_DEV_CONFIGURATION) |= DEV_CONFIGURATION_EN_FPCI;
@ -895,14 +895,11 @@ int xusb_device_init()
 	XUSB_DEV_DEV(XUSB_DEV_INTR_MASK) |= DEV_INTR_MASK_IP_INT_MASK;
 	// AHB USB performance cfg.
 	//TODO: Doesn't help..
 /*
 	AHB_GIZMO(AHB_GIZMO_AHB_MEM) |= AHB_MEM_DONT_SPLIT_AHB_WR | AHB_MEM_ENB_FAST_REARBITRATE;
 	AHB_GIZMO(AHB_GIZMO_USB3) |= AHB_GIZMO_IMMEDIATE;
 	AHB_GIZMO(AHB_ARBITRATION_PRIORITY_CTRL) = PRIORITY_CTRL_WEIGHT(7) | PRIORITY_SELECT_USB3;
 	AHB_GIZMO(AHB_AHB_MEM_PREFETCH_CFG1) =
 		MEM_PREFETCH_ENABLE | MEM_PREFETCH_USB3_MST_ID | MEM_PREFETCH_ADDR_BNDRY(12) | 0x1000; // Addr boundary 64KB, Inactivity 4096 cycles.
 */
 	// Initialize context.
 	usbd_xotg = &usbd_xotg_controller_ctxt;
@ -930,7 +927,7 @@ int xusb_device_init()
 	return USB_RES_OK;
 }
-static int _xusb_queue_trb(int ep_idx, void *trb, bool ring_doorbell)
+static int _xusb_queue_trb(u32 ep_idx, void *trb, bool ring_doorbell)
 {
 	int res = USB_RES_OK;
 	data_trb_t *next_trb;
@ -1076,7 +1073,7 @@ static int _xusb_issue_normal_trb(u8 *buf, u32 len, usb_dir_t direction)
 	normal_trb_t trb = {0};
 	_xusb_create_normal_trb(&trb, buf, len, direction);
-	int ep_idx = USB_EP_BULK_IN;
+	u32 ep_idx = USB_EP_BULK_IN;
 	if (direction == USB_DIR_OUT)
 		ep_idx = USB_EP_BULK_OUT;
 	int res = _xusb_queue_trb(ep_idx, &trb, EP_RING_DOORBELL);
@ -1103,19 +1100,32 @@ static int _xusb_issue_data_trb(u8 *buf, u32 len, usb_dir_t direction)
 int xusb_set_ep_stall(u32 endpoint, int ep_stall)
 {
-	int ep_idx = BIT(endpoint);
+	u32 ep_mask = BIT(endpoint);
 	if (ep_stall)
-		XUSB_DEV_XHCI(XUSB_DEV_XHCI_EP_HALT) |= ep_idx;
+		XUSB_DEV_XHCI(XUSB_DEV_XHCI_EP_HALT) |= ep_mask;
 	else
-		XUSB_DEV_XHCI(XUSB_DEV_XHCI_EP_HALT) &= ~ep_idx;
+		XUSB_DEV_XHCI(XUSB_DEV_XHCI_EP_HALT) &= ~ep_mask;
 	// Wait for EP status to change.
-	int res = _xusb_xhci_mask_wait(XUSB_DEV_XHCI_EP_STCHG, ep_idx, ep_idx, 1000);
+	int res = _xusb_xhci_mask_wait(XUSB_DEV_XHCI_EP_STCHG, ep_mask, ep_mask, 1000);
 	if (res)
 		return res;
 	// Clear status change.
-	XUSB_DEV_XHCI(XUSB_DEV_XHCI_EP_STCHG) = ep_idx;
+	XUSB_DEV_XHCI(XUSB_DEV_XHCI_EP_STCHG) = ep_mask;
 	return USB_RES_OK;
 }
 static int _xusb_wait_ep_stopped(u32 endpoint)
 {
 	u32 ep_mask = BIT(endpoint);
 	// Wait for EP status to change.
 	_xusb_xhci_mask_wait(XUSB_DEV_XHCI_EP_STOPPED, ep_mask, ep_mask, 1000);
 	// Clear status change.
 	XUSB_DEV_XHCI(XUSB_DEV_XHCI_EP_STOPPED) = ep_mask;
 	return USB_RES_OK;
 }
@ -1161,20 +1171,27 @@ static int _xusb_handle_transfer_event(transfer_event_trb_t *trb)
 				return _xusb_issue_status_trb(USB_DIR_OUT);
 			else if (usbd_xotg->wait_for_event_trb == XUSB_TRB_STATUS)
 			{
-				if (usbd_xotg->device_state == XUSB_ADDRESSED_STS_WAIT)
+				switch (usbd_xotg->device_state)
 				{
 				case XUSB_ADDRESSED_STS_WAIT:
 					usbd_xotg->device_state = XUSB_ADDRESSED;
-				else if (usbd_xotg->device_state == XUSB_CONFIGURED_STS_WAIT)
+					break;
 				case XUSB_CONFIGURED_STS_WAIT:
 					usbd_xotg->device_state = XUSB_CONFIGURED;
-				else if (usbd_xotg->device_state == XUSB_LUN_CONFIGURED_STS_WAIT)
+					break;
 				case XUSB_LUN_CONFIGURED_STS_WAIT:
 					usbd_xotg->device_state = XUSB_LUN_CONFIGURED;
-				else if (usbd_xotg->device_state == XUSB_HID_CONFIGURED_STS_WAIT)
+					break;
 				case XUSB_HID_CONFIGURED_STS_WAIT:
 					usbd_xotg->device_state = XUSB_HID_CONFIGURED;
 					break;
 				}
 			}
 			break;
 		case USB_EP_BULK_IN:
-			usbd_xotg->bytes_remaining[USB_DIR_IN] -= trb->trb_tx_len;
+			usbd_xotg->tx_bytes[USB_DIR_IN] -= trb->trb_tx_len;
-			if (usbd_xotg->tx_count[USB_DIR_IN])///////////
+			if (usbd_xotg->tx_count[USB_DIR_IN])
 				usbd_xotg->tx_count[USB_DIR_IN]--;
 			// If bytes remaining for a Bulk IN transfer, return error.
@ -1184,8 +1201,8 @@ static int _xusb_handle_transfer_event(transfer_event_trb_t *trb)
 		case USB_EP_BULK_OUT:
 			// If short packet and Bulk OUT, it's not an error because we prime EP for 4KB.
-			usbd_xotg->bytes_remaining[USB_DIR_OUT] -= trb->trb_tx_len;
+			usbd_xotg->tx_bytes[USB_DIR_OUT] -= trb->trb_tx_len;
-			if (usbd_xotg->tx_count[USB_DIR_OUT])///////////
+			if (usbd_xotg->tx_count[USB_DIR_OUT])
 				usbd_xotg->tx_count[USB_DIR_OUT]--;
 			break;
 		}
@ -1199,6 +1216,11 @@ static int _xusb_handle_transfer_event(transfer_event_trb_t *trb)
 		xusb_set_ep_stall(trb->ep_id, USB_EP_CFG_STALL);
 		return USB_RES_OK;
 */
 	case XUSB_COMP_BABBLE_DETECTED_ERROR:
 		_xusb_wait_ep_stopped(trb->ep_id);
 		xusb_set_ep_stall(trb->ep_id, USB_EP_CFG_STALL);
 		return XUSB_ERROR_BABBLE_DETECTED;
 	case XUSB_COMP_CTRL_DIR_ERROR:
 		return XUSB_ERROR_XFER_DIR;
@ -1219,11 +1241,52 @@ static int _xusb_handle_transfer_event(transfer_event_trb_t *trb)
 static int _xusb_handle_port_change()
 {
 	u32 res = USB_RES_OK;
 	u32 status = XUSB_DEV_XHCI(XUSB_DEV_XHCI_PORTSC);
 	u32 halt = XUSB_DEV_XHCI(XUSB_DEV_XHCI_PORTHALT);
 	u32 clear_mask = XHCI_PORTSC_CEC | XHCI_PORTSC_PLC | XHCI_PORTSC_PRC | XHCI_PORTSC_WRC | XHCI_PORTSC_CSC;
-	// Connect status change (CSC).
+	// Port reset (PR).
 	if (status & XHCI_PORTSC_PR)
 	{
 		//! TODO:
 		// XHCI_PORTSC_PR: device_state = XUSB_RESET
 		//_disable_usb_wdt4();
 	}
 	// Port Reset Change (PRC).
 	if (status & XHCI_PORTSC_PRC)
 	{
 		// Clear PRC bit.
 		status &= ~clear_mask;
 		status |= XHCI_PORTSC_PRC;
 		XUSB_DEV_XHCI(XUSB_DEV_XHCI_PORTSC) = status;
 	}
 	// Warm Port Reset (WPR).
 	if (status & XHCI_PORTSC_WPR)
 	{
 		//_disable_usb_wdt4();
 		XUSB_DEV_XHCI(XUSB_DEV_XHCI_PORTHALT) &= ~XHCI_PORTHALT_HALT_LTSSM;
 		(void)XUSB_DEV_XHCI(XUSB_DEV_XHCI_PORTHALT);
 		//! TODO: XHCI_PORTSC_WPR: device_state = XUSB_RESET
 	}
 	// Warm Port Reset Change (WRC).
 	if (status & XHCI_PORTSC_WRC)
 	{
 		// Clear WRC bit.
 		status &= ~clear_mask;
 		status |= XHCI_PORTSC_WRC;
 		XUSB_DEV_XHCI(XUSB_DEV_XHCI_PORTSC) = status;
 	}
 	// Reread port status to handle more changes.
 	status = XUSB_DEV_XHCI(XUSB_DEV_XHCI_PORTSC);
 	// Connect Status Change (CSC).
 	if (status & XHCI_PORTSC_CSC)
 	{
 		//! TODO: Check CCS.
@ -1241,90 +1304,64 @@ static int _xusb_handle_port_change()
 			volatile xusb_ep_ctx_t *ep_ctxt = &xusb_evtq->xusb_ep_ctxt[XUSB_EP_CTRL_IN];
 			ep_ctxt->avg_trb_len = 8;
 			ep_ctxt->max_packet_size = 64;
 			//! TODO: If super speed is supported, ep context reload, unpause and unhalt must happen.
 		}
 		// Clear CSC bit.
 		status &= ~clear_mask;
 		status |= XHCI_PORTSC_CSC;
 		XUSB_DEV_XHCI(XUSB_DEV_XHCI_PORTSC) = status;
 	}
 	// Port reset (PR), Port reset change (PRC).
 	if (status & XHCI_PORTSC_PR || status & XHCI_PORTSC_PRC)
 	{
 		//! TODO:
 		// XHCI_PORTSC_PR: device_state = XUSB_RESET
 		//_disable_usb_wdt4();
 		//res = _xusb_xhci_mask_wait(XUSB_DEV_XHCI_PORTSC, XHCI_PORTSC_PRC, XHCI_PORTSC_PRC, 50000); // unpatched0
 		//	if (res) return res;
 		_xusb_xhci_mask_wait(XUSB_DEV_XHCI_PORTSC, XHCI_PORTSC_PRC, XHCI_PORTSC_PRC, 50000); // patched0
 		// Clear PRC bit.
 		status = XUSB_DEV_XHCI(XUSB_DEV_XHCI_PORTSC) | XHCI_PORTSC_PRC;
 		XUSB_DEV_XHCI(XUSB_DEV_XHCI_PORTSC) |= XHCI_PORTSC_PRC;
 	}
 	// Warm Port Reset (WPR), Warm Port Reset Change (WRC).
 	if (status & XHCI_PORTSC_WPR || status & XHCI_PORTSC_WRC)
 	{
 		XUSB_DEV_XHCI(XUSB_DEV_XHCI_PORTHALT) &= ~XHCI_PORTHALT_HALT_LTSSM;
 		(void)XUSB_DEV_XHCI(XUSB_DEV_XHCI_PORTSC);
 		res = _xusb_xhci_mask_wait(XUSB_DEV_XHCI_PORTSC, XHCI_PORTSC_WRC, XHCI_PORTSC_WRC, 1000);
 		// Clear WRC bit.
 		status = XUSB_DEV_XHCI(XUSB_DEV_XHCI_PORTSC) | XHCI_PORTSC_WRC;
 		XUSB_DEV_XHCI(XUSB_DEV_XHCI_PORTSC) |= XHCI_PORTSC_WRC;
 		//! TODO: WPR: device_state = XUSB_RESET
 	}
 	// Handle Config Request (STCHG_REQ).
 	if (halt & XHCI_PORTHALT_STCHG_REQ)
 	{
-		// Clear Link Training Status.
+		// Clear Link Training Status and pending request/reject.
 		status = XUSB_DEV_XHCI(XUSB_DEV_XHCI_PORTHALT) & ~XHCI_PORTHALT_HALT_LTSSM;
 		XUSB_DEV_XHCI(XUSB_DEV_XHCI_PORTHALT) &= ~XHCI_PORTHALT_HALT_LTSSM;
 		(void)XUSB_DEV_XHCI(XUSB_DEV_XHCI_PORTHALT);
 	}
 	// Reread port status to handle more changes.
 	status = XUSB_DEV_XHCI(XUSB_DEV_XHCI_PORTSC);
 	// Port link state change (PLC).
 	if (status & XHCI_PORTSC_PLC)
 	{
-		//! WAR: Sometimes port speed changes without a CSC event. Set again.
+		// check XHCI_PORTSC_PLS_MASK
-		usbd_xotg->port_speed = (status & XHCI_PORTSC_PS) >> 10;
+		// if XHCI_PORTSC_PLS_U3
 		// check PLS
 		// if U3
 		//  device_state = XUSB_SUSPENDED
-		// else if U0 and XUSB_SUSPENDED
+		// else if XHCI_PORTSC_PLS_U0 and XUSB_SUSPENDED
 		//  val = XUSB_DEV_XHCI_EP_PAUSE
 		//  XUSB_DEV_XHCI_EP_PAUSE = 0
 		//  XUSB_DEV_XHCI_EP_STCHG = val;
 		// Clear PLC bit.
-		status = XUSB_DEV_XHCI(XUSB_DEV_XHCI_PORTSC) | XHCI_PORTSC_PLC;
+		status &= ~clear_mask;
-		XUSB_DEV_XHCI(XUSB_DEV_XHCI_PORTSC) |= XHCI_PORTSC_PLC;
+		status |= XHCI_PORTSC_PLC;
 		XUSB_DEV_XHCI(XUSB_DEV_XHCI_PORTSC) = status;
 	}
 	// Port configuration link error (CEC).
 	if (status & XHCI_PORTSC_CEC)
 	{
-		XUSB_DEV_XHCI(XUSB_DEV_XHCI_PORTSC) |= XHCI_PORTSC_CEC;
+		status = XUSB_DEV_XHCI(XUSB_DEV_XHCI_PORTSC);
-		res = XUSB_ERROR_PORT_CFG;
+		status &= ~clear_mask;
 		status |= XHCI_PORTSC_CEC;
 		XUSB_DEV_XHCI(XUSB_DEV_XHCI_PORTSC) = status;
 		return XUSB_ERROR_PORT_CFG;
 	}
-	return res;
+	return USB_RES_OK;
 }
-static int _xusb_handle_get_ep_status(usb_ctrl_setup_t *ctrl_setup)
+static int _xusb_handle_get_ep_status(u32 ep_idx)
 {
 	u32 ep_mask = BIT(ep_idx);
 	static u8 xusb_ep_status_descriptor[2] = {0};
-	// Get EP context pointer.
+	xusb_ep_status_descriptor[0] =
-	volatile xusb_ep_ctx_t *ep_ctxt = (volatile xusb_ep_ctx_t *)(XUSB_DEV_XHCI(XUSB_DEV_XHCI_ECPLO) & 0xFFFFFFF0);
+		(XUSB_DEV_XHCI(XUSB_DEV_XHCI_EP_HALT) & ep_mask) ? USB_STATUS_EP_HALTED : USB_STATUS_EP_OK;
 	ep_ctxt = &ep_ctxt[ctrl_setup->wIndex];
 	xusb_ep_status_descriptor[0] = (ep_ctxt->ep_state == EP_HALTED) ? USB_STATUS_EP_HALTED : USB_STATUS_EP_OK;
 	return _xusb_issue_data_trb(xusb_ep_status_descriptor, 2, USB_DIR_IN);
 }
@ -1539,8 +1576,9 @@ static int _xusbd_handle_ep0_control_transfer(usb_ctrl_setup_t *ctrl_setup)
 	//gfx_printf("ctrl: %02X %02X %04X %04X %04X\n", _bmRequestType, _bRequest, _wValue, _wIndex, _wLength);
-	XUSB_DEV_XHCI(XUSB_DEV_XHCI_EP_HALT) &= ~XHCI_EP_HALT_DCI;
+	// Unhalt EP0 IN.
-	u32 res = _xusb_xhci_mask_wait(XUSB_DEV_XHCI_EP_HALT, XHCI_EP_HALT_DCI, 0, 1000);
+	XUSB_DEV_XHCI(XUSB_DEV_XHCI_EP_HALT) &= ~XHCI_EP_HALT_DCI_EP0_IN;
 	u32 res = _xusb_xhci_mask_wait(XUSB_DEV_XHCI_EP_HALT, XHCI_EP_HALT_DCI_EP0_IN, 0, 1000);
 	if (res)
 		return res;
@ -1560,14 +1598,33 @@ static int _xusbd_handle_ep0_control_transfer(usb_ctrl_setup_t *ctrl_setup)
 	case (USB_SETUP_HOST_TO_DEVICE | USB_SETUP_TYPE_STANDARD | USB_SETUP_RECIPIENT_ENDPOINT):
 		if ((_wValue & 0xFF) == USB_FEATURE_ENDPOINT_HALT)
 		{
-			if (_bRequest == USB_REQUEST_CLEAR_FEATURE)
+			if (_bRequest == USB_REQUEST_CLEAR_FEATURE || _bRequest == USB_REQUEST_SET_FEATURE)
 			{
-				xusb_set_ep_stall(_wIndex, USB_EP_CFG_CLEAR);
+				u32 ep = 0;
-				return _xusb_issue_status_trb(USB_DIR_IN);
+				switch (_wIndex) // endpoint
 				{
 				case USB_EP_ADDR_CTRL_OUT:
 					ep = XUSB_EP_CTRL_OUT;
 					break;
 				case USB_EP_ADDR_CTRL_IN:
 					ep = XUSB_EP_CTRL_IN;
 					break;
 				case USB_EP_ADDR_BULK_OUT:
 					ep = USB_EP_BULK_OUT;
 					break;
 				case USB_EP_ADDR_BULK_IN:
 					ep = USB_EP_BULK_IN;
 					break;
 				default:
 					xusb_set_ep_stall(XUSB_EP_CTRL_IN, USB_EP_CFG_STALL);
 					return USB_RES_OK;
 				}
 				if (_bRequest == USB_REQUEST_CLEAR_FEATURE)
 					xusb_set_ep_stall(ep, USB_EP_CFG_CLEAR);
 				else if (_bRequest == USB_REQUEST_SET_FEATURE)
-			{
+					xusb_set_ep_stall(ep, USB_EP_CFG_STALL);
-				xusb_set_ep_stall(_wIndex, USB_EP_CFG_STALL);
+
 				return _xusb_issue_status_trb(USB_DIR_IN);
 			}
 		}
@ -1634,7 +1691,28 @@ static int _xusbd_handle_ep0_control_transfer(usb_ctrl_setup_t *ctrl_setup)
 	case (USB_SETUP_DEVICE_TO_HOST | USB_SETUP_TYPE_STANDARD | USB_SETUP_RECIPIENT_ENDPOINT):
 		if (_bRequest == USB_REQUEST_GET_STATUS)
-			return _xusb_handle_get_ep_status(ctrl_setup);
+		{
 			u32 ep = 0;
 			switch (_wIndex) // endpoint
 			{
 			case USB_EP_ADDR_CTRL_OUT:
 				ep = XUSB_EP_CTRL_OUT;
 				break;
 			case USB_EP_ADDR_CTRL_IN:
 				ep = XUSB_EP_CTRL_IN;
 				break;
 			case USB_EP_ADDR_BULK_OUT:
 				ep = USB_EP_BULK_OUT;
 				break;
 			case USB_EP_ADDR_BULK_IN:
 				ep = USB_EP_BULK_IN;
 				break;
 			default:
 				xusb_set_ep_stall(XUSB_EP_CTRL_IN, USB_EP_CFG_STALL);
 				return USB_RES_OK;
 			}
 			return _xusb_handle_get_ep_status(ep);
 		}
 		ep_stall = true;
 		break;
@ -1771,6 +1849,13 @@ int xusb_device_enumerate(usb_gadget_type gadget)
 	usbd_xotg->gadget = gadget;
 	/*
 	 * Set interrupt moderation to 0us.
 	 * This is important because default value creates a 4.62ms latency.
 	 * Effectively hurting transfers by having 15% to 96% performance loss.
 	 */
 	XUSB_DEV_XHCI(XUSB_DEV_XHCI_RT_IMOD) = 0;
 	// Disable Wake events.
 	XUSB_PADCTL(XUSB_PADCTL_ELPG_PROGRAM_0) = 0;
 	XUSB_PADCTL(XUSB_PADCTL_ELPG_PROGRAM_1) = 0;
@ -1803,7 +1888,7 @@ int xusb_device_enumerate(usb_gadget_type gadget)
 	u32 timer = get_tmr_ms() + 90000;
 	while (true)
 	{
-		int res = _xusb_ep_operation(1000000); // 2s timeout.
+		int res = _xusb_ep_operation(USB_XFER_SYNCED_ENUM); // 2s timeout.
 		if (res && res != USB_ERROR_TIMEOUT)
 			return res;
@ -1817,6 +1902,7 @@ int xusb_device_enumerate(usb_gadget_type gadget)
 	return USB_RES_OK;
 }
 //! TODO: Do a full deinit.
 void xusb_end(bool reset_ep, bool only_controller)
 {
 	CLOCK(CLK_RST_CONTROLLER_RST_DEV_W_SET) = BIT(CLK_W_XUSB_SS);
@ -1826,7 +1912,7 @@ void xusb_end(bool reset_ep, bool only_controller)
 	CLOCK(CLK_RST_CONTROLLER_RST_DEV_W_SET) = BIT(CLK_W_XUSB_PADCTL);
 	CLOCK(CLK_RST_CONTROLLER_CLK_ENB_W_CLR) = BIT(CLK_W_XUSB);
 	CLOCK(CLK_RST_CONTROLLER_RST_DEV_W_SET) = BIT(CLK_W_XUSB);
-	mc_disable_ahb_redirect();///////////////////
+	mc_disable_ahb_redirect(); // Can be skipped if IRAM is not used.
 }
 int xusb_handle_ep0_ctrl_setup()
@ -1844,24 +1930,24 @@ int xusb_handle_ep0_ctrl_setup()
 	return USB_RES_OK;
 }
-int xusb_device_ep1_out_read(u8 *buf, u32 len, u32 *bytes_read, bool sync)
+int xusb_device_ep1_out_read(u8 *buf, u32 len, u32 *bytes_read, u32 sync_tries)
 {
 	if (len > USB_EP_BUFFER_MAX_SIZE)
 		len = USB_EP_BUFFER_MAX_SIZE;
 	int res = USB_RES_OK;
 	usbd_xotg->tx_count[USB_DIR_OUT] = 0;
-	usbd_xotg->bytes_remaining[USB_DIR_OUT] = len;
+	usbd_xotg->tx_bytes[USB_DIR_OUT] = len;
 	_xusb_issue_normal_trb(buf, len, USB_DIR_OUT);
 	usbd_xotg->tx_count[USB_DIR_OUT]++;
-	if (sync)
+	if (sync_tries)
 	{
 		while (!res && usbd_xotg->tx_count[USB_DIR_OUT])
-			res = _xusb_ep_operation(1000000); // 2s timeout.
+			res = _xusb_ep_operation(sync_tries);
 		if (bytes_read)
-			*bytes_read = res ? 0 : usbd_xotg->bytes_remaining[USB_DIR_OUT];
+			*bytes_read = res ? 0 : usbd_xotg->tx_bytes[USB_DIR_OUT];
 		bpmp_mmu_maintenance(BPMP_MMU_MAINT_CLN_INV_WAY, false);
 	}
@ -1882,7 +1968,7 @@ int xusb_device_ep1_out_read_big(u8 *buf, u32 len, u32 *bytes_read)
 	{
 		u32 len_ep = MIN(len, USB_EP_BUFFER_MAX_SIZE);
-		int res = xusb_device_ep1_out_read(buf_curr, len_ep, &bytes, USB_XFER_SYNCED);
+		int res = xusb_device_ep1_out_read(buf_curr, len_ep, &bytes, USB_XFER_SYNCED_DATA);
 		if (res)
 			return res;
@ -1894,21 +1980,21 @@ int xusb_device_ep1_out_read_big(u8 *buf, u32 len, u32 *bytes_read)
 	return USB_RES_OK;
 }
-int xusb_device_ep1_out_reading_finish(u32 *pending_bytes, int tries)
+int xusb_device_ep1_out_reading_finish(u32 *pending_bytes, u32 sync_tries)
 {
 	int res = USB_RES_OK;
 	while (!res && usbd_xotg->tx_count[USB_DIR_OUT])
-		res = _xusb_ep_operation(tries);
+		res = _xusb_ep_operation(sync_tries); // Infinite retries.
 	if (pending_bytes)
-		*pending_bytes = res ? 0 : usbd_xotg->bytes_remaining[USB_DIR_OUT];
+		*pending_bytes = res ? 0 : usbd_xotg->tx_bytes[USB_DIR_OUT];
 	bpmp_mmu_maintenance(BPMP_MMU_MAINT_CLN_INV_WAY, false);
 	return res;
 }
-int xusb_device_ep1_in_write(u8 *buf, u32 len, u32 *bytes_written, bool sync)
+int xusb_device_ep1_in_write(u8 *buf, u32 len, u32 *bytes_written, u32 sync_tries)
 {
 	if (len > USB_EP_BUFFER_MAX_SIZE)
 		len = USB_EP_BUFFER_MAX_SIZE;
@ -1917,17 +2003,17 @@ int xusb_device_ep1_in_write(u8 *buf, u32 len, u32 *bytes_written, bool sync)
 	int res = USB_RES_OK;
 	usbd_xotg->tx_count[USB_DIR_IN] = 0;
-	usbd_xotg->bytes_remaining[USB_DIR_IN] = len;
+	usbd_xotg->tx_bytes[USB_DIR_IN] = len;
 	_xusb_issue_normal_trb(buf, len, USB_DIR_IN);
 	usbd_xotg->tx_count[USB_DIR_IN]++;
-	if (sync)
+	if (sync_tries)
 	{
 		while (!res && usbd_xotg->tx_count[USB_DIR_IN])
-			res = _xusb_ep_operation(1000000); // 2s timeout.
+			res = _xusb_ep_operation(sync_tries);
 		if (bytes_written)
-			*bytes_written = res ? 0 : usbd_xotg->bytes_remaining[USB_DIR_IN];
+			*bytes_written = res ? 0 : usbd_xotg->tx_bytes[USB_DIR_IN];
 	}
 	else
 	{
@ -1943,14 +2029,14 @@ int xusb_device_ep1_in_write(u8 *buf, u32 len, u32 *bytes_written, bool sync)
 	return res;
 }
-int xusb_device_ep1_in_writing_finish(u32 *pending_bytes)
+int xusb_device_ep1_in_writing_finish(u32 *pending_bytes, u32 sync_tries)
 {
 	int res = USB_RES_OK;
 	while (!res && usbd_xotg->tx_count[USB_DIR_IN])
-		res = _xusb_ep_operation(1000000); // 2s timeout.
+		res = _xusb_ep_operation(sync_tries); // Infinite retries.
 	if (pending_bytes)
-		*pending_bytes = res ? 0 : usbd_xotg->bytes_remaining[USB_DIR_IN];
+		*pending_bytes = res ? 0 : usbd_xotg->tx_bytes[USB_DIR_IN];
 	return res;
 }
@ -1973,7 +2059,7 @@ bool xusb_device_class_send_max_lun(u8 max_lun)
 	// Wait for request and transfer start.
 	while (usbd_xotg->device_state != XUSB_LUN_CONFIGURED)
 	{
-		_xusb_ep_operation(500000);
+		_xusb_ep_operation(USB_XFER_SYNCED_CLASS);
 		if (timer < get_tmr_ms() || btn_read_vol() == (BTN_VOL_UP | BTN_VOL_DOWN))
 			return true;
 	}
@ -1991,7 +2077,7 @@ bool xusb_device_class_send_hid_report()
 	// Wait for request and transfer start.
 	while (usbd_xotg->device_state != XUSB_HID_CONFIGURED)
 	{
-		_xusb_ep_operation(500000);
+		_xusb_ep_operation(USB_XFER_SYNCED_CLASS);
 		if (timer < get_tmr_ms() || btn_read_vol() == (BTN_VOL_UP | BTN_VOL_DOWN))
 			return true;
 	}
@ -2006,7 +2092,7 @@ void xusb_device_get_ops(usb_ops_t *ops)
 	ops->usbd_flush_endpoint               = NULL;
 	ops->usbd_set_ep_stall                 = xusb_set_ep_stall;
 	ops->usbd_handle_ep0_ctrl_setup        = xusb_handle_ep0_ctrl_setup;
-	ops->usbd_end                          = xusb_end;//////////////////
+	ops->usbd_end                          = xusb_end;
 	ops->usb_device_init                   = xusb_device_init;
 	ops->usb_device_enumerate              = xusb_device_enumerate;
 	ops->usb_device_class_send_max_lun     = xusb_device_class_send_max_lun;
--- a/bdk/utils/btn.c
+++ b/bdk/utils/btn.c
@ -29,7 +29,7 @@ u8 btn_read()
 		res |= BTN_VOL_DOWN;
 	if (!gpio_read(GPIO_PORT_X, GPIO_PIN_6))
 		res |= BTN_VOL_UP;
-	if (i2c_recv_byte(4, MAX77620_I2C_ADDR, MAX77620_REG_ONOFFSTAT) & 0x4)
+	if (i2c_recv_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_ONOFFSTAT) & MAX77620_ONOFFSTAT_EN0)
 		res |= BTN_POWER;
 	return res;
 }
--- a/bdk/utils/dirlist.c
+++ b/bdk/utils/dirlist.c
@ -21,16 +21,16 @@
 #include <mem/heap.h>
 #include <utils/types.h>
 #define MAX_ENTRIES 64
 char *dirlist(const char *directory, const char *pattern, bool includeHiddenFiles, bool parse_dirs)
 {
 	u8 max_entries = 61;
 	int res = 0;
 	u32 i = 0, j = 0, k = 0;
 	DIR dir;
 	FILINFO fno;
-	char *dir_entries = (char *)calloc(max_entries, 256);
+	char *dir_entries = (char *)calloc(MAX_ENTRIES, 256);
 	char *temp = (char *)calloc(1, 256);
 	if (!pattern && !f_opendir(&dir, directory))
@ -49,7 +49,7 @@ char *dirlist(const char *directory, const char *pattern, bool includeHiddenFile
 				{
 					strcpy(dir_entries + (k * 256), fno.fname);
 					k++;
-					if (k > (max_entries - 1))
+					if (k > (MAX_ENTRIES - 1))
 						break;
 				}
 			}
@ -64,7 +64,7 @@ char *dirlist(const char *directory, const char *pattern, bool includeHiddenFile
 			{
 				strcpy(dir_entries + (k * 256), fno.fname);
 				k++;
-				if (k > (max_entries - 1))
+				if (k > (MAX_ENTRIES - 1))
 					break;
 			}
 			res = f_findnext(&dir, &fno);
--- a/bdk/utils/ini.c
+++ b/bdk/utils/ini.c
@ -66,14 +66,14 @@ ini_sec_t *_ini_create_section(link_t *dst, ini_sec_t *csec, char *name, u8 type
 int ini_parse(link_t *dst, char *ini_path, bool is_dir)
 {
 	FIL fp;
 	u32 lblen;
 	u32 pathlen = strlen(ini_path);
 	u32 k = 0;
 	char lbuf[512];
 	char *filelist = NULL;
 	FIL fp;
 	ini_sec_t *csec = NULL;
 	char *lbuf = NULL;
 	char *filelist = NULL;
 	char *filename = (char *)malloc(256);
 	strcpy(filename, ini_path);
@ -114,6 +114,8 @@ int ini_parse(link_t *dst, char *ini_path, bool is_dir)
 			return 0;
 		}
 		lbuf = malloc(512);
 		do
 		{
 			// Fetch one line.
@ -168,6 +170,7 @@ int ini_parse(link_t *dst, char *ini_path, bool is_dir)
 		}
 	} while (is_dir);
 	free(lbuf);
 	free(filename);
 	free(filelist);
--- a/bdk/utils/sprintf.c
+++ b/bdk/utils/sprintf.c
@ -56,7 +56,7 @@ static u32 _putn(char *buffer, u32 v, int base, char fill, int fcnt) {
    return _puts(buffer, p);
 }
-u32 sprintf(char *buffer, const char *fmt, ...) {
+u32 s_printf(char *buffer, const char *fmt, ...) {
    va_list ap;
    int fill, fcnt;
    u32 count = 0;
--- a/bdk/utils/sprintf.h
+++ b/bdk/utils/sprintf.h
@ -19,6 +19,6 @@
 #include "types.h"
-u32 sprintf(char *buffer, const char *fmt, ...);
+u32 s_printf(char *buffer, const char *fmt, ...);
 #endif
--- a/bdk/utils/types.h
+++ b/bdk/utils/types.h
@ -1,5 +1,6 @@
 /*
 * Copyright (c) 2018 naehrwert
 * Copyright (c) 2018-2021 CTCaer
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
@ -17,37 +18,18 @@
 #ifndef _TYPES_H_
 #define _TYPES_H_
-#define NULL ((void *)0)
+#include <assert.h>
 #define ALWAYS_INLINE inline __attribute__((always_inline))
 #define ALIGN(x, a) (((x) + (a) - 1) & ~((a) - 1))
 #define ALIGN_DOWN(x, a) (((x) - ((a) - 1)) & ~((a) - 1))
 #define BIT(n) (1U << (n))
 #define MAX(a, b) ((a) > (b) ? (a) : (b))
 #define MIN(a, b) ((a) < (b) ? (a) : (b))
 #define DIV_ROUND_UP(a, b) ((a + b - 1) / b)
 #define ARRAY_SIZE(x) (sizeof(x) / sizeof(*(x)))
 #define LOG2(n) (32 - __builtin_clz(n) - 1)
 #define OFFSET_OF(t, m) ((u32)&((t *)NULL)->m)
 #define CONTAINER_OF(mp, t, mn) ((t *)((u32)mp - OFFSET_OF(t, mn)))
 #define COLOR_RED    0xFFE70000
 #define COLOR_ORANGE 0xFFFF8C00
 #define COLOR_YELLOW 0xFFFFFF40
 #define COLOR_GREEN  0xFF40FF00
 #define COLOR_BLUE   0xFF00DDFF
 #define COLOR_VIOLET 0xFF8040FF
 /* Types */
 typedef signed char s8;
 typedef short s16;
 typedef short SHORT;
 typedef int s32;
 typedef int INT;
 typedef int bool;
 typedef long LONG;
 typedef long long int s64;
 typedef unsigned char u8;
 typedef unsigned char BYTE;
 typedef unsigned short u16;
@ -58,6 +40,7 @@ typedef unsigned int UINT;
 typedef unsigned long DWORD;
 typedef unsigned long long QWORD;
 typedef unsigned long long int u64;
 typedef volatile unsigned char vu8;
 typedef volatile unsigned short vu16;
 typedef volatile unsigned int vu32;
@ -68,19 +51,96 @@ typedef u64 uptr;
 typedef u32 uptr;
 #endif
 /* Colors */
 #define COLOR_RED    0xFFE70000
 #define COLOR_ORANGE 0xFFFF8C00
 #define COLOR_YELLOW 0xFFFFFF40
 #define COLOR_GREEN  0xFF40FF00
 #define COLOR_BLUE   0xFF00DDFF
 #define COLOR_VIOLET 0xFF8040FF
 static const u32 colors[6] = {COLOR_RED, COLOR_ORANGE, COLOR_YELLOW, COLOR_GREEN, COLOR_BLUE, COLOR_VIOLET};
-typedef int bool;
+/* Important */
 #define true  1
 #define false 0
 #define true  1
 #define NULL ((void *)0)
 /* Misc */
 #define DISABLE 0
 #define ENABLE  1
 /* Sizes */
 #define SZ_1K   0x400
 #define SZ_2K   0x800
 #define SZ_4K   0x1000
 #define SZ_8K   0x2000
 #define SZ_16K  0x4000
 #define SZ_32K  0x8000
 #define SZ_64K  0x10000
 #define SZ_128K 0x20000
 #define SZ_256K 0x40000
 #define SZ_512K 0x80000
 #define SZ_1M   0x100000
 #define SZ_2M   0x200000
 #define SZ_4M   0x400000
 #define SZ_8M   0x800000
 #define SZ_16M  0x1000000
 #define SZ_32M  0x2000000
 #define SZ_64M  0x4000000
 #define SZ_128M 0x8000000
 #define SZ_256M 0x10000000
 #define SZ_512M 0x20000000
 #define SZ_1G   0x40000000
 #define SZ_2G   0x80000000
 #define SZ_PAGE SZ_4K
 /* Macros */
 #define ALWAYS_INLINE inline __attribute__((always_inline))
 #define ALIGN(x, a) (((x) + (a) - 1) & ~((a) - 1))
 #define ALIGN_DOWN(x, a) ((x) & ~((a) - 1))
 #define BIT(n) (1U << (n))
 #define MAX(a, b) ((a) > (b) ? (a) : (b))
 #define MIN(a, b) ((a) < (b) ? (a) : (b))
 #define DIV_ROUND_UP(a, b) ((a + b - 1) / b)
 #define ARRAY_SIZE(x) (sizeof(x) / sizeof(*(x)))
 #define LOG2(n) (32 - __builtin_clz(n) - 1)
 #define CLZ(n) __builtin_clz(n)
 #define CLO(n) __builtin_clz(~n)
 #define OFFSET_OF(t, m) ((uptr)&((t *)NULL)->m)
 #define CONTAINER_OF(mp, t, mn) ((t *)((uptr)mp - OFFSET_OF(t, mn)))
 #define byte_swap_16(num) ((((num) >> 8) & 0xff) | (((num) << 8) & 0xff00))
 #define byte_swap_32(num) ((((num) >> 24) & 0xff) | (((num) << 8) & 0xff0000) | \
 						(((num) >> 8 )& 0xff00) | (((num) << 24) & 0xff000000))
 /* Bootloader/Nyx */
 #define BOOT_CFG_AUTOBOOT_EN BIT(0)
 #define BOOT_CFG_FROM_LAUNCH BIT(1)
 #define BOOT_CFG_FROM_ID     BIT(2)
 #define BOOT_CFG_TO_EMUMMC   BIT(3)
 #define BOOT_CFG_SEPT_RUN    BIT(7)
-#define EXTRA_CFG_DUMP_EMUMMC BIT(0)
+#define EXTRA_CFG_KEYS    BIT(0)
 #define EXTRA_CFG_PAYLOAD BIT(1)
 #define EXTRA_CFG_MODULE  BIT(2)
 #define EXTRA_CFG_NYX_UMS    BIT(5)
 #define EXTRA_CFG_NYX_RELOAD BIT(6)
 typedef enum _nyx_ums_type
 {
 	NYX_UMS_SD_CARD = 0,
 	NYX_UMS_EMMC_BOOT0,
 	NYX_UMS_EMMC_BOOT1,
 	NYX_UMS_EMMC_GPP,
 	NYX_UMS_EMUMMC_BOOT0,
 	NYX_UMS_EMUMMC_BOOT1,
 	NYX_UMS_EMUMMC_GPP
 } nyx_ums_type;
 typedef struct __attribute__((__packed__)) _boot_cfg_t
 {
@ -100,6 +160,16 @@ typedef struct __attribute__((__packed__)) _boot_cfg_t
 	};
 } boot_cfg_t;
 static_assert(sizeof(boot_cfg_t) == 0x84, "Boot cfg storage size is wrong!");
 typedef struct __attribute__((__packed__)) _ipl_ver_meta_t
 {
 	u32 magic;
 	u32 version;
 	u16 rsvd0;
 	u16 rsvd1;
 } ipl_ver_meta_t;
 typedef struct __attribute__((__packed__)) _reloc_meta_t
 {
 	u32 start;
--- a/bdk/utils/util.c
+++ b/bdk/utils/util.c
@ -1,6 +1,7 @@
 /*
 * Copyright (c) 2018 naehrwert
-* Copyright (c) 2018 CTCaer
+* Copyright (c) 2018-2020 CTCaer
 # Copyright (c) 2022 shchmue
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
@ -30,6 +31,27 @@
 extern volatile nyx_storage_t *nyx_str;
 u8 bit_count(u32 val)
 {
 	u8 cnt = 0;
 	for (u32 i = 0; i < 32; i++)
 	{
 		if ((val >> i) & 1)
 			cnt++;
 	}
 	return cnt;
 }
 u32 bit_count_mask(u8 bits)
 {
 	u32 val = 0;
 	for (u32 i = 0; i < bits; i++)
 		val |= 1 << i;
 	return val;
 }
 u32 get_tmr_s()
 {
 	return RTC(APBDEV_RTC_SECONDS);
@ -44,7 +66,7 @@ u32 get_tmr_ms()
 u32 get_tmr_us()
 {
-	return TMR(TIMERUS_CNTR_1US); //TIMERUS_CNTR_1US
+	return TMR(TIMERUS_CNTR_1US);
 }
 void msleep(u32 ms)
@ -81,6 +103,27 @@ void exec_cfg(u32 *base, const cfg_op_t *ops, u32 num_ops)
 		base[ops[i].off] = ops[i].val;
 }
 u16 crc16_calc(const u8 *buf, u32 len)
 {
 	const u8 *p, *q;
 	u16 crc = 0x55aa;
 	static u16 table[16] = {
 		0x0000, 0xCC01, 0xD801, 0x1400, 0xF001, 0x3C00, 0x2800, 0xE401,
 		0xA001, 0x6C00, 0x7800, 0xB401, 0x5000, 0x9C01, 0x8801, 0x4400
 	};
 	q = buf + len;
 	for (p = buf; p < q; p++)
 	{
 		u8 oct = *p;
 		crc = (crc >> 4) ^ table[crc & 0xf] ^ table[(oct >> 0) & 0xf];
 		crc = (crc >> 4) ^ table[crc & 0xf] ^ table[(oct >> 4) & 0xf];
 	}
 	return crc;
 }
 u32 crc32_calc(u32 crc, const u8 *buf, u32 len)
 {
 	const u8 *p, *q;
@ -132,53 +175,58 @@ void panic(u32 val)
 		usleep(1);
 }
-void reboot_normal()
+void power_set_state(power_state_t state)
 {
 	u8 reg;
 	// Unmount and power down sd card.
 	sd_end();
 	hw_reinit_workaround(false, 0);
-	panic(0x21); // Bypass fuse programming in package1.
+	// De-initialize and power down various hardware.
 }
 void reboot_rcm()
 {
 	sd_end();
 	hw_reinit_workaround(false, 0);
 	PMC(APBDEV_PMC_SCRATCH0) = PMC_SCRATCH0_MODE_RCM;
 	PMC(APBDEV_PMC_CNTRL) |= PMC_CNTRL_MAIN_RST;
 	while (true)
 		bpmp_halt();
 }
 void reboot_full()
 {
 	sd_end();
 	hw_reinit_workaround(false, 0);
 	// Enable soft reset wake event.
 	u8 reg = i2c_recv_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_ONOFFCNFG2);
 	reg |= MAX77620_ONOFFCNFG2_SFT_RST_WK;
 	i2c_send_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_ONOFFCNFG2, reg);
 	// Do a soft reset.
 	i2c_send_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_ONOFFCNFG1, MAX77620_ONOFFCNFG1_SFT_RST);
 	while (true)
 		bpmp_halt();
 }
 void power_off()
 {
 	sd_end();
 	hw_reinit_workaround(false, 0);
 	// Stop the alarm, in case we injected and powered off too fast.
 	max77620_rtc_stop_alarm();
 	// Set power state.
 	switch (state)
 	{
 	case REBOOT_RCM:
 		PMC(APBDEV_PMC_SCRATCH0) = PMC_SCRATCH0_MODE_RCM; // Enable RCM path.
 		PMC(APBDEV_PMC_CNTRL)   |= PMC_CNTRL_MAIN_RST;    // PMC reset.
 		break;
 	case REBOOT_BYPASS_FUSES:
 		panic(0x21); // Bypass fuse programming in package1.
 		break;
 	case POWER_OFF:
 		// Initiate power down sequence and do not generate a reset (regulators retain state).
 		i2c_send_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_ONOFFCNFG1, MAX77620_ONOFFCNFG1_PWR_OFF);
 		break;
 	case POWER_OFF_RESET:
 	case POWER_OFF_REBOOT:
 	default:
 		// Enable/Disable soft reset wake event.
 		reg = i2c_recv_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_ONOFFCNFG2);
 		if (state == POWER_OFF_RESET) // Do not wake up after power off.
 			reg &= ~(MAX77620_ONOFFCNFG2_SFT_RST_WK | MAX77620_ONOFFCNFG2_WK_ALARM1 | MAX77620_ONOFFCNFG2_WK_ALARM2);
 		else // POWER_OFF_REBOOT. Wake up after power off.
 			reg |= MAX77620_ONOFFCNFG2_SFT_RST_WK;
 		i2c_send_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_ONOFFCNFG2, reg);
 		// Initiate power down sequence and generate a reset (regulators' state resets).
 		i2c_send_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_ONOFFCNFG1, MAX77620_ONOFFCNFG1_SFT_RST);
 		break;
 	}
 	while (true)
 		bpmp_halt();
 }
 void power_set_state_ex(void *param)
 {
 	power_state_t *state = (power_state_t *)param;
 	power_set_state(*state);
 }
--- a/bdk/utils/util.h
+++ b/bdk/utils/util.h
@ -1,6 +1,6 @@
 /*
 * Copyright (c) 2018 naehrwert
- * Copyright (c) 2018 CTCaer
+ * Copyright (c) 2018-2021 CTCaer
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
@ -21,11 +21,23 @@
 #include <utils/types.h>
 #include <mem/minerva.h>
 #define NYX_NEW_INFO 0x3058594E
 typedef enum
 {
 	REBOOT_RCM,          // PMC reset. Enter RCM mode.
 	REBOOT_BYPASS_FUSES, // PMC reset via watchdog. Enter Normal mode. Bypass fuse programming in package1.
 	POWER_OFF,           // Power off PMIC. Do not reset regulators.
 	POWER_OFF_RESET,     // Power off PMIC. Reset regulators.
 	POWER_OFF_REBOOT,    // Power off PMIC. Reset regulators. Power on.
 } power_state_t;
 typedef enum
 {
 	NYX_CFG_BIS  = BIT(5),
 	NYX_CFG_UMS  = BIT(6),
-	NYX_CFG_DUMP = BIT(7),
+
 	NYX_CFG_EXTRA = 0xFF << 24
 } nyx_cfg_t;
 typedef enum
@ -34,13 +46,11 @@ typedef enum
 	ERR_SYSOLD_NYX = BIT(1),
 	ERR_LIBSYS_MTC = BIT(2),
 	ERR_SD_BOOT_EN = BIT(3),
 	ERR_PANIC_CODE = BIT(4),
 	ERR_L4T_KERNEL = BIT(24),
 	ERR_EXCEPTION  = BIT(31),
 } hekate_errors_t;
 #define byte_swap_32(num) ((((num) >> 24) & 0xff) | (((num) << 8) & 0xff0000) | \
 						(((num) >> 8 )& 0xff00) | (((num) << 24) & 0xff000000))
 typedef struct _cfg_op_t
 {
 	u32 off;
@ -49,6 +59,10 @@ typedef struct _cfg_op_t
 typedef struct _nyx_info_t
 {
 	u32 magic;
 	u32 sd_init;
 	u32 sd_errors[3];
 	u8  rsvd[0x1000];
 	u32 disp_id;
 	u32 errors;
 } nyx_info_t;
@ -59,23 +73,27 @@ typedef struct _nyx_storage_t
 	u32 cfg;
 	u8  irama[0x8000];
 	u8  hekate[0x30000];
-	u8  rsvd[0x800000 - sizeof(nyx_info_t)];
+	u8  rsvd[SZ_8M - sizeof(nyx_info_t)];
 	nyx_info_t info;
 	mtc_config_t mtc_cfg;
 	emc_table_t mtc_table[10];
 } nyx_storage_t;
 u8   bit_count(u32 val);
 u32  bit_count_mask(u8 bits);
 void exec_cfg(u32 *base, const cfg_op_t *ops, u32 num_ops);
 u16  crc16_calc(const u8 *buf, u32 len);
 u32  crc32_calc(u32 crc, const u8 *buf, u32 len);
 u32  get_tmr_us();
 u32  get_tmr_ms();
 u32  get_tmr_s();
 void usleep(u32 us);
 void msleep(u32 ms);
 void panic(u32 val);
-void reboot_normal();
+void power_set_state(power_state_t state);
-void reboot_rcm();
+void power_set_state_ex(void *param);
 void reboot_full();
 void power_off();
 void exec_cfg(u32 *base, const cfg_op_t *ops, u32 num_ops);
 u32  crc32_calc(u32 crc, const u8 *buf, u32 len);
 #endif
--- a/keygen/tsec_keygen
+++ b/keygen/tsec_keygen
--- a/loader/Makefile
+++ b/loader/Makefile
@ -0,0 +1,65 @@
 ifeq ($(strip $(DEVKITARM)),)
 $(error "Please set DEVKITARM in your environment. export DEVKITARM=<path to>devkitARM")
 endif
 include $(DEVKITARM)/base_rules
 ################################################################################
 LDR_LOAD_ADDR := 0x40007000
 MAGIC := 0x4B434F4C #"LOCK"
 include ../Versions.inc
 ################################################################################
 TARGET := loader
 BUILDDIR := ../build
 OUTPUTDIR := ../output
 BDKDIR := bdk
 BDKINC := -I../$(BDKDIR)
 VPATH += $(dir $(wildcard ../$(BDKDIR)/*/)) $(dir $(wildcard ../$(BDKDIR)/*/*/))
 # Main and graphics.
 OBJS = $(addprefix $(BUILDDIR)/$(TARGET)/, \
 	start.o loader.o lz.o \
 )
 ################################################################################
 CUSTOMDEFINES := -DLP_MAGIC=$(MAGIC)
 CUSTOMDEFINES += -DLP_VER_MJ=$(LPVERSION_MAJOR) -DLP_VER_MN=$(LPVERSION_MINOR) -DLP_VER_BF=$(LPVERSION_BUGFX) -DLP_RESERVED=$(LPVERSION_RSVD)
 #TODO: Considering reinstating some of these when pointer warnings have been fixed.
 WARNINGS := -Wall -Wno-array-bounds -Wno-stringop-overflow
 ARCH := -march=armv4t -mtune=arm7tdmi -mthumb-interwork
 CFLAGS = $(ARCH) -O2 -g -nostdlib -ffunction-sections -fdata-sections -fomit-frame-pointer -std=gnu11 $(WARNINGS) $(CUSTOMDEFINES)
 LDFLAGS = $(ARCH) -nostartfiles -lgcc -Wl,--nmagic,--gc-sections -Xlinker --defsym=LDR_LOAD_ADDR=$(LDR_LOAD_ADDR)
 ################################################################################
 .PHONY: all clean
 all: $(TARGET).bin $(TOOLSLZ) $(TOOLSB2C)
 clean:
 	@rm -rf $(OBJS)
 $(TARGET).bin: $(BUILDDIR)/$(TARGET)/$(TARGET).elf
 	$(OBJCOPY) -S -O binary $< $(OUTPUTDIR)/$(PAYLOAD_NAME).bin
 $(BUILDDIR)/$(TARGET)/$(TARGET).elf: $(OBJS)
 	@$(CC) $(LDFLAGS) -T link.ld $^ -o $@
 $(BUILDDIR)/$(TARGET)/%.o: %.c
 	@$(CC) $(CFLAGS) $(BDKINC) -c $< -o $@
 $(BUILDDIR)/$(TARGET)/%.o: %.S
 	@$(CC) $(CFLAGS) -c $< -o $@
 $(OBJS): $(BUILDDIR)/$(TARGET)
 $(BUILDDIR)/$(TARGET):
 	@mkdir -p "$(BUILDDIR)"
 	@mkdir -p "$(BUILDDIR)/$(TARGET)"
 	@mkdir -p "$(OUTPUTDIR)"
--- a/loader/link.ld
+++ b/loader/link.ld
@ -0,0 +1,21 @@
 ENTRY(_start)
 SECTIONS {
 	PROVIDE(__ipl_start = LDR_LOAD_ADDR);
 	. = __ipl_start;
 	.text : {
 		*(.text._start);
 		KEEP(*(._boot_cfg));
 		KEEP(*(._ipl_version));
 		*(.text*);
 	}
 	.data : {
 		*(.data*);
 		*(.rodata*);
 		*(._payload_00);
 		*(._payload_01);
 	}
 	__ldr_end = .;
 	. = ALIGN(0x10);
 	__ipl_end = .;
 }
--- a/loader/loader.c
+++ b/loader/loader.c
@ -0,0 +1,87 @@
 /*
 * Copyright (c) 2019 CTCaer
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
 * version 2, as published by the Free Software Foundation.
 *
 * This program is distributed in the hope 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 <http://www.gnu.org/licenses/>.
 */
 #include <string.h>
 #include <stdlib.h>
 #include "payload_00.h"
 #include "payload_01.h"
 #include <memory_map.h>
 #include <libs/compr/lz.h>
 #include <soc/clock.h>
 #include <soc/t210.h>
 // 0x4003D000: Safe for panic preserving, 0x40038000: Safe for debugging needs.
 #define IPL_RELOC_TOP  0x40038000
 #define IPL_PATCHED_RELOC_SZ 0x94
 boot_cfg_t __attribute__((section ("._boot_cfg"))) b_cfg;
 const volatile ipl_ver_meta_t __attribute__((section ("._ipl_version"))) ipl_ver = {
 	.magic = LP_MAGIC,
 	.version = (LP_VER_MJ + '0') | ((LP_VER_MN + '0') << 8) | ((LP_VER_BF + '0') << 16),
 	.rsvd0 = 0,
 	.rsvd1 = 0
 };
 void loader_main()
 {
 	// Preliminary BPMP clocks init.
 	CLOCK(CLK_RST_CONTROLLER_CLK_SYSTEM_RATE) = 0x10;          // Set HCLK div to 2 and PCLK div to 1.
 	CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_SYS) = 0;              // Set SCLK div to 1.
 	CLOCK(CLK_RST_CONTROLLER_SCLK_BURST_POLICY) = 0x20004444;  // Set clk source to Run and PLLP_OUT2 (204MHz).
 	CLOCK(CLK_RST_CONTROLLER_SUPER_SCLK_DIVIDER) = 0x80000000; // Enable SUPER_SDIV to 1.
 	CLOCK(CLK_RST_CONTROLLER_CLK_SYSTEM_RATE) = 2;             // Set HCLK div to 1 and PCLK div to 3.
 	CLOCK(CLK_RST_CONTROLLER_SCLK_BURST_POLICY) = 0x20003333;  // Set SCLK to PLLP_OUT (408MHz).
 	// Get Loader and Payload size.
 	u32 payload_size = sizeof(payload_00) + sizeof(payload_01);             // Actual payload size.
 	payload_size += (u32)payload_01 - (u32)payload_00 - sizeof(payload_00); // Add array alignment.
 	u32 *payload_addr = (u32 *)payload_00;
 	// Relocate payload to a safer place.
 	u32 bytes = ALIGN(payload_size, 4) >> 2;
 	u32 *addr = payload_addr + bytes - 1;
 	u32 *dst = (u32 *)(IPL_RELOC_TOP - 4);
 	while (bytes)
 	{
 		*dst = *addr;
 		dst--;
 		addr--;
 		bytes--;
 	}
 	// Set source address of the first part.
 	u8 *src_addr = (void *)(IPL_RELOC_TOP - ALIGN(payload_size, 4));
 	// Uncompress first part.
 	u32 dst_pos = LZ_Uncompress((const u8 *)src_addr, (u8*)IPL_LOAD_ADDR, sizeof(payload_00));
 	// Set source address of the second part. Includes array alignment.
 	src_addr += (u32)payload_01 - (u32)payload_00;
 	// Uncompress second part.
 	LZ_Uncompress((const u8 *)src_addr, (u8*)IPL_LOAD_ADDR + dst_pos, sizeof(payload_01));
 	// Copy over boot configuration storage.
 	memcpy((u8 *)(IPL_LOAD_ADDR + IPL_PATCHED_RELOC_SZ), &b_cfg, sizeof(boot_cfg_t));
 	// Chainload into uncompressed payload.
 	void (*ipl_ptr)() = (void *)IPL_LOAD_ADDR;
 	(*ipl_ptr)();
 	// Halt if we managed to get out of execution.
 	while (true)
 		;
 }
--- a/loader/start.S
+++ b/loader/start.S
@ -0,0 +1,73 @@
 /*
 * Copyright (c) 2018 naehrwert
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
 * version 2, as published by the Free Software Foundation.
 *
 * This program is distributed in the hope 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 <http://www.gnu.org/licenses/>.
 */
 .section .text._start
 .arm
 .extern _reloc_ipl
 .type _reloc_ipl, %function
 .extern memset
 .type memset, %function
 .extern loader_main
 .type loader_main, %function
 .globl _start
 .type _start, %function
 _start:
 	ADR R0, _start
 	LDR R1, =__ipl_start
 	CMP R0, R1
 	BEQ _real_start
 	/* If we are not in the right location already, copy a relocator to upper IRAM. */
 	ADR R2, _reloc_ipl
 	LDR R3, =0x4003FF00
 	MOV R4, #(_real_start - _reloc_ipl)
 _copy_loop:
 	LDMIA R2!, {R5}
 	STMIA R3!, {R5}
 	SUBS R4, #4
 	BNE _copy_loop
 	/* Use the relocator to copy ourselves into the right place. */
 	LDR R2, =__ipl_end
 	SUB R2, R2, R1
 	LDR R3, =_real_start
 	LDR R4, =0x4003FF00
 	BX R4
 _reloc_ipl:
 	LDMIA R0!, {R4-R7}
 	STMIA R1!, {R4-R7}
 	SUBS R2, #0x10
 	BNE _reloc_ipl
 	/* Jump to the relocated entry. */
 	BX R3
 _real_start:
 	/* Initially, we place our stack in IRAM but will move it to SDRAM later. */
 	LDR SP, =0x40007000
 	LDR R0, =__ldr_end
 	BL loader_main
 	B .
 	.word 0
 	.word 0
 	.word 0
 	.word 0
 	.word 0
 	.word 0
--- a/source/config.c
+++ b/source/config.c
@ -38,19 +38,14 @@ void set_default_configuration()
 	h_cfg.autoboot = 0;
 	h_cfg.autoboot_list = 0;
 	h_cfg.bootwait = 3;
 	h_cfg.se_keygen_done = 0;
 	h_cfg.backlight = 100;
 	h_cfg.autohosoff = 0;
 	h_cfg.autonogc = 1;
 	h_cfg.updater2p = 0;
 	h_cfg.bootprotect = 0;
 	h_cfg.errors = 0;
 	h_cfg.eks = NULL;
 	h_cfg.sept_run = EMC(EMC_SCRATCH0) & EMC_SEPT_RUN;
 	h_cfg.aes_slots_new = false;
 	h_cfg.rcm_patched = fuse_check_patched_rcm();
 	h_cfg.emummc_force_disable = false;
 	h_cfg.t210b01 = hw_get_chip_id() == GP_HIDREV_MAJOR_T210B01;
 	sd_power_cycle_time_start = 0;
 }
--- a/source/config.h
+++ b/source/config.h
@ -17,7 +17,6 @@
 #ifndef _CONFIG_H_
 #define _CONFIG_H_
 #include "hos/hos.h"
 #include <utils/types.h>
 typedef struct _hekate_config
@ -33,13 +32,10 @@ typedef struct _hekate_config
 	u32 bootprotect;
 	// Global temporary config.
 	bool t210b01;
 	bool se_keygen_done;
 	bool sept_run;
 	bool aes_slots_new;
 	bool emummc_force_disable;
 	bool rcm_patched;
 	u32  errors;
 	hos_eks_mbr_t *eks;
 } hekate_config;
 void set_default_configuration();
--- a/source/frontend/gui.c
+++ b/source/frontend/gui.c
@ -0,0 +1,99 @@
 /*
 * Copyright (c) 2018-2021 CTCaer
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
 * version 2, as published by the Free Software Foundation.
 *
 * This program is distributed in the hope 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 <http://www.gnu.org/licenses/>.
 */
 #include "../gfx/gfx.h"
 #include <mem/heap.h>
 #include <rtc/max77620-rtc.h>
 #include <storage/nx_sd.h>
 #include <utils/util.h>
 #include <string.h>
 int save_fb_to_bmp()
 {
 	// Disallow screenshots if less than 2s passed.
 	static u32 timer = 0;
 	if (get_tmr_ms() < timer)
 		return 1;
 	const u32 file_size = 0x384000 + 0x36;
 	u8 *bitmap = malloc(file_size);
 	u32 *fb = malloc(0x384000);
 	u32 *fb_ptr = gfx_ctxt.fb;
 	// Reconstruct FB for bottom-top, portrait bmp.
 	for (int y = 1279; y > -1; y--)
 	{
 		for (u32 x = 0; x < 720; x++)
 			fb[y * 720 + x] = *fb_ptr++;
 	}
 	memcpy(bitmap + 0x36, fb, 0x384000);
 	typedef struct _bmp_t
 	{
 		u16 magic;
 		u32 size;
 		u32 rsvd;
 		u32 data_off;
 		u32 hdr_size;
 		u32 width;
 		u32 height;
 		u16 planes;
 		u16 pxl_bits;
 		u32 comp;
 		u32 img_size;
 		u32 res_h;
 		u32 res_v;
 		u64 rsvd2;
 	} __attribute__((packed)) bmp_t;
 	bmp_t *bmp = (bmp_t *)bitmap;
 	bmp->magic    = 0x4D42;
 	bmp->size     = file_size;
 	bmp->rsvd     = 0;
 	bmp->data_off = 0x36;
 	bmp->hdr_size = 40;
 	bmp->width    = 720;
 	bmp->height   = 1280;
 	bmp->planes   = 1;
 	bmp->pxl_bits = 32;
 	bmp->comp     = 0;
 	bmp->img_size = 0x384000;
 	bmp->res_h    = 2834;
 	bmp->res_v    = 2834;
 	bmp->rsvd2    = 0;
 	sd_mount();
 	f_mkdir("sd:/switch");
 	char path[0x80] = "sd:/switch/lockpick_rcm.bmp";
 	// Save screenshot and log.
 	int res = sd_save_to_file(bitmap, file_size, path);
 	// sd_unmount();
 	free(bitmap);
 	free(fb);
 	// Set timer to 2s.
 	timer = get_tmr_ms() + 2000;
    return res;
 }
--- a/source/frontend/gui.h
+++ b/source/frontend/gui.h
@ -1,5 +1,5 @@
 /*
- * Copyright (c) 2019 CTCaer
+ * Copyright (c) 2018-2021 CTCaer
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
@ -14,21 +14,4 @@
 * along with this program.  If not, see <http://www.gnu.org/licenses/>.
 */
-#ifndef _FSS_H_
+int save_fb_to_bmp();
 #define _FSS_H_
 #include "hos.h"
 typedef struct _fss0_sept_t
 {
 	u32 kb;
 	ini_sec_t *cfg_sec;
 	void *sept_primary;
 	void *sept_secondary;
 } fss0_sept_t;
 int parse_fss(launch_ctxt_t *ctxt, const char *path, fss0_sept_t *sept_ctxt);
 int load_sept_from_ffs0(fss0_sept_t *sept_ctxt);
 #endif
--- a/source/gfx/gfx.c
+++ b/source/gfx/gfx.c
@ -1,7 +1,7 @@
 /*
 * Copyright (c) 2018 naehrwert
- * Copyright (c) 2018-2020 CTCaer
+ * Copyright (c) 2018-2021 CTCaer
- * Copyright (c) 2019-2020 shchmue
+ * Copyright (c) 2019-2021 shchmue
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
@ -24,6 +24,8 @@
 gfx_ctxt_t gfx_ctxt;
 gfx_con_t gfx_con;
 static bool gfx_con_init_done = false;
 static const u8 _gfx_font[] = {
 	0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, // Char 032 ( )
 	0x00, 0x30, 0x30, 0x18, 0x18, 0x00, 0x0C, 0x00, // Char 033 (!)
@ -158,6 +160,8 @@ void gfx_con_init()
 	gfx_con.fillbg = 1;
 	gfx_con.bgcol = 0xFF1B1B1B;
 	gfx_con.mute = 0;
 	gfx_con_init_done = true;
 }
 void gfx_con_setcol(u32 fgcol, int fillbg, u32 bgcol)
@ -220,7 +224,7 @@ void gfx_putc(char c)
 				cbuf++;
 			}
 			gfx_con.x += 16;
-			if (gfx_con.x >= gfx_ctxt.width - 16)
+			if (gfx_con.x > gfx_ctxt.width - 16)
 			{
 				gfx_con.x = 0;
 				gfx_con.y += 16;
@ -255,7 +259,7 @@ void gfx_putc(char c)
 				fb += gfx_ctxt.stride - 8;
 			}
 			gfx_con.x += 8;
-			if (gfx_con.x >= gfx_ctxt.width - 8)
+			if (gfx_con.x > gfx_ctxt.width - 8)
 			{
 				gfx_con.x = 0;
 				gfx_con.y += 8;
@ -274,7 +278,7 @@ void gfx_putc(char c)
 void gfx_puts(const char *s)
 {
-	if (!s || gfx_con.mute)
+	if (!s || !gfx_con_init_done || gfx_con.mute)
 		return;
 	for (; *s; s++)
@ -330,7 +334,7 @@ void gfx_put_big_sep()
 void gfx_printf(const char *fmt, ...)
 {
-	if (gfx_con.mute)
+	if (!gfx_con_init_done || gfx_con.mute)
 		return;
 	va_list ap;
@ -404,11 +408,13 @@ void gfx_printf(const char *fmt, ...)
 	va_end(ap);
 }
-void gfx_hexdump(u32 base, const u8 *buf, u32 len)
+void gfx_hexdump(u32 base, const void *buf, u32 len)
 {
-	if (gfx_con.mute)
+	if (!gfx_con_init_done || gfx_con.mute)
 		return;
 	u8 *buff = (u8 *)buf;
 	u8 prevFontSize = gfx_con.fntsz;
 	gfx_con.fntsz = 8;
 	for(u32 i = 0; i < len; i++)
@ -420,7 +426,7 @@ void gfx_hexdump(u32 base, const u8 *buf, u32 len)
 				gfx_puts("| ");
 				for(u32 j = 0; j < 0x10; j++)
 				{
-					u8 c = buf[i - 0x10 + j];
+					u8 c = buff[i - 0x10 + j];
 					if(c >= 32 && c <= 126)
 						gfx_putc(c);
 					else
@ -430,7 +436,7 @@ void gfx_hexdump(u32 base, const u8 *buf, u32 len)
 			}
 			gfx_printf("%08x: ", base + i);
 		}
-		gfx_printf("%02x ", buf[i]);
+		gfx_printf("%02x ", buff[i]);
 		if (i == len - 1)
 		{
 			int ln = len % 0x10 != 0;
@ -444,7 +450,7 @@ void gfx_hexdump(u32 base, const u8 *buf, u32 len)
 			gfx_puts("| ");
 			for(u32 j = 0; j < (ln ? k : k + 1); j++)
 			{
-				u8 c = buf[i - k + j];
+				u8 c = buff[i - k + j];
 				if(c >= 32 && c <= 126)
 					gfx_putc(c);
 				else
@ -457,12 +463,15 @@ void gfx_hexdump(u32 base, const u8 *buf, u32 len)
 	gfx_con.fntsz = prevFontSize;
 }
-void gfx_hexdiff(u32 base, const u8 *buf1, const u8 *buf2, u32 len)
+void gfx_hexdiff(u32 base, const void *buf1, const void *buf2, u32 len)
 {
-	if (gfx_con.mute)
+	if (!gfx_con_init_done || gfx_con.mute)
 		return;
-	if (memcmp(buf1, buf2, len) == 0)
+	u8 *buff1 = (u8 *)buf1;
 	u8 *buff2 = (u8 *)buf2;
 	if (memcmp(buff1, buff2, len) == 0)
 	{
 		gfx_printf("Diff: No differences found.\n");
 		return;
@ -473,14 +482,14 @@ void gfx_hexdiff(u32 base, const u8 *buf1, const u8 *buf2, u32 len)
 	for(u32 i = 0; i < len; i+=0x10)
 	{
 		u32 bytes_left = len - i < 0x10 ? len - i : 0x10;
-		if (memcmp(buf1 + i, buf2 + i, bytes_left) == 0)
+		if (memcmp(buff1 + i, buff2 + i, bytes_left) == 0)
 			continue;
 		gfx_printf("Diff 1: %08x: ", base + i);
 		for (u32 j = 0; j < bytes_left; j++)
 		{
-			if (buf1[i+j] != buf2[i+j])
+			if (buff1[i+j] != buff2[i+j])
 				gfx_con.fgcol = COLOR_ORANGE;
-			gfx_printf("%02x ", buf1[i+j]);
+			gfx_printf("%02x ", buff1[i+j]);
 			gfx_con.fgcol = 0xFFCCCCCC;
 		}
 		gfx_puts("| ");
@ -488,9 +497,9 @@ void gfx_hexdiff(u32 base, const u8 *buf1, const u8 *buf2, u32 len)
 		gfx_printf("Diff 2: %08x: ", base + i);
 		for (u32 j = 0; j < bytes_left; j++)
 		{
-			if (buf1[i+j] != buf2[i+j])
+			if (buff1[i+j] != buff2[i+j])
 				gfx_con.fgcol = COLOR_ORANGE;
-			gfx_printf("%02x ", buf2[i+j]);
+			gfx_printf("%02x ", buff2[i+j]);
 			gfx_con.fgcol = 0xFFCCCCCC;
 		}
 		gfx_puts("| ");
--- a/source/gfx/gfx.h
+++ b/source/gfx/gfx.h
@ -1,6 +1,7 @@
 /*
 * Copyright (c) 2018 naehrwert
- * Copyright (c) 2018-2020 CTCaer
+ * Copyright (c) 2018-2021 CTCaer
 * Copyright (c) 2019-2021 shchmue
 * Copyright (c) 2018 M4xw
 *
 * This program is free software; you can redistribute it and/or modify it
@ -63,8 +64,8 @@ void gfx_con_setpos(u32 x, u32 y);
 void gfx_putc(char c);
 void gfx_puts(const char *s);
 void gfx_printf(const char *fmt, ...);
-void gfx_hexdump(u32 base, const u8 *buf, u32 len);
+void gfx_hexdump(u32 base, const void *buf, u32 len);
-void gfx_hexdiff(u32 base, const u8 *buf1, const u8 *buf2, u32 len);
+void gfx_hexdiff(u32 base, const void *buf1, const void *buf2, u32 len);
 void gfx_set_pixel(u32 x, u32 y, u32 color);
 void gfx_line(int x0, int y0, int x1, int y1, u32 color);
--- a/Show More
+++ b/Show More
Author	SHA1	Message	Date
hax4dazy	7cc615a59f	Updating LockPick to support firmware version 18.0.0. Thanks to @Decscots on GitHub	2024-03-28 15:13:21 +01:00
hax4dazy	7f7c3a2628	Updating lockpick to work with 17.0.0	2023-10-11 17:31:37 +02:00
shchmue	d625847124	Bump version to v1.9.10	2023-02-22 16:18:38 -08:00
shchmue	fe7480fdd1	Merge pull request #87 from FlyingBananaTree/master Support 16.0.0 keys	2023-02-22 16:05:22 -08:00
FlyingBananaTree	b5be83652c	Support 16.0.0 keys	2023-02-21 23:10:17 +00:00
shchmue	fb6b966bd6	Bump version to v1.9.9	2022-11-06 17:59:36 -08:00
shchmue	ffea336ecc	keys: Use SE size definitions	2022-11-05 16:47:21 -07:00
shchmue	43be4ef19f	keys: Make more readability tweaks	2022-11-05 16:40:15 -07:00
shchmue	dcf4bca30c	keys: Move RSA functions out of keys.c	2022-11-05 15:41:16 -07:00
shchmue	1b2c829ca0	keys: Fix hex prefix capitalization	2022-11-05 14:40:33 -07:00
shchmue	dd41e3fee8	keys: Split crypto functions by sysmodule	2022-11-05 14:39:02 -07:00
shchmue	c7d90ec8ca	Further improve readability	2022-11-02 18:36:39 -07:00
shchmue	cc4f8bf1f6	keys: Move more logic out of keys.c	2022-10-31 21:46:38 -07:00
shchmue	cbab1ec5b0	keys: Make code more readable	2022-10-31 20:20:13 -07:00
shchmue	ab9322af53	Update copyright notice years	2022-10-29 15:52:42 -07:00
shchmue	8207aaa66e	keys: Name keyslots, use more apt SSL key name	2022-10-29 15:43:17 -07:00
shchmue	e8d66f318d	keys: Refactor key crypto, fix SSL key dumping	2022-10-29 15:11:13 -07:00
shchmue	5768fba4a7	Merge pull request #77 from dezem/master Support 15.0.0 keys	2022-10-11 17:02:24 -07:00
dezem	7a4a99c008	Add support firmware 15.0.0	2022-10-12 00:02:39 +02:00
shchmue	58eb5f6dd2	Suport personalized SSL kek, dump SSL private key	2022-05-18 08:09:52 -06:00
shchmue	815bb55f64	Bump version to v1.9.8	2022-04-02 09:47:29 -06:00
shchmue	85e56adbf5	keys: Add ETicket RSA keypair to keyfile	2022-04-02 09:45:14 -06:00
shchmue	065ba8bc11	Add Amiibo key dump support	2022-03-31 18:30:57 -06:00
shchmue	5f35c8396d	keys: Move master key derivation into own function	2022-03-31 13:58:26 -06:00
shchmue	582bc91605	Move Mariko partial key dump to main menu	2022-03-31 12:28:32 -06:00
shchmue	c704d0a6e6	Bump version to v1.9.7	2022-03-21 19:03:56 -06:00
shchmue	61c1dad579	Support 14.0.0 keys	2022-03-21 19:03:17 -06:00
shchmue	54412f5a9d	keys: Add helper func for eticket rsa kek	2022-02-10 08:45:06 -07:00
shchmue	514343db9b	keys: Handle legacy ES key generation	2022-02-10 08:22:36 -07:00
shchmue	b2d970ed2a	keys: Fix failure to set device key for BIS deriv	2022-02-09 13:50:17 -07:00
shchmue	64a6491309	keys: Use accurate logic for eticket keypair read	2022-02-09 10:54:01 -07:00
shchmue	54ed439cce	Use size abbreviations	2022-02-09 10:52:21 -07:00
shchmue	e4661f035b	Update to hekate bdk 5.6.5	2021-11-30 11:39:35 -07:00
shchmue	1c0fdd6e8e	main: Remove unused boot config setting	2021-11-30 11:38:59 -07:00
shchmue	070e085036	Bump version to v1.9.6	2021-09-19 14:47:24 -06:00
shchmue	3edae524cd	Update to hekate bdk 5.6.1	2021-09-19 14:26:22 -06:00
shchmue	a1f476eb0d	Correct capitalization of hekate	2021-09-19 14:09:56 -06:00
shchmue	69f8c8f339	Ensure SD mounted before reboot to hekate	2021-09-16 09:20:59 -06:00
shchmue	4e5c9f1e85	Bump version to v1.9.5	2021-09-15 18:01:06 -06:00
shchmue	0f08725e8a	Add reboot to Hekate option in main menu	2021-09-15 18:00:03 -06:00
shchmue	229bc3cb44	Add embedded payload version	2021-09-15 17:46:14 -06:00
shchmue	7e7e6fa148	Support 13.0.0 keys	2021-09-15 17:15:12 -06:00
shchmue	a5fadfb592	Add screenshot option after key dump	2021-09-05 16:21:09 -06:00
shchmue	168d8dea2f	Add more verbose errors to partial key dump	2021-09-05 16:15:59 -06:00
shchmue	c1436648df	Lower RAM speed while not doing keygen	2021-09-05 14:08:35 -06:00
shchmue	8fa8941cd2	Fix plural name of bis_key_source in key file	2021-08-30 21:33:26 -06:00
shchmue	e041330ed9	Retry tsec keygen on failure	2021-08-30 21:32:57 -06:00
shchmue	705bb7c066	Do not require MMC mount to dump keys	2021-08-29 09:49:36 -06:00
shchmue	faaf2166e9	Only save one key set on Mariko, save master_keks	2021-08-29 09:22:34 -06:00
shchmue	2a8184960a	Bump version to v1.9.4	2021-08-28 15:29:17 -06:00
shchmue	8377cf0c18	Remove all pkg1 code and key generation display	2021-08-28 15:28:29 -06:00
shchmue	f2f3c5daf0	Update to hekate bdk 5.6.0	2021-08-28 14:10:33 -06:00
shchmue	a89e9b4d7f	Support dev key dumping on all consoles	2021-08-28 12:35:26 -06:00
shchmue	38fff7127b	Use Atmosphere keygen, deprecate sept support	2021-08-24 17:44:25 -06:00
shchmue	d84ab5796a	Validate mariko keyslot contents; dump class keys	2021-08-21 16:02:19 -06:00
shchmue	fe17b12ea7	keys: Add missing master_kek_source	2021-07-12 19:51:34 -06:00
shchmue	e9568a8625	keys: Add keyslot access check	2021-07-11 15:23:43 -06:00
shchmue	d8ba2c8c94	keys: Use skb_set value	2021-07-11 15:00:34 -06:00
shchmue	db453b961b	Always derive latest master key on mariko hw	2021-07-11 12:58:43 -06:00
shchmue	b62b42e304	Bump version to v1.9.3	2021-07-06 11:32:01 -06:00
shchmue	75dede5b76	hos: Update KB version	2021-07-06 11:17:35 -06:00
shchmue	9110d8d405	12.1.0 and agnostic support until next key change	2021-07-06 11:14:55 -06:00
shchmue	433f989b4f	Bump version to v1.9.2	2021-05-12 17:28:29 -06:00
shchmue	dd07af27df	tui: Bring back status bar	2021-05-12 17:26:10 -06:00
shchmue	92a23d9055	loader: Trim unneeded data	2021-05-12 17:25:55 -06:00
shchmue	918b00ce07	Implement payload compression	2021-05-12 16:47:06 -06:00
shchmue	a7712b173c	Update to hekate bdk 5.5.6	2021-05-12 15:38:34 -06:00
shchmue	93909f149e	pkg1: Recognize 12.0.2	2021-05-12 10:33:56 -06:00
shchmue	7defba226a	Bump version to v1.9.1	2021-04-06 16:45:21 -06:00
shchmue	dd3add9327	pkg1: Recognize 12.0.0	2021-04-06 16:44:08 -06:00
shchmue	20c0df3715	Validate pkg1_identify result for main menu	2021-04-06 16:43:44 -06:00
shchmue	b3f6e055b2	Reconfigure messages to conserve payload size	2021-01-05 15:38:53 -07:00
shchmue	b77d42e8e3	keys: Dump partial AES keys even if 0 titlekeys	2021-01-05 15:24:54 -07:00
shchmue	557aa84e2c	Merge from dev	2020-12-10 18:17:32 -07:00
shchmue	e4714995fa	Bump version to v1.8.5	2020-12-05 16:07:58 -07:00