diff --git a/arch/arm/dts/Makefile b/arch/arm/dts/Makefile index 1f2636e745..44460a31dc 100644 --- a/arch/arm/dts/Makefile +++ b/arch/arm/dts/Makefile @@ -462,6 +462,7 @@ dtb-$(CONFIG_ARCH_IMX8M) += fsl-imx8mq-evk.dtb \ fsl-imx8mq-ddr3l-arm2.dtb \ fsl-imx8mq-ddr4-arm2.dtb \ fsl-imx8mq-phanbell.dtb \ + fsl-imx8mm-ddr4-evk.dtb \ fsl-imx8mm-ddr4-val.dtb \ fsl-imx8mm-evk.dtb diff --git a/arch/arm/dts/fsl-imx8mm-ddr4-evk.dts b/arch/arm/dts/fsl-imx8mm-ddr4-evk.dts new file mode 100644 index 0000000000..1b2e9f92b2 --- /dev/null +++ b/arch/arm/dts/fsl-imx8mm-ddr4-evk.dts @@ -0,0 +1,18 @@ +// SPDX-License-Identifier: GPL-2.0+ + /* + * Copyright 2018 NXP + */ + +#include "fsl-imx8mm-evk.dts" + +/ { + model = "FSL i.MX8MM DDR4 EVK board"; +}; + +&usdhc3 { + status = "disabled"; +}; + +&flexspi0{ + status = "disabled"; +}; diff --git a/arch/arm/mach-imx/imx8m/Kconfig b/arch/arm/mach-imx/imx8m/Kconfig index 663884e900..94489edd84 100644 --- a/arch/arm/mach-imx/imx8m/Kconfig +++ b/arch/arm/mach-imx/imx8m/Kconfig @@ -48,6 +48,11 @@ config TARGET_IMX8MM_EVK select SUPPORT_SPL select IMX8M_LPDDR4 +config TARGET_IMX8MM_DDR4_EVK + bool "imx8mm validation board" + select IMX8MM + select SUPPORT_SPL + endchoice config SYS_SOC diff --git a/board/freescale/imx8mm_evk/Kconfig b/board/freescale/imx8mm_evk/Kconfig index ec3c81ec93..88949d7bab 100644 --- a/board/freescale/imx8mm_evk/Kconfig +++ b/board/freescale/imx8mm_evk/Kconfig @@ -1,4 +1,4 @@ -if TARGET_IMX8MM_EVK +if TARGET_IMX8MM_EVK || TARGET_IMX8MM_DDR4_EVK config SYS_BOARD default "imx8mm_evk" diff --git a/board/freescale/imx8mm_evk/Makefile b/board/freescale/imx8mm_evk/Makefile index 237be25c52..fe5bfb7e70 100644 --- a/board/freescale/imx8mm_evk/Makefile +++ b/board/freescale/imx8mm_evk/Makefile @@ -8,5 +8,9 @@ obj-y += imx8mm_evk.o ifdef CONFIG_SPL_BUILD obj-y += spl.o +ifdef CONFIG_IMX8M_LPDDR4 obj-y += lpddr4_timing.o +else +obj-y += ddr/ +endif endif diff --git a/board/freescale/imx8mm_evk/ddr/Makefile b/board/freescale/imx8mm_evk/ddr/Makefile new file mode 100644 index 0000000000..db2a859ae8 --- /dev/null +++ b/board/freescale/imx8mm_evk/ddr/Makefile @@ -0,0 +1,11 @@ +# +# Copyright 2018 NXP +# +# SPDX-License-Identifier: GPL-2.0+ +# + +ifdef CONFIG_SPL_BUILD +obj-y += helper.o +obj-y += wait_ddrphy_training_complete.o +obj-$(CONFIG_TARGET_IMX8MM_DDR4_EVK) += ddr4/ +endif diff --git a/board/freescale/imx8mm_evk/ddr/ddr.h b/board/freescale/imx8mm_evk/ddr/ddr.h new file mode 100644 index 0000000000..b0e8ab5c7e --- /dev/null +++ b/board/freescale/imx8mm_evk/ddr/ddr.h @@ -0,0 +1,59 @@ +/* + * Copyright 2018 NXP + * + * SPDX-License-Identifier: GPL-2.0+ + * Common file for ddr code + */ + +#ifndef __M845S_DDR_H_ +#define __M845S_DDR_H_ + +#ifdef DDR_DEBUG +#define ddr_dbg(fmt, ...) printf("DDR: debug:" fmt "\n", ##__VA_ARGS__) +#else +#define ddr_dbg(fmt, ...) +#endif + +/******************************************************************* + Desc: user data type + + *******************************************************************/ +enum fw_type { + FW_1D_IMAGE, + FW_2D_IMAGE, +}; +/******************************************************************* + Desc: prototype + + *******************************************************************/ +void ddr_init(void); +void ddr_load_train_code(enum fw_type type); +void wait_ddrphy_training_complete(void); +void dwc_ddrphy_phyinit_userCustom_E_setDfiClk(unsigned int pstate); +void dwc_ddrphy_phyinit_userCustom_J_enterMissionMode(void); +void dwc_ddrphy_phyinit_userCustom_customPostTrain(void); +void dwc_ddrphy_phyinit_userCustom_B_startClockResetPhy(void); +void dwc_ddrphy_phyinit_userCustom_A_bringupPower(void); +void dwc_ddrphy_phyinit_userCustom_overrideUserInput(void); +void dwc_ddrphy_phyinit_userCustom_H_readMsgBlock(unsigned int run_2D); +void dwc_ddrphy_phyinit_userCustom_G_waitFwDone(void); + +/******************************************************************* + Desc: definition + + *******************************************************************/ +static inline void reg32_write(unsigned long addr, u32 val) +{ + writel(val, addr); +} + +static inline uint32_t reg32_read(unsigned long addr) +{ + return readl(addr); +} + +static inline void reg32setbit(unsigned long addr, u32 bit) +{ + setbits_le32(addr, (1 << bit)); +} +#endif diff --git a/board/freescale/imx8mm_evk/ddr/ddr4/Makefile b/board/freescale/imx8mm_evk/ddr/ddr4/Makefile new file mode 100644 index 0000000000..c4265d5ed4 --- /dev/null +++ b/board/freescale/imx8mm_evk/ddr/ddr4/Makefile @@ -0,0 +1,13 @@ +# +# Copyright 2018 NXP +# +# SPDX-License-Identifier: GPL-2.0+ +# + +ifdef CONFIG_SPL_BUILD +obj-y += ddr4_phyinit_task.o +obj-y += ddr4_phyinit_2400_400_100_2r_fw09.o +obj-y += ddr4_swffc_fw09.o +obj-y += save_1d2d_trained_csr_ddr4_p012.o +obj-y += restore_1d2d_trained_csr_ddr4_p012.o +endif diff --git a/board/freescale/imx8mm_evk/ddr/ddr4/anamix_common.h b/board/freescale/imx8mm_evk/ddr/ddr4/anamix_common.h new file mode 100644 index 0000000000..9f1ddd3553 --- /dev/null +++ b/board/freescale/imx8mm_evk/ddr/ddr4/anamix_common.h @@ -0,0 +1,88 @@ +/* + * Copyright 2018 NXP + * + * SPDX-License-Identifier: GPL-2.0+ + */ + +#ifndef ANAMIX_COMMON_TMP_H +#define ANAMIX_COMMON_TMP_H + +/*ANAMIX Address Definition*/ +#define ANAMIX_PLL_BASE_ADDR 0x30360000 +#define ANAMIX_OSC_BASE_ADDR 0x30270000 +#define ANAMIX_TSN_BASE_ADDR 0x30260000 + +/* PLL TOP REG */ +#define AUDIO_PLL1_GNRL_CTL_ADDR (ANAMIX_PLL_BASE_ADDR + 0x00) +#define AUDIO_PLL1_FDIV_CTL0_ADDR (ANAMIX_PLL_BASE_ADDR + 0x04) +#define AUDIO_PLL1_FDIV_CTL1_ADDR (ANAMIX_PLL_BASE_ADDR + 0x08) +#define AUDIO_PLL1_SSCG_CTL_ADDR (ANAMIX_PLL_BASE_ADDR + 0x0c) +#define AUDIO_PLL1_MINT_CTL_ADDR (ANAMIX_PLL_BASE_ADDR + 0x10) +#define AUDIO_PLL2_GNRL_CTL_ADDR (ANAMIX_PLL_BASE_ADDR + 0x14) +#define AUDIO_PLL2_FDIV_CTL0_ADDR (ANAMIX_PLL_BASE_ADDR + 0x18) +#define AUDIO_PLL2_FDIV_CTL1_ADDR (ANAMIX_PLL_BASE_ADDR + 0x1c) +#define AUDIO_PLL2_SSCG_CTL_ADDR (ANAMIX_PLL_BASE_ADDR + 0x20) +#define AUDIO_PLL2_MINT_CTL_ADDR (ANAMIX_PLL_BASE_ADDR + 0x24) +#define VIDEO_PLL1_GNRL_CTL_ADDR (ANAMIX_PLL_BASE_ADDR + 0x28) +#define VIDEO_PLL1_FDIV_CTL0_ADDR (ANAMIX_PLL_BASE_ADDR + 0x2c) +#define VIDEO_PLL1_FDIV_CTL1_ADDR (ANAMIX_PLL_BASE_ADDR + 0x30) +#define VIDEO_PLL1_SSCG_CTL_ADDR (ANAMIX_PLL_BASE_ADDR + 0x34) +#define VIDEO_PLL1_MINT_CTL_ADDR (ANAMIX_PLL_BASE_ADDR + 0x38) +#define VIDEO_PLL2_GNRL_CTL_ADDR (ANAMIX_PLL_BASE_ADDR + 0x3c) +#define VIDEO_PLL2_FDIV_CTL0_ADDR (ANAMIX_PLL_BASE_ADDR + 0x40) +#define VIDEO_PLL2_FDIV_CTL1_ADDR (ANAMIX_PLL_BASE_ADDR + 0x44) +#define VIDEO_PLL2_SSCG_CTL_ADDR (ANAMIX_PLL_BASE_ADDR + 0x48) +#define VIDEO_PLL2_MINT_CTL_ADDR (ANAMIX_PLL_BASE_ADDR + 0x4c) +#define DRAM_PLL_GNRL_CTL_ADDR (ANAMIX_PLL_BASE_ADDR + 0x50) +#define DRAM_PLL_FDIV_CTL0_ADDR (ANAMIX_PLL_BASE_ADDR + 0x54) +#define DRAM_PLL_FDIV_CTL1_ADDR (ANAMIX_PLL_BASE_ADDR + 0x58) +#define DRAM_PLL_SSCG_CTL_ADDR (ANAMIX_PLL_BASE_ADDR + 0x5c) +#define DRAM_PLL_MINT_CTL_ADDR (ANAMIX_PLL_BASE_ADDR + 0x60) +#define GPU_PLL_GNRL_CTL_ADDR (ANAMIX_PLL_BASE_ADDR + 0x64) +#define GPU_PLL_DIV_CTL_ADDR (ANAMIX_PLL_BASE_ADDR + 0x68) +#define GPU_PLL_LOCKD_CTL_ADDR (ANAMIX_PLL_BASE_ADDR + 0x6c) +#define GPU_PLL_MINT_CTL_ADDR (ANAMIX_PLL_BASE_ADDR + 0x70) +#define VPU_PLL_GNRL_CTL_ADDR (ANAMIX_PLL_BASE_ADDR + 0x74) +#define VPU_PLL_DIV_CTL_ADDR (ANAMIX_PLL_BASE_ADDR + 0x78) +#define VPU_PLL_LOCKD_CTL_ADDR (ANAMIX_PLL_BASE_ADDR + 0x7c) +#define VPU_PLL_MINT_CTL_ADDR (ANAMIX_PLL_BASE_ADDR + 0x80) +#define ARM_PLL_GNRL_CTL_ADDR (ANAMIX_PLL_BASE_ADDR + 0x84) +#define ARM_PLL_DIV_CTL_ADDR (ANAMIX_PLL_BASE_ADDR + 0x88) +#define ARM_PLL_LOCKD_CTL_ADDR (ANAMIX_PLL_BASE_ADDR + 0x8c) +#define ARM_PLL_MINT_CTL_ADDR (ANAMIX_PLL_BASE_ADDR + 0x90) +#define SYS_PLL1_GNRL_CTL_ADDR (ANAMIX_PLL_BASE_ADDR + 0x94) +#define SYS_PLL1_DIV_CTL_ADDR (ANAMIX_PLL_BASE_ADDR + 0x98) +#define SYS_PLL1_LOCKD_CTL_ADDR (ANAMIX_PLL_BASE_ADDR + 0x9c) +#define SYS_PLL1_MINT_CTL_ADDR (ANAMIX_PLL_BASE_ADDR + 0x100) +#define SYS_PLL2_GNRL_CTL_ADDR (ANAMIX_PLL_BASE_ADDR + 0x104) +#define SYS_PLL2_DIV_CTL_ADDR (ANAMIX_PLL_BASE_ADDR + 0x108) +#define SYS_PLL2_LOCKD_CTL_ADDR (ANAMIX_PLL_BASE_ADDR + 0x10c) +#define SYS_PLL2_MINT_CTL_ADDR (ANAMIX_PLL_BASE_ADDR + 0x110) +#define SYS_PLL3_GNRL_CTL_ADDR (ANAMIX_PLL_BASE_ADDR + 0x114) +#define SYS_PLL3_DIV_CTL_ADDR (ANAMIX_PLL_BASE_ADDR + 0x118) +#define SYS_PLL3_LOCKD_CTL_ADDR (ANAMIX_PLL_BASE_ADDR + 0x11c) +#define SYS_PLL3_MINT_CTL_ADDR (ANAMIX_PLL_BASE_ADDR + 0x120) +#define ANAMIX_MISC_CTL_ADDR (ANAMIX_PLL_BASE_ADDR + 0x124) +#define ANAMIX_CLK_MINT_CTL_ADDR (ANAMIX_PLL_BASE_ADDR + 0x128) + +/* TMP SNSR REG */ +#define TER_ADDR (ANAMIX_TSN_BASE_ADDR + 0x00) +#define TSR_ADDR (ANAMIX_TSN_BASE_ADDR + 0x04) +#define TIER_ADDR (ANAMIX_TSN_BASE_ADDR + 0x08) +#define TIDR_ADDR (ANAMIX_TSN_BASE_ADDR + 0x0c) +#define TMHTITR_ADDR (ANAMIX_TSN_BASE_ADDR + 0x10) +#define TMHTATR_ADDR (ANAMIX_TSN_BASE_ADDR + 0x14) +#define TMHTACTR_ADDR (ANAMIX_TSN_BASE_ADDR + 0x18) +#define TSCR_ADDR (ANAMIX_TSN_BASE_ADDR + 0x1c) +#define TRITSR_ADDR (ANAMIX_TSN_BASE_ADDR + 0x20) +#define TRATSR_ADDR (ANAMIX_TSN_BASE_ADDR + 0x24) +#define TASR_ADDR (ANAMIX_TSN_BASE_ADDR + 0x28) +#define TTMC_ADDR (ANAMIX_TSN_BASE_ADDR + 0x2c) + +/* OSC */ +#define SYS_OSCNML_CTL0_ADDR (ANAMIX_OSC_BASE_ADDR + 0x00) +#define SYS_OSCNML_CTL1_ADDR (ANAMIX_OSC_BASE_ADDR + 0x04) +#define HDMI_OSCNML_CTL0_ADDR (ANAMIX_OSC_BASE_ADDR + 0x8000) +#define HDMI_OSCNML_CTL1_ADDR (ANAMIX_OSC_BASE_ADDR + 0x8004) + +#endif diff --git a/board/freescale/imx8mm_evk/ddr/ddr4/ddr4_define.h b/board/freescale/imx8mm_evk/ddr/ddr4/ddr4_define.h new file mode 100644 index 0000000000..f81603cc48 --- /dev/null +++ b/board/freescale/imx8mm_evk/ddr/ddr4/ddr4_define.h @@ -0,0 +1,134 @@ +/* + * Copyright 2018 NXP + * + * SPDX-License-Identifier: GPL-2.0+ + */ + +#ifndef __DDR4_CONFIG_H__ +#define __DDR4_CONFIG_H__ + +#include "../ddr.h" + +#define DDR_ONE_RANK +#define RUN_ON_SILICON +#define DDR4_SW_FFC +#define ENABLE_RETENTION + +#define DRAM_VREF 0x1f + +#define SAVE_DDRPHY_TRAIN_ADDR 0x184000 + +/* choose p2 state data rate, define just one of below macro */ +#define PLLBYPASS_400MBPS + +/* //////////////////////////////////////////////////////////////////////////////////////////////////////////////////// */ +/* for DDR4 */ +/* Note:DQ SI RON=40ohm, RTT=48ohm */ +/* CA SI RON=40ohm, RTT=65ohm */ +/* //////////////////////////////////////////////////////////////////////////////////////////////////////////////////// */ +/* for DDR RTT NOM/PARK */ +#define DDR4_ODT_DIS 0 +#define DDR4_ODT_60 1 +#define DDR4_ODT_120 2 +#define DDR4_ODT_40 3 +#define DDR4_ODT_240 4 +#define DDR4_ODT_48 5 +#define DDR4_ODT_80 6 +#define DDR4_ODT_34 7 + +/* for DDR RON */ +#define DDR4_RON_34 0 +#define DDR4_RON_48 1 +#define DDR4_RON_40 2 +#define DDR4_RON_RES 3 + +/* for DDR RTT write */ +#define DDR4_RTT_WR_DIS 0 +#define DDR4_RTT_WR_120 1 +#define DDR4_RTT_WR_240 2 +#define DDR4_RTT_WR_HZ 3 +#define DDR4_RTT_WR_80 4 + +/* for DDR4 PHY data RON */ +#define DDR4_PHY_DATA_RON_34 0xeba +#define DDR4_PHY_DATA_RON_40 0xe38 +#define DDR4_PHY_DATA_RON_48 ((0x1a << 6) | 0x1a) +#define DDR4_PHY_DATA_RON_60 ((0x18 << 6) | 0x18) +#define DDR4_PHY_DATA_RON_80 ((0x0a << 6) | 0x0a) +#define DDR4_PHY_DATA_RON_120 ((0x08 << 6) | 0x08) +#define DDR4_PHY_DATA_RON_240 ((0x02<<6)|0x02) + +/* for DDR4 PHY data RTT */ +#define DDR4_PHY_DATA_RTT_34 0x3a +#define DDR4_PHY_DATA_RTT_40 0x38 +#define DDR4_PHY_DATA_RTT_48 0x1a +#define DDR4_PHY_DATA_RTT_60 0x18 +#define DDR4_PHY_DATA_RTT_80 0x0a +#define DDR4_PHY_DATA_RTT_120 0x08 +#define DDR4_PHY_DATA_RTT_240 0x02 + +/* for DDR4 PHY address RON */ +#define DDR4_PHY_ADDR_RON_30 ((0x07 << 5) | 0x07) +#define DDR4_PHY_ADDR_RON_40 0x63 +#define DDR4_PHY_ADDR_RON_60 ((0x01 << 5) | 0x01) +#define DDR4_PHY_ADDR_RON_120 ((0x00 << 5) | 0x00) + +#define DDR4_PHY_ADDR_RON DDR4_PHY_ADDR_RON_40 + +/* read DDR4 */ +#ifdef DDR_ONE_RANK +#define DDR4_RON DDR4_RON_34 +#define DDR4_PHY_DATA_RTT DDR4_PHY_DATA_RTT_48 +#define DDR4_PHYREF_VALUE 91 +#else +#define DDR4_RON DDR4_RON_40 +#define DDR4_PHY_DATA_RTT DDR4_PHY_DATA_RTT_48 +#define DDR4_PHYREF_VALUE 93 +#endif + +/* write DDR4 */ +#ifdef DDR_ONE_RANK +/* one lank */ +#define DDR4_PHY_DATA_RON DDR4_PHY_DATA_RON_34 +#define DDR4_RTT_NOM DDR4_ODT_60 +#define DDR4_RTT_WR DDR4_RTT_WR_DIS +#define DDR4_RTT_PARK DDR4_ODT_DIS +#define DDR4_MR6_VALUE 0x0d +#else +/* two lank */ +#define DDR4_PHY_DATA_RON DDR4_PHY_DATA_RON_40 +#define DDR4_RTT_NOM DDR4_ODT_60 +#define DDR4_RTT_WR DDR4_RTT_WR_DIS +#define DDR4_RTT_PARK DDR4_ODT_DIS +#define DDR4_MR6_VALUE 0x10 +#endif + +/* voltage:delay */ +#define DDR4_2D_WEIGHT (31 << 8 | 127) + +#define ANAMIX_PLL_BASE_ADDR 0x30360000 +#define HW_DRAM_PLL_CFG0_ADDR (ANAMIX_PLL_BASE_ADDR + 0x60) +#define HW_DRAM_PLL_CFG1_ADDR (ANAMIX_PLL_BASE_ADDR + 0x64) +#define HW_DRAM_PLL_CFG2_ADDR (ANAMIX_PLL_BASE_ADDR + 0x68) +#define GPC_PU_PWRHSK 0x303A01FC +#define GPC_TOP_CONFIG_OFFSET 0x0000 +#define AIPS1_ARB_BASE_ADDR 0x30000000 +#define AIPS_TZ1_BASE_ADDR AIPS1_ARB_BASE_ADDR +#define AIPS1_OFF_BASE_ADDR (AIPS_TZ1_BASE_ADDR + 0x200000) +#define CCM_IPS_BASE_ADDR (AIPS1_OFF_BASE_ADDR + 0x180000) +#define CCM_SRC_CTRL_OFFSET (CCM_IPS_BASE_ADDR + 0x800) +#define CCM_SRC_CTRL(n) (CCM_SRC_CTRL_OFFSET + 0x10 * n) + + +#define dwc_ddrphy_apb_wr(addr, data) reg32_write(IP2APB_DDRPHY_IPS_BASE_ADDR(0) + 4 * (addr), data) +#define dwc_ddrphy_apb_rd(addr) (reg32_read(IP2APB_DDRPHY_IPS_BASE_ADDR(0) + 4 * (addr))) +#define reg32clrbit(addr, bitpos) reg32_write((addr), (reg32_read((addr)) & (0xFFFFFFFF ^ (1 << (bitpos))))) +#define DDR_CSD1_BASE_ADDR 0x40000000 +#define DDR_CSD2_BASE_ADDR 0x80000000 + +void restore_1d2d_trained_csr_ddr4_p012(unsigned int addr); +void save_1d2d_trained_csr_ddr4_p012(unsigned int addr); +void ddr4_mr_write(unsigned int mr, unsigned int data, unsigned int read, unsigned int rank); +void ddr4_phyinit_train_sw_ffc(unsigned int Train2D); + +#endif diff --git a/board/freescale/imx8mm_evk/ddr/ddr4/ddr4_phyinit_2400_400_100_2r_fw09.c b/board/freescale/imx8mm_evk/ddr/ddr4/ddr4_phyinit_2400_400_100_2r_fw09.c new file mode 100644 index 0000000000..eed33ea663 --- /dev/null +++ b/board/freescale/imx8mm_evk/ddr/ddr4/ddr4_phyinit_2400_400_100_2r_fw09.c @@ -0,0 +1,1420 @@ +/* + * Copyright 2018 NXP + * + * SPDX-License-Identifier: GPL-2.0+ + */ + +#include +#include +#include +#include +#include +#include "ddr4_define.h" + +extern unsigned int after_retention; +extern unsigned int mr_value[3][7]; + +void ddr4_phyinit_train_sw_ffc(unsigned int Train2D) +{ + /* [dwc_ddrphy_phyinit_main] Start of dwc_ddrphy_phyinit_main() */ + /* [dwc_ddrphy_phyinit_sequence] Start of dwc_ddrphy_phyinit_sequence() */ + /* [dwc_ddrphy_phyinit_initStruct] Start of dwc_ddrphy_phyinit_initStruct() */ + /* [dwc_ddrphy_phyinit_initStruct] End of dwc_ddrphy_phyinit_initStruct() */ + /* [dwc_ddrphy_phyinit_setDefault] Start of dwc_ddrphy_phyinit_setDefault() */ + /* [dwc_ddrphy_phyinit_setDefault] End of dwc_ddrphy_phyinit_setDefault() */ + + + /* ############################################################## */ + /* */ + /* dwc_ddrphy_phyinit_userCustom_overrideUserInput is a user-editable function. */ + /* */ + /* See PhyInit App Note for detailed description and function usage */ + /* */ + /* ############################################################## */ + + dwc_ddrphy_phyinit_userCustom_overrideUserInput (); + /* */ + /* [dwc_ddrphy_phyinit_userCustom_overrideUserInput] End of dwc_ddrphy_phyinit_userCustom_overrideUserInput() */ + + + /* ############################################################## */ + /* */ + /* Step (A) : Bring up VDD, VDDQ, and VAA */ + /* */ + /* See PhyInit App Note for detailed description and function usage */ + /* */ + /* ############################################################## */ + + + dwc_ddrphy_phyinit_userCustom_A_bringupPower (); + + /* [dwc_ddrphy_phyinit_userCustom_A_bringupPower] End of dwc_ddrphy_phyinit_userCustom_A_bringupPower() */ + /* [dwc_ddrphy_phyinit_userCustom_B_startClockResetPhy] Start of dwc_ddrphy_phyinit_userCustom_B_startClockResetPhy() */ + /* */ + /* */ + /* ############################################################## */ + /* */ + /* Step (B) Start Clocks and Reset the PHY */ + /* */ + /* See PhyInit App Note for detailed description and function usage */ + /* */ + /* ############################################################## */ + /* */ + /* */ + dwc_ddrphy_phyinit_userCustom_B_startClockResetPhy (); + + /* [dwc_ddrphy_phyinit_userCustom_B_startClockResetPhy] End of dwc_ddrphy_phyinit_userCustom_B_startClockResetPhy() */ + /* */ + + /* ############################################################## */ + /* */ + /* Step (C) Initialize PHY Configuration */ + /* */ + /* Load the required PHY configuration registers for the appropriate mode and memory configuration */ + /* */ + /* ############################################################## */ + /* */ + + /* [phyinit_C_initPhyConfig] Start of dwc_ddrphy_phyinit_C_initPhyConfig() */ + /* */ + /* ############################################################## */ + /* TxPreDrvMode[2] = 0 */ + /* ############################################################## */ + /* [phyinit_C_initPhyConfig] Pstate=0, Memclk=1200MHz, Programming TxSlewRate::TxPreDrvMode to 0x2 */ + /* [phyinit_C_initPhyConfig] Pstate=0, Memclk=1200MHz, Programming TxSlewRate::TxPreP to 0xd */ + /* [phyinit_C_initPhyConfig] Pstate=0, Memclk=1200MHz, Programming TxSlewRate::TxPreN to 0xf */ + /* [phyinit_C_initPhyConfig] ### NOTE ### Optimal setting for TxSlewRate::TxPreP and TxSlewRate::TxPreP are technology specific. */ + /* [phyinit_C_initPhyConfig] ### NOTE ### Please consult the "Output Slew Rate" section of HSpice Model App Note in specific technology for recommended settings */ + + dwc_ddrphy_apb_wr(0x1005f, 0x2fd); /* DWC_DDRPHYA_DBYTE0_TxSlewRate_b0_p0 */ + dwc_ddrphy_apb_wr(0x1015f, 0x2fd); /* DWC_DDRPHYA_DBYTE0_TxSlewRate_b1_p0 */ + dwc_ddrphy_apb_wr(0x1105f, 0x2fd); /* DWC_DDRPHYA_DBYTE1_TxSlewRate_b0_p0 */ + dwc_ddrphy_apb_wr(0x1115f, 0x2fd); /* DWC_DDRPHYA_DBYTE1_TxSlewRate_b1_p0 */ + dwc_ddrphy_apb_wr(0x1205f, 0x2fd); /* DWC_DDRPHYA_DBYTE2_TxSlewRate_b0_p0 */ + dwc_ddrphy_apb_wr(0x1215f, 0x2fd); /* DWC_DDRPHYA_DBYTE2_TxSlewRate_b1_p0 */ + dwc_ddrphy_apb_wr(0x1305f, 0x2fd); /* DWC_DDRPHYA_DBYTE3_TxSlewRate_b0_p0 */ + dwc_ddrphy_apb_wr(0x1315f, 0x2fd); /* DWC_DDRPHYA_DBYTE3_TxSlewRate_b1_p0 */ + /* [phyinit_C_initPhyConfig] Pstate=1, Memclk=200MHz, Programming TxSlewRate::TxPreDrvMode to 0x2 */ + /* [phyinit_C_initPhyConfig] Pstate=1, Memclk=200MHz, Programming TxSlewRate::TxPreP to 0xd */ + /* [phyinit_C_initPhyConfig] Pstate=1, Memclk=200MHz, Programming TxSlewRate::TxPreN to 0xf */ + /* [phyinit_C_initPhyConfig] ### NOTE ### Optimal setting for TxSlewRate::TxPreP and TxSlewRate::TxPreP are technology specific. */ + /* [phyinit_C_initPhyConfig] ### NOTE ### Please consult the "Output Slew Rate" section of HSpice Model App Note in specific technology for recommended settings */ + + dwc_ddrphy_apb_wr(0x11005f, 0x2fd); /* DWC_DDRPHYA_DBYTE0_TxSlewRate_b0_p1 */ + dwc_ddrphy_apb_wr(0x11015f, 0x2fd); /* DWC_DDRPHYA_DBYTE0_TxSlewRate_b1_p1 */ + dwc_ddrphy_apb_wr(0x11105f, 0x2fd); /* DWC_DDRPHYA_DBYTE1_TxSlewRate_b0_p1 */ + dwc_ddrphy_apb_wr(0x11115f, 0x2fd); /* DWC_DDRPHYA_DBYTE1_TxSlewRate_b1_p1 */ + dwc_ddrphy_apb_wr(0x11205f, 0x2fd); /* DWC_DDRPHYA_DBYTE2_TxSlewRate_b0_p1 */ + dwc_ddrphy_apb_wr(0x11215f, 0x2fd); /* DWC_DDRPHYA_DBYTE2_TxSlewRate_b1_p1 */ + dwc_ddrphy_apb_wr(0x11305f, 0x2fd); /* DWC_DDRPHYA_DBYTE3_TxSlewRate_b0_p1 */ + dwc_ddrphy_apb_wr(0x11315f, 0x2fd); /* DWC_DDRPHYA_DBYTE3_TxSlewRate_b1_p1 */ + /* [phyinit_C_initPhyConfig] Pstate=2, Memclk=50MHz, Programming TxSlewRate::TxPreDrvMode to 0x2 */ + /* [phyinit_C_initPhyConfig] Pstate=2, Memclk=50MHz, Programming TxSlewRate::TxPreP to 0xd */ + /* [phyinit_C_initPhyConfig] Pstate=2, Memclk=50MHz, Programming TxSlewRate::TxPreN to 0xf */ + /* [phyinit_C_initPhyConfig] ### NOTE ### Optimal setting for TxSlewRate::TxPreP and TxSlewRate::TxPreP are technology specific. */ + /* [phyinit_C_initPhyConfig] ### NOTE ### Please consult the "Output Slew Rate" section of HSpice Model App Note in specific technology for recommended settings */ + + dwc_ddrphy_apb_wr(0x21005f, 0x2fd); /* DWC_DDRPHYA_DBYTE0_TxSlewRate_b0_p2 */ + dwc_ddrphy_apb_wr(0x21015f, 0x2fd); /* DWC_DDRPHYA_DBYTE0_TxSlewRate_b1_p2 */ + dwc_ddrphy_apb_wr(0x21105f, 0x2fd); /* DWC_DDRPHYA_DBYTE1_TxSlewRate_b0_p2 */ + dwc_ddrphy_apb_wr(0x21115f, 0x2fd); /* DWC_DDRPHYA_DBYTE1_TxSlewRate_b1_p2 */ + dwc_ddrphy_apb_wr(0x21205f, 0x2fd); /* DWC_DDRPHYA_DBYTE2_TxSlewRate_b0_p2 */ + dwc_ddrphy_apb_wr(0x21215f, 0x2fd); /* DWC_DDRPHYA_DBYTE2_TxSlewRate_b1_p2 */ + dwc_ddrphy_apb_wr(0x21305f, 0x2fd); /* DWC_DDRPHYA_DBYTE3_TxSlewRate_b0_p2 */ + dwc_ddrphy_apb_wr(0x21315f, 0x2fd); /* DWC_DDRPHYA_DBYTE3_TxSlewRate_b1_p2 */ + /* [phyinit_C_initPhyConfig] Programming ATxSlewRate::ATxPreDrvMode to 0x3, ANIB=0 */ + /* [phyinit_C_initPhyConfig] Programming ATxSlewRate::ATxPreP to 0x5, ANIB=0 */ + /* [phyinit_C_initPhyConfig] Programming ATxSlewRate::ATxPreN to 0x5, ANIB=0 */ + /* [phyinit_C_initPhyConfig] ### NOTE ### Optimal setting for ATxSlewRate::ATxPreP and ATxSlewRate::ATxPreP are technology specific. */ + /* [phyinit_C_initPhyConfig] ### NOTE ### Please consult the "Output Slew Rate" section of HSpice Model App Note in specific technology for recommended settings */ + + dwc_ddrphy_apb_wr(0x55, 0x355); /* DWC_DDRPHYA_ANIB0_ATxSlewRate */ + /* [phyinit_C_initPhyConfig] Programming ATxSlewRate::ATxPreDrvMode to 0x3, ANIB=1 */ + /* [phyinit_C_initPhyConfig] Programming ATxSlewRate::ATxPreP to 0x5, ANIB=1 */ + /* [phyinit_C_initPhyConfig] Programming ATxSlewRate::ATxPreN to 0x5, ANIB=1 */ + /* [phyinit_C_initPhyConfig] ### NOTE ### Optimal setting for ATxSlewRate::ATxPreP and ATxSlewRate::ATxPreP are technology specific. */ + /* [phyinit_C_initPhyConfig] ### NOTE ### Please consult the "Output Slew Rate" section of HSpice Model App Note in specific technology for recommended settings */ + + dwc_ddrphy_apb_wr(0x1055, 0x355); /* DWC_DDRPHYA_ANIB1_ATxSlewRate */ + /* [phyinit_C_initPhyConfig] Programming ATxSlewRate::ATxPreDrvMode to 0x3, ANIB=2 */ + /* [phyinit_C_initPhyConfig] Programming ATxSlewRate::ATxPreP to 0x5, ANIB=2 */ + /* [phyinit_C_initPhyConfig] Programming ATxSlewRate::ATxPreN to 0x5, ANIB=2 */ + /* [phyinit_C_initPhyConfig] ### NOTE ### Optimal setting for ATxSlewRate::ATxPreP and ATxSlewRate::ATxPreP are technology specific. */ + /* [phyinit_C_initPhyConfig] ### NOTE ### Please consult the "Output Slew Rate" section of HSpice Model App Note in specific technology for recommended settings */ + + dwc_ddrphy_apb_wr(0x2055, 0x355); /* DWC_DDRPHYA_ANIB2_ATxSlewRate */ + /* [phyinit_C_initPhyConfig] Programming ATxSlewRate::ATxPreDrvMode to 0x3, ANIB=3 */ + /* [phyinit_C_initPhyConfig] Programming ATxSlewRate::ATxPreP to 0x5, ANIB=3 */ + /* [phyinit_C_initPhyConfig] Programming ATxSlewRate::ATxPreN to 0x5, ANIB=3 */ + /* [phyinit_C_initPhyConfig] ### NOTE ### Optimal setting for ATxSlewRate::ATxPreP and ATxSlewRate::ATxPreP are technology specific. */ + /* [phyinit_C_initPhyConfig] ### NOTE ### Please consult the "Output Slew Rate" section of HSpice Model App Note in specific technology for recommended settings */ + + dwc_ddrphy_apb_wr(0x3055, 0x355); /* DWC_DDRPHYA_ANIB3_ATxSlewRate */ + /* [phyinit_C_initPhyConfig] Programming ATxSlewRate::ATxPreDrvMode to 0x0, ANIB=4 */ + /* [phyinit_C_initPhyConfig] Programming ATxSlewRate::ATxPreP to 0x5, ANIB=4 */ + /* [phyinit_C_initPhyConfig] Programming ATxSlewRate::ATxPreN to 0x5, ANIB=4 */ + /* [phyinit_C_initPhyConfig] ### NOTE ### Optimal setting for ATxSlewRate::ATxPreP and ATxSlewRate::ATxPreP are technology specific. */ + /* [phyinit_C_initPhyConfig] ### NOTE ### Please consult the "Output Slew Rate" section of HSpice Model App Note in specific technology for recommended settings */ + + dwc_ddrphy_apb_wr(0x4055, 0x55); /* DWC_DDRPHYA_ANIB4_ATxSlewRate */ + /* [phyinit_C_initPhyConfig] Programming ATxSlewRate::ATxPreDrvMode to 0x0, ANIB=5 */ + /* [phyinit_C_initPhyConfig] Programming ATxSlewRate::ATxPreP to 0x5, ANIB=5 */ + /* [phyinit_C_initPhyConfig] Programming ATxSlewRate::ATxPreN to 0x5, ANIB=5 */ + /* [phyinit_C_initPhyConfig] ### NOTE ### Optimal setting for ATxSlewRate::ATxPreP and ATxSlewRate::ATxPreP are technology specific. */ + /* [phyinit_C_initPhyConfig] ### NOTE ### Please consult the "Output Slew Rate" section of HSpice Model App Note in specific technology for recommended settings */ + + dwc_ddrphy_apb_wr(0x5055, 0x55); /* DWC_DDRPHYA_ANIB5_ATxSlewRate */ + /* [phyinit_C_initPhyConfig] Programming ATxSlewRate::ATxPreDrvMode to 0x3, ANIB=6 */ + /* [phyinit_C_initPhyConfig] Programming ATxSlewRate::ATxPreP to 0x5, ANIB=6 */ + /* [phyinit_C_initPhyConfig] Programming ATxSlewRate::ATxPreN to 0x5, ANIB=6 */ + /* [phyinit_C_initPhyConfig] ### NOTE ### Optimal setting for ATxSlewRate::ATxPreP and ATxSlewRate::ATxPreP are technology specific. */ + /* [phyinit_C_initPhyConfig] ### NOTE ### Please consult the "Output Slew Rate" section of HSpice Model App Note in specific technology for recommended settings */ + + dwc_ddrphy_apb_wr(0x6055, 0x355); /* DWC_DDRPHYA_ANIB6_ATxSlewRate */ + /* [phyinit_C_initPhyConfig] Programming ATxSlewRate::ATxPreDrvMode to 0x3, ANIB=7 */ + /* [phyinit_C_initPhyConfig] Programming ATxSlewRate::ATxPreP to 0x5, ANIB=7 */ + /* [phyinit_C_initPhyConfig] Programming ATxSlewRate::ATxPreN to 0x5, ANIB=7 */ + /* [phyinit_C_initPhyConfig] ### NOTE ### Optimal setting for ATxSlewRate::ATxPreP and ATxSlewRate::ATxPreP are technology specific. */ + /* [phyinit_C_initPhyConfig] ### NOTE ### Please consult the "Output Slew Rate" section of HSpice Model App Note in specific technology for recommended settings */ + + dwc_ddrphy_apb_wr(0x7055, 0x355); /* DWC_DDRPHYA_ANIB7_ATxSlewRate */ + /* [phyinit_C_initPhyConfig] Programming ATxSlewRate::ATxPreDrvMode to 0x3, ANIB=8 */ + /* [phyinit_C_initPhyConfig] Programming ATxSlewRate::ATxPreP to 0x5, ANIB=8 */ + /* [phyinit_C_initPhyConfig] Programming ATxSlewRate::ATxPreN to 0x5, ANIB=8 */ + /* [phyinit_C_initPhyConfig] ### NOTE ### Optimal setting for ATxSlewRate::ATxPreP and ATxSlewRate::ATxPreP are technology specific. */ + /* [phyinit_C_initPhyConfig] ### NOTE ### Please consult the "Output Slew Rate" section of HSpice Model App Note in specific technology for recommended settings */ + + dwc_ddrphy_apb_wr(0x8055, 0x355); /* DWC_DDRPHYA_ANIB8_ATxSlewRate */ + /* [phyinit_C_initPhyConfig] Programming ATxSlewRate::ATxPreDrvMode to 0x3, ANIB=9 */ + /* [phyinit_C_initPhyConfig] Programming ATxSlewRate::ATxPreP to 0x5, ANIB=9 */ + /* [phyinit_C_initPhyConfig] Programming ATxSlewRate::ATxPreN to 0x5, ANIB=9 */ + /* [phyinit_C_initPhyConfig] ### NOTE ### Optimal setting for ATxSlewRate::ATxPreP and ATxSlewRate::ATxPreP are technology specific. */ + /* [phyinit_C_initPhyConfig] ### NOTE ### Please consult the "Output Slew Rate" section of HSpice Model App Note in specific technology for recommended settings */ + + dwc_ddrphy_apb_wr(0x9055, 0x355); /* DWC_DDRPHYA_ANIB9_ATxSlewRate */ + dwc_ddrphy_apb_wr(0x200c5, 0xa); /* DWC_DDRPHYA_MASTER0_PllCtrl2_p0 */ + /* [phyinit_C_initPhyConfig] Pstate=0, Memclk=1200MHz, Programming PllCtrl2 to a based on DfiClk frequency = 600. */ + dwc_ddrphy_apb_wr(0x1200c5, 0x7); /* DWC_DDRPHYA_MASTER0_PllCtrl2_p1 */ + /* [phyinit_C_initPhyConfig] Pstate=1, Memclk=200MHz, Programming PllCtrl2 to 7 based on DfiClk frequency = 100. */ + dwc_ddrphy_apb_wr(0x2200c5, 0x7); /* DWC_DDRPHYA_MASTER0_PllCtrl2_p2 */ + /* [phyinit_C_initPhyConfig] Pstate=2, Memclk=50MHz, Programming PllCtrl2 to 7 based on DfiClk frequency = 25. */ + /* */ + /* ############################################################## */ + /* */ + /* Program ARdPtrInitVal based on Frequency and PLL Bypass inputs */ + /* The values programmed here assume ideal properties of DfiClk */ + /* and Pclk including: */ + /* - DfiClk skew */ + /* - DfiClk jitter */ + /* - DfiClk PVT variations */ + /* - Pclk skew */ + /* - Pclk jitter */ + /* */ + /* PLL Bypassed mode: */ + /* For MemClk frequency > 933MHz, the valid range of ARdPtrInitVal_p0[3:0] is: 2-6 */ + /* For MemClk frequency < 933MHz, the valid range of ARdPtrInitVal_p0[3:0] is: 1-6 */ + /* */ + /* PLL Enabled mode: */ + /* For MemClk frequency > 933MHz, the valid range of ARdPtrInitVal_p0[3:0] is: 1-6 */ + /* For MemClk frequency < 933MHz, the valid range of ARdPtrInitVal_p0[3:0] is: 0-6 */ + /* */ + /* ############################################################## */ + /* [phyinit_C_initPhyConfig] Pstate=0, Memclk=1200MHz, Programming ARdPtrInitVal to 0x2 */ + dwc_ddrphy_apb_wr(0x2002e, 0x2); /* DWC_DDRPHYA_MASTER0_ARdPtrInitVal_p0 */ + /* [phyinit_C_initPhyConfig] Pstate=1, Memclk=200MHz, Programming ARdPtrInitVal to 0x2 */ + dwc_ddrphy_apb_wr(0x12002e, 0x2); /* DWC_DDRPHYA_MASTER0_ARdPtrInitVal_p1 */ + /* [phyinit_C_initPhyConfig] Pstate=2, Memclk=50MHz, Programming ARdPtrInitVal to 0x2 */ + dwc_ddrphy_apb_wr(0x22002e, 0x2); /* DWC_DDRPHYA_MASTER0_ARdPtrInitVal_p2 */ + /* [phyinit_C_initPhyConfig] Pstate=0, Memclk=1200MHz, Programming DqsPreambleControl::TwoTckRxDqsPre to 0x0 */ + /* [phyinit_C_initPhyConfig] Pstate=0, Memclk=1200MHz, Programming DqsPreambleControl::TwoTckTxDqsPre to 0x0 */ + /* [phyinit_C_initPhyConfig] Pstate=0, Memclk=1200MHz, Programming DqsPreambleControl::PositionDfeInit to 0x2 */ + /* [phyinit_C_initPhyConfig] Pstate=0, Memclk=1200MHz, Programming DqsPreambleControl::LP4TglTwoTckTxDqsPre to 0x0 */ + /* [phyinit_C_initPhyConfig] Pstate=0, Memclk=1200MHz, Programming DqsPreambleControl::LP4PostambleExt to 0x0 */ + /* [phyinit_C_initPhyConfig] Pstate=0, Memclk=1200MHz, Programming DqsPreambleControl::LP4SttcPreBridgeRxEn to 0x0 */ + /* [phyinit_C_initPhyConfig] Pstate=0, Memclk=1200MHz, Programming DqsPreambleControl to 0x8 */ + dwc_ddrphy_apb_wr(0x20024, 0x8); /* DWC_DDRPHYA_MASTER0_DqsPreambleControl_p0 */ + /* [phyinit_C_initPhyConfig] Pstate=0, Memclk=1200MHz, Programming DbyteDllModeCntrl to 0x2 */ + dwc_ddrphy_apb_wr(0x2003a, 0x2); /* DWC_DDRPHYA_MASTER0_DbyteDllModeCntrl */ + /* [phyinit_C_initPhyConfig] Pstate=1, Memclk=200MHz, Programming DqsPreambleControl::TwoTckRxDqsPre to 0x0 */ + /* [phyinit_C_initPhyConfig] Pstate=1, Memclk=200MHz, Programming DqsPreambleControl::TwoTckTxDqsPre to 0x0 */ + /* [phyinit_C_initPhyConfig] Pstate=1, Memclk=200MHz, Programming DqsPreambleControl::PositionDfeInit to 0x2 */ + /* [phyinit_C_initPhyConfig] Pstate=1, Memclk=200MHz, Programming DqsPreambleControl::LP4TglTwoTckTxDqsPre to 0x0 */ + /* [phyinit_C_initPhyConfig] Pstate=1, Memclk=200MHz, Programming DqsPreambleControl::LP4PostambleExt to 0x0 */ + /* [phyinit_C_initPhyConfig] Pstate=1, Memclk=200MHz, Programming DqsPreambleControl::LP4SttcPreBridgeRxEn to 0x0 */ + /* [phyinit_C_initPhyConfig] Pstate=1, Memclk=200MHz, Programming DqsPreambleControl to 0x8 */ + dwc_ddrphy_apb_wr(0x120024, 0x8); /* DWC_DDRPHYA_MASTER0_DqsPreambleControl_p1 */ + /* [phyinit_C_initPhyConfig] Pstate=1, Memclk=200MHz, Programming DbyteDllModeCntrl to 0x2 */ + dwc_ddrphy_apb_wr(0x2003a, 0x2); /* DWC_DDRPHYA_MASTER0_DbyteDllModeCntrl */ + /* [phyinit_C_initPhyConfig] Pstate=2, Memclk=50MHz, Programming DqsPreambleControl::TwoTckRxDqsPre to 0x0 */ + /* [phyinit_C_initPhyConfig] Pstate=2, Memclk=50MHz, Programming DqsPreambleControl::TwoTckTxDqsPre to 0x0 */ + /* [phyinit_C_initPhyConfig] Pstate=2, Memclk=50MHz, Programming DqsPreambleControl::PositionDfeInit to 0x2 */ + /* [phyinit_C_initPhyConfig] Pstate=2, Memclk=50MHz, Programming DqsPreambleControl::LP4TglTwoTckTxDqsPre to 0x0 */ + /* [phyinit_C_initPhyConfig] Pstate=2, Memclk=50MHz, Programming DqsPreambleControl::LP4PostambleExt to 0x0 */ + /* [phyinit_C_initPhyConfig] Pstate=2, Memclk=50MHz, Programming DqsPreambleControl::LP4SttcPreBridgeRxEn to 0x0 */ + /* [phyinit_C_initPhyConfig] Pstate=2, Memclk=50MHz, Programming DqsPreambleControl to 0x8 */ + dwc_ddrphy_apb_wr(0x220024, 0x8); /* DWC_DDRPHYA_MASTER0_DqsPreambleControl_p2 */ + /* [phyinit_C_initPhyConfig] Pstate=2, Memclk=50MHz, Programming DbyteDllModeCntrl to 0x2 */ + dwc_ddrphy_apb_wr(0x2003a, 0x2); /* DWC_DDRPHYA_MASTER0_DbyteDllModeCntrl */ + /* [phyinit_C_initPhyConfig] Pstate=0, Memclk=1200MHz, Programming ProcOdtTimeCtl to 0x6 */ + dwc_ddrphy_apb_wr(0x20056, 0x6); /* DWC_DDRPHYA_MASTER0_ProcOdtTimeCtl_p0 */ + /* [phyinit_C_initPhyConfig] Pstate=1, Memclk=200MHz, Programming ProcOdtTimeCtl to 0xa */ + dwc_ddrphy_apb_wr(0x120056, 0xa); /* DWC_DDRPHYA_MASTER0_ProcOdtTimeCtl_p1 */ + /* [phyinit_C_initPhyConfig] Pstate=2, Memclk=50MHz, Programming ProcOdtTimeCtl to 0xa */ + dwc_ddrphy_apb_wr(0x220056, 0xa); /* DWC_DDRPHYA_MASTER0_ProcOdtTimeCtl_p2 */ + /* [phyinit_C_initPhyConfig] Pstate=0, Memclk=1200MHz, Programming TxOdtDrvStren::ODTStrenP to 0x1a */ + /* [phyinit_C_initPhyConfig] Pstate=0, Memclk=1200MHz, Programming TxOdtDrvStren::ODTStrenN to 0x0 */ + dwc_ddrphy_apb_wr(0x1004d, 0x1a); /* DWC_DDRPHYA_DBYTE0_TxOdtDrvStren_b0_p0 */ + dwc_ddrphy_apb_wr(0x1014d, 0x1a); /* DWC_DDRPHYA_DBYTE0_TxOdtDrvStren_b1_p0 */ + dwc_ddrphy_apb_wr(0x1104d, 0x1a); /* DWC_DDRPHYA_DBYTE1_TxOdtDrvStren_b0_p0 */ + dwc_ddrphy_apb_wr(0x1114d, 0x1a); /* DWC_DDRPHYA_DBYTE1_TxOdtDrvStren_b1_p0 */ + dwc_ddrphy_apb_wr(0x1204d, 0x1a); /* DWC_DDRPHYA_DBYTE2_TxOdtDrvStren_b0_p0 */ + dwc_ddrphy_apb_wr(0x1214d, 0x1a); /* DWC_DDRPHYA_DBYTE2_TxOdtDrvStren_b1_p0 */ + dwc_ddrphy_apb_wr(0x1304d, 0x1a); /* DWC_DDRPHYA_DBYTE3_TxOdtDrvStren_b0_p0 */ + dwc_ddrphy_apb_wr(0x1314d, 0x1a); /* DWC_DDRPHYA_DBYTE3_TxOdtDrvStren_b1_p0 */ + /* [phyinit_C_initPhyConfig] Pstate=1, Memclk=200MHz, Programming TxOdtDrvStren::ODTStrenP to 0x1a */ + /* [phyinit_C_initPhyConfig] Pstate=1, Memclk=200MHz, Programming TxOdtDrvStren::ODTStrenN to 0x0 */ + dwc_ddrphy_apb_wr(0x11004d, 0x1a); /* DWC_DDRPHYA_DBYTE0_TxOdtDrvStren_b0_p1 */ + dwc_ddrphy_apb_wr(0x11014d, 0x1a); /* DWC_DDRPHYA_DBYTE0_TxOdtDrvStren_b1_p1 */ + dwc_ddrphy_apb_wr(0x11104d, 0x1a); /* DWC_DDRPHYA_DBYTE1_TxOdtDrvStren_b0_p1 */ + dwc_ddrphy_apb_wr(0x11114d, 0x1a); /* DWC_DDRPHYA_DBYTE1_TxOdtDrvStren_b1_p1 */ + dwc_ddrphy_apb_wr(0x11204d, 0x1a); /* DWC_DDRPHYA_DBYTE2_TxOdtDrvStren_b0_p1 */ + dwc_ddrphy_apb_wr(0x11214d, 0x1a); /* DWC_DDRPHYA_DBYTE2_TxOdtDrvStren_b1_p1 */ + dwc_ddrphy_apb_wr(0x11304d, 0x1a); /* DWC_DDRPHYA_DBYTE3_TxOdtDrvStren_b0_p1 */ + dwc_ddrphy_apb_wr(0x11314d, 0x1a); /* DWC_DDRPHYA_DBYTE3_TxOdtDrvStren_b1_p1 */ + /* [phyinit_C_initPhyConfig] Pstate=2, Memclk=50MHz, Programming TxOdtDrvStren::ODTStrenP to 0x1a */ + /* [phyinit_C_initPhyConfig] Pstate=2, Memclk=50MHz, Programming TxOdtDrvStren::ODTStrenN to 0x0 */ + dwc_ddrphy_apb_wr(0x21004d, 0x1a); /* DWC_DDRPHYA_DBYTE0_TxOdtDrvStren_b0_p2 */ + dwc_ddrphy_apb_wr(0x21014d, 0x1a); /* DWC_DDRPHYA_DBYTE0_TxOdtDrvStren_b1_p2 */ + dwc_ddrphy_apb_wr(0x21104d, 0x1a); /* DWC_DDRPHYA_DBYTE1_TxOdtDrvStren_b0_p2 */ + dwc_ddrphy_apb_wr(0x21114d, 0x1a); /* DWC_DDRPHYA_DBYTE1_TxOdtDrvStren_b1_p2 */ + dwc_ddrphy_apb_wr(0x21204d, 0x1a); /* DWC_DDRPHYA_DBYTE2_TxOdtDrvStren_b0_p2 */ + dwc_ddrphy_apb_wr(0x21214d, 0x1a); /* DWC_DDRPHYA_DBYTE2_TxOdtDrvStren_b1_p2 */ + dwc_ddrphy_apb_wr(0x21304d, 0x1a); /* DWC_DDRPHYA_DBYTE3_TxOdtDrvStren_b0_p2 */ + dwc_ddrphy_apb_wr(0x21314d, 0x1a); /* DWC_DDRPHYA_DBYTE3_TxOdtDrvStren_b1_p2 */ + /* [phyinit_C_initPhyConfig] Pstate=0, Memclk=1200MHz, Programming TxImpedanceCtrl1::DrvStrenFSDqP to 0x38 */ + /* [phyinit_C_initPhyConfig] Pstate=0, Memclk=1200MHz, Programming TxImpedanceCtrl1::DrvStrenFSDqN to 0x38 */ + dwc_ddrphy_apb_wr(0x10049, 0xe38); /* DWC_DDRPHYA_DBYTE0_TxImpedanceCtrl1_b0_p0 */ + dwc_ddrphy_apb_wr(0x10149, 0xe38); /* DWC_DDRPHYA_DBYTE0_TxImpedanceCtrl1_b1_p0 */ + dwc_ddrphy_apb_wr(0x11049, 0xe38); /* DWC_DDRPHYA_DBYTE1_TxImpedanceCtrl1_b0_p0 */ + dwc_ddrphy_apb_wr(0x11149, 0xe38); /* DWC_DDRPHYA_DBYTE1_TxImpedanceCtrl1_b1_p0 */ + dwc_ddrphy_apb_wr(0x12049, 0xe38); /* DWC_DDRPHYA_DBYTE2_TxImpedanceCtrl1_b0_p0 */ + dwc_ddrphy_apb_wr(0x12149, 0xe38); /* DWC_DDRPHYA_DBYTE2_TxImpedanceCtrl1_b1_p0 */ + dwc_ddrphy_apb_wr(0x13049, 0xe38); /* DWC_DDRPHYA_DBYTE3_TxImpedanceCtrl1_b0_p0 */ + dwc_ddrphy_apb_wr(0x13149, 0xe38); /* DWC_DDRPHYA_DBYTE3_TxImpedanceCtrl1_b1_p0 */ + /* [phyinit_C_initPhyConfig] Pstate=1, Memclk=200MHz, Programming TxImpedanceCtrl1::DrvStrenFSDqP to 0x38 */ + /* [phyinit_C_initPhyConfig] Pstate=1, Memclk=200MHz, Programming TxImpedanceCtrl1::DrvStrenFSDqN to 0x38 */ + dwc_ddrphy_apb_wr(0x110049, 0xe38); /* DWC_DDRPHYA_DBYTE0_TxImpedanceCtrl1_b0_p1 */ + dwc_ddrphy_apb_wr(0x110149, 0xe38); /* DWC_DDRPHYA_DBYTE0_TxImpedanceCtrl1_b1_p1 */ + dwc_ddrphy_apb_wr(0x111049, 0xe38); /* DWC_DDRPHYA_DBYTE1_TxImpedanceCtrl1_b0_p1 */ + dwc_ddrphy_apb_wr(0x111149, 0xe38); /* DWC_DDRPHYA_DBYTE1_TxImpedanceCtrl1_b1_p1 */ + dwc_ddrphy_apb_wr(0x112049, 0xe38); /* DWC_DDRPHYA_DBYTE2_TxImpedanceCtrl1_b0_p1 */ + dwc_ddrphy_apb_wr(0x112149, 0xe38); /* DWC_DDRPHYA_DBYTE2_TxImpedanceCtrl1_b1_p1 */ + dwc_ddrphy_apb_wr(0x113049, 0xe38); /* DWC_DDRPHYA_DBYTE3_TxImpedanceCtrl1_b0_p1 */ + dwc_ddrphy_apb_wr(0x113149, 0xe38); /* DWC_DDRPHYA_DBYTE3_TxImpedanceCtrl1_b1_p1 */ + /* [phyinit_C_initPhyConfig] Pstate=2, Memclk=50MHz, Programming TxImpedanceCtrl1::DrvStrenFSDqP to 0x38 */ + /* [phyinit_C_initPhyConfig] Pstate=2, Memclk=50MHz, Programming TxImpedanceCtrl1::DrvStrenFSDqN to 0x38 */ + dwc_ddrphy_apb_wr(0x210049, 0xe38); /* DWC_DDRPHYA_DBYTE0_TxImpedanceCtrl1_b0_p2 */ + dwc_ddrphy_apb_wr(0x210149, 0xe38); /* DWC_DDRPHYA_DBYTE0_TxImpedanceCtrl1_b1_p2 */ + dwc_ddrphy_apb_wr(0x211049, 0xe38); /* DWC_DDRPHYA_DBYTE1_TxImpedanceCtrl1_b0_p2 */ + dwc_ddrphy_apb_wr(0x211149, 0xe38); /* DWC_DDRPHYA_DBYTE1_TxImpedanceCtrl1_b1_p2 */ + dwc_ddrphy_apb_wr(0x212049, 0xe38); /* DWC_DDRPHYA_DBYTE2_TxImpedanceCtrl1_b0_p2 */ + dwc_ddrphy_apb_wr(0x212149, 0xe38); /* DWC_DDRPHYA_DBYTE2_TxImpedanceCtrl1_b1_p2 */ + dwc_ddrphy_apb_wr(0x213049, 0xe38); /* DWC_DDRPHYA_DBYTE3_TxImpedanceCtrl1_b0_p2 */ + dwc_ddrphy_apb_wr(0x213149, 0xe38); /* DWC_DDRPHYA_DBYTE3_TxImpedanceCtrl1_b1_p2 */ + /* [phyinit_C_initPhyConfig] Programming ATxImpedance::ADrvStrenP to 0x3 */ + /* [phyinit_C_initPhyConfig] Programming ATxImpedance::ADrvStrenN to 0x3 */ + dwc_ddrphy_apb_wr(0x43, 0x63); /* DWC_DDRPHYA_ANIB0_ATxImpedance */ + dwc_ddrphy_apb_wr(0x1043, 0x63); /* DWC_DDRPHYA_ANIB1_ATxImpedance */ + dwc_ddrphy_apb_wr(0x2043, 0x63); /* DWC_DDRPHYA_ANIB2_ATxImpedance */ + dwc_ddrphy_apb_wr(0x3043, 0x63); /* DWC_DDRPHYA_ANIB3_ATxImpedance */ + dwc_ddrphy_apb_wr(0x4043, 0x63); /* DWC_DDRPHYA_ANIB4_ATxImpedance */ + dwc_ddrphy_apb_wr(0x5043, 0x63); /* DWC_DDRPHYA_ANIB5_ATxImpedance */ + dwc_ddrphy_apb_wr(0x6043, 0x63); /* DWC_DDRPHYA_ANIB6_ATxImpedance */ + dwc_ddrphy_apb_wr(0x7043, 0x63); /* DWC_DDRPHYA_ANIB7_ATxImpedance */ + dwc_ddrphy_apb_wr(0x8043, 0x63); /* DWC_DDRPHYA_ANIB8_ATxImpedance */ + dwc_ddrphy_apb_wr(0x9043, 0x63); /* DWC_DDRPHYA_ANIB9_ATxImpedance */ + /* [phyinit_C_initPhyConfig] Programming DfiMode to 0x5 */ + dwc_ddrphy_apb_wr(0x20018, 0x5); /* DWC_DDRPHYA_MASTER0_DfiMode */ + /* [phyinit_C_initPhyConfig] Programming DfiCAMode to 0x2 */ + dwc_ddrphy_apb_wr(0x20075, 0x2); /* DWC_DDRPHYA_MASTER0_DfiCAMode */ + /* [phyinit_C_initPhyConfig] Programming CalDrvStr0::CalDrvStrPd50 to 0x0 */ + /* [phyinit_C_initPhyConfig] Programming CalDrvStr0::CalDrvStrPu50 to 0x0 */ + dwc_ddrphy_apb_wr(0x20050, 0x0); /* DWC_DDRPHYA_MASTER0_CalDrvStr0 */ + /* [phyinit_C_initPhyConfig] Pstate=0, Memclk=1200MHz, Programming CalUclkInfo::CalUClkTicksPer1uS to 0x258 */ + dwc_ddrphy_apb_wr(0x20008, 0x258); /* DWC_DDRPHYA_MASTER0_CalUclkInfo_p0 */ + /* [phyinit_C_initPhyConfig] Pstate=1, Memclk=200MHz, Programming CalUclkInfo::CalUClkTicksPer1uS to 0x64 */ + dwc_ddrphy_apb_wr(0x120008, 0x64); /* DWC_DDRPHYA_MASTER0_CalUclkInfo_p1 */ + /* [phyinit_C_initPhyConfig] Pstate=2, Memclk=50MHz, Programming CalUclkInfo::CalUClkTicksPer1uS to 0x19 */ + dwc_ddrphy_apb_wr(0x220008, 0x19); /* DWC_DDRPHYA_MASTER0_CalUclkInfo_p2 */ + /* [phyinit_C_initPhyConfig] Programming CalRate::CalInterval to 0x9 */ + /* [phyinit_C_initPhyConfig] Programming CalRate::CalOnce to 0x0 */ + dwc_ddrphy_apb_wr(0x20088, 0x9); /* DWC_DDRPHYA_MASTER0_CalRate */ + /* [phyinit_C_initPhyConfig] Pstate=0, Programming VrefInGlobal::GlobalVrefInSel to 0x0 */ + /* [phyinit_C_initPhyConfig] Pstate=0, Programming VrefInGlobal::GlobalVrefInDAC to 0x4d */ + /* [phyinit_C_initPhyConfig] Pstate=0, Programming VrefInGlobal to 0x268 */ + dwc_ddrphy_apb_wr(0x200b2, 0x268); /* DWC_DDRPHYA_MASTER0_VrefInGlobal_p0 */ + /* [phyinit_C_initPhyConfig] Pstate=0, Programming DqDqsRcvCntrl::MajorModeDbyte to 0x3 */ + /* [phyinit_C_initPhyConfig] Pstate=0, Programming DqDqsRcvCntrl to 0x5b1 */ + dwc_ddrphy_apb_wr(0x10043, 0x5b1); /* DWC_DDRPHYA_DBYTE0_DqDqsRcvCntrl_b0_p0 */ + dwc_ddrphy_apb_wr(0x10143, 0x5b1); /* DWC_DDRPHYA_DBYTE0_DqDqsRcvCntrl_b1_p0 */ + dwc_ddrphy_apb_wr(0x11043, 0x5b1); /* DWC_DDRPHYA_DBYTE1_DqDqsRcvCntrl_b0_p0 */ + dwc_ddrphy_apb_wr(0x11143, 0x5b1); /* DWC_DDRPHYA_DBYTE1_DqDqsRcvCntrl_b1_p0 */ + dwc_ddrphy_apb_wr(0x12043, 0x5b1); /* DWC_DDRPHYA_DBYTE2_DqDqsRcvCntrl_b0_p0 */ + dwc_ddrphy_apb_wr(0x12143, 0x5b1); /* DWC_DDRPHYA_DBYTE2_DqDqsRcvCntrl_b1_p0 */ + dwc_ddrphy_apb_wr(0x13043, 0x5b1); /* DWC_DDRPHYA_DBYTE3_DqDqsRcvCntrl_b0_p0 */ + dwc_ddrphy_apb_wr(0x13143, 0x5b1); /* DWC_DDRPHYA_DBYTE3_DqDqsRcvCntrl_b1_p0 */ + /* [phyinit_C_initPhyConfig] Pstate=1, Programming VrefInGlobal::GlobalVrefInSel to 0x0 */ + /* [phyinit_C_initPhyConfig] Pstate=1, Programming VrefInGlobal::GlobalVrefInDAC to 0x4d */ + /* [phyinit_C_initPhyConfig] Pstate=1, Programming VrefInGlobal to 0x268 */ + dwc_ddrphy_apb_wr(0x1200b2, 0x268); /* DWC_DDRPHYA_MASTER0_VrefInGlobal_p1 */ + /* [phyinit_C_initPhyConfig] Pstate=1, Programming DqDqsRcvCntrl::MajorModeDbyte to 0x3 */ + /* [phyinit_C_initPhyConfig] Pstate=1, Programming DqDqsRcvCntrl to 0x5b1 */ + dwc_ddrphy_apb_wr(0x110043, 0x5b1); /* DWC_DDRPHYA_DBYTE0_DqDqsRcvCntrl_b0_p1 */ + dwc_ddrphy_apb_wr(0x110143, 0x5b1); /* DWC_DDRPHYA_DBYTE0_DqDqsRcvCntrl_b1_p1 */ + dwc_ddrphy_apb_wr(0x111043, 0x5b1); /* DWC_DDRPHYA_DBYTE1_DqDqsRcvCntrl_b0_p1 */ + dwc_ddrphy_apb_wr(0x111143, 0x5b1); /* DWC_DDRPHYA_DBYTE1_DqDqsRcvCntrl_b1_p1 */ + dwc_ddrphy_apb_wr(0x112043, 0x5b1); /* DWC_DDRPHYA_DBYTE2_DqDqsRcvCntrl_b0_p1 */ + dwc_ddrphy_apb_wr(0x112143, 0x5b1); /* DWC_DDRPHYA_DBYTE2_DqDqsRcvCntrl_b1_p1 */ + dwc_ddrphy_apb_wr(0x113043, 0x5b1); /* DWC_DDRPHYA_DBYTE3_DqDqsRcvCntrl_b0_p1 */ + dwc_ddrphy_apb_wr(0x113143, 0x5b1); /* DWC_DDRPHYA_DBYTE3_DqDqsRcvCntrl_b1_p1 */ + /* [phyinit_C_initPhyConfig] Pstate=2, Programming VrefInGlobal::GlobalVrefInSel to 0x0 */ + /* [phyinit_C_initPhyConfig] Pstate=2, Programming VrefInGlobal::GlobalVrefInDAC to 0x4d */ + /* [phyinit_C_initPhyConfig] Pstate=2, Programming VrefInGlobal to 0x268 */ + dwc_ddrphy_apb_wr(0x2200b2, 0x268); /* DWC_DDRPHYA_MASTER0_VrefInGlobal_p2 */ + /* [phyinit_C_initPhyConfig] Pstate=2, Programming DqDqsRcvCntrl::MajorModeDbyte to 0x3 */ + /* [phyinit_C_initPhyConfig] Pstate=2, Programming DqDqsRcvCntrl to 0x5b1 */ + dwc_ddrphy_apb_wr(0x210043, 0x5b1); /* DWC_DDRPHYA_DBYTE0_DqDqsRcvCntrl_b0_p2 */ + dwc_ddrphy_apb_wr(0x210143, 0x5b1); /* DWC_DDRPHYA_DBYTE0_DqDqsRcvCntrl_b1_p2 */ + dwc_ddrphy_apb_wr(0x211043, 0x5b1); /* DWC_DDRPHYA_DBYTE1_DqDqsRcvCntrl_b0_p2 */ + dwc_ddrphy_apb_wr(0x211143, 0x5b1); /* DWC_DDRPHYA_DBYTE1_DqDqsRcvCntrl_b1_p2 */ + dwc_ddrphy_apb_wr(0x212043, 0x5b1); /* DWC_DDRPHYA_DBYTE2_DqDqsRcvCntrl_b0_p2 */ + dwc_ddrphy_apb_wr(0x212143, 0x5b1); /* DWC_DDRPHYA_DBYTE2_DqDqsRcvCntrl_b1_p2 */ + dwc_ddrphy_apb_wr(0x213043, 0x5b1); /* DWC_DDRPHYA_DBYTE3_DqDqsRcvCntrl_b0_p2 */ + dwc_ddrphy_apb_wr(0x213143, 0x5b1); /* DWC_DDRPHYA_DBYTE3_DqDqsRcvCntrl_b1_p2 */ + /* [phyinit_C_initPhyConfig] Programming MemAlertControl::MALERTVrefLevel to 0x29 */ + /* [phyinit_C_initPhyConfig] Programming MemAlertControl::MALERTPuStren to 0x5 */ + /* [phyinit_C_initPhyConfig] Programming MemAlertControl to 0x7529 */ + /* [phyinit_C_initPhyConfig] Programming MemAlertControl2::MALERTSyncBypass to 0x0 */ + dwc_ddrphy_apb_wr(0x2005b, 0x7529); /* DWC_DDRPHYA_MASTER0_MemAlertControl */ + dwc_ddrphy_apb_wr(0x2005c, 0x0); /* DWC_DDRPHYA_MASTER0_MemAlertControl2 */ + /* [phyinit_C_initPhyConfig] Pstate=0, Memclk=1200MHz, Programming DfiFreqRatio_p0 to 0x1 */ + dwc_ddrphy_apb_wr(0x200fa, 0x1); /* DWC_DDRPHYA_MASTER0_DfiFreqRatio_p0 */ + /* [phyinit_C_initPhyConfig] Pstate=1, Memclk=200MHz, Programming DfiFreqRatio_p1 to 0x1 */ + dwc_ddrphy_apb_wr(0x1200fa, 0x1); /* DWC_DDRPHYA_MASTER0_DfiFreqRatio_p1 */ + /* [phyinit_C_initPhyConfig] Pstate=2, Memclk=50MHz, Programming DfiFreqRatio_p2 to 0x1 */ + dwc_ddrphy_apb_wr(0x2200fa, 0x1); /* DWC_DDRPHYA_MASTER0_DfiFreqRatio_p2 */ + /* [phyinit_C_initPhyConfig] Pstate=0, Memclk=1200MHz, Programming TristateModeCA::DisDynAdrTri_p0 to 0x1 */ + /* [phyinit_C_initPhyConfig] Pstate=0, Memclk=1200MHz, Programming TristateModeCA::DDR2TMode_p0 to 0x0 */ + dwc_ddrphy_apb_wr(0x20019, 0x5); /* DWC_DDRPHYA_MASTER0_TristateModeCA_p0 */ + /* [phyinit_C_initPhyConfig] Pstate=1, Memclk=200MHz, Programming TristateModeCA::DisDynAdrTri_p1 to 0x1 */ + /* [phyinit_C_initPhyConfig] Pstate=1, Memclk=200MHz, Programming TristateModeCA::DDR2TMode_p1 to 0x0 */ + dwc_ddrphy_apb_wr(0x120019, 0x5); /* DWC_DDRPHYA_MASTER0_TristateModeCA_p1 */ + /* [phyinit_C_initPhyConfig] Pstate=2, Memclk=50MHz, Programming TristateModeCA::DisDynAdrTri_p2 to 0x1 */ + /* [phyinit_C_initPhyConfig] Pstate=2, Memclk=50MHz, Programming TristateModeCA::DDR2TMode_p2 to 0x0 */ + dwc_ddrphy_apb_wr(0x220019, 0x5); /* DWC_DDRPHYA_MASTER0_TristateModeCA_p2 */ + /* [phyinit_C_initPhyConfig] Programming DfiFreqXlat* */ + dwc_ddrphy_apb_wr(0x200f0, 0x5665); /* DWC_DDRPHYA_MASTER0_DfiFreqXlat0 */ + dwc_ddrphy_apb_wr(0x200f1, 0x5555); /* DWC_DDRPHYA_MASTER0_DfiFreqXlat1 */ + dwc_ddrphy_apb_wr(0x200f2, 0x5555); /* DWC_DDRPHYA_MASTER0_DfiFreqXlat2 */ + dwc_ddrphy_apb_wr(0x200f3, 0x5555); /* DWC_DDRPHYA_MASTER0_DfiFreqXlat3 */ + dwc_ddrphy_apb_wr(0x200f4, 0x5555); /* DWC_DDRPHYA_MASTER0_DfiFreqXlat4 */ + dwc_ddrphy_apb_wr(0x200f5, 0x5555); /* DWC_DDRPHYA_MASTER0_DfiFreqXlat5 */ + dwc_ddrphy_apb_wr(0x200f6, 0x5555); /* DWC_DDRPHYA_MASTER0_DfiFreqXlat6 */ + dwc_ddrphy_apb_wr(0x200f7, 0xf000); /* DWC_DDRPHYA_MASTER0_DfiFreqXlat7 */ + /* [phyinit_C_initPhyConfig] Programming MasterX4Config::X4TG to 0x0 */ + dwc_ddrphy_apb_wr(0x20025, 0x0); /* DWC_DDRPHYA_MASTER0_MasterX4Config */ + /* [phyinit_C_initPhyConfig] Pstate=0, Memclk=1200MHz, Programming DMIPinPresent::RdDbiEnabled to 0x0 */ + dwc_ddrphy_apb_wr(0x2002d, 0x0); /* DWC_DDRPHYA_MASTER0_DMIPinPresent_p0 */ + /* [phyinit_C_initPhyConfig] Pstate=1, Memclk=200MHz, Programming DMIPinPresent::RdDbiEnabled to 0x0 */ + dwc_ddrphy_apb_wr(0x12002d, 0x0); /* DWC_DDRPHYA_MASTER0_DMIPinPresent_p1 */ + /* [phyinit_C_initPhyConfig] Pstate=2, Memclk=50MHz, Programming DMIPinPresent::RdDbiEnabled to 0x0 */ + dwc_ddrphy_apb_wr(0x22002d, 0x0); /* DWC_DDRPHYA_MASTER0_DMIPinPresent_p2 */ + /* [phyinit_C_initPhyConfig] End of dwc_ddrphy_phyinit_C_initPhyConfig() */ + /* */ + /* */ + /* ############################################################## */ + /* */ + /* dwc_ddrphy_phyihunit_userCustom_customPreTrain is a user-editable function. */ + /* */ + /* See PhyInit App Note for detailed description and function usage */ + /* */ + /* ############################################################## */ + ddr_dbg("add 845S pll setting in phyinit\n"); + /* [phyinit_userCustom_customPreTrain] Start of dwc_ddrphy_phyinit_userCustom_customPreTrain() */ + dwc_ddrphy_apb_wr(0x200c7, 0x21); /* DWC_DDRPHYA_MASTER0_PllCtrl1_p0 */ + dwc_ddrphy_apb_wr(0x200ca, 0x24); /* DWC_DDRPHYA_MASTER0_PllTestMode_p0 */ + /* [phyinit_userCustom_customPreTrain] End of dwc_ddrphy_phyinit_userCustom_customPreTrain() */ + /* [dwc_ddrphy_phyinit_D_loadIMEM, 1D] Start of dwc_ddrphy_phyinit_D_loadIMEM (Train2D=0) */ + /* */ + /* */ + /* ############################################################## */ + /* */ + /* (D) Load the 1D IMEM image */ + /* */ + /* This function loads the training firmware IMEM image into the SRAM. */ + /* See PhyInit App Note for detailed description and function usage */ + /* */ + /* ############################################################## */ + /* */ + /* */ + /* [dwc_ddrphy_phyinit_D_loadIMEM, 1D] Programming MemResetL to 0x2 */ + if (!after_retention) { + dwc_ddrphy_apb_wr(0x20060, 0x2); + + /* [dwc_ddrphy_phyinit_storeIncvFile] Reading input file: ../../../../firmware/A-2017.09/ddr4/ddr4_pmu_train_imem.incv */ + + /* 1. Enable access to the internal CSRs by setting the MicroContMuxSel CSR to 0. */ + /* This allows the memory controller unrestricted access to the configuration CSRs. */ + dwc_ddrphy_apb_wr(0xd0000, 0x0); /* DWC_DDRPHYA_APBONLY0_MicroContMuxSel */ + /* [dwc_ddrphy_phyinit_WriteOutMem] STARTING. offset 0x50000 size 0x4000 */ + /* [dwc_ddrphy_phyinit_WriteOutMem] DONE. Index 0x4000 */ + /* 2. Isolate the APB access from the internal CSRs by setting the MicroContMuxSel CSR to 1. */ + /* This allows the firmware unrestricted access to the configuration CSRs. */ + dwc_ddrphy_apb_wr(0xd0000, 0x1); /* DWC_DDRPHYA_APBONLY0_MicroContMuxSel */ + /* [dwc_ddrphy_phyinit_D_loadIMEM, 1D] End of dwc_ddrphy_phyinit_D_loadIMEM() */ + /* */ + /* */ + /* ############################################################## */ + /* */ + /* Step (E) Set the PHY input clocks to the desired frequency for pstate 0 */ + /* */ + /* See PhyInit App Note for detailed description and function usage */ + /* */ + /* ############################################################## */ + /* */ + /* dwc_ddrphy_phyinit_userCustom_E_setDfiClk (0); */ + + /* */ + /* [dwc_ddrphy_phyinit_userCustom_E_setDfiClk] End of dwc_ddrphy_phyinit_userCustom_E_setDfiClk() */ + /* [phyinit_F_loadDMEM, 1D] Start of dwc_ddrphy_phyinit_F_loadDMEM (pstate=0, Train2D=0) */ + + dwc_ddrphy_apb_wr(0xd0000, 0x0); /* DWC_DDRPHYA_APBONLY0_MicroContMuxSel */ + /* for test on silicon, load 1D dmem/imem here */ +#ifdef CONFIG_SPL_VSI_FW_LOADING + load_train_1d_code(); +#else + ddr_load_train_code(FW_1D_IMAGE); +#endif + ddr_dbg("start 1d train\n"); + + /* */ + /* ############################################################## */ + /* */ + /* (F) Load the 1D DMEM image and write the 1D Message Block parameters for the training firmware */ + /* */ + /* See PhyInit App Note for detailed description and function usage */ + /* */ + /* ############################################################## */ + /* */ + /* [dwc_ddrphy_phyinit_storeIncvFile] Reading input file: ../../../../firmware/A-2017.09/ddr4/ddr4_pmu_train_dmem.incv */ + + /* 1. Enable access to the internal CSRs by setting the MicroContMuxSel CSR to 0. */ + /* This allows the memory controller unrestricted access to the configuration CSRs. */ + dwc_ddrphy_apb_wr(0xd0000, 0x0); /* DWC_DDRPHYA_APBONLY0_MicroContMuxSel */ + /* [dwc_ddrphy_phyinit_WriteOutMem] STARTING. offset 0x54000 size 0x36a */ +#ifdef RUN_ON_SILICON + dwc_ddrphy_apb_wr(0x54000, 0x0); +#else + dwc_ddrphy_apb_wr(0x54000, 0x600); +#endif + dwc_ddrphy_apb_wr(0x54001, 0x0); + dwc_ddrphy_apb_wr(0x54002, 0x0); + dwc_ddrphy_apb_wr(0x54003, 0x960); + dwc_ddrphy_apb_wr(0x54004, 0x2); + dwc_ddrphy_apb_wr(0x54005, 0x0); + dwc_ddrphy_apb_wr(0x54006, 0x25e); + dwc_ddrphy_apb_wr(0x54007, 0x2000); +#ifdef DDR_ONE_RANK + dwc_ddrphy_apb_wr(0x54008, 0x101); + dwc_ddrphy_apb_wr(0x54009, 0x0); +#else + dwc_ddrphy_apb_wr(0x54008, 0x303); + dwc_ddrphy_apb_wr(0x54009, 0x200);/* no addr mirror, 0x200 addr mirror */ +#endif + dwc_ddrphy_apb_wr(0x5400a, 0x0); +#ifdef RUN_ON_SILICON + dwc_ddrphy_apb_wr(0x5400b, 0x31f); +#else + dwc_ddrphy_apb_wr(0x5400b, 0x1); +#endif + dwc_ddrphy_apb_wr(0x5400c, 0xc8); + dwc_ddrphy_apb_wr(0x5400d, 0x0); + dwc_ddrphy_apb_wr(0x5400e, 0x0); + dwc_ddrphy_apb_wr(0x5400f, 0x0); + dwc_ddrphy_apb_wr(0x54010, 0x0); + dwc_ddrphy_apb_wr(0x54011, 0x0); + dwc_ddrphy_apb_wr(0x54012, 0x1); + dwc_ddrphy_apb_wr(0x5402f, mr_value[0][0]); + dwc_ddrphy_apb_wr(0x54030, mr_value[0][1]); + dwc_ddrphy_apb_wr(0x54031, mr_value[0][2]); + dwc_ddrphy_apb_wr(0x54032, mr_value[0][3]); + dwc_ddrphy_apb_wr(0x54033, mr_value[0][4]); + dwc_ddrphy_apb_wr(0x54034, mr_value[0][5]); + dwc_ddrphy_apb_wr(0x54035, mr_value[0][6]); + +#ifdef DDR_ONE_RANK + dwc_ddrphy_apb_wr(0x54036, 0x101); +#else + dwc_ddrphy_apb_wr(0x54036, 0x103); +#endif + dwc_ddrphy_apb_wr(0x54037, 0x0); + dwc_ddrphy_apb_wr(0x54038, 0x0); + dwc_ddrphy_apb_wr(0x54039, 0x0); + dwc_ddrphy_apb_wr(0x5403a, 0x0); + dwc_ddrphy_apb_wr(0x5403b, 0x0); + dwc_ddrphy_apb_wr(0x5403c, 0x0); + dwc_ddrphy_apb_wr(0x5403d, 0x0); + dwc_ddrphy_apb_wr(0x5403e, 0x0); + dwc_ddrphy_apb_wr(0x5403f, 0x1221); + dwc_ddrphy_apb_wr(0x541fc, 0x100); + /* [dwc_ddrphy_phyinit_WriteOutMem] DONE. Index 0x36a */ + /* 2. Isolate the APB access from the internal CSRs by setting the MicroContMuxSel CSR to 1. */ + /* This allows the firmware unrestricted access to the configuration CSRs. */ + dwc_ddrphy_apb_wr(0xd0000, 0x1); /* DWC_DDRPHYA_APBONLY0_MicroContMuxSel */ + /* [phyinit_F_loadDMEM, 1D] End of dwc_ddrphy_phyinit_F_loadDMEM() */ + /* */ + /* */ + /* ############################################################## */ + /* */ + /* (G) Execute the Training Firmware */ + /* */ + /* See PhyInit App Note for detailed description and function usage */ + /* */ + /* ############################################################## */ + /* */ + /* */ + /* 1. Reset the firmware microcontroller by writing the MicroReset CSR to set the StallToMicro and */ + /* ResetToMicro fields to 1 (all other fields should be zero). */ + /* Then rewrite the CSR so that only the StallToMicro remains set (all other fields should be zero). */ + dwc_ddrphy_apb_wr(0xd0000, 0x1); /* DWC_DDRPHYA_APBONLY0_MicroContMuxSel */ + dwc_ddrphy_apb_wr(0xd0099, 0x9); /* DWC_DDRPHYA_APBONLY0_MicroReset */ + dwc_ddrphy_apb_wr(0xd0099, 0x1); /* DWC_DDRPHYA_APBONLY0_MicroReset */ + /* */ + /* 2. Begin execution of the training firmware by setting the MicroReset CSR to 4'b0000. */ + dwc_ddrphy_apb_wr(0xd0099, 0x0); /* DWC_DDRPHYA_APBONLY0_MicroReset */ + /* */ + /* 3. Wait for the training firmware to complete by following the procedure in "uCtrl Initialization and Mailbox Messaging" */ + /* [dwc_ddrphy_phyinit_userCustom_G_waitFwDone] Wait for the training firmware to complete. */ + /* Implement timeout fucntion or follow the procedure in "3.4 Running the firmware" of the Training Firmware Application Note to poll the Mailbox message. */ + dwc_ddrphy_phyinit_userCustom_G_waitFwDone (); + + /* [dwc_ddrphy_phyinit_userCustom_G_waitFwDone] End of dwc_ddrphy_phyinit_userCustom_G_waitFwDone() */ + /* 4. Halt the microcontroller." */ + dwc_ddrphy_apb_wr(0xd0099, 0x1); /* DWC_DDRPHYA_APBONLY0_MicroReset */ + /* [dwc_ddrphy_phyinit_G_execFW] End of dwc_ddrphy_phyinit_G_execFW () */ + /* */ + /* */ + /* ############################################################## */ + /* */ + /* (H) Read the Message Block results */ + /* */ + /* The procedure is as follows: */ + /* */ + /* ############################################################## */ + /* */ + /* */ + /* 1. Enable access to the internal CSRs by setting the MicroContMuxSel CSR to 0. */ + dwc_ddrphy_apb_wr(0xd0000, 0x0); /* DWC_DDRPHYA_APBONLY0_MicroContMuxSel */ + /* */ + /* 2. Read the Firmware Message Block to obtain the results from the training. */ + /* This can be accomplished by issuing APB read commands to the DMEM addresses. */ + /* Example: */ + /* if (Train2D) */ + /* { */ + /* _read_2d_message_block_outputs_ */ + /* } */ + /* else */ + /* { */ + /* _read_1d_message_block_outputs_ */ + /* } */ + dwc_ddrphy_phyinit_userCustom_H_readMsgBlock (0); + + /* [dwc_ddrphy_phyinit_userCustom_H_readMsgBlock] End of dwc_ddrphy_phyinit_userCustom_H_readMsgBlock () */ + /* 3. Isolate the APB access from the internal CSRs by setting the MicroContMuxSel CSR to 1. */ + dwc_ddrphy_apb_wr(0xd0000, 0x1); /* DWC_DDRPHYA_APBONLY0_MicroContMuxSel */ + /* 4. If training is required at another frequency, repeat the operations starting at step (E). */ + /* [dwc_ddrphy_phyinit_H_readMsgBlock] End of dwc_ddrphy_phyinit_H_readMsgBlock() */ + /* */ + /* */ + /* ############################################################## */ + /* */ + /* Step (E) Set the PHY input clocks to the desired frequency for pstate 1 */ + /* */ + /* See PhyInit App Note for detailed description and function usage */ + /* */ + /* ############################################################## */ + /* */ +#ifdef DDR4_SW_FFC + dwc_ddrphy_phyinit_userCustom_E_setDfiClk (1); + + /* */ + /* [dwc_ddrphy_phyinit_userCustom_E_setDfiClk] End of dwc_ddrphy_phyinit_userCustom_E_setDfiClk() */ + /* [phyinit_F_loadDMEM, 1D] Start of dwc_ddrphy_phyinit_F_loadDMEM (pstate=1, Train2D=0) */ + /* */ + /* */ + /* ############################################################## */ + /* */ + /* (F) Load the 1D DMEM image and write the 1D Message Block parameters for the training firmware */ + /* */ + /* See PhyInit App Note for detailed description and function usage */ + /* */ + /* ############################################################## */ + /* */ + /* [dwc_ddrphy_phyinit_storeIncvFile] Reading input file: ../../../../firmware/A-2017.09/ddr4/ddr4_pmu_train_dmem.incv */ + + /* 1. Enable access to the internal CSRs by setting the MicroContMuxSel CSR to 0. */ + /* This allows the memory controller unrestricted access to the configuration CSRs. */ + dwc_ddrphy_apb_wr(0xd0000, 0x0); /* DWC_DDRPHYA_APBONLY0_MicroContMuxSel */ + /* [dwc_ddrphy_phyinit_WriteOutMem] STARTING. offset 0x54000 size 0x36a */ +#ifdef RUN_ON_SILICON + dwc_ddrphy_apb_wr(0x54000, 0x0); +#else + dwc_ddrphy_apb_wr(0x54000, 0x600); +#endif + dwc_ddrphy_apb_wr(0x54001, 0x0); + dwc_ddrphy_apb_wr(0x54002, 0x101); + dwc_ddrphy_apb_wr(0x54003, 0x190); + dwc_ddrphy_apb_wr(0x54004, 0x2); + dwc_ddrphy_apb_wr(0x54005, 0x0); + dwc_ddrphy_apb_wr(0x54006, 0x25e); + dwc_ddrphy_apb_wr(0x54007, 0x2000); +#ifdef DDR_ONE_RANK + dwc_ddrphy_apb_wr(0x54008, 0x101); + dwc_ddrphy_apb_wr(0x54009, 0x0); +#else + dwc_ddrphy_apb_wr(0x54008, 0x303); + dwc_ddrphy_apb_wr(0x54009, 0x200); +#endif + dwc_ddrphy_apb_wr(0x5400a, 0x0); +#ifdef RUN_ON_SILICON + dwc_ddrphy_apb_wr(0x5400b, 0x21f); +#else + dwc_ddrphy_apb_wr(0x5400b, 0x5); +#endif + dwc_ddrphy_apb_wr(0x5400c, 0xc8); + dwc_ddrphy_apb_wr(0x5400d, 0x0); + dwc_ddrphy_apb_wr(0x5400e, 0x0); + dwc_ddrphy_apb_wr(0x5400f, 0x0); + dwc_ddrphy_apb_wr(0x54010, 0x0); + dwc_ddrphy_apb_wr(0x54011, 0x0); + dwc_ddrphy_apb_wr(0x54012, 0x1); + dwc_ddrphy_apb_wr(0x5402f, mr_value[1][0]); + dwc_ddrphy_apb_wr(0x54030, mr_value[1][1]); + dwc_ddrphy_apb_wr(0x54031, mr_value[1][2]); + dwc_ddrphy_apb_wr(0x54032, mr_value[1][3]); + dwc_ddrphy_apb_wr(0x54033, mr_value[1][4]); + dwc_ddrphy_apb_wr(0x54034, mr_value[1][5]); + dwc_ddrphy_apb_wr(0x54035, mr_value[1][6]); + +#ifdef DDR_ONE_RANK + dwc_ddrphy_apb_wr(0x54036, 0x101); +#else + dwc_ddrphy_apb_wr(0x54036, 0x103); +#endif + dwc_ddrphy_apb_wr(0x54037, 0x0); + dwc_ddrphy_apb_wr(0x54038, 0x0); + dwc_ddrphy_apb_wr(0x54039, 0x0); + dwc_ddrphy_apb_wr(0x5403a, 0x0); + dwc_ddrphy_apb_wr(0x5403b, 0x0); + dwc_ddrphy_apb_wr(0x5403c, 0x0); + dwc_ddrphy_apb_wr(0x5403d, 0x0); + dwc_ddrphy_apb_wr(0x5403e, 0x0); + dwc_ddrphy_apb_wr(0x5403f, 0x1221); + dwc_ddrphy_apb_wr(0x541fc, 0x100); + /* [dwc_ddrphy_phyinit_WriteOutMem] DONE. Index 0x36a */ + /* 2. Isolate the APB access from the internal CSRs by setting the MicroContMuxSel CSR to 1. */ + /* This allows the firmware unrestricted access to the configuration CSRs. */ + dwc_ddrphy_apb_wr(0xd0000, 0x1); /* DWC_DDRPHYA_APBONLY0_MicroContMuxSel */ + /* [phyinit_F_loadDMEM, 1D] End of dwc_ddrphy_phyinit_F_loadDMEM() */ + /* */ + /* */ + /* ############################################################## */ + /* */ + /* (G) Execute the Training Firmware */ + /* */ + /* See PhyInit App Note for detailed description and function usage */ + /* */ + /* ############################################################## */ + /* */ + /* */ + /* 1. Reset the firmware microcontroller by writing the MicroReset CSR to set the StallToMicro and */ + /* ResetToMicro fields to 1 (all other fields should be zero). */ + /* Then rewrite the CSR so that only the StallToMicro remains set (all other fields should be zero). */ + dwc_ddrphy_apb_wr(0xd0000, 0x1); /* DWC_DDRPHYA_APBONLY0_MicroContMuxSel */ + dwc_ddrphy_apb_wr(0xd0099, 0x9); /* DWC_DDRPHYA_APBONLY0_MicroReset */ + dwc_ddrphy_apb_wr(0xd0099, 0x1); /* DWC_DDRPHYA_APBONLY0_MicroReset */ + /* */ + /* 2. Begin execution of the training firmware by setting the MicroReset CSR to 4'b0000. */ + dwc_ddrphy_apb_wr(0xd0099, 0x0); /* DWC_DDRPHYA_APBONLY0_MicroReset */ + /* */ + /* 3. Wait for the training firmware to complete by following the procedure in "uCtrl Initialization and Mailbox Messaging" */ + /* [dwc_ddrphy_phyinit_userCustom_G_waitFwDone] Wait for the training firmware to complete. Implement timeout fucntion or follow the procedure in "3.4 Running the firmware" of the Training Firmware Application Note to poll the Mailbox message. */ + dwc_ddrphy_phyinit_userCustom_G_waitFwDone (); + + /* [dwc_ddrphy_phyinit_userCustom_G_waitFwDone] End of dwc_ddrphy_phyinit_userCustom_G_waitFwDone() */ + /* 4. Halt the microcontroller." */ + dwc_ddrphy_apb_wr(0xd0099, 0x1); /* DWC_DDRPHYA_APBONLY0_MicroReset */ + /* [dwc_ddrphy_phyinit_G_execFW] End of dwc_ddrphy_phyinit_G_execFW () */ + /* */ + /* */ + /* ############################################################## */ + /* */ + /* (H) Read the Message Block results */ + /* */ + /* The procedure is as follows: */ + /* */ + /* ############################################################## */ + /* */ + /* */ + /* 1. Enable access to the internal CSRs by setting the MicroContMuxSel CSR to 0. */ + dwc_ddrphy_apb_wr(0xd0000, 0x0); /* DWC_DDRPHYA_APBONLY0_MicroContMuxSel */ + /* */ + /* 2. Read the Firmware Message Block to obtain the results from the training. */ + /* This can be accomplished by issuing APB read commands to the DMEM addresses. */ + /* Example: */ + /* if (Train2D) */ + /* { */ + /* _read_2d_message_block_outputs_ */ + /* } */ + /* else */ + /* { */ + /* _read_1d_message_block_outputs_ */ + /* } */ + dwc_ddrphy_phyinit_userCustom_H_readMsgBlock (0); + + /* [dwc_ddrphy_phyinit_userCustom_H_readMsgBlock] End of dwc_ddrphy_phyinit_userCustom_H_readMsgBlock () */ + /* 3. Isolate the APB access from the internal CSRs by setting the MicroContMuxSel CSR to 1. */ + dwc_ddrphy_apb_wr(0xd0000, 0x1); /* DWC_DDRPHYA_APBONLY0_MicroContMuxSel */ + /* 4. If training is required at another frequency, repeat the operations starting at step (E). */ + /* [dwc_ddrphy_phyinit_H_readMsgBlock] End of dwc_ddrphy_phyinit_H_readMsgBlock() */ + /* */ + /* */ + /* ############################################################## */ + /* */ + /* Step (E) Set the PHY input clocks to the desired frequency for pstate 2 */ + /* */ + /* See PhyInit App Note for detailed description and function usage */ + /* */ + /* ############################################################## */ + /* */ + dwc_ddrphy_phyinit_userCustom_E_setDfiClk (2); + + /* */ + /* [dwc_ddrphy_phyinit_userCustom_E_setDfiClk] End of dwc_ddrphy_phyinit_userCustom_E_setDfiClk() */ + /* [phyinit_F_loadDMEM, 1D] Start of dwc_ddrphy_phyinit_F_loadDMEM (pstate=2, Train2D=0) */ + /* */ + /* */ + /* ############################################################## */ + /* */ + /* (F) Load the 1D DMEM image and write the 1D Message Block parameters for the training firmware */ + /* */ + /* See PhyInit App Note for detailed description and function usage */ + /* */ + /* ############################################################## */ + /* */ + /* [dwc_ddrphy_phyinit_storeIncvFile] Reading input file: ../../../../firmware/A-2017.09/ddr4/ddr4_pmu_train_dmem.incv */ + + /* 1. Enable access to the internal CSRs by setting the MicroContMuxSel CSR to 0. */ + /* This allows the memory controller unrestricted access to the configuration CSRs. */ + dwc_ddrphy_apb_wr(0xd0000, 0x0); /* DWC_DDRPHYA_APBONLY0_MicroContMuxSel */ + /* [dwc_ddrphy_phyinit_WriteOutMem] STARTING. offset 0x54000 size 0x36a */ +#ifdef RUN_ON_SILICON + dwc_ddrphy_apb_wr(0x54000, 0x0); +#else + dwc_ddrphy_apb_wr(0x54000, 0x600); +#endif + dwc_ddrphy_apb_wr(0x54001, 0x0); + dwc_ddrphy_apb_wr(0x54002, 0x102); + dwc_ddrphy_apb_wr(0x54003, 0x64); + dwc_ddrphy_apb_wr(0x54004, 0x2); + dwc_ddrphy_apb_wr(0x54005, 0x0); + dwc_ddrphy_apb_wr(0x54006, 0x25e); + dwc_ddrphy_apb_wr(0x54007, 0x2000); +#ifdef DDR_ONE_RANK + dwc_ddrphy_apb_wr(0x54008, 0x101); + dwc_ddrphy_apb_wr(0x54009, 0x0); +#else + dwc_ddrphy_apb_wr(0x54008, 0x303); + dwc_ddrphy_apb_wr(0x54009, 0x200); +#endif + dwc_ddrphy_apb_wr(0x5400a, 0x0); +#ifdef RUN_ON_SILICON + dwc_ddrphy_apb_wr(0x5400b, 0x21f); +#else + dwc_ddrphy_apb_wr(0x5400b, 0x5); +#endif + dwc_ddrphy_apb_wr(0x5400c, 0xc8); + dwc_ddrphy_apb_wr(0x5400d, 0x0); + dwc_ddrphy_apb_wr(0x5400e, 0x0); + dwc_ddrphy_apb_wr(0x5400f, 0x0); + dwc_ddrphy_apb_wr(0x54010, 0x0); + dwc_ddrphy_apb_wr(0x54011, 0x0); + dwc_ddrphy_apb_wr(0x54012, 0x1); + dwc_ddrphy_apb_wr(0x5402f, mr_value[2][0]); + dwc_ddrphy_apb_wr(0x54030, mr_value[2][1]); + dwc_ddrphy_apb_wr(0x54031, mr_value[2][2]); + dwc_ddrphy_apb_wr(0x54032, mr_value[2][3]); + dwc_ddrphy_apb_wr(0x54033, mr_value[2][4]); + dwc_ddrphy_apb_wr(0x54034, mr_value[2][5]); + dwc_ddrphy_apb_wr(0x54035, mr_value[2][6]); + +#ifdef DDR_ONE_RANK + dwc_ddrphy_apb_wr(0x54036, 0x101); +#else + dwc_ddrphy_apb_wr(0x54036, 0x103); +#endif + dwc_ddrphy_apb_wr(0x54037, 0x0); + dwc_ddrphy_apb_wr(0x54038, 0x0); + dwc_ddrphy_apb_wr(0x54039, 0x0); + dwc_ddrphy_apb_wr(0x5403a, 0x0); + dwc_ddrphy_apb_wr(0x5403b, 0x0); + dwc_ddrphy_apb_wr(0x5403c, 0x0); + dwc_ddrphy_apb_wr(0x5403d, 0x0); + dwc_ddrphy_apb_wr(0x5403e, 0x0); + dwc_ddrphy_apb_wr(0x5403f, 0x1221); + dwc_ddrphy_apb_wr(0x541fc, 0x100); + /* [dwc_ddrphy_phyinit_WriteOutMem] DONE. Index 0x36a */ + /* 2. Isolate the APB access from the internal CSRs by setting the MicroContMuxSel CSR to 1. */ + /* This allows the firmware unrestricted access to the configuration CSRs. */ + dwc_ddrphy_apb_wr(0xd0000, 0x1); /* DWC_DDRPHYA_APBONLY0_MicroContMuxSel */ + /* [phyinit_F_loadDMEM, 1D] End of dwc_ddrphy_phyinit_F_loadDMEM() */ + /* */ + /* */ + /* ############################################################## */ + /* */ + /* (G) Execute the Training Firmware */ + /* */ + /* See PhyInit App Note for detailed description and function usage */ + /* */ + /* ############################################################## */ + /* */ + /* */ + /* 1. Reset the firmware microcontroller by writing the MicroReset CSR to set the StallToMicro and */ + /* ResetToMicro fields to 1 (all other fields should be zero). */ + /* Then rewrite the CSR so that only the StallToMicro remains set (all other fields should be zero). */ + dwc_ddrphy_apb_wr(0xd0000, 0x1); /* DWC_DDRPHYA_APBONLY0_MicroContMuxSel */ + dwc_ddrphy_apb_wr(0xd0099, 0x9); /* DWC_DDRPHYA_APBONLY0_MicroReset */ + dwc_ddrphy_apb_wr(0xd0099, 0x1); /* DWC_DDRPHYA_APBONLY0_MicroReset */ + /* */ + /* 2. Begin execution of the training firmware by setting the MicroReset CSR to 4'b0000. */ + dwc_ddrphy_apb_wr(0xd0099, 0x0); /* DWC_DDRPHYA_APBONLY0_MicroReset */ + /* */ + /* 3. Wait for the training firmware to complete by following the procedure in "uCtrl Initialization and Mailbox Messaging" */ + /* [dwc_ddrphy_phyinit_userCustom_G_waitFwDone] Wait for the training firmware to complete. Implement timeout fucntion or follow the procedure in "3.4 Running the firmware" of the Training Firmware Application Note to poll the Mailbox message. */ + dwc_ddrphy_phyinit_userCustom_G_waitFwDone (); + + /* [dwc_ddrphy_phyinit_userCustom_G_waitFwDone] End of dwc_ddrphy_phyinit_userCustom_G_waitFwDone() */ + /* 4. Halt the microcontroller." */ + dwc_ddrphy_apb_wr(0xd0099, 0x1); /* DWC_DDRPHYA_APBONLY0_MicroReset */ + /* [dwc_ddrphy_phyinit_G_execFW] End of dwc_ddrphy_phyinit_G_execFW () */ + /* */ + /* */ + /* ############################################################## */ + /* */ + /* (H) Read the Message Block results */ + /* */ + /* The procedure is as follows: */ + /* */ + /* ############################################################## */ + /* */ + /* */ + /* 1. Enable access to the internal CSRs by setting the MicroContMuxSel CSR to 0. */ + dwc_ddrphy_apb_wr(0xd0000, 0x0); /* DWC_DDRPHYA_APBONLY0_MicroContMuxSel */ + /* */ + /* 2. Read the Firmware Message Block to obtain the results from the training. */ + /* This can be accomplished by issuing APB read commands to the DMEM addresses. */ + /* Example: */ + /* if (Train2D) */ + /* { */ + /* _read_2d_message_block_outputs_ */ + /* } */ + /* else */ + /* { */ + /* _read_1d_message_block_outputs_ */ + /* } */ + dwc_ddrphy_phyinit_userCustom_H_readMsgBlock (0); + + /* [dwc_ddrphy_phyinit_userCustom_H_readMsgBlock] End of dwc_ddrphy_phyinit_userCustom_H_readMsgBlock () */ + /* 3. Isolate the APB access from the internal CSRs by setting the MicroContMuxSel CSR to 1. */ + dwc_ddrphy_apb_wr(0xd0000, 0x1); /* DWC_DDRPHYA_APBONLY0_MicroContMuxSel */ + /* 4. If training is required at another frequency, repeat the operations starting at step (E). */ + /* [dwc_ddrphy_phyinit_H_readMsgBlock] End of dwc_ddrphy_phyinit_H_readMsgBlock() */ + /* */ + /* */ + /* ############################################################## */ + /* */ + /* Step (E) Set the PHY input clocks to the desired frequency for pstate 0 */ + /* */ + /* See PhyInit App Note for detailed description and function usage */ + /* */ + /* ############################################################## */ + /* */ + dwc_ddrphy_phyinit_userCustom_E_setDfiClk (0); +#endif /* DDR4_SW_FFC */ + + /* */ + /* [dwc_ddrphy_phyinit_userCustom_E_setDfiClk] End of dwc_ddrphy_phyinit_userCustom_E_setDfiClk() */ + /* [dwc_ddrphy_phyinit_D_loadIMEM, 2D] Start of dwc_ddrphy_phyinit_D_loadIMEM (Train2D=1) */ + /* */ + /* */ + /* ############################################################## */ + /* */ + /* (D) Load the 2D IMEM image */ + /* */ + /* This function loads the training firmware IMEM image into the SRAM. */ + /* See PhyInit App Note for detailed description and function usage */ + /* */ + /* ############################################################## */ + /* */ + /* */ + /* [dwc_ddrphy_phyinit_storeIncvFile] Reading input file: ../../../../firmware/A-2017.09/ddr4_2d/ddr4_2d_pmu_train_imem.incv */ + + /* 1. Enable access to the internal CSRs by setting the MicroContMuxSel CSR to 0. */ + /* This allows the memory controller unrestricted access to the configuration CSRs. */ + dwc_ddrphy_apb_wr(0xd0000, 0x0); /* DWC_DDRPHYA_APBONLY0_MicroContMuxSel */ + /* [dwc_ddrphy_phyinit_WriteOutMem] STARTING. offset 0x50000 size 0x4000 */ + /* [dwc_ddrphy_phyinit_WriteOutMem] DONE. Index 0x4000 */ + /* 2. Isolate the APB access from the internal CSRs by setting the MicroContMuxSel CSR to 1. */ + /* This allows the firmware unrestricted access to the configuration CSRs. */ + dwc_ddrphy_apb_wr(0xd0000, 0x1); /* DWC_DDRPHYA_APBONLY0_MicroContMuxSel */ + /* [dwc_ddrphy_phyinit_D_loadIMEM, 2D] End of dwc_ddrphy_phyinit_D_loadIMEM() */ + /* [phyinit_F_loadDMEM, 2D] Start of dwc_ddrphy_phyinit_F_loadDMEM (pstate=0, Train2D=1) */ + /* */ + /* */ + /* ############################################################## */ + /* */ + /* (F) Load the 2D DMEM image and write the 2D Message Block parameters for the training firmware */ + /* */ + /* See PhyInit App Note for detailed description and function usage */ + /* */ + /* ############################################################## */ + /* */ + /* [dwc_ddrphy_phyinit_storeIncvFile] Reading input file: ../../../../firmware/A-2017.09/ddr4_2d/ddr4_2d_pmu_train_dmem.incv */ + + ddr_dbg("C: 1D training done!!! \n"); + + if (Train2D) { + /* for test on silicon, load 2D dmem/imem here */ + dwc_ddrphy_apb_wr(0xd0000, 0x0); /* DWC_DDRPHYA_APBONLY0_MicroContMuxSel */ +#ifdef CONFIG_SPL_VSI_FW_LOADING + load_train_2d_code(); +#else + ddr_load_train_code(FW_2D_IMAGE); +#endif + ddr_dbg("start 2d train\n"); + + /* 1. Enable access to the internal CSRs by setting the MicroContMuxSel CSR to 0. */ + /* This allows the memory controller unrestricted access to the configuration CSRs. */ + dwc_ddrphy_apb_wr(0xd0000, 0x0); /* DWC_DDRPHYA_APBONLY0_MicroContMuxSel */ + /* [dwc_ddrphy_phyinit_WriteOutMem] STARTING. offset 0x54000 size 0x2d6 */ +#ifdef RUN_ON_SILICON + dwc_ddrphy_apb_wr(0x54000, 0x0); +#else + dwc_ddrphy_apb_wr(0x54000, 0x600); +#endif + dwc_ddrphy_apb_wr(0x54001, 0x0); + dwc_ddrphy_apb_wr(0x54002, 0x0); + dwc_ddrphy_apb_wr(0x54003, 0x960); + dwc_ddrphy_apb_wr(0x54004, 0x2); + dwc_ddrphy_apb_wr(0x54005, 0x0); + dwc_ddrphy_apb_wr(0x54006, 0x25e); + dwc_ddrphy_apb_wr(0x54007, 0x2000); +#ifdef DDR_ONE_RANK + dwc_ddrphy_apb_wr(0x54008, 0x101); + dwc_ddrphy_apb_wr(0x54009, 0x0); +#else + dwc_ddrphy_apb_wr(0x54008, 0x303); + dwc_ddrphy_apb_wr(0x54009, 0x200); +#endif + dwc_ddrphy_apb_wr(0x5400a, 0x0); +#ifdef RUN_ON_SILICON + dwc_ddrphy_apb_wr(0x5400b, 0x61); +#else + dwc_ddrphy_apb_wr(0x5400b, 0x1); +#endif + dwc_ddrphy_apb_wr(0x5400c, 0xc8); + dwc_ddrphy_apb_wr(0x5400d, 0x100); + dwc_ddrphy_apb_wr(0x5400e, 0x1f7f); + dwc_ddrphy_apb_wr(0x5400f, 0x0); + dwc_ddrphy_apb_wr(0x54010, 0x0); + dwc_ddrphy_apb_wr(0x54011, 0x0); + dwc_ddrphy_apb_wr(0x54012, 0x1); + dwc_ddrphy_apb_wr(0x5402f, mr_value[0][0]); + dwc_ddrphy_apb_wr(0x54030, mr_value[0][1]); + dwc_ddrphy_apb_wr(0x54031, mr_value[0][2]); + dwc_ddrphy_apb_wr(0x54032, mr_value[0][3]); + dwc_ddrphy_apb_wr(0x54033, mr_value[0][4]); + dwc_ddrphy_apb_wr(0x54034, mr_value[0][5]); + dwc_ddrphy_apb_wr(0x54035, mr_value[0][6]); +#ifdef DDR_ONE_RANK + dwc_ddrphy_apb_wr(0x54036, 0x101); +#else + dwc_ddrphy_apb_wr(0x54036, 0x103); +#endif + dwc_ddrphy_apb_wr(0x54037, 0x0); + dwc_ddrphy_apb_wr(0x54038, 0x0); + dwc_ddrphy_apb_wr(0x54039, 0x0); + dwc_ddrphy_apb_wr(0x5403a, 0x0); + dwc_ddrphy_apb_wr(0x5403b, 0x0); + dwc_ddrphy_apb_wr(0x5403c, 0x0); + dwc_ddrphy_apb_wr(0x5403d, 0x0); + dwc_ddrphy_apb_wr(0x5403e, 0x0); + dwc_ddrphy_apb_wr(0x5403f, 0x1221); + dwc_ddrphy_apb_wr(0x541fc, 0x100); + /* [dwc_ddrphy_phyinit_WriteOutMem] DONE. Index 0x2d6 */ + /* 2. Isolate the APB access from the internal CSRs by setting the MicroContMuxSel CSR to 1. */ + /* This allows the firmware unrestricted access to the configuration CSRs. */ + dwc_ddrphy_apb_wr(0xd0000, 0x1); /* DWC_DDRPHYA_APBONLY0_MicroContMuxSel */ + /* [phyinit_F_loadDMEM, 2D] End of dwc_ddrphy_phyinit_F_loadDMEM() */ + /* */ + /* */ + /* ############################################################## */ + /* */ + /* (G) Execute the Training Firmware */ + /* */ + /* See PhyInit App Note for detailed description and function usage */ + /* */ + /* ############################################################## */ + /* */ + /* */ + /* 1. Reset the firmware microcontroller by writing the MicroReset CSR to set the StallToMicro and */ + /* ResetToMicro fields to 1 (all other fields should be zero). */ + /* Then rewrite the CSR so that only the StallToMicro remains set (all other fields should be zero). */ + dwc_ddrphy_apb_wr(0xd0000, 0x1); /* DWC_DDRPHYA_APBONLY0_MicroContMuxSel */ + dwc_ddrphy_apb_wr(0xd0099, 0x9); /* DWC_DDRPHYA_APBONLY0_MicroReset */ + dwc_ddrphy_apb_wr(0xd0099, 0x1); /* DWC_DDRPHYA_APBONLY0_MicroReset */ + /* */ + /* 2. Begin execution of the training firmware by setting the MicroReset CSR to 4'b0000. */ + dwc_ddrphy_apb_wr(0xd0099, 0x0); /* DWC_DDRPHYA_APBONLY0_MicroReset */ + /* */ + /* 3. Wait for the training firmware to complete by following the procedure in "uCtrl Initialization and Mailbox Messaging" */ + /* [dwc_ddrphy_phyinit_userCustom_G_waitFwDone] Wait for the training firmware to complete. Implement timeout fucntion or follow the procedure in "3.4 Running the firmware" of the Training Firmware Application Note to poll the Mailbox message. */ + dwc_ddrphy_phyinit_userCustom_G_waitFwDone (); + + /* [dwc_ddrphy_phyinit_userCustom_G_waitFwDone] End of dwc_ddrphy_phyinit_userCustom_G_waitFwDone() */ + /* 4. Halt the microcontroller." */ + dwc_ddrphy_apb_wr(0xd0099, 0x1); /* DWC_DDRPHYA_APBONLY0_MicroReset */ + /* [dwc_ddrphy_phyinit_G_execFW] End of dwc_ddrphy_phyinit_G_execFW () */ + /* */ + /* */ + /* ############################################################## */ + /* */ + /* (H) Read the Message Block results */ + /* */ + /* The procedure is as follows: */ + /* */ + /* ############################################################## */ + /* */ + /* */ + /* 1. Enable access to the internal CSRs by setting the MicroContMuxSel CSR to 0. */ + dwc_ddrphy_apb_wr(0xd0000, 0x0); /* DWC_DDRPHYA_APBONLY0_MicroContMuxSel */ + /* */ + /* 2. Read the Firmware Message Block to obtain the results from the training. */ + /* This can be accomplished by issuing APB read commands to the DMEM addresses. */ + /* Example: */ + /* if (Train2D) */ + /* { */ + /* _read_2d_message_block_outputs_ */ + /* } */ + /* else */ + /* { */ + /* _read_1d_message_block_outputs_ */ + /* } */ + dwc_ddrphy_phyinit_userCustom_H_readMsgBlock (1); + + /* [dwc_ddrphy_phyinit_userCustom_H_readMsgBlock] End of dwc_ddrphy_phyinit_userCustom_H_readMsgBlock () */ + /* 3. Isolate the APB access from the internal CSRs by setting the MicroContMuxSel CSR to 1. */ + dwc_ddrphy_apb_wr(0xd0000, 0x1); /* DWC_DDRPHYA_APBONLY0_MicroContMuxSel */ + /* 4. If training is required at another frequency, repeat the operations starting at step (E). */ + /* [dwc_ddrphy_phyinit_H_readMsgBlock] End of dwc_ddrphy_phyinit_H_readMsgBlock() */ + /* [phyinit_I_loadPIEImage] Start of dwc_ddrphy_phyinit_I_loadPIEImage() */ + ddr_dbg("2D training done!!!!\n"); + + } /* Train2D */ + } /* !after_retention */ +#ifdef ENABLE_RETENTION + else { /* after_retention */ + restore_1d2d_trained_csr_ddr4_p012(SAVE_DDRPHY_TRAIN_ADDR); + } /* after_retention */ +#endif + + /* */ + /* */ + /* ############################################################## */ + /* */ + /* (I) Load PHY Init Engine Image */ + /* */ + /* Load the PHY Initialization Engine memory with the provided initialization sequence. */ + /* See PhyInit App Note for detailed description and function usage */ + /* */ + /* */ + /* ############################################################## */ + /* */ + /* */ + /* Enable access to the internal CSRs by setting the MicroContMuxSel CSR to 0. */ + /* This allows the memory controller unrestricted access to the configuration CSRs. */ + dwc_ddrphy_apb_wr(0xd0000, 0x0); /* DWC_DDRPHYA_APBONLY0_MicroContMuxSel */ + /* [phyinit_I_loadPIEImage] Programming PIE Production Code */ + dwc_ddrphy_apb_wr(0x90000, 0x10); /* DWC_DDRPHYA_INITENG0_PreSequenceReg0b0s0 */ + dwc_ddrphy_apb_wr(0x90001, 0x400); /* DWC_DDRPHYA_INITENG0_PreSequenceReg0b0s1 */ + dwc_ddrphy_apb_wr(0x90002, 0x10e); /* DWC_DDRPHYA_INITENG0_PreSequenceReg0b0s2 */ + dwc_ddrphy_apb_wr(0x90003, 0x0); /* DWC_DDRPHYA_INITENG0_PreSequenceReg0b1s0 */ + dwc_ddrphy_apb_wr(0x90004, 0x0); /* DWC_DDRPHYA_INITENG0_PreSequenceReg0b1s1 */ + dwc_ddrphy_apb_wr(0x90005, 0x8); /* DWC_DDRPHYA_INITENG0_PreSequenceReg0b1s2 */ + dwc_ddrphy_apb_wr(0x90029, 0xb); /* DWC_DDRPHYA_INITENG0_SequenceReg0b0s0 */ + dwc_ddrphy_apb_wr(0x9002a, 0x480); /* DWC_DDRPHYA_INITENG0_SequenceReg0b0s1 */ + dwc_ddrphy_apb_wr(0x9002b, 0x109); /* DWC_DDRPHYA_INITENG0_SequenceReg0b0s2 */ + dwc_ddrphy_apb_wr(0x9002c, 0x8); /* DWC_DDRPHYA_INITENG0_SequenceReg0b1s0 */ + dwc_ddrphy_apb_wr(0x9002d, 0x448); /* DWC_DDRPHYA_INITENG0_SequenceReg0b1s1 */ + dwc_ddrphy_apb_wr(0x9002e, 0x139); /* DWC_DDRPHYA_INITENG0_SequenceReg0b1s2 */ + dwc_ddrphy_apb_wr(0x9002f, 0x8); /* DWC_DDRPHYA_INITENG0_SequenceReg0b2s0 */ + dwc_ddrphy_apb_wr(0x90030, 0x478); /* DWC_DDRPHYA_INITENG0_SequenceReg0b2s1 */ + dwc_ddrphy_apb_wr(0x90031, 0x109); /* DWC_DDRPHYA_INITENG0_SequenceReg0b2s2 */ + dwc_ddrphy_apb_wr(0x90032, 0x2); /* DWC_DDRPHYA_INITENG0_SequenceReg0b3s0 */ + dwc_ddrphy_apb_wr(0x90033, 0x10); /* DWC_DDRPHYA_INITENG0_SequenceReg0b3s1 */ + dwc_ddrphy_apb_wr(0x90034, 0x139); /* DWC_DDRPHYA_INITENG0_SequenceReg0b3s2 */ + dwc_ddrphy_apb_wr(0x90035, 0xf); /* DWC_DDRPHYA_INITENG0_SequenceReg0b4s0 */ + dwc_ddrphy_apb_wr(0x90036, 0x7c0); /* DWC_DDRPHYA_INITENG0_SequenceReg0b4s1 */ + dwc_ddrphy_apb_wr(0x90037, 0x139); /* DWC_DDRPHYA_INITENG0_SequenceReg0b4s2 */ + dwc_ddrphy_apb_wr(0x90038, 0x44); /* DWC_DDRPHYA_INITENG0_SequenceReg0b5s0 */ + dwc_ddrphy_apb_wr(0x90039, 0x630); /* DWC_DDRPHYA_INITENG0_SequenceReg0b5s1 */ + dwc_ddrphy_apb_wr(0x9003a, 0x159); /* DWC_DDRPHYA_INITENG0_SequenceReg0b5s2 */ + dwc_ddrphy_apb_wr(0x9003b, 0x14f); /* DWC_DDRPHYA_INITENG0_SequenceReg0b6s0 */ + dwc_ddrphy_apb_wr(0x9003c, 0x630); /* DWC_DDRPHYA_INITENG0_SequenceReg0b6s1 */ + dwc_ddrphy_apb_wr(0x9003d, 0x159); /* DWC_DDRPHYA_INITENG0_SequenceReg0b6s2 */ + dwc_ddrphy_apb_wr(0x9003e, 0x47); /* DWC_DDRPHYA_INITENG0_SequenceReg0b7s0 */ + dwc_ddrphy_apb_wr(0x9003f, 0x630); /* DWC_DDRPHYA_INITENG0_SequenceReg0b7s1 */ + dwc_ddrphy_apb_wr(0x90040, 0x149); /* DWC_DDRPHYA_INITENG0_SequenceReg0b7s2 */ + dwc_ddrphy_apb_wr(0x90041, 0x4f); /* DWC_DDRPHYA_INITENG0_SequenceReg0b8s0 */ + dwc_ddrphy_apb_wr(0x90042, 0x630); /* DWC_DDRPHYA_INITENG0_SequenceReg0b8s1 */ + dwc_ddrphy_apb_wr(0x90043, 0x179); /* DWC_DDRPHYA_INITENG0_SequenceReg0b8s2 */ + dwc_ddrphy_apb_wr(0x90044, 0x8); /* DWC_DDRPHYA_INITENG0_SequenceReg0b9s0 */ + dwc_ddrphy_apb_wr(0x90045, 0xe0); /* DWC_DDRPHYA_INITENG0_SequenceReg0b9s1 */ + dwc_ddrphy_apb_wr(0x90046, 0x109); /* DWC_DDRPHYA_INITENG0_SequenceReg0b9s2 */ + dwc_ddrphy_apb_wr(0x90047, 0x0); /* DWC_DDRPHYA_INITENG0_SequenceReg0b10s0 */ + dwc_ddrphy_apb_wr(0x90048, 0x7c8); /* DWC_DDRPHYA_INITENG0_SequenceReg0b10s1 */ + dwc_ddrphy_apb_wr(0x90049, 0x109); /* DWC_DDRPHYA_INITENG0_SequenceReg0b10s2 */ + dwc_ddrphy_apb_wr(0x9004a, 0x0); /* DWC_DDRPHYA_INITENG0_SequenceReg0b11s0 */ + dwc_ddrphy_apb_wr(0x9004b, 0x1); /* DWC_DDRPHYA_INITENG0_SequenceReg0b11s1 */ + dwc_ddrphy_apb_wr(0x9004c, 0x8); /* DWC_DDRPHYA_INITENG0_SequenceReg0b11s2 */ + dwc_ddrphy_apb_wr(0x9004d, 0x0); /* DWC_DDRPHYA_INITENG0_SequenceReg0b12s0 */ + dwc_ddrphy_apb_wr(0x9004e, 0x45a); /* DWC_DDRPHYA_INITENG0_SequenceReg0b12s1 */ + dwc_ddrphy_apb_wr(0x9004f, 0x9); /* DWC_DDRPHYA_INITENG0_SequenceReg0b12s2 */ + dwc_ddrphy_apb_wr(0x90050, 0x0); /* DWC_DDRPHYA_INITENG0_SequenceReg0b13s0 */ + dwc_ddrphy_apb_wr(0x90051, 0x448); /* DWC_DDRPHYA_INITENG0_SequenceReg0b13s1 */ + dwc_ddrphy_apb_wr(0x90052, 0x109); /* DWC_DDRPHYA_INITENG0_SequenceReg0b13s2 */ + dwc_ddrphy_apb_wr(0x90053, 0x40); /* DWC_DDRPHYA_INITENG0_SequenceReg0b14s0 */ + dwc_ddrphy_apb_wr(0x90054, 0x630); /* DWC_DDRPHYA_INITENG0_SequenceReg0b14s1 */ + dwc_ddrphy_apb_wr(0x90055, 0x179); /* DWC_DDRPHYA_INITENG0_SequenceReg0b14s2 */ + dwc_ddrphy_apb_wr(0x90056, 0x1); /* DWC_DDRPHYA_INITENG0_SequenceReg0b15s0 */ + dwc_ddrphy_apb_wr(0x90057, 0x618); /* DWC_DDRPHYA_INITENG0_SequenceReg0b15s1 */ + dwc_ddrphy_apb_wr(0x90058, 0x109); /* DWC_DDRPHYA_INITENG0_SequenceReg0b15s2 */ + dwc_ddrphy_apb_wr(0x90059, 0x40c0); /* DWC_DDRPHYA_INITENG0_SequenceReg0b16s0 */ + dwc_ddrphy_apb_wr(0x9005a, 0x630); /* DWC_DDRPHYA_INITENG0_SequenceReg0b16s1 */ + dwc_ddrphy_apb_wr(0x9005b, 0x149); /* DWC_DDRPHYA_INITENG0_SequenceReg0b16s2 */ + dwc_ddrphy_apb_wr(0x9005c, 0x8); /* DWC_DDRPHYA_INITENG0_SequenceReg0b17s0 */ + dwc_ddrphy_apb_wr(0x9005d, 0x4); /* DWC_DDRPHYA_INITENG0_SequenceReg0b17s1 */ + dwc_ddrphy_apb_wr(0x9005e, 0x48); /* DWC_DDRPHYA_INITENG0_SequenceReg0b17s2 */ + dwc_ddrphy_apb_wr(0x9005f, 0x4040); /* DWC_DDRPHYA_INITENG0_SequenceReg0b18s0 */ + dwc_ddrphy_apb_wr(0x90060, 0x630); /* DWC_DDRPHYA_INITENG0_SequenceReg0b18s1 */ + dwc_ddrphy_apb_wr(0x90061, 0x149); /* DWC_DDRPHYA_INITENG0_SequenceReg0b18s2 */ + dwc_ddrphy_apb_wr(0x90062, 0x0); /* DWC_DDRPHYA_INITENG0_SequenceReg0b19s0 */ + dwc_ddrphy_apb_wr(0x90063, 0x4); /* DWC_DDRPHYA_INITENG0_SequenceReg0b19s1 */ + dwc_ddrphy_apb_wr(0x90064, 0x48); /* DWC_DDRPHYA_INITENG0_SequenceReg0b19s2 */ + dwc_ddrphy_apb_wr(0x90065, 0x40); /* DWC_DDRPHYA_INITENG0_SequenceReg0b20s0 */ + dwc_ddrphy_apb_wr(0x90066, 0x630); /* DWC_DDRPHYA_INITENG0_SequenceReg0b20s1 */ + dwc_ddrphy_apb_wr(0x90067, 0x149); /* DWC_DDRPHYA_INITENG0_SequenceReg0b20s2 */ + dwc_ddrphy_apb_wr(0x90068, 0x10); /* DWC_DDRPHYA_INITENG0_SequenceReg0b21s0 */ + dwc_ddrphy_apb_wr(0x90069, 0x4); /* DWC_DDRPHYA_INITENG0_SequenceReg0b21s1 */ + dwc_ddrphy_apb_wr(0x9006a, 0x18); /* DWC_DDRPHYA_INITENG0_SequenceReg0b21s2 */ + dwc_ddrphy_apb_wr(0x9006b, 0x0); /* DWC_DDRPHYA_INITENG0_SequenceReg0b22s0 */ + dwc_ddrphy_apb_wr(0x9006c, 0x4); /* DWC_DDRPHYA_INITENG0_SequenceReg0b22s1 */ + dwc_ddrphy_apb_wr(0x9006d, 0x78); /* DWC_DDRPHYA_INITENG0_SequenceReg0b22s2 */ + dwc_ddrphy_apb_wr(0x9006e, 0x549); /* DWC_DDRPHYA_INITENG0_SequenceReg0b23s0 */ + dwc_ddrphy_apb_wr(0x9006f, 0x630); /* DWC_DDRPHYA_INITENG0_SequenceReg0b23s1 */ + dwc_ddrphy_apb_wr(0x90070, 0x159); /* DWC_DDRPHYA_INITENG0_SequenceReg0b23s2 */ + dwc_ddrphy_apb_wr(0x90071, 0xd49); /* DWC_DDRPHYA_INITENG0_SequenceReg0b24s0 */ + dwc_ddrphy_apb_wr(0x90072, 0x630); /* DWC_DDRPHYA_INITENG0_SequenceReg0b24s1 */ + dwc_ddrphy_apb_wr(0x90073, 0x159); /* DWC_DDRPHYA_INITENG0_SequenceReg0b24s2 */ + dwc_ddrphy_apb_wr(0x90074, 0x94a); /* DWC_DDRPHYA_INITENG0_SequenceReg0b25s0 */ + dwc_ddrphy_apb_wr(0x90075, 0x630); /* DWC_DDRPHYA_INITENG0_SequenceReg0b25s1 */ + dwc_ddrphy_apb_wr(0x90076, 0x159); /* DWC_DDRPHYA_INITENG0_SequenceReg0b25s2 */ + dwc_ddrphy_apb_wr(0x90077, 0x441); /* DWC_DDRPHYA_INITENG0_SequenceReg0b26s0 */ + dwc_ddrphy_apb_wr(0x90078, 0x630); /* DWC_DDRPHYA_INITENG0_SequenceReg0b26s1 */ + dwc_ddrphy_apb_wr(0x90079, 0x149); /* DWC_DDRPHYA_INITENG0_SequenceReg0b26s2 */ + dwc_ddrphy_apb_wr(0x9007a, 0x42); /* DWC_DDRPHYA_INITENG0_SequenceReg0b27s0 */ + dwc_ddrphy_apb_wr(0x9007b, 0x630); /* DWC_DDRPHYA_INITENG0_SequenceReg0b27s1 */ + dwc_ddrphy_apb_wr(0x9007c, 0x149); /* DWC_DDRPHYA_INITENG0_SequenceReg0b27s2 */ + dwc_ddrphy_apb_wr(0x9007d, 0x1); /* DWC_DDRPHYA_INITENG0_SequenceReg0b28s0 */ + dwc_ddrphy_apb_wr(0x9007e, 0x630); /* DWC_DDRPHYA_INITENG0_SequenceReg0b28s1 */ + dwc_ddrphy_apb_wr(0x9007f, 0x149); /* DWC_DDRPHYA_INITENG0_SequenceReg0b28s2 */ + dwc_ddrphy_apb_wr(0x90080, 0x0); /* DWC_DDRPHYA_INITENG0_SequenceReg0b29s0 */ + dwc_ddrphy_apb_wr(0x90081, 0xe0); /* DWC_DDRPHYA_INITENG0_SequenceReg0b29s1 */ + dwc_ddrphy_apb_wr(0x90082, 0x109); /* DWC_DDRPHYA_INITENG0_SequenceReg0b29s2 */ + dwc_ddrphy_apb_wr(0x90083, 0xa); /* DWC_DDRPHYA_INITENG0_SequenceReg0b30s0 */ + dwc_ddrphy_apb_wr(0x90084, 0x10); /* DWC_DDRPHYA_INITENG0_SequenceReg0b30s1 */ + dwc_ddrphy_apb_wr(0x90085, 0x109); /* DWC_DDRPHYA_INITENG0_SequenceReg0b30s2 */ + dwc_ddrphy_apb_wr(0x90086, 0x9); /* DWC_DDRPHYA_INITENG0_SequenceReg0b31s0 */ + dwc_ddrphy_apb_wr(0x90087, 0x3c0); /* DWC_DDRPHYA_INITENG0_SequenceReg0b31s1 */ + dwc_ddrphy_apb_wr(0x90088, 0x149); /* DWC_DDRPHYA_INITENG0_SequenceReg0b31s2 */ + dwc_ddrphy_apb_wr(0x90089, 0x9); /* DWC_DDRPHYA_INITENG0_SequenceReg0b32s0 */ + dwc_ddrphy_apb_wr(0x9008a, 0x3c0); /* DWC_DDRPHYA_INITENG0_SequenceReg0b32s1 */ + dwc_ddrphy_apb_wr(0x9008b, 0x159); /* DWC_DDRPHYA_INITENG0_SequenceReg0b32s2 */ + dwc_ddrphy_apb_wr(0x9008c, 0x18); /* DWC_DDRPHYA_INITENG0_SequenceReg0b33s0 */ + dwc_ddrphy_apb_wr(0x9008d, 0x10); /* DWC_DDRPHYA_INITENG0_SequenceReg0b33s1 */ + dwc_ddrphy_apb_wr(0x9008e, 0x109); /* DWC_DDRPHYA_INITENG0_SequenceReg0b33s2 */ + dwc_ddrphy_apb_wr(0x9008f, 0x0); /* DWC_DDRPHYA_INITENG0_SequenceReg0b34s0 */ + dwc_ddrphy_apb_wr(0x90090, 0x3c0); /* DWC_DDRPHYA_INITENG0_SequenceReg0b34s1 */ + dwc_ddrphy_apb_wr(0x90091, 0x109); /* DWC_DDRPHYA_INITENG0_SequenceReg0b34s2 */ + dwc_ddrphy_apb_wr(0x90092, 0x18); /* DWC_DDRPHYA_INITENG0_SequenceReg0b35s0 */ + dwc_ddrphy_apb_wr(0x90093, 0x4); /* DWC_DDRPHYA_INITENG0_SequenceReg0b35s1 */ + dwc_ddrphy_apb_wr(0x90094, 0x48); /* DWC_DDRPHYA_INITENG0_SequenceReg0b35s2 */ + dwc_ddrphy_apb_wr(0x90095, 0x18); /* DWC_DDRPHYA_INITENG0_SequenceReg0b36s0 */ + dwc_ddrphy_apb_wr(0x90096, 0x4); /* DWC_DDRPHYA_INITENG0_SequenceReg0b36s1 */ + dwc_ddrphy_apb_wr(0x90097, 0x58); /* DWC_DDRPHYA_INITENG0_SequenceReg0b36s2 */ + dwc_ddrphy_apb_wr(0x90098, 0xa); /* DWC_DDRPHYA_INITENG0_SequenceReg0b37s0 */ + dwc_ddrphy_apb_wr(0x90099, 0x10); /* DWC_DDRPHYA_INITENG0_SequenceReg0b37s1 */ + dwc_ddrphy_apb_wr(0x9009a, 0x109); /* DWC_DDRPHYA_INITENG0_SequenceReg0b37s2 */ + dwc_ddrphy_apb_wr(0x9009b, 0x2); /* DWC_DDRPHYA_INITENG0_SequenceReg0b38s0 */ + dwc_ddrphy_apb_wr(0x9009c, 0x10); /* DWC_DDRPHYA_INITENG0_SequenceReg0b38s1 */ + dwc_ddrphy_apb_wr(0x9009d, 0x109); /* DWC_DDRPHYA_INITENG0_SequenceReg0b38s2 */ + dwc_ddrphy_apb_wr(0x9009e, 0x7); /* DWC_DDRPHYA_INITENG0_SequenceReg0b39s0 */ + dwc_ddrphy_apb_wr(0x9009f, 0x7c0); /* DWC_DDRPHYA_INITENG0_SequenceReg0b39s1 */ + dwc_ddrphy_apb_wr(0x900a0, 0x109); /* DWC_DDRPHYA_INITENG0_SequenceReg0b39s2 */ + dwc_ddrphy_apb_wr(0x900a1, 0x10); /* DWC_DDRPHYA_INITENG0_SequenceReg0b40s0 */ + dwc_ddrphy_apb_wr(0x900a2, 0x10); /* DWC_DDRPHYA_INITENG0_SequenceReg0b40s1 */ + dwc_ddrphy_apb_wr(0x900a3, 0x109); /* DWC_DDRPHYA_INITENG0_SequenceReg0b40s2 */ + dwc_ddrphy_apb_wr(0x900a4, 0x0); /* DWC_DDRPHYA_INITENG0_SequenceReg0b41s0 */ + dwc_ddrphy_apb_wr(0x900a5, 0x8140); /* DWC_DDRPHYA_INITENG0_SequenceReg0b41s1 */ + dwc_ddrphy_apb_wr(0x900a6, 0x10c); /* DWC_DDRPHYA_INITENG0_SequenceReg0b41s2 */ + dwc_ddrphy_apb_wr(0x900a7, 0x10); /* DWC_DDRPHYA_INITENG0_SequenceReg0b42s0 */ + dwc_ddrphy_apb_wr(0x900a8, 0x8138); /* DWC_DDRPHYA_INITENG0_SequenceReg0b42s1 */ + dwc_ddrphy_apb_wr(0x900a9, 0x10c); /* DWC_DDRPHYA_INITENG0_SequenceReg0b42s2 */ + dwc_ddrphy_apb_wr(0x900aa, 0x8); /* DWC_DDRPHYA_INITENG0_SequenceReg0b43s0 */ + dwc_ddrphy_apb_wr(0x900ab, 0x7c8); /* DWC_DDRPHYA_INITENG0_SequenceReg0b43s1 */ + dwc_ddrphy_apb_wr(0x900ac, 0x101); /* DWC_DDRPHYA_INITENG0_SequenceReg0b43s2 */ + dwc_ddrphy_apb_wr(0x900ad, 0x8); /* DWC_DDRPHYA_INITENG0_SequenceReg0b44s0 */ + dwc_ddrphy_apb_wr(0x900ae, 0x0); /* DWC_DDRPHYA_INITENG0_SequenceReg0b44s1 */ + dwc_ddrphy_apb_wr(0x900af, 0x8); /* DWC_DDRPHYA_INITENG0_SequenceReg0b44s2 */ + dwc_ddrphy_apb_wr(0x900b0, 0x8); /* DWC_DDRPHYA_INITENG0_SequenceReg0b45s0 */ + dwc_ddrphy_apb_wr(0x900b1, 0x448); /* DWC_DDRPHYA_INITENG0_SequenceReg0b45s1 */ + dwc_ddrphy_apb_wr(0x900b2, 0x109); /* DWC_DDRPHYA_INITENG0_SequenceReg0b45s2 */ + dwc_ddrphy_apb_wr(0x900b3, 0xf); /* DWC_DDRPHYA_INITENG0_SequenceReg0b46s0 */ + dwc_ddrphy_apb_wr(0x900b4, 0x7c0); /* DWC_DDRPHYA_INITENG0_SequenceReg0b46s1 */ + dwc_ddrphy_apb_wr(0x900b5, 0x109); /* DWC_DDRPHYA_INITENG0_SequenceReg0b46s2 */ + dwc_ddrphy_apb_wr(0x900b6, 0x47); /* DWC_DDRPHYA_INITENG0_SequenceReg0b47s0 */ + dwc_ddrphy_apb_wr(0x900b7, 0x630); /* DWC_DDRPHYA_INITENG0_SequenceReg0b47s1 */ + dwc_ddrphy_apb_wr(0x900b8, 0x109); /* DWC_DDRPHYA_INITENG0_SequenceReg0b47s2 */ + dwc_ddrphy_apb_wr(0x900b9, 0x8); /* DWC_DDRPHYA_INITENG0_SequenceReg0b48s0 */ + dwc_ddrphy_apb_wr(0x900ba, 0x618); /* DWC_DDRPHYA_INITENG0_SequenceReg0b48s1 */ + dwc_ddrphy_apb_wr(0x900bb, 0x109); /* DWC_DDRPHYA_INITENG0_SequenceReg0b48s2 */ + dwc_ddrphy_apb_wr(0x900bc, 0x8); /* DWC_DDRPHYA_INITENG0_SequenceReg0b49s0 */ + dwc_ddrphy_apb_wr(0x900bd, 0xe0); /* DWC_DDRPHYA_INITENG0_SequenceReg0b49s1 */ + dwc_ddrphy_apb_wr(0x900be, 0x109); /* DWC_DDRPHYA_INITENG0_SequenceReg0b49s2 */ + dwc_ddrphy_apb_wr(0x900bf, 0x0); /* DWC_DDRPHYA_INITENG0_SequenceReg0b50s0 */ + dwc_ddrphy_apb_wr(0x900c0, 0x7c8); /* DWC_DDRPHYA_INITENG0_SequenceReg0b50s1 */ + dwc_ddrphy_apb_wr(0x900c1, 0x109); /* DWC_DDRPHYA_INITENG0_SequenceReg0b50s2 */ + dwc_ddrphy_apb_wr(0x900c2, 0x8); /* DWC_DDRPHYA_INITENG0_SequenceReg0b51s0 */ + dwc_ddrphy_apb_wr(0x900c3, 0x8140); /* DWC_DDRPHYA_INITENG0_SequenceReg0b51s1 */ + dwc_ddrphy_apb_wr(0x900c4, 0x10c); /* DWC_DDRPHYA_INITENG0_SequenceReg0b51s2 */ + dwc_ddrphy_apb_wr(0x900c5, 0x0); /* DWC_DDRPHYA_INITENG0_SequenceReg0b52s0 */ + dwc_ddrphy_apb_wr(0x900c6, 0x1); /* DWC_DDRPHYA_INITENG0_SequenceReg0b52s1 */ + dwc_ddrphy_apb_wr(0x900c7, 0x8); /* DWC_DDRPHYA_INITENG0_SequenceReg0b52s2 */ + dwc_ddrphy_apb_wr(0x900c8, 0x8); /* DWC_DDRPHYA_INITENG0_SequenceReg0b53s0 */ + dwc_ddrphy_apb_wr(0x900c9, 0x4); /* DWC_DDRPHYA_INITENG0_SequenceReg0b53s1 */ + dwc_ddrphy_apb_wr(0x900ca, 0x8); /* DWC_DDRPHYA_INITENG0_SequenceReg0b53s2 */ + dwc_ddrphy_apb_wr(0x900cb, 0x8); /* DWC_DDRPHYA_INITENG0_SequenceReg0b54s0 */ + dwc_ddrphy_apb_wr(0x900cc, 0x7c8); /* DWC_DDRPHYA_INITENG0_SequenceReg0b54s1 */ + dwc_ddrphy_apb_wr(0x900cd, 0x101); /* DWC_DDRPHYA_INITENG0_SequenceReg0b54s2 */ + dwc_ddrphy_apb_wr(0x90006, 0x0); /* DWC_DDRPHYA_INITENG0_PostSequenceReg0b0s0 */ + dwc_ddrphy_apb_wr(0x90007, 0x0); /* DWC_DDRPHYA_INITENG0_PostSequenceReg0b0s1 */ + dwc_ddrphy_apb_wr(0x90008, 0x8); /* DWC_DDRPHYA_INITENG0_PostSequenceReg0b0s2 */ + dwc_ddrphy_apb_wr(0x90009, 0x0); /* DWC_DDRPHYA_INITENG0_PostSequenceReg0b1s0 */ + dwc_ddrphy_apb_wr(0x9000a, 0x0); /* DWC_DDRPHYA_INITENG0_PostSequenceReg0b1s1 */ + dwc_ddrphy_apb_wr(0x9000b, 0x0); /* DWC_DDRPHYA_INITENG0_PostSequenceReg0b1s2 */ + dwc_ddrphy_apb_wr(0xd00e7, 0x400); /* DWC_DDRPHYA_APBONLY0_SequencerOverride */ + dwc_ddrphy_apb_wr(0x90017, 0x0); /* DWC_DDRPHYA_INITENG0_StartVector0b0 */ + dwc_ddrphy_apb_wr(0x90026, 0x2c); /* DWC_DDRPHYA_INITENG0_StartVector0b15 */ + /* [phyinit_I_loadPIEImage] Pstate=0, Memclk=1200MHz, Programming Seq0BDLY0 to 0x4b */ + dwc_ddrphy_apb_wr(0x2000b, 0x4b); /* DWC_DDRPHYA_MASTER0_Seq0BDLY0_p0 */ + /* [phyinit_I_loadPIEImage] Pstate=0, Memclk=1200MHz, Programming Seq0BDLY1 to 0x96 */ + dwc_ddrphy_apb_wr(0x2000c, 0x96); /* DWC_DDRPHYA_MASTER0_Seq0BDLY1_p0 */ + /* [phyinit_I_loadPIEImage] Pstate=0, Memclk=1200MHz, Programming Seq0BDLY2 to 0x5dc */ + dwc_ddrphy_apb_wr(0x2000d, 0x5dc); /* DWC_DDRPHYA_MASTER0_Seq0BDLY2_p0 */ + /* [phyinit_I_loadPIEImage] Pstate=0, Memclk=1200MHz, Programming Seq0BDLY3 to 0x2c */ + dwc_ddrphy_apb_wr(0x2000e, 0x2c); /* DWC_DDRPHYA_MASTER0_Seq0BDLY3_p0 */ + /* [phyinit_I_loadPIEImage] Pstate=1, Memclk=200MHz, Programming Seq0BDLY0 to 0xc */ + dwc_ddrphy_apb_wr(0x12000b, 0xc); /* DWC_DDRPHYA_MASTER0_Seq0BDLY0_p1 */ + /* [phyinit_I_loadPIEImage] Pstate=1, Memclk=200MHz, Programming Seq0BDLY1 to 0x19 */ + dwc_ddrphy_apb_wr(0x12000c, 0x19); /* DWC_DDRPHYA_MASTER0_Seq0BDLY1_p1 */ + /* [phyinit_I_loadPIEImage] Pstate=1, Memclk=200MHz, Programming Seq0BDLY2 to 0xfa */ + dwc_ddrphy_apb_wr(0x12000d, 0xfa); /* DWC_DDRPHYA_MASTER0_Seq0BDLY2_p1 */ + /* [phyinit_I_loadPIEImage] Pstate=1, Memclk=200MHz, Programming Seq0BDLY3 to 0x10 */ + dwc_ddrphy_apb_wr(0x12000e, 0x10); /* DWC_DDRPHYA_MASTER0_Seq0BDLY3_p1 */ + /* [phyinit_I_loadPIEImage] Pstate=2, Memclk=50MHz, Programming Seq0BDLY0 to 0x3 */ + dwc_ddrphy_apb_wr(0x22000b, 0x3); /* DWC_DDRPHYA_MASTER0_Seq0BDLY0_p2 */ + /* [phyinit_I_loadPIEImage] Pstate=2, Memclk=50MHz, Programming Seq0BDLY1 to 0x6 */ + dwc_ddrphy_apb_wr(0x22000c, 0x6); /* DWC_DDRPHYA_MASTER0_Seq0BDLY1_p2 */ + /* [phyinit_I_loadPIEImage] Pstate=2, Memclk=50MHz, Programming Seq0BDLY2 to 0x3e */ + dwc_ddrphy_apb_wr(0x22000d, 0x3e); /* DWC_DDRPHYA_MASTER0_Seq0BDLY2_p2 */ + /* [phyinit_I_loadPIEImage] Pstate=2, Memclk=50MHz, Programming Seq0BDLY3 to 0x10 */ + dwc_ddrphy_apb_wr(0x22000e, 0x10); /* DWC_DDRPHYA_MASTER0_Seq0BDLY3_p2 */ + dwc_ddrphy_apb_wr(0x9000c, 0x0); /* DWC_DDRPHYA_INITENG0_Seq0BDisableFlag0 */ + dwc_ddrphy_apb_wr(0x9000d, 0x173); /* DWC_DDRPHYA_INITENG0_Seq0BDisableFlag1 */ + dwc_ddrphy_apb_wr(0x9000e, 0x60); /* DWC_DDRPHYA_INITENG0_Seq0BDisableFlag2 */ + dwc_ddrphy_apb_wr(0x9000f, 0x6110); /* DWC_DDRPHYA_INITENG0_Seq0BDisableFlag3 */ + dwc_ddrphy_apb_wr(0x90010, 0x2152); /* DWC_DDRPHYA_INITENG0_Seq0BDisableFlag4 */ + dwc_ddrphy_apb_wr(0x90011, 0xdfbd); /* DWC_DDRPHYA_INITENG0_Seq0BDisableFlag5 */ + dwc_ddrphy_apb_wr(0x90012, 0xffff); /* DWC_DDRPHYA_INITENG0_Seq0BDisableFlag6 */ + dwc_ddrphy_apb_wr(0x90013, 0x6152); /* DWC_DDRPHYA_INITENG0_Seq0BDisableFlag7 */ + /* Disabling Ucclk (PMU) and Hclk (training hardware) */ + dwc_ddrphy_apb_wr(0xc0080, 0x0); /* DWC_DDRPHYA_DRTUB0_UcclkHclkEnables */ + /* Isolate the APB access from the internal CSRs by setting the MicroContMuxSel CSR to 1. */ + dwc_ddrphy_apb_wr(0xd0000, 0x1); /* DWC_DDRPHYA_APBONLY0_MicroContMuxSel */ + /* [phyinit_I_loadPIEImage] End of dwc_ddrphy_phyinit_I_loadPIEImage() */ + /* */ + /* */ + /* ############################################################## */ + /* */ + /* dwc_ddrphy_phyinit_userCustom_customPostTrain is a user-editable function. */ + /* */ + /* See PhyInit App Note for detailed description and function usage */ + /* */ + /* ############################################################## */ + /* */ + dwc_ddrphy_phyinit_userCustom_customPostTrain (); + + /* [dwc_ddrphy_phyinit_userCustom_customPostTrain] End of dwc_ddrphy_phyinit_userCustom_customPostTrain() */ + /* [dwc_ddrphy_phyinit_userCustom_J_enterMissionMode] Start of dwc_ddrphy_phyinit_userCustom_J_enterMissionMode() */ + /* */ + /* */ + /* ############################################################## */ + /* */ + /* (J) Initialize the PHY to Mission Mode through DFI Initialization */ + /* */ + /* Initialize the PHY to mission mode as follows: */ + /* */ + /* 1. Set the PHY input clocks to the desired frequency. */ + /* 2. Initialize the PHY to mission mode by performing DFI Initialization. */ + /* Please see the DFI specification for more information. See the DFI frequency bus encoding in section . */ + /* Note: The PHY training firmware initializes the DRAM state. if skip */ + /* training is used, the DRAM state is not initialized. */ + /* */ + /* ############################################################## */ + /* */ + dwc_ddrphy_phyinit_userCustom_J_enterMissionMode (); + + /* */ + /* [dwc_ddrphy_phyinit_userCustom_J_enterMissionMode] End of dwc_ddrphy_phyinit_userCustom_J_enterMissionMode() */ + /* [dwc_ddrphy_phyinit_sequence] End of dwc_ddrphy_phyinit_sequence() */ + /* [dwc_ddrphy_phyinit_main] End of dwc_ddrphy_phyinit_main() */ + + /* ---------------------------------------------------------------------- */ + /* save 1d2d training CSR */ + /* ---------------------------------------------------------------------- */ +#ifdef ENABLE_RETENTION + if (!after_retention) { + save_1d2d_trained_csr_ddr4_p012(SAVE_DDRPHY_TRAIN_ADDR); + } +#endif +} diff --git a/board/freescale/imx8mm_evk/ddr/ddr4/ddr4_phyinit_task.c b/board/freescale/imx8mm_evk/ddr/ddr4/ddr4_phyinit_task.c new file mode 100644 index 0000000000..af7dab0812 --- /dev/null +++ b/board/freescale/imx8mm_evk/ddr/ddr4/ddr4_phyinit_task.c @@ -0,0 +1,79 @@ +/* + * Copyright 2018 NXP + * + * SPDX-License-Identifier: GPL-2.0+ + */ + +#include +#include +#include +#include +#include +#include "ddr4_define.h" + +extern unsigned int mr_value[3][7]; +void dwc_ddrphy_phyinit_userCustom_E_setDfiClk (unsigned int pstate) { + if (pstate == 1) { + ddr_dbg("C: pstate1 ...\n"); +#ifdef PLLBYPASS_250MBPS + dram_enable_bypass(DRAM_BYPASSCLK_250M); +#endif +#ifdef PLLBYPASS_400MBPS + dram_enable_bypass(DRAM_BYPASSCLK_400M); +#endif + } else if (pstate == 2) { + ddr_dbg("C: pstate2 ...\n"); + dram_enable_bypass(DRAM_BYPASSCLK_100M); + } else { + ddr_dbg("C: pstate0 ...\n"); + dram_pll_init(DRAM_PLL_OUT_600M); + dram_disable_bypass(); + } +} + +void dwc_ddrphy_phyinit_userCustom_G_waitFwDone(void) +{ + wait_ddrphy_training_complete(); +} +void dwc_ddrphy_phyinit_userCustom_overrideUserInput (void) {} +void dwc_ddrphy_phyinit_userCustom_A_bringupPower (void) {} +void dwc_ddrphy_phyinit_userCustom_B_startClockResetPhy (void) {} +void dwc_ddrphy_phyinit_userCustom_H_readMsgBlock(unsigned int Train2D) {} +void dwc_ddrphy_phyinit_userCustom_customPostTrain(void) {} +void dwc_ddrphy_phyinit_userCustom_J_enterMissionMode(void) {} + +void ddr4_mr_write(unsigned int mr, unsigned int data, unsigned int read, unsigned int rank) +{ + unsigned int tmp, mr_mirror, data_mirror; + + /* 1. Poll MRSTAT.mr_wr_busy until it is 0. This checks that there is no outstanding MR transaction. No */ + /* writes should be performed to MRCTRL0 and MRCTRL1 if MRSTAT.mr_wr_busy = 1. */ + do { + tmp = reg32_read(DDRC_MRSTAT(0)); + } while (tmp & 0x1); + + /* 2. Write the MRCTRL0.mr_type, MRCTRL0.mr_addr, MRCTRL0.mr_rank and (for MRWs) */ + /* MRCTRL1.mr_data to define the MR transaction. */ + /* (A3, A4), (A5, A6), (A7, A8), (BA0, BA1), (A11, A13), */ + tmp = reg32_read(DDRC_DIMMCTL(0)); + if ((tmp & 0x2) && (rank == 0x2)) { + mr_mirror = (mr & 0x4) | ((mr & 0x1) << 1) | ((mr & 0x2) >> 1);/* BA0, BA1 swap */ + data_mirror = (data & 0x1607) | ((data & 0x8) << 1) | ((data & 0x10) >> 1) | ((data & 0x20) << 1) | + ((data & 0x40) >> 1) | ((data & 0x80) << 1) | ((data & 0x100) >> 1) | ((data & 0x800) << 2) | ((data & 0x2000) >> 2) ; + } else { + mr_mirror = mr; + data_mirror = data; + } + + reg32_write(DDRC_MRCTRL0(0), read | (mr_mirror << 12) | (rank << 4)); + reg32_write(DDRC_MRCTRL1(0), data_mirror); + + /* 3. In a separate APB transaction, write the MRCTRL0.mr_wr to 1. This bit is self-clearing, and triggers */ + /* the MR transaction. The uMCTL2 then asserts the MRSTAT.mr_wr_busy while it performs the MR */ + /* transaction to SDRAM, and no further accesses can be initiated until it is deasserted. */ + reg32setbit(DDRC_MRCTRL0(0), 31); + do { + tmp = reg32_read(DDRC_MRSTAT(0)); + } while (tmp); + +} diff --git a/board/freescale/imx8mm_evk/ddr/ddr4/ddr4_swffc_fw09.c b/board/freescale/imx8mm_evk/ddr/ddr4/ddr4_swffc_fw09.c new file mode 100644 index 0000000000..b8a05b9b2e --- /dev/null +++ b/board/freescale/imx8mm_evk/ddr/ddr4/ddr4_swffc_fw09.c @@ -0,0 +1,599 @@ +/* + * Copyright 2018 NXP + * + * SPDX-License-Identifier: GPL-2.0+ + */ + +#include +#include +#include +#include +#include +#include "anamix_common.h" +#include "ddr4_define.h" + +unsigned int mr_value[3][7] = { + {0xa34, 0x105, 0x1028, 0x240, 0x200, 0x200, 0x814}, /* pstate0 MR */ + {0x204, 0x104, 0x1000, 0x040, 0x200, 0x200, 0x014}, /* pstate1 MR */ + {0x204, 0x104, 0x1000, 0x040, 0x200, 0x200, 0x014} }; /* pstate2 MR */ + +static unsigned int cur_pstate; +unsigned int after_retention = 0; + +void ddr4_dll_change(unsigned int pstate); +void ddr4_dll_no_change(unsigned int pstate); + +void umctl2_cfg(void) +{ +#ifdef DDR_ONE_RANK + reg32_write(DDRC_MSTR(0), 0x81040010); +#else + reg32_write(DDRC_MSTR(0), 0x83040010); +#endif + + reg32_write(DDRC_PWRCTL(0), 0x000000aa); + reg32_write(DDRC_PWRTMG(0), 0x00221306); + + reg32_write(DDRC_RFSHCTL0(0), 0x00c0a070); + reg32_write(DDRC_RFSHCTL1(0), 0x00010008); + reg32_write(DDRC_RFSHCTL3(0), 0x00000010); + reg32_write(DDRC_RFSHTMG(0), 0x004980f4); + reg32_write(DDRC_CRCPARCTL0(0), 0x00000000); + reg32_write(DDRC_CRCPARCTL1(0), 0x00001010); + reg32_write(DDRC_INIT0(0), 0xc0030002); + reg32_write(DDRC_INIT1(0), 0x00020009); + reg32_write(DDRC_INIT2(0), 0x0000350f); + reg32_write(DDRC_INIT3(0), (mr_value[0][0]<<16) | (mr_value[0][1])); + reg32_write(DDRC_INIT4(0), (mr_value[0][2]<<16) | (mr_value[0][3])); + reg32_write(DDRC_INIT5(0), 0x001103cb); + reg32_write(DDRC_INIT6(0), (mr_value[0][4]<<16) | (mr_value[0][5])); + reg32_write(DDRC_INIT7(0), mr_value[0][6]); + reg32_write(DDRC_DIMMCTL(0), 0x00000032); + reg32_write(DDRC_RANKCTL(0), 0x00000fc7); + reg32_write(DDRC_DRAMTMG0(0), 0x14132813); + reg32_write(DDRC_DRAMTMG1(0), 0x0004051b); + reg32_write(DDRC_DRAMTMG2(0), 0x0808030f); + reg32_write(DDRC_DRAMTMG3(0), 0x0000400c); + reg32_write(DDRC_DRAMTMG4(0), 0x08030409); + reg32_write(DDRC_DRAMTMG5(0), 0x0e090504); + reg32_write(DDRC_DRAMTMG6(0), 0x05030000); + reg32_write(DDRC_DRAMTMG7(0), 0x0000090e); + reg32_write(DDRC_DRAMTMG8(0), 0x0606700c); + reg32_write(DDRC_DRAMTMG9(0), 0x0002040c); + reg32_write(DDRC_DRAMTMG10(0), 0x000f0c07); + reg32_write(DDRC_DRAMTMG11(0), 0x1809011d); + reg32_write(DDRC_DRAMTMG12(0), 0x0000000d); + reg32_write(DDRC_DRAMTMG13(0), 0x2b000000); + reg32_write(DDRC_DRAMTMG14(0), 0x000000a4); + reg32_write(DDRC_DRAMTMG15(0), 0x00000000); + reg32_write(DDRC_DRAMTMG17(0), 0x00250078); + reg32_write(DDRC_ZQCTL0(0), 0x51000040); + reg32_write(DDRC_ZQCTL1(0), 0x00000070); + reg32_write(DDRC_ZQCTL2(0), 0x00000000); + reg32_write(DDRC_DFITMG0(0), 0x038b820b); + reg32_write(DDRC_DFITMG1(0), 0x02020103); + reg32_write(DDRC_DFILPCFG0(0), 0x07f04011); /* [8]dfi_lp_en_sr = 0 */ + reg32_write(DDRC_DFILPCFG1(0), 0x000000b0); + reg32_write(DDRC_DFIUPD0(0), 0xe0400018); + reg32_write(DDRC_DFIUPD1(0), 0x0048005a); + reg32_write(DDRC_DFIUPD2(0), 0x80000000); + reg32_write(DDRC_DFIMISC(0), 0x00000001); + reg32_write(DDRC_DFITMG2(0), 0x00000b0b); + reg32_write(DDRC_DFITMG3(0), 0x00000001); + reg32_write(DDRC_DBICTL(0), 0x00000000); + reg32_write(DDRC_DFIPHYMSTR(0), 0x00000000); + +#ifdef DDR_ONE_RANK + reg32_write(DDRC_ADDRMAP0(0), 0x0000001F); +#else + reg32_write(DDRC_ADDRMAP0(0), 0x00000017); /* [4:0]cs0: 6+23 */ +#endif + reg32_write(DDRC_ADDRMAP1(0), 0x003F0909); /* [5:0] bank b0: 2+9; [13:8] b1: P3+9 ; [21:16] b2: 4+, unused */ + reg32_write(DDRC_ADDRMAP2(0), 0x01010100); /* [3:0] col-b2: 2; [11:8] col-b3: 3+1; [19:16] col-b4: 4+1 ; [27:24] col-b5: 5+1 */ + reg32_write(DDRC_ADDRMAP3(0), 0x01010101); /* [3:0] col-b6: 6+1; [11:8] col-b7: 7+1; [19:16] col-b8: 8+1 ; [27:24] col-b9: 9+1 */ + reg32_write(DDRC_ADDRMAP4(0), 0x00001f1f); /* col-b10, col-b11 not used */ + reg32_write(DDRC_ADDRMAP5(0), 0x07070707); /* [3:0] row-b0: 6+7; [11:8] row-b1: 7+7; [19:16] row-b2_b10: 8~16+7; [27:24] row-b11: 17+7 */ + reg32_write(DDRC_ADDRMAP6(0), 0x07070707); /* [3:0] row-b12:18+7; [11:8] row-b13: 19+7; [19:16] row-b14:20+7; [27:24] row-b15: 21+7 */ + reg32_write(DDRC_ADDRMAP7(0), 0x00000f0f); /* col-b10, col-b11 not used */ + reg32_write(DDRC_ADDRMAP8(0), 0x00003F01); /* [5:0] bg-b0: 2+1; [13:8]bg-b1:3+, unused */ + reg32_write(DDRC_ADDRMAP9(0), 0x0a020b06); /* it's valid only when ADDRMAP5.addrmap_row_b2_10 is set to value 15 */ + reg32_write(DDRC_ADDRMAP10(0), 0x0a0a0a0a);/* it's valid only when ADDRMAP5.addrmap_row_b2_10 is set to value 15 */ + reg32_write(DDRC_ADDRMAP11(0), 0x00000000); + + /* FREQ0: BL8, CL=16, CWL=16, WR_PREAMBLE = 1,RD_PREAMBLE = 1, CRC_MODE = 1, so wr_odt_hold=5+1+1=7 */ + /* wr_odt_delay=DFITMG1.dfi_t_cmd_lat=0 */ + reg32_write(DDRC_ODTCFG(0), 0x07000600); +#ifdef DDR_ONE_RANK + reg32_write(DDRC_ODTMAP(0), 0x0001); +#else + reg32_write(DDRC_ODTMAP(0), 0x0201);/* disable ODT0x00001120); */ +#endif + reg32_write(DDRC_SCHED(0), 0x317d1a07); + reg32_write(DDRC_SCHED1(0), 0x0000000f); + reg32_write(DDRC_PERFHPR1(0), 0x2a001b76); + reg32_write(DDRC_PERFLPR1(0), 0x7300b473); + reg32_write(DDRC_PERFWR1(0), 0x30000e06); + reg32_write(DDRC_DBG0(0), 0x00000014); + reg32_write(DDRC_DBG1(0), 0x00000000); + reg32_write(DDRC_DBGCMD(0), 0x00000000); + reg32_write(DDRC_SWCTL(0), 0x00000001); + reg32_write(DDRC_POISONCFG(0), 0x00000010); + reg32_write(DDRC_PCCFG(0), 0x00000100);/* bl_exp_mode=1 */ + reg32_write(DDRC_PCFGR_0(0), 0x00013193); + reg32_write(DDRC_PCFGW_0(0), 0x00006096); + reg32_write(DDRC_PCTRL_0(0), 0x00000001); + reg32_write(DDRC_PCFGQOS0_0(0), 0x02000c00); + reg32_write(DDRC_PCFGQOS1_0(0), 0x003c00db); + reg32_write(DDRC_PCFGWQOS0_0(0), 0x00100009); + reg32_write(DDRC_PCFGWQOS1_0(0), 0x00000002); + +} + +void umctl2_freq1_cfg(void) +{ + reg32_write(DDRC_FREQ1_RFSHCTL0(0), 0x0021a0c0); +#ifdef PLLBYPASS_250MBPS + reg32_write(DDRC_FREQ1_RFSHTMG(0), 0x000f0011);/* tREFI=7.8us */ +#endif +#ifdef PLLBYPASS_400MBPS + reg32_write(DDRC_FREQ1_RFSHTMG(0), 0x0018001a);/* tREFI=7.8us */ +#endif + + reg32_write(DDRC_FREQ1_INIT3(0), (mr_value[1][0]<<16) | (mr_value[1][1])); + reg32_write(DDRC_FREQ1_INIT4(0), (mr_value[1][2]<<16) | (mr_value[1][3])); + reg32_write(DDRC_FREQ1_INIT6(0), (mr_value[1][4]<<16) | (mr_value[1][5])); + reg32_write(DDRC_FREQ1_INIT7(0), mr_value[1][6]); +#ifdef PLLBYPASS_250MBPS + reg32_write(DDRC_FREQ1_DRAMTMG0(0), 0x0c0e0403);/* t_ras_max=9*7.8us, t_ras_min=35ns */ +#endif +#ifdef PLLBYPASS_400MBPS + reg32_write(DDRC_FREQ1_DRAMTMG0(0), 0x0c0e0604);/* t_ras_max=9*7.8us, t_ras_min=35ns */ +#endif + reg32_write(DDRC_FREQ1_DRAMTMG1(0), 0x00030314); + reg32_write(DDRC_FREQ1_DRAMTMG2(0), 0x0505040a); + reg32_write(DDRC_FREQ1_DRAMTMG3(0), 0x0000400c); + reg32_write(DDRC_FREQ1_DRAMTMG4(0), 0x06040307); /* tRP=6 --> 7 */ + reg32_write(DDRC_FREQ1_DRAMTMG5(0), 0x090d0202); + reg32_write(DDRC_FREQ1_DRAMTMG6(0), 0x0a070008); + reg32_write(DDRC_FREQ1_DRAMTMG7(0), 0x00000d09); + reg32_write(DDRC_FREQ1_DRAMTMG8(0), 0x08084b09); + reg32_write(DDRC_FREQ1_DRAMTMG9(0), 0x00020308); + reg32_write(DDRC_FREQ1_DRAMTMG10(0), 0x000f0d06); + reg32_write(DDRC_FREQ1_DRAMTMG11(0), 0x12060111); + reg32_write(DDRC_FREQ1_DRAMTMG12(0), 0x00000008); + reg32_write(DDRC_FREQ1_DRAMTMG13(0), 0x21000000); + reg32_write(DDRC_FREQ1_DRAMTMG14(0), 0x00000000); + reg32_write(DDRC_FREQ1_DRAMTMG15(0), 0x00000000); + reg32_write(DDRC_FREQ1_DRAMTMG17(0), 0x00c6007d); + reg32_write(DDRC_FREQ1_ZQCTL0(0), 0x51000040); + reg32_write(DDRC_FREQ1_DFITMG0(0), 0x03858204); + reg32_write(DDRC_FREQ1_DFITMG1(0), 0x00020103); + reg32_write(DDRC_FREQ1_DFITMG2(0), 0x00000504); + reg32_write(DDRC_FREQ1_DFITMG3(0), 0x00000001); + /* FREQ1: BL8, CL=10, CWL=9, WR_PREAMBLE = 1,RD_PREAMBLE = 1, CRC_MODE = 1 */ + /* wr_odt_delay=DFITMG1.dfi_t_cmd_lat=0 */ + reg32_write(DDRC_FREQ1_ODTCFG(0), 0x07000601); +} + +void umctl2_freq2_cfg(void) +{ + reg32_write(DDRC_FREQ2_RFSHCTL0(0), 0x0021a0c0); + reg32_write(DDRC_FREQ2_RFSHTMG(0), 0x0006000e);/* tREFI=7.8us */ + reg32_write(DDRC_FREQ2_INIT3(0), (mr_value[2][0]<<16) | (mr_value[2][1])); + reg32_write(DDRC_FREQ2_INIT4(0), (mr_value[2][2]<<16) | (mr_value[2][3])); + reg32_write(DDRC_FREQ2_INIT6(0), (mr_value[2][4]<<16) | (mr_value[2][5])); + reg32_write(DDRC_FREQ2_INIT7(0), mr_value[2][6]); + reg32_write(DDRC_FREQ2_DRAMTMG0(0), 0x0c0e0101);/* t_ras_max=9*7.8us, t_ras_min=35ns */ + reg32_write(DDRC_FREQ2_DRAMTMG1(0), 0x00030314); + reg32_write(DDRC_FREQ2_DRAMTMG2(0), 0x0505040a); + reg32_write(DDRC_FREQ2_DRAMTMG3(0), 0x0000400c); + reg32_write(DDRC_FREQ2_DRAMTMG4(0), 0x06040307); /* tRP=6 --> 7 */ + reg32_write(DDRC_FREQ2_DRAMTMG5(0), 0x090d0202); + reg32_write(DDRC_FREQ2_DRAMTMG6(0), 0x0a070008); + reg32_write(DDRC_FREQ2_DRAMTMG7(0), 0x00000d09); + reg32_write(DDRC_FREQ2_DRAMTMG8(0), 0x08084b09); + reg32_write(DDRC_FREQ2_DRAMTMG9(0), 0x00020308); + reg32_write(DDRC_FREQ2_DRAMTMG10(0), 0x000f0d06); + reg32_write(DDRC_FREQ2_DRAMTMG11(0), 0x12060111); + reg32_write(DDRC_FREQ2_DRAMTMG12(0), 0x00000008); + reg32_write(DDRC_FREQ2_DRAMTMG13(0), 0x21000000); + reg32_write(DDRC_FREQ2_DRAMTMG14(0), 0x00000000); + reg32_write(DDRC_FREQ2_DRAMTMG15(0), 0x00000000); + reg32_write(DDRC_FREQ2_DRAMTMG17(0), 0x00c6007d); + reg32_write(DDRC_FREQ2_ZQCTL0(0), 0x51000040); + reg32_write(DDRC_FREQ2_DFITMG0(0), 0x03858204); + reg32_write(DDRC_FREQ2_DFITMG1(0), 0x00020103); + reg32_write(DDRC_FREQ2_DFITMG2(0), 0x00000504); + reg32_write(DDRC_FREQ2_DFITMG3(0), 0x00000001); + /* FREQ1: BL8, CL=10, CWL=9, WR_PREAMBLE = 1,RD_PREAMBLE = 1, CRC_MODE = 1 */ + /* wr_odt_delay=DFITMG1.dfi_t_cmd_lat=0 */ + reg32_write(DDRC_FREQ2_ODTCFG(0), 0x07000601); +} + + +void ddr4_pub_train(void) +{ + volatile unsigned int tmp_t; + after_retention = 0; + + reg32_write(SRC_DDRC_RCR_ADDR, 0x8F00003F); /* assert [0]ddr1_preset_n, [1]ddr1_core_reset_n, [2]ddr1_phy_reset, [3]ddr1_phy_pwrokin_n, [4]src_system_rst_b! */ + reg32_write(SRC_DDRC_RCR_ADDR, 0x8F00000F); /* deassert [4]src_system_rst_b! */ + + /* change the clock source of dram_apb_clk_root */ + clock_set_target_val(DRAM_APB_CLK_ROOT, CLK_ROOT_ON | CLK_ROOT_SOURCE_SEL(4) | CLK_ROOT_PRE_DIV(CLK_ROOT_PRE_DIV4)); /* to source 4 --800MHz/4 */ + + /* DDR_PLL_CONFIG_600MHz(); */ + dram_pll_init(DRAM_PLL_OUT_600M); + ddr_dbg("C: dram pll init finished\n"); + + reg32_write(0x303A00EC, 0x0000ffff); /* PGC_CPU_MAPPING */ + reg32setbit(0x303A00F8, 5);/* PU_PGC_SW_PUP_REQ */ + + reg32_write(SRC_DDRC_RCR_ADDR, 0x8F000006); /* release [0]ddr1_preset_n, [3]ddr1_phy_pwrokin_n */ + + reg32_write(DDRC_DBG1(0), 0x00000001); + reg32_write(DDRC_PWRCTL(0), 0x00000001); + + while (0 != (0x7 & reg32_read(DDRC_STAT(0)))) + ; + + ddr_dbg("C: cfg umctl2 regs ...\n"); + umctl2_cfg(); +#ifdef DDR4_SW_FFC + umctl2_freq1_cfg(); + umctl2_freq2_cfg(); +#endif + + reg32_write(DDRC_RFSHCTL3(0), 0x00000011); + /* RESET: DEASSERTED */ + /* RESET: 0; i--) + ; + ddr_dbg("C: waiting for 2*tREFI (2*7.8us)\n"); + + /* 14. Exit the self-refresh state by setting PWRCTL.selfref_sw = 0. */ + reg32clrbit(DDRC_PWRCTL(0), 5); + do { + tmp = 0x3f & (reg32_read((DDRC_STAT(0)))); + ddr_dbg("C: waiting for exit Self Refresh\n"); + } while (tmp == 0x23); +} + +void ddr4_dll_change(unsigned int pstate) +{ + volatile unsigned int tmp; + enum DLL_STATE { NO_CHANGE = 0, ON2OFF = 1, OFF2ON = 2} dll_sw; /* 0-no change, 1-on2off, 2-off2on.; */ + + if (pstate != 0 && cur_pstate == 0) { + dll_sw = ON2OFF; + ddr_dbg("dll ON2OFF\n"); + } else if (pstate == 0 && cur_pstate != 0) { + dll_sw = OFF2ON; + ddr_dbg("dll OFF2ON\n"); + } else { + dll_sw = NO_CHANGE; + } + + /* the the following software programming sequence to switch from DLL-on to DLL-off, or reverse: */ + reg32_write(DDRC_SWCTL(0), 0x0000); + + /* 1. Set the DBG1.dis_hif = 1. This prevents further reads/writes being received on the HIF. */ + reg32setbit(DDRC_DBG1(0), 1); + /* 2. Set ZQCTL0.dis_auto_zq=1, to disable automatic generation of ZQCS/MPC(ZQ calibration) */ + /* commands */ + if (pstate == 1) + reg32setbit(DDRC_FREQ1_ZQCTL0(0), 31); + else if (pstate == 2) + reg32setbit(DDRC_FREQ2_ZQCTL0(0), 31); + else + reg32setbit(DDRC_ZQCTL0(0), 31); + + /* 3. Set RFSHCTL3.dis_auto_refresh=1, to disable automatic refreshes */ + reg32setbit(DDRC_RFSHCTL3(0), 0); + /* 4. Ensure all commands have been flushed from the uMCTL2 by polling */ + /* DBGCAM.wr_data_pipeline_empty, DBGCAM.rd_data_pipeline_empty1, */ + /* DBGCAM.dbg_wr_q_depth, DBGCAM.dbg_lpr_q_depth, DBGCAM.dbg_rd_q_empty, */ + /* DBGCAM.dbg_wr_q_empty. */ + do { + tmp = 0x06000000 & reg32_read(DDRC_DBGCAM(0)); + } while (tmp != 0x06000000); + reg32_write(DDRC_PCTRL_0(0), 0x00000000); + /* 5. Perform an MRS command (using MRCTRL0 and MRCTRL1 registers) to disable RTT_NOM: */ + /* a. DDR3: Write 0 to MR1[9], MR1[6] and MR1[2] */ + /* b. DDR4: Write 0 to MR1[10:8] */ + if (mr_value[pstate][1] & 0x700) { + ddr4_mr_write(1, mr_value[pstate][1] & 0xF8FF, 0, 0x1); +#ifndef DDR_ONE_RANK + ddr4_mr_write(1, mr_value[pstate][1] & 0xF8FF, 0, 0x2); +#endif + } + /* 6. For DDR4 only: Perform an MRS command (using MRCTRL0 and MRCTRL1 registers) to write 0 to */ + /* MR5[8:6] to disable RTT_PARK */ + if (mr_value[pstate][5] & 0x1C0) { + ddr4_mr_write(5, mr_value[pstate][5] & 0xFE3F, 0, 0x1); +#ifndef DDR_ONE_RANK + ddr4_mr_write(5, mr_value[pstate][5] & 0xFE3F, 0, 0x2); +#endif + } + + if (dll_sw == ON2OFF) { + /* 7. Perform an MRS command (using MRCTRL0 and MRCTRL1 registers) to write 0 to MR2[11:9], to */ + /* disable RTT_WR (and therefore disable dynamic ODT). This applies for both DDR3 and DDR4. */ + if (mr_value[pstate][2] & 0xE00) { + ddr4_mr_write(2, mr_value[pstate][2] & 0xF1FF, 0, 0x1); +#ifndef DDR_ONE_RANK + ddr4_mr_write(2, mr_value[pstate][2] & 0xF1FF, 0, 0x2); +#endif + } + /* 8. Perform an MRS command (using MRCTRL0 and MRCTRL1 registers) to disable the DLL. The */ + /* timing of this MRS is automatically handled by the uMCTL2. */ + /* a. DDR3: Write 1 to MR1[0] */ + /* b. DDR4: Write 0 to MR1[0] */ + ddr4_mr_write(1, mr_value[pstate][1] & 0xFFFE, 0, 0x1); +#ifndef DDR_ONE_RANK + ddr4_mr_write(1, mr_value[pstate][1] & 0xFFFE, 0, 0x2); +#endif + } + + /* 9. Put the SDRAM into self-refresh mode by setting PWRCTL.selfref_sw = 1, and polling */ + /* STAT.operating_mode to ensure the DDRC has entered self-refresh. */ + reg32setbit(DDRC_PWRCTL(0), 5); + /* 10. Wait until STAT.operating_mode[1:0]==11 indicating that the DWC_ddr_umctl2 core is in selfrefresh mode. Ensure transition to self-refresh was due to software by checking that */ + /* STAT.selfref_type[1:0]=2`b10. */ + do { + tmp = 0x3f & (reg32_read((DDRC_STAT(0)))); + ddr_dbg("C: wait DRAM in Self Refresh\n"); + } while (tmp != 0x23); + + /* 11. Set the MSTR.dll_off_mode = 1 or 0. */ + if (dll_sw == ON2OFF) + reg32setbit(DDRC_MSTR(0), 15); + + if (dll_sw == OFF2ON) + reg32clrbit(DDRC_MSTR(0), 15); + + sw_pstate(pstate); + + /* DRAM dll enable */ + if (dll_sw == OFF2ON) { + ddr4_mr_write(1, mr_value[pstate][1] | 0x1, 0, 0x1); +#ifndef DDR_ONE_RANK + ddr4_mr_write(1, mr_value[pstate][1] | 0x1, 0, 0x2); +#endif + /* DRAM dll reset, self-clear */ + ddr4_mr_write(0, mr_value[pstate][0] | 0x100, 0, 0x1); +#ifndef DDR_ONE_RANK + ddr4_mr_write(0, mr_value[pstate][0] | 0x100, 0, 0x2); +#endif + } + + dram_all_mr_cfg(pstate); + + /* 16. Re-enable automatic generation of ZQCS/MPC(ZQ calibration) commands, by setting */ + /* ZQCTL0.dis_auto_zq=0 if they were previously disabled */ + if (pstate == 1) + reg32clrbit(DDRC_FREQ1_ZQCTL0(0), 31); + else if (pstate == 2) + reg32clrbit(DDRC_FREQ2_ZQCTL0(0), 31); + else + reg32clrbit(DDRC_ZQCTL0(0), 31); + + /* 17. Re-enable automatic refreshes (RFSHCTL3.dis_auto_refresh = 0) if they have been previously */ + /* disabled. */ + reg32clrbit(DDRC_RFSHCTL3(0), 0); + /* 18. Restore ZQCTL0.dis_srx_zqcl */ + /* 19. Write DBG1.dis_hif = 0 to re-enable reads and writes. */ + reg32clrbit(DDRC_DBG1(0), 1); + + reg32_write(DDRC_PCTRL_0(0), 0x00000001); + /* 27. Write 1 to SBRCTL.scrub_en. Enable SBR if desired, only required if SBR instantiated. */ + + /* set SWCTL.sw_done to enable quasi-dynamic register programming outside reset. */ + reg32_write(DDRC_SWCTL(0), 0x0001); + + /* wait SWSTAT.sw_done_ack to 1 */ + do { + tmp = 0x1 & reg32_read(DDRC_SWSTAT(0)); + } while (!tmp); +} + +void ddr4_dll_no_change(unsigned int pstate) +{ + volatile unsigned int tmp; + /* ------------------------------------------------------------------------------------- */ + /* change to pstate1 */ + /* ------------------------------------------------------------------------------------- */ + /* 1. Program one of UMCTL2_REGS_FREQ1/2/3, whichever you prefer, timing register-set with the */ + /* timing settings required for the alternative clock frequency. */ + /* set SWCTL.sw_done to disable quasi-dynamic register programming outside reset. */ + reg32_write(DDRC_SWCTL(0), 0x0000); + + /* set SWCTL.sw_done to enable quasi-dynamic register programming outside reset. */ + /* wait SWSTAT.sw_done_ack to 1 */ + + /* 2. Write 0 to PCTRL_n.port_en. This blocks AXI port(s) from taking any transaction (blocks traffic on */ + /* AXI ports). */ + reg32_write(DDRC_PCTRL_0(0), 0x00000000); + /* 3. Poll PSTAT.rd_port_busy_n=0 and PSTAT.wr_port_busy_n=0. Wait until all AXI ports are idle (the */ + /* uMCTL2 core has to be idle). */ + do { + tmp = reg32_read(DDRC_PSTAT(0)); + } while (tmp & 0x10001); + + /* 4. Write 0 to SBRCTL.scrub_en. Disable SBR, required only if SBR instantiated. */ + /* 5. Poll SBRSTAT.scrub_busy=0. Indicates that there are no outstanding SBR read commands (required */ + /* only if SBR instantiated). */ + /* 6. Set DERATEEN.derate_enable = 0, if DERATEEN.derate_eanble = 1 and the read latency (RL) value */ + /* needs to change after the frequency change (LPDDR2/3/4 only). */ + /* 7. Set DBG1.dis_hif=1 so that no new commands will be accepted by the uMCTL2. */ + reg32setbit(DDRC_DBG1(0), 1); + /* 8. Poll DBGCAM.dbg_wr_q_empty and DBGCAM.dbg_rd_q_empty to ensure that write and read data */ + /* buffers are empty. */ + do { + tmp = 0x06000000 & reg32_read(DDRC_DBGCAM(0)); + } while (tmp != 0x06000000); + /* 9. For DDR4, update MR6 with the new tDLLK value via the Mode Register Write signals */ + /* (MRCTRL0.mr_x/MRCTRL1.mr_x). */ + /* 10. Set DFILPCFG0.dfi_lp_en_sr = 0, if DFILPCFG0.dfi_lp_en_sr = 1, and wait until DFISTAT.dfi_lp_ack */ + /* = 0. */ + /* 11. If DFI PHY Master interface is active in uMCTL2 (DFIPHYMSTR.phymstr_en == 1'b1) then disable it */ + /* by programming DFIPHYMSTR.phymstr_en = 1'b0. */ + /* 12. Wait until STAT.operating_mode[1:0]!=11 indicating that the DWC_ddr_umctl2 controller is not in */ + /* self-refresh mode. */ + tmp = 0x3 & (reg32_read((DDRC_STAT(0)))); + if (tmp == 0x3) { + ddr_dbg("C: Error DRAM should not in Self Refresh\n"); + ddr_dbg("vt_error\n"); + } + /* 13. Assert PWRCTL.selfref_sw for the DWC_ddr_umctl2 core to enter the self-refresh mode. */ + reg32setbit(DDRC_PWRCTL(0), 5); + /* 14. Wait until STAT.operating_mode[1:0]==11 indicating that the DWC_ddr_umctl2 core is in selfrefresh mode. Ensure transition to self-refresh was due to software by checking that STAT.selfref_type[1:0]=2'b10. */ + do { + tmp = 0x3f & (reg32_read((DDRC_STAT(0)))); + ddr_dbg("C: DRAM in Self Refresh\n"); + } while (tmp != 0x23); + + sw_pstate(pstate); + dram_all_mr_cfg(pstate); + + + /* 23. Enable HIF commands by setting DBG1.dis_hif=0. */ + reg32clrbit(DDRC_DBG1(0), 1); + /* 24. Reset DERATEEN.derate_enable = 1 if DERATEEN.derate_enable has been set to 0 in step 6. */ + /* 25. If DFI PHY Master interface was active in uMCTL2 (DFIPHYMSTR.phymstr_en == 1'b1) before the */ + /* step 11 then enable it back by programming DFIPHYMSTR.phymstr_en = 1'b1. */ + /* 26. Write 1 to PCTRL_n.port_en. AXI port(s) are no longer blocked from taking transactions (Re-enable */ + /* traffic on AXI ports). */ + reg32_write(DDRC_PCTRL_0(0), 0x00000001); + /* 27. Write 1 to SBRCTL.scrub_en. Enable SBR if desired, only required if SBR instantiated. */ + + + + /* set SWCTL.sw_done to enable quasi-dynamic register programming outside reset. */ + reg32_write(DDRC_SWCTL(0), 0x0001); + + /* wait SWSTAT.sw_done_ack to 1 */ + do { + tmp = 0x1 & reg32_read(DDRC_SWSTAT(0)); + } while (!tmp); + + +} + +void ddr_init(void) +{ + /* initialize DDR4-2400 (umctl2@800MHz) */ + ddr4_pub_train(); +} diff --git a/board/freescale/imx8mm_evk/ddr/ddr4/restore_1d2d_trained_csr_ddr4_p012.c b/board/freescale/imx8mm_evk/ddr/ddr4/restore_1d2d_trained_csr_ddr4_p012.c new file mode 100644 index 0000000000..c060c44765 --- /dev/null +++ b/board/freescale/imx8mm_evk/ddr/ddr4/restore_1d2d_trained_csr_ddr4_p012.c @@ -0,0 +1,1042 @@ +/* + * Copyright 2018 NXP + * + * SPDX-License-Identifier: GPL-2.0+ + */ + +#include +#include +#include +#include +#include +#include "ddr4_define.h" + +#ifdef ENABLE_RETENTION +static const unsigned int restore_csr[] = { + 0x200b2, + 0x1200b2, + 0x2200b2, + 0x200cb, +#ifdef RUN_ON_SILICON + 0x10043, + 0x110043, + 0x210043, + 0x10143, + 0x110143, + 0x210143, + 0x11043, + 0x111043, + 0x211043, + 0x11143, + 0x111143, + 0x211143, + 0x12043, + 0x112043, + 0x212043, + 0x12143, + 0x112143, + 0x212143, + 0x13043, + 0x113043, + 0x213043, + 0x13143, + 0x113143, + 0x213143, + 0x80, + 0x100080, + 0x200080, + 0x1080, + 0x101080, + 0x201080, + 0x2080, + 0x102080, + 0x202080, + 0x3080, + 0x103080, + 0x203080, + 0x4080, + 0x104080, + 0x204080, + 0x5080, + 0x105080, + 0x205080, + 0x6080, + 0x106080, + 0x206080, + 0x7080, + 0x107080, + 0x207080, + 0x8080, + 0x108080, + 0x208080, + 0x9080, + 0x109080, + 0x209080, + 0x10080, + 0x110080, + 0x210080, + 0x10180, + 0x110180, + 0x210180, + 0x10081, + 0x110081, + 0x210081, + 0x10181, + 0x110181, + 0x210181, + 0x10082, + 0x110082, + 0x210082, + 0x10182, + 0x110182, + 0x210182, + 0x10083, + 0x110083, + 0x210083, + 0x10183, + 0x110183, + 0x210183, + 0x11080, + 0x111080, + 0x211080, + 0x11180, + 0x111180, + 0x211180, + 0x11081, + 0x111081, + 0x211081, + 0x11181, + 0x111181, + 0x211181, + 0x11082, + 0x111082, + 0x211082, + 0x11182, + 0x111182, + 0x211182, + 0x11083, + 0x111083, + 0x211083, + 0x11183, + 0x111183, + 0x211183, + 0x12080, + 0x112080, + 0x212080, + 0x12180, + 0x112180, + 0x212180, + 0x12081, + 0x112081, + 0x212081, + 0x12181, + 0x112181, + 0x212181, + 0x12082, + 0x112082, + 0x212082, + 0x12182, + 0x112182, + 0x212182, + 0x12083, + 0x112083, + 0x212083, + 0x12183, + 0x112183, + 0x212183, + 0x13080, + 0x113080, + 0x213080, + 0x13180, + 0x113180, + 0x213180, + 0x13081, + 0x113081, + 0x213081, + 0x13181, + 0x113181, + 0x213181, + 0x13082, + 0x113082, + 0x213082, + 0x13182, + 0x113182, + 0x213182, + 0x13083, + 0x113083, + 0x213083, + 0x13183, + 0x113183, + 0x213183, + 0x100d0, + 0x1100d0, + 0x2100d0, + 0x101d0, + 0x1101d0, + 0x2101d0, + 0x100d1, + 0x1100d1, + 0x2100d1, + 0x101d1, + 0x1101d1, + 0x2101d1, + 0x100d2, + 0x1100d2, + 0x2100d2, + 0x101d2, + 0x1101d2, + 0x2101d2, + 0x100d3, + 0x1100d3, + 0x2100d3, + 0x101d3, + 0x1101d3, + 0x2101d3, + 0x110d0, + 0x1110d0, + 0x2110d0, + 0x111d0, + 0x1111d0, + 0x2111d0, + 0x110d1, + 0x1110d1, + 0x2110d1, + 0x111d1, + 0x1111d1, + 0x2111d1, + 0x110d2, + 0x1110d2, + 0x2110d2, + 0x111d2, + 0x1111d2, + 0x2111d2, + 0x110d3, + 0x1110d3, + 0x2110d3, + 0x111d3, + 0x1111d3, + 0x2111d3, + 0x120d0, + 0x1120d0, + 0x2120d0, + 0x121d0, + 0x1121d0, + 0x2121d0, + 0x120d1, + 0x1120d1, + 0x2120d1, + 0x121d1, + 0x1121d1, + 0x2121d1, + 0x120d2, + 0x1120d2, + 0x2120d2, + 0x121d2, + 0x1121d2, + 0x2121d2, + 0x120d3, + 0x1120d3, + 0x2120d3, + 0x121d3, + 0x1121d3, + 0x2121d3, + 0x130d0, + 0x1130d0, + 0x2130d0, + 0x131d0, + 0x1131d0, + 0x2131d0, + 0x130d1, + 0x1130d1, + 0x2130d1, + 0x131d1, + 0x1131d1, + 0x2131d1, + 0x130d2, + 0x1130d2, + 0x2130d2, + 0x131d2, + 0x1131d2, + 0x2131d2, + 0x130d3, + 0x1130d3, + 0x2130d3, + 0x131d3, + 0x1131d3, + 0x2131d3, + 0x10068, + 0x10168, + 0x10268, + 0x10368, + 0x10468, + 0x10568, + 0x10668, + 0x10768, + 0x10868, + 0x10069, + 0x10169, + 0x10269, + 0x10369, + 0x10469, + 0x10569, + 0x10669, + 0x10769, + 0x10869, + 0x1006a, + 0x1016a, + 0x1026a, + 0x1036a, + 0x1046a, + 0x1056a, + 0x1066a, + 0x1076a, + 0x1086a, + 0x1006b, + 0x1016b, + 0x1026b, + 0x1036b, + 0x1046b, + 0x1056b, + 0x1066b, + 0x1076b, + 0x1086b, + 0x11068, + 0x11168, + 0x11268, + 0x11368, + 0x11468, + 0x11568, + 0x11668, + 0x11768, + 0x11868, + 0x11069, + 0x11169, + 0x11269, + 0x11369, + 0x11469, + 0x11569, + 0x11669, + 0x11769, + 0x11869, + 0x1106a, + 0x1116a, + 0x1126a, + 0x1136a, + 0x1146a, + 0x1156a, + 0x1166a, + 0x1176a, + 0x1186a, + 0x1106b, + 0x1116b, + 0x1126b, + 0x1136b, + 0x1146b, + 0x1156b, + 0x1166b, + 0x1176b, + 0x1186b, + 0x12068, + 0x12168, + 0x12268, + 0x12368, + 0x12468, + 0x12568, + 0x12668, + 0x12768, + 0x12868, + 0x12069, + 0x12169, + 0x12269, + 0x12369, + 0x12469, + 0x12569, + 0x12669, + 0x12769, + 0x12869, + 0x1206a, + 0x1216a, + 0x1226a, + 0x1236a, + 0x1246a, + 0x1256a, + 0x1266a, + 0x1276a, + 0x1286a, + 0x1206b, + 0x1216b, + 0x1226b, + 0x1236b, + 0x1246b, + 0x1256b, + 0x1266b, + 0x1276b, + 0x1286b, + 0x13068, + 0x13168, + 0x13268, + 0x13368, + 0x13468, + 0x13568, + 0x13668, + 0x13768, + 0x13868, + 0x13069, + 0x13169, + 0x13269, + 0x13369, + 0x13469, + 0x13569, + 0x13669, + 0x13769, + 0x13869, + 0x1306a, + 0x1316a, + 0x1326a, + 0x1336a, + 0x1346a, + 0x1356a, + 0x1366a, + 0x1376a, + 0x1386a, + 0x1306b, + 0x1316b, + 0x1326b, + 0x1336b, + 0x1346b, + 0x1356b, + 0x1366b, + 0x1376b, + 0x1386b, + 0x1008c, + 0x11008c, + 0x21008c, + 0x1018c, + 0x11018c, + 0x21018c, + 0x1008d, + 0x11008d, + 0x21008d, + 0x1018d, + 0x11018d, + 0x21018d, + 0x1008e, + 0x11008e, + 0x21008e, + 0x1018e, + 0x11018e, + 0x21018e, + 0x1008f, + 0x11008f, + 0x21008f, + 0x1018f, + 0x11018f, + 0x21018f, + 0x1108c, + 0x11108c, + 0x21108c, + 0x1118c, + 0x11118c, + 0x21118c, + 0x1108d, + 0x11108d, + 0x21108d, + 0x1118d, + 0x11118d, + 0x21118d, + 0x1108e, + 0x11108e, + 0x21108e, + 0x1118e, + 0x11118e, + 0x21118e, + 0x1108f, + 0x11108f, + 0x21108f, + 0x1118f, + 0x11118f, + 0x21118f, + 0x1208c, + 0x11208c, + 0x21208c, + 0x1218c, + 0x11218c, + 0x21218c, + 0x1208d, + 0x11208d, + 0x21208d, + 0x1218d, + 0x11218d, + 0x21218d, + 0x1208e, + 0x11208e, + 0x21208e, + 0x1218e, + 0x11218e, + 0x21218e, + 0x1208f, + 0x11208f, + 0x21208f, + 0x1218f, + 0x11218f, + 0x21218f, + 0x1308c, + 0x11308c, + 0x21308c, + 0x1318c, + 0x11318c, + 0x21318c, + 0x1308d, + 0x11308d, + 0x21308d, + 0x1318d, + 0x11318d, + 0x21318d, + 0x1308e, + 0x11308e, + 0x21308e, + 0x1318e, + 0x11318e, + 0x21318e, + 0x1308f, + 0x11308f, + 0x21308f, + 0x1318f, + 0x11318f, + 0x21318f, + 0x100c0, + 0x1100c0, + 0x2100c0, + 0x101c0, + 0x1101c0, + 0x2101c0, + 0x102c0, + 0x1102c0, + 0x2102c0, + 0x103c0, + 0x1103c0, + 0x2103c0, + 0x104c0, + 0x1104c0, + 0x2104c0, + 0x105c0, + 0x1105c0, + 0x2105c0, + 0x106c0, + 0x1106c0, + 0x2106c0, + 0x107c0, + 0x1107c0, + 0x2107c0, + 0x108c0, + 0x1108c0, + 0x2108c0, + 0x100c1, + 0x1100c1, + 0x2100c1, + 0x101c1, + 0x1101c1, + 0x2101c1, + 0x102c1, + 0x1102c1, + 0x2102c1, + 0x103c1, + 0x1103c1, + 0x2103c1, + 0x104c1, + 0x1104c1, + 0x2104c1, + 0x105c1, + 0x1105c1, + 0x2105c1, + 0x106c1, + 0x1106c1, + 0x2106c1, + 0x107c1, + 0x1107c1, + 0x2107c1, + 0x108c1, + 0x1108c1, + 0x2108c1, + 0x100c2, + 0x1100c2, + 0x2100c2, + 0x101c2, + 0x1101c2, + 0x2101c2, + 0x102c2, + 0x1102c2, + 0x2102c2, + 0x103c2, + 0x1103c2, + 0x2103c2, + 0x104c2, + 0x1104c2, + 0x2104c2, + 0x105c2, + 0x1105c2, + 0x2105c2, + 0x106c2, + 0x1106c2, + 0x2106c2, + 0x107c2, + 0x1107c2, + 0x2107c2, + 0x108c2, + 0x1108c2, + 0x2108c2, + 0x100c3, + 0x1100c3, + 0x2100c3, + 0x101c3, + 0x1101c3, + 0x2101c3, + 0x102c3, + 0x1102c3, + 0x2102c3, + 0x103c3, + 0x1103c3, + 0x2103c3, + 0x104c3, + 0x1104c3, + 0x2104c3, + 0x105c3, + 0x1105c3, + 0x2105c3, + 0x106c3, + 0x1106c3, + 0x2106c3, + 0x107c3, + 0x1107c3, + 0x2107c3, + 0x108c3, + 0x1108c3, + 0x2108c3, + 0x110c0, + 0x1110c0, + 0x2110c0, + 0x111c0, + 0x1111c0, + 0x2111c0, + 0x112c0, + 0x1112c0, + 0x2112c0, + 0x113c0, + 0x1113c0, + 0x2113c0, + 0x114c0, + 0x1114c0, + 0x2114c0, + 0x115c0, + 0x1115c0, + 0x2115c0, + 0x116c0, + 0x1116c0, + 0x2116c0, + 0x117c0, + 0x1117c0, + 0x2117c0, + 0x118c0, + 0x1118c0, + 0x2118c0, + 0x110c1, + 0x1110c1, + 0x2110c1, + 0x111c1, + 0x1111c1, + 0x2111c1, + 0x112c1, + 0x1112c1, + 0x2112c1, + 0x113c1, + 0x1113c1, + 0x2113c1, + 0x114c1, + 0x1114c1, + 0x2114c1, + 0x115c1, + 0x1115c1, + 0x2115c1, + 0x116c1, + 0x1116c1, + 0x2116c1, + 0x117c1, + 0x1117c1, + 0x2117c1, + 0x118c1, + 0x1118c1, + 0x2118c1, + 0x110c2, + 0x1110c2, + 0x2110c2, + 0x111c2, + 0x1111c2, + 0x2111c2, + 0x112c2, + 0x1112c2, + 0x2112c2, + 0x113c2, + 0x1113c2, + 0x2113c2, + 0x114c2, + 0x1114c2, + 0x2114c2, + 0x115c2, + 0x1115c2, + 0x2115c2, + 0x116c2, + 0x1116c2, + 0x2116c2, + 0x117c2, + 0x1117c2, + 0x2117c2, + 0x118c2, + 0x1118c2, + 0x2118c2, + 0x110c3, + 0x1110c3, + 0x2110c3, + 0x111c3, + 0x1111c3, + 0x2111c3, + 0x112c3, + 0x1112c3, + 0x2112c3, + 0x113c3, + 0x1113c3, + 0x2113c3, + 0x114c3, + 0x1114c3, + 0x2114c3, + 0x115c3, + 0x1115c3, + 0x2115c3, + 0x116c3, + 0x1116c3, + 0x2116c3, + 0x117c3, + 0x1117c3, + 0x2117c3, + 0x118c3, + 0x1118c3, + 0x2118c3, + 0x120c0, + 0x1120c0, + 0x2120c0, + 0x121c0, + 0x1121c0, + 0x2121c0, + 0x122c0, + 0x1122c0, + 0x2122c0, + 0x123c0, + 0x1123c0, + 0x2123c0, + 0x124c0, + 0x1124c0, + 0x2124c0, + 0x125c0, + 0x1125c0, + 0x2125c0, + 0x126c0, + 0x1126c0, + 0x2126c0, + 0x127c0, + 0x1127c0, + 0x2127c0, + 0x128c0, + 0x1128c0, + 0x2128c0, + 0x120c1, + 0x1120c1, + 0x2120c1, + 0x121c1, + 0x1121c1, + 0x2121c1, + 0x122c1, + 0x1122c1, + 0x2122c1, + 0x123c1, + 0x1123c1, + 0x2123c1, + 0x124c1, + 0x1124c1, + 0x2124c1, + 0x125c1, + 0x1125c1, + 0x2125c1, + 0x126c1, + 0x1126c1, + 0x2126c1, + 0x127c1, + 0x1127c1, + 0x2127c1, + 0x128c1, + 0x1128c1, + 0x2128c1, + 0x120c2, + 0x1120c2, + 0x2120c2, + 0x121c2, + 0x1121c2, + 0x2121c2, + 0x122c2, + 0x1122c2, + 0x2122c2, + 0x123c2, + 0x1123c2, + 0x2123c2, + 0x124c2, + 0x1124c2, + 0x2124c2, + 0x125c2, + 0x1125c2, + 0x2125c2, + 0x126c2, + 0x1126c2, + 0x2126c2, + 0x127c2, + 0x1127c2, + 0x2127c2, + 0x128c2, + 0x1128c2, + 0x2128c2, + 0x120c3, + 0x1120c3, + 0x2120c3, + 0x121c3, + 0x1121c3, + 0x2121c3, + 0x122c3, + 0x1122c3, + 0x2122c3, + 0x123c3, + 0x1123c3, + 0x2123c3, + 0x124c3, + 0x1124c3, + 0x2124c3, + 0x125c3, + 0x1125c3, + 0x2125c3, + 0x126c3, + 0x1126c3, + 0x2126c3, + 0x127c3, + 0x1127c3, + 0x2127c3, + 0x128c3, + 0x1128c3, + 0x2128c3, + 0x130c0, + 0x1130c0, + 0x2130c0, + 0x131c0, + 0x1131c0, + 0x2131c0, + 0x132c0, + 0x1132c0, + 0x2132c0, + 0x133c0, + 0x1133c0, + 0x2133c0, + 0x134c0, + 0x1134c0, + 0x2134c0, + 0x135c0, + 0x1135c0, + 0x2135c0, + 0x136c0, + 0x1136c0, + 0x2136c0, + 0x137c0, + 0x1137c0, + 0x2137c0, + 0x138c0, + 0x1138c0, + 0x2138c0, + 0x130c1, + 0x1130c1, + 0x2130c1, + 0x131c1, + 0x1131c1, + 0x2131c1, + 0x132c1, + 0x1132c1, + 0x2132c1, + 0x133c1, + 0x1133c1, + 0x2133c1, + 0x134c1, + 0x1134c1, + 0x2134c1, + 0x135c1, + 0x1135c1, + 0x2135c1, + 0x136c1, + 0x1136c1, + 0x2136c1, + 0x137c1, + 0x1137c1, + 0x2137c1, + 0x138c1, + 0x1138c1, + 0x2138c1, + 0x130c2, + 0x1130c2, + 0x2130c2, + 0x131c2, + 0x1131c2, + 0x2131c2, + 0x132c2, + 0x1132c2, + 0x2132c2, + 0x133c2, + 0x1133c2, + 0x2133c2, + 0x134c2, + 0x1134c2, + 0x2134c2, + 0x135c2, + 0x1135c2, + 0x2135c2, + 0x136c2, + 0x1136c2, + 0x2136c2, + 0x137c2, + 0x1137c2, + 0x2137c2, + 0x138c2, + 0x1138c2, + 0x2138c2, + 0x130c3, + 0x1130c3, + 0x2130c3, + 0x131c3, + 0x1131c3, + 0x2131c3, + 0x132c3, + 0x1132c3, + 0x2132c3, + 0x133c3, + 0x1133c3, + 0x2133c3, + 0x134c3, + 0x1134c3, + 0x2134c3, + 0x135c3, + 0x1135c3, + 0x2135c3, + 0x136c3, + 0x1136c3, + 0x2136c3, + 0x137c3, + 0x1137c3, + 0x2137c3, + 0x138c3, + 0x1138c3, + 0x2138c3, + 0x10020, + 0x110020, + 0x210020, + 0x11020, + 0x111020, + 0x211020, + 0x12020, + 0x112020, + 0x212020, + 0x13020, + 0x113020, + 0x213020, + 0x2007d, + 0x12007d, + 0x22007d, + 0x10040, + 0x10140, + 0x10240, + 0x10340, + 0x10440, + 0x10540, + 0x10640, + 0x10740, + 0x10840, + 0x10030, + 0x10130, + 0x10230, + 0x10330, + 0x10430, + 0x10530, + 0x10630, + 0x10730, + 0x10830, + 0x11040, + 0x11140, + 0x11240, + 0x11340, + 0x11440, + 0x11540, + 0x11640, + 0x11740, + 0x11840, + 0x11030, + 0x11130, + 0x11230, + 0x11330, + 0x11430, + 0x11530, + 0x11630, + 0x11730, + 0x11830, + 0x12040, + 0x12140, + 0x12240, + 0x12340, + 0x12440, + 0x12540, + 0x12640, + 0x12740, + 0x12840, + 0x12030, + 0x12130, + 0x12230, + 0x12330, + 0x12430, + 0x12530, + 0x12630, + 0x12730, + 0x12830, + 0x13040, + 0x13140, + 0x13240, + 0x13340, + 0x13440, + 0x13540, + 0x13640, + 0x13740, + 0x13840, + 0x13030, + 0x13130, + 0x13230, + 0x13330, + 0x13430, + 0x13530, + 0x13630, + 0x13730, + 0x13830, +#endif + 0 +}; + +void restore_1d2d_trained_csr_ddr4_p012(unsigned int addr) +{ + unsigned int i; + + dwc_ddrphy_apb_wr(0xd0000, 0x0); /* DWC_DDRPHYA_APBONLY0_MicroContMuxSel */ + for (i = 0; restore_csr[i] != 0; i++) { + dwc_ddrphy_apb_wr(restore_csr[i], reg32_read(addr + (i << 2))); + } + dwc_ddrphy_apb_wr(0xd0000, 0x1); /* DWC_DDRPHYA_APBONLY0_MicroContMuxSel */ + + ddr_dbg("restore 1d2d training registers done \n"); +} +#endif diff --git a/board/freescale/imx8mm_evk/ddr/ddr4/save_1d2d_trained_csr_ddr4_p012.c b/board/freescale/imx8mm_evk/ddr/ddr4/save_1d2d_trained_csr_ddr4_p012.c new file mode 100644 index 0000000000..179fabe36e --- /dev/null +++ b/board/freescale/imx8mm_evk/ddr/ddr4/save_1d2d_trained_csr_ddr4_p012.c @@ -0,0 +1,1044 @@ +/* + * Copyright 2018 NXP + * + * SPDX-License-Identifier: GPL-2.0+ + */ + +#include +#include +#include +#include +#include +#include "ddr4_define.h" + +#ifdef ENABLE_RETENTION +static const unsigned int save_csr[] = { + 0x200b2, + 0x1200b2, + 0x2200b2, + 0x200cb, +#ifdef RUN_ON_SILICON + 0x10043, + 0x110043, + 0x210043, + 0x10143, + 0x110143, + 0x210143, + 0x11043, + 0x111043, + 0x211043, + 0x11143, + 0x111143, + 0x211143, + 0x12043, + 0x112043, + 0x212043, + 0x12143, + 0x112143, + 0x212143, + 0x13043, + 0x113043, + 0x213043, + 0x13143, + 0x113143, + 0x213143, + 0x80, + 0x100080, + 0x200080, + 0x1080, + 0x101080, + 0x201080, + 0x2080, + 0x102080, + 0x202080, + 0x3080, + 0x103080, + 0x203080, + 0x4080, + 0x104080, + 0x204080, + 0x5080, + 0x105080, + 0x205080, + 0x6080, + 0x106080, + 0x206080, + 0x7080, + 0x107080, + 0x207080, + 0x8080, + 0x108080, + 0x208080, + 0x9080, + 0x109080, + 0x209080, + 0x10080, + 0x110080, + 0x210080, + 0x10180, + 0x110180, + 0x210180, + 0x10081, + 0x110081, + 0x210081, + 0x10181, + 0x110181, + 0x210181, + 0x10082, + 0x110082, + 0x210082, + 0x10182, + 0x110182, + 0x210182, + 0x10083, + 0x110083, + 0x210083, + 0x10183, + 0x110183, + 0x210183, + 0x11080, + 0x111080, + 0x211080, + 0x11180, + 0x111180, + 0x211180, + 0x11081, + 0x111081, + 0x211081, + 0x11181, + 0x111181, + 0x211181, + 0x11082, + 0x111082, + 0x211082, + 0x11182, + 0x111182, + 0x211182, + 0x11083, + 0x111083, + 0x211083, + 0x11183, + 0x111183, + 0x211183, + 0x12080, + 0x112080, + 0x212080, + 0x12180, + 0x112180, + 0x212180, + 0x12081, + 0x112081, + 0x212081, + 0x12181, + 0x112181, + 0x212181, + 0x12082, + 0x112082, + 0x212082, + 0x12182, + 0x112182, + 0x212182, + 0x12083, + 0x112083, + 0x212083, + 0x12183, + 0x112183, + 0x212183, + 0x13080, + 0x113080, + 0x213080, + 0x13180, + 0x113180, + 0x213180, + 0x13081, + 0x113081, + 0x213081, + 0x13181, + 0x113181, + 0x213181, + 0x13082, + 0x113082, + 0x213082, + 0x13182, + 0x113182, + 0x213182, + 0x13083, + 0x113083, + 0x213083, + 0x13183, + 0x113183, + 0x213183, + 0x100d0, + 0x1100d0, + 0x2100d0, + 0x101d0, + 0x1101d0, + 0x2101d0, + 0x100d1, + 0x1100d1, + 0x2100d1, + 0x101d1, + 0x1101d1, + 0x2101d1, + 0x100d2, + 0x1100d2, + 0x2100d2, + 0x101d2, + 0x1101d2, + 0x2101d2, + 0x100d3, + 0x1100d3, + 0x2100d3, + 0x101d3, + 0x1101d3, + 0x2101d3, + 0x110d0, + 0x1110d0, + 0x2110d0, + 0x111d0, + 0x1111d0, + 0x2111d0, + 0x110d1, + 0x1110d1, + 0x2110d1, + 0x111d1, + 0x1111d1, + 0x2111d1, + 0x110d2, + 0x1110d2, + 0x2110d2, + 0x111d2, + 0x1111d2, + 0x2111d2, + 0x110d3, + 0x1110d3, + 0x2110d3, + 0x111d3, + 0x1111d3, + 0x2111d3, + 0x120d0, + 0x1120d0, + 0x2120d0, + 0x121d0, + 0x1121d0, + 0x2121d0, + 0x120d1, + 0x1120d1, + 0x2120d1, + 0x121d1, + 0x1121d1, + 0x2121d1, + 0x120d2, + 0x1120d2, + 0x2120d2, + 0x121d2, + 0x1121d2, + 0x2121d2, + 0x120d3, + 0x1120d3, + 0x2120d3, + 0x121d3, + 0x1121d3, + 0x2121d3, + 0x130d0, + 0x1130d0, + 0x2130d0, + 0x131d0, + 0x1131d0, + 0x2131d0, + 0x130d1, + 0x1130d1, + 0x2130d1, + 0x131d1, + 0x1131d1, + 0x2131d1, + 0x130d2, + 0x1130d2, + 0x2130d2, + 0x131d2, + 0x1131d2, + 0x2131d2, + 0x130d3, + 0x1130d3, + 0x2130d3, + 0x131d3, + 0x1131d3, + 0x2131d3, + 0x10068, + 0x10168, + 0x10268, + 0x10368, + 0x10468, + 0x10568, + 0x10668, + 0x10768, + 0x10868, + 0x10069, + 0x10169, + 0x10269, + 0x10369, + 0x10469, + 0x10569, + 0x10669, + 0x10769, + 0x10869, + 0x1006a, + 0x1016a, + 0x1026a, + 0x1036a, + 0x1046a, + 0x1056a, + 0x1066a, + 0x1076a, + 0x1086a, + 0x1006b, + 0x1016b, + 0x1026b, + 0x1036b, + 0x1046b, + 0x1056b, + 0x1066b, + 0x1076b, + 0x1086b, + 0x11068, + 0x11168, + 0x11268, + 0x11368, + 0x11468, + 0x11568, + 0x11668, + 0x11768, + 0x11868, + 0x11069, + 0x11169, + 0x11269, + 0x11369, + 0x11469, + 0x11569, + 0x11669, + 0x11769, + 0x11869, + 0x1106a, + 0x1116a, + 0x1126a, + 0x1136a, + 0x1146a, + 0x1156a, + 0x1166a, + 0x1176a, + 0x1186a, + 0x1106b, + 0x1116b, + 0x1126b, + 0x1136b, + 0x1146b, + 0x1156b, + 0x1166b, + 0x1176b, + 0x1186b, + 0x12068, + 0x12168, + 0x12268, + 0x12368, + 0x12468, + 0x12568, + 0x12668, + 0x12768, + 0x12868, + 0x12069, + 0x12169, + 0x12269, + 0x12369, + 0x12469, + 0x12569, + 0x12669, + 0x12769, + 0x12869, + 0x1206a, + 0x1216a, + 0x1226a, + 0x1236a, + 0x1246a, + 0x1256a, + 0x1266a, + 0x1276a, + 0x1286a, + 0x1206b, + 0x1216b, + 0x1226b, + 0x1236b, + 0x1246b, + 0x1256b, + 0x1266b, + 0x1276b, + 0x1286b, + 0x13068, + 0x13168, + 0x13268, + 0x13368, + 0x13468, + 0x13568, + 0x13668, + 0x13768, + 0x13868, + 0x13069, + 0x13169, + 0x13269, + 0x13369, + 0x13469, + 0x13569, + 0x13669, + 0x13769, + 0x13869, + 0x1306a, + 0x1316a, + 0x1326a, + 0x1336a, + 0x1346a, + 0x1356a, + 0x1366a, + 0x1376a, + 0x1386a, + 0x1306b, + 0x1316b, + 0x1326b, + 0x1336b, + 0x1346b, + 0x1356b, + 0x1366b, + 0x1376b, + 0x1386b, + 0x1008c, + 0x11008c, + 0x21008c, + 0x1018c, + 0x11018c, + 0x21018c, + 0x1008d, + 0x11008d, + 0x21008d, + 0x1018d, + 0x11018d, + 0x21018d, + 0x1008e, + 0x11008e, + 0x21008e, + 0x1018e, + 0x11018e, + 0x21018e, + 0x1008f, + 0x11008f, + 0x21008f, + 0x1018f, + 0x11018f, + 0x21018f, + 0x1108c, + 0x11108c, + 0x21108c, + 0x1118c, + 0x11118c, + 0x21118c, + 0x1108d, + 0x11108d, + 0x21108d, + 0x1118d, + 0x11118d, + 0x21118d, + 0x1108e, + 0x11108e, + 0x21108e, + 0x1118e, + 0x11118e, + 0x21118e, + 0x1108f, + 0x11108f, + 0x21108f, + 0x1118f, + 0x11118f, + 0x21118f, + 0x1208c, + 0x11208c, + 0x21208c, + 0x1218c, + 0x11218c, + 0x21218c, + 0x1208d, + 0x11208d, + 0x21208d, + 0x1218d, + 0x11218d, + 0x21218d, + 0x1208e, + 0x11208e, + 0x21208e, + 0x1218e, + 0x11218e, + 0x21218e, + 0x1208f, + 0x11208f, + 0x21208f, + 0x1218f, + 0x11218f, + 0x21218f, + 0x1308c, + 0x11308c, + 0x21308c, + 0x1318c, + 0x11318c, + 0x21318c, + 0x1308d, + 0x11308d, + 0x21308d, + 0x1318d, + 0x11318d, + 0x21318d, + 0x1308e, + 0x11308e, + 0x21308e, + 0x1318e, + 0x11318e, + 0x21318e, + 0x1308f, + 0x11308f, + 0x21308f, + 0x1318f, + 0x11318f, + 0x21318f, + 0x100c0, + 0x1100c0, + 0x2100c0, + 0x101c0, + 0x1101c0, + 0x2101c0, + 0x102c0, + 0x1102c0, + 0x2102c0, + 0x103c0, + 0x1103c0, + 0x2103c0, + 0x104c0, + 0x1104c0, + 0x2104c0, + 0x105c0, + 0x1105c0, + 0x2105c0, + 0x106c0, + 0x1106c0, + 0x2106c0, + 0x107c0, + 0x1107c0, + 0x2107c0, + 0x108c0, + 0x1108c0, + 0x2108c0, + 0x100c1, + 0x1100c1, + 0x2100c1, + 0x101c1, + 0x1101c1, + 0x2101c1, + 0x102c1, + 0x1102c1, + 0x2102c1, + 0x103c1, + 0x1103c1, + 0x2103c1, + 0x104c1, + 0x1104c1, + 0x2104c1, + 0x105c1, + 0x1105c1, + 0x2105c1, + 0x106c1, + 0x1106c1, + 0x2106c1, + 0x107c1, + 0x1107c1, + 0x2107c1, + 0x108c1, + 0x1108c1, + 0x2108c1, + 0x100c2, + 0x1100c2, + 0x2100c2, + 0x101c2, + 0x1101c2, + 0x2101c2, + 0x102c2, + 0x1102c2, + 0x2102c2, + 0x103c2, + 0x1103c2, + 0x2103c2, + 0x104c2, + 0x1104c2, + 0x2104c2, + 0x105c2, + 0x1105c2, + 0x2105c2, + 0x106c2, + 0x1106c2, + 0x2106c2, + 0x107c2, + 0x1107c2, + 0x2107c2, + 0x108c2, + 0x1108c2, + 0x2108c2, + 0x100c3, + 0x1100c3, + 0x2100c3, + 0x101c3, + 0x1101c3, + 0x2101c3, + 0x102c3, + 0x1102c3, + 0x2102c3, + 0x103c3, + 0x1103c3, + 0x2103c3, + 0x104c3, + 0x1104c3, + 0x2104c3, + 0x105c3, + 0x1105c3, + 0x2105c3, + 0x106c3, + 0x1106c3, + 0x2106c3, + 0x107c3, + 0x1107c3, + 0x2107c3, + 0x108c3, + 0x1108c3, + 0x2108c3, + 0x110c0, + 0x1110c0, + 0x2110c0, + 0x111c0, + 0x1111c0, + 0x2111c0, + 0x112c0, + 0x1112c0, + 0x2112c0, + 0x113c0, + 0x1113c0, + 0x2113c0, + 0x114c0, + 0x1114c0, + 0x2114c0, + 0x115c0, + 0x1115c0, + 0x2115c0, + 0x116c0, + 0x1116c0, + 0x2116c0, + 0x117c0, + 0x1117c0, + 0x2117c0, + 0x118c0, + 0x1118c0, + 0x2118c0, + 0x110c1, + 0x1110c1, + 0x2110c1, + 0x111c1, + 0x1111c1, + 0x2111c1, + 0x112c1, + 0x1112c1, + 0x2112c1, + 0x113c1, + 0x1113c1, + 0x2113c1, + 0x114c1, + 0x1114c1, + 0x2114c1, + 0x115c1, + 0x1115c1, + 0x2115c1, + 0x116c1, + 0x1116c1, + 0x2116c1, + 0x117c1, + 0x1117c1, + 0x2117c1, + 0x118c1, + 0x1118c1, + 0x2118c1, + 0x110c2, + 0x1110c2, + 0x2110c2, + 0x111c2, + 0x1111c2, + 0x2111c2, + 0x112c2, + 0x1112c2, + 0x2112c2, + 0x113c2, + 0x1113c2, + 0x2113c2, + 0x114c2, + 0x1114c2, + 0x2114c2, + 0x115c2, + 0x1115c2, + 0x2115c2, + 0x116c2, + 0x1116c2, + 0x2116c2, + 0x117c2, + 0x1117c2, + 0x2117c2, + 0x118c2, + 0x1118c2, + 0x2118c2, + 0x110c3, + 0x1110c3, + 0x2110c3, + 0x111c3, + 0x1111c3, + 0x2111c3, + 0x112c3, + 0x1112c3, + 0x2112c3, + 0x113c3, + 0x1113c3, + 0x2113c3, + 0x114c3, + 0x1114c3, + 0x2114c3, + 0x115c3, + 0x1115c3, + 0x2115c3, + 0x116c3, + 0x1116c3, + 0x2116c3, + 0x117c3, + 0x1117c3, + 0x2117c3, + 0x118c3, + 0x1118c3, + 0x2118c3, + 0x120c0, + 0x1120c0, + 0x2120c0, + 0x121c0, + 0x1121c0, + 0x2121c0, + 0x122c0, + 0x1122c0, + 0x2122c0, + 0x123c0, + 0x1123c0, + 0x2123c0, + 0x124c0, + 0x1124c0, + 0x2124c0, + 0x125c0, + 0x1125c0, + 0x2125c0, + 0x126c0, + 0x1126c0, + 0x2126c0, + 0x127c0, + 0x1127c0, + 0x2127c0, + 0x128c0, + 0x1128c0, + 0x2128c0, + 0x120c1, + 0x1120c1, + 0x2120c1, + 0x121c1, + 0x1121c1, + 0x2121c1, + 0x122c1, + 0x1122c1, + 0x2122c1, + 0x123c1, + 0x1123c1, + 0x2123c1, + 0x124c1, + 0x1124c1, + 0x2124c1, + 0x125c1, + 0x1125c1, + 0x2125c1, + 0x126c1, + 0x1126c1, + 0x2126c1, + 0x127c1, + 0x1127c1, + 0x2127c1, + 0x128c1, + 0x1128c1, + 0x2128c1, + 0x120c2, + 0x1120c2, + 0x2120c2, + 0x121c2, + 0x1121c2, + 0x2121c2, + 0x122c2, + 0x1122c2, + 0x2122c2, + 0x123c2, + 0x1123c2, + 0x2123c2, + 0x124c2, + 0x1124c2, + 0x2124c2, + 0x125c2, + 0x1125c2, + 0x2125c2, + 0x126c2, + 0x1126c2, + 0x2126c2, + 0x127c2, + 0x1127c2, + 0x2127c2, + 0x128c2, + 0x1128c2, + 0x2128c2, + 0x120c3, + 0x1120c3, + 0x2120c3, + 0x121c3, + 0x1121c3, + 0x2121c3, + 0x122c3, + 0x1122c3, + 0x2122c3, + 0x123c3, + 0x1123c3, + 0x2123c3, + 0x124c3, + 0x1124c3, + 0x2124c3, + 0x125c3, + 0x1125c3, + 0x2125c3, + 0x126c3, + 0x1126c3, + 0x2126c3, + 0x127c3, + 0x1127c3, + 0x2127c3, + 0x128c3, + 0x1128c3, + 0x2128c3, + 0x130c0, + 0x1130c0, + 0x2130c0, + 0x131c0, + 0x1131c0, + 0x2131c0, + 0x132c0, + 0x1132c0, + 0x2132c0, + 0x133c0, + 0x1133c0, + 0x2133c0, + 0x134c0, + 0x1134c0, + 0x2134c0, + 0x135c0, + 0x1135c0, + 0x2135c0, + 0x136c0, + 0x1136c0, + 0x2136c0, + 0x137c0, + 0x1137c0, + 0x2137c0, + 0x138c0, + 0x1138c0, + 0x2138c0, + 0x130c1, + 0x1130c1, + 0x2130c1, + 0x131c1, + 0x1131c1, + 0x2131c1, + 0x132c1, + 0x1132c1, + 0x2132c1, + 0x133c1, + 0x1133c1, + 0x2133c1, + 0x134c1, + 0x1134c1, + 0x2134c1, + 0x135c1, + 0x1135c1, + 0x2135c1, + 0x136c1, + 0x1136c1, + 0x2136c1, + 0x137c1, + 0x1137c1, + 0x2137c1, + 0x138c1, + 0x1138c1, + 0x2138c1, + 0x130c2, + 0x1130c2, + 0x2130c2, + 0x131c2, + 0x1131c2, + 0x2131c2, + 0x132c2, + 0x1132c2, + 0x2132c2, + 0x133c2, + 0x1133c2, + 0x2133c2, + 0x134c2, + 0x1134c2, + 0x2134c2, + 0x135c2, + 0x1135c2, + 0x2135c2, + 0x136c2, + 0x1136c2, + 0x2136c2, + 0x137c2, + 0x1137c2, + 0x2137c2, + 0x138c2, + 0x1138c2, + 0x2138c2, + 0x130c3, + 0x1130c3, + 0x2130c3, + 0x131c3, + 0x1131c3, + 0x2131c3, + 0x132c3, + 0x1132c3, + 0x2132c3, + 0x133c3, + 0x1133c3, + 0x2133c3, + 0x134c3, + 0x1134c3, + 0x2134c3, + 0x135c3, + 0x1135c3, + 0x2135c3, + 0x136c3, + 0x1136c3, + 0x2136c3, + 0x137c3, + 0x1137c3, + 0x2137c3, + 0x138c3, + 0x1138c3, + 0x2138c3, + 0x10020, + 0x110020, + 0x210020, + 0x11020, + 0x111020, + 0x211020, + 0x12020, + 0x112020, + 0x212020, + 0x13020, + 0x113020, + 0x213020, + 0x2007d, + 0x12007d, + 0x22007d, + 0x10040, + 0x10140, + 0x10240, + 0x10340, + 0x10440, + 0x10540, + 0x10640, + 0x10740, + 0x10840, + 0x10030, + 0x10130, + 0x10230, + 0x10330, + 0x10430, + 0x10530, + 0x10630, + 0x10730, + 0x10830, + 0x11040, + 0x11140, + 0x11240, + 0x11340, + 0x11440, + 0x11540, + 0x11640, + 0x11740, + 0x11840, + 0x11030, + 0x11130, + 0x11230, + 0x11330, + 0x11430, + 0x11530, + 0x11630, + 0x11730, + 0x11830, + 0x12040, + 0x12140, + 0x12240, + 0x12340, + 0x12440, + 0x12540, + 0x12640, + 0x12740, + 0x12840, + 0x12030, + 0x12130, + 0x12230, + 0x12330, + 0x12430, + 0x12530, + 0x12630, + 0x12730, + 0x12830, + 0x13040, + 0x13140, + 0x13240, + 0x13340, + 0x13440, + 0x13540, + 0x13640, + 0x13740, + 0x13840, + 0x13030, + 0x13130, + 0x13230, + 0x13330, + 0x13430, + 0x13530, + 0x13630, + 0x13730, + 0x13830, +#endif + 0 +}; + +void save_1d2d_trained_csr_ddr4_p012(unsigned int addr) +{ + unsigned int i; + + dwc_ddrphy_apb_wr(0xd0000, 0x0); /* DWC_DDRPHYA_APBONLY0_MicroContMuxSel */ + dwc_ddrphy_apb_wr(0xc0080, 0x3); /* DWC_DDRPHYA_DRTUB0_UcclkHclkEnables */ + for (i = 0; save_csr[i] != 0; i++) { + reg32_write(addr + (i << 2), dwc_ddrphy_apb_rd(save_csr[i])); + } + dwc_ddrphy_apb_wr(0xc0080, 0x0); /* DWC_DDRPHYA_DRTUB0_UcclkHclkEnables */ + dwc_ddrphy_apb_wr(0xd0000, 0x1); /* DWC_DDRPHYA_APBONLY0_MicroContMuxSel */ + + ddr_dbg("save 1d2d training registers done \n"); +} +#endif diff --git a/board/freescale/imx8mm_evk/ddr/helper.c b/board/freescale/imx8mm_evk/ddr/helper.c new file mode 100644 index 0000000000..564f582f14 --- /dev/null +++ b/board/freescale/imx8mm_evk/ddr/helper.c @@ -0,0 +1,102 @@ +/* + * Copyright 2018 NXP + * + * SPDX-License-Identifier: GPL-2.0+ + */ + +#include +#include +#include +#include +#include +#include +#include + +#include "ddr.h" + +DECLARE_GLOBAL_DATA_PTR; + +#define IMEM_LEN 32768 +#define DMEM_LEN 16384 +#define IMEM_2D_OFFSET 49152 + +#define IMEM_OFFSET_ADDR 0x00050000 +#define DMEM_OFFSET_ADDR 0x00054000 +#define DDR_TRAIN_CODE_BASE_ADDR IP2APB_DDRPHY_IPS_BASE_ADDR(0) + +/* We need PHY iMEM PHY is 32KB padded */ +void ddr_load_train_code(enum fw_type type) +{ + u32 tmp32, i; + u32 error = 0; + unsigned long pr_to32, pr_from32; + unsigned long fw_offset = type ? IMEM_2D_OFFSET : 0; + unsigned long imem_start = (unsigned long)&_end + fw_offset; + unsigned long dmem_start = imem_start + IMEM_LEN; + + pr_from32 = imem_start; + pr_to32 = DDR_TRAIN_CODE_BASE_ADDR + 4 * IMEM_OFFSET_ADDR; + for (i = 0x0; i < IMEM_LEN; ) { + tmp32 = readl(pr_from32); + writew(tmp32 & 0x0000ffff, pr_to32); + pr_to32 += 4; + writew((tmp32 >> 16) & 0x0000ffff, pr_to32); + pr_to32 += 4; + pr_from32 += 4; + i += 4; + } + + pr_from32 = dmem_start; + pr_to32 = DDR_TRAIN_CODE_BASE_ADDR + 4 * DMEM_OFFSET_ADDR; + for (i = 0x0; i < DMEM_LEN;) { + tmp32 = readl(pr_from32); + writew(tmp32 & 0x0000ffff, pr_to32); + pr_to32 += 4; + writew((tmp32 >> 16) & 0x0000ffff, pr_to32); + pr_to32 += 4; + pr_from32 += 4; + i += 4; + } + + printf("check ddr4_pmu_train_imem code\n"); + pr_from32 = imem_start; + pr_to32 = DDR_TRAIN_CODE_BASE_ADDR + 4 * IMEM_OFFSET_ADDR; + for (i = 0x0; i < IMEM_LEN;) { + tmp32 = (readw(pr_to32) & 0x0000ffff); + pr_to32 += 4; + tmp32 += ((readw(pr_to32) & 0x0000ffff) << 16); + + if (tmp32 != readl(pr_from32)) { + printf("%lx %lx\n", pr_from32, pr_to32); + error++; + } + pr_from32 += 4; + pr_to32 += 4; + i += 4; + } + if (error) + printf("check ddr4_pmu_train_imem code fail=%d\n", error); + else + printf("check ddr4_pmu_train_imem code pass\n"); + + printf("check ddr4_pmu_train_dmem code\n"); + pr_from32 = dmem_start; + pr_to32 = DDR_TRAIN_CODE_BASE_ADDR + 4 * DMEM_OFFSET_ADDR; + for (i = 0x0; i < DMEM_LEN;) { + tmp32 = (readw(pr_to32) & 0x0000ffff); + pr_to32 += 4; + tmp32 += ((readw(pr_to32) & 0x0000ffff) << 16); + if (tmp32 != readl(pr_from32)) { + printf("%lx %lx\n", pr_from32, pr_to32); + error++; + } + pr_from32 += 4; + pr_to32 += 4; + i += 4; + } + + if (error) + printf("check ddr4_pmu_train_dmem code fail=%d", error); + else + printf("check ddr4_pmu_train_dmem code pass\n"); +} diff --git a/board/freescale/imx8mm_evk/ddr/wait_ddrphy_training_complete.c b/board/freescale/imx8mm_evk/ddr/wait_ddrphy_training_complete.c new file mode 100644 index 0000000000..e0da1be32f --- /dev/null +++ b/board/freescale/imx8mm_evk/ddr/wait_ddrphy_training_complete.c @@ -0,0 +1,102 @@ +/* + * Copyright 2017 NXP + * + * SPDX-License-Identifier: GPL-2.0+ + */ +#include +#include +#include +#include +#include +#include "ddr.h" + +static inline void poll_pmu_message_ready(void) +{ + unsigned int reg; + + do { + reg = reg32_read(IP2APB_DDRPHY_IPS_BASE_ADDR(0)+4*0xd0004); + } while (reg & 0x1); +} + +static inline void ack_pmu_message_recieve(void) +{ + unsigned int reg; + + reg32_write(IP2APB_DDRPHY_IPS_BASE_ADDR(0)+4*0xd0031, 0x0); + + do { + reg = reg32_read(IP2APB_DDRPHY_IPS_BASE_ADDR(0)+4*0xd0004); + } while (!(reg & 0x1)); + + reg32_write(IP2APB_DDRPHY_IPS_BASE_ADDR(0)+4*0xd0031, 0x1); +} + +static inline unsigned int get_mail(void) +{ + unsigned int reg; + + poll_pmu_message_ready(); + + reg = reg32_read(IP2APB_DDRPHY_IPS_BASE_ADDR(0)+4*0xd0032); + + ack_pmu_message_recieve(); + + return reg; +} + +static inline unsigned int get_stream_message(void) +{ + unsigned int reg, reg2; + + poll_pmu_message_ready(); + + reg = reg32_read(IP2APB_DDRPHY_IPS_BASE_ADDR(0)+4*0xd0032); + + reg2 = reg32_read(IP2APB_DDRPHY_IPS_BASE_ADDR(0)+4*0xd0034); + + reg2 = (reg2 << 16) | reg; + + ack_pmu_message_recieve(); + + return reg2; +} + +static inline void decode_major_message(unsigned int mail) +{ + ddr_dbg("[PMU Major message = 0x%08x]\n", mail); +} + +static inline void decode_streaming_message(void) +{ + unsigned int string_index, arg __maybe_unused; + int i = 0; + + string_index = get_stream_message(); + ddr_dbg(" PMU String index = 0x%08x\n", string_index); + while (i < (string_index & 0xffff)) { + arg = get_stream_message(); + ddr_dbg(" arg[%d] = 0x%08x\n", i, arg); + i++; + } + + ddr_dbg("\n"); +} + +void wait_ddrphy_training_complete(void) +{ + unsigned int mail; + while (1) { + mail = get_mail(); + decode_major_message(mail); + if (mail == 0x08) { + decode_streaming_message(); + } else if (mail == 0x07) { + printf("Training PASS\n"); + break; + } else if (mail == 0xff) { + printf("Training FAILED\n"); + break; + } + } +} diff --git a/board/freescale/imx8mm_evk/imx8mm_evk.c b/board/freescale/imx8mm_evk/imx8mm_evk.c index d30d33cad4..8420bf3a7f 100644 --- a/board/freescale/imx8mm_evk/imx8mm_evk.c +++ b/board/freescale/imx8mm_evk/imx8mm_evk.c @@ -123,7 +123,6 @@ static iomux_v3_cfg_t const gpmi_pads[] = { static void setup_gpmi_nand(void) { imx_iomux_v3_setup_multiple_pads(gpmi_pads, ARRAY_SIZE(gpmi_pads)); - mxs_dma_init(); } #endif @@ -137,6 +136,10 @@ int board_early_init_f(void) imx_iomux_v3_setup_multiple_pads(uart_pads, ARRAY_SIZE(uart_pads)); +#ifdef CONFIG_NAND_MXS + setup_gpmi_nand(); /* SPL will call the board_early_init_f */ +#endif + return 0; } @@ -405,9 +408,6 @@ int board_init(void) board_qspi_init(); #endif -#ifdef CONFIG_NAND_MXS - setup_gpmi_nand(); /* SPL will call the board_early_init_f */ -#endif return 0; } diff --git a/board/freescale/imx8mm_evk/spl.c b/board/freescale/imx8mm_evk/spl.c index fd4726e86c..2cea694ed1 100644 --- a/board/freescale/imx8mm_evk/spl.c +++ b/board/freescale/imx8mm_evk/spl.c @@ -19,14 +19,22 @@ #include #include #include +#ifdef CONFIG_IMX8M_LPDDR4 #include +#else +#include "ddr/ddr.h" +#endif DECLARE_GLOBAL_DATA_PTR; void spl_dram_init(void) { +#ifdef CONFIG_IMX8M_LPDDR4 /* ddr train */ ddr_init(&lpddr4_timing); +#else + ddr_init(); +#endif } #define I2C_PAD_CTRL (PAD_CTL_DSE6 | PAD_CTL_HYS | PAD_CTL_PUE) @@ -181,6 +189,11 @@ int power_init_board(void) /* increase VDD_DRAM to 0.9v for 3Ghz DDR */ pmic_reg_write(p, BD71837_BUCK5_VOLT, 0x2); +#ifndef CONFIG_IMX8M_LPDDR4 + /* increase NVCC_DRAM_1V2 to 1.2v for DDR4 */ + pmic_reg_write(p, BD71837_BUCK8_VOLT, 0x28); +#endif + /* lock the PMIC regs */ pmic_reg_write(p, BD71837_REGLOCK, 0x11); diff --git a/configs/imx8mm_ddr4_evk_defconfig b/configs/imx8mm_ddr4_evk_defconfig new file mode 100644 index 0000000000..29a8cb66eb --- /dev/null +++ b/configs/imx8mm_ddr4_evk_defconfig @@ -0,0 +1,71 @@ +CONFIG_ARM=y +CONFIG_ARCH_IMX8M=y +CONFIG_SYS_TEXT_BASE=0x40200000 +CONFIG_SYS_MALLOC_F_LEN=0x2000 +CONFIG_USB_TCPC=y +CONFIG_TARGET_IMX8MM_DDR4_EVK=y +CONFIG_SYS_EXTRA_OPTIONS="IMX_CONFIG=arch/arm/mach-imx/spl_sd.cfg,SPL_TEXT_BASE=0x7E1000" +CONFIG_FIT=y +CONFIG_SPL_LOAD_FIT=y +CONFIG_ARCH_MISC_INIT=y +CONFIG_SPL=y +CONFIG_SPL_BOARD_INIT=y +CONFIG_SPL_MMC_SUPPORT=y +CONFIG_HUSH_PARSER=y +CONFIG_OF_LIBFDT=y +CONFIG_FS_FAT=y +CONFIG_CMD_EXT2=y +CONFIG_CMD_EXT4=y +CONFIG_CMD_EXT4_WRITE=y +CONFIG_CMD_FAT=y +CONFIG_DEFAULT_DEVICE_TREE="fsl-imx8mm-ddr4-evk" +CONFIG_DEFAULT_FDT_FILE="fsl-imx8mm-ddr4-evk.dtb" +CONFIG_ENV_IS_IN_MMC=y +CONFIG_CMD_I2C=y +CONFIG_CMD_GPIO=y +CONFIG_CMD_CACHE=y +CONFIG_CMD_REGULATOR=y +CONFIG_CMD_MEMTEST=y +CONFIG_OF_CONTROL=y +CONFIG_FASTBOOT=y +CONFIG_USB_FUNCTION_FASTBOOT=y +CONFIG_CMD_FASTBOOT=y +CONFIG_ANDROID_BOOT_IMAGE=y +CONFIG_FSL_FASTBOOT=y +CONFIG_FASTBOOT_BUF_ADDR=0x42800000 +CONFIG_FASTBOOT_BUF_SIZE=0x40000000 +CONFIG_FASTBOOT_FLASH=y +CONFIG_FASTBOOT_FLASH_MMC_DEV=0 + +CONFIG_DM_GPIO=y +CONFIG_DM_I2C=y +CONFIG_SYS_I2C_MXC=y +CONFIG_DM_MMC=y +# CONFIG_DM_PMIC=y +CONFIG_EFI_PARTITION=y +CONFIG_DM_ETH=y +CONFIG_PINCTRL=y +CONFIG_PINCTRL_IMX8M=y +CONFIG_DM_REGULATOR=y +CONFIG_DM_REGULATOR_FIXED=y +CONFIG_DM_REGULATOR_GPIO=y +CONFIG_NXP_TMU=y +CONFIG_DM_THERMAL=y +CONFIG_USB=y +CONFIG_USB_GADGET=y +CONFIG_DM_USB=y +CONFIG_USB_EHCI_HCD=y + +CONFIG_SPL_USB_HOST_SUPPORT=y +CONFIG_SPL_USB_GADGET_SUPPORT=y +CONFIG_SPL_USB_SDP_SUPPORT=y +CONFIG_SDP_LOADADDR=0x40400000 +CONFIG_USB_GADGET_MANUFACTURER="FSL" +CONFIG_USB_GADGET_VENDOR_NUM=0x0525 +CONFIG_USB_GADGET_PRODUCT_NUM=0xa4a5 + +CONFIG_VIDEO=y +CONFIG_IMX_SEC_MIPI_DSI=y + +CONFIG_CMD_NAND=y +CONFIG_CMD_UBI=y diff --git a/configs/imx8mm_evk_defconfig b/configs/imx8mm_evk_defconfig index eb6d45083a..125587560e 100644 --- a/configs/imx8mm_evk_defconfig +++ b/configs/imx8mm_evk_defconfig @@ -19,6 +19,7 @@ CONFIG_CMD_EXT4=y CONFIG_CMD_EXT4_WRITE=y CONFIG_CMD_FAT=y CONFIG_DEFAULT_DEVICE_TREE="fsl-imx8mm-evk" +CONFIG_DEFAULT_FDT_FILE="fsl-imx8mm-evk.dtb" CONFIG_ENV_IS_IN_MMC=y CONFIG_CMD_SF=y CONFIG_CMD_I2C=y diff --git a/include/configs/imx8mm_evk.h b/include/configs/imx8mm_evk.h index 38787551f0..d35f1b2728 100644 --- a/include/configs/imx8mm_evk.h +++ b/include/configs/imx8mm_evk.h @@ -127,7 +127,7 @@ "fdt_addr=0x43000000\0" \ "fdt_high=0xffffffffffffffff\0" \ "boot_fdt=try\0" \ - "fdt_file=fsl-imx8mm-evk.dtb\0" \ + "fdt_file=" CONFIG_DEFAULT_FDT_FILE "\0" \ "initrd_addr=0x43800000\0" \ "initrd_high=0xffffffffffffffff\0" \ "mmcdev="__stringify(CONFIG_SYS_MMC_ENV_DEV)"\0" \ @@ -244,7 +244,11 @@ #define CONFIG_FSL_ESDHC #define CONFIG_FSL_USDHC +#ifdef CONFIG_TARGET_IMX8MM_DDR4_EVK +#define CONFIG_SYS_FSL_USDHC_NUM 1 +#else #define CONFIG_SYS_FSL_USDHC_NUM 2 +#endif #define CONFIG_SYS_FSL_ESDHC_ADDR 0 #define CONFIG_SUPPORT_EMMC_BOOT /* eMMC specific */ @@ -279,7 +283,8 @@ #endif #endif -#ifdef CONFIG_NAND_MXS +#ifdef CONFIG_CMD_NAND +#define CONFIG_NAND_MXS #define CONFIG_CMD_NAND_TRIMFFS /* NAND stuff */ @@ -292,7 +297,13 @@ #define CONFIG_APBH_DMA #define CONFIG_APBH_DMA_BURST #define CONFIG_APBH_DMA_BURST8 + +#ifdef CONFIG_CMD_UBI +#define CONFIG_MTD_PARTITIONS +#define CONFIG_MTD_DEVICE #endif +#endif /* CONFIG_CMD_NAND */ + #define CONFIG_MXC_GPIO