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u-boot-brain/arch/arm/cpu/armv7/omap5/sdram.c
SRICHARAN R 6c70935d75 ARM: DRA: EMIF: Change DDR3 settings to use hw leveling 
Currently the DDR3 memory on DRA7 ES1.0 evm board is enabled using
software leveling. This was done since hardware leveling was not
working. Now that the right sequence to do hw leveling is identified,
use it. This is required for EMIF clockdomain to idle and come back
during lowpower usecases.

Signed-off-by: Sricharan R <r.sricharan@ti.com>
2013-12-04 08:12:08 -05:00

587 lines
15 KiB
C
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/*
* Timing and Organization details of the ddr device parts used in OMAP5
* EVM
*
* (C) Copyright 2010
* Texas Instruments, <www.ti.com>
*
* Aneesh V <aneesh@ti.com>
* Sricharan R <r.sricharan@ti.com>
*
* SPDX-License-Identifier: GPL-2.0+
*/
#include <asm/emif.h>
#include <asm/arch/sys_proto.h>
/*
* This file provides details of the LPDDR2 SDRAM parts used on OMAP5
* EVM. Since the parts used and geometry are identical for
* evm for a given OMAP5 revision, this information is kept
* here instead of being in board directory. However the key functions
* exported are weakly linked so that they can be over-ridden in the board
* directory if there is a OMAP5 board in the future that uses a different
* memory device or geometry.
*
* For any new board with different memory devices over-ride one or more
* of the following functions as per the CONFIG flags you intend to enable:
* - emif_get_reg_dump()
* - emif_get_dmm_regs()
* - emif_get_device_details()
* - emif_get_device_timings()
*/
#ifdef CONFIG_SYS_EMIF_PRECALCULATED_TIMING_REGS
const struct emif_regs emif_regs_532_mhz_2cs = {
.sdram_config_init = 0x80800EBA,
.sdram_config = 0x808022BA,
.ref_ctrl = 0x0000081A,
.sdram_tim1 = 0x772F6873,
.sdram_tim2 = 0x304a129a,
.sdram_tim3 = 0x02f7e45f,
.read_idle_ctrl = 0x00050000,
.zq_config = 0x000b3215,
.temp_alert_config = 0x08000a05,
.emif_ddr_phy_ctlr_1_init = 0x0E28420d,
.emif_ddr_phy_ctlr_1 = 0x0E28420d,
.emif_ddr_ext_phy_ctrl_1 = 0x04020080,
.emif_ddr_ext_phy_ctrl_2 = 0x28C518A3,
.emif_ddr_ext_phy_ctrl_3 = 0x518A3146,
.emif_ddr_ext_phy_ctrl_4 = 0x0014628C,
.emif_ddr_ext_phy_ctrl_5 = 0x04010040
};
const struct emif_regs emif_regs_532_mhz_2cs_es2 = {
.sdram_config_init = 0x80800EBA,
.sdram_config = 0x808022BA,
.ref_ctrl = 0x0000081A,
.sdram_tim1 = 0x772F6873,
.sdram_tim2 = 0x304a129a,
.sdram_tim3 = 0x02f7e45f,
.read_idle_ctrl = 0x00050000,
.zq_config = 0x100b3215,
.temp_alert_config = 0x08000a05,
.emif_ddr_phy_ctlr_1_init = 0x0E30400d,
.emif_ddr_phy_ctlr_1 = 0x0E30400d,
.emif_ddr_ext_phy_ctrl_1 = 0x04020080,
.emif_ddr_ext_phy_ctrl_2 = 0x28C518A3,
.emif_ddr_ext_phy_ctrl_3 = 0x518A3146,
.emif_ddr_ext_phy_ctrl_4 = 0x0014628C,
.emif_ddr_ext_phy_ctrl_5 = 0xC330CC33,
};
const struct emif_regs emif_regs_266_mhz_2cs = {
.sdram_config_init = 0x80800EBA,
.sdram_config = 0x808022BA,
.ref_ctrl = 0x0000040D,
.sdram_tim1 = 0x2A86B419,
.sdram_tim2 = 0x1025094A,
.sdram_tim3 = 0x026BA22F,
.read_idle_ctrl = 0x00050000,
.zq_config = 0x000b3215,
.temp_alert_config = 0x08000a05,
.emif_ddr_phy_ctlr_1_init = 0x0E28420d,
.emif_ddr_phy_ctlr_1 = 0x0E28420d,
.emif_ddr_ext_phy_ctrl_1 = 0x04020080,
.emif_ddr_ext_phy_ctrl_2 = 0x0A414829,
.emif_ddr_ext_phy_ctrl_3 = 0x14829052,
.emif_ddr_ext_phy_ctrl_4 = 0x000520A4,
.emif_ddr_ext_phy_ctrl_5 = 0x04010040
};
const struct emif_regs emif_regs_ddr3_532_mhz_1cs = {
.sdram_config_init = 0x61851B32,
.sdram_config = 0x61851B32,
.sdram_config2 = 0x0,
.ref_ctrl = 0x00001035,
.sdram_tim1 = 0xCCCF36B3,
.sdram_tim2 = 0x308F7FDA,
.sdram_tim3 = 0x027F88A8,
.read_idle_ctrl = 0x00050000,
.zq_config = 0x0007190B,
.temp_alert_config = 0x00000000,
.emif_ddr_phy_ctlr_1_init = 0x0020420A,
.emif_ddr_phy_ctlr_1 = 0x0024420A,
.emif_ddr_ext_phy_ctrl_1 = 0x04040100,
.emif_ddr_ext_phy_ctrl_2 = 0x00000000,
.emif_ddr_ext_phy_ctrl_3 = 0x00000000,
.emif_ddr_ext_phy_ctrl_4 = 0x00000000,
.emif_ddr_ext_phy_ctrl_5 = 0x04010040,
.emif_rd_wr_lvl_rmp_win = 0x00000000,
.emif_rd_wr_lvl_rmp_ctl = 0x80000000,
.emif_rd_wr_lvl_ctl = 0x00000000,
.emif_rd_wr_exec_thresh = 0x00000305
};
const struct emif_regs emif_regs_ddr3_532_mhz_1cs_es2 = {
.sdram_config_init = 0x61851B32,
.sdram_config = 0x61851B32,
.sdram_config2 = 0x0,
.ref_ctrl = 0x00001035,
.sdram_tim1 = 0xCCCF36B3,
.sdram_tim2 = 0x308F7FDA,
.sdram_tim3 = 0x027F88A8,
.read_idle_ctrl = 0x00050000,
.zq_config = 0x1007190B,
.temp_alert_config = 0x00000000,
.emif_ddr_phy_ctlr_1_init = 0x0030400A,
.emif_ddr_phy_ctlr_1 = 0x0034400A,
.emif_ddr_ext_phy_ctrl_1 = 0x04040100,
.emif_ddr_ext_phy_ctrl_2 = 0x00000000,
.emif_ddr_ext_phy_ctrl_3 = 0x00000000,
.emif_ddr_ext_phy_ctrl_4 = 0x00000000,
.emif_ddr_ext_phy_ctrl_5 = 0x4350D435,
.emif_rd_wr_lvl_rmp_win = 0x00000000,
.emif_rd_wr_lvl_rmp_ctl = 0x80000000,
.emif_rd_wr_lvl_ctl = 0x00000000,
.emif_rd_wr_exec_thresh = 0x40000305
};
const struct emif_regs emif_1_regs_ddr3_532_mhz_1cs_dra_es1 = {
.sdram_config_init = 0x61851ab2,
.sdram_config = 0x61851ab2,
.sdram_config2 = 0x08000000,
.ref_ctrl = 0x00001035,
.sdram_tim1 = 0xCCCF36B3,
.sdram_tim2 = 0x308F7FDA,
.sdram_tim3 = 0x027F88A8,
.read_idle_ctrl = 0x00050000,
.zq_config = 0x0007190B,
.temp_alert_config = 0x00000000,
.emif_ddr_phy_ctlr_1_init = 0x0024400A,
.emif_ddr_phy_ctlr_1 = 0x0024400A,
.emif_ddr_ext_phy_ctrl_1 = 0x10040100,
.emif_ddr_ext_phy_ctrl_2 = 0x00B000B0,
.emif_ddr_ext_phy_ctrl_3 = 0x00B000B0,
.emif_ddr_ext_phy_ctrl_4 = 0x00B000B0,
.emif_ddr_ext_phy_ctrl_5 = 0x00B000B0,
.emif_rd_wr_lvl_rmp_win = 0x00000000,
.emif_rd_wr_lvl_rmp_ctl = 0x80000000,
.emif_rd_wr_lvl_ctl = 0x00000000,
.emif_rd_wr_exec_thresh = 0x00000305
};
const struct emif_regs emif_2_regs_ddr3_532_mhz_1cs_dra_es1 = {
.sdram_config_init = 0x61851B32,
.sdram_config = 0x61851B32,
.sdram_config2 = 0x08000000,
.ref_ctrl = 0x00001035,
.sdram_tim1 = 0xCCCF36B3,
.sdram_tim2 = 0x308F7FDA,
.sdram_tim3 = 0x027F88A8,
.read_idle_ctrl = 0x00050000,
.zq_config = 0x0007190B,
.temp_alert_config = 0x00000000,
.emif_ddr_phy_ctlr_1_init = 0x0024400A,
.emif_ddr_phy_ctlr_1 = 0x0024400A,
.emif_ddr_ext_phy_ctrl_1 = 0x10040100,
.emif_ddr_ext_phy_ctrl_2 = 0x00B000B0,
.emif_ddr_ext_phy_ctrl_3 = 0x00B000B0,
.emif_ddr_ext_phy_ctrl_4 = 0x00B000B0,
.emif_ddr_ext_phy_ctrl_5 = 0x00B000B0,
.emif_rd_wr_lvl_rmp_win = 0x00000000,
.emif_rd_wr_lvl_rmp_ctl = 0x80000000,
.emif_rd_wr_lvl_ctl = 0x00000000,
.emif_rd_wr_exec_thresh = 0x00000305
};
const struct dmm_lisa_map_regs lisa_map_4G_x_2_x_2 = {
.dmm_lisa_map_0 = 0x0,
.dmm_lisa_map_1 = 0x0,
.dmm_lisa_map_2 = 0x80740300,
.dmm_lisa_map_3 = 0xFF020100,
.is_ma_present = 0x1
};
/*
* DRA752 EVM board has 1.5 GB of memory
* EMIF1 --> 2Gb * 2 = 512MB
* EMIF2 --> 2Gb * 4 = 1GB
* so mapping 1GB interleaved and 512MB non-interleaved
*/
const struct dmm_lisa_map_regs lisa_map_2G_x_2_x_2_2G_x_1_x_2 = {
.dmm_lisa_map_0 = 0x0,
.dmm_lisa_map_1 = 0x80640300,
.dmm_lisa_map_2 = 0xC0500220,
.dmm_lisa_map_3 = 0xFF020100,
.is_ma_present = 0x1
};
/*
* DRA752 EVM EMIF1 ONLY CONFIGURATION
*/
const struct dmm_lisa_map_regs lisa_map_2G_x_1_x_2 = {
.dmm_lisa_map_0 = 0x0,
.dmm_lisa_map_1 = 0x0,
.dmm_lisa_map_2 = 0x80500100,
.dmm_lisa_map_3 = 0xFF020100,
.is_ma_present = 0x1
};
/*
* DRA752 EVM EMIF2 ONLY CONFIGURATION
*/
const struct dmm_lisa_map_regs lisa_map_2G_x_2_x_2 = {
.dmm_lisa_map_0 = 0x0,
.dmm_lisa_map_1 = 0x0,
.dmm_lisa_map_2 = 0x80600200,
.dmm_lisa_map_3 = 0xFF020100,
.is_ma_present = 0x1
};
static void emif_get_reg_dump_sdp(u32 emif_nr, const struct emif_regs **regs)
{
switch (omap_revision()) {
case OMAP5430_ES1_0:
*regs = &emif_regs_532_mhz_2cs;
break;
case OMAP5432_ES1_0:
*regs = &emif_regs_ddr3_532_mhz_1cs;
break;
case OMAP5430_ES2_0:
*regs = &emif_regs_532_mhz_2cs_es2;
break;
case OMAP5432_ES2_0:
*regs = &emif_regs_ddr3_532_mhz_1cs_es2;
break;
case DRA752_ES1_0:
switch (emif_nr) {
case 1:
*regs = &emif_1_regs_ddr3_532_mhz_1cs_dra_es1;
break;
case 2:
*regs = &emif_2_regs_ddr3_532_mhz_1cs_dra_es1;
break;
}
break;
default:
*regs = &emif_1_regs_ddr3_532_mhz_1cs_dra_es1;
}
}
void emif_get_reg_dump(u32 emif_nr, const struct emif_regs **regs)
__attribute__((weak, alias("emif_get_reg_dump_sdp")));
static void emif_get_dmm_regs_sdp(const struct dmm_lisa_map_regs
**dmm_lisa_regs)
{
switch (omap_revision()) {
case OMAP5430_ES1_0:
case OMAP5430_ES2_0:
case OMAP5432_ES1_0:
case OMAP5432_ES2_0:
*dmm_lisa_regs = &lisa_map_4G_x_2_x_2;
break;
case DRA752_ES1_0:
default:
*dmm_lisa_regs = &lisa_map_2G_x_2_x_2_2G_x_1_x_2;
}
}
void emif_get_dmm_regs(const struct dmm_lisa_map_regs **dmm_lisa_regs)
__attribute__((weak, alias("emif_get_dmm_regs_sdp")));
#else
static const struct lpddr2_device_details dev_4G_S4_details = {
.type = LPDDR2_TYPE_S4,
.density = LPDDR2_DENSITY_4Gb,
.io_width = LPDDR2_IO_WIDTH_32,
.manufacturer = LPDDR2_MANUFACTURER_SAMSUNG
};
static void emif_get_device_details_sdp(u32 emif_nr,
struct lpddr2_device_details *cs0_device_details,
struct lpddr2_device_details *cs1_device_details)
{
/* EMIF1 & EMIF2 have identical configuration */
*cs0_device_details = dev_4G_S4_details;
*cs1_device_details = dev_4G_S4_details;
}
void emif_get_device_details(u32 emif_nr,
struct lpddr2_device_details *cs0_device_details,
struct lpddr2_device_details *cs1_device_details)
__attribute__((weak, alias("emif_get_device_details_sdp")));
#endif /* CONFIG_SYS_EMIF_PRECALCULATED_TIMING_REGS */
const u32 ext_phy_ctrl_const_base[] = {
0x01004010,
0x00001004,
0x04010040,
0x01004010,
0x00001004,
0x00000000,
0x00000000,
0x00000000,
0x80080080,
0x00800800,
0x08102040,
0x00000001,
0x540A8150,
0xA81502a0,
0x002A0540,
0x00000000,
0x00000000,
0x00000000,
0x00000077,
0x0
};
const u32 ddr3_ext_phy_ctrl_const_base_es1[] = {
0x01004010,
0x00001004,
0x04010040,
0x01004010,
0x00001004,
0x00000000,
0x00000000,
0x00000000,
0x80080080,
0x00800800,
0x08102040,
0x00000002,
0x0,
0x0,
0x0,
0x00000000,
0x00000000,
0x00000000,
0x00000057,
0x0
};
const u32 ddr3_ext_phy_ctrl_const_base_es2[] = {
0x50D4350D,
0x00000D43,
0x04010040,
0x01004010,
0x00001004,
0x00000000,
0x00000000,
0x00000000,
0x80080080,
0x00800800,
0x08102040,
0x00000002,
0x00000000,
0x00000000,
0x00000000,
0x00000000,
0x00000000,
0x00000000,
0x00000057,
0x0
};
const u32
dra_ddr3_ext_phy_ctrl_const_base_es1_emif1[] = {
0x00B000B0,
0x00400040,
0x00400040,
0x00400040,
0x00400040,
0x00400040,
0x00800080,
0x00800080,
0x00800080,
0x00800080,
0x00800080,
0x00600060,
0x00600060,
0x00600060,
0x00600060,
0x00600060,
0x00800080,
0x00800080,
0x40010080,
0x08102040,
0x0,
0x0,
0x0,
0x0,
0x0
};
const u32
dra_ddr3_ext_phy_ctrl_const_base_es1_emif2[] = {
0x00BB00BB,
0x00440044,
0x00440044,
0x00440044,
0x00440044,
0x00440044,
0x007F007F,
0x007F007F,
0x007F007F,
0x007F007F,
0x007F007F,
0x00600060,
0x00600060,
0x00600060,
0x00600060,
0x00600060,
0x0,
0x00600020,
0x40010080,
0x08102040,
0x0,
0x0,
0x0,
0x0,
0x0
};
const struct lpddr2_mr_regs mr_regs = {
.mr1 = MR1_BL_8_BT_SEQ_WRAP_EN_NWR_8,
.mr2 = 0x6,
.mr3 = 0x1,
.mr10 = MR10_ZQ_ZQINIT,
.mr16 = MR16_REF_FULL_ARRAY
};
static void emif_get_ext_phy_ctrl_const_regs(u32 emif_nr,
const u32 **regs,
u32 *size)
{
switch (omap_revision()) {
case OMAP5430_ES1_0:
case OMAP5430_ES2_0:
*regs = ext_phy_ctrl_const_base;
*size = ARRAY_SIZE(ext_phy_ctrl_const_base);
break;
case OMAP5432_ES1_0:
*regs = ddr3_ext_phy_ctrl_const_base_es1;
*size = ARRAY_SIZE(ddr3_ext_phy_ctrl_const_base_es1);
break;
case OMAP5432_ES2_0:
*regs = ddr3_ext_phy_ctrl_const_base_es2;
*size = ARRAY_SIZE(ddr3_ext_phy_ctrl_const_base_es2);
break;
case DRA752_ES1_0:
if (emif_nr == 1) {
*regs = dra_ddr3_ext_phy_ctrl_const_base_es1_emif1;
*size =
ARRAY_SIZE(dra_ddr3_ext_phy_ctrl_const_base_es1_emif1);
} else {
*regs = dra_ddr3_ext_phy_ctrl_const_base_es1_emif2;
*size =
ARRAY_SIZE(dra_ddr3_ext_phy_ctrl_const_base_es1_emif2);
}
break;
default:
*regs = ddr3_ext_phy_ctrl_const_base_es2;
*size = ARRAY_SIZE(ddr3_ext_phy_ctrl_const_base_es2);
}
}
void get_lpddr2_mr_regs(const struct lpddr2_mr_regs **regs)
{
*regs = &mr_regs;
}
void do_ext_phy_settings(u32 base, const struct emif_regs *regs)
{
u32 *ext_phy_ctrl_base = 0;
u32 *emif_ext_phy_ctrl_base = 0;
u32 emif_nr;
const u32 *ext_phy_ctrl_const_regs;
u32 i = 0;
u32 size;
emif_nr = (base == EMIF1_BASE) ? 1 : 2;
struct emif_reg_struct *emif = (struct emif_reg_struct *)base;
ext_phy_ctrl_base = (u32 *) &(regs->emif_ddr_ext_phy_ctrl_1);
emif_ext_phy_ctrl_base = (u32 *) &(emif->emif_ddr_ext_phy_ctrl_1);
/* Configure external phy control timing registers */
for (i = 0; i < EMIF_EXT_PHY_CTRL_TIMING_REG; i++) {
writel(*ext_phy_ctrl_base, emif_ext_phy_ctrl_base++);
/* Update shadow registers */
writel(*ext_phy_ctrl_base++, emif_ext_phy_ctrl_base++);
}
/*
* external phy 6-24 registers do not change with
* ddr frequency
*/
emif_get_ext_phy_ctrl_const_regs(emif_nr,
&ext_phy_ctrl_const_regs, &size);
for (i = 0; i < size; i++) {
writel(ext_phy_ctrl_const_regs[i],
emif_ext_phy_ctrl_base++);
/* Update shadow registers */
writel(ext_phy_ctrl_const_regs[i],
emif_ext_phy_ctrl_base++);
}
}
#ifndef CONFIG_SYS_DEFAULT_LPDDR2_TIMINGS
static const struct lpddr2_ac_timings timings_jedec_532_mhz = {
.max_freq = 532000000,
.RL = 8,
.tRPab = 21,
.tRCD = 18,
.tWR = 15,
.tRASmin = 42,
.tRRD = 10,
.tWTRx2 = 15,
.tXSR = 140,
.tXPx2 = 15,
.tRFCab = 130,
.tRTPx2 = 15,
.tCKE = 3,
.tCKESR = 15,
.tZQCS = 90,
.tZQCL = 360,
.tZQINIT = 1000,
.tDQSCKMAXx2 = 11,
.tRASmax = 70,
.tFAW = 50
};
static const struct lpddr2_min_tck min_tck = {
.tRL = 3,
.tRP_AB = 3,
.tRCD = 3,
.tWR = 3,
.tRAS_MIN = 3,
.tRRD = 2,
.tWTR = 2,
.tXP = 2,
.tRTP = 2,
.tCKE = 3,
.tCKESR = 3,
.tFAW = 8
};
static const struct lpddr2_ac_timings *ac_timings[MAX_NUM_SPEEDBINS] = {
&timings_jedec_532_mhz
};
static const struct lpddr2_device_timings dev_4G_S4_timings = {
.ac_timings = ac_timings,
.min_tck = &min_tck,
};
void emif_get_device_timings_sdp(u32 emif_nr,
const struct lpddr2_device_timings **cs0_device_timings,
const struct lpddr2_device_timings **cs1_device_timings)
{
/* Identical devices on EMIF1 & EMIF2 */
*cs0_device_timings = &dev_4G_S4_timings;
*cs1_device_timings = &dev_4G_S4_timings;
}
void emif_get_device_timings(u32 emif_nr,
const struct lpddr2_device_timings **cs0_device_timings,
const struct lpddr2_device_timings **cs1_device_timings)
__attribute__((weak, alias("emif_get_device_timings_sdp")));
#endif /* CONFIG_SYS_DEFAULT_LPDDR2_TIMINGS */
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