mirror of
https://github.com/AsahiLinux/u-boot
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8efc243741
Because KS2 u-boot works in 32 bit address space the existing ram_size global data field cannot be used. The maximum, which the get_ram_size() can detect is 2GB only. The ft_board_setup() needs the actual ddr3 size to fix up dtb. This commit introduces the ddr3_get_size() which uses SPD data to calculate the ddr3 size. This function replaces the "ddr3_size" environment variable, which was used to get the SODIMM size. For platforms, which don't have SODIMM with SPD and ddr3 is populated to a board a simple ddr3_get_size function that returns ddr3 size has to be implemented. See hardware-k2l.h Signed-off-by: Vitaly Andrianov <vitalya@ti.com> Signed-off-by: Nishanth Menon <nm@ti.com> Reviewed-by: Tom Rini <trini@konsulko.com>
463 lines
12 KiB
C
463 lines
12 KiB
C
/*
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* Keystone2: DDR3 SPD configuration
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*
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* (C) Copyright 2015-2016 Texas Instruments Incorporated, <www.ti.com>
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*
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* SPDX-License-Identifier: GPL-2.0+
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*/
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#include <common.h>
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#include <i2c.h>
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#include <ddr_spd.h>
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#include <asm/arch/ddr3.h>
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#include <asm/arch/hardware.h>
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#define DUMP_DDR_CONFIG 0 /* set to 1 to debug */
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#define debug_ddr_cfg(fmt, args...) \
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debug_cond(DUMP_DDR_CONFIG, fmt, ##args)
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static void dump_phy_config(struct ddr3_phy_config *ptr)
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{
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debug_ddr_cfg("\npllcr 0x%08X\n", ptr->pllcr);
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debug_ddr_cfg("pgcr1_mask 0x%08X\n", ptr->pgcr1_mask);
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debug_ddr_cfg("pgcr1_val 0x%08X\n", ptr->pgcr1_val);
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debug_ddr_cfg("ptr0 0x%08X\n", ptr->ptr0);
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debug_ddr_cfg("ptr1 0x%08X\n", ptr->ptr1);
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debug_ddr_cfg("ptr2 0x%08X\n", ptr->ptr2);
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debug_ddr_cfg("ptr3 0x%08X\n", ptr->ptr3);
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debug_ddr_cfg("ptr4 0x%08X\n", ptr->ptr4);
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debug_ddr_cfg("dcr_mask 0x%08X\n", ptr->dcr_mask);
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debug_ddr_cfg("dcr_val 0x%08X\n", ptr->dcr_val);
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debug_ddr_cfg("dtpr0 0x%08X\n", ptr->dtpr0);
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debug_ddr_cfg("dtpr1 0x%08X\n", ptr->dtpr1);
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debug_ddr_cfg("dtpr2 0x%08X\n", ptr->dtpr2);
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debug_ddr_cfg("mr0 0x%08X\n", ptr->mr0);
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debug_ddr_cfg("mr1 0x%08X\n", ptr->mr1);
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debug_ddr_cfg("mr2 0x%08X\n", ptr->mr2);
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debug_ddr_cfg("dtcr 0x%08X\n", ptr->dtcr);
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debug_ddr_cfg("pgcr2 0x%08X\n", ptr->pgcr2);
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debug_ddr_cfg("zq0cr1 0x%08X\n", ptr->zq0cr1);
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debug_ddr_cfg("zq1cr1 0x%08X\n", ptr->zq1cr1);
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debug_ddr_cfg("zq2cr1 0x%08X\n", ptr->zq2cr1);
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debug_ddr_cfg("pir_v1 0x%08X\n", ptr->pir_v1);
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debug_ddr_cfg("pir_v2 0x%08X\n\n", ptr->pir_v2);
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};
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static void dump_emif_config(struct ddr3_emif_config *ptr)
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{
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debug_ddr_cfg("\nsdcfg 0x%08X\n", ptr->sdcfg);
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debug_ddr_cfg("sdtim1 0x%08X\n", ptr->sdtim1);
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debug_ddr_cfg("sdtim2 0x%08X\n", ptr->sdtim2);
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debug_ddr_cfg("sdtim3 0x%08X\n", ptr->sdtim3);
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debug_ddr_cfg("sdtim4 0x%08X\n", ptr->sdtim4);
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debug_ddr_cfg("zqcfg 0x%08X\n", ptr->zqcfg);
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debug_ddr_cfg("sdrfc 0x%08X\n\n", ptr->sdrfc);
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};
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#define TEMP NORMAL_TEMP
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#define VBUS_CLKPERIOD 1.875 /* Corresponds to vbus=533MHz, */
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#define PLLGS_VAL (4000.0 / VBUS_CLKPERIOD) /* 4 us */
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#define PLLPD_VAL (1000.0 / VBUS_CLKPERIOD) /* 1 us */
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#define PLLLOCK_VAL (100000.0 / VBUS_CLKPERIOD) /* 100 us */
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#define PLLRST_VAL (9000.0 / VBUS_CLKPERIOD) /* 9 us */
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#define PHYRST_VAL 0x10
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#define DDR_TERM RZQ_4_TERM
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#define SDRAM_DRIVE RZQ_7_IMP
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#define DYN_ODT ODT_DISABLE
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enum srt {
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NORMAL_TEMP,
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EXTENDED_TEMP
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};
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enum out_impedance {
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RZQ_6_IMP = 0,
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RZQ_7_IMP
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};
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enum die_term {
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ODT_DISABLE = 0,
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RZQ_4_TERM,
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RZQ_2_TERM,
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RZQ_6_TERM,
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RZQ_12_TERM,
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RZQ_8_TERM
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};
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struct ddr3_sodimm {
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u32 t_ck;
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u32 freqsel;
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u32 t_xp;
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u32 t_cke;
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u32 t_pllpd;
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u32 t_pllgs;
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u32 t_phyrst;
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u32 t_plllock;
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u32 t_pllrst;
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u32 t_rfc;
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u32 t_xs;
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u32 t_dinit0;
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u32 t_dinit1;
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u32 t_dinit2;
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u32 t_dinit3;
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u32 t_rtp;
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u32 t_wtr;
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u32 t_rp;
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u32 t_rcd;
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u32 t_ras;
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u32 t_rrd;
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u32 t_rc;
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u32 t_faw;
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u32 t_mrd;
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u32 t_mod;
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u32 t_wlo;
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u32 t_wlmrd;
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u32 t_xsdll;
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u32 t_xpdll;
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u32 t_ckesr;
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u32 t_dllk;
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u32 t_wr;
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u32 t_wr_bin;
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u32 cas;
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u32 cwl;
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u32 asr;
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u32 pasr;
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u32 t_refprd;
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u8 sdram_type;
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u8 ibank;
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u8 pagesize;
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u8 t_rrd2;
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u8 t_ras_max;
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u8 t_zqcs;
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u32 refresh_rate;
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u8 t_csta;
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u8 rank;
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u8 mirrored;
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u8 buswidth;
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};
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static u8 cas_latancy(u16 temp)
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{
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int loop;
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u8 cas_bin = 0;
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for (loop = 0; loop < 32; loop += 2, temp >>= 1) {
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if (temp & 0x0001)
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cas_bin = (loop > 15) ? loop - 15 : loop;
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}
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return cas_bin;
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}
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static int ddr3_get_size_in_mb(ddr3_spd_eeprom_t *buf)
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{
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return (((buf->organization & 0x38) >> 3) + 1) *
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(256 << (buf->density_banks & 0xf));
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}
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static int ddrtimingcalculation(ddr3_spd_eeprom_t *buf, struct ddr3_sodimm *spd,
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struct ddr3_spd_cb *spd_cb)
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{
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u32 mtb, clk_freq;
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if ((buf->mem_type != 0x0b) ||
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((buf->density_banks & 0x70) != 0x00))
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return 1;
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spd->sdram_type = 0x03;
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spd->ibank = 0x03;
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mtb = buf->mtb_dividend * 1000 / buf->mtb_divisor;
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spd->t_ck = buf->tck_min * mtb;
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spd_cb->ddrspdclock = 2000000 / spd->t_ck;
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clk_freq = spd_cb->ddrspdclock / 2;
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spd->rank = ((buf->organization & 0x38) >> 3) + 1;
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if (spd->rank > 2)
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return 1;
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spd->pagesize = (buf->addressing & 0x07) + 1;
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if (spd->pagesize > 3)
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return 1;
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spd->buswidth = 8 << (buf->bus_width & 0x7);
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if ((spd->buswidth < 16) || (spd->buswidth > 64))
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return 1;
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spd->mirrored = buf->mod_section.unbuffered.addr_mapping & 1;
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printf("DDR3A Speed will be configured for %d Operation.\n",
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spd_cb->ddrspdclock);
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if (spd_cb->ddrspdclock == 1333) {
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spd->t_xp = ((3 * spd->t_ck) > 6000) ?
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3 : ((5999 / spd->t_ck) + 1);
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spd->t_cke = ((3 * spd->t_ck) > 5625) ?
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3 : ((5624 / spd->t_ck) + 1);
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} else if (spd_cb->ddrspdclock == 1600) {
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spd->t_xp = ((3 * spd->t_ck) > 6000) ?
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3 : ((5999 / spd->t_ck) + 1);
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spd->t_cke = ((3 * spd->t_ck) > 5000) ?
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3 : ((4999 / spd->t_ck) + 1);
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} else {
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printf("Unsupported DDR3 speed %d\n", spd_cb->ddrspdclock);
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return 1;
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}
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spd->t_xpdll = (spd->t_ck > 2400) ? 10 : 24000 / spd->t_ck;
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spd->t_ckesr = spd->t_cke + 1;
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/* SPD Calculated Values */
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spd->cas = cas_latancy((buf->caslat_msb << 8) |
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buf->caslat_lsb);
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spd->t_wr = (buf->twr_min * mtb) / spd->t_ck;
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spd->t_wr_bin = (spd->t_wr / 2) & 0x07;
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spd->t_rcd = ((buf->trcd_min * mtb) - 1) / spd->t_ck + 1;
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spd->t_rrd = ((buf->trrd_min * mtb) - 1) / spd->t_ck + 1;
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spd->t_rp = (((buf->trp_min * mtb) - 1) / spd->t_ck) + 1;
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spd->t_ras = (((buf->tras_trc_ext & 0x0f) << 8 | buf->tras_min_lsb) *
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mtb) / spd->t_ck;
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spd->t_rc = (((((buf->tras_trc_ext & 0xf0) << 4) | buf->trc_min_lsb) *
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mtb) - 1) / spd->t_ck + 1;
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spd->t_rfc = (buf->trfc_min_lsb | (buf->trfc_min_msb << 8)) * mtb /
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1000;
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spd->t_wtr = (buf->twtr_min * mtb) / spd->t_ck;
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spd->t_rtp = (buf->trtp_min * mtb) / spd->t_ck;
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spd->t_xs = (((spd->t_rfc + 10) * 1000) / spd->t_ck);
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spd->t_rfc = ((spd->t_rfc * 1000) - 1) / spd->t_ck + 1;
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spd->t_faw = (((buf->tfaw_msb << 8) | buf->tfaw_min) * mtb) / spd->t_ck;
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spd->t_rrd2 = ((((buf->tfaw_msb << 8) |
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buf->tfaw_min) * mtb) / (4 * spd->t_ck)) - 1;
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/* Hard-coded values */
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spd->t_mrd = 0x00;
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spd->t_mod = 0x00;
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spd->t_wlo = 0x0C;
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spd->t_wlmrd = 0x28;
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spd->t_xsdll = 0x200;
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spd->t_ras_max = 0x0F;
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spd->t_csta = 0x05;
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spd->t_dllk = 0x200;
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/* CAS Write Latency */
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if (spd->t_ck >= 2500)
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spd->cwl = 0;
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else if (spd->t_ck >= 1875)
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spd->cwl = 1;
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else if (spd->t_ck >= 1500)
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spd->cwl = 2;
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else if (spd->t_ck >= 1250)
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spd->cwl = 3;
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else if (spd->t_ck >= 1071)
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spd->cwl = 4;
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else
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spd->cwl = 5;
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/* SD:RAM Thermal and Refresh Options */
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spd->asr = (buf->therm_ref_opt & 0x04) >> 2;
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spd->pasr = (buf->therm_ref_opt & 0x80) >> 7;
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spd->t_zqcs = 64;
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spd->t_refprd = (TEMP == NORMAL_TEMP) ? 7812500 : 3906250;
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spd->t_refprd = spd->t_refprd / spd->t_ck;
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spd->refresh_rate = spd->t_refprd;
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spd->t_refprd = spd->t_refprd * 5;
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/* Set MISC PHY space registers fields */
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if ((clk_freq / 2) >= 166 && (clk_freq / 2 < 275))
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spd->freqsel = 0x03;
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else if ((clk_freq / 2) > 225 && (clk_freq / 2 < 385))
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spd->freqsel = 0x01;
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else if ((clk_freq / 2) > 335 && (clk_freq / 2 < 534))
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spd->freqsel = 0x00;
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spd->t_dinit0 = 500000000 / spd->t_ck; /* CKE low time 500 us */
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spd->t_dinit1 = spd->t_xs;
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spd->t_dinit2 = 200000000 / spd->t_ck; /* Reset low time 200 us */
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/* Time from ZQ initialization command to first command (1 us) */
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spd->t_dinit3 = 1000000 / spd->t_ck;
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spd->t_pllgs = PLLGS_VAL + 1;
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spd->t_pllpd = PLLPD_VAL + 1;
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spd->t_plllock = PLLLOCK_VAL + 1;
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spd->t_pllrst = PLLRST_VAL;
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spd->t_phyrst = PHYRST_VAL;
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spd_cb->ddr_size_gbyte = ddr3_get_size_in_mb(buf) / 1024;
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return 0;
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}
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static void init_ddr3param(struct ddr3_spd_cb *spd_cb,
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struct ddr3_sodimm *spd)
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{
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spd_cb->phy_cfg.pllcr = (spd->freqsel & 3) << 18 | 0xE << 13;
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spd_cb->phy_cfg.pgcr1_mask = (IODDRM_MASK | ZCKSEL_MASK);
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spd_cb->phy_cfg.pgcr1_val = ((1 << 2) | (1 << 7) | (1 << 23));
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spd_cb->phy_cfg.ptr0 = ((spd->t_pllpd & 0x7ff) << 21) |
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((spd->t_pllgs & 0x7fff) << 6) | (spd->t_phyrst & 0x3f);
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spd_cb->phy_cfg.ptr1 = ((spd->t_plllock & 0xffff) << 16) |
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(spd->t_pllrst & 0x1fff);
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spd_cb->phy_cfg.ptr2 = 0;
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spd_cb->phy_cfg.ptr3 = ((spd->t_dinit1 & 0x1ff) << 20) |
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(spd->t_dinit0 & 0xfffff);
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spd_cb->phy_cfg.ptr4 = ((spd->t_dinit3 & 0x3ff) << 18) |
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(spd->t_dinit2 & 0x3ffff);
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spd_cb->phy_cfg.dcr_mask = PDQ_MASK | MPRDQ_MASK | BYTEMASK_MASK;
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spd_cb->phy_cfg.dcr_val = 1 << 10;
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if (spd->mirrored) {
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spd_cb->phy_cfg.dcr_mask |= NOSRA_MASK | UDIMM_MASK;
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spd_cb->phy_cfg.dcr_val |= (1 << 27) | (1 << 29);
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}
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spd_cb->phy_cfg.dtpr0 = (spd->t_rc & 0x3f) << 26 |
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(spd->t_rrd & 0xf) << 22 |
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(spd->t_ras & 0x3f) << 16 | (spd->t_rcd & 0xf) << 12 |
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(spd->t_rp & 0xf) << 8 | (spd->t_wtr & 0xf) << 4 |
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(spd->t_rtp & 0xf);
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spd_cb->phy_cfg.dtpr1 = (spd->t_wlo & 0xf) << 26 |
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(spd->t_wlmrd & 0x3f) << 20 | (spd->t_rfc & 0x1ff) << 11 |
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(spd->t_faw & 0x3f) << 5 | (spd->t_mod & 0x7) << 2 |
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(spd->t_mrd & 0x3);
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spd_cb->phy_cfg.dtpr2 = 0 << 31 | 1 << 30 | 0 << 29 |
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(spd->t_dllk & 0x3ff) << 19 | (spd->t_ckesr & 0xf) << 15;
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spd_cb->phy_cfg.dtpr2 |= (((spd->t_xp > spd->t_xpdll) ?
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spd->t_xp : spd->t_xpdll) &
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0x1f) << 10;
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spd_cb->phy_cfg.dtpr2 |= (((spd->t_xs > spd->t_xsdll) ?
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spd->t_xs : spd->t_xsdll) &
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0x3ff);
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spd_cb->phy_cfg.mr0 = 1 << 12 | (spd->t_wr_bin & 0x7) << 9 | 0 << 8 |
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0 << 7 | ((spd->cas & 0x0E) >> 1) << 4 | 0 << 3 |
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(spd->cas & 0x01) << 2;
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spd_cb->phy_cfg.mr1 = 0 << 12 | 0 << 11 | 0 << 7 | 0 << 3 |
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((DDR_TERM >> 2) & 1) << 9 | ((DDR_TERM >> 1) & 1) << 6 |
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(DDR_TERM & 0x1) << 2 | ((SDRAM_DRIVE >> 1) & 1) << 5 |
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(SDRAM_DRIVE & 1) << 1 | 0 << 0;
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spd_cb->phy_cfg.mr2 = DYN_ODT << 9 | TEMP << 7 | (spd->asr & 1) << 6 |
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(spd->cwl & 7) << 3 | (spd->pasr & 7);
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spd_cb->phy_cfg.dtcr = (spd->rank == 2) ? 0x730035C7 : 0x710035C7;
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spd_cb->phy_cfg.pgcr2 = (0xF << 20) | ((int)spd->t_refprd & 0x3ffff);
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spd_cb->phy_cfg.zq0cr1 = 0x0000005D;
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spd_cb->phy_cfg.zq1cr1 = 0x0000005B;
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spd_cb->phy_cfg.zq2cr1 = 0x0000005B;
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spd_cb->phy_cfg.pir_v1 = 0x00000033;
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spd_cb->phy_cfg.pir_v2 = 0x0000FF81;
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/* EMIF Registers */
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spd_cb->emif_cfg.sdcfg = spd->sdram_type << 29 | (DDR_TERM & 7) << 25 |
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(DYN_ODT & 3) << 22 | (spd->cwl & 0x7) << 14 |
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(spd->cas & 0xf) << 8 | (spd->ibank & 3) << 5 |
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(spd->buswidth & 3) << 12 | (spd->pagesize & 3);
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if (spd->rank == 2)
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spd_cb->emif_cfg.sdcfg |= 1 << 3;
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spd_cb->emif_cfg.sdtim1 = ((spd->t_wr - 1) & 0x1f) << 25 |
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((spd->t_ras - 1) & 0x7f) << 18 |
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((spd->t_rc - 1) & 0xff) << 10 |
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(spd->t_rrd2 & 0x3f) << 4 |
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((spd->t_wtr - 1) & 0xf);
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|
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spd_cb->emif_cfg.sdtim2 = 0x07 << 10 | ((spd->t_rp - 1) & 0x1f) << 5 |
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((spd->t_rcd - 1) & 0x1f);
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|
|
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spd_cb->emif_cfg.sdtim3 = ((spd->t_xp - 2) & 0xf) << 28 |
|
|
((spd->t_xs - 1) & 0x3ff) << 18 |
|
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((spd->t_xsdll - 1) & 0x3ff) << 8 |
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((spd->t_rtp - 1) & 0xf) << 4 | ((spd->t_cke) & 0xf);
|
|
|
|
spd_cb->emif_cfg.sdtim4 = (spd->t_csta & 0xf) << 28 |
|
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((spd->t_ckesr - 1) & 0xf) << 24 |
|
|
((spd->t_zqcs - 1) & 0xff) << 16 |
|
|
((spd->t_rfc - 1) & 0x3ff) << 4 |
|
|
(spd->t_ras_max & 0xf);
|
|
|
|
spd_cb->emif_cfg.sdrfc = (spd->refresh_rate - 1) & 0xffff;
|
|
|
|
/* TODO zqcfg value fixed ,May be required correction for K2E evm. */
|
|
spd_cb->emif_cfg.zqcfg = (spd->rank == 2) ? 0xF0073200 : 0x70073200;
|
|
}
|
|
|
|
static int ddr3_read_spd(ddr3_spd_eeprom_t *spd_params)
|
|
{
|
|
int ret;
|
|
int old_bus;
|
|
|
|
i2c_init(CONFIG_SYS_DAVINCI_I2C_SPEED, CONFIG_SYS_DAVINCI_I2C_SLAVE);
|
|
|
|
old_bus = i2c_get_bus_num();
|
|
i2c_set_bus_num(1);
|
|
|
|
ret = i2c_read(0x53, 0, 1, (unsigned char *)spd_params, 256);
|
|
|
|
i2c_set_bus_num(old_bus);
|
|
|
|
if (ret) {
|
|
printf("Cannot read DIMM params\n");
|
|
return 1;
|
|
}
|
|
|
|
if (ddr3_spd_check(spd_params))
|
|
return 1;
|
|
|
|
return 0;
|
|
}
|
|
|
|
int ddr3_get_size(void)
|
|
{
|
|
ddr3_spd_eeprom_t spd_params;
|
|
|
|
if (ddr3_read_spd(&spd_params))
|
|
return 0;
|
|
|
|
return ddr3_get_size_in_mb(&spd_params) / 1024;
|
|
}
|
|
|
|
int ddr3_get_dimm_params_from_spd(struct ddr3_spd_cb *spd_cb)
|
|
{
|
|
struct ddr3_sodimm spd;
|
|
ddr3_spd_eeprom_t spd_params;
|
|
|
|
memset(&spd, 0, sizeof(spd));
|
|
|
|
if (ddr3_read_spd(&spd_params))
|
|
return 1;
|
|
|
|
if (ddrtimingcalculation(&spd_params, &spd, spd_cb)) {
|
|
printf("Timing caclulation error\n");
|
|
return 1;
|
|
}
|
|
|
|
strncpy(spd_cb->dimm_name, (char *)spd_params.mpart, 18);
|
|
spd_cb->dimm_name[18] = '\0';
|
|
|
|
init_ddr3param(spd_cb, &spd);
|
|
|
|
dump_emif_config(&spd_cb->emif_cfg);
|
|
dump_phy_config(&spd_cb->phy_cfg);
|
|
|
|
return 0;
|
|
}
|