/* * Copyright (c) 2016, ARM Limited and Contributors. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * Redistributions of source code must retain the above copyright notice, this * list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * * Neither the name of ARM nor the names of its contributors may be used * to endorse or promote products derived from this software without specific * prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #include #include #include "dram_spec_timing.h" static const uint8_t ddr3_cl_cwl[][7] = { /* * speed 0~330 331 ~ 400 401 ~ 533 534~666 667~800 801~933 934~1066 * tCK>3 2.5~3 1.875~2.5 1.5~1.875 1.25~1.5 1.07~1.25 0.938~1.07 * cl<<4, cwl cl<<4, cwl cl<<4, cwl */ /* DDR3_800D (5-5-5) */ {((5 << 4) | 5), ((5 << 4) | 5), 0, 0, 0, 0, 0}, /* DDR3_800E (6-6-6) */ {((5 << 4) | 5), ((6 << 4) | 5), 0, 0, 0, 0, 0}, /* DDR3_1066E (6-6-6) */ {((5 << 4) | 5), ((5 << 4) | 5), ((6 << 4) | 6), 0, 0, 0, 0}, /* DDR3_1066F (7-7-7) */ {((5 << 4) | 5), ((6 << 4) | 5), ((7 << 4) | 6), 0, 0, 0, 0}, /* DDR3_1066G (8-8-8) */ {((5 << 4) | 5), ((6 << 4) | 5), ((8 << 4) | 6), 0, 0, 0, 0}, /* DDR3_1333F (7-7-7) */ {((5 << 4) | 5), ((5 << 4) | 5), ((6 << 4) | 6), ((7 << 4) | 7), 0, 0, 0}, /* DDR3_1333G (8-8-8) */ {((5 << 4) | 5), ((5 << 4) | 5), ((7 << 4) | 6), ((8 << 4) | 7), 0, 0, 0}, /* DDR3_1333H (9-9-9) */ {((5 << 4) | 5), ((6 << 4) | 5), ((8 << 4) | 6), ((9 << 4) | 7), 0, 0, 0}, /* DDR3_1333J (10-10-10) */ {((5 << 4) | 5), ((6 << 4) | 5), ((8 << 4) | 6), ((10 << 4) | 7), 0, 0, 0}, /* DDR3_1600G (8-8-8) */ {((5 << 4) | 5), ((5 << 4) | 5), ((6 << 4) | 6), ((7 << 4) | 7), ((8 << 4) | 8), 0, 0}, /* DDR3_1600H (9-9-9) */ {((5 << 4) | 5), ((5 << 4) | 5), ((6 << 4) | 6), ((8 << 4) | 7), ((9 << 4) | 8), 0, 0}, /* DDR3_1600J (10-10-10) */ {((5 << 4) | 5), ((5 << 4) | 5), ((7 << 4) | 6), ((9 << 4) | 7), ((10 << 4) | 8), 0, 0}, /* DDR3_1600K (11-11-11) */ {((5 << 4) | 5), ((6 << 4) | 5), ((8 << 4) | 6), ((10 << 4) | 7), ((11 << 4) | 8), 0, 0}, /* DDR3_1866J (10-10-10) */ {((5 << 4) | 5), ((5 << 4) | 5), ((6 << 4) | 6), ((8 << 4) | 7), ((9 << 4) | 8), ((11 << 4) | 9), 0}, /* DDR3_1866K (11-11-11) */ {((5 << 4) | 5), ((5 << 4) | 5), ((7 << 4) | 6), ((8 << 4) | 7), ((10 << 4) | 8), ((11 << 4) | 9), 0}, /* DDR3_1866L (12-12-12) */ {((6 << 4) | 5), ((6 << 4) | 5), ((7 << 4) | 6), ((9 << 4) | 7), ((11 << 4) | 8), ((12 << 4) | 9), 0}, /* DDR3_1866M (13-13-13) */ {((6 << 4) | 5), ((6 << 4) | 5), ((8 << 4) | 6), ((10 << 4) | 7), ((11 << 4) | 8), ((13 << 4) | 9), 0}, /* DDR3_2133K (11-11-11) */ {((5 << 4) | 5), ((5 << 4) | 5), ((6 << 4) | 6), ((7 << 4) | 7), ((9 << 4) | 8), ((10 << 4) | 9), ((11 << 4) | 10)}, /* DDR3_2133L (12-12-12) */ {((5 << 4) | 5), ((5 << 4) | 5), ((6 << 4) | 6), ((8 << 4) | 7), ((9 << 4) | 8), ((11 << 4) | 9), ((12 << 4) | 10)}, /* DDR3_2133M (13-13-13) */ {((5 << 4) | 5), ((5 << 4) | 5), ((7 << 4) | 6), ((9 << 4) | 7), ((10 << 4) | 8), ((12 << 4) | 9), ((13 << 4) | 10)}, /* DDR3_2133N (14-14-14) */ {((6 << 4) | 5), ((6 << 4) | 5), ((7 << 4) | 6), ((9 << 4) | 7), ((11 << 4) | 8), ((13 << 4) | 9), ((14 << 4) | 10)}, /* DDR3_DEFAULT */ {((6 << 4) | 5), ((6 << 4) | 5), ((8 << 4) | 6), ((10 << 4) | 7), ((11 << 4) | 8), ((13 << 4) | 9), ((14 << 4) | 10)} }; static const uint16_t ddr3_trc_tfaw[] = { /* tRC tFAW */ ((50 << 8) | 50), /* DDR3_800D (5-5-5) */ ((53 << 8) | 50), /* DDR3_800E (6-6-6) */ ((49 << 8) | 50), /* DDR3_1066E (6-6-6) */ ((51 << 8) | 50), /* DDR3_1066F (7-7-7) */ ((53 << 8) | 50), /* DDR3_1066G (8-8-8) */ ((47 << 8) | 45), /* DDR3_1333F (7-7-7) */ ((48 << 8) | 45), /* DDR3_1333G (8-8-8) */ ((50 << 8) | 45), /* DDR3_1333H (9-9-9) */ ((51 << 8) | 45), /* DDR3_1333J (10-10-10) */ ((45 << 8) | 40), /* DDR3_1600G (8-8-8) */ ((47 << 8) | 40), /* DDR3_1600H (9-9-9)*/ ((48 << 8) | 40), /* DDR3_1600J (10-10-10) */ ((49 << 8) | 40), /* DDR3_1600K (11-11-11) */ ((45 << 8) | 35), /* DDR3_1866J (10-10-10) */ ((46 << 8) | 35), /* DDR3_1866K (11-11-11) */ ((47 << 8) | 35), /* DDR3_1866L (12-12-12) */ ((48 << 8) | 35), /* DDR3_1866M (13-13-13) */ ((44 << 8) | 35), /* DDR3_2133K (11-11-11) */ ((45 << 8) | 35), /* DDR3_2133L (12-12-12) */ ((46 << 8) | 35), /* DDR3_2133M (13-13-13) */ ((47 << 8) | 35), /* DDR3_2133N (14-14-14) */ ((53 << 8) | 50) /* DDR3_DEFAULT */ }; static uint32_t get_max_speed_rate(struct timing_related_config *timing_config) { if (timing_config->ch_cnt > 1) return max(timing_config->dram_info[0].speed_rate, timing_config->dram_info[1].speed_rate); else return timing_config->dram_info[0].speed_rate; } static uint32_t get_max_die_capability(struct timing_related_config *timing_config) { uint32_t die_cap = 0; uint32_t cs, ch; for (ch = 0; ch < timing_config->ch_cnt; ch++) { for (cs = 0; cs < timing_config->dram_info[ch].cs_cnt; cs++) { die_cap = max(die_cap, timing_config-> dram_info[ch].per_die_capability[cs]); } } return die_cap; } /* tRSTL, 100ns */ #define DDR3_TRSTL (100) /* trsth, 500us */ #define DDR3_TRSTH (500000) /* trefi, 7.8us */ #define DDR3_TREFI_7_8_US (7800) /* tWR, 15ns */ #define DDR3_TWR (15) /* tRTP, max(4 tCK,7.5ns) */ #define DDR3_TRTP (7) /* tRRD = max(4nCK, 10ns) */ #define DDR3_TRRD (10) /* tCK */ #define DDR3_TCCD (4) /*tWTR, max(4 tCK,7.5ns)*/ #define DDR3_TWTR (7) /* tCK */ #define DDR3_TRTW (0) /* tRAS, 37.5ns(400MHz) 37.5ns(533MHz) */ #define DDR3_TRAS (37) /* ns */ #define DDR3_TRFC_512MBIT (90) /* ns */ #define DDR3_TRFC_1GBIT (110) /* ns */ #define DDR3_TRFC_2GBIT (160) /* ns */ #define DDR3_TRFC_4GBIT (300) /* ns */ #define DDR3_TRFC_8GBIT (350) /*pd and sr*/ #define DDR3_TXP (7) /* tXP, max(3 tCK, 7.5ns)( < 933MHz) */ #define DDR3_TXPDLL (24) /* tXPDLL, max(10 tCK, 24ns) */ #define DDR3_TDLLK (512) /* tXSR, tDLLK=512 tCK */ #define DDR3_TCKE_400MHZ (7) /* tCKE, max(3 tCK,7.5ns)(400MHz) */ #define DDR3_TCKE_533MHZ (6) /* tCKE, max(3 tCK,5.625ns)(533MHz) */ #define DDR3_TCKSRE (10) /* tCKSRX, max(5 tCK, 10ns) */ /*mode register timing*/ #define DDR3_TMOD (15) /* tMOD, max(12 tCK,15ns) */ #define DDR3_TMRD (4) /* tMRD, 4 tCK */ /* ZQ */ #define DDR3_TZQINIT (640) /* tZQinit, max(512 tCK, 640ns) */ #define DDR3_TZQCS (80) /* tZQCS, max(64 tCK, 80ns) */ #define DDR3_TZQOPER (320) /* tZQoper, max(256 tCK, 320ns) */ /* Write leveling */ #define DDR3_TWLMRD (40) /* tCK */ #define DDR3_TWLO (9) /* max 7.5ns */ #define DDR3_TWLDQSEN (25) /* tCK */ /* * Description: depend on input parameter "timing_config", * and calculate all ddr3 * spec timing to "pdram_timing" * parameters: * input: timing_config * output: pdram_timing */ static void ddr3_get_parameter(struct timing_related_config *timing_config, struct dram_timing_t *pdram_timing) { uint32_t nmhz = timing_config->freq; uint32_t ddr_speed_bin = get_max_speed_rate(timing_config); uint32_t ddr_capability_per_die = get_max_die_capability(timing_config); uint32_t tmp; memset((void *)pdram_timing, 0, sizeof(struct dram_timing_t)); pdram_timing->mhz = nmhz; pdram_timing->al = 0; pdram_timing->bl = timing_config->bl; if (nmhz <= 330) tmp = 0; else if (nmhz <= 400) tmp = 1; else if (nmhz <= 533) tmp = 2; else if (nmhz <= 666) tmp = 3; else if (nmhz <= 800) tmp = 4; else if (nmhz <= 933) tmp = 5; else tmp = 6; /* when dll bypss cl = cwl = 6 */ if (nmhz < 300) { pdram_timing->cl = 6; pdram_timing->cwl = 6; } else { pdram_timing->cl = (ddr3_cl_cwl[ddr_speed_bin][tmp] >> 4) & 0xf; pdram_timing->cwl = ddr3_cl_cwl[ddr_speed_bin][tmp] & 0xf; } switch (timing_config->dramds) { case 40: tmp = DDR3_DS_40; break; case 34: default: tmp = DDR3_DS_34; break; } switch (timing_config->dramodt) { case 60: pdram_timing->mr[1] = tmp | DDR3_RTT_NOM_60; break; case 40: pdram_timing->mr[1] = tmp | DDR3_RTT_NOM_40; break; case 120: pdram_timing->mr[1] = tmp | DDR3_RTT_NOM_120; break; case 0: default: pdram_timing->mr[1] = tmp | DDR3_RTT_NOM_DIS; break; } pdram_timing->mr[2] = DDR3_MR2_CWL(pdram_timing->cwl); pdram_timing->mr[3] = 0; pdram_timing->trstl = ((DDR3_TRSTL * nmhz + 999) / 1000); pdram_timing->trsth = ((DDR3_TRSTH * nmhz + 999) / 1000); /* tREFI, average periodic refresh interval, 7.8us */ pdram_timing->trefi = ((DDR3_TREFI_7_8_US * nmhz + 999) / 1000); /* base timing */ pdram_timing->trcd = pdram_timing->cl; pdram_timing->trp = pdram_timing->cl; pdram_timing->trppb = pdram_timing->cl; tmp = ((DDR3_TWR * nmhz + 999) / 1000); pdram_timing->twr = tmp; pdram_timing->tdal = tmp + pdram_timing->trp; if (tmp < 9) { tmp = tmp - 4; } else { tmp += (tmp & 0x1) ? 1 : 0; tmp = tmp >> 1; } if (pdram_timing->bl == 4) pdram_timing->mr[0] = DDR3_BC4 | DDR3_CL(pdram_timing->cl) | DDR3_WR(tmp); else pdram_timing->mr[0] = DDR3_BL8 | DDR3_CL(pdram_timing->cl) | DDR3_WR(tmp); tmp = ((DDR3_TRTP * nmhz + (nmhz >> 1) + 999) / 1000); pdram_timing->trtp = max(4, tmp); pdram_timing->trc = (((ddr3_trc_tfaw[ddr_speed_bin] >> 8) * nmhz + 999) / 1000); tmp = ((DDR3_TRRD * nmhz + 999) / 1000); pdram_timing->trrd = max(4, tmp); pdram_timing->tccd = DDR3_TCCD; tmp = ((DDR3_TWTR * nmhz + (nmhz >> 1) + 999) / 1000); pdram_timing->twtr = max(4, tmp); pdram_timing->trtw = DDR3_TRTW; pdram_timing->tras_max = 9 * pdram_timing->trefi; pdram_timing->tras_min = ((DDR3_TRAS * nmhz + (nmhz >> 1) + 999) / 1000); pdram_timing->tfaw = (((ddr3_trc_tfaw[ddr_speed_bin] & 0x0ff) * nmhz + 999) / 1000); /* tRFC, 90ns(512Mb),110ns(1Gb),160ns(2Gb),300ns(4Gb),350ns(8Gb) */ if (ddr_capability_per_die <= 0x4000000) tmp = DDR3_TRFC_512MBIT; else if (ddr_capability_per_die <= 0x8000000) tmp = DDR3_TRFC_1GBIT; else if (ddr_capability_per_die <= 0x10000000) tmp = DDR3_TRFC_2GBIT; else if (ddr_capability_per_die <= 0x20000000) tmp = DDR3_TRFC_4GBIT; else tmp = DDR3_TRFC_8GBIT; pdram_timing->trfc = (tmp * nmhz + 999) / 1000; pdram_timing->txsnr = max(5, (((tmp + 10) * nmhz + 999) / 1000)); pdram_timing->tdqsck_max = 0; /*pd and sr*/ pdram_timing->txsr = DDR3_TDLLK; tmp = ((DDR3_TXP * nmhz + (nmhz >> 1) + 999) / 1000); pdram_timing->txp = max(3, tmp); tmp = ((DDR3_TXPDLL * nmhz + 999) / 1000); pdram_timing->txpdll = max(10, tmp); pdram_timing->tdllk = DDR3_TDLLK; if (nmhz >= 533) tmp = ((DDR3_TCKE_533MHZ * nmhz + 999) / 1000); else tmp = ((DDR3_TCKE_400MHZ * nmhz + (nmhz >> 1) + 999) / 1000); pdram_timing->tcke = max(3, tmp); pdram_timing->tckesr = (pdram_timing->tcke + 1); tmp = ((DDR3_TCKSRE * nmhz + 999) / 1000); pdram_timing->tcksre = max(5, tmp); pdram_timing->tcksrx = max(5, tmp); /*mode register timing*/ tmp = ((DDR3_TMOD * nmhz + 999) / 1000); pdram_timing->tmod = max(12, tmp); pdram_timing->tmrd = DDR3_TMRD; pdram_timing->tmrr = 0; /*ODT*/ pdram_timing->todton = pdram_timing->cwl - 2; /*ZQ*/ tmp = ((DDR3_TZQINIT * nmhz + 999) / 1000); pdram_timing->tzqinit = max(512, tmp); tmp = ((DDR3_TZQCS * nmhz + 999) / 1000); pdram_timing->tzqcs = max(64, tmp); tmp = ((DDR3_TZQOPER * nmhz + 999) / 1000); pdram_timing->tzqoper = max(256, tmp); /* write leveling */ pdram_timing->twlmrd = DDR3_TWLMRD; pdram_timing->twldqsen = DDR3_TWLDQSEN; pdram_timing->twlo = ((DDR3_TWLO * nmhz + (nmhz >> 1) + 999) / 1000); } #define LPDDR2_TINIT1 (100) /* ns */ #define LPDDR2_TINIT2 (5) /* tCK */ #define LPDDR2_TINIT3 (200000) /* 200us */ #define LPDDR2_TINIT4 (1000) /* 1us */ #define LPDDR2_TINIT5 (10000) /* 10us */ #define LPDDR2_TRSTL (0) /* tCK */ #define LPDDR2_TRSTH (500000) /* 500us */ #define LPDDR2_TREFI_3_9_US (3900) /* 3.9us */ #define LPDDR2_TREFI_7_8_US (7800) /* 7.8us */ /* base timing */ #define LPDDR2_TRCD (24) /* tRCD,15ns(Fast)18ns(Typ)24ns(Slow) */ #define LPDDR2_TRP_PB (18) /* tRPpb,15ns(Fast)18ns(Typ)24ns(Slow) */ #define LPDDR2_TRP_AB_8_BANK (21) /* tRPab,18ns(Fast)21ns(Typ)27ns(Slow) */ #define LPDDR2_TWR (15) /* tWR, max(3tCK,15ns) */ #define LPDDR2_TRTP (7) /* tRTP, max(2tCK, 7.5ns) */ #define LPDDR2_TRRD (10) /* tRRD, max(2tCK,10ns) */ #define LPDDR2_TCCD (2) /* tCK */ #define LPDDR2_TWTR_GREAT_200MHZ (7) /* ns */ #define LPDDR2_TWTR_LITTLE_200MHZ (10) /* ns */ #define LPDDR2_TRTW (0) /* tCK */ #define LPDDR2_TRAS_MAX (70000) /* 70us */ #define LPDDR2_TRAS (42) /* tRAS, max(3tCK,42ns) */ #define LPDDR2_TFAW_GREAT_200MHZ (50) /* max(8tCK,50ns) */ #define LPDDR2_TFAW_LITTLE_200MHZ (60) /* max(8tCK,60ns) */ #define LPDDR2_TRFC_8GBIT (210) /* ns */ #define LPDDR2_TRFC_4GBIT (130) /* ns */ #define LPDDR2_TDQSCK_MIN (2) /* tDQSCKmin, 2.5ns */ #define LPDDR2_TDQSCK_MAX (5) /* tDQSCKmax, 5.5ns */ /*pd and sr*/ #define LPDDR2_TXP (7) /* tXP, max(2tCK,7.5ns) */ #define LPDDR2_TXPDLL (0) #define LPDDR2_TDLLK (0) /* tCK */ #define LPDDR2_TCKE (3) /* tCK */ #define LPDDR2_TCKESR (15) /* tCKESR, max(3tCK,15ns) */ #define LPDDR2_TCKSRE (1) /* tCK */ #define LPDDR2_TCKSRX (2) /* tCK */ /*mode register timing*/ #define LPDDR2_TMOD (0) #define LPDDR2_TMRD (5) /* tMRD, (=tMRW), 5 tCK */ #define LPDDR2_TMRR (2) /* tCK */ /*ZQ*/ #define LPDDR2_TZQINIT (1000) /* ns */ #define LPDDR2_TZQCS (90) /* tZQCS, max(6tCK,90ns) */ #define LPDDR2_TZQCL (360) /* tZQCL, max(6tCK,360ns) */ #define LPDDR2_TZQRESET (50) /* ZQreset, max(3tCK,50ns) */ /* * Description: depend on input parameter "timing_config", * and calculate all lpddr2 * spec timing to "pdram_timing" * parameters: * input: timing_config * output: pdram_timing */ static void lpddr2_get_parameter(struct timing_related_config *timing_config, struct dram_timing_t *pdram_timing) { uint32_t nmhz = timing_config->freq; uint32_t ddr_capability_per_die = get_max_die_capability(timing_config); uint32_t tmp, trp_tmp, trppb_tmp, tras_tmp, twr_tmp, bl_tmp; memset((void *)pdram_timing, 0, sizeof(struct dram_timing_t)); pdram_timing->mhz = nmhz; pdram_timing->al = 0; pdram_timing->bl = timing_config->bl; /* 1066 933 800 667 533 400 333 * RL, 8 7 6 5 4 3 3 * WL, 4 4 3 2 2 1 1 */ if (nmhz <= 266) { pdram_timing->cl = 4; pdram_timing->cwl = 2; pdram_timing->mr[2] = LPDDR2_RL4_WL2; } else if (nmhz <= 333) { pdram_timing->cl = 5; pdram_timing->cwl = 2; pdram_timing->mr[2] = LPDDR2_RL5_WL2; } else if (nmhz <= 400) { pdram_timing->cl = 6; pdram_timing->cwl = 3; pdram_timing->mr[2] = LPDDR2_RL6_WL3; } else if (nmhz <= 466) { pdram_timing->cl = 7; pdram_timing->cwl = 4; pdram_timing->mr[2] = LPDDR2_RL7_WL4; } else { pdram_timing->cl = 8; pdram_timing->cwl = 4; pdram_timing->mr[2] = LPDDR2_RL8_WL4; } switch (timing_config->dramds) { case 120: pdram_timing->mr[3] = LPDDR2_DS_120; break; case 80: pdram_timing->mr[3] = LPDDR2_DS_80; break; case 60: pdram_timing->mr[3] = LPDDR2_DS_60; break; case 48: pdram_timing->mr[3] = LPDDR2_DS_48; break; case 40: pdram_timing->mr[3] = LPDDR2_DS_40; break; case 34: default: pdram_timing->mr[3] = LPDDR2_DS_34; break; } pdram_timing->mr[0] = 0; pdram_timing->tinit1 = (LPDDR2_TINIT1 * nmhz + 999) / 1000; pdram_timing->tinit2 = LPDDR2_TINIT2; pdram_timing->tinit3 = (LPDDR2_TINIT3 * nmhz + 999) / 1000; pdram_timing->tinit4 = (LPDDR2_TINIT4 * nmhz + 999) / 1000; pdram_timing->tinit5 = (LPDDR2_TINIT5 * nmhz + 999) / 1000; pdram_timing->trstl = LPDDR2_TRSTL; pdram_timing->trsth = (LPDDR2_TRSTH * nmhz + 999) / 1000; /* * tREFI, average periodic refresh interval, * 15.6us(<256Mb) 7.8us(256Mb-1Gb) 3.9us(2Gb-8Gb) */ if (ddr_capability_per_die >= 0x10000000) pdram_timing->trefi = (LPDDR2_TREFI_3_9_US * nmhz + 999) / 1000; else pdram_timing->trefi = (LPDDR2_TREFI_7_8_US * nmhz + 999) / 1000; /* base timing */ tmp = ((LPDDR2_TRCD * nmhz + 999) / 1000); pdram_timing->trcd = max(3, tmp); /* * tRPpb, max(3tCK, 15ns(Fast) 18ns(Typ) 24ns(Slow), */ trppb_tmp = ((LPDDR2_TRP_PB * nmhz + 999) / 1000); trppb_tmp = max(3, trppb_tmp); pdram_timing->trppb = trppb_tmp; /* * tRPab, max(3tCK, 4-bank:15ns(Fast) 18ns(Typ) 24ns(Slow), * 8-bank:18ns(Fast) 21ns(Typ) 27ns(Slow)) */ trp_tmp = ((LPDDR2_TRP_AB_8_BANK * nmhz + 999) / 1000); trp_tmp = max(3, trp_tmp); pdram_timing->trp = trp_tmp; twr_tmp = ((LPDDR2_TWR * nmhz + 999) / 1000); twr_tmp = max(3, twr_tmp); pdram_timing->twr = twr_tmp; bl_tmp = (pdram_timing->bl == 16) ? LPDDR2_BL16 : ((pdram_timing->bl == 8) ? LPDDR2_BL8 : LPDDR2_BL4); pdram_timing->mr[1] = bl_tmp | LPDDR2_N_WR(twr_tmp); tmp = ((LPDDR2_TRTP * nmhz + (nmhz >> 1) + 999) / 1000); pdram_timing->trtp = max(2, tmp); tras_tmp = ((LPDDR2_TRAS * nmhz + 999) / 1000); tras_tmp = max(3, tras_tmp); pdram_timing->tras_min = tras_tmp; pdram_timing->tras_max = ((LPDDR2_TRAS_MAX * nmhz + 999) / 1000); pdram_timing->trc = (tras_tmp + trp_tmp); tmp = ((LPDDR2_TRRD * nmhz + 999) / 1000); pdram_timing->trrd = max(2, tmp); pdram_timing->tccd = LPDDR2_TCCD; /* tWTR, max(2tCK, 7.5ns(533-266MHz) 10ns(200-166MHz)) */ if (nmhz > 200) tmp = ((LPDDR2_TWTR_GREAT_200MHZ * nmhz + (nmhz >> 1) + 999) / 1000); else tmp = ((LPDDR2_TWTR_LITTLE_200MHZ * nmhz + 999) / 1000); pdram_timing->twtr = max(2, tmp); pdram_timing->trtw = LPDDR2_TRTW; if (nmhz <= 200) pdram_timing->tfaw = (LPDDR2_TFAW_LITTLE_200MHZ * nmhz + 999) / 1000; else pdram_timing->tfaw = (LPDDR2_TFAW_GREAT_200MHZ * nmhz + 999) / 1000; /* tRFC, 90ns(<=512Mb) 130ns(1Gb-4Gb) 210ns(8Gb) */ if (ddr_capability_per_die >= 0x40000000) { pdram_timing->trfc = (LPDDR2_TRFC_8GBIT * nmhz + 999) / 1000; tmp = (((LPDDR2_TRFC_8GBIT + 10) * nmhz + 999) / 1000); } else { pdram_timing->trfc = (LPDDR2_TRFC_4GBIT * nmhz + 999) / 1000; tmp = (((LPDDR2_TRFC_4GBIT + 10) * nmhz + 999) / 1000); } if (tmp < 2) tmp = 2; pdram_timing->txsr = tmp; pdram_timing->txsnr = tmp; /* tdqsck use rounded down */ pdram_timing->tdqsck = ((LPDDR2_TDQSCK_MIN * nmhz + (nmhz >> 1)) / 1000); pdram_timing->tdqsck_max = ((LPDDR2_TDQSCK_MAX * nmhz + (nmhz >> 1) + 999) / 1000); /* pd and sr */ tmp = ((LPDDR2_TXP * nmhz + (nmhz >> 1) + 999) / 1000); pdram_timing->txp = max(2, tmp); pdram_timing->txpdll = LPDDR2_TXPDLL; pdram_timing->tdllk = LPDDR2_TDLLK; pdram_timing->tcke = LPDDR2_TCKE; tmp = ((LPDDR2_TCKESR * nmhz + 999) / 1000); pdram_timing->tckesr = max(3, tmp); pdram_timing->tcksre = LPDDR2_TCKSRE; pdram_timing->tcksrx = LPDDR2_TCKSRX; /* mode register timing */ pdram_timing->tmod = LPDDR2_TMOD; pdram_timing->tmrd = LPDDR2_TMRD; pdram_timing->tmrr = LPDDR2_TMRR; /* ZQ */ pdram_timing->tzqinit = (LPDDR2_TZQINIT * nmhz + 999) / 1000; tmp = ((LPDDR2_TZQCS * nmhz + 999) / 1000); pdram_timing->tzqcs = max(6, tmp); tmp = ((LPDDR2_TZQCL * nmhz + 999) / 1000); pdram_timing->tzqoper = max(6, tmp); tmp = ((LPDDR2_TZQRESET * nmhz + 999) / 1000); pdram_timing->tzqreset = max(3, tmp); } #define LPDDR3_TINIT1 (100) /* ns */ #define LPDDR3_TINIT2 (5) /* tCK */ #define LPDDR3_TINIT3 (200000) /* 200us */ #define LPDDR3_TINIT4 (1000) /* 1us */ #define LPDDR3_TINIT5 (10000) /* 10us */ #define LPDDR3_TRSTL (0) #define LPDDR3_TRSTH (0) /* 500us */ #define LPDDR3_TREFI_3_9_US (3900) /* 3.9us */ /* base timging */ #define LPDDR3_TRCD (18) /* tRCD,15ns(Fast)18ns(Typ)24ns(Slow) */ #define LPDDR3_TRP_PB (18) /* tRPpb, 15ns(Fast) 18ns(Typ) 24ns(Slow) */ #define LPDDR3_TRP_AB (21) /* tRPab, 18ns(Fast) 21ns(Typ) 27ns(Slow) */ #define LPDDR3_TWR (15) /* tWR, max(4tCK,15ns) */ #define LPDDR3_TRTP (7) /* tRTP, max(4tCK, 7.5ns) */ #define LPDDR3_TRRD (10) /* tRRD, max(2tCK,10ns) */ #define LPDDR3_TCCD (4) /* tCK */ #define LPDDR3_TWTR (7) /* tWTR, max(4tCK, 7.5ns) */ #define LPDDR3_TRTW (0) /* tCK register min valid value */ #define LPDDR3_TRAS_MAX (70000) /* 70us */ #define LPDDR3_TRAS (42) /* tRAS, max(3tCK,42ns) */ #define LPDDR3_TFAW (50) /* tFAW,max(8tCK, 50ns) */ #define LPDDR3_TRFC_8GBIT (210) /* tRFC, 130ns(4Gb) 210ns(>4Gb) */ #define LPDDR3_TRFC_4GBIT (130) /* ns */ #define LPDDR3_TDQSCK_MIN (2) /* tDQSCKmin,2.5ns */ #define LPDDR3_TDQSCK_MAX (5) /* tDQSCKmax,5.5ns */ /* pd and sr */ #define LPDDR3_TXP (7) /* tXP, max(3tCK,7.5ns) */ #define LPDDR3_TXPDLL (0) #define LPDDR3_TCKE (7) /* tCKE, (max 7.5ns,3 tCK) */ #define LPDDR3_TCKESR (15) /* tCKESR, max(3tCK,15ns) */ #define LPDDR3_TCKSRE (2) /* tCKSRE=tCPDED, 2 tCK */ #define LPDDR3_TCKSRX (2) /* tCKSRX, 2 tCK */ /* mode register timing */ #define LPDDR3_TMOD (0) #define LPDDR3_TMRD (14) /* tMRD, (=tMRW), max(14ns, 10 tCK) */ #define LPDDR3_TMRR (4) /* tMRR, 4 tCK */ #define LPDDR3_TMRRI LPDDR3_TRCD /* ODT */ #define LPDDR3_TODTON (3) /* 3.5ns */ /* ZQ */ #define LPDDR3_TZQINIT (1000) /* 1us */ #define LPDDR3_TZQCS (90) /* tZQCS, 90ns */ #define LPDDR3_TZQCL (360) /* 360ns */ #define LPDDR3_TZQRESET (50) /* ZQreset, max(3tCK,50ns) */ /* write leveling */ #define LPDDR3_TWLMRD (40) /* ns */ #define LPDDR3_TWLO (20) /* ns */ #define LPDDR3_TWLDQSEN (25) /* ns */ /* CA training */ #define LPDDR3_TCACKEL (10) /* tCK */ #define LPDDR3_TCAENT (10) /* tCK */ #define LPDDR3_TCAMRD (20) /* tCK */ #define LPDDR3_TCACKEH (10) /* tCK */ #define LPDDR3_TCAEXT (10) /* tCK */ #define LPDDR3_TADR (20) /* ns */ #define LPDDR3_TMRZ (3) /* ns */ /* * Description: depend on input parameter "timing_config", * and calculate all lpddr3 * spec timing to "pdram_timing" * parameters: * input: timing_config * output: pdram_timing */ static void lpddr3_get_parameter(struct timing_related_config *timing_config, struct dram_timing_t *pdram_timing) { uint32_t nmhz = timing_config->freq; uint32_t ddr_capability_per_die = get_max_die_capability(timing_config); uint32_t tmp, trp_tmp, trppb_tmp, tras_tmp, twr_tmp, bl_tmp; memset((void *)pdram_timing, 0, sizeof(struct dram_timing_t)); pdram_timing->mhz = nmhz; pdram_timing->al = 0; pdram_timing->bl = timing_config->bl; /* * Only support Write Latency Set A here * 1066 933 800 733 667 600 533 400 166 * RL, 16 14 12 11 10 9 8 6 3 * WL, 8 8 6 6 6 5 4 3 1 */ if (nmhz <= 400) { pdram_timing->cl = 6; pdram_timing->cwl = 3; pdram_timing->mr[2] = LPDDR3_RL6_WL3; } else if (nmhz <= 533) { pdram_timing->cl = 8; pdram_timing->cwl = 4; pdram_timing->mr[2] = LPDDR3_RL8_WL4; } else if (nmhz <= 600) { pdram_timing->cl = 9; pdram_timing->cwl = 5; pdram_timing->mr[2] = LPDDR3_RL9_WL5; } else if (nmhz <= 667) { pdram_timing->cl = 10; pdram_timing->cwl = 6; pdram_timing->mr[2] = LPDDR3_RL10_WL6; } else if (nmhz <= 733) { pdram_timing->cl = 11; pdram_timing->cwl = 6; pdram_timing->mr[2] = LPDDR3_RL11_WL6; } else if (nmhz <= 800) { pdram_timing->cl = 12; pdram_timing->cwl = 6; pdram_timing->mr[2] = LPDDR3_RL12_WL6; } else if (nmhz <= 933) { pdram_timing->cl = 14; pdram_timing->cwl = 8; pdram_timing->mr[2] = LPDDR3_RL14_WL8; } else { pdram_timing->cl = 16; pdram_timing->cwl = 8; pdram_timing->mr[2] = LPDDR3_RL16_WL8; } switch (timing_config->dramds) { case 80: pdram_timing->mr[3] = LPDDR3_DS_80; break; case 60: pdram_timing->mr[3] = LPDDR3_DS_60; break; case 48: pdram_timing->mr[3] = LPDDR3_DS_48; break; case 40: pdram_timing->mr[3] = LPDDR3_DS_40; break; case 3440: pdram_timing->mr[3] = LPDDR3_DS_34D_40U; break; case 4048: pdram_timing->mr[3] = LPDDR3_DS_40D_48U; break; case 3448: pdram_timing->mr[3] = LPDDR3_DS_34D_48U; break; case 34: default: pdram_timing->mr[3] = LPDDR3_DS_34; break; } pdram_timing->mr[0] = 0; switch (timing_config->dramodt) { case 60: pdram_timing->mr11 = LPDDR3_ODT_60; break; case 120: pdram_timing->mr11 = LPDDR3_ODT_120; break; case 240: default: pdram_timing->mr11 = LPDDR3_ODT_240; break; } pdram_timing->tinit1 = (LPDDR3_TINIT1 * nmhz + 999) / 1000; pdram_timing->tinit2 = LPDDR3_TINIT2; pdram_timing->tinit3 = (LPDDR3_TINIT3 * nmhz + 999) / 1000; pdram_timing->tinit4 = (LPDDR3_TINIT4 * nmhz + 999) / 1000; pdram_timing->tinit5 = (LPDDR3_TINIT5 * nmhz + 999) / 1000; pdram_timing->trstl = LPDDR3_TRSTL; pdram_timing->trsth = (LPDDR3_TRSTH * nmhz + 999) / 1000; /* tREFI, average periodic refresh interval, 3.9us(4Gb-16Gb) */ pdram_timing->trefi = (LPDDR3_TREFI_3_9_US * nmhz + 999) / 1000; /* base timing */ tmp = ((LPDDR3_TRCD * nmhz + 999) / 1000); pdram_timing->trcd = max(3, tmp); trppb_tmp = ((LPDDR3_TRP_PB * nmhz + 999) / 1000); trppb_tmp = max(3, trppb_tmp); pdram_timing->trppb = trppb_tmp; trp_tmp = ((LPDDR3_TRP_AB * nmhz + 999) / 1000); trp_tmp = max(3, trp_tmp); pdram_timing->trp = trp_tmp; twr_tmp = ((LPDDR3_TWR * nmhz + 999) / 1000); twr_tmp = max(4, twr_tmp); pdram_timing->twr = twr_tmp; if (twr_tmp <= 6) twr_tmp = 6; else if (twr_tmp <= 8) twr_tmp = 8; else if (twr_tmp <= 12) twr_tmp = twr_tmp; else if (twr_tmp <= 14) twr_tmp = 14; else twr_tmp = 16; if (twr_tmp > 9) pdram_timing->mr[2] |= (1 << 4); /*enable nWR > 9*/ twr_tmp = (twr_tmp > 9) ? (twr_tmp - 10) : (twr_tmp - 2); bl_tmp = LPDDR3_BL8; pdram_timing->mr[1] = bl_tmp | LPDDR3_N_WR(twr_tmp); tmp = ((LPDDR3_TRTP * nmhz + (nmhz >> 1) + 999) / 1000); pdram_timing->trtp = max(4, tmp); tras_tmp = ((LPDDR3_TRAS * nmhz + 999) / 1000); tras_tmp = max(3, tras_tmp); pdram_timing->tras_min = tras_tmp; pdram_timing->trc = (tras_tmp + trp_tmp); tmp = ((LPDDR3_TRRD * nmhz + 999) / 1000); pdram_timing->trrd = max(2, tmp); pdram_timing->tccd = LPDDR3_TCCD; tmp = ((LPDDR3_TWTR * nmhz + (nmhz >> 1) + 999) / 1000); pdram_timing->twtr = max(4, tmp); pdram_timing->trtw = ((LPDDR3_TRTW * nmhz + 999) / 1000); pdram_timing->tras_max = ((LPDDR3_TRAS_MAX * nmhz + 999) / 1000); tmp = (LPDDR3_TFAW * nmhz + 999) / 1000; pdram_timing->tfaw = max(8, tmp); if (ddr_capability_per_die > 0x20000000) { pdram_timing->trfc = (LPDDR3_TRFC_8GBIT * nmhz + 999) / 1000; tmp = (((LPDDR3_TRFC_8GBIT + 10) * nmhz + 999) / 1000); } else { pdram_timing->trfc = (LPDDR3_TRFC_4GBIT * nmhz + 999) / 1000; tmp = (((LPDDR3_TRFC_4GBIT + 10) * nmhz + 999) / 1000); } pdram_timing->txsr = max(2, tmp); pdram_timing->txsnr = max(2, tmp); /* tdqsck use rounded down */ pdram_timing->tdqsck = ((LPDDR3_TDQSCK_MIN * nmhz + (nmhz >> 1)) / 1000); pdram_timing->tdqsck_max = ((LPDDR3_TDQSCK_MAX * nmhz + (nmhz >> 1) + 999) / 1000); /*pd and sr*/ tmp = ((LPDDR3_TXP * nmhz + (nmhz >> 1) + 999) / 1000); pdram_timing->txp = max(3, tmp); pdram_timing->txpdll = LPDDR3_TXPDLL; tmp = ((LPDDR3_TCKE * nmhz + (nmhz >> 1) + 999) / 1000); pdram_timing->tcke = max(3, tmp); tmp = ((LPDDR3_TCKESR * nmhz + 999) / 1000); pdram_timing->tckesr = max(3, tmp); pdram_timing->tcksre = LPDDR3_TCKSRE; pdram_timing->tcksrx = LPDDR3_TCKSRX; /*mode register timing*/ pdram_timing->tmod = LPDDR3_TMOD; tmp = ((LPDDR3_TMRD * nmhz + 999) / 1000); pdram_timing->tmrd = max(10, tmp); pdram_timing->tmrr = LPDDR3_TMRR; tmp = ((LPDDR3_TRCD * nmhz + 999) / 1000); pdram_timing->tmrri = max(3, tmp); /* ODT */ pdram_timing->todton = (LPDDR3_TODTON * nmhz + (nmhz >> 1) + 999) / 1000; /* ZQ */ pdram_timing->tzqinit = (LPDDR3_TZQINIT * nmhz + 999) / 1000; pdram_timing->tzqcs = ((LPDDR3_TZQCS * nmhz + 999) / 1000); pdram_timing->tzqoper = ((LPDDR3_TZQCL * nmhz + 999) / 1000); tmp = ((LPDDR3_TZQRESET * nmhz + 999) / 1000); pdram_timing->tzqreset = max(3, tmp); /* write leveling */ pdram_timing->twlmrd = (LPDDR3_TWLMRD * nmhz + 999) / 1000; pdram_timing->twlo = (LPDDR3_TWLO * nmhz + 999) / 1000; pdram_timing->twldqsen = (LPDDR3_TWLDQSEN * nmhz + 999) / 1000; /* CA training */ pdram_timing->tcackel = LPDDR3_TCACKEL; pdram_timing->tcaent = LPDDR3_TCAENT; pdram_timing->tcamrd = LPDDR3_TCAMRD; pdram_timing->tcackeh = LPDDR3_TCACKEH; pdram_timing->tcaext = LPDDR3_TCAEXT; pdram_timing->tadr = (LPDDR3_TADR * nmhz + 999) / 1000; pdram_timing->tmrz = (LPDDR3_TMRZ * nmhz + 999) / 1000; pdram_timing->tcacd = pdram_timing->tadr + 2; } #define LPDDR4_TINIT1 (200000) /* 200us */ #define LPDDR4_TINIT2 (10) /* 10ns */ #define LPDDR4_TINIT3 (2000000) /* 2ms */ #define LPDDR4_TINIT4 (5) /* tCK */ #define LPDDR4_TINIT5 (2000) /* 2us */ #define LPDDR4_TRSTL LPDDR4_TINIT1 #define LPDDR4_TRSTH LPDDR4_TINIT3 #define LPDDR4_TREFI_3_9_US (3900) /* 3.9us */ /* base timging */ #define LPDDR4_TRCD (18) /* tRCD, max(18ns,4tCK) */ #define LPDDR4_TRP_PB (18) /* tRPpb, max(18ns, 4tCK) */ #define LPDDR4_TRP_AB (21) /* tRPab, max(21ns, 4tCK) */ #define LPDDR4_TRRD (10) /* tRRD, max(4tCK,10ns) */ #define LPDDR4_TCCD_BL16 (8) /* tCK */ #define LPDDR4_TCCD_BL32 (16) /* tCK */ #define LPDDR4_TWTR (10) /* tWTR, max(8tCK, 10ns) */ #define LPDDR4_TRTW (0) /* tCK register min valid value */ #define LPDDR4_TRAS_MAX (70000) /* 70us */ #define LPDDR4_TRAS (42) /* tRAS, max(3tCK,42ns) */ #define LPDDR4_TFAW (40) /* tFAW,min 40ns) */ #define LPDDR4_TRFC_12GBIT (280) /* tRFC, 280ns(>=12Gb) */ #define LPDDR4_TRFC_6GBIT (180) /* 6Gb/8Gb 180ns */ #define LPDDR4_TRFC_4GBIT (130) /* 4Gb 130ns */ #define LPDDR4_TDQSCK_MIN (1) /* tDQSCKmin,1.5ns */ #define LPDDR4_TDQSCK_MAX (3) /* tDQSCKmax,3.5ns */ #define LPDDR4_TPPD (4) /* tCK */ /* pd and sr */ #define LPDDR4_TXP (7) /* tXP, max(5tCK,7.5ns) */ #define LPDDR4_TCKE (7) /* tCKE, max(7.5ns,4 tCK) */ #define LPDDR4_TESCKE (1) /* tESCKE, max(1.75ns, 3tCK) */ #define LPDDR4_TSR (15) /* tSR, max(15ns, 3tCK) */ #define LPDDR4_TCMDCKE (1) /* max(1.75ns, 3tCK) */ #define LPDDR4_TCSCKE (1) /* 1.75ns */ #define LPDDR4_TCKELCS (5) /* max(5ns, 5tCK) */ #define LPDDR4_TCSCKEH (1) /* 1.75ns */ #define LPDDR4_TCKEHCS (7) /* max(7.5ns, 5tCK) */ #define LPDDR4_TMRWCKEL (14) /* max(14ns, 10tCK) */ #define LPDDR4_TCKELCMD (7) /* max(7.5ns, 3tCK) */ #define LPDDR4_TCKEHCMD (7) /* max(7.5ns, 3tCK) */ #define LPDDR4_TCKELPD (7) /* max(7.5ns, 3tCK) */ #define LPDDR4_TCKCKEL (7) /* max(7.5ns, 3tCK) */ /* mode register timing */ #define LPDDR4_TMRD (14) /* tMRD, (=tMRW), max(14ns, 10 tCK) */ #define LPDDR4_TMRR (8) /* tMRR, 8 tCK */ /* ODT */ #define LPDDR4_TODTON (3) /* 3.5ns */ /* ZQ */ #define LPDDR4_TZQCAL (1000) /* 1us */ #define LPDDR4_TZQLAT (30) /* tZQLAT, max(30ns,8tCK) */ #define LPDDR4_TZQRESET (50) /* ZQreset, max(3tCK,50ns) */ #define LPDDR4_TZQCKE (1) /* tZQCKE, max(1.75ns, 3tCK) */ /* write leveling */ #define LPDDR4_TWLMRD (40) /* tCK */ #define LPDDR4_TWLO (20) /* ns */ #define LPDDR4_TWLDQSEN (20) /* tCK */ /* CA training */ #define LPDDR4_TCAENT (250) /* ns */ #define LPDDR4_TADR (20) /* ns */ #define LPDDR4_TMRZ (1) /* 1.5ns */ #define LPDDR4_TVREF_LONG (250) /* ns */ #define LPDDR4_TVREF_SHORT (100) /* ns */ /* VRCG */ #define LPDDR4_TVRCG_ENABLE (200) /* ns */ #define LPDDR4_TVRCG_DISABLE (100) /* ns */ /* FSP */ #define LPDDR4_TFC_LONG (250) /* ns */ #define LPDDR4_TCKFSPE (7) /* max(7.5ns, 4tCK) */ #define LPDDR4_TCKFSPX (7) /* max(7.5ns, 4tCK) */ /* * Description: depend on input parameter "timing_config", * and calculate all lpddr4 * spec timing to "pdram_timing" * parameters: * input: timing_config * output: pdram_timing */ static void lpddr4_get_parameter(struct timing_related_config *timing_config, struct dram_timing_t *pdram_timing) { uint32_t nmhz = timing_config->freq; uint32_t ddr_capability_per_die = get_max_die_capability(timing_config); uint32_t tmp, trp_tmp, trppb_tmp, tras_tmp; memset((void *)pdram_timing, 0, sizeof(struct dram_timing_t)); pdram_timing->mhz = nmhz; pdram_timing->al = 0; pdram_timing->bl = timing_config->bl; /* * Only support Write Latency Set A here * 2133 1866 1600 1333 1066 800 533 266 * RL, 36 32 28 24 20 14 10 6 * WL, 18 16 14 12 10 8 6 4 * nWR, 40 34 30 24 20 16 10 6 * nRTP,16 14 12 10 8 8 8 8 */ tmp = (timing_config->bl == 32) ? 1 : 0; /* * we always use WR preamble = 2tCK * RD preamble = Static */ tmp |= (1 << 2); if (nmhz <= 266) { pdram_timing->cl = 6; pdram_timing->cwl = 4; pdram_timing->twr = 6; pdram_timing->trtp = 8; pdram_timing->mr[2] = LPDDR4_RL6_NRTP8 | LPDDR4_A_WL4; } else if (nmhz <= 533) { if (timing_config->rdbi) { pdram_timing->cl = 12; pdram_timing->mr[2] = LPDDR4_RL12_NRTP8 | LPDDR4_A_WL6; } else { pdram_timing->cl = 10; pdram_timing->mr[2] = LPDDR4_RL10_NRTP8 | LPDDR4_A_WL6; } pdram_timing->cwl = 6; pdram_timing->twr = 10; pdram_timing->trtp = 8; tmp |= (1 << 4); } else if (nmhz <= 800) { if (timing_config->rdbi) { pdram_timing->cl = 16; pdram_timing->mr[2] = LPDDR4_RL16_NRTP8 | LPDDR4_A_WL8; } else { pdram_timing->cl = 14; pdram_timing->mr[2] = LPDDR4_RL14_NRTP8 | LPDDR4_A_WL8; } pdram_timing->cwl = 8; pdram_timing->twr = 16; pdram_timing->trtp = 8; tmp |= (2 << 4); } else if (nmhz <= 1066) { if (timing_config->rdbi) { pdram_timing->cl = 22; pdram_timing->mr[2] = LPDDR4_RL22_NRTP8 | LPDDR4_A_WL10; } else { pdram_timing->cl = 20; pdram_timing->mr[2] = LPDDR4_RL20_NRTP8 | LPDDR4_A_WL10; } pdram_timing->cwl = 10; pdram_timing->twr = 20; pdram_timing->trtp = 8; tmp |= (3 << 4); } else if (nmhz <= 1333) { if (timing_config->rdbi) { pdram_timing->cl = 28; pdram_timing->mr[2] = LPDDR4_RL28_NRTP10 | LPDDR4_A_WL12; } else { pdram_timing->cl = 24; pdram_timing->mr[2] = LPDDR4_RL24_NRTP10 | LPDDR4_A_WL12; } pdram_timing->cwl = 12; pdram_timing->twr = 24; pdram_timing->trtp = 10; tmp |= (4 << 4); } else if (nmhz <= 1600) { if (timing_config->rdbi) { pdram_timing->cl = 32; pdram_timing->mr[2] = LPDDR4_RL32_NRTP12 | LPDDR4_A_WL14; } else { pdram_timing->cl = 28; pdram_timing->mr[2] = LPDDR4_RL28_NRTP12 | LPDDR4_A_WL14; } pdram_timing->cwl = 14; pdram_timing->twr = 30; pdram_timing->trtp = 12; tmp |= (5 << 4); } else if (nmhz <= 1866) { if (timing_config->rdbi) { pdram_timing->cl = 36; pdram_timing->mr[2] = LPDDR4_RL36_NRTP14 | LPDDR4_A_WL16; } else { pdram_timing->cl = 32; pdram_timing->mr[2] = LPDDR4_RL32_NRTP14 | LPDDR4_A_WL16; } pdram_timing->cwl = 16; pdram_timing->twr = 34; pdram_timing->trtp = 14; tmp |= (6 << 4); } else { if (timing_config->rdbi) { pdram_timing->cl = 40; pdram_timing->mr[2] = LPDDR4_RL40_NRTP16 | LPDDR4_A_WL18; } else { pdram_timing->cl = 36; pdram_timing->mr[2] = LPDDR4_RL36_NRTP16 | LPDDR4_A_WL18; } pdram_timing->cwl = 18; pdram_timing->twr = 40; pdram_timing->trtp = 16; tmp |= (7 << 4); } pdram_timing->mr[1] = tmp; tmp = (timing_config->rdbi ? LPDDR4_DBI_RD_EN : 0) | (timing_config->wdbi ? LPDDR4_DBI_WR_EN : 0); switch (timing_config->dramds) { case 240: pdram_timing->mr[3] = LPDDR4_PDDS_240 | tmp; break; case 120: pdram_timing->mr[3] = LPDDR4_PDDS_120 | tmp; break; case 80: pdram_timing->mr[3] = LPDDR4_PDDS_80 | tmp; break; case 60: pdram_timing->mr[3] = LPDDR4_PDDS_60 | tmp; break; case 48: pdram_timing->mr[3] = LPDDR4_PDDS_48 | tmp; break; case 40: default: pdram_timing->mr[3] = LPDDR4_PDDS_40 | tmp; break; } pdram_timing->mr[0] = 0; switch (timing_config->dramodt) { case 240: tmp = LPDDR4_DQODT_240; break; case 120: tmp = LPDDR4_DQODT_120; break; case 80: tmp = LPDDR4_DQODT_80; break; case 60: tmp = LPDDR4_DQODT_60; break; case 48: tmp = LPDDR4_DQODT_48; break; case 40: default: tmp = LPDDR4_DQODT_40; break; } switch (timing_config->caodt) { case 240: pdram_timing->mr11 = LPDDR4_CAODT_240 | tmp; break; case 120: pdram_timing->mr11 = LPDDR4_CAODT_120 | tmp; break; case 80: pdram_timing->mr11 = LPDDR4_CAODT_80 | tmp; break; case 60: pdram_timing->mr11 = LPDDR4_CAODT_60 | tmp; break; case 48: pdram_timing->mr11 = LPDDR4_CAODT_48 | tmp; break; case 40: default: pdram_timing->mr11 = LPDDR4_CAODT_40 | tmp; break; } pdram_timing->tinit1 = (LPDDR4_TINIT1 * nmhz + 999) / 1000; pdram_timing->tinit2 = (LPDDR4_TINIT2 * nmhz + 999) / 1000; pdram_timing->tinit3 = (LPDDR4_TINIT3 * nmhz + 999) / 1000; pdram_timing->tinit4 = (LPDDR4_TINIT4 * nmhz + 999) / 1000; pdram_timing->tinit5 = (LPDDR4_TINIT5 * nmhz + 999) / 1000; pdram_timing->trstl = (LPDDR4_TRSTL * nmhz + 999) / 1000; pdram_timing->trsth = (LPDDR4_TRSTH * nmhz + 999) / 1000; /* tREFI, average periodic refresh interval, 3.9us(4Gb-16Gb) */ pdram_timing->trefi = (LPDDR4_TREFI_3_9_US * nmhz + 999) / 1000; /* base timing */ tmp = ((LPDDR4_TRCD * nmhz + 999) / 1000); pdram_timing->trcd = max(4, tmp); trppb_tmp = ((LPDDR4_TRP_PB * nmhz + 999) / 1000); trppb_tmp = max(4, trppb_tmp); pdram_timing->trppb = trppb_tmp; trp_tmp = ((LPDDR4_TRP_AB * nmhz + 999) / 1000); trp_tmp = max(4, trp_tmp); pdram_timing->trp = trp_tmp; tras_tmp = ((LPDDR4_TRAS * nmhz + 999) / 1000); tras_tmp = max(3, tras_tmp); pdram_timing->tras_min = tras_tmp; pdram_timing->trc = (tras_tmp + trp_tmp); tmp = ((LPDDR4_TRRD * nmhz + 999) / 1000); pdram_timing->trrd = max(4, tmp); if (timing_config->bl == 32) pdram_timing->tccd = LPDDR4_TCCD_BL16; else pdram_timing->tccd = LPDDR4_TCCD_BL32; pdram_timing->tccdmw = 4 * pdram_timing->tccd; tmp = ((LPDDR4_TWTR * nmhz + 999) / 1000); pdram_timing->twtr = max(8, tmp); pdram_timing->trtw = ((LPDDR4_TRTW * nmhz + 999) / 1000); pdram_timing->tras_max = ((LPDDR4_TRAS_MAX * nmhz + 999) / 1000); pdram_timing->tfaw = (LPDDR4_TFAW * nmhz + 999) / 1000; if (ddr_capability_per_die > 0x60000000) { /* >= 12Gb */ pdram_timing->trfc = (LPDDR4_TRFC_12GBIT * nmhz + 999) / 1000; tmp = (((LPDDR4_TRFC_12GBIT + 7) * nmhz + (nmhz >> 1) + 999) / 1000); } else if (ddr_capability_per_die > 0x30000000) { pdram_timing->trfc = (LPDDR4_TRFC_6GBIT * nmhz + 999) / 1000; tmp = (((LPDDR4_TRFC_6GBIT + 7) * nmhz + (nmhz >> 1) + 999) / 1000); } else { pdram_timing->trfc = (LPDDR4_TRFC_4GBIT * nmhz + 999) / 1000; tmp = (((LPDDR4_TRFC_4GBIT + 7) * nmhz + (nmhz >> 1) + 999) / 1000); } pdram_timing->txsr = max(2, tmp); pdram_timing->txsnr = max(2, tmp); /* tdqsck use rounded down */ pdram_timing->tdqsck = ((LPDDR4_TDQSCK_MIN * nmhz + (nmhz >> 1)) / 1000); pdram_timing->tdqsck_max = ((LPDDR4_TDQSCK_MAX * nmhz + (nmhz >> 1) + 999) / 1000); pdram_timing->tppd = LPDDR4_TPPD; /* pd and sr */ tmp = ((LPDDR4_TXP * nmhz + (nmhz >> 1) + 999) / 1000); pdram_timing->txp = max(5, tmp); tmp = ((LPDDR4_TCKE * nmhz + (nmhz >> 1) + 999) / 1000); pdram_timing->tcke = max(4, tmp); tmp = ((LPDDR4_TESCKE * nmhz + ((nmhz * 3) / 4) + 999) / 1000); pdram_timing->tescke = max(3, tmp); tmp = ((LPDDR4_TSR * nmhz + 999) / 1000); pdram_timing->tsr = max(3, tmp); tmp = ((LPDDR4_TCMDCKE * nmhz + ((nmhz * 3) / 4) + 999) / 1000); pdram_timing->tcmdcke = max(3, tmp); pdram_timing->tcscke = ((LPDDR4_TCSCKE * nmhz + ((nmhz * 3) / 4) + 999) / 1000); tmp = ((LPDDR4_TCKELCS * nmhz + 999) / 1000); pdram_timing->tckelcs = max(5, tmp); pdram_timing->tcsckeh = ((LPDDR4_TCSCKEH * nmhz + ((nmhz * 3) / 4) + 999) / 1000); tmp = ((LPDDR4_TCKEHCS * nmhz + (nmhz >> 1) + 999) / 1000); pdram_timing->tckehcs = max(5, tmp); tmp = ((LPDDR4_TMRWCKEL * nmhz + 999) / 1000); pdram_timing->tmrwckel = max(10, tmp); tmp = ((LPDDR4_TCKELCMD * nmhz + (nmhz >> 1) + 999) / 1000); pdram_timing->tckelcmd = max(3, tmp); tmp = ((LPDDR4_TCKEHCMD * nmhz + (nmhz >> 1) + 999) / 1000); pdram_timing->tckehcmd = max(3, tmp); tmp = ((LPDDR4_TCKELPD * nmhz + (nmhz >> 1) + 999) / 1000); pdram_timing->tckelpd = max(3, tmp); tmp = ((LPDDR4_TCKCKEL * nmhz + (nmhz >> 1) + 999) / 1000); pdram_timing->tckckel = max(3, tmp); /* mode register timing */ tmp = ((LPDDR4_TMRD * nmhz + 999) / 1000); pdram_timing->tmrd = max(10, tmp); pdram_timing->tmrr = LPDDR4_TMRR; pdram_timing->tmrri = pdram_timing->trcd + 3; /* ODT */ pdram_timing->todton = (LPDDR4_TODTON * nmhz + (nmhz >> 1) + 999) / 1000; /* ZQ */ pdram_timing->tzqcal = (LPDDR4_TZQCAL * nmhz + 999) / 1000; tmp = ((LPDDR4_TZQLAT * nmhz + 999) / 1000); pdram_timing->tzqlat = max(8, tmp); tmp = ((LPDDR4_TZQRESET * nmhz + 999) / 1000); pdram_timing->tzqreset = max(3, tmp); tmp = ((LPDDR4_TZQCKE * nmhz + ((nmhz * 3) / 4) + 999) / 1000); pdram_timing->tzqcke = max(3, tmp); /* write leveling */ pdram_timing->twlmrd = LPDDR4_TWLMRD; pdram_timing->twlo = (LPDDR4_TWLO * nmhz + 999) / 1000; pdram_timing->twldqsen = LPDDR4_TWLDQSEN; /* CA training */ pdram_timing->tcaent = (LPDDR4_TCAENT * nmhz + 999) / 1000; pdram_timing->tadr = (LPDDR4_TADR * nmhz + 999) / 1000; pdram_timing->tmrz = (LPDDR4_TMRZ * nmhz + (nmhz >> 1) + 999) / 1000; pdram_timing->tvref_long = (LPDDR4_TVREF_LONG * nmhz + 999) / 1000; pdram_timing->tvref_short = (LPDDR4_TVREF_SHORT * nmhz + 999) / 1000; /* VRCG */ pdram_timing->tvrcg_enable = (LPDDR4_TVRCG_ENABLE * nmhz + 999) / 1000; pdram_timing->tvrcg_disable = (LPDDR4_TVRCG_DISABLE * nmhz + 999) / 1000; /* FSP */ pdram_timing->tfc_long = (LPDDR4_TFC_LONG * nmhz + 999) / 1000; tmp = (LPDDR4_TCKFSPE * nmhz + (nmhz >> 1) + 999) / 1000; pdram_timing->tckfspe = max(4, tmp); tmp = (LPDDR4_TCKFSPX * nmhz + (nmhz >> 1) + 999) / 1000; pdram_timing->tckfspx = max(4, tmp); } /* * Description: depend on input parameter "timing_config", * and calculate correspond "dram_type" * spec timing to "pdram_timing" * parameters: * input: timing_config * output: pdram_timing * NOTE: MR ODT is set, need to disable by controller */ void dram_get_parameter(struct timing_related_config *timing_config, struct dram_timing_t *pdram_timing) { switch (timing_config->dram_type) { case DDR3: ddr3_get_parameter(timing_config, pdram_timing); break; case LPDDR2: lpddr2_get_parameter(timing_config, pdram_timing); break; case LPDDR3: lpddr3_get_parameter(timing_config, pdram_timing); break; case LPDDR4: lpddr4_get_parameter(timing_config, pdram_timing); break; } }