diff options
Diffstat (limited to 'arch/powerpc/cpu/mpc8xxx/ddr/lc_common_dimm_params.c')
| -rw-r--r-- | arch/powerpc/cpu/mpc8xxx/ddr/lc_common_dimm_params.c | 526 |
1 files changed, 0 insertions, 526 deletions
diff --git a/arch/powerpc/cpu/mpc8xxx/ddr/lc_common_dimm_params.c b/arch/powerpc/cpu/mpc8xxx/ddr/lc_common_dimm_params.c deleted file mode 100644 index 332fe25c48..0000000000 --- a/arch/powerpc/cpu/mpc8xxx/ddr/lc_common_dimm_params.c +++ /dev/null @@ -1,526 +0,0 @@ -/* - * Copyright 2008-2012 Freescale Semiconductor, Inc. - * - * This program is free software; you can redistribute it and/or - * modify it under the terms of the GNU General Public License - * Version 2 as published by the Free Software Foundation. - */ - -#include <common.h> -#include <asm/fsl_ddr_sdram.h> - -#include "ddr.h" - -#if defined(CONFIG_FSL_DDR3) -static unsigned int -compute_cas_latency_ddr3(const dimm_params_t *dimm_params, - common_timing_params_t *outpdimm, - unsigned int number_of_dimms) -{ - unsigned int i; - unsigned int taamin_ps = 0; - unsigned int tckmin_x_ps = 0; - unsigned int common_caslat; - unsigned int caslat_actual; - unsigned int retry = 16; - unsigned int tmp; - const unsigned int mclk_ps = get_memory_clk_period_ps(); - - /* compute the common CAS latency supported between slots */ - tmp = dimm_params[0].caslat_x; - for (i = 1; i < number_of_dimms; i++) { - if (dimm_params[i].n_ranks) - tmp &= dimm_params[i].caslat_x; - } - common_caslat = tmp; - - /* compute the max tAAmin tCKmin between slots */ - for (i = 0; i < number_of_dimms; i++) { - taamin_ps = max(taamin_ps, dimm_params[i].taa_ps); - tckmin_x_ps = max(tckmin_x_ps, dimm_params[i].tckmin_x_ps); - } - /* validate if the memory clk is in the range of dimms */ - if (mclk_ps < tckmin_x_ps) { - printf("DDR clock (MCLK cycle %u ps) is faster than " - "the slowest DIMM(s) (tCKmin %u ps) can support.\n", - mclk_ps, tckmin_x_ps); - } - /* determine the acutal cas latency */ - caslat_actual = (taamin_ps + mclk_ps - 1) / mclk_ps; - /* check if the dimms support the CAS latency */ - while (!(common_caslat & (1 << caslat_actual)) && retry > 0) { - caslat_actual++; - retry--; - } - /* once the caculation of caslat_actual is completed - * we must verify that this CAS latency value does not - * exceed tAAmax, which is 20 ns for all DDR3 speed grades - */ - if (caslat_actual * mclk_ps > 20000) { - printf("The choosen cas latency %d is too large\n", - caslat_actual); - } - outpdimm->lowest_common_SPD_caslat = caslat_actual; - - return 0; -} -#endif - -/* - * compute_lowest_common_dimm_parameters() - * - * Determine the worst-case DIMM timing parameters from the set of DIMMs - * whose parameters have been computed into the array pointed to - * by dimm_params. - */ -unsigned int -compute_lowest_common_dimm_parameters(const dimm_params_t *dimm_params, - common_timing_params_t *outpdimm, - const unsigned int number_of_dimms) -{ - unsigned int i, j; - - unsigned int tckmin_x_ps = 0; - unsigned int tckmax_ps = 0xFFFFFFFF; - unsigned int tckmax_max_ps = 0; - unsigned int trcd_ps = 0; - unsigned int trp_ps = 0; - unsigned int tras_ps = 0; - unsigned int twr_ps = 0; - unsigned int twtr_ps = 0; - unsigned int trfc_ps = 0; - unsigned int trrd_ps = 0; - unsigned int trc_ps = 0; - unsigned int refresh_rate_ps = 0; - unsigned int extended_op_srt = 1; - unsigned int tis_ps = 0; - unsigned int tih_ps = 0; - unsigned int tds_ps = 0; - unsigned int tdh_ps = 0; - unsigned int trtp_ps = 0; - unsigned int tdqsq_max_ps = 0; - unsigned int tqhs_ps = 0; - - unsigned int temp1, temp2; - unsigned int additive_latency = 0; -#if !defined(CONFIG_FSL_DDR3) - const unsigned int mclk_ps = get_memory_clk_period_ps(); - unsigned int lowest_good_caslat; - unsigned int not_ok; - - debug("using mclk_ps = %u\n", mclk_ps); -#endif - - temp1 = 0; - for (i = 0; i < number_of_dimms; i++) { - /* - * If there are no ranks on this DIMM, - * it probably doesn't exist, so skip it. - */ - if (dimm_params[i].n_ranks == 0) { - temp1++; - continue; - } - if (dimm_params[i].n_ranks == 4 && i != 0) { - printf("Found Quad-rank DIMM in wrong bank, ignored." - " Software may not run as expected.\n"); - temp1++; - continue; - } - - /* - * check if quad-rank DIMM is plugged if - * CONFIG_CHIP_SELECT_QUAD_CAPABLE is not defined - * Only the board with proper design is capable - */ -#ifndef CONFIG_FSL_DDR_FIRST_SLOT_QUAD_CAPABLE - if (dimm_params[i].n_ranks == 4 && \ - CONFIG_CHIP_SELECTS_PER_CTRL/CONFIG_DIMM_SLOTS_PER_CTLR < 4) { - printf("Found Quad-rank DIMM, not able to support."); - temp1++; - continue; - } -#endif - /* - * Find minimum tckmax_ps to find fastest slow speed, - * i.e., this is the slowest the whole system can go. - */ - tckmax_ps = min(tckmax_ps, dimm_params[i].tckmax_ps); - - /* Either find maximum value to determine slowest - * speed, delay, time, period, etc */ - tckmin_x_ps = max(tckmin_x_ps, dimm_params[i].tckmin_x_ps); - tckmax_max_ps = max(tckmax_max_ps, dimm_params[i].tckmax_ps); - trcd_ps = max(trcd_ps, dimm_params[i].trcd_ps); - trp_ps = max(trp_ps, dimm_params[i].trp_ps); - tras_ps = max(tras_ps, dimm_params[i].tras_ps); - twr_ps = max(twr_ps, dimm_params[i].twr_ps); - twtr_ps = max(twtr_ps, dimm_params[i].twtr_ps); - trfc_ps = max(trfc_ps, dimm_params[i].trfc_ps); - trrd_ps = max(trrd_ps, dimm_params[i].trrd_ps); - trc_ps = max(trc_ps, dimm_params[i].trc_ps); - tis_ps = max(tis_ps, dimm_params[i].tis_ps); - tih_ps = max(tih_ps, dimm_params[i].tih_ps); - tds_ps = max(tds_ps, dimm_params[i].tds_ps); - tdh_ps = max(tdh_ps, dimm_params[i].tdh_ps); - trtp_ps = max(trtp_ps, dimm_params[i].trtp_ps); - tqhs_ps = max(tqhs_ps, dimm_params[i].tqhs_ps); - refresh_rate_ps = max(refresh_rate_ps, - dimm_params[i].refresh_rate_ps); - /* extended_op_srt is either 0 or 1, 0 having priority */ - extended_op_srt = min(extended_op_srt, - dimm_params[i].extended_op_srt); - - /* - * Find maximum tdqsq_max_ps to find slowest. - * - * FIXME: is finding the slowest value the correct - * strategy for this parameter? - */ - tdqsq_max_ps = max(tdqsq_max_ps, dimm_params[i].tdqsq_max_ps); - } - - outpdimm->ndimms_present = number_of_dimms - temp1; - - if (temp1 == number_of_dimms) { - debug("no dimms this memory controller\n"); - return 0; - } - - outpdimm->tckmin_x_ps = tckmin_x_ps; - outpdimm->tckmax_ps = tckmax_ps; - outpdimm->tckmax_max_ps = tckmax_max_ps; - outpdimm->trcd_ps = trcd_ps; - outpdimm->trp_ps = trp_ps; - outpdimm->tras_ps = tras_ps; - outpdimm->twr_ps = twr_ps; - outpdimm->twtr_ps = twtr_ps; - outpdimm->trfc_ps = trfc_ps; - outpdimm->trrd_ps = trrd_ps; - outpdimm->trc_ps = trc_ps; - outpdimm->refresh_rate_ps = refresh_rate_ps; - outpdimm->extended_op_srt = extended_op_srt; - outpdimm->tis_ps = tis_ps; - outpdimm->tih_ps = tih_ps; - outpdimm->tds_ps = tds_ps; - outpdimm->tdh_ps = tdh_ps; - outpdimm->trtp_ps = trtp_ps; - outpdimm->tdqsq_max_ps = tdqsq_max_ps; - outpdimm->tqhs_ps = tqhs_ps; - - /* Determine common burst length for all DIMMs. */ - temp1 = 0xff; - for (i = 0; i < number_of_dimms; i++) { - if (dimm_params[i].n_ranks) { - temp1 &= dimm_params[i].burst_lengths_bitmask; - } - } - outpdimm->all_dimms_burst_lengths_bitmask = temp1; - - /* Determine if all DIMMs registered buffered. */ - temp1 = temp2 = 0; - for (i = 0; i < number_of_dimms; i++) { - if (dimm_params[i].n_ranks) { - if (dimm_params[i].registered_dimm) { - temp1 = 1; -#ifndef CONFIG_SPL_BUILD - printf("Detected RDIMM %s\n", - dimm_params[i].mpart); -#endif - } else { - temp2 = 1; -#ifndef CONFIG_SPL_BUILD - printf("Detected UDIMM %s\n", - dimm_params[i].mpart); -#endif - } - } - } - - outpdimm->all_dimms_registered = 0; - outpdimm->all_dimms_unbuffered = 0; - if (temp1 && !temp2) { - outpdimm->all_dimms_registered = 1; - } else if (!temp1 && temp2) { - outpdimm->all_dimms_unbuffered = 1; - } else { - printf("ERROR: Mix of registered buffered and unbuffered " - "DIMMs detected!\n"); - } - - temp1 = 0; - if (outpdimm->all_dimms_registered) - for (j = 0; j < 16; j++) { - outpdimm->rcw[j] = dimm_params[0].rcw[j]; - for (i = 1; i < number_of_dimms; i++) { - if (!dimm_params[i].n_ranks) - continue; - if (dimm_params[i].rcw[j] != dimm_params[0].rcw[j]) { - temp1 = 1; - break; - } - } - } - - if (temp1 != 0) - printf("ERROR: Mix different RDIMM detected!\n"); - -#if defined(CONFIG_FSL_DDR3) - if (compute_cas_latency_ddr3(dimm_params, outpdimm, number_of_dimms)) - return 1; -#else - /* - * Compute a CAS latency suitable for all DIMMs - * - * Strategy for SPD-defined latencies: compute only - * CAS latency defined by all DIMMs. - */ - - /* - * Step 1: find CAS latency common to all DIMMs using bitwise - * operation. - */ - temp1 = 0xFF; - for (i = 0; i < number_of_dimms; i++) { - if (dimm_params[i].n_ranks) { - temp2 = 0; - temp2 |= 1 << dimm_params[i].caslat_x; - temp2 |= 1 << dimm_params[i].caslat_x_minus_1; - temp2 |= 1 << dimm_params[i].caslat_x_minus_2; - /* - * FIXME: If there was no entry for X-2 (X-1) in - * the SPD, then caslat_x_minus_2 - * (caslat_x_minus_1) contains either 255 or - * 0xFFFFFFFF because that's what the glorious - * __ilog2 function returns for an input of 0. - * On 32-bit PowerPC, left shift counts with bit - * 26 set (that the value of 255 or 0xFFFFFFFF - * will have), cause the destination register to - * be 0. That is why this works. - */ - temp1 &= temp2; - } - } - - /* - * Step 2: check each common CAS latency against tCK of each - * DIMM's SPD. - */ - lowest_good_caslat = 0; - temp2 = 0; - while (temp1) { - not_ok = 0; - temp2 = __ilog2(temp1); - debug("checking common caslat = %u\n", temp2); - - /* Check if this CAS latency will work on all DIMMs at tCK. */ - for (i = 0; i < number_of_dimms; i++) { - if (!dimm_params[i].n_ranks) { - continue; - } - if (dimm_params[i].caslat_x == temp2) { - if (mclk_ps >= dimm_params[i].tckmin_x_ps) { - debug("CL = %u ok on DIMM %u at tCK=%u" - " ps with its tCKmin_X_ps of %u\n", - temp2, i, mclk_ps, - dimm_params[i].tckmin_x_ps); - continue; - } else { - not_ok++; - } - } - - if (dimm_params[i].caslat_x_minus_1 == temp2) { - unsigned int tckmin_x_minus_1_ps - = dimm_params[i].tckmin_x_minus_1_ps; - if (mclk_ps >= tckmin_x_minus_1_ps) { - debug("CL = %u ok on DIMM %u at " - "tCK=%u ps with its " - "tckmin_x_minus_1_ps of %u\n", - temp2, i, mclk_ps, - tckmin_x_minus_1_ps); - continue; - } else { - not_ok++; - } - } - - if (dimm_params[i].caslat_x_minus_2 == temp2) { - unsigned int tckmin_x_minus_2_ps - = dimm_params[i].tckmin_x_minus_2_ps; - if (mclk_ps >= tckmin_x_minus_2_ps) { - debug("CL = %u ok on DIMM %u at " - "tCK=%u ps with its " - "tckmin_x_minus_2_ps of %u\n", - temp2, i, mclk_ps, - tckmin_x_minus_2_ps); - continue; - } else { - not_ok++; - } - } - } - - if (!not_ok) { - lowest_good_caslat = temp2; - } - - temp1 &= ~(1 << temp2); - } - - debug("lowest common SPD-defined CAS latency = %u\n", - lowest_good_caslat); - outpdimm->lowest_common_SPD_caslat = lowest_good_caslat; - - - /* - * Compute a common 'de-rated' CAS latency. - * - * The strategy here is to find the *highest* dereated cas latency - * with the assumption that all of the DIMMs will support a dereated - * CAS latency higher than or equal to their lowest dereated value. - */ - temp1 = 0; - for (i = 0; i < number_of_dimms; i++) { - temp1 = max(temp1, dimm_params[i].caslat_lowest_derated); - } - outpdimm->highest_common_derated_caslat = temp1; - debug("highest common dereated CAS latency = %u\n", temp1); -#endif /* #if defined(CONFIG_FSL_DDR3) */ - - /* Determine if all DIMMs ECC capable. */ - temp1 = 1; - for (i = 0; i < number_of_dimms; i++) { - if (dimm_params[i].n_ranks && - !(dimm_params[i].edc_config & EDC_ECC)) { - temp1 = 0; - break; - } - } - if (temp1) { - debug("all DIMMs ECC capable\n"); - } else { - debug("Warning: not all DIMMs ECC capable, cant enable ECC\n"); - } - outpdimm->all_dimms_ecc_capable = temp1; - -#ifndef CONFIG_FSL_DDR3 - /* FIXME: move to somewhere else to validate. */ - if (mclk_ps > tckmax_max_ps) { - printf("Warning: some of the installed DIMMs " - "can not operate this slowly.\n"); - return 1; - } -#endif - /* - * Compute additive latency. - * - * For DDR1, additive latency should be 0. - * - * For DDR2, with ODT enabled, use "a value" less than ACTTORW, - * which comes from Trcd, and also note that: - * add_lat + caslat must be >= 4 - * - * For DDR3, we use the AL=0 - * - * When to use additive latency for DDR2: - * - * I. Because you are using CL=3 and need to do ODT on writes and - * want functionality. - * 1. Are you going to use ODT? (Does your board not have - * additional termination circuitry for DQ, DQS, DQS_, - * DM, RDQS, RDQS_ for x4/x8 configs?) - * 2. If so, is your lowest supported CL going to be 3? - * 3. If so, then you must set AL=1 because - * - * WL >= 3 for ODT on writes - * RL = AL + CL - * WL = RL - 1 - * -> - * WL = AL + CL - 1 - * AL + CL - 1 >= 3 - * AL + CL >= 4 - * QED - * - * RL >= 3 for ODT on reads - * RL = AL + CL - * - * Since CL aren't usually less than 2, AL=0 is a minimum, - * so the WL-derived AL should be the -- FIXME? - * - * II. Because you are using auto-precharge globally and want to - * use additive latency (posted CAS) to get more bandwidth. - * 1. Are you going to use auto-precharge mode globally? - * - * Use addtivie latency and compute AL to be 1 cycle less than - * tRCD, i.e. the READ or WRITE command is in the cycle - * immediately following the ACTIVATE command.. - * - * III. Because you feel like it or want to do some sort of - * degraded-performance experiment. - * 1. Do you just want to use additive latency because you feel - * like it? - * - * Validation: AL is less than tRCD, and within the other - * read-to-precharge constraints. - */ - - additive_latency = 0; - -#if defined(CONFIG_FSL_DDR2) - if (lowest_good_caslat < 4) { - additive_latency = (picos_to_mclk(trcd_ps) > lowest_good_caslat) - ? picos_to_mclk(trcd_ps) - lowest_good_caslat : 0; - if (mclk_to_picos(additive_latency) > trcd_ps) { - additive_latency = picos_to_mclk(trcd_ps); - debug("setting additive_latency to %u because it was " - " greater than tRCD_ps\n", additive_latency); - } - } - -#elif defined(CONFIG_FSL_DDR3) - /* - * The system will not use the global auto-precharge mode. - * However, it uses the page mode, so we set AL=0 - */ - additive_latency = 0; -#endif - - /* - * Validate additive latency - * FIXME: move to somewhere else to validate - * - * AL <= tRCD(min) - */ - if (mclk_to_picos(additive_latency) > trcd_ps) { - printf("Error: invalid additive latency exceeds tRCD(min).\n"); - return 1; - } - - /* - * RL = CL + AL; RL >= 3 for ODT_RD_CFG to be enabled - * WL = RL - 1; WL >= 3 for ODT_WL_CFG to be enabled - * ADD_LAT (the register) must be set to a value less - * than ACTTORW if WL = 1, then AL must be set to 1 - * RD_TO_PRE (the register) must be set to a minimum - * tRTP + AL if AL is nonzero - */ - - /* - * Additive latency will be applied only if the memctl option to - * use it. - */ - outpdimm->additive_latency = additive_latency; - - debug("tCKmin_ps = %u\n", outpdimm->tckmin_x_ps); - debug("trcd_ps = %u\n", outpdimm->trcd_ps); - debug("trp_ps = %u\n", outpdimm->trp_ps); - debug("tras_ps = %u\n", outpdimm->tras_ps); - debug("twr_ps = %u\n", outpdimm->twr_ps); - debug("twtr_ps = %u\n", outpdimm->twtr_ps); - debug("trfc_ps = %u\n", outpdimm->trfc_ps); - debug("trrd_ps = %u\n", outpdimm->trrd_ps); - debug("trc_ps = %u\n", outpdimm->trc_ps); - - return 0; -} |
