diff options
author | Thi Tran <thi@us.ibm.com> | 2013-04-24 07:54:12 -0500 |
---|---|---|
committer | A. Patrick Williams III <iawillia@us.ibm.com> | 2013-05-02 15:20:12 -0500 |
commit | 34b67dcc6f93420790ced1241ab6a5b715d4f00e (patch) | |
tree | ec7c2049bccf8db11f7f229bc1e444dc209e028a | |
parent | 7e236aac934843e875280b3f9456f026466bc68b (diff) | |
download | blackbird-hostboot-34b67dcc6f93420790ced1241ab6a5b715d4f00e.tar.gz blackbird-hostboot-34b67dcc6f93420790ced1241ab6a5b715d4f00e.zip |
TULETA Bring Up - Update Mem & Proc procedures 04/24
SW198433
Change-Id: I40a65adc63648e2252e5351b4ae7b817f43d032d
Reviewed-on: http://gfw160.austin.ibm.com:8080/gerrit/4190
Tested-by: Jenkins Server
Reviewed-by: Van H. Lee <vanlee@us.ibm.com>
Reviewed-by: A. Patrick Williams III <iawillia@us.ibm.com>
21 files changed, 1254 insertions, 371 deletions
diff --git a/src/makefile b/src/makefile index 750555c3b..27c3660c6 100644 --- a/src/makefile +++ b/src/makefile @@ -87,7 +87,8 @@ hbicore_DATA_MODULES = sample.if p8.dmi.scom.if cen.dmi.scom.if \ p8.abus.scom.if p8.xbus.scom.if p8.mcs.scom.if \ p8.as.scom.if p8.nx.scom.if p8.dmi.custom.scom.if \ cen.dmi.custom.scom.if p8.abus.custom.scom.if \ - p8.xbus.custom.scom.if p8.psi.scom.if p8.tpbridge.scom.if + p8.xbus.custom.scom.if p8.psi.scom.if p8.tpbridge.scom.if \ + p8.cxa.scom.if hbicore_test_OBJECTS = ${hbicore_OBJECTS} hbicore_test_MODULES = ${hbicore_MODULES} diff --git a/src/usr/hwpf/hwp/activate_powerbus/proc_build_smp/proc_build_smp_adu.C b/src/usr/hwpf/hwp/activate_powerbus/proc_build_smp/proc_build_smp_adu.C index a2e2f0a47..da64c9232 100644 --- a/src/usr/hwpf/hwp/activate_powerbus/proc_build_smp/proc_build_smp_adu.C +++ b/src/usr/hwpf/hwp/activate_powerbus/proc_build_smp/proc_build_smp_adu.C @@ -20,7 +20,7 @@ /* Origin: 30 */ /* */ /* IBM_PROLOG_END_TAG */ -// $Id: proc_build_smp_adu.C,v 1.4 2013/02/25 14:50:52 jmcgill Exp $ +// $Id: proc_build_smp_adu.C,v 1.6 2013/03/28 16:28:32 jmcgill Exp $ // $Source: /afs/awd/projects/eclipz/KnowledgeBase/.cvsroot/eclipz/chips/p8/working/procedures/ipl/fapi/proc_build_smp_adu.C,v $ //------------------------------------------------------------------------------ // *| @@ -266,6 +266,10 @@ fapi::ReturnCode proc_build_smp_adu_check_status( break; } } + if (!rc.ok()) + { + break; + } // check status bits versus expected pattern match = @@ -324,6 +328,7 @@ fapi::ReturnCode proc_build_smp_adu_check_status( FAPI_ERR("proc_adu_utils_check_adu_status: FBC_ALTD_PBINIT_MISSING_ERROR = %d", (status_act.pbinit_missing == ADU_STATUS_BIT_SET)?(1):(0)); const proc_adu_utils_adu_status & STATUS_DATA = status_act; + const uint8_t & NUM_POLLS = num_polls; FAPI_SET_HWP_ERROR(rc, RC_PROC_BUILD_SMP_ADU_STATUS_MISMATCH); break; } diff --git a/src/usr/hwpf/hwp/activate_powerbus/proc_build_smp/proc_build_smp_errors.xml b/src/usr/hwpf/hwp/activate_powerbus/proc_build_smp/proc_build_smp_errors.xml index f3d839bad..d6aca2133 100644 --- a/src/usr/hwpf/hwp/activate_powerbus/proc_build_smp/proc_build_smp_errors.xml +++ b/src/usr/hwpf/hwp/activate_powerbus/proc_build_smp/proc_build_smp_errors.xml @@ -107,6 +107,7 @@ <hwpError> <rc>RC_PROC_BUILD_SMP_ADU_STATUS_MISMATCH</rc> <description>Status mismatch detected on ADU operation executed for SMP configuration.</description> + <ffdc>NUM_POLLS</ffdc> <ffdc>STATUS_DATA</ffdc> </hwpError> <hwpError> diff --git a/src/usr/hwpf/hwp/dram_training/mss_draminit_mc/mss_draminit_mc.C b/src/usr/hwpf/hwp/dram_training/mss_draminit_mc/mss_draminit_mc.C index cbb43ee54..97abcdaf5 100644 --- a/src/usr/hwpf/hwp/dram_training/mss_draminit_mc/mss_draminit_mc.C +++ b/src/usr/hwpf/hwp/dram_training/mss_draminit_mc/mss_draminit_mc.C @@ -20,7 +20,7 @@ /* Origin: 30 */ /* */ /* IBM_PROLOG_END_TAG */ -// $Id: mss_draminit_mc.C,v 1.35 2013/04/01 20:24:02 lapietra Exp $ +// $Id: mss_draminit_mc.C,v 1.36 2013/04/15 13:07:51 lapietra Exp $ //------------------------------------------------------------------------------ // *! (C) Copyright International Business Machines Corp. 2011 // *! All Rights Reserved -- Property of IBM @@ -44,6 +44,7 @@ //------------------------------------------------------------------------------ // Version:| Author: | Date: | Comment: //---------|----------|---------|----------------------------------------------- +// 1.36 | dcadiga |03-APR-13| Fixed compile warning // 1.35 | dcadiga |01-APR-13| Temp Fix For Parity Error on 32GB // 1.34 | dcadiga |12-MAR-13| Added spare cke disable as step 0 // 1.33 | dcadiga |04-FEB-13| For some reason the main procedure call was commented out in the last commit... commenting it back in @@ -192,7 +193,7 @@ ReturnCode mss_draminit_mc_cloned(Target& i_target) rc = fapiPutScom(i_target, MBS_FIR_REG_0x02011400, parity_tmp_data_buffer_64); if(rc) { - FAPI_ERR("---Error During Clear Parity Bit", uint32_t(rc), rc.getCreator()); + FAPI_ERR("---Error During Clear Parity Bit rc = 0x%08X (creator = %d)---", uint32_t(rc), rc.getCreator()); return rc; } diff --git a/src/usr/hwpf/hwp/dram_training/mss_draminit_trainadv/mss_draminit_training_advanced.C b/src/usr/hwpf/hwp/dram_training/mss_draminit_trainadv/mss_draminit_training_advanced.C index 04efb9d00..7993f87df 100644 --- a/src/usr/hwpf/hwp/dram_training/mss_draminit_trainadv/mss_draminit_training_advanced.C +++ b/src/usr/hwpf/hwp/dram_training/mss_draminit_trainadv/mss_draminit_training_advanced.C @@ -20,7 +20,7 @@ /* Origin: 30 */ /* */ /* IBM_PROLOG_END_TAG */ -// $Id: mss_draminit_training_advanced.C,v 1.27 2013/04/09 11:08:44 lapietra Exp $ +// $Id: mss_draminit_training_advanced.C,v 1.29 2013/04/23 14:26:07 sasethur Exp $ /* File is created by SARAVANAN SETHURAMAN on Thur 29 Sept 2011. */ //------------------------------------------------------------------------------ @@ -67,6 +67,8 @@ // 1.25 | abhijsau |31-Jan-13| Removed mss_mcbist_common.C include file , needs to be included while compiling // 1.26 | abhijsau |06-Mar-13| Fixed fw comment // 1.27 | sasethur |09-Apr-13| Updated for port in parallel and pass shmoo param +// 1.28 | sasethur |22-Apr-13| Fixed fw comment +// 1.29 | sasethur |23-Apr-13| Fixed fw comment // This procedure Schmoo's DRV_IMP, SLEW, VREF (DDR, CEN), RCV_IMP based on attribute from effective config procedure // DQ & DQS Driver impedance, Slew rate, WR_Vref shmoo would call only write_eye shmoo for margin calculation @@ -92,7 +94,8 @@ #include <mss_unmask_errors.H> //#include <mss_mcbist_common.C> - +const uint8_t PATTERN = 14; +const uint8_t TESTTYPE = 13; const uint32_t MASK = 1; const uint32_t MAX_DIMM =2; @@ -160,8 +163,8 @@ fapi::ReturnCode mss_draminit_training_advanced(const fapi::Target & i_target_mb uint8_t i_test_type) { // const fapi::Target is centaur.mba - i_pattern=13; - i_test_type=14; + i_pattern= PATTERN; // MPR - Hard coded will be removed after attribute is assigned in firmware + i_test_type= TESTTYPE; // SIMPLE RAND - Hard coded will be removed after attribute is assigned in firmware fapi::ReturnCode rc; FAPI_INF(" pattern bit is %d and test_type_bit is %d",i_pattern,i_test_type); @@ -210,7 +213,7 @@ fapi::ReturnCode mss_draminit_training_advanced_cloned(const fapi::Target & i_ta uint32_t l_attr_mss_volt_u32 = 0; uint8_t l_num_drops_per_port_u8 = 2; uint8_t l_num_ranks_per_dimm_u8array[MAX_PORT][MAX_DIMM] = {{0}}; - uint8_t __attribute__((unused)) l_actual_dimm_size_u8 = 0; // SW198827 + //nuint8_t l_actual_dimm_size_u8 = 0; uint8_t l_port = 0; uint8_t l_dimm_type_u8 = 0; //default is set to CDIMM uint32_t l_left_margin=0; @@ -246,14 +249,14 @@ fapi::ReturnCode mss_draminit_training_advanced_cloned(const fapi::Target & i_ta FAPI_INF("num_ranks_per_dimm = [%02d][%02d][%02d][%02d] on %s.", l_num_ranks_per_dimm_u8array[0][0],l_num_ranks_per_dimm_u8array[0][1], l_num_ranks_per_dimm_u8array[1][0],l_num_ranks_per_dimm_u8array[1][1], i_target_mba.toEcmdString()); FAPI_INF("+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++"); - if ( l_num_drops_per_port_u8 == fapi::ENUM_ATTR_EFF_NUM_DROPS_PER_PORT_DUAL ) - { - l_actual_dimm_size_u8 = 2; - } - else - { - l_actual_dimm_size_u8 = 1; - } + // if ( l_num_drops_per_port_u8 == fapi::ENUM_ATTR_EFF_NUM_DROPS_PER_PORT_DUAL ) + // { + // l_actual_dimm_size_u8 = 2; + // } + // else + // { + // l_actual_dimm_size_u8 = 1; + // } rc = FAPI_ATTR_GET(ATTR_EFF_SCHMOO_TEST_VALID, &i_target_mba, l_shmoo_type_valid_t); if(rc) return rc; @@ -451,14 +454,14 @@ fapi::ReturnCode drv_imped_shmoo(const fapi::Target & i_target_mba, if (l_drv_imp_dq_dqs_new[i_port] != l_drv_imp_dq_dqs_nom[i_port]) { - FAPI_INF("Better Margin found on %d Ohms on %s", l_drv_imp_dq_dqs_new[i_port], i_target_mba.toEcmdString()); - rc = FAPI_ATTR_SET(ATTR_EFF_CEN_DRV_IMP_DQ_DQS, &i_target_mba, l_drv_imp_dq_dqs_new); - if (rc) return rc; - FAPI_INF("Configuring New Driver Impedance Value to Registers:"); - rc = config_drv_imp(i_target_mba, i_port, l_drv_imp_dq_dqs_new[i_port]); - if (rc) return rc; - rc = config_slew_rate(i_target_mba, i_port, l_slew_type, l_drv_imp_dq_dqs_new[i_port], l_slew_rate_dq_dqs[i_port]); - if (rc) return rc; + //FAPI_INF("Better Margin found on %d Ohms on %s", l_drv_imp_dq_dqs_new[i_port], i_target_mba.toEcmdString()); + //rc = FAPI_ATTR_SET(ATTR_EFF_CEN_DRV_IMP_DQ_DQS, &i_target_mba, l_drv_imp_dq_dqs_new); + //if (rc) return rc; + //FAPI_INF("Configuring New Driver Impedance Value to Registers:"); + //rc = config_drv_imp(i_target_mba, i_port, l_drv_imp_dq_dqs_new[i_port]); + //if (rc) return rc; + //rc = config_slew_rate(i_target_mba, i_port, l_slew_type, l_drv_imp_dq_dqs_new[i_port], l_slew_rate_dq_dqs[i_port]); + //if (rc) return rc; } else { @@ -583,11 +586,11 @@ fapi::ReturnCode slew_rate_shmoo(const fapi::Target & i_target_mba, if (l_slew_rate_dq_dqs_new[i_port] != l_slew_rate_dq_dqs_nom[i_port]) { - FAPI_INF("Better Margin found on Slew Rate: %d V/ns on %s", l_slew_rate_dq_dqs_new[i_port], i_target_mba.toEcmdString()); - rc = FAPI_ATTR_SET(ATTR_EFF_CEN_SLEW_RATE_DQ_DQS, &i_target_mba, l_slew_rate_dq_dqs_new); + //FAPI_INF("Better Margin found on Slew Rate: %d V/ns on %s", l_slew_rate_dq_dqs_new[i_port], i_target_mba.toEcmdString()); + //rc = FAPI_ATTR_SET(ATTR_EFF_CEN_SLEW_RATE_DQ_DQS, &i_target_mba, l_slew_rate_dq_dqs_new); if (rc) return rc; - FAPI_INF("Configuring New Slew Rate Value to Registers:"); - rc = config_slew_rate(i_target_mba, i_port, l_slew_type, l_drv_imp_dq_dqs_nom[i_port], l_slew_rate_dq_dqs_new[i_port]); + //FAPI_INF("Configuring New Slew Rate Value to Registers:"); + //rc = config_slew_rate(i_target_mba, i_port, l_slew_type, l_drv_imp_dq_dqs_nom[i_port], l_slew_rate_dq_dqs_new[i_port]); if (rc) return rc; } else @@ -640,7 +643,7 @@ fapi::ReturnCode wr_vref_shmoo(const fapi::Target & i_target_mba, if (rc) return rc; rc = FAPI_ATTR_GET(ATTR_EFF_DRAM_WR_VREF_SCHMOO, &i_target_mba, l_wr_dram_vref_schmoo); if (rc) return rc; - FAPI_INF("+++++++++++++++++DRAM VREF Shmoo Attributes Values+++++++++++++++"); + FAPI_INF("+++++++++++++++++WRITE DRAM VREF Shmoo Attributes Values+++++++++++++++"); FAPI_INF("DRAM_WR_VREF[0] = %d , DRAM_WR_VREF[1] = %d on %s", l_wr_dram_vref_nom[0], l_wr_dram_vref_nom[1],i_target_mba.toEcmdString()); FAPI_INF("DRAM_WR_VREF_SCHMOO[0] = [%x],DRAM_WR_VREF_SCHMOO[1] = [%x] on %s", l_wr_dram_vref_schmoo[0], l_wr_dram_vref_schmoo[1],i_target_mba.toEcmdString()); FAPI_INF("+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++"); @@ -656,12 +659,12 @@ fapi::ReturnCode wr_vref_shmoo(const fapi::Target & i_target_mba, { if (l_wr_dram_vref_schmoo[i_port] & MASK) { - FAPI_INF("Current Vref value is %dmV", wr_vref_array[index]); + FAPI_INF("Current Vref multiplier value is %d", wr_vref_array[index]); l_wr_dram_vref[i_port] = wr_vref_array[index]; rc = config_wr_dram_vref(i_target_mba, i_port, l_wr_dram_vref[i_port]); if (rc) return rc; l_wr_dram_vref_in = l_wr_dram_vref[i_port]; - FAPI_INF(" Calling Shmoo for finding Timing Margin:"); + //FAPI_INF(" Calling Shmoo for finding Timing Margin:"); rc = delay_shmoo(i_target_mba, i_port, i_shmoo_type_valid, &l_left_margin, &l_right_margin, i_pattern, i_test_type, l_wr_dram_vref_in); if (rc) return rc; @@ -681,7 +684,7 @@ fapi::ReturnCode wr_vref_shmoo(const fapi::Target & i_target_mba, l_right_margin_wr_vref_array, MAX_WR_VREF, l_wr_dram_vref_nom_fc, count); if (count >= MAX_WR_VREF) { - FAPI_ERR("Driver Imp new input(%d) out of bounds, (>= %d)", + FAPI_ERR("Write dram vref input(%d) out of bounds, (>= %d)", count, MAX_WR_VREF); FAPI_SET_HWP_ERROR(rc, RC_MSS_INVALID_FN_INPUT_ERROR); return rc; @@ -702,12 +705,12 @@ fapi::ReturnCode wr_vref_shmoo(const fapi::Target & i_target_mba, if(l_wr_dram_vref_new[i_port] != l_wr_dram_vref_nom[i_port]) { - FAPI_INF("Best Margin Found on Vref : %d , %d mV on %s", count, wr_vref_array_fitness[count], i_target_mba.toEcmdString()); - rc = FAPI_ATTR_SET(ATTR_EFF_DRAM_WR_VREF, &i_target_mba, l_wr_dram_vref_new); - if (rc) return rc; - FAPI_INF("Configuring New Vref Value to registers:"); - rc = config_wr_dram_vref(i_target_mba, i_port, l_wr_dram_vref_new[i_port]); - if (rc) return rc; + //FAPI_INF("Best Margin Found on Vref Multiplier : %d on %s", wr_vref_array_fitness[count], i_target_mba.toEcmdString()); + //rc = FAPI_ATTR_SET(ATTR_EFF_DRAM_WR_VREF, &i_target_mba, l_wr_dram_vref_new); + //if (rc) return rc; + //FAPI_INF("Configuring New Vref Value to registers:"); + //rc = config_wr_dram_vref(i_target_mba, i_port, l_wr_dram_vref_new[i_port]); + //if (rc) return rc; } else { @@ -716,7 +719,7 @@ fapi::ReturnCode wr_vref_shmoo(const fapi::Target & i_target_mba, if (rc) return rc; } } - FAPI_INF("++++ Write Vref Shmoo function executed successfully ++++"); + FAPI_INF("++++ Write DRAM Vref Shmoo function executed successfully ++++"); } return rc; } @@ -778,11 +781,11 @@ fapi::ReturnCode rd_vref_shmoo(const fapi::Target & i_target_mba, if ((l_rd_cen_vref_schmoo[i_port] & MASK) == 1) { l_rd_cen_vref[i_port] = rd_cen_vref_array[index]; - FAPI_INF("Current Vref value is %dmV", rd_cen_vref_array[index]); + FAPI_INF("Current Read Vref Multiplier value is %d", rd_cen_vref_array[index]); FAPI_INF("Configuring Read Vref Registers:"); rc = config_rd_cen_vref(i_target_mba, i_port, l_rd_cen_vref[i_port]); if (rc) return rc; l_rd_cen_vref_in = l_rd_cen_vref[i_port]; - FAPI_INF(" Calling Shmoo function to find out Timing Margin:"); + //FAPI_INF(" Calling Shmoo function to find out Timing Margin:"); rc = delay_shmoo(i_target_mba, i_port, i_shmoo_type_valid, &l_left_margin, &l_right_margin,i_pattern,i_test_type, l_rd_cen_vref_in); if (rc) return rc; l_left_margin_rd_vref_array[index]= l_left_margin; @@ -800,7 +803,7 @@ fapi::ReturnCode rd_vref_shmoo(const fapi::Target & i_target_mba, l_right_margin_rd_vref_array, MAX_RD_VREF, l_rd_cen_vref_nom_fc, count); if (count >= MAX_RD_VREF) { - FAPI_ERR("Driver Imp new input(%d) out of bounds, (>= %d)", + FAPI_ERR("Read vref new input(%d) out of bounds, (>= %d)", count, MAX_RD_VREF); FAPI_SET_HWP_ERROR(rc, RC_MSS_INVALID_FN_INPUT_ERROR); return rc; @@ -821,12 +824,12 @@ fapi::ReturnCode rd_vref_shmoo(const fapi::Target & i_target_mba, if(l_rd_cen_vref_new[i_port] != l_rd_cen_vref_nom[i_port]) { - FAPI_INF("Best Margin Found on Vref : %dmv , %dmV on %s", l_rd_cen_vref_new[i_port], rd_cen_vref_array_fitness[count], i_target_mba.toEcmdString()); - rc = FAPI_ATTR_SET(ATTR_EFF_CEN_RD_VREF, &i_target_mba, l_rd_cen_vref_new); - if (rc) return rc; - FAPI_INF("Configuring New Read Vref Value to Registers:"); - rc = config_rd_cen_vref(i_target_mba, i_port, l_rd_cen_vref_new[i_port]); - if (rc) return rc; + //FAPI_INF("Best Margin Found on Vref : %dmv , %dmV on %s", l_rd_cen_vref_new[i_port], rd_cen_vref_array_fitness[count], i_target_mba.toEcmdString()); + //rc = FAPI_ATTR_SET(ATTR_EFF_CEN_RD_VREF, &i_target_mba, l_rd_cen_vref_new); + //if (rc) return rc; + //FAPI_INF("Configuring New Read Vref Value to Registers:"); + //rc = config_rd_cen_vref(i_target_mba, i_port, l_rd_cen_vref_new[i_port]); + //if (rc) return rc; } else { @@ -835,7 +838,7 @@ fapi::ReturnCode rd_vref_shmoo(const fapi::Target & i_target_mba, if (rc) return rc; } } - FAPI_INF("++++ Read Vref Shmoo function executed successfully ++++"); + FAPI_INF("++++ Centaur Read Vref Shmoo function executed successfully ++++"); } return rc; } @@ -916,7 +919,7 @@ fapi::ReturnCode rcv_imp_shmoo(const fapi::Target & i_target_mba, l_right_margin_rcv_imp_array, MAX_RCV_IMP, l_rcv_imp_dq_dqs_nom_fc, count); if (count >= MAX_RCV_IMP) { - FAPI_ERR("Driver Imp new input(%d) out of bounds, (>= %d)", + FAPI_ERR("Receiver Imp new input(%d) out of bounds, (>= %d)", count, MAX_RCV_IMP); FAPI_SET_HWP_ERROR(rc, RC_MSS_INVALID_FN_INPUT_ERROR); return rc; @@ -937,11 +940,11 @@ fapi::ReturnCode rcv_imp_shmoo(const fapi::Target & i_target_mba, if (l_rcv_imp_dq_dqs_new[i_port] != l_rcv_imp_dq_dqs_nom[i_port]) { - FAPI_INF("Better Margin found on %d on %s", l_rcv_imp_dq_dqs_new[i_port], i_target_mba.toEcmdString()); - rc = FAPI_ATTR_SET(ATTR_EFF_CEN_RCV_IMP_DQ_DQS, &i_target_mba, l_rcv_imp_dq_dqs_new); - if (rc) return rc; - rc = config_rcv_imp(i_target_mba, i_port, l_rcv_imp_dq_dqs_new[i_port]); - if (rc) return rc; + //FAPI_INF("Better Margin found on %d on %s", l_rcv_imp_dq_dqs_new[i_port], i_target_mba.toEcmdString()); + //rc = FAPI_ATTR_SET(ATTR_EFF_CEN_RCV_IMP_DQ_DQS, &i_target_mba, l_rcv_imp_dq_dqs_new); + //if (rc) return rc; + //rc = config_rcv_imp(i_target_mba, i_port, l_rcv_imp_dq_dqs_new[i_port]); + //if (rc) return rc; } else { @@ -978,7 +981,7 @@ fapi::ReturnCode delay_shmoo(const fapi::Target & i_target_mba, uint8_t i_port, FAPI_INF(" Inside the delay shmoo " ); //Constructor CALL: generic_shmoo::generic_shmoo(uint8_t i_port, uint32_t shmoo_mask,shmoo_algorithm_t shmoo_algorithm) //generic_shmoo mss_shmoo=generic_shmoo(i_port,2,SEQ_LIN); - generic_shmoo mss_shmoo=generic_shmoo(i_port,i_shmoo_type_valid,SEQ_LIN); + generic_shmoo mss_shmoo=generic_shmoo(i_port,i_shmoo_type_valid,SEQ_LIN); rc = mss_shmoo.run(i_target_mba, o_left_margin, o_right_margin,i_pattern,i_test_type,i_shmoo_param); if(rc) { @@ -1010,9 +1013,9 @@ void find_best_margin(shmoo_param i_shmoo_param_valid, uint32_t right_margin = 0; uint32_t left_margin_nom = 0; uint32_t right_margin_nom = 0; - uint32_t diff_margin_nom = 0; - uint32_t __attribute__((unused)) total_margin = 0; //SW198827 - uint32_t diff_margin = 0; + uint32_t __attribute__((unused)) diff_margin_nom = 0; // SW198827 + //uint32_t total_margin = 0; + uint32_t __attribute__((unused)) diff_margin = 0; // SW198827 uint8_t index = 0; uint8_t index2 = 0; @@ -1026,7 +1029,7 @@ void find_best_margin(shmoo_param i_shmoo_param_valid, left_margin_nom = i_left[index]; right_margin_nom = i_right[index]; diff_margin_nom = (i_left[index] >= i_right[index]) ? (i_left[index] - i_right[index]) : (i_right[index] - i_left[index]); - FAPI_INF("Driver impedance value (NOM): %d Ohms Setup Margin: %d Hold Margin: %d", i_param_nom, i_left[index], i_right[index]); + //FAPI_INF("Driver impedance value (NOM): %d Ohms Setup Margin: %d Hold Margin: %d", i_param_nom, i_left[index], i_right[index]); break; } } @@ -1037,7 +1040,7 @@ void find_best_margin(shmoo_param i_shmoo_param_valid, left_margin_nom = i_left[index]; right_margin_nom = i_right[index]; diff_margin_nom = (i_left[index] >= i_right[index]) ? (i_left[index] - i_right[index]) : (i_right[index] - i_left[index]); - FAPI_INF("Slew rate value (NOM): %d V/ns Setup Margin: %d Hold Margin: %d", i_param_nom, i_left[index], i_right[index]); + //FAPI_INF("Slew rate value (NOM): %d V/ns Setup Margin: %d Hold Margin: %d", i_param_nom, i_left[index], i_right[index]); break; } } @@ -1048,7 +1051,7 @@ void find_best_margin(shmoo_param i_shmoo_param_valid, left_margin_nom = i_left[index]; right_margin_nom = i_right[index]; diff_margin_nom = (i_left[index] >= i_right[index]) ? (i_left[index] - i_right[index]) : (i_right[index] - i_left[index]); - FAPI_INF("Write DRAM Vref value (NOM): %d mV Setup Margin: %d Hold Margin: %d", i_param_nom, i_left[index], i_right[index]); + //FAPI_INF("Write DRAM Vref Multiplier value (NOM): %d Setup Margin: %d Hold Margin: %d", i_param_nom, i_left[index], i_right[index]); break; } } @@ -1059,7 +1062,7 @@ void find_best_margin(shmoo_param i_shmoo_param_valid, left_margin_nom = i_left[index]; right_margin_nom = i_right[index]; diff_margin_nom = (i_left[index] >= i_right[index]) ? (i_left[index] - i_right[index]) : (i_right[index] - i_left[index]); - FAPI_INF("Centaur Read Vref value (NOM): %d mV Setup Margin: %d Hold Margin: %d", i_param_nom, i_left[index], i_right[index]); + //FAPI_INF("Centaur Read Vref Multiplier value (NOM): %d Setup Margin: %d Hold Margin: %d", i_param_nom, i_left[index], i_right[index]); break; } } @@ -1070,7 +1073,7 @@ void find_best_margin(shmoo_param i_shmoo_param_valid, left_margin_nom = i_left[index]; right_margin_nom = i_right[index]; diff_margin_nom = (i_left[index] >= i_right[index]) ? (i_left[index] - i_right[index]) : (i_right[index] - i_left[index]); - FAPI_INF("Receiver Impedance value (NOM): %d Ohms Setup Margin: %d Hold Margin: %d", i_param_nom, i_left[index], i_right[index]); + // FAPI_INF("Receiver Impedance value (NOM): %d Ohms Setup Margin: %d Hold Margin: %d", i_param_nom, i_left[index], i_right[index]); break; } } @@ -1080,15 +1083,16 @@ void find_best_margin(shmoo_param i_shmoo_param_valid, { left_margin = i_left[index2]; right_margin = i_right[index2]; - total_margin = i_left[index2] + i_right[index2]; + //total_margin = i_left[index2] + i_right[index2]; diff_margin = (i_left[index2] >= i_right[index2]) ? (i_left[index2] - i_right[index2]) : (i_right[index2] - i_left[index2]); if ((left_margin > 0 && right_margin > 0)) { - if((left_margin >= left_margin_nom) && (right_margin >= right_margin_nom) && (diff_margin <= diff_margin_nom)) + // if((left_margin >= left_margin_nom) && (right_margin >= right_margin_nom) && (diff_margin <= diff_margin_nom)) + if((left_margin >= left_margin_nom) && (right_margin >= right_margin_nom)) { o_index = index2; //wont break this loop, since the purpose is to find the best parameter value & best timing margin The enum is constructed to do that - FAPI_INF("Best Value found on index %d, Setup Margin: %d, Hold Margin: %d", o_index, i_left[index2], i_right[index2]); + // FAPI_INF("Best Value found on index %d, Setup Margin: %d, Hold Margin: %d", o_index, i_left[index2], i_right[index2]); } } } diff --git a/src/usr/hwpf/hwp/dram_training/mss_draminit_trainadv/mss_generic_shmoo.C b/src/usr/hwpf/hwp/dram_training/mss_draminit_trainadv/mss_generic_shmoo.C index b29864630..7ade47d33 100644 --- a/src/usr/hwpf/hwp/dram_training/mss_draminit_trainadv/mss_generic_shmoo.C +++ b/src/usr/hwpf/hwp/dram_training/mss_draminit_trainadv/mss_generic_shmoo.C @@ -21,7 +21,7 @@ /* */ /* IBM_PROLOG_END_TAG */ -// $Id: mss_generic_shmoo.C,v 1.43 2013/04/11 15:06:18 bellows Exp $ +// $Id: mss_generic_shmoo.C,v 1.44 2013/04/22 17:03:34 sasethur Exp $ // *!*************************************************************************** // *! (C) Copyright International Business Machines Corp. 1997, 1998 // *! All Rights Reserved -- Property of IBM @@ -40,6 +40,7 @@ //------------------------------------------------------------------------------ // Version:|Author: | Date: | Comment: // --------|--------|---------|-------------------------------------------------- +// 1.44 |bellows |04/22/13 | fixed fw comments // 1.43 |bellows |04/11/13 | quick fix for firmware delivery. Uninitialized varialbles: i_mcbtest, i_mcbpatt // 1.42 |abhijit |04/09/13 | added shmoo param // 1.40 |abhijit |03/22/13 | Fixed boundary checks @@ -626,7 +627,7 @@ fapi::ReturnCode generic_shmoo::knob_update(const fapi::Target & i_target,bound_ uint8_t l_p=0; uint16_t l_delay=0; - uint32_t __attribute__((unused)) l_max=0; //SW198827 + //uint32_t l_max=0; uint16_t l_max_limit=500; uint8_t rank=0; uint8_t l_rank=0; @@ -744,7 +745,7 @@ fapi::ReturnCode generic_shmoo::knob_update(const fapi::Target & i_target,bound_ rc = mss_getrankpair(i_target,l_p,rank,&l_rp,valid_rank);if(rc) return rc; for (l_n=0; l_n<l_SCHMOO_NIBBLES;l_n++){ - l_max=SHMOO[scenario].MBA.P[l_p].S[rank].K.lb_regval[l_dq][l_rp]; + //l_max=SHMOO[scenario].MBA.P[l_p].S[rank].K.lb_regval[l_dq][l_rp]; if(schmoo_error_map[l_p][rank][l_n]==0){ @@ -1150,12 +1151,12 @@ fapi::ReturnCode generic_shmoo::get_min_margin(const fapi::Target & i_target,uin { - uint8_t __attribute__((unused)) l_socket=0; //SW198827 - + uint8_t __attribute__((unused)) l_socket=0; //SW198827 + //uint32_t rc_num =0; uint8_t l_pattern=0; uint8_t l_testtype=0; - uint8_t l_rank=0; + //uint8_t l_rank=0; fapi::ReturnCode rc; uint64_t l_start =0x0000000000000000ull; @@ -1165,14 +1166,8 @@ fapi::ReturnCode generic_shmoo::get_min_margin(const fapi::Target & i_target,uin mcbist_test_mem i_mcbtest = CENSHMOO; // bellows: initialize to this type mcbist_data_gen i_mcbpatt = ABLE_FIVE; // bellows: initialize to this data type - if(l_rank<4) - { - l_socket=0; - } - else - { - l_socket=1; - } + + //send shmoo mode to vary the address range diff --git a/src/usr/hwpf/hwp/dram_training/mss_draminit_training/mss_draminit_training.C b/src/usr/hwpf/hwp/dram_training/mss_draminit_training/mss_draminit_training.C index 08512d949..c4b59e331 100644 --- a/src/usr/hwpf/hwp/dram_training/mss_draminit_training/mss_draminit_training.C +++ b/src/usr/hwpf/hwp/dram_training/mss_draminit_training/mss_draminit_training.C @@ -20,7 +20,7 @@ /* Origin: 30 */ /* */ /* IBM_PROLOG_END_TAG */ -// $Id: mss_draminit_training.C,v 1.56 2013/03/09 00:05:43 jdsloat Exp $ +// $Id: mss_draminit_training.C,v 1.57 2013/04/16 21:22:50 jdsloat Exp $ //------------------------------------------------------------------------------ // Don't forget to create CVS comments when you check in your changes! //------------------------------------------------------------------------------ @@ -28,6 +28,7 @@ //------------------------------------------------------------------------------ // Version:| Author: | Date: | Comment: //---------|----------|---------|------------------------------------------------ +// 1.57 | jdsloat |27-FEB-13| Added second workaround adjustment to waterfall problem in order to use 2 rank pairs. // 1.56 | jdsloat |27-FEB-13| Fixed rtt_nom and rtt_wr swap bug during condition of rtt_nom = diabled and rtt_wr = non-disabled // | | | Added workaround on a per quad resolution // | | | Added workaround as a seperate sub @@ -160,10 +161,11 @@ using namespace fapi; ReturnCode mss_draminit_training(Target& i_target); ReturnCode mss_draminit_training_cloned(Target& i_target); -ReturnCode mss_check_cal_status(Target& i_target, uint8_t i_port, uint8_t i_group, mss_draminit_training_result& io_status); -ReturnCode mss_check_error_status(Target& i_target, uint8_t i_port, uint8_t i_group, mss_draminit_training_result& io_status); -ReturnCode mss_rtt_nom_rtt_wr_swap( Target& i_target, uint32_t i_port_number, uint8_t i_rank, uint32_t i_rank_pair_group, uint32_t& io_ccs_inst_cnt, uint8_t& io_dram_rtt_nom_original); +ReturnCode mss_check_cal_status(Target& i_target, uint8_t i_mbaPosition, uint8_t i_port, uint8_t i_group, mss_draminit_training_result& io_status); +ReturnCode mss_check_error_status(Target& i_target, uint8_t i_mbaPosition, uint8_t i_port, uint8_t i_group, uint8_t cur_cal_step, mss_draminit_training_result& io_status); +ReturnCode mss_rtt_nom_rtt_wr_swap( Target& i_target, uint8_t i_mbaPosition, uint32_t i_port_number, uint8_t i_rank, uint32_t i_rank_pair_group, uint32_t& io_ccs_inst_cnt, uint8_t& io_dram_rtt_nom_original); ReturnCode mss_read_center_workaround(Target& i_target, uint8_t i_mbaPosition, uint32_t i_port, uint32_t i_rank_group); +ReturnCode mss_read_center_second_workaround(Target& i_target); ReturnCode getC4dq2reg(const Target &i_mba, const uint8_t i_port, const uint8_t i_dimm, const uint8_t i_rank, ecmdDataBufferBase &o_reg); ReturnCode setC4dq2reg(const Target &i_mba, const uint8_t i_port, const uint8_t i_dimm, const uint8_t i_rank, ecmdDataBufferBase &o_reg); @@ -348,7 +350,7 @@ ReturnCode mss_draminit_training_cloned(Target& i_target) (cal_steps_8.isBitClear(4)) && (cal_steps_8.isBitClear(5)) && (cal_steps_8.isBitClear(6)) && (cal_steps_8.isBitClear(7)) )) { - FAPI_INF( "Performing External ZQ Calibration on MBA %d.", mbaPosition); + FAPI_INF( "Performing External ZQ Calibration on %s.", i_target.toEcmdString()); //Execute ZQ_CAL for(port = 0; port < MAX_NUM_PORT; port++) @@ -376,7 +378,7 @@ ReturnCode mss_draminit_training_cloned(Target& i_target) rc_num = rc_num | rasn_buffer_1.flushTo1(); rc_num = rc_num | ddr_cal_enable_buffer_1.flushTo1(); //Init cal - FAPI_INF( "+++ Setting up Init Cal on MBA: %d Port: %d rank group: %d cal_steps: 0x%02X +++", mbaPosition, port, group, cal_steps); + FAPI_INF( "+++ Setting up Init Cal on %s Port: %d rank group: %d cal_steps: 0x%02X +++", i_target.toEcmdString(), port, group, cal_steps); for(cur_cal_step = 1; cur_cal_step < MAX_CAL_STEPS; cur_cal_step++) //Cycle through all possible cal steps { @@ -498,7 +500,7 @@ ReturnCode mss_draminit_training_cloned(Target& i_target) (cal_steps_8.isBitClear(4)) && (cal_steps_8.isBitClear(5)) && (cal_steps_8.isBitClear(6)) && (cal_steps_8.isBitClear(7)) ) { - FAPI_INF( "+++ Executing ALL Cal Steps at the same time on MBA: %d Port: %d rank group: %d +++", mbaPosition, port, group); + FAPI_INF( "+++ Executing ALL Cal Steps at the same time on %s Port: %d rank group: %d +++", i_target.toEcmdString(), port, group); rc_num = rc_num | data_buffer_64.setBit(48); rc_num = rc_num | data_buffer_64.setBit(50); rc_num = rc_num | data_buffer_64.setBit(51); @@ -509,42 +511,42 @@ ReturnCode mss_draminit_training_cloned(Target& i_target) } else if ( (cur_cal_step == 1) && (cal_steps_8.isBitSet(1)) ) { - FAPI_INF( "+++ Write Leveling (WR_LVL) on MBA: %d Port %d rank group: %d +++", mbaPosition, port, group); + FAPI_INF( "+++ Write Leveling (WR_LVL) on %s Port %d rank group: %d +++", i_target.toEcmdString(), port, group); rc_num = rc_num | data_buffer_64.setBit(48); } else if ( (cur_cal_step == 2) && (cal_steps_8.isBitSet(2)) ) { - FAPI_INF( "+++ DQS Align (DQS_ALIGN) on MBA: %d Port: %d rank group: %d +++", mbaPosition, port, group); + FAPI_INF( "+++ DQS Align (DQS_ALIGN) on %s Port: %d rank group: %d +++", i_target.toEcmdString(), port, group); rc_num = rc_num | data_buffer_64.setBit(50); } else if ( (cur_cal_step == 3) && (cal_steps_8.isBitSet(3)) ) { - FAPI_INF( "+++ RD CLK Align (RDCLK_ALIGN) on MBA: %d Port: %d rank group: %d +++", mbaPosition, port, group); + FAPI_INF( "+++ RD CLK Align (RDCLK_ALIGN) on %s Port: %d rank group: %d +++", i_target.toEcmdString(), port, group); rc_num = rc_num | data_buffer_64.setBit(51); } else if ( (cur_cal_step == 4) && (cal_steps_8.isBitSet(4)) ) { - FAPI_INF( "+++ Read Centering (READ_CTR) on MBA: %d Port: %d rank group: %d +++", mbaPosition, port, group); + FAPI_INF( "+++ Read Centering (READ_CTR) on %s Port: %d rank group: %d +++", i_target.toEcmdString(), port, group); rc_num = rc_num | data_buffer_64.setBit(52); } else if ( (cur_cal_step == 5) && (cal_steps_8.isBitSet(5)) ) { - FAPI_INF( "+++ Write Centering (WRITE_CTR) on MBA: %d Port: %d rank group: %d +++", mbaPosition, port, group); + FAPI_INF( "+++ Write Centering (WRITE_CTR) on %s Port: %d rank group: %d +++", i_target.toEcmdString(), port, group); rc_num = rc_num | data_buffer_64.setBit(53); } else if ( (cur_cal_step == 6) && (cal_steps_8.isBitSet(6)) && (cal_steps_8.isBitClear(7)) ) { - FAPI_INF( "+++ Initial Course Write (COURSE_WR) on MBA: %d Port: %d rank group: %d +++", mbaPosition, port, group); + FAPI_INF( "+++ Initial Course Write (COURSE_WR) on %s Port: %d rank group: %d +++", i_target.toEcmdString(), port, group); rc_num = rc_num | data_buffer_64.setBit(54); } else if ( (cur_cal_step == 6) && (cal_steps_8.isBitClear(6)) && (cal_steps_8.isBitSet(7)) ) { - FAPI_INF( "+++ Course Read (COURSE_RD) on MBA: %d Port: %d rank group: %d +++", mbaPosition, port, group); + FAPI_INF( "+++ Course Read (COURSE_RD) on %s Port: %d rank group: %d +++", i_target.toEcmdString(), port, group); rc_num = rc_num | data_buffer_64.setBit(55); } else if ( (cur_cal_step == 6) && (cal_steps_8.isBitSet(6)) && (cal_steps_8.isBitSet(7)) ) { - FAPI_INF( "+++ Initial Course Write (COURSE_WR) and Course Read (COURSE_RD) simultaneously on MBA: %d Port: %d rank group: %d +++", mbaPosition, port, group); + FAPI_INF( "+++ Initial Course Write (COURSE_WR) and Course Read (COURSE_RD) simultaneously on %s Port: %d rank group: %d +++", i_target.toEcmdString(), port, group); rc_num = rc_num | data_buffer_64.setBit(54); rc_num = rc_num | data_buffer_64.setBit(55); } @@ -563,6 +565,7 @@ ReturnCode mss_draminit_training_cloned(Target& i_target) { dram_rtt_nom_original = 0xFF; rc = mss_rtt_nom_rtt_wr_swap(i_target, + mbaPosition, port, primary_ranks_array[group][port], group, @@ -622,7 +625,7 @@ ReturnCode mss_draminit_training_cloned(Target& i_target) if(rc) return rc; //Error handling for mss_ccs_inst built into mss_funcs //Check to see if the training completes - rc = mss_check_cal_status(i_target, port, group, cur_complete_status); + rc = mss_check_cal_status(i_target, mbaPosition, port, group, cur_complete_status); if(rc) return rc; if (cur_complete_status == MSS_INIT_CAL_STALL) @@ -631,7 +634,7 @@ ReturnCode mss_draminit_training_cloned(Target& i_target) } //Check to see if the training errored out - rc = mss_check_error_status(i_target, port, group, cur_error_status); + rc = mss_check_error_status(i_target, mbaPosition, port, group, cur_cal_step, cur_error_status); if(rc) return rc; if (cur_error_status == MSS_INIT_CAL_FAIL) @@ -643,6 +646,7 @@ ReturnCode mss_draminit_training_cloned(Target& i_target) if (cur_cal_step == 1) { rc = mss_rtt_nom_rtt_wr_swap(i_target, + mbaPosition, port, primary_ranks_array[group][port], group, @@ -668,7 +672,10 @@ ReturnCode mss_draminit_training_cloned(Target& i_target) }//end of group loop }//end of port loop + // Make sure the DQS_CLK values of each byte have matching nibble values, using the lowest + rc = mss_read_center_second_workaround(i_target); if(rc) return rc; + //rc = mss_get_bbm_regs(i_target); //if(rc) //{ @@ -695,6 +702,7 @@ ReturnCode mss_draminit_training_cloned(Target& i_target) } ReturnCode mss_check_cal_status( Target& i_target, + uint8_t i_mbaPosition, uint8_t i_port, uint8_t i_group, mss_draminit_training_result& io_status @@ -723,7 +731,7 @@ ReturnCode mss_check_cal_status( Target& i_target, while((!cal_status_buffer_64.isBitSet(cal_status_reg_offset)) && (poll_count <= 20)) { - FAPI_INF( "+++ Calibration on port: %d rank group: %d in progress. Poll count: %d +++", i_port, i_group, poll_count); + FAPI_INF( "+++ Calibration on %s port: %d rank group: %d in progress. Poll count: %d +++", i_target.toEcmdString(), i_port, i_group, poll_count); poll_count++; if(i_port == 0) @@ -741,21 +749,23 @@ ReturnCode mss_check_cal_status( Target& i_target, if(cal_status_buffer_64.isBitSet(cal_status_reg_offset)) { - FAPI_INF( "+++ Calibration on port: %d rank group: %d finished. +++", i_port, i_group); + FAPI_INF( "+++ Calibration on %s port: %d rank group: %d finished. +++", i_target.toEcmdString(), i_port, i_group); io_status = MSS_INIT_CAL_COMPLETE; } else { - FAPI_ERR( "+++ Calibration on port: %d rank group: %d has stalled! +++", i_port, i_group); + FAPI_ERR( "+++ Calibration on %s port: %d rank group: %d has stalled! +++", i_target.toEcmdString(), i_port, i_group); io_status = MSS_INIT_CAL_STALL; } return rc; } -ReturnCode mss_check_error_status( Target& i_target, +ReturnCode mss_check_error_status( Target& i_target, + uint8_t i_mbaPosition, uint8_t i_port, uint8_t i_group, + uint8_t cur_cal_step, mss_draminit_training_result& io_status ) { @@ -780,44 +790,68 @@ ReturnCode mss_check_error_status( Target& i_target, if(cal_error_buffer_64.isBitSet(48)) { - FAPI_ERR( "+++ Write leveling error occured on port: %d rank group: %d! +++", i_port, i_group); + FAPI_ERR( "+++ Write leveling error occured on %s port: %d rank group: %d! +++", i_target.toEcmdString(), i_port, i_group); } if(cal_error_buffer_64.isBitSet(50)) { - FAPI_ERR( "+++ DQS Alignment error occured on port: %d rank group: %d! +++", i_port, i_group); + FAPI_ERR( "+++ DQS Alignment error occured on %s port: %d rank group: %d! +++", i_target.toEcmdString(), i_port, i_group); } if(cal_error_buffer_64.isBitSet(51)) { - FAPI_ERR( "+++ RDCLK to SysClk alignment error occured on port: %d rank group: %d! +++", i_port, i_group); + FAPI_ERR( "+++ RDCLK to SysClk alignment error occured on %s port: %d rank group: %d! +++", i_target.toEcmdString(), i_port, i_group); } if(cal_error_buffer_64.isBitSet(52)) { - FAPI_ERR( "+++ Read centering error occured on port: %d rank group: %d! +++", i_port, i_group); + FAPI_ERR( "+++ Read centering error occured on %s port: %d rank group: %d! +++", i_target.toEcmdString(), i_port, i_group); } if(cal_error_buffer_64.isBitSet(53)) { - FAPI_ERR( "+++ Write centering error occured on port: %d rank group: %d! +++", i_port, i_group); + FAPI_ERR( "+++ Write centering error occured on %s port: %d rank group: %d! +++", i_target.toEcmdString(), i_port, i_group); } if(cal_error_buffer_64.isBitSet(55)) { - FAPI_ERR( "+++ Coarse read centering error occured on port: %d rank group: %d! +++", i_port, i_group); + FAPI_ERR( "+++ Coarse read centering error occured on %s port: %d rank group: %d! +++", i_target.toEcmdString(), i_port, i_group); } if(cal_error_buffer_64.isBitSet(56)) { - FAPI_ERR( "+++ Custom pattern read centering error occured on port: %d rank group: %d! +++", i_port, i_group); + FAPI_ERR( "+++ Custom pattern read centering error occured on %s port: %d rank group: %d! +++", i_target.toEcmdString(), i_port, i_group); } if(cal_error_buffer_64.isBitSet(57)) { - FAPI_ERR( "+++ Custom pattern write centering error occured on port: %d rank group: %d! +++", i_port, i_group); + FAPI_ERR( "+++ Custom pattern write centering error occured on %s port: %d rank group: %d! +++", i_target.toEcmdString(), i_port, i_group); } if(cal_error_buffer_64.isBitSet(58)) { - FAPI_ERR( "+++ Digital eye error occured on port: %d rank group: %d! +++", i_port, i_group); + FAPI_ERR( "+++ Digital eye error occured on %s port: %d rank group: %d! +++", i_target.toEcmdString(), i_port, i_group); } } else { - FAPI_INF( "+++ Calibration on port: %d rank group: %d was successful. +++", i_port, i_group); + if (cur_cal_step == 1) + { + FAPI_INF( "+++ Write_leveling on %s port: %d rank group: %d was successful. +++", i_target.toEcmdString(), i_port, i_group); + } + else if (cur_cal_step == 2) + { + FAPI_INF( "+++ DQS Alignment on %s port: %d rank group: %d was successful. +++", i_target.toEcmdString(), i_port, i_group); + } + else if (cur_cal_step == 3) + { + FAPI_INF( "+++ RDCLK to SysClk alignment on %s port: %d rank group: %d was successful. +++", i_target.toEcmdString(), i_port, i_group); + } + else if (cur_cal_step == 4) + { + FAPI_INF( "+++ Read Centering on %s port: %d rank group: %d was successful. +++", i_target.toEcmdString(), i_port, i_group); + } + else if (cur_cal_step == 5) + { + FAPI_INF( "+++ Write Centering on %s port: %d rank group: %d was successful. +++", i_target.toEcmdString(), i_port, i_group); + } + else if (cur_cal_step == 6) + { + FAPI_INF( "+++ Course Read and/or Course Write on %s port: %d rank group: %d was successful. +++", i_target.toEcmdString(), i_port, i_group); + } + io_status = MSS_INIT_CAL_PASS; } @@ -877,7 +911,7 @@ ReturnCode mss_read_center_workaround( uint8_t l_timing_ref_quad2 = 0; uint8_t l_timing_ref_quad3 = 0; - FAPI_INF( "+++ Read Centering Workaround on MBA: %d Port: %d rank group: %d +++", i_mbaPosition, i_port, i_rank_group); + FAPI_INF( "+++ Read Centering Workaround on %s Port: %d rank group: %d +++", i_target.toEcmdString(), i_port, i_rank_group); FAPI_INF( "+++ Choosing New RD PHASE SELECT values based on timing values. +++"); FAPI_INF( "+++ Incrementing DQS CLK PHASE SELECT regs based on timing values. +++"); @@ -1010,7 +1044,7 @@ ReturnCode mss_read_center_workaround( dqs_clk_increment_quad0 = dqs_clk_increment_wa2; read_phase_value_quad0 = read_phase_value_wa2; } - FAPI_INF( "+++ Block 0 Quad 0 using workaround %d dqs_clk_increment: %d read_phase_value: %d +++", quad0_workaround_type, dqs_clk_increment_quad0, read_phase_value_quad0); + FAPI_INF( "+++ ALL Blocks ALL Quads using workaround number %d with dqs_clk_increment: %d read_phase_value: %d +++", quad0_workaround_type, dqs_clk_increment_quad0, read_phase_value_quad0); if ( quad1_workaround_type == 0 ) { @@ -1027,7 +1061,6 @@ ReturnCode mss_read_center_workaround( dqs_clk_increment_quad1 = dqs_clk_increment_wa2; read_phase_value_quad1 = read_phase_value_wa2; } - FAPI_INF( "+++ Block 0 Quad 1 using workaround %d dqs_clk_increment: %d read_phase_value: %d +++", quad0_workaround_type, dqs_clk_increment_quad1, read_phase_value_quad1); if ( quad2_workaround_type == 0 ) { @@ -1044,7 +1077,6 @@ ReturnCode mss_read_center_workaround( dqs_clk_increment_quad2 = dqs_clk_increment_wa2; read_phase_value_quad2 = read_phase_value_wa2; } - FAPI_INF( "+++ Block 0 Quad 2 using workaround %d dqs_clk_increment: %d read_phase_value: %d +++", quad0_workaround_type, dqs_clk_increment_quad2, read_phase_value_quad2); if ( quad3_workaround_type == 0 ) { @@ -1061,7 +1093,6 @@ ReturnCode mss_read_center_workaround( dqs_clk_increment_quad3 = dqs_clk_increment_wa2; read_phase_value_quad3 = read_phase_value_wa2; } - FAPI_INF( "+++ Block 0 Quad 3 using workaround %d dqs_clk_increment: %d read_phase_value: %d +++", quad0_workaround_type, dqs_clk_increment_quad3, read_phase_value_quad3); rc = fapiGetScom(i_target, DQSCLK_RD_PHASE_ADDR_0, data_buffer_64); if (rc) return rc; @@ -1119,7 +1150,6 @@ ReturnCode mss_read_center_workaround( dqs_clk_increment_quad0 = dqs_clk_increment_wa2; read_phase_value_quad0 = read_phase_value_wa2; } - FAPI_INF( "+++ Block 1 Quad 0 using workaround %d dqs_clk_increment: %d read_phase_value: %d +++", quad0_workaround_type, dqs_clk_increment_quad0, read_phase_value_quad0); if ( quad1_workaround_type == 0 ) { @@ -1136,7 +1166,6 @@ ReturnCode mss_read_center_workaround( dqs_clk_increment_quad1 = dqs_clk_increment_wa2; read_phase_value_quad1 = read_phase_value_wa2; } - FAPI_INF( "+++ Block 1 Quad 1 using workaround %d dqs_clk_increment: %d read_phase_value: %d +++", quad0_workaround_type, dqs_clk_increment_quad1, read_phase_value_quad1); if ( quad2_workaround_type == 0 ) { @@ -1153,7 +1182,6 @@ ReturnCode mss_read_center_workaround( dqs_clk_increment_quad2 = dqs_clk_increment_wa2; read_phase_value_quad2 = read_phase_value_wa2; } - FAPI_INF( "+++ Block 1 Quad 2 using workaround %d dqs_clk_increment: %d read_phase_value: %d +++", quad0_workaround_type, dqs_clk_increment_quad2, read_phase_value_quad2); if ( quad3_workaround_type == 0 ) { @@ -1170,7 +1198,6 @@ ReturnCode mss_read_center_workaround( dqs_clk_increment_quad3 = dqs_clk_increment_wa2; read_phase_value_quad3 = read_phase_value_wa2; } - FAPI_INF( "+++ Block 1 Quad 3 using workaround %d dqs_clk_increment: %d read_phase_value: %d +++", quad0_workaround_type, dqs_clk_increment_quad3, read_phase_value_quad3); rc = fapiGetScom(i_target, DQSCLK_RD_PHASE_ADDR_1, data_buffer_64); @@ -1229,7 +1256,6 @@ ReturnCode mss_read_center_workaround( dqs_clk_increment_quad0 = dqs_clk_increment_wa2; read_phase_value_quad0 = read_phase_value_wa2; } - FAPI_INF( "+++ Block 2 Quad 0 using workaround %d dqs_clk_increment: %d read_phase_value: %d +++", quad0_workaround_type, dqs_clk_increment_quad0, read_phase_value_quad0); if ( quad1_workaround_type == 0 ) { @@ -1246,7 +1272,6 @@ ReturnCode mss_read_center_workaround( dqs_clk_increment_quad1 = dqs_clk_increment_wa2; read_phase_value_quad1 = read_phase_value_wa2; } - FAPI_INF( "+++ Block 2 Quad 1 using workaround %d dqs_clk_increment: %d read_phase_value: %d +++", quad0_workaround_type, dqs_clk_increment_quad1, read_phase_value_quad1); if ( quad2_workaround_type == 0 ) { @@ -1263,7 +1288,6 @@ ReturnCode mss_read_center_workaround( dqs_clk_increment_quad2 = dqs_clk_increment_wa2; read_phase_value_quad2 = read_phase_value_wa2; } - FAPI_INF( "+++ Block 2 Quad 2 using workaround %d dqs_clk_increment: %d read_phase_value: %d +++", quad0_workaround_type, dqs_clk_increment_quad2, read_phase_value_quad2); if ( quad3_workaround_type == 0 ) { @@ -1280,7 +1304,6 @@ ReturnCode mss_read_center_workaround( dqs_clk_increment_quad3 = dqs_clk_increment_wa2; read_phase_value_quad3 = read_phase_value_wa2; } - FAPI_INF( "+++ Block 2 Quad 3 using workaround %d dqs_clk_increment: %d read_phase_value: %d +++", quad0_workaround_type, dqs_clk_increment_quad3, read_phase_value_quad3); rc = fapiGetScom(i_target, DQSCLK_RD_PHASE_ADDR_2, data_buffer_64); @@ -1338,7 +1361,6 @@ ReturnCode mss_read_center_workaround( dqs_clk_increment_quad0 = dqs_clk_increment_wa2; read_phase_value_quad0 = read_phase_value_wa2; } - FAPI_INF( "+++ Block 3 Quad 0 using workaround %d dqs_clk_increment: %d read_phase_value: %d +++", quad0_workaround_type, dqs_clk_increment_quad0, read_phase_value_quad0); if ( quad1_workaround_type == 0 ) { @@ -1355,7 +1377,6 @@ ReturnCode mss_read_center_workaround( dqs_clk_increment_quad1 = dqs_clk_increment_wa2; read_phase_value_quad1 = read_phase_value_wa2; } - FAPI_INF( "+++ Block 3 Quad 1 using workaround %d dqs_clk_increment: %d read_phase_value: %d +++", quad0_workaround_type, dqs_clk_increment_quad1, read_phase_value_quad1); if ( quad2_workaround_type == 0 ) { @@ -1372,7 +1393,6 @@ ReturnCode mss_read_center_workaround( dqs_clk_increment_quad2 = dqs_clk_increment_wa2; read_phase_value_quad2 = read_phase_value_wa2; } - FAPI_INF( "+++ Block 3 Quad 2 using workaround %d dqs_clk_increment: %d read_phase_value: %d +++", quad0_workaround_type, dqs_clk_increment_quad2, read_phase_value_quad2); if ( quad3_workaround_type == 0 ) { @@ -1389,7 +1409,6 @@ ReturnCode mss_read_center_workaround( dqs_clk_increment_quad3 = dqs_clk_increment_wa2; read_phase_value_quad3 = read_phase_value_wa2; } - FAPI_INF( "+++ Block 3 Quad 3 using workaround %d dqs_clk_increment: %d read_phase_value: %d +++", quad0_workaround_type, dqs_clk_increment_quad3, read_phase_value_quad3); rc = fapiGetScom(i_target, DQSCLK_RD_PHASE_ADDR_3, data_buffer_64); @@ -1448,7 +1467,6 @@ ReturnCode mss_read_center_workaround( dqs_clk_increment_quad0 = dqs_clk_increment_wa2; read_phase_value_quad0 = read_phase_value_wa2; } - FAPI_INF( "+++ Block 4 Quad 0 using workaround %d dqs_clk_increment: %d read_phase_value: %d +++", quad0_workaround_type, dqs_clk_increment_quad0, read_phase_value_quad0); if ( quad1_workaround_type == 0 ) { @@ -1465,7 +1483,6 @@ ReturnCode mss_read_center_workaround( dqs_clk_increment_quad1 = dqs_clk_increment_wa2; read_phase_value_quad1 = read_phase_value_wa2; } - FAPI_INF( "+++ Block 4 Quad 1 using workaround %d dqs_clk_increment: %d read_phase_value: %d +++", quad0_workaround_type, dqs_clk_increment_quad1, read_phase_value_quad1); if ( quad2_workaround_type == 0 ) { @@ -1482,7 +1499,6 @@ ReturnCode mss_read_center_workaround( dqs_clk_increment_quad2 = dqs_clk_increment_wa2; read_phase_value_quad2 = read_phase_value_wa2; } - FAPI_INF( "+++ Block 4 Quad 2 using workaround %d dqs_clk_increment: %d read_phase_value: %d +++", quad0_workaround_type, dqs_clk_increment_quad2, read_phase_value_quad2); if ( quad3_workaround_type == 0 ) { @@ -1499,7 +1515,6 @@ ReturnCode mss_read_center_workaround( dqs_clk_increment_quad3 = dqs_clk_increment_wa2; read_phase_value_quad3 = read_phase_value_wa2; } - FAPI_INF( "+++ Block 4 Quad 3 using workaround %d dqs_clk_increment: %d read_phase_value: %d +++", quad0_workaround_type, dqs_clk_increment_quad3, read_phase_value_quad3); rc = fapiGetScom(i_target, DQSCLK_RD_PHASE_ADDR_4, data_buffer_64); @@ -1541,8 +1556,660 @@ ReturnCode mss_read_center_workaround( return rc; } +ReturnCode mss_read_center_second_workaround( + Target& i_target + ) +{ + //MBA target level + //DQS_CLK for each nibble of a byte is being adjusted to the lowest value for the given byte + //Across all byte lanes + + uint8_t primary_ranks_array[4][2]; //primary_ranks_array[group][port] + ecmdDataBufferBase data_buffer_64(64); + uint64_t DQSCLK_RD_PHASE_ADDR_0 = 0; + uint64_t DQSCLK_RD_PHASE_ADDR_1 = 0; + uint64_t DQSCLK_RD_PHASE_ADDR_2 = 0; + uint64_t DQSCLK_RD_PHASE_ADDR_3 = 0; + uint64_t DQSCLK_RD_PHASE_ADDR_4 = 0; + uint64_t GATE_DELAY_ADDR_0 = 0; + uint64_t GATE_DELAY_ADDR_1 = 0; + uint64_t GATE_DELAY_ADDR_2 = 0; + uint64_t GATE_DELAY_ADDR_3 = 0; + uint64_t GATE_DELAY_ADDR_4 = 0; + uint8_t port = 0; + uint8_t rank_group = 0; + uint8_t l_value_n0_u8 = 0; + uint8_t l_value_n1_u8 = 0; + //uint8_t l_lowest_value_u8 = 0; + ReturnCode rc; + uint32_t rc_num = 0; + + uint32_t block; + uint32_t maxblocks = 5; + uint32_t byte; + uint32_t maxbytes = 2; + uint32_t nibble; + uint32_t maxnibbles = 2; + + uint8_t l_lowest_value_u8[4][5][2][2]; // l_lowest_value_u8[group][block][byte_of_reg][nibble_of_byte] + uint8_t l_gate_delay_value_u8[4][5][2][2]; // l_lowest_value_u8[group][block][byte_of_reg][nibble_of_byte] + + + //populate primary_ranks_arrays_array + rc = FAPI_ATTR_GET(ATTR_EFF_PRIMARY_RANK_GROUP0, &i_target, primary_ranks_array[0]); + if(rc) return rc; + rc = FAPI_ATTR_GET(ATTR_EFF_PRIMARY_RANK_GROUP1, &i_target, primary_ranks_array[1]); + if(rc) return rc; + rc = FAPI_ATTR_GET(ATTR_EFF_PRIMARY_RANK_GROUP2, &i_target, primary_ranks_array[2]); + if(rc) return rc; + rc = FAPI_ATTR_GET(ATTR_EFF_PRIMARY_RANK_GROUP3, &i_target, primary_ranks_array[3]); + if(rc) return rc; + + + for(port = 0; port < MAX_PORTS; port++) + { + + + //FAPI_INF( "DQS_CLK Byte matching Workaround being applied on %s PORT: %d RP: %d", i_target.toEcmdString(), port, rank_group); + + //Gather all the byte information + for(rank_group = 0; rank_group < MAX_PRI_RANKS; rank_group++) + { + + //Initialize values + for(block = 0; block < maxblocks; block++) + { + for (byte = 0; byte < maxbytes; byte++) + { + for (nibble = 0; nibble < maxnibbles; nibble++) + { + l_lowest_value_u8[rank_group][block][byte][nibble] = 255; + l_gate_delay_value_u8[rank_group][block][byte][nibble] = 255; + } + } + } + + //Check if rank group exists + if(primary_ranks_array[rank_group][port] != 255) + { + FAPI_INF( "DQS_CLK Byte matching Workaround being applied on %s PORT: %d RP: %d", i_target.toEcmdString(), port, rank_group); + if ( port == 0 ) + { + + if ( rank_group == 0 ) + { + DQSCLK_RD_PHASE_ADDR_0 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR0_P0_0_0x800000090301143F; + DQSCLK_RD_PHASE_ADDR_1 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR0_P0_1_0x800004090301143F; + DQSCLK_RD_PHASE_ADDR_2 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR0_P0_2_0x800008090301143F; + DQSCLK_RD_PHASE_ADDR_3 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR0_P0_3_0x80000C090301143F; + DQSCLK_RD_PHASE_ADDR_4 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR0_P0_4_0x800010090301143F; + GATE_DELAY_ADDR_0 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP0_P0_0_0x800000130301143F; + GATE_DELAY_ADDR_1 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP0_P0_1_0x800004130301143F; + GATE_DELAY_ADDR_2 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP0_P0_2_0x800008130301143F; + GATE_DELAY_ADDR_3 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP0_P0_3_0x80000C130301143F; + GATE_DELAY_ADDR_4 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP0_P0_4_0x800010130301143F; + + } + else if ( rank_group == 1 ) + { + DQSCLK_RD_PHASE_ADDR_0 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR1_P0_0_0x800001090301143F; + DQSCLK_RD_PHASE_ADDR_1 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR1_P0_1_0x800005090301143F; + DQSCLK_RD_PHASE_ADDR_2 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR1_P0_2_0x800009090301143F; + DQSCLK_RD_PHASE_ADDR_3 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR1_P0_3_0x80000D090301143F; + DQSCLK_RD_PHASE_ADDR_4 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR1_P0_4_0x800011090301143F; + GATE_DELAY_ADDR_0 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP1_P0_0_0x800001130301143F; + GATE_DELAY_ADDR_1 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP1_P0_1_0x800005130301143F; + GATE_DELAY_ADDR_2 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP1_P0_2_0x800009130301143F; + GATE_DELAY_ADDR_3 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP1_P0_3_0x80000D130301143F; + GATE_DELAY_ADDR_4 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP1_P0_4_0x800011130301143F; + + } + else if ( rank_group == 2 ) + { + DQSCLK_RD_PHASE_ADDR_0 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR2_P0_0_0x800002090301143F; + DQSCLK_RD_PHASE_ADDR_1 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR2_P0_1_0x800006090301143F; + DQSCLK_RD_PHASE_ADDR_2 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR2_P0_2_0x80000A090301143F; + DQSCLK_RD_PHASE_ADDR_3 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR2_P0_3_0x80000E090301143F; + DQSCLK_RD_PHASE_ADDR_4 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR2_P0_4_0x800012090301143F; + GATE_DELAY_ADDR_0 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP2_P0_0_0x800002130301143F; + GATE_DELAY_ADDR_1 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP2_P0_1_0x800006130301143F; + GATE_DELAY_ADDR_2 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP2_P0_2_0x80000A130301143F; + GATE_DELAY_ADDR_3 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP2_P0_3_0x80000E130301143F; + GATE_DELAY_ADDR_4 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP2_P0_4_0x800012130301143F; + + } + else if ( rank_group == 3 ) + { + DQSCLK_RD_PHASE_ADDR_0 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR3_P0_0_0x800003090301143F; + DQSCLK_RD_PHASE_ADDR_1 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR3_P0_1_0x800007090301143F; + DQSCLK_RD_PHASE_ADDR_2 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR3_P0_2_0x80000B090301143F; + DQSCLK_RD_PHASE_ADDR_3 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR3_P0_3_0x80000F090301143F; + DQSCLK_RD_PHASE_ADDR_4 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR3_P0_4_0x800013090301143F; + GATE_DELAY_ADDR_0 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP3_P0_0_0x800003130301143F; + GATE_DELAY_ADDR_1 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP3_P0_1_0x800007130301143F; + GATE_DELAY_ADDR_2 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP3_P0_2_0x80000B130301143F; + GATE_DELAY_ADDR_3 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP3_P0_3_0x80000F130301143F; + GATE_DELAY_ADDR_4 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP3_P0_4_0x800013130301143F; + + } + } + else if (port == 1 ) + { + + if ( rank_group == 0 ) + { + DQSCLK_RD_PHASE_ADDR_0 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR0_P1_0_0x800100090301143F; + DQSCLK_RD_PHASE_ADDR_1 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR0_P1_1_0x800104090301143F; + DQSCLK_RD_PHASE_ADDR_2 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR0_P1_2_0x800108090301143F; + DQSCLK_RD_PHASE_ADDR_3 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR0_P1_3_0x80010C090301143F; + DQSCLK_RD_PHASE_ADDR_4 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR0_P1_4_0x800110090301143F; + GATE_DELAY_ADDR_0 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP0_P1_0_0x800100130301143F; + GATE_DELAY_ADDR_1 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP0_P1_1_0x800104130301143F; + GATE_DELAY_ADDR_2 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP0_P1_2_0x800108130301143F; + GATE_DELAY_ADDR_3 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP0_P1_3_0x80010C130301143F; + GATE_DELAY_ADDR_4 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP0_P1_4_0x800110130301143F; + + } + else if ( rank_group == 1 ) + { + DQSCLK_RD_PHASE_ADDR_0 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR1_P1_0_0x800101090301143F; + DQSCLK_RD_PHASE_ADDR_1 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR1_P1_1_0x800105090301143F; + DQSCLK_RD_PHASE_ADDR_2 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR1_P1_2_0x800109090301143F; + DQSCLK_RD_PHASE_ADDR_3 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR1_P1_3_0x80010D090301143F; + DQSCLK_RD_PHASE_ADDR_4 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR1_P1_4_0x800111090301143F; + GATE_DELAY_ADDR_0 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP1_P1_0_0x800101130301143F; + GATE_DELAY_ADDR_1 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP1_P1_1_0x800105130301143F; + GATE_DELAY_ADDR_2 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP1_P1_2_0x800109130301143F; + GATE_DELAY_ADDR_3 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP1_P1_3_0x80010D130301143F; + GATE_DELAY_ADDR_4 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP1_P1_4_0x800111130301143F; + + } + else if ( rank_group == 2 ) + { + DQSCLK_RD_PHASE_ADDR_0 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR2_P1_0_0x800102090301143F; + DQSCLK_RD_PHASE_ADDR_1 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR2_P1_1_0x800106090301143F; + DQSCLK_RD_PHASE_ADDR_2 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR2_P1_2_0x80010A090301143F; + DQSCLK_RD_PHASE_ADDR_3 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR2_P1_3_0x80010E090301143F; + DQSCLK_RD_PHASE_ADDR_4 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR2_P1_4_0x800112090301143F; + GATE_DELAY_ADDR_0 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP2_P1_0_0x800102130301143F; + GATE_DELAY_ADDR_1 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP2_P1_1_0x800106130301143F; + GATE_DELAY_ADDR_2 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP2_P1_2_0x80010A130301143F; + GATE_DELAY_ADDR_3 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP2_P1_3_0x80010E130301143F; + GATE_DELAY_ADDR_4 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP2_P1_4_0x800112130301143F; + + } + else if ( rank_group == 3 ) + { + DQSCLK_RD_PHASE_ADDR_0 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR3_P1_0_0x800103090301143F; + DQSCLK_RD_PHASE_ADDR_1 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR3_P1_1_0x800107090301143F; + DQSCLK_RD_PHASE_ADDR_2 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR3_P1_2_0x80010B090301143F; + DQSCLK_RD_PHASE_ADDR_3 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR3_P1_3_0x80010F090301143F; + DQSCLK_RD_PHASE_ADDR_4 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR3_P1_4_0x800113090301143F; + GATE_DELAY_ADDR_0 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP3_P1_0_0x800103130301143F; + GATE_DELAY_ADDR_1 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP3_P1_1_0x800107130301143F; + GATE_DELAY_ADDR_2 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP3_P1_2_0x80010B130301143F; + GATE_DELAY_ADDR_3 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP3_P1_3_0x80010F130301143F; + GATE_DELAY_ADDR_4 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP3_P1_4_0x800113130301143F; + + } + } + + + // PHY BLOCK 0 + rc = fapiGetScom(i_target, DQSCLK_RD_PHASE_ADDR_0, data_buffer_64); + if (rc) return rc; + // Grabbing 2 nibbles of the same byte and making them equal to the same lowest value + rc_num = rc_num | data_buffer_64.extractToRight(&l_value_n0_u8, 48, 2); + rc_num = rc_num | data_buffer_64.extractToRight(&l_value_n1_u8, 52, 2); + l_lowest_value_u8[rank_group][0][0][0] = l_value_n0_u8; + l_lowest_value_u8[rank_group][0][0][1] = l_value_n1_u8; + rc_num = rc_num | data_buffer_64.extractToRight(&l_value_n0_u8, 56, 2); + rc_num = rc_num | data_buffer_64.extractToRight(&l_value_n1_u8, 60, 2); + l_lowest_value_u8[rank_group][0][1][0] = l_value_n0_u8; + l_lowest_value_u8[rank_group][0][1][1] = l_value_n1_u8; + + rc = fapiGetScom(i_target, GATE_DELAY_ADDR_0, data_buffer_64); + if (rc) return rc; + // Grabbing 2 nibbles of the same byte and making them equal the same lowest value + rc_num = rc_num | data_buffer_64.extractToRight(&l_value_n0_u8, 49, 3); + rc_num = rc_num | data_buffer_64.extractToRight(&l_value_n1_u8, 53, 3); + l_gate_delay_value_u8[rank_group][0][0][0] = l_value_n0_u8; + l_gate_delay_value_u8[rank_group][0][0][1] = l_value_n1_u8; + rc_num = rc_num | data_buffer_64.extractToRight(&l_value_n0_u8, 57, 3); + rc_num = rc_num | data_buffer_64.extractToRight(&l_value_n1_u8, 61, 3); + l_gate_delay_value_u8[rank_group][0][1][0] = l_value_n0_u8; + l_gate_delay_value_u8[rank_group][0][1][1] = l_value_n1_u8; + + // PHY BLOCK 1 + rc = fapiGetScom(i_target, DQSCLK_RD_PHASE_ADDR_1, data_buffer_64); + if (rc) return rc; + // Grabbing 2 nibbles of the same byte and making them equal to the same lowest value + rc_num = rc_num | data_buffer_64.extractToRight(&l_value_n0_u8, 48, 2); + rc_num = rc_num | data_buffer_64.extractToRight(&l_value_n1_u8, 52, 2); + l_lowest_value_u8[rank_group][1][0][0] = l_value_n0_u8; + l_lowest_value_u8[rank_group][1][0][1] = l_value_n1_u8; + rc_num = rc_num | data_buffer_64.extractToRight(&l_value_n0_u8, 56, 2); + rc_num = rc_num | data_buffer_64.extractToRight(&l_value_n1_u8, 60, 2); + l_lowest_value_u8[rank_group][1][1][0] = l_value_n0_u8; + l_lowest_value_u8[rank_group][1][1][1] = l_value_n1_u8; + + rc = fapiGetScom(i_target, GATE_DELAY_ADDR_1, data_buffer_64); + if (rc) return rc; + // Grabbing 2 nibbles of the same byte and making them equal the same lowest value + rc_num = rc_num | data_buffer_64.extractToRight(&l_value_n0_u8, 49, 3); + rc_num = rc_num | data_buffer_64.extractToRight(&l_value_n1_u8, 53, 3); + l_gate_delay_value_u8[rank_group][1][0][0] = l_value_n0_u8; + l_gate_delay_value_u8[rank_group][1][0][1] = l_value_n1_u8; + rc_num = rc_num | data_buffer_64.extractToRight(&l_value_n0_u8, 57, 3); + rc_num = rc_num | data_buffer_64.extractToRight(&l_value_n1_u8, 61, 3); + l_gate_delay_value_u8[rank_group][1][1][0] = l_value_n0_u8; + l_gate_delay_value_u8[rank_group][1][1][1] = l_value_n1_u8; + + // PHY BLOCK 2 + rc = fapiGetScom(i_target, DQSCLK_RD_PHASE_ADDR_2, data_buffer_64); + if (rc) return rc; + // Grabbing 2 nibbles of the same byte and making them equal to the same lowest value + rc_num = rc_num | data_buffer_64.extractToRight(&l_value_n0_u8, 48, 2); + rc_num = rc_num | data_buffer_64.extractToRight(&l_value_n1_u8, 52, 2); + l_lowest_value_u8[rank_group][2][0][0] = l_value_n0_u8; + l_lowest_value_u8[rank_group][2][0][1] = l_value_n1_u8; + rc_num = rc_num | data_buffer_64.extractToRight(&l_value_n0_u8, 56, 2); + rc_num = rc_num | data_buffer_64.extractToRight(&l_value_n1_u8, 60, 2); + l_lowest_value_u8[rank_group][2][1][0] = l_value_n0_u8; + l_lowest_value_u8[rank_group][2][1][1] = l_value_n1_u8; + + rc = fapiGetScom(i_target, GATE_DELAY_ADDR_2, data_buffer_64); + if (rc) return rc; + // Grabbing 2 nibbles of the same byte and making them equal the same lowest value + rc_num = rc_num | data_buffer_64.extractToRight(&l_value_n0_u8, 49, 3); + rc_num = rc_num | data_buffer_64.extractToRight(&l_value_n1_u8, 53, 3); + l_gate_delay_value_u8[rank_group][2][0][0] = l_value_n0_u8; + l_gate_delay_value_u8[rank_group][2][0][1] = l_value_n1_u8; + rc_num = rc_num | data_buffer_64.extractToRight(&l_value_n0_u8, 57, 3); + rc_num = rc_num | data_buffer_64.extractToRight(&l_value_n1_u8, 61, 3); + l_gate_delay_value_u8[rank_group][2][1][0] = l_value_n0_u8; + l_gate_delay_value_u8[rank_group][2][1][1] = l_value_n1_u8; + + // PHY BLOCK 3 + rc = fapiGetScom(i_target, DQSCLK_RD_PHASE_ADDR_3, data_buffer_64); + if (rc) return rc; + // Grabbing 2 nibbles of the same byte and making them equal to the same lowest value + rc_num = rc_num | data_buffer_64.extractToRight(&l_value_n0_u8, 48, 2); + rc_num = rc_num | data_buffer_64.extractToRight(&l_value_n1_u8, 52, 2); + l_lowest_value_u8[rank_group][3][0][0] = l_value_n0_u8; + l_lowest_value_u8[rank_group][3][0][1] = l_value_n1_u8; + rc_num = rc_num | data_buffer_64.extractToRight(&l_value_n0_u8, 56, 2); + rc_num = rc_num | data_buffer_64.extractToRight(&l_value_n1_u8, 60, 2); + l_lowest_value_u8[rank_group][3][1][0] = l_value_n0_u8; + l_lowest_value_u8[rank_group][3][1][1] = l_value_n1_u8; + + rc = fapiGetScom(i_target, GATE_DELAY_ADDR_3, data_buffer_64); + if (rc) return rc; + // Grabbing 2 nibbles of the same byte and making them equal the same lowest value + rc_num = rc_num | data_buffer_64.extractToRight(&l_value_n0_u8, 49, 3); + rc_num = rc_num | data_buffer_64.extractToRight(&l_value_n1_u8, 53, 3); + l_gate_delay_value_u8[rank_group][3][0][0] = l_value_n0_u8; + l_gate_delay_value_u8[rank_group][3][0][1] = l_value_n1_u8; + rc_num = rc_num | data_buffer_64.extractToRight(&l_value_n0_u8, 57, 3); + rc_num = rc_num | data_buffer_64.extractToRight(&l_value_n1_u8, 61, 3); + l_gate_delay_value_u8[rank_group][3][1][0] = l_value_n0_u8; + l_gate_delay_value_u8[rank_group][3][1][1] = l_value_n1_u8; + + // PHY BLOCK 4 + rc = fapiGetScom(i_target, DQSCLK_RD_PHASE_ADDR_4, data_buffer_64); + if (rc) return rc; + // Grabbing 2 nibbles of the same byte and making them equal to the same lowest value + rc_num = rc_num | data_buffer_64.extractToRight(&l_value_n0_u8, 48, 2); + rc_num = rc_num | data_buffer_64.extractToRight(&l_value_n1_u8, 52, 2); + l_lowest_value_u8[rank_group][4][0][0] = l_value_n0_u8; + l_lowest_value_u8[rank_group][4][0][1] = l_value_n1_u8; + rc_num = rc_num | data_buffer_64.extractToRight(&l_value_n0_u8, 56, 2); + rc_num = rc_num | data_buffer_64.extractToRight(&l_value_n1_u8, 60, 2); + l_lowest_value_u8[rank_group][4][1][0] = l_value_n0_u8; + l_lowest_value_u8[rank_group][4][1][1] = l_value_n1_u8; + + rc = fapiGetScom(i_target, GATE_DELAY_ADDR_4, data_buffer_64); + if (rc) return rc; + // Grabbing 2 nibbles of the same byte and making them equal the same lowest value + rc_num = rc_num | data_buffer_64.extractToRight(&l_value_n0_u8, 49, 3); + rc_num = rc_num | data_buffer_64.extractToRight(&l_value_n1_u8, 53, 3); + l_gate_delay_value_u8[rank_group][4][0][0] = l_value_n0_u8; + l_gate_delay_value_u8[rank_group][4][0][1] = l_value_n1_u8; + rc_num = rc_num | data_buffer_64.extractToRight(&l_value_n0_u8, 57, 3); + rc_num = rc_num | data_buffer_64.extractToRight(&l_value_n1_u8, 61, 3); + l_gate_delay_value_u8[rank_group][4][1][0] = l_value_n0_u8; + l_gate_delay_value_u8[rank_group][4][1][1] = l_value_n1_u8; + + } + } + + //Finding the lowest Value + for(block = 0; block < maxblocks; block++) + { + for (byte = 0; byte < maxbytes; byte++) + { + + for (nibble = 0; nibble < maxnibbles; nibble++) + { + + if ( (l_lowest_value_u8[0][block][byte][nibble] == 0) || + (l_lowest_value_u8[1][block][byte][nibble] == 0) || + (l_lowest_value_u8[2][block][byte][nibble] == 0) || + (l_lowest_value_u8[3][block][byte][nibble] == 0) ) + { + if ( (l_lowest_value_u8[0][block][byte][nibble] == 3) || + (l_lowest_value_u8[1][block][byte][nibble] == 3) || + (l_lowest_value_u8[2][block][byte][nibble] == 3) || + (l_lowest_value_u8[3][block][byte][nibble] == 3) ) + { + + //In this case alone we make all gate values equal the gate of the lowest DQSCLK + if (l_lowest_value_u8[0][block][byte][nibble] == 3) + { + l_gate_delay_value_u8[1][block][byte][nibble] = l_gate_delay_value_u8[0][block][byte][nibble]; + l_gate_delay_value_u8[2][block][byte][nibble] = l_gate_delay_value_u8[0][block][byte][nibble]; + l_gate_delay_value_u8[3][block][byte][nibble] = l_gate_delay_value_u8[0][block][byte][nibble]; + } + else if (l_lowest_value_u8[1][block][byte][nibble] == 3) + { + l_gate_delay_value_u8[0][block][byte][nibble] = l_gate_delay_value_u8[1][block][byte][nibble]; + l_gate_delay_value_u8[2][block][byte][nibble] = l_gate_delay_value_u8[1][block][byte][nibble]; + l_gate_delay_value_u8[3][block][byte][nibble] = l_gate_delay_value_u8[1][block][byte][nibble]; + } + else if (l_lowest_value_u8[2][block][byte][nibble] == 3) + { + l_gate_delay_value_u8[0][block][byte][nibble] = l_gate_delay_value_u8[2][block][byte][nibble]; + l_gate_delay_value_u8[1][block][byte][nibble] = l_gate_delay_value_u8[2][block][byte][nibble]; + l_gate_delay_value_u8[3][block][byte][nibble] = l_gate_delay_value_u8[2][block][byte][nibble]; + } + else if (l_lowest_value_u8[3][block][byte][nibble] == 3) + { + l_gate_delay_value_u8[0][block][byte][nibble] = l_gate_delay_value_u8[3][block][byte][nibble]; + l_gate_delay_value_u8[1][block][byte][nibble] = l_gate_delay_value_u8[3][block][byte][nibble]; + l_gate_delay_value_u8[2][block][byte][nibble] = l_gate_delay_value_u8[3][block][byte][nibble]; + } + + l_lowest_value_u8[0][block][byte][nibble] = 3; + l_lowest_value_u8[1][block][byte][nibble] = 3; + l_lowest_value_u8[2][block][byte][nibble] = 3; + l_lowest_value_u8[3][block][byte][nibble] = 3; + } + else + { + l_lowest_value_u8[0][block][byte][nibble] = 0; + l_lowest_value_u8[1][block][byte][nibble] = 0; + l_lowest_value_u8[2][block][byte][nibble] = 0; + l_lowest_value_u8[3][block][byte][nibble] = 0; + + } + } + else if ( (l_lowest_value_u8[0][block][byte][nibble] == 2) || + (l_lowest_value_u8[1][block][byte][nibble] == 2) || + (l_lowest_value_u8[2][block][byte][nibble] == 2) || + (l_lowest_value_u8[3][block][byte][nibble] == 2) ) + { + if ( (l_lowest_value_u8[0][block][byte][nibble] == 1) || + (l_lowest_value_u8[1][block][byte][nibble] == 1) || + (l_lowest_value_u8[2][block][byte][nibble] == 1) || + (l_lowest_value_u8[3][block][byte][nibble] == 1) ) + { + l_lowest_value_u8[0][block][byte][nibble] = 1; + l_lowest_value_u8[1][block][byte][nibble] = 1; + l_lowest_value_u8[2][block][byte][nibble] = 1; + l_lowest_value_u8[3][block][byte][nibble] = 1; + + } + else + { + l_lowest_value_u8[0][block][byte][nibble] = 2; + l_lowest_value_u8[1][block][byte][nibble] = 2; + l_lowest_value_u8[2][block][byte][nibble] = 2; + l_lowest_value_u8[3][block][byte][nibble] = 2; + + } + } + + } + } + + } + + + //Scoming in the New Values + for(rank_group = 0; rank_group < MAX_PRI_RANKS; rank_group++) + { + + //Check if rank group exists + if(primary_ranks_array[rank_group][port] != 255) + { + + if ( port == 0 ) + { + + if ( rank_group == 0 ) + { + DQSCLK_RD_PHASE_ADDR_0 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR0_P0_0_0x800000090301143F; + DQSCLK_RD_PHASE_ADDR_1 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR0_P0_1_0x800004090301143F; + DQSCLK_RD_PHASE_ADDR_2 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR0_P0_2_0x800008090301143F; + DQSCLK_RD_PHASE_ADDR_3 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR0_P0_3_0x80000C090301143F; + DQSCLK_RD_PHASE_ADDR_4 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR0_P0_4_0x800010090301143F; + GATE_DELAY_ADDR_0 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP0_P0_0_0x800000130301143F; + GATE_DELAY_ADDR_1 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP0_P0_1_0x800004130301143F; + GATE_DELAY_ADDR_2 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP0_P0_2_0x800008130301143F; + GATE_DELAY_ADDR_3 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP0_P0_3_0x80000C130301143F; + GATE_DELAY_ADDR_4 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP0_P0_4_0x800010130301143F; + + } + else if ( rank_group == 1 ) + { + DQSCLK_RD_PHASE_ADDR_0 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR1_P0_0_0x800001090301143F; + DQSCLK_RD_PHASE_ADDR_1 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR1_P0_1_0x800005090301143F; + DQSCLK_RD_PHASE_ADDR_2 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR1_P0_2_0x800009090301143F; + DQSCLK_RD_PHASE_ADDR_3 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR1_P0_3_0x80000D090301143F; + DQSCLK_RD_PHASE_ADDR_4 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR1_P0_4_0x800011090301143F; + GATE_DELAY_ADDR_0 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP1_P0_0_0x800001130301143F; + GATE_DELAY_ADDR_1 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP1_P0_1_0x800005130301143F; + GATE_DELAY_ADDR_2 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP1_P0_2_0x800009130301143F; + GATE_DELAY_ADDR_3 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP1_P0_3_0x80000D130301143F; + GATE_DELAY_ADDR_4 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP1_P0_4_0x800011130301143F; + + } + else if ( rank_group == 2 ) + { + DQSCLK_RD_PHASE_ADDR_0 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR2_P0_0_0x800002090301143F; + DQSCLK_RD_PHASE_ADDR_1 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR2_P0_1_0x800006090301143F; + DQSCLK_RD_PHASE_ADDR_2 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR2_P0_2_0x80000A090301143F; + DQSCLK_RD_PHASE_ADDR_3 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR2_P0_3_0x80000E090301143F; + DQSCLK_RD_PHASE_ADDR_4 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR2_P0_4_0x800012090301143F; + GATE_DELAY_ADDR_0 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP2_P0_0_0x800002130301143F; + GATE_DELAY_ADDR_1 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP2_P0_1_0x800006130301143F; + GATE_DELAY_ADDR_2 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP2_P0_2_0x80000A130301143F; + GATE_DELAY_ADDR_3 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP2_P0_3_0x80000E130301143F; + GATE_DELAY_ADDR_4 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP2_P0_4_0x800012130301143F; + + } + else if ( rank_group == 3 ) + { + DQSCLK_RD_PHASE_ADDR_0 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR3_P0_0_0x800003090301143F; + DQSCLK_RD_PHASE_ADDR_1 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR3_P0_1_0x800007090301143F; + DQSCLK_RD_PHASE_ADDR_2 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR3_P0_2_0x80000B090301143F; + DQSCLK_RD_PHASE_ADDR_3 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR3_P0_3_0x80000F090301143F; + DQSCLK_RD_PHASE_ADDR_4 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR3_P0_4_0x800013090301143F; + GATE_DELAY_ADDR_0 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP3_P0_0_0x800003130301143F; + GATE_DELAY_ADDR_1 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP3_P0_1_0x800007130301143F; + GATE_DELAY_ADDR_2 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP3_P0_2_0x80000B130301143F; + GATE_DELAY_ADDR_3 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP3_P0_3_0x80000F130301143F; + GATE_DELAY_ADDR_4 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP3_P0_4_0x800013130301143F; + + } + } + else if (port == 1 ) + { + + if ( rank_group == 0 ) + { + DQSCLK_RD_PHASE_ADDR_0 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR0_P1_0_0x800100090301143F; + DQSCLK_RD_PHASE_ADDR_1 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR0_P1_1_0x800104090301143F; + DQSCLK_RD_PHASE_ADDR_2 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR0_P1_2_0x800108090301143F; + DQSCLK_RD_PHASE_ADDR_3 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR0_P1_3_0x80010C090301143F; + DQSCLK_RD_PHASE_ADDR_4 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR0_P1_4_0x800110090301143F; + GATE_DELAY_ADDR_0 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP0_P1_0_0x800100130301143F; + GATE_DELAY_ADDR_1 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP0_P1_1_0x800104130301143F; + GATE_DELAY_ADDR_2 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP0_P1_2_0x800108130301143F; + GATE_DELAY_ADDR_3 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP0_P1_3_0x80010C130301143F; + GATE_DELAY_ADDR_4 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP0_P1_4_0x800110130301143F; + + } + else if ( rank_group == 1 ) + { + DQSCLK_RD_PHASE_ADDR_0 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR1_P1_0_0x800101090301143F; + DQSCLK_RD_PHASE_ADDR_1 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR1_P1_1_0x800105090301143F; + DQSCLK_RD_PHASE_ADDR_2 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR1_P1_2_0x800109090301143F; + DQSCLK_RD_PHASE_ADDR_3 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR1_P1_3_0x80010D090301143F; + DQSCLK_RD_PHASE_ADDR_4 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR1_P1_4_0x800111090301143F; + GATE_DELAY_ADDR_0 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP1_P1_0_0x800101130301143F; + GATE_DELAY_ADDR_1 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP1_P1_1_0x800105130301143F; + GATE_DELAY_ADDR_2 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP1_P1_2_0x800109130301143F; + GATE_DELAY_ADDR_3 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP1_P1_3_0x80010D130301143F; + GATE_DELAY_ADDR_4 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP1_P1_4_0x800111130301143F; + + } + else if ( rank_group == 2 ) + { + DQSCLK_RD_PHASE_ADDR_0 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR2_P1_0_0x800102090301143F; + DQSCLK_RD_PHASE_ADDR_1 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR2_P1_1_0x800106090301143F; + DQSCLK_RD_PHASE_ADDR_2 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR2_P1_2_0x80010A090301143F; + DQSCLK_RD_PHASE_ADDR_3 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR2_P1_3_0x80010E090301143F; + DQSCLK_RD_PHASE_ADDR_4 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR2_P1_4_0x800112090301143F; + GATE_DELAY_ADDR_0 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP2_P1_0_0x800102130301143F; + GATE_DELAY_ADDR_1 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP2_P1_1_0x800106130301143F; + GATE_DELAY_ADDR_2 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP2_P1_2_0x80010A130301143F; + GATE_DELAY_ADDR_3 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP2_P1_3_0x80010E130301143F; + GATE_DELAY_ADDR_4 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP2_P1_4_0x800112130301143F; + + } + else if ( rank_group == 3 ) + { + DQSCLK_RD_PHASE_ADDR_0 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR3_P1_0_0x800103090301143F; + DQSCLK_RD_PHASE_ADDR_1 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR3_P1_1_0x800107090301143F; + DQSCLK_RD_PHASE_ADDR_2 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR3_P1_2_0x80010B090301143F; + DQSCLK_RD_PHASE_ADDR_3 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR3_P1_3_0x80010F090301143F; + DQSCLK_RD_PHASE_ADDR_4 = DPHY01_DDRPHY_DP18_DQS_RD_PHASE_SELECT_RANK_PAIR3_P1_4_0x800113090301143F; + GATE_DELAY_ADDR_0 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP3_P1_0_0x800103130301143F; + GATE_DELAY_ADDR_1 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP3_P1_1_0x800107130301143F; + GATE_DELAY_ADDR_2 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP3_P1_2_0x80010B130301143F; + GATE_DELAY_ADDR_3 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP3_P1_3_0x80010F130301143F; + GATE_DELAY_ADDR_4 = DPHY01_DDRPHY_DP18_GATE_DELAY_RP3_P1_4_0x800113130301143F; + + } + } + + //BLOCK 0 + rc = fapiGetScom(i_target, DQSCLK_RD_PHASE_ADDR_0, data_buffer_64); + if (rc) return rc; + rc_num = rc_num | data_buffer_64.insertFromRight(&l_lowest_value_u8[rank_group][0][0][0], 48, 2); + rc_num = rc_num | data_buffer_64.insertFromRight(&l_lowest_value_u8[rank_group][0][0][1], 52, 2); + rc_num = rc_num | data_buffer_64.insertFromRight(&l_lowest_value_u8[rank_group][0][1][0], 56, 2); + rc_num = rc_num | data_buffer_64.insertFromRight(&l_lowest_value_u8[rank_group][0][1][1], 60, 2); + rc = fapiPutScom(i_target, DQSCLK_RD_PHASE_ADDR_0, data_buffer_64); + if (rc) return rc; + + rc = fapiGetScom(i_target, GATE_DELAY_ADDR_0, data_buffer_64); + if (rc) return rc; + rc_num = rc_num | data_buffer_64.insertFromRight(&l_gate_delay_value_u8[rank_group][0][0][0], 49, 3); + rc_num = rc_num | data_buffer_64.insertFromRight(&l_gate_delay_value_u8[rank_group][0][0][1], 53, 3); + rc_num = rc_num | data_buffer_64.insertFromRight(&l_gate_delay_value_u8[rank_group][0][1][0], 57, 3); + rc_num = rc_num | data_buffer_64.insertFromRight(&l_gate_delay_value_u8[rank_group][0][1][1], 61, 3); + rc = fapiPutScom(i_target, GATE_DELAY_ADDR_0, data_buffer_64); + if (rc) return rc; + + //BLOCK 1 + rc = fapiGetScom(i_target, DQSCLK_RD_PHASE_ADDR_1, data_buffer_64); + if (rc) return rc; + rc_num = rc_num | data_buffer_64.insertFromRight(&l_lowest_value_u8[rank_group][1][0][0], 48, 2); + rc_num = rc_num | data_buffer_64.insertFromRight(&l_lowest_value_u8[rank_group][1][0][1], 52, 2); + rc_num = rc_num | data_buffer_64.insertFromRight(&l_lowest_value_u8[rank_group][1][1][0], 56, 2); + rc_num = rc_num | data_buffer_64.insertFromRight(&l_lowest_value_u8[rank_group][1][1][1], 60, 2); + rc = fapiPutScom(i_target, DQSCLK_RD_PHASE_ADDR_1, data_buffer_64); + if (rc) return rc; + + rc = fapiGetScom(i_target, GATE_DELAY_ADDR_1, data_buffer_64); + if (rc) return rc; + rc_num = rc_num | data_buffer_64.insertFromRight(&l_gate_delay_value_u8[rank_group][1][0][0], 49, 3); + rc_num = rc_num | data_buffer_64.insertFromRight(&l_gate_delay_value_u8[rank_group][1][0][1], 53, 3); + rc_num = rc_num | data_buffer_64.insertFromRight(&l_gate_delay_value_u8[rank_group][1][1][0], 57, 3); + rc_num = rc_num | data_buffer_64.insertFromRight(&l_gate_delay_value_u8[rank_group][1][1][1], 61, 3); + rc = fapiPutScom(i_target, GATE_DELAY_ADDR_1, data_buffer_64); + if (rc) return rc; + + //BLOCK 2 + rc = fapiGetScom(i_target, DQSCLK_RD_PHASE_ADDR_2, data_buffer_64); + if (rc) return rc; + rc_num = rc_num | data_buffer_64.insertFromRight(&l_lowest_value_u8[rank_group][2][0][0], 48, 2); + rc_num = rc_num | data_buffer_64.insertFromRight(&l_lowest_value_u8[rank_group][2][0][1], 52, 2); + rc_num = rc_num | data_buffer_64.insertFromRight(&l_lowest_value_u8[rank_group][2][1][0], 56, 2); + rc_num = rc_num | data_buffer_64.insertFromRight(&l_lowest_value_u8[rank_group][2][1][1], 60, 2); + rc = fapiPutScom(i_target, DQSCLK_RD_PHASE_ADDR_2, data_buffer_64); + if (rc) return rc; + + rc = fapiGetScom(i_target, GATE_DELAY_ADDR_2, data_buffer_64); + if (rc) return rc; + rc_num = rc_num | data_buffer_64.insertFromRight(&l_gate_delay_value_u8[rank_group][2][0][0], 49, 3); + rc_num = rc_num | data_buffer_64.insertFromRight(&l_gate_delay_value_u8[rank_group][2][0][1], 53, 3); + rc_num = rc_num | data_buffer_64.insertFromRight(&l_gate_delay_value_u8[rank_group][2][1][0], 57, 3); + rc_num = rc_num | data_buffer_64.insertFromRight(&l_gate_delay_value_u8[rank_group][2][1][1], 61, 3); + rc = fapiPutScom(i_target, GATE_DELAY_ADDR_2, data_buffer_64); + if (rc) return rc; + + //BLOCK 3 + rc = fapiGetScom(i_target, DQSCLK_RD_PHASE_ADDR_3, data_buffer_64); + if (rc) return rc; + rc_num = rc_num | data_buffer_64.insertFromRight(&l_lowest_value_u8[rank_group][3][0][0], 48, 2); + rc_num = rc_num | data_buffer_64.insertFromRight(&l_lowest_value_u8[rank_group][3][0][1], 52, 2); + rc_num = rc_num | data_buffer_64.insertFromRight(&l_lowest_value_u8[rank_group][3][1][0], 56, 2); + rc_num = rc_num | data_buffer_64.insertFromRight(&l_lowest_value_u8[rank_group][3][1][1], 60, 2); + rc = fapiPutScom(i_target, DQSCLK_RD_PHASE_ADDR_3, data_buffer_64); + if (rc) return rc; + + rc = fapiGetScom(i_target, GATE_DELAY_ADDR_3, data_buffer_64); + if (rc) return rc; + rc_num = rc_num | data_buffer_64.insertFromRight(&l_gate_delay_value_u8[rank_group][3][0][0], 49, 3); + rc_num = rc_num | data_buffer_64.insertFromRight(&l_gate_delay_value_u8[rank_group][3][0][1], 53, 3); + rc_num = rc_num | data_buffer_64.insertFromRight(&l_gate_delay_value_u8[rank_group][3][1][0], 57, 3); + rc_num = rc_num | data_buffer_64.insertFromRight(&l_gate_delay_value_u8[rank_group][3][1][1], 61, 3); + rc = fapiPutScom(i_target, GATE_DELAY_ADDR_3, data_buffer_64); + if (rc) return rc; + + //Block 4 + rc = fapiGetScom(i_target, DQSCLK_RD_PHASE_ADDR_4, data_buffer_64); + if (rc) return rc; + rc_num = rc_num | data_buffer_64.insertFromRight(&l_lowest_value_u8[rank_group][4][0][0], 48, 2); + rc_num = rc_num | data_buffer_64.insertFromRight(&l_lowest_value_u8[rank_group][4][0][1], 52, 2); + rc_num = rc_num | data_buffer_64.insertFromRight(&l_lowest_value_u8[rank_group][4][1][0], 56, 2); + rc_num = rc_num | data_buffer_64.insertFromRight(&l_lowest_value_u8[rank_group][4][1][1], 60, 2); + rc = fapiPutScom(i_target, DQSCLK_RD_PHASE_ADDR_4, data_buffer_64); + if (rc) return rc; + + rc = fapiGetScom(i_target, GATE_DELAY_ADDR_4, data_buffer_64); + if (rc) return rc; + rc_num = rc_num | data_buffer_64.insertFromRight(&l_gate_delay_value_u8[rank_group][4][0][0], 49, 3); + rc_num = rc_num | data_buffer_64.insertFromRight(&l_gate_delay_value_u8[rank_group][4][0][1], 53, 3); + rc_num = rc_num | data_buffer_64.insertFromRight(&l_gate_delay_value_u8[rank_group][4][1][0], 57, 3); + rc_num = rc_num | data_buffer_64.insertFromRight(&l_gate_delay_value_u8[rank_group][4][1][1], 61, 3); + rc = fapiPutScom(i_target, GATE_DELAY_ADDR_4, data_buffer_64); + if (rc) return rc; + + } + } + } + + return rc; +} + + ReturnCode mss_rtt_nom_rtt_wr_swap( Target& i_target, + uint8_t i_mbaPosition, uint32_t i_port_number, uint8_t i_rank, uint32_t i_rank_pair_group, @@ -1675,7 +2342,7 @@ ReturnCode mss_rtt_nom_rtt_wr_swap( // MRS CMD to CMD spacing = 12 cycles rc_num = rc_num | num_idles_16.insertFromRight((uint32_t) 12, 0, 16); - FAPI_INF( "Editing RTT_NOM during wr_lvl for PORT%d RP%d", i_port_number, i_rank_pair_group); + FAPI_INF( "Editing RTT_NOM during wr_lvl for %s PORT: %d RP: %d", i_target.toEcmdString(), i_port_number, i_rank_pair_group); //MRS1 // Get contents of MRS 1 Shadow Reg diff --git a/src/usr/hwpf/hwp/include/cen_scom_addresses.H b/src/usr/hwpf/hwp/include/cen_scom_addresses.H index 3865eeb7c..a06f96e50 100755 --- a/src/usr/hwpf/hwp/include/cen_scom_addresses.H +++ b/src/usr/hwpf/hwp/include/cen_scom_addresses.H @@ -20,7 +20,7 @@ /* Origin: 30 */ /* */ /* IBM_PROLOG_END_TAG */ -// $Id: cen_scom_addresses.H,v 1.56 2013/04/04 20:32:53 jdsloat Exp $ +// $Id: cen_scom_addresses.H,v 1.57 2013/04/11 23:41:36 jdsloat Exp $ // $Source: /afs/awd/projects/eclipz/KnowledgeBase/.cvsroot/eclipz/chips/centaur/working/procedures/cen_scom_addresses.H,v $ //------------------------------------------------------------------------------ // *! (C) Copyright International Business Machines Corp. 2011 @@ -44,6 +44,7 @@ //------------------------------------------------------------------------------ // Version:| Author: | Date: | Comment: //---------|----------|---------|----------------------------------------------- +// 1.56 | jdsloat |11-Apr-13| Added DQS Gate Delay Values // 1.55 | jdsloat |04-Apr-13| Added DPHY01_DDRPHY_WC_CONFIG3 regs // 1.54 | jdsloat |03-Apr-13| Fixed MR Sec shadow regs // 1.53 | jdsloat |08-Mar-13| Added MBA01_MBARPC0Q_0x03010434 @@ -1362,7 +1363,7 @@ CONST_UINT64_T( DPHY01_DDRPHY_DP18_READ_TIMING_REFERENCE1_P1_4_0x800110710301143 //------------------------------------------------------------------------------ -// DQS Gate Delay Rank Pair 0 +// DQS Gate Delay //------------------------------------------------------------------------------ CONST_UINT64_T( DPHY01_DDRPHY_DP18_GATE_DELAY_RP0_P0_0_0x800000130301143F , ULL(0x800000130301143F) ); CONST_UINT64_T( DPHY01_DDRPHY_DP18_GATE_DELAY_RP0_P0_1_0x800004130301143F , ULL(0x800004130301143F) ); @@ -1375,6 +1376,39 @@ CONST_UINT64_T( DPHY01_DDRPHY_DP18_GATE_DELAY_RP0_P1_2_0x800108130301143F , ULL( CONST_UINT64_T( DPHY01_DDRPHY_DP18_GATE_DELAY_RP0_P1_3_0x80010C130301143F , ULL(0x80010C130301143F) ); CONST_UINT64_T( DPHY01_DDRPHY_DP18_GATE_DELAY_RP0_P1_4_0x800110130301143F , ULL(0x800110130301143F) ); +CONST_UINT64_T( DPHY01_DDRPHY_DP18_GATE_DELAY_RP1_P0_0_0x800001130301143F , ULL(0x800001130301143F) ); +CONST_UINT64_T( DPHY01_DDRPHY_DP18_GATE_DELAY_RP1_P0_1_0x800005130301143F , ULL(0x800005130301143F) ); +CONST_UINT64_T( DPHY01_DDRPHY_DP18_GATE_DELAY_RP1_P0_2_0x800009130301143F , ULL(0x800009130301143F) ); +CONST_UINT64_T( DPHY01_DDRPHY_DP18_GATE_DELAY_RP1_P0_3_0x80000D130301143F , ULL(0x80000D130301143F) ); +CONST_UINT64_T( DPHY01_DDRPHY_DP18_GATE_DELAY_RP1_P0_4_0x800011130301143F , ULL(0x800011130301143F) ); +CONST_UINT64_T( DPHY01_DDRPHY_DP18_GATE_DELAY_RP1_P1_0_0x800101130301143F , ULL(0x800101130301143F) ); +CONST_UINT64_T( DPHY01_DDRPHY_DP18_GATE_DELAY_RP1_P1_1_0x800105130301143F , ULL(0x800105130301143F) ); +CONST_UINT64_T( DPHY01_DDRPHY_DP18_GATE_DELAY_RP1_P1_2_0x800109130301143F , ULL(0x800109130301143F) ); +CONST_UINT64_T( DPHY01_DDRPHY_DP18_GATE_DELAY_RP1_P1_3_0x80010D130301143F , ULL(0x80010D130301143F) ); +CONST_UINT64_T( DPHY01_DDRPHY_DP18_GATE_DELAY_RP1_P1_4_0x800111130301143F , ULL(0x800111130301143F) ); + +CONST_UINT64_T( DPHY01_DDRPHY_DP18_GATE_DELAY_RP2_P0_0_0x800002130301143F , ULL(0x800002130301143F) ); +CONST_UINT64_T( DPHY01_DDRPHY_DP18_GATE_DELAY_RP2_P0_1_0x800006130301143F , ULL(0x800006130301143F) ); +CONST_UINT64_T( DPHY01_DDRPHY_DP18_GATE_DELAY_RP2_P0_2_0x80000A130301143F , ULL(0x80000A130301143F) ); +CONST_UINT64_T( DPHY01_DDRPHY_DP18_GATE_DELAY_RP2_P0_3_0x80000E130301143F , ULL(0x80000E130301143F) ); +CONST_UINT64_T( DPHY01_DDRPHY_DP18_GATE_DELAY_RP2_P0_4_0x800012130301143F , ULL(0x800012130301143F) ); +CONST_UINT64_T( DPHY01_DDRPHY_DP18_GATE_DELAY_RP2_P1_0_0x800102130301143F , ULL(0x800102130301143F) ); +CONST_UINT64_T( DPHY01_DDRPHY_DP18_GATE_DELAY_RP2_P1_1_0x800106130301143F , ULL(0x800106130301143F) ); +CONST_UINT64_T( DPHY01_DDRPHY_DP18_GATE_DELAY_RP2_P1_2_0x80010A130301143F , ULL(0x80010A130301143F) ); +CONST_UINT64_T( DPHY01_DDRPHY_DP18_GATE_DELAY_RP2_P1_3_0x80010E130301143F , ULL(0x80010E130301143F) ); +CONST_UINT64_T( DPHY01_DDRPHY_DP18_GATE_DELAY_RP2_P1_4_0x800112130301143F , ULL(0x800112130301143F) ); + +CONST_UINT64_T( DPHY01_DDRPHY_DP18_GATE_DELAY_RP3_P0_0_0x800003130301143F , ULL(0x800003130301143F) ); +CONST_UINT64_T( DPHY01_DDRPHY_DP18_GATE_DELAY_RP3_P0_1_0x800007130301143F , ULL(0x800007130301143F) ); +CONST_UINT64_T( DPHY01_DDRPHY_DP18_GATE_DELAY_RP3_P0_2_0x80000B130301143F , ULL(0x80000B130301143F) ); +CONST_UINT64_T( DPHY01_DDRPHY_DP18_GATE_DELAY_RP3_P0_3_0x80000F130301143F , ULL(0x80000F130301143F) ); +CONST_UINT64_T( DPHY01_DDRPHY_DP18_GATE_DELAY_RP3_P0_4_0x800013130301143F , ULL(0x800013130301143F) ); +CONST_UINT64_T( DPHY01_DDRPHY_DP18_GATE_DELAY_RP3_P1_0_0x800103130301143F , ULL(0x800103130301143F) ); +CONST_UINT64_T( DPHY01_DDRPHY_DP18_GATE_DELAY_RP3_P1_1_0x800107130301143F , ULL(0x800107130301143F) ); +CONST_UINT64_T( DPHY01_DDRPHY_DP18_GATE_DELAY_RP3_P1_2_0x80010B130301143F , ULL(0x80010B130301143F) ); +CONST_UINT64_T( DPHY01_DDRPHY_DP18_GATE_DELAY_RP3_P1_3_0x80010F130301143F , ULL(0x80010F130301143F) ); +CONST_UINT64_T( DPHY01_DDRPHY_DP18_GATE_DELAY_RP3_P1_4_0x800113130301143F , ULL(0x800113130301143F) ); + //------------------------------------------------------------------------------ // RC config registers 0 and 3 @@ -1578,6 +1612,9 @@ This section is automatically updated by CVS when you check in this file. Be sure to create CVS comments when you commit so that they can be included here. $Log: cen_scom_addresses.H,v $ +Revision 1.57 2013/04/11 23:41:36 jdsloat +Added DQS Gate Delay Values + Revision 1.56 2013/04/04 20:32:53 jdsloat Added DPHY01_DDRPHY_WC_CONFIG3 regs diff --git a/src/usr/hwpf/hwp/initfiles/cen.dmi.custom.scom.initfile b/src/usr/hwpf/hwp/initfiles/cen.dmi.custom.scom.initfile index a9192ad09..6d086b1a8 100644 --- a/src/usr/hwpf/hwp/initfiles/cen.dmi.custom.scom.initfile +++ b/src/usr/hwpf/hwp/initfiles/cen.dmi.custom.scom.initfile @@ -1,8 +1,9 @@ -#-- $Id: cen.dmi.custom.scom.initfile,v 1.6 2013/03/15 21:21:27 thomsen Exp $ +#-- $Id: cen.dmi.custom.scom.initfile,v 1.7 2013/04/18 19:20:50 jgrell Exp $ #-- CHANGE HISTORY: #-------------------------------------------------------------------------------- #-- Version:|Author: | Date: | Comment: #-- --------|--------|--------|-------------------------------------------------- +#-- 1.7 |jgrell |04/18/13|Added EC level control of the Recal DFE, DDC, and CTLE enable bits. ('0' when EC < 20) #-- 1.6 |jgrell |03/14/13|Added temporary masking of the GCR Buffer Parity Checkers in the GCR Master until the source of the error can be found. This ungates the lab. #-- 1.5 |thomsen |03/07/13|Temporarily mask the GCR Buffer Parity Checker until the source of the error can be found. This ungates the lab. #-- | | |Fixed address typo on tx_clk_invert entry @@ -374,6 +375,20 @@ scom_data; 0xC000000000000000; } +#--************************************************************************************************************** +#---------------------------------------------------------------------------------------------------------------- +# Recal +#---------------------------------------------------------------------------------------------------------------- +#--************************************************************************************************************** +# HW235842 + +scom 0x800.0b(rx_rc_step_cntl_pg)(rx_grp0)(lane_na).0x(cn_gcr_addr) { +bits, scom_data, expr; +rx_rc_enable_dfe_h1_cal, 0b0, ATTR_CHIP_EC_FEATURE_RECAL_DFE_ENABLE==0; +rx_rc_enable_ddc, 0b0, ATTR_CHIP_EC_FEATURE_RECAL_DDC_ENABLE==0; +rx_rc_enable_ctle_cal, 0b0, ATTR_CHIP_EC_FEATURE_RECAL_CTLE_ENABLE==0; +} + ############################################################################################ # END OF FILE ############################################################################################ diff --git a/src/usr/hwpf/hwp/initfiles/cen.dmi.scom.initfile b/src/usr/hwpf/hwp/initfiles/cen.dmi.scom.initfile index 3e2abbaa6..96b7ce8c2 100644 --- a/src/usr/hwpf/hwp/initfiles/cen.dmi.scom.initfile +++ b/src/usr/hwpf/hwp/initfiles/cen.dmi.scom.initfile @@ -1,4 +1,4 @@ -#-- $Id: cen.dmi.scom.initfile,v 1.11 2013/03/20 18:11:01 jgrell Exp $ +#-- $Id: cen.dmi.scom.initfile,v 1.12 2013/04/18 19:20:14 jgrell Exp $ #################################################################### @@ -7,13 +7,14 @@ ## Based on SETUP_ID_MODE DMI_BUS_TR_HW ## from ../../logic/mesa_sim/fusion/run/IODNC_MB_TOP.IODNC_MB_TOP.figdb ## -## Created on Wed Mar 20 11:03:01 CDT 2013, by jgrell +## Created on Mon Apr 15 15:04:16 CDT 2013, by jgrell #################################################################### ## -- CHANGE HISTORY: ## -------------------------------------------------------------------------------- ## -- VersionID: |Author: | Date: | Comment: ## -- -----------|---------|--------|------------------------------------------------- + ## -- jgr13041800| jgr |04-18-13| Added rx_max_ber_check_count setting to 0x03 ## -- jgr13031300| jgr |03-13-13| Added missing entries from rel 0128 ## -- mbs13011802| mbs |01-18-13| Added rx_fence to run_mode dial (HW236326) ## -- mbs13011000| mbs |01-10-13| Added rx_prot_speed_slct and rx_c4_sel @@ -65,6 +66,13 @@ include edi.io.define +#RX.RXCTL.RX_CTL_REGS.RX_BER_CHK_PG +scom 0x800AF0000201043F { + bits, scom_data, expr; + rx_max_ber_check_count, 0b00000011 , def_IS_HW; + rx_max_ber_check_count, 0b00000000 , def_IS_VBU; +} + #RX.RXCTL.RX_CTL_REGS.RX_DFE_CONFIG_PP scom 0x800B78000201043F { bits, scom_data, expr; diff --git a/src/usr/hwpf/hwp/initfiles/mba_def.initfile b/src/usr/hwpf/hwp/initfiles/mba_def.initfile index 7637934af..195df9e3c 100644 --- a/src/usr/hwpf/hwp/initfiles/mba_def.initfile +++ b/src/usr/hwpf/hwp/initfiles/mba_def.initfile @@ -1,9 +1,11 @@ -#-- $Id: mba_def.initfile,v 1.37 2013/04/04 21:24:21 yctschan Exp $ +#-- $Id: mba_def.initfile,v 1.39 2013/04/17 16:55:32 yctschan Exp $ #-- CHANGE HISTORY: #-------------------------------------------------------------------------------- #-- Version:|Author: | Date: | Comment: #-- --------|--------|--------|-------------------------------------------------- +#-- 1.39|tschang | 4/17/13|commented out maxall_min0 power controls until decision has been made for default value +#-- 1.38|tschang | 4/08/13|set cfg_min_domain_reduction_enable to 1 and maxall_min0 power controls #-- 1.37|tschang | 4/04/13|ACT signal in CCS idle pattern set to 1 for DDR4 and 0 for non DDR4 #-- 1.36|tschang | 4/04/13|MBA_FARB2Q fixed rank master typo for IS1A_IS1B_IS1D_C1A_C1B_C1C_C1D_C5C cfg #-- 1.35|tschang | 3/27/13|set trfc and refresh interval according to refresh equation @@ -2168,6 +2170,7 @@ scom 0x03010432 { # scom 0x03010434 { bits , scom_data , ATTR_FUNCTIONAL, expr; +# 3:5 , 0b010 , 1 , any; # cfg_min_max_domains 36 6:10 , 0b00100 , 1 , (def_MBARPC0Q_cfg_pup_avail_dly4 == 1); # MBARPC0Q_cfg_pup_avail 36 6:10 , 0b00101 , 1 , (def_MBARPC0Q_cfg_pup_avail_dly5 == 1); # MBARPC0Q_cfg_pup_avail 36 6:10 , 0b00110 , 1 , (def_MBARPC0Q_cfg_pup_avail_dly6 == 1); # MBARPC0Q_cfg_pup_avail 36 @@ -2187,6 +2190,7 @@ scom 0x03010434 { 16:20 , 0b00100 , 1 , (def_MBARPC0Q_cfg_pup_pdn_dly4 == 1); # MBARPC0Q_cfg_pup_pdn 38 16:20 , 0b00101 , 1 , (def_MBARPC0Q_cfg_pup_pdn_dly5 == 1); # MBARPC0Q_cfg_pup_pdn 38 16:20 , 0b00110 , 1 , (def_MBARPC0Q_cfg_pup_pdn_dly6 == 1); # MBARPC0Q_cfg_pup_pdn 38 + 22 , 0b1 , 1 , any; # cfg_min_domain_reduction_enable set to 1 to enable power controls } # MBAPC1Q power control settings reg 1 diff --git a/src/usr/hwpf/hwp/initfiles/mbs_def.initfile b/src/usr/hwpf/hwp/initfiles/mbs_def.initfile index e30b0999c..73e583ae7 100644 --- a/src/usr/hwpf/hwp/initfiles/mbs_def.initfile +++ b/src/usr/hwpf/hwp/initfiles/mbs_def.initfile @@ -1,8 +1,10 @@ -#-- $Id: mbs_def.initfile,v 1.29 2013/04/08 15:52:55 yctschan Exp $ +#-- $Id: mbs_def.initfile,v 1.31 2013/04/17 14:41:41 yctschan Exp $ #-- CHANGE HISTORY: #-------------------------------------------------------------------------------- #-- Version:|Author: | Date: | Comment: #-- --------|--------|--------|-------------------------------------------------- +#-- 1.30 |tschang |04/17/13| hash mode updated for type 1a/1b/5b +#-- 1.30 |tschang |04/16/13| updated file for new IBM_TYPE defnitions #-- 1.29 |tschang |04/08/13| added MBI cfg register initialization for Irving #-- 1.26 |tschang |03/13/13| changed cache interleave mode to have ATTR_MSS_CACHE_ENABLE as a condition #-- 1.25 |tschang |01/17/13| cache enabled when (ATTR_MSS_CACHE_ENABLE != 0) - enabled cache when 1/2 cache mode is choosen @@ -111,82 +113,82 @@ define def_mba01_1c_cdimm = ((((MBA0.ATTR_CHIP_UNIT_POS == 1 ) && (MBA0 ## Current they is no 1D IBM type in the attribute #define def_mba01_1d_1socket = 0; #define def_mba01_1d_2socket = 0; -define def_mba01_1d_1socket = (ATTR_MSS_FREQ == 1400) ; # will evaluate to false -define def_mba01_1d_2socket = (ATTR_MSS_FREQ == 1400) ; # will evaluate to false -#define def_mba01_1d_1socket = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 1 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1)); -#define def_mba01_1d_2socket = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 1 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2)); +#define def_mba01_1d_1socket = (ATTR_MSS_FREQ == 1400) ; # will evaluate to false +#define def_mba01_1d_2socket = (ATTR_MSS_FREQ == 1400) ; # will evaluate to false +define def_mba01_1d_1socket = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 4 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1)); +define def_mba01_1d_2socket = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 4 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2)); ## note the CDIMMs 2A-2C CDIMMs are wired just like the single slot ISDIMMs -define def_mba01_2a_1socket = (((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 4 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1)) || (def_mba01_2a_cdimm)); -define def_mba01_2a_2socket = (((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 4 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2)) || (def_mba01_2c_cdimm) || (def_mba01_3a_cdimm)); -define def_mba01_2a_cdimm = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 4 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA0.ATTR_EFF_DIMM_TYPE == 0)); # same as type2A 1 socket cfg -define def_mba01_2a_1socket_ddr4 = (((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 4 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1)) || (def_mba01_2a_ddr4_cdimm)); -define def_mba01_2a_2socket_ddr4 = (((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 4 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2)) || (def_mba01_3a_ddr4_cdimm)); -define def_mba01_2a_ddr4_cdimm = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 4 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA0.ATTR_EFF_DIMM_TYPE == 0)); # same as type2A 1 socket DDR4 cfg - -define def_mba01_2b_1socket = (((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 5 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1)) || (def_mba01_2b_cdimm)); -define def_mba01_2b_2socket = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 5 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2)); -define def_mba01_2b_cdimm = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 5 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA0.ATTR_EFF_DIMM_TYPE == 0)); # same as type2B 1 socket cfg -define def_mba01_2b_1socket_ddr4 = (((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 5 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1)) || (def_mba01_2b_ddr4_cdimm)); -define def_mba01_2b_2socket_ddr4 = (((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 5 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2)) || (def_mba01_3b_ddr4_cdimm)); -define def_mba01_2b_ddr4_cdimm = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 5 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA0.ATTR_EFF_DIMM_TYPE == 0)); # same as type2B 1 socket DDR4 cfg +define def_mba01_2a_1socket = (((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 5 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1)) || (def_mba01_2a_cdimm)); +define def_mba01_2a_2socket = (((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 5 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2)) || (def_mba01_2c_cdimm) || (def_mba01_3a_cdimm)); +define def_mba01_2a_cdimm = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 5 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA0.ATTR_EFF_DIMM_TYPE == 0)); # same as type2A 1 socket cfg +define def_mba01_2a_1socket_ddr4 = (((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 5 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1)) || (def_mba01_2a_ddr4_cdimm)); +define def_mba01_2a_2socket_ddr4 = (((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 5 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2)) || (def_mba01_3a_ddr4_cdimm)); +define def_mba01_2a_ddr4_cdimm = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 5 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA0.ATTR_EFF_DIMM_TYPE == 0)); # same as type2A 1 socket DDR4 cfg + +define def_mba01_2b_1socket = (((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 6 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1)) || (def_mba01_2b_cdimm)); +define def_mba01_2b_2socket = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 6 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2)); +define def_mba01_2b_cdimm = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 6 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA0.ATTR_EFF_DIMM_TYPE == 0)); # same as type2B 1 socket cfg +define def_mba01_2b_1socket_ddr4 = (((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 6 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1)) || (def_mba01_2b_ddr4_cdimm)); +define def_mba01_2b_2socket_ddr4 = (((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 6 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2)) || (def_mba01_3b_ddr4_cdimm)); +define def_mba01_2b_ddr4_cdimm = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 6 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA0.ATTR_EFF_DIMM_TYPE == 0)); # same as type2B 1 socket DDR4 cfg # centuar spec only has DDR4 for 2C cfg -define def_mba01_2c_1socket = (((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 6 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1)) || (def_mba01_2a_cdimm)); -define def_mba01_2c_2socket = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 6 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2)); -define def_mba01_2c_cdimm = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 6 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA0.ATTR_EFF_DIMM_TYPE == 0)); # same as type2C 1 socket cfg -define def_mba01_2c_1socket_ddr4 = (((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 6 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1)) || (def_mba01_2a_ddr4_cdimm)); -define def_mba01_2c_2socket_ddr4 = (((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 6 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2)) || (def_mba01_3c_ddr4_cdimm)); -define def_mba01_2c_ddr4_cdimm = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 6 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA0.ATTR_EFF_DIMM_TYPE == 0)); # same as type2C 1 socket DDR4 cfg - -define def_mba01_3a_1socket = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 7 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1)); -define def_mba01_3a_2socket = (((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 7 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2)) || (def_mba01_4a_cdimm)); -#define def_mba01_3a_cdimm = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 7 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA0.ATTR_EFF_DIMM_TYPE == 0)); # same as type2A 2 socket cfg -define def_mba01_3a_cdimm = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 7 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA0.ATTR_EFF_DIMM_TYPE == 0) && (MBA0.ATTR_EFF_DRAM_GEN == 1)); # same as type2A 2 socket DDR4 cfg -define def_mba01_3a_1socket_ddr4 = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 7 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1)); -define def_mba01_3a_2socket_ddr4 = (((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 7 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2)) || (def_mba01_4a_ddr4_cdimm)); -define def_mba01_3a_ddr4_cdimm = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 7 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA0.ATTR_EFF_DIMM_TYPE == 0) && (MBA0.ATTR_EFF_DRAM_GEN == 2)); # same as type2A 2 socket DDR4 cfg - -define def_mba01_3b_1socket = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 8 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1)); -define def_mba01_3b_2socket = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 8 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2)); -define def_mba01_3b_ddr4_cdimm = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 8 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA0.ATTR_EFF_DIMM_TYPE == 0)); # same as type2B 2 socket DDR4 cfg -define def_mba01_3b_cdimm = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 8 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA0.ATTR_EFF_DIMM_TYPE == 0)); # same as type2B 2 socket DDR4 cfg ?? - -define def_mba01_3c_1socket_ddr4 = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 9 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1)); -define def_mba01_3c_2socket_ddr4 = (((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 9 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2)) || (def_mba01_4c_ddr4_cdimm)); -define def_mba01_3c_cdimm = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 9 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA0.ATTR_EFF_DIMM_TYPE == 0)); # same as type2C 2 socket DDR4 cfg -define def_mba01_3c_ddr4_cdimm = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 9 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA0.ATTR_EFF_DIMM_TYPE == 0)); # same as type2C 2 socket DDR4 cfg - -define def_mba01_4a_cdimm = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 10))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA0.ATTR_EFF_DIMM_TYPE == 0)); # same as type3A 2 socket cfg -define def_mba01_4a_ddr4_cdimm = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 10))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA0.ATTR_EFF_DIMM_TYPE == 0)); # same as type3A 2 socket DDR4 cfg - -define def_mba01_4b_ddr4_cdimm = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 11))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA0.ATTR_EFF_DIMM_TYPE == 0)); # same as type3B 2 socket DDR4 cfg - -define def_mba01_4c_ddr4_cdimm = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 12))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA0.ATTR_EFF_DIMM_TYPE == 0)); # same as type3C 2 socket DDR4 cfg - -define def_mba01_5b_1socket = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 14))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA0.ATTR_EFF_DIMM_TYPE == 3)); -define def_mba01_5b_2socket = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 14))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA0.ATTR_EFF_DIMM_TYPE == 3)); - -define def_mba01_5c_1socket = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 15))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA0.ATTR_EFF_DIMM_TYPE == 3)); -define def_mba01_5c_2socket = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 15))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA0.ATTR_EFF_DIMM_TYPE == 3)); - -define def_mba01_5d_1socket = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 16))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA0.ATTR_EFF_DIMM_TYPE == 3)); -define def_mba01_5d_2socket = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 16))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA0.ATTR_EFF_DIMM_TYPE == 3)); - -define def_mba01_7a_1socket = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 20))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA0.ATTR_EFF_DIMM_TYPE == 3)); -define def_mba01_7a_2socket = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 20))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA0.ATTR_EFF_DIMM_TYPE == 3)); -define def_mba01_7a_1socket_ddr4 = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 20))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA0.ATTR_EFF_DIMM_TYPE == 3)); -define def_mba01_7a_2socket_ddr4 = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 20))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA0.ATTR_EFF_DIMM_TYPE == 3)); - -define def_mba01_7b_1socket = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 21))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA0.ATTR_EFF_DIMM_TYPE == 3)); -define def_mba01_7b_2socket = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 21))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA0.ATTR_EFF_DIMM_TYPE == 3)); -define def_mba01_7b_1socket_ddr4 = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 21))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA0.ATTR_EFF_DIMM_TYPE == 3)); -define def_mba01_7b_2socket_ddr4 = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 21))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA0.ATTR_EFF_DIMM_TYPE == 3)); - -define def_mba01_7c_1socket = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 22))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA0.ATTR_EFF_DIMM_TYPE == 3)); -define def_mba01_7c_2socket = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 22))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA0.ATTR_EFF_DIMM_TYPE == 3)); -define def_mba01_7c_1socket_ddr4 = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 22))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA0.ATTR_EFF_DIMM_TYPE == 3)); -define def_mba01_7c_2socket_ddr4 = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 22))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA0.ATTR_EFF_DIMM_TYPE == 3)); +define def_mba01_2c_1socket = (((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 7 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1)) || (def_mba01_2a_cdimm)); +define def_mba01_2c_2socket = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 7 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2)); +define def_mba01_2c_cdimm = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 7 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA0.ATTR_EFF_DIMM_TYPE == 0)); # same as type2C 1 socket cfg +define def_mba01_2c_1socket_ddr4 = (((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 7 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1)) || (def_mba01_2a_ddr4_cdimm)); +define def_mba01_2c_2socket_ddr4 = (((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 7 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2)) || (def_mba01_3c_ddr4_cdimm)); +define def_mba01_2c_ddr4_cdimm = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 7 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA0.ATTR_EFF_DIMM_TYPE == 0)); # same as type2C 1 socket DDR4 cfg + +define def_mba01_3a_1socket = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 8 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1)); +define def_mba01_3a_2socket = (((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 8 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2)) || (def_mba01_4a_cdimm)); +#define def_mba01_3a_cdimm = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 8 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA0.ATTR_EFF_DIMM_TYPE == 0)); # same as type2A 2 socket cfg +define def_mba01_3a_cdimm = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 8 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA0.ATTR_EFF_DIMM_TYPE == 0) && (MBA0.ATTR_EFF_DRAM_GEN == 1)); # same as type2A 2 socket DDR4 cfg +define def_mba01_3a_1socket_ddr4 = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 8 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1)); +define def_mba01_3a_2socket_ddr4 = (((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 8 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2)) || (def_mba01_4a_ddr4_cdimm)); +define def_mba01_3a_ddr4_cdimm = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 8 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA0.ATTR_EFF_DIMM_TYPE == 0) && (MBA0.ATTR_EFF_DRAM_GEN == 2)); # same as type2A 2 socket DDR4 cfg + +define def_mba01_3b_1socket = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 9 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1)); +define def_mba01_3b_2socket = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 9 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2)); +define def_mba01_3b_ddr4_cdimm = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 9 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA0.ATTR_EFF_DIMM_TYPE == 0)); # same as type2B 2 socket DDR4 cfg +define def_mba01_3b_cdimm = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 9 ))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA0.ATTR_EFF_DIMM_TYPE == 0)); # same as type2B 2 socket DDR4 cfg ?? + +define def_mba01_3c_1socket_ddr4 = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 10))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1)); +define def_mba01_3c_2socket_ddr4 = (((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 10))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2)) || (def_mba01_4c_ddr4_cdimm)); +define def_mba01_3c_cdimm = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 10))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA0.ATTR_EFF_DIMM_TYPE == 0)); # same as type2C 2 socket DDR4 cfg +define def_mba01_3c_ddr4_cdimm = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 10))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA0.ATTR_EFF_DIMM_TYPE == 0)); # same as type2C 2 socket DDR4 cfg + +define def_mba01_4a_cdimm = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 11))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA0.ATTR_EFF_DIMM_TYPE == 0)); # same as type3A 2 socket cfg +define def_mba01_4a_ddr4_cdimm = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 11))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA0.ATTR_EFF_DIMM_TYPE == 0)); # same as type3A 2 socket DDR4 cfg + +define def_mba01_4b_ddr4_cdimm = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 12))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA0.ATTR_EFF_DIMM_TYPE == 0)); # same as type3B 2 socket DDR4 cfg + +define def_mba01_4c_ddr4_cdimm = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 13))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA0.ATTR_EFF_DIMM_TYPE == 0)); # same as type3C 2 socket DDR4 cfg + +define def_mba01_5b_1socket = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 15))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA0.ATTR_EFF_DIMM_TYPE == 3)); +define def_mba01_5b_2socket = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 15))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA0.ATTR_EFF_DIMM_TYPE == 3)); + +define def_mba01_5c_1socket = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 16))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA0.ATTR_EFF_DIMM_TYPE == 3)); +define def_mba01_5c_2socket = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 16))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA0.ATTR_EFF_DIMM_TYPE == 3)); + +define def_mba01_5d_1socket = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 17))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA0.ATTR_EFF_DIMM_TYPE == 3)); +define def_mba01_5d_2socket = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 17))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA0.ATTR_EFF_DIMM_TYPE == 3)); + +define def_mba01_7a_1socket = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 21))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA0.ATTR_EFF_DIMM_TYPE == 3)); +define def_mba01_7a_2socket = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 21))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA0.ATTR_EFF_DIMM_TYPE == 3)); +define def_mba01_7a_1socket_ddr4 = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 21))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA0.ATTR_EFF_DIMM_TYPE == 3)); +define def_mba01_7a_2socket_ddr4 = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 21))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA0.ATTR_EFF_DIMM_TYPE == 3)); + +define def_mba01_7b_1socket = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 22))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA0.ATTR_EFF_DIMM_TYPE == 3)); +define def_mba01_7b_2socket = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 22))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA0.ATTR_EFF_DIMM_TYPE == 3)); +define def_mba01_7b_1socket_ddr4 = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 22))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA0.ATTR_EFF_DIMM_TYPE == 3)); +define def_mba01_7b_2socket_ddr4 = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 22))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA0.ATTR_EFF_DIMM_TYPE == 3)); + +define def_mba01_7c_1socket = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 23))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA0.ATTR_EFF_DIMM_TYPE == 3)); +define def_mba01_7c_2socket = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 23))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA0.ATTR_EFF_DIMM_TYPE == 3)); +define def_mba01_7c_1socket_ddr4 = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 23))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA0.ATTR_EFF_DIMM_TYPE == 3)); +define def_mba01_7c_2socket_ddr4 = ((((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 23))) && (MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA0.ATTR_EFF_DIMM_TYPE == 3)); # MBA1 (mba23) define def_mba23_1a_1socket = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 1 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1)); # DDR3/4 are same @@ -207,82 +209,82 @@ define def_mba23_1c_cdimm = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 3 ))) & ## Current they is no 1D IBM type in the attribute #define def_mba23_1d_1socket = 0; #define def_mba23_1d_2socket = 0; -define def_mba23_1d_1socket = (ATTR_MSS_FREQ == 1400) ; # will evaluate to false -define def_mba23_1d_2socket = (ATTR_MSS_FREQ == 1400) ; # will evaluate to false -#define def_mba23_1d_1socket = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 1 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1)); -#define def_mba23_1d_2socket = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 1 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2)); +#define def_mba23_1d_1socket = (ATTR_MSS_FREQ == 1400) ; # will evaluate to false +#define def_mba23_1d_2socket = (ATTR_MSS_FREQ == 1400) ; # will evaluate to false +#efine def_mba23_1d_1socket = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 4 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1)); +#efine def_mba23_1d_2socket = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 4 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2)); ## note the CDIMMs 2A-2C CDIMMs are wired just like the single slot ISDIMMs -define def_mba23_2a_1socket = (((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 4 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1)) || (def_mba23_2a_cdimm)); -define def_mba23_2a_2socket = (((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 4 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2)) || (def_mba23_2c_cdimm) || (def_mba23_3a_cdimm)); -define def_mba23_2a_cdimm = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 4 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA1.ATTR_EFF_DIMM_TYPE == 0)); # same as type2A 1 socket cfg -define def_mba23_2a_1socket_ddr4 = (((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 4 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1)) || (def_mba23_2a_ddr4_cdimm)); -define def_mba23_2a_2socket_ddr4 = (((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 4 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2)) || (def_mba23_3a_ddr4_cdimm)); -define def_mba23_2a_ddr4_cdimm = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 4 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA1.ATTR_EFF_DIMM_TYPE == 0)); # same as type2A 1 socket DDR4 cfg - -define def_mba23_2b_1socket = (((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 5 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1)) || (def_mba23_2b_cdimm)); -define def_mba23_2b_2socket = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 5 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2)); -define def_mba23_2b_cdimm = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 5 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA1.ATTR_EFF_DIMM_TYPE == 0)); # same as type2B 1 socket cfg -define def_mba23_2b_1socket_ddr4 = (((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 5 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1)) || (def_mba23_2b_ddr4_cdimm)); -define def_mba23_2b_2socket_ddr4 = (((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 5 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2)) || (def_mba23_3b_ddr4_cdimm)); -define def_mba23_2b_ddr4_cdimm = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 5 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA1.ATTR_EFF_DIMM_TYPE == 0)); # same as type2B 1 socket DDR4 cfg +define def_mba23_2a_1socket = (((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 5 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1)) || (def_mba23_2a_cdimm)); +define def_mba23_2a_2socket = (((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 5 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2)) || (def_mba23_2c_cdimm) || (def_mba23_3a_cdimm)); +define def_mba23_2a_cdimm = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 5 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA1.ATTR_EFF_DIMM_TYPE == 0)); # same as type2A 1 socket cfg +define def_mba23_2a_1socket_ddr4 = (((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 5 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1)) || (def_mba23_2a_ddr4_cdimm)); +define def_mba23_2a_2socket_ddr4 = (((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 5 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2)) || (def_mba23_3a_ddr4_cdimm)); +define def_mba23_2a_ddr4_cdimm = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 5 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA1.ATTR_EFF_DIMM_TYPE == 0)); # same as type2A 1 socket DDR4 cfg + +define def_mba23_2b_1socket = (((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 6 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1)) || (def_mba23_2b_cdimm)); +define def_mba23_2b_2socket = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 6 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2)); +define def_mba23_2b_cdimm = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 6 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA1.ATTR_EFF_DIMM_TYPE == 0)); # same as type2B 1 socket cfg +define def_mba23_2b_1socket_ddr4 = (((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 6 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1)) || (def_mba23_2b_ddr4_cdimm)); +define def_mba23_2b_2socket_ddr4 = (((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 6 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2)) || (def_mba23_3b_ddr4_cdimm)); +define def_mba23_2b_ddr4_cdimm = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 6 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA1.ATTR_EFF_DIMM_TYPE == 0)); # same as type2B 1 socket DDR4 cfg # centuar spec only has DDR4 for 2C cfg -define def_mba23_2c_1socket = (((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 6 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1)) || (def_mba23_2a_cdimm)); -define def_mba23_2c_2socket = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 6 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2)); -define def_mba23_2c_cdimm = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 6 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA1.ATTR_EFF_DIMM_TYPE == 0)); # same as type2C 1 socket cfg -define def_mba23_2c_1socket_ddr4 = (((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 6 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1)) || (def_mba23_2a_ddr4_cdimm)); -define def_mba23_2c_2socket_ddr4 = (((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 6 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2)) || (def_mba23_3c_ddr4_cdimm)); -define def_mba23_2c_ddr4_cdimm = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 6 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA1.ATTR_EFF_DIMM_TYPE == 0)); # same as type2C 1 socket DDR4 cfg +define def_mba23_2c_1socket = (((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 7 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1)) || (def_mba23_2a_cdimm)); +define def_mba23_2c_2socket = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 7 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2)); +define def_mba23_2c_cdimm = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 7 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA1.ATTR_EFF_DIMM_TYPE == 0)); # same as type2C 1 socket cfg +define def_mba23_2c_1socket_ddr4 = (((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 7 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1)) || (def_mba23_2a_ddr4_cdimm)); +define def_mba23_2c_2socket_ddr4 = (((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 7 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2)) || (def_mba23_3c_ddr4_cdimm)); +define def_mba23_2c_ddr4_cdimm = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 7 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA1.ATTR_EFF_DIMM_TYPE == 0)); # same as type2C 1 socket DDR4 cfg -define def_mba23_3a_1socket = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 7 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1)); -define def_mba23_3a_2socket = (((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 7 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2)) || (def_mba23_4a_cdimm)); -#define def_mba23_3a_cdimm = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 7 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA1.ATTR_EFF_DIMM_TYPE == 0)); # same as type2A 2 socket cfg -define def_mba23_3a_cdimm = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 7 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA1.ATTR_EFF_DIMM_TYPE == 0) && (MBA1.ATTR_EFF_DRAM_GEN == 1)); # same as type2A 2 socket DDR4 cfg -define def_mba23_3a_1socket_ddr4 = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 7 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1)); -define def_mba23_3a_2socket_ddr4 = (((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 7 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2)) || (def_mba23_4a_ddr4_cdimm)); -define def_mba23_3a_ddr4_cdimm = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 7 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA1.ATTR_EFF_DIMM_TYPE == 0) && (MBA1.ATTR_EFF_DRAM_GEN == 2)); # same as type2A 2 socket DDR4 cfg +define def_mba23_3a_1socket = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 8 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1)); +define def_mba23_3a_2socket = (((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 8 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2)) || (def_mba23_4a_cdimm)); +#define def_mba23_3a_cdimm = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 8 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA1.ATTR_EFF_DIMM_TYPE == 0)); # same as type2A 2 socket cfg +define def_mba23_3a_cdimm = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 8 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA1.ATTR_EFF_DIMM_TYPE == 0) && (MBA1.ATTR_EFF_DRAM_GEN == 1)); # same as type2A 2 socket DDR4 cfg +define def_mba23_3a_1socket_ddr4 = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 8 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1)); +define def_mba23_3a_2socket_ddr4 = (((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 8 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2)) || (def_mba23_4a_ddr4_cdimm)); +define def_mba23_3a_ddr4_cdimm = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 8 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA1.ATTR_EFF_DIMM_TYPE == 0) && (MBA1.ATTR_EFF_DRAM_GEN == 2)); # same as type2A 2 socket DDR4 cfg -define def_mba23_3b_1socket = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 8 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1)); -define def_mba23_3b_2socket = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 8 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2)); -define def_mba23_3b_ddr4_cdimm = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 8 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA1.ATTR_EFF_DIMM_TYPE == 0)); # same as type2B 2 socket DDR4 cfg -define def_mba23_3b_cdimm = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 8 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA1.ATTR_EFF_DIMM_TYPE == 0)); # same as type2B 2 socket DDR4 cfg ?? +define def_mba23_3b_1socket = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 9 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1)); +define def_mba23_3b_2socket = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 9 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2)); +define def_mba23_3b_ddr4_cdimm = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 9 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA1.ATTR_EFF_DIMM_TYPE == 0)); # same as type2B 2 socket DDR4 cfg +define def_mba23_3b_cdimm = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 9 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA1.ATTR_EFF_DIMM_TYPE == 0)); # same as type2B 2 socket DDR4 cfg ?? -define def_mba23_3c_1socket_ddr4 = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 9 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1)); -define def_mba23_3c_2socket_ddr4 = (((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 9 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2)) || (def_mba23_4c_ddr4_cdimm)); -define def_mba23_3c_cdimm = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 9 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA1.ATTR_EFF_DIMM_TYPE == 0)); # same as type2C 2 socket DDR4 cfg -define def_mba23_3c_ddr4_cdimm = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 9 ))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA1.ATTR_EFF_DIMM_TYPE == 0)); # same as type2C 2 socket DDR4 cfg +define def_mba23_3c_1socket_ddr4 = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 10))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1)); +define def_mba23_3c_2socket_ddr4 = (((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 10))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2)) || (def_mba23_4c_ddr4_cdimm)); +define def_mba23_3c_cdimm = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 10))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA1.ATTR_EFF_DIMM_TYPE == 0)); # same as type2C 2 socket DDR4 cfg +define def_mba23_3c_ddr4_cdimm = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 10))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA1.ATTR_EFF_DIMM_TYPE == 0)); # same as type2C 2 socket DDR4 cfg -define def_mba23_4a_cdimm = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 10))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA1.ATTR_EFF_DIMM_TYPE == 0)); # same as type3A 2 socket cfg -define def_mba23_4a_ddr4_cdimm = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 10))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA1.ATTR_EFF_DIMM_TYPE == 0)); # same as type3A 2 socket DDR4 cfg +define def_mba23_4a_cdimm = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 12))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA1.ATTR_EFF_DIMM_TYPE == 0)); # same as type3A 2 socket cfg +define def_mba23_4a_ddr4_cdimm = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 12))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA1.ATTR_EFF_DIMM_TYPE == 0)); # same as type3A 2 socket DDR4 cfg -define def_mba23_4b_ddr4_cdimm = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 11))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA1.ATTR_EFF_DIMM_TYPE == 0)); # same as type3B 2 socket DDR4 cfg +define def_mba23_4b_ddr4_cdimm = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 12))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA1.ATTR_EFF_DIMM_TYPE == 0)); # same as type3B 2 socket DDR4 cfg -define def_mba23_4c_ddr4_cdimm = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 12))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA1.ATTR_EFF_DIMM_TYPE == 0)); # same as type3C 2 socket DDR4 cfg +define def_mba23_4c_ddr4_cdimm = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 13))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA1.ATTR_EFF_DIMM_TYPE == 0)); # same as type3C 2 socket DDR4 cfg -define def_mba23_5b_1socket = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 14))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA1.ATTR_EFF_DIMM_TYPE == 3)); -define def_mba23_5b_2socket = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 14))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA1.ATTR_EFF_DIMM_TYPE == 3)); +define def_mba23_5b_1socket = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 15))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA1.ATTR_EFF_DIMM_TYPE == 3)); +define def_mba23_5b_2socket = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 15))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA1.ATTR_EFF_DIMM_TYPE == 3)); -define def_mba23_5c_1socket = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 15))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA1.ATTR_EFF_DIMM_TYPE == 3)); -define def_mba23_5c_2socket = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 15))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA1.ATTR_EFF_DIMM_TYPE == 3)); +define def_mba23_5c_1socket = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 16))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA1.ATTR_EFF_DIMM_TYPE == 3)); +define def_mba23_5c_2socket = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 16))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA1.ATTR_EFF_DIMM_TYPE == 3)); -define def_mba23_5d_1socket = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 16))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA1.ATTR_EFF_DIMM_TYPE == 3)); -define def_mba23_5d_2socket = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 16))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA1.ATTR_EFF_DIMM_TYPE == 3)); +define def_mba23_5d_1socket = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 17))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA1.ATTR_EFF_DIMM_TYPE == 3)); +define def_mba23_5d_2socket = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 17))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA1.ATTR_EFF_DIMM_TYPE == 3)); -define def_mba23_7a_1socket = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 20))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA1.ATTR_EFF_DIMM_TYPE == 3)); -define def_mba23_7a_2socket = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 20))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA1.ATTR_EFF_DIMM_TYPE == 3)); -define def_mba23_7a_1socket_ddr4 = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 20))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA1.ATTR_EFF_DIMM_TYPE == 3)); -define def_mba23_7a_2socket_ddr4 = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 20))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA1.ATTR_EFF_DIMM_TYPE == 3)); +define def_mba23_7a_1socket = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 21))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA1.ATTR_EFF_DIMM_TYPE == 3)); +define def_mba23_7a_2socket = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 21))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA1.ATTR_EFF_DIMM_TYPE == 3)); +define def_mba23_7a_1socket_ddr4 = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 21))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA1.ATTR_EFF_DIMM_TYPE == 3)); +define def_mba23_7a_2socket_ddr4 = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 21))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA1.ATTR_EFF_DIMM_TYPE == 3)); -define def_mba23_7b_1socket = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 21))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA1.ATTR_EFF_DIMM_TYPE == 3)); -define def_mba23_7b_2socket = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 21))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA1.ATTR_EFF_DIMM_TYPE == 3)); -define def_mba23_7b_1socket_ddr4 = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 21))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA1.ATTR_EFF_DIMM_TYPE == 3)); -define def_mba23_7b_2socket_ddr4 = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 21))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA1.ATTR_EFF_DIMM_TYPE == 3)); +define def_mba23_7b_1socket = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 22))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA1.ATTR_EFF_DIMM_TYPE == 3)); +define def_mba23_7b_2socket = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 22))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA1.ATTR_EFF_DIMM_TYPE == 3)); +define def_mba23_7b_1socket_ddr4 = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 22))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA1.ATTR_EFF_DIMM_TYPE == 3)); +define def_mba23_7b_2socket_ddr4 = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 22))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA1.ATTR_EFF_DIMM_TYPE == 3)); -define def_mba23_7c_1socket = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 22))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA1.ATTR_EFF_DIMM_TYPE == 3)); -define def_mba23_7c_2socket = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 22))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA1.ATTR_EFF_DIMM_TYPE == 3)); -define def_mba23_7c_1socket_ddr4 = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 22))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA1.ATTR_EFF_DIMM_TYPE == 3)); -define def_mba23_7c_2socket_ddr4 = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 22))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA1.ATTR_EFF_DIMM_TYPE == 3)); +define def_mba23_7c_1socket = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 23))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA1.ATTR_EFF_DIMM_TYPE == 3)); +define def_mba23_7c_2socket = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 23))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA1.ATTR_EFF_DIMM_TYPE == 3)); +define def_mba23_7c_1socket_ddr4 = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 23))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 1) && (MBA1.ATTR_EFF_DIMM_TYPE == 3)); +define def_mba23_7c_2socket_ddr4 = ((((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 23))) && (MBA1.ATTR_EFF_NUM_DROPS_PER_PORT == 2) && (MBA1.ATTR_EFF_DIMM_TYPE == 3)); define def_mba01_mtype_1a = (def_mba01_1a_1socket ||def_mba01_1a_2socket);# ||def_mba01_1b_cdimm); @@ -387,10 +389,6 @@ define def_mba23_Planar_DIMM_with_both_DIMM_slots_0_and_1_populated = (def_mb #define def_ATTR_MSS_CACHE_ENABLE = 0; # cache disable #define def_ATTR_MSS_PREFETCH_ENABLE = 0; # prefetch disable #define def_ATTR_MSS_MBA_ADDR_INTERLEAVE_BIT = 0; # no MBA interleave -#define def_01ATTR_MSS_HASH_MODE = 0; # -MW switched to match dials -#define def_23ATTR_MSS_HASH_MODE = 1; -#define def_01ATTR_MSS_HASH_MODE = 1; -#define def_23ATTR_MSS_HASH_MODE = 0; #define def_01ATTR_MSS_MBA_INTERLEAVE_MODE = 0; #define def_23ATTR_MSS_MBA_INTERLEAVE_MODE = 0; #define def_01ATTR_EFF_MBA_POS = 0; # -MW not needed? @@ -549,6 +547,30 @@ scom 0x0201140A { 5 , 0b0 , any ; # Z mode only } +# Hash mode Selection +# Select hash mode with most interleaving (higher hash number) +# Section 5.6 in centuar workbook for hashing +# MBA01 Type 1A - simplied table to hash mode 1 when both dimm configured +define def_mba01_hash1_type1a = ((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 1) || (MBA0.ATTR_EFF_IBM_TYPE[0][1] == 1)) && (MBA0.ATTR_EFF_DIMM_RANKS_CONFIGED[0][0] != 0) && (MBA0.ATTR_EFF_DIMM_RANKS_CONFIGED[0][1] != 0); +define def_mba01_hash0_type1a = ((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 1) || (MBA0.ATTR_EFF_IBM_TYPE[0][1] == 1)) && ((MBA0.ATTR_EFF_DIMM_RANKS_CONFIGED[0][0] == 0) || (MBA0.ATTR_EFF_DIMM_RANKS_CONFIGED[0][1] == 0)); +# Type 1B/5B - simplied table to hash mode 2 when both dimm configured and hash mode 1 when 1 dimm is configured +define def_mba01_hash2_type1b_5b = ((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 2) || (MBA0.ATTR_EFF_IBM_TYPE[0][0] == 15)) && (MBA0.ATTR_EFF_DIMM_RANKS_CONFIGED[0][0] != 0) && (MBA0.ATTR_EFF_DIMM_RANKS_CONFIGED[0][1] != 0); +define def_mba01_hash1_type1b_5b = ((MBA0.ATTR_EFF_IBM_TYPE[0][0] == 2) || (MBA0.ATTR_EFF_IBM_TYPE[0][0] == 15)) && ((MBA0.ATTR_EFF_DIMM_RANKS_CONFIGED[0][0] == 0) || (MBA0.ATTR_EFF_DIMM_RANKS_CONFIGED[0][1] == 0)); + +# MBA23 Type 1A - simplied table to hash mode 1 when both dimm configured +define def_mba23_hash1_type1a = ((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 1) || (MBA1.ATTR_EFF_IBM_TYPE[1][1] == 1)) && (MBA1.ATTR_EFF_DIMM_RANKS_CONFIGED[1][0] != 0) && (MBA1.ATTR_EFF_DIMM_RANKS_CONFIGED[1][1] != 0); +define def_mba23_hash0_type1a = ((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 1) || (MBA1.ATTR_EFF_IBM_TYPE[1][1] == 1)) && ((MBA1.ATTR_EFF_DIMM_RANKS_CONFIGED[1][0] == 0) || (MBA1.ATTR_EFF_DIMM_RANKS_CONFIGED[1][1] == 0)); +# Type 1B/5B - simplied table to hash mode 2 when both dimm configured and hash mode 1 when 1 dimm is configured +define def_mba23_hash2_type1b_5b = ((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 2) || (MBA1.ATTR_EFF_IBM_TYPE[1][0] == 15)) && (MBA1.ATTR_EFF_DIMM_RANKS_CONFIGED[1][0] != 0) && (MBA1.ATTR_EFF_DIMM_RANKS_CONFIGED[1][1] != 0); +define def_mba23_hash1_type1b_5b = ((MBA1.ATTR_EFF_IBM_TYPE[1][0] == 2) || (MBA1.ATTR_EFF_IBM_TYPE[1][0] == 15)) && ((MBA1.ATTR_EFF_DIMM_RANKS_CONFIGED[1][0] == 0) || (MBA1.ATTR_EFF_DIMM_RANKS_CONFIGED[1][1] == 0)); + +define def_mba01_hash0_sel = (def_mba01_hash0_type1a); +define def_mba01_hash1_sel = (def_mba01_hash1_type1a) || (def_mba01_hash1_type1b_5b); +define def_mba01_hash2_sel = (def_mba01_hash1_type1b_5b); + +define def_mba23_hash0_sel = (def_mba23_hash0_type1a); +define def_mba23_hash1_sel = (def_mba23_hash1_type1a) || (def_mba23_hash1_type1b_5b); +define def_mba23_hash2_sel = (def_mba23_hash1_type1b_5b); #################################### # MBA01 address translation config # #################################### @@ -582,12 +604,12 @@ scom 0x0201140B { # 8 , 0b1 , 1 , ((((MBA0.ATTR_EFF_NUM_DROPS_PER_PORT == 2) || (ATTR_EFF_DIMM_TYPE == 0)) && (MBA0.ATTR_CHIP_UNIT_POS == 0)) == 1); # MBAXCR01Q_MBA01_Configuration D 9 , 0b1 , 1 , (MBA0.ATTR_EFF_DRAM_WIDTH == 4); # MBAXCR01Q_MBA01_DRAM_Width D 9 , 0b0 , 1 , (MBA0.ATTR_EFF_DRAM_WIDTH == 8); # MBAXCR01Q_MBA01_DRAM_Width D - 10:11 , 0b00 , 1 , (SYS.ATTR_MSS_MCA_HASH_MODE == 0); # MBAXCR01Q_MBA01_Hash_Mode - 10:11 , 0b01 , 1 , (SYS.ATTR_MSS_MCA_HASH_MODE == 1); # MBAXCR01Q_MBA01_Hash_Mode - 10:11 , 0b10 , 1 , (SYS.ATTR_MSS_MCA_HASH_MODE == 2); # MBAXCR01Q_MBA01_Hash_Mode -# 12 , 0b0 , 1 , any; # -MW match dials # MBAXCR01Q_MBA01_Interleave_Mode -# 12 , 0b0 , 1 , (SYS.ATTR_MSS_MBA_CACHELINE_INTERLEAVE_MODE == 0); # MBAXCR01Q_MBA01_Interleave_Mode -# 12 , 0b1 , 1 , (SYS.ATTR_MSS_MBA_CACHELINE_INTERLEAVE_MODE == 1); # MBAXCR01Q_MBA01_Interleave_Mode + 10:11 , 0b00 , 1 , def_mba01_hash0_sel; # MBAXCR01Q_MBA01_Hash_Mode + 10:11 , 0b01 , 1 , def_mba01_hash1_sel; # MBAXCR01Q_MBA01_Hash_Mode + 10:11 , 0b10 , 1 , def_mba01_hash2_sel; # MBAXCR01Q_MBA01_Hash_Mode +# 10:11 , 0b00 , 1 , (SYS.ATTR_MSS_MCA_HASH_MODE == 0); # MBAXCR01Q_MBA01_Hash_Mode +# 10:11 , 0b01 , 1 , (SYS.ATTR_MSS_MCA_HASH_MODE == 1); # MBAXCR01Q_MBA01_Hash_Mode +# 10:11 , 0b10 , 1 , (SYS.ATTR_MSS_MCA_HASH_MODE == 2); # MBAXCR01Q_MBA01_Hash_Mode 12 , 0b0 , 1 , ((SYS.ATTR_MSS_MBA_CACHELINE_INTERLEAVE_MODE == 0) || (ATTR_MSS_CACHE_ENABLE != 1)); # MBAXCR01Q_MBA01_Interleave_Mode 12 , 0b1 , 1 , ((SYS.ATTR_MSS_MBA_CACHELINE_INTERLEAVE_MODE == 1) && (ATTR_MSS_CACHE_ENABLE == 1)); # MBAXCR01Q_MBA01_Interleave_Mod } @@ -625,9 +647,9 @@ scom 0x0201140C { # 8 , 0b1 , 1 , ((((ATTR_EFF_NUM_DROPS_PER_PORT == 2) || (ATTR_EFF_DIMM_TYPE == 0)) && (MBA0.ATTR_CHIP_UNIT_POS == 0)) == 1); # MBAXCR01Q_MBA23_Configuration D 9 , 0b1 , 1 , (MBA1.ATTR_EFF_DRAM_WIDTH == 4); # MBAXCR01Q_MBA23_DRAM_Width D 9 , 0b0 , 1 , (MBA1.ATTR_EFF_DRAM_WIDTH == 8); # MBAXCR01Q_MBA23_DRAM_Width D - 10:11 , 0b00 , 1 , (SYS.ATTR_MSS_MCA_HASH_MODE == 0); # MBAXCR01Q_MBA23_Hash_Mode - 10:11 , 0b01 , 1 , (SYS.ATTR_MSS_MCA_HASH_MODE == 1); # MBAXCR01Q_MBA23_Hash_Mode - 10:11 , 0b10 , 1 , (SYS.ATTR_MSS_MCA_HASH_MODE == 2); # MBAXCR01Q_MBA23_Hash_Mode + 10:11 , 0b00 , 1 , def_mba23_hash0_sel; # MBAXCR01Q_MBA23_Hash_Mode + 10:11 , 0b01 , 1 , def_mba23_hash1_sel; # MBAXCR01Q_MBA23_Hash_Mode + 10:11 , 0b10 , 1 , def_mba23_hash2_sel; # MBAXCR01Q_MBA23_Hash_Mode # 12 , 0b0 , 1 , any; # -MW match dials # MBAXCR01Q_MBA23_Interleave_Mode 12 , 0b0 , 1 , (SYS.ATTR_MSS_MBA_CACHELINE_INTERLEAVE_MODE == 0); # MBAXCR01Q_MBA23_Interleave_Mode 12 , 0b1 , 1 , (SYS.ATTR_MSS_MBA_CACHELINE_INTERLEAVE_MODE == 1); # MBAXCR01Q_MBA23_Interleave_Mode diff --git a/src/usr/hwpf/hwp/initfiles/p8.cxa.scom.initfile b/src/usr/hwpf/hwp/initfiles/p8.cxa.scom.initfile new file mode 100644 index 000000000..c458b4a06 --- /dev/null +++ b/src/usr/hwpf/hwp/initfiles/p8.cxa.scom.initfile @@ -0,0 +1,46 @@ +#-- $Id: p8.cxa.scom.initfile,v 1.2 2013/04/08 13:50:19 jmcgill Exp $ +#------------------------------------------------------------------------------- +#-- +#-- (C) Copyright International Business Machines Corp. 2011 +#-- All Rights Reserved -- Property of IBM +#-- *** IBM Confidential *** +#-- +#-- TITLE : p8.cxa.scom.initfile +#-- DESCRIPTION : Perform CAPP configuration +#-- +#-- OWNER NAME : Bill Daly Email: billdaly@us.ibm.com +#-- +#-------------------------------------------------------------------------------- + +SyntaxVersion = 1 + +#-------------------------------------------------------------------------------- +#-- Includes +#-------------------------------------------------------------------------------- + +#-------------------------------------------------------------------------------- +#-- Defines +#-------------------------------------------------------------------------------- + +#-------------------------------------------------------------------------------- +#-- SCOM initializations +#-------------------------------------------------------------------------------- + + +#-- APC Master Config Register +scom 0x02013019 { + bits , scom_data, expr; + 4:7 , 0b0000, (ATTR_CHIP_EC_FEATURE_CAPP_HANG_CONTROL_ON_SCOM != 0); #-- HANG_POLL_SCALE +} + +#-- CAPP Snoop Control Register +scom 0x0201301B { + bits , scom_data, expr; + 48:51 , 0b0010, (ATTR_CHIP_EC_FEATURE_CAPP_HANG_CONTROL_ON_SCOM != 0); #-- CXA_SNP_DATA_HANG_POLL_SCALE +} + +#-- CAPP Transport Control Register +scom 0x0201301C { + bits , scom_data; + 15:18 , 0b1000; #-- TLBI_DATA_POLL_PULSE_DIV +} diff --git a/src/usr/hwpf/hwp/initfiles/p8.mcs.scom.initfile b/src/usr/hwpf/hwp/initfiles/p8.mcs.scom.initfile index 1914e579c..67dee1974 100644 --- a/src/usr/hwpf/hwp/initfiles/p8.mcs.scom.initfile +++ b/src/usr/hwpf/hwp/initfiles/p8.mcs.scom.initfile @@ -1,8 +1,12 @@ -#-- $Id: p8.mcs.scom.initfile,v 1.2 2013/03/25 03:08:07 jmcgill Exp $ +#-- $Id: p8.mcs.scom.initfile,v 1.4 2013/04/08 20:22:28 jmcgill Exp $ #-- CHANGE HISTORY: #-------------------------------------------------------------------------------- #-- Version:|Author: | Date: | Comment: #-- --------|--------|--------|-------------------------------------------------- +#-- 1.30|baysah |04/04/13|- Set MCI Replay timeout value to 2ms. +#-- | | |- Disable MCS arbiter blocking after checkstop. +#-- | | | +#-- --------|--------|--------|-------------------------------------------------- #-- 1.00|baysah |08/12/12|Created MCS init file #-- --------|--------|--------|-------------------------------------------------- #-------------------------------------------------------------------------------- @@ -79,7 +83,7 @@ SyntaxVersion = 1 47 , 0b1 ; # MCMODE2Q_ENABLE_MIRROR_WR_HANG 48 , 0b1 ; # MCMODE2Q_ENABLE_AO_HANG 49 , 0b1 ; # MCMODE2Q_ENABLE_INBAND_HANG - 50:52, 0b110 ; # MCMODE2Q_NONMIRROR_HANG_VALUE + 50:52, 0b101 ; # MCMODE2Q_NONMIRROR_HANG_VALUE 53:55, 0b111 ; # MCMODE2Q_MIRROR_HANG_VALUE 56 , 0b1 ; # MCMODE2Q_ENABLE_EMER_THROTTLE 57 , 0b0 ; # MCMODE2Q_DRIVE_SHARED_PRESP_WITH_LOST_CLAIM @@ -108,6 +112,7 @@ SyntaxVersion = 1 #--****************************************************************************** scom 0x000000000201181A { bits , scom_data ; + 1:3, 0b111 ; # DISABLE INTERFACE AND ARBITER BLOCKING DURING INTERNAL MCS CHECKSTOP 17:18, 0b01 ; # MCMODE4Q_SELECT_RPTHANG_DECODE 19 , 0b1 ; # MCMODE4Q_LOCAL_TIMEBASE_SELECT } @@ -123,4 +128,38 @@ SyntaxVersion = 1 14:23, 0b0000000000 ; # MCBUSYQ_BUSY_COUNTER_THRESHOLD1 24:33, 0b0000000000 ; # MCBUSYQ_BUSY_COUNTER_THRESHOLD2 34:43, 0b0000000000 ; # MCBUSYQ_BUSY_COUNTER_THRESHOLD3 -}
\ No newline at end of file +} + + +#--****************************************************************************** +#-- MCI Configuration Register +#--****************************************************************************** + scom 0x000000000201184A { + bits , scom_data ; + 0 , 0b0 ; # MCICFGQ_FORCE_CHANNEL_FAIL + 1 , 0b0 ; # MCICFGQ_REPLAY_CRC_DISABLE + 2 , 0b0 ; # MCICFGQ_REPLAY_NOACK_DISABLE + 3 , 0b0 ; # MCICFGQ_REPLAY_OUTOFORDER_DISABLE + 4 , 0b0 ; # MCICFGQ_FORCE_LFSR_REPLAY + 5 , 0b0 ; # MCICFGQ_CRC_CHECK_DISABLE + 6 , 0b0 ; # MCICFGQ_ECC_CHECK_DISABLE + 7 , 0b0 ; # MCICFGQ_START_FRAME_LOCK + 8 , 0b0 ; # MCICFGQ_START_FRTL + 9 , 0b0 ; # MCICFGQ_AUTO_FRTL_DISABLE + 10:16, 0b0000000 ; # MCICFGQ_MANUAL_FRTL_VALUE + 17 , 0x0 ; # MCICFGQ_MANUAL_FRTL_DONE + 18 , 0b0 ; # MCICFGQ_ECC_CORRECT_DISABLE + 19 , 0b0 ; # MCICFGQ_SPARE1 + 20 , 0b0 ; # MCICFGQ_LANE_VOTING_BYPASS + 21:25, 0b00000 ; # MCICFGQ_BAD_LANE_VALUE + 26 , 0b0 ; # MCICFGQ_BAD_LANE_VOTING_DISABLE + 27:32, 0b001001 ; # MCICFGQ_NO_FORWARD_PROGRESS_TIMEOUT_VALUE (0x09 = 9 => 1ms) + 33:34, 0b00 ; # MCICFGQ_PERFORMANCE_DEGRADATION_PERCENT_SELECT + 35:36, 0b00 ; # MCICFGQ_CHANNEL_INITIALIZATION_STATE_MACHINE_TIMEOUT_VALUE + 37 , 0b0 ; # MCICFGQ_RESET_KEEPER + 38:41, 0b0001 ; # MCICFGQ_REPLAY_DELAY_VALUE (set to 1 for pSeries, which is default value) + 42:43, 0b00 ; # MCICFGQ_RESERVED + + } + + diff --git a/src/usr/hwpf/hwp/initfiles/p8.nx.scom.initfile b/src/usr/hwpf/hwp/initfiles/p8.nx.scom.initfile index c1df2f029..589150e03 100644 --- a/src/usr/hwpf/hwp/initfiles/p8.nx.scom.initfile +++ b/src/usr/hwpf/hwp/initfiles/p8.nx.scom.initfile @@ -1,4 +1,4 @@ -#-- $Id: p8.nx.scom.initfile,v 1.5 2013/03/25 21:38:50 jmcgill Exp $ +#-- $Id: p8.nx.scom.initfile,v 1.6 2013/04/08 13:48:09 jmcgill Exp $ #------------------------------------------------------------------------------- #-- #-- (C) Copyright International Business Machines Corp. 2011 @@ -330,23 +330,3 @@ scom 0x02013107 { 48 , 0b0 ; #-- 0b00 mask FIR/SCOM satellite parity error FIR bit" ; 49 , 0b0 ; #-- 0b00 mask FIR/SCOM satellite parity error FIR bit duplicate" } - - - -#-- APC Master Config Register -scom 0x02013019 { - bits , scom_data ; - 4:7 , 0b0000 ; #-- HANG_POLL_SCALE -} - -#-- CAPP Snoop Control Register -scom 0x0201301B { - bits , scom_data ; - 48:51 , 0b0010 ; #-- CXA_SNP_DATA_HANG_POLL_SCALE -} - -#-- CAPP Transport Control Register -scom 0x0201301C { - bits , scom_data ; - 15:18 , 0b1000 ; #-- TLBI_DATA_POLL_PULSE_DIV -} diff --git a/src/usr/hwpf/hwp/mc_config/mss_eff_config/mss_eff_config.C b/src/usr/hwpf/hwp/mc_config/mss_eff_config/mss_eff_config.C index 340bd6f7d..82dc4344d 100644 --- a/src/usr/hwpf/hwp/mc_config/mss_eff_config/mss_eff_config.C +++ b/src/usr/hwpf/hwp/mc_config/mss_eff_config/mss_eff_config.C @@ -20,7 +20,7 @@ /* Origin: 30 */ /* */ /* IBM_PROLOG_END_TAG */ -// $Id: mss_eff_config.C,v 1.21 2013/03/22 21:57:25 asaetow Exp $ +// $Id: mss_eff_config.C,v 1.24 2013/04/22 14:17:45 asaetow Exp $ // $Source: /afs/awd/projects/eclipz/KnowledgeBase/.cvsroot/eclipz/chips/ // centaur/working/procedures/ipl/fapi/mss_eff_config.C,v $ //------------------------------------------------------------------------------ @@ -44,12 +44,15 @@ //------------------------------------------------------------------------------ // Version:| Author: | Date: | Comment: //---------|----------|---------|----------------------------------------------- -// 1.22 | | | -// 1.21 | asaetow |22-Mar-13| Changed ATTR_EFF_ZQCAL_INTERVAL and ATTR_EFF_MEMCAL_INTERVAL back to enable. +// 1.25 | | | +// 1.24 | asaetow |19-APR-13| Fixed X4 CDIMM spare for RCB to use LOW_NIBBLE only. +// 1.23 | asaetow |17-APR-13| Added 10% margin to TRFI per defect HW248225 +// 1.22 | asaetow |11-APR-13| Changed eff_dram_tdqs from 0 back to 1 for X8 ISDIMMs. +// 1.21 | asaetow |22-MAR-13| Changed ATTR_EFF_ZQCAL_INTERVAL and ATTR_EFF_MEMCAL_INTERVAL back to enable. // | | | NOTE: Need mba_def.initfile v1.27 or newer -// 1.20 | asaetow |28-Feb-13| Changed temporary ATTR_EFF_ZQCAL_INTERVAL and ATTR_EFF_MEMCAL_INTERVAL to disable. +// 1.20 | asaetow |28-FEB-13| Changed temporary ATTR_EFF_ZQCAL_INTERVAL and ATTR_EFF_MEMCAL_INTERVAL to disable. // | | | NOTE: Temporary until we get timeout error fixed. -// 1.19 | sauchadh |26-Feb-13| Added MCBIST related attributes +// 1.19 | sauchadh |26-FEB-13| Added MCBIST related attributes // 1.18 | asaetow |12-FEB-13| Changed eff_dram_tdqs from 1 to 0. // 1.17 | asaetow |30-JAN-13| Changed "ATTR_SPD_MODULE_TYPE_CDIMM is obsolete..." message from error to warning. // 1.16 | bellows |24-JAN-13| Added in CUSTOM bit of SPD and CUSTOM Attr @@ -1188,13 +1191,19 @@ fapi::ReturnCode mss_eff_config_setup_eff_atts( == fapi::ENUM_ATTR_SPD_DRAM_WIDTH_W4) { p_o_atts->eff_dram_width = fapi::ENUM_ATTR_EFF_DRAM_WIDTH_X4; + p_o_atts->eff_dram_tdqs = fapi::ENUM_ATTR_EFF_DRAM_TDQS_DISABLE; } else if (p_i_data->dram_width[0][0] == fapi::ENUM_ATTR_SPD_DRAM_WIDTH_W8) { p_o_atts->eff_dram_width = fapi::ENUM_ATTR_EFF_DRAM_WIDTH_X8; // NOTE: TDQS enable MR1(A11) is only avaliable for X8 in DDR3 - p_o_atts->eff_dram_tdqs = 0; + // TDQS disabled for X8 DDR3 CDIMM, enable for ISDIMM + if ( p_o_atts->eff_custom_dimm == fapi::ENUM_ATTR_EFF_CUSTOM_DIMM_NO ) { + p_o_atts->eff_dram_tdqs = fapi::ENUM_ATTR_EFF_DRAM_TDQS_ENABLE; + } else { + p_o_atts->eff_dram_tdqs = fapi::ENUM_ATTR_EFF_DRAM_TDQS_DISABLE; + } } else if (p_i_data->dram_width[0][0] == fapi::ENUM_ATTR_SPD_DRAM_WIDTH_W16) @@ -1541,6 +1550,8 @@ fapi::ReturnCode mss_eff_config_setup_eff_atts( // Calculate tRFI p_o_atts->eff_dram_trfi = (3900 * p_i_mss_eff_config_data->mss_freq) / 2000; + // Added 10% margin to TRFI per defect HW248225 + p_o_atts->eff_dram_trfi = (p_o_atts->eff_dram_trfi * 9) / 10; // Assigning dependent values to attributes for (int l_cur_mba_port = 0; l_cur_mba_port < @@ -1588,12 +1599,16 @@ fapi::ReturnCode mss_eff_config_setup_eff_atts( if (( p_o_atts->eff_dimm_type == fapi::ENUM_ATTR_EFF_DIMM_TYPE_CDIMM) && ( l_cur_mba_rank < p_o_atts->eff_num_ranks_per_dimm[l_cur_mba_port][l_cur_mba_dimm] )) { - p_o_atts-> - eff_dimm_spare[l_cur_mba_port][l_cur_mba_dimm][l_cur_mba_rank] - = fapi::ENUM_ATTR_EFF_DIMM_SPARE_FULL_BYTE; + // Added for CDIMM RC_B which uses x4 parts + if ( p_o_atts->eff_dram_width == fapi::ENUM_ATTR_EFF_DRAM_WIDTH_X4 ) { + p_o_atts->eff_dimm_spare[l_cur_mba_port][l_cur_mba_dimm][l_cur_mba_rank] + = fapi::ENUM_ATTR_EFF_DIMM_SPARE_LOW_NIBBLE; + } else { + p_o_atts->eff_dimm_spare[l_cur_mba_port][l_cur_mba_dimm][l_cur_mba_rank] + = fapi::ENUM_ATTR_EFF_DIMM_SPARE_FULL_BYTE; + } } else { - p_o_atts-> - eff_dimm_spare[l_cur_mba_port][l_cur_mba_dimm][l_cur_mba_rank] + p_o_atts->eff_dimm_spare[l_cur_mba_port][l_cur_mba_dimm][l_cur_mba_rank] = fapi::ENUM_ATTR_EFF_DIMM_SPARE_NO_SPARE; } } diff --git a/src/usr/hwpf/hwp/mc_config/mss_eff_config/mss_eff_config_rank_group.C b/src/usr/hwpf/hwp/mc_config/mss_eff_config/mss_eff_config_rank_group.C index 99086973d..4316c4d7c 100644 --- a/src/usr/hwpf/hwp/mc_config/mss_eff_config/mss_eff_config_rank_group.C +++ b/src/usr/hwpf/hwp/mc_config/mss_eff_config/mss_eff_config_rank_group.C @@ -20,7 +20,7 @@ /* Origin: 30 */ /* */ /* IBM_PROLOG_END_TAG */ -// $Id: mss_eff_config_rank_group.C,v 1.9 2013/04/01 20:08:03 asaetow Exp $ +// $Id: mss_eff_config_rank_group.C,v 1.10 2013/04/17 11:26:02 asaetow Exp $ // $Source: /afs/awd/projects/eclipz/KnowledgeBase/.cvsroot/eclipz/chips/centaur/working/procedures/ipl/fapi/mss_eff_config_rank_group.C,v $ //------------------------------------------------------------------------------ // *! (C) Copyright International Business Machines Corp. 2011 @@ -46,7 +46,9 @@ //------------------------------------------------------------------------------ // Version:| Author: | Date: | Comment: //---------|----------|---------|----------------------------------------------- -// 1.10 | | | +// 1.11 | | | +// 1.10 | asaetow |17-APR-13| Removed 32G CDIMM 1R dualdrop workaround. +// | | | NOTE: Needs mss_draminit_training.C v1.57 or newer. // 1.9 | asaetow |01-APR-13| Added 32G CDIMM 1R dualdrop workaround. // | | | NOTE: Normally primary_rank_group0=0, primary_rank_group1=4. // 1.8 | asaetow |29-AUG-12| Fixed variable init for rank_group to INVALID for PORT1. @@ -136,25 +138,28 @@ fapi::ReturnCode mss_eff_config_rank_group(const fapi::Target i_target_mba) { uint8_t quanternary_rank_group3_u8array[PORT_SIZE]; for (uint8_t cur_port = 0; cur_port < PORT_SIZE; cur_port += 1) { - if ((dimm_type_u8 == CDIMM) && (num_ranks_per_dimm_u8array[cur_port][0] == 1) && (num_ranks_per_dimm_u8array[cur_port][1] == 1)) { + //Removed 32G CDIMM 1R dualdrop workaround. + //NOTE: Needs mss_draminit_training.C v1.57 or newer. + //if ((dimm_type_u8 == CDIMM) && (num_ranks_per_dimm_u8array[cur_port][0] == 1) && (num_ranks_per_dimm_u8array[cur_port][1] == 1)) { // NOTE: 32G CDIMM 1R dualdrop workaround, normally primary_rank_group0=0, primary_rank_group1=4. - primary_rank_group0_u8array[cur_port] = 0; - primary_rank_group1_u8array[cur_port] = INVALID; - primary_rank_group2_u8array[cur_port] = INVALID; - primary_rank_group3_u8array[cur_port] = INVALID; - secondary_rank_group0_u8array[cur_port] = 4; - secondary_rank_group1_u8array[cur_port] = INVALID; - secondary_rank_group2_u8array[cur_port] = INVALID; - secondary_rank_group3_u8array[cur_port] = INVALID; - tertiary_rank_group0_u8array[cur_port] = INVALID; - tertiary_rank_group1_u8array[cur_port] = INVALID; - tertiary_rank_group2_u8array[cur_port] = INVALID; - tertiary_rank_group3_u8array[cur_port] = INVALID; - quanternary_rank_group0_u8array[cur_port] = INVALID; - quanternary_rank_group1_u8array[cur_port] = INVALID; - quanternary_rank_group2_u8array[cur_port] = INVALID; - quanternary_rank_group3_u8array[cur_port] = INVALID; - } else if (dimm_type_u8 == LRDIMM) { + //primary_rank_group0_u8array[cur_port] = 0; + //primary_rank_group1_u8array[cur_port] = INVALID; + //primary_rank_group2_u8array[cur_port] = INVALID; + //primary_rank_group3_u8array[cur_port] = INVALID; + //secondary_rank_group0_u8array[cur_port] = 4; + //secondary_rank_group1_u8array[cur_port] = INVALID; + //secondary_rank_group2_u8array[cur_port] = INVALID; + //secondary_rank_group3_u8array[cur_port] = INVALID; + //tertiary_rank_group0_u8array[cur_port] = INVALID; + //tertiary_rank_group1_u8array[cur_port] = INVALID; + //tertiary_rank_group2_u8array[cur_port] = INVALID; + //tertiary_rank_group3_u8array[cur_port] = INVALID; + //quanternary_rank_group0_u8array[cur_port] = INVALID; + //quanternary_rank_group1_u8array[cur_port] = INVALID; + //quanternary_rank_group2_u8array[cur_port] = INVALID; + //quanternary_rank_group3_u8array[cur_port] = INVALID; + //} else if (dimm_type_u8 == LRDIMM) { + if (dimm_type_u8 == LRDIMM) { // HERE: NOT correct, need to account for ATTR_EFF_DIMM_RANKS_CONFIGED for LRDIMMs /w multi master ranks primary_rank_group0_u8array[cur_port] = 0; primary_rank_group1_u8array[cur_port] = 4; diff --git a/src/usr/hwpf/hwp/mc_config/mss_eff_config/mss_eff_grouping.C b/src/usr/hwpf/hwp/mc_config/mss_eff_config/mss_eff_grouping.C index 0d6e0d323..2bfadd4be 100644 --- a/src/usr/hwpf/hwp/mc_config/mss_eff_config/mss_eff_grouping.C +++ b/src/usr/hwpf/hwp/mc_config/mss_eff_config/mss_eff_grouping.C @@ -20,7 +20,7 @@ /* Origin: 30 */ /* */ /* IBM_PROLOG_END_TAG */ -// $Id: mss_eff_grouping.C,v 1.23 2013/03/27 15:36:37 bellows Exp $ +// $Id: mss_eff_grouping.C,v 1.24 2013/04/09 20:34:54 bellows Exp $ //------------------------------------------------------------------------------ // *! (C) Copyright International Business Machines Corp. 2011 // *! All Rights Reserved -- Property of IBM @@ -38,14 +38,15 @@ //------------------------------------------------------------------------------ // Version:| Author: | Date: | Comment: //---------|----------|---------|----------------------------------------------- +// 1.24 | bellows | 04-09-13| Updates that really allow checkboard and all group sizes. Before, group size of 1 was all that was possible // 1.23 | bellows | 03-26-13| Allow for checkboard mode with more than one mcs per group // 1.22 | bellows | 03-21-13| Error Logging support // 1.21 | bellows | 03-11-13| Fixed syntax error with respect to the fapi macro under cronus // 1.20 | bellows | 03-08-13| Proper way to deconfigure mulitple/variable MCS // 1.19 | bellows | 02-27-13| Added back in mirror overlap check. Added in error rc for grouping // 1.18 | asaetow | 02-01-13| Removed FAPI_ERR("Mirror Base address overlaps with memory base address. "); temporarily. -// | | | NOTE: Need Giri to check mirroring enable before checking for overlaps. -// 1.17 | gpaulraj | 01-31-13| Error place holders added +// | | | NOTE: Need Giri to check mirroring enable before checking for overlaps. +// 1.17 | gpaulraj | 01-31-13| Error place holders added // 1.16 | gpaulraj | 12-14-12| Modified "nnable to group dimm size" as Error message // 1.15 | bellows | 12-11-12| Picked up latest updates from Girisankar // 1.14 | bellows | 12-11-12| added ; to DBG line @@ -67,7 +68,7 @@ #include <mss_eff_grouping.H> #include <fapi.H> #include "cen_scom_addresses.H" -//#include <mss_error_support.H> +#include <mss_error_support.H> //#include <mss_funcs.H> //#ifdef FAPIECMD @@ -246,34 +247,51 @@ extern "C" { FAPI_INF("FABRIC IS IN NON-CHECKER BOARD MODE."); FAPI_INF("FABRIC SUPPORTS THE FOLLOWING "); - if( (groups_allowed & 0x02)&& check_board){FAPI_INF("2MCS/GROUP");} - if( (groups_allowed & 0x04)&& check_board){FAPI_INF("4MCS/GROUP");} - if( (groups_allowed & 0x08)&& check_board){FAPI_INF("8MCS/GROUP");} + if(groups_allowed & 0x02){FAPI_INF("2MCS/GROUP");} + if(groups_allowed & 0x04){FAPI_INF("4MCS/GROUP");} + if(groups_allowed & 0x08){FAPI_INF("8MCS/GROUP");} FAPI_INF("FABRIC DOES NOT SUPPORT THE FOLLOWING "); - if(! ((groups_allowed & 0x01)&& !check_board)){FAPI_INF("1MCS/GROUP");} - if(!((groups_allowed & 0x02)&& check_board)){FAPI_INF("2MCS/GROUP");} - if(!((groups_allowed & 0x04)&& check_board)){FAPI_INF("4MCS/GROUP");} - if(!((groups_allowed & 0x08)&& check_board)){FAPI_INF("8MCS/GROUP");} + FAPI_INF("1MCS/GROUP"); + if(!(groups_allowed & 0x02)){FAPI_INF("2MCS/GROUP");} + if(!(groups_allowed & 0x04)){FAPI_INF("4MCS/GROUP");} + if(!(groups_allowed & 0x08)){FAPI_INF("8MCS/GROUP");} } else { FAPI_ERR("UNABLE TO GROUP"); - FAPI_ERR("FABRIC IS IN NON-CHECKER BOARD MODE. SET ATTRIBUTE 'ATTR_MSS_INTERLEAVE_ENABLE' TO SUPPORT '2MCS/GROUP, 4MCS/GROUP AND 8MCS/GROUP'. OR ENABLE CHECKER BOARD, TO SUPPORT '1MCS/GROUP'. "); + FAPI_ERR("FABRIC IS IN NON-CHECKER BOARD MODE. SET ATTRIBUTE 'ATTR_MSS_INTERLEAVE_ENABLE' , TO SUPPORT 2MCS , 4MCS AND 8MCS GROUPING. OR ENABLE CHECKER BOARD. "); +//@thi - hack const fapi::Target & PROC_CHIP = i_target; FAPI_SET_HWP_ERROR(rc, RC_MSS_NON_CHECKER_BOARD_MODE_GROUPING_NOT_POSSIBLE); return rc; } } else // Fabric is in checkerboard mode, allow all sizes. Anything but 1 will have performance impacts { - if(groups_allowed & 0x01) { - FAPI_INF("FABRIC IS IN CHECKER BOARD MODE AND IT SUPPORTS 1MCS/GROUP"); } - else { -// FAPI_ERR("UNABLE TO GROUP"); -// FAPI_ERR("FABRIC IS IN CHECKER BOARD MODE BUT IT DOES NOT SUPPORT 1MCS/GROUP. SET ATTRIBUTE 'ATTR_MSS_INTERLEAVE_ENABLE' TO SUPPORT '1MCS/GROUP'. OR DISABLE CHECKER BOARD, TO SUPPORT '2MCS/GROUP, 4MCS/GROUP AND 8MCS/GROUP'."); -// const fapi::Target & PROC_CHIP = i_target; -// FAPI_SET_HWP_ERROR(rc, RC_MSS_CHECKER_BOARD_MODE_GROUPING_NOT_POSSIBLE); -// return rc; - FAPI_INF("FABRIC IS IN CHECKER BOARD MODE BUT YOU ARE ASKING FOR MORE THAN 1MCS/GROUP. YOU ARE NOT GOING TO HAVE PERFOMRANCE YOU COULD GET IF YOU WERE IN CHECKERBOARD MODE"); + if((groups_allowed & 0x01) || (groups_allowed & 0x02) || (groups_allowed & 0x04)||(groups_allowed & 0x08)) + { + FAPI_INF("FABRIC IS IN CHECKER BOARD MODE AND IT SUPPORTS THE FOLLOWING "); + if(groups_allowed & 0x01){FAPI_INF("1MCS/GROUP");} + if(groups_allowed & 0x02){FAPI_INF("2MCS/GROUP");} + if(groups_allowed & 0x04){FAPI_INF("4MCS/GROUP");} + if(groups_allowed & 0x08){FAPI_INF("8MCS/GROUP");} + FAPI_INF("FABRIC DOES NOT SUPPORT THE FOLLOWING "); + if(!(groups_allowed & 0x01)){FAPI_INF("FABRIC IS IN CHECKER BOARD MODE BUT YOU ARE ASKING FOR MORE THAN 1MCS/GROUP. YOU ARE NOT GOING TO HAVE PERFOMRANCE YOU COULD GET IF YOU WERE IN CHECKERBOARD MODE");} + if(!(groups_allowed & 0x02)){FAPI_INF("2MCS/GROUP");} + if(!(groups_allowed & 0x04)){FAPI_INF("4MCS/GROUP");} + if(!(groups_allowed & 0x08)){FAPI_INF("8MCS/GROUP");} + if((groups_allowed & 0x02) || (groups_allowed & 0x04)||(groups_allowed & 0x08)){FAPI_INF("FABRIC IS IN CHECKER BOARD MODE BUT YOU ARE ASKING FOR MORE THAN 1MCS/GROUP. YOU ARE NOT GOING TO HAVE PERFOMRANCE YOU COULD GET IF YOU WERE IN CHECKERBOARD MODE");} + + + + + } + else + { + FAPI_ERR("UNABLE TO GROUP"); + FAPI_ERR("FABRIC IS IN CHECKER BOARD MODE . SET ATTRIBUTE 'ATTR_MSS_INTERLEAVE_ENABLE' "); +//@thi - hack const fapi::Target & PROC_CHIP = i_target; + FAPI_SET_HWP_ERROR(rc, RC_MSS_CHECKER_BOARD_MODE_GROUPING_NOT_POSSIBLE); + return rc; } @@ -308,7 +326,7 @@ extern "C" { done = 0 ; - if(!done && (groups_allowed & 0x08) && check_board) + if(!done && (groups_allowed & 0x08)) { count =0; @@ -338,7 +356,7 @@ extern "C" { } } - if(!done && (groups_allowed & 0x04) && check_board) + if(!done && (groups_allowed & 0x04)) { count=0; for(uint8_t i=0;i<6;i++) @@ -433,7 +451,7 @@ extern "C" { } } } - if(!done && (groups_allowed & 0x02) && check_board) + if(!done && (groups_allowed & 0x02)) { for(pos=0;pos< gp_pos;pos=pos+2) { @@ -453,7 +471,7 @@ extern "C" { } } } - if(!done && (groups_allowed & 0x01)&& !check_board) + if(!done && (groups_allowed & 0x01) && !check_board) { for(pos=0;pos< gp_pos;pos++) { @@ -484,7 +502,7 @@ extern "C" { ungroup++; if(ungroup == 1) { // First time, call out the Main error FAPI_SET_HWP_ERROR(ungroup_rc, RC_MSS_UNABLE_TO_GROUP_SUMMARY); - } + } const fapi::Target & TARGET_MCS = l_proc_chiplets[i]; FAPI_ADD_INFO_TO_HWP_ERROR(rc, RC_MSS_UNABLE_TO_GROUP_MCS); @@ -650,6 +668,7 @@ extern "C" { else { FAPI_ERR("Mirror Base address overlaps with memory base address. "); +//@thi - hack const fapi::Target & PROC_CHIP = i_target; FAPI_SET_HWP_ERROR(rc, RC_MSS_BASE_ADDRESS_OVERLAPS_MIRROR_ADDRESS); return rc; } diff --git a/src/usr/hwpf/hwp/nest_chiplets/proc_chiplet_scominit/proc_chiplet_scominit.C b/src/usr/hwpf/hwp/nest_chiplets/proc_chiplet_scominit/proc_chiplet_scominit.C index 5892dbd05..51f913ac7 100644 --- a/src/usr/hwpf/hwp/nest_chiplets/proc_chiplet_scominit/proc_chiplet_scominit.C +++ b/src/usr/hwpf/hwp/nest_chiplets/proc_chiplet_scominit/proc_chiplet_scominit.C @@ -20,7 +20,7 @@ /* Origin: 30 */ /* */ /* IBM_PROLOG_END_TAG */ -// $Id: proc_chiplet_scominit.C,v 1.11 2013/03/25 02:39:41 jmcgill Exp $ +// $Id: proc_chiplet_scominit.C,v 1.12 2013/04/08 13:49:08 jmcgill Exp $ // $Source: /afs/awd/projects/eclipz/KnowledgeBase/.cvsroot/eclipz/chips/p8/working/procedures/ipl/fapi/proc_chiplet_scominit.C,v $ //------------------------------------------------------------------------------ // *! (C) Copyright International Business Machines Corp. 2012 @@ -146,6 +146,22 @@ fapi::ReturnCode proc_chiplet_scominit(const fapi::Target & i_target) break; } + // execute CXA SCOM initfile + FAPI_INF("proc_chiplet_scominit: Executing %s on %s", + PROC_CHIPLET_SCOMINIT_CXA_IF, i_target.toEcmdString()); + FAPI_EXEC_HWP( + rc, + fapiHwpExecInitFile, + initfile_targets, + PROC_CHIPLET_SCOMINIT_CXA_IF); + if (!rc.ok()) + { + FAPI_ERR("proc_chiplet_scominit: Error from fapiHwpExecInitfile executing %s on %s", + PROC_CHIPLET_SCOMINIT_CXA_IF, + i_target.toEcmdString()); + break; + } + // execute AS SCOM initfile FAPI_INF("proc_chiplet_scominit: Executing %s on %s", PROC_CHIPLET_SCOMINIT_AS_IF, i_target.toEcmdString()); diff --git a/src/usr/hwpf/hwp/nest_chiplets/proc_chiplet_scominit/proc_chiplet_scominit.H b/src/usr/hwpf/hwp/nest_chiplets/proc_chiplet_scominit/proc_chiplet_scominit.H index 0019ee938..1c6a42a61 100644 --- a/src/usr/hwpf/hwp/nest_chiplets/proc_chiplet_scominit/proc_chiplet_scominit.H +++ b/src/usr/hwpf/hwp/nest_chiplets/proc_chiplet_scominit/proc_chiplet_scominit.H @@ -20,7 +20,7 @@ /* Origin: 30 */ /* */ /* IBM_PROLOG_END_TAG */ -// $Id: proc_chiplet_scominit.H,v 1.10 2013/03/25 02:39:43 jmcgill Exp $ +// $Id: proc_chiplet_scominit.H,v 1.11 2013/04/08 13:49:12 jmcgill Exp $ // $Source: /afs/awd/projects/eclipz/KnowledgeBase/.cvsroot/eclipz/chips/p8/working/procedures/ipl/fapi/proc_chiplet_scominit.H,v $ //------------------------------------------------------------------------------ // *! (C) Copyright International Business Machines Corp. 2012 @@ -54,6 +54,7 @@ const char * const PROC_CHIPLET_SCOMINIT_PSI_IF = "p8.psi.scom.if"; const char * const PROC_CHIPLET_SCOMINIT_TPBRIDGE_IF = "p8.tpbridge.scom.if"; const char * const PROC_CHIPLET_SCOMINIT_NX_IF = "p8.nx.scom.if"; const char * const PROC_CHIPLET_SCOMINIT_AS_IF = "p8.as.scom.if"; +const char * const PROC_CHIPLET_SCOMINIT_CXA_IF = "p8.cxa.scom.if"; const char * const PROC_CHIPLET_SCOMINIT_MCS_IF = "p8.mcs.scom.if"; //------------------------------------------------------------------------------ @@ -82,6 +83,7 @@ extern "C" { * - p8.psi.scom.initfile * - p8.tpbridge.scom.initfile * - p8.nx.scom.initfile + * - p8.cxa.scom.initfile * - p8.as.scom.initfile * - p8.mcs.scom.initfile for each functional MCS chiplet * diff --git a/src/usr/hwpf/makefile b/src/usr/hwpf/makefile index a8ae92228..244e8115b 100644 --- a/src/usr/hwpf/makefile +++ b/src/usr/hwpf/makefile @@ -138,7 +138,8 @@ HWP_INITFILES = hwp/initfiles/sample.initfile \ hwp/initfiles/p8.abus.custom.scom.initfile \ hwp/initfiles/p8.xbus.custom.scom.initfile \ hwp/initfiles/p8.psi.scom.initfile \ - hwp/initfiles/p8.tpbridge.scom.initfile + hwp/initfiles/p8.tpbridge.scom.initfile \ + hwp/initfiles/p8.cxa.scom.initfile HWP_IF_DEFINE_DIR = hwp/initfiles |