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| author | Greg Still <stillgs@us.ibm.com> | 2017-10-17 22:48:12 -0500 |
|---|---|---|
| committer | Daniel M. Crowell <dcrowell@us.ibm.com> | 2017-10-24 18:01:18 -0400 |
| commit | 15a0de1fdd5c2d971bede3e0fb4e6cd93b84f5e8 (patch) | |
| tree | bdf8a0cf090ffe50fcf73987c657a843662335a4 /src/import/chips/p9/procedures/hwp/pm/p9_pstate_parameter_block.C | |
| parent | e999f9d51fb07ba06ea0b86de11b071742a64c0d (diff) | |
| download | talos-hostboot-15a0de1fdd5c2d971bede3e0fb4e6cd93b84f5e8.tar.gz talos-hostboot-15a0de1fdd5c2d971bede3e0fb4e6cd93b84f5e8.zip | |
PM: Fix Safe Mode settings in Global PState Paramter Block
- Fix safe frequency to deal with kHz <> MHz transform
- Fix endianess issue with safe mode slope computation
- Expanded debug tracing
- Fix review bug
Change-Id: I6b7dd899fffb7edb0b7666935ecd63591a5a4c7a
CQ: SW405488
Reviewed-on: http://ralgit01.raleigh.ibm.com/gerrit1/48540
Tested-by: FSP CI Jenkins <fsp-CI-jenkins+hostboot@us.ibm.com>
Tested-by: Jenkins Server <pfd-jenkins+hostboot@us.ibm.com>
Tested-by: Hostboot CI <hostboot-ci+hostboot@us.ibm.com>
Reviewed-by: Jennifer A. Stofer <stofer@us.ibm.com>
Reviewed-on: http://ralgit01.raleigh.ibm.com/gerrit1/48541
Tested-by: Jenkins OP Build CI <op-jenkins+hostboot@us.ibm.com>
Tested-by: Jenkins OP HW <op-hw-jenkins+hostboot@us.ibm.com>
Reviewed-by: Daniel M. Crowell <dcrowell@us.ibm.com>
Diffstat (limited to 'src/import/chips/p9/procedures/hwp/pm/p9_pstate_parameter_block.C')
| -rw-r--r-- | src/import/chips/p9/procedures/hwp/pm/p9_pstate_parameter_block.C | 170 |
1 files changed, 130 insertions, 40 deletions
diff --git a/src/import/chips/p9/procedures/hwp/pm/p9_pstate_parameter_block.C b/src/import/chips/p9/procedures/hwp/pm/p9_pstate_parameter_block.C index e33862f81..933d086ff 100644 --- a/src/import/chips/p9/procedures/hwp/pm/p9_pstate_parameter_block.C +++ b/src/import/chips/p9/procedures/hwp/pm/p9_pstate_parameter_block.C @@ -559,7 +559,12 @@ p9_pstate_parameter_block( const fapi2::Target<fapi2::TARGET_TYPE_PROC_CHIP>& i_ // safe_frequency_khz l_globalppb.safe_frequency_khz = - revle32(attr.attr_pm_safe_frequency_mhz / 1000); + revle32(attr.attr_pm_safe_frequency_mhz * 1000); + FAPI_INF("Safe Mode Frequency %d (0x%X) kHz; Voltage %d (0x%X) mV", + revle32(l_globalppb.safe_frequency_khz), + revle32(l_globalppb.safe_frequency_khz), + revle32(l_globalppb.safe_voltage_mv), + revle32(l_globalppb.safe_voltage_mv)); // vrm_stepdelay_range -@todo RTC 161279 potential attributes to be defined @@ -4424,24 +4429,82 @@ uint32_t pstate2voltage(const Pstate i_pstate, { VpdOperatingPoint operating_points[NUM_OP_POINTS]; load_mvpd_operating_point(i_attr_mvpd_data, operating_points, i_step_frequency); + uint32_t region_start, region_end; + const char* pv_op_str[NUM_OP_POINTS] = PV_OP_ORDER_STR; - uint32_t l_SlopeValue = revle16(compute_slope_4_12(revle32(operating_points[NOMINAL].vdd_mv), - revle32(operating_points[POWERSAVE].vdd_mv), - operating_points[POWERSAVE].pstate, - operating_points[NOMINAL].pstate)); + FAPI_DBG("i_pstate = 0x%x, (%d)", i_pstate, i_pstate); - FAPI_INF("l_globalppb.operating_points[NOMINAL].vdd_mv %x",revle32(operating_points[NOMINAL].vdd_mv)); - FAPI_INF("l_globalppb.operating_points[POWERSAVE].vdd_mv%x",revle32(operating_points[POWERSAVE].vdd_mv)); - FAPI_INF("l_globalppb.operating_points[NOMINAL].pstate %x",operating_points[NOMINAL].pstate); - FAPI_INF("l_globalppb.operating_points[POWERSAVE].pstate %x",operating_points[POWERSAVE].pstate); + // Determine the VPD region + if(i_pstate > operating_points[NOMINAL].pstate) + { + region_start = POWERSAVE; + region_end = NOMINAL; + FAPI_DBG("Region POWERSAVE_NOMINAL detected"); + } + else if(i_pstate > operating_points[TURBO].pstate) + { + region_start = NOMINAL; + region_end = TURBO; + FAPI_DBG("Region NOMINAL_TURBO detected"); + } + else + { + region_start = TURBO; + region_end = ULTRA; + FAPI_DBG("Region TURBO_ULTRA detected"); + } + + uint32_t l_SlopeValue = + compute_slope_4_12(revle32(operating_points[region_end].vdd_mv), + revle32(operating_points[region_start].vdd_mv), + operating_points[region_start].pstate, + operating_points[region_end].pstate); + + FAPI_INF("l_globalppb.operating_points[%s].vdd_mv 0x%-3x (%d)", + pv_op_str[region_end], + revle32(operating_points[region_end].vdd_mv), + revle32(operating_points[region_end].vdd_mv)); + FAPI_INF("l_globalppb.operating_points[%s].vdd_mv 0x%-3x (%d)", + pv_op_str[region_start], + revle32(operating_points[region_start].vdd_mv), + revle32(operating_points[region_start].vdd_mv)); + FAPI_INF("l_globalppb.operating_points[%s].pstate 0x%-3x (%d)", + pv_op_str[region_end], + operating_points[region_end].pstate, + operating_points[region_end].pstate); + FAPI_INF("l_globalppb.operating_points[%s].pstate 0x%-3x (%d)", + pv_op_str[region_start], + operating_points[region_start].pstate, + operating_points[region_start].pstate); FAPI_INF ("l_SlopeValue %x",l_SlopeValue); - uint32_t l_vdd = (( (l_SlopeValue * (-i_pstate + operating_points[POWERSAVE].pstate)) >> - VID_SLOPE_FP_SHIFT_12) + revle32(operating_points[POWERSAVE].vdd_mv)); + uint32_t x = (l_SlopeValue * (-i_pstate + operating_points[region_start].pstate)); + uint32_t y = x >> VID_SLOPE_FP_SHIFT_12; + + uint32_t l_vdd = + (((l_SlopeValue * (-i_pstate + operating_points[region_start].pstate)) >> VID_SLOPE_FP_SHIFT_12) + + revle32(operating_points[region_start].vdd_mv)); + + // Round up + l_vdd = (l_vdd << 1) + 1; + l_vdd = l_vdd >> 1; + + FAPI_DBG("i_pstate = %d " + "operating_points[%s].pstate) = %d " + "operating_points[%s].vdd_mv = %d " + "VID_SLOPE_FP_SHIFT_12 = %X " + "x = %x (%d) y = %x (%d)", + i_pstate, + pv_op_str[region_start], operating_points[region_start].pstate, + pv_op_str[region_start], revle32(operating_points[region_start].vdd_mv), + VID_SLOPE_FP_SHIFT_12, + x, x, + y, y); + - FAPI_INF ("l_vdd %x",l_vdd); + FAPI_INF ("l_vdd 0x%x (%d)", l_vdd, l_vdd); return l_vdd; } @@ -4449,7 +4512,8 @@ uint32_t pstate2voltage(const Pstate i_pstate, //p9_pstate_safe_mode_computation fapi2::ReturnCode p9_pstate_safe_mode_computation(const fapi2::Target<fapi2::TARGET_TYPE_PROC_CHIP>& i_target, - const uint32_t i_attr_mvpd_data[PV_D][PV_W],const uint32_t i_reference_freq, + const uint32_t i_attr_mvpd_data[PV_D][PV_W], + const uint32_t i_reference_freq, const uint32_t i_step_frequency, const Pstate i_ps_pstate, Safe_mode_parameters *o_safe_mode_values, @@ -4457,10 +4521,13 @@ p9_pstate_safe_mode_computation(const fapi2::Target<fapi2::TARGET_TYPE_PROC_CHIP { Safe_mode_parameters l_safe_mode_values; const fapi2::Target<fapi2::TARGET_TYPE_SYSTEM> FAPI_SYSTEM; - fapi2::ATTR_SAFE_MODE_FREQUENCY_MHZ_Type l_safe_mode_freq; + fapi2::ATTR_SAFE_MODE_FREQUENCY_MHZ_Type l_safe_mode_freq_mhz; fapi2::ATTR_SAFE_MODE_VOLTAGE_MV_Type l_safe_mode_mv; + uint32_t l_safe_mode_op_ps2freq_mhz; - FAPI_TRY(FAPI_ATTR_GET(fapi2::ATTR_FREQ_CORE_FLOOR_MHZ, FAPI_SYSTEM, l_safe_mode_values.safe_op_freq_mhz)); + FAPI_TRY(FAPI_ATTR_GET(fapi2::ATTR_FREQ_CORE_FLOOR_MHZ, + FAPI_SYSTEM, + l_safe_mode_values.safe_op_freq_mhz)); // Core floor frequency should be less than ultra turbo freq.. // if not log an error @@ -4476,58 +4543,77 @@ p9_pstate_safe_mode_computation(const fapi2::Target<fapi2::TARGET_TYPE_PROC_CHIP "Core floor freq is greater than UT freq"); } - FAPI_TRY(FAPI_ATTR_GET(fapi2::ATTR_SAFE_MODE_FREQUENCY_MHZ, i_target, l_safe_mode_freq)); + FAPI_TRY(FAPI_ATTR_GET(fapi2::ATTR_SAFE_MODE_FREQUENCY_MHZ, i_target, l_safe_mode_freq_mhz)); FAPI_TRY(FAPI_ATTR_GET(fapi2::ATTR_SAFE_MODE_VOLTAGE_MV, i_target, l_safe_mode_mv)); - FAPI_INF ("l_safe_mode_values.safe_op_freq_mhz %08x",l_safe_mode_values.safe_op_freq_mhz); - FAPI_INF ("i_reference_freq %08x",i_reference_freq); - FAPI_INF ("i_step_frequency %08x",i_step_frequency); + FAPI_INF ("l_safe_mode_values.safe_op_freq_mhz 0%08x (%d)", + l_safe_mode_values.safe_op_freq_mhz, + l_safe_mode_values.safe_op_freq_mhz); + FAPI_INF ("i_reference_freq 0%08x (%d)", + i_reference_freq, i_reference_freq); + FAPI_INF ("i_step_frequency 0%08x (%d)", + i_step_frequency, i_step_frequency); - // Calculate safe op pstate for Power save + // Calculate safe operational pstate. This must be rounded down to create + // a faster Pstate than the floor l_safe_mode_values.safe_op_ps = ((float)(i_reference_freq) - - (float)(l_safe_mode_values.safe_op_freq_mhz * 1000)) / - (float)i_step_frequency; - FAPI_INF("l_safe_mode_values.safe_op_ps %x",l_safe_mode_values.safe_op_ps); + (float)(l_safe_mode_values.safe_op_freq_mhz * 1000)) / + (float)i_step_frequency; + + l_safe_mode_op_ps2freq_mhz = + (i_reference_freq - (l_safe_mode_values.safe_op_ps * i_step_frequency)) / 1000; + + while (l_safe_mode_op_ps2freq_mhz < l_safe_mode_values.safe_op_freq_mhz) + { + l_safe_mode_values.safe_op_ps--; + + l_safe_mode_op_ps2freq_mhz = + (i_reference_freq - (l_safe_mode_values.safe_op_ps * i_step_frequency)) / 1000; + } // Calculate safe jump value for large frequency l_safe_mode_values.safe_vdm_jump_value = large_jump_interpolate (l_safe_mode_values.safe_op_ps, i_attr_mvpd_data, i_step_frequency, i_ps_pstate, i_poundw_data); - FAPI_INF ("l_safe_mode_values.safe_vdm_jump_value %x",l_safe_mode_values.safe_vdm_jump_value); - - - // Calculate safe mode freq - l_safe_mode_values.safe_mode_freq_mhz = ((1 + l_safe_mode_values.safe_vdm_jump_value /32) * - l_safe_mode_values.safe_op_freq_mhz / - (i_step_frequency / 1000)) * //converting from khz to mhz - (i_step_frequency / 1000); - - - if (l_safe_mode_freq) + FAPI_INF ("l_safe_mode_values.safe_vdm_jump_value %x", + l_safe_mode_values.safe_vdm_jump_value); + + // Calculate safe mode frequency - Round up to nearest MHz + // The uplifted frequency is based on the fact that the DPLL percentage is a + // "down" value. Hence: + // X (uplifted safe) = Y (safe operating) / (1 - droop percentage) + l_safe_mode_values.safe_mode_freq_mhz = (uint32_t) + (((float)l_safe_mode_values.safe_op_freq_mhz * 1000 / + (1 - (float)l_safe_mode_values.safe_vdm_jump_value/32) + 500) / 1000); + + if (l_safe_mode_freq_mhz) { - l_safe_mode_values.safe_mode_freq_mhz = l_safe_mode_freq; + l_safe_mode_values.safe_mode_freq_mhz = l_safe_mode_freq_mhz; FAPI_INF("Applying override safe mode freq value"); } else { FAPI_TRY(FAPI_ATTR_SET(fapi2::ATTR_SAFE_MODE_FREQUENCY_MHZ, i_target, l_safe_mode_values.safe_mode_freq_mhz)); } - FAPI_INF ("l_safe_mode_values.safe_mode_freq_mhz %0x",l_safe_mode_values.safe_mode_freq_mhz); + FAPI_INF ("l_safe_mode_values.safe_mode_freq_mhz 0x%0x (%d)", + l_safe_mode_values.safe_mode_freq_mhz, + l_safe_mode_values.safe_mode_freq_mhz); l_safe_mode_values.safe_mode_ps = ((float)(i_reference_freq) - (float)(l_safe_mode_values.safe_mode_freq_mhz * 1000)) / (float)i_step_frequency; - FAPI_INF ("l_safe_mode_values.safe_mode_ps %x",l_safe_mode_values.safe_mode_ps); + FAPI_INF ("l_safe_mode_values.safe_mode_ps %x (%d)", + l_safe_mode_values.safe_mode_ps, + l_safe_mode_values.safe_mode_ps); // Calculate safe mode voltage l_safe_mode_values.safe_mode_mv = pstate2voltage(l_safe_mode_values.safe_mode_ps, i_attr_mvpd_data, i_step_frequency); - if (l_safe_mode_mv) { l_safe_mode_values.safe_mode_mv = l_safe_mode_mv; @@ -4538,7 +4624,9 @@ p9_pstate_safe_mode_computation(const fapi2::Target<fapi2::TARGET_TYPE_PROC_CHIP FAPI_TRY(FAPI_ATTR_SET(fapi2::ATTR_SAFE_MODE_VOLTAGE_MV, i_target, l_safe_mode_values.safe_mode_mv)); } - FAPI_INF ("l_safe_mode_values.safe_mode_mv %x",l_safe_mode_values.safe_mode_mv); + FAPI_INF ("l_safe_mode_values.safe_mode_mv %x", + l_safe_mode_values.safe_mode_mv, + l_safe_mode_values.safe_mode_mv); fapi2::ATTR_SAFE_MODE_NOVDM_UPLIFT_MV_Type l_uplift_mv; @@ -4547,7 +4635,9 @@ p9_pstate_safe_mode_computation(const fapi2::Target<fapi2::TARGET_TYPE_PROC_CHIP // Calculate boot mode voltage l_safe_mode_values.boot_mode_mv = l_safe_mode_values.safe_mode_mv + l_uplift_mv; - FAPI_INF("l_safe_mode_values.boot_mode_mv %x",l_safe_mode_values.boot_mode_mv); + FAPI_INF("l_safe_mode_values.boot_mode_mv 0x%x (%d)", + l_safe_mode_values.boot_mode_mv, + l_safe_mode_values.boot_mode_mv); memcpy (o_safe_mode_values,&l_safe_mode_values, sizeof(Safe_mode_parameters)); |
