diff options
Diffstat (limited to 'src/import/chips/p9/procedures/hwp/memory/lib/power_thermal/throttle.C')
-rw-r--r-- | src/import/chips/p9/procedures/hwp/memory/lib/power_thermal/throttle.C | 286 |
1 files changed, 246 insertions, 40 deletions
diff --git a/src/import/chips/p9/procedures/hwp/memory/lib/power_thermal/throttle.C b/src/import/chips/p9/procedures/hwp/memory/lib/power_thermal/throttle.C index c3f2c7686..f468ec708 100644 --- a/src/import/chips/p9/procedures/hwp/memory/lib/power_thermal/throttle.C +++ b/src/import/chips/p9/procedures/hwp/memory/lib/power_thermal/throttle.C @@ -37,6 +37,7 @@ // mss lib #include <lib/power_thermal/throttle.H> +#include <lib/utils/count_dimm.H> #include <mss.H> using fapi2::TARGET_TYPE_MCA; using fapi2::TARGET_TYPE_MCS; @@ -45,68 +46,273 @@ using fapi2::TARGET_TYPE_MCBIST; namespace mss { +namespace power_thermal +{ + + +/// +/// @brief Constructor +/// @param[in] i_target MCS target to call power thermal stuff on +/// @param[out] o_rc, a return code which determines the success of the constructor +/// +throttle::throttle( const fapi2::Target<fapi2::TARGET_TYPE_MCA>& i_mca, fapi2::ReturnCode o_rc) : + iv_target(i_mca), + iv_databus_port_max(0), + iv_runtime_n_slot(0), + iv_runtime_n_port(0), + iv_n_slot(0), + iv_n_port(0), + iv_port_power_limit(0), + iv_port_maxpower(0), + iv_calc_port_maxpower(0) +{ + uint32_t l_dimm_power_limits [MAX_DIMM_PER_PORT] = {}; + + FAPI_TRY( mem_throttled_n_commands_per_slot( iv_target, iv_n_slot) ); + FAPI_TRY( mem_throttled_n_commands_per_port( iv_target, iv_n_port) ); + FAPI_TRY( port_maxpower ( iv_target, iv_port_maxpower) ); + FAPI_TRY( mrw_max_dram_databus_util(iv_databus_port_max) ); + + FAPI_TRY( mrw_dimm_power_curve_percent_uplift( iv_power_uplift) ); + FAPI_TRY( mrw_dimm_power_curve_percent_uplift_idle( iv_power_uplift_idle) ); + //FAPI_TRY( mrw_thermal_memory_power_limit( iv_dimm_thermal_limit) ); + + FAPI_TRY( runtime_mem_throttled_n_commands_per_slot(iv_target, iv_runtime_n_slot ) ); + FAPI_TRY( runtime_mem_throttled_n_commands_per_port(iv_target, iv_runtime_n_port ) ); + FAPI_TRY( mem_watt_target( iv_target, &(l_dimm_power_limits[0])) ); + FAPI_TRY( mrw_mem_m_dram_clocks(iv_m_clocks) ); + + //Port power limit = sum of dimm power limits + for ( const auto& l_dimm : mss::find_targets<TARGET_TYPE_DIMM>(iv_target) ) + { + iv_port_power_limit += l_dimm_power_limits[mss::index(l_dimm)]; + } + + FAPI_ASSERT ( (iv_databus_port_max != 0), + fapi2::MSS_NO_DATABUS_UTILIZATION() + .set_PORT_DATABUS_UTIL(iv_databus_port_max) + .set_MCA_TARGET(iv_target), + "Failed to get max databus utilization for target %s", + mss::c_str(iv_target)); + o_rc = fapi2::FAPI2_RC_SUCCESS; + return; + +fapi_try_exit: + o_rc = fapi2::current_err; + FAPI_ERR("Error getting attributes for mss::power_thermal::throttle ctor"); + return; +} /// /// @brief Set ATTR_MSS_CHANNEL_PAIR_MAXPOWER, ATTR_MSS_MEM_THROTTLED_N_COMMANDS_PER_SLOT and _PER_PORT -/// @param[in] Vector of MCS's on the same VDDR domain /// @return fapi2::ReturnCode - FAPI2_RC_SUCCESS iff get is OK /// @note Called in p9_mss_bulk_pwr_throttles /// @note determines the throttle levels based off of the port's power curve, /// @note the _per_slot throttles are set to the _per_port values /// @note throttles are all equalized and set to the worst case value /// -fapi2::ReturnCode bulk_power_regulator_throttles (const std::vector<fapi2::Target<TARGET_TYPE_MCS>>& i_targets) +fapi2::ReturnCode throttle::power_regulator_throttles () { - - for (const auto& l_mcs : i_targets) - { - uint32_t l_databus_util_max = 0; - uint8_t l_power_uplift = 0; - uint8_t l_power_uplift_idle = 0; - uint32_t l_dimm_power_limit [2][2] = {}; - uint32_t l_runtime_n_slot [2] = {}; - uint32_t l_m_clocks = 0; - uint32_t l_final_n_slot_array[2] = {}; - uint32_t l_port_maxpower[2] = {}; - - FAPI_TRY( mem_throttled_n_commands_per_slot( l_mcs, &(l_final_n_slot_array[0])) ); - FAPI_TRY( port_maxpower ( l_mcs, l_port_maxpower) ); - FAPI_TRY( mrw_max_dram_databus_util(l_databus_util_max) ); - FAPI_TRY( mrw_dimm_power_curve_percent_uplift( l_power_uplift) ); - FAPI_TRY( mrw_dimm_power_curve_percent_uplift_idle( l_power_uplift_idle) ); - FAPI_TRY( runtime_mem_throttled_n_commands_per_slot(l_mcs, &(l_runtime_n_slot[0]) ) ); - FAPI_TRY( mem_watt_target( l_mcs, &(l_dimm_power_limit[0][0])) ); - FAPI_TRY( mrw_mem_m_dram_clocks(l_m_clocks) ); - //Temp values until totally implemented - l_port_maxpower[0] = 2088; - l_port_maxpower[1] = 2088; - //same for per port and per slot - //Throttle per slot is set to per port value - l_final_n_slot_array[0] = 115; - l_final_n_slot_array[1] = 115; - FAPI_TRY( FAPI_ATTR_SET( fapi2::ATTR_MSS_PORT_MAXPOWER, l_mcs, l_port_maxpower) ); - //Set the throttle for the MCS target - FAPI_TRY( FAPI_ATTR_SET( fapi2::ATTR_MSS_MEM_THROTTLED_N_COMMANDS_PER_SLOT, l_mcs, l_final_n_slot_array ) ); - FAPI_TRY( FAPI_ATTR_SET( fapi2::ATTR_MSS_MEM_THROTTLED_N_COMMANDS_PER_PORT, l_mcs, l_final_n_slot_array ) ); - } // MCS - -fapi_try_exit: - FAPI_INF("End power regulator bulk throttles"); return fapi2::current_err; } /// /// @brief Set ATTR_MSS_MEM_THROTTLED_N_COMMANDS_PER_SLOT and PER_PORT -/// @param[in] Vector of MCS's on the same VDDR domain /// @return fapi2::ReturnCode - FAPI2_RC_SUCCESS iff get is OK /// @note Called in p9_mss_bulk_pwr_throttles /// @note Sets the throttle levels based off of the dimm's thermal limits /// @note both DIMM's on a port are set to the same throttle level /// -fapi2::ReturnCode bulk_thermal_throttles (const std::vector<fapi2::Target<TARGET_TYPE_MCS>>& i_targets) +fapi2::ReturnCode throttle::thermal_throttles () { - FAPI_INF("End thermal bulk throttles"); + return fapi2::FAPI2_RC_SUCCESS; } +/// +/// @brief Calculates the min and max power usage for a port based off of power curves and utilizati +/// @param[in] i_idle_util the utilization of the databus in idle mode +/// @param[in] i_max_util the utilization of the port at maximum possible (mrw or calculated) +/// @param[out] o_port_power_idle max value of port power in cW +/// @param[out] o_port_power_max max value of port power in cW +/// @note Called twice in p9_mss_bulk_pwr_throttles +/// @note uses dimm power curves from class variables +/// +void throttle::calc_port_power( const double i_idle_util [MAX_DIMM_PER_PORT], + const double i_max_util [MAX_DIMM_PER_PORT], + double& o_port_power_idle, + double& o_port_power_max) +{ + //Playing it safe + o_port_power_idle = 0; + o_port_power_max = 0; + + //Calculate the port power curve info by summing the dimms on the port + for ( const auto& l_dimm : mss::find_targets<TARGET_TYPE_DIMM>(iv_target) ) + { + uint32_t l_pos = mss::index(l_dimm); + //Sum up the dim's power to calculate the port power curve + o_port_power_idle += + ( i_idle_util[l_pos] / UTIL_CONVERSION * iv_pwr_slope[l_pos]) + iv_pwr_int[l_pos]; + + o_port_power_max += + ( i_max_util[l_pos] / UTIL_CONVERSION * iv_pwr_slope[l_pos]) + iv_pwr_int[l_pos]; + } + + //Raise the powers by the uplift percent + o_port_power_idle *= (1 + (double(iv_power_uplift_idle) / PERCENT_CONVERSION)); + o_port_power_max *= (1 + (double(iv_power_uplift) / PERCENT_CONVERSION)); +} + +/// +/// @brief Calculate the port power curve in order to calculate the port utilization +/// @paramp[in] i_port_power_calc_idle double of the port's power consumption at idle +/// @paramp[in] i_port_power_calc_max double of the port's power consumption at max utilization +/// @paramp[out] o_port_power_slope +/// @paramp[out] o_port_power_int +/// @note Called in p9_mss_bulk_pwr_throttles +/// @note Port power curve needed to calculate the port utilization +/// +fapi2::ReturnCode throttle::calc_port_power_curve (const double& i_port_power_calc_idle, + const double& i_port_power_calc_max, + uint32_t& o_port_power_slope, + uint32_t& o_port_power_int) +{ + double l_denominator = ((double(iv_databus_port_max) / UTIL_CONVERSION) - IDLE_UTIL); + + FAPI_ASSERT(l_denominator != 0, + fapi2::MSS_CALC_PORT_POWER_CURVE_DIVIDE_BY_ZERO(). + set_PORT_DATABUS_UTIL(iv_databus_port_max). + set_UTIL_CONVERSION(UTIL_CONVERSION). + set_IDLE_UTIL(IDLE_UTIL), + "Denominator = (databus(%d) / UTIL_CONVERSION (%d)) - IDLE_UTIL(%d)", + iv_databus_port_max, + UTIL_CONVERSION, + IDLE_UTIL); + + o_port_power_slope = (i_port_power_calc_max - i_port_power_calc_idle) / l_denominator; + o_port_power_int = i_port_power_calc_idle - (o_port_power_slope * IDLE_UTIL); + + return fapi2::FAPI2_RC_SUCCESS; + +fapi_try_exit: + return fapi2::current_err; +} + +/// +/// @brief Calculate the port's databus utilization given the port's power curve +/// @paramp[in] i_port_power_slope +/// @paramp[in] i_port_power_int +/// @paramp[out] o_port_util the port's databus utilization +/// @note Called in p9_mss_bulk_pwr_throttles +/// @note Chooses worst case between the maximum allowed databus utilization and the calculated value +/// @notes makes sure that the utilization isn't 0 +/// +void throttle::calc_port_util_usage (const uint32_t& i_port_power_slope, + const uint32_t& i_port_power_int, + double& o_port_util) +{ + o_port_util = (double(iv_port_power_limit) - i_port_power_int) / i_port_power_slope * UTIL_CONVERSION; + o_port_util = (uint32_t(o_port_util) < iv_databus_port_max) ? o_port_util : iv_databus_port_max; + o_port_util = (o_port_util == 0) ? 1 : o_port_util; +} + +/// +/// @brief Calculates the power max and idle for each dimm using power curves and databus utilization +/// @param[out] o_dimm_power_idle double type for precision, the DIMM power limit in idle state (0 utilization) +/// @param[out] o_dimm_power_max double type for precision, the DIMM power limit at max utilization +/// @note Called in p9_mss_bulk_pwr_throttle for thermal_throttles, eff_config_thermal +/// @note power values are as if dimm is alone on port, using port_databus_util_max +/// +void throttle::calc_dimm_power( double o_dimm_power_idle [MAX_DIMM_PER_PORT], + double o_dimm_power_max [MAX_DIMM_PER_PORT]) +{ + for ( const auto& l_dimm : mss::find_targets<TARGET_TYPE_DIMM>(iv_target) ) + { + const auto l_pos = mss::index(l_dimm); + + o_dimm_power_idle[l_pos] = iv_pwr_int[l_pos]; + o_dimm_power_max[l_pos] = (double(iv_databus_port_max) / UTIL_CONVERSION) * iv_pwr_slope[l_pos] + + iv_pwr_int[l_pos]; + + + //Raise the powers by the uplift percent + o_dimm_power_idle[l_pos] *= (1 + (iv_power_uplift_idle / PERCENT_CONVERSION)); + o_dimm_power_max[l_pos] *= (1 + (iv_power_uplift / PERCENT_CONVERSION)); + } +} + +/// +/// @brief Converts the port maximum databus to a dimm level based on powerslopes and dimms installed +/// @param[in] i_databus_port_max max databus utilization for the port (either calculated or mrw) +/// @param[out] o_databus_dimm_max array of dimm utilization values +/// @return fapi2::ReturnCode - FAPI2_RC_SUCCESS iff the split is OK +/// @note Called in p9_mss_bulk_pwr_throttles +/// @used to calculate the port power based off of DIMM power curves +/// +fapi2::ReturnCode throttle::calc_databus( const double& i_databus_port_max, + double o_databus_dimm_max [MAX_DIMM_PER_PORT]) +{ + uint8_t l_count_dimms = count_dimm (iv_target); + + //No work for no dimms + if (l_count_dimms == 0) + { + return fapi2::FAPI2_RC_SUCCESS; + } + + for (const auto& l_dimm : mss::find_targets<fapi2::TARGET_TYPE_DIMM>(iv_target)) + { + //Left early if count_dimms == 0 + o_databus_dimm_max[mss::index(l_dimm)] = i_databus_port_max / l_count_dimms; + } + + //If not equal power slopes, set the dimm with the highest power slope + //Should be correct even if only one DIMM installed + if (iv_pwr_slope[0] != iv_pwr_slope[1]) + { + o_databus_dimm_max[0] = (iv_pwr_slope[0] > iv_pwr_slope[1]) ? i_databus_port_max : 0; + o_databus_dimm_max[1] = (iv_pwr_slope[1] > iv_pwr_slope[0]) ? i_databus_port_max : 0; + } + + //make sure both aren't equal to 0 + FAPI_ASSERT ( (o_databus_dimm_max[0] != 0) || (o_databus_dimm_max[1] != 0), + fapi2::MSS_NO_DATABUS_UTILIZATION() + .set_PORT_DATABUS_UTIL(iv_databus_port_max) + .set_MCA_TARGET(iv_target), + "Failed to calculated databus utilization for target %s", + mss::c_str(iv_target)); + +fapi_try_exit: + return fapi2::current_err; +} + +/// +/// @brief Perform thermal calculations as part of the effective configuration +/// @param[in] i_target the MCS target in which the runtime throttles will be reset +/// @return FAPI2_RC_SUCCESS iff ok +/// TK implement/ will be overun? +/// +fapi2::ReturnCode restore_runtime_throttles( const fapi2::Target<fapi2::TARGET_TYPE_MCS>& i_target ) +{ + uint32_t l_run_throttles [PORTS_PER_MCS] = {}; + uint32_t l_max_databus = 0; + uint32_t l_throttle_m_clocks [PORTS_PER_MCS] = {}; + + FAPI_TRY( runtime_mem_m_dram_clocks(i_target, l_throttle_m_clocks) ); + FAPI_TRY( mrw_max_dram_databus_util(l_max_databus) ); + + for (const auto& l_mca : find_targets<TARGET_TYPE_MCA> (i_target)) + { + const uint8_t l_pos = mss::index(l_mca); + l_run_throttles[l_pos] = mss::power_thermal::throttled_cmds(l_max_databus, l_throttle_m_clocks[0]); + } + + FAPI_TRY( FAPI_ATTR_SET( fapi2::ATTR_MSS_RUNTIME_MEM_THROTTLED_N_COMMANDS_PER_PORT, i_target, l_run_throttles) ); + +fapi_try_exit: + return fapi2::current_err; +} +}//namespace power_thermal + }//namespace mss |