From 0deef376d96bfe0a3a2496714ac22471d9ee818a Mon Sep 17 00:00:00 2001 From: Yasuko Eckert Date: Tue, 3 Jun 2014 13:32:59 -0700 Subject: ext: McPAT interface changes and fixes This patch includes software engineering changes and some generic bug fixes Joel Hestness and Yasuko Eckert made to McPAT 0.8. There are still known issues/concernts we did not have a chance to address in this patch. High-level changes in this patch include: 1) Making XML parsing modular and hierarchical: - Shift parsing responsibility into the components - Read XML in a (mostly) context-free recursive manner so that McPAT input files can contain arbitrary component hierarchies 2) Making power, energy, and area calculations a hierarchical and recursive process - Components track their subcomponents and recursively call compute functions in stages - Make C++ object hierarchy reflect inheritance of classes of components with similar structures - Simplify computeArea() and computeEnergy() functions to eliminate successive calls to calculate separate TDP vs. runtime energy - Remove Processor component (now unnecessary) and introduce a more abstract System component 3) Standardizing McPAT output across all components - Use a single, common data structure for storing and printing McPAT output - Recursively call print functions through component hierarchy 4) For caches, allow splitting data array and tag array reads and writes for better accuracy 5) Improving the usability of CACTI by printing more helpful warning and error messages 6) Minor: Impose more rigorous code style for clarity (more work still to be done) Overall, these changes greatly reduce the amount of replicated code, and they improve McPAT runtime and decrease memory footprint. --- ext/mcpat/cacti/uca.cc | 723 +++++++++++++++++++++++++------------------------ 1 file changed, 362 insertions(+), 361 deletions(-) (limited to 'ext/mcpat/cacti/uca.cc') diff --git a/ext/mcpat/cacti/uca.cc b/ext/mcpat/cacti/uca.cc index 568cd9e44..703ad470f 100755 --- a/ext/mcpat/cacti/uca.cc +++ b/ext/mcpat/cacti/uca.cc @@ -2,6 +2,7 @@ * McPAT/CACTI * SOFTWARE LICENSE AGREEMENT * Copyright 2012 Hewlett-Packard Development Company, L.P. + * Copyright (c) 2010-2013 Advanced Micro Devices, Inc. * All Rights Reserved * * Redistribution and use in source and binary forms, with or without @@ -25,7 +26,7 @@ * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE - * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.” + * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * ***************************************************************************/ @@ -37,390 +38,390 @@ #include "uca.h" UCA::UCA(const DynamicParameter & dyn_p) - :dp(dyn_p), bank(dp), nbanks(g_ip->nbanks), refresh_power(0) -{ - int num_banks_ver_dir = 1 << ((bank.area.h > bank.area.w) ? _log2(nbanks)/2 : (_log2(nbanks) - _log2(nbanks)/2)); - int num_banks_hor_dir = nbanks/num_banks_ver_dir; - - if (dp.use_inp_params) - { - RWP = dp.num_rw_ports; - ERP = dp.num_rd_ports; - EWP = dp.num_wr_ports; - SCHP = dp.num_search_ports; - } - else - { - RWP = g_ip->num_rw_ports; - ERP = g_ip->num_rd_ports; - EWP = g_ip->num_wr_ports; - SCHP = g_ip->num_search_ports; - } - - num_addr_b_bank = (dp.number_addr_bits_mat + dp.number_subbanks_decode)*(RWP+ERP+EWP); - num_di_b_bank = dp.num_di_b_bank_per_port * (RWP + EWP); - num_do_b_bank = dp.num_do_b_bank_per_port * (RWP + ERP); - num_si_b_bank = dp.num_si_b_bank_per_port * SCHP; - num_so_b_bank = dp.num_so_b_bank_per_port * SCHP; - - if (!dp.fully_assoc && !dp.pure_cam) - { - - if (g_ip->fast_access && dp.is_tag == false) - { - num_do_b_bank *= g_ip->data_assoc; - } - - htree_in_add = new Htree2(g_ip->wt, bank.area.w, bank.area.h, - num_addr_b_bank, num_di_b_bank,0, num_do_b_bank,0,num_banks_ver_dir*2, num_banks_hor_dir*2, Add_htree, true); - htree_in_data = new Htree2(g_ip->wt, bank.area.w, bank.area.h, - num_addr_b_bank, num_di_b_bank, 0, num_do_b_bank, 0, num_banks_ver_dir*2, num_banks_hor_dir*2, Data_in_htree, true); - htree_out_data = new Htree2(g_ip->wt, bank.area.w, bank.area.h, - num_addr_b_bank, num_di_b_bank, 0, num_do_b_bank, 0, num_banks_ver_dir*2, num_banks_hor_dir*2, Data_out_htree, true); - } - - else - { - - htree_in_add = new Htree2(g_ip->wt, bank.area.w, bank.area.h, - num_addr_b_bank, num_di_b_bank, num_si_b_bank, num_do_b_bank, num_so_b_bank, num_banks_ver_dir*2, num_banks_hor_dir*2, Add_htree, true); - htree_in_data = new Htree2(g_ip->wt, bank.area.w, bank.area.h, - num_addr_b_bank, num_di_b_bank,num_si_b_bank, num_do_b_bank, num_so_b_bank, num_banks_ver_dir*2, num_banks_hor_dir*2, Data_in_htree, true); - htree_out_data = new Htree2(g_ip->wt, bank.area.w, bank.area.h, - num_addr_b_bank, num_di_b_bank,num_si_b_bank, num_do_b_bank, num_so_b_bank, num_banks_ver_dir*2, num_banks_hor_dir*2, Data_out_htree, true); - htree_in_search = new Htree2(g_ip->wt, bank.area.w, bank.area.h, - num_addr_b_bank, num_di_b_bank,num_si_b_bank, num_do_b_bank, num_so_b_bank, num_banks_ver_dir*2, num_banks_hor_dir*2, Data_in_htree, true); - htree_out_search = new Htree2(g_ip->wt, bank.area.w, bank.area.h, - num_addr_b_bank, num_di_b_bank,num_si_b_bank, num_do_b_bank, num_so_b_bank, num_banks_ver_dir*2, num_banks_hor_dir*2, Data_out_htree, true); - } - - area.w = htree_in_data->area.w; - area.h = htree_in_data->area.h; - - area_all_dataramcells = bank.mat.subarray.get_total_cell_area() * dp.num_subarrays * g_ip->nbanks; + : dp(dyn_p), bank(dp), nbanks(g_ip->nbanks), refresh_power(0) { + int num_banks_ver_dir = 1 << ((bank.area.h > bank.area.w) ? _log2(nbanks) + / 2 : (_log2(nbanks) - _log2(nbanks) / 2)); + int num_banks_hor_dir = nbanks / num_banks_ver_dir; + + if (dp.use_inp_params) { + RWP = dp.num_rw_ports; + ERP = dp.num_rd_ports; + EWP = dp.num_wr_ports; + SCHP = dp.num_search_ports; + } else { + RWP = g_ip->num_rw_ports; + ERP = g_ip->num_rd_ports; + EWP = g_ip->num_wr_ports; + SCHP = g_ip->num_search_ports; + } + + num_addr_b_bank = (dp.number_addr_bits_mat + dp.number_subbanks_decode) * + (RWP + ERP + EWP); + num_di_b_bank = dp.num_di_b_bank_per_port * (RWP + EWP); + num_do_b_bank = dp.num_do_b_bank_per_port * (RWP + ERP); + num_si_b_bank = dp.num_si_b_bank_per_port * SCHP; + num_so_b_bank = dp.num_so_b_bank_per_port * SCHP; + + if (!dp.fully_assoc && !dp.pure_cam) { + + if (g_ip->fast_access && dp.is_tag == false) { + num_do_b_bank *= g_ip->data_assoc; + } + + htree_in_add = new Htree2(g_ip->wt, bank.area.w, bank.area.h, + num_addr_b_bank, num_di_b_bank, 0, + num_do_b_bank, 0, num_banks_ver_dir * 2, + num_banks_hor_dir * 2, Add_htree, true); + htree_in_data = new Htree2(g_ip->wt, bank.area.w, bank.area.h, + num_addr_b_bank, num_di_b_bank, 0, + num_do_b_bank, 0, num_banks_ver_dir * 2, + num_banks_hor_dir * 2, Data_in_htree, true); + htree_out_data = new Htree2(g_ip->wt, bank.area.w, bank.area.h, + num_addr_b_bank, num_di_b_bank, 0, + num_do_b_bank, 0, num_banks_ver_dir * 2, + num_banks_hor_dir * 2, Data_out_htree, true); + } + + else { + + htree_in_add = new Htree2(g_ip->wt, bank.area.w, bank.area.h, + num_addr_b_bank, num_di_b_bank, + num_si_b_bank, num_do_b_bank, num_so_b_bank, + num_banks_ver_dir * 2, num_banks_hor_dir * 2, + Add_htree, true); + htree_in_data = new Htree2(g_ip->wt, bank.area.w, bank.area.h, + num_addr_b_bank, num_di_b_bank, + num_si_b_bank, num_do_b_bank, num_so_b_bank, + num_banks_ver_dir * 2, num_banks_hor_dir * 2, + Data_in_htree, true); + htree_out_data = new Htree2(g_ip->wt, bank.area.w, bank.area.h, + num_addr_b_bank, num_di_b_bank, + num_si_b_bank, num_do_b_bank, + num_so_b_bank, num_banks_ver_dir * 2, + num_banks_hor_dir * 2, Data_out_htree, true); + htree_in_search = new Htree2(g_ip->wt, bank.area.w, bank.area.h, + num_addr_b_bank, num_di_b_bank, + num_si_b_bank, num_do_b_bank, + num_so_b_bank, num_banks_ver_dir * 2, + num_banks_hor_dir * 2, Data_in_htree, true); + htree_out_search = new Htree2(g_ip->wt, bank.area.w, bank.area.h, + num_addr_b_bank, num_di_b_bank, + num_si_b_bank, num_do_b_bank, + num_so_b_bank, num_banks_ver_dir * 2, + num_banks_hor_dir * 2, Data_out_htree, + true); + } + + area.w = htree_in_data->area.w; + area.h = htree_in_data->area.h; + + area_all_dataramcells = bank.mat.subarray.get_total_cell_area() * dp.num_subarrays * g_ip->nbanks; // cout<<"area cell"<delay + bank.htree_in_add->delay; - double max_delay_before_row_decoder = delay_array_to_mat + bank.mat.r_predec->delay; - delay_array_to_sa_mux_lev_1_decoder = delay_array_to_mat + - bank.mat.sa_mux_lev_1_predec->delay + - bank.mat.sa_mux_lev_1_dec->delay; - delay_array_to_sa_mux_lev_2_decoder = delay_array_to_mat + - bank.mat.sa_mux_lev_2_predec->delay + - bank.mat.sa_mux_lev_2_dec->delay; - double delay_inside_mat = bank.mat.row_dec->delay + bank.mat.delay_bitline + bank.mat.delay_sa; - - delay_before_subarray_output_driver = - MAX(MAX(max_delay_before_row_decoder + delay_inside_mat, // row_path - delay_array_to_mat + bank.mat.b_mux_predec->delay + bank.mat.bit_mux_dec->delay + bank.mat.delay_sa), // col_path - MAX(delay_array_to_sa_mux_lev_1_decoder, // sa_mux_lev_1_path - delay_array_to_sa_mux_lev_2_decoder)); // sa_mux_lev_2_path - delay_from_subarray_out_drv_to_out = bank.mat.delay_subarray_out_drv_htree + - bank.htree_out_data->delay + htree_out_data->delay; - access_time = bank.mat.delay_comparator; - - double ram_delay_inside_mat; - if (dp.fully_assoc) - { - //delay of FA contains both CAM tag and RAM data - { //delay of CAM - ram_delay_inside_mat = bank.mat.delay_bitline + bank.mat.delay_matchchline; - access_time = htree_in_add->delay + bank.htree_in_add->delay; - //delay of fully-associative data array - access_time += ram_delay_inside_mat + delay_from_subarray_out_drv_to_out; +double UCA::compute_delays(double inrisetime) { + double outrisetime = bank.compute_delays(inrisetime); + + double delay_array_to_mat = htree_in_add->delay + bank.htree_in_add->delay; + double max_delay_before_row_decoder = delay_array_to_mat + bank.mat.r_predec->delay; + delay_array_to_sa_mux_lev_1_decoder = delay_array_to_mat + + bank.mat.sa_mux_lev_1_predec->delay + + bank.mat.sa_mux_lev_1_dec->delay; + delay_array_to_sa_mux_lev_2_decoder = delay_array_to_mat + + bank.mat.sa_mux_lev_2_predec->delay + + bank.mat.sa_mux_lev_2_dec->delay; + double delay_inside_mat = bank.mat.row_dec->delay + bank.mat.delay_bitline + bank.mat.delay_sa; + + delay_before_subarray_output_driver = + MAX(MAX(max_delay_before_row_decoder + delay_inside_mat, // row_path + delay_array_to_mat + bank.mat.b_mux_predec->delay + bank.mat.bit_mux_dec->delay + bank.mat.delay_sa), // col_path + MAX(delay_array_to_sa_mux_lev_1_decoder, // sa_mux_lev_1_path + delay_array_to_sa_mux_lev_2_decoder)); // sa_mux_lev_2_path + delay_from_subarray_out_drv_to_out = bank.mat.delay_subarray_out_drv_htree + + bank.htree_out_data->delay + htree_out_data->delay; + access_time = bank.mat.delay_comparator; + + double ram_delay_inside_mat; + if (dp.fully_assoc) { + //delay of FA contains both CAM tag and RAM data + { //delay of CAM + ram_delay_inside_mat = bank.mat.delay_bitline + bank.mat.delay_matchchline; + access_time = htree_in_add->delay + bank.htree_in_add->delay; + //delay of fully-associative data array + access_time += ram_delay_inside_mat + delay_from_subarray_out_drv_to_out; + } + } else { + access_time = delay_before_subarray_output_driver + delay_from_subarray_out_drv_to_out; //data_acc_path } - } - else - { - access_time = delay_before_subarray_output_driver + delay_from_subarray_out_drv_to_out; //data_acc_path - } - - if (dp.is_main_mem) - { - double t_rcd = max_delay_before_row_decoder + delay_inside_mat; - double cas_latency = MAX(delay_array_to_sa_mux_lev_1_decoder, delay_array_to_sa_mux_lev_2_decoder) + - delay_from_subarray_out_drv_to_out; - access_time = t_rcd + cas_latency; - } - - double temp; - - if (!dp.fully_assoc) - { - temp = delay_inside_mat + bank.mat.delay_wl_reset + bank.mat.delay_bl_restore;//TODO: Sheng: revisit - if (dp.is_dram) - { - temp += bank.mat.delay_writeback; // temp stores random cycle time + + if (dp.is_main_mem) { + double t_rcd = max_delay_before_row_decoder + delay_inside_mat; + double cas_latency = MAX(delay_array_to_sa_mux_lev_1_decoder, delay_array_to_sa_mux_lev_2_decoder) + + delay_from_subarray_out_drv_to_out; + access_time = t_rcd + cas_latency; + } + + double temp; + + if (!dp.fully_assoc) { + temp = delay_inside_mat + bank.mat.delay_wl_reset + bank.mat.delay_bl_restore;//TODO: Sheng: revisit + if (dp.is_dram) { + temp += bank.mat.delay_writeback; // temp stores random cycle time + } + + + temp = MAX(temp, bank.mat.r_predec->delay); + temp = MAX(temp, bank.mat.b_mux_predec->delay); + temp = MAX(temp, bank.mat.sa_mux_lev_1_predec->delay); + temp = MAX(temp, bank.mat.sa_mux_lev_2_predec->delay); + } else { + ram_delay_inside_mat = bank.mat.delay_bitline + bank.mat.delay_matchchline; + temp = ram_delay_inside_mat + bank.mat.delay_cam_sl_restore + bank.mat.delay_cam_ml_reset + bank.mat.delay_bl_restore + + bank.mat.delay_hit_miss_reset + bank.mat.delay_wl_reset; + + temp = MAX(temp, bank.mat.b_mux_predec->delay);//TODO: Sheng revisit whether distinguish cam and ram bitline etc. + temp = MAX(temp, bank.mat.sa_mux_lev_1_predec->delay); + temp = MAX(temp, bank.mat.sa_mux_lev_2_predec->delay); + } + + // The following is true only if the input parameter "repeaters_in_htree" is set to false --Nav + if (g_ip->rpters_in_htree == false) { + temp = MAX(temp, bank.htree_in_add->max_unpipelined_link_delay); + } + cycle_time = temp; + + double delay_req_network = max_delay_before_row_decoder; + double delay_rep_network = delay_from_subarray_out_drv_to_out; + multisubbank_interleave_cycle_time = MAX(delay_req_network, delay_rep_network); + + if (dp.is_main_mem) { + multisubbank_interleave_cycle_time = htree_in_add->delay; + precharge_delay = htree_in_add->delay + + bank.htree_in_add->delay + bank.mat.delay_writeback + + bank.mat.delay_wl_reset + bank.mat.delay_bl_restore; + cycle_time = access_time + precharge_delay; + } else { + precharge_delay = 0; } + double dram_array_availability = 0; + if (dp.is_dram) { + dram_array_availability = (1 - dp.num_r_subarray * cycle_time / dp.dram_refresh_period) * 100; + } - temp = MAX(temp, bank.mat.r_predec->delay); - temp = MAX(temp, bank.mat.b_mux_predec->delay); - temp = MAX(temp, bank.mat.sa_mux_lev_1_predec->delay); - temp = MAX(temp, bank.mat.sa_mux_lev_2_predec->delay); - } - else - { - ram_delay_inside_mat = bank.mat.delay_bitline + bank.mat.delay_matchchline; - temp = ram_delay_inside_mat + bank.mat.delay_cam_sl_restore + bank.mat.delay_cam_ml_reset + bank.mat.delay_bl_restore - + bank.mat.delay_hit_miss_reset + bank.mat.delay_wl_reset; - - temp = MAX(temp, bank.mat.b_mux_predec->delay);//TODO: Sheng revisit whether distinguish cam and ram bitline etc. - temp = MAX(temp, bank.mat.sa_mux_lev_1_predec->delay); - temp = MAX(temp, bank.mat.sa_mux_lev_2_predec->delay); - } - - // The following is true only if the input parameter "repeaters_in_htree" is set to false --Nav - if (g_ip->rpters_in_htree == false) - { - temp = MAX(temp, bank.htree_in_add->max_unpipelined_link_delay); - } - cycle_time = temp; - - double delay_req_network = max_delay_before_row_decoder; - double delay_rep_network = delay_from_subarray_out_drv_to_out; - multisubbank_interleave_cycle_time = MAX(delay_req_network, delay_rep_network); - - if (dp.is_main_mem) - { - multisubbank_interleave_cycle_time = htree_in_add->delay; - precharge_delay = htree_in_add->delay + - bank.htree_in_add->delay + bank.mat.delay_writeback + - bank.mat.delay_wl_reset + bank.mat.delay_bl_restore; - cycle_time = access_time + precharge_delay; - } - else - { - precharge_delay = 0; - } - - double dram_array_availability = 0; - if (dp.is_dram) - { - dram_array_availability = (1 - dp.num_r_subarray * cycle_time / dp.dram_refresh_period) * 100; - } - - return outrisetime; + return outrisetime; } // note: currently, power numbers are for a bank of an array -void UCA::compute_power_energy() -{ - bank.compute_power_energy(); - power = bank.power; - - power_routing_to_bank.readOp.dynamic = htree_in_add->power.readOp.dynamic + htree_out_data->power.readOp.dynamic; - power_routing_to_bank.writeOp.dynamic = htree_in_add->power.readOp.dynamic + htree_in_data->power.readOp.dynamic; - if (dp.fully_assoc || dp.pure_cam) - power_routing_to_bank.searchOp.dynamic= htree_in_search->power.searchOp.dynamic + htree_out_search->power.searchOp.dynamic; - - power_routing_to_bank.readOp.leakage += htree_in_add->power.readOp.leakage + - htree_in_data->power.readOp.leakage + - htree_out_data->power.readOp.leakage; - - power_routing_to_bank.readOp.gate_leakage += htree_in_add->power.readOp.gate_leakage + - htree_in_data->power.readOp.gate_leakage + - htree_out_data->power.readOp.gate_leakage; - if (dp.fully_assoc || dp.pure_cam) - { +void UCA::compute_power_energy() { + bank.compute_power_energy(); + power = bank.power; + + power_routing_to_bank.readOp.dynamic = htree_in_add->power.readOp.dynamic + htree_out_data->power.readOp.dynamic; + power_routing_to_bank.writeOp.dynamic = htree_in_add->power.readOp.dynamic + htree_in_data->power.readOp.dynamic; + if (dp.fully_assoc || dp.pure_cam) + power_routing_to_bank.searchOp.dynamic = + htree_in_search->power.searchOp.dynamic + + htree_out_search->power.searchOp.dynamic; + + power_routing_to_bank.readOp.leakage += + htree_in_add->power.readOp.leakage + + htree_in_data->power.readOp.leakage + + htree_out_data->power.readOp.leakage; + + power_routing_to_bank.readOp.gate_leakage += + htree_in_add->power.readOp.gate_leakage + + htree_in_data->power.readOp.gate_leakage + + htree_out_data->power.readOp.gate_leakage; + if (dp.fully_assoc || dp.pure_cam) { power_routing_to_bank.readOp.leakage += htree_in_search->power.readOp.leakage + htree_out_search->power.readOp.leakage; power_routing_to_bank.readOp.gate_leakage += htree_in_search->power.readOp.gate_leakage + htree_out_search->power.readOp.gate_leakage; - } - - power.searchOp.dynamic += power_routing_to_bank.searchOp.dynamic; - power.readOp.dynamic += power_routing_to_bank.readOp.dynamic; - power.readOp.leakage += power_routing_to_bank.readOp.leakage; - power.readOp.gate_leakage += power_routing_to_bank.readOp.gate_leakage; - - // calculate total write energy per access - power.writeOp.dynamic = power.readOp.dynamic - - bank.mat.power_bitline.readOp.dynamic * dp.num_act_mats_hor_dir - + bank.mat.power_bitline.writeOp.dynamic * dp.num_act_mats_hor_dir - - power_routing_to_bank.readOp.dynamic - + power_routing_to_bank.writeOp.dynamic - + bank.htree_in_data->power.readOp.dynamic - - bank.htree_out_data->power.readOp.dynamic; - - if (dp.is_dram == false) - { - power.writeOp.dynamic -= bank.mat.power_sa.readOp.dynamic * dp.num_act_mats_hor_dir; - } - - dyn_read_energy_from_closed_page = power.readOp.dynamic; - dyn_read_energy_from_open_page = power.readOp.dynamic - - (bank.mat.r_predec->power.readOp.dynamic + - bank.mat.power_row_decoders.readOp.dynamic + - bank.mat.power_bl_precharge_eq_drv.readOp.dynamic + - bank.mat.power_sa.readOp.dynamic + - bank.mat.power_bitline.readOp.dynamic) * dp.num_act_mats_hor_dir; - - dyn_read_energy_remaining_words_in_burst = - (MAX((g_ip->burst_len / g_ip->int_prefetch_w), 1) - 1) * - ((bank.mat.sa_mux_lev_1_predec->power.readOp.dynamic + - bank.mat.sa_mux_lev_2_predec->power.readOp.dynamic + - bank.mat.power_sa_mux_lev_1_decoders.readOp.dynamic + - bank.mat.power_sa_mux_lev_2_decoders.readOp.dynamic + - bank.mat.power_subarray_out_drv.readOp.dynamic) * dp.num_act_mats_hor_dir + - bank.htree_out_data->power.readOp.dynamic + - power_routing_to_bank.readOp.dynamic); - dyn_read_energy_from_closed_page += dyn_read_energy_remaining_words_in_burst; - dyn_read_energy_from_open_page += dyn_read_energy_remaining_words_in_burst; - - activate_energy = htree_in_add->power.readOp.dynamic + - bank.htree_in_add->power_bit.readOp.dynamic * bank.num_addr_b_routed_to_mat_for_act + - (bank.mat.r_predec->power.readOp.dynamic + - bank.mat.power_row_decoders.readOp.dynamic + - bank.mat.power_sa.readOp.dynamic) * dp.num_act_mats_hor_dir; - read_energy = (htree_in_add->power.readOp.dynamic + - bank.htree_in_add->power_bit.readOp.dynamic * bank.num_addr_b_routed_to_mat_for_rd_or_wr + - (bank.mat.sa_mux_lev_1_predec->power.readOp.dynamic + - bank.mat.sa_mux_lev_2_predec->power.readOp.dynamic + - bank.mat.power_sa_mux_lev_1_decoders.readOp.dynamic + - bank.mat.power_sa_mux_lev_2_decoders.readOp.dynamic + - bank.mat.power_subarray_out_drv.readOp.dynamic) * dp.num_act_mats_hor_dir + - bank.htree_out_data->power.readOp.dynamic + - htree_in_data->power.readOp.dynamic) * g_ip->burst_len; - write_energy = (htree_in_add->power.readOp.dynamic + - bank.htree_in_add->power_bit.readOp.dynamic * bank.num_addr_b_routed_to_mat_for_rd_or_wr + - htree_in_data->power.readOp.dynamic + - bank.htree_in_data->power.readOp.dynamic + - (bank.mat.sa_mux_lev_1_predec->power.readOp.dynamic + - bank.mat.sa_mux_lev_2_predec->power.readOp.dynamic + - bank.mat.power_sa_mux_lev_1_decoders.readOp.dynamic + - bank.mat.power_sa_mux_lev_2_decoders.readOp.dynamic) * dp.num_act_mats_hor_dir) * g_ip->burst_len; - precharge_energy = (bank.mat.power_bitline.readOp.dynamic + - bank.mat.power_bl_precharge_eq_drv.readOp.dynamic) * dp.num_act_mats_hor_dir; - - leak_power_subbank_closed_page = - (bank.mat.r_predec->power.readOp.leakage + - bank.mat.b_mux_predec->power.readOp.leakage + - bank.mat.sa_mux_lev_1_predec->power.readOp.leakage + - bank.mat.sa_mux_lev_2_predec->power.readOp.leakage + - bank.mat.power_row_decoders.readOp.leakage + - bank.mat.power_bit_mux_decoders.readOp.leakage + - bank.mat.power_sa_mux_lev_1_decoders.readOp.leakage + - bank.mat.power_sa_mux_lev_2_decoders.readOp.leakage + - bank.mat.leak_power_sense_amps_closed_page_state) * dp.num_act_mats_hor_dir; - - leak_power_subbank_closed_page += - (bank.mat.r_predec->power.readOp.gate_leakage + - bank.mat.b_mux_predec->power.readOp.gate_leakage + - bank.mat.sa_mux_lev_1_predec->power.readOp.gate_leakage + - bank.mat.sa_mux_lev_2_predec->power.readOp.gate_leakage + - bank.mat.power_row_decoders.readOp.gate_leakage + - bank.mat.power_bit_mux_decoders.readOp.gate_leakage + - bank.mat.power_sa_mux_lev_1_decoders.readOp.gate_leakage + - bank.mat.power_sa_mux_lev_2_decoders.readOp.gate_leakage) * dp.num_act_mats_hor_dir; //+ - //bank.mat.leak_power_sense_amps_closed_page_state) * dp.num_act_mats_hor_dir; - - leak_power_subbank_open_page = - (bank.mat.r_predec->power.readOp.leakage + - bank.mat.b_mux_predec->power.readOp.leakage + - bank.mat.sa_mux_lev_1_predec->power.readOp.leakage + - bank.mat.sa_mux_lev_2_predec->power.readOp.leakage + - bank.mat.power_row_decoders.readOp.leakage + - bank.mat.power_bit_mux_decoders.readOp.leakage + - bank.mat.power_sa_mux_lev_1_decoders.readOp.leakage + - bank.mat.power_sa_mux_lev_2_decoders.readOp.leakage + - bank.mat.leak_power_sense_amps_open_page_state) * dp.num_act_mats_hor_dir; - - leak_power_subbank_open_page += - (bank.mat.r_predec->power.readOp.gate_leakage + - bank.mat.b_mux_predec->power.readOp.gate_leakage + - bank.mat.sa_mux_lev_1_predec->power.readOp.gate_leakage + - bank.mat.sa_mux_lev_2_predec->power.readOp.gate_leakage + - bank.mat.power_row_decoders.readOp.gate_leakage + - bank.mat.power_bit_mux_decoders.readOp.gate_leakage + - bank.mat.power_sa_mux_lev_1_decoders.readOp.gate_leakage + - bank.mat.power_sa_mux_lev_2_decoders.readOp.gate_leakage ) * dp.num_act_mats_hor_dir; - //bank.mat.leak_power_sense_amps_open_page_state) * dp.num_act_mats_hor_dir; - - leak_power_request_and_reply_networks = - power_routing_to_bank.readOp.leakage + - bank.htree_in_add->power.readOp.leakage + - bank.htree_in_data->power.readOp.leakage + - bank.htree_out_data->power.readOp.leakage; - - leak_power_request_and_reply_networks += - power_routing_to_bank.readOp.gate_leakage + - bank.htree_in_add->power.readOp.gate_leakage + - bank.htree_in_data->power.readOp.gate_leakage + - bank.htree_out_data->power.readOp.gate_leakage; - - if (dp.fully_assoc || dp.pure_cam) - { + } + + power.searchOp.dynamic += power_routing_to_bank.searchOp.dynamic; + power.readOp.dynamic += power_routing_to_bank.readOp.dynamic; + power.readOp.leakage += power_routing_to_bank.readOp.leakage; + power.readOp.gate_leakage += power_routing_to_bank.readOp.gate_leakage; + + // calculate total write energy per access + power.writeOp.dynamic = power.readOp.dynamic + - bank.mat.power_bitline.readOp.dynamic * dp.num_act_mats_hor_dir + + bank.mat.power_bitline.writeOp.dynamic * dp.num_act_mats_hor_dir + - power_routing_to_bank.readOp.dynamic + + power_routing_to_bank.writeOp.dynamic + + bank.htree_in_data->power.readOp.dynamic + - bank.htree_out_data->power.readOp.dynamic; + + if (dp.is_dram == false) { + power.writeOp.dynamic -= bank.mat.power_sa.readOp.dynamic * dp.num_act_mats_hor_dir; + } + + dyn_read_energy_from_closed_page = power.readOp.dynamic; + dyn_read_energy_from_open_page = power.readOp.dynamic - + (bank.mat.r_predec->power.readOp.dynamic + + bank.mat.power_row_decoders.readOp.dynamic + + bank.mat.power_bl_precharge_eq_drv.readOp.dynamic + + bank.mat.power_sa.readOp.dynamic + + bank.mat.power_bitline.readOp.dynamic) * dp.num_act_mats_hor_dir; + + dyn_read_energy_remaining_words_in_burst = + (MAX((g_ip->burst_len / g_ip->int_prefetch_w), 1) - 1) * + ((bank.mat.sa_mux_lev_1_predec->power.readOp.dynamic + + bank.mat.sa_mux_lev_2_predec->power.readOp.dynamic + + bank.mat.power_sa_mux_lev_1_decoders.readOp.dynamic + + bank.mat.power_sa_mux_lev_2_decoders.readOp.dynamic + + bank.mat.power_subarray_out_drv.readOp.dynamic) * dp.num_act_mats_hor_dir + + bank.htree_out_data->power.readOp.dynamic + + power_routing_to_bank.readOp.dynamic); + dyn_read_energy_from_closed_page += dyn_read_energy_remaining_words_in_burst; + dyn_read_energy_from_open_page += dyn_read_energy_remaining_words_in_burst; + + activate_energy = htree_in_add->power.readOp.dynamic + + bank.htree_in_add->power_bit.readOp.dynamic * bank.num_addr_b_routed_to_mat_for_act + + (bank.mat.r_predec->power.readOp.dynamic + + bank.mat.power_row_decoders.readOp.dynamic + + bank.mat.power_sa.readOp.dynamic) * dp.num_act_mats_hor_dir; + read_energy = (htree_in_add->power.readOp.dynamic + + bank.htree_in_add->power_bit.readOp.dynamic * bank.num_addr_b_routed_to_mat_for_rd_or_wr + + (bank.mat.sa_mux_lev_1_predec->power.readOp.dynamic + + bank.mat.sa_mux_lev_2_predec->power.readOp.dynamic + + bank.mat.power_sa_mux_lev_1_decoders.readOp.dynamic + + bank.mat.power_sa_mux_lev_2_decoders.readOp.dynamic + + bank.mat.power_subarray_out_drv.readOp.dynamic) * dp.num_act_mats_hor_dir + + bank.htree_out_data->power.readOp.dynamic + + htree_in_data->power.readOp.dynamic) * g_ip->burst_len; + write_energy = (htree_in_add->power.readOp.dynamic + + bank.htree_in_add->power_bit.readOp.dynamic * bank.num_addr_b_routed_to_mat_for_rd_or_wr + + htree_in_data->power.readOp.dynamic + + bank.htree_in_data->power.readOp.dynamic + + (bank.mat.sa_mux_lev_1_predec->power.readOp.dynamic + + bank.mat.sa_mux_lev_2_predec->power.readOp.dynamic + + bank.mat.power_sa_mux_lev_1_decoders.readOp.dynamic + + bank.mat.power_sa_mux_lev_2_decoders.readOp.dynamic) * dp.num_act_mats_hor_dir) * g_ip->burst_len; + precharge_energy = (bank.mat.power_bitline.readOp.dynamic + + bank.mat.power_bl_precharge_eq_drv.readOp.dynamic) * dp.num_act_mats_hor_dir; + + leak_power_subbank_closed_page = + (bank.mat.r_predec->power.readOp.leakage + + bank.mat.b_mux_predec->power.readOp.leakage + + bank.mat.sa_mux_lev_1_predec->power.readOp.leakage + + bank.mat.sa_mux_lev_2_predec->power.readOp.leakage + + bank.mat.power_row_decoders.readOp.leakage + + bank.mat.power_bit_mux_decoders.readOp.leakage + + bank.mat.power_sa_mux_lev_1_decoders.readOp.leakage + + bank.mat.power_sa_mux_lev_2_decoders.readOp.leakage + + bank.mat.leak_power_sense_amps_closed_page_state) * dp.num_act_mats_hor_dir; + + leak_power_subbank_closed_page += + (bank.mat.r_predec->power.readOp.gate_leakage + + bank.mat.b_mux_predec->power.readOp.gate_leakage + + bank.mat.sa_mux_lev_1_predec->power.readOp.gate_leakage + + bank.mat.sa_mux_lev_2_predec->power.readOp.gate_leakage + + bank.mat.power_row_decoders.readOp.gate_leakage + + bank.mat.power_bit_mux_decoders.readOp.gate_leakage + + bank.mat.power_sa_mux_lev_1_decoders.readOp.gate_leakage + + bank.mat.power_sa_mux_lev_2_decoders.readOp.gate_leakage) * dp.num_act_mats_hor_dir; //+ + //bank.mat.leak_power_sense_amps_closed_page_state) * dp.num_act_mats_hor_dir; + + leak_power_subbank_open_page = + (bank.mat.r_predec->power.readOp.leakage + + bank.mat.b_mux_predec->power.readOp.leakage + + bank.mat.sa_mux_lev_1_predec->power.readOp.leakage + + bank.mat.sa_mux_lev_2_predec->power.readOp.leakage + + bank.mat.power_row_decoders.readOp.leakage + + bank.mat.power_bit_mux_decoders.readOp.leakage + + bank.mat.power_sa_mux_lev_1_decoders.readOp.leakage + + bank.mat.power_sa_mux_lev_2_decoders.readOp.leakage + + bank.mat.leak_power_sense_amps_open_page_state) * dp.num_act_mats_hor_dir; + + leak_power_subbank_open_page += + (bank.mat.r_predec->power.readOp.gate_leakage + + bank.mat.b_mux_predec->power.readOp.gate_leakage + + bank.mat.sa_mux_lev_1_predec->power.readOp.gate_leakage + + bank.mat.sa_mux_lev_2_predec->power.readOp.gate_leakage + + bank.mat.power_row_decoders.readOp.gate_leakage + + bank.mat.power_bit_mux_decoders.readOp.gate_leakage + + bank.mat.power_sa_mux_lev_1_decoders.readOp.gate_leakage + + bank.mat.power_sa_mux_lev_2_decoders.readOp.gate_leakage ) * dp.num_act_mats_hor_dir; + //bank.mat.leak_power_sense_amps_open_page_state) * dp.num_act_mats_hor_dir; + + leak_power_request_and_reply_networks = + power_routing_to_bank.readOp.leakage + + bank.htree_in_add->power.readOp.leakage + + bank.htree_in_data->power.readOp.leakage + + bank.htree_out_data->power.readOp.leakage; + + leak_power_request_and_reply_networks += + power_routing_to_bank.readOp.gate_leakage + + bank.htree_in_add->power.readOp.gate_leakage + + bank.htree_in_data->power.readOp.gate_leakage + + bank.htree_out_data->power.readOp.gate_leakage; + + if (dp.fully_assoc || dp.pure_cam) { leak_power_request_and_reply_networks += htree_in_search->power.readOp.leakage + htree_out_search->power.readOp.leakage; leak_power_request_and_reply_networks += htree_in_search->power.readOp.gate_leakage + htree_out_search->power.readOp.gate_leakage; - } - - - if (dp.is_dram) - { // if DRAM, add contribution of power spent in row predecoder drivers, blocks and decoders to refresh power - refresh_power = (bank.mat.r_predec->power.readOp.dynamic * dp.num_act_mats_hor_dir + - bank.mat.row_dec->power.readOp.dynamic) * dp.num_r_subarray * dp.num_subarrays; - refresh_power += bank.mat.per_bitline_read_energy * dp.num_c_subarray * dp.num_r_subarray * dp.num_subarrays; - refresh_power += bank.mat.power_bl_precharge_eq_drv.readOp.dynamic * dp.num_act_mats_hor_dir; - refresh_power += bank.mat.power_sa.readOp.dynamic * dp.num_act_mats_hor_dir; - refresh_power /= dp.dram_refresh_period; - } - - - if (dp.is_tag == false) - { - power.readOp.dynamic = dyn_read_energy_from_closed_page; - power.writeOp.dynamic = dyn_read_energy_from_closed_page - - dyn_read_energy_remaining_words_in_burst - - bank.mat.power_bitline.readOp.dynamic * dp.num_act_mats_hor_dir - + bank.mat.power_bitline.writeOp.dynamic * dp.num_act_mats_hor_dir - + (power_routing_to_bank.writeOp.dynamic - - power_routing_to_bank.readOp.dynamic - - bank.htree_out_data->power.readOp.dynamic + - bank.htree_in_data->power.readOp.dynamic) * - (MAX((g_ip->burst_len / g_ip->int_prefetch_w), 1) - 1); //FIXME + } - if (dp.is_dram == false) - { - power.writeOp.dynamic -= bank.mat.power_sa.readOp.dynamic * dp.num_act_mats_hor_dir; + + // if DRAM, add contribution of power spent in row predecoder drivers, + // blocks and decoders to refresh power + if (dp.is_dram) { + refresh_power = (bank.mat.r_predec->power.readOp.dynamic * dp.num_act_mats_hor_dir + + bank.mat.row_dec->power.readOp.dynamic) * dp.num_r_subarray * dp.num_subarrays; + refresh_power += bank.mat.per_bitline_read_energy * dp.num_c_subarray * dp.num_r_subarray * dp.num_subarrays; + refresh_power += bank.mat.power_bl_precharge_eq_drv.readOp.dynamic * dp.num_act_mats_hor_dir; + refresh_power += bank.mat.power_sa.readOp.dynamic * dp.num_act_mats_hor_dir; + refresh_power /= dp.dram_refresh_period; } - } - - // if DRAM, add refresh power to total leakage - if (dp.is_dram) - { - power.readOp.leakage += refresh_power; - } - - // TODO: below should be avoided. - /*if (dp.is_main_mem) - { - power.readOp.leakage += MAIN_MEM_PER_CHIP_STANDBY_CURRENT_mA * 1e-3 * g_tp.peri_global.Vdd / g_ip->nbanks; - }*/ - - assert(power.readOp.dynamic > 0); - assert(power.writeOp.dynamic > 0); - assert(power.readOp.leakage > 0); + + + if (dp.is_tag == false) { + power.readOp.dynamic = dyn_read_energy_from_closed_page; + power.writeOp.dynamic = dyn_read_energy_from_closed_page + - dyn_read_energy_remaining_words_in_burst + - bank.mat.power_bitline.readOp.dynamic * dp.num_act_mats_hor_dir + + bank.mat.power_bitline.writeOp.dynamic * dp.num_act_mats_hor_dir + + (power_routing_to_bank.writeOp.dynamic - + power_routing_to_bank.readOp.dynamic - + bank.htree_out_data->power.readOp.dynamic + + bank.htree_in_data->power.readOp.dynamic) * + (MAX((g_ip->burst_len / g_ip->int_prefetch_w), 1) - 1); //FIXME + + if (dp.is_dram == false) { + power.writeOp.dynamic -= bank.mat.power_sa.readOp.dynamic * dp.num_act_mats_hor_dir; + } + } + + // if DRAM, add refresh power to total leakage + if (dp.is_dram) { + power.readOp.leakage += refresh_power; + } + + // TODO: below should be avoided. + /*if (dp.is_main_mem) + { + power.readOp.leakage += MAIN_MEM_PER_CHIP_STANDBY_CURRENT_mA * 1e-3 * g_tp.peri_global.Vdd / g_ip->nbanks; + }*/ + + assert(power.readOp.dynamic > 0); + assert(power.writeOp.dynamic > 0); + assert(power.readOp.leakage > 0); } -- cgit v1.2.3