diff options
| author | VijayKandiah <[email protected]> | 2021-10-17 02:18:10 -0500 |
|---|---|---|
| committer | VijayKandiah <[email protected]> | 2021-10-17 02:18:10 -0500 |
| commit | 84c6cf45131e42b1a724ebf7977987a9ddb70db9 (patch) | |
| tree | e82f15238e79a03f3cc2435d4f9bb48d5023e8ae /src/gpuwattch/cacti/io.cc | |
| parent | 4a4fc87a2dcd95bfe298f2b3d18a9833a506e499 (diff) | |
AccelWattch dev Integration
Diffstat (limited to 'src/gpuwattch/cacti/io.cc')
| -rw-r--r-- | src/gpuwattch/cacti/io.cc | 2457 |
1 files changed, 0 insertions, 2457 deletions
diff --git a/src/gpuwattch/cacti/io.cc b/src/gpuwattch/cacti/io.cc deleted file mode 100644 index c513dbf..0000000 --- a/src/gpuwattch/cacti/io.cc +++ /dev/null @@ -1,2457 +0,0 @@ -/***************************************************************************** - * McPAT/CACTI - * SOFTWARE LICENSE AGREEMENT - * Copyright 2012 Hewlett-Packard Development Company, L.P. - * All Rights Reserved - * - * Redistribution and use in source and binary forms, with or without - * modification, are permitted provided that the following conditions are - * met: redistributions of source code must retain the above copyright - * notice, this list of conditions and the following disclaimer; - * redistributions in binary form must reproduce the above copyright - * notice, this list of conditions and the following disclaimer in the - * documentation and/or other materials provided with the distribution; - * neither the name of the copyright holders nor the names of its - * contributors may be used to endorse or promote products derived from - * this software without specific prior written permission. - - * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS - * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT - * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR - * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT - * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, - * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT - * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, - * 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.” - * - ***************************************************************************/ - - - -#include <fstream> -#include <iostream> -#include <sstream> - - -#include "io.h" -#include "area.h" -#include "basic_circuit.h" -#include "parameter.h" -#include "Ucache.h" -#include "nuca.h" -#include "crossbar.h" -#include "arbiter.h" -//#include "highradix.h" - -using namespace std; - - -/* Parses "cache.cfg" file */ - void -InputParameter::parse_cfg(const string & in_file) -{ - FILE *fp = fopen(in_file.c_str(), "r"); - char line[5000]; - char jk[5000]; - char temp_var[5000]; - - if(!fp) { - cout << in_file << " is missing!\n"; - exit(-1); - } - - while(fscanf(fp, "%[^\n]\n", line) != EOF) { - - if (!strncmp("-size", line, strlen("-size"))) { - sscanf(line, "-size %[(:-~)*]%u", jk, &(cache_sz)); - continue; - } - - if (!strncmp("-page size", line, strlen("-page size"))) { - sscanf(line, "-page size %[(:-~)*]%u", jk, &(page_sz_bits)); - continue; - } - - if (!strncmp("-burst length", line, strlen("-burst length"))) { - sscanf(line, "-burst %[(:-~)*]%u", jk, &(burst_len)); - continue; - } - - if (!strncmp("-internal prefetch width", line, strlen("-internal prefetch width"))) { - sscanf(line, "-internal prefetch %[(:-~)*]%u", jk, &(int_prefetch_w)); - continue; - } - - if (!strncmp("-block", line, strlen("-block"))) { - sscanf(line, "-block size (bytes) %d", &(line_sz)); - continue; - } - - if (!strncmp("-associativity", line, strlen("-associativity"))) { - sscanf(line, "-associativity %d", &(assoc)); - continue; - } - - if (!strncmp("-read-write", line, strlen("-read-write"))) { - sscanf(line, "-read-write port %d", &(num_rw_ports)); - continue; - } - - if (!strncmp("-exclusive read", line, strlen("exclusive read"))) { - sscanf(line, "-exclusive read port %d", &(num_rd_ports)); - continue; - } - - if(!strncmp("-exclusive write", line, strlen("-exclusive write"))) { - sscanf(line, "-exclusive write port %d", &(num_wr_ports)); - continue; - } - - if (!strncmp("-single ended", line, strlen("-single ended"))) { - sscanf(line, "-single %[(:-~)*]%d", jk, - &(num_se_rd_ports)); - continue; - } - - if (!strncmp("-search", line, strlen("-search"))) { - sscanf(line, "-search port %d", &(num_search_ports)); - continue; - } - - if (!strncmp("-UCA bank", line, strlen("-UCA bank"))) { - sscanf(line, "-UCA bank%[((:-~)| )*]%d", jk, &(nbanks)); - continue; - } - - if (!strncmp("-technology", line, strlen("-technology"))) { - sscanf(line, "-technology (u) %lf", &(F_sz_um)); - F_sz_nm = F_sz_um*1000; - continue; - } - - if (!strncmp("-output/input", line, strlen("-output/input"))) { - sscanf(line, "-output/input bus %[(:-~)*]%d", jk, &(out_w)); - continue; - } - - if (!strncmp("-operating temperature", line, strlen("-operating temperature"))) { - sscanf(line, "-operating temperature %[(:-~)*]%d", jk, &(temp)); - continue; - } - - if (!strncmp("-cache type", line, strlen("-cache type"))) { - sscanf(line, "-cache type%[^\"]\"%[^\"]\"", jk, temp_var); - - if (!strncmp("cache", temp_var, sizeof("cache"))) { - is_cache = true; - } - else - { - is_cache = false; - } - - if (!strncmp("main memory", temp_var, sizeof("main memory"))) { - is_main_mem = true; - } - else { - is_main_mem = false; - } - - if (!strncmp("cam", temp_var, sizeof("cam"))) { - pure_cam = true; - } - else { - pure_cam = false; - } - - if (!strncmp("ram", temp_var, sizeof("ram"))) { - pure_ram = true; - } - else { - if (!is_main_mem) - pure_ram = false; - else - pure_ram = true; - } - - continue; - } - - - if (!strncmp("-tag size", line, strlen("-tag size"))) { - sscanf(line, "-tag size%[^\"]\"%[^\"]\"", jk, temp_var); - if (!strncmp("default", temp_var, sizeof("default"))) { - specific_tag = false; - tag_w = 42; /* the acutal value is calculated - * later based on the cache size, bank count, and associativity - */ - } - else { - specific_tag = true; - sscanf(line, "-tag size (b) %d", &(tag_w)); - } - continue; - } - - if (!strncmp("-access mode", line, strlen("-access mode"))) { - sscanf(line, "-access %[^\"]\"%[^\"]\"", jk, temp_var); - if (!strncmp("fast", temp_var, strlen("fast"))) { - access_mode = 2; - } - else if (!strncmp("sequential", temp_var, strlen("sequential"))) { - access_mode = 1; - } - else if(!strncmp("normal", temp_var, strlen("normal"))) { - access_mode = 0; - } - else { - cout << "ERROR: Invalid access mode!\n"; - exit(0); - } - continue; - } - - if (!strncmp("-Data array cell type", line, strlen("-Data array cell type"))) { - sscanf(line, "-Data array cell type %[^\"]\"%[^\"]\"", jk, temp_var); - - if(!strncmp("itrs-hp", temp_var, strlen("itrs-hp"))) { - data_arr_ram_cell_tech_type = 0; - } - else if(!strncmp("itrs-lstp", temp_var, strlen("itrs-lstp"))) { - data_arr_ram_cell_tech_type = 1; - } - else if(!strncmp("itrs-lop", temp_var, strlen("itrs-lop"))) { - data_arr_ram_cell_tech_type = 2; - } - else if(!strncmp("lp-dram", temp_var, strlen("lp-dram"))) { - data_arr_ram_cell_tech_type = 3; - } - else if(!strncmp("comm-dram", temp_var, strlen("comm-dram"))) { - data_arr_ram_cell_tech_type = 4; - } - else { - cout << "ERROR: Invalid type!\n"; - exit(0); - } - continue; - } - - if (!strncmp("-Data array peripheral type", line, strlen("-Data array peripheral type"))) { - sscanf(line, "-Data array peripheral type %[^\"]\"%[^\"]\"", jk, temp_var); - - if(!strncmp("itrs-hp", temp_var, strlen("itrs-hp"))) { - data_arr_peri_global_tech_type = 0; - } - else if(!strncmp("itrs-lstp", temp_var, strlen("itrs-lstp"))) { - data_arr_peri_global_tech_type = 1; - } - else if(!strncmp("itrs-lop", temp_var, strlen("itrs-lop"))) { - data_arr_peri_global_tech_type = 2; - } - else { - cout << "ERROR: Invalid type!\n"; - exit(0); - } - continue; - } - - if (!strncmp("-Tag array cell type", line, strlen("-Tag array cell type"))) { - sscanf(line, "-Tag array cell type %[^\"]\"%[^\"]\"", jk, temp_var); - - if(!strncmp("itrs-hp", temp_var, strlen("itrs-hp"))) { - tag_arr_ram_cell_tech_type = 0; - } - else if(!strncmp("itrs-lstp", temp_var, strlen("itrs-lstp"))) { - tag_arr_ram_cell_tech_type = 1; - } - else if(!strncmp("itrs-lop", temp_var, strlen("itrs-lop"))) { - tag_arr_ram_cell_tech_type = 2; - } - else if(!strncmp("lp-dram", temp_var, strlen("lp-dram"))) { - tag_arr_ram_cell_tech_type = 3; - } - else if(!strncmp("comm-dram", temp_var, strlen("comm-dram"))) { - tag_arr_ram_cell_tech_type = 4; - } - else { - cout << "ERROR: Invalid type!\n"; - exit(0); - } - continue; - } - - if (!strncmp("-Tag array peripheral type", line, strlen("-Tag array peripheral type"))) { - sscanf(line, "-Tag array peripheral type %[^\"]\"%[^\"]\"", jk, temp_var); - - if(!strncmp("itrs-hp", temp_var, strlen("itrs-hp"))) { - tag_arr_peri_global_tech_type = 0; - } - else if(!strncmp("itrs-lstp", temp_var, strlen("itrs-lstp"))) { - tag_arr_peri_global_tech_type = 1; - } - else if(!strncmp("itrs-lop", temp_var, strlen("itrs-lop"))) { - tag_arr_peri_global_tech_type = 2; - } - else { - cout << "ERROR: Invalid type!\n"; - exit(0); - } - continue; - } - if(!strncmp("-design", line, strlen("-design"))) { - sscanf(line, "-%[((:-~)| |,)*]%d:%d:%d:%d:%d", jk, - &(delay_wt), &(dynamic_power_wt), - &(leakage_power_wt), - &(cycle_time_wt), &(area_wt)); - continue; - } - - if(!strncmp("-deviate", line, strlen("-deviate"))) { - sscanf(line, "-%[((:-~)| |,)*]%d:%d:%d:%d:%d", jk, - &(delay_dev), &(dynamic_power_dev), - &(leakage_power_dev), - &(cycle_time_dev), &(area_dev)); - continue; - } - - if(!strncmp("-Optimize", line, strlen("-Optimize"))) { - sscanf(line, "-Optimize %[^\"]\"%[^\"]\"", jk, temp_var); - - if(!strncmp("ED^2", temp_var, strlen("ED^2"))) { - ed = 2; - } - else if(!strncmp("ED", temp_var, strlen("ED"))) { - ed = 1; - } - else { - ed = 0; - } - } - - if(!strncmp("-NUCAdesign", line, strlen("-NUCAdesign"))) { - sscanf(line, "-%[((:-~)| |,)*]%d:%d:%d:%d:%d", jk, - &(delay_wt_nuca), &(dynamic_power_wt_nuca), - &(leakage_power_wt_nuca), - &(cycle_time_wt_nuca), &(area_wt_nuca)); - continue; - } - - if(!strncmp("-NUCAdeviate", line, strlen("-NUCAdeviate"))) { - sscanf(line, "-%[((:-~)| |,)*]%d:%d:%d:%d:%d", jk, - &(delay_dev_nuca), &(dynamic_power_dev_nuca), - &(leakage_power_dev_nuca), - &(cycle_time_dev_nuca), &(area_dev_nuca)); - continue; - } - - if(!strncmp("-Cache model", line, strlen("-cache model"))) { - sscanf(line, "-Cache model %[^\"]\"%[^\"]\"", jk, temp_var); - - if (!strncmp("UCA", temp_var, strlen("UCA"))) { - nuca = 0; - } - else { - nuca = 1; - } - continue; - } - - if(!strncmp("-NUCA bank", line, strlen("-NUCA bank"))) { - sscanf(line, "-NUCA bank count %d", &(nuca_bank_count)); - - if (nuca_bank_count != 0) { - force_nuca_bank = 1; - } - continue; - } - - if(!strncmp("-Wire inside mat", line, strlen("-Wire inside mat"))) { - sscanf(line, "-Wire%[^\"]\"%[^\"]\"", jk, temp_var); - - if (!strncmp("global", temp_var, strlen("global"))) { - wire_is_mat_type = 2; - continue; - } - else if (!strncmp("local", temp_var, strlen("local"))) { - wire_is_mat_type = 0; - continue; - } - else { - wire_is_mat_type = 1; - continue; - } - } - - if(!strncmp("-Wire outside mat", line, strlen("-Wire outside mat"))) { - sscanf(line, "-Wire%[^\"]\"%[^\"]\"", jk, temp_var); - - if (!strncmp("global", temp_var, strlen("global"))) { - wire_os_mat_type = 2; - } - else { - wire_os_mat_type = 1; - } - continue; - } - - if(!strncmp("-Interconnect projection", line, strlen("-Interconnect projection"))) { - sscanf(line, "-Interconnect projection%[^\"]\"%[^\"]\"", jk, temp_var); - - if (!strncmp("aggressive", temp_var, strlen("aggressive"))) { - ic_proj_type = 0; - } - else { - ic_proj_type = 1; - } - continue; - } - - if(!strncmp("-Wire signalling", line, strlen("-wire signalling"))) { - sscanf(line, "-Wire%[^\"]\"%[^\"]\"", jk, temp_var); - - if (!strncmp("default", temp_var, strlen("default"))) { - force_wiretype = 0; - wt = Global; - } - else if (!(strncmp("Global_10", temp_var, strlen("Global_10")))) { - force_wiretype = 1; - wt = Global_10; - } - else if (!(strncmp("Global_20", temp_var, strlen("Global_20")))) { - force_wiretype = 1; - wt = Global_20; - } - else if (!(strncmp("Global_30", temp_var, strlen("Global_30")))) { - force_wiretype = 1; - wt = Global_30; - } - else if (!(strncmp("Global_5", temp_var, strlen("Global_5")))) { - force_wiretype = 1; - wt = Global_5; - } - else if (!(strncmp("Global", temp_var, strlen("Global")))) { - force_wiretype = 1; - wt = Global; - } - else { - wt = Low_swing; - force_wiretype = 1; - } - continue; - } - - - - if(!strncmp("-Core", line, strlen("-Core"))) { - sscanf(line, "-Core count %d\n", &(cores)); - if (cores > 16) { - printf("No. of cores should be less than 16!\n"); - } - continue; - } - - if(!strncmp("-Cache level", line, strlen("-Cache level"))) { - sscanf(line, "-Cache l%[^\"]\"%[^\"]\"", jk, temp_var); - if (!strncmp("L2", temp_var, strlen("L2"))) { - cache_level = 0; - } - else { - cache_level = 1; - } - } - - if(!strncmp("-Print level", line, strlen("-Print level"))) { - sscanf(line, "-Print l%[^\"]\"%[^\"]\"", jk, temp_var); - if (!strncmp("DETAILED", temp_var, strlen("DETAILED"))) { - print_detail = 1; - } - else { - print_detail = 0; - } - - } - if(!strncmp("-Add ECC", line, strlen("-Add ECC"))) { - sscanf(line, "-Add ECC %[^\"]\"%[^\"]\"", jk, temp_var); - if (!strncmp("true", temp_var, strlen("true"))) { - add_ecc_b_ = true; - } - else { - add_ecc_b_ = false; - } - } - - if(!strncmp("-Print input parameters", line, strlen("-Print input parameters"))) { - sscanf(line, "-Print input %[^\"]\"%[^\"]\"", jk, temp_var); - if (!strncmp("true", temp_var, strlen("true"))) { - print_input_args = true; - } - else { - print_input_args = false; - } - } - - if(!strncmp("-Force cache config", line, strlen("-Force cache config"))) { - sscanf(line, "-Force cache %[^\"]\"%[^\"]\"", jk, temp_var); - if (!strncmp("true", temp_var, strlen("true"))) { - force_cache_config = true; - } - else { - force_cache_config = false; - } - } - - if(!strncmp("-Ndbl", line, strlen("-Ndbl"))) { - sscanf(line, "-Ndbl %d\n", &(ndbl)); - continue; - } - if(!strncmp("-Ndwl", line, strlen("-Ndwl"))) { - sscanf(line, "-Ndwl %d\n", &(ndwl)); - continue; - } - if(!strncmp("-Nspd", line, strlen("-Nspd"))) { - sscanf(line, "-Nspd %d\n", &(nspd)); - continue; - } - if(!strncmp("-Ndsam1", line, strlen("-Ndsam1"))) { - sscanf(line, "-Ndsam1 %d\n", &(ndsam1)); - continue; - } - if(!strncmp("-Ndsam2", line, strlen("-Ndsam2"))) { - sscanf(line, "-Ndsam2 %d\n", &(ndsam2)); - continue; - } - if(!strncmp("-Ndcm", line, strlen("-Ndcm"))) { - sscanf(line, "-Ndcm %d\n", &(ndcm)); - continue; - } - - } - rpters_in_htree = true; - fclose(fp); -} - - void -InputParameter::display_ip() -{ - cout << "Cache size : " << cache_sz << endl; - cout << "Block size : " << line_sz << endl; - cout << "Associativity : " << assoc << endl; - cout << "Read only ports : " << num_rd_ports << endl; - cout << "Write only ports : " << num_wr_ports << endl; - cout << "Read write ports : " << num_rw_ports << endl; - cout << "Single ended read ports : " << num_se_rd_ports << endl; - if (fully_assoc||pure_cam) - { - cout << "Search ports : " << num_search_ports << endl; - } - cout << "Cache banks (UCA) : " << nbanks << endl; - cout << "Technology : " << F_sz_um << endl; - cout << "Temperature : " << temp << endl; - cout << "Tag size : " << tag_w << endl; - if (is_cache) { - cout << "array type : " << "Cache" << endl; - } - if (pure_ram) { - cout << "array type : " << "Scratch RAM" << endl; - } - if (pure_cam) - { - cout << "array type : " << "CAM" << endl; - } - cout << "Model as memory : " << is_main_mem << endl; - cout << "Access mode : " << access_mode << endl; - cout << "Data array cell type : " << data_arr_ram_cell_tech_type << endl; - cout << "Data array peripheral type : " << data_arr_peri_global_tech_type << endl; - cout << "Tag array cell type : " << tag_arr_ram_cell_tech_type << endl; - cout << "Tag array peripheral type : " << tag_arr_peri_global_tech_type << endl; - cout << "Optimization target : " << ed << endl; - cout << "Design objective (UCA wt) : " << delay_wt << " " - << dynamic_power_wt << " " << leakage_power_wt << " " << cycle_time_wt - << " " << area_wt << endl; - cout << "Design objective (UCA dev) : " << delay_dev << " " - << dynamic_power_dev << " " << leakage_power_dev << " " << cycle_time_dev - << " " << area_dev << endl; - if (nuca) - { - cout << "Cores : " << cores << endl; - - - cout << "Design objective (NUCA wt) : " << delay_wt_nuca << " " - << dynamic_power_wt_nuca << " " << leakage_power_wt_nuca << " " << cycle_time_wt_nuca - << " " << area_wt_nuca << endl; - cout << "Design objective (NUCA dev) : " << delay_dev_nuca << " " - << dynamic_power_dev_nuca << " " << leakage_power_dev_nuca << " " << cycle_time_dev_nuca - << " " << area_dev_nuca << endl; - } - cout << "Cache model : " << nuca << endl; - cout << "Nuca bank : " << nuca_bank_count << endl; - cout << "Wire inside mat : " << wire_is_mat_type << endl; - cout << "Wire outside mat : " << wire_os_mat_type << endl; - cout << "Interconnect projection : " << ic_proj_type << endl; - cout << "Wire signalling : " << force_wiretype << endl; - cout << "Print level : " << print_detail << endl; - cout << "ECC overhead : " << add_ecc_b_ << endl; - cout << "Page size : " << page_sz_bits << endl; - cout << "Burst length : " << burst_len << endl; - cout << "Internal prefetch width : " << int_prefetch_w << endl; - cout << "Force cache config : " << g_ip->force_cache_config << endl; - if (g_ip->force_cache_config) { - cout << "Ndwl : " << g_ip->ndwl << endl; - cout << "Ndbl : " << g_ip->ndbl << endl; - cout << "Nspd : " << g_ip->nspd << endl; - cout << "Ndcm : " << g_ip->ndcm << endl; - cout << "Ndsam1 : " << g_ip->ndsam1 << endl; - cout << "Ndsam2 : " << g_ip->ndsam2 << endl; - } -} - - - -powerComponents operator+(const powerComponents & x, const powerComponents & y) -{ - powerComponents z; - - z.dynamic = x.dynamic + y.dynamic; - z.leakage = x.leakage + y.leakage; - z.gate_leakage = x.gate_leakage + y.gate_leakage; - z.short_circuit = x.short_circuit + y.short_circuit; - z.longer_channel_leakage = x.longer_channel_leakage + y.longer_channel_leakage; - - return z; -} - -powerComponents operator*(const powerComponents & x, double const * const y) -{ - powerComponents z; - - z.dynamic = x.dynamic*y[0]; - z.leakage = x.leakage*y[1]; - z.gate_leakage = x.gate_leakage*y[2]; - z.short_circuit = x.short_circuit*y[3]; - z.longer_channel_leakage = x.longer_channel_leakage*y[1];//longer channel leakage has the same behavior as normal leakage - - return z; -} - - -powerDef operator+(const powerDef & x, const powerDef & y) -{ - powerDef z; - - z.readOp = x.readOp + y.readOp; - z.writeOp = x.writeOp + y.writeOp; - z.searchOp = x.searchOp + y.searchOp; - return z; -} - -powerDef operator*(const powerDef & x, double const * const y) -{ - powerDef z; - - z.readOp = x.readOp*y; - z.writeOp = x.writeOp*y; - z.searchOp = x.searchOp*y; - return z; -} - -uca_org_t cacti_interface(const string & infile_name) -{ - - uca_org_t fin_res; - //uca_org_t result; - fin_res.valid = false; - - g_ip = new InputParameter(); - g_ip->parse_cfg(infile_name); - if(!g_ip->error_checking()) - exit(0); - if (g_ip->print_input_args) - g_ip->display_ip(); - - init_tech_params(g_ip->F_sz_um, false); - Wire winit; // Do not delete this line. It initializes wires. - - -// For HighRadix Only -// //// Wire wirea(g_ip->wt, 1000); -// //// wirea.print_wire(); -// //// cout << "Wire Area " << wirea.area.get_area() << " sq. u" << endl; -// // winit.print_wire(); -// // -// HighRadix *hr; -// hr = new HighRadix(); -// hr->compute_power(); -// hr->print_router(); -// exit(0); -// -// double sub_switch_sz = 2; -// double rows = 32; -// for (int i=0; i<6; i++) { -// sub_switch_sz = pow(2, i); -// rows = 64/sub_switch_sz; -// hr = new HighRadix(sub_switch_sz, rows, .8/* freq */, 64, 2, 64, 0.7); -// hr->compute_power(); -// hr->print_router(); -// delete hr; -// } -// // HighRadix yarc; -// // yarc.compute_power(); -// // yarc.print_router(); -// winit.print_wire(); -// exit(0); -// For HighRadix Only End - - if (g_ip->nuca == 1) - { - Nuca n(&g_tp.peri_global); - n.sim_nuca(); - } - g_ip->display_ip(); - solve(&fin_res); - - output_UCA(&fin_res); - output_data_csv(fin_res); - - delete (g_ip); - return fin_res; -} - -//cacti6.5's plain interface, please keep !!! -uca_org_t cacti_interface( - int cache_size, - int line_size, - int associativity, - int rw_ports, - int excl_read_ports, - int excl_write_ports, - int single_ended_read_ports, - int banks, - double tech_node, // in nm - int page_sz, - int burst_length, - int pre_width, - int output_width, - int specific_tag, - int tag_width, - int access_mode, //0 normal, 1 seq, 2 fast - int cache, //scratch ram or cache - int main_mem, - int obj_func_delay, - int obj_func_dynamic_power, - int obj_func_leakage_power, - int obj_func_area, - int obj_func_cycle_time, - int dev_func_delay, - int dev_func_dynamic_power, - int dev_func_leakage_power, - int dev_func_area, - int dev_func_cycle_time, - int ed_ed2_none, // 0 - ED, 1 - ED^2, 2 - use weight and deviate - int temp, - int wt, //0 - default(search across everything), 1 - global, 2 - 5% delay penalty, 3 - 10%, 4 - 20 %, 5 - 30%, 6 - low-swing - int data_arr_ram_cell_tech_flavor_in, // 0-4 - int data_arr_peri_global_tech_flavor_in, - int tag_arr_ram_cell_tech_flavor_in, - int tag_arr_peri_global_tech_flavor_in, - int interconnect_projection_type_in, // 0 - aggressive, 1 - normal - int wire_inside_mat_type_in, - int wire_outside_mat_type_in, - int is_nuca, // 0 - UCA, 1 - NUCA - int core_count, - int cache_level, // 0 - L2, 1 - L3 - int nuca_bank_count, - int nuca_obj_func_delay, - int nuca_obj_func_dynamic_power, - int nuca_obj_func_leakage_power, - int nuca_obj_func_area, - int nuca_obj_func_cycle_time, - int nuca_dev_func_delay, - int nuca_dev_func_dynamic_power, - int nuca_dev_func_leakage_power, - int nuca_dev_func_area, - int nuca_dev_func_cycle_time, - int REPEATERS_IN_HTREE_SEGMENTS_in,//TODO for now only wires with repeaters are supported - int p_input) -{ - g_ip = new InputParameter(); - g_ip->add_ecc_b_ = true; - - g_ip->data_arr_ram_cell_tech_type = data_arr_ram_cell_tech_flavor_in; - g_ip->data_arr_peri_global_tech_type = data_arr_peri_global_tech_flavor_in; - g_ip->tag_arr_ram_cell_tech_type = tag_arr_ram_cell_tech_flavor_in; - g_ip->tag_arr_peri_global_tech_type = tag_arr_peri_global_tech_flavor_in; - - g_ip->ic_proj_type = interconnect_projection_type_in; - g_ip->wire_is_mat_type = wire_inside_mat_type_in; - g_ip->wire_os_mat_type = wire_outside_mat_type_in; - g_ip->burst_len = burst_length; - g_ip->int_prefetch_w = pre_width; - g_ip->page_sz_bits = page_sz; - - g_ip->cache_sz = cache_size; - g_ip->line_sz = line_size; - g_ip->assoc = associativity; - g_ip->nbanks = banks; - g_ip->out_w = output_width; - g_ip->specific_tag = specific_tag; - - - if (tag_width == 0) { - g_ip->tag_w = 42; - } - else { - g_ip->tag_w = tag_width; - } - - g_ip->access_mode = access_mode; - g_ip->delay_wt = obj_func_delay; - g_ip->dynamic_power_wt = obj_func_dynamic_power; - g_ip->leakage_power_wt = obj_func_leakage_power; - g_ip->area_wt = obj_func_area; - g_ip->cycle_time_wt = obj_func_cycle_time; - g_ip->delay_dev = dev_func_delay; - g_ip->dynamic_power_dev = dev_func_dynamic_power; - g_ip->leakage_power_dev = dev_func_leakage_power; - g_ip->area_dev = dev_func_area; - g_ip->cycle_time_dev = dev_func_cycle_time; - g_ip->ed = ed_ed2_none; - - switch(wt) { - case (0): - g_ip->force_wiretype = 0; - g_ip->wt = Global; - break; - case (1): - g_ip->force_wiretype = 1; - g_ip->wt = Global; - break; - case (2): - g_ip->force_wiretype = 1; - g_ip->wt = Global_5; - break; - case (3): - g_ip->force_wiretype = 1; - g_ip->wt = Global_10; - break; - case (4): - g_ip->force_wiretype = 1; - g_ip->wt = Global_20; - break; - case (5): - g_ip->force_wiretype = 1; - g_ip->wt = Global_30; - break; - case (6): - g_ip->force_wiretype = 1; - g_ip->wt = Low_swing; - break; - default: - cout << "Unknown wire type!\n"; - exit(0); - } - - g_ip->delay_wt_nuca = nuca_obj_func_delay; - g_ip->dynamic_power_wt_nuca = nuca_obj_func_dynamic_power; - g_ip->leakage_power_wt_nuca = nuca_obj_func_leakage_power; - g_ip->area_wt_nuca = nuca_obj_func_area; - g_ip->cycle_time_wt_nuca = nuca_obj_func_cycle_time; - g_ip->delay_dev_nuca = dev_func_delay; - g_ip->dynamic_power_dev_nuca = nuca_dev_func_dynamic_power; - g_ip->leakage_power_dev_nuca = nuca_dev_func_leakage_power; - g_ip->area_dev_nuca = nuca_dev_func_area; - g_ip->cycle_time_dev_nuca = nuca_dev_func_cycle_time; - g_ip->nuca = is_nuca; - g_ip->nuca_bank_count = nuca_bank_count; - if(nuca_bank_count > 0) { - g_ip->force_nuca_bank = 1; - } - g_ip->cores = core_count; - g_ip->cache_level = cache_level; - - g_ip->temp = temp; - - g_ip->F_sz_nm = tech_node; - g_ip->F_sz_um = tech_node / 1000; - g_ip->is_main_mem = (main_mem != 0) ? true : false; - g_ip->is_cache = (cache != 0) ? true : false; - g_ip->rpters_in_htree = (REPEATERS_IN_HTREE_SEGMENTS_in != 0) ? true : false; - - g_ip->num_rw_ports = rw_ports; - g_ip->num_rd_ports = excl_read_ports; - g_ip->num_wr_ports = excl_write_ports; - g_ip->num_se_rd_ports = single_ended_read_ports; - g_ip->print_detail = 1; - g_ip->nuca = 0; - - g_ip->wt = Global_5; - g_ip->force_cache_config = false; - g_ip->force_wiretype = false; - g_ip->print_input_args = p_input; - - - uca_org_t fin_res; - fin_res.valid = false; - - if (g_ip->error_checking() == false) exit(0); - if (g_ip->print_input_args) - g_ip->display_ip(); - init_tech_params(g_ip->F_sz_um, false); - Wire winit; // Do not delete this line. It initializes wires. - - if (g_ip->nuca == 1) - { - Nuca n(&g_tp.peri_global); - n.sim_nuca(); - } - solve(&fin_res); - - output_UCA(&fin_res); - - delete (g_ip); - return fin_res; -} - -//McPAT's plain interface, please keep !!! -uca_org_t cacti_interface( - int cache_size, - int line_size, - int associativity, - int rw_ports, - int excl_read_ports,// para5 - int excl_write_ports, - int single_ended_read_ports, - int search_ports, - int banks, - double tech_node,//para10 - int output_width, - int specific_tag, - int tag_width, - int access_mode, - int cache, //para15 - int main_mem, - int obj_func_delay, - int obj_func_dynamic_power, - int obj_func_leakage_power, - int obj_func_cycle_time, //para20 - int obj_func_area, - int dev_func_delay, - int dev_func_dynamic_power, - int dev_func_leakage_power, - int dev_func_area, //para25 - int dev_func_cycle_time, - int ed_ed2_none, // 0 - ED, 1 - ED^2, 2 - use weight and deviate - int temp, - int wt, //0 - default(search across everything), 1 - global, 2 - 5% delay penalty, 3 - 10%, 4 - 20 %, 5 - 30%, 6 - low-swing - int data_arr_ram_cell_tech_flavor_in,//para30 - int data_arr_peri_global_tech_flavor_in, - int tag_arr_ram_cell_tech_flavor_in, - int tag_arr_peri_global_tech_flavor_in, - int interconnect_projection_type_in, - int wire_inside_mat_type_in,//para35 - int wire_outside_mat_type_in, - int REPEATERS_IN_HTREE_SEGMENTS_in, - int VERTICAL_HTREE_WIRES_OVER_THE_ARRAY_in, - int BROADCAST_ADDR_DATAIN_OVER_VERTICAL_HTREES_in, - int PAGE_SIZE_BITS_in,//para40 - int BURST_LENGTH_in, - int INTERNAL_PREFETCH_WIDTH_in, - int force_wiretype, - int wiretype, - int force_config,//para45 - int ndwl, - int ndbl, - int nspd, - int ndcm, - int ndsam1,//para50 - int ndsam2, - int ecc) -{ - g_ip = new InputParameter(); - - uca_org_t fin_res; - fin_res.valid = false; - - g_ip->data_arr_ram_cell_tech_type = data_arr_ram_cell_tech_flavor_in; - g_ip->data_arr_peri_global_tech_type = data_arr_peri_global_tech_flavor_in; - g_ip->tag_arr_ram_cell_tech_type = tag_arr_ram_cell_tech_flavor_in; - g_ip->tag_arr_peri_global_tech_type = tag_arr_peri_global_tech_flavor_in; - - g_ip->ic_proj_type = interconnect_projection_type_in; - g_ip->wire_is_mat_type = wire_inside_mat_type_in; - g_ip->wire_os_mat_type = wire_outside_mat_type_in; - g_ip->burst_len = BURST_LENGTH_in; - g_ip->int_prefetch_w = INTERNAL_PREFETCH_WIDTH_in; - g_ip->page_sz_bits = PAGE_SIZE_BITS_in; - - g_ip->cache_sz = cache_size; - g_ip->line_sz = line_size; - g_ip->assoc = associativity; - g_ip->nbanks = banks; - g_ip->out_w = output_width; - g_ip->specific_tag = specific_tag; - if (specific_tag == 0) { - g_ip->tag_w = 42; - } - else { - g_ip->tag_w = tag_width; - } - - g_ip->access_mode = access_mode; - g_ip->delay_wt = obj_func_delay; - g_ip->dynamic_power_wt = obj_func_dynamic_power; - g_ip->leakage_power_wt = obj_func_leakage_power; - g_ip->area_wt = obj_func_area; - g_ip->cycle_time_wt = obj_func_cycle_time; - g_ip->delay_dev = dev_func_delay; - g_ip->dynamic_power_dev = dev_func_dynamic_power; - g_ip->leakage_power_dev = dev_func_leakage_power; - g_ip->area_dev = dev_func_area; - g_ip->cycle_time_dev = dev_func_cycle_time; - g_ip->temp = temp; - g_ip->ed = ed_ed2_none; - - g_ip->F_sz_nm = tech_node; - g_ip->F_sz_um = tech_node / 1000; - g_ip->is_main_mem = (main_mem != 0) ? true : false; - g_ip->is_cache = (cache ==1) ? true : false; - g_ip->pure_ram = (cache ==0) ? true : false; - g_ip->pure_cam = (cache ==2) ? true : false; - g_ip->rpters_in_htree = (REPEATERS_IN_HTREE_SEGMENTS_in != 0) ? true : false; - g_ip->ver_htree_wires_over_array = VERTICAL_HTREE_WIRES_OVER_THE_ARRAY_in; - g_ip->broadcast_addr_din_over_ver_htrees = BROADCAST_ADDR_DATAIN_OVER_VERTICAL_HTREES_in; - - g_ip->num_rw_ports = rw_ports; - g_ip->num_rd_ports = excl_read_ports; - g_ip->num_wr_ports = excl_write_ports; - g_ip->num_se_rd_ports = single_ended_read_ports; - g_ip->num_search_ports = search_ports; - - g_ip->print_detail = 1; - g_ip->nuca = 0; - - if (force_wiretype == 0) - { - g_ip->wt = Global; - g_ip->force_wiretype = false; - } - else - { g_ip->force_wiretype = true; - if (wiretype==10) { - g_ip->wt = Global_10; - } - if (wiretype==20) { - g_ip->wt = Global_20; - } - if (wiretype==30) { - g_ip->wt = Global_30; - } - if (wiretype==5) { - g_ip->wt = Global_5; - } - if (wiretype==0) { - g_ip->wt = Low_swing; - } - } - //g_ip->wt = Global_5; - if (force_config == 0) - { - g_ip->force_cache_config = false; - } - else - { - g_ip->force_cache_config = true; - g_ip->ndbl=ndbl; - g_ip->ndwl=ndwl; - g_ip->nspd=nspd; - g_ip->ndcm=ndcm; - g_ip->ndsam1=ndsam1; - g_ip->ndsam2=ndsam2; - - - } - - if (ecc==0){ - g_ip->add_ecc_b_=false; - } - else - { - g_ip->add_ecc_b_=true; - } - - - if(!g_ip->error_checking()) - exit(0); - - init_tech_params(g_ip->F_sz_um, false); - Wire winit; // Do not delete this line. It initializes wires. - - g_ip->display_ip(); - solve(&fin_res); - output_UCA(&fin_res); - output_data_csv(fin_res); - delete (g_ip); - - return fin_res; -} - - -InputParameter::InputParameter() -{ - cache_sz=0; // in bytes - line_sz=0; - assoc=0; - nbanks=0; - out_w=0;// == nr_bits_out - specific_tag=false; - tag_w=0; - access_mode=0; - obj_func_dyn_energy=0; - obj_func_dyn_power=0; - obj_func_leak_power=0; - obj_func_cycle_t=0; - - F_sz_nm=0; // feature size in nm - F_sz_um=0; // feature size in um - num_rw_ports=0; - num_rd_ports=0; - num_wr_ports=0; - num_se_rd_ports=0; // number of single ended read ports - num_search_ports=0; // Sheng: number of search ports for CAM - is_main_mem=false; - is_cache=false; - pure_ram=false; - pure_cam=false; - rpters_in_htree=false; // if there are repeaters in htree segment - ver_htree_wires_over_array=0; - broadcast_addr_din_over_ver_htrees=0; - temp=0; - - ram_cell_tech_type=0; - peri_global_tech_type=0; - data_arr_ram_cell_tech_type=0; - data_arr_peri_global_tech_type=0; - tag_arr_ram_cell_tech_type=0; - tag_arr_peri_global_tech_type=0; - - burst_len=0; - int_prefetch_w=0; - page_sz_bits=0; - - ic_proj_type=0; // interconnect_projection_type - wire_is_mat_type=0; // wire_inside_mat_type - wire_os_mat_type=0; // wire_outside_mat_type - wt=Invalid_wtype; - force_wiretype=0; - print_input_args=false; - nuca_cache_sz=0; // TODO - ndbl=0; - ndwl=0; - nspd=0; - ndsam1=0; - ndsam2=0; - ndcm=0; - force_cache_config=false; - - cache_level=0; - cores=0; - nuca_bank_count=0; - force_nuca_bank=0; - - delay_wt=0; - dynamic_power_wt=0; - leakage_power_wt=0; - cycle_time_wt=0; - area_wt=0; - delay_wt_nuca=0; - dynamic_power_wt_nuca=0; - leakage_power_wt_nuca=0; - cycle_time_wt_nuca=0; - area_wt_nuca=0; - - delay_dev=0; - dynamic_power_dev=0; - leakage_power_dev=0; - cycle_time_dev=0; - area_dev=0; - delay_dev_nuca=0; - dynamic_power_dev_nuca=0; - leakage_power_dev_nuca=0; - cycle_time_dev_nuca=0; - area_dev_nuca=0; - ed=0; //ED or ED2 optimization - nuca=0; - - fast_access=false; - block_sz=0; // bytes - tag_assoc=0; - data_assoc=0; - is_seq_acc=false; - fully_assoc=false; - nsets=0; // == number_of_sets - print_detail=0; - - - add_ecc_b_=false; - //parameters for design constraint - throughput=0; - latency=0; - pipelinable=false; - pipeline_stages=0; - per_stage_vector=0; - with_clock_grid=false; -} -bool InputParameter::error_checking() -{ - int A; - bool seq_access = false; - fast_access = true; - - switch (access_mode) - { - case 0: - seq_access = false; - fast_access = false; - break; - case 1: - seq_access = true; - fast_access = false; - break; - case 2: - seq_access = false; - fast_access = true; - break; - } - - if(is_main_mem) - { - if(ic_proj_type == 0) - { - cerr << "DRAM model supports only conservative interconnect projection!\n\n"; - return false; - } - } - - - uint32_t B = line_sz; - - if (B < 1) - { - cerr << "Block size must >= 1" << endl; - return false; - } - else if (B*8 < out_w) - { - cerr << "Block size must be at least " << out_w/8 << endl; - return false; - } - - if (F_sz_um <= 0) - { - cerr << "Feature size must be > 0" << endl; - return false; - } - else if (F_sz_um > 0.091) - { - cerr << "Feature size must be <= 90 nm" << endl; - return false; - } - - - uint32_t RWP = num_rw_ports; - uint32_t ERP = num_rd_ports; - uint32_t EWP = num_wr_ports; - uint32_t NSER = num_se_rd_ports; - uint32_t SCHP = num_search_ports; - -//TODO: revisit this. This is an important feature. Sheng thought this should be used -// // If multiple banks and multiple ports are specified, then if number of ports is less than or equal to -// // the number of banks, we assume that the multiple ports are implemented via the multiple banks. -// // In such a case we assume that each bank has 1 RWP port. -// if ((RWP + ERP + EWP) <= nbanks && nbanks>1) -// { -// RWP = 1; -// ERP = 0; -// EWP = 0; -// NSER = 0; -// } -// else if ((RWP < 0) || (EWP < 0) || (ERP < 0)) -// { -// cerr << "Ports must >=0" << endl; -// return false; -// } -// else if (RWP > 2) -// { -// cerr << "Maximum of 2 read/write ports" << endl; -// return false; -// } -// else if ((RWP+ERP+EWP) < 1) - // Changed to new implementation: - // The number of ports specified at input is per bank - if ((RWP+ERP+EWP) < 1) - { - cerr << "Must have at least one port" << endl; - return false; - } - - if (is_pow2(nbanks) == false) - { - cerr << "Number of subbanks should be greater than or equal to 1 and should be a power of 2" << endl; - return false; - } - - int C = cache_sz/nbanks; - if (C < 64) - { - cerr << "Cache size must >=64" << endl; - return false; - } - -//TODO: revisit this -// if (pure_ram==true && assoc!=1) -// { -// cerr << "Pure RAM must have assoc as 1" << endl; -// return false; -// } - - //fully assoc and cam check - if (is_cache && assoc==0) - fully_assoc =true; - else - fully_assoc = false; - - if (pure_cam==true && assoc!=0) - { - cerr << "Pure CAM must have associativity as 0" << endl; - return false; - } - - if (assoc==0 && (pure_cam==false && is_cache ==false)) - { - cerr << "Only CAM or Fully associative cache can have associativity as 0" << endl; - return false; - } - - if ((fully_assoc==true || pure_cam==true) - && (data_arr_ram_cell_tech_type!= tag_arr_ram_cell_tech_type - || data_arr_peri_global_tech_type != tag_arr_peri_global_tech_type )) - { - cerr << "CAM and fully associative cache must have same device type for both data and tag array" << endl; - return false; - } - - if ((fully_assoc==true || pure_cam==true) - && (data_arr_ram_cell_tech_type== lp_dram || data_arr_ram_cell_tech_type== comm_dram)) - { - cerr << "DRAM based CAM and fully associative cache are not supported" << endl; - return false; - } - - if ((fully_assoc==true || pure_cam==true) - && (is_main_mem==true)) - { - cerr << "CAM and fully associative cache cannot be as main memory" << endl; - return false; - } - - if ((fully_assoc || pure_cam) && SCHP<1) - { - cerr << "CAM and fully associative must have at least 1 search port" << endl; - return false; - } - - if (RWP==0 && ERP==0 && SCHP>0 && ((fully_assoc || pure_cam))) - { - ERP=SCHP; - } - -// if ((!(fully_assoc || pure_cam)) && SCHP>=1) -// { -// cerr << "None CAM and fully associative cannot have search ports" << endl; -// return false; -// } - - if (assoc == 0) - { - A = C/B; - //fully_assoc = true; - } - else - { - if (assoc == 1) - { - A = 1; - //fully_assoc = false; - } - else - { - //fully_assoc = false; - A = assoc; - if (is_pow2(A) == false) - { - cerr << "Associativity must be a power of 2" << endl; - return false; - } - } - } - - if (C/(B*A) <= 1 && assoc!=0) - { - cerr << "Number of sets is too small: " << endl; - cerr << " Need to either increase cache size, or decrease associativity or block size" << endl; - cerr << " (or use fully associative cache)" << endl; - return false; - } - - block_sz = B; - - /*dt: testing sequential access mode*/ - if(seq_access) - { - tag_assoc = A; - data_assoc = 1; - is_seq_acc = true; - } - else - { - tag_assoc = A; - data_assoc = A; - is_seq_acc = false; - } - - if (assoc==0) - { - data_assoc = 1; - } - num_rw_ports = RWP; - num_rd_ports = ERP; - num_wr_ports = EWP; - num_se_rd_ports = NSER; - if (!(fully_assoc || pure_cam)) - num_search_ports = 0; - nsets = C/(B*A); - - if (temp < 300 || temp > 400 || temp%10 != 0) - { - cerr << temp << " Temperature must be between 300 and 400 Kelvin and multiple of 10." << endl; - return false; - } - - if (nsets < 1) - { - cerr << "Less than one set..." << endl; - return false; - } - - return true; -} - - - -void output_data_csv(const uca_org_t & fin_res) -{ - //TODO: the csv output should remain - fstream file("out.csv", ios::in); - bool print_index = file.fail(); - file.close(); - - file.open("out.csv", ios::out|ios::app); - if (file.fail() == true) - { - cerr << "File out.csv could not be opened successfully" << endl; - } - else - { - if (print_index == true) - { - file << "Tech node (nm), "; - file << "Capacity (bytes), "; - file << "Number of banks, "; - file << "Associativity, "; - file << "Output width (bits), "; - file << "Access time (ns), "; - file << "Random cycle time (ns), "; -// file << "Multisubbank interleave cycle time (ns), "; - -// file << "Delay request network (ns), "; -// file << "Delay inside mat (ns), "; -// file << "Delay reply network (ns), "; -// file << "Tag array access time (ns), "; -// file << "Data array access time (ns), "; -// file << "Refresh period (microsec), "; -// file << "DRAM array availability (%), "; - file << "Dynamic search energy (nJ), "; - file << "Dynamic read energy (nJ), "; - file << "Dynamic write energy (nJ), "; -// file << "Tag Dynamic read energy (nJ), "; -// file << "Data Dynamic read energy (nJ), "; -// file << "Dynamic read power (mW), "; - file << "Standby leakage per bank(mW), "; -// file << "Leakage per bank with leak power management (mW), "; -// file << "Leakage per bank with leak power management (mW), "; -// file << "Refresh power as percentage of standby leakage, "; - file << "Area (mm2), "; - file << "Ndwl, "; - file << "Ndbl, "; - file << "Nspd, "; - file << "Ndcm, "; - file << "Ndsam_level_1, "; - file << "Ndsam_level_2, "; - file << "Data arrary area efficiency %, "; - file << "Ntwl, "; - file << "Ntbl, "; - file << "Ntspd, "; - file << "Ntcm, "; - file << "Ntsam_level_1, "; - file << "Ntsam_level_2, "; - file << "Tag arrary area efficiency %, "; - -// file << "Resistance per unit micron (ohm-micron), "; -// file << "Capacitance per unit micron (fF per micron), "; -// file << "Unit-length wire delay (ps), "; -// file << "FO4 delay (ps), "; -// file << "delay route to bank (including crossb delay) (ps), "; -// file << "Crossbar delay (ps), "; -// file << "Dyn read energy per access from closed page (nJ), "; -// file << "Dyn read energy per access from open page (nJ), "; -// file << "Leak power of an subbank with page closed (mW), "; -// file << "Leak power of a subbank with page open (mW), "; -// file << "Leak power of request and reply networks (mW), "; -// file << "Number of subbanks, "; -// file << "Page size in bits, "; -// file << "Activate power, "; -// file << "Read power, "; -// file << "Write power, "; -// file << "Precharge power, "; -// file << "tRCD, "; -// file << "CAS latency, "; -// file << "Precharge delay, "; -// file << "Perc dyn energy bitlines, "; -// file << "perc dyn energy wordlines, "; -// file << "perc dyn energy outside mat, "; -// file << "Area opt (perc), "; -// file << "Delay opt (perc), "; -// file << "Repeater opt (perc), "; -// file << "Aspect ratio"; - file << endl; - } - file << g_ip->F_sz_nm << ", "; - file << g_ip->cache_sz << ", "; - file << g_ip->nbanks << ", "; - file << g_ip->tag_assoc << ", "; - file << g_ip->out_w << ", "; - file << fin_res.access_time*1e+9 << ", "; - file << fin_res.cycle_time*1e+9 << ", "; -// file << fin_res.data_array2->multisubbank_interleave_cycle_time*1e+9 << ", "; -// file << fin_res.data_array2->delay_request_network*1e+9 << ", "; -// file << fin_res.data_array2->delay_inside_mat*1e+9 << ", "; -// file << fin_res.data_array2.delay_reply_network*1e+9 << ", "; - -// if (!(g_ip->fully_assoc || g_ip->pure_cam || g_ip->pure_ram)) -// { -// file << fin_res.tag_array2->access_time*1e+9 << ", "; -// } -// else -// { -// file << 0 << ", "; -// } -// file << fin_res.data_array2->access_time*1e+9 << ", "; -// file << fin_res.data_array2->dram_refresh_period*1e+6 << ", "; -// file << fin_res.data_array2->dram_array_availability << ", "; - if (g_ip->fully_assoc || g_ip->pure_cam) - { - file << fin_res.power.searchOp.dynamic*1e+9 << ", "; - } - else - { - file << "N/A" << ", "; - } - file << fin_res.power.readOp.dynamic*1e+9 << ", "; - file << fin_res.power.writeOp.dynamic*1e+9 << ", "; -// if (!(g_ip->fully_assoc || g_ip->pure_cam || g_ip->pure_ram)) -// { -// file << fin_res.tag_array2->power.readOp.dynamic*1e+9 << ", "; -// } -// else -// { -// file << "NA" << ", "; -// } -// file << fin_res.data_array2->power.readOp.dynamic*1e+9 << ", "; -// if (g_ip->fully_assoc || g_ip->pure_cam) -// { -// file << fin_res.power.searchOp.dynamic*1000/fin_res.cycle_time << ", "; -// } -// else -// { -// file << fin_res.power.readOp.dynamic*1000/fin_res.cycle_time << ", "; -// } - - file <<( fin_res.power.readOp.leakage + fin_res.power.readOp.gate_leakage )*1000 << ", "; -// file << fin_res.leak_power_with_sleep_transistors_in_mats*1000 << ", "; -// file << fin_res.data_array.refresh_power / fin_res.data_array.total_power.readOp.leakage << ", "; - file << fin_res.area*1e-6 << ", "; - - file << fin_res.data_array2->Ndwl << ", "; - file << fin_res.data_array2->Ndbl << ", "; - file << fin_res.data_array2->Nspd << ", "; - file << fin_res.data_array2->deg_bl_muxing << ", "; - file << fin_res.data_array2->Ndsam_lev_1 << ", "; - file << fin_res.data_array2->Ndsam_lev_2 << ", "; - file << fin_res.data_array2->area_efficiency << ", "; - if (!(g_ip->fully_assoc || g_ip->pure_cam || g_ip->pure_ram)) - { - file << fin_res.tag_array2->Ndwl << ", "; - file << fin_res.tag_array2->Ndbl << ", "; - file << fin_res.tag_array2->Nspd << ", "; - file << fin_res.tag_array2->deg_bl_muxing << ", "; - file << fin_res.tag_array2->Ndsam_lev_1 << ", "; - file << fin_res.tag_array2->Ndsam_lev_2 << ", "; - file << fin_res.tag_array2->area_efficiency << ", "; - } - else - { - file << "N/A" << ", "; - file << "N/A"<< ", "; - file << "N/A" << ", "; - file << "N/A" << ", "; - file << "N/A" << ", "; - file << "N/A" << ", "; - file << "N/A" << ", "; - } - -// file << g_tp.wire_inside_mat.R_per_um << ", "; -// file << g_tp.wire_inside_mat.C_per_um / 1e-15 << ", "; -// file << g_tp.unit_len_wire_del / 1e-12 << ", "; -// file << g_tp.FO4 / 1e-12 << ", "; -// file << fin_res.data_array.delay_route_to_bank / 1e-9 << ", "; -// file << fin_res.data_array.delay_crossbar / 1e-9 << ", "; -// file << fin_res.data_array.dyn_read_energy_from_closed_page / 1e-9 << ", "; -// file << fin_res.data_array.dyn_read_energy_from_open_page / 1e-9 << ", "; -// file << fin_res.data_array.leak_power_subbank_closed_page / 1e-3 << ", "; -// file << fin_res.data_array.leak_power_subbank_open_page / 1e-3 << ", "; -// file << fin_res.data_array.leak_power_request_and_reply_networks / 1e-3 << ", "; -// file << fin_res.data_array.number_subbanks << ", " ; -// file << fin_res.data_array.page_size_in_bits << ", " ; -// file << fin_res.data_array.activate_energy * 1e9 << ", " ; -// file << fin_res.data_array.read_energy * 1e9 << ", " ; -// file << fin_res.data_array.write_energy * 1e9 << ", " ; -// file << fin_res.data_array.precharge_energy * 1e9 << ", " ; -// file << fin_res.data_array.trcd * 1e9 << ", " ; -// file << fin_res.data_array.cas_latency * 1e9 << ", " ; -// file << fin_res.data_array.precharge_delay * 1e9 << ", " ; -// file << fin_res.data_array.all_banks_height / fin_res.data_array.all_banks_width; - file<<endl; - } - file.close(); -} - - - -void output_UCA(uca_org_t *fr) -{ - // if (NUCA) - if (0) { - cout << "\n\n Detailed Bank Stats:\n"; - cout << " Bank Size (bytes): %d\n" << - (int) (g_ip->cache_sz); - } - else { - if (g_ip->data_arr_ram_cell_tech_type == 3) { - cout << "\n---------- CACTI version 6.5, Uniform Cache Access " << - "Logic Process Based DRAM Model ----------\n"; - } - else if (g_ip->data_arr_ram_cell_tech_type == 4) { - cout << "\n---------- CACTI version 6.5, Uniform" << - "Cache Access Commodity DRAM Model ----------\n"; - } - else { - cout << "\n---------- CACTI version 6.5, Uniform Cache Access " - "SRAM Model ----------\n"; - } - cout << "\nCache Parameters:\n"; - cout << " Total cache size (bytes): " << - (int) (g_ip->cache_sz) << endl; - } - - cout << " Number of banks: " << (int) g_ip->nbanks << endl; - if (g_ip->fully_assoc|| g_ip->pure_cam) - cout << " Associativity: fully associative\n"; - else { - if (g_ip->tag_assoc == 1) - cout << " Associativity: direct mapped\n"; - else - cout << " Associativity: " << - g_ip->tag_assoc << endl; - } - - - cout << " Block size (bytes): " << g_ip->line_sz << endl; - cout << " Read/write Ports: " << - g_ip->num_rw_ports << endl; - cout << " Read ports: " << - g_ip->num_rd_ports << endl; - cout << " Write ports: " << - g_ip->num_wr_ports << endl; - if (g_ip->fully_assoc|| g_ip->pure_cam) - cout << " search ports: " << - g_ip->num_search_ports << endl; - cout << " Technology size (nm): " << - g_ip->F_sz_nm << endl << endl; - - cout << " Access time (ns): " << fr->access_time*1e9 << endl; - cout << " Cycle time (ns): " << fr->cycle_time*1e9 << endl; - if (g_ip->data_arr_ram_cell_tech_type >= 4) { - cout << " Precharge Delay (ns): " << fr->data_array2->precharge_delay*1e9 << endl; - cout << " Activate Energy (nJ): " << fr->data_array2->activate_energy*1e9 << endl; - cout << " Read Energy (nJ): " << fr->data_array2->read_energy*1e9 << endl; - cout << " Write Energy (nJ): " << fr->data_array2->write_energy*1e9 << endl; - cout << " Precharge Energy (nJ): " << fr->data_array2->precharge_energy*1e9 << endl; - cout << " Leakage Power Closed Page (mW): " << fr->data_array2->leak_power_subbank_closed_page*1e3 << endl; - cout << " Leakage Power Open Page (mW): " << fr->data_array2->leak_power_subbank_open_page*1e3 << endl; - cout << " Leakage Power I/O (mW): " << fr->data_array2->leak_power_request_and_reply_networks*1e3 << endl; - cout << " Refresh power (mW): " << - fr->data_array2->refresh_power*1e3 << endl; - } - else { - if ((g_ip->fully_assoc|| g_ip->pure_cam)) - { - cout << " Total dynamic associative search energy per access (nJ): " << - fr->power.searchOp.dynamic*1e9 << endl; -// cout << " Total dynamic read energy per access (nJ): " << -// fr->power.readOp.dynamic*1e9 << endl; -// cout << " Total dynamic write energy per access (nJ): " << -// fr->power.writeOp.dynamic*1e9 << endl; - } -// else -// { - cout << " Total dynamic read energy per access (nJ): " << - fr->power.readOp.dynamic*1e9 << endl; - cout << " Total dynamic write energy per access (nJ): " << - fr->power.writeOp.dynamic*1e9 << endl; -// } - cout << " Total leakage power of a bank" - " (mW): " << fr->power.readOp.leakage*1e3 << endl; - cout << " Total gate leakage power of a bank" - " (mW): " << fr->power.readOp.gate_leakage*1e3 << endl; - } - - if (g_ip->data_arr_ram_cell_tech_type ==3 || g_ip->data_arr_ram_cell_tech_type ==4) - { - } - cout << " Cache height x width (mm): " << - fr->cache_ht*1e-3 << " x " << fr->cache_len*1e-3 << endl << endl; - - - cout << " Best Ndwl : " << fr->data_array2->Ndwl << endl; - cout << " Best Ndbl : " << fr->data_array2->Ndbl << endl; - cout << " Best Nspd : " << fr->data_array2->Nspd << endl; - cout << " Best Ndcm : " << fr->data_array2->deg_bl_muxing << endl; - cout << " Best Ndsam L1 : " << fr->data_array2->Ndsam_lev_1 << endl; - cout << " Best Ndsam L2 : " << fr->data_array2->Ndsam_lev_2 << endl << endl; - - if ((!(g_ip->pure_ram|| g_ip->pure_cam || g_ip->fully_assoc)) && !g_ip->is_main_mem) - { - cout << " Best Ntwl : " << fr->tag_array2->Ndwl << endl; - cout << " Best Ntbl : " << fr->tag_array2->Ndbl << endl; - cout << " Best Ntspd : " << fr->tag_array2->Nspd << endl; - cout << " Best Ntcm : " << fr->tag_array2->deg_bl_muxing << endl; - cout << " Best Ntsam L1 : " << fr->tag_array2->Ndsam_lev_1 << endl; - cout << " Best Ntsam L2 : " << fr->tag_array2->Ndsam_lev_2 << endl; - } - - switch (fr->data_array2->wt) { - case (0): - cout << " Data array, H-tree wire type: Delay optimized global wires\n"; - break; - case (1): - cout << " Data array, H-tree wire type: Global wires with 5\% delay penalty\n"; - break; - case (2): - cout << " Data array, H-tree wire type: Global wires with 10\% delay penalty\n"; - break; - case (3): - cout << " Data array, H-tree wire type: Global wires with 20\% delay penalty\n"; - break; - case (4): - cout << " Data array, H-tree wire type: Global wires with 30\% delay penalty\n"; - break; - case (5): - cout << " Data array, wire type: Low swing wires\n"; - break; - default: - cout << "ERROR - Unknown wire type " << (int) fr->data_array2->wt <<endl; - exit(0); - } - - if (!(g_ip->pure_ram|| g_ip->pure_cam || g_ip->fully_assoc)) { - switch (fr->tag_array2->wt) { - case (0): - cout << " Tag array, H-tree wire type: Delay optimized global wires\n"; - break; - case (1): - cout << " Tag array, H-tree wire type: Global wires with 5\% delay penalty\n"; - break; - case (2): - cout << " Tag array, H-tree wire type: Global wires with 10\% delay penalty\n"; - break; - case (3): - cout << " Tag array, H-tree wire type: Global wires with 20\% delay penalty\n"; - break; - case (4): - cout << " Tag array, H-tree wire type: Global wires with 30\% delay penalty\n"; - break; - case (5): - cout << " Tag array, wire type: Low swing wires\n"; - break; - default: - cout << "ERROR - Unknown wire type " << (int) fr->tag_array2->wt <<endl; - exit(-1); - } - } - - if (g_ip->print_detail) - { - //if(g_ip->fully_assoc) return; - - /* Delay stats */ - /* data array stats */ - cout << endl << "Time Components:" << endl << endl; - - cout << " Data side (with Output driver) (ns): " << - fr->data_array2->access_time/1e-9 << endl; - - cout << "\tH-tree input delay (ns): " << - fr->data_array2->delay_route_to_bank * 1e9 + - fr->data_array2->delay_input_htree * 1e9 << endl; - - if (!(g_ip->pure_cam || g_ip->fully_assoc)) - { - cout << "\tDecoder + wordline delay (ns): " << - fr->data_array2->delay_row_predecode_driver_and_block * 1e9 + - fr->data_array2->delay_row_decoder * 1e9 << endl; - } - else - { - cout << "\tCAM search delay (ns): " << - fr->data_array2->delay_matchlines * 1e9 << endl; - } - - cout << "\tBitline delay (ns): " << - fr->data_array2->delay_bitlines/1e-9 << endl; - - cout << "\tSense Amplifier delay (ns): " << - fr->data_array2->delay_sense_amp * 1e9 << endl; - - - cout << "\tH-tree output delay (ns): " << - fr->data_array2->delay_subarray_output_driver * 1e9 + - fr->data_array2->delay_dout_htree * 1e9 << endl; - - if ((!(g_ip->pure_ram|| g_ip->pure_cam || g_ip->fully_assoc)) && !g_ip->is_main_mem) - { - /* tag array stats */ - cout << endl << " Tag side (with Output driver) (ns): " << - fr->tag_array2->access_time/1e-9 << endl; - - cout << "\tH-tree input delay (ns): " << - fr->tag_array2->delay_route_to_bank * 1e9 + - fr->tag_array2->delay_input_htree * 1e9 << endl; - - cout << "\tDecoder + wordline delay (ns): " << - fr->tag_array2->delay_row_predecode_driver_and_block * 1e9 + - fr->tag_array2->delay_row_decoder * 1e9 << endl; - - cout << "\tBitline delay (ns): " << - fr->tag_array2->delay_bitlines/1e-9 << endl; - - cout << "\tSense Amplifier delay (ns): " << - fr->tag_array2->delay_sense_amp * 1e9 << endl; - - cout << "\tComparator delay (ns): " << - fr->tag_array2->delay_comparator * 1e9 << endl; - - cout << "\tH-tree output delay (ns): " << - fr->tag_array2->delay_subarray_output_driver * 1e9 + - fr->tag_array2->delay_dout_htree * 1e9 << endl; - } - - - - /* Energy/Power stats */ - cout << endl << endl << "Power Components:" << endl << endl; - - if (!(g_ip->pure_cam || g_ip->fully_assoc)) - { - cout << " Data array: Total dynamic read energy/access (nJ): " << - fr->data_array2->power.readOp.dynamic * 1e9 << endl; - cout << "\tTotal leakage read/write power of a bank (mW): " << - fr->data_array2->power.readOp.leakage * 1e3 << endl; - - cout << "\tTotal energy in H-tree (that includes both " - "address and data transfer) (nJ): " << - (fr->data_array2->power_addr_input_htree.readOp.dynamic + - fr->data_array2->power_data_output_htree.readOp.dynamic + - fr->data_array2->power_routing_to_bank.readOp.dynamic) * 1e9 << endl; - - cout << "\tTotal leakage power in H-tree (that includes both " - "address and data network) ((mW)): " << - (fr->data_array2->power_addr_input_htree.readOp.leakage + - fr->data_array2->power_data_output_htree.readOp.leakage + - fr->data_array2->power_routing_to_bank.readOp.leakage) * 1e3 << endl; - - cout << "\tTotal gate leakage power in H-tree (that includes both " - "address and data network) ((mW)): " << - (fr->data_array2->power_addr_input_htree.readOp.gate_leakage + - fr->data_array2->power_data_output_htree.readOp.gate_leakage + - fr->data_array2->power_routing_to_bank.readOp.gate_leakage) * 1e3 << endl; - - cout << "\tOutput Htree inside bank Energy (nJ): " << - fr->data_array2->power_data_output_htree.readOp.dynamic * 1e9 << endl; - cout << "\tDecoder (nJ): " << - fr->data_array2->power_row_predecoder_drivers.readOp.dynamic * 1e9 + - fr->data_array2->power_row_predecoder_blocks.readOp.dynamic * 1e9 << endl; - cout << "\tWordline (nJ): " << - fr->data_array2->power_row_decoders.readOp.dynamic * 1e9 << endl; - cout << "\tBitline mux & associated drivers (nJ): " << - fr->data_array2->power_bit_mux_predecoder_drivers.readOp.dynamic * 1e9 + - fr->data_array2->power_bit_mux_predecoder_blocks.readOp.dynamic * 1e9 + - fr->data_array2->power_bit_mux_decoders.readOp.dynamic * 1e9 << endl; - cout << "\tSense amp mux & associated drivers (nJ): " << - fr->data_array2->power_senseamp_mux_lev_1_predecoder_drivers.readOp.dynamic * 1e9 + - fr->data_array2->power_senseamp_mux_lev_1_predecoder_blocks.readOp.dynamic * 1e9 + - fr->data_array2->power_senseamp_mux_lev_1_decoders.readOp.dynamic * 1e9 + - fr->data_array2->power_senseamp_mux_lev_2_predecoder_drivers.readOp.dynamic * 1e9 + - fr->data_array2->power_senseamp_mux_lev_2_predecoder_blocks.readOp.dynamic * 1e9 + - fr->data_array2->power_senseamp_mux_lev_2_decoders.readOp.dynamic * 1e9 << endl; - - cout << "\tBitlines precharge and equalization circuit (nJ): " << - fr->data_array2->power_prechg_eq_drivers.readOp.dynamic * 1e9 << endl; - cout << "\tBitlines (nJ): " << - fr->data_array2->power_bitlines.readOp.dynamic * 1e9 << endl; - cout << "\tSense amplifier energy (nJ): " << - fr->data_array2->power_sense_amps.readOp.dynamic * 1e9 << endl; - cout << "\tSub-array output driver (nJ): " << - fr->data_array2->power_output_drivers_at_subarray.readOp.dynamic * 1e9 << endl; - } - - else if (g_ip->pure_cam) - { - - cout << " CAM array:"<<endl; - cout << " Total dynamic associative search energy/access (nJ): " << - fr->data_array2->power.searchOp.dynamic * 1e9 << endl; - cout << "\tTotal energy in H-tree (that includes both " - "match key and data transfer) (nJ): " << - (fr->data_array2->power_htree_in_search.searchOp.dynamic + - fr->data_array2->power_htree_out_search.searchOp.dynamic + - fr->data_array2->power_routing_to_bank.searchOp.dynamic) * 1e9 << endl; - cout << "\tKeyword input and result output Htrees inside bank Energy (nJ): " << - (fr->data_array2->power_htree_in_search.searchOp.dynamic + - fr->data_array2->power_htree_out_search.searchOp.dynamic) * 1e9 << endl; - cout << "\tSearchlines (nJ): " << - fr->data_array2->power_searchline.searchOp.dynamic * 1e9 + - fr->data_array2->power_searchline_precharge.searchOp.dynamic * 1e9 << endl; - cout << "\tMatchlines (nJ): " << - fr->data_array2->power_matchlines.searchOp.dynamic * 1e9 + - fr->data_array2->power_matchline_precharge.searchOp.dynamic * 1e9 << endl; - cout << "\tSub-array output driver (nJ): " << - fr->data_array2->power_output_drivers_at_subarray.searchOp.dynamic * 1e9 << endl; - - - cout <<endl<< " Total dynamic read energy/access (nJ): " << - fr->data_array2->power.readOp.dynamic * 1e9 << endl; - cout << "\tTotal energy in H-tree (that includes both " - "address and data transfer) (nJ): " << - (fr->data_array2->power_addr_input_htree.readOp.dynamic + - fr->data_array2->power_data_output_htree.readOp.dynamic + - fr->data_array2->power_routing_to_bank.readOp.dynamic) * 1e9 << endl; - cout << "\tOutput Htree inside bank Energy (nJ): " << - fr->data_array2->power_data_output_htree.readOp.dynamic * 1e9 << endl; - cout << "\tDecoder (nJ): " << - fr->data_array2->power_row_predecoder_drivers.readOp.dynamic * 1e9 + - fr->data_array2->power_row_predecoder_blocks.readOp.dynamic * 1e9 << endl; - cout << "\tWordline (nJ): " << - fr->data_array2->power_row_decoders.readOp.dynamic * 1e9 << endl; - cout << "\tBitline mux & associated drivers (nJ): " << - fr->data_array2->power_bit_mux_predecoder_drivers.readOp.dynamic * 1e9 + - fr->data_array2->power_bit_mux_predecoder_blocks.readOp.dynamic * 1e9 + - fr->data_array2->power_bit_mux_decoders.readOp.dynamic * 1e9 << endl; - cout << "\tSense amp mux & associated drivers (nJ): " << - fr->data_array2->power_senseamp_mux_lev_1_predecoder_drivers.readOp.dynamic * 1e9 + - fr->data_array2->power_senseamp_mux_lev_1_predecoder_blocks.readOp.dynamic * 1e9 + - fr->data_array2->power_senseamp_mux_lev_1_decoders.readOp.dynamic * 1e9 + - fr->data_array2->power_senseamp_mux_lev_2_predecoder_drivers.readOp.dynamic * 1e9 + - fr->data_array2->power_senseamp_mux_lev_2_predecoder_blocks.readOp.dynamic * 1e9 + - fr->data_array2->power_senseamp_mux_lev_2_decoders.readOp.dynamic * 1e9 << endl; - cout << "\tBitlines (nJ): " << - fr->data_array2->power_bitlines.readOp.dynamic * 1e9 + - fr->data_array2->power_prechg_eq_drivers.readOp.dynamic * 1e9<< endl; - cout << "\tSense amplifier energy (nJ): " << - fr->data_array2->power_sense_amps.readOp.dynamic * 1e9 << endl; - cout << "\tSub-array output driver (nJ): " << - fr->data_array2->power_output_drivers_at_subarray.readOp.dynamic * 1e9 << endl; - - cout << endl <<" Total leakage power of a bank (mW): " << - fr->data_array2->power.readOp.leakage * 1e3 << endl; - } - else - { - cout << " Fully associative array:"<<endl; - cout << " Total dynamic associative search energy/access (nJ): " << - fr->data_array2->power.searchOp.dynamic * 1e9 << endl; - cout << "\tTotal energy in H-tree (that includes both " - "match key and data transfer) (nJ): " << - (fr->data_array2->power_htree_in_search.searchOp.dynamic + - fr->data_array2->power_htree_out_search.searchOp.dynamic + - fr->data_array2->power_routing_to_bank.searchOp.dynamic) * 1e9 << endl; - cout << "\tKeyword input and result output Htrees inside bank Energy (nJ): " << - (fr->data_array2->power_htree_in_search.searchOp.dynamic + - fr->data_array2->power_htree_out_search.searchOp.dynamic) * 1e9 << endl; - cout << "\tSearchlines (nJ): " << - fr->data_array2->power_searchline.searchOp.dynamic * 1e9 + - fr->data_array2->power_searchline_precharge.searchOp.dynamic * 1e9 << endl; - cout << "\tMatchlines (nJ): " << - fr->data_array2->power_matchlines.searchOp.dynamic * 1e9 + - fr->data_array2->power_matchline_precharge.searchOp.dynamic * 1e9 << endl; - cout << "\tData portion wordline (nJ): " << - fr->data_array2->power_matchline_to_wordline_drv.searchOp.dynamic * 1e9 << endl; - cout << "\tData Bitlines (nJ): " << - fr->data_array2->power_bitlines.searchOp.dynamic * 1e9 + - fr->data_array2->power_prechg_eq_drivers.searchOp.dynamic * 1e9 << endl; - cout << "\tSense amplifier energy (nJ): " << - fr->data_array2->power_sense_amps.searchOp.dynamic * 1e9 << endl; - cout << "\tSub-array output driver (nJ): " << - fr->data_array2->power_output_drivers_at_subarray.searchOp.dynamic * 1e9 << endl; - - - cout <<endl<< " Total dynamic read energy/access (nJ): " << - fr->data_array2->power.readOp.dynamic * 1e9 << endl; - cout << "\tTotal energy in H-tree (that includes both " - "address and data transfer) (nJ): " << - (fr->data_array2->power_addr_input_htree.readOp.dynamic + - fr->data_array2->power_data_output_htree.readOp.dynamic + - fr->data_array2->power_routing_to_bank.readOp.dynamic) * 1e9 << endl; - cout << "\tOutput Htree inside bank Energy (nJ): " << - fr->data_array2->power_data_output_htree.readOp.dynamic * 1e9 << endl; - cout << "\tDecoder (nJ): " << - fr->data_array2->power_row_predecoder_drivers.readOp.dynamic * 1e9 + - fr->data_array2->power_row_predecoder_blocks.readOp.dynamic * 1e9 << endl; - cout << "\tWordline (nJ): " << - fr->data_array2->power_row_decoders.readOp.dynamic * 1e9 << endl; - cout << "\tBitline mux & associated drivers (nJ): " << - fr->data_array2->power_bit_mux_predecoder_drivers.readOp.dynamic * 1e9 + - fr->data_array2->power_bit_mux_predecoder_blocks.readOp.dynamic * 1e9 + - fr->data_array2->power_bit_mux_decoders.readOp.dynamic * 1e9 << endl; - cout << "\tSense amp mux & associated drivers (nJ): " << - fr->data_array2->power_senseamp_mux_lev_1_predecoder_drivers.readOp.dynamic * 1e9 + - fr->data_array2->power_senseamp_mux_lev_1_predecoder_blocks.readOp.dynamic * 1e9 + - fr->data_array2->power_senseamp_mux_lev_1_decoders.readOp.dynamic * 1e9 + - fr->data_array2->power_senseamp_mux_lev_2_predecoder_drivers.readOp.dynamic * 1e9 + - fr->data_array2->power_senseamp_mux_lev_2_predecoder_blocks.readOp.dynamic * 1e9 + - fr->data_array2->power_senseamp_mux_lev_2_decoders.readOp.dynamic * 1e9 << endl; - cout << "\tBitlines (nJ): " << - fr->data_array2->power_bitlines.readOp.dynamic * 1e9 + - fr->data_array2->power_prechg_eq_drivers.readOp.dynamic * 1e9<< endl; - cout << "\tSense amplifier energy (nJ): " << - fr->data_array2->power_sense_amps.readOp.dynamic * 1e9 << endl; - cout << "\tSub-array output driver (nJ): " << - fr->data_array2->power_output_drivers_at_subarray.readOp.dynamic * 1e9 << endl; - - cout << endl <<" Total leakage power of a bank (mW): " << - fr->data_array2->power.readOp.leakage * 1e3 << endl; - } - - - if ((!(g_ip->pure_ram|| g_ip->pure_cam || g_ip->fully_assoc)) && !g_ip->is_main_mem) - { - cout << endl << " Tag array: Total dynamic read energy/access (nJ): " << - fr->tag_array2->power.readOp.dynamic * 1e9 << endl; - cout << "\tTotal leakage read/write power of a bank (mW): " << - fr->tag_array2->power.readOp.leakage * 1e3 << endl; - cout << "\tTotal energy in H-tree (that includes both " - "address and data transfer) (nJ): " << - (fr->tag_array2->power_addr_input_htree.readOp.dynamic + - fr->tag_array2->power_data_output_htree.readOp.dynamic + - fr->tag_array2->power_routing_to_bank.readOp.dynamic) * 1e9 << endl; - - cout << "\tTotal leakage power in H-tree (that includes both " - "address and data network) ((mW)): " << - (fr->tag_array2->power_addr_input_htree.readOp.leakage + - fr->tag_array2->power_data_output_htree.readOp.leakage + - fr->tag_array2->power_routing_to_bank.readOp.leakage) * 1e3 << endl; - - cout << "\tTotal gate leakage power in H-tree (that includes both " - "address and data network) ((mW)): " << - (fr->tag_array2->power_addr_input_htree.readOp.gate_leakage + - fr->tag_array2->power_data_output_htree.readOp.gate_leakage + - fr->tag_array2->power_routing_to_bank.readOp.gate_leakage) * 1e3 << endl; - - cout << "\tOutput Htree inside a bank Energy (nJ): " << - fr->tag_array2->power_data_output_htree.readOp.dynamic * 1e9 << endl; - cout << "\tDecoder (nJ): " << - fr->tag_array2->power_row_predecoder_drivers.readOp.dynamic * 1e9 + - fr->tag_array2->power_row_predecoder_blocks.readOp.dynamic * 1e9 << endl; - cout << "\tWordline (nJ): " << - fr->tag_array2->power_row_decoders.readOp.dynamic * 1e9 << endl; - cout << "\tBitline mux & associated drivers (nJ): " << - fr->tag_array2->power_bit_mux_predecoder_drivers.readOp.dynamic * 1e9 + - fr->tag_array2->power_bit_mux_predecoder_blocks.readOp.dynamic * 1e9 + - fr->tag_array2->power_bit_mux_decoders.readOp.dynamic * 1e9 << endl; - cout << "\tSense amp mux & associated drivers (nJ): " << - fr->tag_array2->power_senseamp_mux_lev_1_predecoder_drivers.readOp.dynamic * 1e9 + - fr->tag_array2->power_senseamp_mux_lev_1_predecoder_blocks.readOp.dynamic * 1e9 + - fr->tag_array2->power_senseamp_mux_lev_1_decoders.readOp.dynamic * 1e9 + - fr->tag_array2->power_senseamp_mux_lev_2_predecoder_drivers.readOp.dynamic * 1e9 + - fr->tag_array2->power_senseamp_mux_lev_2_predecoder_blocks.readOp.dynamic * 1e9 + - fr->tag_array2->power_senseamp_mux_lev_2_decoders.readOp.dynamic * 1e9 << endl; - cout << "\tBitlines precharge and equalization circuit (nJ): " << - fr->tag_array2->power_prechg_eq_drivers.readOp.dynamic * 1e9 << endl; - cout << "\tBitlines (nJ): " << - fr->tag_array2->power_bitlines.readOp.dynamic * 1e9 << endl; - cout << "\tSense amplifier energy (nJ): " << - fr->tag_array2->power_sense_amps.readOp.dynamic * 1e9 << endl; - cout << "\tSub-array output driver (nJ): " << - fr->tag_array2->power_output_drivers_at_subarray.readOp.dynamic * 1e9 << endl; - } - - cout << endl << endl << "Area Components:" << endl << endl; - /* Data array area stats */ - if (!(g_ip->pure_cam || g_ip->fully_assoc)) - cout << " Data array: Area (mm2): " << fr->data_array2->area * 1e-6 << endl; - else if (g_ip->pure_cam) - cout << " CAM array: Area (mm2): " << fr->data_array2->area * 1e-6 << endl; - else - cout << " Fully associative cache array: Area (mm2): " << fr->data_array2->area * 1e-6 << endl; - cout << "\tHeight (mm): " << - fr->data_array2->all_banks_height*1e-3 << endl; - cout << "\tWidth (mm): " << - fr->data_array2->all_banks_width*1e-3 << endl; - if (g_ip->print_detail) { - cout << "\tArea efficiency (Memory cell area/Total area) - " << - fr->data_array2->area_efficiency << " %" << endl; - cout << "\t\tMAT Height (mm): " << - fr->data_array2->mat_height*1e-3 << endl; - cout << "\t\tMAT Length (mm): " << - fr->data_array2->mat_length*1e-3 << endl; - cout << "\t\tSubarray Height (mm): " << - fr->data_array2->subarray_height*1e-3 << endl; - cout << "\t\tSubarray Length (mm): " << - fr->data_array2->subarray_length*1e-3 << endl; - } - - /* Tag array area stats */ - if ((!(g_ip->pure_ram|| g_ip->pure_cam || g_ip->fully_assoc)) && !g_ip->is_main_mem) - { - cout << endl << " Tag array: Area (mm2): " << fr->tag_array2->area * 1e-6 << endl; - cout << "\tHeight (mm): " << - fr->tag_array2->all_banks_height*1e-3 << endl; - cout << "\tWidth (mm): " << - fr->tag_array2->all_banks_width*1e-3 << endl; - if (g_ip->print_detail) - { - cout << "\tArea efficiency (Memory cell area/Total area) - " << - fr->tag_array2->area_efficiency << " %" << endl; - cout << "\t\tMAT Height (mm): " << - fr->tag_array2->mat_height*1e-3 << endl; - cout << "\t\tMAT Length (mm): " << - fr->tag_array2->mat_length*1e-3 << endl; - cout << "\t\tSubarray Height (mm): " << - fr->tag_array2->subarray_height*1e-3 << endl; - cout << "\t\tSubarray Length (mm): " << - fr->tag_array2->subarray_length*1e-3 << endl; - } - } - Wire wpr; - wpr.print_wire(); - - //cout << "FO4 = " << g_tp.FO4 << endl; - } -} - -//McPAT's plain interface, please keep !!! -uca_org_t cacti_interface(InputParameter * const local_interface) -{ -// g_ip = new InputParameter(); - //g_ip->add_ecc_b_ = true; - - uca_org_t fin_res; - fin_res.valid = false; - - g_ip = local_interface; - - -// g_ip->data_arr_ram_cell_tech_type = data_arr_ram_cell_tech_flavor_in; -// g_ip->data_arr_peri_global_tech_type = data_arr_peri_global_tech_flavor_in; -// g_ip->tag_arr_ram_cell_tech_type = tag_arr_ram_cell_tech_flavor_in; -// g_ip->tag_arr_peri_global_tech_type = tag_arr_peri_global_tech_flavor_in; -// -// g_ip->ic_proj_type = interconnect_projection_type_in; -// g_ip->wire_is_mat_type = wire_inside_mat_type_in; -// g_ip->wire_os_mat_type = wire_outside_mat_type_in; -// g_ip->burst_len = BURST_LENGTH_in; -// g_ip->int_prefetch_w = INTERNAL_PREFETCH_WIDTH_in; -// g_ip->page_sz_bits = PAGE_SIZE_BITS_in; -// -// g_ip->cache_sz = cache_size; -// g_ip->line_sz = line_size; -// g_ip->assoc = associativity; -// g_ip->nbanks = banks; -// g_ip->out_w = output_width; -// g_ip->specific_tag = specific_tag; -// if (tag_width == 0) { -// g_ip->tag_w = 42; -// } -// else { -// g_ip->tag_w = tag_width; -// } -// -// g_ip->access_mode = access_mode; -// g_ip->delay_wt = obj_func_delay; -// g_ip->dynamic_power_wt = obj_func_dynamic_power; -// g_ip->leakage_power_wt = obj_func_leakage_power; -// g_ip->area_wt = obj_func_area; -// g_ip->cycle_time_wt = obj_func_cycle_time; -// g_ip->delay_dev = dev_func_delay; -// g_ip->dynamic_power_dev = dev_func_dynamic_power; -// g_ip->leakage_power_dev = dev_func_leakage_power; -// g_ip->area_dev = dev_func_area; -// g_ip->cycle_time_dev = dev_func_cycle_time; -// g_ip->temp = temp; -// -// g_ip->F_sz_nm = tech_node; -// g_ip->F_sz_um = tech_node / 1000; -// g_ip->is_main_mem = (main_mem != 0) ? true : false; -// g_ip->is_cache = (cache ==1) ? true : false; -// g_ip->pure_ram = (cache ==0) ? true : false; -// g_ip->pure_cam = (cache ==2) ? true : false; -// g_ip->rpters_in_htree = (REPEATERS_IN_HTREE_SEGMENTS_in != 0) ? true : false; -// g_ip->ver_htree_wires_over_array = VERTICAL_HTREE_WIRES_OVER_THE_ARRAY_in; -// g_ip->broadcast_addr_din_over_ver_htrees = BROADCAST_ADDR_DATAIN_OVER_VERTICAL_HTREES_in; -// -// g_ip->num_rw_ports = rw_ports; -// g_ip->num_rd_ports = excl_read_ports; -// g_ip->num_wr_ports = excl_write_ports; -// g_ip->num_se_rd_ports = single_ended_read_ports; -// g_ip->num_search_ports = search_ports; -// -// g_ip->print_detail = 1; -// g_ip->nuca = 0; -// g_ip->is_cache=true; -// -// if (force_wiretype == 0) -// { -// g_ip->wt = Global; -// g_ip->force_wiretype = false; -// } -// else -// { g_ip->force_wiretype = true; -// if (wiretype==10) { -// g_ip->wt = Global_10; -// } -// if (wiretype==20) { -// g_ip->wt = Global_20; -// } -// if (wiretype==30) { -// g_ip->wt = Global_30; -// } -// if (wiretype==5) { -// g_ip->wt = Global_5; -// } -// if (wiretype==0) { -// g_ip->wt = Low_swing; -// } -// } -// //g_ip->wt = Global_5; -// if (force_config == 0) -// { -// g_ip->force_cache_config = false; -// } -// else -// { -// g_ip->force_cache_config = true; -// g_ip->ndbl=ndbl; -// g_ip->ndwl=ndwl; -// g_ip->nspd=nspd; -// g_ip->ndcm=ndcm; -// g_ip->ndsam1=ndsam1; -// g_ip->ndsam2=ndsam2; -// -// -// } -// -// if (ecc==0){ -// g_ip->add_ecc_b_=false; -// } -// else -// { -// g_ip->add_ecc_b_=true; -// } - - - g_ip->error_checking(); - - - init_tech_params(g_ip->F_sz_um, false); - Wire winit; // Do not delete this line. It initializes wires. - - solve(&fin_res); - -// g_ip->display_ip(); -// output_UCA(&fin_res); -// output_data_csv(fin_res); - - // delete (g_ip); - - return fin_res; -} - -//McPAT's plain interface, please keep !!! -uca_org_t init_interface(InputParameter* const local_interface) -{ - // g_ip = new InputParameter(); - //g_ip->add_ecc_b_ = true; - - uca_org_t fin_res; - fin_res.valid = false; - - g_ip = local_interface; - - -// g_ip->data_arr_ram_cell_tech_type = data_arr_ram_cell_tech_flavor_in; -// g_ip->data_arr_peri_global_tech_type = data_arr_peri_global_tech_flavor_in; -// g_ip->tag_arr_ram_cell_tech_type = tag_arr_ram_cell_tech_flavor_in; -// g_ip->tag_arr_peri_global_tech_type = tag_arr_peri_global_tech_flavor_in; -// -// g_ip->ic_proj_type = interconnect_projection_type_in; -// g_ip->wire_is_mat_type = wire_inside_mat_type_in; -// g_ip->wire_os_mat_type = wire_outside_mat_type_in; -// g_ip->burst_len = BURST_LENGTH_in; -// g_ip->int_prefetch_w = INTERNAL_PREFETCH_WIDTH_in; -// g_ip->page_sz_bits = PAGE_SIZE_BITS_in; -// -// g_ip->cache_sz = cache_size; -// g_ip->line_sz = line_size; -// g_ip->assoc = associativity; -// g_ip->nbanks = banks; -// g_ip->out_w = output_width; -// g_ip->specific_tag = specific_tag; -// if (tag_width == 0) { -// g_ip->tag_w = 42; -// } -// else { -// g_ip->tag_w = tag_width; -// } -// -// g_ip->access_mode = access_mode; -// g_ip->delay_wt = obj_func_delay; -// g_ip->dynamic_power_wt = obj_func_dynamic_power; -// g_ip->leakage_power_wt = obj_func_leakage_power; -// g_ip->area_wt = obj_func_area; -// g_ip->cycle_time_wt = obj_func_cycle_time; -// g_ip->delay_dev = dev_func_delay; -// g_ip->dynamic_power_dev = dev_func_dynamic_power; -// g_ip->leakage_power_dev = dev_func_leakage_power; -// g_ip->area_dev = dev_func_area; -// g_ip->cycle_time_dev = dev_func_cycle_time; -// g_ip->temp = temp; -// -// g_ip->F_sz_nm = tech_node; -// g_ip->F_sz_um = tech_node / 1000; -// g_ip->is_main_mem = (main_mem != 0) ? true : false; -// g_ip->is_cache = (cache ==1) ? true : false; -// g_ip->pure_ram = (cache ==0) ? true : false; -// g_ip->pure_cam = (cache ==2) ? true : false; -// g_ip->rpters_in_htree = (REPEATERS_IN_HTREE_SEGMENTS_in != 0) ? true : false; -// g_ip->ver_htree_wires_over_array = VERTICAL_HTREE_WIRES_OVER_THE_ARRAY_in; -// g_ip->broadcast_addr_din_over_ver_htrees = BROADCAST_ADDR_DATAIN_OVER_VERTICAL_HTREES_in; -// -// g_ip->num_rw_ports = rw_ports; -// g_ip->num_rd_ports = excl_read_ports; -// g_ip->num_wr_ports = excl_write_ports; -// g_ip->num_se_rd_ports = single_ended_read_ports; -// g_ip->num_search_ports = search_ports; -// -// g_ip->print_detail = 1; -// g_ip->nuca = 0; -// -// if (force_wiretype == 0) -// { -// g_ip->wt = Global; -// g_ip->force_wiretype = false; -// } -// else -// { g_ip->force_wiretype = true; -// if (wiretype==10) { -// g_ip->wt = Global_10; -// } -// if (wiretype==20) { -// g_ip->wt = Global_20; -// } -// if (wiretype==30) { -// g_ip->wt = Global_30; -// } -// if (wiretype==5) { -// g_ip->wt = Global_5; -// } -// if (wiretype==0) { -// g_ip->wt = Low_swing; -// } -// } -// //g_ip->wt = Global_5; -// if (force_config == 0) -// { -// g_ip->force_cache_config = false; -// } -// else -// { -// g_ip->force_cache_config = true; -// g_ip->ndbl=ndbl; -// g_ip->ndwl=ndwl; -// g_ip->nspd=nspd; -// g_ip->ndcm=ndcm; -// g_ip->ndsam1=ndsam1; -// g_ip->ndsam2=ndsam2; -// -// -// } -// -// if (ecc==0){ -// g_ip->add_ecc_b_=false; -// } -// else -// { -// g_ip->add_ecc_b_=true; -// } - - - g_ip->error_checking(); - - init_tech_params(g_ip->F_sz_um, false); - Wire winit; // Do not delete this line. It initializes wires. - //solve(&fin_res); - //g_ip->display_ip(); - - //solve(&fin_res); - //output_UCA(&fin_res); - //output_data_csv(fin_res); - // delete (g_ip); - - return fin_res; -} - -void reconfigure(InputParameter *local_interface, uca_org_t *fin_res) -{ - // Copy the InputParameter to global interface (g_ip) and do error checking. - g_ip = local_interface; - g_ip->error_checking(); - - // Initialize technology parameters - init_tech_params(g_ip->F_sz_um,false); - - Wire winit; // Do not delete this line. It initializes wires. - - // This corresponds to solve() in the initialization process. - update(fin_res); -} |
