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-/*****************************************************************************
- * 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 <iostream>
-#include <string>
-#include <iomanip>
-
-#include "parameter.h"
-#include "area.h"
-
-using namespace std;
-
-
-InputParameter * g_ip;
-TechnologyParameter g_tp;
-
-
-
-void TechnologyParameter::DeviceType::display(uint32_t indent)
-{
- string indent_str(indent, ' ');
-
- cout << indent_str << "C_g_ideal = " << setw(12) << C_g_ideal << " F/um" << endl;
- cout << indent_str << "C_fringe = " << setw(12) << C_fringe << " F/um" << endl;
- cout << indent_str << "C_overlap = " << setw(12) << C_overlap << " F/um" << endl;
- cout << indent_str << "C_junc = " << setw(12) << C_junc << " F/um^2" << endl;
- cout << indent_str << "l_phy = " << setw(12) << l_phy << " um" << endl;
- cout << indent_str << "l_elec = " << setw(12) << l_elec << " um" << endl;
- cout << indent_str << "R_nch_on = " << setw(12) << R_nch_on << " ohm-um" << endl;
- cout << indent_str << "R_pch_on = " << setw(12) << R_pch_on << " ohm-um" << endl;
- cout << indent_str << "Vdd = " << setw(12) << Vdd << " V" << endl;
- cout << indent_str << "Vth = " << setw(12) << Vth << " V" << endl;
- cout << indent_str << "I_on_n = " << setw(12) << I_on_n << " A/um" << endl;
- cout << indent_str << "I_on_p = " << setw(12) << I_on_p << " A/um" << endl;
- cout << indent_str << "I_off_n = " << setw(12) << I_off_n << " A/um" << endl;
- cout << indent_str << "I_off_p = " << setw(12) << I_off_p << " A/um" << endl;
- cout << indent_str << "C_ox = " << setw(12) << C_ox << " F/um^2" << endl;
- cout << indent_str << "t_ox = " << setw(12) << t_ox << " um" << endl;
- cout << indent_str << "n_to_p_eff_curr_drv_ratio = " << n_to_p_eff_curr_drv_ratio << endl;
-}
-
-
-
-void TechnologyParameter::InterconnectType::display(uint32_t indent)
-{
- string indent_str(indent, ' ');
-
- cout << indent_str << "pitch = " << setw(12) << pitch << " um" << endl;
- cout << indent_str << "R_per_um = " << setw(12) << R_per_um << " ohm/um" << endl;
- cout << indent_str << "C_per_um = " << setw(12) << C_per_um << " F/um" << endl;
-}
-
-void TechnologyParameter::ScalingFactor::display(uint32_t indent)
-{
- string indent_str(indent, ' ');
-
- cout << indent_str << "logic_scaling_co_eff = " << setw(12) << logic_scaling_co_eff << endl;
- cout << indent_str << "curr_core_tx_density = " << setw(12) << core_tx_density << " # of tx/um^2" << endl;
-}
-
-void TechnologyParameter::MemoryType::display(uint32_t indent)
-{
- string indent_str(indent, ' ');
-
- cout << indent_str << "b_w = " << setw(12) << b_w << " um" << endl;
- cout << indent_str << "b_h = " << setw(12) << b_h << " um" << endl;
- cout << indent_str << "cell_a_w = " << setw(12) << cell_a_w << " um" << endl;
- cout << indent_str << "cell_pmos_w = " << setw(12) << cell_pmos_w << " um" << endl;
- cout << indent_str << "cell_nmos_w = " << setw(12) << cell_nmos_w << " um" << endl;
- cout << indent_str << "Vbitpre = " << setw(12) << Vbitpre << " V" << endl;
-}
-
-
-
-void TechnologyParameter::display(uint32_t indent)
-{
- string indent_str(indent, ' ');
-
- cout << indent_str << "ram_wl_stitching_overhead_ = " << setw(12) << ram_wl_stitching_overhead_ << " um" << endl;
- cout << indent_str << "min_w_nmos_ = " << setw(12) << min_w_nmos_ << " um" << endl;
- cout << indent_str << "max_w_nmos_ = " << setw(12) << max_w_nmos_ << " um" << endl;
- cout << indent_str << "unit_len_wire_del = " << setw(12) << unit_len_wire_del << " s/um^2" << endl;
- cout << indent_str << "FO4 = " << setw(12) << FO4 << " s" << endl;
- cout << indent_str << "kinv = " << setw(12) << kinv << " s" << endl;
- cout << indent_str << "vpp = " << setw(12) << vpp << " V" << endl;
- cout << indent_str << "w_sense_en = " << setw(12) << w_sense_en << " um" << endl;
- cout << indent_str << "w_sense_n = " << setw(12) << w_sense_n << " um" << endl;
- cout << indent_str << "w_sense_p = " << setw(12) << w_sense_p << " um" << endl;
- cout << indent_str << "w_iso = " << setw(12) << w_iso << " um" << endl;
- cout << indent_str << "w_poly_contact = " << setw(12) << w_poly_contact << " um" << endl;
- cout << indent_str << "spacing_poly_to_poly = " << setw(12) << spacing_poly_to_poly << " um" << endl;
- cout << indent_str << "spacing_poly_to_contact = " << setw(12) << spacing_poly_to_contact << " um" << endl;
- cout << endl;
- cout << indent_str << "w_comp_inv_p1 = " << setw(12) << w_comp_inv_p1 << " um" << endl;
- cout << indent_str << "w_comp_inv_p2 = " << setw(12) << w_comp_inv_p2 << " um" << endl;
- cout << indent_str << "w_comp_inv_p3 = " << setw(12) << w_comp_inv_p3 << " um" << endl;
- cout << indent_str << "w_comp_inv_n1 = " << setw(12) << w_comp_inv_n1 << " um" << endl;
- cout << indent_str << "w_comp_inv_n2 = " << setw(12) << w_comp_inv_n2 << " um" << endl;
- cout << indent_str << "w_comp_inv_n3 = " << setw(12) << w_comp_inv_n3 << " um" << endl;
- cout << indent_str << "w_eval_inv_p = " << setw(12) << w_eval_inv_p << " um" << endl;
- cout << indent_str << "w_eval_inv_n = " << setw(12) << w_eval_inv_n << " um" << endl;
- cout << indent_str << "w_comp_n = " << setw(12) << w_comp_n << " um" << endl;
- cout << indent_str << "w_comp_p = " << setw(12) << w_comp_p << " um" << endl;
- cout << endl;
- cout << indent_str << "dram_cell_I_on = " << setw(12) << dram_cell_I_on << " A/um" << endl;
- cout << indent_str << "dram_cell_Vdd = " << setw(12) << dram_cell_Vdd << " V" << endl;
- cout << indent_str << "dram_cell_I_off_worst_case_len_temp = " << setw(12) << dram_cell_I_off_worst_case_len_temp << " A/um" << endl;
- cout << indent_str << "dram_cell_C = " << setw(12) << dram_cell_C << " F" << endl;
- cout << indent_str << "gm_sense_amp_latch = " << setw(12) << gm_sense_amp_latch << " F/s" << endl;
- cout << endl;
- cout << indent_str << "w_nmos_b_mux = " << setw(12) << w_nmos_b_mux << " um" << endl;
- cout << indent_str << "w_nmos_sa_mux = " << setw(12) << w_nmos_sa_mux << " um" << endl;
- cout << indent_str << "w_pmos_bl_precharge = " << setw(12) << w_pmos_bl_precharge << " um" << endl;
- cout << indent_str << "w_pmos_bl_eq = " << setw(12) << w_pmos_bl_eq << " um" << endl;
- cout << indent_str << "MIN_GAP_BET_P_AND_N_DIFFS = " << setw(12) << MIN_GAP_BET_P_AND_N_DIFFS << " um" << endl;
- cout << indent_str << "HPOWERRAIL = " << setw(12) << HPOWERRAIL << " um" << endl;
- cout << indent_str << "cell_h_def = " << setw(12) << cell_h_def << " um" << endl;
-
- cout << endl;
- cout << indent_str << "SRAM cell transistor: " << endl;
- sram_cell.display(indent + 2);
-
- cout << endl;
- cout << indent_str << "DRAM access transistor: " << endl;
- dram_acc.display(indent + 2);
-
- cout << endl;
- cout << indent_str << "DRAM wordline transistor: " << endl;
- dram_wl.display(indent + 2);
-
- cout << endl;
- cout << indent_str << "peripheral global transistor: " << endl;
- peri_global.display(indent + 2);
-
- cout << endl;
- cout << indent_str << "wire local" << endl;
- wire_local.display(indent + 2);
-
- cout << endl;
- cout << indent_str << "wire inside mat" << endl;
- wire_inside_mat.display(indent + 2);
-
- cout << endl;
- cout << indent_str << "wire outside mat" << endl;
- wire_outside_mat.display(indent + 2);
-
- cout << endl;
- cout << indent_str << "SRAM" << endl;
- sram.display(indent + 2);
-
- cout << endl;
- cout << indent_str << "DRAM" << endl;
- dram.display(indent + 2);
-}
-
-
-DynamicParameter::DynamicParameter():
- use_inp_params(0), cell(), is_valid(true)
-{
-}
-
-
-
-DynamicParameter::DynamicParameter(
- bool is_tag_,
- int pure_ram_,
- int pure_cam_,
- double Nspd_,
- unsigned int Ndwl_,
- unsigned int Ndbl_,
- unsigned int Ndcm_,
- unsigned int Ndsam_lev_1_,
- unsigned int Ndsam_lev_2_,
- bool is_main_mem_):
- is_tag(is_tag_), pure_ram(pure_ram_), pure_cam(pure_cam_), tagbits(0), Nspd(Nspd_), Ndwl(Ndwl_), Ndbl(Ndbl_),Ndcm(Ndcm_),
- Ndsam_lev_1(Ndsam_lev_1_), Ndsam_lev_2(Ndsam_lev_2_),
- number_way_select_signals_mat(0), V_b_sense(0), use_inp_params(0),
- is_main_mem(is_main_mem_), cell(), is_valid(false)
-{
- ram_cell_tech_type = (is_tag) ? g_ip->tag_arr_ram_cell_tech_type : g_ip->data_arr_ram_cell_tech_type;
- is_dram = ((ram_cell_tech_type == lp_dram) || (ram_cell_tech_type == comm_dram));
-
- unsigned int capacity_per_die = g_ip->cache_sz / NUMBER_STACKED_DIE_LAYERS; // capacity per stacked die layer
- const TechnologyParameter::InterconnectType & wire_local = g_tp.wire_local;
- fully_assoc = (g_ip->fully_assoc) ? true : false;
-
- if (fully_assoc || pure_cam)
- { // fully-assocative cache -- ref: CACTi 2.0 report
- if (Ndwl != 1 || //Ndwl is fixed to 1 for FA
- Ndcm != 1 || //Ndcm is fixed to 1 for FA
- Nspd < 1 || Nspd > 1 || //Nspd is fixed to 1 for FA
- Ndsam_lev_1 != 1 || //Ndsam_lev_1 is fixed to one
- Ndsam_lev_2 != 1 || //Ndsam_lev_2 is fixed to one
- Ndbl < 2)
- {
- return;
- }
- }
-
- if ((is_dram) && (!is_tag) && (Ndcm > 1))
- {
- return; // For a DRAM array, each bitline has its own sense-amp
- }
-
- // If it's not an FA tag/data array, Ndwl should be at least two and Ndbl should be
- // at least two because an array is assumed to have at least one mat. And a mat
- // is formed out of two horizontal subarrays and two vertical subarrays
- if (fully_assoc == false && (Ndwl < 1 || Ndbl < 1))
- {
- return;
- }
-
- //***********compute row, col of an subarray
- if (!(fully_assoc || pure_cam))//Not fully_asso nor cam
- {
- // if data array, let tagbits = 0
- if (is_tag)
- {
- if (g_ip->specific_tag)
- {
- tagbits = g_ip->tag_w;
- }
- else
- {
- tagbits = ADDRESS_BITS + EXTRA_TAG_BITS - _log2(capacity_per_die) +
- _log2(g_ip->tag_assoc*2 - 1) - _log2(g_ip->nbanks);
-
- }
- tagbits = (((tagbits + 3) >> 2) << 2);
-
- num_r_subarray = (int)ceil(capacity_per_die / (g_ip->nbanks *
- g_ip->block_sz * g_ip->tag_assoc * Ndbl * Nspd));// + EPSILON);
- num_c_subarray = (int)ceil((tagbits * g_ip->tag_assoc * Nspd / Ndwl));// + EPSILON);
- //burst_length = 1;
- }
- else
- {
- num_r_subarray = (int)ceil(capacity_per_die / (g_ip->nbanks *
- g_ip->block_sz * g_ip->data_assoc * Ndbl * Nspd));// + EPSILON);
- num_c_subarray = (int)ceil((8 * g_ip->block_sz * g_ip->data_assoc * Nspd / Ndwl));// + EPSILON); + EPSILON);
- // burst_length = g_ip->block_sz * 8 / g_ip->out_w;
- }
-
- if (num_r_subarray < MINSUBARRAYROWS) return;
- if (num_r_subarray == 0) return;
- if (num_r_subarray > MAXSUBARRAYROWS) return;
- if (num_c_subarray < MINSUBARRAYCOLS) return;
- if (num_c_subarray > MAXSUBARRAYCOLS) return;
-
- }
-
- else
- {//either fully-asso or cam
- if (pure_cam)
- {
- if (g_ip->specific_tag)
- {
- tagbits = int(ceil(g_ip->tag_w/8.0)*8);
- }
- else
- {
- tagbits = int(ceil((ADDRESS_BITS + EXTRA_TAG_BITS)/8.0)*8);
-// cout<<"Pure CAM needs tag width to be specified"<<endl;
-// exit(0);
- }
- //tagbits = (((tagbits + 3) >> 2) << 2);
-
- tag_num_r_subarray = (int)ceil(capacity_per_die / (g_ip->nbanks*tagbits/8.0 * Ndbl));//TODO: error check input of tagbits and blocksize //TODO: for pure CAM, g_ip->block should be number of entries.
- //tag_num_c_subarray = (int)(tagbits + EPSILON);
- tag_num_c_subarray = tagbits;
- if (tag_num_r_subarray == 0) return;
- if (tag_num_r_subarray > MAXSUBARRAYROWS) return;
- if (tag_num_c_subarray < MINSUBARRAYCOLS) return;
- if (tag_num_c_subarray > MAXSUBARRAYCOLS) return;
- num_r_subarray = tag_num_r_subarray;
- }
- else //fully associative
- {
- if (g_ip->specific_tag)
- {
- tagbits = g_ip->tag_w;
- }
- else
- {
- tagbits = ADDRESS_BITS + EXTRA_TAG_BITS - _log2(g_ip->block_sz);//TODO: should be the page_offset=log2(page size), but this info is not avail with CACTI, for McPAT this is no problem.
- }
- tagbits = (((tagbits + 3) >> 2) << 2);
-
- tag_num_r_subarray = (int)(capacity_per_die / (g_ip->nbanks*g_ip->block_sz * Ndbl));
- tag_num_c_subarray = (int)ceil((tagbits * Nspd / Ndwl));// + EPSILON);
- if (tag_num_r_subarray == 0) return;
- if (tag_num_r_subarray > MAXSUBARRAYROWS) return;
- if (tag_num_c_subarray < MINSUBARRAYCOLS) return;
- if (tag_num_c_subarray > MAXSUBARRAYCOLS) return;
-
- data_num_r_subarray = tag_num_r_subarray;
- data_num_c_subarray = 8 * g_ip->block_sz;
- if (data_num_r_subarray == 0) return;
- if (data_num_r_subarray > MAXSUBARRAYROWS) return;
- if (data_num_c_subarray < MINSUBARRAYCOLS) return;
- if (data_num_c_subarray > MAXSUBARRAYCOLS) return;
- num_r_subarray = tag_num_r_subarray;
- }
- }
-
- num_subarrays = Ndwl * Ndbl;
- //****************end of computation of row, col of an subarray
-
- // calculate wire parameters
- if (fully_assoc || pure_cam)
- {
- cam_cell.h = g_tp.cam.b_h + 2 * wire_local.pitch * (g_ip->num_rw_ports-1 + g_ip->num_rd_ports + g_ip->num_wr_ports)
- + 2 * wire_local.pitch*(g_ip->num_search_ports-1) + wire_local.pitch * g_ip->num_se_rd_ports;
- cam_cell.w = g_tp.cam.b_w + 2 * wire_local.pitch * (g_ip->num_rw_ports-1 + g_ip->num_rd_ports + g_ip->num_wr_ports)
- + 2 * wire_local.pitch*(g_ip->num_search_ports-1) + wire_local.pitch * g_ip->num_se_rd_ports;
-
- cell.h = g_tp.sram.b_h + 2 * wire_local.pitch * (g_ip->num_wr_ports +g_ip->num_rw_ports-1 + g_ip->num_rd_ports)
- + 2 * wire_local.pitch*(g_ip->num_search_ports-1);
- cell.w = g_tp.sram.b_w + 2 * wire_local.pitch * (g_ip->num_rw_ports -1 + (g_ip->num_rd_ports - g_ip->num_se_rd_ports)
- + g_ip->num_wr_ports) + g_tp.wire_local.pitch * g_ip->num_se_rd_ports + 2 * wire_local.pitch*(g_ip->num_search_ports-1);
- }
- else
- {
- if(is_tag)
- {
- cell.h = g_tp.sram.b_h + 2 * wire_local.pitch * (g_ip->num_rw_ports - 1 + g_ip->num_rd_ports +
- g_ip->num_wr_ports);
- cell.w = g_tp.sram.b_w + 2 * wire_local.pitch * (g_ip->num_rw_ports - 1 + g_ip->num_wr_ports +
- (g_ip->num_rd_ports - g_ip->num_se_rd_ports)) +
- wire_local.pitch * g_ip->num_se_rd_ports;
- }
- else
- {
- if (is_dram)
- {
- cell.h = g_tp.dram.b_h;
- cell.w = g_tp.dram.b_w;
- }
- else
- {
- cell.h = g_tp.sram.b_h + 2 * wire_local.pitch * (g_ip->num_wr_ports +
- g_ip->num_rw_ports - 1 + g_ip->num_rd_ports);
- cell.w = g_tp.sram.b_w + 2 * wire_local.pitch * (g_ip->num_rw_ports - 1 +
- (g_ip->num_rd_ports - g_ip->num_se_rd_ports) +
- g_ip->num_wr_ports) + g_tp.wire_local.pitch * g_ip->num_se_rd_ports;
- }
- }
- }
-
- double c_b_metal = cell.h * wire_local.C_per_um;
- double C_bl;
-
- if (!(fully_assoc || pure_cam))
- {
- if (is_dram)
- {
- deg_bl_muxing = 1;
- if (ram_cell_tech_type == comm_dram)
- {
- C_bl = num_r_subarray * c_b_metal;
- V_b_sense = (g_tp.dram_cell_Vdd/2) * g_tp.dram_cell_C / (g_tp.dram_cell_C + C_bl);
- if (V_b_sense < VBITSENSEMIN)
- {
- return;
- }
- V_b_sense = VBITSENSEMIN; // in any case, we fix sense amp input signal to a constant value
- dram_refresh_period = 64e-3;
- }
- else
- {
- double Cbitrow_drain_cap = drain_C_(g_tp.dram.cell_a_w, NCH, 1, 0, cell.w, true, true) / 2.0;
- C_bl = num_r_subarray * (Cbitrow_drain_cap + c_b_metal);
- V_b_sense = (g_tp.dram_cell_Vdd/2) * g_tp.dram_cell_C /(g_tp.dram_cell_C + C_bl);
-
- if (V_b_sense < VBITSENSEMIN)
- {
- return; //Sense amp input signal is smaller that minimum allowable sense amp input signal
- }
- V_b_sense = VBITSENSEMIN; // in any case, we fix sense amp input signal to a constant value
- //v_storage_worst = g_tp.dram_cell_Vdd / 2 - VBITSENSEMIN * (g_tp.dram_cell_C + C_bl) / g_tp.dram_cell_C;
- //dram_refresh_period = 1.1 * g_tp.dram_cell_C * v_storage_worst / g_tp.dram_cell_I_off_worst_case_len_temp;
- dram_refresh_period = 0.9 * g_tp.dram_cell_C * VDD_STORAGE_LOSS_FRACTION_WORST * g_tp.dram_cell_Vdd / g_tp.dram_cell_I_off_worst_case_len_temp;
- }
- }
- else
- { //SRAM
- V_b_sense = (0.05 * g_tp.sram_cell.Vdd > VBITSENSEMIN) ? 0.05 * g_tp.sram_cell.Vdd : VBITSENSEMIN;
- deg_bl_muxing = Ndcm;
- // "/ 2.0" below is due to the fact that two adjacent access transistors share drain
- // contacts in a physical layout
- double Cbitrow_drain_cap = drain_C_(g_tp.sram.cell_a_w, NCH, 1, 0, cell.w, false, true) / 2.0;
- C_bl = num_r_subarray * (Cbitrow_drain_cap + c_b_metal);
- dram_refresh_period = 0;
- }
- }
- else
- {
- c_b_metal = cam_cell.h * wire_local.C_per_um;//IBM and SUN design, SRAM array uses dummy cells to fill the blank space due to mismatch on CAM-RAM
- V_b_sense = (0.05 * g_tp.sram_cell.Vdd > VBITSENSEMIN) ? 0.05 * g_tp.sram_cell.Vdd : VBITSENSEMIN;
- deg_bl_muxing = 1;//FA fix as 1
- // "/ 2.0" below is due to the fact that two adjacent access transistors share drain
- // contacts in a physical layout
- double Cbitrow_drain_cap = drain_C_(g_tp.cam.cell_a_w, NCH, 1, 0, cam_cell.w, false, true) / 2.0;//TODO: comment out these two lines
- C_bl = num_r_subarray * (Cbitrow_drain_cap + c_b_metal);
- dram_refresh_period = 0;
- }
-
-
- // do/di: data in/out, for fully associative they are the data width for normal read and write
- // so/si: search data in/out, for fully associative they are the data width for the search ops
- // for CAM, si=di, but so = matching address. do = data out = di (for normal read/write)
- // so/si needs broadcase while do/di do not
-
- if (fully_assoc || pure_cam)
- {
- switch (Ndbl) {
- case (0):
- cout << " Invalid Ndbl \n"<<endl;
- exit(0);
- break;
- case (1):
- num_mats_h_dir = 1;//one subarray per mat
- num_mats_v_dir = 1;
- break;
- case (2):
- num_mats_h_dir = 1;//two subarrays per mat
- num_mats_v_dir = 1;
- break;
- default:
- num_mats_h_dir = int(floor(sqrt(Ndbl/4.0)));//4 subbarrys per mat
- num_mats_v_dir = int(Ndbl/4.0 / num_mats_h_dir);
- }
- num_mats = num_mats_h_dir * num_mats_v_dir;
-
- if (fully_assoc)
- {
- num_so_b_mat = data_num_c_subarray;
- num_do_b_mat = data_num_c_subarray + tagbits;
- }
- else
- {
- num_so_b_mat = int(ceil(log2(num_r_subarray)) + ceil(log2(num_subarrays)));//the address contains the matched data
- num_do_b_mat = tagbits;
- }
- }
- else
- {
- num_mats_h_dir = MAX(Ndwl / 2, 1);
- num_mats_v_dir = MAX(Ndbl / 2, 1);
- num_mats = num_mats_h_dir * num_mats_v_dir;
- num_do_b_mat = MAX((num_subarrays/num_mats) * num_c_subarray / (deg_bl_muxing * Ndsam_lev_1 * Ndsam_lev_2), 1);
- }
-
- if (!(fully_assoc|| pure_cam) && (num_do_b_mat < (num_subarrays/num_mats)))
- {
- return;
- }
-
-
- int deg_sa_mux_l1_non_assoc;
- //TODO:the i/o for subbank is not necessary and should be removed.
- if (!(fully_assoc || pure_cam))
- {
- if (!is_tag)
- {
- if (is_main_mem == true)
- {
- num_do_b_subbank = g_ip->int_prefetch_w * g_ip->out_w;
- deg_sa_mux_l1_non_assoc = Ndsam_lev_1;
- }
- else
- {
- if (g_ip->fast_access == true)
- {
- num_do_b_subbank = g_ip->out_w * g_ip->data_assoc;
- deg_sa_mux_l1_non_assoc = Ndsam_lev_1;
- }
- else
- {
-
- num_do_b_subbank = g_ip->out_w;
- deg_sa_mux_l1_non_assoc = Ndsam_lev_1 / g_ip->data_assoc;
- if (deg_sa_mux_l1_non_assoc < 1)
- {
- return;
- }
-
- }
- }
- }
- else
- {
- num_do_b_subbank = tagbits * g_ip->tag_assoc;
- if (num_do_b_mat < tagbits)
- {
- return;
- }
- deg_sa_mux_l1_non_assoc = Ndsam_lev_1;
- //num_do_b_mat = g_ip->tag_assoc / num_mats_h_dir;
- }
- }
- else
- {
- if (fully_assoc)
- {
- num_so_b_subbank = 8 * g_ip->block_sz;//TODO:internal perfetch should be considered also for fa
- num_do_b_subbank = num_so_b_subbank + tag_num_c_subarray;
- }
- else
- {
- num_so_b_subbank = int(ceil(log2(num_r_subarray)) + ceil(log2(num_subarrays)));//the address contains the matched data
- num_do_b_subbank = tag_num_c_subarray;
- }
-
- deg_sa_mux_l1_non_assoc = 1;
- }
-
- deg_senseamp_muxing_non_associativity = deg_sa_mux_l1_non_assoc;
-
- if (fully_assoc || pure_cam)
- {
- num_act_mats_hor_dir = 1;
- num_act_mats_hor_dir_sl = num_mats_h_dir;//TODO: this is unnecessary, since search op, num_mats is used
- }
- else
- {
- num_act_mats_hor_dir = num_do_b_subbank / num_do_b_mat;
- if (num_act_mats_hor_dir == 0)
- {
- return;
- }
- }
-
- //compute num_do_mat for tag
- if (is_tag)
- {
- if (!(fully_assoc || pure_cam))
- {
- num_do_b_mat = g_ip->tag_assoc / num_act_mats_hor_dir;
- num_do_b_subbank = num_act_mats_hor_dir * num_do_b_mat;
- }
- }
-
- if ((g_ip->is_cache == false && is_main_mem == true) || (PAGE_MODE == 1 && is_dram))
- {
- if (num_act_mats_hor_dir * num_do_b_mat * Ndsam_lev_1 * Ndsam_lev_2 != (int)g_ip->page_sz_bits)
- {
- return;
- }
- }
-
-// if (is_tag == false && g_ip->is_cache == true && !fully_assoc && !pure_cam && //TODO: TODO burst transfer should also apply to RAM arrays
- if (is_tag == false && g_ip->is_main_mem == true &&
- num_act_mats_hor_dir*num_do_b_mat*Ndsam_lev_1*Ndsam_lev_2 < ((int) g_ip->out_w * (int) g_ip->burst_len * (int) g_ip->data_assoc))
- {
- return;
- }
-
- if (num_act_mats_hor_dir > num_mats_h_dir)
- {
- return;
- }
-
-
- //compute di for mat subbank and bank
- if (!(fully_assoc ||pure_cam))
- {
- if(!is_tag)
- {
- if(g_ip->fast_access == true)
- {
- num_di_b_mat = num_do_b_mat / g_ip->data_assoc;
- }
- else
- {
- num_di_b_mat = num_do_b_mat;
- }
- }
- else
- {
- num_di_b_mat = tagbits;
- }
- }
- else
- {
- if (fully_assoc)
- {
- num_di_b_mat = num_do_b_mat;
- //*num_subarrays/num_mats; bits per mat of CAM/FA is as same as cache,
- //but inside the mat wire tracks need to be reserved for search data bus
- num_si_b_mat = tagbits;
- }
- else
- {
- num_di_b_mat = tagbits;
- num_si_b_mat = tagbits;//*num_subarrays/num_mats;
- }
-
- }
-
- num_di_b_subbank = num_di_b_mat * num_act_mats_hor_dir;//normal cache or normal r/w for FA
- num_si_b_subbank = num_si_b_mat; //* num_act_mats_hor_dir_sl; inside the data is broadcast
-
- int num_addr_b_row_dec = _log2(num_r_subarray);
- if ((fully_assoc ||pure_cam))
- num_addr_b_row_dec +=_log2(num_subarrays/num_mats);
- int number_subbanks = num_mats / num_act_mats_hor_dir;
- number_subbanks_decode = _log2(number_subbanks);//TODO: add log2(num_subarray_per_bank) to FA/CAM
-
- num_rw_ports = g_ip->num_rw_ports;
- num_rd_ports = g_ip->num_rd_ports;
- num_wr_ports = g_ip->num_wr_ports;
- num_se_rd_ports = g_ip->num_se_rd_ports;
- num_search_ports = g_ip->num_search_ports;
-
- if (is_dram && is_main_mem)
- {
- number_addr_bits_mat = MAX((unsigned int) num_addr_b_row_dec,
- _log2(deg_bl_muxing) + _log2(deg_sa_mux_l1_non_assoc) + _log2(Ndsam_lev_2));
- }
- else
- {
- number_addr_bits_mat = num_addr_b_row_dec + _log2(deg_bl_muxing) +
- _log2(deg_sa_mux_l1_non_assoc) + _log2(Ndsam_lev_2);
- }
-
- if (!(fully_assoc ||pure_cam))
- {
- if (is_tag)
- {
- num_di_b_bank_per_port = tagbits;
- num_do_b_bank_per_port = g_ip->data_assoc;
- }
- else
- {
- num_di_b_bank_per_port = g_ip->out_w + g_ip->data_assoc;
- num_do_b_bank_per_port = g_ip->out_w;
- }
- }
- else
- {
- if (fully_assoc)
- {
- num_di_b_bank_per_port = g_ip->out_w + tagbits;//TODO: out_w or block_sz?
- num_si_b_bank_per_port = tagbits;
- num_do_b_bank_per_port = g_ip->out_w + tagbits;
- num_so_b_bank_per_port = g_ip->out_w;
- }
- else
- {
- num_di_b_bank_per_port = tagbits;
- num_si_b_bank_per_port = tagbits;
- num_do_b_bank_per_port = tagbits;
- num_so_b_bank_per_port = int(ceil(log2(num_r_subarray)) + ceil(log2(num_subarrays)));
- }
- }
-
- if ((!is_tag) && (g_ip->data_assoc > 1) && (!g_ip->fast_access))
- {
- number_way_select_signals_mat = g_ip->data_assoc;
- }
-
- // add ECC adjustment to all data signals that traverse on H-trees.
- if (g_ip->add_ecc_b_ == true)
- {
- num_do_b_mat += (int) (ceil(num_do_b_mat / num_bits_per_ecc_b_));
- num_di_b_mat += (int) (ceil(num_di_b_mat / num_bits_per_ecc_b_));
- num_di_b_subbank += (int) (ceil(num_di_b_subbank / num_bits_per_ecc_b_));
- num_do_b_subbank += (int) (ceil(num_do_b_subbank / num_bits_per_ecc_b_));
- num_di_b_bank_per_port += (int) (ceil(num_di_b_bank_per_port / num_bits_per_ecc_b_));
- num_do_b_bank_per_port += (int) (ceil(num_do_b_bank_per_port / num_bits_per_ecc_b_));
-
- num_so_b_mat += (int) (ceil(num_so_b_mat / num_bits_per_ecc_b_));
- num_si_b_mat += (int) (ceil(num_si_b_mat / num_bits_per_ecc_b_));
- num_si_b_subbank += (int) (ceil(num_si_b_subbank / num_bits_per_ecc_b_));
- num_so_b_subbank += (int) (ceil(num_so_b_subbank / num_bits_per_ecc_b_));
- num_si_b_bank_per_port += (int) (ceil(num_si_b_bank_per_port / num_bits_per_ecc_b_));
- num_so_b_bank_per_port += (int) (ceil(num_so_b_bank_per_port / num_bits_per_ecc_b_));
- }
-
- is_valid = true;
-}
-