/***************************************************************************** * McPAT/CACTI * SOFTWARE LICENSE AGREEMENT * Copyright 2012 Hewlett-Packard Development Company, L.P. * Copyright (c) 2010-2013 Advanced Micro Devices, Inc. * All Rights Reserved * * Redistribution and use in source and binary forms, with or without * 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. * ***************************************************************************/ #ifndef __PARAMETER_H__ #define __PARAMETER_H__ #include "area.h" #include "cacti_interface.h" #include "const.h" #include "io.h" // parameters which are functions of certain device technology class TechnologyParameter { public: class DeviceType { public: double C_g_ideal; double C_fringe; double C_overlap; double C_junc; // C_junc_area double C_junc_sidewall; double l_phy; double l_elec; double R_nch_on; double R_pch_on; double Vdd; double Vth; double I_on_n; double I_on_p; double I_off_n; double I_off_p; double I_g_on_n; double I_g_on_p; double C_ox; double t_ox; double n_to_p_eff_curr_drv_ratio; double long_channel_leakage_reduction; DeviceType(): C_g_ideal(0), C_fringe(0), C_overlap(0), C_junc(0), C_junc_sidewall(0), l_phy(0), l_elec(0), R_nch_on(0), R_pch_on(0), Vdd(0), Vth(0), I_on_n(0), I_on_p(0), I_off_n(0), I_off_p(0), I_g_on_n(0), I_g_on_p(0), C_ox(0), t_ox(0), n_to_p_eff_curr_drv_ratio(0), long_channel_leakage_reduction(0) { }; void reset() { C_g_ideal = 0; C_fringe = 0; C_overlap = 0; C_junc = 0; l_phy = 0; l_elec = 0; R_nch_on = 0; R_pch_on = 0; Vdd = 0; Vth = 0; I_on_n = 0; I_on_p = 0; I_off_n = 0; I_off_p = 0; I_g_on_n = 0; I_g_on_p = 0; C_ox = 0; t_ox = 0; n_to_p_eff_curr_drv_ratio = 0; long_channel_leakage_reduction = 0; } void display(uint32_t indent = 0); }; class InterconnectType { public: double pitch; double R_per_um; double C_per_um; double horiz_dielectric_constant; double vert_dielectric_constant; double aspect_ratio; double miller_value; double ild_thickness; InterconnectType(): pitch(0), R_per_um(0), C_per_um(0) { }; void reset() { pitch = 0; R_per_um = 0; C_per_um = 0; horiz_dielectric_constant = 0; vert_dielectric_constant = 0; aspect_ratio = 0; miller_value = 0; ild_thickness = 0; } void display(uint32_t indent = 0); }; class MemoryType { public: double b_w; double b_h; double cell_a_w; double cell_pmos_w; double cell_nmos_w; double Vbitpre; void reset() { b_w = 0; b_h = 0; cell_a_w = 0; cell_pmos_w = 0; cell_nmos_w = 0; Vbitpre = 0; } void display(uint32_t indent = 0); }; class ScalingFactor { public: double logic_scaling_co_eff; double core_tx_density; double long_channel_leakage_reduction; ScalingFactor(): logic_scaling_co_eff(0), core_tx_density(0), long_channel_leakage_reduction(0) { }; void reset() { logic_scaling_co_eff = 0; core_tx_density = 0; long_channel_leakage_reduction = 0; } void display(uint32_t indent = 0); }; double ram_wl_stitching_overhead_; double min_w_nmos_; double max_w_nmos_; double max_w_nmos_dec; double unit_len_wire_del; double FO4; double kinv; double vpp; double w_sense_en; double w_sense_n; double w_sense_p; double sense_delay; double sense_dy_power; double w_iso; double w_poly_contact; double spacing_poly_to_poly; double spacing_poly_to_contact; double w_comp_inv_p1; double w_comp_inv_p2; double w_comp_inv_p3; double w_comp_inv_n1; double w_comp_inv_n2; double w_comp_inv_n3; double w_eval_inv_p; double w_eval_inv_n; double w_comp_n; double w_comp_p; double dram_cell_I_on; double dram_cell_Vdd; double dram_cell_I_off_worst_case_len_temp; double dram_cell_C; double gm_sense_amp_latch; double w_nmos_b_mux; double w_nmos_sa_mux; double w_pmos_bl_precharge; double w_pmos_bl_eq; double MIN_GAP_BET_P_AND_N_DIFFS; double MIN_GAP_BET_SAME_TYPE_DIFFS; double HPOWERRAIL; double cell_h_def; double chip_layout_overhead; double macro_layout_overhead; double sckt_co_eff; double fringe_cap; uint64_t h_dec; DeviceType sram_cell; // SRAM cell transistor DeviceType dram_acc; // DRAM access transistor DeviceType dram_wl; // DRAM wordline transistor DeviceType peri_global; // peripheral global DeviceType cam_cell; // SRAM cell transistor InterconnectType wire_local; InterconnectType wire_inside_mat; InterconnectType wire_outside_mat; ScalingFactor scaling_factor; MemoryType sram; MemoryType dram; MemoryType cam; void display(uint32_t indent = 0); void reset() { dram_cell_Vdd = 0; dram_cell_I_on = 0; dram_cell_C = 0; vpp = 0; sense_delay = 0; sense_dy_power = 0; fringe_cap = 0; // horiz_dielectric_constant = 0; // vert_dielectric_constant = 0; // aspect_ratio = 0; // miller_value = 0; // ild_thickness = 0; dram_cell_I_off_worst_case_len_temp = 0; sram_cell.reset(); dram_acc.reset(); dram_wl.reset(); peri_global.reset(); cam_cell.reset(); scaling_factor.reset(); wire_local.reset(); wire_inside_mat.reset(); wire_outside_mat.reset(); sram.reset(); dram.reset(); cam.reset(); chip_layout_overhead = 0; macro_layout_overhead = 0; sckt_co_eff = 0; } }; class DynamicParameter { public: bool is_tag; bool pure_ram; bool pure_cam; bool fully_assoc; int tagbits; int num_subarrays; // only for leakage computation -- the number of subarrays per bank int num_mats; // only for leakage computation -- the number of mats per bank double Nspd; int Ndwl; int Ndbl; int Ndcm; int deg_bl_muxing; int deg_senseamp_muxing_non_associativity; int Ndsam_lev_1; int Ndsam_lev_2; int number_addr_bits_mat; // per port int number_subbanks_decode; // per_port int num_di_b_bank_per_port; int num_do_b_bank_per_port; int num_di_b_mat; int num_do_b_mat; int num_di_b_subbank; int num_do_b_subbank; int num_si_b_mat; int num_so_b_mat; int num_si_b_subbank; int num_so_b_subbank; int num_si_b_bank_per_port; int num_so_b_bank_per_port; int number_way_select_signals_mat; int num_act_mats_hor_dir; int num_act_mats_hor_dir_sl; bool is_dram; double V_b_sense; unsigned int num_r_subarray; unsigned int num_c_subarray; int tag_num_r_subarray;//sheng: fully associative cache tag and data must be computed together, data and tag must be separate int tag_num_c_subarray; int data_num_r_subarray; int data_num_c_subarray; int num_mats_h_dir; int num_mats_v_dir; uint32_t ram_cell_tech_type; double dram_refresh_period; 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_); int use_inp_params; unsigned int num_rw_ports; unsigned int num_rd_ports; unsigned int num_wr_ports; unsigned int num_se_rd_ports; // number of single ended read ports unsigned int num_search_ports; unsigned int out_w;// == nr_bits_out bool is_main_mem; Area cell, cam_cell;//cell is the sram_cell in both nomal cache/ram and FA. bool is_valid; }; extern InputParameter * g_ip; extern TechnologyParameter g_tp; #endif