/***************************************************************************** * McPAT * 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.” * ***************************************************************************/ /******************************************************************** * Modified by: ** Jingwen Leng, Univeristy of Texas, Austin * Syed Gilani, *University of Wisconsin–Madison * Tayler Hetherington, *University of British Columbia * Ahmed ElTantawy, University of *British Columbia * ********************************************************************/ #ifndef LOGIC_H_ #define LOGIC_H_ #include #include #include #include #include "XML_Parse.h" #include "arch_const.h" #include "basic_components.h" #include "cacti/basic_circuit.h" #include "cacti/cacti_interface.h" #include "cacti/component.h" #include "cacti/const.h" #include "cacti/decoder.h" #include "cacti/parameter.h" #include "xmlParser.h" using namespace std; class selection_logic : public Component { public: selection_logic( bool _is_default, int win_entries_, int issue_width_, const InputParameter *configure_interface, enum Device_ty device_ty_ = Core_device, enum Core_type core_ty_ = Inorder); //, const ParseXML *_XML_interface); bool is_default; InputParameter l_ip; uca_org_t local_result; const ParseXML *XML_interface; int win_entries; int issue_width; int num_threads; enum Device_ty device_ty; enum Core_type core_ty; void selection_power(); void leakage_feedback(double temperature); // TODO }; class dep_resource_conflict_check : public Component { public: dep_resource_conflict_check(const InputParameter *configure_interface, const CoreDynParam &dyn_p_, int compare_bits_, bool _is_default = true); InputParameter l_ip; uca_org_t local_result; double WNORn, WNORp, Wevalinvp, Wevalinvn, Wcompn, Wcompp, Wcomppreequ; CoreDynParam coredynp; int compare_bits; bool is_default; statsDef tdp_stats; statsDef rtp_stats; statsDef stats_t; powerDef power_t; void conflict_check_power(); double compare_cap(); ~dep_resource_conflict_check() { local_result.cleanup(); } void leakage_feedback(double temperature); }; class inst_decoder : public Component { public: inst_decoder(bool _is_default, const InputParameter *configure_interface, int opcode_length_, int num_decoders_, bool x86_, enum Device_ty device_ty_ = Core_device, enum Core_type core_ty_ = Inorder); inst_decoder(); bool is_default; int opcode_length; int num_decoders; bool x86; int num_decoder_segments; int num_decoded_signals; InputParameter l_ip; uca_org_t local_result; enum Device_ty device_ty; enum Core_type core_ty; Decoder *final_dec; Predec *pre_dec; statsDef tdp_stats; statsDef rtp_stats; statsDef stats_t; powerDef power_t; void inst_decoder_delay_power(); ~inst_decoder(); void leakage_feedback(double temperature); }; class DFFCell : public Component { public: DFFCell(bool _is_dram, double _WdecNANDn, double _WdecNANDp, double _cell_load, const InputParameter *configure_interface); InputParameter l_ip; bool is_dram; double cell_load; double WdecNANDn; double WdecNANDp; double clock_cap; int model; int n_switch; int n_keep_1; int n_keep_0; int n_clock; powerDef e_switch; powerDef e_keep_1; powerDef e_keep_0; powerDef e_clock; double fpfp_node_cap(unsigned int fan_in, unsigned int fan_out); void compute_DFF_cell(void); }; class Pipeline : public Component { public: Pipeline(const InputParameter *configure_interface, const CoreDynParam &dyn_p_, enum Device_ty device_ty_ = Core_device, bool _is_core_pipeline = true, bool _is_default = true); InputParameter l_ip; uca_org_t local_result; CoreDynParam coredynp; enum Device_ty device_ty; bool is_core_pipeline, is_default; double num_piperegs; // int pipeline_stages; // int tot_stage_vector, per_stage_vector; bool process_ind; double WNANDn; double WNANDp; double load_per_pipeline_stage; // int Hthread, num_thread, fetchWidth, decodeWidth, issueWidth, // commitWidth, instruction_length; int PC_width, opcode_length, // num_arch_reg_tag, data_width,num_phsical_reg_tag, address_width; bool // thread_clock_gated; bool in_order, multithreaded; void compute_stage_vector(); void compute(); ~Pipeline() { local_result.cleanup(); }; }; // class core_pipeline :public pipeline{ // public: // int Hthread, num_thread, fetchWidth, decodeWidth, issueWidth, // commitWidth, instruction_length; int PC_width, opcode_length, // num_arch_reg_tag, data_width,num_phsical_reg_tag, address_width; bool // thread_clock_gated; bool in_order, multithreaded; core_pipeline(bool //_is_default, const InputParameter *configure_interface); virtual void // compute_stage_vector(); // //}; class FunctionalUnit : public Component { public: ParseXML *XML; int ithCore; InputParameter interface_ip; CoreDynParam coredynp; double FU_height; double clockRate, executionTime; double num_fu; double energy, base_energy, per_access_energy, leakage, gate_leakage; bool is_default; enum FU_type fu_type; statsDef tdp_stats; statsDef rtp_stats; statsDef stats_t; powerDef power_t; FunctionalUnit(ParseXML *XML_interface, int ithCore_, InputParameter *interface_ip_, const CoreDynParam &dyn_p_, enum FU_type fu_type, double exClockRate); void computeEnergy(bool is_tdp = true); void displayEnergy(uint32_t indent = 0, int plevel = 100, bool is_tdp = true); void leakage_feedback(double temperature); }; class UndiffCore : public Component { public: UndiffCore(ParseXML *XML_interface, int ithCore_, InputParameter *interface_ip_, const CoreDynParam &dyn_p_, bool exist_ = true, bool embedded_ = false); ParseXML *XML; int ithCore; InputParameter interface_ip; CoreDynParam coredynp; double clockRate, executionTime; double scktRatio, chip_PR_overhead, macro_PR_overhead; enum Core_type core_ty; bool opt_performance, embedded; double pipeline_stage, num_hthreads, issue_width; bool is_default; void displayEnergy(uint32_t indent = 0, int plevel = 100, bool is_tdp = true); ~UndiffCore(){}; bool exist; }; #endif /* LOGIC_H_ */