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/*****************************************************************************
* McPAT
* 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 BASIC_COMPONENTS_H_
#define BASIC_COMPONENTS_H_
#include <vector>
#include "component.h"
#include "parameter.h"
#include "xmlParser.h"
/**
* TODO: Since revisions to McPAT aim to make the component hierarchy more
* modular, many of the parameter and statistics classes/structs included in
* this file should be moved to the files for their respective components.
*/
const double cdb_overhead = 1.1;
enum FU_type {
FPU,
ALU,
MUL
};
enum Core_type {
OOO,
Inorder
};
enum Renaming_type {
RAMbased,
CAMbased
};
enum Scheduler_type {
PhysicalRegFile,
ReservationStation
};
enum Cache_type {
DATA_CACHE,
INSTRUCTION_CACHE,
MIXED
};
enum CacheLevel {
L1,
L2,
L3,
L1Directory,
L2Directory
};
enum MemoryCtrl_type {
MC, //memory controller
FLASHC //flash controller
};
enum Dir_type {
ST,//shadowed tag
DC,//directory cache
SBT,//static bank tag
NonDir
};
enum Cache_policy {
Write_through,
Write_back
};
enum Device_ty {
Core_device,
Uncore_device,
LLC_device
};
enum Access_mode {
Normal,
Sequential,
Fast
};
class statsComponents {
public:
double access;
double hit;
double miss;
statsComponents() : access(0), hit(0), miss(0) {}
statsComponents(const statsComponents & obj) {
*this = obj;
}
statsComponents & operator=(const statsComponents & rhs) {
access = rhs.access;
hit = rhs.hit;
miss = rhs.miss;
return *this;
}
void reset() {
access = 0;
hit = 0;
miss = 0;
}
friend statsComponents operator+(const statsComponents & x,
const statsComponents & y);
friend statsComponents operator*(const statsComponents & x,
double const * const y);
};
class statsDef {
public:
statsComponents readAc;
statsComponents writeAc;
statsComponents searchAc;
statsComponents dataReadAc;
statsComponents dataWriteAc;
statsComponents tagReadAc;
statsComponents tagWriteAc;
statsDef() : readAc(), writeAc(), searchAc() { }
void reset() {
readAc.reset();
writeAc.reset();
searchAc.reset();
}
friend statsDef operator+(const statsDef & x, const statsDef & y);
friend statsDef operator*(const statsDef & x, double const * const y);
};
/**
* An object to store the computed data that will be output from McPAT on a
* per-component-instance basis. Currently, this includes the amount of storage
* that the component comprises, its chip area, and power and energy
* calculations.
*/
class McPATOutput {
public:
// Storage is in bytes (B)
double storage;
// Area is in mm^2
double area;
// Peak Dynamic Power is in W
double peak_dynamic_power;
// Subthreshold Leakage Power is in W
double subthreshold_leakage_power;
// Gate Leakage Power is in W
double gate_leakage_power;
// Runtime Dynamic Energy is in J
double runtime_dynamic_energy;
void reset();
friend McPATOutput operator+(const McPATOutput &lhs, const McPATOutput &rhs);
void operator+=(const McPATOutput &rhs);
};
/**
* A McPATComponent encompasses all the parts that are common to any component
* for which McPAT may compute and print power, area, and timing data. It
* includes a pointer to the XML data from which the component gathers its
* input parameters, it stores the variables that are commonly used in all
* components, and it maintains the hierarchical structure to recursively
* compute and print output. This is a base class from which all components
* should inherit these functionality (possibly through other descended
* classes.
*/
class McPATComponent : public Component {
public:
static bool debug;
// Variables shared across the system by all McPATComponents
static bool opt_for_clk;
static int longer_channel_device;
static double execution_time;
static int physical_address_width;
static int virtual_address_width;
static int virtual_memory_page_size;
static int data_path_width;
// Although these two variables are static right now, they need to be
// modulated on a per-frequency-domain basis eventually.
static double target_core_clockrate;
static double total_cycles;
XMLNode* xml_data;
InputParameter interface_ip;
string name;
// Number of cycles per second (consider changing name)
double clockRate;
vector<McPATComponent*> children;
// The data structure that is printed in displayData
McPATOutput output_data;
// Set this to contain the stats to calculate peak dynamic power
statsDef tdp_stats;
// Set this to contain the stats to calculate runtime dynamic energy/power
statsDef rtp_stats;
// Holds the peak dynamic power calculation
powerDef power_t;
// Holds the runtime dynamic power calculation
powerDef rt_power;
McPATComponent();
// Which of these is a better way of doing things?!
McPATComponent(XMLNode* _xml_data);
McPATComponent(XMLNode* _xml_data, InputParameter* _interface_ip);
virtual void recursiveInstantiate();
virtual void computeArea();
// This function should probably be pure virtual, but it's too early in
// the modifying process to know for sure. Note that each component has
// to calculate it's own power consumption
virtual void computeEnergy();
virtual void displayData(uint32_t indent, int plevel);
~McPATComponent();
protected:
void errorUnspecifiedParam(string param);
void errorNonPositiveParam(string param);
void warnUnrecognizedComponent(XMLCSTR component);
void warnUnrecognizedParam(XMLCSTR param);
void warnUnrecognizedStat(XMLCSTR stat);
void warnIncompleteComponentType(XMLCSTR type);
void warnMissingComponentType(XMLCSTR id);
void warnMissingParamName(XMLCSTR id);
void warnMissingStatName(XMLCSTR id);
};
double longer_channel_device_reduction(
enum Device_ty device_ty = Core_device,
enum Core_type core_ty = Inorder);
class CoreParameters {
public:
bool opt_local;
bool x86;
bool Embedded;
enum Core_type core_ty;
enum Renaming_type rm_ty;
enum Scheduler_type scheu_ty;
double clockRate;
int arch_ireg_width;
int arch_freg_width;
int archi_Regs_IRF_size;
int archi_Regs_FRF_size;
int phy_ireg_width;
int phy_freg_width;
int num_IRF_entry;
int num_FRF_entry;
int num_ifreelist_entries;
int num_ffreelist_entries;
int fetchW;
int decodeW;
int issueW;
int peak_issueW;
int commitW;
int peak_commitW;
int predictionW;
int fp_issueW;
int fp_decodeW;
int perThreadState;
int globalCheckpoint;
int instruction_length;
int pc_width;
int opcode_width;
int micro_opcode_length;
int num_hthreads;
int pipeline_stages;
int fp_pipeline_stages;
int num_pipelines;
int num_fp_pipelines;
int num_alus;
int num_muls;
double num_fpus;
int int_data_width;
int fp_data_width;
int v_address_width;
int p_address_width;
bool regWindowing;
bool multithreaded;
double pppm_lkg_multhread[4];
int ROB_size;
int ROB_assoc;
int ROB_nbanks;
int ROB_tag_width;
int scheduler_assoc;
int scheduler_nbanks;
int register_window_size;
double register_window_throughput;
double register_window_latency;
int register_window_assoc;
int register_window_nbanks;
int register_window_tag_width;
int register_window_rw_ports;
int phy_Regs_IRF_size;
int phy_Regs_IRF_assoc;
int phy_Regs_IRF_nbanks;
int phy_Regs_IRF_tag_width;
int phy_Regs_IRF_rd_ports;
int phy_Regs_IRF_wr_ports;
int phy_Regs_FRF_size;
int phy_Regs_FRF_assoc;
int phy_Regs_FRF_nbanks;
int phy_Regs_FRF_tag_width;
int phy_Regs_FRF_rd_ports;
int phy_Regs_FRF_wr_ports;
int front_rat_nbanks;
int front_rat_rw_ports;
int retire_rat_nbanks;
int retire_rat_rw_ports;
int freelist_nbanks;
int freelist_rw_ports;
int memory_ports;
int load_buffer_size;
int load_buffer_assoc;
int load_buffer_nbanks;
int store_buffer_size;
int store_buffer_assoc;
int store_buffer_nbanks;
int instruction_window_size;
int fp_instruction_window_size;
int instruction_buffer_size;
int instruction_buffer_assoc;
int instruction_buffer_nbanks;
int instruction_buffer_tag_width;
int number_instruction_fetch_ports;
int RAS_size;
int execu_int_bypass_ports;
int execu_mul_bypass_ports;
int execu_fp_bypass_ports;
Wire_type execu_bypass_wire_type;
Wire_type execu_broadcast_wt;
int execu_wire_mat_type;
double execu_bypass_base_width;
double execu_bypass_base_height;
int execu_bypass_start_wiring_level;
double execu_bypass_route_over_perc;
double broadcast_numerator;
};
class CoreStatistics {
public:
double pipeline_duty_cycle;
double total_cycles;
double busy_cycles;
double idle_cycles;
double IFU_duty_cycle;
double BR_duty_cycle;
double LSU_duty_cycle;
double MemManU_I_duty_cycle;
double MemManU_D_duty_cycle;
double ALU_duty_cycle;
double MUL_duty_cycle;
double FPU_duty_cycle;
double ALU_cdb_duty_cycle;
double MUL_cdb_duty_cycle;
double FPU_cdb_duty_cycle;
double ROB_reads;
double ROB_writes;
double total_instructions;
double int_instructions;
double fp_instructions;
double branch_instructions;
double branch_mispredictions;
double load_instructions;
double store_instructions;
double committed_instructions;
double committed_int_instructions;
double committed_fp_instructions;
double rename_reads;
double rename_writes;
double fp_rename_reads;
double fp_rename_writes;
double inst_window_reads;
double inst_window_writes;
double inst_window_wakeup_accesses;
double fp_inst_window_reads;
double fp_inst_window_writes;
double fp_inst_window_wakeup_accesses;
double int_regfile_reads;
double float_regfile_reads;
double int_regfile_writes;
double float_regfile_writes;
double context_switches;
double ialu_accesses;
double fpu_accesses;
double mul_accesses;
double cdb_alu_accesses;
double cdb_fpu_accesses;
double cdb_mul_accesses;
double function_calls;
};
class MCParameters {
public:
double clockRate;
enum MemoryCtrl_type mc_type;
double num_mcs;
int num_channels;
int llcBlockSize;
int dataBusWidth;
int databus_width;
int llc_line_length;
int req_window_size_per_channel;
int IO_buffer_size_per_channel;
int addressbus_width;
int opcodeW;
int type;
bool LVDS;
bool withPHY;
int peak_transfer_rate;
int number_ranks;
int reorder_buffer_assoc;
int reorder_buffer_nbanks;
int read_buffer_assoc;
int read_buffer_nbanks;
int read_buffer_tag_width;
int write_buffer_assoc;
int write_buffer_nbanks;
int write_buffer_tag_width;
};
class MCStatistics {
public:
double duty_cycle;
double perc_load;
double reads;
double writes;
};
class NIUParameters {
public:
double clockRate;
int num_units;
int type;
};
class NIUStatistics {
public:
double duty_cycle;
double perc_load;
};
class PCIeParameters {
public:
double clockRate;
int num_channels;
int num_units;
bool withPHY;
int type;
};
class PCIeStatistics {
public:
double duty_cycle;
double perc_load;
};
#endif /* BASIC_COMPONENTS_H_ */
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