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gem5/ext/mcpat/basic_components.cc
Yasuko Eckert 0deef376d9 ext: McPAT interface changes and fixes 
This patch includes software engineering changes and some generic bug fixes
Joel Hestness and Yasuko Eckert made to McPAT 0.8. There are still known
issues/concernts we did not have a chance to address in this patch.

High-level changes in this patch include:
 1) Making XML parsing modular and hierarchical:
   - Shift parsing responsibility into the components
   - Read XML in a (mostly) context-free recursive manner so that McPAT input
     files can contain arbitrary component hierarchies
 2) Making power, energy, and area calculations a hierarchical and recursive
    process
   - Components track their subcomponents and recursively call compute
     functions in stages
   - Make C++ object hierarchy reflect inheritance of classes of components
     with similar structures
   - Simplify computeArea() and computeEnergy() functions to eliminate
     successive calls to calculate separate TDP vs. runtime energy
   - Remove Processor component (now unnecessary) and introduce a more abstract
     System component
 3) Standardizing McPAT output across all components
   - Use a single, common data structure for storing and printing McPAT output
   - Recursively call print functions through component hierarchy
 4) For caches, allow splitting data array and tag array reads and writes for
    better accuracy
 5) Improving the usability of CACTI by printing more helpful warning and error
    messages
 6) Minor: Impose more rigorous code style for clarity (more work still to be
    done)
Overall, these changes greatly reduce the amount of replicated code, and they
improve McPAT runtime and decrease memory footprint.
2014-06-03 13:32:59 -07:00

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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.
*
***************************************************************************/
#include <cassert>
#include <cmath>
#include <iostream>
#include "basic_components.h"
#include "cacheunit.h"
#include "common.h"
// Turn this to true to get debugging messages
bool McPATComponent::debug = false;
bool McPATComponent::opt_for_clk = true;
int McPATComponent::longer_channel_device = 0;
// Number of cycles per second, 2GHz = 2e9
double McPATComponent::target_core_clockrate = 2e9;
double McPATComponent::total_cycles = 0.0f;
double McPATComponent::execution_time = 0.0f;
int McPATComponent::physical_address_width = 0;
int McPATComponent::virtual_address_width = 0;
int McPATComponent::virtual_memory_page_size = 0;
int McPATComponent::data_path_width = 0;
void McPATOutput::reset() {
storage = 0.0;
area = 0.0;
peak_dynamic_power = 0.0;
subthreshold_leakage_power = 0.0;
gate_leakage_power = 0.0;
runtime_dynamic_energy = 0.0;
}
McPATOutput operator+(const McPATOutput &lhs, const McPATOutput &rhs) {
McPATOutput to_return;
to_return.storage = lhs.storage + rhs.storage;
to_return.area = lhs.area + rhs.area;
to_return.peak_dynamic_power = lhs.peak_dynamic_power +
rhs.peak_dynamic_power;
to_return.subthreshold_leakage_power = lhs.subthreshold_leakage_power +
rhs.subthreshold_leakage_power;
to_return.gate_leakage_power = lhs.gate_leakage_power +
rhs.gate_leakage_power;
to_return.runtime_dynamic_energy = lhs.runtime_dynamic_energy +
rhs.runtime_dynamic_energy;
return to_return;
}
void McPATOutput::operator+=(const McPATOutput &rhs) {
storage += rhs.storage;
area += rhs.area;
peak_dynamic_power += rhs.peak_dynamic_power;
subthreshold_leakage_power += rhs.subthreshold_leakage_power;
gate_leakage_power += rhs.gate_leakage_power;
runtime_dynamic_energy += rhs.runtime_dynamic_energy;
}
McPATComponent::McPATComponent()
: xml_data(NULL), name("") {
}
McPATComponent::McPATComponent(XMLNode* _xml_data)
: xml_data(_xml_data), name("") {
}
McPATComponent::McPATComponent(XMLNode* _xml_data,
InputParameter* _interface_ip)
: xml_data(_xml_data), interface_ip(*_interface_ip), name("") {
}
McPATComponent::~McPATComponent() {
}
void McPATComponent::recursiveInstantiate() {
if (debug) {
fprintf(stderr, "WARNING: Called recursiveInstantiate from %s, with ",
"'type' %s\n", name.c_str(), xml_data->getAttribute("type"));
}
int i;
int numChildren = xml_data->nChildNode("component");
for (i = 0; i < numChildren; i++ ) {
// For each child node of the system,
XMLNode* childXML = xml_data->getChildNodePtr("component", &i);
XMLCSTR type = childXML->getAttribute("type");
if (!type)
warnMissingComponentType(childXML->getAttribute("id"));
STRCMP(type, "Core")
warnIncompleteComponentType(type);
STRCMP(type, "CacheUnit")
children.push_back(new CacheUnit(childXML, &interface_ip));
STRCMP(type, "CacheController")
warnIncompleteComponentType(type);
STRCMP(type, "MemoryController")
warnIncompleteComponentType(type);
STRCMP(type, "Memory")
warnIncompleteComponentType(type);
STRCMP(type, "OnChipNetwork")
warnIncompleteComponentType(type);
STRCMP(type, "BusInterconnect")
warnIncompleteComponentType(type);
STRCMP(type, "Directory")
warnIncompleteComponentType(type);
else
warnUnrecognizedComponent(type);
}
}
void McPATComponent::computeArea() {
if (debug) {
fprintf(stderr, "WARNING: Called computeArea from %s, with 'type' ",
"%s\n", name.c_str(), xml_data->getAttribute("type"));
}
// TODO: This calculation is incorrect and is overwritten by computeEnergy
// Fix it up so that the values are available at the correct times
int i;
int numChildren = children.size();
area.set_area(0.0);
output_data.area = 0.0;
for (i = 0; i < numChildren; i++) {
children[i]->computeArea();
output_data.area += area.get_area();
}
}
void McPATComponent::computeEnergy() {
if (debug) {
fprintf(stderr, "WARNING: Called computeEnergy from %s, with 'type' ",
"%s\n", name.c_str(), xml_data->getAttribute("type"));
}
power.reset();
rt_power.reset();
memset(&output_data, 0, sizeof(McPATOutput));
int i;
int numChildren = children.size();
for (i = 0; i < numChildren; i++) {
children[i]->computeEnergy();
output_data += children[i]->output_data;
}
}
void McPATComponent::displayData(uint32_t indent, int plevel) {
if (debug) {
fprintf(stderr, "WARNING: Called displayData from %s, with 'type' ",
"%s\n", name.c_str(), xml_data->getAttribute("type"));
}
string indent_str(indent, ' ');
string indent_str_next(indent + 2, ' ');
double leakage_power = output_data.subthreshold_leakage_power +
output_data.gate_leakage_power;
double total_runtime_energy = output_data.runtime_dynamic_energy +
leakage_power * execution_time;
cout << indent_str << name << ":" << endl;
cout << indent_str_next << "Area = " << output_data.area << " mm^2"
<< endl;
cout << indent_str_next << "Peak Dynamic Power = "
<< output_data.peak_dynamic_power << " W" << endl;
cout << indent_str_next << "Subthreshold Leakage Power = "
<< output_data.subthreshold_leakage_power << " W" << endl;
cout << indent_str_next << "Gate Leakage Power = "
<< output_data.gate_leakage_power << " W" << endl;
cout << indent_str_next << "Runtime Dynamic Power = "
<< (output_data.runtime_dynamic_energy / execution_time) << " W"
<< endl;
cout << indent_str_next << "Runtime Dynamic Energy = "
<< output_data.runtime_dynamic_energy << " J" << endl;
cout << indent_str_next << "Total Runtime Energy = "
<< total_runtime_energy << " J" << endl;
cout << endl;
// Recursively print children
int i;
int numChildren = children.size();
for (i = 0; i < numChildren; i++) {
children[i]->displayData(indent + 4, plevel);
}
}
void McPATComponent::errorUnspecifiedParam(string param) {
fprintf(stderr, "ERROR: Parameter must be specified in %s: %s\n",
name.c_str(), param.c_str());
exit(1);
}
void McPATComponent::errorNonPositiveParam(string param) {
fprintf(stderr, "ERROR: Parameter must be positive in %s: %s\n",
name.c_str(), param.c_str());
exit(1);
}
void McPATComponent::warnUnrecognizedComponent(XMLCSTR component) {
fprintf(stderr, "WARNING: Component type not recognized in %s: %s\n",
name.c_str(), component);
}
void McPATComponent::warnUnrecognizedParam(XMLCSTR param) {
fprintf(stderr, "WARNING: Parameter not recognized in %s: %s\n",
name.c_str(), param);
}
void McPATComponent::warnUnrecognizedStat(XMLCSTR stat) {
fprintf(stderr, "WARNING: Statistic not recognized in %s: %s\n",
name.c_str(), stat);
}
void McPATComponent::warnIncompleteComponentType(XMLCSTR type) {
fprintf(stderr, " WARNING: %s handling not yet complete\n", type);
}
void McPATComponent::warnMissingComponentType(XMLCSTR id) {
if (id) {
fprintf(stderr,
"WARNING: Ignoring a component due to the missing type: %s\n",
id);
} else {
fprintf(stderr,
"WARNING: Ignoring a component in %s due to the missing type\n",
name.c_str());
}
}
void McPATComponent::warnMissingParamName(XMLCSTR id) {
if (id) {
fprintf(stderr,
"WARNING: Ignoring a parameter due to the missing name: %s\n",
id);
} else {
fprintf(stderr,
"WARNING: Ignoring a parameter in %s due to the missing name\n",
name.c_str());
}
}
void McPATComponent::warnMissingStatName(XMLCSTR id) {
if (id) {
fprintf(stderr,
"WARNING: Ignoring a statistic due to the missing name: %s\n",
id);
} else {
fprintf(stderr,
"WARNING: Ignoring a statistic in %s due to the missing name\n",
name.c_str());
}
}
double longer_channel_device_reduction(
enum Device_ty device_ty,
enum Core_type core_ty) {
double longer_channel_device_percentage_core;
double longer_channel_device_percentage_uncore;
double longer_channel_device_percentage_llc;
double long_channel_device_reduction;
longer_channel_device_percentage_llc = 1.0;
longer_channel_device_percentage_uncore = 0.82;
if (core_ty == OOO) {
//0.54 Xeon Tulsa //0.58 Nehelam
longer_channel_device_percentage_core = 0.56;
} else {
//0.8;//Niagara
longer_channel_device_percentage_core = 0.8;
}
if (device_ty == Core_device) {
long_channel_device_reduction =
(1 - longer_channel_device_percentage_core) +
longer_channel_device_percentage_core *
g_tp.peri_global.long_channel_leakage_reduction;
} else if (device_ty == Uncore_device) {
long_channel_device_reduction =
(1 - longer_channel_device_percentage_uncore) +
longer_channel_device_percentage_uncore *
g_tp.peri_global.long_channel_leakage_reduction;
} else if (device_ty == LLC_device) {
long_channel_device_reduction =
(1 - longer_channel_device_percentage_llc) +
longer_channel_device_percentage_llc *
g_tp.peri_global.long_channel_leakage_reduction;
} else {
cout << "ERROR: Unknown device category: " << device_ty << endl;
exit(0);
}
return long_channel_device_reduction;
}
statsComponents operator+(const statsComponents & x, const statsComponents & y) {
statsComponents z;
z.access = x.access + y.access;
z.hit = x.hit + y.hit;
z.miss = x.miss + y.miss;
return z;
}
statsComponents operator*(const statsComponents & x, double const * const y) {
statsComponents z;
z.access = x.access * y[0];
z.hit = x.hit * y[1];
z.miss = x.miss * y[2];
return z;
}
statsDef operator+(const statsDef & x, const statsDef & y) {
statsDef z;
z.readAc = x.readAc + y.readAc;
z.writeAc = x.writeAc + y.writeAc;
z.searchAc = x.searchAc + y.searchAc;
return z;
}
statsDef operator*(const statsDef & x, double const * const y) {
statsDef z;
z.readAc = x.readAc * y;
z.writeAc = x.writeAc * y;
z.searchAc = x.searchAc * y;
return z;
}
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