From a4a321028023cb9d65d533adaa3b6c2c3b49eee2 Mon Sep 17 00:00:00 2001 From: Tayler Hetherington Date: Thu, 13 Dec 2012 10:30:09 -0800 Subject: Renaming src/mcpat -> src/gpuwattch [git-p4: depot-paths = "//depot/gpgpu_sim_research/fermi/distribution/": change = 14798] --- src/mcpat/processor.cc | 1060 ------------------------------------------------ 1 file changed, 1060 deletions(-) delete mode 100644 src/mcpat/processor.cc (limited to 'src/mcpat/processor.cc') diff --git a/src/mcpat/processor.cc b/src/mcpat/processor.cc deleted file mode 100644 index 1fb37c1..0000000 --- a/src/mcpat/processor.cc +++ /dev/null @@ -1,1060 +0,0 @@ -/***************************************************************************** - * 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 * -********************************************************************/ -#include -#include -#include -#include -#include -#include -#include -#include -#include "parameter.h" -#include "array.h" -#include "const.h" -#include "cacti/basic_circuit.h" -#include "XML_Parse.h" -#include "processor.h" -#include "version.h" - - -Processor::Processor(ParseXML *XML_interface) -:XML(XML_interface),//TODO: using one global copy may have problems. - mc(0), - niu(0), - pcie(0), - flashcontroller(0) -{ - /* - * placement and routing overhead is 10%, core scales worse than cache 40% is accumulated from 90 to 22nm - * There is no point to have heterogeneous memory controller on chip, - * thus McPAT only support homogeneous memory controllers. - */ - int i; - double pppm_t[4] = {1,1,1,1}; - l2_power=0; - idle_core_power=0; - set_proc_param(); - if (procdynp.homoCore) - numCore = procdynp.numCore==0? 0:1; - else - numCore = procdynp.numCore; - - if (procdynp.homoL2) - numL2 = procdynp.numL2==0? 0:1; - else - numL2 = procdynp.numL2; - - if (XML->sys.Private_L2 && numCore != numL2) - { - cout<<"Number of private L2 does not match number of cores"<computeEnergy(); - cores[i]->computeEnergy(false); - if (procdynp.homoCore){ - core.area.set_area(core.area.get_area() + cores[i]->area.get_area()*procdynp.numCore); - set_pppm(pppm_t,cores[i]->clockRate*procdynp.numCore, procdynp.numCore,procdynp.numCore,procdynp.numCore); - //set the exClockRate - exClockRate=cores[0]->clockRate*2;//TODO; get from XML file - //cout<<"****EX clock rate:"<power*pppm_t; - set_pppm(pppm_t,1/cores[i]->executionTime, procdynp.numCore,procdynp.numCore,procdynp.numCore); - core.rt_power = core.rt_power + cores[i]->rt_power*pppm_t; - area.set_area(area.get_area() + core.area.get_area());//placement and routing overhead is 10%, core scales worse than cache 40% is accumulated from 90 to 22nm - power = power + core.power; - rt_power = rt_power + core.rt_power; - } - else{ - core.area.set_area(core.area.get_area() + cores[i]->area.get_area()); - area.set_area(area.get_area() + cores[i]->area.get_area());//placement and routing overhead is 10%, core scales worse than cache 40% is accumulated from 90 to 22nm - - set_pppm(pppm_t,cores[i]->clockRate, 1, 1, 1); - //set the exClockRate - exClockRate=cores[0]->clockRate;//TODO; get from XML file - //cout<<"****EX clock rate:"<power*pppm_t; - power = power + cores[i]->power*pppm_t; - - set_pppm(pppm_t,1/cores[i]->executionTime, 1, 1, 1); - core.rt_power = core.rt_power + cores[i]->rt_power*pppm_t; - rt_power = rt_power + cores[i]->rt_power*pppm_t; - } - } - - if (!XML->sys.Private_L2) - { - - if (numL2 >0) - for (i = 0;i < numL2; i++) - { - l2array.push_back(new SharedCache(XML,i, &interface_ip)); - - l2array[i]->computeEnergy(); - l2array[i]->computeEnergy(false); - if (procdynp.homoL2){ - l2.area.set_area(l2.area.get_area() + l2array[i]->area.get_area()*procdynp.numL2); - set_pppm(pppm_t,l2array[i]->cachep.clockRate*procdynp.numL2, procdynp.numL2,procdynp.numL2,procdynp.numL2); - l2.power = l2.power + l2array[i]->power*pppm_t; - set_pppm(pppm_t,1/l2array[i]->cachep.executionTime, procdynp.numL2,procdynp.numL2,procdynp.numL2); - l2.rt_power = l2.rt_power + l2array[i]->rt_power*pppm_t; - area.set_area(area.get_area() + l2.area.get_area());//placement and routing overhead is 10%, l2 scales worse than cache 40% is accumulated from 90 to 22nm - power = power + l2.power; - rt_power = rt_power + l2.rt_power; - } - else{ - l2.area.set_area(l2.area.get_area() + l2array[i]->area.get_area()); - area.set_area(area.get_area() + l2array[i]->area.get_area());//placement and routing overhead is 10%, l2 scales worse than cache 40% is accumulated from 90 to 22nm - - set_pppm(pppm_t,l2array[i]->cachep.clockRate, 1, 1, 1); - l2.power = l2.power + l2array[i]->power*pppm_t; - power = power + l2array[i]->power*pppm_t;; - set_pppm(pppm_t,1/l2array[i]->cachep.executionTime, 1, 1, 1); - l2.rt_power = l2.rt_power + l2array[i]->rt_power*pppm_t; - rt_power = rt_power + l2array[i]->rt_power*pppm_t; - } - } - } - - if (numL3 >0) - for (i = 0;i < numL3; i++) - { - l3array.push_back(new SharedCache(XML,i, &interface_ip, L3)); - l3array[i]->computeEnergy(); - l3array[i]->computeEnergy(false); - if (procdynp.homoL3){ - l3.area.set_area(l3.area.get_area() + l3array[i]->area.get_area()*procdynp.numL3); - set_pppm(pppm_t,l3array[i]->cachep.clockRate*procdynp.numL3, procdynp.numL3,procdynp.numL3,procdynp.numL3); - l3.power = l3.power + l3array[i]->power*pppm_t; - set_pppm(pppm_t,1/l3array[i]->cachep.executionTime, procdynp.numL3,procdynp.numL3,procdynp.numL3); - l3.rt_power = l3.rt_power + l3array[i]->rt_power*pppm_t; - area.set_area(area.get_area() + l3.area.get_area());//placement and routing overhead is 10%, l3 scales worse than cache 40% is accumulated from 90 to 22nm - power = power + l3.power; - rt_power = rt_power + l3.rt_power; - - } - else{ - l3.area.set_area(l3.area.get_area() + l3array[i]->area.get_area()); - area.set_area(area.get_area() + l3array[i]->area.get_area());//placement and routing overhead is 10%, l3 scales worse than cache 40% is accumulated from 90 to 22nm - set_pppm(pppm_t,l3array[i]->cachep.clockRate, 1, 1, 1); - l3.power = l3.power + l3array[i]->power*pppm_t; - power = power + l3array[i]->power*pppm_t; - set_pppm(pppm_t,1/l3array[i]->cachep.executionTime, 1, 1, 1); - l3.rt_power = l3.rt_power + l3array[i]->rt_power*pppm_t; - rt_power = rt_power + l3array[i]->rt_power*pppm_t; - - } - } - if (numL1Dir >0) - for (i = 0;i < numL1Dir; i++) - { - l1dirarray.push_back(new SharedCache(XML,i, &interface_ip, L1Directory)); - l1dirarray[i]->computeEnergy(); - l1dirarray[i]->computeEnergy(false); - if (procdynp.homoL1Dir){ - l1dir.area.set_area(l1dir.area.get_area() + l1dirarray[i]->area.get_area()*procdynp.numL1Dir); - set_pppm(pppm_t,l1dirarray[i]->cachep.clockRate*procdynp.numL1Dir, procdynp.numL1Dir,procdynp.numL1Dir,procdynp.numL1Dir); - l1dir.power = l1dir.power + l1dirarray[i]->power*pppm_t; - set_pppm(pppm_t,1/l1dirarray[i]->cachep.executionTime, procdynp.numL1Dir,procdynp.numL1Dir,procdynp.numL1Dir); - l1dir.rt_power = l1dir.rt_power + l1dirarray[i]->rt_power*pppm_t; - area.set_area(area.get_area() + l1dir.area.get_area());//placement and routing overhead is 10%, l1dir scales worse than cache 40% is accumulated from 90 to 22nm - power = power + l1dir.power; - rt_power = rt_power + l1dir.rt_power; - - } - else{ - l1dir.area.set_area(l1dir.area.get_area() + l1dirarray[i]->area.get_area()); - area.set_area(area.get_area() + l1dirarray[i]->area.get_area()); - set_pppm(pppm_t,l1dirarray[i]->cachep.clockRate, 1, 1, 1); - l1dir.power = l1dir.power + l1dirarray[i]->power*pppm_t; - power = power + l1dirarray[i]->power; - set_pppm(pppm_t,1/l1dirarray[i]->cachep.executionTime, 1, 1, 1); - l1dir.rt_power = l1dir.rt_power + l1dirarray[i]->rt_power*pppm_t; - rt_power = rt_power + l1dirarray[i]->rt_power; - } - } - - if (numL2Dir >0) - for (i = 0;i < numL2Dir; i++) - { - l2dirarray.push_back(new SharedCache(XML,i, &interface_ip, L2Directory)); - l2dirarray[i]->computeEnergy(); - l2dirarray[i]->computeEnergy(false); - if (procdynp.homoL2Dir){ - l2dir.area.set_area(l2dir.area.get_area() + l2dirarray[i]->area.get_area()*procdynp.numL2Dir); - set_pppm(pppm_t,l2dirarray[i]->cachep.clockRate*procdynp.numL2Dir, procdynp.numL2Dir,procdynp.numL2Dir,procdynp.numL2Dir); - l2dir.power = l2dir.power + l2dirarray[i]->power*pppm_t; - set_pppm(pppm_t,1/l2dirarray[i]->cachep.executionTime, procdynp.numL2Dir,procdynp.numL2Dir,procdynp.numL2Dir); - l2dir.rt_power = l2dir.rt_power + l2dirarray[i]->rt_power*pppm_t; - area.set_area(area.get_area() + l2dir.area.get_area());//placement and routing overhead is 10%, l2dir scales worse than cache 40% is accumulated from 90 to 22nm - power = power + l2dir.power; - rt_power = rt_power + l2dir.rt_power; - - } - else{ - l2dir.area.set_area(l2dir.area.get_area() + l2dirarray[i]->area.get_area()); - area.set_area(area.get_area() + l2dirarray[i]->area.get_area()); - set_pppm(pppm_t,l2dirarray[i]->cachep.clockRate, 1, 1, 1); - l2dir.power = l2dir.power + l2dirarray[i]->power*pppm_t; - power = power + l2dirarray[i]->power*pppm_t; - set_pppm(pppm_t,1/l2dirarray[i]->cachep.executionTime, 1, 1, 1); - l2dir.rt_power = l2dir.rt_power + l2dirarray[i]->rt_power*pppm_t; - rt_power = rt_power + l2dirarray[i]->rt_power*pppm_t; - } - } - - if (XML->sys.mc.number_mcs >0 && XML->sys.mc.memory_channels_per_mc>0) - { - if(XML->sys.architecture==1) // 1 for fermi - mc = new MemoryController(XML, &interface_ip, MC,GDDR5); - else if (XML->sys.architecture==2) // 2 for quadro - mc = new MemoryController(XML, &interface_ip, MC,GDDR3); - else { - printf("Architecture %d not defined!\n", XML->sys.architecture); - printf("use 1 for fermi and 2 for quadro!\n"); - exit(1); - } - mc->computeEnergy(); - mc->computeEnergy(false); - mcs.area.set_area(mcs.area.get_area()+mc->area.get_area()*XML->sys.mc.number_mcs); - area.set_area(area.get_area()+mc->area.get_area()*XML->sys.mc.number_mcs); - set_pppm(pppm_t,XML->sys.mc.number_mcs*mc->mcp.clockRate, XML->sys.mc.number_mcs,XML->sys.mc.number_mcs,XML->sys.mc.number_mcs); - mcs.power = mc->power*pppm_t; - power = power + mcs.power; - set_pppm(pppm_t,1/mc->mcp.executionTime, XML->sys.mc.number_mcs,XML->sys.mc.number_mcs,XML->sys.mc.number_mcs); - mcs.rt_power = mc->rt_power*pppm_t; - rt_power = rt_power + mcs.rt_power; - - } - - if (XML->sys.flashc.number_mcs >0 )//flash controller - { - flashcontroller = new FlashController(XML, &interface_ip); - flashcontroller->computeEnergy(); - flashcontroller->computeEnergy(false); - double number_fcs = flashcontroller->fcp.num_mcs; - flashcontrollers.area.set_area(flashcontrollers.area.get_area()+flashcontroller->area.get_area()*number_fcs); - area.set_area(area.get_area()+flashcontrollers.area.get_area()); - set_pppm(pppm_t,number_fcs, number_fcs ,number_fcs, number_fcs ); - flashcontrollers.power = flashcontroller->power*pppm_t; - power = power + flashcontrollers.power; - set_pppm(pppm_t,number_fcs , number_fcs ,number_fcs ,number_fcs ); - flashcontrollers.rt_power = flashcontroller->rt_power*pppm_t; - rt_power = rt_power + flashcontrollers.rt_power; - - } - - if (XML->sys.niu.number_units >0) - { - niu = new NIUController(XML, &interface_ip); - niu->computeEnergy(); - niu->computeEnergy(false); - nius.area.set_area(nius.area.get_area()+niu->area.get_area()*XML->sys.niu.number_units); - area.set_area(area.get_area()+niu->area.get_area()*XML->sys.niu.number_units); - set_pppm(pppm_t,XML->sys.niu.number_units*niu->niup.clockRate, XML->sys.niu.number_units,XML->sys.niu.number_units,XML->sys.niu.number_units); - nius.power = niu->power*pppm_t; - power = power + nius.power; - set_pppm(pppm_t,XML->sys.niu.number_units*niu->niup.clockRate, XML->sys.niu.number_units,XML->sys.niu.number_units,XML->sys.niu.number_units); - nius.rt_power = niu->rt_power*pppm_t; - rt_power = rt_power + nius.rt_power; - - } - - if (XML->sys.pcie.number_units >0 && XML->sys.pcie.num_channels >0) - { - pcie = new PCIeController(XML, &interface_ip); - pcie->computeEnergy(); - pcie->computeEnergy(false); - pcies.area.set_area(pcies.area.get_area()+pcie->area.get_area()*XML->sys.pcie.number_units); - area.set_area(area.get_area()+pcie->area.get_area()*XML->sys.pcie.number_units); - set_pppm(pppm_t,XML->sys.pcie.number_units*pcie->pciep.clockRate, XML->sys.pcie.number_units,XML->sys.pcie.number_units,XML->sys.pcie.number_units); - pcies.power = pcie->power*pppm_t; - power = power + pcies.power; - set_pppm(pppm_t,XML->sys.pcie.number_units*pcie->pciep.clockRate, XML->sys.pcie.number_units,XML->sys.pcie.number_units,XML->sys.pcie.number_units); - pcies.rt_power = pcie->rt_power*pppm_t; - rt_power = rt_power + pcies.rt_power; - - } - - if (numNOC >0) - { - for (i = 0;i < numNOC; i++) - { - if (XML->sys.NoC[i].type) - {//First add up area of routers if NoC is used - nocs.push_back(new NoC(XML,i, &interface_ip, 1)); - - if (procdynp.homoNOC) - { - noc.area.set_area(noc.area.get_area() + nocs[i]->area.get_area()*procdynp.numNOC); - area.set_area(area.get_area() + noc.area.get_area()); - } - else - { - noc.area.set_area(noc.area.get_area() + nocs[i]->area.get_area()); - area.set_area(area.get_area() + nocs[i]->area.get_area()); - } - } - else - {//Bus based interconnect - nocs.push_back(new NoC(XML,i, &interface_ip, 1, sqrt(area.get_area()*XML->sys.NoC[i].chip_coverage))); - if (procdynp.homoNOC){ - noc.area.set_area(noc.area.get_area() + nocs[i]->area.get_area()*procdynp.numNOC); - area.set_area(area.get_area() + noc.area.get_area()); - } - else - { - noc.area.set_area(noc.area.get_area() + nocs[i]->area.get_area()); - area.set_area(area.get_area() + nocs[i]->area.get_area()); - } - } - } - - /* - * Compute global links associated with each NOC, if any. This must be done at the end (even after the NOC router part) since the total chip - * area must be obtain to decide the link routing - */ - for (i = 0;i < numNOC; i++) - { - if (nocs[i]->nocdynp.has_global_link && XML->sys.NoC[i].type) - { - nocs[i]->init_link_bus(sqrt(area.get_area()*XML->sys.NoC[i].chip_coverage));//compute global links - if (procdynp.homoNOC) - { - noc.area.set_area(noc.area.get_area() + nocs[i]->link_bus_tot_per_Router.area.get_area() - * nocs[i]->nocdynp.total_nodes - * procdynp.numNOC); - area.set_area(area.get_area() + nocs[i]->link_bus_tot_per_Router.area.get_area() - * nocs[i]->nocdynp.total_nodes - * procdynp.numNOC); - } - else - { - noc.area.set_area(noc.area.get_area() + nocs[i]->link_bus_tot_per_Router.area.get_area() - * nocs[i]->nocdynp.total_nodes); - area.set_area(area.get_area() + nocs[i]->link_bus_tot_per_Router.area.get_area() - * nocs[i]->nocdynp.total_nodes); - } - } - } - //Compute energy of NoC (w or w/o links) or buses - for (i = 0;i < numNOC; i++) - { - //cout<<"******************COMPUTE NOC ENERGY********************"<computeEnergy(); - nocs[i]->computeEnergy(false); - if (procdynp.homoNOC){ - - set_pppm(pppm_t,procdynp.numNOC*nocs[i]->nocdynp.clockRate, procdynp.numNOC,procdynp.numNOC,procdynp.numNOC); - noc.power = noc.power + nocs[i]->power*pppm_t; - set_pppm(pppm_t,1/nocs[i]->nocdynp.executionTime, procdynp.numNOC,procdynp.numNOC,procdynp.numNOC); - noc.rt_power = noc.rt_power + nocs[i]->rt_power*pppm_t; - power = power + noc.power; - rt_power = rt_power + noc.rt_power; - } - else - { - set_pppm(pppm_t,nocs[i]->nocdynp.clockRate, 1, 1, 1); - noc.power = noc.power + nocs[i]->power*pppm_t; - power = power + nocs[i]->power*pppm_t; - set_pppm(pppm_t,1/nocs[i]->nocdynp.executionTime, 1, 1, 1); - noc.rt_power = noc.rt_power + nocs[i]->rt_power*pppm_t; - rt_power = rt_power + nocs[i]->rt_power*pppm_t; - - - } - } - } - -// //clock power -// globalClock.init_wire_external(is_default, &interface_ip); -// globalClock.clk_area =area*1e6; //change it from mm^2 to um^2 -// globalClock.end_wiring_level =5;//toplevel metal -// globalClock.start_wiring_level =5;//toplevel metal -// globalClock.l_ip.with_clock_grid=false;//global clock does not drive local final nodes -// globalClock.optimize_wire(); -} - -void Processor::compute () -{ - int i; - double pppm_t[4] = {1,1,1,1}; - - rt_power.reset(); - //power.reset(); - //core.power.reset(); - - core.rt_power.reset(); - for (i = 0;i < numCore; i++) - { - cores[i]->executionTime = XML->sys.total_cycles /(XML->sys.core[i].clock_rate*1e6); - cores[i]->rt_power.reset(); - cores[i]->compute(); - //cores[i]->computeEnergy(false); - if (procdynp.homoCore){ - set_pppm(pppm_t,1/cores[i]->executionTime, procdynp.numCore,procdynp.numCore,procdynp.numCore); - core.rt_power = core.rt_power + cores[i]->rt_power*pppm_t; - rt_power = rt_power + core.rt_power; - } - else{ - set_pppm(pppm_t,1/cores[i]->executionTime, 1, 1, 1); - core.rt_power = core.rt_power + cores[i]->rt_power*pppm_t; - rt_power = rt_power + cores[i]->rt_power*pppm_t; - } - } - - if (!XML->sys.Private_L2) - { - if (numL2 >0) - l2.rt_power.reset(); - for (i = 0;i < numL2; i++) - { - l2array[i]->rt_power.reset(); - l2array[i]->cachep.executionTime=XML->sys.total_cycles /(XML->sys.core[0].clock_rate*1e6); - l2array[i]->computeEnergy(false); - if (procdynp.homoL2){ - set_pppm(pppm_t,1/l2array[i]->cachep.executionTime, procdynp.numL2,procdynp.numL2,procdynp.numL2); - l2.rt_power = l2.rt_power + l2array[i]->rt_power*pppm_t; - rt_power = rt_power + l2.rt_power; - } - else{ - set_pppm(pppm_t,1/l2array[i]->cachep.executionTime, 1, 1, 1); - l2.rt_power = l2.rt_power + l2array[i]->rt_power*pppm_t; - rt_power = rt_power + l2array[i]->rt_power*pppm_t; - } - } - } - - l3.rt_power.reset(); - if (numL3 >0) - for (i = 0;i < numL3; i++) - { - l3array[i]->rt_power.reset(); - l3array[i]->computeEnergy(false); - if (procdynp.homoL3){ - set_pppm(pppm_t,1/l3array[i]->cachep.executionTime, procdynp.numL3,procdynp.numL3,procdynp.numL3); - l3.rt_power = l3.rt_power + l3array[i]->rt_power*pppm_t; - rt_power = rt_power + l3.rt_power; - - } - else{ - set_pppm(pppm_t,1/l3array[i]->cachep.executionTime, 1, 1, 1); - l3.rt_power = l3.rt_power + l3array[i]->rt_power*pppm_t; - rt_power = rt_power + l3array[i]->rt_power*pppm_t; - - } - } - - l1dir.rt_power.reset(); - if (numL1Dir >0) - for (i = 0;i < numL1Dir; i++) - { - l1dirarray[i]->rt_power.reset(); - l1dirarray[i]->computeEnergy(false); - if (procdynp.homoL1Dir){ - set_pppm(pppm_t,1/l1dirarray[i]->cachep.executionTime, procdynp.numL1Dir,procdynp.numL1Dir,procdynp.numL1Dir); - l1dir.rt_power = l1dir.rt_power + l1dirarray[i]->rt_power*pppm_t; - rt_power = rt_power + l1dir.rt_power; - - } - else{ - set_pppm(pppm_t,1/l1dirarray[i]->cachep.executionTime, 1, 1, 1); - l1dir.rt_power = l1dir.rt_power + l1dirarray[i]->rt_power*pppm_t; - rt_power = rt_power + l1dirarray[i]->rt_power; - } - } - - - l2dir.rt_power.reset(); - if (numL2Dir >0) - for (i = 0;i < numL2Dir; i++) - { - l2dirarray[i]->rt_power.reset(); - l2dirarray[i]->computeEnergy(false); - if (procdynp.homoL2Dir){ - set_pppm(pppm_t,1/l2dirarray[i]->cachep.executionTime, procdynp.numL2Dir,procdynp.numL2Dir,procdynp.numL2Dir); - l2dir.rt_power = l2dir.rt_power + l2dirarray[i]->rt_power*pppm_t; - rt_power = rt_power + l2dir.rt_power; - - } - else{ - set_pppm(pppm_t,1/l2dirarray[i]->cachep.executionTime, 1, 1, 1); - l2dir.rt_power = l2dir.rt_power + l2dirarray[i]->rt_power*pppm_t; - rt_power = rt_power + l2dirarray[i]->rt_power*pppm_t; - } - } - - - mcs.rt_power.reset(); - if (XML->sys.mc.number_mcs >0 && XML->sys.mc.memory_channels_per_mc>0) - { - mc->rt_power.reset(); - mc->mcp.executionTime = XML->sys.total_cycles /(XML->sys.core[0].clock_rate*1e6); //Jingwen - mc->computeEnergy(false); - set_pppm(pppm_t,1/mc->mcp.executionTime, XML->sys.mc.number_mcs,XML->sys.mc.number_mcs,XML->sys.mc.number_mcs); - mcs.rt_power = mc->rt_power*pppm_t; - rt_power = rt_power + mcs.rt_power; - - } - - -/* - if (XML->sys.flashc.number_mcs >0 )//flash controller - { - flashcontrollers.rt_power.reset(); - flashcontroller->computeEnergy(false); - double number_fcs = flashcontroller->fcp.num_mcs; - set_pppm(pppm_t,number_fcs , number_fcs ,number_fcs ,number_fcs ); - flashcontrollers.rt_power = flashcontroller->rt_power*pppm_t; - rt_power = rt_power + flashcontrollers.rt_power; - - } - - if (XML->sys.niu.number_units >0) - { - niu->computeEnergy(false); - nius.rt_power.reset(); - set_pppm(pppm_t,XML->sys.niu.number_units*niu->niup.clockRate, XML->sys.niu.number_units,XML->sys.niu.number_units,XML->sys.niu.number_units); - nius.rt_power = niu->rt_power*pppm_t; - rt_power = rt_power + nius.rt_power; - - } - - if (XML->sys.pcie.number_units >0 && XML->sys.pcie.num_channels >0) - { - pcie->computeEnergy(false); - pcies.rt_power.reset(); - set_pppm(pppm_t,XML->sys.pcie.number_units*pcie->pciep.clockRate, XML->sys.pcie.number_units,XML->sys.pcie.number_units,XML->sys.pcie.number_units); - pcies.rt_power = pcie->rt_power*pppm_t; - rt_power = rt_power + pcies.rt_power; - - } - - - // * Compute global links associated with each NOC, if any. This must be done at the end (even after the NOC router part) since the total chip - // * area must be obtain to decide the link routing - */ - //Compute energy of NoC (w or w/o links) or buses - noc.rt_power.reset(); - for (i = 0;i < numNOC; i++) - { - nocs[i]->nocdynp.executionTime=XML->sys.total_cycles /(XML->sys.core[0].clock_rate*1e6); - nocs[i]->computeEnergy(false); - if (procdynp.homoNOC){ - set_pppm(pppm_t,1/nocs[i]->nocdynp.executionTime, procdynp.numNOC,procdynp.numNOC,procdynp.numNOC); - noc.rt_power = noc.rt_power + nocs[i]->rt_power*pppm_t; - rt_power = rt_power + noc.rt_power; - } - else - { - set_pppm(pppm_t,1/nocs[i]->nocdynp.executionTime, 1, 1, 1); - noc.rt_power = noc.rt_power + nocs[i]->rt_power*pppm_t; - rt_power = rt_power + nocs[i]->rt_power*pppm_t; - } - } - - -// //clock power -// globalClock.init_wire_external(is_default, &interface_ip); -// globalClock.clk_area =area*1e6; //change it from mm^2 to um^2 -// globalClock.end_wiring_level =5;//toplevel metal -// globalClock.start_wiring_level =5;//toplevel metal -// globalClock.l_ip.with_clock_grid=false;//global clock does not drive local final nodes -// globalClock.optimize_wire(); - -} - -void Processor::displayDeviceType(int device_type_, uint32_t indent) -{ - string indent_str(indent, ' '); - - switch ( device_type_ ) { - - case 0 : - cout <sys.longer_channel_device; - string indent_str(indent, ' '); - string indent_str_next(indent+2, ' '); - bool is_tdp=is_tdp_parm; - if (is_tdp_parm) - { - - - if (plevel<5) - { - cout<<"\nMcPAT (version "<< VER_MAJOR <<"."<< VER_MINOR - << " of " << VER_UPDATE << ") results (current print level is "<< plevel - <<", please increase print level to see the details in components): "<sys.core_tech_node<<" nm"<sys.core[0].clock_rate<0){ - cout <sys.number_of_cores << " cores "<sys.device_type,indent); - cout << indent_str_next << "Area = " << core.area.get_area()*1e-6<< " mm^2" << endl; - cout << indent_str_next << "Peak Dynamic = " << core.power.readOp.dynamic << " W" << endl; - cout << indent_str_next << "Subthreshold Leakage = " - << (long_channel? core.power.readOp.longer_channel_leakage:core.power.readOp.leakage) <<" W" << endl; - //cout << indent_str_next << "Subthreshold Leakage = " << core.power.readOp.longer_channel_leakage <<" W" << endl; - cout << indent_str_next << "Gate Leakage = " << core.power.readOp.gate_leakage << " W" << endl; - cout << indent_str_next << "Runtime Dynamic = " << core.rt_power.readOp.dynamic << " W" << endl; - cout <sys.Private_L2) - { - if (numL2 >0){ - cout <sys.L2[0].device_type,indent); - cout << indent_str_next << "Area = " << l2.area.get_area()*1e-6<< " mm^2" << endl; - cout << indent_str_next << "Peak Dynamic = " << l2.power.readOp.dynamic << " W" << endl; - cout << indent_str_next << "Subthreshold Leakage = " - << (long_channel? l2.power.readOp.longer_channel_leakage:l2.power.readOp.leakage) <<" W" << endl; - //cout << indent_str_next << "Subthreshold Leakage = " << l2.power.readOp.longer_channel_leakage <<" W" << endl; - cout << indent_str_next << "Gate Leakage = " << l2.power.readOp.gate_leakage << " W" << endl; - cout << indent_str_next << "Runtime Dynamic = " << l2.rt_power.readOp.dynamic << " W" << endl; - cout <0){ - cout <sys.L3[0].device_type, indent); - cout << indent_str_next << "Area = " << l3.area.get_area()*1e-6<< " mm^2" << endl; - cout << indent_str_next << "Peak Dynamic = " << l3.power.readOp.dynamic << " W" << endl; - cout << indent_str_next << "Subthreshold Leakage = " - << (long_channel? l3.power.readOp.longer_channel_leakage:l3.power.readOp.leakage) <<" W" << endl; - //cout << indent_str_next << "Subthreshold Leakage = " << l3.power.readOp.longer_channel_leakage <<" W" << endl; - cout << indent_str_next << "Gate Leakage = " << l3.power.readOp.gate_leakage << " W" << endl; - cout << indent_str_next << "Runtime Dynamic = " << l3.rt_power.readOp.dynamic << " W" << endl; - cout <0){ - cout <sys.L1Directory[0].device_type, indent); - cout << indent_str_next << "Area = " << l1dir.area.get_area()*1e-6<< " mm^2" << endl; - cout << indent_str_next << "Peak Dynamic = " << l1dir.power.readOp.dynamic << " W" << endl; - cout << indent_str_next << "Subthreshold Leakage = " - << (long_channel? l1dir.power.readOp.longer_channel_leakage:l1dir.power.readOp.leakage) <<" W" << endl; - //cout << indent_str_next << "Subthreshold Leakage = " << l1dir.power.readOp.longer_channel_leakage <<" W" << endl; - cout << indent_str_next << "Gate Leakage = " << l1dir.power.readOp.gate_leakage << " W" << endl; - cout << indent_str_next << "Runtime Dynamic = " << l1dir.rt_power.readOp.dynamic << " W" << endl; - cout <0){ - cout <sys.L1Directory[0].device_type, indent); - cout << indent_str_next << "Area = " << l2dir.area.get_area()*1e-6<< " mm^2" << endl; - cout << indent_str_next << "Peak Dynamic = " << l2dir.power.readOp.dynamic << " W" << endl; - cout << indent_str_next << "Subthreshold Leakage = " - << (long_channel? l2dir.power.readOp.longer_channel_leakage:l2dir.power.readOp.leakage) <<" W" << endl; - //cout << indent_str_next << "Subthreshold Leakage = " << l2dir.power.readOp.longer_channel_leakage <<" W" << endl; - cout << indent_str_next << "Gate Leakage = " << l2dir.power.readOp.gate_leakage << " W" << endl; - cout << indent_str_next << "Runtime Dynamic = " << l2dir.rt_power.readOp.dynamic << " W" << endl; - cout <0){ - cout <sys.device_type, indent); - cout << indent_str_next << "Area = " << noc.area.get_area()*1e-6<< " mm^2" << endl; - cout << indent_str_next << "Peak Dynamic = " << noc.power.readOp.dynamic << " W" << endl; - cout << indent_str_next << "Subthreshold Leakage = " - << (long_channel? noc.power.readOp.longer_channel_leakage:noc.power.readOp.leakage) <<" W" << endl; - //cout << indent_str_next << "Subthreshold Leakage = " << noc.power.readOp.longer_channel_leakage <<" W" << endl; - cout << indent_str_next << "Gate Leakage = " << noc.power.readOp.gate_leakage << " W" << endl; - cout << indent_str_next << "Runtime Dynamic = " << noc.rt_power.readOp.dynamic << " W" << endl; - cout <sys.mc.number_mcs >0 && XML->sys.mc.memory_channels_per_mc>0) - { - cout <sys.mc.number_mcs << " Memory Controllers "<sys.device_type, indent); - cout << indent_str_next << "Area = " << mcs.area.get_area()*1e-6<< " mm^2" << endl; - cout << indent_str_next << "Peak Dynamic = " << mcs.power.readOp.dynamic << " W" << endl; - cout << indent_str_next << "Subthreshold Leakage = " - << (long_channel? mcs.power.readOp.longer_channel_leakage:mcs.power.readOp.leakage) <<" W" << endl; - cout << indent_str_next << "Gate Leakage = " << mcs.power.readOp.gate_leakage << " W" << endl; - cout << indent_str_next << "Runtime Dynamic = " << mcs.rt_power.readOp.dynamic << " W" << endl; - cout <sys.flashc.number_mcs >0) - { - cout <fcp.num_mcs << " Flash/SSD Controllers "<sys.device_type, indent); - cout << indent_str_next << "Area = " << flashcontrollers.area.get_area()*1e-6<< " mm^2" << endl; - cout << indent_str_next << "Peak Dynamic = " << flashcontrollers.power.readOp.dynamic << " W" << endl; - cout << indent_str_next << "Subthreshold Leakage = " - << (long_channel? flashcontrollers.power.readOp.longer_channel_leakage:flashcontrollers.power.readOp.leakage) <<" W" << endl; - cout << indent_str_next << "Gate Leakage = " << flashcontrollers.power.readOp.gate_leakage << " W" << endl; - cout << indent_str_next << "Runtime Dynamic = " << flashcontrollers.rt_power.readOp.dynamic << " W" << endl; - cout <sys.niu.number_units >0 ) - { - cout <niup.num_units << " Network Interface Units "<sys.device_type, indent); - cout << indent_str_next << "Area = " << nius.area.get_area()*1e-6<< " mm^2" << endl; - cout << indent_str_next << "Peak Dynamic = " << nius.power.readOp.dynamic << " W" << endl; - cout << indent_str_next << "Subthreshold Leakage = " - << (long_channel? nius.power.readOp.longer_channel_leakage:nius.power.readOp.leakage) <<" W" << endl; - cout << indent_str_next << "Gate Leakage = " << nius.power.readOp.gate_leakage << " W" << endl; - cout << indent_str_next << "Runtime Dynamic = " << nius.rt_power.readOp.dynamic << " W" << endl; - cout <sys.pcie.number_units >0 && XML->sys.pcie.num_channels>0) - { - cout <pciep.num_units << " PCIe Controllers "<sys.device_type, indent); - cout << indent_str_next << "Area = " << pcies.area.get_area()*1e-6<< " mm^2" << endl; - cout << indent_str_next << "Peak Dynamic = " << pcies.power.readOp.dynamic << " W" << endl; - cout << indent_str_next << "Subthreshold Leakage = " - << (long_channel? pcies.power.readOp.longer_channel_leakage:pcies.power.readOp.leakage) <<" W" << endl; - cout << indent_str_next << "Gate Leakage = " << pcies.power.readOp.gate_leakage << " W" << endl; - cout << indent_str_next << "Runtime Dynamic = " << pcies.rt_power.readOp.dynamic << " W" << endl; - cout <1) - { - for (i = 0;i < numCore; i++) - { - cores[i]->displayEnergy(indent+4,plevel,is_tdp); - cout <<"*****************************************************************************************"<sys.Private_L2) - { - for (i = 0;i < numL2; i++) - { - l2array[i]->displayEnergy(indent+4,is_tdp); - cout <<"*****************************************************************************************"<displayEnergy(indent+4,is_tdp); - cout <<"*****************************************************************************************"<displayEnergy(indent+4,is_tdp); - cout <<"*****************************************************************************************"<displayEnergy(indent+4,is_tdp); - cout <<"*****************************************************************************************"<sys.mc.number_mcs >0 && XML->sys.mc.memory_channels_per_mc>0) - { - mc->displayEnergy(indent+4,is_tdp); - cout <<"*****************************************************************************************"<sys.flashc.number_mcs >0 && XML->sys.flashc.memory_channels_per_mc>0) - { - flashcontroller->displayEnergy(indent+4,is_tdp); - cout <<"*****************************************************************************************"<sys.niu.number_units >0 ) - { - niu->displayEnergy(indent+4,is_tdp); - cout <<"*****************************************************************************************"<sys.pcie.number_units >0 && XML->sys.pcie.num_channels>0) - { - pcie->displayEnergy(indent+4,is_tdp); - cout <<"*****************************************************************************************"<displayEnergy(indent+4,plevel,is_tdp); - cout <<"*****************************************************************************************"<sys.homogeneous_cores); - procdynp.homoL2 = bool(debug?1:XML->sys.homogeneous_L2s); - procdynp.homoL3 = bool(debug?1:XML->sys.homogeneous_L3s); - procdynp.homoNOC = bool(debug?1:XML->sys.homogeneous_NoCs); - procdynp.homoL1Dir = bool(debug?1:XML->sys.homogeneous_L1Directories); - procdynp.homoL2Dir = bool(debug?1:XML->sys.homogeneous_L2Directories); - - procdynp.numCore = XML->sys.number_of_cores; - procdynp.numL2 = XML->sys.number_of_L2s; - procdynp.numL3 = XML->sys.number_of_L3s; - procdynp.numNOC = XML->sys.number_of_NoCs; - procdynp.numL1Dir = XML->sys.number_of_L1Directories; - procdynp.numL2Dir = XML->sys.number_of_L2Directories; - procdynp.numMC = XML->sys.mc.number_mcs; - procdynp.numMCChannel = XML->sys.mc.memory_channels_per_mc; - -// if (procdynp.numCore<1) -// { -// cout<<" The target processor should at least have one core on chip." <2) - // { - // cout <<"number of NOCs must be 1 (only global NOCs) or 2 (both global and local NOCs)"<sys.device_type; - interface_ip.data_arr_peri_global_tech_type = debug?0:XML->sys.device_type; - interface_ip.tag_arr_ram_cell_tech_type = debug?0:XML->sys.device_type; - interface_ip.tag_arr_peri_global_tech_type = debug?0:XML->sys.device_type; - - interface_ip.ic_proj_type = debug?0:XML->sys.interconnect_projection_type; - interface_ip.delay_wt = 100;//Fixed number, make sure timing can be satisfied. - interface_ip.area_wt = 0;//Fixed number, This is used to exhaustive search for individual components. - interface_ip.dynamic_power_wt = 100;//Fixed number, This is used to exhaustive search for individual components. - interface_ip.leakage_power_wt = 0; - interface_ip.cycle_time_wt = 0; - - interface_ip.delay_dev = 10000;//Fixed number, make sure timing can be satisfied. - interface_ip.area_dev = 10000;//Fixed number, This is used to exhaustive search for individual components. - interface_ip.dynamic_power_dev = 10000;//Fixed number, This is used to exhaustive search for individual components. - interface_ip.leakage_power_dev = 10000; - interface_ip.cycle_time_dev = 10000; - - interface_ip.ed = 2; - interface_ip.burst_len = 1;//parameters are fixed for processor section, since memory is processed separately - interface_ip.int_prefetch_w = 1; - interface_ip.page_sz_bits = 0; - interface_ip.temp = debug?360: XML->sys.temperature; - interface_ip.F_sz_nm = debug?90:XML->sys.core_tech_node;//XML->sys.core_tech_node; - interface_ip.F_sz_um = interface_ip.F_sz_nm / 1000; - - //***********This section of code does not have real meaning, they are just to ensure all data will have initial value to prevent errors. - //They will be overridden during each components initialization - interface_ip.cache_sz =64; - interface_ip.line_sz = 1; - interface_ip.assoc = 1; - interface_ip.nbanks = 1; - interface_ip.out_w = interface_ip.line_sz*8; - interface_ip.specific_tag = 1; - interface_ip.tag_w = 64; - interface_ip.access_mode = 2; - - interface_ip.obj_func_dyn_energy = 0; - interface_ip.obj_func_dyn_power = 0; - interface_ip.obj_func_leak_power = 0; - interface_ip.obj_func_cycle_t = 1; - - interface_ip.is_main_mem = false; - interface_ip.rpters_in_htree = true ; - interface_ip.ver_htree_wires_over_array = 0; - interface_ip.broadcast_addr_din_over_ver_htrees = 0; - - interface_ip.num_rw_ports = 1; - interface_ip.num_rd_ports = 0; - interface_ip.num_wr_ports = 0; - interface_ip.num_se_rd_ports = 0; - interface_ip.num_search_ports = 1; - interface_ip.nuca = 0; - interface_ip.nuca_bank_count = 0; - interface_ip.is_cache =true; - interface_ip.pure_ram =false; - interface_ip.pure_cam =false; - interface_ip.force_cache_config =false; - if (XML->sys.Embedded) - { - interface_ip.wt =Global_30; - interface_ip.wire_is_mat_type = 0; - interface_ip.wire_os_mat_type = 0; - } - else - { - interface_ip.wt =Global; - interface_ip.wire_is_mat_type = 2; - interface_ip.wire_os_mat_type = 2; - } - interface_ip.force_wiretype = false; - interface_ip.print_detail = 1; - interface_ip.add_ecc_b_ =true; -} - - - -Processor::~Processor(){ - while (!cores.empty()) - { - delete cores.back(); - cores.pop_back(); - } - while (!l2array.empty()) - { - delete l2array.back(); - l2array.pop_back(); - } - while (!l3array.empty()) - { - delete l3array.back(); - l3array.pop_back(); - } - while (!nocs.empty()) - { - delete nocs.back(); - nocs.pop_back(); - } - if (!mc) - { - delete mc; - } - if (!niu) - { - delete niu; - } - if (!pcie) - { - delete pcie; - } - if (!flashcontroller) - { - delete flashcontroller; - } -}; -- cgit v1.3