diff options
author | Anthony Gutierrez <atgutier@umich.edu> | 2014-04-01 12:44:30 -0400 |
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committer | Anthony Gutierrez <atgutier@umich.edu> | 2014-04-01 12:44:30 -0400 |
commit | e553a7bfa7f0eb47b78632cd63e6e1e814025c9a (patch) | |
tree | f69a8e3e0ed55b95bf276b6f857793b9ef7b6490 /ext/mcpat/noc.cc | |
parent | 8d665ee166bf5476bb9b73a0016843ff9953c266 (diff) | |
download | gem5-e553a7bfa7f0eb47b78632cd63e6e1e814025c9a.tar.xz |
ext: add McPAT source
this patch adds the source for mcpat, a power, area, and timing modeling
framework.
Diffstat (limited to 'ext/mcpat/noc.cc')
-rw-r--r-- | ext/mcpat/noc.cc | 355 |
1 files changed, 355 insertions, 0 deletions
diff --git a/ext/mcpat/noc.cc b/ext/mcpat/noc.cc new file mode 100644 index 000000000..d5dfbb137 --- /dev/null +++ b/ext/mcpat/noc.cc @@ -0,0 +1,355 @@ +/***************************************************************************** + * 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.” + * + ***************************************************************************/ + +#include <algorithm> +#include <cassert> +#include <cmath> +#include <iostream> +#include <string> + +#include "XML_Parse.h" +#include "basic_circuit.h" +#include "const.h" +#include "io.h" +#include "noc.h" +#include "parameter.h" + +NoC::NoC(ParseXML *XML_interface, int ithNoC_, InputParameter* interface_ip_, double M_traffic_pattern_, double link_len_) +:XML(XML_interface), +ithNoC(ithNoC_), +interface_ip(*interface_ip_), +router(0), +link_bus(0), +link_bus_exist(false), +router_exist(false), +M_traffic_pattern(M_traffic_pattern_) +{ + /* + * initialize, compute and optimize individual components. + */ + + if (XML->sys.Embedded) + { + interface_ip.wt =Global_30; + interface_ip.wire_is_mat_type = 0; + interface_ip.wire_os_mat_type = 1; + } + else + { + interface_ip.wt =Global; + interface_ip.wire_is_mat_type = 2; + interface_ip.wire_os_mat_type = 2; + } + set_noc_param(); + local_result=init_interface(&interface_ip); + scktRatio = g_tp.sckt_co_eff; + + if (nocdynp.type) + {/* + * if NOC compute router, router links must be computed separately + * and called from external + * since total chip area must be known first + */ + init_router(); + } + else + { + init_link_bus(link_len_); //if bus compute bus + } + + // //clock power + // clockNetwork.init_wire_external(is_default, &interface_ip); + // clockNetwork.clk_area =area*1.1;//10% of placement overhead. rule of thumb + // clockNetwork.end_wiring_level =5;//toplevel metal + // clockNetwork.start_wiring_level =5;//toplevel metal + // clockNetwork.num_regs = corepipe.tot_stage_vector; + // clockNetwork.optimize_wire(); +} + +void NoC::init_router() +{ + router = new Router(nocdynp.flit_size, + nocdynp.virtual_channel_per_port*nocdynp.input_buffer_entries_per_vc, + nocdynp.virtual_channel_per_port, &(g_tp.peri_global), + nocdynp.input_ports,nocdynp.output_ports, M_traffic_pattern); + //router->print_router(); + area.set_area(area.get_area()+ router->area.get_area()*nocdynp.total_nodes); + + double long_channel_device_reduction = longer_channel_device_reduction(Uncore_device); + router->power.readOp.longer_channel_leakage = router->power.readOp.leakage * long_channel_device_reduction; + router->buffer.power.readOp.longer_channel_leakage = router->buffer.power.readOp.leakage * long_channel_device_reduction; + router->crossbar.power.readOp.longer_channel_leakage = router->crossbar.power.readOp.leakage * long_channel_device_reduction; + router->arbiter.power.readOp.longer_channel_leakage = router->arbiter.power.readOp.leakage * long_channel_device_reduction; + router_exist = true; +} + +void NoC ::init_link_bus(double link_len_) +{ + + +// if (nocdynp.min_ports==1 ) + if (nocdynp.type) + link_name = "Links"; + else + link_name = "Bus"; + + link_len=link_len_; + assert(link_len>0); + + interface_ip.throughput = nocdynp.link_throughput/nocdynp.clockRate; + interface_ip.latency = nocdynp.link_latency/nocdynp.clockRate; + + link_len /= (nocdynp.horizontal_nodes + nocdynp.vertical_nodes)/2; + + if (nocdynp.total_nodes >1) link_len /=2; //All links are shared by neighbors + link_bus = new interconnect(name, Uncore_device, 1, 1, nocdynp.flit_size, + link_len, &interface_ip, 3, true/*pipelinable*/, nocdynp.route_over_perc); + + link_bus_tot_per_Router.area.set_area(link_bus_tot_per_Router.area.get_area()+ link_bus->area.get_area() + * nocdynp.global_linked_ports); + + area.set_area(area.get_area()+ link_bus_tot_per_Router.area.get_area()* nocdynp.total_nodes); + link_bus_exist = true; +} +void NoC::computeEnergy(bool is_tdp) +{ + //power_point_product_masks + double pppm_t[4] = {1,1,1,1}; + double M=nocdynp.duty_cycle; + if (is_tdp) + { + //init stats for TDP + stats_t.readAc.access = M; + tdp_stats = stats_t; + if (router_exist) + { + set_pppm(pppm_t, 1*M, 1, 1, 1);//reset traffic pattern + router->power = router->power*pppm_t; + set_pppm(pppm_t, nocdynp.total_nodes, nocdynp.total_nodes, nocdynp.total_nodes, nocdynp.total_nodes); + power = power + router->power*pppm_t; + } + if (link_bus_exist) + { + if (nocdynp.type) + set_pppm(pppm_t, 1*M_traffic_pattern*M*(nocdynp.min_ports -1), nocdynp.global_linked_ports, + nocdynp.global_linked_ports, nocdynp.global_linked_ports); + //reset traffic pattern; local port do not have router links + else + set_pppm(pppm_t, 1*M_traffic_pattern*M*(nocdynp.min_ports), nocdynp.global_linked_ports, + nocdynp.global_linked_ports, nocdynp.global_linked_ports);//reset traffic pattern + + link_bus_tot_per_Router.power = link_bus->power*pppm_t; + + set_pppm(pppm_t, nocdynp.total_nodes, + nocdynp.total_nodes, + nocdynp.total_nodes, + nocdynp.total_nodes); + power = power + link_bus_tot_per_Router.power*pppm_t; + + } + } + else + { + //init stats for runtime power (RTP) + stats_t.readAc.access = XML->sys.NoC[ithNoC].total_accesses; + rtp_stats = stats_t; + set_pppm(pppm_t, 1, 0 , 0, 0); + if (router_exist) + { + router->buffer.rt_power.readOp.dynamic = (router->buffer.power.readOp.dynamic + router->buffer.power.writeOp.dynamic)*rtp_stats.readAc.access ; + router->crossbar.rt_power.readOp.dynamic = router->crossbar.power.readOp.dynamic*rtp_stats.readAc.access ; + router->arbiter.rt_power.readOp.dynamic = router->arbiter.power.readOp.dynamic*rtp_stats.readAc.access ; + + router->rt_power = router->rt_power + (router->buffer.rt_power + router->crossbar.rt_power + router->arbiter.rt_power)*pppm_t + + router->power*pppm_lkg;//TDP power must be calculated first! + rt_power = rt_power + router->rt_power; + } + if (link_bus_exist) + { + set_pppm(pppm_t, rtp_stats.readAc.access, 1 , 1, rtp_stats.readAc.access); + link_bus->rt_power = link_bus->power * pppm_t; + rt_power = rt_power + link_bus->rt_power; + } + + } +} + + +void NoC::displayEnergy(uint32_t indent,int plevel,bool is_tdp) +{ + string indent_str(indent, ' '); + string indent_str_next(indent+2, ' '); + bool long_channel = XML->sys.longer_channel_device; + + double M =M_traffic_pattern*nocdynp.duty_cycle; + /*only router as a whole has been applied the M_traffic_pattern(0.6 by default) factor in router.cc; + * When power of crossbars, arbiters, etc need to be displayed, the M_traffic_pattern factor need to + * be applied together with McPAT's extra traffic pattern. + * */ + if (is_tdp) + { + cout << name << endl; + cout << indent_str << "Area = " << area.get_area()*1e-6<< " mm^2" << endl; + cout << indent_str<< "Peak Dynamic = " << power.readOp.dynamic*nocdynp.clockRate << " W" << endl; + cout << indent_str << "Subthreshold Leakage = " + << (long_channel? power.readOp.longer_channel_leakage:power.readOp.leakage) <<" W" << endl; + cout << indent_str << "Gate Leakage = " << power.readOp.gate_leakage << " W" << endl; + cout << indent_str<< "Runtime Dynamic = " << rt_power.readOp.dynamic/nocdynp.executionTime << " W" << endl; + cout<<endl; + + if (router_exist) + { + cout << indent_str << "Router: " << endl; + cout << indent_str_next << "Area = " << router->area.get_area()*1e-6<< " mm^2" << endl; + cout << indent_str_next<< "Peak Dynamic = " << router->power.readOp.dynamic*nocdynp.clockRate << " W" << endl; + cout << indent_str_next << "Subthreshold Leakage = " + << (long_channel? router->power.readOp.longer_channel_leakage:router->power.readOp.leakage) <<" W" << endl; + cout << indent_str_next << "Gate Leakage = " << router->power.readOp.gate_leakage << " W" << endl; + cout << indent_str_next<< "Runtime Dynamic = " << router->rt_power.readOp.dynamic/nocdynp.executionTime << " W" << endl; + cout<<endl; + if (plevel >2){ + cout << indent_str<< indent_str << "Virtual Channel Buffer:" << endl; + cout << indent_str<< indent_str_next << "Area = " << router->buffer.area.get_area()*1e-6*nocdynp.input_ports<< " mm^2" << endl; + cout << indent_str<< indent_str_next << "Peak Dynamic = " <<(router->buffer.power.readOp.dynamic + router->buffer.power.writeOp.dynamic) + *nocdynp.min_ports*M*nocdynp.clockRate << " W" << endl; + cout << indent_str<< indent_str_next << "Subthreshold Leakage = " + << (long_channel? router->buffer.power.readOp.longer_channel_leakage*nocdynp.input_ports:router->buffer.power.readOp.leakage*nocdynp.input_ports) <<" W" << endl; + cout << indent_str<< indent_str_next << "Gate Leakage = " << router->buffer.power.readOp.gate_leakage*nocdynp.input_ports << " W" << endl; + cout << indent_str<< indent_str_next << "Runtime Dynamic = " << router->buffer.rt_power.readOp.dynamic/nocdynp.executionTime << " W" << endl; + cout <<endl; + cout << indent_str<< indent_str<< "Crossbar:" << endl; + cout << indent_str<< indent_str_next << "Area = " << router->crossbar.area.get_area()*1e-6 << " mm^2" << endl; + cout << indent_str<< indent_str_next << "Peak Dynamic = " << router->crossbar.power.readOp.dynamic*nocdynp.clockRate*nocdynp.min_ports*M << " W" << endl; + cout << indent_str<< indent_str_next << "Subthreshold Leakage = " + << (long_channel? router->crossbar.power.readOp.longer_channel_leakage:router->crossbar.power.readOp.leakage) << " W" << endl; + cout << indent_str<< indent_str_next << "Gate Leakage = " << router->crossbar.power.readOp.gate_leakage << " W" << endl; + cout << indent_str<< indent_str_next << "Runtime Dynamic = " << router->crossbar.rt_power.readOp.dynamic/nocdynp.executionTime << " W" << endl; + cout <<endl; + cout << indent_str<< indent_str<< "Arbiter:" << endl; + cout << indent_str<< indent_str_next << "Peak Dynamic = " << router->arbiter.power.readOp.dynamic*nocdynp.clockRate*nocdynp.min_ports*M << " W" << endl; + cout << indent_str<< indent_str_next << "Subthreshold Leakage = " + << (long_channel? router->arbiter.power.readOp.longer_channel_leakage:router->arbiter.power.readOp.leakage) << " W" << endl; + cout << indent_str<< indent_str_next << "Gate Leakage = " << router->arbiter.power.readOp.gate_leakage << " W" << endl; + cout << indent_str<< indent_str_next << "Runtime Dynamic = " << router->arbiter.rt_power.readOp.dynamic/nocdynp.executionTime << " W" << endl; + cout <<endl; + } + } + if (link_bus_exist) + { + cout << indent_str << (nocdynp.type? "Per Router ":"") << link_name<<": " << endl; + cout << indent_str_next << "Area = " << link_bus_tot_per_Router.area.get_area()*1e-6<< " mm^2" << endl; + cout << indent_str_next<< "Peak Dynamic = " << link_bus_tot_per_Router.power.readOp.dynamic* + nocdynp.clockRate << " W" << endl; + cout << indent_str_next << "Subthreshold Leakage = " + << (long_channel? link_bus_tot_per_Router.power.readOp.longer_channel_leakage:link_bus_tot_per_Router.power.readOp.leakage) + <<" W" << endl; + cout << indent_str_next << "Gate Leakage = " << link_bus_tot_per_Router.power.readOp.gate_leakage + << " W" << endl; + cout << indent_str_next<< "Runtime Dynamic = " << link_bus->rt_power.readOp.dynamic/nocdynp.executionTime << " W" << endl; + cout<<endl; + + } + } + else + { +// cout << indent_str_next << "Instruction Fetch Unit Peak Dynamic = " << ifu->rt_power.readOp.dynamic*clockRate << " W" << endl; +// cout << indent_str_next << "Instruction Fetch Unit Subthreshold Leakage = " << ifu->rt_power.readOp.leakage <<" W" << endl; +// cout << indent_str_next << "Instruction Fetch Unit Gate Leakage = " << ifu->rt_power.readOp.gate_leakage << " W" << endl; +// cout << indent_str_next << "Load Store Unit Peak Dynamic = " << lsu->rt_power.readOp.dynamic*clockRate << " W" << endl; +// cout << indent_str_next << "Load Store Unit Subthreshold Leakage = " << lsu->rt_power.readOp.leakage << " W" << endl; +// cout << indent_str_next << "Load Store Unit Gate Leakage = " << lsu->rt_power.readOp.gate_leakage << " W" << endl; +// cout << indent_str_next << "Memory Management Unit Peak Dynamic = " << mmu->rt_power.readOp.dynamic*clockRate << " W" << endl; +// cout << indent_str_next << "Memory Management Unit Subthreshold Leakage = " << mmu->rt_power.readOp.leakage << " W" << endl; +// cout << indent_str_next << "Memory Management Unit Gate Leakage = " << mmu->rt_power.readOp.gate_leakage << " W" << endl; +// cout << indent_str_next << "Execution Unit Peak Dynamic = " << exu->rt_power.readOp.dynamic*clockRate << " W" << endl; +// cout << indent_str_next << "Execution Unit Subthreshold Leakage = " << exu->rt_power.readOp.leakage << " W" << endl; +// cout << indent_str_next << "Execution Unit Gate Leakage = " << exu->rt_power.readOp.gate_leakage << " W" << endl; + } +} + +void NoC::set_noc_param() +{ + + nocdynp.type = XML->sys.NoC[ithNoC].type; + nocdynp.clockRate =XML->sys.NoC[ithNoC].clockrate; + nocdynp.clockRate *= 1e6; + nocdynp.executionTime = XML->sys.total_cycles/(XML->sys.target_core_clockrate*1e6); + + nocdynp.flit_size = XML->sys.NoC[ithNoC].flit_bits; + if (nocdynp.type) + { + nocdynp.input_ports = XML->sys.NoC[ithNoC].input_ports; + nocdynp.output_ports = XML->sys.NoC[ithNoC].output_ports;//later minus 1 + nocdynp.min_ports = min(nocdynp.input_ports,nocdynp.output_ports); + nocdynp.global_linked_ports = (nocdynp.input_ports-1) + (nocdynp.output_ports-1); + /* + * Except local i/o ports, all ports needs links( global_linked_ports); + * However only min_ports can be fully active simultaneously + * since the fewer number of ports (input or output ) is the bottleneck. + */ + } + else + { + nocdynp.input_ports = 1; + nocdynp.output_ports = 1; + nocdynp.min_ports = min(nocdynp.input_ports,nocdynp.output_ports); + nocdynp.global_linked_ports = 1; + } + + nocdynp.virtual_channel_per_port = XML->sys.NoC[ithNoC].virtual_channel_per_port; + nocdynp.input_buffer_entries_per_vc = XML->sys.NoC[ithNoC].input_buffer_entries_per_vc; + + nocdynp.horizontal_nodes = XML->sys.NoC[ithNoC].horizontal_nodes; + nocdynp.vertical_nodes = XML->sys.NoC[ithNoC].vertical_nodes; + nocdynp.total_nodes = nocdynp.horizontal_nodes*nocdynp.vertical_nodes; + nocdynp.duty_cycle = XML->sys.NoC[ithNoC].duty_cycle; + nocdynp.has_global_link = XML->sys.NoC[ithNoC].has_global_link; + nocdynp.link_throughput = XML->sys.NoC[ithNoC].link_throughput; + nocdynp.link_latency = XML->sys.NoC[ithNoC].link_latency; + nocdynp.chip_coverage = XML->sys.NoC[ithNoC].chip_coverage; + nocdynp.route_over_perc = XML->sys.NoC[ithNoC].route_over_perc; + + assert (nocdynp.chip_coverage <=1); + assert (nocdynp.route_over_perc <=1); + + if (nocdynp.type) + name = "NOC"; + else + name = "BUSES"; + +} + + +NoC ::~NoC(){ + + if(router) {delete router; router = 0;} + if(link_bus) {delete link_bus; link_bus = 0;} +} |