ext/mcpat/noc.cc - public/gem5 - Git at Google

 /*****************************************************************************
  *                                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 <algorithm>
 #include <cassert>
 #include <cmath>
 #include <iostream>
 #include <string>

 #include "basic_circuit.h"
 #include "common.h"
 #include "const.h"
 #include "io.h"
 #include "noc.h"
 #include "parameter.h"

 OnChipNetwork::OnChipNetwork(XMLNode* _xml_data, int ithNoC_,
                              InputParameter* interface_ip_)
     : McPATComponent(_xml_data), router(NULL), link_bus(NULL), ithNoC(ithNoC_),
       interface_ip(*interface_ip_), link_bus_exist(false),
       router_exist(false) {
     name = "On-Chip Network";
     set_param_stats();
     local_result = init_interface(&interface_ip, name);
     scktRatio = g_tp.sckt_co_eff;

     // TODO: Routers and links should be children of the NOC component
     if (noc_params.type) {
         init_router();
     } else {
         init_link_bus();
     }
 }

 void OnChipNetwork::init_router() {
     router = new Router(noc_params.flit_size,
                         noc_params.virtual_channel_per_port *
                         noc_params.input_buffer_entries_per_vc,
                         noc_params.virtual_channel_per_port,
                         &(g_tp.peri_global),
                         noc_params.input_ports, noc_params.output_ports,
                         noc_params.M_traffic_pattern);
     // TODO: Make a router class within McPAT that descends from McPATComponent
     // children.push_back(router);
     area.set_area(area.get_area() + router->area.get_area() *
                   noc_params.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 OnChipNetwork::init_link_bus() {
     if (noc_params.type) {
         link_name = "Links";
     } else {
         link_name = "Bus";
     }

     interface_ip.throughput = noc_params.link_throughput /
         noc_params.clockRate;
     interface_ip.latency = noc_params.link_latency / noc_params.clockRate;

     link_len /= (noc_params.horizontal_nodes + noc_params.vertical_nodes) / 2;

     if (noc_params.total_nodes > 1) {
         //All links are shared by neighbors
         link_len /= 2;
     }
     link_bus = new Interconnect(xml_data, "Link", Uncore_device,
                                 noc_params.link_base_width,
                                 noc_params.link_base_height,
                                 noc_params.flit_size, link_len, &interface_ip,
                                 noc_params.link_start_wiring_level,
                                 noc_params.clockRate, true/*pipelinable*/,
                                 noc_params.route_over_perc);
     children.push_back(link_bus);

     link_bus_exist = true;
 }

 // TODO: This should use the McPATComponent::computeEnergy function to
 // recursively calculate energy of routers and links and then add
 void OnChipNetwork::computeEnergy() {
     double pppm_t[4]    = {1, 1, 1, 1};

     // Initialize stats for TDP
     tdp_stats.reset();
     tdp_stats.readAc.access = noc_stats.duty_cycle;
     if (router_exist) {
         // TODO: Define a regression to exercise routers
         // TODO: Clean this up: it is too invasive and breaks abstraction
         set_pppm(pppm_t, 1 * tdp_stats.readAc.access, 1, 1, 1);
         router->power = router->power * pppm_t;
         set_pppm(pppm_t, noc_params.total_nodes,
                 noc_params.total_nodes,
                 noc_params.total_nodes,
                 noc_params.total_nodes);
     }
     if (link_bus_exist) {
         if (noc_params.type) {
             link_bus->int_params.active_ports = noc_params.min_ports - 1;
         } else {
             link_bus->int_params.active_ports = noc_params.min_ports;
         }
         link_bus->int_stats.duty_cycle =
             noc_params.M_traffic_pattern * noc_stats.duty_cycle;

         // TODO: Decide how to roll multiple routers into a single top-level
         // NOC module. I would prefer not to, but it might be a nice feature
         set_pppm(pppm_t, noc_params.total_nodes,
                  noc_params.total_nodes,
                  noc_params.total_nodes,
                  noc_params.total_nodes);
     }

     // Initialize stats for runtime energy and power
     rtp_stats.reset();
     rtp_stats.readAc.access = noc_stats.total_access;
     set_pppm(pppm_t, 1, 0 , 0, 0);
     if (router_exist) {
         // TODO: Move this to a McPATComponent parent class of Router
         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!
     }
     if (link_bus_exist) {
         link_bus->int_stats.accesses = noc_stats.total_access;
     }

     // Recursively compute energy
     McPATComponent::computeEnergy();
 }

 void OnChipNetwork::set_param_stats() {
     // TODO: Remove this or move initialization elsewhere
     memset(&noc_params, 0, sizeof(OnChipNetworkParameters));

     int num_children = xml_data->nChildNode("param");
     int i;
     int mat_type;
     for (i = 0; i < num_children; i++) {
         XMLNode* paramNode = xml_data->getChildNodePtr("param", &i);
         XMLCSTR node_name = paramNode->getAttribute("name");
         XMLCSTR value = paramNode->getAttribute("value");

         if (!node_name)
             warnMissingParamName(paramNode->getAttribute("id"));

         ASSIGN_INT_IF("type", noc_params.type);
         ASSIGN_FP_IF("clockrate", noc_params.clockRate);
         ASSIGN_INT_IF("flit_bits", noc_params.flit_size);
         ASSIGN_FP_IF("link_len", link_len);
         ASSIGN_FP_IF("link_throughput", noc_params.link_throughput);
         ASSIGN_FP_IF("link_latency", noc_params.link_latency);
         ASSIGN_INT_IF("input_ports", noc_params.input_ports);
         ASSIGN_INT_IF("output_ports", noc_params.output_ports);
         ASSIGN_INT_IF("global_linked_ports", noc_params.global_linked_ports);
         ASSIGN_INT_IF("horizontal_nodes", noc_params.horizontal_nodes);
         ASSIGN_INT_IF("vertical_nodes", noc_params.vertical_nodes);
         ASSIGN_FP_IF("chip_coverage", noc_params.chip_coverage);
         ASSIGN_FP_IF("link_routing_over_percentage",
                      noc_params.route_over_perc);
         ASSIGN_INT_IF("has_global_link", noc_params.has_global_link);
         ASSIGN_INT_IF("virtual_channel_per_port",
                       noc_params.virtual_channel_per_port);
         ASSIGN_INT_IF("input_buffer_entries_per_vc",
                       noc_params.input_buffer_entries_per_vc);
         ASSIGN_FP_IF("M_traffic_pattern", noc_params.M_traffic_pattern);
         ASSIGN_FP_IF("link_base_width", noc_params.link_base_width);
         ASSIGN_FP_IF("link_base_height", noc_params.link_base_height);
         ASSIGN_INT_IF("link_start_wiring_level",
                       noc_params.link_start_wiring_level);
         ASSIGN_INT_IF("wire_mat_type", mat_type);
         ASSIGN_ENUM_IF("wire_type", interface_ip.wt, Wire_type);

         else {
             warnUnrecognizedParam(node_name);
         }
     }

     // Change from MHz to Hz
     noc_params.clockRate *= 1e6;

     interface_ip.wire_is_mat_type = mat_type;
     interface_ip.wire_os_mat_type = mat_type;

     num_children = xml_data->nChildNode("stat");
     for (i = 0; i < num_children; i++) {
         XMLNode* statNode = xml_data->getChildNodePtr("stat", &i);
         XMLCSTR node_name = statNode->getAttribute("name");
         XMLCSTR value = statNode->getAttribute("value");

         if (!node_name)
             warnMissingStatName(statNode->getAttribute("id"));

         ASSIGN_FP_IF("duty_cycle", noc_stats.duty_cycle);
         ASSIGN_FP_IF("total_accesses", noc_stats.total_access);

         else {
             warnUnrecognizedStat(node_name);
         }
     }

     clockRate = noc_params.clockRate;
     noc_params.min_ports =
         min(noc_params.input_ports, noc_params.output_ports);
     if (noc_params.type) {
         noc_params.global_linked_ports = (noc_params.input_ports - 1) +
             (noc_params.output_ports - 1);
     }
     noc_params.total_nodes =
         noc_params.horizontal_nodes * noc_params.vertical_nodes;

     assert(noc_params.chip_coverage <= 1);
     assert(noc_params.route_over_perc <= 1);
     assert(link_len > 0);
 }

 OnChipNetwork ::~OnChipNetwork() {

     if (router) {
         delete router;
         router = 0;
     }
     if (link_bus) {
         delete link_bus;
         link_bus = 0;
     }
 }
	/*****************************************************************************
	* 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 <algorithm>
	#include <cassert>
	#include <cmath>
	#include <iostream>
	#include <string>

	#include "basic_circuit.h"
	#include "common.h"
	#include "const.h"
	#include "io.h"
	#include "noc.h"
	#include "parameter.h"

	OnChipNetwork::OnChipNetwork(XMLNode* _xml_data, int ithNoC_,
	InputParameter* interface_ip_)
	: McPATComponent(_xml_data), router(NULL), link_bus(NULL), ithNoC(ithNoC_),
	interface_ip(*interface_ip_), link_bus_exist(false),
	router_exist(false) {
	name = "On-Chip Network";
	set_param_stats();
	local_result = init_interface(&interface_ip, name);
	scktRatio = g_tp.sckt_co_eff;

	// TODO: Routers and links should be children of the NOC component
	if (noc_params.type) {
	init_router();
	} else {
	init_link_bus();
	}
	}

	void OnChipNetwork::init_router() {
	router = new Router(noc_params.flit_size,
	noc_params.virtual_channel_per_port *
	noc_params.input_buffer_entries_per_vc,
	noc_params.virtual_channel_per_port,
	&(g_tp.peri_global),
	noc_params.input_ports, noc_params.output_ports,
	noc_params.M_traffic_pattern);
	// TODO: Make a router class within McPAT that descends from McPATComponent
	// children.push_back(router);
	area.set_area(area.get_area() + router->area.get_area() *
	noc_params.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 OnChipNetwork::init_link_bus() {
	if (noc_params.type) {
	link_name = "Links";
	} else {
	link_name = "Bus";
	}

	interface_ip.throughput = noc_params.link_throughput /
	noc_params.clockRate;
	interface_ip.latency = noc_params.link_latency / noc_params.clockRate;

	link_len /= (noc_params.horizontal_nodes + noc_params.vertical_nodes) / 2;

	if (noc_params.total_nodes > 1) {
	//All links are shared by neighbors
	link_len /= 2;
	}
	link_bus = new Interconnect(xml_data, "Link", Uncore_device,
	noc_params.link_base_width,
	noc_params.link_base_height,
	noc_params.flit_size, link_len, &interface_ip,
	noc_params.link_start_wiring_level,
	noc_params.clockRate, true/pipelinable/,
	noc_params.route_over_perc);
	children.push_back(link_bus);

	link_bus_exist = true;
	}

	// TODO: This should use the McPATComponent::computeEnergy function to
	// recursively calculate energy of routers and links and then add
	void OnChipNetwork::computeEnergy() {
	double pppm_t[4] = {1, 1, 1, 1};

	// Initialize stats for TDP
	tdp_stats.reset();
	tdp_stats.readAc.access = noc_stats.duty_cycle;
	if (router_exist) {
	// TODO: Define a regression to exercise routers
	// TODO: Clean this up: it is too invasive and breaks abstraction
	set_pppm(pppm_t, 1 * tdp_stats.readAc.access, 1, 1, 1);
	router->power = router->power * pppm_t;
	set_pppm(pppm_t, noc_params.total_nodes,
	noc_params.total_nodes,
	noc_params.total_nodes,
	noc_params.total_nodes);
	}
	if (link_bus_exist) {
	if (noc_params.type) {
	link_bus->int_params.active_ports = noc_params.min_ports - 1;
	} else {
	link_bus->int_params.active_ports = noc_params.min_ports;
	}
	link_bus->int_stats.duty_cycle =
	noc_params.M_traffic_pattern * noc_stats.duty_cycle;

	// TODO: Decide how to roll multiple routers into a single top-level
	// NOC module. I would prefer not to, but it might be a nice feature
	set_pppm(pppm_t, noc_params.total_nodes,
	noc_params.total_nodes,
	noc_params.total_nodes,
	noc_params.total_nodes);
	}

	// Initialize stats for runtime energy and power
	rtp_stats.reset();
	rtp_stats.readAc.access = noc_stats.total_access;
	set_pppm(pppm_t, 1, 0 , 0, 0);
	if (router_exist) {
	// TODO: Move this to a McPATComponent parent class of Router
	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!
	}
	if (link_bus_exist) {
	link_bus->int_stats.accesses = noc_stats.total_access;
	}

	// Recursively compute energy
	McPATComponent::computeEnergy();
	}

	void OnChipNetwork::set_param_stats() {
	// TODO: Remove this or move initialization elsewhere
	memset(&noc_params, 0, sizeof(OnChipNetworkParameters));

	int num_children = xml_data->nChildNode("param");
	int i;
	int mat_type;
	for (i = 0; i < num_children; i++) {
	XMLNode* paramNode = xml_data->getChildNodePtr("param", &i);
	XMLCSTR node_name = paramNode->getAttribute("name");
	XMLCSTR value = paramNode->getAttribute("value");

	if (!node_name)
	warnMissingParamName(paramNode->getAttribute("id"));

	ASSIGN_INT_IF("type", noc_params.type);
	ASSIGN_FP_IF("clockrate", noc_params.clockRate);
	ASSIGN_INT_IF("flit_bits", noc_params.flit_size);
	ASSIGN_FP_IF("link_len", link_len);
	ASSIGN_FP_IF("link_throughput", noc_params.link_throughput);
	ASSIGN_FP_IF("link_latency", noc_params.link_latency);
	ASSIGN_INT_IF("input_ports", noc_params.input_ports);
	ASSIGN_INT_IF("output_ports", noc_params.output_ports);
	ASSIGN_INT_IF("global_linked_ports", noc_params.global_linked_ports);
	ASSIGN_INT_IF("horizontal_nodes", noc_params.horizontal_nodes);
	ASSIGN_INT_IF("vertical_nodes", noc_params.vertical_nodes);
	ASSIGN_FP_IF("chip_coverage", noc_params.chip_coverage);
	ASSIGN_FP_IF("link_routing_over_percentage",
	noc_params.route_over_perc);
	ASSIGN_INT_IF("has_global_link", noc_params.has_global_link);
	ASSIGN_INT_IF("virtual_channel_per_port",
	noc_params.virtual_channel_per_port);
	ASSIGN_INT_IF("input_buffer_entries_per_vc",
	noc_params.input_buffer_entries_per_vc);
	ASSIGN_FP_IF("M_traffic_pattern", noc_params.M_traffic_pattern);
	ASSIGN_FP_IF("link_base_width", noc_params.link_base_width);
	ASSIGN_FP_IF("link_base_height", noc_params.link_base_height);
	ASSIGN_INT_IF("link_start_wiring_level",
	noc_params.link_start_wiring_level);
	ASSIGN_INT_IF("wire_mat_type", mat_type);
	ASSIGN_ENUM_IF("wire_type", interface_ip.wt, Wire_type);

	else {
	warnUnrecognizedParam(node_name);
	}
	}

	// Change from MHz to Hz
	noc_params.clockRate *= 1e6;

	interface_ip.wire_is_mat_type = mat_type;
	interface_ip.wire_os_mat_type = mat_type;

	num_children = xml_data->nChildNode("stat");
	for (i = 0; i < num_children; i++) {
	XMLNode* statNode = xml_data->getChildNodePtr("stat", &i);
	XMLCSTR node_name = statNode->getAttribute("name");
	XMLCSTR value = statNode->getAttribute("value");

	if (!node_name)
	warnMissingStatName(statNode->getAttribute("id"));

	ASSIGN_FP_IF("duty_cycle", noc_stats.duty_cycle);
	ASSIGN_FP_IF("total_accesses", noc_stats.total_access);

	else {
	warnUnrecognizedStat(node_name);
	}
	}

	clockRate = noc_params.clockRate;
	noc_params.min_ports =
	min(noc_params.input_ports, noc_params.output_ports);
	if (noc_params.type) {
	noc_params.global_linked_ports = (noc_params.input_ports - 1) +
	(noc_params.output_ports - 1);
	}
	noc_params.total_nodes =
	noc_params.horizontal_nodes * noc_params.vertical_nodes;

	assert(noc_params.chip_coverage <= 1);
	assert(noc_params.route_over_perc <= 1);
	assert(link_len > 0);
	}

	OnChipNetwork ::~OnChipNetwork() {

	if (router) {
	delete router;
	router = 0;
	}
	if (link_bus) {
	delete link_bus;
	link_bus = 0;
	}
	}