/* Copyright (c) 2012 Massachusetts Institute of Technology * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN * THE SOFTWARE. */ #include "model/network/PhotonicClos.h" #include #include "model/ModelGen.h" #include "model/timing_graph/ElectricalTimingTree.h" #include "model/timing_graph/ElectricalNet.h" namespace DSENT { using std::sqrt; PhotonicClos::PhotonicClos(const String& instance_name_, const TechModel* tech_model_) : ElectricalModel(instance_name_, tech_model_) { initParameters(); initProperties(); } PhotonicClos::~PhotonicClos() {} void PhotonicClos::initParameters() { // Clock Frequency addParameterName("Frequency"); // Physical Parameters addParameterName("NumberInputSites"); addParameterName("NumberOutputSites"); addParameterName("NumberBitsPerFlit"); // Number of each type of routers addParameterName("NumberIngressRouters"); addParameterName("NumberMiddleRouters"); addParameterName("NumberEgressRouters"); // Optical link parameters addParameterName("SWSR->LinkDataRate"); addParameterName("SWSR->LaserType"); addParameterName("SWSR->RingTuningMethod"); // Router parameters addParameterName("Router->NumberVirtualNetworks"); addParameterName("Router->NumberVirtualChannelsPerVirtualNetwork"); addParameterName("Router->NumberBuffersPerVirtualChannel"); addParameterName("Router->InputPort->BufferModel"); addParameterName("Router->CrossbarModel"); addParameterName("Router->SwitchAllocator->ArbiterModel"); addParameterName("Router->ClockTreeModel"); addParameterName("Router->ClockTree->NumberLevels"); addParameterName("Router->ClockTree->WireLayer"); addParameterName("Router->ClockTree->WireWidthMultiplier"); addParameterName("Router->ClockTree->WireSpacingMultiplier", 3.0); // Link parameters addParameterName("Link->WireLayer"); addParameterName("Link->WireWidthMultiplier"); addParameterName("Link->WireSpacingMultiplier"); return; } void PhotonicClos::initProperties() { addPropertyName("InputSitePitch"); addPropertyName("OutputSitePitch"); addPropertyName("SWSR->OptUtil", 1.0); return; } PhotonicClos* PhotonicClos::clone() const { // TODO return NULL; } void PhotonicClos::constructModel() { // Get input parameters double clock_freq = getParameter("Frequency"); unsigned int number_input_sites = getParameter("NumberInputSites").toUInt(); unsigned int number_output_sites = getParameter("NumberOutputSites").toUInt(); unsigned int number_bits_per_flit = getParameter("NumberBitsPerFlit").toUInt(); unsigned int number_ingress_routers = getParameter("NumberIngressRouters").toUInt(); unsigned int number_middle_routers = getParameter("NumberMiddleRouters").toUInt(); unsigned int number_egress_routers = getParameter("NumberEgressRouters").toUInt(); ASSERT(clock_freq > 0, "[Error] " + getInstanceName() + " -> Clock frequency must be > 0!"); ASSERT(number_input_sites > 0, "[Error] " + getInstanceName() + " -> Number of input sites must be > 0!"); ASSERT(number_output_sites > 0, "[Error] " + getInstanceName() + " -> Number of output sites must be > 0!"); ASSERT(number_bits_per_flit > 0, "[Error] " + getInstanceName() + " -> Number of bits per flit must be > 0!"); ASSERT(number_ingress_routers > 0, "[Error] " + getInstanceName() + " -> Number of ingress routers must be > 0!"); ASSERT(number_middle_routers > 0, "[Error] " + getInstanceName() + " -> Number of middle routers must be > 0!"); ASSERT(number_egress_routers > 0, "[Error] " + getInstanceName() + " -> Number of egress routers must be > 0!"); // Get input parameters that will be forwarded to the sub instances const String& swsr_link_data_rate = getParameter("SWSR->LinkDataRate"); const String& swsr_laser_type = getParameter("SWSR->LaserType"); const String& swsr_ring_tuning_method = getParameter("SWSR->RingTuningMethod"); const String& router_number_vns = getParameter("Router->NumberVirtualNetworks"); const String& router_number_vcs_per_vn = getParameter("Router->NumberVirtualChannelsPerVirtualNetwork"); const String& router_number_bufs_per_vc = getParameter("Router->NumberBuffersPerVirtualChannel"); const String& router_buffer_model = getParameter("Router->InputPort->BufferModel"); const String& router_crossbar_model = getParameter("Router->CrossbarModel"); const String& link_wire_layer = getParameter("Link->WireLayer"); const String& link_wire_width_multiplier = getParameter("Link->WireWidthMultiplier"); const String& link_wire_spacing_multiplier = getParameter("Link->WireSpacingMultiplier"); // Calculate properties from input parameters unsigned int ingress_router_number_input_ports = number_input_sites / number_ingress_routers; unsigned int ingress_router_number_output_ports = number_middle_routers; unsigned int middle_router_number_input_ports = number_ingress_routers; unsigned int middle_router_number_output_ports = number_egress_routers; unsigned int egress_router_number_input_ports = number_middle_routers; unsigned int egress_router_number_output_ports = number_output_sites / number_egress_routers; unsigned int number_input_to_ingress_links = number_input_sites; unsigned int number_ingress_to_middle_links = number_ingress_routers * number_middle_routers; unsigned int number_middle_to_egress_links = number_middle_routers * number_egress_routers; unsigned int number_egress_to_output_links = number_output_sites; getGenProperties()->set("NumberInputSitesPerIngressRouter", ingress_router_number_input_ports); getGenProperties()->set("NumberOutputSitesPerEgressRouter", egress_router_number_output_ports); getGenProperties()->set("IngressRouter->NumberInputPorts", ingress_router_number_input_ports); getGenProperties()->set("IngressRouter->NumberOutputPorts", ingress_router_number_output_ports); getGenProperties()->set("MiddleRouter->NumberInputPorts", middle_router_number_input_ports); getGenProperties()->set("MiddleRouter->NumberOutputPorts", middle_router_number_output_ports); getGenProperties()->set("EgressRouter->NumberInputPorts", egress_router_number_input_ports); getGenProperties()->set("EgressRouter->NumberOutputPorts", egress_router_number_output_ports); // Create ports createInputPort("CK"); // Init ingress router ElectricalModel* ingress_router = (ElectricalModel*)ModelGen::createModel("Router", "IngressRouter", getTechModel()); ingress_router->setParameter("NumberInputPorts", ingress_router_number_input_ports); ingress_router->setParameter("NumberOutputPorts", ingress_router_number_output_ports); ingress_router->setParameter("NumberVirtualNetworks", router_number_vns); ingress_router->setParameter("NumberVirtualChannelsPerVirtualNetwork", router_number_vcs_per_vn); ingress_router->setParameter("NumberBuffersPerVirtualChannel", router_number_bufs_per_vc); ingress_router->setParameter("NumberBitsPerFlit", number_bits_per_flit); ingress_router->setParameter("InputPort->BufferModel", router_buffer_model); ingress_router->setParameter("CrossbarModel", router_crossbar_model); ingress_router->setParameter("SwitchAllocator->ArbiterModel", getParameter("Router->SwitchAllocator->ArbiterModel")); ingress_router->setParameter("ClockTreeModel", getParameter("Router->ClockTreeModel")); ingress_router->setParameter("ClockTree->NumberLevels", getParameter("Router->ClockTree->NumberLevels")); ingress_router->setParameter("ClockTree->WireLayer", getParameter("Router->ClockTree->WireLayer")); ingress_router->setParameter("ClockTree->WireWidthMultiplier", getParameter("Router->ClockTree->WireWidthMultiplier")); ingress_router->setParameter("ClockTree->WireSpacingMultiplier", getParameter("Router->ClockTree->WireSpacingMultiplier")); ingress_router->construct(); // Init middle routers ElectricalModel* middle_router = (ElectricalModel*)ModelGen::createModel("Router", "MiddleRouter", getTechModel()); middle_router->setParameter("NumberInputPorts", middle_router_number_input_ports); middle_router->setParameter("NumberOutputPorts", middle_router_number_output_ports); middle_router->setParameter("NumberVirtualNetworks", router_number_vns); middle_router->setParameter("NumberVirtualChannelsPerVirtualNetwork", router_number_vcs_per_vn); middle_router->setParameter("NumberBuffersPerVirtualChannel", router_number_bufs_per_vc); middle_router->setParameter("NumberBitsPerFlit", number_bits_per_flit); middle_router->setParameter("InputPort->BufferModel", router_buffer_model); middle_router->setParameter("CrossbarModel", router_crossbar_model); middle_router->setParameter("SwitchAllocator->ArbiterModel", getParameter("Router->SwitchAllocator->ArbiterModel")); middle_router->setParameter("ClockTreeModel", getParameter("Router->ClockTreeModel")); middle_router->setParameter("ClockTree->NumberLevels", getParameter("Router->ClockTree->NumberLevels")); middle_router->setParameter("ClockTree->WireLayer", getParameter("Router->ClockTree->WireLayer")); middle_router->setParameter("ClockTree->WireWidthMultiplier", getParameter("Router->ClockTree->WireWidthMultiplier")); middle_router->setParameter("ClockTree->WireSpacingMultiplier", getParameter("Router->ClockTree->WireSpacingMultiplier")); middle_router->construct(); // Init egress routers ElectricalModel* egress_router = (ElectricalModel*)ModelGen::createModel("Router", "EgressRouter", getTechModel()); egress_router->setParameter("NumberInputPorts", egress_router_number_input_ports); egress_router->setParameter("NumberOutputPorts", egress_router_number_output_ports); egress_router->setParameter("NumberVirtualNetworks", router_number_vns); egress_router->setParameter("NumberVirtualChannelsPerVirtualNetwork", router_number_vcs_per_vn); egress_router->setParameter("NumberBuffersPerVirtualChannel", router_number_bufs_per_vc); egress_router->setParameter("NumberBitsPerFlit", number_bits_per_flit); egress_router->setParameter("InputPort->BufferModel", router_buffer_model); egress_router->setParameter("CrossbarModel", router_crossbar_model); egress_router->setParameter("SwitchAllocator->ArbiterModel", getParameter("Router->SwitchAllocator->ArbiterModel")); egress_router->setParameter("ClockTreeModel", getParameter("Router->ClockTreeModel")); egress_router->setParameter("ClockTree->NumberLevels", getParameter("Router->ClockTree->NumberLevels")); egress_router->setParameter("ClockTree->WireLayer", getParameter("Router->ClockTree->WireLayer")); egress_router->setParameter("ClockTree->WireWidthMultiplier", getParameter("Router->ClockTree->WireWidthMultiplier")); egress_router->setParameter("ClockTree->WireSpacingMultiplier", getParameter("Router->ClockTree->WireSpacingMultiplier")); egress_router->construct(); // Init input to ingress link ElectricalModel* input_to_ingress_link = (ElectricalModel*)ModelGen::createModel("RepeatedLink", "InputToIngressLink", getTechModel()); input_to_ingress_link->setParameter("NumberBits", number_bits_per_flit); input_to_ingress_link->setParameter("WireLayer", link_wire_layer); input_to_ingress_link->setParameter("WireWidthMultiplier", link_wire_width_multiplier); input_to_ingress_link->setParameter("WireSpacingMultiplier", link_wire_spacing_multiplier); input_to_ingress_link->construct(); // Init ingress to middle link ElectricalModel* ingress_to_middle_link = (ElectricalModel*)ModelGen::createModel("SWSRLink", "IngressToMiddleLink", getTechModel()); ingress_to_middle_link->setParameter("NumberBits", number_bits_per_flit); ingress_to_middle_link->setParameter("CoreDataRate", clock_freq); ingress_to_middle_link->setParameter("LinkDataRate", swsr_link_data_rate); ingress_to_middle_link->setParameter("LaserType", swsr_laser_type); ingress_to_middle_link->setParameter("RingTuningMethod", swsr_ring_tuning_method); ingress_to_middle_link->construct(); // Init middle to egress link ElectricalModel* middle_to_egress_link = (ElectricalModel*)ModelGen::createModel("SWSRLink", "MiddleToEgressLink", getTechModel()); middle_to_egress_link->setParameter("NumberBits", number_bits_per_flit); middle_to_egress_link->setParameter("CoreDataRate", clock_freq); middle_to_egress_link->setParameter("LinkDataRate", swsr_link_data_rate); middle_to_egress_link->setParameter("LaserType", swsr_laser_type); middle_to_egress_link->setParameter("RingTuningMethod", swsr_ring_tuning_method); middle_to_egress_link->construct(); // Init egress to output link ElectricalModel* egress_to_output_link = (ElectricalModel*)ModelGen::createModel("RepeatedLink", "EgressToOutputLink", getTechModel()); egress_to_output_link->setParameter("NumberBits", number_bits_per_flit); egress_to_output_link->setParameter("WireLayer", link_wire_layer); egress_to_output_link->setParameter("WireWidthMultiplier", link_wire_width_multiplier); egress_to_output_link->setParameter("WireSpacingMultiplier", link_wire_spacing_multiplier); egress_to_output_link->construct(); // Connect ports createNet("InputToIngressLink_Out", makeNetIndex(0, number_bits_per_flit - 1)); createNet("InputToIngressLink_In", makeNetIndex(0, number_bits_per_flit - 1)); portConnect(input_to_ingress_link, "In", "InputToIngressLink_In"); portConnect(input_to_ingress_link, "Out", "InputToIngressLink_Out"); createNet("IngressToMiddleLink_In", makeNetIndex(0, number_bits_per_flit - 1)); createNet("IngressToMiddleLink_Out", makeNetIndex(0, number_bits_per_flit - 1)); portConnect(ingress_to_middle_link, "In", "IngressToMiddleLink_In"); portConnect(ingress_to_middle_link, "Out", "IngressToMiddleLink_Out"); createNet("MiddleToEgressLink_In", makeNetIndex(0, number_bits_per_flit - 1)); createNet("MiddleToEgressLink_Out", makeNetIndex(0, number_bits_per_flit - 1)); portConnect(middle_to_egress_link, "In", "MiddleToEgressLink_In"); portConnect(middle_to_egress_link, "Out", "MiddleToEgressLink_Out"); createNet("EgressToOutputLink_In", makeNetIndex(0, number_bits_per_flit - 1)); createNet("EgressToOutputLink_Out", makeNetIndex(0, number_bits_per_flit - 1)); portConnect(egress_to_output_link, "In", "EgressToOutputLink_In"); portConnect(egress_to_output_link, "Out", "EgressToOutputLink_Out"); portConnect(ingress_router, "CK", "CK"); for(unsigned int i = 0; i < ingress_router_number_input_ports; ++i) { createNet("IngressRouter_In" + (String)i, makeNetIndex(0, number_bits_per_flit-1)); for (unsigned int j = 0; j < number_bits_per_flit; ++j) assignVirtualFanout("IngressRouter_In" + (String)i, makeNetIndex(j), "InputToIngressLink_Out", makeNetIndex(j)); portConnect(ingress_router, "FlitIn" + (String)i, "IngressRouter_In" + (String)i); } for(unsigned int i = 0; i < ingress_router_number_output_ports; ++i) { // VFI portConnect(ingress_router, "FlitOut" + (String)i, "IngressToMiddleLink_In"); } portConnect(middle_router, "CK", "CK"); for(unsigned int i = 0; i < middle_router_number_input_ports; ++i) { createNet("MiddleRouter_In" + (String)i, makeNetIndex(0, number_bits_per_flit-1)); for (unsigned int j = 0; j < number_bits_per_flit; ++j) assignVirtualFanout("MiddleRouter_In" + (String)i, makeNetIndex(j), "IngressToMiddleLink_Out", makeNetIndex(j)); portConnect(middle_router, "FlitIn" + (String)i, "MiddleRouter_In" + (String)i); } for(unsigned int i = 0; i < middle_router_number_output_ports; ++i) { // VFI portConnect(middle_router, "FlitOut" + (String)i, "MiddleToEgressLink_In"); } portConnect(egress_router, "CK", "CK"); for(unsigned int i = 0; i < egress_router_number_input_ports; ++i) { createNet("EgressRouter_In" + (String)i, makeNetIndex(0, number_bits_per_flit-1)); for (unsigned int j = 0; j < number_bits_per_flit; ++j) assignVirtualFanout("EgressRouter_In" + (String)i, makeNetIndex(j), "MiddleToEgressLink_Out", makeNetIndex(j)); portConnect(egress_router, "FlitIn" + (String)i, "EgressRouter_In" + (String)i); } for(unsigned int i = 0; i < egress_router_number_output_ports; ++i) { // VFI portConnect(egress_router, "FlitOut" + (String)i, "EgressToOutputLink_In"); } // Create area, power, and event results createElectricalResults(); createElectricalEventResult("AvgUnicast"); createElectricalEventResult("AvgBroadcast"); addNddPowerResult(new Result("Laser")); addNddPowerResult(new Result("RingTuning")); addAreaResult(new Result("Photonic")); // Add all instances addSubInstances(ingress_router, number_ingress_routers); addElectricalSubResults(ingress_router, number_ingress_routers); addSubInstances(middle_router, number_middle_routers); addElectricalSubResults(middle_router, number_middle_routers); addSubInstances(egress_router, number_egress_routers); addElectricalSubResults(egress_router, number_egress_routers); addSubInstances(input_to_ingress_link, number_input_to_ingress_links); addElectricalSubResults(input_to_ingress_link, number_input_to_ingress_links); addSubInstances(ingress_to_middle_link, number_ingress_to_middle_links); addElectricalSubResults(ingress_to_middle_link, number_ingress_to_middle_links); getAreaResult("Photonic")->addSubResult(ingress_to_middle_link->getAreaResult("Photonic"), "IngressToMiddleLink", number_ingress_to_middle_links); getNddPowerResult("Laser")->addSubResult(ingress_to_middle_link->getNddPowerResult("Laser"), "IngressToMiddleLink", number_ingress_to_middle_links); getNddPowerResult("RingTuning")->addSubResult(ingress_to_middle_link->getNddPowerResult("RingTuning"), "IngressToMiddleLink", number_ingress_to_middle_links); addSubInstances(middle_to_egress_link, number_middle_to_egress_links); addElectricalSubResults(middle_to_egress_link, number_middle_to_egress_links); getAreaResult("Photonic")->addSubResult(middle_to_egress_link->getAreaResult("Photonic"), "MiddletoEgressLink", number_middle_to_egress_links); getNddPowerResult("Laser")->addSubResult(middle_to_egress_link->getNddPowerResult("Laser"), "MiddleToEgressLink", number_middle_to_egress_links); getNddPowerResult("RingTuning")->addSubResult(middle_to_egress_link->getNddPowerResult("RingTuning"), "MiddleToEgressLink", number_middle_to_egress_links); addSubInstances(egress_to_output_link, number_egress_to_output_links); addElectricalSubResults(egress_to_output_link, number_egress_to_output_links); // Update unicast event Result* avg_unicast_event = getEventResult("AvgUnicast"); avg_unicast_event->addSubResult(input_to_ingress_link->getEventResult("Send"), "InputToIngressLink", 1.0); if(ingress_router->hasEventResult("WriteBuffer")) { avg_unicast_event->addSubResult(ingress_router->getEventResult("WriteBuffer"), "IngressRouter", 1.0); } if(ingress_router->hasEventResult("ReadBuffer")) { avg_unicast_event->addSubResult(ingress_router->getEventResult("ReadBuffer"), "IngressRouter", 1.0); } avg_unicast_event->addSubResult(ingress_router->getEventResult("TraverseCrossbar->Multicast1"), "IngressRouter", 1.0); avg_unicast_event->addSubResult(ingress_to_middle_link->getEventResult("Send"), "IngressToMiddleLink", 1.0); if(middle_router->hasEventResult("WriteBuffer")) { avg_unicast_event->addSubResult(middle_router->getEventResult("WriteBuffer"), "MiddleRouter", 1.0); } if(middle_router->hasEventResult("ReadBuffer")) { avg_unicast_event->addSubResult(middle_router->getEventResult("ReadBuffer"), "MiddleRouter", 1.0); } avg_unicast_event->addSubResult(middle_router->getEventResult("TraverseCrossbar->Multicast1"), "MiddleRouter", 1.0); avg_unicast_event->addSubResult(middle_to_egress_link->getEventResult("Send"), "MiddleToEgressLink", 1.0); if(egress_router->hasEventResult("WriteBuffer")) { avg_unicast_event->addSubResult(egress_router->getEventResult("WriteBuffer"), "EgressRouter", 1.0); } if(egress_router->hasEventResult("ReadBuffer")) { avg_unicast_event->addSubResult(egress_router->getEventResult("ReadBuffer"), "EgressRouter", 1.0); } avg_unicast_event->addSubResult(egress_router->getEventResult("TraverseCrossbar->Multicast1"), "EgressRouter", 1.0); avg_unicast_event->addSubResult(egress_to_output_link->getEventResult("Send"), "EgressToOutputLink", 1.0); // Update broadcast event Result* avg_broadcast_event = getEventResult("AvgBroadcast"); avg_broadcast_event->addSubResult(input_to_ingress_link->getEventResult("Send"), "InputToIngressLink", 1.0); if(ingress_router->hasEventResult("WriteBuffer")) { avg_broadcast_event->addSubResult(ingress_router->getEventResult("WriteBuffer"), "IngressRouter", 1.0); } if(ingress_router->hasEventResult("ReadBuffer")) { avg_broadcast_event->addSubResult(ingress_router->getEventResult("ReadBuffer"), "IngressRouter", 1.0); } avg_broadcast_event->addSubResult(ingress_router->getEventResult("TraverseCrossbar->Multicast1"), "IngressRouter", 1.0); avg_broadcast_event->addSubResult(ingress_to_middle_link->getEventResult("Send"), "IngressToMiddleLink", 1.0); if(middle_router->hasEventResult("WriteBuffer")) { avg_broadcast_event->addSubResult(middle_router->getEventResult("WriteBuffer"), "MiddleRouter", 1.0); } if(middle_router->hasEventResult("ReadBuffer")) { avg_broadcast_event->addSubResult(middle_router->getEventResult("ReadBuffer"), "MiddleRouter", 1.0); } avg_broadcast_event->addSubResult(middle_router->getEventResult("TraverseCrossbar->Multicast1"), "MiddleRouter", 1.0); avg_broadcast_event->addSubResult(middle_to_egress_link->getEventResult("Send"), "MiddleToEgressLink", number_egress_routers); if(egress_router->hasEventResult("WriteBuffer")) { avg_broadcast_event->addSubResult(egress_router->getEventResult("WriteBuffer"), "EgressRouter", number_egress_routers); } if(egress_router->hasEventResult("ReadBuffer")) { avg_broadcast_event->addSubResult(egress_router->getEventResult("ReadBuffer"), "EgressRouter", number_egress_routers); } avg_broadcast_event->addSubResult(egress_router->getEventResult("TraverseCrossbar->Multicast" + (String)number_egress_routers), "EgressRouter", 1.0); avg_broadcast_event->addSubResult(egress_to_output_link->getEventResult("Send"), "EgressToOutputLink", number_output_sites); return; } void PhotonicClos::updateModel() { // Assumes waveguide runs adjacent to ingress and egress routers // Assumes input sites belonging to each ingress router are centered around the ingress router // Assumes middle routers are distributed around the chip adjacent to the main waveguide // Assumes output sites belonging to each egress router are centered around the egress router // Get properties double input_site_pitch = getProperty("InputSitePitch").toDouble(); double output_site_pitch = getProperty("OutputSitePitch").toDouble(); double clock_freq = getParameter("Frequency"); const double swsr_opt_util = getProperty("SWSR->OptUtil"); ASSERT(input_site_pitch > 0, "[Error] " + getInstanceName() + " -> Input site pitch must be > 0!"); ASSERT(output_site_pitch > 0, "[Error] " + getInstanceName() + " -> Output site pitch must be > 0!"); unsigned int number_input_sites_per_ingress_router = getGenProperties()->get("NumberInputSitesPerIngressRouter"); unsigned int number_ingress_routers = getParameter("NumberIngressRouters"); unsigned int number_output_sites_per_egress_router = getGenProperties()->get("NumberOutputSitesPerEgressRouter"); unsigned int number_egress_routers = getParameter("NumberEgressRouters"); double delay = 1.0 / clock_freq; //Calculate the length of the waveguide double input_to_ingress_link_length = input_site_pitch * (sqrt(number_input_sites_per_ingress_router) - 1.0); double input_to_ingress_link_delay = delay * 0.8; double ingress_to_middle_link_length = input_site_pitch * (sqrt(number_input_sites_per_ingress_router) * number_ingress_routers); double middle_to_egress_link_length = output_site_pitch * (sqrt(number_output_sites_per_egress_router) * number_egress_routers); double egress_to_output_link_length = output_site_pitch * (sqrt(number_output_sites_per_egress_router) - 1.0); double egress_to_output_link_delay = delay * 0.8; double ingress_router_delay = delay; double middle_router_delay = delay; double egress_router_delay = delay; Model* input_to_ingress_link = getSubInstance("InputToIngressLink"); input_to_ingress_link->setProperty("WireLength", input_to_ingress_link_length); input_to_ingress_link->setProperty("Delay", input_to_ingress_link_delay); input_to_ingress_link->setProperty("IsKeepParity", "TRUE"); input_to_ingress_link->update(); Model* ingress_to_middle_link = getSubInstance("IngressToMiddleLink"); ingress_to_middle_link->setProperty("Length", ingress_to_middle_link_length); ingress_to_middle_link->setProperty("OptUtil", swsr_opt_util); ingress_to_middle_link->update(); Model* middle_to_egress_link = getSubInstance("MiddleToEgressLink"); middle_to_egress_link->setProperty("Length", middle_to_egress_link_length); middle_to_egress_link->setProperty("OptUtil", swsr_opt_util); middle_to_egress_link->update(); Model* egress_to_output_link = getSubInstance("EgressToOutputLink"); egress_to_output_link->setProperty("WireLength", egress_to_output_link_length); egress_to_output_link->setProperty("Delay", egress_to_output_link_delay); egress_to_output_link->setProperty("IsKeepParity", "TRUE"); egress_to_output_link->update(); ElectricalModel* ingress_router = (ElectricalModel*)getSubInstance("IngressRouter"); ingress_router->update(); ElectricalTimingTree ingress_router_timing_tree("IngressRouter", ingress_router); ingress_router_timing_tree.performTimingOpt(ingress_router->getNet("CK"), ingress_router_delay); ElectricalModel* middle_router = (ElectricalModel*)getSubInstance("MiddleRouter"); middle_router->update(); ElectricalTimingTree middle_router_timing_tree("MiddleRouter", middle_router); middle_router_timing_tree.performTimingOpt(middle_router->getNet("CK"), middle_router_delay); ElectricalModel* egress_router = (ElectricalModel*)getSubInstance("EgressRouter"); egress_router->update(); ElectricalTimingTree egress_router_timing_tree("EgressRouter", egress_router); egress_router_timing_tree.performTimingOpt(egress_router->getNet("CK"), egress_router_delay); return; } void PhotonicClos::propagateTransitionInfo() { // Get parameters double clock_freq = getParameter("Frequency"); double swsr_link_data_rate = getParameter("SWSR->LinkDataRate"); // Get properties unsigned int ingress_router_number_input_ports = getGenProperties()->get("IngressRouter->NumberInputPorts"); unsigned int middle_router_number_input_ports = getGenProperties()->get("MiddleRouter->NumberInputPorts"); unsigned int egress_router_number_input_ports = getGenProperties()->get("EgressRouter->NumberInputPorts"); ElectricalModel* input_to_ingress_link = (ElectricalModel*)getSubInstance("InputToIngressLink"); assignPortTransitionInfo(input_to_ingress_link, "In", TransitionInfo(0.25, 0.25, 0.25)); input_to_ingress_link->use(); ElectricalModel* ingress_to_middle_link = (ElectricalModel*)getSubInstance("IngressToMiddleLink"); assignPortTransitionInfo(ingress_to_middle_link, "LinkCK", TransitionInfo(0.0, (double) clock_freq / (swsr_link_data_rate * 2.0), 0.0)); assignPortTransitionInfo(ingress_to_middle_link, "In", TransitionInfo(0.25, 0.25, 0.25)); ingress_to_middle_link->use(); ElectricalModel* middle_to_egress_link = (ElectricalModel*)getSubInstance("MiddleToEgressLink"); assignPortTransitionInfo(middle_to_egress_link, "LinkCK", TransitionInfo(0.0, (double) clock_freq / (swsr_link_data_rate * 2.0), 0.0)); assignPortTransitionInfo(middle_to_egress_link, "In", TransitionInfo(0.25, 0.25, 0.25)); middle_to_egress_link->use(); ElectricalModel* egress_to_output_link = (ElectricalModel*)getSubInstance("EgressToOutputLink"); assignPortTransitionInfo(egress_to_output_link, "In", TransitionInfo(0.25, 0.25, 0.25)); egress_to_output_link->use(); ElectricalModel* ingress_router = (ElectricalModel*)getSubInstance("IngressRouter"); for(unsigned int i = 0; i < ingress_router_number_input_ports; ++i) { assignPortTransitionInfo(ingress_router, "FlitIn" + (String)i, TransitionInfo(0.25, 0.25, 0.25)); } assignPortTransitionInfo(ingress_router, "CK", TransitionInfo(0.0, 1.0, 0.0)); ingress_router->getGenProperties()->set("UseModelEvent", ""); ingress_router->use(); ElectricalModel* middle_router = (ElectricalModel*)getSubInstance("MiddleRouter"); for(unsigned int i = 0; i < middle_router_number_input_ports; ++i) { assignPortTransitionInfo(middle_router, "FlitIn" + (String)i, TransitionInfo(0.25, 0.25, 0.25)); } assignPortTransitionInfo(middle_router, "CK", TransitionInfo(0.0, 1.0, 0.0)); middle_router->getGenProperties()->set("UseModelEvent", ""); middle_router->use(); ElectricalModel* egress_router = (ElectricalModel*)getSubInstance("EgressRouter"); for(unsigned int i = 0; i < egress_router_number_input_ports; ++i) { assignPortTransitionInfo(egress_router, "FlitIn" + (String)i, TransitionInfo(0.25, 0.25, 0.25)); } assignPortTransitionInfo(egress_router, "CK", TransitionInfo(0.0, 1.0, 0.0)); egress_router->getGenProperties()->set("UseModelEvent", ""); egress_router->use(); return; } } // namespace DSENT