c1aecc05e6
This patch extensively modifies DSENT so that it can be accessed using Python. To access the Python interface, DSENT needs to compiled as a shared library. For this purpose a CMakeLists.txt file has been added. Some of the code that is not required is being removed.
330 lines
14 KiB
C++
330 lines
14 KiB
C++
/* Copyright (c) 2012 Massachusetts Institute of Technology
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*
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* Permission is hereby granted, free of charge, to any person obtaining a copy
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* of this software and associated documentation files (the "Software"), to deal
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* in the Software without restriction, including without limitation the rights
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* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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* copies of the Software, and to permit persons to whom the Software is
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* furnished to do so, subject to the following conditions:
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*
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* The above copyright notice and this permission notice shall be included in
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* all copies or substantial portions of the Software.
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*
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* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
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* THE SOFTWARE.
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*/
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#include "model/optical/SWMRLink.h"
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#include "model/PortInfo.h"
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#include "model/TransitionInfo.h"
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#include "model/EventInfo.h"
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#include "model/optical_graph/OpticalGraph.h"
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#include "model/optical_graph/OpticalWaveguide.h"
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#include "model/optical/RingModulator.h"
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#include "model/optical/RingFilter.h"
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#include "model/optical/RingDetector.h"
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#include "model/optical/LaserSource.h"
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#include "model/optical/ThrottledLaserSource.h"
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namespace DSENT
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{
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SWMRLink::SWMRLink(const String& instance_name_, const TechModel* tech_model_)
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: OpticalModel(instance_name_, tech_model_)
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{
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initParameters();
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initProperties();
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}
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SWMRLink::~SWMRLink()
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{}
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void SWMRLink::initParameters()
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{
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addParameterName("NumberReaders");
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addParameterName("NumberWavelengths");
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addParameterName("DataRate");
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addParameterName("LaserType");
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addParameterName("MaxReaders");
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addParameterName("MinReaders");
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addParameterName("OptimizeLoss", "TRUE");
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return;
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}
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void SWMRLink::initProperties()
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{
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addPropertyName("Length");
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addPropertyName("OptUtil", 0.5); // default to 50% utilization (a new word 50% of the time)
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addPropertyName("ExtinctionRatio", 6); // default properties
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addPropertyName("InsertionLoss", 2); // default properties
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return;
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}
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void SWMRLink::constructModel()
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{
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// Get parameters
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unsigned int number_wavelengths = getParameter("NumberWavelengths");
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unsigned int number_readers = getParameter("NumberReaders");
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unsigned int number_max_readers = std::min(number_readers, getParameter("MaxReaders").toUInt());
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unsigned int number_min_readers = std::min(number_max_readers, getParameter("MinReaders").toUInt());
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// Create electrical ports
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createInputPort("CK");
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createInputPort("In", makeNetIndex(0, number_wavelengths-1));
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for (unsigned int i = 0; i < number_readers; ++i)
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createOutputPort("Out" + (String) i, makeNetIndex(0, number_wavelengths-1));
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// Create Waveguides
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// Temporarily assume its all on one waveguide
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createWaveguide("LaserToMod", makeWavelengthGroup(0, number_wavelengths-1));
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for (unsigned int i = 0; i <= number_readers; ++i)
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createWaveguide("WaveguideSegment[" + (String) i + "]", makeWavelengthGroup(0, number_wavelengths-1));
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// Add area results
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addAreaResult(new Result("Photonic"));
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createElectricalResults();
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// Setup idle event
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getEventInfo("Idle")->setStaticTransitionInfos();
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// Create a waveguide area result
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addAreaResult(new AtomicResult("Waveguide"));
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getAreaResult("Photonic")->addSubResult(getAreaResult("Waveguide"), "Waveguide", 1.0);
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// Add results
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addNddPowerResult(new Result("Laser"));
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// Add event result
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createElectricalEventResult("BroadcastFlit");
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for (unsigned int i = number_min_readers; i <= number_max_readers; ++i)
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createElectricalEventResult("MulticastFlit" + (String) i);
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buildLaser();
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buildModulator();
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buildDetectors();
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return;
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}
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void SWMRLink::updateModel()
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{
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// Get parameters
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double data_rate = getParameter("DataRate");
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unsigned int number_readers = getParameter("NumberReaders");
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// Get properties
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double length = getProperty("Length");
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const String& extinction_ratio = getProperty("ExtinctionRatio");
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const String& insertion_loss = getProperty("InsertionLoss");
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const double opt_util = getProperty("OptUtil");
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// Calculate loss for each waveguide segment
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double segment_length = (double) length / number_readers;
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double segment_loss = getTechModel()->get("Waveguide->LossPerMeter").toDouble() * segment_length;
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// Set loss of each waveguide segment
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for (unsigned int i = 0; i < number_readers; ++i)
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getWaveguide("WaveguideSegment[" + (String) i + "]")->setLoss(segment_loss);
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// Calculate waveguide area
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double waveguide_area = length * getTechModel()->get("Waveguide->Pitch").toDouble();
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getAreaResult("Waveguide")->setValue(waveguide_area);
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// Update the laser
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Model* laser = getSubInstance("Laser");
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laser->setProperty("LaserEventTime", 1.0 / data_rate);
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laser->setProperty("OptUtil", opt_util);
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laser->update();
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// Update the modulator
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Model* modulator = getSubInstance("Modulator");
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modulator->setProperty("ExtinctionRatio", extinction_ratio);
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modulator->setProperty("InsertionLoss", insertion_loss);
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modulator->update();
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// Update all receivers
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for (unsigned int i = 0; i < number_readers; ++i)
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{
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Model* detector = getSubInstance("Detector_" + (String) i);
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detector->update();
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}
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return;
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}
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void SWMRLink::propagateTransitionInfo()
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{
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// Get parameters
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const String& laser_type = getParameter("LaserType");
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unsigned int number_readers = getParameter("NumberReaders");
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// Set transition info for the modulator
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OpticalModel* modulator = (OpticalModel*) getSubInstance("Modulator");
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propagatePortTransitionInfo(modulator, "In", "In");
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modulator->use();
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// Modulator out transition info
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const TransitionInfo& mod_out_transitions = modulator->getOpticalOutputPort("Out")->getTransitionInfo();
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// Set transition info for all receivers
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for (unsigned int i = 0; i < number_readers; ++i)
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{
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OpticalModel* detector = (OpticalModel*) getSubInstance("Detector_" + (String) i);
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detector->getOpticalInputPort("In")->setTransitionInfo(mod_out_transitions);
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detector->use();
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// Propagate output transition info to output
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propagatePortTransitionInfo("Out" + (String) i, detector, "Out");
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}
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// Set enable signals for the laser, if applicable
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if (laser_type == "Throttled")
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{
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// Figure out how many cycles the laser needs to be on
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double cycles = getInputPort("In")->getTransitionInfo().getFrequencyMultiplier();
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OpticalModel* laser = (OpticalModel*) getSubInstance("Laser");
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laser->getInputPort("LaserEnable")->setTransitionInfo(TransitionInfo(0.0, 1.0, cycles - 1.0));
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laser->use();
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}
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return;
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}
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void SWMRLink::buildLaser()
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{
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// Get parameters
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unsigned int number_wavelengths = getParameter("NumberWavelengths");
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unsigned int number_readers = getParameter("NumberReaders");
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unsigned int number_max_readers = std::min(number_readers, getParameter("MaxReaders").toUInt());
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unsigned int number_min_readers = std::min(number_max_readers, getParameter("MinReaders").toUInt());
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const String& laser_type = getParameter("LaserType");
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// Create laser
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OpticalModel* laser = NULL;
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if (laser_type == "Throttled")
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laser = new ThrottledLaserSource("Laser", getTechModel());
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else if (laser_type == "Standard")
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laser = new LaserSource("Laser", getTechModel());
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else
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ASSERT(false, "[Error] " + getInstanceName() + " -> Unknown laser type '" + laser_type + "'!");
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laser->setParameter("OutStart", 0);
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laser->setParameter("OutEnd", number_wavelengths-1);
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laser->setParameter("MaxDetectors", number_max_readers);
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laser->setParameter("MinDetectors", number_min_readers);
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laser->construct();
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addSubInstances(laser, 1.0);
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getAreaResult("Photonic")->addSubResult(laser->getAreaResult("Photonic"), "Laser", 1.0);
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// Connect laser output port
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opticalPortConnect(laser, "Out", "LaserToMod");
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// Without laser gating, laser is pure NDD power
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if (laser_type == "Standard")
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getNddPowerResult("Laser")->addSubResult(laser->getNddPowerResult("Laser"), "Laser", 1.0);
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// With laser power gating, laser is an event
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else
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{
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// If laser is throttled, only pay for the amount needed to reach some number of readers
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getEventResult("BroadcastFlit")->addSubResult(laser->getEventResult("Laser" + (String) number_max_readers), "Laser", 1.0);
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for (unsigned int i = number_min_readers; i <= number_max_readers; ++i)
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getEventResult("MulticastFlit" + (String) i)->addSubResult(laser->getEventResult("Laser" + (String) i), "Laser", 1.0);
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}
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return;
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}
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void SWMRLink::buildModulator()
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{
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// Get parameters
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double data_rate = getParameter("DataRate");
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const String& optimize_loss = getParameter("OptimizeLoss");
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unsigned int number_wavelengths = getParameter("NumberWavelengths");
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unsigned int number_readers = getParameter("NumberReaders");
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unsigned int number_max_readers = std::min(number_readers, getParameter("MaxReaders").toUInt());
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unsigned int number_min_readers = std::min(number_max_readers, getParameter("MinReaders").toUInt());
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// Create modulator
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RingModulator* modulator = new RingModulator("Modulator", getTechModel());
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modulator->setParameter("DataRate", data_rate);
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modulator->setParameter("InStart", 0);
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modulator->setParameter("InEnd", number_wavelengths-1);
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modulator->setParameter("ModStart", 0);
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modulator->setParameter("ModEnd", number_wavelengths-1);
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modulator->setParameter("OptimizeLoss", optimize_loss);
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modulator->construct();
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addSubInstances(modulator, 1.0);
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getAreaResult("Photonic")->addSubResult(modulator->getAreaResult("Photonic"), "Modulator", 1.0);
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addElectricalSubResults(modulator, 1.0);
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// Connect electrical port
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portConnect(modulator, "In", "In");
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// Connect modulator input, output port
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opticalPortConnect(modulator, "In", "LaserToMod");
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opticalPortConnect(modulator, "Out", "WaveguideSegment[0]");
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// Add modulator energy event for all broadcast events
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getEventResult("BroadcastFlit")->addSubResult(modulator->getEventResult("Modulate"), "Modulator", 1.0);
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for (unsigned int i = number_min_readers; i <= number_max_readers; ++i)
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getEventResult("MulticastFlit" + (String) i)->addSubResult(modulator->getEventResult("Modulate"), "Modulator", 1.0);
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return;
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}
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void SWMRLink::buildDetectors()
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{
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// Get parameters
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double data_rate = getParameter("DataRate");
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unsigned int number_wavelengths = getParameter("NumberWavelengths");
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unsigned int number_readers = getParameter("NumberReaders");
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unsigned int number_max_readers = std::min(number_readers, getParameter("MaxReaders").toUInt());
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unsigned int number_min_readers = std::min(number_max_readers, getParameter("MinReaders").toUInt());
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// Create a SWMR Configuration
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for (unsigned int i = 0; i < number_readers; ++i)
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{
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String n = (String) i;
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// Create resonant ring detector
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RingDetector* detector = new RingDetector("Detector_" + n, getTechModel());
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detector->setParameter("DataRate", data_rate);
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detector->setParameter("InStart", 0);
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detector->setParameter("InEnd", number_wavelengths-1);
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detector->setParameter("DetStart", 0);
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detector->setParameter("DetEnd", number_wavelengths-1);
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detector->setParameter("DropAll", "FALSE");
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detector->setParameter("Topology", RingDetector::INTEGRATINGSENSEAMP);
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detector->construct();
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addSubInstances(detector, 1.0);
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getAreaResult("Photonic")->addSubResult(detector->getAreaResult("Photonic"), "Detector_" + n, 1.0);
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addElectricalSubResults(detector, 1.0);
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// connect to electrical port
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portConnect(detector, "Out", "Out" + (String) i);
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// connect optical input, output port
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opticalPortConnect(detector, "In", "WaveguideSegment[" + (String) i + "]");
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opticalPortConnect(detector, "Out", "WaveguideSegment[" + (String) (i + 1) + "]");
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}
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// Add an average receiver energy for all multicast events (and broadcast)
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Result* broadcast_event = getEventResult("BroadcastFlit");
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for (unsigned int i = 0; i < number_readers; ++i)
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{
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const String detector_name = "Detector_" + (String) i;
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broadcast_event->addSubResult(getSubInstance(detector_name)->getEventResult("Receive"), detector_name, 1.0);
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}
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for (unsigned int i = number_min_readers; i <= number_max_readers; ++i)
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{
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Result* multicast_event = getEventResult("MulticastFlit" + (String) i);
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for (unsigned int j = 0; j < number_readers; ++j)
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{
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const String detector_name = "Detector_" + (String) j;
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multicast_event->addSubResult(getSubInstance(detector_name)->getEventResult("Receive"), detector_name, (double) i / number_readers);
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}
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}
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return;
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}
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} // namespace DSENT
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