/**
* ****************************************************************************
* Copyright (c) 2010-2016 by Min Cai (min.cai.china@gmail.com).
* <p>
* This file is part of the Archimulator multicore architectural simulator.
* <p>
* Archimulator is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
* <p>
* Archimulator is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
* <p>
* You should have received a copy of the GNU General Public License
* along with Archimulator. If not, see <http://www.gnu.org/licenses/>.
* ****************************************************************************
*/
package archimulator.startup;
import archimulator.common.Experiment;
import archimulator.util.csv.CSVHelper;
import archimulator.util.plots.PlotHelper;
/**
* Analyze.
*
* @author Min Cai
*/
public class Analyze {
public static void main(String[] args) {
analyzeTrafficsAndDataPacketInjectionRates();
analyzeAntPacketInjectionRates();
analyzeAcoSelectionAlphasAndReinforcementFactors();
}
public static void analyzeTrafficsAndDataPacketInjectionRates() {
for (String traffic : Experiments.trafficsAndDataPacketInjectionRates.keySet()) {
Experiments.trafficsAndDataPacketInjectionRates.get(traffic).forEach(Experiment::loadStats);
CSVHelper.toCsv(
String.format("results/trafficsAndDataPacketInjectionRates/t_%s.csv", traffic),
Experiments.trafficsAndDataPacketInjectionRates.get(traffic),
CSVFields.csvFields
);
PlotHelper.generatePlot(
String.format("results/trafficsAndDataPacketInjectionRates/t_%s.csv", traffic),
String.format("results/trafficsAndDataPacketInjectionRates/t_%s_throughput.pdf", traffic),
"Data_Packet_Injection_Rate_(packets/cycle/node)",
"NoC_Routing_Solution",
"Throughput_(packets/cycle/node)"
);
PlotHelper.generatePlot(
String.format("results/trafficsAndDataPacketInjectionRates/t_%s.csv", traffic),
String.format("results/trafficsAndDataPacketInjectionRates/t_%s_average_packet_delay.pdf", traffic),
"Data_Packet_Injection_Rate_(packets/cycle/node)",
"NoC_Routing_Solution",
"Avg._Packet_Delay_(cycles)"
);
PlotHelper.generatePlot(
String.format("results/trafficsAndDataPacketInjectionRates/t_%s.csv", traffic),
String.format("results/trafficsAndDataPacketInjectionRates/t_%s_average_packet_hops.pdf", traffic),
"Data_Packet_Injection_Rate_(packets/cycle/node)",
"NoC_Routing_Solution",
"Avg._Packet_Hops"
);
PlotHelper.generatePlot(
String.format("results/trafficsAndDataPacketInjectionRates/t_%s.csv", traffic),
String.format("results/trafficsAndDataPacketInjectionRates/t_%s_payload_throughput.pdf", traffic),
"Data_Packet_Injection_Rate_(packets/cycle/node)",
"NoC_Routing_Solution",
"Payload_Throughput_(packets/cycle/node)"
);
PlotHelper.generatePlot(
String.format("results/trafficsAndDataPacketInjectionRates/t_%s.csv", traffic),
String.format("results/trafficsAndDataPacketInjectionRates/t_%s_average_payload_packet_delay.pdf", traffic),
"Data_Packet_Injection_Rate_(packets/cycle/node)",
"NoC_Routing_Solution",
"Avg._Payload_Packet_Delay_(cycles)"
);
PlotHelper.generatePlot(
String.format("results/trafficsAndDataPacketInjectionRates/t_%s.csv", traffic),
String.format("results/trafficsAndDataPacketInjectionRates/t_%s_average_payload_packet_hops.pdf", traffic),
"Data_Packet_Injection_Rate_(packets/cycle/node)",
"NoC_Routing_Solution",
"Avg._Payload_Packet_Hops"
);
}
}
public static void analyzeAntPacketInjectionRates() {
Experiments.antPacketInjectionRates.forEach(Experiment::loadStats);
CSVHelper.toCsv(
"results/antPacketInjectionRates/result.csv",
Experiments.antPacketInjectionRates,
CSVFields.csvFields
);
PlotHelper.generatePlot(
"results/antPacketInjectionRates/result.csv",
"results/antPacketInjectionRates/throughput.pdf",
"Data_Packet_Injection_Rate_(packets/cycle/node)",
"NoC_Routing_Solution",
"Throughput_(packets/cycle/node)"
);
PlotHelper.generatePlot(
"results/antPacketInjectionRates/result.csv",
"results/antPacketInjectionRates/average_packet_delay.pdf",
"Data_Packet_Injection_Rate_(packets/cycle/node)",
"NoC_Routing_Solution",
"Avg._Packet_Delay_(cycles)"
);
PlotHelper.generatePlot(
"results/antPacketInjectionRates/result.csv",
"results/antPacketInjectionRates/average_packet_hops.pdf",
"Data_Packet_Injection_Rate_(packets/cycle/node)",
"NoC_Routing_Solution",
"Avg._Packet_Hops"
);
PlotHelper.generatePlot(
"results/antPacketInjectionRates/result.csv",
"results/antPacketInjectionRates/payload_throughput.pdf",
"Data_Packet_Injection_Rate_(packets/cycle/node)",
"NoC_Routing_Solution",
"Payload_Throughput_(packets/cycle/node)"
);
PlotHelper.generatePlot(
"results/antPacketInjectionRates/result.csv",
"results/antPacketInjectionRates/average_payload_packet_delay.pdf",
"Data_Packet_Injection_Rate_(packets/cycle/node)",
"NoC_Routing_Solution",
"Avg._Payload_Packet_Delay_(cycles)"
);
PlotHelper.generatePlot(
"results/antPacketInjectionRates/result.csv",
"results/antPacketInjectionRates/average_payload_packet_hops.pdf",
"Data_Packet_Injection_Rate_(packets/cycle/node)",
"NoC_Routing_Solution",
"Avg._Payload_Packet_Hops"
);
}
public static void analyzeAcoSelectionAlphasAndReinforcementFactors() {
Experiments.acoSelectionAlphasAndReinforcementFactors.forEach(Experiment::loadStats);
CSVHelper.toCsv(
"results/acoSelectionAlphasAndReinforcementFactors/result.csv",
Experiments.acoSelectionAlphasAndReinforcementFactors,
CSVFields.csvFields
);
PlotHelper.generatePlot(
"results/acoSelectionAlphasAndReinforcementFactors/result.csv",
"results/acoSelectionAlphasAndReinforcementFactors/throughput.pdf",
"Data_Packet_Injection_Rate_(packets/cycle/node)",
"NoC_Routing_Solution",
"Throughput_(packets/cycle/node)"
);
PlotHelper.generatePlot(
"results/acoSelectionAlphasAndReinforcementFactors/result.csv",
"results/acoSelectionAlphasAndReinforcementFactors/average_packet_delay.pdf",
"Data_Packet_Injection_Rate_(packets/cycle/node)",
"NoC_Routing_Solution",
"Avg._Packet_Delay_(cycles)"
);
PlotHelper.generatePlot(
"results/acoSelectionAlphasAndReinforcementFactors/result.csv",
"results/acoSelectionAlphasAndReinforcementFactors/average_packet_hops.pdf",
"Data_Packet_Injection_Rate_(packets/cycle/node)",
"NoC_Routing_Solution",
"Avg._Packet_Hops"
);
PlotHelper.generatePlot(
"results/acoSelectionAlphasAndReinforcementFactors/result.csv",
"results/acoSelectionAlphasAndReinforcementFactors/payload_throughput.pdf",
"Data_Packet_Injection_Rate_(packets/cycle/node)",
"NoC_Routing_Solution",
"Payload_Throughput_(packets/cycle/node)"
);
PlotHelper.generatePlot(
"results/acoSelectionAlphasAndReinforcementFactors/result.csv",
"results/acoSelectionAlphasAndReinforcementFactors/average_payload_packet_delay.pdf",
"Data_Packet_Injection_Rate_(packets/cycle/node)",
"NoC_Routing_Solution",
"Avg._Payload_Packet_Delay_(cycles)"
);
PlotHelper.generatePlot(
"results/acoSelectionAlphasAndReinforcementFactors/result.csv",
"results/acoSelectionAlphasAndReinforcementFactors/average_payload_packet_hops.pdf",
"Data_Packet_Injection_Rate_(packets/cycle/node)",
"NoC_Routing_Solution",
"Avg._Payload_Packet_Hops"
);
}
}