NED File src/inet/queueing/base/ActivePacketSinkBase.ned
Name | Type | Description |
---|---|---|
ActivePacketSinkBase | simple module |
This is a base module for various active packet sink modules. |
Source code
// // Copyright (C) 2020 OpenSim Ltd. // // SPDX-License-Identifier: LGPL-3.0-or-later // package inet.queueing.base; // // This is a base module for various active packet sink modules. // // @see ~PacketSinkBase // simple ActivePacketSinkBase extends PacketSinkBase { parameters: @class(ActivePacketSinkBase); @signal[packetPulled](type=inet::Packet); // the statistical value is the packet @statistic[packets](title="packets"; source=packetPulled; record=count; unit=pk); // the statistical value is the length of the packet @statistic[packetLengths](title="packet lengths"; source=packetLength(packetPulled); record=sum,histogram,vector; unit=b; interpolationmode=none); // the statistical value is the data rate of the packets @statistic[dataRate](title="data rate"; source=throughput(packetPulled); record=vector; unit=bps; interpolationmode=linear); // the statistical value is the time difference of the current simulation time and the creation time of the bit @statistic[bitLifeTime](title="bit life time"; source=weightTimes(lengthWeightedValuePerRegion(lifeTimePerRegion(packetPulled))); record=histogram?; unit=s; interpolationmode=none); // the statistical value is the time difference of the current simulation time and the creation time of any bit in the region @statistic[meanBitLifeTimePerPacket](title="mean bit life time per packet"; source=weightedMeanPerGroup(groupRegionsPerPacket(lifeTimePerRegion(packetPulled))); record=vector,histogram; unit=s; interpolationmode=none); // the statistical value is the difference of subsequent values of the mean bit elapsed time per packet @statistic[packetJitter](title="packet jitter"; source=jitter(weightedMeanPerGroup(groupRegionsPerPacket(lifeTimePerRegion(packetPulled)))); record=vector,histogram; unit=s; interpolationmode=none); // the statistical value is the difference of the current and the mean bit elapsed time per packet @statistic[packetDelayDifferenceToMean](title="packet delay difference to mean"; source=differenceToMean(weightedMeanPerGroup(groupRegionsPerPacket(lifeTimePerRegion(packetPulled)))); record=vector,histogram; unit=s; interpolationmode=none); // the statistical value is the variation of the mean bit elapsed time per packet @statistic[packetDelayVariation](title="packet delay variation"; source=stddev(weightedMeanPerGroup(groupRegionsPerPacket(lifeTimePerRegion(packetPulled)))); record=vector,histogram; unit=s); }