#include <CSCBaseElectronicsSim.h>
Public Types | |
typedef std::map< int, CSCAnalogSignal, std::less < int > > | CSCSignalMap |
typedef edm::DetSet < StripDigiSimLink > | DigiSimLinks |
Public Member Functions | |
const DigiSimLinks & | digiSimLinks () const |
void | setLayerId (const CSCDetId &id) |
for standalone apps who don't calculate it from the geometry | |
void | setRandomEngine (CLHEP::HepRandomEngine &engine) |
void | simulate (const CSCLayer *layer, const std::vector< CSCDetectorHit > &inputHits) |
virtual | ~CSCBaseElectronicsSim () |
Protected Types | |
enum | { NONE, CONSERVATIVE, RADICAL } |
typedef std::multimap< int, CSCDetectorHit, std::less< int > > | DetectorHitMap |
Protected Member Functions | |
CSCAnalogSignal & | add (const CSCAnalogSignal &) |
virtual void | addLinks (int channelIndex) |
void | addNoise () |
CSCAnalogSignal | amplifySignal (const CSCDetectorHit &) |
double | averageTimeOfFlight (const DetId &detId) const |
the average time-of-flight from the interaction point to the given detector | |
virtual float | calculateAmpResponse (float t) const =0 |
virtual int | channelIndex (int channel) const |
lets users map channels to different indices for links | |
void | combineAnalogSignals (const std::vector< CSCAnalogSignal > &) |
CSCBaseElectronicsSim (const edm::ParameterSet &p) | |
void | fillAmpResponse () |
CSCAnalogSignal & | find (int element) |
virtual void | initParameters ()=0 |
CSCDetId | layerId () const |
the CSCDetId corresponding to the current layer | |
virtual CSCAnalogSignal | makeNoiseSignal (int element) |
virtual int | readoutElement (int element) const =0 |
void | setLayer (const CSCLayer *layer) |
void | setNoise (float rmsNoise, float noiseSigmaThreshold) |
void | setSignalTimeRange (double startTime, double stopTime) |
virtual float | signalDelay (int element, float pos) const |
Protected Attributes | |
bool | doNoise_ |
int | nElements |
CSCAnalogSignal | theAmpResponse |
float | theBunchSpacing |
std::vector< double > | theBunchTimingOffsets |
DetectorHitMap | theDetectorHitMap |
DigiSimLinks | theDigiSimLinks |
const CSCLayer * | theLayer |
const CSCLayerGeometry * | theLayerGeometry |
CSCDetId | theLayerId |
bool | theNoiseWasAdded |
int | theNumberOfSamples |
int | theOffsetOfBxZero |
float | thePeakTimeSigma |
CLHEP::RandGaussQ * | theRandGaussQ |
float | theSamplingTime |
int | theShapingTime |
CSCSignalMap | theSignalMap |
std::vector< double > | theSignalPropagationSpeed |
float | theSignalStartTime |
float | theSignalStopTime |
const CSCChamberSpecs * | theSpecs |
std::vector< double > | theTimingCalibrationError |
Commonalities between CSCStripElectronicsSim and CSCWireElectronicsSim.
It has three non-virtual functions, so that's enough to deserve a new class. And since it has virtual functions it needs a virtual dtor.
Definition at line 34 of file CSCBaseElectronicsSim.h.
typedef std::map<int, CSCAnalogSignal, std::less<int> > CSCBaseElectronicsSim::CSCSignalMap |
Definition at line 38 of file CSCBaseElectronicsSim.h.
typedef std::multimap<int, CSCDetectorHit, std::less<int> > CSCBaseElectronicsSim::DetectorHitMap [protected] |
Definition at line 159 of file CSCBaseElectronicsSim.h.
Definition at line 39 of file CSCBaseElectronicsSim.h.
anonymous enum [protected] |
Definition at line 112 of file CSCBaseElectronicsSim.h.
{NONE, CONSERVATIVE, RADICAL};
CSCBaseElectronicsSim::~CSCBaseElectronicsSim | ( | ) | [virtual] |
Definition at line 40 of file CSCBaseElectronicsSim.cc.
References theRandGaussQ.
{ delete theRandGaussQ; }
CSCBaseElectronicsSim::CSCBaseElectronicsSim | ( | const edm::ParameterSet & | p | ) | [protected] |
Definition at line 13 of file CSCBaseElectronicsSim.cc.
References theBunchTimingOffsets.
: theSpecs(0), theLayerGeometry(0), theLayer(0), theSignalMap(), theAmpResponse(), theBunchSpacing(25.), theNoiseWasAdded(false), nElements(0), theShapingTime(p.getParameter<int>("shapingTime")), thePeakTimeSigma(p.getParameter<double>("peakTimeSigma")), theBunchTimingOffsets(p.getParameter<std::vector<double> >("bunchTimingOffsets")), theSignalStartTime(p.getParameter<double>("signalStartTime")), theSignalStopTime(p.getParameter<double>("signalStopTime")), theSamplingTime(p.getParameter<double>("samplingTime")), theNumberOfSamples(static_cast<int>((theSignalStopTime-theSignalStartTime)/theSamplingTime)), theOffsetOfBxZero(p.getParameter<int>("timeBitForBxZero")), theSignalPropagationSpeed(p.getParameter<std::vector<double> >("signalSpeed")), theTimingCalibrationError(p.getParameter<std::vector<double> >("timingCalibrationError")), doNoise_(p.getParameter<bool>("doNoise")), theRandGaussQ(0) { assert(theBunchTimingOffsets.size() == 11); }
CSCAnalogSignal & CSCBaseElectronicsSim::add | ( | const CSCAnalogSignal & | signal | ) | [protected] |
Definition at line 176 of file CSCBaseElectronicsSim.cc.
References find(), CSCAnalogSignal::getElement(), and CSCAnalogSignal::superimpose().
Referenced by simulate().
{ int element = signal.getElement(); CSCAnalogSignal & newSignal = find(element); newSignal.superimpose(signal); return newSignal; }
void CSCBaseElectronicsSim::addLinks | ( | int | channelIndex | ) | [protected, virtual] |
creates links from Digi to SimTrack disabled for now
Definition at line 194 of file CSCBaseElectronicsSim.cc.
References DeDxDiscriminatorTools::charge(), PSimHit::eventId(), edm::DetSet< T >::push_back(), theDetectorHitMap, and theDigiSimLinks.
Referenced by CSCStripElectronicsSim::createDigi(), and CSCWireElectronicsSim::fillDigis().
{ std::pair<DetectorHitMap::iterator, DetectorHitMap::iterator> channelHitItr = theDetectorHitMap.equal_range(channelIndex); // find the fraction contribution for each SimTrack std::map<int,float> simTrackChargeMap; std::map<int, EncodedEventId> eventIdMap; float totalCharge = 0; for( DetectorHitMap::iterator hitItr = channelHitItr.first; hitItr != channelHitItr.second; ++hitItr){ const PSimHit * hit = hitItr->second.getSimHit(); // might be zero for unit tests and such if(hit != 0) { int simTrackId = hitItr->second.getSimHit()->trackId(); float charge = hitItr->second.getCharge(); std::map<int,float>::iterator chargeItr = simTrackChargeMap.find(simTrackId); if( chargeItr == simTrackChargeMap.end() ) { simTrackChargeMap[simTrackId] = charge; eventIdMap[simTrackId] = hit->eventId(); } else { chargeItr->second += charge; } totalCharge += charge; } } for(std::map<int,float>::iterator chargeItr = simTrackChargeMap.begin(); chargeItr != simTrackChargeMap.end(); ++chargeItr) { int simTrackId = chargeItr->first; theDigiSimLinks.push_back( StripDigiSimLink(channelIndex, simTrackId, eventIdMap[simTrackId], chargeItr->second/totalCharge ) ); } }
void CSCBaseElectronicsSim::addNoise | ( | ) | [protected] |
Definition at line 141 of file CSCBaseElectronicsSim.cc.
References makeNoiseSignal(), theNoiseWasAdded, thePeakTimeSigma, theRandGaussQ, and theSignalMap.
Referenced by simulate().
{ for(CSCSignalMap::iterator mapI = theSignalMap.begin(); mapI!= theSignalMap.end(); ++mapI) { // superimpose electronics noise (*mapI).second.superimpose(makeNoiseSignal((*mapI).first)); // DON'T do amp gain variations. Handled in strips by calibration code // and variations in the shaper peaking time. double timeOffset = theRandGaussQ->fire((*mapI).second.getTimeOffset(), thePeakTimeSigma); (*mapI).second.setTimeOffset(timeOffset); } theNoiseWasAdded = true; }
CSCAnalogSignal CSCBaseElectronicsSim::amplifySignal | ( | const CSCDetectorHit & | detectorHit | ) | [protected] |
Definition at line 117 of file CSCBaseElectronicsSim.cc.
References channelIndex(), CSCDetectorHit::getCharge(), CSCDetectorHit::getElement(), CSCDetectorHit::getPosition(), CSCDetectorHit::getTime(), readoutElement(), signalDelay(), theAmpResponse, and theDetectorHitMap.
Referenced by simulate().
{ int element = readoutElement(detectorHit.getElement()); float readoutTime = detectorHit.getTime() + signalDelay(element, detectorHit.getPosition()); // start from the amp response, and modify it. CSCAnalogSignal thisSignal(theAmpResponse); thisSignal *= detectorHit.getCharge(); thisSignal.setTimeOffset(readoutTime); thisSignal.setElement(element); // keep track of links between digis and hits theDetectorHitMap.insert( DetectorHitMap::value_type(channelIndex(element), detectorHit) ); return thisSignal; }
double CSCBaseElectronicsSim::averageTimeOfFlight | ( | const DetId & | detId | ) | const [protected] |
the average time-of-flight from the interaction point to the given detector
virtual float CSCBaseElectronicsSim::calculateAmpResponse | ( | float | t | ) | const [protected, pure virtual] |
Implemented in CSCStripElectronicsSim, and CSCWireElectronicsSim.
Referenced by fillAmpResponse().
virtual int CSCBaseElectronicsSim::channelIndex | ( | int | channel | ) | const [inline, protected, virtual] |
lets users map channels to different indices for links
Reimplemented in CSCWireElectronicsSim.
Definition at line 103 of file CSCBaseElectronicsSim.h.
Referenced by amplifySignal(), and CSCStripElectronicsSim::createDigi().
{return channel;}
void CSCBaseElectronicsSim::combineAnalogSignals | ( | const std::vector< CSCAnalogSignal > & | ) | [protected] |
const DigiSimLinks& CSCBaseElectronicsSim::digiSimLinks | ( | ) | const [inline] |
Definition at line 48 of file CSCBaseElectronicsSim.h.
References theDigiSimLinks.
Referenced by CSCDigitizer::doAction().
{return theDigiSimLinks;}
void CSCBaseElectronicsSim::fillAmpResponse | ( | ) | [protected] |
Definition at line 98 of file CSCBaseElectronicsSim.cc.
References calculateAmpResponse(), i, LogTrace, theAmpResponse, theNumberOfSamples, and theSamplingTime.
Referenced by CSCStripElectronicsSim::CSCStripElectronicsSim(), and CSCWireElectronicsSim::CSCWireElectronicsSim().
{ std::vector<float> ampBinValues(theNumberOfSamples); int i = 0; for( ; i < theNumberOfSamples; ++i) { ampBinValues[i] = calculateAmpResponse(i*theSamplingTime); // truncate any entries that are trivially small if(i>5 && ampBinValues[i] < 0.000001) break; } ampBinValues.resize(i); theAmpResponse = CSCAnalogSignal(0, theSamplingTime, ampBinValues, 1., 0.); LogTrace("CSCBaseElectronicsSim") << "CSCBaseElectronicsSim: dump of theAmpResponse follows...\n" << theAmpResponse; }
CSCAnalogSignal & CSCBaseElectronicsSim::find | ( | int | element | ) | [protected] |
Definition at line 155 of file CSCBaseElectronicsSim.cc.
References LogTrace, makeNoiseSignal(), nElements, theNoiseWasAdded, theNumberOfSamples, theSamplingTime, theSignalMap, and theSignalStartTime.
Referenced by add(), CSCStripElectronicsSim::addCrosstalk(), CSCStripElectronicsSim::fillStripDigis(), and CSCStripElectronicsSim::runComparator().
{ if(element <= 0 || element > nElements) { LogTrace("CSCBaseElectronicsSim") << "CSCBaseElectronicsSim: bad element = " << element << ". There are " << nElements << " elements."; edm::LogError("Error in CSCBaseElectronicsSim: element out of bounds"); } CSCSignalMap::iterator signalMapItr = theSignalMap.find(element); if(signalMapItr == theSignalMap.end()) { CSCAnalogSignal newSignal; if(theNoiseWasAdded) { newSignal = makeNoiseSignal(element); } else { std::vector<float> emptyV(theNumberOfSamples); newSignal = CSCAnalogSignal(element, theSamplingTime, emptyV, 0., theSignalStartTime); } signalMapItr = theSignalMap.insert( std::pair<int, CSCAnalogSignal>(element, newSignal) ).first; } return (*signalMapItr).second; }
virtual void CSCBaseElectronicsSim::initParameters | ( | ) | [protected, pure virtual] |
Implemented in CSCStripElectronicsSim, and CSCWireElectronicsSim.
Referenced by setLayer().
CSCDetId CSCBaseElectronicsSim::layerId | ( | ) | const [inline, protected] |
the CSCDetId corresponding to the current layer
Definition at line 106 of file CSCBaseElectronicsSim.h.
References theLayerId.
Referenced by CSCStripElectronicsSim::addCrosstalk(), CSCStripElectronicsSim::createDigi(), CSCStripElectronicsSim::fillDigis(), CSCWireElectronicsSim::fillDigis(), CSCStripElectronicsSim::fillStripDigis(), CSCStripElectronicsSim::makeNoiseSignal(), and simulate().
{return theLayerId;}
CSCAnalogSignal CSCBaseElectronicsSim::makeNoiseSignal | ( | int | element | ) | [protected, virtual] |
Reimplemented in CSCStripElectronicsSim.
Definition at line 134 of file CSCBaseElectronicsSim.cc.
References theNumberOfSamples, theSamplingTime, and theSignalStartTime.
Referenced by addNoise(), and find().
{ std::vector<float> binValues(theNumberOfSamples); // default is empty return CSCAnalogSignal(element, theSamplingTime, binValues, 0., theSignalStartTime); }
virtual int CSCBaseElectronicsSim::readoutElement | ( | int | element | ) | const [protected, pure virtual] |
Implemented in CSCStripElectronicsSim, and CSCWireElectronicsSim.
Referenced by amplifySignal(), and simulate().
void CSCBaseElectronicsSim::setLayer | ( | const CSCLayer * | layer | ) | [protected] |
Definition at line 86 of file CSCBaseElectronicsSim.cc.
References CSCLayer::chamber(), CSCDetId, GeomDet::geographicalId(), CSCLayer::geometry(), initParameters(), DetId::rawId(), CSCChamber::specs(), theLayer, theLayerGeometry, theLayerId, and theSpecs.
Referenced by CSCStripElectronicsSim::fillMissingLayer(), and simulate().
{ // fill the specs member data theSpecs = layer->chamber()->specs(); theLayerGeometry = layer->geometry(); theLayer = layer; theLayerId = CSCDetId(theLayer->geographicalId().rawId()); initParameters(); }
void CSCBaseElectronicsSim::setLayerId | ( | const CSCDetId & | id | ) | [inline] |
for standalone apps who don't calculate it from the geometry
Definition at line 53 of file CSCBaseElectronicsSim.h.
References errorMatrix2Lands_multiChannel::id, and theLayerId.
{theLayerId = id;}
void CSCBaseElectronicsSim::setNoise | ( | float | rmsNoise, |
float | noiseSigmaThreshold | ||
) | [protected] |
void CSCBaseElectronicsSim::setRandomEngine | ( | CLHEP::HepRandomEngine & | engine | ) |
Definition at line 46 of file CSCBaseElectronicsSim.cc.
References theRandGaussQ.
Referenced by CSCDigitizer::setRandomEngine().
{ if(theRandGaussQ) delete theRandGaussQ; theRandGaussQ = new CLHEP::RandGaussQ(engine); }
void CSCBaseElectronicsSim::setSignalTimeRange | ( | double | startTime, |
double | stopTime | ||
) | [inline, protected] |
How long before & after the bunch crossing to simulate shortening the time can save CPU
Definition at line 79 of file CSCBaseElectronicsSim.h.
References theSignalStartTime, and theSignalStopTime.
{ theSignalStartTime = startTime; theSignalStopTime = stopTime; }
float CSCBaseElectronicsSim::signalDelay | ( | int | element, |
float | pos | ||
) | const [protected, virtual] |
how long, in ns, it takes a signal at pos to propagate to the readout edge. This may be negative, since the timing may be calibrated to the center of the detector
Definition at line 184 of file CSCBaseElectronicsSim.cc.
References CSCChamberSpecs::chamberType(), pos, theSignalPropagationSpeed, and theSpecs.
Referenced by amplifySignal().
{ // readout is on top edge of chamber for strips, right edge // for wires. // zero calibrated to chamber center float distance = -1. * pos; float speed = theSignalPropagationSpeed[theSpecs->chamberType()]; return distance / speed; }
void CSCBaseElectronicsSim::simulate | ( | const CSCLayer * | layer, |
const std::vector< CSCDetectorHit > & | inputHits | ||
) |
Definition at line 53 of file CSCBaseElectronicsSim.cc.
References add(), addNoise(), amplifySignal(), doNoise_, AlCaHLTBitMon_QueryRunRegistry::getElement(), i, layerId(), readoutElement(), setLayer(), theDetectorHitMap, theDigiSimLinks, theNoiseWasAdded, and theSignalMap.
Referenced by CSCDigitizer::doAction().
{ theNoiseWasAdded = false; { theSignalMap.clear(); theDetectorHitMap.clear(); setLayer(layer); // can we swap for efficiency? theDigiSimLinks = DigiSimLinks(layerId().rawId()); } { size_t nHits = detectorHits.size(); // turn each detector hit into an analog signal for( size_t i = 0; i < nHits; ++i) { int element = readoutElement( detectorHits[i].getElement() ); // skip if hit element is not part of a readout element // e.g. wire in non-readout group if ( element != 0 ) add( amplifySignal(detectorHits[i]) ); } } { if(doNoise_) { addNoise(); } } }
bool CSCBaseElectronicsSim::doNoise_ [protected] |
Definition at line 156 of file CSCBaseElectronicsSim.h.
Referenced by CSCWireElectronicsSim::fillDigis(), CSCStripElectronicsSim::makeNoiseSignal(), and simulate().
int CSCBaseElectronicsSim::nElements [protected] |
Definition at line 131 of file CSCBaseElectronicsSim.h.
Referenced by CSCStripElectronicsSim::addCrosstalk(), CSCStripElectronicsSim::channelsToRead(), find(), CSCStripElectronicsSim::initParameters(), CSCWireElectronicsSim::initParameters(), CSCStripElectronicsSim::runComparator(), and CSCStripElectronicsSim::selfTest().
CSCAnalogSignal CSCBaseElectronicsSim::theAmpResponse [protected] |
Reimplemented in CSCStripElectronicsSim.
Definition at line 120 of file CSCBaseElectronicsSim.h.
Referenced by amplifySignal(), and fillAmpResponse().
float CSCBaseElectronicsSim::theBunchSpacing [protected] |
Definition at line 123 of file CSCBaseElectronicsSim.h.
Referenced by CSCWireElectronicsSim::fillDigis(), and CSCStripElectronicsSim::runComparator().
std::vector<double> CSCBaseElectronicsSim::theBunchTimingOffsets [protected] |
Definition at line 138 of file CSCBaseElectronicsSim.h.
Referenced by CSCBaseElectronicsSim(), CSCWireElectronicsSim::fillDigis(), and CSCStripElectronicsSim::initParameters().
Definition at line 160 of file CSCBaseElectronicsSim.h.
Referenced by addLinks(), amplifySignal(), CSCStripElectronicsSim::getKeyStripsFromMC(), and simulate().
DigiSimLinks CSCBaseElectronicsSim::theDigiSimLinks [protected] |
Definition at line 161 of file CSCBaseElectronicsSim.h.
Referenced by addLinks(), digiSimLinks(), and simulate().
const CSCLayer* CSCBaseElectronicsSim::theLayer [protected] |
Definition at line 116 of file CSCBaseElectronicsSim.h.
Referenced by CSCStripElectronicsSim::initParameters(), setLayer(), and CSCWireElectronicsSim::timeOfFlightCalibration().
const CSCLayerGeometry* CSCBaseElectronicsSim::theLayerGeometry [protected] |
Definition at line 115 of file CSCBaseElectronicsSim.h.
Referenced by CSCStripElectronicsSim::addCrosstalk(), CSCStripElectronicsSim::initParameters(), CSCWireElectronicsSim::initParameters(), CSCWireElectronicsSim::readoutElement(), CSCStripElectronicsSim::readoutElement(), setLayer(), and CSCWireElectronicsSim::timeOfFlightCalibration().
CSCDetId CSCBaseElectronicsSim::theLayerId [protected] |
Definition at line 117 of file CSCBaseElectronicsSim.h.
Referenced by CSCStripElectronicsSim::fillMissingLayer(), layerId(), setLayer(), and setLayerId().
bool CSCBaseElectronicsSim::theNoiseWasAdded [protected] |
Definition at line 128 of file CSCBaseElectronicsSim.h.
Referenced by addNoise(), find(), and simulate().
int CSCBaseElectronicsSim::theNumberOfSamples [protected] |
Definition at line 148 of file CSCBaseElectronicsSim.h.
Referenced by fillAmpResponse(), find(), CSCStripElectronicsSim::initParameters(), makeNoiseSignal(), and CSCStripElectronicsSim::makeNoiseSignal().
int CSCBaseElectronicsSim::theOffsetOfBxZero [protected] |
Definition at line 151 of file CSCBaseElectronicsSim.h.
Referenced by CSCWireElectronicsSim::fillDigis(), CSCStripElectronicsSim::getKeyStrips(), and CSCStripElectronicsSim::runComparator().
float CSCBaseElectronicsSim::thePeakTimeSigma [protected] |
Definition at line 135 of file CSCBaseElectronicsSim.h.
Referenced by addNoise().
CLHEP::RandGaussQ* CSCBaseElectronicsSim::theRandGaussQ [protected] |
Definition at line 163 of file CSCBaseElectronicsSim.h.
Referenced by addNoise(), CSCStripElectronicsSim::comparatorReading(), CSCStripElectronicsSim::createDigi(), CSCWireElectronicsSim::fillDigis(), setRandomEngine(), and ~CSCBaseElectronicsSim().
float CSCBaseElectronicsSim::theSamplingTime [protected] |
Definition at line 145 of file CSCBaseElectronicsSim.h.
Referenced by fillAmpResponse(), CSCWireElectronicsSim::fillDigis(), find(), CSCStripElectronicsSim::initParameters(), makeNoiseSignal(), and CSCStripElectronicsSim::makeNoiseSignal().
int CSCBaseElectronicsSim::theShapingTime [protected] |
Definition at line 134 of file CSCBaseElectronicsSim.h.
Referenced by CSCStripElectronicsSim::initParameters(), and CSCWireElectronicsSim::initParameters().
CSCSignalMap CSCBaseElectronicsSim::theSignalMap [protected] |
Definition at line 119 of file CSCBaseElectronicsSim.h.
Referenced by CSCStripElectronicsSim::addCrosstalk(), addNoise(), CSCWireElectronicsSim::fillDigis(), CSCStripElectronicsSim::fillMissingLayer(), find(), CSCStripElectronicsSim::runComparator(), and simulate().
std::vector<double> CSCBaseElectronicsSim::theSignalPropagationSpeed [protected] |
Speed (cm/ns) that it takes for the signal to get from the element to the readout. Actually negative in strips, due to reflection effects.
Definition at line 154 of file CSCBaseElectronicsSim.h.
Referenced by signalDelay().
float CSCBaseElectronicsSim::theSignalStartTime [protected] |
Definition at line 141 of file CSCBaseElectronicsSim.h.
Referenced by CSCStripElectronicsSim::createDigi(), CSCWireElectronicsSim::fillDigis(), find(), CSCStripElectronicsSim::initParameters(), makeNoiseSignal(), CSCStripElectronicsSim::makeNoiseSignal(), CSCStripElectronicsSim::runComparator(), and setSignalTimeRange().
float CSCBaseElectronicsSim::theSignalStopTime [protected] |
Definition at line 142 of file CSCBaseElectronicsSim.h.
Referenced by CSCStripElectronicsSim::initParameters(), CSCStripElectronicsSim::runComparator(), and setSignalTimeRange().
const CSCChamberSpecs* CSCBaseElectronicsSim::theSpecs [protected] |
Definition at line 114 of file CSCBaseElectronicsSim.h.
Referenced by CSCStripElectronicsSim::createDigi(), CSCWireElectronicsSim::fillDigis(), CSCStripElectronicsSim::initParameters(), CSCWireElectronicsSim::initParameters(), setLayer(), and signalDelay().
std::vector<double> CSCBaseElectronicsSim::theTimingCalibrationError [protected] |
Definition at line 155 of file CSCBaseElectronicsSim.h.
Referenced by CSCStripElectronicsSim::createDigi(), and CSCWireElectronicsSim::fillDigis().