Inheritance diagram for EcalUncalibRecHitWorkerMultiFit:

Public Member Functions
	EcalUncalibRecHitWorkerMultiFit (const edm::ParameterSet &, edm::ConsumesCollector &c)

	EcalUncalibRecHitWorkerMultiFit ()

edm::ParameterSetDescription	getAlgoDescription () override

Public Member Functions inherited from EcalUncalibRecHitWorkerBaseClass
	EcalUncalibRecHitWorkerBaseClass (const edm::ParameterSet &, edm::ConsumesCollector &c)

	EcalUncalibRecHitWorkerBaseClass (const edm::ParameterSet &)

	EcalUncalibRecHitWorkerBaseClass ()

virtual	~EcalUncalibRecHitWorkerBaseClass ()

Private Types
enum	TimeAlgo { noMethod, ratioMethod, weightsMethod, crossCorrelationMethod }

Private Member Functions
const SampleMatrix &	noisecor (bool barrel, int gain) const

const SampleMatrixGainArray &	noisecor (bool barrel) const

void	run (const edm::Event &evt, const EcalDigiCollection &digis, EcalUncalibratedRecHitCollection &result) override

void	set (const edm::EventSetup &es) override

void	set (const edm::Event &evt) override

double	timeCorrection (float ampli, const std::vector< float > &amplitudeBins, const std::vector< float > &shiftBins)

Private Attributes
BXVector	activeBX

double	addPedestalUncertaintyEB_

double	addPedestalUncertaintyEE_

bool	ampErrorCalculation_

double	amplitudeThreshEB_

double	amplitudeThreshEE_

edm::EDGetTokenT< unsigned int >	bunchSpacing_

int	bunchSpacingManual_

double	CCminTimeToBeLateMax_

double	CCminTimeToBeLateMin_

double	CCtargetTimePrecision_

double	CCtargetTimePrecisionForDelayedPulses_

double	CCTimeShiftWrtRations_

double	chi2ThreshEB_

double	chi2ThreshEE_

std::unique_ptr< EcalUncalibRecHitTimingCCAlgo >	computeCC_

bool	doPrefitEB_

bool	doPrefitEE_

bool	dynamicPedestalsEB_

bool	dynamicPedestalsEE_

std::vector< double >	EBamplitudeFitParameters_

std::vector< double >	ebPulseShape_

double	ebSpikeThresh_

double	EBtimeConstantTerm_

std::pair< double, double >	EBtimeFitLimits_

std::vector< double >	EBtimeFitParameters_

double	EBtimeNconst_

std::vector< double >	EEamplitudeFitParameters_

std::vector< double >	eePulseShape_

double	EEtimeConstantTerm_

std::pair< double, double >	EEtimeFitLimits_

std::vector< double >	EEtimeFitParameters_

double	EEtimeNconst_

edm::ESHandle< EcalGainRatios >	gains

edm::ESGetToken< EcalGainRatios, EcalGainRatiosRcd >	gainsToken_

bool	gainSwitchUseMaxSampleEB_

bool	gainSwitchUseMaxSampleEE_

edm::ESHandle< EcalWeightXtalGroups >	grps

edm::ESGetToken< EcalWeightXtalGroups, EcalWeightXtalGroupsRcd >	grpsToken_

edm::ESHandle< EcalTimeCalibConstants >	itime

edm::ESGetToken< EcalTimeCalibConstants, EcalTimeCalibConstantsRcd >	itimeToken_

bool	kPoorRecoFlagEB_

bool	kPoorRecoFlagEE_

bool	mitigateBadSamplesEB_

bool	mitigateBadSamplesEE_

EcalUncalibRecHitMultiFitAlgo	multiFitMethod_

edm::ESGetToken< EcalSamplesCorrelation, EcalSamplesCorrelationRcd >	noiseConvariancesToken_

std::array< SampleMatrixGainArray, 2 >	noisecors_

edm::ESHandle< EcalSamplesCorrelation >	noisecovariances

edm::ESHandle< EcalTimeOffsetConstant >	offtime

edm::ESGetToken< EcalTimeOffsetConstant, EcalTimeOffsetConstantRcd >	offtimeToken_

double	outOfTimeThreshG12mEB_

double	outOfTimeThreshG12mEE_

double	outOfTimeThreshG12pEB_

double	outOfTimeThreshG12pEE_

double	outOfTimeThreshG61mEB_

double	outOfTimeThreshG61mEE_

double	outOfTimeThreshG61pEB_

double	outOfTimeThreshG61pEE_

edm::ESHandle< EcalPedestals >	peds

edm::ESGetToken< EcalPedestals, EcalPedestalsRcd >	pedsToken_

double	prefitMaxChiSqEB_

double	prefitMaxChiSqEE_

edm::ESGetToken< EcalPulseCovariances, EcalPulseCovariancesRcd >	pulseConvariancesToken_

edm::ESHandle< EcalPulseCovariances >	pulsecovariances

edm::ESHandle< EcalPulseShapes >	pulseshapes

edm::ESGetToken< EcalPulseShapes, EcalPulseShapesRcd >	pulseShapesToken_

EcalUncalibRecHitRatioMethodAlgo< EBDataFrame >	ratioMethod_barrel_

EcalUncalibRecHitRatioMethodAlgo< EEDataFrame >	ratioMethod_endcap_

edm::ESHandle< EcalSampleMask >	sampleMaskHand_

edm::ESGetToken< EcalSampleMask, EcalSampleMaskRcd >	sampleMaskToken_

bool	selectiveBadSampleCriteriaEB_

bool	selectiveBadSampleCriteriaEE_

bool	simplifiedNoiseModelForGainSwitch_

TimeAlgo	timealgo_ = noMethod

edm::ESHandle< EcalTimeBiasCorrections >	timeCorrBias_

edm::ESGetToken< EcalTimeBiasCorrections, EcalTimeBiasCorrectionsRcd >	timeCorrBiasToken_

bool	useLumiInfoRunHeader_

const EcalWeightSet::EcalWeightMatrix *	weights [2]

EcalUncalibRecHitTimeWeightsAlgo< EBDataFrame >	weightsMethod_barrel_

EcalUncalibRecHitTimeWeightsAlgo< EEDataFrame >	weightsMethod_endcap_

edm::ESHandle< EcalTBWeights >	wgts

edm::ESGetToken< EcalTBWeights, EcalTBWeightsRcd >	wgtsToken_

Detailed Description

Definition at line 49 of file EcalUncalibRecHitWorkerMultiFit.cc.

Member Enumeration Documentation

◆ TimeAlgo

enum EcalUncalibRecHitWorkerMultiFit::TimeAlgo

private

Enumerator
noMethod
ratioMethod
weightsMethod
crossCorrelationMethod

Definition at line 94 of file EcalUncalibRecHitWorkerMultiFit.cc.

94 { noMethod, ratioMethod, weightsMethod, crossCorrelationMethod };

EcalUncalibRecHitWorkerMultiFit::noMethod

Definition: EcalUncalibRecHitWorkerMultiFit.cc:94

EcalUncalibRecHitWorkerMultiFit::weightsMethod

Definition: EcalUncalibRecHitWorkerMultiFit.cc:94

EcalUncalibRecHitWorkerMultiFit::ratioMethod

Definition: EcalUncalibRecHitWorkerMultiFit.cc:94

EcalUncalibRecHitWorkerMultiFit::crossCorrelationMethod

Definition: EcalUncalibRecHitWorkerMultiFit.cc:94

Constructor & Destructor Documentation

◆ EcalUncalibRecHitWorkerMultiFit() [1/2]

EcalUncalibRecHitWorkerMultiFit::EcalUncalibRecHitWorkerMultiFit	(	const edm::ParameterSet &	ps,
		edm::ConsumesCollector &	c
	)

Definition at line 173 of file EcalUncalibRecHitWorkerMultiFit.cc.

References activeBX, HLT_2023v12_cff::activeBXs, addPedestalUncertaintyEB_, addPedestalUncertaintyEE_, ampErrorCalculation_, amplitudeThreshEB_, amplitudeThreshEE_, bunchSpacing_, bunchSpacingManual_, HltBtagPostValidation_cff::c, CCminTimeToBeLateMax_, CCminTimeToBeLateMin_, CCtargetTimePrecision_, CCtargetTimePrecisionForDelayedPulses_, CCTimeShiftWrtRations_, computeCC_, crossCorrelationMethod, doPrefitEB_, doPrefitEE_, dynamicPedestalsEB_, dynamicPedestalsEE_, EBamplitudeFitParameters_, EBtimeConstantTerm_, EBtimeFitLimits_, EBtimeFitParameters_, EBtimeNconst_, EEamplitudeFitParameters_, EEtimeConstantTerm_, EEtimeFitLimits_, EEtimeFitParameters_, EEtimeNconst_, gainsToken_, gainSwitchUseMaxSampleEB_, gainSwitchUseMaxSampleEE_, edm::ParameterSet::getParameter(), grpsToken_, ProducerED_cfi::InputTag, itimeToken_, mitigateBadSamplesEB_, mitigateBadSamplesEE_, noiseConvariancesToken_, offtimeToken_, outOfTimeThreshG12mEB_, outOfTimeThreshG12mEE_, outOfTimeThreshG12pEB_, outOfTimeThreshG12pEE_, outOfTimeThreshG61mEB_, outOfTimeThreshG61mEE_, outOfTimeThreshG61pEB_, outOfTimeThreshG61pEE_, pedsToken_, prefitMaxChiSqEB_, prefitMaxChiSqEE_, pulseConvariancesToken_, pulseShapesToken_, ratioMethod, BXVector< T >::resize(), ecalPh1::Samp_Period, sampleMaskToken_, selectiveBadSampleCriteriaEB_, selectiveBadSampleCriteriaEE_, simplifiedNoiseModelForGainSwitch_, BeamSpotPI::startTime, AlCaHLTBitMon_QueryRunRegistry::string, timealgo_, timeCorrBiasToken_, useLumiInfoRunHeader_, weightsMethod, and wgtsToken_.

     : EcalUncalibRecHitWorkerBaseClass(ps, c) {
   // get the BX for the pulses to be activated
   std::vector<int32_t> activeBXs = ps.getParameter<std::vector<int32_t>>("activeBXs");
   activeBX.resize(activeBXs.size());
   for (unsigned int ibx = 0; ibx < activeBXs.size(); ++ibx) {
     activeBX.coeffRef(ibx) = activeBXs[ibx];
   }
 
   // uncertainty calculation (CPU intensive)
   ampErrorCalculation_ = ps.getParameter<bool>("ampErrorCalculation");
   useLumiInfoRunHeader_ = ps.getParameter<bool>("useLumiInfoRunHeader");
 
   if (useLumiInfoRunHeader_) {
     bunchSpacing_ = c.consumes<unsigned int>(edm::InputTag("bunchSpacingProducer"));
     bunchSpacingManual_ = 0;
   } else {
     bunchSpacingManual_ = ps.getParameter<int>("bunchSpacing");
   }
 
   doPrefitEB_ = ps.getParameter<bool>("doPrefitEB");
   doPrefitEE_ = ps.getParameter<bool>("doPrefitEE");
 
   prefitMaxChiSqEB_ = ps.getParameter<double>("prefitMaxChiSqEB");
   prefitMaxChiSqEE_ = ps.getParameter<double>("prefitMaxChiSqEE");
 
   dynamicPedestalsEB_ = ps.getParameter<bool>("dynamicPedestalsEB");
   dynamicPedestalsEE_ = ps.getParameter<bool>("dynamicPedestalsEE");
   mitigateBadSamplesEB_ = ps.getParameter<bool>("mitigateBadSamplesEB");
   mitigateBadSamplesEE_ = ps.getParameter<bool>("mitigateBadSamplesEE");
   gainSwitchUseMaxSampleEB_ = ps.getParameter<bool>("gainSwitchUseMaxSampleEB");
   gainSwitchUseMaxSampleEE_ = ps.getParameter<bool>("gainSwitchUseMaxSampleEE");
   selectiveBadSampleCriteriaEB_ = ps.getParameter<bool>("selectiveBadSampleCriteriaEB");
   selectiveBadSampleCriteriaEE_ = ps.getParameter<bool>("selectiveBadSampleCriteriaEE");
   addPedestalUncertaintyEB_ = ps.getParameter<double>("addPedestalUncertaintyEB");
   addPedestalUncertaintyEE_ = ps.getParameter<double>("addPedestalUncertaintyEE");
   simplifiedNoiseModelForGainSwitch_ = ps.getParameter<bool>("simplifiedNoiseModelForGainSwitch");
   pedsToken_ = c.esConsumes<EcalPedestals, EcalPedestalsRcd>();
   gainsToken_ = c.esConsumes<EcalGainRatios, EcalGainRatiosRcd>();
   noiseConvariancesToken_ = c.esConsumes<EcalSamplesCorrelation, EcalSamplesCorrelationRcd>();
   pulseShapesToken_ = c.esConsumes<EcalPulseShapes, EcalPulseShapesRcd>();
   pulseConvariancesToken_ = c.esConsumes<EcalPulseCovariances, EcalPulseCovariancesRcd>();
   sampleMaskToken_ = c.esConsumes<EcalSampleMask, EcalSampleMaskRcd>();
   grpsToken_ = c.esConsumes<EcalWeightXtalGroups, EcalWeightXtalGroupsRcd>();
   wgtsToken_ = c.esConsumes<EcalTBWeights, EcalTBWeightsRcd>();
   timeCorrBiasToken_ = c.esConsumes<EcalTimeBiasCorrections, EcalTimeBiasCorrectionsRcd>();
   itimeToken_ = c.esConsumes<EcalTimeCalibConstants, EcalTimeCalibConstantsRcd>();
   offtimeToken_ = c.esConsumes<EcalTimeOffsetConstant, EcalTimeOffsetConstantRcd>();
 
   // algorithm to be used for timing
   auto const& timeAlgoName = ps.getParameter<std::string>("timealgo");
   if (timeAlgoName == "RatioMethod")
     timealgo_ = ratioMethod;
   else if (timeAlgoName == "WeightsMethod")
     timealgo_ = weightsMethod;
   else if (timeAlgoName == "crossCorrelationMethod") {
     timealgo_ = crossCorrelationMethod;
     double startTime = ps.getParameter<double>("crossCorrelationStartTime");
     double stopTime = ps.getParameter<double>("crossCorrelationStopTime");
     CCtargetTimePrecision_ = ps.getParameter<double>("crossCorrelationTargetTimePrecision");
     CCtargetTimePrecisionForDelayedPulses_ =
         ps.getParameter<double>("crossCorrelationTargetTimePrecisionForDelayedPulses");
     CCminTimeToBeLateMin_ = ps.getParameter<double>("crossCorrelationMinTimeToBeLateMin") / ecalPh1::Samp_Period;
     CCminTimeToBeLateMax_ = ps.getParameter<double>("crossCorrelationMinTimeToBeLateMax") / ecalPh1::Samp_Period;
     CCTimeShiftWrtRations_ = ps.getParameter<double>("crossCorrelationTimeShiftWrtRations");
     computeCC_ = std::make_unique<EcalUncalibRecHitTimingCCAlgo>(startTime, stopTime);
   } else if (timeAlgoName != "None")
     edm::LogError("EcalUncalibRecHitError") << "No time estimation algorithm defined";
 
   // ratio method parameters
   EBtimeFitParameters_ = ps.getParameter<std::vector<double>>("EBtimeFitParameters");
   EEtimeFitParameters_ = ps.getParameter<std::vector<double>>("EEtimeFitParameters");
   EBamplitudeFitParameters_ = ps.getParameter<std::vector<double>>("EBamplitudeFitParameters");
   EEamplitudeFitParameters_ = ps.getParameter<std::vector<double>>("EEamplitudeFitParameters");
   EBtimeFitLimits_.first = ps.getParameter<double>("EBtimeFitLimits_Lower");
   EBtimeFitLimits_.second = ps.getParameter<double>("EBtimeFitLimits_Upper");
   EEtimeFitLimits_.first = ps.getParameter<double>("EEtimeFitLimits_Lower");
   EEtimeFitLimits_.second = ps.getParameter<double>("EEtimeFitLimits_Upper");
   EBtimeConstantTerm_ = ps.getParameter<double>("EBtimeConstantTerm");
   EEtimeConstantTerm_ = ps.getParameter<double>("EEtimeConstantTerm");
   EBtimeNconst_ = ps.getParameter<double>("EBtimeNconst");
   EEtimeNconst_ = ps.getParameter<double>("EEtimeNconst");
   outOfTimeThreshG12pEB_ = ps.getParameter<double>("outOfTimeThresholdGain12pEB");
   outOfTimeThreshG12mEB_ = ps.getParameter<double>("outOfTimeThresholdGain12mEB");
   outOfTimeThreshG61pEB_ = ps.getParameter<double>("outOfTimeThresholdGain61pEB");
   outOfTimeThreshG61mEB_ = ps.getParameter<double>("outOfTimeThresholdGain61mEB");
   outOfTimeThreshG12pEE_ = ps.getParameter<double>("outOfTimeThresholdGain12pEE");
   outOfTimeThreshG12mEE_ = ps.getParameter<double>("outOfTimeThresholdGain12mEE");
   outOfTimeThreshG61pEE_ = ps.getParameter<double>("outOfTimeThresholdGain61pEE");
   outOfTimeThreshG61mEE_ = ps.getParameter<double>("outOfTimeThresholdGain61mEE");
   amplitudeThreshEB_ = ps.getParameter<double>("amplitudeThresholdEB");
   amplitudeThreshEE_ = ps.getParameter<double>("amplitudeThresholdEE");
 }

◆ EcalUncalibRecHitWorkerMultiFit() [2/2]

EcalUncalibRecHitWorkerMultiFit::EcalUncalibRecHitWorkerMultiFit ( )

inline

Definition at line 52 of file EcalUncalibRecHitWorkerMultiFit.cc.

52 {};

Member Function Documentation

◆ getAlgoDescription()

edm::ParameterSetDescription EcalUncalibRecHitWorkerMultiFit::getAlgoDescription ( )

overridevirtual

Implements EcalUncalibRecHitWorkerBaseClass.

Definition at line 720 of file EcalUncalibRecHitWorkerMultiFit.cc.

References edm::ParameterSetDescription::addNode().

                                                                                {
   edm::ParameterSetDescription psd;
   psd.addNode(edm::ParameterDescription<std::vector<int>>("activeBXs", {-5, -4, -3, -2, -1, 0, 1, 2, 3, 4}, true) and
               edm::ParameterDescription<bool>("ampErrorCalculation", true, true) and
               edm::ParameterDescription<bool>("useLumiInfoRunHeader", true, true) and
               edm::ParameterDescription<int>("bunchSpacing", 0, true) and
               edm::ParameterDescription<bool>("doPrefitEB", false, true) and
               edm::ParameterDescription<bool>("doPrefitEE", false, true) and
               edm::ParameterDescription<double>("prefitMaxChiSqEB", 25., true) and
               edm::ParameterDescription<double>("prefitMaxChiSqEE", 10., true) and
               edm::ParameterDescription<bool>("dynamicPedestalsEB", false, true) and
               edm::ParameterDescription<bool>("dynamicPedestalsEE", false, true) and
               edm::ParameterDescription<bool>("mitigateBadSamplesEB", false, true) and
               edm::ParameterDescription<bool>("mitigateBadSamplesEE", false, true) and
               edm::ParameterDescription<bool>("gainSwitchUseMaxSampleEB", false, true) and
               edm::ParameterDescription<bool>("gainSwitchUseMaxSampleEE", false, true) and
               edm::ParameterDescription<bool>("selectiveBadSampleCriteriaEB", false, true) and
               edm::ParameterDescription<bool>("selectiveBadSampleCriteriaEE", false, true) and
               edm::ParameterDescription<double>("addPedestalUncertaintyEB", 0., true) and
               edm::ParameterDescription<double>("addPedestalUncertaintyEE", 0., true) and
               edm::ParameterDescription<bool>("simplifiedNoiseModelForGainSwitch", true, true) and
               edm::ParameterDescription<std::string>("timealgo", "RatioMethod", true) and
               edm::ParameterDescription<std::vector<double>>("EBtimeFitParameters",
                                                              {-2.015452e+00,
                                                               3.130702e+00,
                                                               -1.234730e+01,
                                                               4.188921e+01,
                                                               -8.283944e+01,
                                                               9.101147e+01,
                                                               -5.035761e+01,
                                                               1.105621e+01},
                                                              true) and
               edm::ParameterDescription<std::vector<double>>("EEtimeFitParameters",
                                                              {-2.390548e+00,
                                                               3.553628e+00,
                                                               -1.762341e+01,
                                                               6.767538e+01,
                                                               -1.332130e+02,
                                                               1.407432e+02,
                                                               -7.541106e+01,
                                                               1.620277e+01},
                                                              true) and
               edm::ParameterDescription<std::vector<double>>("EBamplitudeFitParameters", {1.138, 1.652}, true) and
               edm::ParameterDescription<std::vector<double>>("EEamplitudeFitParameters", {1.890, 1.400}, true) and
               edm::ParameterDescription<double>("EBtimeFitLimits_Lower", 0.2, true) and
               edm::ParameterDescription<double>("EBtimeFitLimits_Upper", 1.4, true) and
               edm::ParameterDescription<double>("EEtimeFitLimits_Lower", 0.2, true) and
               edm::ParameterDescription<double>("EEtimeFitLimits_Upper", 1.4, true) and
               edm::ParameterDescription<double>("EBtimeConstantTerm", .6, true) and
               edm::ParameterDescription<double>("EEtimeConstantTerm", 1.0, true) and
               edm::ParameterDescription<double>("EBtimeNconst", 28.5, true) and
               edm::ParameterDescription<double>("EEtimeNconst", 31.8, true) and
               edm::ParameterDescription<double>("outOfTimeThresholdGain12pEB", 5, true) and
               edm::ParameterDescription<double>("outOfTimeThresholdGain12mEB", 5, true) and
               edm::ParameterDescription<double>("outOfTimeThresholdGain61pEB", 5, true) and
               edm::ParameterDescription<double>("outOfTimeThresholdGain61mEB", 5, true) and
               edm::ParameterDescription<double>("outOfTimeThresholdGain12pEE", 1000, true) and
               edm::ParameterDescription<double>("outOfTimeThresholdGain12mEE", 1000, true) and
               edm::ParameterDescription<double>("outOfTimeThresholdGain61pEE", 1000, true) and
               edm::ParameterDescription<double>("outOfTimeThresholdGain61mEE", 1000, true) and
               edm::ParameterDescription<double>("amplitudeThresholdEB", 10, true) and
               edm::ParameterDescription<double>("amplitudeThresholdEE", 10, true) and
               edm::ParameterDescription<double>("crossCorrelationStartTime", -15.0, true) and
               edm::ParameterDescription<double>("crossCorrelationStopTime", 25.0, true) and
               edm::ParameterDescription<double>("crossCorrelationTargetTimePrecision", 0.01, true) and
               edm::ParameterDescription<double>("crossCorrelationTargetTimePrecisionForDelayedPulses", 0.05, true) and
               edm::ParameterDescription<double>("crossCorrelationTimeShiftWrtRations", 1., true) and
               edm::ParameterDescription<double>("crossCorrelationMinTimeToBeLateMin", 2., true) and
               edm::ParameterDescription<double>("crossCorrelationMinTimeToBeLateMax", 5., true));
 
   return psd;
 }

◆ noisecor() [1/2]

const SampleMatrix& EcalUncalibRecHitWorkerMultiFit::noisecor	(	bool	barrel,
		int	gain
	)		const

inlineprivate

Definition at line 76 of file EcalUncalibRecHitWorkerMultiFit.cc.

References Reference_intrackfit_cff::barrel, PedestalClient_cfi::gain, and noisecors_.

Referenced by run().

76 { return noisecors_[barrel ? 1 : 0][gain]; }

EcalUncalibRecHitWorkerMultiFit::noisecors_

std::array< SampleMatrixGainArray, 2 > noisecors_

Definition: EcalUncalibRecHitWorkerMultiFit.cc:80

PedestalClient_cfi.gain

gain

Definition: PedestalClient_cfi.py:37

Reference_intrackfit_cff.barrel

list barrel

Definition: Reference_intrackfit_cff.py:37

◆ noisecor() [2/2]

const SampleMatrixGainArray& EcalUncalibRecHitWorkerMultiFit::noisecor ( bool barrel ) const

inlineprivate

Definition at line 77 of file EcalUncalibRecHitWorkerMultiFit.cc.

References Reference_intrackfit_cff::barrel, and noisecors_.

77 { return noisecors_[barrel ? 1 : 0]; }

EcalUncalibRecHitWorkerMultiFit::noisecors_

std::array< SampleMatrixGainArray, 2 > noisecors_

Definition: EcalUncalibRecHitWorkerMultiFit.cc:80

Reference_intrackfit_cff.barrel

list barrel

Definition: Reference_intrackfit_cff.py:37

◆ run()

void EcalUncalibRecHitWorkerMultiFit::run	(	const edm::Event &	evt,
		const EcalDigiCollection &	digis,
		EcalUncalibratedRecHitCollection &	result
	)

overrideprivatevirtual

Implements EcalUncalibRecHitWorkerBaseClass.

Definition at line 393 of file EcalUncalibRecHitWorkerMultiFit.cc.

References activeBX, addPedestalUncertaintyEB_, addPedestalUncertaintyEE_, CustomPhysics_cfi::amplitude, amplitudeThreshEB_, amplitudeThreshEE_, Reference_intrackfit_cff::barrel, edm::DataFrameContainer::begin(), CCtargetTimePrecision_, CCtargetTimePrecisionForDelayedPulses_, CCTimeShiftWrtRations_, EcalUncalibRecHitRatioMethodAlgo< C >::computeAmplitude(), computeCC_, EcalUncalibRecHitRatioMethodAlgo< C >::computeTime(), crossCorrelationMethod, doPrefitEB_, doPrefitEE_, dynamicPedestalsEB_, dynamicPedestalsEE_, EBamplitudeFitParameters_, EBtimeConstantTerm_, EcalTimeBiasCorrections::EBTimeCorrAmplitudeBins, EcalTimeBiasCorrections::EBTimeCorrShiftBins, EBtimeFitLimits_, EBtimeFitParameters_, EBtimeNconst_, EcalBarrel, EcalEndcap, EEamplitudeFitParameters_, EEtimeConstantTerm_, EcalTimeBiasCorrections::EETimeCorrAmplitudeBins, EcalTimeBiasCorrections::EETimeCorrShiftBins, EEtimeFitLimits_, EEtimeFitParameters_, EEtimeNconst_, edm::DataFrameContainer::empty(), edm::DataFrameContainer::end(), EcalUncalibRecHitRatioMethodAlgo< C >::fixMGPAslew(), EcalMGPAGainRatio::gain12Over6(), EcalMGPAGainRatio::gain6Over1(), ecalLiteDTU::gainId(), gains, gainSwitchUseMaxSampleEB_, gainSwitchUseMaxSampleEE_, EcalUncalibRecHitRatioMethodAlgo< C >::getCalculatedRecHit(), EcalTimeOffsetConstant::getEBValue(), EcalTimeOffsetConstant::getEEValue(), EcalTBWeights::getMap(), EcalWeightSet::getWeightsAfterGainSwitch(), EcalWeightSet::getWeightsBeforeGainSwitch(), grps, ecalpyutils::hashedIndex(), EBDetId::hashedIndex(), EEDetId::hashedIndex(), mps_fire::i, EcalXtalGroupId::id(), EcalUncalibRecHitRatioMethodAlgo< C >::init(), itime, dqmiolumiharvest::j, EcalUncalibratedRecHit::kHasSwitchToGain1, EcalUncalibratedRecHit::kHasSwitchToGain6, EcalUncalibratedRecHit::kOutOfTime, EcalUncalibratedRecHit::kSaturated, EcalUncalibRecHitMultiFitAlgo::makeRecHit(), EcalDataFrame::MAXSAMPLES, mitigateBadSamplesEB_, mitigateBadSamplesEE_, multiFitMethod_, noisecor(), offtime, outOfTimeThreshG12mEB_, outOfTimeThreshG12mEE_, outOfTimeThreshG12pEB_, outOfTimeThreshG12pEE_, outOfTimeThreshG61mEB_, outOfTimeThreshG61mEE_, outOfTimeThreshG61pEB_, outOfTimeThreshG61pEE_, EcalCondDBWriter_cfi::pedestal, peds, funct::pow(), prefitMaxChiSqEB_, prefitMaxChiSqEE_, edm::ESHandle< T >::product(), pulsecovariances, pulseshapes, ratioMethod, ratioMethod_barrel_, ratioMethod_endcap_, mps_fire::result, ecalPh1::Samp_Period, ecalGpuTask_cfi::sample, sampleMaskHand_, selectiveBadSampleCriteriaEB_, selectiveBadSampleCriteriaEE_, EcalUncalibRecHitMultiFitAlgo::setAddPedestalUncertainty(), EcalUncalibRecHitMultiFitAlgo::setDoPrefit(), EcalUncalibRecHitMultiFitAlgo::setDynamicPedestals(), EcalUncalibRecHitMultiFitAlgo::setGainSwitchUseMaxSample(), EcalUncalibRecHitMultiFitAlgo::setMitigateBadSamples(), EcalUncalibRecHitMultiFitAlgo::setPrefitMaxChiSq(), EcalUncalibRecHitMultiFitAlgo::setSelectiveBadSampleCriteria(), EcalUncalibRecHitMultiFitAlgo::setSimplifiedNoiseModelForGainSwitch(), simplifiedNoiseModelForGainSwitch_, BXVector< T >::size(), edm::DataFrameContainer::size(), mathSSE::sqrt(), EcalPulseShape::TEMPLATESAMPLES, remoteMonitoring_LASER_era2018_cfg::threshold, EcalUncalibRecHitTimeWeightsAlgo< C >::time(), timealgo_, timeCorrBias_, timeCorrection(), weights, weightsMethod, weightsMethod_barrel_, weightsMethod_endcap_, and wgts.

                                                                                     {
   if (digis.empty())
     return;
 
   // assume all digis come from the same subdetector (either barrel or endcap)
   DetId detid(digis.begin()->id());
   bool barrel = (detid.subdetId() == EcalBarrel);
 
   multiFitMethod_.setSimplifiedNoiseModelForGainSwitch(simplifiedNoiseModelForGainSwitch_);
   if (barrel) {
     multiFitMethod_.setDoPrefit(doPrefitEB_);
     multiFitMethod_.setPrefitMaxChiSq(prefitMaxChiSqEB_);
     multiFitMethod_.setDynamicPedestals(dynamicPedestalsEB_);
     multiFitMethod_.setMitigateBadSamples(mitigateBadSamplesEB_);
     multiFitMethod_.setGainSwitchUseMaxSample(gainSwitchUseMaxSampleEB_);
     multiFitMethod_.setSelectiveBadSampleCriteria(selectiveBadSampleCriteriaEB_);
     multiFitMethod_.setAddPedestalUncertainty(addPedestalUncertaintyEB_);
   } else {
     multiFitMethod_.setDoPrefit(doPrefitEE_);
     multiFitMethod_.setPrefitMaxChiSq(prefitMaxChiSqEE_);
     multiFitMethod_.setDynamicPedestals(dynamicPedestalsEE_);
     multiFitMethod_.setMitigateBadSamples(mitigateBadSamplesEE_);
     multiFitMethod_.setGainSwitchUseMaxSample(gainSwitchUseMaxSampleEE_);
     multiFitMethod_.setSelectiveBadSampleCriteria(selectiveBadSampleCriteriaEE_);
     multiFitMethod_.setAddPedestalUncertainty(addPedestalUncertaintyEE_);
   }
 
   FullSampleVector fullpulse(FullSampleVector::Zero());
   FullSampleMatrix fullpulsecov(FullSampleMatrix::Zero());
 
   result.reserve(result.size() + digis.size());
   for (auto itdg = digis.begin(); itdg != digis.end(); ++itdg) {
     DetId detid(itdg->id());
 
     const EcalSampleMask* sampleMask_ = sampleMaskHand_.product();
 
     // intelligence for recHit computation
     float offsetTime = 0;
 
     const EcalPedestals::Item* aped = nullptr;
     const EcalMGPAGainRatio* aGain = nullptr;
     const EcalXtalGroupId* gid = nullptr;
     const EcalPulseShapes::Item* aPulse = nullptr;
     const EcalPulseCovariances::Item* aPulseCov = nullptr;
 
     if (barrel) {
       unsigned int hashedIndex = EBDetId(detid).hashedIndex();
       aped = &peds->barrel(hashedIndex);
       aGain = &gains->barrel(hashedIndex);
       gid = &grps->barrel(hashedIndex);
       aPulse = &pulseshapes->barrel(hashedIndex);
       aPulseCov = &pulsecovariances->barrel(hashedIndex);
       offsetTime = offtime->getEBValue();
     } else {
       unsigned int hashedIndex = EEDetId(detid).hashedIndex();
       aped = &peds->endcap(hashedIndex);
       aGain = &gains->endcap(hashedIndex);
       gid = &grps->endcap(hashedIndex);
       aPulse = &pulseshapes->endcap(hashedIndex);
       aPulseCov = &pulsecovariances->endcap(hashedIndex);
       offsetTime = offtime->getEEValue();
     }
 
     double pedVec[3] = {aped->mean_x12, aped->mean_x6, aped->mean_x1};
     double pedRMSVec[3] = {aped->rms_x12, aped->rms_x6, aped->rms_x1};
     double gainRatios[3] = {1., aGain->gain12Over6(), aGain->gain6Over1() * aGain->gain12Over6()};
 
     for (int i = 0; i < EcalPulseShape::TEMPLATESAMPLES; ++i)
       fullpulse(i + 7) = aPulse->pdfval[i];
 
     for (int i = 0; i < EcalPulseShape::TEMPLATESAMPLES; i++)
       for (int j = 0; j < EcalPulseShape::TEMPLATESAMPLES; j++)
         fullpulsecov(i + 7, j + 7) = aPulseCov->covval[i][j];
 
     // compute the right bin of the pulse shape using time calibration constants
     EcalTimeCalibConstantMap::const_iterator it = itime->find(detid);
     EcalTimeCalibConstant itimeconst = 0;
     if (it != itime->end()) {
       itimeconst = (*it);
     } else {
       edm::LogError("EcalRecHitError") << "No time intercalib const found for xtal " << detid.rawId()
                                        << "! something wrong with EcalTimeCalibConstants in your DB? ";
     }
 
     int lastSampleBeforeSaturation = -2;
     for (unsigned int iSample = 0; iSample < EcalDataFrame::MAXSAMPLES; iSample++) {
       if (((EcalDataFrame)(*itdg)).sample(iSample).gainId() == 0) {
         lastSampleBeforeSaturation = iSample - 1;
         break;
       }
     }
 
     // === amplitude computation ===
 
     if (lastSampleBeforeSaturation == 4) {  // saturation on the expected max sample
       result.emplace_back((*itdg).id(), 4095 * 12, 0, 0, 0);
       auto& uncalibRecHit = result.back();
       uncalibRecHit.setFlagBit(EcalUncalibratedRecHit::kSaturated);
       // do not propagate the default chi2 = -1 value to the calib rechit (mapped to 64), set it to 0 when saturation
       uncalibRecHit.setChi2(0);
     } else if (lastSampleBeforeSaturation >=
                -1) {  // saturation on other samples: cannot extrapolate from the fourth one
       int gainId = ((EcalDataFrame)(*itdg)).sample(5).gainId();
       if (gainId == 0)
         gainId = 3;
       auto pedestal = pedVec[gainId - 1];
       auto gainratio = gainRatios[gainId - 1];
       double amplitude = ((double)(((EcalDataFrame)(*itdg)).sample(5).adc()) - pedestal) * gainratio;
       result.emplace_back((*itdg).id(), amplitude, 0, 0, 0);
       auto& uncalibRecHit = result.back();
       uncalibRecHit.setFlagBit(EcalUncalibratedRecHit::kSaturated);
       // do not propagate the default chi2 = -1 value to the calib rechit (mapped to 64), set it to 0 when saturation
       uncalibRecHit.setChi2(0);
     } else {
       // multifit
       const SampleMatrixGainArray& noisecors = noisecor(barrel);
 
       result.push_back(multiFitMethod_.makeRecHit(*itdg, aped, aGain, noisecors, fullpulse, fullpulsecov, activeBX));
       auto& uncalibRecHit = result.back();
 
       // === time computation ===
       if (timealgo_ == ratioMethod) {
         // ratio method
         constexpr float clockToNsConstant = 25.;
         constexpr float invClockToNs = 1. / clockToNsConstant;
         if (not barrel) {
           ratioMethod_endcap_.init(*itdg, *sampleMask_, pedVec, pedRMSVec, gainRatios);
           ratioMethod_endcap_.computeTime(EEtimeFitParameters_, EEtimeFitLimits_, EEamplitudeFitParameters_);
           ratioMethod_endcap_.computeAmplitude(EEamplitudeFitParameters_);
           EcalUncalibRecHitRatioMethodAlgo<EEDataFrame>::CalculatedRecHit crh =
               ratioMethod_endcap_.getCalculatedRecHit();
           double theTimeCorrectionEE = timeCorrection(
               uncalibRecHit.amplitude(), timeCorrBias_->EETimeCorrAmplitudeBins, timeCorrBias_->EETimeCorrShiftBins);
 
           uncalibRecHit.setJitter(crh.timeMax - 5 + theTimeCorrectionEE);
           uncalibRecHit.setJitterError(
               std::sqrt(std::pow(crh.timeError, 2) + std::pow(EEtimeConstantTerm_ * invClockToNs, 2)));
 
           // consider flagging as kOutOfTime only if above noise
           if (uncalibRecHit.amplitude() > pedRMSVec[0] * amplitudeThreshEE_) {
             float outOfTimeThreshP = outOfTimeThreshG12pEE_;
             float outOfTimeThreshM = outOfTimeThreshG12mEE_;
             // determine if gain has switched away from gainId==1 (x12 gain)
             // and determine cuts (number of 'sigmas') to ose for kOutOfTime
             // >3k ADC is necessasry condition for gain switch to occur
             if (uncalibRecHit.amplitude() > 3000.) {
               for (int iSample = 0; iSample < EEDataFrame::MAXSAMPLES; iSample++) {
                 int GainId = ((EcalDataFrame)(*itdg)).sample(iSample).gainId();
                 if (GainId != 1) {
                   outOfTimeThreshP = outOfTimeThreshG61pEE_;
                   outOfTimeThreshM = outOfTimeThreshG61mEE_;
                   break;
                 }
               }
             }
             float correctedTime = (crh.timeMax - 5) * clockToNsConstant + itimeconst + offsetTime;
             float cterm = EEtimeConstantTerm_;
             float sigmaped = pedRMSVec[0];  // approx for lower gains
             float nterm = EEtimeNconst_ * sigmaped / uncalibRecHit.amplitude();
             float sigmat = std::sqrt(nterm * nterm + cterm * cterm);
             if ((correctedTime > sigmat * outOfTimeThreshP) || (correctedTime < -sigmat * outOfTimeThreshM)) {
               uncalibRecHit.setFlagBit(EcalUncalibratedRecHit::kOutOfTime);
             }
           }
 
         } else {
           ratioMethod_barrel_.init(*itdg, *sampleMask_, pedVec, pedRMSVec, gainRatios);
           ratioMethod_barrel_.fixMGPAslew(*itdg);
           ratioMethod_barrel_.computeTime(EBtimeFitParameters_, EBtimeFitLimits_, EBamplitudeFitParameters_);
           ratioMethod_barrel_.computeAmplitude(EBamplitudeFitParameters_);
           EcalUncalibRecHitRatioMethodAlgo<EBDataFrame>::CalculatedRecHit crh =
               ratioMethod_barrel_.getCalculatedRecHit();
 
           double theTimeCorrectionEB = timeCorrection(
               uncalibRecHit.amplitude(), timeCorrBias_->EBTimeCorrAmplitudeBins, timeCorrBias_->EBTimeCorrShiftBins);
 
           uncalibRecHit.setJitter(crh.timeMax - 5 + theTimeCorrectionEB);
           uncalibRecHit.setJitterError(std::hypot(crh.timeError, EBtimeConstantTerm_ / clockToNsConstant));
 
           // consider flagging as kOutOfTime only if above noise
           if (uncalibRecHit.amplitude() > pedRMSVec[0] * amplitudeThreshEB_) {
             float outOfTimeThreshP = outOfTimeThreshG12pEB_;
             float outOfTimeThreshM = outOfTimeThreshG12mEB_;
             // determine if gain has switched away from gainId==1 (x12 gain)
             // and determine cuts (number of 'sigmas') to ose for kOutOfTime
             // >3k ADC is necessasry condition for gain switch to occur
             if (uncalibRecHit.amplitude() > 3000.) {
               for (int iSample = 0; iSample < EBDataFrame::MAXSAMPLES; iSample++) {
                 int GainId = ((EcalDataFrame)(*itdg)).sample(iSample).gainId();
                 if (GainId != 1) {
                   outOfTimeThreshP = outOfTimeThreshG61pEB_;
                   outOfTimeThreshM = outOfTimeThreshG61mEB_;
                   break;
                 }
               }
             }
             float correctedTime = (crh.timeMax - 5) * clockToNsConstant + itimeconst + offsetTime;
             float cterm = EBtimeConstantTerm_;
             float sigmaped = pedRMSVec[0];  // approx for lower gains
             float nterm = EBtimeNconst_ * sigmaped / uncalibRecHit.amplitude();
             float sigmat = std::sqrt(nterm * nterm + cterm * cterm);
             if ((correctedTime > sigmat * outOfTimeThreshP) || (correctedTime < -sigmat * outOfTimeThreshM)) {
               uncalibRecHit.setFlagBit(EcalUncalibratedRecHit::kOutOfTime);
             }
           }
         }
       } else if (timealgo_ == weightsMethod) {
         //  weights method on the PU subtracted pulse shape
         std::vector<double> amplitudes;
         for (unsigned int ibx = 0; ibx < activeBX.size(); ++ibx)
           amplitudes.push_back(uncalibRecHit.outOfTimeAmplitude(ibx));
 
         EcalTBWeights::EcalTDCId tdcid(1);
         EcalTBWeights::EcalTBWeightMap const& wgtsMap = wgts->getMap();
         EcalTBWeights::EcalTBWeightMap::const_iterator wit;
         wit = wgtsMap.find(std::make_pair(*gid, tdcid));
         if (wit == wgtsMap.end()) {
           edm::LogError("EcalUncalibRecHitError")
               << "No weights found for EcalGroupId: " << gid->id() << " and  EcalTDCId: " << tdcid
               << "\n  skipping digi with id: " << detid.rawId();
           result.pop_back();
           continue;
         }
         const EcalWeightSet& wset = wit->second;  // this is the EcalWeightSet
 
         const EcalWeightSet::EcalWeightMatrix& mat1 = wset.getWeightsBeforeGainSwitch();
         const EcalWeightSet::EcalWeightMatrix& mat2 = wset.getWeightsAfterGainSwitch();
 
         weights[0] = &mat1;
         weights[1] = &mat2;
 
         double timerh;
         if (detid.subdetId() == EcalEndcap) {
           timerh = weightsMethod_endcap_.time(*itdg, amplitudes, aped, aGain, fullpulse, weights);
         } else {
           timerh = weightsMethod_barrel_.time(*itdg, amplitudes, aped, aGain, fullpulse, weights);
         }
         uncalibRecHit.setJitter(timerh);
         uncalibRecHit.setJitterError(0.);  // not computed with weights
 
       } else if (timealgo_ == crossCorrelationMethod) {
         std::vector<double> amplitudes(activeBX.size());
         for (unsigned int ibx = 0; ibx < activeBX.size(); ++ibx)
           amplitudes[ibx] = uncalibRecHit.outOfTimeAmplitude(ibx);
 
         float jitterError = 0.;
         float jitter =
             computeCC_->computeTimeCC(
                 *itdg, amplitudes, aped, aGain, fullpulse, uncalibRecHit, jitterError, CCtargetTimePrecision_, true) +
             CCTimeShiftWrtRations_ / ecalPh1::Samp_Period;
         float noCorrectedJitter = computeCC_->computeTimeCC(*itdg,
                                                             amplitudes,
                                                             aped,
                                                             aGain,
                                                             fullpulse,
                                                             uncalibRecHit,
                                                             jitterError,
                                                             CCtargetTimePrecisionForDelayedPulses_,
                                                             false) +
                                   CCTimeShiftWrtRations_ / ecalPh1::Samp_Period;
 
         uncalibRecHit.setJitter(jitter);
         uncalibRecHit.setJitterError(jitterError);
 
         // consider flagging as kOutOfTime only if above noise
         float threshold, cterm, timeNconst;
         float timeThrP = 0.;
         float timeThrM = 0.;
         if (barrel) {
           threshold = pedRMSVec[0] * amplitudeThreshEB_;
           cterm = EBtimeConstantTerm_;
           timeNconst = EBtimeNconst_;
           timeThrP = outOfTimeThreshG12pEB_;
           timeThrM = outOfTimeThreshG12mEB_;
           if (uncalibRecHit.amplitude() > 3000.) {  // Gain switch
             for (int iSample = 0; iSample < EBDataFrame::MAXSAMPLES; iSample++) {
               int GainId = ((EcalDataFrame)(*itdg)).sample(iSample).gainId();
               if (GainId != 1) {
                 timeThrP = outOfTimeThreshG61pEB_;
                 timeThrM = outOfTimeThreshG61mEB_;
                 break;
               }
             }
           }
         } else {  //EndCap
           threshold = pedRMSVec[0] * amplitudeThreshEE_;
           cterm = EEtimeConstantTerm_;
           timeNconst = EEtimeNconst_;
           timeThrP = outOfTimeThreshG12pEE_;
           timeThrM = outOfTimeThreshG12mEE_;
           if (uncalibRecHit.amplitude() > 3000.) {  // Gain switch
             for (int iSample = 0; iSample < EEDataFrame::MAXSAMPLES; iSample++) {
               int GainId = ((EcalDataFrame)(*itdg)).sample(iSample).gainId();
               if (GainId != 1) {
                 timeThrP = outOfTimeThreshG61pEE_;
                 timeThrM = outOfTimeThreshG61mEE_;
                 break;
               }
             }
           }
         }
         if (uncalibRecHit.amplitude() > threshold) {
           float correctedTime = noCorrectedJitter * ecalPh1::Samp_Period + itimeconst + offsetTime;
           float sigmaped = pedRMSVec[0];  // approx for lower gains
           float nterm = timeNconst * sigmaped / uncalibRecHit.amplitude();
           float sigmat = std::sqrt(nterm * nterm + cterm * cterm);
           if ((correctedTime > sigmat * timeThrP) || (correctedTime < -sigmat * timeThrM))
             uncalibRecHit.setFlagBit(EcalUncalibratedRecHit::kOutOfTime);
         }
 
       } else {  // no time method;
         uncalibRecHit.setJitter(0.);
         uncalibRecHit.setJitterError(0.);
       }
     }
 
     // set flags if gain switch has occurred
     auto& uncalibRecHit = result.back();
     if (((EcalDataFrame)(*itdg)).hasSwitchToGain6())
       uncalibRecHit.setFlagBit(EcalUncalibratedRecHit::kHasSwitchToGain6);
     if (((EcalDataFrame)(*itdg)).hasSwitchToGain1())
       uncalibRecHit.setFlagBit(EcalUncalibratedRecHit::kHasSwitchToGain1);
   }
 }

◆ set() [1/2]

void EcalUncalibRecHitWorkerMultiFit::set ( const edm::EventSetup & es )

overrideprivatevirtual

Implements EcalUncalibRecHitWorkerBaseClass.

Definition at line 267 of file EcalUncalibRecHitWorkerMultiFit.cc.

References funct::abs(), ampErrorCalculation_, EcalUncalibRecHitMultiFitAlgo::disableErrorCalculation(), EcalSamplesCorrelation::EBG12SamplesCorrelation, EcalSamplesCorrelation::EBG1SamplesCorrelation, EcalSamplesCorrelation::EBG6SamplesCorrelation, EcalSamplesCorrelation::EEG12SamplesCorrelation, EcalSamplesCorrelation::EEG1SamplesCorrelation, EcalSamplesCorrelation::EEG6SamplesCorrelation, gains, gainsToken_, edm::EventSetup::getHandle(), grps, grpsToken_, mps_fire::i, itime, itimeToken_, dqmiolumiharvest::j, multiFitMethod_, noiseConvariancesToken_, noisecors_, noisecovariances, offtime, offtimeToken_, peds, pedsToken_, pulseConvariancesToken_, pulsecovariances, pulseshapes, pulseShapesToken_, sampleMaskHand_, sampleMaskToken_, timeCorrBias_, timeCorrBiasToken_, wgts, and wgtsToken_.

                                                                  {
   // common setup
   gains = es.getHandle(gainsToken_);
   peds = es.getHandle(pedsToken_);
 
   // for the multifit method
   if (!ampErrorCalculation_)
     multiFitMethod_.disableErrorCalculation();
   noisecovariances = es.getHandle(noiseConvariancesToken_);
   pulseshapes = es.getHandle(pulseShapesToken_);
   pulsecovariances = es.getHandle(pulseConvariancesToken_);
 
   // weights parameters for the time
   grps = es.getHandle(grpsToken_);
   wgts = es.getHandle(wgtsToken_);
 
   // which of the samples need be used
   sampleMaskHand_ = es.getHandle(sampleMaskToken_);
 
   // for the ratio method
   itime = es.getHandle(itimeToken_);
   offtime = es.getHandle(offtimeToken_);
 
   // for the time correction methods
   timeCorrBias_ = es.getHandle(timeCorrBiasToken_);
 
   int nnoise = SampleVector::RowsAtCompileTime;
   SampleMatrix& noisecorEBg12 = noisecors_[1][0];
   SampleMatrix& noisecorEBg6 = noisecors_[1][1];
   SampleMatrix& noisecorEBg1 = noisecors_[1][2];
   SampleMatrix& noisecorEEg12 = noisecors_[0][0];
   SampleMatrix& noisecorEEg6 = noisecors_[0][1];
   SampleMatrix& noisecorEEg1 = noisecors_[0][2];
 
   for (int i = 0; i < nnoise; ++i) {
     for (int j = 0; j < nnoise; ++j) {
       int vidx = std::abs(j - i);
       noisecorEBg12(i, j) = noisecovariances->EBG12SamplesCorrelation[vidx];
       noisecorEEg12(i, j) = noisecovariances->EEG12SamplesCorrelation[vidx];
       noisecorEBg6(i, j) = noisecovariances->EBG6SamplesCorrelation[vidx];
       noisecorEEg6(i, j) = noisecovariances->EEG6SamplesCorrelation[vidx];
       noisecorEBg1(i, j) = noisecovariances->EBG1SamplesCorrelation[vidx];
       noisecorEEg1(i, j) = noisecovariances->EEG1SamplesCorrelation[vidx];
     }
   }
 }

◆ set() [2/2]

void EcalUncalibRecHitWorkerMultiFit::set ( const edm::Event & evt )

overrideprivatevirtual

Reimplemented from EcalUncalibRecHitWorkerBaseClass.

Definition at line 314 of file EcalUncalibRecHitWorkerMultiFit.cc.

References activeBX, bunchSpacing_, bunchSpacingManual_, edm::Event::getByToken(), BXVector< T >::resize(), and useLumiInfoRunHeader_.

                                                              {
   unsigned int bunchspacing = 450;
 
   if (useLumiInfoRunHeader_) {
     edm::Handle<unsigned int> bunchSpacingH;
     evt.getByToken(bunchSpacing_, bunchSpacingH);
     bunchspacing = *bunchSpacingH;
   } else {
     bunchspacing = bunchSpacingManual_;
   }
 
   if (useLumiInfoRunHeader_ || bunchSpacingManual_ > 0) {
     if (bunchspacing == 25) {
       activeBX.resize(10);
       activeBX << -5, -4, -3, -2, -1, 0, 1, 2, 3, 4;
     } else {
       //50ns configuration otherwise (also for no pileup)
       activeBX.resize(5);
       activeBX << -4, -2, 0, 2, 4;
     }
   }
 }

◆ timeCorrection()

double EcalUncalibRecHitWorkerMultiFit::timeCorrection	(	float	ampli,
		const std::vector< float > &	amplitudeBins,
		const std::vector< float > &	shiftBins
	)

private

Amplitude-dependent time corrections; EE and EB have separate corrections: EXtimeCorrAmplitudes (ADC) and EXtimeCorrShifts (ns) need to have the same number of elements Bins must be ordered in amplitude. First-last bins take care of under-overflows.

The algorithm is the same for EE and EB, only the correction vectors are different.

Returns: Jitter (in clock cycles) which will be added to UncalibRechit.setJitter(), 0 if no correction is applied.

Definition at line 346 of file EcalUncalibRecHitWorkerMultiFit.cc.

References newFWLiteAna::bin, and createfilelist::int.

Referenced by run().

                                                                                           {
   // computed initially in ns. Than turned in the BX's, as
   // EcalUncalibratedRecHit need be.
   double theCorrection = 0;
 
   // sanity check for arrays
   if (amplitudeBins.empty()) {
     edm::LogError("EcalRecHitError") << "timeCorrAmplitudeBins is empty, forcing no time bias corrections.";
 
     return 0;
   }
 
   if (amplitudeBins.size() != shiftBins.size()) {
     edm::LogError("EcalRecHitError") << "Size of timeCorrAmplitudeBins different from "
                                         "timeCorrShiftBins. Forcing no time bias corrections. ";
 
     return 0;
   }
 
   // FIXME? what about a binary search?
   int myBin = -1;
   for (int bin = 0; bin < (int)amplitudeBins.size(); bin++) {
     if (ampli > amplitudeBins[bin]) {
       myBin = bin;
     } else {
       break;
     }
   }
 
   if (myBin == -1) {
     theCorrection = shiftBins[0];
   } else if (myBin == ((int)(amplitudeBins.size() - 1))) {
     theCorrection = shiftBins[myBin];
   } else {
     // interpolate linearly between two assingned points
     theCorrection = (shiftBins[myBin + 1] - shiftBins[myBin]);
     theCorrection *= (((double)ampli) - amplitudeBins[myBin]) / (amplitudeBins[myBin + 1] - amplitudeBins[myBin]);
     theCorrection += shiftBins[myBin];
   }
 
   // convert ns into clocks
   constexpr double inv25 = 1. / 25.;
   return theCorrection * inv25;
 }

Member Data Documentation

◆ activeBX

BXVector EcalUncalibRecHitWorkerMultiFit::activeBX

private

Definition at line 81 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), run(), and set().

◆ addPedestalUncertaintyEB_

double EcalUncalibRecHitWorkerMultiFit::addPedestalUncertaintyEB_

private

Definition at line 117 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and run().

◆ addPedestalUncertaintyEE_

double EcalUncalibRecHitWorkerMultiFit::addPedestalUncertaintyEE_

private

Definition at line 118 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and run().

◆ ampErrorCalculation_

bool EcalUncalibRecHitWorkerMultiFit::ampErrorCalculation_

private

Definition at line 82 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and set().

◆ amplitudeThreshEB_

double EcalUncalibRecHitWorkerMultiFit::amplitudeThreshEB_

private

Definition at line 144 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and run().

◆ amplitudeThreshEE_

double EcalUncalibRecHitWorkerMultiFit::amplitudeThreshEE_

private

Definition at line 145 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and run().

◆ bunchSpacing_

edm::EDGetTokenT<unsigned int> EcalUncalibRecHitWorkerMultiFit::bunchSpacing_

private

Definition at line 87 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and set().

◆ bunchSpacingManual_

int EcalUncalibRecHitWorkerMultiFit::bunchSpacingManual_

private

Definition at line 86 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and set().

◆ CCminTimeToBeLateMax_

double EcalUncalibRecHitWorkerMultiFit::CCminTimeToBeLateMax_

private

Definition at line 167 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit().

◆ CCminTimeToBeLateMin_

double EcalUncalibRecHitWorkerMultiFit::CCminTimeToBeLateMin_

private

Definition at line 166 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit().

◆ CCtargetTimePrecision_

double EcalUncalibRecHitWorkerMultiFit::CCtargetTimePrecision_

private

Definition at line 169 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and run().

◆ CCtargetTimePrecisionForDelayedPulses_

double EcalUncalibRecHitWorkerMultiFit::CCtargetTimePrecisionForDelayedPulses_

private

Definition at line 170 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and run().

◆ CCTimeShiftWrtRations_

double EcalUncalibRecHitWorkerMultiFit::CCTimeShiftWrtRations_

private

Definition at line 168 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and run().

◆ chi2ThreshEB_

double EcalUncalibRecHitWorkerMultiFit::chi2ThreshEB_

private

Definition at line 161 of file EcalUncalibRecHitWorkerMultiFit.cc.

◆ chi2ThreshEE_

double EcalUncalibRecHitWorkerMultiFit::chi2ThreshEE_

private

Definition at line 162 of file EcalUncalibRecHitWorkerMultiFit.cc.

◆ computeCC_

std::unique_ptr<EcalUncalibRecHitTimingCCAlgo> EcalUncalibRecHitWorkerMultiFit::computeCC_

private

Definition at line 165 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and run().

◆ doPrefitEB_

bool EcalUncalibRecHitWorkerMultiFit::doPrefitEB_

private

Definition at line 105 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and run().

◆ doPrefitEE_

bool EcalUncalibRecHitWorkerMultiFit::doPrefitEE_

private

Definition at line 106 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and run().

◆ dynamicPedestalsEB_

bool EcalUncalibRecHitWorkerMultiFit::dynamicPedestalsEB_

private

Definition at line 109 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and run().

◆ dynamicPedestalsEE_

bool EcalUncalibRecHitWorkerMultiFit::dynamicPedestalsEE_

private

Definition at line 110 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and run().

◆ EBamplitudeFitParameters_

std::vector<double> EcalUncalibRecHitWorkerMultiFit::EBamplitudeFitParameters_

private

Definition at line 124 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and run().

◆ ebPulseShape_

std::vector<double> EcalUncalibRecHitWorkerMultiFit::ebPulseShape_

private

Definition at line 155 of file EcalUncalibRecHitWorkerMultiFit.cc.

◆ ebSpikeThresh_

double EcalUncalibRecHitWorkerMultiFit::ebSpikeThresh_

private

Definition at line 146 of file EcalUncalibRecHitWorkerMultiFit.cc.

◆ EBtimeConstantTerm_

double EcalUncalibRecHitWorkerMultiFit::EBtimeConstantTerm_

private

Definition at line 132 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and run().

◆ EBtimeFitLimits_

std::pair<double, double> EcalUncalibRecHitWorkerMultiFit::EBtimeFitLimits_

private

Definition at line 126 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and run().

◆ EBtimeFitParameters_

std::vector<double> EcalUncalibRecHitWorkerMultiFit::EBtimeFitParameters_

private

Definition at line 122 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and run().

◆ EBtimeNconst_

double EcalUncalibRecHitWorkerMultiFit::EBtimeNconst_

private

Definition at line 134 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and run().

◆ EEamplitudeFitParameters_

std::vector<double> EcalUncalibRecHitWorkerMultiFit::EEamplitudeFitParameters_

private

Definition at line 125 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and run().

◆ eePulseShape_

std::vector<double> EcalUncalibRecHitWorkerMultiFit::eePulseShape_

private

Definition at line 156 of file EcalUncalibRecHitWorkerMultiFit.cc.

◆ EEtimeConstantTerm_

double EcalUncalibRecHitWorkerMultiFit::EEtimeConstantTerm_

private

Definition at line 133 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and run().

◆ EEtimeFitLimits_

std::pair<double, double> EcalUncalibRecHitWorkerMultiFit::EEtimeFitLimits_

private

Definition at line 127 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and run().

◆ EEtimeFitParameters_

std::vector<double> EcalUncalibRecHitWorkerMultiFit::EEtimeFitParameters_

private

Definition at line 123 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and run().

◆ EEtimeNconst_

double EcalUncalibRecHitWorkerMultiFit::EEtimeNconst_

private

Definition at line 135 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and run().

◆ gains

edm::ESHandle<EcalGainRatios> EcalUncalibRecHitWorkerMultiFit::gains

private

Definition at line 65 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by run(), and set().

◆ gainsToken_

edm::ESGetToken<EcalGainRatios, EcalGainRatiosRcd> EcalUncalibRecHitWorkerMultiFit::gainsToken_

private

Definition at line 66 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and set().

◆ gainSwitchUseMaxSampleEB_

bool EcalUncalibRecHitWorkerMultiFit::gainSwitchUseMaxSampleEB_

private

Definition at line 113 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and run().

◆ gainSwitchUseMaxSampleEE_

bool EcalUncalibRecHitWorkerMultiFit::gainSwitchUseMaxSampleEE_

private

Definition at line 114 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and run().

◆ grps

edm::ESHandle<EcalWeightXtalGroups> EcalUncalibRecHitWorkerMultiFit::grps

private

Definition at line 98 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by run(), and set().

◆ grpsToken_

edm::ESGetToken<EcalWeightXtalGroups, EcalWeightXtalGroupsRcd> EcalUncalibRecHitWorkerMultiFit::grpsToken_

private

Definition at line 99 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and set().

◆ itime

edm::ESHandle<EcalTimeCalibConstants> EcalUncalibRecHitWorkerMultiFit::itime

private

Definition at line 151 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by run(), and set().

◆ itimeToken_

edm::ESGetToken<EcalTimeCalibConstants, EcalTimeCalibConstantsRcd> EcalUncalibRecHitWorkerMultiFit::itimeToken_

private

Definition at line 152 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and set().

◆ kPoorRecoFlagEB_

bool EcalUncalibRecHitWorkerMultiFit::kPoorRecoFlagEB_

private

Definition at line 159 of file EcalUncalibRecHitWorkerMultiFit.cc.

◆ kPoorRecoFlagEE_

bool EcalUncalibRecHitWorkerMultiFit::kPoorRecoFlagEE_

private

Definition at line 160 of file EcalUncalibRecHitWorkerMultiFit.cc.

◆ mitigateBadSamplesEB_

bool EcalUncalibRecHitWorkerMultiFit::mitigateBadSamplesEB_

private

Definition at line 111 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and run().

◆ mitigateBadSamplesEE_

bool EcalUncalibRecHitWorkerMultiFit::mitigateBadSamplesEE_

private

Definition at line 112 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and run().

◆ multiFitMethod_

EcalUncalibRecHitMultiFitAlgo EcalUncalibRecHitWorkerMultiFit::multiFitMethod_

private

Definition at line 84 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by run(), and set().

◆ noiseConvariancesToken_

edm::ESGetToken<EcalSamplesCorrelation, EcalSamplesCorrelationRcd> EcalUncalibRecHitWorkerMultiFit::noiseConvariancesToken_

private

Definition at line 68 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and set().

◆ noisecors_

std::array<SampleMatrixGainArray, 2> EcalUncalibRecHitWorkerMultiFit::noisecors_

private

Definition at line 80 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by noisecor(), and set().

◆ noisecovariances

edm::ESHandle<EcalSamplesCorrelation> EcalUncalibRecHitWorkerMultiFit::noisecovariances

private

Definition at line 67 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by set().

◆ offtime

edm::ESHandle<EcalTimeOffsetConstant> EcalUncalibRecHitWorkerMultiFit::offtime

private

Definition at line 153 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by run(), and set().

◆ offtimeToken_

edm::ESGetToken<EcalTimeOffsetConstant, EcalTimeOffsetConstantRcd> EcalUncalibRecHitWorkerMultiFit::offtimeToken_

private

Definition at line 154 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and set().

◆ outOfTimeThreshG12mEB_

double EcalUncalibRecHitWorkerMultiFit::outOfTimeThreshG12mEB_

private

Definition at line 137 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and run().

◆ outOfTimeThreshG12mEE_

double EcalUncalibRecHitWorkerMultiFit::outOfTimeThreshG12mEE_

private

Definition at line 141 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and run().

◆ outOfTimeThreshG12pEB_

double EcalUncalibRecHitWorkerMultiFit::outOfTimeThreshG12pEB_

private

Definition at line 136 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and run().

◆ outOfTimeThreshG12pEE_

double EcalUncalibRecHitWorkerMultiFit::outOfTimeThreshG12pEE_

private

Definition at line 140 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and run().

◆ outOfTimeThreshG61mEB_

double EcalUncalibRecHitWorkerMultiFit::outOfTimeThreshG61mEB_

private

Definition at line 139 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and run().

◆ outOfTimeThreshG61mEE_

double EcalUncalibRecHitWorkerMultiFit::outOfTimeThreshG61mEE_

private

Definition at line 143 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and run().

◆ outOfTimeThreshG61pEB_

double EcalUncalibRecHitWorkerMultiFit::outOfTimeThreshG61pEB_

private

Definition at line 138 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and run().

◆ outOfTimeThreshG61pEE_

double EcalUncalibRecHitWorkerMultiFit::outOfTimeThreshG61pEE_

private

Definition at line 142 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and run().

◆ peds

edm::ESHandle<EcalPedestals> EcalUncalibRecHitWorkerMultiFit::peds

private

Definition at line 63 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by run(), and set().

◆ pedsToken_

edm::ESGetToken<EcalPedestals, EcalPedestalsRcd> EcalUncalibRecHitWorkerMultiFit::pedsToken_

private

Definition at line 64 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and set().

◆ prefitMaxChiSqEB_

double EcalUncalibRecHitWorkerMultiFit::prefitMaxChiSqEB_

private

Definition at line 107 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and run().

◆ prefitMaxChiSqEE_

double EcalUncalibRecHitWorkerMultiFit::prefitMaxChiSqEE_

private

Definition at line 108 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and run().

◆ pulseConvariancesToken_

edm::ESGetToken<EcalPulseCovariances, EcalPulseCovariancesRcd> EcalUncalibRecHitWorkerMultiFit::pulseConvariancesToken_

private

Definition at line 72 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and set().

◆ pulsecovariances

edm::ESHandle<EcalPulseCovariances> EcalUncalibRecHitWorkerMultiFit::pulsecovariances

private

Definition at line 71 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by run(), and set().

◆ pulseshapes

edm::ESHandle<EcalPulseShapes> EcalUncalibRecHitWorkerMultiFit::pulseshapes

private

Definition at line 69 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by run(), and set().

◆ pulseShapesToken_

edm::ESGetToken<EcalPulseShapes, EcalPulseShapesRcd> EcalUncalibRecHitWorkerMultiFit::pulseShapesToken_

private

Definition at line 70 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and set().

◆ ratioMethod_barrel_

EcalUncalibRecHitRatioMethodAlgo<EBDataFrame> EcalUncalibRecHitWorkerMultiFit::ratioMethod_barrel_

private

Definition at line 129 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by run().

◆ ratioMethod_endcap_

EcalUncalibRecHitRatioMethodAlgo<EEDataFrame> EcalUncalibRecHitWorkerMultiFit::ratioMethod_endcap_

private

Definition at line 130 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by run().

◆ sampleMaskHand_

edm::ESHandle<EcalSampleMask> EcalUncalibRecHitWorkerMultiFit::sampleMaskHand_

private

Definition at line 90 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by run(), and set().

◆ sampleMaskToken_

edm::ESGetToken<EcalSampleMask, EcalSampleMaskRcd> EcalUncalibRecHitWorkerMultiFit::sampleMaskToken_

private

Definition at line 91 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and set().

◆ selectiveBadSampleCriteriaEB_

bool EcalUncalibRecHitWorkerMultiFit::selectiveBadSampleCriteriaEB_

private

Definition at line 115 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and run().

◆ selectiveBadSampleCriteriaEE_

bool EcalUncalibRecHitWorkerMultiFit::selectiveBadSampleCriteriaEE_

private

Definition at line 116 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and run().

◆ simplifiedNoiseModelForGainSwitch_

bool EcalUncalibRecHitWorkerMultiFit::simplifiedNoiseModelForGainSwitch_

private

Definition at line 119 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and run().

◆ timealgo_

TimeAlgo EcalUncalibRecHitWorkerMultiFit::timealgo_ = noMethod

private

Definition at line 95 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and run().

◆ timeCorrBias_

edm::ESHandle<EcalTimeBiasCorrections> EcalUncalibRecHitWorkerMultiFit::timeCorrBias_

private

Definition at line 148 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by run(), and set().

◆ timeCorrBiasToken_

edm::ESGetToken<EcalTimeBiasCorrections, EcalTimeBiasCorrectionsRcd> EcalUncalibRecHitWorkerMultiFit::timeCorrBiasToken_

private

Definition at line 149 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and set().

◆ useLumiInfoRunHeader_

bool EcalUncalibRecHitWorkerMultiFit::useLumiInfoRunHeader_

private

Definition at line 83 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and set().

◆ weights

const EcalWeightSet::EcalWeightMatrix* EcalUncalibRecHitWorkerMultiFit::weights[2]

private

Definition at line 102 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by run().

◆ weightsMethod_barrel_

EcalUncalibRecHitTimeWeightsAlgo<EBDataFrame> EcalUncalibRecHitWorkerMultiFit::weightsMethod_barrel_

private

Definition at line 103 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by run().

◆ weightsMethod_endcap_

EcalUncalibRecHitTimeWeightsAlgo<EEDataFrame> EcalUncalibRecHitWorkerMultiFit::weightsMethod_endcap_

private

Definition at line 104 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by run().

◆ wgts

edm::ESHandle<EcalTBWeights> EcalUncalibRecHitWorkerMultiFit::wgts

private

Definition at line 100 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by run(), and set().

◆ wgtsToken_

edm::ESGetToken<EcalTBWeights, EcalTBWeightsRcd> EcalUncalibRecHitWorkerMultiFit::wgtsToken_

private

Definition at line 101 of file EcalUncalibRecHitWorkerMultiFit.cc.

Referenced by EcalUncalibRecHitWorkerMultiFit(), and set().

Public Member Functions

Private Types

Private Member Functions

Private Attributes

Detailed Description

Member Enumeration Documentation

◆ TimeAlgo

Constructor & Destructor Documentation

◆ EcalUncalibRecHitWorkerMultiFit() [1/2]

◆ EcalUncalibRecHitWorkerMultiFit() [2/2]

Member Function Documentation

◆ getAlgoDescription()

◆ noisecor() [1/2]

◆ noisecor() [2/2]

◆ run()

◆ set() [1/2]

◆ set() [2/2]

◆ timeCorrection()

Member Data Documentation

◆ activeBX

◆ addPedestalUncertaintyEB_

◆ addPedestalUncertaintyEE_

◆ ampErrorCalculation_

◆ amplitudeThreshEB_

◆ amplitudeThreshEE_

◆ bunchSpacing_

◆ bunchSpacingManual_

◆ CCminTimeToBeLateMax_

◆ CCminTimeToBeLateMin_

◆ CCtargetTimePrecision_

◆ CCtargetTimePrecisionForDelayedPulses_

◆ CCTimeShiftWrtRations_

◆ chi2ThreshEB_

◆ chi2ThreshEE_

◆ computeCC_

◆ doPrefitEB_

◆ doPrefitEE_

◆ dynamicPedestalsEB_

◆ dynamicPedestalsEE_

◆ EBamplitudeFitParameters_

◆ ebPulseShape_

◆ ebSpikeThresh_

◆ EBtimeConstantTerm_

◆ EBtimeFitLimits_

◆ EBtimeFitParameters_

◆ EBtimeNconst_

◆ EEamplitudeFitParameters_

◆ eePulseShape_

◆ EEtimeConstantTerm_

◆ EEtimeFitLimits_

◆ EEtimeFitParameters_

◆ EEtimeNconst_

◆ gains

◆ gainsToken_

◆ gainSwitchUseMaxSampleEB_

◆ gainSwitchUseMaxSampleEE_

◆ grps

◆ grpsToken_

◆ itime

◆ itimeToken_

◆ kPoorRecoFlagEB_

◆ kPoorRecoFlagEE_

◆ mitigateBadSamplesEB_

◆ mitigateBadSamplesEE_

◆ multiFitMethod_

◆ noiseConvariancesToken_

◆ noisecors_

◆ noisecovariances

◆ offtime

◆ offtimeToken_

◆ outOfTimeThreshG12mEB_

◆ outOfTimeThreshG12mEE_

◆ outOfTimeThreshG12pEB_

◆ outOfTimeThreshG12pEE_

◆ outOfTimeThreshG61mEB_

◆ outOfTimeThreshG61mEE_

◆ outOfTimeThreshG61pEB_

◆ outOfTimeThreshG61pEE_

◆ peds

◆ pedsToken_