ORCA_8_6_1 Reference Manual

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orcarc

Name	Type	Default	Class	Description
Ecal:SelectiveReadoutGridSize	int	1	EcalSelectiveReadoutTowerConfigurables	Readout 3x3(0) or 5x5(1) tower blocks
Ecal:SelectiveReadoutThreshold:low	float	2.5	EcalSelectiveReadoutTowerConfigurables	Set lower SR threshold
Ecal:SelectiveReadoutThreshold:high	float	5.0	EcalSelectiveReadoutTowerConfigurables	Set upper SR threshold
Ecal:SelectiveReadoutSingles	bool	False	EcalSelectiveReadoutTowerConfigurables	Turn singles on / off
Ecal:SelectiveReadoutSingles:usethreshold	bool	False	EcalSelectiveReadoutTowerConfigurables	Use a ZS threshold(Singles)
Ecal:SelectiveReadoutSingles:Barrel:threshold	float	0.0	EcalSelectiveReadoutTowerConfigurables	Set barrel threshold
Ecal:SelectiveReadoutSingles:Endcap:threshold	float	0.0	EcalSelectiveReadoutTowerConfigurables	Set endcap threshold
Ecal:SelectiveReadoutTowers:usethreshold	bool	False	EcalSelectiveReadoutTowerConfigurables	Use a ZS threshold(Towers)
Ecal:SelectiveReadoutTowers:Barrel:threshold	float	0.0	EcalSelectiveReadoutTowerConfigurables	Set barrel threshold
Ecal:SelectiveReadoutTowers:Endcap:threshold	float	0.0	EcalSelectiveReadoutTowerConfigurables	Set endcap threshold
PSimHit:TofNormalizationFactor	float	0.01	PSimHit	Time of flight normalization
EgColl:Name	string	myColl	EgammaCollections	name of the user collection to be created/appended
>>>In case a collection of name CollName is defined then the following parameter is available	-	-	-	-
Collname	string	usernameDB/MyObjs/Collname	classoclass	the full qualified path of the collection
-	-	-	-	-
MCKINE_PTCUT	Float	1.0	MCKineAnalyzer	Pt cut on Kine tracks (Chris)
MCKINE_BREMPTCUT	float	0.1	MCKineAnalyzer	Pt cut on Brem photons (Chris)
-	-	-	-	-
HEPL1EM_PTCUT	float	0.3	HepL1emTrigger	Pt cut on Hep L1 particles (Chris)
HEPL1EM_ETIGNORE	Float	2.0	HepL1emTrigger	max et of ignored particles in HepL1 (Chris)
HEPL1EM_NCAND	int	4	HepL1emTrigger	no of stored HepL1 candidates (Chris)
-	-	-	-	-
EGBCluster::MaxEntry	int	500	EgammaClusterInit	Max no. of entries for BC in ntuple
-	-	-	-	-
EGBasicIsland:BarrelSeedThr	float	0.5	EgammaBasicIsland	seed thr of barrel island clustering (Et)
EGBasicIsland:EndcapSeedThr	float	0.18	EgammaBasicIsland	seed thr of endcap island clustering (Et)
-	-	-	-	-
EGBLogPosBar:X0	float	0.89	EGBLogPosCorr	depth parameter in pos corr for barrel
EGBLogPosBar:T0	Float	5.7	EGBLogPosCorr	depth constant in pos corr for barrel
EGBLogPosBar:CutOff	float	4.2	EGBLogPosCorr	cutoff in pos corr for barrel
EGBLogPosEcn:X0	float	0.89	EGBLogPosCorr	depth parameter in pos corr for ecn
EGBLogPosEcn:T0	float	5.7	EGBLogPosCorr	depth constant in pos corr for ecn
EGBLogPosEcn:CutOff	float	4.2	EGBLogPosCorr	cutoff in pos corr for ecn
EGBLogPosEcp:X0	float	0.89	EGBLogPosCorr	depth parameter in pos corr for ecp
EGBLogPosEcp:T0	float	2.0	EGBLogPosCorr	depth constant in pos corr for ecp
EGBLogPosEcp:CutOff	Float	4.2	EGBLogPosCorr	cutoff in pos corr for ecp
-	-	-	-	-
EGLCShape:logW	bool	FALSE (linear weighting if false)	EgammaLogCShape	use log weighting if true
EGLCShape:X0	float	0.89	EgammaLogCShape	parameter of log weighting
EGLCShape:T0	float	6.2	EgammaLogCShape	parameter of log weighting
EGLCShape:CutOff	float	4.0	EgammaLogCShape	parameter of log weighting
-	-	-	-	-
BremRecovery:BarrelEtaRoad	float	0.06	EgammaBremRecovery	2*etasize of Island SC road in barrel
BremRecovery:BarrelPhiRoad	float	0.8	EgammaBremRecovery	2*phisize of Island SC road in barrel
BremRecovery:EndcapEtaRoad	float	0.14	EgammaBremRecovery	2*etasize of SC road in endcap
BremRecovery:EndcapPhiRoad	Float	0.4	EgammaBremRecovery	2*phisize of SC road in endcap
EGSCSeedGenerator:EtCut	float	4.0	EGSCSeedGenerator	seed threshold for SC (Et)
-	-	-	-	-
EgammaIsolation:ConeSize	float	0.25	IsoCalculator	radius of isolation cone
EgammaIsolation:GuardSize	float	0.08	IsoCalculator	radius of isolation guard ring
EgammaIsolation:EtaSlice	Float	0.05	IsoCalculator	size of avoided eta slice in isolation
EgammaIsolation:Chi2Cut	float	30	IsoCalculator	--
EgammaIsolation:GetEtSum	bool	false (maxet if false)	IsoCalculator	get sumet if true
-	-	-	-	-
EgPixelIsolation:ConeSize	float	0.4	EgammaPixelReconstruction	(eta,phi) cone size for Pixel-line counting isolation
EgPixelIsolation:ZSpan	float	0.1	EgammaPixelReconstruction	z region around PV for Pixel-line counting isolation
-	-	-	-	-
PRESHSEEDED_NSTR	int	15	EgammaPreshSeeded	no of strips in presh seeded cluster
PRESHOWER_NCLUST	int	4	EgammaEndcapAssociation	no of preshower clusters matching a basic cluster
ENDCAP_SEED_THR	float	0.0	EgammaEndcapAssociation	seed thr for endcap association
-	-	-	-	-
PRESH1_PLANE1	float	1./0.00009	EgammaEndcapCluster	plane1 preshower constant (Teresa)
PRESH2_PLANE2	float	0.6/0.00009	EgammaEndcapCluster	plane2 preshower constant (Teresa)
PRESH_CALIB	float	0.028	EgammaEndcapCluster	preshower calibrations constant (Teresa)
-	-	-	-	-
L1Sele:SingleEMEtThr	float	0.0 (no cut)	EgammaL1Selection	Single em L-1 threshold
L1Sele:DoubleEMEtThr1	float	0.0 (no cut)	EgammaL1Selection	Double em L-1 threshold (1st)
L1Sele:DoubleEMEtThr2	float	0.0 (no cut)	EgammaL1Selection	Double em L-1 threshold (2nd)
L1Sele:DoubleEMEtRelaxedThr1	float	0.0 (no cut)	EgammaL1Selection	L1 trigger threshold on leg1 of relaxed double em (no isolation)
L1Sele:DoubleEMEtRelaxedThr2	float	0.0 (no cut)	EgammaL1Selection	L1 trigger threshold on leg2 of relaxed double em (no isolation)
L1Sele:SingleIso	bool	true	EgammaL1Selection	L-1 Isolation on single em candidate
L1Sele:DoubleIso	bool	true	EgammaL1Selection	L-1 Isolation on double em candidate
L1L2Assoc:PhiSize	Float	1.044	EgammaL1L2Associator	2*phi window for association of L-2 candidates to L-1
L1L2Assoc:EtaSizeB	Float	0.522	EgammaL1L2Associator	2*eta window for association of L-2 candidates to L-1
L1L2Assoc:EtaSizeE	Float	0.87	EgammaL1L2Associator	2*eta window for association of L-2 candidates to L-1
L1L2Assoc:InFiducial	bool	false	EgammaL1L2Associator	Only create L2 candidates in fiducial region if TRUE
L2Sele:sngEt1	Float	L1Sele:SingleEMEtT	EgammaL2Selection	Et threshold for single em candidates at L-2
L2Sele:dblEt1	Float	L1Sele:DoubleEMEtThr1	EgammaL2Selection	Et threshold for double em candidate 1 at L-2
L2Sele:dblEt2	Float	L1Sele:DoubleEMEtThr2	EgammaL2Selection	Et threshold for double em candidate 2 at L-2
-	-	-	-	-
EGBClusters:PositionCorrect	bool	true	EgammaBasicReco	perform basic clustering corrections
-	-	-	-	-
EgammaEvent:forceNotify	bool	false	EgammaEvent	recostruction on demand only when false, reconstruction forced when true
-	-	-	-	-
EGCG:HistoSwitch	bool	true	EgammaControlGrabber	switch on/off general ntuple
EgammaCWNname	string	egamma.hbook	EgammaHbook4Histogrammer	filename of the hbook output file (replaces EGAMMA_CWN_NAME environment variable (still usable))
EGBR:HistoSwitch	bool	true	EgammaBasicReco	switch on histograms
EGR:HistoSwitch	bool	true	EgammaReco	switch on SC ntuple block
EGMC:HistoSwitch	bool	true	EgammaMC	switch on ntuple entries for MC/HepL2
EGL1:HistoSwitch	bool	true	L1Selector	switch on L1 block in ntuple
EGL2:HistoSwitch	bool	true	L2Selector	switch on L2 block in ntuple
-	-	-	-	-
EgEcAssoc:HistoPS	bool	true	EgammaEndcapAssociation	ECP ntuple block booking/filling
-	-	-	-	-
-	-	-	-	-
Level1:EleEtCut	float	2.	Level1EtCut	L-1 Et cut on electron candidates
Level1:TauJetEtCut	float	2.	Level1EtCut	L-1 Et cut on tau candidates
Level1:CenJetEtCut	float	2.	Level1EtCut	L-1 Et cut on Central jets
Level1:FwdJetEtCut	float	2.	Level1EtCut	L-1 Et cut on Forward jets
-	-	-	-	-
EGBHybridPosBar:X0	float	0.87	EGBHybridCorrection	obsolete
EGBHybridPosBar:T0	float	5.1	EGBHybridCorrection	obsolete
EGBHybridPosBar:CutOff	float	4.	EGBHybridCorrection	obsolete
-	-	-	-	-
EgammaBasicDynamic:Verbosity	int	Verbose::InfoLevel	EgammaBasicDynamic	This is an output filtering level, going from 1 to 8. With value 1, one will get all the ouput from EgammabasicDynamic. With value 8, one will get only the most important messages.
EgammaBasicDynamic:SeedThreshold	float	33.33	EgammaBasicDynamic	Minimal energy before a crystal can be the seed of a new cluster.
-	-	-	-	-
EGMC:HepLevel1Switch	bool	true	EgammaMC	switch on HepL1
-	-	-	-	-
ElectronFacilities:Hooks	string	off	EFHooksHandler	The value can be "off" or "on". If "on", the callbacks attached to the hooks handlers will be invoked. If "off", this mechanism is not active and there should be no performance penalty.
-	-	-	-	-
ElectronFacilities:Setup:Strategy	string	basic	EFSetup	The value can be "basic" or "best". This specify which set of algorithms must be built by the automatic setup.
-	-	-	-	-
ElectronFacilities:Verbosity	int	ep::threshold()	All classes from package ElectronFacilities, except the SH ones	This is an output filtering level, going from 1 to 8. With value 1, one will get all the ouput from the classes of the package. With value 8, one will get only the most important messages. If not set, the default threshold is the one of the subsystem (see ElectronPhoton:Verbosity).
-	-	-	-	-
ElectronPhoton:Verbosity	int	Verbose::InfoLevel	Potentially all classes from subsystem ElectronPhoton, except the ones that have their own threshold.	This is an output filtering level, going from 1 to 8. With value 1, one will get all the ouput from the classes of the package. With value 8, one will get only the most important messages. Some other output filtering levels use this one as their default value.
-	-	-	-	-
ShowerSim:Verbosity	int	ep::threshold()	All classes from package ElectronFacilities that concern shower simulation, with a name starting with "SH".	This is an output filtering level, going from 1 to 8. With value 1, one will get all the ouput from the classes of the package. With value 8, one will get only the most important messages. If not set, the default threshold is the one of the subsystem (see ElectronPhoton:Verbosity).
-	-	-	-	-
EPHitMatch:ePhiMin1	float	-0.3	EPHLTMatchSeedGenerator	1rst search lower phi limit for electron candidate
EPHitMatch:ePhiMax1	float	0.02	EPHLTMatchSeedGenerator	1rst search higher phi limit for electron candidate
EPHitMatch:pPhiMin1	float	-0.02	EPHLTMatchSeedGenerator	1rst search lower phi limit for positron candidate
EPHitMatch:pPhiMax1	float	0.03	EPHLTMatchSeedGenerator	1rst search higher phi limit for positron candidate
EPHitMatch:PhiMin2	float	-0.001	EPHLTMatchSeedGenerator	2ond search lower phi limit
EPHitMatch:PhiMax2	float	0.001	EPHLTMatchSeedGenerator	2ond search higher phi limit
EPHitMatch:ZMin1	float	-15.0	EPHLTMatchSeedGenerator	1rst search lower z limit
EPHitMatch:ZMax1	float	15.0	EPHLTMatchSeedGenerator	1rst search higher z limit
EPHitMatch:ZMin2	float	-0.05	EPHLTMatchSeedGenerator	2ond search lower z limit
EPHitMatch:ZMax2	float	0.05	EPHLTMatchSeedGenerator	2ond search higher z limit
-	-	-	-	-
ElectronTrack:SeedGenerator	bool	true	EPHLTTrackReconstructor	-
ElectronTrack:TrajectoryBuilder	bool	true	EPHLTTrackReconstructor	-
ElectronTrack:Smoother	bool	true	EPHLTTrackReconstructor	-
ElectronTrack:UpdatorChi2Max	float	5.	EPHLTTrackReconstructor	x2cut on trajectory update
ElectronTrack:SmootherChi2Max	float	100.	EPHLTTrackReconstructor	x2cut on trajectory smoothing
-	-	-	-	-
EPHitMatch:ePhiMin1	float	-0.03	EPMatchSeedGenerator	obsolete
EPHitMatch:ePhiMax1	float	0.02	EPMatchSeedGenerator	obsolete
EPHitMatch:pPhiMin1	float	-0.02	EPMatchSeedGenerator	obsolete
EPHitMatch:pPhiMax1	float	0.03	EPMatchSeedGenerator	obsolete
EPHitMatch:PhiMin2	float	-0.001	EPMatchSeedGenerator	obsolete
EPHitMatch:PhiMax2	float	0.001	EPMatchSeedGenerator	obsolete
EPHitMatch:ZMin1	float	-15.0	EPMatchSeedGenerator	obsolete
EPHitMatch:ZMax1	float	15.0	EPMatchSeedGenerator	obsolete
EPHitMatch:ZMin2	float	-0.05	EPMatchSeedGenerator	obsolete
EPHitMatch:ZMax2	float	0.05	EPMatchSeedGenerator	obsolete
-	-	-	-	-
ElectronFromPixels:Setup:Strategy	string	pixels	EPSetup	This specify which set of algorithms must be built by the automatic setup.
-	-	-	-	-
RecApplication:InputUserCollection	string	collection	EgammaStatistics	-
-	-	-	-	-
ElectronFacilities:Associator:EtThreshold	float	2.	EFKernel	Minimum cluster transverse energy to build a new track-cluster association
ElectronFacilities:Associator:ConeSizeEta	float	0.1/sqrt(2)	EFKernel	Maximum eta distance between the track extrapolation to the Ecal entry face and the cluster position (uncorrected) to build a new track-cluster association
ElectronFacilities:Associator:ConeSizePhi	float	0.1/sqrt(2)	EFKernel	Maximum phi distance between the track extrapolation to the Ecal entry face and the cluster position (uncorrected) to build a new track-cluster association
ElectronFacilities:Associator:EpCut	float	0.5	EFKernel	Maximum E/p deviation from 1 between the track momentum extrapolated to the Ecal entry face and the cluster energy (uncorrected) to build a new track-cluster association
ElectronFacilities:Associator:HadVeto	bool	1	EFKernel	Switch to include or not hadronic veto to build a new track-cluster association
ElectronFacilities:Associator:HadEmCut	float	0.1	EFKernel	The maximum value of the hadronic over electromagnetic energy ratio to build a new track-cluster association. Only used if ElectronFacilities:Associator:HadVeto is 1 . The hadronic energy is the sum of the hadronic tower energies over the set of all towers that have a geometrical part behind an Ecal Xtal from the electromagnetic cluster.
-	-	-	-	-
ElectronFacilities:Discriminator:Chi2ThetaCut	float	0.1	EFKernel	Maximum value of chi2 between track extrapolated to Ecal entry face theta position and cluster corrected theta position to build an electron from the track-cluster association
ElectronFacilities:Discriminator:Chi2PhiEpCut	float	0.1	EFKernel	Maximum deviation from 1 of the electromagnetic cluster corrected energy over the track momentum at Ecal entry face ratio to build an electron from the track-cluster association
ElectronFacilities:BremsFinder:MultiplicityCut	int	1	EFKernel	Minimum number of Ecal crystals in a cluster to be considered as a bremsstrahlung cluster candidate
ElectronFacilities:BremsFinder:ToleranceEta	float	0.01745	EFKernel	Maximum deviation in eta from the eta size of the road used in bremsstrahlung search
ElectronFacilities:BremsFinder:TolerancePhi	float	0.01745	EFKernel	Maximum deviation in phi from the phi size of the road used in bremsstrahlung clusters search
-	-	-	-	-
ElectronFacilities:Chi2PhiEpQualifier:Errors	bool	false	EFKernel	Switch to include errors in the Chi2 calculation from the two variables phi and E/p when using the corresponding qualifier to build an electron from a track-cluster association.
ElectronFacilities:Chi2PhiEpQualifier:FullCorrelations	bool	false	EFKernel	Switch to include non diagonal terms in the Chi2 calculation from the two variables phi and E/p when using the corresponding qualifier to build an electron from a track-cluster association.
ElectronFacilities:Chi2PhiEpQualifier:PChi2	bool	false	EFKernel	Switch to use Chi2 probability instead of Chi2 value in Chi2 calculation from the two variables phi and E/p when using the corresponding qualifier to build an electron from a track-cluster association.
ElectronFacilities:Chi2ThetaPhiEpQualifier:Errors	bool	false	EFKernel	Switch to include errors in the Chi2 calculation from the three variables theta, phi and E/p when using the corresponding qualifier to build an electron from a track-cluster association.
ElectronFacilities:Chi2ThetaPhiEpQualifier:FullCorrelations	bool	false	EFKernel	Switch to include non diagonal terms in the Chi2 calculation from the three variables theta, phi and E/p when using the corresponding qualifier to build an electron from a track-cluster association.
ElectronFacilities:Chi2ThetaPhiEpQualifier:PChi2	bool	false	EFKernel	Switch to use Chi2 probability instead of Chi2 value in Chi2 calculation from the three variables theta, phi and E/p when using the corresponding qualifier to build an electron from a track-cluster association.
ElectronFacilities:Chi2ThetaQualifier:Errors	bool	false	EFKernel	Switch to include errors in the Chi2 calculation from the theta variable when using the corresponding qualifier to build an electron from a track-cluster association.
ElectronFacilities:Chi2ThetaQualifier:PChi2	bool	false	EFKernel	Switch to use Chi2 probability instead of Chi2 value in Chi2 calculation from the theta variable when using the corresponding qualifier to build an electron from a track-cluster association
-	-	-	-	-
ElectronFacilities:ClusterCovarianceMatrix:ScalingFactor	float	1.	EFKernel	A scaling factor applied on cluster covariance matrix.
-	-	-	-	-
ElectronFacilities:ElectronTrack:SeedClusterEtMin	float	5.	EFKernel	The minimum transverse energy of an electromagnetic cluster to build an electron track seed. Only used with the SeededTrackReconstructor.
ElectronFacilities:ElectronTrack:SeedEstimatorChi2Max	float	0.1	EFKernel	The maximum chi2 between a pixel hit and the extrapolation of the helix built from the calorimetric cluster to retain the pixel hit as a compatible hit. Only used with the SeededTrackreconstructor.
ElectronFacilities:ElectronTrack:SeedUpdatorChi2Max	float	1.	EFKernel	The maximum chi2 between the predicted position on pixel layer and the measured hit position to build an electron track seed. Only used with the SeededTrackReconstructor.
ElectronFacilities:ElectronTrack:SeedPtMin	float	5.	EFKernel	The minimum transverse momentum of the track seed to retain it as an electron track seed. Only used with the SeededTrackReconstructor.
ElectronFacilities:ElectronTrack:SeedEtaMax	float	2.5	EFKernel	The maximum absolute eta value of the track seed to retain it as an electron track seed. Only used with the SeededTrackReconstructor.
-	-	-	-	-
ElectronFacilities:ElectronTrack:SeedGenerator	bool	1	EFKernel	A switch to select or not seed generation. Only used with the SeededTrackReconstructor.
ElectronFacilities:ElectronTrack:TrajectoryBuilder	bool	1	EFKernel	A switch to select or not trajectory building. Only used with the SeededTrackReconstructor.
ElectronFacilities:ElectronTrack:Smoother	bool	1	EFKernel	A switch to select or not trajectory smoothing. Only used with the SeededTrackReconstructor.
ElectronFacilities:ElectronTrack:MediumProperties	bool	0	EFKernel	A switch to use dedicated electron track medium properties instead of standard ones.
-	-	-	-	-
ElectronFacilities:ElectronTrack:UpdatorChi2Max	float	100.	EFKernel	The maximum Chi2 value between the predicted state and the measured state in the trajectory building.
ElectronFacilities:ElectronTrack:SmootherChi2Max	float	100.	EFKernel	The maximum Chi2 value between the predicted state and the measured state in the trajectory smoothing.
-	-	-	-	-
ShowerSim:MagneticField	bool	1	SHKernel	Switch to include magnetic field correction in the shower model.
-	-	-	-	-
ElectronFromPixels:Associator:EpCut	float	0.5	EPKernel	Maximum E/p deviation from 1 between the track momentum extrapolated to the Ecal entry face and the cluster energy (uncorrected) to build a new track-cluster association. Used in ElectronFromPixels associators.
ElectronFromPixels:Associator:HadVeto	bool	1	EPKernel	Switch to include or not hadronic veto to build a new track-cluster association. Used in ElectronFromPixels associators.
ElectronFromPixels:Associator:HadEmCut	float	0.1	EPKernel	The maximum value of the hadronic over electromagnetic energy ratio to build a new track-cluster association. Only used if ElectronFacilities:Associator:HadVeto is 1 . The hadronic energy is the sum of the hadronic tower energies over the set of all towers that have a geometrical part behind an Ecal Xtal from the electromagnetic cluster. Used in ElectronFromPixels associators.
-	-	-	-	-
ElectronFromPixels:ElectronTrack:SeedClusterEtMin	float	5.	EPKernel	The minimum transverse energy of an electromagnetic cluster to build an electron track seed. Only used with the SeededTrackReconstructor. Used by ElectronfromPixels track reconstructors.
ElectronFromPixels:ElectronTrack:SeedEstimatorChi2Max	float	0.1	EPKernel	The maximum chi2 between a pixel hit and the extrapolation of the helix built from the calorimetric cluster to retain the pixel hit as a compatible hit. Used by ElectronFromPixels track reconstructors.
ElectronFromPixels:ElectronTrack:SeedUpdatorChi2Max	float	1.	EPKernel	The maximum chi2 between the predicted position on pixel layer and the measured hit position to build an electron track seed. Used by ElectronFromPixels track reconstructors.
ElectronFromPixels:ElectronTrack:SeedPtMin	float	5.	EPKernel	The minimum transverse momentum of the track seed to retain it as an electron track seed. Used by ElectronFromPixels track reconstructor.
ElectronFromPixels:ElectronTrack:SeedEtaMax	float	2.5	EPKernel	The maximum absolute eta value of the track seed to retain it as an electron track seed. Used by ElectronFromPixels track reconstructors.
-	-	-	-	-
ElectronFromPixels:ElectronTrack:SeedGenerator	bool	1	EPKernel	A switch to select or not seed generation. Used by ElectronFromPixels track reconstructors.
ElectronFromPixels:ElectronTrack:TrajectoryBuilder	bool	1	EPKernel	A switch to select or not trajectory building. Used by ElectronFromPixels track reconstructors.
ElectronFromPixels:ElectronTrack:Smoother	bool	1	EPKernel	A switch to select or not trajectory smoothing. Used by ElectronFromPixels track reconstructors.
-	-	-	-	-
ElectronFromPixels:ElectronTrack:UpdatorChi2Max	float	100.	EPKernel	The maximum Chi2 value between the predicted state and the measured state in the trajectory building. Used by ElectronFromPixels track reconstructors.
ElectronFromPixels:ElectronTrack:SmootherChi2Max	float	100.	EPKernel	The maximum Chi2 value between the predicted state and the measured state in the trajectory smoothing. Used by ElectronFromPixels track reconstructors.
ExDumpRunEvent:ReadPileup	bool	0 (false)	ExDumpRunEventRecReader	Control the printout of run/event numbers for pileup events.
JetMetAnalysis:MemoryDebug	int	0	JetMetAnalysisSetup	Debugging memory.
JetMetAnalysis:JetDebug	int	0	JetMetAnalysisSetup	Debugging JetMetJetFinders.
JetMetAnalysis:GeneratorDebug	int	0	JetMetAnalysisSetup	Debugging JetMetGeneratorInterface.
JetMetAnalysis:GeneratorPrint	int	0	JetMetAnalysisSetup	Prints detailed information about generator particles .
JetMetAnalysis:CaloDebug	int	0	JetMetAnalysisSetup	Debugging JetMetCalorimetry.
JetMetAnalysis:CaloDigiPrint	int	0	JetMetAnalysisSetup	Detailed information about calorimeter digis ( ECAL crystals, HCAL compartments, preshower compartments ) into the log file.
JetMetAnalysis:ReadCaloHits	int	0	JetMetAnalysisSetup	The job reads calorimeter hits, and does a simple analysis of them.
JetMetAnalysis:EcalBarrelDigiECut	double	0.06	JetMetAnalysisSetup	threshold ( GeV ) of ECAL barrel digis to be analyzed.
JetMetAnalysis:EcalEndCapDigiECut	double	0.30	JetMetAnalysisSetup	threshold ( GeV ) of ECAL endcap digis to be analyzed.
JetMetAnalysis:HcalDigiECut	double	0.01	JetMetAnalysisSetup	threshold ( GeV ) of HCAL digis to be analyzed.
JetMetAnalysis:PreshowerDigiECut	double	0.01	JetMetAnalysisSetup	threshold ( GeV ) of preshower digis to be analyzed.
JetMetAnalysis:MinimumDigiEta	double	-7.	JetMetAnalysisSetup	Minimum value of of ( calorimeter ) digis to be analyzed.
JetMetAnalysis:MaximumDigiEta	double	+7.	JetMetAnalysisSetup	Maximum value of of ( calorimeter ) digis to be analyzed.
JetMetAnalysis:EcalPlusHcalTowerEtAlert	double	200.	JetMetAnalysisSetup	Prints an alert line if a tower is above this threshold.
JetMetAnalysis:L1CaloDebug	int	0	JetMetAnalysisSetup	Debugging JetMetL1CaloTrigger.
JetMetJetFinder:Debug	int	0	JetMetJetFinderSetup	Debugging level.
JetMetJetFinder:JetAlgorithmNumber	int	1	JetMetJetFinderSetup	The algorithm used to find jets ( 1 = iterative cone algorithm ).
JetMetJetFinder:JetAlgorithmInputType	int	2	JetMetJetFinderSetup	The input for reconstructed jets ( 2 = EcalPlusHcalTower : offline trigger towers ).
JetMetJetFinder:JetAlgorithmConeSizeA	double	0.5	JetMetJetFinderSetup	Cone size for the first set of jets.
JetMetJetFinder:JetAlgorithmSeedCutA	double	2.0	JetMetJetFinderSetup	Seed cut for the first jet cone size.
JetMetJetFinder:JetAEtCut	double	10.	JetMetJetFinderSetup	Jet threshold for the first jet cone size.
JetMetJetFinder:JetAlgorithmConeSizeB	double	0.7	JetMetJetFinderSetup	Cone size for the second set of jets.
JetMetJetFinder:JetAlgorithmSeedCutB	double	2.0	JetMetJetFinderSetup	Seed cut for the second jet cone size.
JetMetJetFinder:JetBEtCut	double	10.	JetMetJetFinderSetup	Jet threshold for the second jet cone size.
JetMetJetFinder:JetEMConeSize1	double	0.13	JetMetJetFinderSetup	Jet internal cone size one to sum up ECAL to recognize -jets.
JetMetJetFinder:JetEMConeSize2	double	0.40	JetMetJetFinderSetup	Jet internal cone size two to sum up ECAL to recognize -jets.
JetMetJetFinder:JetFakeConeSize1	double	0.25	JetMetJetFinderSetup	Jet internal cone size to sum up to recognize fake jets.
JetMetParticle:Debug	int	0	JetMetParticleSetup	Debugging level.
JetMetParticle:EcalPlusHcalTowerEtCut	double	0.5	JetMetParticleSetup	threshold of towers for calculating missing and filling towers into the ntuple.
JetMetParticle:CaloTrigPrimEtCut	double	0.1	JetMetParticleSetup	threshold ( GeV ) of calorimeter trigger primitives to be analyzed.
JetMetParticle:RawVertexResolution	double	0.05	JetMetParticleSetup	Smallest distance (mm) between vertices, that are regarded separate.
JetMetParticle:RawEtThreshold	double	0.5	JetMetParticleSetup	threshold of generated particles.
JetFinderInput:FilteredTrack:ptcut	float	0.7	JetFinderFilteredTrackInput	min. pt of a track (see also SimpleRecTrackFilter.h)
JetFinderInput:FilteredTrack:etamincut	float	0.0	JetFinderFilteredTrackInput	min. abs(eta) of a track (see also SimpleRecTrackFilter.h)
JetFinderInput:FilteredTrack:etamaxcut	float	2.6	JetFinderFilteredTrackInput	max abs(eta) of a track (see also SimpleRecTrackFilter.h)
JetFinderInput:FilteredTrack:tipcut	float	120.0	JetFinderFilteredTrackInput	Tip of a track (see also SimpleRecTrackFilter.h)
JetFinderInput:FilteredTrack:lipcut	float	170.0	JetFinderFilteredTrackInput	abs(Lip) of a track (see also SimpleRecTrackFilter.h)
JetFinderInput:FilteredTrack:nhitcut	int	8	JetFinderFilteredTrackInput	number of hits for a track (see also SimpleRecTrackFilter.h)
Muon:Barrel:MinBunch	int	0	MuBarG3Factory	First bunch crossing to be added for pile-up, relatively to current Bx
Muon:Barrel:MaxBunch	int	0	MuBarG3Factory	Last bunch crossing to be added for pile-up, relatively to current Bx
Muon:Rpc:NoiseRate	double	0	MRpcUBackground	Set noise rate in RPC's in []
Muon:Rpc:JunkFactor	double	0	MRpcUBackground	Multiplicative factor to increase neutron background rate in RPC's.
Muon:Rpc:GATESDAT	string	MuonData/RpcData/gates121.dat	MRpcSynchronizer
Muon:Rpc:Efficiency	double	0.95	MRpcDigitizer	Sets RPC chambers efficiency.
Muon:Rpc:ClusterSizeParameter	double	1.5	MRpcDigitizer	Sets cluster size parameter.
Muon:Rpc:ChamberTimeResolution	double	2.5	MRpcDigitizer	Sets RPC chamber time resolution [ns].
Muon:Rpc:FrontendJitter	double	1.0	MRpcDigitizer	Sets RPC frontend jitter [ns].
Muon:Rpc:GateWidth	double	20.0	MRpcDigitizer	Sets RPC gate width [ns].
Muon:Rpc:SignalTimeOffset	double	50.0	MRpcDigitizer	Sets signal time offset (delay due cablec, etc.) [ns].
Muon:Rpc:ClusterSizeTimeParameter	double	3.0	MRpcDigitizer	Sets parameter for delay of strips in cluster [ns].
Muon:Rpc:SignalSpeed	double	0.66	MRpcDigitizer	Sets signal propagation speed.
Muon:Rpc:MinBunch	int	0	MRpcDetFactory	First pileupped event in BXs relative to current BX.
Muon:Rpc:MaxBunch	int	0	MRpcDetFactory	Last pileupped event in BXs relative to curent BX.
Muon:MuonTrackFinder:debug	int	0	MuonDebug	Debug flag for MuonTracker: 0-5 (1=max debug, 5=essential debug, 0=no debug)
Muon:MuonMCFilter:enable	bool	0	MuonMCFilter	Activate filter for events with no (MC) muon in the final state during the ooHitFormatting
Muon:MuonMCFilter:DataSet	string	Default	MuonMCFilter	Type of filter to be applied: PileUp pile-up dataset, no potential triggering muons, 1muPt1 1mu_pt1 sample: eta dependent pt-cut (hardcoded), Default Generic dataset with ptcut given by Muon:MuonMCFilter:PtCut and Muon:MuonMCFilter:EtaCut
Muon:MuonMCFilter:PtCut	float	-1.	MuonMCFilter	min muon pt for accepting event inside eta range if dataset is Default
Muon:MuonMCFilter:EtaCut	float	5.5	MuonMCFilter	max muon eta for accepting event above pt cut if dataset is Default
Muon:MuonMCFilter:debug	bool	0	MuonMCFilter	switch on/off debug
SeedOption	int	4	TrackerSeedGeneratorFromMuon	0 = primitive seeds, 1 = seeds from consecutive hits, 2 = pixel seeds, 3 = combined (0+1), 4 = combined (1+2)
UseVertex	bool	0 (false)	TrackerSeedGeneratorFromMuon	use vertex from pixel reconstruction as constraint for seed generation
MaxSeeds	int	50	TrackerSeedGeneratorFromMuon	maximum number of tracker seeds generated
MaxLayers	int	3	TrackerSeedGeneratorFromMuon	maximum number of tracker layers used to find seeds
ErrorRescaleFactor	float	2.0	TrackerSeedGeneratorFromMuon	resacling factor of covariance matrix of trajectory state at outer tracker surface (defines size of window wehre tracker seeds are searched for)
Direction	int	0	TrackerSeedGeneratorFromMuon	define direction of global muon reconstruction (0 = inside-out, 1 = outside-in)
useMuonHits	bool	1 (true)	GlobalMuonTrackFinder	use hits from the muon chambers for the final track refit
ptCut	float	1.0	GlobalMuonTrackFinde	minimum transverse momentum of a muon track in order to be reconstructed
MuonReconstructionTree:Print	bool	1 (true)	MuonReconstructionTree	switch on/off print output
MuonReconstructionTree:L1	bool	1 (true)	MuonReconstructionTree	switch on/off Level-1 Muon Trigger
MuonReconstructionTree:L2	bool	1 (true)	MuonReconstructionTree	switch on/off Level-2 Muon Reconstruction
MuonReconstructionTree:L3	bool	1 (true)	MuonReconstructionTree	switch on/off Level-3 Muon Reconstruction
MuonReconstructionTree:LocalMuonReconstructionAlgo	string	L2MuonReconstructor	MuonReconstructionTree	name of local muon reconstruction algorithm (L2MuonReconstructor or MuonReconstructor)
MuonReconstructionTree:GlobalMuonReconstructionAlgo	string	L3MuonReconstructor	MuonReconstructionTree	name of global muon reconstruction algorithm
MuonIsolation:CaloExtractor:threshold_H	float	0.5F	MuIsoCaloExtractor	Et threshold for contributing hcal towers
MuonIsolation:CaloExtractor:threshold_E	float	0.2F	MuIsoCaloExtractor	Et threshold for contributing ecal crystals
MuonIsolation:CaloExtractor:dR_Veto_HC	float	0.1F	MuIsoCaloExtractor	size of HCAL veto cone
MuonIsolation:CaloExtractor:dR_Veto_EC	float	0.07F	MuIsoCaloExtractor	size of ECAL veto cone
MuonIsolation:PixelExtractor:drIdent	float	0.005F	MuIsoPixelExtractor	identity cone against ghosts
MuonIsolation:PixelExtractor:dZcut	float	0.2	MuIsoPixelExtractor	use only lines within +- dZcut around seed
MuonIsolation:PixelExtractor:dZcut	float	0.2	MuIsoPixelExtractor	use only lines within +- dZcut around seed
MuonIsolation:TrackerExtractor:maxHits	int	5	MuIsoTrackerExtractor	number of hit stop condition
MuonIsolation:TrackerExtractor:dRcut	float	0.5	MuIsoTrackerExtractor	deltaR cut between seed and track
MuonIsolation:TrackerExtractor:dZcut	float	0.4	MuIsoTrackerExtractor	dz cut around seed
MuonIsolation:TrackerExtractor:ptMin	float	0.4	MuIsoTrackerExtractor	minimal pt
MuonIsolation:CaloIsolator:mergerEcalHCal	float	1.5	MuIsoCaloIsolator	weighting factor for merging Ecal and HCal
MuonIsolation:CaloIsolator:nominalEfficiency	float	0.97	MuIsoCaloIsolator	designed efficiency
MuonIsolation:CaloIsolator:Thresholds	string	MuIsoCaloThresholds.dat		data file for calo isolation
MuonIsolation:CaloIsolator:mergerEcalHCal	float	1.5	MuIsoCaloIsolator	weighting factor for merging Ecal and HCal
MuonIsolation:CaloIsolator:nominalEfficiency	float	0.97	MuIsoCaloIsolator	designed efficiency
MuonIsolation:CaloIsolator:Thresholds	string	MuIsoCaloThresholds.dat		data file for calo isolation
MuonIsolation:PixelIsolator:nominalEfficiency	float	0.97	MuIsoPixelIsolator	designed efficiency
MuonIsolation:PixelIsolator:Thresholds	string	MuIsoPixelThresholds.dat		data file for Pixel isolation
MuonIsolation:PixelIsolator:drMatch	float	0.015		matching cone between line and seed
MuonIsolation:TrackerIsolator:nominalEfficiency	float	0.97	MuIsoTrackerIsolator	designed efficiency
MuonIsolation:TrackerIsolator:Thresholds	string	MuIsoTrackerThresholds.dat		data file for Tracker isolation
MuonIsolation:TrackerIsolator:drMatch	float	0.005		matching cone between line and seed
MuonIsolation:CaloExtractor:threshold_H	float	0.5F	MuIsoCaloExtractor	Et threshold for contributing hcal towers
MuonIsolation:CaloExtractor:threshold_E	float	0.2F	MuIsoCaloExtractor	Et threshold for contributing ecal crystals
MuonIsolation:CaloExtractor:dR_Veto_HC	float	0.1F	MuIsoCaloExtractor	size of HCAL veto cone
MuonIsolation:CaloExtractor:dR_Veto_EC	float	0.07F	MuIsoCaloExtractor	size of ECAL veto cone
MuonIsolation:PixelExtractor:drIdent	float	0.005F	MuIsoPixelExtractor	identity cone against ghosts
MuonIsolation:PixelExtractor:dZcut	float	0.2	MuIsoPixelExtractor	use only lines within +- dZcut around seed
MuonIsolation:TrackerExtractor:maxHits	int	5	MuIsoTrackerExtractor	number of hit stop condition
MuonIsolation:TrackerExtractor:dRcut	float	0.5	MuIsoTrackerExtractor	deltaR cut between seed and track
MuonIsolation:TrackerExtractor:dZcut	float	0.4	MuIsoTrackerExtractor	dz cut around seed
MuonIsolation:TrackerExtractor:ptMin	float	0.4	MuIsoTrackerExtractor	minimal pt
MuonIsolation:CaloIsolator:mergerEcalHCal	float	1.5	MuIsoCaloIsolator	weighting factor for merging Ecal and HCal
MuonIsolation:CaloIsolator:nominalEfficiency	float	0.97	MuIsoCaloIsolator	designed efficiency
MuonIsolation:CaloIsolator:Thresholds	string	MuIsoCaloThresholds.dat		data file for calo isolation
MuonIsolation:PixelIsolator:nominalEfficiency	float	0.97	MuIsoPixelIsolator	designed efficiency
MuonIsolation:PixelIsolator:Thresholds	string	MuIsoPixelThresholds.dat		data file for Pixel isolation
MuonIsolation:PixelIsolator:drMatch	float	0.015		matching cone between line and seed
MuonIsolation:TrackerIsolator:nominalEfficiency	float	0.97	MuIsoTrackerIsolator	designed efficiency
MuonIsolation:TrackerIsolator:Thresholds	string	MuIsoTrackerThresholds.dat		data file for Tracker isolation
MuonIsolation:TrackerIsolator:drMatch	float	0.005		matching cone between line and seed


ApvAnalysisFactory:FactoryName	string	ReferenceApvAnalysisFactory	ApvAnalysisFactoryDispenser	Specify which ApvAnalysisFactory to use. GeneralApvAnalysisFactory is the most general one, allowing one to use any existing algorithm.
ApvKillerFactory:KillerName	string	HipApvKillerPerDetType	ApvKillerFactory	Selects which concrete instance of the abstract class ApvKiller must be used
HipApvKiller:ProbabilityPerTrackPer300um	float	0.0003	HipApvKiller	Define the probability that a 300 MeV pion interacting perpendicularly in 300 um of silicon generates a HIP
HipApvKiller:ProbabilityOfDeadApv	float	0.002	HipApvKiller	Defines the probability that a APV is in state of recovery due to a HIP. It is basically the cross section times the number of bunch crossings it remains dead
StripDigi:zeroSuppressedAdcBits	int	8	StripDigi	The number of useful bits in the ADC readout. Please not that it was 12 in ORCA 6.
SiStripDigitizer:HIPInefficiency	bool	false	StripReadout	Whether to simulate HIP inefficiencies in the APVs
SiStripDigitizerFromApvAnalysis:fixCalibration	bool	false	SiStripZSDigitizerFromApvAnalysis	Skip calibration, instead setting pedestal to .orcarc specified value and noise to default value for sensor type.
SiStripFedDigitizer:Pedestal	float	100	SiStripZSDigitizerFromApvAnalysis	Default value of pedestal if fixCalibration is true.
SiPixelDet:TanLorentzAnglePerTesla	float	0.133	SiPixelDet	Tangent of Lorentz angle per Tesla in deg., default 28deg at 4T.
PixelDigitizer:ElectronPerAdc	float	135.	SiPixelDet	Pixel adc calibration
PixelDigitizer:NoiseInElectrons	float	500.	SiPixelDet	Pixel Noise in electrons
PixelDigitizer:ThresholdInNoiseUnits	float	5.	SiPixelDet	Pixel Readout Threshold in Noise Units
TkSiPixelClusterizer:ClusterizerName	string	SimplePixelClusterizer	PixelClusterizerFactory	Tracker Silicon Pixel Clusterize Name
TkSiPixelDigitizer:DigitizerName	string	SiPixelDigitizer	PixelDigitizerFactory	Tracker Silicon Pixel Digitizer Name
TopologyBuilder:PixelROCRows	int	53	PixelDetMerger, PixelTopologyBuilder	Pixels rows belonging to the same ROC
TopologyBuilder:PixelROCColss	int	52	PixelDetMerger, PixelTopologyBuilder	Pixels columnss belonging to the same ROC
SiStripDigitizer:EquivalentNoiseCharge300um	float	2160.	SiStripDet	Silicon Noise in electrons
SiStripDigitizer:ElectronsPerAdcCount	float	313.	SiStripDet	Silicon Adc calibration (Conversion factor); was 145 in ORCA 6
SiStripDet:HoleMobilityAtLowField	float	470.5	SiStripDet	Hole Mobility in silicon at low field
SiStripDet:HoleSaturationVelocity	float	8.37e6	SiStripDet	Hole Saturation Velocity in silicon
SiStripDet:HoleBeta	float	1.213	SiStripDet	Hole Mobility in silicon at low field (beta factor)
SiStripDet:HoleRHAllParameter	float	0.7	SiStripDet	Hole Mobility in silicon at low field (rh factor)
SiStripDet:Temperature	float	297.	SiStripDet	Temperature in Kelvin
SiStripDet:AppliedVoltage	float	150.	SiStripDet	Silicon Applied Voltage in Volt
SiStripClusterizer:EdgeAlgo	bool	true	SiStripDet	Tracker Silicon Pixel Clusterize Name
TkSiStripDigitizer:DigitizerName	string	SiStripDigitizer	SiStripDet	Tracker Silicon Strip Digitizer Name. (Use SiStripFedDigitizer to give a realistic, but slow, simulation of the FED zero suppression. Use SiStripZSDigitizerFromApvAnalysis when reading raw data, to digitize raw digis into zero-suppressed ones. Use SiStripGeneralDigitizerFromApvAnalysis to digitize SimHits into zero-suppressed digis.)
SiStripDaqFormatter:oneReadoutOnly	bool	false	StripDaqCmsRawFromZSFormatter	If true, only data for the first Readout in each ROU is generated, to reduce the dataset size during debugging. You must use the same card to read the dataset in.
SiStripFedDigitizer:Pedestal	float	100	StripDaqCmsRawFromZSFormatter	Pedestal in raw data.
LayerMediumProperties: layerName: radLen	float	-1	LayerMediumPropertyReader/ -Setter	Material for layer layerName (see TkLayerName:shortName) in units of . radLen retains default value from TkCmsimInterface.
LayerMediumProperties: layerName: detTypeName: radLen	float	-1	LayerMediumPropertyReader/ -Setter	As above, but exclusively for DetType detTypeName (see TkDetTypeName:shortName). Both parameter types can be mixed in which case the definition for the layer applies only to those detectors not explicitely specified.
LayerMediumProperties: layerName: xi	float	-1	LayerMediumPropertyReader/ -Setter	Material for layer layerName for use in energy loss calculation (see EnergyLossUpdator). xi retains default value from TkCmsimInterface.
LayerMediumProperties: layerName: detTypeName: xi	float	-1	LayerMediumPropertyReader/ -Setter	As above, but exclusively for DetType detTypeName.
TkHitLoader:TkDumpHitsFromDets"	string	HitPositionsFromDets.dat	TkDumpHitFromDets.cc	Dumps SimHits from the DetUnits to a file. Used to check Big-small pixel shifting
TkHitLoader:LoadHits	string	All	TkCARFSimHitLoader	Decides which hits to load; valid entries are All, NoSignal, NoPU.
TrackerHits:ElectronicSigmaInNanoSeconds	float	12.06	TkMasterSimHitLoader	Integration time of the Tracker electronics. Do not change it!
TopologyBuilder:ADCFromConfigurables	bool	true	TopologyBuilder	Reconfiguring Topologies with ORCA.
TIDStereoDcenterRing1	float	-2.7665	FixTIDTopology	Value for Dcenter for first type of TID Stereo Detectors. Used in the patch after the bug discovery.
TIDStereoDcenterRing2	float	-3.671	FixTIDTopology	Value for Dcenter for second type of TID Stereo Detectors. Used in the patch after the bug discovery.
HipApvKiller:ProbabilityPerTrackPer300um	float	0.001	HipApvKillerPerDetType	HIP probability in 300 um of silicon for a 300 MeV pion..
HipApvKiller:HighLumi	bool	false	HipApvKillerPerDetType	Whether to apply the multiplicative factor for High lumi (5).
HipApvKiller:DeadTimeInBunches	float	10.	HipApvKillerPerDetType	The multiplicative factor due to the number of bunch crossing in which a APV remains dead.
HipApvKiller:MultiplicativeFactorForProtons	float	10.	HipApvKillerPerDetType	The multiplicative factor to be applied for protons.
Tracker:DumpDetPositionFile	string	DetPositionORCA.dat	TkDumpPositions	Files to which Dump Detector positions in space.
TkNumberingSchemeFactory:DumpPositions	bool	false	TkNumberingSchemeFactory	Whether to dump detector positions to file.
TkLayout:UseDDDSimHitNumberingSchemaWithCmsim	bool	false	TkNumberingSchemeFactory	Whether to use the DDD numbering schema with Cmsim geometry building.
TkNumberingSchemeFactory:DumpPositionsAndAxes	bool	false	TkNumberingSchemeFactory	Whether to dump detector positions and axes directions to file.
TkNumberingSchemeFactory:DumpPositionsAndAxesFile	string	DetPositionAxesORCA.dat	TkDumpPositionsAndAxes	File name for TkNumberingSchemeFactory:DumpPositionsAndAxes.
Tracker:CheckStablenessOfNS	bool	false	TkDDDSimHitNumberingSchemaFromCmsimGeometry	Checks that the 3d sorting is stable. Takes time!
PixelDigitizer:ElectronPerAdc	float	135	SiPixelDigitizer	The conversion factor for adc.
PixelDigitizer:AdcFullScale	int	255	SiPixelDigitizer	The maximum count for ADC. It means 8 bits.
PixelDigitizer:TofCut	float	12.5	SiPixelDigitizer	The cut on the electronic window. It is NOT gaussian, but fixed.
PixelDigitizer:AddNoise	bool	true	SiPixelDigitizer	Whether to add noise to pixels.
PixelDigitizer:AddNoisyPixels	bool	true	SiPixelDigitizer	Add noisy pixels.
PixelDigitizer:FluctuateCharge	bool	true	SiPixelDigitizer	Allow the charge fluctuations in the division.
PixelDigitizer:AddPixelInefficiency	int	0	SiPixelDigitizer	Include pixel inefficiencies. Default is NO. Other values: 0 = no, 1 = low lumi, 10 = high lumi.
SiStripDigitizer:DepletionVoltage	double	140	SiHitDigitizer	The standard depletion voltage for silicon microstrips.
SiStripDet:AppliedVoltage	double	150	SiHitDigitizer	The applied voltage to silicon microstrips.
SiStripDigitizer:ChargeMobility	double	480	SiHitDigitizer	Charge Mobility.
SiStripDet:Temperature	float	297	SiHitDigitizer	The temperature of the silicon.
SiStripDigitizer:ChargeDistributionRMS	double		SiHitDigitizer	The RMS of the charge distribution.
SiStripDigitizer:noDiffusion	bool	false	SiHitDigitizer	Switch off diffusion of drifting charge in the silicon.
SiStripDigitizer:GevPerElectron	double		SiHitDigitizer	GeV needed to create a pair.
SiStripDigitizer:APVpeakmode	bool	false	SiLinearChargeDivider, SiStripDigitizer	Use APV peak mode instead of deconvolution mode. (Degrades time resolution.)
SiStripDigitizer:noNoise	bool	false	SiStripDigitizer	Switch off noise, but leave zero-suppression and cluster thresholds unchanged.
SiStripDigitizer:LandauFluctuations	bool	true	SiLinearChargeDivider	Enable inter-strip landau fluctuations within a cluster.
SiStripDigitizer:chargeDivisionsPerStrip	int	10	SiLinearChargeDivider	Number of segments per strip into which charge is divided during simulation. If large, the precision of simulation improves.
SiStripDigitizer:IsolatedStripCut	float	4.5	SiTrivialZeroSuppress	The cut on isolated strips. It is in number of sigmas.
SiTrivialDigitalConverter:rawDataAdcBits	int	10	SiTrivialDigitalConverter	Number of ADC bits for zero suppressed data.This is NOT the output number of bits, but the internal one
SiStripFedDigitizer:UseRecPedCM	bool	1	SiStripFedDigitizer	If zero, FED will cheat by taking common-mode value from Monte Carlo truth, instead of trying to reconstruct it.
SiStripFedDigitizer:cmFromMedian	bool	1	SiStripFedDigitizer	Estimate common-mode offset from median instead of mean pulse height.
SiStripFedDigitizer:NumIter	bool	1	SiStripFedDigitizer	Number of iterations to get common-mode.
SiStripFedDigitizer:Pedestal	float	100.	SiStripFedDigitizer	Generated pedestal in ADC counts.
SiStripFedDigitizer:rmsCM	float	5.	SiStripFedDigitizer	rms of generated common-mode noise in ADC counts.
SiStripFedDigitizer:cmSigRejThresh	float	2.	SiStripFedDigitizer	Strip threshold for flagging signal strips during common-mode estimate, in units of rms noise.
SiStripFedDigitizer:algorithm	int	4	SiStripFedDigitizer	Choose FED clustering algorithm (1-4).
SiStripFedDigitizer:lowThresh	float	2.	SiStripFedDigitizer	Low threshold of FED clustering algorithm, in units of rms noise.
SiStripFedDigitizer:highThresh	float	5.	SiStripFedDigitizer	High threshold of FED clustering algorithm, in units of rms noise.
SiStripDigitizer:ElectronsPerAdcCount	float	313	SiStripDigitizer	New gain for strip digitizer. Was 145 in ORCA 6.
DistanceMeasureFactory:distanceName	string	KullbackLeiblerDistance	DistanceMeasureFactory	choice distance measure between two TSOS (currently KullbackLeiblerDistance or MahalanobisDistance)
LargestWeightsStateMerger:mergeSmallestComponents	bool	false	LargestWeightsStateMerger	if false, remove smallest components, otherwise combine them into one
MultiTrajectoryStateAssembler:sortStates	bool	false	"MultiTrajectoryStateAssembler	If true, components will be sorted by decreasing weight
MultiTrajectoryStateAssembler:minFractionOfValidStates	float	0.01	"MultiTrajectoryStateAssembler	Minimal weight fraction of valid components required for a valid assembled state
MultiTrajectoryStateAssembler:minFractionalWeight	float	1.e-6	"MultiTrajectoryStateAssembler	Minimal weight fraction of a component required for inclusion in the assembled state
GsfBetheHeitlerUpdator:correctionFlag	int	2	GsfBetheHeitlerUpdator	0/1/2: no correction/corrected mean/corrected mean & variance
GsfBetheHeitlerUpdator:fileName	string	BetheHeitler_cdfmom_nC6_O5.par	GsfBetheHeitlerUpdator	name of file with parametrisation of electron energy loss
MaterialEffects:gsfUpdatorName	string	GsfCombinedMaterialEffectsUpdator	GsfMaterialEffectsFactory	Material effects updator to be used for GSF
GsfTrajectorySmoother:materialBeforeUpdate	bool	true	GsfTrajectorySmoother	true/false: material effects are included before/after update with RecHit
MaterialEffects:updatorName	string	CombinedMaterialEffectsUpdator	MaterialEffectsFactory	Material effects updator to be used for KF
MergerFactory:mergerName	string	CloseComponentsMerger	MergerFactory	merging algorithm for GSF
MergerFactory:maxComponents	int	12	MergerFactory	Maximum number of components during fit
TrackReconstructorFromSimTrack:matchRecHits	bool	true	TrackReconstructorFromSimTrack	Specifies whether matched or unmatched hits should be used for the reconstruction.
TrackReconstructorFromSimTrack:oneHitPerLayer	bool	true	TrackReconstructorFromSimTrack	Specifies whether, on each layer, one hit (the first that could be associated) should be used for the reconstruction, or all found (associated to the SimTrack) hits.
SmearingPixelClusterizer:useCache	bool	1	SmearingPixelClusterizer	If false each access will give a new (random) RecHit.
SmearingStripClusterizer:useCache	bool	1	SmearingStripClusterizer	If false each access will give a new (random) RecHit.
TkSimEvent:loadPU	bool	true	TkCarfSimEvent	generate TkSimTracks and -Vertices for pileup
TkCarfSimEvent:DiscardDeltaRays	bool	true	TkCarfSimEvent	discard hits from delta rays from TkSimTracks
TkCarfSimEvent:assembleElectrons	bool	false	TkCarfSimEvent	join electron segments into a composite track
StableSimTracksFromDecay:pidToFind	int	25	StableSimTracksFromDecay	Set the first parent particle, of which decay the stable particle TkSimTracks will be selected. For the mother partocle, use the code of the Monte Carlo Particle numbering scheme of the PDG (25 is the first neutral Higgs) For example, in the decay H0 -> Z0 z0 -> 4 mu, the four muon TkSimTracks will be selected.
L1RpcTrigger:Debug	int	0	L1Rpc	Setting debug level. Range is from 0 to 7.
L1RpcTrigger:Decluster	int	1	L1Rpc	Control of the declusterisation procedure. If set to 1 N-2 declusterisation argorithm is used.
L1RpcTrigger:MRT1DAT	string	/TriggerData/L1RpcTrigger/mrt1.dat	L1Rpc	Path to file containing valid patterns for PACT.
L1RpcTrigger:MRT3DAT	string	/TriggerData/L1RpcTrigger/mrt3.dat	L1Rpc	Path to file containing link tables for PACT.
CSCTrigger:twentyDegreeSubSectors	bool	0 (false)	L1MuCSCSetup	This is defaulted to 0 which means each sector in ME1 is split up into 30 degree subsectors (each subsector contains 12 CSCs, each subsector is linked to a Muon Port Card). If set to 0, then each sector in ME1 is split up into 20 degree subsectors (each subsector contains 8 CSCs)
CSCTrigger:DtEtaStop	int	5	L1MuCSCSetup	Used to define the eta region where a track stub is isolated only in the endcap
CSCTrigger:DtEtaCut	int	5	L1MuCSCSetup	Used to define the eta region where a track stub is important for both the endcap and the barrel
CSCTrigger:CscEtaStart	int	5	L1MuCSCSetup	Used to define the boundary between the barrel and endcap
CSCTrigger:CscEtaStartCorr	float	0.0	L1MuCSCSetup	Used to fine-tune the boundary between the barrel and endcap
CSCTrackFinder:shareMB1	bool	1 (true)	L1MuCSCTrackFinderSetup	Control whether track segments from MB1 are used in the DT/CSC overlap
CSCTrackFinder:shareMB2	bool	0 (false)	L1MuCSCTrackFinderSetup	Control whether track segments from MB2 are used in the DT/CSC overlap
CSCTrackFinder:ghostBustME1	bool	1 (true)	L1MuCSCTrackFinderSetup	Control whether the ghost-busting feature is enabled for ME1
CSCTrackFinder:firstStationConfig	int	0xF	L1MuCSCTrackFinderSetup	Control whether no track segments from ME1 are allowed (0), ME1/1a only allowed (1), ME1/1b only allowed (2), ME1/2 only allowed (4), ME1/3 only allowed (8) or any other binary combination
CSCTrackFinder:fourthStationConfig	int	0x3	L1MuCSCTrackFinderSetup	Control whether no track segments from ME4 are allowed (0), ME4/1 only allowed (1), ME4/2 only allowed (2), or both allowed (3)
CSCTrackFinder:lowQualityFlag	int	1	L1MuCSCTrackFinderSetup	Determine whether low quality (Q=1) muons are allowed, and where: 0 = none, 1 = DT/CSC overlap, 2 = ME1/1a, 3 = both
CSCTrackFinder:verilog	bool	0 (false)	L1MuCSCTrackFinderSetup	Control whether C++ translation of Verilog description is run
CSCTrackFinder:ORedME1A	bool	0 (false)	L1MuCSCTrackFinderSetup	Creates ghost segments in ME1/1a when strips are ganged. Verilog option must be selected
L1DTTrigger:dttrigdbg	string	no_debugging	L1MuDTConfig	Debugging level
L1DTTrigger:tmax	string	15	L1MuDTConfig	Max drift time in 25 ns steps
L1DTTrigger:timindkeqsupp	string	Theta_only	L1MuDTConfig	Time ind. K-eq. supp.
L1DTTrigger:sllts	string	Theta_and_phi	L1MuDTConfig	LTS, adjacent LTRIG supp. in SL
L1DTTrigger:sidelts	string	Both	L1MuDTConfig	LTS, suppression at side
L1DTTrigger:nbxltsphi	string	8	L1MuDTConfig	LTS, n. of BX supp. at high side, phi SL
L1DTTrigger:nbxltstheta	string	8	L1MuDTConfig	LTS, n. of BX supp. at high side, theta SL
L1DTTrigger:adjbtilts	string	Enabled	L1MuDTConfig	LTS on BTI adjacent to a BTI with HTRIG
L1DTTrigger:setuptime	string	0	L1MuDTConfig	BTI setup time
L1DTTrigger:langbticorr	string	-0.25	L1MuDTConfig	Large angle BTIcorrection
L1DTTrigger:kcutphi	string	32	L1MuDTConfig	Maximum K-parameter accepted in phi view
L1DTTrigger:kcuttheta	string	32	L1MuDTConfig	Maximum K-parameter accepted in theta view
L1DTTrigger:accpatta	string	2	L1MuDTConfig	Acceptance pattern A
L1DTTrigger:accpattb	string	1	L1MuDTConfig	Acceptance pattern B
L1DTTrigger:kacctheta	string	2	L1MuDTConfig	BTI angular acceptance in theta view
L1DTTrigger:bendinganglecut	string	Not_enabled	L1MuDTConfig	Bending angle cut in MB3 and MB4
L1DTTrigger:sortkascend1	string	Ascending	L1MuDTConfig	Sorting order for K, first tracks
L1DTTrigger:sortkascend2	string	Ascending	L1MuDTConfig	Sorting order for K, second tracks
L1DTTrigger:prefhtrig1	string	Enabled	L1MuDTConfig	Preference to HTRIG, first tracks
L1DTTrigger:prefhtrig2	string	Enabled	L1MuDTConfig	Preference to HTRIG, second tracks
L1DTTrigger:singlehflag1	string	Always_accepted	L1MuDTConfig	Single HTRIG, first tracks
L1DTTrigger:singlehflag2	string	Always_accepted	L1MuDTConfig	Single HTRIG, second tracks
L1DTTrigger:singlelflag1	string	Only_with_theta_coincidence	L1MuDTConfig	Single LTRIG, first tracks
L1DTTrigger:singlelflag2	string	Only_with_theta_coincidence	L1MuDTConfig	Single LTRIG, second tracks
L1DTTrigger:prefinner1	string	Inner	L1MuDTConfig	Single trigger preference to SL, first tracks
L1DTTrigger:prefinner2	string	Inner	L1MuDTConfig	Single trigger preference to SL, second tracks
L1DTTrigger:tcktoll1	string	2	L1MuDTConfig	K tollerance for correlation, first tracks
L1DTTrigger:tcktoll2	string	2	L1MuDTConfig	K tollerance for correlation, second tracks
L1DTTrigger:tcbxlts	string	Not_enabled	L1MuDTConfig	Single LTRIG suppression in 4 BX low side
L1DTTrigger:tcreuse1	string	Enabled	L1MuDTConfig	Recycling of candidates in inner SL
L1DTTrigger:tcreuse2	string	Enabled	L1MuDTConfig	Recycling of candidates in outer SL
L1DTTrigger:nmaxoutcand	string	2	L1MuDTConfig	Number of tracks passed to TS
L1DTTrigger:tssmasking1	string	Corr/NotC,H/L,In/Out	L1MuDTConfig	Priority in TSS for first track selection
L1DTTrigger:tssmasking2	string	Corr/NotC,H/L,In/Out	L1MuDTConfig	Priority in TSS for second track selection
L1DTTrigger:tsshtrigena1	string	Enabled	L1MuDTConfig	Pref. to HTRIG in TSS for first track selection
L1DTTrigger:tsshtrigena2	string	Not_enabled	L1MuDTConfig	Pref. to HTRIG in TSS for second track selection
L1DTTrigger:tsshtrigenac	string	Not_enabled	L1MuDTConfig	Pref. to HTRIG in TSS for carry
L1DTTrigger:tssinoutena1	string	Enabled	L1MuDTConfig	Pref. to Inner in TSS for first track selection
L1DTTrigger:tssinoutena2	string	Not_enabled	L1MuDTConfig	Pref. to Inner in TSS for second track selection
L1DTTrigger:tssinoutenac	string	Not_enabled	L1MuDTConfig	Pref. to Inner in TSS for carry
L1DTTrigger:tsscorrena1	string	Enabled	L1MuDTConfig	Pref. to Corr. in TSS for first track selection
L1DTTrigger:tsscorrena2	string	Not_enabled	L1MuDTConfig	Pref. to Corr. in TSS for second track selection
L1DTTrigger:tsscorrenac	string	Not_enabled	L1MuDTConfig	Pref. to Corr. in TSS for carry
L1DTTrigger:tsmmasking1	string	Corr/NotC,H/L,In/Out	L1MuDTConfig	Priority in TSM for first track selection
L1DTTrigger:tsmmasking2	string	Corr/NotC,H/L,In/Out	L1MuDTConfig	Priority in TSM for second track selection
L1DTTrigger:tsmhtrigena1	string	Enabled	L1MuDTConfig	Pref. to HTRIG in TSM for first track selection
L1DTTrigger:tsmhtrigena2	string	Not_enabled	L1MuDTConfig	Pref. to HTRIG in TSM for second track selection
L1DTTrigger:tsmhtrigenac	string	Not_enabled	L1MuDTConfig	Pref. to HTRIG in TSM for carry
L1DTTrigger:tsminoutena1	string	Enabled	L1MuDTConfig	Pref. to Inner in TSM for first track selection
L1DTTrigger:tsminoutena2	string	Not_enabled	L1MuDTConfig	Pref. to Inner in TSM for second track selection
L1DTTrigger:tsminoutenac	string	Not_enabled	L1MuDTConfig	Pref. to Inner in TSM for carry
L1DTTrigger:tsmcorrena1	string	Enabled	L1MuDTConfig	Pref. to Corr. in TSM for first track selection
L1DTTrigger:tsmcorrena2	string	Not_enabled	L1MuDTConfig	Pref. to Corr. in TSM for second track selection
L1DTTrigger:tsmcorrenac	string	Not_enabled	L1MuDTConfig	Pref. to Corr. in TSM for carry
L1DTTrigger:tssghost1flag	string	If_Outer_adj_to_1st_tr	L1MuDTConfig	Carry suppression in TSS (Ghost1)
L1DTTrigger:tssghost2flag	string	If_Outer_same_TRACO_of_uncorr_1st_tr	L1MuDTConfig	2nd track suppression in TSS
L1DTTrigger:tsmghost1flag	string	If_Outer_adj_to_1st_tr	L1MuDTConfig	Carry suppression in TSM (Ghost1)
L1DTTrigger:tsmghost2flag	string	If_Outer_same_TRACO_of_uncorr_1st_tr	L1MuDTConfig	2nd track suppression in TSM (Ghost2)
L1DTTrigger:tssghost1corr	string	Accepted_if_correlated	L1MuDTConfig	correlated carry suppression in TSS (Ghost1)
L1DTTrigger:tssghost2corr	string	Accepted_if_correlated	L1MuDTConfig	correlated carry suppression in TSS (Ghost2)
L1DTTrigger:tsmghost1corr	string	Accepted_if_correlated	L1MuDTConfig	correlated carry suppression in TSM (Ghost1)
L1DTTrigger:tsmghost2corr	string	Accepted_if_correlated	L1MuDTConfig	correlated carry suppression in TSM (Ghost2)
L1DTTrigger:tsmgetcarryflag	string	get_best_2ndprevBX_1st	L1MuDTConfig	second track handling in case of pile-up in TSM
L1DTTrackFinder:BX_min	int	-9	L1MuDTTFConfig	First bunch crossing for which to run the barrel track finder (relative to signal BX)
L1DTTrackFinder:BX_max	int	7	L1MuDTTFConfig	Last bunch crossing for which to run the barrel track finder (relative to signal BX)
L1DTTrackFinder:Overlap	bool	1 (true)	L1MuDTTFConfig	Switch to turn on/off the barrel-endcap overlap region
L1DTTrackFinder:Extrapolation_Filter	int	1	L1MuDTTFConfig	Select extrapolation quality filter (0,1,2,3,4,5)
L1DTTrackFinder:Extrapolation_21	bool	0 (false)	L1MuDTTFConfig	Use extrapolation 21 to cross-check 12
L1DTTrackFinder:EtaTrackFinder	bool	1 (true)	L1MuDTTFConfig	Switch to turn on/off eta track finder
L1DTTrackFinder:OutOfTime_Filter	bool	1 (true)	L1MuDTTFConfig	Switch to turn out-of time track segment filter
L1DTTrackFinder:OutOfTime_Filter_Window	int	1	L1MuDTTFConfig	Set out-of time track segment filter window (phi)
L1DTTrackFinder:Extrapolation_nbits_Phi	int	8	L1MuDTTFConfig	Set precision (number of bits) in phi to be used for extrapolation
L1DTTrackFinder:Extrapolation_nbits_PhiB	int	8	L1MuDTTFConfig	Set precision (number of bits) in phiB to be used for extrapolation
L1DTTrackFinder:PT_Assignment_nbits_Phi	int	12	L1MuDTTFConfig	Set precision (number of bits) in phi to be used for pt-assignment
L1DTTrackFinder:PT_Assignment_nbits_PhiB	int	10	L1MuDTTFConfig	Set precision (number of bits) in phiB to be used for pt-assignment
L1DTTrackFinder:PHI_Assignment_nbits_Phi	int	12	L1MuDTTFConfig	Set precision (number of bits) in phi to be used for phi-assignment
L1DTTrackFinder:PHI_Assignment_nbits_PhiB	int	10	L1MuDTTFConfig	Set precision (number of bits) in phiB to be used for phi-assignment
L1GlobalMuonTrigger:Debug	int	0	L1MuGMTConfig	Set debug level for GMT (0=off, 5=max)
L1GlobalMuonTrigger:BX_min	int	-4	L1MuGMTConfig	First bunch crossing for which to run GMT (relative to signal BX)
L1GlobalMuonTrigger:BX_max	int	4	L1MuGMTConfig	Last bunch crossing for which to run GMT (relative to signal BX)
L1GlobalMuonTrigger:EtaWeight_barrel	float	0.028	L1MuGMTConfig	Weight for eta coordinate in Barrel Matcher Unit
L1GlobalMuonTrigger:PhiWeight_barrel	float	1.0	L1MuGMTConfig	Weight for phi coordinate in Barrel Matcher Unit
L1GlobalMuonTrigger:EtaPhiThreshold_barrel	float	0.062	L1MuGMTConfig	Window size in Barrel Matcher Unit
L1GlobalMuonTrigger:EtaWeight_endcap	float	0.13	L1MuGMTConfig	Weight for eta coordinate in Endcap Matcher Unit
L1GlobalMuonTrigger:PhiWeight_endcap	float	1.0	L1MuGMTConfig	Weight for phi coordinate in Endcap Matcher Unit
L1GlobalMuonTrigger:EtaPhiThreshold_endcap	float	0.062	L1MuGMTConfig	Window size in Endacp Matcher Unit
L1GlobalMuonTrigger:EtaWeight_COU	float	0.316	L1MuGMTConfig	Weight for eta coordinate in DT/CSC Cancel Out Matcher Unit
L1GlobalMuonTrigger:PhiWeight_COU	float	1.0	L1MuGMTConfig	Weight for phi coordinate in DT/CSC Cancel Out Matcher Unit
L1GlobalMuonTrigger:EtaPhiThreshold_COU	float	0.127	L1MuGMTConfig	Window size in DT/CSC Cancel Out Matcher Unit
L1GlobalMuonTrigger:COUConfig	int	2	L1MuGMTConfig	Option for Cancel Out Unit
L1GlobalMuonTrigger:DoOvlRpcAnd	bool	0 (false)	L1MuGMTConfig	Option for Cancel Out Unit
L1GlobalMuonTrigger:CaloTrigger	bool	1 (true)	L1MuGMTConfig	Flag to switch off inputs from Calo Trigger for faster simulation
L1GlobalMuonTrigger:IsolationCellSizeEta	int	2	L1MuGMTConfig	Cell-size in eta-direction for calorimetric isolation assignment (in units of regions)
L1GlobalMuonTrigger:IsolationCellSizePhi	int	2	L1MuGMTConfig	Cell-size in phi-direction for calorimetric isolation assignment (in units of regions)
L1CaloTrigger:lowForwardJetEtCut	unsigned int	20	L1CGlblTrigger	Jet ET cut [low] for forward and backward HF jet counting (presently unused).
L1CaloTrigger:highForwardJetEtCut	unsigned int	30	L1CGlblTrigger	Jet ET cut [high] for forward and backward HF jet counting (presently unused).
L1CaloTrigger:lowCentralJetEtCut	unsigned int	10	L1CGlblTrigger	Jet ET cut for central jet counting (presently unused).
L1CaloTrigger:mediumCentralJetEtCut	unsigned int	20	L1CGlblTrigger	Jet ET cut for central jet counting (presently unused).
L1CaloTrigger:highCentralJetEtCut	unsigned int	30	L1CGlblTrigger	Jet ET cut for central jet counting (presently unused).
L1CaloTrigger:veryHighCentralJetEtCut	unsigned int	40	L1CGlblTrigger	Jet ET cut for central jet counting (presently unused).
L1CaloTrigger:goodJetEtCut	unsigned int	10	L1CGlblTrigger	A new good jets list is made if the jet energy is above this cutoff. The good jets are added to make HT - this trigger is under evaluation.
L1CaloTrigger:noTauVetoLevel	float	50	L1CRegion	If the ET in a 4x4 trigger tower region is above this value the tau veto is not set, to avoid loss of efficiency for high ET tau jets.
L1CaloTrigger:muonIsolationThreshold	unsigned int	3	L1CRegion	The value of ET in a 4x4 trigger tower region that is allowed for muon isolation. The larger this value is the less strict the muon isolation is.
L1CaloTrigger:nEActiveCut	unsigned int	2	L1CRegion	Used in the old tau algorithm - no longer relevant for the new tau pattern algorithm.
L1CaloTrigger:nHActiveCut	unsigned int	2	L1CRegion	Used in the old tau algorithm - no longer relevant for the new tau pattern algorithm.
L1CaloTrigger:ecalTowerETNoiseLevel	unsigned int	2	L1CRgnlTrgData	Ecal noise cut for all e/g isolation algorithms
L1CaloTrigger:hcalTowerETNoiseLevel	unsigned int	2	L1CRgnlTrgData	Hcal noise cut for all e/g isolation algorithms
L1CaloTrigger:emTriggerLSB	float	0.5	L1CRgnlTrgData	The EM trigger least significant bit and scale
L1CaloTrigger:jetTriggerLSB	float	1.0	L1CRgnlTrgData	The jet trigger least significant bit and scale
L1CaloTrigger:HOverECut	float	0.05	L1CRgnlTrgData	H/E cut for EM algorithm
L1CaloTrigger:emTriggerETActiveLevel	float	2.0	L1CRgnlTrgData	EM trigger tower activity level for tau algorithm
L1CaloTrigger:hdTriggerETActiveLevel	float	4.0	L1CRgnlTrgData	HB/HE trigger tower activity level for tau algorithm
L1CaloTrigger:useCombinedPattern	bool	1 (true)	L1CRgnlTrgData	If enabled used OR of the EM and HD patterns for tau algorithm
L1CaloTrigger:ecalInputLSB	float	0.5	L1CRgnlTrgData	Trigger tower ET LSB for EB/EE
L1CaloTrigger:hcalInputLSB	float	0.5	L1CRgnlTrgData	Trigger tower ET LSB for HB/HE/HF
L1CaloTrigger:hfCutOff	unsigned int	3	L1CRgnlTrgHFCrate	HF towers below this are set to zero
L1CaloTrigger:etaCut	float	3.0	L1CClusterCrate	The eta cut that separates the central and forward jets
L1CaloTrigger:clusterSeedEt	unsigned int	5	L1CClusterCrate	The minimum ET in the central region of a jet
L1CaloTrigger:noTauBitThreshold	unsigned int	10000	L1CClusterCrate	Tau bit is ignored if the energy is above this value. By default this feature is NOT used.
L1CNTuple:getPU	unsigned int	0	L1CaloTriggerNTuple	read pile-up info for L1Calotrigger Ntuple
L1CNTuple:printHEPEVT	unsigned int	0	L1CaloTriggerNTuple	print flag for L1Calotrigger Ntuple
L1GlobalTrigger:TriggerMenu	string (lumi2x1033, lumi1034)	lumi2x1033	L1GlobalTriggerConfig	choose trigger menu
L1GlobalTrigger:Algorithm	string	""	L1GlobalTriggerConfig	Add one algorithm to the default ones (see WEB documentation)
L1GlobalTrigger:InputMask	unsigned int	3	L1GlobalTriggerConfig	3 = enable all inputs; 2 = disable Global Calorimeter Input only; 1 = disable Global Muon Input only; 0 = disable Both
L1GlobalTrigger:Mask	unsigned long	0	L1GlobalTriggerConfig	Disable some Global Trigger algorithms (128 bit coding, "1" at bit nr. N disable algorithm nr. N)
CLHEPSeed	int	0	VertexFastSimEventLoop	The seeding of the VertexFastSim event generation. 0 means no seeding.
TuningTools:EventsPerRound	int	100	ConfigurableVertexRecoTuningEventAnalyser	How many events per round do we want ( excluding final round )
uningTools:Bins	int	10	ConfigurableVertexRecoTuningEventAnalyser	How many bins are the scanning ranges divided into
TuningTools:Verbose	int	1	ConfigurableVertexRecoTuningEventAnalyser	Verbosity of the fine tuner. A bitfield. 1: general messages. 4: per event messages
TuningTools:Depth	int	3	ConfigurableVertexRecoTuningEventAnalyser	How often do zoom into subranges in
TuningTools:EventsFinalRound	int	0		How many events do we loop over in the final round. 0 means the last ``pre-round'' counts as the final round.
FineTuner1D:ZoomLimit	float	0.20	FineTuner1D	When do we shift, when do we zoom? Given in percent of the entire range
FineTuner:Histo	bool	true	FineTuner1D	Draw a small ascii histogram for each event?
VertexAssociationToolsFactory:VertexAssociator	string	ByTracks	VertexAssociationToolsFactory	In standard vertex finding tests, defines the type of vertex association. ByTracks: by number of tracks in common between sim and rec vertex; ByDistance: to the closest sim (respectively rec) vertex.
VertexAssociatorByTracks:purityCut	float	0.50001	VertexAssociationToolsFactory	Cut on the fraction of tracks shared by sim and rec vertex, below which no association is made.
CLHEPSeed	int	0	VertexFastSimEventLoop	The seeding of the VertexFastSim event generation. 0 means no seeding.
VertexFastSimEventLoop:PrintDot	bool	true	VertexFastSimEventLoop	Print a dot for each event?
VertexFastSimEventLoop:Logo	bool	true	VertexFastSimEventLoop	Print the VertexFastSim logo on startup?
SimTrackFirstParentFilter:particle	string	BHadron	SimTrackFirstParentFilter	Set the first parent particle which originated in cascade decay the filtered TkSimTrack (possible values: "BHadron", "CHadron", "BMeson", "CMeson").
VertexFindingScore:Power:EffP	float	2.	VertexFindingScore	Exponent of the primary vertex finding efficiency factor when computing the overall vertex finding score
VertexFindingScore:Power:EffS	float	2.	VertexFindingScore	Exponent of the secondary vertex finding efficiency factor when computing the overall vertex finding score
SequentialVertexFitter:maximumDistance	float	0.1	SequentialVertexFitter	Convergence criterion of the vertex fit (the maximum distance between the vertex computed in the previous and the current iterations to consider the fit to have converged)
SequentialVertexFitter:maximumNumberOfIterations	int	10	SequentialVertexFitter	The maximum number of iterations to perform in the vertex fit

About this document ...

Stephan Wynhoff
2004-11-25

Generated at Thu Nov 25 17:12:51 2004 for ORCA by