ElectronMcSignalValidatorPt1000_gedGsfElectrons_cfi Namespace Reference

Variables
tuple	electronCollectionEndcaps = cms.InputTag("ecalDrivenGsfElectronsHGC")
string	electronCoreCollection = 'ecalDrivenGsfElectronCoresHGC'
tuple	electronMcSignalHistosCfg
tuple	electronMcSignalValidatorPt1000
tuple	histosCfg
float	MaxAbsEta = 3.0

Variable Documentation

tuple ElectronMcSignalValidatorPt1000_gedGsfElectrons_cfi.electronCollectionEndcaps = cms.InputTag("ecalDrivenGsfElectronsHGC")

Definition at line 72 of file ElectronMcSignalValidatorPt1000_gedGsfElectrons_cfi.py.

string ElectronMcSignalValidatorPt1000_gedGsfElectrons_cfi.electronCoreCollection = 'ecalDrivenGsfElectronCoresHGC'

Definition at line 73 of file ElectronMcSignalValidatorPt1000_gedGsfElectrons_cfi.py.

tuple ElectronMcSignalValidatorPt1000_gedGsfElectrons_cfi.electronMcSignalHistosCfg

Initial value:

= cms.PSet(
  Nbinxyz = cms.int32(50),
  Nbinp = cms.int32(50), Nbinp2D = cms.int32(50), 
  Pmax = cms.double(4500), 
  Nbinpt = cms.int32(50), Nbinpt2D = cms.int32(50), Nbinpteff = cms.int32(19),Ptmax = cms.double(1500.0),
  Nbinfhits = cms.int32(30), Fhitsmax = cms.double(30.0),
  Nbinlhits = cms.int32(5), Lhitsmax = cms.double(10.0),
  Nbineta = cms.int32(50), Nbineta2D = cms.int32(50),Etamin = cms.double(-2.5), Etamax = cms.double(2.5),
  Nbindeta = cms.int32(100), Detamin = cms.double(-0.005), Detamax = cms.double(0.005), 
  Nbindetamatch = cms.int32(100), Nbindetamatch2D = cms.int32(50), Detamatchmin = cms.double(-0.05), Detamatchmax = cms.double(0.05),
  Nbinphi = cms.int32(64), Nbinphi2D = cms.int32(32), Phimin = cms.double(-3.2), Phimax = cms.double(3.2),
  Nbindphi = cms.int32(100), Dphimin = cms.double(-0.01), Dphimax = cms.double(0.01),
  Nbindphimatch = cms.int32(100), Nbindphimatch2D = cms.int32(50), Dphimatchmin = cms.double(-0.2), Dphimatchmax = cms.double(0.2),
  Nbineop = cms.int32(50), Nbineop2D = cms.int32(30), 
  Eopmax = cms.double(10),
  Eopmaxsht = cms.double(3.0),
  Nbinmee = cms.int32(100), Meemin = cms.double(0.0), Meemax = cms.double(150.),
  Nbinhoe = cms.int32(100), Hoemin = cms.double(0.0), Hoemax = cms.double(0.5),
  Nbinpoptrue = cms.int32(75), Poptruemin = cms.double(0.0), Poptruemax = cms.double(1.5),
  Nbinerror = cms.int32(30), Energyerrormax = cms.double(150.0),
  EfficiencyFlag = cms.bool(True), StatOverflowFlag = cms.bool(False),
  NbinOPV = cms.int32(80), OPV_min = cms.double(-0.5), OPV_max = cms.double(79.5), # OPV : Offline Primary Vertices
  NbinELE = cms.int32(11), ELE_min = cms.double(-0.5), ELE_max = cms.double(10.5), # ELE : recEleNum
  NbinCORE = cms.int32(21), CORE_min = cms.double(-0.5), CORE_max = cms.double(20.5), # CORE : recCoreNum
  NbinTRACK = cms.int32(41), TRACK_min = cms.double(-0.5), TRACK_max = cms.double(40.5), # TRACK : recTrackNum
  NbinSEED = cms.int32(101), SEED_min = cms.double(-0.5), SEED_max = cms.double(100.5), # SEED : recSeedNum
)

Definition at line 3 of file ElectronMcSignalValidatorPt1000_gedGsfElectrons_cfi.py.

tuple ElectronMcSignalValidatorPt1000_gedGsfElectrons_cfi.electronMcSignalValidatorPt1000

Definition at line 32 of file ElectronMcSignalValidatorPt1000_gedGsfElectrons_cfi.py.

tuple ElectronMcSignalValidatorPt1000_gedGsfElectrons_cfi.histosCfg

Initial value:

= dict( 
        Nbineta = 60 ,
        Nbineta2D = 60 ,
        Etamin = -3.0 ,
        Etamax = 3.0 ,
 
        NbinOPV = 125, OPV_min = -0.5, OPV_max = 249.5,
        NbinELE = 100, ELE_min = -0.5, ELE_max = 999.5,
        NbinCORE = 100, CORE_min = -0.5, CORE_max = 999.5,
        NbinTRACK = 100, TRACK_min = -0.5, TRACK_max = 999.5,
        NbinSEED = 100, SEED_min = -0.5, SEED_max = 9999.5,
   )

Definition at line 75 of file ElectronMcSignalValidatorPt1000_gedGsfElectrons_cfi.py.

float ElectronMcSignalValidatorPt1000_gedGsfElectrons_cfi.MaxAbsEta = 3.0

Definition at line 74 of file ElectronMcSignalValidatorPt1000_gedGsfElectrons_cfi.py.