CMSSW Reference Manual

00001 import FWCore.ParameterSet.Config as cms
00002 
00003 photonAnalysis = cms.EDAnalyzer("PhotonAnalyzer",
00004 
00005     Name = cms.untracked.string('photonAnalysis'),
00006 
00007     phoProducer = cms.string('photons'),
00008     photonCollection = cms.string(''),
00009 
00010     barrelEcalHits = cms.InputTag("ecalRecHit","EcalRecHitsEB"),
00011     endcapEcalHits = cms.InputTag("ecalRecHit","EcalRecHitsEE"),
00012 
00013     prescaleFactor = cms.untracked.int32(1),
00014 
00015     cutStep = cms.double(50.0),
00016     numberOfSteps = cms.int32(2),                          
00017 
00018     useBinning = cms.bool(False),
00019                              
00020 
00021     minPhoEtCut = cms.double(0.0),
00022               
00023 
00024     # DBE verbosity
00025     Verbosity = cms.untracked.int32(0),
00026                                 # 1 provides basic output
00027                                 # 2 provides output of the fill step + 1
00028                                 # 3 provides output of the store step + 2
00029                                 
00030     isolationStrength = cms.int32(2),
00031                                 # 1 => Loose EM
00032                                 # 2 => Loose Photon
00033                                 # 3 => Tight Photon
00034 
00035  
00036 
00037     eBin = cms.int32(250),
00038     eMin = cms.double(0.0),
00039     eMax = cms.double(250.0),
00040                                 
00041     etBin = cms.int32(200),
00042     etMin = cms.double(0.0),
00043     etMax = cms.double(200.0),
00044                                 
00045     etaBin = cms.int32(100),                               
00046     etaMin = cms.double(-2.5),
00047     etaMax = cms.double(2.5),
00048 
00049     phiBin = cms.int32(100),                               
00050     phiMin = cms.double(-3.14),
00051     phiMax = cms.double(3.14),
00052                                 
00053     r9Bin = cms.int32(100),
00054     r9Min = cms.double(0.0),
00055     r9Max = cms.double(1.1),
00056 
00057     dEtaTracksBin = cms.int32(100),
00058     dEtaTracksMin = cms.double(-0.2),
00059     dEtaTracksMax = cms.double(0.2),
00060 
00061     dPhiTracksBin = cms.int32(100),
00062     dPhiTracksMin = cms.double(-0.5),
00063     dPhiTracksMax = cms.double(0.5),
00064 # parameters for pizer finding                                
00065     seleXtalMinEnergy = cms.double(0.0),
00066     clusSeedThr = cms.double(0.5),
00067     clusPhiSize = cms.int32(3),
00068     clusEtaSize = cms.int32(3),
00069     ParameterLogWeighted = cms.bool(True),                          
00070     ParameterX0 = cms.double(0.89),
00071     ParameterW0 = cms.double(4.2),
00072     ParameterT0_barl = cms.double(5.7),
00073     selePtGammaOne = cms.double(0.9),
00074     selePtGammaTwo = cms.double(0.9),                          
00075     seleS4S9GammaOne = cms.double(0.85),
00076     seleS4S9GammaTwo = cms.double(0.85),
00077     selePtPi0 = cms.double(2.5),
00078     selePi0Iso = cms.double(0.5),
00079     selePi0BeltDR = cms.double(0.2),
00080     selePi0BeltDeta = cms.double(0.05),
00081     seleMinvMaxPi0 = cms.double(0.5),
00082     seleMinvMinPi0 = cms.double(0.0),
00083 #                                
00084     OutputMEsInRootFile = cms.bool(False),
00085     OutputFileName = cms.string('DQMOfflinePhotons.root'),
00086 
00087 )
00088 
00089
photonAnalyzer_cfi.py
