3 SUSY_HLT_PhotonHT = cms.EDAnalyzer(
"SUSY_HLT_PhotonHT",
4 trigSummary = cms.InputTag(
"hltTriggerSummaryAOD",
'',
'HLT'),
5 pfMETCollection = cms.InputTag(
"pfMet"),
6 photonCollection = cms.InputTag(
"gedPhotons"),
7 TriggerResults = cms.InputTag(
'TriggerResults',
'',
'HLT'),
8 HLTProcess = cms.string(
'HLT'),
9 TriggerPath = cms.string(
'HLT_Photon90_CaloId_PFHT500_v'),
10 TriggerPathAuxiliaryForHadronic = cms.string(
'HLT_IsoMu24_eta2p1_IterTrk02_v'),
11 TriggerFilterPhoton = cms.InputTag(
'hltEG90HEFilter',
'',
'HLT'),
12 TriggerFilterHt = cms.InputTag(
'hltPFHT500',
'',
'HLT'),
13 ptThrOffline = cms.untracked.double( 100 ),
14 htThrOffline = cms.untracked.double( 600 ),
17 SUSY_HLT_PhotonHT_FASTSIM = cms.EDAnalyzer(
"SUSY_HLT_PhotonHT",
18 trigSummary = cms.InputTag(
"hltTriggerSummaryAOD",
'',
'HLT'),
19 pfMETCollection = cms.InputTag(
"pfMet"),
20 photonCollection = cms.InputTag(
"gedPhotons"),
21 TriggerResults = cms.InputTag(
'TriggerResults',
'',
'HLT'),
22 HLTProcess = cms.string(
'HLT'),
23 TriggerPath = cms.string(
'HLT_Photon90_CaloId_PFHT500_v'),
24 TriggerPathAuxiliaryForHadronic = cms.string(
'HLT_IsoMu24_eta2p1_IterTrk02_v'),
25 TriggerFilterPhoton = cms.InputTag(
'hltEG90HEFilter',
'',
'HLT'),
26 TriggerFilterHt = cms.InputTag(
'hltPFHT500',
'',
'HLT'),
27 ptThrOffline = cms.untracked.double( 100 ),
28 htThrOffline = cms.untracked.double( 600 ),
31 SUSY_HLT_PhotonHT_POSTPROCESSING = cms.EDAnalyzer(
"DQMGenericClient",
32 subDirs = cms.untracked.vstring(
"HLT/SUSYBSM/HLT_Photon90_CaloId_PFHT500"),
33 verbose = cms.untracked.uint32(2),
34 resolution = cms.vstring(
""),
35 efficiency = cms.vstring(
36 "photonPtTurnOn_eff 'Turn-on vs photon; E_{T} (GeV); #epsilon' photonTurnOn_num photonTurnOn_den",
37 "htTurnOn_eff 'Turn-on vs H_{T}; H_{T} (GeV); #epsilon' pfHtTurnOn_num pfHtTurnOn_den",
41 SUSY_HLT_PhotonHT_FASTSIM_POSTPROCESSING = cms.EDAnalyzer(
"DQMGenericClient",
42 subDirs = cms.untracked.vstring(
"HLT/SUSYBSM/HLT_Photon90_CaloId_PFHT500"),
43 verbose = cms.untracked.uint32(2),
44 resolution = cms.vstring(
""),
45 efficiency = cms.vstring(
46 "photonPtTurnOn_eff 'Turn-on vs photon; E_{T} (GeV); #epsilon' photonTurnOn_num photonTurnOn_den",
47 "htTurnOn_eff 'Turn-on vs H_{T}; H_{T} (GeV); #epsilon' pfHtTurnOn_num pfHtTurnOn_den",