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Variables
TopMonitoring_Client_cff Namespace Reference

Variables

tuple topClient
 
tuple topEfficiency_diElec
 
tuple topEfficiency_diMu
 
tuple topEfficiency_ElecMu
 
tuple topEfficiency_eleHT
 
tuple topEfficiency_elejets
 
tuple topEfficiency_fullyhadronic_DoubleBTag
 
tuple topEfficiency_fullyhadronic_Reference
 
tuple topEfficiency_fullyhadronic_SingleBTag
 
tuple topEfficiency_fullyhadronic_TripleBTag
 
tuple topEfficiency_singleMu
 

Variable Documentation

tuple TopMonitoring_Client_cff.topClient
Initial value:
1 = cms.Sequence(
2  topEfficiency_elejets
3  + topEfficiency_eleHT
4  + topEfficiency_singleMu
5  + topEfficiency_diElec
6  + topEfficiency_diMu
7  + topEfficiency_ElecMu
8  + topEfficiency_fullyhadronic_Reference
9  + topEfficiency_fullyhadronic_DoubleBTag
10  + topEfficiency_fullyhadronic_SingleBTag
11  + topEfficiency_fullyhadronic_TripleBTag
12 )

Definition at line 492 of file TopMonitoring_Client_cff.py.

tuple TopMonitoring_Client_cff.topEfficiency_diElec

Definition at line 105 of file TopMonitoring_Client_cff.py.

tuple TopMonitoring_Client_cff.topEfficiency_diMu

Definition at line 144 of file TopMonitoring_Client_cff.py.

tuple TopMonitoring_Client_cff.topEfficiency_ElecMu

Definition at line 183 of file TopMonitoring_Client_cff.py.

tuple TopMonitoring_Client_cff.topEfficiency_eleHT

Definition at line 37 of file TopMonitoring_Client_cff.py.

tuple TopMonitoring_Client_cff.topEfficiency_elejets

Definition at line 5 of file TopMonitoring_Client_cff.py.

tuple TopMonitoring_Client_cff.topEfficiency_fullyhadronic_DoubleBTag

Definition at line 233 of file TopMonitoring_Client_cff.py.

tuple TopMonitoring_Client_cff.topEfficiency_fullyhadronic_Reference
Initial value:
1 = DQMEDHarvester("DQMGenericClient",
2  subDirs = cms.untracked.vstring("HLT/TOP/FullyHadronic/Reference/*"),
3  verbose = cms.untracked.uint32(0),
4  resolution = cms.vstring(),
5  efficiency = cms.vstring(
6  "effic_eventHT 'efficiency vs event H_{T};event H_{T} [GeV];efficiency' eventHT_numerator eventHT_denominator",
7  "effic_eventHT_variableBinning 'efficiency vs event H_{T};event H_{T} [GeV];efficiency' eventHT_variableBinning_numerator eventHT_variableBinning_denominator",
8  ),
9 )

Definition at line 223 of file TopMonitoring_Client_cff.py.

tuple TopMonitoring_Client_cff.topEfficiency_fullyhadronic_SingleBTag

Definition at line 320 of file TopMonitoring_Client_cff.py.

tuple TopMonitoring_Client_cff.topEfficiency_fullyhadronic_TripleBTag

Definition at line 407 of file TopMonitoring_Client_cff.py.

tuple TopMonitoring_Client_cff.topEfficiency_singleMu
Initial value:
1 = DQMEDHarvester("DQMGenericClient",
2  subDirs = cms.untracked.vstring("HLT/TOP/SingleLepton/SingleMuon/*"),
3  verbose = cms.untracked.uint32(0),
4  resolution = cms.vstring(),
5  efficiency = cms.vstring(
6  "effic_met 'efficiency vs MET;MET [GeV];efficiency' met_numerator met_denominator",
7  "effic_metPhi 'efficiency vs MET #phi;MET #phi;efficiency' metPhi_numerator metPhi_denominator",
8  "effic_muPt_1 'efficiency vs muon p_{T};muon p_{T} [GeV];efficiency' muPt_1_numerator muPt_1_denominator",
9  "effic_muEta_1 'efficiency vs muon #eta;muon #eta;efficiency' muEta_1_numerator muEta_1_denominator",
10  "effic_muPhi_1 'efficiency vs muon #phi;muon #phi;efficiency' muPhi_1_numerator muPhi_1_denominator",
11  "effic_muEtaPhi_1 'efficiency vs muon #eta;muon #phi;efficiency' muEtaPhi_1_numerator muEtaPhi_1_denominator",
12  "effic_muPtEta_1 'efficiency vs muon p_{T};muon #eta;efficiency' muPtEta_1_numerator muPtEta_1_denominator",
13  "effic_jetPt_1 'efficiency vs leading jet p_{T};jet p_{T} [GeV];efficiency' jetPt_1_numerator jetPt_1_denominator",
14  "effic_jetEta_1 'efficiency vs leading jet #eta;jet #eta;efficiency' jetEta_1_numerator jetEta_1_denominator",
15  "effic_jetPhi_1 'efficiency vs leading jet #phi;jet #phi;efficiency' jetPhi_1_numerator jetPhi_1_denominator",
16  "effic_jetPt_2 'efficiency vs sub-leading jet p_{T};jet p_{T} [GeV];efficiency' jetPt_2_numerator jetPt_2_denominator",
17  "effic_jetEta_2 'efficiency vs sub-leading jet #eta;jet #eta;efficiency' jetEta_2_numerator jetEta_2_denominator",
18  "effic_jetPhi_2 'efficiency vs sub-leading jet #phi;jet #phi;efficiency' jetPhi_2_numerator jetPhi_2_denominator",
19  "effic_eventHT 'efficiency vs event H_{T};event H_{T} [GeV];efficiency' eventHT_numerator eventHT_denominator",
20  "effic_jetPtEta_1 'efficiency vs jet p_{T}-#eta;jet #eta;jet p_{T}' jetPtEta_1_numerator jetPtEta_1_denominator",
21  "effic_jetEtaPhi_1 'efficiency vs jet #eta-#phi;jet #eta;jet #phi' jetEtaPhi_1_numerator jetEtaPhi_1_denominator",
22  "effic_jetPtEta_2 'efficiency vs jet p_{T}-#eta;jet #eta;jet p_{T}' jetPtEta_2_numerator jetPtEta_2_denominator",
23  "effic_jetEtaPhi_2 'efficiency vs jet #eta-#phi;jet #eta;jet #phi' jetEtaPhi_2_numerator jetEtaPhi_2_denominator",
24  "effic_jetEtaPhi_HEP17 'efficiency vs jet #eta-#phi;jet #eta;jet #phi' jetEtaPhi_HEP17_numerator jetEtaPhi_HEP17_denominator",
25  "effic_jetMulti 'efficiency vs jet multiplicity;jet multiplicity;efficiency' jetMulti_numerator jetMulti_denominator",
26  "effic_bjetMulti 'efficiency vs b-jet multiplicity;bjet multiplicity;efficiency' bjetMulti_numerator bjetMulti_denominator",
27  "effic_muMulti 'efficiency vs muon multiplicity;muon multiplicity;efficiency' muMulti_numerator muMulti_denominator",
28  ),
29 )

Definition at line 75 of file TopMonitoring_Client_cff.py.

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