1 import FWCore.ParameterSet.Config
as cms
2 from DQMServices.Core.DQMEDHarvester
import DQMEDHarvester
5 subDirs = cms.untracked.vstring(
"L1T/L1TriggerVsGen/"),
6 efficiency = cms.vstring(
7 "Muon_Eff_Pt 'L1 efficiency vs p_{T}' Muon_Eff_Pt_Nomin Muon_Eff_Pt_Denom",
8 "Muon_Eff_Eta 'L1 efficiency vs #eta' Muon_Eff_Eta_Nomin Muon_Eff_Eta_Denom",
9 "Muon_TurnOn_15 'L1 Turn On 15GeV' Muon_TurnOn_15_Nomin Muon_TurnOn_15_Denom",
10 "Muon_TurnOn_30 'L1 Turn On 30GeV' Muon_TurnOn_30_Nomin Muon_TurnOn_30_Denom",
11 "Egamma_Eff_Pt 'L1 efficiency vs p_{T}' Egamma_Eff_Pt_Nomin Egamma_Eff_Pt_Denom",
12 "Egamma_Eff_Eta 'L1 efficiency vs #eta' Egamma_Eff_Eta_Nomin Egamma_Eff_Eta_Denom",
13 "Egamma_TurnOn_15 'L1 Turn On 15GeV' Egamma_TurnOn_15_Nomin Egamma_TurnOn_15_Denom",
14 "Egamma_TurnOn_30 'L1 Turn On 30GeV' Egamma_TurnOn_30_Nomin Egamma_TurnOn_30_Denom",
15 "Tau_Eff_Pt 'L1 efficiency vs p_{T}' Tau_Eff_Pt_Nomin Tau_Eff_Pt_Denom",
16 "Tau_Eff_Eta 'L1 efficiency vs #eta' Tau_Eff_Eta_Nomin Tau_Eff_Eta_Denom",
17 "Tau_TurnOn_15 'L1 Turn On 15GeV' Tau_TurnOn_15_Nomin Tau_TurnOn_15_Denom",
18 "Tau_TurnOn_30 'L1 Turn On 30GeV' Tau_TurnOn_30_Nomin Tau_TurnOn_30_Denom",
19 "Jet_Eff_Pt 'L1 efficiency vs p_{T}' Jet_Eff_Pt_Nomin Jet_Eff_Pt_Denom",
20 "Jet_Eff_Eta 'L1 efficiency vs #eta' Jet_Eff_Eta_Nomin Jet_Eff_Eta_Denom",
21 "Jet_TurnOn_15 'L1 Turn On 15GeV' Jet_TurnOn_15_Nomin Jet_TurnOn_15_Denom",
22 "Jet_TurnOn_30 'L1 Turn On 30GeV' Jet_TurnOn_30_Nomin Jet_TurnOn_30_Denom",
25 resolution = cms.vstring(),
26 outputFileName = cms.untracked.string(
""),
27 verbose = cms.untracked.uint32(0)
30 L1GenPostProcessor = cms.Sequence(postProcessorL1Gen)