1 import FWCore.ParameterSet.Config
as cms
4 photon_pathName =
"HLT_DoublePhoton33_CaloIdL" 5 photon_moduleName =
"hltEG33CaloIdLClusterShapeFilter" 7 muon_pathName =
"HLT_IsoMu27" 8 muon_moduleName =
"hltL3crIsoL1sMu22Or25L1f0L2f10QL3f27QL3trkIsoFiltered0p07" 10 l2muon_pathName =
"HLT_L2Mu10" 11 l2muon_moduleName =
"hltL2fL1sMu22L1f0L2Filtered10Q" 13 l2NoBPTXmuon_pathName =
"HLT_L2Mu40_NoVertex_3Sta_NoBPTX3BX" 14 l2NoBPTXmuon_moduleName =
"hltL2fL1sMuOpenNotBptxORNoHaloMu3BXL1f0NoVtxCosmicSeedMeanTimerL2Filtered40Sta3" 16 electron_pathName =
"HLT_Ele38_WPTight_Gsf" 17 electron_moduleName =
"hltEle38noerWPTightGsfTrackIsoFilter" 19 caloMet_pathName =
"HLT_MET60_IsoTrk35_Loose" 20 caloMet_moduleName =
"hltMET60" 22 pfMet_pathName =
"HLT_PFMET110_PFMHT110_IDTight" 23 pfMet_moduleName =
"hltPFMET110" 25 jetAk8_pathName =
"HLT_AK8PFJet400_TrimMass30" 26 jetAk8_moduleName =
"hltAK8SinglePFJet400TrimModMass30" 28 rsq_mr_pathName =
"HLT_RsqMR240_Rsq0p09_MR200" 29 rsq_mr_moduleName =
"hltRsqMR240Rsq0p09MR200" 31 bJet_pathNameCalo =
"HLT_DoubleJets100_DoubleBTagCSV_0p92_DoublePFJets128MaxDeta1p6" 32 bJet_moduleNameCalo =
"hltBTagCalo80x6CSVp0p92DoubleWithMatching" 34 bJet_pathNamePF =
"HLT_PFHT380_SixJet32_DoubleBTagCSV_p075" 35 bJet_moduleNamePF =
"hltBTagPFCSVp075Double" 39 from DQMServices.Core.DQMEDAnalyzer
import DQMEDAnalyzer
41 processName = cms.string(
"HLT"),
43 pathName = cms.string(
"HLT_PFHT200_DiPFJetAve90_PFAlphaT0p63"),
44 moduleName = cms.string(
"hltPFHT200PFAlphaT0p63"),
45 axisLabel = cms.string(
"Alpha_{T}"),
46 plotLabel = cms.string(
"alphaT"),
47 mainWorkspace = cms.bool(
True),
48 NbinsX = cms.int32(30),
53 pathName = cms.string(photon_pathName),
54 moduleName = cms.string(photon_moduleName),
55 plotLabel = cms.string(
"Photon_pT"),
56 axisLabel = cms.string(
"photon p_{T} [GeV]"),
57 mainWorkspace = cms.bool(
True),
58 NbinsX = cms.int32(100),
60 Xmax = cms.double(200)
63 pathName = cms.string(photon_pathName),
64 moduleName = cms.string(photon_moduleName),
65 plotLabel = cms.string(
"Photon_eta"),
66 axisLabel = cms.string(
"photon eta"),
67 mainWorkspace = cms.bool(
False),
68 NbinsX = cms.int32(50),
69 Xmin = cms.double(-3),
73 pathName = cms.string(photon_pathName),
74 moduleName = cms.string(photon_moduleName),
75 plotLabel = cms.string(
"Photon_phi"),
76 axisLabel = cms.string(
"photon phi"),
77 mainWorkspace = cms.bool(
False),
78 NbinsX = cms.int32(50),
79 Xmin = cms.double(-3.4),
80 Xmax = cms.double(3.4)
83 pathName = cms.string(muon_pathName),
84 moduleName = cms.string(muon_moduleName),
85 plotLabel = cms.string(
"Muon_pT"),
86 axisLabel = cms.string(
"muon p_{T} [GeV]"),
87 mainWorkspace = cms.bool(
True),
88 NbinsX = cms.int32(75),
90 Xmax = cms.double(150)
93 pathName = cms.string(muon_pathName),
94 moduleName = cms.string(muon_moduleName),
95 plotLabel = cms.string(
"Muon_eta"),
96 axisLabel = cms.string(
"muon eta"),
97 mainWorkspace = cms.bool(
False),
98 NbinsX = cms.int32(50),
99 Xmin = cms.double(-3),
103 pathName = cms.string(muon_pathName),
104 moduleName = cms.string(muon_moduleName),
105 plotLabel = cms.string(
"Muon_phi"),
106 axisLabel = cms.string(
"muon phi"),
107 mainWorkspace = cms.bool(
False),
108 NbinsX = cms.int32(50),
109 Xmin = cms.double(-3.4),
110 Xmax = cms.double(3.4)
113 pathName = cms.string(l2muon_pathName),
114 moduleName = cms.string(l2muon_moduleName),
115 plotLabel = cms.string(
"L2Muon_pT"),
116 axisLabel = cms.string(
"L2 muon p_{T} [GeV]"),
117 mainWorkspace = cms.bool(
True),
118 NbinsX = cms.int32(75),
119 Xmin = cms.double(0),
120 Xmax = cms.double(150)
122 l2muonEta = cms.PSet(
123 pathName = cms.string(l2muon_pathName),
124 moduleName = cms.string(l2muon_moduleName),
125 plotLabel = cms.string(
"L2Muon_eta"),
126 axisLabel = cms.string(
"L2 muon eta"),
127 mainWorkspace = cms.bool(
False),
128 NbinsX = cms.int32(50),
129 Xmin = cms.double(-3),
132 l2muonPhi = cms.PSet(
133 pathName = cms.string(l2muon_pathName),
134 moduleName = cms.string(l2muon_moduleName),
135 plotLabel = cms.string(
"L2Muon_phi"),
136 axisLabel = cms.string(
"L2 muon phi"),
137 mainWorkspace = cms.bool(
False),
138 NbinsX = cms.int32(50),
139 Xmin = cms.double(-3.4),
140 Xmax = cms.double(3.4)
142 l2NoBPTXmuonPt = cms.PSet(
143 pathName = cms.string(l2NoBPTXmuon_pathName),
144 moduleName = cms.string(l2NoBPTXmuon_moduleName),
145 plotLabel = cms.string(
"L2NoBPTXMuon_pT"),
146 axisLabel = cms.string(
"L2 No BPTX muon p_{T} [GeV]"),
147 mainWorkspace = cms.bool(
True),
148 NbinsX = cms.int32(75),
149 Xmin = cms.double(0),
150 Xmax = cms.double(150)
152 l2NoBPTXmuonEta = cms.PSet(
153 pathName = cms.string(l2NoBPTXmuon_pathName),
154 moduleName = cms.string(l2NoBPTXmuon_moduleName),
155 plotLabel = cms.string(
"L2NoBPTXMuon_eta"),
156 axisLabel = cms.string(
"L2 NoBPTX muon eta"),
157 mainWorkspace = cms.bool(
False),
158 NbinsX = cms.int32(50),
159 Xmin = cms.double(-3),
162 l2NoBPTXmuonPhi = cms.PSet(
163 pathName = cms.string(l2NoBPTXmuon_pathName),
164 moduleName = cms.string(l2NoBPTXmuon_moduleName),
165 plotLabel = cms.string(
"L2NoBPTXMuon_phi"),
166 axisLabel = cms.string(
"L2 NoBPTX muon phi"),
167 mainWorkspace = cms.bool(
False),
168 NbinsX = cms.int32(50),
169 Xmin = cms.double(-3.4),
170 Xmax = cms.double(3.4)
172 electronPt = cms.PSet(
173 pathName = cms.string(electron_pathName),
174 moduleName = cms.string(electron_moduleName),
175 plotLabel = cms.string(
"Electron_pT"),
176 axisLabel = cms.string(
"electron p_{T} [GeV]"),
177 mainWorkspace = cms.bool(
True),
178 NbinsX = cms.int32(75),
179 Xmin = cms.double(0),
180 Xmax = cms.double(150)
182 electronEta = cms.PSet(
183 pathName = cms.string(electron_pathName),
184 moduleName = cms.string(electron_moduleName),
185 plotLabel = cms.string(
"Electron_eta"),
186 axisLabel = cms.string(
"electron eta"),
187 mainWorkspace = cms.bool(
False),
188 NbinsX = cms.int32(50),
189 Xmin = cms.double(-3),
192 electronPhi = cms.PSet(
193 pathName = cms.string(electron_pathName),
194 moduleName = cms.string(electron_moduleName),
195 plotLabel = cms.string(
"Electron_phi"),
196 axisLabel = cms.string(
"electron phi"),
197 mainWorkspace = cms.bool(
False),
198 NbinsX = cms.int32(50),
199 Xmin = cms.double(-3.4),
200 Xmax = cms.double(3.4)
203 pathName = cms.string(
"HLT_PFJet200"),
204 moduleName = cms.string(
"hltSinglePFJet200"),
205 plotLabel = cms.string(
"Jet_pT"),
206 axisLabel = cms.string(
"jet p_{T} [GeV]"),
207 mainWorkspace = cms.bool(
True),
208 NbinsX = cms.int32(75),
209 Xmin = cms.double(150),
210 Xmax = cms.double(550)
213 pathName = cms.string(jetAk8_pathName),
214 moduleName = cms.string(jetAk8_moduleName),
215 axisLabel = cms.string(
"AK8 jet p_{T} [GeV]"),
216 plotLabel = cms.string(
"JetAK8_Pt"),
217 mainWorkspace = cms.bool(
True),
218 NbinsX = cms.int32(75),
219 Xmin = cms.double(300),
220 Xmax = cms.double(750)
222 jetAK8Mass = cms.PSet(
223 pathName = cms.string(jetAk8_pathName),
224 moduleName = cms.string(jetAk8_moduleName),
225 plotLabel = cms.string(
"JetAK8_mass"),
226 axisLabel = cms.string(
"AK8 jet mass [GeV]"),
227 mainWorkspace = cms.bool(
True),
228 NbinsX = cms.int32(100),
229 Xmin = cms.double(0),
230 Xmax = cms.double(200)
233 pathName = cms.string(
"HLT_IsoMu24_eta2p1_MediumChargedIsoPFTau35_Trk1_eta2p1_Reg_CrossL1"),
234 moduleName = cms.string(
"hltOverlapFilterIsoMu24MediumChargedIsoPFTau35MonitoringReg"),
235 axisLabel = cms.string(
"tau p_{T} [GeV]"),
236 plotLabel = cms.string(
"Tau_pT"),
237 mainWorkspace = cms.bool(
True),
238 NbinsX = cms.int32(75),
239 Xmin = cms.double(30),
240 Xmax = cms.double(350)
242 diMuonLowMass = cms.PSet(
243 pathName = cms.string(
"HLT_DoubleMu4_3_Jpsi_Displaced"),
244 moduleName = cms.string(
"hltDisplacedmumuFilterDoubleMu43Jpsi"),
245 plotLabel = cms.string(
"Dimuon_LowMass"),
246 axisLabel = cms.string(
"di-muon low mass [GeV]"),
247 mainWorkspace = cms.bool(
True),
248 NbinsX = cms.int32(100),
249 Xmin = cms.double(2.5),
250 Xmax = cms.double(3.5)
252 caloMetPt = cms.PSet(
253 pathName = cms.string(caloMet_pathName),
254 moduleName = cms.string(caloMet_moduleName),
255 plotLabel = cms.string(
"CaloMET_pT"),
256 axisLabel = cms.string(
"calo MET p_{T} [GeV]"),
257 mainWorkspace = cms.bool(
True),
258 NbinsX = cms.int32(60),
259 Xmin = cms.double(50),
260 Xmax = cms.double(250)
262 caloMetPhi = cms.PSet(
263 pathName = cms.string(caloMet_pathName),
264 moduleName = cms.string(caloMet_moduleName),
265 plotLabel = cms.string(
"CaloMET_phi"),
266 axisLabel = cms.string(
"calo MET phi"),
267 mainWorkspace = cms.bool(
False),
268 NbinsX = cms.int32(50),
269 Xmin = cms.double(-3.4),
270 Xmax = cms.double(3.4)
273 pathName = cms.string(pfMet_pathName),
274 moduleName = cms.string(pfMet_moduleName),
275 plotLabel = cms.string(
"PFMET_pT"),
276 axisLabel = cms.string(
"PF MET p_{T} [GeV]"),
277 mainWorkspace = cms.bool(
True),
278 NbinsX = cms.int32(60),
279 Xmin = cms.double(100),
280 Xmax = cms.double(500)
283 pathName = cms.string(pfMet_pathName),
284 moduleName = cms.string(pfMet_moduleName),
285 plotLabel = cms.string(
"PFMET_phi"),
286 axisLabel = cms.string(
"PF MET phi"),
287 mainWorkspace = cms.bool(
False),
288 NbinsX = cms.int32(50),
289 Xmin = cms.double(-3.4),
290 Xmax = cms.double(3.4)
293 pathName = cms.string(
"HLT_HT650_DisplacedDijet80_Inclusive"),
294 moduleName = cms.string(
"hltHT650"),
295 plotLabel = cms.string(
"CaloHT_pT"),
296 axisLabel = cms.string(
"calo HT p_{T} [GeV]"),
297 mainWorkspace = cms.bool(
True),
298 NbinsX = cms.int32(200),
299 Xmin = cms.double(0),
300 Xmax = cms.double(2000)
303 pathName = cms.string(
"HLT_PFHT750_4JetPt50"),
304 moduleName = cms.string(
"hltPF4JetPt50HT750"),
305 plotLabel = cms.string(
"PFHT_pT"),
306 axisLabel = cms.string(
"PF HT p_{T} [GeV]"),
307 mainWorkspace = cms.bool(
True),
308 NbinsX = cms.int32(200),
309 Xmin = cms.double(0),
310 Xmax = cms.double(2000)
313 pathName = cms.string(bJet_pathNameCalo),
314 moduleName = cms.string(bJet_moduleNameCalo),
315 pathName_OR = cms.string(bJet_pathNamePF),
316 moduleName_OR = cms.string(bJet_moduleNamePF),
317 plotLabel = cms.string(
"bJet_eta"),
318 axisLabel = cms.string(
"b-jet eta"),
319 mainWorkspace = cms.bool(
False),
320 NbinsX = cms.int32(50),
321 Xmin = cms.double(-3),
325 pathName = cms.string(bJet_pathNameCalo),
326 moduleName = cms.string(bJet_moduleNameCalo),
327 pathName_OR = cms.string(bJet_pathNamePF),
328 moduleName_OR = cms.string(bJet_moduleNamePF),
329 plotLabel = cms.string(
"bJet_phi"),
330 axisLabel = cms.string(
"b-jet phi"),
331 mainWorkspace = cms.bool(
False),
332 NbinsX = cms.int32(50),
333 Xmin = cms.double(-3.4),
334 Xmax = cms.double(3.4)
336 bJetCSVCalo = cms.PSet(
337 pathName = cms.string(bJet_pathNameCalo),
338 moduleName = cms.string(bJet_moduleNameCalo),
339 plotLabel = cms.string(
"bJetCSVCalo"),
340 axisLabel = cms.string(
"calo b-jet CSV"),
341 mainWorkspace = cms.bool(
True),
342 NbinsX = cms.int32(110),
343 Xmin = cms.double(0),
346 bJetCSVPF = cms.PSet(
347 pathName = cms.string(bJet_pathNamePF),
348 moduleName = cms.string(bJet_moduleNamePF),
349 plotLabel = cms.string(
"bJetCSVPF"),
350 axisLabel = cms.string(
"PF b-jet CSV"),
351 mainWorkspace = cms.bool(
True),
352 NbinsX = cms.int32(110),
353 Xmin = cms.double(0),
357 pathName = cms.string(rsq_mr_pathName),
358 moduleName = cms.string(rsq_mr_moduleName),
359 plotLabel = cms.string(
"Rsq"),
360 axisLabel = cms.string(
"R^{2}"),
361 mainWorkspace = cms.bool(
True),
362 NbinsX = cms.int32(30),
363 Xmin = cms.double(0),
367 pathName = cms.string(rsq_mr_pathName),
368 moduleName = cms.string(rsq_mr_moduleName),
369 plotLabel = cms.string(
"mr"),
370 axisLabel = cms.string(
"M_{R} [GeV]"),
371 mainWorkspace = cms.bool(
True),
372 NbinsX = cms.int32(50),
373 Xmin = cms.double(0),
374 Xmax = cms.double(2000)
376 diMuonMass = cms.PSet(
377 pathName = cms.string(
"HLT_Mu17_TrkIsoVVL_Mu8_TrkIsoVVL_DZ"),
378 moduleName = cms.string(
"hltDiMuonGlb17Glb8RelTrkIsoFiltered0p4"),
379 pathName_OR = cms.string(
"HLT_Mu17_TrkIsoVVL_TkMu8_TrkIsoVVL_DZ"),
380 moduleName_OR = cms.string(
"hltDiMuonGlb17Glb8RelTrkIsoFiltered0p4"),
381 plotLabel = cms.string(
"diMuon_Mass"),
382 axisLabel = cms.string(
"dimuon mass [GeV]"),
383 mainWorkspace = cms.bool(
True),
384 NbinsX = cms.int32(50),
385 Xmin = cms.double(60),
386 Xmax = cms.double(160)
388 pAL1DoubleMuZMass = cms.PSet(
389 pathName = cms.string(
"HLT_PAL1DoubleMu10"),
390 moduleName = cms.string(
"hltL1fL1sDoubleMu10BptxANDL1Filtered0"),
391 plotLabel = cms.string(
"PAL1DoubleMu10_ZMass"),
392 axisLabel = cms.string(
"dimuon mass [GeV]"),
393 mainWorkspace = cms.bool(
True),
394 NbinsX = cms.int32(50),
395 Xmin = cms.double(60.0),
396 Xmax = cms.double(160.0)
398 pAL2DoubleMuZMass = cms.PSet(
399 pathName = cms.string(
"HLT_PAL2DoubleMu10"),
400 moduleName = cms.string(
"hltL2fL1sDoubleMu10BptxANDL1f0L2Filtered10"),
401 plotLabel = cms.string(
"PAL2DoubleMu10_ZMass"),
402 axisLabel = cms.string(
"dimuon mass [GeV]"),
403 mainWorkspace = cms.bool(
True),
404 NbinsX = cms.int32(50),
405 Xmin = cms.double(60.0),
406 Xmax = cms.double(160.0)
408 pAL3DoubleMuZMass = cms.PSet(
409 pathName = cms.string(
"HLT_PAL3DoubleMu10"),
410 moduleName = cms.string(
"hltL3fL1sDoubleMu10BptxANDL1f0L2f10L3Filtered10"),
411 plotLabel = cms.string(
"PAL3DoubleMu10_ZMass"),
412 axisLabel = cms.string(
"dimuon mass [GeV]"),
413 mainWorkspace = cms.bool(
True),
414 NbinsX = cms.int32(50),
415 Xmin = cms.double(60.0),
416 Xmax = cms.double(160.0)
418 diElecMass = cms.PSet(
419 pathName = cms.string(
"HLT_Ele23_Ele12_CaloIdL_TrackIdL_IsoVL_DZ"),
420 moduleName = cms.string(
"hltEle23Ele12CaloIdLTrackIdLIsoVLDZFilter"),
421 plotLabel = cms.string(
"di-Electron_Mass"),
422 axisLabel = cms.string(
"di-electron mass [GeV]"),
423 mainWorkspace = cms.bool(
True),
424 NbinsX = cms.int32(50),
425 Xmin = cms.double(0),
426 Xmax = cms.double(160)
429 pathName = cms.string(
"HLT_DoubleMu18NoFiltersNoVtx"),
430 moduleName = cms.string(
"hltL3fDimuonL1f0L2NVf10L3NoFiltersNoVtxFiltered18"),
431 plotLabel = cms.string(
"Muon_dxy"),
432 axisLabel = cms.string(
"muon d_{xy} [mm]"),
433 mainWorkspace = cms.bool(
True),
434 NbinsX = cms.int32(2000),
435 Xmin = cms.double(-10),
436 Xmax = cms.double(10)
439 pathName = cms.string(
"wall time per event"),
440 moduleName = cms.string(
""),
441 plotLabel = cms.string(
"wallTime"),
442 axisLabel = cms.string(
"wall time per event [seconds]"),
443 mainWorkspace = cms.bool(
True),
444 NbinsX = cms.int32(1000),
445 Xmin = cms.double(0),
446 Xmax = cms.double(0.005)