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Functions
relval_steps Namespace Reference

Functions

def gen (fragment, howMuch)
 Production test section ####. More...
 
def gen2015 (fragment, howMuch)
 
def gen2017 (fragment, howMuch)
 
def gen2018HiMix (fragment, howMuch)
 
def genS (fragment, howMuch)
 high stat step1 More...
 
def identityFS (wf)
 pPb tests More...
 
def identitySim (wf)
 Production test: 13 TeV equivalents. More...
 
def lhegensim (fragment, howMuch)
 GENERATORS. More...
 
def lhegensim2017 (fragment, howMuch)
 

Function Documentation

def relval_steps.gen (   fragment,
  howMuch 
)

Production test section ####.

data #### run2 2015B #### Run2015B=[251642] # 251561 251638 251642 run2 2015C #### Run2015C, 25ns: 254790 (852 LS and 65 files), 254852 (126 LS and 5 files), 254879 (178 LS and 11 files) run2 2015D #### Run2015D, 25ns: 256677 run2 2016B #### Run2016B, 25ns: 274160 Run2016B=selectedLS([274160],l_json=data_json2016) run2 2016C #### run2 2016D #### run2 2016E #### run2 2016H #### run2 2017B #### run2 2017C #### run2 2017D #### run2 2017E #### run2 2017F #### run2 2015 HighLumi High Stat workflows ## Run2015HLHS, 25ns, run 260627, JetHT: 2.9M, SingleMuon: 5.7M, ZeroBias: 1.6M run2 Cosmic #### Run 256259 @ 0T 2015C### Run 272133 @ 3.8T 2016B###

Definition at line 387 of file relval_steps.py.

Referenced by GaussNoiseFP420.addNoise(), EWKSystUnc.analyze(), ZLONLOHistogrammer.analyze(), ZMassHistogrammer.analyze(), zPdfUnc.analyze(), ZHistogrammer.analyze(), ZMuPtScaleAnalyzer.analyze(), ZMCHistogrammer.analyze(), myFastSimVal.analyze(), ZdcSimHitStudy.analyze(), HLTJetMETValidation.analyze(), ExoticaDQM.analyzeDisplacedJets(), cond::auth::DecodingKey.createFromInputFile(), PerformancePayloadFromBinnedTFormula.initialize(), PerformancePayloadFromTFormula.initialize(), cond::CredentialStore.installAdmin(), hitfit::Resolution.pick(), TtGenEventReco.produce(), StGenEventReco.produce(), GenParticlePruner.produce(), cms::GenMETProducer.produce(), HcaluLUTTPGCoder.setLUTGenerationMode(), AHCalSD.unpackIndex(), cond::CredentialStore.updateConnection(), and cond::CredentialStore.updatePrincipal().

387 def gen(fragment,howMuch):
388  global step1Defaults
389  return merge([{'cfg':fragment},howMuch,step1Defaults])
390 
Definition: merge.py:1
def gen(fragment, howMuch)
Production test section ####.
def relval_steps.gen2015 (   fragment,
  howMuch 
)

Definition at line 391 of file relval_steps.py.

Referenced by gen2017(), genS(), and identitySim().

391 def gen2015(fragment,howMuch):
392  global step1Up2015Defaults
393  return merge([{'cfg':fragment},howMuch,step1Up2015Defaults])
Definition: merge.py:1
def gen2015(fragment, howMuch)
def relval_steps.gen2017 (   fragment,
  howMuch 
)

Definition at line 394 of file relval_steps.py.

References gen2015(), MatrixUtil.Kby(), and MatrixUtil.Mby().

Referenced by genS().

394 def gen2017(fragment,howMuch):
395  global step1Up2017Defaults
396  return merge([{'cfg':fragment},howMuch,step1Up2017Defaults])
397 
Definition: merge.py:1
def gen2017(fragment, howMuch)
def relval_steps.gen2018HiMix (   fragment,
  howMuch 
)

Definition at line 1577 of file relval_steps.py.

References reco.get(), join(), MatrixUtil.Kby(), relativeConstraints.keys, MatrixUtil.remove(), and split.

1577 def gen2018HiMix(fragment,howMuch):
1578  global step1Up2018HiMixDefaults
1579  return merge([{'cfg':fragment},howMuch,step1Up2018HiMixDefaults])
1580 
1581 steps['Pyquen_GammaJet_pt20_2760GeV']=gen2018HiMix('Pyquen_GammaJet_pt20_2760GeV_cfi',Kby(9,100))
1582 steps['Pyquen_DiJet_pt80to120_2760GeV']=gen2018HiMix('Pyquen_DiJet_pt80to120_2760GeV_cfi',Kby(9,100))
1583 steps['Pyquen_ZeemumuJets_pt10_2760GeV']=gen2018HiMix('Pyquen_ZeemumuJets_pt10_2760GeV_cfi',Kby(9,100))
1584 
1585 # step3
Definition: merge.py:1
def gen2018HiMix(fragment, howMuch)
def Kby(N, s)
Standard release validation samples ####.
Definition: MatrixUtil.py:223
def relval_steps.genS (   fragment,
  howMuch 
)

high stat step1

Definition at line 697 of file relval_steps.py.

References gen2015(), gen2017(), MatrixUtil.Kby(), and MatrixUtil.Mby().

697 def genS(fragment,howMuch):
698  global step1Defaults,stCond
699  return merge([{'cfg':fragment},stCond,howMuch,step1Defaults])
700 
701 steps['Higgs200ChargedTaus']=genS('H200ChargedTaus_Tauola_8TeV_cfi',Kby(9,100))
702 steps['JpsiMM']=genS('JpsiMM_8TeV_TuneCUETP8M1_cfi',Kby(66,1000))
703 steps['WE']=genS('WE_8TeV_TuneCUETP8M1_cfi',Kby(9,100))
704 steps['WM']=genS('WM_8TeV_TuneCUETP8M1_cfi',Kby(9,200))
705 steps['WpM']=genS('WpM_8TeV_TuneCUETP8M1_cfi',Kby(9,200))
706 steps['ZMM']=genS('ZMM_8TeV_TuneCUETP8M1_cfi',Kby(18,300))
707 steps['ZpMM']=genS('ZpMM_8TeV_TuneCUETP8M1_cfi',Kby(9,200))
708 steps['Higgs200ChargedTaus_13']=gen2015('H200ChargedTaus_Tauola_13TeV_cfi',Kby(9,100))
709 steps['Upsilon1SToMuMu_13']=gen2015('Upsilon1SToMuMu_forSTEAM_13TeV_TuneCUETP8M1_cfi',Kby(17,190))
710 steps['BsToMuMu_13']=gen2015('BsToMuMu_13TeV_SoftQCDnonD_TuneCUEP8M1_cfi.py',Kby(21000,150000))
711 steps['JpsiMuMu_Pt-8']=gen2015('JpsiMuMu_Pt-8_forSTEAM_13TeV_TuneCUETP8M1_cfi',Kby(3100,100000))
712 steps['BdToMuMu_13']=gen2015('BdToMuMu_13TeV_SoftQCDnonD_TuneCUEP8M1_cfi',Kby(6000,60000))
713 steps['BuToJpsiK_13']=gen2015('BuToJpsiK_13TeV_SoftQCDnonD_TuneCUEP8M1_cfi',Kby(16000,160000))
714 steps['BsToJpsiPhi_13']=gen2015('BsToJpsiPhi_13TeV_SoftQCDnonD_TuneCUEP8M1_cfi',Kby(78000,400000))
715 
716 steps['WE_13']=gen2015('WE_13TeV_TuneCUETP8M1_cfi',Kby(9,100))
717 steps['WM_13']=gen2015('WM_13TeV_TuneCUETP8M1_cfi',Kby(9,200))
718 steps['WpM_13']=gen2015('WpM_13TeV_TuneCUETP8M1_cfi',Kby(9,200))
719 steps['ZMM_13']=gen2015('ZMM_13TeV_TuneCUETP8M1_cfi',Kby(18,100))
720 steps['ZEEMM_13']=gen2015('ZEEMM_13TeV_TuneCUETP8M1_cfi',Kby(18,300))
721 steps['ZpMM_13']=gen2015('ZpMM_13TeV_TuneCUETP8M1_cfi',Kby(9,200))
722 
723 steps['ZTT']=genS('ZTT_All_hadronic_8TeV_TuneCUETP8M1_cfi',Kby(9,150))
724 steps['H130GGgluonfusion']=genS('H130GGgluonfusion_8TeV_TuneCUETP8M1_cfi',Kby(9,100))
725 steps['PhotonJets_Pt_10']=genS('PhotonJet_Pt_10_8TeV_TuneCUETP8M1_cfi',Kby(9,150))
726 steps['QQH1352T']=genS('QQH1352T_8TeV_TuneCUETP8M1_cfi',Kby(9,100))
727 steps['ZTT_13']=gen2015('ZTT_All_hadronic_13TeV_TuneCUETP8M1_cfi',Kby(9,80))
728 steps['H125GGgluonfusion_13']=gen2015('H125GGgluonfusion_13TeV_TuneCUETP8M1_cfi',Kby(9,50))
729 steps['PhotonJets_Pt_10_13']=gen2015('PhotonJet_Pt_10_13TeV_TuneCUETP8M1_cfi',Kby(9,150))
730 steps['QQH1352T_13']=gen2015('QQH1352T_13TeV_TuneCUETP8M1_cfi',Kby(9,50))
731 #steps['ZmumuJets_Pt_20_300']=gen('ZmumuJets_Pt_20_300_GEN_8TeV_TuneCUETP8M1_cfg',Kby(25,100))
732 steps['ADDMonoJet_d3MD3']=genS('ADDMonoJet_8TeV_d3MD3_TuneCUETP8M1_cfi',Kby(9,100))
733 steps['ADDMonoJet_d3MD3_13']=gen2015('ADDMonoJet_13TeV_d3MD3_TuneCUETP8M1_cfi',Kby(9,100))
734 steps['RSKKGluon_m3000GeV_13']=gen2015('RSKKGluon_m3000GeV_13TeV_TuneCUETP8M1_cff',Kby(9,100))
735 
736 steps['MinBias2INPUT']={'INPUT':InputInfo(dataSet='/RelValMinBias/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
737 steps['Higgs200ChargedTausINPUT']={'INPUT':InputInfo(dataSet='/RelValHiggs200ChargedTaus/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
738 steps['QCD_Pt_3000_3500_2INPUT']={'INPUT':InputInfo(dataSet='/RelValQCD_Pt_3000_3500/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
739 steps['QCD_Pt_80_120_2INPUT']={'INPUT':InputInfo(dataSet='/RelValQCD_Pt_80_120/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
740 steps['JpsiMMINPUT']={'INPUT':InputInfo(dataSet='/RelValJpsiMM/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
741 steps['TTbar2INPUT']={'INPUT':InputInfo(dataSet='/RelValTTbar/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
742 steps['WEINPUT']={'INPUT':InputInfo(dataSet='/RelValWE/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
743 steps['WMINPUT']={'INPUT':InputInfo(dataSet='/RelValWM/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
744 steps['ZEEINPUT']={'INPUT':InputInfo(dataSet='/RelValZEE/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
745 steps['ZMMINPUT']={'INPUT':InputInfo(dataSet='/RelValZMM/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
746 steps['ZTTINPUT']={'INPUT':InputInfo(dataSet='/RelValZTT/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
747 steps['H130GGgluonfusionINPUT']={'INPUT':InputInfo(dataSet='/RelValH130GGgluonfusion/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
748 steps['PhotonJets_Pt_10INPUT']={'INPUT':InputInfo(dataSet='/RelValPhotonJets_Pt_10/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
749 #steps['QQH1352TINPUT']={'INPUT':InputInfo(dataSet='/RelValQQH1352T/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')} #temporary comment out
750 steps['ADDMonoJet_d3MD3INPUT']={'INPUT':InputInfo(dataSet='/RelValADDMonoJet_d3MD3/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
751 steps['WpMINPUT']={'INPUT':InputInfo(dataSet='/RelValWpM/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
752 steps['ZpMMINPUT']={'INPUT':InputInfo(dataSet='/RelValZpMM/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
753 steps['ZpMM_2250_8TeVINPUT']={'INPUT':InputInfo(dataSet='/RelValZpMM_2250_8TeV/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
754 steps['ZpEE_2250_8TeVINPUT']={'INPUT':InputInfo(dataSet='/RelValZpEE_2250_8TeV/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
755 steps['ZpTT_1500_8TeVINPUT']={'INPUT':InputInfo(dataSet='/RelValZpTT_1500_8TeV/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
756 
757 steps['Cosmics']=merge([{'cfg':'UndergroundCosmicMu_cfi.py','-n':'500','--scenario':'cosmics'},Kby(666,100000),step1Defaults])
758 steps['CosmicsSPLoose']=merge([{'cfg':'UndergroundCosmicSPLooseMu_cfi.py','-n':'2000','--scenario':'cosmics'},Kby(5000,100000),step1Defaults])
759 steps['CosmicsSPLoose_UP15']=merge([{'cfg':'UndergroundCosmicSPLooseMu_cfi.py','-n':'2000','--conditions':'auto:run2_mc_cosmics','--scenario':'cosmics'},Kby(5000,500000),step1Up2015Defaults])
760 steps['Cosmics_UP17']=merge([{'cfg':'UndergroundCosmicMu_cfi.py','-n':'500','--conditions':'auto:phase1_2017_cosmics','--scenario':'cosmics','--era':'Run2_2017'},Kby(666,100000),step1Defaults])
761 steps['CosmicsSPLoose_UP17']=merge([{'cfg':'UndergroundCosmicSPLooseMu_cfi.py','-n':'2000','--conditions':'auto:phase1_2017_cosmics','--scenario':'cosmics','--era':'Run2_2017'},Kby(5000,500000),step1Up2015Defaults])
762 steps['BeamHalo']=merge([{'cfg':'BeamHalo_cfi.py','--scenario':'cosmics'},Kby(9,100),step1Defaults])
763 steps['BeamHalo_13']=merge([{'cfg':'BeamHalo_13TeV_cfi.py','--scenario':'cosmics'},Kby(9,100),step1Up2015Defaults])
764 
765 # GF re-introduce INPUT command once GEN-SIM will be available
766 # steps['CosmicsINPUT']={'INPUT':InputInfo(dataSet='/RelValCosmics/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
767 steps['BeamHaloINPUT']={'INPUT':InputInfo(dataSet='/RelValBeamHalo/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
768 
769 steps['QCD_Pt_50_80']=genS('QCD_Pt_50_80_8TeV_TuneCUETP8M1_cfi',Kby(25,100))
770 steps['QCD_Pt_15_20']=genS('QCD_Pt_15_20_8TeV_TuneCUETP8M1_cfi',Kby(25,100))
771 steps['ZTTHS']=merge([Kby(25,100),steps['ZTT']])
772 steps['QQH120Inv']=genS('QQH120Inv_8TeV_TuneCUETP8M1_cfi',Kby(25,100))
773 steps['TTbar2HS']=merge([Kby(25,100),steps['TTbar']])
774 steps['JpsiMM_Pt_20_inf']=genS('JpsiMM_Pt_20_inf_8TeV_TuneCUETP8M1_cfi',Kby(70,280))
775 steps['QCD_Pt_120_170']=genS('QCD_Pt_120_170_8TeV_TuneCUETP8M1_cfi',Kby(25,100))
776 steps['H165WW2L']=genS('H165WW2L_8TeV_TuneCUETP8M1_cfi',Kby(25,100))
777 steps['UpsMM']=genS('UpsMM_8TeV_TuneCUETP8M1_cfi',Kby(56250,225))
778 steps['RSGrav']=genS('RS750_quarks_and_leptons_8TeV_TuneCUETP8M1_cff',Kby(25,100))
779 steps['QCD_Pt_80_120_2HS']=merge([Kby(25,100),steps['QCD_Pt_80_120']])
780 steps['bJpsiX']=genS('bJpsiX_8TeV_TuneCUETP8M1_cfi',Mby(325,1300000))
781 steps['QCD_Pt_30_50']=genS('QCD_Pt_30_50_8TeV_TuneCUETP8M1_cfi',Kby(25,100))
782 steps['H200ZZ4L']=genS('H200ZZ4L_8TeV_TuneCUETP8M1_cfi',Kby(25,100))
783 steps['LM9p']=genS('LM9p_8TeV_cff',Kby(25,100))
784 steps['QCD_Pt_20_30']=genS('QCD_Pt_20_30_8TeV_TuneCUETP8M1_cfi',Kby(25,100))
785 steps['QCD_Pt_170_230']=genS('QCD_Pt_170_230_8TeV_TuneCUETP8M1_cfi',Kby(25,100))
786 
Definition: merge.py:1
def genS(fragment, howMuch)
high stat step1
def Mby(N, s)
Definition: MatrixUtil.py:225
def gen2015(fragment, howMuch)
def Kby(N, s)
Standard release validation samples ####.
Definition: MatrixUtil.py:223
def relval_steps.identityFS (   wf)

pPb tests

pPb Run2 heavy ions tests pp reference tests fastsim section #### no forseen to do things in two steps GEN-SIM then FASTIM->end: maybe later step1FastDefaults =merge([{'-s':'GEN,SIM,RECOBEFMIX,DIGI:pdigi_valid,L1,DIGI2RAW,L1Reco,RECO,EI,HLT:,VALIDATION:,DQM:', FastSim: produce sample of minbias events for PU mixing FastSim: template to produce signal and overlay with minbias events FastSim: produce sample of premixed minbias events Fastsim: template to produce signal and overlay it with premixed minbias events FastSim: list of processes used in FastSim validation FastSim: produces sample of signal events, overlayed with premixed minbias events FastSim: produce sample of signal events, overlayed with minbias events

Definition at line 947 of file relval_steps.py.

References BasicGenValidation_cff.genvalid.

947 def identityFS(wf):
948  return merge([{'--restoreRND':'HLT','--process':'HLT2','--hltProcess':'HLT2', '--inputCommands':'"keep *","drop *TagInfo*_*_*_*"'},wf])
949 
950 steps['SingleMuPt10FS_UP15_ID']=identityFS(steps['SingleMuPt10FS_UP15'])
951 steps['TTbarFS_13_ID']=identityFS(steps['TTbarFS_13'])
952 
Definition: merge.py:1
def identityFS(wf)
pPb tests
def relval_steps.identitySim (   wf)

Production test: 13 TeV equivalents.

production 2017 2017 wf: only the ones for premixing (for the moment) 2018 wf: only the ones for premixing (for the moment)

Definition at line 502 of file relval_steps.py.

References gen2015(), MatrixUtil.Kby(), and MatrixUtil.Mby().

502 def identitySim(wf):
503  return merge([{'--restoreRND':'SIM','--process':'SIM2', '--inputCommands':'"keep *","drop *TagInfo*_*_*_*"' },wf])
504 
505 steps['SingleMuPt10_UP15_ID']=identitySim(steps['SingleMuPt10_UP15'])
506 steps['TTbar_13_ID']=identitySim(steps['TTbar_13'])
507 
508 baseDataSetRelease=[
509  'CMSSW_9_2_4-91X_mcRun1_realistic_v2-v1', # 0 run1 samples; note TTbar GENSIM has v2 (see TTbarINPUT below)
510  'CMSSW_10_1_0-101X_upgrade2018_realistic_v6_resub-v1', # 1 GEN-SIM for HI RunII, 2018
511  'CMSSW_6_2_0_pre8-PRE_ST62_V8_FastSim-v1', # 2 for fastsim id test
512 # 'CMSSW_7_1_0_pre5-START71_V1-v2', # 3 8 TeV , for the one sample which is part of the routine relval production (RelValZmumuJets_Pt_20_300, because of -v2)
513  # THIS ABOVE IS NOT USED, AT THE MOMENT
514  'CMSSW_9_2_4-91X_mcRun2_asymptotic_v3-v1', # 3 - GEN-SIM input for 13 TeV 2016 workfows
515  'CMSSW_7_3_0_pre1-PRE_LS172_V15_FastSim-v1', # 4 - fast sim GEN-SIM-DIGI-RAW-HLTDEBUG for id tests
516  'CMSSW_9_0_0_pre4-PU25ns_90X_mcRun2_asymptotic_v1-v1', # 5 - fullSim PU 25ns UP15 premix
517  'CMSSW_8_1_0_pre15-PU50ns_81X_mcRun2_startup_v12-v1', # 6 - fullSim PU 50ns UP15 premix
518  'CMSSW_10_1_0-101X_mcRun2_asymptotic_v3_resub_FastSim-v1', # 7 - fastSim MinBias for mixing
519  'CMSSW_10_1_0-PU25ns_101X_mcRun2_asymptotic_v3_FastSim-v1',# 8 - fastSim premixed MinBias
520  'CMSSW_10_1_0-101X_upgrade2018_realistic_v6_resub-v1', # 9 - Run2 HI GEN-SIM for mixing
521  'CMSSW_7_6_0-76X_mcRun2_asymptotic_v11-v1', # 10 - 13 TeV High Stats GEN-SIM
522  'CMSSW_7_6_0_pre7-76X_mcRun2_asymptotic_v9_realBS-v1', # 11 - 13 TeV High Stats MiniBias for mixing GEN-SIM
523  'CMSSW_8_1_0_pre9_Geant4102-81X_mcRun2cosmics_startup_peak_v2-v1', # 12 - GEN-SIM input for 1307 cosmics wf from 810_p2
524  'CMSSW_10_0_0_pre2-100X_mc2017_realistic_v1-v1', # 13 - 13 TeV samples with GEN-SIM from PhaseI upgrade
525  'CMSSW_10_0_0_pre2-PU25ns_100X_mc2017_realistic_v1-v1', # 14 - fullSim PU 25ns UP17 premix
526  'CMSSW_10_1_0-PU25ns_101X_upgrade2018_realistic_v6-v1', #15 - fullSim PU 25ns UP18 premix
527  'CMSSW_10_1_0-101X_upgrade2018_realistic_v6_rsb-v1', #16 - GENSIM input 2018
528  ]
529 
530 
531 # note: INPUT commands to be added once GEN-SIM w/ 13TeV+PostLS1Geo will be available
532 steps['MinBiasINPUT']={'INPUT':InputInfo(dataSet='/RelValMinBias/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')} #was [0]
533 steps['QCD_Pt_3000_3500INPUT']={'INPUT':InputInfo(dataSet='/RelValQCD_Pt_3000_3500/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
534 steps['QCD_Pt_600_800INPUT']={'INPUT':InputInfo(dataSet='/RelValQCD_Pt_600_800/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
535 steps['QCD_Pt_80_120INPUT']={'INPUT':InputInfo(dataSet='/RelValQCD_Pt_80_120/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
536 steps['SingleElectronPt10INPUT']={'INPUT':InputInfo(dataSet='/RelValSingleElectronPt10/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
537 steps['SingleElectronPt1000INPUT']={'INPUT':InputInfo(dataSet='/RelValSingleElectronPt1000/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
538 steps['SingleElectronPt35INPUT']={'INPUT':InputInfo(dataSet='/RelValSingleElectronPt35/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
539 steps['SingleGammaPt10INPUT']={'INPUT':InputInfo(dataSet='/RelValSingleGammaPt10/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
540 steps['SingleGammaPt35INPUT']={'INPUT':InputInfo(dataSet='/RelValSingleGammaPt35/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
541 steps['SingleMuPt1INPUT']={'INPUT':InputInfo(dataSet='/RelValSingleMuPt1/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
542 steps['SingleMuPt10INPUT']={'INPUT':InputInfo(dataSet='/RelValSingleMuPt10/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
543 steps['SingleMuPt10_UP15IDINPUT']={'INPUT':InputInfo(dataSet='/RelValSingleMuPt10_UP15/%s/GEN-SIM-DIGI-RAW-HLTDEBUG'%(baseDataSetRelease[3],),location='STD',split=1)}
544 steps['SingleMuPt10_UP15FSIDINPUT']={'INPUT':InputInfo(dataSet='/RelValSingleMuPt10/%s/GEN-SIM-DIGI-RECO'%(baseDataSetRelease[4],),location='STD',split=1)}
545 steps['SingleMuPt100INPUT']={'INPUT':InputInfo(dataSet='/RelValSingleMuPt100/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
546 steps['SingleMuPt1000INPUT']={'INPUT':InputInfo(dataSet='/RelValSingleMuPt1000/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
547 steps['TTbarINPUT']={'INPUT':InputInfo(dataSet='/RelValTTbar/%s/GEN-SIM'%((baseDataSetRelease[0].rstrip('1')+'2'),),location='STD')}
548 steps['TTbar_13IDINPUT']={'INPUT':InputInfo(dataSet='/RelValTTbar_13/%s/GEN-SIM-DIGI-RAW-HLTDEBUG'%(baseDataSetRelease[3],),location='STD',split=1)}
549 steps['TTbar_13FSIDINPUT']={'INPUT':InputInfo(dataSet='/RelValTTbar_13/%s/GEN-SIM-DIGI-RECO'%(baseDataSetRelease[4],),location='STD',split=1)}
550 steps['TTbarLeptonINPUT']={'INPUT':InputInfo(dataSet='/RelValTTbarLepton/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
551 steps['OldTTbarINPUT']={'INPUT':InputInfo(dataSet='/RelValProdTTbar/CMSSW_5_0_0_pre6-START50_V5-v1/GEN-SIM-RECO',location='STD')}
552 steps['OldGenSimINPUT']={'INPUT':InputInfo(dataSet='/RelValTTbar/CMSSW_4_4_2-START44_V7-v1/GEN-SIM-DIGI-RAW-HLTDEBUG',location='STD')}
553 steps['Wjet_Pt_80_120INPUT']={'INPUT':InputInfo(dataSet='/RelValWjet_Pt_80_120/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
554 steps['Wjet_Pt_3000_3500INPUT']={'INPUT':InputInfo(dataSet='/RelValWjet_Pt_3000_3500/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
555 steps['LM1_sftsINPUT']={'INPUT':InputInfo(dataSet='/RelValLM1_sfts/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
556 steps['QCD_FlatPt_15_3000INPUT']={'INPUT':InputInfo(dataSet='/RelValQCD_FlatPt_15_3000/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
557 
558 steps['QCD_FlatPt_15_3000HSINPUT']={'INPUT':InputInfo(dataSet='/RelValQCD_FlatPt_15_3000HS/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
559 steps['TTbar__DIGIPU1INPUT']={'INPUT':InputInfo(dataSet='/RelValTTbar/CMSSW_5_2_2-PU_START52_V4_special_120326-v1/GEN-SIM-DIGI-RAW-HLTDEBUG',location='STD')}
560 # INPUT command for reminiAOD wf on 80X relval input
561 steps['ProdZEE_13_reminiaodINPUT']={'INPUT':InputInfo(dataSet='/RelValProdZEE_13_pmx25ns/CMSSW_8_0_21-PUpmx25ns_80X_mcRun2_asymptotic_2016_TrancheIV_v6_Tr4GT_v6-v1/AODSIM',label='rmaod',location='STD')}
562 # INPUT command for reminiAOD wf on 94X relval input
563 steps['TTbar_13_94XreminiaodINPUT']={'INPUT':InputInfo(dataSet='/RelValTTbar_13/CMSSW_9_4_0-94X_mc2017_realistic_v10-v1/GEN-SIM-RECO',label='rmaod',location='STD')}
564 
565 #input for a NANOAOD from MINIAOD workflow
566 steps['ZEE_13_80XNanoAODINPUT']={'INPUT':InputInfo(dataSet='/RelValZEE_13/CMSSW_8_0_21-PU25ns_80X_mcRun2_asymptotic_2016_TrancheIV_v6_Tr4GT_v6-v1/MINIAODSIM',label='nanoaod80X',location='STD')}
567 steps['TTbar_13_92XNanoAODINPUT']={'INPUT':InputInfo(dataSet='/RelValTTbar_13/CMSSW_9_2_12-PU25ns_92X_upgrade2017_realistic_v11-v1/MINIAODSIM',label='nanoaod92X',location='STD')}
568 steps['TTbar_13_94XNanoAODINPUT']={'INPUT':InputInfo(dataSet='/RelValTTbar_13/CMSSW_9_4_0_pre3-PU25ns_94X_mc2017_realistic_v4-v1/MINIAODSIM',label='nanoaod94X',location='STD')}
569 
570 # 13 TeV recycle GEN-SIM input
571 steps['MinBias_13INPUT']={'INPUT':InputInfo(dataSet='/RelValMinBias_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
572 steps['QCD_Pt_3000_3500_13INPUT']={'INPUT':InputInfo(dataSet='/RelValQCD_Pt_3000_3500_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
573 steps['QCD_Pt_600_800_13INPUT']={'INPUT':InputInfo(dataSet='/RelValQCD_Pt_600_800_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
574 steps['QCD_Pt_80_120_13INPUT']={'INPUT':InputInfo(dataSet='/RelValQCD_Pt_80_120_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
575 steps['QCD_Pt_80_120_13_HIINPUT']={'INPUT':InputInfo(dataSet='/RelValQCD_Pt_80_120_13_HI/%s/GEN-SIM'%(baseDataSetRelease[1],),location='STD')}
576 steps['TTbar_13INPUT']={'INPUT':InputInfo(dataSet='/RelValTTbar_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
577 steps['TTbarLepton_13INPUT']={'INPUT':InputInfo(dataSet='/RelValTTbarLepton_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
578 steps['ZEE_13INPUT']={'INPUT':InputInfo(dataSet='/RelValZEE_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
579 #steps['ZEE_13_DBLMINIAODINPUT']={'INPUT':InputInfo(dataSet='/RelValZEE_13_DBLMINIAOD/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
580 steps['Wjet_Pt_80_120_13INPUT']={'INPUT':InputInfo(dataSet='/RelValWjet_Pt_80_120_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
581 steps['Wjet_Pt_3000_3500_13INPUT']={'INPUT':InputInfo(dataSet='/RelValWjet_Pt_3000_3500_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
582 steps['SMS-T1tttt_mGl-1500_mLSP-100_13INPUT']={'INPUT':InputInfo(dataSet='/RelValSMS-T1tttt_mGl-1500_mLSP-100_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
583 steps['QCD_FlatPt_15_3000_13INPUT']={'INPUT':InputInfo(dataSet='/RelValQCD_FlatPt_15_3000_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
584 steps['QCD_FlatPt_15_3000HS_13INPUT']={'INPUT':InputInfo(dataSet='/RelValQCD_FlatPt_15_3000HS_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
585 steps['ZpMM_2250_13INPUT']={'INPUT':InputInfo(dataSet='/RelValZpMM_2250_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
586 steps['ZpEE_2250_13INPUT']={'INPUT':InputInfo(dataSet='/RelValZpEE_2250_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
587 steps['ZpTT_1500_13INPUT']={'INPUT':InputInfo(dataSet='/RelValZpTT_1500_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
588 steps['MinBiasHS_13INPUT']={'INPUT':InputInfo(dataSet='/RelValMinBiasHS_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
589 steps['Higgs200ChargedTaus_13INPUT']={'INPUT':InputInfo(dataSet='/RelValHiggs200ChargedTaus_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
590 
591 steps['Upsilon1SToMuMu_13INPUT']={'INPUT':InputInfo(dataSet='/RelValUpsilon1SToMuMu_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
592 steps['JpsiMuMu_Pt-8INPUT']={'INPUT':InputInfo(dataSet='/RelValJpsiMuMu_Pt-8/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
593 # new BPH relvals produced for the first time in 810_pre9
594 steps['BsToMuMu_13INPUT']={'INPUT':InputInfo(dataSet='/RelValBsToMuMu_13/CMSSW_8_1_0_pre9-81X_mcRun2_asymptotic_v2-v1/GEN-SIM',location='STD')}
595 steps['BdToMuMu_13INPUT']={'INPUT':InputInfo(dataSet='/RelValBdToMuMu_13/CMSSW_8_1_0_pre9-81X_mcRun2_asymptotic_v2-v1/GEN-SIM',location='STD')}
596 steps['BuToJpsiK_13INPUT']={'INPUT':InputInfo(dataSet='/RelValBuToJpsiK_13/CMSSW_8_1_0_pre9-81X_mcRun2_asymptotic_v2-v1/GEN-SIM',location='STD')}
597 steps['BsToJpsiPhi_13INPUT']={'INPUT':InputInfo(dataSet='/RelValBsToJpsiPhi_13/CMSSW_8_1_0_pre9-81X_mcRun2_asymptotic_v2-v1/GEN-SIM',location='STD')}
Definition: merge.py:1
def identitySim(wf)
Production test: 13 TeV equivalents.
def relval_steps.lhegensim (   fragment,
  howMuch 
)

GENERATORS.

Definition at line 1080 of file relval_steps.py.

Referenced by lhegensim2017().

1080 def lhegensim(fragment,howMuch):
1081  global step1LHEGenSimDefault
1082  return merge([{'cfg':fragment},howMuch,step1LHEGenSimDefault])
1083 
1084 # LHE-GEN-SIM step for 2017
Definition: merge.py:1
def lhegensim(fragment, howMuch)
GENERATORS.
def relval_steps.lhegensim2017 (   fragment,
  howMuch 
)

Definition at line 1087 of file relval_steps.py.

References BasicGenValidation_cff.genvalid, MatrixUtil.Kby(), and lhegensim().

1087 def lhegensim2017(fragment,howMuch):
1088  global step1LHEGenSimUp2017Default
1089  return merge([{'cfg':fragment},howMuch,step1LHEGenSimUp2017Default])
1090 
1091 steps['TTbar012Jets_NLO_Mad_py8_Evt_13']=lhegensim('Configuration/Generator/python/TTbar012Jets_5f_NLO_FXFX_Madgraph_LHE_13TeV_cfi.py',Kby(9,50))
1092 steps['GluGluHToZZTo4L_M125_Pow_py8_Evt_13']=lhegensim('Configuration/Generator/python/GGHZZ4L_JHUGen_Pow_NNPDF30_LHE_13TeV_cfi.py', Kby(9,50))
1093 steps['VBFHToZZTo4Nu_M125_Pow_py8_Evt_13']=lhegensim('Configuration/Generator/python/VBFHZZ4Nu_Pow_NNPDF30_LHE_13TeV_cfi.py',Kby(9,50))
1094 steps['VBFHToBB_M125_Pow_py8_Evt_13']=lhegensim('Configuration/Generator/python/VBFHbb_Pow_NNPDF30_LHE_13TeV_cfi.py',Kby(9,50))
1095 
1096 steps['GluGluHToZZTo4L_M125_Pow_py8_Evt_13UP17']=lhegensim2017('Configuration/Generator/python/GGHZZ4L_JHUGen_Pow_NNPDF30_LHE_13TeV_cfi.py', Kby(9,100))
1097 steps['VBFHToZZTo4Nu_M125_Pow_py8_Evt_13UP17']=lhegensim2017('Configuration/Generator/python/VBFHZZ4Nu_Pow_NNPDF30_LHE_13TeV_cfi.py',Kby(9,100))
1098 steps['VBFHToBB_M125_Pow_py8_Evt_13UP17']=lhegensim2017('Configuration/Generator/python/VBFHbb_Pow_NNPDF30_LHE_13TeV_cfi.py',Kby(9,100))
1099 
1100 #GEN-SIM inputs for LHE-GEN-SIM workflows
1101 #steps['TTbar012Jets_NLO_Mad_py8_Evt_13INPUT']={'INPUT':InputInfo(dataSet='/RelValTTbar012Jets_NLO_Mad_py8_Evt_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
1102 #steps['GluGluHToZZTo4L_M125_Pow_py8_Evt_13INPUT']={'INPUT':InputInfo(dataSet='/RelValGluGluHToZZTo4L_M125_Pow_py8_Evt_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
1103 #steps['VBFHToZZTo4Nu_M125_Pow_py8_Evt_13INPUT']={'INPUT':InputInfo(dataSet='/RelValVBFHToZZTo4Nu_M125_Pow_py8_Evt_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
1104 #steps['VBFHToBB_M125_Pow_py8_Evt_13INPUT']={'INPUT':InputInfo(dataSet='/RelValVBFHToBB_M125_Pow_py8_Evt_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
1105 
1106 
1107 #Sherpa
1108 steps['sherpa_ZtoEE_0j_BlackHat_13TeV_MASTER']=genvalid('sherpa_ZtoEE_0j_BlackHat_13TeV_MASTER_cff',step1GenDefaults)
1109 steps['sherpa_ZtoEE_0j_OpenLoops_13TeV_MASTER']=genvalid('sherpa_ZtoEE_0j_OpenLoops_13TeV_MASTER_cff',step1GenDefaults)
1110 
1111 # Heavy Ion
1112 steps['ReggeGribovPartonMC_EposLHC_5TeV_pPb']=genvalid('GeneratorInterface/ReggeGribovPartonMCInterface/ReggeGribovPartonMC_EposLHC_5TeV_pPb_cfi',step1GenDefaults)
1113 
1114 # B-physics
1115 steps['BuToKstarJPsiToMuMu_forSTEAM_13TeV_TuneCUETP8M1']=genvalid('BuToKstarJPsiToMuMu_forSTEAM_13TeV_TuneCUETP8M1_cfi',step1GenDefaults)
1116 steps['Upsilon4swithBuToKstarJPsiToMuMu_forSTEAM_13TeV_TuneCUETP8M1']=genvalid('Upsilon4swithBuToKstarJPsiToMuMu_forSTEAM_13TeV_TuneCUETP8M1_cfi',step1GenDefaults)
1117 steps['Upsilon4sBaBarExample_BpBm_Dstarpipi_D0Kpi_nonres_forSTEAM_13TeV_TuneCUETP8M1']=genvalid('Upsilon4sBaBarExample_BpBm_Dstarpipi_D0Kpi_nonres_forSTEAM_13TeV_TuneCUETP8M1_cfi',step1GenDefaults)
1118 steps['LambdaBToLambdaMuMuToPPiMuMu_forSTEAM_13TeV_TuneCUETP8M1']=genvalid('LambdaBToLambdaMuMuToPPiMuMu_forSTEAM_13TeV_TuneCUETP8M1_cfi',step1GenDefaults)
1119 steps['BsToMuMu_forSTEAM_13TeV_TuneCUETP8M1']=genvalid('BsToMuMu_forSTEAM_13TeV_TuneCUETP8M1_cfi',step1GenDefaults)
1120 
1121 
1122 #PU for FullSim
1123 PU={'-n':10,'--pileup':'default','--pileup_input':'das:/RelValMinBias/%s/GEN-SIM'%(baseDataSetRelease[0],)}
1124 # pu2 can be removed
1125 PU2={'-n':10,'--pileup':'default','--pileup_input':'das:/RelValMinBias/%s/GEN-SIM'%(baseDataSetRelease[0],)}
1126 PU25={'-n':10,'--pileup':'AVE_35_BX_25ns','--pileup_input':'das:/RelValMinBias_13/%s/GEN-SIM'%(baseDataSetRelease[3],)}
1127 PU50={'-n':10,'--pileup':'AVE_35_BX_50ns','--pileup_input':'das:/RelValMinBias_13/%s/GEN-SIM'%(baseDataSetRelease[3],)}
1128 PUHI={'-n':10,'--pileup_input':'das:/RelValHydjetQ_B12_5020GeV_2018/%s/GEN-SIM'%(baseDataSetRelease[9])}
1129 PU25UP17={'-n':10,'--pileup':'AVE_35_BX_25ns','--pileup_input':'das:/RelValMinBias_13/%s/GEN-SIM'%(baseDataSetRelease[13],)}
1130 PU25UP18={'-n':10,'--pileup':'AVE_50_BX_25ns','--pileup_input':'das:/RelValMinBias_13/%s/GEN-SIM'%(baseDataSetRelease[16],)}
1131 
1132 #PU for FastSim
1133 # FS_PU_INPUT_13TEV = "file:/afs/cern.ch/work/l/lveldere/minbias.root" # placeholder for relval to be produced with wf 135.8
1134 PUFS={'--pileup':'GEN_2012_Summer_50ns_PoissonOOTPU'}
1135 # PUFS2={'--pileup':'2012_Startup_50ns_PoissonOOTPU'} # not used anywhere
1136 PUFSAVE10={'--pileup':'GEN_AVE_10_BX_25ns'} # temporary: one or a few releases as back-up
1137 PUFSAVE20={'--pileup':'GEN_AVE_20_BX_25ns'} # temporary: one or a few releases as back-up
1138 PUFSAVE35={'--pileup':'GEN_AVE_35_BX_25ns'}
1139 PUFSAVE10_DRMIX_ITO={'--pileup':'AVE_10_BX_25ns','--pileup_input':'das:/RelValMinBiasFS_13_ForMixing/%s/GEN-SIM-RECO'%(baseDataSetRelease[7],),'--era':'Run2_25ns','--customise':'FastSimulation/Configuration/Customs.disableOOTPU'}
1140 PUFSAVE35_DRMIX_ITO={'--pileup':'AVE_35_BX_25ns','--pileup_input':'das:/RelValMinBiasFS_13_ForMixing/%s/GEN-SIM-RECO'%(baseDataSetRelease[7],),'--era':'Run2_25ns','--customise':'FastSimulation/Configuration/Customs.disableOOTPU'}
1141 PUFS25={'--pileup':'AVE_35_BX_25ns','--pileup_input':'das:/RelValMinBiasFS_13_ForMixing/%s/GEN-SIM-RECO'%(baseDataSetRelease[7],)}
1142 
1143 #pu25 for high stats workflows
1144 PU25HS={'-n':10,'--pileup':'AVE_35_BX_25ns','--pileup_input':'das:/RelValMinBias_13/%s/GEN-SIM'%(baseDataSetRelease[11],)}
1145 
1146 
1147 #
1148 steps['TTbarFSPU']=merge([PUFS,Kby(100,500),steps['TTbarFS']] )
1149 
1150 steps['FS_TTbar_13_PUAVE10']=merge([PUFSAVE10,Kby(100,500),steps['TTbarFS_13']] ) # temporary: one or a few releases as back-up
1151 steps['FS_TTbar_13_PUAVE20']=merge([PUFSAVE20,Kby(100,500),steps['TTbarFS_13']] ) # temporary: one or a few releases as back-up
1152 steps['FS_TTbar_13_PUAVE35']=merge([PUFSAVE35,Kby(100,500),steps['TTbarFS_13']] )
1153 steps['FS_TTbar_13_PU25']=merge([PUFS25,Kby(100,500),steps['TTbarFS_13']] ) # needs the placeholder
1154 steps['FS_NuGun_UP15_PU25']=merge([PUFS25,Kby(100,500),steps['NuGunFS_UP15']] ) # needs the placeholder
1155 steps['FS_SMS-T1tttt_mGl-1500_mLSP-100_13_PU25']=merge([PUFS25,Kby(100,500),steps['SMS-T1tttt_mGl-1500_mLSP-100FS_13']] )
1156 
1157 steps['FS__PU25']=merge([PUFS25,Kby(100,500),steps['NuGunFS_UP15']] ) # needs the placeholder
1158 steps['FS_TTbar_13_PUAVE10_DRMIX_ITO']=merge([PUFSAVE10_DRMIX_ITO,Kby(100,500),steps['TTbarFS_13']] ) # needs the placeholder
1159 steps['FS_TTbar_13_PUAVE35_DRMIX_ITO']=merge([PUFSAVE35_DRMIX_ITO,Kby(100,500),steps['TTbarFS_13']] ) # needs the placeholder
1160 
1161 # step2
Definition: merge.py:1
def lhegensim(fragment, howMuch)
GENERATORS.
def Kby(N, s)
Standard release validation samples ####.
Definition: MatrixUtil.py:223
def lhegensim2017(fragment, howMuch)