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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 gen2018 (fragment, howMuch)
 
def gen2018HiMix (fragment, howMuch)
 
def gen2018hiprod (fragment, howMuch)
 
def gen2018prod (fragment, howMuch)
 
def gen2018prodml (fragment, howMuch)
 
def gen2018RD (fragment, howMuch)
 
def gen2022HiMix (fragment, howMuch)
 
def gen2022hiprod (fragment, howMuch)
 
def gen2023HiMix (fragment, howMuch)
 
def gen2023hiprod (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)
 
def lhegensim2018 (fragment, howMuch)
 
def lhegensim2018ml (fragment, howMuch)
 

Function Documentation

◆ gen()

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 2018A #### for 90 m beta* Totem run relvals #### run2 2018B #### run2 2018C #### run2 2018D #### PPS run3 2022B run3 #### run3 #### 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### LS2 - MWGR 2021 - CSC, DAQ, DCS, DQM, DT, ECAL, GEM, HCAL, L1SCOUT, PIXEL, RPC, TCDS, TRACKER, TRG ### run3 Commissioning2021 #### Run 344518 @ 0.0T 2021CRUZET Run 345755 @ 3.8T 2021CRAFT Run 345881 @ 3.8T 2021Splash Collisions Test of lumi section boundary crossing with run2 2018D #### Run2 TauEmbed ####

Definition at line 675 of file relval_steps.py.

Referenced by myFastSimVal.analyze(), HLTJetMETValidation.analyze(), ZdcSimHitStudy.analyze(), ExoticaDQM.analyzeDisplacedJets(), edmtest::RandomIntProducer.beginLuminosityBlockProduce(), testinter::StreamCache.beginLumiProduce(), cond::auth::DecodingKey.createFromInputFile(), cond::CredentialStore.createSchema(), CMTRawAnalyzer.fillMAP(), ExternalGeneratorFilter.filter(), TestInterProcessRandomProd.globalBeginLuminosityBlock(), ExternalGeneratorFilter.globalBeginLuminosityBlock(), TestInterProcessRandomProd.globalBeginLuminosityBlockProduce(), ExternalGeneratorFilter.globalBeginLuminosityBlockProduce(), hitfit::Resolution.pick(), TestCUDAProducerCPU.produce(), edmtest::RandomIntProducer.produce(), GenParticlePruner.produce(), cms::GenMETProducer.produce(), PackedCandidateGenAssociationProducer.produce(), testinter::StreamCache.produce(), externalgen::StreamCache.produce(), HcaluLUTTPGCoder.setLUTGenerationMode(), AHCalSD.unpackIndex(), cond.updateConnectionData(), and cond.updatePrincipalData().

675 def gen(fragment,howMuch):
676  global step1Defaults
677  return merge([{'cfg':fragment},howMuch,step1Defaults])
678 
Definition: merge.py:1
def gen(fragment, howMuch)
Production test section ####.

◆ gen2015()

def relval_steps.gen2015 (   fragment,
  howMuch 
)

Definition at line 679 of file relval_steps.py.

Referenced by gen2023hiprod(), genS(), and identitySim().

679 def gen2015(fragment,howMuch):
680  global step1Up2015Defaults
681  return merge([{'cfg':fragment},howMuch,step1Up2015Defaults])
Definition: merge.py:1
def gen2015(fragment, howMuch)

◆ gen2017()

def relval_steps.gen2017 (   fragment,
  howMuch 
)

Definition at line 682 of file relval_steps.py.

Referenced by gen2023hiprod(), and genS().

682 def gen2017(fragment,howMuch):
683  global step1Up2017Defaults
684  return merge([{'cfg':fragment},howMuch,step1Up2017Defaults])
Definition: merge.py:1
def gen2017(fragment, howMuch)

◆ gen2018()

def relval_steps.gen2018 (   fragment,
  howMuch 
)

Definition at line 685 of file relval_steps.py.

Referenced by gen2023hiprod().

685 def gen2018(fragment,howMuch):
686  global step1Up2018Defaults
687  return merge([{'cfg':fragment},howMuch,step1Up2018Defaults])
Definition: merge.py:1
def gen2018(fragment, howMuch)

◆ gen2018HiMix()

def relval_steps.gen2018HiMix (   fragment,
  howMuch 
)

Definition at line 2671 of file relval_steps.py.

Referenced by gen2023HiMix().

2671 def gen2018HiMix(fragment,howMuch):
2672  global step1Up2018HiMixDefaults
2673  return merge([{'cfg':fragment},howMuch,step1Up2018HiMixDefaults])
2674 
Definition: merge.py:1
def gen2018HiMix(fragment, howMuch)

◆ gen2018hiprod()

def relval_steps.gen2018hiprod (   fragment,
  howMuch 
)

Definition at line 694 of file relval_steps.py.

Referenced by genS().

694 def gen2018hiprod(fragment,howMuch):
695  global step1Up2018HiProdDefaults
696  return merge([{'cfg':fragment},howMuch,step1Up2018HiProdDefaults])
Definition: merge.py:1
def gen2018hiprod(fragment, howMuch)

◆ gen2018prod()

def relval_steps.gen2018prod (   fragment,
  howMuch 
)

Definition at line 688 of file relval_steps.py.

Referenced by gen2023hiprod(), and genS().

688 def gen2018prod(fragment,howMuch):
689  global step1Up2018ProdDefaults
690  return merge([{'cfg':fragment},howMuch,step1Up2018ProdDefaults])
Definition: merge.py:1
def gen2018prod(fragment, howMuch)

◆ gen2018prodml()

def relval_steps.gen2018prodml (   fragment,
  howMuch 
)

Definition at line 691 of file relval_steps.py.

Referenced by gen2023hiprod().

691 def gen2018prodml(fragment,howMuch): #Prod with multiple lumis
692  global step1Up2018ProdDefaults
693  return merge([{'cfg':fragment},howMuch,{'--customise_commands': '"process.source.numberEventsInLuminosityBlock=cms.untracked.uint32(5)"'},step1Up2018ProdDefaults]) #this setting is to allow job to cross LS in IB
Definition: merge.py:1
def gen2018prodml(fragment, howMuch)

◆ gen2018RD()

def relval_steps.gen2018RD (   fragment,
  howMuch 
)

Definition at line 1657 of file relval_steps.py.

References BasicGenValidation_cff.genvalid, MatrixUtil.Kby(), lhegensim(), lhegensim2017(), lhegensim2018(), and str.

1657 def gen2018RD(fragment,howMuch):
1658  global step1Up2018Defaults
1659  return merge([{'cfg':fragment},howMuch,{'--conditions':'auto:phase1_2018_realistic_rd','--customise_commands': "\"process.source.numberEventsInLuminosityBlock=cms.untracked.uint32(" + str(events_per_job_rd) + ") \""},step1Up2018Defaults])
1660 
1661 steps['ZEE_13UP18_RD']=gen2018RD('ZEE_13TeV_TuneCUETP8M1_cfi',Kby(kevents_rd,events_per_job_rd))
1662 steps['ZMM_13UP18_RD']=gen2018RD('ZMM_13TeV_TuneCUETP8M1_cfi',Kby(kevents_rd,events_per_job_rd))
1663 steps['TTbar_13UP18_RD']=gen2018RD('TTbar_13TeV_TuneCUETP8M1_cfi',Kby(kevents_rd,events_per_job_rd))
1664 steps['TTbar_13UP18_RD_IB']=gen2018RD('TTbar_13TeV_TuneCUETP8M1_cfi',Kby(kevents_rd,events_per_job_rd))
1665 steps['TTbar_13UP18_RD_IB']['--customise_commands'] = "\"process.source.numberEventsInLuminosityBlock=cms.untracked.uint32(5)\""
1666 
1667 steps['TTbar012Jets_NLO_Mad_py8_Evt_13']=lhegensim('Configuration/Generator/python/TTbar012Jets_5f_NLO_FXFX_Madgraph_LHE_13TeV_cfi.py',Kby(9,50))
1668 steps['GluGluHToZZTo4L_M125_Pow_py8_Evt_13']=lhegensim('Configuration/Generator/python/GGHZZ4L_JHUGen_Pow_NNPDF30_LHE_13TeV_cfi.py', Kby(9,50))
1669 steps['VBFHToZZTo4Nu_M125_Pow_py8_Evt_13']=lhegensim('Configuration/Generator/python/VBFHZZ4Nu_Pow_NNPDF30_LHE_13TeV_cfi.py',Kby(9,50))
1670 steps['VBFHToBB_M125_Pow_py8_Evt_13']=lhegensim('Configuration/Generator/python/VBFHbb_Pow_NNPDF30_LHE_13TeV_cfi.py',Kby(9,50))
1671 
1672 steps['GluGluHToZZTo4L_M125_Pow_py8_Evt_13UP17']=lhegensim2017('Configuration/Generator/python/GGHZZ4L_JHUGen_Pow_NNPDF30_LHE_13TeV_cfi.py', Kby(9,100))
1673 steps['VBFHToZZTo4Nu_M125_Pow_py8_Evt_13UP17']=lhegensim2017('Configuration/Generator/python/VBFHZZ4Nu_Pow_NNPDF30_LHE_13TeV_cfi.py',Kby(9,100))
1674 steps['VBFHToBB_M125_Pow_py8_Evt_13UP17']=lhegensim2017('Configuration/Generator/python/VBFHbb_Pow_NNPDF30_LHE_13TeV_cfi.py',Kby(9,100))
1675 
1676 steps['GluGluHToZZTo4L_M125_Pow_py8_Evt_13UP18']=lhegensim2018('Configuration/Generator/python/GGHZZ4L_JHUGen_Pow_NNPDF30_LHE_13TeV_cfi.py', Kby(9,100))
1677 steps['VBFHToZZTo4Nu_M125_Pow_py8_Evt_13UP18']=lhegensim2018('Configuration/Generator/python/VBFHZZ4Nu_Pow_NNPDF30_LHE_13TeV_cfi.py',Kby(9,100))
1678 steps['VBFHToBB_M125_Pow_py8_Evt_13UP18']=lhegensim2018('Configuration/Generator/python/VBFHbb_Pow_NNPDF30_LHE_13TeV_cfi.py',Kby(9,100))
1679 
1680 #GEN-SIM inputs for LHE-GEN-SIM workflows
1681 #steps['TTbar012Jets_NLO_Mad_py8_Evt_13INPUT']={'INPUT':InputInfo(dataSet='/RelValTTbar012Jets_NLO_Mad_py8_Evt_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
1682 #steps['GluGluHToZZTo4L_M125_Pow_py8_Evt_13INPUT']={'INPUT':InputInfo(dataSet='/RelValGluGluHToZZTo4L_M125_Pow_py8_Evt_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
1683 #steps['VBFHToZZTo4Nu_M125_Pow_py8_Evt_13INPUT']={'INPUT':InputInfo(dataSet='/RelValVBFHToZZTo4Nu_M125_Pow_py8_Evt_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
1684 #steps['VBFHToBB_M125_Pow_py8_Evt_13INPUT']={'INPUT':InputInfo(dataSet='/RelValVBFHToBB_M125_Pow_py8_Evt_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
1685 #steps['VBFHToZZTo4Nu_M125_Pow_py8_Evt_13UP17INPUT']={'INPUT':InputInfo(dataSet='/RelValVBFHToZZTo4Nu_M125_Pow_py8_Evt_13UP17/%s/GEN-SIM'%(baseDataSetRelease[21],),location='STD')}
1686 #steps['VBFHToBB_M125_Pow_py8_Evt_13UP17INPUT']={'INPUT':InputInfo(dataSet='/RelValVBFHToBB_M125_Pow_py8_Evt_13UP17/%s/GEN-SIM'%(baseDataSetRelease[21],),location='STD')}
1687 #steps['VBFHToZZTo4Nu_M125_Pow_py8_Evt_13UP18INPUT']={'INPUT':InputInfo(dataSet='/RelValVBFHToZZTo4Nu_M125_Pow_py8_Evt_13UP18/%s/GEN-SIM'%(baseDataSetRelease[22],),location='STD')}
1688 #steps['VBFHToBB_M125_Pow_py8_Evt_13UP18INPUT']={'INPUT':InputInfo(dataSet='/RelValVBFHToBB_M125_Pow_py8_Evt_13UP18/%s/GEN-SIM'%(baseDataSetRelease[22],),location='STD')}
1689 
1690 # normal fullSim workflows using pLHE-GEN-SIM 2016 by default
1691 # pLHE step
Definition: merge.py:1
def gen2018RD(fragment, howMuch)
def lhegensim(fragment, howMuch)
GENERATORS.
def lhegensim2018(fragment, howMuch)
def Kby(N, s)
Standard release validation samples ####.
Definition: MatrixUtil.py:235
def lhegensim2017(fragment, howMuch)
#define str(s)

◆ gen2022HiMix()

def relval_steps.gen2022HiMix (   fragment,
  howMuch 
)

Definition at line 2676 of file relval_steps.py.

Referenced by gen2023HiMix().

2676 def gen2022HiMix(fragment,howMuch):
2677  global step1Up2022HiMixDefaults
2678  return merge([{'cfg':fragment},howMuch,step1Up2022HiMixDefaults])
2679 
Definition: merge.py:1
def gen2022HiMix(fragment, howMuch)

◆ gen2022hiprod()

def relval_steps.gen2022hiprod (   fragment,
  howMuch 
)

Definition at line 697 of file relval_steps.py.

Referenced by genS().

697 def gen2022hiprod(fragment,howMuch):
698  global step1Up2022HiProdDefaults
699  return merge([{'cfg':fragment},howMuch,step1Up2022HiProdDefaults])
Definition: merge.py:1
def gen2022hiprod(fragment, howMuch)

◆ gen2023HiMix()

def relval_steps.gen2023HiMix (   fragment,
  howMuch 
)

Definition at line 2681 of file relval_steps.py.

References gen2018HiMix(), gen2022HiMix(), MatrixUtil.Kby(), and MatrixUtil.remove().

2681 def gen2023HiMix(fragment,howMuch):
2682  global step1Up2023HiMixDefaults
2683  return merge([{'cfg':fragment},howMuch,step1Up2023HiMixDefaults])
2684 
2685 steps['Pyquen_GammaJet_pt20_2760GeV']=gen2018HiMix('Pyquen_GammaJet_pt20_2760GeV_cfi',Kby(9,100))
2686 steps['Pyquen_DiJet_pt80to120_2760GeV']=gen2018HiMix('Pyquen_DiJet_pt80to120_2760GeV_cfi',Kby(9,100))
2687 steps['Pyquen_ZeemumuJets_pt10_2760GeV']=gen2018HiMix('Pyquen_ZeemumuJets_pt10_2760GeV_cfi',Kby(9,100))
2688 steps['Pyquen_GammaJet_pt20_2760GeV_2022']=gen2022HiMix('Pyquen_GammaJet_pt20_2760GeV_cfi',Kby(9,100))
2689 steps['Pyquen_DiJet_pt80to120_2760GeV_2022']=gen2022HiMix('Pyquen_DiJet_pt80to120_2760GeV_cfi',Kby(9,100))
2690 steps['Pyquen_ZeemumuJets_pt10_2760GeV_2022']=gen2022HiMix('Pyquen_ZeemumuJets_pt10_2760GeV_cfi',Kby(9,100))
2691 steps['Pyquen_GammaJet_pt20_5362GeV_2023']=gen2023HiMix('Pyquen_GammaJet_pt20_5362GeV_cfi',Kby(9,100))
2692 steps['Pyquen_DiJet_pt80to120_5362GeV_2023']=gen2023HiMix('Pyquen_DiJet_pt80to120_5362GeV_cfi',Kby(9,100))
2693 steps['Pyquen_ZeemumuJets_pt10_5362GeV_2023']=gen2023HiMix('Pyquen_ZeemumuJets_pt10_5362GeV_cfi',Kby(9,100))
2694 
2695 # step3
Definition: merge.py:1
def gen2023HiMix(fragment, howMuch)
def gen2022HiMix(fragment, howMuch)
def gen2018HiMix(fragment, howMuch)
def Kby(N, s)
Standard release validation samples ####.
Definition: MatrixUtil.py:235

◆ gen2023hiprod()

def relval_steps.gen2023hiprod (   fragment,
  howMuch 
)

Definition at line 700 of file relval_steps.py.

References gen2015(), gen2017(), gen2018(), gen2018prod(), gen2018prodml(), MatrixUtil.Kby(), and MatrixUtil.Mby().

Referenced by genS().

700 def gen2023hiprod(fragment,howMuch):
701  global step1Up2023HiProdDefaults
702  return merge([{'cfg':fragment},howMuch,step1Up2023HiProdDefaults])
703 
Definition: merge.py:1
def gen2023hiprod(fragment, howMuch)

◆ genS()

def relval_steps.genS (   fragment,
  howMuch 
)

high stat step1

Definition at line 1022 of file relval_steps.py.

References gen2015(), gen2017(), gen2018hiprod(), gen2018prod(), gen2022hiprod(), gen2023hiprod(), MatrixUtil.Kby(), and MatrixUtil.Mby().

1022 def genS(fragment,howMuch):
1023  global step1Defaults,stCond
1024  return merge([{'cfg':fragment},stCond,howMuch,step1Defaults])
1025 
1026 steps['Higgs200ChargedTaus']=genS('H200ChargedTaus_Tauola_8TeV_cfi',Kby(9,100))
1027 steps['JpsiMM']=genS('JpsiMM_8TeV_TuneCUETP8M1_cfi',Kby(66,1000))
1028 steps['WE']=genS('WE_8TeV_TuneCUETP8M1_cfi',Kby(9,100))
1029 steps['WM']=genS('WM_8TeV_TuneCUETP8M1_cfi',Kby(9,200))
1030 steps['WpM']=genS('WpM_8TeV_TuneCUETP8M1_cfi',Kby(9,200))
1031 steps['ZMM']=genS('ZMM_8TeV_TuneCUETP8M1_cfi',Kby(18,300))
1032 steps['ZpMM']=genS('ZpMM_8TeV_TuneCUETP8M1_cfi',Kby(9,200))
1033 steps['Higgs200ChargedTaus_13']=gen2015('H200ChargedTaus_Tauola_13TeV_cfi',Kby(9,100))
1034 steps['Upsilon1SToMuMu_13']=gen2015('Upsilon1SToMuMu_forSTEAM_13TeV_TuneCUETP8M1_cfi',Kby(17,190))
1035 steps['BsToMuMu_13']=gen2015('BsToMuMu_13TeV_SoftQCDnonD_TuneCUEP8M1_cfi.py',Kby(21000,150000))
1036 steps['JpsiMuMu_Pt-8']=gen2015('JpsiMuMu_Pt-8_forSTEAM_13TeV_TuneCUETP8M1_cfi',Kby(3100,100000))
1037 steps['BdToMuMu_13']=gen2015('BdToMuMu_13TeV_SoftQCDnonD_TuneCUEP8M1_cfi',Kby(6000,60000))
1038 steps['BuToJpsiK_13']=gen2015('BuToJpsiK_13TeV_SoftQCDnonD_TuneCUEP8M1_cfi',Kby(16000,160000))
1039 steps['BsToJpsiPhi_13']=gen2015('BsToJpsiPhi_13TeV_SoftQCDnonD_TuneCUEP8M1_cfi',Kby(78000,400000))
1040 
1041 steps['WE_13']=gen2015('WE_13TeV_TuneCUETP8M1_cfi',Kby(9,100))
1042 steps['WM_13']=gen2015('WM_13TeV_TuneCUETP8M1_cfi',Kby(9,200))
1043 steps['WpM_13']=gen2015('WpM_13TeV_TuneCUETP8M1_cfi',Kby(9,200))
1044 steps['ZMM_13']=gen2015('ZMM_13TeV_TuneCUETP8M1_cfi',Kby(18,100))
1045 steps['ZEEMM_13']=gen2015('ZEEMM_13TeV_TuneCUETP8M1_cfi',Kby(18,300))
1046 steps['ZpMM_13']=gen2015('ZpMM_13TeV_TuneCUETP8M1_cfi',Kby(9,200))
1047 
1048 steps['ZTT']=genS('ZTT_All_hadronic_8TeV_TuneCUETP8M1_cfi',Kby(9,150))
1049 steps['H130GGgluonfusion']=genS('H130GGgluonfusion_8TeV_TuneCUETP8M1_cfi',Kby(9,100))
1050 steps['PhotonJets_Pt_10']=genS('PhotonJet_Pt_10_8TeV_TuneCUETP8M1_cfi',Kby(9,150))
1051 steps['QQH1352T']=genS('QQH1352T_8TeV_TuneCUETP8M1_cfi',Kby(9,100))
1052 steps['ZTT_13']=gen2015('ZTT_All_hadronic_13TeV_TuneCUETP8M1_cfi',Kby(9,80))
1053 steps['H125GGgluonfusion_13']=gen2015('H125GGgluonfusion_13TeV_TuneCUETP8M1_cfi',Kby(9,50))
1054 steps['PhotonJets_Pt_10_13']=gen2015('PhotonJet_Pt_10_13TeV_TuneCUETP8M1_cfi',Kby(9,150))
1055 steps['QQH1352T_13']=gen2015('QQH1352T_13TeV_TuneCUETP8M1_cfi',Kby(9,50))
1056 #steps['ZmumuJets_Pt_20_300']=gen('ZmumuJets_Pt_20_300_GEN_8TeV_TuneCUETP8M1_cfg',Kby(25,100))
1057 steps['ADDMonoJet_d3MD3']=genS('ADDMonoJet_8TeV_d3MD3_TuneCUETP8M1_cfi',Kby(9,100))
1058 steps['ADDMonoJet_d3MD3_13']=gen2015('ADDMonoJet_13TeV_d3MD3_TuneCUETP8M1_cfi',Kby(9,100))
1059 steps['RSKKGluon_m3000GeV_13']=gen2015('RSKKGluon_m3000GeV_13TeV_TuneCUETP8M1_cff',Kby(9,100))
1060 
1061 steps['MinBias2INPUT']={'INPUT':InputInfo(dataSet='/RelValMinBias/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
1062 steps['Higgs200ChargedTausINPUT']={'INPUT':InputInfo(dataSet='/RelValHiggs200ChargedTaus/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
1063 steps['QCD_Pt_3000_3500_2INPUT']={'INPUT':InputInfo(dataSet='/RelValQCD_Pt_3000_3500/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
1064 steps['QCD_Pt_80_120_2INPUT']={'INPUT':InputInfo(dataSet='/RelValQCD_Pt_80_120/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
1065 steps['JpsiMMINPUT']={'INPUT':InputInfo(dataSet='/RelValJpsiMM/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
1066 steps['TTbar2INPUT']={'INPUT':InputInfo(dataSet='/RelValTTbar/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
1067 steps['WEINPUT']={'INPUT':InputInfo(dataSet='/RelValWE/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
1068 steps['WMINPUT']={'INPUT':InputInfo(dataSet='/RelValWM/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
1069 steps['ZEEINPUT']={'INPUT':InputInfo(dataSet='/RelValZEE/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
1070 steps['ZMMINPUT']={'INPUT':InputInfo(dataSet='/RelValZMM/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
1071 steps['ZTTINPUT']={'INPUT':InputInfo(dataSet='/RelValZTT/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
1072 steps['H130GGgluonfusionINPUT']={'INPUT':InputInfo(dataSet='/RelValH130GGgluonfusion/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
1073 steps['PhotonJets_Pt_10INPUT']={'INPUT':InputInfo(dataSet='/RelValPhotonJets_Pt_10/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
1074 #steps['QQH1352TINPUT']={'INPUT':InputInfo(dataSet='/RelValQQH1352T/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')} #temporary comment out
1075 steps['ADDMonoJet_d3MD3INPUT']={'INPUT':InputInfo(dataSet='/RelValADDMonoJet_d3MD3/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
1076 steps['WpMINPUT']={'INPUT':InputInfo(dataSet='/RelValWpM/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
1077 steps['ZpMMINPUT']={'INPUT':InputInfo(dataSet='/RelValZpMM/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
1078 steps['ZpMM_2250_8TeVINPUT']={'INPUT':InputInfo(dataSet='/RelValZpMM_2250_8TeV/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
1079 steps['ZpEE_2250_8TeVINPUT']={'INPUT':InputInfo(dataSet='/RelValZpEE_2250_8TeV/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
1080 steps['ZpTT_1500_8TeVINPUT']={'INPUT':InputInfo(dataSet='/RelValZpTT_1500_8TeV/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
1081 
1082 steps['Cosmics']=merge([{'cfg':'UndergroundCosmicMu_cfi.py','-n':'500','--scenario':'cosmics'},Kby(666,100000),step1Defaults])
1083 steps['CosmicsSPLoose']=merge([{'cfg':'UndergroundCosmicSPLooseMu_cfi.py','-n':'2000','--scenario':'cosmics'},Kby(5000,100000),step1Defaults])
1084 steps['CosmicsSPLoose_UP15']=merge([{'cfg':'UndergroundCosmicSPLooseMu_cfi.py','-n':'2000','--conditions':'auto:run2_mc_cosmics','--scenario':'cosmics'},Kby(5000,500000),step1Up2015Defaults])
1085 steps['Cosmics_UP16']=merge([{'cfg':'UndergroundCosmicMu_cfi.py','-n':'500','--conditions':'auto:run2_mc_cosmics','--scenario':'cosmics','--era':'Run2_2016'},Kby(666,100000),step1Defaults])
1086 steps['Cosmics_UP17']=merge([{'cfg':'UndergroundCosmicMu_cfi.py','-n':'500','--conditions':'auto:phase1_2017_cosmics','--scenario':'cosmics','--era':'Run2_2017'},Kby(666,100000),step1Defaults])
1087 steps['Cosmics_UP18']=merge([{'cfg':'UndergroundCosmicMu_cfi.py','-n':'500','--conditions':'auto:phase1_2018_cosmics','--scenario':'cosmics','--era':'Run2_2018'},Kby(666,100000),step1Defaults])
1088 steps['Cosmics_UP21']=merge([{'cfg':'UndergroundCosmicMu_cfi.py','-n':'500','--conditions':'auto:phase1_2022_cosmics','--scenario':'cosmics','--era':'Run3'},Kby(666,100000),step1Defaults])
1089 steps['Cosmics_UP21_0T']=merge([{'--magField':'0T','--conditions':'auto:phase1_2022_cosmics_0T'},steps['Cosmics_UP21']])
1090 steps['CosmicsSPLoose_UP17']=merge([{'cfg':'UndergroundCosmicSPLooseMu_cfi.py','-n':'2000','--conditions':'auto:phase1_2017_cosmics','--scenario':'cosmics','--era':'Run2_2017'},Kby(5000,500000),step1Up2015Defaults])
1091 steps['CosmicsSPLoose_UP18']=merge([{'cfg':'UndergroundCosmicSPLooseMu_cfi.py','-n':'2000','--conditions':'auto:phase1_2018_cosmics','--scenario':'cosmics','--era':'Run2_2018'},Kby(5000,500000),step1Up2015Defaults])
1092 
1093 # Phase2 cosmics with geometry D98
Definition: merge.py:1
def genS(fragment, howMuch)
high stat step1
def gen2015(fragment, howMuch)
def Kby(N, s)
Standard release validation samples ####.
Definition: MatrixUtil.py:235

◆ identityFS()

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,HLT:,VALIDATION:,DQM:', FastSim: produce sample of minbias events for PU mixing FastSim: produce sample of minbias events for PU mixing FastSim: produce sample of minbias events for PU mixing, 2018 FastSim: template to produce signal and overlay with minbias events FastSim: template to produce signal and overlay with minbias events #PU50 FastSim: template to produce signal and overlay with minbias events #PU50, 2018 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 FastSim: produce sample of premixed minbias events UP17 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 end UP17 FastSim: produce sample of premixed minbias events UP18 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 end UP18

Definition at line 1484 of file relval_steps.py.

References BasicGenValidation_cff.genvalid.

1484 def identityFS(wf):
1485  return merge([{'--restoreRND':'HLT','--process':'HLT2','--hltProcess':'HLT2', '--inputCommands':'"keep *","drop *TagInfo*_*_*_*"'},wf])
1486 
1487 steps['SingleMuPt10FS_UP15_ID']=identityFS(steps['SingleMuPt10FS_UP15'])
1488 steps['TTbarFS_13_ID']=identityFS(steps['TTbarFS_13'])
1489 
Definition: merge.py:1
def identityFS(wf)
pPb tests

◆ identitySim()

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 812 of file relval_steps.py.

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

812 def identitySim(wf):
813  return merge([{'--restoreRND':'SIM','--process':'SIM2', '--inputCommands':'"keep *","drop *TagInfo*_*_*_*"' },wf])
814 
815 steps['SingleMuPt10_UP15_ID']=identitySim(steps['SingleMuPt10_UP15'])
816 steps['TTbar_13_ID']=identitySim(steps['TTbar_13'])
817 
818 baseDataSetRelease=[
819  'CMSSW_9_2_4-91X_mcRun1_realistic_v2-v1', # 0 run1 samples; note TTbar GENSIM has v2 (see TTbarINPUT below)
820  'CMSSW_10_3_0_pre5-103X_upgrade2018_realistic_v7-v1', # 1 GEN-SIM for HI RunII, 2018
821  'CMSSW_6_2_0_pre8-PRE_ST62_V8_FastSim-v1', # 2 for fastsim id test
822 # '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)
823  # THIS ABOVE IS NOT USED, AT THE MOMENT
824  'CMSSW_10_6_0-106X_mcRun2_asymptotic_v3-v1', # 3 - GEN-SIM input for 13 TeV 2016 workfows
825  'CMSSW_7_3_0_pre1-PRE_LS172_V15_FastSim-v1', # 4 - fast sim GEN-SIM-DIGI-RAW-HLTDEBUG for id tests
826  'CMSSW_10_6_0-PU25ns_106X_mcRun2_asymptotic_v3-v1', # 5 - fullSim PU 25ns UP15 premix library
827  'CMSSW_10_4_0_pre1-PU50ns_103X_mcRun2_startup_v1-v1', # 6 - fullSim PU 50ns UP15 premix library
828  'CMSSW_10_6_0-106X_mcRun2_asymptotic_v3_FastSim-v1', # 7 - fastSim MinBias for mixing UP16
829  'CMSSW_10_6_0-PU25ns_106X_mcRun2_asymptotic_v3_FastSim-v1',# 8 - fastSim premix library UP16
830  'CMSSW_10_6_0-106X_upgrade2018_realistic_v4-v1', # 9 - Run2 HI GEN-SIM for mixing
831  'CMSSW_7_6_0-76X_mcRun2_asymptotic_v11-v1', # 10 - 13 TeV High Stats GEN-SIM
832  'CMSSW_7_6_0_pre7-76X_mcRun2_asymptotic_v9_realBS-v1', # 11 - 13 TeV High Stats MiniBias for mixing GEN-SIM
833  'CMSSW_8_1_0_pre9_Geant4102-81X_mcRun2cosmics_startup_peak_v2-v1', # 12 - GEN-SIM input for 1307 cosmics wf from 810_p2
834  'CMSSW_10_6_0-106X_mc2017_realistic_v3-v1', # 13 - GENSIM input for 2017 fullSim premix workflows
835  'CMSSW_10_6_0-PU25ns_106X_mc2017_realistic_v3-v1', # 14 - fullSim PU 25ns UP17 premix library
836  'CMSSW_10_6_0-106X_mc2017_realistic_v3_FastSim-v1', # 15 - fastSim MinBias for mixing UP17
837  'CMSSW_10_6_0-PU25ns_106X_mc2017_realistic_v3_FastSim-v1',# 16 - fastSim premix library UP17
838  'CMSSW_10_6_0-PU25ns_106X_upgrade2018_realistic_v4-v1', # 17 - fullSim PU 25ns UP18 premix library
839  'CMSSW_10_6_0-106X_upgrade2018_realistic_v4-v1', # 18 - GENSIM input for 2018 fullSim premix workflows
840  'CMSSW_10_6_0-106X_upgrade2018_realistic_v4_FastSim-v1', # 19 - fastSim MinBias for mixing UP18
841  'CMSSW_10_6_0-PU25ns_106X_upgrade2018_realistic_v4_FastSim-v1',# 20 - fastSim premix library UP18
842  'CMSSW_10_6_0-106X_mc2017_realistic_v3-v1', # 21 - GEN-SIM inputs for LHE-GEN-SIM 2017 workflows
843  'CMSSW_10_6_0-106X_upgrade2018_realistic_v4-v1', # 22 - GEN-SIM inputs for LHE-GEN-SIM 2018 workflows
844  'CMSSW_12_5_1-125X_mcRun3_2022_realistic_HI_v5-v1', #23 - 2022 HI GEN-SIM for mixing
845  'CMSSW_11_2_0_pre8-PU_112X_upgrade2018_realistic_v4-v1', # 24 - 2018 Run-Dependent premix library
846  'CMSSW_13_2_0_pre1-131X_mcRun3_2023_realistic_HI_v11-v1', # 2023 HI GEN-SIM for mixing
847  ]
848 
849 # note: INPUT commands to be added once GEN-SIM w/ 13TeV+PostLS1Geo will be available
850 steps['MinBiasINPUT']={'INPUT':InputInfo(dataSet='/RelValMinBias/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')} #was [0]
851 steps['QCD_Pt_3000_3500INPUT']={'INPUT':InputInfo(dataSet='/RelValQCD_Pt_3000_3500/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
852 steps['QCD_Pt_600_800INPUT']={'INPUT':InputInfo(dataSet='/RelValQCD_Pt_600_800/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
853 steps['QCD_Pt_80_120INPUT']={'INPUT':InputInfo(dataSet='/RelValQCD_Pt_80_120/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
854 steps['SingleElectronPt10INPUT']={'INPUT':InputInfo(dataSet='/RelValSingleElectronPt10/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
855 steps['SingleElectronPt1000INPUT']={'INPUT':InputInfo(dataSet='/RelValSingleElectronPt1000/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
856 steps['SingleElectronPt35INPUT']={'INPUT':InputInfo(dataSet='/RelValSingleElectronPt35/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
857 steps['SingleGammaPt10INPUT']={'INPUT':InputInfo(dataSet='/RelValSingleGammaPt10/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
858 steps['SingleGammaPt35INPUT']={'INPUT':InputInfo(dataSet='/RelValSingleGammaPt35/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
859 steps['SingleMuPt1INPUT']={'INPUT':InputInfo(dataSet='/RelValSingleMuPt1/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
860 steps['SingleMuPt10INPUT']={'INPUT':InputInfo(dataSet='/RelValSingleMuPt10/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
861 steps['SingleMuPt10_UP15IDINPUT']={'INPUT':InputInfo(dataSet='/RelValSingleMuPt10_UP15/%s/GEN-SIM-DIGI-RAW-HLTDEBUG'%(baseDataSetRelease[3],),location='STD',split=1)}
862 steps['SingleMuPt10_UP15FSIDINPUT']={'INPUT':InputInfo(dataSet='/RelValSingleMuPt10/%s/GEN-SIM-DIGI-RECO'%(baseDataSetRelease[4],),location='STD',split=1)}
863 steps['SingleMuPt100INPUT']={'INPUT':InputInfo(dataSet='/RelValSingleMuPt100/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
864 steps['SingleMuPt1000INPUT']={'INPUT':InputInfo(dataSet='/RelValSingleMuPt1000/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
865 steps['TTbarINPUT']={'INPUT':InputInfo(dataSet='/RelValTTbar/%s/GEN-SIM'%((baseDataSetRelease[0].rstrip('1')+'2'),),location='STD')}
866 steps['TTbar_13IDINPUT']={'INPUT':InputInfo(dataSet='/RelValTTbar_13/%s/GEN-SIM-DIGI-RAW-HLTDEBUG'%(baseDataSetRelease[3],),location='STD',split=1)}
867 steps['TTbar_13FSIDINPUT']={'INPUT':InputInfo(dataSet='/RelValTTbar_13/%s/GEN-SIM-DIGI-RECO'%(baseDataSetRelease[4],),location='STD',split=1)}
868 steps['TTbarLeptonINPUT']={'INPUT':InputInfo(dataSet='/RelValTTbarLepton/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
869 steps['OldTTbarINPUT']={'INPUT':InputInfo(dataSet='/RelValProdTTbar/CMSSW_5_0_0_pre6-START50_V5-v1/GEN-SIM-RECO',location='STD')}
870 steps['OldGenSimINPUT']={'INPUT':InputInfo(dataSet='/RelValTTbar/CMSSW_4_4_2-START44_V7-v1/GEN-SIM-DIGI-RAW-HLTDEBUG',location='STD')}
871 steps['Wjet_Pt_80_120INPUT']={'INPUT':InputInfo(dataSet='/RelValWjet_Pt_80_120/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
872 steps['Wjet_Pt_3000_3500INPUT']={'INPUT':InputInfo(dataSet='/RelValWjet_Pt_3000_3500/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
873 steps['LM1_sftsINPUT']={'INPUT':InputInfo(dataSet='/RelValLM1_sfts/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
874 steps['QCD_FlatPt_15_3000INPUT']={'INPUT':InputInfo(dataSet='/RelValQCD_FlatPt_15_3000/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
875 
876 steps['QCD_FlatPt_15_3000HSINPUT']={'INPUT':InputInfo(dataSet='/RelValQCD_FlatPt_15_3000HS/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
877 steps['TTbar__DIGIPU1INPUT']={'INPUT':InputInfo(dataSet='/RelValTTbar/CMSSW_5_2_2-PU_START52_V4_special_120326-v1/GEN-SIM-DIGI-RAW-HLTDEBUG',location='STD')}
878 # INPUT command for reminiAOD wf on 80X relval input
879 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')}
880 # INPUT command for reminiAOD wf on 94X relval input
881 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')}
882 # INPUT command for reminiAOD wfs on UL-like relval inputs
883 steps['TTbar_13_reminiaod2016UL_preVFP_INPUT']={'INPUT':InputInfo(dataSet='/RelValTTbar_13UP16/CMSSW_10_6_12-PU25ns_106X_mcRun2_asymptotic_preVFP_v8_hltul16_preVFP-v1/AODSIM',label='rmaod',location='STD')}
884 steps['TTbar_13_reminiaod2016UL_postVFP_INPUT']={'INPUT':InputInfo(dataSet='/RelValTTbar_13UP16/CMSSW_10_6_12-PU25ns_106X_mcRun2_asymptotic_v13_hltul16_postVFP-v1/AODSIM',label='rmaod',location='STD')}
885 # FIXME: replace with AODSIM (more appropriate)
886 steps['TTbar_13_reminiaod2017UL_INPUT']={'INPUT':InputInfo(dataSet='/RelValTTbar_13/CMSSW_10_6_4-PUpmx25ns_106X_mc2017_realistic_v6_rsb-v1/GEN-SIM-RECO',label='rmaod',location='STD')}
887 steps['TTbar_13_reminiaod2018UL_INPUT']={'INPUT':InputInfo(dataSet='/RelValProdTTbar_13_pmx25ns/CMSSW_10_6_4-PUpmx25ns_106X_upgrade2018_realistic_v9-v1/AODSIM',label='rmaod',location='STD')}
888 # INPUT command for reminiAOD wfs on PbPb relval inputs
889 steps['HydjetQ_reminiaodPbPb2018_INPUT']={'INPUT':InputInfo(dataSet='/RelValHydjetQ_B12_5020GeV_2018_ppReco/CMSSW_10_3_3-PU_103X_upgrade2018_realistic_HI_v11-v1/GEN-SIM-RECO',label='rmaod',location='STD')}
890 steps['HydjetQ_reminiaodPbPb2022_INPUT']={'INPUT':InputInfo(dataSet='/RelValHydjetQ_B12_5020GeV_2021_ppReco/CMSSW_12_5_0_pre3-124X_mcRun3_2022_realistic_HI_v8-v1/GEN-SIM-RECO',label='rmaod',location='STD')}
891 #steps['HydjetQ_reminiaodPbPb2023_INPUT']={'INPUT':InputInfo(dataSet='/RelValHydjetQ_B12_5362GeV_2023_ppReco/CMSSW_13_1_0_preX-131X_mcRun3_2023_realistic_HI_vX-v1/GEN-SIM-RECO',label='rmaod',location='STD')}
892 
893 
894 # 13 TeV recycle GEN-SIM input
895 steps['MinBias_13INPUT']={'INPUT':InputInfo(dataSet='/RelValMinBias_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
896 steps['QCD_Pt_3000_3500_13INPUT']={'INPUT':InputInfo(dataSet='/RelValQCD_Pt_3000_3500_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
897 steps['QCD_Pt_600_800_13INPUT']={'INPUT':InputInfo(dataSet='/RelValQCD_Pt_600_800_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
898 steps['QCD_Pt_80_120_13INPUT']={'INPUT':InputInfo(dataSet='/RelValQCD_Pt_80_120_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
899 steps['QCD_Pt_80_120_13_HIINPUT']={'INPUT':InputInfo(dataSet='/RelValQCD_Pt_80_120_13_HI/%s/GEN-SIM'%(baseDataSetRelease[1],),location='STD')}
900 steps['TTbar_13INPUT']={'INPUT':InputInfo(dataSet='/RelValTTbar_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
901 steps['TTbarLepton_13INPUT']={'INPUT':InputInfo(dataSet='/RelValTTbarLepton_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
902 steps['ZEE_13INPUT']={'INPUT':InputInfo(dataSet='/RelValZEE_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
903 #steps['ZEE_13_DBLMINIAODINPUT']={'INPUT':InputInfo(dataSet='/RelValZEE_13_DBLMINIAOD/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
904 steps['Wjet_Pt_80_120_13INPUT']={'INPUT':InputInfo(dataSet='/RelValWjet_Pt_80_120_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
905 steps['Wjet_Pt_3000_3500_13INPUT']={'INPUT':InputInfo(dataSet='/RelValWjet_Pt_3000_3500_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
906 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')}
907 steps['QCD_FlatPt_15_3000_13INPUT']={'INPUT':InputInfo(dataSet='/RelValQCD_FlatPt_15_3000_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
908 steps['QCD_FlatPt_15_3000HS_13INPUT']={'INPUT':InputInfo(dataSet='/RelValQCD_FlatPt_15_3000HS_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
909 steps['ZpMM_2250_13INPUT']={'INPUT':InputInfo(dataSet='/RelValZpMM_2250_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
910 steps['ZpEE_2250_13INPUT']={'INPUT':InputInfo(dataSet='/RelValZpEE_2250_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
911 steps['ZpTT_1500_13INPUT']={'INPUT':InputInfo(dataSet='/RelValZpTT_1500_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
912 steps['MinBiasHS_13INPUT']={'INPUT':InputInfo(dataSet='/RelValMinBiasHS_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
913 steps['Higgs200ChargedTaus_13INPUT']={'INPUT':InputInfo(dataSet='/RelValHiggs200ChargedTaus_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
914 
915 steps['Upsilon1SToMuMu_13INPUT']={'INPUT':InputInfo(dataSet='/RelValUpsilon1SToMuMu_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
916 steps['JpsiMuMu_Pt-8INPUT']={'INPUT':InputInfo(dataSet='/RelValJpsiMuMu_Pt-8/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
917 # new BPH relvals produced for the first time in 810_pre9
918 steps['BsToMuMu_13INPUT']={'INPUT':InputInfo(dataSet='/RelValBsToMuMu_13/CMSSW_8_1_0_pre9-81X_mcRun2_asymptotic_v2-v1/GEN-SIM',location='STD')}
919 steps['BdToMuMu_13INPUT']={'INPUT':InputInfo(dataSet='/RelValBdToMuMu_13/CMSSW_8_1_0_pre9-81X_mcRun2_asymptotic_v2-v1/GEN-SIM',location='STD')}
920 steps['BuToJpsiK_13INPUT']={'INPUT':InputInfo(dataSet='/RelValBuToJpsiK_13/CMSSW_8_1_0_pre9-81X_mcRun2_asymptotic_v2-v1/GEN-SIM',location='STD')}
921 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.

◆ lhegensim()

def relval_steps.lhegensim (   fragment,
  howMuch 
)

GENERATORS.

Definition at line 1636 of file relval_steps.py.

Referenced by gen2018RD().

1636 def lhegensim(fragment,howMuch):
1637  global step1LHEGenSimDefault
1638  return merge([{'cfg':fragment},howMuch,step1LHEGenSimDefault])
1639 
1640 # LHE-GEN-SIM step for 2017
Definition: merge.py:1
def lhegensim(fragment, howMuch)
GENERATORS.

◆ lhegensim2017()

def relval_steps.lhegensim2017 (   fragment,
  howMuch 
)

Definition at line 1643 of file relval_steps.py.

Referenced by gen2018RD().

1643 def lhegensim2017(fragment,howMuch):
1644  global step1LHEGenSimUp2017Default
1645  return merge([{'cfg':fragment},howMuch,step1LHEGenSimUp2017Default])
1646 
1647 # LHE-GEN-SIM step for 2018
Definition: merge.py:1
def lhegensim2017(fragment, howMuch)

◆ lhegensim2018()

def relval_steps.lhegensim2018 (   fragment,
  howMuch 
)

Definition at line 1650 of file relval_steps.py.

Referenced by gen2018RD().

1650 def lhegensim2018(fragment,howMuch):
1651  global step1LHEGenSimUp2018Default
1652  return merge([{'cfg':fragment},howMuch,step1LHEGenSimUp2018Default])
1653 
1654 # Run-Dependent MC
Definition: merge.py:1
def lhegensim2018(fragment, howMuch)

◆ lhegensim2018ml()

def relval_steps.lhegensim2018ml (   fragment,
  howMuch 
)

Definition at line 1761 of file relval_steps.py.

References MatrixUtil.Kby(), and str.

1761 def lhegensim2018ml(fragment,howMuch):
1762  return merge([{'cfg':fragment},howMuch,{'--customise_commands': '"process.source.numberEventsInLuminosityBlock=cms.untracked.uint32(5)"'},step1LHEGenSimUp2018Default])
1763 
1764 steps['GluGluHToZZTo4L_M125_Pow_py8_Evt_13UP18ml']=lhegensim2018ml('Configuration/Generator/python/GGHZZ4L_JHUGen_Pow_NNPDF30_LHE_13TeV_cfi.py',Kby(9,50))
1765 
1766 
1767 
1768 # sometimes v1 won't be used - override it here - the dictionary key is gen fragment + '_' + geometry
1769 overrideFragments={'H125GGgluonfusion_13UP18INPUT':'2'}
1770 
Definition: merge.py:1
def lhegensim2018ml(fragment, howMuch)
def Kby(N, s)
Standard release validation samples ####.
Definition: MatrixUtil.py:235