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relval_nano.py
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from Configuration.PyReleaseValidation.relval_steps import *
import math
## as simple class to number workflows dynamically
class WFN:
def __init__(self, offset):
self.offset = offset
self.index=0
self.subindex=0
def __call__(self):
if self.subindex==100:
print("this is not going to work nicely")
self.subindex=0/0
r=float(f'{self.offset}.{self.index}{self.subindex:02d}')
self.subindex+=1
return r
def next(self):
self.index+=1
self.subindex=0
def subnext(self):
# go to the next tenth for the subindex 10 because of 02d formating
self.subindex = math.ceil(self.subindex/10.)*10
workflows = Matrix()
_runOnly20events={'-n':'20'}
_run10kevents={'-n':'10000'}
_NANO_data = merge([{'-s':'NANO,DQM:@nanoAODDQM',
'--process':'NANO',
'--data':'',
'--eventcontent':'NANOAOD,DQM',
'--datatier':'NANOAOD,DQMIO',
'-n':'10000',
'--customise':'"Configuration/DataProcessing/Utils.addMonitoring"'
}])
_HARVEST_nano = merge([{'-s':'HARVESTING:@nanoAODDQM',
'--filetype':'DQM',
'--filein':'file:step2_inDQM.root',
'--conditions':'auto:run2_data'## this is fake for harvesting
}])
_HARVEST_data = merge([_HARVEST_nano, {'--data':''}])
run2_lumis={ 277168: [[1, 1708]],
277194: [[913, 913], [916, 916], [919, 919], [932, 932], [939, 939]],
283877: [[1, 1496]],
299649: [[155, 332]],
303885: [[60, 2052]],
305040: [[200, 700]],
305050: [[200, 700]],
305234: [[1, 200]],
305377: [[1, 500]],
315489: [[1, 100]],
320822: [[1, 200]],
}
run3_lumis={}
_NANO_mc = merge([{'-s':'NANO,DQM:@nanoAODDQM',
'--process':'NANO',
'--mc':'',
'--eventcontent':'NANOAODSIM,DQM',
'--datatier':'NANOAODSIM,DQMIO',
'-n':'10000',
'--customise':'"Configuration/DataProcessing/Utils.addMonitoring"'
}])
_HARVEST_mc = merge([_HARVEST_nano, {'--mc':''}])
steps['HRV_NANO_mc'] = _HARVEST_mc
steps['HRV_NANO_data'] = _HARVEST_data
##10.6 INPUT and worflows
steps['TTbarMINIAOD10.6_UL16v2'] = {'INPUT':InputInfo(location='STD',
dataSet='/TTJets_SingleLeptFromT_TuneCP5_13TeV-madgraphMLM-pythia8/RunIISummer20UL16MiniAODv2-106X_mcRun2_asymptotic_v17-v2/MINIAODSIM')}
steps['NANO_mc10.6ul16v2']=merge([{'--era':'Run2_2016,run2_nanoAOD_106Xv2',
'--conditions':'auto:run2_mc'},
_NANO_mc])
##2017 looking Monte-Carlo: two versions in 10.6
steps['TTbarMINIAOD10.6_UL17v2'] = {'INPUT':InputInfo(location='STD',
dataSet='/TTJets_SingleLeptFromT_TuneCP5_13TeV-madgraphMLM-pythia8/RunIISummer20UL17MiniAODv2-106X_mc2017_realistic_v9-v2/MINIAODSIM')}
steps['NANO_mc10.6ul17v2']=merge([{'--era':'Run2_2017,run2_nanoAOD_106Xv2',
'--conditions':'auto:phase1_2017_realistic'},
_NANO_mc])
steps['TTbarMINIAOD10.6_UL18v2'] = {'INPUT':InputInfo(location='STD',
dataSet='/TTJets_SingleLeptFromT_TuneCP5_13TeV-madgraphMLM-pythia8/RunIISummer20UL18MiniAODv2-106X_upgrade2018_realistic_v16_L1v1-v2/MINIAODSIM')}
steps['NANO_mc10.6ul18v2']=merge([{'--era':'Run2_2018,run2_nanoAOD_106Xv2',
'--conditions':'auto:phase1_2018_realistic'},
_NANO_mc])
##HIPM_UL2016_MiniAODv2 campaign is CMSSW_10_6_25
steps['MuonEG2016MINIAOD10.6v2'] = {'INPUT':InputInfo(location='STD',ls=run2_lumis,
dataSet='/MuonEG/Run2016E-HIPM_UL2016_MiniAODv2-v2/MINIAOD')}
steps['NANO_data10.6ul16v2']=merge([{'--era':'Run2_2016,run2_nanoAOD_106Xv2,tracker_apv_vfp30_2016',
'--conditions':'auto:run2_data'},
_NANO_data])
##UL2017_MiniAODv2 campaign is CMSSW_10_6_20
steps['MuonEG2017MINIAOD10.6v2'] = {'INPUT':InputInfo(location='STD',ls=run2_lumis,
dataSet='/MuonEG/Run2017F-UL2017_MiniAODv2-v1/MINIAOD')}
steps['NANO_data10.6ul17v2']=merge([{'--era':'Run2_2017,run2_nanoAOD_106Xv2',
'--conditions':'auto:run2_data'},
_NANO_data])
##UL2018_MiniAODv2 campaign is CMSSW_10_6_20
steps['MuonEG2018MINIAOD10.6v2'] = {'INPUT':InputInfo(location='STD',ls=run2_lumis,
dataSet='/MuonEG/Run2018D-UL2018_MiniAODv2-v1/MINIAOD')}
steps['NANO_data10.6ul18v2']=merge([{'--era':'Run2_2018,run2_nanoAOD_106Xv2',
'--conditions':'auto:run2_data'},
_NANO_data])
##12.2 INPUT (mc only)
steps['TTbarMINIAOD12.2'] = {'INPUT':InputInfo(location='STD',
dataSet='/TTToSemiLeptonic_TuneCP5_13p6TeV-powheg-pythia8/Run3Winter22MiniAOD-FlatPU0to70_122X_mcRun3_2021_realistic_v9-v2/MINIAODSIM')}
steps['NANO_mc12.2']=merge([{'--era':'Run3,run3_nanoAOD_122',
'--conditions':'auto:phase1_2022_realistic'},
_NANO_mc])
##12.4 INPUT
steps['TTbarMINIAOD12.4'] = {'INPUT':InputInfo(location='STD',
dataSet='/TT_TuneCP5_13p6TeV_powheg-pythia8/Run3Summer22MiniAODv3-124X_mcRun3_2022_realistic_v12-v3/MINIAODSIM')}
steps['NANO_mc12.4']=merge([{'--era':'Run3,run3_nanoAOD_124',
'--conditions':'124X_mcRun3_2022_realistic_v12'},
_NANO_mc])
steps['MuonEG2022MINIAOD12.4'] = {'INPUT':InputInfo(location='STD',ls=run3_lumis,
dataSet='/MuonEG/Run2022D-PromptReco-v2/MINIAOD')}
steps['NANO_data12.4']=merge([{'--era':'Run3,run3_nanoAOD_124',
'--conditions':'auto:run3_data'},
_NANO_data])
steps['NANO_data12.4_prompt']=merge([{'--customise' : 'PhysicsTools/NanoAOD/nano_cff.nanoL1TrigObjCustomize', '-n' : '1000'},
steps['NANO_data12.4']])
###13.0 workflows
steps['TTBarMINIAOD13.0'] = {'INPUT':InputInfo(location='STD',
dataSet='/RelValTTbar_14TeV/CMSSW_13_0_0-PU_130X_mcRun3_2022_realistic_v2_HS-v4/MINIAODSIM')}
steps['NANO_mc13.0']=merge([{'--era':'Run3',
'--conditions':'130X_mcRun3_2022_realistic_v2'},
_NANO_mc])
steps['MuonEG2023MINIAOD13.0'] = { 'INPUT':InputInfo(location='STD',ls=run3_lumis,
dataSet='/MuonEG/Run2023C-PromptReco-v4/MINIAOD')}
steps['ZMuSkim2023DRAWRECO13.0'] = { 'INPUT':InputInfo(location='STD',ls={ 370775: [[1, 168]]},
dataSet='/Muon0/Run2023D-ZMu-PromptReco-v2/RAW-RECO')}
steps['ZeroBias2023DRAW13.0']={'INPUT':InputInfo(location='STD', ls={369978: [[1, 800]]},
dataSet='/ZeroBias/Run2023D-v1/RAW')}
steps['TestEnablesEcalHcal2023C']={'INPUT':InputInfo(location='STD', ls={368489: [[46,546]]},
dataSet='/TestEnablesEcalHcal/Run2023C-Express-v4/RAW')}
steps['NANO_data13.0']=merge([{'--era':'Run3',
'--conditions':'auto:run3_data'},
_NANO_data])
steps['NANO_data13.0_prompt']=merge([{'--customise' : 'PhysicsTools/NanoAOD/nano_cff.nanoL1TrigObjCustomize', '-n' : '1000'},
steps['NANO_data13.0']])
steps['muDPGNANO_data13.0']=merge([{'-s' : 'RAW2DIGI,NANO:@MUDPG',
'-n' : '100',},
steps['NANO_data13.0']])
steps['muDPGNANOBkg_data13.0']=merge([{'-s' : 'RAW2DIGI,NANO:@MUDPGBKG',
'-n' : '100',},
steps['NANO_data13.0']])
steps['hcalDPGNANO_data13.0']=merge([{'-s' : 'RAW2DIGI,RECO,NANO:@HCAL',
'-n' : '100',
'--processName': 'NANO',},
steps['NANO_data13.0']])
steps['hcalDPGCalibNANO_data13.0']=merge([{'-s' : 'RAW2DIGI,RECO,NANO:@HCALCalib',
'-n' : '100',
'--processName': 'NANO',},
steps['NANO_data13.0']])
steps['muPOGNANO_data13.0']=merge([{'-s' : 'NANO:@MUPOG,DQM:@nanoAODDQM', '-n' : '1000'},
steps['NANO_data13.0']])
steps['l1DPGNANO_data13.0']=merge([{'-s' : 'RAW2DIGI,NANO:@L1DPG',
'-n' : '100'},
steps['NANO_data13.0']])
steps['EGMNano_data13.0'] = merge([{'-s':'NANO:@EGM,DQM:@nanoAODDQM', '-n' : '1000'},
steps['NANO_data13.0']])
steps['EGMNano_mc13.0'] = merge([{'-s':'NANO:@EGM,DQM:@nanoAODDQM', '-n' : '1000'},
steps['NANO_mc13.0']])
steps['jmeNano_data13.0'] = merge([{'-s':'NANO:@JME', '-n' : '1000'},
steps['NANO_data13.0']])
steps['lepTimeLifeNANO_data13.0']=merge([{'-s' : 'NANO:@LepTimeLife,DQM:@nanoAODDQM',
'-n' : '1000'},
steps['NANO_data13.0']])
###current release cycle workflows : 13.2
steps['TTBarMINIAOD13.2'] = {'INPUT':InputInfo(location='STD',
dataSet='/RelValTTbar_14TeV/CMSSW_13_2_0-PU_131X_mcRun3_2023_realistic_v9-v1/MINIAODSIM')}
steps['NANO_mc13.2']=merge([{'--era':'Run3',
'--conditions':'auto:phase1_2022_realistic'},
_NANO_mc])
steps['muPOGNANO_mc13.2']=merge([{'-s' : 'NANO:@MUPOG,DQM:@nanoAODDQM', '-n' : '1000'},
steps['NANO_mc13.2']])
steps['EGMNano_mc13.2'] = merge([{'-s':'NANO:@EGM,DQM:@nanoAODDQM', '-n' : '1000'},
steps['NANO_mc13.2']])
steps['lepTimeLifeNANO_mc13.2']=merge([{'-s' : 'NANO:@LepTimeLife,DQM:@nanoAODDQM', '-n' : '1000'},
steps['NANO_mc13.2']])
steps['jmeNANO_mc13.2']=merge([{'-s' : 'NANO:@JME ', '-n' : '1000'},
steps['NANO_mc13.2']])
##13.X INPUT
steps['ScoutingPFRun32022DRAW13.X']={'INPUT':InputInfo(dataSet='/ScoutingPFRun3/Run2022D-v1/RAW',label='2022D',events=100000,location='STD', ls=Run2022D)}
steps['NANO_dataRun3ScoutingPF13.X']=merge([{'-s':'NANO:@Scout'},
steps['NANO_data13.0']])
steps['TTBarMINIAOD13.3'] = {'INPUT':InputInfo(location='STD',
dataSet='/RelValTTbar_14TeV/CMSSW_13_3_0-PU_133X_mcRun3_2023_realistic_v3-v1/MINIAODSIM')}
steps['NANO_mc13.3']=merge([{'--era':'Run3',
'--conditions':'133X_mcRun3_2023_realistic_v3'},
_NANO_mc])
steps['NANO_mcScouting13.X']=merge([{'-s':'NANO:@Scout'},
steps['NANO_mc13.3']])
_wfn=WFN(2500)
################
#10.6 input
workflows[_wfn()] = ['NANOmc106Xul16v2', ['TTbarMINIAOD10.6_UL16v2','NANO_mc10.6ul16v2', 'HRV_NANO_mc']]
workflows[_wfn()] = ['NANOmc106Xul17v2', ['TTbarMINIAOD10.6_UL17v2','NANO_mc10.6ul17v2', 'HRV_NANO_mc']]
workflows[_wfn()] = ['NANOmc106Xul18v2', ['TTbarMINIAOD10.6_UL18v2','NANO_mc10.6ul18v2', 'HRV_NANO_mc']]
_wfn.subnext()
workflows[_wfn()] = ['NANOdata106Xul16v2', ['MuonEG2016MINIAOD10.6v2', 'NANO_data10.6ul16v2', 'HRV_NANO_data']]
workflows[_wfn()] = ['NANOdata106Xul17v2', ['MuonEG2017MINIAOD10.6v2', 'NANO_data10.6ul17v2', 'HRV_NANO_data']]
workflows[_wfn()] = ['NANOdata106Xul18v2', ['MuonEG2018MINIAOD10.6v2', 'NANO_data10.6ul18v2', 'HRV_NANO_data']]
_wfn.next()
################
#12.2 input
workflows[_wfn()] = ['NANOmc122Xrun3', ['TTbarMINIAOD12.2','NANO_mc12.2', 'HRV_NANO_mc']]
_wfn.next()
################
#12.4 input
workflows[_wfn()] = ['NANOmc124Xrun3', ['TTbarMINIAOD12.4','NANO_mc12.4', 'HRV_NANO_mc']]
_wfn.subnext()
workflows[_wfn()] = ['NANOdata124Xrun3', ['MuonEG2022MINIAOD12.4','NANO_data12.4', 'HRV_NANO_data']]
workflows[_wfn()] = ['NANOdata124Xrun3', ['MuonEG2022MINIAOD12.4','NANO_data12.4_prompt', 'HRV_NANO_data']]
_wfn.next()
################
#13.0 workflows
workflows[_wfn()] = ['NANOmc130X', ['TTBarMINIAOD13.0', 'NANO_mc13.0', 'HRV_NANO_mc']]
workflows[_wfn()] = ['EGMNANOmc130X', ['TTBarMINIAOD13.0', 'EGMNano_mc13.0']]
_wfn.subnext()
workflows[_wfn()] = ['muDPGNANO130Xrun3', ['ZMuSkim2023DRAWRECO13.0', 'muDPGNANO_data13.0']]
workflows[_wfn()] = ['muDPGNANOBkg130Xrun3', ['ZeroBias2023DRAW13.0', 'muDPGNANOBkg_data13.0']]
workflows[_wfn()] = ['hcalDPGNANO130Xrun3', ['ZeroBias2023DRAW13.0', 'hcalDPGNANO_data13.0']]
workflows[_wfn()] = ['hcalDPGCalibNANO130Xrun3', ['TestEnablesEcalHcal2023C', 'hcalDPGCalibNANO_data13.0']]
_wfn.subnext()
workflows[_wfn()] = ['NANOdata130Xrun3', ['MuonEG2023MINIAOD13.0', 'NANO_data13.0', 'HRV_NANO_data']]
workflows[_wfn()] = ['NANOdata130Xrun3', ['MuonEG2023MINIAOD13.0', 'NANO_data13.0_prompt', 'HRV_NANO_data']]
workflows[_wfn()] = ['muPOGNANO130Xrun3', ['MuonEG2023MINIAOD13.0', 'muPOGNANO_data13.0']]
workflows[_wfn()] = ['l1DPGNANO130Xrun3', ['ZMuSkim2023DRAWRECO13.0', 'l1DPGNANO_data13.0']]
workflows[_wfn()] = ['EGMNANOdata130Xrun3', ['MuonEG2023MINIAOD13.0', 'EGMNano_data13.0']]
workflows[_wfn()] = ['jmeNANOdata130Xrun3', ['MuonEG2023MINIAOD13.0', 'jmeNano_data13.0']]
workflows[_wfn()] = ['lepTimeLifeNANOdata130Xrun3', ['MuonEG2023MINIAOD13.0', 'lepTimeLifeNANO_data13.0']]
_wfn.next()
################
#13.2 workflows
workflows[_wfn()] = ['NANOmc132X', ['TTBarMINIAOD13.2', 'NANO_mc13.2', 'HRV_NANO_mc']]
workflows[_wfn()] = ['muPOGNANOmc132X', ['TTBarMINIAOD13.2', 'muPOGNANO_mc13.2']]
workflows[_wfn()] = ['EGMNANOmc132X', ['TTBarMINIAOD13.2', 'EGMNano_mc13.2']]
workflows[_wfn()] = ['jmeNANOmc132X', ['TTBarMINIAOD13.2', 'jmeNANO_mc13.2']]
workflows[_wfn()] = ['lepTimeLifeNANOmc132X', ['TTBarMINIAOD13.2', 'lepTimeLifeNANO_mc13.2']]
_wfn.next()
################
#13.X workflows
workflows[_wfn()] = ['ScoutingNanodata13X',['ScoutingPFRun32022DRAW13.X', 'NANO_dataRun3ScoutingPF13.X']]
_wfn.subnext()
workflows[_wfn()] = ['ScoutingNanomc13X',['TTBarMINIAOD13.3','NANO_mcScouting13.X']]
################