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relval_steps.py
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1 from __future__ import absolute_import
2 from .MatrixUtil import *
3 
4 from Configuration.HLT.autoHLT import autoHLT
5 from Configuration.AlCa.autoPCL import autoPCL
6 
7 # step1 gensim: for run1
8 step1Defaults = {'--relval' : None, # need to be explicitly set
9  '-s' : 'GEN,SIM',
10  '-n' : 10,
11  '--conditions' : 'auto:run1_mc',
12  '--beamspot' : 'Realistic8TeVCollision',
13  '--datatier' : 'GEN-SIM',
14  '--eventcontent': 'RAWSIM',
15  }
16 # step1 gensim: for postLS1
17 step1Up2015Defaults = {'-s' : 'GEN,SIM',
18  '-n' : 10,
19  '--conditions' : 'auto:run2_mc',
20  '--beamspot' : 'Realistic25ns13TeV2016Collision',
21  '--datatier' : 'GEN-SIM',
22  '--eventcontent': 'FEVTDEBUG',
23  '--era' : 'Run2_2016'
24  }
25 # step1 gensim: for 2017
26 step1Up2017Defaults = merge ([{'--conditions':'auto:phase1_2017_realistic','--era':'Run2_2017','--beamspot':'Realistic25ns13TeVEarly2017Collision'},step1Up2015Defaults])
27 # step1 gensim: for 2018
28 step1Up2018Defaults = merge ([{'--conditions':'auto:phase1_2018_realistic','--era':'Run2_2018','--beamspot':'Realistic25ns13TeVEarly2018Collision','--geometry':'DB:Extended'},step1Up2017Defaults])
29 # step1 gensim: for 2018 HI
30 step1Up2018HiDefaults = merge ([{'--conditions':'auto:phase1_2018_realistic_hi','--era':'Run2_2018_pp_on_AA','--beamspot':'RealisticPbPbCollision2018','--geometry':'DB:Extended'},step1Up2017Defaults])
31 # step1 gensim: for 2018 prod
32 step1Up2018ProdDefaults = merge ([{'--eventcontent':'RAWSIM'},step1Up2018Defaults])
33 # step1 gensim: for 2018 HI prod
34 step1Up2018HiProdDefaults = merge ([{'--eventcontent':'RAWSIM'},step1Up2018HiDefaults])
35 
36 steps = Steps()
37 
38 #### Production test section ####
39 steps['ProdMinBias']=merge([{'cfg':'MinBias_8TeV_pythia8_TuneCUETP8M1_cff','--relval':'9000,300'},step1Defaults])
40 steps['ProdTTbar']=merge([{'cfg':'TTbar_8TeV_TuneCUETP8M1_cfi','--relval':'9000,100'},step1Defaults])
41 steps['ProdQCD_Pt_3000_3500']=merge([{'cfg':'QCD_Pt_3000_3500_8TeV_TuneCUETP8M1_cfi','--relval':'9000,50'},step1Defaults])
42 
43 #### data ####
44 Run2010ASk=[138937,138934,138924,138923,139790,139789,139788,139787,144086,144085,144084,144083,144011]
45 Run2010BSk=[146644,147115,147929,148822,149011,149181,149182,149291,149294,149442]
46 steps['MinimumBias2010A']={'INPUT':InputInfo(dataSet='/MinimumBias/Run2010A-valskim-v6/RAW-RECO',label='2010A',location='STD',run=Run2010ASk)}
47 steps['MinimumBias2010B']={'INPUT':InputInfo(dataSet='/MinimumBias/Run2010B-valskim-v2/RAW-RECO',label='2010B',run=Run2010BSk)}
48 steps['WZMuSkim2010A']={'INPUT':InputInfo(dataSet='/Mu/Run2010A-WZMu-Nov4Skim_v1/RAW-RECO',label='2010A',run=Run2010ASk)}
49 steps['WZMuSkim2010B']={'INPUT':InputInfo(dataSet='/Mu/Run2010B-WZMu-Nov4Skim_v1/RAW-RECO',label='2010B',run=Run2010BSk)}
50 steps['WZEGSkim2010A']={'INPUT':InputInfo(dataSet='/EG/Run2010A-WZEG-Nov4Skim_v1/RAW-RECO',label='2010A',run=Run2010ASk)}
51 steps['WZEGSkim2010B']={'INPUT':InputInfo(dataSet='/Electron/Run2010B-WZEG-Nov4Skim_v1/RAW-RECO',label='2010B',run=Run2010BSk)}
52 
53 steps['RunCosmicsA']={'INPUT':InputInfo(dataSet='/Cosmics/Run2010A-v1/RAW',label='2010A',run=[142089],events=100000)}
54 Run2010B=[149011]
55 steps['RunMinBias2010B']={'INPUT':InputInfo(dataSet='/MinimumBias/Run2010B-RelValRawSkim-v1/RAW',label='2010B',run=Run2010B,events=100000)}
56 steps['RunMu2010B']={'INPUT':InputInfo(dataSet='/Mu/Run2010B-RelValRawSkim-v1/RAW',label='2010B',run=Run2010B,events=100000)}
57 steps['RunElectron2010B']={'INPUT':InputInfo(dataSet='/Electron/Run2010B-RelValRawSkim-v1/RAW',label='2010B',run=Run2010B,events=100000)}
58 steps['RunPhoton2010B']={'INPUT':InputInfo(dataSet='/Photon/Run2010B-RelValRawSkim-v1/RAW',label='2010B',run=Run2010B,events=100000)}
59 steps['RunJet2010B']={'INPUT':InputInfo(dataSet='/Jet/Run2010B-RelValRawSkim-v1/RAW',label='2010B',run=Run2010B,events=100000)}
60 
61 #list of run to harvest 2011A: 165121, 172802,
62 Run2011ASk=[165121,172802]
63 steps['ValSkim2011A']={'INPUT':InputInfo(dataSet='/MinimumBias/Run2011A-ValSkim-08Nov2011-v1/RAW-RECO',ib_block='239c497e-0fae-11e1-a8b1-00221959e72f',label='2011A',location='STD',run=Run2011ASk)}
64 steps['WMuSkim2011A']={'INPUT':InputInfo(dataSet='/SingleMu/Run2011A-WMu-08Nov2011-v1/RAW-RECO',ib_block='388c2990-0de6-11e1-bb7e-00221959e72f',label='2011A',location='STD',run=Run2011ASk)}
65 steps['WElSkim2011A']={'INPUT':InputInfo(dataSet='/SingleElectron/Run2011A-WElectron-08Nov2011-v1/RAW-RECO',ib_block='9c48c4ea-0db2-11e1-b62c-00221959e69e',label='2011A',location='STD',run=Run2011ASk)}
66 steps['ZMuSkim2011A']={'INPUT':InputInfo(dataSet='/DoubleMu/Run2011A-ZMu-08Nov2011-v1/RAW-RECO',label='2011A',location='STD',run=Run2011ASk)}
67 steps['ZElSkim2011A']={'INPUT':InputInfo(dataSet='/DoubleElectron/Run2011A-ZElectron-08Nov2011-v1/RAW-RECO',label='2011A',location='STD',run=Run2011ASk)}
68 steps['HighMet2011A']={'INPUT':InputInfo(dataSet='/Jet/Run2011A-HighMET-08Nov2011-v1/RAW-RECO',ib_block='3c764584-0b59-11e1-b62c-00221959e69e',label='2011A',location='STD',run=Run2011ASk)}
69 
70 steps['RunCosmics2011A']={'INPUT':InputInfo(dataSet='/Cosmics/Run2011A-v1/RAW',label='2011A',run=[160960],events=100000,location='STD')}
71 Run2011A=[165121]
72 Run2017BTE=[299149]
73 Run2016HALP=[283383]
74 steps['RunMinBias2011A']={'INPUT':InputInfo(dataSet='/MinimumBias/Run2011A-v1/RAW',label='2011A',run=Run2011A,events=100000,location='STD')}
75 steps['RunMu2011A']={'INPUT':InputInfo(dataSet='/SingleMu/Run2011A-v1/RAW',label='2011A',run=Run2011A,events=100000)}
76 steps['RunElectron2011A']={'INPUT':InputInfo(dataSet='/SingleElectron/Run2011A-v1/RAW',label='2011A',run=Run2011A,events=100000)}
77 steps['RunPhoton2011A']={'INPUT':InputInfo(dataSet='/Photon/Run2011A-v1/RAW',label='2011A',run=Run2011A,events=100000)}
78 steps['RunJet2011A']={'INPUT':InputInfo(dataSet='/Jet/Run2011A-v1/RAW',label='2011A',run=Run2011A,events=100000)}
79 steps['TestEnableEcalHCAL2017B']={'INPUT':InputInfo(dataSet='/TestEnablesEcalHcal/Run2017B-v1/RAW',label='2017B',run=Run2017BTE,events=100000,location='STD')}
80 
81 steps['AlCaLumiPixels2016H']={'INPUT':InputInfo(dataSet='/AlCaLumiPixels1/Run2016H-v1/RAW',label='2016H',run=Run2016HALP,events=100000,location='STD')}
82 
83 
84 Run2011B=[177719]
85 Run2011BSk=[177719,177790,177096,175874]
86 steps['RunMinBias2011B']={'INPUT':InputInfo(dataSet='/MinimumBias/Run2011B-v1/RAW',label='2011B',run=Run2011B,events=100000,location='STD')}
87 steps['RunMu2011B']={'INPUT':InputInfo(dataSet='/SingleMu/Run2011B-v1/RAW',label='2011B',run=Run2011B,events=100000)}
88 steps['RunElectron2011B']={'INPUT':InputInfo(dataSet='/SingleElectron/Run2011B-v1/RAW',label='2011B',run=Run2011B,events=100000)}
89 steps['RunPhoton2011B']={'INPUT':InputInfo(dataSet='/Photon/Run2011B-v1/RAW',label='2011B',run=Run2011B,events=100000)}
90 steps['RunJet2011B']={'INPUT':InputInfo(dataSet='/Jet/Run2011B-v1/RAW',label='2011B',run=Run2011B,events=100000)}
91 
92 steps['ValSkim2011B']={'INPUT':InputInfo(dataSet='/MinimumBias/Run2011B-ValSkim-19Nov2011-v1/RAW-RECO',label='2011B',location='STD',run=Run2011BSk)}
93 steps['WMuSkim2011B']={'INPUT':InputInfo(dataSet='/SingleMu/Run2011B-WMu-19Nov2011-v1/RAW-RECO',ib_block='19110c74-1b66-11e1-a98b-003048f02c8a',label='2011B',location='STD',run=Run2011BSk)}
94 steps['WElSkim2011B']={'INPUT':InputInfo(dataSet='/SingleElectron/Run2011B-WElectron-19Nov2011-v1/RAW-RECO',ib_block='d75771a4-1b3f-11e1-aef4-003048f02c8a',label='2011B',location='STD',run=Run2011BSk)}
95 steps['ZMuSkim2011B']={'INPUT':InputInfo(dataSet='/DoubleMu/Run2011B-ZMu-19Nov2011-v1/RAW-RECO',label='2011B',location='STD',run=Run2011BSk)}
96 steps['ZElSkim2011B']={'INPUT':InputInfo(dataSet='/DoubleElectron/Run2011B-ZElectron-19Nov2011-v1/RAW-RECO',label='2011B',run=Run2011BSk)}
97 steps['HighMet2011B']={'INPUT':InputInfo(dataSet='/Jet/Run2011B-HighMET-19Nov2011-v1/RAW-RECO',label='2011B',run=Run2011BSk)}
98 
99 steps['RunHI2010']={'INPUT':InputInfo(dataSet='/HIAllPhysics/HIRun2010-v1/RAW',label='hi2010',run=[152698],events=10000,location='STD')}
100 steps['RunHI2011']={'INPUT':InputInfo(dataSet='/HIMinBiasUPC/HIRun2011-v1/RAW',label='hi2011',run=[182124],events=10000,location='STD')}
101 steps['RunPA2013']={'INPUT':InputInfo(dataSet='/PAMinBiasUPC/HIRun2013-v1/RAW',label='pa2013',run=[211313],events=10000,location='STD')}
102 
103 Run2015HI={263400: [[65,904]]}
104 steps['RunHI2015VR']={'INPUT':InputInfo(dataSet='/HITrackerVirginRaw/HIRun2015-v1/RAW',label='hi2015vr',events=10000,location='STD',ls=Run2015HI)}
105 
106 #steps['RunHI2018']={'INPUT':InputInfo(dataSet='/HIMinimumBias0/Tier0_REPLAY_vocms015-v214/RAW',label='hi2018',run=[325174],events=10000,location='STD')}
107 #steps['RunHI2018Reduced']={'INPUT':InputInfo(dataSet='/HIMinimumBiasReducedFormat0/Tier0_REPLAY_vocms015-v214/RAW',label='hi2018reduced',run=[325174],events=10000,location='STD')}
108 
109 Run2018HI={326479: [[1,23]]}
110 steps['RunHI2018']={'INPUT':InputInfo(dataSet='/HIHardProbes/HIRun2018A-v1/RAW',label='hi2018',events=10000,location='STD',ls=Run2018HI)}
111 steps['RunHI2018Reduced']={'INPUT':InputInfo(dataSet='/HIMinimumBiasReducedFormat0/HIRun2018A-v1/RAW',label='hi2018reduced',events=10000,location='STD',ls=Run2018HI)}
112 
113 Run2012A=[191226]
114 Run2012ASk=Run2012A+[]
115 steps['RunMinBias2012A']={'INPUT':InputInfo(dataSet='/MinimumBias/Run2012A-v1/RAW',label='2012A',run=Run2012A, events=100000,location='STD')}
116 steps['RunTau2012A']={'INPUT':InputInfo(dataSet='/Tau/Run2012A-v1/RAW',label='2012A', run=Run2012A, events=100000,location='STD')}
117 steps['RunMET2012A']={'INPUT':InputInfo(dataSet='/MET/Run2012A-v1/RAW',label='2012A', run=Run2012A, events=100000,location='STD')}
118 steps['RunMu2012A']={'INPUT':InputInfo(dataSet='/SingleMu/Run2012A-v1/RAW',label='2012A', run=Run2012A, events=100000,location='STD')}
119 steps['RunElectron2012A']={'INPUT':InputInfo(dataSet='/SingleElectron/Run2012A-v1/RAW',label='2012A', run=Run2012A, events=100000,location='STD')}
120 steps['RunJet2012A']={'INPUT':InputInfo(dataSet='/Jet/Run2012A-v1/RAW',label='2012A', run=Run2012A, events=100000,location='STD')}
121 
122 steps['WElSkim2012A']={'INPUT':InputInfo(dataSet='/SingleElectron/Run2012A-WElectron-13Jul2012-v1/USER',label='2012A',location='STD',run=Run2012ASk)}
123 steps['ZMuSkim2012A']={'INPUT':InputInfo(dataSet='/SingleMu/Run2012A-ZMu-13Jul2012-v1/RAW-RECO',label='2012A',location='STD',run=Run2012ASk)}
124 steps['ZElSkim2012A']={'INPUT':InputInfo(dataSet='/DoubleElectron/Run2012A-ZElectron-13Jul2012-v1/RAW-RECO',label='2012A',run=Run2012ASk)}
125 steps['HighMet2012A']={'INPUT':InputInfo(dataSet='/HT/Run2012A-HighMET-13Jul2012-v1/RAW-RECO',label='2012A',run=Run2012ASk)}
126 
127 
128 Run2012B=[194533]
129 Run2012Bsk=Run2012B+[194912,195016]
130 steps['RunMinBias2012B']={'INPUT':InputInfo(dataSet='/MinimumBias/Run2012B-v1/RAW',label='2012B',run=Run2012B, events=100000,location='STD')}
131 steps['RunMu2012B']={'INPUT':InputInfo(dataSet='/SingleMu/Run2012B-v1/RAW',label='2012B',location='STD',run=Run2012B)}
132 steps['RunPhoton2012B']={'INPUT':InputInfo(dataSet='/SinglePhoton/Run2012B-v1/RAW',ib_block='28d7fcc8-a2a0-11e1-86c7-003048caaace',label='2012B',location='STD',run=Run2012B)}
133 steps['RunEl2012B']={'INPUT':InputInfo(dataSet='/SingleElectron/Run2012B-v1/RAW',label='2012B',location='STD',run=Run2012B)}
134 steps['RunJet2012B']={'INPUT':InputInfo(dataSet='/JetHT/Run2012B-v1/RAW',label='2012B',location='STD',run=Run2012B)}
135 steps['ZMuSkim2012B']={'INPUT':InputInfo(dataSet='/SingleMu/Run2012B-ZMu-13Jul2012-v1/RAW-RECO',label='2012B',location='CAF',run=Run2012Bsk)}
136 steps['WElSkim2012B']={'INPUT':InputInfo(dataSet='/SingleElectron/Run2012B-WElectron-13Jul2012-v1/USER',label='2012B',location='STD',run=Run2012Bsk)}
137 steps['ZElSkim2012B']={'INPUT':InputInfo(dataSet='/DoubleElectron/Run2012B-ZElectron-22Jan2013-v1/RAW-RECO',ib_block='1f13b876-69fb-11e2-a7eb-00221959e72f',label='2012B',location='STD',run=Run2012Bsk)}
138 
139 Run2012C=[199812]
140 Run2012Csk=Run2012C+[203002]
141 steps['RunMinBias2012C']={'INPUT':InputInfo(dataSet='/MinimumBias/Run2012C-v1/RAW',label='2012C',run=Run2012C, events=100000,location='STD')}
142 steps['RunMu2012C']={'INPUT':InputInfo(dataSet='/SingleMu/Run2012C-v1/RAW',label='2012C',location='STD',run=Run2012C)}
143 steps['RunPhoton2012C']={'INPUT':InputInfo(dataSet='/SinglePhoton/Run2012C-v1/RAW',label='2012C',location='STD',run=Run2012C)}
144 steps['RunEl2012C']={'INPUT':InputInfo(dataSet='/SingleElectron/Run2012C-v1/RAW',label='2012C',location='STD',run=Run2012C)}
145 steps['RunJet2012C']={'INPUT':InputInfo(dataSet='/JetHT/Run2012C-v1/RAW',label='2012C',location='STD',run=Run2012C)}
146 steps['ZMuSkim2012C']={'INPUT':InputInfo(dataSet='/SingleMu/Run2012C-ZMu-PromptSkim-v3/RAW-RECO',label='2012C',location='CAF',run=Run2012Csk)}
147 steps['WElSkim2012C']={'INPUT':InputInfo(dataSet='/SingleElectron/Run2012C-WElectron-PromptSkim-v3/USER',label='2012C',location='STD',run=Run2012Csk)}
148 steps['ZElSkim2012C']={'INPUT':InputInfo(dataSet='/DoubleElectron/Run2012C-ZElectron-22Jan2013-v1/RAW-RECO',label='2012C',location='STD',run=Run2012Csk)}
149 
150 Run2012D=[208307]
151 Run2012Dsk=Run2012D+[207454]
152 steps['RunMinBias2012D']={'INPUT':InputInfo(dataSet='/MinimumBias/Run2012D-v1/RAW',label='2012D',run=Run2012D, events=100000,location='STD')}
153 steps['RunMu2012D']={'INPUT':InputInfo(dataSet='/SingleMu/Run2012D-v1/RAW',label='2012D',location='STD',run=Run2012D)}
154 steps['RunPhoton2012D']={'INPUT':InputInfo(dataSet='/SinglePhoton/Run2012D-v1/RAW',label='2012D',location='STD',run=Run2012D)}
155 steps['RunEl2012D']={'INPUT':InputInfo(dataSet='/SingleElectron/Run2012D-v1/RAW',label='2012D',location='STD',run=Run2012D)}
156 steps['RunJet2012D']={'INPUT':InputInfo(dataSet='/JetHT/Run2012D-v1/RAW',label='2012D',location='STD',run=Run2012D)}
157 # the previous /SingleMu/Run2012D-ZMu-15Apr2014-v1/RAW-RECO is deprecated in DAS
158 steps['ZMuSkim2012D']={'INPUT':InputInfo(dataSet='/SingleMu/Run2012D-ZMu-15Apr2014-v1/RAW-RECO',label='2012D',location='STD',run=Run2012Dsk)}
159 # the previous /SingleElectron/Run2012D-WElectron-PromptSkim-v1/USER is deprecated in DAS
160 steps['WElSkim2012D']={'INPUT':InputInfo(dataSet='/SingleElectron/Run2012D-WElectron-22Jan2013-v1/USER',label='2012D',location='STD',run=Run2012Dsk)}
161 steps['ZElSkim2012D']={'INPUT':InputInfo(dataSet='/DoubleElectron/Run2012D-ZElectron-22Jan2013-v1/RAW-RECO',label='2012D',location='STD',run=Run2012Dsk)}
162 
163 #### run2 2015B ####
164 # Run2015B=[251642] # 251561 251638 251642
165 Run2015B=selectedLS([251251])
166 steps['RunHLTPhy2015B']={'INPUT':InputInfo(dataSet='/HLTPhysics/Run2015B-v1/RAW',label='2015B',events=100000,location='STD', ls=Run2015B)}
167 steps['RunDoubleEG2015B']={'INPUT':InputInfo(dataSet='/DoubleEG/Run2015B-v1/RAW',label='2015B',events=100000,location='STD', ls=Run2015B)}
168 steps['RunDoubleMuon2015B']={'INPUT':InputInfo(dataSet='/DoubleMuon/Run2015B-v1/RAW',label='2015B',events=100000,location='STD', ls=Run2015B)}
169 steps['RunJetHT2015B']={'INPUT':InputInfo(dataSet='/JetHT/Run2015B-v1/RAW',label='2015B',events=100000,location='STD', ls=Run2015B)}
170 steps['RunMET2015B']={'INPUT':InputInfo(dataSet='/MET/Run2015B-v1/RAW',label='2015B',events=100000,location='STD', ls=Run2015B)}
171 steps['RunMuonEG2015B']={'INPUT':InputInfo(dataSet='/MuonEG/Run2015B-v1/RAW',label='2015B',events=100000,location='STD', ls=Run2015B)}
172 steps['RunSingleEl2015B']={'INPUT':InputInfo(dataSet='/SingleElectron/Run2015B-v1/RAW',label='2015B',events=100000,location='STD', ls=Run2015B)}
173 steps['RunSingleMu2015B']={'INPUT':InputInfo(dataSet='/SingleMuon/Run2015B-v1/RAW',label='2015B',events=100000,location='STD', ls=Run2015B)}
174 steps['RunSinglePh2015B']={'INPUT':InputInfo(dataSet='/SinglePhoton/Run2015B-v1/RAW',label='2015B',events=100000,location='STD', ls=Run2015B)}
175 steps['RunZeroBias2015B']={'INPUT':InputInfo(dataSet='/ZeroBias/Run2015B-v1/RAW',label='2015B',events=100000,location='STD', ls=Run2015B)}
176 
177 
178 
179 
180 #### run2 2015C ####
181 # Run2015C, 25ns: 254790 (852 LS and 65 files), 254852 (126 LS and 5 files), 254879 (178 LS and 11 files)
182 Run2015C=selectedLS([254790])
183 Run2015C_full=selectedLS([254790, 254852, 254879])
184 steps['RunHLTPhy2015C']={'INPUT':InputInfo(dataSet='/HLTPhysics/Run2015C-v1/RAW',label='2015C',events=100000,location='STD', ls=Run2015C)}
185 steps['RunDoubleEG2015C']={'INPUT':InputInfo(dataSet='/DoubleEG/Run2015C-v1/RAW',label='2015C',events=100000,location='STD', ls=Run2015C)}
186 steps['RunDoubleMuon2015C']={'INPUT':InputInfo(dataSet='/DoubleMuon/Run2015C-v1/RAW',label='2015C',events=100000,location='STD', ls=Run2015C)}
187 steps['RunJetHT2015C']={'INPUT':InputInfo(dataSet='/JetHT/Run2015C-v1/RAW',label='2015C',events=100000,location='STD', ls=Run2015C)}
188 steps['RunMET2015C']={'INPUT':InputInfo(dataSet='/MET/Run2015C-v1/RAW',label='2015C',events=100000,location='STD', ls=Run2015C)}
189 steps['RunMuonEG2015C']={'INPUT':InputInfo(dataSet='/MuonEG/Run2015C-v1/RAW',label='2015C',events=100000,location='STD', ls=Run2015C)}
190 steps['RunDoubleEGPrpt2015C']={'INPUT':InputInfo(dataSet='/DoubleEG/Run2015C-ZElectron-PromptReco-v1/RAW-RECO',label='2015C',events=100000,location='STD', ls=Run2015C_full)}
191 steps['RunSingleMuPrpt2015C']={'INPUT':InputInfo(dataSet='/SingleMuon/Run2015C-ZMu-PromptReco-v1/RAW-RECO',label='2015C',events=100000,location='STD', ls=Run2015C_full)}
192 steps['RunSingleEl2015C']={'INPUT':InputInfo(dataSet='/SingleElectron/Run2015C-v1/RAW',label='2015C',events=100000,location='STD', ls=Run2015C)}
193 steps['RunSingleMu2015C']={'INPUT':InputInfo(dataSet='/SingleMuon/Run2015C-v1/RAW',label='2015C',events=100000,location='STD', ls=Run2015C)}
194 steps['RunSinglePh2015C']={'INPUT':InputInfo(dataSet='/SinglePhoton/Run2015C-v1/RAW',label='2015C',events=100000,location='STD', ls=Run2015C)}
195 steps['RunZeroBias2015C']={'INPUT':InputInfo(dataSet='/ZeroBias/Run2015C-v1/RAW',label='2015C',events=100000,location='STD', ls=Run2015C)}
196 
197 
198 #### run2 2015D ####
199 # Run2015D, 25ns: 256677
200 Run2015D=selectedLS([256677])
201 steps['RunHLTPhy2015D']={'INPUT':InputInfo(dataSet='/HLTPhysics/Run2015D-v1/RAW',label='2015D',events=100000,location='STD', ls=Run2015D)}
202 steps['RunDoubleEG2015D']={'INPUT':InputInfo(dataSet='/DoubleEG/Run2015D-v1/RAW',label='2015D',events=100000,location='STD', ls=Run2015D)}
203 steps['RunDoubleMuon2015D']={'INPUT':InputInfo(dataSet='/DoubleMuon/Run2015D-v1/RAW',label='2015D',events=100000,location='STD', ls=Run2015D)}
204 steps['RunJetHT2015D']={'INPUT':InputInfo(dataSet='/JetHT/Run2015D-v1/RAW',label='2015D',events=100000,location='STD', ls=Run2015D)}
205 steps['RunMET2015D']={'INPUT':InputInfo(dataSet='/MET/Run2015D-v1/RAW',label='2015D',events=100000,location='STD', ls=Run2015D)}
206 steps['RunMuonEG2015D']={'INPUT':InputInfo(dataSet='/MuonEG/Run2015D-v1/RAW',label='2015D',events=100000,location='STD', ls=Run2015D)}
207 steps['RunDoubleEGPrpt2015D']={'INPUT':InputInfo(dataSet='/DoubleEG/Run2015D-ZElectron-PromptReco-v3/RAW-RECO',label='2015D',events=100000,location='STD', ls=Run2015D)}
208 steps['RunSingleMuPrpt2015D']={'INPUT':InputInfo(dataSet='/SingleMuon/Run2015D-ZMu-PromptReco-v3/RAW-RECO',label='2015D',events=100000,location='STD', ls=Run2015D)}
209 steps['RunSingleEl2015D']={'INPUT':InputInfo(dataSet='/SingleElectron/Run2015D-v1/RAW',label='2015D',events=100000,location='STD', ls=Run2015D)}
210 steps['RunSingleMu2015D']={'INPUT':InputInfo(dataSet='/SingleMuon/Run2015D-v1/RAW',label='2015D',events=100000,location='STD', ls=Run2015D)}
211 steps['RunSinglePh2015D']={'INPUT':InputInfo(dataSet='/SinglePhoton/Run2015D-v1/RAW',label='2015D',events=100000,location='STD', ls=Run2015D)}
212 steps['RunZeroBias2015D']={'INPUT':InputInfo(dataSet='/ZeroBias/Run2015D-v1/RAW',label='2015D',events=100000,location='STD',ib_block='38d4cab6-5d5f-11e5-824b-001e67ac06a0',ls=Run2015D)}
213 
214 #### run2 2016B ####
215 # Run2016B, 25ns: 274160
216 #Run2016B=selectedLS([274160],l_json=data_json2016)
217 Run2016B={274199: [[1, 180]]}
218 steps['RunHLTPhy2016B']={'INPUT':InputInfo(dataSet='/HLTPhysics/Run2016B-v2/RAW',label='2016B',events=100000,location='STD', ls=Run2016B)}
219 steps['RunDoubleEG2016B']={'INPUT':InputInfo(dataSet='/DoubleEG/Run2016B-v2/RAW',label='2016B',events=100000,location='STD', ls=Run2016B)}
220 steps['RunDoubleMuon2016B']={'INPUT':InputInfo(dataSet='/DoubleMuon/Run2016B-v2/RAW',label='2016B',events=100000,location='STD', ls=Run2016B)}
221 steps['RunJetHT2016B']={'INPUT':InputInfo(dataSet='/JetHT/Run2016B-v2/RAW',label='2016B',events=100000,location='STD', ls=Run2016B)}
222 steps['RunMET2016B']={'INPUT':InputInfo(dataSet='/MET/Run2016B-v2/RAW',label='2016B',events=100000,location='STD', ls=Run2016B)}
223 steps['RunMuonEG2016B']={'INPUT':InputInfo(dataSet='/MuonEG/Run2016B-v2/RAW',label='2016B',events=100000,location='STD', ls=Run2016B)}
224 steps['RunDoubleEGPrpt2016B']={'INPUT':InputInfo(dataSet='/DoubleEG/Run2016B-ZElectron-PromptReco-v2/RAW-RECO',label='2016B',events=100000,location='STD', ls=Run2016B)}
225 steps['RunSingleMuPrpt2016B']={'INPUT':InputInfo(dataSet='/SingleMuon/Run2016B-ZMu-PromptReco-v2/RAW-RECO',label='2016B',events=100000,location='STD', ls=Run2016B)}
226 steps['RunSingleEl2016B']={'INPUT':InputInfo(dataSet='/SingleElectron/Run2016B-v2/RAW',label='2016B',events=100000,location='STD', ls={274199: [[1, 120]]})}
227 steps['RunSingleMu2016B']={'INPUT':InputInfo(dataSet='/SingleMuon/Run2016B-v2/RAW',label='2016B',events=100000,location='STD', ls={274199: [[1, 120]]})}
228 steps['RunSinglePh2016B']={'INPUT':InputInfo(dataSet='/SinglePhoton/Run2016B-v2/RAW',label='2016B',events=100000,location='STD', ls=Run2016B)}
229 steps['RunZeroBias2016B']={'INPUT':InputInfo(dataSet='/ZeroBias/Run2016B-v2/RAW',label='2016B',events=100000,location='STD', ls=Run2016B)}
230 steps['RunMuOnia2016B']={'INPUT':InputInfo(dataSet='/MuOnia/Run2016B-v2/RAW',label='2016B',events=100000,location='STD', ls=Run2016B)}
231 steps['RunNoBPTX2016B']={'INPUT':InputInfo(dataSet='/NoBPTX/Run2016B-v2/RAW',label='2016B',events=100000,location='STD', ls=Run2016B)}
232 # reminiAOD selection, mainly for PPS testing
233 steps['RunJetHT2016B_reminiaodUL']={'INPUT':InputInfo(dataSet='/JetHT/Run2016B-21Feb2020_ver2_UL2016_HIPM-v1/AOD',label='2016BrmaodUL',events=100000,location='STD', ls=Run2016B)}
234 
235 #### run2 2016C ####
236 Run2016C={276092: [[115, 149]]}
237 steps['RunHLTPhy2016C']={'INPUT':InputInfo(dataSet='/HLTPhysics/Run2016C-v2/RAW',label='2016C',events=100000,location='STD', ls=Run2016C)}
238 steps['RunDoubleEG2016C']={'INPUT':InputInfo(dataSet='/DoubleEG/Run2016C-v2/RAW',label='2016C',events=100000,location='STD', ls=Run2016C)}
239 steps['RunDoubleMuon2016C']={'INPUT':InputInfo(dataSet='/DoubleMuon/Run2016C-v2/RAW',label='2016C',events=100000,location='STD', ls=Run2016C)}
240 steps['RunJetHT2016C']={'INPUT':InputInfo(dataSet='/JetHT/Run2016C-v2/RAW',label='2016C',events=100000,location='STD', ls=Run2016C)}
241 steps['RunMET2016C']={'INPUT':InputInfo(dataSet='/MET/Run2016C-v2/RAW',label='2016C',events=100000,location='STD', ls=Run2016C)}
242 steps['RunMuonEG2016C']={'INPUT':InputInfo(dataSet='/MuonEG/Run2016C-v2/RAW',label='2016C',events=100000,location='STD', ls=Run2016C)}
243 steps['RunSingleEl2016C']={'INPUT':InputInfo(dataSet='/SingleElectron/Run2016C-v2/RAW',label='2016C',events=100000,location='STD', ls=Run2016C)}
244 steps['RunSingleMu2016C']={'INPUT':InputInfo(dataSet='/SingleMuon/Run2016C-v2/RAW',label='2016C',events=100000,location='STD', ls=Run2016C)}
245 steps['RunSinglePh2016C']={'INPUT':InputInfo(dataSet='/SinglePhoton/Run2016C-v2/RAW',label='2016C',events=100000,location='STD', ls=Run2016C)}
246 steps['RunZeroBias2016C']={'INPUT':InputInfo(dataSet='/ZeroBias/Run2016C-v2/RAW',label='2016C',events=100000,location='STD', ls=Run2016C)}
247 steps['RunMuOnia2016C']={'INPUT':InputInfo(dataSet='/MuOnia/Run2016C-v2/RAW',label='2016C',events=100000,location='STD', ls=Run2016C)}
248 
249 #### run2 2016D ####
250 Run2016D={276807: [[66, 100]]}
251 steps['RunHLTPhy2016D']={'INPUT':InputInfo(dataSet='/HLTPhysics/Run2016D-v2/RAW',label='2016D',events=100000,location='STD', ls=Run2016D)}
252 steps['RunDoubleEG2016D']={'INPUT':InputInfo(dataSet='/DoubleEG/Run2016D-v2/RAW',label='2016D',events=100000,location='STD', ls=Run2016D)}
253 steps['RunDoubleMuon2016D']={'INPUT':InputInfo(dataSet='/DoubleMuon/Run2016D-v2/RAW',label='2016D',events=100000,location='STD', ls=Run2016D)}
254 steps['RunJetHT2016D']={'INPUT':InputInfo(dataSet='/JetHT/Run2016D-v2/RAW',label='2016D',events=100000,location='STD', ls=Run2016D)}
255 steps['RunMET2016D']={'INPUT':InputInfo(dataSet='/MET/Run2016D-v2/RAW',label='2016D',events=100000,location='STD', ls=Run2016D)}
256 steps['RunMuonEG2016D']={'INPUT':InputInfo(dataSet='/MuonEG/Run2016D-v2/RAW',label='2016D',events=100000,location='STD', ls=Run2016D)}
257 steps['RunSingleEl2016D']={'INPUT':InputInfo(dataSet='/SingleElectron/Run2016D-v2/RAW',label='2016D',events=100000,location='STD', ls=Run2016D)}
258 steps['RunSingleMu2016D']={'INPUT':InputInfo(dataSet='/SingleMuon/Run2016D-v2/RAW',label='2016D',events=100000,location='STD', ls=Run2016D)}
259 steps['RunSinglePh2016D']={'INPUT':InputInfo(dataSet='/SinglePhoton/Run2016D-v2/RAW',label='2016D',events=100000,location='STD', ls=Run2016D)}
260 steps['RunZeroBias2016D']={'INPUT':InputInfo(dataSet='/ZeroBias/Run2016D-v2/RAW',label='2016D',events=100000,location='STD', ls=Run2016D)}
261 steps['RunMuOnia2016D']={'INPUT':InputInfo(dataSet='/MuOnia/Run2016D-v2/RAW',label='2016D',events=100000,location='STD', ls=Run2016D)}
262 
263 #### run2 2016E ####
264 Run2016E={277069: [[81, 120]]}
265 steps['RunHLTPhy2016E']={'INPUT':InputInfo(dataSet='/HLTPhysics/Run2016E-v2/RAW',label='2016E',events=100000,location='STD', ls=Run2016E)}
266 steps['RunDoubleEG2016E']={'INPUT':InputInfo(dataSet='/DoubleEG/Run2016E-v2/RAW',label='2016E',events=100000,location='STD', ls=Run2016E)}
267 steps['RunDoubleMuon2016E']={'INPUT':InputInfo(dataSet='/DoubleMuon/Run2016E-v2/RAW',label='2016E',events=100000,location='STD', ls=Run2016E)}
268 steps['RunJetHT2016E']={'INPUT':InputInfo(dataSet='/JetHT/Run2016E-v2/RAW',label='2016E',events=100000,location='STD', ls=Run2016E)}
269 steps['RunMET2016E']={'INPUT':InputInfo(dataSet='/MET/Run2016E-v2/RAW',label='2016E',events=100000,location='STD', ls=Run2016E)}
270 steps['RunMuonEG2016E']={'INPUT':InputInfo(dataSet='/MuonEG/Run2016E-v2/RAW',label='2016E',events=100000,location='STD', ls=Run2016E)}
271 steps['RunSingleEl2016E']={'INPUT':InputInfo(dataSet='/SingleElectron/Run2016E-v2/RAW',label='2016E',events=100000,location='STD', ls=Run2016E)}
272 steps['RunSingleMu2016E']={'INPUT':InputInfo(dataSet='/SingleMuon/Run2016E-v2/RAW',label='2016E',events=100000,location='STD', ls=Run2016E)}
273 steps['RunSinglePh2016E']={'INPUT':InputInfo(dataSet='/SinglePhoton/Run2016E-v2/RAW',label='2016E',events=100000,location='STD', ls=Run2016E)}
274 steps['RunZeroBias2016E']={'INPUT':InputInfo(dataSet='/ZeroBias/Run2016E-v2/RAW',label='2016E',events=100000,location='STD', ls=Run2016E)}
275 steps['RunMuOnia2016E']={'INPUT':InputInfo(dataSet='/MuOnia/Run2016E-v2/RAW',label='2016E',events=100000,location='STD', ls=Run2016E)}
276 steps['RunJetHT2016E_reminiaod']={'INPUT':InputInfo(dataSet='/JetHT/Run2016E-18Apr2017-v1/AOD',label='2016Ermaod',events=100000,location='STD', ls=Run2016E)}
277 steps['RunJetHT2016E_reminiaodUL']={'INPUT':InputInfo(dataSet='/JetHT/Run2016E-21Feb2020_UL2016_HIPM-v1/AOD',label='2016ErmaodUL',events=100000,location='STD', ls=Run2016E)}
278 
279 #### run2 2016H ####
280 Run2016H={283877: [[1, 45]]}
281 steps['RunHLTPhy2016H']={'INPUT':InputInfo(dataSet='/HLTPhysics/Run2016H-v1/RAW',label='2016H',events=100000,location='STD', ls=Run2016H)}
282 steps['RunDoubleEG2016H']={'INPUT':InputInfo(dataSet='/DoubleEG/Run2016H-v1/RAW',label='2016H',events=100000,location='STD', ls=Run2016H)}
283 steps['RunDoubleMuon2016H']={'INPUT':InputInfo(dataSet='/DoubleMuon/Run2016H-v1/RAW',label='2016H',events=100000,location='STD', ls=Run2016H)}
284 steps['RunJetHT2016H']={'INPUT':InputInfo(dataSet='/JetHT/Run2016H-v1/RAW',label='2016H',events=100000,location='STD', ls=Run2016H)}
285 steps['RunMET2016H']={'INPUT':InputInfo(dataSet='/MET/Run2016H-v1/RAW',label='2016H',events=100000,location='STD', ls=Run2016H)}
286 steps['RunMuonEG2016H']={'INPUT':InputInfo(dataSet='/MuonEG/Run2016H-v1/RAW',label='2016H',events=100000,location='STD', ls=Run2016H)}
287 steps['RunSingleEl2016H']={'INPUT':InputInfo(dataSet='/SingleElectron/Run2016H-v1/RAW',label='2016H',events=100000,location='STD', ls=Run2016H)}
288 steps['RunSingleMu2016H']={'INPUT':InputInfo(dataSet='/SingleMuon/Run2016H-v1/RAW',label='2016H',events=100000,location='STD', ls=Run2016H)}
289 steps['RunSinglePh2016H']={'INPUT':InputInfo(dataSet='/SinglePhoton/Run2016H-v1/RAW',label='2016H',events=100000,location='STD', ls=Run2016H)}
290 steps['RunZeroBias2016H']={'INPUT':InputInfo(dataSet='/ZeroBias/Run2016H-v1/RAW',label='2016H',events=100000,location='STD', ls=Run2016H)}
291 steps['RunMuOnia2016H']={'INPUT':InputInfo(dataSet='/MuOnia/Run2016H-v1/RAW',label='2016H',events=100000,location='STD', ls=Run2016H)}
292 steps['RunJetHT2016H_reminiaod']={'INPUT':InputInfo(dataSet='/JetHT/Run2016H-18Apr2017-v1/AOD',label='2016Hrmaod',events=100000,location='STD', ls=Run2016H)}
293 steps['RunJetHT2016H_reminiaodUL']={'INPUT':InputInfo(dataSet='/JetHT/Run2016H-21Feb2020_UL2016-v1/AOD',label='2016HrmaodUL',events=100000,location='STD', ls=Run2016H)}
294 steps['RunJetHT2016H_nano']={'INPUT':InputInfo(dataSet='/JetHT/Run2016H-18Apr2017-v1/MINIAOD',label='2016Hnano',events=100000,location='STD', ls=Run2016H)}
295 
296 #### run2 2017B ####
297 Run2017BlowPU={297227: [[1, 45]]}
298 Run2017B={297557: [[8, 167]]}
299 steps['RunHLTPhy2017B']={'INPUT':InputInfo(dataSet='/HLTPhysics/Run2017B-v1/RAW',label='2017B',events=100000,location='STD', ls=Run2017B)}
300 steps['RunDoubleEG2017B']={'INPUT':InputInfo(dataSet='/DoubleEG/Run2017B-v1/RAW',label='2017B',events=100000,location='STD', ls=Run2017B)}
301 steps['RunDoubleMuon2017B']={'INPUT':InputInfo(dataSet='/DoubleMuon/Run2017B-v1/RAW',label='2017B',events=100000,location='STD', ls=Run2017B)}
302 steps['RunJetHT2017B']={'INPUT':InputInfo(dataSet='/JetHT/Run2017B-v1/RAW',label='2017B',events=100000,location='STD', ls=Run2017B)}
303 steps['RunMET2017B']={'INPUT':InputInfo(dataSet='/MET/Run2017B-v1/RAW',label='2017B',events=100000,location='STD', ls=Run2017B)}
304 steps['RunMuonEG2017B']={'INPUT':InputInfo(dataSet='/MuonEG/Run2017B-v1/RAW',label='2017B',events=100000,location='STD', ls=Run2017B)}
305 steps['RunSingleEl2017B']={'INPUT':InputInfo(dataSet='/SingleElectron/Run2017B-v1/RAW',label='2017B',events=100000,location='STD', ls=Run2017B)}
306 steps['RunSingleMu2017B']={'INPUT':InputInfo(dataSet='/SingleMuon/Run2017B-v1/RAW',label='2017B',events=100000,location='STD', ls=Run2017B)}
307 steps['RunSinglePh2017B']={'INPUT':InputInfo(dataSet='/SinglePhoton/Run2017B-v1/RAW',label='2017B',events=100000,location='STD', ls=Run2017B)}
308 steps['RunZeroBias2017B']={'INPUT':InputInfo(dataSet='/ZeroBias/Run2017B-v1/RAW',label='2017B',events=100000,location='STD', ls=Run2017B)}
309 steps['RunMuOnia2017B']={'INPUT':InputInfo(dataSet='/MuOnia/Run2017B-v1/RAW',label='2017B',events=100000,location='STD', ls=Run2017B)}
310 steps['RunCharmonium2017B']={'INPUT':InputInfo(dataSet='/Charmonium/Run2017B-v1/RAW',label='2017B',events=100000,location='STD', ls=Run2017B)}
311 steps['RunNoBPTX2017B']={'INPUT':InputInfo(dataSet='/NoBPTX/Run2017B-v1/RAW',label='2017B',events=100000,location='STD', ls=Run2017B)}
312 steps['RunHLTPhy2017B_AOD']={'INPUT':InputInfo(dataSet='/HLTPhysics/Run2017B-PromptReco-v1/AOD',label='2017Baod',events=100000,location='STD', ls=Run2017BlowPU)}
313 steps['RunHLTPhy2017B_AODextra']={'INPUT':InputInfo(dataSet='/HLTPhysics/Run2017B-PromptReco-v1/AOD',label='2017Baodex',events=100000,location='STD', ls=Run2017BlowPU)}
314 steps['RunHLTPhy2017B_RAWAOD']={'INPUT':InputInfo(dataSet='/HLTPhysics/Run2017B-PromptReco-v1/AOD',dataSetParent='/HLTPhysics/Run2017B-v1/RAW',label='2017Brawaod',events=100000,location='STD', ls=Run2017B)}
315 
316 #### run2 2017C ####
317 Run2017C={301998: [[1, 150]]}
318 steps['RunHLTPhy2017C']={'INPUT':InputInfo(dataSet='/HLTPhysics/Run2017C-v1/RAW',label='2017C',events=100000,location='STD', ls=Run2017C)}
319 steps['RunDoubleEG2017C']={'INPUT':InputInfo(dataSet='/DoubleEG/Run2017C-v1/RAW',label='2017C',events=100000,location='STD', ls=Run2017C)}
320 steps['RunDoubleMuon2017C']={'INPUT':InputInfo(dataSet='/DoubleMuon/Run2017C-v1/RAW',label='2017C',events=100000,location='STD', ls=Run2017C)}
321 steps['RunJetHT2017C']={'INPUT':InputInfo(dataSet='/JetHT/Run2017C-v1/RAW',label='2017C',events=100000,location='STD', ls=Run2017C)}
322 steps['RunDisplacedJet2017C']={'INPUT':InputInfo(dataSet='/DisplacedJet/Run2017C-v1/RAW',label='2017C',events=100000,location='STD', ls=Run2017C)}
323 steps['RunMET2017C']={'INPUT':InputInfo(dataSet='/MET/Run2017C-v1/RAW',label='2017C',events=100000,location='STD', ls=Run2017C)}
324 steps['RunMuonEG2017C']={'INPUT':InputInfo(dataSet='/MuonEG/Run2017C-v1/RAW',label='2017C',events=100000,location='STD', ls=Run2017C)}
325 steps['RunSingleEl2017C']={'INPUT':InputInfo(dataSet='/SingleElectron/Run2017C-v1/RAW',label='2017C',events=100000,location='STD', ls=Run2017C)}
326 steps['RunSingleMu2017C']={'INPUT':InputInfo(dataSet='/SingleMuon/Run2017C-v1/RAW',label='2017C',events=100000,location='STD', ls=Run2017C)}
327 steps['RunSinglePh2017C']={'INPUT':InputInfo(dataSet='/SinglePhoton/Run2017C-v1/RAW',label='2017C',events=100000,location='STD', ls=Run2017C)}
328 steps['RunZeroBias2017C']={'INPUT':InputInfo(dataSet='/ZeroBias/Run2017C-v1/RAW',label='2017C',events=100000,location='STD', ls=Run2017C)}
329 steps['RunMuOnia2017C']={'INPUT':InputInfo(dataSet='/MuOnia/Run2017C-v1/RAW',label='2017C',events=100000,location='STD', ls=Run2017C)}
330 steps['RunCharmonium2017C']={'INPUT':InputInfo(dataSet='/Charmonium/Run2017C-v1/RAW',label='2017C',events=100000,location='STD', ls=Run2017C)}
331 steps['RunNoBPTX2017C']={'INPUT':InputInfo(dataSet='/NoBPTX/Run2017C-v1/RAW',label='2017C',events=100000,location='STD', ls=Run2017C)}
332 
333 
334 
335 #### run2 2017D ####
336 Run2017D={302663: [[1, 100]]} #AVGPU 36
337 steps['RunHLTPhy2017D']={'INPUT':InputInfo(dataSet='/HLTPhysics/Run2017D-v1/RAW',label='2017D',events=100000,location='STD', ls=Run2017D)}
338 steps['RunDoubleEG2017D']={'INPUT':InputInfo(dataSet='/DoubleEG/Run2017D-v1/RAW',label='2017D',events=100000,location='STD', ls=Run2017D)}
339 steps['RunDoubleMuon2017D']={'INPUT':InputInfo(dataSet='/DoubleMuon/Run2017D-v1/RAW',label='2017D',events=100000,location='STD', ls=Run2017D)}
340 steps['RunJetHT2017D']={'INPUT':InputInfo(dataSet='/JetHT/Run2017D-v1/RAW',label='2017D',events=100000,location='STD', ls=Run2017D)}
341 steps['RunDisplacedJet2017D']={'INPUT':InputInfo(dataSet='/DisplacedJet/Run2017D-v1/RAW',label='2017D',events=100000,location='STD', ls=Run2017D)}
342 steps['RunMET2017D']={'INPUT':InputInfo(dataSet='/MET/Run2017D-v1/RAW',label='2017D',events=100000,location='STD', ls=Run2017D)}
343 steps['RunMuonEG2017D']={'INPUT':InputInfo(dataSet='/MuonEG/Run2017D-v1/RAW',label='2017D',events=100000,location='STD', ls=Run2017D)}
344 steps['RunSingleEl2017D']={'INPUT':InputInfo(dataSet='/SingleElectron/Run2017D-v1/RAW',label='2017D',events=100000,location='STD', ls=Run2017D)}
345 steps['RunSingleMu2017D']={'INPUT':InputInfo(dataSet='/SingleMuon/Run2017D-v1/RAW',label='2017D',events=100000,location='STD', ls=Run2017D)}
346 steps['RunSinglePh2017D']={'INPUT':InputInfo(dataSet='/SinglePhoton/Run2017D-v1/RAW',label='2017D',events=100000,location='STD', ls=Run2017D)}
347 steps['RunZeroBias2017D']={'INPUT':InputInfo(dataSet='/ZeroBias/Run2017D-v1/RAW',label='2017D',events=100000,location='STD', ls=Run2017D)}
348 steps['RunMuOnia2017D']={'INPUT':InputInfo(dataSet='/MuOnia/Run2017D-v1/RAW',label='2017D',events=100000,location='STD', ls=Run2017D)}
349 steps['RunCharmonium2017D']={'INPUT':InputInfo(dataSet='/Charmonium/Run2017D-v1/RAW',label='2017D',events=100000,location='STD', ls=Run2017D)}
350 steps['RunNoBPTX2017D']={'INPUT':InputInfo(dataSet='/NoBPTX/Run2017D-v1/RAW',label='2017D',events=100000,location='STD', ls=Run2017D)}
351 
352 
353 #### run2 2017E ####
354 Run2017E={304125: [[1, 100]]} #AVGPU 46
355 steps['RunHLTPhy2017E']={'INPUT':InputInfo(dataSet='/HLTPhysics/Run2017E-v1/RAW',label='2017E',events=100000,location='STD', ls=Run2017E)}
356 steps['RunDoubleEG2017E']={'INPUT':InputInfo(dataSet='/DoubleEG/Run2017E-v1/RAW',label='2017E',events=100000,location='STD', ls=Run2017E)}
357 steps['RunDoubleMuon2017E']={'INPUT':InputInfo(dataSet='/DoubleMuon/Run2017E-v1/RAW',label='2017E',events=100000,location='STD', ls=Run2017E)}
358 steps['RunJetHT2017E']={'INPUT':InputInfo(dataSet='/JetHT/Run2017E-v1/RAW',label='2017E',events=100000,location='STD', ls=Run2017E)}
359 steps['RunDisplacedJet2017E']={'INPUT':InputInfo(dataSet='/DisplacedJet/Run2017E-v1/RAW',label='2017E',events=100000,location='STD', ls=Run2017E)}
360 steps['RunMET2017E']={'INPUT':InputInfo(dataSet='/MET/Run2017E-v1/RAW',label='2017E',events=100000,location='STD', ls=Run2017E)}
361 steps['RunMuonEG2017E']={'INPUT':InputInfo(dataSet='/MuonEG/Run2017E-v1/RAW',label='2017E',events=100000,location='STD', ls=Run2017E)}
362 steps['RunSingleEl2017E']={'INPUT':InputInfo(dataSet='/SingleElectron/Run2017E-v1/RAW',label='2017E',events=100000,location='STD', ls=Run2017E)}
363 steps['RunSingleMu2017E']={'INPUT':InputInfo(dataSet='/SingleMuon/Run2017E-v1/RAW',label='2017E',events=100000,location='STD', ls=Run2017E)}
364 steps['RunSinglePh2017E']={'INPUT':InputInfo(dataSet='/SinglePhoton/Run2017E-v1/RAW',label='2017E',events=100000,location='STD', ls=Run2017E)}
365 steps['RunZeroBias2017E']={'INPUT':InputInfo(dataSet='/ZeroBias/Run2017E-v1/RAW',label='2017E',events=100000,location='STD', ls=Run2017E)}
366 steps['RunMuOnia2017E']={'INPUT':InputInfo(dataSet='/MuOnia/Run2017E-v1/RAW',label='2017E',events=100000,location='STD', ls=Run2017E)}
367 steps['RunCharmonium2017E']={'INPUT':InputInfo(dataSet='/Charmonium/Run2017E-v1/RAW',label='2017E',events=100000,location='STD', ls=Run2017E)}
368 steps['RunNoBPTX2017E']={'INPUT':InputInfo(dataSet='/NoBPTX/Run2017E-v1/RAW',label='2017E',events=100000,location='STD', ls=Run2017E)}
369 
370 #### run2 2017F ####
371 Run2017F={305064: [[2, 101]]} #AVGPU 51
372 steps['RunHLTPhy2017F']={'INPUT':InputInfo(dataSet='/HLTPhysics/Run2017F-v1/RAW',label='2017F',events=100000,location='STD', ls=Run2017F)}
373 steps['RunDoubleEG2017F']={'INPUT':InputInfo(dataSet='/DoubleEG/Run2017F-v1/RAW',label='2017F',events=100000,location='STD', ls=Run2017F)}
374 steps['RunDoubleMuon2017F']={'INPUT':InputInfo(dataSet='/DoubleMuon/Run2017F-v1/RAW',label='2017F',events=100000,location='STD', ls=Run2017F)}
375 steps['RunJetHT2017F']={'INPUT':InputInfo(dataSet='/JetHT/Run2017F-v1/RAW',label='2017F',events=100000,location='STD', ls=Run2017F)}
376 steps['RunDisplacedJet2017F']={'INPUT':InputInfo(dataSet='/DisplacedJet/Run2017F-v1/RAW',label='2017F',events=100000,location='STD', ls=Run2017F)}
377 steps['RunMET2017F']={'INPUT':InputInfo(dataSet='/MET/Run2017F-v1/RAW',label='2017F',events=100000,location='STD', ls=Run2017F)}
378 steps['RunMuonEG2017F']={'INPUT':InputInfo(dataSet='/MuonEG/Run2017F-v1/RAW',label='2017F',events=100000,location='STD', ls=Run2017F)}
379 steps['RunSingleEl2017F']={'INPUT':InputInfo(dataSet='/SingleElectron/Run2017F-v1/RAW',label='2017F',events=100000,location='STD', ls=Run2017F)}
380 steps['RunSingleMu2017F']={'INPUT':InputInfo(dataSet='/SingleMuon/Run2017F-v1/RAW',label='2017F',events=100000,location='STD', ls=Run2017F)}
381 steps['RunSinglePh2017F']={'INPUT':InputInfo(dataSet='/SinglePhoton/Run2017F-v1/RAW',label='2017F',events=100000,location='STD', ls=Run2017F)}
382 steps['RunZeroBias2017F']={'INPUT':InputInfo(dataSet='/ZeroBias/Run2017F-v1/RAW',label='2017F',events=100000,location='STD', ls=Run2017F)}
383 steps['RunMuOnia2017F']={'INPUT':InputInfo(dataSet='/MuOnia/Run2017F-v1/RAW',label='2017F',events=100000,location='STD', ls=Run2017F)}
384 steps['RunCharmonium2017F']={'INPUT':InputInfo(dataSet='/Charmonium/Run2017F-v1/RAW',label='2017F',events=100000,location='STD', ls=Run2017F)}
385 steps['RunNoBPTX2017F']={'INPUT':InputInfo(dataSet='/NoBPTX/Run2017F-v1/RAW',label='2017F',events=100000,location='STD', ls=Run2017F)}
386 steps['RunExpressPhy2017F']={'INPUT':InputInfo(dataSet='/ExpressPhysics/Run2017F-Express-v1/FEVT',label='2017F',events=100000,location='STD', ls=Run2017F)}
387 
388 steps['RunJetHT2017F_reminiaod']={'INPUT':InputInfo(dataSet='/JetHT/Run2017F-17Nov2017-v1/AOD',label='2017Frmaod',events=100000,location='STD', ls=Run2017F)}
389 steps['RunJetHT2017F_reminiaodUL']={'INPUT':InputInfo(dataSet='/JetHT/Run2017F-09Aug2019_UL2017-v1/AOD',label='2017FrmaodUL',events=100000,location='STD', ls=Run2017F)}
390 
391 steps['RunJetHT2017C_94Xv2NanoAODINPUT']={'INPUT':InputInfo(dataSet='/JetHT/CMSSW_9_4_5_cand1-94X_dataRun2_relval_v11_RelVal_rmaod_jetHT2017C-v1/MINIAOD',label='2017Cnano',events=100000,location='STD', ls=Run2017C)}
392 
393 #### run2 2018A ####
394 Run2018A={315489: [[1, 100]]} #AVGPU 35
395 steps['RunHLTPhy2018A']={'INPUT':InputInfo(dataSet='/HLTPhysics/Run2018A-v1/RAW',label='2018A',events=100000,location='STD', ls=Run2018A)}
396 steps['RunEGamma2018A']={'INPUT':InputInfo(dataSet='/EGamma/Run2018A-v1/RAW',label='2018A',events=100000,location='STD', ls=Run2018A)}
397 steps['RunDoubleMuon2018A']={'INPUT':InputInfo(dataSet='/DoubleMuon/Run2018A-v1/RAW',label='2018A',events=100000,location='STD', ls=Run2018A)}
398 steps['RunJetHT2018A']={'INPUT':InputInfo(dataSet='/JetHT/Run2018A-v1/RAW',label='2018A',events=100000,location='STD', ls=Run2018A)}
399 steps['RunMET2018A']={'INPUT':InputInfo(dataSet='/MET/Run2018A-v1/RAW',label='2018A',events=100000,location='STD', ls=Run2018A)}
400 steps['RunMuonEG2018A']={'INPUT':InputInfo(dataSet='/MuonEG/Run2018A-v1/RAW',label='2018A',events=100000,location='STD', ls=Run2018A)}
401 steps['RunSingleMu2018A']={'INPUT':InputInfo(dataSet='/SingleMuon/Run2018A-v1/RAW',label='2018A',events=100000,location='STD', ls=Run2018A)}
402 steps['RunZeroBias2018A']={'INPUT':InputInfo(dataSet='/ZeroBias/Run2018A-v1/RAW',label='2018A',events=100000,location='STD', ls=Run2018A)}
403 steps['RunMuOnia2018A']={'INPUT':InputInfo(dataSet='/MuOnia/Run2018A-v1/RAW',label='2018A',events=100000,location='STD', ls=Run2018A)}
404 steps['RunNoBPTX2018A']={'INPUT':InputInfo(dataSet='/NoBPTX/Run2018A-v1/RAW',label='2018A',events=100000,location='STD', ls=Run2018A)}
405 steps['RunDisplacedJet2018A']={'INPUT':InputInfo(dataSet='/DisplacedJet/Run2018A-v1/RAW',label='2018A',events=100000,location='STD', ls=Run2018A)}
406 steps['RunCharmonium2018A']={'INPUT':InputInfo(dataSet='/Charmonium/Run2018A-v1/RAW',label='2018A',events=100000,location='STD', ls=Run2018A)}
407 #### for 90 m beta* Totem run relvals ####
408 RunhBStarTk={314890: [[500, 700]]} #for central tracking system
409 steps['RunZeroBias_hBStarTk']={'INPUT':InputInfo(dataSet='/ZeroBias/Commissioning2018-v1/RAW',label='zbhBSTk',events=100000,location='STD', ls=RunhBStarTk)}
410 RunhBStarRP={314276: [[1, 200]]} #for Roman Pot system
411 steps['RunZeroBias1_hBStarRP']={'INPUT':InputInfo(dataSet='/ZeroBias1/Commissioning2018-v1/RAW',label='zbhBSRP',events=100000,location='STD', ls=RunhBStarRP)}
412 
413 #### 2018 NANOAOD from prompt reco 2018 MINIAOD ####
414 steps['RunJetHT2018A_nano']={'INPUT':InputInfo(dataSet='/JetHT/Run2018A-PromptReco-v1/MINIAOD',label='2018Anano',events=100000,location='STD', ls=Run2018A)}
415 
416 #### 2018 NANOAOD from prompt reco 2018 MINIAOD - UL ####
417 steps['RunJetHT2018A_nanoUL']={'INPUT':InputInfo(dataSet='/JetHT/Run2018A-12Nov2019_UL2018-v2/MINIAOD',label='2018Anano',events=100000,location='STD', ls=Run2018A)}
418 
419 #### run2 2018B ####
420 Run2018B={317435: [[1, 100]]}
421 Run2018B_parkingBPH={317661: [[301, 400]]}
422 steps['RunHLTPhy2018B']={'INPUT':InputInfo(dataSet='/HLTPhysics/Run2018B-v1/RAW',label='2018B',events=100000,location='STD', ls=Run2018B)}
423 steps['RunEGamma2018B']={'INPUT':InputInfo(dataSet='/EGamma/Run2018B-v1/RAW',label='2018B',events=100000,location='STD', ls=Run2018B)}
424 steps['RunDoubleMuon2018B']={'INPUT':InputInfo(dataSet='/DoubleMuon/Run2018B-v1/RAW',label='2018B',events=100000,location='STD', ls=Run2018B)}
425 steps['RunJetHT2018B']={'INPUT':InputInfo(dataSet='/JetHT/Run2018B-v1/RAW',label='2018B',events=100000,location='STD', ls=Run2018B)}
426 steps['RunMET2018B']={'INPUT':InputInfo(dataSet='/MET/Run2018B-v1/RAW',label='2018B',events=100000,location='STD', ls=Run2018B)}
427 steps['RunMuonEG2018B']={'INPUT':InputInfo(dataSet='/MuonEG/Run2018B-v1/RAW',label='2018B',events=100000,location='STD', ls=Run2018B)}
428 steps['RunSingleMu2018B']={'INPUT':InputInfo(dataSet='/SingleMuon/Run2018B-v1/RAW',label='2018B',events=100000,location='STD', ls=Run2018B)}
429 steps['RunZeroBias2018B']={'INPUT':InputInfo(dataSet='/ZeroBias/Run2018B-v1/RAW',label='2018B',events=100000,location='STD', ls=Run2018B)}
430 steps['RunMuOnia2018B']={'INPUT':InputInfo(dataSet='/MuOnia/Run2018B-v1/RAW',label='2018B',events=100000,location='STD', ls=Run2018B)}
431 steps['RunNoBPTX2018B']={'INPUT':InputInfo(dataSet='/NoBPTX/Run2018B-v1/RAW',label='2018B',events=100000,location='STD', ls=Run2018B)}
432 steps['RunDisplacedJet2018B']={'INPUT':InputInfo(dataSet='/DisplacedJet/Run2018B-v1/RAW',label='2018B',events=100000,location='STD', ls=Run2018B)}
433 steps['RunCharmonium2018B']={'INPUT':InputInfo(dataSet='/Charmonium/Run2018B-v1/RAW',label='2018B',events=100000,location='STD', ls=Run2018B)}
434 steps['RunParkingBPH2018B']={'INPUT':InputInfo(dataSet='/ParkingBPH5/Run2018B-v1/RAW',label='2018B',events=100000,location='STD', ls=Run2018B_parkingBPH)}
435 steps['RunJetHT2018BHEfail']={'INPUT':InputInfo(dataSet='/JetHT/Run2018B-v1/RAW',label='HEfail',events=100000,location='STD', ls=Run2018B)}
436 steps['RunJetHT2018BBadHcalMitig']={'INPUT':InputInfo(dataSet='/JetHT/Run2018B-v1/RAW',label='BadHcalMitig',events=100000,location='STD', ls=Run2018B)}
437 
438 #### run2 2018C ####
439 Run2018C={319450: [[1, 100]]}
440 steps['RunHLTPhy2018C']={'INPUT':InputInfo(dataSet='/HLTPhysics/Run2018C-v1/RAW',label='2018C',events=100000,location='STD', ls=Run2018C)}
441 steps['RunEGamma2018C']={'INPUT':InputInfo(dataSet='/EGamma/Run2018C-v1/RAW',label='2018C',events=100000,location='STD', ls=Run2018C)}
442 steps['RunDoubleMuon2018C']={'INPUT':InputInfo(dataSet='/DoubleMuon/Run2018C-v1/RAW',label='2018C',events=100000,location='STD', ls=Run2018C)}
443 steps['RunJetHT2018C']={'INPUT':InputInfo(dataSet='/JetHT/Run2018C-v1/RAW',label='2018C',events=100000,location='STD', ls=Run2018C)}
444 steps['RunMET2018C']={'INPUT':InputInfo(dataSet='/MET/Run2018C-v1/RAW',label='2018C',events=100000,location='STD', ls=Run2018C)}
445 steps['RunMuonEG2018C']={'INPUT':InputInfo(dataSet='/MuonEG/Run2018C-v1/RAW',label='2018C',events=100000,location='STD', ls=Run2018C)}
446 steps['RunSingleMu2018C']={'INPUT':InputInfo(dataSet='/SingleMuon/Run2018C-v1/RAW',label='2018C',events=100000,location='STD', ls=Run2018C)}
447 steps['RunZeroBias2018C']={'INPUT':InputInfo(dataSet='/ZeroBias/Run2018C-v1/RAW',label='2018C',events=100000,location='STD', ls=Run2018C)}
448 steps['RunMuOnia2018C']={'INPUT':InputInfo(dataSet='/MuOnia/Run2018C-v1/RAW',label='2018C',events=100000,location='STD', ls=Run2018C)}
449 steps['RunNoBPTX2018C']={'INPUT':InputInfo(dataSet='/NoBPTX/Run2018C-v1/RAW',label='2018C',events=100000,location='STD', ls=Run2018C)}
450 steps['RunDisplacedJet2018C']={'INPUT':InputInfo(dataSet='/DisplacedJet/Run2018C-v1/RAW',label='2018C',events=100000,location='STD', ls=Run2018C)}
451 steps['RunCharmonium2018C']={'INPUT':InputInfo(dataSet='/Charmonium/Run2018C-v1/RAW',label='2018C',events=100000,location='STD', ls=Run2018C)}
452 
453 steps['RunJetHT2018C_nanoULremini']={'INPUT':InputInfo(dataSet='/JetHT/Run2018C-UL2018_MiniAODv2-v1/MINIAOD',label='2018C',events=100000,location='STD', ls=Run2018C)}
454 
455 #### run2 2018D ####
456 Run2018D={320822: [[1, 100]]}
457 steps['RunHLTPhy2018D']={'INPUT':InputInfo(dataSet='/HLTPhysics/Run2018D-v1/RAW',label='2018D',events=100000,location='STD', ls=Run2018D)}
458 steps['RunEGamma2018D']={'INPUT':InputInfo(dataSet='/EGamma/Run2018D-v1/RAW',label='2018D',events=100000,location='STD', ls=Run2018D)}
459 steps['RunDoubleMuon2018D']={'INPUT':InputInfo(dataSet='/DoubleMuon/Run2018D-v1/RAW',label='2018D',events=100000,location='STD', ls=Run2018D)}
460 steps['RunJetHT2018D']={'INPUT':InputInfo(dataSet='/JetHT/Run2018D-v1/RAW',label='2018D',events=100000,location='STD', ls=Run2018D)}
461 steps['RunMET2018D']={'INPUT':InputInfo(dataSet='/MET/Run2018D-v1/RAW',label='2018D',events=100000,location='STD', ls=Run2018D)}
462 steps['RunMuonEG2018D']={'INPUT':InputInfo(dataSet='/MuonEG/Run2018D-v1/RAW',label='2018D',events=100000,location='STD', ls=Run2018D)}
463 steps['RunSingleMu2018D']={'INPUT':InputInfo(dataSet='/SingleMuon/Run2018D-v1/RAW',label='2018D',events=100000,location='STD', ls=Run2018D)}
464 steps['RunZeroBias2018D']={'INPUT':InputInfo(dataSet='/ZeroBias/Run2018D-v1/RAW',label='2018D',events=100000,location='STD', ls=Run2018D)}
465 steps['RunMuOnia2018D']={'INPUT':InputInfo(dataSet='/MuOnia/Run2018D-v1/RAW',label='2018D',events=100000,location='STD', ls=Run2018D)}
466 steps['RunNoBPTX2018D']={'INPUT':InputInfo(dataSet='/NoBPTX/Run2018D-v1/RAW',label='2018D',events=100000,location='STD', ls=Run2018D)}
467 steps['RunDisplacedJet2018D']={'INPUT':InputInfo(dataSet='/DisplacedJet/Run2018D-v1/RAW',label='2018D',events=100000,location='STD', ls=Run2018D)}
468 steps['RunCharmonium2018D']={'INPUT':InputInfo(dataSet='/Charmonium/Run2018D-v1/RAW',label='2018D',events=100000,location='STD', ls=Run2018D)}
469 # UL AOD
470 steps['RunJetHT2018D_reminiaodUL']={'INPUT':InputInfo(dataSet='/JetHT/Run2018D-12Nov2019_UL2018-v4/AOD',label='2018DrmaodUL',events=100000,location='STD', ls=Run2018D)}
471 
472 # Highstat HLTPhysics
473 Run2015DHS=selectedLS([258712,258713,258714,258741,258742,258745,258749,258750,259626,259637,259683,259685,259686,259721,259809,259810,259818,259820,259821,259822,259862,259890,259891])
474 steps['RunHLTPhy2015DHS']={'INPUT':InputInfo(dataSet='/HLTPhysics/Run2015D-v1/RAW',label='2015DHS',events=100000,location='STD', ls=Run2015DHS)}
475 
476 
477 #### run2 2015 HighLumi High Stat workflows ##
478 # Run2015HLHS, 25ns, run 260627, JetHT: 2.9M, SingleMuon: 5.7M, ZeroBias: 1.6M
479 Run2015HLHS=selectedLS([260627])
480 steps['RunJetHT2015HLHS']={'INPUT':InputInfo(dataSet='/JetHT/Run2015D-v1/RAW',label='2015DHLHS',events=100000,location='STD', ls=Run2015HLHS)}
481 steps['RunZeroBias2015HLHS']={'INPUT':InputInfo(dataSet='/ZeroBias/Run2015D-v1/RAW',label='2015DHLHS',events=100000,location='STD', ls=Run2015HLHS)}
482 steps['RunSingleMu2015HLHS']={'INPUT':InputInfo(dataSet='/SingleMuon/Run2015D-v1/RAW',label='2015DHLHS',events=100000,location='STD', ls=Run2015HLHS)}
483 
484 #### run2 Cosmic ####
485 ##Run 256259 @ 0T 2015C###
486 ##Run 272133 @ 3.8T 2016B###
487 steps['RunCosmics2015C']={'INPUT':InputInfo(dataSet='/Cosmics/Run2015C-v1/RAW',label='2015C',run=[256259],events=100000,location='STD')}
488 steps['RunCosmics2016B']={'INPUT':InputInfo(dataSet='/Cosmics/Run2016B-v1/RAW',label='2016B',run=[272133],events=100000,location='STD')}
489 
490 def gen(fragment,howMuch):
491  global step1Defaults
492  return merge([{'cfg':fragment},howMuch,step1Defaults])
493 
494 def gen2015(fragment,howMuch):
495  global step1Up2015Defaults
496  return merge([{'cfg':fragment},howMuch,step1Up2015Defaults])
497 def gen2017(fragment,howMuch):
498  global step1Up2017Defaults
499  return merge([{'cfg':fragment},howMuch,step1Up2017Defaults])
500 def gen2018(fragment,howMuch):
501  global step1Up2018Defaults
502  return merge([{'cfg':fragment},howMuch,step1Up2018Defaults])
503 def gen2018prod(fragment,howMuch):
504  global step1Up2018ProdDefaults
505  return merge([{'cfg':fragment},howMuch,step1Up2018ProdDefaults])
506 def gen2018hiprod(fragment,howMuch):
507  global step1Up2018HiProdDefaults
508  return merge([{'cfg':fragment},howMuch,step1Up2018HiProdDefaults])
509 
510 ### Production test: 13 TeV equivalents
511 steps['ProdMinBias_13']=gen2015('MinBias_13TeV_pythia8_TuneCUETP8M1_cfi',Kby(9,100))
512 steps['ProdTTbar_13']=gen2015('TTbar_13TeV_TuneCUETP8M1_cfi',Kby(9,100))
513 steps['ProdZEE_13']=gen2015('ZEE_13TeV_TuneCUETP8M1_cfi',Kby(9,100))
514 steps['ProdQCD_Pt_3000_3500_13']=gen2015('QCD_Pt_3000_3500_13TeV_TuneCUETP8M1_cfi',Kby(9,100))
515 
516 
517 ##production 2017
518 steps['ProdTTbar_13UP17']=gen2017('TTbar_13TeV_TuneCUETP8M1_cfi',Kby(9,50))
519 steps['ProdMinBias_13UP17']=gen2017('MinBias_13TeV_pythia8_TuneCUETP8M1_cfi',Kby(9,100))
520 steps['ProdQCD_Pt_3000_3500_13UP17']=gen2017('QCD_Pt_3000_3500_13TeV_TuneCUETP8M1_cfi',Kby(9,100))
521 
522 
523 
524 steps['MinBias']=gen('MinBias_8TeV_pythia8_TuneCUETP8M1_cff',Kby(9,300))
525 steps['QCD_Pt_3000_3500']=gen('QCD_Pt_3000_3500_8TeV_TuneCUETP8M1_cfi',Kby(9,25))
526 steps['QCD_Pt_600_800']=gen('QCD_Pt_600_800_8TeV_TuneCUETP8M1_cfi',Kby(9,50))
527 steps['QCD_Pt_80_120']=gen('QCD_Pt_80_120_8TeV_TuneCUETP8M1_cfi',Kby(9,100))
528 steps['MinBias_13']=gen2015('MinBias_13TeV_pythia8_TuneCUETP8M1_cfi',Kby(100,300)) # set HS to provide adequate pool for PU
529 steps['QCD_Pt_3000_3500_13']=gen2015('QCD_Pt_3000_3500_13TeV_TuneCUETP8M1_cfi',Kby(9,25))
530 steps['QCD_Pt_600_800_13']=gen2015('QCD_Pt_600_800_13TeV_TuneCUETP8M1_cfi',Kby(9,50))
531 steps['QCD_Pt_80_120_13']=gen2015('QCD_Pt_80_120_13TeV_TuneCUETP8M1_cfi',Kby(9,100))
532 
533 steps['QCD_Pt_30_80_BCtoE_8TeV']=gen('QCD_Pt_30_80_BCtoE_8TeV_TuneCUETP8M1_cfi',Kby(9000,100))
534 steps['QCD_Pt_80_170_BCtoE_8TeV']=gen('QCD_Pt_80_170_BCtoE_8TeV_TuneCUETP8M1_cfi',Kby(9000,100))
535 steps['SingleElectronPt10']=gen('SingleElectronPt10_pythia8_cfi',Kby(9,3000))
536 steps['SingleElectronPt35']=gen('SingleElectronPt35_pythia8_cfi',Kby(9,500))
537 steps['SingleElectronPt1000']=gen('SingleElectronPt1000_pythia8_cfi',Kby(9,50))
538 steps['SingleElectronFlatPt1To100']=gen('SingleElectronFlatPt1To100_pythia8_cfi',Mby(2,100))
539 steps['SingleGammaPt10']=gen('SingleGammaPt10_pythia8_cfi',Kby(9,3000))
540 steps['SingleGammaPt35']=gen('SingleGammaPt35_pythia8_cfi',Kby(9,500))
541 steps['SingleMuPt1']=gen('SingleMuPt1_pythia8_cfi',Kby(25,1000))
542 steps['SingleMuPt10']=gen('SingleMuPt10_pythia8_cfi',Kby(25,500))
543 steps['SingleMuPt100']=gen('SingleMuPt100_pythia8_cfi',Kby(9,500))
544 steps['SingleMuPt1000']=gen('SingleMuPt1000_pythia8_cfi',Kby(9,500))
545 steps['SingleElectronPt10_UP15']=gen2015('SingleElectronPt10_pythia8_cfi',Kby(9,3000))
546 steps['SingleElectronPt35_UP15']=gen2015('SingleElectronPt35_pythia8_cfi',Kby(9,500))
547 steps['SingleElectronPt1000_UP15']=gen2015('SingleElectronPt1000_pythia8_cfi',Kby(9,50))
548 steps['SingleElectronFlatPt1To100_UP15']=gen2015('SingleElectronFlatPt1To100_pythia8_cfi',Mby(2,100))
549 steps['SingleGammaPt10_UP15']=gen2015('SingleGammaPt10_pythia8_cfi',Kby(9,3000))
550 steps['SingleGammaPt35_UP15']=gen2015('SingleGammaPt35_pythia8_cfi',Kby(9,500))
551 steps['SingleMuPt1_UP15']=gen2015('SingleMuPt1_pythia8_cfi',Kby(25,1000))
552 steps['SingleMuPt10_UP15']=gen2015('SingleMuPt10_pythia8_cfi',Kby(25,500))
553 steps['SingleMuPt100_UP15']=gen2015('SingleMuPt100_pythia8_cfi',Kby(9,500))
554 steps['SingleMuPt1000_UP15']=gen2015('SingleMuPt1000_pythia8_cfi',Kby(9,500))
555 steps['NuGun_UP15']=gen2015('SingleNuE10_cfi.py',Kby(9,50))
556 steps['TTbar']=gen('TTbar_8TeV_TuneCUETP8M1_cfi',Kby(9,100))
557 steps['TTbarLepton']=gen('TTbarLepton_8TeV_TuneCUETP8M1_cfi',Kby(9,100))
558 steps['ZEE']=gen('ZEE_8TeV_TuneCUETP8M1_cfi',Kby(9,100))
559 steps['Wjet_Pt_80_120']=gen('Wjet_Pt_80_120_8TeV_TuneCUETP8M1_cfi',Kby(9,100))
560 steps['Wjet_Pt_3000_3500']=gen('Wjet_Pt_3000_3500_8TeV_TuneCUETP8M1_cfi',Kby(9,50))
561 steps['LM1_sfts']=gen('LM1_sfts_8TeV_cfi',Kby(9,100))
562 steps['QCD_FlatPt_15_3000']=gen('QCDForPF_8TeV_TuneCUETP8M1_cfi',Kby(5,100))
563 steps['QCD_FlatPt_15_3000HS']=gen('QCDForPF_8TeV_TuneCUETP8M1_cfi',Kby(50,100))
564 steps['TTbar_13']=gen2015('TTbar_13TeV_TuneCUETP8M1_cfi',Kby(9,50))
565 steps['TTbarLepton_13']=gen2015('TTbarLepton_13TeV_TuneCUETP8M1_cfi',Kby(9,100))
566 steps['ZEE_13']=gen2015('ZEE_13TeV_TuneCUETP8M1_cfi',Kby(9,50))
567 steps['ZEE_13_DBLMINIAOD']=gen2015('ZEE_13TeV_TuneCUETP8M1_cfi',Kby(9,50))
568 steps['Wjet_Pt_80_120_13']=gen2015('Wjet_Pt_80_120_13TeV_TuneCUETP8M1_cfi',Kby(9,100))
569 steps['Wjet_Pt_3000_3500_13']=gen2015('Wjet_Pt_3000_3500_13TeV_TuneCUETP8M1_cfi',Kby(9,50))
570 steps['SMS-T1tttt_mGl-1500_mLSP-100_13']=gen2015('SMS-T1tttt_mGl-1500_mLSP-100_13TeV-pythia8_cfi',Kby(9,50))
571 steps['QCD_FlatPt_15_3000_13']=gen2015('QCDForPF_13TeV_TuneCUETP8M1_cfi',Kby(9,100))
572 steps['QCD_FlatPt_15_3000HS_13']=gen2015('QCDForPF_13TeV_TuneCUETP8M1_cfi',Kby(50,100))
573 
574 steps['ZpMM_2250_8TeV']=gen('ZpMM_2250_8TeV_TuneCUETP8M1_cfi',Kby(9,100))
575 steps['ZpEE_2250_8TeV']=gen('ZpEE_2250_8TeV_TuneCUETP8M1_cfi',Kby(9,100))
576 steps['ZpTT_1500_8TeV']=gen('ZpTT_1500_8TeV_TuneCUETP8M1_cfi',Kby(9,100))
577 steps['ZpMM_2250_13']=gen2015('ZpMM_2250_13TeV_TuneCUETP8M1_cfi',Kby(9,100))
578 steps['ZpEE_2250_13']=gen2015('ZpEE_2250_13TeV_TuneCUETP8M1_cfi',Kby(9,100))
579 steps['ZpTT_1500_13']=gen2015('ZpTT_1500_13TeV_TuneCUETP8M1_cfi',Kby(9,100))
580 steps['HSCPstop_M_200_13']=gen2015('HSCPstop_M_200_TuneCUETP8M1_13TeV_pythia8_cff',Kby(9,100))
581 steps['RSGravitonToGaGa_13']=gen2015('RSGravitonToGammaGamma_kMpl01_M_3000_TuneCUETP8M1_13TeV_pythia8_cfi',Kby(9,100))
582 steps['WpToENu_M-2000_13']=gen2015('WprimeToENu_M-2000_TuneCUETP8M1_13TeV-pythia8_cff',Kby(9,100))
583 steps['DisplacedSUSY_stopToBottom_M_300_1000mm_13']=gen2015('DisplacedSUSY_stopToBottom_M_300_1000mm_TuneCUETP8M1_13TeV_pythia8_cff',Kby(9,100))
584 
585 
586 ### 2017 wf: only the ones for premixing (for the moment)
587 steps['NuGun_UP17']=gen2017('SingleNuE10_cfi.py',Kby(9,50))
588 steps['TTbar_13UP17']=gen2017('TTbar_13TeV_TuneCUETP8M1_cfi',Kby(9,50))
589 steps['ProdZEE_13UP17']=gen2017('ZEE_13TeV_TuneCUETP8M1_cfi',Kby(9,50))
590 steps['ZEE_13UP17']=gen2017('ZEE_13TeV_TuneCUETP8M1_cfi',Kby(9,50))
591 steps['ZMM_13UP17']=gen2017('ZMM_13TeV_TuneCUETP8M1_cfi',Kby(18,100))
592 steps['ZTT_13UP17']=gen2017('ZTT_All_hadronic_13TeV_TuneCUETP8M1_cfi',Kby(9,80))
593 steps['H125GGgluonfusion_13UP17']=gen2017('H125GGgluonfusion_13TeV_TuneCUETP8M1_cfi',Kby(9,50))
594 steps['QQH1352T_13UP17']=gen2017('QQH1352T_13TeV_TuneCUETP8M1_cfi',Kby(9,50))
595 steps['SMS-T1tttt_mGl-1500_mLSP-100_13UP17']=gen2017('SMS-T1tttt_mGl-1500_mLSP-100_13TeV-pythia8_cfi',Kby(9,50))
596 
597 ### 2018 wf: only the ones for premixing (for the moment)
598 steps['NuGun_UP18']=gen2018('SingleNuE10_cfi.py',Kby(9,50))
599 steps['ProdTTbar_13UP18']=gen2018prod('TTbar_13TeV_TuneCUETP8M1_cfi',Kby(9,50))
600 steps['TTbar_13UP18']=gen2018('TTbar_13TeV_TuneCUETP8M1_cfi',Kby(9,50))
601 steps['ProdZEE_13UP18']=gen2018prod('ZEE_13TeV_TuneCUETP8M1_cfi',Kby(9,50))
602 steps['ZEE_13UP18']=gen2018('ZEE_13TeV_TuneCUETP8M1_cfi',Kby(9,50))
603 steps['ProdZMM_13UP18']=gen2018prod('ZMM_13TeV_TuneCUETP8M1_cfi',Kby(18,100))
604 steps['ZMM_13UP18']=gen2018('ZMM_13TeV_TuneCUETP8M1_cfi',Kby(18,100))
605 steps['ZTT_13UP18']=gen2018('ZTT_All_hadronic_13TeV_TuneCUETP8M1_cfi',Kby(9,80))
606 steps['H125GGgluonfusion_13UP18']=gen2018('H125GGgluonfusion_13TeV_TuneCUETP8M1_cfi',Kby(9,50))
607 steps['QQH1352T_13UP18']=gen2018('QQH1352T_13TeV_TuneCUETP8M1_cfi',Kby(9,50))
608 steps['SMS-T1tttt_mGl-1500_mLSP-100_13UP18']=gen2018('SMS-T1tttt_mGl-1500_mLSP-100_13TeV-pythia8_cfi',Kby(9,50))
609 
610 
611 # 13TeV High Stats samples
612 steps['ZMM_13_HS']=gen2015('ZMM_13TeV_TuneCUETP8M1_cfi',Kby(209,100))
613 steps['TTbar_13_HS']=gen2015('TTbar_13TeV_TuneCUETP8M1_cfi',Kby(100,50))
614 
615 
616 def identitySim(wf):
617  return merge([{'--restoreRND':'SIM','--process':'SIM2', '--inputCommands':'"keep *","drop *TagInfo*_*_*_*"' },wf])
618 
619 steps['SingleMuPt10_UP15_ID']=identitySim(steps['SingleMuPt10_UP15'])
620 steps['TTbar_13_ID']=identitySim(steps['TTbar_13'])
621 
622 baseDataSetRelease=[
623  'CMSSW_9_2_4-91X_mcRun1_realistic_v2-v1', # 0 run1 samples; note TTbar GENSIM has v2 (see TTbarINPUT below)
624  'CMSSW_10_3_0_pre5-103X_upgrade2018_realistic_v7-v1', # 1 GEN-SIM for HI RunII, 2018
625  'CMSSW_6_2_0_pre8-PRE_ST62_V8_FastSim-v1', # 2 for fastsim id test
626 # '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)
627  # THIS ABOVE IS NOT USED, AT THE MOMENT
628  'CMSSW_10_5_0_pre1-103X_mcRun2_asymptotic_v3-v1', # 3 - GEN-SIM input for 13 TeV 2016 workfows
629  'CMSSW_7_3_0_pre1-PRE_LS172_V15_FastSim-v1', # 4 - fast sim GEN-SIM-DIGI-RAW-HLTDEBUG for id tests
630  'CMSSW_10_4_0_pre1-PU25ns_103X_mcRun2_asymptotic_v1-v2', # 5 - fullSim PU 25ns UP15 premix library
631  'CMSSW_10_4_0_pre1-PU50ns_103X_mcRun2_startup_v1-v1', # 6 - fullSim PU 50ns UP15 premix library
632  'CMSSW_10_4_0_pre1-103X_mcRun2_asymptotic_v1_FastSim-v1', # 7 - fastSim MinBias for mixing UP16
633  'CMSSW_10_4_0_pre1-PU25ns_103X_mcRun2_asymptotic_v1_FastSim-v2',# 8 - fastSim premix library UP16
634  'CMSSW_10_5_0_pre1-103X_upgrade2018_realistic_v8-v1', # 9 - Run2 HI GEN-SIM for mixing
635  'CMSSW_7_6_0-76X_mcRun2_asymptotic_v11-v1', # 10 - 13 TeV High Stats GEN-SIM
636  'CMSSW_7_6_0_pre7-76X_mcRun2_asymptotic_v9_realBS-v1', # 11 - 13 TeV High Stats MiniBias for mixing GEN-SIM
637  'CMSSW_8_1_0_pre9_Geant4102-81X_mcRun2cosmics_startup_peak_v2-v1', # 12 - GEN-SIM input for 1307 cosmics wf from 810_p2
638  'CMSSW_10_0_0_pre2-100X_mc2017_realistic_v1-v1', # 13 - GENSIM input for 2017 fullSim premix workflows
639  'CMSSW_10_4_0_pre1-PU25ns_103X_mc2017_realistic_v1-v1', # 14 - fullSim PU 25ns UP17 premix library
640  'CMSSW_10_5_0_pre1-103X_mc2017_realistic_v2_FastSim-v1', # 15 - fastSim MinBias for mixing UP17
641  'CMSSW_10_5_0_pre1-PU25ns_103X_mc2017_realistic_v2_FastSim-v1',# 16 - fastSim premix library UP17
642  'CMSSW_10_5_0_pre1-PU25ns_103X_upgrade2018_realistic_v8-v1', # 17 - fullSim PU 25ns UP18 premix library
643  'CMSSW_10_5_0_pre1-103X_upgrade2018_realistic_v8-v1', # 18 - GENSIM input for 2018 fullSim premix workflows
644  'CMSSW_10_5_0_pre1-103X_upgrade2018_realistic_v8_FastSim-v1', # 19 - fastSim MinBias for mixing UP18
645  'CMSSW_10_5_0_pre1-PU25ns_103X_upgrade2018_realistic_v8_FastSim-v1',# 20 - fastSim premix library UP18
646  'CMSSW_10_4_0-103X_mc2017_realistic_v2-v1', # 21 - GEN-SIM inputs for LHE-GEN-SIM 2017 workflows
647  'CMSSW_10_4_0-103X_upgrade2018_realistic_v8-v1', # 22 - GEN-SIM inputs for LHE-GEN-SIM 2018 workflows
648  ]
649 
650 # note: INPUT commands to be added once GEN-SIM w/ 13TeV+PostLS1Geo will be available
651 steps['MinBiasINPUT']={'INPUT':InputInfo(dataSet='/RelValMinBias/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')} #was [0]
652 steps['QCD_Pt_3000_3500INPUT']={'INPUT':InputInfo(dataSet='/RelValQCD_Pt_3000_3500/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
653 steps['QCD_Pt_600_800INPUT']={'INPUT':InputInfo(dataSet='/RelValQCD_Pt_600_800/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
654 steps['QCD_Pt_80_120INPUT']={'INPUT':InputInfo(dataSet='/RelValQCD_Pt_80_120/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
655 steps['SingleElectronPt10INPUT']={'INPUT':InputInfo(dataSet='/RelValSingleElectronPt10/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
656 steps['SingleElectronPt1000INPUT']={'INPUT':InputInfo(dataSet='/RelValSingleElectronPt1000/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
657 steps['SingleElectronPt35INPUT']={'INPUT':InputInfo(dataSet='/RelValSingleElectronPt35/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
658 steps['SingleGammaPt10INPUT']={'INPUT':InputInfo(dataSet='/RelValSingleGammaPt10/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
659 steps['SingleGammaPt35INPUT']={'INPUT':InputInfo(dataSet='/RelValSingleGammaPt35/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
660 steps['SingleMuPt1INPUT']={'INPUT':InputInfo(dataSet='/RelValSingleMuPt1/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
661 steps['SingleMuPt10INPUT']={'INPUT':InputInfo(dataSet='/RelValSingleMuPt10/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
662 steps['SingleMuPt10_UP15IDINPUT']={'INPUT':InputInfo(dataSet='/RelValSingleMuPt10_UP15/%s/GEN-SIM-DIGI-RAW-HLTDEBUG'%(baseDataSetRelease[3],),location='STD',split=1)}
663 steps['SingleMuPt10_UP15FSIDINPUT']={'INPUT':InputInfo(dataSet='/RelValSingleMuPt10/%s/GEN-SIM-DIGI-RECO'%(baseDataSetRelease[4],),location='STD',split=1)}
664 steps['SingleMuPt100INPUT']={'INPUT':InputInfo(dataSet='/RelValSingleMuPt100/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
665 steps['SingleMuPt1000INPUT']={'INPUT':InputInfo(dataSet='/RelValSingleMuPt1000/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
666 steps['TTbarINPUT']={'INPUT':InputInfo(dataSet='/RelValTTbar/%s/GEN-SIM'%((baseDataSetRelease[0].rstrip('1')+'2'),),location='STD')}
667 steps['TTbar_13IDINPUT']={'INPUT':InputInfo(dataSet='/RelValTTbar_13/%s/GEN-SIM-DIGI-RAW-HLTDEBUG'%(baseDataSetRelease[3],),location='STD',split=1)}
668 steps['TTbar_13FSIDINPUT']={'INPUT':InputInfo(dataSet='/RelValTTbar_13/%s/GEN-SIM-DIGI-RECO'%(baseDataSetRelease[4],),location='STD',split=1)}
669 steps['TTbarLeptonINPUT']={'INPUT':InputInfo(dataSet='/RelValTTbarLepton/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
670 steps['OldTTbarINPUT']={'INPUT':InputInfo(dataSet='/RelValProdTTbar/CMSSW_5_0_0_pre6-START50_V5-v1/GEN-SIM-RECO',location='STD')}
671 steps['OldGenSimINPUT']={'INPUT':InputInfo(dataSet='/RelValTTbar/CMSSW_4_4_2-START44_V7-v1/GEN-SIM-DIGI-RAW-HLTDEBUG',location='STD')}
672 steps['Wjet_Pt_80_120INPUT']={'INPUT':InputInfo(dataSet='/RelValWjet_Pt_80_120/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
673 steps['Wjet_Pt_3000_3500INPUT']={'INPUT':InputInfo(dataSet='/RelValWjet_Pt_3000_3500/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
674 steps['LM1_sftsINPUT']={'INPUT':InputInfo(dataSet='/RelValLM1_sfts/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
675 steps['QCD_FlatPt_15_3000INPUT']={'INPUT':InputInfo(dataSet='/RelValQCD_FlatPt_15_3000/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
676 
677 steps['QCD_FlatPt_15_3000HSINPUT']={'INPUT':InputInfo(dataSet='/RelValQCD_FlatPt_15_3000HS/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
678 steps['TTbar__DIGIPU1INPUT']={'INPUT':InputInfo(dataSet='/RelValTTbar/CMSSW_5_2_2-PU_START52_V4_special_120326-v1/GEN-SIM-DIGI-RAW-HLTDEBUG',location='STD')}
679 # INPUT command for reminiAOD wf on 80X relval input
680 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')}
681 # INPUT command for reminiAOD wf on 94X relval input
682 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')}
683 # INPUT command for reminiAOD wfs on UL-like relval inputs
684 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')}
685 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')}
686 # FIXME: replace with AODSIM (more appropriate)
687 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')}
688 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')}
689 
690 #input for a NANOAOD from MINIAOD workflow
691 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')}
692 steps['TTbar_13_94Xv1NanoAODINPUT']={'INPUT':InputInfo(dataSet='/RelValTTbar_13/CMSSW_9_4_0_pre3-PU25ns_94X_mc2017_realistic_v4-v1/MINIAODSIM',label='nanoaod94X',location='STD')}
693 steps['TTbar_13_94Xv2NanoAODINPUT']={'INPUT':InputInfo(dataSet='/RelValTTbar_13/CMSSW_9_4_5_cand1-94X_mc2017_realistic_v14_PU_RelVal_rmaod-v1/MINIAODSIM',label='nanoaod94Xv2',location='STD')}
694 
695 steps['TTbar_13_106Xv1NanoAODINPUT']={'INPUT':InputInfo(dataSet='/RelValTTbar_13/CMSSW_10_6_14-PU25ns_106X_mc2017_realistic_v7-v1/MINIAODSIM',label='nanoaod106X',location='STD')}
696 
697 # 13 TeV recycle GEN-SIM input
698 steps['MinBias_13INPUT']={'INPUT':InputInfo(dataSet='/RelValMinBias_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
699 steps['QCD_Pt_3000_3500_13INPUT']={'INPUT':InputInfo(dataSet='/RelValQCD_Pt_3000_3500_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
700 steps['QCD_Pt_600_800_13INPUT']={'INPUT':InputInfo(dataSet='/RelValQCD_Pt_600_800_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
701 steps['QCD_Pt_80_120_13INPUT']={'INPUT':InputInfo(dataSet='/RelValQCD_Pt_80_120_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
702 steps['QCD_Pt_80_120_13_HIINPUT']={'INPUT':InputInfo(dataSet='/RelValQCD_Pt_80_120_13_HI/%s/GEN-SIM'%(baseDataSetRelease[1],),location='STD')}
703 steps['TTbar_13INPUT']={'INPUT':InputInfo(dataSet='/RelValTTbar_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
704 steps['TTbarLepton_13INPUT']={'INPUT':InputInfo(dataSet='/RelValTTbarLepton_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
705 steps['ZEE_13INPUT']={'INPUT':InputInfo(dataSet='/RelValZEE_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
706 #steps['ZEE_13_DBLMINIAODINPUT']={'INPUT':InputInfo(dataSet='/RelValZEE_13_DBLMINIAOD/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
707 steps['Wjet_Pt_80_120_13INPUT']={'INPUT':InputInfo(dataSet='/RelValWjet_Pt_80_120_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
708 steps['Wjet_Pt_3000_3500_13INPUT']={'INPUT':InputInfo(dataSet='/RelValWjet_Pt_3000_3500_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
709 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')}
710 steps['QCD_FlatPt_15_3000_13INPUT']={'INPUT':InputInfo(dataSet='/RelValQCD_FlatPt_15_3000_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
711 steps['QCD_FlatPt_15_3000HS_13INPUT']={'INPUT':InputInfo(dataSet='/RelValQCD_FlatPt_15_3000HS_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
712 steps['ZpMM_2250_13INPUT']={'INPUT':InputInfo(dataSet='/RelValZpMM_2250_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
713 steps['ZpEE_2250_13INPUT']={'INPUT':InputInfo(dataSet='/RelValZpEE_2250_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
714 steps['ZpTT_1500_13INPUT']={'INPUT':InputInfo(dataSet='/RelValZpTT_1500_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
715 steps['MinBiasHS_13INPUT']={'INPUT':InputInfo(dataSet='/RelValMinBiasHS_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
716 steps['Higgs200ChargedTaus_13INPUT']={'INPUT':InputInfo(dataSet='/RelValHiggs200ChargedTaus_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
717 
718 steps['Upsilon1SToMuMu_13INPUT']={'INPUT':InputInfo(dataSet='/RelValUpsilon1SToMuMu_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
719 steps['JpsiMuMu_Pt-8INPUT']={'INPUT':InputInfo(dataSet='/RelValJpsiMuMu_Pt-8/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
720 # new BPH relvals produced for the first time in 810_pre9
721 steps['BsToMuMu_13INPUT']={'INPUT':InputInfo(dataSet='/RelValBsToMuMu_13/CMSSW_8_1_0_pre9-81X_mcRun2_asymptotic_v2-v1/GEN-SIM',location='STD')}
722 steps['BdToMuMu_13INPUT']={'INPUT':InputInfo(dataSet='/RelValBdToMuMu_13/CMSSW_8_1_0_pre9-81X_mcRun2_asymptotic_v2-v1/GEN-SIM',location='STD')}
723 steps['BuToJpsiK_13INPUT']={'INPUT':InputInfo(dataSet='/RelValBuToJpsiK_13/CMSSW_8_1_0_pre9-81X_mcRun2_asymptotic_v2-v1/GEN-SIM',location='STD')}
724 steps['BsToJpsiPhi_13INPUT']={'INPUT':InputInfo(dataSet='/RelValBsToJpsiPhi_13/CMSSW_8_1_0_pre9-81X_mcRun2_asymptotic_v2-v1/GEN-SIM',location='STD')}
725 ###
726 steps['PhiToMuMu_13INPUT']={'INPUT':InputInfo(dataSet='/RelValPhiToMuMu_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
727 steps['EtaBToJpsiJpsi_13INPUT']={'INPUT':InputInfo(dataSet='/RelValEtaBToJpsiJpsi_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
728 steps['BuMixing_13INPUT']={'INPUT':InputInfo(dataSet='/RelValBuMixing_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
729 
730 
731 steps['WE_13INPUT']={'INPUT':InputInfo(dataSet='/RelValWE_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
732 steps['WM_13INPUT']={'INPUT':InputInfo(dataSet='/RelValWM_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
733 steps['WpM_13INPUT']={'INPUT':InputInfo(dataSet='/RelValWpM_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
734 steps['ZMM_13INPUT']={'INPUT':InputInfo(dataSet='/RelValZMM_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
735 steps['ZEEMM_13_HIINPUT']={'INPUT':InputInfo(dataSet='/RelValZEEMM_13_HI/%s/GEN-SIM'%(baseDataSetRelease[1],),location='STD')}
736 steps['ZpMM_13INPUT']={'INPUT':InputInfo(dataSet='/RelValZpMM_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
737 steps['ZTT_13INPUT']={'INPUT':InputInfo(dataSet='/RelValZTT_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
738 steps['H125GGgluonfusion_13INPUT']={'INPUT':InputInfo(dataSet='/RelValH125GGgluonfusion_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
739 steps['PhotonJets_Pt_10_13INPUT']={'INPUT':InputInfo(dataSet='/RelValPhotonJets_Pt_10_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
740 steps['PhotonJets_Pt_10_13_HIINPUT']={'INPUT':InputInfo(dataSet='/RelValPhotonJets_Pt_10_13_HI/%s/GEN-SIM'%(baseDataSetRelease[1],),location='STD')}
741 steps['QQH1352T_13INPUT']={'INPUT':InputInfo(dataSet='/RelValQQH1352T_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
742 steps['ADDMonoJet_d3MD3_13INPUT']={'INPUT':InputInfo(dataSet='/RelValADDMonoJet_d3MD3_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
743 steps['RSKKGluon_m3000GeV_13INPUT']={'INPUT':InputInfo(dataSet='/RelValRSKKGluon_m3000GeV_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
744 steps['PhiToMuMu_13']=gen2015('PYTHIA8_PhiToMuMu_TuneCUETP8M1_13TeV_cff',Kby(100,1100))
745 steps['EtaBToJpsiJpsi_13']=gen2015('EtaBToJpsiJpsi_forSTEAM_TuneCUEP8M1_13TeV_cfi',Kby(9,100))
746 steps['BuMixing_13']=gen2015('BuMixing_BMuonFilter_forSTEAM_13TeV_TuneCUETP8M1_cfi',Kby(900,10000))
747 
748 steps['Cosmics_UP15INPUT']={'INPUT':InputInfo(dataSet='/RelValCosmics_UP15/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
749 steps['CosmicsSPLoose_UP15INPUT']={'INPUT':InputInfo(dataSet='/RelValCosmicsSPLoose_UP15/%s/GEN-SIM'%(baseDataSetRelease[12],),location='STD')}
750 steps['BeamHalo_13INPUT']={'INPUT':InputInfo(dataSet='/RelValBeamHalo_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
751 steps['HSCPstop_M_200_13INPUT']={'INPUT':InputInfo(dataSet='/RelValHSCPstop_M_200_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
752 steps['RSGravitonToGaGa_13INPUT']={'INPUT':InputInfo(dataSet='/RelValRSGravitonToGaGa_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
753 steps['WpToENu_M-2000_13INPUT']={'INPUT':InputInfo(dataSet='/RelValWpToENu_M-2000_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
754 steps['DisplacedSUSY_stopToBottom_M_300_1000mm_13INPUT']={'INPUT':InputInfo(dataSet='/RelValDisplacedSUSY_stopToBottom_M_300_1000mm_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
755 
756 # particle guns with postLS1 geometry recycle GEN-SIM input
757 steps['SingleElectronPt10_UP15INPUT']={'INPUT':InputInfo(dataSet='/RelValSingleElectronPt10_UP15/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
758 steps['SingleElectronPt35_UP15INPUT']={'INPUT':InputInfo(dataSet='/RelValSingleElectronPt35_UP15/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
759 steps['SingleElectronPt1000_UP15INPUT']={'INPUT':InputInfo(dataSet='/RelValSingleElectronPt1000_UP15/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
760 steps['SingleElectronFlatPt1To100_UP15INPUT']={'INPUT':InputInfo(dataSet='/RelValSingleElectronFlatPt1To100_UP15/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
761 steps['SingleGammaPt10_UP15INPUT']={'INPUT':InputInfo(dataSet='/RelValSingleGammaPt10_UP15/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
762 steps['SingleGammaPt35_UP15INPUT']={'INPUT':InputInfo(dataSet='/RelValSingleGammaPt35_UP15/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
763 steps['SingleMuPt1_UP15INPUT']={'INPUT':InputInfo(dataSet='/RelValSingleMuPt1_UP15/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
764 steps['SingleMuPt10_UP15INPUT']={'INPUT':InputInfo(dataSet='/RelValSingleMuPt10_UP15/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
765 steps['SingleMuPt100_UP15INPUT']={'INPUT':InputInfo(dataSet='/RelValSingleMuPt100_UP15/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
766 steps['SingleMuPt1000_UP15INPUT']={'INPUT':InputInfo(dataSet='/RelValSingleMuPt1000_UP15/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
767 steps['NuGun_UP15INPUT']={'INPUT':InputInfo(dataSet='/RelValNuGun_UP15/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
768 
769 
770 # INPUT commands for 2017 wf
771 steps['TTbar_13UP17INPUT']={'INPUT':InputInfo(dataSet='/RelValTTbar_13/%s/GEN-SIM'%(baseDataSetRelease[13],),location='STD')}
772 steps['ZEE_13UP17INPUT']={'INPUT':InputInfo(dataSet='/RelValZEE_13/%s/GEN-SIM'%(baseDataSetRelease[13],),location='STD')}
773 steps['ZMM_13UP17INPUT']={'INPUT':InputInfo(dataSet='/RelValZMM_13/%s/GEN-SIM'%(baseDataSetRelease[13],),location='STD')}
774 steps['ZTT_13UP17INPUT']={'INPUT':InputInfo(dataSet='/RelValZTT_13/%s/GEN-SIM'%(baseDataSetRelease[13],),location='STD')}
775 steps['H125GGgluonfusion_13UP17INPUT']={'INPUT':InputInfo(dataSet='/RelValH125GGgluonfusion_13/%s/GEN-SIM'%(baseDataSetRelease[13],),location='STD')}
776 steps['QQH1352T_13UP17INPUT']={'INPUT':InputInfo(dataSet='/RelValQQH1352T_13/%s/GEN-SIM'%(baseDataSetRelease[13],),location='STD')}
777 steps['NuGun_UP17INPUT']={'INPUT':InputInfo(dataSet='/RelValNuGun/%s/GEN-SIM'%(baseDataSetRelease[13],),location='STD')}
778 steps['SMS-T1tttt_mGl-1500_mLSP-100_13UP17INPUT']={'INPUT':InputInfo(dataSet='/RelValSMS-T1tttt_mGl-1500_mLSP-100_13/%s/GEN-SIM'%(baseDataSetRelease[13],),location='STD')}
779 
780 
781 # INPUT commands for 2018 wf
782 steps['TTbar_13UP18INPUT']={'INPUT':InputInfo(dataSet='/RelValTTbar_13/%s/GEN-SIM'%(baseDataSetRelease[18],),location='STD')}
783 steps['TTbar_13UP18HEfailINPUT']={'INPUT':InputInfo(dataSet='/RelValTTbar_13/%s/GEN-SIM'%(baseDataSetRelease[18],),location='STD')}
784 steps['TTbar_13UP18BadHcalMitigINPUT']={'INPUT':InputInfo(dataSet='/RelValTTbar_13/%s/GEN-SIM'%(baseDataSetRelease[18],),label='Mitig',location='STD')}
785 steps['ZEE_13UP18INPUT']={'INPUT':InputInfo(dataSet='/RelValZEE_13/%s/GEN-SIM'%(baseDataSetRelease[18],),location='STD')}
786 steps['ZMM_13UP18INPUT']={'INPUT':InputInfo(dataSet='/RelValZMM_13/%s/GEN-SIM'%(baseDataSetRelease[18],),location='STD')}
787 steps['ZTT_13UP18INPUT']={'INPUT':InputInfo(dataSet='/RelValZTT_13/%s/GEN-SIM'%(baseDataSetRelease[18],),location='STD')}
788 steps['H125GGgluonfusion_13UP18INPUT']={'INPUT':InputInfo(dataSet='/RelValH125GGgluonfusion_13/%s/GEN-SIM'%(baseDataSetRelease[18],),location='STD')}
789 steps['QQH1352T_13UP18INPUT']={'INPUT':InputInfo(dataSet='/RelValQQH1352T_13/%s/GEN-SIM'%(baseDataSetRelease[18],),location='STD')}
790 steps['NuGun_UP18INPUT']={'INPUT':InputInfo(dataSet='/RelValNuGun/%s/GEN-SIM'%(baseDataSetRelease[18],),location='STD')}
791 steps['SMS-T1tttt_mGl-1500_mLSP-100_13UP18INPUT']={'INPUT':InputInfo(dataSet='/RelValSMS-T1tttt_mGl-1500_mLSP-100_13/%s/GEN-SIM'%(baseDataSetRelease[18],),location='STD')}
792 
793 
794 #input for fast sim workflows to be added - TODO
795 
796 #input for 13 TeV High Stats samples
797 steps['ZMM_13_HSINPUT']={'INPUT':InputInfo(dataSet='/RelValZMM_13_HS/%s/GEN-SIM'%(baseDataSetRelease[10],),location='STD')}
798 steps['TTbar_13_HSINPUT']={'INPUT':InputInfo(dataSet='/RelValTTbar_13_HS/%s/GEN-SIM'%(baseDataSetRelease[10],),location='STD')}
799 
800 
801 ## high stat step1
802 ecalHcal={
803  '-s':'GEN,SIM,DIGI,DIGI2RAW,RAW2DIGI,L1Reco,RECO,EI',
804  '--datatier':'GEN-SIM-DIGI-RAW-RECO',
805  #'--geometry':'ECALHCAL',
806  '--eventcontent':'FEVTDEBUG',
807  '--customise':'Validation/Configuration/ECALHCAL.customise,SimGeneral/MixingModule/fullMixCustomize_cff.setCrossingFrameOn',
808  '--beamspot':'NoSmear'}
809 
810 steps['SingleElectronE120EHCAL']=merge([{'cfg':'SingleElectronE120EHCAL_pythia8_cfi'},ecalHcal,Kby(25,250),step1Defaults])
811 steps['SinglePiE50HCAL']=merge([{'cfg':'SinglePiE50HCAL_pythia8_cfi'},ecalHcal,Kby(25,250),step1Defaults])
812 
813 steps['MinBiasHS']=gen('MinBias_8TeV_pythia8_TuneCUETP8M1_cff',Kby(25,300))
814 steps['InclusiveppMuX']=gen('InclusiveppMuX_8TeV_TuneCUETP8M1_cfi',Mby(11,45000))
815 steps['SingleElectronFlatPt5To100']=gen('SingleElectronFlatPt5To100_pythia8_cfi',Kby(25,250))
816 steps['SinglePiPt1']=gen('SinglePiPt1_pythia8_cfi',Kby(25,250))
817 steps['SingleMuPt1HS']=gen('SingleMuPt1_pythia8_cfi',Kby(25,1000))
818 steps['ZPrime5000Dijet']=gen('ZPrime5000JJ_8TeV_TuneCUETP8M1_cfi',Kby(25,100))
819 steps['SinglePi0E10']=gen('SinglePi0E10_pythia8_cfi',Kby(25,100))
820 steps['SinglePiPt10']=gen('SinglePiPt10_pythia8_cfi',Kby(25,250))
821 steps['SingleGammaFlatPt10To100']=gen('SingleGammaFlatPt10To100_pythia8_cfi',Kby(25,250))
822 steps['SingleTauPt50Pythia']=gen('SingleTaupt_50_pythia8_cfi',Kby(25,100))
823 steps['SinglePiPt100']=gen('SinglePiPt100_pythia8_cfi',Kby(25,250))
824 
825 
826 def genS(fragment,howMuch):
827  global step1Defaults,stCond
828  return merge([{'cfg':fragment},stCond,howMuch,step1Defaults])
829 
830 steps['Higgs200ChargedTaus']=genS('H200ChargedTaus_Tauola_8TeV_cfi',Kby(9,100))
831 steps['JpsiMM']=genS('JpsiMM_8TeV_TuneCUETP8M1_cfi',Kby(66,1000))
832 steps['WE']=genS('WE_8TeV_TuneCUETP8M1_cfi',Kby(9,100))
833 steps['WM']=genS('WM_8TeV_TuneCUETP8M1_cfi',Kby(9,200))
834 steps['WpM']=genS('WpM_8TeV_TuneCUETP8M1_cfi',Kby(9,200))
835 steps['ZMM']=genS('ZMM_8TeV_TuneCUETP8M1_cfi',Kby(18,300))
836 steps['ZpMM']=genS('ZpMM_8TeV_TuneCUETP8M1_cfi',Kby(9,200))
837 steps['Higgs200ChargedTaus_13']=gen2015('H200ChargedTaus_Tauola_13TeV_cfi',Kby(9,100))
838 steps['Upsilon1SToMuMu_13']=gen2015('Upsilon1SToMuMu_forSTEAM_13TeV_TuneCUETP8M1_cfi',Kby(17,190))
839 steps['BsToMuMu_13']=gen2015('BsToMuMu_13TeV_SoftQCDnonD_TuneCUEP8M1_cfi.py',Kby(21000,150000))
840 steps['JpsiMuMu_Pt-8']=gen2015('JpsiMuMu_Pt-8_forSTEAM_13TeV_TuneCUETP8M1_cfi',Kby(3100,100000))
841 steps['BdToMuMu_13']=gen2015('BdToMuMu_13TeV_SoftQCDnonD_TuneCUEP8M1_cfi',Kby(6000,60000))
842 steps['BuToJpsiK_13']=gen2015('BuToJpsiK_13TeV_SoftQCDnonD_TuneCUEP8M1_cfi',Kby(16000,160000))
843 steps['BsToJpsiPhi_13']=gen2015('BsToJpsiPhi_13TeV_SoftQCDnonD_TuneCUEP8M1_cfi',Kby(78000,400000))
844 
845 steps['WE_13']=gen2015('WE_13TeV_TuneCUETP8M1_cfi',Kby(9,100))
846 steps['WM_13']=gen2015('WM_13TeV_TuneCUETP8M1_cfi',Kby(9,200))
847 steps['WpM_13']=gen2015('WpM_13TeV_TuneCUETP8M1_cfi',Kby(9,200))
848 steps['ZMM_13']=gen2015('ZMM_13TeV_TuneCUETP8M1_cfi',Kby(18,100))
849 steps['ZEEMM_13']=gen2015('ZEEMM_13TeV_TuneCUETP8M1_cfi',Kby(18,300))
850 steps['ZpMM_13']=gen2015('ZpMM_13TeV_TuneCUETP8M1_cfi',Kby(9,200))
851 
852 steps['ZTT']=genS('ZTT_All_hadronic_8TeV_TuneCUETP8M1_cfi',Kby(9,150))
853 steps['H130GGgluonfusion']=genS('H130GGgluonfusion_8TeV_TuneCUETP8M1_cfi',Kby(9,100))
854 steps['PhotonJets_Pt_10']=genS('PhotonJet_Pt_10_8TeV_TuneCUETP8M1_cfi',Kby(9,150))
855 steps['QQH1352T']=genS('QQH1352T_8TeV_TuneCUETP8M1_cfi',Kby(9,100))
856 steps['ZTT_13']=gen2015('ZTT_All_hadronic_13TeV_TuneCUETP8M1_cfi',Kby(9,80))
857 steps['H125GGgluonfusion_13']=gen2015('H125GGgluonfusion_13TeV_TuneCUETP8M1_cfi',Kby(9,50))
858 steps['PhotonJets_Pt_10_13']=gen2015('PhotonJet_Pt_10_13TeV_TuneCUETP8M1_cfi',Kby(9,150))
859 steps['QQH1352T_13']=gen2015('QQH1352T_13TeV_TuneCUETP8M1_cfi',Kby(9,50))
860 #steps['ZmumuJets_Pt_20_300']=gen('ZmumuJets_Pt_20_300_GEN_8TeV_TuneCUETP8M1_cfg',Kby(25,100))
861 steps['ADDMonoJet_d3MD3']=genS('ADDMonoJet_8TeV_d3MD3_TuneCUETP8M1_cfi',Kby(9,100))
862 steps['ADDMonoJet_d3MD3_13']=gen2015('ADDMonoJet_13TeV_d3MD3_TuneCUETP8M1_cfi',Kby(9,100))
863 steps['RSKKGluon_m3000GeV_13']=gen2015('RSKKGluon_m3000GeV_13TeV_TuneCUETP8M1_cff',Kby(9,100))
864 
865 steps['MinBias2INPUT']={'INPUT':InputInfo(dataSet='/RelValMinBias/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
866 steps['Higgs200ChargedTausINPUT']={'INPUT':InputInfo(dataSet='/RelValHiggs200ChargedTaus/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
867 steps['QCD_Pt_3000_3500_2INPUT']={'INPUT':InputInfo(dataSet='/RelValQCD_Pt_3000_3500/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
868 steps['QCD_Pt_80_120_2INPUT']={'INPUT':InputInfo(dataSet='/RelValQCD_Pt_80_120/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
869 steps['JpsiMMINPUT']={'INPUT':InputInfo(dataSet='/RelValJpsiMM/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
870 steps['TTbar2INPUT']={'INPUT':InputInfo(dataSet='/RelValTTbar/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
871 steps['WEINPUT']={'INPUT':InputInfo(dataSet='/RelValWE/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
872 steps['WMINPUT']={'INPUT':InputInfo(dataSet='/RelValWM/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
873 steps['ZEEINPUT']={'INPUT':InputInfo(dataSet='/RelValZEE/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
874 steps['ZMMINPUT']={'INPUT':InputInfo(dataSet='/RelValZMM/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
875 steps['ZTTINPUT']={'INPUT':InputInfo(dataSet='/RelValZTT/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
876 steps['H130GGgluonfusionINPUT']={'INPUT':InputInfo(dataSet='/RelValH130GGgluonfusion/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
877 steps['PhotonJets_Pt_10INPUT']={'INPUT':InputInfo(dataSet='/RelValPhotonJets_Pt_10/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
878 #steps['QQH1352TINPUT']={'INPUT':InputInfo(dataSet='/RelValQQH1352T/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')} #temporary comment out
879 steps['ADDMonoJet_d3MD3INPUT']={'INPUT':InputInfo(dataSet='/RelValADDMonoJet_d3MD3/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
880 steps['WpMINPUT']={'INPUT':InputInfo(dataSet='/RelValWpM/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
881 steps['ZpMMINPUT']={'INPUT':InputInfo(dataSet='/RelValZpMM/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
882 steps['ZpMM_2250_8TeVINPUT']={'INPUT':InputInfo(dataSet='/RelValZpMM_2250_8TeV/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
883 steps['ZpEE_2250_8TeVINPUT']={'INPUT':InputInfo(dataSet='/RelValZpEE_2250_8TeV/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
884 steps['ZpTT_1500_8TeVINPUT']={'INPUT':InputInfo(dataSet='/RelValZpTT_1500_8TeV/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
885 
886 steps['Cosmics']=merge([{'cfg':'UndergroundCosmicMu_cfi.py','-n':'500','--scenario':'cosmics'},Kby(666,100000),step1Defaults])
887 steps['CosmicsSPLoose']=merge([{'cfg':'UndergroundCosmicSPLooseMu_cfi.py','-n':'2000','--scenario':'cosmics'},Kby(5000,100000),step1Defaults])
888 steps['CosmicsSPLoose_UP15']=merge([{'cfg':'UndergroundCosmicSPLooseMu_cfi.py','-n':'2000','--conditions':'auto:run2_mc_cosmics','--scenario':'cosmics'},Kby(5000,500000),step1Up2015Defaults])
889 steps['Cosmics_UP16']=merge([{'cfg':'UndergroundCosmicMu_cfi.py','-n':'500','--conditions':'auto:run2_mc_cosmics','--scenario':'cosmics','--era':'Run2_2016'},Kby(666,100000),step1Defaults])
890 steps['Cosmics_UP17']=merge([{'cfg':'UndergroundCosmicMu_cfi.py','-n':'500','--conditions':'auto:phase1_2017_cosmics','--scenario':'cosmics','--era':'Run2_2017'},Kby(666,100000),step1Defaults])
891 steps['Cosmics_UP18']=merge([{'cfg':'UndergroundCosmicMu_cfi.py','-n':'500','--conditions':'auto:phase1_2018_cosmics','--scenario':'cosmics','--era':'Run2_2018'},Kby(666,100000),step1Defaults])
892 steps['Cosmics_UP21']=merge([{'cfg':'UndergroundCosmicMu_cfi.py','-n':'500','--conditions':'auto:phase1_2021_cosmics','--scenario':'cosmics','--era':'Run3'},Kby(666,100000),step1Defaults])
893 steps['CosmicsSPLoose_UP17']=merge([{'cfg':'UndergroundCosmicSPLooseMu_cfi.py','-n':'2000','--conditions':'auto:phase1_2017_cosmics','--scenario':'cosmics','--era':'Run2_2017'},Kby(5000,500000),step1Up2015Defaults])
894 steps['CosmicsSPLoose_UP18']=merge([{'cfg':'UndergroundCosmicSPLooseMu_cfi.py','-n':'2000','--conditions':'auto:phase1_2018_cosmics','--scenario':'cosmics','--era':'Run2_2018'},Kby(5000,500000),step1Up2015Defaults])
895 steps['BeamHalo']=merge([{'cfg':'BeamHalo_cfi.py','--scenario':'cosmics'},Kby(9,100),step1Defaults])
896 steps['BeamHalo_13']=merge([{'cfg':'BeamHalo_13TeV_cfi.py','--scenario':'cosmics'},Kby(9,100),step1Up2015Defaults])
897 steps['BeamHalo_UP18']=merge([{'cfg':'BeamHalo_13TeV_cfi.py','-n':'500','--conditions':'auto:phase1_2018_cosmics','--scenario':'cosmics','--era':'Run2_2018','--beamspot':'Realistic25ns13TeVEarly2018Collision'},Kby(666,100000),step1Defaults])
898 steps['BeamHalo_UP21']=merge([{'cfg':'BeamHalo_13TeV_cfi.py','-n':'500','--conditions':'auto:phase1_2021_cosmics','--scenario':'cosmics','--era':'Run3','--beamspot':'Realistic25ns13TeVEarly2017Collision'},Kby(666,100000),step1Defaults])
899 
900 # GF re-introduce INPUT command once GEN-SIM will be available
901 # steps['CosmicsINPUT']={'INPUT':InputInfo(dataSet='/RelValCosmics/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
902 steps['BeamHaloINPUT']={'INPUT':InputInfo(dataSet='/RelValBeamHalo/%s/GEN-SIM'%(baseDataSetRelease[0],),location='STD')}
903 
904 steps['QCD_Pt_50_80']=genS('QCD_Pt_50_80_8TeV_TuneCUETP8M1_cfi',Kby(25,100))
905 steps['QCD_Pt_15_20']=genS('QCD_Pt_15_20_8TeV_TuneCUETP8M1_cfi',Kby(25,100))
906 steps['ZTTHS']=merge([Kby(25,100),steps['ZTT']])
907 steps['QQH120Inv']=genS('QQH120Inv_8TeV_TuneCUETP8M1_cfi',Kby(25,100))
908 steps['TTbar2HS']=merge([Kby(25,100),steps['TTbar']])
909 steps['JpsiMM_Pt_20_inf']=genS('JpsiMM_Pt_20_inf_8TeV_TuneCUETP8M1_cfi',Kby(70,280))
910 steps['QCD_Pt_120_170']=genS('QCD_Pt_120_170_8TeV_TuneCUETP8M1_cfi',Kby(25,100))
911 steps['H165WW2L']=genS('H165WW2L_8TeV_TuneCUETP8M1_cfi',Kby(25,100))
912 steps['UpsMM']=genS('UpsMM_8TeV_TuneCUETP8M1_cfi',Kby(56250,225))
913 steps['RSGrav']=genS('RS750_quarks_and_leptons_8TeV_TuneCUETP8M1_cff',Kby(25,100))
914 steps['QCD_Pt_80_120_2HS']=merge([Kby(25,100),steps['QCD_Pt_80_120']])
915 steps['bJpsiX']=genS('bJpsiX_8TeV_TuneCUETP8M1_cfi',Mby(325,1300000))
916 steps['QCD_Pt_30_50']=genS('QCD_Pt_30_50_8TeV_TuneCUETP8M1_cfi',Kby(25,100))
917 steps['H200ZZ4L']=genS('H200ZZ4L_8TeV_TuneCUETP8M1_cfi',Kby(25,100))
918 steps['LM9p']=genS('LM9p_8TeV_cff',Kby(25,100))
919 steps['QCD_Pt_20_30']=genS('QCD_Pt_20_30_8TeV_TuneCUETP8M1_cfi',Kby(25,100))
920 steps['QCD_Pt_170_230']=genS('QCD_Pt_170_230_8TeV_TuneCUETP8M1_cfi',Kby(25,100))
921 
922 ## pPb tests
923 step1PPbDefaults={'--beamspot':'Realistic8TeVCollision'}
924 steps['AMPT_PPb_5020GeV_MinimumBias']=merge([{'-n':10},step1PPbDefaults,genS('AMPT_PPb_5020GeV_MinimumBias_cfi',Kby(9,100))])
925 
926 ## pPb Run2
927 step1PPbDefaultsUp15={'--beamspot':'RealisticPPbBoost8TeV2016Collision','--conditions':'auto:run2_mc_pa','--eventcontent':'RAWSIM', '--era':'Run2_2016_pA'}
928 steps['EPOS_PPb_8160GeV_MinimumBias']=merge([{'-n':10},step1PPbDefaultsUp15,gen2015('ReggeGribovPartonMC_EposLHC_4080_4080GeV_pPb_cfi',Kby(9,100))])
929 
930 ## heavy ions tests
931 U2000by1={'--relval': '2000,1'}
932 U80by1={'--relval': '80,1'}
933 
934 hiAlca2011 = {'--conditions':'auto:run1_mc_hi'}
935 hiAlca2015 = {'--conditions':'auto:run2_mc_hi', '--era':'Run2_HI'}
936 hiAlca2017 = {'--conditions':'auto:phase1_2017_realistic', '--era':'Run2_2017_pp_on_XeXe'}
937 hiAlca2018 = {'--conditions':'auto:phase1_2018_realistic', '--era':'Run2_2018'}
938 hiAlca2018_ppReco = {'--conditions':'auto:phase1_2018_realistic_hi', '--era':'Run2_2018_pp_on_AA'}
939 
940 
941 hiDefaults2011=merge([hiAlca2011,{'--scenario':'HeavyIons','-n':2}])
942 hiDefaults2015=merge([hiAlca2015,{'--scenario':'HeavyIons','-n':2}])
943 hiDefaults2017=merge([hiAlca2017,{'-n':2}])
944 hiDefaults2018=merge([hiAlca2018,{'--scenario':'HeavyIons','-n':2}])
945 hiDefaults2018_ppReco=merge([hiAlca2018_ppReco,{'-n':2}])
946 
947 steps['HydjetQ_B12_5020GeV_2011']=merge([{'-n':1,'--beamspot':'RealisticHI2011Collision'},hiDefaults2011,genS('Hydjet_Quenched_B12_5020GeV_cfi',U2000by1)])
948 steps['HydjetQ_B12_5020GeV_2015']=merge([{'-n':1,'--beamspot':'RealisticHICollisionFixZ2015'},hiDefaults2015,genS('Hydjet_Quenched_B12_5020GeV_cfi',U2000by1)])
949 steps['HydjetQ_MinBias_XeXe_5442GeV_2017']=merge([{'-n':1},hiDefaults2017,gen2017('Hydjet_Quenched_MinBias_XeXe_5442GeV_cfi',U2000by1)])
950 steps['HydjetQ_B12_5020GeV_2018']=merge([{'-n':1},hiDefaults2018,gen2018prod('Hydjet_Quenched_B12_5020GeV_cfi',U2000by1)])
951 steps['HydjetQ_B12_5020GeV_2018_ppReco']=merge([{'-n':1},hiDefaults2018_ppReco,gen2018hiprod('Hydjet_Quenched_B12_5020GeV_cfi',U2000by1)])
952 
953 steps['QCD_Pt_80_120_13_HI']=merge([hiDefaults2018_ppReco,gen2018hiprod('QCD_Pt_80_120_13TeV_TuneCUETP8M1_cfi',Kby(9,150))])
954 steps['PhotonJets_Pt_10_13_HI']=merge([hiDefaults2018_ppReco,gen2018hiprod('PhotonJet_Pt_10_13TeV_TuneCUETP8M1_cfi',Kby(9,150))])
955 steps['ZMM_13_HI']=merge([hiDefaults2018_ppReco,gen2018hiprod('ZMM_13TeV_TuneCUETP8M1_cfi',Kby(18,100))])
956 steps['ZEEMM_13_HI']=merge([hiDefaults2018_ppReco,gen2018hiprod('ZEEMM_13TeV_TuneCUETP8M1_cfi',Kby(18,300))])
957 
958 ## pp reference tests
959 
960 ppRefAlca2017 = {'--conditions':'auto:phase1_2017_realistic', '--era':'Run2_2017_ppRef'}
961 ppRefDefaults2017=merge([ppRefAlca2017,{'-n':2}])
962 
963 steps['QCD_Pt_80_120_13_PPREF']=merge([ppRefDefaults2017,gen2017('QCD_Pt_80_120_13TeV_TuneCUETP8M1_cfi',Kby(9,150))])
964 
965 #### fastsim section ####
966 ##no forseen to do things in two steps GEN-SIM then FASTIM->end: maybe later
967 #step1FastDefaults =merge([{'-s':'GEN,SIM,RECOBEFMIX,DIGI:pdigi_valid,L1,DIGI2RAW,L1Reco,RECO,EI,HLT:@fake,VALIDATION:@standardValidation,DQM:@standardDQM',
968 step1FastDefaults =merge([{'-s':'GEN,SIM,RECOBEFMIX,DIGI:pdigi_valid,L1,DIGI2RAW,L1Reco,RECO,EI,VALIDATION:@standardValidation,DQM:@standardDQM',
969  '--fast':'',
970  '--beamspot' : 'Realistic8TeVCollision',
971  '--eventcontent':'FEVTDEBUGHLT,DQM',
972  '--datatier':'GEN-SIM-DIGI-RECO,DQMIO',
973  '--relval':'27000,3000'},
974  step1Defaults])
975 #step1FastUpg2015Defaults =merge([{'-s':'GEN,SIM,RECOBEFMIX,DIGI:pdigi_valid,L1,DIGI2RAW,L1Reco,RECO,EI,HLT:@relval2016,VALIDATION:@standardValidation,DQM:@standardDQM',
976 step1FastUpg2015Defaults =merge([{'-s':'GEN,SIM,RECOBEFMIX,DIGI:pdigi_valid,L1,DIGI2RAW,L1Reco,RECO,EI,VALIDATION:@standardValidation,DQM:@standardDQM',
977  '--fast':'',
978  '--conditions' :'auto:run2_mc',
979  '--beamspot' : 'Realistic25ns13TeV2016Collision',
980  '--era' :'Run2_2016',
981  '--eventcontent':'FEVTDEBUGHLT,DQM',
982  '--datatier':'GEN-SIM-DIGI-RECO,DQMIO',
983  '--relval':'27000,3000'},
984  step1Defaults])
985 step1FastPUNewMixing =merge([{'-s':'GEN,SIM,RECOBEFMIX',
986  '--eventcontent':'FASTPU',
987  '--datatier':'GEN-SIM-RECO'},
988  step1FastUpg2015Defaults])
989 step1FastUpg2015_trackingOnlyValidation = merge([{'-s':'GEN,SIM,RECOBEFMIX,DIGI:pdigi_valid,L1,DIGI2RAW,RECO,VALIDATION:@trackingOnlyValidation'},
990  step1FastUpg2015Defaults])
991 
992 step1FastUpg2017Defaults =merge([{'-s':'GEN,SIM,RECOBEFMIX,DIGI:pdigi_valid,L1,DIGI2RAW,L1Reco,RECO,EI,VALIDATION:@standardValidation,DQM:@standardDQM',
993  '--fast':'',
994  '--conditions' :'auto:phase1_2017_realistic',
995  '--beamspot' : 'Realistic25ns13TeVEarly2017Collision',
996  '--era' :'Run2_2017_FastSim',
997  '--eventcontent':'FEVTDEBUGHLT,DQM',
998  '--datatier':'GEN-SIM-DIGI-RECO,DQMIO',
999  '--relval':'27000,3000'},
1000  step1Defaults])
1001 step1FastPU17NewMixing =merge([{'-s':'GEN,SIM,RECOBEFMIX',
1002  '--eventcontent':'FASTPU',
1003  '--datatier':'GEN-SIM-RECO'},
1004  step1FastUpg2017Defaults])
1005 step1FastUpg2017_trackingOnlyValidation = merge([{'-s':'GEN,SIM,RECOBEFMIX,DIGI:pdigi_valid,L1,DIGI2RAW,RECO,VALIDATION:@trackingOnlyValidation'},
1006  step1FastUpg2017Defaults])
1007 
1008 step1FastUpg2018Defaults =merge([{'-s':'GEN,SIM,RECOBEFMIX,DIGI:pdigi_valid,L1,DIGI2RAW,L1Reco,RECO,EI,VALIDATION:@standardValidation,DQM:@standardDQM',
1009  '--fast':'',
1010  '--conditions' :'auto:phase1_2018_realistic',
1011  '--beamspot' :'Realistic25ns13TeVEarly2018Collision',
1012  '--era' :'Run2_2018_FastSim',
1013  '--eventcontent':'FEVTDEBUGHLT,DQM',
1014  '--datatier':'GEN-SIM-DIGI-RECO,DQMIO',
1015  '--relval':'27000,3000'},
1016  step1Defaults])
1017 step1FastPU18NewMixing =merge([{'-s':'GEN,SIM,RECOBEFMIX',
1018  '--eventcontent':'FASTPU',
1019  '--datatier':'GEN-SIM-RECO'},
1020  step1FastUpg2018Defaults])
1021 step1FastUpg2018_trackingOnlyValidation = merge([{'-s':'GEN,SIM,RECOBEFMIX,DIGI:pdigi_valid,L1,DIGI2RAW,RECO,VALIDATION:@trackingOnlyValidation'},
1022  step1FastUpg2018Defaults])
1023 
1024 #step1FastDefaults
1025 steps['TTbarFS']=merge([{'cfg':'TTbar_8TeV_TuneCUETP8M1_cfi'},Kby(100,1000),step1FastDefaults])
1026 steps['SingleMuPt1FS']=merge([{'cfg':'SingleMuPt1_pythia8_cfi'},step1FastDefaults])
1027 steps['SingleMuPt10FS']=merge([{'cfg':'SingleMuPt10_pythia8_cfi'},step1FastDefaults])
1028 steps['SingleMuPt100FS']=merge([{'cfg':'SingleMuPt100_pythia8_cfi'},step1FastDefaults])
1029 steps['SinglePiPt1FS']=merge([{'cfg':'SinglePiPt1_pythia8_cfi'},step1FastDefaults])
1030 steps['SinglePiPt10FS']=merge([{'cfg':'SinglePiPt10_pythia8_cfi'},step1FastDefaults])
1031 steps['SinglePiPt100FS']=merge([{'cfg':'SinglePiPt100_pythia8_cfi'},step1FastDefaults])
1032 steps['ZEEFS']=merge([{'cfg':'ZEE_8TeV_TuneCUETP8M1_cfi'},Kby(100,2000),step1FastDefaults])
1033 steps['ZTTFS']=merge([{'cfg':'ZTT_Tauola_OneLepton_OtherHadrons_8TeV_TuneCUETP8M1_cfi'},Kby(100,2000),step1FastDefaults])
1034 steps['QCDFlatPt153000FS']=merge([{'cfg':'QCDForPF_8TeV_TuneCUETP8M1_cfi'},Kby(27,2000),step1FastDefaults])
1035 steps['QCD_Pt_80_120FS']=merge([{'cfg':'QCD_Pt_80_120_8TeV_TuneCUETP8M1_cfi'},Kby(100,500),stCond,step1FastDefaults])
1036 steps['QCD_Pt_3000_3500FS']=merge([{'cfg':'QCD_Pt_3000_3500_8TeV_TuneCUETP8M1_cfi'},Kby(100,500),stCond,step1FastDefaults])
1037 steps['H130GGgluonfusionFS']=merge([{'cfg':'H130GGgluonfusion_8TeV_TuneCUETP8M1_cfi'},step1FastDefaults])
1038 steps['SingleGammaFlatPt10To10FS']=merge([{'cfg':'SingleGammaFlatPt10To100_pythia8_cfi'},Kby(100,500),step1FastDefaults])
1039 
1040 #step1FastUpg2015Defaults
1041 steps['TTbarFS_13']=merge([{'cfg':'TTbar_13TeV_TuneCUETP8M1_cfi'},Kby(100,1000),step1FastUpg2015Defaults])
1042 steps['TTbarFS_13_trackingOnlyValidation']=merge([{'cfg':'TTbar_13TeV_TuneCUETP8M1_cfi'},Kby(100,1000),step1FastUpg2015_trackingOnlyValidation])
1043 steps['SMS-T1tttt_mGl-1500_mLSP-100FS_13']=merge([{'cfg':'SMS-T1tttt_mGl-1500_mLSP-100_13TeV-pythia8_cfi'},Kby(100,1000),step1FastUpg2015Defaults])
1044 steps['NuGunFS_UP15']=merge([{'cfg':'SingleNuE10_cfi'},Kby(100,1000),step1FastUpg2015Defaults])
1045 steps['ZEEFS_13']=merge([{'cfg':'ZEE_13TeV_TuneCUETP8M1_cfi'},Kby(100,2000),step1FastUpg2015Defaults])
1046 steps['ZTTFS_13']=merge([{'cfg':'ZTT_All_hadronic_13TeV_TuneCUETP8M1_cfi'},Kby(100,2000),step1FastUpg2015Defaults])
1047 steps['ZMMFS_13']=merge([{'cfg':'ZMM_13TeV_TuneCUETP8M1_cfi'},Kby(100,2000),step1FastUpg2015Defaults])
1048 steps['QCDFlatPt153000FS_13']=merge([{'cfg':'QCDForPF_13TeV_TuneCUETP8M1_cfi'},Kby(27,2000),step1FastUpg2015Defaults])
1049 steps['QCD_Pt_80_120FS_13']=merge([{'cfg':'QCD_Pt_80_120_13TeV_TuneCUETP8M1_cfi'},Kby(100,500),step1FastUpg2015Defaults])
1050 steps['QCD_Pt_3000_3500FS_13']=merge([{'cfg':'QCD_Pt_3000_3500_13TeV_TuneCUETP8M1_cfi'},Kby(100,500),step1FastUpg2015Defaults])
1051 steps['H125GGgluonfusionFS_13']=merge([{'cfg':'H125GGgluonfusion_13TeV_TuneCUETP8M1_cfi'},step1FastUpg2015Defaults])
1052 steps['SingleMuPt10FS_UP15']=merge([{'cfg':'SingleMuPt10_pythia8_cfi'},step1FastUpg2015Defaults])
1053 steps['SingleMuPt100FS_UP15']=merge([{'cfg':'SingleMuPt100_pythia8_cfi'},step1FastUpg2015Defaults])
1054 
1055 ### FastSim: produce sample of minbias events for PU mixing
1056 steps['MinBiasFS_13_ForMixing']=merge([{'cfg':'MinBias_13TeV_pythia8_TuneCUETP8M1_cfi'},Kby(100,1000),step1FastPUNewMixing])
1057 
1058 #step1FastUpg2017Defaults
1059 steps['TTbarFS_13_UP17']=merge([{'cfg':'TTbar_13TeV_TuneCUETP8M1_cfi'},Kby(100,1000),step1FastUpg2017Defaults])
1060 steps['TTbarFS_13_trackingOnlyValidation_UP17']=merge([{'cfg':'TTbar_13TeV_TuneCUETP8M1_cfi'},Kby(100,1000),step1FastUpg2017_trackingOnlyValidation])
1061 steps['SMS-T1tttt_mGl-1500_mLSP-100FS_13_UP17']=merge([{'cfg':'SMS-T1tttt_mGl-1500_mLSP-100_13TeV-pythia8_cfi'},Kby(100,1000),step1FastUpg2017Defaults])
1062 steps['ZEEFS_13_UP17']=merge([{'cfg':'ZEE_13TeV_TuneCUETP8M1_cfi'},Kby(100,2000),step1FastUpg2017Defaults])
1063 steps['ZTTFS_13_UP17']=merge([{'cfg':'ZTT_All_hadronic_13TeV_TuneCUETP8M1_cfi'},Kby(100,2000),step1FastUpg2017Defaults])
1064 steps['ZMMFS_13_UP17']=merge([{'cfg':'ZMM_13TeV_TuneCUETP8M1_cfi'},Kby(100,2000),step1FastUpg2017Defaults])
1065 steps['QCDFlatPt153000FS_13_UP17']=merge([{'cfg':'QCDForPF_13TeV_TuneCUETP8M1_cfi'},Kby(27,2000),step1FastUpg2017Defaults])
1066 steps['QCD_Pt_80_120FS_13_UP17']=merge([{'cfg':'QCD_Pt_80_120_13TeV_TuneCUETP8M1_cfi'},Kby(100,500),step1FastUpg2017Defaults])
1067 steps['H125GGgluonfusionFS_13_UP17']=merge([{'cfg':'H125GGgluonfusion_13TeV_TuneCUETP8M1_cfi'},step1FastUpg2017Defaults])
1068 steps['SingleMuPt10FS_UP17']=merge([{'cfg':'SingleMuPt10_pythia8_cfi'},step1FastUpg2017Defaults])
1069 steps['SingleMuPt100FS_UP17']=merge([{'cfg':'SingleMuPt100_pythia8_cfi'},step1FastUpg2017Defaults])
1070 
1071 ### FastSim: produce sample of minbias events for PU mixing
1072 steps['MinBiasFS_13_UP17_ForMixing']=merge([{'cfg':'MinBias_13TeV_pythia8_TuneCUETP8M1_cfi'},Kby(100,1000),step1FastPU17NewMixing])
1073 
1074 #step1FastUpg2018Defaults
1075 steps['TTbarFS_13_UP18']=merge([{'cfg':'TTbar_13TeV_TuneCUETP8M1_cfi'},Kby(100,1000),step1FastUpg2018Defaults])
1076 steps['TTbarFS_13_trackingOnlyValidation_UP18']=merge([{'cfg':'TTbar_13TeV_TuneCUETP8M1_cfi'},Kby(100,1000),step1FastUpg2018_trackingOnlyValidation])
1077 steps['SMS-T1tttt_mGl-1500_mLSP-100FS_13_UP18']=merge([{'cfg':'SMS-T1tttt_mGl-1500_mLSP-100_13TeV-pythia8_cfi'},Kby(100,1000),step1FastUpg2018Defaults])
1078 steps['ZEEFS_13_UP18']=merge([{'cfg':'ZEE_13TeV_TuneCUETP8M1_cfi'},Kby(100,2000),step1FastUpg2018Defaults])
1079 steps['ZTTFS_13_UP18']=merge([{'cfg':'ZTT_All_hadronic_13TeV_TuneCUETP8M1_cfi'},Kby(100,2000),step1FastUpg2018Defaults])
1080 steps['ZMMFS_13_UP18']=merge([{'cfg':'ZMM_13TeV_TuneCUETP8M1_cfi'},Kby(100,2000),step1FastUpg2018Defaults])
1081 steps['QCDFlatPt153000FS_13_UP18']=merge([{'cfg':'QCDForPF_13TeV_TuneCUETP8M1_cfi'},Kby(27,2000),step1FastUpg2018Defaults])
1082 steps['QCD_Pt_80_120FS_13_UP18']=merge([{'cfg':'QCD_Pt_80_120_13TeV_TuneCUETP8M1_cfi'},Kby(100,500),step1FastUpg2018Defaults])
1083 steps['H125GGgluonfusionFS_13_UP18']=merge([{'cfg':'H125GGgluonfusion_13TeV_TuneCUETP8M1_cfi'},step1FastUpg2018Defaults])
1084 steps['SingleMuPt10FS_UP18']=merge([{'cfg':'SingleMuPt10_pythia8_cfi'},step1FastUpg2018Defaults])
1085 steps['SingleMuPt100FS_UP18']=merge([{'cfg':'SingleMuPt100_pythia8_cfi'},step1FastUpg2018Defaults])
1086 
1087 ### FastSim: produce sample of minbias events for PU mixing, 2018
1088 steps['MinBiasFS_13_UP18_ForMixing']=merge([{'cfg':'MinBias_13TeV_pythia8_TuneCUETP8M1_cfi'},Kby(100,1000),step1FastPU18NewMixing])
1089 
1090 ### FastSim: template to produce signal and overlay with minbias events
1091 PUFS25={'--pileup':'AVE_35_BX_25ns',
1092  '--pileup_input':'das:/RelValMinBiasFS_13_ForMixing/%s/GEN-SIM-RECO'%(baseDataSetRelease[7],)}
1093 FS_UP15_PU25_OVERLAY = merge([PUFS25,Kby(100,500),steps['TTbarFS_13']] )
1094 
1095 ### FastSim: template to produce signal and overlay with minbias events #PU50
1096 PUFSAVE50={'--pileup':'AVE_50_BX_25ns',
1097  '--pileup_input':'das:/RelValMinBiasFS_13_UP17_ForMixing/%s/GEN-SIM-RECO'%(baseDataSetRelease[15],)}
1098 FS_UP17_PU50_OVERLAY = merge([PUFSAVE50,Kby(100,500),steps['TTbarFS_13_UP17']] )
1099 
1100 ### FastSim: template to produce signal and overlay with minbias events #PU50, 2018
1101 PUFSAVE50UP18={'--pileup':'AVE_50_BX_25ns',
1102  '--pileup_input':'das:/RelValMinBiasFS_13_UP18_ForMixing/%s/GEN-SIM-RECO'%(baseDataSetRelease[19],)}
1103 FS_UP18_PU50_OVERLAY = merge([PUFSAVE50UP18,Kby(100,500),steps['TTbarFS_13_UP18']] )
1104 
1105 ### FastSim: produce sample of premixed minbias events
1106 steps["FS_PREMIXUP15_PU25"] = merge([
1107  {"cfg":"SingleNuE10_cfi",
1108  "--fast":"",
1109  "--conditions":"auto:run2_mc",
1110  "-s":"GEN,SIM,RECOBEFMIX,DIGI",
1111  "--eventcontent":"PREMIX",
1112  "--datatier":"PREMIX",
1113  "--procModifiers":"premix_stage1",
1114  "--era":"Run2_2016",
1115  },
1116  PUFS25,Kby(100,500)])
1117 
1118 ### Fastsim: template to produce signal and overlay it with premixed minbias events
1119 FS_PREMIXUP15_PU25_OVERLAY = merge([
1120 # {"-s" : "GEN,SIM,RECOBEFMIX,DIGI:pdigi_valid,DATAMIX,L1,DIGI2RAW,L1Reco,RECO,HLT:@relval2016,VALIDATION",
1121  {"-s" : "GEN,SIM,RECOBEFMIX,DIGI:pdigi_valid,DATAMIX,L1,DIGI2RAW,L1Reco,RECO,VALIDATION",
1122  "--datamix" : "PreMix",
1123  "--procModifiers": "premix_stage2",
1124  "--pileup_input" : "dbs:/RelValFS_PREMIXUP15_PU25/%s/PREMIX"%(baseDataSetRelease[8],),
1125  },
1126  Kby(100,500),step1FastUpg2015Defaults])
1127 
1128 # For combined premixing stage1+stage2 workflow
1129 FS_PREMIXUP15_PU25_LOCAL_OVERLAY = merge([
1130  {"--pileup_input": "file:step1.root"
1131  },
1132  FS_PREMIXUP15_PU25_OVERLAY
1133 ])
1134 
1135 ### FastSim: list of processes used in FastSim validation
1136 fs_proclist = ["ZEE_13",'TTbar_13','H125GGgluonfusion_13','ZTT_13','ZMM_13','NuGun_UP15','QCD_FlatPt_15_3000HS_13','SMS-T1tttt_mGl-1500_mLSP-100_13']
1137 
1138 ### FastSim: produces sample of signal events, overlayed with premixed minbias events
1139 for x in fs_proclist:
1140  key = "FS_" + x + "_PRMXUP15_PU25"
1141  steps[key] = merge([FS_PREMIXUP15_PU25_OVERLAY,{"cfg":steps[x]["cfg"]}])
1142 
1143  key = key.replace("PRMXUP15", "PRMXLOCALUP15")
1144  steps[key] = merge([FS_PREMIXUP15_PU25_LOCAL_OVERLAY,{"cfg":steps[x]["cfg"]}])
1145 
1146 ### FastSim: produce sample of signal events, overlayed with minbias events
1147 for x in fs_proclist:
1148  key = "FS_" + x + "_UP15_PU25"
1149  steps[key] = merge([{"cfg":steps[x]["cfg"]},FS_UP15_PU25_OVERLAY])
1150 
1151 ### FastSim: produce sample of premixed minbias events UP17
1152 steps["FS_PREMIXUP17_PU50"] = merge([
1153  {"cfg":"SingleNuE10_cfi",
1154  "--fast":"",
1155  "--conditions":"auto:phase1_2017_realistic",
1156  "-s":"GEN,SIM,RECOBEFMIX,DIGI",
1157  "--eventcontent":"PREMIX",
1158  "--datatier":"PREMIX",
1159  "--procModifiers":"premix_stage1",
1160  "--era":"Run2_2017_FastSim",
1161  },
1162  PUFSAVE50,Kby(100,500)])
1163 
1164 ### Fastsim: template to produce signal and overlay it with premixed minbias events
1165 FS_PREMIXUP17_PU50_OVERLAY = merge([
1166 # {"-s" : "GEN,SIM,RECOBEFMIX,DIGI:pdigi_valid,DATAMIX,L1,DIGI2RAW,L1Reco,RECO,HLT:@relval2016,VALIDATION",
1167  {"-s" : "GEN,SIM,RECOBEFMIX,DIGI:pdigi_valid,DATAMIX,L1,DIGI2RAW,L1Reco,RECO,VALIDATION",
1168  "--datamix" : "PreMix",
1169  "--procModifiers": "premix_stage2",
1170  "--pileup_input" : "dbs:/RelValFS_PREMIXUP17_PU50/%s/PREMIX"%(baseDataSetRelease[16],),
1171  },
1172  Kby(100,500),step1FastUpg2017Defaults])
1173 
1174 # For combined premixing stage1+stage2 workflow
1175 FS_PREMIXUP17_PU50_LOCAL_OVERLAY = merge([
1176  {"--pileup_input": "file:step1.root"
1177  },
1178  FS_PREMIXUP17_PU50_OVERLAY
1179 ])
1180 
1181 ### FastSim: list of processes used in FastSim validation
1182 fs_proclist = ["ZEE_13",'TTbar_13','H125GGgluonfusion_13','ZTT_13','ZMM_13','NuGun_UP17','QCD_FlatPt_15_3000HS_13','SMS-T1tttt_mGl-1500_mLSP-100_13']
1183 
1184 ### FastSim: produces sample of signal events, overlayed with premixed minbias events
1185 for x in fs_proclist:
1186  key = "FS_" + x + "_PRMXUP17_PU50"
1187  steps[key] = merge([FS_PREMIXUP17_PU50_OVERLAY,{"cfg":steps[x]["cfg"]}])
1188 
1189  key = key.replace("PRMXUP17", "PRMXLOCALUP17")
1190  steps[key] = merge([FS_PREMIXUP17_PU50_LOCAL_OVERLAY,{"cfg":steps[x]["cfg"]}])
1191 
1192 ### FastSim: produce sample of signal events, overlayed with minbias events
1193 for x in fs_proclist:
1194  key = "FS_" + x + "_UP17_PU50"
1195  steps[key] = merge([{"cfg":steps[x]["cfg"]},FS_UP17_PU50_OVERLAY])
1196 
1197 ###end UP17
1198 ###
1199 
1200 ### FastSim: produce sample of premixed minbias events UP18
1201 steps["FS_PREMIXUP18_PU50"] = merge([
1202  {"cfg":"SingleNuE10_cfi",
1203  "--fast":"",
1204  "--conditions":"auto:phase1_2018_realistic",
1205  "-s":"GEN,SIM,RECOBEFMIX,DIGI",
1206  "--eventcontent":"PREMIX",
1207  "--datatier":"PREMIX",
1208  "--procModifiers":"premix_stage1",
1209  "--era":"Run2_2018_FastSim",
1210  },
1211  PUFSAVE50UP18,Kby(100,500)])
1212 
1213 ### Fastsim: template to produce signal and overlay it with premixed minbias events
1214 FS_PREMIXUP18_PU50_OVERLAY = merge([
1215 # {"-s" : "GEN,SIM,RECOBEFMIX,DIGI:pdigi_valid,DATAMIX,L1,DIGI2RAW,L1Reco,RECO,HLT:@relval2016,VALIDATION",
1216  {"-s" : "GEN,SIM,RECOBEFMIX,DIGI:pdigi_valid,DATAMIX,L1,DIGI2RAW,L1Reco,RECO,VALIDATION",
1217  "--datamix" : "PreMix",
1218  "--procModifiers": "premix_stage2",
1219  "--pileup_input" : "dbs:/RelValFS_PREMIXUP18_PU50/%s/PREMIX"%(baseDataSetRelease[20],),
1220  },
1221  Kby(100,500),step1FastUpg2018Defaults])
1222 
1223 # For combined premixing stage1+stage2 workflow
1224 FS_PREMIXUP18_PU50_LOCAL_OVERLAY = merge([
1225  {"--pileup_input": "file:step1.root"
1226  },
1227  FS_PREMIXUP18_PU50_OVERLAY
1228 ])
1229 
1230 ### FastSim: list of processes used in FastSim validation
1231 fs_proclist = ["ZEE_13",'TTbar_13','H125GGgluonfusion_13','ZTT_13','ZMM_13','NuGun_UP18','QCD_FlatPt_15_3000HS_13','SMS-T1tttt_mGl-1500_mLSP-100_13']
1232 
1233 ### FastSim: produces sample of signal events, overlayed with premixed minbias events
1234 for x in fs_proclist:
1235  key = "FS_" + x + "_PRMXUP18_PU50"
1236  steps[key] = merge([FS_PREMIXUP18_PU50_OVERLAY,{"cfg":steps[x]["cfg"]}])
1237 
1238  key = key.replace("PRMXUP18", "PRMXLOCALUP18")
1239  steps[key] = merge([FS_PREMIXUP18_PU50_LOCAL_OVERLAY,{"cfg":steps[x]["cfg"]}])
1240 
1241 ### FastSim: produce sample of signal events, overlayed with minbias events
1242 for x in fs_proclist:
1243  key = "FS_" + x + "_UP18_PU50"
1244  steps[key] = merge([{"cfg":steps[x]["cfg"]},FS_UP18_PU50_OVERLAY])
1245 
1246 ###end UP18
1247 ###
1248 
1249 
1250 steps['TTbarSFS']=merge([{'cfg':'TTbar_8TeV_TuneCUETP8M1_cfi'},
1251  {'-s':'GEN,SIM',
1252  '--eventcontent':'FEVTDEBUG',
1253  '--datatier':'GEN-SIM',
1254  '--fast':''},
1255  step1Defaults])
1256 
1257 steps['TTbarSFSA']=merge([{'cfg':'TTbar_8TeV_TuneCUETP8M1_cfi',
1258 # '-s':'GEN,SIM,RECO,EI,HLT:@fake,VALIDATION',
1259  '-s':'GEN,SIM,RECO,EI,VALIDATION',
1260  '--fast':''},
1261  step1FastDefaults])
1262 
1263 def identityFS(wf):
1264  return merge([{'--restoreRND':'HLT','--process':'HLT2','--hltProcess':'HLT2', '--inputCommands':'"keep *","drop *TagInfo*_*_*_*"'},wf])
1265 
1266 steps['SingleMuPt10FS_UP15_ID']=identityFS(steps['SingleMuPt10FS_UP15'])
1267 steps['TTbarFS_13_ID']=identityFS(steps['TTbarFS_13'])
1268 
1269 ## GENERATORS
1270 
1271 step1GenDefaults=merge([{'-s':'GEN,VALIDATION:genvalid',
1272  '--relval':'250000,5000',
1273  '--eventcontent':'RAWSIM,DQM',
1274  '--datatier':'GEN,DQMIO',
1275  '--conditions':'auto:run2_mc_FULL'
1276  },
1277  step1Defaults])
1278 
1279 step1HadronizerDefaults=merge([{'--datatier':'GEN-SIM,DQMIO',
1280  '--relval':'200000,5000'
1281  },step1GenDefaults])
1282 
1283 step1LHEDefaults=merge([{'-s':'LHE',
1284  '--relval':'200000,5000',
1285  '--eventcontent':'LHE',
1286  '--datatier':'GEN',
1287  '--conditions':'auto:run2_mc_FULL'
1288  },
1289  step1Defaults])
1290 
1291 # transfer extendedgen step1 LHE to be used in a normal workflow
1292 step1LHENormal = {'--relval' : '9000,50',
1293  '--conditions' : 'auto:run2_mc',
1294  '--beamspot' : 'Realistic25ns13TeV2016Collision',
1295  }
1296 
1297 # transfer extendedgen step1 GEN to GEN-SIM to be used in a normal workflow
1298 step1GENNormal = {'--relval' : '9000,50',
1299  '-s' : 'GEN,SIM',
1300  '--conditions' : 'auto:run2_mc',
1301  '--beamspot' : 'Realistic25ns13TeV2016Collision',
1302  '--eventcontent': 'FEVTDEBUG',
1303  '--datatier' : 'GEN-SIM',
1304  '--era' : 'Run2_2016',
1305  }
1306 
1307 steps['DYToll01234Jets_5f_LO_MLM_Madgraph_LHE_13TeV']=genvalid('Configuration/Generator/python/DYToll01234Jets_5f_LO_MLM_Madgraph_LHE_13TeV_cff.py',step1LHEDefaults)
1308 steps['TTbar012Jets_5f_NLO_FXFX_Madgraph_LHE_13TeV']=genvalid('Configuration/Generator/python/TTbar012Jets_5f_NLO_FXFX_Madgraph_LHE_13TeV_cff.py',step1LHEDefaults)
1309 steps['TTbar_Pow_LHE_13TeV']=genvalid('Configuration/Generator/python/TTbar_Pow_LHE_13TeV_cff.py',step1LHEDefaults)
1310 steps['DYToll012Jets_5f_NLO_FXFX_Madgraph_LHE_13TeV']=genvalid('Configuration/Generator/python/DYToll012Jets_5f_NLO_FXFX_Madgraph_LHE_13TeV_cff.py',step1LHEDefaults)
1311 steps['WTolNu01234Jets_5f_LO_MLM_Madgraph_LHE_13TeV']=genvalid('Configuration/Generator/python/WTolNu01234Jets_5f_LO_MLM_Madgraph_LHE_13TeV_cff.py',step1LHEDefaults)
1312 steps['GGToH_Pow_LHE_13TeV']=genvalid('Configuration/Generator/python/GGToH_Pow_LHE_13TeV_cff.py',step1LHEDefaults)
1313 steps['VHToH_Pow_LHE_13TeV']=genvalid('Configuration/Generator/python/VHToH_Pow_LHE_13TeV_cff.py',step1LHEDefaults)
1314 steps['VBFToH_Pow_JHU4l_LHE_13TeV']=genvalid('Configuration/Generator/python/VBFToH_Pow_JHU4l_LHE_13TeV_cff.py',step1LHEDefaults)
1315 
1316 steps['BulkG_M1200_narrow_2L2Q_LHE_13TeV']=genvalid('Configuration/Generator/python/BulkG_M1200_narrow_2L2Q_LHE_13TeV_cff.py',step1LHEDefaults)
1317 
1318 # all 6 workflows with root step 'DYToll01234Jets_5f_LO_MLM_Madgraph_LHE_13TeV' will recycle the same dataset, from wf [512] of generator set
1319 # steps['DYToll01234Jets_5f_LO_MLM_Madgraph_LHE_13TeVINPUT']={'INPUT':InputInfo(dataSet='/DYToll01234Jets_5f_LO_MLM_Madgraph_LHE_13TeV_py8/CMSSW_7_4_0_pre0-MCRUN2_73_V5-v1/GEN',location='STD')}
1320 
1321 steps['MinBias_TuneZ2star_13TeV_pythia6']=genvalid('MinBias_TuneZ2star_13TeV_pythia6_cff',step1GenDefaults)
1322 steps['QCD_Pt-30_TuneZ2star_13TeV_pythia6']=genvalid('QCD_Pt_30_TuneZ2star_13TeV_pythia6_cff',step1GenDefaults)
1323 steps['MinBias_13TeV_pythia8']=genvalid('MinBias_13TeV_pythia8_cff',step1GenDefaults)
1324 steps['QCD_Pt-30_13TeV_pythia8']=genvalid('QCD_Pt_30_13TeV_pythia8_cff',step1GenDefaults)
1325 
1326 steps['DYToLL_M-50_13TeV_pythia8']=genvalid('DYToLL_M-50_13TeV_pythia8_cff',step1GenDefaults)
1327 steps['WToLNu_13TeV_pythia8']=genvalid('WToLNu_13TeV_pythia8_cff',step1GenDefaults)
1328 
1329 steps['SoftQCDDiffractive_13TeV_pythia8']=genvalid('SoftQCDDiffractive_13TeV_pythia8_cff',step1GenDefaults)
1330 steps['SoftQCDnonDiffractive_13TeV_pythia8']=genvalid('SoftQCDnonDiffractive_13TeV_pythia8_cff',step1GenDefaults)
1331 steps['SoftQCDelastic_13TeV_pythia8']=genvalid('SoftQCDelastic_13TeV_pythia8_cff',step1GenDefaults)
1332 steps['SoftQCDinelastic_13TeV_pythia8']=genvalid('SoftQCDinelastic_13TeV_pythia8_cff',step1GenDefaults)
1333 
1334 steps['QCD_Pt-30_13TeV_aMCatNLO_herwig7']=genvalid('Herwig7_Matchbox_aMCatNLO_Herwig_ppTojj_cff',step1GenDefaults)
1335 
1336 steps['ZprimeToll_M3000_13TeV_pythia8']=genvalid('ZprimeToll_M3000_13TeV_pythia8_cff',step1GenDefaults)
1337 steps['WprimeTolNu_M3000_13TeV_pythia8']=genvalid('WprimeTolNu_M3000_13TeV_pythia8_cff',step1GenDefaults)
1338 
1339 # Generator Hadronization (Hadronization of LHE)
1340 steps['WJetsLNu_13TeV_madgraph-pythia8']=genvalid('Hadronizer_MgmMatchTuneCUETP8M1_13TeV_madgraph_pythia8_cff',step1GenDefaults,dataSet='/WJetsToLNu_13TeV-madgraph/Fall13wmLHE-START62_V1-v1/GEN')
1341 steps['Hadronizer_TuneCUETP8M1_13TeV_MLM_5f_max4j_LHE_pythia8']=genvalid('Hadronizer_TuneCUETP8M1_13TeV_MLM_5f_max4j_LHE_pythia8_cff',step1HadronizerDefaults)
1342 steps['Hadronizer_TuneCP5_13TeV_MLM_5f_max4j_LHE_pythia8']=genvalid('Hadronizer_TuneCP5_13TeV_MLM_5f_max4j_LHE_pythia8_cff',step1HadronizerDefaults)
1343 steps['GGToH_13TeV_pythia8']=genvalid('GGToHtautau_13TeV_pythia8_cff',step1GenDefaults)
1344 
1345 steps['WJetsLNutaupinu_13TeV_madgraph-pythia8']=genvalid('Hadronizer_MgmMatchTuneCUETP8M1_13TeV_madgraph_pythia8_taupinu_cff',step1GenDefaults,dataSet='/WJetsToLNu_13TeV-madgraph/Fall13wmLHE-START62_V1-v1/GEN')
1346 steps['Hadronizer_TuneCUETP8M1_13TeV_MLM_5f_max4j_LHE_pythia8_taupinu']=genvalid('Hadronizer_TuneCUETP8M1_13TeV_MLM_5f_max4j_LHE_pythia8_taupinu_cff',step1HadronizerDefaults)
1347 steps['Hadronizer_TuneCP5_13TeV_MLM_5f_max4j_LHE_pythia8_taupinu']=genvalid('Hadronizer_TuneCP5_13TeV_MLM_5f_max4j_LHE_pythia8_taupinu_cff',step1HadronizerDefaults)
1348 steps['GGToHtaupinu_13TeV_pythia8']=genvalid('GGToHtautau_13TeV_pythia8_taupinu_cff',step1GenDefaults)
1349 
1350 steps['WJetsLNutaurhonu_13TeV_madgraph-pythia8']=genvalid('Hadronizer_MgmMatchTuneCUETP8M1_13TeV_madgraph_pythia8_taurhonu_cff.py',step1GenDefaults,dataSet='/WJetsToLNu_13TeV-madgraph/Fall13wmLHE-START62_V1-v1/GEN')
1351 steps['Hadronizer_TuneCUETP8M1_13TeV_MLM_5f_max4j_LHE_pythia8_taurhonu']=genvalid('Hadronizer_TuneCUETP8M1_13TeV_MLM_5f_max4j_LHE_pythia8_taurhonu_cff.py',step1HadronizerDefaults)
1352 steps['Hadronizer_TuneCP5_13TeV_MLM_5f_max4j_LHE_pythia8_taurhonu']=genvalid('Hadronizer_TuneCP5_13TeV_MLM_5f_max4j_LHE_pythia8_taurhonu_cff.py',step1HadronizerDefaults)
1353 steps['GGToHtaurhonu_13TeV_pythia8']=genvalid('GGToHtautau_13TeV_pythia8_taurhonu_cff',step1GenDefaults)
1354 
1355 steps['Hadronizer_TuneCUETP8M1_13TeV_aMCatNLO_FXFX_5f_max2j_max1p_LHE_pythia8']=genvalid('Hadronizer_TuneCUETP8M1_13TeV_aMCatNLO_FXFX_5f_max2j_max1p_LHE_pythia8_cff',step1HadronizerDefaults)
1356 steps['Hadronizer_TuneCP5_13TeV_aMCatNLO_FXFX_5f_max2j_max1p_LHE_pythia8']=genvalid('Hadronizer_TuneCP5_13TeV_aMCatNLO_FXFX_5f_max2j_max1p_LHE_pythia8_cff',step1HadronizerDefaults)
1357 steps['Hadronizer_TuneCUETP8M1_13TeV_aMCatNLO_FXFX_5f_max2j_max1p_LHE_pythia8_evtgen']=genvalid('Hadronizer_TuneCUETP8M1_13TeV_aMCatNLO_FXFX_5f_max2j_max1p_LHE_pythia8_evtgen_cff',step1HadronizerDefaults)
1358 steps['Hadronizer_TuneCP5_13TeV_aMCatNLO_FXFX_5f_max2j_max1p_LHE_pythia8_evtgen']=genvalid('Hadronizer_TuneCP5_13TeV_aMCatNLO_FXFX_5f_max2j_max1p_LHE_pythia8_evtgen_cff',step1HadronizerDefaults)
1359 steps['Hadronizer_TuneCUETP8M1_13TeV_aMCatNLO_FXFX_5f_max2j_max0p_LHE_pythia8']=genvalid('Hadronizer_TuneCUETP8M1_13TeV_aMCatNLO_FXFX_5f_max2j_max0p_LHE_pythia8_cff',step1HadronizerDefaults)
1360 steps['Hadronizer_TuneCP5_13TeV_aMCatNLO_FXFX_5f_max2j_max0p_LHE_pythia8']=genvalid('Hadronizer_TuneCP5_13TeV_aMCatNLO_FXFX_5f_max2j_max0p_LHE_pythia8_cff',step1HadronizerDefaults)
1361 
1362 steps['Hadronizer_TuneCUETP8M1_13TeV_Hgg_powhegEmissionVeto_pythia8']=genvalid('Hadronizer_TuneCUETP8M1_13TeV_Hgg_powhegEmissionVeto_pythia8_cff',step1HadronizerDefaults)
1363 steps['Hadronizer_TuneCP5_13TeV_Hgg_powhegEmissionVeto_pythia8']=genvalid('Hadronizer_TuneCP5_13TeV_Hgg_powhegEmissionVeto_pythia8_cff',step1HadronizerDefaults)
1364 steps['Hadronizer_TuneCUETP8M1_13TeV_Httpinu_powhegEmissionVeto_pythia8']=genvalid('Hadronizer_TuneCUETP8M1_13TeV_Httpinu_powhegEmissionVeto_pythia8_cff',step1HadronizerDefaults)
1365 steps['Hadronizer_TuneCP5_13TeV_Httpinu_powhegEmissionVeto_pythia8']=genvalid('Hadronizer_TuneCP5_13TeV_Httpinu_powhegEmissionVeto_pythia8_cff',step1HadronizerDefaults)
1366 steps['Hadronizer_TuneCUETP8M1_13TeV_Httrhonu_powhegEmissionVeto_pythia8']=genvalid('Hadronizer_TuneCUETP8M1_13TeV_Httrhonu_powhegEmissionVeto_pythia8_cff',step1HadronizerDefaults)
1367 steps['Hadronizer_TuneCP5_13TeV_Httrhonu_powhegEmissionVeto_pythia8']=genvalid('Hadronizer_TuneCP5_13TeV_Httrhonu_powhegEmissionVeto_pythia8_cff',step1HadronizerDefaults)
1368 steps['Hadronizer_TuneCUETP8M1_13TeV_Htt_powhegEmissionVeto_pythia8']=genvalid('Hadronizer_TuneCUETP8M1_13TeV_Htt_powhegEmissionVeto_pythia8_cff',step1HadronizerDefaults)
1369 steps['Hadronizer_TuneCP5_13TeV_Htt_powhegEmissionVeto_pythia8']=genvalid('Hadronizer_TuneCP5_13TeV_Htt_powhegEmissionVeto_pythia8_cff',step1HadronizerDefaults)
1370 steps['Hadronizer_TuneCUETP8M1_13TeV_Htt_powhegEmissionVeto_pythia8_tauola']=genvalid('Hadronizer_TuneCUETP8M1_13TeV_Htt_powhegEmissionVeto_pythia8_tauola_cff',step1HadronizerDefaults)
1371 steps['Hadronizer_TuneCP5_13TeV_Htt_powhegEmissionVeto_pythia8_tauola']=genvalid('Hadronizer_TuneCP5_13TeV_Htt_powhegEmissionVeto_pythia8_tauola_cff',step1HadronizerDefaults)
1372 steps['Hadronizer_TuneCUETP8M1_13TeV_Httpinu_powhegEmissionVeto_pythia8_tauola']=genvalid('Hadronizer_TuneCUETP8M1_13TeV_Httpinu_powhegEmissionVeto_pythia8_tauola_cff',step1HadronizerDefaults)
1373 steps['Hadronizer_TuneCP5_13TeV_Httpinu_powhegEmissionVeto_pythia8_tauola']=genvalid('Hadronizer_TuneCP5_13TeV_Httpinu_powhegEmissionVeto_pythia8_tauola_cff',step1HadronizerDefaults)
1374 steps['Hadronizer_TuneCUETP8M1_13TeV_Httrhonu_powhegEmissionVeto_pythia8_tauola']=genvalid('Hadronizer_TuneCUETP8M1_13TeV_Httrhonu_powhegEmissionVeto_pythia8_tauola_cff',step1HadronizerDefaults)
1375 steps['Hadronizer_TuneCP5_13TeV_Httrhonu_powhegEmissionVeto_pythia8_tauola']=genvalid('Hadronizer_TuneCP5_13TeV_Httrhonu_powhegEmissionVeto_pythia8_tauola_cff',step1HadronizerDefaults)
1376 steps['Hadronizer_TuneCUETP8M1_13TeV_powhegEmissionVeto_pythia8']=genvalid('Hadronizer_TuneCUETP8M1_13TeV_powhegEmissionVeto_pythia8_cff',step1HadronizerDefaults)
1377 steps['Hadronizer_TuneCP5_13TeV_powhegEmissionVeto_pythia8']=genvalid('Hadronizer_TuneCP5_13TeV_powhegEmissionVeto_pythia8_cff',step1HadronizerDefaults)
1378 steps['Hadronizer_TuneCUETP8M1_13TeV_powhegEmissionVeto2p_pythia8']=genvalid('Hadronizer_TuneCUETP8M1_13TeV_powhegEmissionVeto2p_pythia8_cff',step1HadronizerDefaults)
1379 steps['Hadronizer_TuneCP5_13TeV_powhegEmissionVeto2p_pythia8']=genvalid('Hadronizer_TuneCP5_13TeV_powhegEmissionVeto2p_pythia8_cff',step1HadronizerDefaults)
1380 
1381 steps['Hadronizer_TuneCUETP8M1_Mad_pythia8']=genvalid('Hadronizer_TuneCUETP8M1_13TeV_generic_LHE_pythia8_cff',step1HadronizerDefaults)
1382 
1383 
1384 
1385 # Generator External Decays
1386 steps['TT_13TeV_pythia8-evtgen']=genvalid('Hadronizer_MgmMatchTuneCUETP8M1_13TeV_madgraph_pythia8_EvtGen_cff',step1GenDefaults,dataSet='/TTJets_MSDecaysCKM_central_13TeV-madgraph/Fall13wmLHE-START62_V1-v1/GEN')
1387 
1388 steps['Hadronizer_TuneCUETP8M1_13TeV_MLM_5f_max4j_LHE_pythia8_Tauola']=genvalid('Hadronizer_TuneCUETP8M1_13TeV_MLM_5f_max4j_LHE_pythia8_Tauola_cff',step1HadronizerDefaults)
1389 steps['Hadronizer_TuneCP5_13TeV_MLM_5f_max4j_LHE_pythia8_Tauola']=genvalid('Hadronizer_TuneCP5_13TeV_MLM_5f_max4j_LHE_pythia8_Tauola_cff',step1HadronizerDefaults)
1390 
1391 steps['WToLNu_13TeV_pythia8-tauola']=genvalid('Hadronizer_MgmMatchTuneCUETP8M1_13TeV_madgraph_pythia8_Tauola_cff',step1GenDefaults,dataSet='/WJetsToLNu_13TeV-madgraph/Fall13wmLHE-START62_V1-v1/GEN')
1392 steps['GGToH_13TeV_pythia8-tauola']=genvalid('GGToHtautau_13TeV_pythia8_Tauola_cff',step1GenDefaults)
1393 
1394 steps['WToLNutaupinu_13TeV_pythia8-tauola']=genvalid('Hadronizer_MgmMatchTuneCUETP8M1_13TeV_madgraph_pythia8_Tauola_taupinu_cff',step1GenDefaults,dataSet='/WJetsToLNu_13TeV-madgraph/Fall13wmLHE-START62_V1-v1/GEN')
1395 steps['Hadronizer_TuneCUETP8M1_13TeV_MLM_5f_max4j_LHE_pythia8_Tauola_taupinu']=genvalid('Hadronizer_TuneCUETP8M1_13TeV_MLM_5f_max4j_LHE_pythia8_Tauola_taupinu_cff',step1HadronizerDefaults)
1396 steps['Hadronizer_TuneCP5_13TeV_MLM_5f_max4j_LHE_pythia8_Tauola_taupinu']=genvalid('Hadronizer_TuneCP5_13TeV_MLM_5f_max4j_LHE_pythia8_Tauola_taupinu_cff',step1HadronizerDefaults)
1397 steps['GGToHtaupinu_13TeV_pythia8-tauola']=genvalid('GGToHtautau_13TeV_pythia8_Tauola_taupinu_cff',step1GenDefaults)
1398 
1399 steps['WToLNutaurhonu_13TeV_pythia8-tauola']=genvalid('Hadronizer_MgmMatchTuneCUETP8M1_13TeV_madgraph_pythia8_Tauola_taurhonu_cff',step1GenDefaults,dataSet='/WJetsToLNu_13TeV-madgraph/Fall13wmLHE-START62_V1-v1/GEN')
1400 steps['Hadronizer_TuneCUETP8M1_13TeV_MLM_5f_max4j_LHE_pythia8_Tauola_taurhonu']=genvalid('Hadronizer_TuneCUETP8M1_13TeV_MLM_5f_max4j_LHE_pythia8_Tauola_taurhonu_cff',step1HadronizerDefaults)
1401 steps['Hadronizer_TuneCP5_13TeV_MLM_5f_max4j_LHE_pythia8_Tauola_taurhonu']=genvalid('Hadronizer_TuneCP5_13TeV_MLM_5f_max4j_LHE_pythia8_Tauola_taurhonu_cff',step1HadronizerDefaults)
1402 steps['GGToHtaurhonu_13TeV_pythia8-tauola']=genvalid('GGToHtautau_13TeV_pythia8_Tauola_taurhonu_cff',step1GenDefaults)
1403 
1404 # normal fullSim workflows using gridpack LHE generator
1405 # LHE-GEN-SIM step
1406 step1LHEGenSimDefault = { '--relval':'9000,50',
1407  '-s':'LHE,GEN,SIM',
1408  '-n' : 10,
1409  '--conditions' : 'auto:run2_mc',
1410  '--beamspot' : 'Realistic25ns13TeV2016Collision',
1411  '--datatier' : 'GEN-SIM,LHE',
1412  '--eventcontent': 'FEVTDEBUG,LHE',
1413  '--era' : 'Run2_2016',
1414  }
1415 
1416 # LHE-GEN with DQM
1417 step1LHEGenDQM = merge([{'-s':'LHE,GEN,VALIDATION:genvalid','--datatier' : 'LHE,GEN,DQMIO','--eventcontent': 'LHE,RAWSIM,DQM'},step1LHEDefaults])
1418 
1419 
1420 def lhegensim(fragment,howMuch):
1421  global step1LHEGenSimDefault
1422  return merge([{'cfg':fragment},howMuch,step1LHEGenSimDefault])
1423 
1424 # LHE-GEN-SIM step for 2017
1425 step1LHEGenSimUp2017Default = merge ([{'--conditions':'auto:phase1_2017_realistic','--era':'Run2_2017','--beamspot':'Realistic25ns13TeVEarly2017Collision','--geometry':'DB:Extended'},step1LHEGenSimDefault])
1426 
1427 def lhegensim2017(fragment,howMuch):
1428  global step1LHEGenSimUp2017Default
1429  return merge([{'cfg':fragment},howMuch,step1LHEGenSimUp2017Default])
1430 
1431 # LHE-GEN-SIM step for 2018
1432 step1LHEGenSimUp2018Default = merge ([{'--conditions':'auto:phase1_2018_realistic','--era':'Run2_2018','--beamspot':'Realistic25ns13TeVEarly2018Collision','--geometry':'DB:Extended'},step1LHEGenSimDefault])
1433 
1434 def lhegensim2018(fragment,howMuch):
1435  global step1LHEGenSimUp2018Default
1436  return merge([{'cfg':fragment},howMuch,step1LHEGenSimUp2018Default])
1437 
1438 steps['TTbar012Jets_NLO_Mad_py8_Evt_13']=lhegensim('Configuration/Generator/python/TTbar012Jets_5f_NLO_FXFX_Madgraph_LHE_13TeV_cfi.py',Kby(9,50))
1439 steps['GluGluHToZZTo4L_M125_Pow_py8_Evt_13']=lhegensim('Configuration/Generator/python/GGHZZ4L_JHUGen_Pow_NNPDF30_LHE_13TeV_cfi.py', Kby(9,50))
1440 steps['VBFHToZZTo4Nu_M125_Pow_py8_Evt_13']=lhegensim('Configuration/Generator/python/VBFHZZ4Nu_Pow_NNPDF30_LHE_13TeV_cfi.py',Kby(9,50))
1441 steps['VBFHToBB_M125_Pow_py8_Evt_13']=lhegensim('Configuration/Generator/python/VBFHbb_Pow_NNPDF30_LHE_13TeV_cfi.py',Kby(9,50))
1442 
1443 steps['GluGluHToZZTo4L_M125_Pow_py8_Evt_13UP17']=lhegensim2017('Configuration/Generator/python/GGHZZ4L_JHUGen_Pow_NNPDF30_LHE_13TeV_cfi.py', Kby(9,100))
1444 steps['VBFHToZZTo4Nu_M125_Pow_py8_Evt_13UP17']=lhegensim2017('Configuration/Generator/python/VBFHZZ4Nu_Pow_NNPDF30_LHE_13TeV_cfi.py',Kby(9,100))
1445 steps['VBFHToBB_M125_Pow_py8_Evt_13UP17']=lhegensim2017('Configuration/Generator/python/VBFHbb_Pow_NNPDF30_LHE_13TeV_cfi.py',Kby(9,100))
1446 
1447 steps['GluGluHToZZTo4L_M125_Pow_py8_Evt_13UP18']=lhegensim2018('Configuration/Generator/python/GGHZZ4L_JHUGen_Pow_NNPDF30_LHE_13TeV_cfi.py', Kby(9,100))
1448 steps['VBFHToZZTo4Nu_M125_Pow_py8_Evt_13UP18']=lhegensim2018('Configuration/Generator/python/VBFHZZ4Nu_Pow_NNPDF30_LHE_13TeV_cfi.py',Kby(9,100))
1449 steps['VBFHToBB_M125_Pow_py8_Evt_13UP18']=lhegensim2018('Configuration/Generator/python/VBFHbb_Pow_NNPDF30_LHE_13TeV_cfi.py',Kby(9,100))
1450 
1451 #GEN-SIM inputs for LHE-GEN-SIM workflows
1452 #steps['TTbar012Jets_NLO_Mad_py8_Evt_13INPUT']={'INPUT':InputInfo(dataSet='/RelValTTbar012Jets_NLO_Mad_py8_Evt_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
1453 #steps['GluGluHToZZTo4L_M125_Pow_py8_Evt_13INPUT']={'INPUT':InputInfo(dataSet='/RelValGluGluHToZZTo4L_M125_Pow_py8_Evt_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
1454 #steps['VBFHToZZTo4Nu_M125_Pow_py8_Evt_13INPUT']={'INPUT':InputInfo(dataSet='/RelValVBFHToZZTo4Nu_M125_Pow_py8_Evt_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
1455 #steps['VBFHToBB_M125_Pow_py8_Evt_13INPUT']={'INPUT':InputInfo(dataSet='/RelValVBFHToBB_M125_Pow_py8_Evt_13/%s/GEN-SIM'%(baseDataSetRelease[3],),location='STD')}
1456 #steps['VBFHToZZTo4Nu_M125_Pow_py8_Evt_13UP17INPUT']={'INPUT':InputInfo(dataSet='/RelValVBFHToZZTo4Nu_M125_Pow_py8_Evt_13UP17/%s/GEN-SIM'%(baseDataSetRelease[21],),location='STD')}
1457 #steps['VBFHToBB_M125_Pow_py8_Evt_13UP17INPUT']={'INPUT':InputInfo(dataSet='/RelValVBFHToBB_M125_Pow_py8_Evt_13UP17/%s/GEN-SIM'%(baseDataSetRelease[21],),location='STD')}
1458 #steps['VBFHToZZTo4Nu_M125_Pow_py8_Evt_13UP18INPUT']={'INPUT':InputInfo(dataSet='/RelValVBFHToZZTo4Nu_M125_Pow_py8_Evt_13UP18/%s/GEN-SIM'%(baseDataSetRelease[22],),location='STD')}
1459 #steps['VBFHToBB_M125_Pow_py8_Evt_13UP18INPUT']={'INPUT':InputInfo(dataSet='/RelValVBFHToBB_M125_Pow_py8_Evt_13UP18/%s/GEN-SIM'%(baseDataSetRelease[22],),location='STD')}
1460 
1461 
1462 #Sherpa
1463 steps['sherpa_ZtoEE_0j_BlackHat_13TeV_MASTER']=genvalid('sherpa_ZtoEE_0j_BlackHat_13TeV_MASTER_cff',step1GenDefaults)
1464 steps['sherpa_ZtoEE_0j_OpenLoops_13TeV_MASTER']=genvalid('sherpa_ZtoEE_0j_OpenLoops_13TeV_MASTER_cff',step1GenDefaults)
1465 steps['sherpa_ttbar_2j_MENLOPS_13TeV_MASTER']=genvalid('sherpa_ttbar_2j_MENLOPS_13TeV_MASTER_cff',step1GenDefaults)
1466 
1467 #Herwig7
1468 steps['TTbar_13TeV_Pow_herwig7']=genvalid('Configuration/Generator/python/TT_13TeV_Pow_Herwig7_cff',step1LHEGenDQM)
1469 
1470 
1471 # Heavy Ion
1472 steps['ReggeGribovPartonMC_EposLHC_5TeV_pPb']=genvalid('GeneratorInterface/ReggeGribovPartonMCInterface/ReggeGribovPartonMC_EposLHC_5TeV_pPb_cfi',step1GenDefaults)
1473 
1474 # B-physics
1475 steps['BuToKstarJPsiToMuMu_forSTEAM_13TeV_TuneCUETP8M1']=genvalid('BuToKstarJPsiToMuMu_forSTEAM_13TeV_TuneCUETP8M1_cfi',step1GenDefaults)
1476 steps['Upsilon4swithBuToKstarJPsiToMuMu_forSTEAM_13TeV_TuneCUETP8M1']=genvalid('Upsilon4swithBuToKstarJPsiToMuMu_forSTEAM_13TeV_TuneCUETP8M1_cfi',step1GenDefaults)
1477 steps['Upsilon4sBaBarExample_BpBm_Dstarpipi_D0Kpi_nonres_forSTEAM_13TeV_TuneCUETP8M1']=genvalid('Upsilon4sBaBarExample_BpBm_Dstarpipi_D0Kpi_nonres_forSTEAM_13TeV_TuneCUETP8M1_cfi',step1GenDefaults)
1478 steps['LambdaBToLambdaMuMuToPPiMuMu_forSTEAM_13TeV_TuneCUETP8M1']=genvalid('LambdaBToLambdaMuMuToPPiMuMu_forSTEAM_13TeV_TuneCUETP8M1_cfi',step1GenDefaults)
1479 steps['BsToMuMu_forSTEAM_13TeV_TuneCUETP8M1']=genvalid('BsToMuMu_forSTEAM_13TeV_TuneCUETP8M1_cfi',step1GenDefaults)
1480 
1481 
1482 # sometimes v1 won't be used - override it here - the dictionary key is gen fragment + '_' + geometry
1483 overrideFragments={}
1484 
1485 import re
1486 for key in overrideFragments:
1487  for inI in steps[key]:
1488  DSold=steps[key][inI].dataSet
1489  DS = re.sub('v[0-9]*/','v'+overrideFragments[key]+'/',DSold.rstrip())
1490  del steps[key]
1491  steps[key]={'INPUT':InputInfo(dataSet=DS,location='STD')}
1492 
1493 
1494 #PU for FullSim
1495 PU={'-n':10,'--pileup':'default','--pileup_input':'das:/RelValMinBias/%s/GEN-SIM'%(baseDataSetRelease[0],)}
1496 # pu2 can be removed
1497 PU2={'-n':10,'--pileup':'default','--pileup_input':'das:/RelValMinBias/%s/GEN-SIM'%(baseDataSetRelease[0],)}
1498 PU25={'-n':10,'--pileup':'AVE_35_BX_25ns','--pileup_input':'das:/RelValMinBias_13/%s/GEN-SIM'%(baseDataSetRelease[3],)}
1499 PU50={'-n':10,'--pileup':'AVE_35_BX_50ns','--pileup_input':'das:/RelValMinBias_13/%s/GEN-SIM'%(baseDataSetRelease[3],)}
1500 PUHI={'-n':10,'--pileup_input':'das:/RelValHydjetQ_B12_5020GeV_2018/%s/GEN-SIM'%(baseDataSetRelease[9])}
1501 PU25UP17={'-n':10,'--pileup':'AVE_35_BX_25ns','--pileup_input':'das:/RelValMinBias_13/%s/GEN-SIM'%(baseDataSetRelease[13],)}
1502 PU25UP18={'-n':10,'--pileup':'AVE_50_BX_25ns','--pileup_input':'das:/RelValMinBias_13/%s/GEN-SIM'%(baseDataSetRelease[18],)}
1503 
1504 #PU for FastSim
1505 # FS_PU_INPUT_13TEV = "file:/afs/cern.ch/work/l/lveldere/minbias.root" # placeholder for relval to be produced with wf 135.8
1506 PUFS={'--pileup':'GEN_2012_Summer_50ns_PoissonOOTPU'}
1507 # PUFS2={'--pileup':'2012_Startup_50ns_PoissonOOTPU'} # not used anywhere
1508 PUFSAVE10={'--pileup':'GEN_AVE_10_BX_25ns'} # temporary: one or a few releases as back-up
1509 PUFSAVE20={'--pileup':'GEN_AVE_20_BX_25ns'} # temporary: one or a few releases as back-up
1510 PUFSAVE35={'--pileup':'GEN_AVE_35_BX_25ns'}
1511 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'}
1512 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'}
1513 PUFS25={'--pileup':'AVE_35_BX_25ns','--pileup_input':'das:/RelValMinBiasFS_13_ForMixing/%s/GEN-SIM-RECO'%(baseDataSetRelease[7],)}
1514 
1515 #pu25 for high stats workflows
1516 PU25HS={'-n':10,'--pileup':'AVE_35_BX_25ns','--pileup_input':'das:/RelValMinBias_13/%s/GEN-SIM'%(baseDataSetRelease[11],)}
1517 
1518 
1519 #
1520 steps['TTbarFSPU']=merge([PUFS,Kby(100,500),steps['TTbarFS']] )
1521 
1522 steps['FS_TTbar_13_PUAVE10']=merge([PUFSAVE10,Kby(100,500),steps['TTbarFS_13']] ) # temporary: one or a few releases as back-up
1523 steps['FS_TTbar_13_PUAVE20']=merge([PUFSAVE20,Kby(100,500),steps['TTbarFS_13']] ) # temporary: one or a few releases as back-up
1524 steps['FS_TTbar_13_PUAVE35']=merge([PUFSAVE35,Kby(100,500),steps['TTbarFS_13']] )
1525 steps['FS_TTbar_13_PU25']=merge([PUFS25,Kby(100,500),steps['TTbarFS_13']] ) # needs the placeholder
1526 steps['FS_NuGun_UP15_PU25']=merge([PUFS25,Kby(100,500),steps['NuGunFS_UP15']] ) # needs the placeholder
1527 steps['FS_SMS-T1tttt_mGl-1500_mLSP-100_13_PU25']=merge([PUFS25,Kby(100,500),steps['SMS-T1tttt_mGl-1500_mLSP-100FS_13']] )
1528 
1529 steps['FS__PU25']=merge([PUFS25,Kby(100,500),steps['NuGunFS_UP15']] ) # needs the placeholder
1530 steps['FS_TTbar_13_PUAVE10_DRMIX_ITO']=merge([PUFSAVE10_DRMIX_ITO,Kby(100,500),steps['TTbarFS_13']] ) # needs the placeholder
1531 steps['FS_TTbar_13_PUAVE35_DRMIX_ITO']=merge([PUFSAVE35_DRMIX_ITO,Kby(100,500),steps['TTbarFS_13']] ) # needs the placeholder
1532 
1533 # step2
1534 step2Defaults = { '-s' : 'DIGI:pdigi_valid,L1,DIGI2RAW,HLT:@fake',
1535  '--datatier' : 'GEN-SIM-DIGI-RAW-HLTDEBUG',
1536  '--eventcontent': 'FEVTDEBUGHLT',
1537  '--conditions' : 'auto:run1_mc',
1538  }
1539 #for 2015
1540 step2Upg2015Defaults = {'-s' :'DIGI:pdigi_valid,L1,DIGI2RAW,HLT:@relval2016',
1541  '--conditions' :'auto:run2_mc',
1542  '--datatier' :'GEN-SIM-DIGI-RAW-HLTDEBUG',
1543  '--eventcontent':'FEVTDEBUGHLT',
1544  '--era' :'Run2_2016',
1545  '-n' :'10',
1546  }
1547 step2Upg2015Defaults50ns = merge([{'-s':'DIGI:pdigi_valid,L1,DIGI2RAW,HLT:@relval50ns','--conditions':'auto:run2_mc_50ns','--era':'Run2_50ns'},step2Upg2015Defaults])
1548 
1549 step2Upg2015DefaultsAPVSimu = merge([{'--era': 'Run2_2016_HIPM'},step2Upg2015Defaults])
1550 
1551 #for 2017
1552 step2Upg2017Defaults = {'-s' :'DIGI:pdigi_valid,L1,DIGI2RAW,HLT:@relval2017',
1553  '--conditions' :'auto:phase1_2017_realistic',
1554  '--datatier' :'GEN-SIM-DIGI-RAW-HLTDEBUG',
1555  '--eventcontent':'FEVTDEBUGHLT',
1556  '--era' :'Run2_2017',
1557  '-n' :'10',
1558  '--geometry' :'DB:Extended',
1559  }
1560 
1561 #for 2018
1562 step2Upg2018Defaults = {'-s' :'DIGI:pdigi_valid,L1,DIGI2RAW,HLT:@relval2018',
1563  '--conditions' :'auto:phase1_2018_realistic',
1564  '--datatier' :'GEN-SIM-DIGI-RAW-HLTDEBUG',
1565  '--eventcontent':'FEVTDEBUGHLT',
1566  '--era' :'Run2_2018',
1567  '-n' :'10',
1568  '--geometry' :'DB:Extended',
1569  }
1570 
1571 
1572 steps['DIGIUP15']=merge([step2Upg2015Defaults])
1573 steps['DIGIUP15APVSimu']=merge([{'--era': 'Run2_2016_HIPM'},step2Upg2015Defaults])
1574 
1575 steps['DIGIUP15PROD1']=merge([{'-s':'DIGI,L1,DIGI2RAW,HLT:@relval2016','--eventcontent':'RAWSIM','--datatier':'GEN-SIM-RAW'},step2Upg2015Defaults])
1576 steps['DIGIUP15_PU25']=merge([PU25,step2Upg2015Defaults])
1577 steps['DIGIUP15APVSimu_PU25']=merge([PU25,step2Upg2015DefaultsAPVSimu])
1578 
1579 steps['DIGIUP15_PU50']=merge([PU50,step2Upg2015Defaults50ns])
1580 steps['DIGIUP17']=merge([step2Upg2017Defaults])
1581 steps['DIGIUP18']=merge([step2Upg2018Defaults])
1582 steps['DIGIUP17PROD1']=merge([{'-s':'DIGI,L1,DIGI2RAW,HLT:@relval2017','--eventcontent':'RAWSIM','--datatier':'GEN-SIM-RAW'},step2Upg2017Defaults])
1583 steps['DIGIUP18PROD1']=merge([{'-s':'DIGI,L1,DIGI2RAW,HLT:@relval2018','--eventcontent':'RAWSIM','--datatier':'GEN-SIM-RAW'},step2Upg2018Defaults])
1584 steps['DIGIUP17_PU25']=merge([PU25UP17,step2Upg2017Defaults])
1585 steps['DIGIUP18_PU25']=merge([PU25UP18,step2Upg2018Defaults])
1586 
1587 # for Run2 PPb MC workflows
1588 steps['DIGIUP15_PPb']=merge([{'-s':'DIGI:pdigi_valid,L1,DIGI2RAW,HLT:PIon','--conditions':'auto:run2_mc_pa', '--era':'Run2_2016_pA'}, steps['DIGIUP15']])
1589 
1590 # PU25 for high stats workflows
1591 steps['DIGIUP15_PU25HS']=merge([PU25HS,step2Upg2015Defaults])
1592 
1593 
1594 steps['DIGIPROD1']=merge([{'-s':'DIGI,L1,DIGI2RAW,HLT:@fake','--eventcontent':'RAWSIM','--datatier':'GEN-SIM-RAW'},step2Defaults])
1595 steps['DIGI']=merge([step2Defaults])
1596 #steps['DIGI2']=merge([stCond,step2Defaults])
1597 steps['DIGICOS']=merge([{'--scenario':'cosmics','--eventcontent':'FEVTDEBUG','--datatier':'GEN-SIM-DIGI-RAW'},stCond,step2Defaults])
1598 steps['DIGIHAL']=merge([{'--scenario':'cosmics','--eventcontent':'FEVTDEBUG','--datatier':'GEN-SIM-DIGI-RAW'},step2Upg2015Defaults])
1599 steps['DIGICOS_UP15']=merge([{'--conditions':'auto:run2_mc_cosmics','--scenario':'cosmics','--eventcontent':'FEVTDEBUG','--datatier':'GEN-SIM-DIGI-RAW'},step2Upg2015Defaults])
1600 steps['DIGICOS_UP16']=merge([{'--conditions':'auto:run2_mc_cosmics','-s':'DIGI:pdigi_valid,L1,DIGI2RAW,HLT:@relval2016','--scenario':'cosmics','--eventcontent':'FEVTDEBUG','--datatier':'GEN-SIM-DIGI-RAW', '--era' : 'Run2_2016'},step2Upg2015Defaults])
1601 steps['DIGICOS_UP17']=merge([{'--conditions':'auto:phase1_2017_cosmics','-s':'DIGI:pdigi_valid,L1,DIGI2RAW,HLT:@relval2017','--scenario':'cosmics','--eventcontent':'FEVTDEBUG','--datatier':'GEN-SIM-DIGI-RAW', '--era' : 'Run2_2017'},step2Upg2015Defaults])
1602 steps['DIGICOS_UP18']=merge([{'--conditions':'auto:phase1_2018_cosmics','-s':'DIGI:pdigi_valid,L1,DIGI2RAW,HLT:@relval2018','--scenario':'cosmics','--eventcontent':'FEVTDEBUG','--datatier':'GEN-SIM-DIGI-RAW', '--era' : 'Run2_2018'},step2Upg2015Defaults])
1603 steps['DIGICOS_UP21']=merge([{'--conditions':'auto:phase1_2021_cosmics','-s':'DIGI:pdigi_valid,L1,DIGI2RAW,HLT:@relval2017','--scenario':'cosmics','--eventcontent':'FEVTDEBUG','--datatier':'GEN-SIM-DIGI-RAW', '--era' : 'Run3'},step2Upg2015Defaults])
1604 steps['DIGICOSPEAK_UP17']=merge([{'--conditions':'auto:phase1_2017_cosmics_peak','-s':'DIGI:pdigi_valid,L1,DIGI2RAW,HLT:@relval2017','--customise_commands': '"process.mix.digitizers.strip.APVpeakmode=cms.bool(True)"','--scenario':'cosmics','--eventcontent':'FEVTDEBUG','--datatier':'GEN-SIM-DIGI-RAW', '--era' : 'Run2_2017'},step2Upg2015Defaults])
1605 steps['DIGICOSPEAK_UP18']=merge([{'--conditions':'auto:phase1_2018_cosmics_peak','-s':'DIGI:pdigi_valid,L1,DIGI2RAW,HLT:@relval2018','--customise_commands': '"process.mix.digitizers.strip.APVpeakmode=cms.bool(True)"','--scenario':'cosmics','--eventcontent':'FEVTDEBUG','--datatier':'GEN-SIM-DIGI-RAW', '--era' : 'Run2_2018'},step2Upg2015Defaults])
1606 
1607 steps['DIGIPU1']=merge([PU,step2Defaults])
1608 steps['DIGIPU2']=merge([PU2,step2Defaults])
1609 steps['REDIGIPU']=merge([{'-s':'reGEN,reDIGI,L1,DIGI2RAW,HLT:@fake'},steps['DIGIPU1']])
1610 
1611 steps['DIGIUP15_ID']=merge([{'--restoreRND':'HLT','--process':'HLT2'},steps['DIGIUP15']])
1612 
1613 steps['RESIM']=merge([{'-s':'reGEN,reSIM','-n':10},steps['DIGI']])
1614 #steps['RESIMDIGI']=merge([{'-s':'reGEN,reSIM,DIGI,L1,DIGI2RAW,HLT:@fake,RAW2DIGI,L1Reco','-n':10,'--restoreRNDSeeds':'','--process':'HLT'},steps['DIGI']])
1615 
1616 
1617 steps['DIGIHI2018PPRECO']=merge([{'-s':'DIGI:pdigi_hi,L1,DIGI2RAW,HLT:HIon'}, hiDefaults2018_ppReco, {'--pileup':'HiMixNoPU'}, step2Upg2015Defaults])
1618 steps['DIGIHI2018']=merge([{'-s':'DIGI:pdigi_hi,L1,DIGI2RAW,HLT:@fake2'}, hiDefaults2018, {'--pileup':'HiMixNoPU'}, step2Upg2015Defaults])
1619 steps['DIGIHI2017']=merge([{'-s':'DIGI:pdigi_hi,L1,DIGI2RAW,HLT:@fake2'}, hiDefaults2017, step2Upg2015Defaults])
1620 steps['DIGIHI2015']=merge([{'-s':'DIGI:pdigi_hi,L1,DIGI2RAW,HLT:@fake'}, hiDefaults2015, {'--pileup':'HiMixNoPU'}, step2Upg2015Defaults])
1621 steps['DIGIHI2011']=merge([{'-s':'DIGI:pdigi_hi,L1,DIGI2RAW,HLT:@fake'}, hiDefaults2011, {'--pileup':'HiMixNoPU'}, step2Defaults])
1622 steps['DIGIHIMIX']=merge([{'-s':'DIGI:pdigi_hi,L1,DIGI2RAW,HLT:@fake2', '-n':2}, hiDefaults2018_ppReco, {'--pileup':'HiMix'}, PUHI, step2Upg2015Defaults])
1623 
1624 steps['DIGIPPREF2017']=merge([{'-s':'DIGI:pdigi_valid,L1,DIGI2RAW,HLT:@fake2'}, ppRefDefaults2017, step2Upg2015Defaults])
1625 
1626 # PRE-MIXING : https://twiki.cern.ch/twiki/bin/view/CMSPublic/SWGuideSimulation#Pre_Mixing_Instructions
1627 premixUp2015Defaults = {
1628  '--evt_type' : 'SingleNuE10_cfi',
1629  '-s' : 'GEN,SIM,DIGI:pdigi_valid',
1630  '-n' : '10',
1631  '--conditions' : 'auto:run2_mc', # 25ns GT; dedicated dict for 50ns
1632  '--datatier' : 'PREMIX',
1633  '--eventcontent': 'PREMIX',
1634  '--procModifiers':'premix_stage1',
1635  '--era' : 'Run2_2016' # temporary replacement for premix; to be brought back to customisePostLS1 *EDIT - This comment possibly no longer relevant with switch to eras
1636 }
1637 
1638 premixUp2015Defaults50ns = merge([{'--conditions':'auto:run2_mc_50ns'},
1639  {'--era':'Run2_50ns'},
1640  premixUp2015Defaults])
1641 
1642 premixUp2017Defaults = merge([{'--conditions':'auto:phase1_2017_realistic'},
1643  {'--era':'Run2_2017'},
1644  premixUp2015Defaults])
1645 
1646 premixUp2018Defaults = merge([{'--conditions':'auto:phase1_2018_realistic'},
1647  {'--era':'Run2_2018'},
1648  premixUp2015Defaults])
1649 
1650 steps['PREMIXUP15_PU25']=merge([PU25,Kby(100,100),premixUp2015Defaults])
1651 steps['PREMIXUP15_PU50']=merge([PU50,Kby(100,100),premixUp2015Defaults50ns])
1652 steps['PREMIXUP17_PU25']=merge([PU25UP17,Kby(100,100),premixUp2017Defaults])
1653 steps['PREMIXUP18_PU25']=merge([PU25UP18,Kby(100,100),premixUp2018Defaults])
1654 
1655 digiPremixUp2015Defaults25ns = {
1656  '--conditions' : 'auto:run2_mc',
1657  '-s' : 'DIGI:pdigi_valid,DATAMIX,L1,DIGI2RAW,HLT:@relval2016',
1658  '--pileup_input' : 'das:/RelValPREMIXUP15_PU25/%s/PREMIX'%baseDataSetRelease[5],
1659  '--eventcontent' : 'FEVTDEBUGHLT',
1660  '--datatier' : 'GEN-SIM-DIGI-RAW-HLTDEBUG',
1661  '--datamix' : 'PreMix',
1662  '--procModifiers': 'premix_stage2',
1663  '--era' : 'Run2_2016'
1664  }
1665 # Specifying explicitly the --filein is not nice but that was the
1666 # easiest way to "skip" the output of step2 (=premixing stage1) for
1667 # filein (as it goes to pileup_input). It works (a bit accidentally
1668 # though) also for "-i all" because in that case the --filein for DAS
1669 # input is after this one in the list of command line arguments to
1670 # cmsDriver, and gets then used in practice.
1671 digiPremixLocalPileup = {
1672  "--filein": "file:step1.root",
1673  "--pileup_input": "file:step2.root"
1674 }
1675 digiPremixLocalPileupUp2015Defaults25ns = merge([digiPremixLocalPileup,
1676  digiPremixUp2015Defaults25ns])
1677 digiPremixUp2015Defaults50ns=merge([{'-s':'DIGI:pdigi_valid,DATAMIX,L1,DIGI2RAW,HLT:@relval50ns'},
1678  {'--conditions':'auto:run2_mc_50ns'},
1679  {'--pileup_input' : 'das:/RelValPREMIXUP15_PU50/%s/PREMIX'%baseDataSetRelease[6]},
1680  {'--era' : 'Run2_50ns'},
1681  digiPremixUp2015Defaults25ns])
1682 
1683 digiPremixUp2017Defaults25ns = {
1684  '--conditions' : 'auto:phase1_2017_realistic',
1685  '-s' : 'DIGI:pdigi_valid,DATAMIX,L1,DIGI2RAW,HLT:@relval2017',
1686  '--pileup_input' : 'das:/RelValPREMIXUP17_PU25/%s/PREMIX'%baseDataSetRelease[14],
1687  '--eventcontent' : 'FEVTDEBUGHLT',
1688  '--datatier' : 'GEN-SIM-DIGI-RAW-HLTDEBUG',
1689  '--datamix' : 'PreMix',
1690  '--procModifiers': 'premix_stage2',
1691  '--era' : 'Run2_2017'
1692  }
1693 digiPremixLocalPileupUp2017Defaults25ns = merge([digiPremixLocalPileup,
1694  digiPremixUp2017Defaults25ns])
1695 
1696 
1697 digiPremixUp2018Defaults25ns = {
1698  '--conditions' : 'auto:phase1_2018_realistic',
1699  '-s' : 'DIGI:pdigi_valid,DATAMIX,L1,DIGI2RAW,HLT:@relval2018',
1700  '--pileup_input' : 'das:/RelValPREMIXUP18_PU25/%s/PREMIX'%baseDataSetRelease[17],
1701  '--eventcontent' : 'FEVTDEBUGHLT',
1702  '--datatier' : 'GEN-SIM-DIGI-RAW-HLTDEBUG',
1703  '--datamix' : 'PreMix',
1704  '--procModifiers': 'premix_stage2',
1705  '--era' : 'Run2_2018'
1706  }
1707 digiPremixLocalPileupUp2018Defaults25ns = merge([digiPremixLocalPileup,
1708  digiPremixUp2018Defaults25ns])
1709 
1710 steps['DIGIPRMXUP15_PU25']=merge([digiPremixUp2015Defaults25ns])
1711 steps['DIGIPRMXUP15APVSimu_PU25']=merge([{'--era': 'Run2_2016_HIPM'},digiPremixUp2015Defaults25ns])
1712 steps['DIGIPRMXLOCALUP15_PU25']=merge([digiPremixLocalPileupUp2015Defaults25ns])
1713 steps['DIGIPRMXLOCALUP15APVSimu_PU25']=merge([{'--era': 'Run2_2016_HIPM'},digiPremixLocalPileupUp2015Defaults25ns])
1714 
1715 steps['DIGIPRMXUP15_PU50']=merge([digiPremixUp2015Defaults50ns])
1716 steps['DIGIPRMXUP17_PU25']=merge([digiPremixUp2017Defaults25ns])
1717 steps['DIGIPRMXLOCALUP17_PU25']=merge([digiPremixLocalPileupUp2017Defaults25ns])
1718 steps['DIGIPRMXUP18_PU25']=merge([digiPremixUp2018Defaults25ns])
1719 steps['DIGIPRMXLOCALUP18_PU25']=merge([digiPremixLocalPileupUp2018Defaults25ns])
1720 
1721 premixProd25ns = {'-s' : 'DIGI,DATAMIX,L1,DIGI2RAW,HLT:@relval2016',
1722  '--eventcontent' : 'PREMIXRAW',
1723  '--datatier' : 'PREMIXRAW'}
1724 premixProd50ns = merge([{'-s':'DIGI,DATAMIX,L1,DIGI2RAW,HLT:@relval50ns'},premixProd25ns])
1725 premixProd25ns2017 = merge([{'-s':'DIGI,DATAMIX,L1,DIGI2RAW,HLT:@relval2017'},premixProd25ns])
1726 premixProd25ns2018 = merge([{'-s':'DIGI,DATAMIX,L1,DIGI2RAW,HLT:@relval2018','--datatier':'GEN-SIM-RAW','--geometry':'DB:Extended'},premixProd25ns])
1727 
1728 steps['DIGIPRMXUP15_PROD_PU25']=merge([premixProd25ns,digiPremixUp2015Defaults25ns])
1729 steps['DIGIPRMXUP15_PROD_PU50']=merge([premixProd50ns,digiPremixUp2015Defaults50ns])
1730 steps['DIGIPRMXUP17_PROD_PU25']=merge([premixProd25ns2017,digiPremixUp2017Defaults25ns])
1731 steps['DIGIPRMXUP18_PROD_PU25']=merge([premixProd25ns2018,digiPremixUp2018Defaults25ns])
1732 
1733 dataReco={ '--runUnscheduled':'',
1734  '--conditions':'auto:run1_data',
1735  '-s':'RAW2DIGI,L1Reco,RECO,EI,PAT,ALCA:SiStripCalZeroBias+SiStripCalMinBias+TkAlMinBias+EcalESAlign,DQM:@standardDQM+@ExtraHLT+@miniAODDQM',
1736  '--datatier':'RECO,MINIAOD,DQMIO',
1737  '--eventcontent':'RECO,MINIAOD,DQM',
1738  '--data':'',
1739  '--process':'reRECO',
1740  '--scenario':'pp',
1741  }
1742 
1743 dataRecoAlCaCalo=merge([{'-s':'RAW2DIGI,L1Reco,RECO,EI,ALCA:SiStripCalZeroBias+SiStripCalMinBias+TkAlMinBias+EcalCalZElectron+EcalCalWElectron+EcalUncalZElectron+EcalUncalWElectron+EcalTrg+HcalCalIsoTrk,DQM'}, dataReco])
1744 
1745 
1746 hltKey='fake'
1747 menu = autoHLT[hltKey]
1748 steps['HLTD']=merge([{'--process':'reHLT',
1749  '-s':'L1REPACK,HLT:@%s'%hltKey,
1750  '--conditions':'auto:run1_hlt_%s'%menu,
1751  '--data':'',
1752  '--eventcontent': 'FEVTDEBUGHLT',
1753  '--datatier': 'FEVTDEBUGHLT',
1754 # '--output':'\'[{"e":"RAW","t":"RAW","o":["drop FEDRawDataCollection_rawDataCollector__LHC"]}]\'',
1755  },])
1756 
1757 
1758 steps['HLTDSKIM']=merge([{'--inputCommands':'"keep *","drop *_*_*_RECO"'},steps['HLTD']])
1759 steps['HLTDSKIM2']=merge([{'--inputCommands':'"keep *","drop *_*_*_RECO","drop *_*_*_reRECO"'},steps['HLTD']])
1760 
1761 
1762 steps['RECOD']=merge([{'--scenario':'pp',},dataReco])
1763 steps['RECODR1']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,EI,PAT,ALCA:SiStripCalZeroBias+SiStripCalMinBias+TkAlMinBias,DQM:@standardDQMFakeHLT+@miniAODDQM'},dataReco])
1764 steps['RECODAlCaCalo']=merge([{'--scenario':'pp',},dataRecoAlCaCalo])
1765 
1766 hltKey50ns='relval50ns'
1767 menuR2_50ns = autoHLT[hltKey50ns]
1768 steps['HLTDR2_50ns']=merge( [ {'-s':'L1REPACK,HLT:@%s'%hltKey50ns,},{'--conditions':'auto:run2_hlt_relval'},{'--era' : 'Run2_50ns'},steps['HLTD'] ] )
1769 
1770 hltKey25ns='relval25ns'
1771 menuR2_25ns = autoHLT[hltKey25ns]
1772 steps['HLTDR2_25ns']=merge( [ {'-s':'L1REPACK:GT2,HLT:@%s'%hltKey25ns,},{'--conditions':'auto:run2_hlt_relval'},{'--era' : 'Run2_25ns'},steps['HLTD'] ] )
1773 
1774 
1775 hltKey2016='relval2016'
1776 menuR2_2016 = autoHLT[hltKey2016]
1777 steps['HLTDR2_2016']=merge( [ {'-s':'L1REPACK:Full,HLT:@%s'%hltKey2016,},{'--conditions':'auto:run2_hlt_relval'},{'--era' : 'Run2_2016'},steps['HLTD'] ] )
1778 
1779 
1780 hltKey2017='relval2017'
1781 steps['HLTDR2_2017']=merge( [ {'-s':'L1REPACK:Full,HLT:@%s'%hltKey2017,},{'--conditions':'auto:run2_hlt_relval'},{'--era' : 'Run2_2017'},steps['HLTD'] ] )
1782 
1783 hltKey2018='relval2018'
1784 steps['HLTDR2_2018']=merge( [ {'-s':'L1REPACK:Full,HLT:@%s'%hltKey2018,},{'--conditions':'auto:run2_hlt_relval'},{'--era' : 'Run2_2018'},steps['HLTD'] ] )
1785 
1786 steps['HLTDR2_2018_hBStar']=merge( [ {'--era' : 'Run2_2018_highBetaStar'},steps['HLTDR2_2018'] ] )
1787 steps['HLTDR2_2018_BadHcalMitig']=merge( [ {'--era' : 'Run2_2018,pf_badHcalMitigation'},steps['HLTDR2_2018'] ] )
1788 
1789 # use --era
1790 steps['RECODR2_50ns']=merge([{'--scenario':'pp','--conditions':'auto:run2_data_relval','--era':'Run2_50ns',},dataReco])
1791 steps['RECODR2_25ns']=merge([{'--scenario':'pp','--conditions':'auto:run2_data_relval','--era':'Run2_25ns','--customise':'Configuration/DataProcessing/RecoTLR.customisePostEra_Run2_25ns'},dataReco])
1792 steps['RECODR2_2016']=merge([{'--scenario':'pp','--conditions':'auto:run2_data_relval','--era':'Run2_2016','--customise':'Configuration/DataProcessing/RecoTLR.customisePostEra_Run2_2016'},dataReco])
1793 steps['RECODR2_2017']=merge([{'--scenario':'pp','--conditions':'auto:run2_data_relval','--era':'Run2_2017','--customise':'Configuration/DataProcessing/RecoTLR.customisePostEra_Run2_2017'},dataReco])
1794 steps['RECODR2_2018']=merge([{'--scenario':'pp','--conditions':'auto:run2_data_relval','--era':'Run2_2018','--customise':'Configuration/DataProcessing/RecoTLR.customisePostEra_Run2_2018'},dataReco])
1795 
1796 steps['RECODR2AlCaEle']=merge([{'--scenario':'pp','--conditions':'auto:run2_data_relval','--customise':'Configuration/DataProcessing/RecoTLR.customisePromptRun2',},dataRecoAlCaCalo])
1797 
1798 steps['RECODSplit']=steps['RECOD'] # finer job splitting
1799 steps['RECOSKIMALCA']=merge([{'--inputCommands':'"keep *","drop *_*_*_RECO"'
1800  },steps['RECOD']])
1801 steps['RECOSKIMALCAR1']=merge([{'--inputCommands':'"keep *","drop *_*_*_RECO"'
1802  },steps['RECODR1']])
1803 steps['REPACKHID']=merge([{'--scenario':'HeavyIons',
1804  '-s':'RAW2DIGI,REPACK',
1805  '--datatier':'RAW',
1806  '--eventcontent':'REPACKRAW'},
1807  steps['RECOD']])
1808 steps['RECOHID10']=merge([{'--scenario':'HeavyIons',
1809  '-s':'RAW2DIGI,L1Reco,RECO,ALCA:SiStripCalZeroBias+SiStripCalMinBias+TkAlMinBiasHI+TkAlUpsilonMuMuHI+TkAlZMuMuHI+TkAlMuonIsolatedHI+TkAlJpsiMuMuHI+HcalCalMinBias,DQM',
1810  '--datatier':'RECO,DQMIO',
1811  '--eventcontent':'RECO,DQM','-n':30},
1812  steps['RECOD']])
1813 steps['RECOHID11']=merge([{'--repacked':''},
1814  steps['RECOHID10']])
1815 steps['RECOHID10']['-s']+=',REPACK'
1816 steps['RECOHID10']['--datatier']+=',RAW'
1817 steps['RECOHID10']['--eventcontent']+=',REPACKRAW'
1818 
1819 steps['HYBRIDRepackHI2015VR']={'--eventcontent':'RAW',
1820  '--datatier':'RAW',
1821  '--conditions':'auto:run2_hlt_hi',
1822  '--step':'RAW2DIGI,REPACK:DigiToHybridRawRepack',
1823  '--scenario':'HeavyIons',
1824  '--data':'',
1825  '--era':'Run2_HI',
1826  '--customise':'RecoLocalTracker/SiStripZeroSuppression/customiseHybrid.addHybridEmulationBeforeRepack',
1827  '--processName':'EMULATEHYBRID',
1828  '--outputCommands':'"drop FEDRawDataCollection_*__HLT","drop FEDRawDataCollection_*__LHC"',
1829  #'--customise_commands':'\'process.RAWoutput.outputCommands.append(\"drop *_*_*_HLT*\")\'',
1830  '-n':100
1831  }
1832 
1833 steps['HYBRIDZSHI2015']=merge([{'--step': 'RAW2DIGI,REPACK:DigiToRawRepack',
1834  '--processName':'REHLT',
1835  '--customise': 'RecoLocalTracker/SiStripZeroSuppression/customiseHybrid.runOnHybridZS,RecoLocalTracker/SiStripZeroSuppression/customiseHybrid.repackZSHybrid',
1836  '--customise_commands':'\'from Configuration.Applications.ConfigBuilder import MassReplaceInputTag; MassReplaceInputTag(process, new="hybridRawDataRepacker")\'' ,
1837  },steps['HYBRIDRepackHI2015VR']])
1838 
1839 steps['RECOHID15']=merge([{ '--runUnscheduled':'',
1840  '--conditions':'auto:run2_data',
1841  '--era':'Run2_HI'
1842  },steps['RECOHID11']])
1843 
1844 steps['RECOHID18']=merge([{ '--scenario':'pp',
1845  '--conditions':'auto:run2_data_promptlike_hi',
1846  '-s':'RAW2DIGI,L1Reco,RECO,ALCA:SiStripCalZeroBias+SiPixelCalZeroBias,SKIM:PbPbEMu+PbPbZEE+PbPbZMM+PbPbZMu,EI,DQM:@common+@standardDQM+@ExtraHLT',
1847  '--datatier':'AOD,DQMIO',
1848  '--eventcontent':'AOD,DQM',
1849  '--era':'Run2_2018_pp_on_AA',
1850  '-n':'10'
1851  },steps['RECOHID15']])
1852 
1853 steps['TIER0']=merge([{'--customise':'Configuration/DataProcessing/RecoTLR.customisePrompt',
1854  '-s':'RAW2DIGI,L1Reco,RECO,EI,ALCAPRODUCER:@allForPrompt,DQM:@allForPrompt,ENDJOB',
1855  '--datatier':'RECO,AOD,ALCARECO,DQMIO',
1856  '--eventcontent':'RECO,AOD,ALCARECO,DQM',
1857  '--process':'RECO'
1858  },dataReco])
1859 steps['TIER0EXP']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,EI,ALCAPRODUCER:@allForExpress+AlCaPCCZeroBiasFromRECO+AlCaPCCRandomFromRECO,DQM:@express,ENDJOB',
1860  '--datatier':'ALCARECO,DQMIO',
1861  '--eventcontent':'ALCARECO,DQM',
1862  '--customise':'Configuration/DataProcessing/RecoTLR.customiseExpress',
1863  },steps['TIER0']])
1864 
1865 steps['TIER0EXPRUN2']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,EI,ALCAPRODUCER:@allForExpress+AlCaPCCZeroBiasFromRECO+AlCaPCCRandomFromRECO,DQM:@express,ENDJOB',
1866  '--process':'RECO',
1867  '--datatier':'ALCARECO,DQMIO',
1868  '--eventcontent':'ALCARECO,DQM',
1869  '--customise':'Configuration/DataProcessing/RecoTLR.customiseExpress',
1870  '--era':'Run2_2017',
1871  '--conditions':'auto:run2_data_promptlike'
1872  },steps['TIER0']])
1873 
1874 steps['TIER0EXPHI']={ '--conditions':'auto:run1_data',
1875  '-s':'RAW2DIGI,L1Reco,RECO,ALCAPRODUCER:@allForExpressHI,DQM,ENDJOB',
1876  '--datatier':'ALCARECO,DQMIO',
1877  '--eventcontent':'ALCARECO,DQM',
1878  '--data':'',
1879  '--process':'RECO',
1880  '--scenario':'HeavyIons',
1881  '--customise':'Configuration/DataProcessing/RecoTLR.customiseExpressHI',
1882  '--repacked':'',
1883  '-n':'10'
1884  }
1885 steps['TIER0EXPTE']={'-s': 'ALCAPRODUCER:EcalTestPulsesRaw',
1886  '--conditions': 'auto:run2_data',
1887  '--datatier':'ALCARECO',
1888  '--eventcontent':'ALCARECO',
1889  '--data': '',
1890  '--process': 'RECO',
1891  '--scenario': 'pp',
1892  #'--customise':'Configuration/DataProcessing/RecoTLR.customiseExpress',
1893  }
1894 
1895 steps['TIER0EXPLP']={'-s': 'ALCAPRODUCER:AlCaPCCRandom',
1896  '--conditions': 'auto:run2_data',
1897  '--datatier':'ALCARECO',
1898  '--eventcontent':'ALCARECO',
1899  '--data': '',
1900  '--scenario': 'pp',
1901  '--process': 'RECO',
1902  # '--customise':'Configuration/DataProcessing/RecoTLR.customiseExpress',
1903  }
1904 
1905 steps['TIER0PROMPTLP']={'-s': 'ALCAPRODUCER:AlCaPCCZeroBias+RawPCCProducer',
1906  '--conditions': 'auto:run2_data',
1907  '--datatier':'ALCARECO',
1908  '--eventcontent':'ALCARECO',
1909  '--data': '',
1910  '--scenario': 'pp',
1911  '--process': 'RECO',
1912  '--filein': 'filelist:step1_dasquery.log'
1913  # '--customise':'Configuration/DataProcessing/RecoTLR.customiseExpress',
1914  }
1915 
1916 
1917 steps['ALCAEXPLP']={'-s':'ALCAOUTPUT:AlCaPCCRandom,ALCA:PromptCalibProdLumiPCC',
1918  '--conditions':'auto:run2_data',
1919  '--datatier':'ALCARECO',
1920  '--eventcontent':'ALCARECO',
1921  '--triggerResultsProcess': 'RECO'}
1922 
1923 steps['ALCAHARVLP']={'-s':'ALCAHARVEST:%s'%(autoPCL['PromptCalibProdLumiPCC']),
1924  '--conditions':'auto:run2_data',
1925  '--scenario':'pp',
1926  '--datatier':'DQM',
1927  '--eventcontent': 'DQM',
1928  '--data':'',
1929  '--filein':'file:PromptCalibProdLumiPCC.root'}
1930 
1931 
1932 steps['TIER0EXPHPBS']={'-s':'RAW2DIGI,L1Reco,RECO:reconstruction_trackingOnly,ALCAPRODUCER:TkAlMinBias,DQM:DQMOfflineTracking,ENDJOB',
1933  '--process':'RECO',
1934  '--scenario': 'pp',
1935  '--era':'Run2_2017',
1936  '--conditions':'auto:run2_data_promptlike',
1937  '--data': '',
1938  '--datatier':'ALCARECO,DQMIO',
1939  '--eventcontent':'ALCARECO,DQM',
1940  '--customise':'Configuration/DataProcessing/RecoTLR.customisePostEra_Run2_2017_express_trackingOnly',
1941  }
1942 
1943 steps['TIER0RAWSIPIXELCAL']={'-s':'RAW2DIGI,L1Reco,RECO,EI,ALCAPRODUCER:SiPixelCalZeroBias,DQM:@express,ENDJOB',
1944  '--process':'RECO',
1945  '--scenario': 'pp',
1946  '--era':'Run2_2017',
1947  '--conditions':'auto:run2_data_promptlike',
1948  '--data': '',
1949  '--datatier':'ALCARECO,DQMIO',
1950  '--eventcontent':'ALCARECO,DQM',
1951  '--customise':'Configuration/DataProcessing/RecoTLR.customiseExpress',
1952  }
1953 
1954 steps['TIER0EXPSIPIXELCAL']={'-s':'RAW2DIGI,L1Reco,ALCAPRODUCER:SiPixelCalZeroBias,ENDJOB',
1955  '--process':'ALCARECO',
1956  '--scenario': 'pp',
1957  '--era':'Run2_2017',
1958  '--conditions':'auto:run2_data_promptlike',
1959  '--data': '',
1960  '--datatier':'ALCARECO',
1961  '--eventcontent':'ALCARECO',
1962  }
1963 
1964 steps['ALCASPLITHPBS']={'-s':'ALCAOUTPUT:TkAlMinBias,ALCA:PromptCalibProdBeamSpotHP+PromptCalibProdBeamSpotHPLowPU',
1965  '--scenario':'pp',
1966  '--data':'',
1967  '--era':'Run2_2017',
1968  '--datatier':'ALCARECO',
1969  '--eventcontent':'ALCARECO',
1970  '--conditions':'auto:run2_data_promptlike',
1971  '--triggerResultsProcess':'RECO',
1972  }
1973 
1974 steps['ALCASPLITSIPIXELCAL']={'-s':'ALCAOUTPUT:SiPixelCalZeroBias,ALCA:PromptCalibProdSiPixel',
1975  '--scenario':'pp',
1976  '--data':'',
1977  '--era':'Run2_2017',
1978  '--datatier':'ALCARECO',
1979  '--eventcontent':'ALCARECO',
1980  '--conditions':'auto:run2_data_promptlike',
1981  '--triggerResultsProcess':'RECO',
1982  #'--filein':'file:step2.root'
1983  }
1984 
1985 steps['ALCAHARVDHPBS']={'-s':'ALCAHARVEST:%s'%(autoPCL['PromptCalibProdBeamSpotHP']),
1986  #'--conditions':'auto:run2_data_promptlike',
1987  '--conditions':'92X_dataRun2_Express_v2_snapshotted', # to replaced with line above once run2_data_promptlike will contain DropBoxMetadata
1988  '--scenario':'pp',
1989  '--data':'',
1990  '--era':'Run2_2017',
1991  '--customise':'Configuration/DataProcessing/RecoTLR.customisePostEra_Run2_2017_harvesting_trackingOnly',
1992  '--filein':'file:PromptCalibProdBeamSpotHP.root'}
1993 
1994 steps['ALCAHARVDHPBSLOWPU']={'-s':'ALCAHARVEST:%s'%(autoPCL['PromptCalibProdBeamSpotHPLowPU']),
1995  #'--conditions':'auto:run2_data_promptlike',
1996  '--conditions':'92X_dataRun2_Express_v2_snapshotted', # to replaced with line above once run2_data_promptlike will contain DropBoxMetadata
1997  '--scenario':'pp',
1998  '--data':'',
1999  '--era':'Run2_2017',
2000  '--customise':'Configuration/DataProcessing/RecoTLR.customisePostEra_Run2_2017_harvesting_trackingOnly',
2001  '--filein':'file:PromptCalibProdBeamSpotHPLowPU.root'}
2002 
2003 
2004 steps['ALCAHARVDSIPIXELCAL']={'-s':'ALCAHARVEST:%s'%(autoPCL['PromptCalibProdSiPixel']),
2005  '--conditions':'100X_dataRun2_Express_v2',
2006  '--scenario':'pp',
2007  '--data':'',
2008  '--era':'Run2_2017',
2009  '--filein':'file:PromptCalibProdSiPixel.root'}
2010 
2011 steps['ALCAHARVDSIPIXELCALRUN1']={'-s':'ALCAHARVEST:%s'%(autoPCL['PromptCalibProdSiPixel']),
2012  '--conditions':'auto:run1_data',
2013  '--scenario':'pp',
2014  '--data':'',
2015  '--filein':'file:PromptCalibProdSiPixel.root'}
2016 
2017 steps['RECOCOSD']=merge([{'--scenario':'cosmics',
2018  '-s':'RAW2DIGI,L1Reco,RECO,DQM,ALCA:DtCalib',
2019  '--datatier':'RECO,DQMIO', # no miniAOD for cosmics
2020  '--eventcontent':'RECO,DQM',
2021  '--customise':'Configuration/DataProcessing/RecoTLR.customiseCosmicData'
2022  },dataReco])
2023 
2024 steps['RECOCOSDRUN2']=merge([{'--conditions':'auto:run2_data','--era':'Run2_2016'},steps['RECOCOSD']])
2025 
2026 # step1 gensim for HI mixing
2027 step1Up2018HiMixDefaults = merge ([{'--beamspot':'MatchHI', '--pileup':'HiMixGEN', '--scenario':'HeavyIons'},hiDefaults2018_ppReco,PUHI,step1Up2018HiProdDefaults])
2028 def gen2018HiMix(fragment,howMuch):
2029  global step1Up2018HiMixDefaults
2030  return merge([{'cfg':fragment},howMuch,step1Up2018HiMixDefaults])
2031 
2032 steps['Pyquen_GammaJet_pt20_2760GeV']=gen2018HiMix('Pyquen_GammaJet_pt20_2760GeV_cfi',Kby(9,100))
2033 steps['Pyquen_DiJet_pt80to120_2760GeV']=gen2018HiMix('Pyquen_DiJet_pt80to120_2760GeV_cfi',Kby(9,100))
2034 steps['Pyquen_ZeemumuJets_pt10_2760GeV']=gen2018HiMix('Pyquen_ZeemumuJets_pt10_2760GeV_cfi',Kby(9,100))
2035 
2036 # step3
2037 step3Defaults = {
2038  '-s' : 'RAW2DIGI,L1Reco,RECO,RECOSIM,EI,PAT,VALIDATION:@standardValidationNoHLT+@miniAODValidation,DQM:@standardDQMFakeHLT+@miniAODDQM',
2039  '--runUnscheduled':'',
2040  '--conditions' : 'auto:run1_mc',
2041  '--no_exec' : '',
2042  '--datatier' : 'GEN-SIM-RECO,MINIAODSIM,DQMIO',
2043  '--eventcontent': 'RECOSIM,MINIAODSIM,DQM',
2044  }
2045 step3DefaultsAlCaCalo=merge([{'-s':'RAW2DIGI,L1Reco,RECO,EI,PAT,ALCA:EcalCalZElectron+EcalCalWElectron+EcalUncalZElectron+EcalUncalWElectron+HcalCalIsoTrk,VALIDATION:@standardValidationNoHLT+@miniAODValidation,DQM:@standardDQMFakeHLT+@miniAODDQM'},step3Defaults])
2046 
2047 steps['DIGIPU']=merge([{'--process':'REDIGI'},steps['DIGIPU1']])
2048 
2049 #for 2015
2050 step3Up2015Defaults = {
2051  #'-s':'RAW2DIGI,L1Reco,RECO,EI,VALIDATION,DQM',
2052  '-s':'RAW2DIGI,L1Reco,RECO,RECOSIM,EI,PAT,VALIDATION:@standardValidation+@miniAODValidation,DQM:@standardDQM+@ExtraHLT+@miniAODDQM',
2053  '--runUnscheduled':'',
2054  '--conditions':'auto:run2_mc',
2055  '-n':'10',
2056  '--datatier':'GEN-SIM-RECO,MINIAODSIM,DQMIO',
2057  '--eventcontent':'RECOSIM,MINIAODSIM,DQM',
2058  '--era' : 'Run2_2016'
2059  }
2060 
2061 step3Up2015Defaults50ns = merge([{'-s':'RAW2DIGI,L1Reco,RECO,EI,PAT,VALIDATION:@standardValidationNoHLT+@miniAODValidation,DQM:@standardDQMFakeHLT+@miniAODDQM','--conditions':'auto:run2_mc_50ns','--era':'Run2_50ns'},step3Up2015Defaults])
2062 
2063 step3Up2015DefaultsAlCaCalo = merge([{'-s':'RAW2DIGI,L1Reco,RECO,EI,ALCA:EcalCalZElectron+EcalCalWElectron+EcalUncalZElectron+EcalUncalWElectron+EcalTrg+HcalCalIsoTrk,VALIDATION:@standardValidationNoHLT,DQM:@standardDQMFakeHLT'},step3Up2015Defaults])
2064 step3Up2015DefaultsAlCaCalo50ns = merge([{'--conditions':'auto:run2_mc_50ns','--era':'Run2_50ns'},step3Up2015DefaultsAlCaCalo])
2065 
2066 step3Up2015Hal = {'-s' :'RAW2DIGI,L1Reco,RECO,EI,VALIDATION,DQM',
2067  '--conditions' :'auto:run2_mc',
2068  '--datatier' :'GEN-SIM-RECO,DQMIO',
2069  '--eventcontent':'RECOSIM,DQM',
2070  '-n' :'10',
2071  '--era' :'Run2_2016'
2072  }
2073 
2074 step3_trackingOnly = {
2075  '-s': 'RAW2DIGI,RECO:reconstruction_trackingOnly,VALIDATION:@trackingOnlyValidation,DQM:@trackingOnlyDQM',
2076  '--datatier':'GEN-SIM-RECO,DQMIO',
2077  '--eventcontent':'RECOSIM,DQM',
2078 }
2079 step3_pixelTrackingOnly = {
2080  '-s': 'RAW2DIGI:RawToDigi_pixelOnly,RECO:reconstruction_pixelTrackingOnly,VALIDATION:@pixelTrackingOnlyValidation,DQM:@pixelTrackingOnlyDQM',
2081  '--datatier': 'GEN-SIM-RECO,DQMIO',
2082  '--eventcontent': 'RECOSIM,DQM',
2083 }
2084 step3_trackingLowPU = {
2085  '--era': 'Run2_2016_trackingLowPU'
2086 }
2087 step3_HIPM = {
2088  '--era': 'Run2_2016_HIPM'
2089 }
2090 step3Up2015Defaults_trackingOnly = merge([step3_trackingOnly, remove(step3Up2015Defaults, "--runUnscheduled")])
2091 
2092 # mask away - to be removed once we'll migrate the matrix to be fully unscheduled for RECO step
2093 #unSchOverrides={'--runUnscheduled':'','-s':'RAW2DIGI,L1Reco,RECO,EI,PAT,VALIDATION:@standardValidation+@miniAODValidation,DQM:@standardDQM+@miniAODDQM','--eventcontent':'RECOSIM,MINIAODSIM,DQM','--datatier':'GEN-SIM-RECO,MINIAODSIM,DQMIO'}
2094 #step3Up2015DefaultsUnsch = merge([unSchOverrides,step3Up2015Defaults])
2095 #step3DefaultsUnsch = merge([unSchOverrides,step3Defaults])
2096 
2097 steps['RECOUP15']=merge([step3Up2015Defaults]) # todo: remove UP from label
2098 steps['RECOUP15_L1TEgDQM']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,RECOSIM,EI,PAT,VALIDATION:@standardValidation+@miniAODValidation,DQM:@standardDQM+@ExtraHLT+@miniAODDQM+@L1TEgamma'},step3Up2015Defaults]) # todo: remove UP from label
2099 steps['RECOUP15_L1TMuDQM']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,RECOSIM,EI,PAT,VALIDATION:@standardValidation+@miniAODValidation,DQM:@standardDQM+@ExtraHLT+@miniAODDQM+@L1TMuon'},step3Up2015Defaults]) # todo: remove UP from label
2100 steps['RECOUP15AlCaCalo']=merge([step3Up2015DefaultsAlCaCalo]) # todo: remove UP from label
2101 
2102 steps['RECOUP15_trackingOnly']=merge([step3Up2015Defaults_trackingOnly]) # todo: remove UP from label
2103 steps['RECOUP15_trackingLowPU']=merge([step3_trackingLowPU, step3Up2015Defaults]) # todo: remove UP from label
2104 steps['RECOUP15_trackingOnlyLowPU']=merge([step3_trackingLowPU, step3Up2015Defaults_trackingOnly]) # todo: remove UP from label
2105 steps['RECOUP15_HIPM']=merge([step3_HIPM,step3Up2015Defaults]) # todo: remove UP from label
2106 
2107 steps['RECOUP17']=merge([{'--conditions':'auto:phase1_2017_realistic','--era' : 'Run2_2017','--geometry' : 'DB:Extended'},steps['RECOUP15']])
2108 steps['RECOUP17_PU25']=merge([PU25UP17,steps['RECOUP17']])
2109 
2110 steps['RECOUP18']=merge([{'--conditions':'auto:phase1_2018_realistic','--era' : 'Run2_2018','--geometry' : 'DB:Extended'},steps['RECOUP15']])
2111 steps['RECOUP18_PU25']=merge([PU25UP18,steps['RECOUP18']])
2112 
2113 # for Run1 PPb data workflow
2114 steps['RECO_PPbData']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,ALCA:TkAlMinBias+TkAlMuonIsolatedPA+TkAlUpsilonMuMuPA+TkAlZMuMuPA,SKIM:PAZMM+PAZEE+PAMinBias,EI,DQM','--scenario':'pp','--conditions':'auto:run1_data','--era':'Run1_pA','--datatier':'AOD,DQMIO','--eventcontent':'AOD,DQM'}, dataReco])
2115 
2116 # for Run2 PPb MC workflow
2117 steps['RECOUP15_PPb']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,ALCA:TkAlMinBias+TkAlMuonIsolatedPA+TkAlUpsilonMuMuPA+TkAlZMuMuPA,EI,VALIDATION,DQM','--conditions':'auto:run2_mc_pa','--era':'Run2_2016_pA','--datatier':'AODSIM,DQMIO','--eventcontent':'AODSIM,DQM'}, steps['RECOUP15']])
2118 
2119 #steps['RECOUP15PROD1']=merge([{ '-s' : 'RAW2DIGI,L1Reco,RECO,EI,DQM:DQMOfflinePOGMC', '--datatier' : 'AODSIM,DQMIO', '--eventcontent' : 'AODSIM,DQM'},step3Up2015Defaults])
2120 
2121 steps['RECODreHLT']=merge([{'--hltProcess':'reHLT','--conditions':'auto:run1_data_%s'%menu},steps['RECOD']])
2122 steps['RECODR1reHLT']=merge([{'--hltProcess':'reHLT','--conditions':'auto:run1_data_%s'%menu},steps['RECODR1']])
2123 steps['RECODR1reHLT2']=merge([{'--process':'reRECO2'},steps['RECODR1reHLT']])
2124 
2125 steps['RECODreHLTAlCaCalo']=merge([{'--hltProcess':'reHLT','--conditions':'auto:run1_data_%s'%menu},steps['RECODAlCaCalo']])
2126 
2127 steps['RECODR2_25nsreHLT']=merge([{'--hltProcess':'reHLT'},steps['RECODR2_25ns']])
2128 steps['RECODR2_50nsreHLT']=merge([{'--hltProcess':'reHLT'},steps['RECODR2_50ns']])
2129 steps['RECODR2_2016reHLT']=merge([{'--hltProcess':'reHLT','--conditions':'auto:run2_data_relval'},steps['RECODR2_2016']])
2130 steps['RECODR2_2016reHLT_L1TEgDQM']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,EI,PAT,ALCA:SiStripCalZeroBias+SiStripCalMinBias+TkAlMinBias+EcalESAlign,DQM:@standardDQM+@ExtraHLT+@miniAODDQM+@L1TEgamma'},steps['RECODR2_2016reHLT']])
2131 steps['RECODR2_2016reHLT_L1TMuDQM']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,EI,PAT,ALCA:SiStripCalZeroBias+SiStripCalMinBias+TkAlMinBias+EcalESAlign,DQM:@standardDQM+@ExtraHLT+@miniAODDQM+@L1TMuon'},steps['RECODR2_2016reHLT']])
2132 steps['RECODR2_2017reHLT']=merge([{'--hltProcess':'reHLT','--conditions':'auto:run2_data_relval'},steps['RECODR2_2017']])
2133 steps['RECODR2reHLTAlCaEle']=merge([{'--hltProcess':'reHLT','--conditions':'auto:run2_data_relval'},steps['RECODR2AlCaEle']])
2134 steps['RECODR2reHLTAlCaTkCosmics']=merge([{'--hltProcess':'reHLT','--conditions':'auto:run2_data_relval','-s':'RAW2DIGI,L1Reco,RECO,SKIM:EXONoBPTXSkim,EI,PAT,ALCA:TkAlCosmicsInCollisions,DQM:@standardDQM+@ExtraHLT+@miniAODDQM'},steps['RECODR2_2016']])
2135 steps['RECODR2_2017reHLTAlCaTkCosmics']=merge([{'--hltProcess':'reHLT','--conditions':'auto:run2_data_relval','-s':'RAW2DIGI,L1Reco,RECO,SKIM:EXONoBPTXSkim,EI,PAT,ALCA:TkAlCosmicsInCollisions,DQM:@standardDQM+@ExtraHLT+@miniAODDQM'},steps['RECODR2_2017']])
2136 steps['RECODR2_2017reHLTSiPixelCalZeroBias']=merge([{'--hltProcess':'reHLT','--conditions':'auto:run2_data_relval','-s':'RAW2DIGI,L1Reco,RECO,EI,PAT,ALCA:SiPixelCalZeroBias,DQM:@standardDQM+@ExtraHLT+@miniAODDQM'},steps['RECODR2_2017']])
2137 steps['RECODR2_2018reHLTAlCaTkCosmics']=merge([{'--hltProcess':'reHLT','--conditions':'auto:run2_data_relval','-s':'RAW2DIGI,L1Reco,RECO,SKIM:EXONoBPTXSkim,EI,PAT,ALCA:TkAlCosmicsInCollisions,DQM:@standardDQM+@ExtraHLT+@miniAODDQM'},steps['RECODR2_2018']])
2138 
2139 steps['RECODR2_2016reHLT_skimSingleMu']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,SKIM:ZMu+MuTau,EI,PAT,ALCA:SiPixelCalSingleMuon+SiStripCalZeroBias+SiStripCalMinBias+TkAlMinBias+EcalESAlign,DQM:@standardDQM+@ExtraHLT+@miniAODDQM+@L1TMuon'},steps['RECODR2_2016reHLT']])
2140 steps['RECODR2_2016reHLT_skimDoubleEG']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,SKIM:ZElectron,EI,PAT,ALCA:SiStripCalZeroBias+SiStripCalMinBias+TkAlMinBias+EcalESAlign,DQM:@standardDQM+@ExtraHLT+@miniAODDQM'},steps['RECODR2_2016reHLT']])
2141 steps['RECODR2_2016reHLT_skimMuonEG']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,SKIM:TopMuEG,EI,PAT,ALCA:SiPixelCalSingleMuon+SiStripCalZeroBias+SiStripCalMinBias+TkAlMinBias+EcalESAlign,DQM:@standardDQM+@ExtraHLT+@miniAODDQM'},steps['RECODR2_2016reHLT']])
2142 steps['RECODR2_2016reHLT_skimJetHT']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,SKIM:JetHTJetPlusHOFilter,EI,PAT,ALCA:SiStripCalZeroBias+SiStripCalMinBias+TkAlMinBias+EcalESAlign,DQM:@standardDQM+@ExtraHLT+@miniAODDQM'},steps['RECODR2_2016reHLT']])
2143 steps['RECODR2_2016reHLT_skimMET']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,SKIM:HighMET+EXOMONOPOLE,EI,PAT,ALCA:SiStripCalZeroBias+SiStripCalMinBias+TkAlMinBias+EcalESAlign,DQM:@standardDQM+@ExtraHLT+@miniAODDQM'},steps['RECODR2_2016reHLT']])
2144 steps['RECODR2_2016reHLT_skimSinglePh']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,SKIM:SinglePhotonJetPlusHOFilter+EXOMONOPOLE,EI,PAT,ALCA:SiStripCalZeroBias+SiStripCalMinBias+TkAlMinBias+EcalESAlign,DQM:@standardDQM+@ExtraHLT+@miniAODDQM'},steps['RECODR2_2016reHLT']])
2145 steps['RECODR2_2016reHLT_skimMuOnia']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,SKIM:BPHSkim,EI,PAT,ALCA:SiStripCalZeroBias+SiStripCalMinBias+TkAlMinBias+EcalESAlign,DQM:@standardDQM+@ExtraHLT+@miniAODDQM'},steps['RECODR2_2016reHLT']])
2146 
2147 steps['RECODR2_2017reHLT_skimSingleMu']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,SKIM:MuonPOGSkim+ZMu+MuTau,EI,PAT,ALCA:SiPixelCalSingleMuon+SiStripCalZeroBias+SiStripCalMinBias+TkAlMinBias+EcalESAlign,DQM:@standardDQM+@ExtraHLT+@miniAODDQM+@L1TMuon'},steps['RECODR2_2017reHLT']])
2148 steps['RECODR2_2017reHLT_skimDoubleEG']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,SKIM:ZElectron,EI,PAT,ALCA:SiStripCalZeroBias+SiStripCalMinBias+TkAlMinBias+EcalESAlign,DQM:@standardDQM+@ExtraHLT+@miniAODDQM'},steps['RECODR2_2017reHLT']])
2149 steps['RECODR2_2017reHLT_skimMuonEG']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,SKIM:TopMuEG,EI,PAT,ALCA:SiStripCalZeroBias+SiStripCalMinBias+TkAlMinBias+EcalESAlign,DQM:@standardDQM+@ExtraHLT+@miniAODDQM'},steps['RECODR2_2017reHLT']])
2150 steps['RECODR2_2017reHLT_skimJetHT']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,SKIM:JetHTJetPlusHOFilter,EI,PAT,ALCA:SiStripCalZeroBias+SiStripCalMinBias+TkAlMinBias+EcalESAlign,DQM:@standardDQM+@ExtraHLT+@miniAODDQM'},steps['RECODR2_2017reHLT']])
2151 steps['RECODR2_2017reHLT_skimDisplacedJet']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,SKIM:EXODisplacedJet,EI,PAT,ALCA:SiStripCalZeroBias+SiStripCalMinBias+TkAlMinBias+EcalESAlign,DQM:@standardDQM+@ExtraHLT+@miniAODDQM'},steps['RECODR2_2017reHLT']])
2152 steps['RECODR2_2017reHLT_skimMET']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,SKIM:HighMET+EXOMONOPOLE,EI,PAT,ALCA:SiStripCalZeroBias+SiStripCalMinBias+TkAlMinBias+EcalESAlign,DQM:@standardDQM+@ExtraHLT+@miniAODDQM'},steps['RECODR2_2017reHLT']])
2153 steps['RECODR2_2017reHLT_skimSinglePh']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,SKIM:SinglePhotonJetPlusHOFilter+EXOMONOPOLE,EI,PAT,ALCA:SiStripCalZeroBias+SiStripCalMinBias+TkAlMinBias+EcalESAlign,DQM:@standardDQM+@ExtraHLT+@miniAODDQM'},steps['RECODR2_2017reHLT']])
2154 steps['RECODR2_2017reHLT_skimMuOnia']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,SKIM:BPHSkim,EI,PAT,ALCA:SiStripCalZeroBias+SiStripCalMinBias+TkAlMinBias+EcalESAlign,DQM:@standardDQM+@ExtraHLT+@miniAODDQM'},steps['RECODR2_2017reHLT']])
2155 steps['RECODR2_2017reHLT_skimCharmonium']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,SKIM:MuonPOGJPsiSkim+BPHSkim,EI,PAT,ALCA:SiStripCalZeroBias+SiStripCalMinBias+TkAlMinBias+EcalESAlign,DQM:@standardDQM+@ExtraHLT+@miniAODDQM'},steps['RECODR2_2017reHLT']])
2156 
2157 steps['RECODR2_2018reHLT']=merge([{'--hltProcess':'reHLT','--conditions':'auto:run2_data_relval'},steps['RECODR2_2018']])
2158 steps['RECODR2_2018reHLT_skimSingleMu']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,SKIM:MuonPOGSkim+ZMu+MuTau,EI,PAT,ALCA:SiPixelCalSingleMuon+SiStripCalZeroBias+SiStripCalMinBias+SiStripCalSmallBiasScan+TkAlMinBias+EcalESAlign,DQM:@standardDQM+@ExtraHLT+@miniAODDQM+@L1TMuon'},steps['RECODR2_2018reHLT']])
2159 steps['RECODR2_2018reHLT_skimEGamma_L1TEgDQM']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,SKIM:ZElectron+SinglePhotonJetPlusHOFilter+EXOMONOPOLE,EI,PAT,ALCA:SiStripCalZeroBias+SiStripCalMinBias+SiStripCalSmallBiasScan+TkAlMinBias+EcalESAlign,DQM:@standardDQM+@ExtraHLT+@miniAODDQM+@L1TEgamma'},steps['RECODR2_2018reHLT']])
2160 steps['RECODR2_2018reHLT_skimMuonEG']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,SKIM:TopMuEG,EI,PAT,ALCA:SiStripCalZeroBias+SiStripCalMinBias+SiStripCalSmallBiasScan+TkAlMinBias+EcalESAlign,DQM:@standardDQM+@ExtraHLT+@miniAODDQM'},steps['RECODR2_2018reHLT']])
2161 steps['RECODR2_2018reHLT_skimJetHT']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,SKIM:JetHTJetPlusHOFilter,EI,PAT,ALCA:SiStripCalZeroBias+SiStripCalMinBias+SiStripCalSmallBiasScan+TkAlMinBias+EcalESAlign,DQM:@standardDQM+@ExtraHLT+@miniAODDQM'},steps['RECODR2_2018reHLT']])
2162 steps['RECODR2_2018reHLT_skimDisplacedJet']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,SKIM:EXODisplacedJet,EI,PAT,ALCA:SiStripCalZeroBias+SiStripCalMinBias+SiStripCalSmallBiasScan+TkAlMinBias+EcalESAlign,DQM:@standardDQM+@ExtraHLT+@miniAODDQM'},steps['RECODR2_2018reHLT']])
2163 steps['RECODR2_2018reHLT_skimMET']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,SKIM:HighMET+EXOMONOPOLE,EI,PAT,ALCA:SiStripCalZeroBias+SiStripCalMinBias+SiStripCalSmallBiasScan+TkAlMinBias+EcalESAlign,DQM:@standardDQM+@ExtraHLT+@miniAODDQM'},steps['RECODR2_2018reHLT']])
2164 steps['RECODR2_2018reHLT_skimMuOnia']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,SKIM:BPHSkim,EI,PAT,ALCA:SiStripCalZeroBias+SiStripCalMinBias+SiStripCalSmallBiasScan+TkAlMinBias+EcalESAlign,DQM:@standardDQM+@ExtraHLT+@miniAODDQM'},steps['RECODR2_2018reHLT']])
2165 steps['RECODR2_2018reHLT_skimCharmonium']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,SKIM:MuonPOGJPsiSkim+BPHSkim,EI,PAT,ALCA:SiStripCalZeroBias+SiStripCalMinBias+SiStripCalSmallBiasScan+TkAlMinBias+EcalESAlign,DQM:@standardDQM+@ExtraHLT+@miniAODDQM'},steps['RECODR2_2018reHLT']])
2166 steps['RECODR2_2018reHLT_skimParkingBPH']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,SKIM:SkimBPark,EI,PAT,ALCA:SiStripCalZeroBias+SiStripCalMinBias+SiStripCalSmallBiasScan+TkAlMinBias+EcalESAlign,DQM:@standardDQM+@ExtraHLT+@miniAODDQM','--era':'Run2_2018,bParking'},steps['RECODR2_2018reHLT']])
2167 
2168 
2169 
2170 for sname in ['RECODR2_50nsreHLT', 'RECODR2_25nsreHLT',
2171  'RECODR2_2016reHLT',
2172  'RECODR2_2016reHLT_L1TEgDQM', 'RECODR2_2016reHLT_L1TMuDQM',
2173  'RECODR2_2016reHLT_skimDoubleEG', 'RECODR2_2016reHLT_skimJetHT', 'RECODR2_2016reHLT_skimMET',
2174  'RECODR2_2016reHLT_skimMuonEG', 'RECODR2_2016reHLT_skimSingleMu',
2175  'RECODR2_2016reHLT_skimSinglePh', 'RECODR2_2016reHLT_skimMuOnia',
2176  'RECODR2reHLTAlCaTkCosmics']:
2177  steps[sname+"_HIPM"] = merge([{'--era': steps[sname]['--era']+"_HIPM"},steps[sname]])
2178 
2179 # RECO step with offline GT
2180 steps['RECODR2_2016reHLT_Prompt']=merge([{'--conditions':'auto:run2_data'},steps['RECODR2_2016reHLT']])
2181 steps['RECODR2_2016reHLT_Prompt_L1TEgDQM']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,EI,PAT,ALCA:SiStripCalZeroBias+SiStripCalMinBias+TkAlMinBias+EcalESAlign,DQM:@standardDQM+@ExtraHLT+@miniAODDQM+@L1TEgamma'},steps['RECODR2_2016reHLT_Prompt']])
2182 steps['RECODR2_2016reHLT_skimDoubleEG_Prompt']=merge([{'--conditions':'auto:run2_data'},steps['RECODR2_2016reHLT_skimDoubleEG']])
2183 steps['RECODR2_2016reHLT_skimJetHT_Prompt']=merge([{'--conditions':'auto:run2_data'},steps['RECODR2_2016reHLT_skimJetHT']])
2184 steps['RECODR2_2016reHLT_skimMET_Prompt']=merge([{'--conditions':'auto:run2_data'},steps['RECODR2_2016reHLT_skimMET']])
2185 steps['RECODR2_2016reHLT_skimMuonEG_Prompt']=merge([{'--conditions':'auto:run2_data'},steps['RECODR2_2016reHLT_skimMuonEG']])
2186 steps['RECODR2_2016reHLT_skimSingleMu_Prompt']=merge([{'--conditions':'auto:run2_data'},steps['RECODR2_2016reHLT_skimSingleMu']])
2187 steps['RECODR2_2016reHLT_skimSinglePh_Prompt']=merge([{'--conditions':'auto:run2_data'},steps['RECODR2_2016reHLT_skimSinglePh']])
2188 steps['RECODR2_2016reHLT_skimMuOnia_Prompt']=merge([{'--conditions':'auto:run2_data'},steps['RECODR2_2016reHLT_skimMuOnia']])
2189 steps['RECODR2_2016reHLT_Prompt_Lumi']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,EI,PAT,ALCA:SiStripCalZeroBias+SiStripCalMinBias+TkAlMinBias+EcalESAlign,DQM:@standardDQM+@ExtraHLT+@miniAODDQM+@lumi'},steps['RECODR2_2016reHLT_Prompt']])
2190 steps['RECODR2_2016reHLT_Prompt_Lumi_L1TMuDQM']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,EI,PAT,ALCA:SiStripCalZeroBias+SiStripCalMinBias+TkAlMinBias+EcalESAlign,DQM:@standardDQM+@ExtraHLT+@miniAODDQM+@lumi+@L1TMuon'},steps['RECODR2_2016reHLT_Prompt']])
2191 
2192 steps['RECODR2_2017reHLT_Prompt']=merge([{'--conditions':'auto:run2_data'},steps['RECODR2_2017reHLT']])
2193 steps['RECODR2_2017reHLT_Prompt_L1TEgDQM']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,EI,PAT,ALCA:SiStripCalZeroBias+SiStripCalMinBias+TkAlMinBias+EcalESAlign,DQM:@standardDQM+@ExtraHLT+@miniAODDQM+@L1TEgamma'},steps['RECODR2_2017reHLT_Prompt']])
2194 steps['RECODR2_2017reHLT_skimDoubleEG_Prompt']=merge([{'--conditions':'auto:run2_data'},steps['RECODR2_2017reHLT_skimDoubleEG']])
2195 steps['RECODR2_2017reHLT_skimJetHT_Prompt']=merge([{'--conditions':'auto:run2_data'},steps['RECODR2_2017reHLT_skimJetHT']])
2196 steps['RECODR2_2017reHLT_skimDisplacedJet_Prompt']=merge([{'--conditions':'auto:run2_data'},steps['RECODR2_2017reHLT_skimDisplacedJet']])
2197 steps['RECODR2_2017reHLT_skimMET_Prompt']=merge([{'--conditions':'auto:run2_data'},steps['RECODR2_2017reHLT_skimMET']])
2198 steps['RECODR2_2017reHLT_skimMuonEG_Prompt']=merge([{'--conditions':'auto:run2_data'},steps['RECODR2_2017reHLT_skimMuonEG']])
2199 steps['RECODR2_2017reHLT_skimSingleMu_Prompt']=merge([{'--conditions':'auto:run2_data'},steps['RECODR2_2017reHLT_skimSingleMu']])
2200 steps['RECODR2_2017reHLT_skimSinglePh_Prompt']=merge([{'--conditions':'auto:run2_data'},steps['RECODR2_2017reHLT_skimSinglePh']])
2201 steps['RECODR2_2017reHLT_skimMuOnia_Prompt']=merge([{'--conditions':'auto:run2_data'},steps['RECODR2_2017reHLT_skimMuOnia']])
2202 steps['RECODR2_2017reHLT_skimCharmonium_Prompt']=merge([{'--conditions':'auto:run2_data'},steps['RECODR2_2017reHLT_skimCharmonium']])
2203 steps['RECODR2_2017reHLT_skimSingleMu_Prompt_Lumi']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,SKIM:MuonPOGSkim+ZMu+MuTau,EI,PAT,ALCA:SiPixelCalSingleMuon+SiStripCalZeroBias+SiStripCalMinBias+TkAlMinBias+EcalESAlign,DQM:@standardDQM+@ExtraHLT+@miniAODDQM+@lumi+@L1TMuon'},steps['RECODR2_2017reHLT_skimSingleMu_Prompt']])
2204 steps['RECODR2_2017reHLTAlCaTkCosmics_Prompt']=merge([{'--conditions':'auto:run2_data'},steps['RECODR2_2017reHLTAlCaTkCosmics']])
2205 steps['RECODR2_2017reHLTSiPixelCalZeroBias_Prompt']=merge([{'--conditions':'auto:run2_data'},steps['RECODR2_2017reHLTSiPixelCalZeroBias']])
2206 
2207 steps['RECODR2_2018reHLT_Prompt']=merge([{'--conditions':'auto:run2_data_promptlike'},steps['RECODR2_2018reHLT']])
2208 steps['RECODR2_2018reHLT_Offline']=merge([{'--conditions':'auto:run2_data'},steps['RECODR2_2018reHLT']])
2209 steps['RECODR2_2018reHLT_skimEGamma_Prompt_L1TEgDQM']=merge([{'--conditions':'auto:run2_data_promptlike'},steps['RECODR2_2018reHLT_skimEGamma_L1TEgDQM']])
2210 steps['RECODR2_2018reHLT_skimEGamma_Offline_L1TEgDQM']=merge([{'--conditions':'auto:run2_data'},steps['RECODR2_2018reHLT_skimEGamma_L1TEgDQM']])
2211 steps['RECODR2_2018reHLT_skimJetHT_Prompt']=merge([{'--conditions':'auto:run2_data_promptlike'},steps['RECODR2_2018reHLT_skimJetHT']])
2212 steps['RECODR2_2018reHLT_skimJetHT_Offline']=merge([{'--conditions':'auto:run2_data'},steps['RECODR2_2018reHLT_skimJetHT']])
2213 steps['RECODR2_2018reHLT_skimDisplacedJet_Prompt']=merge([{'--conditions':'auto:run2_data_promptlike'},steps['RECODR2_2018reHLT_skimDisplacedJet']])
2214 steps['RECODR2_2018reHLT_skimDisplacedJet_Offline']=merge([{'--conditions':'auto:run2_data'},steps['RECODR2_2018reHLT_skimDisplacedJet']])
2215 steps['RECODR2_2018reHLT_skimMET_Prompt']=merge([{'--conditions':'auto:run2_data_promptlike'},steps['RECODR2_2018reHLT_skimMET']])
2216 steps['RECODR2_2018reHLT_skimMET_Offline']=merge([{'--conditions':'auto:run2_data'},steps['RECODR2_2018reHLT_skimMET']])
2217 steps['RECODR2_2018reHLT_skimMuonEG_Prompt']=merge([{'--conditions':'auto:run2_data_promptlike'},steps['RECODR2_2018reHLT_skimMuonEG']])
2218 steps['RECODR2_2018reHLT_skimMuonEG_Offline']=merge([{'--conditions':'auto:run2_data'},steps['RECODR2_2018reHLT_skimMuonEG']])
2219 steps['RECODR2_2018reHLT_skimSingleMu_Prompt']=merge([{'--conditions':'auto:run2_data_promptlike'},steps['RECODR2_2018reHLT_skimSingleMu']])
2220 steps['RECODR2_2018reHLT_skimSingleMu_Offline']=merge([{'--conditions':'auto:run2_data'},steps['RECODR2_2018reHLT_skimSingleMu']])
2221 steps['RECODR2_2018reHLT_skimMuOnia_Prompt']=merge([{'--conditions':'auto:run2_data_promptlike'},steps['RECODR2_2018reHLT_skimMuOnia']])
2222 steps['RECODR2_2018reHLT_skimMuOnia_Offline']=merge([{'--conditions':'auto:run2_data'},steps['RECODR2_2018reHLT_skimMuOnia']])
2223 steps['RECODR2_2018reHLT_skimCharmonium_Prompt']=merge([{'--conditions':'auto:run2_data_promptlike'},steps['RECODR2_2018reHLT_skimCharmonium']])
2224 steps['RECODR2_2018reHLT_skimCharmonium_Offline']=merge([{'--conditions':'auto:run2_data'},steps['RECODR2_2018reHLT_skimCharmonium']])
2225 steps['RECODR2_2018reHLT_skimParkingBPH_Prompt']=merge([{'--conditions':'auto:run2_data_promptlike'},steps['RECODR2_2018reHLT_skimParkingBPH']])
2226 steps['RECODR2_2018reHLT_skimParkingBPH_Offline']=merge([{'--conditions':'auto:run2_data'},steps['RECODR2_2018reHLT_skimParkingBPH']])
2227 steps['RECODR2_2018reHLT_skimSingleMu_Prompt_Lumi']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,SKIM:MuonPOGSkim+ZMu+MuTau,EI,PAT,ALCA:SiPixelCalSingleMuon+SiStripCalZeroBias+SiStripCalMinBias+TkAlMinBias+EcalESAlign,DQM:@standardDQM+@ExtraHLT+@miniAODDQM+@lumi+@L1TMuon'},steps['RECODR2_2018reHLT_skimSingleMu_Prompt']])
2228 steps['RECODR2_2018reHLT_skimSingleMu_Offline_Lumi']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,SKIM:MuonPOGSkim+ZMu+MuTau,EI,PAT,ALCA:SiPixelCalSingleMuon+SiStripCalZeroBias+SiStripCalMinBias+TkAlMinBias+EcalESAlign,DQM:@standardDQM+@ExtraHLT+@miniAODDQM+@lumi+@L1TMuon'},steps['RECODR2_2018reHLT_skimSingleMu_Offline']])
2229 steps['RECODR2_2018reHLTAlCaTkCosmics_Prompt']=merge([{'--conditions':'auto:run2_data_promptlike'},steps['RECODR2_2018reHLTAlCaTkCosmics']])
2230 steps['RECODR2_2018reHLTAlCaTkCosmics_Offline']=merge([{'--conditions':'auto:run2_data'},steps['RECODR2_2018reHLTAlCaTkCosmics']])
2231 steps['RECODR2_2018reHLT_Prompt_hBStar']=merge([{'--era':'Run2_2018_highBetaStar'},steps['RECODR2_2018reHLT_Prompt']])
2232 steps['RECODR2_2018reHLT_Offline_hBStar']=merge([{'--era':'Run2_2018_highBetaStar'},steps['RECODR2_2018reHLT_Offline']])
2233 steps['RECODR2_2018reHLT_skimJetHT_Prompt_HEfail']=merge([{'--conditions':'auto:run2_data_promptlike_HEfail'},steps['RECODR2_2018reHLT_skimJetHT']])
2234 steps['RECODR2_2018reHLT_skimJetHT_Prompt_BadHcalMitig']=merge([{'--conditions':'auto:run2_data_promptlike_HEfail','--era':'Run2_2018,pf_badHcalMitigation'},steps['RECODR2_2018reHLT_skimJetHT']])
2235 
2236 steps['RECO']=merge([step3Defaults])
2237 
2238 
2239 steps['RECOAlCaCalo']=merge([step3DefaultsAlCaCalo])
2240 steps['RECODBG']=merge([{'--eventcontent':'RECODEBUG,MINIAODSIM,DQM'},steps['RECO']])
2241 steps['RECOPROD1']=merge([{ '-s' : 'RAW2DIGI,L1Reco,RECO,RECOSIM,EI,PAT', '--datatier' : 'AODSIM,MINIAODSIM', '--eventcontent' : 'AODSIM,MINIAODSIM'},step3Defaults])
2242 #steps['RECOPRODUP15']=merge([{ '-s':'RAW2DIGI,L1Reco,RECO,EI,DQM:DQMOfflinePOGMC','--datatier':'AODSIM,DQMIO','--eventcontent':'AODSIM,DQM'},step3Up2015Defaults])
2243 steps['RECOPRODUP15']=merge([{ '-s':'RAW2DIGI,L1Reco,RECO,RECOSIM,EI,PAT','--datatier':'AODSIM,MINIAODSIM','--eventcontent':'AODSIM,MINIAODSIM'},step3Up2015Defaults])
2244 ## for 2017 PROD
2245 steps['RECOPRODUP17']=merge([{ '--era' :'Run2_2017','--conditions': 'auto:phase1_2017_realistic'},steps['RECOPRODUP15']])
2246 ## for 2018 PROD
2247 steps['RECOPRODUP18']=merge([{ '-s':'RAW2DIGI,L1Reco,RECO,RECOSIM,EI','--era' :'Run2_2018','--conditions': 'auto:phase1_2018_realistic','--datatier':'AODSIM','--eventcontent':'AODSIM'},step3Up2015Defaults])
2248 steps['RECOPRODUP18bParking']=merge([{ '-s':'RAW2DIGI,L1Reco,RECO,RECOSIM,EI','--era' :'Run2_2018,bParking','--conditions': 'auto:phase1_2018_realistic','--datatier':'AODSIM','--eventcontent':'AODSIM'},step3Up2015Defaults])
2249 
2250 steps['RECOCOS']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,DQM','--scenario':'cosmics','--datatier':'GEN-SIM-RECO,DQMIO','--eventcontent':'RECOSIM,DQM'},stCond,step3Defaults])
2251 steps['RECOHAL']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,DQM','--scenario':'cosmics'},step3Up2015Hal])
2252 steps['RECOCOS_UP15']=merge([{'--conditions':'auto:run2_mc_cosmics','-s':'RAW2DIGI,L1Reco,RECO,ALCA:MuAlGlobalCosmics,DQM','--scenario':'cosmics'},step3Up2015Hal])
2253 steps['RECOCOS_UP16']=merge([{'--conditions':'auto:run2_mc_cosmics','-s':'RAW2DIGI,L1Reco,RECO,ALCA:MuAlGlobalCosmics,DQM','--scenario':'cosmics','--era':'Run2_2016'},step3Up2015Hal])
2254 steps['RECOCOS_UP17']=merge([{'--conditions':'auto:phase1_2017_cosmics','-s':'RAW2DIGI,L1Reco,RECO,ALCA:MuAlGlobalCosmics,DQM','--scenario':'cosmics','--era':'Run2_2017'},step3Up2015Hal])
2255 steps['RECOCOS_UP18']=merge([{'--conditions':'auto:phase1_2018_cosmics','-s':'RAW2DIGI,L1Reco,RECO,ALCA:MuAlGlobalCosmics,DQM','--scenario':'cosmics','--era':'Run2_2018'},step3Up2015Hal])
2256 steps['RECOCOS_UP21']=merge([{'--conditions':'auto:phase1_2021_cosmics','-s':'RAW2DIGI,L1Reco,RECO,ALCA:MuAlGlobalCosmics,DQM','--scenario':'cosmics','--era':'Run3'},step3Up2015Hal])
2257 steps['RECOCOSPEAK_UP17']=merge([{'--conditions':'auto:phase1_2017_cosmics_peak','-s':'RAW2DIGI,L1Reco,RECO,ALCA:MuAlGlobalCosmics,DQM','--scenario':'cosmics','--era':'Run2_2017'},step3Up2015Hal])
2258 steps['RECOCOSPEAK_UP18']=merge([{'--conditions':'auto:phase1_2018_cosmics_peak','-s':'RAW2DIGI,L1Reco,RECO,ALCA:MuAlGlobalCosmics,DQM','--scenario':'cosmics','--era':'Run2_2018'},step3Up2015Hal])
2259 
2260 
2261 steps['RECOMIN']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,RECOSIM,EI,ALCA:SiStripCalZeroBias+SiStripCalMinBias,VALIDATION,DQM'},stCond,step3Defaults])
2262 steps['RECOMINUP15']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,RECOSIM,EI,ALCA:SiStripCalZeroBias+SiStripCalMinBias,VALIDATION,DQM'},step3Up2015Defaults])
2263 steps['RECOAODUP15']=merge([{'--datatier':'AODSIM,MINIAODSIM,DQMIO','--eventcontent':'AODSIM,MINIAODSIM,DQM'},step3Up2015Defaults])
2264 
2265 steps['RECODDQM']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,EI,DQM:@common+@muon+@hcal+@jetmet+@ecal'},steps['RECOD']])
2266 
2267 steps['RECOPU1']=merge([PU,steps['RECO']])
2268 steps['RECOPU2']=merge([PU2,steps['RECO']])
2269 steps['RECOUP15_PU25']=merge([PU25,step3Up2015Defaults])
2270 steps['RECOUP15_PU25_HIPM']=merge([step3_HIPM,steps['RECOUP15_PU25']])
2271 steps['RECOUP15_PU25_L1TEgDQM']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,RECOSIM,EI,PAT,VALIDATION:@standardValidation+@miniAODValidation,DQM:@standardDQM+@ExtraHLT+@miniAODDQM+@L1TEgamma'},steps['RECOUP15_PU25']])
2272 steps['RECOUP15_PU25_L1TMuDQM']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,RECOSIM,EI,PAT,VALIDATION:@standardValidation+@miniAODValidation,DQM:@standardDQM+@ExtraHLT+@miniAODDQM+@L1TMuon'},steps['RECOUP15_PU25']])
2273 
2274 steps['RECOUP15_PU50']=merge([PU50,step3Up2015Defaults50ns])
2275 steps['RECOUP15_PU50_L1TEgDQM']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,EI,PAT,VALIDATION:@standardValidationNoHLT+@miniAODValidation,DQM:@standardDQMFakeHLT+@miniAODDQM+@L1TEgamma'},steps['RECOUP15_PU50']])
2276 steps['RECOUP15_PU50_L1TMuDQM']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,EI,PAT,VALIDATION:@standardValidationNoHLT+@miniAODValidation,DQM:@standardDQMFakeHLT+@miniAODDQM+@L1TMuon'},steps['RECOUP15_PU50']])
2277 
2278 # for PU25 High stats workflows
2279 steps['RECOUP15_PU25HS']=merge([PU25HS,step3Up2015Defaults])
2280 
2281 
2282 # mask away - to be removed once we'll migrate the matrix to be fully unscheduled for RECO step
2283 #steps['RECOmAOD']=merge([step3DefaultsUnsch])
2284 #steps['RECOmAODUP15']=merge([step3Up2015DefaultsUnsch])
2285 
2286 
2287 # for premixing: no --pileup_input for replay; GEN-SIM only available for in-time event, from FEVTDEBUGHLT previous step
2288 steps['RECOPRMXUP15_PU25']=merge([
2289  {'--era':'Run2_2016','--procModifiers':'premix_stage2'}, # temporary replacement for premix; to be brought back to customisePostLS1; DataMixer customize for rerouting inputs to mixed data.
2290  step3Up2015Defaults])
2291 steps['RECOPRMXUP15_HIPM_PU25']=merge([step3_HIPM,steps['RECOPRMXUP15_PU25']])
2292 
2293 steps['RECOPRMXUP15_PU50']=merge([
2294  {'--era':'Run2_50ns','--procModifiers':'premix_stage2'},
2295  step3Up2015Defaults50ns])
2296 steps['RECOPRMXUP17_PU25']=merge([
2297  {'--conditions':'auto:phase1_2017_realistic','--era':'Run2_2017','--procModifiers':'premix_stage2'},
2298  step3Up2015Defaults])
2299 
2300 steps['RECOPRMXUP18_PU25']=merge([
2301  {'--conditions':'auto:phase1_2018_realistic','--era':'Run2_2018','--procModifiers':'premix_stage2'},
2302  step3Up2015Defaults])
2303 steps['RECOPRMXUP18_PU25_L1TEgDQM']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,RECOSIM,EI,PAT,VALIDATION:@standardValidation+@miniAODValidation,DQM:@standardDQM+@ExtraHLT+@miniAODDQM+@L1TEgamma'},steps['RECOPRMXUP18_PU25']])
2304 steps['RECOPRMXUP18_PU25_L1TMuDQM']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,RECOSIM,EI,PAT,VALIDATION:@standardValidation+@miniAODValidation,DQM:@standardDQM+@ExtraHLT+@miniAODDQM+@L1TMuon'},steps['RECOPRMXUP18_PU25']])
2305 
2306 recoPremixUp15prod = merge([
2307  #{'-s':'RAW2DIGI,L1Reco,RECO,EI'}, # tmp
2308  {'-s':'RAW2DIGI,L1Reco,RECO,RECOSIM,EI,PAT,DQM:DQMOfflinePOGMC'},
2309  {'--datatier' : 'AODSIM,MINIAODSIM,DQMIO'},
2310  {'--eventcontent' : 'AODSIM,MINIAODSIM,DQMIO'},
2311  {'--era':'Run2_2016'}, # temporary replacement for premix; to be brought back to customisePostLS1
2312  step3Up2015Defaults])
2313 
2314 steps['RECOPRMXUP15PROD_PU25']=merge([
2315  recoPremixUp15prod])
2316 steps['RECOPRMXUP15PROD_PU50']=merge([
2317  {'--conditions':'auto:run2_mc_50ns'},
2318  {'--era':'Run2_50ns'},
2319  recoPremixUp15prod])
2320 
2321 recoPremixUp17prod = merge([
2322  {'-s':'RAW2DIGI,L1Reco,RECO,RECOSIM,EI,PAT'},
2323  {'--datatier' : 'AODSIM,MINIAODSIM'},
2324  {'--eventcontent' : 'AODSIM,MINIAODSIM'},
2325  {'--era':'Run2_2017'},
2326  {'--conditions':'auto:phase1_2017_realistic'},
2327  step3Up2015Defaults])
2328 
2329 
2330 steps['RECOPRMXUP17PROD_PU25']=merge([recoPremixUp17prod])
2331 steps['RECOPRMXUP18PROD_PU25']=merge([{'--era':'Run2_2018','--conditions':'auto:phase1_2018_realistic','--procModifiers':'premix_stage2'},recoPremixUp17prod])
2332 
2333 
2334 steps['RECOPUDBG']=merge([{'--eventcontent':'RECODEBUG,MINIAODSIM,DQM'},steps['RECOPU1']])
2335 steps['RERECOPU1']=merge([{'--hltProcess':'REDIGI'},steps['RECOPU1']])
2336 
2337 steps['RECOUP15_ID']=merge([{'--hltProcess':'HLT2'},steps['RECOUP15']])
2338 
2339 steps['RECOHI2018PPRECO']=merge([hiDefaults2018_ppReco,{'-s':'RAW2DIGI,L1Reco,RECO,ALCA:SiStripCalZeroBias+SiPixelCalZeroBias,EI,PAT,VALIDATION:@standardValidation+@miniAODValidation,DQM:@standardDQM+@ExtraHLT+@miniAODDQM',
2340  '--datatier':'GEN-SIM-RECO,MINIAODSIM,DQMIO,ALCARECO',
2341  '--eventcontent':'RECOSIM,MINIAODSIM,DQM,ALCARECO',
2342  },step3Up2015Defaults])
2343 
2344 steps['ALCARECOHI2018PPRECO']=merge([hiDefaults2018_ppReco,{'-s':'ALCA:TkAlMinBias+SiStripCalMinBias',
2345  '--datatier':'ALCARECO',
2346  '--eventcontent':'ALCARECO'
2347  }])
2348 
2349 steps['RECOHI2018']=merge([hiDefaults2018,{'-s':'RAW2DIGI,L1Reco,RECO,VALIDATION,DQM'},step3Up2015Defaults])
2350 steps['RECOHI2017']=merge([hiDefaults2017,{'-s':'RAW2DIGI,L1Reco,RECO,EI,PAT,VALIDATION:@standardValidation+@miniAODValidation,DQM:@standardDQM+@ExtraHLT+@miniAODDQM'},step3Up2015Defaults])
2351 steps['RECOHI2015']=merge([hiDefaults2015,{'-s':'RAW2DIGI,L1Reco,RECO,VALIDATION,DQM'},step3Up2015Defaults])
2352 steps['RECOHI2011']=merge([hiDefaults2011,{'-s':'RAW2DIGI,L1Reco,RECO,VALIDATION,DQM'},step3Defaults])
2353 
2354 steps['RECOPPREF2017']=merge([ppRefDefaults2017,step3Up2015Defaults])
2355 
2356 steps['RECOHID11St3']=merge([{
2357  '--process':'ZStoRECO'},
2358  steps['RECOHID11']])
2359 steps['RECOHIR10D11']=merge([{'--filein':'file:step2_inREPACKRAW.root',
2360  '--filtername':'reRECO'},
2361  steps['RECOHID11St3']])
2362 #steps['RECOFS']=merge([{'--fast':'',
2363 # '-s':'RECO,EI,HLT:@fake,VALIDATION'},
2364 # steps['RECO']])
2365 
2366 #add this line when testing from an input file that is not strictly GEN-SIM
2367 #addForAll(step3,{'--hltProcess':'DIGI'})
2368 
2369 steps['ALCACOSD']={'--conditions':'auto:run1_data',
2370  '--datatier':'ALCARECO',
2371  '--eventcontent':'ALCARECO',
2372  '--scenario':'cosmics',
2373  '-s':'ALCA:TkAlCosmics0T+MuAlGlobalCosmics+HcalCalHOCosmics+DQM'
2374  }
2375 
2376 steps['ALCACOSDRUN2']=merge([{'--conditions':'auto:run2_data','--era':'Run2_2016','-s':'ALCA:SiPixelCalCosmics+TkAlCosmics0T+SiStripCalCosmics+MuAlGlobalCosmics+HcalCalHOCosmics+DtCalibCosmics+DQM'},steps['ALCACOSD']])
2377 
2378 steps['ALCAPROMPT']={'-s':'ALCA:PromptCalibProd',
2379  '--filein':'file:TkAlMinBias.root',
2380  '--conditions':'auto:run1_data',
2381  '--datatier':'ALCARECO',
2382  '--eventcontent':'ALCARECO'}
2383 steps['ALCAEXP']={'-s':'ALCAOUTPUT:SiStripCalZeroBias+TkAlMinBias+DtCalib+Hotline+LumiPixelsMinBias+AlCaPCCZeroBiasFromRECO+AlCaPCCRandomFromRECO,ALCA:PromptCalibProd+PromptCalibProdSiStrip+PromptCalibProdSiStripGains+PromptCalibProdSiStripGainsAAG+PromptCalibProdSiPixelAli+PromptCalibProdSiPixel',
2384  '--conditions':'auto:run1_data',
2385  '--datatier':'ALCARECO',
2386  '--eventcontent':'ALCARECO',
2387  '--triggerResultsProcess': 'RECO'}
2388 
2389 steps['ALCAEXPRUN2']={'-s':'ALCAOUTPUT:SiStripCalZeroBias+TkAlMinBias+LumiPixelsMinBias+AlCaPCCZeroBiasFromRECO+AlCaPCCRandomFromRECO+SiPixelCalZeroBias,ALCA:PromptCalibProd+PromptCalibProdSiStrip+PromptCalibProdSiStripGains+PromptCalibProdSiStripGainsAAG+PromptCalibProdSiPixelAli+PromptCalibProdSiPixel',
2390  '--conditions':'auto:run2_data',
2391  '--datatier':'ALCARECO',
2392  '--eventcontent':'ALCARECO',
2393  '--triggerResultsProcess': 'RECO'}
2394 
2395 steps['ALCAEXPHI']=merge([{'-s':'ALCA:PromptCalibProd+PromptCalibProdSiStrip+PromptCalibProdSiStripGains+PromptCalibProdSiStripGainsAAG',
2396  '--scenario':'HeavyIons'},steps['ALCAEXP']])
2397 steps['ALCAEXPTE']={'-s':'ALCA:PromptCalibProdEcalPedestals',
2398  '--conditions':'auto:run2_data_relval',
2399  '--datatier':'ALCARECO',
2400  '--eventcontent':'ALCARECO',
2401  '--triggerResultsProcess': 'RECO'}
2402 
2403 
2404 # step4
2405 step4Defaults = { '-s' : 'ALCA:TkAlMuonIsolated+TkAlMinBias+EcalCalZElectron+EcalCalWElectron+HcalCalIsoTrk+MuAlCalIsolatedMu+MuAlZMuMu+MuAlOverlaps',
2406  '-n' : 1000,
2407  '--conditions' : 'auto:run1_mc',
2408  '--datatier' : 'ALCARECO',
2409  '--eventcontent': 'ALCARECO',
2410  }
2411 step4Up2015Defaults = {
2412  '-s' : 'ALCA:TkAlMuonIsolated+TkAlMinBias+MuAlOverlaps+EcalESAlign+EcalTrg',
2413  '-n' : 1000,
2414  '--conditions' : 'auto:run2_mc',
2415  '--era' : 'Run2_2016',
2416  '--datatier' : 'ALCARECO',
2417  '--eventcontent': 'ALCARECO',
2418  }
2419 
2420 steps['RERECOPU']=steps['RERECOPU1']
2421 
2422 steps['ALCATT']=merge([{'--filein':'file:step3.root','-s':'ALCA:TkAlMuonIsolated+TkAlMinBias+MuAlCalIsolatedMu+MuAlZMuMu+MuAlOverlaps'},step4Defaults])
2423 steps['ALCATTUP15']=merge([{'--filein':'file:step3.root'},step4Up2015Defaults])
2424 steps['ALCAMIN']=merge([{'-s':'ALCA:TkAlMinBias','--filein':'file:step3.root'},stCond,step4Defaults])
2425 steps['ALCAMINUP15']=merge([{'-s':'ALCA:TkAlMinBias','--filein':'file:step3.root'},step4Up2015Defaults])
2426 steps['ALCACOS']=merge([{'-s':'ALCA:TkAlCosmics0T+MuAlGlobalCosmics+HcalCalHOCosmics'},stCond,step4Defaults])
2427 steps['ALCABH']=merge([{'-s':'ALCA:TkAlBeamHalo+MuAlBeamHaloOverlaps+MuAlBeamHalo'},stCond,step4Defaults])
2428 steps['ALCABH_UP18']=merge([{'--conditions':'auto:phase1_2018_cosmics','-s':'ALCA:TkAlBeamHalo+MuAlBeamHaloOverlaps+MuAlBeamHalo','--era':'Run2_2018'},step4Up2015Defaults])
2429 steps['ALCABH_UP21']=merge([{'--conditions':'auto:phase1_2021_cosmics','-s':'ALCA:TkAlBeamHalo+MuAlBeamHaloOverlaps+MuAlBeamHalo','--era':'Run3'},step4Up2015Defaults])
2430 
2431 steps['ALCAHAL']=merge([{'-s':'ALCA:TkAlBeamHalo+MuAlBeamHaloOverlaps+MuAlBeamHalo'},step4Up2015Defaults])
2432 steps['ALCACOS_UP15']=merge([{'--conditions':'auto:run2_mc_cosmics','-s':'ALCA:TkAlBeamHalo+MuAlBeamHaloOverlaps+MuAlBeamHalo'},step4Up2015Defaults])
2433 steps['ALCACOS_UP16']=merge([{'--conditions':'auto:run2_mc_cosmics','-s':'ALCA:SiPixelCalCosmics+TkAlCosmics0T+SiStripCalCosmics+TkAlBeamHalo+MuAlBeamHaloOverlaps+MuAlBeamHalo','--era':'Run2_2016'},step4Up2015Defaults])
2434 steps['ALCACOS_UP17']=merge([{'--conditions':'auto:phase1_2017_cosmics','-s':'ALCA:SiPixelCalCosmics+TkAlCosmics0T+SiStripCalCosmics+TkAlBeamHalo+MuAlBeamHaloOverlaps+MuAlBeamHalo','--era':'Run2_2017'},step4Up2015Defaults])
2435 steps['ALCACOS_UP18']=merge([{'--conditions':'auto:phase1_2018_cosmics','-s':'ALCA:SiPixelCalCosmics+TkAlCosmics0T+SiStripCalCosmics+TkAlBeamHalo+MuAlBeamHaloOverlaps+MuAlBeamHalo','--era':'Run2_2018'},step4Up2015Defaults])
2436 steps['ALCACOS_UP21']=merge([{'--conditions':'auto:phase1_2021_cosmics','-s':'ALCA:SiPixelCalCosmics+TkAlCosmics0T+SiStripCalCosmics+TkAlBeamHalo+MuAlBeamHaloOverlaps+MuAlBeamHalo','--era':'Run3'},step4Up2015Defaults])
2437 steps['ALCAHARVD']={'-s':'ALCAHARVEST:BeamSpotByRun+BeamSpotByLumi+SiStripQuality',
2438  '--conditions':'auto:run1_data',
2439  '--scenario':'pp',
2440  '--data':'',
2441  '--filein':'file:PromptCalibProd.root'}
2442 
2443 steps['ALCAHARVD1']={'-s':'ALCAHARVEST:%s'%(autoPCL['PromptCalibProd']),
2444  '--conditions':'auto:run1_data',
2445  '--scenario':'pp',
2446  '--data':'',
2447  '--filein':'file:PromptCalibProd.root'}
2448 steps['ALCAHARVD1HI']=merge([{'--scenario':'HeavyIons'},steps['ALCAHARVD1']])
2449 
2450 steps['ALCAHARVD2']={'-s':'ALCAHARVEST:%s'%(autoPCL['PromptCalibProdSiStrip']),
2451  '--conditions':'auto:run1_data',
2452  '--scenario':'pp',
2453  '--data':'',
2454  '--filein':'file:PromptCalibProdSiStrip.root'}
2455 
2456 steps['ALCAHARVD2HI']=merge([{'--scenario':'HeavyIons'},steps['ALCAHARVD2']])
2457 
2458 steps['ALCAHARVD3']={'-s':'ALCAHARVEST:%s'%(autoPCL['PromptCalibProdSiStripGains']),
2459  '--conditions':'auto:run1_data',
2460  '--scenario':'pp',
2461  '--data':'',
2462  '--filein':'file:PromptCalibProdSiStripGains.root'}
2463 
2464 steps['ALCAHARVD3HI']=merge([{'--scenario':'HeavyIons'},steps['ALCAHARVD3']])
2465 
2466 steps['ALCAHARVD4']={'-s':'ALCAHARVEST:%s'%(autoPCL['PromptCalibProdSiPixelAli']),
2467  '--conditions':'auto:run1_data',
2468  '--scenario':'pp',
2469  '--data':'',
2470  '--filein':'file:PromptCalibProdSiPixelAli.root'}
2471 
2472 steps['ALCAHARVD4HI']=merge([{'--scenario':'HeavyIons'},steps['ALCAHARVD4']])
2473 
2474 steps['ALCAHARVD5']={'-s':'ALCAHARVEST:%s'%(autoPCL['PromptCalibProdSiStripGainsAAG']),
2475  '--conditions':'auto:run1_data',
2476  '--scenario':'pp',
2477  '--data':'',
2478  '--filein':'file:PromptCalibProdSiStripGainsAAG.root'}
2479 
2480 steps['ALCAHARVD6']={'-s':'ALCAHARVEST:%s'%(autoPCL['PromptCalibProdSiPixel']),
2481  '--conditions':'auto:run1_data',
2482  '--scenario':'pp',
2483  '--data':'',
2484  '--filein':'file:PromptCalibProdSiPixel.root'}
2485 
2486 steps['ALCAHARVD5HI']=merge([{'--scenario':'HeavyIons'},steps['ALCAHARVD5']])
2487 steps['ALCAHARVDTE']={'-s':'ALCAHARVEST:%s'%(autoPCL['PromptCalibProdEcalPedestals']),
2488  '--conditions':'auto:run2_data',
2489  '--scenario':'pp',
2490  '--data':'',
2491  '--filein':'file:PromptCalibProdEcalPedestals.root'}
2492 
2493 steps['RECOHISt4']=steps['RECOHI2015']
2494 steps['RECOHIMIX']=merge([steps['RECOHI2018PPRECO'],{'--pileup':'HiMix','--pileup_input':'das:/RelValHydjetQ_B12_5020GeV_2018/%s/GEN-SIM'%(baseDataSetRelease[9])}])
2495 
2496 steps['ALCANZS']=merge([{'-s':'ALCA:HcalCalMinBias','--mc':''},step4Defaults])
2497 steps['HARVESTGEN']={'-s':'HARVESTING:genHarvesting',
2498  '--conditions':'auto:run2_mc_FULL',
2499  '--mc':'',
2500  '--era' :'Run2_2016',
2501  '--filetype':'DQM',
2502  '--filein':'file:step1_inDQM.root'
2503  }
2504 
2505 steps['HARVESTGEN2']=merge([{'--filein':'file:step2_inDQM.root'},steps['HARVESTGEN']])
2506 
2507 
2508 #data
2509 steps['HARVESTD']={'-s':'HARVESTING:@standardDQM+@ExtraHLT+@miniAODDQM',
2510  '--conditions':'auto:run1_data',
2511  '--data':'',
2512  '--filetype':'DQM',
2513  '--scenario':'pp'}
2514 
2515 steps['HARVESTDR1']={'-s':'HARVESTING:@standardDQMFakeHLT+@miniAODDQM',
2516  '--conditions':'auto:run1_data',
2517  '--data':'',
2518  '--filetype':'DQM',
2519  '--scenario':'pp'}
2520 
2521 steps['HARVESTDreHLT'] = merge([ {'--conditions':'auto:run1_data_%s'%menu}, steps['HARVESTD'] ])
2522 steps['HARVESTDR1reHLT'] = merge([ {'--conditions':'auto:run1_data_%s'%menu}, steps['HARVESTDR1'] ])
2523 steps['HARVESTDR2'] = merge([ {'--conditions':'auto:run2_data_relval'}, steps['HARVESTD'] ])
2524 steps['HARVEST2016'] = merge([ {'--era':'Run2_2016'}, steps['HARVESTDR2'] ])
2525 steps['HARVEST2016_L1TEgDQM'] = merge([ {'-s':'HARVESTING:@standardDQM+@ExtraHLT+@miniAODDQM+@L1TEgamma'}, steps['HARVEST2016'] ])
2526 steps['HARVEST2016_L1TMuDQM'] = merge([ {'-s':'HARVESTING:@standardDQM+@ExtraHLT+@miniAODDQM+@L1TMuon'}, steps['HARVEST2016'] ])
2527 steps['HARVEST2017'] = merge([ {'--conditions':'auto:run2_data_relval','--era':'Run2_2017','--conditions':'auto:run2_data'}, steps['HARVESTD'] ])
2528 steps['HARVEST2017_L1TEgDQM'] = merge([ {'-s':'HARVESTING:@standardDQM+@ExtraHLT+@miniAODDQM+@L1TEgamma'}, steps['HARVEST2017'] ])
2529 steps['HARVEST2017_L1TMuDQM'] = merge([ {'-s':'HARVESTING:@standardDQM+@ExtraHLT+@miniAODDQM+@L1TMuon'}, steps['HARVEST2017'] ])
2530 steps['HARVEST2018'] = merge([ {'--conditions':'auto:run2_data_relval','--era':'Run2_2018','--conditions':'auto:run2_data',}, steps['HARVESTD'] ])
2531 steps['HARVEST2018_Prompt'] = merge([ {'--conditions':'auto:run2_data_relval','--era':'Run2_2018','--conditions':'auto:run2_data_promptlike',}, steps['HARVESTD'] ])
2532 steps['HARVEST2018_L1TEgDQM'] = merge([ {'-s':'HARVESTING:@standardDQM+@ExtraHLT+@miniAODDQM+@L1TEgamma'}, steps['HARVEST2018'] ])
2533 steps['HARVEST2018_L1TEgDQM_Prompt'] = merge([ {'-s':'HARVESTING:@standardDQM+@ExtraHLT+@miniAODDQM+@L1TEgamma'}, steps['HARVEST2018_Prompt'] ])
2534 steps['HARVEST2018_L1TMuDQM'] = merge([ {'-s':'HARVESTING:@standardDQM+@ExtraHLT+@miniAODDQM+@L1TMuon'}, steps['HARVEST2018'] ])
2535 steps['HARVEST2018_L1TMuDQM_Prompt'] = merge([ {'-s':'HARVESTING:@standardDQM+@ExtraHLT+@miniAODDQM+@L1TMuon'}, steps['HARVEST2018_Prompt'] ])
2536 steps['HARVEST2018_hBStar'] = merge([ {'--era' : 'Run2_2018_highBetaStar'}, steps['HARVEST2018'] ])
2537 steps['HARVEST2018_HEfail'] = merge([ {'--conditions':'auto:run2_data_promptlike_HEfail'}, steps['HARVEST2018'] ])
2538 steps['HARVEST2018_BadHcalMitig'] = merge([ {'--era' : 'Run2_2018,pf_badHcalMitigation','--conditions':'auto:run2_data_promptlike_HEfail'}, steps['HARVEST2018'] ])
2539 
2540 steps['HARVEST2018_L1TEgDQM_MULTIRUN'] = merge([ {
2541  '--customise':"Configuration/StandardSequences/DQMSaverAtJobEnd_cff",
2542  # hardcode the input files since we need multiple, from each of the RECO steps.
2543  '--filein':"file:step6_inDQM.root,file:step3_inDQM.root",
2544  }, steps['HARVEST2018_L1TEgDQM'] ])
2545 
2546 steps['DQMHLTonAOD_2017']={
2547  '-s':'DQM:offlineHLTSourceOnAOD', ### DQM-only workflow on AOD input: for HLT
2548  '--conditions':'auto:run2_data_promptlike',
2549  '--data':'',
2550  '--eventcontent':'DQM',
2551  '--datatier':'DQMIO',
2552  '--era':'Run2_2017',
2553  '--fileout':'DQMHLTonAOD.root',
2554  }
2555 steps['DQMHLTonAODextra_2017'] = merge([ {'-s':'DQM:offlineHLTSourceOnAODextra'}, steps['DQMHLTonAOD_2017'] ])
2556 
2557 steps['DQMHLTonRAWAOD_2017']={
2558  '--process':'reHLT',
2559  '-s':'HLT:@relval2017,DQM:offlineHLTSourceOnAOD',
2560  '--conditions':'auto:run2_data_promptlike',
2561  '--data':'',
2562  '--eventcontent':'DQM',
2563  '--datatier':'DQMIO',
2564  '--era':'Run2_2017',
2565  '--secondfilein':'filelist:step1_dasparentquery.log',
2566  '--customise_commands':'"process.HLTAnalyzerEndpath.remove(process.hltL1TGlobalSummary)"',
2567  '--fileout':'DQMHLTonAOD.root',
2568  }
2569 
2570 steps['HARVESTDQMHLTonAOD_2017'] = merge([ {'--filein':'file:DQMHLTonAOD.root','-s':'HARVESTING:hltOfflineDQMClient'}, steps['HARVEST2017'] ]) ### Harvesting step for the DQM-only workflow
2571 
2572 steps['HARVESTDDQM']=merge([{'-s':'HARVESTING:@common+@muon+@hcal+@jetmet+@ecal'},steps['HARVESTD']])
2573 
2574 steps['HARVESTDfst2']=merge([{'--filein':'file:step2_inDQM.root'},steps['HARVESTDR1']])
2575 
2576 steps['HARVESTDC']={'-s':'HARVESTING:dqmHarvesting',
2577  '--conditions':'auto:run1_data',
2578  '--filetype':'DQM',
2579  '--data':'',
2580  '--filein':'file:step2_inDQM.root',
2581  '--scenario':'cosmics'}
2582 
2583 steps['HARVESTDCRUN2']=merge([{'--conditions':'auto:run2_data','--era':'Run2_2016'},steps['HARVESTDC']])
2584 
2585 steps['HARVESTDR2_REMINIAOD_data2016']=merge([{'--data':'', '-s':'HARVESTING:@miniAODDQM','--era':'Run2_2016,run2_miniAOD_80XLegacy'},steps['HARVESTDR2']])
2586 steps['HARVESTDR2_REMINIAOD_data2016_HIPM']=merge([{'--era':'Run2_2016_HIPM,run2_miniAOD_80XLegacy'},steps['HARVESTDR2_REMINIAOD_data2016']])
2587 steps['HARVESTDR2_REMINIAOD_data2016UL']=merge([{'--era':'Run2_2016', '--procModifiers':'run2_miniAOD_UL_preSummer20'},steps['HARVESTDR2_REMINIAOD_data2016']])
2588 steps['HARVESTDR2_REMINIAOD_data2016UL_HIPM']=merge([{'--era':'Run2_2016_HIPM'},steps['HARVESTDR2_REMINIAOD_data2016UL']])
2589 
2590 steps['HARVEST2017_REMINIAOD_data2017']=merge([{'--era':'Run2_2017,run2_miniAOD_94XFall17'},steps['HARVESTDR2_REMINIAOD_data2016']])
2591 steps['HARVEST2017_REMINIAOD_data2017UL']=merge([{'--era':'Run2_2017'},steps['HARVESTDR2_REMINIAOD_data2016UL']])
2592 steps['HARVEST2018_REMINIAOD_data2018UL']=merge([{'--era':'Run2_2018'},steps['HARVESTDR2_REMINIAOD_data2016UL']])
2593 
2594 steps['HARVESTDHI']={'-s':'HARVESTING:dqmHarvesting',
2595  '--conditions':'auto:run1_data',
2596  '--filetype':'DQM',
2597  '--data':'',
2598  '--scenario':'HeavyIons'}
2599 
2600 steps['HARVESTDHI15']=merge([{ '--conditions':'auto:run2_data',
2601  '--era':'Run2_HI',
2602  '-n':-1},steps['HARVESTDHI']])
2603 
2604 steps['HARVESTDHI18']=merge([{ '--era':'Run2_2018_pp_on_AA',
2605  '--scenario':'pp' },steps['HARVESTDHI15']])
2606 
2607 #MC
2608 steps['HARVEST']={'-s':'HARVESTING:validationHarvestingNoHLT+dqmHarvestingFakeHLT',
2609  '--conditions':'auto:run1_mc',
2610  '--mc':'',
2611  '--filetype':'DQM',
2612  '--scenario':'pp'}
2613 
2614 
2615 steps['HARVESTCOS']={'-s':'HARVESTING:dqmHarvesting',
2616  '--conditions':'auto:run1_mc',
2617  '--mc':'',
2618  '--filein':'file:step3_inDQM.root',
2619  '--filetype':'DQM',
2620  '--scenario':'cosmics'}
2621 steps['HARVESTHAL']={'-s' :'HARVESTING:dqmHarvesting',
2622  '--conditions':'auto:run2_mc',
2623  '--mc' :'',
2624  '--filein' :'file:step3_inDQM.root',
2625  '--scenario' :'cosmics',
2626  '--filein':'file:step3_inDQM.root', # unnnecessary
2627  '--filetype':'DQM',
2628  '--era' : 'Run2_2016',
2629  }
2630 steps['HARVESTCOS_UP15']={'-s' :'HARVESTING:dqmHarvesting',
2631  '--conditions':'auto:run2_mc_cosmics',
2632  '--mc' :'',
2633  '--filein' :'file:step3_inDQM.root',
2634  '--scenario' :'cosmics',
2635  '--filein':'file:step3_inDQM.root', # unnnecessary
2636  '--filetype':'DQM',
2637  '--era' : 'Run2_2016',
2638  }
2639 
2640 steps['HARVESTCOS_UP16']={'-s' :'HARVESTING:dqmHarvesting',
2641  '--conditions':'auto:run2_mc_cosmics',
2642  '--mc' :'',
2643  '--filein' :'file:step3_inDQM.root',
2644  '--scenario' :'cosmics',
2645  '--filein':'file:step3_inDQM.root', # unnnecessary
2646  '--filetype':'DQM',
2647  '--era' : 'Run2_2016'
2648  }
2649 
2650 steps['HARVESTCOS_UP17']={'-s' :'HARVESTING:dqmHarvesting',
2651  '--conditions':'auto:phase1_2017_cosmics',
2652  '--mc' :'',
2653  '--filein' :'file:step3_inDQM.root',
2654  '--scenario' :'cosmics',
2655  '--filein':'file:step3_inDQM.root', # unnnecessary
2656  '--filetype':'DQM',
2657  '--era' : 'Run2_2017'
2658  }
2659 
2660 steps['HARVESTCOS_UP18']={'-s' :'HARVESTING:dqmHarvesting',
2661  '--conditions':'auto:phase1_2018_cosmics',
2662  '--mc' :'',
2663  '--filein' :'file:step3_inDQM.root',
2664  '--scenario' :'cosmics',
2665  '--filein':'file:step3_inDQM.root', # unnnecessary
2666  '--filetype':'DQM',
2667  '--era' : 'Run2_2018'
2668  }
2669 
2670 steps['HARVESTCOS_UP21']={'-s' :'HARVESTING:dqmHarvesting',
2671  '--conditions':'auto:phase1_2021_cosmics',
2672  '--mc' :'',
2673  '--filein' :'file:step3_inDQM.root',
2674  '--scenario' :'cosmics',
2675  '--filein':'file:step3_inDQM.root', # unnnecessary
2676  '--filetype':'DQM',
2677  '--era' : 'Run3'
2678  }
2679 
2680 steps['HARVESTFS']={'-s':'HARVESTING:validationHarvesting',
2681  '--conditions':'auto:run1_mc',
2682  '--mc':'',
2683  '--fast':'',
2684  '--filetype':'DQM',
2685  '--scenario':'pp'}
2686 steps['HARVESTHI2018PPRECO']=merge([hiDefaults2018_ppReco,{'-s':'HARVESTING:validationHarvesting+dqmHarvesting',
2687  '--filein':'file:step3_inDQM.root',
2688  '--mc':'',
2689  '--era' : 'Run2_2018_pp_on_AA',
2690  '--filetype':'DQM'}])
2691 
2692 steps['HARVESTHI2018']=merge([hiDefaults2018,{'-s':'HARVESTING:validationHarvesting+dqmHarvesting',
2693  '--mc':'',
2694  '--era' : 'Run2_2017',
2695  '--filetype':'DQM',
2696  '--scenario':'HeavyIons'}])
2697 steps['HARVESTHI2017']=merge([hiDefaults2017,{'-s':'HARVESTING:validationHarvesting+dqmHarvesting',
2698  '--mc':'',
2699  '--era' : 'Run2_2017_pp_on_XeXe',
2700  '--filetype':'DQM'}])
2701 steps['HARVESTHI2015']=merge([hiDefaults2015,{'-s':'HARVESTING:validationHarvesting+dqmHarvesting',
2702  '--mc':'',
2703  '--era' : 'Run2_2016,Run2_HI',
2704  '--filetype':'DQM',
2705  '--scenario':'HeavyIons'}])
2706 steps['HARVESTHI2011']=merge([hiDefaults2011,{'-s':'HARVESTING:validationHarvesting+dqmHarvesting',
2707  '--mc':'',
2708  '--filetype':'DQM'}])
2709 
2710 steps['HARVESTPPREF2017']=merge([ppRefDefaults2017,{'-s':'HARVESTING:validationHarvesting+dqmHarvesting',
2711  '--mc':'',
2712  '--era' : 'Run2_2017_ppRef',
2713  '--filetype':'DQM'}])
2714 
2715 steps['HARVESTUP15']={
2716  # '-s':'HARVESTING:validationHarvesting+dqmHarvesting', # todo: remove UP from label
2717  '-s':'HARVESTING:@standardValidation+@standardDQM+@ExtraHLT+@miniAODValidation+@miniAODDQM', # todo: remove UP from label
2718  '--conditions':'auto:run2_mc',
2719  '--mc':'',
2720  '--era' : 'Run2_2016',
2721  '--filetype':'DQM',
2722  }
2723 steps['HARVESTUP15_L1TEgDQM']=merge([{'-s':'HARVESTING:@standardValidation+@standardDQM+@ExtraHLT+@miniAODValidation+@miniAODDQM+@L1TEgamma'},steps['HARVESTUP15']])
2724 steps['HARVESTUP15_L1TMuDQM']=merge([{'-s':'HARVESTING:@standardValidation+@standardDQM+@ExtraHLT+@miniAODValidation+@miniAODDQM+@L1TMuon'},steps['HARVESTUP15']])
2725 
2726 steps['HARVESTMINUP15']=merge([{'-s':'HARVESTING:validationHarvesting+dqmHarvesting'},steps['HARVESTUP15']])
2727 
2728 steps['HARVESTUP15_PU25']=steps['HARVESTUP15']
2729 steps['HARVESTUP15_PU25_L1TEgDQM']=steps['HARVESTUP15_L1TEgDQM']
2730 steps['HARVESTUP15_PU25_L1TMuDQM']=steps['HARVESTUP15_L1TMuDQM']
2731 
2732 steps['HARVESTUP15_PU50']=merge([{'-s':'HARVESTING:@standardValidationNoHLT+@standardDQMFakeHLT+@miniAODValidation+@miniAODDQM','--era' : 'Run2_50ns'},steps['HARVESTUP15']])
2733 steps['HARVESTUP15_PU50_L1TEgDQM']=merge([{'-s':'HARVESTING:@standardValidationNoHLT+@standardDQMFakeHLT+@miniAODValidation+@miniAODDQM+@L1TEgamma'},steps['HARVESTUP15_PU50']])
2734 steps['HARVESTUP15_PU50_L1TMuDQM']=merge([{'-s':'HARVESTING:@standardValidationNoHLT+@standardDQMFakeHLT+@miniAODValidation+@miniAODDQM+@L1TMuon'},steps['HARVESTUP15_PU50']])
2735 
2736 steps['HARVESTUP15_trackingOnly']=merge([{'-s': 'HARVESTING:@trackingOnlyValidation+@trackingOnlyDQM'}, steps['HARVESTUP15']])
2737 
2738 steps['HARVESTUP17']=merge([{'--conditions':'auto:phase1_2017_realistic','--era' : 'Run2_2017','--geometry' : 'DB:Extended'},steps['HARVESTUP15']])
2739 steps['HARVESTUP18']=merge([{'--conditions':'auto:phase1_2018_realistic','--era' : 'Run2_2018','--geometry' : 'DB:Extended'},steps['HARVESTUP15']])
2740 steps['HARVESTUP18_L1TEgDQM']=merge([{'-s':'HARVESTING:@standardValidation+@standardDQM+@ExtraHLT+@miniAODValidation+@miniAODDQM+@L1TEgamma'},steps['HARVESTUP18']])
2741 steps['HARVESTUP18_L1TMuDQM']=merge([{'-s':'HARVESTING:@standardValidation+@standardDQM+@ExtraHLT+@miniAODValidation+@miniAODDQM+@L1TMuon'},steps['HARVESTUP18']])
2742 
2743 steps['HARVESTUP17_PU25']=steps['HARVESTUP17']
2744 steps['HARVESTUP18_PU25']=steps['HARVESTUP18']
2745 steps['HARVESTUP18_PU25_L1TEgDQM']=steps['HARVESTUP18_L1TEgDQM']
2746 steps['HARVESTUP18_PU25_L1TMuDQM']=steps['HARVESTUP18_L1TMuDQM']
2747 
2748 steps['HARVESTDR2_REMINIAOD_mc2016']=merge([{'-s':'HARVESTING:@miniAODValidation+@miniAODDQM','--era':'Run2_2016,run2_miniAOD_80XLegacy'},steps['HARVESTUP15']])
2749 steps['HARVESTUP17_REMINIAOD_mc2017']=merge([{'-s':'HARVESTING:@miniAODValidation+@miniAODDQM','--era':'Run2_2017,run2_miniAOD_94XFall17'},steps['HARVESTUP17']])
2750 # UL setup uses proc modifiers
2751 steps['HARVESTDR2_REMINIAOD_mc2016UL_preVFP']=merge([{'--conditions':'auto:run2_mc_pre_vfp','--era':'Run2_2016_HIPM','--procModifiers':'run2_miniAOD_UL_preSummer20'},
2752  steps['HARVESTDR2_REMINIAOD_mc2016']])
2753 steps['HARVESTDR2_REMINIAOD_mc2016UL_postVFP']=merge([{'--conditions':'auto:run2_mc','--era':'Run2_2016'},steps['HARVESTDR2_REMINIAOD_mc2016UL_preVFP']])
2754 steps['HARVESTUP17_REMINIAOD_mc2017UL']=merge([{'--era':'Run2_2017','--procModifiers':'run2_miniAOD_UL_preSummer20'},steps['HARVESTUP17_REMINIAOD_mc2017']])
2755 steps['HARVESTUP18_REMINIAOD_mc2018UL']=merge([{'--conditions':'auto:phase1_2018_realistic','--era':'Run2_2018'},steps['HARVESTUP17_REMINIAOD_mc2017UL']])
2756 
2757 # for Run1 PPb data workflow
2758 steps['HARVEST_PPbData']=merge([{'--conditions':'auto:run1_data','-s':'HARVESTING:dqmHarvesting','--scenario':'pp','--era':'Run1_pA' }, steps['HARVESTDHI']])
2759 
2760 # for Run2 PPb MC workflow
2761 steps['HARVESTUP15_PPb']=merge([{'--conditions':'auto:run2_mc_pa','--era':'Run2_2016_pA'}, steps['HARVESTMINUP15']])
2762 
2763 # unSchHarvestOverrides={'-s':'HARVESTING:@standardValidation+@standardDQM+@ExtraHLT+@miniAODValidation+@miniAODDQM'}
2764 # steps['HARVESTmAODUP15']=merge([unSchHarvestOverrides,steps['HARVESTUP15']])
2765 
2766 steps['HARVESTUP15FS']={'-s':'HARVESTING:validationHarvesting',
2767  '--conditions':'auto:run2_mc',
2768  '--fast':'',
2769  '--mc':'',
2770  '--era':'Run2_2016',
2771  '--filetype':'DQM',
2772  '--scenario':'pp'}
2773 steps['HARVESTUP15FS_trackingOnly']=merge([{'-s': 'HARVESTING:@trackingOnlyValidation+@trackingOnlyDQM'}, steps['HARVESTUP15FS']])
2774 steps['HARVESTUP17FS']=merge([{'--conditions':'auto:phase1_2017_realistic','--era' : 'Run2_2017_FastSim'},steps['HARVESTUP15FS']])
2775 steps['HARVESTUP17FS_trackingOnly']=merge([{'-s': 'HARVESTING:@trackingOnlyValidation+@trackingOnlyDQM'}, steps['HARVESTUP17FS']])
2776 steps['HARVESTUP18FS']=merge([{'--conditions':'auto:phase1_2018_realistic','--era' : 'Run2_2018_FastSim'},steps['HARVESTUP15FS']])
2777 steps['HARVESTUP18FS_trackingOnly']=merge([{'-s': 'HARVESTING:@trackingOnlyValidation+@trackingOnlyDQM'}, steps['HARVESTUP18FS']])
2778 
2779 steps['ALCASPLIT']={'-s':'ALCAOUTPUT:@allForPrompt',
2780  '--conditions':'auto:run1_data',
2781  '--scenario':'pp',
2782  '--data':'',
2783  '--triggerResultsProcess':'RECO',
2784  '--filein':'file:step2_inALCARECO.root'}
2785 
2786 steps['SKIMD']={'-s':'SKIM:all',
2787  '--conditions':'auto:run1_data',
2788  '--data':'',
2789  '--scenario':'pp',
2790  '--filein':'file:step2.root',
2791  '--secondfilein':'filelist:step1_dasquery.log'}
2792 
2793 steps['SKIMDreHLT'] = merge([ {'--conditions':'auto:run1_data_%s'%menu,'--filein':'file:step3.root'}, steps['SKIMD'] ])
2794 
2795 steps['SKIMCOSD']={'-s':'SKIM:all',
2796  '--conditions':'auto:run1_data',
2797  '--data':'',
2798  '--scenario':'cosmics',
2799  '--filein':'file:step2.root',
2800  '--secondfilein':'filelist:step1_dasquery.log'}
2801 
2802 steps['RECOFROMRECO']=merge([{'-s':'RECO,EI',
2803  '--filtername':'RECOfromRECO',
2804  '--process':'reRECO',
2805  '--datatier':'AODSIM',
2806  '--eventcontent':'AODSIM',
2807  '--procModifiers':'recoFromReco',
2808  },
2809  stCond,step3Defaults])
2810 
2811 
2812 steps['RECOFROMRECOSt2']=steps['RECOFROMRECO']
2813 
2814 steps['RECODFROMRAWRECO']=merge([{'-s':'RAW2DIGI:RawToDigi_noTk,L1Reco,RECO:reconstruction_noTracking,EI',
2815  '--filtername':'RECOfromRAWRECO',
2816  '--process':'rereRECO',
2817  '--datatier':'AOD',
2818  '--eventcontent':'AOD',
2819  '--secondfilein':'filelist:step1_dasquery.log',
2820  },
2821  steps['RECOD']])
2822 
2823 
2824 steps['COPYPASTE']={'-s':'NONE',
2825  '--conditions':'auto:run1_mc',
2826  '--output':'\'[{"t":"RAW","e":"ALL"}]\'',
2827  '--customise_commands':'"process.ALLRAWoutput.fastCloning=cms.untracked.bool(False)"'}
2828 
2829 #miniaod
2830 stepMiniAODDefaults = { '-s' : 'PAT',
2831  '--runUnscheduled': '',
2832  '--era' : 'Run2_2016',
2833  '-n' : '100'
2834  }
2835 stepMiniAODDataUP15 = merge([{'--conditions' : 'auto:run1_data',
2836  '--data' : '',
2837  '--datatier' : 'MINIAOD',
2838  '--eventcontent' : 'MINIAOD',
2839  '--filein' :'file:step3.root'
2840  },stepMiniAODDefaults])
2841 
2842 steps['REMINIAOD_data2016'] = merge([{'-s' : 'PAT,DQM:@miniAODDQM',
2843  '--process' : 'PAT',
2844  '--era' : 'Run2_2016,run2_miniAOD_80XLegacy',
2845  '--conditions' : 'auto:run2_data_relval',
2846  '--data' : '',
2847  '--scenario' : 'pp',
2848  '--eventcontent' : 'MINIAOD,DQM',
2849  '--datatier' : 'MINIAOD,DQMIO'
2850  },stepMiniAODDefaults])
2851 
2852 steps['REMINIAOD_data2016_HIPM'] = merge([{'--era' : 'Run2_2016_HIPM,run2_miniAOD_80XLegacy'},steps['REMINIAOD_data2016']])
2853 steps['REMINIAOD_data2016UL'] = merge([{'--era' : 'Run2_2016', '--procModifiers' : 'run2_miniAOD_UL_preSummer20'},steps['REMINIAOD_data2016']])
2854 steps['REMINIAOD_data2016UL_HIPM'] = merge([{'--era' : 'Run2_2016_HIPM'},steps['REMINIAOD_data2016UL']])
2855 
2856 stepReMiniAODData17 = merge([{'--era' : 'Run2_2017,run2_miniAOD_94XFall17'},steps['REMINIAOD_data2016']])
2857 steps['REMINIAOD_data2017'] = stepReMiniAODData17
2858 steps['REMINIAOD_data2017UL'] = merge([{'--era' : 'Run2_2017'},steps['REMINIAOD_data2016UL']])
2859 steps['REMINIAOD_data2018UL'] = merge([{'--era' : 'Run2_2018'},steps['REMINIAOD_data2016UL']])
2860 
2861 # Not sure whether the customisations are in the dict as "--customise" or "--era" so try to
2862 # remove both. Currently premixing uses "--customise" and everything else uses "--era".
2863 try : stepMiniAODData = remove(stepMiniAODDataUP15,'--era')
2864 except : stepMiniAODData = remove(stepMiniAODDataUP15,'--customise')
2865 
2866 stepMiniAODMC = merge([{'--conditions' : 'auto:run2_mc',
2867  '--mc' : '',
2868  '--era' : 'Run2_2016',
2869  '--datatier' : 'MINIAODSIM',
2870  '--eventcontent' : 'MINIAODSIM',
2871  '--filein' :'file:step3.root'
2872  },stepMiniAODDefaults])
2873 
2874 steps['REMINIAOD_mc2016'] = merge([{'-s' : 'PAT,VALIDATION:@miniAODValidation,DQM:@miniAODDQM',
2875  '--process' : 'PAT',
2876  '--era' : 'Run2_2016,run2_miniAOD_80XLegacy',
2877  '--conditions' : 'auto:run2_mc',
2878  '--mc' : '',
2879  '--scenario' : 'pp',
2880  '--eventcontent' : 'MINIAODSIM,DQM',
2881  '--datatier' : 'MINIAODSIM,DQMIO'
2882  },stepMiniAODDefaults])
2883 
2884 steps['REMINIAOD_mc2017'] =merge([{'--conditions':'auto:phase1_2017_realistic','--era':'Run2_2017,run2_miniAOD_94XFall17'},steps['REMINIAOD_mc2016']])
2885 # UL uses procModifiers:
2886 steps['REMINIAOD_mc2016UL_preVFP']=merge([{'--conditions':'auto:run2_mc_pre_vfp','--era':'Run2_2016_HIPM','--procModifiers':'run2_miniAOD_UL_preSummer20'},steps['REMINIAOD_mc2016']])
2887 steps['REMINIAOD_mc2016UL_postVFP']=merge([{'--conditions':'auto:run2_mc','--era':'Run2_2016'},steps['REMINIAOD_mc2016UL_preVFP']])
2888 steps['REMINIAOD_mc2017UL']=merge([{'--era':'Run2_2017','--procModifiers':'run2_miniAOD_UL_preSummer20'},steps['REMINIAOD_mc2017']])
2889 steps['REMINIAOD_mc2018UL']=merge([{'--conditions':'auto:phase1_2018_realistic','--era':'Run2_2018','--procModifiers':'run2_miniAOD_UL_preSummer20'},steps['REMINIAOD_mc2017']])
2890 
2891 #steps['MINIAODDATA'] =merge([stepMiniAODData])
2892 #steps['MINIAODDreHLT'] =merge([{'--conditions':'auto:run1_data_%s'%menu},stepMiniAODData])
2893 #steps['MINIAODDATAs2'] =merge([{'--filein':'file:step2.root'},stepMiniAODData])
2894 
2895 #MiniAOD 2016
2896 steps['MINIAODMCUP15'] =merge([stepMiniAODMC])
2897 #steps['MINIAODMCUP1550'] =merge([{'--conditions':'auto:run2_mc_50ns','--era':'Run2_50ns'},stepMiniAODMC])
2898 #steps['MINIAODMCUP15HI'] =merge([{'--conditions':'auto:run2_mc_hi','--era':'Run2_HI'},stepMiniAODMC])
2899 steps['MINIAODMCUP15FS'] =merge([{'--filein':'file:step1.root','--fast':''},stepMiniAODMC])
2900 steps['MINIAODMCUP15FS50'] =merge([{'--conditions':'auto:run2_mc_50ns','--era':'Run2_50ns'},steps['MINIAODMCUP15FS']])
2901 steps['DBLMINIAODMCUP15NODQM'] = merge([{'--conditions':'auto:run2_mc',
2902  '-s':'PAT',
2903  '--datatier' : 'MINIAODSIM',
2904  '--eventcontent':'MINIAOD',},stepMiniAODMC])
2905 
2906 #MiniAOD 2017
2907 steps['MINIAODMCUP17FS'] =merge([{'--filein':'file:step1.root','--fast':'','--conditions':'auto:phase1_2017_realistic','--era':'Run2_2017_FastSim'},stepMiniAODMC])
2908 
2909 #MiniAOD 2018
2910 steps['MINIAODMCUP18'] =merge([{'--conditions':'auto:phase1_2018_realistic','--era':'Run2_2018'},stepMiniAODMC])
2911 steps['MINIAODMCUP18bParking'] =merge([{'--conditions':'auto:phase1_2018_realistic','--era':'Run2_2018,bParking'},stepMiniAODMC])
2912 steps['MINIAODMCUP18FS'] =merge([{'--filein':'file:step1.root','--fast':'','--conditions':'auto:phase1_2018_realistic','--era':'Run2_2018_FastSim'},stepMiniAODMC])
2913 
2914 stepNanoAODDefaults = { '-s': 'NANO,DQM:@nanoAODDQM', '-n': 1000 }
2915 stepNanoGenDefaults = { '-s': 'NANOGEN,DQM:@nanogenDQM', '-n': 1000 }
2916 stepNanoAODData = merge([{ '--data':'', '--eventcontent' : 'NANOAOD,DQM' ,'--datatier': 'NANOAOD,DQMIO' }, stepNanoAODDefaults ])
2917 stepNanoAODMC = merge([{ '--mc':'' , '--eventcontent' : 'NANOAODSIM,DQM','--datatier': 'NANOAODSIM,DQMIO' }, stepNanoAODDefaults ])
2918 stepNanoEDMData = merge([{ '--data':'', '--eventcontent' : 'NANOEDMAOD,DQM' ,'--datatier': 'NANOAOD,DQMIO' }, stepNanoAODDefaults ])
2919 stepNanoEDMMC = merge([{ '--mc':'' , '--eventcontent' : 'NANOEDMAODSIM,DQM','--datatier': 'NANOAODSIM,DQMIO' }, stepNanoAODDefaults ])
2920 stepNanoEDMMCProd = merge([{ '--mc':'', '-s': 'NANO', '--eventcontent' : 'NANOEDMAODSIM','--datatier': 'NANOAODSIM' }, stepNanoAODDefaults ])
2921 stepNanoGen = merge([{ '--mc':'' , '--eventcontent' : 'NANOAODGEN,DQM','--datatier': 'NANOAODSIM,DQMIO' }, stepNanoGenDefaults ])
2922 
2923 steps['NANOGENFromGen'] = merge([{'--conditions': 'auto:run2_mc', '--customise' : 'PhysicsTools/NanoAOD/nanogen_cff.customizeNanoGEN'}, stepNanoGen ])
2924 steps['NANOGENFromMini'] = merge([{'--conditions': 'auto:run2_mc'}, stepNanoGen ])
2925 
2926 steps['NANOAOD2016'] = merge([{'--conditions': 'auto:run2_data_relval', '--era': 'Run2_2016'}, stepNanoAODData ])
2927 steps['NANOAOD2017'] = merge([{'--conditions': 'auto:run2_data_relval', '--era': 'Run2_2017'}, stepNanoAODData ])
2928 
2929 steps['NANOAOD2016_80X'] = merge([{'--era': 'Run2_2016,run2_miniAOD_80XLegacy'}, steps['NANOAOD2016'] ])
2930 steps['NANOAOD2017_94XMiniAODv1'] = merge([{'--era': 'Run2_2017,run2_nanoAOD_94XMiniAODv1'}, steps['NANOAOD2017'] ])
2931 steps['NANOAOD2017_94XMiniAODv2'] = merge([{'--era': 'Run2_2017,run2_nanoAOD_94XMiniAODv2'}, steps['NANOAOD2017'] ])
2932 
2933 steps['NANOAODMC2016'] = merge([{'--conditions': 'auto:run2_mc', '--era': 'Run2_2016'}, stepNanoAODMC ])
2934 steps['NANOAODMC2017'] = merge([{'--conditions': 'auto:phase1_2017_realistic', '--era': 'Run2_2017'}, stepNanoAODMC ])
2935 
2936 steps['NANOAODMC2016_80X'] = merge([{'--era': 'Run2_2016,run2_miniAOD_80XLegacy'}, steps['NANOAODMC2016'] ])
2937 steps['NANOAODMC2017_94XMiniAODv1'] = merge([{'--era': 'Run2_2017,run2_nanoAOD_94XMiniAODv1'}, steps['NANOAODMC2017'] ])
2938 steps['NANOAODMC2017_94XMiniAODv2'] = merge([{'--era': 'Run2_2017,run2_nanoAOD_94XMiniAODv2'}, steps['NANOAODMC2017'] ])
2939 
2940 steps['NANOAODMC2017_106XMiniAODv1'] = merge([{'--era': 'Run2_2017,run2_nanoAOD_106Xv1'}, steps['NANOAODMC2017'] ])
2941 
2942 steps['NANOEDMMC2017'] = merge([{'--conditions': 'auto:phase1_2017_realistic', '--era': 'Run2_2017'}, stepNanoEDMMC ])
2943 steps['NANOEDMMC2017_94XMiniAODv1'] = merge([{'--era': 'Run2_2017,run2_nanoAOD_94XMiniAODv1'}, steps['NANOEDMMC2017'] ])
2944 steps['NANOEDMMC2017_94XMiniAODv2'] = merge([{'--era': 'Run2_2017,run2_nanoAOD_94XMiniAODv2'}, steps['NANOEDMMC2017'] ])
2945 steps['NANOEDMMC2017_106XMiniAODv1'] = merge([{'--era': 'Run2_2017,run2_nanoAOD_106Xv1'}, steps['NANOEDMMC2017'] ])
2946 steps['NANOEDMMC2016_80X'] = merge([{'--conditions': 'auto:run2_mc', '--era': 'Run2_2016,run2_miniAOD_80XLegacy'}, steps['NANOEDMMC2017'] ])
2947 steps['NANOEDMMC2018_PROD'] = merge([{'--conditions': 'auto:phase1_2018_realistic', '--era': 'Run2_2018', '--filein':'file:step3_inMINIAODSIM.root'}, stepNanoEDMMCProd ])
2948 
2949 steps['NANOEDM2017'] = merge([{'--conditions': 'auto:run2_data_relval', '--era': 'Run2_2017'}, stepNanoEDMData ])
2950 steps['NANOEDM2017_94XMiniAODv1'] = merge([{'--era': 'Run2_2017,run2_nanoAOD_94XMiniAODv1'}, steps['NANOEDM2017'] ])
2951 steps['NANOEDM2017_94XMiniAODv2'] = merge([{'--era': 'Run2_2017,run2_nanoAOD_94XMiniAODv2'}, steps['NANOEDM2017'] ])
2952 steps['NANOEDM2016_80X'] = merge([{'--era': 'Run2_2016,run2_miniAOD_80XLegacy'}, steps['NANOEDM2017'] ])
2953 steps['NANOEDM2018'] = merge([ {'--conditions': 'auto:run2_data_promptlike', '--era': 'Run2_2018'}, stepNanoEDMData ])
2954 steps['NANOEDM2018_102Xv1'] = merge([ {'--era': 'Run2_2018,run2_nanoAOD_102Xv1'}, steps['NANOEDM2018'] ])
2955 steps['NANOEDM2018_106Xv1'] = merge([ {'--era': 'Run2_2018,run2_nanoAOD_106Xv1'}, steps['NANOEDM2018'] ])
2956 steps['NANOEDM2018_106Xv2'] = merge([ {'--era': 'Run2_2018,run2_nanoAOD_106Xv2'}, steps['NANOEDM2018'] ])
2957 
2958 steps['HARVESTNANOAODMC2017']=merge([{'-s':'HARVESTING:@nanoAODDQM','--conditions': 'auto:phase1_2017_realistic','--era': 'Run2_2017'},steps['HARVESTUP15']])
2959 steps['HARVESTNANOAODMC2017_94XMiniAODv1']=merge([{'--era': 'Run2_2017,run2_nanoAOD_94XMiniAODv1'},steps['HARVESTNANOAODMC2017']])
2960 steps['HARVESTNANOAODMC2017_94XMiniAODv2']=merge([{'--era': 'Run2_2017,run2_nanoAOD_94XMiniAODv2'},steps['HARVESTNANOAODMC2017']])
2961 steps['HARVESTNANOAODMC2016_80X']=merge([{'--conditions': 'auto:run2_mc','--era': 'Run2_2016,run2_miniAOD_80XLegacy'},steps['HARVESTNANOAODMC2017']])
2962 
2963 steps['HARVESTNANOAODMC2017_106XMiniAODv1']=merge([{'--era': 'Run2_2017,run2_nanoAOD_106Xv1'},steps['HARVESTNANOAODMC2017']])
2964 
2965 steps['HARVESTNANOAOD2017']=merge([{'--data':'','-s':'HARVESTING:@nanoAODDQM','--conditions':'auto:run2_data_relval','--era':'Run2_2017'},steps['HARVESTDR2']])
2966 steps['HARVESTNANOAOD2017_94XMiniAODv1']=merge([{'--era': 'Run2_2017,run2_nanoAOD_94XMiniAODv1'},steps['HARVESTNANOAOD2017']])
2967 steps['HARVESTNANOAOD2017_94XMiniAODv2']=merge([{'--era': 'Run2_2017,run2_nanoAOD_94XMiniAODv2'},steps['HARVESTNANOAOD2017']])
2968 steps['HARVESTNANOAOD2016_80X']=merge([{'--era': 'Run2_2016,run2_miniAOD_80XLegacy'},steps['HARVESTNANOAOD2017']])
2969 steps['HARVESTNANOAOD2018']=merge([{'--conditions': 'auto:run2_data_promptlike', '--era':'Run2_2018'}, steps['HARVESTNANOAOD2017']])
2970 steps['HARVESTNANOAOD2018_102Xv1']=merge([{'--era':'Run2_2018,run2_nanoAOD_102Xv1'}, steps['HARVESTNANOAOD2018']])
2971 
2972 steps['HARVESTNANOAOD2018_106Xv1']=merge([{'--era':'Run2_2018,run2_nanoAOD_106Xv1'}, steps['HARVESTNANOAOD2018']])
2973 steps['HARVESTNANOAOD2018_106Xv2']=merge([{'--era':'Run2_2018,run2_nanoAOD_106Xv2'}, steps['HARVESTNANOAOD2018']])
2974 
2975 steps['NANOMERGE'] = { '-s': 'ENDJOB', '-n': 1000 , '--eventcontent' : 'NANOAODSIM','--datatier': 'NANOAODSIM', '--conditions': 'auto:run2_mc' }
2976 
2977 steps['HEfail'] = {'--conditions':'auto:phase1_2018_realistic_HEfail',
2978  '-n':'10',
2979  '--pileup':'AVE_50_BX_25ns','--pileup_input':'das:/RelValMinBias_13/%s/GEN-SIM'%(baseDataSetRelease[18]),
2980  '--era' : 'Run2_2018',
2981  '--geometry' : 'DB:Extended'
2982  }
2983 steps['DigiFullHEfail']=merge([{'-s':'DIGI:pdigi_valid,L1,DIGI2RAW,HLT:@relval2018','--datatier':'GEN-SIM-DIGI-RAW','--eventcontent':'FEVTDEBUGHLT'}, steps['HEfail']])
2984 steps['RecoFullHEfail']=merge([{'-s':'RAW2DIGI,L1Reco,RECO,RECOSIM,EI,PAT,VALIDATION:@standardValidation+@miniAODValidation,DQM:@standardDQM+@ExtraHLT+@miniAODDQM',
2985  '--datatier':'GEN-SIM-RECO,MINIAODSIM,DQMIO',
2986  '--runUnscheduled':'',
2987  '--eventcontent':'RECOSIM,MINIAODSIM,DQM',
2988  }, steps['HEfail']])
2989 steps['HARVESTFullHEfail']=merge([{'-s':'HARVESTING:@standardValidation+@standardDQM+@ExtraHLT+@miniAODValidation+@miniAODDQM','--mc':'','--scenario' : 'pp','--filetype':'DQM'}, steps['HEfail']])
2990 steps['NanoFullHEfail']={'-s':'NANO',
2991  '--conditions':'auto:phase1_2018_realistic_HEfail',
2992  '-n':'10',
2993  '--era' : 'Run2_2018',
2994  '--geometry' : 'DB:Extended',
2995  '--datatier':'NANOAODSIM',
2996  '--eventcontent':'NANOEDMAODSIM',
2997  '--filein':'file:step3_inMINIAODSIM.root'}
2998 steps['DigiFullBadHcalMitig']=merge([{'--era' : 'Run2_2018,pf_badHcalMitigation'}, steps['DigiFullHEfail']])
2999 steps['RecoFullBadHcalMitig']=merge([{'--era' : 'Run2_2018,pf_badHcalMitigation'}, steps['RecoFullHEfail']])
3000 steps['HARVESTFullBadHcalMitig']=merge([{'--era' : 'Run2_2018,pf_badHcalMitigation'}, steps['HARVESTFullHEfail']])
3001 steps['NanoFullBadHcalMitig']=merge([{'--era' : 'Run2_2018,pf_badHcalMitigation'}, steps['NanoFullHEfail']])
3002 
3003 #################################################################################
3004 ####From this line till the end of the file :
3005 ####UPGRADE WORKFLOWS IN PREPARATION - Gaelle's sandbox -
3006 #####Accessible only through the option --what upgrade
3007 #####(unless specifically added to relval_2023.py)
3008 #####Transparent for any of the standard workflows
3009 #### list of worflows defined (not necessarly running though): runTheMatrix.py --what upgrade -n
3010 ####
3011 ###
3012 #################################################################################
3013 
3014 from Configuration.PyReleaseValidation.upgradeWorkflowComponents import *
3015 
3016 defaultDataSets={}
3017 defaultDataSets['2017']='CMSSW_10_5_0_pre1-103X_mc2017_realistic_v2-v'
3018 defaultDataSets['2017Design']='CMSSW_10_0_0_pre2-100X_mc2017_design_IdealBS_v1-v'
3019 defaultDataSets['2018']='CMSSW_10_5_0_pre1-103X_upgrade2018_realistic_v8-v'
3020 defaultDataSets['2018Design']='CMSSW_10_5_0_pre1-103X_upgrade2018_design_v4-v'
3021 defaultDataSets['2021']='CMSSW_10_6_0_pre3-105X_postLS2_realistic_v6-v'
3022 defaultDataSets['2021Design']='CMSSW_10_6_0_pre3-105X_postLS2_realistic_v6-v'
3023 defaultDataSets['2023D17']='CMSSW_10_2_0_pre2-101X_upgrade2023_realistic_v5_2023D17noPU-v'
3024 defaultDataSets['2023D19']=''
3025 defaultDataSets['2023D21']=''
3026 defaultDataSets['2023D24']=''
3027 defaultDataSets['2023D25']=''
3028 defaultDataSets['2023D28']=''
3029 defaultDataSets['2023D29']=''
3030 defaultDataSets['2023D30']=''
3031 defaultDataSets['2023D31']=''
3032 defaultDataSets['2023D33']=''
3033 defaultDataSets['2023D34']=''
3034 defaultDataSets['2023D35']='CMSSW_10_4_0_mtd3-103X_upgrade2023_realistic_v2_2023D35noPU_2-v'
3035 defaultDataSets['2023D38']=''
3036 defaultDataSets['2023D39']=''
3037 defaultDataSets['2023D40']=''
3038 defaultDataSets['2023D41']=''
3039 defaultDataSets['2023D42']=''
3040 
3041 keys=defaultDataSets.keys()
3042 for key in keys:
3043  defaultDataSets[key+'PU']=defaultDataSets[key]
3044 
3045 # sometimes v1 won't be used - override it here - the dictionary key is gen fragment + '_' + geometry
3046 versionOverrides={'BuMixing_BMuonFilter_forSTEAM_13TeV_TuneCUETP8M1_2017':'2','HSCPstop_M_200_TuneCUETP8M1_13TeV_pythia8_2017':'2','RSGravitonToGammaGamma_kMpl01_M_3000_TuneCUETP8M1_13TeV_pythia8_2017':'2','WprimeToENu_M-2000_TuneCUETP8M1_13TeV-pythia8_2017':'2','DisplacedSUSY_stopToBottom_M_300_1000mm_TuneCUETP8M1_13TeV_pythia8_2017':'2','TenE_E_0_200_pythia8_2017':'2','TenE_E_0_200_pythia8_2017PU':'2', 'TenTau_E_15_500_pythia8_2018':'2','PhotonJet_Pt_10_13TeV_TuneCUETP8M1_2018':'2','Wjet_Pt_80_120_13TeV_TuneCUETP8M1_2018':'2'}
3047 
3048 baseDataSetReleaseBetter={}
3049 for gen in upgradeFragments:
3050  for ds in defaultDataSets:
3051  key=gen[:-4]+'_'+ds
3052  version='1'
3053  if key in versionOverrides:
3054  version = versionOverrides[key]
3055  baseDataSetReleaseBetter[key]=defaultDataSets[ds]+version
3056 
3057 PUDataSets={}
3058 for ds in defaultDataSets:
3059  key='MinBias_14TeV_pythia8_TuneCUETP8M1'+'_'+ds
3060  name=baseDataSetReleaseBetter[key]
3061  if '2017' in name:
3062  PUDataSets[ds]={'-n':10,'--pileup':'AVE_35_BX_25ns','--pileup_input':'das:/RelValMinBias_13/%s/GEN-SIM'%(name,)}
3063  elif '2018' in name:
3064  PUDataSets[ds]={'-n':10,'--pileup':'AVE_50_BX_25ns','--pileup_input':'das:/RelValMinBias_13/%s/GEN-SIM'%(name,)}
3065  elif 'postLS2' in name:
3066  PUDataSets[ds]={'-n':10,'--pileup':'AVE_50_BX_25ns','--pileup_input':'das:/RelValMinBias_13/%s/GEN-SIM'%(name,)}
3067  elif '2023' in name:
3068  PUDataSets[ds]={'-n':10,'--pileup':'AVE_200_BX_25ns','--pileup_input':'das:/RelValMinBias_14TeV/%s/GEN-SIM'%(name,)}
3069  else:
3070  PUDataSets[ds]={'-n':10,'--pileup':'AVE_35_BX_25ns','--pileup_input':'das:/RelValMinBias_14TeV/%s/GEN-SIM'%(name,)}
3071 
3072  #PUDataSets[ds]={'-n':10,'--pileup':'AVE_50_BX_25ns','--pileup_input':'das:/RelValMinBias_13/%s/GEN-SIM'%(name,)}
3073  #PUDataSets[ds]={'-n':10,'--pileup':'AVE_70_BX_25ns','--pileup_input':'das:/RelValMinBias_13/%s/GEN-SIM'%(name,)}
3074 
3075 
3076 upgradeStepDict={}
3077 for stepType in upgradeSteps.keys():
3078  for step in upgradeSteps[stepType]['steps']:
3079  stepName = step+upgradeSteps[stepType]['suffix']
3080  upgradeStepDict[stepName]={}
3081  for step in upgradeSteps[stepType]['PU']:
3082  stepName = step+'PU'+upgradeSteps[stepType]['suffix']
3083  upgradeStepDict[stepName]={}
3084  stepNamePmx = step+'PUPRMX'+upgradeSteps[stepType]['suffix']
3085  upgradeStepDict[stepNamePmx]={}
3086  upgradeStepDict[stepNamePmx+'Combined']={}
3087 
3088 # just make all combinations - yes, some will be nonsense.. but then these are not used unless specified above
3089 # collapse upgradeKeys using list comprehension
3090 for year,k in [(year,k) for year in upgradeKeys for k in upgradeKeys[year]]:
3091  k2=k
3092  if 'PU' in k[-2:]:
3093  k2=k[:-2]
3094  geom=upgradeProperties[year][k]['Geom']
3095  gt=upgradeProperties[year][k]['GT']
3096  hltversion=upgradeProperties[year][k].get('HLTmenu')
3097  cust=upgradeProperties[year][k].get('Custom', None)
3098  era=upgradeProperties[year][k].get('Era', None)
3099  beamspot=upgradeProperties[year][k].get('BeamSpot', None)
3100 
3101  # setup baseline steps
3102  upgradeStepDict['GenSimFull'][k]= {'-s' : 'GEN,SIM',
3103  '-n' : 10,
3104  '--conditions' : gt,
3105  '--beamspot' : 'Realistic25ns13TeVEarly2017Collision',
3106  '--datatier' : 'GEN-SIM',
3107  '--eventcontent': 'FEVTDEBUG',
3108  '--geometry' : geom
3109  }
3110  if beamspot is not None: upgradeStepDict['GenSimFull'][k]['--beamspot']=beamspot
3111 
3112  upgradeStepDict['GenSimHLBeamSpotFull'][k]= {'-s' : 'GEN,SIM',
3113  '-n' : 10,
3114  '--conditions' : gt,
3115  '--beamspot' : 'HLLHC',
3116  '--datatier' : 'GEN-SIM',
3117  '--eventcontent': 'FEVTDEBUG',
3118  '--geometry' : geom
3119  }
3120 
3121  upgradeStepDict['GenSimHLBeamSpotFull14'][k]= {'-s' : 'GEN,SIM',
3122  '-n' : 10,
3123  '--conditions' : gt,
3124  '--beamspot' : 'HLLHC14TeV',
3125  '--datatier' : 'GEN-SIM',
3126  '--eventcontent': 'FEVTDEBUG',
3127  '--geometry' : geom
3128  }
3129 
3130  upgradeStepDict['DigiFull'][k] = {'-s':'DIGI:pdigi_valid,L1,DIGI2RAW,HLT:%s'%(hltversion),
3131  '--conditions':gt,
3132  '--datatier':'GEN-SIM-DIGI-RAW',
3133  '-n':'10',
3134  '--eventcontent':'FEVTDEBUGHLT',
3135  '--geometry' : geom
3136  }
3137 
3138  # Adding Track trigger step in step2
3139  upgradeStepDict['DigiFullTrigger'][k] = {'-s':'DIGI:pdigi_valid,L1,L1TrackTrigger,DIGI2RAW,HLT:%s'%(hltversion),
3140  '--conditions':gt,
3141  '--datatier':'GEN-SIM-DIGI-RAW',
3142  '-n':'10',
3143  '--eventcontent':'FEVTDEBUGHLT',
3144  '--geometry' : geom
3145  }
3146 
3147  upgradeStepDict['RecoFull'][k] = {'-s':'RAW2DIGI,L1Reco,RECO,RECOSIM,EI,PAT,VALIDATION:@standardValidation+@miniAODValidation,DQM:@standardDQM+@ExtraHLT+@miniAODDQM',
3148  '--conditions':gt,
3149  '--datatier':'GEN-SIM-RECO,MINIAODSIM,DQMIO',
3150  '-n':'10',
3151  '--runUnscheduled':'',
3152  '--eventcontent':'RECOSIM,MINIAODSIM,DQM',
3153  '--geometry' : geom
3154  }
3155 
3156  upgradeStepDict['RecoFullGlobal'][k] = {'-s':'RAW2DIGI,L1Reco,RECO,RECOSIM,PAT,VALIDATION:@phase2Validation+@miniAODValidation,DQM:@phase2+@miniAODDQM',
3157  '--conditions':gt,
3158  '--datatier':'GEN-SIM-RECO,MINIAODSIM,DQMIO',
3159  '-n':'10',
3160  '--runUnscheduled':'',
3161  '--eventcontent':'FEVTDEBUGHLT,MINIAODSIM,DQM',
3162  '--geometry' : geom
3163  }
3164 
3165  upgradeStepDict['RecoFullLocal'][k] = {'-s':'RAW2DIGI,L1Reco,RECO:localreco',
3166  '--conditions':gt,
3167  '--datatier':'GEN-SIM-RECO',
3168  '-n':'10',
3169  '--eventcontent':'FEVTDEBUGHLT',
3170  '--geometry' : geom
3171  }
3172 
3173  upgradeStepDict['MiniAODFullGlobal'][k] = {'-s':'PAT',
3174  '--conditions':gt,
3175  '--datatier':'MINIAODSIM',
3176  '-n':'10',
3177  '--runUnscheduled':'',
3178  '--eventcontent':'MINIAODSIM',
3179  '--geometry' : geom
3180  }
3181 
3182  upgradeStepDict['HARVESTFull'][k]={'-s':'HARVESTING:@standardValidation+@standardDQM+@ExtraHLT+@miniAODValidation+@miniAODDQM',
3183  '--conditions':gt,
3184  '--mc':'',
3185  '--geometry' : geom,
3186  '--scenario' : 'pp',
3187  '--filetype':'DQM',
3188  }
3189 
3190  upgradeStepDict['HARVESTFullGlobal'][k] = merge([{'-s': 'HARVESTING:@phase2Validation+@phase2+@miniAODValidation+@miniAODDQM'}, upgradeStepDict['HARVESTFull'][k]])
3191 
3192  upgradeStepDict['ALCAFull'][k] = {'-s':'ALCA:SiPixelCalSingleMuon+TkAlMuonIsolated+TkAlMinBias+MuAlOverlaps+EcalESAlign+TkAlZMuMu+HcalCalHBHEMuonFilter+TkAlUpsilonMuMu+TkAlJpsiMuMu+SiStripCalMinBias',
3193  '--conditions':gt,
3194  '--datatier':'ALCARECO',
3195  '-n':'10',
3196  '--eventcontent':'ALCARECO',
3197  '--geometry' : geom,
3198  '--filein':'file:step3.root'
3199  }
3200 
3201  upgradeStepDict['FastSim'][k]={'-s':'GEN,SIM,RECO,VALIDATION',
3202  '--eventcontent':'FEVTDEBUGHLT,DQM',
3203  '--datatier':'GEN-SIM-DIGI-RECO,DQMIO',
3204  '--conditions':gt,
3205  '--fast':'',
3206  '--geometry' : geom,
3207  '--relval':'27000,3000'}
3208 
3209  upgradeStepDict['HARVESTFast'][k]={'-s':'HARVESTING:validationHarvesting',
3210  '--conditions':gt,
3211  '--mc':'',
3212  '--geometry' : geom,
3213  '--scenario' : 'pp'
3214  }
3215 
3216  upgradeStepDict['NanoFull'][k] = {'-s':'NANO',
3217  '--conditions':gt,
3218  '--datatier':'NANOAODSIM',
3219  '-n':'10',
3220  '--eventcontent':'NANOEDMAODSIM',
3221  '--filein':'file:step3_inMINIAODSIM.root',
3222  '--geometry' : geom
3223  }
3224 
3225 
3226  # setup baseline customizations and PU
3227  for step in upgradeSteps['baseline']['steps']:
3228  if cust is not None: upgradeStepDict[step][k]['--customise']=cust
3229  if era is not None: upgradeStepDict[step][k]['--era']=era
3230 
3231  # setup variations (manually)
3232 
3233  for step in upgradeSteps['trackingOnly']['steps']:
3234  stepName = step + upgradeSteps['trackingOnly']['suffix']
3235  if 'Reco' in step: upgradeStepDict[stepName][k] = merge([step3_trackingOnly, upgradeStepDict[step][k]])
3236  elif 'HARVEST' in step: upgradeStepDict[stepName][k] = merge([{'-s': 'HARVESTING:@trackingOnlyValidation+@trackingOnlyDQM'}, upgradeStepDict[step][k]])
3237 
3238  for step in upgradeSteps['pixelTrackingOnly']['steps']:
3239  stepName = step + upgradeSteps['pixelTrackingOnly']['suffix']
3240  if 'Reco' in step: upgradeStepDict[stepName][k] = merge([step3_pixelTrackingOnly, upgradeStepDict[step][k]])
3241  elif 'HARVEST' in step: upgradeStepDict[stepName][k] = merge([{'-s': 'HARVESTING:@trackingOnlyValidation+@pixelTrackingOnlyDQM'}, upgradeStepDict[step][k]])
3242 
3243  for step in upgradeSteps['trackingRun2']['steps']:
3244  stepName = step + upgradeSteps['trackingRun2']['suffix']
3245  if 'Reco' in step and upgradeStepDict[step][k]['--era']=='Run2_2017':
3246  upgradeStepDict[stepName][k] = merge([{'--era': 'Run2_2017_trackingRun2'}, upgradeStepDict[step][k]])
3247 
3248  for step in upgradeSteps['trackingOnlyRun2']['steps']:
3249  stepName = step + upgradeSteps['trackingOnlyRun2']['suffix']
3250  if 'Reco' in step and upgradeStepDict[step][k]['--era']=='Run2_2017':
3251  upgradeStepDict[stepName][k] = merge([{'--era': 'Run2_2017_trackingRun2'}, step3_trackingOnly, upgradeStepDict[step][k]])
3252  elif 'HARVEST' in step: upgradeStepDict[stepName][k] = merge([{'-s': 'HARVESTING:@trackingOnlyValidation+@trackingOnlyDQM'}, upgradeStepDict[step][k]])
3253 
3254  for step in upgradeSteps['trackingLowPU']['steps']:
3255  stepName = step + upgradeSteps['trackingLowPU']['suffix']
3256  if 'Reco' in step and upgradeStepDict[step][k]['--era']=='Run2_2017':
3257  upgradeStepDict[stepName][k] = merge([{'--era': 'Run2_2017_trackingLowPU'}, upgradeStepDict[step][k]])
3258 
3259  for step in upgradeSteps['Timing']['steps']:
3260  stepName = step + upgradeSteps['Timing']['suffix']
3261  upgradeStepDict[stepName][k] = deepcopy(upgradeStepDict[step][k])
3262  # avoid some nonsense
3263  if '--era' in upgradeStepDict[stepName][k].keys() and not "_timing" in upgradeStepDict[stepName][k]['--era']:
3264  upgradeStepDict[stepName][k]['--era'] += "_timing"
3265 
3266  for step in upgradeSteps['Neutron']['steps']:
3267  if 'GenSim' in step:
3268  custNew = "SimG4Core/Application/NeutronBGforMuonsXS_cff.customise"
3269  else:
3270  custNew = "SLHCUpgradeSimulations/Configuration/customise_mixing.customise_Mix_LongLived_Neutrons"
3271  stepName = step + upgradeSteps['Neutron']['suffix']
3272  upgradeStepDict[stepName][k] = deepcopy(upgradeStepDict[step][k])
3273  if '--customise' in upgradeStepDict[stepName][k].keys():
3274  upgradeStepDict[stepName][k]['--customise'] += ","+custNew
3275  else:
3276  upgradeStepDict[stepName][k]['--customise'] = custNew
3277 
3278  for step in upgradeSteps['heCollapse']['steps']:
3279  stepName = step + upgradeSteps['heCollapse']['suffix']
3280  upgradeStepDict[stepName][k] = merge([{'--procModifiers': 'run2_HECollapse_2018'}, upgradeStepDict[step][k]])
3281 
3282  for step in upgradeSteps['killStuckTBM']['steps']:
3283  stepName = step + upgradeSteps['killStuckTBM']['suffix']
3284  upgradeStepDict[stepName][k] = merge([{'--customise': 'SimTracker/SiPixelDigitizer/customiseStuckTBMSimulation.activateStuckTBMSimulation2018NoPU'}, upgradeStepDict[step][k]])
3285 
3286  for step in upgradeSteps['ProdLike']['steps']:
3287  stepName = step + upgradeSteps['ProdLike']['suffix']
3288  if 'Reco' in step:
3289  upgradeStepDict[stepName][k] = merge([{'-s': 'RAW2DIGI,L1Reco,RECO,RECOSIM', '--datatier':'GEN-SIM-RECO', '--eventcontent':'FEVTDEBUGHLT'}, upgradeStepDict[step][k]])
3290  elif 'MiniAOD' in step:
3291  # the separate miniAOD step is used here
3292  upgradeStepDict[stepName][k] = deepcopy(upgradeStepDict[step][k])
3293  if 'HARVEST' in step:
3294  # remove step
3295  upgradeStepDict[stepName][k] = None
3296 
3297  for step in upgradeSteps['ParkingBPH']['steps']:
3298  stepName = step + upgradeSteps['ParkingBPH']['suffix']
3299  if 'Reco' in step and 'Run2_2018' in upgradeStepDict[step][k]['--era']:
3300  upgradeStepDict[stepName][k] = merge([{'--era': 'Run2_2018,bParking'}, upgradeStepDict[step][k]])
3301 
3302  # setup PU
3303  if k2 in PUDataSets:
3304  # Setup premixing stage1
3305  #
3306  # Has to be done before the overall PU definition in order to benefit from that
3307  #
3308  # It is a complete overkill to define premixing step for
3309  # each generator fragment, but let's worry about
3310  # simplification later
3311  for step in upgradeSteps['baseline']['steps']:
3312  if "GenSim" in step:
3313  stepName = step + upgradeSteps['baseline']['suffix']
3314  stepNamePmx = step.replace('GenSim', 'Premix') + 'PU' + upgradeSteps['Premix']['suffix']
3315  d = merge([{'-s' : 'GEN,SIM,DIGI:pdigi_valid',
3316  '--datatier' : 'PREMIX',
3317  '--eventcontent': 'PREMIX',
3318  '--procModifiers': 'premix_stage1',
3319  },
3320  PUDataSets[k2],upgradeStepDict[stepName][k]])
3321  upgradeStepDict[stepNamePmx][k] = d
3322 
3323  for stepType in upgradeSteps.keys():
3324  if "Premix" in stepType:
3325  # Premix stage1 is already set above, and there are no non-PU steps so has to be ignored here
3326  continue
3327  for step in upgradeSteps[stepType]['PU']:
3328  stepName = step + upgradeSteps[stepType]['suffix']
3329  stepNamePU = step + 'PU' + upgradeSteps[stepType]['suffix']
3330  if upgradeStepDict[stepName][k] is None:
3331  upgradeStepDict[stepNamePU][k] = None
3332  else:
3333  upgradeStepDict[stepNamePU][k]=merge([PUDataSets[k2],upgradeStepDict[stepName][k]])
3334 
3335  # Setup premixing stage2
3336  if "Digi" in step or "Reco" in step:
3337  stepNamePUpmx = step + 'PUPRMX' + upgradeSteps[stepType]['suffix']
3338  d = merge([upgradeStepDict[stepName][k]])
3339  if "Digi" in step:
3340  tmpsteps = []
3341  for s in d["-s"].split(","):
3342  if s == "DIGI" or "DIGI:" in s:
3343  tmpsteps.extend([s, "DATAMIX"])
3344  else:
3345  tmpsteps.append(s)
3346  d = merge([{"-s" : ",".join(tmpsteps),
3347  "--datamix" : "PreMix",
3348  "--procModifiers": "premix_stage2"},
3349  d])
3350  elif "Reco" in step:
3351  if "--procModifiers" in d:
3352  d["--procModifiers"] += ",premix_stage2"
3353  else:
3354  d["--procModifiers"] = "premix_stage2"
3355  upgradeStepDict[stepNamePUpmx][k] = d
3356  # For combined stage1+stage2
3357  if "Digi" in step:
3358  upgradeStepDict[stepNamePUpmx+"Combined"][k] = merge([digiPremixLocalPileup, d])
3359 
3360 for step in upgradeStepDict.keys():
3361  # we need to do this for each fragment
3362  if 'Sim' in step or 'Premix' in step:
3363  for frag in upgradeFragments:
3364  howMuch=howMuches[frag]
3365  for key in [key for year in upgradeKeys for key in upgradeKeys[year]]:
3366  k=frag[:-4]+'_'+key+'_'+step
3367  if (step in upgradeStepDict or step.replace("PUPRMX", "PU")) and key in upgradeStepDict[step]:
3368  steps[k]=merge([ {'cfg':frag},howMuch,upgradeStepDict[step][key]])
3369  #get inputs in case of -i...but no need to specify in great detail
3370  #however, there can be a conflict of beam spots but this is lost in the dataset name
3371  #so please be careful
3372  s=frag[:-4]+'_'+key
3373  if 'FastSim' not in k and 'Premix' not in step and s+'INPUT' not in steps and s in baseDataSetReleaseBetter and defaultDataSets[key] != '': # exclude upgradeKeys without input dataset
3374  steps[k+'INPUT']={'INPUT':InputInfo(dataSet='/RelVal'+upgradeDatasetFromFragment[frag]+'/%s/GEN-SIM'%(baseDataSetReleaseBetter[s],),location='STD')}
3375  else:
3376  for key in [key for year in upgradeKeys for key in upgradeKeys[year]]:
3377  k=step+'_'+key
3378  if step in upgradeStepDict and key in upgradeStepDict[step]:
3379  if upgradeStepDict[step][key] is None:
3380  steps[k]=None
3381  else:
3382  steps[k]=merge([upgradeStepDict[step][key]])
3383 
merge
Definition: merge.py:1
relval_steps.identityFS
def identityFS(wf)
pPb tests
Definition: relval_steps.py:1263
relval_steps.gen2017
def gen2017(fragment, howMuch)
Definition: relval_steps.py:497
relval_steps.identitySim
def identitySim(wf)
Production test: 13 TeV equivalents.
Definition: relval_steps.py:616
relval_steps.lhegensim
def lhegensim(fragment, howMuch)
GENERATORS.
Definition: relval_steps.py:1420
relval_steps.gen2018
def gen2018(fragment, howMuch)
Definition: relval_steps.py:500
relval_steps.genS
def genS(fragment, howMuch)
high stat step1
Definition: relval_steps.py:826
relval_steps.gen2018prod
def gen2018prod(fragment, howMuch)
Definition: relval_steps.py:503
BasicGenValidation_cff.genvalid
genvalid
Definition: BasicGenValidation_cff.py:46
relval_steps.gen
def gen(fragment, howMuch)
Production test section ####.
Definition: relval_steps.py:490
relval_steps.lhegensim2018
def lhegensim2018(fragment, howMuch)
Definition: relval_steps.py:1434
join
static std::string join(char **cmd)
Definition: RemoteFile.cc:18
MatrixUtil.selectedLS
def selectedLS(list_runs=[], maxNum=-1, l_json=data_json2015)
Definition: MatrixUtil.py:63
MatrixUtil.remove
def remove(d, key, TELL=False)
Definition: MatrixUtil.py:212
relval_steps.gen2018HiMix
def gen2018HiMix(fragment, howMuch)
Definition: relval_steps.py:2028
MatrixUtil.Mby
def Mby(N, s)
Definition: MatrixUtil.py:226
relval_steps.gen2015
def gen2015(fragment, howMuch)
Definition: relval_steps.py:494
MatrixUtil.Kby
def Kby(N, s)
Standard release validation samples ####.
Definition: MatrixUtil.py:224
relval_steps.lhegensim2017
def lhegensim2017(fragment, howMuch)
Definition: relval_steps.py:1427
relval_steps.gen2018hiprod
def gen2018hiprod(fragment, howMuch)
Definition: relval_steps.py:506
split
double split
Definition: MVATrainer.cc:139
reco::get
T get(const Candidate &c)
Definition: component.h:55
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