def promptReco(self, globalTag, **args): """ _promptReco_ Proton collision data taking prompt reco """ step = stepALCAPRODUCER(args['skims']) dqmStep= dqmSeq(args,'') options = Options() options.__dict__.update(defaultOptions.__dict__) options.scenario = self.cbSc options.step = 'RAW2DIGI,L1Reco,RECO'+self.recoSeq+step+',DQM'+dqmStep+',ENDJOB' dictIO(options,args) options.conditions = globalTag process = cms.Process('RECO') cb = ConfigBuilder(options, process = process, with_output = True) # Input source process.source = cms.Source("PoolSource", fileNames = cms.untracked.vstring() ) cb.prepare() addMonitoring(process) return process
def expressProcessing(self, globalTag, **args): """ _expressProcessing_ Proton collision data taking express processing """ step = stepALCAPRODUCER(args['skims']) dqmStep = dqmSeq(args, '') options = Options() options.__dict__.update(defaultOptions.__dict__) options.scenario = self.cbSc options.step = 'RAW2DIGI,L1Reco,RECO' + step + ',DQM' + dqmStep + ',ENDJOB' dictIO(options, args) options.conditions = globalTag process = cms.Process('RECO') cb = ConfigBuilder(options, process=process, with_output=True) # Input source process.source = cms.Source("NewEventStreamFileReader", fileNames=cms.untracked.vstring()) cb.prepare() addMonitoring(process) return process
def promptReco(self, globalTag, **args): """ _promptReco_ Collision data, data scouting (dst stream). This method provides the scheleton process for the dataScouting. dpiparo 17-7-2012 I follow the structure of the package. """ options = Options() options.scenario = 'pp' options.__dict__.update(defaultOptions.__dict__) options.step = 'DQM:DQM/DataScouting/dataScouting_cff.dataScoutingDQMSequence,ENDJOB' dictIO(options, args) options.conditions = globalTag process = cms.Process('DataScouting') cb = ConfigBuilder(options, process=process, with_output=True) # Input source process.source = cms.Source("PoolSource", fileNames=cms.untracked.vstring()) cb.prepare() return process
def expressProcessing(self, globalTag, **args): """ _expressProcessing_ Proton collision data taking express processing """ step = stepALCAPRODUCER(args['skims']) dqmStep = dqmSeq(args, '') options = Options() options.__dict__.update(defaultOptions.__dict__) options.scenario = self.cbSc options.step = 'RAW2DIGI,L1Reco,RECO' + step + ',DQM' + dqmStep + ',ENDJOB' dictIO(options, args) options.conditions = globalTag options.filein = 'tobeoverwritten.xyz' if 'inputSource' in args: options.filetype = args['inputSource'] process = cms.Process('RECO') cb = ConfigBuilder(options, process=process, with_output=True, with_input=True) cb.prepare() addMonitoring(process) return process
def promptReco(self, globalTag, **args): """ _promptReco_ Collision data, data scouting (dst stream). This method provides the scheleton process for the dataScouting. dpiparo 17-7-2012 I follow the structure of the package. """ options = Options() options.scenario = 'pp' options.__dict__.update(defaultOptions.__dict__) options.step = 'DQM:DQM/DataScouting/dataScouting_cff.dataScoutingDQMSequence,ENDJOB' dictIO(options,args) options.conditions = gtNameAndConnect(globalTag, args) process = cms.Process('DataScouting', self.eras) cb = ConfigBuilder(options, process = process, with_output = True) # Input source process.source = cms.Source("PoolSource", fileNames = cms.untracked.vstring() ) cb.prepare() return process
def expressProcessing(self, globalTag, **args): """ _expressProcessing_ Heavy-ion collision data taking express processing """ skims = ['SiStripCalZeroBias', 'TkAlMinBiasHI'] step = stepALCAPRODUCER(skims) options = Options() options.__dict__.update(defaultOptions.__dict__) options.scenario = "HeavyIons" options.step = 'RAW2DIGI,L1Reco,RECO'+step+',DQM,ENDJOB' options.isRepacked = True dictIO(options,args) options.conditions = globalTag process = cms.Process('RECO') cb = ConfigBuilder(options, process = process, with_output=True) # Input source process.source = cms.Source("NewEventStreamFileReader", fileNames = cms.untracked.vstring() ) cb.prepare() customiseExpressHI(process) addMonitoring(process) return process
def promptReco(self, globalTag, **args): """ _promptReco_ Proton collision data taking prompt reco """ step = stepALCAPRODUCER(args['skims']) dqmStep= dqmSeq(args,'') options = Options() options.__dict__.update(defaultOptions.__dict__) options.scenario = self.cbSc options.step = 'RAW2DIGI,L1Reco,RECO'+self.recoSeq+step+',DQM'+dqmStep+',ENDJOB' dictIO(options,args) options.conditions = gtNameAndConnect(globalTag, args) process = cms.Process('RECO') cb = ConfigBuilder(options, process = process, with_output = True) # Input source process.source = cms.Source("PoolSource", fileNames = cms.untracked.vstring() ) cb.prepare() addMonitoring(process) return process
def expressProcessing(self, globalTag, **args): """ _expressProcessing_ Proton collision data taking express processing """ step = stepALCAPRODUCER(args["skims"]) dqmStep = dqmSeq(args, "") options = Options() options.__dict__.update(defaultOptions.__dict__) options.scenario = self.cbSc options.step = "RAW2DIGI,L1Reco,RECO" + step + ",DQM" + dqmStep + ",ENDJOB" dictIO(options, args) options.conditions = globalTag process = cms.Process("RECO") cb = ConfigBuilder(options, process=process, with_output=True) # Input source process.source = cms.Source("NewEventStreamFileReader", fileNames=cms.untracked.vstring()) cb.prepare() addMonitoring(process) return process
def expressProcessing(self, globalTag, **args): """ _expressProcessing_ Proton collision data taking express processing """ step = stepALCAPRODUCER(args['skims']) dqmStep= dqmSeq(args,'') options = Options() options.__dict__.update(defaultOptions.__dict__) options.scenario = self.cbSc options.step = 'RAW2DIGI,L1Reco,RECO'+step+',DQM'+dqmStep+',ENDJOB' dictIO(options,args) options.conditions = globalTag options.filein = 'tobeoverwritten.xyz' if 'inputSource' in args: options.fileType = args['inputSource'] process = cms.Process('RECO') cb = ConfigBuilder(options, process = process, with_output = True, with_input = True) cb.prepare() addMonitoring(process) return process
def promptReco(self, globalTag, **args): if not 'skims' in args: args['skims']=self.skims if not 'customs' in args: args['customs']= [ ] options = Options() options.__dict__.update(defaultOptions.__dict__) options.scenario = "pp" dictIO(options,args) options.conditions = gtNameAndConnect(globalTag, args) if 'customs' in args: print(args['customs']) options.customisation_file=args['customs'] options.step += stepALCAPRODUCER(args['skims']) process = cms.Process('RECO', cms.ModifierChain(self.eras) ) cb = ConfigBuilder(options, process = process, with_output = True) # Input source process.source = cms.Source("PoolSource", fileNames = cms.untracked.vstring() ) cb.prepare() return process
def expressProcessing(self, globalTag, **args): """ _expressProcessing_ Proton collision data taking express processing """ skims = args['skims'] # the AlCaReco skims for PCL should only run during AlCaSkimming step which uses the same configuration on the Tier0 side, for this reason we drop them here pclWkflws = [x for x in skims if "PromptCalibProd" in x] for wfl in pclWkflws: skims.remove(wfl) step = stepALCAPRODUCER(skims) dqmStep= dqmSeq(args,'') options = Options() options.__dict__.update(defaultOptions.__dict__) options.scenario = self.cbSc options.step = 'RAW2DIGI,L1Reco,RECO'+step+',DQM'+dqmStep+',ENDJOB' dictIO(options,args) options.conditions = globalTag options.filein = 'tobeoverwritten.xyz' if 'inputSource' in args: options.filetype = args['inputSource'] process = cms.Process('RECO') cb = ConfigBuilder(options, process = process, with_output = True, with_input = True) cb.prepare() addMonitoring(process) return process
def promptReco(self, globalTag, **args): """ _promptReco_ Proton collision data taking prompt reco """ step = stepALCAPRODUCER(args['skims']) PhysicsSkimStep = '' if ("PhysicsSkims" in args) : PhysicsSkimStep = stepSKIMPRODUCER(args['PhysicsSkims']) dqmStep = dqmSeq(args,'') options = Options() options.__dict__.update(defaultOptions.__dict__) options.scenario = self.cbSc if ('nThreads' in args) : options.nThreads=args['nThreads'] miniAODStep='' # if miniAOD is asked for - then retrieve the miniaod config if 'outputs' in args: for a in args['outputs']: if a['dataTier'] == 'MINIAOD': miniAODStep=',PAT' """ Unscheduled for all """ options.runUnscheduled=True self._checkRepackedFlag(options, **args) if 'customs' in args: options.customisation_file=args['customs'] eiStep='' if self.addEI: eiStep=',EI' options.step = 'RAW2DIGI,L1Reco,RECO'+self.recoSeq+eiStep+step+PhysicsSkimStep+miniAODStep+',DQM'+dqmStep+',ENDJOB' dictIO(options,args) options.conditions = gtNameAndConnect(globalTag, args) process = cms.Process('RECO', cms.ModifierChain(self.eras, self.promptModifiers) ) cb = ConfigBuilder(options, process = process, with_output = True) # Input source process.source = cms.Source("PoolSource", fileNames = cms.untracked.vstring() ) cb.prepare() addMonitoring(process) return process
def visualizationProcessing(self, globalTag, **args): """ _visualizationProcessing_ """ options = Options() options.__dict__.update(defaultOptions.__dict__) options.scenario = self.cbSc # FIXME: do we need L1Reco here? options.step = '' if 'preFilter' in args: options.step += 'FILTER:' + args['preFilter'] + ',' eiStep = '' if 'beamSplashRun' in args: options.step += 'RAW2DIGI,L1Reco,RECO' + args[ 'beamSplashRun'] + ',ENDJOB' print("Using RECO%s step in visualizationProcessing" % args['beamSplashRun']) else: options.step += 'RAW2DIGI,L1Reco,RECO' + eiStep + ',ENDJOB' dictIO(options, args) options.conditions = gtNameAndConnect(globalTag, args) options.timeoutOutput = True # FIXME: maybe can go...maybe not options.filein = 'tobeoverwritten.xyz' if 'inputSource' in args: options.filetype = args['inputSource'] else: # this is the default as this is what is needed on the OnlineCluster options.filetype = 'DQMDAQ' print("Using %s source" % options.filetype) process = cms.Process('RECO', cms.ModifierChain(self.eras, self.visModifiers)) if 'customs' in args: options.customisation_file = args['customs'] self._checkRepackedFlag(options, **args) cb = ConfigBuilder(options, process=process, with_output=True, with_input=True) cb.prepare() # FIXME: not sure abou this one...drop for the moment # addMonitoring(process) return process
def visualizationProcessing(self, globalTag, **args): """ _visualizationProcessing_ """ options = Options() options.__dict__.update(defaultOptions.__dict__) options.scenario = self.cbSc # FIXME: do we need L1Reco here? options.step ='' if 'preFilter' in args: options.step +='FILTER:'+args['preFilter']+',' eiStep='' if self.cbSc == 'pp': eiStep=',EI' options.step += 'RAW2DIGI,L1Reco,RECO'+eiStep+',ENDJOB' dictIO(options,args) options.conditions = gtNameAndConnect(globalTag, args) options.timeoutOutput = True # FIXME: maybe can go...maybe not options.filein = 'tobeoverwritten.xyz' if 'inputSource' in args: options.filetype = args['inputSource'] else: # this is the default as this is what is needed on the OnlineCluster options.filetype = 'DQMDAQ' print "Using %s source"%options.filetype process = cms.Process('RECO', cms.ModifierChain(self.eras, self.visModifiers) ) if 'customs' in args: options.customisation_file=args['customs'] self._checkRepackedFlag(options, **args) cb = ConfigBuilder(options, process = process, with_output = True, with_input = True) cb.prepare() # FIXME: not sure abou this one...drop for the moment # addMonitoring(process) return process
def expressProcessing(self, globalTag, **args): """ _expressProcessing_ Proton collision data taking express processing """ skims = args['skims'] # the AlCaReco skims for PCL should only run during AlCaSkimming step which uses the same configuration on the Tier0 side, for this reason we drop them here pclWkflws = [x for x in skims if "PromptCalibProd" in x] for wfl in pclWkflws: skims.remove(wfl) step = stepALCAPRODUCER(skims) dqmStep = dqmSeq(args, '') options = Options() options.__dict__.update(defaultOptions.__dict__) options.scenario = self.cbSc if ('nThreads' in args): options.nThreads = args['nThreads'] eiStep = '' if self.addEI: eiStep = ',EI' options.step = 'RAW2DIGI,L1Reco,RECO' + self.recoSeq + eiStep + step + ',DQM' + dqmStep + ',ENDJOB' dictIO(options, args) options.conditions = gtNameAndConnect(globalTag, args) options.filein = 'tobeoverwritten.xyz' if 'inputSource' in args: options.filetype = args['inputSource'] process = cms.Process( 'RECO', cms.ModifierChain(self.eras, self.expressModifiers)) if 'customs' in args: options.customisation_file = args['customs'] self._checkRepackedFlag(options, **args) cb = ConfigBuilder(options, process=process, with_output=True, with_input=True) cb.prepare() addMonitoring(process) return process
def expressProcessing(self, globalTag, **args): """ _expressProcessing_ Proton collision data taking express processing """ skims = args['skims'] # the AlCaReco skims for PCL should only run during AlCaSkimming step which uses the same configuration on the Tier0 side, for this reason we drop them here pclWkflws = [x for x in skims if "PromptCalibProd" in x] for wfl in pclWkflws: skims.remove(wfl) step = stepALCAPRODUCER(skims) dqmStep= dqmSeq(args,'') options = Options() options.__dict__.update(defaultOptions.__dict__) options.scenario = self.cbSc if ('nThreads' in args) : options.nThreads=args['nThreads'] eiStep='' if self.addEI: eiStep=',EI' options.step = 'RAW2DIGI,L1Reco,RECO'+self.recoSeq+eiStep+step+',DQM'+dqmStep+',ENDJOB' dictIO(options,args) options.conditions = gtNameAndConnect(globalTag, args) options.filein = 'tobeoverwritten.xyz' if 'inputSource' in args: options.filetype = args['inputSource'] process = cms.Process('RECO', cms.ModifierChain(self.eras, self.expressModifiers) ) if 'customs' in args: options.customisation_file=args['customs'] self._checkRepackedFlag(options,**args) cb = ConfigBuilder(options, process = process, with_output = True, with_input = True) cb.prepare() addMonitoring(process) return process
def promptReco(self, globalTag, **args): """ _promptReco_ Proton collision data taking prompt reco """ step = stepALCAPRODUCER(args['skims']) dqmStep= dqmSeq(args,'') options = Options() options.__dict__.update(defaultOptions.__dict__) options.scenario = self.cbSc miniAODStep='' # if miniAOD is asked for - then retrieve the miniaod config if 'outputs' in args: for a in args['outputs']: if a['dataTier'] == 'MINIAOD': miniAODStep=',PAT' options.runUnscheduled=True if 'customs' in args: options.customisation_file=args['customs'] options.step = 'RAW2DIGI,L1Reco,RECO'+self.recoSeq+step+miniAODStep+',DQM'+dqmStep+',ENDJOB' dictIO(options,args) options.conditions = gtNameAndConnect(globalTag, args) process = cms.Process('RECO') cb = ConfigBuilder(options, process = process, with_output = True) # Input source process.source = cms.Source("PoolSource", fileNames = cms.untracked.vstring() ) cb.prepare() addMonitoring(process) return process
def visualizationProcessing(self, globalTag, **args): """ _visualizationProcessing_ """ options = Options() options.__dict__.update(defaultOptions.__dict__) options.scenario = self.cbSc # FIXME: do we need L1Reco here? options.step ='' if 'preFilter' in args: options.step +='FILTER:'+args['preFilter']+',' options.step += 'RAW2DIGI,L1Reco,RECO,ENDJOB' dictIO(options,args) options.conditions = globalTag options.timeoutOutput = True # FIXME: maybe can go...maybe not options.filein = 'tobeoverwritten.xyz' if 'inputSource' in args: options.filetype = args['inputSource'] else: # this is the default as this is what is needed on the OnlineCluster options.filetype = 'DQMDAQ' print "Using %s source"%options.filetype process = cms.Process('RECO') cb = ConfigBuilder(options, process = process, with_output = True, with_input = True) cb.prepare() # FIXME: not sure abou this one...drop for the moment # addMonitoring(process) return process
def promptReco(self, globalTag, **args): if not 'skims' in args: args['skims'] = self.skims step = stepALCAPRODUCER(args['skims']) options = Options() options.__dict__.update(defaultOptions.__dict__) options.scenario = "pp" options.step = step dictIO(options, args) options.conditions = globalTag process = cms.Process('RECO') cb = ConfigBuilder(options, process=process, with_output=True) # Input source process.source = cms.Source("PoolSource", fileNames=cms.untracked.vstring()) cb.prepare() return process
def promptReco(self, globalTag, **args): if not 'skims' in args: args['skims']=self.skims step = stepALCAPRODUCER(args['skims']) options = Options() options.__dict__.update(defaultOptions.__dict__) options.scenario = "pp" options.step = step dictIO(options,args) options.conditions = globalTag process = cms.Process('RECO') cb = ConfigBuilder(options, process = process, with_output = True) # Input source process.source = cms.Source("PoolSource", fileNames = cms.untracked.vstring() ) cb.prepare() return process