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|
#eoscms ls -l /eos/cms/store/group/dpg_hcal/comm_hcal/USC/run327785/USC_327785.root
# choose run in /store/group/dpg_hcal/comm_hcal/USC/
#how to run: cmsRun remoteMonitoring_LED_era2019_cfg.py 331370 /store/group/dpg_hcal/comm_hcal/USC/ /afs/cern.ch/work/z/zhokin/hcal/voc2/CMSSW_11_1_0_pre3/src/DPGAnalysis/HcalTools/scripts/rmt
import sys
import FWCore.ParameterSet.Config as cms
from Configuration.StandardSequences.Eras import eras
#process = cms.Process("TEST", eras.Run2_2018)
process = cms.Process("TEST", eras.Run3)
process.load("Configuration.StandardSequences.GeometryDB_cff")
process.load("CondCore.CondDB.CondDB_cfi")
process.load("EventFilter.L1GlobalTriggerRawToDigi.l1GtUnpack_cfi")
process.l1GtUnpack.DaqGtInputTag = 'source'
# from RelValAlCaPedestal_cfg_2018.py
process.load('Configuration.StandardSequences.Services_cff')
process.load('SimGeneral.HepPDTESSource.pythiapdt_cfi')
process.load('FWCore.MessageService.MessageLogger_cfi')
process.load('Configuration.EventContent.EventContent_cff')
process.load('Configuration.StandardSequences.MagneticField_AutoFromDBCurrent_cff')
process.load('Configuration.StandardSequences.Reconstruction_Data_cff')
process.load('Configuration.StandardSequences.EndOfProcess_cff')
#process.load('RecoLocalCalo.Configuration.hcalLocalReco_cff')
process.load('Configuration.StandardSequences.GeometryRecoDB_cff')
process.load('Configuration.StandardSequences.EndOfProcess_cff')
runnumber = sys.argv[1]
rundir = sys.argv[2]
histodir = sys.argv[3]
#print 'RUN = '+runnumber
#print 'Input file = '+rundir+'/run'+runnumber+'/USC_'+runnumber+'.root'
##print 'Input file = '+rundir+'/USC_'+runnumber+'.root'
#print 'Output file = '+histodir+'/LED_'+runnumber+'.root'
process.maxEvents = cms.untracked.PSet(
# input = cms.untracked.int32(100)
input = cms.untracked.int32(1000)
)
process.TFileService = cms.Service("TFileService",
fileName = cms.string(histodir+'/MIXED_LED_'+runnumber+'.root')
# ,closeFileFast = cms.untracked.bool(True)
)
#process.source = cms.Source("PoolSource",
process.source = cms.Source("HcalTBSource",
skipBadFiles=cms.untracked.bool(True),
firstLuminosityBlockForEachRun = cms.untracked.VLuminosityBlockID([]),
firstRun = cms.untracked.uint32(331370),
# firstRun = cms.untracked.uint32(330153),
# firstRun = cms.untracked.uint32(329416),
fileNames = cms.untracked.vstring(
rundir+'/run'+runnumber+'/USC_'+runnumber+'.root'
),
skipEvents=cms.untracked.uint32(1000),
secondaryFileNames = cms.untracked.vstring()
)
process.Analyzer = cms.EDAnalyzer("CMTRawAnalyzer",
#
Verbosity = cms.untracked.int32(0),
#Verbosity = cms.untracked.int32(-9062),
#Verbosity = cms.untracked.int32(-9063),
#Verbosity = cms.untracked.int32(-9064),
#Verbosity = cms.untracked.int32(-9065),
#Verbosity = cms.untracked.int32(-84),
#Verbosity = cms.untracked.int32(-91),
#Verbosity = cms.untracked.int32(-92),
#
MapCreation = cms.untracked.int32(1),
#
recordNtuples = cms.untracked.bool(False),
#recordNtuples = cms.untracked.bool(True),
maxNeventsInNtuple = cms.int32(1),
#
#recordHistoes = cms.untracked.bool(False),
recordHistoes = cms.untracked.bool(True),
#
##scripts: zRunRatio34.C, zRunNbadchan.C
studyRunDependenceHist = cms.untracked.bool(True),
#studyRunDependenceHist = cms.untracked.bool(False),
#
##scripts: zerrors.C
studyCapIDErrorsHist = cms.untracked.bool(True),
#studyCapIDErrorsHist = cms.untracked.bool(False),
#
##scripts: zrms.C
studyRMSshapeHist = cms.untracked.bool(True),
#studyRMSshapeHist = cms.untracked.bool(False),
#
##scripts: zratio34.C
studyRatioShapeHist = cms.untracked.bool(True),
#studyRatioShapeHist = cms.untracked.bool(False),
#
##scripts: zadcamplitude.C
studyADCAmplHist = cms.untracked.bool(True),
#studyADCAmplHist = cms.untracked.bool(False),
#
##scripts: ztsmean.C
studyTSmeanShapeHist = cms.untracked.bool(True),
#studyTSmeanShapeHist = cms.untracked.bool(False),
#
##scripts: ztsmaxa.C
studyTSmaxShapeHist = cms.untracked.bool(True),
#studyTSmaxShapeHist = cms.untracked.bool(False),
#
##scripts: zcalib....C
studyCalibCellsHist = cms.untracked.bool(True),
#studyCalibCellsHist = cms.untracked.bool(False),
#
##scripts: zdifampl.C
studyDiffAmplHist = cms.untracked.bool(True),
#studyDiffAmplHist = cms.untracked.bool(False),
#
##scripts: zadcamplitude.C
studyPedestalsHist = cms.untracked.bool(True),
#studyPedestalsHist = cms.untracked.bool(False),
#
##scripts: zamplpedcorr.C
studyPedestalCorrelations = cms.untracked.bool(True),
#studyPedestalsHist = cms.untracked.bool(False),
#
#
##DigiCollectionLabel = cms.untracked.InputTag("hcalDigis"),
#Verbosity = cms.untracked.int32(-54),
#Verbosity = cms.untracked.int32(-22),
#Verbosity = cms.untracked.int32(-11),
#Verbosity = cms.untracked.int32(-12),
#Verbosity = cms.untracked.int32(-13),
#Verbosity = cms.untracked.int32(-51),
#Verbosity = cms.untracked.int32(-24),
#Verbosity = cms.untracked.int32(-244),
#Verbosity = cms.untracked.int32(-233),
#
#
# Normal channels:
#
# -53 for BAD HBHEHF channels from study on shape Ratio
#Verbosity = cms.untracked.int32(-53),
ratioHBMin = cms.double(0.70),
ratioHBMax = cms.double(0.94),
ratioHEMin = cms.double(0.60),
ratioHEMax = cms.double(0.95),
ratioHFMin = cms.double(0.45),
ratioHFMax = cms.double(1.02),
ratioHOMin = cms.double(0.40),
ratioHOMax = cms.double(1.04),
# -54 for BAD HBHEHF channels from study on RMS of shapes
#Verbosity = cms.untracked.int32(-54),
rmsHBMin = cms.double(0.7),
rmsHBMax = cms.double(2.5),
rmsHEMin = cms.double(0.7),
rmsHEMax = cms.double(2.2),
rmsHFMin = cms.double(0.1),
rmsHFMax = cms.double(2.6),
rmsHOMin = cms.double(0.1),
rmsHOMax = cms.double(2.8),
# -55 for BAD HBHEHF channels from study on TSmean of shapes
#Verbosity = cms.untracked.int32(-55),
TSmeanHBMin = cms.double(2.5),
TSmeanHBMax = cms.double(5.5),
TSmeanHEMin = cms.double(1.0),
TSmeanHEMax = cms.double(5.2),
TSmeanHFMin = cms.double(1.0),
TSmeanHFMax = cms.double(4.2),
TSmeanHOMin = cms.double(1.0),
TSmeanHOMax = cms.double(4.8),
# -55 for BAD HBHEHF channels from study on TSmax of shapes
#Verbosity = cms.untracked.int32(-55),
TSpeakHBMin = cms.double(2.2),
TSpeakHBMax = cms.double(5.5),
TSpeakHEMin = cms.double(1.5),
TSpeakHEMax = cms.double(6.5),
TSpeakHFMin = cms.double(0.5),
TSpeakHFMax = cms.double(4.5),
TSpeakHOMin = cms.double(0.5),
TSpeakHOMax = cms.double(7.5),
# -56 for BAD HBHEHOHF channels from study on ADC Amplitude
#Verbosity = cms.untracked.int32(-56),
ADCAmplHBMin = cms.double(10000.),
ADCAmplHBMax = cms.double(300000.),
ADCAmplHEMin = cms.double(20000.),
ADCAmplHEMax = cms.double(300000.),
ADCAmplHFMin = cms.double(50.),
ADCAmplHFMax = cms.double(9000.),
ADCAmplHOMin = cms.double(50.),
ADCAmplHOMax = cms.double(9000.),
#
# to see channels w/ PedestalSigma < cut
#Verbosity = cms.untracked.int32(-57),
pedestalwHBMax = cms.double(0.1),
pedestalwHEMax = cms.double(0.1),
pedestalwHFMax = cms.double(0.4),
pedestalwHOMax = cms.double(0.1),
#
# to see channels for pedestal < cut
pedestalHBMax = cms.double(0.1),
pedestalHEMax = cms.double(0.6),
pedestalHFMax = cms.double(0.8),
pedestalHOMax = cms.double(0.1),
#
#
# CALIBRATION channels:
#
# for BAD HBHEHOHF CALIBRATION channels from study on ADC amplitude
# cuts for Laser runs:
#calibrADCHBMin = cms.double(15.0),
#calibrADCHEMin = cms.double(15.0),
#calibrADCHOMin = cms.double(15.0),
#calibrADCHFMin = cms.double(15.0),
# cuts for LED runs:
calibrADCHBMin = cms.double(1000.),
calibrADCHBMax = cms.double(100000000.),
calibrADCHEMin = cms.double(1000.),
calibrADCHEMax = cms.double(100000000.),
calibrADCHOMin = cms.double(1000.),
calibrADCHOMax = cms.double(100000000.),
calibrADCHFMin = cms.double(100.),
calibrADCHFMax = cms.double(100000000.),
# for BAD HBHEHOHF CALIBRATION channels from study on shape Ratio
calibrRatioHBMin = cms.double(0.76),
calibrRatioHBMax = cms.double(0.94),
calibrRatioHEMin = cms.double(0.76),
calibrRatioHEMax = cms.double(0.94),
calibrRatioHOMin = cms.double(0.85),
calibrRatioHOMax = cms.double(0.99),
calibrRatioHFMin = cms.double(0.5),
calibrRatioHFMax = cms.double(0.8),
# for BAD HBHEHOHF CALIBRATION channels from study on TSmax
calibrTSmaxHBMin = cms.double(1.50),
calibrTSmaxHBMax = cms.double(2.50),
calibrTSmaxHEMin = cms.double(1.50),
calibrTSmaxHEMax = cms.double(2.50),
calibrTSmaxHOMin = cms.double(1.50),
calibrTSmaxHOMax = cms.double(2.50),
calibrTSmaxHFMin = cms.double(3.50),
calibrTSmaxHFMax = cms.double(4.50),
# for BAD HBHEHOHF CALIBRATION channels from study on TSmean
calibrTSmeanHBMin = cms.double(2.40),
calibrTSmeanHBMax = cms.double(3.70),
calibrTSmeanHEMin = cms.double(2.40),
calibrTSmeanHEMax = cms.double(3.70),
calibrTSmeanHOMin = cms.double(1.50),
calibrTSmeanHOMax = cms.double(2.70),
calibrTSmeanHFMin = cms.double(3.50),
calibrTSmeanHFMax = cms.double(4.50),
# for BAD HBHEHOHF CALIBRATION channels from study on Width
calibrWidthHBMin = cms.double(1.30),
calibrWidthHBMax = cms.double(1.90),
calibrWidthHEMin = cms.double(1.30),
calibrWidthHEMax = cms.double(1.90),
calibrWidthHOMin = cms.double(0.70),
calibrWidthHOMax = cms.double(1.65),
calibrWidthHFMin = cms.double(0.30),
calibrWidthHFMax = cms.double(1.50),
#
# Special task of run or LS quality:
#
# flag for ask runs of LSs for RMT & CMT accordingly:
#=0-runs, =1-LSs
# keep for LED runs this flags =0 always
flagtoaskrunsorls = cms.int32(0),
#
# flag for choice of criterion of bad channels:
#=0-CapIdErr, =1-Ratio, =2-Width, =3-TSmax, =4-TSmean, =5-adcAmplitud
# keep for CMT (global runs) this flags =0 always
flagtodefinebadchannel = cms.int32(0),
#how many bins you want on the plots:better to choice (#LS+1)
howmanybinsonplots = cms.int32(25),
#
# ls - range for RBX study (and ??? perhaps for gain stability via abort gap):
lsmin = cms.int32(1),
#lsmax = cms.int32(620),
lsmax = cms.int32(2600),
#
flagabortgaprejected = cms.int32(1),
bcnrejectedlow = cms.int32(3446),
bcnrejectedhigh= cms.int32(3564),
#
# flag cpu time reducing
#=0-all plots, =1-optimized number of plots (for Global runs)
flagcpuoptimization = cms.int32(0),
#
# flag for ask type of Normalization for CMT estimators:
#=0-normalizationOn#evOfLS; =1-averageVariable-normalizationOn#entriesInLS;
flagestimatornormalization = cms.int32(1),
#
#
# cuts on Nbadchannels to see LS dependences:
# Verbosity = cms.untracked.int32(-77),
# to select abnormal events,for which Nbcs > this limits
lsdep_cut1_peak_HBdepth1 = cms.int32(20),
lsdep_cut1_peak_HBdepth2 = cms.int32(7),
lsdep_cut1_peak_HEdepth1 = cms.int32(16),
lsdep_cut1_peak_HEdepth2 = cms.int32(13),
lsdep_cut1_peak_HEdepth3 = cms.int32(4),
lsdep_cut1_peak_HFdepth1 = cms.int32(10),
lsdep_cut1_peak_HFdepth2 = cms.int32(5),
lsdep_cut1_peak_HOdepth4 = cms.int32(45),
# to select events with Nbcs > this limits
lsdep_cut3_max_HBdepth1 = cms.int32(19),
lsdep_cut3_max_HBdepth2 = cms.int32(6),
lsdep_cut3_max_HEdepth1 = cms.int32(15),
lsdep_cut3_max_HEdepth2 = cms.int32(12),
lsdep_cut3_max_HEdepth3 = cms.int32(3),
lsdep_cut3_max_HFdepth1 = cms.int32(9),
lsdep_cut3_max_HFdepth2 = cms.int32(4),
lsdep_cut3_max_HOdepth4 = cms.int32(40),
#
#
#old was for runs:
# nbadchannels1 = cms.int32(7),
# nbadchannels2 = cms.int32(12),
# nbadchannels3 = cms.int32(50),
#
#Verbosity = cms.untracked.int32(-79),
# cuts on Estimator1 to see LS dependences:
lsdep_estimator1_HBdepth1 = cms.double(2500.),
lsdep_estimator1_HBdepth2 = cms.double(2500.),
lsdep_estimator1_HBdepth3 = cms.double(2500.),
lsdep_estimator1_HBdepth4 = cms.double(2500.),
lsdep_estimator1_HEdepth1 = cms.double(2500.),
lsdep_estimator1_HEdepth2 = cms.double(2500.),
lsdep_estimator1_HEdepth3 = cms.double(2500.),
lsdep_estimator1_HEdepth4 = cms.double(2500.),
lsdep_estimator1_HEdepth5 = cms.double(2500.),
lsdep_estimator1_HEdepth6 = cms.double(2500.),
lsdep_estimator1_HEdepth7 = cms.double(2500.),
lsdep_estimator1_HFdepth1 = cms.double(2500.),
lsdep_estimator1_HFdepth2 = cms.double(2500.),
lsdep_estimator1_HFdepth3 = cms.double(2500.),
lsdep_estimator1_HFdepth4 = cms.double(2500.),
lsdep_estimator1_HOdepth4 = cms.double(2500.),
# cuts on Estimator2 to see LS dependences:
lsdep_estimator2_HBdepth1 = cms.double(7.),
lsdep_estimator2_HBdepth2 = cms.double(7.),
lsdep_estimator2_HEdepth1 = cms.double(7.),
lsdep_estimator2_HEdepth2 = cms.double(7.),
lsdep_estimator2_HEdepth3 = cms.double(7.),
lsdep_estimator2_HFdepth1 = cms.double(7.),
lsdep_estimator2_HFdepth2 = cms.double(7.),
lsdep_estimator2_HOdepth4 = cms.double(7.),
# cuts on Estimator3 to see LS dependences:
lsdep_estimator3_HBdepth1 = cms.double(7.),
lsdep_estimator3_HBdepth2 = cms.double(7.),
lsdep_estimator3_HEdepth1 = cms.double(7.),
lsdep_estimator3_HEdepth2 = cms.double(7.),
lsdep_estimator3_HEdepth3 = cms.double(7.),
lsdep_estimator3_HFdepth1 = cms.double(7.),
lsdep_estimator3_HFdepth2 = cms.double(7.),
lsdep_estimator3_HOdepth4 = cms.double(7.),
# cuts on Estimator4 to see LS dependences:
lsdep_estimator4_HBdepth1 = cms.double(5.),
lsdep_estimator4_HBdepth2 = cms.double(5.),
lsdep_estimator4_HEdepth1 = cms.double(5.),
lsdep_estimator4_HEdepth2 = cms.double(5.),
lsdep_estimator4_HEdepth3 = cms.double(5.),
lsdep_estimator4_HFdepth1 = cms.double(5.),
lsdep_estimator4_HFdepth2 = cms.double(5.),
lsdep_estimator4_HOdepth4 = cms.double(5.),
# cuts on Estimator5 to see LS dependences:
lsdep_estimator5_HBdepth1 = cms.double(1.8),
lsdep_estimator5_HBdepth2 = cms.double(1.8),
lsdep_estimator5_HEdepth1 = cms.double(1.8),
lsdep_estimator5_HEdepth2 = cms.double(1.8),
lsdep_estimator5_HEdepth3 = cms.double(1.8),
lsdep_estimator5_HFdepth1 = cms.double(1.8),
lsdep_estimator5_HFdepth2 = cms.double(1.8),
lsdep_estimator5_HOdepth4 = cms.double(1.8),
#
#
#Verbosity = cms.untracked.int32(-81),
#Verbosity = cms.untracked.int32(-82),
#Verbosity = cms.untracked.int32(-83),
#
# use ADC amplitude:
useADCmassive = cms.untracked.bool(True),
useADCfC = cms.untracked.bool(False),
useADCcounts = cms.untracked.bool(False),
#
# Pedestals in fC
#usePedestalSubtraction = cms.untracked.bool(True),
usePedestalSubtraction = cms.untracked.bool(False),
#
# for possible ignoring of channels w/o signal, apply same cut for
# HBHEHFHO on Amplitude, usable for all Estimators 1,2,3,4,5:
# forallestimators_amplitude_bigger = cms.double(10.),
forallestimators_amplitude_bigger = cms.double(-100.),
#
#
# if 0 - do not use digis at all
flagToUseDigiCollectionsORNot = cms.int32(1),
#
#usecontinuousnumbering = cms.untracked.bool(False),
usecontinuousnumbering = cms.untracked.bool(True),
#
#
#
hcalCalibDigiCollectionTag = cms.InputTag('hcalDigis'),
hbheDigiCollectionTag = cms.InputTag('hcalDigis'),
hoDigiCollectionTag = cms.InputTag('hcalDigis'),
hfDigiCollectionTag = cms.InputTag('hcalDigis'),
#
#
#
#
#for upgrade: ---------------------------------------------------------
hbheQIE11DigiCollectionTag = cms.InputTag('hcalDigis'),
hbheQIE10DigiCollectionTag = cms.InputTag('hcalDigis'),
# flag to use either only old QIE8 digiCollections or only new QIE10,11 digiCollections
#=0-all digiCollections(default for normal running), =1-only old QIE8 digiCollections,
#=2-only new QIE1011 digiCollections, =3-only new QIE1011 digiCollections w/o new high depthes
#=4-2016fall, =5-2016fall w/o new high depthes, =6-2017bebin, =7-2017bebin w/o new high depthes in HEonly
#=8--2017bebin w/o new high depthes, =9-all digiCollections w/o new high depthes
# flag HBHE8 HBHE11 HF8 HF10 comments:
# 0 + + + + all
# 1 + - + - old
# 2 - + - + new
# 3 - + - + new w/o high depthes
# 4 + - + + 2016fall
# 5 + - + + 2016fall w/o high depthes
# 6 + + - + 2017 && 2018 && 2021
# 7 + + - + 2017begin w/o high depthes in HEonly
# 8 + + - + 2017begin w/o high depthes
# 9 + + + + all w/o high depthes
# 10 + - - + 2017 w/o HEP17
#
flagupgradeqie1011 = cms.int32(6),
# # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # #
# flaguseshunt = 1 or 6 (6 is default for global runs)
flaguseshunt = cms.int32(6),
# flagsipmcorrection: != 0 yes,apply; = 0 do not use;
flagsipmcorrection = cms.int32(1),
#end upgrade: --------------------------------------------------------- end upgrade
#
#
# for local LASER runs ONLY!!! to be > 0 (,else = 0)
flagLaserRaddam = cms.int32(0),
# for gaussian fit for local shunt1 (Gsel0) led low-intensity or ped ONLY!!! to be > 0 (,else = 0)
flagfitshunt1pedorledlowintensity = cms.int32(0),
#
splashesUpperLimit = cms.int32(10000),
#
#
# for use in IterativeMethod of CalibrationGroup!!! to be > 1 (,else = 0)
flagIterativeMethodCalibrationGroupDigi = cms.int32(1),
#
# for use in IterativeMethod of CalibrationGroup!!! to be > 1 (,else = 0)
flagIterativeMethodCalibrationGroupReco = cms.int32(1),
#
hbheInputSignalTag = cms.InputTag('hbherecoMBNZS'),
hbheInputNoiseTag = cms.InputTag('hbherecoNoise'),
hfInputSignalTag = cms.InputTag('hfrecoMBNZS'),
hfInputNoiseTag = cms.InputTag('hfrecoNoise'),
#
#
#
#
#
#
#HistOutFile = cms.untracked.string('LED_331370.root'),
#HistOutFile = cms.untracked.string(histodir+'/LED_'+runnumber+'.root'),
#MAPOutFile = cms.untracked.string('LogEleMapdb.h')
#
##OutputFilePath = cms.string('/tmp/zhokin/'),
##OutputFileExt = cms.string(''),
#
)
process.hcal_db_producer = cms.ESProducer("HcalDbProducer",
dump = cms.untracked.vstring(''),
file = cms.untracked.string('')
)
process.es_hardcode = cms.ESSource("HcalHardcodeCalibrations",
toGet = cms.untracked.vstring('QIEShape',
'QIEData',
'ChannelQuality',
'HcalQIEData',
'Pedestals',
'PedestalWidths',
'Gains',
'GainWidths',
'ZSThresholds',
'RespCorrs')
)
## Jula's recipe for too many files
#process.options = cms.untracked.PSet(
# wantSummary = cms.untracked.bool(False),
# Rethrow = cms.untracked.vstring("ProductNotFound"), # make this exception fatal
# fileMode = cms.untracked.string('NOMERGE') # no ordering needed, but calls endRun/beginRun etc. at file boundaries
#)
######################################################################################## Global Tags for 2018 data taking :
# use twiki site to specify HLT reconstruction Global tags:
# https://twiki.cern.ch/twiki/bin/view/CMSPublic/SWGuideFrontierConditions
#
# 100X_dataRun2_HLT_v2 for CMSSW_10_0_3 onwards CRUZET 2018 update of 0T templates for SiPixels
# 100X_dataRun2_HLT_v1 for CMSSW_10_0_0 onwards MWGRs 2018 first HLT GT for 2018
#
#
############################################################################ GlobalTag :1+ good as 5
#from Configuration.AlCa.GlobalTag_condDBv2 import GlobalTag
#process.GlobalTag = GlobalTag(process.GlobalTag, '100X_dataRun2_HLT_v2', '')
#from Configuration.AlCa.GlobalTag_condDBv2 import GlobalTag
#process.GlobalTag = GlobalTag(process.GlobalTag, 'auto:run2_data_FULL', '')
#from Configuration.AlCa.GlobalTag_condDBv2 import GlobalTag
#process.GlobalTag = GlobalTag(process.GlobalTag, '101X_dataRun2_HLT_v7', '')
# 2019 Ultra Legacy 2017
#process.GlobalTag.globaltag = '106X_dataRun2_trackerAlignment2017_v1'
# 2019 Ultra Legacy 2018 test TkAl
#process.GlobalTag.globaltag = '106X_dataRun2_v17'
# 2019 Ultra Legacy 2018
#process.GlobalTag.globaltag = '106X_dataRun2_newTkAl_v18'
# 2019 Ultra Legacy 2016
#process.GlobalTag.globaltag = '106X_dataRun2_UL2016TkAl_v24'
#process.GlobalTag.globaltag = '105X_dataRun2_v8'
process.load("Configuration.StandardSequences.FrontierConditions_GlobalTag_cff")
from Configuration.AlCa.autoCond import autoCond
#process.GlobalTag.globaltag = '104X_dataRun2_v1'
#process.GlobalTag.globaltag = '105X_postLS2_design_v4'
process.GlobalTag.globaltag = '113X_dataRun3_HLT_v3'
############################################################################
# V.EPSHTEIN:
#process.load("Configuration.StandardSequences.FrontierConditions_GlobalTag_cff")
#process.GlobalTag.globaltag = '100X_dataRun2_Prompt_Candidate_2018_01_31_16_01_36'
###
#process.hcal_db_producer = cms.ESProducer("HcalDbProducer",
# dump = cms.untracked.vstring(''),
# file = cms.untracked.string('')
#)
#
#process.hcalDigis= cms.EDProducer("HcalRawToDigi",
# FilterDataQuality = cms.bool(True),
# HcalFirstFED = cms.untracked.int32(700),
# InputLabel = cms.InputTag("source"),
# UnpackCalib = cms.untracked.bool(True),
# FEDs = cms.untracked.vint32(1100, 1101, 1102, 1103, 1104, 1105, 1106, 1107, 1108, 1109, 1110, 1111, 1112, 1113, 1114, 1115, 1116, 1117),
#)
###
############################################################################
process.load('Configuration.StandardSequences.RawToDigi_Data_cff')
process.hcalDigis.FilterDataQuality = cms.bool(False)
process.hcalDigis.InputLabel = cms.InputTag("source")
############################################################################
process.hcalDigis= cms.EDProducer("HcalRawToDigi",
# FilterDataQuality = cms.bool(True),
FilterDataQuality = cms.bool(False),
HcalFirstFED = cms.untracked.int32(700),
InputLabel = cms.InputTag("source"),
#InputLabel = cms.InputTag("rawDataCollector"),
)
#process.hcalDigis.FilterDataQuality = cms.bool(False)
#process.hcalDigis.InputLabel = cms.InputTag("source")
############################################################################
##process.load("Calibration.HcalAlCaRecoProducers.ALCARECOHcalCalPedestal_cff")
process.load("Calibration.HcalAlCaRecoProducers.ALCARECOHcalCalPedestalLocal_cff")
##process.load("Calibration.HcalAlCaRecoProducers.ALCARECOHcalCalMinBias_cff")
#process.load("ALCARECOHcalCalPedestalLocal_cff")
############################################################################
#process.p = cms.Path(process.hcalDigis*process.Analyzer)
#process.p = cms.Path(process.seqALCARECOHcalCalMinBiasDigiNoHLT*process.seqALCARECOHcalCalMinBias*process.minbiasana)
process.p = cms.Path(process.hcalDigis*process.seqALCARECOHcalCalMinBiasDigiNoHLT*process.seqALCARECOHcalCalMinBias*process.Analyzer)
#process.p = cms.Path(process.seqALCARECOHcalCalMinBiasDigiNoHLT*process.seqALCARECOHcalCalMinBias*process.Analyzer)
# see /afs/cern.ch/work/z/zhokin/public/CMSSW_10_4_0_patch1/src/Calibration/HcalAlCaRecoProducers/python/ALCARECOHcalCalMinBias_cff.py
############################################################################
process.MessageLogger = cms.Service("MessageLogger",
categories = cms.untracked.vstring(''),
destinations = cms.untracked.vstring('cout'),
debugModules = cms.untracked.vstring('*'),
cout = cms.untracked.PSet(
threshold = cms.untracked.string('WARNING'),
WARNING = cms.untracked.PSet(limit = cms.untracked.int32(0))
)
)
############################################################################
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