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L1TCSCTF Class Reference

#include <L1TCSCTF.h>

Inheritance diagram for L1TCSCTF:
DQMEDAnalyzer edm::stream::EDProducer< edm::GlobalCache< DQMEDAnalyzerGlobalCache >, edm::EndRunProducer, edm::EndLuminosityBlockProducer, edm::Accumulator >

Public Member Functions

 L1TCSCTF (const edm::ParameterSet &ps)
 
 ~L1TCSCTF () override
 
- Public Member Functions inherited from DQMEDAnalyzer
void accumulate (edm::Event const &event, edm::EventSetup const &setup) final
 
void beginLuminosityBlock (edm::LuminosityBlock const &lumi, edm::EventSetup const &setup) final
 
void beginRun (edm::Run const &run, edm::EventSetup const &setup) final
 
void beginStream (edm::StreamID id) final
 
virtual void dqmBeginRun (edm::Run const &, edm::EventSetup const &)
 
 DQMEDAnalyzer ()
 
void endLuminosityBlock (edm::LuminosityBlock const &lumi, edm::EventSetup const &setup) final
 
void endRun (edm::Run const &run, edm::EventSetup const &setup) final
 
virtual bool getCanSaveByLumi ()
 
- Public Member Functions inherited from edm::stream::EDProducer< edm::GlobalCache< DQMEDAnalyzerGlobalCache >, edm::EndRunProducer, edm::EndLuminosityBlockProducer, edm::Accumulator >
 EDProducer ()=default
 
 EDProducer (const EDProducer &)=delete
 
bool hasAbilityToProduceInBeginLumis () const final
 
bool hasAbilityToProduceInBeginProcessBlocks () const final
 
bool hasAbilityToProduceInBeginRuns () const final
 
bool hasAbilityToProduceInEndLumis () const final
 
bool hasAbilityToProduceInEndProcessBlocks () const final
 
bool hasAbilityToProduceInEndRuns () const final
 
const EDProduceroperator= (const EDProducer &)=delete
 

Protected Member Functions

void analyze (const edm::Event &e, const edm::EventSetup &c) override
 
void bookHistograms (DQMStore::IBooker &ibooker, edm::Run const &, edm::EventSetup const &) override
 
- Protected Member Functions inherited from DQMEDAnalyzer
uint64_t meId () const
 

Private Attributes

int BxInEvent_
 
edm::EDGetTokenT< CSCCorrelatedLCTDigiCollectioncorrlctsToken_
 
MonitorElementcsc_strip_MEminus11
 
MonitorElementcsc_strip_MEminus12
 
MonitorElementcsc_strip_MEminus13
 
MonitorElementcsc_strip_MEminus21
 
MonitorElementcsc_strip_MEminus22
 
MonitorElementcsc_strip_MEminus31
 
MonitorElementcsc_strip_MEminus32
 
MonitorElementcsc_strip_MEminus41
 
MonitorElementcsc_strip_MEminus42
 
MonitorElementcsc_strip_MEplus11
 
MonitorElementcsc_strip_MEplus12
 
MonitorElementcsc_strip_MEplus13
 
MonitorElementcsc_strip_MEplus21
 
MonitorElementcsc_strip_MEplus22
 
MonitorElementcsc_strip_MEplus31
 
MonitorElementcsc_strip_MEplus32
 
MonitorElementcsc_strip_MEplus41
 
MonitorElementcsc_strip_MEplus42
 
MonitorElementcsc_wire_MEminus11
 
MonitorElementcsc_wire_MEminus12
 
MonitorElementcsc_wire_MEminus13
 
MonitorElementcsc_wire_MEminus21
 
MonitorElementcsc_wire_MEminus22
 
MonitorElementcsc_wire_MEminus31
 
MonitorElementcsc_wire_MEminus32
 
MonitorElementcsc_wire_MEminus41
 
MonitorElementcsc_wire_MEminus42
 
MonitorElementcsc_wire_MEplus11
 
MonitorElementcsc_wire_MEplus12
 
MonitorElementcsc_wire_MEplus13
 
MonitorElementcsc_wire_MEplus21
 
MonitorElementcsc_wire_MEplus22
 
MonitorElementcsc_wire_MEplus31
 
MonitorElementcsc_wire_MEplus32
 
MonitorElementcsc_wire_MEplus41
 
MonitorElementcsc_wire_MEplus42
 
MonitorElementcsctfAFerror
 
MonitorElementcsctfbx
 
MonitorElementcsctfbx_H
 
MonitorElementcsctfChamberOccupancies
 
MonitorElementcsctferrors
 
MonitorElementcsctferrors_mpc
 
MonitorElementcsctflcts
 
MonitorElementcsctfntrack
 
MonitorElementcsctfoccupancies
 
MonitorElementcsctfoccupancies_H
 
MonitorElementcsctfTrackEta
 
MonitorElementcsctfTrackEta_H
 
MonitorElementcsctfTrackEtaHighQ
 
MonitorElementcsctfTrackEtaLowQ
 
MonitorElementcsctfTrackM
 
MonitorElementcsctfTrackPhi
 
MonitorElementcsctfTrackPhi_H
 
MonitorElementcscTrackStubNumbers
 
MonitorElementcscWireStripOverflow
 
MonitorElementDTstubsTimeTrackMenTimeArrival [12]
 
edm::EDGetTokenT< CSCTriggerContainer< csctf::TrackStub > > dtStubsToken_
 
bool gangedME11a_
 
edm::InputTag gmtProducer
 
edm::EDGetTokenT< L1MuGMTReadoutCollectiongmtProducerToken_
 
bool isCSCcand_
 
int L1ABXN
 
edm::ESGetToken< L1MuTriggerScales, L1MuTriggerScalesRcdl1muTscalesToken_
 
edm::InputTag lctProducer
 
std::ofstream logFile_
 
unsigned long long m_ptScaleCacheID
 
unsigned long long m_scalesCacheID
 
edm::InputTag mbProducer
 
edm::EDGetTokenT< L1CSCTrackCollectionmbtracksToken_
 
MonitorElementme11_lctGblEta
 
MonitorElementme11_lctGblPhi
 
MonitorElementme11_lctLocalPhi
 
MonitorElementme11_lctPackedPhi
 
MonitorElementme11_lctStrip
 
MonitorElementme11_lctWire
 
MonitorElementme42_lctGblEta
 
MonitorElementme42_lctGblPhi
 
bool monitorDaemon_
 
int nev_
 
std::string outputFile_
 
edm::ESGetToken< L1MuTriggerPtScale, L1MuTriggerPtScaleRcdptscalesToken_
 
CSCSectorReceiverLUTsrLUTs_ [5][2][6]
 
edm::InputTag statusProducer
 
edm::EDGetTokenT< L1CSCStatusDigiCollectionstatusToken_
 
const L1MuTriggerPtScaletpts
 
MonitorElementtrackModeVsQ
 
edm::InputTag trackProducer
 
edm::EDGetTokenT< L1CSCTrackCollectiontracksToken_
 
const L1MuTriggerScalests
 
bool verbose_
 

Additional Inherited Members

- Public Types inherited from DQMEDAnalyzer
typedef dqm::reco::DQMStore DQMStore
 
typedef dqm::reco::MonitorElement MonitorElement
 
- Public Types inherited from edm::stream::EDProducer< edm::GlobalCache< DQMEDAnalyzerGlobalCache >, edm::EndRunProducer, edm::EndLuminosityBlockProducer, edm::Accumulator >
using CacheTypes = CacheContexts< T... >
 
using GlobalCache = typename CacheTypes::GlobalCache
 
using HasAbility = AbilityChecker< T... >
 
using InputProcessBlockCache = typename CacheTypes::InputProcessBlockCache
 
using LuminosityBlockCache = typename CacheTypes::LuminosityBlockCache
 
using LuminosityBlockContext = LuminosityBlockContextT< LuminosityBlockCache, RunCache, GlobalCache >
 
using LuminosityBlockSummaryCache = typename CacheTypes::LuminosityBlockSummaryCache
 
using RunCache = typename CacheTypes::RunCache
 
using RunContext = RunContextT< RunCache, GlobalCache >
 
using RunSummaryCache = typename CacheTypes::RunSummaryCache
 
- Static Public Member Functions inherited from DQMEDAnalyzer
static void globalEndJob (DQMEDAnalyzerGlobalCache const *)
 
static void globalEndLuminosityBlockProduce (edm::LuminosityBlock &lumi, edm::EventSetup const &setup, LuminosityBlockContext const *context)
 
static void globalEndRunProduce (edm::Run &run, edm::EventSetup const &setup, RunContext const *context)
 
static std::unique_ptr< DQMEDAnalyzerGlobalCacheinitializeGlobalCache (edm::ParameterSet const &)
 
- Protected Attributes inherited from DQMEDAnalyzer
edm::EDPutTokenT< DQMTokenlumiToken_
 
edm::EDPutTokenT< DQMTokenrunToken_
 
unsigned int streamId_
 

Detailed Description

Definition at line 57 of file L1TCSCTF.h.

Constructor & Destructor Documentation

◆ L1TCSCTF()

L1TCSCTF::L1TCSCTF ( const edm::ParameterSet ps)

Definition at line 23 of file L1TCSCTF.cc.

References edm::ParameterSet::addUntrackedParameter(), corrlctsToken_, dtStubsToken_, makeMuonMisalignmentScenario::endcap, gangedME11a_, edm::ParameterSet::getParameter(), edm::ParameterSet::getUntrackedParameter(), gmtProducerToken_, edm::InputTag::instance(), edm::InputTag::label(), lctProducer, mbProducer, mbtracksToken_, outputFile_, srLUTs_, relativeConstraints::station, statusProducer, statusToken_, AlCaHLTBitMon_QueryRunRegistry::string, trackProducer, tracksToken_, and verbose_.

26  : gmtProducer(ps.getParameter<InputTag>("gmtProducer")),
27  lctProducer(ps.getParameter<InputTag>("lctProducer")),
28  trackProducer(ps.getParameter<InputTag>("trackProducer")),
29  statusProducer(ps.getParameter<InputTag>("statusProducer")),
30  mbProducer(ps.getParameter<InputTag>("mbProducer")),
33  // verbosity switch
34  verbose_ = ps.getUntrackedParameter<bool>("verbose", false);
35 
36  if (verbose_)
37  edm::LogInfo("DataNotFound") << "L1TCSCTF: constructor...." << endl;
38 
39  outputFile_ = ps.getUntrackedParameter<string>("outputFile", "");
40  if (!outputFile_.empty()) {
41  edm::LogInfo("DataNotFound") << "L1T Monitoring histograms will be saved to " << outputFile_.c_str() << endl;
42  }
43 
44  bool disable = ps.getUntrackedParameter<bool>("disableROOToutput", false);
45  if (disable) {
46  outputFile_ = "";
47  }
48 
49  gangedME11a_ = ps.getUntrackedParameter<bool>("gangedME11a", false);
50 
51  // instantiate standard on-fly SR LUTs from CSC TF emulator package
52  bzero(srLUTs_, sizeof(srLUTs_));
53  //int sector=1; // assume SR LUTs are all same for every sector
54  bool TMB07 = true; // specific TMB firmware
55  // Create a pset for SR/PT LUTs: if you do not change the value in the
56  // configuration file, it will load the default minitLUTs
57  edm::ParameterSet srLUTset;
58  srLUTset.addUntrackedParameter<bool>("ReadLUTs", false);
59  srLUTset.addUntrackedParameter<bool>("Binary", false);
60  srLUTset.addUntrackedParameter<std::string>("LUTPath", "./");
61 
62  // positive endcap
63  int endcap = 1;
64  for (int sector = 0; sector < 6; sector++) {
65  for (int station = 1, fpga = 0; station <= 4 && fpga < 5; station++) {
66  if (station == 1)
67  for (int subSector = 0; subSector < 2 && fpga < 5; subSector++)
68  srLUTs_[fpga++][1][sector] =
69  new CSCSectorReceiverLUT(endcap, sector + 1, subSector + 1, station, srLUTset, TMB07);
70  else
71  srLUTs_[fpga++][1][sector] = new CSCSectorReceiverLUT(endcap, sector + 1, 0, station, srLUTset, TMB07);
72  }
73  }
74 
75  // negative endcap
76  endcap = 2;
77  for (int sector = 0; sector < 6; sector++) {
78  for (int station = 1, fpga = 0; station <= 4 && fpga < 5; station++) {
79  if (station == 1)
80  for (int subSector = 0; subSector < 2 && fpga < 5; subSector++)
81  srLUTs_[fpga++][0][sector] =
82  new CSCSectorReceiverLUT(endcap, sector + 1, subSector + 1, station, srLUTset, TMB07);
83  else
84  srLUTs_[fpga++][0][sector] = new CSCSectorReceiverLUT(endcap, sector + 1, 0, station, srLUTset, TMB07);
85  }
86  }
87 
88  //set Token(-s)
94 
95  gmtProducerToken_ = consumes<L1MuGMTReadoutCollection>(ps.getParameter<InputTag>("gmtProducer"));
96  statusToken_ = consumes<L1CSCStatusDigiCollection>(statusTag_);
97  corrlctsToken_ = consumes<CSCCorrelatedLCTDigiCollection>(corrlctsTag_);
98  tracksToken_ = consumes<L1CSCTrackCollection>(tracksTag_);
99  dtStubsToken_ = consumes<CSCTriggerContainer<csctf::TrackStub> >(dtStubsTag_);
100  mbtracksToken_ = consumes<L1CSCTrackCollection>(mbtracksTag_);
101 }
ESGetTokenH3DDVariant esConsumes(std::string const &Record, edm::ConsumesCollector &)
Definition: DeDxTools.cc:283
T getParameter(std::string const &) const
Definition: ParameterSet.h:303
bool verbose_
Definition: L1TCSCTF.h:170
std::string const & instance() const
Definition: InputTag.h:37
edm::ESGetToken< L1MuTriggerScales, L1MuTriggerScalesRcd > l1muTscalesToken_
Definition: L1TCSCTF.h:190
edm::InputTag mbProducer
Definition: L1TCSCTF.h:173
std::string const & label() const
Definition: InputTag.h:36
std::string outputFile_
Definition: L1TCSCTF.h:169
edm::InputTag statusProducer
Definition: L1TCSCTF.h:173
T getUntrackedParameter(std::string const &, T const &) const
edm::EDGetTokenT< L1CSCStatusDigiCollection > statusToken_
Definition: L1TCSCTF.h:185
bool gangedME11a_
Definition: L1TCSCTF.h:174
edm::ESGetToken< L1MuTriggerPtScale, L1MuTriggerPtScaleRcd > ptscalesToken_
Definition: L1TCSCTF.h:191
edm::InputTag lctProducer
Definition: L1TCSCTF.h:173
edm::EDGetTokenT< L1CSCTrackCollection > tracksToken_
Definition: L1TCSCTF.h:187
Log< level::Info, false > LogInfo
edm::EDGetTokenT< CSCCorrelatedLCTDigiCollection > corrlctsToken_
Definition: L1TCSCTF.h:186
void addUntrackedParameter(std::string const &name, T const &value)
Definition: ParameterSet.h:192
edm::EDGetTokenT< L1CSCTrackCollection > mbtracksToken_
Definition: L1TCSCTF.h:189
edm::InputTag trackProducer
Definition: L1TCSCTF.h:173
edm::EDGetTokenT< L1MuGMTReadoutCollection > gmtProducerToken_
Definition: L1TCSCTF.h:184
CSCSectorReceiverLUT * srLUTs_[5][2][6]
Definition: L1TCSCTF.h:176
edm::EDGetTokenT< CSCTriggerContainer< csctf::TrackStub > > dtStubsToken_
Definition: L1TCSCTF.h:188
edm::InputTag gmtProducer
Definition: L1TCSCTF.h:173

◆ ~L1TCSCTF()

L1TCSCTF::~L1TCSCTF ( )
override

Definition at line 103 of file L1TCSCTF.cc.

References mps_fire::i, dqmiolumiharvest::j, alignCSCRings::s, and srLUTs_.

103  {
104  for (unsigned int j = 0; j < 2; j++)
105  for (unsigned int i = 0; i < 5; i++)
106  for (unsigned int s = 0; s < 6; s++)
107  delete srLUTs_[i][j][s]; //free the array of pointers
108 }
CSCSectorReceiverLUT * srLUTs_[5][2][6]
Definition: L1TCSCTF.h:176

Member Function Documentation

◆ analyze()

void L1TCSCTF::analyze ( const edm::Event e,
const edm::EventSetup c 
)
overrideprotectedvirtual

CAL as Janos adviced

Reimplemented from DQMEDAnalyzer.

Definition at line 655 of file L1TCSCTF.cc.

References funct::abs(), simKBmtfDigis_cfi::bx, BxInEvent_, c, edm::eventsetup::EventSetupRecord::cacheIdentifier(), corrlctsToken_, csc_strip_MEminus11, csc_strip_MEminus12, csc_strip_MEminus13, csc_strip_MEminus21, csc_strip_MEminus22, csc_strip_MEminus31, csc_strip_MEminus32, csc_strip_MEminus41, csc_strip_MEminus42, csc_strip_MEplus11, csc_strip_MEplus12, csc_strip_MEplus13, csc_strip_MEplus21, csc_strip_MEplus22, csc_strip_MEplus31, csc_strip_MEplus32, csc_strip_MEplus41, csc_strip_MEplus42, csc_wire_MEminus11, csc_wire_MEminus12, csc_wire_MEminus13, csc_wire_MEminus21, csc_wire_MEminus22, csc_wire_MEminus31, csc_wire_MEminus32, csc_wire_MEminus41, csc_wire_MEminus42, csc_wire_MEplus11, csc_wire_MEplus12, csc_wire_MEplus13, csc_wire_MEplus21, csc_wire_MEplus22, csc_wire_MEplus31, csc_wire_MEplus32, csc_wire_MEplus41, csc_wire_MEplus42, csctfbx, csctfbx_H, csctfChamberOccupancies, csctferrors, csctferrors_mpc, csctflcts, csctfntrack, csctfoccupancies, csctfoccupancies_H, csctfTrackEta, csctfTrackEta_H, csctfTrackEtaHighQ, csctfTrackEtaLowQ, csctfTrackM, csctfTrackPhi, csctfTrackPhi_H, cscTrackStubNumbers, cscWireStripOverflow, DTstubsTimeTrackMenTimeArrival, dtStubsToken_, MillePedeFileConverter_cfg::e, makeMuonMisalignmentScenario::endcap, csctf::TrackStub::etaValue(), dqm::impl::MonitorElement::Fill(), gangedME11a_, L1MuScale::getLowEdge(), L1MuTriggerScales::getPhiScale(), L1MuGMTReadoutCollection::getRecords(), CSCSectorReceiverLUT::globalEtaME(), CSCSectorReceiverLUT::globalPhiME(), gmtProducer, gmtProducerToken_, isCSCcand_, ecalpyutils::ism(), edm::HandleBase::isValid(), dqmiolumiharvest::j, L1ABXN, l1muTscalesToken_, edm::InputTag::label(), lctProducer, MainPageGenerator::link, CSCSectorReceiverLUT::localPhi(), M_PI, m_ptScaleCacheID, m_scalesCacheID, mbProducer, mbtracksToken_, me11_lctGblEta, me11_lctGblPhi, me11_lctLocalPhi, me11_lctPackedPhi, me11_lctStrip, me11_lctWire, me42_lctGblEta, me42_lctGblPhi, nev_, csctf::TrackStub::phiPacked(), csctf::TrackStub::phiValue(), edm::Handle< T >::product(), ptscalesToken_, relativeConstraints::ring, csctf::TrackStub::setEtaPacked(), csctf::TrackStub::setPhiPacked(), edm::shift, srLUTs_, relativeConstraints::station, mps_update::status, statusProducer, statusToken_, digitizers_cfi::strip, tpts, trackModeVsQ, trackProducer, tracks, tracksToken_, CSCTriggerNumbering::triggerSubSectorFromLabels(), ts, verbose_, and testProducerWithPsetDescEmpty_cfi::x1.

655  {
657  c.get<L1MuTriggerPtScaleRcd>().cacheIdentifier() != m_ptScaleCacheID) {
658  ts = &c.getData(l1muTscalesToken_);
659  tpts = &c.getData(ptscalesToken_);
660 
661  m_scalesCacheID = c.get<L1MuTriggerScalesRcd>().cacheIdentifier();
662  m_ptScaleCacheID = c.get<L1MuTriggerPtScaleRcd>().cacheIdentifier();
663 
664  edm::LogInfo("L1TCSCTF") << "Changing triggerscales and triggerptscales...";
665  }
666 
667  int NumCSCTfTracksRep = 0;
668  nev_++;
669  if (verbose_)
670  edm::LogInfo("DataNotFound") << "L1TCSCTF: analyze...." << endl;
671 
673  if (gmtProducer.label() != "null") { // GMT block
674  e.getByToken(gmtProducerToken_, pCollection);
675  if (!pCollection.isValid()) {
676  edm::LogInfo("DataNotFound") << "can't find L1MuGMTReadoutCollection with label "; // << csctfSource_.label() ;
677  return;
678  }
679 
680  L1MuGMTReadoutCollection const* gmtrc = pCollection.product();
681  vector<L1MuGMTReadoutRecord> gmt_records = gmtrc->getRecords();
682  vector<L1MuGMTReadoutRecord>::const_iterator RRItr;
683 
684  // Look if the readout window contains one (and only one CSC cands)
685  // to make it simpler I reject events with more than a CSC cand in the
686  // same readout window
687 
688  // count non-empty candidates in this bx
689  int bxWindow = 0;
690  int nCands = 0;
691 
692  for (RRItr = gmt_records.begin(); RRItr != gmt_records.end(); RRItr++) {
693  bxWindow++;
694 
695  // get the csc candidates
696  vector<L1MuRegionalCand> INPCands = RRItr->getCSCCands();
697  vector<L1MuRegionalCand>::const_iterator INPItr;
698 
699  BxInEvent_ = 0;
700  isCSCcand_ = false;
701  int nCandsBx = 0;
702 
703  for (INPItr = INPCands.begin(); INPItr != INPCands.end(); ++INPItr) {
704  if (!INPItr->empty()) {
705  nCandsBx++;
706  nCands++;
707  BxInEvent_ = RRItr->getBxInEvent();
708  if (verbose_)
709  edm::LogInfo("DataNotFound") << "cand " << nCandsBx << " -> assigned CSCTF bx: " << INPItr->bx() << endl;
710  }
711  }
712  if (verbose_)
713  if (nCandsBx)
714  edm::LogInfo("DataNotFound") << nCandsBx << " cands in bx: " << BxInEvent_ << endl;
715  }
716 
717  if (nCands != 1)
718  return;
719  else
720  isCSCcand_ = true;
721  if (verbose_)
722  edm::LogInfo("DataNotFound") << "bxWindow: " << bxWindow << endl;
723 
724  int ncsctftrack = 0;
725  if (verbose_) {
726  edm::LogInfo("DataNotFound") << "\tCSCTFCand ntrack " << ncsctftrack << endl;
727  }
728  } // end of GMT block
729 
730  L1ABXN = -999;
731  if (statusProducer.label() != "null") {
733  e.getByToken(statusToken_, status);
734  bool integrity = status->first, se = false, sm = false, bx = false, af = false, fmm = false;
735  int nStat = 0;
736 
737  for (std::vector<L1CSCSPStatusDigi>::const_iterator stat = status->second.begin(); stat != status->second.end();
738  stat++) {
739  se |= stat->SEs() & 0xFFF;
740  sm |= stat->SMs() & 0xFFF;
741  bx |= stat->BXs() & 0xFFF;
742  af |= stat->AFs() & 0xFFF;
743  fmm |= stat->FMM() != 8;
744 
745  int ise = stat->SEs() & 0xFFF;
746  int ism = stat->SMs() & 0xFFF;
747  int ibx = stat->BXs() & 0xFFF;
748  int iaf = stat->AFs() & 0xFFF;
749  int ifmm = stat->FMM();
750  int slot = stat->slot();
751 
752  for (int j = 0; j < 15; j++) {
753  int link = j + 1;
754  int mpc_id = 0;
755  int sp_num = 0;
756  if (slot >= 6 && slot <= 11)
757  sp_num = slot - 5;
758  if (slot >= 16 && slot <= 21)
759  sp_num = slot - 9;
760 
761  if (sp_num == 1) {
762  if (link >= 1 && link <= 3)
763  mpc_id = 2;
764  else if (link >= 4 && link <= 6)
765  mpc_id = 3;
766  else if (link >= 7 && link <= 9)
767  mpc_id = 13;
768  else if (link >= 10 && link <= 12)
769  mpc_id = 19;
770  else if (link >= 13 && link <= 15)
771  mpc_id = 25;
772  } else if (sp_num == 2) {
773  if (link >= 1 && link <= 3)
774  mpc_id = 4;
775  else if (link >= 4 && link <= 6)
776  mpc_id = 5;
777  else if (link >= 7 && link <= 9)
778  mpc_id = 14;
779  else if (link >= 10 && link <= 12)
780  mpc_id = 20;
781  else if (link >= 13 && link <= 15)
782  mpc_id = 26;
783  } else if (sp_num == 3) {
784  if (link >= 1 && link <= 3)
785  mpc_id = 6;
786  else if (link >= 4 && link <= 6)
787  mpc_id = 7;
788  else if (link >= 7 && link <= 9)
789  mpc_id = 15;
790  else if (link >= 10 && link <= 12)
791  mpc_id = 21;
792  else if (link >= 13 && link <= 15)
793  mpc_id = 27;
794  } else if (sp_num == 4) {
795  if (link >= 1 && link <= 3)
796  mpc_id = 8;
797  else if (link >= 4 && link <= 6)
798  mpc_id = 9;
799  else if (link >= 7 && link <= 9)
800  mpc_id = 16;
801  else if (link >= 10 && link <= 12)
802  mpc_id = 22;
803  else if (link >= 13 && link <= 15)
804  mpc_id = 28;
805  } else if (sp_num == 5) {
806  if (link >= 1 && link <= 3)
807  mpc_id = 10;
808  else if (link >= 4 && link <= 6)
809  mpc_id = 11;
810  else if (link >= 7 && link <= 9)
811  mpc_id = 17;
812  else if (link >= 10 && link <= 12)
813  mpc_id = 23;
814  else if (link >= 13 && link <= 15)
815  mpc_id = 29;
816  } else if (sp_num == 6) {
817  if (link >= 1 && link <= 3)
818  mpc_id = 12;
819  else if (link >= 4 && link <= 6)
820  mpc_id = 1;
821  else if (link >= 7 && link <= 9)
822  mpc_id = 18;
823  else if (link >= 10 && link <= 12)
824  mpc_id = 24;
825  else if (link >= 13 && link <= 15)
826  mpc_id = 30;
827  } else if (sp_num == 7) {
828  if (link >= 1 && link <= 3)
829  mpc_id = 32;
830  else if (link >= 4 && link <= 6)
831  mpc_id = 33;
832  else if (link >= 7 && link <= 9)
833  mpc_id = 43;
834  else if (link >= 10 && link <= 12)
835  mpc_id = 49;
836  else if (link >= 13 && link <= 15)
837  mpc_id = 55;
838  } else if (sp_num == 8) {
839  if (link >= 1 && link <= 3)
840  mpc_id = 34;
841  else if (link >= 4 && link <= 6)
842  mpc_id = 35;
843  else if (link >= 7 && link <= 9)
844  mpc_id = 44;
845  else if (link >= 10 && link <= 12)
846  mpc_id = 50;
847  else if (link >= 13 && link <= 15)
848  mpc_id = 56;
849  } else if (sp_num == 9) {
850  if (link >= 1 && link <= 3)
851  mpc_id = 36;
852  else if (link >= 4 && link <= 6)
853  mpc_id = 37;
854  else if (link >= 7 && link <= 9)
855  mpc_id = 45;
856  else if (link >= 10 && link <= 12)
857  mpc_id = 51;
858  else if (link >= 13 && link <= 15)
859  mpc_id = 57;
860  } else if (sp_num == 10) {
861  if (link >= 1 && link <= 3)
862  mpc_id = 38;
863  else if (link >= 4 && link <= 6)
864  mpc_id = 39;
865  else if (link >= 7 && link <= 9)
866  mpc_id = 46;
867  else if (link >= 10 && link <= 12)
868  mpc_id = 52;
869  else if (link >= 13 && link <= 15)
870  mpc_id = 58;
871  } else if (sp_num == 11) {
872  if (link >= 1 && link <= 3)
873  mpc_id = 40;
874  else if (link >= 4 && link <= 6)
875  mpc_id = 41;
876  else if (link >= 7 && link <= 9)
877  mpc_id = 47;
878  else if (link >= 10 && link <= 12)
879  mpc_id = 53;
880  else if (link >= 13 && link <= 15)
881  mpc_id = 59;
882  } else if (sp_num == 12) {
883  if (link >= 1 && link <= 3)
884  mpc_id = 42;
885  else if (link >= 4 && link <= 6)
886  mpc_id = 31;
887  else if (link >= 7 && link <= 9)
888  mpc_id = 48;
889  else if (link >= 10 && link <= 12)
890  mpc_id = 54;
891  else if (link >= 13 && link <= 15)
892  mpc_id = 60;
893  }
894 
895  if (integrity)
896  csctferrors_mpc->Fill(0.5, mpc_id);
897  if ((ise >> j) & 0x1)
898  csctferrors_mpc->Fill(1.5, mpc_id);
899  if ((ism >> j) & 0x1)
900  csctferrors_mpc->Fill(2.5, mpc_id);
901  if ((ibx >> j) & 0x1)
902  csctferrors_mpc->Fill(3.5, mpc_id);
903  if ((iaf >> j) & 0x1)
904  csctferrors_mpc->Fill(4.5, mpc_id);
905  if (ifmm != 8)
906  csctferrors_mpc->Fill(5.5, mpc_id);
907  }
908 
909  if (stat->VPs() != 0) {
910  L1ABXN += stat->BXN();
911  nStat++;
912  }
913  }
914  // compute the average
915  if (nStat != 0)
916  L1ABXN /= nStat;
917  if (integrity)
918  csctferrors->Fill(0.5);
919  if (se)
920  csctferrors->Fill(1.5);
921  if (sm)
922  csctferrors->Fill(2.5);
923  if (bx)
924  csctferrors->Fill(3.5);
925  if (af)
926  csctferrors->Fill(4.5);
927  if (fmm)
928  csctferrors->Fill(5.5);
929  }
930 
931  if (lctProducer.label() != "null") {
932  //edm::ESHandle<CSCGeometry> pDD;
933  //c.get<MuonGeometryRecord>().get(pDD);
934 
936  e.getByToken(corrlctsToken_, corrlcts);
937 
939  csc != corrlcts.product()->end();
940  csc++) {
941  CSCCorrelatedLCTDigiCollection::Range range1 = corrlcts.product()->get((*csc).first);
942  for (CSCCorrelatedLCTDigiCollection::const_iterator lct = range1.first; lct != range1.second; lct++) {
943  int endcap = (*csc).first.endcap() - 1;
944  int station = (*csc).first.station() - 1;
945  int sector = (*csc).first.triggerSector() - 1;
946  int subSector = CSCTriggerNumbering::triggerSubSectorFromLabels((*csc).first);
947  int ring = (*csc).first.ring();
948  int cscId = (*csc).first.triggerCscId() - 1;
949  int fpga = (subSector ? subSector - 1 : station + 1);
950  int strip = lct->getStrip();
951  int keyWire = lct->getKeyWG();
952  int bx = lct->getBX();
953 
954  int endcapAssignment = 1;
955  int shift = 1;
956  float sectorArg = sector;
957  //float sectorArg = j;
958 
959  if (endcap == 1) {
960  endcapAssignment = -1;
961  shift = 2;
962  //sectorArg = sector - 6;
963  }
964 
965  int signedStation = (station + shift) * endcapAssignment;
966  if ((station == 0) && (endcap == 0))
967  signedStation = subSector - 1;
968  if ((station == 0) && (endcap == 1))
969  signedStation = (-1) * subSector;
970 
971  float chamberArg1 = cscId * 0.1 + sectorArg;
972  //float chamberArg1 = i*0.1 + sectorArg;
973  //std::cout << "First" << i << " " << sectorArg << " " << chamberArg1 << std::endl;
974 
975  float chamberArg11 = chamberArg1;
976  if (sectorArg == 1)
977  chamberArg1 = chamberArg11 - 0.1;
978  if (sectorArg == 2)
979  chamberArg1 = chamberArg11 - 0.2;
980  if (sectorArg == 3)
981  chamberArg1 = chamberArg11 - 0.3;
982  if (sectorArg == 4)
983  chamberArg1 = chamberArg11 - 0.4;
984  if (sectorArg == 5)
985  chamberArg1 = chamberArg11 - 0.5;
986 
987  //std::cout << "cscId, station, sector, endcap, sectorArg, chamber Arg: " << cscId << ", " << station << ", " <<sector << ", " << endcap << ", " << chamberArg1 << ", " << signedStation << std::endl;
988 
989  csctfChamberOccupancies->Fill(chamberArg1, signedStation);
990  //int bunchX = ( (lct->getBX()) - 6 );
991 
992  //int timingSectorArg = 3*(sector) + (lct->getMPCLink());
993  //if( endcap == 1) timingSectorArg = 3*(sector + 6) + (lct->getMPCLink());
994  //std::cout << "Sector, MPCLink, TSA, endcap: " << sector << ", " << lct->getMPCLink() << ", " << timingSectorArg << ", " << endcap << std::endl;
995 
996  //csctfbx->Fill(timingSectorArg, bunchX );
997  //std::cout << "LCT'S, encap: " << endcap << ", station: " << station << ", sector: " << sector << ", subSector: " << subSector << ", cscId: " << cscId << std:: endl;
998  //End JAG
999 
1000  // Check if Det Id is within pysical range:
1001  if (endcap < 0 || endcap > 1 || sector < 0 || sector > 6 || station < 0 || station > 3 || cscId < 0 ||
1002  cscId > 8 || fpga < 0 || fpga > 4) {
1003  edm::LogError("L1CSCTF: CSC TP are out of range: ")
1004  << " endcap: " << (endcap + 1) << " station: " << (station + 1) << " sector: " << (sector + 1)
1005  << " subSector: " << subSector << " fpga: " << fpga << " cscId: " << (cscId + 1);
1006  continue;
1007  }
1008 
1009  int EndCapLUT = 1;
1010  //if(endcap==0) EndCapLUT=1; // ME+
1011  if (endcap == 1)
1012  EndCapLUT = 0; // ME-
1013 
1014  lclphidat lclPhi;
1015  try {
1016  lclPhi = srLUTs_[fpga][EndCapLUT][sector]->localPhi(
1017  lct->getStrip(), lct->getPattern(), lct->getQuality(), lct->getBend(), gangedME11a_);
1018  } catch (cms::Exception&) {
1019  bzero(&lclPhi, sizeof(lclPhi));
1020  }
1021 
1022  gblphidat gblPhi;
1023  try {
1024  gblPhi =
1025  srLUTs_[fpga][EndCapLUT][sector]->globalPhiME(lclPhi.phi_local, lct->getKeyWG(), cscId + 1, gangedME11a_);
1026  } catch (cms::Exception&) {
1027  bzero(&gblPhi, sizeof(gblPhi));
1028  }
1029 
1030  gbletadat gblEta;
1031  try {
1032  gblEta = srLUTs_[fpga][EndCapLUT][sector]->globalEtaME(
1033  lclPhi.phi_bend_local, lclPhi.phi_local, lct->getKeyWG(), cscId + 1, gangedME11a_);
1034  } catch (cms::Exception&) {
1035  bzero(&gblEta, sizeof(gblEta));
1036  }
1037 
1038  //TrackStub
1039  csctf::TrackStub theStub((*lct), (*csc).first);
1040  theStub.setPhiPacked(gblPhi.global_phi);
1041  theStub.setEtaPacked(gblEta.global_eta);
1042 
1043  float etaG = theStub.etaValue();
1044  float phiG = fmod(theStub.phiValue() + 15.0 * M_PI / 180 + (sector)*60.0 * M_PI / 180, 2. * M_PI);
1045 
1046  //BX plots
1047  // endcap==1: minus side; endcap==0: plus side
1048  // station=0,1,2,3; ring=1,2,3;
1049  if (endcap == 1) {
1050  if (station == 0) {
1051  if (ring == 1)
1052  csctflcts->Fill(bx, 8.5);
1053  else if (ring == 2)
1054  csctflcts->Fill(bx, 7.5);
1055  else
1056  csctflcts->Fill(bx, 6.5);
1057  } else if (station == 1) {
1058  if (ring == 1)
1059  csctflcts->Fill(bx, 5.5);
1060  else
1061  csctflcts->Fill(bx, 4.5);
1062  } else if (station == 2) {
1063  if (ring == 1)
1064  csctflcts->Fill(bx, 3.5);
1065  else
1066  csctflcts->Fill(bx, 2.5);
1067  } else if (station == 3) {
1068  if (ring == 1)
1069  csctflcts->Fill(bx, 1.5);
1070  else
1071  csctflcts->Fill(bx, 0.5);
1072  }
1073 
1074  } else {
1075  if (station == 0) {
1076  if (ring == 1)
1077  csctflcts->Fill(bx, 9.5);
1078  else if (ring == 2)
1079  csctflcts->Fill(bx, 10.5);
1080  else
1081  csctflcts->Fill(bx, 11.5);
1082  } else if (station == 1) {
1083  if (ring == 1)
1084  csctflcts->Fill(bx, 12.5);
1085  else
1086  csctflcts->Fill(bx, 13.5);
1087  } else if (station == 2) {
1088  if (ring == 1)
1089  csctflcts->Fill(bx, 14.5);
1090  else
1091  csctflcts->Fill(bx, 15.5);
1092  } else if (station == 3) {
1093  if (ring == 1)
1094  csctflcts->Fill(bx, 16.5);
1095  else
1096  csctflcts->Fill(bx, 17.5);
1097  }
1098  }
1099 
1100  // only for ME1/1
1101  if (station == 0 && ring == 1) {
1103  me11_lctWire->Fill(keyWire);
1104  me11_lctLocalPhi->Fill(lclPhi.phi_local);
1105  me11_lctPackedPhi->Fill(theStub.phiPacked());
1106  me11_lctGblPhi->Fill(phiG);
1107  me11_lctGblEta->Fill(etaG);
1108  }
1109 
1110  // only for ME4/2
1111  if (station == 3 && ring == 2) {
1112  me42_lctGblPhi->Fill(phiG);
1113  me42_lctGblEta->Fill(etaG);
1114  }
1115 
1116  //ME1/1
1117  if (station == 0 && ring == 1) {
1118  int realID = cscId + 6 * sector + 3 * subSector;
1119  if (realID > 36)
1120  realID -= 36;
1121  if (endcap == 0) {
1122  csc_strip_MEplus11->Fill(realID, strip);
1123  csc_wire_MEplus11->Fill(realID, keyWire);
1124  if (keyWire > 48 || strip > 224)
1125  cscWireStripOverflow->Fill(realID, 9.5, 1);
1126  }
1127  if (endcap == 1) {
1128  csc_strip_MEminus11->Fill(realID, strip);
1129  csc_wire_MEminus11->Fill(realID, keyWire);
1130  if (keyWire > 48 || strip > 224)
1131  cscWireStripOverflow->Fill(realID, 8.5, 1);
1132  }
1133  }
1134  //ME1/2
1135  if (station == 0 && ring == 2) {
1136  int realID = (cscId - 3) + 6 * sector + 3 * subSector;
1137  if (realID > 36)
1138  realID -= 36;
1139  if (endcap == 0) {
1140  csc_strip_MEplus12->Fill(realID, strip);
1141  csc_wire_MEplus12->Fill(realID, keyWire);
1142  if (keyWire > 64 || strip > 160)
1143  cscWireStripOverflow->Fill(realID, 10.5, 1);
1144  }
1145  if (endcap == 1) {
1146  csc_strip_MEminus12->Fill(realID, strip);
1147  csc_wire_MEminus12->Fill(realID, keyWire);
1148  if (keyWire > 64 || strip > 160)
1149  cscWireStripOverflow->Fill(realID, 7.5, 1);
1150  }
1151  }
1152  //ME1/3
1153  if (station == 0 && ring == 3) {
1154  int realID = (cscId - 6) + 6 * sector + 3 * subSector;
1155  if (realID > 36)
1156  realID -= 36;
1157  if (endcap == 0) {
1158  csc_strip_MEplus13->Fill(realID, strip);
1159  csc_wire_MEplus13->Fill(realID, keyWire);
1160  if (keyWire > 32 || strip > 128)
1161  cscWireStripOverflow->Fill(realID, 11.5, 1);
1162  }
1163  if (endcap == 1) {
1164  csc_strip_MEminus13->Fill(realID, strip);
1165  csc_wire_MEminus13->Fill(realID, keyWire);
1166  if (keyWire > 32 || strip > 128)
1167  cscWireStripOverflow->Fill(realID, 6.5, 1);
1168  }
1169  }
1170  //ME2/1
1171  if (station == 1 && ring == 1) {
1172  int realID = cscId + 3 * sector + 2;
1173  if (realID > 18)
1174  realID -= 18;
1175  if (endcap == 0) {
1176  csc_strip_MEplus21->Fill(realID, strip);
1177  csc_wire_MEplus21->Fill(realID, keyWire);
1178  if (keyWire > 112 || strip > 160)
1179  cscWireStripOverflow->Fill(realID, 12.5, 1);
1180  }
1181  if (endcap == 1) {
1182  csc_strip_MEminus21->Fill(realID, strip);
1183  csc_wire_MEminus21->Fill(realID, keyWire);
1184  if (keyWire > 112 || strip > 160)
1185  cscWireStripOverflow->Fill(realID, 5.5, 1);
1186  }
1187  }
1188  //ME2/2
1189  if (station == 1 && ring == 2) {
1190  int realID = (cscId - 3) + 6 * sector + 3;
1191  if (realID > 36)
1192  realID -= 36;
1193  if (endcap == 0) {
1194  csc_strip_MEplus22->Fill(realID, strip);
1195  csc_wire_MEplus22->Fill(realID, keyWire);
1196  if (keyWire > 64 || strip > 160)
1197  cscWireStripOverflow->Fill(realID, 13.5, 1);
1198  }
1199  if (endcap == 1) {
1200  csc_strip_MEminus22->Fill(realID, strip);
1201  csc_wire_MEminus22->Fill(realID, keyWire);
1202  if (keyWire > 64 || strip > 160)
1203  cscWireStripOverflow->Fill(realID, 4.5, 1);
1204  }
1205  }
1206 
1207  //ME3/1
1208  if (station == 2 && ring == 1) {
1209  int realID = cscId + 3 * sector + 2;
1210  if (realID > 18)
1211  realID -= 18;
1212  if (endcap == 0) {
1213  csc_strip_MEplus31->Fill(realID, strip);
1214  csc_wire_MEplus31->Fill(realID, keyWire);
1215  if (keyWire > 96 || strip > 160)
1216  cscWireStripOverflow->Fill(realID, 14.5, 1);
1217  }
1218  if (endcap == 1) {
1219  csc_strip_MEminus31->Fill(realID, strip);
1220  csc_wire_MEminus31->Fill(realID, keyWire);
1221  if (keyWire > 96 || strip > 160)
1222  cscWireStripOverflow->Fill(realID, 3.5, 1);
1223  }
1224  }
1225 
1226  //ME3/2
1227  if (station == 2 && ring == 2) {
1228  int realID = (cscId - 3) + 6 * sector + 3;
1229  if (realID > 36)
1230  realID -= 36;
1231  if (endcap == 0) {
1232  csc_strip_MEplus32->Fill(realID, strip);
1233  csc_wire_MEplus32->Fill(realID, keyWire);
1234  if (keyWire > 64 || strip > 160)
1235  cscWireStripOverflow->Fill(realID, 15.5, 1);
1236  }
1237  if (endcap == 1) {
1238  csc_strip_MEminus32->Fill(realID, strip);
1239  csc_wire_MEminus32->Fill(realID, keyWire);
1240  if (keyWire > 64 || strip > 160)
1241  cscWireStripOverflow->Fill(realID, 2.5, 1);
1242  }
1243  }
1244  //ME4/1
1245  if (station == 3 && ring == 1) {
1246  int realID = cscId + 3 * sector + 2;
1247  if (realID > 18)
1248  realID -= 18;
1249  if (endcap == 0) {
1250  csc_strip_MEplus41->Fill(realID, strip);
1251  csc_wire_MEplus41->Fill(realID, keyWire);
1252  if (keyWire > 96 || strip > 160)
1253  cscWireStripOverflow->Fill(realID, 16.5, 1);
1254  }
1255  if (endcap == 1) {
1256  csc_strip_MEminus41->Fill(realID, strip);
1257  csc_wire_MEminus41->Fill(realID, keyWire);
1258  if (keyWire > 96 || strip > 160)
1259  cscWireStripOverflow->Fill(realID, 1.5, 1);
1260  }
1261  }
1262  //ME4/2
1263  if (station == 3 && ring == 2) {
1264  int realID = (cscId - 3) + 6 * sector + 3;
1265  if (realID > 36)
1266  realID -= 36;
1267  if (endcap == 0) {
1268  csc_strip_MEplus42->Fill(realID, strip);
1269  csc_wire_MEplus42->Fill(realID, keyWire);
1270  if (keyWire > 64 || strip > 160)
1271  cscWireStripOverflow->Fill(realID, 17.5, 1);
1272  }
1273  if (endcap == 1) {
1274  csc_strip_MEminus42->Fill(realID, strip);
1275  csc_wire_MEminus42->Fill(realID, keyWire);
1276  if (keyWire > 64 || strip > 160)
1277  cscWireStripOverflow->Fill(realID, 0.5, 1);
1278  }
1279  }
1280 
1281  // SR LUT gives packed eta and phi values -> normilize them to 1 by scale them to 'max' and shift by 'min'
1282  //float etaP = gblEta.global_eta/127*1.5 + 0.9;
1283  //float phiP = (gblPhi.global_phi);// + ( sector )*4096 + station*4096*12) * 1./(4*4096*12);
1284  //std::cout << "LCT Eta & Phi Coordinates: " << etaP << ", " << phiP << "." << std::endl;
1285  //csctfoccupancies->Fill( gblEta.global_eta/127. * 1.5 + 0.9, (gblPhi.global_phi + ( sector + (endcap?0:6) )*4096 + station*4096*12) * 1./(4*4096*12) );
1286  } //lct != range1.scond
1287  } //csc!=corrlcts.product()->end()
1288  } // lctProducer.label() != "null"
1289 
1290  if (trackProducer.label() != "null") {
1292  e.getByToken(tracksToken_, tracks);
1293  for (L1CSCTrackCollection::const_iterator trk = tracks->begin(); trk < tracks->end(); trk++) {
1294  NumCSCTfTracksRep++;
1295  long LUTAdd = trk->first.ptLUTAddress();
1296  int trigMode = ((LUTAdd)&0xf0000) >> 16;
1297  int trEta = (trk->first.eta_packed());
1298 
1299  // trk->first.endcap() = 2 for - endcap
1300  // = 1 for + endcap
1301  //int trEndcap = (trk->first.endcap()==2 ? trk->first.endcap()-3 : trk->first.endcap());
1302  if (trk->first.endcap() != 1) {
1303  int holder = trEta;
1304  trEta = -1 * holder;
1305  trEta -= 1;
1306  }
1307 
1308  int trSector = 6 * (trk->first.endcap() - 1) + trk->first.sector();
1309  int trBX = trk->first.BX();
1310 
1311  //Here is what is done with output phi value:
1312  //output_phi = (phi / 32) * 3 /16
1313  //where:
1314  //phi is 12-bit phi, 4096 bins covering 62 degrees
1315  //output_phi is 5-bit value
1316 
1317  //Easy to see that output_phi can have values from 0 to 23, or 24 total combinations.
1318  //This gives per-bin phi value of 62/24 = 2.583333 degrees.
1319 
1320  // Sector 1 nominally starts at 15 degrees but there 1 degree overlap between sectors so 14 degrees effectively
1321  //double trPhi = trk->first.localPhi() * 62. / 24.;
1322  double trPhi = ts->getPhiScale()->getLowEdge(trk->first.localPhi());
1323  double trPhi02PI = fmod(trPhi + ((trSector - 1) * M_PI / 3) + (M_PI * 14 / 180.), 2 * M_PI);
1324 
1325  if (trigMode == 15) {
1326  csctfTrackPhi_H->Fill(trPhi02PI);
1327  csctfTrackEta_H->Fill(trEta);
1328  csctfoccupancies_H->Fill(trEta, trPhi02PI);
1329  csctfbx_H->Fill(trSector, trBX);
1330  } else {
1331  csctfTrackPhi->Fill(trPhi02PI);
1332  csctfTrackEta->Fill(trEta);
1333  csctfoccupancies->Fill(trEta, trPhi02PI);
1334  csctfbx->Fill(trSector, trBX);
1335 
1336  // Low Quality / High Quality Eta Distributions
1337  //|eta| < 2.1
1338  if (abs(trEta) < 24) {
1339  if (trigMode == 2 || trigMode == 3 || trigMode == 4 || trigMode == 5 || trigMode == 6 || trigMode == 7 ||
1340  trigMode == 11 || trigMode == 12 || trigMode == 13 || trigMode == 14)
1341  csctfTrackEtaHighQ->Fill(trEta);
1342 
1343  if (trigMode == 8 || trigMode == 9 || trigMode == 10)
1344  csctfTrackEtaLowQ->Fill(trEta);
1345  } else { //|eta| > 2.1
1346  if (trigMode == 2 || trigMode == 3 || trigMode == 4 || trigMode == 5)
1347  csctfTrackEtaHighQ->Fill(trEta);
1348  else
1349  csctfTrackEtaLowQ->Fill(trEta);
1350  }
1351  }
1352 
1353  csctfTrackM->Fill(trk->first.modeExtended());
1354 
1355  // we monitor the track quality only on the first link
1356  // so let's make sure to fill the plot if there is something that
1357  // is read from the hardware
1358  int trRank = trk->first.rank();
1359  if (trRank) {
1360  int trQuality = ((trRank >> 5) & 0x3);
1361  trackModeVsQ->Fill(trk->first.modeExtended(), trQuality);
1362  }
1363 
1364  /*
1365  OLD METHOD FOR FILLING HALO PLOTS, IMPROVED METHOD USING ASSOCIATED TRACK STUBS
1366  BELOW ~LINE 605
1367  if( trigMode == 15 )
1368  {
1369 
1370  double haloVals[4][4];
1371  for( int i = 0; i < 4; i++)
1372  {
1373  haloVals[i][0] = 0;
1374  }
1375 
1376  edm::Handle<CSCCorrelatedLCTDigiCollection> corrlcts;
1377  for(CSCCorrelatedLCTDigiCollection::DigiRangeIterator csc=corrlcts.product()->begin(); csc!=corrlcts.product()->end(); csc++)
1378  {
1379  CSCCorrelatedLCTDigiCollection::Range range1 = corrlcts.product()->get((*csc).first);
1380  for(CSCCorrelatedLCTDigiCollection::const_iterator lct=range1.first; lct!=range1.second; lct++)
1381  {
1382  int endcap = (*csc).first.endcap()-1;
1383  int station = (*csc).first.station()-1;
1384  int sector = (*csc).first.triggerSector()-1;
1385  int cscId = (*csc).first.triggerCscId()-1;
1386  int subSector = CSCTriggerNumbering::triggerSubSectorFromLabels((*csc).first);
1387  int fpga = ( subSector ? subSector-1 : station+1 );
1388 
1389  if(station != 4)
1390  {
1391  int modEnd = 1;
1392  if( endcap == 0 ) modEnd = -1;
1393  int indexHalo = modEnd + station;
1394  if(haloVals[indexHalo][0] == 1.0) haloVals[indexHalo][3] = 1.0;
1395  if(haloVals[indexHalo][0] == 0) haloVals[indexHalo][0] = 1.0;
1396  haloVals[indexHalo][1] = sector*1.0;
1397 
1398  lclphidat lclPhi;
1399  lclPhi = srLUTs_[fpga]->localPhi(lct->getStrip(), lct->getPattern(), lct->getQuality(), lct->getBend());
1400  gblphidat gblPhi;
1401  gblPhi = srLUTs_[fpga]->globalPhiME(lclPhi.phi_local, lct->getKeyWG(), cscId+1);
1402  gbletadat gblEta;
1403  gblEta = srLUTs_[fpga]->globalEtaME(lclPhi.phi_bend_local, lclPhi.phi_local, lct->getKeyWG(), cscId+1);
1404 
1405  haloVals[indexHalo][2] = gblEta.global_eta/127. * 1.5 + 0.9;
1406  } //station1 or 2
1407  } //lct first to second
1408  } //corrlcts
1409 
1410  if( (haloVals[0][0] == 1.) && (haloVals[1][0] == 1.) && (haloVals[0][3] != 1.) && (haloVals[1][3] != 1.) )
1411  {
1412  if( haloVals[0][1] == haloVals[1][1] ){
1413  double delEta23 = haloVals[1][2] - haloVals[0][2];
1414  haloDelEta23->Fill( delEta23 );
1415  }
1416  }
1417 
1418  if( (haloVals[2][0] == 1.) && (haloVals[3][0] == 1.) && (haloVals[2][3] != 1.) && (haloVals[3][3] != 1.) )
1419  {
1420  if( haloVals[2][1] == haloVals[3][1] ){
1421  double delEta23 = haloVals[3][2] - haloVals[2][2];
1422  haloDelEta23->Fill( delEta23 );
1423  }
1424  }
1425  } //halo trigger
1426  */
1427 
1428  int cscTrackStub = 0;
1429  //float haloEta[3];
1430  //for(int i=0; i<3; i++) haloEta[i]=-1.0;
1431  //bool haloME11 = false;
1432  CSCCorrelatedLCTDigiCollection lctsOfTracks = trk->second;
1433  for (CSCCorrelatedLCTDigiCollection::DigiRangeIterator trackStub = lctsOfTracks.begin();
1434  trackStub != lctsOfTracks.end();
1435  trackStub++) {
1436  CSCCorrelatedLCTDigiCollection::Range range2 = lctsOfTracks.get((*trackStub).first);
1437  for (CSCCorrelatedLCTDigiCollection::const_iterator lct = range2.first; lct != range2.second; lct++) {
1438  // int station = (*trackStub).first.station()-1;
1439  // if(station != 4)
1440  // {
1441  // // int endcap = (*trackStub).first.endcap()-1;
1442  // // int sector = (*trackStub).first.triggerSector()-1;
1443  // int cscId = (*trackStub).first.triggerCscId()-1;
1444  // int subSector = CSCTriggerNumbering::triggerSubSectorFromLabels((*trackStub).first);
1445  // int fpga = ( subSector ? subSector-1 : station+1 );
1446 
1447  // lclphidat lclPhi;
1448  // lclPhi = srLUTs_[fpga]->localPhi(lct->getStrip(), lct->getPattern(), lct->getQuality(), lct->getBend());
1449  // gblphidat gblPhi;
1450  // gblPhi = srLUTs_[fpga]->globalPhiME(lclPhi.phi_local, lct->getKeyWG(), cscId+1);
1451  // gbletadat gblEta;
1452  // gblEta = srLUTs_[fpga]->globalEtaME(lclPhi.phi_bend_local, lclPhi.phi_local, lct->getKeyWG(), cscId+1);
1453  // haloEta[station-1] = gblEta.global_eta/127. * 1.5 + 0.9;
1454  // if(station==1 && cscId<2) haloME11 = true;
1455  // }
1456  cscTrackStub++;
1457  }
1458  }
1459  cscTrackStubNumbers->Fill(cscTrackStub);
1460 
1461  // if(trigMode == 15)
1462  // {
1463  // float dEta13 = haloEta[2]-haloEta[0];
1464  // float dEta12 = haloEta[1]-haloEta[0];
1465  // if(haloME11)
1466  // {
1467  // if(haloEta[1]!=-1.0) haloDelEta112->Fill(dEta12);
1468  // if(haloEta[2]!=-1.0) haloDelEta113->Fill(dEta13);
1469  // } else {
1470  // if(haloEta[1]!=-1.0) haloDelEta12->Fill(dEta12);
1471  // if(haloEta[2]!=-1.0) haloDelEta13->Fill(dEta13);
1472  // }
1473  // }
1474  //
1475  }
1476  }
1477  csctfntrack->Fill(NumCSCTfTracksRep);
1478 
1479  if (mbProducer.label() != "null") {
1480  // handle to needed collections
1482  e.getByToken(dtStubsToken_, dtStubs);
1484  e.getByToken(mbtracksToken_, tracks);
1485 
1486  // loop on the DT stubs
1487  std::vector<csctf::TrackStub> vstubs = dtStubs->get();
1488  for (std::vector<csctf::TrackStub>::const_iterator stub = vstubs.begin(); stub != vstubs.end(); stub++) {
1489  if (verbose_) {
1490  edm::LogInfo("DataNotFound") << "\n mbEndcap: " << stub->endcap();
1491  edm::LogInfo("DataNotFound") << "\n stub->getStrip()[FLAG]: " << stub->getStrip();
1492  edm::LogInfo("DataNotFound") << "\n stub->getKeyWG()[CAL]: " << stub->getKeyWG();
1493  edm::LogInfo("DataNotFound") << "\n stub->BX(): " << stub->BX();
1494  edm::LogInfo("DataNotFound") << "\n stub->sector(): " << stub->sector();
1495  edm::LogInfo("DataNotFound") << "\n stub->subsector(): " << stub->subsector();
1496  edm::LogInfo("DataNotFound") << "\n stub->station(): " << stub->station();
1497  edm::LogInfo("DataNotFound") << "\n stub->phiPacked(): " << stub->phiPacked();
1498  edm::LogInfo("DataNotFound") << "\n stub->getBend(): " << stub->getBend();
1499  edm::LogInfo("DataNotFound") << "\n stub->getQuality(): " << stub->getQuality();
1500  edm::LogInfo("DataNotFound") << "\n stub->cscid(): " << stub->cscid() << endl;
1501  }
1502  // define the sector ID
1503  int mbId = (stub->endcap() == 2) ? 6 : 0;
1504  mbId += stub->sector();
1505  // *** do not fill if CalMB variable is set ***
1506  // horrible! They used the same class to write up the LCT and MB info,
1507  // but given the MB does not have strip and WG they replaced this two
1508  // with the flag and cal bits... :S
1509  if (stub->getKeyWG() == 0)
1510  {
1511  // if FLAG =1, muon belong to previous BX
1512  int bxDT = stub->BX() - stub->getStrip(); // correct by the FLAG
1513  int subDT = stub->subsector();
1514 
1515  // Fill the event only if CSC had or would have triggered
1516  if (isCSCcand_) {
1517  //look for tracks in the event and compare the matching DT stubs
1518  int trkBX = 0;
1519  for (L1CSCTrackCollection::const_iterator trk = tracks->begin(); trk < tracks->end(); trk++) {
1520  trkBX = trk->first.BX();
1521  int trkId = (trk->first.endcap() == 2) ? 6 : 0;
1522  trkId += trk->first.sector();
1523  if (verbose_) {
1524  edm::LogInfo("DataNotFound")
1525  << "\n trk BX: " << trkBX << " Sector: " << trkId << " SubSector: " << trk->first.subsector()
1526  << " Endcap: " << trk->first.endcap();
1527 
1528  edm::LogInfo("DataNotFound")
1529  << "\n DT BX: " << stub->BX() << " Sector: " << mbId << " SubSector: " << stub->subsector()
1530  << " Endcap: " << stub->endcap() << endl;
1531  }
1532 
1533  if (mbId == trkId) {
1534  if (verbose_) {
1535  edm::LogInfo("DataNotFound") << " --> MATCH" << endl;
1536  edm::LogInfo("DataNotFound") << "Fill :" << trkBX + 6 - bxDT << " -- " << subDT << " -- cands" << endl;
1537  }
1538  // DT bx ranges from 3 to 9
1539  // trk bx ranges from -3 to 3
1540  DTstubsTimeTrackMenTimeArrival[mbId - 1]->Fill(bxDT - trkBX - 6, subDT); //subsec
1541  }
1542  } // loop on the tracks
1543  } //if (isCSCcand_){
1544  } //if (stub->getKeyWG() == 0) {
1545  }
1546  }
1547 }
MonitorElement * DTstubsTimeTrackMenTimeArrival[12]
Definition: L1TCSCTF.h:162
MonitorElement * csctfoccupancies
Definition: L1TCSCTF.h:78
MonitorElement * csctfTrackEtaHighQ
Definition: L1TCSCTF.h:96
MonitorElement * csctflcts
Definition: L1TCSCTF.h:105
MonitorElement * csctfTrackPhi
Definition: L1TCSCTF.h:93
MonitorElement * csctferrors_mpc
Definition: L1TCSCTF.h:81
MonitorElement * csc_strip_MEminus22
Definition: L1TCSCTF.h:134
bool verbose_
Definition: L1TCSCTF.h:170
unsigned long long m_scalesCacheID
Definition: L1TCSCTF.h:180
MonitorElement * csctfTrackPhi_H
Definition: L1TCSCTF.h:97
MonitorElement * csc_wire_MEplus31
Definition: L1TCSCTF.h:145
MonitorElement * csc_strip_MEplus21
Definition: L1TCSCTF.h:123
edm::ESGetToken< L1MuTriggerScales, L1MuTriggerScalesRcd > l1muTscalesToken_
Definition: L1TCSCTF.h:190
MonitorElement * csc_strip_MEplus11
Definition: L1TCSCTF.h:120
virtual float getLowEdge(unsigned packed) const =0
get the low edge of bin represented by packed
T const * product() const
Definition: Handle.h:70
MonitorElement * csc_wire_MEminus13
Definition: L1TCSCTF.h:152
MonitorElement * csc_wire_MEminus22
Definition: L1TCSCTF.h:154
MonitorElement * me11_lctGblPhi
Definition: L1TCSCTF.h:112
MonitorElement * csc_wire_MEplus12
Definition: L1TCSCTF.h:141
MonitorElement * csc_wire_MEminus31
Definition: L1TCSCTF.h:155
MonitorElement * csctfbx
Definition: L1TCSCTF.h:74
MonitorElement * csc_wire_MEminus32
Definition: L1TCSCTF.h:156
MonitorElement * csctfTrackEtaLowQ
Definition: L1TCSCTF.h:95
edm::InputTag mbProducer
Definition: L1TCSCTF.h:173
std::string const & label() const
Definition: InputTag.h:36
const L1MuScale * getPhiScale() const
get the phi scale
Log< level::Error, false > LogError
MonitorElement * csc_strip_MEminus12
Definition: L1TCSCTF.h:131
MonitorElement * csctfTrackEta
Definition: L1TCSCTF.h:94
MonitorElement * me11_lctWire
Definition: L1TCSCTF.h:109
MonitorElement * csc_strip_MEminus31
Definition: L1TCSCTF.h:135
unsigned long long cacheIdentifier() const
MonitorElement * csc_wire_MEminus21
Definition: L1TCSCTF.h:153
edm::InputTag statusProducer
Definition: L1TCSCTF.h:173
void Fill(long long x)
edm::EDGetTokenT< L1CSCStatusDigiCollection > statusToken_
Definition: L1TCSCTF.h:185
MonitorElement * csctfTrackEta_H
Definition: L1TCSCTF.h:98
MonitorElement * me42_lctGblPhi
Definition: L1TCSCTF.h:116
const L1MuTriggerScales * ts
Definition: L1TCSCTF.h:178
bool gangedME11a_
Definition: L1TCSCTF.h:174
MonitorElement * cscTrackStubNumbers
Definition: L1TCSCTF.h:99
MonitorElement * csc_strip_MEminus32
Definition: L1TCSCTF.h:136
int L1ABXN
Definition: L1TCSCTF.h:166
MonitorElement * me11_lctStrip
Definition: L1TCSCTF.h:108
int BxInEvent_
Definition: L1TCSCTF.h:163
edm::ESGetToken< L1MuTriggerPtScale, L1MuTriggerPtScaleRcd > ptscalesToken_
Definition: L1TCSCTF.h:191
MonitorElement * csc_strip_MEminus42
Definition: L1TCSCTF.h:138
MonitorElement * csc_wire_MEplus41
Definition: L1TCSCTF.h:147
MonitorElement * csc_strip_MEplus13
Definition: L1TCSCTF.h:122
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
MonitorElement * csc_strip_MEplus22
Definition: L1TCSCTF.h:124
int nev_
Definition: L1TCSCTF.h:168
MonitorElement * csc_wire_MEminus41
Definition: L1TCSCTF.h:157
MonitorElement * csctfChamberOccupancies
Definition: L1TCSCTF.h:92
MonitorElement * csc_wire_MEplus13
Definition: L1TCSCTF.h:142
edm::InputTag lctProducer
Definition: L1TCSCTF.h:173
Definition: L1Track.h:19
#define M_PI
MonitorElement * csc_wire_MEplus21
Definition: L1TCSCTF.h:143
edm::EDGetTokenT< L1CSCTrackCollection > tracksToken_
Definition: L1TCSCTF.h:187
MonitorElement * csc_strip_MEminus41
Definition: L1TCSCTF.h:137
Log< level::Info, false > LogInfo
MonitorElement * me42_lctGblEta
Definition: L1TCSCTF.h:117
MonitorElement * csc_strip_MEplus31
Definition: L1TCSCTF.h:125
MonitorElement * csc_wire_MEplus32
Definition: L1TCSCTF.h:146
edm::EDGetTokenT< CSCCorrelatedLCTDigiCollection > corrlctsToken_
Definition: L1TCSCTF.h:186
auto const & tracks
cannot be loose
std::vector< L1MuGMTReadoutRecord > const & getRecords() const
MonitorElement * csctferrors
Definition: L1TCSCTF.h:77
MonitorElement * csc_wire_MEminus42
Definition: L1TCSCTF.h:158
bool isCSCcand_
Definition: L1TCSCTF.h:164
class global_phi_data gblphidat
MonitorElement * csc_strip_MEplus41
Definition: L1TCSCTF.h:127
std::pair< const_iterator, const_iterator > Range
MonitorElement * csctfTrackM
Definition: L1TCSCTF.h:100
edm::EDGetTokenT< L1CSCTrackCollection > mbtracksToken_
Definition: L1TCSCTF.h:189
MonitorElement * csctfbx_H
Definition: L1TCSCTF.h:75
std::vector< DigiType >::const_iterator const_iterator
class local_phi_data lclphidat
Data Types.
static int triggerSubSectorFromLabels(int station, int chamber)
gblphidat globalPhiME(int phi_local, int wire_group, int cscid, const bool gangedME1a=false) const
MonitorElement * csctfntrack
Definition: L1TCSCTF.h:73
edm::InputTag trackProducer
Definition: L1TCSCTF.h:173
edm::EDGetTokenT< L1MuGMTReadoutCollection > gmtProducerToken_
Definition: L1TCSCTF.h:184
bool isValid() const
Definition: HandleBase.h:70
MonitorElement * csc_wire_MEplus42
Definition: L1TCSCTF.h:148
MonitorElement * trackModeVsQ
Definition: L1TCSCTF.h:101
MonitorElement * me11_lctGblEta
Definition: L1TCSCTF.h:113
lclphidat localPhi(int strip, int pattern, int quality, int lr, const bool gangedME1a=false) const
Geometry Lookup Tables.
MonitorElement * csc_strip_MEminus21
Definition: L1TCSCTF.h:133
MonitorElement * csctfoccupancies_H
Definition: L1TCSCTF.h:79
MonitorElement * csc_strip_MEplus32
Definition: L1TCSCTF.h:126
MonitorElement * csc_strip_MEplus12
Definition: L1TCSCTF.h:121
static unsigned int const shift
CSCSectorReceiverLUT * srLUTs_[5][2][6]
Definition: L1TCSCTF.h:176
gbletadat globalEtaME(int phi_bend, int phi_local, int wire_group, int cscid, const bool gangedME1a=false) const
const L1MuTriggerPtScale * tpts
Definition: L1TCSCTF.h:179
MonitorElement * me11_lctLocalPhi
Definition: L1TCSCTF.h:110
MonitorElement * csc_strip_MEminus11
Definition: L1TCSCTF.h:130
MonitorElement * csc_strip_MEminus13
Definition: L1TCSCTF.h:132
unsigned long long m_ptScaleCacheID
Definition: L1TCSCTF.h:181
MonitorElement * csc_wire_MEplus11
Definition: L1TCSCTF.h:140
MonitorElement * csc_wire_MEminus12
Definition: L1TCSCTF.h:151
class global_eta_data gbletadat
int ism(int ieta, int iphi)
Definition: EcalPyUtils.cc:49
MonitorElement * cscWireStripOverflow
Definition: L1TCSCTF.h:82
MonitorElement * csc_strip_MEplus42
Definition: L1TCSCTF.h:128
edm::EDGetTokenT< CSCTriggerContainer< csctf::TrackStub > > dtStubsToken_
Definition: L1TCSCTF.h:188
edm::InputTag gmtProducer
Definition: L1TCSCTF.h:173
MonitorElement * me11_lctPackedPhi
Definition: L1TCSCTF.h:111
MonitorElement * csc_wire_MEplus22
Definition: L1TCSCTF.h:144
MonitorElement * csc_wire_MEminus11
Definition: L1TCSCTF.h:150

◆ bookHistograms()

void L1TCSCTF::bookHistograms ( DQMStore::IBooker ibooker,
edm::Run const &  ,
edm::EventSetup const &   
)
overrideprotectedvirtual

Implements DQMEDAnalyzer.

Definition at line 110 of file L1TCSCTF.cc.

References dqm::implementation::IBooker::book1D(), dqm::implementation::IBooker::book2D(), csc_strip_MEminus11, csc_strip_MEminus12, csc_strip_MEminus13, csc_strip_MEminus21, csc_strip_MEminus22, csc_strip_MEminus31, csc_strip_MEminus32, csc_strip_MEminus41, csc_strip_MEminus42, csc_strip_MEplus11, csc_strip_MEplus12, csc_strip_MEplus13, csc_strip_MEplus21, csc_strip_MEplus22, csc_strip_MEplus31, csc_strip_MEplus32, csc_strip_MEplus41, csc_strip_MEplus42, csc_wire_MEminus11, csc_wire_MEminus12, csc_wire_MEminus13, csc_wire_MEminus21, csc_wire_MEminus22, csc_wire_MEminus31, csc_wire_MEminus32, csc_wire_MEminus41, csc_wire_MEminus42, csc_wire_MEplus11, csc_wire_MEplus12, csc_wire_MEplus13, csc_wire_MEplus21, csc_wire_MEplus22, csc_wire_MEplus31, csc_wire_MEplus32, csc_wire_MEplus41, csc_wire_MEplus42, csctfbx, csctfbx_H, csctfChamberOccupancies, csctferrors, csctferrors_mpc, csctflcts, csctfntrack, csctfoccupancies, csctfoccupancies_H, csctfTrackEta, csctfTrackEta_H, csctfTrackEtaHighQ, csctfTrackEtaLowQ, csctfTrackM, csctfTrackPhi, csctfTrackPhi_H, cscTrackStubNumbers, cscWireStripOverflow, DTstubsTimeTrackMenTimeArrival, dqm::impl::MonitorElement::getTH2F(), mps_fire::i, M_PI, m_ptScaleCacheID, m_scalesCacheID, me11_lctGblEta, me11_lctGblPhi, me11_lctLocalPhi, me11_lctPackedPhi, me11_lctStrip, me11_lctWire, me42_lctGblEta, me42_lctGblPhi, nev_, dqm::impl::MonitorElement::setAxisTitle(), dqm::impl::MonitorElement::setBinLabel(), dqm::implementation::NavigatorBase::setCurrentFolder(), trackModeVsQ, and compareTotals::ytitle.

110  {
111  m_scalesCacheID = -999;
112  m_ptScaleCacheID = -999;
113 
114  nev_ = 0;
115  ibooker.setCurrentFolder("L1T/L1TCSCTF");
116 
117  // Error counting histogram:
118  // 1) checks TF data integrity (error rate - first bin),
119  // 2) monitors sychronization on input links (4 errors types: SE/SM/BX/AF; ORed for all time bins, links, and SPs),
120  // 3) reports FMM status (if in any SP FMM status != "Ready" - fill the last bin)
121  csctferrors = ibooker.book1D("CSCTF_errors", "CSCTF Errors", 6, 0, 6);
122  csctferrors->setAxisTitle("Error type", 1);
123  csctferrors->setAxisTitle("Number of Errors", 2);
124  csctferrors->setBinLabel(1, "Corruptions", 1);
125  csctferrors->setBinLabel(2, "Synch. Err.", 1);
126  csctferrors->setBinLabel(3, "Synch. Mod.", 1);
127  csctferrors->setBinLabel(4, "BX mismatch", 1);
128  csctferrors->setBinLabel(5, "Time misalign.", 1);
129  csctferrors->setBinLabel(6, "FMM != Ready", 1);
130 
131  // Error with detailed MCPID
132  csctferrors_mpc = ibooker.book2D("CSCTF_errors_mpc", "CSCTF Errors", 6, 0, 6, 60, 1, 61);
133  csctferrors_mpc->setAxisTitle("Error type", 1);
134  csctferrors_mpc->setAxisTitle("MPC ID", 2);
135  csctferrors_mpc->setBinLabel(1, "Corruptions", 1);
136  csctferrors_mpc->setBinLabel(2, "Synch. Err.", 1);
137  csctferrors_mpc->setBinLabel(3, "Synch. Mod.", 1);
138  csctferrors_mpc->setBinLabel(4, "BX mismatch", 1);
139  csctferrors_mpc->setBinLabel(5, "Time misalign.", 1);
140  csctferrors_mpc->setBinLabel(6, "FMM != Ready", 1);
141  for (int ybin = 1; ybin <= 60; ybin++) {
142  if (ybin % 5)
143  continue;
144  char ytitle[50];
145  snprintf(ytitle, 50, "%d", ybin);
147  }
148 
149  // Occupancy histogram Eta x Y, where Y:
150  // 1) Phi_packed of input LCTs from 1st, 2nd, 3rd, and 4th stations
151  // 2) Phi_packed of output tracks
152  // (all 12 SPs - 360 degree coveradge)
153  csctfoccupancies = ibooker.book2D("CSCTF_occupancies", "CSCTF Occupancies", 64, -32, 31, 32, 0, 6.2);
154  csctfoccupancies->setAxisTitle("#eta", 1);
155  csctfoccupancies->setAxisTitle("#phi", 2);
156  csctfoccupancies->setBinLabel(1, "-2.5", 1);
157  csctfoccupancies->setBinLabel(8, "-2.1", 1);
158  csctfoccupancies->setBinLabel(18, "-1.6", 1);
159  csctfoccupancies->setBinLabel(26, "-1.2", 1);
160  csctfoccupancies->setBinLabel(32, "-0.9", 1);
161  csctfoccupancies->setBinLabel(33, "0.9", 1);
162  csctfoccupancies->setBinLabel(39, "1.2", 1);
163  csctfoccupancies->setBinLabel(47, "1.6", 1);
164  csctfoccupancies->setBinLabel(57, "2.1", 1);
165  csctfoccupancies->setBinLabel(64, "2.5", 1);
166 
167  // ... and for halo muons only
168  csctfoccupancies_H = ibooker.book2D("CSCTF_occupancies_H", "CSCTF Halo Occupancies", 64, -32, 31, 32, 0, 6.2);
169  csctfoccupancies_H->setAxisTitle("#eta", 1);
170  csctfoccupancies_H->setAxisTitle("#phi", 2);
171  csctfoccupancies_H->setBinLabel(1, "-2.5", 1);
172  csctfoccupancies_H->setBinLabel(8, "-2.1", 1);
173  csctfoccupancies_H->setBinLabel(18, "-1.6", 1);
174  csctfoccupancies_H->setBinLabel(26, "-1.2", 1);
175  csctfoccupancies_H->setBinLabel(32, "-0.9", 1);
176  csctfoccupancies_H->setBinLabel(33, "0.9", 1);
177  csctfoccupancies_H->setBinLabel(39, "1.2", 1);
178  csctfoccupancies_H->setBinLabel(47, "1.6", 1);
179  csctfoccupancies_H->setBinLabel(57, "2.1", 1);
180  csctfoccupancies_H->setBinLabel(64, "2.5", 1);
181 
182  //haloDelEta12 = ibooker.book1D("CSCTF_Halo_Eta12", "#Delta #eta_{12} for Halo Muons", 40, -0.20,0.30);
183  //haloDelEta112 = ibooker.book1D("CSCTF_Halo_Eta112","#Delta #eta_{112} for Halo Muons", 40, -0.20,0.30);
184  //haloDelEta13 = ibooker.book1D("CSCTF_Halo_Eta13", "#Delta #eta_{13} for Halo Muons", 40, -0.20,0.30);
185  //haloDelEta113 = ibooker.book1D("CSCTF_Halo_Eta113","#Delta #eta_{113} for Halo Muons", 40, -0.20,0.30);
186 
187  // Quality VS Mode
188  trackModeVsQ = ibooker.book2D("CSCTF_Track_ModeVsQual", "CSC Track Mode Vs Quality", 19, -0.5, 18.5, 4, 0, 4);
189  trackModeVsQ->setAxisTitle("Track Type", 1);
190  trackModeVsQ->setBinLabel(1, "No Track", 1);
191  trackModeVsQ->setBinLabel(2, "Bad Phi/Single", 1);
192  trackModeVsQ->setBinLabel(3, "ME1-2-3", 1);
193  trackModeVsQ->setBinLabel(4, "ME1-2-4", 1);
194  trackModeVsQ->setBinLabel(5, "ME1-3-4", 1);
195  trackModeVsQ->setBinLabel(6, "ME2-3-4", 1);
196  trackModeVsQ->setBinLabel(7, "ME1-2", 1);
197  trackModeVsQ->setBinLabel(8, "ME1-3", 1);
198  trackModeVsQ->setBinLabel(9, "ME2-3", 1);
199  trackModeVsQ->setBinLabel(10, "ME2-4", 1);
200  trackModeVsQ->setBinLabel(11, "ME3-4", 1);
201  trackModeVsQ->setBinLabel(12, "MB1-ME3", 1);
202  trackModeVsQ->setBinLabel(13, "MB1-ME2", 1);
203  trackModeVsQ->setBinLabel(14, "ME1-4", 1);
204  trackModeVsQ->setBinLabel(15, "MB1-ME1", 1);
205  trackModeVsQ->setBinLabel(16, "Halo Trigger", 1);
206  trackModeVsQ->setBinLabel(17, "MB1-ME1-2", 1);
207  trackModeVsQ->setBinLabel(18, "MB1-ME1-3", 1);
208  trackModeVsQ->setBinLabel(19, "MB1-ME2-3", 1);
209 
210  trackModeVsQ->setAxisTitle("Quality", 2);
211  trackModeVsQ->setBinLabel(1, "0", 2);
212  trackModeVsQ->setBinLabel(2, "1", 2);
213  trackModeVsQ->setBinLabel(3, "2", 2);
214  trackModeVsQ->setBinLabel(4, "3", 2);
215 
216  // Mode
217  csctfTrackM = ibooker.book1D("CSCTF_Track_Mode", "CSC Track Mode", 19, -0.5, 18.5);
218  csctfTrackM->setAxisTitle("Track Type", 1);
219  csctfTrackM->setBinLabel(1, "No Track", 1);
220  csctfTrackM->setBinLabel(2, "Bad Phi/Single", 1);
221  csctfTrackM->setBinLabel(3, "ME1-2-3", 1);
222  csctfTrackM->setBinLabel(4, "ME1-2-4", 1);
223  csctfTrackM->setBinLabel(5, "ME1-3-4", 1);
224  csctfTrackM->setBinLabel(6, "ME2-3-4", 1);
225  csctfTrackM->setBinLabel(7, "ME1-2", 1);
226  csctfTrackM->setBinLabel(8, "ME1-3", 1);
227  csctfTrackM->setBinLabel(9, "ME2-3", 1);
228  csctfTrackM->setBinLabel(10, "ME2-4", 1);
229  csctfTrackM->setBinLabel(11, "ME3-4", 1);
230  csctfTrackM->setBinLabel(12, "MB1-ME3", 1);
231  csctfTrackM->setBinLabel(13, "MB1-ME2", 1);
232  csctfTrackM->setBinLabel(14, "ME1-4", 1);
233  csctfTrackM->setBinLabel(15, "MB1-ME1", 1);
234  csctfTrackM->setBinLabel(16, "Halo Trigger", 1);
235  csctfTrackM->setBinLabel(17, "MB1-ME1-2", 1);
236  csctfTrackM->setBinLabel(18, "MB1-ME1-3", 1);
237  csctfTrackM->setBinLabel(19, "MB1-ME2-3", 1);
238 
239  // Chamber Occupancy
241  ibooker.book2D("CSCTF_Chamber_Occupancies", "CSCTF Chamber Occupancies", 54, -0.05, 5.35, 10, -5.5, 4.5);
242  csctfChamberOccupancies->setAxisTitle("Sector, (chambers 1-9 not labeled)", 1);
243  csctfChamberOccupancies->setBinLabel(1, "ME-4", 2);
244  csctfChamberOccupancies->setBinLabel(2, "ME-3", 2);
245  csctfChamberOccupancies->setBinLabel(3, "ME-2", 2);
246  csctfChamberOccupancies->setBinLabel(4, "ME-1b", 2);
247  csctfChamberOccupancies->setBinLabel(5, "ME-1a", 2);
248  csctfChamberOccupancies->setBinLabel(6, "ME+1a", 2);
249  csctfChamberOccupancies->setBinLabel(7, "ME+1b", 2);
250  csctfChamberOccupancies->setBinLabel(8, "ME+2", 2);
251  csctfChamberOccupancies->setBinLabel(9, "ME+3", 2);
252  csctfChamberOccupancies->setBinLabel(10, "ME+4", 2);
259 
260  // Track Phi
261  csctfTrackPhi = ibooker.book1D("CSCTF_Track_Phi", "CSCTF Track #phi", 144, 0, 2 * M_PI);
262  csctfTrackPhi->setAxisTitle("Track #phi", 1);
263 
264  // Track Eta
265  csctfTrackEta = ibooker.book1D("CSCTF_Track_Eta", "CSCTF Track #eta", 64, -32, 32);
266  csctfTrackEta->setAxisTitle("Track #eta", 1);
267  csctfTrackEta->setBinLabel(1, "-2.5", 1);
268  csctfTrackEta->setBinLabel(8, "-2.1", 1);
269  csctfTrackEta->setBinLabel(18, "-1.6", 1);
270  csctfTrackEta->setBinLabel(26, "-1.2", 1);
271  csctfTrackEta->setBinLabel(32, "-0.9", 1);
272  csctfTrackEta->setBinLabel(33, "0.9", 1);
273  csctfTrackEta->setBinLabel(39, "1.2", 1);
274  csctfTrackEta->setBinLabel(47, "1.6", 1);
275  csctfTrackEta->setBinLabel(57, "2.1", 1);
276  csctfTrackEta->setBinLabel(64, "2.5", 1);
277 
278  // Track Eta Low Quality
279  csctfTrackEtaLowQ = ibooker.book1D("CSCTF_Track_Eta_LowQ", "CSCTF Track #eta LQ", 64, -32, 32);
280  csctfTrackEtaLowQ->setAxisTitle("Track #eta", 1);
281  csctfTrackEtaLowQ->setBinLabel(1, "-2.5", 1);
282  csctfTrackEtaLowQ->setBinLabel(8, "-2.1", 1);
283  csctfTrackEtaLowQ->setBinLabel(18, "-1.6", 1);
284  csctfTrackEtaLowQ->setBinLabel(26, "-1.2", 1);
285  csctfTrackEtaLowQ->setBinLabel(32, "-0.9", 1);
286  csctfTrackEtaLowQ->setBinLabel(33, "0.9", 1);
287  csctfTrackEtaLowQ->setBinLabel(39, "1.2", 1);
288  csctfTrackEtaLowQ->setBinLabel(47, "1.6", 1);
289  csctfTrackEtaLowQ->setBinLabel(57, "2.1", 1);
290  csctfTrackEtaLowQ->setBinLabel(64, "2.5", 1);
291 
292  // Track Eta High Quality
293  csctfTrackEtaHighQ = ibooker.book1D("CSCTF_Track_Eta_HighQ", "CSCTF Track #eta HQ", 64, -32, 32);
294  csctfTrackEtaHighQ->setAxisTitle("Track #eta", 1);
295  csctfTrackEtaHighQ->setBinLabel(1, "-2.5", 1);
296  csctfTrackEtaHighQ->setBinLabel(8, "-2.1", 1);
297  csctfTrackEtaHighQ->setBinLabel(18, "-1.6", 1);
298  csctfTrackEtaHighQ->setBinLabel(26, "-1.2", 1);
299  csctfTrackEtaHighQ->setBinLabel(32, "-0.9", 1);
300  csctfTrackEtaHighQ->setBinLabel(33, "0.9", 1);
301  csctfTrackEtaHighQ->setBinLabel(39, "1.2", 1);
302  csctfTrackEtaHighQ->setBinLabel(47, "1.6", 1);
303  csctfTrackEtaHighQ->setBinLabel(57, "2.1", 1);
304  csctfTrackEtaHighQ->setBinLabel(64, "2.5", 1);
305 
306  // Halo Phi
307  csctfTrackPhi_H = ibooker.book1D("CSCTF_Track_Phi_H", "CSCTF Halo #phi", 144, 0, 2 * M_PI);
308  csctfTrackPhi_H->setAxisTitle("Track #phi", 1);
309 
310  // Halo Eta
311  csctfTrackEta_H = ibooker.book1D("CSCTF_Track_Eta_H", "CSCTF Halo #eta", 64, -32, 32);
312  csctfTrackEta_H->setAxisTitle("Track #eta", 1);
313  csctfTrackEta_H->setBinLabel(1, "-2.5", 1);
314  csctfTrackEta_H->setBinLabel(8, "-2.1", 1);
315  csctfTrackEta_H->setBinLabel(18, "-1.6", 1);
316  csctfTrackEta_H->setBinLabel(26, "-1.2", 1);
317  csctfTrackEta_H->setBinLabel(32, "-0.9", 1);
318  csctfTrackEta_H->setBinLabel(33, "0.9", 1);
319  csctfTrackEta_H->setBinLabel(39, "1.2", 1);
320  csctfTrackEta_H->setBinLabel(47, "1.6", 1);
321  csctfTrackEta_H->setBinLabel(57, "2.1", 1);
322  csctfTrackEta_H->setBinLabel(64, "2.5", 1);
323 
324  // Track Timing
325  csctfbx = ibooker.book2D("CSCTF_bx", "CSCTF BX", 12, 1, 13, 7, -3, 3);
326  csctfbx->setAxisTitle("Sector (Endcap)", 1);
327  csctfbx->setBinLabel(1, " 1 (+)", 1);
328  csctfbx->setBinLabel(2, " 2 (+)", 1);
329  csctfbx->setBinLabel(3, " 3 (+)", 1);
330  csctfbx->setBinLabel(4, " 4 (+)", 1);
331  csctfbx->setBinLabel(5, " 5 (+)", 1);
332  csctfbx->setBinLabel(6, " 6 (+)", 1);
333  csctfbx->setBinLabel(7, " 7 (-)", 1);
334  csctfbx->setBinLabel(8, " 8 (-)", 1);
335  csctfbx->setBinLabel(9, " 9 (-)", 1);
336  csctfbx->setBinLabel(10, "10 (-)", 1);
337  csctfbx->setBinLabel(11, "11 (-)", 1);
338  csctfbx->setBinLabel(12, "12 (-)", 1);
339 
340  csctfbx->setAxisTitle("CSCTF BX", 2);
341  csctfbx->setBinLabel(1, "-3", 2);
342  csctfbx->setBinLabel(2, "-2", 2);
343  csctfbx->setBinLabel(3, "-1", 2);
344  csctfbx->setBinLabel(4, "-0", 2);
345  csctfbx->setBinLabel(5, " 1", 2);
346  csctfbx->setBinLabel(6, " 2", 2);
347  csctfbx->setBinLabel(7, " 3", 2);
348 
349  // Halo Timing
350  csctfbx_H = ibooker.book2D("CSCTF_bx_H", "CSCTF HALO BX", 12, 1, 13, 7, -3, 3);
351  csctfbx_H->setAxisTitle("Sector (Endcap)", 1);
352  csctfbx_H->setBinLabel(1, " 1 (+)", 1);
353  csctfbx_H->setBinLabel(2, " 2 (+)", 1);
354  csctfbx_H->setBinLabel(3, " 3 (+)", 1);
355  csctfbx_H->setBinLabel(4, " 4 (+)", 1);
356  csctfbx_H->setBinLabel(5, " 5 (+)", 1);
357  csctfbx_H->setBinLabel(6, " 6 (+)", 1);
358  csctfbx_H->setBinLabel(7, " 7 (-)", 1);
359  csctfbx_H->setBinLabel(8, " 8 (-)", 1);
360  csctfbx_H->setBinLabel(9, " 9 (-)", 1);
361  csctfbx_H->setBinLabel(10, "10 (-)", 1);
362  csctfbx_H->setBinLabel(11, "11 (-)", 1);
363  csctfbx_H->setBinLabel(12, "12 (-)", 1);
364 
365  csctfbx_H->setAxisTitle("CSCTF BX", 2);
366  csctfbx_H->setBinLabel(1, "-3", 2);
367  csctfbx_H->setBinLabel(2, "-2", 2);
368  csctfbx_H->setBinLabel(3, "-1", 2);
369  csctfbx_H->setBinLabel(4, "-0", 2);
370  csctfbx_H->setBinLabel(5, " 1", 2);
371  csctfbx_H->setBinLabel(6, " 2", 2);
372  csctfbx_H->setBinLabel(7, " 3", 2);
373 
374  // Number of Tracks Stubs
375  cscTrackStubNumbers = ibooker.book1D("CSCTF_TrackStubs", "Number of Stubs in CSCTF Tracks", 5, 0, 5);
376  cscTrackStubNumbers->setBinLabel(1, "0", 1);
377  cscTrackStubNumbers->setBinLabel(2, "1", 1);
378  cscTrackStubNumbers->setBinLabel(3, "2", 1);
379  cscTrackStubNumbers->setBinLabel(4, "3", 1);
380  cscTrackStubNumbers->setBinLabel(5, "4", 1);
381 
382  // Number of Tracks
383  csctfntrack = ibooker.book1D("CSCTF_ntrack", "Number of CSCTracks found per event", 5, 0, 5);
384  csctfntrack->setBinLabel(1, "0", 1);
385  csctfntrack->setBinLabel(2, "1", 1);
386  csctfntrack->setBinLabel(3, "2", 1);
387  csctfntrack->setBinLabel(4, "3", 1);
388  csctfntrack->setBinLabel(5, "4", 1);
389  //}
390 
391  char hname[200];
392  char htitle[200];
393 
394  for (int i = 0; i < 12; i++) {
395  sprintf(hname, "DTstubsTimeTrackMenTimeArrival_%d", i + 1);
396  sprintf(htitle, "T_{track} - T_{DT stub} sector %d", i + 1);
397 
398  DTstubsTimeTrackMenTimeArrival[i] = ibooker.book2D(hname, htitle, 7, -3, 3, 2, 1, 3);
399  DTstubsTimeTrackMenTimeArrival[i]->getTH2F()->SetMinimum(0);
400 
401  // axis makeup
402  DTstubsTimeTrackMenTimeArrival[i]->setAxisTitle("bx_{CSC track} - bx_{DT stub}", 1);
404 
412 
415  }
416 
417  cscWireStripOverflow = ibooker.book2D("CSC_WireStripOverflow", "CSC WireStrip Overflow", 36, 1, 37, 18, 0, 18);
418 
419  // NEW: CSC EVENT LCT PLOTS
420  csctflcts = ibooker.book2D("CSCTF_LCT", "CSCTF LCTs", 12, 1, 13, 18, 0, 18);
421  csctflcts->setAxisTitle("CSCTF LCT BX", 1);
422  csctflcts->setBinLabel(1, "1", 1);
423  csctflcts->setBinLabel(2, "2", 1);
424  csctflcts->setBinLabel(3, "3", 1);
425  csctflcts->setBinLabel(4, "4", 1);
426  csctflcts->setBinLabel(5, "5", 1);
427  csctflcts->setBinLabel(6, "6", 1);
428  csctflcts->setBinLabel(7, "7", 1);
429  csctflcts->setBinLabel(8, "8", 1);
430  csctflcts->setBinLabel(9, "9", 1);
431  csctflcts->setBinLabel(10, "10", 1);
432  csctflcts->setBinLabel(11, "11", 1);
433  csctflcts->setBinLabel(12, "12", 1);
434 
435  int ihist = 0;
436  for (int iEndcap = 0; iEndcap < 2; iEndcap++) {
437  for (int iStation = 1; iStation < 5; iStation++) {
438  for (int iRing = 1; iRing < 4; iRing++) {
439  if (iStation != 1 && iRing > 2)
440  continue;
441  TString signEndcap = "+";
442  if (iEndcap == 0)
443  signEndcap = "-";
444 
445  char lcttitle[200];
446  snprintf(lcttitle, 200, "ME%s%d/%d", signEndcap.Data(), iStation, iRing);
447  if (ihist <= 8) {
448  csctflcts->setBinLabel(9 - ihist, lcttitle, 2);
449  cscWireStripOverflow->setBinLabel(9 - ihist, lcttitle, 2);
450  } else {
451  csctflcts->setBinLabel(ihist + 1, lcttitle, 2);
452  cscWireStripOverflow->setBinLabel(ihist + 1, lcttitle, 2);
453  }
454 
455  ihist++;
456  }
457  }
458  }
459 
460  // plots for ME1/1 chambers
461  me11_lctStrip = ibooker.book1D("CSC_ME11_LCT_Strip", "CSC_ME11_LCT_Strip", 223, 0, 223);
462  me11_lctStrip->setAxisTitle("Cathode HalfStrip, ME1/1", 1);
463 
464  me11_lctWire = ibooker.book1D("CSC_ME11_LCT_Wire", "CSC_ME11_LCT_Wire", 112, 0, 112);
465  me11_lctWire->setAxisTitle("Anode Wiregroup, ME1/1", 1);
466 
467  me11_lctLocalPhi = ibooker.book1D("CSC_ME11_LCT_LocalPhi", "CSC_ME11_LCT_LocalPhi", 200, 0, 1024);
468  me11_lctLocalPhi->setAxisTitle("LCT Local #it{#phi}, ME1/1", 1);
469 
470  me11_lctPackedPhi = ibooker.book1D("CSC_ME11_LCT_PackedPhi", "CSC_ME11_LCT_PackedPhi", 200, 0, 4096);
471  me11_lctPackedPhi->setAxisTitle("LCT Packed #it{#phi}, ME1/1", 1);
472 
473  me11_lctGblPhi = ibooker.book1D("CSC_ME11_LCT_GblPhi", "CSC_ME11_LCT_GblPhi", 200, 0, 2 * M_PI);
474  me11_lctGblPhi->setAxisTitle("LCT Global #it{#phi}, ME1/1", 1);
475 
476  me11_lctGblEta = ibooker.book1D("CSC_ME11_LCT_GblEta", "CSC_ME11_LCT_GblEta", 50, 0.9, 2.5);
477  me11_lctGblEta->setAxisTitle("LCT Global #eta, ME1/1", 1);
478 
479  // plots for ME4/2 chambers
480  me42_lctGblPhi = ibooker.book1D("CSC_ME42_LCT_GblPhi", "CSC_ME42_LCT_GblPhi", 200, 0, 2 * M_PI);
481  me42_lctGblPhi->setAxisTitle("LCT Global #it{#phi}, ME4/2", 1);
482 
483  me42_lctGblEta = ibooker.book1D("CSC_ME42_LCT_GblEta", "CSC_ME42_LCT_GblEta", 50, 0.9, 2.5);
484  me42_lctGblEta->setAxisTitle("LCT Global #eta, ME4/2", 1);
485 
486  //
487  csc_strip_MEplus11 = ibooker.book2D("csc_strip_MEplus11", "csc_strip_MEplus11", 36, 1, 37, 240, 0, 240);
488  csc_strip_MEplus11->setAxisTitle("Cathode HalfStrip", 2);
489  csc_strip_MEplus11->setAxisTitle("ME+1/1", 1);
490  csc_strip_MEplus12 = ibooker.book2D("csc_strip_MEplus12", "csc_strip_MEplus12", 36, 1, 37, 240, 0, 240);
491  csc_strip_MEplus12->setAxisTitle("Cathode HalfStrip", 2);
492  csc_strip_MEplus12->setAxisTitle("ME+1/2", 1);
493  csc_strip_MEplus13 = ibooker.book2D("csc_strip_MEplus13", "csc_strip_MEplus13", 36, 1, 37, 240, 0, 240);
494  csc_strip_MEplus13->setAxisTitle("Cathode HalfStrip", 2);
495  csc_strip_MEplus13->setAxisTitle("ME+1/3", 1);
496  csc_strip_MEplus21 = ibooker.book2D("csc_strip_MEplus21", "csc_strip_MEplus21", 18, 1, 19, 240, 0, 240);
497  csc_strip_MEplus21->setAxisTitle("Cathode HalfStrip", 2);
498  csc_strip_MEplus21->setAxisTitle("ME+2/1", 1);
499  csc_strip_MEplus22 = ibooker.book2D("csc_strip_MEplus22", "csc_strip_MEplus22", 36, 1, 37, 240, 0, 240);
500  csc_strip_MEplus22->setAxisTitle("Cathode HalfStrip", 2);
501  csc_strip_MEplus22->setAxisTitle("ME+2/2", 1);
502  csc_strip_MEplus31 = ibooker.book2D("csc_strip_MEplus31", "csc_strip_MEplus31", 18, 1, 19, 240, 0, 240);
503  csc_strip_MEplus31->setAxisTitle("Cathode HalfStrip", 2);
504  csc_strip_MEplus31->setAxisTitle("ME+3/1", 1);
505  csc_strip_MEplus32 = ibooker.book2D("csc_strip_MEplus32", "csc_strip_MEplus32", 36, 1, 37, 240, 0, 240);
506  csc_strip_MEplus32->setAxisTitle("Cathode HalfStrip", 2);
507  csc_strip_MEplus32->setAxisTitle("ME+3/2", 1);
508  csc_strip_MEplus41 = ibooker.book2D("csc_strip_MEplus41", "csc_strip_MEplus41", 18, 1, 19, 240, 0, 240);
509  csc_strip_MEplus41->setAxisTitle("Cathode HalfStrip", 2);
510  csc_strip_MEplus41->setAxisTitle("ME+4/1", 1);
511  csc_strip_MEplus42 = ibooker.book2D("csc_strip_MEplus42", "csc_strip_MEplus42", 36, 1, 37, 240, 0, 240);
512  csc_strip_MEplus42->setAxisTitle("Cathode HalfStrip", 2);
513  csc_strip_MEplus42->setAxisTitle("ME+4/2", 1);
514 
515  csc_strip_MEminus11 = ibooker.book2D("csc_strip_MEminus11", "csc_strip_MEminus11", 36, 1, 37, 240, 0, 240);
516  csc_strip_MEminus11->setAxisTitle("Cathode HalfStrip", 2);
517  csc_strip_MEminus11->setAxisTitle("ME-1/1", 1);
518  csc_strip_MEminus12 = ibooker.book2D("csc_strip_MEminus12", "csc_strip_MEminus12", 36, 1, 37, 240, 0, 240);
519  csc_strip_MEminus12->setAxisTitle("Cathode HalfStrip", 2);
520  csc_strip_MEminus12->setAxisTitle("ME-1/2", 1);
521  csc_strip_MEminus13 = ibooker.book2D("csc_strip_MEminus13", "csc_strip_MEminus13", 36, 1, 37, 240, 0, 240);
522  csc_strip_MEminus13->setAxisTitle("Cathode HalfStrip", 2);
523  csc_strip_MEminus13->setAxisTitle("ME-1/3", 1);
524  csc_strip_MEminus21 = ibooker.book2D("csc_strip_MEminus21", "csc_strip_MEminus21", 18, 1, 19, 240, 0, 240);
525  csc_strip_MEminus21->setAxisTitle("Cathode HalfStrip", 2);
526  csc_strip_MEminus21->setAxisTitle("ME-2/1", 1);
527  csc_strip_MEminus22 = ibooker.book2D("csc_strip_MEminus22", "csc_strip_MEminus22", 36, 1, 37, 240, 0, 240);
528  csc_strip_MEminus22->setAxisTitle("Cathode HalfStrip", 2);
529  csc_strip_MEminus22->setAxisTitle("ME-2/2", 1);
530  csc_strip_MEminus31 = ibooker.book2D("csc_strip_MEminus31", "csc_strip_MEminus31", 18, 1, 19, 240, 0, 240);
531  csc_strip_MEminus31->setAxisTitle("Cathode HalfStrip", 2);
532  csc_strip_MEminus31->setAxisTitle("ME-3/1", 1);
533  csc_strip_MEminus32 = ibooker.book2D("csc_strip_MEminus32", "csc_strip_MEminus32", 36, 1, 37, 240, 0, 240);
534  csc_strip_MEminus32->setAxisTitle("Cathode HalfStrip", 2);
535  csc_strip_MEminus32->setAxisTitle("ME-3/2", 1);
536  csc_strip_MEminus41 = ibooker.book2D("csc_strip_MEminus41", "csc_strip_MEminus41", 18, 1, 19, 240, 0, 240);
537  csc_strip_MEminus41->setAxisTitle("Cathode HalfStrip", 2);
538  csc_strip_MEminus41->setAxisTitle("ME-4/1", 1);
539  csc_strip_MEminus42 = ibooker.book2D("csc_strip_MEminus42", "csc_strip_MEminus42", 36, 1, 37, 240, 0, 240);
540  csc_strip_MEminus42->setAxisTitle("Cathode HalfStrip", 2);
541  csc_strip_MEminus42->setAxisTitle("ME-4/2", 1);
542 
543  csc_wire_MEplus11 = ibooker.book2D("csc_wire_MEplus11", "csc_wire_MEplus11", 36, 1, 37, 120, 0, 120);
544  csc_wire_MEplus11->setAxisTitle("Anode Wiregroup", 2);
545  csc_wire_MEplus11->setAxisTitle("ME+1/1", 1);
546  csc_wire_MEplus12 = ibooker.book2D("csc_wire_MEplus12", "csc_wire_MEplus12", 36, 1, 37, 120, 0, 120);
547  csc_wire_MEplus12->setAxisTitle("Anode Wiregroup", 2);
548  csc_wire_MEplus12->setAxisTitle("ME+1/2", 1);
549  csc_wire_MEplus13 = ibooker.book2D("csc_wire_MEplus13", "csc_wire_MEplus13", 36, 1, 37, 120, 0, 120);
550  csc_wire_MEplus13->setAxisTitle("Anode Wiregroup", 2);
551  csc_wire_MEplus13->setAxisTitle("ME+1/3", 1);
552  csc_wire_MEplus21 = ibooker.book2D("csc_wire_MEplus21", "csc_wire_MEplus21", 18, 1, 19, 120, 0, 120);
553  csc_wire_MEplus21->setAxisTitle("Anode Wiregroup", 2);
554  csc_wire_MEplus21->setAxisTitle("ME+2/1", 1);
555  csc_wire_MEplus22 = ibooker.book2D("csc_wire_MEplus22", "csc_wire_MEplus22", 36, 1, 37, 120, 0, 120);
556  csc_wire_MEplus22->setAxisTitle("Anode Wiregroup", 2);
557  csc_wire_MEplus22->setAxisTitle("ME+2/2", 1);
558  csc_wire_MEplus31 = ibooker.book2D("csc_wire_MEplus31", "csc_wire_MEplus31", 18, 1, 19, 120, 0, 120);
559  csc_wire_MEplus31->setAxisTitle("Anode Wiregroup", 2);
560  csc_wire_MEplus31->setAxisTitle("ME+3/1", 1);
561  csc_wire_MEplus32 = ibooker.book2D("csc_wire_MEplus32", "csc_wire_MEplus32", 36, 1, 37, 120, 0, 120);
562  csc_wire_MEplus32->setAxisTitle("Anode Wiregroup", 2);
563  csc_wire_MEplus32->setAxisTitle("ME+3/2", 1);
564  csc_wire_MEplus41 = ibooker.book2D("csc_wire_MEplus41", "csc_wire_MEplus41", 18, 1, 19, 120, 0, 120);
565  csc_wire_MEplus41->setAxisTitle("Anode Wiregroup", 2);
566  csc_wire_MEplus41->setAxisTitle("ME+4/1", 1);
567  csc_wire_MEplus42 = ibooker.book2D("csc_wire_MEplus42", "csc_wire_MEplus42", 36, 1, 37, 120, 0, 120);
568  csc_wire_MEplus42->setAxisTitle("Anode Wiregroup", 2);
569  csc_wire_MEplus42->setAxisTitle("ME+4/2", 1);
570 
571  csc_wire_MEminus11 = ibooker.book2D("csc_wire_MEminus11", "csc_wire_MEminus11", 36, 1, 37, 120, 0, 120);
572  csc_wire_MEminus11->setAxisTitle("Anode Wiregroup", 2);
573  csc_wire_MEminus11->setAxisTitle("ME-1/1", 1);
574  csc_wire_MEminus12 = ibooker.book2D("csc_wire_MEminus12", "csc_wire_MEminus12", 36, 1, 37, 120, 0, 120);
575  csc_wire_MEminus12->setAxisTitle("Anode Wiregroup", 2);
576  csc_wire_MEminus12->setAxisTitle("ME-1/2", 1);
577  csc_wire_MEminus13 = ibooker.book2D("csc_wire_MEminus13", "csc_wire_MEminus13", 36, 1, 37, 120, 0, 120);
578  csc_wire_MEminus13->setAxisTitle("Anode Wiregroup", 2);
579  csc_wire_MEminus13->setAxisTitle("ME-1/3", 1);
580  csc_wire_MEminus21 = ibooker.book2D("csc_wire_MEminus21", "csc_wire_MEminus21", 18, 1, 19, 120, 0, 120);
581  csc_wire_MEminus21->setAxisTitle("Anode Wiregroup", 2);
582  csc_wire_MEminus21->setAxisTitle("ME-2/1", 1);
583  csc_wire_MEminus22 = ibooker.book2D("csc_wire_MEminus22", "csc_wire_MEminus22", 36, 1, 37, 120, 0, 120);
584  csc_wire_MEminus22->setAxisTitle("Anode Wiregroup", 2);
585  csc_wire_MEminus22->setAxisTitle("ME-2/2", 1);
586  csc_wire_MEminus31 = ibooker.book2D("csc_wire_MEminus31", "csc_wire_MEminus31", 18, 1, 19, 120, 0, 120);
587  csc_wire_MEminus31->setAxisTitle("Anode Wiregroup", 2);
588  csc_wire_MEminus31->setAxisTitle("ME-3/1", 1);
589  csc_wire_MEminus32 = ibooker.book2D("csc_wire_MEminus32", "csc_wire_MEminus32", 36, 1, 37, 120, 0, 120);
590  csc_wire_MEminus32->setAxisTitle("Anode Wiregroup", 2);
591  csc_wire_MEminus32->setAxisTitle("ME-3/2", 1);
592  csc_wire_MEminus41 = ibooker.book2D("csc_wire_MEminus41", "csc_wire_MEminus41", 18, 1, 19, 120, 0, 120);
593  csc_wire_MEminus41->setAxisTitle("Anode Wiregroup", 2);
594  csc_wire_MEminus41->setAxisTitle("ME-4/1", 1);
595  csc_wire_MEminus42 = ibooker.book2D("csc_wire_MEminus42", "csc_wire_MEminus42", 36, 1, 37, 120, 0, 120);
596  csc_wire_MEminus42->setAxisTitle("Anode Wiregroup", 2);
597  csc_wire_MEminus42->setAxisTitle("ME-4/2", 1);
598 
599  for (int cscid = 1; cscid < 37; cscid++) {
600  char bxtitle[100];
601  sprintf(bxtitle, "%d", cscid);
602 
603  cscWireStripOverflow->setBinLabel(cscid, bxtitle, 1);
604  csc_strip_MEplus11->setBinLabel(cscid, bxtitle, 1);
605  csc_strip_MEplus12->setBinLabel(cscid, bxtitle, 1);
606  csc_strip_MEplus13->setBinLabel(cscid, bxtitle, 1);
607  csc_strip_MEplus22->setBinLabel(cscid, bxtitle, 1);
608  csc_strip_MEplus32->setBinLabel(cscid, bxtitle, 1);
609  csc_strip_MEplus42->setBinLabel(cscid, bxtitle, 1);
610 
611  csc_strip_MEminus11->setBinLabel(cscid, bxtitle, 1);
612  csc_strip_MEminus12->setBinLabel(cscid, bxtitle, 1);
613  csc_strip_MEminus13->setBinLabel(cscid, bxtitle, 1);
614  csc_strip_MEminus22->setBinLabel(cscid, bxtitle, 1);
615  csc_strip_MEminus32->setBinLabel(cscid, bxtitle, 1);
616  csc_strip_MEminus42->setBinLabel(cscid, bxtitle, 1);
617 
618  csc_wire_MEplus11->setBinLabel(cscid, bxtitle, 1);
619  csc_wire_MEplus12->setBinLabel(cscid, bxtitle, 1);
620  csc_wire_MEplus13->setBinLabel(cscid, bxtitle, 1);
621  csc_wire_MEplus22->setBinLabel(cscid, bxtitle, 1);
622  csc_wire_MEplus32->setBinLabel(cscid, bxtitle, 1);
623  csc_wire_MEplus42->setBinLabel(cscid, bxtitle, 1);
624 
625  csc_wire_MEminus11->setBinLabel(cscid, bxtitle, 1);
626  csc_wire_MEminus12->setBinLabel(cscid, bxtitle, 1);
627  csc_wire_MEminus13->setBinLabel(cscid, bxtitle, 1);
628  csc_wire_MEminus22->setBinLabel(cscid, bxtitle, 1);
629  csc_wire_MEminus32->setBinLabel(cscid, bxtitle, 1);
630  csc_wire_MEminus42->setBinLabel(cscid, bxtitle, 1);
631  }
632 
633  for (int cscid = 1; cscid < 19; cscid++) {
634  char bxtitle[100];
635  sprintf(bxtitle, "%d", cscid);
636 
637  csc_strip_MEplus21->setBinLabel(cscid, bxtitle, 1);
638  csc_strip_MEplus31->setBinLabel(cscid, bxtitle, 1);
639  csc_strip_MEplus41->setBinLabel(cscid, bxtitle, 1);
640 
641  csc_strip_MEminus21->setBinLabel(cscid, bxtitle, 1);
642  csc_strip_MEminus31->setBinLabel(cscid, bxtitle, 1);
643  csc_strip_MEminus41->setBinLabel(cscid, bxtitle, 1);
644 
645  csc_wire_MEplus21->setBinLabel(cscid, bxtitle, 1);
646  csc_wire_MEplus31->setBinLabel(cscid, bxtitle, 1);
647  csc_wire_MEplus41->setBinLabel(cscid, bxtitle, 1);
648 
649  csc_wire_MEminus21->setBinLabel(cscid, bxtitle, 1);
650  csc_wire_MEminus31->setBinLabel(cscid, bxtitle, 1);
651  csc_wire_MEminus41->setBinLabel(cscid, bxtitle, 1);
652  }
653 }
MonitorElement * DTstubsTimeTrackMenTimeArrival[12]
Definition: L1TCSCTF.h:162
MonitorElement * csctfoccupancies
Definition: L1TCSCTF.h:78
MonitorElement * csctfTrackEtaHighQ
Definition: L1TCSCTF.h:96
MonitorElement * csctflcts
Definition: L1TCSCTF.h:105
MonitorElement * csctfTrackPhi
Definition: L1TCSCTF.h:93
MonitorElement * csctferrors_mpc
Definition: L1TCSCTF.h:81
MonitorElement * csc_strip_MEminus22
Definition: L1TCSCTF.h:134
unsigned long long m_scalesCacheID
Definition: L1TCSCTF.h:180
MonitorElement * csctfTrackPhi_H
Definition: L1TCSCTF.h:97
virtual void setCurrentFolder(std::string const &fullpath)
Definition: DQMStore.cc:32
MonitorElement * csc_wire_MEplus31
Definition: L1TCSCTF.h:145
MonitorElement * csc_strip_MEplus21
Definition: L1TCSCTF.h:123
MonitorElement * csc_strip_MEplus11
Definition: L1TCSCTF.h:120
MonitorElement * csc_wire_MEminus13
Definition: L1TCSCTF.h:152
MonitorElement * csc_wire_MEminus22
Definition: L1TCSCTF.h:154
MonitorElement * me11_lctGblPhi
Definition: L1TCSCTF.h:112
MonitorElement * csc_wire_MEplus12
Definition: L1TCSCTF.h:141
MonitorElement * csc_wire_MEminus31
Definition: L1TCSCTF.h:155
MonitorElement * csctfbx
Definition: L1TCSCTF.h:74
MonitorElement * csc_wire_MEminus32
Definition: L1TCSCTF.h:156
MonitorElement * csctfTrackEtaLowQ
Definition: L1TCSCTF.h:95
MonitorElement * csc_strip_MEminus12
Definition: L1TCSCTF.h:131
MonitorElement * csctfTrackEta
Definition: L1TCSCTF.h:94
MonitorElement * me11_lctWire
Definition: L1TCSCTF.h:109
MonitorElement * csc_strip_MEminus31
Definition: L1TCSCTF.h:135
MonitorElement * csc_wire_MEminus21
Definition: L1TCSCTF.h:153
MonitorElement * csctfTrackEta_H
Definition: L1TCSCTF.h:98
MonitorElement * me42_lctGblPhi
Definition: L1TCSCTF.h:116
MonitorElement * cscTrackStubNumbers
Definition: L1TCSCTF.h:99
MonitorElement * csc_strip_MEminus32
Definition: L1TCSCTF.h:136
MonitorElement * me11_lctStrip
Definition: L1TCSCTF.h:108
MonitorElement * csc_strip_MEminus42
Definition: L1TCSCTF.h:138
MonitorElement * csc_wire_MEplus41
Definition: L1TCSCTF.h:147
MonitorElement * csc_strip_MEplus13
Definition: L1TCSCTF.h:122
MonitorElement * csc_strip_MEplus22
Definition: L1TCSCTF.h:124
int nev_
Definition: L1TCSCTF.h:168
MonitorElement * csc_wire_MEminus41
Definition: L1TCSCTF.h:157
MonitorElement * csctfChamberOccupancies
Definition: L1TCSCTF.h:92
virtual void setBinLabel(int bin, const std::string &label, int axis=1)
set bin label for x, y or z axis (axis=1, 2, 3 respectively)
MonitorElement * csc_wire_MEplus13
Definition: L1TCSCTF.h:142
#define M_PI
MonitorElement * csc_wire_MEplus21
Definition: L1TCSCTF.h:143
MonitorElement * csc_strip_MEminus41
Definition: L1TCSCTF.h:137
MonitorElement * me42_lctGblEta
Definition: L1TCSCTF.h:117
MonitorElement * csc_strip_MEplus31
Definition: L1TCSCTF.h:125
MonitorElement * csc_wire_MEplus32
Definition: L1TCSCTF.h:146
MonitorElement * csctferrors
Definition: L1TCSCTF.h:77
MonitorElement * csc_wire_MEminus42
Definition: L1TCSCTF.h:158
MonitorElement * csc_strip_MEplus41
Definition: L1TCSCTF.h:127
MonitorElement * csctfTrackM
Definition: L1TCSCTF.h:100
MonitorElement * book2D(TString const &name, TString const &title, int nchX, double lowX, double highX, int nchY, double lowY, double highY, FUNC onbooking=NOOP())
Definition: DQMStore.h:212
MonitorElement * csctfbx_H
Definition: L1TCSCTF.h:75
MonitorElement * csctfntrack
Definition: L1TCSCTF.h:73
MonitorElement * csc_wire_MEplus42
Definition: L1TCSCTF.h:148
MonitorElement * trackModeVsQ
Definition: L1TCSCTF.h:101
MonitorElement * me11_lctGblEta
Definition: L1TCSCTF.h:113
MonitorElement * csc_strip_MEminus21
Definition: L1TCSCTF.h:133
MonitorElement * csctfoccupancies_H
Definition: L1TCSCTF.h:79
MonitorElement * csc_strip_MEplus32
Definition: L1TCSCTF.h:126
MonitorElement * csc_strip_MEplus12
Definition: L1TCSCTF.h:121
MonitorElement * me11_lctLocalPhi
Definition: L1TCSCTF.h:110
MonitorElement * csc_strip_MEminus11
Definition: L1TCSCTF.h:130
MonitorElement * csc_strip_MEminus13
Definition: L1TCSCTF.h:132
unsigned long long m_ptScaleCacheID
Definition: L1TCSCTF.h:181
MonitorElement * csc_wire_MEplus11
Definition: L1TCSCTF.h:140
MonitorElement * book1D(TString const &name, TString const &title, int const nchX, double const lowX, double const highX, FUNC onbooking=NOOP())
Definition: DQMStore.h:98
MonitorElement * csc_wire_MEminus12
Definition: L1TCSCTF.h:151
MonitorElement * cscWireStripOverflow
Definition: L1TCSCTF.h:82
MonitorElement * csc_strip_MEplus42
Definition: L1TCSCTF.h:128
MonitorElement * me11_lctPackedPhi
Definition: L1TCSCTF.h:111
MonitorElement * csc_wire_MEplus22
Definition: L1TCSCTF.h:144
MonitorElement * csc_wire_MEminus11
Definition: L1TCSCTF.h:150
virtual void setAxisTitle(const std::string &title, int axis=1)
set x-, y- or z-axis title (axis=1, 2, 3 respectively)

Member Data Documentation

◆ BxInEvent_

int L1TCSCTF::BxInEvent_
private

Definition at line 163 of file L1TCSCTF.h.

Referenced by analyze().

◆ corrlctsToken_

edm::EDGetTokenT<CSCCorrelatedLCTDigiCollection> L1TCSCTF::corrlctsToken_
private

Definition at line 186 of file L1TCSCTF.h.

Referenced by analyze(), and L1TCSCTF().

◆ csc_strip_MEminus11

MonitorElement* L1TCSCTF::csc_strip_MEminus11
private

Definition at line 130 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csc_strip_MEminus12

MonitorElement* L1TCSCTF::csc_strip_MEminus12
private

Definition at line 131 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csc_strip_MEminus13

MonitorElement* L1TCSCTF::csc_strip_MEminus13
private

Definition at line 132 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csc_strip_MEminus21

MonitorElement* L1TCSCTF::csc_strip_MEminus21
private

Definition at line 133 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csc_strip_MEminus22

MonitorElement* L1TCSCTF::csc_strip_MEminus22
private

Definition at line 134 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csc_strip_MEminus31

MonitorElement* L1TCSCTF::csc_strip_MEminus31
private

Definition at line 135 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csc_strip_MEminus32

MonitorElement* L1TCSCTF::csc_strip_MEminus32
private

Definition at line 136 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csc_strip_MEminus41

MonitorElement* L1TCSCTF::csc_strip_MEminus41
private

Definition at line 137 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csc_strip_MEminus42

MonitorElement* L1TCSCTF::csc_strip_MEminus42
private

Definition at line 138 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csc_strip_MEplus11

MonitorElement* L1TCSCTF::csc_strip_MEplus11
private

Definition at line 120 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csc_strip_MEplus12

MonitorElement* L1TCSCTF::csc_strip_MEplus12
private

Definition at line 121 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csc_strip_MEplus13

MonitorElement* L1TCSCTF::csc_strip_MEplus13
private

Definition at line 122 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csc_strip_MEplus21

MonitorElement* L1TCSCTF::csc_strip_MEplus21
private

Definition at line 123 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csc_strip_MEplus22

MonitorElement* L1TCSCTF::csc_strip_MEplus22
private

Definition at line 124 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csc_strip_MEplus31

MonitorElement* L1TCSCTF::csc_strip_MEplus31
private

Definition at line 125 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csc_strip_MEplus32

MonitorElement* L1TCSCTF::csc_strip_MEplus32
private

Definition at line 126 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csc_strip_MEplus41

MonitorElement* L1TCSCTF::csc_strip_MEplus41
private

Definition at line 127 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csc_strip_MEplus42

MonitorElement* L1TCSCTF::csc_strip_MEplus42
private

Definition at line 128 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csc_wire_MEminus11

MonitorElement* L1TCSCTF::csc_wire_MEminus11
private

Definition at line 150 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csc_wire_MEminus12

MonitorElement* L1TCSCTF::csc_wire_MEminus12
private

Definition at line 151 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csc_wire_MEminus13

MonitorElement* L1TCSCTF::csc_wire_MEminus13
private

Definition at line 152 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csc_wire_MEminus21

MonitorElement* L1TCSCTF::csc_wire_MEminus21
private

Definition at line 153 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csc_wire_MEminus22

MonitorElement* L1TCSCTF::csc_wire_MEminus22
private

Definition at line 154 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csc_wire_MEminus31

MonitorElement* L1TCSCTF::csc_wire_MEminus31
private

Definition at line 155 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csc_wire_MEminus32

MonitorElement* L1TCSCTF::csc_wire_MEminus32
private

Definition at line 156 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csc_wire_MEminus41

MonitorElement* L1TCSCTF::csc_wire_MEminus41
private

Definition at line 157 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csc_wire_MEminus42

MonitorElement* L1TCSCTF::csc_wire_MEminus42
private

Definition at line 158 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csc_wire_MEplus11

MonitorElement* L1TCSCTF::csc_wire_MEplus11
private

Definition at line 140 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csc_wire_MEplus12

MonitorElement* L1TCSCTF::csc_wire_MEplus12
private

Definition at line 141 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csc_wire_MEplus13

MonitorElement* L1TCSCTF::csc_wire_MEplus13
private

Definition at line 142 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csc_wire_MEplus21

MonitorElement* L1TCSCTF::csc_wire_MEplus21
private

Definition at line 143 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csc_wire_MEplus22

MonitorElement* L1TCSCTF::csc_wire_MEplus22
private

Definition at line 144 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csc_wire_MEplus31

MonitorElement* L1TCSCTF::csc_wire_MEplus31
private

Definition at line 145 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csc_wire_MEplus32

MonitorElement* L1TCSCTF::csc_wire_MEplus32
private

Definition at line 146 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csc_wire_MEplus41

MonitorElement* L1TCSCTF::csc_wire_MEplus41
private

Definition at line 147 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csc_wire_MEplus42

MonitorElement* L1TCSCTF::csc_wire_MEplus42
private

Definition at line 148 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csctfAFerror

MonitorElement* L1TCSCTF::csctfAFerror
private

Definition at line 102 of file L1TCSCTF.h.

◆ csctfbx

MonitorElement* L1TCSCTF::csctfbx
private

Definition at line 74 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csctfbx_H

MonitorElement* L1TCSCTF::csctfbx_H
private

Definition at line 75 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csctfChamberOccupancies

MonitorElement* L1TCSCTF::csctfChamberOccupancies
private

Definition at line 92 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csctferrors

MonitorElement* L1TCSCTF::csctferrors
private

Definition at line 77 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csctferrors_mpc

MonitorElement* L1TCSCTF::csctferrors_mpc
private

Definition at line 81 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csctflcts

MonitorElement* L1TCSCTF::csctflcts
private

Definition at line 105 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csctfntrack

MonitorElement* L1TCSCTF::csctfntrack
private

Definition at line 73 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csctfoccupancies

MonitorElement* L1TCSCTF::csctfoccupancies
private

Definition at line 78 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csctfoccupancies_H

MonitorElement* L1TCSCTF::csctfoccupancies_H
private

Definition at line 79 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csctfTrackEta

MonitorElement* L1TCSCTF::csctfTrackEta
private

Definition at line 94 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csctfTrackEta_H

MonitorElement* L1TCSCTF::csctfTrackEta_H
private

Definition at line 98 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csctfTrackEtaHighQ

MonitorElement* L1TCSCTF::csctfTrackEtaHighQ
private

Definition at line 96 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csctfTrackEtaLowQ

MonitorElement* L1TCSCTF::csctfTrackEtaLowQ
private

Definition at line 95 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csctfTrackM

MonitorElement* L1TCSCTF::csctfTrackM
private

Definition at line 100 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csctfTrackPhi

MonitorElement* L1TCSCTF::csctfTrackPhi
private

Definition at line 93 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ csctfTrackPhi_H

MonitorElement* L1TCSCTF::csctfTrackPhi_H
private

Definition at line 97 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ cscTrackStubNumbers

MonitorElement* L1TCSCTF::cscTrackStubNumbers
private

Definition at line 99 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ cscWireStripOverflow

MonitorElement* L1TCSCTF::cscWireStripOverflow
private

Definition at line 82 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ DTstubsTimeTrackMenTimeArrival

MonitorElement* L1TCSCTF::DTstubsTimeTrackMenTimeArrival[12]
private

Definition at line 162 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ dtStubsToken_

edm::EDGetTokenT<CSCTriggerContainer<csctf::TrackStub> > L1TCSCTF::dtStubsToken_
private

Definition at line 188 of file L1TCSCTF.h.

Referenced by analyze(), and L1TCSCTF().

◆ gangedME11a_

bool L1TCSCTF::gangedME11a_
private

Definition at line 174 of file L1TCSCTF.h.

Referenced by analyze(), and L1TCSCTF().

◆ gmtProducer

edm::InputTag L1TCSCTF::gmtProducer
private

Definition at line 173 of file L1TCSCTF.h.

Referenced by analyze().

◆ gmtProducerToken_

edm::EDGetTokenT<L1MuGMTReadoutCollection> L1TCSCTF::gmtProducerToken_
private

Definition at line 184 of file L1TCSCTF.h.

Referenced by analyze(), and L1TCSCTF().

◆ isCSCcand_

bool L1TCSCTF::isCSCcand_
private

Definition at line 164 of file L1TCSCTF.h.

Referenced by analyze().

◆ L1ABXN

int L1TCSCTF::L1ABXN
private

Definition at line 166 of file L1TCSCTF.h.

Referenced by analyze().

◆ l1muTscalesToken_

edm::ESGetToken<L1MuTriggerScales, L1MuTriggerScalesRcd> L1TCSCTF::l1muTscalesToken_
private

Definition at line 190 of file L1TCSCTF.h.

Referenced by analyze().

◆ lctProducer

edm::InputTag L1TCSCTF::lctProducer
private

Definition at line 173 of file L1TCSCTF.h.

Referenced by analyze(), and L1TCSCTF().

◆ logFile_

std::ofstream L1TCSCTF::logFile_
private

Definition at line 172 of file L1TCSCTF.h.

◆ m_ptScaleCacheID

unsigned long long L1TCSCTF::m_ptScaleCacheID
private

Definition at line 181 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ m_scalesCacheID

unsigned long long L1TCSCTF::m_scalesCacheID
private

Definition at line 180 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ mbProducer

edm::InputTag L1TCSCTF::mbProducer
private

Definition at line 173 of file L1TCSCTF.h.

Referenced by analyze(), and L1TCSCTF().

◆ mbtracksToken_

edm::EDGetTokenT<L1CSCTrackCollection> L1TCSCTF::mbtracksToken_
private

Definition at line 189 of file L1TCSCTF.h.

Referenced by analyze(), and L1TCSCTF().

◆ me11_lctGblEta

MonitorElement* L1TCSCTF::me11_lctGblEta
private

Definition at line 113 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ me11_lctGblPhi

MonitorElement* L1TCSCTF::me11_lctGblPhi
private

Definition at line 112 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ me11_lctLocalPhi

MonitorElement* L1TCSCTF::me11_lctLocalPhi
private

Definition at line 110 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ me11_lctPackedPhi

MonitorElement* L1TCSCTF::me11_lctPackedPhi
private

Definition at line 111 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ me11_lctStrip

MonitorElement* L1TCSCTF::me11_lctStrip
private

Definition at line 108 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ me11_lctWire

MonitorElement* L1TCSCTF::me11_lctWire
private

Definition at line 109 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ me42_lctGblEta

MonitorElement* L1TCSCTF::me42_lctGblEta
private

Definition at line 117 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ me42_lctGblPhi

MonitorElement* L1TCSCTF::me42_lctGblPhi
private

Definition at line 116 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ monitorDaemon_

bool L1TCSCTF::monitorDaemon_
private

Definition at line 171 of file L1TCSCTF.h.

◆ nev_

int L1TCSCTF::nev_
private

Definition at line 168 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ outputFile_

std::string L1TCSCTF::outputFile_
private

Definition at line 169 of file L1TCSCTF.h.

Referenced by L1TCSCTF().

◆ ptscalesToken_

edm::ESGetToken<L1MuTriggerPtScale, L1MuTriggerPtScaleRcd> L1TCSCTF::ptscalesToken_
private

Definition at line 191 of file L1TCSCTF.h.

Referenced by analyze().

◆ srLUTs_

CSCSectorReceiverLUT* L1TCSCTF::srLUTs_[5][2][6]
private

Definition at line 176 of file L1TCSCTF.h.

Referenced by analyze(), L1TCSCTF(), and ~L1TCSCTF().

◆ statusProducer

edm::InputTag L1TCSCTF::statusProducer
private

Definition at line 173 of file L1TCSCTF.h.

Referenced by analyze(), and L1TCSCTF().

◆ statusToken_

edm::EDGetTokenT<L1CSCStatusDigiCollection> L1TCSCTF::statusToken_
private

Definition at line 185 of file L1TCSCTF.h.

Referenced by analyze(), and L1TCSCTF().

◆ tpts

const L1MuTriggerPtScale* L1TCSCTF::tpts
private

Definition at line 179 of file L1TCSCTF.h.

Referenced by analyze().

◆ trackModeVsQ

MonitorElement* L1TCSCTF::trackModeVsQ
private

Definition at line 101 of file L1TCSCTF.h.

Referenced by analyze(), and bookHistograms().

◆ trackProducer

edm::InputTag L1TCSCTF::trackProducer
private

Definition at line 173 of file L1TCSCTF.h.

Referenced by analyze(), and L1TCSCTF().

◆ tracksToken_

edm::EDGetTokenT<L1CSCTrackCollection> L1TCSCTF::tracksToken_
private

Definition at line 187 of file L1TCSCTF.h.

Referenced by analyze(), and L1TCSCTF().

◆ ts

const L1MuTriggerScales* L1TCSCTF::ts
private

Definition at line 178 of file L1TCSCTF.h.

Referenced by analyze().

◆ verbose_

bool L1TCSCTF::verbose_
private

Definition at line 170 of file L1TCSCTF.h.

Referenced by analyze(), and L1TCSCTF().