d8/dc1/LEDTask_8cc_source.html

 #include "DQM/HcalTasks/interface/LEDTask.h"

 using namespace hcaldqm;
 using namespace hcaldqm::constants;
 using namespace hcaldqm::filter;

 LEDTask::LEDTask(edm::ParameterSet const& ps)
     : DQTask(ps), hcalDbServiceToken_(esConsumes<HcalDbService, HcalDbRecord, edm::Transition::BeginRun>()) {
   _nevents = ps.getUntrackedParameter<int>("nevents", 2000);
   //    tags
   _tagQIE11 = ps.getUntrackedParameter<edm::InputTag>("tagHE", edm::InputTag("hcalDigis"));
   _tagHO = ps.getUntrackedParameter<edm::InputTag>("tagHO", edm::InputTag("hcalDigis"));
   _tagQIE10 = ps.getUntrackedParameter<edm::InputTag>("tagHF", edm::InputTag("hcalDigis"));
   _tagTrigger = ps.getUntrackedParameter<edm::InputTag>("tagTrigger", edm::InputTag("tbunpacker"));
   _taguMN = ps.getUntrackedParameter<edm::InputTag>("taguMN", edm::InputTag("hcalDigis"));
   _tokQIE11 = consumes<QIE11DigiCollection>(_tagQIE11);
   _tokHO = consumes<HODigiCollection>(_tagHO);
   _tokQIE10 = consumes<QIE10DigiCollection>(_tagQIE10);
   _tokTrigger = consumes<HcalTBTriggerData>(_tagTrigger);
   _tokuMN = consumes<HcalUMNioDigi>(_taguMN);

   //    constants
   _lowHBHE = ps.getUntrackedParameter<double>("lowHBHE", 20);
   _lowHO = ps.getUntrackedParameter<double>("lowHO", 20);
   _lowHF = ps.getUntrackedParameter<double>("lowHF", 20);
 }

 /* virtual */ void LEDTask::bookHistograms(DQMStore::IBooker& ib, edm::Run const& r, edm::EventSetup const& es) {
   if (_ptype == fLocal)
     if (r.runAuxiliary().run() == 1)
       return;

   DQTask::bookHistograms(ib, r, es);

   edm::ESHandle<HcalDbService> dbService = es.getHandle(hcalDbServiceToken_);
   _emap = dbService->getHcalMapping();

   // Book LED calibration channels from emap
   std::vector<HcalElectronicsId> eids = _emap->allElectronicsId();
   for (unsigned i = 0; i < eids.size(); i++) {
     HcalElectronicsId eid = eids[i];
     DetId id = _emap->lookup(eid);
     if (HcalGenericDetId(id.rawId()).isHcalCalibDetId()) {
       HcalCalibDetId calibId(id);
       if (calibId.calibFlavor() == HcalCalibDetId::CalibrationBox) {
         HcalSubdetector this_subdet = HcalEmpty;
         switch (calibId.hcalSubdet()) {
           case HcalBarrel:
             this_subdet = HcalBarrel;
             break;
           case HcalEndcap:
             this_subdet = HcalEndcap;
             break;
           case HcalOuter:
             this_subdet = HcalOuter;
             break;
           case HcalForward:
             this_subdet = HcalForward;
             break;
           default:
             this_subdet = HcalEmpty;
             break;
         }
         _ledCalibrationChannels[this_subdet].push_back(
             HcalDetId(HcalOther, calibId.ieta(), calibId.iphi(), calibId.cboxChannel()));
       }
     }
   }

   std::vector<uint32_t> vhashVME;
   std::vector<uint32_t> vhashuTCA;
   std::vector<uint32_t> vhashC36;
   vhashVME.push_back(
       HcalElectronicsId(constants::FIBERCH_MIN, constants::FIBER_VME_MIN, SPIGOT_MIN, CRATE_VME_MIN).rawId());
   vhashuTCA.push_back(HcalElectronicsId(CRATE_uTCA_MIN, SLOT_uTCA_MIN, FIBER_uTCA_MIN1, FIBERCH_MIN, false).rawId());
   _filter_VME.initialize(filter::fFilter, hcaldqm::hashfunctions::fElectronics, vhashVME);
   _filter_uTCA.initialize(filter::fFilter, hcaldqm::hashfunctions::fElectronics, vhashuTCA);

   //    INITIALIZE
   _cSignalMean_Subdet.initialize(_name,
                                  "SignalMean",
                                  hcaldqm::hashfunctions::fSubdet,
                                  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::ffC_3000),
                                  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fN, true),
                                  0);
   _cSignalRMS_Subdet.initialize(_name,
                                 "SignalRMS",
                                 hcaldqm::hashfunctions::fSubdet,
                                 new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::ffC_3000),
                                 new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fN, true),
                                 0);
   _cTimingMean_Subdet.initialize(_name,
                                  "TimingMean",
                                  hcaldqm::hashfunctions::fSubdet,
                                  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fTiming_TS200),
                                  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fN, true),
                                  0);
   _cTimingRMS_Subdet.initialize(_name,
                                 "TimingRMS",
                                 hcaldqm::hashfunctions::fSubdet,
                                 new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fTiming_TS200),
                                 new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fN, true),
                                 0);

   if (_ptype == fLocal) {  // hidefed2crate
     _cSignalMean_FEDuTCA.initialize(_name,
                                     "SignalMean",
                                     hcaldqm::hashfunctions::fFED,
                                     new hcaldqm::quantity::ElectronicsQuantity(hcaldqm::quantity::fSlotuTCA),
                                     new hcaldqm::quantity::ElectronicsQuantity(hcaldqm::quantity::fFiberuTCAFiberCh),
                                     new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::ffC_generic_400000, true),
                                     0);
     _cSignalRMS_FEDuTCA.initialize(_name,
                                    "SignalRMS",
                                    hcaldqm::hashfunctions::fFED,
                                    new hcaldqm::quantity::ElectronicsQuantity(hcaldqm::quantity::fSlotuTCA),
                                    new hcaldqm::quantity::ElectronicsQuantity(hcaldqm::quantity::fFiberuTCAFiberCh),
                                    new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::ffC_generic_10000, true),
                                    0);
     _cTimingMean_FEDuTCA.initialize(_name,
                                     "TimingMean",
                                     hcaldqm::hashfunctions::fFED,
                                     new hcaldqm::quantity::ElectronicsQuantity(hcaldqm::quantity::fSlotuTCA),
                                     new hcaldqm::quantity::ElectronicsQuantity(hcaldqm::quantity::fFiberuTCAFiberCh),
                                     new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fTiming_TS200),
                                     0);
     _cTimingRMS_FEDuTCA.initialize(_name,
                                    "TimingRMS",
                                    hcaldqm::hashfunctions::fFED,
                                    new hcaldqm::quantity::ElectronicsQuantity(hcaldqm::quantity::fSlotuTCA),
                                    new hcaldqm::quantity::ElectronicsQuantity(hcaldqm::quantity::fFiberuTCAFiberCh),
                                    new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fTiming_TS200),
                                    0);

     _cShapeCut_FEDSlot.initialize(_name,
                                   "Shape",
                                   hcaldqm::hashfunctions::fFEDSlot,
                                   new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fTiming_TS),
                                   new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::ffC_generic_400000),
                                   0);
   }

   _cSignalMean_depth.initialize(_name,
                                 "SignalMean",
                                 hcaldqm::hashfunctions::fdepth,
                                 new hcaldqm::quantity::DetectorQuantity(hcaldqm::quantity::fieta),
                                 new hcaldqm::quantity::DetectorQuantity(hcaldqm::quantity::fiphi),
                                 new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::ffC_generic_400000, true),
                                 0);
   _cSignalRMS_depth.initialize(_name,
                                "SignalRMS",
                                hcaldqm::hashfunctions::fdepth,
                                new hcaldqm::quantity::DetectorQuantity(hcaldqm::quantity::fieta),
                                new hcaldqm::quantity::DetectorQuantity(hcaldqm::quantity::fiphi),
                                new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::ffC_generic_10000, true),
                                0);
   _cTimingMean_depth.initialize(_name,
                                 "TimingMean",
                                 hcaldqm::hashfunctions::fdepth,
                                 new hcaldqm::quantity::DetectorQuantity(hcaldqm::quantity::fieta),
                                 new hcaldqm::quantity::DetectorQuantity(hcaldqm::quantity::fiphi),
                                 new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fTiming_TS200),
                                 0);
   _cTimingRMS_depth.initialize(_name,
                                "TimingRMS",
                                hcaldqm::hashfunctions::fdepth,
                                new hcaldqm::quantity::DetectorQuantity(hcaldqm::quantity::fieta),
                                new hcaldqm::quantity::DetectorQuantity(hcaldqm::quantity::fiphi),
                                new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fTiming_TS200),
                                0);

   _cMissing_depth.initialize(_name,
                              "Missing",
                              hcaldqm::hashfunctions::fdepth,
                              new hcaldqm::quantity::DetectorQuantity(hcaldqm::quantity::fieta),
                              new hcaldqm::quantity::DetectorQuantity(hcaldqm::quantity::fiphi),
                              new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fN),
                              0);
   if (_ptype != fOffline) {  // hidefed2crate
     _cMissing_FEDuTCA.initialize(_name,
                                  "Missing",
                                  hcaldqm::hashfunctions::fFED,
                                  new hcaldqm::quantity::ElectronicsQuantity(hcaldqm::quantity::fSlotuTCA),
                                  new hcaldqm::quantity::ElectronicsQuantity(hcaldqm::quantity::fFiberuTCAFiberCh),
                                  new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fN),
                                  0);
   }

   // Plots for LED in global
   if (_ptype == fOnline || _ptype == fLocal) {
     _cADCvsTS_SubdetPM.initialize(_name,
                                   "ADCvsTS",
                                   hcaldqm::hashfunctions::fSubdetPM,
                                   new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fTiming_TS),
                                   new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fQIE10ADC_256),
                                   new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fN, true),
                                   0);
   }
   if (_ptype == fOnline) {
     _cLowSignal_CrateSlot.initialize(_name,
                                      "LowSignal",
                                      new hcaldqm::quantity::ElectronicsQuantity(hcaldqm::quantity::fCrateuTCA),
                                      new hcaldqm::quantity::ElectronicsQuantity(hcaldqm::quantity::fSlotuTCA),
                                      new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fN, true),
                                      0);
     _cSumQ_SubdetPM.initialize(_name,
                                "SumQ",
                                hcaldqm::hashfunctions::fSubdetPM,
                                new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fQIE10fC_400000),
                                new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fN, true),
                                0);
     _cTDCTime_SubdetPM.initialize(_name,
                                   "TDCTime",
                                   hcaldqm::hashfunctions::fSubdetPM,
                                   new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fTime_ns_250),
                                   new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fN, true),
                                   0);
     _cTDCTime_depth.initialize(_name,
                                "TDCTime",
                                hcaldqm::hashfunctions::fdepth,
                                new hcaldqm::quantity::DetectorQuantity(hcaldqm::quantity::fieta),
                                new hcaldqm::quantity::DetectorQuantity(hcaldqm::quantity::fiphi),
                                new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fTime_ns_250),
                                0);
     _LED_ADCvsBX_Subdet.initialize(_name,
                                    "LED_ADCvsBX",
                                    hcaldqm::hashfunctions::fSubdet,
                                    new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fBX_36),
                                    new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fADC_256_4),
                                    new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fN),
                                    0);
   } else if (_ptype == fLocal) {
     _LED_ADCvsEvn_Subdet.initialize(_name,
                                     "LED_ADCvsEvn",
                                     hcaldqm::hashfunctions::fSubdet,
                                     new hcaldqm::quantity::EventNumber(_nevents),
                                     new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fADC_256_4),
                                     new hcaldqm::quantity::ValueQuantity(hcaldqm::quantity::fN),
                                     0);
   }

   //    initialize compact containers
   _xSignalSum.initialize(hcaldqm::hashfunctions::fDChannel);
   _xSignalSum2.initialize(hcaldqm::hashfunctions::fDChannel);
   _xTimingSum.initialize(hcaldqm::hashfunctions::fDChannel);
   _xTimingSum2.initialize(hcaldqm::hashfunctions::fDChannel);
   _xEntries.initialize(hcaldqm::hashfunctions::fDChannel);

   //    BOOK
   _cSignalMean_Subdet.book(ib, _emap, _subsystem);
   _cSignalRMS_Subdet.book(ib, _emap, _subsystem);
   _cTimingMean_Subdet.book(ib, _emap, _subsystem);
   _cTimingRMS_Subdet.book(ib, _emap, _subsystem);

   _cSignalMean_depth.book(ib, _emap, _subsystem);
   _cSignalRMS_depth.book(ib, _emap, _subsystem);
   _cTimingMean_depth.book(ib, _emap, _subsystem);
   _cTimingRMS_depth.book(ib, _emap, _subsystem);

   _cMissing_depth.book(ib, _emap, _subsystem);
   if (_ptype == fLocal) {  // hidefed2crate
     _cSignalMean_FEDuTCA.book(ib, _emap, _filter_VME, _subsystem);
     _cSignalRMS_FEDuTCA.book(ib, _emap, _filter_VME, _subsystem);
     _cTimingMean_FEDuTCA.book(ib, _emap, _filter_VME, _subsystem);
     _cTimingRMS_FEDuTCA.book(ib, _emap, _filter_VME, _subsystem);
     _cShapeCut_FEDSlot.book(ib, _emap, _subsystem);
     _cMissing_FEDuTCA.book(ib, _emap, _filter_VME, _subsystem);
   }
   if (_ptype == fOnline || _ptype == fLocal) {
     _cADCvsTS_SubdetPM.book(ib, _emap, _subsystem);
   }
   if (_ptype == fOnline) {
     _cLowSignal_CrateSlot.book(ib, _subsystem);
     _cSumQ_SubdetPM.book(ib, _emap, _subsystem);
     _cTDCTime_SubdetPM.book(ib, _emap, _subsystem);
     _cTDCTime_depth.book(ib, _emap, _subsystem);
   }

   if (_ptype == fOnline) {
     _LED_ADCvsBX_Subdet.book(ib, _emap, _subsystem);
   } else if (_ptype == fLocal) {
     _LED_ADCvsEvn_Subdet.book(ib, _emap, _subsystem);
   }

   _xSignalSum.book(_emap);
   _xSignalSum2.book(_emap);
   _xEntries.book(_emap);
   _xTimingSum.book(_emap);
   _xTimingSum2.book(_emap);

   _ehashmap.initialize(_emap, electronicsmap::fD2EHashMap);
 }

 /* virtual */ void LEDTask::_resetMonitors(hcaldqm::UpdateFreq uf) { DQTask::_resetMonitors(uf); }

 /* virtual */ void LEDTask::_dump() {
   _cSignalMean_Subdet.reset();
   _cSignalRMS_Subdet.reset();
   _cTimingMean_Subdet.reset();
   _cTimingRMS_Subdet.reset();
   _cSignalMean_depth.reset();
   _cSignalRMS_depth.reset();
   _cTimingMean_depth.reset();
   _cTimingRMS_depth.reset();

   if (_ptype == fLocal) {  // hidefed2crate
     _cSignalMean_FEDuTCA.reset();
     _cSignalRMS_FEDuTCA.reset();
     _cTimingMean_FEDuTCA.reset();
     _cTimingRMS_FEDuTCA.reset();
   }

   std::vector<HcalGenericDetId> dids = _emap->allPrecisionId();
   for (std::vector<HcalGenericDetId>::const_iterator it = dids.begin(); it != dids.end(); ++it) {
     if (!it->isHcalDetId())
       continue;
     HcalDetId did = HcalDetId(it->rawId());
     HcalElectronicsId eid(_ehashmap.lookup(did));
     int n = _xEntries.get(did);
     double msig = _xSignalSum.get(did) / n;
     double mtim = _xTimingSum.get(did) / n;
     double rsig = sqrt(_xSignalSum2.get(did) / n - msig * msig);
     double rtim = sqrt(_xTimingSum2.get(did) / n - mtim * mtim);

     //  channels missing or low signal
     if (n == 0) {
       _cMissing_depth.fill(did);
       if (_ptype == fLocal) {  // hidefed2crate
         if (!eid.isVMEid())
           _cMissing_FEDuTCA.fill(eid);
       }
       continue;
     }
     _cSignalMean_Subdet.fill(did, msig);
     _cSignalMean_depth.fill(did, msig);
     _cSignalRMS_Subdet.fill(did, rsig);
     _cSignalRMS_depth.fill(did, rsig);
     _cTimingMean_Subdet.fill(did, mtim);
     _cTimingMean_depth.fill(did, mtim);
     _cTimingRMS_Subdet.fill(did, rtim);
     _cTimingRMS_depth.fill(did, rtim);
     if (_ptype == fLocal) {  // hidefed2crate
       if (!eid.isVMEid()) {
         _cSignalMean_FEDuTCA.fill(eid, msig);
         _cSignalRMS_FEDuTCA.fill(eid, rsig);
         _cTimingMean_FEDuTCA.fill(eid, mtim);
         _cTimingRMS_FEDuTCA.fill(eid, rtim);
       }
     }
   }
 }

 /* virtual */ void LEDTask::_process(edm::Event const& e, edm::EventSetup const& es) {
   edm::Handle<HODigiCollection> c_ho;
   edm::Handle<QIE10DigiCollection> c_QIE10;
   edm::Handle<QIE11DigiCollection> c_QIE11;

   if (!e.getByToken(_tokHO, c_ho))
     _logger.dqmthrow("Collection HODigiCollection isn't available " + _tagHO.label() + " " + _tagHO.instance());
   if (!e.getByToken(_tokQIE10, c_QIE10))
     _logger.dqmthrow("Collection QIE10DigiCollection isn't available " + _tagQIE10.label() + " " +
                      _tagQIE10.instance());
   if (!e.getByToken(_tokQIE11, c_QIE11))
     _logger.dqmthrow("Collection QIE11DigiCollection isn't available " + _tagQIE11.label() + " " +
                      _tagQIE11.instance());

   //    int currentEvent = e.eventAuxiliary().id().event();

   for (QIE11DigiCollection::const_iterator it = c_QIE11->begin(); it != c_QIE11->end(); ++it) {
     const QIE11DataFrame digi = static_cast<const QIE11DataFrame>(*it);
     HcalDetId const& did = digi.detid();
     if ((did.subdet() != HcalBarrel) && (did.subdet() != HcalEndcap)) {
       // LED monitoring from calibration channels
       if (did.subdet() == HcalOther) {
         HcalOtherDetId hodid(digi.detid());
         if (hodid.subdet() == HcalCalibration) {
           if (std::find(_ledCalibrationChannels[HcalEndcap].begin(), _ledCalibrationChannels[HcalEndcap].end(), did) !=
               _ledCalibrationChannels[HcalEndcap].end()) {
             for (int i = 0; i < digi.samples(); i++) {
               if (_ptype == fOnline) {
                 _LED_ADCvsBX_Subdet.fill(HcalDetId(HcalEndcap, 16, 1, 1), e.bunchCrossing(), digi[i].adc());
               } else if (_ptype == fLocal) {
                 _LED_ADCvsEvn_Subdet.fill(
                     HcalDetId(HcalEndcap, 16, 1, 1), e.eventAuxiliary().id().event(), digi[i].adc());
               }
             }
           } else if (std::find(_ledCalibrationChannels[HcalBarrel].begin(),
                                _ledCalibrationChannels[HcalBarrel].end(),
                                did) != _ledCalibrationChannels[HcalBarrel].end()) {
             for (int i = 0; i < digi.samples(); i++) {
               if (_ptype == fOnline) {
                 _LED_ADCvsBX_Subdet.fill(HcalDetId(HcalBarrel, 1, 1, 1), e.bunchCrossing(), digi[i].adc());
               } else if (_ptype == fLocal) {
                 _LED_ADCvsEvn_Subdet.fill(
                     HcalDetId(HcalBarrel, 1, 1, 1), e.eventAuxiliary().id().event(), digi[i].adc());
               }
             }
           }
         }
       }
       continue;
     }
     uint32_t rawid = _ehashmap.lookup(did);
     if (!rawid) {
       std::string unknown_id_string = "Detid " + std::to_string(int(did)) + ", ieta " + std::to_string(did.ieta());
       unknown_id_string += ", iphi " + std::to_string(did.iphi()) + ", depth " + std::to_string(did.depth());
       unknown_id_string += ", is not in emap. Skipping.";
       _logger.warn(unknown_id_string);
       continue;
     }
     HcalElectronicsId const& eid(rawid);

     CaloSamples digi_fC = hcaldqm::utilities::loadADC2fCDB<QIE11DataFrame>(_dbService, did, digi);
     //double sumQ = hcaldqm::utilities::sumQ_v10<QIE11DataFrame>(digi, 2.5, 0, digi.samples()-1);
     double sumQ = hcaldqm::utilities::sumQDB<QIE11DataFrame>(_dbService, digi_fC, did, digi, 0, digi.samples() - 1);
     if (sumQ >= _lowHBHE) {
       //double aveTS = hcaldqm::utilities::aveTS_v10<QIE11DataFrame>(digi, 2.5, 0,digi.samples()-1);
       double aveTS = hcaldqm::utilities::aveTSDB<QIE11DataFrame>(_dbService, digi_fC, did, digi, 0, digi.size() - 1);

       _xSignalSum.get(did) += sumQ;
       _xSignalSum2.get(did) += sumQ * sumQ;
       _xTimingSum.get(did) += aveTS;
       _xTimingSum2.get(did) += aveTS * aveTS;
       _xEntries.get(did)++;

       if (_ptype == fLocal) {  // hidefed2crate
         for (int i = 0; i < digi.samples(); i++) {
           //_cShapeCut_FEDSlot.fill(eid, i, digi.sample(i).nominal_fC()-2.5);
           _cShapeCut_FEDSlot.fill(
               eid, i, hcaldqm::utilities::adc2fCDBMinusPedestal<QIE11DataFrame>(_dbService, digi_fC, did, digi, i));
         }
       }
       if (_ptype == fOnline || _ptype == fLocal) {
         for (int iTS = 0; iTS < digi.samples(); ++iTS) {
           _cADCvsTS_SubdetPM.fill(did, iTS, digi[iTS].adc());
         }
       }
       if (_ptype == fOnline) {
         for (int iTS = 0; iTS < digi.samples(); ++iTS) {
           if (digi[iTS].tdc() < 50) {
             double time = iTS * 25. + (digi[iTS].tdc() / 2.);
             _cTDCTime_SubdetPM.fill(did, time);
             _cTDCTime_depth.fill(did, time);
           }
         }
         _cSumQ_SubdetPM.fill(did, sumQ);

         // Low signal in SOI
         short soi = -1;
         for (int i = 0; i < digi.samples(); i++) {
           if (digi[i].soi()) {
             soi = i;
             break;
           }
         }
         if (digi[soi].adc() < 30) {
           _cLowSignal_CrateSlot.fill(eid);
         }
       }
     }
   }
   for (HODigiCollection::const_iterator it = c_ho->begin(); it != c_ho->end(); ++it) {
     const HODataFrame digi = (const HODataFrame)(*it);
     HcalDetId did = digi.id();
     if (did.subdet() != HcalOuter) {
       // LED monitoring from calibration channels
       if (did.subdet() == HcalOther) {
         HcalOtherDetId hodid(did);
         if (hodid.subdet() == HcalCalibration) {
           if (std::find(_ledCalibrationChannels[HcalOuter].begin(), _ledCalibrationChannels[HcalOuter].end(), did) !=
               _ledCalibrationChannels[HcalOuter].end()) {
             for (int i = 0; i < digi.size(); i++) {
               if (_ptype == fOnline) {
                 _LED_ADCvsBX_Subdet.fill(HcalDetId(HcalOuter, 1, 1, 4), e.bunchCrossing(), digi[i].adc());
               } else if (_ptype == fLocal) {
                 _LED_ADCvsEvn_Subdet.fill(
                     HcalDetId(HcalOuter, 1, 1, 4), e.eventAuxiliary().id().event(), digi[i].adc());
               }
             }
           }
         }
       }
       continue;
     }
     HcalElectronicsId eid = digi.elecId();
     //double sumQ = hcaldqm::utilities::sumQ<HODataFrame>(digi, 8.5, 0, digi.size()-1);
     CaloSamples digi_fC = hcaldqm::utilities::loadADC2fCDB<HODataFrame>(_dbService, did, digi);
     double sumQ = hcaldqm::utilities::sumQDB<HODataFrame>(_dbService, digi_fC, did, digi, 0, digi.size() - 1);
     if (sumQ >= _lowHO) {
       //double aveTS = hcaldqm::utilities::aveTS<HODataFrame>(digi, 8.5, 0, digi.size()-1);
       double aveTS = hcaldqm::utilities::aveTSDB<HODataFrame>(_dbService, digi_fC, did, digi, 0, digi.size() - 1);

       _xSignalSum.get(did) += sumQ;
       _xSignalSum2.get(did) += sumQ * sumQ;
       _xTimingSum.get(did) += aveTS;
       _xTimingSum2.get(did) += aveTS * aveTS;
       _xEntries.get(did)++;

       if (_ptype == fLocal) {  // hidefed2crate
         for (int i = 0; i < digi.size(); i++) {
           //_cShapeCut_FEDSlot.fill(eid, i, digi.sample(i).nominal_fC()-8.5);
           _cShapeCut_FEDSlot.fill(
               eid, i, hcaldqm::utilities::adc2fCDBMinusPedestal<HODataFrame>(_dbService, digi_fC, did, digi, i));
         }
       }
       if (_ptype == fOnline || _ptype == fLocal) {
         for (int iTS = 0; iTS < digi.size(); ++iTS) {
           _cADCvsTS_SubdetPM.fill(did, iTS, digi.sample(iTS).adc());
         }
       }
       if (_ptype == fOnline) {
         _cSumQ_SubdetPM.fill(did, sumQ);
       }
     }
   }

   for (QIE10DigiCollection::const_iterator it = c_QIE10->begin(); it != c_QIE10->end(); ++it) {
     const QIE10DataFrame digi = static_cast<const QIE10DataFrame>(*it);
     HcalDetId did = digi.detid();
     if (did.subdet() != HcalForward) {
       // LED monitoring from calibration channels
       if (did.subdet() == HcalOther) {
         HcalOtherDetId hodid(digi.detid());
         if (hodid.subdet() == HcalCalibration) {
           if (std::find(_ledCalibrationChannels[HcalForward].begin(),
                         _ledCalibrationChannels[HcalForward].end(),
                         did) != _ledCalibrationChannels[HcalForward].end()) {
             for (int i = 0; i < digi.samples(); i++) {
               if (_ptype == fOnline) {
                 _LED_ADCvsBX_Subdet.fill(HcalDetId(HcalForward, 29, 1, 1), e.bunchCrossing(), digi[i].adc());
               } else if (_ptype == fLocal) {
                 _LED_ADCvsEvn_Subdet.fill(
                     HcalDetId(HcalForward, 29, 1, 1), e.eventAuxiliary().id().event(), digi[i].adc());
               }
             }
           }
         }
       }
       continue;
     }
     HcalElectronicsId eid = HcalElectronicsId(_ehashmap.lookup(did));
     //double sumQ = hcaldqm::utilities::sumQ_v10<QIE10DataFrame>(digi, 2.5, 0, digi.samples()-1);
     CaloSamples digi_fC = hcaldqm::utilities::loadADC2fCDB<QIE10DataFrame>(_dbService, did, digi);
     double sumQ = hcaldqm::utilities::sumQDB<QIE10DataFrame>(_dbService, digi_fC, did, digi, 0, digi.samples() - 1);
     if (sumQ >= _lowHF) {
       //double aveTS = hcaldqm::utilities::aveTS_v10<QIE10DataFrame>(digi, 2.5, 0, digi.samples()-1);
       double aveTS = hcaldqm::utilities::aveTSDB<QIE10DataFrame>(_dbService, digi_fC, did, digi, 0, digi.size() - 1);

       _xSignalSum.get(did) += sumQ;
       _xSignalSum2.get(did) += sumQ * sumQ;
       _xTimingSum.get(did) += aveTS;
       _xTimingSum2.get(did) += aveTS * aveTS;
       _xEntries.get(did)++;

       if (_ptype == fLocal) {  // hidefed2crate
         for (int i = 0; i < digi.samples(); ++i) {
           // Note: this used to be digi.sample(i).nominal_fC() - 2.5, but this branch doesn't exist in QIE10DataFrame.
           // Instead, use lookup table.
           //_cShapeCut_FEDSlot.fill(eid, i, constants::adc2fC[digi[i].adc()]);
           _cShapeCut_FEDSlot.fill(
               eid, i, hcaldqm::utilities::adc2fCDBMinusPedestal<QIE10DataFrame>(_dbService, digi_fC, did, digi, i));
         }
       }
       if (_ptype == fOnline || _ptype == fLocal) {
         for (int iTS = 0; iTS < digi.samples(); ++iTS) {
           _cADCvsTS_SubdetPM.fill(did, iTS, digi[iTS].adc());
         }
       }
       if (_ptype == fOnline) {
         for (int iTS = 0; iTS < digi.samples(); ++iTS) {
           if (digi[iTS].le_tdc() < 50) {
             double time = iTS * 25. + (digi[iTS].le_tdc() / 2.);
             _cTDCTime_SubdetPM.fill(did, time);
             _cTDCTime_depth.fill(did, time);
           }
         }
         _cSumQ_SubdetPM.fill(did, sumQ);
       }
     }
   }

   if (_ptype == fOnline && _evsTotal > 0 && _evsTotal % constants::CALIBEVENTS_MIN == 0)
     this->_dump();
 }

 /* virtual */ bool LEDTask::_isApplicable(edm::Event const& e) {
   if (_ptype != fOnline) {
     //  local
     edm::Handle<HcalTBTriggerData> ctrigger;
     if (!e.getByToken(_tokTrigger, ctrigger))
       _logger.dqmthrow("Collection HcalTBTriggerData isn't available " + _tagTrigger.label() + " " +
                        _tagTrigger.instance());
     return ctrigger->wasLEDTrigger();
   } else {
     //  fOnline mode
     edm::Handle<HcalUMNioDigi> cumn;
     if (!e.getByToken(_tokuMN, cumn)) {
       return false;
     }

     return (cumn->eventType() == constants::EVENTTYPE_LED);
   }

   return false;
 }

 DEFINE_FWK_MODULE(LEDTask);
hcaldqm::ContainerProf1D::initialize
void initialize(std::string const &folder, hashfunctions::HashType, quantity::Quantity *, quantity::Quantity *, int debug=0) override
Definition: ContainerProf1D.cc:22

HcalCalibDetId::cboxChannel
int cboxChannel() const
get the calibration box channel (if relevant)
Definition: HcalCalibDetId.cc:86

QIE10DataFrame::detid
constexpr DetId detid() const
Get the detector id.
Definition: QIE10DataFrame.h:76

HODataFrame
Definition: HODataFrame.h:14

hcaldqm::quantity::fSlotuTCA
Definition: ElectronicsQuantity.h:21

hcaldqm::utilities::aveTS
double aveTS(DIGI const &digi, double ped=0, int i=0, int j=3)
Definition: Utilities.h:115

ProducerED_cfi.InputTag
InputTag
Definition: ProducerED_cfi.py:5

deDxTools::esConsumes
ESGetTokenH3DDVariant esConsumes(std::string const &Record, edm::ConsumesCollector &)
Definition: DeDxTools.cc:283

LEDTask::_cMissing_FEDuTCA
hcaldqm::Container2D _cMissing_FEDuTCA
Definition: LEDTask.h:95

LEDTask::LEDTask
LEDTask(edm::ParameterSet const &)
Definition: LEDTask.cc:8

LEDTask::_cSignalMean_depth
hcaldqm::ContainerProf2D _cSignalMean_depth
Definition: LEDTask.h:83

LEDTask::_cTimingMean_FEDuTCA
hcaldqm::ContainerProf2D _cTimingMean_FEDuTCA
Definition: LEDTask.h:89

hcaldqm::Container1D::initialize
virtual void initialize(std::string const &folder, hashfunctions::HashType, quantity::Quantity *, quantity::Quantity *qy=new quantity::ValueQuantity(quantity::fN), int debug=0)
Definition: Container1D.cc:33

mps_fire.i
i
Definition: mps_fire.py:429

hcaldqm::quantity::fiphi
Definition: DetectorQuantity.h:14

hcaldqm::constants::CRATE_VME_MIN
int const CRATE_VME_MIN
Definition: Constants.h:99

LEDTask::_lowHBHE
double _lowHBHE
Definition: LEDTask.h:62

hcaldqm::quantity::fTiming_TS
Definition: ValueQuantity.h:21

LEDTask::_taguMN
edm::InputTag _taguMN
Definition: LEDTask.h:47

LEDTask::_cTimingMean_depth
hcaldqm::ContainerProf2D _cTimingMean_depth
Definition: LEDTask.h:85

nano_mu_digi_cff.rawId
rawId
Definition: nano_mu_digi_cff.py:56

hcaldqm::ContainerProf2D::fill
void fill(HcalDetId const &) override
Definition: ContainerProf2D.cc:228

LEDTask::_cMissing_depth
hcaldqm::Container2D _cMissing_depth
Definition: LEDTask.h:94

LEDTask::_tokTrigger
edm::EDGetTokenT< HcalTBTriggerData > _tokTrigger
Definition: LEDTask.h:51

hcaldqm::electronicsmap::ElectronicsMap::initialize
void initialize(HcalElectronicsMap const *, ElectronicsMapType etype=fHcalElectronicsMap)
Definition: ElectronicsMap.cc:6

edm::InputTag::instance
std::string const  & instance() const
Definition: InputTag.h:37

LEDTask::_lowHF
double _lowHF
Definition: LEDTask.h:64

Logger::dqmthrow
void dqmthrow(std::string const &msg) const
Definition: Logger.h:12

HcalTBTriggerData::wasLEDTrigger
bool wasLEDTrigger() const
returns true if this was a LED trigger
Definition: HcalTBTriggerData.h:93

hcaldqm::hashfunctions::fFED
Definition: HashFunctions.h:145

HcalElectronicsMap::lookup
const DetId lookup(HcalElectronicsId fId) const
lookup the logical detid associated with the given electronics id
Definition: HcalElectronicsMap.cc:70

edm::Handle
Definition: AssociativeIterator.h:50

hcaldqm::UpdateFreq
UpdateFreq
Definition: DQTask.h:32

hcaldqm::quantity::fTiming_TS200
Definition: ValueQuantity.h:22

edm::SortedCollection::const_iterator
std::vector< T >::const_iterator const_iterator
Definition: SortedCollection.h:80

QIE10DataFrame
Definition: QIE10DataFrame.h:11

hcaldqm::quantity::fFiberuTCAFiberCh
Definition: ElectronicsQuantity.h:31

hcaldqm::ContainerSingle2D::initialize
virtual void initialize(std::string const &folder, quantity::Quantity *, quantity::Quantity *, quantity::Quantity *qz=new quantity::ValueQuantity(quantity::fN), int debug=0)
Definition: ContainerSingle2D.cc:46

HcalDbService
Definition: HcalDbService.h:23

hcaldqm::constants::SPIGOT_MIN
int const SPIGOT_MIN
Definition: Constants.h:124

QIE11DataFrame
Definition: QIE11DataFrame.h:11

hcaldqm::ContainerProf1D::book
void book(DQMStore::IBooker &, HcalElectronicsMap const *, std::string subsystem="Hcal", std::string aux="") override
Definition: ContainerProf1D.cc:40

LEDTask::_tagHO
edm::InputTag _tagHO
Definition: LEDTask.h:44

hcaldqm::hashfunctions::fElectronics
Definition: HashFunctions.h:154

hcaldqm::fLocal
Definition: DQModule.h:26

HcalDbService::getHcalMapping
const HcalElectronicsMap * getHcalMapping() const
Definition: HcalDbService.cc:343

hcaldqm::quantity::fQIE10ADC_256
Definition: ValueQuantity.h:34

edm::InputTag::label
std::string const  & label() const
Definition: InputTag.h:36

MillePedeFileConverter_cfg.e
e
Definition: MillePedeFileConverter_cfg.py:37

HcalCalibDetId::ieta
int ieta() const
Definition: HcalCalibDetId.cc:94

spr::find
void find(edm::Handle< EcalRecHitCollection > &hits, DetId thisDet, std::vector< EcalRecHitCollection::const_iterator > &hit, bool debug=false)
Definition: FindCaloHit.cc:19

hcaldqm::constants::FIBER_VME_MIN
int const FIBER_VME_MIN
Definition: Constants.h:129

hcaldqm::electronicsmap::fD2EHashMap
Definition: ElectronicsMap.h:25

hcaldqm::quantity::fCrateuTCA
Definition: ElectronicsQuantity.h:19

HcalCalibDetId::hcalSubdet
HcalSubdetector hcalSubdet() const
get the HcalSubdetector (if relevant)
Definition: HcalCalibDetId.cc:90

LEDTask::_filter_uTCA
hcaldqm::filter::HashFilter _filter_uTCA
Definition: LEDTask.h:57

LEDTask::_tagQIE11
edm::InputTag _tagQIE11
Definition: LEDTask.h:43

LEDTask::_tokQIE11
edm::EDGetTokenT< QIE11DigiCollection > _tokQIE11
Definition: LEDTask.h:48

LEDTask::hcalDbServiceToken_
edm::ESGetToken< HcalDbService, HcalDbRecord > hcalDbServiceToken_
Definition: LEDTask.h:53

LEDTask::_xEntries
hcaldqm::ContainerXXX< int > _xEntries
Definition: LEDTask.h:69

hcaldqm::quantity::ffC_generic_400000
Definition: ValueQuantity.h:58

hcalRecHitTable_cff.time
time
Definition: hcalRecHitTable_cff.py:14

LEDTask::_nevents
int _nevents
Definition: LEDTask.h:61

AlCaHLTBitMon_QueryRunRegistry.string
string string
Definition: AlCaHLTBitMon_QueryRunRegistry.py:256

QIE11DataFrame::detid
constexpr DetId detid() const
Get the detector id.
Definition: QIE11DataFrame.h:67

to_string
static std::string to_string(const XMLCh *ch)
Definition: TotemDAQMappingESSourceXML.cc:353

hcaldqm::constants::FIBERCH_MIN
int const FIBERCH_MIN
Definition: Constants.h:138

dqmiodumpmetadata.n
n
Definition: dqmiodumpmetadata.py:28

hcaldqm::quantity::DetectorQuantity
Definition: DetectorQuantity.h:59

CaloSamples
Definition: CaloSamples.h:14

hcaldqm::ContainerSingle2D::book
virtual void book(DQMStore::IBooker &, std::string subsystem="Hcal", std::string aux="")
Definition: ContainerSingle2D.cc:68

bookHistograms
example_stream void bookHistograms(DQMStore::IBooker &, edm::Run const &, edm::EventSetup const &) override

LEDTask::_tokQIE10
edm::EDGetTokenT< QIE10DigiCollection > _tokQIE10
Definition: LEDTask.h:50

LEDTask::_xTimingSum
hcaldqm::ContainerXXX< double > _xTimingSum
Definition: LEDTask.h:70

edm::ParameterSet::getUntrackedParameter
T getUntrackedParameter(std::string const &, T const &) const

LEDTask::_cTDCTime_depth
hcaldqm::ContainerProf2D _cTDCTime_depth
Definition: LEDTask.h:101

LEDTask::_tokuMN
edm::EDGetTokenT< HcalUMNioDigi > _tokuMN
Definition: LEDTask.h:52

hcaldqm::filter::fFilter
Definition: HashFilter.h:19

HcalOtherDetId
Definition: HcalOtherDetId.h:22

hcaldqm::electronicsmap::ElectronicsMap::lookup
uint32_t lookup(DetId const &)
Definition: ElectronicsMap.cc:122

HcalDetId::subdet
constexpr HcalSubdetector subdet() const
get the subdetector
Definition: HcalDetId.h:138

LEDTask.h

LEDTask::_cSignalRMS_FEDuTCA
hcaldqm::ContainerProf2D _cSignalRMS_FEDuTCA
Definition: LEDTask.h:90

dqm::implementation::IBooker
Definition: DQMStore.h:43

hcaldqm::DQModule::_ptype
ProcessingType _ptype
Definition: DQModule.h:44

hcaldqm::Container1D::fill
virtual void fill(uint32_t)
Definition: Container1D.cc:73

hcaldqm::Container1D::reset
virtual void reset()
Definition: Container1D.cc:60

hcaldqm::constants::EVENTTYPE_LED
uint8_t const EVENTTYPE_LED
Definition: Constants.h:300

LEDTask::_lowHO
double _lowHO
Definition: LEDTask.h:63

HODataFrame::elecId
constexpr HcalElectronicsId const  & elecId() const
Definition: HODataFrame.h:24

hcaldqm::hashfunctions::fDChannel
Definition: HashFunctions.h:143

HcalEndcap
Definition: HcalAssistant.h:34

HcalDetId
Definition: HcalDetId.h:12

HcalDetId::ieta
constexpr int ieta() const
get the cell ieta
Definition: HcalDetId.h:155

mathSSE::sqrt
T sqrt(T t)
Definition: SSEVec.h:19

edm::ESHandle< HcalDbService >

HcalCalibDetId::iphi
int iphi() const
get the low-edge iphi (if relevant)
Definition: HcalCalibDetId.cc:104

Logger::warn
void warn(std::string const &msg) const
Definition: Logger.h:13

hcaldqm::quantity::fN
Definition: ValueQuantity.h:11

HcalSubdetector
HcalSubdetector
Definition: HcalAssistant.h:31

HcalBarrel
Definition: HcalAssistant.h:33

hcaldqm::quantity::fieta
Definition: DetectorQuantity.h:15

hcaldqm::quantity::ffC_generic_10000
Definition: ValueQuantity.h:57

hcaldqm::constants::FIBER_uTCA_MIN1
int const FIBER_uTCA_MIN1
Definition: Constants.h:132

edm::Transition
Transition
Definition: Transition.h:12

LEDTask::_cLowSignal_CrateSlot
hcaldqm::ContainerSingle2D _cLowSignal_CrateSlot
Definition: LEDTask.h:102

DEFINE_FWK_MODULE
#define DEFINE_FWK_MODULE(type)
Definition: MakerMacros.h:16

edm::EventSetup
Definition: EventSetup.h:56

LEDTask::bookHistograms
void bookHistograms(DQMStore::IBooker &, edm::Run const &, edm::EventSetup const &) override
Definition: LEDTask.cc:29

hcaldqm::DQModule::_logger
Logger _logger
Definition: DQModule.h:55

HcalForward
Definition: HcalAssistant.h:36

edm::SortedCollection::begin
const_iterator begin() const
Definition: SortedCollection.h:262

hcaldqm::DQTask
Definition: DQTask.h:33

hcaldqm::quantity::fBX_36
Definition: ValueQuantity.h:69

LEDTask::_tagTrigger
edm::InputTag _tagTrigger
Definition: LEDTask.h:46

hcaldqm::quantity::EventNumber
Definition: ValueQuantity.h:503

hcaldqm::DQModule::_name
std::string _name
Definition: DQModule.h:42

hcaldqm::DQTask::_emap
HcalElectronicsMap const  * _emap
Definition: DQTask.h:81

HcalElectronicsMap::allElectronicsId
std::vector< HcalElectronicsId > allElectronicsId() const
Definition: HcalElectronicsMap.cc:110

LEDTask::_cSignalMean_FEDuTCA
hcaldqm::ContainerProf2D _cSignalMean_FEDuTCA
Definition: LEDTask.h:88

edm::EventSetup::getHandle
ESHandle< T > getHandle(const ESGetToken< T, R > &iToken) const
Definition: EventSetup.h:130

LEDTask::_cTimingRMS_depth
hcaldqm::ContainerProf2D _cTimingRMS_depth
Definition: LEDTask.h:86

HcalUMNioDigi::eventType
uint8_t eventType() const
Definition: HcalUMNioDigi.cc:35

LEDTask::_cSignalRMS_Subdet
hcaldqm::Container1D _cSignalRMS_Subdet
Definition: LEDTask.h:75

LEDTask::_filter_VME
hcaldqm::filter::HashFilter _filter_VME
Definition: LEDTask.h:58

hcaldqm::constants::CRATE_uTCA_MIN
int const CRATE_uTCA_MIN
Definition: Constants.h:104

LEDTask::_LED_ADCvsEvn_Subdet
hcaldqm::Container2D _LED_ADCvsEvn_Subdet
Definition: LEDTask.h:107

HcalGenericDetId
Definition: HcalGenericDetId.h:15

edm::DataFrameContainer::end
const_iterator end() const
Definition: DataFrameContainer.h:146

edm::SortedCollection::end
const_iterator end() const
Definition: SortedCollection.h:267

alignCSCRings.r
r
Definition: alignCSCRings.py:93

DetId
Definition: DetId.h:17

hcaldqm::constants::CALIBEVENTS_MIN
int const CALIBEVENTS_MIN
Definition: Constants.h:250

LEDTask::_xTimingSum2
hcaldqm::ContainerXXX< double > _xTimingSum2
Definition: LEDTask.h:71

QIE11DataFrame::samples
constexpr int samples() const
total number of samples in the digi
Definition: QIE11DataFrame.h:77

LEDTask::_cTDCTime_SubdetPM
hcaldqm::Container1D _cTDCTime_SubdetPM
Definition: LEDTask.h:100

mps_fire.end
end
Definition: mps_fire.py:242

hcaldqm::quantity::fQIE10fC_400000
Definition: ValueQuantity.h:50

hcaldqm::constants
Definition: Constants.h:9

LEDTask::_cTimingRMS_FEDuTCA
hcaldqm::ContainerProf2D _cTimingRMS_FEDuTCA
Definition: LEDTask.h:91

HcalOuter
Definition: HcalAssistant.h:35

hcaldqm
Definition: Constants.h:8

LEDTask::_tokHO
edm::EDGetTokenT< HODigiCollection > _tokHO
Definition: LEDTask.h:49

hcaldqm::ContainerXXX::book
virtual void book(HcalElectronicsMap const *)
Definition: ContainerXXX.h:88

LEDTask::_xSignalSum
hcaldqm::ContainerXXX< double > _xSignalSum
Definition: LEDTask.h:67

HcalCalibDetId
Definition: HcalCalibDetId.h:45

hcaldqm::fOffline
Definition: DQModule.h:26

hcaldqm::Container1D::book
virtual void book(DQMStore::IBooker &, HcalElectronicsMap const *, std::string subsystem="Hcal", std::string aux="")
Definition: Container1D.cc:592

edm::DataFrameContainer::begin
const_iterator begin() const
The iterator returned can not safely be used across threads.
Definition: DataFrameContainer.h:143

hcaldqm::DQModule::_evsTotal
int _evsTotal
Definition: DQModule.h:51

hcaldqm::Container2D::initialize
virtual void initialize(std::string const &folder, hashfunctions::HashType, quantity::Quantity *, quantity::Quantity *, quantity::Quantity *qz=new quantity::ValueQuantity(quantity::fN), int debug=0)
Definition: Container2D.cc:25

hcaldqm::quantity::ffC_3000
Definition: ValueQuantity.h:20

hcaldqm::ContainerProf2D::book
void book(DQMStore::IBooker &, HcalElectronicsMap const *, std::string subsystem="Hcal", std::string aux="") override
Definition: ContainerProf2D.cc:47

hcaldqm::quantity::ElectronicsQuantity
Definition: ElectronicsQuantity.h:333

LEDTask::_process
void _process(edm::Event const &, edm::EventSetup const &) override
Definition: LEDTask.cc:354

LEDTask::_cTimingMean_Subdet
hcaldqm::Container1D _cTimingMean_Subdet
Definition: LEDTask.h:76

hcaldqm::hashfunctions::fFEDSlot
Definition: HashFunctions.h:147

HcalDbRecord
Definition: HcalDbRecord.h:30

LEDTask::_ledCalibrationChannels
std::map< HcalSubdetector, std::vector< HcalDetId > > _ledCalibrationChannels
Definition: LEDTask.h:105

HcalCalibDetId::calibFlavor
CalibDetType calibFlavor() const
get the flavor of this calibration detid
Definition: HcalCalibDetId.h:77

LEDTask
Definition: LEDTask.h:22

hcaldqm::ContainerProf2D::initialize
void initialize(std::string const &folder, hashfunctions::HashType, quantity::Quantity *, quantity::Quantity *, quantity::Quantity *qz=new quantity::ValueQuantity(quantity::fEnergy), int debug=0) override
Definition: ContainerProf2D.cc:22

edm::DataFrameContainer::const_iterator
boost::transform_iterator< IterHelp, boost::counting_iterator< int > > const_iterator
Definition: DataFrameContainer.h:61

LEDTask::_resetMonitors
void _resetMonitors(hcaldqm::UpdateFreq) override
Definition: LEDTask.cc:295

LEDTask::_cSignalRMS_depth
hcaldqm::ContainerProf2D _cSignalRMS_depth
Definition: LEDTask.h:84

runTauDisplay.eid
eid
Definition: runTauDisplay.py:298

HODataFrame::size
constexpr int size() const
total number of samples in the digi
Definition: HODataFrame.h:27

hcaldqm::hashfunctions::fSubdetPM
Definition: HashFunctions.h:136

ALPAKA_ACCELERATOR_NAMESPACE::vertexFinder::it
auto & it
Definition: splitVertices.h:48

LEDTask::_isApplicable
bool _isApplicable(edm::Event const &) override
Definition: LEDTask.cc:587

hcaldqm::ContainerXXX::get
virtual STDTYPE & get(HcalDetId const &)
Definition: ContainerXXX.h:198

edm
HLT enums.
Definition: AlignableModifier.h:19

hcaldqm::DQTask::_dbService
edm::ESHandle< HcalDbService > _dbService
Definition: DQTask.h:80

edm::InputTag
Definition: InputTag.h:15

LEDTask::_cTimingRMS_Subdet
hcaldqm::Container1D _cTimingRMS_Subdet
Definition: LEDTask.h:77

HcalElectronicsMap::allPrecisionId
std::vector< HcalGenericDetId > allPrecisionId() const
Definition: HcalElectronicsMap.cc:139

hcaldqm::fOnline
Definition: DQModule.h:26

hcaldqm::filter
Definition: HashFilter.h:18

hcaldqm::Container2D::fill
void fill(HcalDetId const &) override
Definition: Container2D.cc:52

LEDTask::_dump
virtual void _dump()
Definition: LEDTask.cc:297

hcaldqm::filter::HashFilter::initialize
virtual void initialize(FilterType ftype, hashfunctions::HashType htype, std::vector< uint32_t > const &)
Definition: HashFilter.cc:17

hcaldqm::DQModule::_subsystem
std::string _subsystem
Definition: DQModule.h:49

LEDTask::_xSignalSum2
hcaldqm::ContainerXXX< double > _xSignalSum2
Definition: LEDTask.h:68

HcalCalibration
Definition: HcalAssistant.h:40

hcaldqm::hashfunctions::fdepth
Definition: HashFunctions.h:140

edm::ParameterSet
Definition: ParameterSet.h:48

LEDTask::_ehashmap
hcaldqm::electronicsmap::ElectronicsMap _ehashmap
Definition: LEDTask.h:56

LEDTask::_LED_ADCvsBX_Subdet
hcaldqm::Container2D _LED_ADCvsBX_Subdet
Definition: LEDTask.h:106

LEDTask::_cSumQ_SubdetPM
hcaldqm::Container1D _cSumQ_SubdetPM
Definition: LEDTask.h:99

LEDTask::_cShapeCut_FEDSlot
hcaldqm::ContainerProf1D _cShapeCut_FEDSlot
Definition: LEDTask.h:80

LEDTask::_tagQIE10
edm::InputTag _tagQIE10
Definition: LEDTask.h:45

hcaldqm::ContainerSingle2D::fill
virtual void fill(int, int)
Definition: ContainerSingle2D.cc:105

hcaldqm::ContainerXXX::initialize
virtual void initialize(hashfunctions::HashType, int debug=0)
Definition: ContainerXXX.h:82

hcaldqm::hashfunctions::fSubdet
Definition: HashFunctions.h:132

hcaldqm::Container2D::book
void book(DQMStore::IBooker &, HcalElectronicsMap const *, std::string subsystem="Hcal", std::string aux="") override
Definition: Container2D.cc:567

edm::Event
Definition: Event.h:73

hcaldqm::quantity::fTime_ns_250
Definition: ValueQuantity.h:55

LEDTask::_cADCvsTS_SubdetPM
hcaldqm::Container2D _cADCvsTS_SubdetPM
Definition: LEDTask.h:98

HcalOther
Definition: HcalAssistant.h:38

HcalElectronicsId
Readout chain identification for Hcal.
Definition: HcalElectronicsId.h:32

HcalDetId::iphi
constexpr int iphi() const
get the cell iphi
Definition: HcalDetId.h:157

hcaldqm::quantity::ValueQuantity
Definition: ValueQuantity.h:339

HcalOtherDetId::subdet
HcalOtherSubdetector subdet() const
get the category
Definition: HcalOtherDetId.h:30

QIE10DataFrame::samples
constexpr int samples() const
total number of samples in the digi
Definition: QIE10DataFrame.h:86

HcalCalibDetId::CalibrationBox
Definition: HcalCalibDetId.h:49

hcaldqm::constants::SLOT_uTCA_MIN
int const SLOT_uTCA_MIN
Definition: Constants.h:111

edm::Run
Definition: Run.h:45

HODataFrame::id
constexpr HcalDetId const  & id() const
Definition: HODataFrame.h:23

gpuClustering::adc
uint16_t *__restrict__ uint16_t const  *__restrict__ adc
Definition: gpuClusterChargeCut.h:19

hcaldqm::quantity::fADC_256_4
Definition: ValueQuantity.h:70

cuy.ib
ib
Definition: cuy.py:661

HcalEmpty
Definition: HcalAssistant.h:32

hcaldqm::utilities::sumQ
double sumQ(DIGI const &digi, double ped, int i=0, int j=3)
Definition: Utilities.h:127

LEDTask::_cSignalMean_Subdet
hcaldqm::Container1D _cSignalMean_Subdet
Definition: LEDTask.h:74

HcalDetId::depth
constexpr int depth() const
get the tower depth
Definition: HcalDetId.h:164