#include <L1TScalersSCAL.h>
Definition at line 14 of file L1TScalersSCAL.h.
anonymous enum |
Definition at line 18 of file L1TScalersSCAL.h.
{ N_LUMISECTION_TIME = 93 };
L1TScalersSCAL::L1TScalersSCAL | ( | const edm::ParameterSet & | ps | ) |
Constructors.
Definition at line 32 of file L1TScalersSCAL.cc.
References algoRate, algorithmRates_, DQMStore::book1D(), DQMStore::book2D(), bufferAlgoRates_, bufferLumi_, bufferTechRates_, buffertime_, bunchCrossingCorr, bunchCrossingDiff, bunchCrossingDiff_small, bunchCrossingL1A, dbe_, deadTime, deadTimePercent, denomBit_, denomIsTech_, egammaBit_, eventNum, i, instEtLumi, instEtLumiErr, instEtLumiQlty, instEventRate, instLumi, instLumiErr, instLumiQlty, instTrigRate, integral_algo_, integral_tech_, integral_tech_42_OR_43_, integralAlgo, integralTech, integralTech_42_OR_43, j, jetBit_, LogDebug, lostFinalTriggers, lostPhysRate, lostPhysRateBeamActive, muonBit_, nev_, Level1TriggerScalers::nLevel1TestTriggers, Level1TriggerScalers::nLevel1Triggers, numberResets, numOrbits, cmsCodeRules::cppFunctionSkipper::operator, orbitNum, orbitNumL1A, physRate, physTrig, randRate, randTrig, rateRatio_egamma, rateRatio_jet, rateRatio_mu, reftime_, MonitorElement::setAxisTitle(), DQMStore::setCurrentFolder(), DQMStore::setVerbose(), startOrbit, technicalRates_, techRate, techRateRatio_10, techRateRatio_33_over_32, techRateRatio_36, techRateRatio_37, techRateRatio_38, techRateRatio_39, techRateRatio_40, techRateRatio_41, techRateRatio_42, techRateRatio_43, techRateRatio_8, techRateRatio_9, and trigNum.
: dbe_(0), scalersSource_( ps.getParameter< edm::InputTag >("scalersResults")), verbose_(ps.getUntrackedParameter <bool> ("verbose", false)), denomIsTech_(ps.getUntrackedParameter <bool> ("denomIsTech", true)), denomBit_(ps.getUntrackedParameter <unsigned int> ("denomBit", 40)), muonBit_(ps.getUntrackedParameter <unsigned int> ("muonBit", 55)), egammaBit_(ps.getUntrackedParameter <unsigned int> ("egammaBit", 46)), jetBit_(ps.getUntrackedParameter <unsigned int> ("jetBit", 15)) { LogDebug("Status") << "constructor" ; for ( int i=0; i<Level1TriggerScalers::nLevel1Triggers; i++) { bufferAlgoRates_.push_back(0); algorithmRates_.push_back(0); integral_algo_.push_back(0.);} for ( int i=0; i<Level1TriggerScalers::nLevel1TestTriggers; i++) { bufferTechRates_.push_back(0); technicalRates_.push_back(0); integral_tech_.push_back(0.);} buffertime_ = 0; reftime_ = 0; nev_ = 0; integral_tech_42_OR_43_ = 0; bufferLumi_ = 0; int maxNbins = 2001; dbe_ = Service<DQMStore>().operator->(); if(dbe_) { dbe_->setVerbose(0); dbe_->setCurrentFolder("L1T/L1TScalersSCAL/Level1TriggerScalers"); //orbitNum = dbe_->book1D("Orbit_Number","Orbit_Number", 1000,0,10E8); orbitNum = dbe_->book1D("Orbit_Number","Orbit_Number", maxNbins,-0.5,double(maxNbins)-0.5); trigNum = dbe_->book1D("Number_of_Triggers","Number_of_Triggers",1000,0,4E4); trigNum->setAxisTitle("Time [sec]", 1); //eventNum = dbe_->book1D("Number_of_Events","Number_of_Events", 1000,0,1E7); eventNum = dbe_->book1D("Number_of_Events","Number_of_Events", maxNbins,-0.5,double(maxNbins)-0.5); physTrig = dbe_->book1D("Physics_Triggers","Physics_Triggers", maxNbins,-0.5,double(maxNbins)-0.5); physTrig->setAxisTitle("Lumi Section", 1); randTrig = dbe_->book1D("Random_Triggers","Random_Triggers", maxNbins,-0.5,double(maxNbins)-0.5); randTrig->setAxisTitle("Lumi Section", 1); //numberResets = dbe_->book1D("Number_Resets","Number_Resets", 1000,0,1000); numberResets = dbe_->book1D("Number_Resets","Number_Resets", maxNbins,-0.5,double(maxNbins)-0.5); //deadTime = dbe_->book1D("DeadTime","DeadTime", 1000,0,1E9); deadTime = dbe_->book1D("DeadTime","DeadTime", maxNbins,-0.5,double(maxNbins)-0.5); //lostFinalTriggers = dbe_->book1D("Lost_Final_Trigger","Lost_Final_Trigger", 1000,0,1E6); lostFinalTriggers = dbe_->book1D("Lost_Final_Trigger","Lost_Final_Trigger", maxNbins,-0.5,double(maxNbins)-0.5); dbe_->setCurrentFolder("L1T/L1TScalersSCAL/Level1TriggerRates"); physRate = dbe_->book1D("Physics_Trigger_Rate","Physics_Trigger_Rate", maxNbins,-0.5,double(maxNbins)-0.5); //physRate->setAxisTitle("Lumi Section", 1); randRate = dbe_->book1D("Random_Trigger_Rate","Random_Trigger_Rate", maxNbins,-0.5,double(maxNbins)-0.5); //randRate->setAxisTitle("Lumi Section", 1); deadTimePercent = dbe_->book1D("Deadtime_Percent","Deadtime_Percent", maxNbins,-0.5,double(maxNbins)-0.5); //deadTimePercent->setAxisTitle("Lumi Section", 1); lostPhysRate = dbe_->book1D("Lost_Physics_Trigger_Rate","Lost_Physics_Trigger_Rate", maxNbins,-0.5,double(maxNbins)-0.5); //lostPhysRate->setAxisTitle("Lumi Section", 1); lostPhysRateBeamActive = dbe_->book1D("Lost_Physics_Trigger_Rate_Beam_Active", "Lost_Physics_Trigger_Rate_Beam_Active", maxNbins,-0.5,double(maxNbins)-0.5); //lostPhysRateBeamActive->setAxisTitle("Lumi Section", 1); instTrigRate = dbe_->book1D("instTrigRate","instTrigRate",1000,0,4E4); instTrigRate->setAxisTitle("Time [sec]", 1); instEventRate = dbe_->book1D("instEventRate","instEventRate",1000,0,4E4); instEventRate->setAxisTitle("Time [sec]", 1); char hname[40];//histo name char mename[40];//ME name dbe_->setCurrentFolder("L1T/L1TScalersSCAL/Level1TriggerRates/AlgorithmRates"); for(int i=0; i<Level1TriggerScalers::nLevel1Triggers; i++) { sprintf(hname, "Rate_AlgoBit_%03d", i); sprintf(mename, "Rate_AlgoBit _%03d", i); algoRate[i] = dbe_->book1D(hname, mename,maxNbins,-0.5,double(maxNbins)-0.5); algoRate[i]->setAxisTitle("Lumi Section" ,1); } dbe_->setCurrentFolder("L1T/L1TScalersSCAL/Level1TriggerRates/AlgorithmRates/Integrated"); for(int i=0; i<Level1TriggerScalers::nLevel1Triggers; i++) { sprintf(hname, "Integral_AlgoBit_%03d", i); sprintf(mename, "Integral_AlgoBit _%03d", i); integralAlgo[i] = dbe_->book1D(hname, mename,maxNbins,-0.5,double(maxNbins)-0.5); integralAlgo[i]->setAxisTitle("Lumi Section" ,1); } dbe_->setCurrentFolder("L1T/L1TScalersSCAL/Level1TriggerRates/TechnicalRates"); for(int i=0; i<Level1TriggerScalers::nLevel1TestTriggers; i++) { sprintf(hname, "Rate_TechBit_%03d", i); sprintf(mename, "Rate_TechBit _%03d", i); techRate[i] = dbe_->book1D(hname, mename,maxNbins,-0.5,double(maxNbins)-0.5); techRate[i]->setAxisTitle("Lumi Section" ,1); } dbe_->setCurrentFolder("L1T/L1TScalersSCAL/Level1TriggerRates/TechnicalRates/Integrated"); for(int i=0; i<Level1TriggerScalers::nLevel1TestTriggers; i++) { sprintf(hname, "Integral_TechBit_%03d", i); sprintf(mename, "Integral_TechBit _%03d", i); integralTech[i] = dbe_->book1D(hname, mename,maxNbins,-0.5,double(maxNbins)-0.5); integralTech[i]->setAxisTitle("Lumi Section" ,1); } integralTech_42_OR_43 = dbe_->book1D("Integral_TechBit_042_OR_043","Integral_TechBit _042_OR_043",maxNbins,-0.5,double(maxNbins)-0.5); integralTech_42_OR_43->setAxisTitle("Lumi Section" ,1); dbe_->setCurrentFolder("L1T/L1TScalersSCAL/Level1TriggerRates/Ratios"); std::stringstream smu,seg,sjet,sdenom; //denominator string if(denomIsTech_) sdenom << "_TechBit_"; else sdenom << "_AlgoBit_"; sdenom << denomBit_; //Muon ratio smu << muonBit_; rateRatio_mu = dbe_->book1D("Rate_Ratio_mu_PhysBit_"+ smu.str()+sdenom.str(), "Rate_Ratio_mu_PhysBit_" + smu.str()+sdenom.str(),maxNbins,-0.5,double(maxNbins)-0.5); //rateRatio_mu->setAxisTitle("Lumi Section" , 1); //Egamma ratio seg << egammaBit_; rateRatio_egamma = dbe_->book1D("Rate_Ratio_egamma_PhysBit_"+ seg.str()+sdenom.str(), "Rate_Ratio_egamma_PhysBit_" + seg.str()+sdenom.str(),maxNbins,-0.5,double(maxNbins)-0.5); //rateRatio_egamma->setAxisTitle("Lumi Section" , 1); //Jet ratio sjet << jetBit_; rateRatio_jet = dbe_->book1D("Rate_Ratio_jet_PhysBit_" + sjet.str()+sdenom.str(), "Rate_Ratio_jet_PhysBit_" + sjet.str()+sdenom.str(),maxNbins,-0.5,double(maxNbins)-0.5); //rateRatio_jet->setAxisTitle("Lumi Section" , 1); //HF bit ratios techRateRatio_8 = dbe_->book1D("Rate_Ratio_TechBit_8"+sdenom.str(), "Rate_Ratio_TechBit_8"+sdenom.str(),maxNbins,-0.5,double(maxNbins)-0.5); //techRateRatio_8->setAxisTitle("Lumi Section" ,1); techRateRatio_9 = dbe_->book1D("Rate_Ratio_TechBit_9"+sdenom.str(), "Rate_Ratio_TechBit_9"+sdenom.str(),maxNbins,-0.5,double(maxNbins)-0.5); //techRateRatio_9->setAxisTitle("Lumi Section" ,1); techRateRatio_10 = dbe_->book1D("Rate_Ratio_TechBit_10"+sdenom.str(), "Rate_Ratio_TechBit_10"+sdenom.str(),maxNbins,-0.5,double(maxNbins)-0.5); //techRateRatio_10->setAxisTitle("Lumi Section" ,1); //Other tech bit ratios techRateRatio_33_over_32 = dbe_->book1D("Rate_Ratio_TechBits_33_over_32", "Rate_Ratio_TechBits_33_over_32",maxNbins,-0.5,double(maxNbins)-0.5); techRateRatio_36 = dbe_->book1D("Rate_Ratio_TechBit_36"+sdenom.str(), "Rate_Ratio_TechBit_36"+sdenom.str(),maxNbins,-0.5,double(maxNbins)-0.5); techRateRatio_37 = dbe_->book1D("Rate_Ratio_TechBit_37"+sdenom.str(), "Rate_Ratio_TechBit_37"+sdenom.str(),maxNbins,-0.5,double(maxNbins)-0.5); techRateRatio_38 = dbe_->book1D("Rate_Ratio_TechBit_38"+sdenom.str(), "Rate_Ratio_TechBit_38"+sdenom.str(),maxNbins,-0.5,double(maxNbins)-0.5); techRateRatio_39 = dbe_->book1D("Rate_Ratio_TechBit_39"+sdenom.str(), "Rate_Ratio_TechBit_39"+sdenom.str(),maxNbins,-0.5,double(maxNbins)-0.5); techRateRatio_40 = dbe_->book1D("Rate_Ratio_TechBit_40"+sdenom.str(), "Rate_Ratio_TechBit_40"+sdenom.str(),maxNbins,-0.5,double(maxNbins)-0.5); techRateRatio_41 = dbe_->book1D("Rate_Ratio_TechBit_41"+sdenom.str(), "Rate_Ratio_TechBit_41"+sdenom.str(),maxNbins,-0.5,double(maxNbins)-0.5); techRateRatio_42 = dbe_->book1D("Rate_Ratio_TechBit_42"+sdenom.str(), "Rate_Ratio_TechBit_42"+sdenom.str(),maxNbins,-0.5,double(maxNbins)-0.5); techRateRatio_43 = dbe_->book1D("Rate_Ratio_TechBit_43"+sdenom.str(), "Rate_Ratio_TechBit_43"+sdenom.str(),maxNbins,-0.5,double(maxNbins)-0.5); dbe_->setCurrentFolder("L1T/L1TScalersSCAL/LumiScalers"); //instLumi = dbe_->book1D("Instant Lumi","Instant Lumi",100,0,100); instLumi = dbe_->book1D("Instant_Lumi","Instant_Lumi", maxNbins,-0.5,double(maxNbins)-0.5); //instLumiErr = dbe_->book1D("Instant Lumi Err","Instant Lumi Err",100, // 0,100); instLumiErr = dbe_->book1D("Instant_Lumi_Err","Instant_Lumi_Err",maxNbins,-0.5,double(maxNbins)-0.5); //instLumiQlty = dbe_->book1D("Instant Lumi Qlty","Instant Lumi Qlty",100, // 0,100); instLumiQlty = dbe_->book1D("Instant_Lumi_Qlty","Instant_Lumi_Qlty",maxNbins,-0.5,double(maxNbins)-0.5); //instEtLumi = dbe_->book1D("Instant Et Lumi","Instant Et Lumi",100,0,100); instEtLumi = dbe_->book1D("Instant_Et_Lumi","Instant_Et_Lumi",maxNbins,-0.5,double(maxNbins)-0.5); //instEtLumiErr = dbe_->book1D("Instant Et Lumi Err","Instant Et Lumi Err", // 100,0,100); instEtLumiErr = dbe_->book1D("Instant_Et_Lumi_Err","Instant_Et_Lumi_Err",maxNbins,-0.5,double(maxNbins)-0.5); //instEtLumiQlty = dbe_->book1D("Instant Et Lumi Qlty", // "Instant Et Lumi Qlty",100,0,100); instEtLumiQlty = dbe_->book1D("Instant_Et_Lumi_Qlty", "Instant_Et_Lumi_Qlty",maxNbins,-0.5,double(maxNbins)-0.5); //sectionNum = dbe_->book1D("Section Number","Section Number",100,0,100); //startOrbit = dbe_->book1D("Start Orbit","Start Orbit",100,0,100); startOrbit = dbe_->book1D("Start_Orbit","Start_Orbit", maxNbins,-0.5,double(maxNbins)-0.5); //numOrbits = dbe_->book1D("Num Orbits","Num Orbits",100,0,100); numOrbits = dbe_->book1D("Num_Orbits","Num_Orbits", maxNbins,-0.5,double(maxNbins)-0.5); dbe_->setCurrentFolder("L1T/L1TScalersSCAL/L1AcceptBunchCrossing"); for(int i=0; i<4; i++){ sprintf(hname, "OrbitNumber_L1A_%d", i+1); sprintf(mename, "OrbitNumber_L1A_%d", i+1); orbitNumL1A[i] = dbe_->book1D(hname,mename,200,0,10E8); sprintf(hname, "Bunch_Crossing_L1A_%d", i+1); sprintf(mename, "Bunch_Crossing_L1A_%d", i+1); bunchCrossingL1A[i]= dbe_->book1D(hname, mename, 3564, -0.5, 3563.5); } orbitNumL1A[0]->setAxisTitle("Current BX",1); orbitNumL1A[1]->setAxisTitle("Previous BX",1); orbitNumL1A[2]->setAxisTitle("Second Previous BX",1); orbitNumL1A[3]->setAxisTitle("Third Previous BX",1); bunchCrossingL1A[0]->setAxisTitle("Current BX",1); bunchCrossingL1A[1]->setAxisTitle("Previous BX",1); bunchCrossingL1A[2]->setAxisTitle("Second Previous BX",1); bunchCrossingL1A[3]->setAxisTitle("Third Previous BX",1); for(int j=0; j<3; j++) { sprintf(hname, "BX_Correlation_%d", j+1); sprintf(mename, "BX_Correlation_%d", j+1); bunchCrossingCorr[j] = dbe_->book2D(hname, mename, 99,-0.5,3563.5, 99,-0.5,3563.5); bunchCrossingCorr[j]->setAxisTitle("Current Event", 1); sprintf(hname, "Bunch_Crossing_Diff_%d", j+1); sprintf(mename, "Bunch_Crossing_Diff_%d", j+1); bunchCrossingDiff[j] = dbe_->book1D(hname, mename, 1000,0,1E6); sprintf(hname, "Bunch_Crossing_Diff_small_%d", j+1); sprintf(mename, "Bunch_Crossing_Diff_small_%d", j+1); bunchCrossingDiff_small[j] = dbe_->book1D(hname, mename, 1000,0,1000); } bunchCrossingCorr[0]->setAxisTitle("Previous Event" , 2); bunchCrossingCorr[1]->setAxisTitle("Second Previous Event" , 2); bunchCrossingCorr[2]->setAxisTitle("Third Previous Event" , 2); bunchCrossingDiff[0]->setAxisTitle("BX_Current - BX_Previous" , 1); bunchCrossingDiff[1]->setAxisTitle("BX_Current - BX_SecondPrevious" , 1); bunchCrossingDiff[2]->setAxisTitle("BX_Current - BX_ThirdPrevious" , 1); bunchCrossingDiff_small[0]->setAxisTitle("BX_Current - BX_Previous" , 1); bunchCrossingDiff_small[1]->setAxisTitle("BX_Current - BX_SecondPrevious" , 1); bunchCrossingDiff_small[2]->setAxisTitle("BX_Current - BX_ThirdPrevious" , 1); } }
L1TScalersSCAL::~L1TScalersSCAL | ( | ) | [virtual] |
Destructor.
Definition at line 286 of file L1TScalersSCAL.cc.
{ // do anything here that needs to be done at destruction time // (e.g. close files, deallocate resources etc.) }
void L1TScalersSCAL::analyze | ( | const edm::Event & | e, |
const edm::EventSetup & | c | ||
) | [virtual] |
Implements edm::EDAnalyzer.
Definition at line 299 of file L1TScalersSCAL.cc.
References a, abs, algoRate, algorithmRates_, bufferAlgoRates_, bufferLumi_, bufferTechRates_, buffertime_, bunchCrossingCorr, bunchCrossingDiff, bunchCrossingDiff_small, bunchCrossingL1A, trackerHits::c, deadTime, deadTimePercent, Level1TriggerRates::deadtimePercent(), denomBit_, denomIsTech_, egammaBit_, eventNum, MonitorElement::Fill(), edm::Event::getByLabel(), Level1TriggerRates::gtAlgoCountsRate(), Level1TriggerRates::gtTechCountsRate(), i, edm::EventBase::id(), instEtLumi, instEtLumiErr, instEtLumiQlty, instEventRate, instLumi, instLumiErr, instLumiQlty, instTrigRate, integral_algo_, integral_tech_, integral_tech_42_OR_43_, integralAlgo, integralTech, integralTech_42_OR_43, jetBit_, Level1TriggerRates::l1AsPhysicsRate(), Level1TriggerRates::l1AsRandomRate(), lostFinalTriggers, lostPhysRate, lostPhysRateBeamActive, edm::EventBase::luminosityBlock(), muonBit_, nev_, numberResets, numOrbits, orbitNum, orbitNumL1A, physRate, physTrig, randRate, randTrig, rateRatio_egamma, rateRatio_jet, rateRatio_mu, reftime_, edm::EventID::run(), CrabTask::run, scalersSource_, SECS_PER_LUMI, MonitorElement::setBinContent(), startOrbit, technicalRates_, techRate, techRateRatio_10, techRateRatio_33_over_32, techRateRatio_36, techRateRatio_37, techRateRatio_38, techRateRatio_39, techRateRatio_40, techRateRatio_41, techRateRatio_42, techRateRatio_43, techRateRatio_8, techRateRatio_9, Level1TriggerRates::triggersPhysicsLostBeamActiveRate(), Level1TriggerRates::triggersPhysicsLostRate(), and trigNum.
{ nev_++; //access SCAL info edm::Handle<Level1TriggerScalersCollection> triggerScalers; bool a = iEvent.getByLabel(scalersSource_, triggerScalers); //edm::Handle<L1TriggerRatesCollection> triggerRates; //edm::Handle<Level1TriggerRatesCollection> triggerRates; //bool b = iEvent.getByLabel(scalersSource_, triggerRates); edm::Handle<LumiScalersCollection> lumiScalers; bool c = iEvent.getByLabel(scalersSource_, lumiScalers); edm::Handle<L1AcceptBunchCrossingCollection> bunchCrossings; bool d = iEvent.getByLabel(scalersSource_, bunchCrossings); double evtLumi = iEvent.luminosityBlock(); int run = iEvent.id().run(); if ( ! (a && c && d) ) { LogInfo("Status") << "getByLabel failed with label " << scalersSource_; } else { // we have the data Level1TriggerScalersCollection::const_iterator it = triggerScalers->begin(); if(triggerScalers->size()){ //for(L1TriggerScalersCollection::const_iterator it = triggerScalers->begin(); //it != triggerScalers->end(); //++it){ unsigned int lumisection = it->lumiSegmentNr(); struct timespec thetime = it->collectionTime(); long currenttime; //cout << "lumisection = " << lumisection << endl; if(nev_ == 1) reftime_ = thetime.tv_sec; //cout << "reftime = " << reftime_ << endl; if(lumisection){ //orbitNum->Fill(it->orbitNr()); orbitNum->setBinContent(lumisection+1,it->orbitNr()); //trigNum ->Fill(it->gtTriggers()); //trigNum->setBinContent(lumisection+1, it->gtTriggers()); //eventNum->Fill(it->gtEvents()); eventNum->setBinContent(lumisection+1,it->gtEvents()); //physTrig ->Fill(it->l1AsPhysics()); physTrig->setBinContent(lumisection+1, it->l1AsPhysics()); //randTrig ->Fill(it->l1AsRandom()); randTrig->setBinContent(lumisection+1, it->l1AsRandom()); //numberResets ->Fill(it->gtResets()); numberResets->setBinContent(lumisection+1, it->gtResets()); //deadTime ->Fill(it->deadtime()); deadTime->setBinContent(lumisection+1, it->deadtime()); //lostFinalTriggers ->Fill(it->triggersPhysicsLost()); lostFinalTriggers->setBinContent(lumisection+1, it->triggersPhysicsLost()); //cout << "lumisection = " << lumisection << " , orbitNum = " // << it->orbitNr() << ", lumiSegmentOrbits = " << it->lumiSegmentOrbits() // << ", l1AsPhys = " << it->l1AsPhysics() << endl; //cout << "gtTriggersRate = " << it->gtTriggersRate() << endl; if(buffertime_ < thetime.tv_sec){ buffertime_ = thetime.tv_sec; currenttime = thetime.tv_sec - reftime_ ; int timebin = (int)(currenttime/30) + 1; //cout << "time bin = " << timebin << endl; trigNum->setBinContent((int)timebin ,it->gtTriggers()); instTrigRate->setBinContent((int)timebin ,it->gtTriggersRate()); instEventRate->setBinContent((int)timebin ,it->gtEventsRate()); } //cout << "tv_sec = " << thetime.tv_sec << endl; //std::vector<unsigned int> algoBits = it->gtAlgoCounts(); //std::vector<unsigned int> techBits = it->gtTechCounts(); /* int length = algoBits.size() / 4; char line[128]; for ( int i=0; i<length; i++) { sprintf(line," %3.3d: %10u %3.3d: %10u %3.3d: %10u %3.3d: %10u", i, algoBits[i], (i+length), algoBits[i+length], (i+(length*2)), algoBits[i+(length*2)], (i+(length*3)), algoBits[i+(length*3)]); std::cout << line << std::endl; } */ //sprintf(line, // " LuminositySection: %15d BunchCrossingErrors: %15d", // it->luminositySection(), it->bunchCrossingErrors()); //std::cout << line << std::endl; //Level1TriggerRatesCollection::const_iterator it2 = triggerRates->begin(); Level1TriggerRates trigRates(*it,run); Level1TriggerRates *triggerRates = &trigRates; if(triggerRates){ algorithmRates_ = triggerRates->gtAlgoCountsRate(); technicalRates_ = triggerRates->gtTechCountsRate(); if( ((bufferLumi_!=lumisection) && (bufferLumi_<lumisection) && (evtLumi>1 || evtLumi==lumisection+1)) ){ bufferLumi_ = lumisection; if(bufferAlgoRates_ != algorithmRates_){ bufferAlgoRates_ = algorithmRates_; for (unsigned int i=0; i< algorithmRates_.size(); i++){ integral_algo_[i]+=(algorithmRates_[i]*SECS_PER_LUMI); algoRate[i]->setBinContent(lumisection+1, algorithmRates_[i]); integralAlgo[i]->setBinContent(lumisection+1,integral_algo_[i]); } } if(bufferTechRates_ != technicalRates_){ bufferTechRates_ = technicalRates_; for (unsigned int i=0; i< technicalRates_.size(); i++){ integral_tech_[i]+=(technicalRates_[i]*SECS_PER_LUMI); techRate[i]->setBinContent(lumisection+1, technicalRates_[i]); integralTech[i]->setBinContent(lumisection+1, integral_tech_[i]); if( (i==42 || i==43) ) integral_tech_42_OR_43_+=(technicalRates_[i]*SECS_PER_LUMI); } //fill rate ratio plots if(denomIsTech_){ if( denomBit_ < technicalRates_.size() ){ if(technicalRates_[denomBit_]){ if( muonBit_ < algorithmRates_.size() ) rateRatio_mu->setBinContent(lumisection+1, algorithmRates_[muonBit_]/technicalRates_[denomBit_]); if( egammaBit_ < algorithmRates_.size() ) rateRatio_egamma->setBinContent(lumisection+1, algorithmRates_[egammaBit_]/technicalRates_[denomBit_]); if( jetBit_ < algorithmRates_.size() ) rateRatio_jet->setBinContent(lumisection+1, algorithmRates_[jetBit_]/technicalRates_[denomBit_]); techRateRatio_8->setBinContent(lumisection+1, technicalRates_[8]/technicalRates_[denomBit_]); techRateRatio_9->setBinContent(lumisection+1, technicalRates_[9]/technicalRates_[denomBit_]); techRateRatio_10->setBinContent(lumisection+1, technicalRates_[10]/technicalRates_[denomBit_]); techRateRatio_36->setBinContent(lumisection+1, technicalRates_[36]/technicalRates_[denomBit_]); techRateRatio_37->setBinContent(lumisection+1, technicalRates_[37]/technicalRates_[denomBit_]); techRateRatio_38->setBinContent(lumisection+1, technicalRates_[38]/technicalRates_[denomBit_]); techRateRatio_39->setBinContent(lumisection+1, technicalRates_[39]/technicalRates_[denomBit_]); techRateRatio_40->setBinContent(lumisection+1, technicalRates_[40]/technicalRates_[denomBit_]); techRateRatio_41->setBinContent(lumisection+1, technicalRates_[41]/technicalRates_[denomBit_]); techRateRatio_42->setBinContent(lumisection+1, technicalRates_[42]/technicalRates_[denomBit_]); techRateRatio_43->setBinContent(lumisection+1, technicalRates_[43]/technicalRates_[denomBit_]); } } } if( technicalRates_[32]!=0 ) techRateRatio_33_over_32->setBinContent(lumisection+1, technicalRates_[33]/technicalRates_[32]); integralTech_42_OR_43->setBinContent(lumisection+1, integral_tech_42_OR_43_); } physRate->setBinContent(lumisection+1, triggerRates->l1AsPhysicsRate()); randRate->setBinContent(lumisection+1, triggerRates->l1AsRandomRate()); lostPhysRate->setBinContent(lumisection+1, triggerRates->triggersPhysicsLostRate()); lostPhysRateBeamActive->setBinContent(lumisection+1, triggerRates->triggersPhysicsLostBeamActiveRate()); deadTimePercent->setBinContent(lumisection+1, triggerRates->deadtimePercent()); }//bufferLumi test }//triggerRates }//lumisection }//triggerScalers->size() LumiScalersCollection::const_iterator it3 = lumiScalers->begin(); if(lumiScalers->size()){ //for(LumiScalersCollection::const_iterator it3 = lumiScalers->begin(); //it3 != lumiScalers->end(); //++it3){ unsigned int lumisection = it3->sectionNumber(); if(lumisection){ instLumi->setBinContent(lumisection+1, it3->instantLumi()); instLumiErr->setBinContent(lumisection+1, it3->instantLumiErr()); instLumiQlty->setBinContent(lumisection+1, it3->instantLumiQlty()); instEtLumi->setBinContent(lumisection+1, it3->instantETLumi()); instEtLumiErr->setBinContent(lumisection+1, it3->instantETLumiErr()); instEtLumiQlty->setBinContent(lumisection+1, it3->instantETLumiQlty()); //sectionNum->Fill(it3->sectionNumber()); startOrbit->setBinContent(lumisection+1, it3->startOrbit()); numOrbits->setBinContent(lumisection+1, it3->numOrbits()); } /* char line2[128]; sprintf(line2," InstantLumi: %e Err: %e Qlty: %d", it3->instantLumi(), it3->instantLumiErr(), it3->instantLumiQlty()); std::cout << line2 << std::endl; sprintf(line2," SectionNumber: %10d StartOrbit: %10d NumOrbits: %10d", it3->sectionNumber(), it3->startOrbit(), it3->numOrbits()); std::cout << line2 << std::endl; */ } // L1AcceptBunchCrossingCollection::const_iterator it4 = bunchCrossings->begin(); //if(bunchCrossings->size()){ //int counttest=0; int l1accept; unsigned int bx_current = 0, orbitnumber_current = 0, bxdiff = 0; for(L1AcceptBunchCrossingCollection::const_iterator it4 = bunchCrossings->begin(); it4 != bunchCrossings->end(); ++it4){ //counttest++; //cout << "counttest = " << counttest << endl; //cout << "bunchCrossing = " << it4->bunchCrossing() << endl; //cout << "l1AcceptOffset = " << it4->l1AcceptOffset() << endl; l1accept = std::abs(it4->l1AcceptOffset()); //cout << "l1a orbit number (before if)= " << it4->orbitNumber() << endl; //cout << "l1a bunch crossing = " << it4->bunchCrossing() << endl; if(l1accept == 0){ orbitnumber_current = it4->orbitNumber(); orbitNumL1A[l1accept]->Fill(orbitnumber_current); bx_current = it4->bunchCrossing(); bunchCrossingL1A[l1accept]->Fill(bx_current); } else if (l1accept==1 || l1accept==2 || l1accept==3){ orbitNumL1A[l1accept]->Fill(it4->orbitNumber()); bunchCrossingL1A[l1accept]->Fill(it4->bunchCrossing()); //cout << "l1accept = " << l1accept << ", bx_current = " << bx_current << ", it4->bunchCrossing() = " << it4->bunchCrossing() << endl; bunchCrossingCorr[l1accept-1]->Fill(bx_current, it4->bunchCrossing()); bxdiff = 3564*(orbitnumber_current-it4->orbitNumber()) + bx_current - it4->bunchCrossing(); bunchCrossingDiff[l1accept-1]->Fill(bxdiff); bunchCrossingDiff_small[l1accept-1]->Fill(bxdiff); } } } // getByLabel succeeds for scalers }
void L1TScalersSCAL::beginJob | ( | void | ) | [virtual] |
void L1TScalersSCAL::beginRun | ( | const edm::Run & | run, |
const edm::EventSetup & | c | ||
) | [virtual] |
void L1TScalersSCAL::endJob | ( | void | ) | [virtual] |
void L1TScalersSCAL::endLuminosityBlock | ( | const edm::LuminosityBlock & | lumiSeg, |
const edm::EventSetup & | c | ||
) | [virtual] |
End LumiBlock DQM Client Diagnostic should be performed here
Reimplemented from edm::EDAnalyzer.
Definition at line 569 of file L1TScalersSCAL.cc.
{ }
void L1TScalersSCAL::endRun | ( | const edm::Run & | run, |
const edm::EventSetup & | c | ||
) | [virtual] |
MonitorElement* L1TScalersSCAL::algoRate[128] [private] |
Definition at line 76 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
std::vector<double> L1TScalersSCAL::algorithmRates_ [private] |
Definition at line 59 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
std::vector<double> L1TScalersSCAL::bufferAlgoRates_ [private] |
Definition at line 60 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
unsigned int L1TScalersSCAL::bufferLumi_ [private] |
Definition at line 66 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
std::vector<double> L1TScalersSCAL::bufferTechRates_ [private] |
Definition at line 62 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
long L1TScalersSCAL::buffertime_ [private] |
Definition at line 58 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
MonitorElement* L1TScalersSCAL::bunchCrossingCorr[3] [private] |
Definition at line 120 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
MonitorElement* L1TScalersSCAL::bunchCrossingDiff[3] [private] |
Definition at line 121 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
MonitorElement* L1TScalersSCAL::bunchCrossingDiff_small[3] [private] |
Definition at line 122 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
MonitorElement* L1TScalersSCAL::bunchCrossingL1A[4] [private] |
Definition at line 119 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
DQMStore* L1TScalersSCAL::dbe_ [private] |
Definition at line 51 of file L1TScalersSCAL.h.
Referenced by L1TScalersSCAL().
MonitorElement* L1TScalersSCAL::deadTime [private] |
Definition at line 74 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
MonitorElement* L1TScalersSCAL::deadTimePercent [private] |
Definition at line 100 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
unsigned int L1TScalersSCAL::denomBit_ [private] |
Definition at line 56 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
bool L1TScalersSCAL::denomIsTech_ [private] |
Definition at line 55 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
unsigned int L1TScalersSCAL::egammaBit_ [private] |
Definition at line 56 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
MonitorElement* L1TScalersSCAL::eventNum [private] |
Definition at line 70 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
MonitorElement* L1TScalersSCAL::instEtLumi [private] |
Definition at line 110 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
MonitorElement* L1TScalersSCAL::instEtLumiErr [private] |
Definition at line 111 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
MonitorElement* L1TScalersSCAL::instEtLumiQlty [private] |
Definition at line 112 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
MonitorElement* L1TScalersSCAL::instEventRate [private] |
Definition at line 104 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
MonitorElement* L1TScalersSCAL::instLumi [private] |
Definition at line 107 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
MonitorElement* L1TScalersSCAL::instLumiErr [private] |
Definition at line 108 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
MonitorElement* L1TScalersSCAL::instLumiQlty [private] |
Definition at line 109 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
MonitorElement* L1TScalersSCAL::instTrigRate [private] |
Definition at line 103 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
std::vector<double> L1TScalersSCAL::integral_algo_ [private] |
Definition at line 63 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
std::vector<double> L1TScalersSCAL::integral_tech_ [private] |
Definition at line 64 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
double L1TScalersSCAL::integral_tech_42_OR_43_ [private] |
Definition at line 65 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
MonitorElement* L1TScalersSCAL::integralAlgo[128] [private] |
Definition at line 78 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
MonitorElement* L1TScalersSCAL::integralTech[64] [private] |
Definition at line 79 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
Definition at line 80 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
unsigned int L1TScalersSCAL::jetBit_ [private] |
Definition at line 56 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
MonitorElement* L1TScalersSCAL::lostFinalTriggers [private] |
Definition at line 75 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
MonitorElement* L1TScalersSCAL::lostPhysRate [private] |
Definition at line 101 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
Definition at line 102 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
bool L1TScalersSCAL::monitorDaemon_ [private] |
Definition at line 55 of file L1TScalersSCAL.h.
unsigned int L1TScalersSCAL::muonBit_ [private] |
Definition at line 56 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
int L1TScalersSCAL::nev_ [private] |
Definition at line 57 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
MonitorElement* L1TScalersSCAL::numberResets [private] |
Definition at line 73 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
MonitorElement* L1TScalersSCAL::numOrbits [private] |
Definition at line 115 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
MonitorElement* L1TScalersSCAL::orbitNum [private] |
Definition at line 68 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
MonitorElement* L1TScalersSCAL::orbitNumL1A[4] [private] |
Definition at line 118 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
std::string L1TScalersSCAL::outputFile_ [private] |
Definition at line 54 of file L1TScalersSCAL.h.
MonitorElement* L1TScalersSCAL::physRate [private] |
Definition at line 98 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
MonitorElement* L1TScalersSCAL::physTrig [private] |
Definition at line 71 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
MonitorElement* L1TScalersSCAL::randRate [private] |
Definition at line 99 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
MonitorElement* L1TScalersSCAL::randTrig [private] |
Definition at line 72 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
MonitorElement* L1TScalersSCAL::rateRatio_egamma [private] |
Definition at line 94 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
MonitorElement* L1TScalersSCAL::rateRatio_jet [private] |
Definition at line 95 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
MonitorElement* L1TScalersSCAL::rateRatio_mu [private] |
Definition at line 93 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
long L1TScalersSCAL::reftime_ [private] |
Definition at line 58 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
edm::InputTag L1TScalersSCAL::scalersSource_ [private] |
Definition at line 52 of file L1TScalersSCAL.h.
Referenced by analyze().
MonitorElement* L1TScalersSCAL::sectionNum [private] |
Definition at line 113 of file L1TScalersSCAL.h.
MonitorElement* L1TScalersSCAL::startOrbit [private] |
Definition at line 114 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
std::vector<double> L1TScalersSCAL::technicalRates_ [private] |
Definition at line 61 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
MonitorElement* L1TScalersSCAL::techRate[64] [private] |
Definition at line 77 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
MonitorElement* L1TScalersSCAL::techRateRatio_10 [private] |
Definition at line 84 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
Definition at line 81 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
MonitorElement* L1TScalersSCAL::techRateRatio_36 [private] |
Definition at line 85 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
MonitorElement* L1TScalersSCAL::techRateRatio_37 [private] |
Definition at line 86 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
MonitorElement* L1TScalersSCAL::techRateRatio_38 [private] |
Definition at line 87 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
MonitorElement* L1TScalersSCAL::techRateRatio_39 [private] |
Definition at line 88 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
MonitorElement* L1TScalersSCAL::techRateRatio_40 [private] |
Definition at line 89 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
MonitorElement* L1TScalersSCAL::techRateRatio_41 [private] |
Definition at line 90 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
MonitorElement* L1TScalersSCAL::techRateRatio_42 [private] |
Definition at line 91 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
MonitorElement* L1TScalersSCAL::techRateRatio_43 [private] |
Definition at line 92 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
MonitorElement* L1TScalersSCAL::techRateRatio_8 [private] |
Definition at line 82 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
MonitorElement* L1TScalersSCAL::techRateRatio_9 [private] |
Definition at line 83 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
MonitorElement* L1TScalersSCAL::trigNum [private] |
Definition at line 69 of file L1TScalersSCAL.h.
Referenced by analyze(), and L1TScalersSCAL().
bool L1TScalersSCAL::verbose_ [private] |
Definition at line 55 of file L1TScalersSCAL.h.