#include <DTTTrigCalibration.h>
Public Member Functions | |
void | analyze (const edm::Event &event, const edm::EventSetup &eventSetup) |
Fill the time boxes. | |
DTTTrigCalibration (const edm::ParameterSet &pset) | |
Constructor. | |
void | endJob () |
Fit the time box rising edge and write the resulting ttrig to the DB. | |
virtual | ~DTTTrigCalibration () |
Destructor. | |
Private Member Functions | |
void | dumpTTrigMap (const DTTtrig *tTrig) const |
std::string | getOccupancyName (const DTLayerId &slId) const |
std::string | getTBoxName (const DTSuperLayerId &slId) const |
void | plotTTrig (const DTTtrig *tTrig) const |
Private Attributes | |
bool | checkNoisyChannels |
bool | debug |
std::string | digiLabel |
bool | doSubtractT0 |
bool | findTMeanAndSigma |
double | kFactor |
int | maxDigiPerLayer |
int | maxTDCCounts |
TFile * | theFile |
DTTimeBoxFitter * | theFitter |
std::map< DTSuperLayerId, TH1F * > | theHistoMap |
std::map< DTLayerId, TH1F * > | theOccupancyMap |
DTTTrigBaseSync * | theSync |
Analyzer class which fills time box plots with SL granularity for t_trig computation, fits the rising edge and write results to DB. The time boxes are written to file.
Definition at line 34 of file DTTTrigCalibration.h.
DTTTrigCalibration::DTTTrigCalibration | ( | const edm::ParameterSet & | pset | ) |
Constructor.
Definition at line 45 of file DTTTrigCalibration.cc.
References gather_cfg::cout, debug, dtT0WireCalibration_cfg::digiLabel, reco::get(), edm::ParameterSet::getUntrackedParameter(), dtT0WireCalibration_cfg::rootFileName, and interactiveExample::theFile.
{ // Get the debug parameter for verbose output debug = pset.getUntrackedParameter<bool>("debug"); // Get the label to retrieve digis from the event digiLabel = pset.getUntrackedParameter<string>("digiLabel"); // Switch on/off the DB writing findTMeanAndSigma = pset.getUntrackedParameter<bool>("fitAndWrite", false); // The TDC time-window (ns) maxTDCCounts = 5000 * pset.getUntrackedParameter<int>("tdcRescale", 1); //The maximum number of digis per layer maxDigiPerLayer = pset.getUntrackedParameter<int>("maxDigiPerLayer", 10); // The root file which will contain the histos string rootFileName = pset.getUntrackedParameter<string>("rootFileName"); theFile = new TFile(rootFileName.c_str(), "RECREATE"); theFile->cd(); theFitter = new DTTimeBoxFitter(); if(debug) theFitter->setVerbosity(1); double sigmaFit = pset.getUntrackedParameter<double>("sigmaTTrigFit",10.); theFitter->setFitSigma(sigmaFit); doSubtractT0 = pset.getUntrackedParameter<bool>("doSubtractT0","false"); // Get the synchronizer if(doSubtractT0) { theSync = DTTTrigSyncFactory::get()->create(pset.getUntrackedParameter<string>("tTrigMode"), pset.getUntrackedParameter<ParameterSet>("tTrigModeConfig")); } else { theSync = 0; } checkNoisyChannels = pset.getUntrackedParameter<bool>("checkNoisyChannels","false"); // the kfactor to be uploaded in the ttrig DB kFactor = pset.getUntrackedParameter<double>("kFactor",-0.7); if(debug) cout << "[DTTTrigCalibration]Constructor called!" << endl; }
DTTTrigCalibration::~DTTTrigCalibration | ( | ) | [virtual] |
Destructor.
Definition at line 92 of file DTTTrigCalibration.cc.
References gather_cfg::cout, debug, and interactiveExample::theFile.
void DTTTrigCalibration::analyze | ( | const edm::Event & | event, |
const edm::EventSetup & | eventSetup | ||
) | [virtual] |
Fill the time boxes.
Perform the real analysis.
Implements edm::EDAnalyzer.
Definition at line 110 of file DTTTrigCalibration.cc.
References DTLayer::chamber(), DTSuperLayerId::chamberId(), gather_cfg::cout, debug, dtT0WireCalibration_cfg::digiLabel, edm::EventSetup::get(), evf::evtn::offset(), crabStatusFromReport::statusMap, DTLayerId::superlayerId(), and interactiveExample::theFile.
{ if(debug) cout << "[DTTTrigCalibration] #Event: " << event.id().event() << endl; // Get the digis from the event Handle<DTDigiCollection> digis; event.getByLabel(digiLabel, digis); ESHandle<DTStatusFlag> statusMap; if(checkNoisyChannels) { // Get the map of noisy channels eventSetup.get<DTStatusFlagRcd>().get(statusMap); } if(doSubtractT0) theSync->setES(eventSetup); //The chambers too noisy in this event vector<DTChamberId> badChambers; // Iterate through all digi collections ordered by LayerId DTDigiCollection::DigiRangeIterator dtLayerIt; for (dtLayerIt = digis->begin(); dtLayerIt != digis->end(); ++dtLayerIt){ // Get the iterators over the digis associated with this LayerId const DTDigiCollection::Range& digiRange = (*dtLayerIt).second; const DTLayerId layerId = (*dtLayerIt).first; const DTSuperLayerId slId = layerId.superlayerId(); const DTChamberId chId = slId.chamberId(); bool badChamber=false; if(debug) cout<<"----------- Layer "<<layerId<<" -------------"<<endl; //Check if the layer is inside a noisy chamber for(vector<DTChamberId>::const_iterator chamber = badChambers.begin(); chamber != badChambers.end(); chamber++){ if((*chamber) == chId){ badChamber=true; break; } } if(badChamber) continue; //Check if the layer has too many digis if((digiRange.second - digiRange.first) > maxDigiPerLayer){ if(debug) cout<<"Layer "<<layerId<<"has too many digis ("<<(digiRange.second - digiRange.first)<<")"<<endl; badChambers.push_back(chId); continue; } // Get the histo from the map TH1F *hTBox = theHistoMap[slId]; if(hTBox == 0) { // Book the histogram theFile->cd(); hTBox = new TH1F(getTBoxName(slId).c_str(), "Time box (ns)", int(0.25*32.0*maxTDCCounts/25.0), 0, maxTDCCounts); if(debug) cout << " New Time Box: " << hTBox->GetName() << endl; theHistoMap[slId] = hTBox; } TH1F *hO = theOccupancyMap[layerId]; if(hO == 0) { // Book the histogram theFile->cd(); hO = new TH1F(getOccupancyName(layerId).c_str(), "Occupancy", 100, 0, 100); if(debug) cout << " New Time Box: " << hO->GetName() << endl; theOccupancyMap[layerId] = hO; } // Loop over all digis in the given range for (DTDigiCollection::const_iterator digi = digiRange.first; digi != digiRange.second; digi++) { const DTWireId wireId(layerId, (*digi).wire()); // Check for noisy channels and skip them if(checkNoisyChannels) { bool isNoisy = false; bool isFEMasked = false; bool isTDCMasked = false; bool isTrigMask = false; bool isDead = false; bool isNohv = false; statusMap->cellStatus(wireId, isNoisy, isFEMasked, isTDCMasked, isTrigMask, isDead, isNohv); if(isNoisy) { if(debug) cout << "Wire: " << wireId << " is noisy, skipping!" << endl; continue; } } theFile->cd(); double offset = 0; if(doSubtractT0) { const DTLayer* layer = 0;//fake const GlobalPoint glPt;//fake offset = theSync->offset(layer, wireId, glPt); } hTBox->Fill((*digi).time()-offset); if(debug) { cout << " Filling Time Box: " << hTBox->GetName() << endl; cout << " offset (ns): " << offset << endl; cout << " time(ns): " << (*digi).time()-offset<< endl; } hO->Fill((*digi).wire()); } } }
void DTTTrigCalibration::dumpTTrigMap | ( | const DTTtrig * | tTrig | ) | const [private] |
Definition at line 304 of file DTTTrigCalibration.cc.
References DTTtrig::begin(), gather_cfg::cout, and DTTtrig::end().
{ static const double convToNs = 25./32.; for(DTTtrig::const_iterator ttrig = tTrig->begin(); ttrig != tTrig->end(); ttrig++) { cout << "Wh: " << (*ttrig).first.wheelId << " St: " << (*ttrig).first.stationId << " Sc: " << (*ttrig).first.sectorId << " Sl: " << (*ttrig).first.slId << " TTrig mean (ns): " << (*ttrig).second.tTrig * convToNs << " TTrig sigma (ns): " << (*ttrig).second.tTrms * convToNs<< endl; } }
void DTTTrigCalibration::endJob | ( | void | ) | [virtual] |
Fit the time box rising edge and write the resulting ttrig to the DB.
Reimplemented from edm::EDAnalyzer.
Definition at line 224 of file DTTTrigCalibration.cc.
References gather_cfg::cout, debug, DTTimeUnits::ns, DTTtrig::set(), interactiveExample::theFile, and DTCalibDBUtils::writeToDB().
{ if(debug) cout << "[DTTTrigCalibration]Writing histos to file!" << endl; // Write all time boxes to file theFile->cd(); for(map<DTSuperLayerId, TH1F*>::const_iterator slHisto = theHistoMap.begin(); slHisto != theHistoMap.end(); slHisto++) { (*slHisto).second->Write(); } for(map<DTLayerId, TH1F*>::const_iterator slHisto = theOccupancyMap.begin(); slHisto != theOccupancyMap.end(); slHisto++) { (*slHisto).second->Write(); } if(findTMeanAndSigma) { // Create the object to be written to DB DTTtrig* tTrig = new DTTtrig(); // Loop over the map, fit the histos and write the resulting values to the DB for(map<DTSuperLayerId, TH1F*>::const_iterator slHisto = theHistoMap.begin(); slHisto != theHistoMap.end(); slHisto++) { pair<double, double> meanAndSigma = theFitter->fitTimeBox((*slHisto).second); tTrig->set((*slHisto).first, meanAndSigma.first, meanAndSigma.second, kFactor, DTTimeUnits::ns); if(debug) { cout << " SL: " << (*slHisto).first << " mean = " << meanAndSigma.first << " sigma = " << meanAndSigma.second << endl; } } // Print the ttrig map dumpTTrigMap(tTrig); // Plot the tTrig plotTTrig(tTrig); if(debug) cout << "[DTTTrigCalibration]Writing ttrig object to DB!" << endl; // FIXME: to be read from cfg? string tTrigRecord = "DTTtrigRcd"; // Write the object to DB DTCalibDBUtils::writeToDB(tTrigRecord, tTrig); } }
string DTTTrigCalibration::getOccupancyName | ( | const DTLayerId & | slId | ) | const [private] |
Definition at line 294 of file DTTTrigCalibration.cc.
References DTLayerId::layer(), DTChamberId::sector(), DTChamberId::station(), DTSuperLayerId::superlayer(), and DTChamberId::wheel().
{ string histoName; stringstream theStream; theStream << "Ch_" << slId.wheel() << "_" << slId.station() << "_" << slId.sector() << "_SL" << slId.superlayer() << "_L"<< slId.layer() <<"_Occupancy"; theStream >> histoName; return histoName; }
string DTTTrigCalibration::getTBoxName | ( | const DTSuperLayerId & | slId | ) | const [private] |
Definition at line 285 of file DTTTrigCalibration.cc.
References DTChamberId::sector(), DTChamberId::station(), DTSuperLayerId::superlayer(), and DTChamberId::wheel().
{ string histoName; stringstream theStream; theStream << "Ch_" << slId.wheel() << "_" << slId.station() << "_" << slId.sector() << "_SL" << slId.superlayer() << "_hTimeBox"; theStream >> histoName; return histoName; }
void DTTTrigCalibration::plotTTrig | ( | const DTTtrig * | tTrig | ) | const [private] |
Definition at line 318 of file DTTTrigCalibration.cc.
References DTTtrig::begin(), and DTTtrig::end().
{ TH1F* tTrig_YB1_Se10 = new TH1F("tTrig_YB1_Se10","tTrig YB1_Se10",15,1,16); TH1F* tTrig_YB2_Se10 = new TH1F("tTrig_YB2_Se10","tTrig YB2_Se10",15,1,16); TH1F* tTrig_YB2_Se11 = new TH1F("tTrig_YB2_Se11","tTrig YB2_Se11",12,1,13); static const double convToNs = 25./32.; for(DTTtrig::const_iterator ttrig = tTrig->begin(); ttrig != tTrig->end(); ttrig++) { // avoid to have wired numbers in the plot float tTrigValue=0; float tTrmsValue=0; if ((*ttrig).second.tTrig * convToNs > 0 && (*ttrig).second.tTrig * convToNs < 32000 ) { tTrigValue = (*ttrig).second.tTrig * convToNs; tTrmsValue = (*ttrig).second.tTrms * convToNs; } int binx; string binLabel; stringstream binLabelStream; if ((*ttrig).first.sectorId != 14) { binx = ((*ttrig).first.stationId-1)*3 + (*ttrig).first.slId; binLabelStream << "MB"<<(*ttrig).first.stationId<<"_SL"<<(*ttrig).first.slId; } else { binx = 12 + (*ttrig).first.slId; binLabelStream << "MB14_SL"<<(*ttrig).first.slId; } binLabelStream >> binLabel; if ((*ttrig).first.wheelId == 2) { if ((*ttrig).first.sectorId == 10 || (*ttrig).first.sectorId == 14) { tTrig_YB2_Se10->Fill( binx,tTrigValue); tTrig_YB2_Se10->SetBinError( binx, tTrmsValue); tTrig_YB2_Se10->GetXaxis()->SetBinLabel(binx,binLabel.c_str()); tTrig_YB2_Se10->GetYaxis()->SetTitle("ns"); } else { tTrig_YB2_Se11->Fill( binx,tTrigValue); tTrig_YB2_Se11->SetBinError( binx,tTrmsValue); tTrig_YB2_Se11->GetXaxis()->SetBinLabel(binx,binLabel.c_str()); tTrig_YB2_Se11->GetYaxis()->SetTitle("ns"); } } else { tTrig_YB1_Se10->Fill( binx,tTrigValue); tTrig_YB1_Se10->SetBinError( binx,tTrmsValue); tTrig_YB1_Se10->GetXaxis()->SetBinLabel(binx,binLabel.c_str()); tTrig_YB1_Se10->GetYaxis()->SetTitle("ns"); } } tTrig_YB1_Se10->Write(); tTrig_YB2_Se10->Write(); tTrig_YB2_Se11->Write(); }
bool DTTTrigCalibration::checkNoisyChannels [private] |
Definition at line 86 of file DTTTrigCalibration.h.
bool DTTTrigCalibration::debug [private] |
Definition at line 66 of file DTTTrigCalibration.h.
std::string DTTTrigCalibration::digiLabel [private] |
Definition at line 69 of file DTTTrigCalibration.h.
bool DTTTrigCalibration::doSubtractT0 [private] |
Definition at line 84 of file DTTTrigCalibration.h.
bool DTTTrigCalibration::findTMeanAndSigma [private] |
Definition at line 88 of file DTTTrigCalibration.h.
double DTTTrigCalibration::kFactor [private] |
Definition at line 90 of file DTTTrigCalibration.h.
int DTTTrigCalibration::maxDigiPerLayer [private] |
Definition at line 74 of file DTTTrigCalibration.h.
int DTTTrigCalibration::maxTDCCounts [private] |
Definition at line 72 of file DTTTrigCalibration.h.
TFile* DTTTrigCalibration::theFile [private] |
Definition at line 77 of file DTTTrigCalibration.h.
DTTimeBoxFitter* DTTTrigCalibration::theFitter [private] |
Definition at line 93 of file DTTTrigCalibration.h.
std::map<DTSuperLayerId, TH1F*> DTTTrigCalibration::theHistoMap [private] |
Definition at line 80 of file DTTTrigCalibration.h.
std::map<DTLayerId, TH1F*> DTTTrigCalibration::theOccupancyMap [private] |
Definition at line 81 of file DTTTrigCalibration.h.
DTTTrigBaseSync* DTTTrigCalibration::theSync [private] |
Definition at line 95 of file DTTTrigCalibration.h.