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#include <DTDigiTask.h>
Public Member Functions | |
| DTDigiTask (const edm::ParameterSet &ps) | |
| Constructor. | |
| virtual | ~DTDigiTask () |
| Destructor. | |
Protected Member Functions | |
| void | analyze (const edm::Event &e, const edm::EventSetup &c) |
| Analyze. | |
| void | beginJob () |
| BeginJob. | |
| void | beginLuminosityBlock (edm::LuminosityBlock const &lumiSeg, edm::EventSetup const &context) |
| To reset the MEs. | |
| void | beginRun (const edm::Run &, const edm::EventSetup &) |
| void | bookHistos (const DTChamberId &dtCh, std::string folder, std::string histoTag) |
| void | bookHistos (const int wheelId, std::string folder, std::string histoTag) |
| void | bookHistos (const DTSuperLayerId &dtSL, std::string folder, std::string histoTag) |
| Book the ME. | |
| void | channelsMap (const DTChamberId &dtCh, std::string histoTag) |
| To map real channels. | |
| void | endJob () |
| Endjob. | |
| void | endLuminosityBlock (const edm::LuminosityBlock &lumiSeg, const edm::EventSetup &setup) |
| std::string | triggerSource () |
| get the L1A source | |
Private Member Functions | |
| std::string | topFolder () const |
Private Attributes | |
| bool | checkNoisyChannels |
| DQMStore * | dbe |
| int | defaultTmax |
| int | defaultTTrig |
| std::map< std::string, std::map< uint32_t, MonitorElement * > > | digiHistos |
| bool | doAllHitsOccupancies |
| bool | doInTimeOccupancies |
| bool | doLayerTimeBoxes |
| bool | doNoiseOccupancies |
| bool | doStaticBooking |
| edm::InputTag | dtDigiLabel |
| bool | filterSyncNoise |
| std::map< DTChamberId, int > | hitMap |
| int | inTimeHitsLowerBound |
| int | inTimeHitsUpperBound |
| bool | isLocalRun |
| float | kFactor |
| bool | lookForSyncNoise |
| edm::InputTag | ltcDigiCollectionTag |
| edm::Handle< LTCDigiCollection > | ltcdigis |
| edm::ESHandle< DTReadOutMapping > | mapping |
| int | maxTDCCounts |
| int | maxTDCHits |
| edm::ESHandle< DTGeometry > | muonGeom |
| MonitorElement * | nEventMonitor |
| int | nevents |
| std::map< DTChamberId, int > | nSynchNoiseEvents |
| bool | readTTrigDB |
| int | resetCycle |
| bool | subtractT0 |
| std::set< DTChamberId > | syncNoisyChambers |
| int | syncNum |
| int | syncNumTot |
| edm::ESHandle< DTT0 > | t0Map |
| int | timeBoxGranularity |
| int | tMax |
| no needs to be precise. Value from PSets will always be used | |
| bool | tpMode |
| float | tTrig |
| tTrig from the DB | |
| edm::ESHandle< DTTtrig > | tTrigMap |
| float | tTrigRMS |
| std::map< std::string, std::map< int, MonitorElement * > > | wheelHistos |
Definition at line 45 of file DTDigiTask.h.
| DTDigiTask::DTDigiTask | ( | const edm::ParameterSet & | ps | ) |
Constructor.
Definition at line 50 of file DTDigiTask.cc.
References edm::ParameterSet::getParameter(), edm::ParameterSet::getUntrackedParameter(), LogTrace, cppFunctionSkipper::operator, and dtTPAnalyzer_cfg::subtractT0.
{
// switch for the verbosity
LogTrace("DTDQM|DTMonitorModule|DTDigiTask") << "[DTDigiTask]: Constructor" << endl;
// The label to retrieve the digis
dtDigiLabel = ps.getParameter<InputTag>("dtDigiLabel");
// Read the configuration parameters
maxTDCHits = ps.getUntrackedParameter<int>("maxTDCHitsPerChamber",30000);
// Set to true to read the ttrig from DB (useful to determine in-time and out-of-time hits)
readTTrigDB = ps.getUntrackedParameter<bool>("readDB", false);
// Set to true to subtract t0 from test pulses
subtractT0 = ps.getParameter<bool>("performPerWireT0Calibration");
// Tmax value (TDC counts)
defaultTmax = ps.getParameter<int>("defaultTmax");
// Switch from static to dinamic histo booking
doStaticBooking = ps.getUntrackedParameter<bool>("staticBooking", true);
// Switch for local/global runs
isLocalRun = ps.getUntrackedParameter<bool>("localrun", true);
if (!isLocalRun) {
ltcDigiCollectionTag = ps.getParameter<edm::InputTag>("ltcDigiCollectionTag");
}
// Setting for the reset of the ME after n (= ResetCycle) luminosity sections
resetCycle = ps.getUntrackedParameter<int>("ResetCycle", 3);
// Check the DB of noisy channels
checkNoisyChannels = ps.getUntrackedParameter<bool>("checkNoisyChannels",false);
// Default TTrig to be used when not reading the TTrig DB
defaultTTrig = ps.getParameter<int>("defaultTtrig");
inTimeHitsLowerBound = ps.getParameter<int>("inTimeHitsLowerBound");
inTimeHitsUpperBound = ps.getParameter<int>("inTimeHitsUpperBound");
timeBoxGranularity = ps.getUntrackedParameter<int>("timeBoxGranularity",4);
maxTDCCounts = ps.getUntrackedParameter<int>("maxTDCCounts", 6400);
doAllHitsOccupancies = ps.getUntrackedParameter<bool>("doAllHitsOccupancies", true);
doNoiseOccupancies = ps.getUntrackedParameter<bool>("doNoiseOccupancies", false);
doInTimeOccupancies = ps.getUntrackedParameter<bool>("doInTimeOccupancies", false);
// switch on the mode for running on test pulses (different top folder)
tpMode = ps.getUntrackedParameter<bool>("testPulseMode", false);
// switch on/off the filtering of synchronous noise events (cutting on the # of digis)
// time-boxes and occupancy plots are not filled and summary plots are created to report the problem
filterSyncNoise = ps.getUntrackedParameter<bool>("filterSyncNoise", false);
// look for synch noisy events, produce histograms but do not filter them
lookForSyncNoise = ps.getUntrackedParameter<bool>("lookForSyncNoise", false);
// switch on production of time-boxes with layer granularity
doLayerTimeBoxes = ps.getUntrackedParameter<bool>("doLayerTimeBoxes", false);
dbe = edm::Service<DQMStore>().operator->();
syncNumTot = 0;
syncNum = 0;
}
| DTDigiTask::~DTDigiTask | ( | ) | [virtual] |
| void DTDigiTask::analyze | ( | const edm::Event & | e, |
| const edm::EventSetup & | c | ||
| ) | [protected, virtual] |
Analyze.
Implements edm::EDAnalyzer.
Definition at line 477 of file DTDigiTask.cc.
References bookHistos(), DTSuperLayerId::chamberId(), DTTimeUnits::counts, end, spr::find(), edm::EventSetup::get(), LogTrace, nevents, DetId::rawId(), edm::second(), DTChamberId::sector(), DTChamberId::station(), crabStatusFromReport::statusMap, AlCaHLTBitMon_QueryRunRegistry::string, dtTPAnalyzer_cfg::subtractT0, DTSuperLayerId::superlayer(), edm::EventBase::time(), edm::Timestamp::value(), and DTChamberId::wheel().
{
nevents++;
nEventMonitor->Fill(nevents);
if (nevents%1000 == 0) {
LogTrace("DTDQM|DTMonitorModule|DTDigiTask") << "[DTDigiTask] Analyze #Run: " << event.id().run()
<< " #Event: " << event.id().event() << endl;
}
// Get the ingredients from the event
// Digi collection
edm::Handle<DTDigiCollection> dtdigis;
event.getByLabel(dtDigiLabel, dtdigis);
// LTC digis
if (!isLocalRun) event.getByLabel(ltcDigiCollectionTag, ltcdigis);
// Status map (for noisy channels)
ESHandle<DTStatusFlag> statusMap;
if(checkNoisyChannels) {
// Get the map of noisy channels
c.get<DTStatusFlagRcd>().get(statusMap);
}
string histoTag;
// Check if the digi container is empty
if(dtdigis->begin() == dtdigis->end()) {
LogTrace("DTDQM|DTMonitorModule|DTDigiTask") << "Event " << nevents << " empty." << endl;
}
if (lookForSyncNoise || filterSyncNoise) { // dosync
// Count the # of digis per chamber
DTDigiCollection::DigiRangeIterator dtLayerId_It;
for (dtLayerId_It=dtdigis->begin(); dtLayerId_It!=dtdigis->end(); dtLayerId_It++) {
DTChamberId chId = ((*dtLayerId_It).first).chamberId();
if(hitMap.find(chId) == hitMap.end()) {// new chamber
hitMap[chId] = 0;
}
hitMap[chId] += (((*dtLayerId_It).second).second - ((*dtLayerId_It).second).first);
}
// check chamber with # of digis above threshold and flag them as noisy
map<DTChamberId,int>::const_iterator hitMapIt = hitMap.begin();
map<DTChamberId,int>::const_iterator hitMapEnd = hitMap.end();
map<int,int> chMap;
for (; hitMapIt != hitMapEnd; ++hitMapIt) {
if((hitMapIt->second) > maxTDCHits) {
DTChamberId chId = hitMapIt->first;
int wh = chId.wheel();
LogTrace("DTDQM|DTMonitorModule|DTDigiTask") << "[DTDigiTask] Synch noise in chamber: " << chId
<< " with # digis: " << hitMapIt->second << endl;
if(chMap.find(wh) == chMap.end()) { chMap[wh] = 0; }
chMap[wh]++ ;
syncNoisyChambers.insert(chId);
wheelHistos["SyncNoiseEvents"][wh]->Fill(chId.sector(),chId.station());
// Only needed in case of ratio map not used right now
// FIXME check and optimize
// nSynchNoiseEvents[iter->first]++;
// FIXME: should update all chambers each event
// wheelHistos["SyncNoiseEvents"][(*iter).first.wheel()]->setBinContent((*iter).first.sector(),(*iter).first.station(),
// (double)nSynchNoiseEvents[iter->first]/(double)nevents);
}
}
// fill # of noisy ch per wheel plot
map<int,int>::const_iterator chMapIt = chMap.begin();
map<int,int>::const_iterator chMapEnd = chMap.end();
for (; chMapIt != chMapEnd; ++chMapIt) {
wheelHistos["SyncNoiseChambs"][(*chMapIt).first]->Fill((*chMapIt).second);
}
// clear the map of # of digis per chamber: not needed anymore
hitMap.clear();
if (syncNoisyChambers.size() != 0) {
LogVerbatim("DTDQM|DTMonitorModule|DTDigiTask") << "[DTDigiTask] Synch Noise in event: " << nevents;
if(filterSyncNoise) LogVerbatim("DTDQM|DTMonitorModule|DTDigiTask") << "\tnoisy time-boxes and occupancy will not be filled!" << endl;
syncNumTot++;
syncNum++;
}
// Logging of "large" synch Noisy events in private DQM
if (syncNoisyChambers.size() > 3) {
time_t eventTime = time_t(event.time().value()>>32);
LogVerbatim("DTDQM|DTMonitorModule|DTDigiTask|DTSynchNoise")
<< "[DTDigiTask] At least 4 Synch Noisy chambers in Run : " << event.id().run()
<< " Lumi : " << event.id().luminosityBlock()
<< " Event : " << event.id().event()
<< " at time : " << ctime(&eventTime) << endl;
set<DTChamberId>::const_iterator chIt = syncNoisyChambers.begin();
set<DTChamberId>::const_iterator chEnd = syncNoisyChambers.end();
stringstream synchNoisyCh;
for (;chIt!=chEnd;++chIt) { synchNoisyCh << " " << (*chIt); }
LogVerbatim("DTDQM|DTMonitorModule|DTDigiTask|DTSynchNoise") <<
"[DTDigiTask] Chamber List :" << synchNoisyCh.str() << endl;
}
if (nevents%1000 == 0) {
LogVerbatim("DTDQM|DTMonitorModule|DTDigiTask") << (syncNumTot*100./nevents) << "% sync noise events since the beginning \n"
<< (syncNum*0.1) << "% sync noise events in the last 1000 events " << endl;
syncNum = 0;
}
}
bool isSyncNoisy = false;
DTDigiCollection::DigiRangeIterator dtLayerId_It;
for (dtLayerId_It=dtdigis->begin(); dtLayerId_It!=dtdigis->end(); ++dtLayerId_It) { // Loop over layers
isSyncNoisy = false;
// check if chamber labeled as synch noisy
if (filterSyncNoise) {
DTChamberId chId = ((*dtLayerId_It).first).chamberId();
if(syncNoisyChambers.find(chId) != syncNoisyChambers.end()) {
isSyncNoisy = true;
}
}
for (DTDigiCollection::const_iterator digiIt = ((*dtLayerId_It).second).first;
digiIt!=((*dtLayerId_It).second).second; ++digiIt) { // Loop over all digis
bool isNoisy = false;
bool isFEMasked = false;
bool isTDCMasked = false;
bool isTrigMask = false;
bool isDead = false;
bool isNohv = false;
if(checkNoisyChannels) {
const DTWireId wireId(((*dtLayerId_It).first), (*digiIt).wire());
statusMap->cellStatus(wireId, isNoisy, isFEMasked, isTDCMasked, isTrigMask, isDead, isNohv);
}
// Get the useful IDs
const DTSuperLayerId dtSLId = ((*dtLayerId_It).first).superlayerId();
uint32_t indexSL = dtSLId.rawId();
const DTChamberId dtChId = dtSLId.chamberId();
uint32_t indexCh = dtChId.rawId();
int layer_number=((*dtLayerId_It).first).layer();
int superlayer_number=dtSLId.superlayer();
// Read the ttrig DB or set a rough value from config
// ttrig and rms are TDC counts
if (readTTrigDB)
tTrigMap->get( ((*dtLayerId_It).first).superlayerId(),
tTrig, tTrigRMS, kFactor, DTTimeUnits::counts);
else tTrig = defaultTTrig;
int inTimeHitsLowerBoundCorr = int(round(tTrig)) - inTimeHitsLowerBound;
int inTimeHitsUpperBoundCorr = int(round(tTrig)) + tMax + inTimeHitsUpperBound;
float t0; float t0RMS;
int tdcTime = (*digiIt).countsTDC();
if (subtractT0) {
const DTWireId dtWireId(((*dtLayerId_It).first), (*digiIt).wire());
// t0s and rms are TDC counts
t0Map->get(dtWireId, t0, t0RMS, DTTimeUnits::counts) ;
tdcTime += int(round(t0));
}
// Fill Time-Boxes
// NOTE: avoid to fill TB and PhotoPeak with noise. Occupancy are filled anyway
if (( !isNoisy ) && (!isSyncNoisy)) { // Discard noisy channels
// TimeBoxes per SL
histoTag = "TimeBox" + triggerSource();
if (digiHistos[histoTag].find(indexSL) == digiHistos[histoTag].end())
bookHistos( dtSLId, string("TimeBoxes"), histoTag );
(digiHistos.find(histoTag)->second).find(indexSL)->second->Fill(tdcTime);
if(doLayerTimeBoxes)
(digiHistos.find(histoTag)->second).find((*dtLayerId_It).first.rawId())->second->Fill(tdcTime);
// FIXME: remove the time distribution for the after-pulses
// 2nd - 1st (CathodPhotoPeak) per SL
// if ( (*digiIt).number() == 1 ) {
// DTDigiCollection::const_iterator firstDigiIt = digiIt;
// firstDigiIt--;
// histoTag = "CathodPhotoPeak";
// if (digiHistos[histoTag].find(indexSL) == digiHistos[histoTag].end())
// bookHistos( dtSLId, string("CathodPhotoPeaks"), histoTag );
// (digiHistos.find(histoTag)->second).find(indexSL)->second->Fill((*digiIt).countsTDC()-
// (*firstDigiIt).countsTDC());
// }
}
// Fill Occupancies
if (!isSyncNoisy) { // Discard synch noisy channels
if (doAllHitsOccupancies) { // fill occupancies for all hits
//Occupancies per chamber & layer
histoTag = "OccupancyAllHits_perCh";
map<uint32_t, MonitorElement*>::const_iterator mappedHisto =
digiHistos[histoTag].find(indexCh);
if (mappedHisto == digiHistos[histoTag].end()) { // dynamic booking
bookHistos(dtChId, string("Occupancies"), histoTag);
mappedHisto = digiHistos[histoTag].find(indexCh);
}
mappedHisto->second->Fill((*digiIt).wire(),(layer_number+(superlayer_number-1)*4)-1);
// Fill the chamber occupancy
histoTag = "OccupancyAllHits";
map<int, MonitorElement*>::const_iterator histoPerWheel =
wheelHistos[histoTag].find(dtChId.wheel());
if(histoPerWheel == wheelHistos[histoTag].end()) { // dynamic booking
bookHistos(dtChId.wheel(), string("Occupancies"), histoTag);
histoPerWheel = wheelHistos[histoTag].find(dtChId.wheel());
}
histoPerWheel->second->Fill(dtChId.sector(),dtChId.station()); // FIXME: normalize to # of layers
}
if(doNoiseOccupancies) { // fill occupancies for hits before the ttrig
if (tdcTime < inTimeHitsLowerBoundCorr ) {
// FIXME: what about tdcTime > inTimeHitsUpperBoundCorr ???
// Noise: Before tTrig
//Occupancies Noise per chamber & layer
histoTag = "OccupancyNoise_perCh";
map<uint32_t, MonitorElement*>::const_iterator mappedHisto =
digiHistos[histoTag].find(indexCh);
if(mappedHisto == digiHistos[histoTag].end()) {
bookHistos(dtChId, string("Occupancies"), histoTag);
mappedHisto = digiHistos[histoTag].find(indexCh);
}
mappedHisto->second->Fill((*digiIt).wire(),
(layer_number+(superlayer_number-1)*4)-1);
// Fill the chamber occupancy
histoTag = "OccupancyNoise";
map<int, MonitorElement*>::const_iterator histoPerWheel =
wheelHistos[histoTag].find(dtChId.wheel());
if(histoPerWheel == wheelHistos[histoTag].end()) { // dynamic booking
bookHistos(dtChId.wheel(), string("Occupancies"), histoTag);
histoPerWheel = wheelHistos[histoTag].find(dtChId.wheel());
}
histoPerWheel->second->Fill(dtChId.sector(),dtChId.station()); // FIXME: normalize to # of layers
}
}
if(doInTimeOccupancies) { // fill occpunacies for in-time hits only
if (tdcTime > inTimeHitsLowerBoundCorr && tdcTime < inTimeHitsUpperBoundCorr) {
// Physical hits: within the time window
//Occupancies Signal per chamber & layer
histoTag = "OccupancyInTimeHits_perCh";
map<uint32_t, MonitorElement*>::const_iterator mappedHisto =
digiHistos[histoTag].find(indexCh);
if(mappedHisto == digiHistos[histoTag].end()) {
bookHistos(dtChId, string("Occupancies"), histoTag);
mappedHisto = digiHistos[histoTag].find(indexCh);
}
mappedHisto->second->Fill((*digiIt).wire(),
(layer_number+(superlayer_number-1)*4)-1);
// Fill the chamber occupancy
histoTag = "OccupancyInTimeHits";
map<int, MonitorElement*>::const_iterator histoPerWheel =
wheelHistos[histoTag].find(dtChId.wheel());
if(histoPerWheel == wheelHistos[histoTag].end()) { // dynamic booking
bookHistos(dtChId.wheel(), string("Occupancies"), histoTag);
histoPerWheel = wheelHistos[histoTag].find(dtChId.wheel());
}
histoPerWheel->second->Fill(dtChId.sector(),dtChId.station()); // FIXME: normalize to # of layers
}
}
}
}
}
syncNoisyChambers.clear();
}
| void DTDigiTask::beginJob | ( | void | ) | [protected, virtual] |
| void DTDigiTask::beginLuminosityBlock | ( | edm::LuminosityBlock const & | lumiSeg, |
| edm::EventSetup const & | context | ||
| ) | [protected, virtual] |
To reset the MEs.
Reimplemented from edm::EDAnalyzer.
Definition at line 206 of file DTDigiTask.cc.
References edm::LuminosityBlockBase::id(), LogTrace, and edm::LuminosityBlockID::luminosityBlock().
{
LogTrace("DTDQM|DTMonitorModule|DTDigiTask") << "[DTDigiTask]: Begin of LS transition" << endl;
// Reset the MonitorElements every n (= ResetCycle) Lumi Blocks
int lumiBlock = lumiSeg.id().luminosityBlock();
if(lumiBlock % resetCycle == 0) {
LogVerbatim("DTDQM|DTMonitorModule|DTDigiTask")
<<"[DTDigiTask]: Reset at the LS transition : "
<< lumiBlock << endl;
// Loop over all ME
map<string,map<uint32_t,MonitorElement*> >::const_iterator histosIt = digiHistos.begin();
map<string,map<uint32_t,MonitorElement*> >::const_iterator histosEnd = digiHistos.end();
for(;histosIt != histosEnd ; ++histosIt) {
map<uint32_t,MonitorElement*>::const_iterator histoIt = (*histosIt).second.begin();
map<uint32_t,MonitorElement*>::const_iterator histoEnd = (*histosIt).second.end();
for(;histoIt != histoEnd; ++histoIt) { (*histoIt).second->Reset(); }
}
// re-set mapping for not real channels in the occupancyHits per chamber
for(int wh=-2; wh<=2; wh++) {
for(int sect=1; sect<=14; sect++) {
for(int st=1; st<=4; st++) {
if( (sect == 13 || sect == 14) && st != 4 ) {continue;}
const DTChamberId dtChId(wh,st,sect);
channelsMap(dtChId, "OccupancyAllHits_perCh");
}
}
}
// loop over wheel summaries
map<string,map<int,MonitorElement*> >::const_iterator whHistosIt = wheelHistos.begin();
map<string,map<int,MonitorElement*> >::const_iterator whHistosEnd = wheelHistos.end();
for(; whHistosIt != whHistosEnd ; ++whHistosIt) {
if ((*whHistosIt).first.find("Sync") == string::npos) { // FIXME skips synch noise plots
map<int,MonitorElement*>::const_iterator histoIt = (*whHistosIt).second.begin();
map<int,MonitorElement*>::const_iterator histoEnd = (*whHistosIt).second.end();
for(;histoIt != histoEnd; ++histoIt) { (*histoIt).second->Reset(); }
}
}
}
}
| void DTDigiTask::beginRun | ( | const edm::Run & | run, |
| const edm::EventSetup & | context | ||
| ) | [protected, virtual] |
Reimplemented from edm::EDAnalyzer.
Definition at line 131 of file DTDigiTask.cc.
References bookHistos(), edm::EventSetup::get(), LogTrace, and dtTPAnalyzer_cfg::subtractT0.
{
LogTrace("DTDQM|DTMonitorModule|DTDigiTask") << "[DTDigiTask]: begin run" << endl;
// Get the geometry
context.get<MuonGeometryRecord>().get(muonGeom);
// map of the channels
context.get<DTReadOutMappingRcd>().get(mapping);
// tTrig
if (readTTrigDB)
context.get<DTTtrigRcd>().get(tTrigMap);
// t0s
if (subtractT0)
context.get<DTT0Rcd>().get(t0Map);
// FIXME: tMax (not yet from the DB)
tMax = defaultTmax;
// ----------------------------------------------------------------------
if(doStaticBooking) { // Static histo booking
// book the event counter
dbe->setCurrentFolder("DT/EventInfo/Counters");
nEventMonitor = dbe->bookFloat(tpMode ? "nProcessedEventsDigiTP" : "nProcessedEventsDigi" );
dbe->setCurrentFolder(topFolder());
for(int wh = -2; wh <= 2; ++wh) { // loop over wheels
if(doAllHitsOccupancies) bookHistos(wh,string("Occupancies"),"OccupancyAllHits");
if(doNoiseOccupancies) bookHistos(wh,string("Occupancies"),"OccupancyNoiseHits");
if(doInTimeOccupancies) bookHistos(wh,string("Occupancies"),"OccupancyInTimeHits");
if(lookForSyncNoise || filterSyncNoise) {
bookHistos(wh,string("SynchNoise"),"SyncNoiseEvents");
bookHistos(wh,string("SynchNoise"),"SyncNoiseChambs");
}
for(int st = 1; st <= 4; ++st) { // loop over stations
for(int sect = 1; sect <= 14; ++sect) { // loop over sectors
if((sect == 13 || sect == 14) && st != 4) continue;
// Get the chamber ID
const DTChamberId dtChId(wh,st,sect);
// Occupancies
if (doAllHitsOccupancies) {
bookHistos(dtChId,string("Occupancies"),"OccupancyAllHits_perCh");
// set channel mapping
channelsMap(dtChId, "OccupancyAllHits_perCh");
}
if(doNoiseOccupancies)
bookHistos(dtChId,string("Occupancies"),"OccupancyNoise_perCh");
if(doInTimeOccupancies)
bookHistos(dtChId,string("Occupancies"),"OccupancyInTimeHits_perCh");
for(int sl = 1; sl <= 3; ++sl) { // Loop over SLs
if(st == 4 && sl == 2) continue;
const DTSuperLayerId dtSLId(wh,st,sect,sl);
if(isLocalRun) {
bookHistos(dtSLId,string("TimeBoxes"),"TimeBox");
} else {
// TimeBoxes for different triggers
bookHistos(dtSLId,string("TimeBoxes"),"TimeBoxDTonly");
bookHistos(dtSLId,string("TimeBoxes"),"TimeBoxNoDT");
bookHistos(dtSLId,string("TimeBoxes"),"TimeBoxDTalso");
}
}
}
}
}
}
}
| void DTDigiTask::bookHistos | ( | const DTChamberId & | dtCh, |
| std::string | folder, | ||
| std::string | histoTag | ||
| ) | [protected] |
| void DTDigiTask::bookHistos | ( | const int | wheelId, |
| std::string | folder, | ||
| std::string | histoTag | ||
| ) | [protected] |
| void DTDigiTask::bookHistos | ( | const DTSuperLayerId & | dtSL, |
| std::string | folder, | ||
| std::string | histoTag | ||
| ) | [protected] |
| void DTDigiTask::channelsMap | ( | const DTChamberId & | dtCh, |
| std::string | histoTag | ||
| ) | [protected] |
To map real channels.
Definition at line 825 of file DTDigiTask.cc.
References DetId::rawId(), DTChamberId::sector(), DTChamberId::station(), and DTChamberId::wheel().
{
// n max channels
int nWires_max = (digiHistos[histoTag])[dtCh.rawId()] -> getNbinsX();
// set bin content = -1 for each not real channel. For visualization purposes
for(int sl=1; sl<=3; sl++) {
for(int ly=1; ly<=4; ly++) {
for(int ch=1; ch<=nWires_max; ch++) {
int dduId = -1, rosId = -1, robId = -1, tdcId = -1, channelId = -1;
int realCh = mapping->geometryToReadOut(dtCh.wheel(),dtCh.station(),dtCh.sector(),sl,ly,ch,dduId,rosId,robId,tdcId,channelId);
// realCh = 0 if the channel exists, while realCh = 1 if it does not exist
if( realCh ) {
int lybin = (4*sl - 4) + ly;
(digiHistos[histoTag])[dtCh.rawId()] -> setBinContent(ch,lybin,-1.);
}
}
}
}
}
| void DTDigiTask::endJob | ( | void | ) | [protected, virtual] |
Endjob.
Reimplemented from edm::EDAnalyzer.
Definition at line 116 of file DTDigiTask.cc.
References LogTrace.
{
LogTrace("DTDQM|DTMonitorModule|DTDigiTask") <<"[DTDigiTask] endjob called!"<<endl;
}
| void DTDigiTask::endLuminosityBlock | ( | const edm::LuminosityBlock & | lumiSeg, |
| const edm::EventSetup & | setup | ||
| ) | [protected, virtual] |
Reimplemented from edm::EDAnalyzer.
Definition at line 809 of file DTDigiTask.cc.
{
// To be used for ratio plots not used right now
// Update all histos for SynchNoise if needed
// if(lookForSyncNoise || filterSyncNoise) {
// //loop over chambers with synch noise events and update their entries in the histos
// for(map<DTChamberId, int>::const_iterator nEvPerch = nSynchNoiseEvents.begin();
// nEvPerch != nSynchNoiseEvents.end(); ++nEvPerch) {
// DTChamberId chId = (*nEvPerch).first;
// wheelHistos["SyncNoiseEvents"][chId.wheel()]->setBinContent(chId.sector(),chId.station(),
// (double)nSynchNoiseEvents[chId]/(double)nevents);
// }
// }
}
| string DTDigiTask::topFolder | ( | ) | const [private] |
Definition at line 799 of file DTDigiTask.cc.
References AlCaHLTBitMon_QueryRunRegistry::string.
| string DTDigiTask::triggerSource | ( | ) | [protected] |
get the L1A source
Definition at line 775 of file DTDigiTask.cc.
{
string l1ASource;
if (isLocalRun)
return l1ASource;
for (std::vector<LTCDigi>::const_iterator ltc_it = ltcdigis->begin(); ltc_it != ltcdigis->end(); ltc_it++){
size_t otherTriggerSum=0;
for (size_t i = 1; i < 6; i++)
otherTriggerSum += size_t((*ltc_it).HasTriggered(i));
if ((*ltc_it).HasTriggered(0) && otherTriggerSum == 0)
l1ASource = "DTonly";
else if (!(*ltc_it).HasTriggered(0))
l1ASource = "NoDT";
else if ((*ltc_it).HasTriggered(0) && otherTriggerSum > 0)
l1ASource = "DTalso";
}
return l1ASource;
}
bool DTDigiTask::checkNoisyChannels [private] |
Definition at line 140 of file DTDigiTask.h.
DQMStore* DTDigiTask::dbe [private] |
Definition at line 108 of file DTDigiTask.h.
int DTDigiTask::defaultTmax [private] |
Definition at line 131 of file DTDigiTask.h.
int DTDigiTask::defaultTTrig [private] |
Definition at line 142 of file DTDigiTask.h.
std::map<std::string, std::map<uint32_t, MonitorElement*> > DTDigiTask::digiHistos [private] |
Definition at line 116 of file DTDigiTask.h.
bool DTDigiTask::doAllHitsOccupancies [private] |
Definition at line 148 of file DTDigiTask.h.
bool DTDigiTask::doInTimeOccupancies [private] |
Definition at line 150 of file DTDigiTask.h.
bool DTDigiTask::doLayerTimeBoxes [private] |
Definition at line 156 of file DTDigiTask.h.
bool DTDigiTask::doNoiseOccupancies [private] |
Definition at line 149 of file DTDigiTask.h.
bool DTDigiTask::doStaticBooking [private] |
Definition at line 134 of file DTDigiTask.h.
edm::InputTag DTDigiTask::dtDigiLabel [private] |
Definition at line 122 of file DTDigiTask.h.
bool DTDigiTask::filterSyncNoise [private] |
Definition at line 154 of file DTDigiTask.h.
std::map<DTChamberId,int> DTDigiTask::hitMap [private] |
Definition at line 101 of file DTDigiTask.h.
int DTDigiTask::inTimeHitsLowerBound [private] |
Definition at line 144 of file DTDigiTask.h.
int DTDigiTask::inTimeHitsUpperBound [private] |
Definition at line 145 of file DTDigiTask.h.
bool DTDigiTask::isLocalRun [private] |
Definition at line 136 of file DTDigiTask.h.
float DTDigiTask::kFactor [private] |
Definition at line 96 of file DTDigiTask.h.
bool DTDigiTask::lookForSyncNoise [private] |
Definition at line 153 of file DTDigiTask.h.
Definition at line 124 of file DTDigiTask.h.
edm::Handle<LTCDigiCollection> DTDigiTask::ltcdigis [private] |
Definition at line 106 of file DTDigiTask.h.
edm::ESHandle<DTReadOutMapping> DTDigiTask::mapping [private] |
Definition at line 111 of file DTDigiTask.h.
int DTDigiTask::maxTDCCounts [private] |
Definition at line 147 of file DTDigiTask.h.
int DTDigiTask::maxTDCHits [private] |
Definition at line 91 of file DTDigiTask.h.
edm::ESHandle<DTGeometry> DTDigiTask::muonGeom [private] |
Definition at line 110 of file DTDigiTask.h.
MonitorElement* DTDigiTask::nEventMonitor [private] |
Definition at line 159 of file DTDigiTask.h.
int DTDigiTask::nevents [private] |
Definition at line 87 of file DTDigiTask.h.
std::map<DTChamberId, int> DTDigiTask::nSynchNoiseEvents [private] |
Definition at line 158 of file DTDigiTask.h.
bool DTDigiTask::readTTrigDB [private] |
Definition at line 127 of file DTDigiTask.h.
int DTDigiTask::resetCycle [private] |
Definition at line 138 of file DTDigiTask.h.
bool DTDigiTask::subtractT0 [private] |
Definition at line 129 of file DTDigiTask.h.
std::set<DTChamberId> DTDigiTask::syncNoisyChambers [private] |
Definition at line 102 of file DTDigiTask.h.
int DTDigiTask::syncNum [private] |
Definition at line 104 of file DTDigiTask.h.
int DTDigiTask::syncNumTot [private] |
Definition at line 103 of file DTDigiTask.h.
edm::ESHandle<DTT0> DTDigiTask::t0Map [private] |
Definition at line 114 of file DTDigiTask.h.
int DTDigiTask::timeBoxGranularity [private] |
Definition at line 146 of file DTDigiTask.h.
int DTDigiTask::tMax [private] |
no needs to be precise. Value from PSets will always be used
Definition at line 90 of file DTDigiTask.h.
bool DTDigiTask::tpMode [private] |
Definition at line 152 of file DTDigiTask.h.
float DTDigiTask::tTrig [private] |
tTrig from the DB
Definition at line 94 of file DTDigiTask.h.
edm::ESHandle<DTTtrig> DTDigiTask::tTrigMap [private] |
Definition at line 113 of file DTDigiTask.h.
float DTDigiTask::tTrigRMS [private] |
Definition at line 95 of file DTDigiTask.h.
std::map<std::string, std::map<int, MonitorElement*> > DTDigiTask::wheelHistos [private] |
Definition at line 117 of file DTDigiTask.h.
1.7.3