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/afs/cern.ch/work/a/aaltunda/public/www/CMSSW_5_3_13_patch3/src/DQM/EcalBarrelMonitorClient/src/PresampleClient.cc

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00001 #include "../interface/PresampleClient.h"
00002 
00003 #include "DQM/EcalBarrelMonitorTasks/interface/PresampleTask.h"
00004 
00005 #include "DQM/EcalCommon/interface/EcalDQMCommonUtils.h"
00006 
00007 #include <cmath>
00008 
00009 namespace ecaldqm {
00010 
00011   PresampleClient::PresampleClient(const edm::ParameterSet& _params, const edm::ParameterSet& _paths) :
00012     DQWorkerClient(_params, _paths, "PresampleClient"),
00013     minChannelEntries_(0),
00014     minTowerEntries_(0),
00015     expectedMean_(0.),
00016     meanThreshold_(0.),
00017     rmsThreshold_(0.),
00018     rmsThresholdHighEta_(0.),
00019     noisyFracThreshold_(0.)
00020   {
00021     edm::ParameterSet const& taskParams(_params.getUntrackedParameterSet(name_));
00022     minChannelEntries_ = taskParams.getUntrackedParameter<int>("minChannelEntries");
00023     minTowerEntries_ = taskParams.getUntrackedParameter<int>("minTowerEntries");
00024     expectedMean_ = taskParams.getUntrackedParameter<double>("expectedMean");
00025     meanThreshold_ = taskParams.getUntrackedParameter<double>("meanThreshold");
00026     rmsThreshold_ = taskParams.getUntrackedParameter<double>("rmsThreshold");
00027     rmsThresholdHighEta_ = taskParams.getUntrackedParameter<double>("rmsThresholdHighEta");
00028     noisyFracThreshold_ = taskParams.getUntrackedParameter<double>("noisyFracThreshold");
00029 
00030     edm::ParameterSet const& sources(_params.getUntrackedParameterSet("sources"));
00031     source_(sPedestal, "PresampleTask", PresampleTask::kPedestal, sources);
00032   }
00033 
00034   void
00035   PresampleClient::bookMEs()
00036   {
00037     DQWorker::bookMEs();
00038 
00039     MEs_[kQuality]->resetAll(-1.);
00040     MEs_[kRMSMap]->resetAll(-1.);
00041     MEs_[kRMSMapSummary]->resetAll(-1.);
00042     MEs_[kQualitySummary]->resetAll(-1.);
00043   }
00044 
00045   void
00046   PresampleClient::producePlots()
00047   {
00048     MEs_[kMean]->reset();
00049     MEs_[kMeanDCC]->reset();
00050     MEs_[kRMS]->reset();
00051     MEs_[kRMSMap]->reset(-1.);
00052     MEs_[kRMSMapSummary]->reset(-1.);
00053 
00054     uint32_t mask(1 << EcalDQMStatusHelper::PEDESTAL_ONLINE_HIGH_GAIN_MEAN_ERROR |
00055                   1 << EcalDQMStatusHelper::PEDESTAL_ONLINE_HIGH_GAIN_RMS_ERROR);
00056 
00057     for(unsigned dccid(1); dccid <= 54; dccid++){
00058 
00059       for(unsigned tower(1); tower <= getNSuperCrystals(dccid); tower++){
00060         std::vector<DetId> ids(getElectronicsMap()->dccTowerConstituents(dccid, tower));
00061 
00062         if(ids.size() == 0) continue;
00063 
00064         unsigned iSM(dccid - 1);
00065         float rmsThresh(rmsThreshold_);
00066         if(iSM <= kEEmHigh || iSM >= kEEpLow || tower > 48) rmsThresh = rmsThresholdHighEta_;
00067 
00068         float nNoisy(0.);
00069         float towerEntries(0.);
00070         float towerMean(0.);
00071         float towerRMS(0.);
00072 
00073         for(std::vector<DetId>::iterator idItr(ids.begin()); idItr != ids.end(); ++idItr){
00074           float entries(sources_[sPedestal]->getBinEntries(*idItr));
00075           float mean(sources_[sPedestal]->getBinContent(*idItr));
00076           float rms(sources_[sPedestal]->getBinError(*idItr) * std::sqrt(entries));
00077           towerEntries += entries;
00078           towerMean += mean * entries;
00079           towerRMS += (rms * rms + mean * mean) * entries;
00080 
00081           if(entries < minChannelEntries_){
00082             fillQuality_(kQuality, *idItr, mask, 2.);
00083             continue;
00084           }
00085 
00086           MEs_[kMean]->fill(*idItr, mean);
00087           MEs_[kMeanDCC]->fill(*idItr, mean);
00088           MEs_[kRMS]->fill(*idItr, rms);
00089           MEs_[kRMSMap]->fill(*idItr, rms);
00090 
00091           if(std::abs(mean - expectedMean_) > meanThreshold_ || rms > rmsThresh){
00092             fillQuality_(kQuality, *idItr, mask, 0.);
00093             nNoisy += 1.;
00094           }
00095           else
00096             fillQuality_(kQuality, *idItr, mask, 1.);
00097         }
00098 
00099         towerMean /= towerEntries;
00100         towerRMS = std::sqrt(towerRMS / towerEntries - towerMean * towerMean);
00101 
00102         float quality(-1.);
00103 
00104         if(towerEntries > minTowerEntries_)
00105           quality = nNoisy / ids.size() > noisyFracThreshold_ ? 0. : 1.;
00106         else
00107           quality = 2.;
00108 
00109         if(dccid <= 9 || dccid >= 46){
00110           std::vector<EcalScDetId> scs(getElectronicsMap()->getEcalScDetId(dccid, tower));
00111           for(std::vector<EcalScDetId>::iterator scItr(scs.begin()); scItr != scs.end(); ++scItr){
00112             fillQuality_(kQualitySummary, *scItr, mask, quality);
00113             MEs_[kRMSMapSummary]->setBinContent(*scItr, towerRMS);
00114           }
00115         }
00116         else{
00117           fillQuality_(kQualitySummary, ids[0], mask, quality);
00118           MEs_[kRMSMapSummary]->setBinContent(ids[0], towerRMS);
00119         }
00120       }
00121     }
00122   }
00123 
00124   /*static*/
00125   void
00126   PresampleClient::setMEData(std::vector<MEData>& _data)
00127   {
00128     BinService::AxisSpecs axis;
00129 
00130     _data[kQuality] = MEData("Quality", BinService::kSM, BinService::kCrystal, MonitorElement::DQM_KIND_TH2F);
00131 
00132     axis.nbins = 120;
00133     axis.low = 170.;
00134     axis.high = 230.;
00135     _data[kMean] = MEData("Mean", BinService::kSM, BinService::kUser, MonitorElement::DQM_KIND_TH1F, &axis);
00136     _data[kMeanDCC] = MEData("MeanDCC", BinService::kEcal2P, BinService::kDCC, MonitorElement::DQM_KIND_TPROFILE, 0, &axis);
00137 
00138     axis.nbins = 100;
00139     axis.low = 0.;
00140     axis.high = 10.;
00141     _data[kRMS] = MEData("RMS", BinService::kSM, BinService::kUser, MonitorElement::DQM_KIND_TH1F, &axis);
00142     _data[kRMSMap] = MEData("RMSMap", BinService::kSM, BinService::kCrystal, MonitorElement::DQM_KIND_TH2F, 0, 0, &axis);
00143     _data[kRMSMapSummary] = MEData("RMSMap", BinService::kEcal2P, BinService::kSuperCrystal, MonitorElement::DQM_KIND_TH2F, 0, 0, &axis);
00144 
00145     _data[kQualitySummary] = MEData("QualitySummary", BinService::kEcal2P, BinService::kSuperCrystal, MonitorElement::DQM_KIND_TH2F);
00146   }
00147 
00148   DEFINE_ECALDQM_WORKER(PresampleClient);
00149 }
00150