#include <CalibTracker/SiPixelGainCalibrationAnalysis/interface/SiPixelGainCalibrationAnalysis.h>
Description: <one line="" class="" summary>="">
Implementation: <Notes on="" implementation>="">
Definition at line 49 of file SiPixelGainCalibrationAnalysis.h.
SiPixelGainCalibrationAnalysis::SiPixelGainCalibrationAnalysis | ( | const edm::ParameterSet & | iConfig | ) | [explicit] |
Definition at line 35 of file SiPixelGainCalibrationAnalysis.cc.
References currentDetID_, fitfunction_, func_, graph_, cuy::ii, min_nentries_, nfitparameters_, reject_single_entries_, scalarVcalHigh_VcalLow_, statusNumbers_, and summary_.
: SiPixelOfflineCalibAnalysisBase(iConfig), conf_(iConfig), bookkeeper_(), bookkeeper_pixels_(), nfitparameters_(iConfig.getUntrackedParameter<int>("numberOfFitParameters",2)), fitfunction_(iConfig.getUntrackedParameter<std::string>("fitFunctionRootFormula","pol1")), listofdetids_(conf_.getUntrackedParameter<std::vector<uint32_t> >("listOfDetIDs")), ignoreMode_(conf_.getUntrackedParameter<bool>("ignoreMode",false)), reject_plateaupoints_(iConfig.getUntrackedParameter<bool>("suppressPlateauInFit",true)), reject_single_entries_(iConfig.getUntrackedParameter<bool>("suppressPointsWithOneEntryOrLess",true)), plateau_max_slope_(iConfig.getUntrackedParameter<double>("plateauSlopeMax",1.0)), reject_first_point_(iConfig.getUntrackedParameter<bool>("rejectVCalZero",true)), reject_badpoints_frac_(iConfig.getUntrackedParameter<double>("suppressZeroAndPlateausInFitFrac",0)), bookBIGCalibPayload_(iConfig.getUntrackedParameter<bool>("saveFullPayloads",false)), savePixelHists_(iConfig.getUntrackedParameter<bool>("savePixelLevelHists",false)), chi2Threshold_(iConfig.getUntrackedParameter<double>("minChi2NDFforHistSave",10)), chi2ProbThreshold_(iConfig.getUntrackedParameter<double>("minChi2ProbforHistSave",0.05)), maxGainInHist_(iConfig.getUntrackedParameter<double>("maxGainInHist",10)), maxChi2InHist_(iConfig.getUntrackedParameter<double>("maxChi2InHist",25)), saveALLHistograms_(iConfig.getUntrackedParameter<bool>("saveAllHistograms",false)), filldb_(iConfig.getUntrackedParameter<bool>("writeDatabase",false)), writeSummary_(iConfig.getUntrackedParameter<bool>("writeSummary",true)), recordName_(conf_.getParameter<std::string>("record")), appendMode_(conf_.getUntrackedParameter<bool>("appendMode",true)), /*theGainCalibrationDbInput_(0), theGainCalibrationDbInputOffline_(0), theGainCalibrationDbInputHLT_(0), theGainCalibrationDbInputService_(iConfig),*/ gainlow_(10.),gainhi_(0.),pedlow_(255.),pedhi_(0.), useVcalHigh_(conf_.getParameter<bool>("useVCALHIGH")), scalarVcalHigh_VcalLow_(conf_.getParameter<double>("vcalHighToLowConversionFac")) { if(reject_single_entries_) min_nentries_=1; else min_nentries_=0; ::putenv((char*)"CORAL_AUTH_USER=me"); ::putenv((char*)"CORAL_AUTH_PASSWORD=test"); edm::LogInfo("SiPixelGainCalibrationAnalysis") << "now using fit function " << fitfunction_ << ", which has " << nfitparameters_ << " free parameters. " << std::endl; func_= new TF1("func",fitfunction_.c_str(),0,256*scalarVcalHigh_VcalLow_); graph_ = new TGraphErrors(); currentDetID_=0; summary_.open("SummaryPerDetID.txt"); statusNumbers_ = new int[10]; for(int ii=0;ii<10;ii++) statusNumbers_[ii]=0; }
SiPixelGainCalibrationAnalysis::~SiPixelGainCalibrationAnalysis | ( | ) |
Definition at line 87 of file SiPixelGainCalibrationAnalysis.cc.
{ }
std::vector< float > SiPixelGainCalibrationAnalysis::CalculateAveragePerColumn | ( | uint32_t | detid, |
std::string | label | ||
) | [private] |
Definition at line 94 of file SiPixelGainCalibrationAnalysis.cc.
References bookkeeper_, cond::rpcobgas::detid, diffTwoXMLs::label, and query::result.
Referenced by printSummary().
{ std::vector<float> result; int ncols= bookkeeper_[detid][label]->getNbinsX(); int nrows= bookkeeper_[detid][label]->getNbinsY(); for(int icol=1; icol<=ncols; ++icol){ float val=0; float ntimes =0; for(int irow=1; irow<=nrows; ++irow){ val+= bookkeeper_[detid][label]->getBinContent(icol,irow); ntimes++; } val/= ntimes; result.push_back(val); } return result; }
void SiPixelGainCalibrationAnalysis::calibrationEnd | ( | ) | [private, virtual] |
Reimplemented from SiPixelOfflineCalibAnalysisBase.
Definition at line 174 of file SiPixelGainCalibrationAnalysis.cc.
References fillDatabase(), filldb_, printSummary(), and writeSummary_.
{ if(writeSummary_) printSummary(); // this is where we loop over all histograms and save the database objects if(filldb_) fillDatabase(); }
void SiPixelGainCalibrationAnalysis::calibrationSetup | ( | const edm::EventSetup & | iSetup | ) | [private, virtual] |
Reimplemented from SiPixelOfflineCalibAnalysisBase.
Definition at line 128 of file SiPixelGainCalibrationAnalysis.cc.
{ }
bool SiPixelGainCalibrationAnalysis::checkCorrectCalibrationType | ( | ) | [virtual] |
Reimplemented from SiPixelOfflineCalibAnalysisBase.
Definition at line 112 of file SiPixelGainCalibrationAnalysis.cc.
References SiPixelOfflineCalibAnalysisBase::calibrationMode_, and ignoreMode_.
{ if(calibrationMode_=="GainCalibration") return true; else if(ignoreMode_==true) return true; else if(calibrationMode_=="unknown"){ edm::LogInfo("SiPixelGainCalibrationAnalysis") << "calibration mode is: " << calibrationMode_ << ", continuing anyway..." ; return true; } else{ // edm::LogError("SiPixelGainCalibrationAnalysis") << "unknown calibration mode for Gain calibration, should be \"Gain\" and is \"" << calibrationMode_ << "\""; } return false; }
bool SiPixelGainCalibrationAnalysis::doFits | ( | uint32_t | detid, |
std::vector< SiPixelCalibDigi >::const_iterator | ipix | ||
) | [virtual] |
Reimplemented from SiPixelOfflineCalibAnalysisBase.
Definition at line 191 of file SiPixelGainCalibrationAnalysis.cc.
References abs, SiPixelOfflineCalibAnalysisBase::bookDQMHistogram1D(), bookkeeper_, bookkeeper_pixels_, chi2ProbThreshold_, chi2Threshold_, currentDetID_, cond::rpcobgas::detid, spr::find(), func_, gainhi_, gainlow_, graph_, cuy::ii, edm::detail::isnan(), listofdetids_, maxGainInHist_, min_nentries_, pedhi_, pedlow_, funct::pow(), mix_2012_Summer_inTimeOnly_cff::prob, reject_badpoints_, reject_badpoints_frac_, reject_first_point_, reject_plateaupoints_, reject_single_entries_, saveALLHistograms_, savePixelHists_, scalarVcalHigh_VcalLow_, SiPixelOfflineCalibAnalysisBase::setDQMDirectory(), slope, mathSSE::sqrt(), ntuplemaker::status, statusNumbers_, AlCaHLTBitMon_QueryRunRegistry::string, summary_, SiPixelOfflineCalibAnalysisBase::translateDetIdToString(), useVcalHigh_, SiPixelOfflineCalibAnalysisBase::vCalValues_, and writeSummary_.
{ float lowmeanval=255; float highmeanval=0; bool makehistopersistent = saveALLHistograms_; std::vector<uint32_t>::const_iterator detidfinder=find(listofdetids_.begin(),listofdetids_.end(),detid); if(detidfinder!=listofdetids_.end()) makehistopersistent=true; // first, fill the input arrays to the TLinearFitter. double xvals[257]; double yvals[256]; double yerrvals[256]; double xvalsall[257]; double yvalsall[256]; double yerrvalsall[256]; int npoints=0; int nallpoints=0; bool use_point=true; int status=0; statusNumbers_[9]++; bookkeeper_[detid]["status_2d"]->setBinContent(ipix->col()+1,ipix->row()+1,0); if(writeSummary_ && detid!=currentDetID_){ currentDetID_ = detid; summary_<<endl<<"DetId_"<<currentDetID_<<endl; } for(uint32_t ii=0; ii< ipix->getnpoints() && ii<200; ii++){ // std::cout << ipix->getsum(ii) << " " << ipix->getnentries(ii) << " " << ipix->getsumsquares(ii) << std::endl; nallpoints++; use_point=true; if(useVcalHigh_){ xvalsall[ii]=vCalValues_[ii]*scalarVcalHigh_VcalLow_; } else xvalsall[ii]=vCalValues_[ii]; yerrvalsall[ii]=yvalsall[ii]=0; if(ipix->getnentries(ii)>min_nentries_){ yvalsall[ii]=ipix->getsum(ii)/(float)ipix->getnentries(ii); yerrvalsall[ii]=ipix->getsumsquares(ii)/(float)(ipix->getnentries(ii)); yerrvalsall[ii]-=pow(yvalsall[ii],2); yerrvalsall[ii]=sqrt(yerrvalsall[ii])/sqrt(ipix->getnentries(ii)); if(yvalsall[ii]<lowmeanval) lowmeanval=yvalsall[ii]; if(yvalsall[ii]>highmeanval) highmeanval=yvalsall[ii]; } } // calculate plateau value from last 4 entries double plateauval=0; bool noPlateau=0; if(nallpoints>=4){ for(int ii=nallpoints-1; ii>nallpoints-5; --ii) plateauval+=yvalsall[ii]; plateauval/=4; for(int ii=nallpoints-1; ii>nallpoints-5; --ii){ if(fabs(yvalsall[ii]-plateauval)>5){ plateauval=255; noPlateau=1; continue; } } int NbofPointsInPlateau=0; for(int ii=0; ii<nallpoints; ++ii) if(fabs(yvalsall[ii]-plateauval)<10 || yvalsall[ii]==0) NbofPointsInPlateau++; //summary_<<"row_"<<ipix->row()<<" col_"<<ipix->col()<<" "<<plateauval<<" "<<NbofPointsInPlateau<<" "<<nallpoints<<endl; if(NbofPointsInPlateau>=(nallpoints-2)){ status=-2; bookkeeper_[detid]["status_2d"]->setBinContent(ipix->col()+1,ipix->row()+1,status); if(writeSummary_){ summary_<<"row_"<<ipix->row()<<" col_"<<ipix->col()<<" status_"<<status<<endl; statusNumbers_[abs(status)]++; } return false; } } else plateauval=255; double maxgoodvalinfit=plateauval*(1.-reject_badpoints_frac_); npoints=0; for(int ii=0; ii<nallpoints; ++ii){ // now selecting the appropriate points for the fit. use_point=true; if(reject_first_point_ && xvalsall[ii]<0.1) use_point=false; if(ipix->getnentries(ii)<=min_nentries_ && reject_single_entries_) use_point=false; if(ipix->getnentries(ii)==0 && reject_badpoints_) use_point=false; if(yvalsall[ii]>maxgoodvalinfit && !noPlateau) use_point=false; if(ii>1 && fabs(yvalsall[ii]-yvalsall[ii-1])<5. && yvalsall[ii]>0.8*maxgoodvalinfit && reject_plateaupoints_){ use_point=false; break; } if(use_point){ xvals[npoints]=xvalsall[ii]; yvals[npoints]=yvalsall[ii]; yerrvals[npoints]=yerrvalsall[ii]; npoints++; } } float chi2,slope,intercept,prob,slopeerror,intercepterror; prob=chi2=-1; slope=intercept=slopeerror=intercepterror=0; // now check on number of points. If bad just start taking the first 4: if(npoints<4){ npoints=0; for(int ii=0; ii<nallpoints && npoints<4 && yvalsall[ii]<plateauval*0.97; ++ii){ if(yvalsall[ii]>0){ if(ii>0 && yvalsall[ii]-yvalsall[ii-1]<0.1) continue; xvals[npoints]=xvalsall[ii]; yvals[npoints]=yvalsall[ii]; yerrvals[npoints]=yerrvalsall[ii]; npoints++; } } } if(npoints<2){ status = -7; bookkeeper_[detid]["status_2d"]->setBinContent(ipix->col()+1,ipix->row()+1,status); if(writeSummary_){ summary_<<"row_"<<ipix->row()<<" col_"<<ipix->col()<<" status_"<<status<<endl; statusNumbers_[abs(status)]++; } std::ostringstream pixelinfo; pixelinfo << "GainCurve_row_" << ipix->row() << "_col_" << ipix->col(); std::string tempname=translateDetIdToString(detid); tempname+="_"; tempname+=pixelinfo.str(); setDQMDirectory(detid); bookkeeper_pixels_[detid][pixelinfo.str()] = bookDQMHistogram1D(detid,pixelinfo.str(),tempname,105*nallpoints,xvalsall[0],xvalsall[nallpoints-1]*1.05); for(int ii=0; ii<nallpoints; ++ii) bookkeeper_pixels_[detid][pixelinfo.str()]->Fill(xvalsall[ii],yvalsall[ii]); return false; } // std::cout << "starting fit!" << std::endl; graph_->Set(npoints); func_->SetParameter(0,50.); func_->SetParameter(1,0.25); for(int ipointtemp=0; ipointtemp<npoints; ++ipointtemp){ graph_->SetPoint(ipointtemp,xvals[ipointtemp],yvals[ipointtemp]); graph_->SetPointError(ipointtemp,0,yerrvals[ipointtemp]); } Int_t tempresult = graph_->Fit("func","FQ0N"); slope=func_->GetParameter(1); slopeerror=func_->GetParError(1); intercept=func_->GetParameter(0); intercepterror=func_->GetParError(0); chi2=func_->GetChisquare()/((float)npoints-func_->GetNpar()); prob= TMath::Prob(func_->GetChisquare(),npoints-func_->GetNpar()); size_t ntimes=0; while((isnan(slope) || isnan(intercept) )&& ntimes<10){ ntimes++; makehistopersistent=true; // std::cout << slope << " " << intercept << " " << prob << std::endl; edm::LogWarning("SiPixelGainCalibrationAnalysis") << "impossible to fit values, try " << ntimes << ": " ; for(int ii=0; ii<npoints; ++ii){ edm::LogWarning("SiPixelGainCalibrationAnalysis")<< "vcal " << xvals[ii] << " response: " << yvals[ii] << "+/-" << yerrvals[ii] << std::endl; } tempresult = graph_->Fit("func","FQ0NW"); slope=func_->GetParameter(1); slopeerror=func_->GetParError(1); intercept = func_->GetParameter(0); intercepterror=func_->GetParError(0); chi2=func_->GetChisquare()/((float)npoints-func_->GetNpar()); prob= TMath::Prob(func_->GetChisquare(),npoints-func_->GetNpar()); } if(tempresult==0) status=1; else status=0; if(slope!=0) slope = 1./slope; if(isnan(slope) || isnan(intercept)){ status=-6; bookkeeper_[detid]["status_2d"]->setBinContent(ipix->col()+1,ipix->row()+1,status); if(writeSummary_){ summary_<<"row_"<<ipix->row()<<" col_"<<ipix->col()<<" status_"<<status<<endl; statusNumbers_[abs(status)]++; } //return false; } if(chi2>chi2Threshold_ && chi2Threshold_>=0) status=5; if(prob<chi2ProbThreshold_) status=5; if(noPlateau) status=3; if(nallpoints<4) status=-7; if(TMath::Abs(slope>maxGainInHist_) || slope < 0) status=-8; if(status!=1) makehistopersistent=true; statusNumbers_[abs(status)]++; if(slope<gainlow_) gainlow_=slope; if(slope>gainhi_) gainhi_=slope; if(intercept>pedhi_) pedhi_=intercept; if(intercept<pedlow_) pedlow_=intercept; bookkeeper_[detid]["gain_1d"]->Fill(slope); if(slope>maxGainInHist_){ makehistopersistent=true; edm::LogWarning("SiPixelGainCalibration") << "For DETID " << detid << "pixel row,col " << ipix->row() << "," << ipix->col() << " Gain was measured to be " << slope << " which is outside the range of the summary plot (" <<maxGainInHist_ << ") !!!! " << std::endl; } bookkeeper_[detid]["dynamicrange_2d"]->setBinContent(ipix->col()+1,ipix->row()+1,highmeanval-lowmeanval); bookkeeper_[detid]["plateau_2d"]->setBinContent(ipix->col()+1,ipix->row()+1,highmeanval); bookkeeper_[detid]["gain_2d"]->setBinContent(ipix->col()+1,ipix->row()+1,slope); bookkeeper_[detid]["errorgain_2d"]->setBinContent(ipix->col()+1,ipix->row()+1,slopeerror); bookkeeper_[detid]["ped_1d"]->Fill(intercept); bookkeeper_[detid]["ped_2d"]->setBinContent(ipix->col()+1,ipix->row()+1,intercept); bookkeeper_[detid]["errorped_2d"]->setBinContent(ipix->col()+1,ipix->row()+1,intercepterror); bookkeeper_[detid]["chi2_1d"]->Fill(chi2); bookkeeper_[detid]["chi2_2d"]->setBinContent(ipix->col()+1,ipix->row()+1,chi2); bookkeeper_[detid]["prob_1d"]->Fill(prob); bookkeeper_[detid]["prob_2d"]->setBinContent(ipix->col()+1,ipix->row()+1,prob); bookkeeper_[detid]["lowpoint_1d"]->Fill(xvals[0]); bookkeeper_[detid]["lowpoint_2d"]->setBinContent(ipix->col()+1,ipix->row()+1,xvals[0]); bookkeeper_[detid]["highpoint_1d"]->Fill(xvals[npoints-1]); bookkeeper_[detid]["highpoint_2d"]->setBinContent(ipix->col()+1,ipix->row()+1,xvals[npoints-1]); bookkeeper_[detid]["nfitpoints_1d"]->Fill(npoints); bookkeeper_[detid]["endpoint_1d"]->Fill((255 - intercept)*slope); bookkeeper_[detid]["status_2d"]->setBinContent(ipix->col()+1,ipix->row()+1,status); if(!savePixelHists_) return true; if(detidfinder==listofdetids_.end() && listofdetids_.size()!=0) return true; if(makehistopersistent){ std::ostringstream pixelinfo; pixelinfo << "GainCurve_row_" << ipix->row() << "_col_" << ipix->col(); std::string tempname=translateDetIdToString(detid); tempname+="_"; tempname+=pixelinfo.str(); // and book the histo // fill the last value of the vcal array... setDQMDirectory(detid); bookkeeper_pixels_[detid][pixelinfo.str()] = bookDQMHistogram1D(detid,pixelinfo.str(),tempname,105*nallpoints,xvalsall[0],xvalsall[nallpoints-1]*1.05); edm::LogInfo("SiPixelGainCalibrationAnalysis") << "now saving histogram for pixel " << tempname << ", gain = " << slope << ", pedestal = " << intercept << ", chi2/NDF=" << chi2 << "(prob:" << prob << "), fit status " << status; for(int ii=0; ii<nallpoints; ++ii){ // std::cout << xvalsall[ii]<<","<<yvalsall[ii]<< " " << tempfloats[ii] << std::endl; bookkeeper_pixels_[detid][pixelinfo.str()]->Fill(xvalsall[ii],yvalsall[ii]); } // addTF1ToDQMMonitoringElement(bookkeeper_pixels_[detid][pixelinfo.str()],func_); if(writeSummary_){ summary_<<"row_"<<ipix->row()<<" col_"<<ipix->col(); summary_<<" status_"<<status; summary_<<endl; //std::cout<<detid<<" "<<"row " <<ipix->row()<<" col "<<ipix->col()<<" "<<status<<" "<<chi2<<" "<<prob<<" "<<npoints<<" "<<xvals[0]<<" "<<xvals[npoints-1]<<" "<<plateauval<<std::endl; } } return true; }
void SiPixelGainCalibrationAnalysis::doSetup | ( | const edm::ParameterSet & | ) |
void SiPixelGainCalibrationAnalysis::fillDatabase | ( | ) | [private] |
Definition at line 183 of file SiPixelGainCalibrationAnalysis.cc.
Referenced by calibrationEnd().
{ // only create when necessary. // process the minimum and maximum gain & ped values... edm::LogError("SiPixelGainCalibration::fillDatabase()") << "PLEASE do not fill the database directly from the gain calibration analyzer. This function is currently disabled and no DB payloads will be produced!" << std::endl; }
void SiPixelGainCalibrationAnalysis::newDetID | ( | uint32_t | detid | ) | [private, virtual] |
Reimplemented from SiPixelOfflineCalibAnalysisBase.
Definition at line 472 of file SiPixelGainCalibrationAnalysis.cc.
References SiPixelOfflineCalibAnalysisBase::bookDQMHistogram1D(), SiPixelOfflineCalibAnalysisBase::bookDQMHistoPlaquetteSummary2D(), bookkeeper_, cond::rpcobgas::detid, maxChi2InHist_, maxGainInHist_, scalarVcalHigh_VcalLow_, SiPixelOfflineCalibAnalysisBase::setDQMDirectory(), AlCaHLTBitMon_QueryRunRegistry::string, and SiPixelOfflineCalibAnalysisBase::translateDetIdToString().
{ setDQMDirectory(detid); std::string tempname=translateDetIdToString(detid); bookkeeper_[detid]["gain_1d"] = bookDQMHistogram1D(detid,"Gain1d","gain for "+tempname,100,0.,maxGainInHist_); bookkeeper_[detid]["gain_2d"] = bookDQMHistoPlaquetteSummary2D(detid, "Gain2d","gain for "+tempname); bookkeeper_[detid]["errorgain_2d"] = bookDQMHistoPlaquetteSummary2D(detid, "ErrorGain2d","error on gain for "+tempname); bookkeeper_[detid]["ped_1d"] = bookDQMHistogram1D(detid,"Pedestal1d","pedestal for "+tempname,256,0.,256.0); bookkeeper_[detid]["ped_2d"] = bookDQMHistoPlaquetteSummary2D(detid,"Pedestal2d","pedestal for "+tempname); bookkeeper_[detid]["errorped_2d"] = bookDQMHistoPlaquetteSummary2D(detid,"ErrorPedestal2d","error on pedestal for "+tempname); bookkeeper_[detid]["chi2_1d"] = bookDQMHistogram1D(detid,"GainChi2NDF1d","#chi^{2}/NDOF for "+tempname,100,0.,maxChi2InHist_); bookkeeper_[detid]["chi2_2d"] = bookDQMHistoPlaquetteSummary2D(detid,"GainChi2NDF2d","#chi^{2}/NDOF for "+tempname); bookkeeper_[detid]["prob_1d"] = bookDQMHistogram1D(detid,"GainChi2Prob1d","P(#chi^{2},NDOF) for "+tempname,100,0.,1.0); bookkeeper_[detid]["prob_2d"] = bookDQMHistoPlaquetteSummary2D(detid,"GainChi2Prob2d","P(#chi^{2},NDOF) for "+tempname); bookkeeper_[detid]["status_2d"] = bookDQMHistoPlaquetteSummary2D(detid,"GainFitResult2d","Fit result for "+tempname); bookkeeper_[detid]["endpoint_1d"]= bookDQMHistogram1D(detid,"GainEndPoint1d","point where fit meets ADC=255 for "+tempname,256,0.,256.*scalarVcalHigh_VcalLow_); bookkeeper_[detid]["lowpoint_1d"]= bookDQMHistogram1D(detid,"GainLowPoint1d","lowest fit point for "+tempname,256,0.,256.*scalarVcalHigh_VcalLow_); bookkeeper_[detid]["highpoint_1d"]= bookDQMHistogram1D(detid,"GainHighPoint1d","highest fit point for "+tempname,256,0.,256.*scalarVcalHigh_VcalLow_); bookkeeper_[detid]["nfitpoints_1d"]= bookDQMHistogram1D(detid,"GainNPoints1d","number of fit point for "+tempname,20,0.,20); bookkeeper_[detid]["dynamicrange_2d"]=bookDQMHistoPlaquetteSummary2D(detid,"GainDynamicRange2d","Difference lowest and highest points on gain curve for "+tempname); bookkeeper_[detid]["lowpoint_2d"]=bookDQMHistoPlaquetteSummary2D(detid,"GainLowPoint2d","lowest fit point for "+tempname); bookkeeper_[detid]["highpoint_2d"]=bookDQMHistoPlaquetteSummary2D(detid,"GainHighPoint2d","highest fit point for "+tempname); bookkeeper_[detid]["plateau_2d"]=bookDQMHistoPlaquetteSummary2D(detid,"GainSaturate2d","Highest points on gain curve for "+tempname); }
void SiPixelGainCalibrationAnalysis::printSummary | ( | ) | [private] |
Definition at line 133 of file SiPixelGainCalibrationAnalysis.cc.
References begin, bookkeeper_, bookkeeper_pixels_, CalculateAveragePerColumn(), chi2Threshold_, cond::rpcobgas::detid, i, cuy::ii, Association::map, statusNumbers_, summary_, and SiPixelOfflineCalibAnalysisBase::translateDetIdToString().
Referenced by calibrationEnd().
{ uint32_t detid=0; for(std::map<uint32_t,std::map<std::string,MonitorElement *> >::const_iterator idet = bookkeeper_.begin(); idet != bookkeeper_.end(); ++idet){ if(detid==idet->first) continue;// only do things once per detid detid=idet->first; std::vector<float> gainvec=CalculateAveragePerColumn(detid,"gain_2d"); std::vector<float> pedvec =CalculateAveragePerColumn(detid,"ped_2d"); std::vector<float> chi2vec = CalculateAveragePerColumn(detid,"chi2_2d"); std::ostringstream summarytext; summarytext << "Summary for det ID " << detid << "(" << translateDetIdToString(detid) << ")\n"; summarytext << "\t Following: values per column: column #, gain, pedestal, chi2\n"; for(uint32_t i=0; i<gainvec.size(); i++) summarytext << "\t " << i << " \t" << gainvec[i] << " \t" << pedvec[i] << " \t" << chi2vec[i] << "\n"; summarytext << "\t list of pixels with high chi2 (chi2> " << chi2Threshold_ << "): \n"; for(std::map<std::string, MonitorElement *>::const_iterator ipix = bookkeeper_pixels_[detid].begin(); ipix!=bookkeeper_pixels_[detid].end(); ++ipix) summarytext << "\t " << ipix->first << "\n"; edm::LogInfo("SiPixelGainCalibrationAnalysis") << summarytext.str() << std::endl; } if(summary_.is_open()){ summary_.close(); summary_.open("Summary.txt"); summary_<<"Total Number of Pixel computed :"<<statusNumbers_[9]<<endl; summary_<<"Number of pixel tagged with status :"<<endl; for(int ii=0;ii<9;ii++) summary_<<ii<<" -> "<<statusNumbers_[ii]<<" ~ "<<double(statusNumbers_[ii])/double(statusNumbers_[9])*100.<<" %"<<endl; summary_.close(); } }
bool SiPixelGainCalibrationAnalysis::appendMode_ [private] |
Definition at line 104 of file SiPixelGainCalibrationAnalysis.h.
bool SiPixelGainCalibrationAnalysis::bookBIGCalibPayload_ [private] |
Definition at line 90 of file SiPixelGainCalibrationAnalysis.h.
std::map<uint32_t,std::map<std::string, MonitorElement *> > SiPixelGainCalibrationAnalysis::bookkeeper_ [private] |
Definition at line 71 of file SiPixelGainCalibrationAnalysis.h.
Referenced by CalculateAveragePerColumn(), doFits(), newDetID(), and printSummary().
std::map<uint32_t,std::map<std::string, MonitorElement *> > SiPixelGainCalibrationAnalysis::bookkeeper_pixels_ [private] |
Definition at line 72 of file SiPixelGainCalibrationAnalysis.h.
Referenced by doFits(), and printSummary().
double SiPixelGainCalibrationAnalysis::chi2ProbThreshold_ [private] |
Definition at line 93 of file SiPixelGainCalibrationAnalysis.h.
Referenced by doFits().
double SiPixelGainCalibrationAnalysis::chi2Threshold_ [private] |
Definition at line 92 of file SiPixelGainCalibrationAnalysis.h.
Referenced by doFits(), and printSummary().
Definition at line 69 of file SiPixelGainCalibrationAnalysis.h.
uint32_t SiPixelGainCalibrationAnalysis::currentDetID_ [private] |
Definition at line 121 of file SiPixelGainCalibrationAnalysis.h.
Referenced by doFits(), and SiPixelGainCalibrationAnalysis().
bool SiPixelGainCalibrationAnalysis::filldb_ [private] |
Definition at line 99 of file SiPixelGainCalibrationAnalysis.h.
Referenced by calibrationEnd().
std::string SiPixelGainCalibrationAnalysis::fitfunction_ [private] |
Definition at line 76 of file SiPixelGainCalibrationAnalysis.h.
Referenced by SiPixelGainCalibrationAnalysis().
TF1* SiPixelGainCalibrationAnalysis::func_ [private] |
Definition at line 77 of file SiPixelGainCalibrationAnalysis.h.
Referenced by doFits(), and SiPixelGainCalibrationAnalysis().
float SiPixelGainCalibrationAnalysis::gainhi_ [private] |
Definition at line 112 of file SiPixelGainCalibrationAnalysis.h.
Referenced by doFits().
float SiPixelGainCalibrationAnalysis::gainlow_ [private] |
Definition at line 111 of file SiPixelGainCalibrationAnalysis.h.
Referenced by doFits().
TGraphErrors* SiPixelGainCalibrationAnalysis::graph_ [private] |
Definition at line 78 of file SiPixelGainCalibrationAnalysis.h.
Referenced by doFits(), and SiPixelGainCalibrationAnalysis().
bool SiPixelGainCalibrationAnalysis::ignoreMode_ [private] |
Definition at line 81 of file SiPixelGainCalibrationAnalysis.h.
Referenced by checkCorrectCalibrationType().
std::vector<uint32_t> SiPixelGainCalibrationAnalysis::listofdetids_ [private] |
Definition at line 80 of file SiPixelGainCalibrationAnalysis.h.
Referenced by doFits().
double SiPixelGainCalibrationAnalysis::maxChi2InHist_ [private] |
Definition at line 95 of file SiPixelGainCalibrationAnalysis.h.
Referenced by newDetID().
double SiPixelGainCalibrationAnalysis::maxGainInHist_ [private] |
Definition at line 94 of file SiPixelGainCalibrationAnalysis.h.
Referenced by doFits(), and newDetID().
uint16_t SiPixelGainCalibrationAnalysis::min_nentries_ [private] |
Definition at line 115 of file SiPixelGainCalibrationAnalysis.h.
Referenced by doFits(), and SiPixelGainCalibrationAnalysis().
int SiPixelGainCalibrationAnalysis::nfitparameters_ [private] |
Definition at line 75 of file SiPixelGainCalibrationAnalysis.h.
Referenced by SiPixelGainCalibrationAnalysis().
float SiPixelGainCalibrationAnalysis::pedhi_ [private] |
Definition at line 114 of file SiPixelGainCalibrationAnalysis.h.
Referenced by doFits().
float SiPixelGainCalibrationAnalysis::pedlow_ [private] |
Definition at line 113 of file SiPixelGainCalibrationAnalysis.h.
Referenced by doFits().
double SiPixelGainCalibrationAnalysis::plateau_max_slope_ [private] |
Definition at line 87 of file SiPixelGainCalibrationAnalysis.h.
std::string SiPixelGainCalibrationAnalysis::recordName_ [private] |
Definition at line 103 of file SiPixelGainCalibrationAnalysis.h.
bool SiPixelGainCalibrationAnalysis::reject_badpoints_ [private] |
Definition at line 84 of file SiPixelGainCalibrationAnalysis.h.
Referenced by doFits().
double SiPixelGainCalibrationAnalysis::reject_badpoints_frac_ [private] |
Definition at line 89 of file SiPixelGainCalibrationAnalysis.h.
Referenced by doFits().
bool SiPixelGainCalibrationAnalysis::reject_first_point_ [private] |
Definition at line 88 of file SiPixelGainCalibrationAnalysis.h.
Referenced by doFits().
bool SiPixelGainCalibrationAnalysis::reject_plateaupoints_ [private] |
Definition at line 85 of file SiPixelGainCalibrationAnalysis.h.
Referenced by doFits().
bool SiPixelGainCalibrationAnalysis::reject_single_entries_ [private] |
Definition at line 86 of file SiPixelGainCalibrationAnalysis.h.
Referenced by doFits(), and SiPixelGainCalibrationAnalysis().
bool SiPixelGainCalibrationAnalysis::saveALLHistograms_ [private] |
Definition at line 96 of file SiPixelGainCalibrationAnalysis.h.
Referenced by doFits().
bool SiPixelGainCalibrationAnalysis::savePixelHists_ [private] |
Definition at line 91 of file SiPixelGainCalibrationAnalysis.h.
Referenced by doFits().
double SiPixelGainCalibrationAnalysis::scalarVcalHigh_VcalLow_ [private] |
Definition at line 117 of file SiPixelGainCalibrationAnalysis.h.
Referenced by doFits(), newDetID(), and SiPixelGainCalibrationAnalysis().
int* SiPixelGainCalibrationAnalysis::statusNumbers_ [private] |
Definition at line 122 of file SiPixelGainCalibrationAnalysis.h.
Referenced by doFits(), printSummary(), and SiPixelGainCalibrationAnalysis().
bool SiPixelGainCalibrationAnalysis::sum_gain_cols_ [private] |
Definition at line 98 of file SiPixelGainCalibrationAnalysis.h.
bool SiPixelGainCalibrationAnalysis::sum_ped_cols_ [private] |
Definition at line 97 of file SiPixelGainCalibrationAnalysis.h.
ofstream SiPixelGainCalibrationAnalysis::summary_ [private] |
Definition at line 120 of file SiPixelGainCalibrationAnalysis.h.
Referenced by doFits(), printSummary(), and SiPixelGainCalibrationAnalysis().
bool SiPixelGainCalibrationAnalysis::useVcalHigh_ [private] |
Definition at line 116 of file SiPixelGainCalibrationAnalysis.h.
Referenced by doFits().
bool SiPixelGainCalibrationAnalysis::writeSummary_ [private] |
Definition at line 100 of file SiPixelGainCalibrationAnalysis.h.
Referenced by calibrationEnd(), and doFits().