#include <CalibTracker/SiPixelSCurveCalibration/src/SiPixelSCurveCalibrationAnalysis.cc>

Inheritance diagram for SiPixelSCurveCalibrationAnalysis:

Public Member Functions
void	buildACurveHistogram (const uint32_t &detid, const uint32_t &row, const uint32_t &col, sCurveErrorFlag errorFlag, const std::vector< float > &efficiencies, const std::vector< float > &errors)

virtual bool	doFits (uint32_t detid, std::vector< SiPixelCalibDigi >::const_iterator ipix)

void	doSetup (const edm::ParameterSet &)

sCurveErrorFlag	estimateSCurveParameters (const std::vector< float > &eff, float &threshold, float &sigma)

sCurveErrorFlag	fittedSCurveSanityCheck (float threshold, float sigma, float amplitude)

	SiPixelSCurveCalibrationAnalysis (const edm::ParameterSet &iConfig)

	~SiPixelSCurveCalibrationAnalysis ()

Public Member Functions inherited from SiPixelOfflineCalibAnalysisBase
void	addTF1ToDQMMonitoringElement (MonitorElement ele, TF1 func)

MonitorElement *	bookDQMHistogram1D (uint32_t detid, std::string name, std::string title, int nchX, double lowX, double highX)

MonitorElement *	bookDQMHistogram1D (uint32_t detid, std::string name, std::string title, int nchX, float *xbinsize)

MonitorElement *	bookDQMHistogram2D (uint32_t detid, std::string name, std::string title, int nchX, double lowX, double highX, int nchY, double lowY, double highY)

MonitorElement *	bookDQMHistoPlaquetteSummary2D (uint32_t detid, std::string name, std::string title)

std::vector< uint32_t > &	getRunNumbers ()

bool	setDQMDirectory (std::string dirName)

bool	setDQMDirectory (uint32_t detID)

	SiPixelOfflineCalibAnalysisBase (const edm::ParameterSet &)

	SiPixelOfflineCalibAnalysisBase ()

std::string	translateDetIdToString (uint32_t detid)

	~SiPixelOfflineCalibAnalysisBase ()

Public Member Functions inherited from edm::EDAnalyzer
void	callWhenNewProductsRegistered (std::function< void(BranchDescription const &)> const &func)

	EDAnalyzer ()

ModuleDescription const &	moduleDescription () const

std::string	workerType () const

virtual	~EDAnalyzer ()

Public Member Functions inherited from edm::EDConsumerBase
std::vector< ConsumesInfo >	consumesInfo () const

	EDConsumerBase ()

ProductHolderIndexAndSkipBit	indexFrom (EDGetToken, BranchType, TypeID const &) const

void	itemsMayGet (BranchType, std::vector< ProductHolderIndexAndSkipBit > &) const

void	itemsToGet (BranchType, std::vector< ProductHolderIndexAndSkipBit > &) const

std::vector < ProductHolderIndexAndSkipBit > const &	itemsToGetFromEvent () const

void	labelsForToken (EDGetToken iToken, Labels &oLabels) const

void	modulesDependentUpon (const std::string &iProcessName, std::vector< const char * > &oModuleLabels) const

void	modulesWhoseProductsAreConsumed (std::vector< ModuleDescription const * > &modules, ProductRegistry const &preg, std::map< std::string, ModuleDescription const * > const &labelsToDesc, std::string const &processName) const

bool	registeredToConsume (ProductHolderIndex, bool, BranchType) const

bool	registeredToConsumeMany (TypeID const &, BranchType) const

void	updateLookup (BranchType iBranchType, ProductHolderIndexHelper const &)

virtual	~EDConsumerBase ()

Public Attributes
std::vector< float >	vCalPointsAsFloats_

Static Public Attributes
static std::vector< float >	effErrors_

static std::vector< float >	efficiencies_

Static Public Attributes inherited from SiPixelOfflineCalibAnalysisBase
static TF1 *	fitFunction_ = NULL

Private Member Functions
virtual void	calibrationEnd ()

virtual void	calibrationSetup (const edm::EventSetup &iSetup)

virtual bool	checkCorrectCalibrationType ()

void	makeThresholdSummary (void)

virtual void	newDetID (uint32_t detid)

Private Attributes
unsigned int	curvesSavedCounter_

std::map< uint32_t, bool >	detIDsToSave_

detIDHistogramMap	histograms_

unsigned int	maxCurvesToSave_

double	maximumEffAsymptote_

double	maximumSigma_

double	maximumSigmaBin_

double	maximumThreshold_

double	maximumThresholdBin_

double	minimumChi2prob_

double	minimumEffAsymptote_

double	minimumSigma_

double	minimumThreshold_

std::vector< std::string >	plaquettesToSave_

bool	printoutthresholds_

bool	saveCurvesThatFlaggedBad_

std::string	thresholdfilename_

bool	useDetectorHierarchyFolders_

bool	write2dFitResult_

bool	write2dHistograms_

bool	writeZeroes_

Additional Inherited Members
Public Types inherited from edm::EDAnalyzer
typedef EDAnalyzer	ModuleType

Public Types inherited from edm::EDConsumerBase
typedef ProductLabels	Labels

Static Public Member Functions inherited from SiPixelOfflineCalibAnalysisBase
static const std::vector< short > *	getVcalValues ()

Static Public Member Functions inherited from edm::EDAnalyzer
static const std::string &	baseType ()

static void	fillDescriptions (ConfigurationDescriptions &descriptions)

static void	prevalidate (ConfigurationDescriptions &)

Protected Member Functions inherited from SiPixelOfflineCalibAnalysisBase
uint32_t &	EventNumber ()

Protected Member Functions inherited from edm::EDConsumerBase
template<typename ProductType , BranchType B = InEvent>
EDGetTokenT< ProductType >	consumes (edm::InputTag const &tag)

EDGetToken	consumes (const TypeToGet &id, edm::InputTag const &tag)

template<BranchType B>
EDGetToken	consumes (TypeToGet const &id, edm::InputTag const &tag)

ConsumesCollector	consumesCollector ()
	Use a ConsumesCollector to gather consumes information from helper functions. More...

template<typename ProductType , BranchType B = InEvent>
void	consumesMany ()

void	consumesMany (const TypeToGet &id)

template<BranchType B>
void	consumesMany (const TypeToGet &id)

template<typename ProductType , BranchType B = InEvent>
EDGetTokenT< ProductType >	mayConsume (edm::InputTag const &tag)

EDGetToken	mayConsume (const TypeToGet &id, edm::InputTag const &tag)

template<BranchType B>
EDGetToken	mayConsume (const TypeToGet &id, edm::InputTag const &tag)

Protected Attributes inherited from SiPixelOfflineCalibAnalysisBase
edm::ESHandle < SiPixelCalibConfiguration >	calib_

std::string	calibrationMode_

edm::ESHandle< TrackerGeometry >	geom_

short	nTriggers_

edm::ESHandle < SiPixelFedCablingMap >	theCablingMap_

Static Protected Attributes inherited from SiPixelOfflineCalibAnalysisBase
static std::vector< short >	vCalValues_

Detailed Description

Description: <one line="" class="" summary>="">

Implementation: <Notes on="" implementation>="">

Definition at line 57 of file SiPixelSCurveCalibrationAnalysis.h.

Constructor & Destructor Documentation

SiPixelSCurveCalibrationAnalysis::SiPixelSCurveCalibrationAnalysis ( const edm::ParameterSet & iConfig )

inlineexplicit

Definition at line 59 of file SiPixelSCurveCalibrationAnalysis.h.

References doSetup().

59 :SiPixelOfflineCalibAnalysisBase(iConfig){doSetup(iConfig);};

SiPixelSCurveCalibrationAnalysis::doSetup

void doSetup(const edm::ParameterSet &)

Definition: SiPixelSCurveCalibrationAnalysis.cc:104

SiPixelOfflineCalibAnalysisBase::SiPixelOfflineCalibAnalysisBase

SiPixelOfflineCalibAnalysisBase()

Definition: SiPixelOfflineCalibAnalysisBase.cc:47

SiPixelSCurveCalibrationAnalysis::~SiPixelSCurveCalibrationAnalysis ( )

Definition at line 134 of file SiPixelSCurveCalibrationAnalysis.cc.

 {
    //do nothing
 }

Member Function Documentation

void SiPixelSCurveCalibrationAnalysis::buildACurveHistogram	(	const uint32_t &	detid,
		const uint32_t &	row,
		const uint32_t &	col,
		sCurveErrorFlag	errorFlag,
		const std::vector< float > &	efficiencies,
		const std::vector< float > &	errors
	)

Definition at line 139 of file SiPixelSCurveCalibrationAnalysis.cc.

References SiPixelOfflineCalibAnalysisBase::bookDQMHistogram1D(), cuy::col, curvesSavedCounter_, maxCurvesToSave_, MonitorElement::setBinContent(), MonitorElement::setBinError(), SiPixelOfflineCalibAnalysisBase::setDQMDirectory(), SiPixelOfflineCalibAnalysisBase::translateDetIdToString(), and vCalPointsAsFloats_.

Referenced by doFits().

 {
    if (curvesSavedCounter_ > maxCurvesToSave_)
    {
       edm::LogWarning("SiPixelSCurveCalibrationAnalysis") << "WARNING: Request to save curve for [detid](col/row):  [" << detid << "](" << col << "/" << row << ") denied. Maximum number of saved curves (defined in .cfi) exceeded.";
       return;
    }
    std::ostringstream rootName;
    rootName << "SCurve_row_" << row << "_col_" << col;
    std::ostringstream humanName;
    humanName << translateDetIdToString(detid) << "_" << rootName.str() << "_ErrorFlag_" << (int)errorFlag;
 
    unsigned int numberOfVCalPoints = vCalPointsAsFloats_.size()-1; //minus one is necessary since the lower edge of the last bin must be added
    if (efficiencies.size() != numberOfVCalPoints || errors.size() != numberOfVCalPoints)
    {
       edm::LogError("SiPixelSCurveCalibrationAnalysis") << "Error saving single curve histogram!  Number of Vcal values (" << numberOfVCalPoints << ") does not match number of efficiency points or error points!";
       return;
    }
    setDQMDirectory(detid);
    float * vcalValuesToPassToCrappyRoot = &vCalPointsAsFloats_[0];
    MonitorElement * aBadHisto = bookDQMHistogram1D(detid, rootName.str(), humanName.str(), numberOfVCalPoints, vcalValuesToPassToCrappyRoot);  //ROOT only takes an input as array. :(  HOORAY FOR CINT!
    curvesSavedCounter_++;
    for(unsigned int iBin = 0; iBin < numberOfVCalPoints; ++iBin)
    {
       int rootBin = iBin + 1;  //root bins start at 1
       aBadHisto->setBinContent(rootBin, efficiencies[iBin]);
       aBadHisto->setBinError(rootBin, errors[iBin]);
    }
 }

void SiPixelSCurveCalibrationAnalysis::calibrationEnd ( )

privatevirtual

Reimplemented from SiPixelOfflineCalibAnalysisBase.

Definition at line 20 of file SiPixelSCurveCalibrationAnalysis.cc.

References makeThresholdSummary(), and printoutthresholds_.

                                                      {
   if(printoutthresholds_)
     makeThresholdSummary();
 }

void SiPixelSCurveCalibrationAnalysis::calibrationSetup ( const edm::EventSetup & iSetup )

privatevirtual

Reimplemented from SiPixelOfflineCalibAnalysisBase.

Definition at line 169 of file SiPixelSCurveCalibrationAnalysis.cc.

References curvesSavedCounter_, SiPixelOfflineCalibAnalysisBase::fitFunction_, SiPixelOfflineCalibAnalysisBase::getVcalValues(), i, maxCurvesToSave_, SiPixelOfflineCalibAnalysisBase::nTriggers_, saveCurvesThatFlaggedBad_, vCalPointsAsFloats_, and SiPixelOfflineCalibAnalysisBase::vCalValues_.

 {
    edm::LogInfo("SiPixelSCurveCalibrationAnalysis") << "Calibration Settings: VCalLow: " << vCalValues_[0] << "  VCalHigh: " << vCalValues_[vCalValues_.size()-1] << " nVCal: " << vCalValues_.size() << "  nTriggers: " << nTriggers_;
    curvesSavedCounter_ = 0;
    if (saveCurvesThatFlaggedBad_)
    {
       //build the vCal values as a vector of floats if we want to save single curves
       const std::vector<short>* theVCalValues = this->getVcalValues();
       unsigned int numberOfVCalPoints = theVCalValues->size();
       edm::LogWarning("SiPixelSCurveCalibrationAnalysis") << "WARNING: Option set to save indiviual S-Curves - max number: " 
                                                           << maxCurvesToSave_ << " This can lead to large memory consumption! (Got " << numberOfVCalPoints << " VCal Points";
       for(unsigned int i = 0; i < numberOfVCalPoints; i++)
       {
          vCalPointsAsFloats_.push_back( static_cast<float>((*theVCalValues)[i]) );
          edm::LogInfo("SiPixelSCurveCalibrationAnalysis") << "Adding calibration Vcal: " << (*theVCalValues)[i];
       }
       // must add lower edge of last bin to the vector
       vCalPointsAsFloats_.push_back( vCalPointsAsFloats_[numberOfVCalPoints-1] + 1 );
    }
 
    fitFunction_ = new TF1("sCurve", "0.5*[2]*(1+TMath::Erf( (x-[0]) / ([1]*sqrt(2)) ) )", vCalValues_[0], vCalValues_[vCalValues_.size()-1]);
 }

bool SiPixelSCurveCalibrationAnalysis::checkCorrectCalibrationType ( )

privatevirtual

Reimplemented from SiPixelOfflineCalibAnalysisBase.

Definition at line 193 of file SiPixelSCurveCalibrationAnalysis.cc.

References SiPixelOfflineCalibAnalysisBase::calibrationMode_.

 {
   if(calibrationMode_=="SCurve")
     return true;
   else if(calibrationMode_=="unknown"){
     edm::LogInfo("SiPixelSCurveCalibrationAnalysis") <<  "calibration mode is: " << calibrationMode_ << ", continuing anyway..." ;
     return true;
   }
   else{
     //    edm::LogDebug("SiPixelSCurveCalibrationAnalysis") << "unknown calibration mode for SCurves, should be \"SCurve\" and is \"" << calibrationMode_ << "\"";
   }
   return false;
 }

bool SiPixelSCurveCalibrationAnalysis::doFits	(	uint32_t	detid,
		std::vector< SiPixelCalibDigi >::const_iterator	ipix
	)

virtual

Reimplemented from SiPixelOfflineCalibAnalysisBase.

Definition at line 298 of file SiPixelSCurveCalibrationAnalysis.cc.

References buildACurveHistogram(), calculateEffAndError(), chi2toMinimize(), cuy::col, detIDsToSave_, effErrors_, efficiencies_, errBadChi2Prob, errOK, relativeConstraints::error, estimateSCurveParameters(), fittedSCurveSanityCheck(), fitWZ::gMinuit, histograms_, kChi2s, kChi2Summary, kFitResults, kFitResultSummary, kSigmas, kSigmaSummary, kThresholds, kThresholdSummary, minimumChi2prob_, SiPixelOfflineCalibAnalysisBase::nTriggers_, NULL, saveCurvesThatFlaggedBad_, dtDQMClient_cfg::threshold, SiPixelOfflineCalibAnalysisBase::vCalValues_, write2dFitResult_, and write2dHistograms_.

 {
    sCurveErrorFlag errorFlag = errOK;
    uint32_t nVCalPts = calibDigi->getnpoints();
    //reset and fill static datamembers with vector of points and errors
    efficiencies_.resize(0);
    effErrors_.resize(0);
    for (uint32_t iVcalPt = 0; iVcalPt < nVCalPts; iVcalPt++)
    {
       float eff;
       float error;
       calculateEffAndError(calibDigi->getnentries(iVcalPt), nTriggers_, eff, error);
       edm::LogInfo("SiPixelSCurveCalibrationAnalysis") << "Eff: " << eff << " Error:  " << error << "  nEntries: " << calibDigi->getnentries(iVcalPt) << "  nTriggers: " << nTriggers_ << " VCalPt " << vCalValues_[iVcalPt];
       efficiencies_.push_back(eff);
       effErrors_.push_back(error);
    } 
 
    //estimate the S-Curve parameters
    float thresholdGuess = -1.0;
    float sigmaGuess = -1.0;
    errorFlag = estimateSCurveParameters(efficiencies_, thresholdGuess, sigmaGuess);
 
    // these -1.0 default values will only be filled if the curve is all zeroes, or doesn't turn on, WHICH INDICATES A SERIOUS PROBLEM
    Double_t sigma               = -1.0;
    Double_t sigmaError              = -1.0;
    Double_t threshold               = -1.0;
    Double_t thresholdError      = -1.0;
    Double_t amplitude               = -1.0;
    Double_t amplitudeError      = -1.0;
    Double_t chi2                = -1.0;
    //calculate NDF
    Int_t nDOF                           = vCalValues_.size() - 3;
    Double_t chi2probability         = 0;
 
    if (errorFlag == errOK)          //only do fit if curve is fittable
    {
       //set up minuit fit
       TMinuit *gMinuit = new TMinuit(3);
       gMinuit->SetPrintLevel(-1);  //save ourselves from gigabytes of stdout
       gMinuit->SetFCN(chi2toMinimize);
 
       //define threshold parameters - choose step size 1, max 300, min -50
       gMinuit->DefineParameter(0, "Threshold", (Double_t)thresholdGuess, 1, -50, 300);
       //sigma
       gMinuit->DefineParameter(1, "Sigma", (Double_t)sigmaGuess, 0.1, 0, 255); 
       //amplitude
       gMinuit->DefineParameter(2, "Amplitude", 1, 0.1, -0.001, 200);
 
       //Do Chi2 minimazation
       gMinuit->Migrad();
       gMinuit->GetParameter(0, threshold, thresholdError);
       gMinuit->GetParameter(1, sigma, sigmaError);
       gMinuit->GetParameter(2, amplitude, amplitudeError);
 
       //get Chi2
       Double_t params[3]   = {threshold, sigma, amplitude};
       gMinuit->Eval(3, NULL, chi2, params, 0);
       //calculate Chi2 proability
       if (nDOF <= 0)
          chi2probability = 0;
       else
          chi2probability = TMath::Prob(chi2, nDOF);
       
       //check to make sure output makes sense (i.e. threshold > 0)
       if (chi2probability > minimumChi2prob_)
          errorFlag = fittedSCurveSanityCheck(threshold, sigma, amplitude);
       else
          errorFlag = errBadChi2Prob;
 
       edm::LogInfo("SiPixelSCurveCalibrationAnalysis") << "Fit finished with errorFlag: " << errorFlag << " - threshold: " << threshold << "  sigma: " << sigma << "  chi2: " << chi2 << "  nDOF: " << nDOF << " chi2Prob: " << chi2probability << " chi2MinUser: " << minimumChi2prob_;
 
       delete gMinuit;
    }
    //get row and column for this pixel
    uint32_t row = calibDigi->row();
    uint32_t col = calibDigi->col();
 
    //get iterator to histogram holder for this detid
    detIDHistogramMap::iterator thisDetIdHistoGrams;
    thisDetIdHistoGrams = histograms_.find(detid);
    if (thisDetIdHistoGrams != histograms_.end())
    {
       edm::LogInfo("SiPixelSCurveCalibrationAnalysisHistogramReport") << "Filling histograms for [detid](col/row):  [" << detid << "](" << col << "/" << row << ") ErrorFlag: " << errorFlag;
       //always fill fit result
       (*thisDetIdHistoGrams).second[kFitResultSummary]->Fill(errorFlag);
       if (write2dFitResult_)
          (*thisDetIdHistoGrams).second[kFitResults]->setBinContent(col+1, row+1, errorFlag); // +1 because root bins start at 1
 
       // fill sigma/threshold result
       (*thisDetIdHistoGrams).second[kSigmaSummary]->Fill(sigma);
       (*thisDetIdHistoGrams).second[kThresholdSummary]->Fill(threshold);
       if (write2dHistograms_)
       {
          (*thisDetIdHistoGrams).second[kSigmas]->setBinContent(col+1, row+1, sigma); // +1 because root bins start at 1
          (*thisDetIdHistoGrams).second[kThresholds]->setBinContent(col+1, row+1, threshold); // +1 because root bins start at 1
       }
       // fill chi2
       (*thisDetIdHistoGrams).second[kChi2Summary]->Fill(chi2probability);
       if (write2dHistograms_)
          (*thisDetIdHistoGrams).second[kChi2s]->Fill(col, row, chi2probability);
    }
    // save individual curves, if requested
    if (saveCurvesThatFlaggedBad_)
    {
       bool thisDetIDinList = false;
       if (detIDsToSave_.find(detid) != detIDsToSave_.end()) //see if we want to save this histogram
          thisDetIDinList = true;
 
       if (errorFlag != errOK || thisDetIDinList)
       {
          edm::LogError("SiPixelSCurveCalibrationAnalysis") << "Saving error histogram for [detid](col/row):  [" << detid << "](" << col << "/" << row << ") ErrorFlag: " << errorFlag;
          buildACurveHistogram(detid, row, col, errorFlag, efficiencies_, effErrors_);
       }
    }
 
    return true;
    
 }

void SiPixelSCurveCalibrationAnalysis::doSetup ( const edm::ParameterSet & iConfig )

Definition at line 104 of file SiPixelSCurveCalibrationAnalysis.cc.

References detIDsToSave_, edm::ParameterSet::getUntrackedParameter(), i, maxCurvesToSave_, maximumEffAsymptote_, maximumSigma_, maximumSigmaBin_, maximumThreshold_, maximumThresholdBin_, minimumChi2prob_, minimumEffAsymptote_, minimumSigma_, minimumThreshold_, printoutthresholds_, saveCurvesThatFlaggedBad_, AlCaHLTBitMon_QueryRunRegistry::string, thresholdfilename_, useDetectorHierarchyFolders_, write2dFitResult_, write2dHistograms_, and writeZeroes_.

Referenced by SiPixelSCurveCalibrationAnalysis().

 {
    edm::LogInfo("SiPixelSCurveCalibrationAnalysis") << "Setting up calibration paramters.";
    std::vector<uint32_t>        anEmptyDefaultVectorOfUInts;
    std::vector<uint32_t>        detIDsToSaveVector_;
    useDetectorHierarchyFolders_ = iConfig.getUntrackedParameter<bool>("useDetectorHierarchyFolders", true);
    saveCurvesThatFlaggedBad_    = iConfig.getUntrackedParameter<bool>("saveCurvesThatFlaggedBad", false);
    detIDsToSaveVector_          = iConfig.getUntrackedParameter<std::vector<uint32_t> >("detIDsToSave", anEmptyDefaultVectorOfUInts);
    maxCurvesToSave_             = iConfig.getUntrackedParameter<uint32_t>("maxCurvesToSave", 1000);
    write2dHistograms_           = iConfig.getUntrackedParameter<bool>("write2dHistograms", true);
    write2dFitResult_            = iConfig.getUntrackedParameter<bool>("write2dFitResult", true);
    printoutthresholds_          = iConfig.getUntrackedParameter<bool>("writeOutThresholdSummary",true);
    thresholdfilename_           = iConfig.getUntrackedParameter<std::string>("thresholdOutputFileName","thresholds.txt");  
    minimumChi2prob_             = iConfig.getUntrackedParameter<double>("minimumChi2prob", 0);
    minimumThreshold_            = iConfig.getUntrackedParameter<double>("minimumThreshold", -10);
    maximumThreshold_            = iConfig.getUntrackedParameter<double>("maximumThreshold", 300);
    minimumSigma_                = iConfig.getUntrackedParameter<double>("minimumSigma", 0);
    maximumSigma_                = iConfig.getUntrackedParameter<double>("maximumSigma", 100);
    minimumEffAsymptote_         = iConfig.getUntrackedParameter<double>("minimumEffAsymptote", 0);
    maximumEffAsymptote_         = iConfig.getUntrackedParameter<double>("maximumEffAsymptote", 1000);
    maximumSigmaBin_             = iConfig.getUntrackedParameter<double>("maximumSigmaBin", 10);
    maximumThresholdBin_         = iConfig.getUntrackedParameter<double>("maximumThresholdBin", 255);
 
    writeZeroes_= iConfig.getUntrackedParameter<bool>("alsoWriteZeroThresholds", false);
 
    // convert the vector into a map for quicker lookups.
    for(unsigned int i = 0; i < detIDsToSaveVector_.size(); i++)
       detIDsToSave_.insert( std::make_pair(detIDsToSaveVector_[i], true) );
 }

sCurveErrorFlag SiPixelSCurveCalibrationAnalysis::estimateSCurveParameters	(	const std::vector< float > &	eff,
		float &	threshold,
		float &	sigma
	)

Definition at line 207 of file SiPixelSCurveCalibrationAnalysis.cc.

References delta, errAllZeros, errNoTurnOn, errOK, convertSQLitetoXML_cfg::output, and SiPixelOfflineCalibAnalysisBase::vCalValues_.

Referenced by doFits().

 {
    sCurveErrorFlag output = errAllZeros;
    bool allZeroSoFar    = true;
    int turnOnBin        = -1;
    int saturationBin    = -1;
    for (uint32_t iVcalPt = 0; iVcalPt < eff.size(); iVcalPt++)
    {
       if (allZeroSoFar && eff[iVcalPt] != 0 ) {
          turnOnBin = iVcalPt;
          allZeroSoFar = false;
          output = errNoTurnOn;
       } else if (eff[iVcalPt] > 0.90)
       {
          saturationBin  = iVcalPt;
          short turnOnVcal       = vCalValues_[turnOnBin];
          short saturationVcal   = vCalValues_[saturationBin];
          short delta            = saturationVcal - turnOnVcal;
          sigma                  = delta * 0.682;
          if (sigma < 1)         //check to make sure sigma guess is larger than our X resolution.  Hopefully prevents Minuit from getting stuck at boundary
             sigma = 1;
          threshold              = turnOnVcal + (0.5 * delta);
          return errOK;
       }
    }
    return output;
 }

sCurveErrorFlag SiPixelSCurveCalibrationAnalysis::fittedSCurveSanityCheck	(	float	threshold,
		float	sigma,
		float	amplitude
	)

Definition at line 235 of file SiPixelSCurveCalibrationAnalysis.cc.

References errFitNonPhysical, errFlaggedBadByUser, errOK, maximumEffAsymptote_, maximumSigma_, maximumThreshold_, and SiPixelOfflineCalibAnalysisBase::vCalValues_.

Referenced by doFits().

 {
    //check if nonsensical
    if (threshold > vCalValues_[vCalValues_.size()-1] || threshold < vCalValues_[0] ||
          sigma > vCalValues_[vCalValues_.size()-1] - vCalValues_[0] )
       return errFitNonPhysical;
 
    if (threshold < minimumThreshold_ || threshold > maximumThreshold_ ||
          sigma < minimumSigma_ || sigma > maximumSigma_ ||
          amplitude < minimumEffAsymptote_ || amplitude > maximumEffAsymptote_)
       return errFlaggedBadByUser;
 
    return errOK;
 }

void SiPixelSCurveCalibrationAnalysis::makeThresholdSummary ( void )

private

Definition at line 25 of file SiPixelSCurveCalibrationAnalysis.cc.

References gather_cfg::cout, sipixelobjects::ElectronicIndex::dcol, sipixelobjects::LocalPixel::DcolPxid::dcol, cond::rpcobgas::detid, MonitorElement::getBinContent(), MonitorElement::getNbinsX(), MonitorElement::getNbinsY(), MonitorElement::getTitle(), histograms_, sipixelobjects::PixelROC::idInDetUnit(), kSigmas, kThresholds, sipixelobjects::ElectronicIndex::link, mergeVDriftHistosByStation::name, fed_dqm_sourceclient-live_cfg::path, edm::ESHandle< class >::product(), sipixelobjects::ElectronicIndex::pxid, sipixelobjects::LocalPixel::DcolPxid::pxid, sipixelobjects::ElectronicIndex::roc, sipixelobjects::LocalPixel::rocCol(), sipixelobjects::LocalPixel::rocRow(), AlCaHLTBitMon_QueryRunRegistry::string, SiPixelOfflineCalibAnalysisBase::theCablingMap_, thresholdfilename_, SiPixelFrameConverter::toCabling(), and writeZeroes_.

Referenced by calibrationEnd().

                                                                {
   std::ofstream myfile;
   myfile.open (thresholdfilename_.c_str());
   for(detIDHistogramMap::iterator  thisDetIdHistoGrams= histograms_.begin();  thisDetIdHistoGrams != histograms_.end(); ++thisDetIdHistoGrams){
    // loop over det id (det id = number (unsigned int) of pixel module 
     const MonitorElement *sigmahist = (*thisDetIdHistoGrams).second[kSigmas];
     const MonitorElement *thresholdhist = (*thisDetIdHistoGrams).second[kThresholds];  
     uint32_t detid = (*thisDetIdHistoGrams).first;
     std::string name = sigmahist->getTitle();
     std::string rocname = name.substr(0,name.size()-7);
     rocname+="_ROC";
     int total_rows = sigmahist ->getNbinsY();
     int total_columns = sigmahist->getNbinsX();
     //loop over all rows on columns on all ROCs 
     for (int irow=0; irow<total_rows; ++irow){
       for (int icol=0; icol<total_columns; ++icol){
     float threshold_error = sigmahist->getBinContent(icol+1,irow+1); // +1 because root bins start at 1
         if(writeZeroes_ ||(!writeZeroes_ && threshold_error>0)){         
       //changing from offline to online numbers
       int realfedID=-1;
       for(int fedid=0; fedid<=40; ++fedid){
         SiPixelFrameConverter converter(theCablingMap_.product(),fedid);
         if(converter.hasDetUnit(detid)){
           realfedID=fedid;
           break;   
         }
       }
       if (realfedID==-1){
         std::cout<<"error: could not obtain real fed ID"<<std::endl;
       }
       sipixelobjects::DetectorIndex detector ={detid,irow,icol};
       sipixelobjects::ElectronicIndex cabling; 
       SiPixelFrameConverter formatter(theCablingMap_.product(),realfedID);
       formatter.toCabling(cabling,detector);
       // cabling should now contain cabling.roc and cabling.dcol  and cabling.pxid
       // however, the coordinates now need to be converted from dcl,pxid to the row,col coordinates used in the calibration info 
       sipixelobjects::LocalPixel::DcolPxid loc;
       loc.dcol = cabling.dcol;
       loc.pxid = cabling.pxid;
       // FIX to adhere to new cabling map. To be replaced with CalibTracker/SiPixelTools detid - > hardware id classes ASAP.
       //        const sipixelobjects::PixelFEDCabling *theFed= theCablingMap.product()->fed(realfedID);
       //        const sipixelobjects::PixelFEDLink * link = theFed->link(cabling.link);
       //        const sipixelobjects::PixelROC *theRoc = link->roc(cabling.roc);
       sipixelobjects::LocalPixel locpixel(loc);
       sipixelobjects::CablingPathToDetUnit path = {static_cast<unsigned int>(realfedID),
                                                        static_cast<unsigned int>(cabling.link),
                                                        static_cast<unsigned int>(cabling.roc)};
       const sipixelobjects::PixelROC *theRoc = theCablingMap_->findItem(path);
       // END of FIX
       int newrow= locpixel.rocRow();
       int newcol = locpixel.rocCol();
       myfile<<rocname<<theRoc->idInDetUnit()<<" "<<newcol<<" "<<newrow<<" "<<thresholdhist->getBinContent(icol+1, irow+1)<<" "<<threshold_error;  // +1 because root bins start at 1
       myfile<<"\n";
     }
       }
     }
   }
   myfile.close();
 }

void SiPixelSCurveCalibrationAnalysis::newDetID ( uint32_t detid )

privatevirtual

Reimplemented from SiPixelOfflineCalibAnalysisBase.

Definition at line 260 of file SiPixelSCurveCalibrationAnalysis.cc.

References SiPixelOfflineCalibAnalysisBase::bookDQMHistogram1D(), SiPixelOfflineCalibAnalysisBase::bookDQMHistoPlaquetteSummary2D(), cond::rpcobgas::detid, histograms_, kChi2s, kChi2Summary, kFitResults, kFitResultSummary, kSigmas, kSigmaSummary, kThresholds, kThresholdSummary, maximumSigmaBin_, maximumThresholdBin_, SiPixelOfflineCalibAnalysisBase::setDQMDirectory(), AlCaHLTBitMon_QueryRunRegistry::string, SiPixelOfflineCalibAnalysisBase::translateDetIdToString(), useDetectorHierarchyFolders_, write2dFitResult_, and write2dHistograms_.

 {
    edm::LogInfo("SiPixelSCurveCalibrationAnalysis") << "Found a new DetID (" << detid << ")!  Checking to make sure it has not been added.";
    //ensure that this DetID has not been added yet
    sCurveHistogramHolder tempMap;
    std::pair<detIDHistogramMap::iterator, bool> insertResult; 
    insertResult = histograms_.insert(std::make_pair(detid, tempMap));
    if (insertResult.second)     //indicates successful insertion
    {
       edm::LogInfo("SiPixelSCurveCalibrationAnalysisHistogramReport") << "Histogram Map.insert() returned true!  Booking new histogrames for detID: " << detid;
       // use detector hierarchy folders if desired
       if (useDetectorHierarchyFolders_)
          setDQMDirectory(detid);
 
       std::string detIdName = translateDetIdToString(detid);
       if (write2dHistograms_){
     MonitorElement * D2sigma       = bookDQMHistoPlaquetteSummary2D(detid,"ScurveSigmas", detIdName + " Sigmas");
     MonitorElement * D2thresh      = bookDQMHistoPlaquetteSummary2D(detid,"ScurveThresholds", detIdName + " Thresholds");
     MonitorElement * D2chi2        = bookDQMHistoPlaquetteSummary2D(detid,"ScurveChi2Prob",detIdName + " Chi2Prob");
          insertResult.first->second.insert(std::make_pair(kSigmas, D2sigma));
          insertResult.first->second.insert(std::make_pair(kThresholds, D2thresh));
          insertResult.first->second.insert(std::make_pair(kChi2s, D2chi2));
       }
       if (write2dFitResult_){
     MonitorElement * D2FitResult = bookDQMHistoPlaquetteSummary2D(detid,"ScurveFitResult", detIdName + " Fit Result");
          insertResult.first->second.insert(std::make_pair(kFitResults, D2FitResult));
       }
       MonitorElement * D1sigma       = bookDQMHistogram1D(detid,"ScurveSigmasSummary", detIdName + " Sigmas Summary", 100, 0, maximumSigmaBin_);
       MonitorElement * D1thresh      = bookDQMHistogram1D(detid,"ScurveThresholdSummary", detIdName + " Thresholds Summary", 255, 0, maximumThresholdBin_);
       MonitorElement * D1chi2        = bookDQMHistogram1D(detid,"ScurveChi2ProbSummary", detIdName + " Chi2Prob Summary", 101, 0, 1.01);
       MonitorElement * D1FitResult   = bookDQMHistogram1D(detid,"ScurveFitResultSummary", detIdName + " Fit Result Summary", 10, -0.5, 9.5);
       insertResult.first->second.insert(std::make_pair(kSigmaSummary, D1sigma));
       insertResult.first->second.insert(std::make_pair(kThresholdSummary, D1thresh));
       insertResult.first->second.insert(std::make_pair(kChi2Summary, D1chi2));
       insertResult.first->second.insert(std::make_pair(kFitResultSummary, D1FitResult));
    }
 }