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EcalUncalibRecHitMultiFitAlgo Class Reference

#include <EcalUncalibRecHitMultiFitAlgo.h>

Public Member Functions

void disableErrorCalculation ()
 
 EcalUncalibRecHitMultiFitAlgo ()
 
EcalUncalibratedRecHit makeRecHit (const EcalDataFrame &dataFrame, const EcalPedestals::Item *aped, const EcalMGPAGainRatio *aGain, const SampleMatrixGainArray &noisecors, const FullSampleVector &fullpulse, const FullSampleMatrix &fullpulsecov, const BXVector &activeBX)
 compute rechits More...
 
void setAddPedestalUncertainty (double x)
 
void setDoPrefit (bool b)
 
void setDynamicPedestals (bool b)
 
void setGainSwitchUseMaxSample (bool b)
 
void setMitigateBadSamples (bool b)
 
void setPrefitMaxChiSq (double x)
 
void setSelectiveBadSampleCriteria (bool b)
 
void setSimplifiedNoiseModelForGainSwitch (bool b)
 
 ~EcalUncalibRecHitMultiFitAlgo ()
 

Private Attributes

double _addPedestalUncertainty
 
bool _computeErrors
 
bool _doPrefit
 
bool _dynamicPedestals
 
bool _gainSwitchUseMaxSample
 
bool _mitigateBadSamples
 
double _prefitMaxChiSq
 
PulseChiSqSNNLS _pulsefunc
 
PulseChiSqSNNLS _pulsefuncSingle
 
bool _selectiveBadSampleCriteria
 
bool _simplifiedNoiseModelForGainSwitch
 
BXVector _singlebx
 

Detailed Description

Amplitude reconstucted by the multi-template fit

Author
J.Bendavid, E.Di Marco

Definition at line 21 of file EcalUncalibRecHitMultiFitAlgo.h.

Constructor & Destructor Documentation

EcalUncalibRecHitMultiFitAlgo::EcalUncalibRecHitMultiFitAlgo ( )

Definition at line 8 of file EcalUncalibRecHitMultiFitAlgo.cc.

References _pulsefuncSingle, _singlebx, PulseChiSqSNNLS::disableErrorCalculation(), BXVector< T >::resize(), PulseChiSqSNNLS::setMaxIters(), and PulseChiSqSNNLS::setMaxIterWarnings().

8  :
9  _computeErrors(true),
10  _doPrefit(false),
11  _prefitMaxChiSq(1.0),
12  _dynamicPedestals(false),
13  _mitigateBadSamples(false),
18 
19  _singlebx.resize(1);
20  _singlebx << 0;
21 
25 
26 }
void setMaxIterWarnings(bool b)
void setMaxIters(int n)
void disableErrorCalculation()
void resize(int bx, unsigned size)
EcalUncalibRecHitMultiFitAlgo::~EcalUncalibRecHitMultiFitAlgo ( )
inline

Definition at line 27 of file EcalUncalibRecHitMultiFitAlgo.h.

References makeRecHit().

27 { };

Member Function Documentation

void EcalUncalibRecHitMultiFitAlgo::disableErrorCalculation ( )
inline
EcalUncalibratedRecHit EcalUncalibRecHitMultiFitAlgo::makeRecHit ( const EcalDataFrame dataFrame,
const EcalPedestals::Item aped,
const EcalMGPAGainRatio aGain,
const SampleMatrixGainArray noisecors,
const FullSampleVector fullpulse,
const FullSampleMatrix fullpulsecov,
const BXVector activeBX 
)

compute rechits

Definition at line 29 of file EcalUncalibRecHitMultiFitAlgo.cc.

References _addPedestalUncertainty, _computeErrors, _doPrefit, _dynamicPedestals, _gainSwitchUseMaxSample, _mitigateBadSamples, _prefitMaxChiSq, _pulsefunc, _pulsefuncSingle, _selectiveBadSampleCriteria, _simplifiedNoiseModelForGainSwitch, _singlebx, funct::abs(), EcalMGPASample::adc(), CustomPhysics_cfi::amplitude, PulseChiSqSNNLS::BXs(), PulseChiSqSNNLS::ChiSq(), PulseChiSqSNNLS::disableErrorCalculation(), PulseChiSqSNNLS::DoFit(), PulseChiSqSNNLS::Errors(), flags, EcalMGPAGainRatio::gain12Over6(), EcalMGPAGainRatio::gain6Over1(), ecalMGPA::gainId(), EcalMGPASample::gainId(), EcalDataFrame::hasSwitchToGain1(), EcalDataFrame::hasSwitchToGain6(), EcalDataFrame::id(), EcalDataFrame::isSaturated(), RecoTauDiscriminantConfiguration::mask, SiStripPI::max, EcalDataFrame::MAXSAMPLES, EcalPedestal::mean_x1, EcalPedestal::mean_x12, EcalPedestal::mean_x6, muonCSCDigis_cfi::pedestal, EcalPedestal::rms_x1, EcalPedestal::rms_x12, EcalPedestal::rms_x6, simplePhotonAnalyzer_cfi::sample, EcalDataFrame::sample(), EcalUncalibratedRecHit::setAmplitudeError(), mps_update::status, and PulseChiSqSNNLS::X().

Referenced by EcalUncalibRecHitWorkerMultiFit::run(), and ~EcalUncalibRecHitMultiFitAlgo().

29  {
30 
31  uint32_t flags = 0;
32 
33  const unsigned int nsample = EcalDataFrame::MAXSAMPLES;
34 
35  double maxamplitude = -std::numeric_limits<double>::max();
36  const unsigned int iSampleMax = 5;
37  const unsigned int iFullPulseMax = 9;
38 
39  double pedval = 0.;
40 
41  SampleVector amplitudes;
42  SampleGainVector gainsNoise;
43  SampleGainVector gainsPedestal;
44  SampleGainVector badSamples = SampleGainVector::Zero();
45  bool hasSaturation = dataFrame.isSaturated();
46  bool hasGainSwitch = hasSaturation || dataFrame.hasSwitchToGain6() || dataFrame.hasSwitchToGain1();
47 
48  //no dynamic pedestal in case of gain switch, since then the fit becomes too underconstrained
49  bool dynamicPedestal = _dynamicPedestals && !hasGainSwitch;
50 
51  for(unsigned int iSample = 0; iSample < nsample; iSample++) {
52 
53  const EcalMGPASample &sample = dataFrame.sample(iSample);
54 
55  double amplitude = 0.;
56  int gainId = sample.gainId();
57 
58  double pedestal = 0.;
59  double gainratio = 1.;
60 
61  if (gainId==0 || gainId==3) {
62  pedestal = aped->mean_x1;
63  gainratio = aGain->gain6Over1()*aGain->gain12Over6();
64  gainsNoise[iSample] = 2;
65  gainsPedestal[iSample] = dynamicPedestal ? 2 : -1; //-1 for static pedestal
66  }
67  else if (gainId==1) {
68  pedestal = aped->mean_x12;
69  gainratio = 1.;
70  gainsNoise[iSample] = 0;
71  gainsPedestal[iSample] = dynamicPedestal ? 0 : -1; //-1 for static pedestal
72  }
73  else if (gainId==2) {
74  pedestal = aped->mean_x6;
75  gainratio = aGain->gain12Over6();
76  gainsNoise[iSample] = 1;
77  gainsPedestal[iSample] = dynamicPedestal ? 1 : -1; //-1 for static pedestals
78  }
79 
80  if (dynamicPedestal) {
81  amplitude = (double)(sample.adc())*gainratio;
82  }
83  else {
84  amplitude = ((double)(sample.adc()) - pedestal) * gainratio;
85  }
86 
87  if (gainId == 0) {
88  edm::LogError("EcalUncalibRecHitMultiFitAlgo")<< "Saturation encountered. Multifit is not intended to be used for saturated channels.";
89  //saturation
90  if (dynamicPedestal) {
91  amplitude = 4095.*gainratio;
92  }
93  else {
94  amplitude = (4095. - pedestal) * gainratio;
95  }
96  }
97 
98  amplitudes[iSample] = amplitude;
99 
100  if (iSample==iSampleMax) {
101  maxamplitude = amplitude;
102  pedval = pedestal;
103  }
104 
105  }
106 
107  double amplitude, amperr, chisq;
108  bool status = false;
109 
110  //special handling for gain switch, where sample before maximum is potentially affected by slew rate limitation
111  //optionally apply a stricter criteria, assuming slew rate limit is only reached in case where maximum sample has gain switched but previous sample has not
112  //option 1: use simple max-sample algorithm
113  if (hasGainSwitch && _gainSwitchUseMaxSample) {
114  double maxpulseamplitude = maxamplitude / fullpulse[iFullPulseMax];
115  EcalUncalibratedRecHit rh( dataFrame.id(), maxpulseamplitude, pedval, 0., 0., flags );
116  rh.setAmplitudeError(0.);
117  for (unsigned int ipulse=0; ipulse<_pulsefunc.BXs().rows(); ++ipulse) {
118  int bx = _pulsefunc.BXs().coeff(ipulse);
119  if (bx!=0) {
120  rh.setOutOfTimeAmplitude(bx+5, 0.0);
121  }
122  }
123  return rh;
124  }
125 
126  //option2: A floating negative single-sample offset is added to the fit
127  //such that the affected sample is treated only as a lower limit for the true amplitude
128  bool mitigateBadSample = _mitigateBadSamples && hasGainSwitch && iSampleMax>0;
129  mitigateBadSample &= (!_selectiveBadSampleCriteria || (gainsNoise.coeff(iSampleMax-1)!=gainsNoise.coeff(iSampleMax)) );
130  if (mitigateBadSample) {
131  badSamples[iSampleMax-1] = 1;
132  }
133 
134  //compute noise covariance matrix, which depends on the sample gains
135  SampleMatrix noisecov;
136  if (hasGainSwitch) {
137  std::array<double,3> pedrmss = {{aped->rms_x12, aped->rms_x6, aped->rms_x1}};
138  std::array<double,3> gainratios = {{ 1., aGain->gain12Over6(), aGain->gain6Over1()*aGain->gain12Over6()}};
140  int gainidxmax = gainsNoise[iSampleMax];
141  noisecov = gainratios[gainidxmax]*gainratios[gainidxmax]*pedrmss[gainidxmax]*pedrmss[gainidxmax]*noisecors[gainidxmax];
142  if (!dynamicPedestal && _addPedestalUncertainty>0.) {
143  //add fully correlated component to noise covariance to inflate pedestal uncertainty
144  noisecov += _addPedestalUncertainty*_addPedestalUncertainty*SampleMatrix::Ones();
145  }
146  }
147  else {
148  noisecov = SampleMatrix::Zero();
149  for (unsigned int gainidx=0; gainidx<noisecors.size(); ++gainidx) {
150  SampleGainVector mask = gainidx*SampleGainVector::Ones();
151  SampleVector pedestal = (gainsNoise.array()==mask.array()).cast<SampleVector::value_type>();
152  if (pedestal.maxCoeff()>0.) {
153  //select out relevant components of each correlation matrix, and assume no correlation between samples with
154  //different gain
155  noisecov += gainratios[gainidx]*gainratios[gainidx]*pedrmss[gainidx]*pedrmss[gainidx]*pedestal.asDiagonal()*noisecors[gainidx]*pedestal.asDiagonal();
156  if (!dynamicPedestal && _addPedestalUncertainty>0.) {
157  //add fully correlated component to noise covariance to inflate pedestal uncertainty
158  noisecov += gainratios[gainidx]*gainratios[gainidx]*_addPedestalUncertainty*_addPedestalUncertainty*pedestal.asDiagonal()*SampleMatrix::Ones()*pedestal.asDiagonal();
159  }
160  }
161  }
162  }
163  }
164  else {
165  noisecov = aped->rms_x12*aped->rms_x12*noisecors[0];
166  if (!dynamicPedestal && _addPedestalUncertainty>0.) {
167  //add fully correlated component to noise covariance to inflate pedestal uncertainty
168  noisecov += _addPedestalUncertainty*_addPedestalUncertainty*SampleMatrix::Ones();
169  }
170  }
171 
172  //optimized one-pulse fit for hlt
173  bool usePrefit = false;
174  if (_doPrefit) {
175  status = _pulsefuncSingle.DoFit(amplitudes,noisecov,_singlebx,fullpulse,fullpulsecov,gainsPedestal,badSamples);
176  amplitude = status ? _pulsefuncSingle.X()[0] : 0.;
177  amperr = status ? _pulsefuncSingle.Errors()[0] : 0.;
178  chisq = _pulsefuncSingle.ChiSq();
179 
180  if (chisq < _prefitMaxChiSq) {
181  usePrefit = true;
182  }
183  }
184 
185  if (!usePrefit) {
186 
188  status = _pulsefunc.DoFit(amplitudes,noisecov,activeBX,fullpulse,fullpulsecov,gainsPedestal,badSamples);
189  chisq = _pulsefunc.ChiSq();
190 
191  if (!status) {
192  edm::LogWarning("EcalUncalibRecHitMultiFitAlgo::makeRecHit") << "Failed Fit" << std::endl;
193  }
194 
195  unsigned int ipulseintime = 0;
196  for (unsigned int ipulse=0; ipulse<_pulsefunc.BXs().rows(); ++ipulse) {
197  if (_pulsefunc.BXs().coeff(ipulse)==0) {
198  ipulseintime = ipulse;
199  break;
200  }
201  }
202 
203  amplitude = status ? _pulsefunc.X()[ipulseintime] : 0.;
204  amperr = status ? _pulsefunc.Errors()[ipulseintime] : 0.;
205 
206  }
207 
208  double jitter = 0.;
209 
210  EcalUncalibratedRecHit rh( dataFrame.id(), amplitude , pedval, jitter, chisq, flags );
211  rh.setAmplitudeError(amperr);
212 
213  if (!usePrefit) {
214  for (unsigned int ipulse=0; ipulse<_pulsefunc.BXs().rows(); ++ipulse) {
215  int bx = _pulsefunc.BXs().coeff(ipulse);
216  if (bx!=0 && std::abs(bx)<100) {
217  rh.setOutOfTimeAmplitude(bx+5, status ? _pulsefunc.X().coeff(ipulse) : 0.);
218  }
219  else if (bx==(100+gainsPedestal[iSampleMax])) {
220  rh.setPedestal(status ? _pulsefunc.X().coeff(ipulse) : 0.);
221  }
222  }
223  }
224 
225  return rh;
226 }
bool hasSwitchToGain1() const
DetId id() const
Definition: EcalDataFrame.h:24
int gainId(sample_type sample)
get the gainId (2 bits)
bool hasSwitchToGain6() const
void disableErrorCalculation()
bool isSaturated() const
Definition: EcalDataFrame.h:38
const PulseVector & Errors() const
EcalMGPASample sample(int i) const
Definition: EcalDataFrame.h:29
std::vector< Variable::Flags > flags
Definition: MVATrainer.cc:135
bool DoFit(const SampleVector &samples, const SampleMatrix &samplecov, const BXVector &bxs, const FullSampleVector &fullpulse, const FullSampleMatrix &fullpulsecov, const SampleGainVector &gains=-1 *SampleGainVector::Ones(), const SampleGainVector &badSamples=SampleGainVector::Zero())
int gainId() const
get the gainId (2 bits)
const PulseVector & X() const
Eigen::Matrix< char, SampleVectorSize, 1 > SampleGainVector
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
float gain6Over1() const
void setAmplitudeError(float amplitudeerror)
Eigen::Matrix< double, SampleVectorSize, 1 > SampleVector
double ChiSq() const
Eigen::Matrix< double, SampleVectorSize, SampleVectorSize > SampleMatrix
float gain12Over6() const
const BXVector & BXs() const
static const int MAXSAMPLES
Definition: EcalDataFrame.h:48
int adc() const
get the ADC sample (12 bits)
void EcalUncalibRecHitMultiFitAlgo::setAddPedestalUncertainty ( double  x)
inline
void EcalUncalibRecHitMultiFitAlgo::setDoPrefit ( bool  b)
inline

Definition at line 30 of file EcalUncalibRecHitMultiFitAlgo.h.

References _doPrefit, and b.

Referenced by EcalUncalibRecHitWorkerMultiFit::run().

void EcalUncalibRecHitMultiFitAlgo::setDynamicPedestals ( bool  b)
inline
void EcalUncalibRecHitMultiFitAlgo::setGainSwitchUseMaxSample ( bool  b)
inline
void EcalUncalibRecHitMultiFitAlgo::setMitigateBadSamples ( bool  b)
inline
void EcalUncalibRecHitMultiFitAlgo::setPrefitMaxChiSq ( double  x)
inline
void EcalUncalibRecHitMultiFitAlgo::setSelectiveBadSampleCriteria ( bool  b)
inline
void EcalUncalibRecHitMultiFitAlgo::setSimplifiedNoiseModelForGainSwitch ( bool  b)
inline

Member Data Documentation

double EcalUncalibRecHitMultiFitAlgo::_addPedestalUncertainty
private

Definition at line 48 of file EcalUncalibRecHitMultiFitAlgo.h.

Referenced by makeRecHit(), and setAddPedestalUncertainty().

bool EcalUncalibRecHitMultiFitAlgo::_computeErrors
private

Definition at line 42 of file EcalUncalibRecHitMultiFitAlgo.h.

Referenced by disableErrorCalculation(), and makeRecHit().

bool EcalUncalibRecHitMultiFitAlgo::_doPrefit
private

Definition at line 43 of file EcalUncalibRecHitMultiFitAlgo.h.

Referenced by makeRecHit(), and setDoPrefit().

bool EcalUncalibRecHitMultiFitAlgo::_dynamicPedestals
private

Definition at line 45 of file EcalUncalibRecHitMultiFitAlgo.h.

Referenced by makeRecHit(), and setDynamicPedestals().

bool EcalUncalibRecHitMultiFitAlgo::_gainSwitchUseMaxSample
private

Definition at line 50 of file EcalUncalibRecHitMultiFitAlgo.h.

Referenced by makeRecHit(), and setGainSwitchUseMaxSample().

bool EcalUncalibRecHitMultiFitAlgo::_mitigateBadSamples
private

Definition at line 46 of file EcalUncalibRecHitMultiFitAlgo.h.

Referenced by makeRecHit(), and setMitigateBadSamples().

double EcalUncalibRecHitMultiFitAlgo::_prefitMaxChiSq
private

Definition at line 44 of file EcalUncalibRecHitMultiFitAlgo.h.

Referenced by makeRecHit(), and setPrefitMaxChiSq().

PulseChiSqSNNLS EcalUncalibRecHitMultiFitAlgo::_pulsefunc
private

Definition at line 40 of file EcalUncalibRecHitMultiFitAlgo.h.

Referenced by makeRecHit().

PulseChiSqSNNLS EcalUncalibRecHitMultiFitAlgo::_pulsefuncSingle
private

Definition at line 41 of file EcalUncalibRecHitMultiFitAlgo.h.

Referenced by EcalUncalibRecHitMultiFitAlgo(), and makeRecHit().

bool EcalUncalibRecHitMultiFitAlgo::_selectiveBadSampleCriteria
private

Definition at line 47 of file EcalUncalibRecHitMultiFitAlgo.h.

Referenced by makeRecHit(), and setSelectiveBadSampleCriteria().

bool EcalUncalibRecHitMultiFitAlgo::_simplifiedNoiseModelForGainSwitch
private
BXVector EcalUncalibRecHitMultiFitAlgo::_singlebx
private

Definition at line 51 of file EcalUncalibRecHitMultiFitAlgo.h.

Referenced by EcalUncalibRecHitMultiFitAlgo(), and makeRecHit().