HcalPulseShapes Class Reference

#include <HcalPulseShapes.h>

Public Types
typedef HcalPulseShape	Shape

Public Member Functions
void	beginRun (const HcalDbService *conditions)
void	beginRun (edm::EventSetup const &es)
const Shape &	defaultShape (const HcalDetId &detId) const
	in case of conditions problems More...
std::map< int, Shape const * > const &	get_all_shapes () const
const Shape &	getShape (int shapeType) const
const Shape &	hbShape () const
	HcalPulseShapes ()
const Shape &	heShape () const
const Shape &	hfShape () const
const Shape &	hoShape (bool sipm=false) const
const Shape &	shape (const HcalDetId &detId) const
	automatically figures out which shape to return More...
const Shape &	shapeForReco (const HcalDetId &detId) const
	~HcalPulseShapes ()

Static Public Member Functions
static double	analyticPulseShapeSiPMHE (double t)
static double	analyticPulseShapeSiPMHO (double t)
template<class F1 , class F2 >
static std::vector< double >	convolve (unsigned nbin, F1 f1, F2 f2)
static double	generatePhotonTime (CLHEP::HepRandomEngine *engine, unsigned int signalShape)
static double	generatePhotonTime203 (CLHEP::HepRandomEngine *engine)
static double	generatePhotonTime206 (CLHEP::HepRandomEngine *engine)
static std::vector< double >	normalize (std::vector< double > nt, unsigned nbin)
static std::vector< double >	normalizeShift (std::vector< double > nt, unsigned nbin, int shift)
static double	Y11203 (double t)
static double	Y11206 (double t)

Static Public Attributes
static constexpr float	deltaTSiPM_ = 0.5
static constexpr float	invDeltaTSiPM_ = 2.0
static const int	nBinsSiPM_ = 250
static constexpr float	Y11MAX203_ = 0.04
static constexpr float	Y11MAX206_ = 0.08
static constexpr float	Y11RANGE_ = nBinsSiPM_

Private Types
typedef std::map< int, const Shape * >	ShapeMap

Private Member Functions
void	computeHFShape ()
void	computeHPDShape (float, float, float, float, float, float, float, float, Shape &)
void	computeSiPMShapeData2017 ()
void	computeSiPMShapeData2018 ()
const HcalPulseShape &	computeSiPMShapeHE203 ()
const HcalPulseShape &	computeSiPMShapeHE206 ()
void	computeSiPMShapeHO ()

Private Attributes
Shape	hfShape_
Shape	hpdBV30Shape_v2
Shape	hpdBV30ShapeMC_v2
Shape	hpdShape_
Shape	hpdShape_v2
Shape	hpdShape_v3
Shape	hpdShapeMC_v2
Shape	hpdShapeMC_v3
Shape	siPMShapeData2017_
Shape	siPMShapeData2018_
Shape	siPMShapeHO_
const HcalDbService *	theDbService
ShapeMap	theShapes

Detailed Description

Author

J. Mans - Minnesota

Definition at line 21 of file HcalPulseShapes.h.

Member Typedef Documentation

Shape

typedef HcalPulseShape HcalPulseShapes::Shape

Definition at line 23 of file HcalPulseShapes.h.

ShapeMap

typedef std::map<int, const Shape*> HcalPulseShapes::ShapeMap

private

Definition at line 115 of file HcalPulseShapes.h.

Constructor & Destructor Documentation

HcalPulseShapes()

HcalPulseShapes::HcalPulseShapes

(

)

Definition at line 15 of file HcalPulseShapes.cc.

                                 : theDbService(nullptr), theShapes() {
  /*
 
Reco  MC
-------------------------------------------------------------------------------------------
000                                              not used (reserved)
101   101   hpdShape_                            HPD (original version)
102   102   =101                                 HPD BV 30 volts in HBP iphi54
103   123   hpdShape_v2,hpdShapeMC_v2            HPD (2011. oct version)
104   124   hpdBV30Shape_v2,hpdBV30ShapeMC_v2    HPD bv30 in HBP iph54
105   125   hpdShape_v2,hpdShapeMC_v2            HPD (2011.11.12 version)
201   201   siPMShapeHO_                         SiPMs Zecotec shape   (HO)
202   202   =201,                                SiPMs Hamamatsu shape (HO)
205   203   siPMShapeData2017_,siPMShapeMC2017_  SiPMs from Data, Hamamatsu shape (HE 2017)
207   206   siPMShapeData2018_,siPMShapeMC2018_  SiPMs from Data, Hamamatsu shape (HE 2018)
301   301   hfShape_                             regular HF PMT shape
401   401                                        regular ZDC shape
-------------------------------------------------------------------------------------------
 
*/
 
  float ts1, ts2, ts3, thpd, tpre, wd1, wd2, wd3;
 
  //  HPD Shape  Version 1 (used before CMSSW5, until Oct 2011)
  ts1 = 8.;
  ts2 = 10.;
  ts3 = 29.3;
  thpd = 4.0;
  tpre = 9.0;
  wd1 = 2.0;
  wd2 = 0.7;
  wd3 = 1.0;
  computeHPDShape(ts1, ts2, ts3, thpd, tpre, wd1, wd2, wd3, hpdShape_);
  theShapes[101] = &hpdShape_;
  theShapes[102] = theShapes[101];
 
  //  HPD Shape  Version 2 for CMSSW 5. Nov 2011  (RECO and MC separately)
  ts1 = 8.;
  ts2 = 10.;
  ts3 = 25.0;
  thpd = 4.0;
  tpre = 9.0;
  wd1 = 2.0;
  wd2 = 0.7;
  wd3 = 1.0;
  computeHPDShape(ts1, ts2, ts3, thpd, tpre, wd1, wd2, wd3, hpdShape_v2);
  theShapes[103] = &hpdShape_v2;
 
  ts1 = 8.;
  ts2 = 10.;
  ts3 = 29.3;
  thpd = 4.0;
  tpre = 7.0;
  wd1 = 2.0;
  wd2 = 0.7;
  wd3 = 1.0;
  computeHPDShape(ts1, ts2, ts3, thpd, tpre, wd1, wd2, wd3, hpdShapeMC_v2);
  theShapes[123] = &hpdShapeMC_v2;
 
  //  HPD Shape  Version 3 for CMSSW 5. Nov 2011  (RECO and MC separately)
  ts1 = 8.;
  ts2 = 19.;
  ts3 = 29.3;
  thpd = 4.0;
  tpre = 9.0;
  wd1 = 2.0;
  wd2 = 0.7;
  wd3 = 0.32;
  computeHPDShape(ts1, ts2, ts3, thpd, tpre, wd1, wd2, wd3, hpdShape_v3);
  theShapes[105] = &hpdShape_v3;
 
  ts1 = 8.;
  ts2 = 10.;
  ts3 = 22.3;
  thpd = 4.0;
  tpre = 7.0;
  wd1 = 2.0;
  wd2 = 0.7;
  wd3 = 1.0;
  computeHPDShape(ts1, ts2, ts3, thpd, tpre, wd1, wd2, wd3, hpdShapeMC_v3);
  theShapes[125] = &hpdShapeMC_v3;
 
  // HPD with Bias Voltage 30 volts, wider pulse.  (HBPlus iphi54)
 
  ts1 = 8.;
  ts2 = 12.;
  ts3 = 31.7;
  thpd = 9.0;
  tpre = 9.0;
  wd1 = 2.0;
  wd2 = 0.7;
  wd3 = 1.0;
  computeHPDShape(ts1, ts2, ts3, thpd, tpre, wd1, wd2, wd3, hpdBV30Shape_v2);
  theShapes[104] = &hpdBV30Shape_v2;
 
  ts1 = 8.;
  ts2 = 12.;
  ts3 = 31.7;
  thpd = 9.0;
  tpre = 9.0;
  wd1 = 2.0;
  wd2 = 0.7;
  wd3 = 1.0;
  computeHPDShape(ts1, ts2, ts3, thpd, tpre, wd1, wd2, wd3, hpdBV30ShapeMC_v2);
  theShapes[124] = &hpdBV30ShapeMC_v2;
 
  // HF and SiPM
 
  computeHFShape();
  computeSiPMShapeHO();
  computeSiPMShapeData2017();
  computeSiPMShapeData2018();
 
  theShapes[201] = &siPMShapeHO_;
  theShapes[202] = theShapes[201];
  theShapes[203] = &(computeSiPMShapeHE203());
  theShapes[205] = &siPMShapeData2017_;
  theShapes[206] = &(computeSiPMShapeHE206());
  theShapes[207] = &siPMShapeData2018_;
  theShapes[301] = &hfShape_;
  //theShapes[401] = new CaloCachedShapeIntegrator(&theZDCShape);
}

References computeHFShape(), computeHPDShape(), computeSiPMShapeData2017(), computeSiPMShapeData2018(), computeSiPMShapeHE203(), computeSiPMShapeHE206(), computeSiPMShapeHO(), hfShape_, hpdBV30Shape_v2, hpdBV30ShapeMC_v2, hpdShape_, hpdShape_v2, hpdShape_v3, hpdShapeMC_v2, hpdShapeMC_v3, siPMShapeData2017_, siPMShapeData2018_, siPMShapeHO_, and theShapes.

~HcalPulseShapes()

HcalPulseShapes::~HcalPulseShapes

(

)

Definition at line 138 of file HcalPulseShapes.cc.

{}

Member Function Documentation

analyticPulseShapeSiPMHE()

double HcalPulseShapes::analyticPulseShapeSiPMHE ( double  t )

static

Definition at line 523 of file HcalPulseShapes.cc.

                                                         {
  // taken from fit to laser measurement taken by Iouri M. in Spring 2016.
  double A1(5.204 / 6.94419), sigma1_shape(0.5387), theta1_loc(-0.3976), m1_scale(4.428);
  double A2(1.855 / 6.94419), sigma2_shape(0.8132), theta2_loc(7.025), m2_scale(12.29);
  return onePulse(t, A1, sigma1_shape, theta1_loc, m1_scale) + onePulse(t, A2, sigma2_shape, theta2_loc, m2_scale);
}

References onePulse(), and OrderedSet::t.

Referenced by HcalSiPMShape::computeShape(), computeSiPMShapeHE203(), and computeSiPMShapeHE206().

analyticPulseShapeSiPMHO()

double HcalPulseShapes::analyticPulseShapeSiPMHO ( double  t )

static

Definition at line 516 of file HcalPulseShapes.cc.

                                                         {
  // HO SiPM pulse shape fit from Jake Anderson ca. 2013
  double A1(0.08757), c1(-0.5257), t01(2.4013), s1(0.6721);
  double A2(0.007598), c2(-0.1501), t02(6.9412), s2(0.8710);
  return gexp(t, A1, c1, t01, s1) + gexp(t, A2, c2, t02, s2);
}

References alignmentValidation::c1, gexp(), indexGen::s2, and OrderedSet::t.

Referenced by HcalSiPMShape::computeShape().

beginRun() [1/2]

void HcalPulseShapes::beginRun

(

const HcalDbService *

conditions

)

Definition at line 146 of file HcalPulseShapes.cc.

{ theDbService = conditions; }

References theDbService.

beginRun() [2/2]

void HcalPulseShapes::beginRun

(

edm::EventSetup const &

es

)

Definition at line 140 of file HcalPulseShapes.cc.

                                                      {
  edm::ESHandle<HcalDbService> conditions;
  es.get<HcalDbRecord>().get(conditions);
  theDbService = conditions.product();
}

References edm::EventSetup::get(), get, edm::ESHandle< T >::product(), and theDbService.

Referenced by HcalPulseContainmentManager::beginRun().

computeHFShape()

void HcalPulseShapes::computeHFShape ( )

private

Definition at line 245 of file HcalPulseShapes.cc.

                                     {
  // first create pulse shape over a range of time 0 ns to 255 ns in 1 ns steps
  unsigned int nbin = 256;
  hfShape_.setNBin(nbin);
  std::vector<float> ntmp(nbin, 0.0);  //
 
  const float k0 = 0.7956;  // shape parameters
  const float p2 = 1.355;
  const float p4 = 2.327;
  const float p1 = 4.3;  // position parameter
 
  float norm = 0.0;
 
  for (unsigned int j = 0; j < 25 && j < nbin; ++j) {
    float r0 = j - p1;
    float sigma0 = (r0 < 0) ? p2 : p2 * p4;
    r0 /= sigma0;
    if (r0 < k0)
      ntmp[j] = exp(-0.5 * r0 * r0);
    else
      ntmp[j] = exp(0.5 * k0 * k0 - k0 * r0);
    norm += ntmp[j];
  }
  // normalize pulse area to 1.0
  for (unsigned int j = 0; j < 25 && j < nbin; ++j) {
    ntmp[j] /= norm;
    hfShape_.setShapeBin(j, ntmp[j]);
  }
}

References JetChargeProducer_cfi::exp, hfShape_, dqmiolumiharvest::j, reco::ParticleMasses::k0, ZMuMuCategoriesSequences_cff::nbin, p1, p2, p4, HcalPulseShape::setNBin(), and HcalPulseShape::setShapeBin().

Referenced by HcalPulseShapes().

computeHPDShape()

void HcalPulseShapes::computeHPDShape ( float  ts1, float  ts2, float  ts3, float  thpd, float  tpre, float  wd1, float  wd2, float  wd3, Shape &  tmphpdShape_  )

private

Definition at line 149 of file HcalPulseShapes.cc.

                                                                                                                   {
  // pulse shape time constants in ns
  /*
  const float ts1  = 8.;          // scintillation time constants : 1,2,3
  const float ts2  = 10.;           
  const float ts3  = 29.3;         
  const float thpd = 4.;          // HPD current collection drift time
  const float tpre = 9.;          // preamp time constant (refit on TB04 data)
  
  const float wd1 = 2.;           // relative weights of decay exponents 
  const float wd2 = 0.7;
  const float wd3 = 1.;
*/
  // pulse shape components over a range of time 0 ns to 255 ns in 1 ns steps
  unsigned int nbin = 256;
  tmphpdShape_.setNBin(nbin);
  std::vector<float> ntmp(nbin, 0.0);  // zeroing output pulse shape
  std::vector<float> nth(nbin, 0.0);   // zeroing HPD drift shape
  std::vector<float> ntp(nbin, 0.0);   // zeroing Binkley preamp shape
  std::vector<float> ntd(nbin, 0.0);   // zeroing Scintillator decay shape
 
  unsigned int i, j, k;
  float norm;
 
  // HPD starts at I and rises to 2I in thpd of time
  norm = 0.0;
  for (j = 0; j < thpd && j < nbin; j++) {
    nth[j] = 1.0 + ((float)j) / thpd;
    norm += nth[j];
  }
  // normalize integrated current to 1.0
  for (j = 0; j < thpd && j < nbin; j++) {
    nth[j] /= norm;
  }
 
  // Binkley shape over 6 time constants
  norm = 0.0;
  for (j = 0; j < 6 * tpre && j < nbin; j++) {
    ntp[j] = ((float)j) * exp(-((float)(j * j)) / (tpre * tpre));
    norm += ntp[j];
  }
  // normalize pulse area to 1.0
  for (j = 0; j < 6 * tpre && j < nbin; j++) {
    ntp[j] /= norm;
  }
 
  // ignore stochastic variation of photoelectron emission
  // <...>
 
  // effective tile plus wave-length shifter decay time over 4 time constants
  unsigned int tmax = 6 * (int)ts3;
 
  norm = 0.0;
  for (j = 0; j < tmax && j < nbin; j++) {
    ntd[j] = wd1 * exp(-((float)j) / ts1) + wd2 * exp(-((float)j) / ts2) + wd3 * exp(-((float)j) / ts3);
    norm += ntd[j];
  }
  // normalize pulse area to 1.0
  for (j = 0; j < tmax && j < nbin; j++) {
    ntd[j] /= norm;
  }
 
  unsigned int t1, t2, t3, t4;
  for (i = 0; i < tmax && i < nbin; i++) {
    t1 = i;
    //    t2 = t1 + top*rand;
    // ignoring jitter from optical path length
    t2 = t1;
    for (j = 0; j < thpd && j < nbin; j++) {
      t3 = t2 + j;
      for (k = 0; k < 4 * tpre && k < nbin; k++) {  // here "4" is set deliberately,
        t4 = t3 + k;                                // as in test fortran toy MC ...
        if (t4 < nbin) {
          unsigned int ntb = t4;
          ntmp[ntb] += ntd[i] * nth[j] * ntp[k];
        }
      }
    }
  }
 
  // normalize for 1 GeV pulse height
  norm = 0.;
  for (i = 0; i < nbin; i++) {
    norm += ntmp[i];
  }
 
  for (i = 0; i < nbin; i++) {
    ntmp[i] /= norm;
  }
 
  for (i = 0; i < nbin; i++) {
    tmphpdShape_.setShapeBin(i, ntmp[i]);
  }
}

References JetChargeProducer_cfi::exp, dqmMemoryStats::float, mps_fire::i, createfilelist::int, dqmiolumiharvest::j, dqmdumpme::k, ZMuMuCategoriesSequences_cff::nbin, HcalPulseShape::setNBin(), HcalPulseShape::setShapeBin(), RandomServiceHelper::t1, RandomServiceHelper::t2, RandomServiceHelper::t3, and tmax.

Referenced by HcalPulseShapes().

computeSiPMShapeData2017()

void HcalPulseShapes::computeSiPMShapeData2017 ( )

private

Definition at line 328 of file HcalPulseShapes.cc.

                                               {
  //From Jay Lawhorn: derived from data Edward Laird phase scan may2017
  //https://indico.cern.ch/event/641978/contributions/2604491/attachments/1468666/2271582/17-05-31-hcal-hep17-pulse-shape.pdf
  //Run numbers are 294736-294740 and 294929-294950
 
  unsigned int nbin = 250;
 
  std::array<float, 250> nt{
      {3.97958e-29, 1.11634e-22, 9.96106e-18, 6.25334e-14, 5.08863e-11, 8.59141e-09, 4.32285e-07, 8.56617e-06,
       8.28549e-05, 0.000461447, 0.00168052,  0.00441395,  0.00901637,  0.0151806,   0.0220314,   0.028528,
       0.0338471,   0.0375578,   0.0395985,   0.0401567,   0.0395398,   0.0380776,   0.0360669,   0.0337474,
       0.0312984,   0.0288457,   0.0264721,   0.0242276,   0.0221393,   0.0202181,   0.0184647,   0.0168731,
       0.0154335,   0.0141346,   0.0129639,   0.0119094,   0.0109594,   0.0101031,   0.0093305,   0.00863267,
       0.0080015,   0.00742977,  0.00691107,  0.00643969,  0.00601059,  0.00561931,  0.00526188,  0.00493483,
       0.00463505,  0.00435981,  0.00410667,  0.00387348,  0.00365832,  0.00345949,  0.00327547,  0.0031049,
       0.00294656,  0.00279938,  0.00266237,  0.00253467,  0.00241548,  0.0023041,   0.00219989,  0.00210227,
       0.00201072,  0.00192476,  0.00184397,  0.00176795,  0.00169634,  0.00162884,  0.00156512,  0.00150494,
       0.00144803,  0.00139418,  0.00134317,  0.00129481,  0.00124894,  0.00120537,  0.00116398,  0.00112461,
       0.00108715,  0.00105147,  0.00101747,  0.000985042, 0.000954096, 0.000924545, 0.000896308, 0.000869311,
       0.000843482, 0.000818758, 0.000795077, 0.000772383, 0.000750623, 0.000729747, 0.00070971,  0.000690466,
       0.000671977, 0.000654204, 0.00063711,  0.000620663, 0.000604831, 0.000589584, 0.000574894, 0.000560735,
       0.000547081, 0.00053391,  0.0005212,   0.000508929, 0.000497078, 0.000485628, 0.000474561, 0.000463862,
       0.000453514, 0.000443501, 0.000433811, 0.000424429, 0.000415343, 0.00040654,  0.00039801,  0.000389741,
       0.000381722, 0.000373944, 0.000366398, 0.000359074, 0.000351964, 0.00034506,  0.000338353, 0.000331838,
       0.000325505, 0.00031935,  0.000313365, 0.000307544, 0.000301881, 0.000296371, 0.000291009, 0.000285788,
       0.000280705, 0.000275755, 0.000270932, 0.000266233, 0.000261653, 0.00025719,  0.000252837, 0.000248593,
       0.000244454, 0.000240416, 0.000236475, 0.00023263,  0.000228876, 0.000225212, 0.000221633, 0.000218138,
       0.000214724, 0.000211389, 0.00020813,  0.000204945, 0.000201831, 0.000198787, 0.000195811, 0.0001929,
       0.000190053, 0.000187268, 0.000184543, 0.000181876, 0.000179266, 0.000176711, 0.00017421,  0.000171761,
       0.000169363, 0.000167014, 0.000164713, 0.000162459, 0.00016025,  0.000158086, 0.000155964, 0.000153885,
       0.000151847, 0.000149848, 0.000147888, 0.000145966, 0.000144081, 0.000142232, 0.000140418, 0.000138638,
       0.000136891, 0.000135177, 0.000133494, 0.000131843, 0.000130221, 0.00012863,  0.000127066, 0.000125531,
       0.000124023, 0.000122543, 0.000121088, 0.000119658, 0.000118254, 0.000116874, 0.000115518, 0.000114185,
       0.000112875, 0.000111587, 0.000110321, 0.000109076, 0.000107851, 0.000106648, 0.000105464, 0.000104299,
       0.000103154, 0.000102027, 0.000100918, 9.98271e-05, 9.87537e-05, 9.76974e-05, 9.66578e-05, 9.56346e-05,
       9.46274e-05, 9.3636e-05,  9.26599e-05, 9.16989e-05, 9.07526e-05, 8.98208e-05, 8.89032e-05, 8.79995e-05,
       8.71093e-05, 8.62325e-05, 8.53688e-05, 8.45179e-05, 8.36796e-05, 8.28536e-05, 8.20397e-05, 8.12376e-05,
       8.04471e-05, 7.96681e-05, 7.89002e-05, 7.81433e-05, 7.73972e-05, 7.66616e-05, 7.59364e-05, 7.52213e-05,
       7.45163e-05, 7.3821e-05,  7.31354e-05, 7.24592e-05, 7.17923e-05, 7.11345e-05, 7.04856e-05, 6.98455e-05,
       6.9214e-05,  6.8591e-05}};
 
  siPMShapeData2017_.setNBin(nbin);
 
  double norm = 0.;
  for (unsigned int j = 0; j < nbin; ++j) {
    norm += (nt[j] > 0) ? nt[j] : 0.;
  }
 
  for (unsigned int j = 0; j < nbin; ++j) {
    nt[j] /= norm;
    siPMShapeData2017_.setShapeBin(j, nt[j]);
  }
}

References dqmiolumiharvest::j, ZMuMuCategoriesSequences_cff::nbin, nt, HcalPulseShape::setNBin(), HcalPulseShape::setShapeBin(), and siPMShapeData2017_.

Referenced by HcalPulseShapes().

computeSiPMShapeData2018()

void HcalPulseShapes::computeSiPMShapeData2018 ( )

private

Definition at line 275 of file HcalPulseShapes.cc.

                                               {
  //Combination of all phase scan data (May,Jul,Oct2017)
  //runs:  294736-294740, 294929-294950, 298594-298598 and 305744-305758
 
  unsigned int nbin = 250;
 
  std::array<float, 250> nt{
      {5.22174e-12, 7.04852e-10, 3.49584e-08, 7.78029e-07, 9.11847e-06, 6.39666e-05, 0.000297587, 0.000996661,
       0.00256618,  0.00535396,  0.00944073,  0.0145521,   0.020145,    0.0255936,   0.0303632,   0.0341078,
       0.0366849,   0.0381183,   0.0385392,   0.0381327,   0.0370956,   0.0356113,   0.0338366,   0.0318978,
       0.029891,    0.0278866,   0.0259336,   0.0240643,   0.0222981,   0.0206453,   0.0191097,   0.0176902,
       0.0163832,   0.0151829,   0.0140826,   0.0130752,   0.0121533,   0.01131,     0.0105382,   0.00983178,
       0.00918467,  0.00859143,  0.00804709,  0.0075471,   0.00708733,  0.00666406,  0.00627393,  0.00591389,
       0.00558122,  0.00527344,  0.00498834,  0.00472392,  0.00447837,  0.00425007,  0.00403754,  0.00383947,
       0.00365465,  0.00348199,  0.00332052,  0.00316934,  0.00302764,  0.0028947,   0.00276983,  0.00265242,
       0.00254193,  0.00243785,  0.00233971,  0.00224709,  0.0021596,   0.00207687,  0.0019986,   0.00192447,
       0.00185421,  0.00178756,  0.0017243,   0.00166419,  0.00160705,  0.00155268,  0.00150093,  0.00145162,
       0.00140461,  0.00135976,  0.00131696,  0.00127607,  0.00123699,  0.00119962,  0.00116386,  0.00112963,
       0.00109683,  0.0010654,   0.00103526,  0.00100634,  0.000978578, 0.000951917, 0.000926299, 0.000901672,
       0.000877987, 0.000855198, 0.00083326,  0.000812133, 0.000791778, 0.000772159, 0.000753242, 0.000734994,
       0.000717384, 0.000700385, 0.000683967, 0.000668107, 0.000652779, 0.00063796,  0.000623629, 0.000609764,
       0.000596346, 0.000583356, 0.000570777, 0.000558592, 0.000546785, 0.00053534,  0.000524243, 0.000513481,
       0.00050304,  0.000492907, 0.000483072, 0.000473523, 0.000464248, 0.000455238, 0.000446483, 0.000437974,
       0.0004297,   0.000421655, 0.00041383,  0.000406216, 0.000398807, 0.000391595, 0.000384574, 0.000377736,
       0.000371076, 0.000364588, 0.000358266, 0.000352104, 0.000346097, 0.00034024,  0.000334528, 0.000328956,
       0.00032352,  0.000318216, 0.000313039, 0.000307986, 0.000303052, 0.000298234, 0.000293528, 0.000288931,
       0.000284439, 0.00028005,  0.000275761, 0.000271567, 0.000267468, 0.000263459, 0.000259538, 0.000255703,
       0.000251951, 0.00024828,  0.000244688, 0.000241172, 0.00023773,  0.000234361, 0.000231061, 0.00022783,
       0.000224666, 0.000221566, 0.000218528, 0.000215553, 0.000212636, 0.000209778, 0.000206977, 0.00020423,
       0.000201537, 0.000198896, 0.000196307, 0.000193767, 0.000191275, 0.000188831, 0.000186432, 0.000184079,
       0.000181769, 0.000179502, 0.000177277, 0.000175092, 0.000172947, 0.000170841, 0.000168772, 0.000166741,
       0.000164745, 0.000162785, 0.000160859, 0.000158967, 0.000157108, 0.00015528,  0.000153484, 0.000151719,
       0.000149984, 0.000148278, 0.000146601, 0.000144951, 0.000143329, 0.000141734, 0.000140165, 0.000138622,
       0.000137104, 0.00013561,  0.000134141, 0.000132695, 0.000131272, 0.000129871, 0.000128493, 0.000127136,
       0.000125801, 0.000124486, 0.000123191, 0.000121917, 0.000120662, 0.000119426, 0.000118209, 0.00011701,
       0.000115829, 0.000114665, 0.000113519, 0.00011239,  0.000111278, 0.000110182, 0.000109102, 0.000108037,
       0.000106988, 0.000105954, 0.000104935, 0.00010393,  0.000102939, 0.000101963, 0.000101,    0.000100051,
       9.91146e-05, 9.81915e-05, 9.7281e-05,  9.63831e-05, 9.54975e-05, 9.46239e-05, 9.37621e-05, 9.2912e-05,
       9.20733e-05, 9.12458e-05}};
 
  siPMShapeData2018_.setNBin(nbin);
 
  double norm = 0.;
  for (unsigned int j = 0; j < nbin; ++j) {
    norm += (nt[j] > 0) ? nt[j] : 0.;
  }
 
  for (unsigned int j = 0; j < nbin; ++j) {
    nt[j] /= norm;
    siPMShapeData2018_.setShapeBin(j, nt[j]);
  }
}

References dqmiolumiharvest::j, ZMuMuCategoriesSequences_cff::nbin, nt, HcalPulseShape::setNBin(), HcalPulseShape::setShapeBin(), and siPMShapeData2018_.

Referenced by HcalPulseShapes().

computeSiPMShapeHE203()

const HcalPulseShape & HcalPulseShapes::computeSiPMShapeHE203 ( )

private

Definition at line 433 of file HcalPulseShapes.cc.

                                                             {
  //numerical convolution of SiPM pulse + WLS fiber shape
  static const HcalPulseShape siPMShapeMC2017(
      normalize(convolve(nBinsSiPM_, analyticPulseShapeSiPMHE, Y11203), nBinsSiPM_), nBinsSiPM_);
  return siPMShapeMC2017;
}

References analyticPulseShapeSiPMHE(), convolve(), nBinsSiPM_, normalize(), and Y11203().

Referenced by HcalPulseShapes().

computeSiPMShapeHE206()

const HcalPulseShape & HcalPulseShapes::computeSiPMShapeHE206 ( )

private

Definition at line 440 of file HcalPulseShapes.cc.

                                                             {
  //numerical convolution of SiPM pulse + WLS fiber shape
  //shift: aligning 206 phase closer to 205 in order to have good reco agreement
  static const HcalPulseShape siPMShapeMC2018(
      normalizeShift(convolve(nBinsSiPM_, analyticPulseShapeSiPMHE, Y11206), nBinsSiPM_, -2), nBinsSiPM_);
  return siPMShapeMC2018;
}

References analyticPulseShapeSiPMHE(), convolve(), nBinsSiPM_, normalizeShift(), and Y11206().

Referenced by HcalPulseShapes().

computeSiPMShapeHO()

void HcalPulseShapes::computeSiPMShapeHO ( )

private

Definition at line 382 of file HcalPulseShapes.cc.

                                         {
  unsigned int nbin = 128;
 
  //From Jake Anderson: toy MC convolution of SiPM pulse + WLS fiber shape + SiPM nonlinear response
  std::array<float, 128> nt{
      {2.782980485851731e-6,  4.518134885954626e-5,  2.7689305197392056e-4, 9.18328418900969e-4,
       .002110072599166349,   .003867856860331454,   .006120046224897771,   .008754774090536956,
       0.0116469503358586,    .01467007449455966,    .01770489955229477,    .02064621450689512,
       .02340678093764222,    .02591874610854916,    .02813325527435303,    0.0300189241965647,
       .03155968107671164,    .03275234052577155,    .03360415306318798,    .03413048377960748,
       .03435270899678218,    .03429637464659661,    .03398962975487166,    .03346192884394954,
       .03274298516247742,    .03186195009136525,    .03084679116113031,    0.0297238406141036,
       .02851748748929785,    .02724998816332392,    .02594137274487424,    .02460942736731527,
       .02326973510736116,    .02193576080366117,    0.0206189674254987,    .01932895378564653,
       0.0180736052958666,    .01685925112650875,    0.0156908225633535,    .01457200857138456,
       .01350540559602467,    .01249265947824805,    .01153459805300423,    .01063135355597282,
       .009782474412011936,   .008987026319784546,   0.00824368281357106,   .007550805679909604,
       .006906515742762193,   .006308754629755056,   .005755338185695127,   .005244002229973356,
       .004772441359900532,   .004338341490928299,   .003939406800854143,   0.00357338171220501,
       0.0032380685079891,    .002931341133259233,   .002651155690306086,   .002395558090237333,
       .002162689279320922,   .001950788415487319,   .001758194329648101,   .001583345567913682,
       .001424779275191974,   .001281129147671334,   0.00115112265163774,   .001033577678808199,
       9.273987838127585e-4,  8.315731274976846e-4,  7.451662302008696e-4,  6.673176219006913e-4,
       5.972364609644049e-4,  5.341971801529036e-4,  4.775352065178378e-4,  4.266427928961177e-4,
       3.8096498904225923e-4, 3.3999577417327287e-4, 3.032743659102713e-4,  2.703817158798329e-4,
       2.4093719775272793e-4, 2.145954900503894e-4,  1.9104365317752797e-4, 1.6999839784346724e-4,
       1.5120354022478893e-4, 1.3442763782650755e-4, 1.1946179895521507e-4, 1.0611765796993575e-4,
       9.422550797617687e-5,  8.363258233342666e-5,  7.420147621931836e-5,  6.580869950304933e-5,
       5.834335229919868e-5,  5.17059147771959e-5,   4.5807143072062634e-5, 4.0567063461299446e-5,
       3.591405732740723e-5,  3.178402980354131e-5,  2.811965539165646e-5,  2.4869694240316126e-5,
       2.1988373166730962e-5, 1.9434825899529382e-5, 1.717258740121378e-5,  1.5169137499243157e-5,
       1.339548941011129e-5,  1.1825819079078403e-5, 1.0437131581057595e-5, 9.208961130078894e-6,
       8.12310153137994e-6,   7.163364176588591e-6,  6.315360932244386e-6,  5.566309502463164e-6,
       4.904859063429651e-6,  4.320934164082596e-6,  3.8055950719111903e-6, 3.350912911083174e-6,
       2.9498580949517117e-6, 2.596200697612328e-6,  2.2844215378879293e-6, 2.0096328693141094e-6,
       1.7675076766686654e-6, 1.5542166787225756e-6, 1.366372225473431e-6,  1.200978365778838e-6,
       1.0553864128982371e-6, 9.272554464808518e-7,  8.145171945902259e-7,  7.153448381918271e-7}};
 
  siPMShapeHO_.setNBin(nbin);
 
  double norm = 0.;
  for (unsigned int j = 0; j < nbin; ++j) {
    norm += (nt[j] > 0) ? nt[j] : 0.;
  }
 
  for (unsigned int j = 0; j < nbin; ++j) {
    nt[j] /= norm;
    siPMShapeHO_.setShapeBin(j, nt[j]);
  }
}

References dqmiolumiharvest::j, ZMuMuCategoriesSequences_cff::nbin, nt, HcalPulseShape::setNBin(), HcalPulseShape::setShapeBin(), and siPMShapeHO_.

Referenced by HcalPulseShapes().

convolve()

template<class F1 , class F2 >

static std::vector<double> HcalPulseShapes::convolve ( unsigned  nbin, F1  f1, F2  f2  )

inlinestatic

Definition at line 57 of file HcalPulseShapes.h.

                                                                 {
    std::vector<double> result(2 * nbin - 1, 0.);
    for (unsigned i = 0; i < 2 * nbin - 1; ++i) {
      for (unsigned j = 0; j < std::min(i + 1, nbin); ++j) {
        double tmp = f1(j) * f2(i - j);
        if (std::isnan(tmp) or std::isinf(tmp))
          continue;
        result[i] += tmp;
      }
    }
    return result;
  }

References DeadROC_duringRun::f1, DeadROC_duringRun::f2, mps_fire::i, edm::detail::isnan(), dqmiolumiharvest::j, min(), ZMuMuCategoriesSequences_cff::nbin, or, mps_fire::result, and createJobs::tmp.

Referenced by computeSiPMShapeHE203(), and computeSiPMShapeHE206().

defaultShape()

const HcalPulseShapes::Shape & HcalPulseShapes::defaultShape

(

const HcalDetId &

detId

)

const

in case of conditions problems

Definition at line 486 of file HcalPulseShapes.cc.

                                                                                      {
  edm::LogWarning("HcalPulseShapes") << "Cannot find HCAL MC Params ";
  HcalSubdetector subdet = detId.subdet();
  switch (subdet) {
    case HcalBarrel:
      return hbShape();
    case HcalEndcap:
      return heShape();
    case HcalForward:
      return hfShape();
    case HcalOuter:
      //FIXME doesn't look for SiPMs
      return hoShape(false);
    default:
      throw cms::Exception("HcalPulseShapes") << "unknown detId";
      break;
  }
}

References Exception, hbShape(), HcalBarrel, HcalEndcap, HcalForward, HcalOuter, heShape(), hfShape(), hoShape(), and HcalDetId::subdet().

Referenced by shape(), and shapeForReco().

generatePhotonTime()

double HcalPulseShapes::generatePhotonTime ( CLHEP::HepRandomEngine *  engine, unsigned int  signalShape  )

static

Definition at line 530 of file HcalPulseShapes.cc.

                                                                                                 {
  if (signalShape == 206)
    return generatePhotonTime206(engine);
  else
    return generatePhotonTime203(engine);
}

References generatePhotonTime203(), and generatePhotonTime206().

Referenced by HcalSiPMHitResponse::add().

generatePhotonTime203()

double HcalPulseShapes::generatePhotonTime203 ( CLHEP::HepRandomEngine *  engine )

static

Definition at line 537 of file HcalPulseShapes.cc.

                                                                          {
  double result(0.);
  while (true) {
    result = CLHEP::RandFlat::shoot(engine, HcalPulseShapes::Y11RANGE_);
    if (CLHEP::RandFlat::shoot(engine, HcalPulseShapes::Y11MAX203_) < HcalPulseShapes::Y11203(result))
      return result;
  }
}

References mps_fire::result, Y11203(), Y11MAX203_, and Y11RANGE_.

Referenced by generatePhotonTime().

generatePhotonTime206()

double HcalPulseShapes::generatePhotonTime206 ( CLHEP::HepRandomEngine *  engine )

static

Definition at line 546 of file HcalPulseShapes.cc.

                                                                          {
  double result(0.);
  while (true) {
    result = CLHEP::RandFlat::shoot(engine, HcalPulseShapes::Y11RANGE_);
    if (CLHEP::RandFlat::shoot(engine, HcalPulseShapes::Y11MAX206_) < HcalPulseShapes::Y11206(result))
      return result;
  }
}

References mps_fire::result, Y11206(), Y11MAX206_, and Y11RANGE_.

Referenced by generatePhotonTime().

get_all_shapes()

std::map<int, Shape const*> const& HcalPulseShapes::get_all_shapes ( ) const

inline

Definition at line 99 of file HcalPulseShapes.h.

{ return theShapes; }

References theShapes.

getShape()

const HcalPulseShapes::Shape & HcalPulseShapes::getShape

(

int

shapeType

)

const

Definition at line 448 of file HcalPulseShapes.cc.

                                                                         {
  ShapeMap::const_iterator shapeMapItr = theShapes.find(shapeType);
  if (shapeMapItr == theShapes.end()) {
    throw cms::Exception("HcalPulseShapes") << "unknown shapeType";
    return hpdShape_;  // should not return this, but...
  } else {
    return *(shapeMapItr->second);
  }
}

References Exception, hpdShape_, and theShapes.

Referenced by SimpleHBHEPhase1Algo::reconstruct(), and HcalShape::setShape().

hbShape()

const Shape& HcalPulseShapes::hbShape ( ) const

inline

Definition at line 30 of file HcalPulseShapes.h.

{ return hpdShape_; }

References hpdShape_.

Referenced by defaultShape(), and HBHEPulseShapeFlagSetter::Initialize().

heShape()

const Shape& HcalPulseShapes::heShape ( ) const

inline

Definition at line 31 of file HcalPulseShapes.h.

{ return hpdShape_; }

References hpdShape_.

Referenced by defaultShape().

hfShape()

const Shape& HcalPulseShapes::hfShape ( ) const

inline

Definition at line 32 of file HcalPulseShapes.h.

{ return hfShape_; }

References hfShape_.

Referenced by defaultShape().

hoShape()

const Shape& HcalPulseShapes::hoShape ( bool  sipm = false ) const

inline

Definition at line 33 of file HcalPulseShapes.h.

{ return sipm ? siPMShapeHO_ : hpdShape_; }

References hpdShape_, and siPMShapeHO_.

Referenced by defaultShape().

normalize()

static std::vector<double> HcalPulseShapes::normalize ( std::vector< double >  nt, unsigned  nbin  )

inlinestatic

Definition at line 69 of file HcalPulseShapes.h.

                                                                          {
    //skip first bin, always 0
    double norm = 0.;
    for (unsigned int j = 1; j <= nbin; ++j) {
      norm += (nt[j] > 0) ? nt[j] : 0.;
    }
 
    double normInv = 1. / norm;
    for (unsigned int j = 1; j <= nbin; ++j) {
      nt[j] *= normInv;
    }
 
    return nt;
  }

References dqmiolumiharvest::j, ZMuMuCategoriesSequences_cff::nbin, and nt.

Referenced by computeSiPMShapeHE203().

normalizeShift()

static std::vector<double> HcalPulseShapes::normalizeShift ( std::vector< double >  nt, unsigned  nbin, int  shift  )

inlinestatic

Definition at line 83 of file HcalPulseShapes.h.

                                                                                          {
    //skip first bin, always 0
    double norm = 0.;
    for (unsigned int j = std::max(1, -1 * shift); j <= nbin; j++) {
      norm += std::max(0., nt[j - shift]);
    }
    double normInv = 1. / norm;
    std::vector<double> nt2(nt.size(), 0);
    for (int j = 1; j <= (int)nbin; j++) {
      if (j - shift >= 0) {
        nt2[j] = nt[j - shift] * normInv;
      }
    }
    return nt2;
  }

References createfilelist::int, dqmiolumiharvest::j, SiStripPI::max, ZMuMuCategoriesSequences_cff::nbin, nt, and edm::shift.

Referenced by computeSiPMShapeHE206().

shape()

const HcalPulseShapes::Shape & HcalPulseShapes::shape

(

const HcalDetId &

detId

)

const

automatically figures out which shape to return

Definition at line 458 of file HcalPulseShapes.cc.

                                                                               {
  if (!theDbService) {
    return defaultShape(detId);
  }
  int shapeType = theDbService->getHcalMCParam(detId)->signalShape();
 
  ShapeMap::const_iterator shapeMapItr = theShapes.find(shapeType);
  if (shapeMapItr == theShapes.end()) {
    return defaultShape(detId);
  } else {
    return *(shapeMapItr->second);
  }
}

References defaultShape(), HcalDbService::getHcalMCParam(), HcalMCParam::signalShape(), theDbService, and theShapes.

shapeForReco()

const HcalPulseShapes::Shape & HcalPulseShapes::shapeForReco

(

const HcalDetId &

detId

)

const

Definition at line 472 of file HcalPulseShapes.cc.

                                                                                      {
  if (!theDbService) {
    return defaultShape(detId);
  }
  int shapeType = theDbService->getHcalRecoParam(detId.rawId())->pulseShapeID();
 
  ShapeMap::const_iterator shapeMapItr = theShapes.find(shapeType);
  if (shapeMapItr == theShapes.end()) {
    return defaultShape(detId);
  } else {
    return *(shapeMapItr->second);
  }
}

References defaultShape(), HcalDbService::getHcalRecoParam(), DetId::rawId(), theDbService, and theShapes.

Referenced by HcalPulseContainmentManager::get().

Y11203()

double HcalPulseShapes::Y11203 ( double  t )

static

Definition at line 556 of file HcalPulseShapes.cc.

{ return exp(-0.0635 - 0.1518 * t + log(t) * 2.528) / 2485.9; }

References JetChargeProducer_cfi::exp, dqm-mbProfile::log, and OrderedSet::t.

Referenced by computeSiPMShapeHE203(), and generatePhotonTime203().

Y11206()

double HcalPulseShapes::Y11206 ( double  t )

static

Definition at line 559 of file HcalPulseShapes.cc.

                                       {
  //Shifting phase to have better comparison of digi shape with data
  //If necessary, further digi phase adjustment can be done here:
  //SimCalorimetry/HcalSimProducers/python/hcalSimParameters_cfi.py
  //by changing "timePhase"
  double shift = 7.2;
 
  //Fit From Deconvolved Data
  double A, n, t0, fit;
  A = 0.104204;
  n = 0.44064;
  t0 = 10.0186;
  if (t > shift)
    fit = A * (1 - exp(-(t - shift) / n)) * exp(-(t - shift) / t0);
  else
    fit = 0.0;
 
  //Correction Term
  double norm, mpv, sigma, corTerm;
  norm = 0.0809882;
  mpv = 0;
  sigma = 20;
  if (t > shift)
    corTerm = norm * TMath::Landau((t - shift), mpv, sigma);
  else
    corTerm = 0.0;
 
  //Overall Y11
  double frac = 0.11;
  double val = (1 - frac) * fit + frac * corTerm;
 
  if (val >= 0)
    return val;
  else
    return 0.0;
}

References MaterialEffects_cfi::A, JetChargeProducer_cfi::exp, L1TowerCalibrationProducer_cfi::fit, cropTnPTrees::frac, dqmiodumpmetadata::n, edm::shift, OrderedSet::t, FrontierCondition_GT_autoExpress_cfi::t0, and heppy_batch::val.

Referenced by computeSiPMShapeHE206(), and generatePhotonTime206().

Member Data Documentation

deltaTSiPM_

constexpr float HcalPulseShapes::deltaTSiPM_ = 0.5

staticconstexpr

Definition at line 43 of file HcalPulseShapes.h.

Referenced by HcalSiPMShape::computeShape().

hfShape_

Shape HcalPulseShapes::hfShape_

private

Definition at line 109 of file HcalPulseShapes.h.

Referenced by computeHFShape(), HcalPulseShapes(), and hfShape().

hpdBV30Shape_v2

Shape HcalPulseShapes::hpdBV30Shape_v2

private

Definition at line 113 of file HcalPulseShapes.h.

Referenced by HcalPulseShapes().

hpdBV30ShapeMC_v2

Shape HcalPulseShapes::hpdBV30ShapeMC_v2

private

Definition at line 113 of file HcalPulseShapes.h.

Referenced by HcalPulseShapes().

hpdShape_

Shape HcalPulseShapes::hpdShape_

private

Definition at line 109 of file HcalPulseShapes.h.

Referenced by getShape(), hbShape(), HcalPulseShapes(), heShape(), and hoShape().

hpdShape_v2

Shape HcalPulseShapes::hpdShape_v2

private

Definition at line 111 of file HcalPulseShapes.h.

Referenced by HcalPulseShapes().

hpdShape_v3

Shape HcalPulseShapes::hpdShape_v3

private

Definition at line 112 of file HcalPulseShapes.h.

Referenced by HcalPulseShapes().

hpdShapeMC_v2

Shape HcalPulseShapes::hpdShapeMC_v2

private

Definition at line 111 of file HcalPulseShapes.h.

Referenced by HcalPulseShapes().

hpdShapeMC_v3

Shape HcalPulseShapes::hpdShapeMC_v3

private

Definition at line 112 of file HcalPulseShapes.h.

Referenced by HcalPulseShapes().

invDeltaTSiPM_

constexpr float HcalPulseShapes::invDeltaTSiPM_ = 2.0

staticconstexpr

Definition at line 44 of file HcalPulseShapes.h.

Referenced by HcalSiPMHitResponse::getReadoutFrameSize(), and HcalSiPMShape::operator()().

nBinsSiPM_

const int HcalPulseShapes::nBinsSiPM_ = 250

static

Definition at line 42 of file HcalPulseShapes.h.

Referenced by computeSiPMShapeHE203(), and computeSiPMShapeHE206().

siPMShapeData2017_

Shape HcalPulseShapes::siPMShapeData2017_

private

Definition at line 110 of file HcalPulseShapes.h.

Referenced by computeSiPMShapeData2017(), and HcalPulseShapes().

siPMShapeData2018_

Shape HcalPulseShapes::siPMShapeData2018_

private

Definition at line 110 of file HcalPulseShapes.h.

Referenced by computeSiPMShapeData2018(), and HcalPulseShapes().

siPMShapeHO_

Shape HcalPulseShapes::siPMShapeHO_

private

Definition at line 109 of file HcalPulseShapes.h.

Referenced by computeSiPMShapeHO(), HcalPulseShapes(), and hoShape().

theDbService

const HcalDbService* HcalPulseShapes::theDbService

private

Definition at line 114 of file HcalPulseShapes.h.

Referenced by beginRun(), shape(), and shapeForReco().

theShapes

ShapeMap HcalPulseShapes::theShapes

private

Definition at line 116 of file HcalPulseShapes.h.

Referenced by get_all_shapes(), getShape(), HcalPulseShapes(), shape(), and shapeForReco().

Y11MAX203_

constexpr float HcalPulseShapes::Y11MAX203_ = 0.04

staticconstexpr

Definition at line 48 of file HcalPulseShapes.h.

Referenced by generatePhotonTime203().

Y11MAX206_

constexpr float HcalPulseShapes::Y11MAX206_ = 0.08

staticconstexpr

Definition at line 49 of file HcalPulseShapes.h.

Referenced by generatePhotonTime206().

Y11RANGE_

constexpr float HcalPulseShapes::Y11RANGE_ = nBinsSiPM_

staticconstexpr

Definition at line 47 of file HcalPulseShapes.h.

Referenced by generatePhotonTime203(), and generatePhotonTime206().