| 379c5c09 |
1 | /************************************************************************** |
| 2 | * Copyright(c) 2007, ALICE Experiment at CERN, All rights reserved. * |
| 3 | * * |
| 4 | * Author: The ALICE Off-line Project. * |
| 5 | * Contributors are mentioned in the code where appropriate. * |
| 6 | * * |
| 7 | * Permission to use, copy, modify and distribute this software and its * |
| 8 | * documentation strictly for non-commercial purposes is hereby granted * |
| 9 | * without fee, provided that the above copyright notice appears in all * |
| 10 | * copies and that both the copyright notice and this permission notice * |
| 11 | * appear in the supporting documentation. The authors make no claims * |
| 12 | * about the suitability of this software for any purpose. It is * |
| 13 | * provided "as is" without express or implied warranty. * |
| 14 | **************************************************************************/ |
| 15 | |
| 16 | /* $Id: $ */ |
| 17 | |
| 18 | // This class extracts the signal parameters (energy, time, quality) |
| 19 | // from ALTRO samples. Energy is in ADC counts, time is in time bin units. |
| 20 | // A fitting algorithm evaluates the energy and the time from Minuit minimization |
| 21 | // |
| 22 | // Typical use case: |
| 23 | // AliPHOSRawFitter *fitter=new AliPHOSRawFitter(); |
| 379c5c09 |
24 | // fitter->SetChannelGeo(module,cellX,cellZ,caloFlag); |
| 25 | // fitter->SetCalibData(fgCalibData) ; |
| 1dfadc32 |
26 | // fitter->Eval(sig,sigStart,sigLength); |
| 379c5c09 |
27 | // Double_t amplitude = fitter.GetEnergy(); |
| 28 | // Double_t time = fitter.GetTime(); |
| 29 | // Bool_t isLowGain = fitter.GetCaloFlag()==0; |
| 30 | |
| 31 | // Author: Dmitri Peressounko (Oct.2008) |
| 32 | // Modified: Yuri Kharlov (Jul.2009) |
| 33 | |
| 34 | // --- ROOT system --- |
| 33373c87 |
35 | #include "TArrayI.h" |
| 379c5c09 |
36 | #include "TList.h" |
| 37 | #include "TMath.h" |
| 38 | #include "TMinuit.h" |
| 379c5c09 |
39 | |
| 40 | // --- AliRoot header files --- |
| 41 | #include "AliLog.h" |
| 42 | #include "AliPHOSCalibData.h" |
| 43 | #include "AliPHOSRawFitterv1.h" |
| 44 | #include "AliPHOSPulseGenerator.h" |
| 45 | |
| 46 | ClassImp(AliPHOSRawFitterv1) |
| 47 | |
| 48 | //----------------------------------------------------------------------------- |
| 49 | AliPHOSRawFitterv1::AliPHOSRawFitterv1(): |
| 50 | AliPHOSRawFitterv0(), |
| 51 | fSampleParamsLow(0x0), |
| 52 | fSampleParamsHigh(0x0), |
| 53 | fToFit(0x0) |
| 54 | { |
| 55 | //Default constructor. |
| 56 | if(!gMinuit) |
| 57 | gMinuit = new TMinuit(100); |
| 58 | fSampleParamsHigh =new TArrayD(7) ; |
| 59 | fSampleParamsHigh->AddAt(2.174,0) ; |
| 60 | fSampleParamsHigh->AddAt(0.106,1) ; |
| 61 | fSampleParamsHigh->AddAt(0.173,2) ; |
| 62 | fSampleParamsHigh->AddAt(0.06106,3) ; |
| 63 | //last two parameters are pedestal and overflow |
| 64 | fSampleParamsLow=new TArrayD(7) ; |
| 65 | fSampleParamsLow->AddAt(2.456,0) ; |
| 66 | fSampleParamsLow->AddAt(0.137,1) ; |
| 67 | fSampleParamsLow->AddAt(2.276,2) ; |
| 68 | fSampleParamsLow->AddAt(0.08246,3) ; |
| 69 | fToFit = new TList() ; |
| 70 | } |
| 71 | |
| 72 | //----------------------------------------------------------------------------- |
| 73 | AliPHOSRawFitterv1::~AliPHOSRawFitterv1() |
| 74 | { |
| 75 | //Destructor. |
| 76 | if(fSampleParamsLow){ |
| 77 | delete fSampleParamsLow ; |
| 78 | fSampleParamsLow=0 ; |
| 79 | } |
| 80 | if(fSampleParamsHigh){ |
| 81 | delete fSampleParamsHigh ; |
| 82 | fSampleParamsHigh=0; |
| 83 | } |
| 84 | if(fToFit){ |
| 85 | delete fToFit ; |
| 86 | fToFit=0 ; |
| 87 | } |
| 88 | } |
| 89 | |
| 90 | //----------------------------------------------------------------------------- |
| 91 | AliPHOSRawFitterv1::AliPHOSRawFitterv1(const AliPHOSRawFitterv1 &phosFitter ): |
| 92 | AliPHOSRawFitterv0(phosFitter), |
| 93 | fSampleParamsLow(0x0), |
| 94 | fSampleParamsHigh(0x0), |
| 95 | fToFit(0x0) |
| 96 | { |
| 97 | //Copy constructor. |
| 98 | fToFit = new TList() ; |
| 99 | fSampleParamsLow =new TArrayD(*(phosFitter.fSampleParamsLow)) ; |
| 100 | fSampleParamsHigh=new TArrayD(*(phosFitter.fSampleParamsHigh)) ; |
| 101 | } |
| 102 | |
| 103 | //----------------------------------------------------------------------------- |
| 104 | AliPHOSRawFitterv1& AliPHOSRawFitterv1::operator = (const AliPHOSRawFitterv1 &phosFitter) |
| 105 | { |
| 106 | //Assignment operator. |
| 107 | |
| 108 | fToFit = new TList() ; |
| 109 | if(fSampleParamsLow){ |
| 110 | fSampleParamsLow = phosFitter.fSampleParamsLow ; |
| 111 | fSampleParamsHigh= phosFitter.fSampleParamsHigh ; |
| 112 | } |
| 113 | else{ |
| 114 | fSampleParamsLow =new TArrayD(*(phosFitter.fSampleParamsLow)) ; |
| 115 | fSampleParamsHigh=new TArrayD(*(phosFitter.fSampleParamsHigh)) ; |
| 116 | } |
| 117 | return *this; |
| 118 | } |
| 119 | |
| 120 | //----------------------------------------------------------------------------- |
| 92236b27 |
121 | Bool_t AliPHOSRawFitterv1::Eval(const UShort_t *signal, Int_t sigStart, Int_t sigLength) |
| 379c5c09 |
122 | { |
| 123 | //Extract an energy deposited in the crystal, |
| 124 | //crystal' position (module,column,row), |
| 125 | //time and gain (high or low). |
| 126 | //First collects sample, then evaluates it and if it has |
| 127 | //reasonable shape, fits it with Gamma2 function and extracts |
| 128 | //energy and time. |
| 129 | |
| 92236b27 |
130 | if (fCaloFlag == 2 || fNBunches > 1) { |
| 379c5c09 |
131 | fQuality = 1000; |
| 132 | return kTRUE; |
| 133 | } |
| 134 | |
| 135 | Float_t pedMean = 0; |
| 136 | Float_t pedRMS = 0; |
| 137 | Int_t nPed = 0; |
| 138 | const Float_t kBaseLine = 1.0; |
| 139 | const Int_t kPreSamples = 10; |
| 140 | |
| 92236b27 |
141 | TArrayI *fSamples = new TArrayI(sigLength); // array of sample amplitudes |
| 142 | TArrayI *fTimes = new TArrayI(sigLength); // array of sample time stamps |
| 143 | for (Int_t i=0; i<sigLength; i++) { |
| 379c5c09 |
144 | if (i<kPreSamples) { |
| 145 | nPed++; |
| 92236b27 |
146 | pedMean += signal[i]; |
| 147 | pedRMS += signal[i]*signal[i] ; |
| 379c5c09 |
148 | } |
| 33373c87 |
149 | fSamples->AddAt(signal[i],sigLength-i-1); |
| 150 | fTimes ->AddAt(i ,i); |
| 379c5c09 |
151 | } |
| 152 | |
| 379c5c09 |
153 | fEnergy = -111; |
| 154 | fQuality= 999. ; |
| 155 | const Float_t sampleMaxHG=102.332 ; //maximal height of HG sample with given parameterization |
| 156 | const Float_t sampleMaxLG=277.196 ; //maximal height of LG sample with given parameterization |
| 157 | const Float_t maxEtoFit=5 ; //fit only samples above this energy, accept all samples (with good aRMS) below it |
| 158 | Double_t pedestal = 0; |
| 159 | |
| 160 | if (fPedSubtract) { |
| 161 | if (nPed > 0) { |
| 162 | fPedestalRMS=(pedRMS - pedMean*pedMean/nPed)/nPed ; |
| 163 | if(fPedestalRMS > 0.) |
| 164 | fPedestalRMS = TMath::Sqrt(fPedestalRMS) ; |
| 165 | fEnergy -= (Double_t)(pedMean/nPed); // pedestal subtraction |
| 166 | } |
| 167 | else |
| 168 | return kFALSE; |
| 169 | } |
| 170 | else { |
| 171 | //take pedestals from DB |
| 172 | pedestal = (Double_t) fAmpOffset ; |
| 173 | if (fCalibData) { |
| 174 | Float_t truePed = fCalibData->GetADCpedestalEmc(fModule, fCellZ, fCellX) ; |
| 175 | Int_t altroSettings = fCalibData->GetAltroOffsetEmc(fModule, fCellZ, fCellX) ; |
| 176 | pedestal += truePed - altroSettings ; |
| 177 | } |
| 178 | else{ |
| 179 | AliWarning(Form("Can not read data from OCDB")) ; |
| 180 | } |
| 181 | fEnergy-=pedestal ; |
| 182 | } |
| 183 | |
| 184 | if (fEnergy < kBaseLine) fEnergy = 0; |
| 33373c87 |
185 | //Evaluate time |
| 186 | Int_t iStart = 0; |
| 187 | while(iStart<sigLength && fSamples->At(iStart)-pedestal <kBaseLine) iStart++ ; |
| 188 | fTime = sigStart-sigLength+iStart; |
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189 | |
| 190 | //calculate time and energy |
| 92236b27 |
191 | Int_t maxBin=0 ; |
| 192 | Int_t maxAmp=0 ; |
| 193 | Double_t aMean =0. ; |
| 194 | Double_t aRMS =0. ; |
| 195 | Double_t wts =0 ; |
| 196 | Int_t tStart=0 ; |
| 197 | |
| 198 | for (Int_t i=0; i<sigLength; i++){ |
| 199 | if(signal[i] > pedestal){ |
| 200 | Double_t de = signal[i] - pedestal ; |
| 201 | if(de > 1.) { |
| 202 | aMean += de*i ; |
| 203 | aRMS += de*i*i ; |
| 204 | wts += de; |
| 379c5c09 |
205 | } |
| 92236b27 |
206 | if(de > 2 && tStart==0) |
| 207 | tStart = i ; |
| 208 | if(maxAmp < signal[i]){ |
| 209 | maxBin = i ; |
| 210 | maxAmp = signal[i] ; |
| 379c5c09 |
211 | } |
| 212 | } |
| 213 | } |
| 92236b27 |
214 | |
| 215 | if (maxBin==sigLength-1){//bad "rising" sample |
| 216 | fEnergy = 0. ; |
| 217 | fTime = -999. ; |
| 218 | fQuality= 999. ; |
| 379c5c09 |
219 | return kTRUE ; |
| 220 | } |
| 92236b27 |
221 | |
| 379c5c09 |
222 | fEnergy=Double_t(maxAmp)-pedestal ; |
| 223 | fOverflow =0 ; //look for plato on the top of sample |
| 92236b27 |
224 | if (fEnergy>500 && //this is not fluctuation of soft sample |
| 225 | maxBin<sigLength-1 && fSamples->At(maxBin+1)==maxAmp){ //and there is a plato |
| 379c5c09 |
226 | fOverflow = kTRUE ; |
| 227 | } |
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228 | |
| 229 | if (wts > 0) { |
| 230 | aMean /= wts; |
| 231 | aRMS = aRMS/wts - aMean*aMean; |
| 379c5c09 |
232 | } |
| 233 | |
| 234 | //do not take too small energies |
| 92236b27 |
235 | if (fEnergy < kBaseLine) |
| 379c5c09 |
236 | fEnergy = 0; |
| 237 | |
| 238 | //do not test quality of too soft samples |
| 92236b27 |
239 | if (fEnergy < maxEtoFit){ |
| 240 | fTime = tStart; |
| 241 | if (aRMS < 2.) //sigle peak |
| 242 | fQuality = 999. ; |
| 379c5c09 |
243 | else |
| 92236b27 |
244 | fQuality = 0. ; |
| 379c5c09 |
245 | return kTRUE ; |
| 246 | } |
| 247 | |
| 92236b27 |
248 | // if sample has reasonable mean and RMS, try to fit it with gamma2 |
| 379c5c09 |
249 | |
| 250 | gMinuit->mncler(); // Reset Minuit's list of paramters |
| 251 | gMinuit->SetPrintLevel(-1) ; // No Printout |
| 252 | gMinuit->SetFCN(AliPHOSRawFitterv1::UnfoldingChiSquare) ; |
| 253 | // To set the address of the minimization function |
| 254 | |
| 255 | fToFit->Clear("nodelete") ; |
| 256 | Double_t b=0,bmin=0,bmax=0 ; |
| 92236b27 |
257 | if (fCaloFlag == 0){ // Low gain |
| 379c5c09 |
258 | fSampleParamsLow->AddAt(pedestal,4) ; |
| 92236b27 |
259 | if (fOverflow) |
| 379c5c09 |
260 | fSampleParamsLow->AddAt(double(maxAmp),5) ; |
| 261 | else |
| 262 | fSampleParamsLow->AddAt(double(1023),5) ; |
| 33373c87 |
263 | fSampleParamsLow->AddAt(double(iStart),6) ; |
| 379c5c09 |
264 | fToFit->AddFirst((TObject*)fSampleParamsLow) ; |
| 265 | b=fSampleParamsLow->At(2) ; |
| 266 | bmin=0.5 ; |
| 267 | bmax=10. ; |
| 268 | } |
| 92236b27 |
269 | else if (fCaloFlag == 1){ // High gain |
| 379c5c09 |
270 | fSampleParamsHigh->AddAt(pedestal,4) ; |
| 92236b27 |
271 | if (fOverflow) |
| 379c5c09 |
272 | fSampleParamsHigh->AddAt(double(maxAmp),5) ; |
| 273 | else |
| 274 | fSampleParamsHigh->AddAt(double(1023),5); |
| 33373c87 |
275 | fSampleParamsHigh->AddAt(double(iStart),6); |
| 379c5c09 |
276 | fToFit->AddFirst((TObject*)fSampleParamsHigh) ; |
| 277 | b=fSampleParamsHigh->At(2) ; |
| 278 | bmin=0.05 ; |
| 279 | bmax=0.4 ; |
| 280 | } |
| 281 | fToFit->AddLast((TObject*)fSamples) ; |
| 282 | fToFit->AddLast((TObject*)fTimes) ; |
| 283 | |
| 284 | gMinuit->SetObjectFit((TObject*)fToFit) ; // To tranfer pointer to UnfoldingChiSquare |
| 285 | Int_t ierflg ; |
| 286 | gMinuit->mnparm(0, "t0", 1.*tStart, 0.01, -500., 500., ierflg) ; |
| 287 | if(ierflg != 0){ |
| 288 | // AliWarning(Form("Unable to set initial value for fit procedure : t0=%e\n",1.*tStart) ) ; |
| 92236b27 |
289 | fEnergy = 0. ; |
| 290 | fTime =-999. ; |
| 291 | fQuality= 999. ; |
| 379c5c09 |
292 | return kTRUE ; //will scan further |
| 293 | } |
| 294 | Double_t amp0=0; |
| 92236b27 |
295 | if (fCaloFlag == 0) // Low gain |
| 296 | amp0 = fEnergy/sampleMaxLG; |
| 297 | else if (fCaloFlag == 1) // High gain |
| 298 | amp0 = fEnergy/sampleMaxHG; |
| 379c5c09 |
299 | |
| 300 | gMinuit->mnparm(1, "Energy", amp0 , 0.01*amp0, 0, 0, ierflg) ; |
| 301 | if(ierflg != 0){ |
| 302 | // AliWarning(Form("Unable to set initial value for fit procedure : E=%e\n", amp0)) ; |
| 92236b27 |
303 | fEnergy = 0. ; |
| 304 | fTime =-999. ; |
| 305 | fQuality= 999. ; |
| 379c5c09 |
306 | return kTRUE ; //will scan further |
| 307 | } |
| 308 | |
| 309 | gMinuit->mnparm(2, "p2", b, 0.01*b, bmin, bmax, ierflg) ; |
| 310 | if(ierflg != 0){ |
| 311 | // AliWarning(Form("Unable to set initial value for fit procedure : E=%e\n", amp0)) ; |
| 92236b27 |
312 | fEnergy = 0. ; |
| 313 | fTime =-999. ; |
| 314 | fQuality= 999. ; |
| 379c5c09 |
315 | return kTRUE ; //will scan further |
| 316 | } |
| 317 | |
| 379c5c09 |
318 | Double_t p0 = 0.0001 ; // "Tolerance" Evaluation stops when EDM = 0.0001*p0 ; The number of function call slightly |
| 319 | // depends on it. |
| 320 | Double_t p1 = 1.0 ; |
| 321 | Double_t p2 = 0.0 ; |
| 322 | gMinuit->mnexcm("SET STR", &p2, 0, ierflg) ; // force TMinuit to reduce function calls |
| 323 | gMinuit->mnexcm("SET GRA", &p1, 1, ierflg) ; // force TMinuit to use my gradient |
| 324 | // gMinuit->SetMaxIterations(100); |
| 325 | gMinuit->mnexcm("SET NOW", &p2 , 0, ierflg) ; // No Warnings |
| 326 | |
| 327 | gMinuit->mnexcm("MIGRAD", &p0, 0, ierflg) ; // minimize |
| 328 | |
| 329 | Double_t err,t0err ; |
| 330 | Double_t t0,efit ; |
| 92236b27 |
331 | gMinuit->GetParameter(0,t0, t0err) ; |
| 332 | gMinuit->GetParameter(1,efit, err) ; |
| 379c5c09 |
333 | |
| 334 | Double_t bfit, berr ; |
| 335 | gMinuit->GetParameter(2,bfit,berr) ; |
| 336 | |
| 337 | //Calculate total energy |
| 92236b27 |
338 | //this is parameterization of dependence of pulse height on parameter b |
| 379c5c09 |
339 | if(fCaloFlag == 0) // Low gain |
| 92236b27 |
340 | efit *= 99.54910 + 78.65038*bfit ; |
| 379c5c09 |
341 | else if(fCaloFlag == 1) // High gain |
| 92236b27 |
342 | efit *= 80.33109 + 128.6433*bfit ; |
| 379c5c09 |
343 | |
| 92236b27 |
344 | if(efit < 0. || efit > 10000.){ |
| 379c5c09 |
345 | //set energy to previously found max |
| 92236b27 |
346 | fTime =-999.; |
| 347 | fQuality= 999 ; |
| 379c5c09 |
348 | return kTRUE; |
| 349 | } |
| 350 | |
| 351 | //evaluate fit quality |
| 352 | Double_t fmin,fedm,errdef ; |
| 353 | Int_t npari,nparx,istat; |
| 354 | gMinuit->mnstat(fmin,fedm,errdef,npari,nparx,istat) ; |
| 92236b27 |
355 | fQuality = fmin/sigLength ; |
| 379c5c09 |
356 | //compare quality with some parameterization |
| 92236b27 |
357 | if (fCaloFlag == 0) // Low gain |
| 358 | fQuality /= 2.00 + 0.0020*fEnergy ; |
| 359 | else if (fCaloFlag == 1) // High gain |
| 360 | fQuality /= 0.75 + 0.0025*fEnergy ; |
| 379c5c09 |
361 | |
| 92236b27 |
362 | fEnergy = efit ; |
| 33373c87 |
363 | fTime += t0 - 4.024*bfit ; //-10.402*bfit+4.669*bfit*bfit ; //Correction for 70 samples |
| 364 | // fTime += sigStart; |
| 379c5c09 |
365 | |
| 366 | delete fSamples ; |
| 367 | delete fTimes ; |
| 368 | return kTRUE; |
| 369 | } |
| 370 | //_____________________________________________________________________________ |
| 371 | void AliPHOSRawFitterv1::UnfoldingChiSquare(Int_t & /*nPar*/, Double_t * Grad, Double_t & fret, Double_t * x, Int_t iflag) |
| 372 | { |
| 373 | // Number of parameters, Gradient, Chi squared, parameters, what to do |
| 374 | |
| 375 | TList * toFit= (TList*)gMinuit->GetObjectFit() ; |
| 376 | TArrayD * params=(TArrayD*)toFit->At(0) ; |
| 377 | TArrayI * samples = (TArrayI*)toFit->At(1) ; |
| 378 | TArrayI * times = (TArrayI*)toFit->At(2) ; |
| 379 | |
| 380 | fret = 0. ; |
| 381 | if(iflag == 2) |
| 382 | for(Int_t iparam = 0 ; iparam < 3 ; iparam++) |
| 383 | Grad[iparam] = 0 ; // Will evaluate gradient |
| 384 | |
| 385 | Double_t t0=x[0] ; |
| 386 | Double_t en=x[1] ; |
| 387 | Double_t b=x[2] ; |
| 388 | Double_t n=params->At(0) ; |
| 389 | Double_t alpha=params->At(1) ; |
| 390 | Double_t beta=params->At(3) ; |
| 391 | Double_t ped=params->At(4) ; |
| 392 | |
| 393 | Double_t overflow=params->At(5) ; |
| 394 | Int_t iBin = (Int_t) params->At(6) ; |
| 395 | Int_t nSamples=TMath::Min(iBin+70,samples->GetSize()) ; //Here we set number of points to fit (70) |
| 396 | // iBin - first non-zero sample |
| 397 | Int_t tStep=times->At(iBin+1)-times->At(iBin) ; |
| 398 | Double_t ddt=times->At(iBin)-t0-tStep ; |
| 399 | Double_t exp1=TMath::Exp(-alpha*ddt) ; |
| 400 | Double_t exp2=TMath::Exp(-beta*ddt) ; |
| 401 | Double_t dexp1=TMath::Exp(-alpha*tStep) ; |
| 402 | Double_t dexp2=TMath::Exp(-beta*tStep) ; |
| 403 | for(Int_t i = iBin; i<nSamples ; i++) { |
| 404 | Double_t dt=double(times->At(i))-t0 ; |
| 405 | Double_t fsample = double(samples->At(i)) ; |
| 406 | if(fsample>=overflow) |
| 407 | continue ; |
| 408 | Double_t diff ; |
| 409 | exp1*=dexp1 ; |
| 410 | exp2*=dexp2 ; |
| 411 | if(dt<=0.){ |
| 412 | diff=fsample - ped ; |
| 413 | fret += diff*diff ; |
| 414 | continue ; |
| 415 | } |
| 416 | Double_t dtn=TMath::Power(dt,n) ; |
| 417 | Double_t dtnE=dtn*exp1 ; |
| 418 | Double_t dt2E=dt*dt*exp2 ; |
| 419 | Double_t fit=ped+en*(dtnE + b*dt2E) ; |
| 420 | diff = fsample - fit ; |
| 421 | fret += diff*diff ; |
| 422 | if(iflag == 2){ // calculate gradient |
| 423 | Grad[0] += en*diff*(dtnE*(n/dt-alpha)+b*dt2E*(2./dt-beta)) ; //derivative over t0 |
| 424 | Grad[1] -= diff*(dtnE+b*dt2E) ; |
| 425 | Grad[2] -= en*diff*dt2E ; |
| 426 | } |
| 427 | } |
| 428 | if(iflag == 2) |
| 429 | for(Int_t iparam = 0 ; iparam < 3 ; iparam++) |
| 430 | Grad[iparam] *= 2. ; |
| 431 | } |
| 432 | //----------------------------------------------------------------------------- |
| 433 | Double_t AliPHOSRawFitterv1::Gamma2(Double_t dt,Double_t en,Double_t b,TArrayD * params){ //Function for fitting samples |
| 434 | //parameters: |
| 435 | //dt-time after start |
| 436 | //en-amplutude |
| 437 | //function parameters |
| 438 | |
| 439 | Double_t ped=params->At(4) ; |
| 440 | if(dt<0.) |
| 441 | return ped ; //pedestal |
| 442 | else |
| 443 | return ped+en*(TMath::Power(dt,params->At(0))*TMath::Exp(-dt*params->At(1))+b*dt*dt*TMath::Exp(-dt*params->At(3))) ; |
| 444 | } |
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