1 /**************************************************************************
2 * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
4 * Author: The ALICE Off-line Project. *
5 * Contributors are mentioned in the code where appropriate. *
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 **************************************************************************/
18 ////////////////////////////////////////////////////////////////////////////
20 // Creates and handles digits from TRD hits //
22 // Authors: C. Blume (blume@ikf.uni-frankfurt.de) //
26 // The following effects are included: //
29 // - Gas gain including fluctuations //
30 // - Pad-response (simple Gaussian approximation) //
32 // - Electronics noise //
33 // - Electronics gain //
35 // - Zero suppression //
37 ////////////////////////////////////////////////////////////////////////////
48 #include <TGeoManager.h>
50 #include "AliRunLoader.h"
51 #include "AliLoader.h"
52 #include "AliConfig.h"
54 #include "AliRunDigitizer.h"
55 #include "AliRunLoader.h"
56 #include "AliLoader.h"
59 #include "AliTRDhit.h"
60 #include "AliTRDdigitizer.h"
62 #include "AliTRDarrayDictionary.h"
63 #include "AliTRDarrayADC.h"
64 #include "AliTRDarraySignal.h"
65 #include "AliTRDdigitsManager.h"
66 #include "AliTRDgeometry.h"
67 #include "AliTRDpadPlane.h"
68 #include "AliTRDcalibDB.h"
69 #include "AliTRDSimParam.h"
70 #include "AliTRDCommonParam.h"
71 #include "AliTRDfeeParam.h"
72 #include "AliTRDmcmSim.h"
73 #include "Cal/AliTRDCalROC.h"
74 #include "Cal/AliTRDCalDet.h"
76 ClassImp(AliTRDdigitizer)
78 //_____________________________________________________________________________
79 AliTRDdigitizer::AliTRDdigitizer()
84 ,fSDigitsManagerList(0)
91 ,fMergeSignalOnly(kFALSE)
104 // AliTRDdigitizer default constructor
111 //_____________________________________________________________________________
112 AliTRDdigitizer::AliTRDdigitizer(const Text_t *name, const Text_t *title)
113 :AliDigitizer(name,title)
117 ,fSDigitsManagerList(0)
124 ,fMergeSignalOnly(kFALSE)
137 // AliTRDdigitizer constructor
144 //_____________________________________________________________________________
145 AliTRDdigitizer::AliTRDdigitizer(AliRunDigitizer *manager
146 , const Text_t *name, const Text_t *title)
147 :AliDigitizer(manager,name,title)
151 ,fSDigitsManagerList(0)
158 ,fMergeSignalOnly(kFALSE)
171 // AliTRDdigitizer constructor
178 //_____________________________________________________________________________
179 AliTRDdigitizer::AliTRDdigitizer(AliRunDigitizer *manager)
180 :AliDigitizer(manager,"AliTRDdigitizer","TRD digitizer")
184 ,fSDigitsManagerList(0)
191 ,fMergeSignalOnly(kFALSE)
204 // AliTRDdigitizer constructor
211 //_____________________________________________________________________________
212 Bool_t AliTRDdigitizer::Init()
215 // Initialize the digitizer with default values
221 fSDigitsManagerList = 0;
230 fMergeSignalOnly = kFALSE;
232 fTimeLastVdrift = -1;
238 fDiffLastVdrift = -1;
241 fLorentzFactor = 0.0;
243 return AliDigitizer::Init();
247 //_____________________________________________________________________________
248 AliTRDdigitizer::AliTRDdigitizer(const AliTRDdigitizer &d)
253 ,fSDigitsManagerList(0)
258 ,fCompress(d.fCompress)
259 ,fSDigits(d.fSDigits)
260 ,fMergeSignalOnly(d.fMergeSignalOnly)
273 // AliTRDdigitizer copy constructor
276 // Do not copy timestructs, just invalidate lastvdrift.
277 // Next time they are requested, they get recalculated
278 if (((AliTRDdigitizer &) d).fTimeStruct1) {
279 delete [] ((AliTRDdigitizer &) d).fTimeStruct1;
280 ((AliTRDdigitizer &) d).fTimeStruct1 = 0;
282 if (((AliTRDdigitizer &) d).fTimeStruct2) {
283 delete [] ((AliTRDdigitizer &) d).fTimeStruct2;
284 ((AliTRDdigitizer &) d).fTimeStruct2 = 0;
289 //_____________________________________________________________________________
290 AliTRDdigitizer::~AliTRDdigitizer()
293 // AliTRDdigitizer destructor
296 if (fDigitsManager) {
297 delete fDigitsManager;
301 if (fDigitsManager) { //typo? fSDigitsManager?
302 delete fSDigitsManager;
306 if (fSDigitsManagerList) {
307 fSDigitsManagerList->Delete();
308 delete fSDigitsManagerList;
309 fSDigitsManagerList = 0;
318 delete [] fTimeStruct1;
323 delete [] fTimeStruct2;
334 //_____________________________________________________________________________
335 AliTRDdigitizer &AliTRDdigitizer::operator=(const AliTRDdigitizer &d)
338 // Assignment operator
342 ((AliTRDdigitizer &) d).Copy(*this);
349 //_____________________________________________________________________________
350 void AliTRDdigitizer::Copy(TObject &d) const
356 ((AliTRDdigitizer &) d).fRunLoader = 0;
357 ((AliTRDdigitizer &) d).fDigitsManager = 0;
358 ((AliTRDdigitizer &) d).fSDigitsManager = 0;
359 ((AliTRDdigitizer &) d).fSDigitsManagerList = 0;
360 ((AliTRDdigitizer &) d).fTRD = 0;
361 ((AliTRDdigitizer &) d).fGeo = 0;
362 ((AliTRDdigitizer &) d).fEvent = 0;
363 ((AliTRDdigitizer &) d).fMasks = 0;
364 ((AliTRDdigitizer &) d).fCompress = fCompress;
365 ((AliTRDdigitizer &) d).fSDigits = fSDigits;
366 ((AliTRDdigitizer &) d).fMergeSignalOnly = fMergeSignalOnly;
368 AliTRDdigitizer& target = (AliTRDdigitizer &) d;
370 // Do not copy timestructs, just invalidate lastvdrift.
371 // Next time they are requested, they get recalculated
372 if (target.fTimeStruct1) {
373 delete [] target.fTimeStruct1;
374 target.fTimeStruct1 = 0;
376 if (target.fTimeStruct2) {
377 delete [] target.fTimeStruct2;
378 target.fTimeStruct2 = 0;
380 target.fTimeLastVdrift = -1;
384 //_____________________________________________________________________________
385 void AliTRDdigitizer::Exec(Option_t *option)
388 // Executes the merging
393 AliTRDdigitsManager *sdigitsManager;
395 TString optionString = option;
396 if (optionString.Contains("deb")) {
397 AliLog::SetClassDebugLevel("AliTRDdigitizer",1);
398 AliInfo("Called with debug option");
401 // The AliRoot file is already connected by the manager
402 AliRunLoader *inrl = 0x0;
405 AliDebug(1,"AliRun object found on file.");
408 inrl = AliRunLoader::GetRunLoader(fManager->GetInputFolderName(0));
410 gAlice = inrl->GetAliRun();
412 AliError("Could not find AliRun object.")
417 Int_t nInput = fManager->GetNinputs();
418 fMasks = new Int_t[nInput];
419 for (iInput = 0; iInput < nInput; iInput++) {
420 fMasks[iInput] = fManager->GetMask(iInput);
427 AliRunLoader *orl = AliRunLoader::GetRunLoader(fManager->GetOutputFolderName());
429 if (InitDetector()) {
431 AliLoader *ogime = orl->GetLoader("TRDLoader");
435 // If we produce SDigits
436 tree = ogime->TreeS();
438 ogime->MakeTree("S");
439 tree = ogime->TreeS();
443 // If we produce Digits
444 tree = ogime->TreeD();
446 ogime->MakeTree("D");
447 tree = ogime->TreeD();
455 for (iInput = 0; iInput < nInput; iInput++) {
457 AliDebug(1,Form("Add input stream %d",iInput));
459 // Check if the input tree exists
460 inrl = AliRunLoader::GetRunLoader(fManager->GetInputFolderName(iInput));
461 AliLoader *gime = inrl->GetLoader("TRDLoader");
463 TTree *treees = gime->TreeS();
465 if (gime->LoadSDigits()) {
466 AliError(Form("Error Occured while loading S. Digits for input %d.",iInput));
469 treees = gime->TreeS();
473 AliError(Form("Input stream %d does not exist",iInput));
477 // Read the s-digits via digits manager
478 sdigitsManager = new AliTRDdigitsManager();
479 sdigitsManager->SetSDigits(kTRUE);
481 AliRunLoader *rl = AliRunLoader::GetRunLoader(fManager->GetInputFolderName(iInput));
482 AliLoader *gimme = rl->GetLoader("TRDLoader");
485 gimme->LoadSDigits();
488 sdigitsManager->ReadDigits(gimme->TreeS());
490 // Add the s-digits to the input list
491 AddSDigitsManager(sdigitsManager);
495 // Convert the s-digits to normal digits
496 AliDebug(1,"Do the conversion");
500 AliDebug(1,"Write the digits");
501 fDigitsManager->WriteDigits();
508 DeleteSDigitsManager();
512 //_____________________________________________________________________________
513 Bool_t AliTRDdigitizer::Open(const Char_t *file, Int_t nEvent)
516 // Opens a ROOT-file with TRD-hits and reads in the hit-tree
518 // Connect the AliRoot file containing Geometry, Kine, and Hits
521 TString evfoldname = AliConfig::GetDefaultEventFolderName();
523 fRunLoader = AliRunLoader::GetRunLoader(evfoldname);
525 fRunLoader = AliRunLoader::Open(file,evfoldname,"UPDATE");
528 AliError(Form("Can not open session for file %s.",file));
532 if (!fRunLoader->GetAliRun()) {
533 fRunLoader->LoadgAlice();
535 gAlice = fRunLoader->GetAliRun();
538 AliDebug(1,"AliRun object found on file.");
541 AliError("Could not find AliRun object.");
547 AliLoader *loader = fRunLoader->GetLoader("TRDLoader");
549 AliError("Can not get TRD loader from Run Loader");
553 if (InitDetector()) {
556 // If we produce SDigits
557 tree = loader->TreeS();
559 loader->MakeTree("S");
560 tree = loader->TreeS();
564 // If we produce Digits
565 tree = loader->TreeD();
567 loader->MakeTree("D");
568 tree = loader->TreeD();
571 return MakeBranch(tree);
579 //_____________________________________________________________________________
580 Bool_t AliTRDdigitizer::Open(AliRunLoader *runLoader, Int_t nEvent)
583 // Opens a ROOT-file with TRD-hits and reads in the hit-tree
585 // Connect the AliRoot file containing Geometry, Kine, and Hits
588 fRunLoader = runLoader;
590 AliError("RunLoader does not exist");
594 if (!fRunLoader->GetAliRun()) {
595 fRunLoader->LoadgAlice();
597 gAlice = fRunLoader->GetAliRun();
600 AliDebug(1,"AliRun object found on file.");
603 AliError("Could not find AliRun object.");
609 AliLoader *loader = fRunLoader->GetLoader("TRDLoader");
611 AliError("Can not get TRD loader from Run Loader");
615 if (InitDetector()) {
618 // If we produce SDigits
619 tree = loader->TreeS();
621 loader->MakeTree("S");
622 tree = loader->TreeS();
626 // If we produce Digits
627 tree = loader->TreeD();
629 loader->MakeTree("D");
630 tree = loader->TreeD();
633 return MakeBranch(tree);
641 //_____________________________________________________________________________
642 Bool_t AliTRDdigitizer::InitDetector()
645 // Sets the pointer to the TRD detector and the geometry
648 // Get the pointer to the detector class and check for version 1
649 fTRD = (AliTRD *) gAlice->GetDetector("TRD");
651 AliFatal("No TRD module found");
654 if (fTRD->IsVersion() != 1) {
655 AliFatal("TRD must be version 1 (slow simulator)");
660 fGeo = new AliTRDgeometry();
662 // Create a digits manager
663 if (fDigitsManager) {
664 delete fDigitsManager;
666 fDigitsManager = new AliTRDdigitsManager();
667 fDigitsManager->SetSDigits(fSDigits);
668 fDigitsManager->CreateArrays();
669 fDigitsManager->SetEvent(fEvent);
671 // The list for the input s-digits manager to be merged
672 if (fSDigitsManagerList) {
673 fSDigitsManagerList->Delete();
676 fSDigitsManagerList = new TList();
682 //_____________________________________________________________________________
683 Bool_t AliTRDdigitizer::MakeBranch(TTree *tree) const
686 // Create the branches for the digits array
689 return fDigitsManager->MakeBranch(tree);
693 //_____________________________________________________________________________
694 void AliTRDdigitizer::AddSDigitsManager(AliTRDdigitsManager *man)
697 // Add a digits manager for s-digits to the input list.
700 fSDigitsManagerList->Add(man);
704 //_____________________________________________________________________________
705 void AliTRDdigitizer::DeleteSDigitsManager()
708 // Removes digits manager from the input list.
711 fSDigitsManagerList->Delete();
715 //_____________________________________________________________________________
716 Bool_t AliTRDdigitizer::MakeDigits()
722 AliDebug(1,"Start creating digits");
725 AliError("No geometry defined");
729 AliTRDcalibDB *calibration = AliTRDcalibDB::Instance();
731 AliFatal("Could not get calibration object");
735 const Int_t kNdet = AliTRDgeometry::Ndet();
737 Float_t **hits = new Float_t*[kNdet];
738 Int_t *nhit = new Int_t[kNdet];
740 AliTRDarraySignal *signals = 0x0;
742 // Sort all hits according to detector number
743 if (!SortHits(hits,nhit)) {
744 AliError("Sorting hits failed");
748 // Loop through all detectors
749 for (Int_t det = 0; det < kNdet; det++) {
751 // Detectors that are switched off, not installed, etc.
752 if (( calibration->IsChamberInstalled(det)) &&
753 (!calibration->IsChamberMasked(det)) &&
754 ( fGeo->ChamberInGeometry(det)) &&
757 signals = new AliTRDarraySignal();
759 // Convert the hits of the current detector to detector signals
760 if (!ConvertHits(det,hits[det],nhit[det],signals)) {
761 AliError(Form("Conversion of hits failed for detector=%d",det));
764 // Convert the detector signals to digits or s-digits
765 if (!ConvertSignals(det,signals)) {
766 AliError(Form("Conversion of signals failed for detector=%d",det));
770 // Delete the signals array
774 } // if: detector status
787 //_____________________________________________________________________________
788 Bool_t AliTRDdigitizer::SortHits(Float_t **hits, Int_t *nhit)
791 // Read all the hits and sorts them according to detector number
792 // in the output array <hits>.
795 AliDebug(1,"Start sorting hits");
797 const Int_t kNdet = AliTRDgeometry::Ndet();
798 // Size of the hit vector
799 const Int_t kNhit = 6;
804 Int_t *lhit = new Int_t[kNdet];
806 for (Int_t det = 0; det < kNdet; det++) {
812 AliLoader *gimme = fRunLoader->GetLoader("TRDLoader");
813 if (!gimme->TreeH()) {
816 TTree *hitTree = gimme->TreeH();
817 if (hitTree == 0x0) {
818 AliError("Can not get TreeH");
821 fTRD->SetTreeAddress();
823 // Get the number of entries in the hit tree
824 // (Number of primary particles creating a hit somewhere)
825 Int_t nTrk = (Int_t) hitTree->GetEntries();
826 AliDebug(1,Form("Found %d tracks",nTrk));
828 // Loop through all the tracks in the tree
829 for (Int_t iTrk = 0; iTrk < nTrk; iTrk++) {
832 hitTree->GetEvent(iTrk);
835 AliError(Form("No hits array for track = %d",iTrk));
839 // Number of hits for this track
840 nhitTrk = fTRD->Hits()->GetEntriesFast();
843 // Loop through the TRD hits
844 AliTRDhit *hit = (AliTRDhit *) fTRD->FirstHit(-1);
849 // Don't analyze test hits
850 if (((Int_t) hit->GetCharge()) != 0) {
852 Int_t trk = hit->Track();
853 Int_t det = hit->GetDetector();
854 Int_t q = hit->GetCharge();
855 Float_t x = hit->X();
856 Float_t y = hit->Y();
857 Float_t z = hit->Z();
858 Float_t time = hit->GetTime();
860 if (nhit[det] == lhit[det]) {
861 // Inititialization of new detector
862 xyz = new Float_t[kNhit*(nhitTrk+lhit[det])];
864 memcpy(xyz,hits[det],sizeof(Float_t)*kNhit*lhit[det]);
867 lhit[det] += nhitTrk;
873 xyz[nhit[det]*kNhit+0] = x;
874 xyz[nhit[det]*kNhit+1] = y;
875 xyz[nhit[det]*kNhit+2] = z;
876 xyz[nhit[det]*kNhit+3] = q;
877 xyz[nhit[det]*kNhit+4] = trk;
878 xyz[nhit[det]*kNhit+5] = time;
883 hit = (AliTRDhit *) fTRD->NextHit();
885 } // for: hits of one track
895 //_____________________________________________________________________________
896 Bool_t AliTRDdigitizer::ConvertHits(Int_t det, Float_t *hits, Int_t nhit
897 , AliTRDarraySignal *signals)
900 // Converts the detectorwise sorted hits to detector signals
903 AliDebug(1,Form("Start converting hits for detector=%d (nhits=%d)",det,nhit));
905 // Number of pads included in the pad response
906 const Int_t kNpad = 3;
907 // Number of track dictionary arrays
908 const Int_t kNdict = AliTRDdigitsManager::kNDict;
909 // Size of the hit vector
910 const Int_t kNhit = 6;
912 // Width of the amplification region
913 const Float_t kAmWidth = AliTRDgeometry::AmThick();
914 // Width of the drift region
915 const Float_t kDrWidth = AliTRDgeometry::DrThick();
916 // Drift + amplification region
917 const Float_t kDrMin = - 0.5 * kAmWidth;
918 const Float_t kDrMax = kDrWidth + 0.5 * kAmWidth;
922 Int_t timeBinTRFend = 1;
926 Double_t padSignal[kNpad];
927 Double_t signalOld[kNpad];
929 AliTRDarrayDictionary *dictionary[kNdict];
931 AliTRDSimParam *simParam = AliTRDSimParam::Instance();
932 AliTRDCommonParam *commonParam = AliTRDCommonParam::Instance();
933 AliTRDcalibDB *calibration = AliTRDcalibDB::Instance();
936 AliFatal("Could not get common parameterss");
940 AliFatal("Could not get simulation parameters");
944 AliFatal("Could not get calibration object");
948 // Get the detector wise calibration objects
949 AliTRDCalROC *calVdriftROC = 0;
950 Float_t calVdriftDetValue = 0.0;
951 const AliTRDCalDet *calVdriftDet = calibration->GetVdriftDet();
952 AliTRDCalROC *calT0ROC = 0;
953 Float_t calT0DetValue = 0.0;
954 const AliTRDCalDet *calT0Det = calibration->GetT0Det();
956 if (simParam->TRFOn()) {
957 timeBinTRFend = ((Int_t) (simParam->GetTRFhi()
958 * commonParam->GetSamplingFrequency())) - 1;
961 Int_t nTimeTotal = calibration->GetNumberOfTimeBins();
962 Float_t samplingRate = commonParam->GetSamplingFrequency();
963 Float_t elAttachProp = simParam->GetElAttachProp() / 100.0;
965 AliTRDpadPlane *padPlane = fGeo->GetPadPlane(det);
966 Int_t layer = fGeo->GetLayer(det); //update
967 Float_t row0 = padPlane->GetRow0ROC();
968 Int_t nRowMax = padPlane->GetNrows();
969 Int_t nColMax = padPlane->GetNcols();
971 // Create a new array for the signals
972 signals->Allocate(nRowMax,nColMax,nTimeTotal);
974 // Create a new array for the dictionary
975 for (dict = 0; dict < kNdict; dict++) {
976 dictionary[dict] = (AliTRDarrayDictionary *) fDigitsManager->GetDictionary(det,dict);
977 dictionary[dict]->Allocate(nRowMax,nColMax,nTimeTotal);
980 // Loop through the hits in this detector
981 for (Int_t hit = 0; hit < nhit; hit++) {
983 pos[0] = hits[hit*kNhit+0];
984 pos[1] = hits[hit*kNhit+1];
985 pos[2] = hits[hit*kNhit+2];
986 Float_t q = hits[hit*kNhit+3];
987 Float_t hittime = hits[hit*kNhit+5];
988 Int_t track = ((Int_t) hits[hit*kNhit+4]);
992 // Find the current volume with the geo manager
993 gGeoManager->SetCurrentPoint(pos);
994 gGeoManager->FindNode();
995 if (strstr(gGeoManager->GetPath(),"/UK")) {
999 // Get the calibration objects
1000 calVdriftROC = calibration->GetVdriftROC(det);
1001 calVdriftDetValue = calVdriftDet->GetValue(det);
1002 calT0ROC = calibration->GetT0ROC(det);
1003 calT0DetValue = calT0Det->GetValue(det);
1005 // Go to the local coordinate system:
1006 // loc[0] - col direction in amplification or driftvolume
1007 // loc[1] - row direction in amplification or driftvolume
1008 // loc[2] - time direction in amplification or driftvolume
1009 gGeoManager->MasterToLocal(pos,loc);
1011 // Relative to middle of amplification region
1012 loc[2] = loc[2] - kDrWidth/2.0 - kAmWidth/2.0;
1015 // The driftlength [cm] (w/o diffusion yet !).
1016 // It is negative if the hit is between pad plane and anode wires.
1017 Double_t driftlength = -1.0 * loc[2];
1019 // Stupid patch to take care of TR photons that are absorbed
1020 // outside the chamber volume. A real fix would actually need
1021 // a more clever implementation of the TR hit generation
1023 if ((loc[1] < padPlane->GetRowEndROC()) ||
1024 (loc[1] > padPlane->GetRow0ROC())) {
1027 if ((driftlength < kDrMin) ||
1028 (driftlength > kDrMax)) {
1033 // Get row and col of unsmeared electron to retrieve drift velocity
1034 // The pad row (z-direction)
1035 Int_t rowE = padPlane->GetPadRowNumberROC(loc[1]);
1039 Double_t rowOffset = padPlane->GetPadRowOffsetROC(rowE,loc[1]);
1040 // The pad column (rphi-direction)
1041 Double_t offsetTilt = padPlane->GetTiltOffset(rowOffset);
1042 Int_t colE = padPlane->GetPadColNumber(loc[0]+offsetTilt);
1046 Double_t colOffset = 0.0;
1048 // Normalized drift length
1049 Float_t driftvelocity = calVdriftDetValue * calVdriftROC->GetValue(colE,rowE);
1050 Double_t absdriftlength = TMath::Abs(driftlength);
1051 if (commonParam->ExBOn()) {
1052 absdriftlength /= TMath::Sqrt(GetLorentzFactor(driftvelocity));
1055 // Loop over all electrons of this hit
1056 // TR photons produce hits with negative charge
1057 Int_t nEl = ((Int_t) TMath::Abs(q));
1058 for (Int_t iEl = 0; iEl < nEl; iEl++) {
1060 // Now the real local coordinate system of the ROC
1061 // column direction: locC
1062 // row direction: locR
1063 // time direction: locT
1064 // locR and locC are identical to the coordinates of the corresponding
1065 // volumina of the drift or amplification region.
1066 // locT is defined relative to the wire plane (i.e. middle of amplification
1067 // region), meaming locT = 0, and is negative for hits coming from the
1069 Double_t locC = loc[0];
1070 Double_t locR = loc[1];
1071 Double_t locT = loc[2];
1073 // Electron attachment
1074 if (simParam->ElAttachOn()) {
1075 if (gRandom->Rndm() < (absdriftlength * elAttachProp)) {
1080 // Apply the diffusion smearing
1081 if (simParam->DiffusionOn()) {
1082 if (!(Diffusion(driftvelocity,absdriftlength,locR,locC,locT))) {
1087 // Apply E x B effects (depends on drift direction)
1088 if (commonParam->ExBOn()) {
1089 if (!(ExB(driftvelocity,driftlength,locC))) {
1094 // The electron position after diffusion and ExB in pad coordinates.
1095 // The pad row (z-direction)
1096 rowE = padPlane->GetPadRowNumberROC(locR);
1097 if (rowE < 0) continue;
1098 rowOffset = padPlane->GetPadRowOffsetROC(rowE,locR);
1100 // The pad column (rphi-direction)
1101 offsetTilt = padPlane->GetTiltOffset(rowOffset);
1102 colE = padPlane->GetPadColNumber(locC+offsetTilt);
1103 if (colE < 0) continue;
1104 colOffset = padPlane->GetPadColOffset(colE,locC+offsetTilt);
1106 // Also re-retrieve drift velocity because col and row may have changed
1107 driftvelocity = calVdriftDetValue * calVdriftROC->GetValue(colE,rowE);
1108 Float_t t0 = calT0DetValue + calT0ROC->GetValue(colE,rowE);
1110 // Convert the position to drift time [mus], using either constant drift velocity or
1111 // time structure of drift cells (non-isochronity, GARFIELD calculation).
1112 // Also add absolute time of hits to take pile-up events into account properly
1114 if (simParam->TimeStructOn()) {
1115 // Get z-position with respect to anode wire
1116 Double_t zz = row0 - locR + simParam->GetAnodeWireOffset();
1117 zz -= ((Int_t)(2 * zz)) / 2.0;
1121 // Use drift time map (GARFIELD)
1122 drifttime = TimeStruct(driftvelocity,0.5*kAmWidth-1.0*locT,zz)
1126 // Use constant drift velocity
1127 drifttime = -1.0 * locT / driftvelocity
1131 // Apply the gas gain including fluctuations
1132 Double_t ggRndm = 0.0;
1134 ggRndm = gRandom->Rndm();
1135 } while (ggRndm <= 0);
1136 Double_t signal = -(simParam->GetGasGain()) * TMath::Log(ggRndm);
1138 // Apply the pad response
1139 if (simParam->PRFOn()) {
1140 // The distance of the electron to the center of the pad
1141 // in units of pad width
1142 Double_t dist = (colOffset - 0.5*padPlane->GetColSize(colE))
1143 / padPlane->GetColSize(colE);
1144 // This is a fixed parametrization, i.e. not dependent on
1145 // calibration values !
1146 if (!(calibration->PadResponse(signal,dist,layer,padSignal))) continue;
1150 padSignal[1] = signal;
1154 // The time bin (always positive), with t0 distortion
1155 Double_t timeBinIdeal = drifttime * samplingRate + t0;
1157 if (TMath::Abs(timeBinIdeal) > 2*nTimeTotal) {
1158 timeBinIdeal = 2 * nTimeTotal;
1160 Int_t timeBinTruncated = ((Int_t) timeBinIdeal);
1161 // The distance of the position to the middle of the timebin
1162 Double_t timeOffset = ((Float_t) timeBinTruncated
1163 + 0.5 - timeBinIdeal) / samplingRate;
1165 // Sample the time response inside the drift region
1166 // + additional time bins before and after.
1167 // The sampling is done always in the middle of the time bin
1168 for (Int_t iTimeBin = TMath::Max(timeBinTruncated,0)
1169 ;iTimeBin < TMath::Min(timeBinTruncated+timeBinTRFend,nTimeTotal)
1172 // Apply the time response
1173 Double_t timeResponse = 1.0;
1174 Double_t crossTalk = 0.0;
1175 Double_t time = (iTimeBin - timeBinTruncated) / samplingRate + timeOffset;
1176 if (simParam->TRFOn()) {
1177 timeResponse = simParam->TimeResponse(time);
1179 if (simParam->CTOn()) {
1180 crossTalk = simParam->CrossTalk(time);
1187 for (iPad = 0; iPad < kNpad; iPad++) {
1189 Int_t colPos = colE + iPad - 1;
1190 if (colPos < 0) continue;
1191 if (colPos >= nColMax) break;
1194 signalOld[iPad] = signals->GetData(rowE,colPos,iTimeBin);
1196 if (colPos != colE) {
1197 // Cross talk added to non-central pads
1198 signalOld[iPad] += padSignal[iPad]
1199 * (timeResponse + crossTalk);
1202 // W/o cross talk at central pad
1203 signalOld[iPad] += padSignal[iPad]
1207 signals->SetData(rowE,colPos,iTimeBin,signalOld[iPad]);
1209 // Store the track index in the dictionary
1210 // Note: We store index+1 in order to allow the array to be compressed
1211 // Note2: Taking out the +1 in track
1212 if (signalOld[iPad] > 0.0) {
1213 for (dict = 0; dict < kNdict; dict++) {
1214 Int_t oldTrack = dictionary[dict]->GetData(rowE,colPos,iTimeBin);
1215 if (oldTrack == track) break;
1216 if (oldTrack == -1 ) {
1217 dictionary[dict]->SetData(rowE,colPos,iTimeBin,track);
1225 } // Loop: time bins
1227 } // Loop: electrons of a single hit
1231 AliDebug(2,Form("Finished analyzing %d hits",nhit));
1237 //_____________________________________________________________________________
1238 Bool_t AliTRDdigitizer::ConvertSignals(Int_t det, AliTRDarraySignal *signals)
1241 // Convert signals to digits
1244 AliDebug(1,Form("Start converting the signals for detector %d",det));
1247 // Convert the signal array to s-digits
1248 if (!Signal2SDigits(det,signals)) {
1253 // Convert the signal array to digits
1254 if (!Signal2ADC(det,signals)) {
1259 // Compress the arrays
1260 CompressOutputArrays(det);
1266 //_____________________________________________________________________________
1267 Bool_t AliTRDdigitizer::Signal2ADC(Int_t det, AliTRDarraySignal *signals)
1270 // Converts the sampled electron signals to ADC values for a given chamber
1273 AliDebug(1,Form("Start converting signals to ADC values for detector=%d",det));
1275 AliTRDcalibDB *calibration = AliTRDcalibDB::Instance();
1277 AliFatal("Could not get calibration object");
1281 AliTRDSimParam *simParam = AliTRDSimParam::Instance();
1283 AliFatal("Could not get simulation parameters");
1287 // Converts number of electrons to fC
1288 const Double_t kEl2fC = 1.602e-19 * 1.0e15;
1291 Double_t coupling = simParam->GetPadCoupling()
1292 * simParam->GetTimeCoupling();
1293 // Electronics conversion factor
1294 Double_t convert = kEl2fC
1295 * simParam->GetChipGain();
1296 // ADC conversion factor
1297 Double_t adcConvert = simParam->GetADCoutRange()
1298 / simParam->GetADCinRange();
1299 // The electronics baseline in mV
1300 Double_t baseline = simParam->GetADCbaseline()
1302 // The electronics baseline in electrons
1303 Double_t baselineEl = baseline
1310 Int_t nRowMax = fGeo->GetPadPlane(det)->GetNrows();
1311 Int_t nColMax = fGeo->GetPadPlane(det)->GetNcols();
1312 Int_t nTimeTotal = calibration->GetNumberOfTimeBins();
1314 // The gainfactor calibration objects
1315 const AliTRDCalDet *calGainFactorDet = calibration->GetGainFactorDet();
1316 AliTRDCalROC *calGainFactorROC = 0;
1317 Float_t calGainFactorDetValue = 0.0;
1319 AliTRDarrayADC *digits = 0x0;
1322 AliError(Form("Signals array for detector %d does not exist\n",det));
1325 if (signals->HasData()) {
1326 // Expand the container if neccessary
1330 // Create missing containers
1331 signals->Allocate(nRowMax,nColMax,nTimeTotal);
1334 // Get the container for the digits of this detector
1335 if (fDigitsManager->HasSDigits()) {
1336 AliError("Digits manager has s-digits");
1340 digits = (AliTRDarrayADC *) fDigitsManager->GetDigits(det);
1341 // Allocate memory space for the digits buffer
1342 if (!digits->HasData()) {
1343 digits->Allocate(nRowMax,nColMax,nTimeTotal);
1346 // Get the calibration objects
1347 calGainFactorROC = calibration->GetGainFactorROC(det);
1348 calGainFactorDetValue = calGainFactorDet->GetValue(det);
1350 // Create the digits for this chamber
1351 for (row = 0; row < nRowMax; row++ ) {
1352 for (col = 0; col < nColMax; col++ ) {
1354 // Check whether pad is masked
1355 // Bridged pads are not considered yet!!!
1356 if (calibration->IsPadMasked(det,col,row)) {
1361 Float_t padgain = calGainFactorDetValue
1362 * calGainFactorROC->GetValue(col,row);
1364 AliError(Form("Not a valid gain %f, %d %d %d",padgain,det,col,row));
1367 for (time = 0; time < nTimeTotal; time++) {
1369 // Get the signal amplitude
1370 Float_t signalAmp = signals->GetData(row,col,time);
1371 // Pad and time coupling
1372 signalAmp *= coupling;
1374 signalAmp *= padgain;
1376 // Add the noise, starting from minus ADC baseline in electrons
1377 signalAmp = TMath::Max((Double_t) gRandom->Gaus(signalAmp,simParam->GetNoise())
1381 signalAmp *= convert;
1382 // Add ADC baseline in mV
1383 signalAmp += baseline;
1385 // Convert to ADC counts. Set the overflow-bit fADCoutRange if the
1386 // signal is larger than fADCinRange
1388 if (signalAmp >= simParam->GetADCinRange()) {
1389 adc = ((Short_t) simParam->GetADCoutRange());
1392 adc = TMath::Nint(signalAmp * adcConvert);
1395 // Saving all digits
1396 digits->SetData(row,col,time,adc);
1403 // Do the Zero Suppression
1410 //_____________________________________________________________________________
1411 Bool_t AliTRDdigitizer::Signal2SDigits(Int_t det, AliTRDarraySignal *signals)
1414 // Converts the sampled electron signals to s-digits
1417 AliDebug(1,Form("Start converting signals to s-digits for detector=%d",det));
1419 AliTRDcalibDB *calibration = AliTRDcalibDB::Instance();
1421 AliFatal("Could not get calibration object");
1429 Int_t nRowMax = fGeo->GetPadPlane(det)->GetNrows();
1430 Int_t nColMax = fGeo->GetPadPlane(det)->GetNcols();
1431 Int_t nTimeTotal = calibration->GetNumberOfTimeBins();
1433 // Get the container for the digits of this detector
1435 if (!fDigitsManager->HasSDigits()) {
1436 AliError("Digits manager has no s-digits");
1440 AliTRDarraySignal *digits = (AliTRDarraySignal *) fDigitsManager->GetSDigits(det);
1441 // Allocate memory space for the digits buffer
1442 if (!digits->HasData()) {
1443 digits->Allocate(nRowMax,nColMax,nTimeTotal);
1446 // Create the sdigits for this chamber
1447 for (row = 0; row < nRowMax; row++ ) {
1448 for (col = 0; col < nColMax; col++ ) {
1449 for (time = 0; time < nTimeTotal; time++) {
1450 digits->SetData(row,col,time,signals->GetData(row,col,time));
1459 //_____________________________________________________________________________
1460 Bool_t AliTRDdigitizer::SDigits2Digits()
1463 // Merges the input s-digits and converts them to normal digits
1466 if (!MergeSDigits()) {
1470 return ConvertSDigits();
1474 //_____________________________________________________________________________
1475 Bool_t AliTRDdigitizer::MergeSDigits()
1478 // Merges the input s-digits:
1479 // - The amplitude of the different inputs are summed up.
1480 // - Of the track IDs from the input dictionaries only one is
1481 // kept for each input. This works for maximal 3 different merged inputs.
1484 // Number of track dictionary arrays
1485 const Int_t kNDict = AliTRDdigitsManager::kNDict;
1487 AliTRDSimParam *simParam = AliTRDSimParam::Instance();
1489 AliFatal("Could not get simulation parameters");
1493 AliTRDcalibDB *calibration = AliTRDcalibDB::Instance();
1495 AliFatal("Could not get calibration object");
1502 AliTRDarraySignal *digitsA;
1503 AliTRDarraySignal *digitsB;
1504 AliTRDarrayDictionary *dictionaryA[kNDict];
1505 AliTRDarrayDictionary *dictionaryB[kNDict];
1507 AliTRDdigitsManager *mergeSDigitsManager = 0x0;
1508 // Get the first s-digits
1509 fSDigitsManager = (AliTRDdigitsManager *) fSDigitsManagerList->First();
1510 if (!fSDigitsManager) {
1511 AliError("No SDigits manager");
1515 // Loop through the other sets of s-digits
1516 mergeSDigitsManager = (AliTRDdigitsManager *) fSDigitsManagerList->After(fSDigitsManager);
1518 if (mergeSDigitsManager) {
1519 AliDebug(1,Form("Merge %d input files.",fSDigitsManagerList->GetSize()));
1522 AliDebug(1,"Only one input file.");
1525 Int_t nTimeTotal = calibration->GetNumberOfTimeBins();
1528 while (mergeSDigitsManager) {
1532 // Loop through the detectors
1533 for (Int_t iDet = 0; iDet < AliTRDgeometry::Ndet(); iDet++) {
1535 Int_t nRowMax = fGeo->GetPadPlane(iDet)->GetNrows();
1536 Int_t nColMax = fGeo->GetPadPlane(iDet)->GetNcols();
1538 // Loop through the pixels of one detector and add the signals
1539 digitsA = (AliTRDarraySignal *) fSDigitsManager->GetSDigits(iDet);
1540 digitsB = (AliTRDarraySignal *) mergeSDigitsManager->GetSDigits(iDet);
1542 if (!digitsA->HasData()) continue;
1544 if (!digitsB->HasData()) continue;
1546 for (iDict = 0; iDict < kNDict; iDict++) {
1547 dictionaryA[iDict] = (AliTRDarrayDictionary *) fSDigitsManager->GetDictionary(iDet,iDict);
1548 dictionaryB[iDict] = (AliTRDarrayDictionary *) mergeSDigitsManager->GetDictionary(iDet,iDict);
1549 dictionaryA[iDict]->Expand();
1550 dictionaryB[iDict]->Expand();
1553 // Merge only detectors that contain a signal
1554 Bool_t doMerge = kTRUE;
1555 if (fMergeSignalOnly) {
1556 if (digitsA->GetOverThreshold(0) == 0) {
1563 AliDebug(1,Form("Merge detector %d of input no.%d",iDet,iMerge+1));
1565 for (Int_t iRow = 0; iRow < nRowMax; iRow++ ) {
1566 for (Int_t iCol = 0; iCol < nColMax; iCol++ ) {
1567 for (Int_t iTime = 0; iTime < nTimeTotal; iTime++) {
1569 // Add the amplitudes of the summable digits
1570 Float_t ampA = digitsA->GetData(iRow,iCol,iTime);
1571 Float_t ampB = digitsB->GetData(iRow,iCol,iTime);
1573 digitsA->SetData(iRow,iCol,iTime,ampA);
1575 // Add the mask to the track id if defined.
1576 for (iDict = 0; iDict < kNDict; iDict++) {
1577 Int_t trackB = dictionaryB[iDict]->GetData(iRow,iCol,iTime);
1578 if ((fMasks) && (trackB > 0)) {
1579 for (jDict = 0; jDict < kNDict; jDict++) {
1580 Int_t trackA = dictionaryA[iDict]->GetData(iRow,iCol,iTime);
1582 trackA = trackB + fMasks[iMerge];
1583 dictionaryA[iDict]->SetData(iRow,iCol,iTime,trackA);
1584 } // if: track A == 0
1586 } // if: fMasks and trackB > 0
1595 mergeSDigitsManager->RemoveDigits(iDet);
1596 mergeSDigitsManager->RemoveDictionaries(iDet);
1599 digitsA->Compress(0);
1600 for (iDict = 0; iDict < kNDict; iDict++) {
1601 dictionaryA[iDict]->Compress();
1607 // The next set of s-digits
1608 mergeSDigitsManager = (AliTRDdigitsManager *) fSDigitsManagerList->After(mergeSDigitsManager);
1610 } // while: mergeDigitsManagers
1616 //_____________________________________________________________________________
1617 Bool_t AliTRDdigitizer::ConvertSDigits()
1620 // Converts s-digits to normal digits
1623 AliTRDarraySignal *digitsIn = 0x0;
1625 if (!fSDigitsManager->HasSDigits()) {
1626 AliError("No s-digits in digits manager");
1630 // Loop through the detectors
1631 for (Int_t det = 0; det < AliTRDgeometry::Ndet(); det++) {
1633 // Get the merged s-digits (signals)
1634 digitsIn = (AliTRDarraySignal *) fSDigitsManager->GetSDigits(det);
1635 if (!digitsIn->HasData()) {
1636 AliDebug(2,Form("No digits for det=%d",det));
1640 // Convert the merged sdigits to digits
1641 if (!Signal2ADC(det,digitsIn)) {
1645 // Copy the dictionary information to the output array
1646 if (!CopyDictionary(det)) {
1651 fSDigitsManager->RemoveDigits(det);
1652 fSDigitsManager->RemoveDictionaries(det);
1654 // Compress the arrays
1655 CompressOutputArrays(det);
1657 } // for: detector numbers
1663 //_____________________________________________________________________________
1664 Bool_t AliTRDdigitizer::CopyDictionary(Int_t det)
1667 // Copies the dictionary information from the s-digits arrays
1668 // to the output arrays
1671 AliTRDcalibDB *calibration = AliTRDcalibDB::Instance();
1673 AliFatal("Could not get calibration object");
1677 AliDebug(1,Form("Start copying dictionaries for detector=%d",det));
1679 const Int_t kNDict = AliTRDdigitsManager::kNDict;
1680 AliTRDarrayDictionary *dictionaryIn[kNDict];
1681 AliTRDarrayDictionary *dictionaryOut[kNDict];
1683 Int_t nRowMax = fGeo->GetPadPlane(det)->GetNrows();
1684 Int_t nColMax = fGeo->GetPadPlane(det)->GetNcols();
1685 Int_t nTimeTotal = calibration->GetNumberOfTimeBins();
1692 for (dict = 0; dict < kNDict; dict++) {
1694 dictionaryIn[dict] = (AliTRDarrayDictionary *) fSDigitsManager->GetDictionary(det,dict);
1695 dictionaryIn[dict]->Expand();
1696 dictionaryOut[dict] = (AliTRDarrayDictionary *) fDigitsManager->GetDictionary(det,dict);
1697 dictionaryOut[dict]->Allocate(nRowMax,nColMax,nTimeTotal);
1699 for (row = 0; row < nRowMax; row++) {
1700 for (col = 0; col < nColMax; col++) {
1701 for (time = 0; time < nTimeTotal; time++) {
1702 Int_t track = dictionaryIn[dict]->GetData(row,col,time);
1703 dictionaryOut[dict]->SetData(row,col,time,track);
1708 } // for: dictionaries
1714 //_____________________________________________________________________________
1715 void AliTRDdigitizer::CompressOutputArrays(Int_t det)
1718 // Compress the output arrays
1721 const Int_t kNDict = AliTRDdigitsManager::kNDict;
1722 AliTRDarrayDictionary *dictionary = 0x0;
1727 AliTRDarrayADC *digits = 0x0;
1728 digits = (AliTRDarrayADC *) fDigitsManager->GetDigits(det);
1733 AliTRDarraySignal *digits = 0x0;
1734 digits = (AliTRDarraySignal *) fDigitsManager->GetSDigits(det);
1735 digits->Compress(0);
1738 for (Int_t dict = 0; dict < kNDict; dict++) {
1739 dictionary = (AliTRDarrayDictionary *) fDigitsManager->GetDictionary(det,dict);
1740 dictionary->Compress();
1747 //_____________________________________________________________________________
1748 Bool_t AliTRDdigitizer::WriteDigits() const
1751 // Writes out the TRD-digits and the dictionaries
1755 fRunLoader->CdGAFile();
1757 // Store the digits and the dictionary in the tree
1758 return fDigitsManager->WriteDigits();
1762 //_____________________________________________________________________________
1763 void AliTRDdigitizer::InitOutput(Int_t iEvent)
1766 // Initializes the output branches
1772 AliError("Run Loader is NULL");
1776 AliLoader *loader = fRunLoader->GetLoader("TRDLoader");
1778 AliError("Can not get TRD loader from Run Loader");
1785 // If we produce SDigits
1786 tree = loader->TreeS();
1788 loader->MakeTree("S");
1789 tree = loader->TreeS();
1793 // If we produce Digits
1794 tree = loader->TreeD();
1796 loader->MakeTree("D");
1797 tree = loader->TreeD();
1800 fDigitsManager->SetEvent(iEvent);
1801 fDigitsManager->MakeBranch(tree);
1805 //_____________________________________________________________________________
1806 Double_t AliTRDdigitizer::TimeStruct(Float_t vdrift, Double_t dist, Double_t z)
1809 // Applies the time structure of the drift cells (by C.Lippmann).
1810 // The drift time of electrons to the anode wires depends on the
1811 // distance to the wire (z) and on the position in the drift region.
1814 // dist = radial distance from (cathode) pad plane [cm]
1815 // z = distance from anode wire (parallel to cathode planes) [cm]
1818 // tdrift = the drift time of an electron at the given position
1820 // We interpolate between the drift time values at the two drift
1821 // velocities fVDlo and fVDhi, being smaller and larger than
1822 // fDriftVelocity. We use the two stored drift time maps fTimeStruct1
1823 // and fTimeStruct2, calculated for the two mentioned drift velocities.
1826 SampleTimeStruct(vdrift);
1829 Int_t r1 = (Int_t)(10 * dist);
1831 if (r1 > 37) r1 = 37;
1834 if (r2 > 37) r2 = 37;
1835 const Int_t kz1 = ((Int_t)(100 * z / 2.5));
1836 const Int_t kz2 = kz1 + 1;
1842 AliWarning(Form("Indices out of range: dist=%.2f, z=%.2f, r1=%d, kz1=%d"
1846 const Float_t ky111 = fTimeStruct1[r1+38*kz1];
1847 const Float_t ky221 = ((r2 <= 37) && (kz2 <= 10))
1848 ? fTimeStruct1[r2+38*kz2]
1849 : fTimeStruct1[37+38*10];
1850 const Float_t ky121 = (kz2 <= 10)
1851 ? fTimeStruct1[r1+38*kz2]
1852 : fTimeStruct1[r1+38*10];
1853 const Float_t ky211 = (r2 <= 37)
1854 ? fTimeStruct1[r2+38*kz1]
1855 : fTimeStruct1[37+38*kz1];
1857 // 2D Interpolation, lower drift time map
1858 const Float_t ky11 = (ky211-ky111)*10*dist + ky111 - (ky211-ky111)*r1;
1859 const Float_t ky21 = (ky221-ky121)*10*dist + ky121 - (ky221-ky121)*r1;
1861 const Float_t ky112 = fTimeStruct2[r1+38*kz1];
1862 const Float_t ky222 = ((r2 <= 37) && (kz2 <= 10))
1863 ? fTimeStruct2[r2+38*kz2]
1864 : fTimeStruct2[37+38*10];
1865 const Float_t ky122 = (kz2 <= 10)
1866 ? fTimeStruct2[r1+38*kz2]
1867 : fTimeStruct2[r1+38*10];
1868 const Float_t ky212 = (r2 <= 37)
1869 ? fTimeStruct2[r2+38*kz1]
1870 : fTimeStruct2[37+38*kz1];
1872 // 2D Interpolation, larger drift time map
1873 const Float_t ky12 = (ky212-ky112)*10*dist + ky112 - (ky212-ky112)*r1;
1874 const Float_t ky22 = (ky222-ky122)*10*dist + ky122 - (ky222-ky122)*r1;
1876 // Dist now is the drift distance to the anode wires (negative if electrons are
1877 // between anode wire plane and cathode pad plane)
1878 dist -= AliTRDgeometry::AmThick() / 2.0;
1880 // Get the drift times for the drift velocities fVDlo and fVDhi
1881 const Float_t ktdrift1 = ((TMath::Abs(dist) > 0.005) || (z > 0.005))
1882 ? (ky21 - ky11) * 100 * z / 2.5 + ky11 - (ky21 - ky11) * kz1
1884 const Float_t ktdrift2 = ((TMath::Abs(dist) > 0.005) || (z > 0.005))
1885 ? (ky22 - ky12) * 100 * z / 2.5 + ky12 - (ky22 - ky12) * kz1
1888 // 1D Interpolation between the values at fVDlo and fVDhi
1889 Float_t a = (ktdrift2 - ktdrift1)
1891 Float_t b = ktdrift2 - a * fVDhi;
1893 return a * vdrift + b;
1897 //_____________________________________________________________________________
1898 void AliTRDdigitizer::SampleTimeStruct(Float_t vdrift)
1901 // Samples the timing structure of a drift cell
1902 // Drift Time data calculated with Garfield (by C.Lippmann)
1906 if (vdrift == fTimeLastVdrift) {
1909 fTimeLastVdrift = vdrift;
1911 // Drift time maps are saved for some drift velocity values (in drift region):
1922 if (vdrift < fVDsmp[0]) {
1923 AliWarning(Form("Drift Velocity too small (%.3f<%.3f)",vdrift,fVDsmp[0]));
1926 else if (vdrift > fVDsmp[7]) {
1927 AliWarning(Form("Drift Velocity too large (%.3f>%.3f)",vdrift,fVDsmp[6]));
1931 const Int_t ktimebin = 38;
1932 const Int_t kZbin = 11;
1934 // Garfield simulation at UD = -1500V; vd = 1.032cm/microsec, <driftfield> = 525V/cm
1935 Float_t time1500[ktimebin][kZbin] =
1936 {{0.09170, 0.09205, 0.09306, 0.09475, 0.09716, 0.10035,
1937 0.10445, 0.10993, 0.11838, 0.13986, 0.37858},
1938 {0.06588, 0.06626, 0.06739, 0.06926, 0.07186, 0.07524,
1939 0.07951, 0.08515, 0.09381, 0.11601, 0.35673},
1940 {0.03946, 0.04003, 0.04171, 0.04435, 0.04780, 0.05193,
1941 0.05680, 0.06306, 0.07290, 0.09873, 0.34748},
1942 {0.01151, 0.01283, 0.01718, 0.02282, 0.02880, 0.03479,
1943 0.04098, 0.04910, 0.06413, 0.10567, 0.36897},
1944 {0.01116, 0.01290, 0.01721, 0.02299, 0.02863, 0.03447,
1945 0.04074, 0.04984, 0.06839, 0.11625, 0.37277},
1946 {0.03919, 0.03974, 0.04131, 0.04380, 0.04703, 0.05102,
1947 0.05602, 0.06309, 0.07651, 0.10938, 0.36838},
1948 {0.06493, 0.06560, 0.06640, 0.06802, 0.07051, 0.07392,
1949 0.07853, 0.08510, 0.09690, 0.12621, 0.38058},
1950 {0.09174, 0.09186, 0.09225, 0.09303, 0.09477, 0.00000,
1951 0.11205, 0.11952, 0.13461, 0.16984, 0.43017},
1952 {0.14356, 0.14494, 0.14959, 0.16002, 0.18328, 0.27981,
1953 0.22785, 0.21240, 0.21948, 0.25965, 0.52392},
1954 {0.23120, 0.23366, 0.24046, 0.25422, 0.28071, 0.36914,
1955 0.32999, 0.31208, 0.31772, 0.35804, 0.62249},
1956 {0.32686, 0.32916, 0.33646, 0.35053, 0.37710, 0.46292,
1957 0.42773, 0.40948, 0.41497, 0.45527, 0.71955},
1958 {0.42353, 0.42583, 0.43317, 0.44727, 0.47380, 0.55884,
1959 0.52479, 0.50650, 0.51194, 0.55225, 0.81658},
1960 {0.52038, 0.52271, 0.53000, 0.54415, 0.57064, 0.65545,
1961 0.62172, 0.60341, 0.60885, 0.64915, 0.91339},
1962 {0.61724, 0.61953, 0.62694, 0.64098, 0.66756, 0.75226,
1963 0.71862, 0.70030, 0.70575, 0.74604, 1.01035},
1964 {0.71460, 0.71678, 0.72376, 0.73786, 0.76447, 0.84913,
1965 0.81551, 0.79720, 0.80264, 0.84292, 1.10723},
1966 {0.81101, 0.81334, 0.82066, 0.83475, 0.86127, 0.94599,
1967 0.91240, 0.89408, 0.89952, 0.93981, 1.20409},
1968 {0.90788, 0.91023, 0.91752, 0.93163, 0.95815, 1.04293,
1969 1.00929, 0.99096, 0.99640, 1.03669, 1.30106},
1970 {1.00477, 1.00707, 1.01449, 1.02852, 1.05504, 1.13976,
1971 1.10617, 1.08784, 1.09329, 1.13358, 1.39796},
1972 {1.10166, 1.10397, 1.11130, 1.12541, 1.15257, 1.23672,
1973 1.20307, 1.18472, 1.19018, 1.23046, 1.49486},
1974 {1.19854, 1.20084, 1.20818, 1.22235, 1.24885, 1.33355,
1975 1.29992, 1.28156, 1.28707, 1.32735, 1.59177},
1976 {1.29544, 1.29780, 1.30507, 1.31917, 1.34575, 1.43073,
1977 1.39681, 1.37851, 1.38396, 1.42377, 1.68854},
1978 {1.39236, 1.39462, 1.40205, 1.41607, 1.44259, 1.52745,
1979 1.49368, 1.47541, 1.48083, 1.52112, 1.78546},
1980 {1.49314, 1.49149, 1.49885, 1.51297, 1.53949, 1.62420,
1981 1.59016, 1.57231, 1.57772, 1.61800, 1.88048},
1982 {1.58610, 1.58839, 1.59572, 1.60983, 1.63635, 1.72109,
1983 1.68651, 1.66921, 1.67463, 1.71489, 1.97918},
1984 {1.68400, 1.68529, 1.69261, 1.70671, 1.73331, 1.81830,
1985 1.78341, 1.76605, 1.77150, 1.81179, 2.07608},
1986 {1.77991, 1.78215, 1.78952, 1.80385, 1.83014, 1.91486,
1987 1.88128, 1.86215, 1.86837, 1.90865, 2.17304},
1988 {1.87674, 1.87904, 1.88647, 1.90052, 1.92712, 2.01173,
1989 1.97812, 1.95905, 1.96527, 2.00710, 2.26979},
1990 {1.97369, 1.97594, 1.98326, 1.99869, 2.02442, 2.10865,
1991 2.07501, 2.05666, 2.06214, 2.10243, 2.36669},
1992 {2.07052, 2.07281, 2.08016, 2.09425, 2.12132, 2.20555,
1993 2.17182, 2.15341, 2.15904, 2.19933, 2.46363},
1994 {2.16742, 2.16971, 2.17707, 2.19114, 2.21766, 2.30240,
1995 2.26877, 2.25015, 2.25573, 2.29586, 2.56060},
1996 {2.26423, 2.26659, 2.27396, 2.28803, 2.31456, 2.40828,
1997 2.36567, 2.34705, 2.35282, 2.39765, 2.65744},
1998 {2.36153, 2.36349, 2.37330, 2.38501, 2.41159, 2.49940,
1999 2.46257, 2.44420, 2.44843, 2.48987, 2.75431},
2000 {2.46558, 2.46035, 2.46822, 2.48181, 2.50849, 2.59630,
2001 2.55947, 2.54112, 2.54513, 2.58677, 2.85094},
2002 {2.56248, 2.55723, 2.56486, 2.57871, 2.60520, 2.68998,
2003 2.65626, 2.63790, 2.64316, 2.68360, 2.94813},
2004 {2.65178, 2.65441, 2.66153, 2.67556, 2.70210, 2.78687,
2005 2.75319, 2.73463, 2.74032, 2.78060, 3.04503},
2006 {2.74868, 2.75131, 2.75870, 2.77245, 2.79385, 2.88700,
2007 2.85009, 2.83177, 2.83723, 2.87750, 3.14193},
2008 {2.84574, 2.84789, 2.85560, 2.86935, 2.89075, 2.98060,
2009 2.94576, 2.92868, 2.93356, 2.97436, 3.23868},
2010 {2.94239, 2.94469, 2.95221, 2.96625, 2.99345, 3.07747,
2011 3.04266, 3.02545, 3.03051, 3.07118, 3.33555}};
2013 // Garfield simulation at UD = -1600V; vd = 1.158cm/microsec, <driftfield> = 558V/cm
2014 Float_t time1600[ktimebin][kZbin] =
2015 {{0.09169, 0.09203, 0.09305, 0.09473, 0.09714, 0.10032,
2016 0.10441, 0.10990, 0.11835, 0.13986, 0.37845},
2017 {0.06589, 0.06626, 0.06738, 0.06924, 0.07184, 0.07521,
2018 0.07947, 0.08512, 0.09379, 0.11603, 0.35648},
2019 {0.03947, 0.04003, 0.04171, 0.04434, 0.04778, 0.05190,
2020 0.05678, 0.06304, 0.07292, 0.09876, 0.34759},
2021 {0.01111, 0.01281, 0.01718, 0.02281, 0.02879, 0.03477,
2022 0.04097, 0.04910, 0.06415, 0.10573, 0.36896},
2023 {0.01120, 0.01311, 0.01721, 0.02279, 0.02862, 0.03446,
2024 0.04074, 0.04981, 0.06825, 0.11595, 0.37255},
2025 {0.03919, 0.03980, 0.04132, 0.04380, 0.04704, 0.05102,
2026 0.05602, 0.06302, 0.07633, 0.10896, 0.36743},
2027 {0.06531, 0.06528, 0.06631, 0.06805, 0.07053, 0.07392,
2028 0.07853, 0.08505, 0.09669, 0.12578, 0.37967},
2029 {0.09157, 0.09171, 0.09216, 0.09301, 0.09475, 0.00000,
2030 0.11152, 0.11879, 0.13352, 0.16802, 0.42750},
2031 {0.13977, 0.14095, 0.14509, 0.15433, 0.17534, 0.26406,
2032 0.21660, 0.20345, 0.21113, 0.25067, 0.51434},
2033 {0.21816, 0.22041, 0.22631, 0.23850, 0.26208, 0.34340,
2034 0.30755, 0.29237, 0.29878, 0.33863, 0.60258},
2035 {0.30344, 0.30547, 0.31241, 0.32444, 0.34809, 0.42696,
2036 0.39464, 0.37919, 0.38546, 0.42530, 0.68926},
2037 {0.38969, 0.39164, 0.39810, 0.41059, 0.43441, 0.51246,
2038 0.48112, 0.46562, 0.47191, 0.51172, 0.77558},
2039 {0.47592, 0.47799, 0.48442, 0.49689, 0.52061, 0.59855,
2040 0.56752, 0.55201, 0.55826, 0.59808, 0.86202},
2041 {0.56226, 0.56428, 0.57074, 0.58324, 0.60696, 0.68483,
2042 0.65388, 0.63837, 0.64461, 0.68445, 0.94830},
2043 {0.64881, 0.65063, 0.65709, 0.66958, 0.69331, 0.77117,
2044 0.74023, 0.72472, 0.73098, 0.77079, 1.03486},
2045 {0.73506, 0.73698, 0.74344, 0.75596, 0.77964, 0.85751,
2046 0.82658, 0.81107, 0.81731, 0.85712, 1.12106},
2047 {0.82132, 0.82333, 0.82979, 0.84228, 0.86608, 0.94386,
2048 0.91293, 0.89742, 0.90367, 0.94335, 1.20737},
2049 {0.90767, 0.90968, 0.91614, 0.92863, 0.95236, 1.03021,
2050 0.99928, 0.98377, 0.99001, 1.02984, 1.29371},
2051 {0.99410, 0.99602, 1.00257, 1.01498, 1.03869, 1.11720,
2052 1.08563, 1.07011, 1.07637, 1.11621, 1.37873},
2053 {1.08036, 1.08240, 1.08884, 1.10138, 1.12504, 1.20301,
2054 1.17198, 1.15647, 1.16272, 1.20255, 1.46651},
2055 {1.16670, 1.16872, 1.17525, 1.18783, 1.21139, 1.28934,
2056 1.25833, 1.24281, 1.24909, 1.28889, 1.55275},
2057 {1.25307, 1.25510, 1.26153, 1.27404, 1.29773, 1.37584,
2058 1.34469, 1.32916, 1.33536, 1.37524, 1.63915},
2059 {1.33942, 1.34146, 1.34788, 1.36040, 1.38410, 1.46438,
2060 1.43105, 1.41537, 1.42176, 1.46158, 1.72538},
2061 {1.42579, 1.42782, 1.43458, 1.44674, 1.47043, 1.55085,
2062 1.51675, 1.50168, 1.50810, 1.54793, 1.81174},
2063 {1.51207, 1.51454, 1.52060, 1.53307, 1.55684, 1.63478,
2064 1.60336, 1.58820, 1.59446, 1.63414, 1.89814},
2065 {1.59856, 1.60047, 1.60693, 1.61942, 1.64317, 1.72257,
2066 1.69008, 1.67454, 1.68080, 1.72063, 1.98433},
2067 {1.68481, 1.68682, 1.69330, 1.70584, 1.72949, 1.80752,
2068 1.77643, 1.76089, 1.76716, 1.80692, 2.07069},
2069 {1.77117, 1.77319, 1.77969, 1.79260, 1.81583, 1.89376,
2070 1.86226, 1.84720, 1.85355, 1.89256, 2.15343},
2071 {1.85748, 1.85967, 1.86605, 1.87848, 1.90222, 1.98010,
2072 1.94913, 1.93271, 1.93981, 1.97968, 2.24355},
2073 {1.94386, 1.94587, 1.95233, 1.96484, 1.98854, 2.06646,
2074 2.03542, 2.01755, 2.02617, 2.06604, 2.32993},
2075 {2.03022, 2.03230, 2.03868, 2.05134, 2.07488, 2.15367,
2076 2.12178, 2.10391, 2.11252, 2.15432, 2.41623},
2077 {2.11656, 2.11857, 2.12505, 2.13772, 2.16147, 2.23919,
2078 2.20817, 2.19265, 2.20744, 2.23872, 2.49996},
2079 {2.20291, 2.20611, 2.21137, 2.22387, 2.24758, 2.32563,
2080 2.29450, 2.27901, 2.28525, 2.32507, 2.58897},
2081 {2.28922, 2.29172, 2.29774, 2.31345, 2.33400, 2.41287,
2082 2.38086, 2.36535, 2.37160, 2.40869, 2.67113},
2083 {2.37572, 2.37764, 2.38410, 2.39803, 2.42046, 2.49817,
2084 2.46721, 2.45171, 2.45794, 2.49505, 2.76061},
2085 {2.46190, 2.46396, 2.47043, 2.48340, 2.50665, 2.58453,
2086 2.55357, 2.53728, 2.54430, 2.58407, 2.84816},
2087 {2.54833, 2.55032, 2.55679, 2.56976, 2.59312, 2.67103,
2088 2.63993, 2.62364, 2.63062, 2.67040, 2.93444},
2089 {2.63456, 2.63660, 2.64304, 2.65555, 2.67938, 2.75739,
2090 2.72629, 2.71064, 2.71688, 2.75671, 3.01886}};
2092 // Garfield simulation at UD = -1700V; vd = 1.299cm/microsec, <driftfield> = 590V/cm
2093 Float_t time1700[ktimebin][kZbin] =
2094 {{0.09167, 0.09201, 0.09302, 0.09471, 0.09712, 0.10029,
2095 0.10438, 0.10986, 0.11832, 0.13986, 0.37824},
2096 {0.06591, 0.06626, 0.06736, 0.06923, 0.07183, 0.07519,
2097 0.07944, 0.08511, 0.09378, 0.11603, 0.35625},
2098 {0.03946, 0.04003, 0.04170, 0.04433, 0.04777, 0.05189,
2099 0.05676, 0.06301, 0.07291, 0.09880, 0.34724},
2100 {0.01110, 0.01281, 0.01718, 0.02280, 0.02879, 0.03476,
2101 0.04096, 0.04910, 0.06417, 0.10582, 0.36861},
2102 {0.01115, 0.01294, 0.01721, 0.02276, 0.02862, 0.03447,
2103 0.04074, 0.04980, 0.06812, 0.11565, 0.37231},
2104 {0.03920, 0.03974, 0.04133, 0.04381, 0.04706, 0.05105,
2105 0.05603, 0.06299, 0.07618, 0.10860, 0.36646},
2106 {0.06498, 0.06529, 0.06634, 0.06808, 0.07055, 0.07395,
2107 0.07852, 0.08500, 0.09650, 0.12532, 0.37850},
2108 {0.09143, 0.09159, 0.09207, 0.09297, 0.09473, 0.00000,
2109 0.11102, 0.11809, 0.13245, 0.16627, 0.42496},
2110 {0.13646, 0.13750, 0.14112, 0.14926, 0.16806, 0.24960,
2111 0.20627, 0.19536, 0.20366, 0.24256, 0.50557},
2112 {0.20678, 0.20848, 0.21384, 0.22450, 0.24552, 0.32018,
2113 0.28740, 0.27477, 0.28196, 0.32128, 0.58475},
2114 {0.28287, 0.28461, 0.29020, 0.30108, 0.32224, 0.39467,
2115 0.36500, 0.35217, 0.35926, 0.39860, 0.66194},
2116 {0.35972, 0.36145, 0.36713, 0.37797, 0.39912, 0.47091,
2117 0.44212, 0.42925, 0.43632, 0.47563, 0.73892},
2118 {0.43667, 0.43841, 0.44413, 0.45494, 0.47607, 0.54780,
2119 0.51912, 0.50627, 0.51334, 0.55254, 0.81595},
2120 {0.51365, 0.51540, 0.52101, 0.53193, 0.55305, 0.62463,
2121 0.59617, 0.58328, 0.59035, 0.62965, 0.89303},
2122 {0.59064, 0.59240, 0.59801, 0.60893, 0.63009, 0.70169,
2123 0.67317, 0.66028, 0.66735, 0.70666, 0.96995},
2124 {0.66765, 0.66939, 0.67501, 0.68592, 0.70724, 0.77863,
2125 0.75016, 0.73728, 0.74435, 0.78366, 1.04696},
2126 {0.74464, 0.74636, 0.75200, 0.76293, 0.78405, 0.85561,
2127 0.82716, 0.81427, 0.82133, 0.86064, 1.12396},
2128 {0.82165, 0.82340, 0.82902, 0.83991, 0.86104, 0.93266,
2129 0.90414, 0.89128, 0.89834, 0.93763, 1.20100},
2130 {0.89863, 0.90042, 0.90659, 0.91705, 0.93805, 1.00960,
2131 0.98115, 0.96825, 0.97533, 1.01462, 1.27801},
2132 {0.97563, 0.97740, 0.98310, 0.99391, 1.01504, 1.08659,
2133 1.05814, 1.04526, 1.05233, 1.09163, 1.35503},
2134 {1.05276, 1.05451, 1.06002, 1.07090, 1.09099, 1.16357,
2135 1.13516, 1.12225, 1.12933, 1.16863, 1.43195},
2136 {1.12977, 1.13138, 1.13700, 1.14792, 1.16797, 1.24061,
2137 1.21212, 1.19926, 1.20626, 1.24554, 1.50900},
2138 {1.20664, 1.20839, 1.21400, 1.22490, 1.24606, 1.31772,
2139 1.28914, 1.27382, 1.28329, 1.32262, 1.58550},
2140 {1.28367, 1.28541, 1.29099, 1.30189, 1.32312, 1.39460,
2141 1.36612, 1.34924, 1.36030, 1.39961, 1.66310},
2142 {1.36064, 1.36249, 1.36799, 1.37896, 1.40004, 1.48030,
2143 1.44314, 1.43032, 1.43731, 1.47659, 1.73442},
2144 {1.43762, 1.43937, 1.44497, 1.45618, 1.47704, 1.54932,
2145 1.52012, 1.50725, 1.51430, 1.55357, 1.81708},
2146 {1.51462, 1.51937, 1.52203, 1.53316, 1.55403, 1.62572,
2147 1.59713, 1.58424, 1.59128, 1.63061, 1.89406},
2148 {1.59162, 1.59338, 1.59947, 1.60989, 1.63103, 1.70270,
2149 1.67411, 1.66124, 1.66799, 1.70759, 1.97103},
2150 {1.66874, 1.67037, 1.67597, 1.68687, 1.70814, 1.77969,
2151 1.75112, 1.73806, 1.74530, 1.78457, 2.04794},
2152 {1.74693, 1.74749, 1.75297, 1.76476, 1.78500, 1.85667,
2153 1.82811, 1.81504, 1.82101, 1.86161, 2.12492},
2154 {1.82260, 1.82437, 1.82995, 1.84174, 1.86202, 1.93372,
2155 1.90509, 1.89202, 1.89930, 1.93859, 2.20189},
2156 {1.89964, 1.90135, 1.90693, 1.91789, 1.93952, 2.01080,
2157 1.98207, 1.96921, 1.97628, 2.01384, 2.27887},
2158 {1.97662, 1.97917, 1.98611, 1.99487, 2.01601, 2.08778,
2159 2.05846, 2.04623, 2.05330, 2.09244, 2.35585},
2160 {2.05359, 2.05615, 2.06309, 2.07187, 2.09867, 2.16459,
2161 2.13610, 2.12322, 2.13029, 2.16942, 2.43199},
2162 {2.13063, 2.13233, 2.13795, 2.14886, 2.17008, 2.24199,
2163 2.21310, 2.20020, 2.20727, 2.24659, 2.50983},
2164 {2.20761, 2.20931, 2.21955, 2.22624, 2.24708, 2.32147,
2165 2.29009, 2.27725, 2.28276, 2.32359, 2.58680},
2166 {2.28459, 2.29108, 2.29202, 2.30286, 2.32007, 2.39559,
2167 2.36683, 2.35422, 2.36119, 2.40058, 2.66081},
2168 {2.36153, 2.36806, 2.36889, 2.37985, 2.40092, 2.47828,
2169 2.44381, 2.43099, 2.43819, 2.47750, 2.73779}};
2171 // Garfield simulation at UD = -1800V; vd = 1.450cm/microsec, <driftfield> = 623V/cm
2172 Float_t time1800[ktimebin][kZbin] =
2173 {{0.09166, 0.09199, 0.09300, 0.09470, 0.09709, 0.10026,
2174 0.10434, 0.10983, 0.11831, 0.13987, 0.37802},
2175 {0.06585, 0.06623, 0.06735, 0.06921, 0.07180, 0.07520,
2176 0.07941, 0.08507, 0.09376, 0.11604, 0.35624},
2177 {0.03945, 0.04004, 0.04169, 0.04432, 0.04776, 0.05187,
2178 0.05674, 0.06300, 0.07290, 0.09884, 0.34704},
2179 {0.01108, 0.01287, 0.01717, 0.02280, 0.02880, 0.03476,
2180 0.04095, 0.04909, 0.06419, 0.10589, 0.36843},
2181 {0.01115, 0.01287, 0.01720, 0.02276, 0.02862, 0.03448,
2182 0.04073, 0.04973, 0.06799, 0.11535, 0.37224},
2183 {0.03918, 0.03975, 0.04134, 0.04382, 0.04707, 0.05105,
2184 0.05603, 0.06296, 0.07605, 0.10822, 0.36560},
2185 {0.06498, 0.06532, 0.06635, 0.06809, 0.07058, 0.07395,
2186 0.07855, 0.08495, 0.09632, 0.12488, 0.37730},
2187 {0.09130, 0.09160, 0.09199, 0.09300, 0.09472, 0.00000,
2188 0.11059, 0.11747, 0.13146, 0.16462, 0.42233},
2189 {0.13364, 0.13449, 0.13767, 0.14481, 0.16147, 0.23635,
2190 0.19706, 0.18812, 0.19704, 0.23520, 0.49749},
2191 {0.19698, 0.19844, 0.20311, 0.21236, 0.23082, 0.29920,
2192 0.26936, 0.25927, 0.26732, 0.30601, 0.56871},
2193 {0.26518, 0.26670, 0.27160, 0.28099, 0.29955, 0.36597,
2194 0.33885, 0.32858, 0.33653, 0.37524, 0.63801},
2195 {0.33441, 0.33553, 0.34040, 0.34987, 0.36841, 0.43428,
2196 0.40797, 0.39763, 0.40556, 0.44425, 0.70698},
2197 {0.40296, 0.40447, 0.40934, 0.41881, 0.43737, 0.50306,
2198 0.47695, 0.46662, 0.47455, 0.51329, 0.77600},
2199 {0.47296, 0.47344, 0.47830, 0.48779, 0.50632, 0.57200,
2200 0.54593, 0.53559, 0.54351, 0.58222, 0.84489},
2201 {0.54089, 0.54264, 0.54727, 0.55673, 0.57529, 0.64094,
2202 0.61490, 0.60457, 0.61249, 0.65118, 0.91394},
2203 {0.60987, 0.61138, 0.61624, 0.62573, 0.64428, 0.70989,
2204 0.68397, 0.67354, 0.68147, 0.72015, 0.98291},
2205 {0.67883, 0.68035, 0.68521, 0.69469, 0.71324, 0.77896,
2206 0.75287, 0.74251, 0.75043, 0.78912, 1.04458},
2207 {0.74780, 0.74932, 0.75421, 0.76367, 0.78221, 0.84785,
2208 0.82185, 0.81148, 0.81941, 0.85811, 1.12085},
2209 {0.81690, 0.81830, 0.82316, 0.83263, 0.85120, 0.91683,
2210 0.89077, 0.88045, 0.88837, 0.92707, 1.18976},
2211 {0.88574, 0.88726, 0.89228, 0.90198, 0.92017, 0.98578,
2212 0.95974, 0.94947, 0.95734, 0.99604, 1.25873},
2213 {0.95493, 0.95624, 0.96110, 0.97058, 0.98913, 1.05481,
2214 1.02873, 1.01839, 1.02631, 1.06503, 1.32772},
2215 {1.02392, 1.02524, 1.03008, 1.03955, 1.05810, 1.12378,
2216 1.09757, 1.08605, 1.09530, 1.13399, 1.39669},
2217 {1.09270, 1.09418, 1.09911, 1.10854, 1.12714, 1.19281,
2218 1.16502, 1.15633, 1.16427, 1.20271, 1.46574},
2219 {1.16168, 1.16323, 1.16801, 1.17772, 1.19604, 1.26190,
2220 1.23399, 1.22531, 1.23323, 1.27194, 1.53475},
2221 {1.23061, 1.23214, 1.23698, 1.24669, 1.26503, 1.33073,
2222 1.30461, 1.29428, 1.30220, 1.34091, 1.60372},
2223 {1.29960, 1.30110, 1.30596, 1.31544, 1.33398, 1.39962,
2224 1.37228, 1.36323, 1.37121, 1.40988, 1.67273},
2225 {1.36851, 1.37007, 1.37512, 1.38441, 1.40297, 1.46865,
2226 1.44256, 1.43222, 1.44017, 1.47878, 1.74155},
2227 {1.43752, 1.43904, 1.44773, 1.45338, 1.47220, 1.53759,
2228 1.51136, 1.50119, 1.50914, 1.54775, 1.81050},
2229 {1.50646, 1.50802, 1.51288, 1.52237, 1.54097, 1.60697,
2230 1.58049, 1.57018, 1.57811, 1.61678, 1.87947},
2231 {1.57545, 1.57720, 1.58185, 1.59134, 1.60996, 1.67787,
2232 1.64929, 1.63914, 1.64707, 1.68570, 1.94851},
2233 {1.64442, 1.64617, 1.65081, 1.66035, 1.67893, 1.74684,
2234 1.71826, 1.70745, 1.71604, 1.75310, 2.01748},
2235 {1.71337, 1.71513, 1.71978, 1.72932, 1.74645, 1.81346,
2236 1.78739, 1.77642, 1.78501, 1.82151, 2.08644},
2237 {1.78238, 1.78410, 1.78876, 1.79824, 1.81678, 1.88332,
2238 1.85639, 1.84262, 1.85397, 1.89270, 2.15533},
2239 {1.85135, 1.85306, 1.85778, 1.86728, 1.88580, 1.95615,
2240 1.92536, 1.91171, 1.92283, 1.96165, 2.22428},
2241 {1.92774, 1.92184, 1.92672, 1.93618, 1.95477, 2.02048,
2242 1.99427, 1.98068, 1.99192, 2.03062, 2.29338},
2243 {1.98929, 1.99081, 1.99567, 2.00515, 2.02373, 2.08987,
2244 2.06332, 2.05249, 2.05939, 2.09928, 2.36227},
2245 {2.05829, 2.05978, 2.06464, 2.07414, 2.09272, 2.15850,
2246 2.12928, 2.12194, 2.12987, 2.16825, 2.43083},
2247 {2.12726, 2.12869, 2.13360, 2.14425, 2.16160, 2.22872,
2248 2.20118, 2.19078, 2.19876, 2.23416, 2.50007}};
2250 // Garfield simulation at UD = -1900V; vd = 1.610cm/microsec, <driftfield> = 655V/cm
2251 Float_t time1900[ktimebin][kZbin] =
2252 {{0.09166, 0.09198, 0.09298, 0.09467, 0.09707, 0.10023,
2253 0.10431, 0.10980, 0.11828, 0.13988, 0.37789},
2254 {0.06584, 0.06622, 0.06735, 0.06920, 0.07179, 0.07514,
2255 0.07938, 0.08505, 0.09374, 0.11606, 0.35599},
2256 {0.03945, 0.04002, 0.04169, 0.04432, 0.04775, 0.05185,
2257 0.05672, 0.06298, 0.07290, 0.09888, 0.34695},
2258 {0.01109, 0.01281, 0.01717, 0.02279, 0.02878, 0.03476,
2259 0.04094, 0.04909, 0.06421, 0.10597, 0.36823},
2260 {0.01115, 0.01287, 0.01720, 0.02294, 0.02862, 0.03448,
2261 0.04074, 0.04973, 0.06783, 0.11506, 0.37206},
2262 {0.03940, 0.03975, 0.04135, 0.04386, 0.04708, 0.05106,
2263 0.05604, 0.06293, 0.07592, 0.10787, 0.36484},
2264 {0.06500, 0.06534, 0.06638, 0.06811, 0.07060, 0.07413,
2265 0.07852, 0.08491, 0.09614, 0.12446, 0.37626},
2266 {0.09119, 0.09140, 0.09194, 0.09293, 0.09471, 0.00000,
2267 0.11013, 0.11685, 0.13050, 0.16302, 0.41991},
2268 {0.13111, 0.13190, 0.13466, 0.14091, 0.15554, 0.22409,
2269 0.18846, 0.18167, 0.19113, 0.22854, 0.48995},
2270 {0.18849, 0.18975, 0.19380, 0.20185, 0.21797, 0.28050,
2271 0.25368, 0.24575, 0.25446, 0.29249, 0.55442},
2272 {0.24995, 0.25125, 0.25563, 0.26366, 0.27986, 0.34065,
2273 0.31605, 0.30815, 0.31680, 0.35482, 0.61697},
2274 {0.31187, 0.31324, 0.31745, 0.32580, 0.34205, 0.40217,
2275 0.37825, 0.37031, 0.37897, 0.41696, 0.67890},
2276 {0.37401, 0.37531, 0.37955, 0.38777, 0.40395, 0.46408,
2277 0.44037, 0.43242, 0.44108, 0.47906, 0.74122},
2278 {0.43610, 0.43741, 0.44161, 0.44986, 0.46604, 0.52614,
2279 0.50248, 0.49452, 0.50316, 0.54116, 0.80326},
2280 {0.49820, 0.49988, 0.50372, 0.51196, 0.52814, 0.58822,
2281 0.56459, 0.55661, 0.56527, 0.60326, 0.86526},
2282 {0.56032, 0.56161, 0.56582, 0.57408, 0.59024, 0.65032,
2283 0.62670, 0.61872, 0.62737, 0.66537, 0.92749},
2284 {0.62240, 0.62371, 0.62792, 0.63624, 0.65236, 0.71241,
2285 0.68881, 0.68081, 0.68947, 0.72750, 0.98941},
2286 {0.68449, 0.68581, 0.69002, 0.69828, 0.71444, 0.77452,
2287 0.75089, 0.74295, 0.75157, 0.78957, 1.05157},
2288 {0.74660, 0.74790, 0.75212, 0.76036, 0.77654, 0.83748,
2289 0.81299, 0.80501, 0.81193, 0.85168, 1.11375},
2290 {0.80870, 0.81017, 0.81423, 0.82246, 0.83867, 0.89908,
2291 0.87509, 0.86660, 0.87577, 0.91376, 1.17586},
2292 {0.87080, 0.87233, 0.87632, 0.88458, 0.90074, 0.96083,
2293 0.93718, 0.92922, 0.93787, 0.97588, 1.23794},
2294 {0.93291, 0.93422, 0.93844, 0.94667, 0.96293, 1.02295,
2295 0.99929, 0.99127, 0.99997, 1.03797, 1.29995},
2296 {0.99500, 0.99645, 1.00308, 1.00877, 1.02497, 1.08504,
2297 1.06140, 1.05343, 1.06203, 1.10006, 1.36216},
2298 {1.05712, 1.05926, 1.06262, 1.07092, 1.08706, 1.14754,
2299 1.12350, 1.11550, 1.12417, 1.16218, 1.42427},
2300 {1.11921, 1.12059, 1.12473, 1.13297, 1.14916, 1.21140,
2301 1.18560, 1.17284, 1.18625, 1.22414, 1.48629},
2302 {1.18140, 1.18262, 1.18690, 1.19508, 1.21125, 1.27139,
2303 1.24164, 1.23495, 1.24838, 1.28634, 1.54852},
2304 {1.24340, 1.24473, 1.24901, 1.25732, 1.27336, 1.33358,
2305 1.30793, 1.30179, 1.31047, 1.34848, 1.61066},
2306 {1.30551, 1.30684, 1.31104, 1.32056, 1.33553, 1.39609,
2307 1.37004, 1.36392, 1.37045, 1.41057, 1.67259},
2308 {1.36755, 1.36892, 1.37315, 1.39148, 1.39755, 1.45820,
2309 1.43215, 1.42602, 1.43467, 1.47268, 1.73477},
2310 {1.42966, 1.43101, 1.43549, 1.45359, 1.45976, 1.52031,
2311 1.49601, 1.48811, 1.49677, 1.53477, 1.79691},
2312 {1.49180, 1.49321, 1.49760, 1.51570, 1.52175, 1.58185,
2313 1.55771, 1.55023, 1.55888, 1.59672, 1.85501},
2314 {1.55391, 1.55527, 1.55943, 1.57782, 1.58391, 1.64395,
2315 1.62008, 1.61233, 1.62085, 1.65883, 1.92091},
2316 {1.61599, 1.61732, 1.62154, 1.63993, 1.64612, 1.70608,
2317 1.68237, 1.67108, 1.68301, 1.72110, 1.97931},
2318 {1.67808, 1.67948, 1.68364, 1.70204, 1.70823, 1.76858,
2319 1.74404, 1.73539, 1.74512, 1.78321, 2.04522},
2320 {1.74019, 1.74152, 1.74573, 1.76415, 1.77015, 1.83040,
2321 1.80615, 1.79366, 1.80723, 1.84509, 2.10742},
2322 {1.80235, 1.80362, 1.80783, 1.82626, 1.83227, 1.89246,
2323 1.86795, 1.85405, 1.86938, 1.90720, 2.16953},
2324 {1.86442, 1.86572, 1.86994, 1.88837, 1.89438, 1.95445,
2325 1.93006, 1.92283, 1.93148, 1.96931, 2.23147},
2326 {1.92700, 1.92783, 1.93197, 1.95049, 1.95649, 2.01668,
2327 1.99217, 1.98486, 1.99352, 2.03143, 2.29358}};
2329 // Garfield simulation at UD = -2000V; vd = 1.783cm/microsec, <driftfield> = 688V/cm
2330 Float_t time2000[ktimebin][kZbin] =
2331 {{0.09176, 0.09196, 0.09296, 0.09465, 0.09704, 0.10020,
2332 0.10427, 0.10977, 0.11825, 0.13988, 0.37774},
2333 {0.06583, 0.06620, 0.06735, 0.06918, 0.07177, 0.07513,
2334 0.07936, 0.08503, 0.09372, 0.11606, 0.35586},
2335 {0.03944, 0.04001, 0.04170, 0.04431, 0.04774, 0.05184,
2336 0.05670, 0.06296, 0.07291, 0.09893, 0.34680},
2337 {0.01108, 0.01281, 0.01719, 0.02279, 0.02879, 0.03474,
2338 0.04093, 0.04908, 0.06422, 0.10605, 0.36800},
2339 {0.01114, 0.01287, 0.01720, 0.02276, 0.02863, 0.03449,
2340 0.04073, 0.04970, 0.06774, 0.11478, 0.37179},
2341 {0.03925, 0.03977, 0.04135, 0.04386, 0.04711, 0.05108,
2342 0.05604, 0.06290, 0.07580, 0.10748, 0.36386},
2343 {0.06501, 0.06536, 0.06640, 0.06814, 0.07062, 0.07398,
2344 0.07852, 0.08487, 0.09598, 0.12405, 0.37519},
2345 {0.09109, 0.09127, 0.09188, 0.09292, 0.09472, 0.00000,
2346 0.10964, 0.11630, 0.12960, 0.16150, 0.41765},
2347 {0.12898, 0.12968, 0.13209, 0.13749, 0.15034, 0.21286,
2348 0.18088, 0.17590, 0.18591, 0.22254, 0.48315},
2349 {0.18122, 0.18227, 0.18574, 0.19263, 0.20674, 0.26376,
2350 0.23960, 0.23375, 0.24316, 0.28047, 0.54179},
2351 {0.23674, 0.23784, 0.24142, 0.24847, 0.26264, 0.31810,
2352 0.29602, 0.29008, 0.29944, 0.33675, 0.59795},
2353 {0.29279, 0.29382, 0.29742, 0.30448, 0.31865, 0.37364,
2354 0.35215, 0.34629, 0.35555, 0.39286, 0.65411},
2355 {0.34875, 0.34987, 0.35346, 0.36054, 0.37472, 0.42956,
2356 0.40825, 0.40229, 0.41167, 0.44894, 0.71033},
2357 {0.40484, 0.40594, 0.40954, 0.41660, 0.43077, 0.48560,
2358 0.46433, 0.45840, 0.46772, 0.50500, 0.76632},
2359 {0.46090, 0.46201, 0.46560, 0.47267, 0.48684, 0.54167,
2360 0.52041, 0.51449, 0.52382, 0.56108, 0.82227},
2361 {0.51698, 0.51809, 0.52173, 0.52874, 0.54291, 0.59776,
2362 0.57646, 0.57052, 0.57986, 0.61717, 0.87836},
2363 {0.57306, 0.57418, 0.57782, 0.58513, 0.59899, 0.65380,
2364 0.63255, 0.62661, 0.63594, 0.67325, 0.93460},
2365 {0.62912, 0.63024, 0.63383, 0.64103, 0.65506, 0.70988,
2366 0.68484, 0.68267, 0.69202, 0.72878, 0.99046},
2367 {0.68521, 0.68633, 0.68990, 0.69699, 0.71115, 0.76595,
2368 0.74468, 0.73872, 0.74814, 0.78538, 1.04674},
2369 {0.74127, 0.74239, 0.74605, 0.75303, 0.77022, 0.82204,
2370 0.80078, 0.79484, 0.80416, 0.84147, 1.10261},
2371 {0.79736, 0.79846, 0.80206, 0.80947, 0.82330, 0.87813,
2372 0.85688, 0.85087, 0.86023, 0.89752, 1.15874},
2373 {0.85342, 0.85454, 0.85815, 0.86519, 0.87936, 0.93417,
2374 0.91293, 0.90428, 0.91631, 0.95360, 1.20760},
2375 {0.90949, 0.91061, 0.91423, 0.92128, 0.93544, 0.99026,
2376 0.96807, 0.96305, 0.97239, 1.00967, 1.27078},
2377 {0.96556, 0.96669, 0.97111, 0.97734, 0.99151, 1.04664,
2378 1.02508, 1.01879, 1.02846, 1.06167, 1.32695},
2379 {1.02167, 1.02279, 1.02656, 1.03341, 1.04759, 1.10242,
2380 1.08115, 1.07003, 1.08453, 1.12184, 1.38304},
2381 {1.07776, 1.07883, 1.08242, 1.08950, 1.10384, 1.16422,
2382 1.13725, 1.13133, 1.14061, 1.17793, 1.43910},
2383 {1.13379, 1.13492, 1.13864, 1.14567, 1.15973, 1.21455,
2384 1.19323, 1.18734, 1.19668, 1.23401, 1.49528},
2385 {1.18988, 1.19098, 1.19457, 1.20164, 1.21582, 1.27064,
2386 1.24937, 1.24044, 1.25275, 1.29004, 1.55137},
2387 {1.24592, 1.24706, 1.25087, 1.25773, 1.27188, 1.32670,
2388 1.30544, 1.29953, 1.30883, 1.34613, 1.60743},
2389 {1.30202, 1.30313, 1.30673, 1.31381, 1.32797, 1.38278,
2390 1.36151, 1.35167, 1.36490, 1.40221, 1.66306},
2391 {1.35809, 1.35921, 1.36282, 1.36986, 1.38403, 1.43888,
2392 1.41760, 1.41174, 1.42083, 1.45830, 1.71915},
2393 {1.41419, 1.41528, 1.41890, 1.42595, 1.44011, 1.49496,
2394 1.47368, 1.46769, 1.47706, 1.51436, 1.77523},
2395 {1.47131, 1.47141, 1.47494, 1.48850, 1.49620, 1.55137,
2396 1.52977, 1.51820, 1.53315, 1.57042, 1.83158},
2397 {1.52635, 1.52750, 1.53103, 1.53814, 1.55228, 1.60736,
2398 1.58503, 1.57986, 1.58920, 1.62649, 1.88767},
2399 {1.58418, 1.58355, 1.58711, 1.59526, 1.60833, 1.66316,
2400 1.63345, 1.63261, 1.64556, 1.68204, 1.94359},
2401 {1.64027, 1.63958, 1.64489, 1.65024, 1.66443, 1.71925,
2402 1.69794, 1.69201, 1.70143, 1.73865, 1.99968},
2403 {1.69450, 1.69566, 1.69940, 1.70697, 1.71841, 1.77819,
2404 1.75396, 1.74814, 1.75743, 1.79083, 2.05427},
2405 {1.75054, 1.75221, 1.75527, 1.76306, 1.77662, 1.83428,
2406 1.81006, 1.81173, 1.81345, 1.85076, 2.10289}};
2408 // Garfield simulation at UD = -2100V; vd = 1.959cm/microsec, <driftfield> = 720V/cm
2409 Float_t time2100[ktimebin][kZbin] =
2410 {{0.09160, 0.09194, 0.09294, 0.09462, 0.09701, 0.10017,
2411 0.10424, 0.10974, 0.11823, 0.13988, 0.37762},
2412 {0.06585, 0.06619, 0.06731, 0.06916, 0.07174, 0.07509,
2413 0.07933, 0.08500, 0.09370, 0.11609, 0.35565},
2414 {0.03960, 0.04001, 0.04171, 0.04430, 0.04774, 0.05182,
2415 0.05668, 0.06294, 0.07291, 0.09896, 0.34676},
2416 {0.01109, 0.01280, 0.01716, 0.02279, 0.02876, 0.03474,
2417 0.04096, 0.04908, 0.06424, 0.10612, 0.36790},
2418 {0.01114, 0.01285, 0.01719, 0.02287, 0.02863, 0.03449,
2419 0.04073, 0.04964, 0.06759, 0.11446, 0.37162},
2420 {0.03922, 0.03977, 0.04146, 0.04386, 0.04711, 0.05109,
2421 0.05605, 0.06287, 0.07575, 0.10713, 0.36298},
2422 {0.06504, 0.06538, 0.06641, 0.06818, 0.07064, 0.07426,
2423 0.07852, 0.08483, 0.09581, 0.12363, 0.37424},
2424 {0.09103, 0.09129, 0.09186, 0.09291, 0.09476, 0.00000,
2425 0.10923, 0.11578, 0.12873, 0.16005, 0.41525},
2426 {0.12723, 0.12777, 0.12988, 0.13458, 0.14579, 0.20264,
2427 0.17421, 0.17078, 0.18132, 0.21708, 0.47699},
2428 {0.17508, 0.17601, 0.17897, 0.18487, 0.19698, 0.24881,
2429 0.22737, 0.22337, 0.23348, 0.27000, 0.53032},
2430 {0.22571, 0.22663, 0.22969, 0.23570, 0.24787, 0.29826,
2431 0.27871, 0.27462, 0.28471, 0.32122, 0.58166},
2432 {0.27664, 0.27759, 0.28067, 0.28669, 0.29891, 0.34898,
2433 0.32982, 0.32570, 0.33576, 0.37229, 0.63268},
2434 {0.32766, 0.32862, 0.33170, 0.33778, 0.34988, 0.39973,
2435 0.38088, 0.37675, 0.38680, 0.42333, 0.68159},
2436 {0.37872, 0.37966, 0.38275, 0.38875, 0.40093, 0.45073,
2437 0.43192, 0.42780, 0.43786, 0.47438, 0.73480},
2438 {0.42974, 0.43070, 0.43378, 0.43982, 0.45196, 0.50177,
2439 0.48297, 0.47884, 0.48889, 0.52544, 0.78581},
2440 {0.48081, 0.48175, 0.48482, 0.49084, 0.50302, 0.55290,
2441 0.53398, 0.52988, 0.53994, 0.57647, 0.83687},
2442 {0.53645, 0.53295, 0.53586, 0.54188, 0.55408, 0.60398,
2443 0.58504, 0.58092, 0.59100, 0.62768, 0.88773},
2444 {0.58345, 0.58409, 0.58690, 0.59292, 0.60510, 0.65562,
2445 0.63609, 0.63197, 0.64203, 0.67856, 0.93907},
2446 {0.63397, 0.63490, 0.63795, 0.64403, 0.65613, 0.70612,
2447 0.68714, 0.68301, 0.69294, 0.72955, 0.99000},
2448 {0.68496, 0.68592, 0.68899, 0.69504, 0.70733, 0.75708,
2449 0.73818, 0.73405, 0.74412, 0.78064, 1.04100},
2450 {0.73600, 0.73696, 0.74003, 0.74624, 0.75828, 0.80805,
2451 0.78904, 0.78512, 0.79517, 0.83152, 1.09205},
2452 {0.78709, 0.78801, 0.79108, 0.79709, 0.80931, 0.85906,
2453 0.84027, 0.83614, 0.84621, 0.88269, 1.14058},
2454 {0.83808, 0.83905, 0.84215, 0.84816, 0.86031, 0.91011,
2455 0.89139, 0.88718, 0.89725, 0.93377, 1.19413},
2456 {0.88916, 0.89010, 0.89320, 0.89920, 0.91136, 0.96117,
2457 0.94235, 0.93822, 0.94828, 0.98480, 1.24538},
2458 {0.94036, 0.94113, 0.94422, 0.95023, 0.96241, 1.01220,
2459 0.99310, 0.98927, 0.99933, 1.03585, 1.29629},
2460 {0.99139, 0.99220, 0.99525, 1.00127, 1.01344, 1.06324,
2461 1.04451, 1.04033, 1.04836, 1.08690, 1.34727},
2462 {1.04261, 1.04325, 1.04628, 1.05232, 1.06448, 1.12090,
2463 1.09546, 1.09136, 1.10142, 1.13795, 1.39831},
2464 {1.09331, 1.09429, 1.09742, 1.10336, 1.11557, 1.16547,
2465 1.14658, 1.13642, 1.15247, 1.18898, 1.44936},
2466 {1.14436, 1.14539, 1.14847, 1.15443, 1.16662, 1.21794,
2467 1.19763, 1.19329, 1.20349, 1.23956, 1.50043},
2468 {1.19533, 1.19651, 1.19943, 1.20548, 1.21666, 1.26753,
2469 1.24862, 1.24434, 1.25455, 1.29106, 1.55142},
2470 {1.24638, 1.24756, 1.25046, 1.25648, 1.26764, 1.31858,
2471 1.29967, 1.29538, 1.30499, 1.34211, 1.60250},
2472 {1.29747, 1.29847, 1.30175, 1.30753, 1.31869, 1.36969,
2473 1.35069, 1.34656, 1.35663, 1.39316, 1.64644},
2474 {1.35537, 1.34952, 1.35255, 1.35869, 1.36973, 1.41387,
2475 1.40173, 1.39761, 1.40768, 1.44396, 1.70238},
2476 {1.39956, 1.40056, 1.40380, 1.40961, 1.42178, 1.46492,
2477 1.45278, 1.45423, 1.45872, 1.49522, 1.75557},
2478 {1.45080, 1.45159, 1.45463, 1.46109, 1.47287, 1.52263,
2479 1.50382, 1.50050, 1.50977, 1.54502, 1.80670},
2480 {1.50165, 1.50264, 1.50570, 1.51214, 1.52233, 1.57370,
2481 1.55484, 1.55155, 1.56080, 1.59731, 1.85778},
2482 {1.55269, 1.55364, 1.55675, 1.56274, 1.57491, 1.62598,
2483 1.60590, 1.60259, 1.61185, 1.64836, 1.90883},
2484 {1.60368, 1.60469, 1.60779, 1.61373, 1.62596, 1.67738,
2485 1.65651, 1.65249, 1.66290, 1.69936, 1.95959}};
2487 // Garfield simulation at UD = -2200V; vd = 2.134cm/microsec, <driftfield> = 753V/cm
2488 Float_t time2200[ktimebin][kZbin] =
2489 {{0.09162, 0.09194, 0.09292, 0.09460, 0.09702, 0.10014,
2490 0.10421, 0.10971, 0.11820, 0.13990, 0.37745},
2491 {0.06581, 0.06618, 0.06730, 0.06915, 0.07173, 0.07507,
2492 0.07931, 0.08497, 0.09368, 0.11609, 0.35560},
2493 {0.03947, 0.04001, 0.04167, 0.04429, 0.04772, 0.05183,
2494 0.05667, 0.06293, 0.07292, 0.09900, 0.34673},
2495 {0.01111, 0.01280, 0.01716, 0.02279, 0.02876, 0.03473,
2496 0.04091, 0.04907, 0.06426, 0.10620, 0.36766},
2497 {0.01113, 0.01285, 0.01719, 0.02276, 0.02863, 0.03452,
2498 0.04076, 0.04960, 0.06745, 0.11419, 0.37139},
2499 {0.03923, 0.03978, 0.04137, 0.04387, 0.04713, 0.05110,
2500 0.05605, 0.06284, 0.07551, 0.10677, 0.36210},
2501 {0.06505, 0.06540, 0.06644, 0.06820, 0.07069, 0.07401,
2502 0.07852, 0.08479, 0.09565, 0.12325, 0.37313},
2503 {0.09107, 0.09127, 0.09181, 0.09291, 0.09474, 0.00000,
2504 0.10883, 0.11528, 0.12789, 0.15865, 0.41313},
2505 {0.12559, 0.12622, 0.12800, 0.13206, 0.14166, 0.19331,
2506 0.16832, 0.16632, 0.17724, 0.21218, 0.47098},
2507 {0.16992, 0.17070, 0.17325, 0.17831, 0.18871, 0.23557,
2508 0.21690, 0.21451, 0.22514, 0.26082, 0.52034},
2509 {0.21640, 0.21722, 0.21987, 0.22500, 0.23540, 0.28097,
2510 0.26399, 0.26154, 0.27214, 0.30784, 0.56734},
2511 {0.26318, 0.26400, 0.26679, 0.27181, 0.28220, 0.32739,
2512 0.31090, 0.30842, 0.31902, 0.35474, 0.61415},
2513 {0.31001, 0.31085, 0.31348, 0.31866, 0.32903, 0.37412,
2514 0.35777, 0.35546, 0.36588, 0.40159, 0.66103},
2515 {0.35687, 0.35769, 0.36033, 0.36556, 0.37588, 0.42094,
2516 0.40523, 0.40214, 0.41273, 0.44841, 0.70785},
2517 {0.40372, 0.40457, 0.40723, 0.41234, 0.42273, 0.46778,
2518 0.45148, 0.44903, 0.45961, 0.49526, 0.75486},
2519 {0.45062, 0.45139, 0.45404, 0.45966, 0.46958, 0.51470,
2520 0.49833, 0.49584, 0.50644, 0.54211, 0.80160},
2521 {0.49742, 0.49825, 0.50088, 0.50605, 0.51644, 0.56148,
2522 0.54518, 0.54270, 0.55330, 0.58897, 0.84854},
2523 {0.54427, 0.54510, 0.54774, 0.55290, 0.56329, 0.60846,
2524 0.59203, 0.58955, 0.60014, 0.63578, 0.89528},
2525 {0.59119, 0.59199, 0.59471, 0.59975, 0.61014, 0.65533,
2526 0.63889, 0.63636, 0.64699, 0.68269, 0.94197},
2527 {0.63866, 0.63880, 0.64145, 0.64664, 0.65701, 0.70639,
2528 0.68574, 0.68325, 0.69385, 0.72949, 0.98900},
2529 {0.68483, 0.68566, 0.68831, 0.69347, 0.70386, 0.74890,
2530 0.73260, 0.73010, 0.74069, 0.77638, 1.03320},
2531 {0.73168, 0.73255, 0.73515, 0.74031, 0.75072, 0.79576,
2532 0.77117, 0.77501, 0.78755, 0.82318, 1.08006},
2533 {0.77854, 0.78310, 0.78200, 0.79525, 0.79756, 0.84281,
2534 0.81803, 0.82393, 0.83441, 0.87008, 1.12692},
2535 {0.82541, 0.82642, 0.82916, 0.83528, 0.84442, 0.89086,
2536 0.87315, 0.87079, 0.88125, 0.91694, 1.17648},
2537 {0.87226, 0.87308, 0.87602, 0.88086, 0.89128, 0.93772,
2538 0.92001, 0.91751, 0.92811, 0.95587, 1.22328},
2539 {0.91921, 0.91994, 0.92256, 0.92772, 0.94713, 0.98566,
2540 0.96690, 0.96436, 0.97495, 1.01064, 1.26882},
2541 {0.96790, 0.96679, 0.96941, 0.97463, 0.99399, 1.03001,
2542 1.01376, 1.01112, 1.02181, 1.05749, 1.31568},
2543 {1.01278, 1.01390, 1.01674, 1.02147, 1.03182, 1.07820,
2544 1.06056, 1.05798, 1.06867, 1.10433, 1.36390},
2545 {1.05964, 1.06076, 1.06331, 1.06833, 1.07870, 1.13297,
2546 1.10742, 1.10520, 1.11543, 1.15120, 1.41069},
2547 {1.10664, 1.10762, 1.10997, 1.11519, 1.12556, 1.17531,
2548 1.15427, 1.14620, 1.16229, 1.19805, 1.45758},
2549 {1.15352, 1.15421, 1.15683, 1.16218, 1.17242, 1.21910,
2550 1.20035, 1.19863, 1.20579, 1.24473, 1.50412},
2551 {1.20019, 1.20115, 1.20369, 1.20892, 1.21928, 1.26913,
2552 1.24721, 1.24549, 1.25605, 1.29159, 1.54920},
2553 {1.24707, 1.24846, 1.25052, 1.25602, 1.26608, 1.31558,
2554 1.29448, 1.29232, 1.30293, 1.33675, 1.59798},
2555 {1.29391, 1.29475, 1.29738, 1.30255, 1.31294, 1.36244,
2556 1.34167, 1.33918, 1.34979, 1.38229, 1.64496},
2557 {1.34078, 1.34304, 1.34424, 1.35565, 1.35980, 1.40930,
2558 1.38853, 1.38229, 1.39664, 1.42863, 1.69162},
2559 {1.38762, 1.38847, 1.39110, 1.39627, 1.40666, 1.45183,
2560 1.43539, 1.43289, 1.44348, 1.47549, 1.73876},
2561 {1.43524, 1.43533, 1.43796, 1.44310, 1.45371, 1.49305,
2562 1.48224, 1.47941, 1.49034, 1.52601, 1.78552},
2563 {1.48122, 1.48219, 1.48482, 1.48991, 1.50030, 1.53991,
2564 1.52898, 1.52653, 1.53653, 1.57282, 1.82386}};
2567 delete [] fTimeStruct1;
2569 fTimeStruct1 = new Float_t[ktimebin*kZbin];
2572 delete [] fTimeStruct2;
2574 fTimeStruct2 = new Float_t[ktimebin*kZbin];
2576 for (Int_t ctrt = 0; ctrt < ktimebin; ctrt++) {
2577 for (Int_t ctrz = 0; ctrz < kZbin; ctrz++) {
2578 if (vdrift > fVDsmp[6]) {
2579 fTimeStruct1[ctrt+ctrz*ktimebin] = time2100[ctrt][ctrz];
2580 fTimeStruct2[ctrt+ctrz*ktimebin] = time2200[ctrt][ctrz];
2584 else if (vdrift > fVDsmp[5]) {
2585 fTimeStruct1[ctrt+ctrz*ktimebin] = time2000[ctrt][ctrz];
2586 fTimeStruct2[ctrt+ctrz*ktimebin] = time2100[ctrt][ctrz];
2590 else if (vdrift > fVDsmp[4]) {
2591 fTimeStruct1[ctrt+ctrz*ktimebin] = time1900[ctrt][ctrz];
2592 fTimeStruct2[ctrt+ctrz*ktimebin] = time2000[ctrt][ctrz];
2596 else if (vdrift > fVDsmp[3]) {
2597 fTimeStruct1[ctrt+ctrz*ktimebin] = time1800[ctrt][ctrz];
2598 fTimeStruct2[ctrt+ctrz*ktimebin] = time1900[ctrt][ctrz];
2602 else if (vdrift > fVDsmp[2]) {
2603 fTimeStruct1[ctrt+ctrz*ktimebin] = time1700[ctrt][ctrz];
2604 fTimeStruct2[ctrt+ctrz*ktimebin] = time1800[ctrt][ctrz];
2608 else if (vdrift > fVDsmp[1]) {
2609 fTimeStruct1[ctrt+ctrz*ktimebin] = time1600[ctrt][ctrz];
2610 fTimeStruct2[ctrt+ctrz*ktimebin] = time1700[ctrt][ctrz];
2614 else if (vdrift > (fVDsmp[0] - 1.0e-5)) {
2615 fTimeStruct1[ctrt+ctrz*ktimebin] = time1500[ctrt][ctrz];
2616 fTimeStruct2[ctrt+ctrz*ktimebin] = time1600[ctrt][ctrz];
2625 //_____________________________________________________________________________
2626 void AliTRDdigitizer::RecalcDiffusion(Float_t vdrift)
2629 // Recalculates the diffusion parameters
2632 if (vdrift == fDiffLastVdrift) {
2636 AliTRDSimParam *simParam = AliTRDSimParam::Instance();
2638 AliFatal("Could not get simulation parameters");
2642 AliTRDCommonParam *commonParam = AliTRDCommonParam::Instance();
2644 AliFatal("Could not get common parameters");
2648 AliTRDcalibDB *calibration = AliTRDcalibDB::Instance();
2650 AliFatal("Could not get calibration object");
2654 fDiffLastVdrift = vdrift;
2656 if (simParam->IsXenon()) {
2659 // Vd and B-field dependent diffusion and Lorentz angle
2662 // The magnetic field strength
2663 Double_t x[3] = { 0.0, 0.0, 0.0 };
2665 gAlice->Field(x,b); // b[] is in kilo Gauss
2666 Float_t field = b[2] * 0.1; // Tesla
2671 const Int_t kNbL = 5;
2672 Float_t p0L[kNbL] = { 0.007440, 0.007493, 0.007513, 0.007672, 0.007831 };
2673 Float_t p1L[kNbL] = { 0.019252, 0.018912, 0.018636, 0.018012, 0.017343 };
2674 Float_t p2L[kNbL] = { -0.005042, -0.004926, -0.004867, -0.004650, -0.004424 };
2675 Float_t p3L[kNbL] = { 0.000195, 0.000189, 0.000195, 0.000182, 0.000169 };
2677 Int_t ibL = ((Int_t) (10 * (field - 0.15)));
2678 ibL = TMath::Max( 0,ibL);
2679 ibL = TMath::Min(kNbL,ibL);
2681 fDiffusionL = p0L[ibL]
2683 + p2L[ibL] * vdrift*vdrift
2684 + p3L[ibL] * vdrift*vdrift*vdrift;
2687 const Int_t kNbT = 5;
2688 Float_t p0T[kNbT] = { 0.009550, 0.009599, 0.009674, 0.009757, 0.009850 };
2689 Float_t p1T[kNbT] = { 0.006667, 0.006539, 0.006359, 0.006153, 0.005925 };
2690 Float_t p2T[kNbT] = { -0.000853, -0.000798, -0.000721, -0.000635, -0.000541 };
2691 Float_t p3T[kNbT] = { 0.000131, 0.000122, 0.000111, 0.000098, 0.000085 };
2693 Int_t ibT= ((Int_t) (10 * (field - 0.15)));
2694 ibT = TMath::Max( 0,ibT);
2695 ibT = TMath::Min(kNbT,ibT);
2697 fDiffusionT = p0T[ibT]
2699 + p2T[ibT] * vdrift*vdrift
2700 + p3T[ibT] * vdrift*vdrift*vdrift;
2703 fOmegaTau = calibration->GetOmegaTau(vdrift,field);
2704 if (commonParam->ExBOn()) {
2705 fLorentzFactor = 1.0 / (1.0 + fOmegaTau*fOmegaTau);
2708 fLorentzFactor = 1.0;
2713 else if (simParam->IsArgon()) {
2715 // Diffusion constants and Lorentz angle only for B = 0.5T
2716 fDiffusionL = 0.0182;
2717 fDiffusionT = 0.0159;
2718 fOmegaTau = 0.0219769;
2719 if (commonParam->ExBOn()) {
2720 fLorentzFactor = 1.0 / (1.0 + fOmegaTau*fOmegaTau);
2723 fLorentzFactor = 1.0;
2730 //_____________________________________________________________________________
2731 Float_t AliTRDdigitizer::GetDiffusionL(Float_t vdrift)
2734 // Returns the longitudinal diffusion coefficient for a given drift
2735 // velocity <vd> and a B-field <b> for Xe/CO2 (15%).
2736 // The values are according to a GARFIELD simulation.
2739 RecalcDiffusion(vdrift);
2745 //_____________________________________________________________________________
2746 Float_t AliTRDdigitizer::GetDiffusionT(Float_t vdrift)
2749 // Returns the transverse diffusion coefficient for a given drift
2750 // velocity <vd> and a B-field <b> for Xe/CO2 (15%).
2751 // The values are according to a GARFIELD simulation.
2754 RecalcDiffusion(vdrift);
2760 //_____________________________________________________________________________
2761 Int_t AliTRDdigitizer::Diffusion(Float_t vdrift, Double_t absdriftlength
2762 , Double_t &lRow, Double_t &lCol, Double_t &lTime)
2765 // Applies the diffusion smearing to the position of a single electron.
2766 // Depends on absolute drift length.
2769 RecalcDiffusion(vdrift);
2771 Float_t driftSqrt = TMath::Sqrt(absdriftlength);
2772 Float_t sigmaT = driftSqrt * fDiffusionT;
2773 Float_t sigmaL = driftSqrt * fDiffusionL;
2774 lRow = gRandom->Gaus(lRow ,sigmaT);
2775 lCol = gRandom->Gaus(lCol ,sigmaT * GetLorentzFactor(vdrift));
2776 lTime = gRandom->Gaus(lTime,sigmaL * GetLorentzFactor(vdrift));
2782 //_____________________________________________________________________________
2783 Float_t AliTRDdigitizer::GetLorentzFactor(Float_t vd)
2786 // Returns the recalculated Lorentz factor
2789 RecalcDiffusion(vd);
2791 return fLorentzFactor;
2795 //_____________________________________________________________________________
2796 Int_t AliTRDdigitizer::ExB(Float_t vdrift, Double_t driftlength, Double_t &lCol)
2799 // Applies E x B effects to the position of a single electron.
2800 // Depends on signed drift length.
2803 RecalcDiffusion(vdrift);
2805 lCol = lCol + fOmegaTau * driftlength;
2811 //_____________________________________________________________________________
2812 void AliTRDdigitizer::ZS(AliTRDarrayADC *digits)
2818 // Create the temporary digits container
2819 AliTRDarrayADC *tempDigits;
2820 tempDigits = new AliTRDarrayADC();
2821 Int_t dim4 = digits->GetNrow();
2822 Int_t dim5 = digits->GetNcol()+2;
2823 Int_t dim6 = digits->GetNtime();
2826 tempDigits->Allocate(dim4,dim5,dim6);
2828 for(Int_t row=0;row<dim4;row++)
2830 for(Int_t col=0;col<dim5;col++)
2832 for(Int_t time=0;time<dim6;time++)
2834 if(col==0||col==lim)
2836 tempDigits->SetData(row,col,time,0);
2840 tempDigits->SetData(row,col,time,digits->GetData(row,col-1,time));
2846 //Create and initialize the mcm object
2847 AliTRDmcmSim* mcmfast;
2848 mcmfast = new AliTRDmcmSim();
2849 mcmfast->StartfastZS(dim5,dim6);
2851 //Call the methods in the mcm class using the temporary array as input
2852 for(Int_t row=0;row<dim4;row++)
2854 for(Int_t col=0;col<dim5;col++)
2856 for(Int_t time=0;time<dim6;time++)
2858 mcmfast->SetData(col,time,tempDigits->GetData(row,col,time));
2862 mcmfast->ZSMapping();
2863 mcmfast->FlagDigitsArray(tempDigits,row);
2864 mcmfast->StartfastZS(dim5,dim6);
2867 //Modify the digits array to indicate suppressed values
2868 for(Int_t irow=0; irow<dim4;irow++)
2870 for(Int_t icol=1; icol<lim;icol++)
2872 for(Int_t itime=0; itime<dim6;itime++)
2874 if(tempDigits->GetData(irow,icol,itime)==-1) // If supressed in temporary array
2876 digits->SetData(irow,icol-1,itime,-1); // Supressed values indicated by -1 in the digits array