char_t* replaced by const char_t* in constructor (A. Naumann)
[u/mrichter/AliRoot.git] / TRD / AliTRDdigitizer.cxx
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f7336fa3 1/**************************************************************************
2 * Copyright(c) 1998-1999, 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
88cb7938 16/* $Id$ */
f7336fa3 17
625f5260 18////////////////////////////////////////////////////////////////////////////
19// //
20// Creates and handles digits from TRD hits //
21// //
22// Authors: C. Blume (blume@ikf.uni-frankfurt.de) //
23// C. Lippmann //
24// B. Vulpescu //
25// //
26// The following effects are included: //
27// - Diffusion //
28// - ExB effects //
29// - Gas gain including fluctuations //
30// - Pad-response (simple Gaussian approximation) //
31// - Time-response //
32// - Electronics noise //
33// - Electronics gain //
34// - Digitization //
35// //
36////////////////////////////////////////////////////////////////////////////
6798b56e 37
f7336fa3 38#include <TMath.h>
39#include <TVector.h>
40#include <TRandom.h>
94de3818 41#include <TROOT.h>
42#include <TTree.h>
793ff80c 43#include <TFile.h>
44#include <TF1.h>
abaf1f1d 45#include <TList.h>
85cbec76 46#include <TTask.h>
3becff3c 47#include <TGeoManager.h>
793ff80c 48
49#include "AliRun.h"
88cb7938 50#include "AliRunLoader.h"
51#include "AliLoader.h"
52#include "AliConfig.h"
db30bf0f 53#include "AliMagF.h"
85cbec76 54#include "AliRunDigitizer.h"
88cb7938 55#include "AliRunLoader.h"
56#include "AliLoader.h"
ad2cc20b 57#include "AliLog.h"
f7336fa3 58
59#include "AliTRD.h"
793ff80c 60#include "AliTRDhit.h"
f7336fa3 61#include "AliTRDdigitizer.h"
da581aea 62#include "AliTRDdataArrayI.h"
625f5260 63#include "AliTRDdataArrayS.h"
da581aea 64#include "AliTRDdataArrayF.h"
793ff80c 65#include "AliTRDsegmentArray.h"
da581aea 66#include "AliTRDdigitsManager.h"
793ff80c 67#include "AliTRDgeometry.h"
a5cadd36 68#include "AliTRDpadPlane.h"
3551db50 69#include "AliTRDcalibDB.h"
70#include "AliTRDSimParam.h"
71#include "AliTRDCommonParam.h"
ecf39416 72#include "AliTRDfeeParam.h"
f7336fa3 73
4329977a 74#include "Cal/AliTRDCalROC.h"
75#include "Cal/AliTRDCalDet.h"
76
f7336fa3 77ClassImp(AliTRDdigitizer)
78
79//_____________________________________________________________________________
85cbec76 80AliTRDdigitizer::AliTRDdigitizer()
4d18a639 81 :AliDigitizer()
82 ,fRunLoader(0)
83 ,fDigitsManager(0)
84 ,fSDigitsManager(0)
85 ,fSDigitsManagerList(0)
86 ,fTRD(0)
87 ,fGeo(0)
ecf39416 88 ,fFee(0)
4d18a639 89 ,fEvent(0)
90 ,fMasks(0)
91 ,fCompress(kTRUE)
92 ,fSDigits(kFALSE)
4d18a639 93 ,fMergeSignalOnly(kFALSE)
94 ,fDiffLastVdrift(0)
95 ,fDiffusionT(0.0)
96 ,fDiffusionL(0.0)
97 ,fOmegaTau(0.0)
98 ,fLorentzFactor(0.0)
99 ,fTimeLastVdrift(0)
100 ,fTimeStruct1(0)
101 ,fTimeStruct2(0)
102 ,fVDlo(0)
103 ,fVDhi(0)
f7336fa3 104{
105 //
106 // AliTRDdigitizer default constructor
107 //
3551db50 108
109 Init();
3becff3c 110
f7336fa3 111}
112
113//_____________________________________________________________________________
4d18a639 114AliTRDdigitizer::AliTRDdigitizer(const Text_t *name, const Text_t *title)
115 :AliDigitizer(name,title)
116 ,fRunLoader(0)
117 ,fDigitsManager(0)
118 ,fSDigitsManager(0)
119 ,fSDigitsManagerList(0)
120 ,fTRD(0)
121 ,fGeo(0)
ecf39416 122 ,fFee(0)
4d18a639 123 ,fEvent(0)
124 ,fMasks(0)
125 ,fCompress(kTRUE)
126 ,fSDigits(kFALSE)
4d18a639 127 ,fMergeSignalOnly(kFALSE)
128 ,fDiffLastVdrift(0)
129 ,fDiffusionT(0.0)
130 ,fDiffusionL(0.0)
131 ,fOmegaTau(0.0)
132 ,fLorentzFactor(0.0)
133 ,fTimeLastVdrift(0)
134 ,fTimeStruct1(0)
135 ,fTimeStruct2(0)
136 ,fVDlo(0)
137 ,fVDhi(0)
f7336fa3 138{
139 //
85cbec76 140 // AliTRDdigitizer constructor
141 //
142
3551db50 143 Init();
3becff3c 144
85cbec76 145}
146
147//_____________________________________________________________________________
148AliTRDdigitizer::AliTRDdigitizer(AliRunDigitizer *manager
4d18a639 149 , const Text_t *name, const Text_t *title)
150 :AliDigitizer(manager,name,title)
151 ,fRunLoader(0)
152 ,fDigitsManager(0)
153 ,fSDigitsManager(0)
154 ,fSDigitsManagerList(0)
155 ,fTRD(0)
156 ,fGeo(0)
ecf39416 157 ,fFee(0)
4d18a639 158 ,fEvent(0)
159 ,fMasks(0)
160 ,fCompress(kTRUE)
161 ,fSDigits(kFALSE)
4d18a639 162 ,fMergeSignalOnly(kFALSE)
163 ,fDiffLastVdrift(0)
164 ,fDiffusionT(0.0)
165 ,fDiffusionL(0.0)
166 ,fOmegaTau(0.0)
167 ,fLorentzFactor(0.0)
168 ,fTimeLastVdrift(0)
169 ,fTimeStruct1(0)
170 ,fTimeStruct2(0)
171 ,fVDlo(0)
172 ,fVDhi(0)
85cbec76 173{
174 //
175 // AliTRDdigitizer constructor
f7336fa3 176 //
177
3551db50 178 Init();
3becff3c 179
bfc40adc 180}
181
182//_____________________________________________________________________________
183AliTRDdigitizer::AliTRDdigitizer(AliRunDigitizer *manager)
4d18a639 184 :AliDigitizer(manager,"AliTRDdigitizer","TRD digitizer")
185 ,fRunLoader(0)
186 ,fDigitsManager(0)
187 ,fSDigitsManager(0)
188 ,fSDigitsManagerList(0)
189 ,fTRD(0)
190 ,fGeo(0)
ecf39416 191 ,fFee(0)
4d18a639 192 ,fEvent(0)
193 ,fMasks(0)
194 ,fCompress(kTRUE)
195 ,fSDigits(kFALSE)
4d18a639 196 ,fMergeSignalOnly(kFALSE)
197 ,fDiffLastVdrift(0)
198 ,fDiffusionT(0.0)
199 ,fDiffusionL(0.0)
200 ,fOmegaTau(0.0)
201 ,fLorentzFactor(0.0)
202 ,fTimeLastVdrift(0)
203 ,fTimeStruct1(0)
204 ,fTimeStruct2(0)
205 ,fVDlo(0)
206 ,fVDhi(0)
bfc40adc 207{
208 //
209 // AliTRDdigitizer constructor
210 //
211
3551db50 212 Init();
3becff3c 213
3551db50 214}
88cb7938 215
3551db50 216//_____________________________________________________________________________
217Bool_t AliTRDdigitizer::Init()
218{
3becff3c 219 //
220 // Initialize the digitizer with default values
221 //
222
85a5290f 223 fRunLoader = 0;
4487dad0 224 fDigitsManager = 0;
4487dad0 225 fSDigitsManager = 0;
85a5290f 226 fSDigitsManagerList = 0;
4487dad0 227 fTRD = 0;
228 fGeo = 0;
ecf39416 229 fFee = AliTRDfeeParam::Instance();
3becff3c 230
abaf1f1d 231 fEvent = 0;
85a5290f 232 fMasks = 0;
abaf1f1d 233 fCompress = kTRUE;
abaf1f1d 234 fSDigits = kFALSE;
4487dad0 235 fMergeSignalOnly = kFALSE;
3551db50 236
4d18a639 237 fTimeLastVdrift = -1;
238 fTimeStruct1 = 0;
239 fTimeStruct2 = 0;
240 fVDlo = 0;
241 fVDhi = 0;
3551db50 242
4d18a639 243 fDiffLastVdrift = -1;
244 fDiffusionT = 0.0;
245 fDiffusionL = 0.0;
246 fLorentzFactor = 0.0;
793ff80c 247
3551db50 248 return AliDigitizer::Init();
3becff3c 249
f7336fa3 250}
251
252//_____________________________________________________________________________
4d18a639 253AliTRDdigitizer::AliTRDdigitizer(const AliTRDdigitizer &d)
254 :AliDigitizer(d)
255 ,fRunLoader(0)
256 ,fDigitsManager(0)
257 ,fSDigitsManager(0)
258 ,fSDigitsManagerList(0)
259 ,fTRD(0)
260 ,fGeo(0)
ecf39416 261 ,fFee(0)
4d18a639 262 ,fEvent(0)
263 ,fMasks(0)
264 ,fCompress(d.fCompress)
265 ,fSDigits(d.fSDigits)
4d18a639 266 ,fMergeSignalOnly(d.fMergeSignalOnly)
267 ,fDiffLastVdrift(-1)
268 ,fDiffusionT(0.0)
269 ,fDiffusionL(0.0)
270 ,fOmegaTau(0.0)
271 ,fLorentzFactor(0.0)
272 ,fTimeLastVdrift(-1)
273 ,fTimeStruct1(0)
274 ,fTimeStruct2(0)
275 ,fVDlo(0)
276 ,fVDhi(0)
8230f242 277{
278 //
279 // AliTRDdigitizer copy constructor
280 //
281
4d18a639 282 // Do not copy timestructs, just invalidate lastvdrift.
283 // Next time they are requested, they get recalculated
284 if (((AliTRDdigitizer &) d).fTimeStruct1) {
285 delete [] ((AliTRDdigitizer &) d).fTimeStruct1;
286 ((AliTRDdigitizer &) d).fTimeStruct1 = 0;
287 }
288 if (((AliTRDdigitizer &) d).fTimeStruct2) {
289 delete [] ((AliTRDdigitizer &) d).fTimeStruct2;
290 ((AliTRDdigitizer &) d).fTimeStruct2 = 0;
291 }
8230f242 292
293}
294
295//_____________________________________________________________________________
f7336fa3 296AliTRDdigitizer::~AliTRDdigitizer()
297{
8230f242 298 //
299 // AliTRDdigitizer destructor
300 //
f7336fa3 301
abaf1f1d 302 if (fDigitsManager) {
303 delete fDigitsManager;
4d18a639 304 fDigitsManager = 0;
f7336fa3 305 }
306
4d18a639 307 if (fDigitsManager) {
308 delete fSDigitsManager;
309 fSDigitsManager = 0;
310 }
f7336fa3 311
abaf1f1d 312 if (fSDigitsManagerList) {
47b5729a 313 fSDigitsManagerList->Delete();
abaf1f1d 314 delete fSDigitsManagerList;
4487dad0 315 fSDigitsManagerList = 0;
e23fbb27 316 }
317
318 if (fMasks) {
319 delete [] fMasks;
4329977a 320 fMasks = 0;
e23fbb27 321 }
322
4d18a639 323 if (fTimeStruct1) {
324 delete [] fTimeStruct1;
325 fTimeStruct1 = 0;
3551db50 326 }
327
4d18a639 328 if (fTimeStruct2) {
329 delete [] fTimeStruct2;
330 fTimeStruct2 = 0;
3551db50 331 }
3becff3c 332
f162af62 333 if (fGeo) {
334 delete fGeo;
335 fGeo = 0;
336 }
337
f7336fa3 338}
339
340//_____________________________________________________________________________
dd9a6ee3 341AliTRDdigitizer &AliTRDdigitizer::operator=(const AliTRDdigitizer &d)
342{
343 //
344 // Assignment operator
345 //
346
625f5260 347 if (this != &d) {
348 ((AliTRDdigitizer &) d).Copy(*this);
349 }
4d18a639 350
dd9a6ee3 351 return *this;
352
353}
354
355//_____________________________________________________________________________
e0d47c25 356void AliTRDdigitizer::Copy(TObject &d) const
8230f242 357{
358 //
359 // Copy function
360 //
361
85a5290f 362 ((AliTRDdigitizer &) d).fRunLoader = 0;
4487dad0 363 ((AliTRDdigitizer &) d).fDigitsManager = 0;
85a5290f 364 ((AliTRDdigitizer &) d).fSDigitsManager = 0;
365 ((AliTRDdigitizer &) d).fSDigitsManagerList = 0;
4487dad0 366 ((AliTRDdigitizer &) d).fTRD = 0;
367 ((AliTRDdigitizer &) d).fGeo = 0;
ecf39416 368 ((AliTRDdigitizer &) d).fFee = fFee;
85a5290f 369 ((AliTRDdigitizer &) d).fEvent = 0;
370 ((AliTRDdigitizer &) d).fMasks = 0;
abaf1f1d 371 ((AliTRDdigitizer &) d).fCompress = fCompress;
abaf1f1d 372 ((AliTRDdigitizer &) d).fSDigits = fSDigits;
4487dad0 373 ((AliTRDdigitizer &) d).fMergeSignalOnly = fMergeSignalOnly;
0c24ba98 374
3551db50 375 AliTRDdigitizer& target = (AliTRDdigitizer &) d;
376
3becff3c 377 // Do not copy timestructs, just invalidate lastvdrift.
378 // Next time they are requested, they get recalculated
4d18a639 379 if (target.fTimeStruct1) {
95867fd1 380 delete [] target.fTimeStruct1;
4d18a639 381 target.fTimeStruct1 = 0;
3551db50 382 }
4d18a639 383 if (target.fTimeStruct2) {
95867fd1 384 delete [] target.fTimeStruct2;
4d18a639 385 target.fTimeStruct2 = 0;
3becff3c 386 }
4d18a639 387 target.fTimeLastVdrift = -1;
3becff3c 388
e23fbb27 389}
390
391//_____________________________________________________________________________
4d18a639 392void AliTRDdigitizer::Exec(Option_t *option)
e23fbb27 393{
394 //
395 // Executes the merging
396 //
397
398 Int_t iInput;
399
400 AliTRDdigitsManager *sdigitsManager;
401
402 TString optionString = option;
403 if (optionString.Contains("deb")) {
9afbd7de 404 AliLog::SetClassDebugLevel("AliTRDdigitizer",1);
7925de54 405 AliInfo("Called with debug option");
e23fbb27 406 }
407
cec4059b 408 // The AliRoot file is already connected by the manager
625f5260 409 AliRunLoader *inrl = 0x0;
88cb7938 410
9afbd7de 411 if (gAlice) {
7925de54 412 AliDebug(1,"AliRun object found on file.");
9afbd7de 413 }
4487dad0 414 else {
88cb7938 415 inrl = AliRunLoader::GetRunLoader(fManager->GetInputFolderName(0));
416 inrl->LoadgAlice();
417 gAlice = inrl->GetAliRun();
9afbd7de 418 if (!gAlice) {
7925de54 419 AliError("Could not find AliRun object.")
9afbd7de 420 return;
421 }
4487dad0 422 }
cec4059b 423
e23fbb27 424 Int_t nInput = fManager->GetNinputs();
4d18a639 425 fMasks = new Int_t[nInput];
e23fbb27 426 for (iInput = 0; iInput < nInput; iInput++) {
427 fMasks[iInput] = fManager->GetMask(iInput);
428 }
e23fbb27 429
9afbd7de 430 //
e23fbb27 431 // Initialization
9afbd7de 432 //
e23fbb27 433
95867fd1 434 AliRunLoader *orl = AliRunLoader::GetRunLoader(fManager->GetOutputFolderName());
435
67c67368 436 if (InitDetector()) {
9afbd7de 437
95867fd1 438 AliLoader *ogime = orl->GetLoader("TRDLoader");
67c67368 439
95867fd1 440 TTree *tree = 0;
9afbd7de 441 if (fSDigits) {
442 // If we produce SDigits
443 tree = ogime->TreeS();
444 if (!tree) {
445 ogime->MakeTree("S");
67c67368 446 tree = ogime->TreeS();
67c67368 447 }
9afbd7de 448 }
449 else {
450 // If we produce Digits
451 tree = ogime->TreeD();
452 if (!tree) {
453 ogime->MakeTree("D");
454 tree = ogime->TreeD();
67c67368 455 }
9afbd7de 456 }
457
67c67368 458 MakeBranch(tree);
9afbd7de 459
67c67368 460 }
461
e23fbb27 462 for (iInput = 0; iInput < nInput; iInput++) {
463
7925de54 464 AliDebug(1,Form("Add input stream %d",iInput));
e23fbb27 465
9afbd7de 466 // Check if the input tree exists
88cb7938 467 inrl = AliRunLoader::GetRunLoader(fManager->GetInputFolderName(iInput));
4d18a639 468 AliLoader *gime = inrl->GetLoader("TRDLoader");
88cb7938 469
4d18a639 470 TTree *treees = gime->TreeS();
9afbd7de 471 if (treees == 0x0) {
472 if (gime->LoadSDigits()) {
473 AliError(Form("Error Occured while loading S. Digits for input %d.",iInput));
474 return;
475 }
4d18a639 476 treees = gime->TreeS();
9afbd7de 477 }
88cb7938 478
479 if (treees == 0x0) {
7925de54 480 AliError(Form("Input stream %d does not exist",iInput));
c57e2264 481 return;
482 }
483
e23fbb27 484 // Read the s-digits via digits manager
485 sdigitsManager = new AliTRDdigitsManager();
e23fbb27 486 sdigitsManager->SetSDigits(kTRUE);
88cb7938 487
4d18a639 488 AliRunLoader *rl = AliRunLoader::GetRunLoader(fManager->GetInputFolderName(iInput));
489 AliLoader *gimme = rl->GetLoader("TRDLoader");
490 if (!gimme->TreeS()) {
491 gimme->LoadSDigits();
492 }
88cb7938 493 sdigitsManager->ReadDigits(gimme->TreeS());
e23fbb27 494
495 // Add the s-digits to the input list
496 AddSDigitsManager(sdigitsManager);
497
498 }
499
500 // Convert the s-digits to normal digits
7925de54 501 AliDebug(1,"Do the conversion");
e23fbb27 502 SDigits2Digits();
503
504 // Store the digits
7925de54 505 AliDebug(1,"Write the digits");
e23fbb27 506 fDigitsManager->WriteDigits();
88cb7938 507
9afbd7de 508 // Write parameters
67c67368 509 orl->CdGAFile();
67c67368 510
7925de54 511 AliDebug(1,"Done");
e23fbb27 512
b1113c6b 513 DeleteSDigitsManager();
514
e23fbb27 515}
516
517//_____________________________________________________________________________
e23fbb27 518Bool_t AliTRDdigitizer::Open(const Char_t *file, Int_t nEvent)
f7336fa3 519{
520 //
521 // Opens a ROOT-file with TRD-hits and reads in the hit-tree
522 //
f7336fa3 523 // Connect the AliRoot file containing Geometry, Kine, and Hits
3becff3c 524 //
f540341d 525
e191bb57 526 TString evfoldname = AliConfig::GetDefaultEventFolderName();
9afbd7de 527
f540341d 528 fRunLoader = AliRunLoader::GetRunLoader(evfoldname);
9afbd7de 529 if (!fRunLoader) {
530 fRunLoader = AliRunLoader::Open(file,evfoldname,"UPDATE");
531 }
9afbd7de 532 if (!fRunLoader) {
95867fd1 533 AliError(Form("Can not open session for file %s.",file));
534 return kFALSE;
535 }
536
537 if (!fRunLoader->GetAliRun()) {
538 fRunLoader->LoadgAlice();
539 }
540 gAlice = fRunLoader->GetAliRun();
541
542 if (gAlice) {
7925de54 543 AliDebug(1,"AliRun object found on file.");
95867fd1 544 }
545 else {
7925de54 546 AliError("Could not find AliRun object.");
95867fd1 547 return kFALSE;
548 }
549
550 fEvent = nEvent;
551
552 AliLoader *loader = fRunLoader->GetLoader("TRDLoader");
553 if (!loader) {
554 AliError("Can not get TRD loader from Run Loader");
555 return kFALSE;
556 }
557
558 if (InitDetector()) {
559 TTree *tree = 0;
560 if (fSDigits) {
561 // If we produce SDigits
562 tree = loader->TreeS();
563 if (!tree) {
564 loader->MakeTree("S");
565 tree = loader->TreeS();
566 }
567 }
568 else {
569 // If we produce Digits
570 tree = loader->TreeD();
571 if (!tree) {
572 loader->MakeTree("D");
573 tree = loader->TreeD();
574 }
575 }
576 return MakeBranch(tree);
577 }
578 else {
579 return kFALSE;
580 }
581
582}
583
584//_____________________________________________________________________________
585Bool_t AliTRDdigitizer::Open(AliRunLoader *runLoader, Int_t nEvent)
586{
587 //
588 // Opens a ROOT-file with TRD-hits and reads in the hit-tree
589 //
590 // Connect the AliRoot file containing Geometry, Kine, and Hits
591 //
592
593 fRunLoader = runLoader;
594 if (!fRunLoader) {
595 AliError("RunLoader does not exist");
596 return kFALSE;
4d18a639 597 }
88cb7938 598
9afbd7de 599 if (!fRunLoader->GetAliRun()) {
600 fRunLoader->LoadgAlice();
601 }
88cb7938 602 gAlice = fRunLoader->GetAliRun();
603
da581aea 604 if (gAlice) {
7925de54 605 AliDebug(1,"AliRun object found on file.");
da581aea 606 }
607 else {
7925de54 608 AliError("Could not find AliRun object.");
da581aea 609 return kFALSE;
610 }
f7336fa3 611
612 fEvent = nEvent;
613
4d18a639 614 AliLoader *loader = fRunLoader->GetLoader("TRDLoader");
9afbd7de 615 if (!loader) {
616 AliError("Can not get TRD loader from Run Loader");
617 return kFALSE;
618 }
88cb7938 619
abaf1f1d 620 if (InitDetector()) {
4d18a639 621 TTree *tree = 0;
9afbd7de 622 if (fSDigits) {
623 // If we produce SDigits
624 tree = loader->TreeS();
625 if (!tree) {
626 loader->MakeTree("S");
627 tree = loader->TreeS();
4d18a639 628 }
9afbd7de 629 }
630 else {
631 // If we produce Digits
95867fd1 632 tree = loader->TreeD();
9afbd7de 633 if (!tree) {
634 loader->MakeTree("D");
635 tree = loader->TreeD();
4d18a639 636 }
9afbd7de 637 }
88cb7938 638 return MakeBranch(tree);
abaf1f1d 639 }
640 else {
641 return kFALSE;
642 }
793ff80c 643
644}
645
646//_____________________________________________________________________________
647Bool_t AliTRDdigitizer::InitDetector()
648{
649 //
650 // Sets the pointer to the TRD detector and the geometry
651 //
652
dd9a6ee3 653 // Get the pointer to the detector class and check for version 1
4487dad0 654 fTRD = (AliTRD *) gAlice->GetDetector("TRD");
cec4059b 655 if (!fTRD) {
7925de54 656 AliFatal("No TRD module found");
cec4059b 657 exit(1);
658 }
dd9a6ee3 659 if (fTRD->IsVersion() != 1) {
7925de54 660 AliFatal("TRD must be version 1 (slow simulator)");
dd9a6ee3 661 exit(1);
662 }
663
664 // Get the geometry
f162af62 665 fGeo = new AliTRDgeometry();
dd9a6ee3 666
abaf1f1d 667 // Create a digits manager
625f5260 668 if (fDigitsManager) {
669 delete fDigitsManager;
670 }
abaf1f1d 671 fDigitsManager = new AliTRDdigitsManager();
672 fDigitsManager->SetSDigits(fSDigits);
673 fDigitsManager->CreateArrays();
674 fDigitsManager->SetEvent(fEvent);
abaf1f1d 675
676 // The list for the input s-digits manager to be merged
47b5729a 677 if (fSDigitsManagerList) {
678 fSDigitsManagerList->Delete();
3becff3c 679 }
680 else {
47b5729a 681 fSDigitsManagerList = new TList();
682 }
abaf1f1d 683
4487dad0 684 return kTRUE;
f7336fa3 685
686}
687
688//_____________________________________________________________________________
95867fd1 689Bool_t AliTRDdigitizer::MakeBranch(TTree *tree) const
6244debe 690{
abaf1f1d 691 //
692 // Create the branches for the digits array
6244debe 693 //
694
88cb7938 695 return fDigitsManager->MakeBranch(tree);
6244debe 696
697}
698
699//_____________________________________________________________________________
625f5260 700void AliTRDdigitizer::AddSDigitsManager(AliTRDdigitsManager *man)
701{
702 //
703 // Add a digits manager for s-digits to the input list.
704 //
705
706 fSDigitsManagerList->Add(man);
707
708}
709
710//_____________________________________________________________________________
711void AliTRDdigitizer::DeleteSDigitsManager()
712{
713 //
714 // Removes digits manager from the input list.
715 //
716
717 fSDigitsManagerList->Delete();
718
719}
720
721//_____________________________________________________________________________
f7336fa3 722Bool_t AliTRDdigitizer::MakeDigits()
723{
724 //
872a7aba 725 // Creates digits.
f7336fa3 726 //
727
625f5260 728 AliDebug(1,"Start creating digits");
729
730 if (!fGeo) {
731 AliError("No geometry defined");
732 return kFALSE;
733 }
f7336fa3 734
625f5260 735 AliTRDcalibDB *calibration = AliTRDcalibDB::Instance();
736 if (!calibration) {
737 AliFatal("Could not get calibration object");
738 return kFALSE;
739 }
740
741 const Int_t kNdet = AliTRDgeometry::Ndet();
742
743 Float_t **hits = new Float_t*[kNdet];
744 Int_t *nhit = new Int_t[kNdet];
745
746 AliTRDdataArrayF *signals = 0x0;
747
748 // Sort all hits according to detector number
749 if (!SortHits(hits,nhit)) {
750 AliError("Sorting hits failed");
751 return kFALSE;
752 }
753
754 // Loop through all detectors
755 for (Int_t det = 0; det < kNdet; det++) {
756
757 // Detectors that are switched off, not installed, etc.
758 if (( calibration->IsChamberInstalled(det)) &&
759 (!calibration->IsChamberMasked(det)) &&
760 ( fGeo->ChamberInGeometry(det)) &&
761 (nhit[det] > 0)) {
762
763 signals = new AliTRDdataArrayF();
764
765 // Convert the hits of the current detector to detector signals
766 if (!ConvertHits(det,hits[det],nhit[det],signals)) {
767 AliError(Form("Conversion of hits failed for detector=%d",det));
768 return kFALSE;
769 }
770 // Convert the detector signals to digits or s-digits
771 if (!ConvertSignals(det,signals)) {
772 AliError(Form("Conversion of signals failed for detector=%d",det));
773 return kFALSE;
774 }
775
776 // Delete the signals array
777 delete signals;
778 signals = 0x0;
779
780 } // if: detector status
781
782 } // for: detector
783
784 delete [] hits;
785 delete [] nhit;
786
787 return kTRUE;
788
789}
790
791//_____________________________________________________________________________
792Bool_t AliTRDdigitizer::SortHits(Float_t **hits, Int_t *nhit)
793{
794 //
795 // Read all the hits and sorts them according to detector number
796 // in the output array <hits>.
797 //
798
799 AliDebug(1,"Start sorting hits");
800
801 const Int_t kNdet = AliTRDgeometry::Ndet();
802 // Size of the hit vector
803 const Int_t kNhit = 6;
804
805 Float_t *xyz = 0;
806 Int_t nhitTrk = 0;
807
808 Int_t *lhit = new Int_t[kNdet];
809
810 for (Int_t det = 0; det < kNdet; det++) {
811 lhit[det] = 0;
812 nhit[det] = 0;
813 hits[det] = 0;
814 }
815
816 AliLoader *gimme = fRunLoader->GetLoader("TRDLoader");
817 if (!gimme->TreeH()) {
818 gimme->LoadHits();
819 }
820 TTree *hitTree = gimme->TreeH();
821 if (hitTree == 0x0) {
822 AliError("Can not get TreeH");
823 return kFALSE;
824 }
825 fTRD->SetTreeAddress();
826
827 // Get the number of entries in the hit tree
828 // (Number of primary particles creating a hit somewhere)
829 Int_t nTrk = (Int_t) hitTree->GetEntries();
830 AliDebug(1,Form("Found %d tracks",nTrk));
831
832 // Loop through all the tracks in the tree
833 for (Int_t iTrk = 0; iTrk < nTrk; iTrk++) {
834
835 gAlice->ResetHits();
836 hitTree->GetEvent(iTrk);
837
838 if (!fTRD->Hits()) {
839 AliError(Form("No hits array for track = %d",iTrk));
840 continue;
841 }
842
843 // Number of hits for this track
844 nhitTrk = fTRD->Hits()->GetEntriesFast();
845
846 Int_t hitCnt = 0;
847 // Loop through the TRD hits
848 AliTRDhit *hit = (AliTRDhit *) fTRD->FirstHit(-1);
849 while (hit) {
850
851 hitCnt++;
852
853 // Don't analyze test hits
854 if (((Int_t) hit->GetCharge()) != 0) {
855
856 Int_t trk = hit->Track();
857 Int_t det = hit->GetDetector();
858 Int_t q = hit->GetCharge();
859 Float_t x = hit->X();
860 Float_t y = hit->Y();
861 Float_t z = hit->Z();
862 Float_t time = hit->GetTime();
863
864 if (nhit[det] == lhit[det]) {
865 // Inititialization of new detector
866 xyz = new Float_t[kNhit*(nhitTrk+lhit[det])];
867 if (hits[det]) {
868 memcpy(xyz,hits[det],sizeof(Float_t)*kNhit*lhit[det]);
869 delete [] hits[det];
870 }
871 lhit[det] += nhitTrk;
872 hits[det] = xyz;
873 }
874 else {
875 xyz = hits[det];
876 }
877 xyz[nhit[det]*kNhit+0] = x;
878 xyz[nhit[det]*kNhit+1] = y;
879 xyz[nhit[det]*kNhit+2] = z;
880 xyz[nhit[det]*kNhit+3] = q;
881 xyz[nhit[det]*kNhit+4] = trk;
882 xyz[nhit[det]*kNhit+5] = time;
883 nhit[det]++;
884
885 } // if: charge != 0
886
887 hit = (AliTRDhit *) fTRD->NextHit();
888
889 } // for: hits of one track
890
891 } // for: tracks
892
893 delete [] lhit;
894
895 return kTRUE;
896
897}
f7336fa3 898
625f5260 899//_____________________________________________________________________________
900Bool_t AliTRDdigitizer::ConvertHits(Int_t det, Float_t *hits, Int_t nhit
901 , AliTRDdataArrayF *signals)
902{
903 //
904 // Converts the detectorwise sorted hits to detector signals
905 //
906
907 AliDebug(1,Form("Start converting hits for detector=%d (nhits=%d)",det,nhit));
f7336fa3 908
793ff80c 909 // Number of pads included in the pad response
a5cadd36 910 const Int_t kNpad = 3;
793ff80c 911 // Number of track dictionary arrays
625f5260 912 const Int_t kNdict = AliTRDdigitsManager::kNDict;
913 // Size of the hit vector
914 const Int_t kNhit = 6;
793ff80c 915
4329977a 916 // Width of the amplification region
917 const Float_t kAmWidth = AliTRDgeometry::AmThick();
3becff3c 918 // Width of the drift region
ccb4315c 919 const Float_t kDrWidth = AliTRDgeometry::DrThick();
4329977a 920 // Drift + amplification region
921 const Float_t kDrMin = - 0.5 * kAmWidth;
922 const Float_t kDrMax = kDrWidth + 0.5 * kAmWidth;
3551db50 923
625f5260 924 Int_t iPad = 0;
925 Int_t dict = 0;
926 Int_t timeBinTRFend = 1;
872a7aba 927
a5cadd36 928 Double_t pos[3];
4329977a 929 Double_t loc[3];
a5cadd36 930 Double_t padSignal[kNpad];
931 Double_t signalOld[kNpad];
872a7aba 932
625f5260 933 AliTRDdataArrayI *dictionary[kNdict];
4329977a 934
9afbd7de 935 AliTRDSimParam *simParam = AliTRDSimParam::Instance();
9afbd7de 936 AliTRDCommonParam *commonParam = AliTRDCommonParam::Instance();
625f5260 937 AliTRDcalibDB *calibration = AliTRDcalibDB::Instance();
938
3becff3c 939 if (!commonParam) {
4329977a 940 AliFatal("Could not get common parameterss");
3551db50 941 return kFALSE;
942 }
625f5260 943 if (!simParam) {
944 AliFatal("Could not get simulation parameters");
945 return kFALSE;
946 }
3becff3c 947 if (!calibration) {
4329977a 948 AliFatal("Could not get calibration object");
3551db50 949 return kFALSE;
950 }
951
625f5260 952 // Get the detector wise calibration objects
953 AliTRDCalROC *calVdriftROC = 0;
954 Float_t calVdriftDetValue = 0.0;
955 const AliTRDCalDet *calVdriftDet = calibration->GetVdriftDet();
956 AliTRDCalROC *calT0ROC = 0;
957 Float_t calT0DetValue = 0.0;
958 const AliTRDCalDet *calT0Det = calibration->GetT0Det();
4329977a 959
4329977a 960 if (simParam->TRFOn()) {
961 timeBinTRFend = ((Int_t) (simParam->GetTRFhi()
962 * commonParam->GetSamplingFrequency())) - 1;
4329977a 963 }
964
3becff3c 965 Int_t nTimeTotal = calibration->GetNumberOfTimeBins();
b43a3e17 966 Float_t samplingRate = commonParam->GetSamplingFrequency();
4329977a 967 Float_t elAttachProp = simParam->GetElAttachProp() / 100.0;
a328fff9 968
625f5260 969 AliTRDpadPlane *padPlane = fGeo->GetPadPlane(det);
970 Int_t plane = fGeo->GetPlane(det);
971 Float_t row0 = padPlane->GetRow0ROC();
972 Int_t nRowMax = padPlane->GetNrows();
973 Int_t nColMax = padPlane->GetNcols();
974
975 // Create a new array for the signals
976 signals->Allocate(nRowMax,nColMax,nTimeTotal);
977
978 // Create a new array for the dictionary
979 for (dict = 0; dict < kNdict; dict++) {
980 dictionary[dict] = (AliTRDdataArrayI *) fDigitsManager->GetDictionary(det,dict);
981 dictionary[dict]->Allocate(nRowMax,nColMax,nTimeTotal);
982 }
983
984 // Loop through the hits in this detector
985 for (Int_t hit = 0; hit < nhit; hit++) {
986
987 pos[0] = hits[hit*kNhit+0];
988 pos[1] = hits[hit*kNhit+1];
989 pos[2] = hits[hit*kNhit+2];
990 Float_t q = hits[hit*kNhit+3];
991 Float_t hittime = hits[hit*kNhit+5];
992 Int_t track = ((Int_t) hits[hit*kNhit+4]);
993
994 Int_t inDrift = 1;
995
996 // Find the current volume with the geo manager
997 gGeoManager->SetCurrentPoint(pos);
998 gGeoManager->FindNode();
999 if (strstr(gGeoManager->GetPath(),"/UK")) {
1000 inDrift = 0;
1001 }
793ff80c 1002
625f5260 1003 // Get the calibration objects
1004 calVdriftROC = calibration->GetVdriftROC(det);
1005 calVdriftDetValue = calVdriftDet->GetValue(det);
1006 calT0ROC = calibration->GetT0ROC(det);
1007 calT0DetValue = calT0Det->GetValue(det);
1008
1009 // Go to the local coordinate system:
1010 // loc[0] - col direction in amplification or driftvolume
1011 // loc[1] - row direction in amplification or driftvolume
1012 // loc[2] - time direction in amplification or driftvolume
1013 gGeoManager->MasterToLocal(pos,loc);
1014 if (inDrift) {
1015 // Relative to middle of amplification region
1016 loc[2] = loc[2] - kDrWidth/2.0 - kAmWidth/2.0;
1017 }
793ff80c 1018
625f5260 1019 // The driftlength [cm] (w/o diffusion yet !).
1020 // It is negative if the hit is between pad plane and anode wires.
1021 Double_t driftlength = -1.0 * loc[2];
e23fbb27 1022
625f5260 1023 // Stupid patch to take care of TR photons that are absorbed
1024 // outside the chamber volume. A real fix would actually need
1025 // a more clever implementation of the TR hit generation
1026 if (q < 0.0) {
1027 if ((loc[1] < padPlane->GetRowEndROC()) ||
1028 (loc[1] > padPlane->GetRow0ROC())) {
f881dc35 1029 continue;
1030 }
625f5260 1031 if ((driftlength < kDrMin) ||
1032 (driftlength > kDrMax)) {
1033 continue;
4329977a 1034 }
625f5260 1035 }
f881dc35 1036
625f5260 1037 // Get row and col of unsmeared electron to retrieve drift velocity
1038 // The pad row (z-direction)
1039 Int_t rowE = padPlane->GetPadRowNumberROC(loc[1]);
1040 if (rowE < 0) {
1041 continue;
1042 }
1043 Double_t rowOffset = padPlane->GetPadRowOffsetROC(rowE,loc[1]);
1044 // The pad column (rphi-direction)
1045 Double_t offsetTilt = padPlane->GetTiltOffset(rowOffset);
1046 Int_t colE = padPlane->GetPadColNumber(loc[0]+offsetTilt);
1047 if (colE < 0) {
1048 continue;
1049 }
1050 Double_t colOffset = padPlane->GetPadColOffset(colE,loc[0]+offsetTilt);
f881dc35 1051
625f5260 1052 // Normalized drift length
1053 Float_t driftvelocity = calVdriftDetValue * calVdriftROC->GetValue(colE,rowE);
1054 Double_t absdriftlength = TMath::Abs(driftlength);
1055 if (commonParam->ExBOn()) {
1056 absdriftlength /= TMath::Sqrt(GetLorentzFactor(driftvelocity));
1057 }
1058
1059 // Loop over all electrons of this hit
1060 // TR photons produce hits with negative charge
1061 Int_t nEl = ((Int_t) TMath::Abs(q));
1062 for (Int_t iEl = 0; iEl < nEl; iEl++) {
1063
1064 // Now the real local coordinate system of the ROC
1065 // column direction: locC
1066 // row direction: locR
1067 // time direction: locT
1068 // locR and locC are identical to the coordinates of the corresponding
1069 // volumina of the drift or amplification region.
1070 // locT is defined relative to the wire plane (i.e. middle of amplification
1071 // region), meaming locT = 0, and is negative for hits coming from the
1072 // drift region.
1073 Double_t locC = loc[0];
1074 Double_t locR = loc[1];
1075 Double_t locT = loc[2];
1076
1077 // Electron attachment
1078 if (simParam->ElAttachOn()) {
1079 if (gRandom->Rndm() < (absdriftlength * elAttachProp)) {
1080 continue;
f881dc35 1081 }
625f5260 1082 }
1083
1084 // Apply the diffusion smearing
1085 if (simParam->DiffusionOn()) {
1086 if (!(Diffusion(driftvelocity,absdriftlength,locR,locC,locT))) {
1087 continue;
f881dc35 1088 }
f881dc35 1089 }
793ff80c 1090
625f5260 1091 // Apply E x B effects (depends on drift direction)
1092 if (commonParam->ExBOn()) {
1093 if (!(ExB(driftvelocity,driftlength,locC))) {
4329977a 1094 continue;
1095 }
729161c5 1096 }
1097
625f5260 1098 // The electron position after diffusion and ExB in pad coordinates.
4329977a 1099 // The pad row (z-direction)
625f5260 1100 rowE = padPlane->GetPadRowNumberROC(locR);
1101 if (rowE < 0) continue;
1102 rowOffset = padPlane->GetPadRowOffsetROC(rowE,locR);
4329977a 1103
1104 // The pad column (rphi-direction)
625f5260 1105 offsetTilt = padPlane->GetTiltOffset(rowOffset);
1106 colE = padPlane->GetPadColNumber(locC+offsetTilt);
1107 if (colE < 0) continue;
1108 colOffset = padPlane->GetPadColOffset(colE,locC+offsetTilt);
1109
1110 // Also re-retrieve drift velocity because col and row may have changed
1111 driftvelocity = calVdriftDetValue * calVdriftROC->GetValue(colE,rowE);
1112 Float_t t0 = calT0DetValue + calT0ROC->GetValue(colE,rowE);
1113
1114 // Convert the position to drift time [mus], using either constant drift velocity or
1115 // time structure of drift cells (non-isochronity, GARFIELD calculation).
1116 // Also add absolute time of hits to take pile-up events into account properly
1117 Double_t drifttime;
1118 if (simParam->TimeStructOn()) {
1119 // Get z-position with respect to anode wire
1120 Double_t zz = row0 - locR + simParam->GetAnodeWireOffset();
1121 zz -= ((Int_t)(2 * zz)) / 2.0;
1122 if (zz > 0.25) {
1123 zz = 0.5 - zz;
1124 }
1125 // Use drift time map (GARFIELD)
1126 drifttime = TimeStruct(driftvelocity,0.5*kAmWidth-1.0*locT,zz)
1127 + hittime;
1128 }
1129 else {
1130 // Use constant drift velocity
1131 drifttime = -1.0 * locT / driftvelocity
1132 + hittime;
4329977a 1133 }
625f5260 1134
1135 // Apply the gas gain including fluctuations
1136 Double_t ggRndm = 0.0;
1137 do {
1138 ggRndm = gRandom->Rndm();
1139 } while (ggRndm <= 0);
1140 Int_t signal = (Int_t) (-(simParam->GetGasGain()) * TMath::Log(ggRndm));
1141
1142 // Apply the pad response
1143 if (simParam->PRFOn()) {
1144 // The distance of the electron to the center of the pad
1145 // in units of pad width
1146 Double_t dist = (colOffset - 0.5*padPlane->GetColSize(colE))
1147 / padPlane->GetColSize(colE);
1148 // This is a fixed parametrization, i.e. not dependent on
1149 // calibration values !
1150 if (!(calibration->PadResponse(signal,dist,plane,padSignal))) continue;
1151 }
1152 else {
1153 padSignal[0] = 0.0;
1154 padSignal[1] = signal;
1155 padSignal[2] = 0.0;
4329977a 1156 }
f881dc35 1157
625f5260 1158 // The time bin (always positive), with t0 distortion
1159 Double_t timeBinIdeal = drifttime * samplingRate + t0;
1160 // Protection
1161 if (TMath::Abs(timeBinIdeal) > 2*nTimeTotal) {
1162 timeBinIdeal = 2 * nTimeTotal;
1163 }
1164 Int_t timeBinTruncated = ((Int_t) timeBinIdeal);
1165 // The distance of the position to the middle of the timebin
1166 Double_t timeOffset = ((Float_t) timeBinTruncated
1167 + 0.5 - timeBinIdeal) / samplingRate;
3551db50 1168
625f5260 1169 // Sample the time response inside the drift region
1170 // + additional time bins before and after.
1171 // The sampling is done always in the middle of the time bin
1172 for (Int_t iTimeBin = TMath::Max(timeBinTruncated,0)
1173 ;iTimeBin < TMath::Min(timeBinTruncated+timeBinTRFend,nTimeTotal)
1174 ;iTimeBin++) {
1175
1176 // Apply the time response
1177 Double_t timeResponse = 1.0;
1178 Double_t crossTalk = 0.0;
1179 Double_t time = (iTimeBin - timeBinTruncated) / samplingRate + timeOffset;
1180 if (simParam->TRFOn()) {
1181 timeResponse = simParam->TimeResponse(time);
f881dc35 1182 }
625f5260 1183 if (simParam->CTOn()) {
1184 crossTalk = simParam->CrossTalk(time);
f881dc35 1185 }
e23fbb27 1186
625f5260 1187 signalOld[0] = 0.0;
1188 signalOld[1] = 0.0;
1189 signalOld[2] = 0.0;
e23fbb27 1190
625f5260 1191 for (iPad = 0; iPad < kNpad; iPad++) {
f7336fa3 1192
625f5260 1193 Int_t colPos = colE + iPad - 1;
1194 if (colPos < 0) continue;
1195 if (colPos >= nColMax) break;
e23fbb27 1196
625f5260 1197 // Add the signals
1198 signalOld[iPad] = signals->GetDataUnchecked(rowE,colPos,iTimeBin);
e23fbb27 1199
625f5260 1200 if (colPos != colE) {
1201 // Cross talk added to non-central pads
1202 signalOld[iPad] += padSignal[iPad]
1203 * (timeResponse + crossTalk);
1204 }
1205 else {
1206 // W/o cross talk at central pad
1207 signalOld[iPad] += padSignal[iPad]
1208 * timeResponse;
1209 }
f881dc35 1210
625f5260 1211 signals->SetDataUnchecked(rowE,colPos,iTimeBin,signalOld[iPad]);
1212
1213 // Store the track index in the dictionary
1214 // Note: We store index+1 in order to allow the array to be compressed
1215 if (signalOld[iPad] > 0.0) {
1216 for (dict = 0; dict < kNdict; dict++) {
1217 Int_t oldTrack = dictionary[dict]->GetDataUnchecked(rowE
1218 ,colPos
1219 ,iTimeBin);
1220 if (oldTrack == track+1) break;
1221 if (oldTrack == 0) {
1222 dictionary[dict]->SetDataUnchecked(rowE,colPos,iTimeBin,track+1);
1223 break;
71d9fa7b 1224 }
f881dc35 1225 }
625f5260 1226 }
872a7aba 1227
625f5260 1228 } // Loop: pads
f7336fa3 1229
625f5260 1230 } // Loop: time bins
f7336fa3 1231
625f5260 1232 } // Loop: electrons of a single hit
f7336fa3 1233
625f5260 1234 } // Loop: hits
f7336fa3 1235
625f5260 1236 AliDebug(2,Form("Finished analyzing %d hits",nhit));
e23fbb27 1237
625f5260 1238 return kTRUE;
e23fbb27 1239
625f5260 1240}
793ff80c 1241
625f5260 1242//_____________________________________________________________________________
1243Bool_t AliTRDdigitizer::ConvertSignals(Int_t det, AliTRDdataArrayF *signals)
1244{
4329977a 1245 //
625f5260 1246 // Convert signals to digits
4329977a 1247 //
1248
625f5260 1249 AliDebug(1,Form("Start converting the signals for detector %d",det));
1250
1251 if (fSDigits) {
1252 // Convert the signal array to s-digits
1253 if (!Signal2SDigits(det,signals)) {
1254 return kFALSE;
793ff80c 1255 }
625f5260 1256 }
1257 else {
1258 // Convert the signal array to digits
1259 if (!Signal2ADC(det,signals)) {
1260 return kFALSE;
793ff80c 1261 }
625f5260 1262 }
f7336fa3 1263
625f5260 1264 // Compress the arrays
1265 CompressOutputArrays(det);
6244debe 1266
625f5260 1267 return kTRUE;
6244debe 1268
625f5260 1269}
4329977a 1270
625f5260 1271//_____________________________________________________________________________
1272Bool_t AliTRDdigitizer::Signal2ADC(Int_t det, AliTRDdataArrayF *signals)
1273{
1274 //
1275 // Converts the sampled electron signals to ADC values for a given chamber
1276 //
6244debe 1277
625f5260 1278 AliDebug(1,Form("Start converting signals to ADC values for detector=%d",det));
e23fbb27 1279
625f5260 1280 AliTRDcalibDB *calibration = AliTRDcalibDB::Instance();
1281 if (!calibration) {
1282 AliFatal("Could not get calibration object");
1283 return kFALSE;
1284 }
793ff80c 1285
625f5260 1286 AliTRDSimParam *simParam = AliTRDSimParam::Instance();
1287 if (!simParam) {
1288 AliFatal("Could not get simulation parameters");
1289 return kFALSE;
1290 }
f7336fa3 1291
625f5260 1292 // Converts number of electrons to fC
1293 const Double_t kEl2fC = 1.602e-19 * 1.0e15;
0c24ba98 1294
625f5260 1295 // Coupling factor
1296 Double_t coupling = simParam->GetPadCoupling()
1297 * simParam->GetTimeCoupling();
1298 // Electronics conversion factor
1299 Double_t convert = kEl2fC
1300 * simParam->GetChipGain();
1301 // ADC conversion factor
1302 Double_t adcConvert = simParam->GetADCoutRange()
1303 / simParam->GetADCinRange();
1304 // The electronics baseline in mV
1305 Double_t baseline = simParam->GetADCbaseline()
1306 / adcConvert;
1307 // The electronics baseline in electrons
1308 Double_t baselineEl = baseline
1309 / convert;
1310
1311 Int_t row = 0;
1312 Int_t col = 0;
1313 Int_t time = 0;
1314
1315 Int_t nRowMax = fGeo->GetPadPlane(det)->GetNrows();
1316 Int_t nColMax = fGeo->GetPadPlane(det)->GetNcols();
1317 Int_t nTimeTotal = calibration->GetNumberOfTimeBins();
abaf1f1d 1318
625f5260 1319 // The gainfactor calibration objects
1320 const AliTRDCalDet *calGainFactorDet = calibration->GetGainFactorDet();
1321 AliTRDCalROC *calGainFactorROC = 0;
1322 Float_t calGainFactorDetValue = 0.0;
f7336fa3 1323
625f5260 1324 AliTRDdataArrayS *digits = 0x0;
e23fbb27 1325
625f5260 1326 if (!signals) {
1327 AliError(Form("Signals array for detector %d does not exist\n",det));
1328 return kFALSE;
1329 }
1330 if (signals->HasData()) {
1331 // Expand the container if neccessary
1332 signals->Expand();
1333 }
1334 else {
1335 // Create missing containers
1336 signals->Allocate(nRowMax,nColMax,nTimeTotal);
f7336fa3 1337 }
1338
625f5260 1339 // Get the container for the digits of this detector
1340 if (fDigitsManager->HasSDigits()) {
1341 AliError("Digits manager has s-digits");
1342 return kFALSE;
1343 }
1344 digits = (AliTRDdataArrayS *) fDigitsManager->GetDigits(det);
1345 // Allocate memory space for the digits buffer
1346 if (!digits->HasData()) {
1347 digits->Allocate(nRowMax,nColMax,nTimeTotal);
0c24ba98 1348 }
1349
625f5260 1350 // Get the calibration objects
1351 calGainFactorROC = calibration->GetGainFactorROC(det);
1352 calGainFactorDetValue = calGainFactorDet->GetValue(det);
abaf1f1d 1353
625f5260 1354 // Create the digits for this chamber
1355 for (row = 0; row < nRowMax; row++ ) {
1356 for (col = 0; col < nColMax; col++ ) {
abaf1f1d 1357
625f5260 1358 // Check whether pad is masked
1359 // Bridged pads are not considered yet!!!
1360 if (calibration->IsPadMasked(det,col,row)) {
1361 continue;
1362 }
abaf1f1d 1363
625f5260 1364 // The gain factors
1365 Float_t padgain = calGainFactorDetValue
1366 * calGainFactorROC->GetValue(col,row);
1367 if (padgain <= 0) {
1368 AliError(Form("Not a valid gain %f, %d %d %d",padgain,det,col,row));
1369 }
abaf1f1d 1370
625f5260 1371 for (time = 0; time < nTimeTotal; time++) {
1372
1373 // Get the signal amplitude
1374 Float_t signalAmp = signals->GetDataUnchecked(row,col,time);
1375 // Pad and time coupling
1376 signalAmp *= coupling;
1377 // Gain factors
1378 signalAmp *= padgain;
1379
1380 // Add the noise, starting from minus ADC baseline in electrons
1381 signalAmp = TMath::Max((Double_t) gRandom->Gaus(signalAmp,simParam->GetNoise())
1382 ,-baselineEl);
1383
1384 // Convert to mV
1385 signalAmp *= convert;
1386 // Add ADC baseline in mV
1387 signalAmp += baseline;
1388
1389 // Convert to ADC counts. Set the overflow-bit fADCoutRange if the
1390 // signal is larger than fADCinRange
1391 Short_t adc = 0;
1392 if (signalAmp >= simParam->GetADCinRange()) {
1393 adc = ((Short_t) simParam->GetADCoutRange());
1394 }
1395 else {
1396 adc = TMath::Nint(signalAmp * adcConvert);
1397 }
abaf1f1d 1398
625f5260 1399 // Store the amplitude of the digit if above threshold
1400 //if (adc != 0) {
1401 // Use temporarily a threshold to reduce the digits file size
1402 if (adc > (simParam->GetADCbaseline() + 2)) {
1403 digits->SetDataUnchecked(row,col,time,adc);
1404 }
abaf1f1d 1405
625f5260 1406 } // for: time
1407 } // for: col
1408 } // for: row
b1113c6b 1409
625f5260 1410 return kTRUE;
b1113c6b 1411
1412}
1413
1414//_____________________________________________________________________________
625f5260 1415Bool_t AliTRDdigitizer::Signal2SDigits(Int_t det, AliTRDdataArrayF *signals)
abaf1f1d 1416{
1417 //
625f5260 1418 // Converts the sampled electron signals to s-digits
abaf1f1d 1419 //
1420
625f5260 1421 AliDebug(1,Form("Start converting signals to s-digits for detector=%d",det));
abaf1f1d 1422
4329977a 1423 AliTRDcalibDB *calibration = AliTRDcalibDB::Instance();
9afbd7de 1424 if (!calibration) {
4329977a 1425 AliFatal("Could not get calibration object");
3551db50 1426 return kFALSE;
1427 }
6bf5f0ce 1428
625f5260 1429 Int_t row = 0;
1430 Int_t col = 0;
1431 Int_t time = 0;
9afbd7de 1432
625f5260 1433 Int_t nRowMax = fGeo->GetPadPlane(det)->GetNrows();
1434 Int_t nColMax = fGeo->GetPadPlane(det)->GetNcols();
1435 Int_t nTimeTotal = calibration->GetNumberOfTimeBins();
e23fbb27 1436
625f5260 1437 // Get the container for the digits of this detector
1438 if (!fDigitsManager->HasSDigits()) {
1439 AliError("Digits manager has no s-digits");
1440 return kFALSE;
1441 }
1442 AliTRDdataArrayF *digits = (AliTRDdataArrayF *) fDigitsManager->GetDigits(det);
1443 // Allocate memory space for the digits buffer
1444 if (!digits->HasData()) {
1445 digits->Allocate(nRowMax,nColMax,nTimeTotal);
1446 }
e23fbb27 1447
625f5260 1448 // Create the sdigits for this chamber
1449 for (row = 0; row < nRowMax; row++ ) {
1450 for (col = 0; col < nColMax; col++ ) {
1451 for (time = 0; time < nTimeTotal; time++) {
1452 digits->SetDataUnchecked(row
1453 ,col
1454 ,time
1455 ,signals->GetDataUnchecked(row,col,time));
1456 } // for: time
1457 } // for: col
1458 } // for: row
6bf5f0ce 1459
625f5260 1460 return kTRUE;
abaf1f1d 1461
625f5260 1462}
abaf1f1d 1463
625f5260 1464//_____________________________________________________________________________
1465Bool_t AliTRDdigitizer::SDigits2Digits()
1466{
1467 //
1468 // Merges the input s-digits and converts them to normal digits
1469 //
e23fbb27 1470
625f5260 1471 if (!MergeSDigits()) {
1472 return kFALSE;
1473 }
f7336fa3 1474
625f5260 1475 return ConvertSDigits();
f7336fa3 1476
1477}
1478
1479//_____________________________________________________________________________
abaf1f1d 1480Bool_t AliTRDdigitizer::MergeSDigits()
16bf9884 1481{
1482 //
abaf1f1d 1483 // Merges the input s-digits:
1484 // - The amplitude of the different inputs are summed up.
1485 // - Of the track IDs from the input dictionaries only one is
1486 // kept for each input. This works for maximal 3 different merged inputs.
16bf9884 1487 //
1488
abaf1f1d 1489 // Number of track dictionary arrays
1490 const Int_t kNDict = AliTRDdigitsManager::kNDict;
1491
4d18a639 1492 AliTRDSimParam *simParam = AliTRDSimParam::Instance();
9afbd7de 1493 if (!simParam) {
4329977a 1494 AliFatal("Could not get simulation parameters");
3551db50 1495 return kFALSE;
1496 }
1497
4d18a639 1498 AliTRDcalibDB *calibration = AliTRDcalibDB::Instance();
9afbd7de 1499 if (!calibration) {
4329977a 1500 AliFatal("Could not get calibration object");
3551db50 1501 return kFALSE;
1502 }
1503
abaf1f1d 1504 Int_t iDict = 0;
e23fbb27 1505 Int_t jDict = 0;
abaf1f1d 1506
625f5260 1507 AliTRDdataArrayF *digitsA;
1508 AliTRDdataArrayF *digitsB;
1509 AliTRDdataArrayI *dictionaryA[kNDict];
1510 AliTRDdataArrayI *dictionaryB[kNDict];
1511 AliTRDdigitsManager *mergeSDigitsManager = 0x0;
abaf1f1d 1512
1513 // Get the first s-digits
1514 fSDigitsManager = (AliTRDdigitsManager *) fSDigitsManagerList->First();
9afbd7de 1515 if (!fSDigitsManager) {
7925de54 1516 AliError("No SDigits manager");
9afbd7de 1517 return kFALSE;
1518 }
abaf1f1d 1519
1520 // Loop through the other sets of s-digits
4d18a639 1521 mergeSDigitsManager = (AliTRDdigitsManager *)
1522 fSDigitsManagerList->After(fSDigitsManager);
abaf1f1d 1523
9afbd7de 1524 if (mergeSDigitsManager) {
7925de54 1525 AliDebug(1,Form("Merge %d input files.",fSDigitsManagerList->GetSize()));
9afbd7de 1526 }
1527 else {
7925de54 1528 AliDebug(1,"Only one input file.");
abaf1f1d 1529 }
1530
3551db50 1531 Int_t nTimeTotal = calibration->GetNumberOfTimeBins();
1532
abaf1f1d 1533 Int_t iMerge = 0;
1534 while (mergeSDigitsManager) {
1535
1536 iMerge++;
1537
1538 // Loop through the detectors
1539 for (Int_t iDet = 0; iDet < AliTRDgeometry::Ndet(); iDet++) {
1540
625f5260 1541 Int_t nRowMax = fGeo->GetPadPlane(iDet)->GetNrows();
1542 Int_t nColMax = fGeo->GetPadPlane(iDet)->GetNcols();
abaf1f1d 1543
1544 // Loop through the pixels of one detector and add the signals
625f5260 1545 digitsA = (AliTRDdataArrayF *) fSDigitsManager->GetDigits(iDet);
1546 digitsB = (AliTRDdataArrayF *) mergeSDigitsManager->GetDigits(iDet);
abaf1f1d 1547 digitsA->Expand();
f43f5dd2 1548 if (!digitsA->GetDataSize()) continue;
abaf1f1d 1549 digitsB->Expand();
f43f5dd2 1550 if (!digitsB->GetDataSize()) continue;
abaf1f1d 1551 for (iDict = 0; iDict < kNDict; iDict++) {
625f5260 1552 dictionaryA[iDict] = (AliTRDdataArrayI *) fSDigitsManager->GetDictionary(iDet,iDict);
1553 dictionaryB[iDict] = (AliTRDdataArrayI *) mergeSDigitsManager->GetDictionary(iDet,iDict);
abaf1f1d 1554 dictionaryA[iDict]->Expand();
1555 dictionaryB[iDict]->Expand();
1556 }
1557
4487dad0 1558 // Merge only detectors that contain a signal
1559 Bool_t doMerge = kTRUE;
1560 if (fMergeSignalOnly) {
1561 if (digitsA->GetOverThreshold(0) == 0) {
1562 doMerge = kFALSE;
1563 }
abaf1f1d 1564 }
1565
4487dad0 1566 if (doMerge) {
abaf1f1d 1567
7925de54 1568 AliDebug(1,Form("Merge detector %d of input no.%d",iDet,iMerge+1));
abaf1f1d 1569
4487dad0 1570 for (Int_t iRow = 0; iRow < nRowMax; iRow++ ) {
1571 for (Int_t iCol = 0; iCol < nColMax; iCol++ ) {
1572 for (Int_t iTime = 0; iTime < nTimeTotal; iTime++) {
1573
1574 // Add the amplitudes of the summable digits
625f5260 1575 Float_t ampA = digitsA->GetDataUnchecked(iRow,iCol,iTime);
1576 Float_t ampB = digitsB->GetDataUnchecked(iRow,iCol,iTime);
4487dad0 1577 ampA += ampB;
1578 digitsA->SetDataUnchecked(iRow,iCol,iTime,ampA);
1579
9afbd7de 1580 // Add the mask to the track id if defined.
4487dad0 1581 for (iDict = 0; iDict < kNDict; iDict++) {
1582 Int_t trackB = dictionaryB[iDict]->GetDataUnchecked(iRow,iCol,iTime);
1583 if ((fMasks) && (trackB > 0)) {
1584 for (jDict = 0; jDict < kNDict; jDict++) {
1585 Int_t trackA = dictionaryA[iDict]->GetDataUnchecked(iRow,iCol,iTime);
1586 if (trackA == 0) {
1587 trackA = trackB + fMasks[iMerge];
1588 dictionaryA[iDict]->SetDataUnchecked(iRow,iCol,iTime,trackA);
625f5260 1589 } // if: track A == 0
1590 } // for: jDict
1591 } // if: fMasks and trackB > 0
1592 } // for: iDict
abaf1f1d 1593
625f5260 1594 } // for: iTime
1595 } // for: iCol
1596 } // for: iRow
4487dad0 1597
625f5260 1598 } // if: doMerge
1599
1600 mergeSDigitsManager->RemoveDigits(iDet);
1601 mergeSDigitsManager->RemoveDictionaries(iDet);
abaf1f1d 1602
1603 if (fCompress) {
1604 digitsA->Compress(1,0);
abaf1f1d 1605 for (iDict = 0; iDict < kNDict; iDict++) {
1606 dictionaryA[iDict]->Compress(1,0);
abaf1f1d 1607 }
1608 }
1609
625f5260 1610 } // for: detectors
abaf1f1d 1611
1612 // The next set of s-digits
4d18a639 1613 mergeSDigitsManager = (AliTRDdigitsManager *)
1614 fSDigitsManagerList->After(mergeSDigitsManager);
abaf1f1d 1615
625f5260 1616 } // while: mergeDigitsManagers
1617
1618 return kTRUE;
1619
1620}
1621
1622//_____________________________________________________________________________
1623Bool_t AliTRDdigitizer::ConvertSDigits()
1624{
1625 //
1626 // Converts s-digits to normal digits
1627 //
1628
1629 AliTRDdataArrayF *digitsIn = 0x0;
1630
1631 if (!fSDigitsManager->HasSDigits()) {
1632 AliError("No s-digits in digits manager");
1633 return kFALSE;
abaf1f1d 1634 }
1635
625f5260 1636 // Loop through the detectors
1637 for (Int_t det = 0; det < AliTRDgeometry::Ndet(); det++) {
1638
1639 // Get the merged s-digits (signals)
1640 digitsIn = (AliTRDdataArrayF *) fSDigitsManager->GetDigits(det);
1641 if (!digitsIn->HasData()) {
1642 AliDebug(2,Form("No digits for det=%d",det));
1643 continue;
1644 }
1645
1646 // Convert the merged sdigits to digits
1647 if (!Signal2ADC(det,digitsIn)) {
1648 continue;
1649 }
1650
1651 // Copy the dictionary information to the output array
1652 if (!CopyDictionary(det)) {
1653 continue;
1654 }
1655
1656 // Delete
1657 fSDigitsManager->RemoveDigits(det);
1658 fSDigitsManager->RemoveDictionaries(det);
1659
1660 // Compress the arrays
1661 CompressOutputArrays(det);
1662
1663 } // for: detector numbers
1664
16bf9884 1665 return kTRUE;
1666
1667}
1668
1669//_____________________________________________________________________________
625f5260 1670Bool_t AliTRDdigitizer::CopyDictionary(Int_t det)
abaf1f1d 1671{
1672 //
625f5260 1673 // Copies the dictionary information from the s-digits arrays
1674 // to the output arrays
abaf1f1d 1675 //
1676
625f5260 1677 AliTRDcalibDB *calibration = AliTRDcalibDB::Instance();
1678 if (!calibration) {
1679 AliFatal("Could not get calibration object");
4d18a639 1680 return kFALSE;
1681 }
abaf1f1d 1682
625f5260 1683 AliDebug(1,Form("Start copying dictionaries for detector=%d",det));
1684
1685 const Int_t kNDict = AliTRDdigitsManager::kNDict;
1686 AliTRDdataArrayI *dictionaryIn[kNDict];
1687 AliTRDdataArrayI *dictionaryOut[kNDict];
1688
1689 Int_t nRowMax = fGeo->GetPadPlane(det)->GetNrows();
1690 Int_t nColMax = fGeo->GetPadPlane(det)->GetNcols();
1691 Int_t nTimeTotal = calibration->GetNumberOfTimeBins();
1692
1693 Int_t row = 0;
1694 Int_t col = 0;
1695 Int_t time = 0;
1696 Int_t dict = 0;
1697
1698 for (dict = 0; dict < kNDict; dict++) {
1699
1700 dictionaryIn[dict] = (AliTRDdataArrayI *) fSDigitsManager->GetDictionary(det,dict);
1701 dictionaryIn[dict]->Expand();
1702 dictionaryOut[dict] = (AliTRDdataArrayI *) fDigitsManager->GetDictionary(det,dict);
1703 dictionaryOut[dict]->Allocate(nRowMax,nColMax,nTimeTotal);
1704
1705 for (row = 0; row < nRowMax; row++) {
1706 for (col = 0; col < nColMax; col++) {
1707 for (time = 0; time < nTimeTotal; time++) {
1708
1709 Int_t track = dictionaryIn[dict]->GetDataUnchecked(row,col,time);
1710 dictionaryOut[dict]->SetDataUnchecked(row,col,time,track);
1711
1712 } // for: time
1713 } // for: col
1714 } // for: row
1715
1716 } // for: dictionaries
1717
1718 return kTRUE;
1719
1720}
1721
1722//_____________________________________________________________________________
1723void AliTRDdigitizer::CompressOutputArrays(Int_t det)
1724{
1725 //
1726 // Compress the output arrays
1727 //
1728
1729 const Int_t kNDict = AliTRDdigitsManager::kNDict;
1730
1731 AliTRDdataArrayS *digits = 0x0;
1732 AliTRDdataArrayI *dictionary = 0x0;
1733
1734 if (fCompress) {
1735
1736 digits = (AliTRDdataArrayS *) fDigitsManager->GetDigits(det);
1737 digits->Compress(1,0);
1738 for (Int_t dict = 0; dict < kNDict; dict++) {
1739 dictionary = (AliTRDdataArrayI *) fDigitsManager->GetDictionary(det,dict);
1740 dictionary->Compress(1,0);
1741
1742 }
1743
1744 }
abaf1f1d 1745
1746}
1747
1748//_____________________________________________________________________________
0a29d0f1 1749Bool_t AliTRDdigitizer::WriteDigits() const
f7336fa3 1750{
1751 //
1752 // Writes out the TRD-digits and the dictionaries
1753 //
1754
4d18a639 1755 // Write parameters
bdbb05bb 1756 fRunLoader->CdGAFile();
bdbb05bb 1757
da581aea 1758 // Store the digits and the dictionary in the tree
abaf1f1d 1759 return fDigitsManager->WriteDigits();
f7336fa3 1760
1761}
793ff80c 1762
1763//_____________________________________________________________________________
88cb7938 1764void AliTRDdigitizer::InitOutput(Int_t iEvent)
8e64dd77 1765{
1766 //
1767 // Initializes the output branches
1768 //
1769
1770 fEvent = iEvent;
88cb7938 1771
9afbd7de 1772 if (!fRunLoader) {
1773 AliError("Run Loader is NULL");
1774 return;
1775 }
1776
4329977a 1777 AliLoader *loader = fRunLoader->GetLoader("TRDLoader");
9afbd7de 1778 if (!loader) {
1779 AliError("Can not get TRD loader from Run Loader");
1780 return;
1781 }
88cb7938 1782
4d18a639 1783 TTree *tree = 0;
88cb7938 1784
9afbd7de 1785 if (fSDigits) {
1786 // If we produce SDigits
88cb7938 1787 tree = loader->TreeS();
9afbd7de 1788 if (!tree) {
88cb7938 1789 loader->MakeTree("S");
1790 tree = loader->TreeS();
9afbd7de 1791 }
1792 }
1793 else {
1794 // If we produce Digits
1795 tree = loader->TreeD();
1796 if (!tree) {
1797 loader->MakeTree("D");
1798 tree = loader->TreeD();
1799 }
1800 }
1801
88cb7938 1802 fDigitsManager->SetEvent(iEvent);
1803 fDigitsManager->MakeBranch(tree);
8e64dd77 1804
1805}
3551db50 1806
1807//_____________________________________________________________________________
1808Double_t AliTRDdigitizer::TimeStruct(Float_t vdrift, Double_t dist, Double_t z)
1809{
1810 //
1811 // Applies the time structure of the drift cells (by C.Lippmann).
1812 // The drift time of electrons to the anode wires depends on the
1813 // distance to the wire (z) and on the position in the drift region.
1814 //
1815 // input :
1816 // dist = radial distance from (cathode) pad plane [cm]
1817 // z = distance from anode wire (parallel to cathode planes) [cm]
1818 //
1819 // output :
1820 // tdrift = the drift time of an electron at the given position
1821 //
1822 // We interpolate between the drift time values at the two drift
1823 // velocities fVDlo and fVDhi, being smaller and larger than
1824 // fDriftVelocity. We use the two stored drift time maps fTimeStruct1
1825 // and fTimeStruct2, calculated for the two mentioned drift velocities.
1826 //
1827
1828 SampleTimeStruct(vdrift);
1829
4d18a639 1830 // Indices:
1831 Int_t r1 = (Int_t)(10 * dist);
9afbd7de 1832 if (r1 < 0) r1 = 0;
1833 if (r1 > 37) r1 = 37;
1834 Int_t r2 = r1 + 1;
1835 if (r2 < 0) r2 = 0;
1836 if (r2 > 37) r2 = 37;
1837 const Int_t kz1 = ((Int_t)(100 * z / 2.5));
1838 const Int_t kz2 = kz1 + 1;
1839
4d18a639 1840 if ((r1 < 0) ||
1841 (r1 > 37) ||
1842 (kz1 < 0) ||
1843 (kz1 > 10)) {
7925de54 1844 AliWarning(Form("Indices out of range: dist=%.2f, z=%.2f, r1=%d, kz1=%d"
9afbd7de 1845 ,dist,z,r1,kz1));
3551db50 1846 }
1847
4d18a639 1848 const Float_t ky111 = fTimeStruct1[r1+38*kz1];
9afbd7de 1849 const Float_t ky221 = ((r2 <= 37) && (kz2 <= 10))
4d18a639 1850 ? fTimeStruct1[r2+38*kz2]
1851 : fTimeStruct1[37+38*10];
9afbd7de 1852 const Float_t ky121 = (kz2 <= 10)
4d18a639 1853 ? fTimeStruct1[r1+38*kz2]
1854 : fTimeStruct1[r1+38*10];
9afbd7de 1855 const Float_t ky211 = (r2 <= 37)
4d18a639 1856 ? fTimeStruct1[r2+38*kz1]
1857 : fTimeStruct1[37+38*kz1];
3551db50 1858
1859 // 2D Interpolation, lower drift time map
1860 const Float_t ky11 = (ky211-ky111)*10*dist + ky111 - (ky211-ky111)*r1;
1861 const Float_t ky21 = (ky221-ky121)*10*dist + ky121 - (ky221-ky121)*r1;
1862
4d18a639 1863 const Float_t ky112 = fTimeStruct2[r1+38*kz1];
9afbd7de 1864 const Float_t ky222 = ((r2 <= 37) && (kz2 <= 10))
4d18a639 1865 ? fTimeStruct2[r2+38*kz2]
1866 : fTimeStruct2[37+38*10];
9afbd7de 1867 const Float_t ky122 = (kz2 <= 10)
4d18a639 1868 ? fTimeStruct2[r1+38*kz2]
1869 : fTimeStruct2[r1+38*10];
9afbd7de 1870 const Float_t ky212 = (r2 <= 37)
4d18a639 1871 ? fTimeStruct2[r2+38*kz1]
1872 : fTimeStruct2[37+38*kz1];
3551db50 1873
1874 // 2D Interpolation, larger drift time map
1875 const Float_t ky12 = (ky212-ky112)*10*dist + ky112 - (ky212-ky112)*r1;
1876 const Float_t ky22 = (ky222-ky122)*10*dist + ky122 - (ky222-ky122)*r1;
1877
4d18a639 1878 // Dist now is the drift distance to the anode wires (negative if electrons are
3551db50 1879 // between anode wire plane and cathode pad plane)
9afbd7de 1880 dist -= AliTRDgeometry::AmThick() / 2.0;
3551db50 1881
1882 // Get the drift times for the drift velocities fVDlo and fVDhi
9afbd7de 1883 const Float_t ktdrift1 = ((TMath::Abs(dist) > 0.005) || (z > 0.005))
1884 ? (ky21 - ky11) * 100 * z / 2.5 + ky11 - (ky21 - ky11) * kz1
1885 : 0.0;
1886 const Float_t ktdrift2 = ((TMath::Abs(dist) > 0.005) || (z > 0.005))
1887 ? (ky22 - ky12) * 100 * z / 2.5 + ky12 - (ky22 - ky12) * kz1
1888 : 0.0;
3551db50 1889
1890 // 1D Interpolation between the values at fVDlo and fVDhi
4d18a639 1891 Float_t a = (ktdrift2 - ktdrift1)
1892 / (fVDhi - fVDlo);
1893 Float_t b = ktdrift2 - a * fVDhi;
3551db50 1894
3551db50 1895 return a * vdrift + b;
1896
1897}
1898
1899//_____________________________________________________________________________
1900void AliTRDdigitizer::SampleTimeStruct(Float_t vdrift)
1901{
1902 //
1903 // Samples the timing structure of a drift cell
1904 // Drift Time data calculated with Garfield (by C.Lippmann)
1905 //
1906
4329977a 1907 // Nothing to do
4d18a639 1908 if (vdrift == fTimeLastVdrift) {
3551db50 1909 return;
9afbd7de 1910 }
4d18a639 1911 fTimeLastVdrift = vdrift;
3551db50 1912
9afbd7de 1913 // Drift time maps are saved for some drift velocity values (in drift region):
3551db50 1914 Float_t fVDsmp[8];
1915 fVDsmp[0] = 1.032;
1916 fVDsmp[1] = 1.158;
1917 fVDsmp[2] = 1.299;
1918 fVDsmp[3] = 1.450;
1919 fVDsmp[4] = 1.610;
1920 fVDsmp[5] = 1.783;
1921 fVDsmp[6] = 1.959;
1922 fVDsmp[7] = 2.134;
1923
9afbd7de 1924 if (vdrift < fVDsmp[0]) {
7925de54 1925 AliWarning(Form("Drift Velocity too small (%.3f<%.3f)",vdrift,fVDsmp[0]));
3551db50 1926 vdrift = fVDsmp[0];
9afbd7de 1927 }
1928 else if (vdrift > fVDsmp[7]) {
7925de54 1929 AliWarning(Form("Drift Velocity too large (%.3f>%.3f)",vdrift,fVDsmp[6]));
3551db50 1930 vdrift = fVDsmp[7];
1931 }
1932
1933 const Int_t ktimebin = 38;
9afbd7de 1934 const Int_t kZbin = 11;
3551db50 1935
1936 // Garfield simulation at UD = -1500V; vd = 1.032cm/microsec, <driftfield> = 525V/cm
1937 Float_t time1500[ktimebin][kZbin] =
1938 {{0.09170, 0.09205, 0.09306, 0.09475, 0.09716, 0.10035,
1939 0.10445, 0.10993, 0.11838, 0.13986, 0.37858},
1940 {0.06588, 0.06626, 0.06739, 0.06926, 0.07186, 0.07524,
1941 0.07951, 0.08515, 0.09381, 0.11601, 0.35673},
1942 {0.03946, 0.04003, 0.04171, 0.04435, 0.04780, 0.05193,
1943 0.05680, 0.06306, 0.07290, 0.09873, 0.34748},
1944 {0.01151, 0.01283, 0.01718, 0.02282, 0.02880, 0.03479,
1945 0.04098, 0.04910, 0.06413, 0.10567, 0.36897},
1946 {0.01116, 0.01290, 0.01721, 0.02299, 0.02863, 0.03447,
1947 0.04074, 0.04984, 0.06839, 0.11625, 0.37277},
1948 {0.03919, 0.03974, 0.04131, 0.04380, 0.04703, 0.05102,
1949 0.05602, 0.06309, 0.07651, 0.10938, 0.36838},
1950 {0.06493, 0.06560, 0.06640, 0.06802, 0.07051, 0.07392,
1951 0.07853, 0.08510, 0.09690, 0.12621, 0.38058},
1952 {0.09174, 0.09186, 0.09225, 0.09303, 0.09477, 0.00000,
1953 0.11205, 0.11952, 0.13461, 0.16984, 0.43017},
1954 {0.14356, 0.14494, 0.14959, 0.16002, 0.18328, 0.27981,
1955 0.22785, 0.21240, 0.21948, 0.25965, 0.52392},
1956 {0.23120, 0.23366, 0.24046, 0.25422, 0.28071, 0.36914,
1957 0.32999, 0.31208, 0.31772, 0.35804, 0.62249},
1958 {0.32686, 0.32916, 0.33646, 0.35053, 0.37710, 0.46292,
1959 0.42773, 0.40948, 0.41497, 0.45527, 0.71955},
1960 {0.42353, 0.42583, 0.43317, 0.44727, 0.47380, 0.55884,
1961 0.52479, 0.50650, 0.51194, 0.55225, 0.81658},
1962 {0.52038, 0.52271, 0.53000, 0.54415, 0.57064, 0.65545,
1963 0.62172, 0.60341, 0.60885, 0.64915, 0.91339},
1964 {0.61724, 0.61953, 0.62694, 0.64098, 0.66756, 0.75226,
1965 0.71862, 0.70030, 0.70575, 0.74604, 1.01035},
1966 {0.71460, 0.71678, 0.72376, 0.73786, 0.76447, 0.84913,
1967 0.81551, 0.79720, 0.80264, 0.84292, 1.10723},
1968 {0.81101, 0.81334, 0.82066, 0.83475, 0.86127, 0.94599,
1969 0.91240, 0.89408, 0.89952, 0.93981, 1.20409},
1970 {0.90788, 0.91023, 0.91752, 0.93163, 0.95815, 1.04293,
1971 1.00929, 0.99096, 0.99640, 1.03669, 1.30106},
1972 {1.00477, 1.00707, 1.01449, 1.02852, 1.05504, 1.13976,
1973 1.10617, 1.08784, 1.09329, 1.13358, 1.39796},
1974 {1.10166, 1.10397, 1.11130, 1.12541, 1.15257, 1.23672,
1975 1.20307, 1.18472, 1.19018, 1.23046, 1.49486},
1976 {1.19854, 1.20084, 1.20818, 1.22235, 1.24885, 1.33355,
1977 1.29992, 1.28156, 1.28707, 1.32735, 1.59177},
1978 {1.29544, 1.29780, 1.30507, 1.31917, 1.34575, 1.43073,
1979 1.39681, 1.37851, 1.38396, 1.42377, 1.68854},
1980 {1.39236, 1.39462, 1.40205, 1.41607, 1.44259, 1.52745,
1981 1.49368, 1.47541, 1.48083, 1.52112, 1.78546},
1982 {1.49314, 1.49149, 1.49885, 1.51297, 1.53949, 1.62420,
1983 1.59016, 1.57231, 1.57772, 1.61800, 1.88048},
1984 {1.58610, 1.58839, 1.59572, 1.60983, 1.63635, 1.72109,
1985 1.68651, 1.66921, 1.67463, 1.71489, 1.97918},
1986 {1.68400, 1.68529, 1.69261, 1.70671, 1.73331, 1.81830,
1987 1.78341, 1.76605, 1.77150, 1.81179, 2.07608},
1988 {1.77991, 1.78215, 1.78952, 1.80385, 1.83014, 1.91486,
1989 1.88128, 1.86215, 1.86837, 1.90865, 2.17304},
1990 {1.87674, 1.87904, 1.88647, 1.90052, 1.92712, 2.01173,
1991 1.97812, 1.95905, 1.96527, 2.00710, 2.26979},
1992 {1.97369, 1.97594, 1.98326, 1.99869, 2.02442, 2.10865,
1993 2.07501, 2.05666, 2.06214, 2.10243, 2.36669},
1994 {2.07052, 2.07281, 2.08016, 2.09425, 2.12132, 2.20555,
1995 2.17182, 2.15341, 2.15904, 2.19933, 2.46363},
1996 {2.16742, 2.16971, 2.17707, 2.19114, 2.21766, 2.30240,
1997 2.26877, 2.25015, 2.25573, 2.29586, 2.56060},
1998 {2.26423, 2.26659, 2.27396, 2.28803, 2.31456, 2.40828,
1999 2.36567, 2.34705, 2.35282, 2.39765, 2.65744},
2000 {2.36153, 2.36349, 2.37330, 2.38501, 2.41159, 2.49940,
2001 2.46257, 2.44420, 2.44843, 2.48987, 2.75431},
2002 {2.46558, 2.46035, 2.46822, 2.48181, 2.50849, 2.59630,
2003 2.55947, 2.54112, 2.54513, 2.58677, 2.85094},
2004 {2.56248, 2.55723, 2.56486, 2.57871, 2.60520, 2.68998,
2005 2.65626, 2.63790, 2.64316, 2.68360, 2.94813},
2006 {2.65178, 2.65441, 2.66153, 2.67556, 2.70210, 2.78687,
2007 2.75319, 2.73463, 2.74032, 2.78060, 3.04503},
2008 {2.74868, 2.75131, 2.75870, 2.77245, 2.79385, 2.88700,
2009 2.85009, 2.83177, 2.83723, 2.87750, 3.14193},
2010 {2.84574, 2.84789, 2.85560, 2.86935, 2.89075, 2.98060,
2011 2.94576, 2.92868, 2.93356, 2.97436, 3.23868},
2012 {2.94239, 2.94469, 2.95221, 2.96625, 2.99345, 3.07747,
2013 3.04266, 3.02545, 3.03051, 3.07118, 3.33555}};
2014
2015 // Garfield simulation at UD = -1600V; vd = 1.158cm/microsec, <driftfield> = 558V/cm
2016 Float_t time1600[ktimebin][kZbin] =
2017 {{0.09169, 0.09203, 0.09305, 0.09473, 0.09714, 0.10032,
2018 0.10441, 0.10990, 0.11835, 0.13986, 0.37845},
2019 {0.06589, 0.06626, 0.06738, 0.06924, 0.07184, 0.07521,
2020 0.07947, 0.08512, 0.09379, 0.11603, 0.35648},
2021 {0.03947, 0.04003, 0.04171, 0.04434, 0.04778, 0.05190,
2022 0.05678, 0.06304, 0.07292, 0.09876, 0.34759},
2023 {0.01111, 0.01281, 0.01718, 0.02281, 0.02879, 0.03477,
2024 0.04097, 0.04910, 0.06415, 0.10573, 0.36896},
2025 {0.01120, 0.01311, 0.01721, 0.02279, 0.02862, 0.03446,
2026 0.04074, 0.04981, 0.06825, 0.11595, 0.37255},
2027 {0.03919, 0.03980, 0.04132, 0.04380, 0.04704, 0.05102,
2028 0.05602, 0.06302, 0.07633, 0.10896, 0.36743},
2029 {0.06531, 0.06528, 0.06631, 0.06805, 0.07053, 0.07392,
2030 0.07853, 0.08505, 0.09669, 0.12578, 0.37967},
2031 {0.09157, 0.09171, 0.09216, 0.09301, 0.09475, 0.00000,
2032 0.11152, 0.11879, 0.13352, 0.16802, 0.42750},
2033 {0.13977, 0.14095, 0.14509, 0.15433, 0.17534, 0.26406,
2034 0.21660, 0.20345, 0.21113, 0.25067, 0.51434},
2035 {0.21816, 0.22041, 0.22631, 0.23850, 0.26208, 0.34340,
2036 0.30755, 0.29237, 0.29878, 0.33863, 0.60258},
2037 {0.30344, 0.30547, 0.31241, 0.32444, 0.34809, 0.42696,
2038 0.39464, 0.37919, 0.38546, 0.42530, 0.68926},
2039 {0.38969, 0.39164, 0.39810, 0.41059, 0.43441, 0.51246,
2040 0.48112, 0.46562, 0.47191, 0.51172, 0.77558},
2041 {0.47592, 0.47799, 0.48442, 0.49689, 0.52061, 0.59855,
2042 0.56752, 0.55201, 0.55826, 0.59808, 0.86202},
2043 {0.56226, 0.56428, 0.57074, 0.58324, 0.60696, 0.68483,
2044 0.65388, 0.63837, 0.64461, 0.68445, 0.94830},
2045 {0.64881, 0.65063, 0.65709, 0.66958, 0.69331, 0.77117,
2046 0.74023, 0.72472, 0.73098, 0.77079, 1.03486},
2047 {0.73506, 0.73698, 0.74344, 0.75596, 0.77964, 0.85751,
2048 0.82658, 0.81107, 0.81731, 0.85712, 1.12106},
2049 {0.82132, 0.82333, 0.82979, 0.84228, 0.86608, 0.94386,
2050 0.91293, 0.89742, 0.90367, 0.94335, 1.20737},
2051 {0.90767, 0.90968, 0.91614, 0.92863, 0.95236, 1.03021,
2052 0.99928, 0.98377, 0.99001, 1.02984, 1.29371},
2053 {0.99410, 0.99602, 1.00257, 1.01498, 1.03869, 1.11720,
2054 1.08563, 1.07011, 1.07637, 1.11621, 1.37873},
2055 {1.08036, 1.08240, 1.08884, 1.10138, 1.12504, 1.20301,
2056 1.17198, 1.15647, 1.16272, 1.20255, 1.46651},
2057 {1.16670, 1.16872, 1.17525, 1.18783, 1.21139, 1.28934,
2058 1.25833, 1.24281, 1.24909, 1.28889, 1.55275},
2059 {1.25307, 1.25510, 1.26153, 1.27404, 1.29773, 1.37584,
2060 1.34469, 1.32916, 1.33536, 1.37524, 1.63915},
2061 {1.33942, 1.34146, 1.34788, 1.36040, 1.38410, 1.46438,
2062 1.43105, 1.41537, 1.42176, 1.46158, 1.72538},
2063 {1.42579, 1.42782, 1.43458, 1.44674, 1.47043, 1.55085,
2064 1.51675, 1.50168, 1.50810, 1.54793, 1.81174},
2065 {1.51207, 1.51454, 1.52060, 1.53307, 1.55684, 1.63478,
2066 1.60336, 1.58820, 1.59446, 1.63414, 1.89814},
2067 {1.59856, 1.60047, 1.60693, 1.61942, 1.64317, 1.72257,
2068 1.69008, 1.67454, 1.68080, 1.72063, 1.98433},
2069 {1.68481, 1.68682, 1.69330, 1.70584, 1.72949, 1.80752,
2070 1.77643, 1.76089, 1.76716, 1.80692, 2.07069},
2071 {1.77117, 1.77319, 1.77969, 1.79260, 1.81583, 1.89376,
2072 1.86226, 1.84720, 1.85355, 1.89256, 2.15343},
2073 {1.85748, 1.85967, 1.86605, 1.87848, 1.90222, 1.98010,
2074 1.94913, 1.93271, 1.93981, 1.97968, 2.24355},
2075 {1.94386, 1.94587, 1.95233, 1.96484, 1.98854, 2.06646,
2076 2.03542, 2.01755, 2.02617, 2.06604, 2.32993},
2077 {2.03022, 2.03230, 2.03868, 2.05134, 2.07488, 2.15367,
2078 2.12178, 2.10391, 2.11252, 2.15432, 2.41623},
2079 {2.11656, 2.11857, 2.12505, 2.13772, 2.16147, 2.23919,
2080 2.20817, 2.19265, 2.20744, 2.23872, 2.49996},
2081 {2.20291, 2.20611, 2.21137, 2.22387, 2.24758, 2.32563,
2082 2.29450, 2.27901, 2.28525, 2.32507, 2.58897},
2083 {2.28922, 2.29172, 2.29774, 2.31345, 2.33400, 2.41287,
2084 2.38086, 2.36535, 2.37160, 2.40869, 2.67113},
2085 {2.37572, 2.37764, 2.38410, 2.39803, 2.42046, 2.49817,
2086 2.46721, 2.45171, 2.45794, 2.49505, 2.76061},
2087 {2.46190, 2.46396, 2.47043, 2.48340, 2.50665, 2.58453,
2088 2.55357, 2.53728, 2.54430, 2.58407, 2.84816},
2089 {2.54833, 2.55032, 2.55679, 2.56976, 2.59312, 2.67103,
2090 2.63993, 2.62364, 2.63062, 2.67040, 2.93444},
2091 {2.63456, 2.63660, 2.64304, 2.65555, 2.67938, 2.75739,
2092 2.72629, 2.71064, 2.71688, 2.75671, 3.01886}};
2093
2094 // Garfield simulation at UD = -1700V; vd = 1.299cm/microsec, <driftfield> = 590V/cm
2095 Float_t time1700[ktimebin][kZbin] =
2096 {{0.09167, 0.09201, 0.09302, 0.09471, 0.09712, 0.10029,
2097 0.10438, 0.10986, 0.11832, 0.13986, 0.37824},
2098 {0.06591, 0.06626, 0.06736, 0.06923, 0.07183, 0.07519,
2099 0.07944, 0.08511, 0.09378, 0.11603, 0.35625},
2100 {0.03946, 0.04003, 0.04170, 0.04433, 0.04777, 0.05189,
2101 0.05676, 0.06301, 0.07291, 0.09880, 0.34724},
2102 {0.01110, 0.01281, 0.01718, 0.02280, 0.02879, 0.03476,
2103 0.04096, 0.04910, 0.06417, 0.10582, 0.36861},
2104 {0.01115, 0.01294, 0.01721, 0.02276, 0.02862, 0.03447,
2105 0.04074, 0.04980, 0.06812, 0.11565, 0.37231},
2106 {0.03920, 0.03974, 0.04133, 0.04381, 0.04706, 0.05105,
2107 0.05603, 0.06299, 0.07618, 0.10860, 0.36646},
2108 {0.06498, 0.06529, 0.06634, 0.06808, 0.07055, 0.07395,
2109 0.07852, 0.08500, 0.09650, 0.12532, 0.37850},
2110 {0.09143, 0.09159, 0.09207, 0.09297, 0.09473, 0.00000,
2111 0.11102, 0.11809, 0.13245, 0.16627, 0.42496},
2112 {0.13646, 0.13750, 0.14112, 0.14926, 0.16806, 0.24960,
2113 0.20627, 0.19536, 0.20366, 0.24256, 0.50557},
2114 {0.20678, 0.20848, 0.21384, 0.22450, 0.24552, 0.32018,
2115 0.28740, 0.27477, 0.28196, 0.32128, 0.58475},
2116 {0.28287, 0.28461, 0.29020, 0.30108, 0.32224, 0.39467,
2117 0.36500, 0.35217, 0.35926, 0.39860, 0.66194},
2118 {0.35972, 0.36145, 0.36713, 0.37797, 0.39912, 0.47091,
2119 0.44212, 0.42925, 0.43632, 0.47563, 0.73892},
2120 {0.43667, 0.43841, 0.44413, 0.45494, 0.47607, 0.54780,
2121 0.51912, 0.50627, 0.51334, 0.55254, 0.81595},
2122 {0.51365, 0.51540, 0.52101, 0.53193, 0.55305, 0.62463,
2123 0.59617, 0.58328, 0.59035, 0.62965, 0.89303},
2124 {0.59064, 0.59240, 0.59801, 0.60893, 0.63009, 0.70169,
2125 0.67317, 0.66028, 0.66735, 0.70666, 0.96995},
2126 {0.66765, 0.66939, 0.67501, 0.68592, 0.70724, 0.77863,
2127 0.75016, 0.73728, 0.74435, 0.78366, 1.04696},
2128 {0.74464, 0.74636, 0.75200, 0.76293, 0.78405, 0.85561,
2129 0.82716, 0.81427, 0.82133, 0.86064, 1.12396},
2130 {0.82165, 0.82340, 0.82902, 0.83991, 0.86104, 0.93266,
2131 0.90414, 0.89128, 0.89834, 0.93763, 1.20100},
2132 {0.89863, 0.90042, 0.90659, 0.91705, 0.93805, 1.00960,
2133 0.98115, 0.96825, 0.97533, 1.01462, 1.27801},
2134 {0.97563, 0.97740, 0.98310, 0.99391, 1.01504, 1.08659,
2135 1.05814, 1.04526, 1.05233, 1.09163, 1.35503},
2136 {1.05276, 1.05451, 1.06002, 1.07090, 1.09099, 1.16357,
2137 1.13516, 1.12225, 1.12933, 1.16863, 1.43195},
2138 {1.12977, 1.13138, 1.13700, 1.14792, 1.16797, 1.24061,
2139 1.21212, 1.19926, 1.20626, 1.24554, 1.50900},
2140 {1.20664, 1.20839, 1.21400, 1.22490, 1.24606, 1.31772,
2141 1.28914, 1.27382, 1.28329, 1.32262, 1.58550},
2142 {1.28367, 1.28541, 1.29099, 1.30189, 1.32312, 1.39460,
2143 1.36612, 1.34924, 1.36030, 1.39961, 1.66310},
2144 {1.36064, 1.36249, 1.36799, 1.37896, 1.40004, 1.48030,
2145 1.44314, 1.43032, 1.43731, 1.47659, 1.73442},
2146 {1.43762, 1.43937, 1.44497, 1.45618, 1.47704, 1.54932,
2147 1.52012, 1.50725, 1.51430, 1.55357, 1.81708},
2148 {1.51462, 1.51937, 1.52203, 1.53316, 1.55403, 1.62572,
2149 1.59713, 1.58424, 1.59128, 1.63061, 1.89406},
2150 {1.59162, 1.59338, 1.59947, 1.60989, 1.63103, 1.70270,
2151 1.67411, 1.66124, 1.66799, 1.70759, 1.97103},
2152 {1.66874, 1.67037, 1.67597, 1.68687, 1.70814, 1.77969,
2153 1.75112, 1.73806, 1.74530, 1.78457, 2.04794},
2154 {1.74693, 1.74749, 1.75297, 1.76476, 1.78500, 1.85667,
2155 1.82811, 1.81504, 1.82101, 1.86161, 2.12492},
2156 {1.82260, 1.82437, 1.82995, 1.84174, 1.86202, 1.93372,
2157 1.90509, 1.89202, 1.89930, 1.93859, 2.20189},
2158 {1.89964, 1.90135, 1.90693, 1.91789, 1.93952, 2.01080,
2159 1.98207, 1.96921, 1.97628, 2.01384, 2.27887},
2160 {1.97662, 1.97917, 1.98611, 1.99487, 2.01601, 2.08778,
2161 2.05846, 2.04623, 2.05330, 2.09244, 2.35585},
2162 {2.05359, 2.05615, 2.06309, 2.07187, 2.09867, 2.16459,
2163 2.13610, 2.12322, 2.13029, 2.16942, 2.43199},
2164 {2.13063, 2.13233, 2.13795, 2.14886, 2.17008, 2.24199,
2165 2.21310, 2.20020, 2.20727, 2.24659, 2.50983},
2166 {2.20761, 2.20931, 2.21955, 2.22624, 2.24708, 2.32147,
2167 2.29009, 2.27725, 2.28276, 2.32359, 2.58680},
2168 {2.28459, 2.29108, 2.29202, 2.30286, 2.32007, 2.39559,
2169 2.36683, 2.35422, 2.36119, 2.40058, 2.66081},
2170 {2.36153, 2.36806, 2.36889, 2.37985, 2.40092, 2.47828,
2171 2.44381, 2.43099, 2.43819, 2.47750, 2.73779}};
2172
2173 // Garfield simulation at UD = -1800V; vd = 1.450cm/microsec, <driftfield> = 623V/cm
2174 Float_t time1800[ktimebin][kZbin] =
2175 {{0.09166, 0.09199, 0.09300, 0.09470, 0.09709, 0.10026,
2176 0.10434, 0.10983, 0.11831, 0.13987, 0.37802},
2177 {0.06585, 0.06623, 0.06735, 0.06921, 0.07180, 0.07520,
2178 0.07941, 0.08507, 0.09376, 0.11604, 0.35624},
2179 {0.03945, 0.04004, 0.04169, 0.04432, 0.04776, 0.05187,
2180 0.05674, 0.06300, 0.07290, 0.09884, 0.34704},
2181 {0.01108, 0.01287, 0.01717, 0.02280, 0.02880, 0.03476,
2182 0.04095, 0.04909, 0.06419, 0.10589, 0.36843},
2183 {0.01115, 0.01287, 0.01720, 0.02276, 0.02862, 0.03448,
2184 0.04073, 0.04973, 0.06799, 0.11535, 0.37224},
2185 {0.03918, 0.03975, 0.04134, 0.04382, 0.04707, 0.05105,
2186 0.05603, 0.06296, 0.07605, 0.10822, 0.36560},
2187 {0.06498, 0.06532, 0.06635, 0.06809, 0.07058, 0.07395,
2188 0.07855, 0.08495, 0.09632, 0.12488, 0.37730},
2189 {0.09130, 0.09160, 0.09199, 0.09300, 0.09472, 0.00000,
2190 0.11059, 0.11747, 0.13146, 0.16462, 0.42233},
2191 {0.13364, 0.13449, 0.13767, 0.14481, 0.16147, 0.23635,
2192 0.19706, 0.18812, 0.19704, 0.23520, 0.49749},
2193 {0.19698, 0.19844, 0.20311, 0.21236, 0.23082, 0.29920,
2194 0.26936, 0.25927, 0.26732, 0.30601, 0.56871},
2195 {0.26518, 0.26670, 0.27160, 0.28099, 0.29955, 0.36597,
2196 0.33885, 0.32858, 0.33653, 0.37524, 0.63801},
2197 {0.33441, 0.33553, 0.34040, 0.34987, 0.36841, 0.43428,
2198 0.40797, 0.39763, 0.40556, 0.44425, 0.70698},
2199 {0.40296, 0.40447, 0.40934, 0.41881, 0.43737, 0.50306,
2200 0.47695, 0.46662, 0.47455, 0.51329, 0.77600},
2201 {0.47296, 0.47344, 0.47830, 0.48779, 0.50632, 0.57200,
2202 0.54593, 0.53559, 0.54351, 0.58222, 0.84489},
2203 {0.54089, 0.54264, 0.54727, 0.55673, 0.57529, 0.64094,
2204 0.61490, 0.60457, 0.61249, 0.65118, 0.91394},
2205 {0.60987, 0.61138, 0.61624, 0.62573, 0.64428, 0.70989,
2206 0.68397, 0.67354, 0.68147, 0.72015, 0.98291},
2207 {0.67883, 0.68035, 0.68521, 0.69469, 0.71324, 0.77896,
2208 0.75287, 0.74251, 0.75043, 0.78912, 1.04458},
2209 {0.74780, 0.74932, 0.75421, 0.76367, 0.78221, 0.84785,
2210 0.82185, 0.81148, 0.81941, 0.85811, 1.12085},
2211 {0.81690, 0.81830, 0.82316, 0.83263, 0.85120, 0.91683,
2212 0.89077, 0.88045, 0.88837, 0.92707, 1.18976},
2213 {0.88574, 0.88726, 0.89228, 0.90198, 0.92017, 0.98578,
2214 0.95974, 0.94947, 0.95734, 0.99604, 1.25873},
2215 {0.95493, 0.95624, 0.96110, 0.97058, 0.98913, 1.05481,
2216 1.02873, 1.01839, 1.02631, 1.06503, 1.32772},
2217 {1.02392, 1.02524, 1.03008, 1.03955, 1.05810, 1.12378,
2218 1.09757, 1.08605, 1.09530, 1.13399, 1.39669},
2219 {1.09270, 1.09418, 1.09911, 1.10854, 1.12714, 1.19281,
2220 1.16502, 1.15633, 1.16427, 1.20271, 1.46574},
2221 {1.16168, 1.16323, 1.16801, 1.17772, 1.19604, 1.26190,
2222 1.23399, 1.22531, 1.23323, 1.27194, 1.53475},
2223 {1.23061, 1.23214, 1.23698, 1.24669, 1.26503, 1.33073,
2224 1.30461, 1.29428, 1.30220, 1.34091, 1.60372},
2225 {1.29960, 1.30110, 1.30596, 1.31544, 1.33398, 1.39962,
2226 1.37228, 1.36323, 1.37121, 1.40988, 1.67273},
2227 {1.36851, 1.37007, 1.37512, 1.38441, 1.40297, 1.46865,
2228 1.44256, 1.43222, 1.44017, 1.47878, 1.74155},
2229 {1.43752, 1.43904, 1.44773, 1.45338, 1.47220, 1.53759,
2230 1.51136, 1.50119, 1.50914, 1.54775, 1.81050},
2231 {1.50646, 1.50802, 1.51288, 1.52237, 1.54097, 1.60697,
2232 1.58049, 1.57018, 1.57811, 1.61678, 1.87947},
2233 {1.57545, 1.57720, 1.58185, 1.59134, 1.60996, 1.67787,
2234 1.64929, 1.63914, 1.64707, 1.68570, 1.94851},
2235 {1.64442, 1.64617, 1.65081, 1.66035, 1.67893, 1.74684,
2236 1.71826, 1.70745, 1.71604, 1.75310, 2.01748},
2237 {1.71337, 1.71513, 1.71978, 1.72932, 1.74645, 1.81346,
2238 1.78739, 1.77642, 1.78501, 1.82151, 2.08644},
2239 {1.78238, 1.78410, 1.78876, 1.79824, 1.81678, 1.88332,
2240 1.85639, 1.84262, 1.85397, 1.89270, 2.15533},
2241 {1.85135, 1.85306, 1.85778, 1.86728, 1.88580, 1.95615,
2242 1.92536, 1.91171, 1.92283, 1.96165, 2.22428},
2243 {1.92774, 1.92184, 1.92672, 1.93618, 1.95477, 2.02048,
2244 1.99427, 1.98068, 1.99192, 2.03062, 2.29338},
2245 {1.98929, 1.99081, 1.99567, 2.00515, 2.02373, 2.08987,
2246 2.06332, 2.05249, 2.05939, 2.09928, 2.36227},
2247 {2.05829, 2.05978, 2.06464, 2.07414, 2.09272, 2.15850,
2248 2.12928, 2.12194, 2.12987, 2.16825, 2.43083},
2249 {2.12726, 2.12869, 2.13360, 2.14425, 2.16160, 2.22872,
2250 2.20118, 2.19078, 2.19876, 2.23416, 2.50007}};
2251
2252 // Garfield simulation at UD = -1900V; vd = 1.610cm/microsec, <driftfield> = 655V/cm
2253 Float_t time1900[ktimebin][kZbin] =
2254 {{0.09166, 0.09198, 0.09298, 0.09467, 0.09707, 0.10023,
2255 0.10431, 0.10980, 0.11828, 0.13988, 0.37789},
2256 {0.06584, 0.06622, 0.06735, 0.06920, 0.07179, 0.07514,
2257 0.07938, 0.08505, 0.09374, 0.11606, 0.35599},
2258 {0.03945, 0.04002, 0.04169, 0.04432, 0.04775, 0.05185,
2259 0.05672, 0.06298, 0.07290, 0.09888, 0.34695},
2260 {0.01109, 0.01281, 0.01717, 0.02279, 0.02878, 0.03476,
2261 0.04094, 0.04909, 0.06421, 0.10597, 0.36823},
2262 {0.01115, 0.01287, 0.01720, 0.02294, 0.02862, 0.03448,
2263 0.04074, 0.04973, 0.06783, 0.11506, 0.37206},
2264 {0.03940, 0.03975, 0.04135, 0.04386, 0.04708, 0.05106,
2265 0.05604, 0.06293, 0.07592, 0.10787, 0.36484},
2266 {0.06500, 0.06534, 0.06638, 0.06811, 0.07060, 0.07413,
2267 0.07852, 0.08491, 0.09614, 0.12446, 0.37626},
2268 {0.09119, 0.09140, 0.09194, 0.09293, 0.09471, 0.00000,
2269 0.11013, 0.11685, 0.13050, 0.16302, 0.41991},
2270 {0.13111, 0.13190, 0.13466, 0.14091, 0.15554, 0.22409,
2271 0.18846, 0.18167, 0.19113, 0.22854, 0.48995},
2272 {0.18849, 0.18975, 0.19380, 0.20185, 0.21797, 0.28050,
2273 0.25368, 0.24575, 0.25446, 0.29249, 0.55442},
2274 {0.24995, 0.25125, 0.25563, 0.26366, 0.27986, 0.34065,
2275 0.31605, 0.30815, 0.31680, 0.35482, 0.61697},
2276 {0.31187, 0.31324, 0.31745, 0.32580, 0.34205, 0.40217,
2277 0.37825, 0.37031, 0.37897, 0.41696, 0.67890},
2278 {0.37401, 0.37531, 0.37955, 0.38777, 0.40395, 0.46408,
2279 0.44037, 0.43242, 0.44108, 0.47906, 0.74122},
2280 {0.43610, 0.43741, 0.44161, 0.44986, 0.46604, 0.52614,
2281 0.50248, 0.49452, 0.50316, 0.54116, 0.80326},
2282 {0.49820, 0.49988, 0.50372, 0.51196, 0.52814, 0.58822,
2283 0.56459, 0.55661, 0.56527, 0.60326, 0.86526},
2284 {0.56032, 0.56161, 0.56582, 0.57408, 0.59024, 0.65032,
2285 0.62670, 0.61872, 0.62737, 0.66537, 0.92749},
2286 {0.62240, 0.62371, 0.62792, 0.63624, 0.65236, 0.71241,
2287 0.68881, 0.68081, 0.68947, 0.72750, 0.98941},
2288 {0.68449, 0.68581, 0.69002, 0.69828, 0.71444, 0.77452,
2289 0.75089, 0.74295, 0.75157, 0.78957, 1.05157},
2290 {0.74660, 0.74790, 0.75212, 0.76036, 0.77654, 0.83748,
2291 0.81299, 0.80501, 0.81193, 0.85168, 1.11375},
2292 {0.80870, 0.81017, 0.81423, 0.82246, 0.83867, 0.89908,
2293 0.87509, 0.86660, 0.87577, 0.91376, 1.17586},
2294 {0.87080, 0.87233, 0.87632, 0.88458, 0.90074, 0.96083,
2295 0.93718, 0.92922, 0.93787, 0.97588, 1.23794},
2296 {0.93291, 0.93422, 0.93844, 0.94667, 0.96293, 1.02295,
2297 0.99929, 0.99127, 0.99997, 1.03797, 1.29995},
2298 {0.99500, 0.99645, 1.00308, 1.00877, 1.02497, 1.08504,
2299 1.06140, 1.05343, 1.06203, 1.10006, 1.36216},
2300 {1.05712, 1.05926, 1.06262, 1.07092, 1.08706, 1.14754,
2301 1.12350, 1.11550, 1.12417, 1.16218, 1.42427},
2302 {1.11921, 1.12059, 1.12473, 1.13297, 1.14916, 1.21140,
2303 1.18560, 1.17284, 1.18625, 1.22414, 1.48629},
2304 {1.18140, 1.18262, 1.18690, 1.19508, 1.21125, 1.27139,
2305 1.24164, 1.23495, 1.24838, 1.28634, 1.54852},
2306 {1.24340, 1.24473, 1.24901, 1.25732, 1.27336, 1.33358,
2307 1.30793, 1.30179, 1.31047, 1.34848, 1.61066},
2308 {1.30551, 1.30684, 1.31104, 1.32056, 1.33553, 1.39609,
2309 1.37004, 1.36392, 1.37045, 1.41057, 1.67259},
2310 {1.36755, 1.36892, 1.37315, 1.39148, 1.39755, 1.45820,
2311 1.43215, 1.42602, 1.43467, 1.47268, 1.73477},
2312 {1.42966, 1.43101, 1.43549, 1.45359, 1.45976, 1.52031,
2313 1.49601, 1.48811, 1.49677, 1.53477, 1.79691},
2314 {1.49180, 1.49321, 1.49760, 1.51570, 1.52175, 1.58185,
2315 1.55771, 1.55023, 1.55888, 1.59672, 1.85501},
2316 {1.55391, 1.55527, 1.55943, 1.57782, 1.58391, 1.64395,
2317 1.62008, 1.61233, 1.62085, 1.65883, 1.92091},
2318 {1.61599, 1.61732, 1.62154, 1.63993, 1.64612, 1.70608,
2319 1.68237, 1.67108, 1.68301, 1.72110, 1.97931},
2320 {1.67808, 1.67948, 1.68364, 1.70204, 1.70823, 1.76858,
2321 1.74404, 1.73539, 1.74512, 1.78321, 2.04522},
2322 {1.74019, 1.74152, 1.74573, 1.76415, 1.77015, 1.83040,
2323 1.80615, 1.79366, 1.80723, 1.84509, 2.10742},
2324 {1.80235, 1.80362, 1.80783, 1.82626, 1.83227, 1.89246,
2325 1.86795, 1.85405, 1.86938, 1.90720, 2.16953},
2326 {1.86442, 1.86572, 1.86994, 1.88837, 1.89438, 1.95445,
2327 1.93006, 1.92283, 1.93148, 1.96931, 2.23147},
2328 {1.92700, 1.92783, 1.93197, 1.95049, 1.95649, 2.01668,
2329 1.99217, 1.98486, 1.99352, 2.03143, 2.29358}};
2330
2331 // Garfield simulation at UD = -2000V; vd = 1.783cm/microsec, <driftfield> = 688V/cm
2332 Float_t time2000[ktimebin][kZbin] =
2333 {{0.09176, 0.09196, 0.09296, 0.09465, 0.09704, 0.10020,
2334 0.10427, 0.10977, 0.11825, 0.13988, 0.37774},
2335 {0.06583, 0.06620, 0.06735, 0.06918, 0.07177, 0.07513,
2336 0.07936, 0.08503, 0.09372, 0.11606, 0.35586},
2337 {0.03944, 0.04001, 0.04170, 0.04431, 0.04774, 0.05184,
2338 0.05670, 0.06296, 0.07291, 0.09893, 0.34680},
2339 {0.01108, 0.01281, 0.01719, 0.02279, 0.02879, 0.03474,
2340 0.04093, 0.04908, 0.06422, 0.10605, 0.36800},
2341 {0.01114, 0.01287, 0.01720, 0.02276, 0.02863, 0.03449,
2342 0.04073, 0.04970, 0.06774, 0.11478, 0.37179},
2343 {0.03925, 0.03977, 0.04135, 0.04386, 0.04711, 0.05108,
2344 0.05604, 0.06290, 0.07580, 0.10748, 0.36386},
2345 {0.06501, 0.06536, 0.06640, 0.06814, 0.07062, 0.07398,
2346 0.07852, 0.08487, 0.09598, 0.12405, 0.37519},
2347 {0.09109, 0.09127, 0.09188, 0.09292, 0.09472, 0.00000,
2348 0.10964, 0.11630, 0.12960, 0.16150, 0.41765},
2349 {0.12898, 0.12968, 0.13209, 0.13749, 0.15034, 0.21286,
2350 0.18088, 0.17590, 0.18591, 0.22254, 0.48315},
2351 {0.18122, 0.18227, 0.18574, 0.19263, 0.20674, 0.26376,
2352 0.23960, 0.23375, 0.24316, 0.28047, 0.54179},
2353 {0.23674, 0.23784, 0.24142, 0.24847, 0.26264, 0.31810,
2354 0.29602, 0.29008, 0.29944, 0.33675, 0.59795},
2355 {0.29279, 0.29382, 0.29742, 0.30448, 0.31865, 0.37364,
2356 0.35215, 0.34629, 0.35555, 0.39286, 0.65411},
2357 {0.34875, 0.34987, 0.35346, 0.36054, 0.37472, 0.42956,
2358 0.40825, 0.40229, 0.41167, 0.44894, 0.71033},
2359 {0.40484, 0.40594, 0.40954, 0.41660, 0.43077, 0.48560,
2360 0.46433, 0.45840, 0.46772, 0.50500, 0.76632},
2361 {0.46090, 0.46201, 0.46560, 0.47267, 0.48684, 0.54167,
2362 0.52041, 0.51449, 0.52382, 0.56108, 0.82227},
2363 {0.51698, 0.51809, 0.52173, 0.52874, 0.54291, 0.59776,
2364 0.57646, 0.57052, 0.57986, 0.61717, 0.87836},
2365 {0.57306, 0.57418, 0.57782, 0.58513, 0.59899, 0.65380,
2366 0.63255, 0.62661, 0.63594, 0.67325, 0.93460},
2367 {0.62912, 0.63024, 0.63383, 0.64103, 0.65506, 0.70988,
2368 0.68484, 0.68267, 0.69202, 0.72878, 0.99046},
2369 {0.68521, 0.68633, 0.68990, 0.69699, 0.71115, 0.76595,
2370 0.74468, 0.73872, 0.74814, 0.78538, 1.04674},
2371 {0.74127, 0.74239, 0.74605, 0.75303, 0.77022, 0.82204,
2372 0.80078, 0.79484, 0.80416, 0.84147, 1.10261},
2373 {0.79736, 0.79846, 0.80206, 0.80947, 0.82330, 0.87813,
2374 0.85688, 0.85087, 0.86023, 0.89752, 1.15874},
2375 {0.85342, 0.85454, 0.85815, 0.86519, 0.87936, 0.93417,
2376 0.91293, 0.90428, 0.91631, 0.95360, 1.20760},
2377 {0.90949, 0.91061, 0.91423, 0.92128, 0.93544, 0.99026,
2378 0.96807, 0.96305, 0.97239, 1.00967, 1.27078},
2379 {0.96556, 0.96669, 0.97111, 0.97734, 0.99151, 1.04664,
2380 1.02508, 1.01879, 1.02846, 1.06167, 1.32695},
2381 {1.02167, 1.02279, 1.02656, 1.03341, 1.04759, 1.10242,
2382 1.08115, 1.07003, 1.08453, 1.12184, 1.38304},
2383 {1.07776, 1.07883, 1.08242, 1.08950, 1.10384, 1.16422,
2384 1.13725, 1.13133, 1.14061, 1.17793, 1.43910},
2385 {1.13379, 1.13492, 1.13864, 1.14567, 1.15973, 1.21455,
2386 1.19323, 1.18734, 1.19668, 1.23401, 1.49528},
2387 {1.18988, 1.19098, 1.19457, 1.20164, 1.21582, 1.27064,
2388 1.24937, 1.24044, 1.25275, 1.29004, 1.55137},
2389 {1.24592, 1.24706, 1.25087, 1.25773, 1.27188, 1.32670,
2390 1.30544, 1.29953, 1.30883, 1.34613, 1.60743},
2391 {1.30202, 1.30313, 1.30673, 1.31381, 1.32797, 1.38278,
2392 1.36151, 1.35167, 1.36490, 1.40221, 1.66306},
2393 {1.35809, 1.35921, 1.36282, 1.36986, 1.38403, 1.43888,
2394 1.41760, 1.41174, 1.42083, 1.45830, 1.71915},
2395 {1.41419, 1.41528, 1.41890, 1.42595, 1.44011, 1.49496,
2396 1.47368, 1.46769, 1.47706, 1.51436, 1.77523},
2397 {1.47131, 1.47141, 1.47494, 1.48850, 1.49620, 1.55137,
2398 1.52977, 1.51820, 1.53315, 1.57042, 1.83158},
2399 {1.52635, 1.52750, 1.53103, 1.53814, 1.55228, 1.60736,
2400 1.58503, 1.57986, 1.58920, 1.62649, 1.88767},
2401 {1.58418, 1.58355, 1.58711, 1.59526, 1.60833, 1.66316,
2402 1.63345, 1.63261, 1.64556, 1.68204, 1.94359},
2403 {1.64027, 1.63958, 1.64489, 1.65024, 1.66443, 1.71925,
2404 1.69794, 1.69201, 1.70143, 1.73865, 1.99968},
2405 {1.69450, 1.69566, 1.69940, 1.70697, 1.71841, 1.77819,
2406 1.75396, 1.74814, 1.75743, 1.79083, 2.05427},
2407 {1.75054, 1.75221, 1.75527, 1.76306, 1.77662, 1.83428,
2408 1.81006, 1.81173, 1.81345, 1.85076, 2.10289}};
2409
2410 // Garfield simulation at UD = -2100V; vd = 1.959cm/microsec, <driftfield> = 720V/cm
2411 Float_t time2100[ktimebin][kZbin] =
2412 {{0.09160, 0.09194, 0.09294, 0.09462, 0.09701, 0.10017,
2413 0.10424, 0.10974, 0.11823, 0.13988, 0.37762},
2414 {0.06585, 0.06619, 0.06731, 0.06916, 0.07174, 0.07509,
2415 0.07933, 0.08500, 0.09370, 0.11609, 0.35565},
2416 {0.03960, 0.04001, 0.04171, 0.04430, 0.04774, 0.05182,
2417 0.05668, 0.06294, 0.07291, 0.09896, 0.34676},
2418 {0.01109, 0.01280, 0.01716, 0.02279, 0.02876, 0.03474,
2419 0.04096, 0.04908, 0.06424, 0.10612, 0.36790},
2420 {0.01114, 0.01285, 0.01719, 0.02287, 0.02863, 0.03449,
2421 0.04073, 0.04964, 0.06759, 0.11446, 0.37162},
2422 {0.03922, 0.03977, 0.04146, 0.04386, 0.04711, 0.05109,
2423 0.05605, 0.06287, 0.07575, 0.10713, 0.36298},
2424 {0.06504, 0.06538, 0.06641, 0.06818, 0.07064, 0.07426,
2425 0.07852, 0.08483, 0.09581, 0.12363, 0.37424},
2426 {0.09103, 0.09129, 0.09186, 0.09291, 0.09476, 0.00000,
2427 0.10923, 0.11578, 0.12873, 0.16005, 0.41525},
2428 {0.12723, 0.12777, 0.12988, 0.13458, 0.14579, 0.20264,
2429 0.17421, 0.17078, 0.18132, 0.21708, 0.47699},
2430 {0.17508, 0.17601, 0.17897, 0.18487, 0.19698, 0.24881,
2431 0.22737, 0.22337, 0.23348, 0.27000, 0.53032},
2432 {0.22571, 0.22663, 0.22969, 0.23570, 0.24787, 0.29826,
2433 0.27871, 0.27462, 0.28471, 0.32122, 0.58166},
2434 {0.27664, 0.27759, 0.28067, 0.28669, 0.29891, 0.34898,
2435 0.32982, 0.32570, 0.33576, 0.37229, 0.63268},
2436 {0.32766, 0.32862, 0.33170, 0.33778, 0.34988, 0.39973,
2437 0.38088, 0.37675, 0.38680, 0.42333, 0.68159},
2438 {0.37872, 0.37966, 0.38275, 0.38875, 0.40093, 0.45073,
2439 0.43192, 0.42780, 0.43786, 0.47438, 0.73480},
2440 {0.42974, 0.43070, 0.43378, 0.43982, 0.45196, 0.50177,
2441 0.48297, 0.47884, 0.48889, 0.52544, 0.78581},
2442 {0.48081, 0.48175, 0.48482, 0.49084, 0.50302, 0.55290,
2443 0.53398, 0.52988, 0.53994, 0.57647, 0.83687},
2444 {0.53645, 0.53295, 0.53586, 0.54188, 0.55408, 0.60398,
2445 0.58504, 0.58092, 0.59100, 0.62768, 0.88773},
2446 {0.58345, 0.58409, 0.58690, 0.59292, 0.60510, 0.65562,
2447 0.63609, 0.63197, 0.64203, 0.67856, 0.93907},
2448 {0.63397, 0.63490, 0.63795, 0.64403, 0.65613, 0.70612,
2449 0.68714, 0.68301, 0.69294, 0.72955, 0.99000},
2450 {0.68496, 0.68592, 0.68899, 0.69504, 0.70733, 0.75708,
2451 0.73818, 0.73405, 0.74412, 0.78064, 1.04100},
2452 {0.73600, 0.73696, 0.74003, 0.74624, 0.75828, 0.80805,
2453 0.78904, 0.78512, 0.79517, 0.83152, 1.09205},
2454 {0.78709, 0.78801, 0.79108, 0.79709, 0.80931, 0.85906,
2455 0.84027, 0.83614, 0.84621, 0.88269, 1.14058},
2456 {0.83808, 0.83905, 0.84215, 0.84816, 0.86031, 0.91011,
2457 0.89139, 0.88718, 0.89725, 0.93377, 1.19413},
2458 {0.88916, 0.89010, 0.89320, 0.89920, 0.91136, 0.96117,
2459 0.94235, 0.93822, 0.94828, 0.98480, 1.24538},
2460 {0.94036, 0.94113, 0.94422, 0.95023, 0.96241, 1.01220,
2461 0.99310, 0.98927, 0.99933, 1.03585, 1.29629},
2462 {0.99139, 0.99220, 0.99525, 1.00127, 1.01344, 1.06324,
2463 1.04451, 1.04033, 1.04836, 1.08690, 1.34727},
2464 {1.04261, 1.04325, 1.04628, 1.05232, 1.06448, 1.12090,
2465 1.09546, 1.09136, 1.10142, 1.13795, 1.39831},
2466 {1.09331, 1.09429, 1.09742, 1.10336, 1.11557, 1.16547,
2467 1.14658, 1.13642, 1.15247, 1.18898, 1.44936},
2468 {1.14436, 1.14539, 1.14847, 1.15443, 1.16662, 1.21794,
2469 1.19763, 1.19329, 1.20349, 1.23956, 1.50043},
2470 {1.19533, 1.19651, 1.19943, 1.20548, 1.21666, 1.26753,
2471 1.24862, 1.24434, 1.25455, 1.29106, 1.55142},
2472 {1.24638, 1.24756, 1.25046, 1.25648, 1.26764, 1.31858,
2473 1.29967, 1.29538, 1.30499, 1.34211, 1.60250},
2474 {1.29747, 1.29847, 1.30175, 1.30753, 1.31869, 1.36969,
2475 1.35069, 1.34656, 1.35663, 1.39316, 1.64644},
2476 {1.35537, 1.34952, 1.35255, 1.35869, 1.36973, 1.41387,
2477 1.40173, 1.39761, 1.40768, 1.44396, 1.70238},
2478 {1.39956, 1.40056, 1.40380, 1.40961, 1.42178, 1.46492,
2479 1.45278, 1.45423, 1.45872, 1.49522, 1.75557},
2480 {1.45080, 1.45159, 1.45463, 1.46109, 1.47287, 1.52263,
2481 1.50382, 1.50050, 1.50977, 1.54502, 1.80670},
2482 {1.50165, 1.50264, 1.50570, 1.51214, 1.52233, 1.57370,
2483 1.55484, 1.55155, 1.56080, 1.59731, 1.85778},
2484 {1.55269, 1.55364, 1.55675, 1.56274, 1.57491, 1.62598,
2485 1.60590, 1.60259, 1.61185, 1.64836, 1.90883},
2486 {1.60368, 1.60469, 1.60779, 1.61373, 1.62596, 1.67738,
2487 1.65651, 1.65249, 1.66290, 1.69936, 1.95959}};
2488
2489 // Garfield simulation at UD = -2200V; vd = 2.134cm/microsec, <driftfield> = 753V/cm
2490 Float_t time2200[ktimebin][kZbin] =
2491 {{0.09162, 0.09194, 0.09292, 0.09460, 0.09702, 0.10014,
2492 0.10421, 0.10971, 0.11820, 0.13990, 0.37745},
2493 {0.06581, 0.06618, 0.06730, 0.06915, 0.07173, 0.07507,
2494 0.07931, 0.08497, 0.09368, 0.11609, 0.35560},
2495 {0.03947, 0.04001, 0.04167, 0.04429, 0.04772, 0.05183,
2496 0.05667, 0.06293, 0.07292, 0.09900, 0.34673},
2497 {0.01111, 0.01280, 0.01716, 0.02279, 0.02876, 0.03473,
2498 0.04091, 0.04907, 0.06426, 0.10620, 0.36766},
2499 {0.01113, 0.01285, 0.01719, 0.02276, 0.02863, 0.03452,
2500 0.04076, 0.04960, 0.06745, 0.11419, 0.37139},
2501 {0.03923, 0.03978, 0.04137, 0.04387, 0.04713, 0.05110,
2502 0.05605, 0.06284, 0.07551, 0.10677, 0.36210},
2503 {0.06505, 0.06540, 0.06644, 0.06820, 0.07069, 0.07401,
2504 0.07852, 0.08479, 0.09565, 0.12325, 0.37313},
2505 {0.09107, 0.09127, 0.09181, 0.09291, 0.09474, 0.00000,
2506 0.10883, 0.11528, 0.12789, 0.15865, 0.41313},
2507 {0.12559, 0.12622, 0.12800, 0.13206, 0.14166, 0.19331,
2508 0.16832, 0.16632, 0.17724, 0.21218, 0.47098},
2509 {0.16992, 0.17070, 0.17325, 0.17831, 0.18871, 0.23557,
2510 0.21690, 0.21451, 0.22514, 0.26082, 0.52034},
2511 {0.21640, 0.21722, 0.21987, 0.22500, 0.23540, 0.28097,
2512 0.26399, 0.26154, 0.27214, 0.30784, 0.56734},
2513 {0.26318, 0.26400, 0.26679, 0.27181, 0.28220, 0.32739,
2514 0.31090, 0.30842, 0.31902, 0.35474, 0.61415},
2515 {0.31001, 0.31085, 0.31348, 0.31866, 0.32903, 0.37412,
2516 0.35777, 0.35546, 0.36588, 0.40159, 0.66103},
2517 {0.35687, 0.35769, 0.36033, 0.36556, 0.37588, 0.42094,
2518 0.40523, 0.40214, 0.41273, 0.44841, 0.70785},
2519 {0.40372, 0.40457, 0.40723, 0.41234, 0.42273, 0.46778,
2520 0.45148, 0.44903, 0.45961, 0.49526, 0.75486},
2521 {0.45062, 0.45139, 0.45404, 0.45966, 0.46958, 0.51470,
2522 0.49833, 0.49584, 0.50644, 0.54211, 0.80160},
2523 {0.49742, 0.49825, 0.50088, 0.50605, 0.51644, 0.56148,
2524 0.54518, 0.54270, 0.55330, 0.58897, 0.84854},
2525 {0.54427, 0.54510, 0.54774, 0.55290, 0.56329, 0.60846,
2526 0.59203, 0.58955, 0.60014, 0.63578, 0.89528},
2527 {0.59119, 0.59199, 0.59471, 0.59975, 0.61014, 0.65533,
2528 0.63889, 0.63636, 0.64699, 0.68269, 0.94197},
2529 {0.63866, 0.63880, 0.64145, 0.64664, 0.65701, 0.70639,
2530 0.68574, 0.68325, 0.69385, 0.72949, 0.98900},
2531 {0.68483, 0.68566, 0.68831, 0.69347, 0.70386, 0.74890,
2532 0.73260, 0.73010, 0.74069, 0.77638, 1.03320},
2533 {0.73168, 0.73255, 0.73515, 0.74031, 0.75072, 0.79576,
2534 0.77117, 0.77501, 0.78755, 0.82318, 1.08006},
2535 {0.77854, 0.78310, 0.78200, 0.79525, 0.79756, 0.84281,
2536 0.81803, 0.82393, 0.83441, 0.87008, 1.12692},
2537 {0.82541, 0.82642, 0.82916, 0.83528, 0.84442, 0.89086,
2538 0.87315, 0.87079, 0.88125, 0.91694, 1.17648},
2539 {0.87226, 0.87308, 0.87602, 0.88086, 0.89128, 0.93772,
2540 0.92001, 0.91751, 0.92811, 0.95587, 1.22328},
2541 {0.91921, 0.91994, 0.92256, 0.92772, 0.94713, 0.98566,
2542 0.96690, 0.96436, 0.97495, 1.01064, 1.26882},
2543 {0.96790, 0.96679, 0.96941, 0.97463, 0.99399, 1.03001,
2544 1.01376, 1.01112, 1.02181, 1.05749, 1.31568},
2545 {1.01278, 1.01390, 1.01674, 1.02147, 1.03182, 1.07820,
2546 1.06056, 1.05798, 1.06867, 1.10433, 1.36390},
2547 {1.05964, 1.06076, 1.06331, 1.06833, 1.07870, 1.13297,
2548 1.10742, 1.10520, 1.11543, 1.15120, 1.41069},
2549 {1.10664, 1.10762, 1.10997, 1.11519, 1.12556, 1.17531,
2550 1.15427, 1.14620, 1.16229, 1.19805, 1.45758},
2551 {1.15352, 1.15421, 1.15683, 1.16218, 1.17242, 1.21910,
2552 1.20035, 1.19863, 1.20579, 1.24473, 1.50412},
2553 {1.20019, 1.20115, 1.20369, 1.20892, 1.21928, 1.26913,
2554 1.24721, 1.24549, 1.25605, 1.29159, 1.54920},
2555 {1.24707, 1.24846, 1.25052, 1.25602, 1.26608, 1.31558,
2556 1.29448, 1.29232, 1.30293, 1.33675, 1.59798},
2557 {1.29391, 1.29475, 1.29738, 1.30255, 1.31294, 1.36244,
2558 1.34167, 1.33918, 1.34979, 1.38229, 1.64496},
2559 {1.34078, 1.34304, 1.34424, 1.35565, 1.35980, 1.40930,
2560 1.38853, 1.38229, 1.39664, 1.42863, 1.69162},
2561 {1.38762, 1.38847, 1.39110, 1.39627, 1.40666, 1.45183,
2562 1.43539, 1.43289, 1.44348, 1.47549, 1.73876},
2563 {1.43524, 1.43533, 1.43796, 1.44310, 1.45371, 1.49305,
2564 1.48224, 1.47941, 1.49034, 1.52601, 1.78552},
2565 {1.48122, 1.48219, 1.48482, 1.48991, 1.50030, 1.53991,
2566 1.52898, 1.52653, 1.53653, 1.57282, 1.82386}};
2567
4d18a639 2568 if (fTimeStruct1) {
2569 delete [] fTimeStruct1;
2570 }
2571 fTimeStruct1 = new Float_t[ktimebin*kZbin];
2572
2573 if (fTimeStruct2) {
2574 delete [] fTimeStruct2;
2575 }
2576 fTimeStruct2 = new Float_t[ktimebin*kZbin];
2577
2578 for (Int_t ctrt = 0; ctrt < ktimebin; ctrt++) {
2579 for (Int_t ctrz = 0; ctrz < kZbin; ctrz++) {
2580 if (vdrift > fVDsmp[6]) {
2581 fTimeStruct1[ctrt+ctrz*ktimebin] = time2100[ctrt][ctrz];
2582 fTimeStruct2[ctrt+ctrz*ktimebin] = time2200[ctrt][ctrz];
2583 fVDlo = fVDsmp[6];
2584 fVDhi = fVDsmp[7];
2585 }
2586 else if (vdrift > fVDsmp[5]) {
2587 fTimeStruct1[ctrt+ctrz*ktimebin] = time2000[ctrt][ctrz];
2588 fTimeStruct2[ctrt+ctrz*ktimebin] = time2100[ctrt][ctrz];
2589 fVDlo = fVDsmp[5];
2590 fVDhi = fVDsmp[6];
2591 }
2592 else if (vdrift > fVDsmp[4]) {
2593 fTimeStruct1[ctrt+ctrz*ktimebin] = time1900[ctrt][ctrz];
2594 fTimeStruct2[ctrt+ctrz*ktimebin] = time2000[ctrt][ctrz];
2595 fVDlo = fVDsmp[4];
2596 fVDhi = fVDsmp[5];
2597 }
2598 else if (vdrift > fVDsmp[3]) {
2599 fTimeStruct1[ctrt+ctrz*ktimebin] = time1800[ctrt][ctrz];
2600 fTimeStruct2[ctrt+ctrz*ktimebin] = time1900[ctrt][ctrz];
2601 fVDlo = fVDsmp[3];
2602 fVDhi = fVDsmp[4];
2603 }
2604 else if (vdrift > fVDsmp[2]) {
2605 fTimeStruct1[ctrt+ctrz*ktimebin] = time1700[ctrt][ctrz];
2606 fTimeStruct2[ctrt+ctrz*ktimebin] = time1800[ctrt][ctrz];
2607 fVDlo = fVDsmp[2];
2608 fVDhi = fVDsmp[3];
2609 }
2610 else if (vdrift > fVDsmp[1]) {
2611 fTimeStruct1[ctrt+ctrz*ktimebin] = time1600[ctrt][ctrz];
2612 fTimeStruct2[ctrt+ctrz*ktimebin] = time1700[ctrt][ctrz];
2613 fVDlo = fVDsmp[1];
2614 fVDhi = fVDsmp[2];
2615 }
2616 else if (vdrift > (fVDsmp[0] - 1.0e-5)) {
2617 fTimeStruct1[ctrt+ctrz*ktimebin] = time1500[ctrt][ctrz];
2618 fTimeStruct2[ctrt+ctrz*ktimebin] = time1600[ctrt][ctrz];
2619 fVDlo = fVDsmp[0];
2620 fVDhi = fVDsmp[1];
3551db50 2621 }
2622 }
2623 }
4d18a639 2624
3551db50 2625}
2626
2627//_____________________________________________________________________________
2628void AliTRDdigitizer::RecalcDiffusion(Float_t vdrift)
2629{
4d18a639 2630 //
2631 // Recalculates the diffusion parameters
2632 //
0dbeb81c 2633 // The B=0 case is not really included here.
2634 // Should be revisited!
2635 //
4d18a639 2636
2637 if (vdrift == fDiffLastVdrift) {
3551db50 2638 return;
4d18a639 2639 }
7754cd1f 2640
4d18a639 2641 AliTRDSimParam *simParam = AliTRDSimParam::Instance();
9afbd7de 2642 if (!simParam) {
4329977a 2643 AliFatal("Could not get simulation parameters");
3551db50 2644 return;
2645 }
2646
4d18a639 2647 AliTRDCommonParam *commonParam = AliTRDCommonParam::Instance();
9afbd7de 2648 if (!commonParam) {
4329977a 2649 AliFatal("Could not get common parameters");
3551db50 2650 return;
2651 }
2652
4d18a639 2653 AliTRDcalibDB *calibration = AliTRDcalibDB::Instance();
9afbd7de 2654 if (!calibration) {
4329977a 2655 AliFatal("Could not get calibration object");
3551db50 2656 return;
2657 }
2658
4e009ce4 2659 // The magnetic field strength
1b95a37b 2660 Double_t x[3] = { 0.0, 0.0, 0.0 };
2661 Double_t b[3];
4e009ce4 2662 gAlice->Field(x,b); // b[] is in kilo Gauss
1b95a37b 2663 Float_t field = b[2] * 0.1; // Tesla
1b95a37b 2664
4d18a639 2665 fDiffLastVdrift = vdrift;
3551db50 2666
9afbd7de 2667 // DiffusionL
4d18a639 2668 const Int_t kNbL = 5;
2669 Float_t p0L[kNbL] = { 0.007440, 0.007493, 0.007513, 0.007672, 0.007831 };
2670 Float_t p1L[kNbL] = { 0.019252, 0.018912, 0.018636, 0.018012, 0.017343 };
2671 Float_t p2L[kNbL] = { -0.005042, -0.004926, -0.004867, -0.004650, -0.004424 };
2672 Float_t p3L[kNbL] = { 0.000195, 0.000189, 0.000195, 0.000182, 0.000169 };
2673
2674 Int_t ibL = ((Int_t) (10 * (field - 0.15)));
2675 ibL = TMath::Max( 0,ibL);
2676 ibL = TMath::Min(kNbL,ibL);
2677
2678 fDiffusionL = p0L[ibL]
2679 + p1L[ibL] * vdrift
2680 + p2L[ibL] * vdrift*vdrift
2681 + p3L[ibL] * vdrift*vdrift*vdrift;
3551db50 2682
9afbd7de 2683 // DiffusionT
4d18a639 2684 const Int_t kNbT = 5;
2685 Float_t p0T[kNbT] = { 0.009550, 0.009599, 0.009674, 0.009757, 0.009850 };
2686 Float_t p1T[kNbT] = { 0.006667, 0.006539, 0.006359, 0.006153, 0.005925 };
2687 Float_t p2T[kNbT] = { -0.000853, -0.000798, -0.000721, -0.000635, -0.000541 };
2688 Float_t p3T[kNbT] = { 0.000131, 0.000122, 0.000111, 0.000098, 0.000085 };
2689
2690 Int_t ibT= ((Int_t) (10 * (field - 0.15)));
2691 ibT = TMath::Max( 0,ibT);
2692 ibT = TMath::Min(kNbT,ibT);
2693
2694 fDiffusionT = p0T[ibT]
2695 + p1T[ibT] * vdrift
2696 + p2T[ibT] * vdrift*vdrift
2697 + p3T[ibT] * vdrift*vdrift*vdrift;
3551db50 2698
9afbd7de 2699 // OmegaTau
4e009ce4 2700 fOmegaTau = calibration->GetOmegaTau(vdrift,field);
1b95a37b 2701
9afbd7de 2702 // Lorentzfactor
4d18a639 2703 if (commonParam->ExBOn()) {
2704 fLorentzFactor = 1.0 / (1.0 + fOmegaTau*fOmegaTau);
2705 }
2706 else {
2707 fLorentzFactor = 1.0;
3551db50 2708 }
9afbd7de 2709
3551db50 2710}
2711
2712//_____________________________________________________________________________
2713Float_t AliTRDdigitizer::GetDiffusionL(Float_t vdrift)
2714{
2715 //
2716 // Returns the longitudinal diffusion coefficient for a given drift
2717 // velocity <vd> and a B-field <b> for Xe/CO2 (15%).
2718 // The values are according to a GARFIELD simulation.
2719 //
2720
2721 RecalcDiffusion(vdrift);
4d18a639 2722
2723 return fDiffusionL;
9afbd7de 2724
3551db50 2725}
2726
2727//_____________________________________________________________________________
2728Float_t AliTRDdigitizer::GetDiffusionT(Float_t vdrift)
2729{
2730 //
2731 // Returns the transverse diffusion coefficient for a given drift
2732 // velocity <vd> and a B-field <b> for Xe/CO2 (15%).
2733 // The values are according to a GARFIELD simulation.
2734 //
2735
2736 RecalcDiffusion(vdrift);
4d18a639 2737
2738 return fDiffusionT;
9afbd7de 2739
3551db50 2740}
2741
2742//_____________________________________________________________________________
4329977a 2743Int_t AliTRDdigitizer::Diffusion(Float_t vdrift, Double_t absdriftlength
2744 , Double_t &lRow, Double_t &lCol, Double_t &lTime)
3551db50 2745{
2746 //
4329977a 2747 // Applies the diffusion smearing to the position of a single electron.
2748 // Depends on absolute drift length.
3551db50 2749 //
2750
2751 RecalcDiffusion(vdrift);
2752
4329977a 2753 Float_t driftSqrt = TMath::Sqrt(absdriftlength);
4d18a639 2754 Float_t sigmaT = driftSqrt * fDiffusionT;
2755 Float_t sigmaL = driftSqrt * fDiffusionL;
4329977a 2756 lRow = gRandom->Gaus(lRow ,sigmaT);
2757 lCol = gRandom->Gaus(lCol ,sigmaT * GetLorentzFactor(vdrift));
2758 lTime = gRandom->Gaus(lTime,sigmaL * GetLorentzFactor(vdrift));
3551db50 2759
2760 return 1;
9afbd7de 2761
3551db50 2762}
2763
2764//_____________________________________________________________________________
2765Float_t AliTRDdigitizer::GetLorentzFactor(Float_t vd)
2766{
9afbd7de 2767 //
2768 // Returns the recalculated Lorentz factor
2769 //
2770
3551db50 2771 RecalcDiffusion(vd);
4d18a639 2772
2773 return fLorentzFactor;
9afbd7de 2774
3551db50 2775}
2776
2777//_____________________________________________________________________________
4329977a 2778Int_t AliTRDdigitizer::ExB(Float_t vdrift, Double_t driftlength, Double_t &lCol)
3551db50 2779{
2780 //
4329977a 2781 // Applies E x B effects to the position of a single electron.
2782 // Depends on signed drift length.
3551db50 2783 //
2784
2785 RecalcDiffusion(vdrift);
4329977a 2786
2787 lCol = lCol + fOmegaTau * driftlength;
3551db50 2788
2789 return 1;
9afbd7de 2790
3551db50 2791}