1 /**************************************************************************
2 * Copyright(c) 2007-2009, ALICE Experiment at CERN, All rights reserved. *
4 * Author: The ALICE Off-line Project. *
5 * Contributors are mentioned in the code where appropriate. *
7 * Permission to use, copy, modify and distribute this software and its *
8 * documentation strictly for non-commercial purposes is hereby granted *
9 * without fee, provided that the above copyright notice appears in all *
10 * copies and that both the copyright notice and this permission notice *
11 * appear in the supporting documentation. The authors make no claims *
12 * about the suitability of this software for any purpose. It is *
13 * provided "as is" without express or implied warranty. *
14 **************************************************************************/
16 #include "AliITSRecoParam.h"
21 ///////////////////////////////////////////////////////////////////////////////
23 // Class with ITS reconstruction parameters //
24 // Origin: andrea.dainese@lnl.infn.it //
26 ///////////////////////////////////////////////////////////////////////////////
30 ClassImp(AliITSRecoParam)
32 const Int_t AliITSRecoParam::fgkLayersNotToSkip[AliITSgeomTGeo::kNLayers]={0,0,0,0,0,0};
33 const Int_t AliITSRecoParam::fgkLastLayerToTrackTo=0;
34 const Int_t AliITSRecoParam::fgkMaxDetectorPerLayer=1000;
35 const Double_t AliITSRecoParam::fgkriw=80.0;
36 const Double_t AliITSRecoParam::fgkdiw=0.0053;
37 const Double_t AliITSRecoParam::fgkX0iw=30.0;
38 const Double_t AliITSRecoParam::fgkrcd=61.0;
39 const Double_t AliITSRecoParam::fgkdcd=0.0053;
40 const Double_t AliITSRecoParam::fgkX0cd=30.0;
41 const Double_t AliITSRecoParam::fgkyr=12.8;
42 const Double_t AliITSRecoParam::fgkdr=0.03;
43 const Double_t AliITSRecoParam::fgkzm=0.2;
44 const Double_t AliITSRecoParam::fgkdm=0.40;
45 const Double_t AliITSRecoParam::fgkrs=50.0;
46 const Double_t AliITSRecoParam::fgkds=0.001;
47 const Double_t AliITSRecoParam::fgkrInsideITSscreen=49.0;
48 const Double_t AliITSRecoParam::fgkrInsideSPD1=3.5;
49 const Double_t AliITSRecoParam::fgkrPipe=3.;
50 const Double_t AliITSRecoParam::fgkrInsidePipe=2.7;
51 const Double_t AliITSRecoParam::fgkrOutsidePipe=3.3;
52 const Double_t AliITSRecoParam::fgkdPipe=0.0028;
53 const Double_t AliITSRecoParam::fgkrInsideShield[2]={7.5,25.0};
54 const Double_t AliITSRecoParam::fgkrOutsideShield[2]={10.5,30.0};
55 const Double_t AliITSRecoParam::fgkdshield[2]={0.0097,0.0034};
56 const Double_t AliITSRecoParam::fgkX0shield[2]={38.6,42.0};
57 const Double_t AliITSRecoParam::fgkX0Air=21.82;
58 const Double_t AliITSRecoParam::fgkX0Be=65.19;
59 const Double_t AliITSRecoParam::fgkBoundaryWidth=0.2;
60 const Double_t AliITSRecoParam::fgkDeltaXNeighbDets=0.5;
61 const Double_t AliITSRecoParam::fgkSPDdetzlength=6.960; // 7.072-2*0.056
62 const Double_t AliITSRecoParam::fgkSPDdetxlength=1.298; // 1.410-2*0.056
64 //_____________________________________________________________________________
65 AliITSRecoParam::AliITSRecoParam() : AliDetectorRecoParam(),
73 fVtxr3DZCutNarrow(0.),
74 fVtxr3DRCutNarrow(0.),
75 fVtxr3DPhiCutLoose(0.),
76 fVtxr3DPhiCutTight(0.),
80 fNSigmaYLayerForRoadY(0),
82 fNSigmaZLayerForRoadZ(0),
89 fMaxNormChi2NonCForHypothesis(0),
102 fMaxDZToUseConstraint(0),
103 fMaxDforV0dghtrForProlongation(0),
104 fMaxDForProlongation(0),
105 fMaxDZForProlongation(0),
106 fMinPtForProlongation(0),
107 fAddVirtualClustersInDeadZone(kFALSE),
109 fSigmaXDeadZoneHit2(0),
110 fSigmaZDeadZoneHit2(0),
111 fXPassDeadZoneHits(0),
112 fUseTGeoInTracker(3),
114 fAllowSharedClusters(kTRUE),
115 fClusterErrorsParam(1),
116 fComputePlaneEff(kFALSE),
117 fHistoPlaneEff(kFALSE),
118 fUseTrackletsPlaneEff(kFALSE),
119 fMCTrackletsPlaneEff(kFALSE),
120 fBkgTrackletsPlaneEff(kFALSE),
121 fTrackleterPhiWindowL1(0.10),
122 fTrackleterPhiWindowL2(0.07),
123 fTrackleterZetaWindowL1(0.6),
124 fTrackleterZetaWindowL2(0.4),
125 fUpdateOncePerEventPlaneEff(kTRUE),
126 fMinContVtxPlaneEff(3),
128 fReadPlaneEffFromOCDB(kFALSE),
130 fMaxMissingClustersPlaneEff(0),
131 fRequireClusterInOuterLayerPlaneEff(kFALSE),
132 fRequireClusterInInnerLayerPlaneEff(kFALSE),
133 fOnlyConstraintPlaneEff(kFALSE),
134 fExtendedEtaAcceptance(kFALSE),
135 fUseBadZonesFromOCDB(kTRUE),
136 fUseSingleBadChannelsFromOCDB(kFALSE),
137 fMinFractionOfBadInRoad(0),
138 fAllowProlongationWithEmptyRoad(kFALSE),
139 fInwardFlagSA(kFALSE),
140 fOuterStartLayerSA(2),
141 fInnerStartLayerSA(3),
143 fFactorSAWindowSizes(1.),
149 fMinClusterChargeSA(0.),
150 fSAOnePointTracks(kFALSE),
151 fSAUseAllClusters(kFALSE),
153 fStoreLikeSignV0s(kFALSE),
154 fUseUnfoldingInClusterFinderSPD(kFALSE),
155 fUseUnfoldingInClusterFinderSDD(kTRUE),
156 fUseUnfoldingInClusterFinderSSD(kFALSE),
157 fUseBadChannelsInClusterFinderSSD(kFALSE),
158 fUseSDDCorrectionMaps(kTRUE),
159 fUseSDDClusterSizeSelection(kFALSE),
160 fMinClusterChargeSDD(0.),
161 fUseChargeMatchingInClusterFinderSSD(kTRUE),
162 fTrackleterPhiWindow(0.08),
163 fTrackleterThetaWindow(0.025),
164 fTrackleterPhiShift(0.0045),
165 fTrackleterRemoveClustersFromOverlaps(kFALSE),
166 fTrackleterPhiOverlapCut(0.005),
167 fTrackleterZetaOverlapCut(0.05),
168 fUseCosmicRunShiftsSSD(kFALSE),
169 fSPDRemoveNoisyFlag(kTRUE),
170 fSPDRemoveDeadFlag(kTRUE),
171 fVertexerFastSmearX(0.005),
172 fVertexerFastSmearY(0.005),
173 fVertexerFastSmearZ(0.01),
174 fAlignFilterCosmics(kFALSE),
175 fAlignFilterCosmicMergeTracks(kTRUE),
176 fAlignFilterMinITSPoints(4),
177 fAlignFilterMinITSPointsMerged(4),
178 fAlignFilterOnlyITSSATracks(kTRUE),
179 fAlignFilterOnlyITSTPCTracks(kFALSE),
180 fAlignFilterSkipExtra(kFALSE),
181 fAlignFilterMaxMatchingAngle(0.085),
182 fAlignFilterMinAngleWrtModulePlanes(0.52),
183 fAlignFilterMinPt(0.),
184 fAlignFilterMaxPt(1.e10),
185 fAlignFilterFillQANtuples(kTRUE),
194 SetLayersParameters();
195 for(Int_t i=0; i<AliITSgeomTGeo::kNLayers; i++) fLayersToSkip[i]=0;
196 SetUseTGeoInTracker(3);
198 SetAllowSharedClusters(kTRUE);
200 SetAddVirtualClustersInDeadZone(kFALSE);
201 SetUseAmplitudeInfo(kTRUE);
202 SetClusterErrorsParam(1);
203 SetClusterMisalError(0.);
204 SetClusterMisalErrorBOn(0.);
205 SetVertexer3DDefaults();
207 for(Int_t i=0; i<AliITSgeomTGeo::kNLayers; i++) fAlignFilterUseLayer[i]=kTRUE;
208 fESDV0Params = new AliESDV0Params();
210 fESDV0Params->SetMaxDist0(0.1);
211 fESDV0Params->SetMaxDist1(0.1);
212 fESDV0Params->SetMaxDist(1.);
213 fESDV0Params->SetMinPointAngle(0.85);
214 fESDV0Params->SetMinPointAngle2(0.99);
215 fESDV0Params->SetMinR(0.5);
216 fESDV0Params->SetMaxR(220.);
217 fESDV0Params->SetMinPABestConst(0.9999);
218 fESDV0Params->SetMaxRBestConst(10.);
219 fESDV0Params->SetCausality0Cut(0.19);
220 fESDV0Params->SetLikelihood01Cut(0.45);
221 fESDV0Params->SetLikelihood1Cut(0.5);
222 fESDV0Params->SetCombinedCut(0.55);
223 fESDV0Params->SetMinClFullTrk(5.0);
224 fESDV0Params->SetMinTgl0(1.05);
225 fESDV0Params->SetMinRTgl0(40.0);
227 fESDV0Params->SetMinNormDistForbTgl0(3.0);
228 fESDV0Params->SetMinClForb0(4.5);
229 fESDV0Params->SetMinNormDistForb1(3.0);
230 fESDV0Params->SetMinNormDistForb2(2.0);
231 fESDV0Params->SetMinNormDistForb3(1.0);
232 fESDV0Params->SetMinNormDistForb4(4.0);
233 fESDV0Params->SetMinNormDistForb5(5.0);
235 fESDV0Params->SetMinRTPCdensity(40.);
236 fESDV0Params->SetMaxRTPCdensity0(110.);
237 fESDV0Params->SetMaxRTPCdensity10(120.);
238 fESDV0Params->SetMaxRTPCdensity20(130.);
239 fESDV0Params->SetMaxRTPCdensity30(140.);
241 fESDV0Params->SetMinTPCdensity(0.6);
242 fESDV0Params->SetMinTgl1(1.1);
243 fESDV0Params->SetMinTgl2(1.0);
244 fESDV0Params->SetMinchi2before0(16.);
245 fESDV0Params->SetMinchi2before1(16.);
246 fESDV0Params->SetMinchi2after0(16.);
247 fESDV0Params->SetMinchi2after1(16.);
248 fESDV0Params->SetAddchi2SharedCl(18.);
249 fESDV0Params->SetAddchi2NegCl0(25.);
250 fESDV0Params->SetAddchi2NegCl1(30.);
251 fESDV0Params->SetSigp0Par0(0.0001);
252 fESDV0Params->SetSigp0Par1(0.001);
253 fESDV0Params->SetSigp0Par2(0.1);
254 fESDV0Params->SetSigpPar0(0.5);
255 fESDV0Params->SetSigpPar1(0.6);
256 fESDV0Params->SetSigpPar2(0.4);
257 fESDV0Params->SetMaxDcaLh0(0.5);
258 fESDV0Params->SetStreamLevel(0);
259 fESDV0Params->SetChi2KF(100);
260 fESDV0Params->SetRobustChi2KF(100);
263 //_____________________________________________________________________________
264 AliITSRecoParam::~AliITSRecoParam()
274 //_____________________________________________________________________________
275 AliITSRecoParam *AliITSRecoParam::GetHighFluxParam()
278 // make default reconstruction parameters for hig flux env.
280 AliITSRecoParam *param = new AliITSRecoParam();
281 param->SetVertexerZ();
283 // use of bads from OCDB
284 param->SetUseBadZonesFromOCDB(kTRUE);
285 param->SetUseSingleBadChannelsFromOCDB(kFALSE);
286 // extended eta acceptance
287 param->SetExtendedEtaAcceptance(kFALSE);
288 // allow to skip layer if no cluster and no bad
289 param->SetAllowProlongationWithEmptyRoad(kFALSE);
292 param->fMaxSnp = 0.95;
294 param->fNSigmaYLayerForRoadY = 4.;
295 param->fNSigmaRoadY = 7.5;
296 param->fNSigmaZLayerForRoadZ = 4.;
297 param->fNSigmaRoadZ = 7.5;
299 param->fNSigma2RoadZC = 60.; //7.75^2
300 param->fNSigma2RoadYC = 60.; //7.75^2
301 param->fNSigma2RoadZNonC = 50.; //7.07^2
302 param->fNSigma2RoadYNonC = 50.; //7.07^2
304 param->fMaxChi2PerCluster[0] = 11.; //7
305 param->fMaxChi2PerCluster[1] = 12.; //5
306 param->fMaxChi2PerCluster[2] = 12.; //8
307 param->fMaxChi2PerCluster[3] = 5.; //8
308 param->fMaxChi2PerCluster[4] = 12.; //6.5
310 param->fMaxNormChi2NonC[0] = 7.;
311 param->fMaxNormChi2NonC[1] = 8.;
312 param->fMaxNormChi2NonC[2] = 8.;
313 param->fMaxNormChi2NonC[3] = 11.;
314 param->fMaxNormChi2NonC[4] = 14.;
315 param->fMaxNormChi2NonC[5] = 25.;
317 param->fMaxNormChi2C[0] = 11.;
318 param->fMaxNormChi2C[1] = 13.;
319 param->fMaxNormChi2C[2] = 15.;
320 param->fMaxNormChi2C[3] = 18.;
321 param->fMaxNormChi2C[4] = 30.;
322 param->fMaxNormChi2C[5] = 35.;
324 param->fMaxNormChi2NonCForHypothesis = 7.;
326 param->fMaxChi2 = 35.;
328 param->fMaxChi2s[0] = 25.; //40
329 param->fMaxChi2s[1] = 25.; //40
330 param->fMaxChi2s[2] = 25.; //40
331 param->fMaxChi2s[3] = 25.; //40
332 param->fMaxChi2s[4] = 40.; //40
333 param->fMaxChi2s[5] = 50.; //40
335 param->fMaxRoad = 6.;
338 param->fMaxChi2In = 16.;
340 param->fMaxChi2sR[0] = 10.;
341 param->fMaxChi2sR[1] = 10.;
342 param->fMaxChi2sR[2] = 10.;
343 param->fMaxChi2sR[3] = 10.;
344 param->fMaxChi2sR[4] = 30.;
345 param->fMaxChi2sR[5] = 40.;
347 param->fChi2PerCluster = 9.;
353 param->fSigmaXV = 0.0050;
354 param->fSigmaYV = 0.0050;
355 param->fSigmaZV = 0.0100;
357 param->fVertexCut = 25.;
359 param->fMaxDZforPrimTrk = 0.4;
360 param->fMaxDZToUseConstraint = 3.;
362 param->fMaxDforV0dghtrForProlongation = 30.;
363 param->fMaxDForProlongation = 40.;//10.;
364 param->fMaxDZForProlongation = 60.;//20.;
365 param->fMinPtForProlongation = 0.120;
367 param->fZWindowDeadZone = 2.0;
368 param->fSigmaXDeadZoneHit2 = 0.004/12.;
369 param->fSigmaZDeadZoneHit2 = 0.001/12.;
370 param->fXPassDeadZoneHits = 0.018;
376 //_____________________________________________________________________________
377 AliITSRecoParam *AliITSRecoParam::GetLowFluxParam()
380 // make default reconstruction parameters for low flux env.
382 AliITSRecoParam *param = new AliITSRecoParam();
383 param->SetVertexer3DDefaults();
385 // full use of bads from OCDB
386 param->SetUseBadZonesFromOCDB(kTRUE);
387 param->SetUseSingleBadChannelsFromOCDB(kTRUE);
388 // extended eta acceptance
389 param->SetExtendedEtaAcceptance(kTRUE);
390 // allow to skip layer if no cluster and no bad
391 param->SetAllowProlongationWithEmptyRoad(kTRUE);
394 param->fMaxSnp = 0.95;
396 param->fNSigmaYLayerForRoadY = 4.;
397 param->fNSigmaRoadY = 7.5;
398 param->fNSigmaZLayerForRoadZ = 4.;
399 param->fNSigmaRoadZ = 7.5;
401 param->fNSigma2RoadZC = 60.; //7.75^2
402 param->fNSigma2RoadYC = 60.; //7.75^2
403 param->fNSigma2RoadZNonC = 50.; //7.07^2
404 param->fNSigma2RoadYNonC = 50.; //7.07^2
406 param->fMaxChi2PerCluster[0] = 11.; //7
407 param->fMaxChi2PerCluster[1] = 12.; //5
408 param->fMaxChi2PerCluster[2] = 12.; //8
409 param->fMaxChi2PerCluster[3] = 5.; //8
410 param->fMaxChi2PerCluster[4] = 12.; //6.5
412 param->fMaxNormChi2NonC[0] = 7.;
413 param->fMaxNormChi2NonC[1] = 8.;
414 param->fMaxNormChi2NonC[2] = 8.;
415 param->fMaxNormChi2NonC[3] = 11.;
416 param->fMaxNormChi2NonC[4] = 14.;
417 param->fMaxNormChi2NonC[5] = 25.;
419 param->fMaxNormChi2C[0] = 11.;
420 param->fMaxNormChi2C[1] = 13.;
421 param->fMaxNormChi2C[2] = 15.;
422 param->fMaxNormChi2C[3] = 18.;
423 param->fMaxNormChi2C[4] = 30.;
424 param->fMaxNormChi2C[5] = 35.;
426 param->fMaxNormChi2NonCForHypothesis = 7.;
428 param->fMaxChi2 = 35.;
430 param->fMaxChi2s[0] = 25.; //40
431 param->fMaxChi2s[1] = 25.; //40
432 param->fMaxChi2s[2] = 25.; //40
433 param->fMaxChi2s[3] = 25.; //40
434 param->fMaxChi2s[4] = 40.; //40
435 param->fMaxChi2s[5] = 50.; //40
437 param->fMaxRoad = 6.;
440 param->fMaxChi2In = 16.;
442 param->fMaxChi2sR[0] = 10.;
443 param->fMaxChi2sR[1] = 10.;
444 param->fMaxChi2sR[2] = 10.;
445 param->fMaxChi2sR[3] = 10.;
446 param->fMaxChi2sR[4] = 30.;
447 param->fMaxChi2sR[5] = 40.;
449 param->fChi2PerCluster = 9.;
455 param->fSigmaXV = 0.0050;
456 param->fSigmaYV = 0.0050;
457 param->fSigmaZV = 0.0100;
459 param->fVertexCut = 25.;
461 param->fMaxDZforPrimTrk = 0.4;
462 param->fMaxDZToUseConstraint = 3.;
464 param->fMaxDforV0dghtrForProlongation = 30.;
465 param->fMaxDForProlongation = 40.;//10.;
466 param->fMaxDZForProlongation = 60.;//20.;
467 param->fMinPtForProlongation = 0.120;
469 param->fZWindowDeadZone = 2.0;
470 param->fSigmaXDeadZoneHit2 = 0.004/12.;
471 param->fSigmaZDeadZoneHit2 = 0.001/12.;
472 param->fXPassDeadZoneHits = 0.018;
473 param->SetNLoopsSA(20);
474 param->fMaxPhiSA = 0.07;
475 param->fMaxLambdaSA = 0.04;
478 param->GetESDV0Params()->SetMinRTgl0(0.5);
479 param->GetESDV0Params()->SetMaxDist(1.5);
480 param->GetESDV0Params()->SetMaxDcaLh0(1.5);
481 param->GetESDV0Params()->SetMaxRBestConst(80);
482 param->GetESDV0Params()->SetMinPABestConst(0.99);
483 param->GetESDV0Params()->SetMinNormDistForbTgl0(1.);
484 param->GetESDV0Params()->SetMinNormDistForb1(2.);
485 param->GetESDV0Params()->SetLikelihood01Cut(0.3);
486 param->GetESDV0Params()->SetLikelihood1Cut(0.35);
487 param->GetESDV0Params()->SetCombinedCut(0.4);
493 //_____________________________________________________________________________
494 AliITSRecoParam *AliITSRecoParam::GetCosmicTestParam()
497 // make default reconstruction parameters for cosmics
499 AliITSRecoParam *param = new AliITSRecoParam();
501 // vertexer for cosmics
502 param->SetVertexer(2);
504 param->SetClusterErrorsParam(2);
505 param->SetFindV0s(kFALSE);
506 param->SetAddVirtualClustersInDeadZone(kFALSE);
507 param->SetUseAmplitudeInfo(kFALSE);
509 // full use of bads from OCDB
510 param->SetUseBadZonesFromOCDB(kTRUE);
511 param->SetUseSingleBadChannelsFromOCDB(kTRUE);
513 // find independently ITS SA tracks
514 param->SetSAUseAllClusters();
515 param->SetOuterStartLayerSA(AliITSgeomTGeo::GetNLayers()-2);
517 //****** COSMICS 2009 (same as COSMICS 2008) *********************
519 // to maximize efficiency
520 param->SetAllowProlongationWithEmptyRoad();
522 // larger seach windows for SA (in case of large misalignments)
523 param->SetNLoopsSA(33);
524 param->SetFactorSAWindowSizes(20);
526 // additional error due to misal (B off)
527 param->SetClusterMisalErrorY(1.0,1.0,1.0,1.0,1.0,1.0); // [cm]
528 param->SetClusterMisalErrorZ(1.0,1.0,1.0,1.0,1.0,1.0); // [cm]
529 // additional error due to misal (B on)
530 param->SetClusterMisalErrorYBOn(0.0,0.0,0.1,0.1,0.1,0.1); // [cm]
531 param->SetClusterMisalErrorZBOn(0.1,0.1,0.1,0.1,0.1,0.1); // [cm]
535 param->fUseSDDCorrectionMaps = kFALSE;
536 param->fUseSDDClusterSizeSelection=kTRUE;
537 param->fMinClusterChargeSDD=30.;
540 // alignment data filter
541 param->SetAlignFilterCosmics(kTRUE);
542 param->SetAlignFilterCosmicMergeTracks(kTRUE);
543 param->SetAlignFilterMinITSPoints(1);
544 param->SetAlignFilterMinITSPointsMerged(3);
545 param->SetAlignFilterOnlyITSSATracks(kTRUE);
546 param->SetAlignFilterOnlyITSTPCTracks(kFALSE);
547 param->SetAlignFilterSkipExtra(kFALSE);
548 param->SetAlignFilterMaxMatchingAngle(0.085/*5deg*/);
549 param->SetAlignFilterMinPt(0.2);
550 param->SetAlignFilterMaxPt(1.e10);
551 param->SetAlignFilterFillQANtuples(kTRUE);
553 //******************************************************************
555 param->fMaxSnp = 0.95;
557 param->fNSigmaYLayerForRoadY = 4.;
558 param->fNSigmaRoadY = 7.5;
559 param->fNSigmaZLayerForRoadZ = 4.;
560 param->fNSigmaRoadZ = 7.5;
562 param->fNSigma2RoadZC = 60.; //7.75^2
563 param->fNSigma2RoadYC = 60.; //7.75^2
564 param->fNSigma2RoadZNonC = 50.; //7.07^2
565 param->fNSigma2RoadYNonC = 50.; //7.07^2
567 param->fMaxChi2PerCluster[0] = 11.; //7
568 param->fMaxChi2PerCluster[1] = 12.; //5
569 param->fMaxChi2PerCluster[2] = 12.; //8
570 param->fMaxChi2PerCluster[3] = 5.; //8
571 param->fMaxChi2PerCluster[4] = 12.; //6.5
573 param->fMaxNormChi2NonC[0] = 7.;
574 param->fMaxNormChi2NonC[1] = 8.;
575 param->fMaxNormChi2NonC[2] = 8.;
576 param->fMaxNormChi2NonC[3] = 11.;
577 param->fMaxNormChi2NonC[4] = 14.;
578 param->fMaxNormChi2NonC[5] = 25.;
580 param->fMaxNormChi2C[0] = 11.;
581 param->fMaxNormChi2C[1] = 13.;
582 param->fMaxNormChi2C[2] = 15.;
583 param->fMaxNormChi2C[3] = 18.;
584 param->fMaxNormChi2C[4] = 30.;
585 param->fMaxNormChi2C[5] = 35.;
587 param->fMaxNormChi2NonCForHypothesis = 7.;
589 param->fMaxChi2 = 35.;
591 param->fMaxChi2s[0] = 25.; //40
592 param->fMaxChi2s[1] = 25.; //40
593 param->fMaxChi2s[2] = 25.; //40
594 param->fMaxChi2s[3] = 25.; //40
595 param->fMaxChi2s[4] = 40.; //40
596 param->fMaxChi2s[5] = 50.; //40
598 param->fMaxRoad = 6.;
601 param->fMaxChi2In = 16.;
603 param->fMaxChi2sR[0] = 10.;
604 param->fMaxChi2sR[1] = 10.;
605 param->fMaxChi2sR[2] = 10.;
606 param->fMaxChi2sR[3] = 10.;
607 param->fMaxChi2sR[4] = 30.;
608 param->fMaxChi2sR[5] = 40.;
610 param->fChi2PerCluster = 9.;
616 param->fSigmaXV = 0.0050;
617 param->fSigmaYV = 0.0050;
618 param->fSigmaZV = 0.0100;
620 param->fVertexCut = 25.;
622 param->fMaxDZforPrimTrk = 0.4;
623 param->fMaxDZToUseConstraint = 3.;
625 param->fMaxDforV0dghtrForProlongation = 30.;
626 param->fMaxDForProlongation = 10.;
627 param->fMaxDZForProlongation = 20.;
628 param->fMinPtForProlongation = 0.120;
630 param->fZWindowDeadZone = 2.0;
631 param->fSigmaXDeadZoneHit2 = 0.004/12.;
632 param->fSigmaZDeadZoneHit2 = 0.001/12.;
633 param->fXPassDeadZoneHits = 0.018;
637 //_____________________________________________________________________________
638 AliITSRecoParam *AliITSRecoParam::GetPlaneEffParam(Int_t i)
641 // make special reconstruction parameters for Plane Efficiency study on layer i (0,5)
643 // if i=-1, then the evaluation for both pixel layers is tried with the tracklet method
645 if (i<-1 || i>=AliITSgeomTGeo::kNLayers) {
646 printf("AliITSRecoParam::GetPlaneEffParam: index of ITS Plane nor in the range [0,5] neither =-1\n");
647 printf("returning null pointer");
650 if(i>=0) { // Method using tracks (remove given plane from tracking)
651 AliITSRecoParam *param;
652 param = GetHighFluxParam();
653 param->SetComputePlaneEff();
654 param->SetLayerToSkip(i);
655 param->SetIPlanePlaneEff(i);
656 // optimized setting for SPD0 (i==0)
658 param->fMinPtPlaneEff = 0.200; // high pt particles
659 param->fMaxMissingClustersPlaneEff = 1; // at most 1 layer out of 5 without cluster
660 param->fRequireClusterInOuterLayerPlaneEff = kTRUE; // cluster on SPD1 must be
661 //param->fOnlyConstraintPlaneEff = kTRUE;
664 param->fMinPtPlaneEff = 0.200; // high pt particles
665 param->fMaxMissingClustersPlaneEff = 1; // at most 1 layer out of 5 without cluster
666 param->fRequireClusterInOuterLayerPlaneEff = kTRUE;
667 //param->fOnlyConstraintPlaneEff = kTRUE;
670 param->fMinPtPlaneEff = 0.200; // high pt particles
671 param->fMaxMissingClustersPlaneEff = 0; // at most 1 layer out of 5 without cluster
672 param->fRequireClusterInOuterLayerPlaneEff = kTRUE;
673 //param->fOnlyConstraintPlaneEff = kTRUE;
676 param->fMinPtPlaneEff = 0.200; // high pt particles
681 else if (i==-1) { // Method using tracklets
682 AliITSRecoParam *param;
683 param = GetLowFluxParam();
684 param->SetIPlanePlaneEff(i);
685 param->SetComputePlaneEff(kTRUE,kFALSE);
686 param->SetUseTrackletsPlaneEff(kTRUE);
687 param->SetTrackleterPhiWindowL2(0.07);
688 param->SetTrackleterZetaWindowL2(0.4);
689 param->SetTrackleterPhiWindowL1(0.10);
690 param->SetTrackleterZetaWindowL1(0.6);
691 param->SetUpdateOncePerEventPlaneEff(kTRUE);
692 param->SetMinContVtxPlaneEff(3);
696 AliErrorGeneral("AliITSRecoParam",Form("Unrecognised value of i %d\n",i));
700 //_____________________________________________________________________________
701 void AliITSRecoParam::SetLayersParameters()
704 // number of layers and layers spatial resolutions
707 // spatial resolutions of the detectors
708 // y: 12 12 38 38 20 20 micron
711 fSigmaY2[2]=1.444e-5;
712 fSigmaY2[3]=1.444e-5;
715 // z: 120 120 28 28 830 830 micron
720 fSigmaZ2[4]=6.889e-3;
721 fSigmaZ2[5]=6.889e-3;
725 //_____________________________________________________________________________
726 void AliITSRecoParam::PrintParameters() const
732 printf("============================= AliITSRecoParam::PrintParameters ");
733 printf("============================= \n\n");
734 for(Int_t i=0; i<AliITSgeomTGeo::kNLayers; i++) {
735 if(!fLayersToSkip[i]) {
736 printf("ITS Traking: using layer %d\n",i);
738 printf("ITS Traking: skipping layer %d\n",i);
741 for(Int_t i=0; i<AliITSgeomTGeo::kNLayers; i++) {
742 if(fUseAmplitudeInfo[i]) {
743 printf("ITS Traking: use amplitude info for layer %d\n",i);
745 printf("ITS Traking: don't use amplitude info for layer %d\n",i);
748 for(Int_t i=0; i<AliITSgeomTGeo::kNLayers; i++)
749 printf("Layer %d:\n sigmaY2 %f, sigmaZ2 %f\n sigmaMisalY %f, sigmaMisalZ %f\n max norm chi2 for non constrained tracks %f\n max norm chi2 for constrained tracks %f\n max predicted chi2 (cluster & track prol.) %f\n",i,fSigmaY2[i],fSigmaZ2[i],fClusterMisalErrorY[i],fClusterMisalErrorZ[i],fMaxNormChi2NonC[i],fMaxNormChi2C[i],fMaxChi2s[i]);