2 // Make a summary information of calibration.
3 // Store results in the summary trees
8 gSystem->Load("libANALYSIS");
9 gSystem->Load("libTPCcalib");
12 gROOT->LoadMacro("$ALICE_ROOT/TPC/scripts/OCDBscan/ConfigOCDB.C");
15 AliTPCcalibSummary *calibSummary = new AliTPCcalibSummary;
16 calibSummary->ProcessRun(irun);
25 #include <AliCDBManager.h>
26 #include <AliCDBEntry.h>
29 #include "AliTPCcalibDB.h"
30 #include "AliTPCcalibDButil.h"
31 #include "AliTPCAltroMapping.h"
32 #include "AliTPCExB.h"
33 #include "AliTPCCalROC.h"
34 #include "AliTPCCalPad.h"
35 #include "AliTPCSensorTempArray.h"
36 #include "AliGRPObject.h"
37 #include "AliTPCTransform.h"
40 #include "TObjArray.h"
41 #include "TObjString.h"
43 #include "AliTPCCalPad.h"
44 #include "AliTPCROC.h"
45 #include "AliTPCParam.h"
46 #include "AliTPCCalibPulser.h"
47 #include "AliTPCCalibPedestal.h"
48 #include "AliTPCCalibCE.h"
49 #include "AliTPCExBFirst.h"
50 #include "TTreeStream.h"
51 #include "AliTPCTempMap.h"
54 #include "AliTPCCalibRaw.h"
55 #include "AliSplineFit.h"
56 #include "TGraphErrors.h"
57 #include <AliCTPTimeParams.h>
58 #include <AliTPCcalibSummary.h>
59 #include <TStatToolkit.h>
64 AliTPCcalibSummary::AliTPCcalibSummary():
71 // default constructor
72 // OCDB have to be setupe before - not part of class
73 // usualy ConfigOCDB.C macro used
75 fPcstream = new TTreeSRedirector("dcsTime.root");
76 fCalibDB = AliTPCcalibDB::Instance();
77 fDButil= new AliTPCcalibDButil;
80 AliTPCcalibSummary::~AliTPCcalibSummary(){
82 // destructor - close streamer
87 void AliTPCcalibSummary::Process(const char * runList, Int_t first, Int_t last){
89 // runList - listOfRuns to process
90 // first - first run to process
91 // last - last to process
98 inputFile.open("run.list");
100 TArrayI runArray(100000);
101 Int_t indexes[100000];
103 printf("Runs to process:\n");
104 if (!inputFile.is_open()) {
105 printf("Problem to open file %s\n",runList);
107 while( inputFile.good() ) {
109 printf("Run \t%d\n",irun);
110 if (irun<first) continue; // process only subset of list
111 if (last>0 && irun>last) continue; // process only subset of list
112 runArray[nruns]=irun;
117 TMath::Sort(nruns, runArray.fArray, indexes,kFALSE);
120 for (Int_t run=0; run<nruns; run++){
121 irun=runArray[indexes[run]];
122 printf("Processing run %d ...\n",irun);
123 fCalibDB->SetRun(irun);
124 fDButil->UpdateFromCalibDB();
125 fDButil->SetReferenceRun(irun);
126 fDButil->UpdateRefDataFromOCDB();
127 fCalibDB->CreateGUITree("calPads.root");
128 fDButil->CreateGUIRefTree("calPadsRef.root");
130 AliDCSSensorArray *arrHV=fCalibDB->GetVoltageSensors(irun);
131 if (!arrHV) continue;
132 for (Int_t isenHV=0; isenHV<arrHV->NumSensors(); ++isenHV){
133 AliDCSSensor *senHV=arrHV->GetSensorNum(isenHV);
135 printf("Not interesting OCDB info\n");
138 startTime=senHV->GetStartTime();
139 endTime =senHV->GetEndTime();
140 if (startTime>0&&endTime>0) break;
142 AliDCSSensorArray* goofieArray = fCalibDB->GetGoofieSensors(irun);
143 if (goofieArray) fDButil->FilterGoofie(goofieArray,0.5,4.,6.85,7.05,fPcstream);
144 // don't filter goofie for the moment
145 ProcessRun(irun, startTime,endTime);
150 void AliTPCcalibSummary::ProcessRun(Int_t irun, Int_t startTime, Int_t endTime){
154 fCalibDB->SetRun(irun);
155 fDButil->UpdateFromCalibDB();
156 fDButil->SetReferenceRun(irun);
157 fDButil->UpdateRefDataFromOCDB();
158 fCalibDB->CreateGUITree("calPads.root");
159 fDButil->CreateGUIRefTree("calPadsRef.root");
162 AliSplineFit *fitVdrift=0x0;
163 Int_t startTimeGRP=0, stopTimeGRP=0;
164 if (fCalibDB->GetGRP(irun)){
165 startTimeGRP = AliTPCcalibDB::GetGRP(irun)->GetTimeStart();
166 stopTimeGRP = AliTPCcalibDB::GetGRP(irun)->GetTimeEnd();
169 startTime=startTimeGRP;
172 AliTPCSensorTempArray * tempArray = fCalibDB->GetTemperatureSensor(irun);
173 AliTPCTempMap * tempMap = new AliTPCTempMap(tempArray);
174 AliDCSSensorArray* goofieArray = fCalibDB->GetGoofieSensors(irun);
176 Int_t dtime = TMath::Max((endTime-startTime)/20,10*60);
178 //Goofie statistical data
180 TVectorD vecEntries, vecMean, vecMedian,vecRMS;
181 fDButil->ProcessGoofie(vecEntries ,vecMedian, vecMean, vecRMS);
183 //CE data processing - see ProcessCEdata function for description of the results
185 TVectorD fitResultsA, fitResultsC;
187 Double_t chi2ACE=0,chi2CCE=0;
188 // fDButil->ProcessCEdata("(sector<36)++gx++gy++lx++lx**2",fitResultsA,fitResultsC,nmaskedCE);
189 fDButil->ProcessCEdata("(sector<36)++gx++gy++(lx-134)++(sector<36)*(lx-134)++(ly/lx)^2",fitResultsA,fitResultsC,nmaskedCE,chi2ACE,chi2CCE);
191 TVectorD fitCEResultsA(7), fitCEResultsC(7);
193 Double_t chi2CEA=0,chi2CEC=0;
194 AliTPCCalPad *time0 = fDButil->CreatePadTime0CE(fitCEResultsA, fitCEResultsC, noutCE, chi2CEA, chi2CEC);
198 TVectorD vecTEntries, vecTMean, vecTRMS, vecTMedian, vecQEntries, vecQMean, vecQRMS, vecQMedian;
199 Float_t driftTimeA, driftTimeC;
200 fDButil->ProcessCEgraphs(vecTEntries, vecTMean, vecTRMS, vecTMedian,
201 vecQEntries, vecQMean, vecQRMS, vecQMedian,
202 driftTimeA, driftTimeC );
206 //drift velocity using tracks
208 // fitVdrift=fCalibDB->GetVdriftSplineFit("ALISPLINEFIT_MEAN_VDRIFT_COSMICS_ALL",irun);
209 fitVdrift=fCalibDB->CreateVdriftSplineFit("TGRAPHERRORS_MEAN_VDRIFT_COSMICS_ALL",irun);
210 //noise data Processing - see ProcessNoiseData function for description of the results
211 TVectorD vNoiseMean, vNoiseMeanSenRegions, vNoiseRMS, vNoiseRMSSenRegions;
212 Int_t nonMaskedZero=0, nNaN=0;
213 fDButil->ProcessNoiseData(vNoiseMean, vNoiseMeanSenRegions, vNoiseRMS, vNoiseRMSSenRegions, nonMaskedZero, nNaN);
217 TVectorF pedestalDeviations;
218 TVectorF noiseDeviations;
219 TVectorF pulserQdeviations;
223 fDButil->ProcessPedestalVariations(pedestalDeviations);
224 fDButil->ProcessNoiseVariations(noiseDeviations);
225 fDButil->ProcessPulserVariations(pulserQdeviations,varQMean,npadsOutOneTB,npadsOffAdd);
229 Float_t bz=AliTPCcalibDB::GetBz(irun);
230 Char_t l3pol=AliTPCcalibDB::GetL3Polarity(irun);
237 fDButil->ProcessQAData(vQaOcc, vQaQtot, vQaQmax);
239 //calibration Pulser data processing
241 Int_t nOffChannels=0;
242 TVectorD vTimePulser;
243 nOffChannels=fDButil->GetNPulserOutliers();
244 fDButil->ProcessPulser(vTimePulser);
249 fDButil->ProcessALTROConfig(nMasked);
254 if (fCalibDB->GetCalibRaw()) nFailL1=fCalibDB->GetCalibRaw()->GetNFailL1Phase();
256 //production information
258 Int_t nalien=0,nRawAlien=0,nlocal=0,nRawLocal=0;
260 TObjString runType(AliTPCcalibDB::GetRunType(irun).Data());
265 for (Int_t itime=startTime; itime<endTime; itime+=dtime){
267 TTimeStamp tstamp(itime);
268 Float_t valuePressure = fCalibDB->GetPressure(tstamp,irun,0);
269 Float_t valuePressure2 = fCalibDB->GetPressure(tstamp,irun,1);
270 Double_t ptrelative0 = AliTPCcalibDB::GetPTRelative((UInt_t)itime,irun,0);
271 Double_t ptrelative1 = AliTPCcalibDB::GetPTRelative((UInt_t)itime,irun,1);
273 TLinearFitter * fitter = 0;
274 TVectorD vecTemp[10];
275 for (Int_t itype=0; itype<5; itype++)
276 for (Int_t iside=0; iside<2; iside++){
277 fitter= tempMap->GetLinearFitter(itype,iside,tstamp);
278 if (!fitter) continue;
280 fitter->GetParameters(vecTemp[itype+iside*5]);
284 //measured skirt temperatures
286 TVectorD vecSkirtTempA(18);
287 TVectorD vecSkirtTempC(18);
288 Int_t nsenTemp=tempArray->NumSensors();
289 for (Int_t isenTemp=0;isenTemp<nsenTemp;++isenTemp){
290 AliTPCSensorTemp *senTemp=(AliTPCSensorTemp*)tempArray->GetSensorNum(isenTemp);
291 if (senTemp->GetType()!=3) continue;
292 if (TMath::Sqrt(senTemp->GetX()*senTemp->GetX()+senTemp->GetY()*senTemp->GetY())<100) continue; //only skirt, outer FC vessel
293 Double_t val=senTemp->GetValue(tstamp);
294 if (senTemp->GetSide()==0)
295 vecSkirtTempA[senTemp->GetSector()]=val;
297 vecSkirtTempC[senTemp->GetSector()]=val;
304 vecGoofie.ResizeTo(goofieArray->NumSensors());
305 for (Int_t isensor=0; isensor<goofieArray->NumSensors();isensor++){
306 AliDCSSensor *gsensor = goofieArray->GetSensor(isensor);
308 vecGoofie[isensor] = gsensor->GetValue(tstamp);
312 vecGoofie.ResizeTo(19);
315 TVectorD voltagesIROC(36);
316 TVectorD voltagesOROC(36);
317 for(Int_t j=1; j<36; j++) voltagesIROC[j-1] = fCalibDB->GetChamberHighVoltage(irun, j,itime);
318 for(Int_t j=36; j<72; j++) voltagesOROC[j-36] = fCalibDB->GetChamberHighVoltage(irun, j,itime);
319 Double_t voltIROC = TMath::Median(36, voltagesIROC.GetMatrixArray());
320 Double_t voltOROC = TMath::Median(36, voltagesOROC.GetMatrixArray());
322 Float_t coverIA=AliTPCcalibDB::GetCoverVoltage(irun,0,itime);
323 Float_t coverIC=AliTPCcalibDB::GetCoverVoltage(irun,18,itime);
324 Float_t coverOA=AliTPCcalibDB::GetCoverVoltage(irun,36,itime);
325 Float_t coverOC=AliTPCcalibDB::GetCoverVoltage(irun,54,itime);
326 Float_t skirtA=AliTPCcalibDB::GetSkirtVoltage(irun,0,itime);
327 Float_t skirtC=AliTPCcalibDB::GetSkirtVoltage(irun,18,itime);
328 Float_t ggOffA=AliTPCcalibDB::GetGGoffsetVoltage(irun,0,itime);
329 Float_t ggOffC=AliTPCcalibDB::GetGGoffsetVoltage(irun,18,itime);
332 if (fitVdrift) dvCorr=fitVdrift->Eval(itime);
334 //tempMap->GetLinearFitter(0,0,itime);
335 (*fPcstream)<<"dcs"<<
338 "startTimeGRP="<<startTimeGRP<<
339 "stopTimeGRP="<<stopTimeGRP<<
341 "runType.="<<&runType<<
343 "VIROC.="<<&voltagesIROC<<
344 "VOROC.="<<&voltagesOROC<<
345 "medianVIROC="<<voltIROC<<
346 "medianVOROC="<<voltOROC<<
347 "coverIA=" << coverIA <<
348 "coverIC=" << coverIC <<
349 "coverOA=" << coverOA <<
350 "coverOC=" << coverOC <<
351 "skirtA=" << skirtA <<
352 "skirtC=" << skirtC <<
353 "ggOffA=" << ggOffA <<
354 "ggOffC=" << ggOffC <<
356 "ptrel0="<<ptrelative0<< // deltaTP/TP - A side
357 "ptrel1="<<ptrelative1<< // deltaTP/TPC - C side
358 "goofie.="<<&vecGoofie<<
359 "goofieE.="<<&vecEntries<<
360 "goofieMean.="<<&vecMean<<
361 "goofieMedian.="<<&vecMedian<<
362 "goofieRMS.="<<&vecRMS<<
364 "press="<<valuePressure<<
365 "press2="<<valuePressure2<<
366 "temp00.="<<&vecTemp[0]<<
367 "temp10.="<<&vecTemp[1]<<
368 "temp20.="<<&vecTemp[2]<<
369 "temp30.="<<&vecTemp[3]<<
370 "temp40.="<<&vecTemp[4]<<
371 "temp01.="<<&vecTemp[5]<<
372 "temp11.="<<&vecTemp[6]<<
373 "temp21.="<<&vecTemp[7]<<
374 "temp31.="<<&vecTemp[8]<<
375 "temp41.="<<&vecTemp[9]<<
376 "tempSkirtA.="<<&vecSkirtTempA<<
377 "tempSkirtC.="<<&vecSkirtTempC;
379 ProcessDrift(irun, itime);
380 ProcessDriftCE(irun,itime);
381 ProcessDriftAll(irun,itime);
382 // ProcessKryptonTime(irun,itime);
383 ProcessCTP(irun,itime);
384 ProcessAlign(irun,itime);
385 ProcessGain(irun,itime);
390 (*fPcstream)<<"dcs"<<
392 "meanNoise.="<<&vNoiseMean<<
393 "meanNoiseSen.="<<&vNoiseMeanSenRegions<<
394 "rmsNoise.="<<&vNoiseRMS<<
395 "rmsNoiseSen.="<<&vNoiseRMSSenRegions<<
396 "zeroNoise="<<nonMaskedZero<<
399 "occQA.=" << &vQaOcc <<
400 "qQA.=" << &vQaQtot <<
401 "qmaxQA.=" << &vQaQmax <<
403 "timePulser.=" << &vTimePulser <<
404 "nOffPulser="<<nOffChannels<<
406 "nMasked="<<nMasked<<
407 //ce data -Jens version
408 "CEfitA.="<<&fitResultsA<<
409 "CEfitC.="<<&fitResultsC<<
410 "nmaskedCE="<<nmaskedCE<<
411 "chi2ACE="<<chi2ACE<<
412 "chi2CCE="<<chi2CCE<<
413 //ce data new - MI version
414 "CEfitAMI.="<<&fitCEResultsA<<
415 "CEfitCMI.="<<&fitCEResultsC<<
416 "chi2CEA="<<chi2CEA<<
417 "chi2CEC="<<chi2CEC<<
420 "CEgrTEntries.="<<&vecTEntries<<
421 "CEgrTMean.="<<&vecTMean<<
422 "CEgrTRMS.="<<&vecTRMS<<
423 "CEgrTMedian.="<<&vecTMedian<<
424 "CEgrQEntries.="<<&vecQEntries<<
425 "CEgrQMean.="<<&vecQMean<<
426 "CEgrQRMS.="<<&vecQRMS<<
427 "CEgrQMedian.="<<&vecQMedian<<
428 "CEgrDriftA="<<driftTimeA<<
429 "CEgrDriftC="<<driftTimeC<<
431 "nFailL1="<<nFailL1<<
434 "L3polarity="<<l3pol<<
435 // production information
437 "nRawAlien="<<nRawAlien<<
439 "nRawLocal="<<nRawLocal<<
440 //comparisons with ref data
441 "pedestalDeviations.="<<&pedestalDeviations<<
442 "noiseDeviations.="<<&noiseDeviations<<
443 "pulserQdeviations.="<<&pulserQdeviations<<
444 // "pulserVarQMean="<<varQMean<<
445 "pulserNpadsOutOneTB="<<npadsOutOneTB<<
446 "pulserNpadsOffAdd="<<npadsOffAdd<<
447 "driftCorrCosmAll="<<dvCorr<<
457 void AliTPCcalibSummary::ProcessDrift(Int_t run, Int_t timeStamp){
459 // dump drift calibration data to the tree
461 TObjArray *array =fCalibDB->GetTimeVdriftSplineRun(run);
462 TGraphErrors *laserA[3]={0,0,0};
463 TGraphErrors *laserC[3]={0,0,0};
464 TGraphErrors *cosmicAll=0;
465 static Double_t vlaserA[3]={0,0,0};
466 static Double_t vlaserC[3]={0,0,0};
467 static Double_t vcosmicAll=0;
468 static Double_t vdrift1=0;
469 vdrift1=fCalibDB->GetVDriftCorrectionTime(timeStamp,run,0,1);
472 laserA[0]=(TGraphErrors*)array->FindObject("GRAPH_MEAN_DELAY_LASER_ALL_A");
473 laserA[1]=(TGraphErrors*)array->FindObject("GRAPH_MEAN_DRIFT_LASER_ALL_A");
474 laserA[2]=(TGraphErrors*)array->FindObject("GRAPH_MEAN_GLOBALYGRADIENT_LASER_ALL_A");
475 laserC[0]=(TGraphErrors*)array->FindObject("GRAPH_MEAN_DELAY_LASER_ALL_C");
476 laserC[1]=(TGraphErrors*)array->FindObject("GRAPH_MEAN_DRIFT_LASER_ALL_C");
477 laserC[2]=(TGraphErrors*)array->FindObject("GRAPH_MEAN_GLOBALYGRADIENT_LASER_ALL_C");
478 cosmicAll =(TGraphErrors*)array->FindObject("TGRAPHERRORS_MEAN_VDRIFT_COSMICS_ALL");
480 if (laserA[0]) vlaserA[0]= AliTPCcalibDButil::EvalGraphConst(laserA[0],timeStamp);
481 if (laserA[1]) vlaserA[1]= AliTPCcalibDButil::EvalGraphConst(laserA[1],timeStamp);
482 if (laserA[2]) vlaserA[2]= AliTPCcalibDButil::EvalGraphConst(laserA[2],timeStamp);
483 if (laserC[0]) vlaserC[0]= AliTPCcalibDButil::EvalGraphConst(laserC[0],timeStamp);
484 if (laserC[1]) vlaserC[1]= AliTPCcalibDButil::EvalGraphConst(laserC[1],timeStamp);
485 if (laserC[2]) vlaserC[2]= AliTPCcalibDButil::EvalGraphConst(laserC[2],timeStamp);
486 if (cosmicAll) vcosmicAll= AliTPCcalibDButil::EvalGraphConst(cosmicAll,timeStamp);
487 (*fPcstream)<<"dcs"<<
488 "vlaserA0="<<vlaserA[0]<<
489 "vlaserA1="<<vlaserA[1]<<
490 "vlaserA2="<<vlaserA[2]<<
491 "vlaserC0="<<vlaserC[0]<<
492 "vlaserC1="<<vlaserC[1]<<
493 "vlaserC2="<<vlaserC[2]<<
494 "vcosmicAll="<<vcosmicAll<<
498 // define distance to measurement
500 static Double_t dlaserA=0;
501 static Double_t dlaserC=0;
502 static Double_t dcosmic=0;
503 static Double_t slaserA=0;
504 static Double_t slaserC=0;
505 static Double_t scosmic=0;
506 static Double_t vclaserA[3]={0,0,0};
507 static Double_t vclaserC[3]={0,0,0};
508 static Double_t vccosmicAll=0;
509 for (Int_t i=0;i<3;i++){
510 if (laserA[i]) AliTPCcalibDButil::GetNearest(laserA[i],timeStamp,dlaserA,vclaserA[i]);
511 if (laserC[i]) AliTPCcalibDButil::GetNearest(laserC[i],timeStamp,dlaserC,vclaserC[i]);
513 if (cosmicAll) AliTPCcalibDButil::GetNearest(cosmicAll,timeStamp,dcosmic,vccosmicAll);
514 (*fPcstream)<<"dcs"<<
515 "vclaserA0="<<vclaserA[0]<<
516 "vclaserA1="<<vclaserA[1]<<
517 "vclaserA2="<<vclaserA[2]<<
518 "vclaserC0="<<vclaserC[0]<<
519 "vclaserC1="<<vclaserC[1]<<
520 "vclaserC2="<<vclaserC[2]<<
521 "vccosmicAll="<<vccosmicAll<<
522 "dlaserA="<<dlaserA<<
523 "dlaserC="<<dlaserC<<
524 "dcosmic="<<dcosmic<<
525 "slaserA="<<slaserA<<
526 "slaserC="<<slaserC<<
530 void AliTPCcalibSummary::ProcessDriftCE(Int_t run,Int_t timeStamp){
532 // dump drift calibration data CE
534 TObjArray *arrT=fCalibDB->GetCErocTtime();
535 AliTPCParam *param=fCalibDB->GetParameters();
536 static TVectorD tdriftCE(74);
537 static TVectorD tndriftCE(74);
538 static TVectorD vdriftCE(74);
539 static TVectorD tcdriftCE(74);
540 static TVectorD tddriftCE(74);
541 static Double_t ltime0A;
542 static Double_t ltime0C;
546 ltime0A = fDButil->GetLaserTime0(run,timeStamp,36000,0);
547 ltime0C = fDButil->GetLaserTime0(run,timeStamp,36000,1);
549 for (Int_t i=0; i<arrT->GetEntries();i++){
552 TGraph *graph = (TGraph*)arrT->At(i);
553 if (!graph) continue;
554 tdriftCE[i]=AliTPCcalibDButil::EvalGraphConst(graph,timeStamp);
556 AliTPCcalibDButil::GetNearest(graph,timeStamp,deltaT,gry);
557 tndriftCE[i]=graph->GetN();
561 vdriftCE[i] =(param->GetZLength(i)/(tdriftCE[i]*param->GetTSample()*(1.-ltime0A)-param->GetL1Delay()))/param->GetDriftV();
563 vdriftCE[i] =(param->GetZLength(i)/(tdriftCE[i]*param->GetTSample()*(1.-ltime0A)-param->GetL1Delay()))/param->GetDriftV();
567 (*fPcstream)<<"dcs"<<
568 "tdriftCE.="<<&tdriftCE<< // arrival time
569 "vdriftCE.="<<&vdriftCE<< // derived drift velocity per chamber
570 "tndriftCE.="<<&tndriftCE<< // number of points (chambers)
571 "tcdriftCE.="<<&tcdriftCE<< // constant evaluation - nearest point used
572 "tddriftCE.="<<&tddriftCE<< // distance to closest measuement
573 "ltime0A="<<ltime0A<< // laser offset expected in reconstruction
574 "ltime0C="<<ltime0C; // laser offset expected in reconstruction
578 void AliTPCcalibSummary::ProcessDriftAll(Int_t run,Int_t timeStamp){
580 // dump drift calibration data all calibrations form DB util
582 static Double_t vdriftCEA=0, vdriftCEC=0, vdriftCEM=0;
583 static Double_t vdriftLTA=0, vdriftLTC=0, vdriftLTM=0;
584 static Double_t vdriftLTAon=0, vdriftLTCon=0, vdriftLTMon=0;
585 static Double_t vdriftITS=0;
586 static Double_t vdriftP=0;
587 static Double_t dcea=0, dcec=0, dcem=0, dla=0,dlc=0,dlm=0, dlaon=0,dlcon=0,dlmon=0, dp=0;
588 static Double_t dits=0;
589 static Double_t ltime0A;
590 static Double_t ltime0C;
591 static Double_t ctime0;
592 static Double_t vdrift1=0;
593 vdrift1= fCalibDB->GetVDriftCorrectionTime(timeStamp,run,0,1);
594 vdriftP = fDButil->GetVDriftTPC(dp, run, timeStamp, 86400, 3600,0);
595 ctime0 = AliTPCcalibDButil::GetTriggerOffsetTPC(run,timeStamp, 36000, 3600,0);
597 vdriftCEA= fDButil->GetVDriftTPCCE(dcea,run,timeStamp,36000,0);
598 vdriftCEC= fDButil->GetVDriftTPCCE(dcec,run,timeStamp,36000,1);
599 vdriftCEM= fDButil->GetVDriftTPCCE(dcem,run,timeStamp,36000,2);
601 vdriftLTA= fDButil->GetVDriftTPCLaserTracks(dla,run,timeStamp,36000,0);
602 vdriftLTC= fDButil->GetVDriftTPCLaserTracks(dlc,run,timeStamp,36000,1);
603 vdriftLTM= fDButil->GetVDriftTPCLaserTracks(dlm,run,timeStamp,36000,2);
605 vdriftLTAon= fDButil->GetVDriftTPCLaserTracksOnline(dlaon,run,timeStamp,36000,0);
606 vdriftLTCon= fDButil->GetVDriftTPCLaserTracksOnline(dlcon,run,timeStamp,36000,1);
607 vdriftLTMon= fDButil->GetVDriftTPCLaserTracksOnline(dlmon,run,timeStamp,36000,2);
609 vdriftITS= fDButil->GetVDriftTPCITS(dits, run,timeStamp);
611 ltime0A = fDButil->GetLaserTime0(run,timeStamp,36000,0);
612 ltime0C = fDButil->GetLaserTime0(run,timeStamp,36000,1);
614 (*fPcstream)<<"dcs"<<
616 "vdriftCEA="<<vdriftCEA<< // drift velocity CE
617 "vdriftCEC="<<vdriftCEC<<
618 "vdriftCEM="<<vdriftCEM<<
622 "vdriftLTA="<<vdriftLTA<< // drift velocity laser tracks
623 "vdriftLTC="<<vdriftLTC<<
624 "vdriftLTM="<<vdriftLTM<<
628 "vdriftLTAon="<<vdriftLTAon<< // drift velocity laser tracks and CE from online algorithm
629 "vdriftLTCon="<<vdriftLTCon<<
630 "vdriftLTMon="<<vdriftLTMon<<
636 "vdriftITS="<<vdriftITS<<
639 "vdriftP="<<vdriftP<< // drift velocity comsic
641 "vdrift1="<<vdrift1; // combined drift velocity
647 void AliTPCcalibSummary::ProcessKryptonTime(Int_t run, Int_t timeStamp){
649 // Dumping krypton calibration results
651 static TObjArray * krArray=0;
653 AliCDBEntry* entry = AliCDBManager::Instance()->Get("TPC/Calib/TimeGainKrypton", run);
655 krArray = (TObjArray*)entry->GetObject();
658 static TVectorD krMean(74);
659 static TVectorD krErr(74);
660 static TVectorD krDist(74);
662 Double_t deltaT=0,gry=0;
664 for (Int_t isec=0; isec<72; isec++){
668 gr=(TGraphErrors*)krArray->At(isec);
670 krMean[isec]=AliTPCcalibDButil::EvalGraphConst(gr,timeStamp);
671 AliTPCcalibDButil::GetNearest(gr, timeStamp,deltaT,gry);
674 if (72+isec<krArray->GetEntries()) {
675 gr=(TGraphErrors*)krArray->At(72+isec);
676 if (gr) krErr[isec]=AliTPCcalibDButil::EvalGraphConst(gr,timeStamp);
679 krMean[72]= TMath::Median(36,krMean.GetMatrixArray());
680 krMean[73]= TMath::Median(36,&(krMean.GetMatrixArray()[36]));
681 krErr[72]= TMath::Median(36,krErr.GetMatrixArray());
682 krErr[73]= TMath::Median(36,&(krErr.GetMatrixArray()[36]));
684 (*fPcstream)<<"dcs"<<
685 "krMean.="<<&krMean<<
690 void AliTPCcalibSummary::ProcessCTP(Int_t irun, Int_t timeStamp){
694 static TClonesArray *pcarray = new TClonesArray("AliCTPInputTimeParams",1);
695 static AliCTPTimeParams *ctpParams =0;
696 ctpParams = fCalibDB->GetCTPTimeParams(); //
697 const TObjArray *arr = ctpParams->GetInputTimeParams();
698 pcarray->ExpandCreateFast(TMath::Max(arr->GetEntries(),1));
699 for (Int_t i=0; i<arr->GetEntries(); i++){
700 new ((*pcarray)[i]) AliCTPInputTimeParams(*((AliCTPInputTimeParams*)arr->At(i)));
702 (*fPcstream)<<"ctp"<<
705 "ctpP.="<<ctpParams<<
708 (*fPcstream)<<"dcs"<<
709 "ctpP.="<<ctpParams<<
713 void AliTPCcalibSummary::ProcessGain(Int_t irun, Int_t timeStamp){
715 // Dump gain related information to the tree
717 static Float_t gainCosmic = 0;
718 static Float_t gainMIP = 0;
719 static Float_t attachMIP = 0;
720 static Double_t dMIP=0;
722 TObjArray * gainSplines = fCalibDB->GetTimeGainSplinesRun(irun);
724 TGraphErrors * graphMIP = (TGraphErrors *) gainSplines->FindObject("TGRAPHERRORS_MEAN_GAIN_BEAM_ALL");
725 TGraphErrors * graphCosmic = (TGraphErrors *) gainSplines->FindObject("TGRAPHERRORS_MEAN_GAIN_COSMIC_ALL");
726 TGraphErrors * graphAttach = (TGraphErrors *) gainSplines->FindObject("TGRAPHERRORS_MEAN_ATTACHMENT_BEAM_ALL");
727 if (graphMIP) gainMIP = AliTPCcalibDButil::EvalGraphConst(graphMIP,timeStamp);
728 if (graphCosmic) gainCosmic = AliTPCcalibDButil::EvalGraphConst(graphCosmic,timeStamp);
729 if (graphAttach) attachMIP = AliTPCcalibDButil::EvalGraphConst(graphAttach,timeStamp);
730 if (graphMIP) AliTPCcalibDButil::GetNearest(graphMIP, timeStamp, dMIP,dummy);
732 // time dependence of gain
733 (*fPcstream)<<"dcs"<<
734 "gainMIP="<<gainMIP<<
735 "attachMIP="<<attachMIP<<
737 "gainCosmic="<<gainCosmic;
741 void AliTPCcalibSummary::ProcessAlign(Int_t run, Int_t timeStamp){
743 // Proccess alignment
745 TString grnames[12]={"ALIGN_ITS", "ALIGN_ITSP", "ALIGN_ITSM", "ALIGN_ITSB",
746 "ALIGN_TRD", "ALIGN_TRDP", "ALIGN_TRDM","ALIGN_TRDB",
747 "ALIGN_TOF", "ALIGN_TOFP", "ALIGN_TOFM","ALIGN_TOFB"};
748 TString grpar[9]={"DELTAPSI", "DELTATHETA", "DELTAPHI",
749 "DELTAX", "DELTAY", "DELTAZ",
750 "DRIFTVD", "T0", "VDGY"};
751 static Double_t values[12*9];
752 static Double_t errs[12*9];
754 TObjArray *array =fCalibDB->GetTimeVdriftSplineRun(run);
756 for (Int_t idet=0; idet<12; idet++){
757 for (Int_t ipar=0; ipar<9; ipar++){
758 TString grName=grnames[idet];
762 gr = (TGraphErrors*)array->FindObject(grName.Data());
764 values[9*idet+ipar]=0;
766 if (gr) values[9*idet+ipar]=AliTPCcalibDButil::EvalGraphConst(gr,timeStamp);
767 (*fPcstream)<<"dcs"<<
768 Form("%s=",grName.Data())<<values[9*idet+ipar];
769 (*fPcstream)<<"align"<<
770 Form("%s=",grName.Data())<<values[9*idet+ipar];
773 (*fPcstream)<<"align"<<
780 void AliTPCcalibSummary::ProcessDriftCERef(){
782 // Get fit of residuals if CE in respect with reference
785 static TVectorD sec(72);
786 static TVectorD vec0(72);
787 static TVectorD vecLy(72);
788 static TVectorD vecLx(72);
789 static TVectorD vecChi2(72);
790 static TVectorD vecN(72);
792 static TVectorD vecA0(72);
793 static TVectorD vecALy(72);
794 static TVectorD vecALx(72);
795 static TVectorD vecAChi2(72);
797 static TVectorD vecASide(4);
798 static TVectorD vecCSide(4);
799 static Bool_t isCalc=kFALSE;
801 TFile f("calPads.root");
802 TFile fref("calPadsRef.root");
803 TTree * tree = (TTree*)f.Get("calPads");
804 TTree * treeRef = (TTree*)fref.Get("calPads");
805 tree->AddFriend(treeRef,"R");
806 tree->SetAlias("inCE","((CEQmean.fElements>35)&&abs(CETmean.fElements)<1.5&&abs(CETrms.fElements/1.2-1)<0.2)"); // outlyerTrms
807 tree->SetAlias("inCER","((R.CEQmean.fElements>35)&&abs(R.CETmean.fElements)<1.5&&abs(R.CETrms.fElements/1.2-1)<0.2)"); // outlyerTrms
810 // make fits only once
811 TStatToolkit toolkit;
816 tree->SetAlias("dt","CETmean.fElements-R.CETmean.fElements");
817 TCut cutAll ="inCE&&inCER&&abs(CETmean.fElements-R.CETmean.fElements)<0.5";
818 TString fstringG=""; // global part
819 fstringG+="ly.fElements++";
820 fstringG+="(lx.fElements-134.)++";
821 for (Int_t isec=0; isec<72; isec++){
822 TStatToolkit::FitPlane(tree,"0.264*dt", fstringG.Data(),Form("sector==%d",isec)+cutAll, chi2,npoints,param,covar,-1,0, 10000000, kFALSE);
823 if (npoints<3) continue;
824 printf("Sector=%d\n",isec);
826 vecLy[isec]=param[1];
827 vecLx[isec]=param[2];
830 vecChi2[isec]=TMath::Sqrt(chi2/npoints);
832 TStatToolkit::FitPlane(tree,"0.264*CETmean.fElements", fstringG.Data(),Form("sector==%d",isec)+cutAll, chi2,npoints,param,covar,-1,0, 10000000, kFALSE);
833 if (npoints<3) continue;
834 printf("Sector=%d\n",isec);
835 vecA0[isec]=param[0];
836 vecALy[isec]=param[1];
837 vecALx[isec]=param[2];
838 vecAChi2[isec]=TMath::Sqrt(chi2/npoints);
842 TString fstringRef=""; // global fit
843 fstringRef+="gx.fElements++";
844 fstringRef+="gy.fElements++";
845 fstringRef+="lx.fElements++";
846 TStatToolkit::FitPlane(tree,"0.264*dt", fstringG.Data(),"(sector%36)<18"+cutAll, chi2,npoints,vecASide,covar,-1,0, 10000000, kFALSE);
847 TStatToolkit::FitPlane(tree,"0.264*dt", fstringG.Data(),"(sector%36)>=18"+cutAll, chi2,npoints,vecCSide,covar,-1,0, 10000000, kFALSE);
850 (*fPcstream)<<"dcs"<< // CE information
851 "CETSector.="<<&sec<< // sector numbers
852 "CETRefA.="<<&vecASide<< // diff to reference A side
853 "CETRefC.="<<&vecCSide<< // diff to reference C side
854 // // fit in respect to reference data
855 "CETRef0.="<<&vec0<< // offset change
856 "CETRefY.="<<&vecLy<< // slope y change - rad
857 "CETRefX.="<<&vecLx<< // slope x change - rad
858 "CETRefChi2.="<<&vecChi2<< // chi2 (rms in cm)
859 "CETRefN.="<<&vecN<< //number of accepted points
860 // // fit in respect per mean per side
861 "CET0.="<<&vecA0<< // offset change
862 "CETY.="<<&vecALy<< // slope y change - rad
863 "CETX.="<<&vecALx<< // slope x change - rad
864 "CETChi2.="<<&vecAChi2; // chi2 (rms in cm)
867 void AliTPCcalibSummary::ProcessPulserRef(){
869 // Get fit of residuals if Pulser in respect with reference
872 static TVectorD sec(72);
873 static TVectorD vec0(72);
874 static TVectorD vecLy(72);
875 static TVectorD vecLx(72);
876 static TVectorD vecChi2(72);
877 static TVectorD vecN(72);
879 static TVectorD vecA0(72);
880 static TVectorD vecALy(72);
881 static TVectorD vecALx(72);
882 static TVectorD vecAChi2(72);
883 static Bool_t isCalc=kFALSE;
885 TFile f("calPads.root");
886 TFile fref("calPadsRef.root");
887 TTree * tree = (TTree*)f.Get("calPads");
888 TTree * treeRef = (TTree*)fref.Get("calPads");
889 tree->AddFriend(treeRef,"R");
891 tree->SetAlias("inPulser","(abs(PulserTmean.fElements-PulserTmean_Median)<1.5&&abs(PulserTrms.fElements-PulserTrms_Median)<0.2)"); // outlyerTrms
892 tree->SetAlias("inPulserR","(abs(R.PulserTmean.fElements-R.PulserTmean_Median)<1.5&&abs(R.PulserTrms.fElements-R.PulserTrms_Median)<0.2)"); // outlyerTrms
895 // make fits only once
896 TStatToolkit toolkit;
901 tree->SetAlias("dt","PulserTmean.fElements-R.PulserTmean.fElements");
902 TCut cutAll ="inPulser&&inPulserR";
903 TString fstringG=""; // global part
904 fstringG+="ly.fElements++";
905 fstringG+="(lx.fElements-134.)++";
906 for (Int_t isec=0; isec<72; isec++){
907 TStatToolkit::FitPlane(tree,"dt", fstringG.Data(),Form("sector==%d",isec)+cutAll, chi2,npoints,param,covar,-1,0, 10000000, kFALSE);
908 if (npoints<3) continue;
909 printf("Setor=%d\n",isec);
911 vecLy[isec]=param[1];
912 vecLx[isec]=param[2];
916 TStatToolkit::FitPlane(tree,"PulserTmean.fElements", fstringG.Data(),Form("sector==%d",isec)+cutAll, chi2,npoints,param,covar,-1,0, 10000000, kFALSE);
917 if (npoints<3) continue;
918 printf("Setor=%d\n",isec);
919 vecA0[isec]=param[0];
920 vecALy[isec]=param[1];
921 vecALx[isec]=param[2];
922 vecAChi2[isec]=TMath::Sqrt(chi2/npoints);
927 (*fPcstream)<<"dcs"<< // Pulser information
928 "PulserTSector.="<<&sec<< // sector numbers
929 // // fit in respect to reference
930 "PulserTRef0.="<<&vec0<< // offset change
931 "PulserTRefY.="<<&vecLy<< // slope y change - rad
932 "PulserTRefX.="<<&vecLx<< // slope x change - rad
933 "PulserTRefChi2.="<<&vecChi2<< // chi2 (rms in cm)
934 "PulserTRefN.="<<&vecN<< //number of accepted points
935 // // fit in respect per mean per side
936 "PulserT0.="<<&vecA0<< // offset change
937 "PulserTY.="<<&vecALy<< // slope y change - rad
938 "PulserTX.="<<&vecALx<< // slope x change - rad
939 "PulserTChi2.="<<&vecAChi2; // chi2 (rms in cm)
946 // TCanvas * DrawCEDiff(TTree * tree){
948 // TCanvas *canvasIO = new TCanvas("canvasCEIO","canvasCEIO");
949 // canvasIO->Divide(6,6);
950 // for (Int_t isec=0; isec<36; isec++){
951 // canvasIO->cd(isec+1);
952 // dcs->Draw(Form("CET0.fElements[%d]-CET0.fElements[%d]",isec+36,isec),Form("abs(CETRef0.fElements[%d])<0.3",isec),"");
953 // printf("%d\t%f\t%f\n",isec,dcs->GetHistogram()->GetMean(),dcs->GetHistogram()->GetRMS());