// //
// AliTRDCalibChamberStatus: to determine which half chambers are off //
// Produce a AliTRDCalChamberStatus calibration object //
-// Check with the AliTRDCalDCSFEE info //
+// Check with the AliTRDCalDCSFEEv2 info //
// //
// //
// Authors: //
#include <TDirectory.h>
#include <TFile.h>
+#include <TAxis.h>
+#include <TH2F.h>
+#include <TStyle.h>
+#include <TCanvas.h>
//AliRoot includes
#include "AliRawReader.h"
#include "AliLog.h"
#include "AliTRDCalibChamberStatus.h"
#include "AliTRDgeometry.h"
+#include "AliTRDfeeParam.h"
#include "AliTRDdigitsManager.h"
#include "AliTRDSignalIndex.h"
-#include "AliTRDrawFastStream.h"
+#include "AliTRDpadPlane.h"
#include "./Cal/AliTRDCalChamberStatus.h"
-#include "./Cal/AliTRDCalDCS.h"
-#include "./Cal/AliTRDCalDCSFEE.h"
+#include "./Cal/AliTRDCalDCSv2.h"
+#include "./Cal/AliTRDCalDCSFEEv2.h"
+
+#include "AliTRDrawStream.h"
+#include "AliTRDseedV1.h"
+#include "AliTRDcluster.h"
#ifdef ALI_DATE
#include "event.h"
fHnSparseEvtDet(0x0),
fHnSparseDebug(0x0),
fHnSparseMCM(0x0),
+ fC1(0x0),
fDebugLevel(0)
{
//
fHnSparseEvtDet(ped.fHnSparseEvtDet),
fHnSparseDebug(ped.fHnSparseDebug),
fHnSparseMCM(ped.fHnSparseMCM),
+ fC1(ped.fC1),
fDebugLevel(ped.fDebugLevel)
{
//
}
if(fHnSparseMCM) {
delete fHnSparseMCM;
- }
+ }
+ if(fC1) {
+ delete fC1;
+ }
}
//_____________________________________________________________________
thnDimEvtt[1] = 6;
thnDimEvtt[2] = 5;
thnDimEvtt[3] = 8;
- thnDimEvtt[4] = 16;
- thnDimEvtt[5] = 16;
+ thnDimEvtt[4] = 18;
+ thnDimEvtt[5] = 18;
//arrays for lower bounds :
Double_t* binEdgesEvtt[6];
for(Int_t ivar = 0; ivar < 6; ivar++)
for(Int_t i=0; i<=thnDimEvtt[1]; i++) binEdgesEvtt[1][i]= 0.0 + (6.0)/thnDimEvtt[1]*(Double_t)i;
for(Int_t i=0; i<=thnDimEvtt[2]; i++) binEdgesEvtt[2][i]= 0.0 + (5.0)/thnDimEvtt[2]*(Double_t)i;
for(Int_t i=0; i<=thnDimEvtt[3]; i++) binEdgesEvtt[3][i]= 0.0 + (8.0)/thnDimEvtt[3]*(Double_t)i;
- for(Int_t i=0; i<=thnDimEvtt[4]; i++) binEdgesEvtt[4][i]= 0.0 + (16.0)/thnDimEvtt[4]*(Double_t)i;
- for(Int_t i=0; i<=thnDimEvtt[5]; i++) binEdgesEvtt[5][i]= 0.0 + (16.0)/thnDimEvtt[5]*(Double_t)i;
+ for(Int_t i=0; i<=thnDimEvtt[4]; i++) binEdgesEvtt[4][i]= 0.0 + (18.0)/thnDimEvtt[4]*(Double_t)i;
+ for(Int_t i=0; i<=thnDimEvtt[5]; i++) binEdgesEvtt[5][i]= 0.0 + (18.0)/thnDimEvtt[5]*(Double_t)i;
//create the THnSparse
fHnSparseMCM = new THnSparseI("MCMerrorDCS","MCMerrorDCS",6,thnDimEvtt);
// Debug //
//---------//
+}
+//_____________________________________________________________________
+void AliTRDCalibChamberStatus::ProcessTrack(const AliTRDtrackV1 * trdTrack)
+{
+ //
+ // Track Processing to get half chamber status
+ //
+ //
+
+
+ const AliTRDseedV1 *tracklet = 0x0;
+ AliTRDcluster *cluster;
+ //////////////////////////////////////
+ // Loop tracklets
+ /////////////////////////////////////
+ for(Int_t itr = 0; itr < 6; ++itr){
+
+ if(!(tracklet = trdTrack->GetTracklet(itr))) continue;
+ if(!tracklet->IsOK()) continue;
+
+ // Loop on clusters
+ for(int ic=0; ic<AliTRDseedV1::kNtb; ++ic){
+ if((cluster = tracklet->GetClusters(ic))) {
+ //printf("ic %d\n",ic);
+ break;
+ }
+ }
+ if(!cluster) continue;
+
+ Int_t det = cluster->GetDetector();
+ Int_t layer = AliTRDgeometry::GetLayer(det);
+ Int_t sm = AliTRDgeometry::GetSector(det);
+ Int_t stac = AliTRDgeometry::GetStack(det);
+
+ Int_t col = cluster->GetPadCol();
+ Int_t iMcm = (Int_t)(col/18); // current group of 18 col pads
+ Double_t rphi = 0.5;
+ if(iMcm > 3) rphi = 1.5;
+
+ Double_t val[4] = {sm,layer,stac,rphi};
+ if(fHnSparseI->GetBinContent((const Int_t*)val)<2147483646) fHnSparseI->Fill(&val[0]);
+ }
+
}
//_____________________________________________________________________
void AliTRDCalibChamberStatus::ProcessEvent(AliRawReader * rawReader, Int_t nevents_physics)
{
//
- // Event Processing loop
+ // Event Processing loop with AliTRDrawStream
//
//
Bool_t notEmpty = kFALSE;
- AliTRDrawFastStream *rawStream = new AliTRDrawFastStream(rawReader);
- rawStream->SetNoErrorWarning();
- rawStream->SetSharedPadReadout(kFALSE);
-
AliTRDdigitsManager *digitsManager = new AliTRDdigitsManager(kTRUE);
digitsManager->CreateArrays();
+ AliTRDrawStream *rawStream = new AliTRDrawStream(rawReader);
+ rawStream->SetDigitsManager(digitsManager);
+ // rawStream->SetNoErrorWarning();
+ // rawStream->SetSharedPadReadout(kFALSE);
+
+
Int_t det = 0;
while ((det = rawStream->NextChamber(digitsManager, NULL, NULL)) >= 0) {
if(notEmpty) fCounterEventNotEmpty++;
- if(digitsManager) delete digitsManager;
- if(rawStream) delete rawStream;
+ delete digitsManager;
+ delete rawStream;
}
//_____________________________________________________________________
}
//_____________________________________________________________________
-void AliTRDCalibChamberStatus::AnalyseHisto() /*FOLD00*/
+void AliTRDCalibChamberStatus::AnalyseHisto(Int_t limit, Double_t chamberlimit) /*FOLD00*/
{
- //
- // Create the AliTRDCalChamberStatus according to the fHnSparseI
- //
-
+ //
+ // Create the AliTRDCalChamberStatus according to the fHnSparseI
+ //
+
if(fCalChamberStatus) delete fCalChamberStatus;
fCalChamberStatus = new AliTRDCalChamberStatus();
- // Check if enough events to say something
- if(fCounterEventNotEmpty < 30) {
- // Say all installed
- for (Int_t ism=0; ism<18; ism++) {
- for (Int_t ipl=0; ipl<6; ipl++) {
- for (Int_t istack=0; istack<5; istack++) {
- // layer, stack, sector
- Int_t det = AliTRDgeometry::GetDetector(ipl,istack,ism);
- fCalChamberStatus->SetStatus(det,1);
- }
- }
+ //printf("test0\n");
+
+ // Check if enough events/tracklets per halfchamber to say something
+ Double_t mean=0.0; //number of tracklets per HCS
+ Int_t coord2[4];
+ for(Int_t bin = 0; bin < fHnSparseI->GetNbins(); bin++) {
+ //if(fHnSparseI->GetBinContent(bin,coord2)==0.0) printf(" bin shouldnt be empty!!\n");
+ mean+=fHnSparseI->GetBinContent(bin,coord2);
+ }
+ if(fHnSparseI->GetNbins() > 0.0) mean/=fHnSparseI->GetNbins();
+ //printf(" mean tracklets per halfchamber %.3e \n",mean);
+ if((fCounterEventNotEmpty < limit) && (mean < limit)) {
+ // Say all good
+ for (Int_t idet=0; idet<540; idet++) {
+ fCalChamberStatus->SetStatus(idet,AliTRDCalChamberStatus::kGood);
}
return;
}
- // Mask out all chambers
- for (Int_t ism=0; ism<18; ism++) {
- for (Int_t ipl=0; ipl<6; ipl++) {
- for (Int_t istack=0; istack<5; istack++) {
- // layer, stack, sector
- Int_t det = AliTRDgeometry::GetDetector(ipl,istack,ism);
- fCalChamberStatus->SetStatus(det,2);
- }
- }
+ //printf("test1\n");
+
+ // set all chambers to NoData
+ for (Int_t idet=0; idet<540; idet++) {
+ fCalChamberStatus->SetStatus(idet,AliTRDCalChamberStatus::kNoData);
}
- // Unmask good chambers
+ // set status according to fHnSparseI
Int_t coord[4];
for(Int_t bin = 0; bin < fHnSparseI->GetNbins(); bin++) {
- fHnSparseI->GetBinContent(bin,coord);
- // layer, stack, sector
+ Double_t content = fHnSparseI->GetBinContent(bin,coord);
+
+ // layer, stack, sector
Int_t detector = AliTRDgeometry::GetDetector(coord[1]-1,coord[2]-1,coord[0]-1);
-
+
+ if(content<chamberlimit*mean) {
+ //printf("Number of entries for detector %03d-%s: %.3e -> %.3f \n",detector,(coord[3]-1==0?"A":"B"),content,content/mean);
+ continue;
+ }
//
// Check which halfchamber side corresponds to the bin number (0=A, 1=B)
// Change the status accordingly
//
-
- switch(fCalChamberStatus->GetStatus(detector))
- {
- case 1: break; // no changes
- case 2:
- if(coord[3]-1==0) {
- fCalChamberStatus->SetStatus(detector,4); break; // only SideB is masked
- }
- else {
- fCalChamberStatus->SetStatus(detector,3); break; // only SideA is masked
- }
- case 3: fCalChamberStatus->SetStatus(detector,1); break; // unmask SideA
- case 4: fCalChamberStatus->SetStatus(detector,1); break; // unmask SideB
- }
+ if(coord[3]-1==0) { // HCS-A
+ fCalChamberStatus->SetStatus(detector,AliTRDCalChamberStatus::kGood);
+ fCalChamberStatus->UnsetStatusBit(detector,AliTRDCalChamberStatus::kNoDataHalfChamberSideA); // A has data
+ //fCalChamberStatus->UnsetStatusBit(detector,AliTRDCalChamberStatus::kNoData);
+ }
+ else { //HCS-B
+ fCalChamberStatus->SetStatus(detector,AliTRDCalChamberStatus::kGood);
+ fCalChamberStatus->UnsetStatusBit(detector,AliTRDCalChamberStatus::kNoDataHalfChamberSideB); // B has data
+ //fCalChamberStatus->UnsetStatusBit(detector,AliTRDCalChamberStatus::kNoData);
+ }
}
+ // printf
+ //for (Int_t idet=0; idet<540; idet++) {
+ // if(fCalChamberStatus->IsNoData(idet)) printf("No Data: chamber %d\n",idet);
+ //}
+
}
//_____________________________________________________________________
-void AliTRDCalibChamberStatus::CheckEORStatus(AliTRDCalDCS *calDCS) /*FOLD00*/
+void AliTRDCalibChamberStatus::CheckEORStatus(const AliTRDCalDCSv2 *calDCS) /*FOLD00*/
{
//
- // Correct the AliTRDCalChamberStatus according to the AliTRDCalDCS
+ // Correct the AliTRDCalChamberStatus according to the AliTRDCalDCSv2
// Using globale state of the HalfChamberMerger (HCM)
//
-
for(Int_t det = 0; det < 540; det++) {
- AliTRDCalDCSFEE* calDCSFEEEOR = calDCS->GetCalDCSFEEObj(det);
- if(!calDCSFEEEOR) { continue;}
+ AliTRDCalDCSFEEv2* calDCSFEEEOR = calDCS->GetCalDCSFEEObj(det);
+
+ if(!calDCSFEEEOR) continue;
// MCM Global State Machine State Definitions
// low_power = 0,
Int_t lay = AliTRDgeometry::GetLayer(det);
Int_t stac = AliTRDgeometry::GetStack(det);
- Int_t stateA = calDCSFEEEOR->GetMCMGlobalState(4,17); // HCM Side A
- Int_t stateB = calDCSFEEEOR->GetMCMGlobalState(5,17); // HCM Side B
- Int_t rphi = -1;
-
- //printf("DCS: stateA %d \t stateB %d \n",stateA,stateB);
- if(stateA!=3 && stateA!=9) rphi = 1;
- Double_t vals[4] = {sm,lay,stac,rphi};
- if(rphi!=-1) fHnSparseHCM->Fill(&vals[0]);
-
- if(stateB!=3 && stateB!=9) rphi = 2;
- vals[3] = rphi;
- if(rphi!=-1) fHnSparseHCM->Fill(&vals[0]);
+ Int_t stateA = 0; // 0=bad, 1=good state
+ Int_t stateB = 0;
+
+ // loop over all mcm to define DCS-HCS
+ for(Int_t ii = 0; ii < 8; ii++) { //ROB loop
+ for(Int_t i = 0; i < 18; i++) { //MCM loop
+
+ Int_t side = ii%2; // 0=sideA, 1=sideB
+ Int_t cstate = calDCSFEEEOR->GetMCMGlobalState(ii,i); //current mcm state
+
+ if(cstate==3) {
+ switch(side) {
+ case 0: stateA=1; break;
+ case 1: stateB=1; break;
+ }
+ }
+ }
+ }
//---------//
// Debug //
if(fDebugLevel > 0) {
- if( ((fCalChamberStatus->GetStatus(det) <= 1) && (stateA!=3 && stateA!=9)) ||
- ((fCalChamberStatus->GetStatus(det) <= 1) && (stateB!=3 && stateB!=9)) ||
- ((fCalChamberStatus->GetStatus(det) == 2) && (stateA==3 || stateA==9)) ||
- ((fCalChamberStatus->GetStatus(det) == 2) && (stateB==3 || stateB==9)) ||
- ((fCalChamberStatus->GetStatus(det) == 3) && (stateA==3 || stateA==9)) ||
- ((fCalChamberStatus->GetStatus(det) == 3) && (stateB!=3 && stateB!=9)) ||
- ((fCalChamberStatus->GetStatus(det) == 4) && (stateB==3 || stateB==9)) ||
- ((fCalChamberStatus->GetStatus(det) == 4) && (stateA!=3 && stateA!=9)) )
+ if( ((fCalChamberStatus->GetStatus(det) <= 1) && (stateA==0 || stateB==0)) ||
+ ((fCalChamberStatus->GetStatus(det) == 2) && (stateA==1 || stateB==1)) ||
+ ((fCalChamberStatus->GetStatus(det) == 3) && (stateA==1 || stateB==0)) ||
+ ((fCalChamberStatus->GetStatus(det) == 4) && (stateB==0 || stateB==1)) )
{
//printf(" Different half chamber status in DCS and DATA!!\n");
Double_t val[4] = {sm,lay,stac,1};
fHnSparseDebug->Fill(&val[0]);
- if(rphi!=-1) { // error in DCS information
- // Fill MCM status map
- for(Int_t ii = 0; ii < 8; ii++) { //ROB loop
- for(Int_t i = 0; i < 16; i++) { //MCM loop
- Double_t valss[6] = {sm,lay,stac,ii,i
- ,calDCSFEEEOR->GetMCMGlobalState(ii,i)};
- fHnSparseMCM->Fill(&valss[0]);
- }
+ // Fill MCM status map
+ for(Int_t ii = 0; ii < 8; ii++) { //ROB loop
+ for(Int_t i = 0; i < 18; i++) { //MCM loop
+ Double_t valss[6] = {sm,lay,stac,ii,i
+ ,calDCSFEEEOR->GetMCMGlobalState(ii,i)};
+ fHnSparseMCM->Fill(&valss[0]);
+
}
}
}
//---------//
// Debug //
- //////////////////////////////////////////
+ //---------------------------------------
// Change the status according to DCS
- ///////////////////////////////////////////
-
- // First put bad status if seen by DCS
- /////////////////////////////////////////
- if(stateA!=3 && stateA!=9 && stateB!=3 && stateB!=9) {
- // completely masked from DCS
- fCalChamberStatus->SetStatus(det,2);
- }
- if((stateA!=3 && stateA!=9) && (stateB==3 || stateB==9)) {
- // Only A side masked from DCS
- if(fCalChamberStatus->GetStatus(det) != 3) {
- // But not from Data
- if(fCalChamberStatus->GetStatus(det) == 4) fCalChamberStatus->SetStatus(det,2);
- if(fCalChamberStatus->GetStatus(det) <= 1) fCalChamberStatus->SetStatus(det,3);
- }
- }
- if((stateA==3 || stateA==9) && (stateB!=3 && stateB!=9)) {
- // Only B side masked from DCS
- if(fCalChamberStatus->GetStatus(det) != 4) {
- // But not from Data
- if(fCalChamberStatus->GetStatus(det) == 3) fCalChamberStatus->SetStatus(det,2);
- if(fCalChamberStatus->GetStatus(det) <= 1) fCalChamberStatus->SetStatus(det,4);
+ //---------------------------------------
+ Int_t statusData = fCalChamberStatus->GetStatus(det);
+ switch(statusData)
+ {
+ case 1:
+ if(stateA==0 && stateB==0) fCalChamberStatus->SetStatus(det,2); // completely masked from DCS
+ if(stateA==1 && stateB==0) fCalChamberStatus->SetStatus(det,4); // Only B side masked from DCS
+ if(stateA==0 && stateB==1) fCalChamberStatus->SetStatus(det,3); // Only A side masked from DCS
+ if(stateA==1 && stateB==1) fCalChamberStatus->SetStatus(det,1);
+ break;
+ case 2: // completely masked from DATA
+ if(stateA==0 && stateB==0) fCalChamberStatus->SetStatus(det,2); // completely masked from DCS
+ break;
+ case 3: // Only A side masked from DATA
+ if(stateA==0 && stateB==0) fCalChamberStatus->SetStatus(det,2); // completely masked from DCS
+ if(stateA==1 && stateB==0) fCalChamberStatus->SetStatus(det,2); // Only B side masked from DCS
+ if(stateA==0 && stateB==1) fCalChamberStatus->SetStatus(det,3); // Only A side masked from DCS
+ if(stateA==1 && stateB==1) fCalChamberStatus->SetStatus(det,3);
+ break;
+ case 4: // Only B side masked from DATA
+ if(stateA==0 && stateB==0) fCalChamberStatus->SetStatus(det,2); // completely masked from DCS
+ if(stateA==1 && stateB==0) fCalChamberStatus->SetStatus(det,4); // Only B side masked from DCS
+ if(stateA==0 && stateB==1) fCalChamberStatus->SetStatus(det,2); // Only A side masked from DCS
+ if(stateA==1 && stateB==1) fCalChamberStatus->SetStatus(det,4);
+ break;
}
- }
-
- // Then release in case of error 3 from DCS
- /////////////////////////////////////////////
- if(fCalChamberStatus->GetStatus(det)==2) {
- if((stateA==3) && (stateB==3)) fCalChamberStatus->SetStatus(det,1);
- if((stateA==3) && (stateB!=3)) fCalChamberStatus->SetStatus(det,4);
- if((stateA!=3) && (stateB==3)) fCalChamberStatus->SetStatus(det,3);
- }
- if((fCalChamberStatus->GetStatus(det)==3) && (stateA==3)) fCalChamberStatus->SetStatus(det,1);
- if((fCalChamberStatus->GetStatus(det)==4) && (stateB==3)) fCalChamberStatus->SetStatus(det,1);
}
}
//_____________________________________________________________________________________
-void AliTRDCalibChamberStatus::Add(AliTRDCalibChamberStatus *calibChamberStatus) /*FOLD00*/
+void AliTRDCalibChamberStatus::Add(const AliTRDCalibChamberStatus *calibChamberStatus) /*FOLD00*/
{
//
// Add the THnSparseI of this calibChamberStatus
if ( backup ) backup->cd();
}
+//_____________________________________________________________________________
+TH2D* AliTRDCalibChamberStatus::PlotSparseI(Int_t sm,Int_t side)
+{
+ //
+ // Plot number of entries for supermodule sm
+ // as a function of layer and stack
+ //
+
+ if(!fHnSparseI) return 0x0;
+
+ fHnSparseI->GetAxis(0)->SetRange(sm+1,sm+1);
+ fHnSparseI->GetAxis(3)->SetRange(side+1,side+1);
+ TH2D *h2 = fHnSparseI->Projection(1,2);
+
+
+ return h2;
+
+}
+//_____________________________________________________________________
+TH2F *AliTRDCalibChamberStatus::MakeHisto2DSmPlEORStatus(const AliTRDCalDCSv2 *calDCS, Int_t sm, Int_t pl) /*FOLD00*/
+{
+ //
+ // Plot globale state of the HalfChamberMerger (HCM)
+ //
+ AliTRDfeeParam *paramfee = AliTRDfeeParam::Instance();
+
+ AliTRDgeometry *trdGeo = new AliTRDgeometry();
+ AliTRDpadPlane *padPlane0 = trdGeo->GetPadPlane(pl,0); // layer,stack
+ Double_t row0 = padPlane0->GetRow0();
+ Double_t col0 = padPlane0->GetCol0();
+
+ char name[1000];
+ snprintf(name,1000,"%s DCS status sm %d pl %d",GetTitle(),sm,pl);
+ TH2F * his = new TH2F( name, name, 88,-TMath::Abs(row0),TMath::Abs(row0)
+ ,148,-TMath::Abs(col0),TMath::Abs(col0));
+
+
+ // Where we begin
+ Int_t offsetsmpl = 30*sm+pl;
+ Int_t nstack = 5;
+ Int_t ncols = 144;
+
+ for (Int_t k = 0; k < nstack; k++){
+ Int_t det = offsetsmpl+k*6;
+ Int_t stac = AliTRDgeometry::GetStack(det);
+ AliTRDCalDCSFEEv2* calDCSFEEEOR = calDCS->GetCalDCSFEEObj(det);
+ if(!calDCSFEEEOR) { continue;}
+ for (Int_t icol=0; icol<ncols; icol++){
+ Int_t nrows = 16;
+ if(stac==2) nrows = 12;
+ for (Int_t irow=0; irow<nrows; irow++){
+ Int_t binz = 0;
+ Int_t kb = 5-1-k;
+ Int_t krow = nrows-1-irow;
+ Int_t kcol = ncols-1-icol;
+ if(kb > 2) binz = 16*(kb-1)+12+krow+1+2*(kb+1);
+ else binz = 16*kb+krow+1+2*(kb+1);
+ Int_t biny = kcol+1+2;
+ // Take the value
+ Int_t mcm = paramfee->GetMCMfromPad(irow,icol);
+ Int_t rob = paramfee->GetROBfromPad(irow,icol);
+ if(mcm < 0) AliWarning("Problem with mcm number");
+ Int_t state = calDCSFEEEOR->GetMCMGlobalState(rob,TMath::Abs(mcm));
+ his->SetBinContent(binz,biny,state);
+ }
+ }
+ for(Int_t icol = 1; icol < 147; icol++){
+ for(Int_t l = 0; l < 2; l++){
+ Int_t binz = 0;
+ Int_t kb = 5-1-k;
+ if(kb > 2) binz = 16*(kb-1)+12+1+2*(kb+1)-(l+1);
+ else binz = 16*kb+1+2*(kb+1)-(l+1);
+ his->SetBinContent(binz,icol,16.0);
+ }
+ }
+ }
+
+ for(Int_t icol = 1; icol < 147; icol++){
+ his->SetBinContent(88,icol,16.0);
+ his->SetBinContent(87,icol,16.0);
+ }
+ for(Int_t irow = 1; irow < 89; irow++){
+ his->SetBinContent(irow,1,16.0);
+ his->SetBinContent(irow,2,16.0);
+ his->SetBinContent(irow,147,16.0);
+ his->SetBinContent(irow,148,16.0);
+ }
+
+ his->SetXTitle("z (cm)");
+ his->SetYTitle("y (cm)");
+ his->SetMaximum(12);
+ his->SetMinimum(0.0);
+ his->SetStats(0);
+
+ return his;
+
+}
+//_____________________________________________________________________________
+TCanvas* AliTRDCalibChamberStatus::PlotHistos2DSmEORStatus(AliTRDCalDCSv2 *calDCS, Int_t sm, const Char_t *name)
+{
+ //
+ // Make 2D graph
+ //
+
+ gStyle->SetPalette(1);
+ fC1 = new TCanvas(name,name,50,50,600,800);
+ fC1->Divide(3,2);
+ fC1->cd(1);
+ MakeHisto2DSmPlEORStatus(calDCS,sm,0)->Draw("colz");
+ fC1->cd(2);
+ MakeHisto2DSmPlEORStatus(calDCS,sm,1)->Draw("colz");
+ fC1->cd(3);
+ MakeHisto2DSmPlEORStatus(calDCS,sm,2)->Draw("colz");
+ fC1->cd(4);
+ MakeHisto2DSmPlEORStatus(calDCS,sm,3)->Draw("colz");
+ fC1->cd(5);
+ MakeHisto2DSmPlEORStatus(calDCS,sm,4)->Draw("colz");
+ fC1->cd(6);
+ MakeHisto2DSmPlEORStatus(calDCS,sm,5)->Draw("colz");
+
+ return fC1;
+
+}
+
+