Public Types | Public Member Functions | Private Attributes | List of all members
om::HitMaps Class Reference

#include "/cvmfs/nova-development.opensciencegrid.org/novasoft/releases/N20-12-03/OnlineMonitoring/producer/HitMaps.h"

Inheritance diagram for om::HitMaps:
om::SummarySubscriber

Public Types

enum  _which { kEvent = 0x01, kDataBlock = 0x02, kMicroSlice = 0x04, kNanoSlice = 0x08 }
 Which summaries does a class want to subscribe to? More...
 

Public Member Functions

 HitMaps ()
 
 ~HitMaps ()
 
virtual void GetNanoSliceSummary (const RawEventSummary &r, const DataBlockSummary &dbs, const MicroSliceSummary &mss, const NanoSliceSummary &nss)
 Interface to the nanoslice summary. More...
 
void EvalFEBShutOff ()
 
void CopyHistContent (TH2F *&histFrom, TH2F *&histTo)
 
virtual void GetRawEventSummary (const RawEventSummary &res)
 Interface to the event summary. More...
 
virtual void GetDataBlockSummary (const RawEventSummary &res, const DataBlockSummary &dbs)
 Interface to the data block summary. More...
 
virtual void GetMicroSliceSummary (const RawEventSummary &res, const DataBlockSummary &dbs, const MicroSliceSummary &mss)
 Interface to the microslice summary. More...
 

Private Attributes

daqchannelmap::HardwareDisplayfHwMap
 
TH1F * fHitMapEvtCount
 
TH1F * fRecordedTime
 
TH2F * fDCMHitRateMap
 
TH1F * fDCMHitRateSpectrum
 
TH2F * fDCMHitRateMapLowADC
 
TH2F * fDCMHitRateMapMipADC
 
TH2F * fDCMHitRateMapHighADC
 
TH2F * fFEBHitRateMap
 
TH1F * fFEBHitRateSpectrum
 
TH2F * fFEBHitRateMapLowADC
 
TH2F * fFEBHitRateMapMipADC
 
TH2F * fFEBHitRateMapHighADC
 
TH2F * fPixelHitMap
 
TH2F * fPixelHitMapLowADC
 
TH2F * fPixelHitMapMipADC
 
TH2F * fPixelHitMapHighADC
 
TH2F * fPixelHitRateMap
 
TH2F * fPixelHitRateMapLowADC
 
TH2F * fPixelHitRateMapMipADC
 
TH2F * fPixelHitRateMapHighADC
 
TH1F * fPixelHitRateSpectrum
 
TH2F * fDCMHitMap
 
TH2F * fDCMHitMapLowADC
 
TH2F * fDCMHitMapMipADC
 
TH2F * fDCMHitMapHighADC
 
TH2F * fFEBHitMap
 
TH2F * fFEBHitMapLowADC
 
TH2F * fFEBHitMapMipADC
 
TH2F * fFEBHitMapHighADC
 
TH2F * fPlaneCellHitMapXviewAllHits
 
TH2F * fPlaneCellHitMapYviewAllHits
 
TH2F * fPlaneCellHitRateMapXviewAllHits
 
TH2F * fPlaneCellHitRateMapYviewAllHits
 
TH2F * fPlaneCellHitMapXviewCalib
 
TH2F * fPlaneCellHitMapYviewCalib
 
TH2F * fPlaneCellHitMapXviewNuMI
 
TH2F * fPlaneCellHitMapYviewNuMI
 
TH2F * fPlaneCellHitMapXviewBNB
 
TH2F * fPlaneCellHitMapYviewBNB
 
TH2F * fPixelsRateDCM [PixelsDCM_size][PixelsDCM_size]
 
TH2F * fLowADCPixelsRateDCM [PixelsDCM_size][PixelsDCM_size]
 
TH2F * fMipADCPixelsRateDCM [PixelsDCM_size][PixelsDCM_size]
 
TH2F * fHighADCPixelsRateDCM [PixelsDCM_size][PixelsDCM_size]
 
TH2F * fPixelsDCM [PixelsDCM_size][PixelsDCM_size]
 
TH2F * fLowADCPixelsDCM [PixelsDCM_size][PixelsDCM_size]
 
TH2F * fMipADCPixelsDCM [PixelsDCM_size][PixelsDCM_size]
 
TH2F * fHighADCPixelsDCM [PixelsDCM_size][PixelsDCM_size]
 
TH2F * fMinADCPixelsDCM [PixelsDCM_size][PixelsDCM_size]
 
TH2F * fMaxADCPixelsDCM [PixelsDCM_size][PixelsDCM_size]
 
TH2F * fTotADCPixelsDCM [PixelsDCM_size][PixelsDCM_size]
 
TH2F * fTotADCFEBHitMap
 
TH2F * fFEBShutOff
 
TH2F * fFEBShutOffBookKeeping1
 
TH2F * fFEBShutOffBookKeeping2
 

Detailed Description

Definition at line 19 of file HitMaps.h.

Member Enumeration Documentation

Which summaries does a class want to subscribe to?

Enumerator
kEvent 
kDataBlock 
kMicroSlice 
kNanoSlice 

Definition at line 20 of file SummarySubscriber.h.

Constructor & Destructor Documentation

HitMaps::HitMaps ( )

Definition at line 22 of file HitMaps.cxx.

References fDCMHitMap, fDCMHitMapHighADC, fDCMHitMapLowADC, fDCMHitMapMipADC, fDCMHitRateMap, fDCMHitRateMapHighADC, fDCMHitRateMapLowADC, fDCMHitRateMapMipADC, fDCMHitRateSpectrum, fFEBHitMap, fFEBHitMapHighADC, fFEBHitMapLowADC, fFEBHitMapMipADC, fFEBHitRateMap, fFEBHitRateMapHighADC, fFEBHitRateMapLowADC, fFEBHitRateMapMipADC, fFEBHitRateSpectrum, fFEBShutOff, fFEBShutOffBookKeeping1, fFEBShutOffBookKeeping2, fHighADCPixelsDCM, fHighADCPixelsRateDCM, fHitMapEvtCount, fHwMap, fLowADCPixelsDCM, fLowADCPixelsRateDCM, fMaxADCPixelsDCM, fMinADCPixelsDCM, fMipADCPixelsDCM, fMipADCPixelsRateDCM, fPixelHitMap, fPixelHitMapHighADC, fPixelHitMapLowADC, fPixelHitMapMipADC, fPixelHitRateMap, fPixelHitRateMapHighADC, fPixelHitRateMapLowADC, fPixelHitRateMapMipADC, fPixelHitRateSpectrum, fPixelsDCM, fPixelsRateDCM, fPlaneCellHitMapXviewAllHits, fPlaneCellHitMapXviewBNB, fPlaneCellHitMapXviewCalib, fPlaneCellHitMapXviewNuMI, fPlaneCellHitMapYviewAllHits, fPlaneCellHitMapYviewBNB, fPlaneCellHitMapYviewCalib, fPlaneCellHitMapYviewNuMI, fPlaneCellHitRateMapXviewAllHits, fPlaneCellHitRateMapYviewAllHits, fRecordedTime, fTotADCFEBHitMap, fTotADCPixelsDCM, om::HistoSet::GetTH1F(), om::HistoSet::GetTH2F(), make_syst_table_plots::h, MECModelEnuComparisons::i, om::Settings::Instance(), om::HistoSet::Instance(), calib::j, om::kNDOS, om::kNEARDET, PixelsDCM_size, and daqchannelmap::HardwareDisplay::SetupDet().

22  :
25 {
27 
28  for(unsigned int i = 0; i < PixelsDCM_size; ++i) {
29  for(unsigned int j = 0; j < PixelsDCM_size; ++j) {
30  fPixelsRateDCM[i][j] = 0;
31  fLowADCPixelsRateDCM[i][j] = 0;
32  fMipADCPixelsRateDCM[i][j] = 0;
34  fPixelsDCM[i][j] = 0;
35  fLowADCPixelsDCM[i][j] = 0;
36  fMipADCPixelsDCM[i][j] = 0;
37  fHighADCPixelsDCM[i][j] = 0;
38  fMinADCPixelsDCM[i][j] = 0;
39  fMaxADCPixelsDCM[i][j] = 0;
40  fTotADCPixelsDCM[i][j] = 0;
41  } // end for j
42  } // end for i
43 
45 
46  fHitMapEvtCount = h.GetTH1F("HitMapEvtCount");
47  fRecordedTime = h.GetTH1F("RecordedTime");
48  fDCMHitRateMap = h.GetTH2F("DCMHitRateMap");
49  fDCMHitRateSpectrum = h.GetTH1F("DCMHitRateSpectrum");
50  fDCMHitRateMapLowADC = h.GetTH2F("DCMHitRateMapLowADC");
51  fDCMHitRateMapMipADC = h.GetTH2F("DCMHitRateMapMipADC");
52  fDCMHitRateMapHighADC = h.GetTH2F("DCMHitRateMapHighADC");
53  fFEBHitRateMap = h.GetTH2F("FEBHitRateMap");
54  fFEBHitRateSpectrum = h.GetTH1F("FEBHitRateSpectrum");
55  fFEBHitRateMapLowADC = h.GetTH2F("FEBHitRateMapLowADC");
56  fFEBHitRateMapMipADC = h.GetTH2F("FEBHitRateMapMipADC");
57  fFEBHitRateMapHighADC = h.GetTH2F("FEBHitRateMapHighADC");
58 
59  fPixelHitMap = h.GetTH2F("PixelHitMap");
60  fPixelHitMapLowADC = h.GetTH2F("PixelHitMapLowADC");
61  fPixelHitMapMipADC = h.GetTH2F("PixelHitMapMipADC");
62  fPixelHitMapHighADC = h.GetTH2F("PixelHitMapHighADC");
63  fPixelHitRateMap = h.GetTH2F("PixelHitRateMap");
64  fPixelHitRateMapLowADC = h.GetTH2F("PixelHitRateMapLowADC");
65  fPixelHitRateMapMipADC = h.GetTH2F("PixelHitRateMapMipADC");
66  fPixelHitRateMapHighADC = h.GetTH2F("PixelHitRateMapHighADC");
67  fPixelHitRateSpectrum = h.GetTH1F("PixelHitRateSpectrum");
68 
69  fDCMHitMap = h.GetTH2F("DCMHitMap");
70  fDCMHitMapLowADC = h.GetTH2F("DCMHitMapLowADC");
71  fDCMHitMapMipADC = h.GetTH2F("DCMHitMapMipADC");
72  fDCMHitMapHighADC = h.GetTH2F("DCMHitMapHighADC");
73  fFEBHitMap = h.GetTH2F("FEBHitMap");
74  fFEBHitMapLowADC = h.GetTH2F("FEBHitMapLowADC");
75  fFEBHitMapMipADC = h.GetTH2F("FEBHitMapMipADC");
76  fFEBHitMapHighADC = h.GetTH2F("FEBHitMapHighADC");
77  fPlaneCellHitMapXviewAllHits = h.GetTH2F("PlaneCellHitMapXviewAllHits");
78  fPlaneCellHitMapYviewAllHits = h.GetTH2F("PlaneCellHitMapYviewAllHits");
79  fPlaneCellHitRateMapXviewAllHits = h.GetTH2F("PlaneCellHitRateMapXviewAllHits");
80  fPlaneCellHitRateMapYviewAllHits = h.GetTH2F("PlaneCellHitRateMapYviewAllHits");
81 
82  if(Settings::Instance().fDet == kNDOS) {
83  fPlaneCellHitMapXviewCalib = h.GetTH2F("PlaneCellHitMapXviewCalib");
84  fPlaneCellHitMapYviewCalib = h.GetTH2F("PlaneCellHitMapYviewCalib");
85  fPlaneCellHitMapXviewNuMI = h.GetTH2F("PlaneCellHitMapXviewNuMI");
86  fPlaneCellHitMapYviewNuMI = h.GetTH2F("PlaneCellHitMapYviewNuMI");
87  fPlaneCellHitMapXviewBNB = h.GetTH2F("PlaneCellHitMapXviewBNB");
88  fPlaneCellHitMapYviewBNB = h.GetTH2F("PlaneCellHitMapYviewBNB");
89  }
90  if(Settings::Instance().fDet == kNEARDET) {
91  fPlaneCellHitMapXviewCalib = h.GetTH2F("PlaneCellHitMapXviewCalib");
92  fPlaneCellHitMapYviewCalib = h.GetTH2F("PlaneCellHitMapYviewCalib");
93  fPlaneCellHitMapXviewNuMI = h.GetTH2F("PlaneCellHitMapXviewNuMI");
94  fPlaneCellHitMapYviewNuMI = h.GetTH2F("PlaneCellHitMapYviewNuMI");
95  }
96 
97  fTotADCFEBHitMap = h.GetTH2F("TotADCFEBHitMap");
98 
99  fFEBShutOff = h.GetTH2F("FEBShutOff");
100  fFEBShutOffBookKeeping1 = h.GetTH2F("FEBShutOffBookKeeping1");
101  fFEBShutOffBookKeeping2 = h.GetTH2F("FEBShutOffBookKeeping2");
102 }
TH2F * fPixelHitRateMapLowADC
Definition: HitMaps.h:52
TH2F * fPlaneCellHitMapXviewAllHits
Definition: HitMaps.h:65
TH2F * fPlaneCellHitMapYviewBNB
Definition: HitMaps.h:74
TH2F * fDCMHitRateMap
Definition: HitMaps.h:35
TH2F * fFEBHitRateMapMipADC
Definition: HitMaps.h:44
TH2F * fPixelHitMapMipADC
Definition: HitMaps.h:49
TH1F * GetTH1F(const char *nm)
Definition: HistoSet.cxx:68
TH2F * fPixelHitMapLowADC
Definition: HitMaps.h:48
TH2F * fDCMHitRateMapLowADC
Definition: HitMaps.h:37
TH2F * fPixelHitRateMapHighADC
Definition: HitMaps.h:54
static const unsigned int PixelsDCM_size
TH2F * fFEBShutOffBookKeeping2
Definition: HitMaps.h:93
TH2F * fFEBShutOffBookKeeping1
Definition: HitMaps.h:92
TH2F * fDCMHitRateMapHighADC
Definition: HitMaps.h:39
TH2F * fPlaneCellHitMapXviewBNB
Definition: HitMaps.h:73
TH1F * fHitMapEvtCount
Definition: HitMaps.h:33
TH2F * fDCMHitMap
Definition: HitMaps.h:57
TH2F * fFEBHitMapMipADC
Definition: HitMaps.h:63
TH2F * fTotADCPixelsDCM[PixelsDCM_size][PixelsDCM_size]
Definition: HitMaps.h:88
TH2F * fDCMHitMapLowADC
Definition: HitMaps.h:58
TH2F * fPixelHitMap
Definition: HitMaps.h:47
TH2F * fTotADCFEBHitMap
Definition: HitMaps.h:89
TH2F * fLowADCPixelsRateDCM[PixelsDCM_size][PixelsDCM_size]
Definition: HitMaps.h:77
TH2F * fFEBHitMapLowADC
Definition: HitMaps.h:62
TH2F * fDCMHitMapMipADC
Definition: HitMaps.h:59
TH2F * fDCMHitMapHighADC
Definition: HitMaps.h:60
TH2F * fFEBShutOff
Definition: HitMaps.h:91
TH2F * fPixelHitRateMapMipADC
Definition: HitMaps.h:53
TH2F * GetTH2F(const char *nm)
Definition: HistoSet.cxx:89
TH2F * fHighADCPixelsDCM[PixelsDCM_size][PixelsDCM_size]
Definition: HitMaps.h:84
TH2F * fPlaneCellHitMapXviewCalib
Definition: HitMaps.h:69
TH2F * fFEBHitMapHighADC
Definition: HitMaps.h:64
TH2F * fPlaneCellHitMapYviewAllHits
Definition: HitMaps.h:66
TH2F * fPixelsDCM[PixelsDCM_size][PixelsDCM_size]
Definition: HitMaps.h:81
const double j
Definition: BetheBloch.cxx:29
daqchannelmap::HardwareDisplay * fHwMap
Definition: HitMaps.h:31
TH1F * fFEBHitRateSpectrum
Definition: HitMaps.h:42
TH2F * fFEBHitMap
Definition: HitMaps.h:61
TH2F * fPlaneCellHitMapYviewCalib
Definition: HitMaps.h:70
TH2F * fPixelHitRateMap
Definition: HitMaps.h:51
TH2F * fPixelsRateDCM[PixelsDCM_size][PixelsDCM_size]
Definition: HitMaps.h:76
TH2F * fHighADCPixelsRateDCM[PixelsDCM_size][PixelsDCM_size]
Definition: HitMaps.h:79
TH2F * fPlaneCellHitRateMapYviewAllHits
Definition: HitMaps.h:68
TH1F * fPixelHitRateSpectrum
Definition: HitMaps.h:55
TH2F * fFEBHitRateMap
Definition: HitMaps.h:41
TH2F * fPlaneCellHitMapYviewNuMI
Definition: HitMaps.h:72
TH1F * fDCMHitRateSpectrum
Definition: HitMaps.h:36
TH2F * fPlaneCellHitMapXviewNuMI
Definition: HitMaps.h:71
TH2F * fPixelHitMapHighADC
Definition: HitMaps.h:50
TH2F * fMipADCPixelsDCM[PixelsDCM_size][PixelsDCM_size]
Definition: HitMaps.h:83
TH2F * fFEBHitRateMapLowADC
Definition: HitMaps.h:43
TH2F * fPlaneCellHitRateMapXviewAllHits
Definition: HitMaps.h:67
static HistoSet & Instance()
Definition: HistoSet.cxx:24
TH2F * fMipADCPixelsRateDCM[PixelsDCM_size][PixelsDCM_size]
Definition: HitMaps.h:78
TH2F * fMaxADCPixelsDCM[PixelsDCM_size][PixelsDCM_size]
Definition: HitMaps.h:87
TH2F * fMinADCPixelsDCM[PixelsDCM_size][PixelsDCM_size]
Definition: HitMaps.h:86
TH1F * fRecordedTime
Definition: HitMaps.h:34
static Settings & Instance()
Definition: Settings.cxx:12
TH2F * fFEBHitRateMapHighADC
Definition: HitMaps.h:45
TH2F * fLowADCPixelsDCM[PixelsDCM_size][PixelsDCM_size]
Definition: HitMaps.h:82
TH2F * fDCMHitRateMapMipADC
Definition: HitMaps.h:38
HitMaps::~HitMaps ( )

Definition at line 106 of file HitMaps.cxx.

References fHwMap.

106  {
107  if (fHwMap) {delete fHwMap; fHwMap = 0;}
108 }
daqchannelmap::HardwareDisplay * fHwMap
Definition: HitMaps.h:31

Member Function Documentation

void HitMaps::CopyHistContent ( TH2F *&  histFrom,
TH2F *&  histTo 
)

Definition at line 451 of file HitMaps.cxx.

References MECModelEnuComparisons::i, calib::j, plot_xsec_2d::NbinsX, and plot_xsec_2d::NbinsY.

Referenced by EvalFEBShutOff(), and GetNanoSliceSummary().

453 {
454  // Copy histogram content only
455  // *Assumes same binning for both histograms
456  //
457  int NbinsX = histFrom->GetNbinsX();
458  int NbinsY = histFrom->GetNbinsY();
459  for(int i=0;i<NbinsX+2;i++){
460  for(int j=0;j<NbinsY+2;j++){
461  double content = histFrom->GetBinContent(i, j);
462  histTo->SetBinContent(i,j, content);
463  }
464  }
465 }
const double j
Definition: BetheBloch.cxx:29
void HitMaps::EvalFEBShutOff ( )

Definition at line 427 of file HitMaps.cxx.

References plot_validation_datamc::c, CopyHistContent(), fFEBShutOff, fFEBShutOffBookKeeping1, fFEBShutOffBookKeeping2, MECModelEnuComparisons::i, calib::j, and recentWatchdog::now.

Referenced by GetNanoSliceSummary().

428 {
429  int i, j;
430  double now, then;
431  for (i=1; i<=fFEBShutOffBookKeeping1->GetNbinsX(); ++i) {
432  for (j=1; j<=fFEBShutOffBookKeeping1->GetNbinsY(); ++j) {
433  now = fFEBShutOffBookKeeping1->GetBinContent(i,j);
434  if (now<1.0) {
435  then = fFEBShutOffBookKeeping2->GetBinContent(i,j);
436  if (then>0.0) {
437  int ib = fFEBShutOff->GetBin(i,j);
438  double c = fFEBShutOff->GetBinContent(ib);
439  fFEBShutOff->SetBinContent(ib,c+1.0);
440  }
441  }
442  }
443  }
446  fFEBShutOffBookKeeping1->Reset();
447 }
TH2F * fFEBShutOffBookKeeping2
Definition: HitMaps.h:93
TH2F * fFEBShutOffBookKeeping1
Definition: HitMaps.h:92
void CopyHistContent(TH2F *&histFrom, TH2F *&histTo)
Definition: HitMaps.cxx:451
TH2F * fFEBShutOff
Definition: HitMaps.h:91
const double j
Definition: BetheBloch.cxx:29
virtual void om::SummarySubscriber::GetDataBlockSummary ( const RawEventSummary res,
const DataBlockSummary dbs 
)
inlinevirtualinherited

Interface to the data block summary.

Reimplemented in om::DataBlockErrors.

Definition at line 35 of file SummarySubscriber.h.

36  { abort(); }
virtual void om::SummarySubscriber::GetMicroSliceSummary ( const RawEventSummary res,
const DataBlockSummary dbs,
const MicroSliceSummary mss 
)
inlinevirtualinherited

Interface to the microslice summary.

Reimplemented in om::MicroErrors.

Definition at line 39 of file SummarySubscriber.h.

41  { abort(); }
void HitMaps::GetNanoSliceSummary ( const RawEventSummary res,
const DataBlockSummary dbs,
const MicroSliceSummary mss,
const NanoSliceSummary nss 
)
virtual

Interface to the nanoslice summary.

Reimplemented from om::SummarySubscriber.

Definition at line 112 of file HitMaps.cxx.

References bin, C, CopyHistContent(), E, EvalFEBShutOff(), om::NanoSliceSummary::fADC, om::NanoSliceSummary::fCell, om::MicroSliceSummary::fDCM, fDCMHitMap, fDCMHitMapHighADC, fDCMHitMapLowADC, fDCMHitMapMipADC, fDCMHitRateMap, fDCMHitRateMapHighADC, fDCMHitRateMapLowADC, fDCMHitRateMapMipADC, fDCMHitRateSpectrum, om::MicroSliceSummary::fDiblock, daqchannelmap::HardwareDisplay::FEBXY(), om::RawEventSummary::fEvent, om::NanoSliceSummary::fFEB, fFEBHitMap, fFEBHitMapHighADC, fFEBHitMapLowADC, fFEBHitMapMipADC, fFEBHitRateMap, fFEBHitRateMapHighADC, fFEBHitRateMapLowADC, fFEBHitRateMapMipADC, fFEBHitRateSpectrum, fFEBShutOffBookKeeping1, om::NanoSliceSummary::fHdwX, om::NanoSliceSummary::fHdwY, fHighADCPixelsDCM, fHighADCPixelsRateDCM, fHitMapEvtCount, fHwMap, Fill(), stan::math::floor(), fLowADCPixelsDCM, fLowADCPixelsRateDCM, fMaxADCPixelsDCM, fMinADCPixelsDCM, fMipADCPixelsDCM, fMipADCPixelsRateDCM, om::NanoSliceSummary::fPix, fPixelHitMap, fPixelHitMapHighADC, fPixelHitMapLowADC, fPixelHitMapMipADC, fPixelHitRateMap, fPixelHitRateMapHighADC, fPixelHitRateMapLowADC, fPixelHitRateMapMipADC, fPixelHitRateSpectrum, fPixelsDCM, fPixelsRateDCM, om::NanoSliceSummary::fPlane, fPlaneCellHitMapXviewAllHits, fPlaneCellHitMapXviewBNB, fPlaneCellHitMapXviewCalib, fPlaneCellHitMapXviewNuMI, fPlaneCellHitMapYviewAllHits, fPlaneCellHitMapYviewBNB, fPlaneCellHitMapYviewCalib, fPlaneCellHitMapYviewNuMI, fPlaneCellHitRateMapXviewAllHits, fPlaneCellHitRateMapYviewAllHits, om::RawEventSummary::fRange, fRecordedTime, om::RawEventSummary::fRun, fTotADCFEBHitMap, fTotADCPixelsDCM, om::RawEventSummary::fTrigger, om::NanoSliceSummary::fView, om::HistoSet::GetTH2F(), make_syst_table_plots::h, MECModelEnuComparisons::i, om::Settings::Instance(), om::HistoSet::Instance(), calib::j, om::kNDOS, om::kNEARDET, fillBadChanDBTables::lastRun, std::log10(), produceInfoGainMatrix::nEvents, P, PixelsDCM_size, daqchannelmap::HardwareDisplay::PixXY(), PandAna.Demos.demo1::range, x1, submit_syst::x2, daqchannelmap::X_VIEW, y1, submit_syst::y2, and daqchannelmap::Y_VIEW.

116 {
118 
119  //
120  // fill hit map event counter //
121  static unsigned int lastRun=0, lastEvent=0;
122  static const double secPerRange = 5E-7; // fRange is in units of 500nsec
123  unsigned int dropout_interval=0;
124  if(Settings::Instance().fDet == kNEARDET) dropout_interval = 1000;
125  else dropout_interval = 100;
126 
127  if(lastRun!=r.fRun || lastEvent!=r.fEvent) {
128  double nEvents = fHitMapEvtCount->Integral();
129  double recordedSec = (fRecordedTime->Integral())*secPerRange;
130 
131  if((int)nEvents%100 == 0 && recordedSec != 0.0){
132 
133  // Compute rate plots.
148  fDCMHitRateMap ->Scale(1.0/recordedSec);
149  fDCMHitRateMapLowADC ->Scale(1.0/recordedSec);
150  fDCMHitRateMapMipADC ->Scale(1.0/recordedSec);
151  fDCMHitRateMapHighADC ->Scale(1.0/recordedSec);
152  fFEBHitRateMap ->Scale(1.0/recordedSec);
153  fPixelHitRateMap ->Scale(1.0/recordedSec);
154  fPixelHitRateMapLowADC ->Scale(1.0/recordedSec);
155  fPixelHitRateMapMipADC ->Scale(1.0/recordedSec);
156  fPixelHitRateMapHighADC ->Scale(1.0/recordedSec);
157  fFEBHitRateMapLowADC ->Scale(1.0/recordedSec);
158  fFEBHitRateMapMipADC ->Scale(1.0/recordedSec);
159  fFEBHitRateMapHighADC ->Scale(1.0/recordedSec);
160  fPlaneCellHitRateMapXviewAllHits->Scale(1.0/recordedSec);
161  fPlaneCellHitRateMapYviewAllHits->Scale(1.0/recordedSec);
162 
163  // Compute rate spectra.
164  fPixelHitRateSpectrum->Reset();
165  fFEBHitRateSpectrum ->Reset();
166  fDCMHitRateSpectrum ->Reset();
167  for(int i = 1; i <= fPixelHitRateMap->GetNbinsX(); ++i) {
168  for(int j = 1; j <= fPixelHitRateMap->GetNbinsY(); ++j) {
169  double rate = fPixelHitRateMap->GetBinContent(fPixelHitRateMap->GetBin(i,j));
170  if(rate > 0.0)
171  rate = log10(rate);
172  else
173  rate = -100.0;
174  fPixelHitRateSpectrum->Fill(rate);
175  }
176  }
177  for(int i = 1; i <= fFEBHitRateMap->GetNbinsX(); ++i) {
178  for(int j = 1; j <= fFEBHitRateMap->GetNbinsY(); ++j) {
179  double rate = fFEBHitRateMap->GetBinContent(fFEBHitRateMap->GetBin(i,j));
180  if(rate > 0.0)
181  rate = log10(rate);
182  else
183  rate = -100.0;
184  fFEBHitRateSpectrum->Fill(rate);
185  }
186  }
187  for(int i = 1; i <= fDCMHitRateMap->GetNbinsX(); ++i) {
188  for(int j = 1; j <= fDCMHitRateMap->GetNbinsY(); ++j) {
189  double rate = fDCMHitRateMap->GetBinContent(fDCMHitRateMap->GetBin(i,j));
190  if(rate > 0.0)
191  rate = log10(rate);
192  else
193  rate = -100.0;
194  fDCMHitRateSpectrum->Fill(rate);
195  }
196  }
197 
198  for(unsigned int i = 0; i < PixelsDCM_size; ++i) {
199  for(unsigned int j = 0; j < PixelsDCM_size; ++j) {
200  if(fPixelsDCM[i][j]!=0){
201  if(fPixelsRateDCM[i][j]==0){
202  char histoname[30];
203  sprintf(histoname, "PixelsRateDCM_%.2u_%.2u", i, j);
204  fPixelsRateDCM[i][j] = h.GetTH2F(histoname);
205  }
207  fPixelsRateDCM[i][j]->Scale(1/recordedSec);
208  }
209  if(fLowADCPixelsDCM[i][j]!=0){
210  if(fLowADCPixelsRateDCM[i][j]==0){
211  char histoname[30];
212  sprintf(histoname, "LowADCPixelsRateDCM_%.2u_%.2u", i, j);
213  fLowADCPixelsRateDCM[i][j] = h.GetTH2F(histoname);
214  }
216  fLowADCPixelsRateDCM[i][j]->Scale(1/recordedSec);
217  }
218  if(fMipADCPixelsDCM[i][j]!=0){
219  if(fMipADCPixelsRateDCM[i][j]==0){
220  char histoname[30];
221  sprintf(histoname, "MipADCPixelsRateDCM_%.2u_%.2u", i, j);
222  fMipADCPixelsRateDCM[i][j] = h.GetTH2F(histoname);
223  }
225  fMipADCPixelsRateDCM[i][j]->Scale(1/recordedSec);
226  }
227  if(fHighADCPixelsDCM[i][j]!=0){
228  if(fHighADCPixelsRateDCM[i][j]==0){
229  char histoname[30];
230  sprintf(histoname, "HighADCPixelsRateDCM_%.2u_%.2u", i, j);
231  fHighADCPixelsRateDCM[i][j] = h.GetTH2F(histoname);
232  }
234  fHighADCPixelsRateDCM[i][j]->Scale(1/recordedSec);
235  }
236  } // end for j
237  } // end for i
238  //
239  }
240 
241  //
242  // Do the periodic check to see if there have been and FEB
243  // shutoffs.
244  //
245  if((int)nEvents%dropout_interval == 0 && recordedSec != 0.0){
246  this->EvalFEBShutOff();
247  }
248 
249  fHitMapEvtCount->Fill(0);
250  double range = (double)r.fRange;
251 
252  // Adjust the range due to the fact that we always get any micro blocks
253  // that touch the edge of the trigger range.
254  range = 100.0*floor(range/100.0)+100.0;
255 
256  fRecordedTime->Fill(0.0,range);
257 
258  }
259 
260  lastRun = r.fRun;
261  lastEvent = r.fEvent;
262 
263  //
264  // fill hit maps for entire detector
265  //
266  fDCMHitMap-> Fill(nss.fHdwX, nss.fHdwY);
267  fFEBHitMap-> Fill(nss.fHdwX, nss.fHdwY);
268  fFEBShutOffBookKeeping1->Fill(nss.fHdwX, nss.fHdwY);
269  fPixelHitMap-> Fill(nss.fHdwX, nss.fHdwY);
270 
271  if (nss.fView == daqchannelmap::X_VIEW) {
272  //
273  // The plane/cell maps are made to match the hardware views.
274  // So X and Z are reversed but Y is not.
275  //
276  double P = (-1.0)*(nss.fPlane);
277  double C = (-1.0)*(nss.fCell);
278  fPlaneCellHitMapXviewAllHits->Fill(P,C);
279  if(Settings::Instance().fDet == kNDOS) {
280  if(r.fTrigger == 0) fPlaneCellHitMapXviewNuMI ->Fill(P,C);
281  if(r.fTrigger == 1) fPlaneCellHitMapXviewBNB ->Fill(P,C);
282  if(r.fTrigger == 2) fPlaneCellHitMapXviewCalib->Fill(P,C);
283  }
284  if(Settings::Instance().fDet == kNEARDET) {
285  if(r.fTrigger == 0) fPlaneCellHitMapXviewNuMI ->Fill(P,C);
286  if(r.fTrigger == 2) fPlaneCellHitMapXviewCalib->Fill(P,C);
287  }
288  }
289 
290  if(nss.fView == daqchannelmap::Y_VIEW) {
291  //
292  // The plane/cell maps are made to match the hardware views.
293  // So X and Z are reversed but Y is not.
294  //
295  double P = (-1.0)*(nss.fPlane);
296  double C = ( 1.0)*(nss.fCell);
297  fPlaneCellHitMapYviewAllHits->Fill(P,C);
298  if(Settings::Instance().fDet == kNDOS) {
299  if(r.fTrigger == 0) fPlaneCellHitMapYviewNuMI ->Fill(P,C);
300  if(r.fTrigger == 1) fPlaneCellHitMapYviewBNB ->Fill(P,C);
301  if(r.fTrigger == 2) fPlaneCellHitMapYviewCalib->Fill(P,C);
302  }
303  if(Settings::Instance().fDet == kNEARDET) {
304  if(r.fTrigger == 0) fPlaneCellHitMapYviewNuMI ->Fill(P,C);
305  if(r.fTrigger == 2) fPlaneCellHitMapYviewCalib->Fill(P,C);
306  }
307  }
308 
309  unsigned int lowADC = 175;
310  unsigned int highADC = 3200;
311 
312  if(nss.fADC < lowADC) {
313  fDCMHitMapLowADC ->Fill(nss.fHdwX, nss.fHdwY);
314  fFEBHitMapLowADC ->Fill(nss.fHdwX, nss.fHdwY);
315  fPixelHitMapLowADC ->Fill(nss.fHdwX, nss.fHdwY);
316  }
317  if(nss.fADC > highADC) {
318  fDCMHitMapHighADC->Fill(nss.fHdwX, nss.fHdwY);
319  fFEBHitMapHighADC->Fill(nss.fHdwX, nss.fHdwY);
320  fPixelHitMapHighADC->Fill(nss.fHdwX, nss.fHdwY);
321  }
322  if(nss.fADC >= lowADC && nss.fADC <= highADC) {
323  fDCMHitMapMipADC->Fill(nss.fHdwX, nss.fHdwY);
324  fFEBHitMapMipADC->Fill(nss.fHdwX, nss.fHdwY);
325  fPixelHitMapMipADC->Fill(nss.fHdwX, nss.fHdwY);
326  }
327 
328  //
329  // fill hit maps for individual DCMs
330  //
331  if(fPixelsDCM[mss.fDiblock][mss.fDCM] == 0) {
332  char histoname[64];
333  sprintf(histoname, "PixelsDCM_%.2u_%.2u", mss.fDiblock, mss.fDCM);
334  fPixelsDCM[mss.fDiblock][mss.fDCM] = h.GetTH2F(histoname);
335  }
336 
337  unsigned int x1, x2, y1, y2;
338  fHwMap->FEBXY(nss.fFEB, &x1, &y1);
339  fHwMap->PixXY(nss.fPix, &x2, &y2);
340  fPixelsDCM[mss.fDiblock][mss.fDCM]->Fill(x1+x2, y1+y2);
341 
342  // this could later be put with the above ifs to consolidate
343  if(nss.fADC < lowADC) {
344  if(fLowADCPixelsDCM[mss.fDiblock][mss.fDCM] == 0) {
345  char histoname[64];
346  sprintf(histoname, "LowADCPixelsDCM_%.2u_%.2u", mss.fDiblock, mss.fDCM);
347  fLowADCPixelsDCM[mss.fDiblock][mss.fDCM] = h.GetTH2F(histoname);
348  }
349 
350  unsigned int x3, x4, y3, y4;
351  fHwMap->FEBXY(nss.fFEB, &x3, &y3);
352  fHwMap->PixXY(nss.fPix, &x4, &y4);
353  fLowADCPixelsDCM[mss.fDiblock][mss.fDCM]->Fill(x3+x4, y3+y4);
354  }
355 
356  if(nss.fADC > highADC) {
357  if(fHighADCPixelsDCM[mss.fDiblock][mss.fDCM] == 0) {
358  char histoname[64];
359  sprintf(histoname, "HighADCPixelsDCM_%.2u_%.2u", mss.fDiblock, mss.fDCM);
360  fHighADCPixelsDCM[mss.fDiblock][mss.fDCM] = h.GetTH2F(histoname);
361  }
362 
363  unsigned int x3, x4, y3, y4;
364  fHwMap->FEBXY(nss.fFEB, &x3, &y3);
365  fHwMap->PixXY(nss.fPix, &x4, &y4);
366  fHighADCPixelsDCM[mss.fDiblock][mss.fDCM]->Fill(x3+x4, y3+y4);
367  }
368 
369  if(nss.fADC >= lowADC && nss.fADC <= highADC) {
370  if(fMipADCPixelsDCM[mss.fDiblock][mss.fDCM] == 0) {
371  char histoname[64];
372  sprintf(histoname, "MipADCPixelsDCM_%.2u_%.2u", mss.fDiblock, mss.fDCM);
373  fMipADCPixelsDCM[mss.fDiblock][mss.fDCM] = h.GetTH2F(histoname);
374  }
375 
376  unsigned int x3, x4, y3, y4;
377  fHwMap->FEBXY(nss.fFEB, &x3, &y3);
378  fHwMap->PixXY(nss.fPix, &x4, &y4);
379  fMipADCPixelsDCM[mss.fDiblock][mss.fDCM]->Fill(x3+x4, y3+y4);
380  }
381 
382  //
383  // Fill the Min ADC plots
384  //
385  if(fMinADCPixelsDCM[mss.fDiblock][mss.fDCM] == 0) {
386  char histoname[64];
387  sprintf(histoname, "MinADCPixelsDCM_%.2u_%.2u", mss.fDiblock, mss.fDCM);
388  fMinADCPixelsDCM[mss.fDiblock][mss.fDCM] = h.GetTH2F(histoname);
389  }
390 
391  unsigned int bin = fMinADCPixelsDCM[mss.fDiblock][mss.fDCM]->FindBin(x1+x2,y1+y2);
392  unsigned int content = fMinADCPixelsDCM[mss.fDiblock][mss.fDCM]->GetBinContent(bin);
393 
394  if(content == 0 || nss.fADC < content)
395  fMinADCPixelsDCM[mss.fDiblock][mss.fDCM]->SetBinContent(bin,nss.fADC);
396 
397  //
398  // Fill the Max ADC plots
399  //
400  if(fMaxADCPixelsDCM[mss.fDiblock][mss.fDCM] == 0) {
401  char histoname[64];
402  sprintf(histoname, "MaxADCPixelsDCM_%.2u_%.2u", mss.fDiblock, mss.fDCM);
403  fMaxADCPixelsDCM[mss.fDiblock][mss.fDCM] = h.GetTH2F(histoname);
404  }
405 
406  bin = fMaxADCPixelsDCM[mss.fDiblock][mss.fDCM]->FindBin(x1+x2,y1+y2);
407  content = fMaxADCPixelsDCM[mss.fDiblock][mss.fDCM]->GetBinContent(bin);
408 
409  if(nss.fADC > content)
410  fMaxADCPixelsDCM[mss.fDiblock][mss.fDCM]->SetBinContent(bin,nss.fADC);
411 
412  //
413  // Fill the Total ADC plots
414  //
415  if(fTotADCPixelsDCM[mss.fDiblock][mss.fDCM] == 0) {
416  char histoname[64];
417  sprintf(histoname, "TotADCPixelsDCM_%.2u_%.2u", mss.fDiblock, mss.fDCM);
418  fTotADCPixelsDCM[mss.fDiblock][mss.fDCM] = h.GetTH2F(histoname);
419  }
420 
421  fTotADCPixelsDCM[mss.fDiblock][mss.fDCM]->Fill(x1+x2,y1+y2,nss.fADC);
422  fTotADCFEBHitMap->Fill(nss.fHdwX,nss.fHdwY,nss.fADC);
423 }
TH2F * fPixelHitRateMapLowADC
Definition: HitMaps.h:52
TH2F * fPlaneCellHitMapXviewAllHits
Definition: HitMaps.h:65
TH2F * fPlaneCellHitMapYviewBNB
Definition: HitMaps.h:74
unsigned int fDCM
DCM ID.
TH2F * fDCMHitRateMap
Definition: HitMaps.h:35
TH2F * fFEBHitRateMapMipADC
Definition: HitMaps.h:44
TH2F * fPixelHitMapMipADC
Definition: HitMaps.h:49
Float_t y1[n_points_granero]
Definition: compare.C:5
unsigned int fHdwX
location of channel in "hardware display" space
unsigned int fDiblock
Diblock ID.
TH2F * fPixelHitMapLowADC
Definition: HitMaps.h:48
Float_t x1[n_points_granero]
Definition: compare.C:5
TH2F * fDCMHitRateMapLowADC
Definition: HitMaps.h:37
TH2F * fPixelHitRateMapHighADC
Definition: HitMaps.h:54
static const unsigned int PixelsDCM_size
TH2F * fFEBShutOffBookKeeping1
Definition: HitMaps.h:92
TH2F * fDCMHitRateMapHighADC
Definition: HitMaps.h:39
TH2F * fPlaneCellHitMapXviewBNB
Definition: HitMaps.h:73
unsigned int fPix
Pixel number on FEB.
TH1F * fHitMapEvtCount
Definition: HitMaps.h:33
void CopyHistContent(TH2F *&histFrom, TH2F *&histTo)
Definition: HitMaps.cxx:451
TH2F * fDCMHitMap
Definition: HitMaps.h:57
TH2F * fFEBHitMapMipADC
Definition: HitMaps.h:63
Identifier for the Y measuring view of the detector (side)
#define P(a, b, c, d, e, x)
TH2F * fTotADCPixelsDCM[PixelsDCM_size][PixelsDCM_size]
Definition: HitMaps.h:88
const double C
TH2F * fDCMHitMapLowADC
Definition: HitMaps.h:58
TH2F * fPixelHitMap
Definition: HitMaps.h:47
TH2F * fTotADCFEBHitMap
Definition: HitMaps.h:89
TH2F * fLowADCPixelsRateDCM[PixelsDCM_size][PixelsDCM_size]
Definition: HitMaps.h:77
TH2F * fFEBHitMapLowADC
Definition: HitMaps.h:62
TH2F * fDCMHitMapMipADC
Definition: HitMaps.h:59
TH2F * fDCMHitMapHighADC
Definition: HitMaps.h:60
Float_t E
Definition: plot.C:20
TH2F * fPixelHitRateMapMipADC
Definition: HitMaps.h:53
correl_yv Fill(-(dy[iP-1][iC-1]), hyv->GetBinContent(iP, iC))
TH2F * GetTH2F(const char *nm)
Definition: HistoSet.cxx:89
TH2F * fHighADCPixelsDCM[PixelsDCM_size][PixelsDCM_size]
Definition: HitMaps.h:84
TH2F * fPlaneCellHitMapXviewCalib
Definition: HitMaps.h:69
Identifier for the X measuring view of the detector (top)
TH2F * fFEBHitMapHighADC
Definition: HitMaps.h:64
TH2F * fPlaneCellHitMapYviewAllHits
Definition: HitMaps.h:66
TH2F * fPixelsDCM[PixelsDCM_size][PixelsDCM_size]
Definition: HitMaps.h:81
const double j
Definition: BetheBloch.cxx:29
daqchannelmap::HardwareDisplay * fHwMap
Definition: HitMaps.h:31
unsigned int fCell
cell number of hit
TH1F * fFEBHitRateSpectrum
Definition: HitMaps.h:42
float bin[41]
Definition: plottest35.C:14
TH2F * fFEBHitMap
Definition: HitMaps.h:61
TH2F * fPlaneCellHitMapYviewCalib
Definition: HitMaps.h:70
TH2F * fPixelHitRateMap
Definition: HitMaps.h:51
TH2F * fPixelsRateDCM[PixelsDCM_size][PixelsDCM_size]
Definition: HitMaps.h:76
TH2F * fHighADCPixelsRateDCM[PixelsDCM_size][PixelsDCM_size]
Definition: HitMaps.h:79
void FEBXY(unsigned int feb, unsigned int *ix, unsigned int *iy)
unsigned int fADC
Charge of hit in TDC units.
TH2F * fPlaneCellHitRateMapYviewAllHits
Definition: HitMaps.h:68
daqchannelmap::DetView_TYPE fView
in which view was the hit
TH1F * fPixelHitRateSpectrum
Definition: HitMaps.h:55
TH2F * fFEBHitRateMap
Definition: HitMaps.h:41
TH2F * fPlaneCellHitMapYviewNuMI
Definition: HitMaps.h:72
TH1F * fDCMHitRateSpectrum
Definition: HitMaps.h:36
T log10(T number)
Definition: d0nt_math.hpp:120
TH2F * fPlaneCellHitMapXviewNuMI
Definition: HitMaps.h:71
TH2F * fPixelHitMapHighADC
Definition: HitMaps.h:50
TH2F * fMipADCPixelsDCM[PixelsDCM_size][PixelsDCM_size]
Definition: HitMaps.h:83
unsigned int fPlane
plane number of hit
fvar< T > floor(const fvar< T > &x)
Definition: floor.hpp:11
unsigned int fHdwY
location of channel in "hardware display" space
TRandom3 r(0)
TH2F * fFEBHitRateMapLowADC
Definition: HitMaps.h:43
unsigned int fFEB
FEB number of nanoslice (aka "hit")
TH2F * fPlaneCellHitRateMapXviewAllHits
Definition: HitMaps.h:67
static HistoSet & Instance()
Definition: HistoSet.cxx:24
TH2F * fMipADCPixelsRateDCM[PixelsDCM_size][PixelsDCM_size]
Definition: HitMaps.h:78
void EvalFEBShutOff()
Definition: HitMaps.cxx:427
TH2F * fMaxADCPixelsDCM[PixelsDCM_size][PixelsDCM_size]
Definition: HitMaps.h:87
TH2F * fMinADCPixelsDCM[PixelsDCM_size][PixelsDCM_size]
Definition: HitMaps.h:86
TH1F * fRecordedTime
Definition: HitMaps.h:34
static Settings & Instance()
Definition: Settings.cxx:12
TH2F * fFEBHitRateMapHighADC
Definition: HitMaps.h:45
void PixXY(unsigned int pix, unsigned int *ix, unsigned int *iy)
TH2F * fLowADCPixelsDCM[PixelsDCM_size][PixelsDCM_size]
Definition: HitMaps.h:82
TH2F * fDCMHitRateMapMipADC
Definition: HitMaps.h:38
virtual void om::SummarySubscriber::GetRawEventSummary ( const RawEventSummary res)
inlinevirtualinherited

Interface to the event summary.

Reimplemented in om::TriggerPlots, om::RawEventErrors, and om::HitCounts.

Definition at line 32 of file SummarySubscriber.h.

32 { abort(); };

Member Data Documentation

TH2F* om::HitMaps::fDCMHitMap
private

Definition at line 57 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

TH2F* om::HitMaps::fDCMHitMapHighADC
private

Definition at line 60 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

TH2F* om::HitMaps::fDCMHitMapLowADC
private

Definition at line 58 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

TH2F* om::HitMaps::fDCMHitMapMipADC
private

Definition at line 59 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

TH2F* om::HitMaps::fDCMHitRateMap
private

Definition at line 35 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

TH2F* om::HitMaps::fDCMHitRateMapHighADC
private

Definition at line 39 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

TH2F* om::HitMaps::fDCMHitRateMapLowADC
private

Definition at line 37 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

TH2F* om::HitMaps::fDCMHitRateMapMipADC
private

Definition at line 38 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

TH1F* om::HitMaps::fDCMHitRateSpectrum
private

Definition at line 36 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

TH2F* om::HitMaps::fFEBHitMap
private

Definition at line 61 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

TH2F* om::HitMaps::fFEBHitMapHighADC
private

Definition at line 64 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

TH2F* om::HitMaps::fFEBHitMapLowADC
private

Definition at line 62 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

TH2F* om::HitMaps::fFEBHitMapMipADC
private

Definition at line 63 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

TH2F* om::HitMaps::fFEBHitRateMap
private

Definition at line 41 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

TH2F* om::HitMaps::fFEBHitRateMapHighADC
private

Definition at line 45 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

TH2F* om::HitMaps::fFEBHitRateMapLowADC
private

Definition at line 43 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

TH2F* om::HitMaps::fFEBHitRateMapMipADC
private

Definition at line 44 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

TH1F* om::HitMaps::fFEBHitRateSpectrum
private

Definition at line 42 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

TH2F* om::HitMaps::fFEBShutOff
private

Definition at line 91 of file HitMaps.h.

Referenced by EvalFEBShutOff(), and HitMaps().

TH2F* om::HitMaps::fFEBShutOffBookKeeping1
private

Definition at line 92 of file HitMaps.h.

Referenced by EvalFEBShutOff(), GetNanoSliceSummary(), and HitMaps().

TH2F* om::HitMaps::fFEBShutOffBookKeeping2
private

Definition at line 93 of file HitMaps.h.

Referenced by EvalFEBShutOff(), and HitMaps().

TH2F* om::HitMaps::fHighADCPixelsDCM[PixelsDCM_size][PixelsDCM_size]
private

Definition at line 84 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

TH2F* om::HitMaps::fHighADCPixelsRateDCM[PixelsDCM_size][PixelsDCM_size]
private

Definition at line 79 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

TH1F* om::HitMaps::fHitMapEvtCount
private

Definition at line 33 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

daqchannelmap::HardwareDisplay* om::HitMaps::fHwMap
private

Definition at line 31 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), HitMaps(), and ~HitMaps().

TH2F* om::HitMaps::fLowADCPixelsDCM[PixelsDCM_size][PixelsDCM_size]
private

Definition at line 82 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

TH2F* om::HitMaps::fLowADCPixelsRateDCM[PixelsDCM_size][PixelsDCM_size]
private

Definition at line 77 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

TH2F* om::HitMaps::fMaxADCPixelsDCM[PixelsDCM_size][PixelsDCM_size]
private

Definition at line 87 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

TH2F* om::HitMaps::fMinADCPixelsDCM[PixelsDCM_size][PixelsDCM_size]
private

Definition at line 86 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

TH2F* om::HitMaps::fMipADCPixelsDCM[PixelsDCM_size][PixelsDCM_size]
private

Definition at line 83 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

TH2F* om::HitMaps::fMipADCPixelsRateDCM[PixelsDCM_size][PixelsDCM_size]
private

Definition at line 78 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

TH2F* om::HitMaps::fPixelHitMap
private

Definition at line 47 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

TH2F* om::HitMaps::fPixelHitMapHighADC
private

Definition at line 50 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

TH2F* om::HitMaps::fPixelHitMapLowADC
private

Definition at line 48 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

TH2F* om::HitMaps::fPixelHitMapMipADC
private

Definition at line 49 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

TH2F* om::HitMaps::fPixelHitRateMap
private

Definition at line 51 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

TH2F* om::HitMaps::fPixelHitRateMapHighADC
private

Definition at line 54 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

TH2F* om::HitMaps::fPixelHitRateMapLowADC
private

Definition at line 52 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

TH2F* om::HitMaps::fPixelHitRateMapMipADC
private

Definition at line 53 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

TH1F* om::HitMaps::fPixelHitRateSpectrum
private

Definition at line 55 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

TH2F* om::HitMaps::fPixelsDCM[PixelsDCM_size][PixelsDCM_size]
private

Definition at line 81 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

TH2F* om::HitMaps::fPixelsRateDCM[PixelsDCM_size][PixelsDCM_size]
private

Definition at line 76 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

TH2F* om::HitMaps::fPlaneCellHitMapXviewAllHits
private

Definition at line 65 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

TH2F* om::HitMaps::fPlaneCellHitMapXviewBNB
private

Definition at line 73 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

TH2F* om::HitMaps::fPlaneCellHitMapXviewCalib
private

Definition at line 69 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

TH2F* om::HitMaps::fPlaneCellHitMapXviewNuMI
private

Definition at line 71 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

TH2F* om::HitMaps::fPlaneCellHitMapYviewAllHits
private

Definition at line 66 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

TH2F* om::HitMaps::fPlaneCellHitMapYviewBNB
private

Definition at line 74 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

TH2F* om::HitMaps::fPlaneCellHitMapYviewCalib
private

Definition at line 70 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

TH2F* om::HitMaps::fPlaneCellHitMapYviewNuMI
private

Definition at line 72 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

TH2F* om::HitMaps::fPlaneCellHitRateMapXviewAllHits
private

Definition at line 67 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

TH2F* om::HitMaps::fPlaneCellHitRateMapYviewAllHits
private

Definition at line 68 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

TH1F* om::HitMaps::fRecordedTime
private

Definition at line 34 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

TH2F* om::HitMaps::fTotADCFEBHitMap
private

Definition at line 89 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().

TH2F* om::HitMaps::fTotADCPixelsDCM[PixelsDCM_size][PixelsDCM_size]
private

Definition at line 88 of file HitMaps.h.

Referenced by GetNanoSliceSummary(), and HitMaps().


The documentation for this class was generated from the following files: