d9/d70/CMTRawAnalyzer_8cc_source.html

 // -*- C++ -*-
 //
 // Package:    CMTRawAnalyzer
 //
 #include <fstream>
 #include <iostream>
 #include <cmath>
 #include <iosfwd>
 #include <bitset>
 #include <memory>
 #include "FWCore/MessageLogger/interface/MessageLogger.h"
 #include "FWCore/ServiceRegistry/interface/Service.h"
 #include "FWCore/PluginManager/interface/ModuleDef.h"
 #include "FWCore/Framework/interface/Frameworkfwd.h"
 #include "FWCore/Framework/interface/one/EDAnalyzer.h"
 #include "FWCore/Framework/interface/Event.h"
 #include "FWCore/Framework/interface/MakerMacros.h"
 #include "FWCore/ParameterSet/interface/ParameterSet.h"
 #include "CommonTools/UtilAlgos/interface/TFileService.h"
 #include "DataFormats/HcalRecHit/interface/HcalRecHitCollections.h"
 #include "DataFormats/HcalDetId/interface/HcalElectronicsId.h"
 #include "DataFormats/HcalDetId/interface/HcalGenericDetId.h"
 #include "DataFormats/HcalDetId/interface/HcalDetId.h"
 #include "DataFormats/HcalDigi/interface/HcalQIESample.h"
 #include "DataFormats/HcalDetId/interface/HcalCalibDetId.h"
 #include "DataFormats/HcalDetId/interface/HcalSubdetector.h"
 #include "DataFormats/HcalDigi/interface/HcalDigiCollections.h"
 #include "DataFormats/HcalDigi/interface/HBHEDataFrame.h"
 #include "DataFormats/HcalDigi/interface/HFDataFrame.h"
 #include "DataFormats/HcalDigi/interface/HODataFrame.h"
 #include "DataFormats/HcalDigi/interface/QIE10DataFrame.h"
 #include "DataFormats/HcalDigi/interface/QIE11DataFrame.h"
 #include "DataFormats/HcalDigi/interface/HcalCalibrationEventTypes.h"
 #include "DataFormats/L1GlobalTrigger/interface/L1GlobalTriggerReadoutRecord.h"
 #include "CalibCalorimetry/HcalAlgos/interface/HcalLogicalMapGenerator.h"
 #include "CondFormats/HcalObjects/interface/HcalLogicalMap.h"
 #include "CalibFormats/HcalObjects/interface/HcalDbRecord.h"
 #include "CalibFormats/HcalObjects/interface/HcalCalibrations.h"
 #include "CalibFormats/HcalObjects/interface/HcalCoderDb.h"
 #include "CalibFormats/HcalObjects/interface/HcalDbService.h"
 #include "CondFormats/HcalObjects/interface/HcalQIECoder.h"
 #include "CondFormats/HcalObjects/interface/HcalQIEShape.h"
 #include "EventFilter/HcalRawToDigi/interface/HcalDCCHeader.h"
 #include "CondFormats/DataRecord/interface/L1GtTriggerMaskAlgoTrigRcd.h"
 #include "CondFormats/DataRecord/interface/L1GtTriggerMaskTechTrigRcd.h"
 #include "DataFormats/FEDRawData/interface/FEDRawDataCollection.h"
 #include "DataFormats/FEDRawData/interface/FEDHeader.h"
 #include "DataFormats/FEDRawData/interface/FEDTrailer.h"
 #include "DataFormats/FEDRawData/interface/FEDNumbering.h"
 #include "Geometry/Records/interface/HcalGeometryRecord.h"
 #include "Geometry/Records/interface/CaloGeometryRecord.h"
 #include "Geometry/Records/interface/IdealGeometryRecord.h"
 #include "Geometry/Records/interface/HcalRecNumberingRecord.h"
 #include "Geometry/CaloGeometry/interface/CaloSubdetectorGeometry.h"
 #include "Geometry/CaloGeometry/interface/CaloCellGeometry.h"
 #include "Geometry/CaloGeometry/interface/CaloGeometry.h"
 #include "Geometry/CaloTopology/interface/HcalTopology.h"
 #include "Geometry/HcalTowerAlgo/interface/HcalGeometry.h"
 #include "Geometry/HcalCommonData/interface/HcalDDDRecConstants.h"
 #include "TFile.h"
 #include "TTree.h"
 #include "TH1.h"
 #include "TH2.h"
 #include "TF1.h"

 #define NUMADCS 256
 double const adc2fC_QIE10[NUMADCS] = {
     //subrange0
     1.58,
     4.73,
     7.88,
     11.0,
     14.2,
     17.3,
     20.5,
     23.6,
     26.8,
     29.9,
     33.1,
     36.2,
     39.4,
     42.5,
     45.7,
     48.8,
     //subrange1
     53.6,
     60.1,
     66.6,
     73.0,
     79.5,
     86.0,
     92.5,
     98.9,
     105,
     112,
     118,
     125,
     131,
     138,
     144,
     151,
     //subrange2
     157,
     164,
     170,
     177,
     186,
     199,
     212,
     225,
     238,
     251,
     264,
     277,
     289,
     302,
     315,
     328,
     //subrange3
     341,
     354,
     367,
     380,
     393,
     406,
     418,
     431,
     444,
     464,
     490,
     516,
     542,
     568,
     594,
     620,

     // - - - - - - - range 1 - - - - - - - -
     //subrange0
     569,
     594,
     619,
     645,
     670,
     695,
     720,
     745,
     771,
     796,
     821,
     846,
     871,
     897,
     922,
     947,
     //subrange1
     960,
     1010,
     1060,
     1120,
     1170,
     1220,
     1270,
     1320,
     1370,
     1430,
     1480,
     1530,
     1580,
     1630,
     1690,
     1740,
     //subrange2
     1790,
     1840,
     1890,
     1940,
     2020,
     2120,
     2230,
     2330,
     2430,
     2540,
     2640,
     2740,
     2850,
     2950,
     3050,
     3150,
     //subrange3
     3260,
     3360,
     3460,
     3570,
     3670,
     3770,
     3880,
     3980,
     4080,
     4240,
     4450,
     4650,
     4860,
     5070,
     5280,
     5490,

     // - - - - - - - range 2 - - - - - - - -
     //subrange0
     5080,
     5280,
     5480,
     5680,
     5880,
     6080,
     6280,
     6480,
     6680,
     6890,
     7090,
     7290,
     7490,
     7690,
     7890,
     8090,
     //subrange1
     8400,
     8810,
     9220,
     9630,
     10000,
     10400,
     10900,
     11300,
     11700,
     12100,
     12500,
     12900,
     13300,
     13700,
     14100,
     14500,
     //subrange2
     15000,
     15400,
     15800,
     16200,
     16800,
     17600,
     18400,
     19300,
     20100,
     20900,
     21700,
     22500,
     23400,
     24200,
     25000,
     25800,
     //subrange3
     26600,
     27500,
     28300,
     29100,
     29900,
     30700,
     31600,
     32400,
     33200,
     34400,
     36100,
     37700,
     39400,
     41000,
     42700,
     44300,

     // - - - - - - - range 3 - - - - - - - - -
     //subrange0
     41100,
     42700,
     44300,
     45900,
     47600,
     49200,
     50800,
     52500,
     54100,
     55700,
     57400,
     59000,
     60600,
     62200,
     63900,
     65500,
     //subrange1
     68000,
     71300,
     74700,
     78000,
     81400,
     84700,
     88000,
     91400,
     94700,
     98100,
     101000,
     105000,
     108000,
     111000,
     115000,
     118000,
     //subrange2
     121000,
     125000,
     128000,
     131000,
     137000,
     145000,
     152000,
     160000,
     168000,
     176000,
     183000,
     191000,
     199000,
     206000,
     214000,
     222000,
     //subrange3
     230000,
     237000,
     245000,
     253000,
     261000,
     268000,
     276000,
     284000,
     291000,
     302000,
     316000,
     329000,
     343000,
     356000,
     370000,
     384000

 };

 //shunt1
 double const adc2fC_QIE11_shunt1[NUMADCS] = {
     1.89,     5.07,     8.25,     11.43,    14.61,    17.78,    20.96,    24.14,    27.32,    30.50,    33.68,
     36.86,    40.04,    43.22,    46.40,    49.58,    54.35,    60.71,    67.07,    73.43,    79.79,    86.15,
     92.51,    98.87,    105.2,    111.6,    117.9,    124.3,    130.7,    137.0,    143.4,    149.7,    156.1,
     162.5,    168.8,    175.2,    184.7,    197.4,    210.2,    222.9,    235.6,    248.3,    261.0,    273.7,
     286.5,    299.2,    311.9,    324.6,    337.3,    350.1,    362.8,    375.5,    388.2,    400.9,    413.6,
     426.4,    439.1,    458.2,    483.6,    509.0,    534.5,    559.9,    585.3,    610.8,    558.9,    584.2,
     609.5,    634.7,    660.0,    685.3,    710.6,    735.9,    761.2,    786.5,    811.8,    837.1,    862.4,
     887.7,    913.0,    938.3,    976.2,    1026.8,   1077.4,   1128.0,   1178.6,   1229.1,   1279.7,   1330.3,
     1380.9,   1431.5,   1482.1,   1532.7,   1583.3,   1633.8,   1684.4,   1735.0,   1785.6,   1836.2,   1886.8,
     1937.4,   2013.2,   2114.4,   2215.6,   2316.8,   2417.9,   2519.1,   2620.3,   2721.5,   2822.6,   2923.8,
     3025.0,   3126.2,   3227.3,   3328.5,   3429.7,   3530.9,   3632.0,   3733.2,   3834.4,   3935.5,   4036.7,
     4188.5,   4390.8,   4593.2,   4795.5,   4997.9,   5200.2,   5402.6,   5057.5,   5262.3,   5467.1,   5671.8,
     5876.6,   6081.4,   6286.2,   6491.0,   6695.8,   6900.6,   7105.3,   7310.1,   7514.9,   7719.7,   7924.5,
     8129.3,   8436.4,   8846.0,   9255.6,   9665.1,   10074.7,  10484.3,  10893.9,  11303.4,  11713.0,  12122.6,
     12532.1,  12941.7,  13351.3,  13760.8,  14170.4,  14580.0,  14989.5,  15399.1,  15808.7,  16218.2,  16832.6,
     17651.7,  18470.9,  19290.0,  20109.2,  20928.3,  21747.4,  22566.6,  23385.7,  24204.8,  25024.0,  25843.1,
     26662.3,  27481.4,  28300.5,  29119.7,  29938.8,  30757.9,  31577.1,  32396.2,  33215.4,  34444.1,  36082.3,
     37720.6,  39358.9,  40997.2,  42635.4,  44273.7,  40908.7,  42542.6,  44176.5,  45810.4,  47444.3,  49078.3,
     50712.2,  52346.1,  53980.0,  55613.9,  57247.8,  58881.8,  60515.7,  62149.6,  63783.5,  65417.4,  67868.3,
     71136.1,  74404.0,  77671.8,  80939.7,  84207.5,  87475.3,  90743.2,  94011.0,  97278.8,  100546.7, 103814.5,
     107082.3, 110350.2, 113618.0, 116885.8, 120153.7, 123421.5, 126689.3, 129957.2, 134858.9, 141394.6, 147930.3,
     154465.9, 161001.6, 167537.3, 174072.9, 180608.6, 187144.3, 193679.9, 200215.6, 206751.3, 213287.0, 219822.6,
     226358.3, 232894.0, 239429.6, 245965.3, 252501.0, 259036.6, 265572.3, 275375.8, 288447.2, 301518.5, 314589.8,
     327661.2, 340732.5, 353803.8};
 //shunt6
 double const adc2fC_QIE11_shunt6[NUMADCS] = {
     9.56,      28.24,     46.91,     65.59,     84.27,     102.9,     121.6,     140.3,     159.0,     177.7,
     196.3,     215.0,     233.7,     252.4,     271.0,     289.7,     317.7,     355.1,     392.4,     429.8,
     467.1,     504.5,     541.9,     579.2,     616.6,     653.9,     691.3,     728.6,     766.0,     803.3,
     840.7,     878.0,     915.4,     952.8,     990.1,     1027.5,    1083.5,    1158.2,    1232.9,    1307.6,
     1382.3,    1457.0,    1531.7,    1606.4,    1681.2,    1755.9,    1830.6,    1905.3,    1980.0,    2054.7,
     2129.4,    2204.1,    2278.8,    2353.5,    2428.2,    2502.9,    2577.7,    2689.7,    2839.1,    2988.6,
     3138.0,    3287.4,    3436.8,    3586.2,    3263.0,    3411.3,    3559.6,    3707.9,    3856.2,    4004.5,
     4152.9,    4301.2,    4449.5,    4597.8,    4746.1,    4894.4,    5042.7,    5191.0,    5339.4,    5487.7,
     5710.1,    6006.8,    6303.4,    6600.0,    6896.6,    7193.3,    7489.9,    7786.5,    8083.1,    8379.8,
     8676.4,    8973.0,    9269.6,    9566.3,    9862.9,    10159.5,   10456.2,   10752.8,   11049.4,   11346.0,
     11791.0,   12384.2,   12977.5,   13570.7,   14164.0,   14757.2,   15350.5,   15943.7,   16537.0,   17130.2,
     17723.5,   18316.7,   18910.0,   19503.2,   20096.5,   20689.7,   21283.0,   21876.2,   22469.5,   23062.8,
     23656.0,   24545.9,   25732.4,   26918.9,   28105.4,   29291.9,   30478.4,   31664.9,   29399.4,   30590.1,
     31780.9,   32971.7,   34162.4,   35353.2,   36544.0,   37734.7,   38925.5,   40116.3,   41307.0,   42497.8,
     43688.5,   44879.3,   46070.1,   47260.8,   49047.0,   51428.5,   53810.1,   56191.6,   58573.1,   60954.6,
     63336.2,   65717.7,   68099.2,   70480.8,   72862.3,   75243.8,   77625.4,   80006.9,   82388.4,   84769.9,
     87151.5,   89533.0,   91914.5,   94296.1,   97868.4,   102631.4,  107394.5,  112157.5,  116920.6,  121683.7,
     126446.7,  131209.8,  135972.8,  140735.9,  145499.0,  150262.0,  155025.1,  159788.2,  164551.2,  169314.3,
     174077.3,  178840.4,  183603.5,  188366.5,  193129.6,  200274.2,  209800.3,  219326.4,  228852.5,  238378.7,
     247904.8,  257430.9,  237822.7,  247326.7,  256830.7,  266334.8,  275838.8,  285342.9,  294846.9,  304351.0,
     313855.0,  323359.1,  332863.1,  342367.1,  351871.2,  361375.2,  370879.3,  380383.3,  394639.4,  413647.5,
     432655.6,  451663.6,  470671.7,  489679.8,  508687.9,  527696.0,  546704.1,  565712.2,  584720.3,  603728.3,
     622736.4,  641744.5,  660752.6,  679760.7,  698768.8,  717776.9,  736785.0,  755793.0,  784305.2,  822321.3,
     860337.5,  898353.7,  936369.9,  974386.0,  1012402.2, 1050418.4, 1088434.6, 1126450.7, 1164466.9, 1202483.1,
     1240499.3, 1278515.4, 1316531.6, 1354547.8, 1392564.0, 1430580.1, 1468596.3, 1506612.5, 1544628.7, 1601652.9,
     1677685.3, 1753717.6, 1829750.0, 1905782.3, 1981814.7, 2057847.0};
 // for HPD:
 static const float adc2fC[128] = {
     -0.5,   0.5,    1.5,    2.5,    3.5,    4.5,    5.5,    6.5,    7.5,    8.5,    9.5,    10.5,   11.5,
     12.5,   13.5,   15.,    17.,    19.,    21.,    23.,    25.,    27.,    29.5,   32.5,   35.5,   38.5,
     42.,    46.,    50.,    54.5,   59.5,   64.5,   59.5,   64.5,   69.5,   74.5,   79.5,   84.5,   89.5,
     94.5,   99.5,   104.5,  109.5,  114.5,  119.5,  124.5,  129.5,  137.,   147.,   157.,   167.,   177.,
     187.,   197.,   209.5,  224.5,  239.5,  254.5,  272.,   292.,   312.,   334.5,  359.5,  384.5,  359.5,
     384.5,  409.5,  434.5,  459.5,  484.5,  509.5,  534.5,  559.5,  584.5,  609.5,  634.5,  659.5,  684.5,
     709.5,  747.,   797.,   847.,   897.,   947.,   997.,   1047.,  1109.5, 1184.5, 1259.5, 1334.5, 1422.,
     1522.,  1622.,  1734.5, 1859.5, 1984.5, 1859.5, 1984.5, 2109.5, 2234.5, 2359.5, 2484.5, 2609.5, 2734.5,
     2859.5, 2984.5, 3109.5, 3234.5, 3359.5, 3484.5, 3609.5, 3797.,  4047.,  4297.,  4547.,  4797.,  5047.,
     5297.,  5609.5, 5984.5, 6359.5, 6734.5, 7172.,  7672.,  8172.,  8734.5, 9359.5, 9984.5};
 const int nsub = 4;
 const int ndepth = 7;
 const int neta = 82;
 const int nphi = 72;
 const float bphi = 72.;
 const int zneta = 22;
 const int znphi = 18;
 const int npfit = 220;
 const float anpfit = 220.;  // for SiPM:

 //
 class CMTRawAnalyzer : public edm::one::EDAnalyzer<edm::one::WatchRuns, edm::one::SharedResources> {
 public:
   explicit CMTRawAnalyzer(const edm::ParameterSet&);
   ~CMTRawAnalyzer() override;
   void beginJob() override;
   void analyze(const edm::Event&, const edm::EventSetup&) override;
   void endJob() override;
   void beginRun(const edm::Run& r, const edm::EventSetup& iSetup) override;
   void endRun(const edm::Run& r, const edm::EventSetup& iSetup) override;
   virtual void fillMAP();

 private:
   double phi12(double phi1, double en1, double phi2, double en2);
   double dR(double eta1, double phi1, double eta2, double phi2);
   double dPhiWsign(double phi1, double phi2);

   edm::EDGetTokenT<HcalCalibDigiCollection> tok_calib_;
   edm::EDGetTokenT<HBHEDigiCollection> tok_hbhe_;
   edm::EDGetTokenT<HODigiCollection> tok_ho_;
   edm::EDGetTokenT<HFDigiCollection> tok_hf_;
   edm::EDGetTokenT<QIE11DigiCollection> tok_qie11_;
   edm::EDGetTokenT<QIE10DigiCollection> tok_qie10_;
   edm::EDGetTokenT<HBHERecHitCollection> tok_hbheSignal_;
   edm::EDGetTokenT<HBHERecHitCollection> tok_hbheNoise_;
   edm::EDGetTokenT<HFRecHitCollection> tok_hfSignal_;
   edm::EDGetTokenT<HFRecHitCollection> tok_hfNoise_;

   edm::Service<TFileService> fs_;
   edm::InputTag inputTag_;
   const edm::ESGetToken<HcalDbService, HcalDbRecord> tokDB_;
   const edm::ESGetToken<HcalTopology, HcalRecNumberingRecord> tokTopo_;
   const HcalQIEShape* shape;
   const HcalDbService* conditions;
   const HcalTopology* topo;
   int verbosity;
   int MAPcreation;
   bool recordNtuples_;
   int maxNeventsInNtuple_;
   bool recordHistoes_;
   bool studyRunDependenceHist_;
   bool studyCapIDErrorsHist_;
   bool studyRMSshapeHist_;
   bool studyRatioShapeHist_;
   bool studyTSmaxShapeHist_;
   bool studyTSmeanShapeHist_;
   bool studyDiffAmplHist_;
   bool studyCalibCellsHist_;
   bool studyADCAmplHist_;
   bool studyPedestalsHist_;
   bool studyPedestalCorrelations_;
   bool usePedestalSubtraction_;
   bool useADCmassive_;
   bool useADCfC_;
   bool useADCcounts_;
   bool usecontinuousnumbering_;
   double ratioHBMin_;
   double ratioHBMax_;
   double ratioHEMin_;
   double ratioHEMax_;
   double ratioHFMin_;
   double ratioHFMax_;
   double ratioHOMin_;
   double ratioHOMax_;
   int flagfitshunt1pedorledlowintensity_;
   int flagLaserRaddam_;
   int flagToUseDigiCollectionsORNot_;
   int flagIterativeMethodCalibrationGroupDigi_;
   int flagIterativeMethodCalibrationGroupReco_;
   int flagtoaskrunsorls_;
   int flagtodefinebadchannel_;
   int howmanybinsonplots_;
   int splashesUpperLimit_;
   int flagabortgaprejected_;
   int bcnrejectedlow_;
   int bcnrejectedhigh_;
   int flagestimatornormalization_;
   int flagcpuoptimization_;
   int flagupgradeqie1011_;
   int flagsipmcorrection_;
   int flaguseshunt_;
   int lsdep_cut1_peak_HBdepth1_;
   int lsdep_cut1_peak_HBdepth2_;
   int lsdep_cut1_peak_HEdepth1_;
   int lsdep_cut1_peak_HEdepth2_;
   int lsdep_cut1_peak_HEdepth3_;
   int lsdep_cut1_peak_HFdepth1_;
   int lsdep_cut1_peak_HFdepth2_;
   int lsdep_cut1_peak_HOdepth4_;
   //
   int lsdep_cut3_max_HBdepth1_;
   int lsdep_cut3_max_HBdepth2_;
   int lsdep_cut3_max_HEdepth1_;
   int lsdep_cut3_max_HEdepth2_;
   int lsdep_cut3_max_HEdepth3_;
   int lsdep_cut3_max_HFdepth1_;
   int lsdep_cut3_max_HFdepth2_;
   int lsdep_cut3_max_HOdepth4_;
   double lsdep_estimator1_HBdepth1_;
   double lsdep_estimator1_HBdepth2_;
   double lsdep_estimator1_HEdepth1_;
   double lsdep_estimator1_HEdepth2_;
   double lsdep_estimator1_HEdepth3_;
   double lsdep_estimator1_HFdepth1_;
   double lsdep_estimator1_HFdepth2_;
   double lsdep_estimator1_HOdepth4_;
   double lsdep_estimator1_HEdepth4_;
   double lsdep_estimator1_HEdepth5_;
   double lsdep_estimator1_HEdepth6_;
   double lsdep_estimator1_HEdepth7_;
   double lsdep_estimator1_HFdepth3_;
   double lsdep_estimator1_HFdepth4_;
   double lsdep_estimator1_HBdepth3_;
   double lsdep_estimator1_HBdepth4_;

   double lsdep_estimator2_HBdepth1_;
   double lsdep_estimator2_HBdepth2_;
   double lsdep_estimator2_HEdepth1_;
   double lsdep_estimator2_HEdepth2_;
   double lsdep_estimator2_HEdepth3_;
   double lsdep_estimator2_HFdepth1_;
   double lsdep_estimator2_HFdepth2_;
   double lsdep_estimator2_HOdepth4_;

   double lsdep_estimator3_HBdepth1_;
   double lsdep_estimator3_HBdepth2_;
   double lsdep_estimator3_HEdepth1_;
   double lsdep_estimator3_HEdepth2_;
   double lsdep_estimator3_HEdepth3_;
   double lsdep_estimator3_HFdepth1_;
   double lsdep_estimator3_HFdepth2_;
   double lsdep_estimator3_HOdepth4_;

   double lsdep_estimator4_HBdepth1_;
   double lsdep_estimator4_HBdepth2_;
   double lsdep_estimator4_HEdepth1_;
   double lsdep_estimator4_HEdepth2_;
   double lsdep_estimator4_HEdepth3_;
   double lsdep_estimator4_HFdepth1_;
   double lsdep_estimator4_HFdepth2_;
   double lsdep_estimator4_HOdepth4_;

   double lsdep_estimator5_HBdepth1_;
   double lsdep_estimator5_HBdepth2_;
   double lsdep_estimator5_HEdepth1_;
   double lsdep_estimator5_HEdepth2_;
   double lsdep_estimator5_HEdepth3_;
   double lsdep_estimator5_HFdepth1_;
   double lsdep_estimator5_HFdepth2_;
   double lsdep_estimator5_HOdepth4_;
   double forallestimators_amplitude_bigger_;
   double rmsHBMin_;
   double rmsHBMax_;
   double rmsHEMin_;
   double rmsHEMax_;
   double rmsHFMin_;
   double rmsHFMax_;
   double rmsHOMin_;
   double rmsHOMax_;
   double TSpeakHBMin_;
   double TSpeakHBMax_;
   double TSpeakHEMin_;
   double TSpeakHEMax_;
   double TSpeakHFMin_;
   double TSpeakHFMax_;
   double TSpeakHOMin_;
   double TSpeakHOMax_;
   double TSmeanHBMin_;
   double TSmeanHBMax_;
   double TSmeanHEMin_;
   double TSmeanHEMax_;
   double TSmeanHFMin_;
   double TSmeanHFMax_;
   double TSmeanHOMin_;
   double TSmeanHOMax_;
   int lsmin_;
   int lsmax_;
   double ADCAmplHBMin_;
   double ADCAmplHEMin_;
   double ADCAmplHOMin_;
   double ADCAmplHFMin_;
   double ADCAmplHBMax_;
   double ADCAmplHEMax_;
   double ADCAmplHOMax_;
   double ADCAmplHFMax_;
   double calibrADCHBMin_;
   double calibrADCHEMin_;
   double calibrADCHOMin_;
   double calibrADCHFMin_;
   double calibrADCHBMax_;
   double calibrADCHEMax_;
   double calibrADCHOMax_;
   double calibrADCHFMax_;
   double calibrRatioHBMin_;
   double calibrRatioHEMin_;
   double calibrRatioHOMin_;
   double calibrRatioHFMin_;
   double calibrRatioHBMax_;
   double calibrRatioHEMax_;
   double calibrRatioHOMax_;
   double calibrRatioHFMax_;
   double calibrTSmaxHBMin_;
   double calibrTSmaxHEMin_;
   double calibrTSmaxHOMin_;
   double calibrTSmaxHFMin_;
   double calibrTSmaxHBMax_;
   double calibrTSmaxHEMax_;
   double calibrTSmaxHOMax_;
   double calibrTSmaxHFMax_;
   double calibrTSmeanHBMin_;
   double calibrTSmeanHEMin_;
   double calibrTSmeanHOMin_;
   double calibrTSmeanHFMin_;
   double calibrTSmeanHBMax_;
   double calibrTSmeanHEMax_;
   double calibrTSmeanHOMax_;
   double calibrTSmeanHFMax_;
   double calibrWidthHBMin_;
   double calibrWidthHEMin_;
   double calibrWidthHOMin_;
   double calibrWidthHFMin_;
   double calibrWidthHBMax_;
   double calibrWidthHEMax_;
   double calibrWidthHOMax_;
   double calibrWidthHFMax_;
   int nevent;
   int nevent50;
   int nnnnnn;
   int nnnnnnhbhe;
   int nnnnnnhbheqie11;
   int counterhf;
   int counterhfqie10;
   int counterho;
   int nnnnnn1;
   int nnnnnn2;
   int nnnnnn3;
   int nnnnnn4;
   int nnnnnn5;
   int nnnnnn6;
   double pedestalwHBMax_;
   double pedestalwHEMax_;
   double pedestalwHFMax_;
   double pedestalwHOMax_;
   double pedestalHBMax_;
   double pedestalHEMax_;
   double pedestalHFMax_;
   double pedestalHOMax_;
   TH1F* h_bcnvsamplitude_HB;
   TH1F* h_bcnvsamplitude0_HB;
   TH1F* h_bcnvsamplitude_HE;
   TH1F* h_bcnvsamplitude0_HE;
   TH1F* h_bcnvsamplitude_HF;
   TH1F* h_bcnvsamplitude0_HF;
   TH1F* h_bcnvsamplitude_HO;
   TH1F* h_bcnvsamplitude0_HO;
   TH1F* h_orbitNumvsamplitude_HB;
   TH1F* h_orbitNumvsamplitude0_HB;
   TH1F* h_orbitNumvsamplitude_HE;
   TH1F* h_orbitNumvsamplitude0_HE;
   TH1F* h_orbitNumvsamplitude_HF;
   TH1F* h_orbitNumvsamplitude0_HF;
   TH1F* h_orbitNumvsamplitude_HO;
   TH1F* h_orbitNumvsamplitude0_HO;
   TH2F* h_2DsumADCAmplEtaPhiLs0;
   TH2F* h_2DsumADCAmplEtaPhiLs1;
   TH2F* h_2DsumADCAmplEtaPhiLs2;
   TH2F* h_2DsumADCAmplEtaPhiLs3;
   TH2F* h_2DsumADCAmplEtaPhiLs00;
   TH2F* h_2DsumADCAmplEtaPhiLs10;
   TH2F* h_2DsumADCAmplEtaPhiLs20;
   TH2F* h_2DsumADCAmplEtaPhiLs30;
   TH1F* h_sumADCAmplEtaPhiLs;
   TH1F* h_sumADCAmplEtaPhiLs_bbbc;
   TH1F* h_sumADCAmplEtaPhiLs_bbb1;
   TH1F* h_sumADCAmplEtaPhiLs_lscounterM1;
   TH1F* h_sumADCAmplEtaPhiLs_ietaphi;
   TH1F* h_sumADCAmplEtaPhiLs_lscounterM1orbitNum;
   TH1F* h_sumADCAmplEtaPhiLs_orbitNum;
   TH2F* h_mapAiForLS_bad_HB;
   TH2F* h_map0AiForLS_bad_HB;
   TH2F* h_mapAiForLS_good_HB;
   TH2F* h_map0AiForLS_good_HB;
   TH2F* h_mapAiForLS_bad_HE;
   TH2F* h_map0AiForLS_bad_HE;
   TH2F* h_mapAiForLS_good_HE;
   TH2F* h_map0AiForLS_good_HE;
   TH2F* h_mapAiForLS_bad_HO;
   TH2F* h_map0AiForLS_bad_HO;
   TH2F* h_mapAiForLS_good_HO;
   TH2F* h_map0AiForLS_good_HO;
   TH2F* h_mapAiForLS_bad_HF;
   TH2F* h_map0AiForLS_bad_HF;
   TH2F* h_mapAiForLS_good_HF;
   TH2F* h_map0AiForLS_good_HF;
   TH1F* h_numberofhitsHBtest;
   TH1F* h_numberofhitsHEtest;
   TH1F* h_numberofhitsHFtest;
   TH1F* h_numberofhitsHOtest;
   TH1F* h_AmplitudeHBtest;
   TH1F* h_AmplitudeHBtest1;
   TH1F* h_AmplitudeHBtest6;
   TH1F* h_AmplitudeHEtest;
   TH1F* h_AmplitudeHEtest1;
   TH1F* h_AmplitudeHEtest6;
   TH1F* h_AmplitudeHFtest;
   TH1F* h_AmplitudeHOtest;
   TH1F* h_totalAmplitudeHB;
   TH1F* h_totalAmplitudeHE;
   TH1F* h_totalAmplitudeHF;
   TH1F* h_totalAmplitudeHO;
   TH1F* h_totalAmplitudeHBperEvent;
   TH1F* h_totalAmplitudeHEperEvent;
   TH1F* h_totalAmplitudeHFperEvent;
   TH1F* h_totalAmplitudeHOperEvent;
   TH1F* h_amplitudeaveragedbydepthes_HE;
   TH1F* h_ndepthesperamplitudebins_HE;
   TH1F* h_errorGeneral;
   TH1F* h_error1;
   TH1F* h_error2;
   TH1F* h_error3;
   TH1F* h_amplError;
   TH1F* h_amplFine;
   TH1F* h_errorGeneral_HB;
   TH1F* h_error1_HB;
   TH1F* h_error2_HB;
   TH1F* h_error3_HB;
   TH1F* h_error4_HB;
   TH1F* h_error5_HB;
   TH1F* h_error6_HB;
   TH1F* h_error7_HB;
   TH1F* h_amplError_HB;
   TH1F* h_amplFine_HB;
   TH2F* h_mapDepth1Error_HB;
   TH2F* h_mapDepth2Error_HB;
   TH2F* h_mapDepth3Error_HB;
   TH2F* h_mapDepth4Error_HB;
   TH1F* h_fiber0_HB;
   TH1F* h_fiber1_HB;
   TH1F* h_fiber2_HB;
   TH1F* h_repetedcapid_HB;
   TH1F* h_errorGeneral_HE;
   TH1F* h_error1_HE;
   TH1F* h_error2_HE;
   TH1F* h_error3_HE;
   TH1F* h_error4_HE;
   TH1F* h_error5_HE;
   TH1F* h_error6_HE;
   TH1F* h_error7_HE;
   TH1F* h_amplError_HE;
   TH1F* h_amplFine_HE;
   TH2F* h_mapDepth1Error_HE;
   TH2F* h_mapDepth2Error_HE;
   TH2F* h_mapDepth3Error_HE;
   TH2F* h_mapDepth4Error_HE;
   TH2F* h_mapDepth5Error_HE;
   TH2F* h_mapDepth6Error_HE;
   TH2F* h_mapDepth7Error_HE;
   TH1F* h_fiber0_HE;
   TH1F* h_fiber1_HE;
   TH1F* h_fiber2_HE;
   TH1F* h_repetedcapid_HE;
   TH1F* h_errorGeneral_HF;
   TH1F* h_error1_HF;
   TH1F* h_error2_HF;
   TH1F* h_error3_HF;
   TH1F* h_error4_HF;
   TH1F* h_error5_HF;
   TH1F* h_error6_HF;
   TH1F* h_error7_HF;
   TH1F* h_amplError_HF;
   TH1F* h_amplFine_HF;
   TH2F* h_mapDepth1Error_HF;
   TH2F* h_mapDepth2Error_HF;
   TH2F* h_mapDepth3Error_HF;
   TH2F* h_mapDepth4Error_HF;
   TH1F* h_fiber0_HF;
   TH1F* h_fiber1_HF;
   TH1F* h_fiber2_HF;
   TH1F* h_repetedcapid_HF;
   TH1F* h_errorGeneral_HO;
   TH1F* h_error1_HO;
   TH1F* h_error2_HO;
   TH1F* h_error3_HO;
   TH1F* h_error4_HO;
   TH1F* h_error5_HO;
   TH1F* h_error6_HO;
   TH1F* h_error7_HO;
   TH1F* h_amplError_HO;
   TH1F* h_amplFine_HO;
   TH2F* h_mapDepth4Error_HO;
   TH1F* h_fiber0_HO;
   TH1F* h_fiber1_HO;
   TH1F* h_fiber2_HO;
   TH1F* h_repetedcapid_HO;
   TH2F* h_mapDepth1ADCAmpl225Copy_HB;
   TH2F* h_mapDepth2ADCAmpl225Copy_HB;
   TH2F* h_mapDepth3ADCAmpl225Copy_HB;
   TH2F* h_mapDepth4ADCAmpl225Copy_HB;
   TH2F* h_mapDepth1ADCAmpl225Copy_HE;
   TH2F* h_mapDepth2ADCAmpl225Copy_HE;
   TH2F* h_mapDepth3ADCAmpl225Copy_HE;
   TH2F* h_mapDepth4ADCAmpl225Copy_HE;
   TH2F* h_mapDepth5ADCAmpl225Copy_HE;
   TH2F* h_mapDepth6ADCAmpl225Copy_HE;
   TH2F* h_mapDepth7ADCAmpl225Copy_HE;
   TH2F* h_mapDepth1ADCAmpl225Copy_HF;
   TH2F* h_mapDepth2ADCAmpl225Copy_HF;
   TH2F* h_mapDepth3ADCAmpl225Copy_HF;
   TH2F* h_mapDepth4ADCAmpl225Copy_HF;
   TH2F* h_mapDepth4ADCAmpl225Copy_HO;
   TH1F* h_ADCAmpl345Zoom_HE;
   TH1F* h_ADCAmpl345Zoom1_HE;
   TH1F* h_ADCAmpl345_HE;
   TH1F* h_ADCAmpl345Zoom_HB;
   TH1F* h_ADCAmpl345Zoom1_HB;
   TH1F* h_ADCAmpl345_HB;
   TH1F* h_ADCAmpl_HBCapIdNoError;
   TH1F* h_ADCAmpl345_HBCapIdNoError;
   TH1F* h_ADCAmpl_HBCapIdError;
   TH1F* h_ADCAmpl345_HBCapIdError;
   TH1F* h_ADCAmplZoom_HB;
   TH1F* h_ADCAmplZoom1_HB;
   TH1F* h_ADCAmpl_HB;
   TH1F* h_AmplitudeHBrest;
   TH1F* h_AmplitudeHBrest1;
   TH1F* h_AmplitudeHBrest6;
   TH2F* h_mapDepth1ADCAmpl_HB;
   TH2F* h_mapDepth2ADCAmpl_HB;
   TH2F* h_mapDepth1ADCAmpl225_HB;
   TH2F* h_mapDepth2ADCAmpl225_HB;
   TH2F* h_mapDepth3ADCAmpl_HB;
   TH2F* h_mapDepth4ADCAmpl_HB;
   TH2F* h_mapDepth3ADCAmpl225_HB;
   TH2F* h_mapDepth4ADCAmpl225_HB;
   TH1F* h_TSmeanA_HB;
   TH2F* h_mapDepth1TSmeanA_HB;
   TH2F* h_mapDepth2TSmeanA_HB;
   TH2F* h_mapDepth1TSmeanA225_HB;
   TH2F* h_mapDepth2TSmeanA225_HB;
   TH2F* h_mapDepth3TSmeanA_HB;
   TH2F* h_mapDepth4TSmeanA_HB;
   TH2F* h_mapDepth3TSmeanA225_HB;
   TH2F* h_mapDepth4TSmeanA225_HB;
   TH1F* h_TSmaxA_HB;
   TH2F* h_mapDepth1TSmaxA_HB;
   TH2F* h_mapDepth2TSmaxA_HB;
   TH2F* h_mapDepth1TSmaxA225_HB;
   TH2F* h_mapDepth2TSmaxA225_HB;
   TH2F* h_mapDepth3TSmaxA_HB;
   TH2F* h_mapDepth4TSmaxA_HB;
   TH2F* h_mapDepth3TSmaxA225_HB;
   TH2F* h_mapDepth4TSmaxA225_HB;
   TH1F* h_Amplitude_HB;
   TH2F* h_mapDepth1Amplitude_HB;
   TH2F* h_mapDepth2Amplitude_HB;
   TH2F* h_mapDepth1Amplitude225_HB;
   TH2F* h_mapDepth2Amplitude225_HB;
   TH2F* h_mapDepth3Amplitude_HB;
   TH2F* h_mapDepth4Amplitude_HB;
   TH2F* h_mapDepth3Amplitude225_HB;
   TH2F* h_mapDepth4Amplitude225_HB;
   TH1F* h_Ampl_HB;
   TH2F* h_mapDepth1Ampl047_HB;
   TH2F* h_mapDepth2Ampl047_HB;
   TH2F* h_mapDepth1Ampl_HB;
   TH2F* h_mapDepth2Ampl_HB;
   TH2F* h_mapDepth1AmplE34_HB;
   TH2F* h_mapDepth2AmplE34_HB;
   TH2F* h_mapDepth1_HB;
   TH2F* h_mapDepth2_HB;
   TH2F* h_mapDepth3Ampl047_HB;
   TH2F* h_mapDepth4Ampl047_HB;
   TH2F* h_mapDepth3Ampl_HB;
   TH2F* h_mapDepth4Ampl_HB;
   TH2F* h_mapDepth3AmplE34_HB;
   TH2F* h_mapDepth4AmplE34_HB;
   TH2F* h_mapDepth3_HB;
   TH2F* h_mapDepth4_HB;
   TH2F* h_mapDepth1ADCAmpl12_HB;
   TH2F* h_mapDepth2ADCAmpl12_HB;
   TH2F* h_mapDepth3ADCAmpl12_HB;
   TH2F* h_mapDepth4ADCAmpl12_HB;
   TH2F* h_mapDepth1ADCAmpl12_HE;
   TH2F* h_mapDepth2ADCAmpl12_HE;
   TH2F* h_mapDepth3ADCAmpl12_HE;
   TH2F* h_mapDepth4ADCAmpl12_HE;
   TH2F* h_mapDepth5ADCAmpl12_HE;
   TH2F* h_mapDepth6ADCAmpl12_HE;
   TH2F* h_mapDepth7ADCAmpl12_HE;
   TH2F* h_mapDepth1ADCAmpl12SiPM_HE;
   TH2F* h_mapDepth2ADCAmpl12SiPM_HE;
   TH2F* h_mapDepth3ADCAmpl12SiPM_HE;
   TH2F* h_mapDepth1ADCAmpl12_HF;
   TH2F* h_mapDepth2ADCAmpl12_HF;
   TH2F* h_mapDepth3ADCAmpl12_HF;
   TH2F* h_mapDepth4ADCAmpl12_HF;
   TH2F* h_mapDepth4ADCAmpl12_HO;
   TH2F* h_mapDepth1linADCAmpl12_HE;
   TH2F* h_mapDepth2linADCAmpl12_HE;
   TH2F* h_mapDepth3linADCAmpl12_HE;

   TH2F* h_mapDepth1TS2_HB;
   TH2F* h_mapDepth2TS2_HB;
   TH2F* h_mapDepth3TS2_HB;
   TH2F* h_mapDepth4TS2_HB;
   TH2F* h_mapDepth1TS2_HE;
   TH2F* h_mapDepth2TS2_HE;
   TH2F* h_mapDepth3TS2_HE;
   TH2F* h_mapDepth4TS2_HE;
   TH2F* h_mapDepth5TS2_HE;
   TH2F* h_mapDepth6TS2_HE;
   TH2F* h_mapDepth7TS2_HE;
   TH2F* h_mapDepth1TS1_HF;
   TH2F* h_mapDepth2TS1_HF;
   TH2F* h_mapDepth3TS1_HF;
   TH2F* h_mapDepth4TS1_HF;
   TH2F* h_mapDepth4TS012_HO;

   TH1F* h_ADCAmpl_HF;
   TH1F* h_ADCAmplrest1_HF;
   TH1F* h_ADCAmplrest6_HF;
   TH1F* h_ADCAmplZoom1_HF;
   TH2F* h_mapDepth1ADCAmpl_HF;
   TH2F* h_mapDepth2ADCAmpl_HF;
   TH2F* h_mapDepth1ADCAmpl225_HF;
   TH2F* h_mapDepth2ADCAmpl225_HF;
   TH2F* h_mapDepth3ADCAmpl_HF;
   TH2F* h_mapDepth4ADCAmpl_HF;
   TH2F* h_mapDepth3ADCAmpl225_HF;
   TH2F* h_mapDepth4ADCAmpl225_HF;
   TH1F* h_TSmeanA_HF;
   TH2F* h_mapDepth1TSmeanA_HF;
   TH2F* h_mapDepth2TSmeanA_HF;
   TH2F* h_mapDepth1TSmeanA225_HF;
   TH2F* h_mapDepth2TSmeanA225_HF;
   TH2F* h_mapDepth3TSmeanA_HF;
   TH2F* h_mapDepth4TSmeanA_HF;
   TH2F* h_mapDepth3TSmeanA225_HF;
   TH2F* h_mapDepth4TSmeanA225_HF;
   TH1F* h_TSmaxA_HF;
   TH2F* h_mapDepth1TSmaxA_HF;
   TH2F* h_mapDepth2TSmaxA_HF;
   TH2F* h_mapDepth1TSmaxA225_HF;
   TH2F* h_mapDepth2TSmaxA225_HF;
   TH2F* h_mapDepth3TSmaxA_HF;
   TH2F* h_mapDepth4TSmaxA_HF;
   TH2F* h_mapDepth3TSmaxA225_HF;
   TH2F* h_mapDepth4TSmaxA225_HF;
   TH1F* h_Amplitude_HF;
   TH2F* h_mapDepth1Amplitude_HF;
   TH2F* h_mapDepth2Amplitude_HF;
   TH2F* h_mapDepth1Amplitude225_HF;
   TH2F* h_mapDepth2Amplitude225_HF;
   TH2F* h_mapDepth3Amplitude_HF;
   TH2F* h_mapDepth4Amplitude_HF;
   TH2F* h_mapDepth3Amplitude225_HF;
   TH2F* h_mapDepth4Amplitude225_HF;
   TH1F* h_Ampl_HF;
   TH2F* h_mapDepth1Ampl047_HF;
   TH2F* h_mapDepth2Ampl047_HF;
   TH2F* h_mapDepth1Ampl_HF;
   TH2F* h_mapDepth2Ampl_HF;
   TH2F* h_mapDepth1AmplE34_HF;
   TH2F* h_mapDepth2AmplE34_HF;
   TH2F* h_mapDepth1_HF;
   TH2F* h_mapDepth2_HF;
   TH2F* h_mapDepth3Ampl047_HF;
   TH2F* h_mapDepth4Ampl047_HF;
   TH2F* h_mapDepth3Ampl_HF;
   TH2F* h_mapDepth4Ampl_HF;
   TH2F* h_mapDepth3AmplE34_HF;
   TH2F* h_mapDepth4AmplE34_HF;
   TH2F* h_mapDepth3_HF;
   TH2F* h_mapDepth4_HF;
   TH1F* h_ADCAmpl_HO;
   TH1F* h_ADCAmplrest1_HO;
   TH1F* h_ADCAmplrest6_HO;
   TH1F* h_ADCAmplZoom1_HO;
   TH1F* h_ADCAmpl_HO_copy;
   TH2F* h_mapDepth4ADCAmpl_HO;
   TH2F* h_mapDepth4ADCAmpl225_HO;
   TH1F* h_TSmeanA_HO;
   TH2F* h_mapDepth4TSmeanA_HO;
   TH2F* h_mapDepth4TSmeanA225_HO;
   TH1F* h_TSmaxA_HO;
   TH2F* h_mapDepth4TSmaxA_HO;
   TH2F* h_mapDepth4TSmaxA225_HO;
   TH1F* h_Amplitude_HO;
   TH2F* h_mapDepth4Amplitude_HO;
   TH2F* h_mapDepth4Amplitude225_HO;
   TH1F* h_Ampl_HO;
   TH2F* h_mapDepth4Ampl047_HO;
   TH2F* h_mapDepth4Ampl_HO;
   TH2F* h_mapDepth4AmplE34_HO;
   TH2F* h_mapDepth4_HO;
   TH1F* h_nbadchannels_depth1_HB;
   TH1F* h_runnbadchannels_depth1_HB;
   TH1F* h_runnbadchannelsC_depth1_HB;
   TH1F* h_runbadrate_depth1_HB;
   TH1F* h_runbadrateC_depth1_HB;
   TH1F* h_runbadrate0_depth1_HB;
   TH1F* h_nbadchannels_depth2_HB;
   TH1F* h_runnbadchannels_depth2_HB;
   TH1F* h_runnbadchannelsC_depth2_HB;
   TH1F* h_runbadrate_depth2_HB;
   TH1F* h_runbadrateC_depth2_HB;
   TH1F* h_runbadrate0_depth2_HB;
   TH1F* h_nbadchannels_depth1_HE;
   TH1F* h_runnbadchannels_depth1_HE;
   TH1F* h_runnbadchannelsC_depth1_HE;
   TH1F* h_runbadrate_depth1_HE;
   TH1F* h_runbadrateC_depth1_HE;
   TH1F* h_runbadrate0_depth1_HE;
   TH1F* h_nbadchannels_depth2_HE;
   TH1F* h_runnbadchannels_depth2_HE;
   TH1F* h_runnbadchannelsC_depth2_HE;
   TH1F* h_runbadrate_depth2_HE;
   TH1F* h_runbadrateC_depth2_HE;
   TH1F* h_runbadrate0_depth2_HE;
   TH1F* h_nbadchannels_depth3_HE;
   TH1F* h_runnbadchannels_depth3_HE;
   TH1F* h_runnbadchannelsC_depth3_HE;
   TH1F* h_runbadrate_depth3_HE;
   TH1F* h_runbadrateC_depth3_HE;
   TH1F* h_runbadrate0_depth3_HE;
   TH1F* h_nbadchannels_depth4_HO;
   TH1F* h_runnbadchannels_depth4_HO;
   TH1F* h_runnbadchannelsC_depth4_HO;
   TH1F* h_runbadrate_depth4_HO;
   TH1F* h_runbadrateC_depth4_HO;
   TH1F* h_runbadrate0_depth4_HO;
   TH1F* h_nbadchannels_depth1_HF;
   TH1F* h_runnbadchannels_depth1_HF;
   TH1F* h_runnbadchannelsC_depth1_HF;
   TH1F* h_runbadrate_depth1_HF;
   TH1F* h_runbadrateC_depth1_HF;
   TH1F* h_runbadrate0_depth1_HF;
   TH1F* h_nbadchannels_depth2_HF;
   TH1F* h_runnbadchannels_depth2_HF;
   TH1F* h_runnbadchannelsC_depth2_HF;
   TH1F* h_runbadrate_depth2_HF;
   TH1F* h_runbadrateC_depth2_HF;
   TH1F* h_runbadrate0_depth2_HF;
   TH1F* h_bcnnbadchannels_depth1_HB;
   TH1F* h_bcnnbadchannels_depth2_HB;
   TH1F* h_bcnnbadchannels_depth1_HE;
   TH1F* h_bcnnbadchannels_depth2_HE;
   TH1F* h_bcnnbadchannels_depth3_HE;
   TH1F* h_bcnnbadchannels_depth4_HO;
   TH1F* h_bcnnbadchannels_depth1_HF;
   TH1F* h_bcnnbadchannels_depth2_HF;
   TH1F* h_bcnbadrate0_depth1_HB;
   TH1F* h_bcnbadrate0_depth2_HB;
   TH1F* h_bcnbadrate0_depth1_HE;
   TH1F* h_bcnbadrate0_depth2_HE;
   TH1F* h_bcnbadrate0_depth3_HE;
   TH1F* h_bcnbadrate0_depth4_HO;
   TH1F* h_bcnbadrate0_depth1_HF;
   TH1F* h_bcnbadrate0_depth2_HF;
   TH1F* h_Amplitude_forCapIdErrors_HB1;
   TH1F* h_Amplitude_forCapIdErrors_HB2;
   TH1F* h_Amplitude_forCapIdErrors_HE1;
   TH1F* h_Amplitude_forCapIdErrors_HE2;
   TH1F* h_Amplitude_forCapIdErrors_HE3;
   TH1F* h_Amplitude_forCapIdErrors_HF1;
   TH1F* h_Amplitude_forCapIdErrors_HF2;
   TH1F* h_Amplitude_forCapIdErrors_HO4;
   TH1F* h_Amplitude_notCapIdErrors_HB1;
   TH1F* h_Amplitude_notCapIdErrors_HB2;
   TH1F* h_Amplitude_notCapIdErrors_HE1;
   TH1F* h_Amplitude_notCapIdErrors_HE2;
   TH1F* h_Amplitude_notCapIdErrors_HE3;
   TH1F* h_Amplitude_notCapIdErrors_HF1;
   TH1F* h_Amplitude_notCapIdErrors_HF2;
   TH1F* h_Amplitude_notCapIdErrors_HO4;
   TH1F* h_corrforxaMAIN_HE;
   TH1F* h_corrforxaMAIN0_HE;
   TH1F* h_corrforxaADDI_HE;
   TH1F* h_corrforxaADDI0_HE;
   TH1F* h_ADCAmpl_HE;
   TH1F* h_ADCAmplrest_HE;
   TH1F* h_ADCAmplrest1_HE;
   TH1F* h_ADCAmplrest6_HE;
   TH1F* h_ADCAmplZoom1_HE;
   TH2F* h_mapDepth1ADCAmpl_HE;
   TH2F* h_mapDepth2ADCAmpl_HE;
   TH2F* h_mapDepth3ADCAmpl_HE;
   TH2F* h_mapDepth4ADCAmpl_HE;
   TH2F* h_mapDepth5ADCAmpl_HE;
   TH2F* h_mapDepth6ADCAmpl_HE;
   TH2F* h_mapDepth7ADCAmpl_HE;
   TH2F* h_mapADCAmplfirstpeak_HE;
   TH2F* h_mapADCAmplfirstpeak0_HE;
   TH2F* h_mapADCAmplsecondpeak_HE;
   TH2F* h_mapADCAmplsecondpeak0_HE;
   TH2F* h_mapADCAmpl11firstpeak_HE;
   TH2F* h_mapADCAmpl11firstpeak0_HE;
   TH2F* h_mapADCAmpl11secondpeak_HE;
   TH2F* h_mapADCAmpl11secondpeak0_HE;
   TH2F* h_mapADCAmpl12firstpeak_HE;
   TH2F* h_mapADCAmpl12firstpeak0_HE;
   TH2F* h_mapADCAmpl12secondpeak_HE;
   TH2F* h_mapADCAmpl12secondpeak0_HE;
   TH1F* h_gsmdifferencefit1_HE;
   TH1F* h_gsmdifferencefit2_HE;
   TH1F* h_gsmdifferencefit3_HE;
   TH1F* h_gsmdifferencefit4_HE;
   TH1F* h_gsmdifferencefit5_HE;
   TH1F* h_gsmdifferencefit6_HE;
   TH2F* h_mapDepth1ADCAmplSiPM_HE;
   TH2F* h_mapDepth2ADCAmplSiPM_HE;
   TH2F* h_mapDepth3ADCAmplSiPM_HE;
   TH2F* h_mapDepth1ADCAmpl225_HE;
   TH2F* h_mapDepth2ADCAmpl225_HE;
   TH2F* h_mapDepth3ADCAmpl225_HE;
   TH2F* h_mapDepth4ADCAmpl225_HE;
   TH2F* h_mapDepth5ADCAmpl225_HE;
   TH2F* h_mapDepth6ADCAmpl225_HE;
   TH2F* h_mapDepth7ADCAmpl225_HE;
   TH1F* h_TSmeanA_HE;
   TH2F* h_mapDepth1TSmeanA_HE;
   TH2F* h_mapDepth2TSmeanA_HE;
   TH2F* h_mapDepth3TSmeanA_HE;
   TH2F* h_mapDepth4TSmeanA_HE;
   TH2F* h_mapDepth5TSmeanA_HE;
   TH2F* h_mapDepth6TSmeanA_HE;
   TH2F* h_mapDepth7TSmeanA_HE;
   TH2F* h_mapDepth1TSmeanA225_HE;
   TH2F* h_mapDepth2TSmeanA225_HE;
   TH2F* h_mapDepth3TSmeanA225_HE;
   TH2F* h_mapDepth4TSmeanA225_HE;
   TH2F* h_mapDepth5TSmeanA225_HE;
   TH2F* h_mapDepth6TSmeanA225_HE;
   TH2F* h_mapDepth7TSmeanA225_HE;
   TH1F* h_TSmaxA_HE;
   TH2F* h_mapDepth1TSmaxA_HE;
   TH2F* h_mapDepth2TSmaxA_HE;
   TH2F* h_mapDepth3TSmaxA_HE;
   TH2F* h_mapDepth4TSmaxA_HE;
   TH2F* h_mapDepth5TSmaxA_HE;
   TH2F* h_mapDepth6TSmaxA_HE;
   TH2F* h_mapDepth7TSmaxA_HE;
   TH2F* h_mapDepth1TSmaxA225_HE;
   TH2F* h_mapDepth2TSmaxA225_HE;
   TH2F* h_mapDepth3TSmaxA225_HE;
   TH2F* h_mapDepth4TSmaxA225_HE;
   TH2F* h_mapDepth5TSmaxA225_HE;
   TH2F* h_mapDepth6TSmaxA225_HE;
   TH2F* h_mapDepth7TSmaxA225_HE;
   TH1F* h_Amplitude_HE;
   TH2F* h_mapDepth1Amplitude_HE;
   TH2F* h_mapDepth2Amplitude_HE;
   TH2F* h_mapDepth3Amplitude_HE;
   TH2F* h_mapDepth4Amplitude_HE;
   TH2F* h_mapDepth5Amplitude_HE;
   TH2F* h_mapDepth6Amplitude_HE;
   TH2F* h_mapDepth7Amplitude_HE;
   TH2F* h_mapDepth1Amplitude225_HE;
   TH2F* h_mapDepth2Amplitude225_HE;
   TH2F* h_mapDepth3Amplitude225_HE;
   TH2F* h_mapDepth4Amplitude225_HE;
   TH2F* h_mapDepth5Amplitude225_HE;
   TH2F* h_mapDepth6Amplitude225_HE;
   TH2F* h_mapDepth7Amplitude225_HE;
   TH1F* h_Ampl_HE;
   TH2F* h_mapDepth1Ampl047_HE;
   TH2F* h_mapDepth2Ampl047_HE;
   TH2F* h_mapDepth3Ampl047_HE;
   TH2F* h_mapDepth4Ampl047_HE;
   TH2F* h_mapDepth5Ampl047_HE;
   TH2F* h_mapDepth6Ampl047_HE;
   TH2F* h_mapDepth7Ampl047_HE;
   TH2F* h_mapDepth1Ampl_HE;
   TH2F* h_mapDepth2Ampl_HE;
   TH2F* h_mapDepth3Ampl_HE;
   TH2F* h_mapDepth4Ampl_HE;
   TH2F* h_mapDepth5Ampl_HE;
   TH2F* h_mapDepth6Ampl_HE;
   TH2F* h_mapDepth7Ampl_HE;
   TH2F* h_mapDepth1AmplE34_HE;
   TH2F* h_mapDepth2AmplE34_HE;
   TH2F* h_mapDepth3AmplE34_HE;
   TH2F* h_mapDepth4AmplE34_HE;
   TH2F* h_mapDepth5AmplE34_HE;
   TH2F* h_mapDepth6AmplE34_HE;
   TH2F* h_mapDepth7AmplE34_HE;
   TH2F* h_mapDepth1_HE;
   TH2F* h_mapDepth2_HE;
   TH2F* h_mapDepth3_HE;
   TH2F* h_mapDepth4_HE;
   TH2F* h_mapDepth5_HE;
   TH2F* h_mapDepth6_HE;
   TH2F* h_mapDepth7_HE;
   TH2F* h_FullSignal3D_HB;
   TH2F* h_FullSignal3D0_HB;
   TH2F* h_FullSignal3D_HE;
   TH2F* h_FullSignal3D0_HE;
   TH2F* h_FullSignal3D_HO;
   TH2F* h_FullSignal3D0_HO;
   TH2F* h_FullSignal3D_HF;
   TH2F* h_FullSignal3D0_HF;
   TH2F* h_mapCapCalib047_HB;
   TH2F* h_mapCapCalib047_HE;
   TH2F* h_mapCapCalib047_HO;
   TH2F* h_mapCapCalib047_HF;
   TH1F* h_ADCCalib_HB;
   TH1F* h_ADCCalib1_HB;
   TH2F* h_mapADCCalib047_HB;
   TH2F* h_mapADCCalib_HB;
   TH1F* h_RatioCalib_HB;
   TH2F* h_mapRatioCalib047_HB;
   TH2F* h_mapRatioCalib_HB;
   TH1F* h_TSmaxCalib_HB;
   TH2F* h_mapTSmaxCalib047_HB;
   TH2F* h_mapTSmaxCalib_HB;
   TH1F* h_TSmeanCalib_HB;
   TH2F* h_mapTSmeanCalib047_HB;
   TH2F* h_mapTSmeanCalib_HB;
   TH1F* h_WidthCalib_HB;
   TH2F* h_mapWidthCalib047_HB;
   TH2F* h_mapWidthCalib_HB;
   TH2F* h_map_HB;
   TH1F* h_ADCCalib_HE;
   TH1F* h_ADCCalib1_HE;
   TH2F* h_mapADCCalib047_HE;
   TH2F* h_mapADCCalib_HE;
   TH1F* h_RatioCalib_HE;
   TH2F* h_mapRatioCalib047_HE;
   TH2F* h_mapRatioCalib_HE;
   TH1F* h_TSmaxCalib_HE;
   TH2F* h_mapTSmaxCalib047_HE;
   TH2F* h_mapTSmaxCalib_HE;
   TH1F* h_TSmeanCalib_HE;
   TH2F* h_mapTSmeanCalib047_HE;
   TH2F* h_mapTSmeanCalib_HE;
   TH1F* h_WidthCalib_HE;
   TH2F* h_mapWidthCalib047_HE;
   TH2F* h_mapWidthCalib_HE;
   TH2F* h_map_HE;
   TH1F* h_ADCCalib_HO;
   TH1F* h_ADCCalib1_HO;
   TH2F* h_mapADCCalib047_HO;
   TH2F* h_mapADCCalib_HO;
   TH1F* h_RatioCalib_HO;
   TH2F* h_mapRatioCalib047_HO;
   TH2F* h_mapRatioCalib_HO;
   TH1F* h_TSmaxCalib_HO;
   TH2F* h_mapTSmaxCalib047_HO;
   TH2F* h_mapTSmaxCalib_HO;
   TH1F* h_TSmeanCalib_HO;
   TH2F* h_mapTSmeanCalib047_HO;
   TH2F* h_mapTSmeanCalib_HO;
   TH1F* h_WidthCalib_HO;
   TH2F* h_mapWidthCalib047_HO;
   TH2F* h_mapWidthCalib_HO;
   TH2F* h_map_HO;
   TH1F* h_ADCCalib_HF;
   TH1F* h_ADCCalib1_HF;
   TH2F* h_mapADCCalib047_HF;
   TH2F* h_mapADCCalib_HF;
   TH1F* h_RatioCalib_HF;
   TH2F* h_mapRatioCalib047_HF;
   TH2F* h_mapRatioCalib_HF;
   TH1F* h_TSmaxCalib_HF;
   TH2F* h_mapTSmaxCalib047_HF;
   TH2F* h_mapTSmaxCalib_HF;
   TH1F* h_TSmeanCalib_HF;
   TH2F* h_mapTSmeanCalib047_HF;
   TH2F* h_mapTSmeanCalib_HF;
   TH1F* h_WidthCalib_HF;
   TH2F* h_mapWidthCalib047_HF;
   TH2F* h_mapWidthCalib_HF;
   TH2F* h_map_HF;
   TH1F* h_nls_per_run;
   TH1F* h_nls_per_run10;
   TH1F* h_nevents_per_LS;
   TH1F* h_nevents_per_LSzoom;
   TH1F* h_nevents_per_eachLS;
   TH1F* h_nevents_per_eachRealLS;
   TH1F* h_lsnumber_per_eachLS;
   TH1F* h_sumPedestalLS1;
   TH2F* h_2DsumPedestalLS1;
   TH1F* h_sumPedestalperLS1;
   TH2F* h_2D0sumPedestalLS1;
   TH1F* h_sum0PedestalperLS1;
   TH1F* h_sumPedestalLS2;
   TH2F* h_2DsumPedestalLS2;
   TH1F* h_sumPedestalperLS2;
   TH2F* h_2D0sumPedestalLS2;
   TH1F* h_sum0PedestalperLS2;
   TH1F* h_sumPedestalLS3;
   TH2F* h_2DsumPedestalLS3;
   TH1F* h_sumPedestalperLS3;
   TH2F* h_2D0sumPedestalLS3;
   TH1F* h_sum0PedestalperLS3;
   TH1F* h_sumPedestalLS4;
   TH2F* h_2DsumPedestalLS4;
   TH1F* h_sumPedestalperLS4;
   TH2F* h_2D0sumPedestalLS4;
   TH1F* h_sum0PedestalperLS4;
   TH1F* h_sumPedestalLS5;
   TH2F* h_2DsumPedestalLS5;
   TH1F* h_sumPedestalperLS5;
   TH2F* h_2D0sumPedestalLS5;
   TH1F* h_sum0PedestalperLS5;
   TH1F* h_sumPedestalLS6;
   TH2F* h_2DsumPedestalLS6;
   TH1F* h_sumPedestalperLS6;
   TH2F* h_2D0sumPedestalLS6;
   TH1F* h_sum0PedestalperLS6;
   TH1F* h_sumPedestalLS7;
   TH2F* h_2DsumPedestalLS7;
   TH1F* h_sumPedestalperLS7;
   TH2F* h_2D0sumPedestalLS7;
   TH1F* h_sum0PedestalperLS7;
   TH1F* h_sumPedestalLS8;
   TH2F* h_2DsumPedestalLS8;
   TH1F* h_sumPedestalperLS8;
   TH2F* h_2D0sumPedestalLS8;
   TH1F* h_sum0PedestalperLS8;
   TH2F* h_2DsumADCAmplLSdepth4HEu;
   TH2F* h_2D0sumADCAmplLSdepth4HEu;
   TH2F* h_2DsumADCAmplLSdepth5HEu;
   TH2F* h_2D0sumADCAmplLSdepth5HEu;
   TH2F* h_2DsumADCAmplLSdepth6HEu;
   TH2F* h_2D0sumADCAmplLSdepth6HEu;
   TH2F* h_2DsumADCAmplLSdepth7HEu;
   TH2F* h_2D0sumADCAmplLSdepth7HEu;
   TH2F* h_2DsumADCAmplLSdepth3HFu;
   TH2F* h_2D0sumADCAmplLSdepth3HFu;
   TH2F* h_2DsumADCAmplLSdepth4HFu;
   TH2F* h_2D0sumADCAmplLSdepth4HFu;
   TH2F* h_2DsumADCAmplLSdepth3HBu;
   TH2F* h_2D0sumADCAmplLSdepth3HBu;
   TH2F* h_2DsumADCAmplLSdepth4HBu;
   TH2F* h_2D0sumADCAmplLSdepth4HBu;
   TH1F* h_sumADCAmplLS1copy1;
   TH1F* h_sumADCAmplLS1copy2;
   TH1F* h_sumADCAmplLS1copy3;
   TH1F* h_sumADCAmplLS1copy4;
   TH1F* h_sumADCAmplLS1copy5;
   TH1F* h_sumADCAmplLS1;
   TH2F* h_2DsumADCAmplLS1;
   TH2F* h_2DsumADCAmplLS1_LSselected;
   TH1F* h_sumADCAmplperLS1;
   TH1F* h_sumCutADCAmplperLS1;
   TH2F* h_2D0sumADCAmplLS1;
   TH1F* h_sum0ADCAmplperLS1;
   TH1F* h_sumADCAmplLS2;
   TH2F* h_2DsumADCAmplLS2;
   TH2F* h_2DsumADCAmplLS2_LSselected;
   TH1F* h_sumADCAmplperLS2;
   TH1F* h_sumCutADCAmplperLS2;
   TH2F* h_2D0sumADCAmplLS2;
   TH1F* h_sum0ADCAmplperLS2;
   TH1F* h_sumADCAmplLS3;
   TH2F* h_2DsumADCAmplLS3;
   TH2F* h_2DsumADCAmplLS3_LSselected;
   TH1F* h_sumADCAmplperLS3;
   TH1F* h_sumCutADCAmplperLS3;
   TH2F* h_2D0sumADCAmplLS3;
   TH1F* h_sum0ADCAmplperLS3;
   TH1F* h_sumADCAmplLS4;
   TH2F* h_2DsumADCAmplLS4;
   TH2F* h_2DsumADCAmplLS4_LSselected;
   TH1F* h_sumADCAmplperLS4;
   TH1F* h_sumCutADCAmplperLS4;
   TH2F* h_2D0sumADCAmplLS4;
   TH1F* h_sum0ADCAmplperLS4;
   TH1F* h_sumADCAmplLS5;
   TH2F* h_2DsumADCAmplLS5;
   TH2F* h_2DsumADCAmplLS5_LSselected;
   TH1F* h_sumADCAmplperLS5;
   TH1F* h_sumCutADCAmplperLS5;
   TH2F* h_2D0sumADCAmplLS5;
   TH1F* h_sum0ADCAmplperLS5;
   TH1F* h_sumADCAmplLS6;
   TH2F* h_2DsumADCAmplLS6;
   TH2F* h_2DsumADCAmplLS6_LSselected;
   TH2F* h_2D0sumADCAmplLS6;
   TH1F* h_sumADCAmplperLS6;
   TH1F* h_sumCutADCAmplperLS6;
   TH1F* h_sum0ADCAmplperLS6;
   TH1F* h_sumADCAmplperLSdepth4HEu;
   TH1F* h_sumADCAmplperLSdepth5HEu;
   TH1F* h_sumADCAmplperLSdepth6HEu;
   TH1F* h_sumADCAmplperLSdepth7HEu;
   TH1F* h_sumCutADCAmplperLSdepth4HEu;
   TH1F* h_sumCutADCAmplperLSdepth5HEu;
   TH1F* h_sumCutADCAmplperLSdepth6HEu;
   TH1F* h_sumCutADCAmplperLSdepth7HEu;
   TH1F* h_sum0ADCAmplperLSdepth4HEu;
   TH1F* h_sum0ADCAmplperLSdepth5HEu;
   TH1F* h_sum0ADCAmplperLSdepth6HEu;
   TH1F* h_sum0ADCAmplperLSdepth7HEu;
   TH1F* h_sumADCAmplperLSdepth3HBu;
   TH1F* h_sumADCAmplperLSdepth4HBu;
   TH1F* h_sumCutADCAmplperLSdepth3HBu;
   TH1F* h_sumCutADCAmplperLSdepth4HBu;
   TH1F* h_sum0ADCAmplperLSdepth3HBu;
   TH1F* h_sum0ADCAmplperLSdepth4HBu;
   TH1F* h_sumADCAmplperLS6u;
   TH1F* h_sumCutADCAmplperLS6u;
   TH1F* h_sum0ADCAmplperLS6u;
   TH1F* h_sumADCAmplperLS1_P1;
   TH1F* h_sum0ADCAmplperLS1_P1;
   TH1F* h_sumADCAmplperLS1_P2;
   TH1F* h_sum0ADCAmplperLS1_P2;
   TH1F* h_sumADCAmplperLS1_M1;
   TH1F* h_sum0ADCAmplperLS1_M1;
   TH1F* h_sumADCAmplperLS1_M2;
   TH1F* h_sum0ADCAmplperLS1_M2;
   TH1F* h_sumADCAmplperLS3_P1;
   TH1F* h_sum0ADCAmplperLS3_P1;
   TH1F* h_sumADCAmplperLS3_P2;
   TH1F* h_sum0ADCAmplperLS3_P2;
   TH1F* h_sumADCAmplperLS3_M1;
   TH1F* h_sum0ADCAmplperLS3_M1;
   TH1F* h_sumADCAmplperLS3_M2;
   TH1F* h_sum0ADCAmplperLS3_M2;
   TH1F* h_sumADCAmplperLS6_P1;
   TH1F* h_sum0ADCAmplperLS6_P1;
   TH1F* h_sumADCAmplperLS6_P2;
   TH1F* h_sum0ADCAmplperLS6_P2;
   TH1F* h_sumADCAmplperLS6_M1;
   TH1F* h_sum0ADCAmplperLS6_M1;
   TH1F* h_sumADCAmplperLS6_M2;
   TH1F* h_sum0ADCAmplperLS6_M2;
   TH1F* h_sumADCAmplperLS8_P1;
   TH1F* h_sum0ADCAmplperLS8_P1;
   TH1F* h_sumADCAmplperLS8_P2;
   TH1F* h_sum0ADCAmplperLS8_P2;
   TH1F* h_sumADCAmplperLS8_M1;
   TH1F* h_sum0ADCAmplperLS8_M1;
   TH1F* h_sumADCAmplperLS8_M2;
   TH1F* h_sum0ADCAmplperLS8_M2;
   TH1F* h_sumADCAmplLS7;
   TH2F* h_2DsumADCAmplLS7;
   TH2F* h_2DsumADCAmplLS7_LSselected;
   TH2F* h_2D0sumADCAmplLS7;
   TH1F* h_sumADCAmplperLS7;
   TH1F* h_sumCutADCAmplperLS7;
   TH1F* h_sum0ADCAmplperLS7;
   TH1F* h_sumADCAmplperLS7u;
   TH1F* h_sumCutADCAmplperLS7u;
   TH1F* h_sum0ADCAmplperLS7u;
   TH1F* h_sumADCAmplLS8;
   TH2F* h_2DsumADCAmplLS8;
   TH2F* h_2DsumADCAmplLS8_LSselected;
   TH1F* h_sumADCAmplperLS8;
   TH1F* h_sumCutADCAmplperLS8;
   TH2F* h_2D0sumADCAmplLS8;
   TH1F* h_sum0ADCAmplperLS8;
   TH1F* h_sumTSmeanALS1;
   TH2F* h_2DsumTSmeanALS1;
   TH1F* h_sumTSmeanAperLS1;
   TH1F* h_sumTSmeanAperLS1_LSselected;
   TH1F* h_sumCutTSmeanAperLS1;
   TH2F* h_2D0sumTSmeanALS1;
   TH1F* h_sum0TSmeanAperLS1;
   TH1F* h_sumTSmeanALS2;
   TH2F* h_2DsumTSmeanALS2;
   TH1F* h_sumTSmeanAperLS2;
   TH1F* h_sumCutTSmeanAperLS2;
   TH2F* h_2D0sumTSmeanALS2;
   TH1F* h_sum0TSmeanAperLS2;
   TH1F* h_sumTSmeanALS3;
   TH2F* h_2DsumTSmeanALS3;
   TH1F* h_sumTSmeanAperLS3;
   TH1F* h_sumCutTSmeanAperLS3;
   TH2F* h_2D0sumTSmeanALS3;
   TH1F* h_sum0TSmeanAperLS3;
   TH1F* h_sumTSmeanALS4;
   TH2F* h_2DsumTSmeanALS4;
   TH1F* h_sumTSmeanAperLS4;
   TH1F* h_sumCutTSmeanAperLS4;
   TH2F* h_2D0sumTSmeanALS4;
   TH1F* h_sum0TSmeanAperLS4;
   TH1F* h_sumTSmeanALS5;
   TH2F* h_2DsumTSmeanALS5;
   TH1F* h_sumTSmeanAperLS5;
   TH1F* h_sumCutTSmeanAperLS5;
   TH2F* h_2D0sumTSmeanALS5;
   TH1F* h_sum0TSmeanAperLS5;
   TH1F* h_sumTSmeanALS6;
   TH2F* h_2DsumTSmeanALS6;
   TH1F* h_sumTSmeanAperLS6;
   TH1F* h_sumCutTSmeanAperLS6;
   TH2F* h_2D0sumTSmeanALS6;
   TH1F* h_sum0TSmeanAperLS6;
   TH1F* h_sumTSmeanALS7;
   TH2F* h_2DsumTSmeanALS7;
   TH1F* h_sumTSmeanAperLS7;
   TH1F* h_sumCutTSmeanAperLS7;
   TH2F* h_2D0sumTSmeanALS7;
   TH1F* h_sum0TSmeanAperLS7;
   TH1F* h_sumTSmeanALS8;
   TH2F* h_2DsumTSmeanALS8;
   TH1F* h_sumTSmeanAperLS8;
   TH1F* h_sumCutTSmeanAperLS8;
   TH2F* h_2D0sumTSmeanALS8;
   TH1F* h_sum0TSmeanAperLS8;
   TH1F* h_sumTSmaxALS1;
   TH2F* h_2DsumTSmaxALS1;
   TH1F* h_sumTSmaxAperLS1;
   TH1F* h_sumTSmaxAperLS1_LSselected;
   TH1F* h_sumCutTSmaxAperLS1;
   TH2F* h_2D0sumTSmaxALS1;
   TH1F* h_sum0TSmaxAperLS1;
   TH1F* h_sumTSmaxALS2;
   TH2F* h_2DsumTSmaxALS2;
   TH1F* h_sumTSmaxAperLS2;
   TH1F* h_sumCutTSmaxAperLS2;
   TH2F* h_2D0sumTSmaxALS2;
   TH1F* h_sum0TSmaxAperLS2;
   TH1F* h_sumTSmaxALS3;
   TH2F* h_2DsumTSmaxALS3;
   TH1F* h_sumTSmaxAperLS3;
   TH1F* h_sumCutTSmaxAperLS3;
   TH2F* h_2D0sumTSmaxALS3;
   TH1F* h_sum0TSmaxAperLS3;
   TH1F* h_sumTSmaxALS4;
   TH2F* h_2DsumTSmaxALS4;
   TH1F* h_sumTSmaxAperLS4;
   TH1F* h_sumCutTSmaxAperLS4;
   TH2F* h_2D0sumTSmaxALS4;
   TH1F* h_sum0TSmaxAperLS4;
   TH1F* h_sumTSmaxALS5;
   TH2F* h_2DsumTSmaxALS5;
   TH1F* h_sumTSmaxAperLS5;
   TH1F* h_sumCutTSmaxAperLS5;
   TH2F* h_2D0sumTSmaxALS5;
   TH1F* h_sum0TSmaxAperLS5;
   TH1F* h_sumTSmaxALS6;
   TH2F* h_2DsumTSmaxALS6;
   TH1F* h_sumTSmaxAperLS6;
   TH1F* h_sumCutTSmaxAperLS6;
   TH2F* h_2D0sumTSmaxALS6;
   TH1F* h_sum0TSmaxAperLS6;
   TH1F* h_sumTSmaxALS7;
   TH2F* h_2DsumTSmaxALS7;
   TH1F* h_sumTSmaxAperLS7;
   TH1F* h_sumCutTSmaxAperLS7;
   TH2F* h_2D0sumTSmaxALS7;
   TH1F* h_sum0TSmaxAperLS7;
   TH1F* h_sumTSmaxALS8;
   TH2F* h_2DsumTSmaxALS8;
   TH1F* h_sumTSmaxAperLS8;
   TH1F* h_sumCutTSmaxAperLS8;
   TH2F* h_2D0sumTSmaxALS8;
   TH1F* h_sum0TSmaxAperLS8;
   TH1F* h_sumAmplitudeLS1;
   TH2F* h_2DsumAmplitudeLS1;
   TH1F* h_sumAmplitudeperLS1;
   TH1F* h_sumAmplitudeperLS1_LSselected;
   TH1F* h_sumCutAmplitudeperLS1;
   TH2F* h_2D0sumAmplitudeLS1;
   TH1F* h_sum0AmplitudeperLS1;
   TH1F* h_sumAmplitudeLS2;
   TH2F* h_2DsumAmplitudeLS2;
   TH1F* h_sumAmplitudeperLS2;
   TH1F* h_sumCutAmplitudeperLS2;
   TH2F* h_2D0sumAmplitudeLS2;
   TH1F* h_sum0AmplitudeperLS2;
   TH1F* h_sumAmplitudeLS3;
   TH2F* h_2DsumAmplitudeLS3;
   TH1F* h_sumAmplitudeperLS3;
   TH1F* h_sumCutAmplitudeperLS3;
   TH2F* h_2D0sumAmplitudeLS3;
   TH1F* h_sum0AmplitudeperLS3;
   TH1F* h_sumAmplitudeLS4;
   TH2F* h_2DsumAmplitudeLS4;
   TH1F* h_sumAmplitudeperLS4;
   TH1F* h_sumCutAmplitudeperLS4;
   TH2F* h_2D0sumAmplitudeLS4;
   TH1F* h_sum0AmplitudeperLS4;
   TH1F* h_sumAmplitudeLS5;
   TH2F* h_2DsumAmplitudeLS5;
   TH1F* h_sumAmplitudeperLS5;
   TH1F* h_sumCutAmplitudeperLS5;
   TH2F* h_2D0sumAmplitudeLS5;
   TH1F* h_sum0AmplitudeperLS5;
   TH1F* h_sumAmplitudeLS6;
   TH2F* h_2DsumAmplitudeLS6;
   TH1F* h_sumAmplitudeperLS6;
   TH1F* h_sumCutAmplitudeperLS6;
   TH2F* h_2D0sumAmplitudeLS6;
   TH1F* h_sum0AmplitudeperLS6;
   TH1F* h_sumAmplitudeLS7;
   TH2F* h_2DsumAmplitudeLS7;
   TH1F* h_sumAmplitudeperLS7;
   TH1F* h_sumCutAmplitudeperLS7;
   TH2F* h_2D0sumAmplitudeLS7;
   TH1F* h_sum0AmplitudeperLS7;
   TH1F* h_sumAmplitudeLS8;
   TH2F* h_2DsumAmplitudeLS8;
   TH1F* h_sumAmplitudeperLS8;
   TH1F* h_sumCutAmplitudeperLS8;
   TH2F* h_2D0sumAmplitudeLS8;
   TH1F* h_sum0AmplitudeperLS8;
   TH1F* h_sumAmplLS1;
   TH2F* h_2DsumAmplLS1;
   TH1F* h_sumAmplperLS1;
   TH1F* h_sumAmplperLS1_LSselected;
   TH1F* h_sumCutAmplperLS1;
   TH2F* h_2D0sumAmplLS1;
   TH1F* h_sum0AmplperLS1;
   TH1F* h_sumAmplLS2;
   TH2F* h_2DsumAmplLS2;
   TH1F* h_sumAmplperLS2;
   TH1F* h_sumCutAmplperLS2;
   TH2F* h_2D0sumAmplLS2;
   TH1F* h_sum0AmplperLS2;
   TH1F* h_sumAmplLS3;
   TH2F* h_2DsumAmplLS3;
   TH1F* h_sumAmplperLS3;
   TH1F* h_sumCutAmplperLS3;
   TH2F* h_2D0sumAmplLS3;
   TH1F* h_sum0AmplperLS3;
   TH1F* h_sumAmplLS4;
   TH2F* h_2DsumAmplLS4;
   TH1F* h_sumAmplperLS4;
   TH1F* h_sumCutAmplperLS4;
   TH2F* h_2D0sumAmplLS4;
   TH1F* h_sum0AmplperLS4;
   TH1F* h_sumAmplLS5;
   TH2F* h_2DsumAmplLS5;
   TH1F* h_sumAmplperLS5;
   TH1F* h_sumCutAmplperLS5;
   TH2F* h_2D0sumAmplLS5;
   TH1F* h_sum0AmplperLS5;
   TH1F* h_sumAmplLS6;
   TH2F* h_2DsumAmplLS6;
   TH1F* h_sumAmplperLS6;
   TH1F* h_sumCutAmplperLS6;
   TH2F* h_2D0sumAmplLS6;
   TH1F* h_sum0AmplperLS6;
   TH1F* h_RatioOccupancy_HBP;
   TH1F* h_RatioOccupancy_HBM;
   TH1F* h_RatioOccupancy_HEP;
   TH1F* h_RatioOccupancy_HEM;
   TH1F* h_RatioOccupancy_HOP;
   TH1F* h_RatioOccupancy_HOM;
   TH1F* h_RatioOccupancy_HFP;
   TH1F* h_RatioOccupancy_HFM;
   TH1F* h_sumAmplLS7;
   TH2F* h_2DsumAmplLS7;
   TH1F* h_sumAmplperLS7;
   TH1F* h_sumCutAmplperLS7;
   TH2F* h_2D0sumAmplLS7;
   TH1F* h_sum0AmplperLS7;
   TH1F* h_sumAmplLS8;
   TH2F* h_2DsumAmplLS8;
   TH1F* h_sumAmplperLS8;
   TH1F* h_sumCutAmplperLS8;
   TH2F* h_2D0sumAmplLS8;
   TH1F* h_sum0AmplperLS8;
   TH1F* h_pedestal0_HB;
   TH1F* h_pedestal1_HB;
   TH1F* h_pedestal2_HB;
   TH1F* h_pedestal3_HB;
   TH1F* h_pedestalaver4_HB;
   TH1F* h_pedestalaver9_HB;
   TH1F* h_pedestalw0_HB;
   TH1F* h_pedestalw1_HB;
   TH1F* h_pedestalw2_HB;
   TH1F* h_pedestalw3_HB;
   TH1F* h_pedestalwaver4_HB;
   TH1F* h_pedestalwaver9_HB;
   TH1F* h_pedestal0_HE;
   TH1F* h_pedestal1_HE;
   TH1F* h_pedestal2_HE;
   TH1F* h_pedestal3_HE;
   TH1F* h_pedestalaver4_HE;
   TH1F* h_pedestalaver9_HE;
   TH1F* h_pedestalw0_HE;
   TH1F* h_pedestalw1_HE;
   TH1F* h_pedestalw2_HE;
   TH1F* h_pedestalw3_HE;
   TH1F* h_pedestalwaver4_HE;
   TH1F* h_pedestalwaver9_HE;
   TH1F* h_pedestal0_HF;
   TH1F* h_pedestal1_HF;
   TH1F* h_pedestal2_HF;
   TH1F* h_pedestal3_HF;
   TH1F* h_pedestalaver4_HF;
   TH1F* h_pedestalaver9_HF;
   TH1F* h_pedestalw0_HF;
   TH1F* h_pedestalw1_HF;
   TH1F* h_pedestalw2_HF;
   TH1F* h_pedestalw3_HF;
   TH1F* h_pedestalwaver4_HF;
   TH1F* h_pedestalwaver9_HF;
   TH1F* h_pedestal0_HO;
   TH1F* h_pedestal1_HO;
   TH1F* h_pedestal2_HO;
   TH1F* h_pedestal3_HO;
   TH1F* h_pedestalaver4_HO;
   TH1F* h_pedestalaver9_HO;
   TH1F* h_pedestalw0_HO;
   TH1F* h_pedestalw1_HO;
   TH1F* h_pedestalw2_HO;
   TH1F* h_pedestalw3_HO;
   TH1F* h_pedestalwaver4_HO;
   TH1F* h_pedestalwaver9_HO;
   TH2F* h_mapDepth1pedestalw_HB;
   TH2F* h_mapDepth2pedestalw_HB;
   TH2F* h_mapDepth3pedestalw_HB;
   TH2F* h_mapDepth4pedestalw_HB;
   TH2F* h_mapDepth1pedestalw_HE;
   TH2F* h_mapDepth2pedestalw_HE;
   TH2F* h_mapDepth3pedestalw_HE;
   TH2F* h_mapDepth4pedestalw_HE;
   TH2F* h_mapDepth5pedestalw_HE;
   TH2F* h_mapDepth6pedestalw_HE;
   TH2F* h_mapDepth7pedestalw_HE;
   TH2F* h_mapDepth1pedestalw_HF;
   TH2F* h_mapDepth2pedestalw_HF;
   TH2F* h_mapDepth3pedestalw_HF;
   TH2F* h_mapDepth4pedestalw_HF;
   TH2F* h_mapDepth4pedestalw_HO;
   TH2F* h_mapDepth1pedestal_HB;
   TH2F* h_mapDepth2pedestal_HB;
   TH2F* h_mapDepth3pedestal_HB;
   TH2F* h_mapDepth4pedestal_HB;
   TH2F* h_mapDepth1pedestal_HE;
   TH2F* h_mapDepth2pedestal_HE;
   TH2F* h_mapDepth3pedestal_HE;
   TH2F* h_mapDepth4pedestal_HE;
   TH2F* h_mapDepth5pedestal_HE;
   TH2F* h_mapDepth6pedestal_HE;
   TH2F* h_mapDepth7pedestal_HE;
   TH2F* h_mapDepth1pedestal_HF;
   TH2F* h_mapDepth2pedestal_HF;
   TH2F* h_mapDepth3pedestal_HF;
   TH2F* h_mapDepth4pedestal_HF;
   TH2F* h_mapDepth4pedestal_HO;
   TH1F* h_pedestal00_HB;
   TH1F* h_gain_HB;
   TH1F* h_respcorr_HB;
   TH1F* h_timecorr_HB;
   TH1F* h_lutcorr_HB;
   TH1F* h_difpedestal0_HB;
   TH1F* h_difpedestal1_HB;
   TH1F* h_difpedestal2_HB;
   TH1F* h_difpedestal3_HB;
   TH1F* h_pedestal00_HE;
   TH1F* h_gain_HE;
   TH1F* h_respcorr_HE;
   TH1F* h_timecorr_HE;
   TH1F* h_lutcorr_HE;
   TH1F* h_pedestal00_HF;
   TH1F* h_gain_HF;
   TH1F* h_respcorr_HF;
   TH1F* h_timecorr_HF;
   TH1F* h_lutcorr_HF;
   TH1F* h_pedestal00_HO;
   TH1F* h_gain_HO;
   TH1F* h_respcorr_HO;
   TH1F* h_timecorr_HO;
   TH1F* h_lutcorr_HO;
   TH2F* h2_pedvsampl_HB;
   TH2F* h2_pedwvsampl_HB;
   TH1F* h_pedvsampl_HB;
   TH1F* h_pedwvsampl_HB;
   TH1F* h_pedvsampl0_HB;
   TH1F* h_pedwvsampl0_HB;
   TH2F* h2_amplvsped_HB;
   TH2F* h2_amplvspedw_HB;
   TH1F* h_amplvsped_HB;
   TH1F* h_amplvspedw_HB;
   TH1F* h_amplvsped0_HB;
   TH2F* h2_pedvsampl_HE;
   TH2F* h2_pedwvsampl_HE;
   TH1F* h_pedvsampl_HE;
   TH1F* h_pedwvsampl_HE;
   TH1F* h_pedvsampl0_HE;
   TH1F* h_pedwvsampl0_HE;
   TH2F* h2_pedvsampl_HF;
   TH2F* h2_pedwvsampl_HF;
   TH1F* h_pedvsampl_HF;
   TH1F* h_pedwvsampl_HF;
   TH1F* h_pedvsampl0_HF;
   TH1F* h_pedwvsampl0_HF;
   TH2F* h2_pedvsampl_HO;
   TH2F* h2_pedwvsampl_HO;
   TH1F* h_pedvsampl_HO;
   TH1F* h_pedwvsampl_HO;
   TH1F* h_pedvsampl0_HO;
   TH1F* h_pedwvsampl0_HO;
   TH1F* h_shape_Ahigh_HB0;
   TH1F* h_shape0_Ahigh_HB0;
   TH1F* h_shape_Alow_HB0;
   TH1F* h_shape0_Alow_HB0;
   TH1F* h_shape_Ahigh_HB1;
   TH1F* h_shape0_Ahigh_HB1;
   TH1F* h_shape_Alow_HB1;
   TH1F* h_shape0_Alow_HB1;
   TH1F* h_shape_Ahigh_HB2;
   TH1F* h_shape0_Ahigh_HB2;
   TH1F* h_shape_Alow_HB2;
   TH1F* h_shape0_Alow_HB2;
   TH1F* h_shape_Ahigh_HB3;
   TH1F* h_shape0_Ahigh_HB3;
   TH1F* h_shape_Alow_HB3;
   TH1F* h_shape0_Alow_HB3;
   TH1F* h_shape_bad_channels_HB;
   TH1F* h_shape0_bad_channels_HB;
   TH1F* h_shape_good_channels_HB;
   TH1F* h_shape0_good_channels_HB;
   TH1F* h_shape_bad_channels_HE;
   TH1F* h_shape0_bad_channels_HE;
   TH1F* h_shape_good_channels_HE;
   TH1F* h_shape0_good_channels_HE;
   TH1F* h_shape_bad_channels_HF;
   TH1F* h_shape0_bad_channels_HF;
   TH1F* h_shape_good_channels_HF;
   TH1F* h_shape0_good_channels_HF;
   TH1F* h_shape_bad_channels_HO;
   TH1F* h_shape0_bad_channels_HO;
   TH1F* h_shape_good_channels_HO;
   TH1F* h_shape0_good_channels_HO;
   TH1F* h_sumamplitude_depth1_HB;
   TH1F* h_sumamplitude_depth2_HB;
   TH1F* h_sumamplitude_depth1_HE;
   TH1F* h_sumamplitude_depth2_HE;
   TH1F* h_sumamplitude_depth3_HE;
   TH1F* h_sumamplitude_depth1_HF;
   TH1F* h_sumamplitude_depth2_HF;
   TH1F* h_sumamplitude_depth4_HO;
   TH1F* h_sumamplitude_depth1_HB0;
   TH1F* h_sumamplitude_depth2_HB0;
   TH1F* h_sumamplitude_depth1_HE0;
   TH1F* h_sumamplitude_depth2_HE0;
   TH1F* h_sumamplitude_depth3_HE0;
   TH1F* h_sumamplitude_depth1_HF0;
   TH1F* h_sumamplitude_depth2_HF0;
   TH1F* h_sumamplitude_depth4_HO0;
   TH1F* h_sumamplitude_depth1_HB1;
   TH1F* h_sumamplitude_depth2_HB1;
   TH1F* h_sumamplitude_depth1_HE1;
   TH1F* h_sumamplitude_depth2_HE1;
   TH1F* h_sumamplitude_depth3_HE1;
   TH1F* h_sumamplitude_depth1_HF1;
   TH1F* h_sumamplitude_depth2_HF1;
   TH1F* h_sumamplitude_depth4_HO1;
   TH2F* h_mapDepth1Ped0_HB;
   TH2F* h_mapDepth1Ped1_HB;
   TH2F* h_mapDepth1Ped2_HB;
   TH2F* h_mapDepth1Ped3_HB;
   TH2F* h_mapDepth1Pedw0_HB;
   TH2F* h_mapDepth1Pedw1_HB;
   TH2F* h_mapDepth1Pedw2_HB;
   TH2F* h_mapDepth1Pedw3_HB;
   TH2F* h_mapDepth2Ped0_HB;
   TH2F* h_mapDepth2Ped1_HB;
   TH2F* h_mapDepth2Ped2_HB;
   TH2F* h_mapDepth2Ped3_HB;
   TH2F* h_mapDepth2Pedw0_HB;
   TH2F* h_mapDepth2Pedw1_HB;
   TH2F* h_mapDepth2Pedw2_HB;
   TH2F* h_mapDepth2Pedw3_HB;
   TH2F* h_mapDepth1Ped0_HE;
   TH2F* h_mapDepth1Ped1_HE;
   TH2F* h_mapDepth1Ped2_HE;
   TH2F* h_mapDepth1Ped3_HE;
   TH2F* h_mapDepth1Pedw0_HE;
   TH2F* h_mapDepth1Pedw1_HE;
   TH2F* h_mapDepth1Pedw2_HE;
   TH2F* h_mapDepth1Pedw3_HE;
   TH2F* h_mapDepth2Ped0_HE;
   TH2F* h_mapDepth2Ped1_HE;
   TH2F* h_mapDepth2Ped2_HE;
   TH2F* h_mapDepth2Ped3_HE;
   TH2F* h_mapDepth2Pedw0_HE;
   TH2F* h_mapDepth2Pedw1_HE;
   TH2F* h_mapDepth2Pedw2_HE;
   TH2F* h_mapDepth2Pedw3_HE;
   TH2F* h_mapDepth3Ped0_HE;
   TH2F* h_mapDepth3Ped1_HE;
   TH2F* h_mapDepth3Ped2_HE;
   TH2F* h_mapDepth3Ped3_HE;
   TH2F* h_mapDepth3Pedw0_HE;
   TH2F* h_mapDepth3Pedw1_HE;
   TH2F* h_mapDepth3Pedw2_HE;
   TH2F* h_mapDepth3Pedw3_HE;
   TH2F* h_mapDepth1Ped0_HF;
   TH2F* h_mapDepth1Ped1_HF;
   TH2F* h_mapDepth1Ped2_HF;
   TH2F* h_mapDepth1Ped3_HF;
   TH2F* h_mapDepth1Pedw0_HF;
   TH2F* h_mapDepth1Pedw1_HF;
   TH2F* h_mapDepth1Pedw2_HF;
   TH2F* h_mapDepth1Pedw3_HF;
   TH2F* h_mapDepth2Ped0_HF;
   TH2F* h_mapDepth2Ped1_HF;
   TH2F* h_mapDepth2Ped2_HF;
   TH2F* h_mapDepth2Ped3_HF;
   TH2F* h_mapDepth2Pedw0_HF;
   TH2F* h_mapDepth2Pedw1_HF;
   TH2F* h_mapDepth2Pedw2_HF;
   TH2F* h_mapDepth2Pedw3_HF;
   TH2F* h_mapDepth4Ped0_HO;
   TH2F* h_mapDepth4Ped1_HO;
   TH2F* h_mapDepth4Ped2_HO;
   TH2F* h_mapDepth4Ped3_HO;
   TH2F* h_mapDepth4Pedw0_HO;
   TH2F* h_mapDepth4Pedw1_HO;
   TH2F* h_mapDepth4Pedw2_HO;
   TH2F* h_mapDepth4Pedw3_HO;
   TH2F* h_mapGetRMSOverNormalizedSignal_HB;
   TH2F* h_mapGetRMSOverNormalizedSignal0_HB;
   TH2F* h_mapGetRMSOverNormalizedSignal_HE;
   TH2F* h_mapGetRMSOverNormalizedSignal0_HE;
   TH2F* h_mapGetRMSOverNormalizedSignal_HF;
   TH2F* h_mapGetRMSOverNormalizedSignal0_HF;
   TH2F* h_mapGetRMSOverNormalizedSignal_HO;
   TH2F* h_mapGetRMSOverNormalizedSignal0_HO;
   TH2F* h_2D0sumErrorBLS1;
   TH2F* h_2DsumErrorBLS1;
   TH1F* h_sumErrorBLS1;
   TH1F* h_sumErrorBperLS1;
   TH1F* h_sum0ErrorBperLS1;
   TH2F* h_2D0sumErrorBLS2;
   TH2F* h_2DsumErrorBLS2;
   TH1F* h_sumErrorBLS2;
   TH1F* h_sumErrorBperLS2;
   TH1F* h_sum0ErrorBperLS2;
   TH2F* h_2D0sumErrorBLS3;
   TH2F* h_2DsumErrorBLS3;
   TH1F* h_sumErrorBLS3;
   TH1F* h_sumErrorBperLS3;
   TH1F* h_sum0ErrorBperLS3;
   TH2F* h_2D0sumErrorBLS4;
   TH2F* h_2DsumErrorBLS4;
   TH1F* h_sumErrorBLS4;
   TH1F* h_sumErrorBperLS4;
   TH1F* h_sum0ErrorBperLS4;
   TH2F* h_2D0sumErrorBLS5;
   TH2F* h_2DsumErrorBLS5;
   TH1F* h_sumErrorBLS5;
   TH1F* h_sumErrorBperLS5;
   TH1F* h_sum0ErrorBperLS5;
   TH2F* h_2D0sumErrorBLS6;
   TH2F* h_2DsumErrorBLS6;
   TH1F* h_sumErrorBLS6;
   TH1F* h_sumErrorBperLS6;
   TH1F* h_sum0ErrorBperLS6;
   TH2F* h_2D0sumErrorBLS7;
   TH2F* h_2DsumErrorBLS7;
   TH1F* h_sumErrorBLS7;
   TH1F* h_sumErrorBperLS7;
   TH1F* h_sum0ErrorBperLS7;
   TH2F* h_2D0sumErrorBLS8;
   TH2F* h_2DsumErrorBLS8;
   TH1F* h_sumErrorBLS8;
   TH1F* h_sumErrorBperLS8;
   TH1F* h_sum0ErrorBperLS8;
   TH1F* h_averSIGNALoccupancy_HB;
   TH1F* h_averSIGNALoccupancy_HE;
   TH1F* h_averSIGNALoccupancy_HF;
   TH1F* h_averSIGNALoccupancy_HO;
   TH1F* h_averSIGNALsumamplitude_HB;
   TH1F* h_averSIGNALsumamplitude_HE;
   TH1F* h_averSIGNALsumamplitude_HF;
   TH1F* h_averSIGNALsumamplitude_HO;
   TH1F* h_averNOSIGNALoccupancy_HB;
   TH1F* h_averNOSIGNALoccupancy_HE;
   TH1F* h_averNOSIGNALoccupancy_HF;
   TH1F* h_averNOSIGNALoccupancy_HO;
   TH1F* h_averNOSIGNALsumamplitude_HB;
   TH1F* h_averNOSIGNALsumamplitude_HE;
   TH1F* h_averNOSIGNALsumamplitude_HF;
   TH1F* h_averNOSIGNALsumamplitude_HO;
   TH1F* h_maxxSUMAmpl_HB;
   TH1F* h_maxxSUMAmpl_HE;
   TH1F* h_maxxSUMAmpl_HF;
   TH1F* h_maxxSUMAmpl_HO;
   TH1F* h_maxxOCCUP_HB;
   TH1F* h_maxxOCCUP_HE;
   TH1F* h_maxxOCCUP_HF;
   TH1F* h_maxxOCCUP_HO;
   TH1F* h_sumamplitudechannel_HB;
   TH1F* h_sumamplitudechannel_HE;
   TH1F* h_sumamplitudechannel_HF;
   TH1F* h_sumamplitudechannel_HO;
   TH1F* h_eventamplitude_HB;
   TH1F* h_eventamplitude_HE;
   TH1F* h_eventamplitude_HF;
   TH1F* h_eventamplitude_HO;
   TH1F* h_eventoccupancy_HB;
   TH1F* h_eventoccupancy_HE;
   TH1F* h_eventoccupancy_HF;
   TH1F* h_eventoccupancy_HO;
   TH2F* h_2DAtaildepth1_HB;
   TH2F* h_2D0Ataildepth1_HB;
   TH2F* h_2DAtaildepth2_HB;
   TH2F* h_2D0Ataildepth2_HB;
   TH2F* h_mapenophinorm_HE1;
   TH2F* h_mapenophinorm_HE2;
   TH2F* h_mapenophinorm_HE3;
   TH2F* h_mapenophinorm_HE4;
   TH2F* h_mapenophinorm_HE5;
   TH2F* h_mapenophinorm_HE6;
   TH2F* h_mapenophinorm_HE7;
   TH2F* h_mapenophinorm2_HE1;
   TH2F* h_mapenophinorm2_HE2;
   TH2F* h_mapenophinorm2_HE3;
   TH2F* h_mapenophinorm2_HE4;
   TH2F* h_mapenophinorm2_HE5;
   TH2F* h_mapenophinorm2_HE6;
   TH2F* h_mapenophinorm2_HE7;
   TH2F* h_maprphinorm_HE1;
   TH2F* h_maprphinorm_HE2;
   TH2F* h_maprphinorm_HE3;
   TH2F* h_maprphinorm_HE4;
   TH2F* h_maprphinorm_HE5;
   TH2F* h_maprphinorm_HE6;
   TH2F* h_maprphinorm_HE7;
   TH2F* h_maprphinorm2_HE1;
   TH2F* h_maprphinorm2_HE2;
   TH2F* h_maprphinorm2_HE3;
   TH2F* h_maprphinorm2_HE4;
   TH2F* h_maprphinorm2_HE5;
   TH2F* h_maprphinorm2_HE6;
   TH2F* h_maprphinorm2_HE7;
   TH2F* h_maprphinorm0_HE1;
   TH2F* h_maprphinorm0_HE2;
   TH2F* h_maprphinorm0_HE3;
   TH2F* h_maprphinorm0_HE4;
   TH2F* h_maprphinorm0_HE5;
   TH2F* h_maprphinorm0_HE6;
   TH2F* h_maprphinorm0_HE7;
   // phy-symmetry, phi-symmetry:
   // Reco:
   TH1F* h_energyhitSignal_HB;
   TH1F* h_energyhitSignal_HE;
   TH1F* h_energyhitSignal_HF;
   TH1F* h_energyhitNoise_HB;
   TH1F* h_energyhitNoise_HE;
   TH1F* h_energyhitNoise_HF;
   //HB:
   TH2F* h_recSignalEnergy0_HB1;
   TH2F* h_recSignalEnergy1_HB1;
   TH2F* h_recSignalEnergy2_HB1;
   TH2F* h_recSignalEnergy0_HB2;
   TH2F* h_recSignalEnergy1_HB2;
   TH2F* h_recSignalEnergy2_HB2;
   TH2F* h_recSignalEnergy0_HB3;
   TH2F* h_recSignalEnergy1_HB3;
   TH2F* h_recSignalEnergy2_HB3;
   TH2F* h_recSignalEnergy0_HB4;
   TH2F* h_recSignalEnergy1_HB4;
   TH2F* h_recSignalEnergy2_HB4;
   TH2F* h_recNoiseEnergy0_HB1;
   TH2F* h_recNoiseEnergy1_HB1;
   TH2F* h_recNoiseEnergy2_HB1;
   TH2F* h_recNoiseEnergy0_HB2;
   TH2F* h_recNoiseEnergy1_HB2;
   TH2F* h_recNoiseEnergy2_HB2;
   TH2F* h_recNoiseEnergy0_HB3;
   TH2F* h_recNoiseEnergy1_HB3;
   TH2F* h_recNoiseEnergy2_HB3;
   TH2F* h_recNoiseEnergy0_HB4;
   TH2F* h_recNoiseEnergy1_HB4;
   TH2F* h_recNoiseEnergy2_HB4;
   //HE:
   TH2F* h_recSignalEnergy0_HE1;
   TH2F* h_recSignalEnergy1_HE1;
   TH2F* h_recSignalEnergy2_HE1;
   TH2F* h_recSignalEnergy0_HE2;
   TH2F* h_recSignalEnergy1_HE2;
   TH2F* h_recSignalEnergy2_HE2;
   TH2F* h_recSignalEnergy0_HE3;
   TH2F* h_recSignalEnergy1_HE3;
   TH2F* h_recSignalEnergy2_HE3;
   TH2F* h_recSignalEnergy0_HE4;
   TH2F* h_recSignalEnergy1_HE4;
   TH2F* h_recSignalEnergy2_HE4;
   TH2F* h_recSignalEnergy0_HE5;
   TH2F* h_recSignalEnergy1_HE5;
   TH2F* h_recSignalEnergy2_HE5;
   TH2F* h_recSignalEnergy0_HE6;
   TH2F* h_recSignalEnergy1_HE6;
   TH2F* h_recSignalEnergy2_HE6;
   TH2F* h_recSignalEnergy0_HE7;
   TH2F* h_recSignalEnergy1_HE7;
   TH2F* h_recSignalEnergy2_HE7;
   TH2F* h_recNoiseEnergy0_HE1;
   TH2F* h_recNoiseEnergy1_HE1;
   TH2F* h_recNoiseEnergy2_HE1;
   TH2F* h_recNoiseEnergy0_HE2;
   TH2F* h_recNoiseEnergy1_HE2;
   TH2F* h_recNoiseEnergy2_HE2;
   TH2F* h_recNoiseEnergy0_HE3;
   TH2F* h_recNoiseEnergy1_HE3;
   TH2F* h_recNoiseEnergy2_HE3;
   TH2F* h_recNoiseEnergy0_HE4;
   TH2F* h_recNoiseEnergy1_HE4;
   TH2F* h_recNoiseEnergy2_HE4;
   TH2F* h_recNoiseEnergy0_HE5;
   TH2F* h_recNoiseEnergy1_HE5;
   TH2F* h_recNoiseEnergy2_HE5;
   TH2F* h_recNoiseEnergy0_HE6;
   TH2F* h_recNoiseEnergy1_HE6;
   TH2F* h_recNoiseEnergy2_HE6;
   TH2F* h_recNoiseEnergy0_HE7;
   TH2F* h_recNoiseEnergy1_HE7;
   TH2F* h_recNoiseEnergy2_HE7;
   //HF:
   TH2F* h_recSignalEnergy0_HF1;
   TH2F* h_recSignalEnergy1_HF1;
   TH2F* h_recSignalEnergy2_HF1;
   TH2F* h_recSignalEnergy0_HF2;
   TH2F* h_recSignalEnergy1_HF2;
   TH2F* h_recSignalEnergy2_HF2;
   TH2F* h_recSignalEnergy0_HF3;
   TH2F* h_recSignalEnergy1_HF3;
   TH2F* h_recSignalEnergy2_HF3;
   TH2F* h_recSignalEnergy0_HF4;
   TH2F* h_recSignalEnergy1_HF4;
   TH2F* h_recSignalEnergy2_HF4;

   TH2F* h_recNoiseEnergy0_HF1;
   TH2F* h_recNoiseEnergy1_HF1;
   TH2F* h_recNoiseEnergy2_HF1;
   TH2F* h_recNoiseEnergy0_HF2;
   TH2F* h_recNoiseEnergy1_HF2;
   TH2F* h_recNoiseEnergy2_HF2;
   TH2F* h_recNoiseEnergy0_HF3;
   TH2F* h_recNoiseEnergy1_HF3;
   TH2F* h_recNoiseEnergy2_HF3;
   TH2F* h_recNoiseEnergy0_HF4;
   TH2F* h_recNoiseEnergy1_HF4;
   TH2F* h_recNoiseEnergy2_HF4;

   TH2F* h_amplitudechannel0_HB1;
   TH2F* h_amplitudechannel1_HB1;
   TH2F* h_amplitudechannel2_HB1;
   TH2F* h_amplitudechannel0_HB2;
   TH2F* h_amplitudechannel1_HB2;
   TH2F* h_amplitudechannel2_HB2;
   TH2F* h_amplitudechannel0_HB3;
   TH2F* h_amplitudechannel1_HB3;
   TH2F* h_amplitudechannel2_HB3;
   TH2F* h_amplitudechannel0_HB4;
   TH2F* h_amplitudechannel1_HB4;
   TH2F* h_amplitudechannel2_HB4;
   TH2F* h_amplitudechannel0_HE1;
   TH2F* h_amplitudechannel1_HE1;
   TH2F* h_amplitudechannel2_HE1;
   TH2F* h_amplitudechannel0_HE2;
   TH2F* h_amplitudechannel1_HE2;
   TH2F* h_amplitudechannel2_HE2;
   TH2F* h_amplitudechannel0_HE3;
   TH2F* h_amplitudechannel1_HE3;
   TH2F* h_amplitudechannel2_HE3;
   TH2F* h_amplitudechannel0_HE4;
   TH2F* h_amplitudechannel1_HE4;
   TH2F* h_amplitudechannel2_HE4;
   TH2F* h_amplitudechannel0_HE5;
   TH2F* h_amplitudechannel1_HE5;
   TH2F* h_amplitudechannel2_HE5;
   TH2F* h_amplitudechannel0_HE6;
   TH2F* h_amplitudechannel1_HE6;
   TH2F* h_amplitudechannel2_HE6;
   TH2F* h_amplitudechannel0_HE7;
   TH2F* h_amplitudechannel1_HE7;
   TH2F* h_amplitudechannel2_HE7;
   TH2F* h_amplitudechannel0_HF1;
   TH2F* h_amplitudechannel1_HF1;
   TH2F* h_amplitudechannel2_HF1;
   TH2F* h_amplitudechannel0_HF2;
   TH2F* h_amplitudechannel1_HF2;
   TH2F* h_amplitudechannel2_HF2;
   TH2F* h_amplitudechannel0_HF3;
   TH2F* h_amplitudechannel1_HF3;
   TH2F* h_amplitudechannel2_HF3;
   TH2F* h_amplitudechannel0_HF4;
   TH2F* h_amplitudechannel1_HF4;
   TH2F* h_amplitudechannel2_HF4;

   TH2F* h_mapDepth1RADDAM_HE;
   TH2F* h_mapDepth2RADDAM_HE;
   TH2F* h_mapDepth3RADDAM_HE;
   TH1F* h_sigLayer1RADDAM_HE;
   TH1F* h_sigLayer2RADDAM_HE;
   TH1F* h_sigLayer1RADDAM0_HE;
   TH1F* h_sigLayer2RADDAM0_HE;
   TH1F* h_mapDepth3RADDAM16_HE;
   TH2F* h_mapDepth1RADDAM0_HE;
   TH2F* h_mapDepth2RADDAM0_HE;
   TH2F* h_mapDepth3RADDAM0_HE;
   TH1F* h_AamplitudewithPedSubtr_RADDAM_HE;
   TH1F* h_AamplitudewithPedSubtr_RADDAM_HEzoom0;
   TH1F* h_AamplitudewithPedSubtr_RADDAM_HEzoom1;
   TH1F* h_A_Depth1RADDAM_HE;
   TH1F* h_A_Depth2RADDAM_HE;
   TH1F* h_A_Depth3RADDAM_HE;
   TH1F* h_sumphiEta16Depth3RADDAM_HED2;
   TH1F* h_Eta16Depth3RADDAM_HED2;
   TH1F* h_NphiForEta16Depth3RADDAM_HED2;
   TH1F* h_sumphiEta16Depth3RADDAM_HED2P;
   TH1F* h_Eta16Depth3RADDAM_HED2P;
   TH1F* h_NphiForEta16Depth3RADDAM_HED2P;
   TH1F* h_sumphiEta16Depth3RADDAM_HED2ALL;
   TH1F* h_Eta16Depth3RADDAM_HED2ALL;
   TH1F* h_NphiForEta16Depth3RADDAM_HED2ALL;
   TH1F* h_sigLayer1RADDAM5_HE;
   TH1F* h_sigLayer2RADDAM5_HE;
   TH1F* h_sigLayer1RADDAM6_HE;
   TH1F* h_sigLayer2RADDAM6_HE;
   TH1F* h_sigLayer1RADDAM5_HED2;
   TH1F* h_sigLayer1RADDAM6_HED2;
   TH1F* h_sigLayer2RADDAM5_HED2;
   TH1F* h_sigLayer2RADDAM6_HED2;
   TH2F* h2_TSnVsAyear2023_HB;
   TH2F* h2_TSnVsAyear2023_HE;
   TH2F* h2_TSnVsAyear2023_HF;
   TH2F* h2_TSnVsAyear2023_HO;
   TH1F* h1_TSnVsAyear2023_HB;
   TH1F* h1_TSnVsAyear2023_HE;
   TH1F* h1_TSnVsAyear2023_HF;
   TH1F* h1_TSnVsAyear2023_HO;
   TH1F* h1_TSnVsAyear20230_HB;
   TH1F* h1_TSnVsAyear20230_HE;
   TH1F* h1_TSnVsAyear20230_HF;
   TH1F* h1_TSnVsAyear20230_HO;

   int calibcapiderror[ndepth][neta][nphi];
   float calibt[ndepth][neta][nphi];
   double caliba[ndepth][neta][nphi];
   double calibw[ndepth][neta][nphi];
   double calib0[ndepth][neta][nphi];
   double signal[ndepth][neta][nphi];
   double calib3[ndepth][neta][nphi];
   double signal3[ndepth][neta][nphi];
   double calib2[ndepth][neta][nphi];
   int badchannels[nsub][ndepth][neta][nphi];
   double sumEstimator0[nsub][ndepth][neta][nphi];
   double sumEstimator1[nsub][ndepth][neta][nphi];
   double sumEstimator2[nsub][ndepth][neta][nphi];
   double sumEstimator3[nsub][ndepth][neta][nphi];
   double sumEstimator4[nsub][ndepth][neta][nphi];
   double sumEstimator5[nsub][ndepth][neta][nphi];
   double sumEstimator6[nsub][ndepth][neta][nphi];
   double sum0Estimator[nsub][ndepth][neta][nphi];

   // phi-symmetry monitoring for calibration group:
   double amplitudechannel0[nsub][ndepth][neta][nphi];
   double amplitudechannel[nsub][ndepth][neta][nphi];
   double amplitudechannel2[nsub][ndepth][neta][nphi];
   double tocamplchannel[nsub][ndepth][neta][nphi];
   double maprphinorm[nsub][ndepth][neta][nphi];

   double recNoiseEnergy0[nsub][ndepth][neta][nphi];
   double recNoiseEnergy1[nsub][ndepth][neta][nphi];
   double recNoiseEnergy2[nsub][ndepth][neta][nphi];

   double recSignalEnergy0[nsub][ndepth][neta][nphi];
   double recSignalEnergy1[nsub][ndepth][neta][nphi];
   double recSignalEnergy2[nsub][ndepth][neta][nphi];

   float TS_data[100];
   float TS_cal[100];
   double mapRADDAM_HE[ndepth][neta][nphi];
   int mapRADDAM0_HE[ndepth][neta][nphi];
   double mapRADDAM_HED2[ndepth][neta];
   int mapRADDAM_HED20[ndepth][neta];
   float binanpfit = anpfit / npfit;
   long int gsmdepth1sipm[npfit][neta][nphi][ndepth];
   long int Nevent;
   int Run;
   int run0;
   int runcounter;
   int eventcounter;
   long int orbitNum;
   int bcn;
   int lumi;
   int ls0;
   int lscounter;
   int lscounterM1;
   int lscounter10;
   int nevcounter;
   int lscounterrun;
   int lscounterrun10;
   int nevcounter0;
   int nevcounter00;
   double averSIGNALoccupancy_HB;
   double averSIGNALoccupancy_HE;
   double averSIGNALoccupancy_HF;
   double averSIGNALoccupancy_HO;
   double averSIGNALsumamplitude_HB;
   double averSIGNALsumamplitude_HE;
   double averSIGNALsumamplitude_HF;
   double averSIGNALsumamplitude_HO;
   double averNOSIGNALoccupancy_HB;
   double averNOSIGNALoccupancy_HE;
   double averNOSIGNALoccupancy_HF;
   double averNOSIGNALoccupancy_HO;
   double averNOSIGNALsumamplitude_HB;
   double averNOSIGNALsumamplitude_HE;
   double averNOSIGNALsumamplitude_HF;
   double averNOSIGNALsumamplitude_HO;
   double maxxSUM1;
   double maxxSUM2;
   double maxxSUM3;
   double maxxSUM4;
   double maxxOCCUP1;
   double maxxOCCUP2;
   double maxxOCCUP3;
   double maxxOCCUP4;
   TTree* myTree;
   TFile* hOutputFile;
   std::ofstream MAPfile;
   // Get RBX number from 1-35 for Calibration box
   int getRBX(int& i, int& j, int& k);
   void fillDigiErrors(HBHEDigiCollection::const_iterator& digiItr);
   void fillDigiErrorsHF(HFDigiCollection::const_iterator& digiItr);
   void fillDigiErrorsHO(HODigiCollection::const_iterator& digiItr);
   // upgrade:
   void fillDigiErrorsHFQIE10(QIE10DataFrame qie10df);
   void fillDigiErrorsQIE11(QIE11DataFrame qie11df);
   void fillDigiAmplitude(HBHEDigiCollection::const_iterator& digiItr);
   void fillDigiAmplitudeHF(HFDigiCollection::const_iterator& digiItr);
   void fillDigiAmplitudeHO(HODigiCollection::const_iterator& digiItr);
   // upgrade:
   void fillDigiAmplitudeHFQIE10(QIE10DataFrame qie10df);
   void fillDigiAmplitudeQIE11(QIE11DataFrame qie11df);
   int local_event;
   int eta, phi, depth, nTS, cap_num;
   int numOfTS;
   int numOfLaserEv;
   int testmetka;
   float alsmin;
   float blsmax;
   int nlsminmax;
 };

 //
 //
 void CMTRawAnalyzer::endJob() {
   if (verbosity > 0)
     std::cout << "==============    endJob  ===================================" << std::endl;

   std::cout << " --------------------------------------- " << std::endl;
   std::cout << " for Run = " << run0 << " with runcounter = " << runcounter << " #ev = " << eventcounter << std::endl;
   std::cout << " #LS =  " << lscounterrun << " #LS10 =  " << lscounterrun10 << " Last LS =  " << ls0 << std::endl;
   std::cout << " --------------------------------------------- " << std::endl;
   h_nls_per_run->Fill(float(lscounterrun));
   h_nls_per_run10->Fill(float(lscounterrun10));

   std::cout << "===== full number of events =  " << nevent << std::endl;
   std::cout << "===== possible max number of events in ntuple(each 50th recorded) =  " << nevent50 << std::endl;
   std::cout << "===== but limited by maxNeventsInNtuple  =  " << maxNeventsInNtuple_ << std::endl;
   std::cout << "===== full number of events*HBHEdigis and qie11 =  " << nnnnnnhbhe << "   and  " << nnnnnnhbheqie11
             << std::endl;
   std::cout << "===== full number of events*HBHEdigis =  " << nnnnnn << std::endl;
   std::cout << "===== full number of events*HFdigis and qie10 =  " << counterhf << "   and  " << counterhfqie10
             << std::endl;
   std::cout << "===== full number of events*HOdigis =  " << counterho << std::endl;

   std::cout << "===== Start writing user histograms =====" << std::endl;
 }
 //

 //
 //
 CMTRawAnalyzer::CMTRawAnalyzer(const edm::ParameterSet& iConfig)
     : tokDB_(esConsumes<HcalDbService, HcalDbRecord>()), tokTopo_(esConsumes<HcalTopology, HcalRecNumberingRecord>()) {
   usesResource(TFileService::kSharedResource);
   verbosity = iConfig.getUntrackedParameter<int>("Verbosity");
   MAPcreation = iConfig.getUntrackedParameter<int>("MapCreation");
   recordNtuples_ = iConfig.getUntrackedParameter<bool>("recordNtuples");
   maxNeventsInNtuple_ = iConfig.getParameter<int>("maxNeventsInNtuple");
   tok_calib_ = consumes<HcalCalibDigiCollection>(iConfig.getParameter<edm::InputTag>("hcalCalibDigiCollectionTag"));  //
   tok_hbhe_ = consumes<HBHEDigiCollection>(iConfig.getParameter<edm::InputTag>("hbheDigiCollectionTag"));
   tok_ho_ = consumes<HODigiCollection>(iConfig.getParameter<edm::InputTag>("hoDigiCollectionTag"));
   tok_hf_ = consumes<HFDigiCollection>(iConfig.getParameter<edm::InputTag>("hfDigiCollectionTag"));  //
   tok_qie11_ = consumes<QIE11DigiCollection>(iConfig.getParameter<edm::InputTag>("hbheQIE11DigiCollectionTag"));
   tok_qie10_ = consumes<QIE10DigiCollection>(iConfig.getParameter<edm::InputTag>("hbheQIE10DigiCollectionTag"));
   // phi-symmetry monitoring for calibration group:
   tok_hbheSignal_ = consumes<HBHERecHitCollection>(iConfig.getParameter<edm::InputTag>("hbheInputSignalTag"));
   tok_hbheNoise_ = consumes<HBHERecHitCollection>(iConfig.getParameter<edm::InputTag>("hbheInputNoiseTag"));
   tok_hfSignal_ = consumes<HFRecHitCollection>(iConfig.getParameter<edm::InputTag>("hfInputSignalTag"));
   tok_hfNoise_ = consumes<HFRecHitCollection>(iConfig.getParameter<edm::InputTag>("hfInputNoiseTag"));
   recordHistoes_ = iConfig.getUntrackedParameter<bool>("recordHistoes");
   studyRunDependenceHist_ = iConfig.getUntrackedParameter<bool>("studyRunDependenceHist");
   studyCapIDErrorsHist_ = iConfig.getUntrackedParameter<bool>("studyCapIDErrorsHist");
   studyRMSshapeHist_ = iConfig.getUntrackedParameter<bool>("studyRMSshapeHist");
   studyRatioShapeHist_ = iConfig.getUntrackedParameter<bool>("studyRatioShapeHist");
   studyTSmaxShapeHist_ = iConfig.getUntrackedParameter<bool>("studyTSmaxShapeHist");
   studyTSmeanShapeHist_ = iConfig.getUntrackedParameter<bool>("studyTSmeanShapeHist");
   studyDiffAmplHist_ = iConfig.getUntrackedParameter<bool>("studyDiffAmplHist");
   studyCalibCellsHist_ = iConfig.getUntrackedParameter<bool>("studyCalibCellsHist");
   studyADCAmplHist_ = iConfig.getUntrackedParameter<bool>("studyADCAmplHist");
   studyPedestalsHist_ = iConfig.getUntrackedParameter<bool>("studyPedestalsHist");
   studyPedestalCorrelations_ = iConfig.getUntrackedParameter<bool>("studyPedestalCorrelations");
   useADCmassive_ = iConfig.getUntrackedParameter<bool>("useADCmassive");
   useADCfC_ = iConfig.getUntrackedParameter<bool>("useADCfC");
   useADCcounts_ = iConfig.getUntrackedParameter<bool>("useADCcounts");
   usePedestalSubtraction_ = iConfig.getUntrackedParameter<bool>("usePedestalSubtraction");
   usecontinuousnumbering_ = iConfig.getUntrackedParameter<bool>("usecontinuousnumbering");
   flagLaserRaddam_ = iConfig.getParameter<int>("flagLaserRaddam");
   flagToUseDigiCollectionsORNot_ = iConfig.getParameter<int>("flagToUseDigiCollectionsORNot");
   flagIterativeMethodCalibrationGroupDigi_ = iConfig.getParameter<int>("flagIterativeMethodCalibrationGroupDigi");
   flagIterativeMethodCalibrationGroupReco_ = iConfig.getParameter<int>("flagIterativeMethodCalibrationGroupReco");
   flagfitshunt1pedorledlowintensity_ = iConfig.getParameter<int>("flagfitshunt1pedorledlowintensity");
   flagabortgaprejected_ = iConfig.getParameter<int>("flagabortgaprejected");
   bcnrejectedlow_ = iConfig.getParameter<int>("bcnrejectedlow");
   bcnrejectedhigh_ = iConfig.getParameter<int>("bcnrejectedhigh");
   ratioHBMin_ = iConfig.getParameter<double>("ratioHBMin");
   ratioHBMax_ = iConfig.getParameter<double>("ratioHBMax");
   ratioHEMin_ = iConfig.getParameter<double>("ratioHEMin");
   ratioHEMax_ = iConfig.getParameter<double>("ratioHEMax");
   ratioHFMin_ = iConfig.getParameter<double>("ratioHFMin");
   ratioHFMax_ = iConfig.getParameter<double>("ratioHFMax");
   ratioHOMin_ = iConfig.getParameter<double>("ratioHOMin");
   ratioHOMax_ = iConfig.getParameter<double>("ratioHOMax");
   flagtodefinebadchannel_ = iConfig.getParameter<int>("flagtodefinebadchannel");
   howmanybinsonplots_ = iConfig.getParameter<int>("howmanybinsonplots");
   splashesUpperLimit_ = iConfig.getParameter<int>("splashesUpperLimit");
   flagtoaskrunsorls_ = iConfig.getParameter<int>("flagtoaskrunsorls");
   flagestimatornormalization_ = iConfig.getParameter<int>("flagestimatornormalization");
   flagcpuoptimization_ = iConfig.getParameter<int>("flagcpuoptimization");
   flagupgradeqie1011_ = iConfig.getParameter<int>("flagupgradeqie1011");
   flagsipmcorrection_ = iConfig.getParameter<int>("flagsipmcorrection");
   flaguseshunt_ = iConfig.getParameter<int>("flaguseshunt");
   lsdep_cut1_peak_HBdepth1_ = iConfig.getParameter<int>("lsdep_cut1_peak_HBdepth1");
   lsdep_cut1_peak_HBdepth2_ = iConfig.getParameter<int>("lsdep_cut1_peak_HBdepth2");
   lsdep_cut1_peak_HEdepth1_ = iConfig.getParameter<int>("lsdep_cut1_peak_HEdepth1");
   lsdep_cut1_peak_HEdepth2_ = iConfig.getParameter<int>("lsdep_cut1_peak_HEdepth2");
   lsdep_cut1_peak_HEdepth3_ = iConfig.getParameter<int>("lsdep_cut1_peak_HEdepth3");
   lsdep_cut1_peak_HFdepth1_ = iConfig.getParameter<int>("lsdep_cut1_peak_HFdepth1");
   lsdep_cut1_peak_HFdepth2_ = iConfig.getParameter<int>("lsdep_cut1_peak_HFdepth2");
   lsdep_cut1_peak_HOdepth4_ = iConfig.getParameter<int>("lsdep_cut1_peak_HOdepth4");
   lsdep_cut3_max_HBdepth1_ = iConfig.getParameter<int>("lsdep_cut3_max_HBdepth1");
   lsdep_cut3_max_HBdepth2_ = iConfig.getParameter<int>("lsdep_cut3_max_HBdepth2");
   lsdep_cut3_max_HEdepth1_ = iConfig.getParameter<int>("lsdep_cut3_max_HEdepth1");
   lsdep_cut3_max_HEdepth2_ = iConfig.getParameter<int>("lsdep_cut3_max_HEdepth2");
   lsdep_cut3_max_HEdepth3_ = iConfig.getParameter<int>("lsdep_cut3_max_HEdepth3");
   lsdep_cut3_max_HFdepth1_ = iConfig.getParameter<int>("lsdep_cut3_max_HFdepth1");
   lsdep_cut3_max_HFdepth2_ = iConfig.getParameter<int>("lsdep_cut3_max_HFdepth2");
   lsdep_cut3_max_HOdepth4_ = iConfig.getParameter<int>("lsdep_cut3_max_HOdepth4");
   lsdep_estimator1_HBdepth1_ = iConfig.getParameter<double>("lsdep_estimator1_HBdepth1");
   lsdep_estimator1_HBdepth2_ = iConfig.getParameter<double>("lsdep_estimator1_HBdepth2");
   lsdep_estimator1_HEdepth1_ = iConfig.getParameter<double>("lsdep_estimator1_HEdepth1");
   lsdep_estimator1_HEdepth2_ = iConfig.getParameter<double>("lsdep_estimator1_HEdepth2");
   lsdep_estimator1_HEdepth3_ = iConfig.getParameter<double>("lsdep_estimator1_HEdepth3");
   lsdep_estimator1_HFdepth1_ = iConfig.getParameter<double>("lsdep_estimator1_HFdepth1");
   lsdep_estimator1_HFdepth2_ = iConfig.getParameter<double>("lsdep_estimator1_HFdepth2");
   lsdep_estimator1_HOdepth4_ = iConfig.getParameter<double>("lsdep_estimator1_HOdepth4");
   lsdep_estimator1_HEdepth4_ = iConfig.getParameter<double>("lsdep_estimator1_HEdepth4");
   lsdep_estimator1_HEdepth5_ = iConfig.getParameter<double>("lsdep_estimator1_HEdepth5");
   lsdep_estimator1_HEdepth6_ = iConfig.getParameter<double>("lsdep_estimator1_HEdepth6");
   lsdep_estimator1_HEdepth7_ = iConfig.getParameter<double>("lsdep_estimator1_HEdepth7");
   lsdep_estimator1_HFdepth3_ = iConfig.getParameter<double>("lsdep_estimator1_HFdepth3");
   lsdep_estimator1_HFdepth4_ = iConfig.getParameter<double>("lsdep_estimator1_HFdepth4");
   lsdep_estimator1_HBdepth3_ = iConfig.getParameter<double>("lsdep_estimator1_HBdepth3");
   lsdep_estimator1_HBdepth4_ = iConfig.getParameter<double>("lsdep_estimator1_HBdepth4");
   lsdep_estimator2_HBdepth1_ = iConfig.getParameter<double>("lsdep_estimator2_HBdepth1");
   lsdep_estimator2_HBdepth2_ = iConfig.getParameter<double>("lsdep_estimator2_HBdepth2");
   lsdep_estimator2_HEdepth1_ = iConfig.getParameter<double>("lsdep_estimator2_HEdepth1");
   lsdep_estimator2_HEdepth2_ = iConfig.getParameter<double>("lsdep_estimator2_HEdepth2");
   lsdep_estimator2_HEdepth3_ = iConfig.getParameter<double>("lsdep_estimator2_HEdepth3");
   lsdep_estimator2_HFdepth1_ = iConfig.getParameter<double>("lsdep_estimator2_HFdepth1");
   lsdep_estimator2_HFdepth2_ = iConfig.getParameter<double>("lsdep_estimator2_HFdepth2");
   lsdep_estimator2_HOdepth4_ = iConfig.getParameter<double>("lsdep_estimator2_HOdepth4");
   lsdep_estimator3_HBdepth1_ = iConfig.getParameter<double>("lsdep_estimator3_HBdepth1");
   lsdep_estimator3_HBdepth2_ = iConfig.getParameter<double>("lsdep_estimator3_HBdepth2");
   lsdep_estimator3_HEdepth1_ = iConfig.getParameter<double>("lsdep_estimator3_HEdepth1");
   lsdep_estimator3_HEdepth2_ = iConfig.getParameter<double>("lsdep_estimator3_HEdepth2");
   lsdep_estimator3_HEdepth3_ = iConfig.getParameter<double>("lsdep_estimator3_HEdepth3");
   lsdep_estimator3_HFdepth1_ = iConfig.getParameter<double>("lsdep_estimator3_HFdepth1");
   lsdep_estimator3_HFdepth2_ = iConfig.getParameter<double>("lsdep_estimator3_HFdepth2");
   lsdep_estimator3_HOdepth4_ = iConfig.getParameter<double>("lsdep_estimator3_HOdepth4");
   lsdep_estimator4_HBdepth1_ = iConfig.getParameter<double>("lsdep_estimator4_HBdepth1");
   lsdep_estimator4_HBdepth2_ = iConfig.getParameter<double>("lsdep_estimator4_HBdepth2");
   lsdep_estimator4_HEdepth1_ = iConfig.getParameter<double>("lsdep_estimator4_HEdepth1");
   lsdep_estimator4_HEdepth2_ = iConfig.getParameter<double>("lsdep_estimator4_HEdepth2");
   lsdep_estimator4_HEdepth3_ = iConfig.getParameter<double>("lsdep_estimator4_HEdepth3");
   lsdep_estimator4_HFdepth1_ = iConfig.getParameter<double>("lsdep_estimator4_HFdepth1");
   lsdep_estimator4_HFdepth2_ = iConfig.getParameter<double>("lsdep_estimator4_HFdepth2");
   lsdep_estimator4_HOdepth4_ = iConfig.getParameter<double>("lsdep_estimator4_HOdepth4");
   lsdep_estimator5_HBdepth1_ = iConfig.getParameter<double>("lsdep_estimator5_HBdepth1");
   lsdep_estimator5_HBdepth2_ = iConfig.getParameter<double>("lsdep_estimator5_HBdepth2");
   lsdep_estimator5_HEdepth1_ = iConfig.getParameter<double>("lsdep_estimator5_HEdepth1");
   lsdep_estimator5_HEdepth2_ = iConfig.getParameter<double>("lsdep_estimator5_HEdepth2");
   lsdep_estimator5_HEdepth3_ = iConfig.getParameter<double>("lsdep_estimator5_HEdepth3");
   lsdep_estimator5_HFdepth1_ = iConfig.getParameter<double>("lsdep_estimator5_HFdepth1");
   lsdep_estimator5_HFdepth2_ = iConfig.getParameter<double>("lsdep_estimator5_HFdepth2");
   lsdep_estimator5_HOdepth4_ = iConfig.getParameter<double>("lsdep_estimator5_HOdepth4");
   forallestimators_amplitude_bigger_ = iConfig.getParameter<double>("forallestimators_amplitude_bigger");
   rmsHBMin_ = iConfig.getParameter<double>("rmsHBMin");
   rmsHBMax_ = iConfig.getParameter<double>("rmsHBMax");
   rmsHEMin_ = iConfig.getParameter<double>("rmsHEMin");
   rmsHEMax_ = iConfig.getParameter<double>("rmsHEMax");
   rmsHFMin_ = iConfig.getParameter<double>("rmsHFMin");
   rmsHFMax_ = iConfig.getParameter<double>("rmsHFMax");
   rmsHOMin_ = iConfig.getParameter<double>("rmsHOMin");
   rmsHOMax_ = iConfig.getParameter<double>("rmsHOMax");
   ADCAmplHBMin_ = iConfig.getParameter<double>("ADCAmplHBMin");
   ADCAmplHEMin_ = iConfig.getParameter<double>("ADCAmplHEMin");
   ADCAmplHOMin_ = iConfig.getParameter<double>("ADCAmplHOMin");
   ADCAmplHFMin_ = iConfig.getParameter<double>("ADCAmplHFMin");
   ADCAmplHBMax_ = iConfig.getParameter<double>("ADCAmplHBMax");
   ADCAmplHEMax_ = iConfig.getParameter<double>("ADCAmplHEMax");
   ADCAmplHOMax_ = iConfig.getParameter<double>("ADCAmplHOMax");
   ADCAmplHFMax_ = iConfig.getParameter<double>("ADCAmplHFMax");
   pedestalwHBMax_ = iConfig.getParameter<double>("pedestalwHBMax");
   pedestalwHEMax_ = iConfig.getParameter<double>("pedestalwHEMax");
   pedestalwHFMax_ = iConfig.getParameter<double>("pedestalwHFMax");
   pedestalwHOMax_ = iConfig.getParameter<double>("pedestalwHOMax");
   pedestalHBMax_ = iConfig.getParameter<double>("pedestalHBMax");
   pedestalHEMax_ = iConfig.getParameter<double>("pedestalHEMax");
   pedestalHFMax_ = iConfig.getParameter<double>("pedestalHFMax");
   pedestalHOMax_ = iConfig.getParameter<double>("pedestalHOMax");
   calibrADCHBMin_ = iConfig.getParameter<double>("calibrADCHBMin");
   calibrADCHEMin_ = iConfig.getParameter<double>("calibrADCHEMin");
   calibrADCHOMin_ = iConfig.getParameter<double>("calibrADCHOMin");
   calibrADCHFMin_ = iConfig.getParameter<double>("calibrADCHFMin");
   calibrADCHBMax_ = iConfig.getParameter<double>("calibrADCHBMax");
   calibrADCHEMax_ = iConfig.getParameter<double>("calibrADCHEMax");
   calibrADCHOMax_ = iConfig.getParameter<double>("calibrADCHOMax");
   calibrADCHFMax_ = iConfig.getParameter<double>("calibrADCHFMax");
   calibrRatioHBMin_ = iConfig.getParameter<double>("calibrRatioHBMin");
   calibrRatioHEMin_ = iConfig.getParameter<double>("calibrRatioHEMin");
   calibrRatioHOMin_ = iConfig.getParameter<double>("calibrRatioHOMin");
   calibrRatioHFMin_ = iConfig.getParameter<double>("calibrRatioHFMin");
   calibrRatioHBMax_ = iConfig.getParameter<double>("calibrRatioHBMax");
   calibrRatioHEMax_ = iConfig.getParameter<double>("calibrRatioHEMax");
   calibrRatioHOMax_ = iConfig.getParameter<double>("calibrRatioHOMax");
   calibrRatioHFMax_ = iConfig.getParameter<double>("calibrRatioHFMax");
   calibrTSmaxHBMin_ = iConfig.getParameter<double>("calibrTSmaxHBMin");
   calibrTSmaxHEMin_ = iConfig.getParameter<double>("calibrTSmaxHEMin");
   calibrTSmaxHOMin_ = iConfig.getParameter<double>("calibrTSmaxHOMin");
   calibrTSmaxHFMin_ = iConfig.getParameter<double>("calibrTSmaxHFMin");
   calibrTSmaxHBMax_ = iConfig.getParameter<double>("calibrTSmaxHBMax");
   calibrTSmaxHEMax_ = iConfig.getParameter<double>("calibrTSmaxHEMax");
   calibrTSmaxHOMax_ = iConfig.getParameter<double>("calibrTSmaxHOMax");
   calibrTSmaxHFMax_ = iConfig.getParameter<double>("calibrTSmaxHFMax");
   calibrTSmeanHBMin_ = iConfig.getParameter<double>("calibrTSmeanHBMin");
   calibrTSmeanHEMin_ = iConfig.getParameter<double>("calibrTSmeanHEMin");
   calibrTSmeanHOMin_ = iConfig.getParameter<double>("calibrTSmeanHOMin");
   calibrTSmeanHFMin_ = iConfig.getParameter<double>("calibrTSmeanHFMin");
   calibrTSmeanHBMax_ = iConfig.getParameter<double>("calibrTSmeanHBMax");
   calibrTSmeanHEMax_ = iConfig.getParameter<double>("calibrTSmeanHEMax");
   calibrTSmeanHOMax_ = iConfig.getParameter<double>("calibrTSmeanHOMax");
   calibrTSmeanHFMax_ = iConfig.getParameter<double>("calibrTSmeanHFMax");
   calibrWidthHBMin_ = iConfig.getParameter<double>("calibrWidthHBMin");
   calibrWidthHEMin_ = iConfig.getParameter<double>("calibrWidthHEMin");
   calibrWidthHOMin_ = iConfig.getParameter<double>("calibrWidthHOMin");
   calibrWidthHFMin_ = iConfig.getParameter<double>("calibrWidthHFMin");
   calibrWidthHBMax_ = iConfig.getParameter<double>("calibrWidthHBMax");
   calibrWidthHEMax_ = iConfig.getParameter<double>("calibrWidthHEMax");
   calibrWidthHOMax_ = iConfig.getParameter<double>("calibrWidthHOMax");
   calibrWidthHFMax_ = iConfig.getParameter<double>("calibrWidthHFMax");
   TSpeakHBMin_ = iConfig.getParameter<double>("TSpeakHBMin");
   TSpeakHBMax_ = iConfig.getParameter<double>("TSpeakHBMax");
   TSpeakHEMin_ = iConfig.getParameter<double>("TSpeakHEMin");
   TSpeakHEMax_ = iConfig.getParameter<double>("TSpeakHEMax");
   TSpeakHFMin_ = iConfig.getParameter<double>("TSpeakHFMin");
   TSpeakHFMax_ = iConfig.getParameter<double>("TSpeakHFMax");
   TSpeakHOMin_ = iConfig.getParameter<double>("TSpeakHOMin");
   TSpeakHOMax_ = iConfig.getParameter<double>("TSpeakHOMax");
   TSmeanHBMin_ = iConfig.getParameter<double>("TSmeanHBMin");
   TSmeanHBMax_ = iConfig.getParameter<double>("TSmeanHBMax");
   TSmeanHEMin_ = iConfig.getParameter<double>("TSmeanHEMin");
   TSmeanHEMax_ = iConfig.getParameter<double>("TSmeanHEMax");
   TSmeanHFMin_ = iConfig.getParameter<double>("TSmeanHFMin");
   TSmeanHFMax_ = iConfig.getParameter<double>("TSmeanHFMax");
   TSmeanHOMin_ = iConfig.getParameter<double>("TSmeanHOMin");
   TSmeanHOMax_ = iConfig.getParameter<double>("TSmeanHOMax");
   lsmin_ = iConfig.getParameter<int>("lsmin");
   lsmax_ = iConfig.getParameter<int>("lsmax");
   alsmin = lsmin_;
   blsmax = lsmax_;
   nlsminmax = lsmax_ - lsmin_ + 1;
   numOfLaserEv = 0;
   local_event = 0;
   numOfTS = 10;
   run0 = -1;
   runcounter = 0;
   eventcounter = 0;
   lumi = 0;
   ls0 = -1;
   lscounter = 0;
   lscounterM1 = 0;
   lscounter10 = 0;
   nevcounter = 0;
   lscounterrun = 0;
   lscounterrun10 = 0;
   nevcounter0 = 0;
   nevcounter00 = 0;
   for (int k0 = 0; k0 < nsub; k0++) {
     for (int k1 = 0; k1 < ndepth; k1++) {
       for (int k2 = 0; k2 < neta; k2++) {
         if (k0 == 1) {
           mapRADDAM_HED2[k1][k2] = 0.;
           mapRADDAM_HED20[k1][k2] = 0.;
         }
         for (int k3 = 0; k3 < nphi; k3++) {
           sumEstimator0[k0][k1][k2][k3] = 0.;
           sumEstimator1[k0][k1][k2][k3] = 0.;
           sumEstimator2[k0][k1][k2][k3] = 0.;
           sumEstimator3[k0][k1][k2][k3] = 0.;
           sumEstimator4[k0][k1][k2][k3] = 0.;
           sumEstimator5[k0][k1][k2][k3] = 0.;
           sumEstimator6[k0][k1][k2][k3] = 0.;
           sum0Estimator[k0][k1][k2][k3] = 0.;
           if (k0 == 1) {
             mapRADDAM_HE[k1][k2][k3] = 0.;
             mapRADDAM0_HE[k1][k2][k3] = 0;
           }
         }
       }
     }
   }
   averSIGNALoccupancy_HB = 0.;
   averSIGNALoccupancy_HE = 0.;
   averSIGNALoccupancy_HF = 0.;
   averSIGNALoccupancy_HO = 0.;
   averSIGNALsumamplitude_HB = 0.;
   averSIGNALsumamplitude_HE = 0.;
   averSIGNALsumamplitude_HF = 0.;
   averSIGNALsumamplitude_HO = 0.;
   averNOSIGNALoccupancy_HB = 0.;
   averNOSIGNALoccupancy_HE = 0.;
   averNOSIGNALoccupancy_HF = 0.;
   averNOSIGNALoccupancy_HO = 0.;
   averNOSIGNALsumamplitude_HB = 0.;
   averNOSIGNALsumamplitude_HE = 0.;
   averNOSIGNALsumamplitude_HF = 0.;
   averNOSIGNALsumamplitude_HO = 0.;
   maxxSUM1 = 0.;
   maxxSUM2 = 0.;
   maxxSUM3 = 0.;
   maxxSUM4 = 0.;
   maxxOCCUP1 = 0.;
   maxxOCCUP2 = 0.;
   maxxOCCUP3 = 0.;
   maxxOCCUP4 = 0.;
   testmetka = 0;
 }
 CMTRawAnalyzer::~CMTRawAnalyzer() {}
 void CMTRawAnalyzer::analyze(const edm::Event& iEvent, const edm::EventSetup& iSetup) {
   conditions = &iSetup.getData(tokDB_);
   topo = &iSetup.getData(tokTopo_);
   if (MAPcreation > 0) {
     if (flagupgradeqie1011_ == 1)
       fillMAP();
     MAPcreation = 0;
   }
   nevent++;
   nevent50 = nevent / 50;
   Run = iEvent.id().run();
   Nevent = iEvent.id().event();     // event number = global_event
   lumi = iEvent.luminosityBlock();  // lumi section
   bcn = iEvent.bunchCrossing();
   orbitNum = iEvent.orbitNumber();
   int outabortgap = 1;
   if (bcn >= bcnrejectedlow_ && bcn <= bcnrejectedhigh_)
     outabortgap = 0;  //  if(bcn>=3446 && bcn<=3564)

   if ((flagabortgaprejected_ == 1 && outabortgap == 1) || (flagabortgaprejected_ == 0 && outabortgap == 0) ||
       flagabortgaprejected_ == 2) {
     if (run0 != Run) {
       ++runcounter;
       if (runcounter != 1) {
         nevcounter00 = eventcounter;
         std::cout << " --------------------------------------- " << std::endl;
         std::cout << " for Run = " << run0 << " with runcounter = " << runcounter - 1 << " #ev = " << eventcounter
                   << std::endl;
         std::cout << " #LS =  " << lscounterrun << " #LS10 =  " << lscounterrun10 << " Last LS =  " << ls0 << std::endl;
         std::cout << " --------------------------------------------- " << std::endl;
         h_nls_per_run->Fill(float(lscounterrun));
         h_nls_per_run10->Fill(float(lscounterrun10));
         lscounterrun = 0;
         lscounterrun10 = 0;
       }  // runcounter > 1
       std::cout << " ---------***********************------------- " << std::endl;
       std::cout << " New Run =  " << Run << " runcounter =  " << runcounter << std::endl;
       std::cout << " ------- " << std::endl;
       run0 = Run;
       eventcounter = 0;
       ls0 = -1;
     }  // new run
     else {
       nevcounter00 = 0;
     }  //else new run
     ++eventcounter;
     if (ls0 != lumi) {
       if (ls0 != -1) {
         h_nevents_per_eachLS->Fill(float(lscounter), float(nevcounter));  //
         nevcounter0 = nevcounter;
       }  // ls0>-1
       lscounter++;
       lscounterrun++;
       if (usecontinuousnumbering_) {
         lscounterM1 = lscounter - 1;
       } else {
         lscounterM1 = ls0;
       }
       if (ls0 != -1)
         h_nevents_per_eachRealLS->Fill(float(lscounterM1), float(nevcounter));  //
       h_lsnumber_per_eachLS->Fill(float(lscounter), float(lumi));
       if (nevcounter > 10.) {
         ++lscounter10;
         ++lscounterrun10;
       }
       h_nevents_per_LS->Fill(float(nevcounter));
       h_nevents_per_LSzoom->Fill(float(nevcounter));
       nevcounter = 0;
       ls0 = lumi;
     }  // new lumi
     else {
       nevcounter0 = 0;
     }              //else new lumi
     ++nevcounter;  // #ev in LS
     if (flagtoaskrunsorls_ == 0) {
       lscounterM1 = runcounter;
       nevcounter0 = nevcounter00;
     }
     if (nevcounter0 != 0 || nevcounter > 99999) {
       if (nevcounter > 99999)
         nevcounter0 = 1;
       unsigned long int pcountall1 = 0;
       unsigned long int pcountall3 = 0;
       unsigned long int pcountall6 = 0;
       unsigned long int pcountall8 = 0;
       int pcountmin1 = 0;
       int pcountmin3 = 0;
       int pcountmin6 = 0;
       int pcountmin8 = 0;
       unsigned long int mcountall1 = 0;
       unsigned long int mcountall3 = 0;
       unsigned long int mcountall6 = 0;
       unsigned long int mcountall8 = 0;
       int mcountmin1 = 0;
       int mcountmin3 = 0;
       int mcountmin6 = 0;
       int mcountmin8 = 0;
       int pnnmin1 = 999999999;
       int pnnmin3 = 999999999;
       int pnnmin6 = 999999999;
       int pnnmin8 = 999999999;
       int mnnbins1 = 0;
       int mnnbins3 = 0;
       int mnnbins6 = 0;
       int mnnbins8 = 0;
       int mnnmin1 = 999999999;
       int mnnmin3 = 999999999;
       int mnnmin6 = 999999999;
       int mnnmin8 = 999999999;
       for (int k0 = 0; k0 < nsub; k0++) {
         for (int k1 = 0; k1 < ndepth; k1++) {
           for (int k3 = 0; k3 < nphi; k3++) {
             for (int k2 = 0; k2 < neta; k2++) {
               int ieta = k2 - 41;
               // ------------------------------------------------------------sumEstimator0
               if (sumEstimator0[k0][k1][k2][k3] != 0.) {
                 // fill histoes:
                 double bbbc = 0.;
                 if (flagestimatornormalization_ == 0)
                   bbbc = sumEstimator0[k0][k1][k2][k3] / nevcounter0;
                 if (flagestimatornormalization_ == 1)
                   bbbc = sumEstimator0[k0][k1][k2][k3] / sum0Estimator[k0][k1][k2][k3];
                 double bbb1 = 1.;
                 if (flagestimatornormalization_ == 2) {
                   bbbc = sumEstimator0[k0][k1][k2][k3];
                   bbb1 = sum0Estimator[k0][k1][k2][k3];
                 }

                 // HB:
                 if (k0 == 0) {
                   // HBdepth1
                   if (k1 + 1 == 1) {
                     h_sumPedestalLS1->Fill(bbbc / bbb1);
                     h_2DsumPedestalLS1->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumPedestalLS1->Fill(double(ieta), double(k3), bbb1);
                     h_sumPedestalperLS1->Fill(float(lscounterM1), bbbc);
                     h_sum0PedestalperLS1->Fill(float(lscounterM1), bbb1);
                   }
                   if (k1 + 1 == 2) {
                     h_sumPedestalLS2->Fill(bbbc / bbb1);
                     h_2DsumPedestalLS2->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumPedestalLS2->Fill(double(ieta), double(k3), bbb1);
                     h_sumPedestalperLS2->Fill(float(lscounterM1), bbbc);
                     h_sum0PedestalperLS2->Fill(float(lscounterM1), bbb1);
                   }
                 }
                 // HE:
                 if (k0 == 1) {
                   // HEdepth1
                   if (k1 + 1 == 1) {
                     h_sumPedestalLS3->Fill(bbbc / bbb1);
                     h_2DsumPedestalLS3->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumPedestalLS3->Fill(double(ieta), double(k3), bbb1);
                     h_sumPedestalperLS3->Fill(float(lscounterM1), bbbc);
                     h_sum0PedestalperLS3->Fill(float(lscounterM1), bbb1);
                   }
                   if (k1 + 1 == 2) {
                     h_sumPedestalLS4->Fill(bbbc / bbb1);
                     h_2DsumPedestalLS4->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumPedestalLS4->Fill(double(ieta), double(k3), bbb1);
                     h_sumPedestalperLS4->Fill(float(lscounterM1), bbbc);
                     h_sum0PedestalperLS4->Fill(float(lscounterM1), bbb1);
                   }
                   if (k1 + 1 == 3) {
                     h_sumPedestalLS5->Fill(bbbc / bbb1);
                     h_2DsumPedestalLS5->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumPedestalLS5->Fill(double(ieta), double(k3), bbb1);
                     h_sumPedestalperLS5->Fill(float(lscounterM1), bbbc);
                     h_sum0PedestalperLS5->Fill(float(lscounterM1), bbb1);
                   }
                 }
                 // HF:
                 if (k0 == 3) {
                   // HFdepth1
                   if (k1 + 1 == 1) {
                     h_sumPedestalLS6->Fill(bbbc / bbb1);
                     h_2DsumPedestalLS6->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumPedestalLS6->Fill(double(ieta), double(k3), bbb1);
                     h_sumPedestalperLS6->Fill(float(lscounterM1), bbbc);
                     h_sum0PedestalperLS6->Fill(float(lscounterM1), bbb1);
                   }
                   if (k1 + 1 == 2) {
                     h_sumPedestalLS7->Fill(bbbc / bbb1);
                     h_2DsumPedestalLS7->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumPedestalLS7->Fill(double(ieta), double(k3), bbb1);
                     h_sumPedestalperLS7->Fill(float(lscounterM1), bbbc);
                     h_sum0PedestalperLS7->Fill(float(lscounterM1), bbb1);
                   }
                 }
                 // HO:
                 if (k0 == 2) {
                   // HOdepth4
                   if (k1 + 1 == 4) {
                     h_sumPedestalLS8->Fill(bbbc / bbb1);
                     h_2DsumPedestalLS8->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumPedestalLS8->Fill(double(ieta), double(k3), bbb1);
                     h_sumPedestalperLS8->Fill(float(lscounterM1), bbbc);
                     h_sum0PedestalperLS8->Fill(float(lscounterM1), bbb1);
                   }
                 }
               }  //if(sumEstimator0[k0][k1][k2][k3] != 0.

               // -------------------------------------------------------------------------------------   sumEstimator1
               if (sumEstimator1[k0][k1][k2][k3] != 0.) {
                 // fill histoes:
                 double bbbc = 0.;
                 if (flagestimatornormalization_ == 0)
                   bbbc = sumEstimator1[k0][k1][k2][k3] / nevcounter0;
                 if (flagestimatornormalization_ == 1)
                   bbbc = sumEstimator1[k0][k1][k2][k3] / sum0Estimator[k0][k1][k2][k3];
                 double bbb1 = 1.;
                 if (flagestimatornormalization_ == 2) {
                   bbbc = sumEstimator1[k0][k1][k2][k3];
                   bbb1 = sum0Estimator[k0][k1][k2][k3];
                 }
                 //flag for ask type of Normalization for CMT estimators:
                 //=0-normalizationOn#evOfLS;   =1-averagedMeanChannelVariable;   =2-averageVariable-normalizationOn#entriesInLS;
                 //flagestimatornormalization = cms.int32(2), !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
                 // zhokin 18.10.2018 STUDY:               CALL  HFF2 (ID,NID,X,Y,W)
                 if (lscounterM1 >= lsmin_ && lscounterM1 < lsmax_) {
                   //                                       INDEXIES:
                   int kkkk2 = (k2 - 1) / 4;
                   if (k2 == 0)
                     kkkk2 = 1.;
                   else
                     kkkk2 += 2;              //kkkk2= 1-22
                   int kkkk3 = (k3) / 4 + 1;  //kkkk3= 1-18
                   //                                       PACKING
                   //kkkk2= 1-22 ;kkkk3= 1-18
                   int ietaphi = 0;
                   ietaphi = ((kkkk2)-1) * znphi + (kkkk3);
                   //  Outout is       ietaphi = 1 - 396 ( # =396; in histo,booking is: 1 - 397 )

                   double bbb3 = 0.;
                   if (bbb1 != 0.)
                     bbb3 = bbbc / bbb1;
                   // very very wrong if below:
                   //        if(bbb3 != 0.) {

                   if (k0 == 0) {
                     h_2DsumADCAmplEtaPhiLs0->Fill(float(lscounterM1), float(ietaphi), bbbc);   //HB
                     h_2DsumADCAmplEtaPhiLs00->Fill(float(lscounterM1), float(ietaphi), bbb1);  //HB
                   }
                   if (k0 == 1) {
                     h_2DsumADCAmplEtaPhiLs1->Fill(float(lscounterM1), float(ietaphi), bbbc);   //HE
                     h_2DsumADCAmplEtaPhiLs10->Fill(float(lscounterM1), float(ietaphi), bbb1);  //HE
                   }
                   if (k0 == 2) {
                     h_2DsumADCAmplEtaPhiLs2->Fill(float(lscounterM1), float(ietaphi), bbbc);   //HO
                     h_2DsumADCAmplEtaPhiLs20->Fill(float(lscounterM1), float(ietaphi), bbb1);  //HO
                   }
                   if (k0 == 3) {
                     h_2DsumADCAmplEtaPhiLs3->Fill(float(lscounterM1), float(ietaphi), bbbc);   //HF
                     h_2DsumADCAmplEtaPhiLs30->Fill(float(lscounterM1), float(ietaphi), bbb1);  //HF
                   }

                   h_sumADCAmplEtaPhiLs->Fill(bbb3);
                   h_sumADCAmplEtaPhiLs_bbbc->Fill(bbbc);
                   h_sumADCAmplEtaPhiLs_bbb1->Fill(bbb1);
                   h_sumADCAmplEtaPhiLs_lscounterM1orbitNum->Fill(float(lscounterM1), float(orbitNum));
                   h_sumADCAmplEtaPhiLs_orbitNum->Fill(float(orbitNum), 1.);
                   h_sumADCAmplEtaPhiLs_lscounterM1->Fill(float(lscounterM1), 1.);
                   h_sumADCAmplEtaPhiLs_ietaphi->Fill(float(ietaphi));

                   //        }// bb3
                 }  // lscounterM1 >= lsmin_ && lscounterM1 < lsmax_

                 // HB:
                 if (k0 == 0) {
                   // HBdepth1
                   if (k1 + 1 == 1) {
                     h_sumADCAmplLS1copy1->Fill(bbbc / bbb1);
                     h_sumADCAmplLS1copy2->Fill(bbbc / bbb1);
                     h_sumADCAmplLS1copy3->Fill(bbbc / bbb1);
                     h_sumADCAmplLS1copy4->Fill(bbbc / bbb1);
                     h_sumADCAmplLS1copy5->Fill(bbbc / bbb1);
                     h_sumADCAmplLS1->Fill(bbbc / bbb1);
                     if (bbbc / bbb1 > lsdep_estimator1_HBdepth1_)
                       h_2DsumADCAmplLS1->Fill(double(ieta), double(k3), bbbc);
                     if (bbbc / bbb1 > 2. * lsdep_estimator1_HBdepth1_)
                       h_2DsumADCAmplLS1_LSselected->Fill(double(ieta), double(k3), bbbc);

                     h_2D0sumADCAmplLS1->Fill(double(ieta), double(k3), bbb1);

                     h_sumADCAmplperLS1->Fill(float(lscounterM1), bbbc);
                     if (bbbc / bbb1 > lsdep_estimator1_HBdepth1_)
                       h_sumCutADCAmplperLS1->Fill(float(lscounterM1), bbbc);
                     h_sum0ADCAmplperLS1->Fill(float(lscounterM1), bbb1);

                     if (ieta > 0) {
                       if (k3 < 36) {
                         h_sumADCAmplperLS1_P1->Fill(float(lscounterM1), bbbc);
                         h_sum0ADCAmplperLS1_P1->Fill(float(lscounterM1), bbb1);
                       } else {
                         h_sumADCAmplperLS1_P2->Fill(float(lscounterM1), bbbc);
                         h_sum0ADCAmplperLS1_P2->Fill(float(lscounterM1), bbb1);
                       }
                       if (bbbc / bbb1 > 25.) {
                         pcountall1 += bbb1;
                         pcountmin1 += bbb1;
                       }

                     } else {
                       if (k3 < 36) {
                         h_sumADCAmplperLS1_M1->Fill(float(lscounterM1), bbbc);
                         h_sum0ADCAmplperLS1_M1->Fill(float(lscounterM1), bbb1);
                       } else {
                         h_sumADCAmplperLS1_M2->Fill(float(lscounterM1), bbbc);
                         h_sum0ADCAmplperLS1_M2->Fill(float(lscounterM1), bbb1);
                       }
                       if (bbbc / bbb1 > 25.) {
                         mcountall1 += bbb1;
                         mcountmin1 += bbb1;
                       }
                     }
                   }
                   // HBdepth2
                   if (k1 + 1 == 2) {
                     h_sumADCAmplLS2->Fill(bbbc / bbb1);
                     if (bbbc / bbb1 > lsdep_estimator1_HBdepth2_)
                       h_2DsumADCAmplLS2->Fill(double(ieta), double(k3), bbbc);
                     if (bbbc / bbb1 > 2. * lsdep_estimator1_HBdepth2_)
                       h_2DsumADCAmplLS2_LSselected->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumADCAmplLS2->Fill(double(ieta), double(k3), bbb1);
                     h_sumADCAmplperLS2->Fill(float(lscounterM1), bbbc);
                     if (bbbc / bbb1 > lsdep_estimator1_HBdepth2_)
                       h_sumCutADCAmplperLS2->Fill(float(lscounterM1), bbbc);
                     h_sum0ADCAmplperLS2->Fill(float(lscounterM1), bbb1);
                     if (ieta > 0) {
                       if (k3 < 36) {
                         h_sumADCAmplperLS1_P1->Fill(float(lscounterM1), bbbc);
                         h_sum0ADCAmplperLS1_P1->Fill(float(lscounterM1), bbb1);
                       } else {
                         h_sumADCAmplperLS1_P2->Fill(float(lscounterM1), bbbc);
                         h_sum0ADCAmplperLS1_P2->Fill(float(lscounterM1), bbb1);
                       }
                     } else {
                       if (k3 < 36) {
                         h_sumADCAmplperLS1_M1->Fill(float(lscounterM1), bbbc);
                         h_sum0ADCAmplperLS1_M1->Fill(float(lscounterM1), bbb1);
                       } else {
                         h_sumADCAmplperLS1_M2->Fill(float(lscounterM1), bbbc);
                         h_sum0ADCAmplperLS1_M2->Fill(float(lscounterM1), bbb1);
                       }
                     }
                   }
                   // HBdepth3 upgrade
                   if (k1 + 1 == 3) {
                     h_sumADCAmplperLSdepth3HBu->Fill(float(lscounterM1), bbbc);
                     if (bbbc / bbb1 > lsdep_estimator1_HBdepth3_)
                       h_sumCutADCAmplperLSdepth3HBu->Fill(float(lscounterM1), bbbc);
                     h_sum0ADCAmplperLSdepth3HBu->Fill(float(lscounterM1), bbb1);

                     if (bbbc / bbb1 > lsdep_estimator1_HBdepth3_)
                       h_2DsumADCAmplLSdepth3HBu->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumADCAmplLSdepth3HBu->Fill(double(ieta), double(k3), bbb1);
                   }  //if(k1+1  ==3)

                   // HBdepth4 upgrade
                   if (k1 + 1 == 4) {
                     h_sumADCAmplperLSdepth4HBu->Fill(float(lscounterM1), bbbc);
                     if (bbbc / bbb1 > lsdep_estimator1_HBdepth4_)
                       h_sumCutADCAmplperLSdepth4HBu->Fill(float(lscounterM1), bbbc);
                     h_sum0ADCAmplperLSdepth4HBu->Fill(float(lscounterM1), bbb1);

                     if (bbbc / bbb1 > lsdep_estimator1_HBdepth4_)
                       h_2DsumADCAmplLSdepth4HBu->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumADCAmplLSdepth4HBu->Fill(double(ieta), double(k3), bbb1);
                   }  //if(k1+1  ==4)
                 }

                 // HE:
                 if (k0 == 1) {
                   // HEdepth1
                   if (k1 + 1 == 1) {
                     h_sumADCAmplLS3->Fill(bbbc / bbb1);
                     if (bbbc / bbb1 > lsdep_estimator1_HEdepth1_)
                       h_2DsumADCAmplLS3->Fill(double(ieta), double(k3), bbbc);
                     if (bbbc / bbb1 > 2. * lsdep_estimator1_HEdepth1_)
                       h_2DsumADCAmplLS3_LSselected->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumADCAmplLS3->Fill(double(ieta), double(k3), bbb1);
                     h_sumADCAmplperLS3->Fill(float(lscounterM1), bbbc);
                     if (bbbc / bbb1 > lsdep_estimator1_HEdepth1_)
                       h_sumCutADCAmplperLS3->Fill(float(lscounterM1), bbbc);
                     h_sum0ADCAmplperLS3->Fill(float(lscounterM1), bbb1);
                     if (ieta > 0) {
                       if (k3 < 36) {
                         h_sumADCAmplperLS3_P1->Fill(float(lscounterM1), bbbc);
                         h_sum0ADCAmplperLS3_P1->Fill(float(lscounterM1), bbb1);
                       } else {
                         h_sumADCAmplperLS3_P2->Fill(float(lscounterM1), bbbc);
                         h_sum0ADCAmplperLS3_P2->Fill(float(lscounterM1), bbb1);
                       }
                       if (bbbc / bbb1 > 15. && k3 % 2 == 0) {
                         pcountall3 += bbb1;
                         pcountmin3 += bbb1;
                       }
                     } else {
                       if (k3 < 36) {
                         h_sumADCAmplperLS3_M1->Fill(float(lscounterM1), bbbc);
                         h_sum0ADCAmplperLS3_M1->Fill(float(lscounterM1), bbb1);
                       } else {
                         h_sumADCAmplperLS3_M2->Fill(float(lscounterM1), bbbc);
                         h_sum0ADCAmplperLS3_M2->Fill(float(lscounterM1), bbb1);
                       }
                       if (bbbc / bbb1 > 15. && k3 % 2 == 0) {
                         mcountall3 += bbb1;
                         mcountmin3 += bbb1;
                       }
                     }
                   }
                   // HEdepth2
                   if (k1 + 1 == 2) {
                     h_sumADCAmplLS4->Fill(bbbc / bbb1);
                     if (bbbc / bbb1 > lsdep_estimator1_HEdepth2_)
                       h_2DsumADCAmplLS4->Fill(double(ieta), double(k3), bbbc);
                     if (bbbc / bbb1 > 2. * lsdep_estimator1_HEdepth2_)
                       h_2DsumADCAmplLS4_LSselected->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumADCAmplLS4->Fill(double(ieta), double(k3), bbb1);
                     h_sumADCAmplperLS4->Fill(float(lscounterM1), bbbc);
                     if (bbbc / bbb1 > lsdep_estimator1_HEdepth2_)
                       h_sumCutADCAmplperLS4->Fill(float(lscounterM1), bbbc);
                     h_sum0ADCAmplperLS4->Fill(float(lscounterM1), bbb1);
                     if (ieta > 0) {
                       if (k3 < 36) {
                         h_sumADCAmplperLS3_P1->Fill(float(lscounterM1), bbbc);
                         h_sum0ADCAmplperLS3_P1->Fill(float(lscounterM1), bbb1);
                       } else {
                         h_sumADCAmplperLS3_P2->Fill(float(lscounterM1), bbbc);
                         h_sum0ADCAmplperLS3_P2->Fill(float(lscounterM1), bbb1);
                       }
                     } else {
                       if (k3 < 36) {
                         h_sumADCAmplperLS3_M1->Fill(float(lscounterM1), bbbc);
                         h_sum0ADCAmplperLS3_M1->Fill(float(lscounterM1), bbb1);
                       } else {
                         h_sumADCAmplperLS3_M2->Fill(float(lscounterM1), bbbc);
                         h_sum0ADCAmplperLS3_M2->Fill(float(lscounterM1), bbb1);
                       }
                     }
                   }
                   // HEdepth3
                   if (k1 + 1 == 3) {
                     h_sumADCAmplLS5->Fill(bbbc / bbb1);
                     if (bbbc / bbb1 > lsdep_estimator1_HEdepth3_)
                       h_2DsumADCAmplLS5->Fill(double(ieta), double(k3), bbbc);
                     if (bbbc / bbb1 > 2. * lsdep_estimator1_HEdepth3_)
                       h_2DsumADCAmplLS5_LSselected->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumADCAmplLS5->Fill(double(ieta), double(k3), bbb1);
                     h_sumADCAmplperLS5->Fill(float(lscounterM1), bbbc);
                     if (bbbc / bbb1 > lsdep_estimator1_HEdepth3_)
                       h_sumCutADCAmplperLS5->Fill(float(lscounterM1), bbbc);
                     h_sum0ADCAmplperLS5->Fill(float(lscounterM1), bbb1);
                     if (ieta > 0) {
                       if (k3 < 36) {
                         h_sumADCAmplperLS3_P1->Fill(float(lscounterM1), bbbc);
                         h_sum0ADCAmplperLS3_P1->Fill(float(lscounterM1), bbb1);
                       } else {
                         h_sumADCAmplperLS3_P2->Fill(float(lscounterM1), bbbc);
                         h_sum0ADCAmplperLS3_P2->Fill(float(lscounterM1), bbb1);
                       }
                     } else {
                       if (k3 < 36) {
                         h_sumADCAmplperLS3_M1->Fill(float(lscounterM1), bbbc);
                         h_sum0ADCAmplperLS3_M1->Fill(float(lscounterM1), bbb1);
                       } else {
                         h_sumADCAmplperLS3_M2->Fill(float(lscounterM1), bbbc);
                         h_sum0ADCAmplperLS3_M2->Fill(float(lscounterM1), bbb1);
                       }
                     }
                   }  //if(k1+1  ==3
                   // HEdepth4 upgrade
                   if (k1 + 1 == 4) {
                     h_sumADCAmplperLSdepth4HEu->Fill(float(lscounterM1), bbbc);
                     if (bbbc / bbb1 > lsdep_estimator1_HEdepth4_)
                       h_sumCutADCAmplperLSdepth4HEu->Fill(float(lscounterM1), bbbc);
                     h_sum0ADCAmplperLSdepth4HEu->Fill(float(lscounterM1), bbb1);

                     if (bbbc / bbb1 > lsdep_estimator1_HEdepth4_)
                       h_2DsumADCAmplLSdepth4HEu->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumADCAmplLSdepth4HEu->Fill(double(ieta), double(k3), bbb1);
                   }  //if(k1+1  ==4)

                   // HEdepth5 upgrade
                   if (k1 + 1 == 5) {
                     h_sumADCAmplperLSdepth5HEu->Fill(float(lscounterM1), bbbc);
                     if (bbbc / bbb1 > lsdep_estimator1_HEdepth5_)
                       h_sumCutADCAmplperLSdepth5HEu->Fill(float(lscounterM1), bbbc);
                     h_sum0ADCAmplperLSdepth5HEu->Fill(float(lscounterM1), bbb1);

                     if (bbbc / bbb1 > lsdep_estimator1_HEdepth5_)
                       h_2DsumADCAmplLSdepth5HEu->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumADCAmplLSdepth5HEu->Fill(double(ieta), double(k3), bbb1);
                   }  //if(k1+1  ==5)

                   // HEdepth6 upgrade
                   if (k1 + 1 == 6) {
                     h_sumADCAmplperLSdepth6HEu->Fill(float(lscounterM1), bbbc);
                     if (bbbc / bbb1 > lsdep_estimator1_HEdepth6_)
                       h_sumCutADCAmplperLSdepth6HEu->Fill(float(lscounterM1), bbbc);
                     h_sum0ADCAmplperLSdepth6HEu->Fill(float(lscounterM1), bbb1);

                     if (bbbc / bbb1 > lsdep_estimator1_HEdepth6_)
                       h_2DsumADCAmplLSdepth6HEu->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumADCAmplLSdepth6HEu->Fill(double(ieta), double(k3), bbb1);
                   }  //if(k1+1  ==6)

                   // HEdepth7 upgrade
                   if (k1 + 1 == 7) {
                     h_sumADCAmplperLSdepth7HEu->Fill(float(lscounterM1), bbbc);
                     if (bbbc / bbb1 > lsdep_estimator1_HEdepth7_)
                       h_sumCutADCAmplperLSdepth7HEu->Fill(float(lscounterM1), bbbc);
                     h_sum0ADCAmplperLSdepth7HEu->Fill(float(lscounterM1), bbb1);

                     if (bbbc / bbb1 > lsdep_estimator1_HEdepth7_)
                       h_2DsumADCAmplLSdepth7HEu->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumADCAmplLSdepth7HEu->Fill(double(ieta), double(k3), bbb1);
                   }  //if(k1+1  ==7)
                 }    //if(k0==1) =HE
                 // HF:
                 if (k0 == 3) {
                   // HFdepth1
                   if (k1 + 1 == 1) {
                     h_sumADCAmplLS6->Fill(bbbc / bbb1);
                     if (bbbc / bbb1 > lsdep_estimator1_HFdepth1_)
                       h_2DsumADCAmplLS6->Fill(double(ieta), double(k3), bbbc);
                     if (bbbc / bbb1 > 2. * lsdep_estimator1_HFdepth1_)
                       h_2DsumADCAmplLS6_LSselected->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumADCAmplLS6->Fill(double(ieta), double(k3), bbb1);
                     h_sumADCAmplperLS6->Fill(float(lscounterM1), bbbc);
                     if (bbbc / bbb1 > lsdep_estimator1_HFdepth1_)
                       h_sumCutADCAmplperLS6->Fill(float(lscounterM1), bbbc);
                     h_sum0ADCAmplperLS6->Fill(float(lscounterM1), bbb1);

                     if (ieta > 0) {
                       if (k3 < 36) {
                         h_sumADCAmplperLS6_P1->Fill(float(lscounterM1), bbbc);
                         h_sum0ADCAmplperLS6_P1->Fill(float(lscounterM1), bbb1);
                       } else {
                         h_sumADCAmplperLS6_P2->Fill(float(lscounterM1), bbbc);
                         h_sum0ADCAmplperLS6_P2->Fill(float(lscounterM1), bbb1);
                       }
                       if (bbbc / bbb1 > 20.) {
                         pcountall6 += bbb1;
                         pcountmin6 += bbb1;
                       }

                     } else {
                       if (k3 < 36) {
                         h_sumADCAmplperLS6_M1->Fill(float(lscounterM1), bbbc);
                         h_sum0ADCAmplperLS6_M1->Fill(float(lscounterM1), bbb1);
                       } else {
                         h_sumADCAmplperLS6_M2->Fill(float(lscounterM1), bbbc);
                         h_sum0ADCAmplperLS6_M2->Fill(float(lscounterM1), bbb1);
                       }
                       if (bbbc / bbb1 > 20.) {
                         mcountall6 += bbb1;
                         mcountmin6 += bbb1;
                       }
                     }
                   }  //if(k1+1  ==1)

                   // HFdepth2
                   if (k1 + 1 == 2) {
                     h_sumADCAmplLS7->Fill(bbbc / bbb1);
                     if (bbbc / bbb1 > lsdep_estimator1_HFdepth2_)
                       h_2DsumADCAmplLS7->Fill(double(ieta), double(k3), bbbc);
                     if (bbbc / bbb1 > 2. * lsdep_estimator1_HFdepth2_)
                       h_2DsumADCAmplLS7_LSselected->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumADCAmplLS7->Fill(double(ieta), double(k3), bbb1);
                     h_sumADCAmplperLS7->Fill(float(lscounterM1), bbbc);
                     if (bbbc / bbb1 > lsdep_estimator1_HFdepth2_)
                       h_sumCutADCAmplperLS7->Fill(float(lscounterM1), bbbc);
                     h_sum0ADCAmplperLS7->Fill(float(lscounterM1), bbb1);

                     if (ieta > 0) {
                       if (k3 < 36) {
                         h_sumADCAmplperLS6_P1->Fill(float(lscounterM1), bbbc);
                         h_sum0ADCAmplperLS6_P1->Fill(float(lscounterM1), bbb1);
                       } else {
                         h_sumADCAmplperLS6_P2->Fill(float(lscounterM1), bbbc);
                         h_sum0ADCAmplperLS6_P2->Fill(float(lscounterM1), bbb1);
                       }
                     } else {
                       if (k3 < 36) {
                         h_sumADCAmplperLS6_M1->Fill(float(lscounterM1), bbbc);
                         h_sum0ADCAmplperLS6_M1->Fill(float(lscounterM1), bbb1);
                       } else {
                         h_sumADCAmplperLS6_M2->Fill(float(lscounterM1), bbbc);
                         h_sum0ADCAmplperLS6_M2->Fill(float(lscounterM1), bbb1);
                       }
                     }
                   }  //if(k1+1  ==2)

                   // HFdepth3 upgrade
                   if (k1 + 1 == 3) {
                     h_sumADCAmplperLS6u->Fill(float(lscounterM1), bbbc);
                     if (bbbc / bbb1 > lsdep_estimator1_HFdepth3_)
                       h_sumCutADCAmplperLS6u->Fill(float(lscounterM1), bbbc);
                     h_sum0ADCAmplperLS6u->Fill(float(lscounterM1), bbb1);

                     if (bbbc / bbb1 > lsdep_estimator1_HFdepth3_)
                       h_2DsumADCAmplLSdepth3HFu->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumADCAmplLSdepth3HFu->Fill(double(ieta), double(k3), bbb1);
                   }  //if(k1+1  ==3)

                   // HFdepth4 upgrade
                   if (k1 + 1 == 4) {
                     h_sumADCAmplperLS7u->Fill(float(lscounterM1), bbbc);
                     if (bbbc / bbb1 > lsdep_estimator1_HFdepth4_)
                       h_sumCutADCAmplperLS7u->Fill(float(lscounterM1), bbbc);
                     h_sum0ADCAmplperLS7u->Fill(float(lscounterM1), bbb1);

                     if (bbbc / bbb1 > lsdep_estimator1_HFdepth4_)
                       h_2DsumADCAmplLSdepth4HFu->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumADCAmplLSdepth4HFu->Fill(double(ieta), double(k3), bbb1);
                   }  //if(k1+1  ==4)

                 }  //end HF

                 // HO:
                 if (k0 == 2) {
                   // HOdepth4
                   if (k1 + 1 == 4) {
                     h_sumADCAmplLS8->Fill(bbbc / bbb1);
                     if (bbbc / bbb1 > lsdep_estimator1_HOdepth4_)
                       h_2DsumADCAmplLS8->Fill(double(ieta), double(k3), bbbc);
                     if (bbbc / bbb1 > 2. * lsdep_estimator1_HOdepth4_)
                       h_2DsumADCAmplLS8_LSselected->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumADCAmplLS8->Fill(double(ieta), double(k3), bbb1);
                     h_sumADCAmplperLS8->Fill(float(lscounterM1), bbbc);
                     if (bbbc / bbb1 > lsdep_estimator1_HOdepth4_)
                       h_sumCutADCAmplperLS8->Fill(float(lscounterM1), bbbc);
                     h_sum0ADCAmplperLS8->Fill(float(lscounterM1), bbb1);

                     if (ieta > 0) {
                       if (k3 < 36) {
                         h_sumADCAmplperLS8_P1->Fill(float(lscounterM1), bbbc);
                         h_sum0ADCAmplperLS8_P1->Fill(float(lscounterM1), bbb1);
                       } else {
                         h_sumADCAmplperLS8_P2->Fill(float(lscounterM1), bbbc);
                         h_sum0ADCAmplperLS8_P2->Fill(float(lscounterM1), bbb1);
                       }
                       if (bbbc / bbb1 > 80.) {
                         pcountall8 += bbb1;
                         pcountmin8 += bbb1;
                       }

                     } else {
                       if (k3 < 36) {
                         h_sumADCAmplperLS8_M1->Fill(float(lscounterM1), bbbc);
                         h_sum0ADCAmplperLS8_M1->Fill(float(lscounterM1), bbb1);
                       } else {
                         h_sumADCAmplperLS8_M2->Fill(float(lscounterM1), bbbc);
                         h_sum0ADCAmplperLS8_M2->Fill(float(lscounterM1), bbb1);
                       }
                       if (bbbc / bbb1 > 80.) {
                         mcountall8 += bbb1;
                         mcountmin8 += bbb1;
                       }
                     }
                   }
                 }
               }  //if(sumEstimator1[k0][k1][k2][k3] != 0.
               // ------------------------------------------------------------------------------------------------------------------------sumEstimator2
               if (sumEstimator2[k0][k1][k2][k3] != 0.) {
                 // fill histoes:
                 double bbbc = 0.;
                 if (flagestimatornormalization_ == 0)
                   bbbc = sumEstimator2[k0][k1][k2][k3] / nevcounter0;
                 if (flagestimatornormalization_ == 1)
                   bbbc = sumEstimator2[k0][k1][k2][k3] / sum0Estimator[k0][k1][k2][k3];
                 double bbb1 = 1.;
                 if (flagestimatornormalization_ == 2) {
                   bbbc = sumEstimator2[k0][k1][k2][k3];
                   bbb1 = sum0Estimator[k0][k1][k2][k3];
                 }

                 // HB:
                 if (k0 == 0) {
                   // HBdepth1
                   if (k1 + 1 == 1) {
                     h_sumTSmeanALS1->Fill(bbbc / bbb1);
                     if (bbbc / bbb1 > lsdep_estimator2_HBdepth1_)
                       h_2DsumTSmeanALS1->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumTSmeanALS1->Fill(double(ieta), double(k3), bbb1);
                     h_sumTSmeanAperLS1->Fill(float(lscounterM1), bbbc);
                     if (bbbc / bbb1 > lsdep_estimator2_HBdepth1_)
                       h_sumCutTSmeanAperLS1->Fill(float(lscounterM1), bbbc);
                     h_sum0TSmeanAperLS1->Fill(float(lscounterM1), bbb1);
                     if (bbbc / bbb1 > 2. * lsdep_estimator2_HBdepth1_)
                       h_sumTSmeanAperLS1_LSselected->Fill(float(lscounterM1), bbbc);
                   }
                   if (k1 + 1 == 2) {
                     h_sumTSmeanALS2->Fill(bbbc / bbb1);
                     if (bbbc / bbb1 > lsdep_estimator2_HBdepth2_)
                       h_2DsumTSmeanALS2->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumTSmeanALS2->Fill(double(ieta), double(k3), bbb1);
                     h_sumTSmeanAperLS2->Fill(float(lscounterM1), bbbc);
                     if (bbbc / bbb1 > lsdep_estimator2_HBdepth2_)
                       h_sumCutTSmeanAperLS2->Fill(float(lscounterM1), bbbc);
                     h_sum0TSmeanAperLS2->Fill(float(lscounterM1), bbb1);
                   }
                 }
                 // HE:
                 if (k0 == 1) {
                   // HBdepth1
                   if (k1 + 1 == 1) {
                     h_sumTSmeanALS3->Fill(bbbc / bbb1);
                     if (bbbc / bbb1 > lsdep_estimator2_HEdepth1_)
                       h_2DsumTSmeanALS3->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumTSmeanALS3->Fill(double(ieta), double(k3), bbb1);
                     h_sumTSmeanAperLS3->Fill(float(lscounterM1), bbbc);
                     if (bbbc / bbb1 > lsdep_estimator2_HEdepth1_)
                       h_sumCutTSmeanAperLS3->Fill(float(lscounterM1), bbbc);
                     h_sum0TSmeanAperLS3->Fill(float(lscounterM1), bbb1);
                   }
                   if (k1 + 1 == 2) {
                     h_sumTSmeanALS4->Fill(bbbc / bbb1);
                     if (bbbc / bbb1 > lsdep_estimator2_HEdepth2_)
                       h_2DsumTSmeanALS4->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumTSmeanALS4->Fill(double(ieta), double(k3), bbb1);
                     h_sumTSmeanAperLS4->Fill(float(lscounterM1), bbbc);
                     if (bbbc / bbb1 > lsdep_estimator2_HEdepth2_)
                       h_sumCutTSmeanAperLS4->Fill(float(lscounterM1), bbbc);
                     h_sum0TSmeanAperLS4->Fill(float(lscounterM1), bbb1);
                   }
                   if (k1 + 1 == 3) {
                     h_sumTSmeanALS5->Fill(bbbc / bbb1);
                     if (bbbc / bbb1 > lsdep_estimator2_HEdepth3_)
                       h_2DsumTSmeanALS5->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumTSmeanALS5->Fill(double(ieta), double(k3), bbb1);
                     h_sumTSmeanAperLS5->Fill(float(lscounterM1), bbbc);
                     if (bbbc / bbb1 > lsdep_estimator2_HEdepth3_)
                       h_sumCutTSmeanAperLS5->Fill(float(lscounterM1), bbbc);
                     h_sum0TSmeanAperLS5->Fill(float(lscounterM1), bbb1);
                   }
                 }
                 // HF:
                 if (k0 == 3) {
                   // HBdepth1
                   if (k1 + 1 == 1) {
                     h_sumTSmeanALS6->Fill(bbbc / bbb1);
                     if (bbbc / bbb1 > lsdep_estimator2_HFdepth1_)
                       h_2DsumTSmeanALS6->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumTSmeanALS6->Fill(double(ieta), double(k3), bbb1);
                     h_sumTSmeanAperLS6->Fill(float(lscounterM1), bbbc);
                     if (bbbc / bbb1 > lsdep_estimator2_HFdepth1_)
                       h_sumCutTSmeanAperLS6->Fill(float(lscounterM1), bbbc);
                     h_sum0TSmeanAperLS6->Fill(float(lscounterM1), bbb1);
                   }
                   if (k1 + 1 == 2) {
                     h_sumTSmeanALS7->Fill(bbbc / bbb1);
                     if (bbbc / bbb1 > lsdep_estimator2_HFdepth2_)
                       h_2DsumTSmeanALS7->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumTSmeanALS7->Fill(double(ieta), double(k3), bbb1);
                     h_sumTSmeanAperLS7->Fill(float(lscounterM1), bbbc);
                     if (bbbc / bbb1 > lsdep_estimator2_HFdepth2_)
                       h_sumCutTSmeanAperLS7->Fill(float(lscounterM1), bbbc);
                     h_sum0TSmeanAperLS7->Fill(float(lscounterM1), bbb1);
                   }
                 }
                 // HO:
                 if (k0 == 2) {
                   // HBdepth1
                   if (k1 + 1 == 4) {
                     h_sumTSmeanALS8->Fill(bbbc / bbb1);
                     if (bbbc / bbb1 > lsdep_estimator2_HOdepth4_)
                       h_2DsumTSmeanALS8->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumTSmeanALS8->Fill(double(ieta), double(k3), bbb1);
                     h_sumTSmeanAperLS8->Fill(float(lscounterM1), bbbc);
                     if (bbbc / bbb1 > lsdep_estimator2_HOdepth4_)
                       h_sumCutTSmeanAperLS8->Fill(float(lscounterM1), bbbc);
                     h_sum0TSmeanAperLS8->Fill(float(lscounterM1), bbb1);
                   }
                 }
               }  //if(sumEstimator2[k0][k1][k2][k3] != 0.

               // ------------------------------------------------------------------------------------------------------------------------sumEstimator3
               if (sumEstimator3[k0][k1][k2][k3] != 0.) {
                 // fill histoes:
                 double bbbc = 0.;
                 if (flagestimatornormalization_ == 0)
                   bbbc = sumEstimator3[k0][k1][k2][k3] / nevcounter0;
                 if (flagestimatornormalization_ == 1)
                   bbbc = sumEstimator3[k0][k1][k2][k3] / sum0Estimator[k0][k1][k2][k3];
                 double bbb1 = 1.;
                 if (flagestimatornormalization_ == 2) {
                   bbbc = sumEstimator3[k0][k1][k2][k3];
                   bbb1 = sum0Estimator[k0][k1][k2][k3];
                 }

                 // HB:
                 if (k0 == 0) {
                   // HBdepth1
                   if (k1 + 1 == 1) {
                     h_sumTSmaxALS1->Fill(bbbc / bbb1);
                     if (bbbc / bbb1 > lsdep_estimator3_HBdepth1_)
                       h_2DsumTSmaxALS1->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumTSmaxALS1->Fill(double(ieta), double(k3), bbb1);
                     h_sumTSmaxAperLS1->Fill(float(lscounterM1), bbbc);
                     if (bbbc / bbb1 > lsdep_estimator3_HBdepth1_)
                       h_sumCutTSmaxAperLS1->Fill(float(lscounterM1), bbbc);
                     h_sum0TSmaxAperLS1->Fill(float(lscounterM1), bbb1);
                     if (bbbc / bbb1 > 2. * lsdep_estimator3_HBdepth1_)
                       h_sumTSmaxAperLS1_LSselected->Fill(float(lscounterM1), bbbc);
                   }
                   if (k1 + 1 == 2) {
                     h_sumTSmaxALS2->Fill(bbbc / bbb1);
                     if (bbbc / bbb1 > lsdep_estimator3_HBdepth2_)
                       h_2DsumTSmaxALS2->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumTSmaxALS2->Fill(double(ieta), double(k3), bbb1);
                     h_sumTSmaxAperLS2->Fill(float(lscounterM1), bbbc);
                     if (bbbc / bbb1 > lsdep_estimator3_HBdepth2_)
                       h_sumCutTSmaxAperLS2->Fill(float(lscounterM1), bbbc);
                     h_sum0TSmaxAperLS2->Fill(float(lscounterM1), bbb1);
                   }
                 }
                 // HE:
                 if (k0 == 1) {
                   // HBdepth1
                   if (k1 + 1 == 1) {
                     h_sumTSmaxALS3->Fill(bbbc / bbb1);
                     if (bbbc / bbb1 > lsdep_estimator3_HEdepth1_)
                       h_2DsumTSmaxALS3->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumTSmaxALS3->Fill(double(ieta), double(k3), bbb1);
                     h_sumTSmaxAperLS3->Fill(float(lscounterM1), bbbc);
                     if (bbbc / bbb1 > lsdep_estimator3_HEdepth1_)
                       h_sumCutTSmaxAperLS3->Fill(float(lscounterM1), bbbc);
                     h_sum0TSmaxAperLS3->Fill(float(lscounterM1), bbb1);
                   }
                   if (k1 + 1 == 2) {
                     h_sumTSmaxALS4->Fill(bbbc / bbb1);
                     if (bbbc / bbb1 > lsdep_estimator3_HEdepth2_)
                       h_2DsumTSmaxALS4->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumTSmaxALS4->Fill(double(ieta), double(k3), bbb1);
                     h_sumTSmaxAperLS4->Fill(float(lscounterM1), bbbc);
                     if (bbbc / bbb1 > lsdep_estimator3_HEdepth2_)
                       h_sumCutTSmaxAperLS4->Fill(float(lscounterM1), bbbc);
                     h_sum0TSmaxAperLS4->Fill(float(lscounterM1), bbb1);
                   }
                   if (k1 + 1 == 3) {
                     h_sumTSmaxALS5->Fill(bbbc / bbb1);
                     if (bbbc / bbb1 > lsdep_estimator3_HEdepth3_)
                       h_2DsumTSmaxALS5->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumTSmaxALS5->Fill(double(ieta), double(k3), bbb1);
                     h_sumTSmaxAperLS5->Fill(float(lscounterM1), bbbc);
                     if (bbbc / bbb1 > lsdep_estimator3_HEdepth3_)
                       h_sumCutTSmaxAperLS5->Fill(float(lscounterM1), bbbc);
                     h_sum0TSmaxAperLS5->Fill(float(lscounterM1), bbb1);
                   }
                 }
                 // HF:
                 if (k0 == 3) {
                   // HBdepth1
                   if (k1 + 1 == 1) {
                     h_sumTSmaxALS6->Fill(bbbc / bbb1);
                     if (bbbc / bbb1 > lsdep_estimator3_HFdepth1_)
                       h_2DsumTSmaxALS6->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumTSmaxALS6->Fill(double(ieta), double(k3), bbb1);
                     h_sumTSmaxAperLS6->Fill(float(lscounterM1), bbbc);
                     if (bbbc / bbb1 > lsdep_estimator3_HFdepth1_)
                       h_sumCutTSmaxAperLS6->Fill(float(lscounterM1), bbbc);
                     h_sum0TSmaxAperLS6->Fill(float(lscounterM1), bbb1);
                   }
                   if (k1 + 1 == 2) {
                     h_sumTSmaxALS7->Fill(bbbc / bbb1);
                     if (bbbc / bbb1 > lsdep_estimator3_HFdepth2_)
                       h_2DsumTSmaxALS7->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumTSmaxALS7->Fill(double(ieta), double(k3), bbb1);
                     h_sumTSmaxAperLS7->Fill(float(lscounterM1), bbbc);
                     if (bbbc / bbb1 > lsdep_estimator3_HFdepth2_)
                       h_sumCutTSmaxAperLS7->Fill(float(lscounterM1), bbbc);
                     h_sum0TSmaxAperLS7->Fill(float(lscounterM1), bbb1);
                   }
                 }
                 // HO:
                 if (k0 == 2) {
                   // HBdepth1
                   if (k1 + 1 == 4) {
                     h_sumTSmaxALS8->Fill(bbbc / bbb1);
                     if (bbbc / bbb1 > lsdep_estimator3_HOdepth4_)
                       h_2DsumTSmaxALS8->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumTSmaxALS8->Fill(double(ieta), double(k3), bbb1);
                     h_sumTSmaxAperLS8->Fill(float(lscounterM1), bbbc);
                     if (bbbc / bbb1 > lsdep_estimator3_HOdepth4_)
                       h_sumCutTSmaxAperLS8->Fill(float(lscounterM1), bbbc);
                     h_sum0TSmaxAperLS8->Fill(float(lscounterM1), bbb1);
                   }
                 }
               }  //if(sumEstimator3[k0][k1][k2][k3] != 0.

               // ------------------------------------------------------------------------------------------------------------------------sumEstimator4
               if (sumEstimator4[k0][k1][k2][k3] != 0.) {
                 // fill histoes:
                 double bbbc = 0.;
                 if (flagestimatornormalization_ == 0)
                   bbbc = sumEstimator4[k0][k1][k2][k3] / nevcounter0;
                 if (flagestimatornormalization_ == 1)
                   bbbc = sumEstimator4[k0][k1][k2][k3] / sum0Estimator[k0][k1][k2][k3];
                 double bbb1 = 1.;
                 if (flagestimatornormalization_ == 2) {
                   bbbc = sumEstimator4[k0][k1][k2][k3];
                   bbb1 = sum0Estimator[k0][k1][k2][k3];
                 }

                 // HB:
                 if (k0 == 0) {
                   // HBdepth1
                   if (k1 + 1 == 1) {
                     h_sumAmplitudeLS1->Fill(bbbc / bbb1);
                     if (bbbc / bbb1 > lsdep_estimator4_HBdepth1_)
                       h_2DsumAmplitudeLS1->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumAmplitudeLS1->Fill(double(ieta), double(k3), bbb1);
                     h_sumAmplitudeperLS1->Fill(float(lscounterM1), bbbc);
                     if (bbbc / bbb1 > lsdep_estimator4_HBdepth1_)
                       h_sumCutAmplitudeperLS1->Fill(float(lscounterM1), bbbc);
                     h_sum0AmplitudeperLS1->Fill(float(lscounterM1), bbb1);
                     if (bbbc / bbb1 > 2. * lsdep_estimator4_HBdepth1_)
                       h_sumAmplitudeperLS1_LSselected->Fill(float(lscounterM1), bbbc);
                   }
                   if (k1 + 1 == 2) {
                     h_sumAmplitudeLS2->Fill(bbbc / bbb1);
                     if (bbbc / bbb1 > lsdep_estimator4_HBdepth2_)
                       h_2DsumAmplitudeLS2->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumAmplitudeLS2->Fill(double(ieta), double(k3), bbb1);
                     h_sumAmplitudeperLS2->Fill(float(lscounterM1), bbbc);
                     if (bbbc / bbb1 > lsdep_estimator4_HBdepth2_)
                       h_sumCutAmplitudeperLS2->Fill(float(lscounterM1), bbbc);
                     h_sum0AmplitudeperLS2->Fill(float(lscounterM1), bbb1);
                   }
                 }
                 // HE:
                 if (k0 == 1) {
                   // HBdepth1
                   if (k1 + 1 == 1) {
                     h_sumAmplitudeLS3->Fill(bbbc / bbb1);
                     if (bbbc / bbb1 > lsdep_estimator4_HEdepth1_)
                       h_2DsumAmplitudeLS3->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumAmplitudeLS3->Fill(double(ieta), double(k3), bbb1);
                     h_sumAmplitudeperLS3->Fill(float(lscounterM1), bbbc);
                     if (bbbc / bbb1 > lsdep_estimator4_HEdepth1_)
                       h_sumCutAmplitudeperLS3->Fill(float(lscounterM1), bbbc);
                     h_sum0AmplitudeperLS3->Fill(float(lscounterM1), bbb1);
                   }
                   if (k1 + 1 == 2) {
                     h_sumAmplitudeLS4->Fill(bbbc / bbb1);
                     if (bbbc / bbb1 > lsdep_estimator4_HEdepth2_)
                       h_2DsumAmplitudeLS4->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumAmplitudeLS4->Fill(double(ieta), double(k3), bbb1);
                     h_sumAmplitudeperLS4->Fill(float(lscounterM1), bbbc);
                     if (bbbc / bbb1 > lsdep_estimator4_HEdepth2_)
                       h_sumCutAmplitudeperLS4->Fill(float(lscounterM1), bbbc);
                     h_sum0AmplitudeperLS4->Fill(float(lscounterM1), bbb1);
                   }
                   if (k1 + 1 == 3) {
                     h_sumAmplitudeLS5->Fill(bbbc / bbb1);
                     if (bbbc / bbb1 > lsdep_estimator4_HEdepth3_)
                       h_2DsumAmplitudeLS5->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumAmplitudeLS5->Fill(double(ieta), double(k3), bbb1);
                     h_sumAmplitudeperLS5->Fill(float(lscounterM1), bbbc);
                     if (bbbc / bbb1 > lsdep_estimator4_HEdepth3_)
                       h_sumCutAmplitudeperLS5->Fill(float(lscounterM1), bbbc);
                     h_sum0AmplitudeperLS5->Fill(float(lscounterM1), bbb1);
                   }
                 }
                 // HF:
                 if (k0 == 3) {
                   // HBdepth1
                   if (k1 + 1 == 1) {
                     h_sumAmplitudeLS6->Fill(bbbc / bbb1);
                     if (bbbc / bbb1 > lsdep_estimator4_HFdepth1_)
                       h_2DsumAmplitudeLS6->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumAmplitudeLS6->Fill(double(ieta), double(k3), bbb1);
                     h_sumAmplitudeperLS6->Fill(float(lscounterM1), bbbc);
                     if (bbbc / bbb1 > lsdep_estimator4_HFdepth1_)
                       h_sumCutAmplitudeperLS6->Fill(float(lscounterM1), bbbc);
                     h_sum0AmplitudeperLS6->Fill(float(lscounterM1), bbb1);
                   }
                   if (k1 + 1 == 2) {
                     h_sumAmplitudeLS7->Fill(bbbc / bbb1);
                     if (bbbc / bbb1 > lsdep_estimator4_HFdepth2_)
                       h_2DsumAmplitudeLS7->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumAmplitudeLS7->Fill(double(ieta), double(k3), bbb1);
                     h_sumAmplitudeperLS7->Fill(float(lscounterM1), bbbc);
                     if (bbbc / bbb1 > lsdep_estimator4_HFdepth2_)
                       h_sumCutAmplitudeperLS7->Fill(float(lscounterM1), bbbc);
                     h_sum0AmplitudeperLS7->Fill(float(lscounterM1), bbb1);
                   }
                 }
                 // HO:
                 if (k0 == 2) {
                   // HBdepth1
                   if (k1 + 1 == 4) {
                     h_sumAmplitudeLS8->Fill(bbbc / bbb1);
                     if (bbbc / bbb1 > lsdep_estimator4_HOdepth4_)
                       h_2DsumAmplitudeLS8->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumAmplitudeLS8->Fill(double(ieta), double(k3), bbb1);
                     h_sumAmplitudeperLS8->Fill(float(lscounterM1), bbbc);
                     if (bbbc / bbb1 > lsdep_estimator4_HOdepth4_)
                       h_sumCutAmplitudeperLS8->Fill(float(lscounterM1), bbbc);
                     h_sum0AmplitudeperLS8->Fill(float(lscounterM1), bbb1);
                   }
                 }
               }  //if(sumEstimator4[k0][k1][k2][k3] != 0.
               // ------------------------------------------------------------------------------------------------------------------------sumEstimator5
               if (sumEstimator5[k0][k1][k2][k3] != 0.) {
                 // fill histoes:
                 double bbbc = 0.;
                 if (flagestimatornormalization_ == 0)
                   bbbc = sumEstimator5[k0][k1][k2][k3] / nevcounter0;
                 if (flagestimatornormalization_ == 1)
                   bbbc = sumEstimator5[k0][k1][k2][k3] / sum0Estimator[k0][k1][k2][k3];
                 double bbb1 = 1.;
                 if (flagestimatornormalization_ == 2) {
                   bbbc = sumEstimator5[k0][k1][k2][k3];
                   bbb1 = sum0Estimator[k0][k1][k2][k3];
                 }

                 // HB:
                 if (k0 == 0) {
                   // HBdepth1
                   if (k1 + 1 == 1) {
                     h_sumAmplLS1->Fill(bbbc / bbb1);
                     if (bbbc / bbb1 > lsdep_estimator5_HBdepth1_)
                       h_2DsumAmplLS1->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumAmplLS1->Fill(double(ieta), double(k3), bbb1);
                     h_sumAmplperLS1->Fill(float(lscounterM1), bbbc);
                     if (bbbc / bbb1 > lsdep_estimator5_HBdepth1_)
                       h_sumCutAmplperLS1->Fill(float(lscounterM1), bbbc);
                     h_sum0AmplperLS1->Fill(float(lscounterM1), bbb1);
                     if (bbbc / bbb1 > 2. * lsdep_estimator5_HBdepth1_)
                       h_sumAmplperLS1_LSselected->Fill(float(lscounterM1), bbbc);
                   }
                   if (k1 + 1 == 2) {
                     h_sumAmplLS2->Fill(bbbc / bbb1);
                     if (bbbc / bbb1 > lsdep_estimator5_HBdepth2_)
                       h_2DsumAmplLS2->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumAmplLS2->Fill(double(ieta), double(k3), bbb1);
                     h_sumAmplperLS2->Fill(float(lscounterM1), bbbc);
                     if (bbbc / bbb1 > lsdep_estimator5_HBdepth2_)
                       h_sumCutAmplperLS2->Fill(float(lscounterM1), bbbc);
                     h_sum0AmplperLS2->Fill(float(lscounterM1), bbb1);
                   }
                 }
                 // HE:
                 if (k0 == 1) {
                   // HEdepth1
                   if (k1 + 1 == 1) {
                     h_sumAmplLS3->Fill(bbbc / bbb1);
                     if (bbbc / bbb1 > lsdep_estimator5_HEdepth1_)
                       h_2DsumAmplLS3->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumAmplLS3->Fill(double(ieta), double(k3), bbb1);
                     h_sumAmplperLS3->Fill(float(lscounterM1), bbbc);
                     if (bbbc / bbb1 > lsdep_estimator5_HEdepth1_)
                       h_sumCutAmplperLS3->Fill(float(lscounterM1), bbbc);
                     h_sum0AmplperLS3->Fill(float(lscounterM1), bbb1);
                   }
                   if (k1 + 1 == 2) {
                     h_sumAmplLS4->Fill(bbbc / bbb1);
                     if (bbbc / bbb1 > lsdep_estimator5_HEdepth2_)
                       h_2DsumAmplLS4->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumAmplLS4->Fill(double(ieta), double(k3), bbb1);
                     h_sumAmplperLS4->Fill(float(lscounterM1), bbbc);
                     if (bbbc / bbb1 > lsdep_estimator5_HEdepth2_)
                       h_sumCutAmplperLS4->Fill(float(lscounterM1), bbbc);
                     h_sum0AmplperLS4->Fill(float(lscounterM1), bbb1);
                   }
                   if (k1 + 1 == 3) {
                     h_sumAmplLS5->Fill(bbbc / bbb1);
                     if (bbbc / bbb1 > lsdep_estimator5_HEdepth3_)
                       h_2DsumAmplLS5->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumAmplLS5->Fill(double(ieta), double(k3), bbb1);
                     h_sumAmplperLS5->Fill(float(lscounterM1), bbbc);
                     if (bbbc / bbb1 > lsdep_estimator5_HEdepth3_)
                       h_sumCutAmplperLS5->Fill(float(lscounterM1), bbbc);
                     h_sum0AmplperLS5->Fill(float(lscounterM1), bbb1);
                   }
                 }
                 // HF:
                 if (k0 == 3) {
                   // HFdepth1
                   if (k1 + 1 == 1) {
                     h_sumAmplLS6->Fill(bbbc / bbb1);
                     if (bbbc / bbb1 > lsdep_estimator5_HFdepth1_)
                       h_2DsumAmplLS6->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumAmplLS6->Fill(double(ieta), double(k3), bbb1);
                     h_sumAmplperLS6->Fill(float(lscounterM1), bbbc);
                     if (bbbc / bbb1 > lsdep_estimator5_HFdepth1_)
                       h_sumCutAmplperLS6->Fill(float(lscounterM1), bbbc);
                     h_sum0AmplperLS6->Fill(float(lscounterM1), bbb1);
                   }
                   if (k1 + 1 == 2) {
                     h_sumAmplLS7->Fill(bbbc / bbb1);
                     if (bbbc / bbb1 > lsdep_estimator5_HFdepth2_)
                       h_2DsumAmplLS7->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumAmplLS7->Fill(double(ieta), double(k3), bbb1);
                     h_sumAmplperLS7->Fill(float(lscounterM1), bbbc);
                     if (bbbc / bbb1 > lsdep_estimator5_HFdepth2_)
                       h_sumCutAmplperLS7->Fill(float(lscounterM1), bbbc);
                     h_sum0AmplperLS7->Fill(float(lscounterM1), bbb1);
                   }
                 }
                 // HO:
                 if (k0 == 2) {
                   // HOdepth4
                   if (k1 + 1 == 4) {
                     h_sumAmplLS8->Fill(bbbc / bbb1);
                     if (bbbc / bbb1 > lsdep_estimator5_HOdepth4_)
                       h_2DsumAmplLS8->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumAmplLS8->Fill(double(ieta), double(k3), bbb1);
                     h_sumAmplperLS8->Fill(float(lscounterM1), bbbc);
                     if (bbbc / bbb1 > lsdep_estimator5_HOdepth4_)
                       h_sumCutAmplperLS8->Fill(float(lscounterM1), bbbc);
                     h_sum0AmplperLS8->Fill(float(lscounterM1), bbb1);
                   }
                 }
               }  //if(sumEstimator5[k0][k1][k2][k3] != 0.
               // ------------------------------------------------------------------------------------------------------------------------sumEstimator6 (Error-B)
               if (sumEstimator6[k0][k1][k2][k3] != 0.) {
                 // fill histoes:
                 double bbbc = 0.;
                 if (flagestimatornormalization_ == 0)
                   bbbc = sumEstimator6[k0][k1][k2][k3] / nevcounter0;
                 if (flagestimatornormalization_ == 1)
                   bbbc = sumEstimator6[k0][k1][k2][k3] / sum0Estimator[k0][k1][k2][k3];
                 double bbb1 = 1.;
                 if (flagestimatornormalization_ == 2) {
                   bbbc = sumEstimator6[k0][k1][k2][k3];
                   bbb1 = sum0Estimator[k0][k1][k2][k3];
                 }

                 // HB:
                 if (k0 == 0) {
                   // HBdepth1
                   if (k1 + 1 == 1) {
                     h_sumErrorBLS1->Fill(bbbc / bbb1);
                     h_2DsumErrorBLS1->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumErrorBLS1->Fill(double(ieta), double(k3), bbb1);
                     h_sumErrorBperLS1->Fill(float(lscounterM1), bbbc);
                     h_sum0ErrorBperLS1->Fill(float(lscounterM1), bbb1);
                   }
                   if (k1 + 1 == 2) {
                     h_sumErrorBLS2->Fill(bbbc / bbb1);
                     h_2DsumErrorBLS2->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumErrorBLS2->Fill(double(ieta), double(k3), bbb1);
                     h_sumErrorBperLS2->Fill(float(lscounterM1), bbbc);
                     h_sum0ErrorBperLS2->Fill(float(lscounterM1), bbb1);
                   }
                 }
                 // HE:
                 if (k0 == 1) {
                   // HEdepth1
                   if (k1 + 1 == 1) {
                     h_sumErrorBLS3->Fill(bbbc / bbb1);
                     h_2DsumErrorBLS3->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumErrorBLS3->Fill(double(ieta), double(k3), bbb1);
                     h_sumErrorBperLS3->Fill(float(lscounterM1), bbbc);
                     h_sum0ErrorBperLS3->Fill(float(lscounterM1), bbb1);
                   }
                   if (k1 + 1 == 2) {
                     h_sumErrorBLS4->Fill(bbbc / bbb1);
                     h_2DsumErrorBLS4->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumErrorBLS4->Fill(double(ieta), double(k3), bbb1);
                     h_sumErrorBperLS4->Fill(float(lscounterM1), bbbc);
                     h_sum0ErrorBperLS4->Fill(float(lscounterM1), bbb1);
                   }
                   if (k1 + 1 == 3) {
                     h_sumErrorBLS5->Fill(bbbc / bbb1);
                     h_2DsumErrorBLS5->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumErrorBLS5->Fill(double(ieta), double(k3), bbb1);
                     h_sumErrorBperLS5->Fill(float(lscounterM1), bbbc);
                     h_sum0ErrorBperLS5->Fill(float(lscounterM1), bbb1);
                   }
                 }
                 // HF:
                 if (k0 == 3) {
                   // HFdepth1
                   if (k1 + 1 == 1) {
                     h_sumErrorBLS6->Fill(bbbc / bbb1);
                     h_2DsumErrorBLS6->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumErrorBLS6->Fill(double(ieta), double(k3), bbb1);
                     h_sumErrorBperLS6->Fill(float(lscounterM1), bbbc);
                     h_sum0ErrorBperLS6->Fill(float(lscounterM1), bbb1);
                   }
                   if (k1 + 1 == 2) {
                     h_sumErrorBLS7->Fill(bbbc / bbb1);
                     h_2DsumErrorBLS7->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumErrorBLS7->Fill(double(ieta), double(k3), bbb1);
                     h_sumErrorBperLS7->Fill(float(lscounterM1), bbbc);
                     h_sum0ErrorBperLS7->Fill(float(lscounterM1), bbb1);
                   }
                 }
                 // HO:
                 if (k0 == 2) {
                   // HOdepth4
                   if (k1 + 1 == 4) {
                     h_sumErrorBLS8->Fill(bbbc / bbb1);
                     h_2DsumErrorBLS8->Fill(double(ieta), double(k3), bbbc);
                     h_2D0sumErrorBLS8->Fill(double(ieta), double(k3), bbb1);
                     h_sumErrorBperLS8->Fill(float(lscounterM1), bbbc);
                     h_sum0ErrorBperLS8->Fill(float(lscounterM1), bbb1);
                   }
                 }
               }  //if(sumEstimator6[k0][k1][k2][k3] != 0.
             }    //for k2
             // occupancy distributions for error-A:
             // HB
             if (k0 == 0 && k1 == 0) {
               if (pcountmin1 > 0) {
                 if (pcountmin1 < pnnmin1)
                   pnnmin1 = pcountmin1;
                 pcountmin1 = 0;
               }
               if (mcountmin1 > 0) {
                 if (mcountmin1 < mnnmin1)
                   mnnmin1 = mcountmin1;
                 mcountmin1 = 0;
                 mnnbins1++;
               }
             }  //
             // HE
             if (k0 == 1 && k1 == 0) {
               if (pcountmin3 > 0) {
                 if (pcountmin3 < pnnmin3)
                   pnnmin3 = pcountmin3;
                 pcountmin3 = 0;
               }
               if (mcountmin3 > 0) {
                 if (mcountmin3 < mnnmin3)
                   mnnmin3 = mcountmin3;
                 mcountmin3 = 0;
                 mnnbins3++;
               }
             }  //
             // HO
             if (k0 == 2 && k1 == 3) {
               if (pcountmin8 > 0) {
                 if (pcountmin8 < pnnmin8)
                   pnnmin8 = pcountmin8;
                 pcountmin8 = 0;
               }
               if (mcountmin8 > 0) {
                 if (mcountmin8 < mnnmin8)
                   mnnmin8 = mcountmin8;
                 mcountmin8 = 0;
                 mnnbins8++;
               }
             }  //
             // HF
             if (k0 == 3 && k1 == 0) {
               if (pcountmin6 > 0) {
                 if (pcountmin6 < pnnmin6)
                   pnnmin6 = pcountmin6;
                 pcountmin6 = 0;
               }
               if (mcountmin6 > 0) {
                 if (mcountmin6 < mnnmin6)
                   mnnmin6 = mcountmin6;
                 mcountmin6 = 0;
                 mnnbins6++;
               }
             }  //

           }  //for k3
         }    //for k1
       }      //for k0

       //   cout<<"=============================== lscounterM1 = "<<   (float)lscounterM1    <<endl;

       float patiooccupancy1 = 0.;
       if (pcountall1 != 0)
         patiooccupancy1 = (float)pnnmin1 * mnnbins1 / pcountall1;
       h_RatioOccupancy_HBM->Fill(float(lscounterM1), patiooccupancy1);
       float matiooccupancy1 = 0.;
       if (mcountall1 != 0)
         matiooccupancy1 = (float)mnnmin1 * mnnbins1 / mcountall1;
       h_RatioOccupancy_HBP->Fill(float(lscounterM1), matiooccupancy1);

       float patiooccupancy3 = 0.;
       if (pcountall3 != 0)
         patiooccupancy3 = (float)pnnmin3 * mnnbins3 / pcountall3;
       h_RatioOccupancy_HEM->Fill(float(lscounterM1), patiooccupancy3);
       float matiooccupancy3 = 0.;
       if (mcountall3 != 0)
         matiooccupancy3 = (float)mnnmin3 * mnnbins3 / mcountall3;
       h_RatioOccupancy_HEP->Fill(float(lscounterM1), matiooccupancy3);

       float patiooccupancy6 = 0.;
       if (pcountall6 != 0)
         patiooccupancy6 = (float)pnnmin6 * mnnbins6 / pcountall6;
       h_RatioOccupancy_HFM->Fill(float(lscounterM1), patiooccupancy6);
       float matiooccupancy6 = 0.;
       if (mcountall6 != 0)
         matiooccupancy6 = (float)mnnmin6 * mnnbins6 / mcountall6;
       h_RatioOccupancy_HFP->Fill(float(lscounterM1), matiooccupancy6);

       float patiooccupancy8 = 0.;
       if (pcountall8 != 0)
         patiooccupancy8 = (float)pnnmin8 * mnnbins8 / pcountall8;
       h_RatioOccupancy_HOM->Fill(float(lscounterM1), patiooccupancy8);
       float matiooccupancy8 = 0.;
       if (mcountall8 != 0)
         matiooccupancy8 = (float)mnnmin8 * mnnbins8 / mcountall8;
       h_RatioOccupancy_HOP->Fill(float(lscounterM1), matiooccupancy8);

       for (int k0 = 0; k0 < nsub; k0++) {
         for (int k1 = 0; k1 < ndepth; k1++) {
           for (int k2 = 0; k2 < neta; k2++) {
             for (int k3 = 0; k3 < nphi; k3++) {
               // reset massives:
               sumEstimator0[k0][k1][k2][k3] = 0.;
               sumEstimator1[k0][k1][k2][k3] = 0.;
               sumEstimator2[k0][k1][k2][k3] = 0.;
               sumEstimator3[k0][k1][k2][k3] = 0.;
               sumEstimator4[k0][k1][k2][k3] = 0.;
               sumEstimator5[k0][k1][k2][k3] = 0.;
               sumEstimator6[k0][k1][k2][k3] = 0.;
               sum0Estimator[k0][k1][k2][k3] = 0.;
             }  //for
           }    //for
         }      //for
       }        //for

       //------------------------------------------------------                        averSIGNAL
       averSIGNALoccupancy_HB /= float(nevcounter0);
       h_averSIGNALoccupancy_HB->Fill(float(lscounterM1), averSIGNALoccupancy_HB);
       averSIGNALoccupancy_HE /= float(nevcounter0);
       h_averSIGNALoccupancy_HE->Fill(float(lscounterM1), averSIGNALoccupancy_HE);
       averSIGNALoccupancy_HF /= float(nevcounter0);
       h_averSIGNALoccupancy_HF->Fill(float(lscounterM1), averSIGNALoccupancy_HF);
       averSIGNALoccupancy_HO /= float(nevcounter0);
       h_averSIGNALoccupancy_HO->Fill(float(lscounterM1), averSIGNALoccupancy_HO);

       averSIGNALoccupancy_HB = 0.;
       averSIGNALoccupancy_HE = 0.;
       averSIGNALoccupancy_HF = 0.;
       averSIGNALoccupancy_HO = 0.;

       //------------------------------------------------------
       averSIGNALsumamplitude_HB /= float(nevcounter0);
       h_averSIGNALsumamplitude_HB->Fill(float(lscounterM1), averSIGNALsumamplitude_HB);
       averSIGNALsumamplitude_HE /= float(nevcounter0);
       h_averSIGNALsumamplitude_HE->Fill(float(lscounterM1), averSIGNALsumamplitude_HE);
       averSIGNALsumamplitude_HF /= float(nevcounter0);
       h_averSIGNALsumamplitude_HF->Fill(float(lscounterM1), averSIGNALsumamplitude_HF);
       averSIGNALsumamplitude_HO /= float(nevcounter0);
       h_averSIGNALsumamplitude_HO->Fill(float(lscounterM1), averSIGNALsumamplitude_HO);

       averSIGNALsumamplitude_HB = 0.;
       averSIGNALsumamplitude_HE = 0.;
       averSIGNALsumamplitude_HF = 0.;
       averSIGNALsumamplitude_HO = 0.;

       //------------------------------------------------------                        averNOSIGNAL
       averNOSIGNALoccupancy_HB /= float(nevcounter0);
       h_averNOSIGNALoccupancy_HB->Fill(float(lscounterM1), averNOSIGNALoccupancy_HB);
       averNOSIGNALoccupancy_HE /= float(nevcounter0);
       h_averNOSIGNALoccupancy_HE->Fill(float(lscounterM1), averNOSIGNALoccupancy_HE);
       averNOSIGNALoccupancy_HF /= float(nevcounter0);
       h_averNOSIGNALoccupancy_HF->Fill(float(lscounterM1), averNOSIGNALoccupancy_HF);
       averNOSIGNALoccupancy_HO /= float(nevcounter0);
       h_averNOSIGNALoccupancy_HO->Fill(float(lscounterM1), averNOSIGNALoccupancy_HO);

       averNOSIGNALoccupancy_HB = 0.;
       averNOSIGNALoccupancy_HE = 0.;
       averNOSIGNALoccupancy_HF = 0.;
       averNOSIGNALoccupancy_HO = 0.;

       //------------------------------------------------------
       averNOSIGNALsumamplitude_HB /= float(nevcounter0);
       h_averNOSIGNALsumamplitude_HB->Fill(float(lscounterM1), averNOSIGNALsumamplitude_HB);
       averNOSIGNALsumamplitude_HE /= float(nevcounter0);
       h_averNOSIGNALsumamplitude_HE->Fill(float(lscounterM1), averNOSIGNALsumamplitude_HE);
       averNOSIGNALsumamplitude_HF /= float(nevcounter0);
       h_averNOSIGNALsumamplitude_HF->Fill(float(lscounterM1), averNOSIGNALsumamplitude_HF);
       averNOSIGNALsumamplitude_HO /= float(nevcounter0);
       h_averNOSIGNALsumamplitude_HO->Fill(float(lscounterM1), averNOSIGNALsumamplitude_HO);

       averNOSIGNALsumamplitude_HB = 0.;
       averNOSIGNALsumamplitude_HE = 0.;
       averNOSIGNALsumamplitude_HF = 0.;
       averNOSIGNALsumamplitude_HO = 0.;

       //------------------------------------------------------   maxxSA and maxxOccupancy
       h_maxxSUMAmpl_HB->Fill(float(lscounterM1), maxxSUM1);
       h_maxxSUMAmpl_HE->Fill(float(lscounterM1), maxxSUM2);
       h_maxxSUMAmpl_HO->Fill(float(lscounterM1), maxxSUM3);
       h_maxxSUMAmpl_HF->Fill(float(lscounterM1), maxxSUM4);
       maxxSUM1 = 0.;
       maxxSUM2 = 0.;
       maxxSUM3 = 0.;
       maxxSUM4 = 0.;
       //------------------------------------------------------
       h_maxxOCCUP_HB->Fill(float(lscounterM1), maxxOCCUP1);
       h_maxxOCCUP_HE->Fill(float(lscounterM1), maxxOCCUP2);
       h_maxxOCCUP_HO->Fill(float(lscounterM1), maxxOCCUP3);
       h_maxxOCCUP_HF->Fill(float(lscounterM1), maxxOCCUP4);
       maxxOCCUP1 = 0.;
       maxxOCCUP2 = 0.;
       maxxOCCUP3 = 0.;
       maxxOCCUP4 = 0.;

       //------------------------------------------------------
     }  //if(nevcounter0 != 0)
        //  POINT1

     // for upgrade:
     for (int k1 = 0; k1 < ndepth; k1++) {
       for (int k2 = 0; k2 < neta; k2++) {
         for (int k3 = 0; k3 < nphi; k3++) {
           if (studyCalibCellsHist_) {
             signal[k1][k2][k3] = 0.;
             calibt[k1][k2][k3] = 0.;
             calibcapiderror[k1][k2][k3] = 0;
             caliba[k1][k2][k3] = 0.;
             calibw[k1][k2][k3] = 0.;
             calib0[k1][k2][k3] = 0.;
             signal3[k1][k2][k3] = 0.;
             calib3[k1][k2][k3] = 0.;
             calib2[k1][k2][k3] = 0.;
           }
           if (studyRunDependenceHist_) {
             for (int k0 = 0; k0 < nsub; k0++) {
               badchannels[k0][k1][k2][k3] = 0;
             }  //for
           }    //if

         }  //for
       }    //for
     }      //for
     for (int k0 = 0; k0 < nsub; k0++) {
       for (int k1 = 0; k1 < ndepth; k1++) {
         for (int k2 = 0; k2 < neta; k2++) {
           for (int k3 = 0; k3 < nphi; k3++) {
             amplitudechannel0[k0][k1][k2][k3] = 0.;
             amplitudechannel[k0][k1][k2][k3] = 0.;
             amplitudechannel2[k0][k1][k2][k3] = 0.;

             tocamplchannel[k0][k1][k2][k3] = 0.;
             maprphinorm[k0][k1][k2][k3] = 0.;
             // phi-symmetry monitoring for calibration group:
             // rec energy:
             recSignalEnergy0[k0][k1][k2][k3] = 0.;
             recSignalEnergy1[k0][k1][k2][k3] = 0.;
             recSignalEnergy2[k0][k1][k2][k3] = 0.;
             recNoiseEnergy0[k0][k1][k2][k3] = 0.;
             recNoiseEnergy1[k0][k1][k2][k3] = 0.;
             recNoiseEnergy2[k0][k1][k2][k3] = 0.;

           }  //k3
         }    //k2
       }      //k1
     }        //k0

     if (flagToUseDigiCollectionsORNot_ != 0) {
       if (flagupgradeqie1011_ != 2 && flagupgradeqie1011_ != 3 && flagupgradeqie1011_ != 6 &&
           flagupgradeqie1011_ != 7 && flagupgradeqie1011_ != 8) {
         edm::Handle<HFDigiCollection> hf;
         iEvent.getByToken(tok_hf_, hf);
         bool gotHFDigis = true;
         if (!(iEvent.getByToken(tok_hf_, hf))) {
           gotHFDigis = false;
         }  //this is a boolean set up to check if there are HFdigis in input root file
         if (!(hf.isValid())) {
           gotHFDigis = false;
         }  //if it is not there, leave it false
         if (!gotHFDigis) {
           std::cout << " ******************************  ===========================   No HFDigiCollection found "
                     << std::endl;
         } else {
           for (HFDigiCollection::const_iterator digi = hf->begin(); digi != hf->end(); digi++) {
             eta = digi->id().ieta();
             phi = digi->id().iphi();
             depth = digi->id().depth();
             nTS = digi->size();
             counterhf++;
             if (recordHistoes_ && studyCapIDErrorsHist_)
               fillDigiErrorsHF(digi);
             if (recordHistoes_)
               fillDigiAmplitudeHF(digi);
             if (recordHistoes_ && studyCalibCellsHist_) {
               int iphi = phi - 1;
               int ieta = eta;
               if (ieta > 0)
                 ieta -= 1;
               if (nTS <= numOfTS)
                 for (int i = 0; i < nTS; i++) {
                   TS_data[i] = adc2fC[digi->sample(i).adc()];
                   signal[3][ieta + 41][iphi] += TS_data[i];
                   if (i > 1 && i < 6)
                     signal3[3][ieta + 41][iphi] += TS_data[i];
                 }  // TS
             }      // if(recordHistoes_ && studyCalibCellsHist_)
           }        // for
         }          // hf.isValid
       }            // end flagupgrade

       // upgrade:
       if (flagupgradeqie1011_ != 1) {
         edm::Handle<QIE10DigiCollection> hfqie10;
         iEvent.getByToken(tok_qie10_, hfqie10);
         const QIE10DigiCollection& qie10dc =
             *(hfqie10);
         bool gotQIE10Digis = true;
         if (!(iEvent.getByToken(tok_qie10_, hfqie10))) {
           gotQIE10Digis = false;
         }  //this is a boolean set up to check if there are HFdigis in input root file
         if (!(hfqie10.isValid())) {
           gotQIE10Digis = false;
         }  //if it is not there, leave it false
         if (!gotQIE10Digis) {
           std::cout << " No QIE10DigiCollection collection is found " << std::endl;
         } else {
           double totalAmplitudeHF = 0.;
           for (unsigned int j = 0; j < qie10dc.size(); j++) {
             QIE10DataFrame qie10df = static_cast<QIE10DataFrame>(qie10dc[j]);
             DetId detid = qie10df.detid();
             HcalDetId hcaldetid = HcalDetId(detid);
             int eta = hcaldetid.ieta();
             int phi = hcaldetid.iphi();
             //  int depth = hcaldetid.depth();
             // loop over the samples in the digi
             nTS = qie10df.samples();
             counterhfqie10++;
             if (recordHistoes_ && studyCapIDErrorsHist_)
               fillDigiErrorsHFQIE10(qie10df);
             if (recordHistoes_)
               fillDigiAmplitudeHFQIE10(qie10df);
             //     if(recordHistoes_ ) {
             if (recordHistoes_ && studyCalibCellsHist_) {
               int iphi = phi - 1;
               int ieta = eta;
               if (ieta > 0)
                 ieta -= 1;
               double amplitudefullTSs = 0.;
               double nnnnnnTS = 0.;
               for (int i = 0; i < nTS; ++i) {
                 // j - QIE channel
                 // i - time sample (TS)
                 int adc = qie10df[i].adc();
                 // !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
                 //        float charge = adc2fC_QIE10[ adc ];
                 TS_data[i] = adc2fC_QIE10[adc];
                 signal[3][ieta + 41][iphi] += TS_data[i];
                 totalAmplitudeHF += TS_data[i];
                 amplitudefullTSs += TS_data[i];
                 nnnnnnTS++;
                 if (i > 1 && i < 6)
                   signal3[3][ieta + 41][iphi] += TS_data[i];

               }  // TS
               h_numberofhitsHFtest->Fill(nnnnnnTS);
               h_AmplitudeHFtest->Fill(amplitudefullTSs);
             }  // if(recordHistoes_ && studyCalibCellsHist_)
           }    // for
           h_totalAmplitudeHF->Fill(totalAmplitudeHF);
           h_totalAmplitudeHFperEvent->Fill(float(eventcounter), totalAmplitudeHF);
         }  // hfqie10.isValid
       }    // end flagupgrade
       //end upgrade
       //
       //
       int qwert1 = 0;
       int qwert2 = 0;
       int qwert3 = 0;
       int qwert4 = 0;
       int qwert5 = 0;
       if (flagupgradeqie1011_ != 2 && flagupgradeqie1011_ != 3) {
         edm::Handle<HBHEDigiCollection> hbhe;
         iEvent.getByToken(tok_hbhe_, hbhe);
         bool gotHBHEDigis = true;
         if (!(iEvent.getByToken(tok_hbhe_, hbhe)))
           gotHBHEDigis = false;  //this is a boolean set up to check if there are HBHEgigis in input root file
         if (!(hbhe.isValid()))
           gotHBHEDigis = false;  //if it is not there, leave it false
         if (!gotHBHEDigis) {
           std::cout << " No HBHEDigiCollection collection is found " << std::endl;
         } else {
           //      unsigned int NHBHEDigiCollectionsize =  hbhe->size();
           double totalAmplitudeHB = 0.;
           double totalAmplitudeHE = 0.;
           double nnnnnnTSHB = 0.;
           double nnnnnnTSHE = 0.;

           for (HBHEDigiCollection::const_iterator digi = hbhe->begin(); digi != hbhe->end(); digi++) {
             eta = digi->id().ieta();
             phi = digi->id().iphi();
             depth = digi->id().depth();
             nTS = digi->size();
             nnnnnnhbhe++;
             nnnnnn++;
             if (digi->id().subdet() == HcalBarrel && depth == 1 && qwert1 == 0) {
               nnnnnn1++;
               qwert1 = 1;
             }
             if (digi->id().subdet() == HcalBarrel && depth == 2 && qwert2 == 0) {
               nnnnnn2++;
               qwert2 = 1;
             }
             if (digi->id().subdet() == HcalEndcap && depth == 1 && qwert3 == 0) {
               nnnnnn3++;
               qwert3 = 1;
             }
             if (digi->id().subdet() == HcalEndcap && depth == 2 && qwert4 == 0) {
               nnnnnn4++;
               qwert4 = 1;
             }
             if (digi->id().subdet() == HcalEndcap && depth == 3 && qwert5 == 0) {
               nnnnnn5++;
               qwert5 = 1;
             }
             if (recordHistoes_ && studyCapIDErrorsHist_)
               fillDigiErrors(digi);
             if (recordHistoes_)
               fillDigiAmplitude(digi);

             if (recordHistoes_ && studyCalibCellsHist_) {
               int iphi = phi - 1;
               int ieta = eta;
               if (ieta > 0)
                 ieta -= 1;
               if (digi->id().subdet() == HcalBarrel) {
                 double amplitudefullTSs = 0.;
                 nnnnnnTSHB++;
                 if (nTS <= numOfTS)
                   for (int i = 0; i < nTS; i++) {
                     TS_data[i] = adc2fC[digi->sample(i).adc()];
                     signal[0][ieta + 41][iphi] += TS_data[i];
                     amplitudefullTSs += TS_data[i];
                     totalAmplitudeHB += TS_data[i];
                     if (i > 1 && i < 6)
                       signal3[0][ieta + 41][iphi] += TS_data[i];
                   }
                 h_AmplitudeHBtest->Fill(amplitudefullTSs);
               }  // HB
               if (digi->id().subdet() == HcalEndcap) {
                 double amplitudefullTSs = 0.;
                 nnnnnnTSHE++;
                 if (nTS <= numOfTS)
                   for (int i = 0; i < nTS; i++) {
                     TS_data[i] = adc2fC[digi->sample(i).adc()];
                     signal[1][ieta + 41][iphi] += TS_data[i];
                     totalAmplitudeHE += TS_data[i];
                     amplitudefullTSs += TS_data[i];
                     if (i > 1 && i < 6)
                       signal3[1][ieta + 41][iphi] += TS_data[i];
                   }
                 h_AmplitudeHEtest->Fill(amplitudefullTSs);
               }  // HE

             }  //if(recordHistoes_ && studyCalibCellsHist_)
             if (recordNtuples_ && nevent50 < maxNeventsInNtuple_) {
             }  //if(recordNtuples_)
           }    // for HBHE digis
           if (totalAmplitudeHB != 0.) {
             h_numberofhitsHBtest->Fill(nnnnnnTSHB);
             h_totalAmplitudeHB->Fill(totalAmplitudeHB);
             h_totalAmplitudeHBperEvent->Fill(float(eventcounter), totalAmplitudeHB);
           }
           if (totalAmplitudeHE != 0.) {
             h_numberofhitsHEtest->Fill(nnnnnnTSHE);
             h_totalAmplitudeHE->Fill(totalAmplitudeHE);
             h_totalAmplitudeHEperEvent->Fill(float(eventcounter), totalAmplitudeHE);
           }
         }  //hbhe.isValid
       }    // end flagupgrade
       //---------------------------------------------------------------
       // upgrade:
       if (flagupgradeqie1011_ != 1 && flagupgradeqie1011_ != 4 && flagupgradeqie1011_ != 5 &&
           flagupgradeqie1011_ != 10) {
         edm::Handle<QIE11DigiCollection> heqie11;
         iEvent.getByToken(tok_qie11_, heqie11);
         const QIE11DigiCollection& qie11dc =
             *(heqie11);
         bool gotQIE11Digis = true;
         if (!(iEvent.getByToken(tok_qie11_, heqie11)))
           gotQIE11Digis = false;  //this is a boolean set up to check if there are QIE11gigis in input root file
         if (!(heqie11.isValid()))
           gotQIE11Digis = false;  //if it is not there, leave it false
         if (!gotQIE11Digis) {
           std::cout << " No QIE11DigiCollection collection is found " << std::endl;
         } else {
           double totalAmplitudeHBQIE11 = 0.;
           double totalAmplitudeHEQIE11 = 0.;
           double nnnnnnTSHBQIE11 = 0.;
           double nnnnnnTSHEQIE11 = 0.;
           for (unsigned int j = 0; j < qie11dc.size(); j++) {
             QIE11DataFrame qie11df = static_cast<QIE11DataFrame>(qie11dc[j]);
             DetId detid = qie11df.detid();
             HcalDetId hcaldetid = HcalDetId(detid);
             int eta = hcaldetid.ieta();
             int phi = hcaldetid.iphi();
             int depth = hcaldetid.depth();
             if (depth == 0)
               return;
             int sub = hcaldetid.subdet();  // 1-HB, 2-HE (HFDigiCollection: 4-HF)
             // loop over the samples in the digi
             nTS = qie11df.samples();
             nnnnnnhbheqie11++;
             nnnnnn++;
             if (recordHistoes_ && studyCapIDErrorsHist_)
               fillDigiErrorsQIE11(qie11df);
             if (recordHistoes_)
               fillDigiAmplitudeQIE11(qie11df);
             if (sub == 1 && depth == 1 && qwert1 == 0) {
               nnnnnn1++;
               qwert1 = 1;
             }
             if (sub == 1 && depth == 2 && qwert2 == 0) {
               nnnnnn2++;
               qwert2 = 1;
             }
             if (sub == 2 && depth == 1 && qwert3 == 0) {
               nnnnnn3++;
               qwert3 = 1;
             }
             if (sub == 2 && depth == 2 && qwert4 == 0) {
               nnnnnn4++;
               qwert4 = 1;
             }
             if (sub == 2 && depth == 3 && qwert5 == 0) {
               nnnnnn5++;
               qwert5 = 1;
             }

             if (recordHistoes_ && studyCalibCellsHist_) {
               int iphi = phi - 1;
               int ieta = eta;
               if (ieta > 0)
                 ieta -= 1;
               // HB:
               if (sub == 1) {
                 double amplitudefullTSs1 = 0.;
                 double amplitudefullTSs6 = 0.;
                 nnnnnnTSHBQIE11++;
                 for (int i = 0; i < nTS; ++i) {
                   int adc = qie11df[i].adc();
                   double charge1 = adc2fC_QIE11_shunt1[adc];
                   double charge6 = adc2fC_QIE11_shunt6[adc];
                   amplitudefullTSs1 += charge1;
                   amplitudefullTSs6 += charge6;
                   double charge = charge6;
                   TS_data[i] = charge;
                   signal[0][ieta + 41][iphi] += charge;
                   if (i > 1 && i < 6)
                     signal3[0][ieta + 41][iphi] += charge;
                   totalAmplitudeHBQIE11 += charge;
                 }  //for
                 h_AmplitudeHBtest1->Fill(amplitudefullTSs1, 1.);
                 h_AmplitudeHBtest6->Fill(amplitudefullTSs6, 1.);
               }  //HB end
               // HE:
               if (sub == 2) {
                 double amplitudefullTSs1 = 0.;
                 double amplitudefullTSs6 = 0.;
                 nnnnnnTSHEQIE11++;
                 for (int i = 0; i < nTS; i++) {
                   int adc = qie11df[i].adc();
                   double charge1 = adc2fC_QIE11_shunt1[adc];
                   double charge6 = adc2fC_QIE11_shunt6[adc];
                   amplitudefullTSs1 += charge1;
                   amplitudefullTSs6 += charge6;
                   double charge = charge6;
                   TS_data[i] = charge;
                   signal[1][ieta + 41][iphi] += charge;
                   if (i > 1 && i < 6)
                     signal3[1][ieta + 41][iphi] += charge;
                   totalAmplitudeHEQIE11 += charge;
                 }  //for
                 h_AmplitudeHEtest1->Fill(amplitudefullTSs1, 1.);
                 h_AmplitudeHEtest6->Fill(amplitudefullTSs6, 1.);

               }  //HE end
             }    //if(recordHistoes_ && studyCalibCellsHist_)
           }      // for QIE11 digis

           if (totalAmplitudeHBQIE11 != 0.) {
             h_numberofhitsHBtest->Fill(nnnnnnTSHBQIE11);
             h_totalAmplitudeHB->Fill(totalAmplitudeHBQIE11);
             h_totalAmplitudeHBperEvent->Fill(float(eventcounter), totalAmplitudeHBQIE11);
           }
           if (totalAmplitudeHEQIE11 != 0.) {
             h_numberofhitsHEtest->Fill(nnnnnnTSHEQIE11);
             h_totalAmplitudeHE->Fill(totalAmplitudeHEQIE11);
             h_totalAmplitudeHEperEvent->Fill(float(eventcounter), totalAmplitudeHEQIE11);
           }
         }  //heqie11.isValid
       }    // end flagupgrade

       edm::Handle<HODigiCollection> ho;
       iEvent.getByToken(tok_ho_, ho);
       bool gotHODigis = true;
       if (!(iEvent.getByToken(tok_ho_, ho)))
         gotHODigis = false;  //this is a boolean set up to check if there are HOgigis in input root file
       if (!(ho.isValid()))
         gotHODigis = false;  //if it is not there, leave it false
       if (!gotHODigis) {
         //  if(!ho.isValid()) {
         std::cout << " No HO collection is found " << std::endl;
       } else {
         int qwert6 = 0;
         double totalAmplitudeHO = 0.;
         for (HODigiCollection::const_iterator digi = ho->begin(); digi != ho->end(); digi++) {
           eta = digi->id().ieta();
           phi = digi->id().iphi();
           depth = digi->id().depth();
           nTS = digi->size();
           counterho++;
           if (qwert6 == 0) {
             nnnnnn6++;
             qwert6 = 1;
           }
           if (recordHistoes_ && studyCapIDErrorsHist_)
             fillDigiErrorsHO(digi);
           if (recordHistoes_)
             fillDigiAmplitudeHO(digi);
           if (recordHistoes_ && studyCalibCellsHist_) {
             int iphi = phi - 1;
             int ieta = eta;
             if (ieta > 0)
               ieta -= 1;
             double nnnnnnTS = 0.;
             double amplitudefullTSs = 0.;
             if (nTS <= numOfTS)
               for (int i = 0; i < nTS; i++) {
                 TS_data[i] = adc2fC[digi->sample(i).adc()];
                 amplitudefullTSs += TS_data[i];
                 signal[2][ieta + 41][iphi] += TS_data[i];
                 totalAmplitudeHO += TS_data[i];
                 if (i > 1 && i < 6)
                   signal3[2][ieta + 41][iphi] += TS_data[i];
                 nnnnnnTS++;
               }  //if for
             h_AmplitudeHOtest->Fill(amplitudefullTSs);
             h_numberofhitsHOtest->Fill(nnnnnnTS);
           }  //if(recordHistoes_ && studyCalibCellsHist_)
         }    //for HODigiCollection

         h_totalAmplitudeHO->Fill(totalAmplitudeHO);
         h_totalAmplitudeHOperEvent->Fill(float(eventcounter), totalAmplitudeHO);
       }  //ho.isValid(
     }    // flagToUseDigiCollectionsORNot_

     // AZ 04.11.2019
     if (flagIterativeMethodCalibrationGroupReco_ > 0) {
       // HBHE:    HBHERecHitCollection hbheNoise Noise
       edm::Handle<HBHERecHitCollection> hbheNoise;
       iEvent.getByToken(tok_hbheNoise_, hbheNoise);
       bool gotHBHERecHitsNoise = true;
       if (!(iEvent.getByToken(tok_hbheNoise_, hbheNoise)))
         gotHBHERecHitsNoise =
             false;  //this is a boolean set up to check if there are HBHERecHitsNoise in input root file
       if (!(hbheNoise.isValid()))
         gotHBHERecHitsNoise = false;  //if it is not there, leave it false
       if (!gotHBHERecHitsNoise) {
         //  if(!hbheNoise.isValid()) {
         std::cout << " No RecHits HBHENoise collection is found " << std::endl;
       } else {
         for (HBHERecHitCollection::const_iterator hbheItr = hbheNoise->begin(); hbheItr != hbheNoise->end();
              hbheItr++) {
           // Recalibration of energy
           float icalconst = 1.;
           //      DetId mydetid = hbheItr->id().rawId();
           //      if( theRecalib ) icalconst=myRecalib->getValues(mydetid)->getValue();
           HBHERecHit aHit(hbheItr->id(), hbheItr->eraw() * icalconst, hbheItr->time());
           //        HBHERecHit aHit(hbheItr->id(), hbheItr->energy() * icalconst, hbheItr->time());
           double energyhit = aHit.energy();
           DetId id = (*hbheItr).detid();
           HcalDetId hid = HcalDetId(id);
           int sub = ((hid).rawId() >> 25) & 0x7;

           if (sub == 1)
             h_energyhitNoise_HB->Fill(energyhit, 1.);
           if (sub == 2)
             h_energyhitNoise_HE->Fill(energyhit, 1.);
           //    if(fabs(energyhit) > 40. ) continue;

           //std::cout<<sub<<std::endl;
           if (hid.depth() == 1 && sub == 1 && hid.iphi() == 25) {
             if (verbosity < 0)
               std::cout << " Noise,sub = " << sub << " mdepth = " << hid.depth() << "  ieta= " << hid.ieta()
                         << "  iphi= " << hid.iphi() << "  energyhit= " << energyhit << std::endl;
           }
           if (hid.depth() == 1 && sub == 2 && hid.iphi() == 25) {
             if (verbosity < 0)
               std::cout << " Noise,sub = " << sub << " mdepth = " << hid.depth() << "  ieta= " << hid.ieta()
                         << "  iphi= " << hid.iphi() << "  energyhit= " << energyhit << std::endl;
           }
           int ieta = hid.ieta();  // -15 ... -1; 1... 15 for HB
           if (ieta > 0)
             ieta -= 1;  // -15 ... -1; 0... 14 for HB
           int iphi = hid.iphi() - 1;
           int mdepth = hid.depth();
           recNoiseEnergy0[sub - 1][mdepth - 1][ieta + 41][iphi] += 1.;
           recNoiseEnergy1[sub - 1][mdepth - 1][ieta + 41][iphi] += energyhit;
           recNoiseEnergy2[sub - 1][mdepth - 1][ieta + 41][iphi] += pow(energyhit, 2);
         }  // hbheNoise
       }    //hbheNoise.isValid(

       // HF:    HFRecHitCollection hfNoise Noise
       edm::Handle<HFRecHitCollection> hfNoise;
       iEvent.getByToken(tok_hfNoise_, hfNoise);
       bool gotHFRecHitsNoise = true;
       if (!(iEvent.getByToken(tok_hfNoise_, hfNoise)))
         gotHFRecHitsNoise = false;  //this is a boolean set up to check if there are HFRecHitsNoise in input root file
       if (!(hfNoise.isValid()))
         gotHFRecHitsNoise = false;  //if it is not there, leave it false
       if (!gotHFRecHitsNoise) {
         //  if(!hfNoise.isValid()) {
         std::cout << " No RecHits HFNoise collection is found " << std::endl;
       } else {
         for (HFRecHitCollection::const_iterator hfItr = hfNoise->begin(); hfItr != hfNoise->end(); hfItr++) {
           // Recalibration of energy
           float icalconst = 1.;
           //      DetId mydetid = hfItr->id().rawId();
           //      if( theRecalib ) icalconst=myRecalib->getValues(mydetid)->getValue();
           HFRecHit aHit(hfItr->id(), hfItr->energy() * icalconst, hfItr->time());
           double energyhit = aHit.energy();
           DetId id = (*hfItr).detid();
           HcalDetId hid = HcalDetId(id);
           int sub = ((hid).rawId() >> 25) & 0x7;

           h_energyhitNoise_HF->Fill(energyhit, 1.);
           //    if(fabs(energyhit) > 40. ) continue;

           //std::cout<<sub<<std::endl;
           if (hid.iphi() == 25) {
             if (verbosity < 0)
               std::cout << "HF Noise,sub = " << sub << " mdepth = " << hid.depth() << "  ieta= " << hid.ieta()
                         << "  iphi= " << hid.iphi() << "  energyhit= " << energyhit << std::endl;
           }
           int ieta = hid.ieta();  // -15 ... -1; 1... 15 for HB
           if (ieta > 0)
             ieta -= 1;  // -15 ... -1; 0... 14 for HB
           int iphi = hid.iphi() - 1;
           int mdepth = hid.depth();
           recNoiseEnergy0[sub - 1][mdepth - 1][ieta + 41][iphi] += 1.;
           recNoiseEnergy1[sub - 1][mdepth - 1][ieta + 41][iphi] += energyhit;
           recNoiseEnergy2[sub - 1][mdepth - 1][ieta + 41][iphi] += pow(energyhit, 2);
         }  // hfNoise
       }    //hfNoise.isValid(

       // HBHE:    HBHERecHitCollection hbheSignal Signal
       edm::Handle<HBHERecHitCollection> hbheSignal;
       iEvent.getByToken(tok_hbheSignal_, hbheSignal);
       bool gotHBHERecHitsSignal = true;
       if (!(iEvent.getByToken(tok_hbheSignal_, hbheSignal)))
         gotHBHERecHitsSignal =
             false;  //this is a boolean set up to check if there are HBHERecHitsSignal in input root file
       if (!(hbheSignal.isValid()))
         gotHBHERecHitsSignal = false;  //if it is not there, leave it false
       if (!gotHBHERecHitsSignal) {
         //  if(!hbheSignal.isValid()) {
         std::cout << " No RecHits HBHESignal collection is found " << std::endl;
       } else {
         for (HBHERecHitCollection::const_iterator hbheItr = hbheSignal->begin(); hbheItr != hbheSignal->end();
              hbheItr++) {
           // Recalibration of energy
           float icalconst = 1.;
           //      DetId mydetid = hbheItr->id().rawId();
           //      if( theRecalib ) icalconst=myRecalib->getValues(mydetid)->getValue();
           HBHERecHit aHit(hbheItr->id(), hbheItr->eraw() * icalconst, hbheItr->time());
           //        HBHERecHit aHit(hbheItr->id(), hbheItr->energy() * icalconst, hbheItr->time());
           double energyhit = aHit.energy();
           DetId id = (*hbheItr).detid();
           HcalDetId hid = HcalDetId(id);
           int sub = ((hid).rawId() >> 25) & 0x7;

           if (sub == 1)
             h_energyhitSignal_HB->Fill(energyhit, 1.);
           if (sub == 2)
             h_energyhitSignal_HE->Fill(energyhit, 1.);

           //std::cout<<sub<<std::endl;
           if (hid.depth() == 1 && sub == 1 && hid.iphi() == 25) {
             if (verbosity < 0)
               std::cout << "HBHE Signal,sub = " << sub << " mdepth = " << hid.depth() << "  ieta= " << hid.ieta()
                         << "  iphi= " << hid.iphi() << "  energyhit= " << energyhit << std::endl;
           }
           if (hid.depth() == 1 && sub == 2 && hid.iphi() == 25) {
             if (verbosity < 0)
               std::cout << "HBHE Signal,sub = " << sub << " mdepth = " << hid.depth() << "  ieta= " << hid.ieta()
                         << "  iphi= " << hid.iphi() << "  energyhit= " << energyhit << std::endl;
           }
           int ieta = hid.ieta();  // -15 ... -1; 1... 15 for HB
           if (ieta > 0)
             ieta -= 1;  // -15 ... -1; 0... 14 for HB
           int iphi = hid.iphi() - 1;
           int mdepth = hid.depth();
           recSignalEnergy0[sub - 1][mdepth - 1][ieta + 41][iphi] += 1.;
           recSignalEnergy1[sub - 1][mdepth - 1][ieta + 41][iphi] += energyhit;
           recSignalEnergy2[sub - 1][mdepth - 1][ieta + 41][iphi] += pow(energyhit, 2);
         }  // hbheSignal
       }    //hbheSignal.isValid(

       // HF:    HFRecHitCollection hfSignal Signal
       edm::Handle<HFRecHitCollection> hfSignal;
       iEvent.getByToken(tok_hfSignal_, hfSignal);
       bool gotHFRecHitsSignal = true;
       if (!(iEvent.getByToken(tok_hfSignal_, hfSignal)))
         gotHFRecHitsSignal = false;  //this is a boolean set up to check if there are HFRecHitsSignal in input root file
       if (!(hfSignal.isValid()))
         gotHFRecHitsSignal = false;  //if it is not there, leave it false
       if (!gotHFRecHitsSignal) {
         //  if(!hfSignal.isValid()) {
         std::cout << " No RecHits HFSignal collection is found " << std::endl;
       } else {
         for (HFRecHitCollection::const_iterator hfItr = hfSignal->begin(); hfItr != hfSignal->end(); hfItr++) {
           // Recalibration of energy
           float icalconst = 1.;
           //      DetId mydetid = hfItr->id().rawId();
           //      if( theRecalib ) icalconst=myRecalib->getValues(mydetid)->getValue();
           HFRecHit aHit(hfItr->id(), hfItr->energy() * icalconst, hfItr->time());
           double energyhit = aHit.energy();
           DetId id = (*hfItr).detid();
           HcalDetId hid = HcalDetId(id);
           int sub = ((hid).rawId() >> 25) & 0x7;

           h_energyhitSignal_HF->Fill(energyhit, 1.);
           //    if(fabs(energyhit) > 40. ) continue;

           //std::cout<<sub<<std::endl;
           if (hid.iphi() == 25) {
             if (verbosity < 0)
               std::cout << "HF Signal,sub = " << sub << " mdepth = " << hid.depth() << "  ieta= " << hid.ieta()
                         << "  iphi= " << hid.iphi() << "  energyhit= " << energyhit << std::endl;
           }
           int ieta = hid.ieta();  // -15 ... -1; 1... 15 for HB
           if (ieta > 0)
             ieta -= 1;  // -15 ... -1; 0... 14 for HB
           int iphi = hid.iphi() - 1;
           int mdepth = hid.depth();
           recSignalEnergy0[sub - 1][mdepth - 1][ieta + 41][iphi] += 1.;
           recSignalEnergy1[sub - 1][mdepth - 1][ieta + 41][iphi] += energyhit;
           recSignalEnergy2[sub - 1][mdepth - 1][ieta + 41][iphi] += pow(energyhit, 2);
         }  // hfSignal
       }    //hfSignal.isValid(

       // END of RecHits for phi-symmetry monitoring of calibration group
     }  // flagIterativeMethodCalibrationGroupReco_  >  0


     if (flagIterativeMethodCalibrationGroupDigi_ > 0) {
       //      //      //      //      //      //      // tocdefault tocampl tocamplchannel: calibration group, Iterative method, coding start 29.08.2019
       for (int k0 = 0; k0 < nsub; k0++) {
         // HE only, temporary
         if (k0 == 1) {
           for (int k1 = 0; k1 < ndepth; k1++) {
             // k2: 0-81
             for (int k2 = 0; k2 < neta; k2++) {
               //          int k2plot = k2-41;int kkk = k2; if(k2plot >0 ) kkk=k2+1; //-41 +41 !=0
               int k2plot = k2 - 41;
               int kkk = k2plot;  //if(k2plot >=0 ) kkk=k2plot+1; //-41 +40 !=0
               //preparation for PHI normalization:
               double sumoverphi = 0;
               int nsumoverphi = 0;
               for (int k3 = 0; k3 < nphi; k3++) {
                 if (tocamplchannel[k0][k1][k2][k3] != 0) {
                   sumoverphi += tocamplchannel[k0][k1][k2][k3];
                   ++nsumoverphi;
                   if (verbosity < 0)
                     std::cout << "==== nsumoverphi = " << nsumoverphi << "  sumoverphi = " << sumoverphi
                               << "  k1 = " << k1 << "  k2 = " << k2 << " kkk = " << kkk << "  k3 = " << k3 << std::endl;
                 }  //if != 0
               }    //k3
               // PHI normalization into new massive && filling plots:
               for (int k3 = 0; k3 < nphi; k3++) {
                 if (nsumoverphi != 0) {
                   maprphinorm[k0][k1][k2][k3] = tocamplchannel[k0][k1][k2][k3] / (sumoverphi / nsumoverphi);
                   if (verbosity < 0)
                     std::cout << "nsumoverphi= " << nsumoverphi << " sumoverphi= " << sumoverphi << " k1= " << k1
                               << " k2= " << k2 << " kkk= " << kkk << " k3= " << k3
                               << " maprphinorm= " << maprphinorm[k0][k1][k2][k3] << std::endl;
                   if (k1 == 0) {
                     h_mapenophinorm_HE1->Fill(double(kkk), double(k3), tocamplchannel[k0][k1][k2][k3]);
                     h_mapenophinorm2_HE1->Fill(
                         double(kkk), double(k3), tocamplchannel[k0][k1][k2][k3] * tocamplchannel[k0][k1][k2][k3]);
                     h_maprphinorm_HE1->Fill(double(kkk), double(k3), maprphinorm[k0][k1][k2][k3]);
                     h_maprphinorm2_HE1->Fill(
                         double(kkk), double(k3), maprphinorm[k0][k1][k2][k3] * maprphinorm[k0][k1][k2][k3]);
                     h_maprphinorm0_HE1->Fill(double(kkk), double(k3), 1.);
                   }
                   if (k1 == 1) {
                     h_mapenophinorm_HE2->Fill(double(kkk), double(k3), tocamplchannel[k0][k1][k2][k3]);
                     h_mapenophinorm2_HE2->Fill(
                         double(kkk), double(k3), tocamplchannel[k0][k1][k2][k3] * tocamplchannel[k0][k1][k2][k3]);
                     h_maprphinorm_HE2->Fill(double(kkk), double(k3), maprphinorm[k0][k1][k2][k3]);
                     h_maprphinorm2_HE2->Fill(
                         double(kkk), double(k3), maprphinorm[k0][k1][k2][k3] * maprphinorm[k0][k1][k2][k3]);
                     h_maprphinorm0_HE2->Fill(double(kkk), double(k3), 1.);
                   }
                   if (k1 == 2) {
                     h_mapenophinorm_HE3->Fill(double(kkk), double(k3), tocamplchannel[k0][k1][k2][k3]);
                     h_mapenophinorm2_HE3->Fill(
                         double(kkk), double(k3), tocamplchannel[k0][k1][k2][k3] * tocamplchannel[k0][k1][k2][k3]);
                     h_maprphinorm_HE3->Fill(double(kkk), double(k3), maprphinorm[k0][k1][k2][k3]);
                     h_maprphinorm2_HE3->Fill(
                         double(kkk), double(k3), maprphinorm[k0][k1][k2][k3] * maprphinorm[k0][k1][k2][k3]);
                     h_maprphinorm0_HE3->Fill(double(kkk), double(k3), 1.);
                   }
                   if (k1 == 3) {
                     h_mapenophinorm_HE4->Fill(double(kkk), double(k3), tocamplchannel[k0][k1][k2][k3]);
                     h_mapenophinorm2_HE4->Fill(
                         double(kkk), double(k3), tocamplchannel[k0][k1][k2][k3] * tocamplchannel[k0][k1][k2][k3]);
                     h_maprphinorm_HE4->Fill(double(kkk), double(k3), maprphinorm[k0][k1][k2][k3]);
                     h_maprphinorm2_HE4->Fill(
                         double(kkk), double(k3), maprphinorm[k0][k1][k2][k3] * maprphinorm[k0][k1][k2][k3]);
                     h_maprphinorm0_HE4->Fill(double(kkk), double(k3), 1.);
                   }
                   if (k1 == 4) {
                     h_mapenophinorm_HE5->Fill(double(kkk), double(k3), tocamplchannel[k0][k1][k2][k3]);
                     h_mapenophinorm2_HE5->Fill(
                         double(kkk), double(k3), tocamplchannel[k0][k1][k2][k3] * tocamplchannel[k0][k1][k2][k3]);
                     h_maprphinorm_HE5->Fill(double(kkk), double(k3), maprphinorm[k0][k1][k2][k3]);
                     h_maprphinorm2_HE5->Fill(
                         double(kkk), double(k3), maprphinorm[k0][k1][k2][k3] * maprphinorm[k0][k1][k2][k3]);
                     h_maprphinorm0_HE5->Fill(double(kkk), double(k3), 1.);
                   }
                   if (k1 == 5) {
                     h_mapenophinorm_HE6->Fill(double(kkk), double(k3), tocamplchannel[k0][k1][k2][k3]);
                     h_mapenophinorm2_HE6->Fill(
                         double(kkk), double(k3), tocamplchannel[k0][k1][k2][k3] * tocamplchannel[k0][k1][k2][k3]);
                     h_maprphinorm_HE6->Fill(double(kkk), double(k3), maprphinorm[k0][k1][k2][k3]);
                     h_maprphinorm2_HE6->Fill(
                         double(kkk), double(k3), maprphinorm[k0][k1][k2][k3] * maprphinorm[k0][k1][k2][k3]);
                     h_maprphinorm0_HE6->Fill(double(kkk), double(k3), 1.);
                   }
                   if (k1 == 6) {
                     h_mapenophinorm_HE7->Fill(double(kkk), double(k3), tocamplchannel[k0][k1][k2][k3]);
                     h_mapenophinorm2_HE7->Fill(
                         double(kkk), double(k3), tocamplchannel[k0][k1][k2][k3] * tocamplchannel[k0][k1][k2][k3]);
                     h_maprphinorm_HE7->Fill(double(kkk), double(k3), maprphinorm[k0][k1][k2][k3]);
                     h_maprphinorm2_HE7->Fill(
                         double(kkk), double(k3), maprphinorm[k0][k1][k2][k3] * maprphinorm[k0][k1][k2][k3]);
                     h_maprphinorm0_HE7->Fill(double(kkk), double(k3), 1.);
                   }
                 }  //if nsumoverphi != 0
               }    //k3
             }      //k2
           }        //k1
         }          //if k0 == 1 HE
       }            //k0
       //      //      //      //      //      //        //    //      //      //      //      //        //    //      //      //      //      //        //    //      //      //      //      //
       //      //      //      //      //      //      // amplitudechannel amplitudechannel amplitudechannel: calibration group, Iterative method, coding start 11.11.2019
       for (int k0 = 0; k0 < nsub; k0++) {
         // HB:
         if (k0 == 0) {
           for (int k1 = 0; k1 < ndepth; k1++) {
             // k2: 0-81
             for (int k2 = 0; k2 < neta; k2++) {
               //          int k2plot = k2-41;int kkk = k2; if(k2plot >0 ) kkk=k2+1; //-41 +41 !=0
               int k2plot = k2 - 41;
               int kkk = k2plot;  // if(k2plot >=0 ) kkk=k2plot+1; //-41 +40 !=0
               for (int k3 = 0; k3 < nphi; k3++) {
                 if (k1 == 0) {
                   h_amplitudechannel0_HB1->Fill(double(kkk), double(k3), amplitudechannel0[k0][k1][k2][k3]);
                   h_amplitudechannel1_HB1->Fill(double(kkk), double(k3), amplitudechannel[k0][k1][k2][k3]);
                   h_amplitudechannel2_HB1->Fill(double(kkk), double(k3), amplitudechannel2[k0][k1][k2][k3]);
                 }
                 if (k1 == 1) {
                   h_amplitudechannel0_HB2->Fill(double(kkk), double(k3), amplitudechannel0[k0][k1][k2][k3]);
                   h_amplitudechannel1_HB2->Fill(double(kkk), double(k3), amplitudechannel[k0][k1][k2][k3]);
                   h_amplitudechannel2_HB2->Fill(double(kkk), double(k3), amplitudechannel2[k0][k1][k2][k3]);
                 }
                 if (k1 == 2) {
                   h_amplitudechannel0_HB3->Fill(double(kkk), double(k3), amplitudechannel0[k0][k1][k2][k3]);
                   h_amplitudechannel1_HB3->Fill(double(kkk), double(k3), amplitudechannel[k0][k1][k2][k3]);
                   h_amplitudechannel2_HB3->Fill(double(kkk), double(k3), amplitudechannel2[k0][k1][k2][k3]);
                 }
                 if (k1 == 3) {
                   h_amplitudechannel0_HB4->Fill(double(kkk), double(k3), amplitudechannel0[k0][k1][k2][k3]);
                   h_amplitudechannel1_HB4->Fill(double(kkk), double(k3), amplitudechannel[k0][k1][k2][k3]);
                   h_amplitudechannel2_HB4->Fill(double(kkk), double(k3), amplitudechannel2[k0][k1][k2][k3]);
                 }
               }  //k3
             }    //k2
           }      //k1
         }        //if k0 == 0 HB

         // HE:
         if (k0 == 1) {
           for (int k1 = 0; k1 < ndepth; k1++) {
             // k2: 0-81
             for (int k2 = 0; k2 < neta; k2++) {
               //          int k2plot = k2-41;int kkk = k2; if(k2plot >0 ) kkk=k2+1; //-41 +41 !=0
               int k2plot = k2 - 41;
               int kkk = k2plot;  // if(k2plot >=0 ) kkk=k2plot+1; //-41 +40 !=0
               for (int k3 = 0; k3 < nphi; k3++) {
                 if (k1 == 0) {
                   h_amplitudechannel0_HE1->Fill(double(kkk), double(k3), amplitudechannel0[k0][k1][k2][k3]);
                   h_amplitudechannel1_HE1->Fill(double(kkk), double(k3), amplitudechannel[k0][k1][k2][k3]);
                   h_amplitudechannel2_HE1->Fill(double(kkk), double(k3), amplitudechannel2[k0][k1][k2][k3]);
                 }
                 if (k1 == 1) {
                   h_amplitudechannel0_HE2->Fill(double(kkk), double(k3), amplitudechannel0[k0][k1][k2][k3]);
                   h_amplitudechannel1_HE2->Fill(double(kkk), double(k3), amplitudechannel[k0][k1][k2][k3]);
                   h_amplitudechannel2_HE2->Fill(double(kkk), double(k3), amplitudechannel2[k0][k1][k2][k3]);
                 }
                 if (k1 == 2) {
                   h_amplitudechannel0_HE3->Fill(double(kkk), double(k3), amplitudechannel0[k0][k1][k2][k3]);
                   h_amplitudechannel1_HE3->Fill(double(kkk), double(k3), amplitudechannel[k0][k1][k2][k3]);
                   h_amplitudechannel2_HE3->Fill(double(kkk), double(k3), amplitudechannel2[k0][k1][k2][k3]);
                 }
                 if (k1 == 3) {
                   h_amplitudechannel0_HE4->Fill(double(kkk), double(k3), amplitudechannel0[k0][k1][k2][k3]);
                   h_amplitudechannel1_HE4->Fill(double(kkk), double(k3), amplitudechannel[k0][k1][k2][k3]);
                   h_amplitudechannel2_HE4->Fill(double(kkk), double(k3), amplitudechannel2[k0][k1][k2][k3]);
                 }
                 if (k1 == 4) {
                   h_amplitudechannel0_HE5->Fill(double(kkk), double(k3), amplitudechannel0[k0][k1][k2][k3]);
                   h_amplitudechannel1_HE5->Fill(double(kkk), double(k3), amplitudechannel[k0][k1][k2][k3]);
                   h_amplitudechannel2_HE5->Fill(double(kkk), double(k3), amplitudechannel2[k0][k1][k2][k3]);
                 }
                 if (k1 == 5) {
                   h_amplitudechannel0_HE6->Fill(double(kkk), double(k3), amplitudechannel0[k0][k1][k2][k3]);
                   h_amplitudechannel1_HE6->Fill(double(kkk), double(k3), amplitudechannel[k0][k1][k2][k3]);
                   h_amplitudechannel2_HE6->Fill(double(kkk), double(k3), amplitudechannel2[k0][k1][k2][k3]);
                 }
                 if (k1 == 6) {
                   h_amplitudechannel0_HE7->Fill(double(kkk), double(k3), amplitudechannel0[k0][k1][k2][k3]);
                   h_amplitudechannel1_HE7->Fill(double(kkk), double(k3), amplitudechannel[k0][k1][k2][k3]);
                   h_amplitudechannel2_HE7->Fill(double(kkk), double(k3), amplitudechannel2[k0][k1][k2][k3]);
                 }
               }  //k3
             }    //k2
           }      //k1
         }        //if k0 == 1 HE

         // HF: 4 depthes for Digis and only 2 - for Reco !!!
         if (k0 == 3) {
           for (int k1 = 0; k1 < ndepth; k1++) {
             // k2: 0-81
             for (int k2 = 0; k2 < neta; k2++) {
               //          int k2plot = k2-41;int kkk = k2; if(k2plot >0 ) kkk=k2+1; //-41 +41 !=0
               int k2plot = k2 - 41;
               int kkk = k2plot;  // if(k2plot >=0 ) kkk=k2plot+1; //-41 +40 !=0
               for (int k3 = 0; k3 < nphi; k3++) {
                 if (k1 == 0) {
                   h_amplitudechannel0_HF1->Fill(double(kkk), double(k3), amplitudechannel0[k0][k1][k2][k3]);
                   h_amplitudechannel1_HF1->Fill(double(kkk), double(k3), amplitudechannel[k0][k1][k2][k3]);
                   h_amplitudechannel2_HF1->Fill(double(kkk), double(k3), amplitudechannel2[k0][k1][k2][k3]);
                 }
                 if (k1 == 1) {
                   h_amplitudechannel0_HF2->Fill(double(kkk), double(k3), amplitudechannel0[k0][k1][k2][k3]);
                   h_amplitudechannel1_HF2->Fill(double(kkk), double(k3), amplitudechannel[k0][k1][k2][k3]);
                   h_amplitudechannel2_HF2->Fill(double(kkk), double(k3), amplitudechannel2[k0][k1][k2][k3]);
                 }
                 if (k1 == 2) {
                   h_amplitudechannel0_HF3->Fill(double(kkk), double(k3), amplitudechannel0[k0][k1][k2][k3]);
                   h_amplitudechannel1_HF3->Fill(double(kkk), double(k3), amplitudechannel[k0][k1][k2][k3]);
                   h_amplitudechannel2_HF3->Fill(double(kkk), double(k3), amplitudechannel2[k0][k1][k2][k3]);
                 }
                 if (k1 == 3) {
                   h_amplitudechannel0_HF4->Fill(double(kkk), double(k3), amplitudechannel0[k0][k1][k2][k3]);
                   h_amplitudechannel1_HF4->Fill(double(kkk), double(k3), amplitudechannel[k0][k1][k2][k3]);
                   h_amplitudechannel2_HF4->Fill(double(kkk), double(k3), amplitudechannel2[k0][k1][k2][k3]);
                 }
               }  //k3
             }    //k2
           }      //k1
         }        //if k0 == 3 HF

       }  //k0

     }  // if(flagIterativeMethodCalibrationGroupDigi

     if (flagIterativeMethodCalibrationGroupReco_ > 0) {
       //
       for (int k0 = 0; k0 < nsub; k0++) {
         // HB:
         if (k0 == 0) {
           for (int k1 = 0; k1 < ndepth; k1++) {
             // k2: 0-81
             for (int k2 = 0; k2 < neta; k2++) {
               //          int k2plot = k2-41;int kkk = k2; if(k2plot >0 ) kkk=k2+1; //-41 +41 !=0
               int k2plot = k2 - 41;
               int kkk = k2plot;  // if(k2plot >=0 ) kkk=k2plot+1; //-41 +40 !=0
               for (int k3 = 0; k3 < nphi; k3++) {
                 if (k1 == 0) {
                   h_recSignalEnergy0_HB1->Fill(double(kkk), double(k3), recSignalEnergy0[k0][k1][k2][k3]);
                   h_recSignalEnergy1_HB1->Fill(double(kkk), double(k3), recSignalEnergy1[k0][k1][k2][k3]);
                   h_recSignalEnergy2_HB1->Fill(double(kkk), double(k3), recSignalEnergy2[k0][k1][k2][k3]);
                   h_recNoiseEnergy0_HB1->Fill(double(kkk), double(k3), recNoiseEnergy0[k0][k1][k2][k3]);
                   h_recNoiseEnergy1_HB1->Fill(double(kkk), double(k3), recNoiseEnergy1[k0][k1][k2][k3]);
                   h_recNoiseEnergy2_HB1->Fill(double(kkk), double(k3), recNoiseEnergy2[k0][k1][k2][k3]);
                 }
                 if (k1 == 1) {
                   h_recSignalEnergy0_HB2->Fill(double(kkk), double(k3), recSignalEnergy0[k0][k1][k2][k3]);
                   h_recSignalEnergy1_HB2->Fill(double(kkk), double(k3), recSignalEnergy1[k0][k1][k2][k3]);
                   h_recSignalEnergy2_HB2->Fill(double(kkk), double(k3), recSignalEnergy2[k0][k1][k2][k3]);
                   h_recNoiseEnergy0_HB2->Fill(double(kkk), double(k3), recNoiseEnergy0[k0][k1][k2][k3]);
                   h_recNoiseEnergy1_HB2->Fill(double(kkk), double(k3), recNoiseEnergy1[k0][k1][k2][k3]);
                   h_recNoiseEnergy2_HB2->Fill(double(kkk), double(k3), recNoiseEnergy2[k0][k1][k2][k3]);
                 }
                 if (k1 == 2) {
                   h_recSignalEnergy0_HB3->Fill(double(kkk), double(k3), recSignalEnergy0[k0][k1][k2][k3]);
                   h_recSignalEnergy1_HB3->Fill(double(kkk), double(k3), recSignalEnergy1[k0][k1][k2][k3]);
                   h_recSignalEnergy2_HB3->Fill(double(kkk), double(k3), recSignalEnergy2[k0][k1][k2][k3]);
                   h_recNoiseEnergy0_HB3->Fill(double(kkk), double(k3), recNoiseEnergy0[k0][k1][k2][k3]);
                   h_recNoiseEnergy1_HB3->Fill(double(kkk), double(k3), recNoiseEnergy1[k0][k1][k2][k3]);
                   h_recNoiseEnergy2_HB3->Fill(double(kkk), double(k3), recNoiseEnergy2[k0][k1][k2][k3]);
                 }
                 if (k1 == 3) {
                   h_recSignalEnergy0_HB4->Fill(double(kkk), double(k3), recSignalEnergy0[k0][k1][k2][k3]);
                   h_recSignalEnergy1_HB4->Fill(double(kkk), double(k3), recSignalEnergy1[k0][k1][k2][k3]);
                   h_recSignalEnergy2_HB4->Fill(double(kkk), double(k3), recSignalEnergy2[k0][k1][k2][k3]);
                   h_recNoiseEnergy0_HB4->Fill(double(kkk), double(k3), recNoiseEnergy0[k0][k1][k2][k3]);
                   h_recNoiseEnergy1_HB4->Fill(double(kkk), double(k3), recNoiseEnergy1[k0][k1][k2][k3]);
                   h_recNoiseEnergy2_HB4->Fill(double(kkk), double(k3), recNoiseEnergy2[k0][k1][k2][k3]);
                 }
               }  //k3
             }    //k2
           }      //k1
         }        //if k0 == 0 HB

         // HE:
         if (k0 == 1) {
           for (int k1 = 0; k1 < ndepth; k1++) {
             // k2: 0-81
             for (int k2 = 0; k2 < neta; k2++) {
               //          int k2plot = k2-41;int kkk = k2; if(k2plot >0 ) kkk=k2+1; //-41 +41 !=0
               int k2plot = k2 - 41;
               int kkk = k2plot;  // if(k2plot >=0 ) kkk=k2plot+1; //-41 +40 !=0
               for (int k3 = 0; k3 < nphi; k3++) {
                 if (k1 == 0) {
                   h_recSignalEnergy0_HE1->Fill(double(kkk), double(k3), recSignalEnergy0[k0][k1][k2][k3]);
                   h_recSignalEnergy1_HE1->Fill(double(kkk), double(k3), recSignalEnergy1[k0][k1][k2][k3]);
                   h_recSignalEnergy2_HE1->Fill(double(kkk), double(k3), recSignalEnergy2[k0][k1][k2][k3]);
                   h_recNoiseEnergy0_HE1->Fill(double(kkk), double(k3), recNoiseEnergy0[k0][k1][k2][k3]);
                   h_recNoiseEnergy1_HE1->Fill(double(kkk), double(k3), recNoiseEnergy1[k0][k1][k2][k3]);
                   h_recNoiseEnergy2_HE1->Fill(double(kkk), double(k3), recNoiseEnergy2[k0][k1][k2][k3]);
                 }
                 if (k1 == 1) {
                   h_recSignalEnergy0_HE2->Fill(double(kkk), double(k3), recSignalEnergy0[k0][k1][k2][k3]);
                   h_recSignalEnergy1_HE2->Fill(double(kkk), double(k3), recSignalEnergy1[k0][k1][k2][k3]);
                   h_recSignalEnergy2_HE2->Fill(double(kkk), double(k3), recSignalEnergy2[k0][k1][k2][k3]);
                   h_recNoiseEnergy0_HE2->Fill(double(kkk), double(k3), recNoiseEnergy0[k0][k1][k2][k3]);
                   h_recNoiseEnergy1_HE2->Fill(double(kkk), double(k3), recNoiseEnergy1[k0][k1][k2][k3]);
                   h_recNoiseEnergy2_HE2->Fill(double(kkk), double(k3), recNoiseEnergy2[k0][k1][k2][k3]);
                 }
                 if (k1 == 2) {
                   h_recSignalEnergy0_HE3->Fill(double(kkk), double(k3), recSignalEnergy0[k0][k1][k2][k3]);
                   h_recSignalEnergy1_HE3->Fill(double(kkk), double(k3), recSignalEnergy1[k0][k1][k2][k3]);
                   h_recSignalEnergy2_HE3->Fill(double(kkk), double(k3), recSignalEnergy2[k0][k1][k2][k3]);
                   h_recNoiseEnergy0_HE3->Fill(double(kkk), double(k3), recNoiseEnergy0[k0][k1][k2][k3]);
                   h_recNoiseEnergy1_HE3->Fill(double(kkk), double(k3), recNoiseEnergy1[k0][k1][k2][k3]);
                   h_recNoiseEnergy2_HE3->Fill(double(kkk), double(k3), recNoiseEnergy2[k0][k1][k2][k3]);
                 }
                 if (k1 == 3) {
                   h_recSignalEnergy0_HE4->Fill(double(kkk), double(k3), recSignalEnergy0[k0][k1][k2][k3]);
                   h_recSignalEnergy1_HE4->Fill(double(kkk), double(k3), recSignalEnergy1[k0][k1][k2][k3]);
                   h_recSignalEnergy2_HE4->Fill(double(kkk), double(k3), recSignalEnergy2[k0][k1][k2][k3]);
                   h_recNoiseEnergy0_HE4->Fill(double(kkk), double(k3), recNoiseEnergy0[k0][k1][k2][k3]);
                   h_recNoiseEnergy1_HE4->Fill(double(kkk), double(k3), recNoiseEnergy1[k0][k1][k2][k3]);
                   h_recNoiseEnergy2_HE4->Fill(double(kkk), double(k3), recNoiseEnergy2[k0][k1][k2][k3]);
                 }
                 if (k1 == 4) {
                   h_recSignalEnergy0_HE5->Fill(double(kkk), double(k3), recSignalEnergy0[k0][k1][k2][k3]);
                   h_recSignalEnergy1_HE5->Fill(double(kkk), double(k3), recSignalEnergy1[k0][k1][k2][k3]);
                   h_recSignalEnergy2_HE5->Fill(double(kkk), double(k3), recSignalEnergy2[k0][k1][k2][k3]);
                   h_recNoiseEnergy0_HE5->Fill(double(kkk), double(k3), recNoiseEnergy0[k0][k1][k2][k3]);
                   h_recNoiseEnergy1_HE5->Fill(double(kkk), double(k3), recNoiseEnergy1[k0][k1][k2][k3]);
                   h_recNoiseEnergy2_HE5->Fill(double(kkk), double(k3), recNoiseEnergy2[k0][k1][k2][k3]);
                 }
                 if (k1 == 5) {
                   h_recSignalEnergy0_HE6->Fill(double(kkk), double(k3), recSignalEnergy0[k0][k1][k2][k3]);
                   h_recSignalEnergy1_HE6->Fill(double(kkk), double(k3), recSignalEnergy1[k0][k1][k2][k3]);
                   h_recSignalEnergy2_HE6->Fill(double(kkk), double(k3), recSignalEnergy2[k0][k1][k2][k3]);
                   h_recNoiseEnergy0_HE6->Fill(double(kkk), double(k3), recNoiseEnergy0[k0][k1][k2][k3]);
                   h_recNoiseEnergy1_HE6->Fill(double(kkk), double(k3), recNoiseEnergy1[k0][k1][k2][k3]);
                   h_recNoiseEnergy2_HE6->Fill(double(kkk), double(k3), recNoiseEnergy2[k0][k1][k2][k3]);
                 }
                 if (k1 == 6) {
                   h_recSignalEnergy0_HE7->Fill(double(kkk), double(k3), recSignalEnergy0[k0][k1][k2][k3]);
                   h_recSignalEnergy1_HE7->Fill(double(kkk), double(k3), recSignalEnergy1[k0][k1][k2][k3]);
                   h_recSignalEnergy2_HE7->Fill(double(kkk), double(k3), recSignalEnergy2[k0][k1][k2][k3]);
                   h_recNoiseEnergy0_HE7->Fill(double(kkk), double(k3), recNoiseEnergy0[k0][k1][k2][k3]);
                   h_recNoiseEnergy1_HE7->Fill(double(kkk), double(k3), recNoiseEnergy1[k0][k1][k2][k3]);
                   h_recNoiseEnergy2_HE7->Fill(double(kkk), double(k3), recNoiseEnergy2[k0][k1][k2][k3]);
                 }
               }  //k3
             }    //k2
           }      //k1
         }        //if k0 == 1 HE

         // HF: 4 depthes for Digis and only 2 - for Reco !!! ('ve tried to enter 4 for reco since 31.10.2021 AZ)
         if (k0 == 3) {
           for (int k1 = 0; k1 < ndepth; k1++) {
             // k2: 0-81
             for (int k2 = 0; k2 < neta; k2++) {
               //          int k2plot = k2-41;int kkk = k2; if(k2plot >0 ) kkk=k2+1; //-41 +41 !=0
               int k2plot = k2 - 41;
               int kkk = k2plot;  // if(k2plot >=0 ) kkk=k2plot+1; //-41 +40 !=0
               for (int k3 = 0; k3 < nphi; k3++) {
                 if (k1 == 0) {
                   h_recSignalEnergy0_HF1->Fill(double(kkk), double(k3), recSignalEnergy0[k0][k1][k2][k3]);
                   h_recSignalEnergy1_HF1->Fill(double(kkk), double(k3), recSignalEnergy1[k0][k1][k2][k3]);
                   h_recSignalEnergy2_HF1->Fill(double(kkk), double(k3), recSignalEnergy2[k0][k1][k2][k3]);
                   h_recNoiseEnergy0_HF1->Fill(double(kkk), double(k3), recNoiseEnergy0[k0][k1][k2][k3]);
                   h_recNoiseEnergy1_HF1->Fill(double(kkk), double(k3), recNoiseEnergy1[k0][k1][k2][k3]);
                   h_recNoiseEnergy2_HF1->Fill(double(kkk), double(k3), recNoiseEnergy2[k0][k1][k2][k3]);
                 }
                 if (k1 == 1) {
                   h_recSignalEnergy0_HF2->Fill(double(kkk), double(k3), recSignalEnergy0[k0][k1][k2][k3]);
                   h_recSignalEnergy1_HF2->Fill(double(kkk), double(k3), recSignalEnergy1[k0][k1][k2][k3]);
                   h_recSignalEnergy2_HF2->Fill(double(kkk), double(k3), recSignalEnergy2[k0][k1][k2][k3]);
                   h_recNoiseEnergy0_HF2->Fill(double(kkk), double(k3), recNoiseEnergy0[k0][k1][k2][k3]);
                   h_recNoiseEnergy1_HF2->Fill(double(kkk), double(k3), recNoiseEnergy1[k0][k1][k2][k3]);
                   h_recNoiseEnergy2_HF2->Fill(double(kkk), double(k3), recNoiseEnergy2[k0][k1][k2][k3]);
                 }
                 // AZ 31.10.2021: k1=3 and 4 added for HF recoSignal,recNoise
                 if (k1 == 2) {
                   h_recSignalEnergy0_HF3->Fill(double(kkk), double(k3), recSignalEnergy0[k0][k1][k2][k3]);
                   h_recSignalEnergy1_HF3->Fill(double(kkk), double(k3), recSignalEnergy1[k0][k1][k2][k3]);
                   h_recSignalEnergy2_HF3->Fill(double(kkk), double(k3), recSignalEnergy2[k0][k1][k2][k3]);
                   h_recNoiseEnergy0_HF3->Fill(double(kkk), double(k3), recNoiseEnergy0[k0][k1][k2][k3]);
                   h_recNoiseEnergy1_HF3->Fill(double(kkk), double(k3), recNoiseEnergy1[k0][k1][k2][k3]);
                   h_recNoiseEnergy2_HF3->Fill(double(kkk), double(k3), recNoiseEnergy2[k0][k1][k2][k3]);
                 }
                 if (k1 == 3) {
                   h_recSignalEnergy0_HF4->Fill(double(kkk), double(k3), recSignalEnergy0[k0][k1][k2][k3]);
                   h_recSignalEnergy1_HF4->Fill(double(kkk), double(k3), recSignalEnergy1[k0][k1][k2][k3]);
                   h_recSignalEnergy2_HF4->Fill(double(kkk), double(k3), recSignalEnergy2[k0][k1][k2][k3]);
                   h_recNoiseEnergy0_HF4->Fill(double(kkk), double(k3), recNoiseEnergy0[k0][k1][k2][k3]);
                   h_recNoiseEnergy1_HF4->Fill(double(kkk), double(k3), recNoiseEnergy1[k0][k1][k2][k3]);
                   h_recNoiseEnergy2_HF4->Fill(double(kkk), double(k3), recNoiseEnergy2[k0][k1][k2][k3]);
                 }
               }  //k3
             }    //k2
           }      //k1
         }        //if k0 == 3 HF

       }  //k0

     }  // if(flagIterativeMethodCalibrationGroupReco


     if (flagLaserRaddam_ > 1) {
       for (int k1 = 0; k1 < ndepth; k1++) {
         for (int k2 = 0; k2 < neta; k2++) {
           for (int k3 = 0; k3 < nphi; k3++) {
             if (mapRADDAM0_HE[k1][k2][k3] != 0) {
               // ----------------------------------------    D2 sum over phi before!!! any dividing:
               mapRADDAM_HED2[k1][k2] += mapRADDAM_HE[k1][k2][k3];
               // N phi sectors w/ digihits
               ++mapRADDAM_HED20[k1][k2];
             }  //if
           }    //for
         }      //for
       }        //for

       for (int k1 = 0; k1 < ndepth; k1++) {
         for (int k2 = 0; k2 < neta; k2++) {
           if (mapRADDAM_HED20[k1][k2] != 0) {
             // validation of channels at eta16:
             if (k1 == 2 && k2 == 25) {
               h_sumphiEta16Depth3RADDAM_HED2->Fill(mapRADDAM_HED2[k1][k2]);
               h_Eta16Depth3RADDAM_HED2->Fill(mapRADDAM_HED2[k1][k2] / mapRADDAM_HED20[k1][k2]);
               h_NphiForEta16Depth3RADDAM_HED2->Fill(mapRADDAM_HED20[k1][k2]);
             } else if (k1 == 2 && k2 == 56) {
               h_sumphiEta16Depth3RADDAM_HED2P->Fill(mapRADDAM_HED2[k1][k2]);
               h_Eta16Depth3RADDAM_HED2P->Fill(mapRADDAM_HED2[k1][k2] / mapRADDAM_HED20[k1][k2]);
               h_NphiForEta16Depth3RADDAM_HED2P->Fill(mapRADDAM_HED20[k1][k2]);
             } else {
               h_sumphiEta16Depth3RADDAM_HED2ALL->Fill(mapRADDAM_HED2[k1][k2]);
               h_Eta16Depth3RADDAM_HED2ALL->Fill(mapRADDAM_HED2[k1][k2] / mapRADDAM_HED20[k1][k2]);
               h_NphiForEta16Depth3RADDAM_HED2ALL->Fill(mapRADDAM_HED20[k1][k2]);
             }
             mapRADDAM_HED2[k1][k2] /= mapRADDAM_HED20[k1][k2];
           }  // if(mapRADDAM_HED20[k1][k2] != 0
         }    //for
       }      //for
       for (int k1 = 0; k1 < ndepth; k1++) {
         for (int k2 = 0; k2 < neta; k2++) {
           if (k1 == 2 && (k2 == 25 || k2 == 56)) {
           } else {
             //  if(k2!=25 && k2!=56) {
             int k2plot = k2 - 41;
             int kkk = k2;
             if (k2plot > 0)
               kkk = k2 + 1;
             int kk2 = 25;
             if (k2plot > 0)
               kk2 = 56;
             if (mapRADDAM_HED2[k1][k2] != 0. && mapRADDAM_HED2[2][kk2] != 0) {
               mapRADDAM_HED2[k1][k2] /= mapRADDAM_HED2[2][kk2];
               // (d1 & eta 17-29)                       L1
               int LLLLLL111111 = 0;
               if ((k1 == 0 && fabs(kkk - 41) > 16 && fabs(kkk - 41) < 30))
                 LLLLLL111111 = 1;
               // (d2 & eta 17-26) && (d3 & eta 27-28)   L2
               int LLLLLL222222 = 0;
               if ((k1 == 1 && fabs(kkk - 41) > 16 && fabs(kkk - 41) < 27) ||
                   (k1 == 2 && fabs(kkk - 41) > 26 && fabs(kkk - 41) < 29))
                 LLLLLL222222 = 1;
               //
               if (LLLLLL111111 == 1) {
                 h_sigLayer1RADDAM5_HED2->Fill(double(kkk - 41), mapRADDAM_HED2[k1][k2]);
                 h_sigLayer1RADDAM6_HED2->Fill(double(kkk - 41), 1.);
               }
               if (LLLLLL222222 == 1) {
                 h_sigLayer2RADDAM5_HED2->Fill(double(kkk - 41), mapRADDAM_HED2[k1][k2]);
                 h_sigLayer2RADDAM6_HED2->Fill(double(kkk - 41), 1.);
               }
             }  //if
           }    // if(k2!=25 && k2!=56
         }      //for
       }        //for


       //------------------------------------------------------        aver per eta 16(depth=3-> k1=2, k2=16(15) :
       for (int k1 = 0; k1 < ndepth; k1++) {
         for (int k2 = 0; k2 < neta; k2++) {
           if (k1 == 2 && (k2 == 25 || k2 == 56)) {
           } else {
             int k2plot = k2 - 41;
             int kk2 = 25;
             if (k2plot > 0)
               kk2 = 56;
             int kkk = k2;
             if (k2plot > 0)
               kkk = k2 + 1;
             for (int k3 = 0; k3 < nphi; k3++) {
               if (mapRADDAM_HE[k1][k2][k3] != 0. && mapRADDAM_HE[2][kk2][k3] != 0) {
                 mapRADDAM_HE[k1][k2][k3] /= mapRADDAM_HE[2][kk2][k3];
                 int LLLLLL111111 = 0;
                 if ((k1 == 0 && fabs(kkk - 41) > 16 && fabs(kkk - 41) < 30))
                   LLLLLL111111 = 1;
                 int LLLLLL222222 = 0;
                 if ((k1 == 1 && fabs(kkk - 41) > 16 && fabs(kkk - 41) < 27) ||
                     (k1 == 2 && fabs(kkk - 41) > 26 && fabs(kkk - 41) < 29))
                   LLLLLL222222 = 1;
                 if (LLLLLL111111 == 1) {
                   h_sigLayer1RADDAM5_HE->Fill(double(kkk - 41), mapRADDAM_HE[k1][k2][k3]);
                   h_sigLayer1RADDAM6_HE->Fill(double(kkk - 41), 1.);
                 }
                 if (LLLLLL222222 == 1) {
                   h_sigLayer2RADDAM5_HE->Fill(double(kkk - 41), mapRADDAM_HE[k1][k2][k3]);
                   h_sigLayer2RADDAM6_HE->Fill(double(kkk - 41), 1.);
                 }
               }  //if
             }    //for
           }      // if(k2!=25 && k2!=56
         }        //for
       }          //for
                  //
       for (int k1 = 0; k1 < ndepth; k1++) {
         for (int k2 = 0; k2 < neta; k2++) {
           mapRADDAM_HED2[k1][k2] = 0.;
           mapRADDAM_HED20[k1][k2] = 0.;
           for (int k3 = 0; k3 < nphi; k3++) {
             mapRADDAM_HE[k1][k2][k3] = 0.;
             mapRADDAM0_HE[k1][k2][k3] = 0;
           }  //for
         }    //for
       }      //for

     }  // END TREATMENT : if(flagLaserRaddam_ == 1

     //    //      //      //      //      //      //sumamplitudes:
     for (int k0 = 0; k0 < nsub; k0++) {
       int sumofchannels = 0;
       double sumamplitudesubdet = 0.;
       int sumofchannels0 = 0;
       double sumamplitudesubdet0 = 0.;
       for (int k2 = 0; k2 < neta; k2++) {
         for (int k3 = 0; k3 < nphi; k3++) {
           // HB
           if (k0 == 0) {
             double sumamplitudechannel_HB = amplitudechannel[k0][0][k2][k3] + amplitudechannel[k0][1][k2][k3];
             h_sumamplitudechannel_HB->Fill(sumamplitudechannel_HB);
             if (sumamplitudechannel_HB > 80.) {
               sumamplitudesubdet += sumamplitudechannel_HB;
               sumofchannels++;
             } else {
               if (sumamplitudechannel_HB > 0.) {
                 sumamplitudesubdet0 += sumamplitudechannel_HB;
                 sumofchannels0++;
               }
             }
           }  //

           // HE
           if (k0 == 1) {
             double sumamplitudechannel_HE =
                 amplitudechannel[k0][0][k2][k3] + amplitudechannel[k0][1][k2][k3] + amplitudechannel[k0][2][k2][k3];
             h_sumamplitudechannel_HE->Fill(sumamplitudechannel_HE);
             if (sumamplitudechannel_HE > 200.) {
               sumamplitudesubdet += sumamplitudechannel_HE;
               sumofchannels++;
             } else {
               if (sumamplitudechannel_HE > 0.) {
                 sumamplitudesubdet0 += sumamplitudechannel_HE;
                 sumofchannels0++;
               }
             }
           }  //

           // HO
           if (k0 == 2) {
             double sumamplitudechannel_HO = amplitudechannel[k0][3][k2][k3];
             h_sumamplitudechannel_HO->Fill(sumamplitudechannel_HO);
             if (sumamplitudechannel_HO > 1200.) {
               sumamplitudesubdet += sumamplitudechannel_HO;
               sumofchannels++;
             } else {
               if (sumamplitudechannel_HO > 0.) {
                 sumamplitudesubdet0 += sumamplitudechannel_HO;
                 sumofchannels0++;
               }
             }
           }  //
           // HF
           if (k0 == 3) {
             double sumamplitudechannel_HF = amplitudechannel[k0][0][k2][k3] + amplitudechannel[k0][1][k2][k3];
             h_sumamplitudechannel_HF->Fill(sumamplitudechannel_HF);
             if (sumamplitudechannel_HF > 600.) {
               sumamplitudesubdet += sumamplitudechannel_HF;
               sumofchannels++;
             } else {
               if (sumamplitudechannel_HF > 0.) {
                 sumamplitudesubdet0 += sumamplitudechannel_HF;
                 sumofchannels0++;
               }
             }
           }  //

         }  //k3
       }    //k2
       //  }//k1
       // SA of each sub-detector DONE. Then: summarize or find maximum throught events of LS
       if (k0 == 0) {
         h_eventamplitude_HB->Fill((sumamplitudesubdet + sumamplitudesubdet0));
         h_eventoccupancy_HB->Fill((sumofchannels + sumofchannels0));
         if ((sumamplitudesubdet + sumamplitudesubdet0) > maxxSUM1)
           maxxSUM1 = sumamplitudesubdet + sumamplitudesubdet0;
         if ((sumofchannels + sumofchannels0) > maxxOCCUP1)
           maxxOCCUP1 = sumofchannels + sumofchannels0;
         averSIGNALoccupancy_HB += sumofchannels;
         averSIGNALsumamplitude_HB += sumamplitudesubdet;
         averNOSIGNALoccupancy_HB += sumofchannels0;
         averNOSIGNALsumamplitude_HB += sumamplitudesubdet0;
         if ((sumamplitudesubdet + sumamplitudesubdet0) > 60000) {
           for (int k2 = 0; k2 < neta; k2++) {
             for (int k3 = 0; k3 < nphi; k3++) {
               int ieta = k2 - 41;
               if (amplitudechannel[k0][0][k2][k3] != 0.) {
                 h_2DAtaildepth1_HB->Fill(double(ieta), double(k3), amplitudechannel[k0][0][k2][k3]);
                 h_2D0Ataildepth1_HB->Fill(double(ieta), double(k3), 1.);
               }
               if (amplitudechannel[k0][1][k2][k3] != 0.) {
                 h_2DAtaildepth2_HB->Fill(double(ieta), double(k3), amplitudechannel[k0][1][k2][k3]);
                 h_2D0Ataildepth2_HB->Fill(double(ieta), double(k3), 1.);
               }
             }  //for
           }    //for
         }      //>60000
       }        //HB
       if (k0 == 1) {
         h_eventamplitude_HE->Fill((sumamplitudesubdet + sumamplitudesubdet0));
         h_eventoccupancy_HE->Fill((sumofchannels + sumofchannels0));
         if ((sumamplitudesubdet + sumamplitudesubdet0) > maxxSUM2)
           maxxSUM2 = sumamplitudesubdet + sumamplitudesubdet0;
         if ((sumofchannels + sumofchannels0) > maxxOCCUP2)
           maxxOCCUP2 = sumofchannels + sumofchannels0;
         averSIGNALoccupancy_HE += sumofchannels;
         averSIGNALsumamplitude_HE += sumamplitudesubdet;
         averNOSIGNALoccupancy_HE += sumofchannels0;
         averNOSIGNALsumamplitude_HE += sumamplitudesubdet0;
       }  //HE
       if (k0 == 2) {
         h_eventamplitude_HO->Fill((sumamplitudesubdet + sumamplitudesubdet0));
         h_eventoccupancy_HO->Fill((sumofchannels + sumofchannels0));
         if ((sumamplitudesubdet + sumamplitudesubdet0) > maxxSUM3)
           maxxSUM3 = sumamplitudesubdet + sumamplitudesubdet0;
         if ((sumofchannels + sumofchannels0) > maxxOCCUP3)
           maxxOCCUP3 = sumofchannels + sumofchannels0;
         averSIGNALoccupancy_HO += sumofchannels;
         averSIGNALsumamplitude_HO += sumamplitudesubdet;
         averNOSIGNALoccupancy_HO += sumofchannels0;
         averNOSIGNALsumamplitude_HO += sumamplitudesubdet0;
       }  //HO
       if (k0 == 3) {
         h_eventamplitude_HF->Fill((sumamplitudesubdet + sumamplitudesubdet0));
         h_eventoccupancy_HF->Fill((sumofchannels + sumofchannels0));
         if ((sumamplitudesubdet + sumamplitudesubdet0) > maxxSUM4)
           maxxSUM4 = sumamplitudesubdet + sumamplitudesubdet0;
         if ((sumofchannels + sumofchannels0) > maxxOCCUP4)
           maxxOCCUP4 = sumofchannels + sumofchannels0;
         averSIGNALoccupancy_HF += sumofchannels;
         averSIGNALsumamplitude_HF += sumamplitudesubdet;
         averNOSIGNALoccupancy_HF += sumofchannels0;
         averNOSIGNALsumamplitude_HF += sumamplitudesubdet0;
       }  //HF
     }    //k0

     if (recordHistoes_ && studyRunDependenceHist_) {
       int eeeeee;
       eeeeee = lscounterM1;
       if (flagtoaskrunsorls_ == 0)
         eeeeee = runcounter;

       for (int k0 = 0; k0 < nsub; k0++) {
         for (int k1 = 0; k1 < ndepth; k1++) {
           int nbadchannels = 0;
           for (int k2 = 0; k2 < neta; k2++) {
             for (int k3 = 0; k3 < nphi; k3++) {
               if (badchannels[k0][k1][k2][k3] != 0)
                 ++nbadchannels;
             }  //k3
           }    //k2
           //HB
           if (k0 == 0) {
             if (k1 == 0) {
               h_nbadchannels_depth1_HB->Fill(float(nbadchannels));
               h_runnbadchannels_depth1_HB->Fill(float(eeeeee), float(nbadchannels));
               if (nbadchannels > lsdep_cut1_peak_HBdepth1_)
                 h_runnbadchannelsC_depth1_HB->Fill(float(eeeeee), float(nbadchannels));
               if (nbadchannels != 0)
                 h_runbadrate_depth1_HB->Fill(float(eeeeee), 1.);
               if (nbadchannels > lsdep_cut3_max_HBdepth1_)
                 h_runbadrateC_depth1_HB->Fill(float(eeeeee), 1.);
               h_bcnnbadchannels_depth1_HB->Fill(float(bcn), float(nbadchannels));
               h_runbadrate0_depth1_HB->Fill(float(eeeeee), 1.);
               h_bcnbadrate0_depth1_HB->Fill(float(bcn), 1.);
             }
             if (k1 == 1) {
               h_nbadchannels_depth2_HB->Fill(float(nbadchannels));
               h_runnbadchannels_depth2_HB->Fill(float(eeeeee), float(nbadchannels));
               if (nbadchannels > lsdep_cut1_peak_HBdepth2_)
                 h_runnbadchannelsC_depth2_HB->Fill(float(eeeeee), float(nbadchannels));
               if (nbadchannels != 0)
                 h_runbadrate_depth2_HB->Fill(float(eeeeee), 1.);
               if (nbadchannels > lsdep_cut3_max_HBdepth2_)
                 h_runbadrateC_depth2_HB->Fill(float(eeeeee), 1.);
               h_bcnnbadchannels_depth2_HB->Fill(float(bcn), float(nbadchannels));
               h_runbadrate0_depth2_HB->Fill(float(eeeeee), 1.);
               h_bcnbadrate0_depth2_HB->Fill(float(bcn), 1.);
             }
           }
           //HE
           if (k0 == 1) {
             if (k1 == 0) {
               h_nbadchannels_depth1_HE->Fill(float(nbadchannels));
               h_runnbadchannels_depth1_HE->Fill(float(eeeeee), float(nbadchannels));
               if (nbadchannels > lsdep_cut1_peak_HEdepth1_)
                 h_runnbadchannelsC_depth1_HE->Fill(float(eeeeee), float(nbadchannels));
               if (nbadchannels != 0)
                 h_runbadrate_depth1_HE->Fill(float(eeeeee), 1.);
               if (nbadchannels > lsdep_cut3_max_HEdepth1_)
                 h_runbadrateC_depth1_HE->Fill(float(eeeeee), 1.);
               h_bcnnbadchannels_depth1_HE->Fill(float(bcn), float(nbadchannels));
               h_runbadrate0_depth1_HE->Fill(float(eeeeee), 1.);
               h_bcnbadrate0_depth1_HE->Fill(float(bcn), 1.);
             }
             if (k1 == 1) {
               h_nbadchannels_depth2_HE->Fill(float(nbadchannels));
               h_runnbadchannels_depth2_HE->Fill(float(eeeeee), float(nbadchannels));
               if (nbadchannels > lsdep_cut1_peak_HEdepth2_)
                 h_runnbadchannelsC_depth2_HE->Fill(float(eeeeee), float(nbadchannels));
               if (nbadchannels != 0)
                 h_runbadrate_depth2_HE->Fill(float(eeeeee), 1.);
               if (nbadchannels > lsdep_cut3_max_HEdepth2_)
                 h_runbadrateC_depth2_HE->Fill(float(eeeeee), 1.);
               h_bcnnbadchannels_depth2_HE->Fill(float(bcn), float(nbadchannels));
               h_runbadrate0_depth2_HE->Fill(float(eeeeee), 1.);
               h_bcnbadrate0_depth2_HE->Fill(float(bcn), 1.);
             }
             if (k1 == 2) {
               h_nbadchannels_depth3_HE->Fill(float(nbadchannels));
               h_runnbadchannels_depth3_HE->Fill(float(eeeeee), float(nbadchannels));
               if (nbadchannels > lsdep_cut1_peak_HEdepth3_)
                 h_runnbadchannelsC_depth3_HE->Fill(float(eeeeee), float(nbadchannels));
               if (nbadchannels != 0)
                 h_runbadrate_depth3_HE->Fill(float(eeeeee), 1.);
               if (nbadchannels > lsdep_cut3_max_HEdepth3_)
                 h_runbadrateC_depth3_HE->Fill(float(eeeeee), 1.);
               h_bcnnbadchannels_depth3_HE->Fill(float(bcn), float(nbadchannels));
               h_runbadrate0_depth3_HE->Fill(float(eeeeee), 1.);
               h_bcnbadrate0_depth3_HE->Fill(float(bcn), 1.);
             }
           }
           //HO
           if (k0 == 2) {
             if (k1 == 3) {
               h_nbadchannels_depth4_HO->Fill(float(nbadchannels));
               h_runnbadchannels_depth4_HO->Fill(float(eeeeee), float(nbadchannels));
               if (nbadchannels > lsdep_cut1_peak_HOdepth4_)
                 h_runnbadchannelsC_depth4_HO->Fill(float(eeeeee), float(nbadchannels));
               if (nbadchannels != 0)
                 h_runbadrate_depth4_HO->Fill(float(eeeeee), 1.);
               if (nbadchannels > lsdep_cut3_max_HOdepth4_)
                 h_runbadrateC_depth4_HO->Fill(float(eeeeee), 1.);
               h_bcnnbadchannels_depth4_HO->Fill(float(bcn), float(nbadchannels));
               h_runbadrate0_depth4_HO->Fill(float(eeeeee), 1.);
               h_bcnbadrate0_depth4_HO->Fill(float(bcn), 1.);
             }
           }
           //HF
           if (k0 == 3) {
             if (k1 == 0) {
               h_nbadchannels_depth1_HF->Fill(float(nbadchannels));
               h_runnbadchannels_depth1_HF->Fill(float(eeeeee), float(nbadchannels));
               if (nbadchannels > lsdep_cut1_peak_HFdepth1_)
                 h_runnbadchannelsC_depth1_HF->Fill(float(eeeeee), float(nbadchannels));
               if (nbadchannels != 0)
                 h_runbadrate_depth1_HF->Fill(float(eeeeee), 1.);
               if (nbadchannels > lsdep_cut3_max_HFdepth1_)
                 h_runbadrateC_depth1_HF->Fill(float(eeeeee), 1.);
               h_bcnnbadchannels_depth1_HF->Fill(float(bcn), float(nbadchannels));
               h_runbadrate0_depth1_HF->Fill(float(eeeeee), 1.);
               h_bcnbadrate0_depth1_HF->Fill(float(bcn), 1.);
             }
             if (k1 == 1) {
               h_nbadchannels_depth2_HF->Fill(float(nbadchannels));
               h_runnbadchannels_depth2_HF->Fill(float(eeeeee), float(nbadchannels));
               if (nbadchannels > lsdep_cut1_peak_HFdepth2_)
                 h_runnbadchannelsC_depth2_HF->Fill(float(eeeeee), float(nbadchannels));
               if (nbadchannels != 0)
                 h_runbadrate_depth2_HF->Fill(float(eeeeee), 1.);
               if (nbadchannels > lsdep_cut3_max_HFdepth2_)
                 h_runbadrateC_depth2_HF->Fill(float(eeeeee), 1.);
               h_bcnnbadchannels_depth2_HF->Fill(float(bcn), float(nbadchannels));
               h_runbadrate0_depth2_HF->Fill(float(eeeeee), 1.);
               h_bcnbadrate0_depth2_HF->Fill(float(bcn), 1.);
             }
           }

         }  //k1
       }    //k0
     }  //if(recordHistoes_&& studyRunDependenceHist_)

     edm::Handle<HcalCalibDigiCollection> calib;
     iEvent.getByToken(tok_calib_, calib);

     bool gotCALIBDigis = true;
     if (!(iEvent.getByToken(tok_calib_, calib))) {
       gotCALIBDigis = false;  //this is a boolean set up to check if there are CALIBgigis in input root file
     }
     if (!(calib.isValid())) {
       gotCALIBDigis = false;  //if it is not there, leave it false
     }
     if (!gotCALIBDigis) {
     } else {
       for (HcalCalibDigiCollection::const_iterator digi = calib->begin(); digi != calib->end(); digi++) {
         int cal_det = digi->id().hcalSubdet();  // 1-HB,2-HE,3-HO,4-HF
         int cal_phi = digi->id().iphi();
         int cal_eta = digi->id().ieta();
         int cal_cbox = digi->id().cboxChannel();

         if (recordHistoes_ && studyCalibCellsHist_) {
           if (cal_det > 0 && cal_det < 5 && cal_cbox == 0) {
             int iphi = cal_phi - 1;
             int ieta = cal_eta;
             if (ieta > 0)
               ieta -= 1;
             nTS = digi->size();
             double max_signal = -100.;
             int ts_with_max_signal = -100;
             double timew = 0.;

             //
             if (nTS <= numOfTS)
               for (int i = 0; i < nTS; i++) {
                 double ampldefault = adc2fC[digi->sample(i).adc() & 0xff];
                 if (max_signal < ampldefault) {
                   max_signal = ampldefault;
                   ts_with_max_signal = i;
                 }
                 if (i > 1 && i < 6)
                   calib3[cal_det - 1][ieta + 41][iphi] += ampldefault;
                 calib0[cal_det - 1][ieta + 41][iphi] += ampldefault;
                 timew += (i + 1) * ampldefault;
               }  // for
             //

             double amplitude = calib0[cal_det - 1][ieta + 41][iphi];
             double aveamplitude = -100.;
             if (amplitude > 0 && timew > 0)
               aveamplitude = timew / amplitude;       // average_TS +1
             double aveamplitude1 = aveamplitude - 1;  // means iTS=0-9
             caliba[cal_det - 1][ieta + 41][iphi] = aveamplitude1;

             double rmsamp = 0.;
             for (int ii = 0; ii < nTS; ii++) {
               double ampldefault = adc2fC[digi->sample(ii).adc() & 0xff];
               double aaaaaa = (ii + 1) - aveamplitude;
               double aaaaaa2 = aaaaaa * aaaaaa;
               rmsamp += (aaaaaa2 * ampldefault);  // fC
             }                                     //for 2
             double rmsamplitude = -100.;
             if ((amplitude > 0 && rmsamp > 0) || (amplitude < 0 && rmsamp < 0))
               rmsamplitude = sqrt(rmsamp / amplitude);
             calibw[cal_det - 1][ieta + 41][iphi] = rmsamplitude;
             //
             calibt[cal_det - 1][ieta + 41][iphi] = ts_with_max_signal;
             //

             if (ts_with_max_signal > -1 && ts_with_max_signal < nTS)
               calib2[cal_det - 1][ieta + 41][iphi] = adc2fC[digi->sample(ts_with_max_signal).adc() & 0xff];
             if (ts_with_max_signal + 1 > -1 && ts_with_max_signal + 1 < nTS)
               calib2[cal_det - 1][ieta + 41][iphi] += adc2fC[digi->sample(ts_with_max_signal + 1).adc() & 0xff];
             if (ts_with_max_signal + 2 > -1 && ts_with_max_signal + 2 < nTS)
               calib2[cal_det - 1][ieta + 41][iphi] += adc2fC[digi->sample(ts_with_max_signal + 2).adc() & 0xff];
             if (ts_with_max_signal - 1 > -1 && ts_with_max_signal - 1 < nTS)
               calib2[cal_det - 1][ieta + 41][iphi] += adc2fC[digi->sample(ts_with_max_signal - 1).adc() & 0xff];
             if (ts_with_max_signal - 2 > -1 && ts_with_max_signal - 2 < nTS)
               calib2[cal_det - 1][ieta + 41][iphi] += adc2fC[digi->sample(ts_with_max_signal - 2).adc() & 0xff];
             //
             bool anycapid = true;
             bool anyer = false;
             bool anydv = true;
             int error1 = 0, error2 = 0, error3 = 0;
             int lastcapid = 0, capid = 0;
             for (int ii = 0; ii < (*digi).size(); ii++) {
               capid = (*digi)[ii].capid();  // capId (0-3, sequential)
               bool er = (*digi)[ii].er();   // error
               bool dv = (*digi)[ii].dv();   // valid data
               if (ii != 0 && ((lastcapid + 1) % 4) != capid)
                 anycapid = false;
               lastcapid = capid;
               if (er)
                 anyer = true;
               if (!dv)
                 anydv = false;
             }
             if (!anycapid)
               error1 = 1;
             if (anyer)
               error2 = 1;
             if (!anydv)
               error3 = 1;
             if (error1 != 0 || error2 != 0 || error3 != 0)
               calibcapiderror[cal_det - 1][ieta + 41][iphi] = 100;

           }  // if(cal_det>0 && cal_det<5
         }    //if(recordHistoes_ && studyCalibCellsHist_)

         if (recordNtuples_ && nevent50 < maxNeventsInNtuple_) {
         }  //if(recordNtuples_) {

       }  //for(HcalCalibDigiCollection
     }    //if(calib.isValid(
     if (recordHistoes_ && studyCalibCellsHist_) {
       for (int k1 = 0; k1 < nsub; k1++) {
         for (int k2 = 0; k2 < neta; k2++) {
           for (int k3 = 0; k3 < nphi; k3++) {
             int k2plot = k2 - 41;
             if (flagcpuoptimization_ == 0) {

               if (signal[k1][k2][k3] > 0.) {
                 if (k1 == 0) {
                   h_FullSignal3D_HB->Fill(double(k2plot), double(k3), signal[k1][k2][k3]);
                   h_FullSignal3D0_HB->Fill(double(k2plot), double(k3), 1.);
                 }
                 if (k1 == 1) {
                   h_FullSignal3D_HE->Fill(double(k2plot), double(k3), signal[k1][k2][k3]);
                   h_FullSignal3D0_HE->Fill(double(k2plot), double(k3), 1.);
                 }
                 if (k1 == 2) {
                   h_FullSignal3D_HO->Fill(double(k2plot), double(k3), signal[k1][k2][k3]);
                   h_FullSignal3D0_HO->Fill(double(k2plot), double(k3), 1.);
                 }
                 if (k1 == 3) {
                   h_FullSignal3D_HF->Fill(double(k2plot), double(k3), signal[k1][k2][k3]);
                   h_FullSignal3D0_HF->Fill(double(k2plot), double(k3), 1.);
                 }
               }

             }  // optimization

             // k2 = 0-81, k3= 0-71
             // return to real indexes in eta and phi ( k20 and k30)
             int k20 = k2 - 41;  // k20 = -41 - 40
             if (k20 > 0 || k20 == 0)
               k20 += 1;        // k20 = -41 - -1 and +1 - +41
             int k30 = k3 + 1;  // k30= 1-nphi

             // find calibration indexes in eta and phi ( kk2 and kk3)
             int kk2 = 0, kk3 = 0;
             if (k1 == 0 || k1 == 1) {
               if (k20 > 0)
                 kk2 = 1;
               else
                 kk2 = -1;
               if (k30 == 71 || k30 == nphi || k30 == 1 || k30 == 2)
                 kk3 = 71;
               else
                 kk3 = ((k30 - 3) / 4) * 4 + 3;
             } else if (k1 == 2) {
               if (abs(k20) <= 4) {
                 kk2 = 0;
                 if (k30 == 71 || k30 == nphi || k30 == 1 || k30 == 2 || k30 == 3 || k30 == 4)
                   kk3 = 71;
                 else
                   kk3 = ((k30 - 5) / 6) * 6 + 5;
               } else {
                 if (abs(k20) > 4 && abs(k20) <= 10)
                   kk2 = 1;
                 if (abs(k20) > 10 && abs(k20) <= 15)
                   kk2 = 2;
                 if (k20 < 0)
                   kk2 = -kk2;
                 if (k30 == 71 || k30 == nphi || (k30 >= 1 && k30 <= 10))
                   kk3 = 71;
                 else
                   kk3 = ((k30 - 11) / 12) * 12 + 11;
               }
             } else if (k1 == 3) {
               if (k20 > 0)
                 kk2 = 1;
               else
                 kk2 = -1;
               if (k30 >= 1 && k30 <= 18)
                 kk3 = 1;
               if (k30 >= 19 && k30 <= 36)
                 kk3 = 19;
               if (k30 >= 37 && k30 <= 54)
                 kk3 = 37;
               if (k30 >= 55 && k30 <= nphi)
                 kk3 = 55;
             }
             // return to indexes in massiv
             int kkk2 = kk2 + 41;
             if (kk2 > 0)
               kkk2 -= 1;
             int kkk3 = kk3;
             kkk3 -= 1;

             if (flagcpuoptimization_ == 0) {
               double GetRMSOverNormalizedSignal = -1.;
               if (signal[k1][k2][k3] > 0. && calib0[k1][kkk2][kkk3] > 0.) {
                 GetRMSOverNormalizedSignal = signal[k1][k2][k3] / calib0[k1][kkk2][kkk3];
                 if (k1 == 0) {
                   h_mapGetRMSOverNormalizedSignal_HB->Fill(double(k2plot), double(k3), GetRMSOverNormalizedSignal);
                   h_mapGetRMSOverNormalizedSignal0_HB->Fill(double(k2plot), double(k3), 1.);
                 }
                 if (k1 == 1) {
                   h_mapGetRMSOverNormalizedSignal_HE->Fill(double(k2plot), double(k3), GetRMSOverNormalizedSignal);
                   h_mapGetRMSOverNormalizedSignal0_HE->Fill(double(k2plot), double(k3), 1.);
                 }
                 if (k1 == 2) {
                   h_mapGetRMSOverNormalizedSignal_HO->Fill(double(k2plot), double(k3), GetRMSOverNormalizedSignal);
                   h_mapGetRMSOverNormalizedSignal0_HO->Fill(double(k2plot), double(k3), 1.);
                 }
                 if (k1 == 3) {
                   h_mapGetRMSOverNormalizedSignal_HF->Fill(double(k2plot), double(k3), GetRMSOverNormalizedSignal);
                   h_mapGetRMSOverNormalizedSignal0_HF->Fill(double(k2plot), double(k3), 1.);
                 }
               }
             }  //optimization
             if (signal[k1][k2][k3] > 0.) {
               // ADC
               double adc = 0.;
               if (calib0[k1][kkk2][kkk3] > 0.)
                 adc = calib0[k1][kkk2][kkk3];
               // Ratio
               double ratio = 2.;
               if (calib0[k1][kkk2][kkk3] > 0.)
                 ratio = calib2[k1][kkk2][kkk3] / calib0[k1][kkk2][kkk3];
               // TSmax
               float calibtsmax = calibt[k1][kkk2][kkk3];
               // TSmean
               float calibtsmean = caliba[k1][kkk2][kkk3];
               // Width
               float calibwidth = calibw[k1][kkk2][kkk3];
               // CapIdErrors
               float calibcap = -100.;
               calibcap = calibcapiderror[k1][kkk2][kkk3];

               //                 HB:
               if (k1 == 0) {
                 // ADC
                 h_ADCCalib_HB->Fill(adc, 1.);
                 h_ADCCalib1_HB->Fill(adc, 1.);
                 if (adc < calibrADCHBMin_ || adc > calibrADCHBMax_)
                   h_mapADCCalib047_HB->Fill(double(k2plot), double(k3), 1.);
                 h_mapADCCalib_HB->Fill(double(k2plot), double(k3), adc);
                 // Ratio
                 h_RatioCalib_HB->Fill(ratio, 1.);
                 if (ratio < calibrRatioHBMin_ || ratio > calibrRatioHBMax_)
                   h_mapRatioCalib047_HB->Fill(double(k2plot), double(k3), 1.);
                 h_mapRatioCalib_HB->Fill(double(k2plot), double(k3), ratio);
                 // TSmax
                 if (calibtsmax > -0.5) {
                   h_TSmaxCalib_HB->Fill(calibtsmax, 1.);
                   if (calibtsmax < calibrTSmaxHBMin_ || calibtsmax > calibrTSmaxHBMax_)
                     h_mapTSmaxCalib047_HB->Fill(double(k2plot), double(k3), 1.);
                   h_mapTSmaxCalib_HB->Fill(double(k2plot), double(k3), calibtsmax);
                 }
                 // TSmean
                 if (calibtsmean > -0.5) {
                   h_TSmeanCalib_HB->Fill(calibtsmean, 1.);
                   if (calibtsmean < calibrTSmeanHBMin_ || calibtsmean > calibrTSmeanHBMax_)
                     h_mapTSmeanCalib047_HB->Fill(double(k2plot), double(k3), 1.);
                   h_mapTSmeanCalib_HB->Fill(double(k2plot), double(k3), calibtsmean);
                 }
                 // Width
                 if (calibwidth > -0.5) {
                   h_WidthCalib_HB->Fill(calibwidth, 1.);
                   if (calibwidth < calibrWidthHBMin_ || calibwidth > calibrWidthHBMax_)
                     h_mapWidthCalib047_HB->Fill(double(k2plot), double(k3), 1.);
                   h_mapWidthCalib_HB->Fill(double(k2plot), double(k3), calibwidth);
                 }
                 // CapIdErrors
                 if (calibcap > 0)
                   h_mapCapCalib047_HB->Fill(double(k2plot), double(k3), 1.);
                 //
                 h_map_HB->Fill(double(k2plot), double(k3), 1.);
               }
               //                 HE:
               if (k1 == 1) {
                 // ADC
                 h_ADCCalib_HE->Fill(adc, 1.);
                 h_ADCCalib1_HE->Fill(adc, 1.);
                 if (adc < calibrADCHEMin_ || adc > calibrADCHEMax_)
                   h_mapADCCalib047_HE->Fill(double(k2plot), double(k3), 1.);
                 h_mapADCCalib_HE->Fill(double(k2plot), double(k3), adc);
                 // Ratio
                 h_RatioCalib_HE->Fill(ratio, 1.);
                 if (ratio < calibrRatioHEMin_ || ratio > calibrRatioHEMax_)
                   h_mapRatioCalib047_HE->Fill(double(k2plot), double(k3), 1.);
                 h_mapRatioCalib_HE->Fill(double(k2plot), double(k3), ratio);
                 // TSmax
                 if (calibtsmax > -0.5) {
                   h_TSmaxCalib_HE->Fill(calibtsmax, 1.);
                   if (calibtsmax < calibrTSmaxHEMin_ || calibtsmax > calibrTSmaxHEMax_)
                     h_mapTSmaxCalib047_HE->Fill(double(k2plot), double(k3), 1.);
                   h_mapTSmaxCalib_HE->Fill(double(k2plot), double(k3), calibtsmax);
                 }
                 // TSmean
                 if (calibtsmean > -0.5) {
                   h_TSmeanCalib_HE->Fill(calibtsmean, 1.);
                   if (calibtsmean < calibrTSmeanHEMin_ || calibtsmean > calibrTSmeanHEMax_)
                     h_mapTSmeanCalib047_HE->Fill(double(k2plot), double(k3), 1.);
                   h_mapTSmeanCalib_HE->Fill(double(k2plot), double(k3), calibtsmean);
                 }
                 // Width
                 if (calibwidth > -0.5) {
                   h_WidthCalib_HE->Fill(calibwidth, 1.);
                   if (calibwidth < calibrWidthHEMin_ || calibwidth > calibrWidthHEMax_)
                     h_mapWidthCalib047_HE->Fill(double(k2plot), double(k3), 1.);
                   h_mapWidthCalib_HE->Fill(double(k2plot), double(k3), calibwidth);
                 }
                 // CapIdErrors
                 if (calibcap > 0)
                   h_mapCapCalib047_HE->Fill(double(k2plot), double(k3), 1.);
                 //
                 h_map_HE->Fill(double(k2plot), double(k3), 1.);
               }
               //                 HO:
               if (k1 == 2) {
                 // ADC
                 h_ADCCalib_HO->Fill(adc, 1.);
                 h_ADCCalib1_HO->Fill(adc, 1.);
                 if (adc < calibrADCHOMin_ || adc > calibrADCHOMax_)
                   h_mapADCCalib047_HO->Fill(double(k2plot), double(k3), 1.);
                 h_mapADCCalib_HO->Fill(double(k2plot), double(k3), adc);
                 // Ratio
                 h_RatioCalib_HO->Fill(ratio, 1.);
                 if (ratio < calibrRatioHOMin_ || ratio > calibrRatioHOMax_)
                   h_mapRatioCalib047_HO->Fill(double(k2plot), double(k3), 1.);
                 h_mapRatioCalib_HO->Fill(double(k2plot), double(k3), ratio);
                 // TSmax
                 if (calibtsmax > -0.5) {
                   h_TSmaxCalib_HO->Fill(calibtsmax, 1.);
                   if (calibtsmax < calibrTSmaxHOMin_ || calibtsmax > calibrTSmaxHOMax_)
                     h_mapTSmaxCalib047_HO->Fill(double(k2plot), double(k3), 1.);
                   h_mapTSmaxCalib_HO->Fill(double(k2plot), double(k3), calibtsmax);
                 }
                 // TSmean
                 if (calibtsmean > -0.5) {
                   h_TSmeanCalib_HO->Fill(calibtsmean, 1.);
                   if (calibtsmean < calibrTSmeanHOMin_ || calibtsmean > calibrTSmeanHOMax_)
                     h_mapTSmeanCalib047_HO->Fill(double(k2plot), double(k3), 1.);
                   h_mapTSmeanCalib_HO->Fill(double(k2plot), double(k3), calibtsmean);
                 }
                 // Width
                 if (calibwidth > -0.5) {
                   h_WidthCalib_HO->Fill(calibwidth, 1.);
                   if (calibwidth < calibrWidthHOMin_ || calibwidth > calibrWidthHOMax_)
                     h_mapWidthCalib047_HO->Fill(double(k2plot), double(k3), 1.);
                   h_mapWidthCalib_HO->Fill(double(k2plot), double(k3), calibwidth);
                 }
                 // CapIdErrors
                 if (calibcap > 0)
                   h_mapCapCalib047_HO->Fill(double(k2plot), double(k3), 1.);
                 //
                 h_map_HO->Fill(double(k2plot), double(k3), 1.);
               }
               //                 HF:
               if (k1 == 3) {
                 // ADC
                 h_ADCCalib_HF->Fill(adc, 1.);
                 h_ADCCalib1_HF->Fill(adc, 1.);
                 if (adc < calibrADCHFMin_ || adc > calibrADCHFMax_)
                   h_mapADCCalib047_HF->Fill(double(k2plot), double(k3), 1.);
                 h_mapADCCalib_HF->Fill(double(k2plot), double(k3), adc);
                 // Ratio
                 h_RatioCalib_HF->Fill(ratio, 1.);
                 if (ratio < calibrRatioHFMin_ || ratio > calibrRatioHFMax_)
                   h_mapRatioCalib047_HF->Fill(double(k2plot), double(k3), 1.);
                 h_mapRatioCalib_HF->Fill(double(k2plot), double(k3), ratio);
                 // TSmax
                 if (calibtsmax > -0.5) {
                   h_TSmaxCalib_HF->Fill(calibtsmax, 1.);
                   if (calibtsmax < calibrTSmaxHFMin_ || calibtsmax > calibrTSmaxHFMax_)
                     h_mapTSmaxCalib047_HF->Fill(double(k2plot), double(k3), 1.);
                   h_mapTSmaxCalib_HF->Fill(double(k2plot), double(k3), calibtsmax);
                 }
                 // TSmean
                 if (calibtsmean > -0.5) {
                   h_TSmeanCalib_HF->Fill(calibtsmean, 1.);
                   if (calibtsmean < calibrTSmeanHFMin_ || calibtsmean > calibrTSmeanHFMax_)
                     h_mapTSmeanCalib047_HF->Fill(double(k2plot), double(k3), 1.);
                   h_mapTSmeanCalib_HF->Fill(double(k2plot), double(k3), calibtsmean);
                 }
                 // Width
                 if (calibwidth > -0.5) {
                   h_WidthCalib_HF->Fill(calibwidth, 1.);
                   if (calibwidth < calibrWidthHFMin_ || calibwidth > calibrWidthHFMax_)
                     h_mapWidthCalib047_HF->Fill(double(k2plot), double(k3), 1.);
                   h_mapWidthCalib_HF->Fill(double(k2plot), double(k3), calibwidth);
                 }
                 // CapIdErrors
                 if (calibcap > 0)
                   h_mapCapCalib047_HF->Fill(double(k2plot), double(k3), 1.);
                 //
                 h_map_HF->Fill(double(k2plot), double(k3), 1.);
               }
             }  // if(signal[k1][k2][k3]>0.)
           }  // k3
         }    // k2
       }      // k1


     }  //if(recordHistoes_&& studyCalibCellsHist_)

     if (recordNtuples_ && nevent50 < maxNeventsInNtuple_)
       myTree->Fill();
     //  if(recordNtuples_ && nevent < maxNeventsInNtuple_) myTree->Fill();

     if (++local_event % 100 == 0) {
       if (verbosity < 0)
         std::cout << "run " << Run << " processing events " << local_event << " ok, "
                   << ", lumi " << lumi << ", numOfLaserEv " << numOfLaserEv << std::endl;
     }
   }  // bcn

   //EndAnalyzer
 }

 // ------------ method called once each job just before starting event loop  -----------
 void CMTRawAnalyzer::beginJob() {
   if (verbosity > 0)
     std::cout << "========================   beignJob START   +++++++++++++++++++++++++++" << std::endl;
   nnnnnn = 0;
   nnnnnnhbhe = 0;
   nnnnnnhbheqie11 = 0;
   nevent = 0;
   nevent50 = 0;
   counterhf = 0;
   counterhfqie10 = 0;
   counterho = 0;
   nnnnnn1 = 0;
   nnnnnn2 = 0;
   nnnnnn3 = 0;
   nnnnnn4 = 0;
   nnnnnn5 = 0;
   nnnnnn6 = 0;

   if (recordHistoes_) {
     //  ha2 = fs_->make<TH2F>("ha2"," ", neta, -41., 41., nphi, 0., bphi);

     h_errorGeneral = fs_->make<TH1F>("h_errorGeneral", " ", 5, 0., 5.);
     h_error1 = fs_->make<TH1F>("h_error1", " ", 5, 0., 5.);
     h_error2 = fs_->make<TH1F>("h_error2", " ", 5, 0., 5.);
     h_error3 = fs_->make<TH1F>("h_error3", " ", 5, 0., 5.);
     h_amplError = fs_->make<TH1F>("h_amplError", " ", 100, -2., 98.);
     h_amplFine = fs_->make<TH1F>("h_amplFine", " ", 100, -2., 98.);

     h_errorGeneral_HB = fs_->make<TH1F>("h_errorGeneral_HB", " ", 5, 0., 5.);
     h_error1_HB = fs_->make<TH1F>("h_error1_HB", " ", 5, 0., 5.);
     h_error2_HB = fs_->make<TH1F>("h_error2_HB", " ", 5, 0., 5.);
     h_error3_HB = fs_->make<TH1F>("h_error3_HB", " ", 5, 0., 5.);
     h_error4_HB = fs_->make<TH1F>("h_error4_HB", " ", 5, 0., 5.);
     h_error5_HB = fs_->make<TH1F>("h_error5_HB", " ", 5, 0., 5.);
     h_error6_HB = fs_->make<TH1F>("h_error6_HB", " ", 5, 0., 5.);
     h_error7_HB = fs_->make<TH1F>("h_error7_HB", " ", 5, 0., 5.);
     h_amplError_HB = fs_->make<TH1F>("h_amplError_HB", " ", 100, -2., 98.);
     h_amplFine_HB = fs_->make<TH1F>("h_amplFine_HB", " ", 100, -2., 98.);
     h_mapDepth1Error_HB = fs_->make<TH2F>("h_mapDepth1Error_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2Error_HB = fs_->make<TH2F>("h_mapDepth2Error_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3Error_HB = fs_->make<TH2F>("h_mapDepth3Error_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4Error_HB = fs_->make<TH2F>("h_mapDepth4Error_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_fiber0_HB = fs_->make<TH1F>("h_fiber0_HB", " ", 10, 0., 10.);
     h_fiber1_HB = fs_->make<TH1F>("h_fiber1_HB", " ", 10, 0., 10.);
     h_fiber2_HB = fs_->make<TH1F>("h_fiber2_HB", " ", 40, 0., 40.);
     h_repetedcapid_HB = fs_->make<TH1F>("h_repetedcapid_HB", " ", 5, 0., 5.);

     h_errorGeneral_HE = fs_->make<TH1F>("h_errorGeneral_HE", " ", 5, 0., 5.);
     h_error1_HE = fs_->make<TH1F>("h_error1_HE", " ", 5, 0., 5.);
     h_error2_HE = fs_->make<TH1F>("h_error2_HE", " ", 5, 0., 5.);
     h_error3_HE = fs_->make<TH1F>("h_error3_HE", " ", 5, 0., 5.);
     h_error4_HE = fs_->make<TH1F>("h_error4_HE", " ", 5, 0., 5.);
     h_error5_HE = fs_->make<TH1F>("h_error5_HE", " ", 5, 0., 5.);
     h_error6_HE = fs_->make<TH1F>("h_error6_HE", " ", 5, 0., 5.);
     h_error7_HE = fs_->make<TH1F>("h_error7_HE", " ", 5, 0., 5.);
     h_amplError_HE = fs_->make<TH1F>("h_amplError_HE", " ", 100, -2., 98.);
     h_amplFine_HE = fs_->make<TH1F>("h_amplFine_HE", " ", 100, -2., 98.);
     h_mapDepth1Error_HE = fs_->make<TH2F>("h_mapDepth1Error_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2Error_HE = fs_->make<TH2F>("h_mapDepth2Error_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3Error_HE = fs_->make<TH2F>("h_mapDepth3Error_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4Error_HE = fs_->make<TH2F>("h_mapDepth4Error_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth5Error_HE = fs_->make<TH2F>("h_mapDepth5Error_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth6Error_HE = fs_->make<TH2F>("h_mapDepth6Error_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth7Error_HE = fs_->make<TH2F>("h_mapDepth7Error_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_fiber0_HE = fs_->make<TH1F>("h_fiber0_HE", " ", 10, 0., 10.);
     h_fiber1_HE = fs_->make<TH1F>("h_fiber1_HE", " ", 10, 0., 10.);
     h_fiber2_HE = fs_->make<TH1F>("h_fiber2_HE", " ", 40, 0., 40.);
     h_repetedcapid_HE = fs_->make<TH1F>("h_repetedcapid_HE", " ", 5, 0., 5.);

     h_errorGeneral_HF = fs_->make<TH1F>("h_errorGeneral_HF", " ", 5, 0., 5.);
     h_error1_HF = fs_->make<TH1F>("h_error1_HF", " ", 5, 0., 5.);
     h_error2_HF = fs_->make<TH1F>("h_error2_HF", " ", 5, 0., 5.);
     h_error3_HF = fs_->make<TH1F>("h_error3_HF", " ", 5, 0., 5.);
     h_error4_HF = fs_->make<TH1F>("h_error4_HF", " ", 5, 0., 5.);
     h_error5_HF = fs_->make<TH1F>("h_error5_HF", " ", 5, 0., 5.);
     h_error6_HF = fs_->make<TH1F>("h_error6_HF", " ", 5, 0., 5.);
     h_error7_HF = fs_->make<TH1F>("h_error7_HF", " ", 5, 0., 5.);
     h_amplError_HF = fs_->make<TH1F>("h_amplError_HF", " ", 100, -2., 98.);
     h_amplFine_HF = fs_->make<TH1F>("h_amplFine_HF", " ", 100, -2., 98.);
     h_mapDepth1Error_HF = fs_->make<TH2F>("h_mapDepth1Error_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2Error_HF = fs_->make<TH2F>("h_mapDepth2Error_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3Error_HF = fs_->make<TH2F>("h_mapDepth3Error_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4Error_HF = fs_->make<TH2F>("h_mapDepth4Error_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_fiber0_HF = fs_->make<TH1F>("h_fiber0_HF", " ", 10, 0., 10.);
     h_fiber1_HF = fs_->make<TH1F>("h_fiber1_HF", " ", 10, 0., 10.);
     h_fiber2_HF = fs_->make<TH1F>("h_fiber2_HF", " ", 40, 0., 40.);
     h_repetedcapid_HF = fs_->make<TH1F>("h_repetedcapid_HF", " ", 5, 0., 5.);

     h_errorGeneral_HO = fs_->make<TH1F>("h_errorGeneral_HO", " ", 5, 0., 5.);
     h_error1_HO = fs_->make<TH1F>("h_error1_HO", " ", 5, 0., 5.);
     h_error2_HO = fs_->make<TH1F>("h_error2_HO", " ", 5, 0., 5.);
     h_error3_HO = fs_->make<TH1F>("h_error3_HO", " ", 5, 0., 5.);
     h_error4_HO = fs_->make<TH1F>("h_error4_HO", " ", 5, 0., 5.);
     h_error5_HO = fs_->make<TH1F>("h_error5_HO", " ", 5, 0., 5.);
     h_error6_HO = fs_->make<TH1F>("h_error6_HO", " ", 5, 0., 5.);
     h_error7_HO = fs_->make<TH1F>("h_error7_HO", " ", 5, 0., 5.);
     h_amplError_HO = fs_->make<TH1F>("h_amplError_HO", " ", 100, -2., 98.);
     h_amplFine_HO = fs_->make<TH1F>("h_amplFine_HO", " ", 100, -2., 98.);
     h_mapDepth4Error_HO = fs_->make<TH2F>("h_mapDepth4Error_HO", " ", neta, -41., 41., nphi, 0., bphi);
     h_fiber0_HO = fs_->make<TH1F>("h_fiber0_HO", " ", 10, 0., 10.);
     h_fiber1_HO = fs_->make<TH1F>("h_fiber1_HO", " ", 10, 0., 10.);
     h_fiber2_HO = fs_->make<TH1F>("h_fiber2_HO", " ", 40, 0., 40.);
     h_repetedcapid_HO = fs_->make<TH1F>("h_repetedcapid_HO", " ", 5, 0., 5.);


     h_numberofhitsHBtest = fs_->make<TH1F>("h_numberofhitsHBtest", " ", 100, 0., 100.);
     h_AmplitudeHBtest = fs_->make<TH1F>("h_AmplitudeHBtest", " ", 100, 0., 10000.);
     h_AmplitudeHBtest1 = fs_->make<TH1F>("h_AmplitudeHBtest1", " ", 100, 0., 1000000.);
     h_AmplitudeHBtest6 = fs_->make<TH1F>("h_AmplitudeHBtest6", " ", 100, 0., 2000000.);
     h_totalAmplitudeHB = fs_->make<TH1F>("h_totalAmplitudeHB", " ", 100, 0., 3000000.);
     h_totalAmplitudeHBperEvent = fs_->make<TH1F>("h_totalAmplitudeHBperEvent", " ", 1000, 1., 1001.);
     // fullAmplitude:
     h_ADCAmpl345Zoom_HB = fs_->make<TH1F>("h_ADCAmpl345Zoom_HB", " ", 100, 0., 400.);
     h_ADCAmpl345Zoom1_HB = fs_->make<TH1F>("h_ADCAmpl345Zoom1_HB", " ", 100, 0., 100.);
     h_ADCAmpl345_HB = fs_->make<TH1F>("h_ADCAmpl345_HB", " ", 100, 10., 3000.);

     h_AmplitudeHBrest = fs_->make<TH1F>("h_AmplitudeHBrest", " ", 100, 0., 10000.);
     h_AmplitudeHBrest1 = fs_->make<TH1F>("h_AmplitudeHBrest1", " ", 100, 0., 1000000.);
     h_AmplitudeHBrest6 = fs_->make<TH1F>("h_AmplitudeHBrest6", " ", 100, 0., 2000000.);

     h_ADCAmpl345_HBCapIdError = fs_->make<TH1F>("h_ADCAmpl345_HBCapIdError", " ", 100, 10., 3000.);
     h_ADCAmpl345_HBCapIdNoError = fs_->make<TH1F>("h_ADCAmpl345_HBCapIdNoError", " ", 100, 10., 3000.);
     h_ADCAmpl_HBCapIdError = fs_->make<TH1F>("h_ADCAmpl_HBCapIdError", " ", 100, 10., 3000.);
     h_ADCAmpl_HBCapIdNoError = fs_->make<TH1F>("h_ADCAmpl_HBCapIdNoError", " ", 100, 10., 3000.);

     h_ADCAmplZoom_HB = fs_->make<TH1F>("h_ADCAmplZoom_HB", " ", 100, 0., 400.);
     h_ADCAmplZoom1_HB = fs_->make<TH1F>("h_ADCAmplZoom1_HB", " ", 100, -20., 80.);
     h_ADCAmpl_HB = fs_->make<TH1F>("h_ADCAmpl_HB", " ", 100, 10., 5000.);
     h_mapDepth1ADCAmpl225_HB = fs_->make<TH2F>("h_mapDepth1ADCAmpl225_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2ADCAmpl225_HB = fs_->make<TH2F>("h_mapDepth2ADCAmpl225_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3ADCAmpl225_HB = fs_->make<TH2F>("h_mapDepth3ADCAmpl225_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4ADCAmpl225_HB = fs_->make<TH2F>("h_mapDepth4ADCAmpl225_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1ADCAmpl225Copy_HB =
         fs_->make<TH2F>("h_mapDepth1ADCAmpl225Copy_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2ADCAmpl225Copy_HB =
         fs_->make<TH2F>("h_mapDepth2ADCAmpl225Copy_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3ADCAmpl225Copy_HB =
         fs_->make<TH2F>("h_mapDepth3ADCAmpl225Copy_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4ADCAmpl225Copy_HB =
         fs_->make<TH2F>("h_mapDepth4ADCAmpl225Copy_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1ADCAmpl_HB = fs_->make<TH2F>("h_mapDepth1ADCAmpl_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2ADCAmpl_HB = fs_->make<TH2F>("h_mapDepth2ADCAmpl_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3ADCAmpl_HB = fs_->make<TH2F>("h_mapDepth3ADCAmpl_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4ADCAmpl_HB = fs_->make<TH2F>("h_mapDepth4ADCAmpl_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_TSmeanA_HB = fs_->make<TH1F>("h_TSmeanA_HB", " ", 100, -1., 11.);
     h_mapDepth1TSmeanA225_HB = fs_->make<TH2F>("h_mapDepth1TSmeanA225_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2TSmeanA225_HB = fs_->make<TH2F>("h_mapDepth2TSmeanA225_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3TSmeanA225_HB = fs_->make<TH2F>("h_mapDepth3TSmeanA225_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4TSmeanA225_HB = fs_->make<TH2F>("h_mapDepth4TSmeanA225_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1TSmeanA_HB = fs_->make<TH2F>("h_mapDepth1TSmeanA_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2TSmeanA_HB = fs_->make<TH2F>("h_mapDepth2TSmeanA_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3TSmeanA_HB = fs_->make<TH2F>("h_mapDepth3TSmeanA_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4TSmeanA_HB = fs_->make<TH2F>("h_mapDepth4TSmeanA_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_TSmaxA_HB = fs_->make<TH1F>("h_TSmaxA_HB", " ", 100, -1., 11.);
     h_mapDepth1TSmaxA225_HB = fs_->make<TH2F>("h_mapDepth1TSmaxA225_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2TSmaxA225_HB = fs_->make<TH2F>("h_mapDepth2TSmaxA225_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3TSmaxA225_HB = fs_->make<TH2F>("h_mapDepth3TSmaxA225_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4TSmaxA225_HB = fs_->make<TH2F>("h_mapDepth4TSmaxA225_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1TSmaxA_HB = fs_->make<TH2F>("h_mapDepth1TSmaxA_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2TSmaxA_HB = fs_->make<TH2F>("h_mapDepth2TSmaxA_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3TSmaxA_HB = fs_->make<TH2F>("h_mapDepth3TSmaxA_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4TSmaxA_HB = fs_->make<TH2F>("h_mapDepth4TSmaxA_HB", " ", neta, -41., 41., nphi, 0., bphi);
     // RMS:
     h_Amplitude_HB = fs_->make<TH1F>("h_Amplitude_HB", " ", 100, 0., 5.);
     h_mapDepth1Amplitude225_HB = fs_->make<TH2F>("h_mapDepth1Amplitude225_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2Amplitude225_HB = fs_->make<TH2F>("h_mapDepth2Amplitude225_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3Amplitude225_HB = fs_->make<TH2F>("h_mapDepth3Amplitude225_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4Amplitude225_HB = fs_->make<TH2F>("h_mapDepth4Amplitude225_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1Amplitude_HB = fs_->make<TH2F>("h_mapDepth1Amplitude_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2Amplitude_HB = fs_->make<TH2F>("h_mapDepth2Amplitude_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3Amplitude_HB = fs_->make<TH2F>("h_mapDepth3Amplitude_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4Amplitude_HB = fs_->make<TH2F>("h_mapDepth4Amplitude_HB", " ", neta, -41., 41., nphi, 0., bphi);
     // Ratio:
     h_Ampl_HB = fs_->make<TH1F>("h_Ampl_HB", " ", 100, 0., 1.1);
     h_mapDepth1Ampl047_HB = fs_->make<TH2F>("h_mapDepth1Ampl047_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2Ampl047_HB = fs_->make<TH2F>("h_mapDepth2Ampl047_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3Ampl047_HB = fs_->make<TH2F>("h_mapDepth3Ampl047_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4Ampl047_HB = fs_->make<TH2F>("h_mapDepth4Ampl047_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1Ampl_HB = fs_->make<TH2F>("h_mapDepth1Ampl_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2Ampl_HB = fs_->make<TH2F>("h_mapDepth2Ampl_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3Ampl_HB = fs_->make<TH2F>("h_mapDepth3Ampl_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4Ampl_HB = fs_->make<TH2F>("h_mapDepth4Ampl_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1AmplE34_HB = fs_->make<TH2F>("h_mapDepth1AmplE34_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2AmplE34_HB = fs_->make<TH2F>("h_mapDepth2AmplE34_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3AmplE34_HB = fs_->make<TH2F>("h_mapDepth3AmplE34_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4AmplE34_HB = fs_->make<TH2F>("h_mapDepth4AmplE34_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1_HB = fs_->make<TH2F>("h_mapDepth1_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2_HB = fs_->make<TH2F>("h_mapDepth2_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3_HB = fs_->make<TH2F>("h_mapDepth3_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4_HB = fs_->make<TH2F>("h_mapDepth4_HB", " ", neta, -41., 41., nphi, 0., bphi);

     h_mapDepth1TS2_HB = fs_->make<TH2F>("h_mapDepth1TS2_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2TS2_HB = fs_->make<TH2F>("h_mapDepth2TS2_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3TS2_HB = fs_->make<TH2F>("h_mapDepth3TS2_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4TS2_HB = fs_->make<TH2F>("h_mapDepth4TS2_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1TS2_HE = fs_->make<TH2F>("h_mapDepth1TS2_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2TS2_HE = fs_->make<TH2F>("h_mapDepth2TS2_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3TS2_HE = fs_->make<TH2F>("h_mapDepth3TS2_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4TS2_HE = fs_->make<TH2F>("h_mapDepth4TS2_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth5TS2_HE = fs_->make<TH2F>("h_mapDepth5TS2_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth6TS2_HE = fs_->make<TH2F>("h_mapDepth6TS2_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth7TS2_HE = fs_->make<TH2F>("h_mapDepth7TS2_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_recSignalEnergy0_HF3 = fs_->make<TH2F>("h_recSignalEnergy0_HF3", " ", neta, -41., 41., nphi, 0., bphi);
     h_recSignalEnergy1_HF3 = fs_->make<TH2F>("h_recSignalEnergy1_HF3", " ", neta, -41., 41., nphi, 0., bphi);
     h_recSignalEnergy2_HF3 = fs_->make<TH2F>("h_recSignalEnergy2_HF3", " ", neta, -41., 41., nphi, 0., bphi);
     h_recSignalEnergy0_HF4 = fs_->make<TH2F>("h_recSignalEnergy0_HF4", " ", neta, -41., 41., nphi, 0., bphi);
     h_recSignalEnergy1_HF4 = fs_->make<TH2F>("h_recSignalEnergy1_HF4", " ", neta, -41., 41., nphi, 0., bphi);
     h_recSignalEnergy2_HF4 = fs_->make<TH2F>("h_recSignalEnergy2_HF4", " ", neta, -41., 41., nphi, 0., bphi);
     h_recNoiseEnergy0_HF3 = fs_->make<TH2F>("h_recNoiseEnergy0_HF3", " ", neta, -41., 41., nphi, 0., bphi);
     h_recNoiseEnergy1_HF3 = fs_->make<TH2F>("h_recNoiseEnergy1_HF3", " ", neta, -41., 41., nphi, 0., bphi);
     h_recNoiseEnergy2_HF3 = fs_->make<TH2F>("h_recNoiseEnergy2_HF3", " ", neta, -41., 41., nphi, 0., bphi);
     h_recNoiseEnergy0_HF4 = fs_->make<TH2F>("h_recNoiseEnergy0_HF4", " ", neta, -41., 41., nphi, 0., bphi);
     h_recNoiseEnergy1_HF4 = fs_->make<TH2F>("h_recNoiseEnergy1_HF4", " ", neta, -41., 41., nphi, 0., bphi);
     h_recNoiseEnergy2_HF4 = fs_->make<TH2F>("h_recNoiseEnergy2_HF4", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1TS1_HF = fs_->make<TH2F>("h_mapDepth1TS1_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2TS1_HF = fs_->make<TH2F>("h_mapDepth2TS1_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3TS1_HF = fs_->make<TH2F>("h_mapDepth3TS1_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4TS1_HF = fs_->make<TH2F>("h_mapDepth4TS1_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4TS012_HO = fs_->make<TH2F>("h_mapDepth4TS012_HO", " ", neta, -41., 41., nphi, 0., bphi);


     // stuff regarding summed(total) Amplitude vs iEvent (histo-name is  h_totalAmplitudeHEperEvent)
     // to see from which event ALL channels are available(related to quality of the run)
     h_numberofhitsHEtest = fs_->make<TH1F>("h_numberofhitsHEtest", " ", 100, 0., 10000.);
     h_AmplitudeHEtest = fs_->make<TH1F>("h_AmplitudeHEtest", " ", 100, 0., 1000000.);
     h_AmplitudeHEtest1 = fs_->make<TH1F>("h_AmplitudeHEtest1", " ", 100, 0., 1000000.);
     h_AmplitudeHEtest6 = fs_->make<TH1F>("h_AmplitudeHEtest6", " ", 100, 0., 2000000.);
     h_totalAmplitudeHE = fs_->make<TH1F>("h_totalAmplitudeHE", " ", 100, 0., 10000000000.);
     h_totalAmplitudeHEperEvent = fs_->make<TH1F>("h_totalAmplitudeHEperEvent", " ", 1000, 1., 1001.);

     // Aijk Amplitude:
     h_ADCAmplZoom1_HE = fs_->make<TH1F>("h_ADCAmplZoom1_HE", " ", npfit, 0., anpfit);        // for amplmaxts 1TS w/ max
     h_ADCAmpl345Zoom1_HE = fs_->make<TH1F>("h_ADCAmpl345Zoom1_HE", " ", npfit, 0., anpfit);  // for ampl3ts 3TSs
     h_ADCAmpl345Zoom_HE = fs_->make<TH1F>("h_ADCAmpl345Zoom_HE", " ", npfit, 0., anpfit);    // for ampl 4TSs
     h_amplitudeaveragedbydepthes_HE =
         fs_->make<TH1F>("h_amplitudeaveragedbydepthes_HE", " ", npfit, 0., anpfit);  // for cross-check: A spectrum
     h_ndepthesperamplitudebins_HE =
         fs_->make<TH1F>("h_ndepthesperamplitudebins_HE", " ", 10, 0., 10.);  // for cross-check: ndepthes

     // Ampl12 4TSs to work with "ped-Gsel0" or "led-low-intensity" to clarify gain diff peak2-peak1
     h_mapADCAmplfirstpeak_HE =
         fs_->make<TH2F>("h_mapADCAmplfirstpeak_HE", " ", neta, -41., 41., nphi, 0., bphi);  // for amplmaxts 1TS w/ max
     h_mapADCAmplfirstpeak0_HE =
         fs_->make<TH2F>("h_mapADCAmplfirstpeak0_HE", " ", neta, -41., 41., nphi, 0., bphi);  // for amplmaxts 1TS w/ max
     h_mapADCAmplsecondpeak_HE =
         fs_->make<TH2F>("h_mapADCAmplsecondpeak_HE", " ", neta, -41., 41., nphi, 0., bphi);  // for amplmaxts 1TS w/ max
     h_mapADCAmplsecondpeak0_HE = fs_->make<TH2F>(
         "h_mapADCAmplsecondpeak0_HE", " ", neta, -41., 41., nphi, 0., bphi);  // for amplmaxts 1TS w/ max

     h_mapADCAmpl11firstpeak_HE =
         fs_->make<TH2F>("h_mapADCAmpl11firstpeak_HE", " ", neta, -41., 41., nphi, 0., bphi);  // for ampl3ts 3TSs
     h_mapADCAmpl11firstpeak0_HE =
         fs_->make<TH2F>("h_mapADCAmpl11firstpeak0_HE", " ", neta, -41., 41., nphi, 0., bphi);  // for ampl3ts 3TSs
     h_mapADCAmpl11secondpeak_HE =
         fs_->make<TH2F>("h_mapADCAmpl11secondpeak_HE", " ", neta, -41., 41., nphi, 0., bphi);  // for ampl3ts 3TSs
     h_mapADCAmpl11secondpeak0_HE =
         fs_->make<TH2F>("h_mapADCAmpl11secondpeak0_HE", " ", neta, -41., 41., nphi, 0., bphi);  // for ampl3ts 3TSs

     h_mapADCAmpl12firstpeak_HE =
         fs_->make<TH2F>("h_mapADCAmpl12firstpeak_HE", " ", neta, -41., 41., nphi, 0., bphi);  // for ampl 4TSs
     h_mapADCAmpl12firstpeak0_HE =
         fs_->make<TH2F>("h_mapADCAmpl12firstpeak0_HE", " ", neta, -41., 41., nphi, 0., bphi);  // for ampl 4TSs
     h_mapADCAmpl12secondpeak_HE =
         fs_->make<TH2F>("h_mapADCAmpl12secondpeak_HE", " ", neta, -41., 41., nphi, 0., bphi);  // for ampl 4TSs
     h_mapADCAmpl12secondpeak0_HE =
         fs_->make<TH2F>("h_mapADCAmpl12secondpeak0_HE", " ", neta, -41., 41., nphi, 0., bphi);  // for ampl 4TSs

     // Ampl12 4TSs to work with "ped-Gsel0" or "led-low-intensity" to clarify gain diff peak2-peak1  fit results:
     h_gsmdifferencefit1_HE = fs_->make<TH1F>("h_gsmdifferencefit1_HE", " ", 80, 20., 60.);
     h_gsmdifferencefit2_HE = fs_->make<TH1F>("h_gsmdifferencefit2_HE", " ", 80, 20., 60.);
     h_gsmdifferencefit3_HE = fs_->make<TH1F>("h_gsmdifferencefit3_HE", " ", 80, 20., 60.);
     h_gsmdifferencefit4_HE = fs_->make<TH1F>("h_gsmdifferencefit4_HE", " ", 80, 20., 60.);
     h_gsmdifferencefit5_HE = fs_->make<TH1F>("h_gsmdifferencefit5_HE", " ", 80, 20., 60.);
     h_gsmdifferencefit6_HE = fs_->make<TH1F>("h_gsmdifferencefit6_HE", " ", 80, 20., 60.);

     // Aijk Amplitude:
     h_ADCAmpl_HE = fs_->make<TH1F>("h_ADCAmpl_HE", " ", 200, 0., 2000000.);
     h_ADCAmplrest_HE = fs_->make<TH1F>("h_ADCAmplrest_HE", " ", 100, 0., 500.);
     h_ADCAmplrest1_HE = fs_->make<TH1F>("h_ADCAmplrest1_HE", " ", 100, 0., 100.);
     h_ADCAmplrest6_HE = fs_->make<TH1F>("h_ADCAmplrest6_HE", " ", 100, 0., 10000.);

     h_ADCAmpl345_HE = fs_->make<TH1F>("h_ADCAmpl345_HE", " ", 70, 0., 700000.);

     // SiPM corrections:
     h_corrforxaMAIN_HE = fs_->make<TH1F>("h_corrforxaMAIN_HE", " ", 70, 0., 700000.);
     h_corrforxaMAIN0_HE = fs_->make<TH1F>("h_corrforxaMAIN0_HE", " ", 70, 0., 700000.);
     h_corrforxaADDI_HE = fs_->make<TH1F>("h_corrforxaADDI_HE", " ", 70, 0., 700000.);
     h_corrforxaADDI0_HE = fs_->make<TH1F>("h_corrforxaADDI0_HE", " ", 70, 0., 700000.);

     h_mapDepth1ADCAmpl225_HE = fs_->make<TH2F>("h_mapDepth1ADCAmpl225_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2ADCAmpl225_HE = fs_->make<TH2F>("h_mapDepth2ADCAmpl225_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3ADCAmpl225_HE = fs_->make<TH2F>("h_mapDepth3ADCAmpl225_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4ADCAmpl225_HE = fs_->make<TH2F>("h_mapDepth4ADCAmpl225_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth5ADCAmpl225_HE = fs_->make<TH2F>("h_mapDepth5ADCAmpl225_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth6ADCAmpl225_HE = fs_->make<TH2F>("h_mapDepth6ADCAmpl225_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth7ADCAmpl225_HE = fs_->make<TH2F>("h_mapDepth7ADCAmpl225_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1ADCAmpl225Copy_HE =
         fs_->make<TH2F>("h_mapDepth1ADCAmpl225Copy_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2ADCAmpl225Copy_HE =
         fs_->make<TH2F>("h_mapDepth2ADCAmpl225Copy_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3ADCAmpl225Copy_HE =
         fs_->make<TH2F>("h_mapDepth3ADCAmpl225Copy_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4ADCAmpl225Copy_HE =
         fs_->make<TH2F>("h_mapDepth4ADCAmpl225Copy_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth5ADCAmpl225Copy_HE =
         fs_->make<TH2F>("h_mapDepth5ADCAmpl225Copy_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth6ADCAmpl225Copy_HE =
         fs_->make<TH2F>("h_mapDepth6ADCAmpl225Copy_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth7ADCAmpl225Copy_HE =
         fs_->make<TH2F>("h_mapDepth7ADCAmpl225Copy_HE", " ", neta, -41., 41., nphi, 0., bphi);

     h_mapDepth1ADCAmpl_HE = fs_->make<TH2F>("h_mapDepth1ADCAmpl_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2ADCAmpl_HE = fs_->make<TH2F>("h_mapDepth2ADCAmpl_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3ADCAmpl_HE = fs_->make<TH2F>("h_mapDepth3ADCAmpl_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4ADCAmpl_HE = fs_->make<TH2F>("h_mapDepth4ADCAmpl_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth5ADCAmpl_HE = fs_->make<TH2F>("h_mapDepth5ADCAmpl_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth6ADCAmpl_HE = fs_->make<TH2F>("h_mapDepth6ADCAmpl_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth7ADCAmpl_HE = fs_->make<TH2F>("h_mapDepth7ADCAmpl_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1ADCAmplSiPM_HE = fs_->make<TH2F>("h_mapDepth1ADCAmplSiPM_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2ADCAmplSiPM_HE = fs_->make<TH2F>("h_mapDepth2ADCAmplSiPM_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3ADCAmplSiPM_HE = fs_->make<TH2F>("h_mapDepth3ADCAmplSiPM_HE", " ", neta, -41., 41., nphi, 0., bphi);

     h_TSmeanA_HE = fs_->make<TH1F>("h_TSmeanA_HE", " ", 100, -2., 8.);
     h_mapDepth1TSmeanA225_HE = fs_->make<TH2F>("h_mapDepth1TSmeanA225_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2TSmeanA225_HE = fs_->make<TH2F>("h_mapDepth2TSmeanA225_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3TSmeanA225_HE = fs_->make<TH2F>("h_mapDepth3TSmeanA225_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4TSmeanA225_HE = fs_->make<TH2F>("h_mapDepth4TSmeanA225_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth5TSmeanA225_HE = fs_->make<TH2F>("h_mapDepth5TSmeanA225_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth6TSmeanA225_HE = fs_->make<TH2F>("h_mapDepth6TSmeanA225_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth7TSmeanA225_HE = fs_->make<TH2F>("h_mapDepth7TSmeanA225_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1TSmeanA_HE = fs_->make<TH2F>("h_mapDepth1TSmeanA_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2TSmeanA_HE = fs_->make<TH2F>("h_mapDepth2TSmeanA_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3TSmeanA_HE = fs_->make<TH2F>("h_mapDepth3TSmeanA_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4TSmeanA_HE = fs_->make<TH2F>("h_mapDepth4TSmeanA_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth5TSmeanA_HE = fs_->make<TH2F>("h_mapDepth5TSmeanA_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth6TSmeanA_HE = fs_->make<TH2F>("h_mapDepth6TSmeanA_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth7TSmeanA_HE = fs_->make<TH2F>("h_mapDepth7TSmeanA_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_TSmaxA_HE = fs_->make<TH1F>("h_TSmaxA_HE", " ", 100, -1., 11.);
     h_mapDepth1TSmaxA225_HE = fs_->make<TH2F>("h_mapDepth1TSmaxA225_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2TSmaxA225_HE = fs_->make<TH2F>("h_mapDepth2TSmaxA225_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3TSmaxA225_HE = fs_->make<TH2F>("h_mapDepth3TSmaxA225_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4TSmaxA225_HE = fs_->make<TH2F>("h_mapDepth4TSmaxA225_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth5TSmaxA225_HE = fs_->make<TH2F>("h_mapDepth5TSmaxA225_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth6TSmaxA225_HE = fs_->make<TH2F>("h_mapDepth6TSmaxA225_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth7TSmaxA225_HE = fs_->make<TH2F>("h_mapDepth7TSmaxA225_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1TSmaxA_HE = fs_->make<TH2F>("h_mapDepth1TSmaxA_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2TSmaxA_HE = fs_->make<TH2F>("h_mapDepth2TSmaxA_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3TSmaxA_HE = fs_->make<TH2F>("h_mapDepth3TSmaxA_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4TSmaxA_HE = fs_->make<TH2F>("h_mapDepth4TSmaxA_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth5TSmaxA_HE = fs_->make<TH2F>("h_mapDepth5TSmaxA_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth6TSmaxA_HE = fs_->make<TH2F>("h_mapDepth6TSmaxA_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth7TSmaxA_HE = fs_->make<TH2F>("h_mapDepth7TSmaxA_HE", " ", neta, -41., 41., nphi, 0., bphi);
     // RMS:
     h_Amplitude_HE = fs_->make<TH1F>("h_Amplitude_HE", " ", 100, 0., 5.5);
     h_mapDepth1Amplitude225_HE = fs_->make<TH2F>("h_mapDepth1Amplitude225_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2Amplitude225_HE = fs_->make<TH2F>("h_mapDepth2Amplitude225_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3Amplitude225_HE = fs_->make<TH2F>("h_mapDepth3Amplitude225_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4Amplitude225_HE = fs_->make<TH2F>("h_mapDepth4Amplitude225_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth5Amplitude225_HE = fs_->make<TH2F>("h_mapDepth5Amplitude225_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth6Amplitude225_HE = fs_->make<TH2F>("h_mapDepth6Amplitude225_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth7Amplitude225_HE = fs_->make<TH2F>("h_mapDepth7Amplitude225_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1Amplitude_HE = fs_->make<TH2F>("h_mapDepth1Amplitude_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2Amplitude_HE = fs_->make<TH2F>("h_mapDepth2Amplitude_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3Amplitude_HE = fs_->make<TH2F>("h_mapDepth3Amplitude_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4Amplitude_HE = fs_->make<TH2F>("h_mapDepth4Amplitude_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth5Amplitude_HE = fs_->make<TH2F>("h_mapDepth5Amplitude_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth6Amplitude_HE = fs_->make<TH2F>("h_mapDepth6Amplitude_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth7Amplitude_HE = fs_->make<TH2F>("h_mapDepth7Amplitude_HE", " ", neta, -41., 41., nphi, 0., bphi);

     // Ratio:
     h_Ampl_HE = fs_->make<TH1F>("h_Ampl_HE", " ", 100, 0., 1.1);
     h_mapDepth1Ampl047_HE = fs_->make<TH2F>("h_mapDepth1Ampl047_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2Ampl047_HE = fs_->make<TH2F>("h_mapDepth2Ampl047_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3Ampl047_HE = fs_->make<TH2F>("h_mapDepth3Ampl047_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4Ampl047_HE = fs_->make<TH2F>("h_mapDepth4Ampl047_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth5Ampl047_HE = fs_->make<TH2F>("h_mapDepth5Ampl047_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth6Ampl047_HE = fs_->make<TH2F>("h_mapDepth6Ampl047_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth7Ampl047_HE = fs_->make<TH2F>("h_mapDepth7Ampl047_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1Ampl_HE = fs_->make<TH2F>("h_mapDepth1Ampl_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2Ampl_HE = fs_->make<TH2F>("h_mapDepth2Ampl_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3Ampl_HE = fs_->make<TH2F>("h_mapDepth3Ampl_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4Ampl_HE = fs_->make<TH2F>("h_mapDepth4Ampl_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth5Ampl_HE = fs_->make<TH2F>("h_mapDepth5Ampl_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth6Ampl_HE = fs_->make<TH2F>("h_mapDepth6Ampl_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth7Ampl_HE = fs_->make<TH2F>("h_mapDepth7Ampl_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1AmplE34_HE = fs_->make<TH2F>("h_mapDepth1AmplE34_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2AmplE34_HE = fs_->make<TH2F>("h_mapDepth2AmplE34_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3AmplE34_HE = fs_->make<TH2F>("h_mapDepth3AmplE34_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4AmplE34_HE = fs_->make<TH2F>("h_mapDepth4AmplE34_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth5AmplE34_HE = fs_->make<TH2F>("h_mapDepth5AmplE34_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth6AmplE34_HE = fs_->make<TH2F>("h_mapDepth6AmplE34_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth7AmplE34_HE = fs_->make<TH2F>("h_mapDepth7AmplE34_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1_HE = fs_->make<TH2F>("h_mapDepth1_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2_HE = fs_->make<TH2F>("h_mapDepth2_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3_HE = fs_->make<TH2F>("h_mapDepth3_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4_HE = fs_->make<TH2F>("h_mapDepth4_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth5_HE = fs_->make<TH2F>("h_mapDepth5_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth6_HE = fs_->make<TH2F>("h_mapDepth6_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth7_HE = fs_->make<TH2F>("h_mapDepth7_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapenophinorm_HE1 = fs_->make<TH2F>("h_mapenophinorm_HE1", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapenophinorm_HE2 = fs_->make<TH2F>("h_mapenophinorm_HE2", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapenophinorm_HE3 = fs_->make<TH2F>("h_mapenophinorm_HE3", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapenophinorm_HE4 = fs_->make<TH2F>("h_mapenophinorm_HE4", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapenophinorm_HE5 = fs_->make<TH2F>("h_mapenophinorm_HE5", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapenophinorm_HE6 = fs_->make<TH2F>("h_mapenophinorm_HE6", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapenophinorm_HE7 = fs_->make<TH2F>("h_mapenophinorm_HE7", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapenophinorm2_HE1 = fs_->make<TH2F>("h_mapenophinorm2_HE1", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapenophinorm2_HE2 = fs_->make<TH2F>("h_mapenophinorm2_HE2", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapenophinorm2_HE3 = fs_->make<TH2F>("h_mapenophinorm2_HE3", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapenophinorm2_HE4 = fs_->make<TH2F>("h_mapenophinorm2_HE4", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapenophinorm2_HE5 = fs_->make<TH2F>("h_mapenophinorm2_HE5", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapenophinorm2_HE6 = fs_->make<TH2F>("h_mapenophinorm2_HE6", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapenophinorm2_HE7 = fs_->make<TH2F>("h_mapenophinorm2_HE7", " ", neta, -41., 41., nphi, 0., bphi);

     h_maprphinorm_HE1 = fs_->make<TH2F>("h_maprphinorm_HE1", " ", neta, -41., 41., nphi, 0., bphi);
     h_maprphinorm_HE2 = fs_->make<TH2F>("h_maprphinorm_HE2", " ", neta, -41., 41., nphi, 0., bphi);
     h_maprphinorm_HE3 = fs_->make<TH2F>("h_maprphinorm_HE3", " ", neta, -41., 41., nphi, 0., bphi);
     h_maprphinorm_HE4 = fs_->make<TH2F>("h_maprphinorm_HE4", " ", neta, -41., 41., nphi, 0., bphi);
     h_maprphinorm_HE5 = fs_->make<TH2F>("h_maprphinorm_HE5", " ", neta, -41., 41., nphi, 0., bphi);
     h_maprphinorm_HE6 = fs_->make<TH2F>("h_maprphinorm_HE6", " ", neta, -41., 41., nphi, 0., bphi);
     h_maprphinorm_HE7 = fs_->make<TH2F>("h_maprphinorm_HE7", " ", neta, -41., 41., nphi, 0., bphi);
     h_maprphinorm2_HE1 = fs_->make<TH2F>("h_maprphinorm2_HE1", " ", neta, -41., 41., nphi, 0., bphi);
     h_maprphinorm2_HE2 = fs_->make<TH2F>("h_maprphinorm2_HE2", " ", neta, -41., 41., nphi, 0., bphi);
     h_maprphinorm2_HE3 = fs_->make<TH2F>("h_maprphinorm2_HE3", " ", neta, -41., 41., nphi, 0., bphi);
     h_maprphinorm2_HE4 = fs_->make<TH2F>("h_maprphinorm2_HE4", " ", neta, -41., 41., nphi, 0., bphi);
     h_maprphinorm2_HE5 = fs_->make<TH2F>("h_maprphinorm2_HE5", " ", neta, -41., 41., nphi, 0., bphi);
     h_maprphinorm2_HE6 = fs_->make<TH2F>("h_maprphinorm2_HE6", " ", neta, -41., 41., nphi, 0., bphi);
     h_maprphinorm2_HE7 = fs_->make<TH2F>("h_maprphinorm2_HE7", " ", neta, -41., 41., nphi, 0., bphi);

     h_maprphinorm0_HE1 = fs_->make<TH2F>("h_maprphinorm0_HE1", " ", neta, -41., 41., nphi, 0., bphi);
     h_maprphinorm0_HE2 = fs_->make<TH2F>("h_maprphinorm0_HE2", " ", neta, -41., 41., nphi, 0., bphi);
     h_maprphinorm0_HE3 = fs_->make<TH2F>("h_maprphinorm0_HE3", " ", neta, -41., 41., nphi, 0., bphi);
     h_maprphinorm0_HE4 = fs_->make<TH2F>("h_maprphinorm0_HE4", " ", neta, -41., 41., nphi, 0., bphi);
     h_maprphinorm0_HE5 = fs_->make<TH2F>("h_maprphinorm0_HE5", " ", neta, -41., 41., nphi, 0., bphi);
     h_maprphinorm0_HE6 = fs_->make<TH2F>("h_maprphinorm0_HE6", " ", neta, -41., 41., nphi, 0., bphi);
     h_maprphinorm0_HE7 = fs_->make<TH2F>("h_maprphinorm0_HE7", " ", neta, -41., 41., nphi, 0., bphi);

     //
     // Didi as done in Reco
     //HB:
     h_amplitudechannel0_HB1 = fs_->make<TH2F>("h_amplitudechannel0_HB1", " ", neta, -41., 41., nphi, 0., bphi);
     h_amplitudechannel1_HB1 = fs_->make<TH2F>("h_amplitudechannel1_HB1", " ", neta, -41., 41., nphi, 0., bphi);
     h_amplitudechannel2_HB1 = fs_->make<TH2F>("h_amplitudechannel2_HB1", " ", neta, -41., 41., nphi, 0., bphi);
     h_amplitudechannel0_HB2 = fs_->make<TH2F>("h_amplitudechannel0_HB2", " ", neta, -41., 41., nphi, 0., bphi);
     h_amplitudechannel1_HB2 = fs_->make<TH2F>("h_amplitudechannel1_HB2", " ", neta, -41., 41., nphi, 0., bphi);
     h_amplitudechannel2_HB2 = fs_->make<TH2F>("h_amplitudechannel2_HB2", " ", neta, -41., 41., nphi, 0., bphi);
     h_amplitudechannel0_HB3 = fs_->make<TH2F>("h_amplitudechannel0_HB3", " ", neta, -41., 41., nphi, 0., bphi);
     h_amplitudechannel1_HB3 = fs_->make<TH2F>("h_amplitudechannel1_HB3", " ", neta, -41., 41., nphi, 0., bphi);
     h_amplitudechannel2_HB3 = fs_->make<TH2F>("h_amplitudechannel2_HB3", " ", neta, -41., 41., nphi, 0., bphi);
     h_amplitudechannel0_HB4 = fs_->make<TH2F>("h_amplitudechannel0_HB4", " ", neta, -41., 41., nphi, 0., bphi);
     h_amplitudechannel1_HB4 = fs_->make<TH2F>("h_amplitudechannel1_HB4", " ", neta, -41., 41., nphi, 0., bphi);
     h_amplitudechannel2_HB4 = fs_->make<TH2F>("h_amplitudechannel2_HB4", " ", neta, -41., 41., nphi, 0., bphi);
     //HE:
     h_amplitudechannel0_HE1 = fs_->make<TH2F>("h_amplitudechannel0_HE1", " ", neta, -41., 41., nphi, 0., bphi);
     h_amplitudechannel1_HE1 = fs_->make<TH2F>("h_amplitudechannel1_HE1", " ", neta, -41., 41., nphi, 0., bphi);
     h_amplitudechannel2_HE1 = fs_->make<TH2F>("h_amplitudechannel2_HE1", " ", neta, -41., 41., nphi, 0., bphi);
     h_amplitudechannel0_HE2 = fs_->make<TH2F>("h_amplitudechannel0_HE2", " ", neta, -41., 41., nphi, 0., bphi);
     h_amplitudechannel1_HE2 = fs_->make<TH2F>("h_amplitudechannel1_HE2", " ", neta, -41., 41., nphi, 0., bphi);
     h_amplitudechannel2_HE2 = fs_->make<TH2F>("h_amplitudechannel2_HE2", " ", neta, -41., 41., nphi, 0., bphi);
     h_amplitudechannel0_HE3 = fs_->make<TH2F>("h_amplitudechannel0_HE3", " ", neta, -41., 41., nphi, 0., bphi);
     h_amplitudechannel1_HE3 = fs_->make<TH2F>("h_amplitudechannel1_HE3", " ", neta, -41., 41., nphi, 0., bphi);
     h_amplitudechannel2_HE3 = fs_->make<TH2F>("h_amplitudechannel2_HE3", " ", neta, -41., 41., nphi, 0., bphi);
     h_amplitudechannel0_HE4 = fs_->make<TH2F>("h_amplitudechannel0_HE4", " ", neta, -41., 41., nphi, 0., bphi);
     h_amplitudechannel1_HE4 = fs_->make<TH2F>("h_amplitudechannel1_HE4", " ", neta, -41., 41., nphi, 0., bphi);
     h_amplitudechannel2_HE4 = fs_->make<TH2F>("h_amplitudechannel2_HE4", " ", neta, -41., 41., nphi, 0., bphi);
     h_amplitudechannel0_HE5 = fs_->make<TH2F>("h_amplitudechannel0_HE5", " ", neta, -41., 41., nphi, 0., bphi);
     h_amplitudechannel1_HE5 = fs_->make<TH2F>("h_amplitudechannel1_HE5", " ", neta, -41., 41., nphi, 0., bphi);
     h_amplitudechannel2_HE5 = fs_->make<TH2F>("h_amplitudechannel2_HE5", " ", neta, -41., 41., nphi, 0., bphi);
     h_amplitudechannel0_HE6 = fs_->make<TH2F>("h_amplitudechannel0_HE6", " ", neta, -41., 41., nphi, 0., bphi);
     h_amplitudechannel1_HE6 = fs_->make<TH2F>("h_amplitudechannel1_HE6", " ", neta, -41., 41., nphi, 0., bphi);
     h_amplitudechannel2_HE6 = fs_->make<TH2F>("h_amplitudechannel2_HE6", " ", neta, -41., 41., nphi, 0., bphi);
     h_amplitudechannel0_HE7 = fs_->make<TH2F>("h_amplitudechannel0_HE7", " ", neta, -41., 41., nphi, 0., bphi);
     h_amplitudechannel1_HE7 = fs_->make<TH2F>("h_amplitudechannel1_HE7", " ", neta, -41., 41., nphi, 0., bphi);
     h_amplitudechannel2_HE7 = fs_->make<TH2F>("h_amplitudechannel2_HE7", " ", neta, -41., 41., nphi, 0., bphi);
     //HF:
     h_amplitudechannel0_HF1 = fs_->make<TH2F>("h_amplitudechannel0_HF1", " ", neta, -41., 41., nphi, 0., bphi);
     h_amplitudechannel1_HF1 = fs_->make<TH2F>("h_amplitudechannel1_HF1", " ", neta, -41., 41., nphi, 0., bphi);
     h_amplitudechannel2_HF1 = fs_->make<TH2F>("h_amplitudechannel2_HF1", " ", neta, -41., 41., nphi, 0., bphi);
     h_amplitudechannel0_HF2 = fs_->make<TH2F>("h_amplitudechannel0_HF2", " ", neta, -41., 41., nphi, 0., bphi);
     h_amplitudechannel1_HF2 = fs_->make<TH2F>("h_amplitudechannel1_HF2", " ", neta, -41., 41., nphi, 0., bphi);
     h_amplitudechannel2_HF2 = fs_->make<TH2F>("h_amplitudechannel2_HF2", " ", neta, -41., 41., nphi, 0., bphi);
     h_amplitudechannel0_HF3 = fs_->make<TH2F>("h_amplitudechannel0_HF3", " ", neta, -41., 41., nphi, 0., bphi);
     h_amplitudechannel1_HF3 = fs_->make<TH2F>("h_amplitudechannel1_HF3", " ", neta, -41., 41., nphi, 0., bphi);
     h_amplitudechannel2_HF3 = fs_->make<TH2F>("h_amplitudechannel2_HF3", " ", neta, -41., 41., nphi, 0., bphi);
     h_amplitudechannel0_HF4 = fs_->make<TH2F>("h_amplitudechannel0_HF4", " ", neta, -41., 41., nphi, 0., bphi);
     h_amplitudechannel1_HF4 = fs_->make<TH2F>("h_amplitudechannel1_HF4", " ", neta, -41., 41., nphi, 0., bphi);
     h_amplitudechannel2_HF4 = fs_->make<TH2F>("h_amplitudechannel2_HF4", " ", neta, -41., 41., nphi, 0., bphi);

     // Reco
     h_energyhitSignal_HB = fs_->make<TH1F>("h_energyhitSignal_HB", " ", npfit, -0.22, 0.22);
     h_energyhitSignal_HE = fs_->make<TH1F>("h_energyhitSignal_HE", " ", npfit, -0.22, 0.22);
     h_energyhitSignal_HF = fs_->make<TH1F>("h_energyhitSignal_HF", " ", npfit, -6.6, 6.6);
     h_energyhitNoise_HB = fs_->make<TH1F>("h_energyhitNoise_HB", " ", npfit, -0.22, 0.22);
     h_energyhitNoise_HE = fs_->make<TH1F>("h_energyhitNoise_HE", " ", npfit, -0.22, 0.22);
     h_energyhitNoise_HF = fs_->make<TH1F>("h_energyhitNoise_HF", " ", npfit, -4.4, 4.4);

     //HB:
     h_recSignalEnergy0_HB1 = fs_->make<TH2F>("h_recSignalEnergy0_HB1", " ", neta, -41., 41., nphi, 0., bphi);
     h_recSignalEnergy1_HB1 = fs_->make<TH2F>("h_recSignalEnergy1_HB1", " ", neta, -41., 41., nphi, 0., bphi);
     h_recSignalEnergy2_HB1 = fs_->make<TH2F>("h_recSignalEnergy2_HB1", " ", neta, -41., 41., nphi, 0., bphi);
     h_recSignalEnergy0_HB2 = fs_->make<TH2F>("h_recSignalEnergy0_HB2", " ", neta, -41., 41., nphi, 0., bphi);
     h_recSignalEnergy1_HB2 = fs_->make<TH2F>("h_recSignalEnergy1_HB2", " ", neta, -41., 41., nphi, 0., bphi);
     h_recSignalEnergy2_HB2 = fs_->make<TH2F>("h_recSignalEnergy2_HB2", " ", neta, -41., 41., nphi, 0., bphi);
     h_recSignalEnergy0_HB3 = fs_->make<TH2F>("h_recSignalEnergy0_HB3", " ", neta, -41., 41., nphi, 0., bphi);
     h_recSignalEnergy1_HB3 = fs_->make<TH2F>("h_recSignalEnergy1_HB3", " ", neta, -41., 41., nphi, 0., bphi);
     h_recSignalEnergy2_HB3 = fs_->make<TH2F>("h_recSignalEnergy2_HB3", " ", neta, -41., 41., nphi, 0., bphi);
     h_recSignalEnergy0_HB4 = fs_->make<TH2F>("h_recSignalEnergy0_HB4", " ", neta, -41., 41., nphi, 0., bphi);
     h_recSignalEnergy1_HB4 = fs_->make<TH2F>("h_recSignalEnergy1_HB4", " ", neta, -41., 41., nphi, 0., bphi);
     h_recSignalEnergy2_HB4 = fs_->make<TH2F>("h_recSignalEnergy2_HB4", " ", neta, -41., 41., nphi, 0., bphi);

     h_recNoiseEnergy0_HB1 = fs_->make<TH2F>("h_recNoiseEnergy0_HB1", " ", neta, -41., 41., nphi, 0., bphi);
     h_recNoiseEnergy1_HB1 = fs_->make<TH2F>("h_recNoiseEnergy1_HB1", " ", neta, -41., 41., nphi, 0., bphi);
     h_recNoiseEnergy2_HB1 = fs_->make<TH2F>("h_recNoiseEnergy2_HB1", " ", neta, -41., 41., nphi, 0., bphi);
     h_recNoiseEnergy0_HB2 = fs_->make<TH2F>("h_recNoiseEnergy0_HB2", " ", neta, -41., 41., nphi, 0., bphi);
     h_recNoiseEnergy1_HB2 = fs_->make<TH2F>("h_recNoiseEnergy1_HB2", " ", neta, -41., 41., nphi, 0., bphi);
     h_recNoiseEnergy2_HB2 = fs_->make<TH2F>("h_recNoiseEnergy2_HB2", " ", neta, -41., 41., nphi, 0., bphi);
     h_recNoiseEnergy0_HB3 = fs_->make<TH2F>("h_recNoiseEnergy0_HB3", " ", neta, -41., 41., nphi, 0., bphi);
     h_recNoiseEnergy1_HB3 = fs_->make<TH2F>("h_recNoiseEnergy1_HB3", " ", neta, -41., 41., nphi, 0., bphi);
     h_recNoiseEnergy2_HB3 = fs_->make<TH2F>("h_recNoiseEnergy2_HB3", " ", neta, -41., 41., nphi, 0., bphi);
     h_recNoiseEnergy0_HB4 = fs_->make<TH2F>("h_recNoiseEnergy0_HB4", " ", neta, -41., 41., nphi, 0., bphi);
     h_recNoiseEnergy1_HB4 = fs_->make<TH2F>("h_recNoiseEnergy1_HB4", " ", neta, -41., 41., nphi, 0., bphi);
     h_recNoiseEnergy2_HB4 = fs_->make<TH2F>("h_recNoiseEnergy2_HB4", " ", neta, -41., 41., nphi, 0., bphi);

     //HE:
     h_recSignalEnergy0_HE1 = fs_->make<TH2F>("h_recSignalEnergy0_HE1", " ", neta, -41., 41., nphi, 0., bphi);
     h_recSignalEnergy1_HE1 = fs_->make<TH2F>("h_recSignalEnergy1_HE1", " ", neta, -41., 41., nphi, 0., bphi);
     h_recSignalEnergy2_HE1 = fs_->make<TH2F>("h_recSignalEnergy2_HE1", " ", neta, -41., 41., nphi, 0., bphi);
     h_recSignalEnergy0_HE2 = fs_->make<TH2F>("h_recSignalEnergy0_HE2", " ", neta, -41., 41., nphi, 0., bphi);
     h_recSignalEnergy1_HE2 = fs_->make<TH2F>("h_recSignalEnergy1_HE2", " ", neta, -41., 41., nphi, 0., bphi);
     h_recSignalEnergy2_HE2 = fs_->make<TH2F>("h_recSignalEnergy2_HE2", " ", neta, -41., 41., nphi, 0., bphi);
     h_recSignalEnergy0_HE3 = fs_->make<TH2F>("h_recSignalEnergy0_HE3", " ", neta, -41., 41., nphi, 0., bphi);
     h_recSignalEnergy1_HE3 = fs_->make<TH2F>("h_recSignalEnergy1_HE3", " ", neta, -41., 41., nphi, 0., bphi);
     h_recSignalEnergy2_HE3 = fs_->make<TH2F>("h_recSignalEnergy2_HE3", " ", neta, -41., 41., nphi, 0., bphi);
     h_recSignalEnergy0_HE4 = fs_->make<TH2F>("h_recSignalEnergy0_HE4", " ", neta, -41., 41., nphi, 0., bphi);
     h_recSignalEnergy1_HE4 = fs_->make<TH2F>("h_recSignalEnergy1_HE4", " ", neta, -41., 41., nphi, 0., bphi);
     h_recSignalEnergy2_HE4 = fs_->make<TH2F>("h_recSignalEnergy2_HE4", " ", neta, -41., 41., nphi, 0., bphi);
     h_recSignalEnergy0_HE5 = fs_->make<TH2F>("h_recSignalEnergy0_HE5", " ", neta, -41., 41., nphi, 0., bphi);
     h_recSignalEnergy1_HE5 = fs_->make<TH2F>("h_recSignalEnergy1_HE5", " ", neta, -41., 41., nphi, 0., bphi);
     h_recSignalEnergy2_HE5 = fs_->make<TH2F>("h_recSignalEnergy2_HE5", " ", neta, -41., 41., nphi, 0., bphi);
     h_recSignalEnergy0_HE6 = fs_->make<TH2F>("h_recSignalEnergy0_HE6", " ", neta, -41., 41., nphi, 0., bphi);
     h_recSignalEnergy1_HE6 = fs_->make<TH2F>("h_recSignalEnergy1_HE6", " ", neta, -41., 41., nphi, 0., bphi);
     h_recSignalEnergy2_HE6 = fs_->make<TH2F>("h_recSignalEnergy2_HE6", " ", neta, -41., 41., nphi, 0., bphi);
     h_recSignalEnergy0_HE7 = fs_->make<TH2F>("h_recSignalEnergy0_HE7", " ", neta, -41., 41., nphi, 0., bphi);
     h_recSignalEnergy1_HE7 = fs_->make<TH2F>("h_recSignalEnergy1_HE7", " ", neta, -41., 41., nphi, 0., bphi);
     h_recSignalEnergy2_HE7 = fs_->make<TH2F>("h_recSignalEnergy2_HE7", " ", neta, -41., 41., nphi, 0., bphi);

     h_recNoiseEnergy0_HE1 = fs_->make<TH2F>("h_recNoiseEnergy0_HE1", " ", neta, -41., 41., nphi, 0., bphi);
     h_recNoiseEnergy1_HE1 = fs_->make<TH2F>("h_recNoiseEnergy1_HE1", " ", neta, -41., 41., nphi, 0., bphi);
     h_recNoiseEnergy2_HE1 = fs_->make<TH2F>("h_recNoiseEnergy2_HE1", " ", neta, -41., 41., nphi, 0., bphi);
     h_recNoiseEnergy0_HE2 = fs_->make<TH2F>("h_recNoiseEnergy0_HE2", " ", neta, -41., 41., nphi, 0., bphi);
     h_recNoiseEnergy1_HE2 = fs_->make<TH2F>("h_recNoiseEnergy1_HE2", " ", neta, -41., 41., nphi, 0., bphi);
     h_recNoiseEnergy2_HE2 = fs_->make<TH2F>("h_recNoiseEnergy2_HE2", " ", neta, -41., 41., nphi, 0., bphi);
     h_recNoiseEnergy0_HE3 = fs_->make<TH2F>("h_recNoiseEnergy0_HE3", " ", neta, -41., 41., nphi, 0., bphi);
     h_recNoiseEnergy1_HE3 = fs_->make<TH2F>("h_recNoiseEnergy1_HE3", " ", neta, -41., 41., nphi, 0., bphi);
     h_recNoiseEnergy2_HE3 = fs_->make<TH2F>("h_recNoiseEnergy2_HE3", " ", neta, -41., 41., nphi, 0., bphi);
     h_recNoiseEnergy0_HE4 = fs_->make<TH2F>("h_recNoiseEnergy0_HE4", " ", neta, -41., 41., nphi, 0., bphi);
     h_recNoiseEnergy1_HE4 = fs_->make<TH2F>("h_recNoiseEnergy1_HE4", " ", neta, -41., 41., nphi, 0., bphi);
     h_recNoiseEnergy2_HE4 = fs_->make<TH2F>("h_recNoiseEnergy2_HE4", " ", neta, -41., 41., nphi, 0., bphi);
     h_recNoiseEnergy0_HE5 = fs_->make<TH2F>("h_recNoiseEnergy0_HE5", " ", neta, -41., 41., nphi, 0., bphi);
     h_recNoiseEnergy1_HE5 = fs_->make<TH2F>("h_recNoiseEnergy1_HE5", " ", neta, -41., 41., nphi, 0., bphi);
     h_recNoiseEnergy2_HE5 = fs_->make<TH2F>("h_recNoiseEnergy2_HE5", " ", neta, -41., 41., nphi, 0., bphi);
     h_recNoiseEnergy0_HE6 = fs_->make<TH2F>("h_recNoiseEnergy0_HE6", " ", neta, -41., 41., nphi, 0., bphi);
     h_recNoiseEnergy1_HE6 = fs_->make<TH2F>("h_recNoiseEnergy1_HE6", " ", neta, -41., 41., nphi, 0., bphi);
     h_recNoiseEnergy2_HE6 = fs_->make<TH2F>("h_recNoiseEnergy2_HE6", " ", neta, -41., 41., nphi, 0., bphi);
     h_recNoiseEnergy0_HE7 = fs_->make<TH2F>("h_recNoiseEnergy0_HE7", " ", neta, -41., 41., nphi, 0., bphi);
     h_recNoiseEnergy1_HE7 = fs_->make<TH2F>("h_recNoiseEnergy1_HE7", " ", neta, -41., 41., nphi, 0., bphi);
     h_recNoiseEnergy2_HE7 = fs_->make<TH2F>("h_recNoiseEnergy2_HE7", " ", neta, -41., 41., nphi, 0., bphi);

     //HF:
     h_recSignalEnergy0_HF1 = fs_->make<TH2F>("h_recSignalEnergy0_HF1", " ", neta, -41., 41., nphi, 0., bphi);
     h_recSignalEnergy1_HF1 = fs_->make<TH2F>("h_recSignalEnergy1_HF1", " ", neta, -41., 41., nphi, 0., bphi);
     h_recSignalEnergy2_HF1 = fs_->make<TH2F>("h_recSignalEnergy2_HF1", " ", neta, -41., 41., nphi, 0., bphi);
     h_recSignalEnergy0_HF2 = fs_->make<TH2F>("h_recSignalEnergy0_HF2", " ", neta, -41., 41., nphi, 0., bphi);
     h_recSignalEnergy1_HF2 = fs_->make<TH2F>("h_recSignalEnergy1_HF2", " ", neta, -41., 41., nphi, 0., bphi);
     h_recSignalEnergy2_HF2 = fs_->make<TH2F>("h_recSignalEnergy2_HF2", " ", neta, -41., 41., nphi, 0., bphi);

     h_recNoiseEnergy0_HF1 = fs_->make<TH2F>("h_recNoiseEnergy0_HF1", " ", neta, -41., 41., nphi, 0., bphi);
     h_recNoiseEnergy1_HF1 = fs_->make<TH2F>("h_recNoiseEnergy1_HF1", " ", neta, -41., 41., nphi, 0., bphi);
     h_recNoiseEnergy2_HF1 = fs_->make<TH2F>("h_recNoiseEnergy2_HF1", " ", neta, -41., 41., nphi, 0., bphi);
     h_recNoiseEnergy0_HF2 = fs_->make<TH2F>("h_recNoiseEnergy0_HF2", " ", neta, -41., 41., nphi, 0., bphi);
     h_recNoiseEnergy1_HF2 = fs_->make<TH2F>("h_recNoiseEnergy1_HF2", " ", neta, -41., 41., nphi, 0., bphi);
     h_recNoiseEnergy2_HF2 = fs_->make<TH2F>("h_recNoiseEnergy2_HF2", " ", neta, -41., 41., nphi, 0., bphi);

     // RADDAM:
     //    if(flagLaserRaddam_ == 1 ) {
     //    }
     int min80 = -100.;
     int max80 = 9000.;
     // fill for each digi (=each event, each channel)
     h_mapDepth1RADDAM_HE = fs_->make<TH2F>("h_mapDepth1RADDAM_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2RADDAM_HE = fs_->make<TH2F>("h_mapDepth2RADDAM_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3RADDAM_HE = fs_->make<TH2F>("h_mapDepth3RADDAM_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1RADDAM0_HE = fs_->make<TH2F>("h_mapDepth1RADDAM0_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2RADDAM0_HE = fs_->make<TH2F>("h_mapDepth2RADDAM0_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3RADDAM0_HE = fs_->make<TH2F>("h_mapDepth3RADDAM0_HE", " ", neta, -41., 41., nphi, 0., bphi);

     h_sigLayer1RADDAM_HE = fs_->make<TH1F>("h_sigLayer1RADDAM_HE", " ", neta, -41., 41.);
     h_sigLayer2RADDAM_HE = fs_->make<TH1F>("h_sigLayer2RADDAM_HE", " ", neta, -41., 41.);
     h_sigLayer1RADDAM0_HE = fs_->make<TH1F>("h_sigLayer1RADDAM0_HE", " ", neta, -41., 41.);
     h_sigLayer2RADDAM0_HE = fs_->make<TH1F>("h_sigLayer2RADDAM0_HE", " ", neta, -41., 41.);
     h_AamplitudewithPedSubtr_RADDAM_HE = fs_->make<TH1F>("h_AamplitudewithPedSubtr_RADDAM_HE", " ", 100, min80, max80);
     h_AamplitudewithPedSubtr_RADDAM_HEzoom0 =
         fs_->make<TH1F>("h_AamplitudewithPedSubtr_RADDAM_HEzoom0", " ", 100, min80, 4000.);
     h_AamplitudewithPedSubtr_RADDAM_HEzoom1 =
         fs_->make<TH1F>("h_AamplitudewithPedSubtr_RADDAM_HEzoom1", " ", 100, min80, 1000.);
     h_mapDepth3RADDAM16_HE = fs_->make<TH1F>("h_mapDepth3RADDAM16_HE", " ", 100, min80, max80);
     h_A_Depth1RADDAM_HE = fs_->make<TH1F>("h_A_Depth1RADDAM_HE", " ", 100, min80, max80);
     h_A_Depth2RADDAM_HE = fs_->make<TH1F>("h_A_Depth2RADDAM_HE", " ", 100, min80, max80);
     h_A_Depth3RADDAM_HE = fs_->make<TH1F>("h_A_Depth3RADDAM_HE", " ", 100, min80, max80);
     int min90 = 0.;
     int max90 = 5000.;
     h_sumphiEta16Depth3RADDAM_HED2 = fs_->make<TH1F>("h_sumphiEta16Depth3RADDAM_HED2", " ", 100, min90, 70. * max90);
     h_Eta16Depth3RADDAM_HED2 = fs_->make<TH1F>("h_Eta16Depth3RADDAM_HED2", " ", 100, min90, max90);
     h_NphiForEta16Depth3RADDAM_HED2 = fs_->make<TH1F>("h_NphiForEta16Depth3RADDAM_HED2", " ", 100, 0, 100.);
     h_sumphiEta16Depth3RADDAM_HED2P = fs_->make<TH1F>("h_sumphiEta16Depth3RADDAM_HED2P", " ", 100, min90, 70. * max90);
     h_Eta16Depth3RADDAM_HED2P = fs_->make<TH1F>("h_Eta16Depth3RADDAM_HED2P", " ", 100, min90, max90);
     h_NphiForEta16Depth3RADDAM_HED2P = fs_->make<TH1F>("h_NphiForEta16Depth3RADDAM_HED2P", " ", 100, 0, 100.);
     h_sumphiEta16Depth3RADDAM_HED2ALL =
         fs_->make<TH1F>("h_sumphiEta16Depth3RADDAM_HED2ALL", " ", 100, min90, 70. * max90);
     h_Eta16Depth3RADDAM_HED2ALL = fs_->make<TH1F>("h_Eta16Depth3RADDAM_HED2ALL", " ", 100, min90, max90);
     h_NphiForEta16Depth3RADDAM_HED2ALL = fs_->make<TH1F>("h_NphiForEta16Depth3RADDAM_HED2ALL", " ", 100, 0, 100.);
     h_sigLayer1RADDAM5_HE = fs_->make<TH1F>("h_sigLayer1RADDAM5_HE", " ", neta, -41., 41.);
     h_sigLayer2RADDAM5_HE = fs_->make<TH1F>("h_sigLayer2RADDAM5_HE", " ", neta, -41., 41.);
     h_sigLayer1RADDAM6_HE = fs_->make<TH1F>("h_sigLayer1RADDAM6_HE", " ", neta, -41., 41.);
     h_sigLayer2RADDAM6_HE = fs_->make<TH1F>("h_sigLayer2RADDAM6_HE", " ", neta, -41., 41.);
     h_sigLayer1RADDAM5_HED2 = fs_->make<TH1F>("h_sigLayer1RADDAM5_HED2", " ", neta, -41., 41.);
     h_sigLayer2RADDAM5_HED2 = fs_->make<TH1F>("h_sigLayer2RADDAM5_HED2", " ", neta, -41., 41.);
     h_sigLayer1RADDAM6_HED2 = fs_->make<TH1F>("h_sigLayer1RADDAM6_HED2", " ", neta, -41., 41.);
     h_sigLayer2RADDAM6_HED2 = fs_->make<TH1F>("h_sigLayer2RADDAM6_HED2", " ", neta, -41., 41.);

     h_numberofhitsHFtest = fs_->make<TH1F>("h_numberofhitsHFtest", " ", 100, 0., 30000.);
     h_AmplitudeHFtest = fs_->make<TH1F>("h_AmplitudeHFtest", " ", 100, 0., 300000.);
     h_totalAmplitudeHF = fs_->make<TH1F>("h_totalAmplitudeHF", " ", 100, 0., 100000000000.);
     h_totalAmplitudeHFperEvent = fs_->make<TH1F>("h_totalAmplitudeHFperEvent", " ", 1000, 1., 1001.);
     // fullAmplitude:
     h_ADCAmplZoom1_HF = fs_->make<TH1F>("h_ADCAmplZoom1_HF", " ", 100, 0., 1000000.);
     h_ADCAmpl_HF = fs_->make<TH1F>("h_ADCAmpl_HF", " ", 250, 0., 500000.);
     h_ADCAmplrest1_HF = fs_->make<TH1F>("h_ADCAmplrest1_HF", " ", 100, 0., 1000.);
     h_ADCAmplrest6_HF = fs_->make<TH1F>("h_ADCAmplrest6_HF", " ", 100, 0., 10000.);

     h_mapDepth1ADCAmpl225_HF = fs_->make<TH2F>("h_mapDepth1ADCAmpl225_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2ADCAmpl225_HF = fs_->make<TH2F>("h_mapDepth2ADCAmpl225_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1ADCAmpl225Copy_HF =
         fs_->make<TH2F>("h_mapDepth1ADCAmpl225Copy_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2ADCAmpl225Copy_HF =
         fs_->make<TH2F>("h_mapDepth2ADCAmpl225Copy_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1ADCAmpl_HF = fs_->make<TH2F>("h_mapDepth1ADCAmpl_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2ADCAmpl_HF = fs_->make<TH2F>("h_mapDepth2ADCAmpl_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3ADCAmpl225_HF = fs_->make<TH2F>("h_mapDepth3ADCAmpl225_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4ADCAmpl225_HF = fs_->make<TH2F>("h_mapDepth4ADCAmpl225_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3ADCAmpl225Copy_HF =
         fs_->make<TH2F>("h_mapDepth3ADCAmpl225Copy_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4ADCAmpl225Copy_HF =
         fs_->make<TH2F>("h_mapDepth4ADCAmpl225Copy_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3ADCAmpl_HF = fs_->make<TH2F>("h_mapDepth3ADCAmpl_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4ADCAmpl_HF = fs_->make<TH2F>("h_mapDepth4ADCAmpl_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_TSmeanA_HF = fs_->make<TH1F>("h_TSmeanA_HF", " ", 100, -1., 11.);
     h_mapDepth1TSmeanA225_HF = fs_->make<TH2F>("h_mapDepth1TSmeanA225_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2TSmeanA225_HF = fs_->make<TH2F>("h_mapDepth2TSmeanA225_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1TSmeanA_HF = fs_->make<TH2F>("h_mapDepth1TSmeanA_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2TSmeanA_HF = fs_->make<TH2F>("h_mapDepth2TSmeanA_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3TSmeanA225_HF = fs_->make<TH2F>("h_mapDepth3TSmeanA225_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4TSmeanA225_HF = fs_->make<TH2F>("h_mapDepth4TSmeanA225_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3TSmeanA_HF = fs_->make<TH2F>("h_mapDepth3TSmeanA_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4TSmeanA_HF = fs_->make<TH2F>("h_mapDepth4TSmeanA_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_Amplitude_HF = fs_->make<TH1F>("h_Amplitude_HF", " ", 100, 0., 5.);
     h_TSmaxA_HF = fs_->make<TH1F>("h_TSmaxA_HF", " ", 100, -1., 11.);
     h_mapDepth1TSmaxA225_HF = fs_->make<TH2F>("h_mapDepth1TSmaxA225_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2TSmaxA225_HF = fs_->make<TH2F>("h_mapDepth2TSmaxA225_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1TSmaxA_HF = fs_->make<TH2F>("h_mapDepth1TSmaxA_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2TSmaxA_HF = fs_->make<TH2F>("h_mapDepth2TSmaxA_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3TSmaxA225_HF = fs_->make<TH2F>("h_mapDepth3TSmaxA225_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4TSmaxA225_HF = fs_->make<TH2F>("h_mapDepth4TSmaxA225_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3TSmaxA_HF = fs_->make<TH2F>("h_mapDepth3TSmaxA_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4TSmaxA_HF = fs_->make<TH2F>("h_mapDepth4TSmaxA_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_Amplitude_HF = fs_->make<TH1F>("h_Amplitude_HF", " ", 100, 0., 5.);
     h_mapDepth1Amplitude225_HF = fs_->make<TH2F>("h_mapDepth1Amplitude225_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2Amplitude225_HF = fs_->make<TH2F>("h_mapDepth2Amplitude225_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1Amplitude_HF = fs_->make<TH2F>("h_mapDepth1Amplitude_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2Amplitude_HF = fs_->make<TH2F>("h_mapDepth2Amplitude_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3Amplitude225_HF = fs_->make<TH2F>("h_mapDepth3Amplitude225_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4Amplitude225_HF = fs_->make<TH2F>("h_mapDepth4Amplitude225_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3Amplitude_HF = fs_->make<TH2F>("h_mapDepth3Amplitude_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4Amplitude_HF = fs_->make<TH2F>("h_mapDepth4Amplitude_HF", " ", neta, -41., 41., nphi, 0., bphi);
     // Ratio:
     h_Ampl_HF = fs_->make<TH1F>("h_Ampl_HF", " ", 100, 0., 1.1);
     h_mapDepth1Ampl047_HF = fs_->make<TH2F>("h_mapDepth1Ampl047_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2Ampl047_HF = fs_->make<TH2F>("h_mapDepth2Ampl047_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1Ampl_HF = fs_->make<TH2F>("h_mapDepth1Ampl_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2Ampl_HF = fs_->make<TH2F>("h_mapDepth2Ampl_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1AmplE34_HF = fs_->make<TH2F>("h_mapDepth1AmplE34_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2AmplE34_HF = fs_->make<TH2F>("h_mapDepth2AmplE34_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1_HF = fs_->make<TH2F>("h_mapDepth1_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2_HF = fs_->make<TH2F>("h_mapDepth2_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3Ampl047_HF = fs_->make<TH2F>("h_mapDepth3Ampl047_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4Ampl047_HF = fs_->make<TH2F>("h_mapDepth4Ampl047_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3Ampl_HF = fs_->make<TH2F>("h_mapDepth3Ampl_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4Ampl_HF = fs_->make<TH2F>("h_mapDepth4Ampl_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3AmplE34_HF = fs_->make<TH2F>("h_mapDepth3AmplE34_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4AmplE34_HF = fs_->make<TH2F>("h_mapDepth4AmplE34_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3_HF = fs_->make<TH2F>("h_mapDepth3_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4_HF = fs_->make<TH2F>("h_mapDepth4_HF", " ", neta, -41., 41., nphi, 0., bphi);

     h_numberofhitsHOtest = fs_->make<TH1F>("h_numberofhitsHOtest", " ", 100, 0., 30000.);
     h_AmplitudeHOtest = fs_->make<TH1F>("h_AmplitudeHOtest", " ", 100, 0., 300000.);
     h_totalAmplitudeHO = fs_->make<TH1F>("h_totalAmplitudeHO", " ", 100, 0., 100000000.);
     h_totalAmplitudeHOperEvent = fs_->make<TH1F>("h_totalAmplitudeHOperEvent", " ", 1000, 1., 1001.);
     // fullAmplitude:
     h_ADCAmpl_HO = fs_->make<TH1F>("h_ADCAmpl_HO", " ", 100, 0., 7000.);
     h_ADCAmplrest1_HO = fs_->make<TH1F>("h_ADCAmplrest1_HO", " ", 100, 0., 150.);
     h_ADCAmplrest6_HO = fs_->make<TH1F>("h_ADCAmplrest6_HO", " ", 100, 0., 500.);

     h_ADCAmplZoom1_HO = fs_->make<TH1F>("h_ADCAmplZoom1_HO", " ", 100, -20., 280.);
     h_ADCAmpl_HO_copy = fs_->make<TH1F>("h_ADCAmpl_HO_copy", " ", 100, 0., 30000.);
     h_mapDepth4ADCAmpl225_HO = fs_->make<TH2F>("h_mapDepth4ADCAmpl225_HO", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4ADCAmpl225Copy_HO =
         fs_->make<TH2F>("h_mapDepth4ADCAmpl225Copy_HO", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4ADCAmpl_HO = fs_->make<TH2F>("h_mapDepth4ADCAmpl_HO", " ", neta, -41., 41., nphi, 0., bphi);
     h_TSmeanA_HO = fs_->make<TH1F>("h_TSmeanA_HO", " ", 100, 0., 10.);
     h_mapDepth4TSmeanA225_HO = fs_->make<TH2F>("h_mapDepth4TSmeanA225_HO", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4TSmeanA_HO = fs_->make<TH2F>("h_mapDepth4TSmeanA_HO", " ", neta, -41., 41., nphi, 0., bphi);
     h_TSmaxA_HO = fs_->make<TH1F>("h_TSmaxA_HO", " ", 100, 0., 10.);
     h_mapDepth4TSmaxA225_HO = fs_->make<TH2F>("h_mapDepth4TSmaxA225_HO", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4TSmaxA_HO = fs_->make<TH2F>("h_mapDepth4TSmaxA_HO", " ", neta, -41., 41., nphi, 0., bphi);
     h_Amplitude_HO = fs_->make<TH1F>("h_Amplitude_HO", " ", 100, 0., 5.);
     h_mapDepth4Amplitude225_HO = fs_->make<TH2F>("h_mapDepth4Amplitude225_HO", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4Amplitude_HO = fs_->make<TH2F>("h_mapDepth4Amplitude_HO", " ", neta, -41., 41., nphi, 0., bphi);
     // Ratio:
     h_Ampl_HO = fs_->make<TH1F>("h_Ampl_HO", " ", 100, 0., 1.1);
     h_mapDepth4Ampl047_HO = fs_->make<TH2F>("h_mapDepth4Ampl047_HO", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4Ampl_HO = fs_->make<TH2F>("h_mapDepth4Ampl_HO", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4AmplE34_HO = fs_->make<TH2F>("h_mapDepth4AmplE34_HO", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4_HO = fs_->make<TH2F>("h_mapDepth4_HO", " ", neta, -41., 41., nphi, 0., bphi);

     int baP = 4000;
     float baR = 0.;
     float baR2 = baP;
     h_bcnnbadchannels_depth1_HB = fs_->make<TH1F>("h_bcnnbadchannels_depth1_HB", " ", baP, baR, baR2);
     h_bcnnbadchannels_depth2_HB = fs_->make<TH1F>("h_bcnnbadchannels_depth2_HB", " ", baP, baR, baR2);
     h_bcnnbadchannels_depth1_HE = fs_->make<TH1F>("h_bcnnbadchannels_depth1_HE", " ", baP, baR, baR2);
     h_bcnnbadchannels_depth2_HE = fs_->make<TH1F>("h_bcnnbadchannels_depth2_HE", " ", baP, baR, baR2);
     h_bcnnbadchannels_depth3_HE = fs_->make<TH1F>("h_bcnnbadchannels_depth3_HE", " ", baP, baR, baR2);
     h_bcnnbadchannels_depth4_HO = fs_->make<TH1F>("h_bcnnbadchannels_depth4_HO", " ", baP, baR, baR2);
     h_bcnnbadchannels_depth1_HF = fs_->make<TH1F>("h_bcnnbadchannels_depth1_HF", " ", baP, baR, baR2);
     h_bcnnbadchannels_depth2_HF = fs_->make<TH1F>("h_bcnnbadchannels_depth2_HF", " ", baP, baR, baR2);
     h_bcnbadrate0_depth1_HB = fs_->make<TH1F>("h_bcnbadrate0_depth1_HB", " ", baP, baR, baR2);
     h_bcnbadrate0_depth2_HB = fs_->make<TH1F>("h_bcnbadrate0_depth2_HB", " ", baP, baR, baR2);
     h_bcnbadrate0_depth1_HE = fs_->make<TH1F>("h_bcnbadrate0_depth1_HE", " ", baP, baR, baR2);
     h_bcnbadrate0_depth2_HE = fs_->make<TH1F>("h_bcnbadrate0_depth2_HE", " ", baP, baR, baR2);
     h_bcnbadrate0_depth3_HE = fs_->make<TH1F>("h_bcnbadrate0_depth3_HE", " ", baP, baR, baR2);
     h_bcnbadrate0_depth4_HO = fs_->make<TH1F>("h_bcnbadrate0_depth4_HO", " ", baP, baR, baR2);
     h_bcnbadrate0_depth1_HF = fs_->make<TH1F>("h_bcnbadrate0_depth1_HF", " ", baP, baR, baR2);
     h_bcnbadrate0_depth2_HF = fs_->make<TH1F>("h_bcnbadrate0_depth2_HF", " ", baP, baR, baR2);

     h_bcnvsamplitude_HB = fs_->make<TH1F>("h_bcnvsamplitude_HB", " ", baP, baR, baR2);
     h_bcnvsamplitude_HE = fs_->make<TH1F>("h_bcnvsamplitude_HE", " ", baP, baR, baR2);
     h_bcnvsamplitude_HF = fs_->make<TH1F>("h_bcnvsamplitude_HF", " ", baP, baR, baR2);
     h_bcnvsamplitude_HO = fs_->make<TH1F>("h_bcnvsamplitude_HO", " ", baP, baR, baR2);
     h_bcnvsamplitude0_HB = fs_->make<TH1F>("h_bcnvsamplitude0_HB", " ", baP, baR, baR2);
     h_bcnvsamplitude0_HE = fs_->make<TH1F>("h_bcnvsamplitude0_HE", " ", baP, baR, baR2);
     h_bcnvsamplitude0_HF = fs_->make<TH1F>("h_bcnvsamplitude0_HF", " ", baP, baR, baR2);
     h_bcnvsamplitude0_HO = fs_->make<TH1F>("h_bcnvsamplitude0_HO", " ", baP, baR, baR2);

     int zaP = 1000;
     float zaR = 10000000.;
     float zaR2 = 50000000.;
     h_orbitNumvsamplitude_HB = fs_->make<TH1F>("h_orbitNumvsamplitude_HB", " ", zaP, zaR, zaR2);
     h_orbitNumvsamplitude_HE = fs_->make<TH1F>("h_orbitNumvsamplitude_HE", " ", zaP, zaR, zaR2);
     h_orbitNumvsamplitude_HF = fs_->make<TH1F>("h_orbitNumvsamplitude_HF", " ", zaP, zaR, zaR2);
     h_orbitNumvsamplitude_HO = fs_->make<TH1F>("h_orbitNumvsamplitude_HO", " ", zaP, zaR, zaR2);
     h_orbitNumvsamplitude0_HB = fs_->make<TH1F>("h_orbitNumvsamplitude0_HB", " ", zaP, zaR, zaR2);
     h_orbitNumvsamplitude0_HE = fs_->make<TH1F>("h_orbitNumvsamplitude0_HE", " ", zaP, zaR, zaR2);
     h_orbitNumvsamplitude0_HF = fs_->make<TH1F>("h_orbitNumvsamplitude0_HF", " ", zaP, zaR, zaR2);
     h_orbitNumvsamplitude0_HO = fs_->make<TH1F>("h_orbitNumvsamplitude0_HO", " ", zaP, zaR, zaR2);

     h_2DsumADCAmplEtaPhiLs0 = fs_->make<TH2F>(
         "h_2DsumADCAmplEtaPhiLs0", " ", nlsminmax, alsmin, blsmax, znphi * zneta, 1., znphi * zneta + 1.);
     h_2DsumADCAmplEtaPhiLs1 = fs_->make<TH2F>(
         "h_2DsumADCAmplEtaPhiLs1", " ", nlsminmax, alsmin, blsmax, znphi * zneta, 1., znphi * zneta + 1.);
     h_2DsumADCAmplEtaPhiLs2 = fs_->make<TH2F>(
         "h_2DsumADCAmplEtaPhiLs2", " ", nlsminmax, alsmin, blsmax, znphi * zneta, 1., znphi * zneta + 1.);
     h_2DsumADCAmplEtaPhiLs3 = fs_->make<TH2F>(
         "h_2DsumADCAmplEtaPhiLs3", " ", nlsminmax, alsmin, blsmax, znphi * zneta, 1., znphi * zneta + 1.);

     h_2DsumADCAmplEtaPhiLs00 = fs_->make<TH2F>(
         "h_2DsumADCAmplEtaPhiLs00", " ", nlsminmax, alsmin, blsmax, znphi * zneta, 1., znphi * zneta + 1.);
     h_2DsumADCAmplEtaPhiLs10 = fs_->make<TH2F>(
         "h_2DsumADCAmplEtaPhiLs10", " ", nlsminmax, alsmin, blsmax, znphi * zneta, 1., znphi * zneta + 1.);
     h_2DsumADCAmplEtaPhiLs20 = fs_->make<TH2F>(
         "h_2DsumADCAmplEtaPhiLs20", " ", nlsminmax, alsmin, blsmax, znphi * zneta, 1., znphi * zneta + 1.);
     h_2DsumADCAmplEtaPhiLs30 = fs_->make<TH2F>(
         "h_2DsumADCAmplEtaPhiLs30", " ", nlsminmax, alsmin, blsmax, znphi * zneta, 1., znphi * zneta + 1.);

     h_sumADCAmplEtaPhiLs = fs_->make<TH1F>("h_sumADCAmplEtaPhiLs", " ", 1000, 0., 14000.);
     h_sumADCAmplEtaPhiLs_bbbc = fs_->make<TH1F>("h_sumADCAmplEtaPhiLs_bbbc", " ", 1000, 0., 300000.);
     h_sumADCAmplEtaPhiLs_bbb1 = fs_->make<TH1F>("h_sumADCAmplEtaPhiLs_bbb1", " ", 100, 0., 3000.);
     h_sumADCAmplEtaPhiLs_lscounterM1 = fs_->make<TH1F>("h_sumADCAmplEtaPhiLs_lscounterM1", " ", 600, 1., 601.);
     h_sumADCAmplEtaPhiLs_ietaphi = fs_->make<TH1F>("h_sumADCAmplEtaPhiLs_ietaphi", " ", 400, 0., 400.);
     h_sumADCAmplEtaPhiLs_lscounterM1orbitNum =
         fs_->make<TH1F>("h_sumADCAmplEtaPhiLs_lscounterM1orbitNum", " ", 600, 1., 601.);
     h_sumADCAmplEtaPhiLs_orbitNum = fs_->make<TH1F>("h_sumADCAmplEtaPhiLs_orbitNum", " ", 1000, 25000000., 40000000.);

     // for LS :

     // for LS binning:
     int bac = howmanybinsonplots_;
     //  int bac= 15;
     float bac2 = bac + 1.;
     // bac,         1.,     bac2  );

     h_nbadchannels_depth1_HB = fs_->make<TH1F>("h_nbadchannels_depth1_HB", " ", 100, 1., 3001.);
     h_runnbadchannels_depth1_HB = fs_->make<TH1F>("h_runnbadchannels_depth1_HB", " ", bac, 1., bac2);
     h_runnbadchannelsC_depth1_HB = fs_->make<TH1F>("h_runnbadchannelsC_depth1_HB", " ", bac, 1., bac2);
     h_runbadrate_depth1_HB = fs_->make<TH1F>("h_runbadrate_depth1_HB", " ", bac, 1., bac2);
     h_runbadrateC_depth1_HB = fs_->make<TH1F>("h_runbadrateC_depth1_HB", " ", bac, 1., bac2);
     h_runbadrate0_depth1_HB = fs_->make<TH1F>("h_runbadrate0_depth1_HB", " ", bac, 1., bac2);

     h_nbadchannels_depth2_HB = fs_->make<TH1F>("h_nbadchannels_depth2_HB", " ", 100, 1., 501.);
     h_runnbadchannels_depth2_HB = fs_->make<TH1F>("h_runnbadchannels_depth2_HB", " ", bac, 1., bac2);
     h_runnbadchannelsC_depth2_HB = fs_->make<TH1F>("h_runnbadchannelsC_depth2_HB", " ", bac, 1., bac2);
     h_runbadrate_depth2_HB = fs_->make<TH1F>("h_runbadrate_depth2_HB", " ", bac, 1., bac2);
     h_runbadrateC_depth2_HB = fs_->make<TH1F>("h_runbadrateC_depth2_HB", " ", bac, 1., bac2);
     h_runbadrate0_depth2_HB = fs_->make<TH1F>("h_runbadrate0_depth2_HB", " ", bac, 1., bac2);

     h_nbadchannels_depth1_HE = fs_->make<TH1F>("h_nbadchannels_depth1_HE", " ", 100, 1., 3001.);
     h_runnbadchannels_depth1_HE = fs_->make<TH1F>("h_runnbadchannels_depth1_HE", " ", bac, 1., bac2);
     h_runnbadchannelsC_depth1_HE = fs_->make<TH1F>("h_runnbadchannelsC_depth1_HE", " ", bac, 1., bac2);
     h_runbadrate_depth1_HE = fs_->make<TH1F>("h_runbadrate_depth1_HE", " ", bac, 1., bac2);
     h_runbadrateC_depth1_HE = fs_->make<TH1F>("h_runbadrateC_depth1_HE", " ", bac, 1., bac2);
     h_runbadrate0_depth1_HE = fs_->make<TH1F>("h_runbadrate0_depth1_HE", " ", bac, 1., bac2);

     h_nbadchannels_depth2_HE = fs_->make<TH1F>("h_nbadchannels_depth2_HE", " ", 100, 1., 3001.);
     h_runnbadchannels_depth2_HE = fs_->make<TH1F>("h_runnbadchannels_depth2_HE", " ", bac, 1., bac2);
     h_runnbadchannelsC_depth2_HE = fs_->make<TH1F>("h_runnbadchannelsC_depth2_HE", " ", bac, 1., bac2);
     h_runbadrate_depth2_HE = fs_->make<TH1F>("h_runbadrate_depth2_HE", " ", bac, 1., bac2);
     h_runbadrateC_depth2_HE = fs_->make<TH1F>("h_runbadrateC_depth2_HE", " ", bac, 1., bac2);
     h_runbadrate0_depth2_HE = fs_->make<TH1F>("h_runbadrate0_depth2_HE", " ", bac, 1., bac2);

     h_nbadchannels_depth3_HE = fs_->make<TH1F>("h_nbadchannels_depth3_HE", " ", 100, 1., 501.);
     h_runnbadchannels_depth3_HE = fs_->make<TH1F>("h_runnbadchannels_depth3_HE", " ", bac, 1., bac2);
     h_runnbadchannelsC_depth3_HE = fs_->make<TH1F>("h_runnbadchannelsC_depth3_HE", " ", bac, 1., bac2);
     h_runbadrate_depth3_HE = fs_->make<TH1F>("h_runbadrate_depth3_HE", " ", bac, 1., bac2);
     h_runbadrateC_depth3_HE = fs_->make<TH1F>("h_runbadrateC_depth3_HE", " ", bac, 1., bac2);
     h_runbadrate0_depth3_HE = fs_->make<TH1F>("h_runbadrate0_depth3_HE", " ", bac, 1., bac2);

     h_nbadchannels_depth1_HF = fs_->make<TH1F>("h_nbadchannels_depth1_HF", " ", 100, 1., 3001.);
     h_runnbadchannels_depth1_HF = fs_->make<TH1F>("h_runnbadchannels_depth1_HF", " ", bac, 1., bac2);
     h_runnbadchannelsC_depth1_HF = fs_->make<TH1F>("h_runnbadchannelsC_depth1_HF", " ", bac, 1., bac2);
     h_runbadrate_depth1_HF = fs_->make<TH1F>("h_runbadrate_depth1_HF", " ", bac, 1., bac2);
     h_runbadrateC_depth1_HF = fs_->make<TH1F>("h_runbadrateC_depth1_HF", " ", bac, 1., bac2);
     h_runbadrate0_depth1_HF = fs_->make<TH1F>("h_runbadrate0_depth1_HF", " ", bac, 1., bac2);

     h_nbadchannels_depth2_HF = fs_->make<TH1F>("h_nbadchannels_depth2_HF", " ", 100, 1., 501.);
     h_runnbadchannels_depth2_HF = fs_->make<TH1F>("h_runnbadchannels_depth2_HF", " ", bac, 1., bac2);
     h_runnbadchannelsC_depth2_HF = fs_->make<TH1F>("h_runnbadchannelsC_depth2_HF", " ", bac, 1., bac2);
     h_runbadrate_depth2_HF = fs_->make<TH1F>("h_runbadrate_depth2_HF", " ", bac, 1., bac2);
     h_runbadrateC_depth2_HF = fs_->make<TH1F>("h_runbadrateC_depth2_HF", " ", bac, 1., bac2);
     h_runbadrate0_depth2_HF = fs_->make<TH1F>("h_runbadrate0_depth2_HF", " ", bac, 1., bac2);

     h_nbadchannels_depth4_HO = fs_->make<TH1F>("h_nbadchannels_depth4_HO", " ", 100, 1., 3001.);
     h_runnbadchannels_depth4_HO = fs_->make<TH1F>("h_runnbadchannels_depth4_HO", " ", bac, 1., bac2);
     h_runnbadchannelsC_depth4_HO = fs_->make<TH1F>("h_runnbadchannelsC_depth4_HO", " ", bac, 1., bac2);
     h_runbadrate_depth4_HO = fs_->make<TH1F>("h_runbadrate_depth4_HO", " ", bac, 1., bac2);
     h_runbadrateC_depth4_HO = fs_->make<TH1F>("h_runbadrateC_depth4_HO", " ", bac, 1., bac2);
     h_runbadrate0_depth4_HO = fs_->make<TH1F>("h_runbadrate0_depth4_HO", " ", bac, 1., bac2);

     h_FullSignal3D_HB = fs_->make<TH2F>("h_FullSignal3D_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_FullSignal3D0_HB = fs_->make<TH2F>("h_FullSignal3D0_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_FullSignal3D_HE = fs_->make<TH2F>("h_FullSignal3D_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_FullSignal3D0_HE = fs_->make<TH2F>("h_FullSignal3D0_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_FullSignal3D_HO = fs_->make<TH2F>("h_FullSignal3D_HO", " ", neta, -41., 41., nphi, 0., bphi);
     h_FullSignal3D0_HO = fs_->make<TH2F>("h_FullSignal3D0_HO", " ", neta, -41., 41., nphi, 0., bphi);
     h_FullSignal3D_HF = fs_->make<TH2F>("h_FullSignal3D_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_FullSignal3D0_HF = fs_->make<TH2F>("h_FullSignal3D0_HF", " ", neta, -41., 41., nphi, 0., bphi);

     h_ADCCalib_HB = fs_->make<TH1F>("h_ADCCalib_HB", " ", 100, 10., 10000.);
     h_ADCCalib1_HB = fs_->make<TH1F>("h_ADCCalib1_HB", " ", 100, 0.1, 100.1);
     h_mapADCCalib047_HB = fs_->make<TH2F>("h_mapADCCalib047_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapADCCalib_HB = fs_->make<TH2F>("h_mapADCCalib_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_RatioCalib_HB = fs_->make<TH1F>("h_RatioCalib_HB", " ", 100, 0., 1.);
     h_mapRatioCalib047_HB = fs_->make<TH2F>("h_mapRatioCalib047_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapRatioCalib_HB = fs_->make<TH2F>("h_mapRatioCalib_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_TSmaxCalib_HB = fs_->make<TH1F>("h_TSmaxCalib_HB", " ", 100, 0., 10.);
     h_mapTSmaxCalib047_HB = fs_->make<TH2F>("h_mapTSmaxCalib047_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapTSmaxCalib_HB = fs_->make<TH2F>("h_mapTSmaxCalib_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_TSmeanCalib_HB = fs_->make<TH1F>("h_TSmeanCalib_HB", " ", 100, 0., 10.);
     h_mapTSmeanCalib047_HB = fs_->make<TH2F>("h_mapTSmeanCalib047_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapTSmeanCalib_HB = fs_->make<TH2F>("h_mapTSmeanCalib_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_WidthCalib_HB = fs_->make<TH1F>("h_WidthCalib_HB", " ", 100, 0., 5.);
     h_mapWidthCalib047_HB = fs_->make<TH2F>("h_mapWidthCalib047_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapCapCalib047_HB = fs_->make<TH2F>("h_mapCapCalib047_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapWidthCalib_HB = fs_->make<TH2F>("h_mapWidthCalib_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_map_HB = fs_->make<TH2F>("h_map_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_ADCCalib_HE = fs_->make<TH1F>("h_ADCCalib_HE", " ", 100, 10., 10000.);
     h_ADCCalib1_HE = fs_->make<TH1F>("h_ADCCalib1_HE", " ", 100, 0.1, 100.1);
     h_mapADCCalib047_HE = fs_->make<TH2F>("h_mapADCCalib047_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapADCCalib_HE = fs_->make<TH2F>("h_mapADCCalib_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_RatioCalib_HE = fs_->make<TH1F>("h_RatioCalib_HE", " ", 100, 0., 1.);
     h_mapRatioCalib047_HE = fs_->make<TH2F>("h_mapRatioCalib047_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapRatioCalib_HE = fs_->make<TH2F>("h_mapRatioCalib_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_TSmaxCalib_HE = fs_->make<TH1F>("h_TSmaxCalib_HE", " ", 100, 0., 10.);
     h_mapTSmaxCalib047_HE = fs_->make<TH2F>("h_mapTSmaxCalib047_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapTSmaxCalib_HE = fs_->make<TH2F>("h_mapTSmaxCalib_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_TSmeanCalib_HE = fs_->make<TH1F>("h_TSmeanCalib_HE", " ", 100, 0., 10.);
     h_mapTSmeanCalib047_HE = fs_->make<TH2F>("h_mapTSmeanCalib047_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapTSmeanCalib_HE = fs_->make<TH2F>("h_mapTSmeanCalib_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_WidthCalib_HE = fs_->make<TH1F>("h_WidthCalib_HE", " ", 100, 0., 5.);
     h_mapWidthCalib047_HE = fs_->make<TH2F>("h_mapWidthCalib047_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapCapCalib047_HE = fs_->make<TH2F>("h_mapCapCalib047_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapWidthCalib_HE = fs_->make<TH2F>("h_mapWidthCalib_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_map_HE = fs_->make<TH2F>("h_map_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_ADCCalib_HO = fs_->make<TH1F>("h_ADCCalib_HO", " ", 100, 10., 10000.);
     h_ADCCalib1_HO = fs_->make<TH1F>("h_ADCCalib1_HO", " ", 100, 0.1, 100.1);
     h_mapADCCalib047_HO = fs_->make<TH2F>("h_mapADCCalib047_HO", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapADCCalib_HO = fs_->make<TH2F>("h_mapADCCalib_HO", " ", neta, -41., 41., nphi, 0., bphi);
     h_RatioCalib_HO = fs_->make<TH1F>("h_RatioCalib_HO", " ", 100, 0., 1.);
     h_mapRatioCalib047_HO = fs_->make<TH2F>("h_mapRatioCalib047_HO", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapRatioCalib_HO = fs_->make<TH2F>("h_mapRatioCalib_HO", " ", neta, -41., 41., nphi, 0., bphi);
     h_TSmaxCalib_HO = fs_->make<TH1F>("h_TSmaxCalib_HO", " ", 100, 0., 10.);
     h_mapTSmaxCalib047_HO = fs_->make<TH2F>("h_mapTSmaxCalib047_HO", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapTSmaxCalib_HO = fs_->make<TH2F>("h_mapTSmaxCalib_HO", " ", neta, -41., 41., nphi, 0., bphi);
     h_TSmeanCalib_HO = fs_->make<TH1F>("h_TSmeanCalib_HO", " ", 100, 0., 10.);
     h_mapTSmeanCalib047_HO = fs_->make<TH2F>("h_mapTSmeanCalib047_HO", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapTSmeanCalib_HO = fs_->make<TH2F>("h_mapTSmeanCalib_HO", " ", neta, -41., 41., nphi, 0., bphi);
     h_WidthCalib_HO = fs_->make<TH1F>("h_WidthCalib_HO", " ", 100, 0., 5.);
     h_mapWidthCalib047_HO = fs_->make<TH2F>("h_mapWidthCalib047_HO", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapCapCalib047_HO = fs_->make<TH2F>("h_mapCapCalib047_HO", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapWidthCalib_HO = fs_->make<TH2F>("h_mapWidthCalib_HO", " ", neta, -41., 41., nphi, 0., bphi);
     h_map_HO = fs_->make<TH2F>("h_map_HO", " ", neta, -41., 41., nphi, 0., bphi);
     h_ADCCalib_HF = fs_->make<TH1F>("h_ADCCalib_HF", " ", 100, 10., 2000.);
     h_ADCCalib1_HF = fs_->make<TH1F>("h_ADCCalib1_HF", " ", 100, 0.1, 100.1);
     h_mapADCCalib047_HF = fs_->make<TH2F>("h_mapADCCalib047_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapADCCalib_HF = fs_->make<TH2F>("h_mapADCCalib_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_RatioCalib_HF = fs_->make<TH1F>("h_RatioCalib_HF", " ", 100, 0., 1.);
     h_mapRatioCalib047_HF = fs_->make<TH2F>("h_mapRatioCalib047_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapRatioCalib_HF = fs_->make<TH2F>("h_mapRatioCalib_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_TSmaxCalib_HF = fs_->make<TH1F>("h_TSmaxCalib_HF", " ", 100, 0., 10.);
     h_mapTSmaxCalib047_HF = fs_->make<TH2F>("h_mapTSmaxCalib047_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapTSmaxCalib_HF = fs_->make<TH2F>("h_mapTSmaxCalib_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_TSmeanCalib_HF = fs_->make<TH1F>("h_TSmeanCalib_HF", " ", 100, 0., 10.);
     h_mapTSmeanCalib047_HF = fs_->make<TH2F>("h_mapTSmeanCalib047_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapTSmeanCalib_HF = fs_->make<TH2F>("h_mapTSmeanCalib_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_WidthCalib_HF = fs_->make<TH1F>("h_WidthCalib_HF", " ", 100, 0., 5.);
     h_mapWidthCalib047_HF = fs_->make<TH2F>("h_mapWidthCalib047_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapCapCalib047_HF = fs_->make<TH2F>("h_mapCapCalib047_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapWidthCalib_HF = fs_->make<TH2F>("h_mapWidthCalib_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_map_HF = fs_->make<TH2F>("h_map_HF", " ", neta, -41., 41., nphi, 0., bphi);

     h_nls_per_run = fs_->make<TH1F>("h_nls_per_run", " ", 100, 0., 800.);
     h_nls_per_run10 = fs_->make<TH1F>("h_nls_per_run10", " ", 100, 0., 60.);
     h_nevents_per_LS = fs_->make<TH1F>("h_nevents_per_LS", " ", 100, 0., 600.);
     h_nevents_per_LSzoom = fs_->make<TH1F>("h_nevents_per_LSzoom", " ", 50, 0., 50.);
     h_nevents_per_eachLS = fs_->make<TH1F>("h_nevents_per_eachLS", " ", bac, 1., bac2);
     h_nevents_per_eachRealLS = fs_->make<TH1F>("h_nevents_per_eachRealLS", " ", bac, 1., bac2);
     h_lsnumber_per_eachLS = fs_->make<TH1F>("h_lsnumber_per_eachLS", " ", bac, 1., bac2);
     //--------------------------------------------------
     // for estimator0:
     float pst1 = 30.;
     h_sumPedestalLS1 = fs_->make<TH1F>("h_sumPedestalLS1", " ", 100, 0., pst1);
     h_2DsumPedestalLS1 = fs_->make<TH2F>("h_2DsumPedestalLS1", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumPedestalperLS1 = fs_->make<TH1F>("h_sumPedestalperLS1", " ", bac, 1., bac2);
     h_2D0sumPedestalLS1 = fs_->make<TH2F>("h_2D0sumPedestalLS1", " ", neta, -41., 41., nphi, 0., bphi);
     h_sum0PedestalperLS1 = fs_->make<TH1F>("h_sum0PedestalperLS1", " ", bac, 1., bac2);

     h_sumPedestalLS2 = fs_->make<TH1F>("h_sumPedestalLS2", " ", 100, 0., pst1);
     h_2DsumPedestalLS2 = fs_->make<TH2F>("h_2DsumPedestalLS2", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumPedestalperLS2 = fs_->make<TH1F>("h_sumPedestalperLS2", " ", bac, 1., bac2);
     h_2D0sumPedestalLS2 = fs_->make<TH2F>("h_2D0sumPedestalLS2", " ", neta, -41., 41., nphi, 0., bphi);
     h_sum0PedestalperLS2 = fs_->make<TH1F>("h_sum0PedestalperLS2", " ", bac, 1., bac2);

     h_sumPedestalLS3 = fs_->make<TH1F>("h_sumPedestalLS3", " ", 100, 0., pst1);
     h_2DsumPedestalLS3 = fs_->make<TH2F>("h_2DsumPedestalLS3", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumPedestalperLS3 = fs_->make<TH1F>("h_sumPedestalperLS3", " ", bac, 1., bac2);
     h_2D0sumPedestalLS3 = fs_->make<TH2F>("h_2D0sumPedestalLS3", " ", neta, -41., 41., nphi, 0., bphi);
     h_sum0PedestalperLS3 = fs_->make<TH1F>("h_sum0PedestalperLS3", " ", bac, 1., bac2);

     h_sumPedestalLS4 = fs_->make<TH1F>("h_sumPedestalLS4", " ", 100, 0., pst1);
     h_2DsumPedestalLS4 = fs_->make<TH2F>("h_2DsumPedestalLS4", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumPedestalperLS4 = fs_->make<TH1F>("h_sumPedestalperLS4", " ", bac, 1., bac2);
     h_2D0sumPedestalLS4 = fs_->make<TH2F>("h_2D0sumPedestalLS4", " ", neta, -41., 41., nphi, 0., bphi);
     h_sum0PedestalperLS4 = fs_->make<TH1F>("h_sum0PedestalperLS4", " ", bac, 1., bac2);

     h_sumPedestalLS5 = fs_->make<TH1F>("h_sumPedestalLS5", " ", 100, 0., pst1);
     h_2DsumPedestalLS5 = fs_->make<TH2F>("h_2DsumPedestalLS5", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumPedestalperLS5 = fs_->make<TH1F>("h_sumPedestalperLS5", " ", bac, 1., bac2);
     h_2D0sumPedestalLS5 = fs_->make<TH2F>("h_2D0sumPedestalLS5", " ", neta, -41., 41., nphi, 0., bphi);
     h_sum0PedestalperLS5 = fs_->make<TH1F>("h_sum0PedestalperLS5", " ", bac, 1., bac2);

     h_sumPedestalLS6 = fs_->make<TH1F>("h_sumPedestalLS6", " ", 100, 0., pst1);
     h_2DsumPedestalLS6 = fs_->make<TH2F>("h_2DsumPedestalLS6", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumPedestalperLS6 = fs_->make<TH1F>("h_sumPedestalperLS6", " ", bac, 1., bac2);
     h_2D0sumPedestalLS6 = fs_->make<TH2F>("h_2D0sumPedestalLS6", " ", neta, -41., 41., nphi, 0., bphi);
     h_sum0PedestalperLS6 = fs_->make<TH1F>("h_sum0PedestalperLS6", " ", bac, 1., bac2);

     h_sumPedestalLS7 = fs_->make<TH1F>("h_sumPedestalLS7", " ", 100, 0., pst1);
     h_2DsumPedestalLS7 = fs_->make<TH2F>("h_2DsumPedestalLS7", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumPedestalperLS7 = fs_->make<TH1F>("h_sumPedestalperLS7", " ", bac, 1., bac2);
     h_2D0sumPedestalLS7 = fs_->make<TH2F>("h_2D0sumPedestalLS7", " ", neta, -41., 41., nphi, 0., bphi);
     h_sum0PedestalperLS7 = fs_->make<TH1F>("h_sum0PedestalperLS7", " ", bac, 1., bac2);

     h_sumPedestalLS8 = fs_->make<TH1F>("h_sumPedestalLS8", " ", 100, 0., pst1);
     h_2DsumPedestalLS8 = fs_->make<TH2F>("h_2DsumPedestalLS8", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumPedestalperLS8 = fs_->make<TH1F>("h_sumPedestalperLS8", " ", bac, 1., bac2);
     h_2D0sumPedestalLS8 = fs_->make<TH2F>("h_2D0sumPedestalLS8", " ", neta, -41., 41., nphi, 0., bphi);
     h_sum0PedestalperLS8 = fs_->make<TH1F>("h_sum0PedestalperLS8", " ", bac, 1., bac2);

     //--------------------------------------------------
     // for estimator1:
     h_sumADCAmplLS1copy1 = fs_->make<TH1F>("h_sumADCAmplLS1copy1", " ", 100, 0., 10000);
     h_sumADCAmplLS1copy2 = fs_->make<TH1F>("h_sumADCAmplLS1copy2", " ", 100, 0., 20000);
     h_sumADCAmplLS1copy3 = fs_->make<TH1F>("h_sumADCAmplLS1copy3", " ", 100, 0., 50000);
     h_sumADCAmplLS1copy4 = fs_->make<TH1F>("h_sumADCAmplLS1copy4", " ", 100, 0., 100000);
     h_sumADCAmplLS1copy5 = fs_->make<TH1F>("h_sumADCAmplLS1copy5", " ", 100, 0., 150000);
     h_sumADCAmplLS1 = fs_->make<TH1F>("h_sumADCAmplLS1", " ", 100, 0., lsdep_estimator1_HBdepth1_);
     h_2DsumADCAmplLS1 = fs_->make<TH2F>("h_2DsumADCAmplLS1", " ", neta, -41., 41., nphi, 0., bphi);
     h_2DsumADCAmplLS1_LSselected =
         fs_->make<TH2F>("h_2DsumADCAmplLS1_LSselected", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumADCAmplperLS1 = fs_->make<TH1F>("h_sumADCAmplperLS1", " ", bac, 1., bac2);
     h_sumCutADCAmplperLS1 = fs_->make<TH1F>("h_sumCutADCAmplperLS1", " ", bac, 1., bac2);
     h_2D0sumADCAmplLS1 = fs_->make<TH2F>("h_2D0sumADCAmplLS1", " ", neta, -41., 41., nphi, 0., bphi);
     h_sum0ADCAmplperLS1 = fs_->make<TH1F>("h_sum0ADCAmplperLS1", " ", bac, 1., bac2);

     h_sumADCAmplLS2 = fs_->make<TH1F>("h_sumADCAmplLS2", " ", 100, 0., lsdep_estimator1_HBdepth2_);
     h_2DsumADCAmplLS2 = fs_->make<TH2F>("h_2DsumADCAmplLS2", " ", neta, -41., 41., nphi, 0., bphi);
     h_2DsumADCAmplLS2_LSselected =
         fs_->make<TH2F>("h_2DsumADCAmplLS2_LSselected", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumADCAmplperLS2 = fs_->make<TH1F>("h_sumADCAmplperLS2", " ", bac, 1., bac2);
     h_sumCutADCAmplperLS2 = fs_->make<TH1F>("h_sumCutADCAmplperLS2", " ", bac, 1., bac2);
     h_2D0sumADCAmplLS2 = fs_->make<TH2F>("h_2D0sumADCAmplLS2", " ", neta, -41., 41., nphi, 0., bphi);
     h_sum0ADCAmplperLS2 = fs_->make<TH1F>("h_sum0ADCAmplperLS2", " ", bac, 1., bac2);

     h_sumADCAmplLS3 = fs_->make<TH1F>("h_sumADCAmplLS3", " ", 100, 0., lsdep_estimator1_HEdepth1_);
     h_2DsumADCAmplLS3 = fs_->make<TH2F>("h_2DsumADCAmplLS3", " ", neta, -41., 41., nphi, 0., bphi);
     h_2DsumADCAmplLS3_LSselected =
         fs_->make<TH2F>("h_2DsumADCAmplLS3_LSselected", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumADCAmplperLS3 = fs_->make<TH1F>("h_sumADCAmplperLS3", " ", bac, 1., bac2);
     h_sumCutADCAmplperLS3 = fs_->make<TH1F>("h_sumCutADCAmplperLS3", " ", bac, 1., bac2);
     h_2D0sumADCAmplLS3 = fs_->make<TH2F>("h_2D0sumADCAmplLS3", " ", neta, -41., 41., nphi, 0., bphi);
     h_sum0ADCAmplperLS3 = fs_->make<TH1F>("h_sum0ADCAmplperLS3", " ", bac, 1., bac2);

     h_sumADCAmplLS4 = fs_->make<TH1F>("h_sumADCAmplLS4", " ", 100, 0., lsdep_estimator1_HEdepth2_);
     h_2DsumADCAmplLS4 = fs_->make<TH2F>("h_2DsumADCAmplLS4", " ", neta, -41., 41., nphi, 0., bphi);
     h_2DsumADCAmplLS4_LSselected =
         fs_->make<TH2F>("h_2DsumADCAmplLS4_LSselected", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumADCAmplperLS4 = fs_->make<TH1F>("h_sumADCAmplperLS4", " ", bac, 1., bac2);
     h_sumCutADCAmplperLS4 = fs_->make<TH1F>("h_sumCutADCAmplperLS4", " ", bac, 1., bac2);
     h_2D0sumADCAmplLS4 = fs_->make<TH2F>("h_2D0sumADCAmplLS4", " ", neta, -41., 41., nphi, 0., bphi);
     h_sum0ADCAmplperLS4 = fs_->make<TH1F>("h_sum0ADCAmplperLS4", " ", bac, 1., bac2);

     h_sumADCAmplLS5 = fs_->make<TH1F>("h_sumADCAmplLS5", " ", 100, 0., lsdep_estimator1_HEdepth3_);
     h_2DsumADCAmplLS5 = fs_->make<TH2F>("h_2DsumADCAmplLS5", " ", neta, -41., 41., nphi, 0., bphi);
     h_2DsumADCAmplLS5_LSselected =
         fs_->make<TH2F>("h_2DsumADCAmplLS5_LSselected", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumADCAmplperLS5 = fs_->make<TH1F>("h_sumADCAmplperLS5", " ", bac, 1., bac2);
     h_sumCutADCAmplperLS5 = fs_->make<TH1F>("h_sumCutADCAmplperLS5", " ", bac, 1., bac2);
     h_2D0sumADCAmplLS5 = fs_->make<TH2F>("h_2D0sumADCAmplLS5", " ", neta, -41., 41., nphi, 0., bphi);
     h_sum0ADCAmplperLS5 = fs_->make<TH1F>("h_sum0ADCAmplperLS5", " ", bac, 1., bac2);
     // HE upgrade depth4
     h_sumADCAmplperLSdepth4HEu = fs_->make<TH1F>("h_sumADCAmplperLSdepth4HEu", " ", bac, 1., bac2);
     h_sumCutADCAmplperLSdepth4HEu = fs_->make<TH1F>("h_sumCutADCAmplperLSdepth4HEu", " ", bac, 1., bac2);
     h_sum0ADCAmplperLSdepth4HEu = fs_->make<TH1F>("h_sum0ADCAmplperLSdepth4HEu", " ", bac, 1., bac2);

     // HE upgrade depth5
     h_sumADCAmplperLSdepth5HEu = fs_->make<TH1F>("h_sumADCAmplperLSdepth5HEu", " ", bac, 1., bac2);
     h_sumCutADCAmplperLSdepth5HEu = fs_->make<TH1F>("h_sumCutADCAmplperLSdepth5HEu", " ", bac, 1., bac2);
     h_sum0ADCAmplperLSdepth5HEu = fs_->make<TH1F>("h_sum0ADCAmplperLSdepth5HEu", " ", bac, 1., bac2);
     // HE upgrade depth6
     h_sumADCAmplperLSdepth6HEu = fs_->make<TH1F>("h_sumADCAmplperLSdepth6HEu", " ", bac, 1., bac2);
     h_sumCutADCAmplperLSdepth6HEu = fs_->make<TH1F>("h_sumCutADCAmplperLSdepth6HEu", " ", bac, 1., bac2);
     h_sum0ADCAmplperLSdepth6HEu = fs_->make<TH1F>("h_sum0ADCAmplperLSdepth6HEu", " ", bac, 1., bac2);
     // HE upgrade depth7
     h_sumADCAmplperLSdepth7HEu = fs_->make<TH1F>("h_sumADCAmplperLSdepth7HEu", " ", bac, 1., bac2);
     h_sumCutADCAmplperLSdepth7HEu = fs_->make<TH1F>("h_sumCutADCAmplperLSdepth7HEu", " ", bac, 1., bac2);
     h_sum0ADCAmplperLSdepth7HEu = fs_->make<TH1F>("h_sum0ADCAmplperLSdepth7HEu", " ", bac, 1., bac2);
     // for HE gain stability vs LS:
     h_2DsumADCAmplLSdepth4HEu = fs_->make<TH2F>("h_2DsumADCAmplLSdepth4HEu", " ", neta, -41., 41., nphi, 0., bphi);
     h_2D0sumADCAmplLSdepth4HEu = fs_->make<TH2F>("h_2D0sumADCAmplLSdepth4HEu", " ", neta, -41., 41., nphi, 0., bphi);
     h_2DsumADCAmplLSdepth5HEu = fs_->make<TH2F>("h_2DsumADCAmplLSdepth5HEu", " ", neta, -41., 41., nphi, 0., bphi);
     h_2D0sumADCAmplLSdepth5HEu = fs_->make<TH2F>("h_2D0sumADCAmplLSdepth5HEu", " ", neta, -41., 41., nphi, 0., bphi);
     h_2DsumADCAmplLSdepth6HEu = fs_->make<TH2F>("h_2DsumADCAmplLSdepth6HEu", " ", neta, -41., 41., nphi, 0., bphi);
     h_2D0sumADCAmplLSdepth6HEu = fs_->make<TH2F>("h_2D0sumADCAmplLSdepth6HEu", " ", neta, -41., 41., nphi, 0., bphi);
     h_2DsumADCAmplLSdepth7HEu = fs_->make<TH2F>("h_2DsumADCAmplLSdepth7HEu", " ", neta, -41., 41., nphi, 0., bphi);
     h_2D0sumADCAmplLSdepth7HEu = fs_->make<TH2F>("h_2D0sumADCAmplLSdepth7HEu", " ", neta, -41., 41., nphi, 0., bphi);
     h_2DsumADCAmplLSdepth3HFu = fs_->make<TH2F>("h_2DsumADCAmplLSdepth3HFu", " ", neta, -41., 41., nphi, 0., bphi);
     h_2D0sumADCAmplLSdepth3HFu = fs_->make<TH2F>("h_2D0sumADCAmplLSdepth3HFu", " ", neta, -41., 41., nphi, 0., bphi);
     h_2DsumADCAmplLSdepth4HFu = fs_->make<TH2F>("h_2DsumADCAmplLSdepth4HFu", " ", neta, -41., 41., nphi, 0., bphi);
     h_2D0sumADCAmplLSdepth4HFu = fs_->make<TH2F>("h_2D0sumADCAmplLSdepth4HFu", " ", neta, -41., 41., nphi, 0., bphi);

     h_sumADCAmplLS6 = fs_->make<TH1F>("h_sumADCAmplLS6", " ", 100, 0., lsdep_estimator1_HFdepth1_);
     h_2DsumADCAmplLS6 = fs_->make<TH2F>("h_2DsumADCAmplLS6", " ", neta, -41., 41., nphi, 0., bphi);
     h_2DsumADCAmplLS6_LSselected =
         fs_->make<TH2F>("h_2DsumADCAmplLS6_LSselected", " ", neta, -41., 41., nphi, 0., bphi);
     h_2D0sumADCAmplLS6 = fs_->make<TH2F>("h_2D0sumADCAmplLS6", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumADCAmplperLS6 = fs_->make<TH1F>("h_sumADCAmplperLS6", " ", bac, 1., bac2);
     h_sumCutADCAmplperLS6 = fs_->make<TH1F>("h_sumCutADCAmplperLS6", " ", bac, 1., bac2);
     h_sum0ADCAmplperLS6 = fs_->make<TH1F>("h_sum0ADCAmplperLS6", " ", bac, 1., bac2);
     // HF upgrade depth3
     h_sumADCAmplperLS6u = fs_->make<TH1F>("h_sumADCAmplperLS6u", " ", bac, 1., bac2);
     h_sumCutADCAmplperLS6u = fs_->make<TH1F>("h_sumCutADCAmplperLS6u", " ", bac, 1., bac2);
     h_sum0ADCAmplperLS6u = fs_->make<TH1F>("h_sum0ADCAmplperLS6u", " ", bac, 1., bac2);

     h_sumADCAmplLS7 = fs_->make<TH1F>("h_sumADCAmplLS7", " ", 100, 0., lsdep_estimator1_HFdepth2_);
     h_2DsumADCAmplLS7 = fs_->make<TH2F>("h_2DsumADCAmplLS7", " ", neta, -41., 41., nphi, 0., bphi);
     h_2DsumADCAmplLS7_LSselected =
         fs_->make<TH2F>("h_2DsumADCAmplLS7_LSselected", " ", neta, -41., 41., nphi, 0., bphi);
     h_2D0sumADCAmplLS7 = fs_->make<TH2F>("h_2D0sumADCAmplLS7", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumADCAmplperLS7 = fs_->make<TH1F>("h_sumADCAmplperLS7", " ", bac, 1., bac2);
     h_sumCutADCAmplperLS7 = fs_->make<TH1F>("h_sumCutADCAmplperLS7", " ", bac, 1., bac2);
     h_sum0ADCAmplperLS7 = fs_->make<TH1F>("h_sum0ADCAmplperLS7", " ", bac, 1., bac2);
     // HF upgrade depth4
     h_sumADCAmplperLS7u = fs_->make<TH1F>("h_sumADCAmplperLS7u", " ", bac, 1., bac2);
     h_sumCutADCAmplperLS7u = fs_->make<TH1F>("h_sumCutADCAmplperLS7u", " ", bac, 1., bac2);
     h_sum0ADCAmplperLS7u = fs_->make<TH1F>("h_sum0ADCAmplperLS7u", " ", bac, 1., bac2);

     h_sumADCAmplLS8 = fs_->make<TH1F>("h_sumADCAmplLS8", " ", 100, 0., lsdep_estimator1_HOdepth4_);
     h_2DsumADCAmplLS8 = fs_->make<TH2F>("h_2DsumADCAmplLS8", " ", neta, -41., 41., nphi, 0., bphi);
     h_2DsumADCAmplLS8_LSselected =
         fs_->make<TH2F>("h_2DsumADCAmplLS8_LSselected", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumADCAmplperLS8 = fs_->make<TH1F>("h_sumADCAmplperLS8", " ", bac, 1., bac2);
     h_sumCutADCAmplperLS8 = fs_->make<TH1F>("h_sumCutADCAmplperLS8", " ", bac, 1., bac2);
     h_2D0sumADCAmplLS8 = fs_->make<TH2F>("h_2D0sumADCAmplLS8", " ", neta, -41., 41., nphi, 0., bphi);
     h_sum0ADCAmplperLS8 = fs_->make<TH1F>("h_sum0ADCAmplperLS8", " ", bac, 1., bac2);

     // HB upgrade depth3
     h_sumADCAmplperLSdepth3HBu = fs_->make<TH1F>("h_sumADCAmplperLSdepth3HBu", " ", bac, 1., bac2);
     h_sumCutADCAmplperLSdepth3HBu = fs_->make<TH1F>("h_sumCutADCAmplperLSdepth3HBu", " ", bac, 1., bac2);
     h_sum0ADCAmplperLSdepth3HBu = fs_->make<TH1F>("h_sum0ADCAmplperLSdepth3HBu", " ", bac, 1., bac2);
     // HB upgrade depth4
     h_sumADCAmplperLSdepth4HBu = fs_->make<TH1F>("h_sumADCAmplperLSdepth4HBu", " ", bac, 1., bac2);
     h_sumCutADCAmplperLSdepth4HBu = fs_->make<TH1F>("h_sumCutADCAmplperLSdepth4HBu", " ", bac, 1., bac2);
     h_sum0ADCAmplperLSdepth4HBu = fs_->make<TH1F>("h_sum0ADCAmplperLSdepth4HBu", " ", bac, 1., bac2);

     // for HB gain stability vs LS:
     h_2DsumADCAmplLSdepth3HBu = fs_->make<TH2F>("h_2DsumADCAmplLSdepth3HBu", " ", neta, -41., 41., nphi, 0., bphi);
     h_2D0sumADCAmplLSdepth3HBu = fs_->make<TH2F>("h_2D0sumADCAmplLSdepth3HBu", " ", neta, -41., 41., nphi, 0., bphi);
     h_2DsumADCAmplLSdepth4HBu = fs_->make<TH2F>("h_2DsumADCAmplLSdepth4HBu", " ", neta, -41., 41., nphi, 0., bphi);
     h_2D0sumADCAmplLSdepth4HBu = fs_->make<TH2F>("h_2D0sumADCAmplLSdepth4HBu", " ", neta, -41., 41., nphi, 0., bphi);

     // error-A for HB( depth1 only)
     h_sumADCAmplperLS1_P1 = fs_->make<TH1F>("h_sumADCAmplperLS1_P1", " ", bac, 1., bac2);
     h_sum0ADCAmplperLS1_P1 = fs_->make<TH1F>("h_sum0ADCAmplperLS1_P1", " ", bac, 1., bac2);
     h_sumADCAmplperLS1_P2 = fs_->make<TH1F>("h_sumADCAmplperLS1_P2", " ", bac, 1., bac2);
     h_sum0ADCAmplperLS1_P2 = fs_->make<TH1F>("h_sum0ADCAmplperLS1_P2", " ", bac, 1., bac2);
     h_sumADCAmplperLS1_M1 = fs_->make<TH1F>("h_sumADCAmplperLS1_M1", " ", bac, 1., bac2);
     h_sum0ADCAmplperLS1_M1 = fs_->make<TH1F>("h_sum0ADCAmplperLS1_M1", " ", bac, 1., bac2);
     h_sumADCAmplperLS1_M2 = fs_->make<TH1F>("h_sumADCAmplperLS1_M2", " ", bac, 1., bac2);
     h_sum0ADCAmplperLS1_M2 = fs_->make<TH1F>("h_sum0ADCAmplperLS1_M2", " ", bac, 1., bac2);

     // error-A for HE( depth1 only)
     h_sumADCAmplperLS3_P1 = fs_->make<TH1F>("h_sumADCAmplperLS3_P1", " ", bac, 1., bac2);
     h_sum0ADCAmplperLS3_P1 = fs_->make<TH1F>("h_sum0ADCAmplperLS3_P1", " ", bac, 1., bac2);
     h_sumADCAmplperLS3_P2 = fs_->make<TH1F>("h_sumADCAmplperLS3_P2", " ", bac, 1., bac2);
     h_sum0ADCAmplperLS3_P2 = fs_->make<TH1F>("h_sum0ADCAmplperLS3_P2", " ", bac, 1., bac2);
     h_sumADCAmplperLS3_M1 = fs_->make<TH1F>("h_sumADCAmplperLS3_M1", " ", bac, 1., bac2);
     h_sum0ADCAmplperLS3_M1 = fs_->make<TH1F>("h_sum0ADCAmplperLS3_M1", " ", bac, 1., bac2);
     h_sumADCAmplperLS3_M2 = fs_->make<TH1F>("h_sumADCAmplperLS3_M2", " ", bac, 1., bac2);
     h_sum0ADCAmplperLS3_M2 = fs_->make<TH1F>("h_sum0ADCAmplperLS3_M2", " ", bac, 1., bac2);

     // error-A for HF( depth1 only)
     h_sumADCAmplperLS6_P1 = fs_->make<TH1F>("h_sumADCAmplperLS6_P1", " ", bac, 1., bac2);
     h_sum0ADCAmplperLS6_P1 = fs_->make<TH1F>("h_sum0ADCAmplperLS6_P1", " ", bac, 1., bac2);
     h_sumADCAmplperLS6_P2 = fs_->make<TH1F>("h_sumADCAmplperLS6_P2", " ", bac, 1., bac2);
     h_sum0ADCAmplperLS6_P2 = fs_->make<TH1F>("h_sum0ADCAmplperLS6_P2", " ", bac, 1., bac2);
     h_sumADCAmplperLS6_M1 = fs_->make<TH1F>("h_sumADCAmplperLS6_M1", " ", bac, 1., bac2);
     h_sum0ADCAmplperLS6_M1 = fs_->make<TH1F>("h_sum0ADCAmplperLS6_M1", " ", bac, 1., bac2);
     h_sumADCAmplperLS6_M2 = fs_->make<TH1F>("h_sumADCAmplperLS6_M2", " ", bac, 1., bac2);
     h_sum0ADCAmplperLS6_M2 = fs_->make<TH1F>("h_sum0ADCAmplperLS6_M2", " ", bac, 1., bac2);

     // error-A for HO( depth4 only)
     h_sumADCAmplperLS8_P1 = fs_->make<TH1F>("h_sumADCAmplperLS8_P1", " ", bac, 1., bac2);
     h_sum0ADCAmplperLS8_P1 = fs_->make<TH1F>("h_sum0ADCAmplperLS8_P1", " ", bac, 1., bac2);
     h_sumADCAmplperLS8_P2 = fs_->make<TH1F>("h_sumADCAmplperLS8_P2", " ", bac, 1., bac2);
     h_sum0ADCAmplperLS8_P2 = fs_->make<TH1F>("h_sum0ADCAmplperLS8_P2", " ", bac, 1., bac2);
     h_sumADCAmplperLS8_M1 = fs_->make<TH1F>("h_sumADCAmplperLS8_M1", " ", bac, 1., bac2);
     h_sum0ADCAmplperLS8_M1 = fs_->make<TH1F>("h_sum0ADCAmplperLS8_M1", " ", bac, 1., bac2);
     h_sumADCAmplperLS8_M2 = fs_->make<TH1F>("h_sumADCAmplperLS8_M2", " ", bac, 1., bac2);
     h_sum0ADCAmplperLS8_M2 = fs_->make<TH1F>("h_sum0ADCAmplperLS8_M2", " ", bac, 1., bac2);

     //--------------------------------------------------
     h_sumTSmeanALS1 = fs_->make<TH1F>("h_sumTSmeanALS1", " ", 100, 0., lsdep_estimator2_HBdepth1_);
     h_2DsumTSmeanALS1 = fs_->make<TH2F>("h_2DsumTSmeanALS1", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumTSmeanAperLS1 = fs_->make<TH1F>("h_sumTSmeanAperLS1", " ", bac, 1., bac2);
     h_sumTSmeanAperLS1_LSselected = fs_->make<TH1F>("h_sumTSmeanAperLS1_LSselected", " ", bac, 1., bac2);
     h_sumCutTSmeanAperLS1 = fs_->make<TH1F>("h_sumCutTSmeanAperLS1", " ", bac, 1., bac2);
     h_2D0sumTSmeanALS1 = fs_->make<TH2F>("h_2D0sumTSmeanALS1", " ", neta, -41., 41., nphi, 0., bphi);
     h_sum0TSmeanAperLS1 = fs_->make<TH1F>("h_sum0TSmeanAperLS1", " ", bac, 1., bac2);

     h_sumTSmeanALS2 = fs_->make<TH1F>("h_sumTSmeanALS2", " ", 100, 0., lsdep_estimator2_HBdepth2_);
     h_2DsumTSmeanALS2 = fs_->make<TH2F>("h_2DsumTSmeanALS2", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumTSmeanAperLS2 = fs_->make<TH1F>("h_sumTSmeanAperLS2", " ", bac, 1., bac2);
     h_sumCutTSmeanAperLS2 = fs_->make<TH1F>("h_sumCutTSmeanAperLS2", " ", bac, 1., bac2);
     h_2D0sumTSmeanALS2 = fs_->make<TH2F>("h_2D0sumTSmeanALS2", " ", neta, -41., 41., nphi, 0., bphi);
     h_sum0TSmeanAperLS2 = fs_->make<TH1F>("h_sum0TSmeanAperLS2", " ", bac, 1., bac2);

     h_sumTSmeanALS3 = fs_->make<TH1F>("h_sumTSmeanALS3", " ", 100, 0., lsdep_estimator2_HEdepth1_);
     h_2DsumTSmeanALS3 = fs_->make<TH2F>("h_2DsumTSmeanALS3", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumTSmeanAperLS3 = fs_->make<TH1F>("h_sumTSmeanAperLS3", " ", bac, 1., bac2);
     h_sumCutTSmeanAperLS3 = fs_->make<TH1F>("h_sumCutTSmeanAperLS3", " ", bac, 1., bac2);
     h_2D0sumTSmeanALS3 = fs_->make<TH2F>("h_2D0sumTSmeanALS3", " ", neta, -41., 41., nphi, 0., bphi);
     h_sum0TSmeanAperLS3 = fs_->make<TH1F>("h_sum0TSmeanAperLS3", " ", bac, 1., bac2);

     h_sumTSmeanALS4 = fs_->make<TH1F>("h_sumTSmeanALS4", " ", 100, 0., lsdep_estimator2_HEdepth2_);
     h_2DsumTSmeanALS4 = fs_->make<TH2F>("h_2DsumTSmeanALS4", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumTSmeanAperLS4 = fs_->make<TH1F>("h_sumTSmeanAperLS4", " ", bac, 1., bac2);
     h_sumCutTSmeanAperLS4 = fs_->make<TH1F>("h_sumCutTSmeanAperLS4", " ", bac, 1., bac2);
     h_2D0sumTSmeanALS4 = fs_->make<TH2F>("h_2D0sumTSmeanALS4", " ", neta, -41., 41., nphi, 0., bphi);
     h_sum0TSmeanAperLS4 = fs_->make<TH1F>("h_sum0TSmeanAperLS4", " ", bac, 1., bac2);

     h_sumTSmeanALS5 = fs_->make<TH1F>("h_sumTSmeanALS5", " ", 100, 0., lsdep_estimator2_HEdepth3_);
     h_2DsumTSmeanALS5 = fs_->make<TH2F>("h_2DsumTSmeanALS5", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumTSmeanAperLS5 = fs_->make<TH1F>("h_sumTSmeanAperLS5", " ", bac, 1., bac2);
     h_sumCutTSmeanAperLS5 = fs_->make<TH1F>("h_sumCutTSmeanAperLS5", " ", bac, 1., bac2);
     h_2D0sumTSmeanALS5 = fs_->make<TH2F>("h_2D0sumTSmeanALS5", " ", neta, -41., 41., nphi, 0., bphi);
     h_sum0TSmeanAperLS5 = fs_->make<TH1F>("h_sum0TSmeanAperLS5", " ", bac, 1., bac2);

     h_sumTSmeanALS6 = fs_->make<TH1F>("h_sumTSmeanALS6", " ", 100, 0., lsdep_estimator2_HFdepth1_);
     h_2DsumTSmeanALS6 = fs_->make<TH2F>("h_2DsumTSmeanALS6", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumTSmeanAperLS6 = fs_->make<TH1F>("h_sumTSmeanAperLS6", " ", bac, 1., bac2);
     h_sumCutTSmeanAperLS6 = fs_->make<TH1F>("h_sumCutTSmeanAperLS6", " ", bac, 1., bac2);
     h_2D0sumTSmeanALS6 = fs_->make<TH2F>("h_2D0sumTSmeanALS6", " ", neta, -41., 41., nphi, 0., bphi);
     h_sum0TSmeanAperLS6 = fs_->make<TH1F>("h_sum0TSmeanAperLS6", " ", bac, 1., bac2);

     h_sumTSmeanALS7 = fs_->make<TH1F>("h_sumTSmeanALS7", " ", 100, 0., lsdep_estimator2_HFdepth2_);
     h_2DsumTSmeanALS7 = fs_->make<TH2F>("h_2DsumTSmeanALS7", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumTSmeanAperLS7 = fs_->make<TH1F>("h_sumTSmeanAperLS7", " ", bac, 1., bac2);
     h_sumCutTSmeanAperLS7 = fs_->make<TH1F>("h_sumCutTSmeanAperLS7", " ", bac, 1., bac2);
     h_2D0sumTSmeanALS7 = fs_->make<TH2F>("h_2D0sumTSmeanALS7", " ", neta, -41., 41., nphi, 0., bphi);
     h_sum0TSmeanAperLS7 = fs_->make<TH1F>("h_sum0TSmeanAperLS7", " ", bac, 1., bac2);

     h_sumTSmeanALS8 = fs_->make<TH1F>("h_sumTSmeanALS8", " ", 100, 0., lsdep_estimator2_HOdepth4_);
     h_2DsumTSmeanALS8 = fs_->make<TH2F>("h_2DsumTSmeanALS8", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumTSmeanAperLS8 = fs_->make<TH1F>("h_sumTSmeanAperLS8", " ", bac, 1., bac2);
     h_sumCutTSmeanAperLS8 = fs_->make<TH1F>("h_sumCutTSmeanAperLS8", " ", bac, 1., bac2);
     h_2D0sumTSmeanALS8 = fs_->make<TH2F>("h_2D0sumTSmeanALS8", " ", neta, -41., 41., nphi, 0., bphi);
     h_sum0TSmeanAperLS8 = fs_->make<TH1F>("h_sum0TSmeanAperLS8", " ", bac, 1., bac2);
     //--------------------------------------------------
     // for estimator3:
     h_sumTSmaxALS1 = fs_->make<TH1F>("h_sumTSmaxALS1", " ", 100, 0., lsdep_estimator3_HBdepth1_);
     h_2DsumTSmaxALS1 = fs_->make<TH2F>("h_2DsumTSmaxALS1", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumTSmaxAperLS1 = fs_->make<TH1F>("h_sumTSmaxAperLS1", " ", bac, 1., bac2);
     h_sumTSmaxAperLS1_LSselected = fs_->make<TH1F>("h_sumTSmaxAperLS1_LSselected", " ", bac, 1., bac2);
     h_sumCutTSmaxAperLS1 = fs_->make<TH1F>("h_sumCutTSmaxAperLS1", " ", bac, 1., bac2);
     h_2D0sumTSmaxALS1 = fs_->make<TH2F>("h_2D0sumTSmaxALS1", " ", neta, -41., 41., nphi, 0., bphi);
     h_sum0TSmaxAperLS1 = fs_->make<TH1F>("h_sum0TSmaxAperLS1", " ", bac, 1., bac2);

     h_sumTSmaxALS2 = fs_->make<TH1F>("h_sumTSmaxALS2", " ", 100, 0., lsdep_estimator3_HBdepth2_);
     h_2DsumTSmaxALS2 = fs_->make<TH2F>("h_2DsumTSmaxALS2", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumTSmaxAperLS2 = fs_->make<TH1F>("h_sumTSmaxAperLS2", " ", bac, 1., bac2);
     h_sumCutTSmaxAperLS2 = fs_->make<TH1F>("h_sumCutTSmaxAperLS2", " ", bac, 1., bac2);
     h_2D0sumTSmaxALS2 = fs_->make<TH2F>("h_2D0sumTSmaxALS2", " ", neta, -41., 41., nphi, 0., bphi);
     h_sum0TSmaxAperLS2 = fs_->make<TH1F>("h_sum0TSmaxAperLS2", " ", bac, 1., bac2);

     h_sumTSmaxALS3 = fs_->make<TH1F>("h_sumTSmaxALS3", " ", 100, 0., lsdep_estimator3_HEdepth1_);
     h_2DsumTSmaxALS3 = fs_->make<TH2F>("h_2DsumTSmaxALS3", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumTSmaxAperLS3 = fs_->make<TH1F>("h_sumTSmaxAperLS3", " ", bac, 1., bac2);
     h_sumCutTSmaxAperLS3 = fs_->make<TH1F>("h_sumCutTSmaxAperLS3", " ", bac, 1., bac2);
     h_2D0sumTSmaxALS3 = fs_->make<TH2F>("h_2D0sumTSmaxALS3", " ", neta, -41., 41., nphi, 0., bphi);
     h_sum0TSmaxAperLS3 = fs_->make<TH1F>("h_sum0TSmaxAperLS3", " ", bac, 1., bac2);

     h_sumTSmaxALS4 = fs_->make<TH1F>("h_sumTSmaxALS4", " ", 100, 0., lsdep_estimator3_HEdepth2_);
     h_2DsumTSmaxALS4 = fs_->make<TH2F>("h_2DsumTSmaxALS4", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumTSmaxAperLS4 = fs_->make<TH1F>("h_sumTSmaxAperLS4", " ", bac, 1., bac2);
     h_sumCutTSmaxAperLS4 = fs_->make<TH1F>("h_sumCutTSmaxAperLS4", " ", bac, 1., bac2);
     h_2D0sumTSmaxALS4 = fs_->make<TH2F>("h_2D0sumTSmaxALS4", " ", neta, -41., 41., nphi, 0., bphi);
     h_sum0TSmaxAperLS4 = fs_->make<TH1F>("h_sum0TSmaxAperLS4", " ", bac, 1., bac2);

     h_sumTSmaxALS5 = fs_->make<TH1F>("h_sumTSmaxALS5", " ", 100, 0., lsdep_estimator3_HEdepth3_);
     h_2DsumTSmaxALS5 = fs_->make<TH2F>("h_2DsumTSmaxALS5", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumTSmaxAperLS5 = fs_->make<TH1F>("h_sumTSmaxAperLS5", " ", bac, 1., bac2);
     h_sumCutTSmaxAperLS5 = fs_->make<TH1F>("h_sumCutTSmaxAperLS5", " ", bac, 1., bac2);
     h_2D0sumTSmaxALS5 = fs_->make<TH2F>("h_2D0sumTSmaxALS5", " ", neta, -41., 41., nphi, 0., bphi);
     h_sum0TSmaxAperLS5 = fs_->make<TH1F>("h_sum0TSmaxAperLS5", " ", bac, 1., bac2);

     h_sumTSmaxALS6 = fs_->make<TH1F>("h_sumTSmaxALS6", " ", 100, 0., lsdep_estimator3_HFdepth1_);
     h_2DsumTSmaxALS6 = fs_->make<TH2F>("h_2DsumTSmaxALS6", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumTSmaxAperLS6 = fs_->make<TH1F>("h_sumTSmaxAperLS6", " ", bac, 1., bac2);
     h_sumCutTSmaxAperLS6 = fs_->make<TH1F>("h_sumCutTSmaxAperLS6", " ", bac, 1., bac2);
     h_2D0sumTSmaxALS6 = fs_->make<TH2F>("h_2D0sumTSmaxALS6", " ", neta, -41., 41., nphi, 0., bphi);
     h_sum0TSmaxAperLS6 = fs_->make<TH1F>("h_sum0TSmaxAperLS6", " ", bac, 1., bac2);

     h_sumTSmaxALS7 = fs_->make<TH1F>("h_sumTSmaxALS7", " ", 100, 0., lsdep_estimator3_HFdepth2_);
     h_2DsumTSmaxALS7 = fs_->make<TH2F>("h_2DsumTSmaxALS7", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumTSmaxAperLS7 = fs_->make<TH1F>("h_sumTSmaxAperLS7", " ", bac, 1., bac2);
     h_sumCutTSmaxAperLS7 = fs_->make<TH1F>("h_sumCutTSmaxAperLS7", " ", bac, 1., bac2);
     h_2D0sumTSmaxALS7 = fs_->make<TH2F>("h_2D0sumTSmaxALS7", " ", neta, -41., 41., nphi, 0., bphi);
     h_sum0TSmaxAperLS7 = fs_->make<TH1F>("h_sum0TSmaxAperLS7", " ", bac, 1., bac2);

     h_sumTSmaxALS8 = fs_->make<TH1F>("h_sumTSmaxALS8", " ", 100, 0., lsdep_estimator3_HOdepth4_);
     h_2DsumTSmaxALS8 = fs_->make<TH2F>("h_2DsumTSmaxALS8", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumTSmaxAperLS8 = fs_->make<TH1F>("h_sumTSmaxAperLS8", " ", bac, 1., bac2);
     h_sumCutTSmaxAperLS8 = fs_->make<TH1F>("h_sumCutTSmaxAperLS8", " ", bac, 1., bac2);
     h_2D0sumTSmaxALS8 = fs_->make<TH2F>("h_2D0sumTSmaxALS8", " ", neta, -41., 41., nphi, 0., bphi);
     h_sum0TSmaxAperLS8 = fs_->make<TH1F>("h_sum0TSmaxAperLS8", " ", bac, 1., bac2);
     //--------------------------------------------------
     // for estimator4:
     h_sumAmplitudeLS1 = fs_->make<TH1F>("h_sumAmplitudeLS1", " ", 100, 0.0, lsdep_estimator4_HBdepth1_);
     h_2DsumAmplitudeLS1 = fs_->make<TH2F>("h_2DsumAmplitudeLS1", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumAmplitudeperLS1 = fs_->make<TH1F>("h_sumAmplitudeperLS1", " ", bac, 1., bac2);
     h_sumAmplitudeperLS1_LSselected = fs_->make<TH1F>("h_sumAmplitudeperLS1_LSselected", " ", bac, 1., bac2);
     h_sumCutAmplitudeperLS1 = fs_->make<TH1F>("h_sumCutAmplitudeperLS1", " ", bac, 1., bac2);
     h_2D0sumAmplitudeLS1 = fs_->make<TH2F>("h_2D0sumAmplitudeLS1", " ", neta, -41., 41., nphi, 0., bphi);
     h_sum0AmplitudeperLS1 = fs_->make<TH1F>("h_sum0AmplitudeperLS1", " ", bac, 1., bac2);

     h_sumAmplitudeLS2 = fs_->make<TH1F>("h_sumAmplitudeLS2", " ", 100, 0.0, lsdep_estimator4_HBdepth2_);
     h_2DsumAmplitudeLS2 = fs_->make<TH2F>("h_2DsumAmplitudeLS2", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumAmplitudeperLS2 = fs_->make<TH1F>("h_sumAmplitudeperLS2", " ", bac, 1., bac2);
     h_sumCutAmplitudeperLS2 = fs_->make<TH1F>("h_sumCutAmplitudeperLS2", " ", bac, 1., bac2);
     h_2D0sumAmplitudeLS2 = fs_->make<TH2F>("h_2D0sumAmplitudeLS2", " ", neta, -41., 41., nphi, 0., bphi);
     h_sum0AmplitudeperLS2 = fs_->make<TH1F>("h_sum0AmplitudeperLS2", " ", bac, 1., bac2);

     h_sumAmplitudeLS3 = fs_->make<TH1F>("h_sumAmplitudeLS3", " ", 100, 0.0, lsdep_estimator4_HEdepth1_);
     h_2DsumAmplitudeLS3 = fs_->make<TH2F>("h_2DsumAmplitudeLS3", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumAmplitudeperLS3 = fs_->make<TH1F>("h_sumAmplitudeperLS3", " ", bac, 1., bac2);
     h_sumCutAmplitudeperLS3 = fs_->make<TH1F>("h_sumCutAmplitudeperLS3", " ", bac, 1., bac2);
     h_2D0sumAmplitudeLS3 = fs_->make<TH2F>("h_2D0sumAmplitudeLS3", " ", neta, -41., 41., nphi, 0., bphi);
     h_sum0AmplitudeperLS3 = fs_->make<TH1F>("h_sum0AmplitudeperLS3", " ", bac, 1., bac2);

     h_sumAmplitudeLS4 = fs_->make<TH1F>("h_sumAmplitudeLS4", " ", 100, 0.0, lsdep_estimator4_HEdepth2_);
     h_2DsumAmplitudeLS4 = fs_->make<TH2F>("h_2DsumAmplitudeLS4", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumAmplitudeperLS4 = fs_->make<TH1F>("h_sumAmplitudeperLS4", " ", bac, 1., bac2);
     h_sumCutAmplitudeperLS4 = fs_->make<TH1F>("h_sumCutAmplitudeperLS4", " ", bac, 1., bac2);
     h_2D0sumAmplitudeLS4 = fs_->make<TH2F>("h_2D0sumAmplitudeLS4", " ", neta, -41., 41., nphi, 0., bphi);
     h_sum0AmplitudeperLS4 = fs_->make<TH1F>("h_sum0AmplitudeperLS4", " ", bac, 1., bac2);

     h_sumAmplitudeLS5 = fs_->make<TH1F>("h_sumAmplitudeLS5", " ", 100, 0.0, lsdep_estimator4_HEdepth3_);
     h_2DsumAmplitudeLS5 = fs_->make<TH2F>("h_2DsumAmplitudeLS5", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumAmplitudeperLS5 = fs_->make<TH1F>("h_sumAmplitudeperLS5", " ", bac, 1., bac2);
     h_sumCutAmplitudeperLS5 = fs_->make<TH1F>("h_sumCutAmplitudeperLS5", " ", bac, 1., bac2);
     h_2D0sumAmplitudeLS5 = fs_->make<TH2F>("h_2D0sumAmplitudeLS5", " ", neta, -41., 41., nphi, 0., bphi);
     h_sum0AmplitudeperLS5 = fs_->make<TH1F>("h_sum0AmplitudeperLS5", " ", bac, 1., bac2);

     h_sumAmplitudeLS6 = fs_->make<TH1F>("h_sumAmplitudeLS6", " ", 100, 0., lsdep_estimator4_HFdepth1_);
     h_2DsumAmplitudeLS6 = fs_->make<TH2F>("h_2DsumAmplitudeLS6", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumAmplitudeperLS6 = fs_->make<TH1F>("h_sumAmplitudeperLS6", " ", bac, 1., bac2);
     h_sumCutAmplitudeperLS6 = fs_->make<TH1F>("h_sumCutAmplitudeperLS6", " ", bac, 1., bac2);
     h_2D0sumAmplitudeLS6 = fs_->make<TH2F>("h_2D0sumAmplitudeLS6", " ", neta, -41., 41., nphi, 0., bphi);
     h_sum0AmplitudeperLS6 = fs_->make<TH1F>("h_sum0AmplitudeperLS6", " ", bac, 1., bac2);

     h_sumAmplitudeLS7 = fs_->make<TH1F>("h_sumAmplitudeLS7", " ", 100, 0., lsdep_estimator4_HFdepth2_);
     h_2DsumAmplitudeLS7 = fs_->make<TH2F>("h_2DsumAmplitudeLS7", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumAmplitudeperLS7 = fs_->make<TH1F>("h_sumAmplitudeperLS7", " ", bac, 1., bac2);
     h_sumCutAmplitudeperLS7 = fs_->make<TH1F>("h_sumCutAmplitudeperLS7", " ", bac, 1., bac2);
     h_2D0sumAmplitudeLS7 = fs_->make<TH2F>("h_2D0sumAmplitudeLS7", " ", neta, -41., 41., nphi, 0., bphi);
     h_sum0AmplitudeperLS7 = fs_->make<TH1F>("h_sum0AmplitudeperLS7", " ", bac, 1., bac2);

     h_sumAmplitudeLS8 = fs_->make<TH1F>("h_sumAmplitudeLS8", " ", 100, 0., lsdep_estimator4_HOdepth4_);
     h_2DsumAmplitudeLS8 = fs_->make<TH2F>("h_2DsumAmplitudeLS8", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumAmplitudeperLS8 = fs_->make<TH1F>("h_sumAmplitudeperLS8", " ", bac, 1., bac2);
     h_sumCutAmplitudeperLS8 = fs_->make<TH1F>("h_sumCutAmplitudeperLS8", " ", bac, 1., bac2);
     h_2D0sumAmplitudeLS8 = fs_->make<TH2F>("h_2D0sumAmplitudeLS8", " ", neta, -41., 41., nphi, 0., bphi);
     h_sum0AmplitudeperLS8 = fs_->make<TH1F>("h_sum0AmplitudeperLS8", " ", bac, 1., bac2);
     //--------------------------------------------------
     // for estimator5:
     h_sumAmplLS1 = fs_->make<TH1F>("h_sumAmplLS1", " ", 100, 0.0, lsdep_estimator5_HBdepth1_);
     h_2DsumAmplLS1 = fs_->make<TH2F>("h_2DsumAmplLS1", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumAmplperLS1 = fs_->make<TH1F>("h_sumAmplperLS1", " ", bac, 1., bac2);
     h_sumAmplperLS1_LSselected = fs_->make<TH1F>("h_sumAmplperLS1_LSselected", " ", bac, 1., bac2);
     h_sumCutAmplperLS1 = fs_->make<TH1F>("h_sumCutAmplperLS1", " ", bac, 1., bac2);
     h_2D0sumAmplLS1 = fs_->make<TH2F>("h_2D0sumAmplLS1", " ", neta, -41., 41., nphi, 0., bphi);
     h_sum0AmplperLS1 = fs_->make<TH1F>("h_sum0AmplperLS1", " ", bac, 1., bac2);

     h_sumAmplLS2 = fs_->make<TH1F>("h_sumAmplLS2", " ", 100, 0.0, lsdep_estimator5_HBdepth2_);
     h_2DsumAmplLS2 = fs_->make<TH2F>("h_2DsumAmplLS2", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumAmplperLS2 = fs_->make<TH1F>("h_sumAmplperLS2", " ", bac, 1., bac2);
     h_sumCutAmplperLS2 = fs_->make<TH1F>("h_sumCutAmplperLS2", " ", bac, 1., bac2);
     h_2D0sumAmplLS2 = fs_->make<TH2F>("h_2D0sumAmplLS2", " ", neta, -41., 41., nphi, 0., bphi);
     h_sum0AmplperLS2 = fs_->make<TH1F>("h_sum0AmplperLS2", " ", bac, 1., bac2);

     h_sumAmplLS3 = fs_->make<TH1F>("h_sumAmplLS3", " ", 100, 0.0, lsdep_estimator5_HEdepth1_);
     h_2DsumAmplLS3 = fs_->make<TH2F>("h_2DsumAmplLS3", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumAmplperLS3 = fs_->make<TH1F>("h_sumAmplperLS3", " ", bac, 1., bac2);
     h_sumCutAmplperLS3 = fs_->make<TH1F>("h_sumCutAmplperLS3", " ", bac, 1., bac2);
     h_2D0sumAmplLS3 = fs_->make<TH2F>("h_2D0sumAmplLS3", " ", neta, -41., 41., nphi, 0., bphi);
     h_sum0AmplperLS3 = fs_->make<TH1F>("h_sum0AmplperLS3", " ", bac, 1., bac2);

     h_sumAmplLS4 = fs_->make<TH1F>("h_sumAmplLS4", " ", 100, 0.0, lsdep_estimator5_HEdepth2_);
     h_2DsumAmplLS4 = fs_->make<TH2F>("h_2DsumAmplLS4", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumAmplperLS4 = fs_->make<TH1F>("h_sumAmplperLS4", " ", bac, 1., bac2);
     h_sumCutAmplperLS4 = fs_->make<TH1F>("h_sumCutAmplperLS4", " ", bac, 1., bac2);
     h_2D0sumAmplLS4 = fs_->make<TH2F>("h_2D0sumAmplLS4", " ", neta, -41., 41., nphi, 0., bphi);
     h_sum0AmplperLS4 = fs_->make<TH1F>("h_sum0AmplperLS4", " ", bac, 1., bac2);

     h_sumAmplLS5 = fs_->make<TH1F>("h_sumAmplLS5", " ", 100, 0.0, lsdep_estimator5_HEdepth3_);
     h_2DsumAmplLS5 = fs_->make<TH2F>("h_2DsumAmplLS5", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumAmplperLS5 = fs_->make<TH1F>("h_sumAmplperLS5", " ", bac, 1., bac2);
     h_sumCutAmplperLS5 = fs_->make<TH1F>("h_sumCutAmplperLS5", " ", bac, 1., bac2);
     h_2D0sumAmplLS5 = fs_->make<TH2F>("h_2D0sumAmplLS5", " ", neta, -41., 41., nphi, 0., bphi);
     h_sum0AmplperLS5 = fs_->make<TH1F>("h_sum0AmplperLS5", " ", bac, 1., bac2);

     h_sumAmplLS6 = fs_->make<TH1F>("h_sumAmplLS6", " ", 100, 0.0, lsdep_estimator5_HFdepth1_);
     h_2DsumAmplLS6 = fs_->make<TH2F>("h_2DsumAmplLS6", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumAmplperLS6 = fs_->make<TH1F>("h_sumAmplperLS6", " ", bac, 1., bac2);
     h_sumCutAmplperLS6 = fs_->make<TH1F>("h_sumCutAmplperLS6", " ", bac, 1., bac2);
     h_2D0sumAmplLS6 = fs_->make<TH2F>("h_2D0sumAmplLS6", " ", neta, -41., 41., nphi, 0., bphi);
     h_sum0AmplperLS6 = fs_->make<TH1F>("h_sum0AmplperLS6", " ", bac, 1., bac2);

     h_RatioOccupancy_HBP = fs_->make<TH1F>("h_RatioOccupancy_HBP", " ", bac, 1., bac2);
     h_RatioOccupancy_HBM = fs_->make<TH1F>("h_RatioOccupancy_HBM", " ", bac, 1., bac2);
     h_RatioOccupancy_HEP = fs_->make<TH1F>("h_RatioOccupancy_HEP", " ", bac, 1., bac2);
     h_RatioOccupancy_HEM = fs_->make<TH1F>("h_RatioOccupancy_HEM", " ", bac, 1., bac2);
     h_RatioOccupancy_HOP = fs_->make<TH1F>("h_RatioOccupancy_HOP", " ", bac, 1., bac2);
     h_RatioOccupancy_HOM = fs_->make<TH1F>("h_RatioOccupancy_HOM", " ", bac, 1., bac2);
     h_RatioOccupancy_HFP = fs_->make<TH1F>("h_RatioOccupancy_HFP", " ", bac, 1., bac2);
     h_RatioOccupancy_HFM = fs_->make<TH1F>("h_RatioOccupancy_HFM", " ", bac, 1., bac2);

     h_sumAmplLS7 = fs_->make<TH1F>("h_sumAmplLS7", " ", 100, 0.0, lsdep_estimator5_HFdepth2_);
     h_2DsumAmplLS7 = fs_->make<TH2F>("h_2DsumAmplLS7", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumAmplperLS7 = fs_->make<TH1F>("h_sumAmplperLS7", " ", bac, 1., bac2);
     h_sumCutAmplperLS7 = fs_->make<TH1F>("h_sumCutAmplperLS7", " ", bac, 1., bac2);
     h_2D0sumAmplLS7 = fs_->make<TH2F>("h_2D0sumAmplLS7", " ", neta, -41., 41., nphi, 0., bphi);
     h_sum0AmplperLS7 = fs_->make<TH1F>("h_sum0AmplperLS7", " ", bac, 1., bac2);

     h_sumAmplLS8 = fs_->make<TH1F>("h_sumAmplLS8", " ", 100, 0.0, lsdep_estimator5_HOdepth4_);
     h_2DsumAmplLS8 = fs_->make<TH2F>("h_2DsumAmplLS8", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumAmplperLS8 = fs_->make<TH1F>("h_sumAmplperLS8", " ", bac, 1., bac2);
     h_sumCutAmplperLS8 = fs_->make<TH1F>("h_sumCutAmplperLS8", " ", bac, 1., bac2);
     h_2D0sumAmplLS8 = fs_->make<TH2F>("h_2D0sumAmplLS8", " ", neta, -41., 41., nphi, 0., bphi);
     h_sum0AmplperLS8 = fs_->make<TH1F>("h_sum0AmplperLS8", " ", bac, 1., bac2);
     //--------------------------------------------------
     // for estimator6:
     h_sumErrorBLS1 = fs_->make<TH1F>("h_sumErrorBLS1", " ", 10, 0., 10.);
     h_sumErrorBperLS1 = fs_->make<TH1F>("h_sumErrorBperLS1", " ", bac, 1., bac2);
     h_sum0ErrorBperLS1 = fs_->make<TH1F>("h_sum0ErrorBperLS1", " ", bac, 1., bac2);
     h_2D0sumErrorBLS1 = fs_->make<TH2F>("h_2D0sumErrorBLS1", " ", neta, -41., 41., nphi, 0., bphi);
     h_2DsumErrorBLS1 = fs_->make<TH2F>("h_2DsumErrorBLS1", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumErrorBLS2 = fs_->make<TH1F>("h_sumErrorBLS2", " ", 10, 0., 10.);
     h_sumErrorBperLS2 = fs_->make<TH1F>("h_sumErrorBperLS2", " ", bac, 1., bac2);
     h_sum0ErrorBperLS2 = fs_->make<TH1F>("h_sum0ErrorBperLS2", " ", bac, 1., bac2);
     h_2D0sumErrorBLS2 = fs_->make<TH2F>("h_2D0sumErrorBLS2", " ", neta, -41., 41., nphi, 0., bphi);
     h_2DsumErrorBLS2 = fs_->make<TH2F>("h_2DsumErrorBLS2", " ", neta, -41., 41., nphi, 0., bphi);

     h_sumErrorBLS3 = fs_->make<TH1F>("h_sumErrorBLS3", " ", 10, 0., 10.);
     h_sumErrorBperLS3 = fs_->make<TH1F>("h_sumErrorBperLS3", " ", bac, 1., bac2);
     h_sum0ErrorBperLS3 = fs_->make<TH1F>("h_sum0ErrorBperLS3", " ", bac, 1., bac2);
     h_2D0sumErrorBLS3 = fs_->make<TH2F>("h_2D0sumErrorBLS3", " ", neta, -41., 41., nphi, 0., bphi);
     h_2DsumErrorBLS3 = fs_->make<TH2F>("h_2DsumErrorBLS3", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumErrorBLS4 = fs_->make<TH1F>("h_sumErrorBLS4", " ", 10, 0., 10.);
     h_sumErrorBperLS4 = fs_->make<TH1F>("h_sumErrorBperLS4", " ", bac, 1., bac2);
     h_sum0ErrorBperLS4 = fs_->make<TH1F>("h_sum0ErrorBperLS4", " ", bac, 1., bac2);
     h_2D0sumErrorBLS4 = fs_->make<TH2F>("h_2D0sumErrorBLS4", " ", neta, -41., 41., nphi, 0., bphi);
     h_2DsumErrorBLS4 = fs_->make<TH2F>("h_2DsumErrorBLS4", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumErrorBLS5 = fs_->make<TH1F>("h_sumErrorBLS5", " ", 10, 0., 10.);
     h_sumErrorBperLS5 = fs_->make<TH1F>("h_sumErrorBperLS5", " ", bac, 1., bac2);
     h_sum0ErrorBperLS5 = fs_->make<TH1F>("h_sum0ErrorBperLS5", " ", bac, 1., bac2);
     h_2D0sumErrorBLS5 = fs_->make<TH2F>("h_2D0sumErrorBLS5", " ", neta, -41., 41., nphi, 0., bphi);
     h_2DsumErrorBLS5 = fs_->make<TH2F>("h_2DsumErrorBLS5", " ", neta, -41., 41., nphi, 0., bphi);

     h_sumErrorBLS6 = fs_->make<TH1F>("h_sumErrorBLS6", " ", 10, 0., 10.);
     h_sumErrorBperLS6 = fs_->make<TH1F>("h_sumErrorBperLS6", " ", bac, 1., bac2);
     h_sum0ErrorBperLS6 = fs_->make<TH1F>("h_sum0ErrorBperLS6", " ", bac, 1., bac2);
     h_2D0sumErrorBLS6 = fs_->make<TH2F>("h_2D0sumErrorBLS6", " ", neta, -41., 41., nphi, 0., bphi);
     h_2DsumErrorBLS6 = fs_->make<TH2F>("h_2DsumErrorBLS6", " ", neta, -41., 41., nphi, 0., bphi);
     h_sumErrorBLS7 = fs_->make<TH1F>("h_sumErrorBLS7", " ", 10, 0., 10.);
     h_sumErrorBperLS7 = fs_->make<TH1F>("h_sumErrorBperLS7", " ", bac, 1., bac2);
     h_sum0ErrorBperLS7 = fs_->make<TH1F>("h_sum0ErrorBperLS7", " ", bac, 1., bac2);
     h_2D0sumErrorBLS7 = fs_->make<TH2F>("h_2D0sumErrorBLS7", " ", neta, -41., 41., nphi, 0., bphi);
     h_2DsumErrorBLS7 = fs_->make<TH2F>("h_2DsumErrorBLS7", " ", neta, -41., 41., nphi, 0., bphi);

     h_sumErrorBLS8 = fs_->make<TH1F>("h_sumErrorBLS8", " ", 10, 0., 10.);
     h_sumErrorBperLS8 = fs_->make<TH1F>("h_sumErrorBperLS8", " ", bac, 1., bac2);
     h_sum0ErrorBperLS8 = fs_->make<TH1F>("h_sum0ErrorBperLS8", " ", bac, 1., bac2);
     h_2D0sumErrorBLS8 = fs_->make<TH2F>("h_2D0sumErrorBLS8", " ", neta, -41., 41., nphi, 0., bphi);
     h_2DsumErrorBLS8 = fs_->make<TH2F>("h_2DsumErrorBLS8", " ", neta, -41., 41., nphi, 0., bphi);

     //--------------------------------------------------
     // for averSIGNALOCCUPANCY :
     h_averSIGNALoccupancy_HB = fs_->make<TH1F>("h_averSIGNALoccupancy_HB", " ", bac, 1., bac2);
     h_averSIGNALoccupancy_HE = fs_->make<TH1F>("h_averSIGNALoccupancy_HE", " ", bac, 1., bac2);
     h_averSIGNALoccupancy_HF = fs_->make<TH1F>("h_averSIGNALoccupancy_HF", " ", bac, 1., bac2);
     h_averSIGNALoccupancy_HO = fs_->make<TH1F>("h_averSIGNALoccupancy_HO", " ", bac, 1., bac2);

     // for averSIGNALsumamplitude :
     h_averSIGNALsumamplitude_HB = fs_->make<TH1F>("h_averSIGNALsumamplitude_HB", " ", bac, 1., bac2);
     h_averSIGNALsumamplitude_HE = fs_->make<TH1F>("h_averSIGNALsumamplitude_HE", " ", bac, 1., bac2);
     h_averSIGNALsumamplitude_HF = fs_->make<TH1F>("h_averSIGNALsumamplitude_HF", " ", bac, 1., bac2);
     h_averSIGNALsumamplitude_HO = fs_->make<TH1F>("h_averSIGNALsumamplitude_HO", " ", bac, 1., bac2);

     // for averNOSIGNALOCCUPANCY :
     h_averNOSIGNALoccupancy_HB = fs_->make<TH1F>("h_averNOSIGNALoccupancy_HB", " ", bac, 1., bac2);
     h_averNOSIGNALoccupancy_HE = fs_->make<TH1F>("h_averNOSIGNALoccupancy_HE", " ", bac, 1., bac2);
     h_averNOSIGNALoccupancy_HF = fs_->make<TH1F>("h_averNOSIGNALoccupancy_HF", " ", bac, 1., bac2);
     h_averNOSIGNALoccupancy_HO = fs_->make<TH1F>("h_averNOSIGNALoccupancy_HO", " ", bac, 1., bac2);

     // for averNOSIGNALsumamplitude :
     h_averNOSIGNALsumamplitude_HB = fs_->make<TH1F>("h_averNOSIGNALsumamplitude_HB", " ", bac, 1., bac2);
     h_averNOSIGNALsumamplitude_HE = fs_->make<TH1F>("h_averNOSIGNALsumamplitude_HE", " ", bac, 1., bac2);
     h_averNOSIGNALsumamplitude_HF = fs_->make<TH1F>("h_averNOSIGNALsumamplitude_HF", " ", bac, 1., bac2);
     h_averNOSIGNALsumamplitude_HO = fs_->make<TH1F>("h_averNOSIGNALsumamplitude_HO", " ", bac, 1., bac2);

     // for channel SUM over depthes Amplitudes for each sub-detector
     h_sumamplitudechannel_HB = fs_->make<TH1F>("h_sumamplitudechannel_HB", " ", 100, 0., 2000.);
     h_sumamplitudechannel_HE = fs_->make<TH1F>("h_sumamplitudechannel_HE", " ", 100, 0., 3000.);
     h_sumamplitudechannel_HF = fs_->make<TH1F>("h_sumamplitudechannel_HF", " ", 100, 0., 7000.);
     h_sumamplitudechannel_HO = fs_->make<TH1F>("h_sumamplitudechannel_HO", " ", 100, 0., 10000.);

     // for event Amplitudes for each sub-detector
     h_eventamplitude_HB = fs_->make<TH1F>("h_eventamplitude_HB", " ", 100, 0., 80000.);
     h_eventamplitude_HE = fs_->make<TH1F>("h_eventamplitude_HE", " ", 100, 0., 100000.);
     h_eventamplitude_HF = fs_->make<TH1F>("h_eventamplitude_HF", " ", 100, 0., 150000.);
     h_eventamplitude_HO = fs_->make<TH1F>("h_eventamplitude_HO", " ", 100, 0., 250000.);

     // for event Occupancy for each sub-detector
     h_eventoccupancy_HB = fs_->make<TH1F>("h_eventoccupancy_HB", " ", 100, 0., 3000.);
     h_eventoccupancy_HE = fs_->make<TH1F>("h_eventoccupancy_HE", " ", 100, 0., 2000.);
     h_eventoccupancy_HF = fs_->make<TH1F>("h_eventoccupancy_HF", " ", 100, 0., 1000.);
     h_eventoccupancy_HO = fs_->make<TH1F>("h_eventoccupancy_HO", " ", 100, 0., 2500.);

     // for maxxSUMAmplitude
     h_maxxSUMAmpl_HB = fs_->make<TH1F>("h_maxxSUMAmpl_HB", " ", bac, 1., bac2);
     h_maxxSUMAmpl_HE = fs_->make<TH1F>("h_maxxSUMAmpl_HE", " ", bac, 1., bac2);
     h_maxxSUMAmpl_HF = fs_->make<TH1F>("h_maxxSUMAmpl_HF", " ", bac, 1., bac2);
     h_maxxSUMAmpl_HO = fs_->make<TH1F>("h_maxxSUMAmpl_HO", " ", bac, 1., bac2);

     // for maxxOCCUP
     h_maxxOCCUP_HB = fs_->make<TH1F>("h_maxxOCCUP_HB", " ", bac, 1., bac2);
     h_maxxOCCUP_HE = fs_->make<TH1F>("h_maxxOCCUP_HE", " ", bac, 1., bac2);
     h_maxxOCCUP_HF = fs_->make<TH1F>("h_maxxOCCUP_HF", " ", bac, 1., bac2);
     h_maxxOCCUP_HO = fs_->make<TH1F>("h_maxxOCCUP_HO", " ", bac, 1., bac2);
     //--------------------------------------------------
     // pedestals
     h_pedestal0_HB = fs_->make<TH1F>("h_pedestal0_HB", " ", 100, 0., 10.);
     h_pedestal1_HB = fs_->make<TH1F>("h_pedestal1_HB", " ", 100, 0., 10.);
     h_pedestal2_HB = fs_->make<TH1F>("h_pedestal2_HB", " ", 100, 0., 10.);
     h_pedestal3_HB = fs_->make<TH1F>("h_pedestal3_HB", " ", 100, 0., 10.);
     h_pedestalaver4_HB = fs_->make<TH1F>("h_pedestalaver4_HB", " ", 100, 0., 10.);
     h_pedestalaver9_HB = fs_->make<TH1F>("h_pedestalaver9_HB", " ", 100, 0., 10.);
     h_pedestalw0_HB = fs_->make<TH1F>("h_pedestalw0_HB", " ", 100, 0., 2.5);
     h_pedestalw1_HB = fs_->make<TH1F>("h_pedestalw1_HB", " ", 100, 0., 2.5);
     h_pedestalw2_HB = fs_->make<TH1F>("h_pedestalw2_HB", " ", 100, 0., 2.5);
     h_pedestalw3_HB = fs_->make<TH1F>("h_pedestalw3_HB", " ", 100, 0., 2.5);
     h_pedestalwaver4_HB = fs_->make<TH1F>("h_pedestalwaver4_HB", " ", 100, 0., 2.5);
     h_pedestalwaver9_HB = fs_->make<TH1F>("h_pedestalwaver9_HB", " ", 100, 0., 2.5);

     h_pedestal0_HE = fs_->make<TH1F>("h_pedestal0_HE", " ", 100, 0., 10.);
     h_pedestal1_HE = fs_->make<TH1F>("h_pedestal1_HE", " ", 100, 0., 10.);
     h_pedestal2_HE = fs_->make<TH1F>("h_pedestal2_HE", " ", 100, 0., 10.);
     h_pedestal3_HE = fs_->make<TH1F>("h_pedestal3_HE", " ", 100, 0., 10.);
     h_pedestalaver4_HE = fs_->make<TH1F>("h_pedestalaver4_HE", " ", 100, 0., 10.);
     h_pedestalaver9_HE = fs_->make<TH1F>("h_pedestalaver9_HE", " ", 100, 0., 10.);
     h_pedestalw0_HE = fs_->make<TH1F>("h_pedestalw0_HE", " ", 100, 0., 2.5);
     h_pedestalw1_HE = fs_->make<TH1F>("h_pedestalw1_HE", " ", 100, 0., 2.5);
     h_pedestalw2_HE = fs_->make<TH1F>("h_pedestalw2_HE", " ", 100, 0., 2.5);
     h_pedestalw3_HE = fs_->make<TH1F>("h_pedestalw3_HE", " ", 100, 0., 2.5);
     h_pedestalwaver4_HE = fs_->make<TH1F>("h_pedestalwaver4_HE", " ", 100, 0., 2.5);
     h_pedestalwaver9_HE = fs_->make<TH1F>("h_pedestalwaver9_HE", " ", 100, 0., 2.5);

     h_pedestal0_HF = fs_->make<TH1F>("h_pedestal0_HF", " ", 100, 0., 20.);
     h_pedestal1_HF = fs_->make<TH1F>("h_pedestal1_HF", " ", 100, 0., 20.);
     h_pedestal2_HF = fs_->make<TH1F>("h_pedestal2_HF", " ", 100, 0., 20.);
     h_pedestal3_HF = fs_->make<TH1F>("h_pedestal3_HF", " ", 100, 0., 20.);
     h_pedestalaver4_HF = fs_->make<TH1F>("h_pedestalaver4_HF", " ", 100, 0., 20.);
     h_pedestalaver9_HF = fs_->make<TH1F>("h_pedestalaver9_HF", " ", 100, 0., 20.);
     h_pedestalw0_HF = fs_->make<TH1F>("h_pedestalw0_HF", " ", 100, 0., 2.5);
     h_pedestalw1_HF = fs_->make<TH1F>("h_pedestalw1_HF", " ", 100, 0., 2.5);
     h_pedestalw2_HF = fs_->make<TH1F>("h_pedestalw2_HF", " ", 100, 0., 2.5);
     h_pedestalw3_HF = fs_->make<TH1F>("h_pedestalw3_HF", " ", 100, 0., 2.5);
     h_pedestalwaver4_HF = fs_->make<TH1F>("h_pedestalwaver4_HF", " ", 100, 0., 2.5);
     h_pedestalwaver9_HF = fs_->make<TH1F>("h_pedestalwaver9_HF", " ", 100, 0., 2.5);

     h_pedestal0_HO = fs_->make<TH1F>("h_pedestal0_HO", " ", 100, 0., 20.);
     h_pedestal1_HO = fs_->make<TH1F>("h_pedestal1_HO", " ", 100, 0., 20.);
     h_pedestal2_HO = fs_->make<TH1F>("h_pedestal2_HO", " ", 100, 0., 20.);
     h_pedestal3_HO = fs_->make<TH1F>("h_pedestal3_HO", " ", 100, 0., 20.);
     h_pedestalaver4_HO = fs_->make<TH1F>("h_pedestalaver4_HO", " ", 100, 0., 20.);
     h_pedestalaver9_HO = fs_->make<TH1F>("h_pedestalaver9_HO", " ", 100, 0., 20.);
     h_pedestalw0_HO = fs_->make<TH1F>("h_pedestalw0_HO", " ", 100, 0., 2.5);
     h_pedestalw1_HO = fs_->make<TH1F>("h_pedestalw1_HO", " ", 100, 0., 2.5);
     h_pedestalw2_HO = fs_->make<TH1F>("h_pedestalw2_HO", " ", 100, 0., 2.5);
     h_pedestalw3_HO = fs_->make<TH1F>("h_pedestalw3_HO", " ", 100, 0., 2.5);
     h_pedestalwaver4_HO = fs_->make<TH1F>("h_pedestalwaver4_HO", " ", 100, 0., 2.5);
     h_pedestalwaver9_HO = fs_->make<TH1F>("h_pedestalwaver9_HO", " ", 100, 0., 2.5);
     //--------------------------------------------------
     h_mapDepth1pedestalw_HB = fs_->make<TH2F>("h_mapDepth1pedestalw_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2pedestalw_HB = fs_->make<TH2F>("h_mapDepth2pedestalw_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3pedestalw_HB = fs_->make<TH2F>("h_mapDepth3pedestalw_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4pedestalw_HB = fs_->make<TH2F>("h_mapDepth4pedestalw_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1pedestalw_HE = fs_->make<TH2F>("h_mapDepth1pedestalw_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2pedestalw_HE = fs_->make<TH2F>("h_mapDepth2pedestalw_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3pedestalw_HE = fs_->make<TH2F>("h_mapDepth3pedestalw_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4pedestalw_HE = fs_->make<TH2F>("h_mapDepth4pedestalw_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth5pedestalw_HE = fs_->make<TH2F>("h_mapDepth5pedestalw_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth6pedestalw_HE = fs_->make<TH2F>("h_mapDepth6pedestalw_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth7pedestalw_HE = fs_->make<TH2F>("h_mapDepth7pedestalw_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1pedestalw_HF = fs_->make<TH2F>("h_mapDepth1pedestalw_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2pedestalw_HF = fs_->make<TH2F>("h_mapDepth2pedestalw_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3pedestalw_HF = fs_->make<TH2F>("h_mapDepth3pedestalw_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4pedestalw_HF = fs_->make<TH2F>("h_mapDepth4pedestalw_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4pedestalw_HO = fs_->make<TH2F>("h_mapDepth4pedestalw_HO", " ", neta, -41., 41., nphi, 0., bphi);

     h_mapDepth1pedestal_HB = fs_->make<TH2F>("h_mapDepth1pedestal_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2pedestal_HB = fs_->make<TH2F>("h_mapDepth2pedestal_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3pedestal_HB = fs_->make<TH2F>("h_mapDepth3pedestal_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4pedestal_HB = fs_->make<TH2F>("h_mapDepth4pedestal_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1pedestal_HE = fs_->make<TH2F>("h_mapDepth1pedestal_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2pedestal_HE = fs_->make<TH2F>("h_mapDepth2pedestal_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3pedestal_HE = fs_->make<TH2F>("h_mapDepth3pedestal_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4pedestal_HE = fs_->make<TH2F>("h_mapDepth4pedestal_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth5pedestal_HE = fs_->make<TH2F>("h_mapDepth5pedestal_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth6pedestal_HE = fs_->make<TH2F>("h_mapDepth6pedestal_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth7pedestal_HE = fs_->make<TH2F>("h_mapDepth7pedestal_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1pedestal_HF = fs_->make<TH2F>("h_mapDepth1pedestal_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2pedestal_HF = fs_->make<TH2F>("h_mapDepth2pedestal_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3pedestal_HF = fs_->make<TH2F>("h_mapDepth3pedestal_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4pedestal_HF = fs_->make<TH2F>("h_mapDepth4pedestal_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4pedestal_HO = fs_->make<TH2F>("h_mapDepth4pedestal_HO", " ", neta, -41., 41., nphi, 0., bphi);
     //--------------------------------------------------
     h_pedestal00_HB = fs_->make<TH1F>("h_pedestal00_HB", " ", 100, 0., 10.);
     h_gain_HB = fs_->make<TH1F>("h_gain_HB", " ", 100, 0., 1.);
     h_respcorr_HB = fs_->make<TH1F>("h_respcorr_HB", " ", 100, 0., 2.5);
     h_timecorr_HB = fs_->make<TH1F>("h_timecorr_HB", " ", 100, 0., 30.);
     h_lutcorr_HB = fs_->make<TH1F>("h_lutcorr_HB", " ", 100, 0., 10.);
     h_difpedestal0_HB = fs_->make<TH1F>("h_difpedestal0_HB", " ", 100, -3., 3.);
     h_difpedestal1_HB = fs_->make<TH1F>("h_difpedestal1_HB", " ", 100, -3., 3.);
     h_difpedestal2_HB = fs_->make<TH1F>("h_difpedestal2_HB", " ", 100, -3., 3.);
     h_difpedestal3_HB = fs_->make<TH1F>("h_difpedestal3_HB", " ", 100, -3., 3.);

     h_pedestal00_HE = fs_->make<TH1F>("h_pedestal00_HE", " ", 100, 0., 10.);
     h_gain_HE = fs_->make<TH1F>("h_gain_HE", " ", 100, 0., 1.);
     h_respcorr_HE = fs_->make<TH1F>("h_respcorr_HE", " ", 100, 0., 2.5);
     h_timecorr_HE = fs_->make<TH1F>("h_timecorr_HE", " ", 100, 0., 30.);
     h_lutcorr_HE = fs_->make<TH1F>("h_lutcorr_HE", " ", 100, 0., 10.);

     h_pedestal00_HF = fs_->make<TH1F>("h_pedestal00_HF", " ", 100, 0., 10.);
     h_gain_HF = fs_->make<TH1F>("h_gain_HF", " ", 100, 0., 1.);
     h_respcorr_HF = fs_->make<TH1F>("h_respcorr_HF", " ", 100, 0., 2.5);
     h_timecorr_HF = fs_->make<TH1F>("h_timecorr_HF", " ", 100, 0., 30.);
     h_lutcorr_HF = fs_->make<TH1F>("h_lutcorr_HF", " ", 100, 0., 10.);

     h_pedestal00_HO = fs_->make<TH1F>("h_pedestal00_HO", " ", 100, 0., 10.);
     h_gain_HO = fs_->make<TH1F>("h_gain_HO", " ", 100, 0., 1.);
     h_respcorr_HO = fs_->make<TH1F>("h_respcorr_HO", " ", 100, 0., 2.5);
     h_timecorr_HO = fs_->make<TH1F>("h_timecorr_HO", " ", 100, 0., 30.);
     h_lutcorr_HO = fs_->make<TH1F>("h_lutcorr_HO", " ", 100, 0., 10.);
     //--------------------------------------------------
     h2_TSnVsAyear2023_HB = fs_->make<TH2F>("h2_TSnVsAyear2023_HB", " ", 100, 200., 30200., 100, 0., 175.);
     h2_TSnVsAyear2023_HE = fs_->make<TH2F>("h2_TSnVsAyear2023_HE", " ", 100, 200., 75200., 100, 0., 175.);
     h2_TSnVsAyear2023_HF = fs_->make<TH2F>("h2_TSnVsAyear2023_HF", " ", 100, 0., 2000., 100, 0., 50.);
     h2_TSnVsAyear2023_HO = fs_->make<TH2F>("h2_TSnVsAyear2023_HO", " ", 100, 0., 1000., 100, 0., 225.);
     //-----------------------------
     h1_TSnVsAyear2023_HB = fs_->make<TH1F>("h1_TSnVsAyear2023_HB", " ", 100, 200., 15200);
     h1_TSnVsAyear2023_HE = fs_->make<TH1F>("h1_TSnVsAyear2023_HE", " ", 100, 200., 25200);
     h1_TSnVsAyear2023_HF = fs_->make<TH1F>("h1_TSnVsAyear2023_HF", " ", 100, 0., 1500);
     h1_TSnVsAyear2023_HO = fs_->make<TH1F>("h1_TSnVsAyear2023_HO", " ", 100, 0., 750);
     h1_TSnVsAyear20230_HB = fs_->make<TH1F>("h1_TSnVsAyear20230_HB", " ", 100, 200., 15200);
     h1_TSnVsAyear20230_HE = fs_->make<TH1F>("h1_TSnVsAyear20230_HE", " ", 100, 200., 25200);
     h1_TSnVsAyear20230_HF = fs_->make<TH1F>("h1_TSnVsAyear20230_HF", " ", 100, 0., 1500);
     h1_TSnVsAyear20230_HO = fs_->make<TH1F>("h1_TSnVsAyear20230_HO", " ", 100, 0., 750);
     //--------------------------------------------------
     float est6 = 2500.;
     int ist6 = 30;
     int ist2 = 60;
     h2_pedvsampl_HB = fs_->make<TH2F>("h2_pedvsampl_HB", " ", ist2, 0., 7.0, ist2, 0., est6);
     h2_pedwvsampl_HB = fs_->make<TH2F>("h2_pedwvsampl_HB", " ", ist2, 0., 2.5, ist2, 0., est6);
     h_pedvsampl_HB = fs_->make<TH1F>("h_pedvsampl_HB", " ", ist6, 0., 7.0);
     h_pedwvsampl_HB = fs_->make<TH1F>("h_pedwvsampl_HB", " ", ist6, 0., 2.5);
     h_pedvsampl0_HB = fs_->make<TH1F>("h_pedvsampl0_HB", " ", ist6, 0., 7.);
     h_pedwvsampl0_HB = fs_->make<TH1F>("h_pedwvsampl0_HB", " ", ist6, 0., 2.5);
     h2_amplvsped_HB = fs_->make<TH2F>("h2_amplvsped_HB", " ", ist2, 0., est6, ist2, 0., 7.0);
     h2_amplvspedw_HB = fs_->make<TH2F>("h2_amplvspedw_HB", " ", ist2, 0., est6, ist2, 0., 2.5);
     h_amplvsped_HB = fs_->make<TH1F>("h_amplvsped_HB", " ", ist6, 0., est6);
     h_amplvspedw_HB = fs_->make<TH1F>("h_amplvspedw_HB", " ", ist6, 0., est6);
     h_amplvsped0_HB = fs_->make<TH1F>("h_amplvsped0_HB", " ", ist6, 0., est6);

     h2_pedvsampl_HE = fs_->make<TH2F>("h2_pedvsampl_HE", " ", ist2, 0., 7.0, ist2, 0., est6);
     h2_pedwvsampl_HE = fs_->make<TH2F>("h2_pedwvsampl_HE", " ", ist2, 0., 2.5, ist2, 0., est6);
     h_pedvsampl_HE = fs_->make<TH1F>("h_pedvsampl_HE", " ", ist6, 0., 7.0);
     h_pedwvsampl_HE = fs_->make<TH1F>("h_pedwvsampl_HE", " ", ist6, 0., 2.5);
     h_pedvsampl0_HE = fs_->make<TH1F>("h_pedvsampl0_HE", " ", ist6, 0., 7.);
     h_pedwvsampl0_HE = fs_->make<TH1F>("h_pedwvsampl0_HE", " ", ist6, 0., 2.5);

     h2_pedvsampl_HF = fs_->make<TH2F>("h2_pedvsampl_HF", " ", ist2, 0., 20.0, ist2, 0., est6);
     h2_pedwvsampl_HF = fs_->make<TH2F>("h2_pedwvsampl_HF", " ", ist2, 0., 2.0, ist2, 0., est6);
     h_pedvsampl_HF = fs_->make<TH1F>("h_pedvsampl_HF", " ", ist6, 0., 20.0);
     h_pedwvsampl_HF = fs_->make<TH1F>("h_pedwvsampl_HF", " ", ist6, 0., 2.0);
     h_pedvsampl0_HF = fs_->make<TH1F>("h_pedvsampl0_HF", " ", ist6, 0., 20.);
     h_pedwvsampl0_HF = fs_->make<TH1F>("h_pedwvsampl0_HF", " ", ist6, 0., 2.0);

     h2_pedvsampl_HO = fs_->make<TH2F>("h2_pedvsampl_HO", " ", ist2, 0., 20.0, ist2, 0., est6);
     h2_pedwvsampl_HO = fs_->make<TH2F>("h2_pedwvsampl_HO", " ", ist2, 0., 2.5, ist2, 0., est6);
     h_pedvsampl_HO = fs_->make<TH1F>("h_pedvsampl_HO", " ", ist6, 0., 20.0);
     h_pedwvsampl_HO = fs_->make<TH1F>("h_pedwvsampl_HO", " ", ist6, 0., 2.5);
     h_pedvsampl0_HO = fs_->make<TH1F>("h_pedvsampl0_HO", " ", ist6, 0., 20.);
     h_pedwvsampl0_HO = fs_->make<TH1F>("h_pedwvsampl0_HO", " ", ist6, 0., 2.5);
     //--------------------------------------------------
     h_mapDepth1Ped0_HB = fs_->make<TH2F>("h_mapDepth1Ped0_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1Ped1_HB = fs_->make<TH2F>("h_mapDepth1Ped1_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1Ped2_HB = fs_->make<TH2F>("h_mapDepth1Ped2_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1Ped3_HB = fs_->make<TH2F>("h_mapDepth1Ped3_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1Pedw0_HB = fs_->make<TH2F>("h_mapDepth1Pedw0_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1Pedw1_HB = fs_->make<TH2F>("h_mapDepth1Pedw1_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1Pedw2_HB = fs_->make<TH2F>("h_mapDepth1Pedw2_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1Pedw3_HB = fs_->make<TH2F>("h_mapDepth1Pedw3_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2Ped0_HB = fs_->make<TH2F>("h_mapDepth2Ped0_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2Ped1_HB = fs_->make<TH2F>("h_mapDepth2Ped1_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2Ped2_HB = fs_->make<TH2F>("h_mapDepth2Ped2_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2Ped3_HB = fs_->make<TH2F>("h_mapDepth2Ped3_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2Pedw0_HB = fs_->make<TH2F>("h_mapDepth2Pedw0_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2Pedw1_HB = fs_->make<TH2F>("h_mapDepth2Pedw1_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2Pedw2_HB = fs_->make<TH2F>("h_mapDepth2Pedw2_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2Pedw3_HB = fs_->make<TH2F>("h_mapDepth2Pedw3_HB", " ", neta, -41., 41., nphi, 0., bphi);

     h_mapDepth1Ped0_HE = fs_->make<TH2F>("h_mapDepth1Ped0_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1Ped1_HE = fs_->make<TH2F>("h_mapDepth1Ped1_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1Ped2_HE = fs_->make<TH2F>("h_mapDepth1Ped2_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1Ped3_HE = fs_->make<TH2F>("h_mapDepth1Ped3_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1Pedw0_HE = fs_->make<TH2F>("h_mapDepth1Pedw0_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1Pedw1_HE = fs_->make<TH2F>("h_mapDepth1Pedw1_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1Pedw2_HE = fs_->make<TH2F>("h_mapDepth1Pedw2_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1Pedw3_HE = fs_->make<TH2F>("h_mapDepth1Pedw3_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2Ped0_HE = fs_->make<TH2F>("h_mapDepth2Ped0_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2Ped1_HE = fs_->make<TH2F>("h_mapDepth2Ped1_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2Ped2_HE = fs_->make<TH2F>("h_mapDepth2Ped2_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2Ped3_HE = fs_->make<TH2F>("h_mapDepth2Ped3_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2Pedw0_HE = fs_->make<TH2F>("h_mapDepth2Pedw0_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2Pedw1_HE = fs_->make<TH2F>("h_mapDepth2Pedw1_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2Pedw2_HE = fs_->make<TH2F>("h_mapDepth2Pedw2_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2Pedw3_HE = fs_->make<TH2F>("h_mapDepth2Pedw3_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3Ped0_HE = fs_->make<TH2F>("h_mapDepth3Ped0_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3Ped1_HE = fs_->make<TH2F>("h_mapDepth3Ped1_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3Ped2_HE = fs_->make<TH2F>("h_mapDepth3Ped2_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3Ped3_HE = fs_->make<TH2F>("h_mapDepth3Ped3_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3Pedw0_HE = fs_->make<TH2F>("h_mapDepth3Pedw0_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3Pedw1_HE = fs_->make<TH2F>("h_mapDepth3Pedw1_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3Pedw2_HE = fs_->make<TH2F>("h_mapDepth3Pedw2_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3Pedw3_HE = fs_->make<TH2F>("h_mapDepth3Pedw3_HE", " ", neta, -41., 41., nphi, 0., bphi);

     h_mapDepth1Ped0_HF = fs_->make<TH2F>("h_mapDepth1Ped0_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1Ped1_HF = fs_->make<TH2F>("h_mapDepth1Ped1_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1Ped2_HF = fs_->make<TH2F>("h_mapDepth1Ped2_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1Ped3_HF = fs_->make<TH2F>("h_mapDepth1Ped3_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1Pedw0_HF = fs_->make<TH2F>("h_mapDepth1Pedw0_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1Pedw1_HF = fs_->make<TH2F>("h_mapDepth1Pedw1_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1Pedw2_HF = fs_->make<TH2F>("h_mapDepth1Pedw2_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1Pedw3_HF = fs_->make<TH2F>("h_mapDepth1Pedw3_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2Ped0_HF = fs_->make<TH2F>("h_mapDepth2Ped0_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2Ped1_HF = fs_->make<TH2F>("h_mapDepth2Ped1_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2Ped2_HF = fs_->make<TH2F>("h_mapDepth2Ped2_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2Ped3_HF = fs_->make<TH2F>("h_mapDepth2Ped3_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2Pedw0_HF = fs_->make<TH2F>("h_mapDepth2Pedw0_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2Pedw1_HF = fs_->make<TH2F>("h_mapDepth2Pedw1_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2Pedw2_HF = fs_->make<TH2F>("h_mapDepth2Pedw2_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2Pedw3_HF = fs_->make<TH2F>("h_mapDepth2Pedw3_HF", " ", neta, -41., 41., nphi, 0., bphi);

     h_mapDepth4Ped0_HO = fs_->make<TH2F>("h_mapDepth4Ped0_HO", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4Ped1_HO = fs_->make<TH2F>("h_mapDepth4Ped1_HO", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4Ped2_HO = fs_->make<TH2F>("h_mapDepth4Ped2_HO", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4Ped3_HO = fs_->make<TH2F>("h_mapDepth4Ped3_HO", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4Pedw0_HO = fs_->make<TH2F>("h_mapDepth4Pedw0_HO", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4Pedw1_HO = fs_->make<TH2F>("h_mapDepth4Pedw1_HO", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4Pedw2_HO = fs_->make<TH2F>("h_mapDepth4Pedw2_HO", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4Pedw3_HO = fs_->make<TH2F>("h_mapDepth4Pedw3_HO", " ", neta, -41., 41., nphi, 0., bphi);
     //--------------------------------------------------
     h_mapDepth1ADCAmpl12_HB = fs_->make<TH2F>("h_mapDepth1ADCAmpl12_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2ADCAmpl12_HB = fs_->make<TH2F>("h_mapDepth2ADCAmpl12_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3ADCAmpl12_HB = fs_->make<TH2F>("h_mapDepth3ADCAmpl12_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4ADCAmpl12_HB = fs_->make<TH2F>("h_mapDepth4ADCAmpl12_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1ADCAmpl12_HE = fs_->make<TH2F>("h_mapDepth1ADCAmpl12_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2ADCAmpl12_HE = fs_->make<TH2F>("h_mapDepth2ADCAmpl12_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3ADCAmpl12_HE = fs_->make<TH2F>("h_mapDepth3ADCAmpl12_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4ADCAmpl12_HE = fs_->make<TH2F>("h_mapDepth4ADCAmpl12_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth5ADCAmpl12_HE = fs_->make<TH2F>("h_mapDepth5ADCAmpl12_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth6ADCAmpl12_HE = fs_->make<TH2F>("h_mapDepth6ADCAmpl12_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth7ADCAmpl12_HE = fs_->make<TH2F>("h_mapDepth7ADCAmpl12_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth1ADCAmpl12SiPM_HE = fs_->make<TH2F>("h_mapDepth1ADCAmpl12SiPM_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2ADCAmpl12SiPM_HE = fs_->make<TH2F>("h_mapDepth2ADCAmpl12SiPM_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3ADCAmpl12SiPM_HE = fs_->make<TH2F>("h_mapDepth3ADCAmpl12SiPM_HE", " ", neta, -41., 41., nphi, 0., bphi);

     h_mapDepth1ADCAmpl12_HF = fs_->make<TH2F>("h_mapDepth1ADCAmpl12_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2ADCAmpl12_HF = fs_->make<TH2F>("h_mapDepth2ADCAmpl12_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3ADCAmpl12_HF = fs_->make<TH2F>("h_mapDepth3ADCAmpl12_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth4ADCAmpl12_HF = fs_->make<TH2F>("h_mapDepth4ADCAmpl12_HF", " ", neta, -41., 41., nphi, 0., bphi);

     h_mapDepth4ADCAmpl12_HO = fs_->make<TH2F>("h_mapDepth4ADCAmpl12_HO", " ", neta, -41., 41., nphi, 0., bphi);

     h_mapDepth1linADCAmpl12_HE = fs_->make<TH2F>("h_mapDepth1linADCAmpl12_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth2linADCAmpl12_HE = fs_->make<TH2F>("h_mapDepth2linADCAmpl12_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapDepth3linADCAmpl12_HE = fs_->make<TH2F>("h_mapDepth3linADCAmpl12_HE", " ", neta, -41., 41., nphi, 0., bphi);
     //--------------------------------------------------
     h_mapGetRMSOverNormalizedSignal_HB =
         fs_->make<TH2F>("h_mapGetRMSOverNormalizedSignal_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapGetRMSOverNormalizedSignal0_HB =
         fs_->make<TH2F>("h_mapGetRMSOverNormalizedSignal0_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapGetRMSOverNormalizedSignal_HE =
         fs_->make<TH2F>("h_mapGetRMSOverNormalizedSignal_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapGetRMSOverNormalizedSignal0_HE =
         fs_->make<TH2F>("h_mapGetRMSOverNormalizedSignal0_HE", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapGetRMSOverNormalizedSignal_HF =
         fs_->make<TH2F>("h_mapGetRMSOverNormalizedSignal_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapGetRMSOverNormalizedSignal0_HF =
         fs_->make<TH2F>("h_mapGetRMSOverNormalizedSignal0_HF", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapGetRMSOverNormalizedSignal_HO =
         fs_->make<TH2F>("h_mapGetRMSOverNormalizedSignal_HO", " ", neta, -41., 41., nphi, 0., bphi);
     h_mapGetRMSOverNormalizedSignal0_HO =
         fs_->make<TH2F>("h_mapGetRMSOverNormalizedSignal0_HO", " ", neta, -41., 41., nphi, 0., bphi);
     //--------------------------------------------------
     h_shape_Ahigh_HB0 = fs_->make<TH1F>("h_shape_Ahigh_HB0", " ", 10, 0., 10.);
     h_shape0_Ahigh_HB0 = fs_->make<TH1F>("h_shape0_Ahigh_HB0", " ", 10, 0., 10.);
     h_shape_Alow_HB0 = fs_->make<TH1F>("h_shape_Alow_HB0", " ", 10, 0., 10.);
     h_shape0_Alow_HB0 = fs_->make<TH1F>("h_shape0_Alow_HB0", " ", 10, 0., 10.);
     h_shape_Ahigh_HB1 = fs_->make<TH1F>("h_shape_Ahigh_HB1", " ", 10, 0., 10.);
     h_shape0_Ahigh_HB1 = fs_->make<TH1F>("h_shape0_Ahigh_HB1", " ", 10, 0., 10.);
     h_shape_Alow_HB1 = fs_->make<TH1F>("h_shape_Alow_HB1", " ", 10, 0., 10.);
     h_shape0_Alow_HB1 = fs_->make<TH1F>("h_shape0_Alow_HB1", " ", 10, 0., 10.);
     h_shape_Ahigh_HB2 = fs_->make<TH1F>("h_shape_Ahigh_HB2", " ", 10, 0., 10.);
     h_shape0_Ahigh_HB2 = fs_->make<TH1F>("h_shape0_Ahigh_HB2", " ", 10, 0., 10.);
     h_shape_Alow_HB2 = fs_->make<TH1F>("h_shape_Alow_HB2", " ", 10, 0., 10.);
     h_shape0_Alow_HB2 = fs_->make<TH1F>("h_shape0_Alow_HB2", " ", 10, 0., 10.);
     h_shape_Ahigh_HB3 = fs_->make<TH1F>("h_shape_Ahigh_HB3", " ", 10, 0., 10.);
     h_shape0_Ahigh_HB3 = fs_->make<TH1F>("h_shape0_Ahigh_HB3", " ", 10, 0., 10.);
     h_shape_Alow_HB3 = fs_->make<TH1F>("h_shape_Alow_HB3", " ", 10, 0., 10.);
     h_shape0_Alow_HB3 = fs_->make<TH1F>("h_shape0_Alow_HB3", " ", 10, 0., 10.);
     //--------------------------------------------------
     h_shape_bad_channels_HB = fs_->make<TH1F>("h_shape_bad_channels_HB", " ", 10, 0., 10.);
     h_shape0_bad_channels_HB = fs_->make<TH1F>("h_shape0_bad_channels_HB", " ", 10, 0., 10.);
     h_shape_good_channels_HB = fs_->make<TH1F>("h_shape_good_channels_HB", " ", 10, 0., 10.);
     h_shape0_good_channels_HB = fs_->make<TH1F>("h_shape0_good_channels_HB", " ", 10, 0., 10.);
     h_shape_bad_channels_HE = fs_->make<TH1F>("h_shape_bad_channels_HE", " ", 10, 0., 10.);
     h_shape0_bad_channels_HE = fs_->make<TH1F>("h_shape0_bad_channels_HE", " ", 10, 0., 10.);
     h_shape_good_channels_HE = fs_->make<TH1F>("h_shape_good_channels_HE", " ", 10, 0., 10.);
     h_shape0_good_channels_HE = fs_->make<TH1F>("h_shape0_good_channels_HE", " ", 10, 0., 10.);
     h_shape_bad_channels_HF = fs_->make<TH1F>("h_shape_bad_channels_HF", " ", 10, 0., 10.);
     h_shape0_bad_channels_HF = fs_->make<TH1F>("h_shape0_bad_channels_HF", " ", 10, 0., 10.);
     h_shape_good_channels_HF = fs_->make<TH1F>("h_shape_good_channels_HF", " ", 10, 0., 10.);
     h_shape0_good_channels_HF = fs_->make<TH1F>("h_shape0_good_channels_HF", " ", 10, 0., 10.);
     h_shape_bad_channels_HO = fs_->make<TH1F>("h_shape_bad_channels_HO", " ", 10, 0., 10.);
     h_shape0_bad_channels_HO = fs_->make<TH1F>("h_shape0_bad_channels_HO", " ", 10, 0., 10.);
     h_shape_good_channels_HO = fs_->make<TH1F>("h_shape_good_channels_HO", " ", 10, 0., 10.);
     h_shape0_good_channels_HO = fs_->make<TH1F>("h_shape0_good_channels_HO", " ", 10, 0., 10.);
     //--------------------------------------------------
     //    if(flagcpuoptimization_== 0 ) {

     int spl = 1000;
     float spls = 5000;
     h_sumamplitude_depth1_HB = fs_->make<TH1F>("h_sumamplitude_depth1_HB", " ", spl, 0., spls);
     h_sumamplitude_depth2_HB = fs_->make<TH1F>("h_sumamplitude_depth2_HB", " ", spl, 0., spls);
     h_sumamplitude_depth1_HE = fs_->make<TH1F>("h_sumamplitude_depth1_HE", " ", spl, 0., spls);
     h_sumamplitude_depth2_HE = fs_->make<TH1F>("h_sumamplitude_depth2_HE", " ", spl, 0., spls);
     h_sumamplitude_depth3_HE = fs_->make<TH1F>("h_sumamplitude_depth3_HE", " ", spl, 0., spls);
     h_sumamplitude_depth1_HF = fs_->make<TH1F>("h_sumamplitude_depth1_HF", " ", spl, 0., spls);
     h_sumamplitude_depth2_HF = fs_->make<TH1F>("h_sumamplitude_depth2_HF", " ", spl, 0., spls);
     h_sumamplitude_depth4_HO = fs_->make<TH1F>("h_sumamplitude_depth4_HO", " ", spl, 0., spls);
     int spl0 = 1000;
     float spls0 = 10000;
     h_sumamplitude_depth1_HB0 = fs_->make<TH1F>("h_sumamplitude_depth1_HB0", " ", spl0, 0., spls0);
     h_sumamplitude_depth2_HB0 = fs_->make<TH1F>("h_sumamplitude_depth2_HB0", " ", spl0, 0., spls0);
     h_sumamplitude_depth1_HE0 = fs_->make<TH1F>("h_sumamplitude_depth1_HE0", " ", spl0, 0., spls0);
     h_sumamplitude_depth2_HE0 = fs_->make<TH1F>("h_sumamplitude_depth2_HE0", " ", spl0, 0., spls0);
     h_sumamplitude_depth3_HE0 = fs_->make<TH1F>("h_sumamplitude_depth3_HE0", " ", spl0, 0., spls0);
     h_sumamplitude_depth1_HF0 = fs_->make<TH1F>("h_sumamplitude_depth1_HF0", " ", spl0, 0., spls0);
     h_sumamplitude_depth2_HF0 = fs_->make<TH1F>("h_sumamplitude_depth2_HF0", " ", spl0, 0., spls0);
     h_sumamplitude_depth4_HO0 = fs_->make<TH1F>("h_sumamplitude_depth4_HO0", " ", spl0, 0., spls0);
     int spl1 = 1000;
     float spls1 = 100000;
     h_sumamplitude_depth1_HB1 = fs_->make<TH1F>("h_sumamplitude_depth1_HB1", " ", spl1, 0., spls1);
     h_sumamplitude_depth2_HB1 = fs_->make<TH1F>("h_sumamplitude_depth2_HB1", " ", spl1, 0., spls1);
     h_sumamplitude_depth1_HE1 = fs_->make<TH1F>("h_sumamplitude_depth1_HE1", " ", spl1, 0., spls1);
     h_sumamplitude_depth2_HE1 = fs_->make<TH1F>("h_sumamplitude_depth2_HE1", " ", spl1, 0., spls1);
     h_sumamplitude_depth3_HE1 = fs_->make<TH1F>("h_sumamplitude_depth3_HE1", " ", spl1, 0., spls1);
     h_sumamplitude_depth1_HF1 = fs_->make<TH1F>("h_sumamplitude_depth1_HF1", " ", spl1, 0., spls1);
     h_sumamplitude_depth2_HF1 = fs_->make<TH1F>("h_sumamplitude_depth2_HF1", " ", spl1, 0., spls1);
     h_sumamplitude_depth4_HO1 = fs_->make<TH1F>("h_sumamplitude_depth4_HO1", " ", spl1, 0., spls1);

     h_Amplitude_forCapIdErrors_HB1 = fs_->make<TH1F>("h_Amplitude_forCapIdErrors_HB1", " ", 100, 0., 30000.);
     h_Amplitude_forCapIdErrors_HB2 = fs_->make<TH1F>("h_Amplitude_forCapIdErrors_HB2", " ", 100, 0., 30000.);
     h_Amplitude_forCapIdErrors_HE1 = fs_->make<TH1F>("h_Amplitude_forCapIdErrors_HE1", " ", 100, 0., 30000.);
     h_Amplitude_forCapIdErrors_HE2 = fs_->make<TH1F>("h_Amplitude_forCapIdErrors_HE2", " ", 100, 0., 30000.);
     h_Amplitude_forCapIdErrors_HE3 = fs_->make<TH1F>("h_Amplitude_forCapIdErrors_HE3", " ", 100, 0., 30000.);
     h_Amplitude_forCapIdErrors_HF1 = fs_->make<TH1F>("h_Amplitude_forCapIdErrors_HF1", " ", 100, 0., 30000.);
     h_Amplitude_forCapIdErrors_HF2 = fs_->make<TH1F>("h_Amplitude_forCapIdErrors_HF2", " ", 100, 0., 30000.);
     h_Amplitude_forCapIdErrors_HO4 = fs_->make<TH1F>("h_Amplitude_forCapIdErrors_HO4", " ", 100, 0., 30000.);

     h_Amplitude_notCapIdErrors_HB1 = fs_->make<TH1F>("h_Amplitude_notCapIdErrors_HB1", " ", 100, 0., 30000.);
     h_Amplitude_notCapIdErrors_HB2 = fs_->make<TH1F>("h_Amplitude_notCapIdErrors_HB2", " ", 100, 0., 30000.);
     h_Amplitude_notCapIdErrors_HE1 = fs_->make<TH1F>("h_Amplitude_notCapIdErrors_HE1", " ", 100, 0., 30000.);
     h_Amplitude_notCapIdErrors_HE2 = fs_->make<TH1F>("h_Amplitude_notCapIdErrors_HE2", " ", 100, 0., 30000.);
     h_Amplitude_notCapIdErrors_HE3 = fs_->make<TH1F>("h_Amplitude_notCapIdErrors_HE3", " ", 100, 0., 30000.);
     h_Amplitude_notCapIdErrors_HF1 = fs_->make<TH1F>("h_Amplitude_notCapIdErrors_HF1", " ", 100, 0., 30000.);
     h_Amplitude_notCapIdErrors_HF2 = fs_->make<TH1F>("h_Amplitude_notCapIdErrors_HF2", " ", 100, 0., 30000.);
     h_Amplitude_notCapIdErrors_HO4 = fs_->make<TH1F>("h_Amplitude_notCapIdErrors_HO4", " ", 100, 0., 30000.);

     h_2DAtaildepth1_HB = fs_->make<TH2F>("h_2DAtaildepth1_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_2D0Ataildepth1_HB = fs_->make<TH2F>("h_2D0Ataildepth1_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_2DAtaildepth2_HB = fs_->make<TH2F>("h_2DAtaildepth2_HB", " ", neta, -41., 41., nphi, 0., bphi);
     h_2D0Ataildepth2_HB = fs_->make<TH2F>("h_2D0Ataildepth2_HB", " ", neta, -41., 41., nphi, 0., bphi);

   }  //if(recordHistoes_
   if (verbosity > 0)
     std::cout << "========================   booking DONE   +++++++++++++++++++++++++++" << std::endl;
   if (recordNtuples_) {
     myTree = fs_->make<TTree>("Hcal", "Hcal Tree");
     myTree->Branch("Nevent", &Nevent, "Nevent/I");
     myTree->Branch("Run", &Run, "Run/I");

   }  //if(recordNtuples_
   if (verbosity > 0)
     std::cout << "========================   beignJob  finish   +++++++++++++++++++++++++++" << std::endl;
 }

 // ------------ method called for each event  ------------
 void CMTRawAnalyzer::fillDigiErrors(HBHEDigiCollection::const_iterator& digiItr) {
   CaloSamples toolOriginal;  // TS
   //    double tool[100];
   if (verbosity < 0)
     std::cout << "**************   in loop over Digis   counter =     " << nnnnnnhbhe << std::endl;
   HcalDetId cell(digiItr->id());
   int mdepth = cell.depth();
   int iphi = cell.iphi() - 1;
   int ieta = cell.ieta();
   if (ieta > 0)
     ieta -= 1;
   int sub = cell.subdet();  // 1-HB, 2-HE (HFDigiCollection: 4-HF)
   // !!!!!!
   int errorGeneral = 0;
   int error1 = 0;
   int error2 = 0;
   int error3 = 0;
   int error4 = 0;
   int error5 = 0;
   int error6 = 0;
   int error7 = 0;
   // !!!!!!
   bool anycapid = true;
   bool anyer = false;
   bool anydv = true;
   // for help:
   int firstcapid = 0;
   int lastcapid = 0, capid = 0;
   int ERRORfiber = -10;
   int ERRORfiberChan = -10;
   int ERRORfiberAndChan = -10;
   int repetedcapid = 0;
   int TSsize = 10;
   TSsize = digiItr->size();

   for (int ii = 0; ii < TSsize; ii++) {
     capid = (*digiItr)[ii].capid();                    // capId (0-3, sequential)
     bool er = (*digiItr)[ii].er();                     // error
     bool dv = (*digiItr)[ii].dv();                     // valid data
     int fiber = (*digiItr)[ii].fiber();                // get the fiber number
     int fiberChan = (*digiItr)[ii].fiberChan();        // get the fiber channel number
     int fiberAndChan = (*digiItr)[ii].fiberAndChan();  // get the id channel
     if (ii != 0 && ((lastcapid + 1) % 4) != capid) {
       anycapid = false;
       ERRORfiber = fiber;
       ERRORfiberChan = fiberChan;
       ERRORfiberAndChan = fiberAndChan;
       if (capid != lastcapid) {
       } else {
         repetedcapid = 1;
       }
     }
     lastcapid = capid;

     if (ii == 0)
       firstcapid = capid;

     if (er) {
       anyer = true;
       ERRORfiber = fiber;
       ERRORfiberChan = fiberChan;
       ERRORfiberAndChan = fiberAndChan;
     }
     if (!dv) {
       anydv = false;
       ERRORfiber = fiber;
       ERRORfiberChan = fiberChan;
       ERRORfiberAndChan = fiberAndChan;
     }

   }  // for

   if (firstcapid == 0 && !anycapid)
     errorGeneral = 1;
   if (firstcapid == 1 && !anycapid)
     errorGeneral = 2;
   if (firstcapid == 2 && !anycapid)
     errorGeneral = 3;
   if (firstcapid == 3 && !anycapid)
     errorGeneral = 4;
   if (!anycapid)
     error1 = 1;
   if (anyer)
     error2 = 1;
   if (!anydv)
     error3 = 1;

   if (!anycapid && anyer)
     error4 = 1;
   if (!anycapid && !anydv)
     error5 = 1;
   if (!anycapid && anyer && !anydv)
     error6 = 1;
   if (anyer && !anydv)
     error7 = 1;
   // Energy:

   double ampl = 0.;
   for (int ii = 0; ii < TSsize; ii++) {
     double ampldefault = adc2fC[digiItr->sample(ii).adc()];
     ampl += ampldefault;  // fC
   }

   // Digis:
   // HB
   if (sub == 1) {
     h_errorGeneral_HB->Fill(double(errorGeneral), 1.);
     h_error1_HB->Fill(double(error1), 1.);
     h_error2_HB->Fill(double(error2), 1.);
     h_error3_HB->Fill(double(error3), 1.);
     h_error4_HB->Fill(double(error4), 1.);
     h_error5_HB->Fill(double(error5), 1.);
     h_error6_HB->Fill(double(error6), 1.);
     h_error7_HB->Fill(double(error7), 1.);
     h_repetedcapid_HB->Fill(double(repetedcapid), 1.);

     if (error1 != 0 || error2 != 0 || error3 != 0) {
       if (studyRunDependenceHist_ && flagtodefinebadchannel_ == 0)
         ++badchannels[sub - 1][mdepth - 1][ieta + 41][iphi];  // 0-neta ; 0-71
       h_amplError_HB->Fill(ampl, 1.);
       if (mdepth == 1)
         h_mapDepth1Error_HB->Fill(double(ieta), double(iphi));
       if (mdepth == 2)
         h_mapDepth2Error_HB->Fill(double(ieta), double(iphi));
       h_fiber0_HB->Fill(double(ERRORfiber), 1.);
       h_fiber1_HB->Fill(double(ERRORfiberChan), 1.);
       h_fiber2_HB->Fill(double(ERRORfiberAndChan), 1.);
     } else {
       h_amplFine_HB->Fill(ampl, 1.);
     }
   }
   // HE
   if (sub == 2) {
     h_errorGeneral_HE->Fill(double(errorGeneral), 1.);
     h_error1_HE->Fill(double(error1), 1.);
     h_error2_HE->Fill(double(error2), 1.);
     h_error3_HE->Fill(double(error3), 1.);
     h_error4_HE->Fill(double(error4), 1.);
     h_error5_HE->Fill(double(error5), 1.);
     h_error6_HE->Fill(double(error6), 1.);
     h_error7_HE->Fill(double(error7), 1.);
     h_repetedcapid_HE->Fill(double(repetedcapid), 1.);

     if (error1 != 0 || error2 != 0 || error3 != 0) {
       if (studyRunDependenceHist_ && flagtodefinebadchannel_ == 0)
         ++badchannels[sub - 1][mdepth - 1][ieta + 41][iphi];  // 0-neta ; 0-71
       h_amplError_HE->Fill(ampl, 1.);
       if (mdepth == 1)
         h_mapDepth1Error_HE->Fill(double(ieta), double(iphi));
       if (mdepth == 2)
         h_mapDepth2Error_HE->Fill(double(ieta), double(iphi));
       if (mdepth == 3)
         h_mapDepth3Error_HE->Fill(double(ieta), double(iphi));
       h_fiber0_HE->Fill(double(ERRORfiber), 1.);
       h_fiber1_HE->Fill(double(ERRORfiberChan), 1.);
       h_fiber2_HE->Fill(double(ERRORfiberAndChan), 1.);
     } else {
       h_amplFine_HE->Fill(ampl, 1.);
     }
   }
   //    ha2->Fill(double(ieta), double(iphi));
 }  //fillDigiErrors
 // ------------ method called for each event  ------------
 void CMTRawAnalyzer::fillDigiErrorsQIE11(QIE11DataFrame qie11df) {
   CaloSamples toolOriginal;  // TS
   //  double tool[100];
   DetId detid = qie11df.detid();
   HcalDetId hcaldetid = HcalDetId(detid);
   int ieta = hcaldetid.ieta();
   if (ieta > 0)
     ieta -= 1;
   int iphi = hcaldetid.iphi() - 1;
   int mdepth = hcaldetid.depth();
   int sub = hcaldetid.subdet();  // 1-HB, 2-HE (HFDigiCollection: 4-HF)
   // !!!!!!
   int error1 = 0;
   // !!!!!!
   bool anycapid = true;
   //    bool anyer      =  false;
   //    bool anydv      =  true;
   // for help:
   int firstcapid = 0;
   int lastcapid = 0, capid = 0;
   int repetedcapid = 0;
   // loop over the samples in the digi
   nTS = qie11df.samples();
   for (int ii = 0; ii < nTS; ii++) {
     capid = qie11df[ii].capid();  // capId (0-3, sequential)
     if (ii != 0 && ((lastcapid + 1) % 4) != capid) {
       anycapid = false;
       if (capid != lastcapid) {
       } else {
         repetedcapid = 1;
       }
     }
     lastcapid = capid;
     if (ii == 0)
       firstcapid = capid;
   }  // for
   if (!anycapid)
     error1 = 1;
   // !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
   double ampl = 0.;
   for (int ii = 0; ii < nTS; ii++) {
     int adc = qie11df[ii].adc();

     double ampldefault = adc2fC_QIE11_shunt6[adc];
     if (flaguseshunt_ == 1)
       ampldefault = adc2fC_QIE11_shunt1[adc];

     ampl += ampldefault;  //
   }
   // Digis:HBHE
   if (sub == 1) {
     h_error1_HB->Fill(double(error1), 1.);
     h_repetedcapid_HB->Fill(double(repetedcapid), 1.);
     if (error1 != 0) {
       //      if(error1 !=0 || error2 !=0 || error3 !=0 ) {
       if (studyRunDependenceHist_ && flagtodefinebadchannel_ == 0)
         ++badchannels[sub - 1][mdepth - 1][ieta + 41][iphi];  // 0-neta ; 0-71
       h_amplError_HB->Fill(ampl, 1.);
       if (mdepth == 1)
         h_mapDepth1Error_HB->Fill(double(ieta), double(iphi));
       if (mdepth == 2)
         h_mapDepth2Error_HB->Fill(double(ieta), double(iphi));
       if (mdepth == 3)
         h_mapDepth3Error_HB->Fill(double(ieta), double(iphi));
       if (mdepth == 4)
         h_mapDepth4Error_HB->Fill(double(ieta), double(iphi));
       h_errorGeneral_HB->Fill(double(firstcapid), 1.);
     } else {
       h_amplFine_HB->Fill(ampl, 1.);
     }
   }
   if (sub == 2) {
     h_error1_HE->Fill(double(error1), 1.);
     h_repetedcapid_HE->Fill(double(repetedcapid), 1.);
     if (error1 != 0) {
       //      if(error1 !=0 || error2 !=0 || error3 !=0 ) {
       if (studyRunDependenceHist_ && flagtodefinebadchannel_ == 0)
         ++badchannels[sub - 1][mdepth - 1][ieta + 41][iphi];  // 0-neta ; 0-71
       h_amplError_HE->Fill(ampl, 1.);
       if (mdepth == 1)
         h_mapDepth1Error_HE->Fill(double(ieta), double(iphi));
       if (mdepth == 2)
         h_mapDepth2Error_HE->Fill(double(ieta), double(iphi));
       if (mdepth == 3)
         h_mapDepth3Error_HE->Fill(double(ieta), double(iphi));
       if (mdepth == 4)
         h_mapDepth4Error_HE->Fill(double(ieta), double(iphi));
       if (mdepth == 5)
         h_mapDepth5Error_HE->Fill(double(ieta), double(iphi));
       if (mdepth == 6)
         h_mapDepth6Error_HE->Fill(double(ieta), double(iphi));
       if (mdepth == 7)
         h_mapDepth7Error_HE->Fill(double(ieta), double(iphi));
       h_errorGeneral_HE->Fill(double(firstcapid), 1.);
     } else {
       h_amplFine_HE->Fill(ampl, 1.);
     }
   }
 }  //fillDigiErrorsQIE11
 // ------------ method called for each event  ------------
 void CMTRawAnalyzer::fillDigiErrorsHF(HFDigiCollection::const_iterator& digiItr) {
   CaloSamples toolOriginal;  // TS
   //  double tool[100];
   HcalDetId cell(digiItr->id());
   int mdepth = cell.depth();
   int iphi = cell.iphi() - 1;
   int ieta = cell.ieta();
   if (ieta > 0)
     ieta -= 1;
   int sub = cell.subdet();  // 1-HB, 2-HE (HFDigiCollection: 4-HF)
   if (mdepth > 2)
     std::cout << " HF DIGI ??????????????   ERROR       mdepth =  " << mdepth << std::endl;
   // !!!!!!
   int errorGeneral = 0;
   int error1 = 0;
   int error2 = 0;
   int error3 = 0;
   int error4 = 0;
   int error5 = 0;
   int error6 = 0;
   int error7 = 0;
   // !!!!!!
   bool anycapid = true;
   bool anyer = false;
   bool anydv = true;
   // for help:
   int firstcapid = 0;
   int lastcapid = 0, capid = 0;
   int ERRORfiber = -10;
   int ERRORfiberChan = -10;
   int ERRORfiberAndChan = -10;
   int repetedcapid = 0;

   int TSsize = 10;
   TSsize = digiItr->size();
   for (int ii = 0; ii < TSsize; ii++) {
     capid = (*digiItr)[ii].capid();                    // capId (0-3, sequential)
     bool er = (*digiItr)[ii].er();                     // error
     bool dv = (*digiItr)[ii].dv();                     // valid data
     int fiber = (*digiItr)[ii].fiber();                // get the fiber number
     int fiberChan = (*digiItr)[ii].fiberChan();        // get the fiber channel number
     int fiberAndChan = (*digiItr)[ii].fiberAndChan();  // get the id channel
     if (ii != 0 && ((lastcapid + 1) % 4) != capid) {
       anycapid = false;
       ERRORfiber = fiber;
       ERRORfiberChan = fiberChan;
       ERRORfiberAndChan = fiberAndChan;
       if (capid != lastcapid) {
       } else {
         repetedcapid = 1;
       }
     }
     lastcapid = capid;
     if (ii == 0)
       firstcapid = capid;
     if (er) {
       anyer = true;
       ERRORfiber = fiber;
       ERRORfiberChan = fiberChan;
       ERRORfiberAndChan = fiberAndChan;
     }
     if (!dv) {
       anydv = false;
       ERRORfiber = fiber;
       ERRORfiberChan = fiberChan;
       ERRORfiberAndChan = fiberAndChan;
     }
   }  // for
   if (firstcapid == 0 && !anycapid)
     errorGeneral = 1;
   if (firstcapid == 1 && !anycapid)
     errorGeneral = 2;
   if (firstcapid == 2 && !anycapid)
     errorGeneral = 3;
   if (firstcapid == 3 && !anycapid)
     errorGeneral = 4;
   if (!anycapid)
     error1 = 1;
   if (anyer)
     error2 = 1;
   if (!anydv)
     error3 = 1;
   if (!anycapid && anyer)
     error4 = 1;
   if (!anycapid && !anydv)
     error5 = 1;
   if (!anycapid && anyer && !anydv)
     error6 = 1;
   if (anyer && !anydv)
     error7 = 1;
   double ampl = 0.;
   for (int ii = 0; ii < TSsize; ii++) {
     double ampldefault = adc2fC[digiItr->sample(ii).adc()];
     ampl += ampldefault;  // fC
   }
   // Digis: HF
   if (sub == 4) {
     h_errorGeneral_HF->Fill(double(errorGeneral), 1.);
     h_error1_HF->Fill(double(error1), 1.);
     h_error2_HF->Fill(double(error2), 1.);
     h_error3_HF->Fill(double(error3), 1.);
     h_error4_HF->Fill(double(error4), 1.);
     h_error5_HF->Fill(double(error5), 1.);
     h_error6_HF->Fill(double(error6), 1.);
     h_error7_HF->Fill(double(error7), 1.);
     h_repetedcapid_HF->Fill(double(repetedcapid), 1.);
     if (error1 != 0 || error2 != 0 || error3 != 0) {
       if (studyRunDependenceHist_ && flagtodefinebadchannel_ == 0)
         ++badchannels[sub - 1][mdepth - 1][ieta + 41][iphi];  // 0-neta ; 0-71
       h_amplError_HF->Fill(ampl, 1.);
       if (mdepth == 1)
         h_mapDepth1Error_HF->Fill(double(ieta), double(iphi));
       if (mdepth == 2)
         h_mapDepth2Error_HF->Fill(double(ieta), double(iphi));
       h_fiber0_HF->Fill(double(ERRORfiber), 1.);
       h_fiber1_HF->Fill(double(ERRORfiberChan), 1.);
       h_fiber2_HF->Fill(double(ERRORfiberAndChan), 1.);
     } else {
       h_amplFine_HF->Fill(ampl, 1.);
     }
   }
 }
 // ------------ method called for each event  ------------
 void CMTRawAnalyzer::fillDigiErrorsHFQIE10(QIE10DataFrame qie10df) {
   CaloSamples toolOriginal;  // TS
   //  double tool[100];
   DetId detid = qie10df.detid();
   HcalDetId hcaldetid = HcalDetId(detid);
   int ieta = hcaldetid.ieta();
   if (ieta > 0)
     ieta -= 1;
   int iphi = hcaldetid.iphi() - 1;
   int mdepth = hcaldetid.depth();
   int sub = hcaldetid.subdet();  // 1-HB, 2-HE (HFDigiCollection: 4-HF)
   // !!!!!!
   int error1 = 0;
   // !!!!!!
   bool anycapid = true;
   //    bool anyer      =  false;
   //    bool anydv      =  true;
   // for help:
   int firstcapid = 0;
   int lastcapid = 0, capid = 0;
   int repetedcapid = 0;
   // loop over the samples in the digi
   nTS = qie10df.samples();
   for (int ii = 0; ii < nTS; ii++) {
     capid = qie10df[ii].capid();  // capId (0-3, sequential)
     if (ii != 0 && ((lastcapid + 1) % 4) != capid) {
       anycapid = false;
       if (capid != lastcapid) {
       } else {
         repetedcapid = 1;
       }
     }
     lastcapid = capid;
     if (ii == 0)
       firstcapid = capid;
   }  // for
   if (!anycapid)
     error1 = 1;
   // !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
   double ampl = 0.;
   for (int ii = 0; ii < nTS; ii++) {
     int adc = qie10df[ii].adc();
     double ampldefault = adc2fC_QIE10[adc];
     ampl += ampldefault;  //
   }
   // Digis:HF
   if (sub == 4) {
     h_error1_HF->Fill(double(error1), 1.);
     h_repetedcapid_HF->Fill(double(repetedcapid), 1.);
     if (error1 != 0) {
       //      if(error1 !=0 || error2 !=0 || error3 !=0 ) {
       if (studyRunDependenceHist_ && flagtodefinebadchannel_ == 0)
         ++badchannels[sub - 1][mdepth - 1][ieta + 41][iphi];  // 0-neta ; 0-71
       h_amplError_HF->Fill(ampl, 1.);
       if (mdepth == 1)
         h_mapDepth1Error_HF->Fill(double(ieta), double(iphi));
       if (mdepth == 2)
         h_mapDepth2Error_HF->Fill(double(ieta), double(iphi));
       if (mdepth == 3)
         h_mapDepth3Error_HF->Fill(double(ieta), double(iphi));
       if (mdepth == 4)
         h_mapDepth4Error_HF->Fill(double(ieta), double(iphi));
       h_errorGeneral_HF->Fill(double(firstcapid), 1.);
     } else {
       h_amplFine_HF->Fill(ampl, 1.);
     }
   }
 }
 // ------------ method called for each event  ------------
 void CMTRawAnalyzer::fillDigiErrorsHO(HODigiCollection::const_iterator& digiItr) {
   CaloSamples toolOriginal;  // TS
   HcalDetId cell(digiItr->id());
   int mdepth = cell.depth();
   int iphi = cell.iphi() - 1;
   int ieta = cell.ieta();
   if (ieta > 0)
     ieta -= 1;
   int sub = cell.subdet();  // 1-HB, 2-HE, 3-HO, 4-HF
   int errorGeneral = 0;
   int error1 = 0;
   int error2 = 0;
   int error3 = 0;
   int error4 = 0;
   int error5 = 0;
   int error6 = 0;
   int error7 = 0;
   // !!!!!!
   bool anycapid = true;
   bool anyer = false;
   bool anydv = true;
   // for help:
   int firstcapid = 0;
   int lastcapid = 0, capid = 0;
   int ERRORfiber = -10;
   int ERRORfiberChan = -10;
   int ERRORfiberAndChan = -10;
   int repetedcapid = 0;
   for (int ii = 0; ii < (*digiItr).size(); ii++) {
     capid = (*digiItr)[ii].capid();                    // capId (0-3, sequential)
     bool er = (*digiItr)[ii].er();                     // error
     bool dv = (*digiItr)[ii].dv();                     // valid data
     int fiber = (*digiItr)[ii].fiber();                // get the fiber number
     int fiberChan = (*digiItr)[ii].fiberChan();        // get the fiber channel number
     int fiberAndChan = (*digiItr)[ii].fiberAndChan();  // get the id channel
     if (ii != 0 && ((lastcapid + 1) % 4) != capid) {
       anycapid = false;
       ERRORfiber = fiber;
       ERRORfiberChan = fiberChan;
       ERRORfiberAndChan = fiberAndChan;
       if (capid != lastcapid) {
       } else {
         repetedcapid = 1;
       }
     }
     lastcapid = capid;

     if (ii == 0)
       firstcapid = capid;

     if (er) {
       anyer = true;
       ERRORfiber = fiber;
       ERRORfiberChan = fiberChan;
       ERRORfiberAndChan = fiberAndChan;
     }
     if (!dv) {
       anydv = false;
       ERRORfiber = fiber;
       ERRORfiberChan = fiberChan;
       ERRORfiberAndChan = fiberAndChan;
     }

   }  // for

   if (firstcapid == 0 && !anycapid)
     errorGeneral = 1;
   if (firstcapid == 1 && !anycapid)
     errorGeneral = 2;
   if (firstcapid == 2 && !anycapid)
     errorGeneral = 3;
   if (firstcapid == 3 && !anycapid)
     errorGeneral = 4;
   if (!anycapid)
     error1 = 1;
   if (anyer)
     error2 = 1;
   if (!anydv)
     error3 = 1;

   if (!anycapid && anyer)
     error4 = 1;
   if (!anycapid && !anydv)
     error5 = 1;
   if (!anycapid && anyer && !anydv)
     error6 = 1;
   if (anyer && !anydv)
     error7 = 1;
   // Energy:
   double ampl = 0.;
   for (int ii = 0; ii < (*digiItr).size(); ii++) {
     double ampldefault = adc2fC[digiItr->sample(ii).adc()];
     ampl += ampldefault;  // fC
   }
   // Digis:
   // HO
   if (sub == 3) {
     h_errorGeneral_HO->Fill(double(errorGeneral), 1.);
     h_error1_HO->Fill(double(error1), 1.);
     h_error2_HO->Fill(double(error2), 1.);
     h_error3_HO->Fill(double(error3), 1.);
     h_error4_HO->Fill(double(error4), 1.);
     h_error5_HO->Fill(double(error5), 1.);
     h_error6_HO->Fill(double(error6), 1.);
     h_error7_HO->Fill(double(error7), 1.);
     h_repetedcapid_HO->Fill(double(repetedcapid), 1.);

     if (error1 != 0 || error2 != 0 || error3 != 0) {
       if (studyRunDependenceHist_ && flagtodefinebadchannel_ == 0)
         ++badchannels[sub - 1][mdepth - 1][ieta + 41][iphi];  // 0-neta ; 0-71
       h_amplError_HO->Fill(ampl, 1.);
       if (mdepth == 4)
         h_mapDepth4Error_HO->Fill(double(ieta), double(iphi));
       // to be divided by h_mapDepth4_HO

       if (mdepth != 4)
         std::cout << " mdepth HO = " << mdepth << std::endl;
       h_fiber0_HO->Fill(double(ERRORfiber), 1.);
       h_fiber1_HO->Fill(double(ERRORfiberChan), 1.);
       h_fiber2_HO->Fill(double(ERRORfiberAndChan), 1.);
     } else {
       h_amplFine_HO->Fill(ampl, 1.);
     }
   }
 }
 void CMTRawAnalyzer::fillDigiAmplitude(HBHEDigiCollection::const_iterator& digiItr) {
   CaloSamples toolOriginal;  // TS
   double tool[100];
   double toolwithPedSubtr[100];        // TS
   double lintoolwithoutPedSubtr[100];  // TS
   HcalDetId cell(digiItr->id());
   int mdepth = cell.depth();
   int iphi = cell.iphi() - 1;  // 0-71
   int ieta0 = cell.ieta();     //-41 +41 !=0
   int ieta = ieta0;
   if (ieta > 0)
     ieta -= 1;              //-41 +41
   int sub = cell.subdet();  // 1-HB, 2-HE (HFDigiCollection: 4-HF)
   const HcalPedestal* pedestal00 = conditions->getPedestal(cell);
   const HcalGain* gain = conditions->getGain(cell);
   //    const HcalGainWidth* gainWidth = conditions->getGainWidth(cell);
   const HcalRespCorr* respcorr = conditions->getHcalRespCorr(cell);
   const HcalTimeCorr* timecorr = conditions->getHcalTimeCorr(cell);
   const HcalLUTCorr* lutcorr = conditions->getHcalLUTCorr(cell);
   //    HcalCalibrations calib = conditions->getHcalCalibrations(cell);
   const HcalQIECoder* channelCoder = conditions->getHcalCoder(cell);
   const HcalPedestalWidth* pedw = conditions->getPedestalWidth(cell);
   HcalCoderDb coder(*channelCoder, *shape);
   if (useADCfC_)
     coder.adc2fC(*digiItr, toolOriginal);
   double pedestalaver9 = 0.;
   double pedestalaver4 = 0.;
   double pedestal0 = 0.;
   double pedestal1 = 0.;
   double pedestal2 = 0.;
   double pedestal3 = 0.;
   double pedestalwaver9 = 0.;
   double pedestalwaver4 = 0.;
   double pedestalw0 = 0.;
   double pedestalw1 = 0.;
   double pedestalw2 = 0.;
   double pedestalw3 = 0.;
   double difpedestal0 = 0.;
   double difpedestal1 = 0.;
   double difpedestal2 = 0.;
   double difpedestal3 = 0.;

   double amplitude = 0.;
   double absamplitude = 0.;
   double amplitude345 = 0.;
   double ampl = 0.;
   double linamplitudewithoutPedSubtr = 0.;
   double timew = 0.;
   double timeww = 0.;
   double max_signal = -100.;
   int ts_with_max_signal = -100;
   int c0 = 0;
   int c1 = 0;
   int c2 = 0;
   int c3 = 0;
   int c4 = 0;
   double errorBtype = 0.;

   int TSsize = 10;  //HEHB for Run2
   TSsize = digiItr->size();
   if ((*digiItr).size() != 10)
     errorBtype = 1.;
   //     ii = 0 to 9
   for (int ii = 0; ii < TSsize; ii++) {
     //  for (int ii=0; ii<digiItr->size(); ii++) {
     double ampldefaultwithPedSubtr = 0.;
     double linampldefaultwithoutPedSubtr = 0.;
     double ampldefault = 0.;
     double ampldefault0 = 0.;
     double ampldefault1 = 0.;
     double ampldefault2 = 0.;
     ampldefault0 = adc2fC[digiItr->sample(ii).adc()];  // massive ADCcounts
     if (useADCfC_)
       ampldefault1 = toolOriginal[ii];    //adcfC
     ampldefault2 = (*digiItr)[ii].adc();  //ADCcounts linearized
     if (useADCmassive_) {
       ampldefault = ampldefault0;
     }
     if (useADCfC_) {
       ampldefault = ampldefault1;
     }
     if (useADCcounts_) {
       ampldefault = ampldefault2;
     }
     ampldefaultwithPedSubtr = ampldefault0;
     linampldefaultwithoutPedSubtr = ampldefault2;

     int capid = ((*digiItr)[ii]).capid();
     //      double pedestal = calib.pedestal(capid);
     double pedestalINI = pedestal00->getValue(capid);
     double pedestal = pedestal00->getValue(capid);
     double pedestalw = pedw->getSigma(capid, capid);
     ampldefaultwithPedSubtr -= pedestal;  // pedestal subtraction
     if (usePedestalSubtraction_)
       ampldefault -= pedestal;  // pedestal subtraction
     //      ampldefault*= calib.respcorrgain(capid) ; // fC --> GeV
     tool[ii] = ampldefault;
     toolwithPedSubtr[ii] = ampldefaultwithPedSubtr;
     lintoolwithoutPedSubtr[ii] = linampldefaultwithoutPedSubtr;

     pedestalaver9 += pedestal;
     pedestalwaver9 += pedestalw * pedestalw;

     if (capid == 0 && c0 == 0) {
       c0++;
       c4++;
       pedestalaver4 += pedestal;
       pedestal0 = pedestal;
       pedestalw0 = pedestalw;
       pedestalwaver4 += pedestalw * pedestalw;
       difpedestal0 = pedestal - pedestalINI;
     }

     if (capid == 1 && c1 == 0) {
       c1++;
       c4++;
       pedestalaver4 += pedestal;
       pedestal1 = pedestal;
       pedestalw1 = pedestalw;
       pedestalwaver4 += pedestalw * pedestalw;
       difpedestal1 = pedestal - pedestalINI;
     }
     if (capid == 2 && c2 == 0) {
       c2++;
       c4++;
       pedestalaver4 += pedestal;
       pedestal2 = pedestal;
       pedestalw2 = pedestalw;
       pedestalwaver4 += pedestalw * pedestalw;
       difpedestal2 = pedestal - pedestalINI;
     }
     if (capid == 3 && c3 == 0) {
       c3++;
       c4++;
       pedestalaver4 += pedestal;
       pedestal3 = pedestal;
       pedestalw3 = pedestalw;
       pedestalwaver4 += pedestalw * pedestalw;
       difpedestal3 = pedestal - pedestalINI;
     }

     if (max_signal < ampldefault) {
       max_signal = ampldefault;
       ts_with_max_signal = ii;
     }
     //     TS = 1 to 10:  1  2  3  4  5  6  7  8  9  10
     //     ii = 0 to  9:  0  1  2  3  4  5  6  7  8   9
     //     var.1             ----------------------
     //     var.2                ----------------
     //     var.3                   ----------
     //     var.4                   -------
     //
     // TS = 2-9      for raddam only  var.1
     // TS = 3-8      for raddam only  var.2
     // TS = 4-7      for raddam only  var.3
     // TS = 4-6      for raddam only  var.4
     amplitude += ampldefault;          //
     absamplitude += abs(ampldefault);  //

     if (ii == 3 || ii == 4 || ii == 5)
       amplitude345 += ampldefault;
     if (flagcpuoptimization_ == 0) {
     }  //flagcpuoptimization
     timew += (ii + 1) * abs(ampldefault);
     timeww += (ii + 1) * ampldefault;
   }  //for 1
   // sub=1||2 HBHE
   if (sub == 1 || sub == 2) {
     amplitudechannel0[sub - 1][mdepth - 1][ieta + 41][iphi] += 1.;                 // 0-neta ; 0-71 HBHE
     amplitudechannel[sub - 1][mdepth - 1][ieta + 41][iphi] += amplitude;           // 0-neta ; 0-71 HBHE
     amplitudechannel2[sub - 1][mdepth - 1][ieta + 41][iphi] += pow(amplitude, 2);  // 0-neta ; 0-71 HBHE
   }
   pedestalaver9 /= TSsize;
   pedestalaver4 /= c4;
   pedestalwaver9 = sqrt(pedestalwaver9 / TSsize);
   pedestalwaver4 = sqrt(pedestalwaver4 / c4);
   if (ts_with_max_signal > -1 && ts_with_max_signal < TSsize)
     ampl = tool[ts_with_max_signal];
   if (ts_with_max_signal + 2 > -1 && ts_with_max_signal + 2 < TSsize)
     ampl += tool[ts_with_max_signal + 2];
   if (ts_with_max_signal + 1 > -1 && ts_with_max_signal + 1 < TSsize)
     ampl += tool[ts_with_max_signal + 1];
   if (ts_with_max_signal - 1 > -1 && ts_with_max_signal - 1 < TSsize)
     ampl += tool[ts_with_max_signal - 1];

   if (ts_with_max_signal > -1 && ts_with_max_signal < TSsize)
     linamplitudewithoutPedSubtr = lintoolwithoutPedSubtr[ts_with_max_signal];
   if (ts_with_max_signal + 2 > -1 && ts_with_max_signal + 2 < TSsize)
     linamplitudewithoutPedSubtr += lintoolwithoutPedSubtr[ts_with_max_signal + 2];
   if (ts_with_max_signal + 1 > -1 && ts_with_max_signal + 1 < TSsize)
     linamplitudewithoutPedSubtr += lintoolwithoutPedSubtr[ts_with_max_signal + 1];
   if (ts_with_max_signal - 1 > -1 && ts_with_max_signal - 1 < TSsize)
     linamplitudewithoutPedSubtr += lintoolwithoutPedSubtr[ts_with_max_signal - 1];

   double ratio = 0.;
   if (amplitude != 0.)
     ratio = ampl / amplitude;
   if (ratio < 0. || ratio > 1.02)
     ratio = 0.;
   double aveamplitude = 0.;
   double aveamplitudew = 0.;
   if (absamplitude > 0 && timew > 0)
     aveamplitude = timew / absamplitude;  // average_TS +1
   if (amplitude > 0 && timeww > 0)
     aveamplitudew = timeww / amplitude;  // average_TS +1
   double rmsamp = 0.;
   // and CapIdErrors:
   int error = 0;
   bool anycapid = true;
   bool anyer = false;
   bool anydv = true;
   int lastcapid = 0;
   int capid = 0;
   for (int ii = 0; ii < TSsize; ii++) {
     double aaaaaa = (ii + 1) - aveamplitudew;
     double aaaaaa2 = aaaaaa * aaaaaa;
     double ampldefault = tool[ii];
     rmsamp += (aaaaaa2 * ampldefault);  // fC
     capid = ((*digiItr)[ii]).capid();
     bool er = (*digiItr)[ii].er();  // error
     bool dv = (*digiItr)[ii].dv();  // valid data
     if (ii != 0 && ((lastcapid + 1) % 4) != capid) {
       anycapid = false;
     }
     //    std::cout << " ii = " << ii  << " capid = " << capid  << " ((lastcapid+1)%4) = " << ((lastcapid+1)%4)  << std::endl;
     lastcapid = capid;
     if (er) {
       anyer = true;
     }
     if (!dv) {
       anydv = false;
     }
   }  //for 2
   if (!anycapid || anyer || !anydv)
     error = 1;

   double rmsamplitude = 0.;
   if ((amplitude > 0 && rmsamp > 0) || (amplitude < 0 && rmsamp < 0))
     rmsamplitude = sqrt(rmsamp / amplitude);
   double aveamplitude1 = aveamplitude - 1;  // means iTS=0-9

   // CapIdErrors end  /////////////////////////////////////////////////////////

   // AZ 1.10.2015:
   if (error == 1) {
     if (sub == 1 && mdepth == 1)
       h_Amplitude_forCapIdErrors_HB1->Fill(amplitude, 1.);
     if (sub == 1 && mdepth == 2)
       h_Amplitude_forCapIdErrors_HB2->Fill(amplitude, 1.);
     if (sub == 2 && mdepth == 1)
       h_Amplitude_forCapIdErrors_HE1->Fill(amplitude, 1.);
     if (sub == 2 && mdepth == 2)
       h_Amplitude_forCapIdErrors_HE2->Fill(amplitude, 1.);
     if (sub == 2 && mdepth == 3)
       h_Amplitude_forCapIdErrors_HE3->Fill(amplitude, 1.);
   }
   if (error != 1) {
     if (sub == 1 && mdepth == 1)
       h_Amplitude_notCapIdErrors_HB1->Fill(amplitude, 1.);
     if (sub == 1 && mdepth == 2)
       h_Amplitude_notCapIdErrors_HB2->Fill(amplitude, 1.);
     if (sub == 2 && mdepth == 1)
       h_Amplitude_notCapIdErrors_HE1->Fill(amplitude, 1.);
     if (sub == 2 && mdepth == 2)
       h_Amplitude_notCapIdErrors_HE2->Fill(amplitude, 1.);
     if (sub == 2 && mdepth == 3)
       h_Amplitude_notCapIdErrors_HE3->Fill(amplitude, 1.);
   }

   for (int ii = 0; ii < TSsize; ii++) {
     //  for (int ii=0; ii<10; ii++) {
     double ampldefault = tool[ii];
     if (sub == 1) {
       if (amplitude > 120) {
         h_shape_Ahigh_HB0->Fill(float(ii), ampldefault);
         h_shape0_Ahigh_HB0->Fill(float(ii), 1.);
       } else {
         h_shape_Alow_HB0->Fill(float(ii), ampldefault);
         h_shape0_Alow_HB0->Fill(float(ii), 1.);
       }  //HB0
       if (pedestal2 < pedestalHBMax_ || pedestal3 < pedestalHBMax_ || pedestal2 < pedestalHBMax_ ||
           pedestal3 < pedestalHBMax_) {
         h_shape_Ahigh_HB1->Fill(float(ii), ampldefault);
         h_shape0_Ahigh_HB1->Fill(float(ii), 1.);
       } else {
         h_shape_Alow_HB1->Fill(float(ii), ampldefault);
         h_shape0_Alow_HB1->Fill(float(ii), 1.);
       }  //HB1
       if (error == 0) {
         h_shape_Ahigh_HB2->Fill(float(ii), ampldefault);
         h_shape0_Ahigh_HB2->Fill(float(ii), 1.);
       } else {
         h_shape_Alow_HB2->Fill(float(ii), ampldefault);
         h_shape0_Alow_HB2->Fill(float(ii), 1.);
       }  //HB2
       if (pedestalw0 < pedestalwHBMax_ || pedestalw1 < pedestalwHBMax_ || pedestalw2 < pedestalwHBMax_ ||
           pedestalw3 < pedestalwHBMax_) {
         h_shape_Ahigh_HB3->Fill(float(ii), ampldefault);
         h_shape0_Ahigh_HB3->Fill(float(ii), 1.);
       } else {
         h_shape_Alow_HB3->Fill(float(ii), ampldefault);
         h_shape0_Alow_HB3->Fill(float(ii), 1.);
       }  //HB3

     }  // sub   HB

   }  //for 3 over TSs

   if (sub == 1) {
     // bad_channels with C,A,W,P,pW,
     if (error == 1 || amplitude < ADCAmplHBMin_ || amplitude > ADCAmplHBMax_ || rmsamplitude < rmsHBMin_ ||
         rmsamplitude > rmsHBMax_ || pedestal0 < pedestalHBMax_ || pedestal1 < pedestalHBMax_ ||
         pedestal2 < pedestalHBMax_ || pedestal3 < pedestalHBMax_ || pedestalw0 < pedestalwHBMax_ ||
         pedestalw1 < pedestalwHBMax_ || pedestalw2 < pedestalwHBMax_ || pedestalw3 < pedestalwHBMax_) {
       for (int ii = 0; ii < TSsize; ii++) {
         double ampldefault = tool[ii];
         h_shape_bad_channels_HB->Fill(float(ii), ampldefault);
         h_shape0_bad_channels_HB->Fill(float(ii), 1.);
       }
     }
     // good_channels with C,A,W,P,pW
     else {
       for (int ii = 0; ii < TSsize; ii++) {
         double ampldefault = tool[ii];
         h_shape_good_channels_HB->Fill(float(ii), ampldefault);
         h_shape0_good_channels_HB->Fill(float(ii), 1.);
       }
     }
   }  // sub   HB
   if (sub == 2) {
     // bad_channels with C,A,W,P,pW,
     if (error == 1 || amplitude < ADCAmplHEMin_ || amplitude > ADCAmplHEMax_ || rmsamplitude < rmsHEMin_ ||
         rmsamplitude > rmsHEMax_ || pedestal0 < pedestalHEMax_ || pedestal1 < pedestalHEMax_ ||
         pedestal2 < pedestalHEMax_ || pedestal3 < pedestalHEMax_ || pedestalw0 < pedestalwHEMax_ ||
         pedestalw1 < pedestalwHEMax_ || pedestalw2 < pedestalwHEMax_ || pedestalw3 < pedestalwHEMax_) {
       for (int ii = 0; ii < TSsize; ii++) {
         double ampldefault = tool[ii];
         h_shape_bad_channels_HE->Fill(float(ii), ampldefault);
         h_shape0_bad_channels_HE->Fill(float(ii), 1.);
       }
     }
     // good_channels with C,A,W,P,pW,
     else {
       for (int ii = 0; ii < TSsize; ii++) {
         double ampldefault = tool[ii];
         h_shape_good_channels_HE->Fill(float(ii), ampldefault);
         h_shape0_good_channels_HE->Fill(float(ii), 1.);
       }
     }
   }  // sub   HE

   sum0Estimator[sub - 1][mdepth - 1][ieta + 41][iphi] += 1.;
   //      for Error B-type
   sumEstimator6[sub - 1][mdepth - 1][ieta + 41][iphi] += errorBtype;
   sumEstimator0[sub - 1][mdepth - 1][ieta + 41][iphi] += pedestal0;  //Pedestals
   // HB
   if (sub == 1) {
     if (studyPedestalCorrelations_) {
       //   //   //   //   //   //   //   //   //  HB       PedestalCorrelations :
       double mypedestal = pedestal0;
       double mypedestalw = pedestalw0;
       h2_pedvsampl_HB->Fill(mypedestal, amplitude);
       h2_pedwvsampl_HB->Fill(mypedestalw, amplitude);
       h_pedvsampl_HB->Fill(mypedestal, amplitude);
       h_pedwvsampl_HB->Fill(mypedestalw, amplitude);
       h_pedvsampl0_HB->Fill(mypedestal, 1.);
       h_pedwvsampl0_HB->Fill(mypedestalw, 1.);

       h2_amplvsped_HB->Fill(amplitude, mypedestal);
       h2_amplvspedw_HB->Fill(amplitude, mypedestalw);
       h_amplvsped_HB->Fill(amplitude, mypedestal);
       h_amplvspedw_HB->Fill(amplitude, mypedestalw);
       h_amplvsped0_HB->Fill(amplitude, 1.);
     }  //
     //   //   //   //   //   //   //   //   //  HB       Pedestals:
     if (studyPedestalsHist_) {
       h_pedestal0_HB->Fill(pedestal0, 1.);
       h_pedestal1_HB->Fill(pedestal1, 1.);
       h_pedestal2_HB->Fill(pedestal2, 1.);
       h_pedestal3_HB->Fill(pedestal3, 1.);
       h_pedestalaver4_HB->Fill(pedestalaver4, 1.);
       h_pedestalaver9_HB->Fill(pedestalaver9, 1.);
       h_pedestalw0_HB->Fill(pedestalw0, 1.);
       h_pedestalw1_HB->Fill(pedestalw1, 1.);
       h_pedestalw2_HB->Fill(pedestalw2, 1.);
       h_pedestalw3_HB->Fill(pedestalw3, 1.);
       h_pedestalwaver4_HB->Fill(pedestalwaver4, 1.);
       h_pedestalwaver9_HB->Fill(pedestalwaver9, 1.);
       // for averaged values:
       if (mdepth == 1) {
         h_mapDepth1Ped0_HB->Fill(double(ieta), double(iphi), pedestal0);
         h_mapDepth1Ped1_HB->Fill(double(ieta), double(iphi), pedestal1);
         h_mapDepth1Ped2_HB->Fill(double(ieta), double(iphi), pedestal2);
         h_mapDepth1Ped3_HB->Fill(double(ieta), double(iphi), pedestal3);
         h_mapDepth1Pedw0_HB->Fill(double(ieta), double(iphi), pedestalw0);
         h_mapDepth1Pedw1_HB->Fill(double(ieta), double(iphi), pedestalw1);
         h_mapDepth1Pedw2_HB->Fill(double(ieta), double(iphi), pedestalw2);
         h_mapDepth1Pedw3_HB->Fill(double(ieta), double(iphi), pedestalw3);
       }
       if (mdepth == 2) {
         h_mapDepth2Ped0_HB->Fill(double(ieta), double(iphi), pedestal0);
         h_mapDepth2Ped1_HB->Fill(double(ieta), double(iphi), pedestal1);
         h_mapDepth2Ped2_HB->Fill(double(ieta), double(iphi), pedestal2);
         h_mapDepth2Ped3_HB->Fill(double(ieta), double(iphi), pedestal3);
         h_mapDepth2Pedw0_HB->Fill(double(ieta), double(iphi), pedestalw0);
         h_mapDepth2Pedw1_HB->Fill(double(ieta), double(iphi), pedestalw1);
         h_mapDepth2Pedw2_HB->Fill(double(ieta), double(iphi), pedestalw2);
         h_mapDepth2Pedw3_HB->Fill(double(ieta), double(iphi), pedestalw3);
       }
       if (pedestalw0 < pedestalwHBMax_ || pedestalw1 < pedestalwHBMax_ || pedestalw2 < pedestalwHBMax_ ||
           pedestalw3 < pedestalwHBMax_) {
         if (mdepth == 1)
           h_mapDepth1pedestalw_HB->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 2)
           h_mapDepth2pedestalw_HB->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 3)
           h_mapDepth3pedestalw_HB->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 4)
           h_mapDepth4pedestalw_HB->Fill(double(ieta), double(iphi), 1.);
       }
       if (pedestal0 < pedestalHBMax_ || pedestal1 < pedestalHBMax_ || pedestal2 < pedestalHBMax_ ||
           pedestal3 < pedestalHBMax_) {
         if (mdepth == 1)
           h_mapDepth1pedestal_HB->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 2)
           h_mapDepth2pedestal_HB->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 3)
           h_mapDepth3pedestal_HB->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 4)
           h_mapDepth4pedestal_HB->Fill(double(ieta), double(iphi), 1.);
       }
       for (int ii = 0; ii < TSsize; ii++) {
         h_pedestal00_HB->Fill(pedestal00->getValue(ii), 1.);
         h_gain_HB->Fill(gain->getValue(ii), 1.);
       }
       h_respcorr_HB->Fill(respcorr->getValue(), 1.);
       h_timecorr_HB->Fill(timecorr->getValue(), 1.);
       h_lutcorr_HB->Fill(lutcorr->getValue(), 1.);
       h_difpedestal0_HB->Fill(difpedestal0, 1.);
       h_difpedestal1_HB->Fill(difpedestal1, 1.);
       h_difpedestal2_HB->Fill(difpedestal2, 1.);
       h_difpedestal3_HB->Fill(difpedestal3, 1.);
     }  //
     //   //   //   //   //   //   //   //   //  HB       ADCAmpl:
     if (studyADCAmplHist_) {
       h_ADCAmpl345Zoom_HB->Fill(amplitude345, 1.);
       h_ADCAmpl345Zoom1_HB->Fill(amplitude345, 1.);
       h_ADCAmpl345_HB->Fill(amplitude345, 1.);
       if (error == 0) {
         h_ADCAmpl_HBCapIdNoError->Fill(amplitude, 1.);
         h_ADCAmpl345_HBCapIdNoError->Fill(amplitude345, 1.);
       }
       if (error == 1) {
         h_ADCAmpl_HBCapIdError->Fill(amplitude, 1.);
         h_ADCAmpl345_HBCapIdError->Fill(amplitude345, 1.);
       }
       h_ADCAmplZoom_HB->Fill(amplitude, 1.);
       h_ADCAmplZoom1_HB->Fill(amplitude, 1.);
       h_ADCAmpl_HB->Fill(amplitude, 1.);

       h_AmplitudeHBrest->Fill(amplitude, 1.);
       h_AmplitudeHBrest1->Fill(amplitude, 1.);
       h_AmplitudeHBrest6->Fill(amplitude, 1.);

       if (amplitude < ADCAmplHBMin_ || amplitude > ADCAmplHBMax_) {
         if (studyRunDependenceHist_ && flagtodefinebadchannel_ == 5)
           ++badchannels[sub - 1][mdepth - 1][ieta + 41][iphi];  // 0-neta ; 0-71
         if (mdepth == 1)
           h_mapDepth1ADCAmpl225_HB->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 2)
           h_mapDepth2ADCAmpl225_HB->Fill(double(ieta), double(iphi), 1.);
       }  // if
       //    if(amplitude >400.) averSIGNALoccupancy_HB += 1.;
       if (amplitude < 35.) {
         if (mdepth == 1)
           h_mapDepth1ADCAmpl225Copy_HB->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 2)
           h_mapDepth2ADCAmpl225Copy_HB->Fill(double(ieta), double(iphi), 1.);
       }  // if
       // for averaged values:
       if (mdepth == 1)
         h_mapDepth1ADCAmpl_HB->Fill(double(ieta), double(iphi), amplitude);
       if (mdepth == 2)
         h_mapDepth2ADCAmpl_HB->Fill(double(ieta), double(iphi), amplitude);
       if (mdepth == 1)
         h_mapDepth1ADCAmpl12_HB->Fill(double(ieta), double(iphi), ampl);
       if (mdepth == 2)
         h_mapDepth2ADCAmpl12_HB->Fill(double(ieta), double(iphi), ampl);
       h_bcnvsamplitude_HB->Fill(float(bcn), amplitude);
       h_bcnvsamplitude0_HB->Fill(float(bcn), 1.);
       h_orbitNumvsamplitude_HB->Fill(float(orbitNum), amplitude);
       h_orbitNumvsamplitude0_HB->Fill(float(orbitNum), 1.);
       if (amplitude > forallestimators_amplitude_bigger_)
         sumEstimator1[sub - 1][mdepth - 1][ieta + 41][iphi] += amplitude;
     }  //if(studyADCAmplHist_

     //   //   //   //   //   //   //   //   //  HB       TSmean:
     if (studyTSmeanShapeHist_) {
       h_TSmeanA_HB->Fill(aveamplitude1, 1.);
       //      h2_TSnVsAyear2023_HB->Fill(25.*aveamplitude1, amplitude);
       h2_TSnVsAyear2023_HB->Fill(amplitude, 25. * aveamplitude1);
       h1_TSnVsAyear2023_HB->Fill(amplitude, 25. * aveamplitude1);
       h1_TSnVsAyear20230_HB->Fill(amplitude, 1.);
       if (aveamplitude1 < TSmeanHBMin_ || aveamplitude1 > TSmeanHBMax_) {
         if (studyRunDependenceHist_ && flagtodefinebadchannel_ == 4)
           ++badchannels[sub - 1][mdepth - 1][ieta + 41][iphi];  // 0-neta ; 0-71
         if (mdepth == 1)
           h_mapDepth1TSmeanA225_HB->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 2)
           h_mapDepth2TSmeanA225_HB->Fill(double(ieta), double(iphi), 1.);
       }  // if
       // for averaged values:
       if (mdepth == 1)
         h_mapDepth1TSmeanA_HB->Fill(double(ieta), double(iphi), aveamplitude1);
       if (mdepth == 2)
         h_mapDepth2TSmeanA_HB->Fill(double(ieta), double(iphi), aveamplitude1);
       if (amplitude > forallestimators_amplitude_bigger_)
         sumEstimator2[sub - 1][mdepth - 1][ieta + 41][iphi] += aveamplitude1;
     }  //if(studyTSmeanShapeHist_

     //   //   //   //   //   //   //   //   //  HB       TSmax:
     if (studyTSmaxShapeHist_) {
       h_TSmaxA_HB->Fill(float(ts_with_max_signal), 1.);
       if (ts_with_max_signal < TSpeakHBMin_ || ts_with_max_signal > TSpeakHBMax_) {
         if (studyRunDependenceHist_ && flagtodefinebadchannel_ == 3)
           ++badchannels[sub - 1][mdepth - 1][ieta + 41][iphi];  // 0-neta ; 0-71
         if (mdepth == 1)
           h_mapDepth1TSmaxA225_HB->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 2)
           h_mapDepth2TSmaxA225_HB->Fill(double(ieta), double(iphi), 1.);
       }  // if
       // for averaged values:
       if (mdepth == 1)
         h_mapDepth1TSmaxA_HB->Fill(double(ieta), double(iphi), float(ts_with_max_signal));
       if (mdepth == 2)
         h_mapDepth2TSmaxA_HB->Fill(double(ieta), double(iphi), float(ts_with_max_signal));
       if (amplitude > forallestimators_amplitude_bigger_)
         sumEstimator3[sub - 1][mdepth - 1][ieta + 41][iphi] += float(ts_with_max_signal);
     }  //if(studyTSmaxShapeHist_

     //   //   //   //   //   //   //   //   //  HB       RMS:
     if (studyRMSshapeHist_) {
       h_Amplitude_HB->Fill(rmsamplitude, 1.);
       if (rmsamplitude < rmsHBMin_ || rmsamplitude > rmsHBMax_) {
         if (studyRunDependenceHist_ && flagtodefinebadchannel_ == 2)
           ++badchannels[sub - 1][mdepth - 1][ieta + 41][iphi];  // 0-neta ; 0-71
         if (mdepth == 1)
           h_mapDepth1Amplitude225_HB->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 2)
           h_mapDepth2Amplitude225_HB->Fill(double(ieta), double(iphi), 1.);
       }  // if
       // for averaged values:
       if (mdepth == 1)
         h_mapDepth1Amplitude_HB->Fill(double(ieta), double(iphi), rmsamplitude);
       if (mdepth == 2)
         h_mapDepth2Amplitude_HB->Fill(double(ieta), double(iphi), rmsamplitude);
       if (amplitude > forallestimators_amplitude_bigger_)
         sumEstimator4[sub - 1][mdepth - 1][ieta + 41][iphi] += rmsamplitude;
     }  //if(studyRMSshapeHist_)

     //   //   //   //   //   //   //   //   //  HB       Ratio:
     if (studyRatioShapeHist_) {
       h_Ampl_HB->Fill(ratio, 1.);
       if (ratio < ratioHBMin_ || ratio > ratioHBMax_) {
         if (studyRunDependenceHist_ && flagtodefinebadchannel_ == 1)
           ++badchannels[sub - 1][mdepth - 1][ieta + 41][iphi];  // 0-neta ; 0-71
         if (mdepth == 1)
           h_mapDepth1Ampl047_HB->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 2)
           h_mapDepth2Ampl047_HB->Fill(double(ieta), double(iphi), 1.);
         // //
       }  //if(ratio
       // for averaged values:
       if (mdepth == 1)
         h_mapDepth1Ampl_HB->Fill(double(ieta), double(iphi), ratio);
       if (mdepth == 2)
         h_mapDepth2Ampl_HB->Fill(double(ieta), double(iphi), ratio);
       if (amplitude > forallestimators_amplitude_bigger_)
         sumEstimator5[sub - 1][mdepth - 1][ieta + 41][iphi] += ratio;
     }  //if(studyRatioShapeHist_)

     //   //   //   //   //   //   //   //   //  HB      DiffAmplitude:
     if (studyDiffAmplHist_) {
       if (mdepth == 1)
         h_mapDepth1AmplE34_HB->Fill(double(ieta), double(iphi), amplitude);
       if (mdepth == 2)
         h_mapDepth2AmplE34_HB->Fill(double(ieta), double(iphi), amplitude);
     }  // if(studyDiffAmplHist_)

     if (mdepth == 1)
       h_mapDepth1_HB->Fill(double(ieta), double(iphi), 1.);
     if (mdepth == 2)
       h_mapDepth2_HB->Fill(double(ieta), double(iphi), 1.);
   }  //if ( sub == 1 )

   // HE
   if (sub == 2) {
     //   //   //   //   //   //   //   //   //  HE       PedestalCorrelations :
     if (studyPedestalCorrelations_) {
       double mypedestal = pedestal0;
       double mypedestalw = pedestalw0;
       h2_pedvsampl_HE->Fill(mypedestal, amplitude);
       h2_pedwvsampl_HE->Fill(mypedestalw, amplitude);
       h_pedvsampl_HE->Fill(mypedestal, amplitude);
       h_pedwvsampl_HE->Fill(mypedestalw, amplitude);
       h_pedvsampl0_HE->Fill(mypedestal, 1.);
       h_pedwvsampl0_HE->Fill(mypedestalw, 1.);
     }  //
     //   //   //   //   //   //   //   //   //  HE       Pedestals:
     if (studyPedestalsHist_) {
       h_pedestal0_HE->Fill(pedestal0, 1.);
       h_pedestal1_HE->Fill(pedestal1, 1.);
       h_pedestal2_HE->Fill(pedestal2, 1.);
       h_pedestal3_HE->Fill(pedestal3, 1.);
       h_pedestalaver4_HE->Fill(pedestalaver4, 1.);
       h_pedestalaver9_HE->Fill(pedestalaver9, 1.);
       h_pedestalw0_HE->Fill(pedestalw0, 1.);
       h_pedestalw1_HE->Fill(pedestalw1, 1.);
       h_pedestalw2_HE->Fill(pedestalw2, 1.);
       h_pedestalw3_HE->Fill(pedestalw3, 1.);
       h_pedestalwaver4_HE->Fill(pedestalwaver4, 1.);
       h_pedestalwaver9_HE->Fill(pedestalwaver9, 1.);
       // for averaged values:
       if (mdepth == 1) {
         h_mapDepth1Ped0_HE->Fill(double(ieta), double(iphi), pedestal0);
         h_mapDepth1Ped1_HE->Fill(double(ieta), double(iphi), pedestal1);
         h_mapDepth1Ped2_HE->Fill(double(ieta), double(iphi), pedestal2);
         h_mapDepth1Ped3_HE->Fill(double(ieta), double(iphi), pedestal3);
         h_mapDepth1Pedw0_HE->Fill(double(ieta), double(iphi), pedestalw0);
         h_mapDepth1Pedw1_HE->Fill(double(ieta), double(iphi), pedestalw1);
         h_mapDepth1Pedw2_HE->Fill(double(ieta), double(iphi), pedestalw2);
         h_mapDepth1Pedw3_HE->Fill(double(ieta), double(iphi), pedestalw3);
       }
       if (mdepth == 2) {
         h_mapDepth2Ped0_HE->Fill(double(ieta), double(iphi), pedestal0);
         h_mapDepth2Ped1_HE->Fill(double(ieta), double(iphi), pedestal1);
         h_mapDepth2Ped2_HE->Fill(double(ieta), double(iphi), pedestal2);
         h_mapDepth2Ped3_HE->Fill(double(ieta), double(iphi), pedestal3);
         h_mapDepth2Pedw0_HE->Fill(double(ieta), double(iphi), pedestalw0);
         h_mapDepth2Pedw1_HE->Fill(double(ieta), double(iphi), pedestalw1);
         h_mapDepth2Pedw2_HE->Fill(double(ieta), double(iphi), pedestalw2);
         h_mapDepth2Pedw3_HE->Fill(double(ieta), double(iphi), pedestalw3);
       }
       if (mdepth == 3) {
         h_mapDepth3Ped0_HE->Fill(double(ieta), double(iphi), pedestal0);
         h_mapDepth3Ped1_HE->Fill(double(ieta), double(iphi), pedestal1);
         h_mapDepth3Ped2_HE->Fill(double(ieta), double(iphi), pedestal2);
         h_mapDepth3Ped3_HE->Fill(double(ieta), double(iphi), pedestal3);
         h_mapDepth3Pedw0_HE->Fill(double(ieta), double(iphi), pedestalw0);
         h_mapDepth3Pedw1_HE->Fill(double(ieta), double(iphi), pedestalw1);
         h_mapDepth3Pedw2_HE->Fill(double(ieta), double(iphi), pedestalw2);
         h_mapDepth3Pedw3_HE->Fill(double(ieta), double(iphi), pedestalw3);
       }
       if (pedestalw0 < pedestalwHEMax_ || pedestalw1 < pedestalwHEMax_ || pedestalw2 < pedestalwHEMax_ ||
           pedestalw3 < pedestalwHEMax_) {
         if (mdepth == 1)
           h_mapDepth1pedestalw_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 2)
           h_mapDepth2pedestalw_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 3)
           h_mapDepth3pedestalw_HE->Fill(double(ieta), double(iphi), 1.);
       }
       if (pedestal0 < pedestalHEMax_ || pedestal1 < pedestalHEMax_ || pedestal2 < pedestalHEMax_ ||
           pedestal3 < pedestalHEMax_) {
         if (mdepth == 1)
           h_mapDepth1pedestal_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 2)
           h_mapDepth2pedestal_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 3)
           h_mapDepth3pedestal_HE->Fill(double(ieta), double(iphi), 1.);
       }
       for (int ii = 0; ii < TSsize; ii++) {
         h_pedestal00_HE->Fill(pedestal00->getValue(ii), 1.);
         h_gain_HE->Fill(gain->getValue(ii), 1.);
       }
       h_respcorr_HE->Fill(respcorr->getValue(), 1.);
       h_timecorr_HE->Fill(timecorr->getValue(), 1.);
       h_lutcorr_HE->Fill(lutcorr->getValue(), 1.);
     }  //

     //     h_mapDepth1ADCAmpl12SiPM_HE
     //   //   //   //   //   //   //   //   //  HE       ADCAmpl:
     if (studyADCAmplHist_) {
       h_ADCAmpl345Zoom_HE->Fill(ampl, 1.);
       h_ADCAmpl345Zoom1_HE->Fill(amplitude345, 1.);
       h_ADCAmpl345_HE->Fill(amplitude345, 1.);
       h_ADCAmpl_HE->Fill(amplitude, 1.);

       h_ADCAmplrest_HE->Fill(amplitude, 1.);
       h_ADCAmplrest1_HE->Fill(amplitude, 1.);
       h_ADCAmplrest6_HE->Fill(amplitude, 1.);

       h_ADCAmplZoom1_HE->Fill(amplitude, 1.);
       if (amplitude < ADCAmplHEMin_ || amplitude > ADCAmplHEMax_) {
         if (studyRunDependenceHist_ && flagtodefinebadchannel_ == 5)
           ++badchannels[sub - 1][mdepth - 1][ieta + 41][iphi];  // 0-neta ; 0-71
         if (mdepth == 1)
           h_mapDepth1ADCAmpl225_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 2)
           h_mapDepth2ADCAmpl225_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 3)
           h_mapDepth3ADCAmpl225_HE->Fill(double(ieta), double(iphi), 1.);
       }  // if
       //    if(amplitude > 700.) averSIGNALoccupancy_HE += 1.;
       if (amplitude < 500.) {
         if (mdepth == 1)
           h_mapDepth1ADCAmpl225Copy_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 2)
           h_mapDepth2ADCAmpl225Copy_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 3)
           h_mapDepth3ADCAmpl225Copy_HE->Fill(double(ieta), double(iphi), 1.);
       }  // if
       // for averaged values:
       if (mdepth == 1)
         h_mapDepth1ADCAmpl_HE->Fill(double(ieta), double(iphi), amplitude);
       if (mdepth == 2)
         h_mapDepth2ADCAmpl_HE->Fill(double(ieta), double(iphi), amplitude);
       if (mdepth == 3)
         h_mapDepth3ADCAmpl_HE->Fill(double(ieta), double(iphi), amplitude);

       if (mdepth == 1) {
         h_mapDepth1ADCAmpl12_HE->Fill(double(ieta), double(iphi), ampl);
         h_mapDepth1linADCAmpl12_HE->Fill(double(ieta), double(iphi), linamplitudewithoutPedSubtr);
       }
       if (mdepth == 2) {
         h_mapDepth2ADCAmpl12_HE->Fill(double(ieta), double(iphi), ampl);
         h_mapDepth2linADCAmpl12_HE->Fill(double(ieta), double(iphi), linamplitudewithoutPedSubtr);
       }
       if (mdepth == 3) {
         h_mapDepth3ADCAmpl12_HE->Fill(double(ieta), double(iphi), ampl);
         h_mapDepth3linADCAmpl12_HE->Fill(double(ieta), double(iphi), linamplitudewithoutPedSubtr);
       }

       h_bcnvsamplitude_HE->Fill(float(bcn), amplitude);
       h_bcnvsamplitude0_HE->Fill(float(bcn), 1.);
       h_orbitNumvsamplitude_HE->Fill(float(orbitNum), amplitude);
       h_orbitNumvsamplitude0_HE->Fill(float(orbitNum), 1.);


       if (amplitude > forallestimators_amplitude_bigger_)
         sumEstimator1[sub - 1][mdepth - 1][ieta + 41][iphi] += amplitude;

     }  //if(studyADCAmplHist_
     //   //   //   //   //   //   //   //   //  HE       TSmean:
     if (studyTSmeanShapeHist_) {
       h_TSmeanA_HE->Fill(aveamplitude1, 1.);
       //      h2_TSnVsAyear2023_HE->Fill(25.*aveamplitude1, amplitude);
       h2_TSnVsAyear2023_HE->Fill(amplitude, 25. * aveamplitude1);
       h1_TSnVsAyear2023_HE->Fill(amplitude, 25. * aveamplitude1);
       h1_TSnVsAyear20230_HE->Fill(amplitude, 1.);
       if (aveamplitude1 < TSmeanHEMin_ || aveamplitude1 > TSmeanHEMax_) {
         if (studyRunDependenceHist_ && flagtodefinebadchannel_ == 4)
           ++badchannels[sub - 1][mdepth - 1][ieta + 41][iphi];  // 0-neta ; 0-71
         if (mdepth == 1)
           h_mapDepth1TSmeanA225_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 2)
           h_mapDepth2TSmeanA225_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 3)
           h_mapDepth3TSmeanA225_HE->Fill(double(ieta), double(iphi), 1.);
       }  // if
       // for averaged values:
       if (mdepth == 1)
         h_mapDepth1TSmeanA_HE->Fill(double(ieta), double(iphi), aveamplitude1);
       if (mdepth == 2)
         h_mapDepth2TSmeanA_HE->Fill(double(ieta), double(iphi), aveamplitude1);
       if (mdepth == 3)
         h_mapDepth3TSmeanA_HE->Fill(double(ieta), double(iphi), aveamplitude1);
       if (amplitude > forallestimators_amplitude_bigger_)
         sumEstimator2[sub - 1][mdepth - 1][ieta + 41][iphi] += aveamplitude1;
     }  //if(studyTSmeanShapeHist_) {
     //   //   //   //   //   //   //   //   //  HE       TSmax:
     if (studyTSmaxShapeHist_) {
       h_TSmaxA_HE->Fill(float(ts_with_max_signal), 1.);
       if (ts_with_max_signal < TSpeakHEMin_ || ts_with_max_signal > TSpeakHEMax_) {
         if (studyRunDependenceHist_ && flagtodefinebadchannel_ == 3)
           ++badchannels[sub - 1][mdepth - 1][ieta + 41][iphi];  // 0-neta ; 0-71
         if (mdepth == 1)
           h_mapDepth1TSmaxA225_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 2)
           h_mapDepth2TSmaxA225_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 3)
           h_mapDepth3TSmaxA225_HE->Fill(double(ieta), double(iphi), 1.);
       }  // if
       // for averaged values:
       if (mdepth == 1)
         h_mapDepth1TSmaxA_HE->Fill(double(ieta), double(iphi), float(ts_with_max_signal));
       if (mdepth == 2)
         h_mapDepth2TSmaxA_HE->Fill(double(ieta), double(iphi), float(ts_with_max_signal));
       if (mdepth == 3)
         h_mapDepth3TSmaxA_HE->Fill(double(ieta), double(iphi), float(ts_with_max_signal));
       if (amplitude > forallestimators_amplitude_bigger_)
         sumEstimator3[sub - 1][mdepth - 1][ieta + 41][iphi] += float(ts_with_max_signal);
     }  //if(studyTSmaxShapeHist_) {
     //   //   //   //   //   //   //   //   //  HE       RMS:
     if (studyRMSshapeHist_) {
       h_Amplitude_HE->Fill(rmsamplitude, 1.);
       if (rmsamplitude < rmsHEMin_ || rmsamplitude > rmsHEMax_) {
         if (studyRunDependenceHist_ && flagtodefinebadchannel_ == 2)
           ++badchannels[sub - 1][mdepth - 1][ieta + 41][iphi];  // 0-neta ; 0-71
         if (mdepth == 1)
           h_mapDepth1Amplitude225_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 2)
           h_mapDepth2Amplitude225_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 3)
           h_mapDepth3Amplitude225_HE->Fill(double(ieta), double(iphi), 1.);
       }
       // for averaged values:
       if (mdepth == 1)
         h_mapDepth1Amplitude_HE->Fill(double(ieta), double(iphi), rmsamplitude);
       if (mdepth == 2)
         h_mapDepth2Amplitude_HE->Fill(double(ieta), double(iphi), rmsamplitude);
       if (mdepth == 3)
         h_mapDepth3Amplitude_HE->Fill(double(ieta), double(iphi), rmsamplitude);
       if (amplitude > forallestimators_amplitude_bigger_)
         sumEstimator4[sub - 1][mdepth - 1][ieta + 41][iphi] += rmsamplitude;
     }  //if(studyRMSshapeHist_)

     //   //   //   //   //   //   //   //   //  HE       Ratio:
     if (studyRatioShapeHist_) {
       h_Ampl_HE->Fill(ratio, 1.);
       if (ratio < ratioHEMin_ || ratio > ratioHEMax_) {
         if (studyRunDependenceHist_ && flagtodefinebadchannel_ == 1)
           ++badchannels[sub - 1][mdepth - 1][ieta + 41][iphi];  // 0-neta ; 0-71
         if (mdepth == 1)
           h_mapDepth1Ampl047_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 2)
           h_mapDepth2Ampl047_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 3)
           h_mapDepth3Ampl047_HE->Fill(double(ieta), double(iphi), 1.);
       }
       // for averaged values:
       if (mdepth == 1)
         h_mapDepth1Ampl_HE->Fill(double(ieta), double(iphi), ratio);
       if (mdepth == 2)
         h_mapDepth2Ampl_HE->Fill(double(ieta), double(iphi), ratio);
       if (mdepth == 3)
         h_mapDepth3Ampl_HE->Fill(double(ieta), double(iphi), ratio);
       if (amplitude > forallestimators_amplitude_bigger_)
         sumEstimator5[sub - 1][mdepth - 1][ieta + 41][iphi] += ratio;
     }  //if(studyRatioShapeHist_)
     //   //   //   //   //   //   //   //   //  HE       DiffAmplitude:
     if (studyDiffAmplHist_) {
       // gain stability:
       if (mdepth == 1)
         h_mapDepth1AmplE34_HE->Fill(double(ieta), double(iphi), amplitude);
       if (mdepth == 2)
         h_mapDepth2AmplE34_HE->Fill(double(ieta), double(iphi), amplitude);
       if (mdepth == 3)
         h_mapDepth3AmplE34_HE->Fill(double(ieta), double(iphi), amplitude);

     }  // if(studyDiffAmplHist_)

     // RADDAM filling:
     if (flagLaserRaddam_ > 0) {
       double amplitudewithPedSubtr = 0.;

       //for cut on A_channel:
       if (ts_with_max_signal > -1 && ts_with_max_signal < TSsize)
         amplitudewithPedSubtr = toolwithPedSubtr[ts_with_max_signal];
       if (ts_with_max_signal + 2 > -1 && ts_with_max_signal + 2 < TSsize)
         amplitudewithPedSubtr += toolwithPedSubtr[ts_with_max_signal + 2];
       if (ts_with_max_signal + 1 > -1 && ts_with_max_signal + 1 < TSsize)
         amplitudewithPedSubtr += toolwithPedSubtr[ts_with_max_signal + 1];
       if (ts_with_max_signal - 1 > -1 && ts_with_max_signal - 1 < TSsize)
         amplitudewithPedSubtr += toolwithPedSubtr[ts_with_max_signal - 1];

       h_AamplitudewithPedSubtr_RADDAM_HE->Fill(amplitudewithPedSubtr);
       h_AamplitudewithPedSubtr_RADDAM_HEzoom0->Fill(amplitudewithPedSubtr);
       h_AamplitudewithPedSubtr_RADDAM_HEzoom1->Fill(amplitudewithPedSubtr);

       if (amplitudewithPedSubtr > 50.) {
         if (flagLaserRaddam_ > 1) {
           mapRADDAM_HE[mdepth - 1][ieta + 41][iphi] += amplitudewithPedSubtr;
           ++mapRADDAM0_HE[mdepth - 1][ieta + 41][iphi];
         }

         if (mdepth == 1) {
           h_mapDepth1RADDAM_HE->Fill(double(ieta), double(iphi), amplitudewithPedSubtr);
           h_mapDepth1RADDAM0_HE->Fill(double(ieta), double(iphi), 1.);
           h_A_Depth1RADDAM_HE->Fill(amplitudewithPedSubtr);
         }
         if (mdepth == 2) {
           h_mapDepth2RADDAM_HE->Fill(double(ieta), double(iphi), amplitudewithPedSubtr);
           h_mapDepth2RADDAM0_HE->Fill(double(ieta), double(iphi), 1.);
           h_A_Depth2RADDAM_HE->Fill(amplitudewithPedSubtr);
         }
         if (mdepth == 3) {
           h_mapDepth3RADDAM_HE->Fill(double(ieta), double(iphi), amplitudewithPedSubtr);
           h_mapDepth3RADDAM0_HE->Fill(double(ieta), double(iphi), 1.);
           h_A_Depth3RADDAM_HE->Fill(amplitudewithPedSubtr);
         }

         // (d1 & eta 17-29)                       L1
         int LLLLLL111111 = 0;
         if ((mdepth == 1 && fabs(ieta0) > 16 && fabs(ieta0) < 30))
           LLLLLL111111 = 1;
         // (d2 & eta 17-26) && (d3 & eta 27-28)   L2
         int LLLLLL222222 = 0;
         if ((mdepth == 2 && fabs(ieta0) > 16 && fabs(ieta0) < 27) ||
             (mdepth == 3 && fabs(ieta0) > 26 && fabs(ieta0) < 29))
           LLLLLL222222 = 1;
         //
         if (LLLLLL111111 == 1) {
           //forStudy        h_mapLayer1RADDAM_HE->Fill(fabs(double(ieta0)), amplitudewithPedSubtr); h_mapLayer1RADDAM0_HE->Fill(fabs(double(ieta0)), 1.); h_A_Layer1RADDAM_HE->Fill(amplitudewithPedSubtr);
           h_sigLayer1RADDAM_HE->Fill(double(ieta0), amplitudewithPedSubtr);
           h_sigLayer1RADDAM0_HE->Fill(double(ieta0), 1.);
         }
         if (LLLLLL222222 == 1) {
           //forStudy    h_mapLayer2RADDAM_HE->Fill(fabs(double(ieta0)), amplitudewithPedSubtr); h_mapLayer2RADDAM0_HE->Fill(fabs(double(ieta0)), 1.); h_A_Layer2RADDAM_HE->Fill(amplitudewithPedSubtr);
           h_sigLayer2RADDAM_HE->Fill(double(ieta0), amplitudewithPedSubtr);
           h_sigLayer2RADDAM0_HE->Fill(double(ieta0), 1.);
         }

         //
         if (mdepth == 3 && fabs(ieta0) == 16) {
           h_mapDepth3RADDAM16_HE->Fill(amplitudewithPedSubtr);
           // forStudy     h_mapDepth3RADDAM160_HE->Fill(1.);
         }
         //
       }  //amplitude > 60.
     }    // END RADDAM

     if (mdepth == 1)
       h_mapDepth1_HE->Fill(double(ieta), double(iphi), 1.);
     if (mdepth == 2)
       h_mapDepth2_HE->Fill(double(ieta), double(iphi), 1.);
     if (mdepth == 3)
       h_mapDepth3_HE->Fill(double(ieta), double(iphi), 1.);
   }  //if ( sub == 2 )
      //
 }  // fillDigiAmplitude
 void CMTRawAnalyzer::fillDigiAmplitudeQIE11(QIE11DataFrame qie11df) {
   CaloSamples toolOriginal;  // TS
   double tool[100];
   DetId detid = qie11df.detid();
   HcalDetId hcaldetid = HcalDetId(detid);
   int ieta = hcaldetid.ieta();
   if (ieta > 0)
     ieta -= 1;
   int iphi = hcaldetid.iphi() - 1;
   int mdepth = hcaldetid.depth();
   int sub = hcaldetid.subdet();  // 1-HB, 2-HE QIE11DigiCollection
   nTS = qie11df.samples();
   if (mdepth == 0 || sub > 4)
     return;
   if (mdepth > 3 && flagupgradeqie1011_ == 3)
     return;
   if (mdepth > 3 && flagupgradeqie1011_ == 7)
     return;
   if (mdepth > 3 && flagupgradeqie1011_ == 8)
     return;
   if (mdepth > 3 && flagupgradeqie1011_ == 9)
     return;

   // for some CMSSW versions and GT this line uncommented, can help to run job
   //if(mdepth ==4  && sub==1  && (ieta == -16 || ieta == 15)   ) return;// HB depth4 eta=-16, 15 since I did:if(ieta > 0) ieta -= 1;
   const HcalGain* gain = conditions->getGain(hcaldetid);
   //    const HcalGainWidth* gainWidth = conditions->getGainWidth(hcaldetid);
   const HcalRespCorr* respcorr = conditions->getHcalRespCorr(hcaldetid);
   const HcalTimeCorr* timecorr = conditions->getHcalTimeCorr(hcaldetid);
   const HcalLUTCorr* lutcorr = conditions->getHcalLUTCorr(hcaldetid);
   const HcalQIECoder* channelCoder = conditions->getHcalCoder(hcaldetid);
   const HcalPedestalWidth* pedw = conditions->getPedestalWidth(hcaldetid);
   const HcalPedestal* pedestal00 = conditions->getPedestal(hcaldetid);
   HcalCoderDb coder(*channelCoder, *shape);
   if (useADCfC_)
     coder.adc2fC(qie11df, toolOriginal);
   double pedestalaver9 = 0.;
   double pedestalaver4 = 0.;
   double pedestal0 = 0.;
   double pedestal1 = 0.;
   double pedestal2 = 0.;
   double pedestal3 = 0.;
   double pedestalwaver9 = 0.;
   double pedestalwaver4 = 0.;
   double pedestalw0 = 0.;
   double pedestalw1 = 0.;
   double pedestalw2 = 0.;
   double pedestalw3 = 0.;
   double difpedestal0 = 0.;
   double difpedestal1 = 0.;
   double difpedestal2 = 0.;
   double difpedestal3 = 0.;

   double amplitude = 0.;
   double amplitude0 = 0.;
   double absamplitude = 0.;
   double tocampl = 0.;

   double amplitude345 = 0.;
   double ampl = 0.;
   double ampl3ts = 0.;
   double timew = 0.;
   double timeww = 0.;
   double max_signal = -100.;
   int ts_with_max_signal = -100;
   int c0 = 0;
   int c1 = 0;
   int c2 = 0;
   int c3 = 0;
   int c4 = 0;
   double errorBtype = 0.;

   int TSsize = 8;  // sub= 1 HB
   if (sub == 2)
     TSsize = 8;  // sub = 2 HE
   if (nTS != TSsize)
     errorBtype = 1.;
   TSsize = nTS;  //nTS = qie11df.samples();
   // double ADC_ped = 0.;
   int flagTS2 = 0;
   for (int ii = 0; ii < TSsize; ii++) {
     double ampldefault = 0.;
     double tocdefault = 0.;
     double ampldefault0 = 0.;
     double ampldefault1 = 0.;
     double ampldefault2 = 0.;

     ampldefault0 = adc2fC_QIE11_shunt6[qie11df[ii].adc()];  // massive !!!!!!    (use for local runs as default shunt6)
     if (flaguseshunt_ == 1)
       ampldefault0 = adc2fC_QIE11_shunt1[qie11df[ii].adc()];  // massive !!!!!!
     if (useADCfC_)
       ampldefault1 = toolOriginal[ii];  //adcfC
     ampldefault2 = qie11df[ii].adc();   //ADCcounts

     if (useADCmassive_) {
       ampldefault = ampldefault0;
     }  // !!!!!!
     if (useADCfC_) {
       ampldefault = ampldefault1;
     }
     if (useADCcounts_) {
       ampldefault = ampldefault2;
     }
     tocdefault = ampldefault;

     int capid = (qie11df[ii]).capid();
     double pedestal = pedestal00->getValue(capid);
     double pedestalw = pedw->getSigma(capid, capid);
     double pedestalINI = pedestal00->getValue(capid);
     tocdefault -= pedestal;  // pedestal subtraction
     if (usePedestalSubtraction_)
       ampldefault -= pedestal;  // pedestal subtraction
     tool[ii] = ampldefault;
     pedestalaver9 += pedestal;
     pedestalwaver9 += pedestalw * pedestalw;

     if (capid == 0 && c0 == 0) {
       c0++;
       c4++;
       pedestalaver4 += pedestal;
       pedestal0 = pedestal;
       pedestalw0 = pedestalw;
       pedestalwaver4 += pedestalw * pedestalw;
       difpedestal0 = pedestal - pedestalINI;
     }

     if (capid == 1 && c1 == 0) {
       c1++;
       c4++;
       pedestalaver4 += pedestal;
       pedestal1 = pedestal;
       pedestalw1 = pedestalw;
       pedestalwaver4 += pedestalw * pedestalw;
       difpedestal1 = pedestal - pedestalINI;
     }
     if (capid == 2 && c2 == 0) {
       c2++;
       c4++;
       pedestalaver4 += pedestal;
       pedestal2 = pedestal;
       pedestalw2 = pedestalw;
       pedestalwaver4 += pedestalw * pedestalw;
       difpedestal2 = pedestal - pedestalINI;
     }
     if (capid == 3 && c3 == 0) {
       c3++;
       c4++;
       pedestalaver4 += pedestal;
       pedestal3 = pedestal;
       pedestalw3 = pedestalw;
       pedestalwaver4 += pedestalw * pedestalw;
       difpedestal3 = pedestal - pedestalINI;
     }

     if (max_signal < ampldefault) {
       max_signal = ampldefault;
       ts_with_max_signal = ii;
     }
     amplitude += ampldefault;          //
     absamplitude += abs(ampldefault);  //
     tocampl += tocdefault;             //

     if (ii == 1 || ii == 2 || ii == 3 || ii == 4 || ii == 5 || ii == 6 || ii == 7 || ii == 8)
       amplitude345 += ampldefault;

     if (flagcpuoptimization_ == 0) {
     }  //flagcpuoptimization

     timew += (ii + 1) * abs(ampldefault);
     timeww += (ii + 1) * ampldefault;

     if (ii == 2 && ampldefault > 0.)
       flagTS2 = 1;
   }  //for 1
   amplitude0 = amplitude;

   pedestalaver9 /= TSsize;
   pedestalaver4 /= c4;
   pedestalwaver9 = sqrt(pedestalwaver9 / TSsize);
   pedestalwaver4 = sqrt(pedestalwaver4 / c4);

   // ------------ to get signal in TS: -2 max +1  ------------
   if (ts_with_max_signal > -1 && ts_with_max_signal < TSsize) {
     ampl = tool[ts_with_max_signal];
     ampl3ts = tool[ts_with_max_signal];
   }
   if (ts_with_max_signal - 1 > -1 && ts_with_max_signal - 1 < TSsize) {
     ampl += tool[ts_with_max_signal - 1];
     ampl3ts += tool[ts_with_max_signal - 1];
   }
   if (ts_with_max_signal + 1 > -1 && ts_with_max_signal + 1 < TSsize) {
     ampl += tool[ts_with_max_signal + 1];
     ampl3ts += tool[ts_with_max_signal + 1];
   }
   if (ts_with_max_signal + 2 > -1 && ts_with_max_signal + 2 < TSsize) {
     ampl += tool[ts_with_max_signal + 2];
   }
   // HE charge correction for SiPMs:
   if (flagsipmcorrection_ != 0) {
     if (sub == 2) {
       double xa = amplitude / 40.;
       double xb = ampl / 40.;
       double xc = amplitude345 / 40.;
       double xd = ampl3ts / 40.;
       double txa = tocampl / 40.;
       // ADDI case:
       if (((ieta == -16 || ieta == 15) && mdepth == 4) ||
           ((ieta == -17 || ieta == 16) && (mdepth == 2 || mdepth == 3)) ||
           ((ieta == -18 || ieta == 17) && mdepth == 5)) {
         double c0 = 1.000000;
         double b1 = 2.59096e-05;
         double a2 = 4.60721e-11;
         double corrforxa = a2 * xa * xa + b1 * xa + c0;
         double corrforxb = a2 * xb * xb + b1 * xb + c0;
         double corrforxc = a2 * xc * xc + b1 * xc + c0;
         double corrforxd = a2 * xd * xd + b1 * xd + c0;
         double corrfortxa = a2 * txa * txa + b1 * txa + c0;
         h_corrforxaADDI_HE->Fill(amplitude, corrforxa);
         h_corrforxaADDI0_HE->Fill(amplitude, 1.);
         amplitude *= corrforxa;
         ampl *= corrforxb;
         amplitude345 *= corrforxc;
         ampl3ts *= corrforxd;
         tocampl *= corrfortxa;
       }
       // MAIN case:
       else {
         double c0 = 1.000000;
         double b1 = 2.71238e-05;
         double a2 = 1.32877e-10;
         double corrforxa = a2 * xa * xa + b1 * xa + c0;
         double corrforxb = a2 * xb * xb + b1 * xb + c0;
         double corrforxc = a2 * xc * xc + b1 * xc + c0;
         double corrforxd = a2 * xd * xd + b1 * xd + c0;
         double corrfortxa = a2 * txa * txa + b1 * txa + c0;
         h_corrforxaMAIN_HE->Fill(amplitude, corrforxa);
         h_corrforxaMAIN0_HE->Fill(amplitude, 1.);
         amplitude *= corrforxa;
         ampl *= corrforxb;
         amplitude345 *= corrforxc;
         ampl3ts *= corrforxd;
         tocampl *= corrfortxa;
       }
     }  // sub == 2   HE charge correction end
   }    //flagsipmcorrection_
   // sub=1||2 HBHE
   if (sub == 1 || sub == 2) {
     amplitudechannel0[sub - 1][mdepth - 1][ieta + 41][iphi] += 1.;                 // 0-neta ; 0-71  HBHE
     amplitudechannel[sub - 1][mdepth - 1][ieta + 41][iphi] += amplitude;           // 0-neta ; 0-71  HBHE
     amplitudechannel2[sub - 1][mdepth - 1][ieta + 41][iphi] += pow(amplitude, 2);  // 0-neta ; 0-71  HBHE
   }
   tocamplchannel[sub - 1][mdepth - 1][ieta + 41][iphi] += tocampl;  // 0-neta ; 0-71  HBHE

   double ratio = 0.;
   //    if(amplallTS != 0.) ratio = ampl/amplallTS;
   if (amplitude != 0.)
     ratio = ampl / amplitude;
   if (ratio < 0. || ratio > 1.02)
     ratio = 0.;
   double aveamplitude = 0.;
   double aveamplitudew = 0.;
   if (absamplitude > 0 && timew > 0)
     aveamplitude = timew / absamplitude;  // average_TS +1
   if (amplitude0 > 0 && timeww > 0)
     aveamplitudew = timeww / amplitude0;  // average_TS +1
   double rmsamp = 0.;
   // and CapIdErrors:
   int error = 0;
   bool anycapid = true;
   int lastcapid = 0;
   int capid = 0;
   for (int ii = 0; ii < TSsize; ii++) {
     double aaaaaa = (ii + 1) - aveamplitudew;
     double aaaaaa2 = aaaaaa * aaaaaa;
     double ampldefault = tool[ii];
     rmsamp += (aaaaaa2 * ampldefault);  // fC
     capid = (qie11df[ii]).capid();
     if (ii != 0 && ((lastcapid + 1) % 4) != capid) {
       anycapid = false;
     }
     lastcapid = capid;
   }  //for 2

   if (!anycapid)
     error = 1;
   double rmsamplitude = 0.;
   if ((amplitude0 > 0 && rmsamp > 0) || (amplitude0 < 0 && rmsamp < 0))
     rmsamplitude = sqrt(rmsamp / amplitude0);
   double aveamplitude1 = aveamplitude - 1;  // means iTS=0-9
   // CapIdErrors end  /////////////////////////////////////////////////////////

   // AZ 1.10.2015:
   if (error == 1) {
     if (sub == 1 && mdepth == 1)
       h_Amplitude_forCapIdErrors_HB1->Fill(amplitude, 1.);
     if (sub == 1 && mdepth == 2)
       h_Amplitude_forCapIdErrors_HB2->Fill(amplitude, 1.);
     if (sub == 2 && mdepth == 1)
       h_Amplitude_forCapIdErrors_HE1->Fill(amplitude, 1.);
     if (sub == 2 && mdepth == 2)
       h_Amplitude_forCapIdErrors_HE2->Fill(amplitude, 1.);
     if (sub == 2 && mdepth == 3)
       h_Amplitude_forCapIdErrors_HE3->Fill(amplitude, 1.);
   }
   if (error != 1) {
     if (sub == 1 && mdepth == 1)
       h_Amplitude_notCapIdErrors_HB1->Fill(amplitude, 1.);
     if (sub == 1 && mdepth == 2)
       h_Amplitude_notCapIdErrors_HB2->Fill(amplitude, 1.);
     if (sub == 2 && mdepth == 1)
       h_Amplitude_notCapIdErrors_HE1->Fill(amplitude, 1.);
     if (sub == 2 && mdepth == 2)
       h_Amplitude_notCapIdErrors_HE2->Fill(amplitude, 1.);
     if (sub == 2 && mdepth == 3)
       h_Amplitude_notCapIdErrors_HE3->Fill(amplitude, 1.);
   }

   for (int ii = 0; ii < TSsize; ii++) {
     //  for (int ii=0; ii<10; ii++) {
     double ampldefault = tool[ii];
     if (sub == 1) {
       if (amplitude0 > 120) {
         h_shape_Ahigh_HB0->Fill(float(ii), ampldefault);
         h_shape0_Ahigh_HB0->Fill(float(ii), 1.);
       } else {
         h_shape_Alow_HB0->Fill(float(ii), ampldefault);
         h_shape0_Alow_HB0->Fill(float(ii), 1.);
       }  //HB0
       if (pedestal2 < pedestalHBMax_ || pedestal3 < pedestalHBMax_ || pedestal2 < pedestalHBMax_ ||
           pedestal3 < pedestalHBMax_) {
         h_shape_Ahigh_HB1->Fill(float(ii), ampldefault);
         h_shape0_Ahigh_HB1->Fill(float(ii), 1.);
       } else {
         h_shape_Alow_HB1->Fill(float(ii), ampldefault);
         h_shape0_Alow_HB1->Fill(float(ii), 1.);
       }  //HB1
       if (error == 0) {
         h_shape_Ahigh_HB2->Fill(float(ii), ampldefault);
         h_shape0_Ahigh_HB2->Fill(float(ii), 1.);
       } else {
         h_shape_Alow_HB2->Fill(float(ii), ampldefault);
         h_shape0_Alow_HB2->Fill(float(ii), 1.);
       }  //HB2
       if (pedestalw0 < pedestalwHBMax_ || pedestalw1 < pedestalwHBMax_ || pedestalw2 < pedestalwHBMax_ ||
           pedestalw3 < pedestalwHBMax_) {
         h_shape_Ahigh_HB3->Fill(float(ii), ampldefault);
         h_shape0_Ahigh_HB3->Fill(float(ii), 1.);
       } else {
         h_shape_Alow_HB3->Fill(float(ii), ampldefault);
         h_shape0_Alow_HB3->Fill(float(ii), 1.);
       }  //HB3

     }  // sub   HB

   }  //for 3 over TSs

   if (sub == 1) {
     // bad_channels with C,A,W,P,pW,
     if (error == 1 || amplitude0 < ADCAmplHBMin_ || amplitude0 > ADCAmplHBMax_ || rmsamplitude < rmsHBMin_ ||
         rmsamplitude > rmsHBMax_ || pedestal0 < pedestalHBMax_ || pedestal1 < pedestalHBMax_ ||
         pedestal2 < pedestalHBMax_ || pedestal3 < pedestalHBMax_ || pedestalw0 < pedestalwHBMax_ ||
         pedestalw1 < pedestalwHBMax_ || pedestalw2 < pedestalwHBMax_ || pedestalw3 < pedestalwHBMax_) {
       for (int ii = 0; ii < TSsize; ii++) {
         double ampldefault = tool[ii];
         h_shape_bad_channels_HB->Fill(float(ii), ampldefault);
         h_shape0_bad_channels_HB->Fill(float(ii), 1.);
       }
     }
     // good_channels with C,A,W,P,pW
     else {
       for (int ii = 0; ii < TSsize; ii++) {
         double ampldefault = tool[ii];
         h_shape_good_channels_HB->Fill(float(ii), ampldefault);
         h_shape0_good_channels_HB->Fill(float(ii), 1.);
       }
     }
   }  // sub   HB

   // HE starts:
   if (sub == 2) {
     // shape bad_channels with C,A,W,P,pW,
     if (error == 1 || amplitude0 < ADCAmplHEMin_ || amplitude0 > ADCAmplHEMax_ || rmsamplitude < rmsHEMin_ ||
         rmsamplitude > rmsHEMax_ || pedestal0 < pedestalHEMax_ || pedestal1 < pedestalHEMax_ ||
         pedestal2 < pedestalHEMax_ || pedestal3 < pedestalHEMax_ || pedestalw0 < pedestalwHEMax_ ||
         pedestalw1 < pedestalwHEMax_ || pedestalw2 < pedestalwHEMax_ || pedestalw3 < pedestalwHEMax_) {
       for (int ii = 0; ii < TSsize; ii++) {
         double ampldefault = tool[ii];
         h_shape_bad_channels_HE->Fill(float(ii), ampldefault);
         h_shape0_bad_channels_HE->Fill(float(ii), 1.);
       }
     }
     // shape good_channels with C,A,W,P,pW,
     else {
       for (int ii = 0; ii < TSsize; ii++) {
         double ampldefault = tool[ii];
         h_shape_good_channels_HE->Fill(float(ii), ampldefault);
         h_shape0_good_channels_HE->Fill(float(ii), 1.);
       }  // ii
     }    // else for good channels
   }      // sub   HE
   sum0Estimator[sub - 1][mdepth - 1][ieta + 41][iphi] += 1.;
   //      for Error B-type
   sumEstimator6[sub - 1][mdepth - 1][ieta + 41][iphi] += errorBtype;
   //    sumEstimator0[sub-1][mdepth-1][ieta+41][iphi] += pedestalw0;//Sig_Pedestals
   sumEstimator0[sub - 1][mdepth - 1][ieta + 41][iphi] += pedestal0;  //Pedestals
   // HB
   if (sub == 1) {
     if (studyPedestalCorrelations_) {
       //   //   //   //   //   //   //   //   //  HB       PedestalCorrelations :
       double mypedestal = pedestal0;
       double mypedestalw = pedestalw0;
       h2_pedvsampl_HB->Fill(mypedestal, amplitude);
       h2_pedwvsampl_HB->Fill(mypedestalw, amplitude);
       h_pedvsampl_HB->Fill(mypedestal, amplitude);
       h_pedwvsampl_HB->Fill(mypedestalw, amplitude);
       h_pedvsampl0_HB->Fill(mypedestal, 1.);
       h_pedwvsampl0_HB->Fill(mypedestalw, 1.);

       h2_amplvsped_HB->Fill(amplitude, mypedestal);
       h2_amplvspedw_HB->Fill(amplitude, mypedestalw);
       h_amplvsped_HB->Fill(amplitude, mypedestal);
       h_amplvspedw_HB->Fill(amplitude, mypedestalw);
       h_amplvsped0_HB->Fill(amplitude, 1.);
     }  //
     //   //   //   //   //   //   //   //   //  HB       Pedestals:
     if (studyPedestalsHist_) {
       h_pedestal0_HB->Fill(pedestal0, 1.);
       h_pedestal1_HB->Fill(pedestal1, 1.);
       h_pedestal2_HB->Fill(pedestal2, 1.);
       h_pedestal3_HB->Fill(pedestal3, 1.);
       h_pedestalaver4_HB->Fill(pedestalaver4, 1.);
       h_pedestalaver9_HB->Fill(pedestalaver9, 1.);
       h_pedestalw0_HB->Fill(pedestalw0, 1.);
       h_pedestalw1_HB->Fill(pedestalw1, 1.);
       h_pedestalw2_HB->Fill(pedestalw2, 1.);
       h_pedestalw3_HB->Fill(pedestalw3, 1.);
       h_pedestalwaver4_HB->Fill(pedestalwaver4, 1.);
       h_pedestalwaver9_HB->Fill(pedestalwaver9, 1.);
       // for averaged values:
       if (mdepth == 1) {
         h_mapDepth1Ped0_HB->Fill(double(ieta), double(iphi), pedestal0);
         h_mapDepth1Ped1_HB->Fill(double(ieta), double(iphi), pedestal1);
         h_mapDepth1Ped2_HB->Fill(double(ieta), double(iphi), pedestal2);
         h_mapDepth1Ped3_HB->Fill(double(ieta), double(iphi), pedestal3);
         h_mapDepth1Pedw0_HB->Fill(double(ieta), double(iphi), pedestalw0);
         h_mapDepth1Pedw1_HB->Fill(double(ieta), double(iphi), pedestalw1);
         h_mapDepth1Pedw2_HB->Fill(double(ieta), double(iphi), pedestalw2);
         h_mapDepth1Pedw3_HB->Fill(double(ieta), double(iphi), pedestalw3);
       }
       if (mdepth == 2) {
         h_mapDepth2Ped0_HB->Fill(double(ieta), double(iphi), pedestal0);
         h_mapDepth2Ped1_HB->Fill(double(ieta), double(iphi), pedestal1);
         h_mapDepth2Ped2_HB->Fill(double(ieta), double(iphi), pedestal2);
         h_mapDepth2Ped3_HB->Fill(double(ieta), double(iphi), pedestal3);
         h_mapDepth2Pedw0_HB->Fill(double(ieta), double(iphi), pedestalw0);
         h_mapDepth2Pedw1_HB->Fill(double(ieta), double(iphi), pedestalw1);
         h_mapDepth2Pedw2_HB->Fill(double(ieta), double(iphi), pedestalw2);
         h_mapDepth2Pedw3_HB->Fill(double(ieta), double(iphi), pedestalw3);
       }
       if (pedestalw0 < pedestalwHBMax_ || pedestalw1 < pedestalwHBMax_ || pedestalw2 < pedestalwHBMax_ ||
           pedestalw3 < pedestalwHBMax_) {
         if (mdepth == 1)
           h_mapDepth1pedestalw_HB->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 2)
           h_mapDepth2pedestalw_HB->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 3)
           h_mapDepth3pedestalw_HB->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 3)
           h_mapDepth4pedestalw_HB->Fill(double(ieta), double(iphi), 1.);
       }
       if (pedestal0 < pedestalHBMax_ || pedestal1 < pedestalHBMax_ || pedestal2 < pedestalHBMax_ ||
           pedestal3 < pedestalHBMax_) {
         if (mdepth == 1)
           h_mapDepth1pedestal_HB->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 2)
           h_mapDepth2pedestal_HB->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 3)
           h_mapDepth3pedestal_HB->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 4)
           h_mapDepth4pedestal_HB->Fill(double(ieta), double(iphi), 1.);
       }
       for (int ii = 0; ii < TSsize; ii++) {
         h_pedestal00_HB->Fill(pedestal00->getValue(ii), 1.);
         h_gain_HB->Fill(gain->getValue(ii), 1.);
       }
       h_respcorr_HB->Fill(respcorr->getValue(), 1.);
       h_timecorr_HB->Fill(timecorr->getValue(), 1.);
       h_lutcorr_HB->Fill(lutcorr->getValue(), 1.);
       h_difpedestal0_HB->Fill(difpedestal0, 1.);
       h_difpedestal1_HB->Fill(difpedestal1, 1.);
       h_difpedestal2_HB->Fill(difpedestal2, 1.);
       h_difpedestal3_HB->Fill(difpedestal3, 1.);
     }  //
     //   //   //   //   //   //   //   //   //  HB       ADCAmpl:
     if (studyADCAmplHist_) {
       h_ADCAmpl345Zoom_HB->Fill(amplitude345, 1.);
       h_ADCAmpl345Zoom1_HB->Fill(amplitude345, 1.);
       h_ADCAmpl345_HB->Fill(amplitude345, 1.);
       if (error == 0) {
         h_ADCAmpl_HBCapIdNoError->Fill(amplitude, 1.);
         h_ADCAmpl345_HBCapIdNoError->Fill(amplitude345, 1.);
       }
       if (error == 1) {
         h_ADCAmpl_HBCapIdError->Fill(amplitude, 1.);
         h_ADCAmpl345_HBCapIdError->Fill(amplitude345, 1.);
       }
       h_ADCAmplZoom_HB->Fill(amplitude, 1.);
       h_ADCAmplZoom1_HB->Fill(amplitude, 1.);
       h_ADCAmpl_HB->Fill(amplitude, 1.);

       h_AmplitudeHBrest->Fill(amplitude, 1.);
       h_AmplitudeHBrest1->Fill(amplitude, 1.);
       h_AmplitudeHBrest6->Fill(amplitude, 1.);

       if (amplitude < ADCAmplHBMin_ || amplitude > ADCAmplHBMax_) {
         if (studyRunDependenceHist_ && flagtodefinebadchannel_ == 5)
           ++badchannels[sub - 1][mdepth - 1][ieta + 41][iphi];  // 0-neta ; 0-71
         if (mdepth == 1)
           h_mapDepth1ADCAmpl225_HB->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 2)
           h_mapDepth2ADCAmpl225_HB->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 3)
           h_mapDepth3ADCAmpl225_HB->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 4)
           h_mapDepth4ADCAmpl225_HB->Fill(double(ieta), double(iphi), 1.);
       }  // if
       //    if(amplitude >400.) averSIGNALoccupancy_HB += 1.;
       if (amplitude < 35.) {
         if (mdepth == 1)
           h_mapDepth1ADCAmpl225Copy_HB->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 2)
           h_mapDepth2ADCAmpl225Copy_HB->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 3)
           h_mapDepth3ADCAmpl225Copy_HB->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 4)
           h_mapDepth4ADCAmpl225Copy_HB->Fill(double(ieta), double(iphi), 1.);
       }  // if
       // for averaged values:
       if (mdepth == 1)
         h_mapDepth1ADCAmpl_HB->Fill(double(ieta), double(iphi), amplitude);
       if (mdepth == 2)
         h_mapDepth2ADCAmpl_HB->Fill(double(ieta), double(iphi), amplitude);
       if (mdepth == 3)
         h_mapDepth3ADCAmpl_HB->Fill(double(ieta), double(iphi), amplitude);
       if (mdepth == 4)
         h_mapDepth4ADCAmpl_HB->Fill(double(ieta), double(iphi), amplitude);
       if (mdepth == 1)
         h_mapDepth1ADCAmpl12_HB->Fill(double(ieta), double(iphi), ampl);
       if (mdepth == 2)
         h_mapDepth2ADCAmpl12_HB->Fill(double(ieta), double(iphi), ampl);
       if (mdepth == 3)
         h_mapDepth3ADCAmpl12_HB->Fill(double(ieta), double(iphi), ampl);
       if (mdepth == 4)
         h_mapDepth4ADCAmpl12_HB->Fill(double(ieta), double(iphi), ampl);
       h_bcnvsamplitude_HB->Fill(float(bcn), amplitude);
       h_bcnvsamplitude0_HB->Fill(float(bcn), 1.);
       h_orbitNumvsamplitude_HB->Fill(float(orbitNum), amplitude);
       h_orbitNumvsamplitude0_HB->Fill(float(orbitNum), 1.);
       if (amplitude > forallestimators_amplitude_bigger_)
         sumEstimator1[sub - 1][mdepth - 1][ieta + 41][iphi] += amplitude;
     }  //if(studyADCAmplHist_

     //   //   //   //   //   //   //   //   //  HB       TSmean:
     if (studyTSmeanShapeHist_) {
       h_TSmeanA_HB->Fill(aveamplitude1, 1.);
       //      h2_TSnVsAyear2023_HB->Fill(25.*aveamplitude1, amplitude);
       h2_TSnVsAyear2023_HB->Fill(amplitude, 25. * aveamplitude1);
       h1_TSnVsAyear2023_HB->Fill(amplitude, 25. * aveamplitude1);
       h1_TSnVsAyear20230_HB->Fill(amplitude, 1.);
       if (aveamplitude1 < TSmeanHBMin_ || aveamplitude1 > TSmeanHBMax_) {
         if (studyRunDependenceHist_ && flagtodefinebadchannel_ == 4)
           ++badchannels[sub - 1][mdepth - 1][ieta + 41][iphi];  // 0-neta ; 0-71
         if (mdepth == 1)
           h_mapDepth1TSmeanA225_HB->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 2)
           h_mapDepth2TSmeanA225_HB->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 3)
           h_mapDepth3TSmeanA225_HB->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 4)
           h_mapDepth4TSmeanA225_HB->Fill(double(ieta), double(iphi), 1.);
       }  // if
       // for averaged values:
       if (mdepth == 1)
         h_mapDepth1TSmeanA_HB->Fill(double(ieta), double(iphi), aveamplitude1);
       if (mdepth == 2)
         h_mapDepth2TSmeanA_HB->Fill(double(ieta), double(iphi), aveamplitude1);
       if (mdepth == 3)
         h_mapDepth3TSmeanA_HB->Fill(double(ieta), double(iphi), aveamplitude1);
       if (mdepth == 4)
         h_mapDepth4TSmeanA_HB->Fill(double(ieta), double(iphi), aveamplitude1);
       if (amplitude > forallestimators_amplitude_bigger_)
         sumEstimator2[sub - 1][mdepth - 1][ieta + 41][iphi] += aveamplitude1;
     }  //if(studyTSmeanShapeHist_

     //   //   //   //   //   //   //   //   //  HB       TSmax:
     if (studyTSmaxShapeHist_) {
       h_TSmaxA_HB->Fill(float(ts_with_max_signal), 1.);
       if (ts_with_max_signal < TSpeakHBMin_ || ts_with_max_signal > TSpeakHBMax_) {
         if (studyRunDependenceHist_ && flagtodefinebadchannel_ == 3)
           ++badchannels[sub - 1][mdepth - 1][ieta + 41][iphi];  // 0-neta ; 0-71
         if (mdepth == 1)
           h_mapDepth1TSmaxA225_HB->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 2)
           h_mapDepth2TSmaxA225_HB->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 3)
           h_mapDepth3TSmaxA225_HB->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 4)
           h_mapDepth4TSmaxA225_HB->Fill(double(ieta), double(iphi), 1.);
       }  // if
       // for averaged values:
       if (mdepth == 1)
         h_mapDepth1TSmaxA_HB->Fill(double(ieta), double(iphi), float(ts_with_max_signal));
       if (mdepth == 2)
         h_mapDepth2TSmaxA_HB->Fill(double(ieta), double(iphi), float(ts_with_max_signal));
       if (mdepth == 3)
         h_mapDepth3TSmaxA_HB->Fill(double(ieta), double(iphi), float(ts_with_max_signal));
       if (mdepth == 4)
         h_mapDepth4TSmaxA_HB->Fill(double(ieta), double(iphi), float(ts_with_max_signal));
       if (amplitude > forallestimators_amplitude_bigger_)
         sumEstimator3[sub - 1][mdepth - 1][ieta + 41][iphi] += float(ts_with_max_signal);
     }  //if(studyTSmaxShapeHist_

     //   //   //   //   //   //   //   //   //  HB       RMS:
     if (studyRMSshapeHist_) {
       h_Amplitude_HB->Fill(rmsamplitude, 1.);
       if (rmsamplitude < rmsHBMin_ || rmsamplitude > rmsHBMax_) {
         if (studyRunDependenceHist_ && flagtodefinebadchannel_ == 2)
           ++badchannels[sub - 1][mdepth - 1][ieta + 41][iphi];  // 0-neta ; 0-71
         if (mdepth == 1)
           h_mapDepth1Amplitude225_HB->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 2)
           h_mapDepth2Amplitude225_HB->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 3)
           h_mapDepth3Amplitude225_HB->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 4)
           h_mapDepth4Amplitude225_HB->Fill(double(ieta), double(iphi), 1.);
       }  // if
       // for averaged values:
       if (mdepth == 1)
         h_mapDepth1Amplitude_HB->Fill(double(ieta), double(iphi), rmsamplitude);
       if (mdepth == 2)
         h_mapDepth2Amplitude_HB->Fill(double(ieta), double(iphi), rmsamplitude);
       if (mdepth == 3)
         h_mapDepth3Amplitude_HB->Fill(double(ieta), double(iphi), rmsamplitude);
       if (mdepth == 4)
         h_mapDepth4Amplitude_HB->Fill(double(ieta), double(iphi), rmsamplitude);
       if (amplitude > forallestimators_amplitude_bigger_)
         sumEstimator4[sub - 1][mdepth - 1][ieta + 41][iphi] += rmsamplitude;
     }  //if(studyRMSshapeHist_)

     //   //   //   //   //   //   //   //   //  HB       Ratio:
     if (studyRatioShapeHist_) {
       h_Ampl_HB->Fill(ratio, 1.);
       if (ratio < ratioHBMin_ || ratio > ratioHBMax_) {
         if (studyRunDependenceHist_ && flagtodefinebadchannel_ == 1)
           ++badchannels[sub - 1][mdepth - 1][ieta + 41][iphi];  // 0-neta ; 0-71
         if (mdepth == 1)
           h_mapDepth1Ampl047_HB->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 2)
           h_mapDepth2Ampl047_HB->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 3)
           h_mapDepth3Ampl047_HB->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 4)
           h_mapDepth4Ampl047_HB->Fill(double(ieta), double(iphi), 1.);
         // //
       }  //if(ratio
       // for averaged values:
       if (mdepth == 1)
         h_mapDepth1Ampl_HB->Fill(double(ieta), double(iphi), ratio);
       if (mdepth == 2)
         h_mapDepth2Ampl_HB->Fill(double(ieta), double(iphi), ratio);
       if (mdepth == 3)
         h_mapDepth3Ampl_HB->Fill(double(ieta), double(iphi), ratio);
       if (mdepth == 4)
         h_mapDepth4Ampl_HB->Fill(double(ieta), double(iphi), ratio);
       if (amplitude > forallestimators_amplitude_bigger_)
         sumEstimator5[sub - 1][mdepth - 1][ieta + 41][iphi] += ratio;
     }  //if(studyRatioShapeHist_)

     //   //   //   //   //   //   //   //   //  HB      DiffAmplitude:
     if (studyDiffAmplHist_) {
       if (mdepth == 1)
         h_mapDepth1AmplE34_HB->Fill(double(ieta), double(iphi), amplitude);
       if (mdepth == 2)
         h_mapDepth2AmplE34_HB->Fill(double(ieta), double(iphi), amplitude);
       if (mdepth == 3)
         h_mapDepth3AmplE34_HB->Fill(double(ieta), double(iphi), amplitude);
       if (mdepth == 4)
         h_mapDepth4AmplE34_HB->Fill(double(ieta), double(iphi), amplitude);
     }  // if(studyDiffAmplHist_)

     if (mdepth == 1)
       h_mapDepth1_HB->Fill(double(ieta), double(iphi), 1.);
     if (mdepth == 2)
       h_mapDepth2_HB->Fill(double(ieta), double(iphi), 1.);
     if (mdepth == 3)
       h_mapDepth3_HB->Fill(double(ieta), double(iphi), 1.);
     if (mdepth == 4)
       h_mapDepth4_HB->Fill(double(ieta), double(iphi), 1.);

     if (flagTS2 == 1) {
       if (mdepth == 1)
         h_mapDepth1TS2_HB->Fill(double(ieta), double(iphi), 1.);
       if (mdepth == 2)
         h_mapDepth2TS2_HB->Fill(double(ieta), double(iphi), 1.);
       if (mdepth == 3)
         h_mapDepth3TS2_HB->Fill(double(ieta), double(iphi), 1.);
       if (mdepth == 4)
         h_mapDepth4TS2_HB->Fill(double(ieta), double(iphi), 1.);
     }  // select entries only in TS=2

   }  //if ( sub == 1 )

   // HE   QIE11
   if (sub == 2) {
     //   //   //   //   //   //   //   //   //  HE   QIE11    PedestalCorrelations :
     if (studyPedestalCorrelations_) {
       //    double mypedestal  = pedestalaver9;
       //    double mypedestalw = pedestalwaver9;
       double mypedestal = pedestal0;
       double mypedestalw = pedestalw0;
       h2_pedvsampl_HE->Fill(mypedestal, amplitude);
       h2_pedwvsampl_HE->Fill(mypedestalw, amplitude);
       h_pedvsampl_HE->Fill(mypedestal, amplitude);
       h_pedwvsampl_HE->Fill(mypedestalw, amplitude);
       h_pedvsampl0_HE->Fill(mypedestal, 1.);
       h_pedwvsampl0_HE->Fill(mypedestalw, 1.);
     }  //
     //   //   //   //   //   //   //   //   //  HE   QIE11    Pedestals:
     if (studyPedestalsHist_) {
       h_pedestal0_HE->Fill(pedestal0, 1.);
       h_pedestal1_HE->Fill(pedestal1, 1.);
       h_pedestal2_HE->Fill(pedestal2, 1.);
       h_pedestal3_HE->Fill(pedestal3, 1.);
       h_pedestalaver4_HE->Fill(pedestalaver4, 1.);
       h_pedestalaver9_HE->Fill(pedestalaver9, 1.);
       h_pedestalw0_HE->Fill(pedestalw0, 1.);
       h_pedestalw1_HE->Fill(pedestalw1, 1.);
       h_pedestalw2_HE->Fill(pedestalw2, 1.);
       h_pedestalw3_HE->Fill(pedestalw3, 1.);
       h_pedestalwaver4_HE->Fill(pedestalwaver4, 1.);
       h_pedestalwaver9_HE->Fill(pedestalwaver9, 1.);
       // for averaged values:
       if (mdepth == 1) {
         h_mapDepth1Ped0_HE->Fill(double(ieta), double(iphi), pedestal0);
         h_mapDepth1Ped1_HE->Fill(double(ieta), double(iphi), pedestal1);
         h_mapDepth1Ped2_HE->Fill(double(ieta), double(iphi), pedestal2);
         h_mapDepth1Ped3_HE->Fill(double(ieta), double(iphi), pedestal3);
         h_mapDepth1Pedw0_HE->Fill(double(ieta), double(iphi), pedestalw0);
         h_mapDepth1Pedw1_HE->Fill(double(ieta), double(iphi), pedestalw1);
         h_mapDepth1Pedw2_HE->Fill(double(ieta), double(iphi), pedestalw2);
         h_mapDepth1Pedw3_HE->Fill(double(ieta), double(iphi), pedestalw3);
       }
       if (mdepth == 2) {
         h_mapDepth2Ped0_HE->Fill(double(ieta), double(iphi), pedestal0);
         h_mapDepth2Ped1_HE->Fill(double(ieta), double(iphi), pedestal1);
         h_mapDepth2Ped2_HE->Fill(double(ieta), double(iphi), pedestal2);
         h_mapDepth2Ped3_HE->Fill(double(ieta), double(iphi), pedestal3);
         h_mapDepth2Pedw0_HE->Fill(double(ieta), double(iphi), pedestalw0);
         h_mapDepth2Pedw1_HE->Fill(double(ieta), double(iphi), pedestalw1);
         h_mapDepth2Pedw2_HE->Fill(double(ieta), double(iphi), pedestalw2);
         h_mapDepth2Pedw3_HE->Fill(double(ieta), double(iphi), pedestalw3);
       }
       if (mdepth == 3) {
         h_mapDepth3Ped0_HE->Fill(double(ieta), double(iphi), pedestal0);
         h_mapDepth3Ped1_HE->Fill(double(ieta), double(iphi), pedestal1);
         h_mapDepth3Ped2_HE->Fill(double(ieta), double(iphi), pedestal2);
         h_mapDepth3Ped3_HE->Fill(double(ieta), double(iphi), pedestal3);
         h_mapDepth3Pedw0_HE->Fill(double(ieta), double(iphi), pedestalw0);
         h_mapDepth3Pedw1_HE->Fill(double(ieta), double(iphi), pedestalw1);
         h_mapDepth3Pedw2_HE->Fill(double(ieta), double(iphi), pedestalw2);
         h_mapDepth3Pedw3_HE->Fill(double(ieta), double(iphi), pedestalw3);
       }
       if (pedestalw0 < pedestalwHEMax_ || pedestalw1 < pedestalwHEMax_ || pedestalw2 < pedestalwHEMax_ ||
           pedestalw3 < pedestalwHEMax_) {
         if (mdepth == 1)
           h_mapDepth1pedestalw_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 2)
           h_mapDepth2pedestalw_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 3)
           h_mapDepth3pedestalw_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 4)
           h_mapDepth4pedestalw_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 5)
           h_mapDepth5pedestalw_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 6)
           h_mapDepth6pedestalw_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 7)
           h_mapDepth7pedestalw_HE->Fill(double(ieta), double(iphi), 1.);
       }
       if (pedestal0 < pedestalHEMax_ || pedestal1 < pedestalHEMax_ || pedestal2 < pedestalHEMax_ ||
           pedestal3 < pedestalHEMax_) {
         if (mdepth == 1)
           h_mapDepth1pedestal_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 2)
           h_mapDepth2pedestal_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 3)
           h_mapDepth3pedestal_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 4)
           h_mapDepth4pedestal_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 5)
           h_mapDepth5pedestal_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 6)
           h_mapDepth6pedestal_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 7)
           h_mapDepth7pedestal_HE->Fill(double(ieta), double(iphi), 1.);
       }
       for (int ii = 0; ii < TSsize; ii++) {
         h_pedestal00_HE->Fill(pedestal00->getValue(ii), 1.);
         h_gain_HE->Fill(gain->getValue(ii), 1.);
       }
       h_respcorr_HE->Fill(respcorr->getValue(), 1.);
       h_timecorr_HE->Fill(timecorr->getValue(), 1.);
       h_lutcorr_HE->Fill(lutcorr->getValue(), 1.);
     }  //
     //   //   //   //   //   //   //   //   //  HE  QIE11     ADCAmpl:
     if (studyADCAmplHist_) {
       h_ADCAmpl345_HE->Fill(amplitude345, 1.);
       h_ADCAmpl_HE->Fill(amplitude, 1.);
       //    if( ieta <0) h_ADCAmpl_HEM->Fill(amplitude,1.);
       //    if( ieta >0) h_ADCAmpl_HEP->Fill(amplitude,1.);
       h_ADCAmplrest_HE->Fill(amplitude, 1.);
       h_ADCAmplrest1_HE->Fill(amplitude, 1.);
       h_ADCAmplrest6_HE->Fill(amplitude, 1.);

       if (amplitude < ADCAmplHEMin_ || amplitude > ADCAmplHEMax_) {
         if (studyRunDependenceHist_ && flagtodefinebadchannel_ == 5)
           ++badchannels[sub - 1][mdepth - 1][ieta + 41][iphi];  // 0-neta ; 0-71
         if (mdepth == 1)
           h_mapDepth1ADCAmpl225_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 2)
           h_mapDepth2ADCAmpl225_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 3)
           h_mapDepth3ADCAmpl225_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 4)
           h_mapDepth4ADCAmpl225_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 5)
           h_mapDepth5ADCAmpl225_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 6)
           h_mapDepth6ADCAmpl225_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 7)
           h_mapDepth7ADCAmpl225_HE->Fill(double(ieta), double(iphi), 1.);
       }  // if
       //    if(amplitude > 700.) averSIGNALoccupancy_HE += 1.;
       if (amplitude < 500.) {
         if (mdepth == 1)
           h_mapDepth1ADCAmpl225Copy_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 2)
           h_mapDepth2ADCAmpl225Copy_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 3)
           h_mapDepth3ADCAmpl225Copy_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 4)
           h_mapDepth4ADCAmpl225Copy_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 5)
           h_mapDepth5ADCAmpl225Copy_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 6)
           h_mapDepth6ADCAmpl225Copy_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 7)
           h_mapDepth7ADCAmpl225Copy_HE->Fill(double(ieta), double(iphi), 1.);
       }  // if

       h_ADCAmplZoom1_HE->Fill(amplitude, 1.);   // for amplitude allTS
       h_ADCAmpl345Zoom1_HE->Fill(ampl3ts, 1.);  // for ampl3ts 3TSs
       h_ADCAmpl345Zoom_HE->Fill(ampl, 1.);      // for ampl 4TSs

       if (amplitude > 110 && amplitude < 150) {
         h_mapADCAmplfirstpeak_HE->Fill(double(ieta), double(iphi), amplitude);
         h_mapADCAmplfirstpeak0_HE->Fill(double(ieta), double(iphi), 1.);
       } else if (amplitude > 150 && amplitude < 190) {
         h_mapADCAmplsecondpeak_HE->Fill(double(ieta), double(iphi), amplitude);
         h_mapADCAmplsecondpeak0_HE->Fill(double(ieta), double(iphi), 1.);
       }

       if (ampl3ts > 70 && ampl3ts < 110) {
         h_mapADCAmpl11firstpeak_HE->Fill(double(ieta), double(iphi), ampl3ts);
         h_mapADCAmpl11firstpeak0_HE->Fill(double(ieta), double(iphi), 1.);
       } else if (ampl3ts > 110 && ampl3ts < 150) {
         h_mapADCAmpl11secondpeak_HE->Fill(double(ieta), double(iphi), ampl3ts);
         h_mapADCAmpl11secondpeak0_HE->Fill(double(ieta), double(iphi), 1.);
       }
       if (ampl > 87 && ampl < 127) {
         h_mapADCAmpl12firstpeak_HE->Fill(double(ieta), double(iphi), ampl);
         h_mapADCAmpl12firstpeak0_HE->Fill(double(ieta), double(iphi), 1.);
       } else if (ampl > 127 && ampl < 167) {
         h_mapADCAmpl12secondpeak_HE->Fill(double(ieta), double(iphi), ampl);
         h_mapADCAmpl12secondpeak0_HE->Fill(double(ieta), double(iphi), 1.);
       }
       // for averaged values of every channel:
       if (mdepth == 1)
         h_mapDepth1ADCAmpl_HE->Fill(double(ieta), double(iphi), amplitude);
       if (mdepth == 2)
         h_mapDepth2ADCAmpl_HE->Fill(double(ieta), double(iphi), amplitude);
       if (mdepth == 3)
         h_mapDepth3ADCAmpl_HE->Fill(double(ieta), double(iphi), amplitude);
       if (mdepth == 4)
         h_mapDepth4ADCAmpl_HE->Fill(double(ieta), double(iphi), amplitude);
       if (mdepth == 5)
         h_mapDepth5ADCAmpl_HE->Fill(double(ieta), double(iphi), amplitude);
       if (mdepth == 6)
         h_mapDepth6ADCAmpl_HE->Fill(double(ieta), double(iphi), amplitude);
       if (mdepth == 7)
         h_mapDepth7ADCAmpl_HE->Fill(double(ieta), double(iphi), amplitude);
       if (mdepth == 1)
         h_mapDepth1ADCAmpl12_HE->Fill(double(ieta), double(iphi), ampl);
       if (mdepth == 2)
         h_mapDepth2ADCAmpl12_HE->Fill(double(ieta), double(iphi), ampl);
       if (mdepth == 3)
         h_mapDepth3ADCAmpl12_HE->Fill(double(ieta), double(iphi), ampl);
       if (mdepth == 4)
         h_mapDepth4ADCAmpl12_HE->Fill(double(ieta), double(iphi), ampl);
       if (mdepth == 5)
         h_mapDepth5ADCAmpl12_HE->Fill(double(ieta), double(iphi), ampl);
       if (mdepth == 6)
         h_mapDepth6ADCAmpl12_HE->Fill(double(ieta), double(iphi), ampl);
       if (mdepth == 7)
         h_mapDepth7ADCAmpl12_HE->Fill(double(ieta), double(iphi), ampl);
       // for averaged values of SiPM channels only:
       if (mdepth == 1)
         h_mapDepth1ADCAmplSiPM_HE->Fill(double(ieta), double(iphi), amplitude);
       if (mdepth == 2)
         h_mapDepth2ADCAmplSiPM_HE->Fill(double(ieta), double(iphi), amplitude);
       if (mdepth == 3)
         h_mapDepth3ADCAmplSiPM_HE->Fill(double(ieta), double(iphi), amplitude);
       if (mdepth == 1)
         h_mapDepth1ADCAmpl12SiPM_HE->Fill(double(ieta), double(iphi), ampl);
       if (mdepth == 2)
         h_mapDepth2ADCAmpl12SiPM_HE->Fill(double(ieta), double(iphi), ampl);
       if (mdepth == 3)
         h_mapDepth3ADCAmpl12SiPM_HE->Fill(double(ieta), double(iphi), ampl);
       //
       h_bcnvsamplitude_HE->Fill(float(bcn), amplitude);
       h_bcnvsamplitude0_HE->Fill(float(bcn), 1.);
       h_orbitNumvsamplitude_HE->Fill(float(orbitNum), amplitude);
       h_orbitNumvsamplitude0_HE->Fill(float(orbitNum), 1.);
       if (amplitude > forallestimators_amplitude_bigger_)
         sumEstimator1[sub - 1][mdepth - 1][ieta + 41][iphi] += amplitude;
     }  //if(studyADCAmplHist_
     //   //   //   //   //   //   //   //   //  HE  QIE11     TSmean:
     if (studyTSmeanShapeHist_) {
       h_TSmeanA_HE->Fill(aveamplitude1, 1.);
       //    h2_TSnVsAyear2023_HE->Fill(25.*aveamplitude1, amplitude);
       h2_TSnVsAyear2023_HE->Fill(amplitude, 25. * aveamplitude1);
       h1_TSnVsAyear2023_HE->Fill(amplitude, 25. * aveamplitude1);
       h1_TSnVsAyear20230_HE->Fill(amplitude, 1.);
       if (aveamplitude1 < TSmeanHEMin_ || aveamplitude1 > TSmeanHEMax_) {
         if (studyRunDependenceHist_ && flagtodefinebadchannel_ == 4)
           ++badchannels[sub - 1][mdepth - 1][ieta + 41][iphi];  // 0-neta ; 0-71
         if (mdepth == 1)
           h_mapDepth1TSmeanA225_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 2)
           h_mapDepth2TSmeanA225_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 3)
           h_mapDepth3TSmeanA225_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 4)
           h_mapDepth4TSmeanA225_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 5)
           h_mapDepth5TSmeanA225_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 6)
           h_mapDepth6TSmeanA225_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 7)
           h_mapDepth7TSmeanA225_HE->Fill(double(ieta), double(iphi), 1.);
       }  // if
       // for averaged values:
       if (mdepth == 1)
         h_mapDepth1TSmeanA_HE->Fill(double(ieta), double(iphi), aveamplitude1);
       if (mdepth == 2)
         h_mapDepth2TSmeanA_HE->Fill(double(ieta), double(iphi), aveamplitude1);
       if (mdepth == 3)
         h_mapDepth3TSmeanA_HE->Fill(double(ieta), double(iphi), aveamplitude1);
       if (mdepth == 4)
         h_mapDepth4TSmeanA_HE->Fill(double(ieta), double(iphi), aveamplitude1);
       if (mdepth == 5)
         h_mapDepth5TSmeanA_HE->Fill(double(ieta), double(iphi), aveamplitude1);
       if (mdepth == 6)
         h_mapDepth6TSmeanA_HE->Fill(double(ieta), double(iphi), aveamplitude1);
       if (mdepth == 7)
         h_mapDepth7TSmeanA_HE->Fill(double(ieta), double(iphi), aveamplitude1);
       if (amplitude > forallestimators_amplitude_bigger_)
         sumEstimator2[sub - 1][mdepth - 1][ieta + 41][iphi] += aveamplitude1;
     }  //if(studyTSmeanShapeHist_) {
     //   //   //   //   //   //   //   //   //  HE  QIE11     TSmax:
     if (studyTSmaxShapeHist_) {
       h_TSmaxA_HE->Fill(float(ts_with_max_signal), 1.);
       if (ts_with_max_signal < TSpeakHEMin_ || ts_with_max_signal > TSpeakHEMax_) {
         if (studyRunDependenceHist_ && flagtodefinebadchannel_ == 3)
           ++badchannels[sub - 1][mdepth - 1][ieta + 41][iphi];  // 0-neta ; 0-71
         if (mdepth == 1)
           h_mapDepth1TSmaxA225_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 2)
           h_mapDepth2TSmaxA225_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 3)
           h_mapDepth3TSmaxA225_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 4)
           h_mapDepth4TSmaxA225_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 5)
           h_mapDepth5TSmaxA225_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 6)
           h_mapDepth6TSmaxA225_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 7)
           h_mapDepth7TSmaxA225_HE->Fill(double(ieta), double(iphi), 1.);
       }  // if
       // for averaged values:
       if (mdepth == 1)
         h_mapDepth1TSmaxA_HE->Fill(double(ieta), double(iphi), float(ts_with_max_signal));
       if (mdepth == 2)
         h_mapDepth2TSmaxA_HE->Fill(double(ieta), double(iphi), float(ts_with_max_signal));
       if (mdepth == 3)
         h_mapDepth3TSmaxA_HE->Fill(double(ieta), double(iphi), float(ts_with_max_signal));
       if (mdepth == 4)
         h_mapDepth4TSmaxA_HE->Fill(double(ieta), double(iphi), float(ts_with_max_signal));
       if (mdepth == 5)
         h_mapDepth5TSmaxA_HE->Fill(double(ieta), double(iphi), float(ts_with_max_signal));
       if (mdepth == 6)
         h_mapDepth6TSmaxA_HE->Fill(double(ieta), double(iphi), float(ts_with_max_signal));
       if (mdepth == 7)
         h_mapDepth7TSmaxA_HE->Fill(double(ieta), double(iphi), float(ts_with_max_signal));
       if (amplitude > forallestimators_amplitude_bigger_)
         sumEstimator3[sub - 1][mdepth - 1][ieta + 41][iphi] += float(ts_with_max_signal);
     }  //if(studyTSmaxShapeHist_) {
     //   //   //   //   //   //   //   //   //  HE   QIE11    RMS:
     if (studyRMSshapeHist_) {
       h_Amplitude_HE->Fill(rmsamplitude, 1.);
       if (rmsamplitude < rmsHEMin_ || rmsamplitude > rmsHEMax_) {
         if (studyRunDependenceHist_ && flagtodefinebadchannel_ == 2)
           ++badchannels[sub - 1][mdepth - 1][ieta + 41][iphi];  // 0-neta ; 0-71
         if (mdepth == 1)
           h_mapDepth1Amplitude225_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 2)
           h_mapDepth2Amplitude225_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 3)
           h_mapDepth3Amplitude225_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 4)
           h_mapDepth4Amplitude225_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 5)
           h_mapDepth5Amplitude225_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 6)
           h_mapDepth6Amplitude225_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 7)
           h_mapDepth7Amplitude225_HE->Fill(double(ieta), double(iphi), 1.);
       }
       // for averaged values:
       if (mdepth == 1)
         h_mapDepth1Amplitude_HE->Fill(double(ieta), double(iphi), rmsamplitude);
       if (mdepth == 2)
         h_mapDepth2Amplitude_HE->Fill(double(ieta), double(iphi), rmsamplitude);
       if (mdepth == 3)
         h_mapDepth3Amplitude_HE->Fill(double(ieta), double(iphi), rmsamplitude);
       if (mdepth == 4)
         h_mapDepth4Amplitude_HE->Fill(double(ieta), double(iphi), rmsamplitude);
       if (mdepth == 5)
         h_mapDepth5Amplitude_HE->Fill(double(ieta), double(iphi), rmsamplitude);
       if (mdepth == 6)
         h_mapDepth6Amplitude_HE->Fill(double(ieta), double(iphi), rmsamplitude);
       if (mdepth == 7)
         h_mapDepth7Amplitude_HE->Fill(double(ieta), double(iphi), rmsamplitude);
       if (amplitude > forallestimators_amplitude_bigger_)
         sumEstimator4[sub - 1][mdepth - 1][ieta + 41][iphi] += rmsamplitude;
     }  //if(studyRMSshapeHist_)

     //   //   //   //   //   //   //   //   //  HE  QIE11     Ratio:
     if (studyRatioShapeHist_) {
       h_Ampl_HE->Fill(ratio, 1.);
       if (ratio < ratioHEMin_ || ratio > ratioHEMax_) {
         if (studyRunDependenceHist_ && flagtodefinebadchannel_ == 1)
           ++badchannels[sub - 1][mdepth - 1][ieta + 41][iphi];  // 0-neta ; 0-71
         if (mdepth == 1)
           h_mapDepth1Ampl047_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 2)
           h_mapDepth2Ampl047_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 3)
           h_mapDepth3Ampl047_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 4)
           h_mapDepth4Ampl047_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 5)
           h_mapDepth5Ampl047_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 6)
           h_mapDepth6Ampl047_HE->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 7)
           h_mapDepth7Ampl047_HE->Fill(double(ieta), double(iphi), 1.);
       }
       // for averaged values:
       if (mdepth == 1)
         h_mapDepth1Ampl_HE->Fill(double(ieta), double(iphi), ratio);
       if (mdepth == 2)
         h_mapDepth2Ampl_HE->Fill(double(ieta), double(iphi), ratio);
       if (mdepth == 3)
         h_mapDepth3Ampl_HE->Fill(double(ieta), double(iphi), ratio);
       if (mdepth == 4)
         h_mapDepth4Ampl_HE->Fill(double(ieta), double(iphi), ratio);
       if (mdepth == 5)
         h_mapDepth5Ampl_HE->Fill(double(ieta), double(iphi), ratio);
       if (mdepth == 6)
         h_mapDepth6Ampl_HE->Fill(double(ieta), double(iphi), ratio);
       if (mdepth == 7)
         h_mapDepth7Ampl_HE->Fill(double(ieta), double(iphi), ratio);
       if (amplitude > forallestimators_amplitude_bigger_)
         sumEstimator5[sub - 1][mdepth - 1][ieta + 41][iphi] += ratio;
     }  //if(studyRatioShapeHist_)
     //   //   //   //   //   //   //   //   //  HE   QIE11    DiffAmplitude:
     if (studyDiffAmplHist_) {
       if (mdepth == 1)
         h_mapDepth1AmplE34_HE->Fill(double(ieta), double(iphi), amplitude);
       if (mdepth == 2)
         h_mapDepth2AmplE34_HE->Fill(double(ieta), double(iphi), amplitude);
       if (mdepth == 3)
         h_mapDepth3AmplE34_HE->Fill(double(ieta), double(iphi), amplitude);
       if (mdepth == 4)
         h_mapDepth4AmplE34_HE->Fill(double(ieta), double(iphi), amplitude);
       if (mdepth == 5)
         h_mapDepth5AmplE34_HE->Fill(double(ieta), double(iphi), amplitude);
       if (mdepth == 6)
         h_mapDepth6AmplE34_HE->Fill(double(ieta), double(iphi), amplitude);
       if (mdepth == 7)
         h_mapDepth7AmplE34_HE->Fill(double(ieta), double(iphi), amplitude);
     }  // if(studyDiffAmplHist_)
     if (mdepth == 1)
       h_mapDepth1_HE->Fill(double(ieta), double(iphi), 1.);
     if (mdepth == 2)
       h_mapDepth2_HE->Fill(double(ieta), double(iphi), 1.);
     if (mdepth == 3)
       h_mapDepth3_HE->Fill(double(ieta), double(iphi), 1.);
     if (mdepth == 4)
       h_mapDepth4_HE->Fill(double(ieta), double(iphi), 1.);
     if (mdepth == 5)
       h_mapDepth5_HE->Fill(double(ieta), double(iphi), 1.);
     if (mdepth == 6)
       h_mapDepth6_HE->Fill(double(ieta), double(iphi), 1.);
     if (mdepth == 7)
       h_mapDepth7_HE->Fill(double(ieta), double(iphi), 1.);

     if (flagTS2 == 1) {
       if (mdepth == 1)
         h_mapDepth1TS2_HE->Fill(double(ieta), double(iphi), 1.);
       if (mdepth == 2)
         h_mapDepth2TS2_HE->Fill(double(ieta), double(iphi), 1.);
       if (mdepth == 3)
         h_mapDepth3TS2_HE->Fill(double(ieta), double(iphi), 1.);
       if (mdepth == 4)
         h_mapDepth4TS2_HE->Fill(double(ieta), double(iphi), 1.);
       if (mdepth == 5)
         h_mapDepth5TS2_HE->Fill(double(ieta), double(iphi), 1.);
       if (mdepth == 6)
         h_mapDepth6TS2_HE->Fill(double(ieta), double(iphi), 1.);
       if (mdepth == 7)
         h_mapDepth7TS2_HE->Fill(double(ieta), double(iphi), 1.);
     }  // select entries only in TS=2

   }  //if ( sub == 2 )
      //
 }
 void CMTRawAnalyzer::fillDigiAmplitudeHF(HFDigiCollection::const_iterator& digiItr) {
   CaloSamples toolOriginal;  // TS
   double tool[100];
   HcalDetId cell(digiItr->id());
   int mdepth = cell.depth();
   int iphi = cell.iphi() - 1;  // 0-71
   int ieta = cell.ieta();
   if (ieta > 0)
     ieta -= 1;              //-41 +41
   int sub = cell.subdet();  // (HFDigiCollection: 4-HF)
   const HcalPedestal* pedestal00 = conditions->getPedestal(cell);
   const HcalGain* gain = conditions->getGain(cell);
   const HcalRespCorr* respcorr = conditions->getHcalRespCorr(cell);
   const HcalTimeCorr* timecorr = conditions->getHcalTimeCorr(cell);
   const HcalLUTCorr* lutcorr = conditions->getHcalLUTCorr(cell);
   const HcalQIECoder* channelCoder = conditions->getHcalCoder(cell);
   const HcalPedestalWidth* pedw = conditions->getPedestalWidth(cell);
   HcalCoderDb coder(*channelCoder, *shape);
   if (useADCfC_)
     coder.adc2fC(*digiItr, toolOriginal);
   double pedestalaver9 = 0.;
   double pedestalaver4 = 0.;
   double pedestal0 = 0.;
   double pedestal1 = 0.;
   double pedestal2 = 0.;
   double pedestal3 = 0.;
   double pedestalwaver9 = 0.;
   double pedestalwaver4 = 0.;
   double pedestalw0 = 0.;
   double pedestalw1 = 0.;
   double pedestalw2 = 0.;
   double pedestalw3 = 0.;
   double amplitude = 0.;
   double absamplitude = 0.;
   double ampl = 0.;
   double timew = 0.;
   double timeww = 0.;
   double max_signal = -100.;
   int ts_with_max_signal = -100;
   int c0 = 0;
   int c1 = 0;
   int c2 = 0;
   int c3 = 0;
   int c4 = 0;
   double errorBtype = 0.;
   int TSsize = 4;  // HF for Run2
   if ((*digiItr).size() != TSsize)
     errorBtype = 1.;
   TSsize = digiItr->size();
   for (int ii = 0; ii < TSsize; ii++) {
     //  for (int ii=0; ii<digiItr->size(); ii++) {
     double ampldefault = 0.;
     double ampldefault0 = 0.;
     double ampldefault1 = 0.;
     double ampldefault2 = 0.;
     ampldefault0 = adc2fC[digiItr->sample(ii).adc()];  // massive
     if (useADCfC_)
       ampldefault1 = toolOriginal[ii];    //adcfC
     ampldefault2 = (*digiItr)[ii].adc();  //ADCcounts
     if (useADCmassive_) {
       ampldefault = ampldefault0;
     }
     if (useADCfC_) {
       ampldefault = ampldefault1;
     }
     if (useADCcounts_) {
       ampldefault = ampldefault2;
     }

     int capid = ((*digiItr)[ii]).capid();
     //      double pedestal = calib.pedestal(capid);
     double pedestal = pedestal00->getValue(capid);
     double pedestalw = pedw->getSigma(capid, capid);
     if (usePedestalSubtraction_)
       ampldefault -= pedestal;  // pedestal subtraction

     tool[ii] = ampldefault;

     pedestalaver9 += pedestal;
     pedestalwaver9 += pedestalw * pedestalw;

     if (capid == 0 && c0 == 0) {
       c0++;
       c4++;
       pedestalaver4 += pedestal;
       pedestal0 = pedestal;
       pedestalw0 = pedestalw;
       pedestalwaver4 += pedestalw * pedestalw;
     }

     if (capid == 1 && c1 == 0) {
       c1++;
       c4++;
       pedestalaver4 += pedestal;
       pedestal1 = pedestal;
       pedestalw1 = pedestalw;
       pedestalwaver4 += pedestalw * pedestalw;
     }
     if (capid == 2 && c2 == 0) {
       c2++;
       c4++;
       pedestalaver4 += pedestal;
       pedestal2 = pedestal;
       pedestalw2 = pedestalw;
       pedestalwaver4 += pedestalw * pedestalw;
     }
     if (capid == 3 && c3 == 0) {
       c3++;
       c4++;
       pedestalaver4 += pedestal;
       pedestal3 = pedestal;
       pedestalw3 = pedestalw;
       pedestalwaver4 += pedestalw * pedestalw;
     }

     if (max_signal < ampldefault) {
       max_signal = ampldefault;
       ts_with_max_signal = ii;
     }
     amplitude += ampldefault;          //
     absamplitude += abs(ampldefault);  //

     if (flagcpuoptimization_ == 0) {
     }  //  if(flagcpuoptimization_== 0
     timew += (ii + 1) * abs(ampldefault);
     timeww += (ii + 1) * ampldefault;
   }  //for 1
   // sub=4 HF
   if (sub == 4) {
     amplitudechannel0[sub - 1][mdepth - 1][ieta + 41][iphi] += 1.;                 // 0-neta ; 0-71 HF
     amplitudechannel[sub - 1][mdepth - 1][ieta + 41][iphi] += amplitude;           // 0-neta ; 0-71 HF
     amplitudechannel2[sub - 1][mdepth - 1][ieta + 41][iphi] += pow(amplitude, 2);  // 0-neta ; 0-71 HF
   }

   pedestalaver9 /= TSsize;
   pedestalaver4 /= c4;
   pedestalwaver9 = sqrt(pedestalwaver9 / TSsize);
   pedestalwaver4 = sqrt(pedestalwaver4 / c4);

   // ------------ to get signal in TS: -2 max +1  ------------
   if (ts_with_max_signal > -1 && ts_with_max_signal < TSsize)
     ampl = tool[ts_with_max_signal];
   if (ts_with_max_signal + 2 > -1 && ts_with_max_signal + 2 < TSsize)
     ampl += tool[ts_with_max_signal + 2];
   if (ts_with_max_signal + 1 > -1 && ts_with_max_signal + 1 < TSsize)
     ampl += tool[ts_with_max_signal + 1];
   if (ts_with_max_signal - 1 > -1 && ts_with_max_signal - 1 < TSsize)
     ampl += tool[ts_with_max_signal - 1];

   double ratio = 0.;
   //    if(amplallTS != 0.) ratio = ampl/amplallTS;
   if (amplitude != 0.)
     ratio = ampl / amplitude;

   if (ratio < 0. || ratio > 1.02)
     ratio = 0.;

   double aveamplitude = 0.;
   double aveamplitudew = 0.;
   if (absamplitude > 0 && timew > 0)
     aveamplitude = timew / absamplitude;  // average_TS +1
   if (amplitude > 0 && timeww > 0)
     aveamplitudew = timeww / amplitude;  // average_TS +1

   double rmsamp = 0.;
   // and CapIdErrors:
   int error = 0;
   bool anycapid = true;
   bool anyer = false;
   bool anydv = true;
   int lastcapid = 0;
   int capid = 0;
   for (int ii = 0; ii < TSsize; ii++) {
     double aaaaaa = (ii + 1) - aveamplitudew;
     double aaaaaa2 = aaaaaa * aaaaaa;
     double ampldefault = tool[ii];
     rmsamp += (aaaaaa2 * ampldefault);  // fC
     capid = ((*digiItr)[ii]).capid();
     bool er = (*digiItr)[ii].er();  // error
     bool dv = (*digiItr)[ii].dv();  // valid data
     if (ii != 0 && ((lastcapid + 1) % 4) != capid) {
       anycapid = false;
     }
     //    std::cout << " ii = " << ii  << " capid = " << capid  << " ((lastcapid+1)%4) = " << ((lastcapid+1)%4)  << std::endl;
     lastcapid = capid;
     if (er) {
       anyer = true;
     }
     if (!dv) {
       anydv = false;
     }
   }  //for 2

   if (!anycapid || anyer || !anydv)
     error = 1;
   double rmsamplitude = 0.;
   if ((amplitude > 0 && rmsamp > 0) || (amplitude < 0 && rmsamp < 0))
     rmsamplitude = sqrt(rmsamp / amplitude);
   double aveamplitude1 = aveamplitude - 1;  // means iTS=0-9, so bad is iTS=0 and 9
   if (error == 1) {
     if (sub == 4 && mdepth == 1)
       h_Amplitude_forCapIdErrors_HF1->Fill(amplitude, 1.);
     if (sub == 4 && mdepth == 2)
       h_Amplitude_forCapIdErrors_HF2->Fill(amplitude, 1.);
   }
   if (error != 1) {
     if (sub == 4 && mdepth == 1)
       h_Amplitude_notCapIdErrors_HF1->Fill(amplitude, 1.);
     if (sub == 4 && mdepth == 2)
       h_Amplitude_notCapIdErrors_HF2->Fill(amplitude, 1.);
   }

   if (sub == 4) {
     // bad_channels with C,A,W,P,pW,
     if (error == 1 || amplitude < ADCAmplHFMin_ || amplitude > ADCAmplHFMax_ || rmsamplitude < rmsHFMin_ ||
         rmsamplitude > rmsHFMax_ || pedestal0 < pedestalHFMax_ || pedestal1 < pedestalHFMax_ ||
         pedestal2 < pedestalHFMax_ || pedestal3 < pedestalHFMax_ || pedestalw0 < pedestalwHFMax_ ||
         pedestalw1 < pedestalwHFMax_ || pedestalw2 < pedestalwHFMax_ || pedestalw3 < pedestalwHFMax_

     ) {
       for (int ii = 0; ii < TSsize; ii++) {
         double ampldefault = tool[ii];
         h_shape_bad_channels_HF->Fill(float(ii), ampldefault);
         h_shape0_bad_channels_HF->Fill(float(ii), 1.);
       }
     }
     // good_channels with C,A,W,P,pW,
     else {
       for (int ii = 0; ii < TSsize; ii++) {
         double ampldefault = tool[ii];
         h_shape_good_channels_HF->Fill(float(ii), ampldefault);
         h_shape0_good_channels_HF->Fill(float(ii), 1.);
       }
     }
   }  // sub   HF
   sum0Estimator[sub - 1][mdepth - 1][ieta + 41][iphi] += 1.;
   sumEstimator6[sub - 1][mdepth - 1][ieta + 41][iphi] += errorBtype;
   sumEstimator0[sub - 1][mdepth - 1][ieta + 41][iphi] += pedestal0;  //    Pedestals
   // HF
   if (sub == 4) {
     //   //   //   //   //   //   //   //   //  HF      PedestalCorrelations :
     if (studyPedestalCorrelations_) {
       double mypedestal = pedestal0;
       double mypedestalw = pedestalw0;
       h2_pedvsampl_HF->Fill(mypedestal, amplitude);
       h2_pedwvsampl_HF->Fill(mypedestalw, amplitude);
       h_pedvsampl_HF->Fill(mypedestal, amplitude);
       h_pedwvsampl_HF->Fill(mypedestalw, amplitude);
       h_pedvsampl0_HF->Fill(mypedestal, 1.);
       h_pedwvsampl0_HF->Fill(mypedestalw, 1.);
     }  //
     //   //   //   //   //   //   //   //   //  HF       Pedestals:
     if (studyPedestalsHist_) {
       h_pedestal0_HF->Fill(pedestal0, 1.);
       h_pedestal1_HF->Fill(pedestal1, 1.);
       h_pedestal2_HF->Fill(pedestal2, 1.);
       h_pedestal3_HF->Fill(pedestal3, 1.);
       h_pedestalaver4_HF->Fill(pedestalaver4, 1.);
       h_pedestalaver9_HF->Fill(pedestalaver9, 1.);
       h_pedestalw0_HF->Fill(pedestalw0, 1.);
       h_pedestalw1_HF->Fill(pedestalw1, 1.);
       h_pedestalw2_HF->Fill(pedestalw2, 1.);
       h_pedestalw3_HF->Fill(pedestalw3, 1.);
       h_pedestalwaver4_HF->Fill(pedestalwaver4, 1.);
       h_pedestalwaver9_HF->Fill(pedestalwaver9, 1.);
       // for averaged values:
       if (mdepth == 1) {
         h_mapDepth1Ped0_HF->Fill(double(ieta), double(iphi), pedestal0);
         h_mapDepth1Ped1_HF->Fill(double(ieta), double(iphi), pedestal1);
         h_mapDepth1Ped2_HF->Fill(double(ieta), double(iphi), pedestal2);
         h_mapDepth1Ped3_HF->Fill(double(ieta), double(iphi), pedestal3);
         h_mapDepth1Pedw0_HF->Fill(double(ieta), double(iphi), pedestalw0);
         h_mapDepth1Pedw1_HF->Fill(double(ieta), double(iphi), pedestalw1);
         h_mapDepth1Pedw2_HF->Fill(double(ieta), double(iphi), pedestalw2);
         h_mapDepth1Pedw3_HF->Fill(double(ieta), double(iphi), pedestalw3);
       }
       if (mdepth == 2) {
         h_mapDepth2Ped0_HF->Fill(double(ieta), double(iphi), pedestal0);
         h_mapDepth2Ped1_HF->Fill(double(ieta), double(iphi), pedestal1);
         h_mapDepth2Ped2_HF->Fill(double(ieta), double(iphi), pedestal2);
         h_mapDepth2Ped3_HF->Fill(double(ieta), double(iphi), pedestal3);
         h_mapDepth2Pedw0_HF->Fill(double(ieta), double(iphi), pedestalw0);
         h_mapDepth2Pedw1_HF->Fill(double(ieta), double(iphi), pedestalw1);
         h_mapDepth2Pedw2_HF->Fill(double(ieta), double(iphi), pedestalw2);
         h_mapDepth2Pedw3_HF->Fill(double(ieta), double(iphi), pedestalw3);
       }

       if (pedestalw0 < pedestalwHFMax_ || pedestalw1 < pedestalwHFMax_ || pedestalw2 < pedestalwHFMax_ ||
           pedestalw3 < pedestalwHFMax_) {
         if (mdepth == 1)
           h_mapDepth1pedestalw_HF->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 2)
           h_mapDepth2pedestalw_HF->Fill(double(ieta), double(iphi), 1.);
       }

       if (pedestal0 < pedestalHFMax_ || pedestal1 < pedestalHFMax_ || pedestal2 < pedestalHFMax_ ||
           pedestal3 < pedestalHFMax_) {
         if (mdepth == 1)
           h_mapDepth1pedestal_HF->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 2)
           h_mapDepth2pedestal_HF->Fill(double(ieta), double(iphi), 1.);
       }

       for (int ii = 0; ii < TSsize; ii++) {
         h_pedestal00_HF->Fill(pedestal00->getValue(ii), 1.);
         h_gain_HF->Fill(gain->getValue(ii), 1.);
       }
       h_respcorr_HF->Fill(respcorr->getValue(), 1.);
       h_timecorr_HF->Fill(timecorr->getValue(), 1.);
       h_lutcorr_HF->Fill(lutcorr->getValue(), 1.);

     }  //

     //   //   //   //   //   //   //   //   //  HF       ADCAmpl:
     if (studyADCAmplHist_) {
       h_ADCAmpl_HF->Fill(amplitude, 1.);
       h_ADCAmplrest1_HF->Fill(amplitude, 1.);
       h_ADCAmplrest6_HF->Fill(amplitude, 1.);

       h_ADCAmplZoom1_HF->Fill(amplitude, 1.);
       if (amplitude < ADCAmplHFMin_ || amplitude > ADCAmplHFMax_) {
         if (studyRunDependenceHist_ && flagtodefinebadchannel_ == 5)
           ++badchannels[sub - 1][mdepth - 1][ieta + 41][iphi];  // 0-neta ; 0-71
         if (mdepth == 1)
           h_mapDepth1ADCAmpl225_HF->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 2)
           h_mapDepth2ADCAmpl225_HF->Fill(double(ieta), double(iphi), 1.);
       }  // if
       //    if(amplitude >1500.) averSIGNALoccupancy_HF += 1.;
       if (amplitude < 20.) {
         if (mdepth == 1)
           h_mapDepth1ADCAmpl225Copy_HF->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 2)
           h_mapDepth2ADCAmpl225Copy_HF->Fill(double(ieta), double(iphi), 1.);
       }  // if

       // for averaged values:
       if (mdepth == 1)
         h_mapDepth1ADCAmpl_HF->Fill(double(ieta), double(iphi), amplitude);
       if (mdepth == 2)
         h_mapDepth2ADCAmpl_HF->Fill(double(ieta), double(iphi), amplitude);
       if (mdepth == 1)
         h_mapDepth1ADCAmpl12_HF->Fill(double(ieta), double(iphi), ampl);
       if (mdepth == 2)
         h_mapDepth2ADCAmpl12_HF->Fill(double(ieta), double(iphi), ampl);

       h_bcnvsamplitude_HF->Fill(float(bcn), amplitude);
       h_bcnvsamplitude0_HF->Fill(float(bcn), 1.);
       h_orbitNumvsamplitude_HF->Fill(float(orbitNum), amplitude);
       h_orbitNumvsamplitude0_HF->Fill(float(orbitNum), 1.);
       if (amplitude > forallestimators_amplitude_bigger_)
         sumEstimator1[sub - 1][mdepth - 1][ieta + 41][iphi] += amplitude;
     }  //if(studyADCAmplHist_

     //   //   //   //   //   //   //   //   //  HF       TSmean:
     if (studyTSmeanShapeHist_) {
       h_TSmeanA_HF->Fill(aveamplitude1, 1.);
       //    h2_TSnVsAyear2023_HF->Fill(25.*aveamplitude1, amplitude);
       h2_TSnVsAyear2023_HF->Fill(amplitude, 25. * aveamplitude1);
       h1_TSnVsAyear2023_HF->Fill(amplitude, 25. * aveamplitude1);
       h1_TSnVsAyear20230_HF->Fill(amplitude, 1.);
       if (aveamplitude1 < TSmeanHFMin_ || aveamplitude1 > TSmeanHFMax_) {
         if (studyRunDependenceHist_ && flagtodefinebadchannel_ == 4)
           ++badchannels[sub - 1][mdepth - 1][ieta + 41][iphi];  // 0-neta ; 0-71
         if (mdepth == 1)
           h_mapDepth1TSmeanA225_HF->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 2)
           h_mapDepth2TSmeanA225_HF->Fill(double(ieta), double(iphi), 1.);
       }  // if
       // for averaged values:
       if (mdepth == 1)
         h_mapDepth1TSmeanA_HF->Fill(double(ieta), double(iphi), aveamplitude1);
       if (mdepth == 2)
         h_mapDepth2TSmeanA_HF->Fill(double(ieta), double(iphi), aveamplitude1);

       if (amplitude > forallestimators_amplitude_bigger_)
         sumEstimator2[sub - 1][mdepth - 1][ieta + 41][iphi] += aveamplitude1;
     }  //if(studyTSmeanShapeHist_
     //   //   //   //   //   //   //   //   //  HF       TSmax:
     if (studyTSmaxShapeHist_) {
       h_TSmaxA_HF->Fill(float(ts_with_max_signal), 1.);
       if (ts_with_max_signal < TSpeakHFMin_ || ts_with_max_signal > TSpeakHFMax_) {
         if (studyRunDependenceHist_ && flagtodefinebadchannel_ == 3)
           ++badchannels[sub - 1][mdepth - 1][ieta + 41][iphi];  // 0-neta ; 0-71
         if (mdepth == 1)
           h_mapDepth1TSmaxA225_HF->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 2)
           h_mapDepth2TSmaxA225_HF->Fill(double(ieta), double(iphi), 1.);
       }  // if
       // for averaged values:
       if (mdepth == 1)
         h_mapDepth1TSmaxA_HF->Fill(double(ieta), double(iphi), float(ts_with_max_signal));
       if (mdepth == 2)
         h_mapDepth2TSmaxA_HF->Fill(double(ieta), double(iphi), float(ts_with_max_signal));
       if (amplitude > forallestimators_amplitude_bigger_)
         sumEstimator3[sub - 1][mdepth - 1][ieta + 41][iphi] += float(ts_with_max_signal);
     }  //if(studyTSmaxShapeHist_
     //   //   //   //   //   //   //   //   //  HF       RMS:
     if (studyRMSshapeHist_) {
       h_Amplitude_HF->Fill(rmsamplitude, 1.);
       if (rmsamplitude < rmsHFMin_ || rmsamplitude > rmsHFMax_) {
         if (studyRunDependenceHist_ && flagtodefinebadchannel_ == 2)
           ++badchannels[sub - 1][mdepth - 1][ieta + 41][iphi];  // 0-neta ; 0-71
         if (mdepth == 1)
           h_mapDepth1Amplitude225_HF->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 2)
           h_mapDepth2Amplitude225_HF->Fill(double(ieta), double(iphi), 1.);
       }  // if
       // for averaged values:
       if (mdepth == 1)
         h_mapDepth1Amplitude_HF->Fill(double(ieta), double(iphi), rmsamplitude);
       if (mdepth == 2)
         h_mapDepth2Amplitude_HF->Fill(double(ieta), double(iphi), rmsamplitude);
       if (amplitude > forallestimators_amplitude_bigger_)
         sumEstimator4[sub - 1][mdepth - 1][ieta + 41][iphi] += rmsamplitude;
     }  //if(studyRMSshapeHist_)
     //   //   //   //   //   //   //   //   //  HF       Ratio:
     if (studyRatioShapeHist_) {
       h_Ampl_HF->Fill(ratio, 1.);
       if (ratio < ratioHFMin_ || ratio > ratioHFMax_) {
         if (studyRunDependenceHist_ && flagtodefinebadchannel_ == 1)
           ++badchannels[sub - 1][mdepth - 1][ieta + 41][iphi];  // 0-neta ; 0-71
         if (mdepth == 1)
           h_mapDepth1Ampl047_HF->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 2)
           h_mapDepth2Ampl047_HF->Fill(double(ieta), double(iphi), 1.);
       }  //if(ratio
       // for averaged values:
       if (mdepth == 1)
         h_mapDepth1Ampl_HF->Fill(double(ieta), double(iphi), ratio);
       if (mdepth == 2)
         h_mapDepth2Ampl_HF->Fill(double(ieta), double(iphi), ratio);

       if (amplitude > forallestimators_amplitude_bigger_)
         sumEstimator5[sub - 1][mdepth - 1][ieta + 41][iphi] += ratio;
     }  //if(studyRatioShapeHist_)

     //   //   //   //   //   //   //   //   //  HF      DiffAmplitude:
     if (studyDiffAmplHist_) {
       if (mdepth == 1)
         h_mapDepth1AmplE34_HF->Fill(double(ieta), double(iphi), amplitude);
       if (mdepth == 2)
         h_mapDepth2AmplE34_HF->Fill(double(ieta), double(iphi), amplitude);
     }  // if(studyDiffAmplHist_)

     if (mdepth == 1)
       h_mapDepth1_HF->Fill(double(ieta), double(iphi), 1.);
     if (mdepth == 2)
       h_mapDepth2_HF->Fill(double(ieta), double(iphi), 1.);

   }  //if ( sub == 4 )

   //
 }

 void CMTRawAnalyzer::fillDigiAmplitudeHFQIE10(QIE10DataFrame qie10df) {
   CaloSamples toolOriginal;  // TS
   double tool[100];
   DetId detid = qie10df.detid();
   HcalDetId hcaldetid = HcalDetId(detid);
   int ieta = hcaldetid.ieta();
   if (ieta > 0)
     ieta -= 1;
   int iphi = hcaldetid.iphi() - 1;
   int mdepth = hcaldetid.depth();
   int sub = hcaldetid.subdet();  // 1-HB, 2-HE (HFQIE10DigiCollection: 4-HF)
   nTS = qie10df.samples();       //  ----------------------------!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
   /*
                                   # flag   HBHE8    HBHE11   HF8   HF10  comments:
                                   #  0       +        +       +     +     all
                                   #  1       +        -       +     -     old
                                   #  2       -        +       -     +     new (2018)
                                   #  3       -        +       -     +     new w/o high depthes
                                   #  4       +        -       +     +     2016fall
                                   #  5       +        -       +     +     2016fall w/o high depthes
                                   #  6       +        +       -     +     2017begin
                                   #  7       +        +       -     +     2017begin w/o high depthes in HEonly
                                   #  8       +        +       -     +     2017begin w/o high depthes
                                   #  9       +        +       +     +     all  w/o high depthes
 */
   if (mdepth == 0 || sub != 4)
     return;
   if (mdepth > 2 && flagupgradeqie1011_ == 3)
     return;
   if (mdepth > 2 && flagupgradeqie1011_ == 5)
     return;
   if (mdepth > 2 && flagupgradeqie1011_ == 8)
     return;
   if (mdepth > 2 && flagupgradeqie1011_ == 9)
     return;
   const HcalPedestal* pedestal00 = conditions->getPedestal(hcaldetid);
   const HcalGain* gain = conditions->getGain(hcaldetid);
   const HcalRespCorr* respcorr = conditions->getHcalRespCorr(hcaldetid);
   const HcalTimeCorr* timecorr = conditions->getHcalTimeCorr(hcaldetid);
   const HcalLUTCorr* lutcorr = conditions->getHcalLUTCorr(hcaldetid);
   const HcalQIECoder* channelCoder = conditions->getHcalCoder(hcaldetid);
   const HcalPedestalWidth* pedw = conditions->getPedestalWidth(hcaldetid);
   HcalCoderDb coder(*channelCoder, *shape);
   if (useADCfC_)
     coder.adc2fC(qie10df, toolOriginal);
   //    double noiseADC = qie10df[0].adc();
   double pedestalaver9 = 0.;
   double pedestalaver4 = 0.;
   double pedestal0 = 0.;
   double pedestal1 = 0.;
   double pedestal2 = 0.;
   double pedestal3 = 0.;
   double pedestalwaver9 = 0.;
   double pedestalwaver4 = 0.;
   double pedestalw0 = 0.;
   double pedestalw1 = 0.;
   double pedestalw2 = 0.;
   double pedestalw3 = 0.;
   double amplitude = 0.;
   double absamplitude = 0.;
   double ampl = 0.;
   double timew = 0.;
   double timeww = 0.;
   double max_signal = -100.;
   int ts_with_max_signal = -100;
   int c0 = 0;
   int c1 = 0;
   int c2 = 0;
   int c3 = 0;
   int c4 = 0;
   double errorBtype = 0.;

   int TSsize = 3;  // HF for Run3
   if (nTS != TSsize)
     errorBtype = 1.;
   TSsize = nTS;  // ------------------------!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
   int flagTS1 = 0;
   for (int ii = 0; ii < TSsize; ii++) {
     double ampldefault = 0.;
     double ampldefault0 = 0.;
     double ampldefault1 = 0.;
     double ampldefault2 = 0.;
     ampldefault0 = adc2fC_QIE10[qie10df[ii].adc()];  // massive
     if (useADCfC_)
       ampldefault1 = toolOriginal[ii];  //adcfC
     ampldefault2 = qie10df[ii].adc();   //ADCcounts
     if (useADCmassive_) {
       ampldefault = ampldefault0;
     }
     if (useADCfC_) {
       ampldefault = ampldefault1;
     }
     if (useADCcounts_) {
       ampldefault = ampldefault2;
     }

     int capid = (qie10df[ii]).capid();
     double pedestal = pedestal00->getValue(capid);
     double pedestalw = pedw->getSigma(capid, capid);

     if (usePedestalSubtraction_)
       ampldefault -= pedestal;  // pedestal subtraction

     tool[ii] = ampldefault;

     pedestalaver9 += pedestal;
     pedestalwaver9 += pedestalw * pedestalw;

     if (capid == 0 && c0 == 0) {
       c0++;
       c4++;
       pedestalaver4 += pedestal;
       pedestal0 = pedestal;
       pedestalw0 = pedestalw;
       pedestalwaver4 += pedestalw * pedestalw;
     }

     if (capid == 1 && c1 == 0) {
       c1++;
       c4++;
       pedestalaver4 += pedestal;
       pedestal1 = pedestal;
       pedestalw1 = pedestalw;
       pedestalwaver4 += pedestalw * pedestalw;
     }
     if (capid == 2 && c2 == 0) {
       c2++;
       c4++;
       pedestalaver4 += pedestal;
       pedestal2 = pedestal;
       pedestalw2 = pedestalw;
       pedestalwaver4 += pedestalw * pedestalw;
     }
     if (capid == 3 && c3 == 0) {
       c3++;
       c4++;
       pedestalaver4 += pedestal;
       pedestal3 = pedestal;
       pedestalw3 = pedestalw;
       pedestalwaver4 += pedestalw * pedestalw;
     }

     if (max_signal < ampldefault) {
       max_signal = ampldefault;
       ts_with_max_signal = ii;
     }
     amplitude += ampldefault;          //
     absamplitude += abs(ampldefault);  //
     timew += (ii + 1) * abs(ampldefault);
     timeww += (ii + 1) * ampldefault;
     if (ii == 1 && ampldefault > 0.)
       flagTS1 = 1;
   }  //for 1
   // sub=4 HF
   if (sub == 4) {
     amplitudechannel0[sub - 1][mdepth - 1][ieta + 41][iphi] += 1.;                 // 0-neta ; 0-71 HF
     amplitudechannel[sub - 1][mdepth - 1][ieta + 41][iphi] += amplitude;           // 0-neta ; 0-71 HF
     amplitudechannel2[sub - 1][mdepth - 1][ieta + 41][iphi] += pow(amplitude, 2);  // 0-neta ; 0-71 HF
   }  // just in case against any violations

   pedestalaver9 /= TSsize;
   pedestalaver4 /= c4;
   pedestalwaver9 = sqrt(pedestalwaver9 / TSsize);
   pedestalwaver4 = sqrt(pedestalwaver4 / c4);

   // ------------ to get signal in TS: -2 max +1  ------------
   if (ts_with_max_signal > -1 && ts_with_max_signal < TSsize)
     ampl = tool[ts_with_max_signal];
   if (ts_with_max_signal + 2 > -1 && ts_with_max_signal + 2 < TSsize)
     ampl += tool[ts_with_max_signal + 2];
   if (ts_with_max_signal + 1 > -1 && ts_with_max_signal + 1 < TSsize)
     ampl += tool[ts_with_max_signal + 1];
   if (ts_with_max_signal - 1 > -1 && ts_with_max_signal - 1 < TSsize)
     ampl += tool[ts_with_max_signal - 1];

   double ratio = 0.;
   //    if(amplallTS != 0.) ratio = ampl/amplallTS;
   if (amplitude != 0.)
     ratio = ampl / amplitude;
   if (ratio < 0. || ratio > 1.02)
     ratio = 0.;
   double aveamplitude = 0.;
   double aveamplitudew = 0.;
   if (absamplitude > 0 && timew > 0)
     aveamplitude = timew / absamplitude;  // average_TS +1
   if (amplitude > 0 && timeww > 0)
     aveamplitudew = timeww / amplitude;  // average_TS +1

   double rmsamp = 0.;
   int error = 0;
   bool anycapid = true;
   int lastcapid = 0;
   int capid = 0;
   for (int ii = 0; ii < TSsize; ii++) {
     double aaaaaa = (ii + 1) - aveamplitudew;
     double aaaaaa2 = aaaaaa * aaaaaa;
     double ampldefault = tool[ii];
     rmsamp += (aaaaaa2 * ampldefault);  // fC
     capid = (qie10df[ii]).capid();
     if (ii != 0 && ((lastcapid + 1) % 4) != capid) {
       anycapid = false;
     }
     lastcapid = capid;
   }  //for 2

   if (!anycapid)
     error = 1;
   double rmsamplitude = 0.;
   if ((amplitude > 0 && rmsamp > 0) || (amplitude < 0 && rmsamp < 0))
     rmsamplitude = sqrt(rmsamp / amplitude);
   double aveamplitude1 = aveamplitude - 1;  // means iTS=0-9, so bad is iTS=0 and 9

   // CapIdErrors end  /////////////////////////////////////////////////////////
   // AZ 1.10.2015:
   if (error == 1) {
     if (sub == 4 && mdepth == 1)
       h_Amplitude_forCapIdErrors_HF1->Fill(amplitude, 1.);
     if (sub == 4 && mdepth == 2)
       h_Amplitude_forCapIdErrors_HF2->Fill(amplitude, 1.);
   }
   if (error != 1) {
     if (sub == 4 && mdepth == 1)
       h_Amplitude_notCapIdErrors_HF1->Fill(amplitude, 1.);
     if (sub == 4 && mdepth == 2)
       h_Amplitude_notCapIdErrors_HF2->Fill(amplitude, 1.);
   }

   if (sub == 4) {
     // bad_channels with C,A,W,P,pW,
     if (error == 1 || amplitude < ADCAmplHFMin_ || amplitude > ADCAmplHFMax_ || rmsamplitude < rmsHFMin_ ||
         rmsamplitude > rmsHFMax_ || pedestal0 < pedestalHFMax_ || pedestal1 < pedestalHFMax_ ||
         pedestal2 < pedestalHFMax_ || pedestal3 < pedestalHFMax_ || pedestalw0 < pedestalwHFMax_ ||
         pedestalw1 < pedestalwHFMax_ || pedestalw2 < pedestalwHFMax_ || pedestalw3 < pedestalwHFMax_

     ) {
       for (int ii = 0; ii < TSsize; ii++) {
         double ampldefault = tool[ii];
         h_shape_bad_channels_HF->Fill(float(ii), ampldefault);
         h_shape0_bad_channels_HF->Fill(float(ii), 1.);
       }
     }
     // good_channels with C,A,W,P,pW,
     else {
       for (int ii = 0; ii < TSsize; ii++) {
         double ampldefault = tool[ii];
         h_shape_good_channels_HF->Fill(float(ii), ampldefault);
         h_shape0_good_channels_HF->Fill(float(ii), 1.);
       }
     }
   }  // sub   HFQIE10
   sum0Estimator[sub - 1][mdepth - 1][ieta + 41][iphi] += 1.;
   //      for Error B-type
   sumEstimator6[sub - 1][mdepth - 1][ieta + 41][iphi] += errorBtype;
   sumEstimator0[sub - 1][mdepth - 1][ieta + 41][iphi] += pedestal0;  //    Pedestals
   // HFQIE10
   if (sub == 4) {
     //   //   //   //   //   //   //   //   //  HFQIE10      PedestalCorrelations :
     if (studyPedestalCorrelations_) {
       double mypedestal = pedestal0;
       double mypedestalw = pedestalw0;
       h2_pedvsampl_HF->Fill(mypedestal, amplitude);
       h2_pedwvsampl_HF->Fill(mypedestalw, amplitude);
       h_pedvsampl_HF->Fill(mypedestal, amplitude);
       h_pedwvsampl_HF->Fill(mypedestalw, amplitude);
       h_pedvsampl0_HF->Fill(mypedestal, 1.);
       h_pedwvsampl0_HF->Fill(mypedestalw, 1.);
     }  //
     //   //   //   //   //   //   //   //   //  HFQIE10       Pedestals:
     if (studyPedestalsHist_) {
       h_pedestal0_HF->Fill(pedestal0, 1.);
       h_pedestal1_HF->Fill(pedestal1, 1.);
       h_pedestal2_HF->Fill(pedestal2, 1.);
       h_pedestal3_HF->Fill(pedestal3, 1.);
       h_pedestalaver4_HF->Fill(pedestalaver4, 1.);
       h_pedestalaver9_HF->Fill(pedestalaver9, 1.);
       h_pedestalw0_HF->Fill(pedestalw0, 1.);
       h_pedestalw1_HF->Fill(pedestalw1, 1.);
       h_pedestalw2_HF->Fill(pedestalw2, 1.);
       h_pedestalw3_HF->Fill(pedestalw3, 1.);
       h_pedestalwaver4_HF->Fill(pedestalwaver4, 1.);
       h_pedestalwaver9_HF->Fill(pedestalwaver9, 1.);
       // for averaged values:
       if (mdepth == 1) {
         h_mapDepth1Ped0_HF->Fill(double(ieta), double(iphi), pedestal0);
         h_mapDepth1Ped1_HF->Fill(double(ieta), double(iphi), pedestal1);
         h_mapDepth1Ped2_HF->Fill(double(ieta), double(iphi), pedestal2);
         h_mapDepth1Ped3_HF->Fill(double(ieta), double(iphi), pedestal3);
         h_mapDepth1Pedw0_HF->Fill(double(ieta), double(iphi), pedestalw0);
         h_mapDepth1Pedw1_HF->Fill(double(ieta), double(iphi), pedestalw1);
         h_mapDepth1Pedw2_HF->Fill(double(ieta), double(iphi), pedestalw2);
         h_mapDepth1Pedw3_HF->Fill(double(ieta), double(iphi), pedestalw3);
       }
       if (mdepth == 2) {
         h_mapDepth2Ped0_HF->Fill(double(ieta), double(iphi), pedestal0);
         h_mapDepth2Ped1_HF->Fill(double(ieta), double(iphi), pedestal1);
         h_mapDepth2Ped2_HF->Fill(double(ieta), double(iphi), pedestal2);
         h_mapDepth2Ped3_HF->Fill(double(ieta), double(iphi), pedestal3);
         h_mapDepth2Pedw0_HF->Fill(double(ieta), double(iphi), pedestalw0);
         h_mapDepth2Pedw1_HF->Fill(double(ieta), double(iphi), pedestalw1);
         h_mapDepth2Pedw2_HF->Fill(double(ieta), double(iphi), pedestalw2);
         h_mapDepth2Pedw3_HF->Fill(double(ieta), double(iphi), pedestalw3);
       }

       if (pedestalw0 < pedestalwHFMax_ || pedestalw1 < pedestalwHFMax_ || pedestalw2 < pedestalwHFMax_ ||
           pedestalw3 < pedestalwHFMax_) {
         if (mdepth == 1)
           h_mapDepth1pedestalw_HF->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 2)
           h_mapDepth2pedestalw_HF->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 3)
           h_mapDepth3pedestalw_HF->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 4)
           h_mapDepth4pedestalw_HF->Fill(double(ieta), double(iphi), 1.);
       }

       if (pedestal0 < pedestalHFMax_ || pedestal1 < pedestalHFMax_ || pedestal2 < pedestalHFMax_ ||
           pedestal3 < pedestalHFMax_) {
         if (mdepth == 1)
           h_mapDepth1pedestal_HF->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 2)
           h_mapDepth2pedestal_HF->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 3)
           h_mapDepth3pedestal_HF->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 4)
           h_mapDepth4pedestal_HF->Fill(double(ieta), double(iphi), 1.);
       }

       for (int ii = 0; ii < TSsize; ii++) {
         h_pedestal00_HF->Fill(pedestal00->getValue(ii), 1.);
         h_gain_HF->Fill(gain->getValue(ii), 1.);
       }
       h_respcorr_HF->Fill(respcorr->getValue(), 1.);
       h_timecorr_HF->Fill(timecorr->getValue(), 1.);
       h_lutcorr_HF->Fill(lutcorr->getValue(), 1.);

     }  //

     //   //   //   //   //   //   //   //   //  HFQIE10       ADCAmpl:
     if (studyADCAmplHist_) {
       h_ADCAmpl_HF->Fill(amplitude, 1.);
       h_ADCAmplrest1_HF->Fill(amplitude, 1.);
       h_ADCAmplrest6_HF->Fill(amplitude, 1.);

       h_ADCAmplZoom1_HF->Fill(amplitude, 1.);
       if (amplitude < ADCAmplHFMin_ || amplitude > ADCAmplHFMax_) {
         if (studyRunDependenceHist_ && flagtodefinebadchannel_ == 5)
           ++badchannels[sub - 1][mdepth - 1][ieta + 41][iphi];  // 0-neta ; 0-71
         if (mdepth == 1)
           h_mapDepth1ADCAmpl225_HF->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 2)
           h_mapDepth2ADCAmpl225_HF->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 3)
           h_mapDepth3ADCAmpl225_HF->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 4)
           h_mapDepth4ADCAmpl225_HF->Fill(double(ieta), double(iphi), 1.);
       }  // if
       //    if(amplitude >1500.) averSIGNALoccupancy_HF += 1.;
       if (amplitude < 20.) {
         if (mdepth == 1)
           h_mapDepth1ADCAmpl225Copy_HF->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 2)
           h_mapDepth2ADCAmpl225Copy_HF->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 3)
           h_mapDepth3ADCAmpl225Copy_HF->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 4)
           h_mapDepth4ADCAmpl225Copy_HF->Fill(double(ieta), double(iphi), 1.);
       }  // if

       // for averaged values:
       if (mdepth == 1)
         h_mapDepth1ADCAmpl_HF->Fill(double(ieta), double(iphi), amplitude);
       if (mdepth == 2)
         h_mapDepth2ADCAmpl_HF->Fill(double(ieta), double(iphi), amplitude);
       if (mdepth == 3)
         h_mapDepth3ADCAmpl_HF->Fill(double(ieta), double(iphi), amplitude);
       if (mdepth == 4)
         h_mapDepth4ADCAmpl_HF->Fill(double(ieta), double(iphi), amplitude);
       if (mdepth == 1)
         h_mapDepth1ADCAmpl12_HF->Fill(double(ieta), double(iphi), ampl);
       if (mdepth == 2)
         h_mapDepth2ADCAmpl12_HF->Fill(double(ieta), double(iphi), ampl);
       if (mdepth == 3)
         h_mapDepth3ADCAmpl12_HF->Fill(double(ieta), double(iphi), ampl);
       if (mdepth == 4)
         h_mapDepth4ADCAmpl12_HF->Fill(double(ieta), double(iphi), ampl);

       h_bcnvsamplitude_HF->Fill(float(bcn), amplitude);
       h_bcnvsamplitude0_HF->Fill(float(bcn), 1.);
       h_orbitNumvsamplitude_HF->Fill(float(orbitNum), amplitude);
       h_orbitNumvsamplitude0_HF->Fill(float(orbitNum), 1.);
       if (amplitude > forallestimators_amplitude_bigger_)
         sumEstimator1[sub - 1][mdepth - 1][ieta + 41][iphi] += amplitude;
     }  //if(studyADCAmplHist_
     //   //   //   //   //   //   //   //   //  HFQIE10       TSmean:
     if (studyTSmeanShapeHist_) {
       h_TSmeanA_HF->Fill(aveamplitude1, 1.);
       //    h2_TSnVsAyear2023_HF->Fill(25.*aveamplitude1, amplitude);
       h2_TSnVsAyear2023_HF->Fill(amplitude, 25. * aveamplitude1);
       h1_TSnVsAyear2023_HF->Fill(amplitude, 25. * aveamplitude1);
       h1_TSnVsAyear20230_HF->Fill(amplitude, 1.);
       if (aveamplitude1 < TSmeanHFMin_ || aveamplitude1 > TSmeanHFMax_) {
         if (studyRunDependenceHist_ && flagtodefinebadchannel_ == 4)
           ++badchannels[sub - 1][mdepth - 1][ieta + 41][iphi];  // 0-neta ; 0-71
         if (mdepth == 1)
           h_mapDepth1TSmeanA225_HF->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 2)
           h_mapDepth2TSmeanA225_HF->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 3)
           h_mapDepth3TSmeanA225_HF->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 4)
           h_mapDepth4TSmeanA225_HF->Fill(double(ieta), double(iphi), 1.);
       }  // if
       // for averaged values:
       if (mdepth == 1)
         h_mapDepth1TSmeanA_HF->Fill(double(ieta), double(iphi), aveamplitude1);
       if (mdepth == 2)
         h_mapDepth2TSmeanA_HF->Fill(double(ieta), double(iphi), aveamplitude1);
       if (mdepth == 3)
         h_mapDepth3TSmeanA_HF->Fill(double(ieta), double(iphi), aveamplitude1);
       if (mdepth == 4)
         h_mapDepth4TSmeanA_HF->Fill(double(ieta), double(iphi), aveamplitude1);

       if (amplitude > forallestimators_amplitude_bigger_)
         sumEstimator2[sub - 1][mdepth - 1][ieta + 41][iphi] += aveamplitude1;
     }  //if(studyTSmeanShapeHist_
     //   //   //   //   //   //   //   //   //  HFQIE10       TSmax:
     if (studyTSmaxShapeHist_) {
       h_TSmaxA_HF->Fill(float(ts_with_max_signal), 1.);
       if (ts_with_max_signal < TSpeakHFMin_ || ts_with_max_signal > TSpeakHFMax_) {
         if (studyRunDependenceHist_ && flagtodefinebadchannel_ == 3)
           ++badchannels[sub - 1][mdepth - 1][ieta + 41][iphi];  // 0-neta ; 0-71
         if (mdepth == 1)
           h_mapDepth1TSmaxA225_HF->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 2)
           h_mapDepth2TSmaxA225_HF->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 3)
           h_mapDepth3TSmaxA225_HF->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 4)
           h_mapDepth4TSmaxA225_HF->Fill(double(ieta), double(iphi), 1.);
       }  // if
       // for averaged values:
       if (mdepth == 1)
         h_mapDepth1TSmaxA_HF->Fill(double(ieta), double(iphi), float(ts_with_max_signal));
       if (mdepth == 2)
         h_mapDepth2TSmaxA_HF->Fill(double(ieta), double(iphi), float(ts_with_max_signal));
       if (mdepth == 3)
         h_mapDepth3TSmaxA_HF->Fill(double(ieta), double(iphi), float(ts_with_max_signal));
       if (mdepth == 4)
         h_mapDepth4TSmaxA_HF->Fill(double(ieta), double(iphi), float(ts_with_max_signal));

       if (amplitude > forallestimators_amplitude_bigger_)
         sumEstimator3[sub - 1][mdepth - 1][ieta + 41][iphi] += float(ts_with_max_signal);
     }  //if(studyTSmaxShapeHist_
     //   //   //   //   //   //   //   //   //  HFQIE10       RMS:
     if (studyRMSshapeHist_) {
       h_Amplitude_HF->Fill(rmsamplitude, 1.);
       if (rmsamplitude < rmsHFMin_ || rmsamplitude > rmsHFMax_) {
         if (studyRunDependenceHist_ && flagtodefinebadchannel_ == 2)
           ++badchannels[sub - 1][mdepth - 1][ieta + 41][iphi];  // 0-neta ; 0-71
         if (mdepth == 1)
           h_mapDepth1Amplitude225_HF->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 2)
           h_mapDepth2Amplitude225_HF->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 3)
           h_mapDepth3Amplitude225_HF->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 4)
           h_mapDepth4Amplitude225_HF->Fill(double(ieta), double(iphi), 1.);
       }  // if
       // for averaged values:

       if (mdepth == 1)
         h_mapDepth1Amplitude_HF->Fill(double(ieta), double(iphi), rmsamplitude);
       if (mdepth == 2)
         h_mapDepth2Amplitude_HF->Fill(double(ieta), double(iphi), rmsamplitude);
       if (mdepth == 3)
         h_mapDepth3Amplitude_HF->Fill(double(ieta), double(iphi), rmsamplitude);
       if (mdepth == 4)
         h_mapDepth4Amplitude_HF->Fill(double(ieta), double(iphi), rmsamplitude);
       if (amplitude > forallestimators_amplitude_bigger_)
         sumEstimator4[sub - 1][mdepth - 1][ieta + 41][iphi] += rmsamplitude;
     }  //if(studyRMSshapeHist_)
     //   //   //   //   //   //   //   //   //  HFQIE10       Ratio:
     if (studyRatioShapeHist_) {
       h_Ampl_HF->Fill(ratio, 1.);
       if (ratio < ratioHFMin_ || ratio > ratioHFMax_) {
         if (studyRunDependenceHist_ && flagtodefinebadchannel_ == 1)
           ++badchannels[sub - 1][mdepth - 1][ieta + 41][iphi];  // 0-neta ; 0-71
         if (mdepth == 1)
           h_mapDepth1Ampl047_HF->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 2)
           h_mapDepth2Ampl047_HF->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 3)
           h_mapDepth3Ampl047_HF->Fill(double(ieta), double(iphi), 1.);
         if (mdepth == 4)
           h_mapDepth4Ampl047_HF->Fill(double(ieta), double(iphi), 1.);
       }  //if(ratio
       // for averaged values:
       if (mdepth == 1)
         h_mapDepth1Ampl_HF->Fill(double(ieta), double(iphi), ratio);
       if (mdepth == 2)
         h_mapDepth2Ampl_HF->Fill(double(ieta), double(iphi), ratio);
       if (mdepth == 3)
         h_mapDepth3Ampl_HF->Fill(double(ieta), double(iphi), ratio);
       if (mdepth == 4)
         h_mapDepth4Ampl_HF->Fill(double(ieta), double(iphi), ratio);

       if (amplitude > forallestimators_amplitude_bigger_)
         sumEstimator5[sub - 1][mdepth - 1][ieta + 41][iphi] += ratio;
     }  //if(studyRatioShapeHist_)

     //   //   //   //   //   //   //   //   //  HFQIE10      DiffAmplitude:
     if (studyDiffAmplHist_) {
       if (mdepth == 1)
         h_mapDepth1AmplE34_HF->Fill(double(ieta), double(iphi), amplitude);
       if (mdepth == 2)
         h_mapDepth2AmplE34_HF->Fill(double(ieta), double(iphi), amplitude);
       if (mdepth == 3)
         h_mapDepth3AmplE34_HF->Fill(double(ieta), double(iphi), amplitude);
       if (mdepth == 4)
         h_mapDepth4AmplE34_HF->Fill(double(ieta), double(iphi), amplitude);
     }  // if(studyDiffAmplHist_)

     if (mdepth == 1)
       h_mapDepth1_HF->Fill(double(ieta), double(iphi), 1.);
     if (mdepth == 2)
       h_mapDepth2_HF->Fill(double(ieta), double(iphi), 1.);
     if (mdepth == 3)
       h_mapDepth3_HF->Fill(double(ieta), double(iphi), 1.);
     if (mdepth == 4)
       h_mapDepth4_HF->Fill(double(ieta), double(iphi), 1.);

     if (flagTS1 == 1) {
       if (mdepth == 1)
         h_mapDepth1TS1_HF->Fill(double(ieta), double(iphi), 1.);
       if (mdepth == 2)
         h_mapDepth2TS1_HF->Fill(double(ieta), double(iphi), 1.);
       if (mdepth == 3)
         h_mapDepth3TS1_HF->Fill(double(ieta), double(iphi), 1.);
       if (mdepth == 4)
         h_mapDepth4TS1_HF->Fill(double(ieta), double(iphi), 1.);
     }  // for TS = 1

   }  //if ( sub == 4 )

   //
 }

 void CMTRawAnalyzer::fillDigiAmplitudeHO(HODigiCollection::const_iterator& digiItr) {
   CaloSamples toolOriginal;  // TS
   double tool[100];
   HcalDetId cell(digiItr->id());
   int mdepth = cell.depth();
   int iphi = cell.iphi() - 1;  // 0-71
   int ieta = cell.ieta();
   if (ieta > 0)
     ieta -= 1;              //-41 +41
   int sub = cell.subdet();  // (HODigiCollection: 3-HO)
   const HcalPedestal* pedestal00 = conditions->getPedestal(cell);
   const HcalGain* gain = conditions->getGain(cell);
   const HcalRespCorr* respcorr = conditions->getHcalRespCorr(cell);
   const HcalTimeCorr* timecorr = conditions->getHcalTimeCorr(cell);
   const HcalLUTCorr* lutcorr = conditions->getHcalLUTCorr(cell);
   const HcalQIECoder* channelCoder = conditions->getHcalCoder(cell);
   const HcalPedestalWidth* pedw = conditions->getPedestalWidth(cell);
   HcalCoderDb coder(*channelCoder, *shape);
   if (useADCfC_)
     coder.adc2fC(*digiItr, toolOriginal);
   double pedestalaver9 = 0.;
   double pedestalaver4 = 0.;
   double pedestal0 = 0.;
   double pedestal1 = 0.;
   double pedestal2 = 0.;
   double pedestal3 = 0.;
   double pedestalwaver9 = 0.;
   double pedestalwaver4 = 0.;
   double pedestalw0 = 0.;
   double pedestalw1 = 0.;
   double pedestalw2 = 0.;
   double pedestalw3 = 0.;
   double amplitude = 0.;
   double absamplitude = 0.;
   double ampl = 0.;
   double timew = 0.;
   double timeww = 0.;
   double max_signal = -100.;
   int ts_with_max_signal = -100;
   int c0 = 0;
   int c1 = 0;
   int c2 = 0;
   int c3 = 0;
   int c4 = 0;
   double errorBtype = 0.;
   int TSsize = 10;  //HO
   if ((*digiItr).size() != TSsize)
     errorBtype = 1.;
   TSsize = digiItr->size();
   int flagTS012 = 0;
   for (int ii = 0; ii < TSsize; ii++) {
     double ampldefault = 0.;
     double ampldefault0 = 0.;
     double ampldefault1 = 0.;
     double ampldefault2 = 0.;
     ampldefault0 = adc2fC[digiItr->sample(ii).adc()];  // massive
     if (useADCfC_)
       ampldefault1 = toolOriginal[ii];    //adcfC
     ampldefault2 = (*digiItr)[ii].adc();  //ADCcounts
     if (useADCmassive_) {
       ampldefault = ampldefault0;
     }
     if (useADCfC_) {
       ampldefault = ampldefault1;
     }
     if (useADCcounts_) {
       ampldefault = ampldefault2;
     }
     int capid = ((*digiItr)[ii]).capid();
     double pedestal = pedestal00->getValue(capid);
     double pedestalw = pedw->getSigma(capid, capid);
     if (usePedestalSubtraction_)
       ampldefault -= pedestal;  // pedestal subtraction
     tool[ii] = ampldefault;
     pedestalaver9 += pedestal;
     pedestalwaver9 += pedestalw * pedestalw;
     if (capid == 0 && c0 == 0) {
       c0++;
       c4++;
       pedestalaver4 += pedestal;
       pedestal0 = pedestal;
       pedestalw0 = pedestalw;
       pedestalwaver4 += pedestalw * pedestalw;
     }
     if (capid == 1 && c1 == 0) {
       c1++;
       c4++;
       pedestalaver4 += pedestal;
       pedestal1 = pedestal;
       pedestalw1 = pedestalw;
       pedestalwaver4 += pedestalw * pedestalw;
     }
     if (capid == 2 && c2 == 0) {
       c2++;
       c4++;
       pedestalaver4 += pedestal;
       pedestal2 = pedestal;
       pedestalw2 = pedestalw;
       pedestalwaver4 += pedestalw * pedestalw;
     }
     if (capid == 3 && c3 == 0) {
       c3++;
       c4++;
       pedestalaver4 += pedestal;
       pedestal3 = pedestal;
       pedestalw3 = pedestalw;
       pedestalwaver4 += pedestalw * pedestalw;
     }

     if (max_signal < ampldefault) {
       max_signal = ampldefault;
       ts_with_max_signal = ii;
     }
     amplitude += ampldefault;
     absamplitude += abs(ampldefault);
     if (flagcpuoptimization_ == 0) {
     }
     timew += (ii + 1) * abs(ampldefault);
     timeww += (ii + 1) * ampldefault;
     if (ii < 3 && ampldefault > 0.)
       flagTS012 = 1;
   }                                                                     //for 1
   amplitudechannel[sub - 1][mdepth - 1][ieta + 41][iphi] += amplitude;  // 0-neta ; 0-71  HO

   pedestalaver9 /= TSsize;
   pedestalaver4 /= c4;
   pedestalwaver9 = sqrt(pedestalwaver9 / TSsize);
   pedestalwaver4 = sqrt(pedestalwaver4 / c4);
   if (ts_with_max_signal > -1 && ts_with_max_signal < TSsize)
     ampl = tool[ts_with_max_signal];
   if (ts_with_max_signal + 2 > -1 && ts_with_max_signal + 2 < TSsize)
     ampl += tool[ts_with_max_signal + 2];
   if (ts_with_max_signal + 1 > -1 && ts_with_max_signal + 1 < TSsize)
     ampl += tool[ts_with_max_signal + 1];
   if (ts_with_max_signal - 1 > -1 && ts_with_max_signal - 1 < TSsize)
     ampl += tool[ts_with_max_signal - 1];
   double ratio = 0.;
   if (amplitude != 0.)
     ratio = ampl / amplitude;
   if (ratio < 0. || ratio > 1.04)
     ratio = 0.;
   double aveamplitude = 0.;
   double aveamplitudew = 0.;
   if (absamplitude > 0 && timew > 0)
     aveamplitude = timew / absamplitude;  // average_TS +1
   if (amplitude > 0 && timeww > 0)
     aveamplitudew = timeww / amplitude;  // average_TS +1
   double rmsamp = 0.;
   int error = 0;
   bool anycapid = true;
   bool anyer = false;
   bool anydv = true;
   int lastcapid = 0;
   int capid = 0;
   for (int ii = 0; ii < TSsize; ii++) {
     double aaaaaa = (ii + 1) - aveamplitudew;
     double aaaaaa2 = aaaaaa * aaaaaa;
     double ampldefault = tool[ii];
     rmsamp += (aaaaaa2 * ampldefault);  // fC
     capid = ((*digiItr)[ii]).capid();
     bool er = (*digiItr)[ii].er();  // error
     bool dv = (*digiItr)[ii].dv();  // valid data
     if (ii != 0 && ((lastcapid + 1) % 4) != capid) {
       anycapid = false;
     }
     lastcapid = capid;
     if (er) {
       anyer = true;
     }
     if (!dv) {
       anydv = false;
     }
   }  //for 2

   if (!anycapid || anyer || !anydv)
     error = 1;
   double rmsamplitude = 0.;
   if ((amplitude > 0 && rmsamp > 0) || (amplitude < 0 && rmsamp < 0))
     rmsamplitude = sqrt(rmsamp / amplitude);
   double aveamplitude1 = aveamplitude - 1;  // means iTS=0-9, so bad is iTS=0 and 9
   if (error == 1) {
     if (sub == 3 && mdepth == 4)
       h_Amplitude_forCapIdErrors_HO4->Fill(amplitude, 1.);
   }
   if (error != 1) {
     if (sub == 3 && mdepth == 4)
       h_Amplitude_notCapIdErrors_HO4->Fill(amplitude, 1.);
   }

   if (sub == 3) {
     if (error == 1 || amplitude < ADCAmplHOMin_ || amplitude > ADCAmplHOMax_ || rmsamplitude < rmsHOMin_ ||
         rmsamplitude > rmsHOMax_ || pedestal0 < pedestalHOMax_ || pedestal1 < pedestalHOMax_ ||
         pedestal2 < pedestalHOMax_ || pedestal3 < pedestalHOMax_ || pedestalw0 < pedestalwHOMax_ ||
         pedestalw1 < pedestalwHOMax_ || pedestalw2 < pedestalwHOMax_ || pedestalw3 < pedestalwHOMax_

     ) {
       for (int ii = 0; ii < TSsize; ii++) {
         double ampldefault = tool[ii];
         h_shape_bad_channels_HO->Fill(float(ii), ampldefault);
         h_shape0_bad_channels_HO->Fill(float(ii), 1.);
       }
     } else {
       for (int ii = 0; ii < TSsize; ii++) {
         double ampldefault = tool[ii];
         h_shape_good_channels_HO->Fill(float(ii), ampldefault);
         h_shape0_good_channels_HO->Fill(float(ii), 1.);
       }
     }
   }  // sub   HO
   sum0Estimator[sub - 1][mdepth - 1][ieta + 41][iphi] += 1.;
   //      for Error B-type
   sumEstimator6[sub - 1][mdepth - 1][ieta + 41][iphi] += errorBtype;
   sumEstimator0[sub - 1][mdepth - 1][ieta + 41][iphi] += pedestal0;  //Pedestals
   // HO
   if (sub == 3) {
     if (studyPedestalCorrelations_) {
       double mypedestal = pedestal0;
       double mypedestalw = pedestalw0;
       h2_pedvsampl_HO->Fill(mypedestal, amplitude);
       h2_pedwvsampl_HO->Fill(mypedestalw, amplitude);
       h_pedvsampl_HO->Fill(mypedestal, amplitude);
       h_pedwvsampl_HO->Fill(mypedestalw, amplitude);
       h_pedvsampl0_HO->Fill(mypedestal, 1.);
       h_pedwvsampl0_HO->Fill(mypedestalw, 1.);
     }  //
     //   //   //   //   //   //   //   //   //  HO       Pedestals:
     if (studyPedestalsHist_) {
       h_pedestal0_HO->Fill(pedestal0, 1.);
       h_pedestal1_HO->Fill(pedestal1, 1.);
       h_pedestal2_HO->Fill(pedestal2, 1.);
       h_pedestal3_HO->Fill(pedestal3, 1.);
       h_pedestalaver4_HO->Fill(pedestalaver4, 1.);
       h_pedestalaver9_HO->Fill(pedestalaver9, 1.);
       h_pedestalw0_HO->Fill(pedestalw0, 1.);
       h_pedestalw1_HO->Fill(pedestalw1, 1.);
       h_pedestalw2_HO->Fill(pedestalw2, 1.);
       h_pedestalw3_HO->Fill(pedestalw3, 1.);
       h_pedestalwaver4_HO->Fill(pedestalwaver4, 1.);
       h_pedestalwaver9_HO->Fill(pedestalwaver9, 1.);
       // for averaged values:
       if (mdepth == 4) {
         h_mapDepth4Ped0_HO->Fill(double(ieta), double(iphi), pedestal0);
         h_mapDepth4Ped1_HO->Fill(double(ieta), double(iphi), pedestal1);
         h_mapDepth4Ped2_HO->Fill(double(ieta), double(iphi), pedestal2);
         h_mapDepth4Ped3_HO->Fill(double(ieta), double(iphi), pedestal3);
         h_mapDepth4Pedw0_HO->Fill(double(ieta), double(iphi), pedestalw0);
         h_mapDepth4Pedw1_HO->Fill(double(ieta), double(iphi), pedestalw1);
         h_mapDepth4Pedw2_HO->Fill(double(ieta), double(iphi), pedestalw2);
         h_mapDepth4Pedw3_HO->Fill(double(ieta), double(iphi), pedestalw3);
       }
       if (pedestalw0 < pedestalwHOMax_ || pedestalw1 < pedestalwHOMax_ || pedestalw2 < pedestalwHOMax_ ||
           pedestalw3 < pedestalwHOMax_) {
         if (mdepth == 4)
           h_mapDepth4pedestalw_HO->Fill(double(ieta), double(iphi), 1.);
       }
       if (pedestal0 < pedestalHOMax_ || pedestal1 < pedestalHOMax_ || pedestal2 < pedestalHOMax_ ||
           pedestal3 < pedestalHOMax_) {
         if (mdepth == 4)
           h_mapDepth4pedestal_HO->Fill(double(ieta), double(iphi), 1.);
       }
       for (int ii = 0; ii < TSsize; ii++) {
         h_pedestal00_HO->Fill(pedestal00->getValue(ii), 1.);
         h_gain_HO->Fill(gain->getValue(ii), 1.);
       }
       h_respcorr_HO->Fill(respcorr->getValue(), 1.);
       h_timecorr_HO->Fill(timecorr->getValue(), 1.);
       h_lutcorr_HO->Fill(lutcorr->getValue(), 1.);
     }  //
     //   //   //   //   //   //   //   //   //  HO       ADCAmpl:
     if (studyADCAmplHist_) {
       h_ADCAmpl_HO->Fill(amplitude, 1.);
       h_ADCAmplrest1_HO->Fill(amplitude, 1.);
       h_ADCAmplrest6_HO->Fill(amplitude, 1.);

       h_ADCAmplZoom1_HO->Fill(amplitude, 1.);
       h_ADCAmpl_HO_copy->Fill(amplitude, 1.);
       if (amplitude < ADCAmplHOMin_ || amplitude > ADCAmplHOMax_) {
         if (studyRunDependenceHist_ && flagtodefinebadchannel_ == 5)
           ++badchannels[sub - 1][mdepth - 1][ieta + 41][iphi];  // 0-neta ; 0-71
         if (mdepth == 4)
           h_mapDepth4ADCAmpl225_HO->Fill(double(ieta), double(iphi), 1.);
       }  // if
       //    if(amplitude >2000.) averSIGNALoccupancy_HO += 1.;

       if (amplitude < 100.) {
         if (mdepth == 4)
           h_mapDepth4ADCAmpl225Copy_HO->Fill(double(ieta), double(iphi), 1.);
       }  // if
       // for averaged values:
       if (mdepth == 4)
         h_mapDepth4ADCAmpl_HO->Fill(double(ieta), double(iphi), amplitude);
       if (mdepth == 4)
         h_mapDepth4ADCAmpl12_HO->Fill(double(ieta), double(iphi), ampl);

       h_bcnvsamplitude_HO->Fill(float(bcn), amplitude);
       h_bcnvsamplitude0_HO->Fill(float(bcn), 1.);

       h_orbitNumvsamplitude_HO->Fill(float(orbitNum), amplitude);
       h_orbitNumvsamplitude0_HO->Fill(float(orbitNum), 1.);
       if (amplitude > forallestimators_amplitude_bigger_)
         sumEstimator1[sub - 1][mdepth - 1][ieta + 41][iphi] += amplitude;
     }  //if(studyADCAmplHist_
     if (studyTSmeanShapeHist_) {
       h_TSmeanA_HO->Fill(aveamplitude1, 1.);
       //    h2_TSnVsAyear2023_HO->Fill(25.*aveamplitude1, amplitude);
       h2_TSnVsAyear2023_HO->Fill(amplitude, 25. * aveamplitude1);
       h1_TSnVsAyear2023_HO->Fill(amplitude, 25. * aveamplitude1);
       h1_TSnVsAyear20230_HO->Fill(amplitude, 1.);
       if (aveamplitude1 < TSmeanHOMin_ || aveamplitude1 > TSmeanHOMax_) {
         if (studyRunDependenceHist_ && flagtodefinebadchannel_ == 4)
           ++badchannels[sub - 1][mdepth - 1][ieta + 41][iphi];  // 0-neta ; 0-71
         if (mdepth == 4)
           h_mapDepth4TSmeanA225_HO->Fill(double(ieta), double(iphi), 1.);
       }  // if
       if (mdepth == 4)
         h_mapDepth4TSmeanA_HO->Fill(double(ieta), double(iphi), aveamplitude1);
       if (amplitude > forallestimators_amplitude_bigger_)
         sumEstimator2[sub - 1][mdepth - 1][ieta + 41][iphi] += aveamplitude1;
     }  //if(studyTSmeanShapeHist_
     if (studyTSmaxShapeHist_) {
       h_TSmaxA_HO->Fill(float(ts_with_max_signal), 1.);
       if (ts_with_max_signal < TSpeakHOMin_ || ts_with_max_signal > TSpeakHOMax_) {
         if (studyRunDependenceHist_ && flagtodefinebadchannel_ == 3)
           ++badchannels[sub - 1][mdepth - 1][ieta + 41][iphi];  // 0-neta ; 0-71
         if (mdepth == 4)
           h_mapDepth4TSmaxA225_HO->Fill(double(ieta), double(iphi), 1.);
       }  // if
       // for averaged values:
       if (mdepth == 4)
         h_mapDepth4TSmaxA_HO->Fill(double(ieta), double(iphi), float(ts_with_max_signal));
       if (amplitude > forallestimators_amplitude_bigger_)
         sumEstimator3[sub - 1][mdepth - 1][ieta + 41][iphi] += float(ts_with_max_signal);
     }  //if(studyTSmaxShapeHist_
     if (studyRMSshapeHist_) {
       h_Amplitude_HO->Fill(rmsamplitude, 1.);
       if (rmsamplitude < rmsHOMin_ || rmsamplitude > rmsHOMax_) {
         if (studyRunDependenceHist_ && flagtodefinebadchannel_ == 2)
           ++badchannels[sub - 1][mdepth - 1][ieta + 41][iphi];  // 0-neta ; 0-71
         if (mdepth == 4)
           h_mapDepth4Amplitude225_HO->Fill(double(ieta), double(iphi), 1.);
       }  // if
       if (mdepth == 4)
         h_mapDepth4Amplitude_HO->Fill(double(ieta), double(iphi), rmsamplitude);
       if (amplitude > forallestimators_amplitude_bigger_)
         sumEstimator4[sub - 1][mdepth - 1][ieta + 41][iphi] += rmsamplitude;
     }  //if(studyRMSshapeHist_)
     if (studyRatioShapeHist_) {
       h_Ampl_HO->Fill(ratio, 1.);
       if (ratio < ratioHOMin_ || ratio > ratioHOMax_) {
         if (studyRunDependenceHist_ && flagtodefinebadchannel_ == 1)
           ++badchannels[sub - 1][mdepth - 1][ieta + 41][iphi];  // 0-neta ; 0-71
         if (mdepth == 4)
           h_mapDepth4Ampl047_HO->Fill(double(ieta), double(iphi), 1.);
       }  //if(ratio
       if (mdepth == 4)
         h_mapDepth4Ampl_HO->Fill(double(ieta), double(iphi), ratio);
       if (amplitude > forallestimators_amplitude_bigger_)
         sumEstimator5[sub - 1][mdepth - 1][ieta + 41][iphi] += ratio;
     }  //if(studyRatioShapeHist_)
     if (studyDiffAmplHist_) {
       if (mdepth == 4)
         h_mapDepth4AmplE34_HO->Fill(double(ieta), double(iphi), amplitude);
     }  // if(studyDiffAmplHist_)
     if (mdepth == 4) {
       h_mapDepth4_HO->Fill(double(ieta), double(iphi), 1.);
       if (flagTS012 == 1)
         h_mapDepth4TS012_HO->Fill(double(ieta), double(iphi), 1.);
     }
   }  //if ( sub == 3 )
 }
 int CMTRawAnalyzer::getRBX(int& kdet, int& keta, int& kphi) {
   int cal_RBX = 0;
   if (kdet == 1 || kdet == 2) {
     if (kphi == 71)
       cal_RBX = 0;
     else
       cal_RBX = (kphi + 1) / 4;
     cal_RBX = cal_RBX + 18 * (keta + 1) / 2;
   }
   if (kdet == 4) {
     cal_RBX = (int)(kphi / 18) + 1;
   }
   if (kdet == 3) {
     if (keta == -2) {
       if (kphi == 71)
         cal_RBX = 0;
       else
         cal_RBX = kphi / 12 + 1;
     }
     if (keta == -1) {
       if (kphi == 71)
         cal_RBX = 6;
       else
         cal_RBX = kphi / 12 + 1 + 6;
     }
     if (keta == 0) {
       if (kphi == 71)
         cal_RBX = 12;
       else
         cal_RBX = kphi / 6 + 1 + 12;
     }
     if (keta == 1) {
       if (kphi == 71)
         cal_RBX = 24;
       else
         cal_RBX = kphi / 12 + 1 + 24;
     }
     if (keta == 2) {
       if (kphi == 71)
         cal_RBX = 30;
       else
         cal_RBX = kphi / 12 + 1 + 30;
     }
   }
   return cal_RBX;
 }
 void CMTRawAnalyzer::beginRun(const edm::Run& r, const edm::EventSetup& iSetup) {}
 void CMTRawAnalyzer::endRun(const edm::Run& r, const edm::EventSetup& iSetup) {
   if (flagfitshunt1pedorledlowintensity_ != 0) {
   }  // if flag...
   if (usecontinuousnumbering_) {
     lscounterM1 = lscounter - 1;
   } else {
     lscounterM1 = ls0;
   }
   if (ls0 != -1)
     h_nevents_per_eachRealLS->Fill(float(lscounterM1), float(nevcounter));  //
   h_nevents_per_LS->Fill(float(nevcounter));
   h_nevents_per_LSzoom->Fill(float(nevcounter));
   nevcounter0 = nevcounter;
   if (nevcounter0 != 0) {
     for (int k0 = 0; k0 < nsub; k0++) {
       for (int k1 = 0; k1 < ndepth; k1++) {
         for (int k2 = 0; k2 < neta; k2++) {
           for (int k3 = 0; k3 < nphi; k3++) {
             int ieta = k2 - 41;
             if (sumEstimator0[k0][k1][k2][k3] != 0.) {
               double bbbc = 0.;
               if (flagestimatornormalization_ == 0)
                 bbbc = sumEstimator0[k0][k1][k2][k3] / nevcounter0;
               if (flagestimatornormalization_ == 1)
                 bbbc = sumEstimator0[k0][k1][k2][k3] / sum0Estimator[k0][k1][k2][k3];
               double bbb1 = 1.;
               if (flagestimatornormalization_ == 2) {
                 bbbc = sumEstimator0[k0][k1][k2][k3];
                 bbb1 = sum0Estimator[k0][k1][k2][k3];
               }
               if (k0 == 0) {
                 if (k1 + 1 == 1) {
                   h_sumPedestalLS1->Fill(bbbc / bbb1);
                   h_2DsumPedestalLS1->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumPedestalLS1->Fill(double(ieta), double(k3), bbb1);
                   h_sumPedestalperLS1->Fill(float(lscounterM1), bbbc);
                   h_sum0PedestalperLS1->Fill(float(lscounterM1), bbb1);
                 }
                 if (k1 + 1 == 2) {
                   h_sumPedestalLS2->Fill(bbbc / bbb1);
                   h_2DsumPedestalLS2->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumPedestalLS2->Fill(double(ieta), double(k3), bbb1);
                   h_sumPedestalperLS2->Fill(float(lscounterM1), bbbc);
                   h_sum0PedestalperLS2->Fill(float(lscounterM1), bbb1);
                 }
               }
               // HE:
               if (k0 == 1) {
                 // HEdepth1
                 if (k1 + 1 == 1) {
                   h_sumPedestalLS3->Fill(bbbc / bbb1);
                   h_2DsumPedestalLS3->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumPedestalLS3->Fill(double(ieta), double(k3), bbb1);
                   h_sumPedestalperLS3->Fill(float(lscounterM1), bbbc);
                   h_sum0PedestalperLS3->Fill(float(lscounterM1), bbb1);
                 }
                 if (k1 + 1 == 2) {
                   h_sumPedestalLS4->Fill(bbbc / bbb1);
                   h_2DsumPedestalLS4->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumPedestalLS4->Fill(double(ieta), double(k3), bbb1);
                   h_sumPedestalperLS4->Fill(float(lscounterM1), bbbc);
                   h_sum0PedestalperLS4->Fill(float(lscounterM1), bbb1);
                 }
                 if (k1 + 1 == 3) {
                   h_sumPedestalLS5->Fill(bbbc / bbb1);
                   h_2DsumPedestalLS5->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumPedestalLS5->Fill(double(ieta), double(k3), bbb1);
                   h_sumPedestalperLS5->Fill(float(lscounterM1), bbbc);
                   h_sum0PedestalperLS5->Fill(float(lscounterM1), bbb1);
                 }
               }
               // HF:
               if (k0 == 3) {
                 // HFdepth1
                 if (k1 + 1 == 1) {
                   h_sumPedestalLS6->Fill(bbbc / bbb1);
                   h_2DsumPedestalLS6->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumPedestalLS6->Fill(double(ieta), double(k3), bbb1);
                   h_sumPedestalperLS6->Fill(float(lscounterM1), bbbc);
                   h_sum0PedestalperLS6->Fill(float(lscounterM1), bbb1);
                 }
                 if (k1 + 1 == 2) {
                   h_sumPedestalLS7->Fill(bbbc / bbb1);
                   h_2DsumPedestalLS7->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumPedestalLS7->Fill(double(ieta), double(k3), bbb1);
                   h_sumPedestalperLS7->Fill(float(lscounterM1), bbbc);
                   h_sum0PedestalperLS7->Fill(float(lscounterM1), bbb1);
                 }
               }
               // HO:
               if (k0 == 2) {
                 // HOdepth1
                 if (k1 + 1 == 4) {
                   h_sumPedestalLS8->Fill(bbbc / bbb1);
                   h_2DsumPedestalLS8->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumPedestalLS8->Fill(double(ieta), double(k3), bbb1);
                   h_sumPedestalperLS8->Fill(float(lscounterM1), bbbc);
                   h_sum0PedestalperLS8->Fill(float(lscounterM1), bbb1);
                 }
               }
             }  //if(sumEstimator0[k0][k1][k2][k3] != 0.
             if (sumEstimator1[k0][k1][k2][k3] != 0.) {
               double bbbc = 0.;
               if (flagestimatornormalization_ == 0)
                 bbbc = sumEstimator1[k0][k1][k2][k3] / nevcounter0;
               if (flagestimatornormalization_ == 1)
                 bbbc = sumEstimator1[k0][k1][k2][k3] / sum0Estimator[k0][k1][k2][k3];
               double bbb1 = 1.;
               if (flagestimatornormalization_ == 2) {
                 bbbc = sumEstimator1[k0][k1][k2][k3];
                 bbb1 = sum0Estimator[k0][k1][k2][k3];
               }
               if (lscounterM1 >= lsmin_ && lscounterM1 < lsmax_) {
                 int kkkk2 = (k2 - 1) / 4;
                 if (k2 == 0)
                   kkkk2 = 1.;
                 else
                   kkkk2 += 2;              //kkkk2= 1-22
                 int kkkk3 = (k3) / 4 + 1;  //kkkk3= 1-18
                 int ietaphi = 0;
                 ietaphi = ((kkkk2)-1) * znphi + (kkkk3);
                 double bbb3 = 0.;
                 if (bbb1 != 0.)
                   bbb3 = bbbc / bbb1;
                 if (k0 == 0) {
                   h_2DsumADCAmplEtaPhiLs0->Fill(float(lscounterM1), float(ietaphi), bbbc);   //HB
                   h_2DsumADCAmplEtaPhiLs00->Fill(float(lscounterM1), float(ietaphi), bbb1);  //HB
                 }
                 if (k0 == 1) {
                   h_2DsumADCAmplEtaPhiLs1->Fill(float(lscounterM1), float(ietaphi), bbbc);   //HE
                   h_2DsumADCAmplEtaPhiLs10->Fill(float(lscounterM1), float(ietaphi), bbb1);  //HE
                 }
                 if (k0 == 2) {
                   h_2DsumADCAmplEtaPhiLs2->Fill(float(lscounterM1), float(ietaphi), bbbc);   //HO
                   h_2DsumADCAmplEtaPhiLs20->Fill(float(lscounterM1), float(ietaphi), bbb1);  //HO
                 }
                 if (k0 == 3) {
                   h_2DsumADCAmplEtaPhiLs3->Fill(float(lscounterM1), float(ietaphi), bbbc);   //HF
                   h_2DsumADCAmplEtaPhiLs30->Fill(float(lscounterM1), float(ietaphi), bbb1);  //HF
                 }

                 h_sumADCAmplEtaPhiLs->Fill(bbb3);
                 h_sumADCAmplEtaPhiLs_bbbc->Fill(bbbc);
                 h_sumADCAmplEtaPhiLs_bbb1->Fill(bbb1);
                 h_sumADCAmplEtaPhiLs_lscounterM1orbitNum->Fill(float(lscounterM1), float(orbitNum));
                 h_sumADCAmplEtaPhiLs_orbitNum->Fill(float(orbitNum), 1.);
                 h_sumADCAmplEtaPhiLs_lscounterM1->Fill(float(lscounterM1), 1.);
                 h_sumADCAmplEtaPhiLs_ietaphi->Fill(float(ietaphi));
               }  // lscounterM1 >= lsmin_ && lscounterM1 < lsmax_
               if (k0 == 0) {
                 if (k1 + 1 == 1) {
                   h_sumADCAmplLS1copy1->Fill(bbbc / bbb1);
                   h_sumADCAmplLS1copy2->Fill(bbbc / bbb1);
                   h_sumADCAmplLS1copy3->Fill(bbbc / bbb1);
                   h_sumADCAmplLS1copy4->Fill(bbbc / bbb1);
                   h_sumADCAmplLS1copy5->Fill(bbbc / bbb1);
                   h_sumADCAmplLS1->Fill(bbbc / bbb1);
                   if (bbbc / bbb1 > lsdep_estimator1_HBdepth1_)
                     h_2DsumADCAmplLS1->Fill(double(ieta), double(k3), bbbc);
                   if (bbbc / bbb1 > 2. * lsdep_estimator1_HBdepth1_)
                     h_2DsumADCAmplLS1_LSselected->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumADCAmplLS1->Fill(double(ieta), double(k3), bbb1);
                   h_sumADCAmplperLS1->Fill(float(lscounterM1), bbbc);
                   if (bbbc / bbb1 > lsdep_estimator1_HBdepth1_)
                     h_sumCutADCAmplperLS1->Fill(float(lscounterM1), bbbc);
                   h_sum0ADCAmplperLS1->Fill(float(lscounterM1), bbb1);
                 }
                 if (k1 + 1 == 2) {
                   h_sumADCAmplLS2->Fill(bbbc / bbb1);
                   if (bbbc / bbb1 > lsdep_estimator1_HBdepth2_)
                     h_2DsumADCAmplLS2->Fill(double(ieta), double(k3), bbbc);
                   if (bbbc / bbb1 > 2. * lsdep_estimator1_HBdepth2_)
                     h_2DsumADCAmplLS2_LSselected->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumADCAmplLS2->Fill(double(ieta), double(k3), bbb1);
                   h_sumADCAmplperLS2->Fill(float(lscounterM1), bbbc);
                   if (bbbc / bbb1 > lsdep_estimator1_HBdepth2_)
                     h_sumCutADCAmplperLS2->Fill(float(lscounterM1), bbbc);
                   h_sum0ADCAmplperLS2->Fill(float(lscounterM1), bbb1);
                 }
                 if (k1 + 1 == 3) {
                   h_sumADCAmplperLSdepth3HBu->Fill(float(lscounterM1), bbbc);
                   if (bbbc / bbb1 > lsdep_estimator1_HBdepth3_)
                     h_sumCutADCAmplperLSdepth3HBu->Fill(float(lscounterM1), bbbc);
                   h_sum0ADCAmplperLSdepth3HBu->Fill(float(lscounterM1), bbb1);

                   if (bbbc / bbb1 > lsdep_estimator1_HBdepth3_)
                     h_2DsumADCAmplLSdepth3HBu->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumADCAmplLSdepth3HBu->Fill(double(ieta), double(k3), bbb1);
                 }  //if(k1+1  ==3)
                 if (k1 + 1 == 4) {
                   h_sumADCAmplperLSdepth4HBu->Fill(float(lscounterM1), bbbc);
                   if (bbbc / bbb1 > lsdep_estimator1_HBdepth4_)
                     h_sumCutADCAmplperLSdepth4HBu->Fill(float(lscounterM1), bbbc);
                   h_sum0ADCAmplperLSdepth4HBu->Fill(float(lscounterM1), bbb1);

                   if (bbbc / bbb1 > lsdep_estimator1_HBdepth4_)
                     h_2DsumADCAmplLSdepth4HBu->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumADCAmplLSdepth4HBu->Fill(double(ieta), double(k3), bbb1);
                 }  //if(k1+1  ==4)
               }
               if (k0 == 1) {
                 if (k1 + 1 == 1) {
                   h_sumADCAmplLS3->Fill(bbbc / bbb1);
                   if (bbbc / bbb1 > lsdep_estimator1_HEdepth1_)
                     h_2DsumADCAmplLS3->Fill(double(ieta), double(k3), bbbc);
                   if (bbbc / bbb1 > 2. * lsdep_estimator1_HEdepth1_)
                     h_2DsumADCAmplLS3_LSselected->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumADCAmplLS3->Fill(double(ieta), double(k3), bbb1);
                   h_sumADCAmplperLS3->Fill(float(lscounterM1), bbbc);
                   if (bbbc / bbb1 > lsdep_estimator1_HEdepth1_)
                     h_sumCutADCAmplperLS3->Fill(float(lscounterM1), bbbc);
                   h_sum0ADCAmplperLS3->Fill(float(lscounterM1), bbb1);
                 }
                 if (k1 + 1 == 2) {
                   h_sumADCAmplLS4->Fill(bbbc / bbb1);
                   if (bbbc / bbb1 > lsdep_estimator1_HEdepth2_)
                     h_2DsumADCAmplLS4->Fill(double(ieta), double(k3), bbbc);
                   if (bbbc / bbb1 > 2. * lsdep_estimator1_HEdepth2_)
                     h_2DsumADCAmplLS4_LSselected->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumADCAmplLS4->Fill(double(ieta), double(k3), bbb1);
                   h_sumADCAmplperLS4->Fill(float(lscounterM1), bbbc);
                   if (bbbc / bbb1 > lsdep_estimator1_HEdepth2_)
                     h_sumCutADCAmplperLS4->Fill(float(lscounterM1), bbbc);
                   h_sum0ADCAmplperLS4->Fill(float(lscounterM1), bbb1);
                 }
                 if (k1 + 1 == 3) {
                   h_sumADCAmplLS5->Fill(bbbc / bbb1);
                   if (bbbc / bbb1 > lsdep_estimator1_HEdepth3_)
                     h_2DsumADCAmplLS5->Fill(double(ieta), double(k3), bbbc);
                   if (bbbc / bbb1 > 2. * lsdep_estimator1_HEdepth3_)
                     h_2DsumADCAmplLS5_LSselected->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumADCAmplLS5->Fill(double(ieta), double(k3), bbb1);
                   h_sumADCAmplperLS5->Fill(float(lscounterM1), bbbc);
                   if (bbbc / bbb1 > lsdep_estimator1_HEdepth3_)
                     h_sumCutADCAmplperLS5->Fill(float(lscounterM1), bbbc);
                   h_sum0ADCAmplperLS5->Fill(float(lscounterM1), bbb1);
                 }
                 if (k1 + 1 == 4) {
                   h_sumADCAmplperLSdepth4HEu->Fill(float(lscounterM1), bbbc);
                   if (bbbc / bbb1 > lsdep_estimator1_HEdepth4_)
                     h_sumCutADCAmplperLSdepth4HEu->Fill(float(lscounterM1), bbbc);
                   h_sum0ADCAmplperLSdepth4HEu->Fill(float(lscounterM1), bbb1);
                   if (bbbc / bbb1 > lsdep_estimator1_HEdepth4_)
                     h_2DsumADCAmplLSdepth4HEu->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumADCAmplLSdepth4HEu->Fill(double(ieta), double(k3), bbb1);
                 }  //if(k1+1  ==4)
                 if (k1 + 1 == 5) {
                   h_sumADCAmplperLSdepth5HEu->Fill(float(lscounterM1), bbbc);
                   if (bbbc / bbb1 > lsdep_estimator1_HEdepth5_)
                     h_sumCutADCAmplperLSdepth5HEu->Fill(float(lscounterM1), bbbc);
                   h_sum0ADCAmplperLSdepth5HEu->Fill(float(lscounterM1), bbb1);
                   if (bbbc / bbb1 > lsdep_estimator1_HEdepth5_)
                     h_2DsumADCAmplLSdepth5HEu->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumADCAmplLSdepth5HEu->Fill(double(ieta), double(k3), bbb1);
                 }  //if(k1+1  ==5)

                 if (k1 + 1 == 6) {
                   h_sumADCAmplperLSdepth6HEu->Fill(float(lscounterM1), bbbc);
                   if (bbbc / bbb1 > lsdep_estimator1_HEdepth6_)
                     h_sumCutADCAmplperLSdepth6HEu->Fill(float(lscounterM1), bbbc);
                   h_sum0ADCAmplperLSdepth6HEu->Fill(float(lscounterM1), bbb1);
                   if (bbbc / bbb1 > lsdep_estimator1_HEdepth6_)
                     h_2DsumADCAmplLSdepth6HEu->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumADCAmplLSdepth6HEu->Fill(double(ieta), double(k3), bbb1);
                 }  //if(k1+1  ==6)
                 if (k1 + 1 == 7) {
                   h_sumADCAmplperLSdepth7HEu->Fill(float(lscounterM1), bbbc);
                   if (bbbc / bbb1 > lsdep_estimator1_HEdepth7_)
                     h_sumCutADCAmplperLSdepth7HEu->Fill(float(lscounterM1), bbbc);
                   h_sum0ADCAmplperLSdepth7HEu->Fill(float(lscounterM1), bbb1);
                   if (bbbc / bbb1 > lsdep_estimator1_HEdepth7_)
                     h_2DsumADCAmplLSdepth7HEu->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumADCAmplLSdepth7HEu->Fill(double(ieta), double(k3), bbb1);
                 }  //if(k1+1  ==7)

               }  // end HE

               if (k0 == 3) {
                 if (k1 + 1 == 1) {
                   h_sumADCAmplLS6->Fill(bbbc / bbb1);
                   if (bbbc / bbb1 > lsdep_estimator1_HFdepth1_)
                     h_2DsumADCAmplLS6->Fill(double(ieta), double(k3), bbbc);
                   if (bbbc / bbb1 > 2. * lsdep_estimator1_HFdepth1_)
                     h_2DsumADCAmplLS6_LSselected->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumADCAmplLS6->Fill(double(ieta), double(k3), bbb1);
                   h_sumADCAmplperLS6->Fill(float(lscounterM1), bbbc);
                   if (bbbc / bbb1 > lsdep_estimator1_HFdepth1_)
                     h_sumCutADCAmplperLS6->Fill(float(lscounterM1), bbbc);
                   h_sum0ADCAmplperLS6->Fill(float(lscounterM1), bbb1);
                 }
                 if (k1 + 1 == 2) {
                   h_sumADCAmplLS7->Fill(bbbc / bbb1);
                   if (bbbc / bbb1 > lsdep_estimator1_HFdepth2_)
                     h_2DsumADCAmplLS7->Fill(double(ieta), double(k3), bbbc);
                   if (bbbc / bbb1 > 2. * lsdep_estimator1_HFdepth2_)
                     h_2DsumADCAmplLS7_LSselected->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumADCAmplLS7->Fill(double(ieta), double(k3), bbb1);
                   h_sumADCAmplperLS7->Fill(float(lscounterM1), bbbc);
                   if (bbbc / bbb1 > lsdep_estimator1_HFdepth2_)
                     h_sumCutADCAmplperLS7->Fill(float(lscounterM1), bbbc);
                   h_sum0ADCAmplperLS7->Fill(float(lscounterM1), bbb1);
                 }

                 if (k1 + 1 == 3) {
                   h_sumADCAmplperLS6u->Fill(float(lscounterM1), bbbc);
                   if (bbbc / bbb1 > lsdep_estimator1_HFdepth3_)
                     h_sumCutADCAmplperLS6u->Fill(float(lscounterM1), bbbc);
                   h_sum0ADCAmplperLS6u->Fill(float(lscounterM1), bbb1);
                   if (bbbc / bbb1 > lsdep_estimator1_HFdepth3_)
                     h_2DsumADCAmplLSdepth3HFu->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumADCAmplLSdepth3HFu->Fill(double(ieta), double(k3), bbb1);
                 }  //if(k1+1  ==3)
                 if (k1 + 1 == 4) {
                   h_sumADCAmplperLS7u->Fill(float(lscounterM1), bbbc);
                   if (bbbc / bbb1 > lsdep_estimator1_HFdepth4_)
                     h_sumCutADCAmplperLS7u->Fill(float(lscounterM1), bbbc);
                   h_sum0ADCAmplperLS7u->Fill(float(lscounterM1), bbb1);
                   if (bbbc / bbb1 > lsdep_estimator1_HFdepth4_)
                     h_2DsumADCAmplLSdepth4HFu->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumADCAmplLSdepth4HFu->Fill(double(ieta), double(k3), bbb1);
                 }  //if(k1+1  ==4)
               }
               // HO:
               if (k0 == 2) {
                 // HOdepth1
                 if (k1 + 1 == 4) {
                   h_sumADCAmplLS8->Fill(bbbc / bbb1);
                   if (bbbc / bbb1 > lsdep_estimator1_HOdepth4_)
                     h_2DsumADCAmplLS8->Fill(double(ieta), double(k3), bbbc);
                   if (bbbc / bbb1 > 2. * lsdep_estimator1_HOdepth4_)
                     h_2DsumADCAmplLS8_LSselected->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumADCAmplLS8->Fill(double(ieta), double(k3), bbb1);
                   h_sumADCAmplperLS8->Fill(float(lscounterM1), bbbc);
                   if (bbbc / bbb1 > lsdep_estimator1_HOdepth4_)
                     h_sumCutADCAmplperLS8->Fill(float(lscounterM1), bbbc);
                   h_sum0ADCAmplperLS8->Fill(float(lscounterM1), bbb1);
                 }
               }
             }  //if(sumEstimator1[k0][k1][k2][k3] != 0.
             if (sumEstimator2[k0][k1][k2][k3] != 0.) {
               double bbbc = 0.;
               if (flagestimatornormalization_ == 0)
                 bbbc = sumEstimator2[k0][k1][k2][k3] / nevcounter0;
               if (flagestimatornormalization_ == 1)
                 bbbc = sumEstimator2[k0][k1][k2][k3] / sum0Estimator[k0][k1][k2][k3];
               double bbb1 = 1.;
               if (flagestimatornormalization_ == 2) {
                 bbbc = sumEstimator2[k0][k1][k2][k3];
                 bbb1 = sum0Estimator[k0][k1][k2][k3];
               }

               // HB:
               if (k0 == 0) {
                 // HBdepth1
                 if (k1 + 1 == 1) {
                   h_sumTSmeanALS1->Fill(bbbc / bbb1);
                   if (bbbc / bbb1 > lsdep_estimator2_HBdepth1_)
                     h_2DsumTSmeanALS1->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumTSmeanALS1->Fill(double(ieta), double(k3), bbb1);
                   h_sumTSmeanAperLS1->Fill(float(lscounterM1), bbbc);
                   if (bbbc / bbb1 > lsdep_estimator2_HBdepth1_)
                     h_sumCutTSmeanAperLS1->Fill(float(lscounterM1), bbbc);
                   h_sum0TSmeanAperLS1->Fill(float(lscounterM1), bbb1);
                   if (bbbc / bbb1 > 2. * lsdep_estimator2_HBdepth1_)
                     h_sumTSmeanAperLS1_LSselected->Fill(float(lscounterM1), bbbc);
                 }
                 if (k1 + 1 == 2) {
                   h_sumTSmeanALS2->Fill(bbbc / bbb1);
                   if (bbbc / bbb1 > lsdep_estimator2_HBdepth2_)
                     h_2DsumTSmeanALS2->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumTSmeanALS2->Fill(double(ieta), double(k3), bbb1);
                   h_sumTSmeanAperLS2->Fill(float(lscounterM1), bbbc);
                   if (bbbc / bbb1 > lsdep_estimator2_HBdepth2_)
                     h_sumCutTSmeanAperLS2->Fill(float(lscounterM1), bbbc);
                   h_sum0TSmeanAperLS2->Fill(float(lscounterM1), bbb1);
                 }
               }
               if (k0 == 1) {
                 if (k1 + 1 == 1) {
                   h_sumTSmeanALS3->Fill(bbbc / bbb1);
                   if (bbbc / bbb1 > lsdep_estimator2_HEdepth1_)
                     h_2DsumTSmeanALS3->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumTSmeanALS3->Fill(double(ieta), double(k3), bbb1);
                   h_sumTSmeanAperLS3->Fill(float(lscounterM1), bbbc);
                   if (bbbc / bbb1 > lsdep_estimator2_HEdepth1_)
                     h_sumCutTSmeanAperLS3->Fill(float(lscounterM1), bbbc);
                   h_sum0TSmeanAperLS3->Fill(float(lscounterM1), bbb1);
                 }
                 if (k1 + 1 == 2) {
                   h_sumTSmeanALS4->Fill(bbbc / bbb1);
                   if (bbbc / bbb1 > lsdep_estimator2_HEdepth2_)
                     h_2DsumTSmeanALS4->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumTSmeanALS4->Fill(double(ieta), double(k3), bbb1);
                   h_sumTSmeanAperLS4->Fill(float(lscounterM1), bbbc);
                   if (bbbc / bbb1 > lsdep_estimator2_HEdepth2_)
                     h_sumCutTSmeanAperLS4->Fill(float(lscounterM1), bbbc);
                   h_sum0TSmeanAperLS4->Fill(float(lscounterM1), bbb1);
                 }
                 if (k1 + 1 == 3) {
                   h_sumTSmeanALS5->Fill(bbbc / bbb1);
                   if (bbbc / bbb1 > lsdep_estimator2_HEdepth3_)
                     h_2DsumTSmeanALS5->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumTSmeanALS5->Fill(double(ieta), double(k3), bbb1);
                   h_sumTSmeanAperLS5->Fill(float(lscounterM1), bbbc);
                   if (bbbc / bbb1 > lsdep_estimator2_HEdepth3_)
                     h_sumCutTSmeanAperLS5->Fill(float(lscounterM1), bbbc);
                   h_sum0TSmeanAperLS5->Fill(float(lscounterM1), bbb1);
                 }
               }
               // HF:
               if (k0 == 3) {
                 // HFdepth1
                 if (k1 + 1 == 1) {
                   h_sumTSmeanALS6->Fill(bbbc / bbb1);
                   if (bbbc / bbb1 > lsdep_estimator2_HFdepth1_)
                     h_2DsumTSmeanALS6->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumTSmeanALS6->Fill(double(ieta), double(k3), bbb1);
                   h_sumTSmeanAperLS6->Fill(float(lscounterM1), bbbc);
                   if (bbbc / bbb1 > lsdep_estimator2_HFdepth1_)
                     h_sumCutTSmeanAperLS6->Fill(float(lscounterM1), bbbc);
                   h_sum0TSmeanAperLS6->Fill(float(lscounterM1), bbb1);
                 }
                 if (k1 + 1 == 2) {
                   h_sumTSmeanALS7->Fill(bbbc / bbb1);
                   if (bbbc / bbb1 > lsdep_estimator2_HFdepth2_)
                     h_2DsumTSmeanALS7->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumTSmeanALS7->Fill(double(ieta), double(k3), bbb1);
                   h_sumTSmeanAperLS7->Fill(float(lscounterM1), bbbc);
                   if (bbbc / bbb1 > lsdep_estimator2_HFdepth2_)
                     h_sumCutTSmeanAperLS7->Fill(float(lscounterM1), bbbc);
                   h_sum0TSmeanAperLS7->Fill(float(lscounterM1), bbb1);
                 }
               }
               // HO:
               if (k0 == 2) {
                 // HOdepth1
                 if (k1 + 1 == 4) {
                   h_sumTSmeanALS8->Fill(bbbc / bbb1);
                   if (bbbc / bbb1 > lsdep_estimator2_HOdepth4_)
                     h_2DsumTSmeanALS8->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumTSmeanALS8->Fill(double(ieta), double(k3), bbb1);
                   h_sumTSmeanAperLS8->Fill(float(lscounterM1), bbbc);
                   if (bbbc / bbb1 > lsdep_estimator2_HOdepth4_)
                     h_sumCutTSmeanAperLS8->Fill(float(lscounterM1), bbbc);
                   h_sum0TSmeanAperLS8->Fill(float(lscounterM1), bbb1);
                 }
               }
             }  //if(sumEstimator2[k0][k1][k2][k3] != 0.

             // ------------------------------------------------------------------------------------------------------------------------sumEstimator3 Tx
             if (sumEstimator3[k0][k1][k2][k3] != 0.) {
               // fill histoes:
               double bbbc = 0.;
               if (flagestimatornormalization_ == 0)
                 bbbc = sumEstimator3[k0][k1][k2][k3] / nevcounter0;
               if (flagestimatornormalization_ == 1)
                 bbbc = sumEstimator3[k0][k1][k2][k3] / sum0Estimator[k0][k1][k2][k3];
               double bbb1 = 1.;
               if (flagestimatornormalization_ == 2) {
                 bbbc = sumEstimator3[k0][k1][k2][k3];
                 bbb1 = sum0Estimator[k0][k1][k2][k3];
               }

               // HB:
               if (k0 == 0) {
                 // HBdepth1
                 if (k1 + 1 == 1) {
                   h_sumTSmaxALS1->Fill(bbbc / bbb1);
                   if (bbbc / bbb1 > lsdep_estimator3_HBdepth1_)
                     h_2DsumTSmaxALS1->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumTSmaxALS1->Fill(double(ieta), double(k3), bbb1);
                   h_sumTSmaxAperLS1->Fill(float(lscounterM1), bbbc);
                   if (bbbc / bbb1 > lsdep_estimator3_HBdepth1_)
                     h_sumCutTSmaxAperLS1->Fill(float(lscounterM1), bbbc);
                   h_sum0TSmaxAperLS1->Fill(float(lscounterM1), bbb1);
                   if (bbbc / bbb1 > 2. * lsdep_estimator3_HBdepth1_)
                     h_sumTSmaxAperLS1_LSselected->Fill(float(lscounterM1), bbbc);
                 }
                 if (k1 + 1 == 2) {
                   h_sumTSmaxALS2->Fill(bbbc / bbb1);
                   if (bbbc / bbb1 > lsdep_estimator3_HBdepth2_)
                     h_2DsumTSmaxALS2->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumTSmaxALS2->Fill(double(ieta), double(k3), bbb1);
                   h_sumTSmaxAperLS2->Fill(float(lscounterM1), bbbc);
                   if (bbbc / bbb1 > lsdep_estimator3_HBdepth2_)
                     h_sumCutTSmaxAperLS2->Fill(float(lscounterM1), bbbc);
                   h_sum0TSmaxAperLS2->Fill(float(lscounterM1), bbb1);
                 }
               }
               // HE:
               if (k0 == 1) {
                 // HEdepth1
                 if (k1 + 1 == 1) {
                   h_sumTSmaxALS3->Fill(bbbc / bbb1);
                   if (bbbc / bbb1 > lsdep_estimator3_HEdepth1_)
                     h_2DsumTSmaxALS3->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumTSmaxALS3->Fill(double(ieta), double(k3), bbb1);
                   h_sumTSmaxAperLS3->Fill(float(lscounterM1), bbbc);
                   if (bbbc / bbb1 > lsdep_estimator3_HEdepth1_)
                     h_sumCutTSmaxAperLS3->Fill(float(lscounterM1), bbbc);
                   h_sum0TSmaxAperLS3->Fill(float(lscounterM1), bbb1);
                 }
                 if (k1 + 1 == 2) {
                   h_sumTSmaxALS4->Fill(bbbc / bbb1);
                   if (bbbc / bbb1 > lsdep_estimator3_HEdepth2_)
                     h_2DsumTSmaxALS4->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumTSmaxALS4->Fill(double(ieta), double(k3), bbb1);
                   h_sumTSmaxAperLS4->Fill(float(lscounterM1), bbbc);
                   if (bbbc / bbb1 > lsdep_estimator3_HEdepth2_)
                     h_sumCutTSmaxAperLS4->Fill(float(lscounterM1), bbbc);
                   h_sum0TSmaxAperLS4->Fill(float(lscounterM1), bbb1);
                 }
                 if (k1 + 1 == 3) {
                   h_sumTSmaxALS5->Fill(bbbc / bbb1);
                   if (bbbc / bbb1 > lsdep_estimator3_HEdepth3_)
                     h_2DsumTSmaxALS5->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumTSmaxALS5->Fill(double(ieta), double(k3), bbb1);
                   h_sumTSmaxAperLS5->Fill(float(lscounterM1), bbbc);
                   if (bbbc / bbb1 > lsdep_estimator3_HEdepth3_)
                     h_sumCutTSmaxAperLS5->Fill(float(lscounterM1), bbbc);
                   h_sum0TSmaxAperLS5->Fill(float(lscounterM1), bbb1);
                 }
               }
               // HF:
               if (k0 == 3) {
                 // HFdepth1
                 if (k1 + 1 == 1) {
                   h_sumTSmaxALS6->Fill(bbbc / bbb1);
                   if (bbbc / bbb1 > lsdep_estimator3_HFdepth1_)
                     h_2DsumTSmaxALS6->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumTSmaxALS6->Fill(double(ieta), double(k3), bbb1);
                   h_sumTSmaxAperLS6->Fill(float(lscounterM1), bbbc);
                   if (bbbc / bbb1 > lsdep_estimator3_HFdepth1_)
                     h_sumCutTSmaxAperLS6->Fill(float(lscounterM1), bbbc);
                   h_sum0TSmaxAperLS6->Fill(float(lscounterM1), bbb1);
                 }
                 if (k1 + 1 == 2) {
                   h_sumTSmaxALS7->Fill(bbbc / bbb1);
                   if (bbbc / bbb1 > lsdep_estimator3_HFdepth2_)
                     h_2DsumTSmaxALS7->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumTSmaxALS7->Fill(double(ieta), double(k3), bbb1);
                   h_sumTSmaxAperLS7->Fill(float(lscounterM1), bbbc);
                   if (bbbc / bbb1 > lsdep_estimator3_HFdepth2_)
                     h_sumCutTSmaxAperLS7->Fill(float(lscounterM1), bbbc);
                   h_sum0TSmaxAperLS7->Fill(float(lscounterM1), bbb1);
                 }
               }
               // HO:
               if (k0 == 2) {
                 // HOdepth1
                 if (k1 + 1 == 4) {
                   h_sumTSmaxALS8->Fill(bbbc / bbb1);
                   if (bbbc / bbb1 > lsdep_estimator3_HOdepth4_)
                     h_2DsumTSmaxALS8->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumTSmaxALS8->Fill(double(ieta), double(k3), bbb1);
                   h_sumTSmaxAperLS8->Fill(float(lscounterM1), bbbc);
                   if (bbbc / bbb1 > lsdep_estimator3_HOdepth4_)
                     h_sumCutTSmaxAperLS8->Fill(float(lscounterM1), bbbc);
                   h_sum0TSmaxAperLS8->Fill(float(lscounterM1), bbb1);
                 }
               }
             }  //if(sumEstimator3[k0][k1][k2][k3] != 0.

             // ------------------------------------------------------------------------------------------------------------------------sumEstimator4 W
             if (sumEstimator4[k0][k1][k2][k3] != 0.) {
               // fill histoes:
               double bbbc = 0.;
               if (flagestimatornormalization_ == 0)
                 bbbc = sumEstimator4[k0][k1][k2][k3] / nevcounter0;
               if (flagestimatornormalization_ == 1)
                 bbbc = sumEstimator4[k0][k1][k2][k3] / sum0Estimator[k0][k1][k2][k3];
               double bbb1 = 1.;
               if (flagestimatornormalization_ == 2) {
                 bbbc = sumEstimator4[k0][k1][k2][k3];
                 bbb1 = sum0Estimator[k0][k1][k2][k3];
               }

               // HB:
               if (k0 == 0) {
                 // HBdepth1
                 if (k1 + 1 == 1) {
                   h_sumAmplitudeLS1->Fill(bbbc / bbb1);
                   if (bbbc / bbb1 > lsdep_estimator4_HBdepth1_)
                     h_2DsumAmplitudeLS1->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumAmplitudeLS1->Fill(double(ieta), double(k3), bbb1);
                   h_sumAmplitudeperLS1->Fill(float(lscounterM1), bbbc);
                   if (bbbc / bbb1 > lsdep_estimator4_HBdepth1_)
                     h_sumCutAmplitudeperLS1->Fill(float(lscounterM1), bbbc);
                   h_sum0AmplitudeperLS1->Fill(float(lscounterM1), bbb1);
                   if (bbbc / bbb1 > 2. * lsdep_estimator4_HBdepth1_)
                     h_sumAmplitudeperLS1_LSselected->Fill(float(lscounterM1), bbbc);
                 }
                 if (k1 + 1 == 2) {
                   h_sumAmplitudeLS2->Fill(bbbc / bbb1);
                   if (bbbc / bbb1 > lsdep_estimator4_HBdepth2_)
                     h_2DsumAmplitudeLS2->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumAmplitudeLS2->Fill(double(ieta), double(k3), bbb1);
                   h_sumAmplitudeperLS2->Fill(float(lscounterM1), bbbc);
                   if (bbbc / bbb1 > lsdep_estimator4_HBdepth2_)
                     h_sumCutAmplitudeperLS2->Fill(float(lscounterM1), bbbc);
                   h_sum0AmplitudeperLS2->Fill(float(lscounterM1), bbb1);
                 }
               }
               // HE:
               if (k0 == 1) {
                 // HEdepth1
                 if (k1 + 1 == 1) {
                   h_sumAmplitudeLS3->Fill(bbbc / bbb1);
                   if (bbbc / bbb1 > lsdep_estimator4_HEdepth1_)
                     h_2DsumAmplitudeLS3->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumAmplitudeLS3->Fill(double(ieta), double(k3), bbb1);
                   h_sumAmplitudeperLS3->Fill(float(lscounterM1), bbbc);
                   if (bbbc / bbb1 > lsdep_estimator4_HEdepth1_)
                     h_sumCutAmplitudeperLS3->Fill(float(lscounterM1), bbbc);
                   h_sum0AmplitudeperLS3->Fill(float(lscounterM1), bbb1);
                 }
                 if (k1 + 1 == 2) {
                   h_sumAmplitudeLS4->Fill(bbbc / bbb1);
                   if (bbbc / bbb1 > lsdep_estimator4_HEdepth2_)
                     h_2DsumAmplitudeLS4->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumAmplitudeLS4->Fill(double(ieta), double(k3), bbb1);
                   h_sumAmplitudeperLS4->Fill(float(lscounterM1), bbbc);
                   if (bbbc / bbb1 > lsdep_estimator4_HEdepth2_)
                     h_sumCutAmplitudeperLS4->Fill(float(lscounterM1), bbbc);
                   h_sum0AmplitudeperLS4->Fill(float(lscounterM1), bbb1);
                 }
                 if (k1 + 1 == 3) {
                   h_sumAmplitudeLS5->Fill(bbbc / bbb1);
                   if (bbbc / bbb1 > lsdep_estimator4_HEdepth3_)
                     h_2DsumAmplitudeLS5->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumAmplitudeLS5->Fill(double(ieta), double(k3), bbb1);
                   h_sumAmplitudeperLS5->Fill(float(lscounterM1), bbbc);
                   if (bbbc / bbb1 > lsdep_estimator4_HEdepth3_)
                     h_sumCutAmplitudeperLS5->Fill(float(lscounterM1), bbbc);
                   h_sum0AmplitudeperLS5->Fill(float(lscounterM1), bbb1);
                 }
               }
               // HF:
               if (k0 == 3) {
                 // HFdepth1
                 if (k1 + 1 == 1) {
                   h_sumAmplitudeLS6->Fill(bbbc / bbb1);
                   if (bbbc / bbb1 > lsdep_estimator4_HFdepth1_)
                     h_2DsumAmplitudeLS6->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumAmplitudeLS6->Fill(double(ieta), double(k3), bbb1);
                   h_sumAmplitudeperLS6->Fill(float(lscounterM1), bbbc);
                   if (bbbc / bbb1 > lsdep_estimator4_HFdepth1_)
                     h_sumCutAmplitudeperLS6->Fill(float(lscounterM1), bbbc);
                   h_sum0AmplitudeperLS6->Fill(float(lscounterM1), bbb1);
                 }
                 if (k1 + 1 == 2) {
                   h_sumAmplitudeLS7->Fill(bbbc / bbb1);
                   if (bbbc / bbb1 > lsdep_estimator4_HFdepth2_)
                     h_2DsumAmplitudeLS7->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumAmplitudeLS7->Fill(double(ieta), double(k3), bbb1);
                   h_sumAmplitudeperLS7->Fill(float(lscounterM1), bbbc);
                   if (bbbc / bbb1 > lsdep_estimator4_HFdepth2_)
                     h_sumCutAmplitudeperLS7->Fill(float(lscounterM1), bbbc);
                   h_sum0AmplitudeperLS7->Fill(float(lscounterM1), bbb1);
                 }
               }
               // HO:
               if (k0 == 2) {
                 // HOdepth1
                 if (k1 + 1 == 4) {
                   h_sumAmplitudeLS8->Fill(bbbc / bbb1);
                   if (bbbc / bbb1 > lsdep_estimator4_HOdepth4_)
                     h_2DsumAmplitudeLS8->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumAmplitudeLS8->Fill(double(ieta), double(k3), bbb1);
                   h_sumAmplitudeperLS8->Fill(float(lscounterM1), bbbc);
                   if (bbbc / bbb1 > lsdep_estimator4_HOdepth4_)
                     h_sumCutAmplitudeperLS8->Fill(float(lscounterM1), bbbc);
                   h_sum0AmplitudeperLS8->Fill(float(lscounterM1), bbb1);
                 }
               }
             }  //if(sumEstimator4[k0][k1][k2][k3] != 0.

             // ------------------------------------------------------------------------------------------------------------------------sumEstimator5 R
             if (sumEstimator5[k0][k1][k2][k3] != 0.) {
               // fill histoes:
               double bbbc = 0.;
               if (flagestimatornormalization_ == 0)
                 bbbc = sumEstimator5[k0][k1][k2][k3] / nevcounter0;
               if (flagestimatornormalization_ == 1)
                 bbbc = sumEstimator5[k0][k1][k2][k3] / sum0Estimator[k0][k1][k2][k3];
               double bbb1 = 1.;
               if (flagestimatornormalization_ == 2) {
                 bbbc = sumEstimator5[k0][k1][k2][k3];
                 bbb1 = sum0Estimator[k0][k1][k2][k3];
               }

               // HB:
               if (k0 == 0) {
                 // HBdepth1
                 if (k1 + 1 == 1) {
                   h_sumAmplLS1->Fill(bbbc / bbb1);
                   if (bbbc / bbb1 > lsdep_estimator5_HBdepth1_)
                     h_2DsumAmplLS1->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumAmplLS1->Fill(double(ieta), double(k3), bbb1);
                   h_sumAmplperLS1->Fill(float(lscounterM1), bbbc);
                   if (bbbc / bbb1 > lsdep_estimator5_HBdepth1_)
                     h_sumCutAmplperLS1->Fill(float(lscounterM1), bbbc);
                   h_sum0AmplperLS1->Fill(float(lscounterM1), bbb1);
                   if (bbbc / bbb1 > 2. * lsdep_estimator5_HBdepth1_)
                     h_sumAmplperLS1_LSselected->Fill(float(lscounterM1), bbbc);
                 }
                 if (k1 + 1 == 2) {
                   h_sumAmplLS2->Fill(bbbc / bbb1);
                   if (bbbc / bbb1 > lsdep_estimator5_HBdepth2_)
                     h_2DsumAmplLS2->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumAmplLS2->Fill(double(ieta), double(k3), bbb1);
                   h_sumAmplperLS2->Fill(float(lscounterM1), bbbc);
                   if (bbbc / bbb1 > lsdep_estimator5_HBdepth2_)
                     h_sumCutAmplperLS2->Fill(float(lscounterM1), bbbc);
                   h_sum0AmplperLS2->Fill(float(lscounterM1), bbb1);
                 }
               }
               // HE:
               if (k0 == 1) {
                 // HEdepth1
                 if (k1 + 1 == 1) {
                   h_sumAmplLS3->Fill(bbbc / bbb1);
                   if (bbbc / bbb1 > lsdep_estimator5_HEdepth1_)
                     h_2DsumAmplLS3->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumAmplLS3->Fill(double(ieta), double(k3), bbb1);
                   h_sumAmplperLS3->Fill(float(lscounterM1), bbbc);
                   if (bbbc / bbb1 > lsdep_estimator5_HEdepth1_)
                     h_sumCutAmplperLS3->Fill(float(lscounterM1), bbbc);
                   h_sum0AmplperLS3->Fill(float(lscounterM1), bbb1);
                 }
                 if (k1 + 1 == 2) {
                   h_sumAmplLS4->Fill(bbbc / bbb1);
                   if (bbbc / bbb1 > lsdep_estimator5_HEdepth2_)
                     h_2DsumAmplLS4->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumAmplLS4->Fill(double(ieta), double(k3), bbb1);
                   h_sumAmplperLS4->Fill(float(lscounterM1), bbbc);
                   if (bbbc / bbb1 > lsdep_estimator5_HEdepth2_)
                     h_sumCutAmplperLS4->Fill(float(lscounterM1), bbbc);
                   h_sum0AmplperLS4->Fill(float(lscounterM1), bbb1);
                 }
                 if (k1 + 1 == 3) {
                   h_sumAmplLS5->Fill(bbbc / bbb1);
                   if (bbbc / bbb1 > lsdep_estimator5_HEdepth3_)
                     h_2DsumAmplLS5->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumAmplLS5->Fill(double(ieta), double(k3), bbb1);
                   h_sumAmplperLS5->Fill(float(lscounterM1), bbbc);
                   if (bbbc / bbb1 > lsdep_estimator5_HEdepth3_)
                     h_sumCutAmplperLS5->Fill(float(lscounterM1), bbbc);
                   h_sum0AmplperLS5->Fill(float(lscounterM1), bbb1);
                 }
               }
               // HF:
               if (k0 == 3) {
                 // HFdepth1
                 if (k1 + 1 == 1) {
                   h_sumAmplLS6->Fill(bbbc / bbb1);
                   if (bbbc / bbb1 > lsdep_estimator5_HFdepth1_)
                     h_2DsumAmplLS6->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumAmplLS6->Fill(double(ieta), double(k3), bbb1);
                   h_sumAmplperLS6->Fill(float(lscounterM1), bbbc);
                   if (bbbc / bbb1 > lsdep_estimator5_HFdepth1_)
                     h_sumCutAmplperLS6->Fill(float(lscounterM1), bbbc);
                   h_sum0AmplperLS6->Fill(float(lscounterM1), bbb1);
                 }
                 if (k1 + 1 == 2) {
                   h_sumAmplLS7->Fill(bbbc / bbb1);
                   if (bbbc / bbb1 > lsdep_estimator5_HFdepth2_)
                     h_2DsumAmplLS7->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumAmplLS7->Fill(double(ieta), double(k3), bbb1);
                   h_sumAmplperLS7->Fill(float(lscounterM1), bbbc);
                   if (bbbc / bbb1 > lsdep_estimator5_HFdepth2_)
                     h_sumCutAmplperLS7->Fill(float(lscounterM1), bbbc);
                   h_sum0AmplperLS7->Fill(float(lscounterM1), bbb1);
                 }
               }
               // HO:
               if (k0 == 2) {
                 // HOdepth1
                 if (k1 + 1 == 4) {
                   h_sumAmplLS8->Fill(bbbc / bbb1);
                   if (bbbc / bbb1 > lsdep_estimator5_HOdepth4_)
                     h_2DsumAmplLS8->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumAmplLS8->Fill(double(ieta), double(k3), bbb1);
                   h_sumAmplperLS8->Fill(float(lscounterM1), bbbc);
                   if (bbbc / bbb1 > lsdep_estimator5_HOdepth4_)
                     h_sumCutAmplperLS8->Fill(float(lscounterM1), bbbc);
                   h_sum0AmplperLS8->Fill(float(lscounterM1), bbb1);
                 }
               }
             }  //if(sumEstimator5[k0][k1][k2][k3] != 0.
             // ------------------------------------------------------------------------------------------------------------------------sumEstimator6 (Error-B)
             if (sumEstimator6[k0][k1][k2][k3] != 0.) {
               // fill histoes:
               double bbbc = 0.;
               if (flagestimatornormalization_ == 0)
                 bbbc = sumEstimator6[k0][k1][k2][k3] / nevcounter0;
               if (flagestimatornormalization_ == 1)
                 bbbc = sumEstimator6[k0][k1][k2][k3] / sum0Estimator[k0][k1][k2][k3];
               double bbb1 = 1.;
               if (flagestimatornormalization_ == 2) {
                 bbbc = sumEstimator6[k0][k1][k2][k3];
                 bbb1 = sum0Estimator[k0][k1][k2][k3];
               }

               // HB:
               if (k0 == 0) {
                 // HBdepth1
                 if (k1 + 1 == 1) {
                   h_sumErrorBLS1->Fill(bbbc / bbb1);
                   h_2DsumErrorBLS1->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumErrorBLS1->Fill(double(ieta), double(k3), bbb1);
                   h_sumErrorBperLS1->Fill(float(lscounterM1), bbbc);
                   h_sum0ErrorBperLS1->Fill(float(lscounterM1), bbb1);
                 }
                 if (k1 + 1 == 2) {
                   h_sumErrorBLS2->Fill(bbbc / bbb1);
                   h_2DsumErrorBLS2->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumErrorBLS2->Fill(double(ieta), double(k3), bbb1);
                   h_sumErrorBperLS2->Fill(float(lscounterM1), bbbc);
                   h_sum0ErrorBperLS2->Fill(float(lscounterM1), bbb1);
                 }
               }
               // HE:
               if (k0 == 1) {
                 // HEdepth1
                 if (k1 + 1 == 1) {
                   h_sumErrorBLS3->Fill(bbbc / bbb1);
                   h_2DsumErrorBLS3->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumErrorBLS3->Fill(double(ieta), double(k3), bbb1);
                   h_sumErrorBperLS3->Fill(float(lscounterM1), bbbc);
                   h_sum0ErrorBperLS3->Fill(float(lscounterM1), bbb1);
                 }
                 if (k1 + 1 == 2) {
                   h_sumErrorBLS4->Fill(bbbc / bbb1);
                   h_2DsumErrorBLS4->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumErrorBLS4->Fill(double(ieta), double(k3), bbb1);
                   h_sumErrorBperLS4->Fill(float(lscounterM1), bbbc);
                   h_sum0ErrorBperLS4->Fill(float(lscounterM1), bbb1);
                 }
                 if (k1 + 1 == 3) {
                   h_sumErrorBLS5->Fill(bbbc / bbb1);
                   h_2DsumErrorBLS5->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumErrorBLS5->Fill(double(ieta), double(k3), bbb1);
                   h_sumErrorBperLS5->Fill(float(lscounterM1), bbbc);
                   h_sum0ErrorBperLS5->Fill(float(lscounterM1), bbb1);
                 }
               }
               // HF:
               if (k0 == 3) {
                 // HFdepth1
                 if (k1 + 1 == 1) {
                   h_sumErrorBLS6->Fill(bbbc / bbb1);
                   h_2DsumErrorBLS6->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumErrorBLS6->Fill(double(ieta), double(k3), bbb1);
                   h_sumErrorBperLS6->Fill(float(lscounterM1), bbbc);
                   h_sum0ErrorBperLS6->Fill(float(lscounterM1), bbb1);
                 }
                 if (k1 + 1 == 2) {
                   h_sumErrorBLS7->Fill(bbbc / bbb1);
                   h_2DsumErrorBLS7->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumErrorBLS7->Fill(double(ieta), double(k3), bbb1);
                   h_sumErrorBperLS7->Fill(float(lscounterM1), bbbc);
                   h_sum0ErrorBperLS7->Fill(float(lscounterM1), bbb1);
                 }
               }
               // HO:
               if (k0 == 2) {
                 // HOdepth4
                 if (k1 + 1 == 4) {
                   h_sumErrorBLS8->Fill(bbbc / bbb1);
                   h_2DsumErrorBLS8->Fill(double(ieta), double(k3), bbbc);
                   h_2D0sumErrorBLS8->Fill(double(ieta), double(k3), bbb1);
                   h_sumErrorBperLS8->Fill(float(lscounterM1), bbbc);
                   h_sum0ErrorBperLS8->Fill(float(lscounterM1), bbb1);
                 }
               }
             }  //if(sumEstimator6[k0][k1][k2][k3] != 0.

           }  //for
         }    //for
       }      //for
     }        //for

     //------------------------------------------------------   averSIGNAL
     averSIGNALoccupancy_HB /= float(nevcounter0);
     h_averSIGNALoccupancy_HB->Fill(float(lscounterM1), averSIGNALoccupancy_HB);
     averSIGNALoccupancy_HE /= float(nevcounter0);
     h_averSIGNALoccupancy_HE->Fill(float(lscounterM1), averSIGNALoccupancy_HE);
     averSIGNALoccupancy_HF /= float(nevcounter0);
     h_averSIGNALoccupancy_HF->Fill(float(lscounterM1), averSIGNALoccupancy_HF);
     averSIGNALoccupancy_HO /= float(nevcounter0);
     h_averSIGNALoccupancy_HO->Fill(float(lscounterM1), averSIGNALoccupancy_HO);

     averSIGNALoccupancy_HB = 0.;
     averSIGNALoccupancy_HE = 0.;
     averSIGNALoccupancy_HF = 0.;
     averSIGNALoccupancy_HO = 0.;

     //------------------------------------------------------
     averSIGNALsumamplitude_HB /= float(nevcounter0);
     h_averSIGNALsumamplitude_HB->Fill(float(lscounterM1), averSIGNALsumamplitude_HB);
     averSIGNALsumamplitude_HE /= float(nevcounter0);
     h_averSIGNALsumamplitude_HE->Fill(float(lscounterM1), averSIGNALsumamplitude_HE);
     averSIGNALsumamplitude_HF /= float(nevcounter0);
     h_averSIGNALsumamplitude_HF->Fill(float(lscounterM1), averSIGNALsumamplitude_HF);
     averSIGNALsumamplitude_HO /= float(nevcounter0);
     h_averSIGNALsumamplitude_HO->Fill(float(lscounterM1), averSIGNALsumamplitude_HO);

     averSIGNALsumamplitude_HB = 0.;
     averSIGNALsumamplitude_HE = 0.;
     averSIGNALsumamplitude_HF = 0.;
     averSIGNALsumamplitude_HO = 0.;

     //------------------------------------------------------   averNOSIGNAL
     averNOSIGNALoccupancy_HB /= float(nevcounter0);
     h_averNOSIGNALoccupancy_HB->Fill(float(lscounterM1), averNOSIGNALoccupancy_HB);
     averNOSIGNALoccupancy_HE /= float(nevcounter0);
     h_averNOSIGNALoccupancy_HE->Fill(float(lscounterM1), averNOSIGNALoccupancy_HE);
     averNOSIGNALoccupancy_HF /= float(nevcounter0);
     h_averNOSIGNALoccupancy_HF->Fill(float(lscounterM1), averNOSIGNALoccupancy_HF);
     averNOSIGNALoccupancy_HO /= float(nevcounter0);
     h_averNOSIGNALoccupancy_HO->Fill(float(lscounterM1), averNOSIGNALoccupancy_HO);

     averNOSIGNALoccupancy_HB = 0.;
     averNOSIGNALoccupancy_HE = 0.;
     averNOSIGNALoccupancy_HF = 0.;
     averNOSIGNALoccupancy_HO = 0.;

     //------------------------------------------------------
     averNOSIGNALsumamplitude_HB /= float(nevcounter0);
     h_averNOSIGNALsumamplitude_HB->Fill(float(lscounterM1), averNOSIGNALsumamplitude_HB);
     averNOSIGNALsumamplitude_HE /= float(nevcounter0);
     h_averNOSIGNALsumamplitude_HE->Fill(float(lscounterM1), averNOSIGNALsumamplitude_HE);
     averNOSIGNALsumamplitude_HF /= float(nevcounter0);
     h_averNOSIGNALsumamplitude_HF->Fill(float(lscounterM1), averNOSIGNALsumamplitude_HF);
     averNOSIGNALsumamplitude_HO /= float(nevcounter0);
     h_averNOSIGNALsumamplitude_HO->Fill(float(lscounterM1), averNOSIGNALsumamplitude_HO);

     averNOSIGNALsumamplitude_HB = 0.;
     averNOSIGNALsumamplitude_HE = 0.;
     averNOSIGNALsumamplitude_HF = 0.;
     averNOSIGNALsumamplitude_HO = 0.;

     h_maxxSUMAmpl_HB->Fill(float(lscounterM1), maxxSUM1);
     h_maxxSUMAmpl_HE->Fill(float(lscounterM1), maxxSUM2);
     h_maxxSUMAmpl_HO->Fill(float(lscounterM1), maxxSUM3);
     h_maxxSUMAmpl_HF->Fill(float(lscounterM1), maxxSUM4);
     maxxSUM1 = 0.;
     maxxSUM2 = 0.;
     maxxSUM3 = 0.;
     maxxSUM4 = 0.;
     //------------------------------------------------------
     h_maxxOCCUP_HB->Fill(float(lscounterM1), maxxOCCUP1);
     h_maxxOCCUP_HE->Fill(float(lscounterM1), maxxOCCUP2);
     h_maxxOCCUP_HO->Fill(float(lscounterM1), maxxOCCUP3);
     h_maxxOCCUP_HF->Fill(float(lscounterM1), maxxOCCUP4);
     maxxOCCUP1 = 0.;
     maxxOCCUP2 = 0.;
     maxxOCCUP3 = 0.;
     maxxOCCUP4 = 0.;

   }  //if( nevcounter0 != 0 )

   std::cout << " ==== Edn of run " << std::endl;
 }
 //
 //
 void CMTRawAnalyzer::fillMAP() {
   HcalLogicalMapGenerator gen;
   HcalLogicalMap lmap = gen.createMap(topo);

   //    HcalElectronicsMap emap=lmap.generateHcalElectronicsMap();

   //    const HcalElectronicsMap* emap=conditions->getHcalMapping();
   const HcalElectronicsMap* emap;
   emap = conditions->getHcalMapping();

   std::string subdet = "";

   MAPfile << "#define LogEleMapdb_h" << std::endl;
   MAPfile << "#include <algorithm>" << std::endl;
   MAPfile << "#include <iostream>" << std::endl;
   MAPfile << "#include <vector>" << std::endl;
   MAPfile << "#include <string>" << std::endl;
   MAPfile << "#include <sstream>" << std::endl;
   MAPfile << std::endl;

   MAPfile << "struct Cell {" << std::endl;
   MAPfile << " std::string subdet;" << std::endl;
   MAPfile << " int Eta;" << std::endl;
   MAPfile << " int Phi;" << std::endl;
   MAPfile << " int Depth;" << std::endl;
   MAPfile << " std::string RBX;" << std::endl;
   MAPfile << " int RM;" << std::endl;
   MAPfile << " int Pixel;" << std::endl;
   MAPfile << " int RMfiber;" << std::endl;
   MAPfile << " int FiberCh;" << std::endl;
   MAPfile << " int QIE;" << std::endl;
   MAPfile << " int ADC;" << std::endl;
   MAPfile << " int VMECardID;" << std::endl;
   MAPfile << " int dccID;" << std::endl;
   MAPfile << " int Spigot;" << std::endl;
   MAPfile << " int FiberIndex;" << std::endl;
   MAPfile << " int HtrSlot;" << std::endl;
   MAPfile << " int HtrTB;" << std::endl;
   MAPfile << std::endl;

   MAPfile << "// the function check, if \"par\" == \"val\" for this cell" << std::endl;
   MAPfile << " bool check(const std::string par, const int val) const " << std::endl;
   MAPfile << " {" << std::endl;
   MAPfile << "       if (par == \"Eta\")    return (val == Eta);" << std::endl;
   MAPfile << "  else if (par == \"Phi\")     return (val == Phi);" << std::endl;
   MAPfile << "  else if (par == \"Depth\")      return (val == Depth);" << std::endl;
   MAPfile << "  else if (par == \"RM\")     return (val == RM);" << std::endl;
   MAPfile << "  else if (par == \"Pixel\") return (val == Pixel);" << std::endl;
   MAPfile << "  else if (par == \"RMfiber\")    return (val == RMfiber);" << std::endl;
   MAPfile << "  else if (par == \"FiberCh\")    return (val == FiberCh);" << std::endl;
   MAPfile << "  else if (par == \"QIE\")     return (val == QIE);" << std::endl;
   MAPfile << "  else if (par == \"ADC\")     return (val == ADC);" << std::endl;
   MAPfile << "  else if (par == \"VMECardID\")     return (val == VMECardID);" << std::endl;
   MAPfile << "  else if (par == \"dccID\")     return (val == dccID);" << std::endl;
   MAPfile << "  else if (par == \"Spigot\")     return (val == Spigot);" << std::endl;
   MAPfile << "  else if (par == \"FiberIndex\")     return (val == FiberIndex);" << std::endl;
   MAPfile << "  else if (par == \"HtrSlot\")     return (val == HtrSlot);" << std::endl;
   MAPfile << "  else if (par == \"HtrTB\")     return (val == HtrTB);" << std::endl;
   MAPfile << "  else return false;" << std::endl;
   MAPfile << " }" << std::endl;
   MAPfile << std::endl;

   MAPfile << " bool check(const std::string par, const std::string val) const" << std::endl;
   MAPfile << " {" << std::endl;
   MAPfile << "       if (par == \"subdet\")    return (val == subdet);" << std::endl;
   MAPfile << "  else if (par == \"RBX\")    return (val == RBX);" << std::endl;
   MAPfile << "  else return false;" << std::endl;
   MAPfile << " }" << std::endl;

   MAPfile << "};" << std::endl;
   MAPfile << std::endl;

   MAPfile << "const Cell AllCells[] = {" << std::endl;
   MAPfile << "//{ SD, Eta, Phi, Depth,     RBX, RM, PIXEL, RMfiber, Fiber Ch., QIE, ADC, VMECrateId, dccid, spigot, "
              "fiberIndex, htrSlot, htrTopBottom }"
           << std::endl;

   // HB

   for (int eta = -16; eta < 0; eta++) {
     for (int phi = 1; phi <= nphi; phi++) {
       for (int depth = 1; depth <= 2; depth++) {
         HcalDetId* detid = nullptr;
         detid = new HcalDetId(HcalBarrel, eta, phi, depth);
         subdet = "HB";
         HcalFrontEndId lmap_entry = lmap.getHcalFrontEndId(*detid);
         HcalElectronicsId emap_entry = emap->lookup(*detid);
         MAPfile << "  {\"" << subdet << "\" , " << detid->ieta() << " , " << detid->iphi() - 1 << " ,    "
                 << detid->depth() << " ,";
         MAPfile << "\"" << lmap_entry.rbx() << "\" , " << lmap_entry.rm() << " ,   " << lmap_entry.pixel() << " ,      "
                 << lmap_entry.rmFiber() << " ,        ";
         MAPfile << lmap_entry.fiberChannel() << " ,  " << lmap_entry.qieCard() << " ,  " << lmap_entry.adc()
                 << " ,        ";
         MAPfile << emap_entry.readoutVMECrateId() << " ,    " << emap_entry.dccid() << " ,     " << emap_entry.spigot()
                 << " ,         " << emap_entry.fiberIndex() << " ,      ";
         MAPfile << emap_entry.htrSlot() << " ,      " << emap_entry.htrTopBottom();
         MAPfile << "}," << std::endl;
         delete detid;
       }  //Depth
     }    //Phi
   }      //Eta
   for (int eta = 1; eta <= 16; eta++) {
     for (int phi = 1; phi <= nphi; phi++) {
       for (int depth = 1; depth <= 2; depth++) {
         HcalDetId* detid = nullptr;
         detid = new HcalDetId(HcalBarrel, eta, phi, depth);
         subdet = "HB";
         HcalFrontEndId lmap_entry = lmap.getHcalFrontEndId(*detid);
         HcalElectronicsId emap_entry = emap->lookup(*detid);
         MAPfile << "  {\"" << subdet << "\" , " << detid->ieta() - 1 << " , " << detid->iphi() - 1 << " ,    "
                 << detid->depth() << " ,";
         MAPfile << "\"" << lmap_entry.rbx() << "\" , " << lmap_entry.rm() << " ,   " << lmap_entry.pixel() << " ,      "
                 << lmap_entry.rmFiber() << " ,        ";
         MAPfile << lmap_entry.fiberChannel() << " ,  " << lmap_entry.qieCard() << " ,  " << lmap_entry.adc()
                 << " ,        ";
         MAPfile << emap_entry.readoutVMECrateId() << " ,    " << emap_entry.dccid() << " ,     " << emap_entry.spigot()
                 << " ,         " << emap_entry.fiberIndex() << " ,      ";
         MAPfile << emap_entry.htrSlot() << " ,      " << emap_entry.htrTopBottom();
         MAPfile << "}," << std::endl;
         delete detid;
       }  //Depth
     }    //Phi
   }      //Eta

   // HE
   for (int eta = -20; eta <= -20; eta++) {
     for (int phi = nphi; phi <= nphi; phi++) {
       for (int depth = 1; depth <= 2; depth++) {
         HcalDetId* detid = nullptr;
         detid = new HcalDetId(HcalEndcap, eta, phi, depth);
         subdet = "HE";
         HcalFrontEndId lmap_entry = lmap.getHcalFrontEndId(*detid);
         HcalElectronicsId emap_entry = emap->lookup(*detid);
         MAPfile << "  {\"" << subdet << "\" , " << detid->ieta() << " , " << detid->iphi() - 1 << " ,    "
                 << detid->depth() << " ,";
         MAPfile << "\"" << lmap_entry.rbx() << "\" , " << lmap_entry.rm() << " ,   " << lmap_entry.pixel() << " ,      "
                 << lmap_entry.rmFiber() << " ,        ";
         MAPfile << lmap_entry.fiberChannel() << " ,  " << lmap_entry.qieCard() << " ,  " << lmap_entry.adc()
                 << " ,        ";
         MAPfile << emap_entry.readoutVMECrateId() << " ,    " << emap_entry.dccid() << " ,     " << emap_entry.spigot()
                 << " ,         " << emap_entry.fiberIndex() << " ,      ";
         MAPfile << emap_entry.htrSlot() << " ,      " << emap_entry.htrTopBottom();
         MAPfile << "}," << std::endl;
         delete detid;
       }  //Depth
     }    //Phi
   }      //Eta

   for (int eta = -19; eta <= -16; eta++) {
     for (int phi = nphi; phi <= nphi; phi++) {
       for (int depth = 1; depth <= 3; depth++) {
         HcalDetId* detid = nullptr;
         detid = new HcalDetId(HcalEndcap, eta, phi, depth);
         subdet = "HE";
         HcalFrontEndId lmap_entry = lmap.getHcalFrontEndId(*detid);
         HcalElectronicsId emap_entry = emap->lookup(*detid);
         MAPfile << "  {\"" << subdet << "\" , " << detid->ieta() << " , " << detid->iphi() - 1 << " ,    "
                 << detid->depth() << " ,";
         MAPfile << "\"" << lmap_entry.rbx() << "\" , " << lmap_entry.rm() << " ,   " << lmap_entry.pixel() << " ,      "
                 << lmap_entry.rmFiber() << " ,        ";
         MAPfile << lmap_entry.fiberChannel() << " ,  " << lmap_entry.qieCard() << " ,  " << lmap_entry.adc()
                 << " ,        ";
         MAPfile << emap_entry.readoutVMECrateId() << " ,    " << emap_entry.dccid() << " ,     " << emap_entry.spigot()
                 << " ,         " << emap_entry.fiberIndex() << " ,      ";
         MAPfile << emap_entry.htrSlot() << " ,      " << emap_entry.htrTopBottom();
         MAPfile << "}," << std::endl;
         delete detid;
       }  //Depth
     }    //Phi
   }      //Eta
   for (int eta = -29; eta <= -16; eta++) {
     for (int phi = 1; phi <= 71; phi++) {
       for (int depth = 1; depth <= 3; depth++) {
         HcalDetId* detid = nullptr;
         detid = new HcalDetId(HcalEndcap, eta, phi, depth);
         subdet = "HE";
         HcalFrontEndId lmap_entry = lmap.getHcalFrontEndId(*detid);
         HcalElectronicsId emap_entry = emap->lookup(*detid);
         MAPfile << "  {\"" << subdet << "\" , " << detid->ieta() << " , " << detid->iphi() - 1 << " ,    "
                 << detid->depth() << " ,";
         MAPfile << "\"" << lmap_entry.rbx() << "\" , " << lmap_entry.rm() << " ,   " << lmap_entry.pixel() << " ,      "
                 << lmap_entry.rmFiber() << " ,        ";
         MAPfile << lmap_entry.fiberChannel() << " ,  " << lmap_entry.qieCard() << " ,  " << lmap_entry.adc()
                 << " ,        ";
         MAPfile << emap_entry.readoutVMECrateId() << " ,    " << emap_entry.dccid() << " ,     " << emap_entry.spigot()
                 << " ,         " << emap_entry.fiberIndex() << " ,      ";
         MAPfile << emap_entry.htrSlot() << " ,      " << emap_entry.htrTopBottom();
         MAPfile << "}," << std::endl;
         delete detid;
       }  //Depth
     }    //Phi
   }      //Eta
   for (int eta = 16; eta <= 29; eta++) {
     for (int phi = 1; phi <= nphi; phi++) {
       for (int depth = 1; depth <= 3; depth++) {
         HcalDetId* detid = nullptr;
         detid = new HcalDetId(HcalEndcap, eta, phi, depth);
         subdet = "HE";
         HcalFrontEndId lmap_entry = lmap.getHcalFrontEndId(*detid);
         HcalElectronicsId emap_entry = emap->lookup(*detid);
         MAPfile << "  {\"" << subdet << "\" , " << detid->ieta() << " , " << detid->iphi() - 1 << " ,    "
                 << detid->depth() << " ,";
         MAPfile << "\"" << lmap_entry.rbx() << "\" , " << lmap_entry.rm() << " ,   " << lmap_entry.pixel() << " ,      "
                 << lmap_entry.rmFiber() << " ,        ";
         MAPfile << lmap_entry.fiberChannel() << " ,  " << lmap_entry.qieCard() << " ,  " << lmap_entry.adc()
                 << " ,        ";
         MAPfile << emap_entry.readoutVMECrateId() << " ,    " << emap_entry.dccid() << " ,     " << emap_entry.spigot()
                 << " ,         " << emap_entry.fiberIndex() << " ,      ";
         MAPfile << emap_entry.htrSlot() << " ,      " << emap_entry.htrTopBottom();
         MAPfile << "}," << std::endl;
         delete detid;
       }  //Depth
     }    //Phi
   }      //Eta

   // HF

   for (int eta = -41; eta <= -29; eta++) {
     for (int phi = 1; phi <= nphi; phi += 2) {
       for (int depth = 1; depth <= 2; depth++) {
         HcalDetId* detid = nullptr;
         detid = new HcalDetId(HcalForward, eta, phi, depth);
         subdet = "HF";
         HcalFrontEndId lmap_entry = lmap.getHcalFrontEndId(*detid);
         HcalElectronicsId emap_entry = emap->lookup(*detid);
         MAPfile << "  {\"" << subdet << "\" , " << detid->ieta() << " , " << detid->iphi() - 1 << " ,    "
                 << detid->depth() << " ,";
         MAPfile << "\"" << lmap_entry.rbx() << "\" , " << lmap_entry.rm() << " ,   " << lmap_entry.pixel() << " ,      "
                 << lmap_entry.rmFiber() << " ,        ";
         MAPfile << lmap_entry.fiberChannel() << " ,  " << lmap_entry.qieCard() << " ,  " << lmap_entry.adc()
                 << " ,        ";
         MAPfile << emap_entry.readoutVMECrateId() << " ,    " << emap_entry.dccid() << " ,     " << emap_entry.spigot()
                 << " ,         " << emap_entry.fiberIndex() << " ,      ";
         MAPfile << emap_entry.htrSlot() << " ,      " << emap_entry.htrTopBottom();
         MAPfile << "}," << std::endl;
         delete detid;
       }  //Depth
     }    //Phi
   }      //Eta

   for (int eta = 29; eta <= 41; eta++) {
     for (int phi = 1; phi <= nphi; phi += 2) {
       for (int depth = 1; depth <= 2; depth++) {
         HcalDetId* detid = nullptr;
         detid = new HcalDetId(HcalForward, eta, phi, depth);
         subdet = "HF";
         HcalFrontEndId lmap_entry = lmap.getHcalFrontEndId(*detid);
         HcalElectronicsId emap_entry = emap->lookup(*detid);
         MAPfile << "  {\"" << subdet << "\" , " << detid->ieta() << " , " << detid->iphi() - 1 << " ,    "
                 << detid->depth() << " ,";
         MAPfile << "\"" << lmap_entry.rbx() << "\" , " << lmap_entry.rm() << " ,   " << lmap_entry.pixel() << " ,      "
                 << lmap_entry.rmFiber() << " ,        ";
         MAPfile << lmap_entry.fiberChannel() << " ,  " << lmap_entry.qieCard() << " ,  " << lmap_entry.adc()
                 << " ,        ";
         MAPfile << emap_entry.readoutVMECrateId() << " ,    " << emap_entry.dccid() << " ,     " << emap_entry.spigot()
                 << " ,         " << emap_entry.fiberIndex() << " ,      ";
         MAPfile << emap_entry.htrSlot() << " ,      " << emap_entry.htrTopBottom();
         MAPfile << "}," << std::endl;
         delete detid;
       }  //Depth
     }    //Phi
   }      //Eta

   // HO

   for (int eta = -15; eta < 0; eta++) {
     for (int phi = 1; phi <= nphi; phi++) {
       for (int depth = 4; depth <= 4; depth++) {
         HcalDetId* detid = nullptr;
         detid = new HcalDetId(HcalOuter, eta, phi, depth);
         subdet = "HO";
         HcalFrontEndId lmap_entry = lmap.getHcalFrontEndId(*detid);
         HcalElectronicsId emap_entry = emap->lookup(*detid);
         MAPfile << "  {\"" << subdet << "\" , " << detid->ieta() << " , " << detid->iphi() - 1 << " ,    "
                 << detid->depth() << " ,";
         MAPfile << "\"" << lmap_entry.rbx() << "\" , " << lmap_entry.rm() << " ,   " << lmap_entry.pixel() << " ,      "
                 << lmap_entry.rmFiber() << " ,        ";
         MAPfile << lmap_entry.fiberChannel() << " ,  " << lmap_entry.qieCard() << " ,  " << lmap_entry.adc()
                 << " ,        ";
         MAPfile << emap_entry.readoutVMECrateId() << " ,    " << emap_entry.dccid() << " ,     " << emap_entry.spigot()
                 << " ,         " << emap_entry.fiberIndex() << " ,      ";
         MAPfile << emap_entry.htrSlot() << " ,      " << emap_entry.htrTopBottom();
         MAPfile << "}," << std::endl;
         delete detid;
       }  //Depth
     }    //Phi
   }      //Eta

   for (int eta = 1; eta <= 15; eta++) {
     for (int phi = 1; phi <= nphi; phi++) {
       for (int depth = 4; depth <= 4; depth++) {
         HcalDetId* detid = nullptr;
         detid = new HcalDetId(HcalOuter, eta, phi, depth);
         subdet = "HO";
         HcalFrontEndId lmap_entry = lmap.getHcalFrontEndId(*detid);
         HcalElectronicsId emap_entry = emap->lookup(*detid);
         MAPfile << "  {\"" << subdet << "\" , " << detid->ieta() - 1 << " , " << detid->iphi() - 1 << " ,    "
                 << detid->depth() << " ,";
         MAPfile << "\"" << lmap_entry.rbx() << "\" , " << lmap_entry.rm() << " ,   " << lmap_entry.pixel() << " ,      "
                 << lmap_entry.rmFiber() << " ,        ";
         MAPfile << lmap_entry.fiberChannel() << " ,  " << lmap_entry.qieCard() << " ,  " << lmap_entry.adc()
                 << " ,        ";
         MAPfile << emap_entry.readoutVMECrateId() << " ,    " << emap_entry.dccid() << " ,     " << emap_entry.spigot()
                 << " ,         " << emap_entry.fiberIndex() << " ,      ";
         MAPfile << emap_entry.htrSlot() << " ,      " << emap_entry.htrTopBottom();
         MAPfile << "}," << std::endl;
         delete detid;
       }  //Depth
     }    //Phi
   }      //Eta
   MAPfile << "};" << std::endl;
   MAPfile << std::endl;

   MAPfile << "// macro for array length calculation" << std::endl;
   MAPfile << "#define DIM(a) (sizeof(a)/sizeof(a[0]))" << std::endl;
   MAPfile << std::endl;

   MAPfile << "// class for cells array managing" << std::endl;
   MAPfile << "class CellDB {" << std::endl;
   MAPfile << "public:" << std::endl;
   MAPfile << "  CellDB()" << std::endl;
   MAPfile << "  : cells(AllCells,  AllCells + DIM(AllCells))" << std::endl;
   MAPfile << "{}" << std::endl;
   MAPfile << std::endl;

   MAPfile << "// return i-th cell" << std::endl;
   MAPfile << "Cell operator [] (int i) const {return cells[i];}" << std::endl;

   MAPfile << "// number of cells in database" << std::endl;
   MAPfile << "int size() const {return cells.size();}" << std::endl;
   MAPfile << std::endl;

   MAPfile << "// select cells for which \"par\" == \"val\"" << std::endl;
   MAPfile << "template<typename T>" << std::endl;
   MAPfile << "CellDB find(const std::string par, const T val) const" << std::endl;
   MAPfile << "{" << std::endl;
   MAPfile << "  std::vector<Cell> s;" << std::endl;
   MAPfile << "  for (size_t i = 0; i < cells.size(); ++i)" << std::endl;
   MAPfile << "    if (cells[i].check(par, val))" << std::endl;
   MAPfile << "    s.push_back(cells[i]);" << std::endl;
   MAPfile << "  return CellDB(s);" << std::endl;
   MAPfile << "} " << std::endl;
   MAPfile << std::endl;
   MAPfile << "private:" << std::endl;
   MAPfile << " CellDB( const std::vector<Cell> s)" << std::endl;
   MAPfile << " : cells(s)" << std::endl;
   MAPfile << "{}" << std::endl;
   MAPfile << "std::vector<Cell> cells;" << std::endl;
   MAPfile << "};" << std::endl;
   MAPfile.close();
   std::cout << "===== Finish writing Channel MAP =====" << std::endl;
 }

 double CMTRawAnalyzer::dR(double eta1, double phi1, double eta2, double phi2) {
   double deltaphi = phi1 - phi2;
   if (phi2 > phi1) {
     deltaphi = phi2 - phi1;
   }
   if (deltaphi > M_PI) {
     deltaphi = 2. * M_PI - deltaphi;
   }
   double deltaeta = eta2 - eta1;
   double tmp = sqrt(deltaeta * deltaeta + deltaphi * deltaphi);
   return tmp;
 }

 double CMTRawAnalyzer::phi12(double phi1, double en1, double phi2, double en2) {
   // weighted mean value of phi1 and phi2

   double a1 = phi1;
   double a2 = phi2;

   if (a1 > 0.5 * M_PI && a2 < 0.)
     a2 += 2 * M_PI;
   if (a2 > 0.5 * M_PI && a1 < 0.)
     a1 += 2 * M_PI;
   double tmp = (a1 * en1 + a2 * en2) / (en1 + en2);
   if (tmp > M_PI)
     tmp -= 2. * M_PI;

   return tmp;
 }

 double CMTRawAnalyzer::dPhiWsign(double phi1, double phi2) {
   // clockwise      phi2 w.r.t phi1 means "+" phi distance
   // anti-clockwise phi2 w.r.t phi1 means "-" phi distance

   double a1 = phi1;
   double a2 = phi2;
   double tmp = a2 - a1;
   if (a1 * a2 < 0.) {
     if (a1 > 0.5 * M_PI)
       tmp += 2. * M_PI;
     if (a2 > 0.5 * M_PI)
       tmp -= 2. * M_PI;
   }
   return tmp;
 }

 //define this as a plug-in
 DEFINE_FWK_MODULE(CMTRawAnalyzer);
CMTRawAnalyzer::h_2D0sumAmplLS2
TH2F * h_2D0sumAmplLS2
Definition: CMTRawAnalyzer.cc:1650

HcalCalibDetId.h

CMTRawAnalyzer::h_mapDepth4Pedw1_HO
TH2F * h_mapDepth4Pedw1_HO
Definition: CMTRawAnalyzer.cc:1946

CMTRawAnalyzer::h_mapDepth4AmplE34_HO
TH2F * h_mapDepth4AmplE34_HO
Definition: CMTRawAnalyzer.cc:1030

CMTRawAnalyzer::lsdep_estimator2_HEdepth3_
double lsdep_estimator2_HEdepth3_
Definition: CMTRawAnalyzer.cc:548

CMTRawAnalyzer::MAPcreation
int MAPcreation
Definition: CMTRawAnalyzer.cc:462

CMTRawAnalyzer::h_averSIGNALsumamplitude_HO
TH1F * h_averSIGNALsumamplitude_HO
Definition: CMTRawAnalyzer.cc:2004

CMTRawAnalyzer::h_runnbadchannels_depth1_HF
TH1F * h_runnbadchannels_depth1_HF
Definition: CMTRawAnalyzer.cc:1070

CMTRawAnalyzer::h_recNoiseEnergy0_HF1
TH2F * h_recNoiseEnergy0_HF1
Definition: CMTRawAnalyzer.cc:2162

CMTRawAnalyzer::h_2D0Ataildepth2_HB
TH2F * h_2D0Ataildepth2_HB
Definition: CMTRawAnalyzer.cc:2036

CMTRawAnalyzer::h_sumAmplitudeperLS8
TH1F * h_sumAmplitudeperLS8
Definition: CMTRawAnalyzer.cc:1635

CMTRawAnalyzer::lsdep_estimator3_HFdepth1_
double lsdep_estimator3_HFdepth1_
Definition: CMTRawAnalyzer.cc:558

CMTRawAnalyzer::h_nevents_per_LSzoom
TH1F * h_nevents_per_LSzoom
Definition: CMTRawAnalyzer.cc:1315

CMTRawAnalyzer::lscounterM1
int lscounterM1
Definition: CMTRawAnalyzer.cc:2321

CMTRawAnalyzer::h_sum0PedestalperLS3
TH1F * h_sum0PedestalperLS3
Definition: CMTRawAnalyzer.cc:1333

CMTRawAnalyzer::amplitudechannel2
double amplitudechannel2[nsub][ndepth][neta][nphi]
Definition: CMTRawAnalyzer.cc:2290

TFileService::kSharedResource
static const std::string kSharedResource
Definition: TFileService.h:76

CMTRawAnalyzer::h_maxxOCCUP_HF
TH1F * h_maxxOCCUP_HF
Definition: CMTRawAnalyzer.cc:2019

CMTRawAnalyzer::h_sumCutADCAmplperLSdepth6HEu
TH1F * h_sumCutADCAmplperLSdepth6HEu
Definition: CMTRawAnalyzer.cc:1428

CMTRawAnalyzer::h_bcnnbadchannels_depth4_HO
TH1F * h_bcnnbadchannels_depth4_HO
Definition: CMTRawAnalyzer.cc:1086

CMTRawAnalyzer::TSmeanHFMax_
double TSmeanHFMax_
Definition: CMTRawAnalyzer.cc:603

CMTRawAnalyzer::h_recNoiseEnergy1_HB1
TH2F * h_recNoiseEnergy1_HB1
Definition: CMTRawAnalyzer.cc:2094

CMTRawAnalyzer::h_2DsumAmplitudeLS5
TH2F * h_2DsumAmplitudeLS5
Definition: CMTRawAnalyzer.cc:1616

CMTRawAnalyzer::h_RatioOccupancy_HFM
TH1F * h_RatioOccupancy_HFM
Definition: CMTRawAnalyzer.cc:1683

CMTRawAnalyzer::h_mapDepth6Amplitude225_HE
TH2F * h_mapDepth6Amplitude225_HE
Definition: CMTRawAnalyzer.cc:1201

CMTRawAnalyzer::h_TSmeanA_HO
TH1F * h_TSmeanA_HO
Definition: CMTRawAnalyzer.cc:1018

CMTRawAnalyzer::h_2DsumADCAmplEtaPhiLs3
TH2F * h_2DsumADCAmplEtaPhiLs3
Definition: CMTRawAnalyzer.cc:700

CMTRawAnalyzer::h_mapWidthCalib047_HE
TH2F * h_mapWidthCalib047_HE
Definition: CMTRawAnalyzer.cc:1275

CMTRawAnalyzer::h_error6_HE
TH1F * h_error6_HE
Definition: CMTRawAnalyzer.cc:780

CMTRawAnalyzer::h_averSIGNALsumamplitude_HF
TH1F * h_averSIGNALsumamplitude_HF
Definition: CMTRawAnalyzer.cc:2003

CMTRawAnalyzer::h_2D0sumADCAmplLS6
TH2F * h_2D0sumADCAmplLS6
Definition: CMTRawAnalyzer.cc:1418

CMTRawAnalyzer::h_sumErrorBLS8
TH1F * h_sumErrorBLS8
Definition: CMTRawAnalyzer.cc:1994

CMTRawAnalyzer::h_map_HF
TH2F * h_map_HF
Definition: CMTRawAnalyzer.cc:1311

CMTRawAnalyzer::h2_pedwvsampl_HE
TH2F * h2_pedwvsampl_HE
Definition: CMTRawAnalyzer.cc:1812

CMTRawAnalyzer::h_recSignalEnergy1_HF3
TH2F * h_recSignalEnergy1_HF3
Definition: CMTRawAnalyzer.cc:2156

CMTRawAnalyzer::h_maxxSUMAmpl_HB
TH1F * h_maxxSUMAmpl_HB
Definition: CMTRawAnalyzer.cc:2013

CMTRawAnalyzer::studyRunDependenceHist_
bool studyRunDependenceHist_
Definition: CMTRawAnalyzer.cc:467

nphi
const int nphi
Definition: CMTRawAnalyzer.cc:418

CMTRawAnalyzer::h_mapDepth4TSmeanA225_HE
TH2F * h_mapDepth4TSmeanA225_HE
Definition: CMTRawAnalyzer.cc:1169

CMTRawAnalyzer::h_mapDepth1TSmaxA225_HE
TH2F * h_mapDepth1TSmaxA225_HE
Definition: CMTRawAnalyzer.cc:1181

CMTRawAnalyzer::h_sum0ADCAmplperLS3_P1
TH1F * h_sum0ADCAmplperLS3_P1
Definition: CMTRawAnalyzer.cc:1452

adc2fC_QIE11_shunt6
double const adc2fC_QIE11_shunt6[256]
Definition: CMTRawAnalyzer.cc:376

CMTRawAnalyzer::lscounterrun10
int lscounterrun10
Definition: CMTRawAnalyzer.cc:2325

CMTRawAnalyzer::alsmin
float alsmin
Definition: CMTRawAnalyzer.cc:2375

CMTRawAnalyzer::h_mapDepth3TSmaxA225_HE
TH2F * h_mapDepth3TSmaxA225_HE
Definition: CMTRawAnalyzer.cc:1183

CMTRawAnalyzer::h_FullSignal3D0_HE
TH2F * h_FullSignal3D0_HE
Definition: CMTRawAnalyzer.cc:1235

CMTRawAnalyzer::h_mapDepth1Ped3_HB
TH2F * h_mapDepth1Ped3_HB
Definition: CMTRawAnalyzer.cc:1888

CMTRawAnalyzer::h_2D0sumTSmeanALS6
TH2F * h_2D0sumTSmeanALS6
Definition: CMTRawAnalyzer.cc:1527

CMTRawAnalyzer::h_sumTSmeanALS4
TH1F * h_sumTSmeanALS4
Definition: CMTRawAnalyzer.cc:1511

CMTRawAnalyzer::h_sum0ADCAmplperLS5
TH1F * h_sum0ADCAmplperLS5
Definition: CMTRawAnalyzer.cc:1414

CMTRawAnalyzer::h_2DsumTSmaxALS3
TH2F * h_2DsumTSmaxALS3
Definition: CMTRawAnalyzer.cc:1555

CMTRawAnalyzer::h_sumADCAmplperLS7u
TH1F * h_sumADCAmplperLS7u
Definition: CMTRawAnalyzer.cc:1482

CMTRawAnalyzer::lsdep_cut1_peak_HFdepth2_
int lsdep_cut1_peak_HFdepth2_
Definition: CMTRawAnalyzer.cc:516

CMTRawAnalyzer::TSmeanHEMin_
double TSmeanHEMin_
Definition: CMTRawAnalyzer.cc:600

CMTRawAnalyzer::h_shape0_good_channels_HO
TH1F * h_shape0_good_channels_HO
Definition: CMTRawAnalyzer.cc:1860

CMTRawAnalyzer::h_bcnbadrate0_depth4_HO
TH1F * h_bcnbadrate0_depth4_HO
Definition: CMTRawAnalyzer.cc:1094

CMTRawAnalyzer::TSmeanHOMax_
double TSmeanHOMax_
Definition: CMTRawAnalyzer.cc:605

QIE10DataFrame::detid
constexpr DetId detid() const
Get the detector id.
Definition: QIE10DataFrame.h:76

CMTRawAnalyzer::h_mapDepth3ADCAmpl225Copy_HF
TH2F * h_mapDepth3ADCAmpl225Copy_HF
Definition: CMTRawAnalyzer.cc:842

CMTRawAnalyzer::h_amplError_HO
TH1F * h_amplError_HO
Definition: CMTRawAnalyzer.cc:821

CMTRawAnalyzer::h_WidthCalib_HF
TH1F * h_WidthCalib_HF
Definition: CMTRawAnalyzer.cc:1308

CMTRawAnalyzer::ratioHFMax_
double ratioHFMax_
Definition: CMTRawAnalyzer.cc:489

CMTRawAnalyzer::TSpeakHFMin_
double TSpeakHFMin_
Definition: CMTRawAnalyzer.cc:594

CMTRawAnalyzer::h_maprphinorm_HE3
TH2F * h_maprphinorm_HE3
Definition: CMTRawAnalyzer.cc:2053

CMTRawAnalyzer::h2_pedwvsampl_HB
TH2F * h2_pedwvsampl_HB
Definition: CMTRawAnalyzer.cc:1801

CMTRawAnalyzer::h_pedwvsampl_HB
TH1F * h_pedwvsampl_HB
Definition: CMTRawAnalyzer.cc:1803

CMTRawAnalyzer::h_FullSignal3D0_HF
TH2F * h_FullSignal3D0_HF
Definition: CMTRawAnalyzer.cc:1239

CMTRawAnalyzer::h_bcnvsamplitude_HE
TH1F * h_bcnvsamplitude_HE
Definition: CMTRawAnalyzer.cc:683

CMTRawAnalyzer::h_sumErrorBperLS1
TH1F * h_sumErrorBperLS1
Definition: CMTRawAnalyzer.cc:1960

CMTRawAnalyzer::h_RatioOccupancy_HOM
TH1F * h_RatioOccupancy_HOM
Definition: CMTRawAnalyzer.cc:1681

CMTRawAnalyzer::h_amplitudechannel0_HE4
TH2F * h_amplitudechannel0_HE4
Definition: CMTRawAnalyzer.cc:2196

CMTRawAnalyzer::h_sum0ADCAmplperLS8_M2
TH1F * h_sum0ADCAmplperLS8_M2
Definition: CMTRawAnalyzer.cc:1474

CMTRawAnalyzer::h_mapDepth1linADCAmpl12_HE
TH2F * h_mapDepth1linADCAmpl12_HE
Definition: CMTRawAnalyzer.cc:932

CMTRawAnalyzer::h_pedestalaver4_HF
TH1F * h_pedestalaver4_HF
Definition: CMTRawAnalyzer.cc:1724

CMTRawAnalyzer::h_amplitudechannel1_HB4
TH2F * h_amplitudechannel1_HB4
Definition: CMTRawAnalyzer.cc:2185

CMTRawAnalyzer::h_mapDepth2Amplitude_HB
TH2F * h_mapDepth2Amplitude_HB
Definition: CMTRawAnalyzer.cc:889

CMTRawAnalyzer::lsdep_estimator4_HEdepth3_
double lsdep_estimator4_HEdepth3_
Definition: CMTRawAnalyzer.cc:566

CMTRawAnalyzer::h_runnbadchannels_depth4_HO
TH1F * h_runnbadchannels_depth4_HO
Definition: CMTRawAnalyzer.cc:1064

CMTRawAnalyzer::h_RatioOccupancy_HOP
TH1F * h_RatioOccupancy_HOP
Definition: CMTRawAnalyzer.cc:1680

CMTRawAnalyzer::h_runnbadchannels_depth1_HE
TH1F * h_runnbadchannels_depth1_HE
Definition: CMTRawAnalyzer.cc:1046

CMTRawAnalyzer::h_mapDepth5TS2_HE
TH2F * h_mapDepth5TS2_HE
Definition: CMTRawAnalyzer.cc:944

CMTRawAnalyzer::h_sum0ErrorBperLS6
TH1F * h_sum0ErrorBperLS6
Definition: CMTRawAnalyzer.cc:1986

CMTRawAnalyzer::h_shape_Alow_HB2
TH1F * h_shape_Alow_HB2
Definition: CMTRawAnalyzer.cc:1839

CMTRawAnalyzer::calib3
double calib3[ndepth][neta][nphi]
Definition: CMTRawAnalyzer.cc:2274

CMTRawAnalyzer::h_mapDepth2Error_HB
TH2F * h_mapDepth2Error_HB
Definition: CMTRawAnalyzer.cc:767

CMTRawAnalyzer::h_sumErrorBperLS2
TH1F * h_sumErrorBperLS2
Definition: CMTRawAnalyzer.cc:1965

CMTRawAnalyzer::h_mapDepth2Ped0_HF
TH2F * h_mapDepth2Ped0_HF
Definition: CMTRawAnalyzer.cc:1933

CMTRawAnalyzer::h_ADCAmplrest6_HO
TH1F * h_ADCAmplrest6_HO
Definition: CMTRawAnalyzer.cc:1013

CMTRawAnalyzer::h_shape0_Alow_HB0
TH1F * h_shape0_Alow_HB0
Definition: CMTRawAnalyzer.cc:1832

CMTRawAnalyzer::h_mapDepth2Ampl047_HE
TH2F * h_mapDepth2Ampl047_HE
Definition: CMTRawAnalyzer.cc:1205

CMTRawAnalyzer::tok_qie10_
edm::EDGetTokenT< QIE10DigiCollection > tok_qie10_
Definition: CMTRawAnalyzer.cc:447

CMTRawAnalyzer::h_runbadrate0_depth3_HE
TH1F * h_runbadrate0_depth3_HE
Definition: CMTRawAnalyzer.cc:1062

CMTRawAnalyzer::h_amplitudechannel0_HB4
TH2F * h_amplitudechannel0_HB4
Definition: CMTRawAnalyzer.cc:2184

CMTRawAnalyzer::h_FullSignal3D_HE
TH2F * h_FullSignal3D_HE
Definition: CMTRawAnalyzer.cc:1234

deDxTools::esConsumes
ESGetTokenH3DDVariant esConsumes(std::string const &Record, edm::ConsumesCollector &)
Definition: DeDxTools.cc:283

HcalGain
Definition: HcalGain.h:16

CMTRawAnalyzer::h_error7_HF
TH1F * h_error7_HF
Definition: CMTRawAnalyzer.cc:802

CMTRawAnalyzer::h_maxxOCCUP_HO
TH1F * h_maxxOCCUP_HO
Definition: CMTRawAnalyzer.cc:2020

CMTRawAnalyzer::h_orbitNumvsamplitude_HF
TH1F * h_orbitNumvsamplitude_HF
Definition: CMTRawAnalyzer.cc:693

HcalFrontEndId::rm
int rm() const
Definition: HcalFrontEndId.h:26

CMTRawAnalyzer::h_pedestalaver4_HE
TH1F * h_pedestalaver4_HE
Definition: CMTRawAnalyzer.cc:1712

CMTRawAnalyzer::h_mapDepth1Error_HF
TH2F * h_mapDepth1Error_HF
Definition: CMTRawAnalyzer.cc:805

CMTRawAnalyzer::h_mapDepth5TSmeanA_HE
TH2F * h_mapDepth5TSmeanA_HE
Definition: CMTRawAnalyzer.cc:1163

HcalFrontEndId::fiberChannel
int fiberChannel() const
Definition: HcalFrontEndId.h:29

CMTRawAnalyzer::h_mapDepth6Ampl_HE
TH2F * h_mapDepth6Ampl_HE
Definition: CMTRawAnalyzer.cc:1216

CMTRawAnalyzer::h_recNoiseEnergy1_HE5
TH2F * h_recNoiseEnergy1_HE5
Definition: CMTRawAnalyzer.cc:2140

edm::ParameterSet::getParameter
T getParameter(std::string const &) const
Definition: ParameterSet.h:307

CMTRawAnalyzer::h_bcnvsamplitude0_HB
TH1F * h_bcnvsamplitude0_HB
Definition: CMTRawAnalyzer.cc:682

CMTRawAnalyzer::h2_TSnVsAyear2023_HO
TH2F * h2_TSnVsAyear2023_HO
Definition: CMTRawAnalyzer.cc:2258

CMTRawAnalyzer::h_TSmeanCalib_HF
TH1F * h_TSmeanCalib_HF
Definition: CMTRawAnalyzer.cc:1305

CMTRawAnalyzer::h_sumAmplLS8
TH1F * h_sumAmplLS8
Definition: CMTRawAnalyzer.cc:1690

CMTRawAnalyzer::flagToUseDigiCollectionsORNot_
int flagToUseDigiCollectionsORNot_
Definition: CMTRawAnalyzer.cc:495

CMTRawAnalyzer::h_recSignalEnergy1_HE5
TH2F * h_recSignalEnergy1_HE5
Definition: CMTRawAnalyzer.cc:2119

CMTRawAnalyzer::h_error6_HF
TH1F * h_error6_HF
Definition: CMTRawAnalyzer.cc:801

HcalElectronicsId::htrSlot
constexpr int32_t htrSlot() const
get the htr slot
Definition: HcalElectronicsId.h:101

CMTRawAnalyzer::h_mapDepth2AmplE34_HE
TH2F * h_mapDepth2AmplE34_HE
Definition: CMTRawAnalyzer.cc:1219

CMTRawAnalyzer::h_recSignalEnergy0_HF1
TH2F * h_recSignalEnergy0_HF1
Definition: CMTRawAnalyzer.cc:2149

CMTRawAnalyzer::h_ADCAmpl345Zoom_HB
TH1F * h_ADCAmpl345Zoom_HB
Definition: CMTRawAnalyzer.cc:848

CMTRawAnalyzer::h_mapTSmeanCalib_HF
TH2F * h_mapTSmeanCalib_HF
Definition: CMTRawAnalyzer.cc:1307

CMTRawAnalyzer::h_averNOSIGNALsumamplitude_HO
TH1F * h_averNOSIGNALsumamplitude_HO
Definition: CMTRawAnalyzer.cc:2012

CMTRawAnalyzer::h_mapDepth1Ped2_HE
TH2F * h_mapDepth1Ped2_HE
Definition: CMTRawAnalyzer.cc:1903

CMTRawAnalyzer::h_runbadrate0_depth4_HO
TH1F * h_runbadrate0_depth4_HO
Definition: CMTRawAnalyzer.cc:1068

CMTRawAnalyzer::h_mapDepth3TS2_HB
TH2F * h_mapDepth3TS2_HB
Definition: CMTRawAnalyzer.cc:938

CMTRawAnalyzer::h_ADCCalib1_HE
TH1F * h_ADCCalib1_HE
Definition: CMTRawAnalyzer.cc:1262

CMTRawAnalyzer::h_bcnbadrate0_depth1_HF
TH1F * h_bcnbadrate0_depth1_HF
Definition: CMTRawAnalyzer.cc:1095

CMTRawAnalyzer::h_mapGetRMSOverNormalizedSignal0_HE
TH2F * h_mapGetRMSOverNormalizedSignal0_HE
Definition: CMTRawAnalyzer.cc:1952

CMTRawAnalyzer::h_FullSignal3D_HB
TH2F * h_FullSignal3D_HB
Definition: CMTRawAnalyzer.cc:1232

CMTRawAnalyzer::h_amplitudechannel0_HE3
TH2F * h_amplitudechannel0_HE3
Definition: CMTRawAnalyzer.cc:2193

CMTRawAnalyzer::calibrTSmaxHOMin_
double calibrTSmaxHOMin_
Definition: CMTRawAnalyzer.cc:635

CMTRawAnalyzer::h_mapDepth5TSmaxA_HE
TH2F * h_mapDepth5TSmaxA_HE
Definition: CMTRawAnalyzer.cc:1178

CMTRawAnalyzer::h_2DsumPedestalLS8
TH2F * h_2DsumPedestalLS8
Definition: CMTRawAnalyzer.cc:1355

CMTRawAnalyzer::h_mapDepth2TS1_HF
TH2F * h_mapDepth2TS1_HF
Definition: CMTRawAnalyzer.cc:948

CMTRawAnalyzer::h_ndepthesperamplitudebins_HE
TH1F * h_ndepthesperamplitudebins_HE
Definition: CMTRawAnalyzer.cc:749

CMTRawAnalyzer::conditions
const HcalDbService * conditions
Definition: CMTRawAnalyzer.cc:458

CMTRawAnalyzer::h_sumAmplLS3
TH1F * h_sumAmplLS3
Definition: CMTRawAnalyzer.cc:1652

CMTRawAnalyzer::h_ADCAmpl_HO
TH1F * h_ADCAmpl_HO
Definition: CMTRawAnalyzer.cc:1011

CMTRawAnalyzer::h_AmplitudeHEtest6
TH1F * h_AmplitudeHEtest6
Definition: CMTRawAnalyzer.cc:737

CMTRawAnalyzer
Definition: CMTRawAnalyzer.cc:426

CMTRawAnalyzer::ADCAmplHBMin_
double ADCAmplHBMin_
Definition: CMTRawAnalyzer.cc:609

CMTRawAnalyzer::h_pedestalwaver9_HE
TH1F * h_pedestalwaver9_HE
Definition: CMTRawAnalyzer.cc:1719

CMTRawAnalyzer::h_sumTSmeanAperLS7
TH1F * h_sumTSmeanAperLS7
Definition: CMTRawAnalyzer.cc:1531

CMTRawAnalyzer::h_2DsumADCAmplLS1_LSselected
TH2F * h_2DsumADCAmplLS1_LSselected
Definition: CMTRawAnalyzer.cc:1382

HcalDbService::getPedestal
const HcalPedestal * getPedestal(const HcalGenericDetId &fId) const
Definition: HcalDbService.cc:277

CMTRawAnalyzer::calibrTSmaxHOMax_
double calibrTSmaxHOMax_
Definition: CMTRawAnalyzer.cc:639

CMTRawAnalyzer::bcnrejectedhigh_
int bcnrejectedhigh_
Definition: CMTRawAnalyzer.cc:504

CMTRawAnalyzer::h_mapDepth3_HE
TH2F * h_mapDepth3_HE
Definition: CMTRawAnalyzer.cc:1227

CMTRawAnalyzer::h_sumADCAmplperLS8_P2
TH1F * h_sumADCAmplperLS8_P2
Definition: CMTRawAnalyzer.cc:1469

CMTRawAnalyzer::h_mapDepth1Amplitude225_HE
TH2F * h_mapDepth1Amplitude225_HE
Definition: CMTRawAnalyzer.cc:1196

CMTRawAnalyzer::h_averNOSIGNALsumamplitude_HE
TH1F * h_averNOSIGNALsumamplitude_HE
Definition: CMTRawAnalyzer.cc:2010

CMTRawAnalyzer::h_sumPedestalLS3
TH1F * h_sumPedestalLS3
Definition: CMTRawAnalyzer.cc:1329

CMTRawAnalyzer::h_sum0ADCAmplperLS6_M2
TH1F * h_sum0ADCAmplperLS6_M2
Definition: CMTRawAnalyzer.cc:1466

CMTRawAnalyzer::h_pedestalaver9_HB
TH1F * h_pedestalaver9_HB
Definition: CMTRawAnalyzer.cc:1701

HcalQIESample.h

mps_fire.i
i
Definition: mps_fire.py:429

edm::Service< TFileService >

CMTRawAnalyzer::h_sum0TSmaxAperLS7
TH1F * h_sum0TSmaxAperLS7
Definition: CMTRawAnalyzer.cc:1583

CMTRawAnalyzer::h_mapDepth4ADCAmpl225_HB
TH2F * h_mapDepth4ADCAmpl225_HB
Definition: CMTRawAnalyzer.cc:868

CMTRawAnalyzer::mapRADDAM_HE
double mapRADDAM_HE[ndepth][neta][nphi]
Definition: CMTRawAnalyzer.cc:2304

particleFlowDisplacedVertex_cfi.ratio
ratio
Definition: particleFlowDisplacedVertex_cfi.py:93

CMTRawAnalyzer::h_recSignalEnergy1_HB4
TH2F * h_recSignalEnergy1_HB4
Definition: CMTRawAnalyzer.cc:2091

CMTRawAnalyzer::h_2DsumADCAmplLS8_LSselected
TH2F * h_2DsumADCAmplLS8_LSselected
Definition: CMTRawAnalyzer.cc:1487

CMTRawAnalyzer::h_sumADCAmplperLS6_P1
TH1F * h_sumADCAmplperLS6_P1
Definition: CMTRawAnalyzer.cc:1459

CMTRawAnalyzer::h_mapDepth3Pedw2_HE
TH2F * h_mapDepth3Pedw2_HE
Definition: CMTRawAnalyzer.cc:1923

CMTRawAnalyzer::h_sumAmplitudeLS7
TH1F * h_sumAmplitudeLS7
Definition: CMTRawAnalyzer.cc:1627

CMTRawAnalyzer::eventcounter
int eventcounter
Definition: CMTRawAnalyzer.cc:2315

CMTRawAnalyzer::h2_pedvsampl_HE
TH2F * h2_pedvsampl_HE
Definition: CMTRawAnalyzer.cc:1811

CMTRawAnalyzer::h1_TSnVsAyear2023_HF
TH1F * h1_TSnVsAyear2023_HF
Definition: CMTRawAnalyzer.cc:2261

CMTRawAnalyzer::h_AmplitudeHBrest1
TH1F * h_AmplitudeHBrest1
Definition: CMTRawAnalyzer.cc:859

CMTRawAnalyzer::calibrRatioHBMin_
double calibrRatioHBMin_
Definition: CMTRawAnalyzer.cc:625

CMTRawAnalyzer::h_sumamplitude_depth2_HE0
TH1F * h_sumamplitude_depth2_HE0
Definition: CMTRawAnalyzer.cc:1872

CMTRawAnalyzer::h_mapCapCalib047_HE
TH2F * h_mapCapCalib047_HE
Definition: CMTRawAnalyzer.cc:1241

CMTRawAnalyzer::h_sumCutTSmeanAperLS4
TH1F * h_sumCutTSmeanAperLS4
Definition: CMTRawAnalyzer.cc:1514

CMTRawAnalyzer::lsdep_estimator2_HBdepth1_
double lsdep_estimator2_HBdepth1_
Definition: CMTRawAnalyzer.cc:544

CMTRawAnalyzer::h_mapDepth4TS2_HE
TH2F * h_mapDepth4TS2_HE
Definition: CMTRawAnalyzer.cc:943

CMTRawAnalyzer::h_mapTSmaxCalib_HE
TH2F * h_mapTSmaxCalib_HE
Definition: CMTRawAnalyzer.cc:1270

CMTRawAnalyzer::h_mapTSmeanCalib047_HO
TH2F * h_mapTSmeanCalib047_HO
Definition: CMTRawAnalyzer.cc:1289

CMTRawAnalyzer::h_amplitudechannel1_HF3
TH2F * h_amplitudechannel1_HF3
Definition: CMTRawAnalyzer.cc:2215

CMTRawAnalyzer::h_mapDepth3Error_HB
TH2F * h_mapDepth3Error_HB
Definition: CMTRawAnalyzer.cc:768

CMTRawAnalyzer::h_Amplitude_notCapIdErrors_HO4
TH1F * h_Amplitude_notCapIdErrors_HO4
Definition: CMTRawAnalyzer.cc:1112

CMTRawAnalyzer::h_mapGetRMSOverNormalizedSignal_HF
TH2F * h_mapGetRMSOverNormalizedSignal_HF
Definition: CMTRawAnalyzer.cc:1953

CMTRawAnalyzer::h_sumCutAmplitudeperLS1
TH1F * h_sumCutAmplitudeperLS1
Definition: CMTRawAnalyzer.cc:1594

CMTRawAnalyzer::h_amplitudechannel1_HB2
TH2F * h_amplitudechannel1_HB2
Definition: CMTRawAnalyzer.cc:2179

CaloCellGeometry.h

CMTRawAnalyzer::calib0
double calib0[ndepth][neta][nphi]
Definition: CMTRawAnalyzer.cc:2272

CMTRawAnalyzer::h_amplitudechannel0_HB3
TH2F * h_amplitudechannel0_HB3
Definition: CMTRawAnalyzer.cc:2181

CMTRawAnalyzer::h_sumamplitudechannel_HB
TH1F * h_sumamplitudechannel_HB
Definition: CMTRawAnalyzer.cc:2021

CMTRawAnalyzer::h_Amplitude_HF
TH1F * h_Amplitude_HF
Definition: CMTRawAnalyzer.cc:984

CMTRawAnalyzer::tok_hbheNoise_
edm::EDGetTokenT< HBHERecHitCollection > tok_hbheNoise_
Definition: CMTRawAnalyzer.cc:449

CMTRawAnalyzer::h_mapDepth4Pedw0_HO
TH2F * h_mapDepth4Pedw0_HO
Definition: CMTRawAnalyzer.cc:1945

CMTRawAnalyzer::lsdep_estimator2_HOdepth4_
double lsdep_estimator2_HOdepth4_
Definition: CMTRawAnalyzer.cc:551

CMTRawAnalyzer::calibt
float calibt[ndepth][neta][nphi]
Definition: CMTRawAnalyzer.cc:2269

CMTRawAnalyzer::h_mapDepth1TS2_HB
TH2F * h_mapDepth1TS2_HB
Definition: CMTRawAnalyzer.cc:936

CMTRawAnalyzer::h_sumamplitude_depth1_HE
TH1F * h_sumamplitude_depth1_HE
Definition: CMTRawAnalyzer.cc:1863

CMTRawAnalyzer::h_sumCutTSmaxAperLS1
TH1F * h_sumCutTSmaxAperLS1
Definition: CMTRawAnalyzer.cc:1545

CMTRawAnalyzer::h_sumADCAmplperLSdepth4HBu
TH1F * h_sumADCAmplperLSdepth4HBu
Definition: CMTRawAnalyzer.cc:1435

edm::EventSetup::getData
T const  & getData(const ESGetToken< T, R > &iToken) const noexcept(false)
Definition: EventSetup.h:119

CMTRawAnalyzer::h_mapDepth1Pedw2_HE
TH2F * h_mapDepth1Pedw2_HE
Definition: CMTRawAnalyzer.cc:1907

CMTRawAnalyzer::h_pedestal2_HO
TH1F * h_pedestal2_HO
Definition: CMTRawAnalyzer.cc:1734

CMTRawAnalyzer::h_sumCutAmplperLS7
TH1F * h_sumCutAmplperLS7
Definition: CMTRawAnalyzer.cc:1687

CMTRawAnalyzer::h_sumCutADCAmplperLSdepth4HEu
TH1F * h_sumCutADCAmplperLSdepth4HEu
Definition: CMTRawAnalyzer.cc:1426

CMTRawAnalyzer::nnnnnn1
int nnnnnn1
Definition: CMTRawAnalyzer.cc:666

CMTRawAnalyzer::h_mapDepth3pedestalw_HB
TH2F * h_mapDepth3pedestalw_HB
Definition: CMTRawAnalyzer.cc:1746

CMTRawAnalyzer::h_recNoiseEnergy2_HF1
TH2F * h_recNoiseEnergy2_HF1
Definition: CMTRawAnalyzer.cc:2164

CMTRawAnalyzer::h_pedestalwaver4_HB
TH1F * h_pedestalwaver4_HB
Definition: CMTRawAnalyzer.cc:1706

CMTRawAnalyzer::TSpeakHEMax_
double TSpeakHEMax_
Definition: CMTRawAnalyzer.cc:593

CMTRawAnalyzer::h_ADCAmpl345Zoom1_HE
TH1F * h_ADCAmpl345Zoom1_HE
Definition: CMTRawAnalyzer.cc:846

CMTRawAnalyzer::pedestalHFMax_
double pedestalHFMax_
Definition: CMTRawAnalyzer.cc:678

CMTRawAnalyzer::h_recSignalEnergy0_HF4
TH2F * h_recSignalEnergy0_HF4
Definition: CMTRawAnalyzer.cc:2158

CMTRawAnalyzer::lsdep_estimator3_HBdepth2_
double lsdep_estimator3_HBdepth2_
Definition: CMTRawAnalyzer.cc:554

CMTRawAnalyzer::h_recNoiseEnergy1_HB4
TH2F * h_recNoiseEnergy1_HB4
Definition: CMTRawAnalyzer.cc:2103

CMTRawAnalyzer::CMTRawAnalyzer
CMTRawAnalyzer(const edm::ParameterSet &)
Definition: CMTRawAnalyzer.cc:2413

CMTRawAnalyzer::TSpeakHBMax_
double TSpeakHBMax_
Definition: CMTRawAnalyzer.cc:591

CMTRawAnalyzer::h_amplError_HE
TH1F * h_amplError_HE
Definition: CMTRawAnalyzer.cc:782

HcalLUTCorr::getValue
float getValue() const
Definition: HcalLUTCorr.h:22

CMTRawAnalyzer::h_mapDepth3Ped3_HE
TH2F * h_mapDepth3Ped3_HE
Definition: CMTRawAnalyzer.cc:1920

CMTRawAnalyzer::h_maxxSUMAmpl_HO
TH1F * h_maxxSUMAmpl_HO
Definition: CMTRawAnalyzer.cc:2016

relativeConstraints.error
error
Definition: relativeConstraints.py:53

CMTRawAnalyzer::h_recSignalEnergy0_HE6
TH2F * h_recSignalEnergy0_HE6
Definition: CMTRawAnalyzer.cc:2121

nano_mu_digi_cff.rawId
rawId
Definition: nano_mu_digi_cff.py:56

CMTRawAnalyzer::h_amplitudechannel1_HF4
TH2F * h_amplitudechannel1_HF4
Definition: CMTRawAnalyzer.cc:2218

CMTRawAnalyzer::h_averSIGNALoccupancy_HB
TH1F * h_averSIGNALoccupancy_HB
Definition: CMTRawAnalyzer.cc:1997

CMTRawAnalyzer::h_mapDepth2TSmaxA225_HE
TH2F * h_mapDepth2TSmaxA225_HE
Definition: CMTRawAnalyzer.cc:1182

CMTRawAnalyzer::h_mapDepth2Amplitude225_HF
TH2F * h_mapDepth2Amplitude225_HF
Definition: CMTRawAnalyzer.cc:988

CMTRawAnalyzer::h_errorGeneral_HE
TH1F * h_errorGeneral_HE
Definition: CMTRawAnalyzer.cc:774

CMTRawAnalyzer::h_sumTSmeanAperLS4
TH1F * h_sumTSmeanAperLS4
Definition: CMTRawAnalyzer.cc:1513

CMTRawAnalyzer::h_mapDepth4Amplitude_HF
TH2F * h_mapDepth4Amplitude_HF
Definition: CMTRawAnalyzer.cc:990

CMTRawAnalyzer::h_mapDepth2Error_HF
TH2F * h_mapDepth2Error_HF
Definition: CMTRawAnalyzer.cc:806

CMTRawAnalyzer::fillDigiAmplitudeHO
void fillDigiAmplitudeHO(HODigiCollection::const_iterator &digiItr)
Definition: CMTRawAnalyzer.cc:11755

CMTRawAnalyzer::h_sumADCAmplperLS8
TH1F * h_sumADCAmplperLS8
Definition: CMTRawAnalyzer.cc:1488

CMTRawAnalyzer::h_sumADCAmplEtaPhiLs
TH1F * h_sumADCAmplEtaPhiLs
Definition: CMTRawAnalyzer.cc:705

CMTRawAnalyzer::h_mapDepth4ADCAmpl12_HF
TH2F * h_mapDepth4ADCAmpl12_HF
Definition: CMTRawAnalyzer.cc:930

CMTRawAnalyzer::h_runbadrate_depth2_HE
TH1F * h_runbadrate_depth2_HE
Definition: CMTRawAnalyzer.cc:1054

CMTRawAnalyzer::h_Eta16Depth3RADDAM_HED2P
TH1F * h_Eta16Depth3RADDAM_HED2P
Definition: CMTRawAnalyzer.cc:2242

CMTRawAnalyzer::h_amplitudechannel0_HE7
TH2F * h_amplitudechannel0_HE7
Definition: CMTRawAnalyzer.cc:2205

CMTRawAnalyzer::h_mapDepth2Pedw3_HF
TH2F * h_mapDepth2Pedw3_HF
Definition: CMTRawAnalyzer.cc:1940

CMTRawAnalyzer::h_mapDepth4ADCAmpl225Copy_HB
TH2F * h_mapDepth4ADCAmpl225Copy_HB
Definition: CMTRawAnalyzer.cc:832

CMTRawAnalyzer::h_RatioCalib_HF
TH1F * h_RatioCalib_HF
Definition: CMTRawAnalyzer.cc:1299

CMTRawAnalyzer::averSIGNALsumamplitude_HO
double averSIGNALsumamplitude_HO
Definition: CMTRawAnalyzer.cc:2335

CMTRawAnalyzer::h_2DsumADCAmplLSdepth3HFu
TH2F * h_2DsumADCAmplLSdepth3HFu
Definition: CMTRawAnalyzer.cc:1367

CMTRawAnalyzer::fillDigiErrors
void fillDigiErrors(HBHEDigiCollection::const_iterator &digiItr)
Definition: CMTRawAnalyzer.cc:7994

CMTRawAnalyzer::h_recNoiseEnergy1_HE6
TH2F * h_recNoiseEnergy1_HE6
Definition: CMTRawAnalyzer.cc:2143

CMTRawAnalyzer::lsdep_estimator3_HBdepth1_
double lsdep_estimator3_HBdepth1_
Definition: CMTRawAnalyzer.cc:553

CMTRawAnalyzer::h_numberofhitsHEtest
TH1F * h_numberofhitsHEtest
Definition: CMTRawAnalyzer.cc:729

CMTRawAnalyzer::h_pedvsampl_HB
TH1F * h_pedvsampl_HB
Definition: CMTRawAnalyzer.cc:1802

CMTRawAnalyzer::sum0Estimator
double sum0Estimator[nsub][ndepth][neta][nphi]
Definition: CMTRawAnalyzer.cc:2285

CMTRawAnalyzer::h_2D0sumTSmaxALS4
TH2F * h_2D0sumTSmaxALS4
Definition: CMTRawAnalyzer.cc:1564

CMTRawAnalyzer::h_error3_HE
TH1F * h_error3_HE
Definition: CMTRawAnalyzer.cc:777

MessageLogger.h

CMTRawAnalyzer::h_mapAiForLS_bad_HE
TH2F * h_mapAiForLS_bad_HE
Definition: CMTRawAnalyzer.cc:716

CMTRawAnalyzer::calibrRatioHOMax_
double calibrRatioHOMax_
Definition: CMTRawAnalyzer.cc:631

CMTRawAnalyzer::h_AmplitudeHEtest1
TH1F * h_AmplitudeHEtest1
Definition: CMTRawAnalyzer.cc:736

HcalFrontEndId::qieCard
int qieCard() const
Definition: HcalFrontEndId.h:30

CMTRawAnalyzer::lsdep_estimator1_HFdepth3_
double lsdep_estimator1_HFdepth3_
Definition: CMTRawAnalyzer.cc:539

CMTRawAnalyzer::h_sumAmplperLS4
TH1F * h_sumAmplperLS4
Definition: CMTRawAnalyzer.cc:1660

CMTRawAnalyzer::h_2DsumADCAmplLSdepth5HEu
TH2F * h_2DsumADCAmplLSdepth5HEu
Definition: CMTRawAnalyzer.cc:1361

CMTRawAnalyzer::h_ADCAmplrest_HE
TH1F * h_ADCAmplrest_HE
Definition: CMTRawAnalyzer.cc:1119

CMTRawAnalyzer::h_2DsumAmplLS8
TH2F * h_2DsumAmplLS8
Definition: CMTRawAnalyzer.cc:1691

CMTRawAnalyzer::h_sumamplitude_depth4_HO
TH1F * h_sumamplitude_depth4_HO
Definition: CMTRawAnalyzer.cc:1868

CMTRawAnalyzer::h_pedestalaver9_HO
TH1F * h_pedestalaver9_HO
Definition: CMTRawAnalyzer.cc:1737

CMTRawAnalyzer::h_2D0sumAmplLS7
TH2F * h_2D0sumAmplLS7
Definition: CMTRawAnalyzer.cc:1688

CMTRawAnalyzer::h_maprphinorm_HE2
TH2F * h_maprphinorm_HE2
Definition: CMTRawAnalyzer.cc:2052

dqmiolumiharvest.j
j
Definition: dqmiolumiharvest.py:66

CMTRawAnalyzer::h_2D0sumTSmeanALS7
TH2F * h_2D0sumTSmeanALS7
Definition: CMTRawAnalyzer.cc:1533

CMTRawAnalyzer::h_2DsumAmplitudeLS1
TH2F * h_2DsumAmplitudeLS1
Definition: CMTRawAnalyzer.cc:1591

CMTRawAnalyzer::h_sum0ADCAmplperLS7u
TH1F * h_sum0ADCAmplperLS7u
Definition: CMTRawAnalyzer.cc:1484

CMTRawAnalyzer::h_runnbadchannels_depth3_HE
TH1F * h_runnbadchannels_depth3_HE
Definition: CMTRawAnalyzer.cc:1058

CMTRawAnalyzer::h_pedestal00_HB
TH1F * h_pedestal00_HB
Definition: CMTRawAnalyzer.cc:1776

CMTRawAnalyzer::h_amplitudechannel2_HF1
TH2F * h_amplitudechannel2_HF1
Definition: CMTRawAnalyzer.cc:2210

CMTRawAnalyzer::h_mapDepth1ADCAmpl12_HF
TH2F * h_mapDepth1ADCAmpl12_HF
Definition: CMTRawAnalyzer.cc:927

CMTRawAnalyzer::nnnnnn2
int nnnnnn2
Definition: CMTRawAnalyzer.cc:667

CMTRawAnalyzer::h_mapDepth4TS2_HB
TH2F * h_mapDepth4TS2_HB
Definition: CMTRawAnalyzer.cc:939

CMTRawAnalyzer::h_TSmaxCalib_HB
TH1F * h_TSmaxCalib_HB
Definition: CMTRawAnalyzer.cc:1251

CMTRawAnalyzer::h_2DsumErrorBLS8
TH2F * h_2DsumErrorBLS8
Definition: CMTRawAnalyzer.cc:1993

CMTRawAnalyzer::h_AmplitudeHBrest6
TH1F * h_AmplitudeHBrest6
Definition: CMTRawAnalyzer.cc:860

CMTRawAnalyzer::h_mapDepth4AmplE34_HE
TH2F * h_mapDepth4AmplE34_HE
Definition: CMTRawAnalyzer.cc:1221

CMTRawAnalyzer::h_mapDepth3ADCAmpl12_HF
TH2F * h_mapDepth3ADCAmpl12_HF
Definition: CMTRawAnalyzer.cc:929

CMTRawAnalyzer::h_pedestalw1_HF
TH1F * h_pedestalw1_HF
Definition: CMTRawAnalyzer.cc:1727

CMTRawAnalyzer::h_sigLayer1RADDAM6_HED2
TH1F * h_sigLayer1RADDAM6_HED2
Definition: CMTRawAnalyzer.cc:2252

CMTRawAnalyzer::calibrTSmaxHBMin_
double calibrTSmaxHBMin_
Definition: CMTRawAnalyzer.cc:633

CMTRawAnalyzer::h_amplError_HF
TH1F * h_amplError_HF
Definition: CMTRawAnalyzer.cc:803

CMTRawAnalyzer::mapRADDAM_HED2
double mapRADDAM_HED2[ndepth][neta]
Definition: CMTRawAnalyzer.cc:2306

CMTRawAnalyzer::h_maprphinorm0_HE4
TH2F * h_maprphinorm0_HE4
Definition: CMTRawAnalyzer.cc:2068

CMTRawAnalyzer::h_2D0sumErrorBLS5
TH2F * h_2D0sumErrorBLS5
Definition: CMTRawAnalyzer.cc:1977

CMTRawAnalyzer::h_mapDepth1Pedw1_HE
TH2F * h_mapDepth1Pedw1_HE
Definition: CMTRawAnalyzer.cc:1906

CMTRawAnalyzer::h_2D0sumPedestalLS1
TH2F * h_2D0sumPedestalLS1
Definition: CMTRawAnalyzer.cc:1322

CMTRawAnalyzer::h2_amplvspedw_HB
TH2F * h2_amplvspedw_HB
Definition: CMTRawAnalyzer.cc:1807

CMTRawAnalyzer::h_2D0sumErrorBLS7
TH2F * h_2D0sumErrorBLS7
Definition: CMTRawAnalyzer.cc:1987

CMTRawAnalyzer::h_mapAiForLS_good_HE
TH2F * h_mapAiForLS_good_HE
Definition: CMTRawAnalyzer.cc:718

CMTRawAnalyzer::h_2DsumADCAmplLSdepth4HBu
TH2F * h_2DsumADCAmplLSdepth4HBu
Definition: CMTRawAnalyzer.cc:1373

CMTRawAnalyzer::h_mapDepth2ADCAmpl225_HE
TH2F * h_mapDepth2ADCAmpl225_HE
Definition: CMTRawAnalyzer.cc:1152

CMTRawAnalyzer::h_bcnnbadchannels_depth2_HF
TH1F * h_bcnnbadchannels_depth2_HF
Definition: CMTRawAnalyzer.cc:1088

HLT_2024v10_cff.eta2
eta2
Definition: HLT_2024v10_cff.py:14794

CMTRawAnalyzer::h_sumErrorBLS3
TH1F * h_sumErrorBLS3
Definition: CMTRawAnalyzer.cc:1969

CMTRawAnalyzer::h_mapDepth1Ped1_HE
TH2F * h_mapDepth1Ped1_HE
Definition: CMTRawAnalyzer.cc:1902

CMTRawAnalyzer::h_mapDepth2ADCAmpl225_HB
TH2F * h_mapDepth2ADCAmpl225_HB
Definition: CMTRawAnalyzer.cc:864

CMTRawAnalyzer::h_2DsumPedestalLS4
TH2F * h_2DsumPedestalLS4
Definition: CMTRawAnalyzer.cc:1335

CMTRawAnalyzer::h_recSignalEnergy1_HE2
TH2F * h_recSignalEnergy1_HE2
Definition: CMTRawAnalyzer.cc:2110

CMTRawAnalyzer::h_2D0sumADCAmplLS1
TH2F * h_2D0sumADCAmplLS1
Definition: CMTRawAnalyzer.cc:1385

CMTRawAnalyzer::h_A_Depth2RADDAM_HE
TH1F * h_A_Depth2RADDAM_HE
Definition: CMTRawAnalyzer.cc:2236

CMTRawAnalyzer::h_pedvsampl0_HO
TH1F * h_pedvsampl0_HO
Definition: CMTRawAnalyzer.cc:1827

CMTRawAnalyzer::h_sumErrorBLS7
TH1F * h_sumErrorBLS7
Definition: CMTRawAnalyzer.cc:1989

HcalPedestal::getValue
float getValue(int fCapId) const
get value for capId = 0..3
Definition: HcalPedestal.h:20

CMTRawAnalyzer::h_sumPedestalperLS4
TH1F * h_sumPedestalperLS4
Definition: CMTRawAnalyzer.cc:1336

CMTRawAnalyzer::h_mapADCCalib047_HE
TH2F * h_mapADCCalib047_HE
Definition: CMTRawAnalyzer.cc:1263

CMTRawAnalyzer::nnnnnn
int nnnnnn
Definition: CMTRawAnalyzer.cc:660

CMTRawAnalyzer::h_maxxSUMAmpl_HE
TH1F * h_maxxSUMAmpl_HE
Definition: CMTRawAnalyzer.cc:2014

edm::DataFrameContainer::size
size_type size() const
Definition: DataFrameContainer.h:156

CMTRawAnalyzer::h_mapDepth4Pedw3_HO
TH2F * h_mapDepth4Pedw3_HO
Definition: CMTRawAnalyzer.cc:1948

CMTRawAnalyzer::h_shape_good_channels_HE
TH1F * h_shape_good_channels_HE
Definition: CMTRawAnalyzer.cc:1851

CMTRawAnalyzer::h_sumADCAmplperLS1_P1
TH1F * h_sumADCAmplperLS1_P1
Definition: CMTRawAnalyzer.cc:1443

CMTRawAnalyzer::h_2DsumADCAmplLS7
TH2F * h_2DsumADCAmplLS7
Definition: CMTRawAnalyzer.cc:1476

CMTRawAnalyzer::h_sumAmplitudeLS1
TH1F * h_sumAmplitudeLS1
Definition: CMTRawAnalyzer.cc:1590

CMTRawAnalyzer::h_sum0AmplitudeperLS1
TH1F * h_sum0AmplitudeperLS1
Definition: CMTRawAnalyzer.cc:1596

CMTRawAnalyzer::h_amplitudechannel2_HE6
TH2F * h_amplitudechannel2_HE6
Definition: CMTRawAnalyzer.cc:2204

CMTRawAnalyzer::h_pedestalw2_HF
TH1F * h_pedestalw2_HF
Definition: CMTRawAnalyzer.cc:1728

CMTRawAnalyzer::h_pedvsampl0_HF
TH1F * h_pedvsampl0_HF
Definition: CMTRawAnalyzer.cc:1821

CMTRawAnalyzer::calibcapiderror
int calibcapiderror[ndepth][neta][nphi]
Definition: CMTRawAnalyzer.cc:2268

CMTRawAnalyzer::h_gain_HE
TH1F * h_gain_HE
Definition: CMTRawAnalyzer.cc:1786

CMTRawAnalyzer::h_mapDepth3TS2_HE
TH2F * h_mapDepth3TS2_HE
Definition: CMTRawAnalyzer.cc:942

HODataFrame.h

CMTRawAnalyzer::h_amplError
TH1F * h_amplError
Definition: CMTRawAnalyzer.cc:754

CMTRawAnalyzer::h_mapDepth1Ped3_HE
TH2F * h_mapDepth1Ped3_HE
Definition: CMTRawAnalyzer.cc:1904

CMTRawAnalyzer::h_error2_HF
TH1F * h_error2_HF
Definition: CMTRawAnalyzer.cc:797

CMTRawAnalyzer::h_sumphiEta16Depth3RADDAM_HED2
TH1F * h_sumphiEta16Depth3RADDAM_HED2
Definition: CMTRawAnalyzer.cc:2238

CMTRawAnalyzer::h_2D0sumPedestalLS6
TH2F * h_2D0sumPedestalLS6
Definition: CMTRawAnalyzer.cc:1347

CMTRawAnalyzer::h_sumAmplperLS5
TH1F * h_sumAmplperLS5
Definition: CMTRawAnalyzer.cc:1666

CMTRawAnalyzer::inputTag_
edm::InputTag inputTag_
Definition: CMTRawAnalyzer.cc:454

CMTRawAnalyzer::h_mapDepth1Error_HB
TH2F * h_mapDepth1Error_HB
Definition: CMTRawAnalyzer.cc:766

CMTRawAnalyzer::h_mapDepth2Ped1_HE
TH2F * h_mapDepth2Ped1_HE
Definition: CMTRawAnalyzer.cc:1910

CMTRawAnalyzer::studyTSmaxShapeHist_
bool studyTSmaxShapeHist_
Definition: CMTRawAnalyzer.cc:471

CMTRawAnalyzer::flagIterativeMethodCalibrationGroupDigi_
int flagIterativeMethodCalibrationGroupDigi_
Definition: CMTRawAnalyzer.cc:496

CMTRawAnalyzer::TSpeakHOMin_
double TSpeakHOMin_
Definition: CMTRawAnalyzer.cc:596

CMTRawAnalyzer::h_mapRatioCalib_HO
TH2F * h_mapRatioCalib_HO
Definition: CMTRawAnalyzer.cc:1284

CMTRawAnalyzer::h_sumCutAmplperLS5
TH1F * h_sumCutAmplperLS5
Definition: CMTRawAnalyzer.cc:1667

CMTRawAnalyzer::maprphinorm
double maprphinorm[nsub][ndepth][neta][nphi]
Definition: CMTRawAnalyzer.cc:2292

CMTRawAnalyzer::h_pedestal0_HE
TH1F * h_pedestal0_HE
Definition: CMTRawAnalyzer.cc:1708

CMTRawAnalyzer::h_RatioCalib_HB
TH1F * h_RatioCalib_HB
Definition: CMTRawAnalyzer.cc:1248

CMTRawAnalyzer::h_gsmdifferencefit4_HE
TH1F * h_gsmdifferencefit4_HE
Definition: CMTRawAnalyzer.cc:1145

HcalDbRecord.h

CMTRawAnalyzer::calibrADCHEMax_
double calibrADCHEMax_
Definition: CMTRawAnalyzer.cc:622

CMTRawAnalyzer::h_sumAmplitudeLS3
TH1F * h_sumAmplitudeLS3
Definition: CMTRawAnalyzer.cc:1603

CMTRawAnalyzer::h_recSignalEnergy2_HB2
TH2F * h_recSignalEnergy2_HB2
Definition: CMTRawAnalyzer.cc:2086

CMTRawAnalyzer::h_mapDepth6ADCAmpl12_HE
TH2F * h_mapDepth6ADCAmpl12_HE
Definition: CMTRawAnalyzer.cc:922

CMTRawAnalyzer::counterho
int counterho
Definition: CMTRawAnalyzer.cc:665

CMTRawAnalyzer::h_mapADCAmpl11firstpeak_HE
TH2F * h_mapADCAmpl11firstpeak_HE
Definition: CMTRawAnalyzer.cc:1134

CMTRawAnalyzer::TSmeanHOMin_
double TSmeanHOMin_
Definition: CMTRawAnalyzer.cc:604

CMTRawAnalyzer::h_eventoccupancy_HF
TH1F * h_eventoccupancy_HF
Definition: CMTRawAnalyzer.cc:2031

CMTRawAnalyzer::h_2DsumAmplitudeLS6
TH2F * h_2DsumAmplitudeLS6
Definition: CMTRawAnalyzer.cc:1622

CMTRawAnalyzer::mapRADDAM0_HE
int mapRADDAM0_HE[ndepth][neta][nphi]
Definition: CMTRawAnalyzer.cc:2305

CMTRawAnalyzer::h_sum0ErrorBperLS4
TH1F * h_sum0ErrorBperLS4
Definition: CMTRawAnalyzer.cc:1976

CMTRawAnalyzer::h_runbadrate_depth1_HB
TH1F * h_runbadrate_depth1_HB
Definition: CMTRawAnalyzer.cc:1036

CMTRawAnalyzer::TSmeanHBMin_
double TSmeanHBMin_
Definition: CMTRawAnalyzer.cc:598

CMTRawAnalyzer::h_pedwvsampl_HF
TH1F * h_pedwvsampl_HF
Definition: CMTRawAnalyzer.cc:1820

CMTRawAnalyzer::lsdep_estimator3_HOdepth4_
double lsdep_estimator3_HOdepth4_
Definition: CMTRawAnalyzer.cc:560

CMTRawAnalyzer::calibrTSmaxHEMax_
double calibrTSmaxHEMax_
Definition: CMTRawAnalyzer.cc:638

CMTRawAnalyzer::h_recNoiseEnergy2_HE5
TH2F * h_recNoiseEnergy2_HE5
Definition: CMTRawAnalyzer.cc:2141

HcalSubdetector.h

CMTRawAnalyzer::h_recNoiseEnergy2_HE6
TH2F * h_recNoiseEnergy2_HE6
Definition: CMTRawAnalyzer.cc:2144

CMTRawAnalyzer::h_gsmdifferencefit5_HE
TH1F * h_gsmdifferencefit5_HE
Definition: CMTRawAnalyzer.cc:1146

CMTRawAnalyzer::h_sumTSmaxAperLS8
TH1F * h_sumTSmaxAperLS8
Definition: CMTRawAnalyzer.cc:1586

CMTRawAnalyzer::h_2DAtaildepth2_HB
TH2F * h_2DAtaildepth2_HB
Definition: CMTRawAnalyzer.cc:2035

CMTRawAnalyzer::h_mapDepth2Amplitude225_HE
TH2F * h_mapDepth2Amplitude225_HE
Definition: CMTRawAnalyzer.cc:1197

CMTRawAnalyzer::lsdep_cut3_max_HEdepth2_
int lsdep_cut3_max_HEdepth2_
Definition: CMTRawAnalyzer.cc:522

CMTRawAnalyzer::h_sumErrorBperLS7
TH1F * h_sumErrorBperLS7
Definition: CMTRawAnalyzer.cc:1990

CMTRawAnalyzer::h_Amplitude_notCapIdErrors_HB1
TH1F * h_Amplitude_notCapIdErrors_HB1
Definition: CMTRawAnalyzer.cc:1105

CMTRawAnalyzer::h_runnbadchannelsC_depth1_HE
TH1F * h_runnbadchannelsC_depth1_HE
Definition: CMTRawAnalyzer.cc:1047

CMTRawAnalyzer::h_recNoiseEnergy0_HF3
TH2F * h_recNoiseEnergy0_HF3
Definition: CMTRawAnalyzer.cc:2168

CMTRawAnalyzer::amplitudechannel
double amplitudechannel[nsub][ndepth][neta][nphi]
Definition: CMTRawAnalyzer.cc:2289

CMTRawAnalyzer::averSIGNALoccupancy_HO
double averSIGNALoccupancy_HO
Definition: CMTRawAnalyzer.cc:2331

HcalGeometry.h

CMTRawAnalyzer::h_Amplitude_forCapIdErrors_HB1
TH1F * h_Amplitude_forCapIdErrors_HB1
Definition: CMTRawAnalyzer.cc:1097

CMTRawAnalyzer::h_shape_Alow_HB1
TH1F * h_shape_Alow_HB1
Definition: CMTRawAnalyzer.cc:1835

CMTRawAnalyzer::h_2DsumPedestalLS7
TH2F * h_2DsumPedestalLS7
Definition: CMTRawAnalyzer.cc:1350

CMTRawAnalyzer::h_sumAmplperLS2
TH1F * h_sumAmplperLS2
Definition: CMTRawAnalyzer.cc:1648

Event.h

CMTRawAnalyzer::h_runbadrateC_depth2_HB
TH1F * h_runbadrateC_depth2_HB
Definition: CMTRawAnalyzer.cc:1043

CMTRawAnalyzer::h_mapDepth3Error_HE
TH2F * h_mapDepth3Error_HE
Definition: CMTRawAnalyzer.cc:786

CMTRawAnalyzer::h_mapCapCalib047_HO
TH2F * h_mapCapCalib047_HO
Definition: CMTRawAnalyzer.cc:1242

CMTRawAnalyzer::lsdep_estimator4_HFdepth2_
double lsdep_estimator4_HFdepth2_
Definition: CMTRawAnalyzer.cc:568

CMTRawAnalyzer::h_pedwvsampl0_HB
TH1F * h_pedwvsampl0_HB
Definition: CMTRawAnalyzer.cc:1805

CMTRawAnalyzer::h_sumTSmeanALS5
TH1F * h_sumTSmeanALS5
Definition: CMTRawAnalyzer.cc:1517

CMTRawAnalyzer::h_mapCapCalib047_HB
TH2F * h_mapCapCalib047_HB
Definition: CMTRawAnalyzer.cc:1240

CMTRawAnalyzer::h_mapDepth2Ampl_HE
TH2F * h_mapDepth2Ampl_HE
Definition: CMTRawAnalyzer.cc:1212

CMTRawAnalyzer::h_pedestalwaver4_HO
TH1F * h_pedestalwaver4_HO
Definition: CMTRawAnalyzer.cc:1742

CMTRawAnalyzer::h_mapDepth3Amplitude225_HB
TH2F * h_mapDepth3Amplitude225_HB
Definition: CMTRawAnalyzer.cc:894

CMTRawAnalyzer::h_shape0_Alow_HB3
TH1F * h_shape0_Alow_HB3
Definition: CMTRawAnalyzer.cc:1844

CMTRawAnalyzer::h_mapDepth4Amplitude225_HB
TH2F * h_mapDepth4Amplitude225_HB
Definition: CMTRawAnalyzer.cc:895

CMTRawAnalyzer::h_recSignalEnergy1_HF2
TH2F * h_recSignalEnergy1_HF2
Definition: CMTRawAnalyzer.cc:2153

CMTRawAnalyzer::h_amplitudechannel0_HE2
TH2F * h_amplitudechannel0_HE2
Definition: CMTRawAnalyzer.cc:2190

CMTRawAnalyzer::h_mapDepth2Pedw3_HE
TH2F * h_mapDepth2Pedw3_HE
Definition: CMTRawAnalyzer.cc:1916

CMTRawAnalyzer::lsdep_cut3_max_HEdepth1_
int lsdep_cut3_max_HEdepth1_
Definition: CMTRawAnalyzer.cc:521

CMTRawAnalyzer::h_mapDepth4Ped1_HO
TH2F * h_mapDepth4Ped1_HO
Definition: CMTRawAnalyzer.cc:1942

CMTRawAnalyzer::h_runnbadchannelsC_depth1_HF
TH1F * h_runnbadchannelsC_depth1_HF
Definition: CMTRawAnalyzer.cc:1071

CMTRawAnalyzer::calibrWidthHEMin_
double calibrWidthHEMin_
Definition: CMTRawAnalyzer.cc:650

CMTRawAnalyzer::h_mapDepth4Ampl047_HF
TH2F * h_mapDepth4Ampl047_HF
Definition: CMTRawAnalyzer.cc:1003

HcalPedestalWidth
Definition: HcalPedestalWidth.h:15

CMTRawAnalyzer::h_sumamplitude_depth4_HO0
TH1F * h_sumamplitude_depth4_HO0
Definition: CMTRawAnalyzer.cc:1876

CMTRawAnalyzer::h_shape0_bad_channels_HB
TH1F * h_shape0_bad_channels_HB
Definition: CMTRawAnalyzer.cc:1846

CMTRawAnalyzer::h2_TSnVsAyear2023_HE
TH2F * h2_TSnVsAyear2023_HE
Definition: CMTRawAnalyzer.cc:2256

CMTRawAnalyzer::h_AmplitudeHBtest
TH1F * h_AmplitudeHBtest
Definition: CMTRawAnalyzer.cc:732

CMTRawAnalyzer::h_RatioOccupancy_HEP
TH1F * h_RatioOccupancy_HEP
Definition: CMTRawAnalyzer.cc:1678

L1GtTriggerMaskTechTrigRcd.h

CMTRawAnalyzer::studyADCAmplHist_
bool studyADCAmplHist_
Definition: CMTRawAnalyzer.cc:475

CMTRawAnalyzer::h_mapWidthCalib_HO
TH2F * h_mapWidthCalib_HO
Definition: CMTRawAnalyzer.cc:1293

CMTRawAnalyzer::h_Eta16Depth3RADDAM_HED2ALL
TH1F * h_Eta16Depth3RADDAM_HED2ALL
Definition: CMTRawAnalyzer.cc:2245

CMTRawAnalyzer::h_amplitudechannel1_HE5
TH2F * h_amplitudechannel1_HE5
Definition: CMTRawAnalyzer.cc:2200

CMTRawAnalyzer::h_mapDepth1TSmaxA_HF
TH2F * h_mapDepth1TSmaxA_HF
Definition: CMTRawAnalyzer.cc:976

CMTRawAnalyzer::nnnnnn6
int nnnnnn6
Definition: CMTRawAnalyzer.cc:671

CMTRawAnalyzer::h_recNoiseEnergy0_HE6
TH2F * h_recNoiseEnergy0_HE6
Definition: CMTRawAnalyzer.cc:2142

CMTRawAnalyzer::h_sigLayer1RADDAM6_HE
TH1F * h_sigLayer1RADDAM6_HE
Definition: CMTRawAnalyzer.cc:2249

CMTRawAnalyzer::h_shape0_good_channels_HB
TH1F * h_shape0_good_channels_HB
Definition: CMTRawAnalyzer.cc:1848

CMTRawAnalyzer::calibrTSmeanHOMax_
double calibrTSmeanHOMax_
Definition: CMTRawAnalyzer.cc:647

CMTRawAnalyzer::h_2D0sumPedestalLS4
TH2F * h_2D0sumPedestalLS4
Definition: CMTRawAnalyzer.cc:1337

CMTRawAnalyzer::bcn
int bcn
Definition: CMTRawAnalyzer.cc:2317

CMTRawAnalyzer::h_2DsumPedestalLS1
TH2F * h_2DsumPedestalLS1
Definition: CMTRawAnalyzer.cc:1320

CMTRawAnalyzer::h_sigLayer1RADDAM0_HE
TH1F * h_sigLayer1RADDAM0_HE
Definition: CMTRawAnalyzer.cc:2226

CMTRawAnalyzer::h_sum0ErrorBperLS5
TH1F * h_sum0ErrorBperLS5
Definition: CMTRawAnalyzer.cc:1981

CMTRawAnalyzer::h_2DsumADCAmplLS8
TH2F * h_2DsumADCAmplLS8
Definition: CMTRawAnalyzer.cc:1486

CMTRawAnalyzer::h_mapDepth7ADCAmpl_HE
TH2F * h_mapDepth7ADCAmpl_HE
Definition: CMTRawAnalyzer.cc:1129

CMTRawAnalyzer::calibrADCHEMin_
double calibrADCHEMin_
Definition: CMTRawAnalyzer.cc:618

HcalElectronicsMap::lookup
const DetId lookup(HcalElectronicsId fId) const
lookup the logical detid associated with the given electronics id
Definition: HcalElectronicsMap.cc:70

CMTRawAnalyzer::h_2DsumADCAmplEtaPhiLs0
TH2F * h_2DsumADCAmplEtaPhiLs0
Definition: CMTRawAnalyzer.cc:697

CMTRawAnalyzer::lsdep_estimator2_HEdepth1_
double lsdep_estimator2_HEdepth1_
Definition: CMTRawAnalyzer.cc:546

CMTRawAnalyzer::h_mapDepth4ADCAmpl_HE
TH2F * h_mapDepth4ADCAmpl_HE
Definition: CMTRawAnalyzer.cc:1126

CMTRawAnalyzer::h_sumamplitude_depth2_HB
TH1F * h_sumamplitude_depth2_HB
Definition: CMTRawAnalyzer.cc:1862

CMTRawAnalyzer::h_NphiForEta16Depth3RADDAM_HED2ALL
TH1F * h_NphiForEta16Depth3RADDAM_HED2ALL
Definition: CMTRawAnalyzer.cc:2246

CMTRawAnalyzer::h_fiber0_HO
TH1F * h_fiber0_HO
Definition: CMTRawAnalyzer.cc:824

edm::Handle
Definition: AssociativeIterator.h:50

HcalTopology
Definition: HcalTopology.h:26

CMTRawAnalyzer::h_2DsumAmplitudeLS4
TH2F * h_2DsumAmplitudeLS4
Definition: CMTRawAnalyzer.cc:1610

CMTRawAnalyzer::h_recNoiseEnergy1_HE3
TH2F * h_recNoiseEnergy1_HE3
Definition: CMTRawAnalyzer.cc:2134

CMTRawAnalyzer::h_mapDepth4ADCAmpl12_HE
TH2F * h_mapDepth4ADCAmpl12_HE
Definition: CMTRawAnalyzer.cc:920

CMTRawAnalyzer::h_RatioCalib_HO
TH1F * h_RatioCalib_HO
Definition: CMTRawAnalyzer.cc:1282

CMTRawAnalyzer::h_sumAmplLS5
TH1F * h_sumAmplLS5
Definition: CMTRawAnalyzer.cc:1664

CMTRawAnalyzer::h_FullSignal3D_HF
TH2F * h_FullSignal3D_HF
Definition: CMTRawAnalyzer.cc:1238

CMTRawAnalyzer::phi12
double phi12(double phi1, double en1, double phi2, double en2)
Definition: CMTRawAnalyzer.cc:13513

HcalCalibrations.h

CMTRawAnalyzer::h_energyhitNoise_HE
TH1F * h_energyhitNoise_HE
Definition: CMTRawAnalyzer.cc:2078

CMTRawAnalyzer::nnnnnnhbhe
int nnnnnnhbhe
Definition: CMTRawAnalyzer.cc:661

CMTRawAnalyzer::lsmax_
int lsmax_
Definition: CMTRawAnalyzer.cc:607

CMTRawAnalyzer::h2_pedvsampl_HO
TH2F * h2_pedvsampl_HO
Definition: CMTRawAnalyzer.cc:1823

CMTRawAnalyzer::h_mapDepth7_HE
TH2F * h_mapDepth7_HE
Definition: CMTRawAnalyzer.cc:1231

CMTRawAnalyzer::lsdep_estimator1_HBdepth1_
double lsdep_estimator1_HBdepth1_
Definition: CMTRawAnalyzer.cc:527

CMTRawAnalyzer::studyRatioShapeHist_
bool studyRatioShapeHist_
Definition: CMTRawAnalyzer.cc:470

CMTRawAnalyzer::tok_hbhe_
edm::EDGetTokenT< HBHEDigiCollection > tok_hbhe_
Definition: CMTRawAnalyzer.cc:443

CMTRawAnalyzer::h_2DsumTSmeanALS8
TH2F * h_2DsumTSmeanALS8
Definition: CMTRawAnalyzer.cc:1536

CMTRawAnalyzer::h_ADCCalib1_HB
TH1F * h_ADCCalib1_HB
Definition: CMTRawAnalyzer.cc:1245

CMTRawAnalyzer::h_mapDepth4Error_HB
TH2F * h_mapDepth4Error_HB
Definition: CMTRawAnalyzer.cc:769

edm::SortedCollection::const_iterator
std::vector< T >::const_iterator const_iterator
Definition: SortedCollection.h:80

CMTRawAnalyzer::h_2DsumPedestalLS3
TH2F * h_2DsumPedestalLS3
Definition: CMTRawAnalyzer.cc:1330

CMTRawAnalyzer::h_FullSignal3D0_HO
TH2F * h_FullSignal3D0_HO
Definition: CMTRawAnalyzer.cc:1237

CMTRawAnalyzer::h_sumTSmeanAperLS3
TH1F * h_sumTSmeanAperLS3
Definition: CMTRawAnalyzer.cc:1507

CMTRawAnalyzer::h_TSmaxCalib_HE
TH1F * h_TSmaxCalib_HE
Definition: CMTRawAnalyzer.cc:1268

CMTRawAnalyzer::h_2D0Ataildepth1_HB
TH2F * h_2D0Ataildepth1_HB
Definition: CMTRawAnalyzer.cc:2034

CMTRawAnalyzer::h_2D0sumErrorBLS1
TH2F * h_2D0sumErrorBLS1
Definition: CMTRawAnalyzer.cc:1957

CMTRawAnalyzer::h_mapDepth4Ampl_HF
TH2F * h_mapDepth4Ampl_HF
Definition: CMTRawAnalyzer.cc:1005

CMTRawAnalyzer::lsdep_cut3_max_HEdepth3_
int lsdep_cut3_max_HEdepth3_
Definition: CMTRawAnalyzer.cc:523

CMTRawAnalyzer::h_sum0ADCAmplperLSdepth5HEu
TH1F * h_sum0ADCAmplperLSdepth5HEu
Definition: CMTRawAnalyzer.cc:1431

CMTRawAnalyzer::h_mapDepth3ADCAmpl_HF
TH2F * h_mapDepth3ADCAmpl_HF
Definition: CMTRawAnalyzer.cc:962

CMTRawAnalyzer::maxxOCCUP4
double maxxOCCUP4
Definition: CMTRawAnalyzer.cc:2351

CMTRawAnalyzer::h_gsmdifferencefit3_HE
TH1F * h_gsmdifferencefit3_HE
Definition: CMTRawAnalyzer.cc:1144

CMTRawAnalyzer::shape
const HcalQIEShape * shape
Definition: CMTRawAnalyzer.cc:457

CMTRawAnalyzer::h_sumamplitude_depth2_HE
TH1F * h_sumamplitude_depth2_HE
Definition: CMTRawAnalyzer.cc:1864

CMTRawAnalyzer::lsdep_estimator1_HFdepth4_
double lsdep_estimator1_HFdepth4_
Definition: CMTRawAnalyzer.cc:540

CMTRawAnalyzer::h_mapDepth2linADCAmpl12_HE
TH2F * h_mapDepth2linADCAmpl12_HE
Definition: CMTRawAnalyzer.cc:933

CMTRawAnalyzer::myTree
TTree * myTree
Definition: CMTRawAnalyzer.cc:2352

CMTRawAnalyzer::h_mapGetRMSOverNormalizedSignal0_HO
TH2F * h_mapGetRMSOverNormalizedSignal0_HO
Definition: CMTRawAnalyzer.cc:1956

CMTRawAnalyzer::h_mapDepth2TS2_HB
TH2F * h_mapDepth2TS2_HB
Definition: CMTRawAnalyzer.cc:937

CMTRawAnalyzer::h_recNoiseEnergy1_HF4
TH2F * h_recNoiseEnergy1_HF4
Definition: CMTRawAnalyzer.cc:2172

CMTRawAnalyzer::h_mapDepth1Ampl047_HB
TH2F * h_mapDepth1Ampl047_HB
Definition: CMTRawAnalyzer.cc:897

CMTRawAnalyzer::h_mapDepth2Amplitude225_HB
TH2F * h_mapDepth2Amplitude225_HB
Definition: CMTRawAnalyzer.cc:891

CMTRawAnalyzer::h_mapTSmeanCalib047_HB
TH2F * h_mapTSmeanCalib047_HB
Definition: CMTRawAnalyzer.cc:1255

CMTRawAnalyzer::h_recNoiseEnergy0_HB4
TH2F * h_recNoiseEnergy0_HB4
Definition: CMTRawAnalyzer.cc:2102

QIE10DataFrame
Definition: QIE10DataFrame.h:11

CMTRawAnalyzer::h_mapDepth4Amplitude_HO
TH2F * h_mapDepth4Amplitude_HO
Definition: CMTRawAnalyzer.cc:1025

CMTRawAnalyzer::h_recNoiseEnergy0_HE2
TH2F * h_recNoiseEnergy0_HE2
Definition: CMTRawAnalyzer.cc:2130

CMTRawAnalyzer::tok_hfSignal_
edm::EDGetTokenT< HFRecHitCollection > tok_hfSignal_
Definition: CMTRawAnalyzer.cc:450

CMTRawAnalyzer::h_mapDepth1AmplE34_HF
TH2F * h_mapDepth1AmplE34_HF
Definition: CMTRawAnalyzer.cc:998

CMTRawAnalyzer::h_mapDepth4pedestal_HB
TH2F * h_mapDepth4pedestal_HB
Definition: CMTRawAnalyzer.cc:1763

CMTRawAnalyzer::recSignalEnergy2
double recSignalEnergy2[nsub][ndepth][neta][nphi]
Definition: CMTRawAnalyzer.cc:2300

CMTRawAnalyzer::h_recSignalEnergy1_HB2
TH2F * h_recSignalEnergy1_HB2
Definition: CMTRawAnalyzer.cc:2085

CMTRawAnalyzer::useADCfC_
bool useADCfC_
Definition: CMTRawAnalyzer.cc:480

CMTRawAnalyzer::rmsHOMin_
double rmsHOMin_
Definition: CMTRawAnalyzer.cc:587

CMTRawAnalyzer::h_pedestal0_HB
TH1F * h_pedestal0_HB
Definition: CMTRawAnalyzer.cc:1696

CMTRawAnalyzer::h_mapDepth3_HB
TH2F * h_mapDepth3_HB
Definition: CMTRawAnalyzer.cc:911

CMTRawAnalyzer::h_amplitudechannel2_HE7
TH2F * h_amplitudechannel2_HE7
Definition: CMTRawAnalyzer.cc:2207

CMTRawAnalyzer::h_mapDepth3Ampl047_HE
TH2F * h_mapDepth3Ampl047_HE
Definition: CMTRawAnalyzer.cc:1206

CMTRawAnalyzer::h_mapDepth1ADCAmpl225_HE
TH2F * h_mapDepth1ADCAmpl225_HE
Definition: CMTRawAnalyzer.cc:1151

CMTRawAnalyzer::ls0
int ls0
Definition: CMTRawAnalyzer.cc:2319

CMTRawAnalyzer::nnnnnn4
int nnnnnn4
Definition: CMTRawAnalyzer.cc:669

CMTRawAnalyzer::nevent50
int nevent50
Definition: CMTRawAnalyzer.cc:659

CMTRawAnalyzer::h_mapDepth7ADCAmpl225_HE
TH2F * h_mapDepth7ADCAmpl225_HE
Definition: CMTRawAnalyzer.cc:1157

CMTRawAnalyzer::h_2D0sumErrorBLS6
TH2F * h_2D0sumErrorBLS6
Definition: CMTRawAnalyzer.cc:1982

CMTRawAnalyzer::ratioHEMin_
double ratioHEMin_
Definition: CMTRawAnalyzer.cc:486

CMTRawAnalyzer::h_pedestal3_HO
TH1F * h_pedestal3_HO
Definition: CMTRawAnalyzer.cc:1735

CMTRawAnalyzer::h_amplFine_HB
TH1F * h_amplFine_HB
Definition: CMTRawAnalyzer.cc:765

CMTRawAnalyzer::averSIGNALoccupancy_HB
double averSIGNALoccupancy_HB
Definition: CMTRawAnalyzer.cc:2328

CMTRawAnalyzer::h_sumAmplitudeLS6
TH1F * h_sumAmplitudeLS6
Definition: CMTRawAnalyzer.cc:1621

CMTRawAnalyzer::h_2DsumADCAmplLS2
TH2F * h_2DsumADCAmplLS2
Definition: CMTRawAnalyzer.cc:1388

CMTRawAnalyzer::h_mapDepth1Ped0_HB
TH2F * h_mapDepth1Ped0_HB
Definition: CMTRawAnalyzer.cc:1885

CMTRawAnalyzer::h_2D0sumAmplitudeLS2
TH2F * h_2D0sumAmplitudeLS2
Definition: CMTRawAnalyzer.cc:1601

CMTRawAnalyzer::h_mapDepth1Ped2_HB
TH2F * h_mapDepth1Ped2_HB
Definition: CMTRawAnalyzer.cc:1887

CMTRawAnalyzer::pedestalwHBMax_
double pedestalwHBMax_
Definition: CMTRawAnalyzer.cc:672

CMTRawAnalyzer::h_nbadchannels_depth3_HE
TH1F * h_nbadchannels_depth3_HE
Definition: CMTRawAnalyzer.cc:1057

HcalRespCorr
Definition: HcalRespCorr.h:12

CMTRawAnalyzer::h_sum0ADCAmplperLS6_P2
TH1F * h_sum0ADCAmplperLS6_P2
Definition: CMTRawAnalyzer.cc:1462

FEDRawDataCollection.h

CMTRawAnalyzer::h_Amplitude_forCapIdErrors_HE3
TH1F * h_Amplitude_forCapIdErrors_HE3
Definition: CMTRawAnalyzer.cc:1101

CMTRawAnalyzer::h_mapDepth4TSmeanA225_HB
TH2F * h_mapDepth4TSmeanA225_HB
Definition: CMTRawAnalyzer.cc:877

CMTRawAnalyzer::h_sumamplitude_depth2_HB0
TH1F * h_sumamplitude_depth2_HB0
Definition: CMTRawAnalyzer.cc:1870

CMTRawAnalyzer::h_sumAmplperLS1_LSselected
TH1F * h_sumAmplperLS1_LSselected
Definition: CMTRawAnalyzer.cc:1642

CMTRawAnalyzer::h_corrforxaMAIN0_HE
TH1F * h_corrforxaMAIN0_HE
Definition: CMTRawAnalyzer.cc:1115

CMTRawAnalyzer::h_mapDepth6_HE
TH2F * h_mapDepth6_HE
Definition: CMTRawAnalyzer.cc:1230

HcalLogicalMapGenerator.h

CMTRawAnalyzer::h_mapDepth2ADCAmpl_HF
TH2F * h_mapDepth2ADCAmpl_HF
Definition: CMTRawAnalyzer.cc:959

HcalDbService
Definition: HcalDbService.h:23

CMTRawAnalyzer::h_pedestalw3_HE
TH1F * h_pedestalw3_HE
Definition: CMTRawAnalyzer.cc:1717

CMTRawAnalyzer::h_sumamplitude_depth1_HF1
TH1F * h_sumamplitude_depth1_HF1
Definition: CMTRawAnalyzer.cc:1882

CMTRawAnalyzer::lsdep_cut1_peak_HEdepth3_
int lsdep_cut1_peak_HEdepth3_
Definition: CMTRawAnalyzer.cc:514

FEDHeader.h

CMTRawAnalyzer::h_mapGetRMSOverNormalizedSignal_HE
TH2F * h_mapGetRMSOverNormalizedSignal_HE
Definition: CMTRawAnalyzer.cc:1951

CMTRawAnalyzer::lsdep_estimator1_HEdepth4_
double lsdep_estimator1_HEdepth4_
Definition: CMTRawAnalyzer.cc:535

CMTRawAnalyzer::h_shape_Ahigh_HB3
TH1F * h_shape_Ahigh_HB3
Definition: CMTRawAnalyzer.cc:1841

CMTRawAnalyzer::bcnrejectedlow_
int bcnrejectedlow_
Definition: CMTRawAnalyzer.cc:503

HcalElectronicsId::htrTopBottom
constexpr int32_t htrTopBottom() const
get the htr top/bottom (1=top/0=bottom), valid for VME
Definition: HcalElectronicsId.h:107

CMTRawAnalyzer::h_Amplitude_forCapIdErrors_HF1
TH1F * h_Amplitude_forCapIdErrors_HF1
Definition: CMTRawAnalyzer.cc:1102

CMTRawAnalyzer::h_2DsumAmplitudeLS3
TH2F * h_2DsumAmplitudeLS3
Definition: CMTRawAnalyzer.cc:1604

CMTRawAnalyzer::h_ADCCalib_HE
TH1F * h_ADCCalib_HE
Definition: CMTRawAnalyzer.cc:1261

CMTRawAnalyzer::h_sum0PedestalperLS1
TH1F * h_sum0PedestalperLS1
Definition: CMTRawAnalyzer.cc:1323

CMTRawAnalyzer::h_pedestalaver4_HO
TH1F * h_pedestalaver4_HO
Definition: CMTRawAnalyzer.cc:1736

CMTRawAnalyzer::h_pedestalw3_HO
TH1F * h_pedestalw3_HO
Definition: CMTRawAnalyzer.cc:1741

QIE11DataFrame
Definition: QIE11DataFrame.h:11

CMTRawAnalyzer::h_mapDepth2TSmaxA_HB
TH2F * h_mapDepth2TSmaxA_HB
Definition: CMTRawAnalyzer.cc:880

CMTRawAnalyzer::h_FullSignal3D0_HB
TH2F * h_FullSignal3D0_HB
Definition: CMTRawAnalyzer.cc:1233

CMTRawAnalyzer::h_sum0ADCAmplperLSdepth3HBu
TH1F * h_sum0ADCAmplperLSdepth3HBu
Definition: CMTRawAnalyzer.cc:1438

CMTRawAnalyzer::h_mapDepth3Amplitude_HE
TH2F * h_mapDepth3Amplitude_HE
Definition: CMTRawAnalyzer.cc:1191

L1GtTriggerMaskAlgoTrigRcd.h

CMTRawAnalyzer::h_ADCAmpl345Zoom_HE
TH1F * h_ADCAmpl345Zoom_HE
Definition: CMTRawAnalyzer.cc:845

CMTRawAnalyzer::h_mapDepth5TSmeanA225_HE
TH2F * h_mapDepth5TSmeanA225_HE
Definition: CMTRawAnalyzer.cc:1170

CMTRawAnalyzer::h_recNoiseEnergy0_HE7
TH2F * h_recNoiseEnergy0_HE7
Definition: CMTRawAnalyzer.cc:2145

CMTRawAnalyzer::h_sumErrorBperLS6
TH1F * h_sumErrorBperLS6
Definition: CMTRawAnalyzer.cc:1985

CMTRawAnalyzer::h_recNoiseEnergy2_HB1
TH2F * h_recNoiseEnergy2_HB1
Definition: CMTRawAnalyzer.cc:2095

CMTRawAnalyzer::h_sumPedestalLS8
TH1F * h_sumPedestalLS8
Definition: CMTRawAnalyzer.cc:1354

CMTRawAnalyzer::h_recNoiseEnergy0_HB2
TH2F * h_recNoiseEnergy0_HB2
Definition: CMTRawAnalyzer.cc:2096

CMTRawAnalyzer::h_mapTSmaxCalib047_HB
TH2F * h_mapTSmaxCalib047_HB
Definition: CMTRawAnalyzer.cc:1252

CMTRawAnalyzer::h_Amplitude_notCapIdErrors_HF2
TH1F * h_Amplitude_notCapIdErrors_HF2
Definition: CMTRawAnalyzer.cc:1111

CMTRawAnalyzer::h_sumADCAmplperLS8_P1
TH1F * h_sumADCAmplperLS8_P1
Definition: CMTRawAnalyzer.cc:1467

CMTRawAnalyzer::h_mapDepth1AmplE34_HB
TH2F * h_mapDepth1AmplE34_HB
Definition: CMTRawAnalyzer.cc:901

CMTRawAnalyzer::h_recSignalEnergy2_HE7
TH2F * h_recSignalEnergy2_HE7
Definition: CMTRawAnalyzer.cc:2126

CMTRawAnalyzer::h_sum0TSmeanAperLS7
TH1F * h_sum0TSmeanAperLS7
Definition: CMTRawAnalyzer.cc:1534

CMTRawAnalyzer::h_mapTSmaxCalib_HO
TH2F * h_mapTSmaxCalib_HO
Definition: CMTRawAnalyzer.cc:1287

CMTRawAnalyzer::lsdep_estimator2_HEdepth2_
double lsdep_estimator2_HEdepth2_
Definition: CMTRawAnalyzer.cc:547

CMTRawAnalyzer::h_mapDepth4Error_HO
TH2F * h_mapDepth4Error_HO
Definition: CMTRawAnalyzer.cc:823

CMTRawAnalyzer::sumEstimator3
double sumEstimator3[nsub][ndepth][neta][nphi]
Definition: CMTRawAnalyzer.cc:2281

HcalDbService::getHcalMapping
const HcalElectronicsMap * getHcalMapping() const
Definition: HcalDbService.cc:343

CMTRawAnalyzer::h_recSignalEnergy0_HE2
TH2F * h_recSignalEnergy0_HE2
Definition: CMTRawAnalyzer.cc:2109

CMTRawAnalyzer::h_fiber1_HF
TH1F * h_fiber1_HF
Definition: CMTRawAnalyzer.cc:810

CMTRawAnalyzer::h_2D0sumTSmaxALS6
TH2F * h_2D0sumTSmaxALS6
Definition: CMTRawAnalyzer.cc:1576

CMTRawAnalyzer::h_mapDepth2ADCAmpl_HB
TH2F * h_mapDepth2ADCAmpl_HB
Definition: CMTRawAnalyzer.cc:862

CMTRawAnalyzer::h_ADCCalib1_HO
TH1F * h_ADCCalib1_HO
Definition: CMTRawAnalyzer.cc:1279

CMTRawAnalyzer::h_mapDepth1TSmaxA225_HF
TH2F * h_mapDepth1TSmaxA225_HF
Definition: CMTRawAnalyzer.cc:978

CMTRawAnalyzer::h_recNoiseEnergy1_HB3
TH2F * h_recNoiseEnergy1_HB3
Definition: CMTRawAnalyzer.cc:2100

CMTRawAnalyzer::TSpeakHEMin_
double TSpeakHEMin_
Definition: CMTRawAnalyzer.cc:592

CMTRawAnalyzer::lsdep_estimator4_HBdepth2_
double lsdep_estimator4_HBdepth2_
Definition: CMTRawAnalyzer.cc:563

CMTRawAnalyzer::h_mapDepth7TSmeanA225_HE
TH2F * h_mapDepth7TSmeanA225_HE
Definition: CMTRawAnalyzer.cc:1172

CMTRawAnalyzer::h_mapRatioCalib_HB
TH2F * h_mapRatioCalib_HB
Definition: CMTRawAnalyzer.cc:1250

CMTRawAnalyzer::lsdep_estimator1_HEdepth3_
double lsdep_estimator1_HEdepth3_
Definition: CMTRawAnalyzer.cc:531

CMTRawAnalyzer::h_AmplitudeHEtest
TH1F * h_AmplitudeHEtest
Definition: CMTRawAnalyzer.cc:735

CMTRawAnalyzer::h_2D0sumTSmaxALS8
TH2F * h_2D0sumTSmaxALS8
Definition: CMTRawAnalyzer.cc:1588

CMTRawAnalyzer::h_gain_HF
TH1F * h_gain_HF
Definition: CMTRawAnalyzer.cc:1791

CMTRawAnalyzer::h_sumTSmeanALS1
TH1F * h_sumTSmeanALS1
Definition: CMTRawAnalyzer.cc:1492

CMTRawAnalyzer::h_mapDepth1ADCAmpl225_HF
TH2F * h_mapDepth1ADCAmpl225_HF
Definition: CMTRawAnalyzer.cc:960

CMTRawAnalyzer::h_Amplitude_forCapIdErrors_HE1
TH1F * h_Amplitude_forCapIdErrors_HE1
Definition: CMTRawAnalyzer.cc:1099

CMTRawAnalyzer::h_Amplitude_HB
TH1F * h_Amplitude_HB
Definition: CMTRawAnalyzer.cc:887

CMTRawAnalyzer::lsdep_cut1_peak_HFdepth1_
int lsdep_cut1_peak_HFdepth1_
Definition: CMTRawAnalyzer.cc:515

HcalLogicalMapGenerator
Definition: HcalLogicalMapGenerator.h:7

CMTRawAnalyzer::h_mapDepth4Amplitude225_HF
TH2F * h_mapDepth4Amplitude225_HF
Definition: CMTRawAnalyzer.cc:992

CMTRawAnalyzer::h_mapDepth2pedestal_HB
TH2F * h_mapDepth2pedestal_HB
Definition: CMTRawAnalyzer.cc:1761

CMTRawAnalyzer::lsdep_estimator3_HEdepth2_
double lsdep_estimator3_HEdepth2_
Definition: CMTRawAnalyzer.cc:556

CMTRawAnalyzer::h_mapGetRMSOverNormalizedSignal_HO
TH2F * h_mapGetRMSOverNormalizedSignal_HO
Definition: CMTRawAnalyzer.cc:1955

CMTRawAnalyzer::h_mapDepth1Pedw3_HE
TH2F * h_mapDepth1Pedw3_HE
Definition: CMTRawAnalyzer.cc:1908

CMTRawAnalyzer::studyTSmeanShapeHist_
bool studyTSmeanShapeHist_
Definition: CMTRawAnalyzer.cc:472

CMTRawAnalyzer::fillDigiAmplitudeQIE11
void fillDigiAmplitudeQIE11(QIE11DataFrame qie11df)
Definition: CMTRawAnalyzer.cc:9556

CMTRawAnalyzer::h_2D0sumADCAmplLSdepth4HFu
TH2F * h_2D0sumADCAmplLSdepth4HFu
Definition: CMTRawAnalyzer.cc:1370

CMTRawAnalyzer::calibrTSmeanHFMin_
double calibrTSmeanHFMin_
Definition: CMTRawAnalyzer.cc:644

CMTRawAnalyzer::h_ADCAmpl_HF
TH1F * h_ADCAmpl_HF
Definition: CMTRawAnalyzer.cc:954

CMTRawAnalyzer::h_sumamplitude_depth1_HB
TH1F * h_sumamplitude_depth1_HB
Definition: CMTRawAnalyzer.cc:1861

CMTRawAnalyzer::h_corrforxaADDI_HE
TH1F * h_corrforxaADDI_HE
Definition: CMTRawAnalyzer.cc:1116

CMTRawAnalyzer::h_sumPedestalperLS1
TH1F * h_sumPedestalperLS1
Definition: CMTRawAnalyzer.cc:1321

CMTRawAnalyzer::pedestalHOMax_
double pedestalHOMax_
Definition: CMTRawAnalyzer.cc:679

photonIsolationHIProducer_cfi.ho
ho
Definition: photonIsolationHIProducer_cfi.py:10

CMTRawAnalyzer::h_sumAmplitudeperLS1
TH1F * h_sumAmplitudeperLS1
Definition: CMTRawAnalyzer.cc:1592

CMTRawAnalyzer::h_ADCAmplrest1_HO
TH1F * h_ADCAmplrest1_HO
Definition: CMTRawAnalyzer.cc:1012

CMTRawAnalyzer::fillDigiErrorsHF
void fillDigiErrorsHF(HFDigiCollection::const_iterator &digiItr)
Definition: CMTRawAnalyzer.cc:8267

CMTRawAnalyzer::h_mapDepth3ADCAmpl225_HB
TH2F * h_mapDepth3ADCAmpl225_HB
Definition: CMTRawAnalyzer.cc:867

CMTRawAnalyzer::h_nbadchannels_depth2_HB
TH1F * h_nbadchannels_depth2_HB
Definition: CMTRawAnalyzer.cc:1039

CMTRawAnalyzer::h_2DAtaildepth1_HB
TH2F * h_2DAtaildepth1_HB
Definition: CMTRawAnalyzer.cc:2033

CMTRawAnalyzer::lsdep_estimator5_HEdepth1_
double lsdep_estimator5_HEdepth1_
Definition: CMTRawAnalyzer.cc:573

CMTRawAnalyzer::tok_hbheSignal_
edm::EDGetTokenT< HBHERecHitCollection > tok_hbheSignal_
Definition: CMTRawAnalyzer.cc:448

CMTRawAnalyzer::h_sumADCAmplLS3
TH1F * h_sumADCAmplLS3
Definition: CMTRawAnalyzer.cc:1394

CMTRawAnalyzer::maxxOCCUP3
double maxxOCCUP3
Definition: CMTRawAnalyzer.cc:2350

CMTRawAnalyzer::h_shape_good_channels_HF
TH1F * h_shape_good_channels_HF
Definition: CMTRawAnalyzer.cc:1855

CMTRawAnalyzer::nevcounter0
int nevcounter0
Definition: CMTRawAnalyzer.cc:2326

CMTRawAnalyzer::ratioHBMin_
double ratioHBMin_
Definition: CMTRawAnalyzer.cc:484

CMTRawAnalyzer::blsmax
float blsmax
Definition: CMTRawAnalyzer.cc:2376

CustomPhysics_cfi.amplitude
amplitude
Definition: CustomPhysics_cfi.py:12

CMTRawAnalyzer::h_mapDepth2Pedw1_HE
TH2F * h_mapDepth2Pedw1_HE
Definition: CMTRawAnalyzer.cc:1914

CMTRawAnalyzer::h_sum0TSmaxAperLS4
TH1F * h_sum0TSmaxAperLS4
Definition: CMTRawAnalyzer.cc:1565

CMTRawAnalyzer::h_amplitudechannel2_HF3
TH2F * h_amplitudechannel2_HF3
Definition: CMTRawAnalyzer.cc:2216

HLT_2024v10_cff.eta1
eta1
Definition: HLT_2024v10_cff.py:14793

CMTRawAnalyzer::lsdep_estimator1_HFdepth2_
double lsdep_estimator1_HFdepth2_
Definition: CMTRawAnalyzer.cc:533

CMTRawAnalyzer::h_mapDepth4TSmaxA225_HF
TH2F * h_mapDepth4TSmaxA225_HF
Definition: CMTRawAnalyzer.cc:983

CMTRawAnalyzer::h_recNoiseEnergy1_HE1
TH2F * h_recNoiseEnergy1_HE1
Definition: CMTRawAnalyzer.cc:2128

CMTRawAnalyzer::lsdep_cut3_max_HOdepth4_
int lsdep_cut3_max_HOdepth4_
Definition: CMTRawAnalyzer.cc:526

CMTRawAnalyzer::h_sigLayer2RADDAM6_HE
TH1F * h_sigLayer2RADDAM6_HE
Definition: CMTRawAnalyzer.cc:2250

CMTRawAnalyzer::h_recSignalEnergy2_HE6
TH2F * h_recSignalEnergy2_HE6
Definition: CMTRawAnalyzer.cc:2123

CMTRawAnalyzer::h_mapDepth4TSmeanA_HB
TH2F * h_mapDepth4TSmeanA_HB
Definition: CMTRawAnalyzer.cc:875

CMTRawAnalyzer::h_amplvsped0_HB
TH1F * h_amplvsped0_HB
Definition: CMTRawAnalyzer.cc:1810

CMTRawAnalyzer::h_ADCAmpl_HO_copy
TH1F * h_ADCAmpl_HO_copy
Definition: CMTRawAnalyzer.cc:1015

CMTRawAnalyzer::h_mapDepth1RADDAM0_HE
TH2F * h_mapDepth1RADDAM0_HE
Definition: CMTRawAnalyzer.cc:2229

CMTRawAnalyzer::h_2DsumADCAmplLSdepth3HBu
TH2F * h_2DsumADCAmplLSdepth3HBu
Definition: CMTRawAnalyzer.cc:1371

CMTRawAnalyzer::h_2D0sumADCAmplLSdepth6HEu
TH2F * h_2D0sumADCAmplLSdepth6HEu
Definition: CMTRawAnalyzer.cc:1364

CMTRawAnalyzer::h_recSignalEnergy1_HE1
TH2F * h_recSignalEnergy1_HE1
Definition: CMTRawAnalyzer.cc:2107

CMTRawAnalyzer::h_sum0ADCAmplperLS8_P2
TH1F * h_sum0ADCAmplperLS8_P2
Definition: CMTRawAnalyzer.cc:1470

CMTRawAnalyzer::h_nbadchannels_depth1_HB
TH1F * h_nbadchannels_depth1_HB
Definition: CMTRawAnalyzer.cc:1033

CMTRawAnalyzer::h_pedwvsampl0_HE
TH1F * h_pedwvsampl0_HE
Definition: CMTRawAnalyzer.cc:1816

CMTRawAnalyzer::h_recNoiseEnergy1_HB2
TH2F * h_recNoiseEnergy1_HB2
Definition: CMTRawAnalyzer.cc:2097

CMTRawAnalyzer::h_amplFine
TH1F * h_amplFine
Definition: CMTRawAnalyzer.cc:755

CMTRawAnalyzer::h_mapDepth3Ampl_HB
TH2F * h_mapDepth3Ampl_HB
Definition: CMTRawAnalyzer.cc:907

CMTRawAnalyzer::h_sumTSmaxALS6
TH1F * h_sumTSmaxALS6
Definition: CMTRawAnalyzer.cc:1572

HcalDbService::getPedestalWidth
const HcalPedestalWidth * getPedestalWidth(const HcalGenericDetId &fId) const
Definition: HcalDbService.cc:284

CMTRawAnalyzer::h_sum0ADCAmplperLS3_P2
TH1F * h_sum0ADCAmplperLS3_P2
Definition: CMTRawAnalyzer.cc:1454

CMTRawAnalyzer::h_mapDepth4ADCAmpl_HB
TH2F * h_mapDepth4ADCAmpl_HB
Definition: CMTRawAnalyzer.cc:866

CMTRawAnalyzer::h_energyhitSignal_HB
TH1F * h_energyhitSignal_HB
Definition: CMTRawAnalyzer.cc:2074

CMTRawAnalyzer::h_runnbadchannelsC_depth2_HE
TH1F * h_runnbadchannelsC_depth2_HE
Definition: CMTRawAnalyzer.cc:1053

CMTRawAnalyzer::h_bcnvsamplitude_HB
TH1F * h_bcnvsamplitude_HB
Definition: CMTRawAnalyzer.cc:681

CMTRawAnalyzer::ratioHOMax_
double ratioHOMax_
Definition: CMTRawAnalyzer.cc:491

CMTRawAnalyzer::h_amplitudechannel0_HF2
TH2F * h_amplitudechannel0_HF2
Definition: CMTRawAnalyzer.cc:2211

CMTRawAnalyzer::h_mapDepth5ADCAmpl225_HE
TH2F * h_mapDepth5ADCAmpl225_HE
Definition: CMTRawAnalyzer.cc:1155

CMTRawAnalyzer::h_2D0sumTSmaxALS7
TH2F * h_2D0sumTSmaxALS7
Definition: CMTRawAnalyzer.cc:1582

CMTRawAnalyzer::h_sumPedestalLS6
TH1F * h_sumPedestalLS6
Definition: CMTRawAnalyzer.cc:1344

CMTRawAnalyzer::h_sumADCAmplperLS3_M2
TH1F * h_sumADCAmplperLS3_M2
Definition: CMTRawAnalyzer.cc:1457

CMTRawAnalyzer::h_sum0ADCAmplperLS1_P2
TH1F * h_sum0ADCAmplperLS1_P2
Definition: CMTRawAnalyzer.cc:1446

CMTRawAnalyzer::h_mapDepth1TSmeanA225_HE
TH2F * h_mapDepth1TSmeanA225_HE
Definition: CMTRawAnalyzer.cc:1166

CMTRawAnalyzer::h_sumPedestalLS5
TH1F * h_sumPedestalLS5
Definition: CMTRawAnalyzer.cc:1339

CMTRawAnalyzer::h_recSignalEnergy1_HE3
TH2F * h_recSignalEnergy1_HE3
Definition: CMTRawAnalyzer.cc:2113

CMTRawAnalyzer::flagfitshunt1pedorledlowintensity_
int flagfitshunt1pedorledlowintensity_
Definition: CMTRawAnalyzer.cc:493

CMTRawAnalyzer::h_mapDepth2Pedw3_HB
TH2F * h_mapDepth2Pedw3_HB
Definition: CMTRawAnalyzer.cc:1900

CMTRawAnalyzer::h_sumamplitude_depth3_HE
TH1F * h_sumamplitude_depth3_HE
Definition: CMTRawAnalyzer.cc:1865

CMTRawAnalyzer::h_error5_HE
TH1F * h_error5_HE
Definition: CMTRawAnalyzer.cc:779

CMTRawAnalyzer::h_sumCutTSmeanAperLS8
TH1F * h_sumCutTSmeanAperLS8
Definition: CMTRawAnalyzer.cc:1538

CMTRawAnalyzer::h_sumTSmaxAperLS4
TH1F * h_sumTSmaxAperLS4
Definition: CMTRawAnalyzer.cc:1562

CMTRawAnalyzer::h_mapDepth1TSmeanA_HB
TH2F * h_mapDepth1TSmeanA_HB
Definition: CMTRawAnalyzer.cc:870

CMTRawAnalyzer::h_mapDepth4pedestal_HE
TH2F * h_mapDepth4pedestal_HE
Definition: CMTRawAnalyzer.cc:1767

CMTRawAnalyzer::h_Amplitude_forCapIdErrors_HB2
TH1F * h_Amplitude_forCapIdErrors_HB2
Definition: CMTRawAnalyzer.cc:1098

CMTRawAnalyzer::h_2DsumAmplLS6
TH2F * h_2DsumAmplLS6
Definition: CMTRawAnalyzer.cc:1671

CMTRawAnalyzer::h_mapDepth1_HB
TH2F * h_mapDepth1_HB
Definition: CMTRawAnalyzer.cc:903

CMTRawAnalyzer::h_mapDepth4Ampl047_HB
TH2F * h_mapDepth4Ampl047_HB
Definition: CMTRawAnalyzer.cc:906

CMTRawAnalyzer::h_error4_HB
TH1F * h_error4_HB
Definition: CMTRawAnalyzer.cc:760

CMTRawAnalyzer::h_2DsumErrorBLS7
TH2F * h_2DsumErrorBLS7
Definition: CMTRawAnalyzer.cc:1988

CMTRawAnalyzer::h_sumADCAmplperLS2
TH1F * h_sumADCAmplperLS2
Definition: CMTRawAnalyzer.cc:1390

CMTRawAnalyzer::h_2DsumTSmeanALS6
TH2F * h_2DsumTSmeanALS6
Definition: CMTRawAnalyzer.cc:1524

CMTRawAnalyzer::h_2DsumTSmaxALS5
TH2F * h_2DsumTSmaxALS5
Definition: CMTRawAnalyzer.cc:1567

CMTRawAnalyzer::h_mapDepth1ADCAmpl12_HE
TH2F * h_mapDepth1ADCAmpl12_HE
Definition: CMTRawAnalyzer.cc:917

CMTRawAnalyzer::h_2DsumADCAmplEtaPhiLs1
TH2F * h_2DsumADCAmplEtaPhiLs1
Definition: CMTRawAnalyzer.cc:698

CMTRawAnalyzer::h_2DsumADCAmplLS4_LSselected
TH2F * h_2DsumADCAmplLS4_LSselected
Definition: CMTRawAnalyzer.cc:1403

CMTRawAnalyzer::h_nbadchannels_depth2_HE
TH1F * h_nbadchannels_depth2_HE
Definition: CMTRawAnalyzer.cc:1051

CMTRawAnalyzer::h_sumADCAmplLS1copy1
TH1F * h_sumADCAmplLS1copy1
Definition: CMTRawAnalyzer.cc:1375

edm::EDGetTokenT
Definition: EDGetToken.h:37

HcalQIECoder.h

CMTRawAnalyzer::h_mapDepth1Ampl_HE
TH2F * h_mapDepth1Ampl_HE
Definition: CMTRawAnalyzer.cc:1211

CMTRawAnalyzer::TSmeanHFMin_
double TSmeanHFMin_
Definition: CMTRawAnalyzer.cc:602

CMTRawAnalyzer::dPhiWsign
double dPhiWsign(double phi1, double phi2)
Definition: CMTRawAnalyzer.cc:13530

CMTRawAnalyzer::h_sum0AmplperLS4
TH1F * h_sum0AmplperLS4
Definition: CMTRawAnalyzer.cc:1663

CMTRawAnalyzer::h_sum0ADCAmplperLS3_M1
TH1F * h_sum0ADCAmplperLS3_M1
Definition: CMTRawAnalyzer.cc:1456

Frameworkfwd.h

CMTRawAnalyzer::h_map_HB
TH2F * h_map_HB
Definition: CMTRawAnalyzer.cc:1260

CMTRawAnalyzer::h_recNoiseEnergy0_HB3
TH2F * h_recNoiseEnergy0_HB3
Definition: CMTRawAnalyzer.cc:2099

CMTRawAnalyzer::h_pedwvsampl_HO
TH1F * h_pedwvsampl_HO
Definition: CMTRawAnalyzer.cc:1826

CMTRawAnalyzer::tocamplchannel
double tocamplchannel[nsub][ndepth][neta][nphi]
Definition: CMTRawAnalyzer.cc:2291

CMTRawAnalyzer::calib2
double calib2[ndepth][neta][nphi]
Definition: CMTRawAnalyzer.cc:2276

CMTRawAnalyzer::h_mapDepth4ADCAmpl225_HF
TH2F * h_mapDepth4ADCAmpl225_HF
Definition: CMTRawAnalyzer.cc:965

EcalCondDBWriter_cfi.pedestal
pedestal
Definition: EcalCondDBWriter_cfi.py:49

CMTRawAnalyzer::nlsminmax
int nlsminmax
Definition: CMTRawAnalyzer.cc:2377

CMTRawAnalyzer::h1_TSnVsAyear20230_HB
TH1F * h1_TSnVsAyear20230_HB
Definition: CMTRawAnalyzer.cc:2263

CMTRawAnalyzer::h_sum0ErrorBperLS3
TH1F * h_sum0ErrorBperLS3
Definition: CMTRawAnalyzer.cc:1971

CMTRawAnalyzer::h_sum0PedestalperLS8
TH1F * h_sum0PedestalperLS8
Definition: CMTRawAnalyzer.cc:1358

CMTRawAnalyzer::h_sumADCAmplperLS6u
TH1F * h_sumADCAmplperLS6u
Definition: CMTRawAnalyzer.cc:1440

CMTRawAnalyzer::calibrWidthHBMax_
double calibrWidthHBMax_
Definition: CMTRawAnalyzer.cc:653

CMTRawAnalyzer::h2_pedwvsampl_HO
TH2F * h2_pedwvsampl_HO
Definition: CMTRawAnalyzer.cc:1824

CMTRawAnalyzer::h_runbadrate_depth4_HO
TH1F * h_runbadrate_depth4_HO
Definition: CMTRawAnalyzer.cc:1066

CMTRawAnalyzer::lsdep_estimator2_HFdepth2_
double lsdep_estimator2_HFdepth2_
Definition: CMTRawAnalyzer.cc:550

CMTRawAnalyzer::h_mapDepth2Ped2_HB
TH2F * h_mapDepth2Ped2_HB
Definition: CMTRawAnalyzer.cc:1895

HcalTimeCorr
Definition: HcalTimeCorr.h:12

CMTRawAnalyzer::h_mapDepth1Ampl_HB
TH2F * h_mapDepth1Ampl_HB
Definition: CMTRawAnalyzer.cc:899

CMTRawAnalyzer::h_maprphinorm2_HE7
TH2F * h_maprphinorm2_HE7
Definition: CMTRawAnalyzer.cc:2064

CMTRawAnalyzer::averNOSIGNALsumamplitude_HO
double averNOSIGNALsumamplitude_HO
Definition: CMTRawAnalyzer.cc:2343

CMTRawAnalyzer::h_mapDepth4Ampl047_HO
TH2F * h_mapDepth4Ampl047_HO
Definition: CMTRawAnalyzer.cc:1028

CMTRawAnalyzer::pedestalwHFMax_
double pedestalwHFMax_
Definition: CMTRawAnalyzer.cc:674

CMTRawAnalyzer::h_2DsumPedestalLS5
TH2F * h_2DsumPedestalLS5
Definition: CMTRawAnalyzer.cc:1340

CMTRawAnalyzer::h_Amplitude_notCapIdErrors_HE3
TH1F * h_Amplitude_notCapIdErrors_HE3
Definition: CMTRawAnalyzer.cc:1109

CMTRawAnalyzer::h_sumTSmaxALS5
TH1F * h_sumTSmaxALS5
Definition: CMTRawAnalyzer.cc:1566

AlCaHLTBitMon_QueryRunRegistry.string
string string
Definition: AlCaHLTBitMon_QueryRunRegistry.py:256

CMTRawAnalyzer::h_mapDepth2Pedw1_HB
TH2F * h_mapDepth2Pedw1_HB
Definition: CMTRawAnalyzer.cc:1898

QIE11DataFrame::detid
constexpr DetId detid() const
Get the detector id.
Definition: QIE11DataFrame.h:67

CMTRawAnalyzer::h_mapDepth2Ampl047_HB
TH2F * h_mapDepth2Ampl047_HB
Definition: CMTRawAnalyzer.cc:898

CMTRawAnalyzer::h_mapDepth1TSmaxA_HB
TH2F * h_mapDepth1TSmaxA_HB
Definition: CMTRawAnalyzer.cc:879

CMTRawAnalyzer::h_timecorr_HO
TH1F * h_timecorr_HO
Definition: CMTRawAnalyzer.cc:1798

CMTRawAnalyzer::orbitNum
long int orbitNum
Definition: CMTRawAnalyzer.cc:2316

CMTRawAnalyzer::h_mapDepth2Ampl_HF
TH2F * h_mapDepth2Ampl_HF
Definition: CMTRawAnalyzer.cc:997

CMTRawAnalyzer::h_pedestalw2_HE
TH1F * h_pedestalw2_HE
Definition: CMTRawAnalyzer.cc:1716

CMTRawAnalyzer::h_mapDepth2pedestalw_HF
TH2F * h_mapDepth2pedestalw_HF
Definition: CMTRawAnalyzer.cc:1756

CMTRawAnalyzer::h_maprphinorm_HE7
TH2F * h_maprphinorm_HE7
Definition: CMTRawAnalyzer.cc:2057

CMTRawAnalyzer::h_mapADCAmpl11firstpeak0_HE
TH2F * h_mapADCAmpl11firstpeak0_HE
Definition: CMTRawAnalyzer.cc:1135

nsub
const int nsub
Definition: CMTRawAnalyzer.cc:415

CMTRawAnalyzer::h_sumCutAmplitudeperLS7
TH1F * h_sumCutAmplitudeperLS7
Definition: CMTRawAnalyzer.cc:1630

CMTRawAnalyzer::fs_
edm::Service< TFileService > fs_
Definition: CMTRawAnalyzer.cc:453

CMTRawAnalyzer::h_2D0sumTSmeanALS8
TH2F * h_2D0sumTSmeanALS8
Definition: CMTRawAnalyzer.cc:1539

CMTRawAnalyzer::h_mapCapCalib047_HF
TH2F * h_mapCapCalib047_HF
Definition: CMTRawAnalyzer.cc:1243

CMTRawAnalyzer::h_pedwvsampl0_HO
TH1F * h_pedwvsampl0_HO
Definition: CMTRawAnalyzer.cc:1828

CMTRawAnalyzer::h_sum0AmplitudeperLS2
TH1F * h_sum0AmplitudeperLS2
Definition: CMTRawAnalyzer.cc:1602

CMTRawAnalyzer::h_bcnvsamplitude0_HF
TH1F * h_bcnvsamplitude0_HF
Definition: CMTRawAnalyzer.cc:686

CMTRawAnalyzer::lsdep_estimator1_HEdepth5_
double lsdep_estimator1_HEdepth5_
Definition: CMTRawAnalyzer.cc:536

CMTRawAnalyzer::calibrTSmeanHEMax_
double calibrTSmeanHEMax_
Definition: CMTRawAnalyzer.cc:646

CMTRawAnalyzer::h_mapDepth7ADCAmpl225Copy_HE
TH2F * h_mapDepth7ADCAmpl225Copy_HE
Definition: CMTRawAnalyzer.cc:839

CMTRawAnalyzer::h_sumCutTSmaxAperLS2
TH1F * h_sumCutTSmaxAperLS2
Definition: CMTRawAnalyzer.cc:1551

CaloRecHit::energy
constexpr float energy() const
Definition: CaloRecHit.h:29

CMTRawAnalyzer::h_sumCutAmplperLS4
TH1F * h_sumCutAmplperLS4
Definition: CMTRawAnalyzer.cc:1661

CMTRawAnalyzer::h_sumCutTSmeanAperLS3
TH1F * h_sumCutTSmeanAperLS3
Definition: CMTRawAnalyzer.cc:1508

CMTRawAnalyzer::h_mapDepth2ADCAmplSiPM_HE
TH2F * h_mapDepth2ADCAmplSiPM_HE
Definition: CMTRawAnalyzer.cc:1149

CMTRawAnalyzer::h_mapDepth3pedestal_HB
TH2F * h_mapDepth3pedestal_HB
Definition: CMTRawAnalyzer.cc:1762

CMTRawAnalyzer::h_amplitudechannel1_HB1
TH2F * h_amplitudechannel1_HB1
Definition: CMTRawAnalyzer.cc:2176

CMTRawAnalyzer::h_mapDepth4ADCAmpl225Copy_HO
TH2F * h_mapDepth4ADCAmpl225Copy_HO
Definition: CMTRawAnalyzer.cc:844

CMTRawAnalyzer::h_Ampl_HO
TH1F * h_Ampl_HO
Definition: CMTRawAnalyzer.cc:1027

CMTRawAnalyzer::h_mapenophinorm_HE2
TH2F * h_mapenophinorm_HE2
Definition: CMTRawAnalyzer.cc:2038

CMTRawAnalyzer::h_2DsumADCAmplLSdepth4HEu
TH2F * h_2DsumADCAmplLSdepth4HEu
Definition: CMTRawAnalyzer.cc:1359

CMTRawAnalyzer::h_difpedestal1_HB
TH1F * h_difpedestal1_HB
Definition: CMTRawAnalyzer.cc:1782

CMTRawAnalyzer::h_sum0PedestalperLS6
TH1F * h_sum0PedestalperLS6
Definition: CMTRawAnalyzer.cc:1348

CMTRawAnalyzer::h_2DsumAmplLS5
TH2F * h_2DsumAmplLS5
Definition: CMTRawAnalyzer.cc:1665

CMTRawAnalyzer::h_mapDepth4pedestalw_HF
TH2F * h_mapDepth4pedestalw_HF
Definition: CMTRawAnalyzer.cc:1758

CMTRawAnalyzer::h_sum0ADCAmplperLS3_M2
TH1F * h_sum0ADCAmplperLS3_M2
Definition: CMTRawAnalyzer.cc:1458

CMTRawAnalyzer::h_amplitudechannel0_HB1
TH2F * h_amplitudechannel0_HB1
Definition: CMTRawAnalyzer.cc:2175

CMTRawAnalyzer::lsdep_cut1_peak_HBdepth1_
int lsdep_cut1_peak_HBdepth1_
Definition: CMTRawAnalyzer.cc:510

CMTRawAnalyzer::h_recSignalEnergy2_HF2
TH2F * h_recSignalEnergy2_HF2
Definition: CMTRawAnalyzer.cc:2154

CMTRawAnalyzer::h_sumCutTSmeanAperLS7
TH1F * h_sumCutTSmeanAperLS7
Definition: CMTRawAnalyzer.cc:1532

CMTRawAnalyzer::h_2DsumTSmaxALS7
TH2F * h_2DsumTSmaxALS7
Definition: CMTRawAnalyzer.cc:1579

FCDTask_cfi.fiber
fiber
Definition: FCDTask_cfi.py:64

CMTRawAnalyzer::h_recSignalEnergy0_HF3
TH2F * h_recSignalEnergy0_HF3
Definition: CMTRawAnalyzer.cc:2155

CMTRawAnalyzer::Nevent
long int Nevent
Definition: CMTRawAnalyzer.cc:2311

CMTRawAnalyzer::h_sumADCAmplLS8
TH1F * h_sumADCAmplLS8
Definition: CMTRawAnalyzer.cc:1485

CMTRawAnalyzer::h_amplitudechannel1_HE4
TH2F * h_amplitudechannel1_HE4
Definition: CMTRawAnalyzer.cc:2197

CaloSamples
Definition: CaloSamples.h:14

CMTRawAnalyzer::h_recSignalEnergy1_HE7
TH2F * h_recSignalEnergy1_HE7
Definition: CMTRawAnalyzer.cc:2125

CMTRawAnalyzer::calibrWidthHEMax_
double calibrWidthHEMax_
Definition: CMTRawAnalyzer.cc:654

CMTRawAnalyzer::calibrRatioHOMin_
double calibrRatioHOMin_
Definition: CMTRawAnalyzer.cc:627

CMTRawAnalyzer::useADCmassive_
bool useADCmassive_
Definition: CMTRawAnalyzer.cc:479

CMTRawAnalyzer::h_sumADCAmplperLS6_P2
TH1F * h_sumADCAmplperLS6_P2
Definition: CMTRawAnalyzer.cc:1461

CMTRawAnalyzer::h_mapADCAmpl11secondpeak_HE
TH2F * h_mapADCAmpl11secondpeak_HE
Definition: CMTRawAnalyzer.cc:1136

CMTRawAnalyzer::h_nbadchannels_depth4_HO
TH1F * h_nbadchannels_depth4_HO
Definition: CMTRawAnalyzer.cc:1063

CMTRawAnalyzer::h_mapWidthCalib047_HB
TH2F * h_mapWidthCalib047_HB
Definition: CMTRawAnalyzer.cc:1258

CMTRawAnalyzer::h_amplitudechannel2_HE5
TH2F * h_amplitudechannel2_HE5
Definition: CMTRawAnalyzer.cc:2201

TFileService.h

CMTRawAnalyzer::h_sumErrorBLS6
TH1F * h_sumErrorBLS6
Definition: CMTRawAnalyzer.cc:1984

CMTRawAnalyzer::h_sumPedestalperLS3
TH1F * h_sumPedestalperLS3
Definition: CMTRawAnalyzer.cc:1331

CMTRawAnalyzer::h_sumADCAmplLS1copy2
TH1F * h_sumADCAmplLS1copy2
Definition: CMTRawAnalyzer.cc:1376

CMTRawAnalyzer::h_ADCCalib_HB
TH1F * h_ADCCalib_HB
Definition: CMTRawAnalyzer.cc:1244

CMTRawAnalyzer::h_sumErrorBperLS8
TH1F * h_sumErrorBperLS8
Definition: CMTRawAnalyzer.cc:1995

CMTRawAnalyzer::h_sumCutADCAmplperLS5
TH1F * h_sumCutADCAmplperLS5
Definition: CMTRawAnalyzer.cc:1412

CMTRawAnalyzer::h_repetedcapid_HF
TH1F * h_repetedcapid_HF
Definition: CMTRawAnalyzer.cc:812

CMTRawAnalyzer::h_runbadrate0_depth2_HB
TH1F * h_runbadrate0_depth2_HB
Definition: CMTRawAnalyzer.cc:1044

CMTRawAnalyzer::h_pedvsampl0_HB
TH1F * h_pedvsampl0_HB
Definition: CMTRawAnalyzer.cc:1804

CMTRawAnalyzer::lsdep_cut1_peak_HEdepth2_
int lsdep_cut1_peak_HEdepth2_
Definition: CMTRawAnalyzer.cc:513

CMTRawAnalyzer::sumEstimator5
double sumEstimator5[nsub][ndepth][neta][nphi]
Definition: CMTRawAnalyzer.cc:2283

CMTRawAnalyzer::h_sumADCAmplperLSdepth6HEu
TH1F * h_sumADCAmplperLSdepth6HEu
Definition: CMTRawAnalyzer.cc:1424

CMTRawAnalyzer::h_recSignalEnergy2_HE3
TH2F * h_recSignalEnergy2_HE3
Definition: CMTRawAnalyzer.cc:2114

CMTRawAnalyzer::h_sumADCAmplLS7
TH1F * h_sumADCAmplLS7
Definition: CMTRawAnalyzer.cc:1475

CMTRawAnalyzer::h_runbadrate_depth1_HF
TH1F * h_runbadrate_depth1_HF
Definition: CMTRawAnalyzer.cc:1072

ParameterSet.h

edm::ParameterSet::getUntrackedParameter
T getUntrackedParameter(std::string const &, T const &) const

CMTRawAnalyzer::ADCAmplHOMin_
double ADCAmplHOMin_
Definition: CMTRawAnalyzer.cc:611

CMTRawAnalyzer::h_error2
TH1F * h_error2
Definition: CMTRawAnalyzer.cc:752

CMTRawAnalyzer::ADCAmplHEMax_
double ADCAmplHEMax_
Definition: CMTRawAnalyzer.cc:614

CMTRawAnalyzer::h_sum0ErrorBperLS2
TH1F * h_sum0ErrorBperLS2
Definition: CMTRawAnalyzer.cc:1966

CMTRawAnalyzer::h_respcorr_HB
TH1F * h_respcorr_HB
Definition: CMTRawAnalyzer.cc:1778

CMTRawAnalyzer::h_mapDepth4Ampl_HE
TH2F * h_mapDepth4Ampl_HE
Definition: CMTRawAnalyzer.cc:1214

HBHERecHit
Definition: HBHERecHit.h:13

CMTRawAnalyzer::h_mapDepth4TSmaxA_HB
TH2F * h_mapDepth4TSmaxA_HB
Definition: CMTRawAnalyzer.cc:884

CMTRawAnalyzer::ADCAmplHOMax_
double ADCAmplHOMax_
Definition: CMTRawAnalyzer.cc:615

CMTRawAnalyzer::h_sum0ADCAmplperLS6_M1
TH1F * h_sum0ADCAmplperLS6_M1
Definition: CMTRawAnalyzer.cc:1464

CMTRawAnalyzer::h_mapDepth4Error_HE
TH2F * h_mapDepth4Error_HE
Definition: CMTRawAnalyzer.cc:787

CMTRawAnalyzer::h_2D0sumADCAmplLS3
TH2F * h_2D0sumADCAmplLS3
Definition: CMTRawAnalyzer.cc:1399

CMTRawAnalyzer::h_sumCutADCAmplperLSdepth7HEu
TH1F * h_sumCutADCAmplperLSdepth7HEu
Definition: CMTRawAnalyzer.cc:1429

CMTRawAnalyzer::h_pedestalwaver9_HF
TH1F * h_pedestalwaver9_HF
Definition: CMTRawAnalyzer.cc:1731

CMTRawAnalyzer::h_sumTSmeanAperLS8
TH1F * h_sumTSmeanAperLS8
Definition: CMTRawAnalyzer.cc:1537

CMTRawAnalyzer::run0
int run0
Definition: CMTRawAnalyzer.cc:2313

CMTRawAnalyzer::rmsHBMin_
double rmsHBMin_
Definition: CMTRawAnalyzer.cc:581

CMTRawAnalyzer::h_recSignalEnergy1_HE6
TH2F * h_recSignalEnergy1_HE6
Definition: CMTRawAnalyzer.cc:2122

CMTRawAnalyzer::h_sumTSmaxAperLS3
TH1F * h_sumTSmaxAperLS3
Definition: CMTRawAnalyzer.cc:1556

CMTRawAnalyzer::lsdep_estimator2_HFdepth1_
double lsdep_estimator2_HFdepth1_
Definition: CMTRawAnalyzer.cc:549

CMTRawAnalyzer::tok_hfNoise_
edm::EDGetTokenT< HFRecHitCollection > tok_hfNoise_
Definition: CMTRawAnalyzer.cc:451

CMTRawAnalyzer::h_mapDepth1TSmeanA225_HF
TH2F * h_mapDepth1TSmeanA225_HF
Definition: CMTRawAnalyzer.cc:969

HcalGenericDetId.h

CMTRawAnalyzer::maxxOCCUP1
double maxxOCCUP1
Definition: CMTRawAnalyzer.cc:2348

CMTRawAnalyzer::h_2DsumADCAmplLS6
TH2F * h_2DsumADCAmplLS6
Definition: CMTRawAnalyzer.cc:1416

CMTRawAnalyzer::h1_TSnVsAyear20230_HF
TH1F * h1_TSnVsAyear20230_HF
Definition: CMTRawAnalyzer.cc:2265

photonIsolationHIProducer_cfi.hbhe
hbhe
Definition: photonIsolationHIProducer_cfi.py:8

CMTRawAnalyzer::h_mapDepth5AmplE34_HE
TH2F * h_mapDepth5AmplE34_HE
Definition: CMTRawAnalyzer.cc:1222

CMTRawAnalyzer::lsdep_estimator1_HBdepth3_
double lsdep_estimator1_HBdepth3_
Definition: CMTRawAnalyzer.cc:541

CMTRawAnalyzer::h_sumPedestalLS7
TH1F * h_sumPedestalLS7
Definition: CMTRawAnalyzer.cc:1349

CMTRawAnalyzer::h_sumAmplperLS3
TH1F * h_sumAmplperLS3
Definition: CMTRawAnalyzer.cc:1654

CMTRawAnalyzer::h_mapAiForLS_good_HF
TH2F * h_mapAiForLS_good_HF
Definition: CMTRawAnalyzer.cc:726

CMTRawAnalyzer::h_mapDepth4TS1_HF
TH2F * h_mapDepth4TS1_HF
Definition: CMTRawAnalyzer.cc:950

CMTRawAnalyzer::h_sumTSmeanALS6
TH1F * h_sumTSmeanALS6
Definition: CMTRawAnalyzer.cc:1523

CMTRawAnalyzer::h_map0AiForLS_bad_HB
TH2F * h_map0AiForLS_bad_HB
Definition: CMTRawAnalyzer.cc:713

CMTRawAnalyzer::h_mapWidthCalib047_HO
TH2F * h_mapWidthCalib047_HO
Definition: CMTRawAnalyzer.cc:1292

CMTRawAnalyzer::fillDigiErrorsQIE11
void fillDigiErrorsQIE11(QIE11DataFrame qie11df)
Definition: CMTRawAnalyzer.cc:8163

CMTRawAnalyzer::h_sigLayer1RADDAM5_HED2
TH1F * h_sigLayer1RADDAM5_HED2
Definition: CMTRawAnalyzer.cc:2251

CMTRawAnalyzer::calibrWidthHOMin_
double calibrWidthHOMin_
Definition: CMTRawAnalyzer.cc:651

CMTRawAnalyzer::h_mapDepth1ADCAmpl225_HB
TH2F * h_mapDepth1ADCAmpl225_HB
Definition: CMTRawAnalyzer.cc:863

CMTRawAnalyzer::h_mapDepth2Error_HE
TH2F * h_mapDepth2Error_HE
Definition: CMTRawAnalyzer.cc:785

CMTRawAnalyzer::h_sumamplitude_depth2_HF
TH1F * h_sumamplitude_depth2_HF
Definition: CMTRawAnalyzer.cc:1867

CMTRawAnalyzer::h_mapDepth2_HF
TH2F * h_mapDepth2_HF
Definition: CMTRawAnalyzer.cc:1001

CMTRawAnalyzer::h_nevents_per_LS
TH1F * h_nevents_per_LS
Definition: CMTRawAnalyzer.cc:1314

CMTRawAnalyzer::h_amplitudechannel2_HB4
TH2F * h_amplitudechannel2_HB4
Definition: CMTRawAnalyzer.cc:2186

CMTRawAnalyzer::h_mapenophinorm2_HE1
TH2F * h_mapenophinorm2_HE1
Definition: CMTRawAnalyzer.cc:2044

CMTRawAnalyzer::h_maprphinorm_HE4
TH2F * h_maprphinorm_HE4
Definition: CMTRawAnalyzer.cc:2054

CMTRawAnalyzer::h_mapDepth2TSmeanA225_HE
TH2F * h_mapDepth2TSmeanA225_HE
Definition: CMTRawAnalyzer.cc:1167

CMTRawAnalyzer::h_mapDepth4TSmaxA_HO
TH2F * h_mapDepth4TSmaxA_HO
Definition: CMTRawAnalyzer.cc:1022

CMTRawAnalyzer::h_sumCutAmplperLS6
TH1F * h_sumCutAmplperLS6
Definition: CMTRawAnalyzer.cc:1673

CMTRawAnalyzer::h_2D0sumTSmeanALS5
TH2F * h_2D0sumTSmeanALS5
Definition: CMTRawAnalyzer.cc:1521

CMTRawAnalyzer::h_shape0_bad_channels_HF
TH1F * h_shape0_bad_channels_HF
Definition: CMTRawAnalyzer.cc:1854

CMTRawAnalyzer::h_amplitudechannel0_HE6
TH2F * h_amplitudechannel0_HE6
Definition: CMTRawAnalyzer.cc:2202

CMTRawAnalyzer::h_sum0TSmaxAperLS3
TH1F * h_sum0TSmaxAperLS3
Definition: CMTRawAnalyzer.cc:1559

CMTRawAnalyzer::h_mapDepth1Pedw3_HB
TH2F * h_mapDepth1Pedw3_HB
Definition: CMTRawAnalyzer.cc:1892

CMTRawAnalyzer::h_2DsumErrorBLS3
TH2F * h_2DsumErrorBLS3
Definition: CMTRawAnalyzer.cc:1968

CMTRawAnalyzer::h_pedestalwaver9_HO
TH1F * h_pedestalwaver9_HO
Definition: CMTRawAnalyzer.cc:1743

CMTRawAnalyzer::h_mapDepth3_HF
TH2F * h_mapDepth3_HF
Definition: CMTRawAnalyzer.cc:1008

CMTRawAnalyzer::h_mapDepth1TSmaxA_HE
TH2F * h_mapDepth1TSmaxA_HE
Definition: CMTRawAnalyzer.cc:1174

CMTRawAnalyzer::h_mapDepth3ADCAmpl12_HE
TH2F * h_mapDepth3ADCAmpl12_HE
Definition: CMTRawAnalyzer.cc:919

CMTRawAnalyzer::h_sumTSmeanALS3
TH1F * h_sumTSmeanALS3
Definition: CMTRawAnalyzer.cc:1505

HcalDetId::subdet
constexpr HcalSubdetector subdet() const
get the subdetector
Definition: HcalDetId.h:138

CMTRawAnalyzer::h_ADCAmplZoom1_HO
TH1F * h_ADCAmplZoom1_HO
Definition: CMTRawAnalyzer.cc:1014

HcalCoderDb::adc2fC
void adc2fC(const HBHEDataFrame &df, CaloSamples &lf) const override
Definition: HcalCoderDb.cc:73

CMTRawAnalyzer::h_ADCAmplrest6_HE
TH1F * h_ADCAmplrest6_HE
Definition: CMTRawAnalyzer.cc:1121

CMTRawAnalyzer::h_maprphinorm0_HE2
TH2F * h_maprphinorm0_HE2
Definition: CMTRawAnalyzer.cc:2066

CMTRawAnalyzer::h_mapDepth4AmplE34_HB
TH2F * h_mapDepth4AmplE34_HB
Definition: CMTRawAnalyzer.cc:910

CMTRawAnalyzer::h_sumPedestalLS4
TH1F * h_sumPedestalLS4
Definition: CMTRawAnalyzer.cc:1334

CMTRawAnalyzer::h_mapDepth2Ped0_HE
TH2F * h_mapDepth2Ped0_HE
Definition: CMTRawAnalyzer.cc:1909

HcalElectronicsId::readoutVMECrateId
constexpr int32_t readoutVMECrateId() const
get the readout VME crate number
Definition: HcalElectronicsId.h:111

CMTRawAnalyzer::h_mapDepth1pedestal_HB
TH2F * h_mapDepth1pedestal_HB
Definition: CMTRawAnalyzer.cc:1760

CMTRawAnalyzer::h_Amplitude_forCapIdErrors_HE2
TH1F * h_Amplitude_forCapIdErrors_HE2
Definition: CMTRawAnalyzer.cc:1100

CMTRawAnalyzer::h_bcnvsamplitude_HO
TH1F * h_bcnvsamplitude_HO
Definition: CMTRawAnalyzer.cc:687

CMTRawAnalyzer::h_mapDepth3TSmaxA225_HB
TH2F * h_mapDepth3TSmaxA225_HB
Definition: CMTRawAnalyzer.cc:885

CMTRawAnalyzer::h_sumamplitudechannel_HE
TH1F * h_sumamplitudechannel_HE
Definition: CMTRawAnalyzer.cc:2022

l1tEGammaCrystalsEmulatorProducer_cfi.calib
calib
Definition: l1tEGammaCrystalsEmulatorProducer_cfi.py:6

CMTRawAnalyzer::averNOSIGNALoccupancy_HB
double averNOSIGNALoccupancy_HB
Definition: CMTRawAnalyzer.cc:2336

zneta
const int zneta
Definition: CMTRawAnalyzer.cc:420

CMTRawAnalyzer::h_sumTSmaxAperLS2
TH1F * h_sumTSmaxAperLS2
Definition: CMTRawAnalyzer.cc:1550

CMTRawAnalyzer::ADCAmplHFMin_
double ADCAmplHFMin_
Definition: CMTRawAnalyzer.cc:612

hcalRecHitTable_cff.ieta
ieta
Definition: hcalRecHitTable_cff.py:15

CMTRawAnalyzer::h_mapDepth4TSmeanA_HF
TH2F * h_mapDepth4TSmeanA_HF
Definition: CMTRawAnalyzer.cc:972

CMTRawAnalyzer::h_mapADCAmplfirstpeak_HE
TH2F * h_mapADCAmplfirstpeak_HE
Definition: CMTRawAnalyzer.cc:1130

CMTRawAnalyzer::h_sum0TSmaxAperLS2
TH1F * h_sum0TSmaxAperLS2
Definition: CMTRawAnalyzer.cc:1553

CMTRawAnalyzer::h_WidthCalib_HE
TH1F * h_WidthCalib_HE
Definition: CMTRawAnalyzer.cc:1274

CMTRawAnalyzer::h_shape_Alow_HB3
TH1F * h_shape_Alow_HB3
Definition: CMTRawAnalyzer.cc:1843

CMTRawAnalyzer::h_mapDepth4ADCAmpl225Copy_HF
TH2F * h_mapDepth4ADCAmpl225Copy_HF
Definition: CMTRawAnalyzer.cc:843

edm::ESGetToken< HcalDbService, HcalDbRecord >

CMTRawAnalyzer::h_sum0PedestalperLS4
TH1F * h_sum0PedestalperLS4
Definition: CMTRawAnalyzer.cc:1338

CMTRawAnalyzer::h_recNoiseEnergy0_HE5
TH2F * h_recNoiseEnergy0_HE5
Definition: CMTRawAnalyzer.cc:2139

CMTRawAnalyzer::h_mapDepth7TSmeanA_HE
TH2F * h_mapDepth7TSmeanA_HE
Definition: CMTRawAnalyzer.cc:1165

CMTRawAnalyzer::h_mapDepth4Ampl_HO
TH2F * h_mapDepth4Ampl_HO
Definition: CMTRawAnalyzer.cc:1029

CMTRawAnalyzer::h_nbadchannels_depth2_HF
TH1F * h_nbadchannels_depth2_HF
Definition: CMTRawAnalyzer.cc:1075

CMTRawAnalyzer::h_2D0sumErrorBLS4
TH2F * h_2D0sumErrorBLS4
Definition: CMTRawAnalyzer.cc:1972

CMTRawAnalyzer::h_sum0AmplitudeperLS5
TH1F * h_sum0AmplitudeperLS5
Definition: CMTRawAnalyzer.cc:1620

CMTRawAnalyzer::h_pedestalw2_HO
TH1F * h_pedestalw2_HO
Definition: CMTRawAnalyzer.cc:1740

CMTRawAnalyzer::h_nls_per_run
TH1F * h_nls_per_run
Definition: CMTRawAnalyzer.cc:1312

CMTRawAnalyzer::h_mapDepth3ADCAmpl225_HF
TH2F * h_mapDepth3ADCAmpl225_HF
Definition: CMTRawAnalyzer.cc:964

CMTRawAnalyzer::h_amplitudechannel0_HF4
TH2F * h_amplitudechannel0_HF4
Definition: CMTRawAnalyzer.cc:2217

CMTRawAnalyzer::TSpeakHFMax_
double TSpeakHFMax_
Definition: CMTRawAnalyzer.cc:595

CMTRawAnalyzer::h_sumAmplitudeLS4
TH1F * h_sumAmplitudeLS4
Definition: CMTRawAnalyzer.cc:1609

CMTRawAnalyzer::h_TSmeanA_HB
TH1F * h_TSmeanA_HB
Definition: CMTRawAnalyzer.cc:869

CMTRawAnalyzer::h_orbitNumvsamplitude0_HE
TH1F * h_orbitNumvsamplitude0_HE
Definition: CMTRawAnalyzer.cc:692

CMTRawAnalyzer::h_sigLayer2RADDAM5_HED2
TH1F * h_sigLayer2RADDAM5_HED2
Definition: CMTRawAnalyzer.cc:2253

CMTRawAnalyzer::h_recSignalEnergy0_HB2
TH2F * h_recSignalEnergy0_HB2
Definition: CMTRawAnalyzer.cc:2084

CMTRawAnalyzer::h_sumADCAmplperLS4
TH1F * h_sumADCAmplperLS4
Definition: CMTRawAnalyzer.cc:1404

CMTRawAnalyzer::h_eventoccupancy_HB
TH1F * h_eventoccupancy_HB
Definition: CMTRawAnalyzer.cc:2029

CMTRawAnalyzer::h_2D0sumAmplitudeLS1
TH2F * h_2D0sumAmplitudeLS1
Definition: CMTRawAnalyzer.cc:1595

CMTRawAnalyzer::h_sumADCAmplperLS3_M1
TH1F * h_sumADCAmplperLS3_M1
Definition: CMTRawAnalyzer.cc:1455

CMTRawAnalyzer::h_recSignalEnergy2_HE4
TH2F * h_recSignalEnergy2_HE4
Definition: CMTRawAnalyzer.cc:2117

CMTRawAnalyzer::h_shape0_good_channels_HE
TH1F * h_shape0_good_channels_HE
Definition: CMTRawAnalyzer.cc:1852

CMTRawAnalyzer::h_mapADCCalib047_HO
TH2F * h_mapADCCalib047_HO
Definition: CMTRawAnalyzer.cc:1280

CMTRawAnalyzer::h_eventoccupancy_HE
TH1F * h_eventoccupancy_HE
Definition: CMTRawAnalyzer.cc:2030

CMTRawAnalyzer::lsdep_estimator1_HOdepth4_
double lsdep_estimator1_HOdepth4_
Definition: CMTRawAnalyzer.cc:534

CMTRawAnalyzer::h_mapDepth2Ped2_HE
TH2F * h_mapDepth2Ped2_HE
Definition: CMTRawAnalyzer.cc:1911

iEvent
int iEvent
Definition: GenABIO.cc:224

CMTRawAnalyzer::h_sumAmplitudeLS2
TH1F * h_sumAmplitudeLS2
Definition: CMTRawAnalyzer.cc:1597

CMTRawAnalyzer::h_sumADCAmplEtaPhiLs_ietaphi
TH1F * h_sumADCAmplEtaPhiLs_ietaphi
Definition: CMTRawAnalyzer.cc:709

CMTRawAnalyzer::lsdep_estimator4_HOdepth4_
double lsdep_estimator4_HOdepth4_
Definition: CMTRawAnalyzer.cc:569

CMTRawAnalyzer::h_mapDepth3RADDAM16_HE
TH1F * h_mapDepth3RADDAM16_HE
Definition: CMTRawAnalyzer.cc:2228

CMTRawAnalyzer::h_sum0ADCAmplperLSdepth4HBu
TH1F * h_sum0ADCAmplperLSdepth4HBu
Definition: CMTRawAnalyzer.cc:1439

CMTRawAnalyzer::h_shape_bad_channels_HO
TH1F * h_shape_bad_channels_HO
Definition: CMTRawAnalyzer.cc:1857

CMTRawAnalyzer::h_Amplitude_forCapIdErrors_HF2
TH1F * h_Amplitude_forCapIdErrors_HF2
Definition: CMTRawAnalyzer.cc:1103

CMTRawAnalyzer::h_RatioOccupancy_HBP
TH1F * h_RatioOccupancy_HBP
Definition: CMTRawAnalyzer.cc:1676

CMTRawAnalyzer::lsdep_estimator4_HBdepth1_
double lsdep_estimator4_HBdepth1_
Definition: CMTRawAnalyzer.cc:562

CMTRawAnalyzer::h_sumCutADCAmplperLS6
TH1F * h_sumCutADCAmplperLS6
Definition: CMTRawAnalyzer.cc:1420

CMTRawAnalyzer::h_pedestal00_HE
TH1F * h_pedestal00_HE
Definition: CMTRawAnalyzer.cc:1785

CMTRawAnalyzer::h_2D0sumPedestalLS8
TH2F * h_2D0sumPedestalLS8
Definition: CMTRawAnalyzer.cc:1357

CMTRawAnalyzer::h_pedvsampl_HF
TH1F * h_pedvsampl_HF
Definition: CMTRawAnalyzer.cc:1819

CMTRawAnalyzer::h_recSignalEnergy0_HB1
TH2F * h_recSignalEnergy0_HB1
Definition: CMTRawAnalyzer.cc:2081

CMTRawAnalyzer::h_runbadrateC_depth2_HE
TH1F * h_runbadrateC_depth2_HE
Definition: CMTRawAnalyzer.cc:1055

CMTRawAnalyzer::h_recSignalEnergy1_HE4
TH2F * h_recSignalEnergy1_HE4
Definition: CMTRawAnalyzer.cc:2116

CMTRawAnalyzer::h_sumADCAmplperLS8_M2
TH1F * h_sumADCAmplperLS8_M2
Definition: CMTRawAnalyzer.cc:1473

CMTRawAnalyzer::h_sumamplitudechannel_HF
TH1F * h_sumamplitudechannel_HF
Definition: CMTRawAnalyzer.cc:2023

npfit
const int npfit
Definition: CMTRawAnalyzer.cc:422

CMTRawAnalyzer::h_mapDepth2ADCAmpl12SiPM_HE
TH2F * h_mapDepth2ADCAmpl12SiPM_HE
Definition: CMTRawAnalyzer.cc:925

CMTRawAnalyzer::h_sumAmplLS1
TH1F * h_sumAmplLS1
Definition: CMTRawAnalyzer.cc:1639

CMTRawAnalyzer::h_sumPedestalLS2
TH1F * h_sumPedestalLS2
Definition: CMTRawAnalyzer.cc:1324

CMTRawAnalyzer::lsdep_cut3_max_HFdepth1_
int lsdep_cut3_max_HFdepth1_
Definition: CMTRawAnalyzer.cc:524

CMTRawAnalyzer::h_mapDepth1pedestalw_HB
TH2F * h_mapDepth1pedestalw_HB
Definition: CMTRawAnalyzer.cc:1744

CMTRawAnalyzer::h_error2_HE
TH1F * h_error2_HE
Definition: CMTRawAnalyzer.cc:776

CaloGeometryRecord.h

CMTRawAnalyzer::calibrADCHFMin_
double calibrADCHFMin_
Definition: CMTRawAnalyzer.cc:620

createfilelist.int
int
Definition: createfilelist.py:10

CMTRawAnalyzer::h_mapDepth2RADDAM_HE
TH2F * h_mapDepth2RADDAM_HE
Definition: CMTRawAnalyzer.cc:2222

CMTRawAnalyzer::calibrRatioHEMin_
double calibrRatioHEMin_
Definition: CMTRawAnalyzer.cc:626

CMTRawAnalyzer::h_mapDepth6pedestal_HE
TH2F * h_mapDepth6pedestal_HE
Definition: CMTRawAnalyzer.cc:1769

CMTRawAnalyzer::h_mapDepth3TSmeanA225_HF
TH2F * h_mapDepth3TSmeanA225_HF
Definition: CMTRawAnalyzer.cc:973

CMTRawAnalyzer::h_mapDepth4ADCAmpl12_HB
TH2F * h_mapDepth4ADCAmpl12_HB
Definition: CMTRawAnalyzer.cc:916

calib
Definition: CalibElectron.h:12

CMTRawAnalyzer::h_2D0sumPedestalLS7
TH2F * h_2D0sumPedestalLS7
Definition: CMTRawAnalyzer.cc:1352

CMTRawAnalyzer::h_mapDepth1Amplitude_HF
TH2F * h_mapDepth1Amplitude_HF
Definition: CMTRawAnalyzer.cc:985

CMTRawAnalyzer::h_sumADCAmplLS1copy5
TH1F * h_sumADCAmplLS1copy5
Definition: CMTRawAnalyzer.cc:1379

CMTRawAnalyzer::h_mapDepth2Ped1_HB
TH2F * h_mapDepth2Ped1_HB
Definition: CMTRawAnalyzer.cc:1894

CMTRawAnalyzer::h_error5_HO
TH1F * h_error5_HO
Definition: CMTRawAnalyzer.cc:818

neta
const int neta
Definition: CMTRawAnalyzer.cc:417

CMTRawAnalyzer::h_error2_HB
TH1F * h_error2_HB
Definition: CMTRawAnalyzer.cc:758

nano_mu_digi_cff.float
float
Definition: nano_mu_digi_cff.py:13

CMTRawAnalyzer::h_sumTSmeanALS2
TH1F * h_sumTSmeanALS2
Definition: CMTRawAnalyzer.cc:1499

CMTRawAnalyzer::MAPfile
std::ofstream MAPfile
Definition: CMTRawAnalyzer.cc:2354

CMTRawAnalyzer::h_2D0sumADCAmplLSdepth3HFu
TH2F * h_2D0sumADCAmplLSdepth3HFu
Definition: CMTRawAnalyzer.cc:1368

CMTRawAnalyzer::topo
const HcalTopology * topo
Definition: CMTRawAnalyzer.cc:459

CMTRawAnalyzer::h_amplitudechannel2_HF4
TH2F * h_amplitudechannel2_HF4
Definition: CMTRawAnalyzer.cc:2219

CMTRawAnalyzer::calibrADCHOMin_
double calibrADCHOMin_
Definition: CMTRawAnalyzer.cc:619

CMTRawAnalyzer::h_runbadrateC_depth2_HF
TH1F * h_runbadrateC_depth2_HF
Definition: CMTRawAnalyzer.cc:1079

CMTRawAnalyzer::forallestimators_amplitude_bigger_
double forallestimators_amplitude_bigger_
Definition: CMTRawAnalyzer.cc:579

CMTRawAnalyzer::h_sum0AmplitudeperLS8
TH1F * h_sum0AmplitudeperLS8
Definition: CMTRawAnalyzer.cc:1638

CMTRawAnalyzer::h_pedestal00_HO
TH1F * h_pedestal00_HO
Definition: CMTRawAnalyzer.cc:1795

CMTRawAnalyzer::h_mapDepth5Ampl047_HE
TH2F * h_mapDepth5Ampl047_HE
Definition: CMTRawAnalyzer.cc:1208

CMTRawAnalyzer::h_sum0AmplitudeperLS3
TH1F * h_sum0AmplitudeperLS3
Definition: CMTRawAnalyzer.cc:1608

CMTRawAnalyzer::h_TSmaxA_HB
TH1F * h_TSmaxA_HB
Definition: CMTRawAnalyzer.cc:878

CMTRawAnalyzer::h_ADCAmpl345Zoom1_HB
TH1F * h_ADCAmpl345Zoom1_HB
Definition: CMTRawAnalyzer.cc:849

CMTRawAnalyzer::lsdep_cut3_max_HBdepth2_
int lsdep_cut3_max_HBdepth2_
Definition: CMTRawAnalyzer.cc:520

CMTRawAnalyzer::h_sumADCAmplperLS7
TH1F * h_sumADCAmplperLS7
Definition: CMTRawAnalyzer.cc:1479

CMTRawAnalyzer::lsdep_estimator5_HFdepth2_
double lsdep_estimator5_HFdepth2_
Definition: CMTRawAnalyzer.cc:577

CMTRawAnalyzer::h_runbadrate_depth2_HF
TH1F * h_runbadrate_depth2_HF
Definition: CMTRawAnalyzer.cc:1078

CMTRawAnalyzer::h_sumTSmeanAperLS1
TH1F * h_sumTSmeanAperLS1
Definition: CMTRawAnalyzer.cc:1494

CMTRawAnalyzer::phi
int phi
Definition: CMTRawAnalyzer.cc:2371

CMTRawAnalyzer::h_sum0AmplperLS7
TH1F * h_sum0AmplperLS7
Definition: CMTRawAnalyzer.cc:1689

CMTRawAnalyzer::h_mapDepth3Amplitude_HB
TH2F * h_mapDepth3Amplitude_HB
Definition: CMTRawAnalyzer.cc:892

CMTRawAnalyzer::h_energyhitNoise_HB
TH1F * h_energyhitNoise_HB
Definition: CMTRawAnalyzer.cc:2077

CMTRawAnalyzer::h_sum0AmplperLS8
TH1F * h_sum0AmplperLS8
Definition: CMTRawAnalyzer.cc:1695

CMTRawAnalyzer::h_sumADCAmplperLS1_M1
TH1F * h_sumADCAmplperLS1_M1
Definition: CMTRawAnalyzer.cc:1447

CMTRawAnalyzer::h_sumAmplLS2
TH1F * h_sumAmplLS2
Definition: CMTRawAnalyzer.cc:1646

CMTRawAnalyzer::h_2D0sumTSmaxALS1
TH2F * h_2D0sumTSmaxALS1
Definition: CMTRawAnalyzer.cc:1546

CMTRawAnalyzer::pedestalwHEMax_
double pedestalwHEMax_
Definition: CMTRawAnalyzer.cc:673

CMTRawAnalyzer::h_totalAmplitudeHEperEvent
TH1F * h_totalAmplitudeHEperEvent
Definition: CMTRawAnalyzer.cc:745

CMTRawAnalyzer::h_mapDepth3RADDAM_HE
TH2F * h_mapDepth3RADDAM_HE
Definition: CMTRawAnalyzer.cc:2223

CMTRawAnalyzer::h_mapTSmaxCalib_HF
TH2F * h_mapTSmaxCalib_HF
Definition: CMTRawAnalyzer.cc:1304

CMTRawAnalyzer::h_mapDepth3ADCAmpl225Copy_HE
TH2F * h_mapDepth3ADCAmpl225Copy_HE
Definition: CMTRawAnalyzer.cc:835

CMTRawAnalyzer::h_2DsumPedestalLS2
TH2F * h_2DsumPedestalLS2
Definition: CMTRawAnalyzer.cc:1325

CMTRawAnalyzer::h_sumADCAmplperLSdepth3HBu
TH1F * h_sumADCAmplperLSdepth3HBu
Definition: CMTRawAnalyzer.cc:1434

CMTRawAnalyzer::h_TSmeanCalib_HE
TH1F * h_TSmeanCalib_HE
Definition: CMTRawAnalyzer.cc:1271

CMTRawAnalyzer::h_mapDepth2Ped3_HF
TH2F * h_mapDepth2Ped3_HF
Definition: CMTRawAnalyzer.cc:1936

HcalDbService::getHcalRespCorr
const HcalRespCorr * getHcalRespCorr(const HcalGenericDetId &fId) const
Definition: HcalDbService.cc:270

CMTRawAnalyzer::h_ADCAmpl345_HE
TH1F * h_ADCAmpl345_HE
Definition: CMTRawAnalyzer.cc:847

CMTRawAnalyzer::h_energyhitSignal_HF
TH1F * h_energyhitSignal_HF
Definition: CMTRawAnalyzer.cc:2076

CMTRawAnalyzer::h_2DsumTSmeanALS3
TH2F * h_2DsumTSmeanALS3
Definition: CMTRawAnalyzer.cc:1506

CMTRawAnalyzer::h_sumADCAmplperLS6
TH1F * h_sumADCAmplperLS6
Definition: CMTRawAnalyzer.cc:1419

CMTRawAnalyzer::h_mapDepth5pedestalw_HE
TH2F * h_mapDepth5pedestalw_HE
Definition: CMTRawAnalyzer.cc:1752

CMTRawAnalyzer::h_runbadrateC_depth1_HF
TH1F * h_runbadrateC_depth1_HF
Definition: CMTRawAnalyzer.cc:1073

CMTRawAnalyzer::lsdep_cut3_max_HFdepth2_
int lsdep_cut3_max_HFdepth2_
Definition: CMTRawAnalyzer.cc:525

CMTRawAnalyzer::h_2D0sumAmplLS1
TH2F * h_2D0sumAmplLS1
Definition: CMTRawAnalyzer.cc:1644

CMTRawAnalyzer::h_mapWidthCalib047_HF
TH2F * h_mapWidthCalib047_HF
Definition: CMTRawAnalyzer.cc:1309

CMTRawAnalyzer::maxxSUM3
double maxxSUM3
Definition: CMTRawAnalyzer.cc:2346

CMTRawAnalyzer::h_recSignalEnergy2_HE2
TH2F * h_recSignalEnergy2_HE2
Definition: CMTRawAnalyzer.cc:2111

HcalEndcap
Definition: HcalAssistant.h:34

CMTRawAnalyzer::studyRMSshapeHist_
bool studyRMSshapeHist_
Definition: CMTRawAnalyzer.cc:469

CMTRawAnalyzer::h_amplitudechannel0_HE1
TH2F * h_amplitudechannel0_HE1
Definition: CMTRawAnalyzer.cc:2187

CMTRawAnalyzer::calibrADCHFMax_
double calibrADCHFMax_
Definition: CMTRawAnalyzer.cc:624

CMTRawAnalyzer::h_runnbadchannelsC_depth2_HF
TH1F * h_runnbadchannelsC_depth2_HF
Definition: CMTRawAnalyzer.cc:1077

CMTRawAnalyzer::getRBX
int getRBX(int &i, int &j, int &k)
Definition: CMTRawAnalyzer.cc:12127

CMTRawAnalyzer::h_sumADCAmplLS6
TH1F * h_sumADCAmplLS6
Definition: CMTRawAnalyzer.cc:1415

HcalElectronicsId::spigot
constexpr int32_t spigot() const
get the spigot (input number on DCC, AMC card number for uTCA)
Definition: HcalElectronicsId.h:97

CMTRawAnalyzer::h_sumCutAmplitudeperLS8
TH1F * h_sumCutAmplitudeperLS8
Definition: CMTRawAnalyzer.cc:1636

CMTRawAnalyzer::h_error4_HF
TH1F * h_error4_HF
Definition: CMTRawAnalyzer.cc:799

CMTRawAnalyzer::h_mapAiForLS_bad_HF
TH2F * h_mapAiForLS_bad_HF
Definition: CMTRawAnalyzer.cc:724

CMTRawAnalyzer::h_mapDepth7Ampl047_HE
TH2F * h_mapDepth7Ampl047_HE
Definition: CMTRawAnalyzer.cc:1210

CMTRawAnalyzer::h_sumCutTSmeanAperLS1
TH1F * h_sumCutTSmeanAperLS1
Definition: CMTRawAnalyzer.cc:1496

CMTRawAnalyzer::h_amplvspedw_HB
TH1F * h_amplvspedw_HB
Definition: CMTRawAnalyzer.cc:1809

CMTRawAnalyzer::h_error5_HF
TH1F * h_error5_HF
Definition: CMTRawAnalyzer.cc:800

HcalCalibrationEventTypes.h

CMTRawAnalyzer::h_2DsumTSmeanALS7
TH2F * h_2DsumTSmeanALS7
Definition: CMTRawAnalyzer.cc:1530

CMTRawAnalyzer::h_mapDepth2_HE
TH2F * h_mapDepth2_HE
Definition: CMTRawAnalyzer.cc:1226

HcalDetId
Definition: HcalDetId.h:12

CMTRawAnalyzer::h_sum0ADCAmplperLS1
TH1F * h_sum0ADCAmplperLS1
Definition: CMTRawAnalyzer.cc:1386

CMTRawAnalyzer::h_error7_HB
TH1F * h_error7_HB
Definition: CMTRawAnalyzer.cc:763

CMTRawAnalyzer::h_sumamplitude_depth2_HE1
TH1F * h_sumamplitude_depth2_HE1
Definition: CMTRawAnalyzer.cc:1880

CMTRawAnalyzer::h_TSmaxA_HO
TH1F * h_TSmaxA_HO
Definition: CMTRawAnalyzer.cc:1021

CMTRawAnalyzer::h_sumADCAmplperLS8_M1
TH1F * h_sumADCAmplperLS8_M1
Definition: CMTRawAnalyzer.cc:1471

CMTRawAnalyzer::h_maprphinorm2_HE5
TH2F * h_maprphinorm2_HE5
Definition: CMTRawAnalyzer.cc:2062

CMTRawAnalyzer::h_mapDepth2TSmaxA_HE
TH2F * h_mapDepth2TSmaxA_HE
Definition: CMTRawAnalyzer.cc:1175

CMTRawAnalyzer::h_bcnnbadchannels_depth1_HB
TH1F * h_bcnnbadchannels_depth1_HB
Definition: CMTRawAnalyzer.cc:1081

HcalDetId.h

CMTRawAnalyzer::h_2DsumTSmaxALS1
TH2F * h_2DsumTSmaxALS1
Definition: CMTRawAnalyzer.cc:1542

CMTRawAnalyzer::h_sumPedestalLS1
TH1F * h_sumPedestalLS1
Definition: CMTRawAnalyzer.cc:1319

CMTRawAnalyzer::h_sumADCAmplperLS1
TH1F * h_sumADCAmplperLS1
Definition: CMTRawAnalyzer.cc:1383

HcalDetId::ieta
constexpr int ieta() const
get the cell ieta
Definition: HcalDetId.h:155

CMTRawAnalyzer::h_mapDepth2Amplitude_HF
TH2F * h_mapDepth2Amplitude_HF
Definition: CMTRawAnalyzer.cc:986

CMTRawAnalyzer::h_mapADCCalib_HB
TH2F * h_mapADCCalib_HB
Definition: CMTRawAnalyzer.cc:1247

CMTRawAnalyzer::h_2DsumADCAmplLS3
TH2F * h_2DsumADCAmplLS3
Definition: CMTRawAnalyzer.cc:1395

CMTRawAnalyzer::h_mapDepth1Ampl_HF
TH2F * h_mapDepth1Ampl_HF
Definition: CMTRawAnalyzer.cc:996

CMTRawAnalyzer::h_mapADCAmpl12secondpeak_HE
TH2F * h_mapADCAmpl12secondpeak_HE
Definition: CMTRawAnalyzer.cc:1140

mathSSE::sqrt
T sqrt(T t)
Definition: SSEVec.h:19

CMTRawAnalyzer::h_mapDepth1TSmeanA225_HB
TH2F * h_mapDepth1TSmeanA225_HB
Definition: CMTRawAnalyzer.cc:872

CMTRawAnalyzer::recordHistoes_
bool recordHistoes_
Definition: CMTRawAnalyzer.cc:466

CMTRawAnalyzer::h_ADCAmpl345_HB
TH1F * h_ADCAmpl345_HB
Definition: CMTRawAnalyzer.cc:850

CMTRawAnalyzer::calibrTSmaxHEMin_
double calibrTSmaxHEMin_
Definition: CMTRawAnalyzer.cc:634

CMTRawAnalyzer::calibrRatioHFMax_
double calibrRatioHFMax_
Definition: CMTRawAnalyzer.cc:632

CMTRawAnalyzer::h_sum0ErrorBperLS1
TH1F * h_sum0ErrorBperLS1
Definition: CMTRawAnalyzer.cc:1961

CMTRawAnalyzer::h_recNoiseEnergy0_HE4
TH2F * h_recNoiseEnergy0_HE4
Definition: CMTRawAnalyzer.cc:2136

CMTRawAnalyzer::h_amplitudechannel2_HB3
TH2F * h_amplitudechannel2_HB3
Definition: CMTRawAnalyzer.cc:2183

CMTRawAnalyzer::h_sumTSmaxAperLS6
TH1F * h_sumTSmaxAperLS6
Definition: CMTRawAnalyzer.cc:1574

CMTRawAnalyzer::studyDiffAmplHist_
bool studyDiffAmplHist_
Definition: CMTRawAnalyzer.cc:473

CMTRawAnalyzer::h_runnbadchannels_depth2_HB
TH1F * h_runnbadchannels_depth2_HB
Definition: CMTRawAnalyzer.cc:1040

CMTRawAnalyzer::h_mapDepth3Amplitude_HF
TH2F * h_mapDepth3Amplitude_HF
Definition: CMTRawAnalyzer.cc:989

CMTRawAnalyzer::h1_TSnVsAyear2023_HB
TH1F * h1_TSnVsAyear2023_HB
Definition: CMTRawAnalyzer.cc:2259

CMTRawAnalyzer::h_2DsumADCAmplLS1
TH2F * h_2DsumADCAmplLS1
Definition: CMTRawAnalyzer.cc:1381

CMTRawAnalyzer::h_shape0_Alow_HB2
TH1F * h_shape0_Alow_HB2
Definition: CMTRawAnalyzer.cc:1840

CMTRawAnalyzer::h_WidthCalib_HO
TH1F * h_WidthCalib_HO
Definition: CMTRawAnalyzer.cc:1291

CMTRawAnalyzer::h_sumTSmeanAperLS2
TH1F * h_sumTSmeanAperLS2
Definition: CMTRawAnalyzer.cc:1501

CMTRawAnalyzer::TSpeakHBMin_
double TSpeakHBMin_
Definition: CMTRawAnalyzer.cc:590

CMTRawAnalyzer::tokTopo_
const edm::ESGetToken< HcalTopology, HcalRecNumberingRecord > tokTopo_
Definition: CMTRawAnalyzer.cc:456

CMTRawAnalyzer::h_mapDepth4Amplitude225_HO
TH2F * h_mapDepth4Amplitude225_HO
Definition: CMTRawAnalyzer.cc:1026

CMTRawAnalyzer::h_sumamplitude_depth1_HB0
TH1F * h_sumamplitude_depth1_HB0
Definition: CMTRawAnalyzer.cc:1869

CMTRawAnalyzer::h_2D0sumTSmeanALS2
TH2F * h_2D0sumTSmeanALS2
Definition: CMTRawAnalyzer.cc:1503

CaloSubdetectorGeometry.h

CMTRawAnalyzer::h_sumamplitude_depth3_HE1
TH1F * h_sumamplitude_depth3_HE1
Definition: CMTRawAnalyzer.cc:1881

CMTRawAnalyzer::h_corrforxaADDI0_HE
TH1F * h_corrforxaADDI0_HE
Definition: CMTRawAnalyzer.cc:1117

CMTRawAnalyzer::h_mapDepth5ADCAmpl12_HE
TH2F * h_mapDepth5ADCAmpl12_HE
Definition: CMTRawAnalyzer.cc:921

CMTRawAnalyzer::pedestalHBMax_
double pedestalHBMax_
Definition: CMTRawAnalyzer.cc:676

CMTRawAnalyzer::h2_amplvsped_HB
TH2F * h2_amplvsped_HB
Definition: CMTRawAnalyzer.cc:1806

CMTRawAnalyzer::h_eventamplitude_HO
TH1F * h_eventamplitude_HO
Definition: CMTRawAnalyzer.cc:2028

CMTRawAnalyzer::h_WidthCalib_HB
TH1F * h_WidthCalib_HB
Definition: CMTRawAnalyzer.cc:1257

CMTRawAnalyzer::lsdep_estimator4_HFdepth1_
double lsdep_estimator4_HFdepth1_
Definition: CMTRawAnalyzer.cc:567

CMTRawAnalyzer::h_mapDepth5ADCAmpl_HE
TH2F * h_mapDepth5ADCAmpl_HE
Definition: CMTRawAnalyzer.cc:1127

CMTRawAnalyzer::h_AmplitudeHBrest
TH1F * h_AmplitudeHBrest
Definition: CMTRawAnalyzer.cc:858

CMTRawAnalyzer::ADCAmplHEMin_
double ADCAmplHEMin_
Definition: CMTRawAnalyzer.cc:610

CMTRawAnalyzer::counterhfqie10
int counterhfqie10
Definition: CMTRawAnalyzer.cc:664

CMTRawAnalyzer::h_TSmeanCalib_HB
TH1F * h_TSmeanCalib_HB
Definition: CMTRawAnalyzer.cc:1254

CMTRawAnalyzer::h_sum0ADCAmplperLS8_P1
TH1F * h_sum0ADCAmplperLS8_P1
Definition: CMTRawAnalyzer.cc:1468

CMTRawAnalyzer::h_totalAmplitudeHOperEvent
TH1F * h_totalAmplitudeHOperEvent
Definition: CMTRawAnalyzer.cc:747

HcalFrontEndId::pixel
int pixel() const
Definition: HcalFrontEndId.h:27

CMTRawAnalyzer::h_mapDepth1Ampl047_HE
TH2F * h_mapDepth1Ampl047_HE
Definition: CMTRawAnalyzer.cc:1204

CMTRawAnalyzer::h_mapDepth2Ped2_HF
TH2F * h_mapDepth2Ped2_HF
Definition: CMTRawAnalyzer.cc:1935

CMTRawAnalyzer::h_sumCutADCAmplperLS2
TH1F * h_sumCutADCAmplperLS2
Definition: CMTRawAnalyzer.cc:1391

CMTRawAnalyzer::howmanybinsonplots_
int howmanybinsonplots_
Definition: CMTRawAnalyzer.cc:500

CMTRawAnalyzer::h_mapDepth3Pedw3_HE
TH2F * h_mapDepth3Pedw3_HE
Definition: CMTRawAnalyzer.cc:1924

CMTRawAnalyzer::h_error7_HO
TH1F * h_error7_HO
Definition: CMTRawAnalyzer.cc:820

CMTRawAnalyzer::h_mapDepth4Ampl_HB
TH2F * h_mapDepth4Ampl_HB
Definition: CMTRawAnalyzer.cc:908

CMTRawAnalyzer::h_errorGeneral_HB
TH1F * h_errorGeneral_HB
Definition: CMTRawAnalyzer.cc:756

CMTRawAnalyzer::calibrADCHBMin_
double calibrADCHBMin_
Definition: CMTRawAnalyzer.cc:617

HcalLogicalMap
Definition: HcalLogicalMap.h:12

CMTRawAnalyzer::h_sumAmplitudeperLS6
TH1F * h_sumAmplitudeperLS6
Definition: CMTRawAnalyzer.cc:1623

CMTRawAnalyzer::h_errorGeneral_HO
TH1F * h_errorGeneral_HO
Definition: CMTRawAnalyzer.cc:813

CMTRawAnalyzer::h_difpedestal2_HB
TH1F * h_difpedestal2_HB
Definition: CMTRawAnalyzer.cc:1783

CMTRawAnalyzer::h_AamplitudewithPedSubtr_RADDAM_HEzoom0
TH1F * h_AamplitudewithPedSubtr_RADDAM_HEzoom0
Definition: CMTRawAnalyzer.cc:2233

CMTRawAnalyzer::h_shape_Alow_HB0
TH1F * h_shape_Alow_HB0
Definition: CMTRawAnalyzer.cc:1831

CMTRawAnalyzer::h_2DsumTSmaxALS8
TH2F * h_2DsumTSmaxALS8
Definition: CMTRawAnalyzer.cc:1585

CMTRawAnalyzer::h_maprphinorm0_HE3
TH2F * h_maprphinorm0_HE3
Definition: CMTRawAnalyzer.cc:2067

CMTRawAnalyzer::h_mapDepth6Amplitude_HE
TH2F * h_mapDepth6Amplitude_HE
Definition: CMTRawAnalyzer.cc:1194

CMTRawAnalyzer::h_mapenophinorm_HE5
TH2F * h_mapenophinorm_HE5
Definition: CMTRawAnalyzer.cc:2041

CMTRawAnalyzer::h_sumAmplitudeLS5
TH1F * h_sumAmplitudeLS5
Definition: CMTRawAnalyzer.cc:1615

CMTRawAnalyzer::h_map0AiForLS_bad_HF
TH2F * h_map0AiForLS_bad_HF
Definition: CMTRawAnalyzer.cc:725

L1GlobalTriggerReadoutRecord.h

CMTRawAnalyzer::h_recSignalEnergy2_HF3
TH2F * h_recSignalEnergy2_HF3
Definition: CMTRawAnalyzer.cc:2157

CMTRawAnalyzer::h_sumErrorBLS5
TH1F * h_sumErrorBLS5
Definition: CMTRawAnalyzer.cc:1979

CMTRawAnalyzer::h_sumCutTSmeanAperLS5
TH1F * h_sumCutTSmeanAperLS5
Definition: CMTRawAnalyzer.cc:1520

CMTRawAnalyzer::h_sum0ADCAmplperLS2
TH1F * h_sum0ADCAmplperLS2
Definition: CMTRawAnalyzer.cc:1393

CMTRawAnalyzer::h_shape_good_channels_HO
TH1F * h_shape_good_channels_HO
Definition: CMTRawAnalyzer.cc:1859

CMTRawAnalyzer::averNOSIGNALsumamplitude_HB
double averNOSIGNALsumamplitude_HB
Definition: CMTRawAnalyzer.cc:2340

CMTRawAnalyzer::h_timecorr_HF
TH1F * h_timecorr_HF
Definition: CMTRawAnalyzer.cc:1793

CMTRawAnalyzer::h_mapDepth1Pedw1_HB
TH2F * h_mapDepth1Pedw1_HB
Definition: CMTRawAnalyzer.cc:1890

CMTRawAnalyzer::usePedestalSubtraction_
bool usePedestalSubtraction_
Definition: CMTRawAnalyzer.cc:478

CMTRawAnalyzer::h_mapDepth2Pedw2_HF
TH2F * h_mapDepth2Pedw2_HF
Definition: CMTRawAnalyzer.cc:1939

CMTRawAnalyzer::h1_TSnVsAyear20230_HE
TH1F * h1_TSnVsAyear20230_HE
Definition: CMTRawAnalyzer.cc:2264

CMTRawAnalyzer::h_mapDepth4_HF
TH2F * h_mapDepth4_HF
Definition: CMTRawAnalyzer.cc:1009

CMTRawAnalyzer::ADCAmplHFMax_
double ADCAmplHFMax_
Definition: CMTRawAnalyzer.cc:616

CMTRawAnalyzer::h_mapTSmeanCalib047_HF
TH2F * h_mapTSmeanCalib047_HF
Definition: CMTRawAnalyzer.cc:1306

CMTRawAnalyzer::h_totalAmplitudeHO
TH1F * h_totalAmplitudeHO
Definition: CMTRawAnalyzer.cc:743

HcalTimeCorr::getValue
float getValue() const
Definition: HcalTimeCorr.h:19

CMTRawAnalyzer::h_numberofhitsHFtest
TH1F * h_numberofhitsHFtest
Definition: CMTRawAnalyzer.cc:730

CMTRawAnalyzer::h_mapTSmaxCalib047_HE
TH2F * h_mapTSmaxCalib047_HE
Definition: CMTRawAnalyzer.cc:1269

CMTRawAnalyzer::h_runbadrate0_depth1_HF
TH1F * h_runbadrate0_depth1_HF
Definition: CMTRawAnalyzer.cc:1074

CMTRawAnalyzer::h_mapDepth2Pedw0_HF
TH2F * h_mapDepth2Pedw0_HF
Definition: CMTRawAnalyzer.cc:1937

CMTRawAnalyzer::h_Ampl_HE
TH1F * h_Ampl_HE
Definition: CMTRawAnalyzer.cc:1203

CMTRawAnalyzer::h_maprphinorm2_HE1
TH2F * h_maprphinorm2_HE1
Definition: CMTRawAnalyzer.cc:2058

CMTRawAnalyzer::h_timecorr_HE
TH1F * h_timecorr_HE
Definition: CMTRawAnalyzer.cc:1788

CMTRawAnalyzer::h_amplitudechannel0_HF1
TH2F * h_amplitudechannel0_HF1
Definition: CMTRawAnalyzer.cc:2208

CMTRawAnalyzer::calibrTSmeanHOMin_
double calibrTSmeanHOMin_
Definition: CMTRawAnalyzer.cc:643

CMTRawAnalyzer::h_NphiForEta16Depth3RADDAM_HED2P
TH1F * h_NphiForEta16Depth3RADDAM_HED2P
Definition: CMTRawAnalyzer.cc:2243

CMTRawAnalyzer::h_sigLayer2RADDAM_HE
TH1F * h_sigLayer2RADDAM_HE
Definition: CMTRawAnalyzer.cc:2225

CMTRawAnalyzer::h_mapDepth4ADCAmpl_HO
TH2F * h_mapDepth4ADCAmpl_HO
Definition: CMTRawAnalyzer.cc:1016

CMTRawAnalyzer::h_sum0ADCAmplperLS6_P1
TH1F * h_sum0ADCAmplperLS6_P1
Definition: CMTRawAnalyzer.cc:1460

CMTRawAnalyzer::h_recNoiseEnergy0_HB1
TH2F * h_recNoiseEnergy0_HB1
Definition: CMTRawAnalyzer.cc:2093

CMTRawAnalyzer::h_AmplitudeHOtest
TH1F * h_AmplitudeHOtest
Definition: CMTRawAnalyzer.cc:739

CMTRawAnalyzer::h_amplitudechannel0_HF3
TH2F * h_amplitudechannel0_HF3
Definition: CMTRawAnalyzer.cc:2214

CMTRawAnalyzer::h_mapDepth2ADCAmpl225Copy_HB
TH2F * h_mapDepth2ADCAmpl225Copy_HB
Definition: CMTRawAnalyzer.cc:830

CMTRawAnalyzer::h_mapDepth7pedestalw_HE
TH2F * h_mapDepth7pedestalw_HE
Definition: CMTRawAnalyzer.cc:1754

CMTRawAnalyzer::h_2D0sumTSmaxALS3
TH2F * h_2D0sumTSmaxALS3
Definition: CMTRawAnalyzer.cc:1558

CMTRawAnalyzer::h_sumCutADCAmplperLSdepth3HBu
TH1F * h_sumCutADCAmplperLSdepth3HBu
Definition: CMTRawAnalyzer.cc:1436

CMTRawAnalyzer::h_amplitudechannel1_HF1
TH2F * h_amplitudechannel1_HF1
Definition: CMTRawAnalyzer.cc:2209

CMTRawAnalyzer::h_ADCAmpl_HBCapIdNoError
TH1F * h_ADCAmpl_HBCapIdNoError
Definition: CMTRawAnalyzer.cc:851

CMTRawAnalyzer::analyze
void analyze(const edm::Event &, const edm::EventSetup &) override
Definition: CMTRawAnalyzer.cc:2690

CMTRawAnalyzer::caliba
double caliba[ndepth][neta][nphi]
Definition: CMTRawAnalyzer.cc:2270

HcalFrontEndId::rbx
std::string rbx() const
Definition: HcalFrontEndId.cc:63

adc2fC_QIE10
double const adc2fC_QIE10[256]
Definition: CMTRawAnalyzer.cc:67

bphi
const float bphi
Definition: CMTRawAnalyzer.cc:419

CMTRawAnalyzer::h_2D0sumAmplitudeLS8
TH2F * h_2D0sumAmplitudeLS8
Definition: CMTRawAnalyzer.cc:1637

CMTRawAnalyzer::h_2DsumADCAmplLS4
TH2F * h_2DsumADCAmplLS4
Definition: CMTRawAnalyzer.cc:1402

CMTRawAnalyzer::h_sumCutADCAmplperLS3
TH1F * h_sumCutADCAmplperLS3
Definition: CMTRawAnalyzer.cc:1398

CMTRawAnalyzer::averNOSIGNALoccupancy_HE
double averNOSIGNALoccupancy_HE
Definition: CMTRawAnalyzer.cc:2337

CMTRawAnalyzer::h_recSignalEnergy1_HB3
TH2F * h_recSignalEnergy1_HB3
Definition: CMTRawAnalyzer.cc:2088

CMTRawAnalyzer::h_recSignalEnergy0_HB3
TH2F * h_recSignalEnergy0_HB3
Definition: CMTRawAnalyzer.cc:2087

CMTRawAnalyzer::h_mapDepth6ADCAmpl225_HE
TH2F * h_mapDepth6ADCAmpl225_HE
Definition: CMTRawAnalyzer.cc:1156

CMTRawAnalyzer::recordNtuples_
bool recordNtuples_
Definition: CMTRawAnalyzer.cc:464

CMTRawAnalyzer::studyCalibCellsHist_
bool studyCalibCellsHist_
Definition: CMTRawAnalyzer.cc:474

CMTRawAnalyzer::h_recSignalEnergy1_HB1
TH2F * h_recSignalEnergy1_HB1
Definition: CMTRawAnalyzer.cc:2082

CMTRawAnalyzer::h_recNoiseEnergy1_HF1
TH2F * h_recNoiseEnergy1_HF1
Definition: CMTRawAnalyzer.cc:2163

HcalDigiCollections.h

funct::abs
Abs< T >::type abs(const T &t)
Definition: Abs.h:22

anpfit
const float anpfit
Definition: CMTRawAnalyzer.cc:423

CMTRawAnalyzer::h_error3_HF
TH1F * h_error3_HF
Definition: CMTRawAnalyzer.cc:798

CMTRawAnalyzer::h_mapDepth7TS2_HE
TH2F * h_mapDepth7TS2_HE
Definition: CMTRawAnalyzer.cc:946

HcalBarrel
Definition: HcalAssistant.h:33

CMTRawAnalyzer::rmsHEMin_
double rmsHEMin_
Definition: CMTRawAnalyzer.cc:583

CMTRawAnalyzer::h_ADCAmplrest1_HF
TH1F * h_ADCAmplrest1_HF
Definition: CMTRawAnalyzer.cc:955

CMTRawAnalyzer::h_Amplitude_notCapIdErrors_HB2
TH1F * h_Amplitude_notCapIdErrors_HB2
Definition: CMTRawAnalyzer.cc:1106

CMTRawAnalyzer::h_fiber2_HB
TH1F * h_fiber2_HB
Definition: CMTRawAnalyzer.cc:772

CMTRawAnalyzer::h_energyhitSignal_HE
TH1F * h_energyhitSignal_HE
Definition: CMTRawAnalyzer.cc:2075

CMTRawAnalyzer::h_runbadrateC_depth1_HE
TH1F * h_runbadrateC_depth1_HE
Definition: CMTRawAnalyzer.cc:1049

CMTRawAnalyzer::h_orbitNumvsamplitude0_HF
TH1F * h_orbitNumvsamplitude0_HF
Definition: CMTRawAnalyzer.cc:694

CMTRawAnalyzer::sumEstimator1
double sumEstimator1[nsub][ndepth][neta][nphi]
Definition: CMTRawAnalyzer.cc:2279

CMTRawAnalyzer::h_maprphinorm_HE5
TH2F * h_maprphinorm_HE5
Definition: CMTRawAnalyzer.cc:2055

CMTRawAnalyzer::h_2DsumAmplitudeLS8
TH2F * h_2DsumAmplitudeLS8
Definition: CMTRawAnalyzer.cc:1634

CMTRawAnalyzer::h_pedvsampl0_HE
TH1F * h_pedvsampl0_HE
Definition: CMTRawAnalyzer.cc:1815

CMTRawAnalyzer::h_mapDepth3Amplitude225_HF
TH2F * h_mapDepth3Amplitude225_HF
Definition: CMTRawAnalyzer.cc:991

CMTRawAnalyzer::pedestalHEMax_
double pedestalHEMax_
Definition: CMTRawAnalyzer.cc:677

CMTRawAnalyzer::h_mapDepth3TSmeanA225_HE
TH2F * h_mapDepth3TSmeanA225_HE
Definition: CMTRawAnalyzer.cc:1168

testProducerWithPsetDescEmpty_cfi.a2
a2
Definition: testProducerWithPsetDescEmpty_cfi.py:35

adc2fC
static const float adc2fC[128]
Definition: CMTRawAnalyzer.cc:404

CMTRawAnalyzer::h_amplFine_HO
TH1F * h_amplFine_HO
Definition: CMTRawAnalyzer.cc:822

CMTRawAnalyzer::h_sumADCAmplperLS1_P2
TH1F * h_sumADCAmplperLS1_P2
Definition: CMTRawAnalyzer.cc:1445

CMTRawAnalyzer::h_mapDepth2Ampl_HB
TH2F * h_mapDepth2Ampl_HB
Definition: CMTRawAnalyzer.cc:900

CMTRawAnalyzer::pedestalwHOMax_
double pedestalwHOMax_
Definition: CMTRawAnalyzer.cc:675

CMTRawAnalyzer::h_runbadrate0_depth2_HF
TH1F * h_runbadrate0_depth2_HF
Definition: CMTRawAnalyzer.cc:1080

CMTRawAnalyzer::h_pedestal3_HE
TH1F * h_pedestal3_HE
Definition: CMTRawAnalyzer.cc:1711

CMTRawAnalyzer::h_error2_HO
TH1F * h_error2_HO
Definition: CMTRawAnalyzer.cc:815

CMTRawAnalyzer::h_sumTSmaxALS1
TH1F * h_sumTSmaxALS1
Definition: CMTRawAnalyzer.cc:1541

CMTRawAnalyzer::h_mapDepth2Amplitude_HE
TH2F * h_mapDepth2Amplitude_HE
Definition: CMTRawAnalyzer.cc:1190

CMTRawAnalyzer::testmetka
int testmetka
Definition: CMTRawAnalyzer.cc:2374

CMTRawAnalyzer::h_sum0ADCAmplperLS6
TH1F * h_sum0ADCAmplperLS6
Definition: CMTRawAnalyzer.cc:1421

CMTRawAnalyzer::flagLaserRaddam_
int flagLaserRaddam_
Definition: CMTRawAnalyzer.cc:494

Service.h

CMTRawAnalyzer::calibw
double calibw[ndepth][neta][nphi]
Definition: CMTRawAnalyzer.cc:2271

CMTRawAnalyzer::h_mapDepth1_HE
TH2F * h_mapDepth1_HE
Definition: CMTRawAnalyzer.cc:1225

CMTRawAnalyzer::h_mapADCCalib_HE
TH2F * h_mapADCCalib_HE
Definition: CMTRawAnalyzer.cc:1264

CMTRawAnalyzer::h_nevents_per_eachLS
TH1F * h_nevents_per_eachLS
Definition: CMTRawAnalyzer.cc:1316

CMTRawAnalyzer::h_recSignalEnergy2_HF4
TH2F * h_recSignalEnergy2_HF4
Definition: CMTRawAnalyzer.cc:2160

CMTRawAnalyzer::h_recSignalEnergy0_HF2
TH2F * h_recSignalEnergy0_HF2
Definition: CMTRawAnalyzer.cc:2152

CMTRawAnalyzer::tok_qie11_
edm::EDGetTokenT< QIE11DigiCollection > tok_qie11_
Definition: CMTRawAnalyzer.cc:446

CMTRawAnalyzer::h_2DsumADCAmplEtaPhiLs20
TH2F * h_2DsumADCAmplEtaPhiLs20
Definition: CMTRawAnalyzer.cc:703

CMTRawAnalyzer::h_ADCAmpl345_HBCapIdNoError
TH1F * h_ADCAmpl345_HBCapIdNoError
Definition: CMTRawAnalyzer.cc:852

CMTRawAnalyzer::h_amplitudechannel1_HE6
TH2F * h_amplitudechannel1_HE6
Definition: CMTRawAnalyzer.cc:2203

CMTRawAnalyzer::h_mapADCCalib_HO
TH2F * h_mapADCCalib_HO
Definition: CMTRawAnalyzer.cc:1281

CMTRawAnalyzer::h_amplitudechannel2_HE3
TH2F * h_amplitudechannel2_HE3
Definition: CMTRawAnalyzer.cc:2195

CMTRawAnalyzer::h_mapDepth7Amplitude225_HE
TH2F * h_mapDepth7Amplitude225_HE
Definition: CMTRawAnalyzer.cc:1202

CMTRawAnalyzer::h_mapDepth3ADCAmpl12_HB
TH2F * h_mapDepth3ADCAmpl12_HB
Definition: CMTRawAnalyzer.cc:915

FEDTrailer.h

CMTRawAnalyzer::lsdep_cut1_peak_HBdepth2_
int lsdep_cut1_peak_HBdepth2_
Definition: CMTRawAnalyzer.cc:511

CMTRawAnalyzer::h_mapDepth4Ped0_HO
TH2F * h_mapDepth4Ped0_HO
Definition: CMTRawAnalyzer.cc:1941

CMTRawAnalyzer::h_sum0TSmeanAperLS6
TH1F * h_sum0TSmeanAperLS6
Definition: CMTRawAnalyzer.cc:1528

CMTRawAnalyzer::h_pedestalw0_HO
TH1F * h_pedestalw0_HO
Definition: CMTRawAnalyzer.cc:1738

znphi
const int znphi
Definition: CMTRawAnalyzer.cc:421

CMTRawAnalyzer::h_sum0TSmaxAperLS1
TH1F * h_sum0TSmaxAperLS1
Definition: CMTRawAnalyzer.cc:1547

CMTRawAnalyzer::h_fiber0_HB
TH1F * h_fiber0_HB
Definition: CMTRawAnalyzer.cc:770

DEFINE_FWK_MODULE
#define DEFINE_FWK_MODULE(type)
Definition: MakerMacros.h:16

CMTRawAnalyzer::lsdep_estimator1_HBdepth2_
double lsdep_estimator1_HBdepth2_
Definition: CMTRawAnalyzer.cc:528

CMTRawAnalyzer::h_2D0sumADCAmplLSdepth3HBu
TH2F * h_2D0sumADCAmplLSdepth3HBu
Definition: CMTRawAnalyzer.cc:1372

CMTRawAnalyzer::h_runbadrate_depth1_HE
TH1F * h_runbadrate_depth1_HE
Definition: CMTRawAnalyzer.cc:1048

CMTRawAnalyzer::h_sumADCAmplperLS6_M1
TH1F * h_sumADCAmplperLS6_M1
Definition: CMTRawAnalyzer.cc:1463

CMTRawAnalyzer::h_recNoiseEnergy2_HF3
TH2F * h_recNoiseEnergy2_HF3
Definition: CMTRawAnalyzer.cc:2170

HcalDbService::getHcalLUTCorr
const HcalLUTCorr * getHcalLUTCorr(const HcalGenericDetId &fId) const
Definition: HcalDbService.cc:366

edm::EventSetup
Definition: EventSetup.h:56

CMTRawAnalyzer::h_mapTSmaxCalib_HB
TH2F * h_mapTSmaxCalib_HB
Definition: CMTRawAnalyzer.cc:1253

CMTRawAnalyzer::h_maxxSUMAmpl_HF
TH1F * h_maxxSUMAmpl_HF
Definition: CMTRawAnalyzer.cc:2015

CMTRawAnalyzer::h_amplitudechannel2_HE1
TH2F * h_amplitudechannel2_HE1
Definition: CMTRawAnalyzer.cc:2189

CMTRawAnalyzer::h_2D0sumTSmeanALS4
TH2F * h_2D0sumTSmeanALS4
Definition: CMTRawAnalyzer.cc:1515

CMTRawAnalyzer::h_error1
TH1F * h_error1
Definition: CMTRawAnalyzer.cc:751

CMTRawAnalyzer::h_mapDepth2TSmeanA225_HB
TH2F * h_mapDepth2TSmeanA225_HB
Definition: CMTRawAnalyzer.cc:873

CMTRawAnalyzer::h_sumTSmaxALS3
TH1F * h_sumTSmaxALS3
Definition: CMTRawAnalyzer.cc:1554

CMTRawAnalyzer::h_errorGeneral
TH1F * h_errorGeneral
Definition: CMTRawAnalyzer.cc:750

CMTRawAnalyzer::h_sumTSmaxALS7
TH1F * h_sumTSmaxALS7
Definition: CMTRawAnalyzer.cc:1578

CMTRawAnalyzer::h_mapDepth1ADCAmpl12_HB
TH2F * h_mapDepth1ADCAmpl12_HB
Definition: CMTRawAnalyzer.cc:913

CMTRawAnalyzer::h_mapDepth1Pedw2_HF
TH2F * h_mapDepth1Pedw2_HF
Definition: CMTRawAnalyzer.cc:1931

CMTRawAnalyzer::averNOSIGNALsumamplitude_HF
double averNOSIGNALsumamplitude_HF
Definition: CMTRawAnalyzer.cc:2342

CMTRawAnalyzer::h_pedestalw3_HF
TH1F * h_pedestalw3_HF
Definition: CMTRawAnalyzer.cc:1729

CMTRawAnalyzer::h_mapDepth5Amplitude225_HE
TH2F * h_mapDepth5Amplitude225_HE
Definition: CMTRawAnalyzer.cc:1200

CMTRawAnalyzer::h_mapDepth2ADCAmpl12_HB
TH2F * h_mapDepth2ADCAmpl12_HB
Definition: CMTRawAnalyzer.cc:914

CMTRawAnalyzer::h_map0AiForLS_good_HF
TH2F * h_map0AiForLS_good_HF
Definition: CMTRawAnalyzer.cc:727

CMTRawAnalyzer::h_2D0sumADCAmplLS5
TH2F * h_2D0sumADCAmplLS5
Definition: CMTRawAnalyzer.cc:1413

CMTRawAnalyzer::h_mapenophinorm2_HE7
TH2F * h_mapenophinorm2_HE7
Definition: CMTRawAnalyzer.cc:2050

CMTRawAnalyzer::h_sumTSmeanALS7
TH1F * h_sumTSmeanALS7
Definition: CMTRawAnalyzer.cc:1529

CMTRawAnalyzer::h_mapDepth2TSmeanA225_HF
TH2F * h_mapDepth2TSmeanA225_HF
Definition: CMTRawAnalyzer.cc:970

HcalForward
Definition: HcalAssistant.h:36

CMTRawAnalyzer::h_mapDepth5TSmaxA225_HE
TH2F * h_mapDepth5TSmaxA225_HE
Definition: CMTRawAnalyzer.cc:1185

CMTRawAnalyzer::h_averNOSIGNALoccupancy_HO
TH1F * h_averNOSIGNALoccupancy_HO
Definition: CMTRawAnalyzer.cc:2008

QIE10DataFrame.h

CMTRawAnalyzer::h_runnbadchannelsC_depth2_HB
TH1F * h_runnbadchannelsC_depth2_HB
Definition: CMTRawAnalyzer.cc:1041

edm::SortedCollection::begin
const_iterator begin() const
Definition: SortedCollection.h:262

CMTRawAnalyzer::h_sumphiEta16Depth3RADDAM_HED2ALL
TH1F * h_sumphiEta16Depth3RADDAM_HED2ALL
Definition: CMTRawAnalyzer.cc:2244

CMTRawAnalyzer::h_recNoiseEnergy2_HE7
TH2F * h_recNoiseEnergy2_HE7
Definition: CMTRawAnalyzer.cc:2147

CMTRawAnalyzer::h_pedestalw0_HB
TH1F * h_pedestalw0_HB
Definition: CMTRawAnalyzer.cc:1702

CMTRawAnalyzer::h_sum0ADCAmplperLS8
TH1F * h_sum0ADCAmplperLS8
Definition: CMTRawAnalyzer.cc:1491

CMTRawAnalyzer::h_mapenophinorm_HE1
TH2F * h_mapenophinorm_HE1
Definition: CMTRawAnalyzer.cc:2037

CMTRawAnalyzer::h_mapDepth5_HE
TH2F * h_mapDepth5_HE
Definition: CMTRawAnalyzer.cc:1229

CMTRawAnalyzer::h_sumAmplitudeperLS1_LSselected
TH1F * h_sumAmplitudeperLS1_LSselected
Definition: CMTRawAnalyzer.cc:1593

CMTRawAnalyzer::h_mapDepth1Pedw0_HF
TH2F * h_mapDepth1Pedw0_HF
Definition: CMTRawAnalyzer.cc:1929

gen
Definition: PythiaDecays.h:13

NUMADCS
#define NUMADCS
Definition: CMTRawAnalyzer.cc:66

CMTRawAnalyzer::h_mapDepth2TSmaxA_HF
TH2F * h_mapDepth2TSmaxA_HF
Definition: CMTRawAnalyzer.cc:977

CMTRawAnalyzer::h_sumCutAmplitudeperLS3
TH1F * h_sumCutAmplitudeperLS3
Definition: CMTRawAnalyzer.cc:1606

CMTRawAnalyzer::lsdep_estimator5_HBdepth2_
double lsdep_estimator5_HBdepth2_
Definition: CMTRawAnalyzer.cc:572

HcalCoderDb
Definition: HcalCoderDb.h:15

CMTRawAnalyzer::h_sumamplitude_depth3_HE0
TH1F * h_sumamplitude_depth3_HE0
Definition: CMTRawAnalyzer.cc:1873

CMTRawAnalyzer::h_shape0_Ahigh_HB2
TH1F * h_shape0_Ahigh_HB2
Definition: CMTRawAnalyzer.cc:1838

CMTRawAnalyzer::usecontinuousnumbering_
bool usecontinuousnumbering_
Definition: CMTRawAnalyzer.cc:482

CMTRawAnalyzer::h_AmplitudeHBtest1
TH1F * h_AmplitudeHBtest1
Definition: CMTRawAnalyzer.cc:733

CMTRawAnalyzer::h_mapDepth3pedestalw_HE
TH2F * h_mapDepth3pedestalw_HE
Definition: CMTRawAnalyzer.cc:1750

CMTRawAnalyzer::h_averNOSIGNALoccupancy_HB
TH1F * h_averNOSIGNALoccupancy_HB
Definition: CMTRawAnalyzer.cc:2005

HcalPedestalWidth::getSigma
float getSigma(int fCapId1, int fCapId2) const
get correlation element for capId1/2 = 0..3
Definition: HcalPedestalWidth.cc:33

CMTRawAnalyzer::h_ADCAmpl_HBCapIdError
TH1F * h_ADCAmpl_HBCapIdError
Definition: CMTRawAnalyzer.cc:853

CMTRawAnalyzer::h_2DsumADCAmplLS3_LSselected
TH2F * h_2DsumADCAmplLS3_LSselected
Definition: CMTRawAnalyzer.cc:1396

CMTRawAnalyzer::h_map_HE
TH2F * h_map_HE
Definition: CMTRawAnalyzer.cc:1277

CMTRawAnalyzer::h_runnbadchannels_depth2_HE
TH1F * h_runnbadchannels_depth2_HE
Definition: CMTRawAnalyzer.cc:1052

CMTRawAnalyzer::h_sumADCAmplperLSdepth5HEu
TH1F * h_sumADCAmplperLSdepth5HEu
Definition: CMTRawAnalyzer.cc:1423

PedestalClient_cfi.gain
gain
Definition: PedestalClient_cfi.py:37

CMTRawAnalyzer::h_mapDepth2Ped3_HB
TH2F * h_mapDepth2Ped3_HB
Definition: CMTRawAnalyzer.cc:1896

CMTRawAnalyzer::h_averSIGNALoccupancy_HO
TH1F * h_averSIGNALoccupancy_HO
Definition: CMTRawAnalyzer.cc:2000

CMTRawAnalyzer::h_difpedestal0_HB
TH1F * h_difpedestal0_HB
Definition: CMTRawAnalyzer.cc:1781

CMTRawAnalyzer::h_sum0AmplperLS1
TH1F * h_sum0AmplperLS1
Definition: CMTRawAnalyzer.cc:1645

CMTRawAnalyzer::h_totalAmplitudeHE
TH1F * h_totalAmplitudeHE
Definition: CMTRawAnalyzer.cc:741

CMTRawAnalyzer::h_maprphinorm2_HE2
TH2F * h_maprphinorm2_HE2
Definition: CMTRawAnalyzer.cc:2059

CMTRawAnalyzer::calibrWidthHFMin_
double calibrWidthHFMin_
Definition: CMTRawAnalyzer.cc:652

CMTRawAnalyzer::h_mapDepth7TSmaxA225_HE
TH2F * h_mapDepth7TSmaxA225_HE
Definition: CMTRawAnalyzer.cc:1187

CMTRawAnalyzer::h_pedestal1_HO
TH1F * h_pedestal1_HO
Definition: CMTRawAnalyzer.cc:1733

CMTRawAnalyzer::h_shape_Ahigh_HB2
TH1F * h_shape_Ahigh_HB2
Definition: CMTRawAnalyzer.cc:1837

CMTRawAnalyzer::h_mapDepth3Ped2_HE
TH2F * h_mapDepth3Ped2_HE
Definition: CMTRawAnalyzer.cc:1919

CMTRawAnalyzer::h_mapDepth1Ped3_HF
TH2F * h_mapDepth1Ped3_HF
Definition: CMTRawAnalyzer.cc:1928

CMTRawAnalyzer::h_mapDepth6TS2_HE
TH2F * h_mapDepth6TS2_HE
Definition: CMTRawAnalyzer.cc:945

CMTRawAnalyzer::h_sumADCAmplLS1copy4
TH1F * h_sumADCAmplLS1copy4
Definition: CMTRawAnalyzer.cc:1378

ALCARECOTkAlJpsiMuMu_cff.charge
charge
Definition: ALCARECOTkAlJpsiMuMu_cff.py:47

CMTRawAnalyzer::h_mapDepth7pedestal_HE
TH2F * h_mapDepth7pedestal_HE
Definition: CMTRawAnalyzer.cc:1770

CMTRawAnalyzer::h_sumCutADCAmplperLS8
TH1F * h_sumCutADCAmplperLS8
Definition: CMTRawAnalyzer.cc:1489

CMTRawAnalyzer::h_lsnumber_per_eachLS
TH1F * h_lsnumber_per_eachLS
Definition: CMTRawAnalyzer.cc:1318

CMTRawAnalyzer::h_mapADCCalib047_HF
TH2F * h_mapADCCalib047_HF
Definition: CMTRawAnalyzer.cc:1297

CMTRawAnalyzer::amplitudechannel0
double amplitudechannel0[nsub][ndepth][neta][nphi]
Definition: CMTRawAnalyzer.cc:2288

CMTRawAnalyzer::h_gain_HO
TH1F * h_gain_HO
Definition: CMTRawAnalyzer.cc:1796

CMTRawAnalyzer::h_recNoiseEnergy1_HF2
TH2F * h_recNoiseEnergy1_HF2
Definition: CMTRawAnalyzer.cc:2166

CMTRawAnalyzer::h_Amplitude_forCapIdErrors_HO4
TH1F * h_Amplitude_forCapIdErrors_HO4
Definition: CMTRawAnalyzer.cc:1104

CMTRawAnalyzer::h_sumErrorBperLS5
TH1F * h_sumErrorBperLS5
Definition: CMTRawAnalyzer.cc:1980

CMTRawAnalyzer::flagestimatornormalization_
int flagestimatornormalization_
Definition: CMTRawAnalyzer.cc:505

CMTRawAnalyzer::h_orbitNumvsamplitude0_HO
TH1F * h_orbitNumvsamplitude0_HO
Definition: CMTRawAnalyzer.cc:696

CMTRawAnalyzer::h_mapRatioCalib_HE
TH2F * h_mapRatioCalib_HE
Definition: CMTRawAnalyzer.cc:1267

CMTRawAnalyzer::h_mapADCAmpl12firstpeak_HE
TH2F * h_mapADCAmpl12firstpeak_HE
Definition: CMTRawAnalyzer.cc:1138

CMTRawAnalyzer::h_mapADCAmplfirstpeak0_HE
TH2F * h_mapADCAmplfirstpeak0_HE
Definition: CMTRawAnalyzer.cc:1131

CMTRawAnalyzer::h_mapDepth4_HO
TH2F * h_mapDepth4_HO
Definition: CMTRawAnalyzer.cc:1031

CMTRawAnalyzer::h_sum0TSmaxAperLS6
TH1F * h_sum0TSmaxAperLS6
Definition: CMTRawAnalyzer.cc:1577

CMTRawAnalyzer::h_ADCCalib_HF
TH1F * h_ADCCalib_HF
Definition: CMTRawAnalyzer.cc:1295

HcalPedestal
Definition: HcalPedestal.h:15

CMTRawAnalyzer::h_lutcorr_HB
TH1F * h_lutcorr_HB
Definition: CMTRawAnalyzer.cc:1780

CMTRawAnalyzer::h_pedestalwaver4_HE
TH1F * h_pedestalwaver4_HE
Definition: CMTRawAnalyzer.cc:1718

CMTRawAnalyzer::recSignalEnergy0
double recSignalEnergy0[nsub][ndepth][neta][nphi]
Definition: CMTRawAnalyzer.cc:2298

CMTRawAnalyzer::h_recNoiseEnergy2_HE1
TH2F * h_recNoiseEnergy2_HE1
Definition: CMTRawAnalyzer.cc:2129

relval_steps.gen
def gen(fragment, howMuch)
Production test section ####.
Definition: relval_steps.py:675

CMTRawAnalyzer::h_shape_Ahigh_HB0
TH1F * h_shape_Ahigh_HB0
Definition: CMTRawAnalyzer.cc:1829

CMTRawAnalyzer::h_recNoiseEnergy1_HF3
TH2F * h_recNoiseEnergy1_HF3
Definition: CMTRawAnalyzer.cc:2169

CMTRawAnalyzer::h_mapDepth2TSmaxA225_HB
TH2F * h_mapDepth2TSmaxA225_HB
Definition: CMTRawAnalyzer.cc:882

CMTRawAnalyzer::h_sumAmplitudeperLS3
TH1F * h_sumAmplitudeperLS3
Definition: CMTRawAnalyzer.cc:1605

CMTRawAnalyzer::h_mapDepth4TSmaxA225_HB
TH2F * h_mapDepth4TSmaxA225_HB
Definition: CMTRawAnalyzer.cc:886

hcalRecHitTable_cff.iphi
iphi
Definition: hcalRecHitTable_cff.py:16

CMTRawAnalyzer::h_mapDepth6TSmeanA_HE
TH2F * h_mapDepth6TSmeanA_HE
Definition: CMTRawAnalyzer.cc:1164

CMTRawAnalyzer::h_sumCutADCAmplperLS6u
TH1F * h_sumCutADCAmplperLS6u
Definition: CMTRawAnalyzer.cc:1441

CMTRawAnalyzer::h_map0AiForLS_bad_HO
TH2F * h_map0AiForLS_bad_HO
Definition: CMTRawAnalyzer.cc:721

CMTRawAnalyzer::recSignalEnergy1
double recSignalEnergy1[nsub][ndepth][neta][nphi]
Definition: CMTRawAnalyzer.cc:2299

CMTRawAnalyzer::h_sumADCAmplperLS1_M2
TH1F * h_sumADCAmplperLS1_M2
Definition: CMTRawAnalyzer.cc:1449

CMTRawAnalyzer::h_sumTSmeanAperLS1_LSselected
TH1F * h_sumTSmeanAperLS1_LSselected
Definition: CMTRawAnalyzer.cc:1495

CMTRawAnalyzer::lsdep_estimator1_HBdepth4_
double lsdep_estimator1_HBdepth4_
Definition: CMTRawAnalyzer.cc:542

CMTRawAnalyzer::h_sumADCAmplperLS3_P1
TH1F * h_sumADCAmplperLS3_P1
Definition: CMTRawAnalyzer.cc:1451

CMTRawAnalyzer::h_2DsumAmplLS2
TH2F * h_2DsumAmplLS2
Definition: CMTRawAnalyzer.cc:1647

CMTRawAnalyzer::h_sumADCAmplLS1copy3
TH1F * h_sumADCAmplLS1copy3
Definition: CMTRawAnalyzer.cc:1377

CMTRawAnalyzer::h_mapDepth2Pedw2_HB
TH2F * h_mapDepth2Pedw2_HB
Definition: CMTRawAnalyzer.cc:1899

CMTRawAnalyzer::h_sum0ADCAmplperLSdepth7HEu
TH1F * h_sum0ADCAmplperLSdepth7HEu
Definition: CMTRawAnalyzer.cc:1433

CMTRawAnalyzer::nTS
int nTS
Definition: CMTRawAnalyzer.cc:2371

CMTRawAnalyzer::h_runbadrate_depth3_HE
TH1F * h_runbadrate_depth3_HE
Definition: CMTRawAnalyzer.cc:1060

CMTRawAnalyzer::h_TSmeanCalib_HO
TH1F * h_TSmeanCalib_HO
Definition: CMTRawAnalyzer.cc:1288

CMTRawAnalyzer::h_mapAiForLS_good_HB
TH2F * h_mapAiForLS_good_HB
Definition: CMTRawAnalyzer.cc:714

CMTRawAnalyzer::h_runbadrate0_depth2_HE
TH1F * h_runbadrate0_depth2_HE
Definition: CMTRawAnalyzer.cc:1056

CMTRawAnalyzer::h_mapDepth5Ampl_HE
TH2F * h_mapDepth5Ampl_HE
Definition: CMTRawAnalyzer.cc:1215

CMTRawAnalyzer::averNOSIGNALoccupancy_HO
double averNOSIGNALoccupancy_HO
Definition: CMTRawAnalyzer.cc:2339

CMTRawAnalyzer::h_lutcorr_HE
TH1F * h_lutcorr_HE
Definition: CMTRawAnalyzer.cc:1789

CMTRawAnalyzer::h_sigLayer1RADDAM_HE
TH1F * h_sigLayer1RADDAM_HE
Definition: CMTRawAnalyzer.cc:2224

CMTRawAnalyzer::h_error4_HE
TH1F * h_error4_HE
Definition: CMTRawAnalyzer.cc:778

CMTRawAnalyzer::h_mapADCAmpl12secondpeak0_HE
TH2F * h_mapADCAmpl12secondpeak0_HE
Definition: CMTRawAnalyzer.cc:1141

CMTRawAnalyzer::h_pedwvsampl_HE
TH1F * h_pedwvsampl_HE
Definition: CMTRawAnalyzer.cc:1814

CMTRawAnalyzer::h_sum0AmplperLS3
TH1F * h_sum0AmplperLS3
Definition: CMTRawAnalyzer.cc:1657

CMTRawAnalyzer::lscounter
int lscounter
Definition: CMTRawAnalyzer.cc:2320

CMTRawAnalyzer::nnnnnnhbheqie11
int nnnnnnhbheqie11
Definition: CMTRawAnalyzer.cc:662

CMTRawAnalyzer::h_respcorr_HO
TH1F * h_respcorr_HO
Definition: CMTRawAnalyzer.cc:1797

CMTRawAnalyzer::h_sumCutADCAmplperLSdepth4HBu
TH1F * h_sumCutADCAmplperLSdepth4HBu
Definition: CMTRawAnalyzer.cc:1437

CMTRawAnalyzer::h_sumPedestalperLS7
TH1F * h_sumPedestalperLS7
Definition: CMTRawAnalyzer.cc:1351

CMTRawAnalyzer::hOutputFile
TFile * hOutputFile
Definition: CMTRawAnalyzer.cc:2353

CMTRawAnalyzer::h_maprphinorm_HE6
TH2F * h_maprphinorm_HE6
Definition: CMTRawAnalyzer.cc:2056

CMTRawAnalyzer::h_mapDepth5Error_HE
TH2F * h_mapDepth5Error_HE
Definition: CMTRawAnalyzer.cc:788

CMTRawAnalyzer::h_respcorr_HF
TH1F * h_respcorr_HF
Definition: CMTRawAnalyzer.cc:1792

CMTRawAnalyzer::h_shape_bad_channels_HF
TH1F * h_shape_bad_channels_HF
Definition: CMTRawAnalyzer.cc:1853

CMTRawAnalyzer::flagtodefinebadchannel_
int flagtodefinebadchannel_
Definition: CMTRawAnalyzer.cc:499

CMTRawAnalyzer::recNoiseEnergy0
double recNoiseEnergy0[nsub][ndepth][neta][nphi]
Definition: CMTRawAnalyzer.cc:2294

CMTRawAnalyzer::numOfLaserEv
int numOfLaserEv
Definition: CMTRawAnalyzer.cc:2373

CMTRawAnalyzer::h_shape0_Ahigh_HB3
TH1F * h_shape0_Ahigh_HB3
Definition: CMTRawAnalyzer.cc:1842

CMTRawAnalyzer::h_mapDepth4TS012_HO
TH2F * h_mapDepth4TS012_HO
Definition: CMTRawAnalyzer.cc:951

CMTRawAnalyzer::h_pedestalw1_HB
TH1F * h_pedestalw1_HB
Definition: CMTRawAnalyzer.cc:1703

CMTRawAnalyzer::h_sum0ADCAmplperLS7
TH1F * h_sum0ADCAmplperLS7
Definition: CMTRawAnalyzer.cc:1481

CMTRawAnalyzer::h_error5_HB
TH1F * h_error5_HB
Definition: CMTRawAnalyzer.cc:761

CMTRawAnalyzer::h_mapDepth3ADCAmpl225_HE
TH2F * h_mapDepth3ADCAmpl225_HE
Definition: CMTRawAnalyzer.cc:1153

CMTRawAnalyzer::h_sumCutAmplperLS1
TH1F * h_sumCutAmplperLS1
Definition: CMTRawAnalyzer.cc:1643

CMTRawAnalyzer::h_mapDepth4ADCAmpl12_HO
TH2F * h_mapDepth4ADCAmpl12_HO
Definition: CMTRawAnalyzer.cc:931

cuy.ii
ii
Definition: cuy.py:589

CMTRawAnalyzer::h_mapDepth1AmplE34_HE
TH2F * h_mapDepth1AmplE34_HE
Definition: CMTRawAnalyzer.cc:1218

CMTRawAnalyzer::h_mapAiForLS_good_HO
TH2F * h_mapAiForLS_good_HO
Definition: CMTRawAnalyzer.cc:722

CMTRawAnalyzer::h_bcnbadrate0_depth2_HF
TH1F * h_bcnbadrate0_depth2_HF
Definition: CMTRawAnalyzer.cc:1096

M_PI
#define M_PI
Definition: BXVectorInputProducer.cc:50

CMTRawAnalyzer::h_mapDepth4AmplE34_HF
TH2F * h_mapDepth4AmplE34_HF
Definition: CMTRawAnalyzer.cc:1007

CMTRawAnalyzer::h_sum0PedestalperLS5
TH1F * h_sum0PedestalperLS5
Definition: CMTRawAnalyzer.cc:1343

CMTRawAnalyzer::maxNeventsInNtuple_
int maxNeventsInNtuple_
Definition: CMTRawAnalyzer.cc:465

CMTRawAnalyzer::h_2D0sumAmplitudeLS5
TH2F * h_2D0sumAmplitudeLS5
Definition: CMTRawAnalyzer.cc:1619

CMTRawAnalyzer::h_mapDepth2TSmaxA225_HF
TH2F * h_mapDepth2TSmaxA225_HF
Definition: CMTRawAnalyzer.cc:979

CMTRawAnalyzer::h_mapDepth3Ampl047_HB
TH2F * h_mapDepth3Ampl047_HB
Definition: CMTRawAnalyzer.cc:905

CMTRawAnalyzer::h_sumCutTSmeanAperLS2
TH1F * h_sumCutTSmeanAperLS2
Definition: CMTRawAnalyzer.cc:1502

CMTRawAnalyzer::h_maprphinorm0_HE1
TH2F * h_maprphinorm0_HE1
Definition: CMTRawAnalyzer.cc:2065

CMTRawAnalyzer::h_sumamplitude_depth2_HB1
TH1F * h_sumamplitude_depth2_HB1
Definition: CMTRawAnalyzer.cc:1878

CMTRawAnalyzer::h_error1_HB
TH1F * h_error1_HB
Definition: CMTRawAnalyzer.cc:757

CMTRawAnalyzer::h_mapADCAmplsecondpeak_HE
TH2F * h_mapADCAmplsecondpeak_HE
Definition: CMTRawAnalyzer.cc:1132

CMTRawAnalyzer::h_sumADCAmplLS1
TH1F * h_sumADCAmplLS1
Definition: CMTRawAnalyzer.cc:1380

CMTRawAnalyzer::h_mapDepth3pedestalw_HF
TH2F * h_mapDepth3pedestalw_HF
Definition: CMTRawAnalyzer.cc:1757

CMTRawAnalyzer::TS_data
float TS_data[100]
Definition: CMTRawAnalyzer.cc:2302

CMTRawAnalyzer::h2_pedvsampl_HF
TH2F * h2_pedvsampl_HF
Definition: CMTRawAnalyzer.cc:1817

CMTRawAnalyzer::h_mapDepth2TSmeanA_HE
TH2F * h_mapDepth2TSmeanA_HE
Definition: CMTRawAnalyzer.cc:1160

CMTRawAnalyzer::h_sumamplitude_depth1_HE1
TH1F * h_sumamplitude_depth1_HE1
Definition: CMTRawAnalyzer.cc:1879

CMTRawAnalyzer::lsdep_estimator4_HEdepth2_
double lsdep_estimator4_HEdepth2_
Definition: CMTRawAnalyzer.cc:565

CMTRawAnalyzer::h_amplitudechannel2_HB1
TH2F * h_amplitudechannel2_HB1
Definition: CMTRawAnalyzer.cc:2177

CMTRawAnalyzer::h_mapDepth1ADCAmpl_HB
TH2F * h_mapDepth1ADCAmpl_HB
Definition: CMTRawAnalyzer.cc:861

CMTRawAnalyzer::h_bcnbadrate0_depth2_HB
TH1F * h_bcnbadrate0_depth2_HB
Definition: CMTRawAnalyzer.cc:1090

CMTRawAnalyzer::h_2DsumADCAmplEtaPhiLs10
TH2F * h_2DsumADCAmplEtaPhiLs10
Definition: CMTRawAnalyzer.cc:702

CMTRawAnalyzer::h_2DsumErrorBLS1
TH2F * h_2DsumErrorBLS1
Definition: CMTRawAnalyzer.cc:1958

CMTRawAnalyzer::h_error3_HO
TH1F * h_error3_HO
Definition: CMTRawAnalyzer.cc:816

CMTRawAnalyzer::h_recSignalEnergy2_HB3
TH2F * h_recSignalEnergy2_HB3
Definition: CMTRawAnalyzer.cc:2089

CMTRawAnalyzer::h_runnbadchannelsC_depth3_HE
TH1F * h_runnbadchannelsC_depth3_HE
Definition: CMTRawAnalyzer.cc:1059

CMTRawAnalyzer::h_shape0_Alow_HB1
TH1F * h_shape0_Alow_HB1
Definition: CMTRawAnalyzer.cc:1836

CMTRawAnalyzer::h_error1_HE
TH1F * h_error1_HE
Definition: CMTRawAnalyzer.cc:775

edm::SortedCollection::end
const_iterator end() const
Definition: SortedCollection.h:267

photonIsolationHIProducer_cfi.hf
hf
Definition: photonIsolationHIProducer_cfi.py:9

CMTRawAnalyzer::h_sumAmplLS6
TH1F * h_sumAmplLS6
Definition: CMTRawAnalyzer.cc:1670

CMTRawAnalyzer::h_mapDepth6pedestalw_HE
TH2F * h_mapDepth6pedestalw_HE
Definition: CMTRawAnalyzer.cc:1753

CMTRawAnalyzer::h_mapDepth3TSmeanA_HB
TH2F * h_mapDepth3TSmeanA_HB
Definition: CMTRawAnalyzer.cc:874

HcalLogicalMap::getHcalFrontEndId
const HcalFrontEndId getHcalFrontEndId(const DetId &)
Definition: HcalLogicalMap.cc:269

CMTRawAnalyzer::sumEstimator0
double sumEstimator0[nsub][ndepth][neta][nphi]
Definition: CMTRawAnalyzer.cc:2278

CMTRawAnalyzer::h_2DsumAmplitudeLS2
TH2F * h_2DsumAmplitudeLS2
Definition: CMTRawAnalyzer.cc:1598

CMTRawAnalyzer::h_amplitudechannel1_HE2
TH2F * h_amplitudechannel1_HE2
Definition: CMTRawAnalyzer.cc:2191

CMTRawAnalyzer::h_mapDepth3Ped1_HE
TH2F * h_mapDepth3Ped1_HE
Definition: CMTRawAnalyzer.cc:1918

CMTRawAnalyzer::maxxSUM2
double maxxSUM2
Definition: CMTRawAnalyzer.cc:2345

CMTRawAnalyzer::h_pedestal0_HO
TH1F * h_pedestal0_HO
Definition: CMTRawAnalyzer.cc:1732

CMTRawAnalyzer::h_map0AiForLS_good_HO
TH2F * h_map0AiForLS_good_HO
Definition: CMTRawAnalyzer.cc:723

CMTRawAnalyzer::lsmin_
int lsmin_
Definition: CMTRawAnalyzer.cc:606

alignCSCRings.r
r
Definition: alignCSCRings.py:93

CMTRawAnalyzer::lsdep_cut1_peak_HOdepth4_
int lsdep_cut1_peak_HOdepth4_
Definition: CMTRawAnalyzer.cc:517

CMTRawAnalyzer::h_fiber0_HE
TH1F * h_fiber0_HE
Definition: CMTRawAnalyzer.cc:791

CMTRawAnalyzer::h_2D0sumPedestalLS5
TH2F * h_2D0sumPedestalLS5
Definition: CMTRawAnalyzer.cc:1342

CMTRawAnalyzer::h2_pedvsampl_HB
TH2F * h2_pedvsampl_HB
Definition: CMTRawAnalyzer.cc:1800

CMTRawAnalyzer::lsdep_estimator5_HBdepth1_
double lsdep_estimator5_HBdepth1_
Definition: CMTRawAnalyzer.cc:571

CMTRawAnalyzer::h_mapADCAmpl12firstpeak0_HE
TH2F * h_mapADCAmpl12firstpeak0_HE
Definition: CMTRawAnalyzer.cc:1139

CMTRawAnalyzer::h_mapDepth1Error_HE
TH2F * h_mapDepth1Error_HE
Definition: CMTRawAnalyzer.cc:784

CMTRawAnalyzer::sumEstimator2
double sumEstimator2[nsub][ndepth][neta][nphi]
Definition: CMTRawAnalyzer.cc:2280

CMTRawAnalyzer::h_mapTSmaxCalib047_HF
TH2F * h_mapTSmaxCalib047_HF
Definition: CMTRawAnalyzer.cc:1303

CMTRawAnalyzer::h_Ampl_HF
TH1F * h_Ampl_HF
Definition: CMTRawAnalyzer.cc:993

HcalLogicalMap.h

CMTRawAnalyzer::h_sum0TSmeanAperLS4
TH1F * h_sum0TSmeanAperLS4
Definition: CMTRawAnalyzer.cc:1516

CMTRawAnalyzer::verbosity
int verbosity
Definition: CMTRawAnalyzer.cc:461

CMTRawAnalyzer::h_mapDepth3pedestal_HF
TH2F * h_mapDepth3pedestal_HF
Definition: CMTRawAnalyzer.cc:1773

CMTRawAnalyzer::h_2DsumADCAmplLS5
TH2F * h_2DsumADCAmplLS5
Definition: CMTRawAnalyzer.cc:1409

CMTRawAnalyzer::h_mapDepth3ADCAmpl_HB
TH2F * h_mapDepth3ADCAmpl_HB
Definition: CMTRawAnalyzer.cc:865

CMTRawAnalyzer::flagupgradeqie1011_
int flagupgradeqie1011_
Definition: CMTRawAnalyzer.cc:507

CMTRawAnalyzer::h_recSignalEnergy2_HF1
TH2F * h_recSignalEnergy2_HF1
Definition: CMTRawAnalyzer.cc:2151

CMTRawAnalyzer::h_sumADCAmplEtaPhiLs_bbbc
TH1F * h_sumADCAmplEtaPhiLs_bbbc
Definition: CMTRawAnalyzer.cc:706

CMTRawAnalyzer::h_pedestalwaver4_HF
TH1F * h_pedestalwaver4_HF
Definition: CMTRawAnalyzer.cc:1730

CMTRawAnalyzer::h_fiber2_HO
TH1F * h_fiber2_HO
Definition: CMTRawAnalyzer.cc:826

CMTRawAnalyzer::h_recNoiseEnergy2_HE3
TH2F * h_recNoiseEnergy2_HE3
Definition: CMTRawAnalyzer.cc:2135

CMTRawAnalyzer::h_mapADCCalib047_HB
TH2F * h_mapADCCalib047_HB
Definition: CMTRawAnalyzer.cc:1246

CMTRawAnalyzer::h_mapDepth1Amplitude_HE
TH2F * h_mapDepth1Amplitude_HE
Definition: CMTRawAnalyzer.cc:1189

CMTRawAnalyzer::h_sum0TSmaxAperLS8
TH1F * h_sum0TSmaxAperLS8
Definition: CMTRawAnalyzer.cc:1589

CMTRawAnalyzer::h_mapDepth1ADCAmpl225Copy_HB
TH2F * h_mapDepth1ADCAmpl225Copy_HB
Definition: CMTRawAnalyzer.cc:829

CMTRawAnalyzer::h_mapDepth2AmplE34_HB
TH2F * h_mapDepth2AmplE34_HB
Definition: CMTRawAnalyzer.cc:902

CMTRawAnalyzer::ratioHOMin_
double ratioHOMin_
Definition: CMTRawAnalyzer.cc:490

alignmentValidation.c1
c1
do drawing
Definition: alignmentValidation.py:1025

CMTRawAnalyzer::lsdep_estimator3_HEdepth1_
double lsdep_estimator3_HEdepth1_
Definition: CMTRawAnalyzer.cc:555

CMTRawAnalyzer::h_timecorr_HB
TH1F * h_timecorr_HB
Definition: CMTRawAnalyzer.cc:1779

CMTRawAnalyzer::h_TSmaxCalib_HF
TH1F * h_TSmaxCalib_HF
Definition: CMTRawAnalyzer.cc:1302

CMTRawAnalyzer::TSpeakHOMax_
double TSpeakHOMax_
Definition: CMTRawAnalyzer.cc:597

DetId
Definition: DetId.h:17

CMTRawAnalyzer::h_mapDepth1Pedw0_HB
TH2F * h_mapDepth1Pedw0_HB
Definition: CMTRawAnalyzer.cc:1889

CMTRawAnalyzer::h_2D0sumPedestalLS3
TH2F * h_2D0sumPedestalLS3
Definition: CMTRawAnalyzer.cc:1332

CMTRawAnalyzer::h_sumAmplitudeperLS4
TH1F * h_sumAmplitudeperLS4
Definition: CMTRawAnalyzer.cc:1611

CMTRawAnalyzer::h_2DsumADCAmplEtaPhiLs00
TH2F * h_2DsumADCAmplEtaPhiLs00
Definition: CMTRawAnalyzer.cc:701

CMTRawAnalyzer::h_2D0sumADCAmplLS8
TH2F * h_2D0sumADCAmplLS8
Definition: CMTRawAnalyzer.cc:1490

CMTRawAnalyzer::h_mapDepth1Ped2_HF
TH2F * h_mapDepth1Ped2_HF
Definition: CMTRawAnalyzer.cc:1927

CMTRawAnalyzer::h_error7_HE
TH1F * h_error7_HE
Definition: CMTRawAnalyzer.cc:781

CMTRawAnalyzer::h_sumErrorBLS2
TH1F * h_sumErrorBLS2
Definition: CMTRawAnalyzer.cc:1964

CMTRawAnalyzer::h_energyhitNoise_HF
TH1F * h_energyhitNoise_HF
Definition: CMTRawAnalyzer.cc:2079

CMTRawAnalyzer::h_sumADCAmplperLS5
TH1F * h_sumADCAmplperLS5
Definition: CMTRawAnalyzer.cc:1411

CMTRawAnalyzer::h_RatioCalib_HE
TH1F * h_RatioCalib_HE
Definition: CMTRawAnalyzer.cc:1265

QIE11DataFrame::samples
constexpr int samples() const
total number of samples in the digi
Definition: QIE11DataFrame.h:77

CMTRawAnalyzer::h_mapDepth3Error_HF
TH2F * h_mapDepth3Error_HF
Definition: CMTRawAnalyzer.cc:807

CMTRawAnalyzer::h_amplitudechannel2_HB2
TH2F * h_amplitudechannel2_HB2
Definition: CMTRawAnalyzer.cc:2180

CMTRawAnalyzer::TSmeanHBMax_
double TSmeanHBMax_
Definition: CMTRawAnalyzer.cc:599

CMTRawAnalyzer::h_mapDepth3TSmaxA_HF
TH2F * h_mapDepth3TSmaxA_HF
Definition: CMTRawAnalyzer.cc:980

HcalRecNumberingRecord.h

CMTRawAnalyzer::h_2D0sumADCAmplLS2
TH2F * h_2D0sumADCAmplLS2
Definition: CMTRawAnalyzer.cc:1392

CMTRawAnalyzer::h_maprphinorm0_HE7
TH2F * h_maprphinorm0_HE7
Definition: CMTRawAnalyzer.cc:2071

CMTRawAnalyzer::h_maprphinorm0_HE5
TH2F * h_maprphinorm0_HE5
Definition: CMTRawAnalyzer.cc:2069

CMTRawAnalyzer::h_sumTSmaxAperLS5
TH1F * h_sumTSmaxAperLS5
Definition: CMTRawAnalyzer.cc:1568

CMTRawAnalyzer::runcounter
int runcounter
Definition: CMTRawAnalyzer.cc:2314

CMTRawAnalyzer::h_pedestalw0_HE
TH1F * h_pedestalw0_HE
Definition: CMTRawAnalyzer.cc:1714

CMTRawAnalyzer::rmsHBMax_
double rmsHBMax_
Definition: CMTRawAnalyzer.cc:582

CMTRawAnalyzer::h_runbadrate_depth2_HB
TH1F * h_runbadrate_depth2_HB
Definition: CMTRawAnalyzer.cc:1042

CMTRawAnalyzer::h_mapDepth2Ped0_HB
TH2F * h_mapDepth2Ped0_HB
Definition: CMTRawAnalyzer.cc:1893

HBHEDataFrame.h

CMTRawAnalyzer::h_2D0sumPedestalLS2
TH2F * h_2D0sumPedestalLS2
Definition: CMTRawAnalyzer.cc:1327

CMTRawAnalyzer::h_Amplitude_notCapIdErrors_HE1
TH1F * h_Amplitude_notCapIdErrors_HE1
Definition: CMTRawAnalyzer.cc:1107

CMTRawAnalyzer::h_sumTSmaxALS2
TH1F * h_sumTSmaxALS2
Definition: CMTRawAnalyzer.cc:1548

CMTRawAnalyzer::h_mapADCAmpl11secondpeak0_HE
TH2F * h_mapADCAmpl11secondpeak0_HE
Definition: CMTRawAnalyzer.cc:1137

CMTRawAnalyzer::h_2D0sumAmplLS4
TH2F * h_2D0sumAmplLS4
Definition: CMTRawAnalyzer.cc:1662

CMTRawAnalyzer::h_recNoiseEnergy0_HE3
TH2F * h_recNoiseEnergy0_HE3
Definition: CMTRawAnalyzer.cc:2133

CMTRawAnalyzer::h_sum0AmplitudeperLS4
TH1F * h_sum0AmplitudeperLS4
Definition: CMTRawAnalyzer.cc:1614

CMTRawAnalyzer::h_mapDepth4TSmaxA_HF
TH2F * h_mapDepth4TSmaxA_HF
Definition: CMTRawAnalyzer.cc:981

CMTRawAnalyzer::h_pedestalaver9_HE
TH1F * h_pedestalaver9_HE
Definition: CMTRawAnalyzer.cc:1713

CMTRawAnalyzer::h_error6_HO
TH1F * h_error6_HO
Definition: CMTRawAnalyzer.cc:819

CMTRawAnalyzer::h_2DsumTSmeanALS1
TH2F * h_2DsumTSmeanALS1
Definition: CMTRawAnalyzer.cc:1493

CMTRawAnalyzer::lsdep_estimator5_HFdepth1_
double lsdep_estimator5_HFdepth1_
Definition: CMTRawAnalyzer.cc:576

CMTRawAnalyzer::h_maprphinorm2_HE6
TH2F * h_maprphinorm2_HE6
Definition: CMTRawAnalyzer.cc:2063

HcalOuter
Definition: HcalAssistant.h:35

CMTRawAnalyzer::h_2DsumADCAmplEtaPhiLs2
TH2F * h_2DsumADCAmplEtaPhiLs2
Definition: CMTRawAnalyzer.cc:699

CMTRawAnalyzer::h_recNoiseEnergy2_HE4
TH2F * h_recNoiseEnergy2_HE4
Definition: CMTRawAnalyzer.cc:2138

CMTRawAnalyzer::h_mapDepth1Pedw1_HF
TH2F * h_mapDepth1Pedw1_HF
Definition: CMTRawAnalyzer.cc:1930

CMTRawAnalyzer::h_repetedcapid_HB
TH1F * h_repetedcapid_HB
Definition: CMTRawAnalyzer.cc:773

CMTRawAnalyzer::h_eventamplitude_HB
TH1F * h_eventamplitude_HB
Definition: CMTRawAnalyzer.cc:2025

CMTRawAnalyzer::h_pedestalwaver9_HB
TH1F * h_pedestalwaver9_HB
Definition: CMTRawAnalyzer.cc:1707

CMTRawAnalyzer::h_sumamplitude_depth2_HF0
TH1F * h_sumamplitude_depth2_HF0
Definition: CMTRawAnalyzer.cc:1875

CaloGeometry.h

CMTRawAnalyzer::h_recSignalEnergy0_HE4
TH2F * h_recSignalEnergy0_HE4
Definition: CMTRawAnalyzer.cc:2115

CMTRawAnalyzer::h_amplError_HB
TH1F * h_amplError_HB
Definition: CMTRawAnalyzer.cc:764

CMTRawAnalyzer::h_fiber2_HF
TH1F * h_fiber2_HF
Definition: CMTRawAnalyzer.cc:811

CMTRawAnalyzer::~CMTRawAnalyzer
~CMTRawAnalyzer() override
Definition: CMTRawAnalyzer.cc:2689

CMTRawAnalyzer::h_shape0_Ahigh_HB0
TH1F * h_shape0_Ahigh_HB0
Definition: CMTRawAnalyzer.cc:1830

CMTRawAnalyzer::h_error3_HB
TH1F * h_error3_HB
Definition: CMTRawAnalyzer.cc:759

CMTRawAnalyzer::h_mapenophinorm2_HE5
TH2F * h_mapenophinorm2_HE5
Definition: CMTRawAnalyzer.cc:2048

CMTRawAnalyzer::h_2DsumTSmaxALS2
TH2F * h_2DsumTSmaxALS2
Definition: CMTRawAnalyzer.cc:1549

CMTRawAnalyzer::h_mapDepth4Amplitude_HE
TH2F * h_mapDepth4Amplitude_HE
Definition: CMTRawAnalyzer.cc:1192

CMTRawAnalyzer::h_sum0ADCAmplperLS3
TH1F * h_sum0ADCAmplperLS3
Definition: CMTRawAnalyzer.cc:1400

HcalRespCorr::getValue
float getValue() const
Definition: HcalRespCorr.h:19

CMTRawAnalyzer::ADCAmplHBMax_
double ADCAmplHBMax_
Definition: CMTRawAnalyzer.cc:613

CMTRawAnalyzer::h_2D0sumAmplitudeLS6
TH2F * h_2D0sumAmplitudeLS6
Definition: CMTRawAnalyzer.cc:1625

CMTRawAnalyzer::fillDigiAmplitudeHF
void fillDigiAmplitudeHF(HFDigiCollection::const_iterator &digiItr)
Definition: CMTRawAnalyzer.cc:10732

CMTRawAnalyzer::h_mapDepth3Amplitude225_HE
TH2F * h_mapDepth3Amplitude225_HE
Definition: CMTRawAnalyzer.cc:1198

CMTRawAnalyzer::h_sumamplitude_depth1_HF0
TH1F * h_sumamplitude_depth1_HF0
Definition: CMTRawAnalyzer.cc:1874

CMTRawAnalyzer::h_sum0TSmeanAperLS3
TH1F * h_sum0TSmeanAperLS3
Definition: CMTRawAnalyzer.cc:1510

CMTRawAnalyzer::h_sumCutADCAmplperLS4
TH1F * h_sumCutADCAmplperLS4
Definition: CMTRawAnalyzer.cc:1405

CMTRawAnalyzer::h_error6_HB
TH1F * h_error6_HB
Definition: CMTRawAnalyzer.cc:762

CMTRawAnalyzer::h_map0AiForLS_bad_HE
TH2F * h_map0AiForLS_bad_HE
Definition: CMTRawAnalyzer.cc:717

CMTRawAnalyzer::h_sumCutADCAmplperLS7u
TH1F * h_sumCutADCAmplperLS7u
Definition: CMTRawAnalyzer.cc:1483

CMTRawAnalyzer::lsdep_estimator5_HOdepth4_
double lsdep_estimator5_HOdepth4_
Definition: CMTRawAnalyzer.cc:578

CMTRawAnalyzer::h_recNoiseEnergy2_HF4
TH2F * h_recNoiseEnergy2_HF4
Definition: CMTRawAnalyzer.cc:2173

HcalQIEShape
Definition: HcalQIEShape.h:17

CMTRawAnalyzer::h_sumAmplitudeperLS5
TH1F * h_sumAmplitudeperLS5
Definition: CMTRawAnalyzer.cc:1617

CMTRawAnalyzer::h_recSignalEnergy0_HE1
TH2F * h_recSignalEnergy0_HE1
Definition: CMTRawAnalyzer.cc:2106

CMTRawAnalyzer::h_sumAmplperLS8
TH1F * h_sumAmplperLS8
Definition: CMTRawAnalyzer.cc:1692

CMTRawAnalyzer::h_pedwvsampl0_HF
TH1F * h_pedwvsampl0_HF
Definition: CMTRawAnalyzer.cc:1822

CMTRawAnalyzer::h_mapDepth2ADCAmpl225Copy_HE
TH2F * h_mapDepth2ADCAmpl225Copy_HE
Definition: CMTRawAnalyzer.cc:834

CMTRawAnalyzer::h_mapenophinorm_HE4
TH2F * h_mapenophinorm_HE4
Definition: CMTRawAnalyzer.cc:2040

CMTRawAnalyzer::h_sumAmplperLS6
TH1F * h_sumAmplperLS6
Definition: CMTRawAnalyzer.cc:1672

CMTRawAnalyzer::h_difpedestal3_HB
TH1F * h_difpedestal3_HB
Definition: CMTRawAnalyzer.cc:1784

CMTRawAnalyzer::h_mapDepth1Pedw3_HF
TH2F * h_mapDepth1Pedw3_HF
Definition: CMTRawAnalyzer.cc:1932

CMTRawAnalyzer::h_mapDepth2TSmeanA_HB
TH2F * h_mapDepth2TSmeanA_HB
Definition: CMTRawAnalyzer.cc:871

CMTRawAnalyzer::h_mapTSmeanCalib_HB
TH2F * h_mapTSmeanCalib_HB
Definition: CMTRawAnalyzer.cc:1256

CMTRawAnalyzer::flagIterativeMethodCalibrationGroupReco_
int flagIterativeMethodCalibrationGroupReco_
Definition: CMTRawAnalyzer.cc:497

CMTRawAnalyzer::h_sumAmplLS4
TH1F * h_sumAmplLS4
Definition: CMTRawAnalyzer.cc:1658

CMTRawAnalyzer::h_mapDepth7AmplE34_HE
TH2F * h_mapDepth7AmplE34_HE
Definition: CMTRawAnalyzer.cc:1224

CMTRawAnalyzer::h_amplitudechannel1_HB3
TH2F * h_amplitudechannel1_HB3
Definition: CMTRawAnalyzer.cc:2182

CMTRawAnalyzer::local_event
int local_event
Definition: CMTRawAnalyzer.cc:2370

CMTRawAnalyzer::beginRun
void beginRun(const edm::Run &r, const edm::EventSetup &iSetup) override
Definition: CMTRawAnalyzer.cc:12173

CMTRawAnalyzer::h_mapWidthCalib_HF
TH2F * h_mapWidthCalib_HF
Definition: CMTRawAnalyzer.cc:1310

CMTRawAnalyzer::beginJob
void beginJob() override
Definition: CMTRawAnalyzer.cc:6081

CMTRawAnalyzer::h_mapenophinorm_HE6
TH2F * h_mapenophinorm_HE6
Definition: CMTRawAnalyzer.cc:2042

CMTRawAnalyzer::h_nbadchannels_depth1_HE
TH1F * h_nbadchannels_depth1_HE
Definition: CMTRawAnalyzer.cc:1045

CMTRawAnalyzer::h_mapDepth3TSmeanA_HF
TH2F * h_mapDepth3TSmeanA_HF
Definition: CMTRawAnalyzer.cc:971

CMTRawAnalyzer::h_sumPedestalperLS2
TH1F * h_sumPedestalperLS2
Definition: CMTRawAnalyzer.cc:1326

CMTRawAnalyzer::h_mapTSmeanCalib047_HE
TH2F * h_mapTSmeanCalib047_HE
Definition: CMTRawAnalyzer.cc:1272

CMTRawAnalyzer::h_sumTSmaxAperLS1_LSselected
TH1F * h_sumTSmaxAperLS1_LSselected
Definition: CMTRawAnalyzer.cc:1544

CMTRawAnalyzer::h_runbadrateC_depth4_HO
TH1F * h_runbadrateC_depth4_HO
Definition: CMTRawAnalyzer.cc:1067

CMTRawAnalyzer::h_sumTSmaxALS8
TH1F * h_sumTSmaxALS8
Definition: CMTRawAnalyzer.cc:1584

CMTRawAnalyzer::h_sumamplitude_depth4_HO1
TH1F * h_sumamplitude_depth4_HO1
Definition: CMTRawAnalyzer.cc:1884

CMTRawAnalyzer::h_runnbadchannels_depth1_HB
TH1F * h_runnbadchannels_depth1_HB
Definition: CMTRawAnalyzer.cc:1034

CMTRawAnalyzer::h_2DsumErrorBLS6
TH2F * h_2DsumErrorBLS6
Definition: CMTRawAnalyzer.cc:1983

CMTRawAnalyzer::h_mapDepth3Ampl047_HF
TH2F * h_mapDepth3Ampl047_HF
Definition: CMTRawAnalyzer.cc:1002

CMTRawAnalyzer::h2_pedwvsampl_HF
TH2F * h2_pedwvsampl_HF
Definition: CMTRawAnalyzer.cc:1818

CMTRawAnalyzer::h_runnbadchannelsC_depth1_HB
TH1F * h_runnbadchannelsC_depth1_HB
Definition: CMTRawAnalyzer.cc:1035

CMTRawAnalyzer::h_sum0TSmeanAperLS2
TH1F * h_sum0TSmeanAperLS2
Definition: CMTRawAnalyzer.cc:1504

CMTRawAnalyzer::h_amplFine_HF
TH1F * h_amplFine_HF
Definition: CMTRawAnalyzer.cc:804

CMTRawAnalyzer::h_mapenophinorm_HE7
TH2F * h_mapenophinorm_HE7
Definition: CMTRawAnalyzer.cc:2043

CMTRawAnalyzer::h_bcnbadrate0_depth1_HE
TH1F * h_bcnbadrate0_depth1_HE
Definition: CMTRawAnalyzer.cc:1091

CMTRawAnalyzer::h_averNOSIGNALsumamplitude_HF
TH1F * h_averNOSIGNALsumamplitude_HF
Definition: CMTRawAnalyzer.cc:2011

CMTRawAnalyzer::h_mapDepth4Ped2_HO
TH2F * h_mapDepth4Ped2_HO
Definition: CMTRawAnalyzer.cc:1943

CMTRawAnalyzer::h_sumAmplitudeLS8
TH1F * h_sumAmplitudeLS8
Definition: CMTRawAnalyzer.cc:1633

CMTRawAnalyzer::sumEstimator6
double sumEstimator6[nsub][ndepth][neta][nphi]
Definition: CMTRawAnalyzer.cc:2284

CMTRawAnalyzer::numOfTS
int numOfTS
Definition: CMTRawAnalyzer.cc:2372

CMTRawAnalyzer::h_2DsumADCAmplLS6_LSselected
TH2F * h_2DsumADCAmplLS6_LSselected
Definition: CMTRawAnalyzer.cc:1417

CMTRawAnalyzer::lsdep_estimator1_HEdepth6_
double lsdep_estimator1_HEdepth6_
Definition: CMTRawAnalyzer.cc:537

CMTRawAnalyzer::h_sumCutTSmaxAperLS6
TH1F * h_sumCutTSmaxAperLS6
Definition: CMTRawAnalyzer.cc:1575

CMTRawAnalyzer::h_mapDepth7Error_HE
TH2F * h_mapDepth7Error_HE
Definition: CMTRawAnalyzer.cc:790

CMTRawAnalyzer::h_pedestal2_HE
TH1F * h_pedestal2_HE
Definition: CMTRawAnalyzer.cc:1710

CMTRawAnalyzer::h_2DsumErrorBLS4
TH2F * h_2DsumErrorBLS4
Definition: CMTRawAnalyzer.cc:1973

HcalDbService::getGain
const HcalGain * getGain(const HcalGenericDetId &fId) const
Definition: HcalDbService.cc:305

CMTRawAnalyzer::h_2D0sumADCAmplLSdepth4HBu
TH2F * h_2D0sumADCAmplLSdepth4HBu
Definition: CMTRawAnalyzer.cc:1374

HcalQIECoder
Definition: HcalQIECoder.h:20

CMTRawAnalyzer::h_maprphinorm2_HE4
TH2F * h_maprphinorm2_HE4
Definition: CMTRawAnalyzer.cc:2061

CMTRawAnalyzer::h_pedestal3_HB
TH1F * h_pedestal3_HB
Definition: CMTRawAnalyzer.cc:1699

CMTRawAnalyzer::h_recNoiseEnergy1_HE2
TH2F * h_recNoiseEnergy1_HE2
Definition: CMTRawAnalyzer.cc:2131

CMTRawAnalyzer::h_sumCutTSmaxAperLS8
TH1F * h_sumCutTSmaxAperLS8
Definition: CMTRawAnalyzer.cc:1587

CMTRawAnalyzer::h_mapDepth4TSmeanA_HO
TH2F * h_mapDepth4TSmeanA_HO
Definition: CMTRawAnalyzer.cc:1019

CMTRawAnalyzer::h_mapDepth3Ped0_HE
TH2F * h_mapDepth3Ped0_HE
Definition: CMTRawAnalyzer.cc:1917

CMTRawAnalyzer::h_averSIGNALsumamplitude_HE
TH1F * h_averSIGNALsumamplitude_HE
Definition: CMTRawAnalyzer.cc:2002

CMTRawAnalyzer::h_mapRatioCalib047_HF
TH2F * h_mapRatioCalib047_HF
Definition: CMTRawAnalyzer.cc:1300

CMTRawAnalyzer::h_mapDepth1TS2_HE
TH2F * h_mapDepth1TS2_HE
Definition: CMTRawAnalyzer.cc:940

CMTRawAnalyzer::signal3
double signal3[ndepth][neta][nphi]
Definition: CMTRawAnalyzer.cc:2275

CMTRawAnalyzer::h_mapDepth2Ped1_HF
TH2F * h_mapDepth2Ped1_HF
Definition: CMTRawAnalyzer.cc:1934

CMTRawAnalyzer::h_sumADCAmplLS2
TH1F * h_sumADCAmplLS2
Definition: CMTRawAnalyzer.cc:1387

CMTRawAnalyzer::h_bcnbadrate0_depth1_HB
TH1F * h_bcnbadrate0_depth1_HB
Definition: CMTRawAnalyzer.cc:1089

CMTRawAnalyzer::h_2D0sumAmplitudeLS7
TH2F * h_2D0sumAmplitudeLS7
Definition: CMTRawAnalyzer.cc:1631

CMTRawAnalyzer::nevent
int nevent
Definition: CMTRawAnalyzer.cc:658

HcalElectronicsId::fiberIndex
constexpr int32_t fiberIndex() const
get the fiber index. For VME 1-8 (which of eight fibers carried by a spigot), for uTCA fibers are zer...
Definition: HcalElectronicsId.h:82

CMTRawAnalyzer::h_bcnnbadchannels_depth2_HB
TH1F * h_bcnnbadchannels_depth2_HB
Definition: CMTRawAnalyzer.cc:1082

CMTRawAnalyzer::h_mapDepth1Pedw2_HB
TH2F * h_mapDepth1Pedw2_HB
Definition: CMTRawAnalyzer.cc:1891

CMTRawAnalyzer::h_sumCutADCAmplperLS1
TH1F * h_sumCutADCAmplperLS1
Definition: CMTRawAnalyzer.cc:1384

CMTRawAnalyzer::h_sumCutAmplperLS2
TH1F * h_sumCutAmplperLS2
Definition: CMTRawAnalyzer.cc:1649

CMTRawAnalyzer::h_mapDepth6TSmaxA225_HE
TH2F * h_mapDepth6TSmaxA225_HE
Definition: CMTRawAnalyzer.cc:1186

CMTRawAnalyzer::h_mapDepth4pedestalw_HO
TH2F * h_mapDepth4pedestalw_HO
Definition: CMTRawAnalyzer.cc:1759

CMTRawAnalyzer::h_2DsumTSmaxALS6
TH2F * h_2DsumTSmaxALS6
Definition: CMTRawAnalyzer.cc:1573

CMTRawAnalyzer::h_Eta16Depth3RADDAM_HED2
TH1F * h_Eta16Depth3RADDAM_HED2
Definition: CMTRawAnalyzer.cc:2239

CMTRawAnalyzer::lscounterrun
int lscounterrun
Definition: CMTRawAnalyzer.cc:2324

CMTRawAnalyzer::h_sumamplitude_depth1_HB1
TH1F * h_sumamplitude_depth1_HB1
Definition: CMTRawAnalyzer.cc:1877

CMTRawAnalyzer::h_mapDepth2TSmeanA_HF
TH2F * h_mapDepth2TSmeanA_HF
Definition: CMTRawAnalyzer.cc:968

HcalDbRecord
Definition: HcalDbRecord.h:30

CMTRawAnalyzer::h_pedestalaver9_HF
TH1F * h_pedestalaver9_HF
Definition: CMTRawAnalyzer.cc:1725

CMTRawAnalyzer::averSIGNALoccupancy_HE
double averSIGNALoccupancy_HE
Definition: CMTRawAnalyzer.cc:2329

CMTRawAnalyzer::flagcpuoptimization_
int flagcpuoptimization_
Definition: CMTRawAnalyzer.cc:506

CMTRawAnalyzer::h_amplitudechannel2_HF2
TH2F * h_amplitudechannel2_HF2
Definition: CMTRawAnalyzer.cc:2213

CMTRawAnalyzer::lsdep_estimator1_HEdepth2_
double lsdep_estimator1_HEdepth2_
Definition: CMTRawAnalyzer.cc:530

CMTRawAnalyzer::h_mapDepth6ADCAmpl_HE
TH2F * h_mapDepth6ADCAmpl_HE
Definition: CMTRawAnalyzer.cc:1128

CMTRawAnalyzer::h_mapDepth5Amplitude_HE
TH2F * h_mapDepth5Amplitude_HE
Definition: CMTRawAnalyzer.cc:1193

CMTRawAnalyzer::h_mapDepth3TSmaxA225_HF
TH2F * h_mapDepth3TSmaxA225_HF
Definition: CMTRawAnalyzer.cc:982

CMTRawAnalyzer::h_mapDepth4Error_HF
TH2F * h_mapDepth4Error_HF
Definition: CMTRawAnalyzer.cc:808

CMTRawAnalyzer::rmsHOMax_
double rmsHOMax_
Definition: CMTRawAnalyzer.cc:588

CMTRawAnalyzer::h_mapDepth1ADCAmpl_HF
TH2F * h_mapDepth1ADCAmpl_HF
Definition: CMTRawAnalyzer.cc:958

CMTRawAnalyzer::h_sum0PedestalperLS7
TH1F * h_sum0PedestalperLS7
Definition: CMTRawAnalyzer.cc:1353

CMTRawAnalyzer::h_runnbadchannelsC_depth4_HO
TH1F * h_runnbadchannelsC_depth4_HO
Definition: CMTRawAnalyzer.cc:1065

CMTRawAnalyzer::lsdep_estimator1_HFdepth1_
double lsdep_estimator1_HFdepth1_
Definition: CMTRawAnalyzer.cc:532

CMTRawAnalyzer::h_mapDepth4pedestalw_HB
TH2F * h_mapDepth4pedestalw_HB
Definition: CMTRawAnalyzer.cc:1747

CMTRawAnalyzer::h_sigLayer1RADDAM5_HE
TH1F * h_sigLayer1RADDAM5_HE
Definition: CMTRawAnalyzer.cc:2247

CMTRawAnalyzer::h_mapDepth4pedestalw_HE
TH2F * h_mapDepth4pedestalw_HE
Definition: CMTRawAnalyzer.cc:1751

HcalElectronicsId.h

CMTRawAnalyzer::badchannels
int badchannels[nsub][ndepth][neta][nphi]
Definition: CMTRawAnalyzer.cc:2277

CMTRawAnalyzer::h_sum0ADCAmplperLS1_P1
TH1F * h_sum0ADCAmplperLS1_P1
Definition: CMTRawAnalyzer.cc:1444

CMTRawAnalyzer::h_ADCCalib_HO
TH1F * h_ADCCalib_HO
Definition: CMTRawAnalyzer.cc:1278

CMTRawAnalyzer::h_Amplitude_HO
TH1F * h_Amplitude_HO
Definition: CMTRawAnalyzer.cc:1024

CMTRawAnalyzer::h_eventoccupancy_HO
TH1F * h_eventoccupancy_HO
Definition: CMTRawAnalyzer.cc:2032

CMTRawAnalyzer::h_orbitNumvsamplitude_HB
TH1F * h_orbitNumvsamplitude_HB
Definition: CMTRawAnalyzer.cc:689

CMTRawAnalyzer::ratioHBMax_
double ratioHBMax_
Definition: CMTRawAnalyzer.cc:485

CMTRawAnalyzer::nevcounter
int nevcounter
Definition: CMTRawAnalyzer.cc:2323

CMTRawAnalyzer::h_amplitudechannel1_HE7
TH2F * h_amplitudechannel1_HE7
Definition: CMTRawAnalyzer.cc:2206

CMTRawAnalyzer::h_shape0_good_channels_HF
TH1F * h_shape0_good_channels_HF
Definition: CMTRawAnalyzer.cc:1856

CMTRawAnalyzer::nevcounter00
int nevcounter00
Definition: CMTRawAnalyzer.cc:2327

CMTRawAnalyzer::h_mapRatioCalib047_HO
TH2F * h_mapRatioCalib047_HO
Definition: CMTRawAnalyzer.cc:1283

CMTRawAnalyzer::h_2DsumAmplLS3
TH2F * h_2DsumAmplLS3
Definition: CMTRawAnalyzer.cc:1653

CMTRawAnalyzer::h_mapDepth3Ampl_HF
TH2F * h_mapDepth3Ampl_HF
Definition: CMTRawAnalyzer.cc:1004

CMTRawAnalyzer::h_mapDepth1ADCAmpl12SiPM_HE
TH2F * h_mapDepth1ADCAmpl12SiPM_HE
Definition: CMTRawAnalyzer.cc:924

CMTRawAnalyzer::h_2DsumTSmaxALS4
TH2F * h_2DsumTSmaxALS4
Definition: CMTRawAnalyzer.cc:1561

CMTRawAnalyzer::flagsipmcorrection_
int flagsipmcorrection_
Definition: CMTRawAnalyzer.cc:508

CMTRawAnalyzer::h2_TSnVsAyear2023_HF
TH2F * h2_TSnVsAyear2023_HF
Definition: CMTRawAnalyzer.cc:2257

CMTRawAnalyzer::ratioHEMax_
double ratioHEMax_
Definition: CMTRawAnalyzer.cc:487

CMTRawAnalyzer::h_sumphiEta16Depth3RADDAM_HED2P
TH1F * h_sumphiEta16Depth3RADDAM_HED2P
Definition: CMTRawAnalyzer.cc:2241

CMTRawAnalyzer::h_2D0sumErrorBLS2
TH2F * h_2D0sumErrorBLS2
Definition: CMTRawAnalyzer.cc:1962

CMTRawAnalyzer::h_2D0sumADCAmplLSdepth5HEu
TH2F * h_2D0sumADCAmplLSdepth5HEu
Definition: CMTRawAnalyzer.cc:1362

CMTRawAnalyzer::maxxOCCUP2
double maxxOCCUP2
Definition: CMTRawAnalyzer.cc:2349

HcalFrontEndId::rmFiber
int rmFiber() const
Definition: HcalFrontEndId.h:28

CMTRawAnalyzer::h_fiber1_HO
TH1F * h_fiber1_HO
Definition: CMTRawAnalyzer.cc:825

CMTRawAnalyzer::binanpfit
float binanpfit
Definition: CMTRawAnalyzer.cc:2308

CMTRawAnalyzer::h_2DsumTSmeanALS4
TH2F * h_2DsumTSmeanALS4
Definition: CMTRawAnalyzer.cc:1512

CMTRawAnalyzer::h_fiber1_HB
TH1F * h_fiber1_HB
Definition: CMTRawAnalyzer.cc:771

CMTRawAnalyzer::h_mapDepth2pedestal_HF
TH2F * h_mapDepth2pedestal_HF
Definition: CMTRawAnalyzer.cc:1772

CMTRawAnalyzer::h_mapDepth7TSmaxA_HE
TH2F * h_mapDepth7TSmaxA_HE
Definition: CMTRawAnalyzer.cc:1180

CMTRawAnalyzer::h_mapDepth6ADCAmpl225Copy_HE
TH2F * h_mapDepth6ADCAmpl225Copy_HE
Definition: CMTRawAnalyzer.cc:838

CMTRawAnalyzer::h_repetedcapid_HO
TH1F * h_repetedcapid_HO
Definition: CMTRawAnalyzer.cc:827

CMTRawAnalyzer::h_TSmeanA_HE
TH1F * h_TSmeanA_HE
Definition: CMTRawAnalyzer.cc:1158

CMTRawAnalyzer::h_errorGeneral_HF
TH1F * h_errorGeneral_HF
Definition: CMTRawAnalyzer.cc:795

CMTRawAnalyzer::h_pedestal3_HF
TH1F * h_pedestal3_HF
Definition: CMTRawAnalyzer.cc:1723

CMTRawAnalyzer::h_ADCAmplrest1_HE
TH1F * h_ADCAmplrest1_HE
Definition: CMTRawAnalyzer.cc:1120

HcalCoderDb.h

CMTRawAnalyzer::lscounter10
int lscounter10
Definition: CMTRawAnalyzer.cc:2322

CMTRawAnalyzer::h_mapDepth3TSmaxA_HB
TH2F * h_mapDepth3TSmaxA_HB
Definition: CMTRawAnalyzer.cc:883

CMTRawAnalyzer::h_RatioOccupancy_HEM
TH1F * h_RatioOccupancy_HEM
Definition: CMTRawAnalyzer.cc:1679

CMTRawAnalyzer::h_sumCutAmplitudeperLS6
TH1F * h_sumCutAmplitudeperLS6
Definition: CMTRawAnalyzer.cc:1624

CMTRawAnalyzer::flaguseshunt_
int flaguseshunt_
Definition: CMTRawAnalyzer.cc:509

EDAnalyzer.h

CMTRawAnalyzer::h_bcnnbadchannels_depth1_HF
TH1F * h_bcnnbadchannels_depth1_HF
Definition: CMTRawAnalyzer.cc:1087

CMTRawAnalyzer::h_recNoiseEnergy2_HB3
TH2F * h_recNoiseEnergy2_HB3
Definition: CMTRawAnalyzer.cc:2101

edm::HandleBase::isValid
bool isValid() const
Definition: HandleBase.h:70

CMTRawAnalyzer::h_pedvsampl_HE
TH1F * h_pedvsampl_HE
Definition: CMTRawAnalyzer.cc:1813

CMTRawAnalyzer::h_mapDepth1Amplitude225_HB
TH2F * h_mapDepth1Amplitude225_HB
Definition: CMTRawAnalyzer.cc:890

HcalDCCHeader.h

CMTRawAnalyzer::h_error1_HF
TH1F * h_error1_HF
Definition: CMTRawAnalyzer.cc:796

CMTRawAnalyzer::h_2DsumADCAmplLS5_LSselected
TH2F * h_2DsumADCAmplLS5_LSselected
Definition: CMTRawAnalyzer.cc:1410

CMTRawAnalyzer::h_maprphinorm_HE1
TH2F * h_maprphinorm_HE1
Definition: CMTRawAnalyzer.cc:2051

CMTRawAnalyzer::h_averNOSIGNALsumamplitude_HB
TH1F * h_averNOSIGNALsumamplitude_HB
Definition: CMTRawAnalyzer.cc:2009

CMTRawAnalyzer::h_sumErrorBperLS4
TH1F * h_sumErrorBperLS4
Definition: CMTRawAnalyzer.cc:1975

CMTRawAnalyzer::h_sumAmplperLS7
TH1F * h_sumAmplperLS7
Definition: CMTRawAnalyzer.cc:1686

CMTRawAnalyzer::h_mapDepth2Pedw2_HE
TH2F * h_mapDepth2Pedw2_HE
Definition: CMTRawAnalyzer.cc:1915

CMTRawAnalyzer::h_lutcorr_HF
TH1F * h_lutcorr_HF
Definition: CMTRawAnalyzer.cc:1794

IdealGeometryRecord.h

CMTRawAnalyzer::h_sumADCAmplperLS3
TH1F * h_sumADCAmplperLS3
Definition: CMTRawAnalyzer.cc:1397

CMTRawAnalyzer::h_sumCutTSmaxAperLS3
TH1F * h_sumCutTSmaxAperLS3
Definition: CMTRawAnalyzer.cc:1557

CMTRawAnalyzer::h_sumPedestalperLS6
TH1F * h_sumPedestalperLS6
Definition: CMTRawAnalyzer.cc:1346

HcalRecHitCollections.h

CMTRawAnalyzer::h_sum0TSmaxAperLS5
TH1F * h_sum0TSmaxAperLS5
Definition: CMTRawAnalyzer.cc:1571

QIE11DataFrame.h

CMTRawAnalyzer::h_sumCutAmplperLS8
TH1F * h_sumCutAmplperLS8
Definition: CMTRawAnalyzer.cc:1693

CMTRawAnalyzer::h_recNoiseEnergy0_HF2
TH2F * h_recNoiseEnergy0_HF2
Definition: CMTRawAnalyzer.cc:2165

CMTRawAnalyzer::h_mapDepth1pedestalw_HE
TH2F * h_mapDepth1pedestalw_HE
Definition: CMTRawAnalyzer.cc:1748

CMTRawAnalyzer::h_bcnnbadchannels_depth1_HE
TH1F * h_bcnnbadchannels_depth1_HE
Definition: CMTRawAnalyzer.cc:1083

CMTRawAnalyzer::h_2DsumADCAmplLSdepth6HEu
TH2F * h_2DsumADCAmplLSdepth6HEu
Definition: CMTRawAnalyzer.cc:1363

CMTRawAnalyzer::averNOSIGNALoccupancy_HF
double averNOSIGNALoccupancy_HF
Definition: CMTRawAnalyzer.cc:2338

CMTRawAnalyzer::h_mapTSmeanCalib_HE
TH2F * h_mapTSmeanCalib_HE
Definition: CMTRawAnalyzer.cc:1273

CMTRawAnalyzer::h_mapDepth1ADCAmpl225Copy_HE
TH2F * h_mapDepth1ADCAmpl225Copy_HE
Definition: CMTRawAnalyzer.cc:833

CMTRawAnalyzer::h_totalAmplitudeHF
TH1F * h_totalAmplitudeHF
Definition: CMTRawAnalyzer.cc:742

CMTRawAnalyzer::h_mapDepth7Ampl_HE
TH2F * h_mapDepth7Ampl_HE
Definition: CMTRawAnalyzer.cc:1217

CMTRawAnalyzer::cap_num
int cap_num
Definition: CMTRawAnalyzer.cc:2371

CMTRawAnalyzer::h_sum0TSmeanAperLS1
TH1F * h_sum0TSmeanAperLS1
Definition: CMTRawAnalyzer.cc:1498

CMTRawAnalyzer::h_Amplitude_HE
TH1F * h_Amplitude_HE
Definition: CMTRawAnalyzer.cc:1188

CMTRawAnalyzer::h2_TSnVsAyear2023_HB
TH2F * h2_TSnVsAyear2023_HB
Definition: CMTRawAnalyzer.cc:2255

CMTRawAnalyzer::h_averNOSIGNALoccupancy_HE
TH1F * h_averNOSIGNALoccupancy_HE
Definition: CMTRawAnalyzer.cc:2006

CMTRawAnalyzer::h_nls_per_run10
TH1F * h_nls_per_run10
Definition: CMTRawAnalyzer.cc:1313

CMTRawAnalyzer::tok_hf_
edm::EDGetTokenT< HFDigiCollection > tok_hf_
Definition: CMTRawAnalyzer.cc:445

CMTRawAnalyzer::h_error3
TH1F * h_error3
Definition: CMTRawAnalyzer.cc:753

CMTRawAnalyzer::h_mapDepth2ADCAmpl225_HF
TH2F * h_mapDepth2ADCAmpl225_HF
Definition: CMTRawAnalyzer.cc:961

CMTRawAnalyzer::h_runbadrateC_depth3_HE
TH1F * h_runbadrateC_depth3_HE
Definition: CMTRawAnalyzer.cc:1061

HcalLUTCorr
Definition: HcalLUTCorr.h:15

CMTRawAnalyzer::h_sum0ErrorBperLS8
TH1F * h_sum0ErrorBperLS8
Definition: CMTRawAnalyzer.cc:1996

CMTRawAnalyzer::h_pedestal1_HE
TH1F * h_pedestal1_HE
Definition: CMTRawAnalyzer.cc:1709

CMTRawAnalyzer::h_recSignalEnergy2_HB4
TH2F * h_recSignalEnergy2_HB4
Definition: CMTRawAnalyzer.cc:2092

CMTRawAnalyzer::eta
int eta
Definition: CMTRawAnalyzer.cc:2371

CMTRawAnalyzer::calibrTSmaxHFMin_
double calibrTSmaxHFMin_
Definition: CMTRawAnalyzer.cc:636

CMTRawAnalyzer::lsdep_estimator5_HEdepth2_
double lsdep_estimator5_HEdepth2_
Definition: CMTRawAnalyzer.cc:574

CMTRawAnalyzer::signal
double signal[ndepth][neta][nphi]
Definition: CMTRawAnalyzer.cc:2273

HcalRecNumberingRecord
Definition: HcalRecNumberingRecord.h:23

CMTRawAnalyzer::h_sumADCAmplEtaPhiLs_lscounterM1orbitNum
TH1F * h_sumADCAmplEtaPhiLs_lscounterM1orbitNum
Definition: CMTRawAnalyzer.cc:710

CMTRawAnalyzer::h_pedestal0_HF
TH1F * h_pedestal0_HF
Definition: CMTRawAnalyzer.cc:1720

CMTRawAnalyzer::maxxSUM4
double maxxSUM4
Definition: CMTRawAnalyzer.cc:2347

CMTRawAnalyzer::h_RatioOccupancy_HFP
TH1F * h_RatioOccupancy_HFP
Definition: CMTRawAnalyzer.cc:1682

CMTRawAnalyzer::h_totalAmplitudeHB
TH1F * h_totalAmplitudeHB
Definition: CMTRawAnalyzer.cc:740

CMTRawAnalyzer::h_mapenophinorm_HE3
TH2F * h_mapenophinorm_HE3
Definition: CMTRawAnalyzer.cc:2039

CMTRawAnalyzer::lsdep_estimator3_HFdepth2_
double lsdep_estimator3_HFdepth2_
Definition: CMTRawAnalyzer.cc:559

CMTRawAnalyzer::h_2D0sumTSmaxALS2
TH2F * h_2D0sumTSmaxALS2
Definition: CMTRawAnalyzer.cc:1552

CMTRawAnalyzer::h_shape_bad_channels_HE
TH1F * h_shape_bad_channels_HE
Definition: CMTRawAnalyzer.cc:1849

CMTRawAnalyzer::h_2D0sumAmplLS3
TH2F * h_2D0sumAmplLS3
Definition: CMTRawAnalyzer.cc:1656

CMTRawAnalyzer::h_mapDepth4Ampl047_HE
TH2F * h_mapDepth4Ampl047_HE
Definition: CMTRawAnalyzer.cc:1207

CMTRawAnalyzer::h_mapDepth1Pedw0_HE
TH2F * h_mapDepth1Pedw0_HE
Definition: CMTRawAnalyzer.cc:1905

CMTRawAnalyzer::h_fiber1_HE
TH1F * h_fiber1_HE
Definition: CMTRawAnalyzer.cc:792

edm::InputTag
Definition: InputTag.h:15

CMTRawAnalyzer::h_numberofhitsHBtest
TH1F * h_numberofhitsHBtest
Definition: CMTRawAnalyzer.cc:728

CMTRawAnalyzer::h_eventamplitude_HE
TH1F * h_eventamplitude_HE
Definition: CMTRawAnalyzer.cc:2026

CMTRawAnalyzer::h_amplFine_HE
TH1F * h_amplFine_HE
Definition: CMTRawAnalyzer.cc:783

CMTRawAnalyzer::h_mapGetRMSOverNormalizedSignal_HB
TH2F * h_mapGetRMSOverNormalizedSignal_HB
Definition: CMTRawAnalyzer.cc:1949

CMTRawAnalyzer::h_mapDepth1Ampl047_HF
TH2F * h_mapDepth1Ampl047_HF
Definition: CMTRawAnalyzer.cc:994

CMTRawAnalyzer::lsdep_estimator1_HEdepth1_
double lsdep_estimator1_HEdepth1_
Definition: CMTRawAnalyzer.cc:529

CMTRawAnalyzer::h_2D0sumTSmeanALS3
TH2F * h_2D0sumTSmeanALS3
Definition: CMTRawAnalyzer.cc:1509

CMTRawAnalyzer::h_lutcorr_HO
TH1F * h_lutcorr_HO
Definition: CMTRawAnalyzer.cc:1799

CMTRawAnalyzer::h_pedestalw0_HF
TH1F * h_pedestalw0_HF
Definition: CMTRawAnalyzer.cc:1726

CMTRawAnalyzer::h_mapDepth6TSmeanA225_HE
TH2F * h_mapDepth6TSmeanA225_HE
Definition: CMTRawAnalyzer.cc:1171

CMTRawAnalyzer::h_sumTSmeanAperLS5
TH1F * h_sumTSmeanAperLS5
Definition: CMTRawAnalyzer.cc:1519

CMTRawAnalyzer::h_corrforxaMAIN_HE
TH1F * h_corrforxaMAIN_HE
Definition: CMTRawAnalyzer.cc:1114

CMTRawAnalyzer::h_averSIGNALoccupancy_HF
TH1F * h_averSIGNALoccupancy_HF
Definition: CMTRawAnalyzer.cc:1999

CMTRawAnalyzer::h_A_Depth3RADDAM_HE
TH1F * h_A_Depth3RADDAM_HE
Definition: CMTRawAnalyzer.cc:2237

CMTRawAnalyzer::h_bcnvsamplitude_HF
TH1F * h_bcnvsamplitude_HF
Definition: CMTRawAnalyzer.cc:685

CMTRawAnalyzer::h_mapDepth3Pedw1_HE
TH2F * h_mapDepth3Pedw1_HE
Definition: CMTRawAnalyzer.cc:1922

CMTRawAnalyzer::h_mapDepth4_HB
TH2F * h_mapDepth4_HB
Definition: CMTRawAnalyzer.cc:912

CMTRawAnalyzer::h_recSignalEnergy1_HF4
TH2F * h_recSignalEnergy1_HF4
Definition: CMTRawAnalyzer.cc:2159

CMTRawAnalyzer::fillMAP
virtual void fillMAP()
Definition: CMTRawAnalyzer.cc:13147

HcalDbService::getHcalCoder
const HcalQIECoder * getHcalCoder(const HcalGenericDetId &fId) const
Definition: HcalDbService.cc:319

CMTRawAnalyzer::nnnnnn5
int nnnnnn5
Definition: CMTRawAnalyzer.cc:670

CMTRawAnalyzer::h_recNoiseEnergy0_HF4
TH2F * h_recNoiseEnergy0_HF4
Definition: CMTRawAnalyzer.cc:2171

CMTRawAnalyzer::h_sigLayer2RADDAM6_HED2
TH1F * h_sigLayer2RADDAM6_HED2
Definition: CMTRawAnalyzer.cc:2254

CMTRawAnalyzer::h_sumCutTSmeanAperLS6
TH1F * h_sumCutTSmeanAperLS6
Definition: CMTRawAnalyzer.cc:1526

CMTRawAnalyzer::h_mapDepth4Pedw2_HO
TH2F * h_mapDepth4Pedw2_HO
Definition: CMTRawAnalyzer.cc:1947

CMTRawAnalyzer::h_mapDepth6TSmaxA_HE
TH2F * h_mapDepth6TSmaxA_HE
Definition: CMTRawAnalyzer.cc:1179

CMTRawAnalyzer::calibrTSmeanHEMin_
double calibrTSmeanHEMin_
Definition: CMTRawAnalyzer.cc:642

CMTRawAnalyzer::h_mapDepth2ADCAmpl12_HF
TH2F * h_mapDepth2ADCAmpl12_HF
Definition: CMTRawAnalyzer.cc:928

CMTRawAnalyzer::calibrTSmeanHBMin_
double calibrTSmeanHBMin_
Definition: CMTRawAnalyzer.cc:641

CMTRawAnalyzer::h_2D0sumAmplitudeLS3
TH2F * h_2D0sumAmplitudeLS3
Definition: CMTRawAnalyzer.cc:1607

CMTRawAnalyzer::h_maprphinorm2_HE3
TH2F * h_maprphinorm2_HE3
Definition: CMTRawAnalyzer.cc:2060

CMTRawAnalyzer::rmsHEMax_
double rmsHEMax_
Definition: CMTRawAnalyzer.cc:584

CMTRawAnalyzer::h_2DsumADCAmplLS7_LSselected
TH2F * h_2DsumADCAmplLS7_LSselected
Definition: CMTRawAnalyzer.cc:1477

CMTRawAnalyzer::mapRADDAM_HED20
int mapRADDAM_HED20[ndepth][neta]
Definition: CMTRawAnalyzer.cc:2307

CMTRawAnalyzer::h_mapDepth2pedestalw_HE
TH2F * h_mapDepth2pedestalw_HE
Definition: CMTRawAnalyzer.cc:1749

CMTRawAnalyzer::h_TSmaxCalib_HO
TH1F * h_TSmaxCalib_HO
Definition: CMTRawAnalyzer.cc:1285

CMTRawAnalyzer::h_RatioOccupancy_HBM
TH1F * h_RatioOccupancy_HBM
Definition: CMTRawAnalyzer.cc:1677

CMTRawAnalyzer::h_maxxOCCUP_HB
TH1F * h_maxxOCCUP_HB
Definition: CMTRawAnalyzer.cc:2017

CMTRawAnalyzer::h_sum0ADCAmplperLSdepth4HEu
TH1F * h_sum0ADCAmplperLSdepth4HEu
Definition: CMTRawAnalyzer.cc:1430

CMTRawAnalyzer::gsmdepth1sipm
long int gsmdepth1sipm[npfit][neta][nphi][ndepth]
Definition: CMTRawAnalyzer.cc:2309

CMTRawAnalyzer::flagabortgaprejected_
int flagabortgaprejected_
Definition: CMTRawAnalyzer.cc:502

CMTRawAnalyzer::h_respcorr_HE
TH1F * h_respcorr_HE
Definition: CMTRawAnalyzer.cc:1787

CMTRawAnalyzer::h_mapDepth2RADDAM0_HE
TH2F * h_mapDepth2RADDAM0_HE
Definition: CMTRawAnalyzer.cc:2230

CMTRawAnalyzer::h_mapDepth7Amplitude_HE
TH2F * h_mapDepth7Amplitude_HE
Definition: CMTRawAnalyzer.cc:1195

CMTRawAnalyzer::h_mapDepth1pedestalw_HF
TH2F * h_mapDepth1pedestalw_HF
Definition: CMTRawAnalyzer.cc:1755

CMTRawAnalyzer::h_ADCAmplZoom1_HF
TH1F * h_ADCAmplZoom1_HF
Definition: CMTRawAnalyzer.cc:957

CMTRawAnalyzer::h_sumamplitude_depth1_HE0
TH1F * h_sumamplitude_depth1_HE0
Definition: CMTRawAnalyzer.cc:1871

CMTRawAnalyzer::h_mapDepth1pedestal_HF
TH2F * h_mapDepth1pedestal_HF
Definition: CMTRawAnalyzer.cc:1771

CMTRawAnalyzer::h_mapDepth5pedestal_HE
TH2F * h_mapDepth5pedestal_HE
Definition: CMTRawAnalyzer.cc:1768

CMTRawAnalyzer::h_mapRatioCalib_HF
TH2F * h_mapRatioCalib_HF
Definition: CMTRawAnalyzer.cc:1301

CMTRawAnalyzer::fillDigiErrorsHO
void fillDigiErrorsHO(HODigiCollection::const_iterator &digiItr)
Definition: CMTRawAnalyzer.cc:8471

CMTRawAnalyzer::h_A_Depth1RADDAM_HE
TH1F * h_A_Depth1RADDAM_HE
Definition: CMTRawAnalyzer.cc:2235

CMTRawAnalyzer::h_averNOSIGNALoccupancy_HF
TH1F * h_averNOSIGNALoccupancy_HF
Definition: CMTRawAnalyzer.cc:2007

CMTRawAnalyzer::h_sum0ErrorBperLS7
TH1F * h_sum0ErrorBperLS7
Definition: CMTRawAnalyzer.cc:1991

CMTRawAnalyzer::h_sumamplitude_depth1_HF
TH1F * h_sumamplitude_depth1_HF
Definition: CMTRawAnalyzer.cc:1866

CMTRawAnalyzer::h_2D0sumErrorBLS8
TH2F * h_2D0sumErrorBLS8
Definition: CMTRawAnalyzer.cc:1992

CMTRawAnalyzer::h_sumTSmaxAperLS7
TH1F * h_sumTSmaxAperLS7
Definition: CMTRawAnalyzer.cc:1580

CMTRawAnalyzer::h_sumAmplLS7
TH1F * h_sumAmplLS7
Definition: CMTRawAnalyzer.cc:1684

CMTRawAnalyzer::nnnnnn3
int nnnnnn3
Definition: CMTRawAnalyzer.cc:668

CMTRawAnalyzer::h_runbadrate0_depth1_HE
TH1F * h_runbadrate0_depth1_HE
Definition: CMTRawAnalyzer.cc:1050

CMTRawAnalyzer::h_mapDepth3Ampl_HE
TH2F * h_mapDepth3Ampl_HE
Definition: CMTRawAnalyzer.cc:1213

CMTRawAnalyzer::h_TSmeanA_HF
TH1F * h_TSmeanA_HF
Definition: CMTRawAnalyzer.cc:966

HcalElectronicsMap
Definition: HcalElectronicsMap.h:31

CMTRawAnalyzer::h_mapenophinorm2_HE4
TH2F * h_mapenophinorm2_HE4
Definition: CMTRawAnalyzer.cc:2047

CMTRawAnalyzer::h_sum0ADCAmplperLS8_M1
TH1F * h_sum0ADCAmplperLS8_M1
Definition: CMTRawAnalyzer.cc:1472

CMTRawAnalyzer::h_2DsumADCAmplLS2_LSselected
TH2F * h_2DsumADCAmplLS2_LSselected
Definition: CMTRawAnalyzer.cc:1389

CMTRawAnalyzer::h_2D0sumAmplLS5
TH2F * h_2D0sumAmplLS5
Definition: CMTRawAnalyzer.cc:1668

CMTRawAnalyzer::lsdep_cut1_peak_HEdepth1_
int lsdep_cut1_peak_HEdepth1_
Definition: CMTRawAnalyzer.cc:512

CMTRawAnalyzer::h_sum0AmplperLS5
TH1F * h_sum0AmplperLS5
Definition: CMTRawAnalyzer.cc:1669

CMTRawAnalyzer::h_mapDepth3TSmeanA225_HB
TH2F * h_mapDepth3TSmeanA225_HB
Definition: CMTRawAnalyzer.cc:876

CMTRawAnalyzer::h_mapDepth4pedestal_HF
TH2F * h_mapDepth4pedestal_HF
Definition: CMTRawAnalyzer.cc:1774

CMTRawAnalyzer::h_sum0AmplitudeperLS6
TH1F * h_sum0AmplitudeperLS6
Definition: CMTRawAnalyzer.cc:1626

CMTRawAnalyzer::lsdep_estimator2_HBdepth2_
double lsdep_estimator2_HBdepth2_
Definition: CMTRawAnalyzer.cc:545

CMTRawAnalyzer::h_mapDepth2pedestalw_HB
TH2F * h_mapDepth2pedestalw_HB
Definition: CMTRawAnalyzer.cc:1745

CMTRawAnalyzer::h_2DsumADCAmplEtaPhiLs30
TH2F * h_2DsumADCAmplEtaPhiLs30
Definition: CMTRawAnalyzer.cc:704

CMTRawAnalyzer::h_mapDepth6Ampl047_HE
TH2F * h_mapDepth6Ampl047_HE
Definition: CMTRawAnalyzer.cc:1209

CMTRawAnalyzer::h_sum0ADCAmplperLS6u
TH1F * h_sum0ADCAmplperLS6u
Definition: CMTRawAnalyzer.cc:1442

CMTRawAnalyzer::h_mapDepth1Ped1_HF
TH2F * h_mapDepth1Ped1_HF
Definition: CMTRawAnalyzer.cc:1926

CMTRawAnalyzer::h_mapDepth4ADCAmpl225_HE
TH2F * h_mapDepth4ADCAmpl225_HE
Definition: CMTRawAnalyzer.cc:1154

CMTRawAnalyzer::calibrTSmaxHBMax_
double calibrTSmaxHBMax_
Definition: CMTRawAnalyzer.cc:637

CMTRawAnalyzer::h_recNoiseEnergy2_HB2
TH2F * h_recNoiseEnergy2_HB2
Definition: CMTRawAnalyzer.cc:2098

CMTRawAnalyzer::tok_ho_
edm::EDGetTokenT< HODigiCollection > tok_ho_
Definition: CMTRawAnalyzer.cc:444

HcalGeometryRecord.h

HcalFrontEndId
Definition: HcalFrontEndId.h:8

CMTRawAnalyzer::h_2D0sumTSmaxALS5
TH2F * h_2D0sumTSmaxALS5
Definition: CMTRawAnalyzer.cc:1570

CMTRawAnalyzer::h_mapAiForLS_bad_HO
TH2F * h_mapAiForLS_bad_HO
Definition: CMTRawAnalyzer.cc:720

CMTRawAnalyzer::h_bcnbadrate0_depth3_HE
TH1F * h_bcnbadrate0_depth3_HE
Definition: CMTRawAnalyzer.cc:1093

CMTRawAnalyzer::h_sumADCAmplEtaPhiLs_orbitNum
TH1F * h_sumADCAmplEtaPhiLs_orbitNum
Definition: CMTRawAnalyzer.cc:711

CMTRawAnalyzer::h_mapDepth3TS1_HF
TH2F * h_mapDepth3TS1_HF
Definition: CMTRawAnalyzer.cc:949

CMTRawAnalyzer::h_AmplitudeHBtest6
TH1F * h_AmplitudeHBtest6
Definition: CMTRawAnalyzer.cc:734

CMTRawAnalyzer::h_mapDepth4TSmaxA225_HE
TH2F * h_mapDepth4TSmaxA225_HE
Definition: CMTRawAnalyzer.cc:1184

CMTRawAnalyzer::h_recNoiseEnergy2_HB4
TH2F * h_recNoiseEnergy2_HB4
Definition: CMTRawAnalyzer.cc:2104

CMTRawAnalyzer::h_mapADCAmplsecondpeak0_HE
TH2F * h_mapADCAmplsecondpeak0_HE
Definition: CMTRawAnalyzer.cc:1133

CMTRawAnalyzer::h1_TSnVsAyear2023_HO
TH1F * h1_TSnVsAyear2023_HO
Definition: CMTRawAnalyzer.cc:2262

CMTRawAnalyzer::h_mapDepth2ADCAmpl225Copy_HF
TH2F * h_mapDepth2ADCAmpl225Copy_HF
Definition: CMTRawAnalyzer.cc:841

CMTRawAnalyzer::h_gsmdifferencefit2_HE
TH1F * h_gsmdifferencefit2_HE
Definition: CMTRawAnalyzer.cc:1143

TFileService::make
T * make(const Args &...args) const
make new ROOT object
Definition: TFileService.h:64

CMTRawAnalyzer::h_averSIGNALsumamplitude_HB
TH1F * h_averSIGNALsumamplitude_HB
Definition: CMTRawAnalyzer.cc:2001

CMTRawAnalyzer::calibrTSmaxHFMax_
double calibrTSmaxHFMax_
Definition: CMTRawAnalyzer.cc:640

CMTRawAnalyzer::h_sumCutAmplitudeperLS2
TH1F * h_sumCutAmplitudeperLS2
Definition: CMTRawAnalyzer.cc:1600

CMTRawAnalyzer::h_mapDepth2Ampl047_HF
TH2F * h_mapDepth2Ampl047_HF
Definition: CMTRawAnalyzer.cc:995

CMTRawAnalyzer::h_sum0ADCAmplperLS4
TH1F * h_sum0ADCAmplperLS4
Definition: CMTRawAnalyzer.cc:1407

CMTRawAnalyzer::h_mapDepth3ADCAmplSiPM_HE
TH2F * h_mapDepth3ADCAmplSiPM_HE
Definition: CMTRawAnalyzer.cc:1150

CMTRawAnalyzer::h_ADCAmpl345_HBCapIdError
TH1F * h_ADCAmpl345_HBCapIdError
Definition: CMTRawAnalyzer.cc:854

CMTRawAnalyzer::fillDigiErrorsHFQIE10
void fillDigiErrorsHFQIE10(QIE10DataFrame qie10df)
Definition: CMTRawAnalyzer.cc:8398

CMTRawAnalyzer::h_bcnnbadchannels_depth2_HE
TH1F * h_bcnnbadchannels_depth2_HE
Definition: CMTRawAnalyzer.cc:1084

CMTRawAnalyzer::endRun
void endRun(const edm::Run &r, const edm::EventSetup &iSetup) override
Definition: CMTRawAnalyzer.cc:12174

CMTRawAnalyzer::TS_cal
float TS_cal[100]
Definition: CMTRawAnalyzer.cc:2303

CMTRawAnalyzer::h_FullSignal3D_HO
TH2F * h_FullSignal3D_HO
Definition: CMTRawAnalyzer.cc:1236

CMTRawAnalyzer::h_2D0sumErrorBLS3
TH2F * h_2D0sumErrorBLS3
Definition: CMTRawAnalyzer.cc:1967

CMTRawAnalyzer::h_fiber2_HE
TH1F * h_fiber2_HE
Definition: CMTRawAnalyzer.cc:793

CMTRawAnalyzer::h_mapADCCalib_HF
TH2F * h_mapADCCalib_HF
Definition: CMTRawAnalyzer.cc:1298

CMTRawAnalyzer::calibrTSmeanHBMax_
double calibrTSmeanHBMax_
Definition: CMTRawAnalyzer.cc:645

CMTRawAnalyzer::h_mapDepth2ADCAmpl_HE
TH2F * h_mapDepth2ADCAmpl_HE
Definition: CMTRawAnalyzer.cc:1124

fftjetpileupestimator_calo_uncalib_cfi.c0
c0
Definition: fftjetpileupestimator_calo_uncalib_cfi.py:8

edm::ParameterSet
Definition: ParameterSet.h:48

CMTRawAnalyzer::h_AmplitudeHFtest
TH1F * h_AmplitudeHFtest
Definition: CMTRawAnalyzer.cc:738

CMTRawAnalyzer::h_mapDepth3AmplE34_HF
TH2F * h_mapDepth3AmplE34_HF
Definition: CMTRawAnalyzer.cc:1006

CMTRawAnalyzer::h_mapDepth4ADCAmpl225Copy_HE
TH2F * h_mapDepth4ADCAmpl225Copy_HE
Definition: CMTRawAnalyzer.cc:836

CMTRawAnalyzer::h_mapDepth2TS2_HE
TH2F * h_mapDepth2TS2_HE
Definition: CMTRawAnalyzer.cc:941

CMTRawAnalyzer::h_sumADCAmplEtaPhiLs_bbb1
TH1F * h_sumADCAmplEtaPhiLs_bbb1
Definition: CMTRawAnalyzer.cc:707

CMTRawAnalyzer::h_ADCAmpl_HE
TH1F * h_ADCAmpl_HE
Definition: CMTRawAnalyzer.cc:1118

CMTRawAnalyzer::h_mapDepth1pedestal_HE
TH2F * h_mapDepth1pedestal_HE
Definition: CMTRawAnalyzer.cc:1764

CMTRawAnalyzer::h_sumAmplitudeperLS2
TH1F * h_sumAmplitudeperLS2
Definition: CMTRawAnalyzer.cc:1599

CMTRawAnalyzer::h_pedestalw1_HO
TH1F * h_pedestalw1_HO
Definition: CMTRawAnalyzer.cc:1739

CMTRawAnalyzer::h_pedestal2_HB
TH1F * h_pedestal2_HB
Definition: CMTRawAnalyzer.cc:1698

CMTRawAnalyzer::h_amplitudechannel1_HE3
TH2F * h_amplitudechannel1_HE3
Definition: CMTRawAnalyzer.cc:2194

CMTRawAnalyzer::h_AamplitudewithPedSubtr_RADDAM_HE
TH1F * h_AamplitudewithPedSubtr_RADDAM_HE
Definition: CMTRawAnalyzer.cc:2232

CMTRawAnalyzer::h_bcnnbadchannels_depth3_HE
TH1F * h_bcnnbadchannels_depth3_HE
Definition: CMTRawAnalyzer.cc:1085

CMTRawAnalyzer::h_mapDepth1TSmeanA_HF
TH2F * h_mapDepth1TSmeanA_HF
Definition: CMTRawAnalyzer.cc:967

CMTRawAnalyzer::lumi
int lumi
Definition: CMTRawAnalyzer.cc:2318

CMTRawAnalyzer::h_mapDepth4_HE
TH2F * h_mapDepth4_HE
Definition: CMTRawAnalyzer.cc:1228

CMTRawAnalyzer::lsdep_estimator3_HEdepth3_
double lsdep_estimator3_HEdepth3_
Definition: CMTRawAnalyzer.cc:557

CMTRawAnalyzer::h_gsmdifferencefit6_HE
TH1F * h_gsmdifferencefit6_HE
Definition: CMTRawAnalyzer.cc:1147

CMTRawAnalyzer::h_ADCAmplrest6_HF
TH1F * h_ADCAmplrest6_HF
Definition: CMTRawAnalyzer.cc:956

ndepth
const int ndepth
Definition: CMTRawAnalyzer.cc:416

CMTRawAnalyzer::lsdep_estimator4_HEdepth1_
double lsdep_estimator4_HEdepth1_
Definition: CMTRawAnalyzer.cc:564

CMTRawAnalyzer::h_repetedcapid_HE
TH1F * h_repetedcapid_HE
Definition: CMTRawAnalyzer.cc:794

CMTRawAnalyzer::h_mapDepth4Ped3_HO
TH2F * h_mapDepth4Ped3_HO
Definition: CMTRawAnalyzer.cc:1944

CMTRawAnalyzer::h_amplvsped_HB
TH1F * h_amplvsped_HB
Definition: CMTRawAnalyzer.cc:1808

CMTRawAnalyzer::h_mapDepth2Ped3_HE
TH2F * h_mapDepth2Ped3_HE
Definition: CMTRawAnalyzer.cc:1912

CMTRawAnalyzer::h_pedestal00_HF
TH1F * h_pedestal00_HF
Definition: CMTRawAnalyzer.cc:1790

CMTRawAnalyzer::h_pedestalw2_HB
TH1F * h_pedestalw2_HB
Definition: CMTRawAnalyzer.cc:1704

CMTRawAnalyzer::h_sumCutAmplitudeperLS5
TH1F * h_sumCutAmplitudeperLS5
Definition: CMTRawAnalyzer.cc:1618

CMTRawAnalyzer::h_sum0ADCAmplperLS1_M2
TH1F * h_sum0ADCAmplperLS1_M2
Definition: CMTRawAnalyzer.cc:1450

CMTRawAnalyzer::h_AamplitudewithPedSubtr_RADDAM_HEzoom1
TH1F * h_AamplitudewithPedSubtr_RADDAM_HEzoom1
Definition: CMTRawAnalyzer.cc:2234

CMTRawAnalyzer::averNOSIGNALsumamplitude_HE
double averNOSIGNALsumamplitude_HE
Definition: CMTRawAnalyzer.cc:2341

CMTRawAnalyzer::h_sigLayer2RADDAM0_HE
TH1F * h_sigLayer2RADDAM0_HE
Definition: CMTRawAnalyzer.cc:2227

gather_cfg.cout
cout
Definition: gather_cfg.py:144

CMTRawAnalyzer::h_sumamplitudechannel_HO
TH1F * h_sumamplitudechannel_HO
Definition: CMTRawAnalyzer.cc:2024

CMTRawAnalyzer::h_pedestalaver4_HB
TH1F * h_pedestalaver4_HB
Definition: CMTRawAnalyzer.cc:1700

CMTRawAnalyzer::h_mapWidthCalib_HB
TH2F * h_mapWidthCalib_HB
Definition: CMTRawAnalyzer.cc:1259

CMTRawAnalyzer::h_sumAmplitudeperLS7
TH1F * h_sumAmplitudeperLS7
Definition: CMTRawAnalyzer.cc:1629

HcalDataFrameContainer
Definition: HcalDigiCollections.h:35

CMTRawAnalyzer::useADCcounts_
bool useADCcounts_
Definition: CMTRawAnalyzer.cc:481

CMTRawAnalyzer::h_recSignalEnergy1_HF1
TH2F * h_recSignalEnergy1_HF1
Definition: CMTRawAnalyzer.cc:2150

CMTRawAnalyzer::h_sumADCAmplLS5
TH1F * h_sumADCAmplLS5
Definition: CMTRawAnalyzer.cc:1408

CMTRawAnalyzer::h_sum0ADCAmplperLS1_M1
TH1F * h_sum0ADCAmplperLS1_M1
Definition: CMTRawAnalyzer.cc:1448

CMTRawAnalyzer::h_mapDepth1TSmaxA225_HB
TH2F * h_mapDepth1TSmaxA225_HB
Definition: CMTRawAnalyzer.cc:881

CMTRawAnalyzer::h_orbitNumvsamplitude0_HB
TH1F * h_orbitNumvsamplitude0_HB
Definition: CMTRawAnalyzer.cc:690

CMTRawAnalyzer::h_mapDepth2ADCAmpl12_HE
TH2F * h_mapDepth2ADCAmpl12_HE
Definition: CMTRawAnalyzer.cc:918

CMTRawAnalyzer::lsdep_cut3_max_HBdepth1_
int lsdep_cut3_max_HBdepth1_
Definition: CMTRawAnalyzer.cc:519

CMTRawAnalyzer::recNoiseEnergy1
double recNoiseEnergy1[nsub][ndepth][neta][nphi]
Definition: CMTRawAnalyzer.cc:2295

CMTRawAnalyzer::h_recNoiseEnergy1_HE7
TH2F * h_recNoiseEnergy1_HE7
Definition: CMTRawAnalyzer.cc:2146

CMTRawAnalyzer::h_sum0AmplperLS2
TH1F * h_sum0AmplperLS2
Definition: CMTRawAnalyzer.cc:1651

reco::ParticleMasses::k0
const double k0
Definition: ParticleMasses.h:7

CMTRawAnalyzer::sumEstimator4
double sumEstimator4[nsub][ndepth][neta][nphi]
Definition: CMTRawAnalyzer.cc:2282

CMTRawAnalyzer::calibrRatioHBMax_
double calibrRatioHBMax_
Definition: CMTRawAnalyzer.cc:629

CMTRawAnalyzer::h_mapDepth2Pedw0_HB
TH2F * h_mapDepth2Pedw0_HB
Definition: CMTRawAnalyzer.cc:1897

CMTRawAnalyzer::calibrWidthHFMax_
double calibrWidthHFMax_
Definition: CMTRawAnalyzer.cc:656

CMTRawAnalyzer::h1_TSnVsAyear2023_HE
TH1F * h1_TSnVsAyear2023_HE
Definition: CMTRawAnalyzer.cc:2260

CMTRawAnalyzer::h_2DsumAmplLS1
TH2F * h_2DsumAmplLS1
Definition: CMTRawAnalyzer.cc:1640

CMTRawAnalyzer::averSIGNALsumamplitude_HB
double averSIGNALsumamplitude_HB
Definition: CMTRawAnalyzer.cc:2332

CMTRawAnalyzer::h_maprphinorm0_HE6
TH2F * h_maprphinorm0_HE6
Definition: CMTRawAnalyzer.cc:2070

CMTRawAnalyzer::h_amplitudechannel2_HE4
TH2F * h_amplitudechannel2_HE4
Definition: CMTRawAnalyzer.cc:2198

CMTRawAnalyzer::h_sumCutTSmaxAperLS7
TH1F * h_sumCutTSmaxAperLS7
Definition: CMTRawAnalyzer.cc:1581

CMTRawAnalyzer::averSIGNALsumamplitude_HF
double averSIGNALsumamplitude_HF
Definition: CMTRawAnalyzer.cc:2334

CMTRawAnalyzer::h_mapTSmeanCalib_HO
TH2F * h_mapTSmeanCalib_HO
Definition: CMTRawAnalyzer.cc:1290

CMTRawAnalyzer::h_2DsumErrorBLS5
TH2F * h_2DsumErrorBLS5
Definition: CMTRawAnalyzer.cc:1978

lumi
Definition: LumiSectionData.h:20

CMTRawAnalyzer::h_mapDepth2AmplE34_HF
TH2F * h_mapDepth2AmplE34_HF
Definition: CMTRawAnalyzer.cc:999

CMTRawAnalyzer::fillDigiAmplitudeHFQIE10
void fillDigiAmplitudeHFQIE10(QIE10DataFrame qie10df)
Definition: CMTRawAnalyzer.cc:11197

CMTRawAnalyzer::h_eventamplitude_HF
TH1F * h_eventamplitude_HF
Definition: CMTRawAnalyzer.cc:2027

CMTRawAnalyzer::h_sum0ADCAmplperLSdepth6HEu
TH1F * h_sum0ADCAmplperLSdepth6HEu
Definition: CMTRawAnalyzer.cc:1432

CMTRawAnalyzer::h_mapDepth3pedestal_HE
TH2F * h_mapDepth3pedestal_HE
Definition: CMTRawAnalyzer.cc:1766

CMTRawAnalyzer::h_numberofhitsHOtest
TH1F * h_numberofhitsHOtest
Definition: CMTRawAnalyzer.cc:731

CMTRawAnalyzer::h_sumamplitude_depth2_HF1
TH1F * h_sumamplitude_depth2_HF1
Definition: CMTRawAnalyzer.cc:1883

CMTRawAnalyzer::h_2DsumTSmeanALS2
TH2F * h_2DsumTSmeanALS2
Definition: CMTRawAnalyzer.cc:1500

CMTRawAnalyzer::h_2D0sumTSmeanALS1
TH2F * h_2D0sumTSmeanALS1
Definition: CMTRawAnalyzer.cc:1497

CMTRawAnalyzer::h_totalAmplitudeHFperEvent
TH1F * h_totalAmplitudeHFperEvent
Definition: CMTRawAnalyzer.cc:746

CMTRawAnalyzer::h_orbitNumvsamplitude_HO
TH1F * h_orbitNumvsamplitude_HO
Definition: CMTRawAnalyzer.cc:695

CMTRawAnalyzer::counterhf
int counterhf
Definition: CMTRawAnalyzer.cc:663

CMTRawAnalyzer::h_Ampl_HB
TH1F * h_Ampl_HB
Definition: CMTRawAnalyzer.cc:896

CMTRawAnalyzer::h_mapDepth3ADCAmpl_HE
TH2F * h_mapDepth3ADCAmpl_HE
Definition: CMTRawAnalyzer.cc:1125

CMTRawAnalyzer::h_maxxOCCUP_HE
TH1F * h_maxxOCCUP_HE
Definition: CMTRawAnalyzer.cc:2018

CMTRawAnalyzer::h_ADCAmplZoom1_HE
TH1F * h_ADCAmplZoom1_HE
Definition: CMTRawAnalyzer.cc:1122

CMTRawAnalyzer::h_totalAmplitudeHBperEvent
TH1F * h_totalAmplitudeHBperEvent
Definition: CMTRawAnalyzer.cc:744

CMTRawAnalyzer::h_2DsumAmplitudeLS7
TH2F * h_2DsumAmplitudeLS7
Definition: CMTRawAnalyzer.cc:1628

CMTRawAnalyzer::h_shape_Ahigh_HB1
TH1F * h_shape_Ahigh_HB1
Definition: CMTRawAnalyzer.cc:1833

CMTRawAnalyzer::h_mapGetRMSOverNormalizedSignal0_HB
TH2F * h_mapGetRMSOverNormalizedSignal0_HB
Definition: CMTRawAnalyzer.cc:1950

CMTRawAnalyzer::h_mapDepth1ADCAmpl225Copy_HF
TH2F * h_mapDepth1ADCAmpl225Copy_HF
Definition: CMTRawAnalyzer.cc:840

CMTRawAnalyzer::h_recSignalEnergy2_HB1
TH2F * h_recSignalEnergy2_HB1
Definition: CMTRawAnalyzer.cc:2083

CMTRawAnalyzer::h_TSmaxA_HF
TH1F * h_TSmaxA_HF
Definition: CMTRawAnalyzer.cc:975

CMTRawAnalyzer::h_mapenophinorm2_HE3
TH2F * h_mapenophinorm2_HE3
Definition: CMTRawAnalyzer.cc:2046

CMTRawAnalyzer::h_2DsumErrorBLS2
TH2F * h_2DsumErrorBLS2
Definition: CMTRawAnalyzer.cc:1963

CMTRawAnalyzer::h_mapDepth1TS1_HF
TH2F * h_mapDepth1TS1_HF
Definition: CMTRawAnalyzer.cc:947

edm::Event
Definition: Event.h:73

HcalFrontEndId::adc
int adc() const
Definition: HcalFrontEndId.h:31

CMTRawAnalyzer::h_recSignalEnergy2_HE1
TH2F * h_recSignalEnergy2_HE1
Definition: CMTRawAnalyzer.cc:2108

CMTRawAnalyzer::lsdep_estimator5_HEdepth3_
double lsdep_estimator5_HEdepth3_
Definition: CMTRawAnalyzer.cc:575

CMTRawAnalyzer::h_error4_HO
TH1F * h_error4_HO
Definition: CMTRawAnalyzer.cc:817

CMTRawAnalyzer::h_sumAmplperLS1
TH1F * h_sumAmplperLS1
Definition: CMTRawAnalyzer.cc:1641

CMTRawAnalyzer::h_recSignalEnergy0_HB4
TH2F * h_recSignalEnergy0_HB4
Definition: CMTRawAnalyzer.cc:2090

adc2fC_QIE11_shunt1
double const adc2fC_QIE11_shunt1[256]
Definition: CMTRawAnalyzer.cc:350

CMTRawAnalyzer::h_runbadrate0_depth1_HB
TH1F * h_runbadrate0_depth1_HB
Definition: CMTRawAnalyzer.cc:1038

HFRecHit
Definition: HFRecHit.h:11

CMTRawAnalyzer::h_sum0AmplitudeperLS7
TH1F * h_sum0AmplitudeperLS7
Definition: CMTRawAnalyzer.cc:1632

CMTRawAnalyzer::h_mapDepth4ADCAmpl_HF
TH2F * h_mapDepth4ADCAmpl_HF
Definition: CMTRawAnalyzer.cc:963

CMTRawAnalyzer::h_mapDepth3linADCAmpl12_HE
TH2F * h_mapDepth3linADCAmpl12_HE
Definition: CMTRawAnalyzer.cc:934

CMTRawAnalyzer::h_recSignalEnergy0_HE5
TH2F * h_recSignalEnergy0_HE5
Definition: CMTRawAnalyzer.cc:2118

CMTRawAnalyzer::h_sumErrorBperLS3
TH1F * h_sumErrorBperLS3
Definition: CMTRawAnalyzer.cc:1970

createJobs.tmp
tmp
align.sh
Definition: createJobs.py:716

CMTRawAnalyzer::h_sum0AmplperLS6
TH1F * h_sum0AmplperLS6
Definition: CMTRawAnalyzer.cc:1675

CMTRawAnalyzer::h_shape_good_channels_HB
TH1F * h_shape_good_channels_HB
Definition: CMTRawAnalyzer.cc:1847

CMTRawAnalyzer::h_map0AiForLS_good_HE
TH2F * h_map0AiForLS_good_HE
Definition: CMTRawAnalyzer.cc:719

CMTRawAnalyzer::calibrRatioHEMax_
double calibrRatioHEMax_
Definition: CMTRawAnalyzer.cc:630

CMTRawAnalyzer::h_mapDepth1Ped1_HB
TH2F * h_mapDepth1Ped1_HB
Definition: CMTRawAnalyzer.cc:1886

CMTRawAnalyzer::calibrWidthHBMin_
double calibrWidthHBMin_
Definition: CMTRawAnalyzer.cc:649

CMTRawAnalyzer::h_recSignalEnergy0_HE7
TH2F * h_recSignalEnergy0_HE7
Definition: CMTRawAnalyzer.cc:2124

CMTRawAnalyzer::h_2DsumPedestalLS6
TH2F * h_2DsumPedestalLS6
Definition: CMTRawAnalyzer.cc:1345

CMTRawAnalyzer::h_nevents_per_eachRealLS
TH1F * h_nevents_per_eachRealLS
Definition: CMTRawAnalyzer.cc:1317

CMTRawAnalyzer::lsdep_estimator1_HEdepth7_
double lsdep_estimator1_HEdepth7_
Definition: CMTRawAnalyzer.cc:538

CMTRawAnalyzer::h_shape0_Ahigh_HB1
TH1F * h_shape0_Ahigh_HB1
Definition: CMTRawAnalyzer.cc:1834

CMTRawAnalyzer::h_ADCAmplZoom_HB
TH1F * h_ADCAmplZoom_HB
Definition: CMTRawAnalyzer.cc:855

CMTRawAnalyzer::h_amplitudeaveragedbydepthes_HE
TH1F * h_amplitudeaveragedbydepthes_HE
Definition: CMTRawAnalyzer.cc:748

CMTRawAnalyzer::h_sumADCAmplperLS3_P2
TH1F * h_sumADCAmplperLS3_P2
Definition: CMTRawAnalyzer.cc:1453

CMTRawAnalyzer::h_pedestal1_HB
TH1F * h_pedestal1_HB
Definition: CMTRawAnalyzer.cc:1697

CMTRawAnalyzer::h1_TSnVsAyear20230_HO
TH1F * h1_TSnVsAyear20230_HO
Definition: CMTRawAnalyzer.cc:2266

CMTRawAnalyzer::h_mapDepth4Amplitude_HB
TH2F * h_mapDepth4Amplitude_HB
Definition: CMTRawAnalyzer.cc:893

CMTRawAnalyzer::h_mapDepth1_HF
TH2F * h_mapDepth1_HF
Definition: CMTRawAnalyzer.cc:1000

CMTRawAnalyzer::h_mapRatioCalib047_HB
TH2F * h_mapRatioCalib047_HB
Definition: CMTRawAnalyzer.cc:1249

CMTRawAnalyzer::h_mapDepth1ADCAmpl_HE
TH2F * h_mapDepth1ADCAmpl_HE
Definition: CMTRawAnalyzer.cc:1123

CMTRawAnalyzer::h_shape0_bad_channels_HE
TH1F * h_shape0_bad_channels_HE
Definition: CMTRawAnalyzer.cc:1850

CMTRawAnalyzer::h_shape0_bad_channels_HO
TH1F * h_shape0_bad_channels_HO
Definition: CMTRawAnalyzer.cc:1858

CMTRawAnalyzer::h_amplitudechannel1_HF2
TH2F * h_amplitudechannel1_HF2
Definition: CMTRawAnalyzer.cc:2212

CMTRawAnalyzer::h_pedestalw3_HB
TH1F * h_pedestalw3_HB
Definition: CMTRawAnalyzer.cc:1705

CMTRawAnalyzer::h_mapDepth2Pedw0_HE
TH2F * h_mapDepth2Pedw0_HE
Definition: CMTRawAnalyzer.cc:1913

CMTRawAnalyzer::h_2D0sumADCAmplLSdepth7HEu
TH2F * h_2D0sumADCAmplLSdepth7HEu
Definition: CMTRawAnalyzer.cc:1366

CMTRawAnalyzer::h_mapDepth6Error_HE
TH2F * h_mapDepth6Error_HE
Definition: CMTRawAnalyzer.cc:789

CMTRawAnalyzer::h_sumTSmeanAperLS6
TH1F * h_sumTSmeanAperLS6
Definition: CMTRawAnalyzer.cc:1525

CMTRawAnalyzer::h_sumADCAmplperLSdepth4HEu
TH1F * h_sumADCAmplperLSdepth4HEu
Definition: CMTRawAnalyzer.cc:1422

ModuleDef.h

CMTRawAnalyzer::h_2D0sumADCAmplLSdepth4HEu
TH2F * h_2D0sumADCAmplLSdepth4HEu
Definition: CMTRawAnalyzer.cc:1360

CMTRawAnalyzer::h_sumPedestalperLS5
TH1F * h_sumPedestalperLS5
Definition: CMTRawAnalyzer.cc:1341

CMTRawAnalyzer::h_mapDepth1Amplitude225_HF
TH2F * h_mapDepth1Amplitude225_HF
Definition: CMTRawAnalyzer.cc:987

CMTRawAnalyzer::h_mapWidthCalib_HE
TH2F * h_mapWidthCalib_HE
Definition: CMTRawAnalyzer.cc:1276

CMTRawAnalyzer::h_sumCutTSmaxAperLS5
TH1F * h_sumCutTSmaxAperLS5
Definition: CMTRawAnalyzer.cc:1569

CMTRawAnalyzer::h_mapDepth3ADCAmpl12SiPM_HE
TH2F * h_mapDepth3ADCAmpl12SiPM_HE
Definition: CMTRawAnalyzer.cc:926

CMTRawAnalyzer::h_sumADCAmplLS4
TH1F * h_sumADCAmplLS4
Definition: CMTRawAnalyzer.cc:1401

CMTRawAnalyzer::h_mapTSmaxCalib047_HO
TH2F * h_mapTSmaxCalib047_HO
Definition: CMTRawAnalyzer.cc:1286

HcalDbService::getHcalTimeCorr
const HcalTimeCorr * getHcalTimeCorr(const HcalGenericDetId &fId) const
Definition: HcalDbService.cc:359

CMTRawAnalyzer::h_sigLayer2RADDAM5_HE
TH1F * h_sigLayer2RADDAM5_HE
Definition: CMTRawAnalyzer.cc:2248

CMTRawAnalyzer::h_ADCCalib1_HF
TH1F * h_ADCCalib1_HF
Definition: CMTRawAnalyzer.cc:1296

CMTRawAnalyzer::calibrTSmeanHFMax_
double calibrTSmeanHFMax_
Definition: CMTRawAnalyzer.cc:648

MakerMacros.h

CMTRawAnalyzer::h_amplitudechannel0_HB2
TH2F * h_amplitudechannel0_HB2
Definition: CMTRawAnalyzer.cc:2178

HcalDDDRecConstants.h

CMTRawAnalyzer::h_mapDepth4TSmeanA225_HF
TH2F * h_mapDepth4TSmeanA225_HF
Definition: CMTRawAnalyzer.cc:974

CMTRawAnalyzer::h_mapDepth4TSmaxA_HE
TH2F * h_mapDepth4TSmaxA_HE
Definition: CMTRawAnalyzer.cc:1177

CMTRawAnalyzer::h_mapGetRMSOverNormalizedSignal0_HF
TH2F * h_mapGetRMSOverNormalizedSignal0_HF
Definition: CMTRawAnalyzer.cc:1954

CMTRawAnalyzer::flagtoaskrunsorls_
int flagtoaskrunsorls_
Definition: CMTRawAnalyzer.cc:498

CMTRawAnalyzer::averSIGNALsumamplitude_HE
double averSIGNALsumamplitude_HE
Definition: CMTRawAnalyzer.cc:2333

CMTRawAnalyzer::calibrADCHBMax_
double calibrADCHBMax_
Definition: CMTRawAnalyzer.cc:621

CMTRawAnalyzer::h_mapDepth4ADCAmpl225_HO
TH2F * h_mapDepth4ADCAmpl225_HO
Definition: CMTRawAnalyzer.cc:1017

CMTRawAnalyzer::h_2DsumADCAmplLSdepth7HEu
TH2F * h_2DsumADCAmplLSdepth7HEu
Definition: CMTRawAnalyzer.cc:1365

edm::one::EDAnalyzer
Definition: EDAnalyzer.h:30

CMTRawAnalyzer::h_2DsumAmplLS4
TH2F * h_2DsumAmplLS4
Definition: CMTRawAnalyzer.cc:1659

CMTRawAnalyzer::h_pedvsampl_HO
TH1F * h_pedvsampl_HO
Definition: CMTRawAnalyzer.cc:1825

CMTRawAnalyzer::h_mapDepth3Pedw0_HE
TH2F * h_mapDepth3Pedw0_HE
Definition: CMTRawAnalyzer.cc:1921

HcalElectronicsId
Readout chain identification for Hcal.
Definition: HcalElectronicsId.h:32

CMTRawAnalyzer::h_sumADCAmplperLS6_M2
TH1F * h_sumADCAmplperLS6_M2
Definition: CMTRawAnalyzer.cc:1465

CMTRawAnalyzer::h_pedestalw1_HE
TH1F * h_pedestalw1_HE
Definition: CMTRawAnalyzer.cc:1715

CMTRawAnalyzer::h_bcnvsamplitude0_HE
TH1F * h_bcnvsamplitude0_HE
Definition: CMTRawAnalyzer.cc:684

CMTRawAnalyzer::h_sum0TSmeanAperLS5
TH1F * h_sum0TSmeanAperLS5
Definition: CMTRawAnalyzer.cc:1522

CMTRawAnalyzer::h_bcnbadrate0_depth2_HE
TH1F * h_bcnbadrate0_depth2_HE
Definition: CMTRawAnalyzer.cc:1092

CMTRawAnalyzer::h_mapAiForLS_bad_HB
TH2F * h_mapAiForLS_bad_HB
Definition: CMTRawAnalyzer.cc:712

CMTRawAnalyzer::h_2D0sumADCAmplLS7
TH2F * h_2D0sumADCAmplLS7
Definition: CMTRawAnalyzer.cc:1478

CMTRawAnalyzer::h_mapDepth2Pedw1_HF
TH2F * h_mapDepth2Pedw1_HF
Definition: CMTRawAnalyzer.cc:1938

CMTRawAnalyzer::depth
int depth
Definition: CMTRawAnalyzer.cc:2371

CMTRawAnalyzer::h_mapDepth1Ped0_HF
TH2F * h_mapDepth1Ped0_HF
Definition: CMTRawAnalyzer.cc:1925

CMTRawAnalyzer::h_mapDepth1RADDAM_HE
TH2F * h_mapDepth1RADDAM_HE
Definition: CMTRawAnalyzer.cc:2221

CMTRawAnalyzer::h_2D0sumAmplLS8
TH2F * h_2D0sumAmplLS8
Definition: CMTRawAnalyzer.cc:1694

CMTRawAnalyzer::h_NphiForEta16Depth3RADDAM_HED2
TH1F * h_NphiForEta16Depth3RADDAM_HED2
Definition: CMTRawAnalyzer.cc:2240

CMTRawAnalyzer::h_2D0sumAmplLS6
TH2F * h_2D0sumAmplLS6
Definition: CMTRawAnalyzer.cc:1674

CMTRawAnalyzer::h_mapDepth4TSmeanA225_HO
TH2F * h_mapDepth4TSmeanA225_HO
Definition: CMTRawAnalyzer.cc:1020

CMTRawAnalyzer::h_sumTSmeanALS8
TH1F * h_sumTSmeanALS8
Definition: CMTRawAnalyzer.cc:1535

CMTRawAnalyzer::h_map_HO
TH2F * h_map_HO
Definition: CMTRawAnalyzer.cc:1294

CMTRawAnalyzer::h_TSmaxA_HE
TH1F * h_TSmaxA_HE
Definition: CMTRawAnalyzer.cc:1173

CMTRawAnalyzer::h_recNoiseEnergy2_HF2
TH2F * h_recNoiseEnergy2_HF2
Definition: CMTRawAnalyzer.cc:2167

CMTRawAnalyzer::h_sumCutTSmaxAperLS4
TH1F * h_sumCutTSmaxAperLS4
Definition: CMTRawAnalyzer.cc:1563

CMTRawAnalyzer::h_mapDepth4TSmaxA225_HO
TH2F * h_mapDepth4TSmaxA225_HO
Definition: CMTRawAnalyzer.cc:1023

CMTRawAnalyzer::h_Amplitude_notCapIdErrors_HE2
TH1F * h_Amplitude_notCapIdErrors_HE2
Definition: CMTRawAnalyzer.cc:1108

CMTRawAnalyzer::h_mapDepth5ADCAmpl225Copy_HE
TH2F * h_mapDepth5ADCAmpl225Copy_HE
Definition: CMTRawAnalyzer.cc:837

Run

CMTRawAnalyzer::h_mapDepth7ADCAmpl12_HE
TH2F * h_mapDepth7ADCAmpl12_HE
Definition: CMTRawAnalyzer.cc:923

CMTRawAnalyzer::h_2DsumAmplLS7
TH2F * h_2DsumAmplLS7
Definition: CMTRawAnalyzer.cc:1685

CMTRawAnalyzer::h_mapDepth2_HB
TH2F * h_mapDepth2_HB
Definition: CMTRawAnalyzer.cc:904

HcalDetId::iphi
constexpr int iphi() const
get the cell iphi
Definition: HcalDetId.h:157

CMTRawAnalyzer::h_gsmdifferencefit1_HE
TH1F * h_gsmdifferencefit1_HE
Definition: CMTRawAnalyzer.cc:1142

CMTRawAnalyzer::h_recNoiseEnergy0_HE1
TH2F * h_recNoiseEnergy0_HE1
Definition: CMTRawAnalyzer.cc:2127

CMTRawAnalyzer::h_mapenophinorm2_HE2
TH2F * h_mapenophinorm2_HE2
Definition: CMTRawAnalyzer.cc:2045

CMTRawAnalyzer::calibrWidthHOMax_
double calibrWidthHOMax_
Definition: CMTRawAnalyzer.cc:655

CMTRawAnalyzer::h_mapDepth1ADCAmplSiPM_HE
TH2F * h_mapDepth1ADCAmplSiPM_HE
Definition: CMTRawAnalyzer.cc:1148

CMTRawAnalyzer::h_ADCAmplZoom1_HB
TH1F * h_ADCAmplZoom1_HB
Definition: CMTRawAnalyzer.cc:856

CMTRawAnalyzer::h_sum0PedestalperLS2
TH1F * h_sum0PedestalperLS2
Definition: CMTRawAnalyzer.cc:1328

CMTRawAnalyzer::h_mapDepth3AmplE34_HB
TH2F * h_mapDepth3AmplE34_HB
Definition: CMTRawAnalyzer.cc:909

CMTRawAnalyzer::h_2D0sumAmplitudeLS4
TH2F * h_2D0sumAmplitudeLS4
Definition: CMTRawAnalyzer.cc:1613

CMTRawAnalyzer::h_sumADCAmplEtaPhiLs_lscounterM1
TH1F * h_sumADCAmplEtaPhiLs_lscounterM1
Definition: CMTRawAnalyzer.cc:708

CMTRawAnalyzer::h_mapDepth6AmplE34_HE
TH2F * h_mapDepth6AmplE34_HE
Definition: CMTRawAnalyzer.cc:1223

funct::pow
Power< A, B >::type pow(const A &a, const B &b)
Definition: Power.h:29

CMTRawAnalyzer::h_sum0TSmeanAperLS8
TH1F * h_sum0TSmeanAperLS8
Definition: CMTRawAnalyzer.cc:1540

CMTRawAnalyzer::h_mapDepth1TSmeanA_HE
TH2F * h_mapDepth1TSmeanA_HE
Definition: CMTRawAnalyzer.cc:1159

CMTRawAnalyzer::ratioHFMin_
double ratioHFMin_
Definition: CMTRawAnalyzer.cc:488

CMTRawAnalyzer::h_mapDepth3ADCAmpl225Copy_HB
TH2F * h_mapDepth3ADCAmpl225Copy_HB
Definition: CMTRawAnalyzer.cc:831

CMTRawAnalyzer::h_recNoiseEnergy1_HE4
TH2F * h_recNoiseEnergy1_HE4
Definition: CMTRawAnalyzer.cc:2137

CMTRawAnalyzer::h_mapenophinorm2_HE6
TH2F * h_mapenophinorm2_HE6
Definition: CMTRawAnalyzer.cc:2049

CMTRawAnalyzer::h_runbadrateC_depth1_HB
TH1F * h_runbadrateC_depth1_HB
Definition: CMTRawAnalyzer.cc:1037

CMTRawAnalyzer::h_amplitudechannel1_HE1
TH2F * h_amplitudechannel1_HE1
Definition: CMTRawAnalyzer.cc:2188

CMTRawAnalyzer::h_shape_bad_channels_HB
TH1F * h_shape_bad_channels_HB
Definition: CMTRawAnalyzer.cc:1845

CMTRawAnalyzer::calibrRatioHFMin_
double calibrRatioHFMin_
Definition: CMTRawAnalyzer.cc:628

QIE10DataFrame::samples
constexpr int samples() const
total number of samples in the digi
Definition: QIE10DataFrame.h:86

CMTRawAnalyzer::rmsHFMax_
double rmsHFMax_
Definition: CMTRawAnalyzer.cc:586

FEDNumbering.h

CMTRawAnalyzer::h_Amplitude_notCapIdErrors_HF1
TH1F * h_Amplitude_notCapIdErrors_HF1
Definition: CMTRawAnalyzer.cc:1110

CMTRawAnalyzer::averSIGNALoccupancy_HF
double averSIGNALoccupancy_HF
Definition: CMTRawAnalyzer.cc:2330

CMTRawAnalyzer::Run
int Run
Definition: CMTRawAnalyzer.cc:2312

CMTRawAnalyzer::h_mapDepth3AmplE34_HE
TH2F * h_mapDepth3AmplE34_HE
Definition: CMTRawAnalyzer.cc:1220

CMTRawAnalyzer::h_sumErrorBLS4
TH1F * h_sumErrorBLS4
Definition: CMTRawAnalyzer.cc:1974

HcalElectronicsId::dccid
constexpr int32_t dccid() const
get the (Hcal local) DCC id for VME, crate number for uTCA
Definition: HcalElectronicsId.h:99

CMTRawAnalyzer::h_pedestal2_HF
TH1F * h_pedestal2_HF
Definition: CMTRawAnalyzer.cc:1722

CMTRawAnalyzer::h_recNoiseEnergy2_HE2
TH2F * h_recNoiseEnergy2_HE2
Definition: CMTRawAnalyzer.cc:2132

b1
static constexpr float b1
Definition: L1EGammaCrystalsEmulatorProducer.cc:81

CMTRawAnalyzer::h_mapDepth3TSmeanA_HE
TH2F * h_mapDepth3TSmeanA_HE
Definition: CMTRawAnalyzer.cc:1161

CMTRawAnalyzer::tokDB_
const edm::ESGetToken< HcalDbService, HcalDbRecord > tokDB_
Definition: CMTRawAnalyzer.cc:455

CMTRawAnalyzer::h_mapDepth4pedestal_HO
TH2F * h_mapDepth4pedestal_HO
Definition: CMTRawAnalyzer.cc:1775

CMTRawAnalyzer::h_fiber0_HF
TH1F * h_fiber0_HF
Definition: CMTRawAnalyzer.cc:809

CMTRawAnalyzer::h_mapDepth4TSmeanA_HE
TH2F * h_mapDepth4TSmeanA_HE
Definition: CMTRawAnalyzer.cc:1162

CMTRawAnalyzer::rmsHFMin_
double rmsHFMin_
Definition: CMTRawAnalyzer.cc:585

CMTRawAnalyzer::h_gain_HB
TH1F * h_gain_HB
Definition: CMTRawAnalyzer.cc:1777

edm::Run
Definition: Run.h:45

dqmdumpme.k
k
Definition: dqmdumpme.py:60

HcalDbService.h

CMTRawAnalyzer::endJob
void endJob() override
Definition: CMTRawAnalyzer.cc:2383

CMTRawAnalyzer::h_ADCAmpl_HB
TH1F * h_ADCAmpl_HB
Definition: CMTRawAnalyzer.cc:857

CMTRawAnalyzer::h_sumCutAmplperLS3
TH1F * h_sumCutAmplperLS3
Definition: CMTRawAnalyzer.cc:1655

CMTRawAnalyzer::h_mapDepth1Amplitude_HB
TH2F * h_mapDepth1Amplitude_HB
Definition: CMTRawAnalyzer.cc:888

CMTRawAnalyzer::dR
double dR(double eta1, double phi1, double eta2, double phi2)
Definition: CMTRawAnalyzer.cc:13500

gpuClustering::adc
uint16_t *__restrict__ uint16_t const  *__restrict__ adc
Definition: gpuClusterChargeCut.h:19

CMTRawAnalyzer::h_sumPedestalperLS8
TH1F * h_sumPedestalperLS8
Definition: CMTRawAnalyzer.cc:1356

CMTRawAnalyzer::h_sumTSmaxAperLS1
TH1F * h_sumTSmaxAperLS1
Definition: CMTRawAnalyzer.cc:1543

CMTRawAnalyzer::h_mapDepth4Amplitude225_HE
TH2F * h_mapDepth4Amplitude225_HE
Definition: CMTRawAnalyzer.cc:1199

CMTRawAnalyzer::tok_calib_
edm::EDGetTokenT< HcalCalibDigiCollection > tok_calib_
Definition: CMTRawAnalyzer.cc:442

HcalQIEShape.h

CMTRawAnalyzer::h_sumTSmaxALS4
TH1F * h_sumTSmaxALS4
Definition: CMTRawAnalyzer.cc:1560

CMTRawAnalyzer::h_recSignalEnergy2_HE5
TH2F * h_recSignalEnergy2_HE5
Definition: CMTRawAnalyzer.cc:2120

CMTRawAnalyzer::h_orbitNumvsamplitude_HE
TH1F * h_orbitNumvsamplitude_HE
Definition: CMTRawAnalyzer.cc:691

CMTRawAnalyzer::h_sumADCAmplperLSdepth7HEu
TH1F * h_sumADCAmplperLSdepth7HEu
Definition: CMTRawAnalyzer.cc:1425

CMTRawAnalyzer::TSmeanHEMax_
double TSmeanHEMax_
Definition: CMTRawAnalyzer.cc:601

CMTRawAnalyzer::splashesUpperLimit_
int splashesUpperLimit_
Definition: CMTRawAnalyzer.cc:501

CMTRawAnalyzer::recNoiseEnergy2
double recNoiseEnergy2[nsub][ndepth][neta][nphi]
Definition: CMTRawAnalyzer.cc:2296

CMTRawAnalyzer::h_mapDepth3RADDAM0_HE
TH2F * h_mapDepth3RADDAM0_HE
Definition: CMTRawAnalyzer.cc:2231

CMTRawAnalyzer::h_mapDepth2pedestal_HE
TH2F * h_mapDepth2pedestal_HE
Definition: CMTRawAnalyzer.cc:1765

CMTRawAnalyzer::fillDigiAmplitude
void fillDigiAmplitude(HBHEDigiCollection::const_iterator &digiItr)
Definition: CMTRawAnalyzer.cc:8600

CMTRawAnalyzer::h_amplitudechannel0_HE5
TH2F * h_amplitudechannel0_HE5
Definition: CMTRawAnalyzer.cc:2199

CMTRawAnalyzer::maxxSUM1
double maxxSUM1
Definition: CMTRawAnalyzer.cc:2344

CMTRawAnalyzer::h_averSIGNALoccupancy_HE
TH1F * h_averSIGNALoccupancy_HE
Definition: CMTRawAnalyzer.cc:1998

CMTRawAnalyzer::studyPedestalsHist_
bool studyPedestalsHist_
Definition: CMTRawAnalyzer.cc:476

CMTRawAnalyzer::h_runnbadchannels_depth2_HF
TH1F * h_runnbadchannels_depth2_HF
Definition: CMTRawAnalyzer.cc:1076

CMTRawAnalyzer::h_2DsumADCAmplLSdepth4HFu
TH2F * h_2DsumADCAmplLSdepth4HFu
Definition: CMTRawAnalyzer.cc:1369

CMTRawAnalyzer::h_bcnvsamplitude0_HO
TH1F * h_bcnvsamplitude0_HO
Definition: CMTRawAnalyzer.cc:688

CMTRawAnalyzer::h_sumCutADCAmplperLSdepth5HEu
TH1F * h_sumCutADCAmplperLSdepth5HEu
Definition: CMTRawAnalyzer.cc:1427

CMTRawAnalyzer::h_nbadchannels_depth1_HF
TH1F * h_nbadchannels_depth1_HF
Definition: CMTRawAnalyzer.cc:1069

CMTRawAnalyzer::h_recSignalEnergy0_HE3
TH2F * h_recSignalEnergy0_HE3
Definition: CMTRawAnalyzer.cc:2112

CMTRawAnalyzer::h_2DsumTSmeanALS5
TH2F * h_2DsumTSmeanALS5
Definition: CMTRawAnalyzer.cc:1518

CMTRawAnalyzer::h_mapDepth1Ped0_HE
TH2F * h_mapDepth1Ped0_HE
Definition: CMTRawAnalyzer.cc:1901

CMTRawAnalyzer::h_map0AiForLS_good_HB
TH2F * h_map0AiForLS_good_HB
Definition: CMTRawAnalyzer.cc:715

CMTRawAnalyzer::h_mapRatioCalib047_HE
TH2F * h_mapRatioCalib047_HE
Definition: CMTRawAnalyzer.cc:1266

CMTRawAnalyzer::h_amplitudechannel2_HE2
TH2F * h_amplitudechannel2_HE2
Definition: CMTRawAnalyzer.cc:2192

CMTRawAnalyzer::h_mapDepth3TSmaxA_HE
TH2F * h_mapDepth3TSmaxA_HE
Definition: CMTRawAnalyzer.cc:1176

CMTRawAnalyzer::h_pedestal1_HF
TH1F * h_pedestal1_HF
Definition: CMTRawAnalyzer.cc:1721

CMTRawAnalyzer::h_sumErrorBLS1
TH1F * h_sumErrorBLS1
Definition: CMTRawAnalyzer.cc:1959

HcalTopology.h

CMTRawAnalyzer::h_error1_HO
TH1F * h_error1_HO
Definition: CMTRawAnalyzer.cc:814

HFDataFrame.h

CMTRawAnalyzer::calibrADCHOMax_
double calibrADCHOMax_
Definition: CMTRawAnalyzer.cc:623

CMTRawAnalyzer::h_sumCutADCAmplperLS7
TH1F * h_sumCutADCAmplperLS7
Definition: CMTRawAnalyzer.cc:1480

CMTRawAnalyzer::h_2D0sumADCAmplLS4
TH2F * h_2D0sumADCAmplLS4
Definition: CMTRawAnalyzer.cc:1406

CMTRawAnalyzer::h_sumCutAmplitudeperLS4
TH1F * h_sumCutAmplitudeperLS4
Definition: CMTRawAnalyzer.cc:1612

HcalDetId::depth
constexpr int depth() const
get the tower depth
Definition: HcalDetId.h:164

CMTRawAnalyzer::studyCapIDErrorsHist_
bool studyCapIDErrorsHist_
Definition: CMTRawAnalyzer.cc:468

CMTRawAnalyzer::studyPedestalCorrelations_
bool studyPedestalCorrelations_
Definition: CMTRawAnalyzer.cc:477