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File indexing completed on 2021-02-14 12:47:08

0001 import FWCore.ParameterSet.Config as cms
0002 
0003 EcalTrivialConditionRetriever = cms.ESSource("EcalTrivialConditionRetriever",
0004     TotLumi = cms.untracked.double(0.0),
0005     InstLumi = cms.untracked.double(0.0),
0006     producedEcalChannelStatus = cms.untracked.bool(True),
0007     producedEcalDQMTowerStatus = cms.untracked.bool(True),
0008     producedEcalDQMChannelStatus = cms.untracked.bool(True),
0009     producedEcalDCSTowerStatus = cms.untracked.bool(True),
0010     producedEcalDAQTowerStatus = cms.untracked.bool(True),
0011     producedEcalTrgChannelStatus = cms.untracked.bool(True),
0012     #       Values to get correct noise on RecHit amplitude using 3+5 weights
0013     EBpedRMSX12 = cms.untracked.double(1.089),
0014     weightsForTB = cms.untracked.bool(False),
0015     # channel status
0016     channelStatusFile = cms.untracked.string(''),
0017     producedEcalPedestals = cms.untracked.bool(True),
0018     #       If set true reading optimized weights (3+5 weights) from file 
0019     getWeightsFromFile = cms.untracked.bool(True),
0020     intercalibErrorsFile = cms.untracked.string(''),
0021     laserAPDPNMean = cms.untracked.double(1.0),
0022     laserAPDPNRefMean = cms.untracked.double(1.0),
0023     #       untracked string amplWeightsFile = "CalibCalorimetry/EcalTrivialCondModules/data/ampWeights_TB.txt"
0024     # file with intercalib constants - same format used for online and offline DB
0025     # by default set all inter calib const to 1.0 if no file provided
0026     intercalibConstantsFile = cms.untracked.string(''),
0027     linearCorrectionsFile = cms.untracked.string(''),
0028     producedEcalWeights = cms.untracked.bool(True),
0029     EEpedRMSX12 = cms.untracked.double(2.018),
0030     producedEcalLinearCorrections = cms.untracked.bool(True),
0031     producedEcalIntercalibConstants = cms.untracked.bool(True),
0032     producedEcalIntercalibConstantsMC = cms.untracked.bool(True),
0033     producedEcalIntercalibErrors = cms.untracked.bool(True),
0034     producedEcalTimeCalibConstants = cms.untracked.bool(True),
0035     producedEcalTimeCalibErrors = cms.untracked.bool(True),
0036     producedEcalTimeOffsetConstant = cms.untracked.bool(True),
0037     producedEcalLaserCorrection = cms.untracked.bool(True),
0038     producedEcalGainRatios = cms.untracked.bool(True),
0039     producedEcalADCToGeVConstant = cms.untracked.bool(True),
0040     adcToGeVEBConstant = cms.untracked.double(0.035),
0041     adcToGeVEEConstant = cms.untracked.double(0.06),
0042 ### phase I Pulse Shapes
0043     sim_pulse_shape_TI = cms.untracked.double( 1.0),
0044     sim_pulse_shape_EB_thresh = cms.double(0.00013),
0045     sim_pulse_shape_EE_thresh = cms.double(0.00025),
0046     sim_pulse_shape_APD_thresh = cms.double(0),
0047     EBSimPulseShapeFile = cms.untracked.string("EB_SimPulseShape.txt"),
0048     EESimPulseShapeFile = cms.untracked.string("EE_SimPulseShape.txt"),
0049     APDSimPulseShapeFile = cms.untracked.string("APD_SimPulseShape.txt"),
0050     # cluster functions/corrections -- by default no parameters are passed
0051     producedEcalClusterLocalContCorrParameters = cms.untracked.bool(True),
0052     localContCorrParameters = cms.untracked.vdouble( 
0053 #            1.00365, 0.0007179, -0.008303, 0.01116, -0.1057, 1.00362, 0.0006617, -0.005505, -0.01044, -0.1770, 1.0035),
0054 # Monte Carlo (Apr 2012)
0055 #    1.00385, 0.000847402, 0.0419403, 1.0033,  0.00100782,  0.0362918,
0056 #    1.00322, 0.000902587, 0.0335483, 1.00478, 0.000112104, 0.05377,
0057 #    1.00363, -0.00168853, 0.0392934, 1.00374, -0.00197705, 0.0402998,
0058 #    1.00258, -0.00121254, 0.0278283, 1.00266, 0.00165111,  0.0245362),
0059 # data (Apr 2012)
0060     1.00603, 0.00300789,  0.0667232, 1.00655, 0.00386189,  0.073931,
0061     1.00634, 0.00631341,  0.0764134, 1.00957, 0.0113306,   0.123808,
0062     1.00403, -0.0012733,  0.042925,  1.00394, -0.00137567, 0.0416698,
0063     1.00298, -0.00111589, 0.0320377, 1.00269, -0.00153347, 0.0296769),
0064     producedEcalClusterCrackCorrParameters = cms.untracked.bool(True),
0065     crackCorrParameters = cms.untracked.vdouble( 
0066             0.9933, -0.01813, -0.03359, -0.09972, -0.2889, 0.9909, 0.04019, 
0067             -0.1095, 0.2401, -0.3412, 0.9942, -0.01245, -0.03002, -0.1098, 
0068             -0.2777, 0.9981, 0.01087, -0.01359, 0.06212, -0.354),
0069     mappingFile = cms.untracked.string('Geometry/EcalMapping/data/EEMap.txt'),
0070     producedEcalMappingElectronics = cms.untracked.bool(True),
0071     energyUncertaintyParameters = cms.untracked.vdouble(
0072             0.002793, 0.000908,  0.23592,   0.04446,
0073             0.02463, -0.001782, -0.343492, -0.017968,
0074             -0.013338, 0.0013819, 0.398369,  0.025488,
0075             0.002264, 0.000674,  0.281829,  0.043100,
0076             0.02047, -0.001914, -0.297824, -0.020220,
0077             -0.010669, 0.001648,  0.464209, -0.01112,
0078             0.000530, 0.001274,  0.21071,   0.04679,
0079             0.031323, -0.001997, -0.40509,  -0.05102,
0080             -0.016961, 0.0014051, 0.313083,  0.059649,
0081             -0.03947,  0.03364,   3.6768,    0.243637,
0082             0.05167, -0.02335,  -2.77506,  -0.162785,
0083             -0.011482, 0.004621,  0.511206,  0.032607,
0084             -0.05062,  0.057102,  5.48885,  -0.5305,
0085             0.06604,  -0.04686,  -4.34245,   0.500381,
0086             -0.01487,  0.010382,  0.823244, -0.09392,
0087             -0.04195,  0.028296,  1.66651,   0.87535,
0088             0.048104, -0.01493,  -0.98163,  -0.72297,
0089             -0.010256, 0.001827,  0.149991,  0.144294),
0090     producedEcalClusterEnergyUncertaintyParameters = cms.untracked.bool(True),
0091     energyCorrectionParameters = cms.untracked.vdouble(
0092 #            40.2198, -3.03103e-6,
0093 #            1.1, 8.0, -0.05185, 0.1354, 0.9165, -0.0005626, 1.385,
0094 #            1.002,  -0.7424, 0,            0,
0095 #            0,        0.5558,  2.375,   0.1869,
0096 #            7.6,      1.081,  -0.00181,
0097 #            0, 0,
0098 #            0.9, 6.5, -0.1214, 0.2362, 0.8847, -0.00193, 1.057,
0099 #            2.213, -17.29,
0100 #            -0.599,  8.874,
0101 #            0.09632, -1.457,
0102 #            -0.7584,  10.29,
0103 #            1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0104 #            1, 0, 0, 0, 0, 0, 0, 0),
0105 #   New dat from Yurii Maravin (2011/03/02)
0106              40.2198, -3.03103e-6,
0107              1.1, 8.0, -0.05289, 0.1374, 0.9141, -0.000669, 1.38,
0108              1.000,  -0.698, 0,            0,
0109              0,        0.6605,  8.825,   0.841,
0110              7.6,      1.081,  -0.00181,
0111              0, 0,
0112              0.9, 6.5, -0.07945, 0.1298, 0.9147, -0.001565, 0.9,
0113              -3.516, -2.362,
0114              2.151, 1.572,
0115              -0.336, -0.2807,
0116              3.2,  0,
0117              1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0118              1, 0, 0, 0, 0, 0, 0, 0),
0119     producedEcalClusterEnergyCorrectionParameters = cms.untracked.bool(True),
0120     energyCorrectionObjectSpecificParameters = cms.untracked.vdouble(
0121     # 2011 Nov 17
0122 # fEta : p0, p1
0123 #             40.2198, -3.03103e-6,
0124 ## fBremEta : xcorr,par0, par1, par2, par3, par4 (x 14 x 2 (electron/photon))
0125 # Electrons
0126 #xcorr
0127 #             1.00227, 1.00252, 1.00225, 1.00159, 0.999475, 0.997203, 0.993886,
0128 #             0.971262, 0.975922, 0.979087, 0.98495, 0.98781, 0.989546, 0.989638,
0129 #par
0130 #             1.00718, -0.00187886, 0, 0, 0,
0131 #             1.00713, -0.00227574, 0, 0, 0,
0132 #             1.00641, -0.00259935, 0, 0, 0,
0133 #             1.00761, -0.00433692, 0, 0, 0,
0134 #             1.00682, -0.00551324, 0, 0, 0,
0135 #             1.0073, -0.00799669, 0, 0, 0,
0136 #             1.00462, -0.00870057, 0, 0, 0,
0137 #             0.972798, -0.000771577, -0.00276696, 0, 0,
0138 #             0.981672, -0.00202028, -0.00471028, 0, 0,
0139 #             0.98251, 0.00441308, -0.00809139, 0, 0,
0140 #             0.986123, 0.00832913, -0.00944584, 0, 0,
0141 #             0.990124, 0.00742879, -0.00960462, 0, 0,
0142 #             0.990187, 0.0094608, -0.010172, 0, 0,
0143 #             0.99372, 0.00560406, -0.00943169, 0, 0,
0144 # Photons
0145 #xcorr
0146 #             1.00506, 1.00697, 1.00595, 1.00595, 1.00595, 1.00595, 1.00595, 
0147 #             0.966651, 0.97381, 0.976516, 0.983254, 0.98502, 0.98502, 0.978472, 
0148 #par
0149 #             0.00132382, 2.17664, -0.00467206, 0.988994, 17.5858,
0150 #             -0.00590257, 1.90733, 0.000684327, 0.986431, 16.6698,
0151 #             0.00265109, 1.73272, -0.00107022, 0.989322, 15.4911,
0152 #             0.00231631, 1.3463, -0.00369555, 0.987133, 10.9233,
0153 #             0.00984253, 1.33889, -0.00392593, 0.979191, 9.35276,
0154 #             0.023683, 1.31198, -0.00947317, 0.963352, 7.5597,
0155 #             0.0851133, 1.38097, -0.0340201, 0.969502, 4.17983,
0156 #             6.71705, 5034.26, -2.68669, 0.970174, 1.00288,
0157 #             1306.82, 472004, -1.86145, 0.981714, -0.25644,
0158 #             0.317121, 3.22717, -0.126848, 0.957792, 2.01028,
0159 #             0.275225, 2.20686, -0.11009, 0.93922, 2.69958,
0160 #             0.0639875, 1.40045, -0.0255853, 0.821566, 7.3297,
0161 #             0.030488, 1.37842, -0.0121879, 0.8173, 9.29944,
0162 #             0.213906, 1.67471, -0.0860589, 0.893636, 3.78218,
0163 ## fEt : 7 x 4 (photon/electron, EB/EE)
0164 # Electrons EB
0165 #             0.97213, 0.999528, 5.61192e-06, 0.0143269, -17.1776, 0, 0,
0166 # Electrons EE
0167 #             0.930081,  0.996683,  3.54079e-05,  0.0460187,  -23.2461, 0, 0,
0168 # Photons EB
0169 #             1,  1.00348,  1.001, -9.17302e-06, 0.999688, 0, 0,
0170 # Photons EE
0171 #             1,  0.996931, 0.999497, 0.992617, 7.52128e-05, -1.2845e-07, 1.00231,
0172 ## fEnergy : 5 x 2 (photon/electron, EE only)
0173 # Electrons EE
0174 #             400, 0.982475, 4.95413e-05, 0.16886, -30.1517, 
0175 # Photons EE
0176 #             850,  0.994169, 1.28629e-05, 0, 0),
0177 #   2012 May 16
0178 # fEta : p0, p1
0179              40.2198, -3.03103e-6,
0180 # Electron f(Brem,eta):
0181              1.00355, 1.00377, 1.00307, 1.00235, 1.0008, 0.999123, 0.995808,
0182              0.974023, 0.983046, 0.986587, 0.989959, 0.992291, 0.994088, 0.994841,
0183              
0184              1.00824, -0.00195358, 0, 0, 0, 
0185              1.00848, -0.00249326, 0, 0, 0, 
0186              1.00762, -0.00267961, 0, 0, 0, 
0187              1.00817, -0.00405541, 0, 0, 0, 
0188              1.00648, -0.00472328, 0, 0, 0, 
0189              1.00823, -0.00789251, 0, 0, 0, 
0190              1.00671, -0.00889114, 0, 0, 0, 
0191              0.977122, -0.00079133, -0.00213429, 0, 0, 
0192              0.988986, -0.00383962, -0.00256931, 0, 0, 
0193              0.990514, 0.00110704, -0.00538053, 0, 0, 
0194              0.989242,  0.00822155,  -0.00760498,  0,  0, 
0195              0.99109,  0.0100383,  -0.00889766,  0,  0, 
0196              0.984981,  0.0207496,  -0.011706,  0,  0, 
0197              0.996159,  0.00762923,  -0.00876377,  0,  0, 
0198 # Photon f(Brem,eta):
0199              1.00942, 1.01462, 1.00984, 1.00984, 1.00984, 1.00984, 1.00984,
0200              0.976343, 0.984129, 0.985861, 0.987185, 0.986922, 0.984653, 0.984653,
0201                                              
0202              0.0631272,  2.07465,  -0.0006589,  0.989607,  12.9334, 
0203              -0.00810258,  1.87803,  0.00312754,  0.989272,  12.777, 
0204              -0.000777875,  1.6271,  0.0409175,  0.992587,  10.4214, 
0205              0.00499402,  1.27952,  -0.0171224,  0.990867,  7.31709, 
0206              0.0206879,  1.3566,  -0.00869229,  0.983379,  7.12404, 
0207              0.117245,  1.67142,  -0.0468981,  0.986991,  2.89181, 
0208              0.0855469,  1.42217,  -0.0342187,  0.971139,  4.21491, 
0209              2.32816,  556.179,  -0.93126,  0.972245,  1.83274, 
0210              0.462982,  4.21266,  -0.0638084,  0.973512,  1.96724, 
0211              0.267879,  2.82353,  -0.107158,  0.955956,  2.67778, 
0212              0.2808,  3.11316,  -0.11232,  0.956383,  2.8149, 
0213              0.012426,  1.80645,  -1.10844,  0.907241,  4.27577, 
0214              0.266712,  2.74984,  -0.106685,  0.958985,  2.72102, 
0215              0.253367,  2.53726,  -0.101347,  0.925249,  3.76083,
0216 ## f(ET) Electron EB
0217              0.976603, 0.999277, 6.91141e-06, 0.0493142, -8.21903, 0, 0,
0218 # f(ET) Electron EE
0219              0.949713, 1.00196, 3.84843e-06, 0.0329028, -34.6927, 0, 0,
0220 # f(ET) Photon EB
0221              1, 1.00213, 1.00069, -5.27777e-06, 0.99992, 0, 0,
0222 # f(ET) Photon EE
0223              1,  1.00206,  0.998431, 0.995999, 3.22962e-05, -1.8556e-08, 1.00205, 
0224 # f(E) Electron EE
0225              400, 0.986762, 3.65522e-05, 0.178521, -24.8851, 
0226 # f(E) Photon EE
0227              600,  0.995234,  1.14198e-05,  0, 0),
0228 
0229     producedEcalClusterEnergyCorrectionObjectSpecificParameters = cms.untracked.bool(True),
0230 
0231     producedEcalSampleMask = cms.untracked.bool(True),
0232     sampleMaskEB = cms.untracked.uint32(1023),
0233     sampleMaskEE = cms.untracked.uint32(1023),
0234 
0235   producedEcalTimeBiasCorrections = cms.untracked.bool(True),
0236 
0237 # trivial
0238 #  EBtimeCorrAmplitudeBins = cms.untracked.vdouble(0),
0239 #  EBtimeCorrShiftBins = cms.untracked.vdouble(0),
0240 #  EEtimeCorrAmplitudeBins = cms.untracked.vdouble(0),
0241 #  EEtimeCorrShiftBins = cms.untracked.vdouble(0)
0242 # data 2011   
0243   EBtimeCorrAmplitudeBins = cms.untracked.vdouble(
0244     7.9,    8.9,    10,     11.2,   12.5,   14.1,   15.8,   17.7,   19.9,   22.3,   25,     28.1,   31.5,   35.3,   39.7,
0245     44.5,   49.9,   56,     62.8,   70.5,   79.1,   88.8,   99.6,   111.7,  125.4,  140.7,  157.9,  177.1,  198.7,  223,
0246     250.2,  280.7,  315,    353.4,  396.5,  444.9,  499.2,  560.1,  628.4,  705.1,  791.1,  887.7,  996,    1117.5, 1253.9,
0247     1406.8, 1578.5, 1771.1, 1987.2, 2229.7, 2501.8, 2807,   3149.5, 3533.8, 3895.9, 3896,   4311.8, 4837.9, 5428.2, 6090.6,
0248     6833.7, 7667.5, 8603.1, 9652.9, 10830,  12152,  13635,  15298,  17165,  19260,  21610),
0249   EBtimeCorrShiftBins = cms.untracked.vdouble(
0250     -1.770, -1.770, -1.770, -1.770, -1.666, -1.430, -1.233, -1.012, -0.866, -0.736, -0.640, -0.561, -0.505, -0.452, -0.405,
0251     -0.363, -0.335, -0.305, -0.279, -0.260, -0.239, -0.220, -0.204, -0.191, -0.186, -0.177, -0.158, -0.137, -0.126, -0.115,
0252     -0.104, -0.096, -0.085, -0.064, -0.056, -0.036, -0.020, -0.006, -0.020, -0.009, -0.020, 0.005,  0.053,  0.076,  0.093,
0253     0.137,  0.143,  0.171,  0.222,  0.229,  0.271,  0.298,  0.312,  0.307,  0.254 , -0.997 ,-0.859 , -0.819, -0.775, -0.589,
0254     -0.428, -0.288, -0.434, -0.277, -0.210, -0.179, -0.134, 0.362,  0.152,  -0.282,  -0.382),
0255   EEtimeCorrAmplitudeBins = cms.untracked.vdouble(
0256     15.7,   17.6,   19.7,   22.1,   24.8,   27.9,   31.3,   35.1,   39.4,   44.2,   49.6,   55.6,   62.4,   70,     78.6,
0257     88.1,   98.9,   111,    124.5,  139.7,  156.7,  175.9,  197.3,  221.4,  248.4,  278.7,  312.7,  350.9,  393.7,  441.7,
0258     495.6,  556.1,  624,    700.1,  785.5,  881.4,  988.9,  1109.6, 1245,   1396.9, 1567.3, 1758.6, 1973.1, 2213.9, 2484,
0259     2787.1, 3127.2, 3508.8, 3936.9, 4417.3, 4956.3, 5561.1, 6239.6, 7001,   7522.8, 8440.7, 9470.6, 10626),
0260   EEtimeCorrShiftBins = cms.untracked.vdouble(
0261     -0.896, -0.896, -0.896, -0.896, -0.563, -0.392, -0.287, -0.203, -0.135, -0.100, -0.068, -0.050, -0.060, -0.052, -0.055,
0262     -0.050, -0.052, -0.056, -0.055, -0.056, -0.048, -0.037, -0.038, -0.037, -0.025, -0.026, -0.024, -0.013, -0.003, 0.005,
0263     0.020,  0.026,  0.008,  0.007,  -0.006, 0.024,  0.045,  0.062,  0.085,  0.088 , 0.111 , 0.139,  0.156,  0.176,  0.210,
0264     0.242,  0.267,  0.301,  0.318,  0.278,  0.287,  0.218,  0.305,  0.245,  0.184,  -0.159, -0.095, 0.037),
0265 
0266   producedEcalSamplesCorrelation = cms.untracked.bool(True),
0267   EBG12samplesCorrelation = cms.untracked.vdouble(
0268      1.00000, 0.71073, 0.55721, 0.46089, 0.40449, 0.35931, 0.33924, 0.32439, 0.31581, 0.30481),
0269   EBG6samplesCorrelation = cms.untracked.vdouble(
0270      1.00000, 0.70946, 0.58021, 0.49846, 0.45006, 0.41366, 0.39699, 0.38478, 0.37847, 0.37055),
0271   EBG1samplesCorrelation = cms.untracked.vdouble(
0272      1.00000, 0.73354, 0.64442, 0.58851, 0.55425, 0.53082, 0.51916, 0.51097, 0.50732, 0.50409),
0273   EEG12samplesCorrelation = cms.untracked.vdouble(
0274      1.00000, 0.71373, 0.44825, 0.30152, 0.21609, 0.14786, 0.11772, 0.10165, 0.09465, 0.08098),
0275   EEG6samplesCorrelation = cms.untracked.vdouble(
0276      1.00000, 0.71217, 0.47464, 0.34056, 0.26282, 0.20287, 0.17734, 0.16256, 0.15618, 0.14443),
0277   EEG1samplesCorrelation = cms.untracked.vdouble(
0278      1.00000, 0.72698, 0.62048, 0.55691, 0.51848, 0.49147, 0.47813, 0.47007, 0.46621, 0.46265)
0279 )