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  *   Version   5.32/03        9 May 2012   *
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ROOT 5.32/03 (tags/v5-32-03@44194, May 09 2012, 13:00:14 on linuxx8664gcc)

CINT/ROOT C/C++ Interpreter version 5.18.00, July 2, 2010
Type ? for help. Commands must be C++ statements.
Enclose multiple statements between { }.

Processing runSig_Factory.C+("./workspaces/lephad_mA130tb10_comb_combined_AllSyst_model.root","mA130tb10")...

[1mRooFit v3.52 -- Developed by Wouter Verkerke and David Kirkby[0m 
                Copyright (C) 2000-2012 NIKHEF, University of California & Stanford University
                All rights reserved, please read http://roofit.sourceforge.net/license.txt

  1) 0x1f652810 RooRealVar::                              Lumi = 1  L(0 - 10)  "Lumi"
  2) 0x1f7b7740 RooRealVar::                       alpha_B_EFF = 0  L(-5 - 5)  "alpha_B_EFF"
  3) 0x1f7c2a00 RooRealVar::                       alpha_C_EFF = 0  L(-5 - 5)  "alpha_C_EFF"
  4) 0x1f7c3f00 RooRealVar::                     alpha_Cluster = 0  L(-5 - 5)  "alpha_Cluster"
  5) 0x1f7d0530 RooRealVar::                       alpha_E_EFF = 0  L(-5 - 5)  "alpha_E_EFF"
  6) 0x20089410 RooRealVar::                      alpha_E_FAKE = 0  L(-5 - 5)  "alpha_E_FAKE"
  7) 0x1f70fb20 RooRealVar::                      alpha_EmbIso = 0  L(-5 - 5)  "alpha_EmbIso"
  8) 0x1f715bf0 RooRealVar::                      alpha_EmbMfs = 0  L(-5 - 5)  "alpha_EmbMfs"
  9) 0x1f7170f0 RooRealVar::                         alpha_JES = 0  L(-5 - 5)  "alpha_JES"
 10) 0x1f7cef30 RooRealVar::                       alpha_L_EFF = 0  L(-5 - 5)  "alpha_L_EFF"
 11) 0x1f9486f0 RooRealVar::                   alpha_METPileUp = 0  L(-5 - 5)  "alpha_METPileUp"
 12) 0x1f953780 RooRealVar::                       alpha_M_EFF = 0  L(-5 - 5)  "alpha_M_EFF"
 13) 0x20f2d7c0 RooRealVar::           alpha_SF_QCD_BTAG_LH_El = 0  L(-5 - 5)  "alpha_SF_QCD_BTAG_LH_El"
 14) 0x20d6de10 RooRealVar::           alpha_SF_QCD_BTAG_LH_Mu = 0  L(-5 - 5)  "alpha_SF_QCD_BTAG_LH_Mu"
 15) 0x20709d70 RooRealVar::          alpha_SF_QCD_BVETO_LH_El = 0  L(-5 - 5)  "alpha_SF_QCD_BVETO_LH_El"
 16) 0x1faac970 RooRealVar::          alpha_SF_QCD_BVETO_LH_Mu = 0  L(-5 - 5)  "alpha_SF_QCD_BVETO_LH_Mu"
 17) 0x1f722090 RooRealVar::                       alpha_T_EFF = 0  L(-5 - 5)  "alpha_T_EFF"
 18) 0x1f8546d0 RooRealVar::                        alpha_XS_W = 0  L(-5 - 5)  "alpha_XS_W"
 19) 0x1f847c90 RooRealVar::                        alpha_XS_Z = 0  L(-5 - 5)  "alpha_XS_Z"
 20) 0x1f7db3c0 RooRealVar::                      alpha_XS_bbA = 0  L(-5 - 5)  "alpha_XS_bbA"
 21) 0x1f8c88f0 RooRealVar::                  alpha_XS_diboson = 0  L(-5 - 5)  "alpha_XS_diboson"
 22) 0x1fedce80 RooRealVar::                      alpha_XS_ggF = 0  L(-5 - 5)  "alpha_XS_ggF"
 23) 0x1f83cbd0 RooRealVar::                alpha_XS_singletop = 0  L(-5 - 5)  "alpha_XS_singletop"
 24) 0x1f723590 RooRealVar::                      alpha_XS_top = 0  L(-5 - 5)  "alpha_XS_top"
 25) 0x1f8c9e50 RooRealVar::                alpha_q2_DibosonLH = 0  L(-5 - 5)  "alpha_q2_DibosonLH"
 26) 0x1f7e78c0 RooRealVar::                      alpha_q2_WLH = 0  L(-5 - 5)  "alpha_q2_WLH"
 27) 0x1f849390 RooRealVar::                      alpha_q2_ZLH = 0  L(-5 - 5)  "alpha_q2_ZLH"
 28) 0x1f7dc8d0 RooRealVar::              alpha_q2_bbA_BTAG_LH = 0  L(-5 - 5)  "alpha_q2_bbA_BTAG_LH"
 29) 0x1f8d51e0 RooRealVar::             alpha_q2_bbA_BVETO_LH = 0  L(-5 - 5)  "alpha_q2_bbA_BVETO_LH"
 30) 0x1fee3f50 RooRealVar::              alpha_q2_ggF_BTAG_LH = 0  L(-5 - 5)  "alpha_q2_ggF_BTAG_LH"
 31) 0x1ffd5ea0 RooRealVar::             alpha_q2_ggF_BVETO_LH = 0  L(-5 - 5)  "alpha_q2_ggF_BVETO_LH"
 32) 0x1f8bd670 RooRealVar::              alpha_q2_singletopLH = 0  L(-5 - 5)  "alpha_q2_singletopLH"
 33) 0x1f6ba490 RooRealVar::  gamma_stat_BTAG_regionB_El_bin_0 = 1  L(0 - 4.91419)  "gamma_stat_BTAG_regionB_El_bin_0"
 34) 0x1f7f1a80 RooRealVar::  gamma_stat_BTAG_regionB_Mu_bin_0 = 1  L(0 - 2.189)  "gamma_stat_BTAG_regionB_Mu_bin_0"
 35) 0x1f731830 RooRealVar::  gamma_stat_BTAG_regionD_El_bin_0 = 1  L(0 - 3.24916)  "gamma_stat_BTAG_regionD_El_bin_0"
 36) 0x1f8ec560 RooRealVar::  gamma_stat_BTAG_regionD_Mu_bin_0 = 1  L(0 - 2.20612)  "gamma_stat_BTAG_regionD_Mu_bin_0"
 37) 0x1f85e8c0 RooRealVar:: gamma_stat_BVETO_regionB_El_bin_0 = 1  L(0 - 1.98673)  "gamma_stat_BVETO_regionB_El_bin_0"
 38) 0x20005e60 RooRealVar:: gamma_stat_BVETO_regionD_El_bin_0 = 1  L(0 - 2.33676)  "gamma_stat_BVETO_regionD_El_bin_0"
 39) 0x1fdca020 RooRealVar:: gamma_stat_BVETO_regionD_Mu_bin_0 = 1  L(0 - 1.30008)  "gamma_stat_BVETO_regionD_Mu_bin_0"
 40) 0x1fd67b50 RooRealVar::         gamma_stat_Compl_el_bin_0 = 1  L(0 - 1.6789)  "gamma_stat_Compl_el_bin_0"
 41) 0x1fd72d10 RooRealVar::         gamma_stat_Compl_el_bin_1 = 1  L(0 - 1.72715)  "gamma_stat_Compl_el_bin_1"
 42) 0x202847d0 RooRealVar::        gamma_stat_Compl_el_bin_10 = 1  L(0 - 1.26132)  "gamma_stat_Compl_el_bin_10"
 43) 0x2028fa30 RooRealVar::        gamma_stat_Compl_el_bin_11 = 1  L(0 - 1.25979)  "gamma_stat_Compl_el_bin_11"
 44) 0x202a6290 RooRealVar::        gamma_stat_Compl_el_bin_13 = 1  L(0 - 1.26934)  "gamma_stat_Compl_el_bin_13"
 45) 0x202b14f0 RooRealVar::        gamma_stat_Compl_el_bin_14 = 1  L(0 - 1.27185)  "gamma_stat_Compl_el_bin_14"
 46) 0x202bca90 RooRealVar::        gamma_stat_Compl_el_bin_15 = 1  L(0 - 1.31828)  "gamma_stat_Compl_el_bin_15"
 47) 0x202c7cf0 RooRealVar::        gamma_stat_Compl_el_bin_16 = 1  L(0 - 1.34172)  "gamma_stat_Compl_el_bin_16"
 48) 0x202d2f50 RooRealVar::        gamma_stat_Compl_el_bin_17 = 1  L(0 - 1.35869)  "gamma_stat_Compl_el_bin_17"
 49) 0x202de1b0 RooRealVar::        gamma_stat_Compl_el_bin_18 = 1  L(0 - 1.38091)  "gamma_stat_Compl_el_bin_18"
 50) 0x202e9410 RooRealVar::        gamma_stat_Compl_el_bin_19 = 1  L(0 - 1.47826)  "gamma_stat_Compl_el_bin_19"
 51) 0x1fd7df40 RooRealVar::         gamma_stat_Compl_el_bin_2 = 1  L(0 - 1.67034)  "gamma_stat_Compl_el_bin_2"
 52) 0x202f4670 RooRealVar::        gamma_stat_Compl_el_bin_20 = 1  L(0 - 1.50626)  "gamma_stat_Compl_el_bin_20"
 53) 0x202ff8d0 RooRealVar::        gamma_stat_Compl_el_bin_21 = 1  L(0 - 1.59238)  "gamma_stat_Compl_el_bin_21"
 54) 0x2030ae70 RooRealVar::        gamma_stat_Compl_el_bin_22 = 1  L(0 - 1.68207)  "gamma_stat_Compl_el_bin_22"
 55) 0x203160d0 RooRealVar::        gamma_stat_Compl_el_bin_23 = 1  L(0 - 1.492)  "gamma_stat_Compl_el_bin_23"
 56) 0x20321330 RooRealVar::        gamma_stat_Compl_el_bin_24 = 1  L(0 - 1.67823)  "gamma_stat_Compl_el_bin_24"
 57) 0x2032c590 RooRealVar::        gamma_stat_Compl_el_bin_25 = 1  L(0 - 1.7344)  "gamma_stat_Compl_el_bin_25"
 58) 0x203377f0 RooRealVar::        gamma_stat_Compl_el_bin_26 = 1  L(0 - 1.50333)  "gamma_stat_Compl_el_bin_26"
 59) 0x20342a50 RooRealVar::        gamma_stat_Compl_el_bin_27 = 1  L(0 - 1.52389)  "gamma_stat_Compl_el_bin_27"
 60) 0x2034dcb0 RooRealVar::        gamma_stat_Compl_el_bin_28 = 1  L(0 - 1.74801)  "gamma_stat_Compl_el_bin_28"
 61) 0x20359550 RooRealVar::        gamma_stat_Compl_el_bin_29 = 1  L(0 - 1.53584)  "gamma_stat_Compl_el_bin_29"
 62) 0x20236230 RooRealVar::         gamma_stat_Compl_el_bin_3 = 1  L(0 - 2.75937)  "gamma_stat_Compl_el_bin_3"
 63) 0x20364df0 RooRealVar::        gamma_stat_Compl_el_bin_30 = 1  L(0 - 1.54993)  "gamma_stat_Compl_el_bin_30"
 64) 0x202417d0 RooRealVar::         gamma_stat_Compl_el_bin_4 = 1  L(0 - 1.989)  "gamma_stat_Compl_el_bin_4"
 65) 0x2024ca30 RooRealVar::         gamma_stat_Compl_el_bin_5 = 1  L(0 - 1.78095)  "gamma_stat_Compl_el_bin_5"
 66) 0x20257c90 RooRealVar::         gamma_stat_Compl_el_bin_6 = 1  L(0 - 1.45411)  "gamma_stat_Compl_el_bin_6"
 67) 0x202630b0 RooRealVar::         gamma_stat_Compl_el_bin_7 = 1  L(0 - 1.46197)  "gamma_stat_Compl_el_bin_7"
 68) 0x2026e310 RooRealVar::         gamma_stat_Compl_el_bin_8 = 1  L(0 - 1.34565)  "gamma_stat_Compl_el_bin_8"
 69) 0x20279570 RooRealVar::         gamma_stat_Compl_el_bin_9 = 1  L(0 - 1.2881)  "gamma_stat_Compl_el_bin_9"
 70) 0x1fac1e20 RooRealVar::         gamma_stat_Compl_mu_bin_0 = 1  L(0 - 1.71502)  "gamma_stat_Compl_mu_bin_0"
 71) 0x1facdee0 RooRealVar::         gamma_stat_Compl_mu_bin_1 = 1  L(0 - 1.61062)  "gamma_stat_Compl_mu_bin_1"
 72) 0x1fb911c0 RooRealVar::        gamma_stat_Compl_mu_bin_17 = 1  L(0 - 1.31428)  "gamma_stat_Compl_mu_bin_17"
 73) 0x1fb9c5e0 RooRealVar::        gamma_stat_Compl_mu_bin_18 = 1  L(0 - 1.37692)  "gamma_stat_Compl_mu_bin_18"
 74) 0x1fba7a00 RooRealVar::        gamma_stat_Compl_mu_bin_19 = 1  L(0 - 1.41276)  "gamma_stat_Compl_mu_bin_19"
 75) 0x1fad9110 RooRealVar::         gamma_stat_Compl_mu_bin_2 = 1  L(0 - 1.91841)  "gamma_stat_Compl_mu_bin_2"
 76) 0x1fbb2c60 RooRealVar::        gamma_stat_Compl_mu_bin_20 = 1  L(0 - 1.46607)  "gamma_stat_Compl_mu_bin_20"
 77) 0x1fbbe3c0 RooRealVar::        gamma_stat_Compl_mu_bin_21 = 1  L(0 - 1.80297)  "gamma_stat_Compl_mu_bin_21"
 78) 0x1fbc9620 RooRealVar::        gamma_stat_Compl_mu_bin_22 = 1  L(0 - 1.6479)  "gamma_stat_Compl_mu_bin_22"
 79) 0x1fbd4bc0 RooRealVar::        gamma_stat_Compl_mu_bin_23 = 1  L(0 - 1.60916)  "gamma_stat_Compl_mu_bin_23"
 80) 0x1fbdfe20 RooRealVar::        gamma_stat_Compl_mu_bin_24 = 1  L(0 - 1.56112)  "gamma_stat_Compl_mu_bin_24"
 81) 0x1fbeb080 RooRealVar::        gamma_stat_Compl_mu_bin_25 = 1  L(0 - 1.57513)  "gamma_stat_Compl_mu_bin_25"
 82) 0x1fbf64a0 RooRealVar::        gamma_stat_Compl_mu_bin_26 = 1  L(0 - 1.51773)  "gamma_stat_Compl_mu_bin_26"
 83) 0x1fc018c0 RooRealVar::        gamma_stat_Compl_mu_bin_27 = 1  L(0 - 1.57211)  "gamma_stat_Compl_mu_bin_27"
 84) 0x1fc0ce60 RooRealVar::        gamma_stat_Compl_mu_bin_28 = 1  L(0 - 1.68536)  "gamma_stat_Compl_mu_bin_28"
 85) 0x1fc180c0 RooRealVar::        gamma_stat_Compl_mu_bin_29 = 1  L(0 - 1.5765)  "gamma_stat_Compl_mu_bin_29"
 86) 0x1fae4470 RooRealVar::         gamma_stat_Compl_mu_bin_3 = 1  L(0 - 1.90629)  "gamma_stat_Compl_mu_bin_3"
 87) 0x1fc23320 RooRealVar::        gamma_stat_Compl_mu_bin_30 = 1  L(0 - 1.59495)  "gamma_stat_Compl_mu_bin_30"
 88) 0x1faef890 RooRealVar::         gamma_stat_Compl_mu_bin_4 = 1  L(0 - 1.56473)  "gamma_stat_Compl_mu_bin_4"
 89) 0x1fafabf0 RooRealVar::         gamma_stat_Compl_mu_bin_5 = 1  L(0 - 1.41246)  "gamma_stat_Compl_mu_bin_5"
 90) 0x1fb06010 RooRealVar::         gamma_stat_Compl_mu_bin_6 = 1  L(0 - 1.28948)  "gamma_stat_Compl_mu_bin_6"
 91) 0x205867a0 RooRealVar::    gamma_stat_bTaggedDef_el_bin_0 = 1  L(0 - 2.70972)  "gamma_stat_bTaggedDef_el_bin_0"
 92) 0x205919e0 RooRealVar::    gamma_stat_bTaggedDef_el_bin_1 = 1  L(0 - 1.88019)  "gamma_stat_bTaggedDef_el_bin_1"
 93) 0x2059cc90 RooRealVar::    gamma_stat_bTaggedDef_el_bin_2 = 1  L(0 - 1.9294)  "gamma_stat_bTaggedDef_el_bin_2"
 94) 0x205a9330 RooRealVar::    gamma_stat_bTaggedDef_el_bin_3 = 1  L(0 - 1.90953)  "gamma_stat_bTaggedDef_el_bin_3"
 95) 0x205b4610 RooRealVar::    gamma_stat_bTaggedDef_el_bin_4 = 1  L(0 - 2.15631)  "gamma_stat_bTaggedDef_el_bin_4"
 96) 0x205bf8f0 RooRealVar::    gamma_stat_bTaggedDef_el_bin_5 = 1  L(0 - 2.04978)  "gamma_stat_bTaggedDef_el_bin_5"
 97) 0x208f68b0 RooRealVar::    gamma_stat_bTaggedDef_mu_bin_0 = 1  L(0 - 1.92026)  "gamma_stat_bTaggedDef_mu_bin_0"
 98) 0x20901af0 RooRealVar::    gamma_stat_bTaggedDef_mu_bin_1 = 1  L(0 - 1.57276)  "gamma_stat_bTaggedDef_mu_bin_1"
 99) 0x2090cda0 RooRealVar::    gamma_stat_bTaggedDef_mu_bin_2 = 1  L(0 - 1.99295)  "gamma_stat_bTaggedDef_mu_bin_2"
100) 0x20918150 RooRealVar::    gamma_stat_bTaggedDef_mu_bin_3 = 1  L(0 - 1.77393)  "gamma_stat_bTaggedDef_mu_bin_3"
101) 0x20923a40 RooRealVar::    gamma_stat_bTaggedDef_mu_bin_4 = 1  L(0 - 1.93485)  "gamma_stat_bTaggedDef_mu_bin_4"
102) 0x2093ad60 RooRealVar::    gamma_stat_bTaggedDef_mu_bin_5 = 1  L(0 - 1.90196)  "gamma_stat_bTaggedDef_mu_bin_5"
103) 0x1f7b05b0 RooRealVar::                   tauD_LH_BTAG_El = 172.86  L(51.858 - 293.862)  "tauD_LH_BTAG_El"
104) 0x1f9412a0 RooRealVar::                   tauD_LH_BTAG_Mu = 2693.89  L(808.167 - 4579.61)  "tauD_LH_BTAG_Mu"
105) 0x20082160 RooRealVar::                  tauD_LH_BVETO_El = 1716.97  L(515.091 - 2918.85)  "tauD_LH_BVETO_El"
106) 0x1fdbd460 RooRealVar::                  tauD_LH_BVETO_Mu = 20638.4  L(6191.51 - 35085.2)  "tauD_LH_BVETO_Mu"
107) 0x1f7b3910 RooRealVar::               tauratio_LH_BTAG_El = 0.97  L(0.291 - 1.649)  "tauratio_LH_BTAG_El"
108) 0x1f944600 RooRealVar::               tauratio_LH_BTAG_Mu = 1.02  L(0.306 - 1.734)  "tauratio_LH_BTAG_Mu"
109) 0x200854e0 RooRealVar::              tauratio_LH_BVETO_El = 1.06  L(0.318 - 1.802)  "tauratio_LH_BVETO_El"
110) 0x1faa8880 RooRealVar::              tauratio_LH_BVETO_Mu = 1.16  L(0.348 - 1.972)  "tauratio_LH_BVETO_Mu"
Setting max function calls
[#0] ERROR:ObjectHandling -- RooWorkspace::loadSnapshot(combined) no snapshot with name conditionalNuis_0 is available
[#1] INFO:Minization -- p.d.f. provides expected number of events, including extended term in likelihood.
[#1] INFO:Minization --  Including the following contraint terms in minimization: (lumiConstraint,alpha_EmbIsoConstraint,alpha_EmbMfsConstraint,alpha_JESConstraint,alpha_T_EFFConstraint,alpha_XS_ZConstraint,alpha_q2_ZLHConstraint,alpha_XS_topConstraint,alpha_XS_singletopConstraint,alpha_q2_singletopLHConstraint,alpha_XS_dibosonConstraint,alpha_q2_DibosonLHConstraint,gamma_stat_BTAG_regionB_El_bin_0_constraint,alpha_q2_WLHConstraint,alpha_XS_bbAConstraint,alpha_q2_bbA_BTAG_LHConstraint,alpha_XS_ggFConstraint,alpha_q2_ggF_BTAG_LHConstraint,gamma_stat_BTAG_regionB_Mu_bin_0_constraint,gamma_stat_BTAG_regionD_El_bin_0_constraint,gamma_stat_BTAG_regionD_Mu_bin_0_constraint,alpha_XS_WConstraint,alpha_q2_bbA_BVETO_LHConstraint,alpha_q2_ggF_BVETO_LHConstraint,gamma_stat_BVETO_regionB_El_bin_0_constraint,gamma_stat_BVETO_regionD_El_bin_0_constraint,gamma_stat_BVETO_regionD_Mu_bin_0_constraint,alpha_B_EFFConstraint,alpha_C_EFFConstraint,alpha_ClusterConstraint,alpha_E_EFFConstraint,alpha_L_EFFConstraint,alpha_METPileUpConstraint,alpha_E_FAKEConstraint,alpha_SF_QCD_BVETO_LH_ElConstraint,gamma_stat_Compl_el_bin_0_constraint,gamma_stat_Compl_el_bin_1_constraint,gamma_stat_Compl_el_bin_2_constraint,gamma_stat_Compl_el_bin_3_constraint,gamma_stat_Compl_el_bin_4_constraint,gamma_stat_Compl_el_bin_5_constraint,gamma_stat_Compl_el_bin_6_constraint,gamma_stat_Compl_el_bin_7_constraint,gamma_stat_Compl_el_bin_8_constraint,gamma_stat_Compl_el_bin_9_constraint,gamma_stat_Compl_el_bin_10_constraint,gamma_stat_Compl_el_bin_11_constraint,gamma_stat_Compl_el_bin_13_constraint,gamma_stat_Compl_el_bin_14_constraint,gamma_stat_Compl_el_bin_15_constraint,gamma_stat_Compl_el_bin_16_constraint,gamma_stat_Compl_el_bin_17_constraint,gamma_stat_Compl_el_bin_18_constraint,gamma_stat_Compl_el_bin_19_constraint,gamma_stat_Compl_el_bin_20_constraint,gamma_stat_Compl_el_bin_21_constraint,gamma_stat_Compl_el_bin_22_constraint,gamma_stat_Compl_el_bin_23_constraint,gamma_stat_Compl_el_bin_24_constraint,gamma_stat_Compl_el_bin_25_constraint,gamma_stat_Compl_el_bin_26_constraint,gamma_stat_Compl_el_bin_27_constraint,gamma_stat_Compl_el_bin_28_constraint,gamma_stat_Compl_el_bin_29_constraint,gamma_stat_Compl_el_bin_30_constraint,alpha_M_EFFConstraint,alpha_SF_QCD_BVETO_LH_MuConstraint,gamma_stat_Compl_mu_bin_0_constraint,gamma_stat_Compl_mu_bin_1_constraint,gamma_stat_Compl_mu_bin_2_constraint,gamma_stat_Compl_mu_bin_3_constraint,gamma_stat_Compl_mu_bin_4_constraint,gamma_stat_Compl_mu_bin_5_constraint,gamma_stat_Compl_mu_bin_6_constraint,gamma_stat_Compl_mu_bin_17_constraint,gamma_stat_Compl_mu_bin_18_constraint,gamma_stat_Compl_mu_bin_19_constraint,gamma_stat_Compl_mu_bin_20_constraint,gamma_stat_Compl_mu_bin_21_constraint,gamma_stat_Compl_mu_bin_22_constraint,gamma_stat_Compl_mu_bin_23_constraint,gamma_stat_Compl_mu_bin_24_constraint,gamma_stat_Compl_mu_bin_25_constraint,gamma_stat_Compl_mu_bin_26_constraint,gamma_stat_Compl_mu_bin_27_constraint,gamma_stat_Compl_mu_bin_28_constraint,gamma_stat_Compl_mu_bin_29_constraint,gamma_stat_Compl_mu_bin_30_constraint,alpha_SF_QCD_BTAG_LH_ElConstraint,gamma_stat_bTaggedDef_el_bin_0_constraint,gamma_stat_bTaggedDef_el_bin_1_constraint,gamma_stat_bTaggedDef_el_bin_2_constraint,gamma_stat_bTaggedDef_el_bin_3_constraint,gamma_stat_bTaggedDef_el_bin_4_constraint,gamma_stat_bTaggedDef_el_bin_5_constraint,alpha_SF_QCD_BTAG_LH_MuConstraint,gamma_stat_bTaggedDef_mu_bin_0_constraint,gamma_stat_bTaggedDef_mu_bin_1_constraint,gamma_stat_bTaggedDef_mu_bin_2_constraint,gamma_stat_bTaggedDef_mu_bin_3_constraint,gamma_stat_bTaggedDef_mu_bin_4_constraint,gamma_stat_bTaggedDef_mu_bin_5_constraint)
Asimov data doesn't exist! Please, allow me to build one for you...
Creating asimov data at mu = 1, profiling at mu = 1
[#0] ERROR:ObjectHandling -- RooWorkspace::loadSnapshot(combined) no snapshot with name nominalGlobs is available
nominalGlobs doesn't exist. Saving snapshot.
[#0] ERROR:ObjectHandling -- RooWorkspace::loadSnapshot(combined) no snapshot with name nominalNuis is available
nominalNuis doesn't exist. Saving snapshot.
[#1] INFO:Fitting -- RooAddition::defaultErrorLevel(nll_simPdf_obsData_with_constr) Summation contains a RooNLLVar, using its error level
Minuit2Minimizer: Minimize with max-calls 55000 convergence for edm < 1 strategy 2
[#1] INFO:Fitting -- RooAbsTestStatistic::initSimMode: creating slave calculator #0 for state BVETO_regionB_Mu (1 dataset entries)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(BVETO_regionB_Mu_model_Int[obs_x_BVETO_regionB_Mu]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_BVETO_regionB_Mu)
[#1] INFO:Fitting -- RooAbsTestStatistic::initSimMode: creating slave calculator #1 for state BVETO_regionB_El (1 dataset entries)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(BVETO_regionB_El_model_Int[obs_x_BVETO_regionB_El]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_BVETO_regionB_El)
[#1] INFO:Fitting -- RooAbsTestStatistic::initSimMode: creating slave calculator #2 for state BTAG_regionB_Mu (1 dataset entries)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(BTAG_regionB_Mu_model_Int[obs_x_BTAG_regionB_Mu]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_BTAG_regionB_Mu)
[#1] INFO:Fitting -- RooAbsTestStatistic::initSimMode: creating slave calculator #3 for state BTAG_regionB_El (1 dataset entries)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(BTAG_regionB_El_model_Int[obs_x_BTAG_regionB_El]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_BTAG_regionB_El)
[#1] INFO:Fitting -- RooAbsTestStatistic::initSimMode: creating slave calculator #4 for state Compl_mu (31 dataset entries)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(Compl_mu_model_Int[obs_x_Compl_mu]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_Compl_mu)
[#1] INFO:Fitting -- RooAbsTestStatistic::initSimMode: creating slave calculator #5 for state Compl_el (31 dataset entries)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(Compl_el_model_Int[obs_x_Compl_el]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_Compl_el)
[#1] INFO:Fitting -- RooAbsTestStatistic::initSimMode: creating slave calculator #6 for state bTaggedDef_mu (6 dataset entries)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(bTaggedDef_mu_model_Int[obs_x_bTaggedDef_mu]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_bTaggedDef_mu)
[#1] INFO:Fitting -- RooAbsTestStatistic::initSimMode: creating slave calculator #7 for state bTaggedDef_el (6 dataset entries)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(bTaggedDef_el_model_Int[obs_x_bTaggedDef_el]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_bTaggedDef_el)
[#1] INFO:Fitting -- RooAbsTestStatistic::initSimMode: creating slave calculator #8 for state BVETO_regionD_Mu (1 dataset entries)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(BVETO_regionD_Mu_model_Int[obs_x_BVETO_regionD_Mu]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_BVETO_regionD_Mu)
[#1] INFO:Fitting -- RooAbsTestStatistic::initSimMode: creating slave calculator #9 for state BVETO_regionD_El (1 dataset entries)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(BVETO_regionD_El_model_Int[obs_x_BVETO_regionD_El]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_BVETO_regionD_El)
[#1] INFO:Fitting -- RooAbsTestStatistic::initSimMode: creating slave calculator #10 for state BTAG_regionD_Mu (1 dataset entries)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(BTAG_regionD_Mu_model_Int[obs_x_BTAG_regionD_Mu]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_BTAG_regionD_Mu)
[#1] INFO:Fitting -- RooAbsTestStatistic::initSimMode: creating slave calculator #11 for state BTAG_regionD_El (1 dataset entries)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(BTAG_regionD_El_model_Int[obs_x_BTAG_regionD_El]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_BTAG_regionD_El)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(BVETO_regionB_Mu_model_Int[obs_x_BVETO_regionB_Mu]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_BVETO_regionB_Mu)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(BVETO_regionB_El_model_Int[obs_x_BVETO_regionB_El]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_BVETO_regionB_El)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(BTAG_regionB_Mu_model_Int[obs_x_BTAG_regionB_Mu]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_BTAG_regionB_Mu)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(BTAG_regionB_El_model_Int[obs_x_BTAG_regionB_El]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_BTAG_regionB_El)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(Compl_mu_model_Int[obs_x_Compl_mu]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_Compl_mu)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(Compl_el_model_Int[obs_x_Compl_el]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_Compl_el)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(bTaggedDef_mu_model_Int[obs_x_bTaggedDef_mu]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_bTaggedDef_mu)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(bTaggedDef_el_model_Int[obs_x_bTaggedDef_el]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_bTaggedDef_el)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(BVETO_regionD_Mu_model_Int[obs_x_BVETO_regionD_Mu]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_BVETO_regionD_Mu)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(BVETO_regionD_El_model_Int[obs_x_BVETO_regionD_El]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_BVETO_regionD_El)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(BTAG_regionD_Mu_model_Int[obs_x_BTAG_regionD_Mu]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_BTAG_regionD_Mu)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(BTAG_regionD_El_model_Int[obs_x_BTAG_regionD_El]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_BTAG_regionD_El)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_BTAG_regionB_El_bin_0_constraint_Int[gamma_stat_BTAG_regionB_El_bin_0]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_BTAG_regionB_El_bin_0)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_BTAG_regionB_Mu_bin_0_constraint_Int[gamma_stat_BTAG_regionB_Mu_bin_0]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_BTAG_regionB_Mu_bin_0)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_BTAG_regionD_El_bin_0_constraint_Int[gamma_stat_BTAG_regionD_El_bin_0]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_BTAG_regionD_El_bin_0)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_BTAG_regionD_Mu_bin_0_constraint_Int[gamma_stat_BTAG_regionD_Mu_bin_0]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_BTAG_regionD_Mu_bin_0)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_BVETO_regionB_El_bin_0_constraint_Int[gamma_stat_BVETO_regionB_El_bin_0]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_BVETO_regionB_El_bin_0)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_BVETO_regionD_El_bin_0_constraint_Int[gamma_stat_BVETO_regionD_El_bin_0]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_BVETO_regionD_El_bin_0)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_BVETO_regionD_Mu_bin_0_constraint_Int[gamma_stat_BVETO_regionD_Mu_bin_0]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_BVETO_regionD_Mu_bin_0)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_el_bin_0_constraint_Int[gamma_stat_Compl_el_bin_0]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_el_bin_0)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_el_bin_1_constraint_Int[gamma_stat_Compl_el_bin_1]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_el_bin_1)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_el_bin_2_constraint_Int[gamma_stat_Compl_el_bin_2]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_el_bin_2)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_el_bin_3_constraint_Int[gamma_stat_Compl_el_bin_3]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_el_bin_3)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_el_bin_4_constraint_Int[gamma_stat_Compl_el_bin_4]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_el_bin_4)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_el_bin_5_constraint_Int[gamma_stat_Compl_el_bin_5]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_el_bin_5)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_el_bin_6_constraint_Int[gamma_stat_Compl_el_bin_6]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_el_bin_6)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_el_bin_7_constraint_Int[gamma_stat_Compl_el_bin_7]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_el_bin_7)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_el_bin_8_constraint_Int[gamma_stat_Compl_el_bin_8]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_el_bin_8)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_el_bin_9_constraint_Int[gamma_stat_Compl_el_bin_9]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_el_bin_9)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_el_bin_10_constraint_Int[gamma_stat_Compl_el_bin_10]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_el_bin_10)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_el_bin_11_constraint_Int[gamma_stat_Compl_el_bin_11]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_el_bin_11)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_el_bin_13_constraint_Int[gamma_stat_Compl_el_bin_13]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_el_bin_13)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_el_bin_14_constraint_Int[gamma_stat_Compl_el_bin_14]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_el_bin_14)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_el_bin_15_constraint_Int[gamma_stat_Compl_el_bin_15]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_el_bin_15)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_el_bin_16_constraint_Int[gamma_stat_Compl_el_bin_16]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_el_bin_16)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_el_bin_17_constraint_Int[gamma_stat_Compl_el_bin_17]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_el_bin_17)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_el_bin_18_constraint_Int[gamma_stat_Compl_el_bin_18]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_el_bin_18)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_el_bin_19_constraint_Int[gamma_stat_Compl_el_bin_19]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_el_bin_19)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_el_bin_20_constraint_Int[gamma_stat_Compl_el_bin_20]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_el_bin_20)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_el_bin_21_constraint_Int[gamma_stat_Compl_el_bin_21]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_el_bin_21)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_el_bin_22_constraint_Int[gamma_stat_Compl_el_bin_22]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_el_bin_22)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_el_bin_23_constraint_Int[gamma_stat_Compl_el_bin_23]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_el_bin_23)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_el_bin_24_constraint_Int[gamma_stat_Compl_el_bin_24]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_el_bin_24)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_el_bin_25_constraint_Int[gamma_stat_Compl_el_bin_25]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_el_bin_25)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_el_bin_26_constraint_Int[gamma_stat_Compl_el_bin_26]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_el_bin_26)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_el_bin_27_constraint_Int[gamma_stat_Compl_el_bin_27]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_el_bin_27)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_el_bin_28_constraint_Int[gamma_stat_Compl_el_bin_28]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_el_bin_28)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_el_bin_29_constraint_Int[gamma_stat_Compl_el_bin_29]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_el_bin_29)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_el_bin_30_constraint_Int[gamma_stat_Compl_el_bin_30]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_el_bin_30)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_mu_bin_0_constraint_Int[gamma_stat_Compl_mu_bin_0]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_mu_bin_0)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_mu_bin_1_constraint_Int[gamma_stat_Compl_mu_bin_1]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_mu_bin_1)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_mu_bin_2_constraint_Int[gamma_stat_Compl_mu_bin_2]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_mu_bin_2)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_mu_bin_3_constraint_Int[gamma_stat_Compl_mu_bin_3]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_mu_bin_3)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_mu_bin_4_constraint_Int[gamma_stat_Compl_mu_bin_4]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_mu_bin_4)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_mu_bin_5_constraint_Int[gamma_stat_Compl_mu_bin_5]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_mu_bin_5)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_mu_bin_6_constraint_Int[gamma_stat_Compl_mu_bin_6]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_mu_bin_6)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_mu_bin_17_constraint_Int[gamma_stat_Compl_mu_bin_17]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_mu_bin_17)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_mu_bin_18_constraint_Int[gamma_stat_Compl_mu_bin_18]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_mu_bin_18)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_mu_bin_19_constraint_Int[gamma_stat_Compl_mu_bin_19]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_mu_bin_19)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_mu_bin_20_constraint_Int[gamma_stat_Compl_mu_bin_20]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_mu_bin_20)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_mu_bin_21_constraint_Int[gamma_stat_Compl_mu_bin_21]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_mu_bin_21)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_mu_bin_22_constraint_Int[gamma_stat_Compl_mu_bin_22]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_mu_bin_22)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_mu_bin_23_constraint_Int[gamma_stat_Compl_mu_bin_23]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_mu_bin_23)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_mu_bin_24_constraint_Int[gamma_stat_Compl_mu_bin_24]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_mu_bin_24)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_mu_bin_25_constraint_Int[gamma_stat_Compl_mu_bin_25]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_mu_bin_25)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_mu_bin_26_constraint_Int[gamma_stat_Compl_mu_bin_26]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_mu_bin_26)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_mu_bin_27_constraint_Int[gamma_stat_Compl_mu_bin_27]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_mu_bin_27)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_mu_bin_28_constraint_Int[gamma_stat_Compl_mu_bin_28]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_mu_bin_28)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_mu_bin_29_constraint_Int[gamma_stat_Compl_mu_bin_29]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_mu_bin_29)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_Compl_mu_bin_30_constraint_Int[gamma_stat_Compl_mu_bin_30]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_Compl_mu_bin_30)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_bTaggedDef_el_bin_0_constraint_Int[gamma_stat_bTaggedDef_el_bin_0]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_bTaggedDef_el_bin_0)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_bTaggedDef_el_bin_1_constraint_Int[gamma_stat_bTaggedDef_el_bin_1]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_bTaggedDef_el_bin_1)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_bTaggedDef_el_bin_2_constraint_Int[gamma_stat_bTaggedDef_el_bin_2]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_bTaggedDef_el_bin_2)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_bTaggedDef_el_bin_3_constraint_Int[gamma_stat_bTaggedDef_el_bin_3]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_bTaggedDef_el_bin_3)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_bTaggedDef_el_bin_4_constraint_Int[gamma_stat_bTaggedDef_el_bin_4]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_bTaggedDef_el_bin_4)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_bTaggedDef_el_bin_5_constraint_Int[gamma_stat_bTaggedDef_el_bin_5]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_bTaggedDef_el_bin_5)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_bTaggedDef_mu_bin_0_constraint_Int[gamma_stat_bTaggedDef_mu_bin_0]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_bTaggedDef_mu_bin_0)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_bTaggedDef_mu_bin_1_constraint_Int[gamma_stat_bTaggedDef_mu_bin_1]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_bTaggedDef_mu_bin_1)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_bTaggedDef_mu_bin_2_constraint_Int[gamma_stat_bTaggedDef_mu_bin_2]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_bTaggedDef_mu_bin_2)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_bTaggedDef_mu_bin_3_constraint_Int[gamma_stat_bTaggedDef_mu_bin_3]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_bTaggedDef_mu_bin_3)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_bTaggedDef_mu_bin_4_constraint_Int[gamma_stat_bTaggedDef_mu_bin_4]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_bTaggedDef_mu_bin_4)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(gamma_stat_bTaggedDef_mu_bin_5_constraint_Int[gamma_stat_bTaggedDef_mu_bin_5]) using numeric integrator RooIntegrator1D to calculate Int(gamma_stat_bTaggedDef_mu_bin_5)
MnSeedGenerator: for initial parameters FCN = -355045
MnSeedGenerator: Initial state:   - FCN =  -355044.5311212 Edm =     -134.028 NCalls =    419
MnSeedGenerator: Negative G2 found - new state:   - FCN =  -355077.6518317 Edm =      49.3588 NCalls =   1166
Info in <Minuit2>: matrix forced pos-def by adding to diagonal : padd = 0.158741
Info in <Minuit2>: MnHesse: matrix was forced pos. def. 
MnSeedGenerator: run Hesse - new state:   - FCN =  -355077.6518317 Edm =      48.5536 NCalls =   7656
VariableMetric: start iterating until Edm is < 0.001
VariableMetric: Initial state   - FCN =  -355077.6518317 Edm =      48.5536 NCalls =   7656
VariableMetric: Iteration #   1 - FCN =  -355101.5090354 Edm =      69.3749 NCalls =   7934
VariableMetric: Iteration #   2 - FCN =  -355126.5729155 Edm =      2.27077 NCalls =   8203
VariableMetric: Iteration #   3 - FCN =  -355128.5195668 Edm =       0.4043 NCalls =   8427
VariableMetric: Iteration #   4 - FCN =  -355129.0315595 Edm =    0.0830739 NCalls =   8649
VariableMetric: Iteration #   5 - FCN =  -355129.1454244 Edm =    0.0210301 NCalls =   8872
VariableMetric: Iteration #   6 - FCN =  -355129.1779157 Edm =    0.0153142 NCalls =   9097
VariableMetric: Iteration #   7 - FCN =  -355129.2128826 Edm =     0.010722 NCalls =   9320
VariableMetric: Iteration #   8 - FCN =  -355129.2317717 Edm =    0.0028619 NCalls =   9543
VariableMetric: Iteration #   9 - FCN =  -355129.2334894 Edm =  0.000777232 NCalls =   9766
VariableMetric: After Hessian   - FCN =  -355129.2334894 Edm =    0.0170038 NCalls =  16504
Info in <Minuit2>: VariableMetricBuilder: Stop the minimization - reached machine accuracy limit
Info in <Minuit2>: Edm is smaller than machine accuracy : machineLimit = 0.0211674
Info in <Minuit2>: Current  Edm is : edm = 0.0170038
Info in <Minuit2>: Required Edm is : edmval = 0.001
Info in <Minuit2>: VariableMetricBuilder: Invalid function minimum - edm is above tolerance
EDM is above max tolerance 0.0170038  0.001
Info in <Minuit2>: Minuit2Minimizer::Minimize : Minimization did NOT converge, Edm is above max
Minuit2Minimizer : Invalid Minimum - status = 3
FVAL  = -355129
Edm   = 0.0170038
Nfcn  = 16504
Fit failed with status -1
[#1] INFO:NumericIntegration -- RooRealIntegral::init(BVETO_regionB_Mu_model_Int[obs_x_BVETO_regionB_Mu]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_BVETO_regionB_Mu)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(BVETO_regionB_El_model_Int[obs_x_BVETO_regionB_El]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_BVETO_regionB_El)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(BTAG_regionB_Mu_model_Int[obs_x_BTAG_regionB_Mu]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_BTAG_regionB_Mu)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(BTAG_regionB_El_model_Int[obs_x_BTAG_regionB_El]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_BTAG_regionB_El)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(Compl_mu_model_Int[obs_x_Compl_mu]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_Compl_mu)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(Compl_el_model_Int[obs_x_Compl_el]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_Compl_el)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(bTaggedDef_mu_model_Int[obs_x_bTaggedDef_mu]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_bTaggedDef_mu)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(bTaggedDef_el_model_Int[obs_x_bTaggedDef_el]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_bTaggedDef_el)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(BVETO_regionD_Mu_model_Int[obs_x_BVETO_regionD_Mu]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_BVETO_regionD_Mu)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(BVETO_regionD_El_model_Int[obs_x_BVETO_regionD_El]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_BVETO_regionD_El)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(BTAG_regionD_Mu_model_Int[obs_x_BTAG_regionD_Mu]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_BTAG_regionD_Mu)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(BTAG_regionD_El_model_Int[obs_x_BTAG_regionD_El]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_BTAG_regionD_El)
[#1] INFO:ObjectHandling -- RooWorkspace::import(combined) importing dataset asimovData_1
[#1] INFO:Minization -- p.d.f. provides expected number of events, including extended term in likelihood.
[#1] INFO:Minization --  Including the following contraint terms in minimization: (lumiConstraint,alpha_EmbIsoConstraint,alpha_EmbMfsConstraint,alpha_JESConstraint,alpha_T_EFFConstraint,alpha_XS_ZConstraint,alpha_q2_ZLHConstraint,alpha_XS_topConstraint,alpha_XS_singletopConstraint,alpha_q2_singletopLHConstraint,alpha_XS_dibosonConstraint,alpha_q2_DibosonLHConstraint,gamma_stat_BTAG_regionB_El_bin_0_constraint,alpha_q2_WLHConstraint,alpha_XS_bbAConstraint,alpha_q2_bbA_BTAG_LHConstraint,alpha_XS_ggFConstraint,alpha_q2_ggF_BTAG_LHConstraint,gamma_stat_BTAG_regionB_Mu_bin_0_constraint,gamma_stat_BTAG_regionD_El_bin_0_constraint,gamma_stat_BTAG_regionD_Mu_bin_0_constraint,alpha_XS_WConstraint,alpha_q2_bbA_BVETO_LHConstraint,alpha_q2_ggF_BVETO_LHConstraint,gamma_stat_BVETO_regionB_El_bin_0_constraint,gamma_stat_BVETO_regionD_El_bin_0_constraint,gamma_stat_BVETO_regionD_Mu_bin_0_constraint,alpha_B_EFFConstraint,alpha_C_EFFConstraint,alpha_ClusterConstraint,alpha_E_EFFConstraint,alpha_L_EFFConstraint,alpha_METPileUpConstraint,alpha_E_FAKEConstraint,alpha_SF_QCD_BVETO_LH_ElConstraint,gamma_stat_Compl_el_bin_0_constraint,gamma_stat_Compl_el_bin_1_constraint,gamma_stat_Compl_el_bin_2_constraint,gamma_stat_Compl_el_bin_3_constraint,gamma_stat_Compl_el_bin_4_constraint,gamma_stat_Compl_el_bin_5_constraint,gamma_stat_Compl_el_bin_6_constraint,gamma_stat_Compl_el_bin_7_constraint,gamma_stat_Compl_el_bin_8_constraint,gamma_stat_Compl_el_bin_9_constraint,gamma_stat_Compl_el_bin_10_constraint,gamma_stat_Compl_el_bin_11_constraint,gamma_stat_Compl_el_bin_13_constraint,gamma_stat_Compl_el_bin_14_constraint,gamma_stat_Compl_el_bin_15_constraint,gamma_stat_Compl_el_bin_16_constraint,gamma_stat_Compl_el_bin_17_constraint,gamma_stat_Compl_el_bin_18_constraint,gamma_stat_Compl_el_bin_19_constraint,gamma_stat_Compl_el_bin_20_constraint,gamma_stat_Compl_el_bin_21_constraint,gamma_stat_Compl_el_bin_22_constraint,gamma_stat_Compl_el_bin_23_constraint,gamma_stat_Compl_el_bin_24_constraint,gamma_stat_Compl_el_bin_25_constraint,gamma_stat_Compl_el_bin_26_constraint,gamma_stat_Compl_el_bin_27_constraint,gamma_stat_Compl_el_bin_28_constraint,gamma_stat_Compl_el_bin_29_constraint,gamma_stat_Compl_el_bin_30_constraint,alpha_M_EFFConstraint,alpha_SF_QCD_BVETO_LH_MuConstraint,gamma_stat_Compl_mu_bin_0_constraint,gamma_stat_Compl_mu_bin_1_constraint,gamma_stat_Compl_mu_bin_2_constraint,gamma_stat_Compl_mu_bin_3_constraint,gamma_stat_Compl_mu_bin_4_constraint,gamma_stat_Compl_mu_bin_5_constraint,gamma_stat_Compl_mu_bin_6_constraint,gamma_stat_Compl_mu_bin_17_constraint,gamma_stat_Compl_mu_bin_18_constraint,gamma_stat_Compl_mu_bin_19_constraint,gamma_stat_Compl_mu_bin_20_constraint,gamma_stat_Compl_mu_bin_21_constraint,gamma_stat_Compl_mu_bin_22_constraint,gamma_stat_Compl_mu_bin_23_constraint,gamma_stat_Compl_mu_bin_24_constraint,gamma_stat_Compl_mu_bin_25_constraint,gamma_stat_Compl_mu_bin_26_constraint,gamma_stat_Compl_mu_bin_27_constraint,gamma_stat_Compl_mu_bin_28_constraint,gamma_stat_Compl_mu_bin_29_constraint,gamma_stat_Compl_mu_bin_30_constraint,alpha_SF_QCD_BTAG_LH_ElConstraint,gamma_stat_bTaggedDef_el_bin_0_constraint,gamma_stat_bTaggedDef_el_bin_1_constraint,gamma_stat_bTaggedDef_el_bin_2_constraint,gamma_stat_bTaggedDef_el_bin_3_constraint,gamma_stat_bTaggedDef_el_bin_4_constraint,gamma_stat_bTaggedDef_el_bin_5_constraint,alpha_SF_QCD_BTAG_LH_MuConstraint,gamma_stat_bTaggedDef_mu_bin_0_constraint,gamma_stat_bTaggedDef_mu_bin_1_constraint,gamma_stat_bTaggedDef_mu_bin_2_constraint,gamma_stat_bTaggedDef_mu_bin_3_constraint,gamma_stat_bTaggedDef_mu_bin_4_constraint,gamma_stat_bTaggedDef_mu_bin_5_constraint)
[#0] ERROR:ObjectHandling -- RooWorkspace::loadSnapshot(combined) no snapshot with name HE! is available
[#1] INFO:Fitting -- RooAddition::defaultErrorLevel(nll_simPdf_asimovData_1_with_constr) Summation contains a RooNLLVar, using its error level
Minuit2Minimizer: Minimize with max-calls 55000 convergence for edm < 1 strategy 2
[#1] INFO:Fitting -- RooAbsTestStatistic::initSimMode: creating slave calculator #0 for state BVETO_regionB_Mu (1 dataset entries)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(BVETO_regionB_Mu_model_Int[obs_x_BVETO_regionB_Mu]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_BVETO_regionB_Mu)
[#1] INFO:Fitting -- RooAbsTestStatistic::initSimMode: creating slave calculator #1 for state BVETO_regionB_El (1 dataset entries)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(BVETO_regionB_El_model_Int[obs_x_BVETO_regionB_El]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_BVETO_regionB_El)
[#1] INFO:Fitting -- RooAbsTestStatistic::initSimMode: creating slave calculator #2 for state BTAG_regionB_Mu (1 dataset entries)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(BTAG_regionB_Mu_model_Int[obs_x_BTAG_regionB_Mu]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_BTAG_regionB_Mu)
[#1] INFO:Fitting -- RooAbsTestStatistic::initSimMode: creating slave calculator #3 for state BTAG_regionB_El (1 dataset entries)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(BTAG_regionB_El_model_Int[obs_x_BTAG_regionB_El]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_BTAG_regionB_El)
[#1] INFO:Fitting -- RooAbsTestStatistic::initSimMode: creating slave calculator #4 for state Compl_mu (31 dataset entries)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(Compl_mu_model_Int[obs_x_Compl_mu]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_Compl_mu)
[#1] INFO:Fitting -- RooAbsTestStatistic::initSimMode: creating slave calculator #5 for state Compl_el (31 dataset entries)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(Compl_el_model_Int[obs_x_Compl_el]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_Compl_el)
[#1] INFO:Fitting -- RooAbsTestStatistic::initSimMode: creating slave calculator #6 for state bTaggedDef_mu (6 dataset entries)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(bTaggedDef_mu_model_Int[obs_x_bTaggedDef_mu]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_bTaggedDef_mu)
[#1] INFO:Fitting -- RooAbsTestStatistic::initSimMode: creating slave calculator #7 for state bTaggedDef_el (6 dataset entries)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(bTaggedDef_el_model_Int[obs_x_bTaggedDef_el]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_bTaggedDef_el)
[#1] INFO:Fitting -- RooAbsTestStatistic::initSimMode: creating slave calculator #8 for state BVETO_regionD_Mu (1 dataset entries)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(BVETO_regionD_Mu_model_Int[obs_x_BVETO_regionD_Mu]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_BVETO_regionD_Mu)
[#1] INFO:Fitting -- RooAbsTestStatistic::initSimMode: creating slave calculator #9 for state BVETO_regionD_El (1 dataset entries)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(BVETO_regionD_El_model_Int[obs_x_BVETO_regionD_El]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_BVETO_regionD_El)
[#1] INFO:Fitting -- RooAbsTestStatistic::initSimMode: creating slave calculator #10 for state BTAG_regionD_Mu (1 dataset entries)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(BTAG_regionD_Mu_model_Int[obs_x_BTAG_regionD_Mu]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_BTAG_regionD_Mu)
[#1] INFO:Fitting -- RooAbsTestStatistic::initSimMode: creating slave calculator #11 for state BTAG_regionD_El (1 dataset entries)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(BTAG_regionD_El_model_Int[obs_x_BTAG_regionD_El]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_BTAG_regionD_El)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(BVETO_regionB_Mu_model_Int[obs_x_BVETO_regionB_Mu]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_BVETO_regionB_Mu)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(BVETO_regionB_El_model_Int[obs_x_BVETO_regionB_El]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_BVETO_regionB_El)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(BTAG_regionB_Mu_model_Int[obs_x_BTAG_regionB_Mu]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_BTAG_regionB_Mu)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(BTAG_regionB_El_model_Int[obs_x_BTAG_regionB_El]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_BTAG_regionB_El)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(Compl_mu_model_Int[obs_x_Compl_mu]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_Compl_mu)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(Compl_el_model_Int[obs_x_Compl_el]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_Compl_el)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(bTaggedDef_mu_model_Int[obs_x_bTaggedDef_mu]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_bTaggedDef_mu)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(bTaggedDef_el_model_Int[obs_x_bTaggedDef_el]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_bTaggedDef_el)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(BVETO_regionD_Mu_model_Int[obs_x_BVETO_regionD_Mu]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_BVETO_regionD_Mu)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(BVETO_regionD_El_model_Int[obs_x_BVETO_regionD_El]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_BVETO_regionD_El)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(BTAG_regionD_Mu_model_Int[obs_x_BTAG_regionD_Mu]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_BTAG_regionD_Mu)
[#1] INFO:NumericIntegration -- RooRealIntegral::init(BTAG_regionD_El_model_Int[obs_x_BTAG_regionD_El]) using numeric integrator RooBinIntegrator to calculate Int(obs_x_BTAG_regionD_El)
MnSeedGenerator: for initial parameters FCN = -355219
MnSeedGenerator: Initial state:   - FCN =  -355219.4768817 Edm =      26.7842 NCalls =    287
MnSeedGenerator: run Hesse - new state:   - FCN =  -355219.4768817 Edm =      15.2309 NCalls =   6785
VariableMetric: start iterating until Edm is < 0.001
VariableMetric: Initial state   - FCN =  -355219.4768817 Edm =      15.2309 NCalls =   6785
VariableMetric: Iteration #   1 - FCN =  -355233.2105572 Edm =     0.737581 NCalls =   7055
VariableMetric: Iteration #   2 - FCN =  -355233.6248223 Edm =    0.0446479 NCalls =   7285
VariableMetric: Iteration #   3 - FCN =  -355233.6475606 Edm =   0.00585353 NCalls =   7507
VariableMetric: Iteration #   4 - FCN =  -355233.6487632 Edm =   0.00220184 NCalls =   7729
VariableMetric: Iteration #   5 - FCN =  -355233.6487957 Edm =   0.00224297 NCalls =   7953
Info in <Minuit2>: VariableMetricBuilder: no improvement in line search
Info in <Minuit2>: VariableMetricBuilder: machine accuracy limits further improvement.
VariableMetric: After Hessian   - FCN =  -355233.6487957 Edm =    0.0150814 NCalls =  14650
Info in <Minuit2>: VariableMetricBuilder: Stop the minimization - reached machine accuracy limit
Info in <Minuit2>: Edm is smaller than machine accuracy : machineLimit = 0.0211736
Info in <Minuit2>: Current  Edm is : edm = 0.0150814
Info in <Minuit2>: Required Edm is : edmval = 0.001
Info in <Minuit2>: VariableMetricBuilder: Invalid function minimum - edm is above tolerance
EDM is above max tolerance 0.0150814  0.001
Info in <Minuit2>: Minuit2Minimizer::Minimize : Minimization did NOT converge, Edm is above max
Minuit2Minimizer : Invalid Minimum - status = 3
FVAL  = -355234
Edm   = 0.0150814
Nfcn  = 14650
Fit failed with status -1
Retrying with conditional snapshot at mu=1
[#0] ERROR:ObjectHandling -- RooWorkspace::loadSnapshot(combined) no snapshot with name conditionalNuis_0 is available
[#1] INFO:Fitting -- RooAddition::defaultErrorLevel(nll_simPdf_asimovData_1_with_constr) Summation contains a RooNLLVar, using its error level
Minuit2Minimizer: Minimize with max-calls 55000 convergence for edm < 1 strategy 2
MnSeedGenerator: for initial parameters FCN = -355234
MnSeedGenerator: Initial state:   - FCN =  -355233.6487957 Edm =   0.00146055 NCalls =    277
MnSeedGenerator: run Hesse - new state:   - FCN =  -355233.6487957 Edm =    0.0152052 NCalls =   6981
VariableMetric: start iterating until Edm is < 0.001
VariableMetric: Initial state   - FCN =  -355233.6487957 Edm =    0.0152052 NCalls =   6981
VariableMetric: Iteration #   1 - FCN =  -355233.6554601 Edm =   0.00327405 NCalls =   7209
VariableMetric: Iteration #   2 - FCN =  -355233.6580975 Edm =   0.00759756 NCalls =   7442
VariableMetric: Iteration #   3 - FCN =  -355233.6581772 Edm =   0.00193922 NCalls =   7665
VariableMetric: Iteration #   4 - FCN =   -355233.658194 Edm =    0.0121207 NCalls =   7891
VariableMetric: Iteration #   5 - FCN =  -355233.6581981 Edm =   0.00767156 NCalls =   8118
VariableMetric: Iteration #   6 - FCN =  -355233.6582002 Edm =   0.00816545 NCalls =   8346
VariableMetric: Iteration #   7 - FCN =  -355233.6582011 Edm =   0.00708293 NCalls =   8575
VariableMetric: Iteration #   8 - FCN =  -355233.6582013 Edm =   0.00784402 NCalls =   8806
Info in <Minuit2>: VariableMetricBuilder: no improvement in line search
Info in <Minuit2>: VariableMetricBuilder: machine accuracy limits further improvement.
VariableMetric: After Hessian   - FCN =  -355233.6582013 Edm =   0.00284948 NCalls =  15657
Info in <Minuit2>: VariableMetricBuilder: Stop the minimization - reached machine accuracy limit
Info in <Minuit2>: Edm is smaller than machine accuracy : machineLimit = 0.0211736
Info in <Minuit2>: Current  Edm is : edm = 0.00284948
Info in <Minuit2>: Required Edm is : edmval = 0.001
Minuit2Minimizer : Valid minimum - status = 0
FVAL  = -355233.65820127842
Edm   = 0.00284947852342098745
Nfcn  = 15657
Lumi	  = 1.00744	 +/-  0.0377944	(limited)
alpha_B_EFF	  = -2.11212e-07	 +/-  0.605967	(limited)
alpha_C_EFF	  = 0.087636	 +/-  0.741076	(limited)
alpha_Cluster	  = 0.188659	 +/-  0.878458	(limited)
alpha_E_EFF	  = 0.301541	 +/-  0.548515	(limited)
alpha_E_FAKE	  = -0.237596	 +/-  0.628699	(limited)
alpha_EmbIso	  = 0.161163	 +/-  0.763533	(limited)
alpha_EmbMfs	  = 0.778196	 +/-  0.275093	(limited)
alpha_JES	  = -0.27878	 +/-  0.189532	(limited)
alpha_L_EFF	  = 0.359697	 +/-  0.926598	(limited)
alpha_METPileUp	  = 0.0940778	 +/-  0.615877	(limited)
alpha_M_EFF	  = 0.0463764	 +/-  0.983601	(limited)
alpha_SF_QCD_BTAG_LH_El	  = 0.316099	 +/-  0.938051	(limited)
alpha_SF_QCD_BTAG_LH_Mu	  = 0.101949	 +/-  0.967163	(limited)
alpha_SF_QCD_BVETO_LH_El	  = -0.15553	 +/-  0.79514	(limited)
alpha_SF_QCD_BVETO_LH_Mu	  = -0.00155062	 +/-  0.951453	(limited)
alpha_T_EFF	  = -0.0925538	 +/-  0.977437	(limited)
alpha_XS_W	  = 0.259402	 +/-  0.922988	(limited)
alpha_XS_Z	  = 0.0208689	 +/-  0.733625	(limited)
alpha_XS_bbA	  = -6.09588e-05	 +/-  0.994457	(limited)
alpha_XS_diboson	  = 0.0253466	 +/-  0.99297	(limited)
alpha_XS_ggF	  = -4.66542e-05	 +/-  0.994457	(limited)
alpha_XS_singletop	  = 0.0547141	 +/-  0.989318	(limited)
alpha_XS_top	  = 0.291046	 +/-  0.978394	(limited)
alpha_q2_DibosonLH	  = 0.00738448	 +/-  0.994331	(limited)
alpha_q2_WLH	  = 0.17621	 +/-  0.948104	(limited)
alpha_q2_ZLH	  = -0.314426	 +/-  0.52478	(limited)
alpha_q2_bbA_BTAG_LH	  = 6.00852e-07	 +/-  0.994457	(limited)
alpha_q2_bbA_BVETO_LH	  = -3.51116e-06	 +/-  0.994457	(limited)
alpha_q2_ggF_BTAG_LH	  = -1.1913e-06	 +/-  0.994457	(limited)
alpha_q2_ggF_BVETO_LH	  = -8.53003e-06	 +/-  0.994457	(limited)
alpha_q2_singletopLH	  = 0.00889428	 +/-  0.994316	(limited)
gamma_stat_BTAG_regionB_El_bin_0	  = 0.989769	 +/-  0.752263	(limited)
gamma_stat_BTAG_regionB_Mu_bin_0	  = 1.00002	 +/-  0.235765	(limited)
gamma_stat_BTAG_regionD_El_bin_0	  = 1.00088	 +/-  0.442779	(limited)
gamma_stat_BTAG_regionD_Mu_bin_0	  = 1.00026	 +/-  0.239184	(limited)
gamma_stat_BVETO_regionB_El_bin_0	  = 1.00055	 +/-  0.196028	(limited)
gamma_stat_BVETO_regionD_El_bin_0	  = 1.00007	 +/-  0.264787	(limited)
gamma_stat_BVETO_regionD_Mu_bin_0	  = 1.00004	 +/-  0.059882	(limited)
gamma_stat_Compl_el_bin_0	  = 0.948818	 +/-  0.093389	(limited)
gamma_stat_Compl_el_bin_1	  = 1.11853	 +/-  0.105134	(limited)
gamma_stat_Compl_el_bin_10	  = 0.982899	 +/-  0.0375814	(limited)
gamma_stat_Compl_el_bin_11	  = 1.00373	 +/-  0.0386178	(limited)
gamma_stat_Compl_el_bin_13	  = 0.984816	 +/-  0.0403521	(limited)
gamma_stat_Compl_el_bin_14	  = 0.999607	 +/-  0.0404325	(limited)
gamma_stat_Compl_el_bin_15	  = 0.999847	 +/-  0.0475416	(limited)
gamma_stat_Compl_el_bin_16	  = 1.01149	 +/-  0.0504922	(limited)
gamma_stat_Compl_el_bin_17	  = 0.964907	 +/-  0.0545655	(limited)
gamma_stat_Compl_el_bin_18	  = 0.94263	 +/-  0.0561036	(limited)
gamma_stat_Compl_el_bin_19	  = 1.00342	 +/-  0.0745199	(limited)
gamma_stat_Compl_el_bin_2	  = 0.9173	 +/-  0.0917133	(limited)
gamma_stat_Compl_el_bin_20	  = 0.99453	 +/-  0.0741084	(limited)
gamma_stat_Compl_el_bin_21	  = 1.03316	 +/-  0.0859973	(limited)
gamma_stat_Compl_el_bin_22	  = 1.02043	 +/-  0.0937928	(limited)
gamma_stat_Compl_el_bin_23	  = 0.976924	 +/-  0.0681452	(limited)
gamma_stat_Compl_el_bin_24	  = 1.00037	 +/-  0.0899677	(limited)
gamma_stat_Compl_el_bin_25	  = 1.04532	 +/-  0.101564	(limited)
gamma_stat_Compl_el_bin_26	  = 0.969997	 +/-  0.0694952	(limited)
gamma_stat_Compl_el_bin_27	  = 0.942214	 +/-  0.0726486	(limited)
gamma_stat_Compl_el_bin_28	  = 1.12814	 +/-  0.108616	(limited)
gamma_stat_Compl_el_bin_29	  = 0.967516	 +/-  0.0753729	(limited)
gamma_stat_Compl_el_bin_3	  = 1.415	 +/-  0.241977	(limited)
gamma_stat_Compl_el_bin_30	  = 1.01397	 +/-  0.0766045	(limited)
gamma_stat_Compl_el_bin_4	  = 1.06351	 +/-  0.136938	(limited)
gamma_stat_Compl_el_bin_5	  = 1.14686	 +/-  0.110276	(limited)
gamma_stat_Compl_el_bin_6	  = 1.03014	 +/-  0.067542	(limited)
gamma_stat_Compl_el_bin_7	  = 1.08441	 +/-  0.0681863	(limited)
gamma_stat_Compl_el_bin_8	  = 1.04622	 +/-  0.0506675	(limited)
gamma_stat_Compl_el_bin_9	  = 1.00538	 +/-  0.0419938	(limited)
gamma_stat_Compl_mu_bin_0	  = 0.924753	 +/-  0.0902514	(limited)
gamma_stat_Compl_mu_bin_1	  = 0.987671	 +/-  0.0892909	(limited)
gamma_stat_Compl_mu_bin_17	  = 1.01595	 +/-  0.0513746	(limited)
gamma_stat_Compl_mu_bin_18	  = 1.00985	 +/-  0.0577119	(limited)
gamma_stat_Compl_mu_bin_19	  = 1.0128	 +/-  0.0653674	(limited)
gamma_stat_Compl_mu_bin_2	  = 1.14506	 +/-  0.137761	(limited)
gamma_stat_Compl_mu_bin_20	  = 1.05179	 +/-  0.0748715	(limited)
gamma_stat_Compl_mu_bin_21	  = 0.935395	 +/-  0.0989501	(limited)
gamma_stat_Compl_mu_bin_22	  = 1.01612	 +/-  0.0967355	(limited)
gamma_stat_Compl_mu_bin_23	  = 1.05697	 +/-  0.0860946	(limited)
gamma_stat_Compl_mu_bin_24	  = 1.01923	 +/-  0.0839368	(limited)
gamma_stat_Compl_mu_bin_25	  = 0.976756	 +/-  0.0825577	(limited)
gamma_stat_Compl_mu_bin_26	  = 1.00057	 +/-  0.0758801	(limited)
gamma_stat_Compl_mu_bin_27	  = 0.984844	 +/-  0.0827349	(limited)
gamma_stat_Compl_mu_bin_28	  = 1.02529	 +/-  0.0997426	(limited)
gamma_stat_Compl_mu_bin_29	  = 0.959247	 +/-  0.0821382	(limited)
gamma_stat_Compl_mu_bin_3	  = 1.04686	 +/-  0.12954	(limited)
gamma_stat_Compl_mu_bin_30	  = 1.03329	 +/-  0.0876221	(limited)
gamma_stat_Compl_mu_bin_4	  = 0.981039	 +/-  0.0770267	(limited)
gamma_stat_Compl_mu_bin_5	  = 1.03217	 +/-  0.0602532	(limited)
gamma_stat_Compl_mu_bin_6	  = 0.990134	 +/-  0.0438401	(limited)
gamma_stat_bTaggedDef_el_bin_0	  = 0.962232	 +/-  0.181374	(limited)
gamma_stat_bTaggedDef_el_bin_1	  = 1.03799	 +/-  0.134875	(limited)
gamma_stat_bTaggedDef_el_bin_2	  = 0.983966	 +/-  0.141202	(limited)
gamma_stat_bTaggedDef_el_bin_3	  = 1.0148	 +/-  0.139643	(limited)
gamma_stat_bTaggedDef_el_bin_4	  = 1.06671	 +/-  0.174807	(limited)
gamma_stat_bTaggedDef_el_bin_5	  = 1.12794	 +/-  0.167515	(limited)
gamma_stat_bTaggedDef_mu_bin_0	  = 1.08281	 +/-  0.139369	(limited)
gamma_stat_bTaggedDef_mu_bin_1	  = 1.06013	 +/-  0.0934733	(limited)
gamma_stat_bTaggedDef_mu_bin_2	  = 1.07169	 +/-  0.149298	(limited)
gamma_stat_bTaggedDef_mu_bin_3	  = 1.02925	 +/-  0.120035	(limited)
gamma_stat_bTaggedDef_mu_bin_4	  = 1.01883	 +/-  0.14329	(limited)
gamma_stat_bTaggedDef_mu_bin_5	  = 0.926474	 +/-  0.132609	(limited)
tauD_LH_BTAG_El	  = 167.229	 +/-  12.6779	(limited)
tauD_LH_BTAG_Mu	  = 2692.19	 +/-  51.8308	(limited)
tauD_LH_BVETO_El	  = 1718.27	 +/-  41.3966	(limited)
tauD_LH_BVETO_Mu	  = 20636.5	 +/-  144.266	(limited)
tauratio_LH_BTAG_El	  = 1.03154	 +/-  0.107952	(limited)
tauratio_LH_BTAG_Mu	  = 1.02552	 +/-  0.0277225	(limited)
tauratio_LH_BVETO_El	  = 1.05627	 +/-  0.0356145	(limited)
tauratio_LH_BVETO_Mu	  = 1.15611	 +/-  0.0110835	(limited)
Success!
[#1] INFO:Fitting -- RooAddition::defaultErrorLevel(nll_simPdf_asimovData_1_with_constr) Summation contains a RooNLLVar, using its error level
Minuit2Minimizer: Minimize with max-calls 55000 convergence for edm < 1 strategy 2
MnSeedGenerator: for initial parameters FCN = -355224
MnSeedGenerator: Initial state:   - FCN =  -355224.1173353 Edm =       9.7564 NCalls =    283
MnSeedGenerator: run Hesse - new state:   - FCN =  -355224.1173353 Edm =      10.3801 NCalls =   6837
VariableMetric: start iterating until Edm is < 0.001
VariableMetric: Initial state   - FCN =  -355224.1173353 Edm =      10.3801 NCalls =   6837
VariableMetric: Iteration #   1 - FCN =  -355233.3753459 Edm =     0.402106 NCalls =   7125
VariableMetric: Iteration #   2 - FCN =  -355233.5798039 Edm =    0.0294063 NCalls =   7361
VariableMetric: Iteration #   3 - FCN =  -355233.6052711 Edm =   0.00169705 NCalls =   7583
Info in <Minuit2>: VariableMetricBuilder: no improvement in line search
Info in <Minuit2>: VariableMetricBuilder: machine accuracy limits further improvement.
VariableMetric: After Hessian   - FCN =  -355233.6052711 Edm =    0.0167379 NCalls =  14328
Info in <Minuit2>: VariableMetricBuilder: Stop the minimization - reached machine accuracy limit
Info in <Minuit2>: Edm is smaller than machine accuracy : machineLimit = 0.0211736
Info in <Minuit2>: Current  Edm is : edm = 0.0167379
Info in <Minuit2>: Required Edm is : edmval = 0.001
Info in <Minuit2>: VariableMetricBuilder: Invalid function minimum - edm is above tolerance
EDM is above max tolerance 0.0167379  0.001
Info in <Minuit2>: Minuit2Minimizer::Minimize : Minimization did NOT converge, Edm is above max
Minuit2Minimizer : Invalid Minimum - status = 3
FVAL  = -355234
Edm   = 0.0167379
Nfcn  = 14328
Fit failed with status -1
Retrying with conditional snapshot at mu=1
[#0] ERROR:ObjectHandling -- RooWorkspace::loadSnapshot(combined) no snapshot with name conditionalNuis_0 is available
[#1] INFO:Fitting -- RooAddition::defaultErrorLevel(nll_simPdf_asimovData_1_with_constr) Summation contains a RooNLLVar, using its error level
Minuit2Minimizer: Minimize with max-calls 55000 convergence for edm < 1 strategy 2
MnSeedGenerator: for initial parameters FCN = -355234
MnSeedGenerator: Initial state:   - FCN =  -355233.6052711 Edm =   0.00174883 NCalls =    275
MnSeedGenerator: run Hesse - new state:   - FCN =  -355233.6052711 Edm =    0.0166532 NCalls =   7021
VariableMetric: start iterating until Edm is < 0.001
VariableMetric: Initial state   - FCN =  -355233.6052711 Edm =    0.0166532 NCalls =   7021
VariableMetric: Iteration #   1 - FCN =  -355233.6099612 Edm =     0.012565 NCalls =   7251
VariableMetric: Iteration #   2 - FCN =  -355233.6174402 Edm =    0.0106368 NCalls =   7485
Info in <Minuit2>: VariableMetricBuilder: no improvement in line search
Info in <Minuit2>: VariableMetricBuilder: machine accuracy limits further improvement.
VariableMetric: After Hessian   - FCN =  -355233.6174402 Edm =   0.00201544 NCalls =  14362
Info in <Minuit2>: VariableMetricBuilder: Stop the minimization - reached machine accuracy limit
Info in <Minuit2>: Edm is smaller than machine accuracy : machineLimit = 0.0211736
Info in <Minuit2>: Current  Edm is : edm = 0.00201544
Info in <Minuit2>: Required Edm is : edmval = 0.001
Minuit2Minimizer : Valid minimum - status = 0
FVAL  = -355233.617440249654
Edm   = 0.00201544357755702088
Nfcn  = 14362
Lumi	  = 1.00467	 +/-  0.0375519	(limited)
alpha_B_EFF	  = -0.000743071	 +/-  0.565165	(limited)
alpha_C_EFF	  = 0.0324274	 +/-  0.701543	(limited)
alpha_Cluster	  = 0.0844209	 +/-  0.660409	(limited)
alpha_E_EFF	  = 0.339113	 +/-  0.532317	(limited)
alpha_E_FAKE	  = -0.324686	 +/-  0.595313	(limited)
alpha_EmbIso	  = 0.166601	 +/-  0.767808	(limited)
alpha_EmbMfs	  = 0.82221	 +/-  0.27332	(limited)
alpha_JES	  = -0.409632	 +/-  0.18628	(limited)
alpha_L_EFF	  = 0.219049	 +/-  0.93596	(limited)
alpha_METPileUp	  = 0.0490051	 +/-  0.511419	(limited)
alpha_M_EFF	  = -0.00602947	 +/-  1.00796	(limited)
alpha_SF_QCD_BTAG_LH_El	  = 0.269565	 +/-  0.926836	(limited)
alpha_SF_QCD_BTAG_LH_Mu	  = 0.0300004	 +/-  0.969789	(limited)
alpha_SF_QCD_BVETO_LH_El	  = 0.0464281	 +/-  0.711559	(limited)
alpha_SF_QCD_BVETO_LH_Mu	  = -0.00971105	 +/-  0.943833	(limited)
alpha_T_EFF	  = -0.0742847	 +/-  0.944052	(limited)
alpha_XS_W	  = 0.245172	 +/-  0.90967	(limited)
alpha_XS_Z	  = -0.017135	 +/-  0.988003	(limited)
alpha_XS_bbA	  = -0.0857603	 +/-  1.00152	(limited)
alpha_XS_diboson	  = 0.0276893	 +/-  0.991959	(limited)
alpha_XS_ggF	  = -0.0801151	 +/-  0.990757	(limited)
alpha_XS_singletop	  = 0.0446058	 +/-  0.988176	(limited)
alpha_XS_top	  = 0.248143	 +/-  0.9692	(limited)
alpha_q2_DibosonLH	  = 0.00809294	 +/-  0.992359	(limited)
alpha_q2_WLH	  = 0.121522	 +/-  0.946965	(limited)
alpha_q2_ZLH	  = -0.329572	 +/-  0.575887	(limited)
alpha_q2_bbA_BTAG_LH	  = 0.0136391	 +/-  0.970395	(limited)
alpha_q2_bbA_BVETO_LH	  = -0.00673216	 +/-  0.995019	(limited)
alpha_q2_ggF_BTAG_LH	  = 0.00438401	 +/-  1.09035	(limited)
alpha_q2_ggF_BVETO_LH	  = -0.0322038	 +/-  1.12646	(limited)
alpha_q2_singletopLH	  = 0.00731295	 +/-  0.994336	(limited)
gamma_stat_BTAG_regionB_El_bin_0	  = 0.991072	 +/-  0.753223	(limited)
gamma_stat_BTAG_regionB_Mu_bin_0	  = 1.00001	 +/-  0.235763	(limited)
gamma_stat_BTAG_regionD_El_bin_0	  = 1.0005	 +/-  0.44263	(limited)
gamma_stat_BTAG_regionD_Mu_bin_0	  = 1.00008	 +/-  0.239143	(limited)
gamma_stat_BVETO_regionB_El_bin_0	  = 0.999915	 +/-  0.195903	(limited)
gamma_stat_BVETO_regionD_El_bin_0	  = 1.00012	 +/-  0.264802	(limited)
gamma_stat_BVETO_regionD_Mu_bin_0	  = 1.00001	 +/-  0.0598795	(limited)
gamma_stat_Compl_el_bin_0	  = 0.957781	 +/-  0.0937238	(limited)
gamma_stat_Compl_el_bin_1	  = 1.13596	 +/-  0.106298	(limited)
gamma_stat_Compl_el_bin_10	  = 0.98317	 +/-  0.0376699	(limited)
gamma_stat_Compl_el_bin_11	  = 1.00804	 +/-  0.03881	(limited)
gamma_stat_Compl_el_bin_13	  = 0.992561	 +/-  0.0407789	(limited)
gamma_stat_Compl_el_bin_14	  = 1.00042	 +/-  0.040708	(limited)
gamma_stat_Compl_el_bin_15	  = 0.999207	 +/-  0.0479188	(limited)
gamma_stat_Compl_el_bin_16	  = 1.00665	 +/-  0.0509753	(limited)
gamma_stat_Compl_el_bin_17	  = 0.9685	 +/-  0.0555164	(limited)
gamma_stat_Compl_el_bin_18	  = 0.937393	 +/-  0.0564626	(limited)
gamma_stat_Compl_el_bin_19	  = 1.00999	 +/-  0.0761671	(limited)
gamma_stat_Compl_el_bin_2	  = 0.933502	 +/-  0.0928702	(limited)
gamma_stat_Compl_el_bin_20	  = 0.981155	 +/-  0.0748524	(limited)
gamma_stat_Compl_el_bin_21	  = 1.02486	 +/-  0.087284	(limited)
gamma_stat_Compl_el_bin_22	  = 0.999603	 +/-  0.0957598	(limited)
gamma_stat_Compl_el_bin_23	  = 0.9601	 +/-  0.0688293	(limited)
gamma_stat_Compl_el_bin_24	  = 0.986765	 +/-  0.0918316	(limited)
gamma_stat_Compl_el_bin_25	  = 1.03218	 +/-  0.101846	(limited)
gamma_stat_Compl_el_bin_26	  = 0.974404	 +/-  0.0700565	(limited)
gamma_stat_Compl_el_bin_27	  = 0.955829	 +/-  0.0736411	(limited)
gamma_stat_Compl_el_bin_28	  = 1.13628	 +/-  0.109382	(limited)
gamma_stat_Compl_el_bin_29	  = 0.978641	 +/-  0.0757925	(limited)
gamma_stat_Compl_el_bin_3	  = 1.47336	 +/-  0.2513	(limited)
gamma_stat_Compl_el_bin_30	  = 1.02822	 +/-  0.0775275	(limited)
gamma_stat_Compl_el_bin_4	  = 1.07199	 +/-  0.13764	(limited)
gamma_stat_Compl_el_bin_5	  = 1.15138	 +/-  0.11076	(limited)
gamma_stat_Compl_el_bin_6	  = 1.03656	 +/-  0.0673797	(limited)
gamma_stat_Compl_el_bin_7	  = 1.08631	 +/-  0.0683053	(limited)
gamma_stat_Compl_el_bin_8	  = 1.04116	 +/-  0.0503669	(limited)
gamma_stat_Compl_el_bin_9	  = 1.0083	 +/-  0.0421477	(limited)
gamma_stat_Compl_mu_bin_0	  = 0.936492	 +/-  0.0909776	(limited)
gamma_stat_Compl_mu_bin_1	  = 1.00265	 +/-  0.0888349	(limited)
gamma_stat_Compl_mu_bin_17	  = 1.01093	 +/-  0.0518988	(limited)
gamma_stat_Compl_mu_bin_18	  = 0.995717	 +/-  0.0582571	(limited)
gamma_stat_Compl_mu_bin_19	  = 0.992795	 +/-  0.0660409	(limited)
gamma_stat_Compl_mu_bin_2	  = 1.15874	 +/-  0.139071	(limited)
gamma_stat_Compl_mu_bin_20	  = 1.02569	 +/-  0.0757448	(limited)
gamma_stat_Compl_mu_bin_21	  = 0.91031	 +/-  0.101419	(limited)
gamma_stat_Compl_mu_bin_22	  = 0.993788	 +/-  0.0984257	(limited)
gamma_stat_Compl_mu_bin_23	  = 1.02044	 +/-  0.0867432	(limited)
gamma_stat_Compl_mu_bin_24	  = 1.00403	 +/-  0.0848044	(limited)
gamma_stat_Compl_mu_bin_25	  = 0.972284	 +/-  0.0837562	(limited)
gamma_stat_Compl_mu_bin_26	  = 0.999635	 +/-  0.0765488	(limited)
gamma_stat_Compl_mu_bin_27	  = 0.995785	 +/-  0.0836927	(limited)
gamma_stat_Compl_mu_bin_28	  = 1.0339	 +/-  0.100573	(limited)
gamma_stat_Compl_mu_bin_29	  = 0.971579	 +/-  0.083166	(limited)
gamma_stat_Compl_mu_bin_3	  = 1.06762	 +/-  0.131776	(limited)
gamma_stat_Compl_mu_bin_30	  = 1.04322	 +/-  0.088397	(limited)
gamma_stat_Compl_mu_bin_4	  = 0.982523	 +/-  0.0767125	(limited)
gamma_stat_Compl_mu_bin_5	  = 1.03822	 +/-  0.0605443	(limited)
gamma_stat_Compl_mu_bin_6	  = 0.988328	 +/-  0.0436152	(limited)
gamma_stat_bTaggedDef_el_bin_0	  = 0.975421	 +/-  0.183357	(limited)
gamma_stat_bTaggedDef_el_bin_1	  = 1.04069	 +/-  0.136315	(limited)
gamma_stat_bTaggedDef_el_bin_2	  = 0.979124	 +/-  0.141873	(limited)
gamma_stat_bTaggedDef_el_bin_3	  = 1.00739	 +/-  0.141324	(limited)
gamma_stat_bTaggedDef_el_bin_4	  = 1.03177	 +/-  0.176908	(limited)
gamma_stat_bTaggedDef_el_bin_5	  = 1.12812	 +/-  0.169153	(limited)
gamma_stat_bTaggedDef_mu_bin_0	  = 1.07867	 +/-  0.139094	(limited)
gamma_stat_bTaggedDef_mu_bin_1	  = 1.05889	 +/-  0.0940011	(limited)
gamma_stat_bTaggedDef_mu_bin_2	  = 1.0642	 +/-  0.15037	(limited)
gamma_stat_bTaggedDef_mu_bin_3	  = 1.00659	 +/-  0.121066	(limited)
gamma_stat_bTaggedDef_mu_bin_4	  = 0.975411	 +/-  0.144342	(limited)
gamma_stat_bTaggedDef_mu_bin_5	  = 0.920146	 +/-  0.133527	(limited)
tauD_LH_BTAG_El	  = 167.559	 +/-  12.6926	(limited)
tauD_LH_BTAG_Mu	  = 2693.19	 +/-  51.8394	(limited)
tauD_LH_BVETO_El	  = 1717.08	 +/-  41.2932	(limited)
tauD_LH_BVETO_Mu	  = 20637.1	 +/-  144.234	(limited)
tauratio_LH_BTAG_El	  = 1.02747	 +/-  0.107572	(limited)
tauratio_LH_BTAG_Mu	  = 1.02468	 +/-  0.0276998	(limited)
tauratio_LH_BVETO_El	  = 1.05774	 +/-  0.0355082	(limited)
tauratio_LH_BVETO_Mu	  = 1.15617	 +/-  0.0110823	(limited)
Success!
[#0] ERROR:ObjectHandling -- RooWorkspace::loadSnapshot(combined) no snapshot with name conditionalNuis_0 is available
[#1] INFO:Fitting -- RooAddition::defaultErrorLevel(nll_simPdf_obsData_with_constr) Summation contains a RooNLLVar, using its error level
Minuit2Minimizer: Minimize with max-calls 55000 convergence for edm < 1 strategy 2
MnSeedGenerator: for initial parameters FCN = -355118
MnSeedGenerator: Initial state:   - FCN =  -355118.3103374 Edm =      26.2572 NCalls =    305
MnSeedGenerator: run Hesse - new state:   - FCN =  -355118.3103374 Edm =      12.3159 NCalls =   6811
VariableMetric: start iterating until Edm is < 0.001
VariableMetric: Initial state   - FCN =  -355118.3103374 Edm =      12.3159 NCalls =   6811
VariableMetric: Iteration #   1 - FCN =  -355130.8812554 Edm =     0.201853 NCalls =   7096
VariableMetric: Iteration #   2 - FCN =   -355131.042891 Edm =    0.0355902 NCalls =   7321
VariableMetric: Iteration #   3 - FCN =  -355131.0637042 Edm =   0.00540786 NCalls =   7543
VariableMetric: Iteration #   4 - FCN =  -355131.0649385 Edm =   0.00253485 NCalls =   7765
VariableMetric: Iteration #   5 - FCN =  -355131.0649446 Edm =    0.0037113 NCalls =   7990
Info in <Minuit2>: VariableMetricBuilder: no improvement in line search
Info in <Minuit2>: VariableMetricBuilder: machine accuracy limits further improvement.
VariableMetric: After Hessian   - FCN =  -355131.0649446 Edm =    0.0242558 NCalls =  14687
Info in <Minuit2>: VariableMetricBuilder: Tolerance is not sufficient, continue the minimization
Info in <Minuit2>: Current  Edm is : edm = 0.0242558
Info in <Minuit2>: Required Edm is : edmval = 0.001
VariableMetric: Iteration #   8 - FCN =  -355131.0711229 Edm =   0.00621531 NCalls =  14917
VariableMetric: Iteration #   9 - FCN =  -355131.0711604 Edm =   0.00648049 NCalls =  15143
Info in <Minuit2>: VariableMetricBuilder: no improvement in line search
Info in <Minuit2>: VariableMetricBuilder: machine accuracy limits further improvement.
VariableMetric: After Hessian   - FCN =  -355131.0711604 Edm =    0.0205644 NCalls =  21948
Info in <Minuit2>: VariableMetricBuilder: Stop the minimization - reached machine accuracy limit
Info in <Minuit2>: Edm is smaller than machine accuracy : machineLimit = 0.0211675
Info in <Minuit2>: Current  Edm is : edm = 0.0205644
Info in <Minuit2>: Required Edm is : edmval = 0.001
Info in <Minuit2>: VariableMetricBuilder: Invalid function minimum - edm is above tolerance
EDM is above max tolerance 0.0205644  0.001
Info in <Minuit2>: Minuit2Minimizer::Minimize : Minimization did NOT converge, Edm is above max
Minuit2Minimizer : Invalid Minimum - status = 3
FVAL  = -355131
Edm   = 0.0205644
Nfcn  = 21948
Fit failed with status -1
Retrying with conditional snapshot at mu=1
[#0] ERROR:ObjectHandling -- RooWorkspace::loadSnapshot(combined) no snapshot with name conditionalNuis_0 is available
[#1] INFO:Fitting -- RooAddition::defaultErrorLevel(nll_simPdf_obsData_with_constr) Summation contains a RooNLLVar, using its error level
Minuit2Minimizer: Minimize with max-calls 55000 convergence for edm < 1 strategy 2
MnSeedGenerator: for initial parameters FCN = -355131
MnSeedGenerator: Initial state:   - FCN =  -355131.0711604 Edm =    0.0064017 NCalls =    277
MnSeedGenerator: run Hesse - new state:   - FCN =  -355131.0711604 Edm =    0.0209246 NCalls =   7079
VariableMetric: start iterating until Edm is < 0.001
VariableMetric: Initial state   - FCN =  -355131.0711604 Edm =    0.0209246 NCalls =   7079
VariableMetric: Iteration #   1 - FCN =  -355131.0784841 Edm =   0.00470624 NCalls =   7316
Info in <Minuit2>: VariableMetricBuilder: no improvement in line search
Info in <Minuit2>: VariableMetricBuilder: machine accuracy limits further improvement.
VariableMetric: After Hessian   - FCN =  -355131.0784841 Edm =    0.0127524 NCalls =  13821
Info in <Minuit2>: VariableMetricBuilder: Stop the minimization - reached machine accuracy limit
Info in <Minuit2>: Edm is smaller than machine accuracy : machineLimit = 0.0211675
Info in <Minuit2>: Current  Edm is : edm = 0.0127524
Info in <Minuit2>: Required Edm is : edmval = 0.001
Info in <Minuit2>: VariableMetricBuilder: Invalid function minimum - edm is above tolerance
EDM is above max tolerance 0.0127524  0.001
Info in <Minuit2>: Minuit2Minimizer::Minimize : Minimization did NOT converge, Edm is above max
Minuit2Minimizer : Invalid Minimum - status = 3
FVAL  = -355131
Edm   = 0.0127524
Nfcn  = 13821
Fit failed with status -1
[#1] INFO:Fitting -- RooAddition::defaultErrorLevel(nll_simPdf_obsData_with_constr) Summation contains a RooNLLVar, using its error level
Minuit2Minimizer: Minimize with max-calls 55500 convergence for edm < 1 strategy 2
MnSeedGenerator: for initial parameters FCN = -355131
[#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status.
Returning maximum FCN so far (-354861) to force MIGRAD to back out of this region. Error log follows
Parameter values: Lumi=1.01206, SigXsecOverSM=-8.27659, alpha_B_EFF=0.0034176, alpha_C_EFF=0.0355464, alpha_Cluster=0.116844, alpha_E_EFF=0.132908, alpha_E_FAKE=-0.242324, alpha_EmbIso=0.122077, alpha_EmbMfs=0.683662, alpha_JES=-0.254747, alpha_L_EFF=0.509, alpha_METPileUp=0.0663515, alpha_M_EFF=0.077245, alpha_SF_QCD_BTAG_LH_El=0.502619, alpha_SF_QCD_BTAG_LH_Mu=0.0829003, alpha_SF_QCD_BVETO_LH_El=-0.262417, alpha_SF_QCD_BVETO_LH_Mu=-0.00187603, alpha_T_EFF=-0.0449447, alpha_XS_W=0.383234, alpha_XS_Z=0.0584327, alpha_XS_bbA=0.000111075, alpha_XS_diboson=0.0411908, alpha_XS_ggF=0.000103968, alpha_XS_singletop=0.0916934, alpha_XS_top=0.425583, alpha_q2_DibosonLH=0.0119495, alpha_q2_WLH=0.259526, alpha_q2_ZLH=-0.401958, alpha_q2_bbA_BTAG_LH=-1.7853e-05, alpha_q2_bbA_BVETO_LH=8.79545e-06, alpha_q2_ggF_BTAG_LH=-5.6794e-06, alpha_q2_ggF_BVETO_LH=4.20283e-05, alpha_q2_singletopLH=0.0145614, gamma_stat_BTAG_regionB_El_bin_0=0.990153, gamma_stat_BTAG_regionB_Mu_bin_0=1.00051, gamma_stat_BTAG_regionD_El_bin_0=1.00272, gamma_stat_BTAG_regionD_Mu_bin_0=1.00072, gamma_stat_BVETO_regionB_El_bin_0=1.00142, gamma_stat_BVETO_regionD_El_bin_0=1.0007, gamma_stat_BVETO_regionD_Mu_bin_0=1.00017, gamma_stat_Compl_el_bin_0=0.919376, gamma_stat_Compl_el_bin_1=1.22974, gamma_stat_Compl_el_bin_10=0.986233, gamma_stat_Compl_el_bin_11=1.0256, gamma_stat_Compl_el_bin_13=0.983645, gamma_stat_Compl_el_bin_14=1.01069, gamma_stat_Compl_el_bin_15=1.00637, gamma_stat_Compl_el_bin_16=1.02637, gamma_stat_Compl_el_bin_17=0.935336, gamma_stat_Compl_el_bin_18=0.887876, gamma_stat_Compl_el_bin_19=1.01598, gamma_stat_Compl_el_bin_2=0.866086, gamma_stat_Compl_el_bin_20=0.988537, gamma_stat_Compl_el_bin_21=1.07351, gamma_stat_Compl_el_bin_22=1.0286, gamma_stat_Compl_el_bin_23=0.948676, gamma_stat_Compl_el_bin_24=0.994187, gamma_stat_Compl_el_bin_25=1.08031, gamma_stat_Compl_el_bin_26=0.956492, gamma_stat_Compl_el_bin_27=0.905371, gamma_stat_Compl_el_bin_28=1.25316, gamma_stat_Compl_el_bin_29=0.951113, gamma_stat_Compl_el_bin_3=1.63539, gamma_stat_Compl_el_bin_30=1.04023, gamma_stat_Compl_el_bin_4=1.1275, gamma_stat_Compl_el_bin_5=1.28474, gamma_stat_Compl_el_bin_6=1.086, gamma_stat_Compl_el_bin_7=1.18105, gamma_stat_Compl_el_bin_8=1.09956, gamma_stat_Compl_el_bin_9=1.03374, gamma_stat_Compl_mu_bin_0=0.877663, gamma_stat_Compl_mu_bin_1=0.99017, gamma_stat_Compl_mu_bin_17=1.02145, gamma_stat_Compl_mu_bin_18=1.00187, gamma_stat_Compl_mu_bin_19=0.995534, gamma_stat_Compl_mu_bin_2=1.28762, gamma_stat_Compl_mu_bin_20=1.0912, gamma_stat_Compl_mu_bin_21=0.852516, gamma_stat_Compl_mu_bin_22=1.00815, gamma_stat_Compl_mu_bin_23=1.07298, gamma_stat_Compl_mu_bin_24=1.0173, gamma_stat_Compl_mu_bin_25=0.940956, gamma_stat_Compl_mu_bin_26=0.996817, gamma_stat_Compl_mu_bin_27=0.976622, gamma_stat_Compl_mu_bin_28=1.05659, gamma_stat_Compl_mu_bin_29=0.9209, gamma_stat_Compl_mu_bin_3=1.10397, gamma_stat_Compl_mu_bin_30=1.06624, gamma_stat_Compl_mu_bin_4=0.977815, gamma_stat_Compl_mu_bin_5=1.07675, gamma_stat_Compl_mu_bin_6=0.983107, gamma_stat_bTaggedDef_el_bin_0=0.93526, gamma_stat_bTaggedDef_el_bin_1=1.06869, gamma_stat_bTaggedDef_el_bin_2=0.953392, gamma_stat_bTaggedDef_el_bin_3=1.01257, gamma_stat_bTaggedDef_el_bin_4=1.09203, gamma_stat_bTaggedDef_el_bin_5=1.24604, gamma_stat_bTaggedDef_mu_bin_0=1.15635, gamma_stat_bTaggedDef_mu_bin_1=1.15131, gamma_stat_bTaggedDef_mu_bin_2=1.13303, gamma_stat_bTaggedDef_mu_bin_3=1.03155, gamma_stat_bTaggedDef_mu_bin_4=0.967699, gamma_stat_bTaggedDef_mu_bin_5=0.803416, tauD_LH_BTAG_El=169.243, tauD_LH_BTAG_Mu=2692.68, tauD_LH_BVETO_El=1718.55, tauD_LH_BVETO_Mu=20634.2, tauratio_LH_BTAG_El=1.00733, tauratio_LH_BTAG_Mu=1.02511, tauratio_LH_BVETO_El=1.05603, tauratio_LH_BVETO_Mu=1.15625
RooProdPdf::model_bTaggedDef_mu[ lumiConstraint * alpha_B_EFFConstraint * alpha_ClusterConstraint * alpha_JESConstraint * alpha_METPileUpConstraint * alpha_M_EFFConstraint * alpha_T_EFFConstraint * alpha_XS_bbAConstraint * alpha_q2_bbA_BTAG_LHConstraint * alpha_C_EFFConstraint * alpha_XS_ggFConstraint * alpha_q2_ggF_BTAG_LHConstraint * alpha_L_EFFConstraint * alpha_EmbIsoConstraint * alpha_EmbMfsConstraint * alpha_XS_ZConstraint * alpha_q2_ZLHConstraint * alpha_q2_WLHConstraint * alpha_SF_QCD_BTAG_LH_MuConstraint * alpha_XS_topConstraint * alpha_XS_singletopConstraint * alpha_q2_singletopLHConstraint * alpha_XS_dibosonConstraint * alpha_q2_DibosonLHConstraint * gamma_stat_bTaggedDef_mu_bin_0_constraint * gamma_stat_bTaggedDef_mu_bin_1_constraint * gamma_stat_bTaggedDef_mu_bin_2_constraint * gamma_stat_bTaggedDef_mu_bin_3_constraint * gamma_stat_bTaggedDef_mu_bin_4_constraint * gamma_stat_bTaggedDef_mu_bin_5_constraint * bTaggedDef_mu_model(obs_x_bTaggedDef_mu) ]
     getLogVal() top-level p.d.f evaluates to zero @ !pdfs=(lumiConstraint = 0.953285,alpha_B_EFFConstraint = 0.999994,alpha_ClusterConstraint = 0.993197,alpha_JESConstraint = 0.968073,alpha_METPileUpConstraint = 0.997801,alpha_M_EFFConstraint = 0.997021,alpha_T_EFFConstraint = 0.99899,alpha_XS_bbAConstraint = 1,alpha_q2_bbA_BTAG_LHConstraint = 1,alpha_C_EFFConstraint = 0.999368,alpha_XS_ggFConstraint = 1,alpha_q2_ggF_BTAG_LHConstraint = 1,alpha_L_EFFConstraint = 0.878499,alpha_EmbIsoConstraint = 0.992576,alpha_EmbMfsConstraint = 0.791602,alpha_XS_ZConstraint = 0.998294,alpha_q2_ZLHConstraint = 0.922392,alpha_q2_WLHConstraint = 0.966884,alpha_SF_QCD_BTAG_LH_MuConstraint = 0.99657,alpha_XS_topConstraint = 0.913419,alpha_XS_singletopConstraint = 0.995805,alpha_q2_singletopLHConstraint = 0.999894,alpha_XS_dibosonConstraint = 0.999152,alpha_q2_DibosonLHConstraint = 0.999929,gamma_stat_bTaggedDef_mu_bin_0_constraint = 0.0527901,gamma_stat_bTaggedDef_mu_bin_1_constraint = 0.0206506,gamma_stat_bTaggedDef_mu_bin_2_constraint = 0.0642486,gamma_stat_bTaggedDef_mu_bin...
RooRealSumPdf::bTaggedDef_mu_model[ binWidth_obs_x_bTaggedDef_mu_0 * L_x_ATLAS_Sig_HiggsbbAlh130_bTaggedDef_mu_overallSyst_x_HistSyst + binWidth_obs_x_bTaggedDef_mu_1 * L_x_ATLAS_Sig_HiggsbbAlh140_bTaggedDef_mu_overallSyst_x_HistSyst + binWidth_obs_x_bTaggedDef_mu_2 * L_x_ATLAS_Sig_HiggsbbAlh120_bTaggedDef_mu_overallSyst_x_HistSyst + binWidth_obs_x_bTaggedDef_mu_3 * L_x_ATLAS_Sig_HiggsggAlh130_bTaggedDef_mu_overallSyst_x_HistSyst + binWidth_obs_x_bTaggedDef_mu_4 * L_x_ATLAS_Sig_HiggsggAlh140_bTaggedDef_mu_overallSyst_x_HistSyst + binWidth_obs_x_bTaggedDef_mu_5 * L_x_ATLAS_Sig_HiggsggAlh120_bTaggedDef_mu_overallSyst_x_HistSyst + binWidth_obs_x_bTaggedDef_mu_6 * L_x_ATLAS_Bkg_Ztau_bTaggedDef_mu_overallSyst_x_StatUncert + binWidth_obs_x_bTaggedDef_mu_7 * L_x_ATLAS_Bkg_W_bTaggedDef_mu_overallSyst_x_StatUncert + binWidth_obs_x_bTaggedDef_mu_8 * L_x_ATLAS_Bkg_Zjets_bTaggedDef_mu_overallSyst_x_StatUncert + binWidth_obs_x_bTaggedDef_mu_9 * L_x_ATLAS_Bkg_QCDLH_bTaggedDef_mu_overallSyst_x_StatUncert + binWidth_obs_x_bTaggedDef_mu_10 * L_x_ATLAS_Bkg_top_bTaggedDef_mu_overallSyst_x_StatUncert + binWidth_obs_x_bTaggedDef_mu_11 * L_x_ATLAS_Bkg_singletop_bTaggedDef_mu_overallSyst_x_StatUncert + binWidth_obs_x_bTaggedDef_mu_12 * L_x_ATLAS_Bkg_diboson_bTaggedDef_mu_overallSyst_x_StatUncert ]
     p.d.f value is less than zero (-2.689557), forcing value to zero @ !funcList=(L_x_ATLAS_Sig_HiggsbbAlh130_bTaggedDef_mu_overallSyst_x_HistSyst = -13.3038,L_x_ATLAS_Sig_HiggsbbAlh140_bTaggedDef_mu_overallSyst_x_HistSyst = -2.97989,L_x_ATLAS_Sig_HiggsbbAlh120_bTaggedDef_mu_overallSyst_x_HistSyst = -6.31223,L_x_ATLAS_Sig_HiggsggAlh130_bTaggedDef_mu_overallSyst_x_HistSyst = -0.578746,L_x_ATLAS_Sig_HiggsggAlh140_bTaggedDef_mu_overallSyst_x_HistSyst = -0.845484,L_x_ATLAS_Sig_HiggsggAlh120_bTaggedDef_mu_overallSyst_x_HistSyst = -0.618837,L_x_ATLAS_Bkg_Ztau_bTaggedDef_mu_overallSyst_x_StatUncert = 5.32416,L_x_ATLAS_Bkg_W_bTaggedDef_mu_overallSyst_x_StatUncert = 3.24423,L_x_ATLAS_Bkg_Zjets_bTaggedDef_mu_overallSyst_x_StatUncert = 1.04969,L_x_ATLAS_Bkg_QCDLH_bTaggedDef_mu_overallSyst_x_StatUncert = 9.44402,L_x_ATLAS_Bkg_top_bTaggedDef_mu_overallSyst_x_StatUncert = 2.30468,L_x_ATLAS_Bkg_singletop_bTaggedDef_mu_overallSyst_x_StatUncert = 0.544907,L_x_ATLAS_Bkg_diboson_bTaggedDef_mu_overallSyst_x_StatUncert = 0.0377558), !coefList=(binWidth_obs_x_bTaggedDef_mu_0 = 1,binWidth_obs_x_bT...
     p.d.f value is less than zero (-2.689557), forcing value to zero @ !funcList=(L_x_ATLAS_Sig_HiggsbbAlh130_bTaggedDef_mu_overallSyst_x_HistSyst = -13.3038,L_x_ATLAS_Sig_HiggsbbAlh140_bTaggedDef_mu_overallSyst_x_HistSyst = -2.97989,L_x_ATLAS_Sig_HiggsbbAlh120_bTaggedDef_mu_overallSyst_x_HistSyst = -6.31223,L_x_ATLAS_Sig_HiggsggAlh130_bTaggedDef_mu_overallSyst_x_HistSyst = -0.578746,L_x_ATLAS_Sig_HiggsggAlh140_bTaggedDef_mu_overallSyst_x_HistSyst = -0.845484,L_x_ATLAS_Sig_HiggsggAlh120_bTaggedDef_mu_overallSyst_x_HistSyst = -0.618837,L_x_ATLAS_Bkg_Ztau_bTaggedDef_mu_overallSyst_x_StatUncert = 5.32416,L_x_ATLAS_Bkg_W_bTaggedDef_mu_overallSyst_x_StatUncert = 3.24423,L_x_ATLAS_Bkg_Zjets_bTaggedDef_mu_overallSyst_x_StatUncert = 1.04969,L_x_ATLAS_Bkg_QCDLH_bTaggedDef_mu_overallSyst_x_StatUncert = 9.44402,L_x_ATLAS_Bkg_top_bTaggedDef_mu_overallSyst_x_StatUncert = 2.30468,L_x_ATLAS_Bkg_singletop_bTaggedDef_mu_overallSyst_x_StatUncert = 0.544907,L_x_ATLAS_Bkg_diboson_bTaggedDef_mu_overallSyst_x_StatUncert = 0.0377558), !coefList=(binWidth_obs_x_bTaggedDef_mu_0 = 1,binWidth_obs_x_bT...

MnSeedGenerator: Initial state:   - FCN =  -355131.0784841 Edm =    0.0469119 NCalls =    289
MnSeedGenerator: run Hesse - new state:   - FCN =  -355131.0784841 Edm =     0.202538 NCalls =   7225
VariableMetric: start iterating until Edm is < 0.001
VariableMetric: Initial state   - FCN =  -355131.0784841 Edm =     0.202538 NCalls =   7225
VariableMetric: Iteration #   1 - FCN =  -355131.2488894 Edm =    0.0533077 NCalls =   7472
VariableMetric: Iteration #   2 - FCN =  -355131.2748414 Edm =   0.00924616 NCalls =   7721
VariableMetric: Iteration #   3 - FCN =  -355131.2757945 Edm =    0.0051714 NCalls =   7946
Info in <Minuit2>: VariableMetricBuilder: no improvement in line search
Info in <Minuit2>: VariableMetricBuilder: machine accuracy limits further improvement.
VariableMetric: After Hessian   - FCN =  -355131.2757945 Edm =   0.00661635 NCalls =  14905
Info in <Minuit2>: VariableMetricBuilder: Stop the minimization - reached machine accuracy limit
Info in <Minuit2>: Edm is smaller than machine accuracy : machineLimit = 0.0211675
Info in <Minuit2>: Current  Edm is : edm = 0.00661635
Info in <Minuit2>: Required Edm is : edmval = 0.001
Minuit2Minimizer : Valid minimum - status = 0
FVAL  = -355131.275794522662
Edm   = 0.00661634920499789333
Nfcn  = 14905
Lumi	  = 1.01346	 +/-  0.0378236	(limited)
SigXsecOverSM	  = -0.472893	 +/-  0.64916	(limited)
alpha_B_EFF	  = -0.000717118	 +/-  0.391239	(limited)
alpha_C_EFF	  = 0.070277	 +/-  0.567305	(limited)
alpha_Cluster	  = 0.170548	 +/-  0.887826	(limited)
alpha_E_EFF	  = 0.112479	 +/-  0.546695	(limited)
alpha_E_FAKE	  = -0.202105	 +/-  0.630747	(limited)
alpha_EmbIso	  = 0.129585	 +/-  0.717066	(limited)
alpha_EmbMfs	  = 0.658737	 +/-  0.272133	(limited)
alpha_JES	  = -0.194217	 +/-  0.2069	(limited)
alpha_L_EFF	  = 0.581807	 +/-  0.937374	(limited)
alpha_METPileUp	  = 0.110997	 +/-  0.637815	(limited)
alpha_M_EFF	  = 0.100571	 +/-  0.986663	(limited)
alpha_SF_QCD_BTAG_LH_El	  = 0.525682	 +/-  0.946981	(limited)
alpha_SF_QCD_BTAG_LH_Mu	  = 0.119768	 +/-  0.968888	(limited)
alpha_SF_QCD_BVETO_LH_El	  = -0.371167	 +/-  0.81631	(limited)
alpha_SF_QCD_BVETO_LH_Mu	  = 0.00151547	 +/-  0.95101	(limited)
alpha_T_EFF	  = -0.0603871	 +/-  0.928526	(limited)
alpha_XS_W	  = 0.400354	 +/-  0.921172	(limited)
alpha_XS_Z	  = 0.0806265	 +/-  0.915332	(limited)
alpha_XS_bbA	  = 0.00912367	 +/-  0.995425	(limited)
alpha_XS_diboson	  = 0.0397865	 +/-  0.992423	(limited)
alpha_XS_ggF	  = 0.0260057	 +/-  0.993544	(limited)
alpha_XS_singletop	  = 0.0979689	 +/-  0.987808	(limited)
alpha_XS_top	  = 0.449432	 +/-  1.00767	(limited)
alpha_q2_DibosonLH	  = 0.0115532	 +/-  0.99427	(limited)
alpha_q2_WLH	  = 0.295366	 +/-  0.970266	(limited)
alpha_q2_ZLH	  = -0.394723	 +/-  0.548281	(limited)
alpha_q2_bbA_BTAG_LH	  = -0.0273292	 +/-  1.01624	(limited)
alpha_q2_bbA_BVETO_LH	  = 0.00335442	 +/-  0.99429	(limited)
alpha_q2_ggF_BTAG_LH	  = -0.00164527	 +/-  0.989835	(limited)
alpha_q2_ggF_BVETO_LH	  = 0.00114325	 +/-  0.991239	(limited)
alpha_q2_singletopLH	  = 0.0154472	 +/-  0.994227	(limited)
gamma_stat_BTAG_regionB_El_bin_0	  = 0.98916	 +/-  0.751072	(limited)
gamma_stat_BTAG_regionB_Mu_bin_0	  = 1.00038	 +/-  0.235845	(limited)
gamma_stat_BTAG_regionD_El_bin_0	  = 1.00288	 +/-  0.443546	(limited)
gamma_stat_BTAG_regionD_Mu_bin_0	  = 1.00067	 +/-  0.239277	(limited)
gamma_stat_BVETO_regionB_El_bin_0	  = 1.0014	 +/-  0.196193	(limited)
gamma_stat_BVETO_regionD_El_bin_0	  = 1.00026	 +/-  0.26483	(limited)
gamma_stat_BVETO_regionD_Mu_bin_0	  = 1.00011	 +/-  0.0598889	(limited)
gamma_stat_Compl_el_bin_0	  = 0.915117	 +/-  0.0916464	(limited)
gamma_stat_Compl_el_bin_1	  = 1.22037	 +/-  0.111177	(limited)
gamma_stat_Compl_el_bin_10	  = 0.986061	 +/-  0.0377305	(limited)
gamma_stat_Compl_el_bin_11	  = 1.02331	 +/-  0.0391685	(limited)
gamma_stat_Compl_el_bin_13	  = 0.979794	 +/-  0.0404912	(limited)
gamma_stat_Compl_el_bin_14	  = 1.01006	 +/-  0.0406067	(limited)
gamma_stat_Compl_el_bin_15	  = 1.00629	 +/-  0.0475116	(limited)
gamma_stat_Compl_el_bin_16	  = 1.02845	 +/-  0.0507466	(limited)
gamma_stat_Compl_el_bin_17	  = 0.932949	 +/-  0.0532648	(limited)
gamma_stat_Compl_el_bin_18	  = 0.889839	 +/-  0.0543241	(limited)
gamma_stat_Compl_el_bin_19	  = 1.0121	 +/-  0.0742237	(limited)
gamma_stat_Compl_el_bin_2	  = 0.858298	 +/-  0.0889697	(limited)
gamma_stat_Compl_el_bin_20	  = 0.994404	 +/-  0.0741413	(limited)
gamma_stat_Compl_el_bin_21	  = 1.07729	 +/-  0.0874409	(limited)
gamma_stat_Compl_el_bin_22	  = 1.039	 +/-  0.094294	(limited)
gamma_stat_Compl_el_bin_23	  = 0.956902	 +/-  0.0677935	(limited)
gamma_stat_Compl_el_bin_24	  = 1.00092	 +/-  0.0892116	(limited)
gamma_stat_Compl_el_bin_25	  = 1.08695	 +/-  0.10374	(limited)
gamma_stat_Compl_el_bin_26	  = 0.954317	 +/-  0.0687949	(limited)
gamma_stat_Compl_el_bin_27	  = 0.898893	 +/-  0.0711527	(limited)
gamma_stat_Compl_el_bin_28	  = 1.24837	 +/-  0.114569	(limited)
gamma_stat_Compl_el_bin_29	  = 0.945601	 +/-  0.0747286	(limited)
gamma_stat_Compl_el_bin_3	  = 1.60184	 +/-  0.259139	(limited)
gamma_stat_Compl_el_bin_30	  = 1.03293	 +/-  0.0778393	(limited)
gamma_stat_Compl_el_bin_4	  = 1.12252	 +/-  0.140962	(limited)
gamma_stat_Compl_el_bin_5	  = 1.28221	 +/-  0.117099	(limited)
gamma_stat_Compl_el_bin_6	  = 1.08299	 +/-  0.0697199	(limited)
gamma_stat_Compl_el_bin_7	  = 1.18081	 +/-  0.0717555	(limited)
gamma_stat_Compl_el_bin_8	  = 1.10199	 +/-  0.0524178	(limited)
gamma_stat_Compl_el_bin_9	  = 1.03234	 +/-  0.0427446	(limited)
gamma_stat_Compl_mu_bin_0	  = 0.871596	 +/-  0.0874411	(limited)
gamma_stat_Compl_mu_bin_1	  = 0.982127	 +/-  0.0894519	(limited)
gamma_stat_Compl_mu_bin_17	  = 1.02368	 +/-  0.0511427	(limited)
gamma_stat_Compl_mu_bin_18	  = 1.00856	 +/-  0.0578441	(limited)
gamma_stat_Compl_mu_bin_19	  = 1.00536	 +/-  0.0657426	(limited)
gamma_stat_Compl_mu_bin_2	  = 1.27923	 +/-  0.145553	(limited)
gamma_stat_Compl_mu_bin_20	  = 1.10527	 +/-  0.0780609	(limited)
gamma_stat_Compl_mu_bin_21	  = 0.86408	 +/-  0.0936736	(limited)
gamma_stat_Compl_mu_bin_22	  = 1.01961	 +/-  0.0966045	(limited)
gamma_stat_Compl_mu_bin_23	  = 1.09206	 +/-  0.0901635	(limited)
gamma_stat_Compl_mu_bin_24	  = 1.02456	 +/-  0.0837707	(limited)
gamma_stat_Compl_mu_bin_25	  = 0.943093	 +/-  0.0802926	(limited)
gamma_stat_Compl_mu_bin_26	  = 0.997232	 +/-  0.0753068	(limited)
gamma_stat_Compl_mu_bin_27	  = 0.971261	 +/-  0.0821427	(limited)
gamma_stat_Compl_mu_bin_28	  = 1.05171	 +/-  0.100958	(limited)
gamma_stat_Compl_mu_bin_29	  = 0.914789	 +/-  0.0801924	(limited)
gamma_stat_Compl_mu_bin_3	  = 1.09265	 +/-  0.132593	(limited)
gamma_stat_Compl_mu_bin_30	  = 1.06078	 +/-  0.0887919	(limited)
gamma_stat_Compl_mu_bin_4	  = 0.976734	 +/-  0.0771035	(limited)
gamma_stat_Compl_mu_bin_5	  = 1.07333	 +/-  0.0616163	(limited)
gamma_stat_Compl_mu_bin_6	  = 0.983695	 +/-  0.0437829	(limited)
gamma_stat_bTaggedDef_el_bin_0	  = 0.931515	 +/-  0.175954	(limited)
gamma_stat_bTaggedDef_el_bin_1	  = 1.06642	 +/-  0.135354	(limited)
gamma_stat_bTaggedDef_el_bin_2	  = 0.954526	 +/-  0.137848	(limited)
gamma_stat_bTaggedDef_el_bin_3	  = 1.01622	 +/-  0.138146	(limited)
gamma_stat_bTaggedDef_el_bin_4	  = 1.10989	 +/-  0.177435	(limited)
gamma_stat_bTaggedDef_el_bin_5	  = 1.24542	 +/-  0.17517	(limited)
gamma_stat_bTaggedDef_mu_bin_0	  = 1.15765	 +/-  0.14404	(limited)
gamma_stat_bTaggedDef_mu_bin_1	  = 1.15165	 +/-  0.0970714	(limited)
gamma_stat_bTaggedDef_mu_bin_2	  = 1.13692	 +/-  0.152804	(limited)
gamma_stat_bTaggedDef_mu_bin_3	  = 1.04222	 +/-  0.120246	(limited)
gamma_stat_bTaggedDef_mu_bin_4	  = 0.988811	 +/-  0.141415	(limited)
gamma_stat_bTaggedDef_mu_bin_5	  = 0.804904	 +/-  0.122158	(limited)
tauD_LH_BTAG_El	  = 169.06	 +/-  12.7773	(limited)
tauD_LH_BTAG_Mu	  = 2692.17	 +/-  51.8404	(limited)
tauD_LH_BVETO_El	  = 1719.02	 +/-  41.4207	(limited)
tauD_LH_BVETO_Mu	  = 20633.8	 +/-  144.304	(limited)
tauratio_LH_BTAG_El	  = 1.00948	 +/-  0.106062	(limited)
tauratio_LH_BTAG_Mu	  = 1.02554	 +/-  0.0277336	(limited)
tauratio_LH_BVETO_El	  = 1.05541	 +/-  0.0355988	(limited)
tauratio_LH_BVETO_Mu	  = 1.15621	 +/-  0.0110766	(limited)
mA130tb10 obs: -0.628188
mA130tb10 Median test stat val: -0.0815221
mA130tb10 med:   -0.285521
Real time 0:02:59, CP time 179.840
