root [2] test_toy(()  RooFit v3.60 -- Developed by Wouter Verkerke and David Kirkby Copyright (C) 2000-2013 NIKHEF, University of California & Stanford University All rights reserved, please read http://roofit.sourceforge.net/license.txt [#1] INFO:NumericIntegration -- RooRealIntegral::init(bkg_sys_Int[e]) using numeric integrator RooBinIntegrator to calculate Int(e) [#1] INFO:NumericIntegration -- RooRealIntegral::init(bkg_sys_Int[e]) using numeric integrator RooBinIntegrator to calculate Int(e) [#1] INFO:Plotting -- RooAbsPdf::plotOn(model) directly selected PDF components: (sgn1) [#1] INFO:Plotting -- RooAbsPdf::plotOn(model) indirectly selected PDF components: (sb) [#1] INFO:NumericIntegration -- RooRealIntegral::init(bkg_sys_Int[e]) using numeric integrator RooBinIntegrator to calculate Int(e) [#1] INFO:Plotting -- RooAbsPdf::plotOn(model) directly selected PDF components: (sgn2) [#1] INFO:Plotting -- RooAbsPdf::plotOn(model) indirectly selected PDF components: (sb) [#1] INFO:NumericIntegration -- RooRealIntegral::init(bkg_sys_Int[e]) using numeric integrator RooBinIntegrator to calculate Int(e) [#1] INFO:Plotting -- RooAbsPdf::plotOn(model) directly selected PDF components: (bkg_sys) [#1] INFO:Plotting -- RooAbsPdf::plotOn(model) indirectly selected PDF components: (bkg_0,bkg_m,bkg_p,sb) [#1] INFO:NumericIntegration -- RooRealIntegral::init(bkg_sys_Int[e]) using numeric integrator RooBinIntegrator to calculate Int(e) [#0] WARNING:Plotting -- At observable [x]=95 RooRealSumPdf::sb[ f1 * sgn1 + f2 * sgn2 + [%] * bkg_sys ] p.d.f value is less than zero (-0.000011), forcing value to zero @ !funcList=(sgn1 = 0,sgn2 = 0.00092,bkg_sys = -2.86665e-05), !coefList=(f1 = 0.4,f2 = 0.2) [#0] WARNING:Plotting -- At observable [x]=100 RooRealSumPdf::sb[ f1 * sgn1 + f2 * sgn2 + [%] * bkg_sys ] p.d.f value is less than zero (-0.000011), forcing value to zero @ !funcList=(sgn1 = 0,sgn2 = 0.00092,bkg_sys = -2.86665e-05), !coefList=(f1 = 0.4,f2 = 0.2) [#0] WARNING:Plotting -- At observable [x]=95 RooRealSumPdf::sb[ f1 * sgn1 + f2 * sgn2 + [%] * bkg_sys ] p.d.f value is less than zero (-0.000011), forcing value to zero @ !funcList=(sgn1 = 0,sgn2 = 0.00092,bkg_sys = -2.86665e-05), !coefList=(f1 = 0.4,f2 = 0.2) [#0] WARNING:Plotting -- At observable [x]=97.5 RooRealSumPdf::sb[ f1 * sgn1 + f2 * sgn2 + [%] * bkg_sys ] p.d.f value is less than zero (-0.000011), forcing value to zero @ !funcList=(sgn1 = 0,sgn2 = 0.00092,bkg_sys = -2.86665e-05), !coefList=(f1 = 0.4,f2 = 0.2) [#0] WARNING:Plotting -- At observable [x]=100 RooRealSumPdf::sb[ f1 * sgn1 + f2 * sgn2 + [%] * bkg_sys ] p.d.f value is less than zero (-0.000011), forcing value to zero @ !funcList=(sgn1 = 0,sgn2 = 0.00092,bkg_sys = -2.86665e-05), !coefList=(f1 = 0.4,f2 = 0.2) [#1] INFO:NumericIntegration -- RooRealIntegral::init(bkg_sys_Int[e]) using numeric integrator RooBinIntegrator to calculate Int(e) [#1] INFO:Minization -- Including the following constraint terms in minimization: (gaus_alpha,c_Vf,gpdf) [#1] INFO:Fitting -- RooAddition::defaultErrorLevel(nll_model_genData_with_constr) Summation contains a RooNLLVar, using its error level [#1] INFO:Minization -- RooMinimizer::optimizeConst: activating const optimization [#1] INFO:Minization -- The following expressions have been identified as constant and will be precalculated and cached: (sgn1,sgn2,bkg_0,bkg_m,bkg_p) [#1] INFO:Minization -- The following expressions will be evaluated in cache-and-track mode: (bkg_sys) ********** ** 1 **SET PRINT 1 ********** ********** ** 2 **SET NOGRAD ********** PARAMETER DEFINITIONS: NO. NAME VALUE STEP SIZE LIMITS 1 alpha 0.00000e+00 1.00000e+00 -5.00000e+00 5.00000e+00 2 f1 4.50000e-01 1.00000e-01 0.00000e+00 1.00000e+00 3 f2 2.50000e-01 1.00000e-01 0.00000e+00 1.00000e+00 ********** ** 3 **SET ERR 0.5 ********** ********** ** 4 **SET PRINT 1 ********** ********** ** 5 **SET STR 1 ********** NOW USING STRATEGY 1: TRY TO BALANCE SPEED AGAINST RELIABILITY ********** ** 6 **MIGRAD 1500 1 ********** FIRST CALL TO USER FUNCTION AT NEW START POINT, WITH IFLAG=4. [#1] INFO:NumericIntegration -- RooRealIntegral::init(gpdf_Int[f1,f2]) using numeric integrator RooAdaptiveIntegratorND to calculate Int(f1,f2) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=0, f1=0.45, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] p.d.f normalization integral is zero or negative: 0 @ actualVars=(f1 = 0.45,f2 = 0.25) getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) START MIGRAD MINIMIZATION. STRATEGY 1. CONVERGENCE WHEN EDM .LT. 1.00e-03 [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=1, f1=0.45, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=-1, f1=0.45, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=0, f1=0.551042, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] p.d.f normalization integral is zero or negative: 0 @ actualVars=(f1 = 0.551042,f2 = 0.25) getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.551042,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=0, f1=0.351, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] p.d.f normalization integral is zero or negative: 0 @ actualVars=(f1 = 0.351,f2 = 0.25) getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.351,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=0, f1=0.45, f2=0.357864 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] p.d.f normalization integral is zero or negative: 0 @ actualVars=(f1 = 0.45,f2 = 0.357864) getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.357864) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=0, f1=0.45, f2=0.15592 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] p.d.f normalization integral is zero or negative: 0 @ actualVars=(f1 = 0.45,f2 = 0.15592) getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.15592) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=1, f1=0.45, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] p.d.f normalization integral is zero or negative: 0 @ actualVars=(f1 = 0.45,f2 = 0.25) getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=1.04927, f1=0.45, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=1.05173, f1=0.45, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=1.05185, f1=0.45, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=1.05186, f1=0.45, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=1.05186, f1=0.45, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=1.05186, f1=0.45, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=1.05186, f1=0.45, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=1.05186, f1=0.45, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=1.05186, f1=0.45, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=1.05186, f1=0.45, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.39713, f1=0.45, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=-2.39713, f1=0.45, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=0, f1=0.694632, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] p.d.f normalization integral is zero or negative: 0 @ actualVars=(f1 = 0.694632,f2 = 0.25) getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.694632,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=0, f1=0.21761, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] p.d.f normalization integral is zero or negative: 0 @ actualVars=(f1 = 0.21761,f2 = 0.25) getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.21761,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=0, f1=0.45, f2=0.488202 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] p.d.f normalization integral is zero or negative: 0 @ actualVars=(f1 = 0.45,f2 = 0.488202) getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.488202) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=0, f1=0.45, f2=0.073007 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] p.d.f normalization integral is zero or negative: 0 @ actualVars=(f1 = 0.45,f2 = 0.073007) getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.073007) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.39713, f1=0.45, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] p.d.f normalization integral is zero or negative: 0 @ actualVars=(f1 = 0.45,f2 = 0.25) getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.50607, f1=0.45, f2=0.25 RooRealSumPdf::sb[ f1 * sgn1 + f2 * sgn2 + [%] * bkg_sys ] p.d.f value is less than zero (-0.000039), forcing value to zero @ !funcList=(sgn1 = 0,sgn2 = 0.00092,bkg_sys = -0.000896737), !coefList=(f1 = 0.45,f2 = 0.25) RooProdPdf::model[ sb * gaus_alpha * c_Vf * gpdf ] getLogVal() top-level p.d.f evaluates to zero @ !pdfs=(sb = -3.9021e-05/1,gaus_alpha = 0.043275,c_Vf = 0.910488,gpdf = 1) RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.51147, f1=0.45, f2=0.25 RooRealSumPdf::sb[ f1 * sgn1 + f2 * sgn2 + [%] * bkg_sys ] p.d.f value is less than zero (-0.000042), forcing value to zero @ !funcList=(sgn1 = 0,sgn2 = 0.00092,bkg_sys = -0.00090601), !coefList=(f1 = 0.45,f2 = 0.25) RooProdPdf::model[ sb * gaus_alpha * c_Vf * gpdf ] getLogVal() top-level p.d.f evaluates to zero @ !pdfs=(sb = -4.18031e-05/1,gaus_alpha = 0.042692,c_Vf = 0.910488,gpdf = 1) RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.51174, f1=0.45, f2=0.25 RooRealSumPdf::sb[ f1 * sgn1 + f2 * sgn2 + [%] * bkg_sys ] p.d.f value is less than zero (-0.000042), forcing value to zero @ !funcList=(sgn1 = 0,sgn2 = 0.00092,bkg_sys = -0.000906474), !coefList=(f1 = 0.45,f2 = 0.25) RooProdPdf::model[ sb * gaus_alpha * c_Vf * gpdf ] getLogVal() top-level p.d.f evaluates to zero @ !pdfs=(sb = -4.19421e-05/1,gaus_alpha = 0.042663,c_Vf = 0.910488,gpdf = 1) RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.51176, f1=0.45, f2=0.25 RooRealSumPdf::sb[ f1 * sgn1 + f2 * sgn2 + [%] * bkg_sys ] p.d.f value is less than zero (-0.000042), forcing value to zero @ !funcList=(sgn1 = 0,sgn2 = 0.00092,bkg_sys = -0.000906497), !coefList=(f1 = 0.45,f2 = 0.25) RooProdPdf::model[ sb * gaus_alpha * c_Vf * gpdf ] getLogVal() top-level p.d.f evaluates to zero @ !pdfs=(sb = -4.19491e-05/1,gaus_alpha = 0.0426616,c_Vf = 0.910488,gpdf = 1) RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.51176, f1=0.45, f2=0.25 RooRealSumPdf::sb[ f1 * sgn1 + f2 * sgn2 + [%] * bkg_sys ] p.d.f value is less than zero (-0.000042), forcing value to zero @ !funcList=(sgn1 = 0,sgn2 = 0.00092,bkg_sys = -0.000906498), !coefList=(f1 = 0.45,f2 = 0.25) RooProdPdf::model[ sb * gaus_alpha * c_Vf * gpdf ] getLogVal() top-level p.d.f evaluates to zero @ !pdfs=(sb = -4.19494e-05/1,gaus_alpha = 0.0426615,c_Vf = 0.910488,gpdf = 1) RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.51176, f1=0.45, f2=0.25 RooRealSumPdf::sb[ f1 * sgn1 + f2 * sgn2 + [%] * bkg_sys ] p.d.f value is less than zero (-0.000042), forcing value to zero @ !funcList=(sgn1 = 0,sgn2 = 0.00092,bkg_sys = -0.000906498), !coefList=(f1 = 0.45,f2 = 0.25) RooProdPdf::model[ sb * gaus_alpha * c_Vf * gpdf ] getLogVal() top-level p.d.f evaluates to zero @ !pdfs=(sb = -4.19494e-05/1,gaus_alpha = 0.0426615,c_Vf = 0.910488,gpdf = 1) RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.51176, f1=0.45, f2=0.25 RooRealSumPdf::sb[ f1 * sgn1 + f2 * sgn2 + [%] * bkg_sys ] p.d.f value is less than zero (-0.000042), forcing value to zero @ !funcList=(sgn1 = 0,sgn2 = 0.00092,bkg_sys = -0.000906498), !coefList=(f1 = 0.45,f2 = 0.25) RooProdPdf::model[ sb * gaus_alpha * c_Vf * gpdf ] getLogVal() top-level p.d.f evaluates to zero @ !pdfs=(sb = -4.19494e-05/1,gaus_alpha = 0.0426615,c_Vf = 0.910488,gpdf = 1) RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.51176, f1=0.45, f2=0.25 RooRealSumPdf::sb[ f1 * sgn1 + f2 * sgn2 + [%] * bkg_sys ] p.d.f value is less than zero (-0.000042), forcing value to zero @ !funcList=(sgn1 = 0,sgn2 = 0.00092,bkg_sys = -0.000906498), !coefList=(f1 = 0.45,f2 = 0.25) RooProdPdf::model[ sb * gaus_alpha * c_Vf * gpdf ] getLogVal() top-level p.d.f evaluates to zero @ !pdfs=(sb = -4.19494e-05/1,gaus_alpha = 0.0426615,c_Vf = 0.910488,gpdf = 1) RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.51176, f1=0.45, f2=0.25 RooRealSumPdf::sb[ f1 * sgn1 + f2 * sgn2 + [%] * bkg_sys ] p.d.f value is less than zero (-0.000042), forcing value to zero @ !funcList=(sgn1 = 0,sgn2 = 0.00092,bkg_sys = -0.000906498), !coefList=(f1 = 0.45,f2 = 0.25) RooProdPdf::model[ sb * gaus_alpha * c_Vf * gpdf ] getLogVal() top-level p.d.f evaluates to zero @ !pdfs=(sb = -4.19494e-05/1,gaus_alpha = 0.0426615,c_Vf = 0.910488,gpdf = 1) RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.51176, f1=0.45, f2=0.25 RooRealSumPdf::sb[ f1 * sgn1 + f2 * sgn2 + [%] * bkg_sys ] p.d.f value is less than zero (-0.000042), forcing value to zero @ !funcList=(sgn1 = 0,sgn2 = 0.00092,bkg_sys = -0.000906498), !coefList=(f1 = 0.45,f2 = 0.25) RooProdPdf::model[ sb * gaus_alpha * c_Vf * gpdf ] getLogVal() top-level p.d.f evaluates to zero @ !pdfs=(sb = -4.19494e-05/1,gaus_alpha = 0.0426615,c_Vf = 0.910488,gpdf = 1) RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.39713, f1=0.45, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=-2.39713, f1=0.45, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=0, f1=0.694632, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] p.d.f normalization integral is zero or negative: 0 @ actualVars=(f1 = 0.694632,f2 = 0.25) getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.694632,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=0, f1=0.21761, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] p.d.f normalization integral is zero or negative: 0 @ actualVars=(f1 = 0.21761,f2 = 0.25) getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.21761,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=0, f1=0.45, f2=0.488202 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] p.d.f normalization integral is zero or negative: 0 @ actualVars=(f1 = 0.45,f2 = 0.488202) getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.488202) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=0, f1=0.45, f2=0.073007 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] p.d.f normalization integral is zero or negative: 0 @ actualVars=(f1 = 0.45,f2 = 0.073007) getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.073007) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.39713, f1=0.45, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] p.d.f normalization integral is zero or negative: 0 @ actualVars=(f1 = 0.45,f2 = 0.25) getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.50607, f1=0.45, f2=0.25 RooRealSumPdf::sb[ f1 * sgn1 + f2 * sgn2 + [%] * bkg_sys ] p.d.f value is less than zero (-0.000039), forcing value to zero @ !funcList=(sgn1 = 0,sgn2 = 0.00092,bkg_sys = -0.000896737), !coefList=(f1 = 0.45,f2 = 0.25) RooProdPdf::model[ sb * gaus_alpha * c_Vf * gpdf ] getLogVal() top-level p.d.f evaluates to zero @ !pdfs=(sb = -3.9021e-05/1,gaus_alpha = 0.043275,c_Vf = 0.910488,gpdf = 1) RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.51147, f1=0.45, f2=0.25 RooRealSumPdf::sb[ f1 * sgn1 + f2 * sgn2 + [%] * bkg_sys ] p.d.f value is less than zero (-0.000042), forcing value to zero @ !funcList=(sgn1 = 0,sgn2 = 0.00092,bkg_sys = -0.00090601), !coefList=(f1 = 0.45,f2 = 0.25) RooProdPdf::model[ sb * gaus_alpha * c_Vf * gpdf ] getLogVal() top-level p.d.f evaluates to zero @ !pdfs=(sb = -4.18031e-05/1,gaus_alpha = 0.042692,c_Vf = 0.910488,gpdf = 1) RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.51174, f1=0.45, f2=0.25 RooRealSumPdf::sb[ f1 * sgn1 + f2 * sgn2 + [%] * bkg_sys ] p.d.f value is less than zero (-0.000042), forcing value to zero @ !funcList=(sgn1 = 0,sgn2 = 0.00092,bkg_sys = -0.000906474), !coefList=(f1 = 0.45,f2 = 0.25) RooProdPdf::model[ sb * gaus_alpha * c_Vf * gpdf ] getLogVal() top-level p.d.f evaluates to zero @ !pdfs=(sb = -4.19421e-05/1,gaus_alpha = 0.042663,c_Vf = 0.910488,gpdf = 1) RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.51176, f1=0.45, f2=0.25 RooRealSumPdf::sb[ f1 * sgn1 + f2 * sgn2 + [%] * bkg_sys ] p.d.f value is less than zero (-0.000042), forcing value to zero @ !funcList=(sgn1 = 0,sgn2 = 0.00092,bkg_sys = -0.000906497), !coefList=(f1 = 0.45,f2 = 0.25) RooProdPdf::model[ sb * gaus_alpha * c_Vf * gpdf ] getLogVal() top-level p.d.f evaluates to zero @ !pdfs=(sb = -4.19491e-05/1,gaus_alpha = 0.0426616,c_Vf = 0.910488,gpdf = 1) RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.51176, f1=0.45, f2=0.25 RooRealSumPdf::sb[ f1 * sgn1 + f2 * sgn2 + [%] * bkg_sys ] p.d.f value is less than zero (-0.000042), forcing value to zero @ !funcList=(sgn1 = 0,sgn2 = 0.00092,bkg_sys = -0.000906498), !coefList=(f1 = 0.45,f2 = 0.25) RooProdPdf::model[ sb * gaus_alpha * c_Vf * gpdf ] getLogVal() top-level p.d.f evaluates to zero @ !pdfs=(sb = -4.19494e-05/1,gaus_alpha = 0.0426615,c_Vf = 0.910488,gpdf = 1) RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.51176, f1=0.45, f2=0.25 RooRealSumPdf::sb[ f1 * sgn1 + f2 * sgn2 + [%] * bkg_sys ] p.d.f value is less than zero (-0.000042), forcing value to zero @ !funcList=(sgn1 = 0,sgn2 = 0.00092,bkg_sys = -0.000906498), !coefList=(f1 = 0.45,f2 = 0.25) RooProdPdf::model[ sb * gaus_alpha * c_Vf * gpdf ] getLogVal() top-level p.d.f evaluates to zero @ !pdfs=(sb = -4.19494e-05/1,gaus_alpha = 0.0426615,c_Vf = 0.910488,gpdf = 1) RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.51176, f1=0.45, f2=0.25 RooRealSumPdf::sb[ f1 * sgn1 + f2 * sgn2 + [%] * bkg_sys ] p.d.f value is less than zero (-0.000042), forcing value to zero @ !funcList=(sgn1 = 0,sgn2 = 0.00092,bkg_sys = -0.000906498), !coefList=(f1 = 0.45,f2 = 0.25) RooProdPdf::model[ sb * gaus_alpha * c_Vf * gpdf ] getLogVal() top-level p.d.f evaluates to zero @ !pdfs=(sb = -4.19494e-05/1,gaus_alpha = 0.0426615,c_Vf = 0.910488,gpdf = 1) RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.51176, f1=0.45, f2=0.25 RooRealSumPdf::sb[ f1 * sgn1 + f2 * sgn2 + [%] * bkg_sys ] p.d.f value is less than zero (-0.000042), forcing value to zero @ !funcList=(sgn1 = 0,sgn2 = 0.00092,bkg_sys = -0.000906498), !coefList=(f1 = 0.45,f2 = 0.25) RooProdPdf::model[ sb * gaus_alpha * c_Vf * gpdf ] getLogVal() top-level p.d.f evaluates to zero @ !pdfs=(sb = -4.19494e-05/1,gaus_alpha = 0.0426615,c_Vf = 0.910488,gpdf = 1) RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.51176, f1=0.45, f2=0.25 RooRealSumPdf::sb[ f1 * sgn1 + f2 * sgn2 + [%] * bkg_sys ] p.d.f value is less than zero (-0.000042), forcing value to zero @ !funcList=(sgn1 = 0,sgn2 = 0.00092,bkg_sys = -0.000906498), !coefList=(f1 = 0.45,f2 = 0.25) RooProdPdf::model[ sb * gaus_alpha * c_Vf * gpdf ] getLogVal() top-level p.d.f evaluates to zero @ !pdfs=(sb = -4.19494e-05/1,gaus_alpha = 0.0426615,c_Vf = 0.910488,gpdf = 1) RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.51176, f1=0.45, f2=0.25 RooRealSumPdf::sb[ f1 * sgn1 + f2 * sgn2 + [%] * bkg_sys ] p.d.f value is less than zero (-0.000042), forcing value to zero @ !funcList=(sgn1 = 0,sgn2 = 0.00092,bkg_sys = -0.000906498), !coefList=(f1 = 0.45,f2 = 0.25) RooProdPdf::model[ sb * gaus_alpha * c_Vf * gpdf ] getLogVal() top-level p.d.f evaluates to zero @ !pdfs=(sb = -4.19494e-05/1,gaus_alpha = 0.0426615,c_Vf = 0.910488,gpdf = 1) RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.39713, f1=0.45, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=-2.39713, f1=0.45, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=0, f1=0.694632, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] p.d.f normalization integral is zero or negative: 0 @ actualVars=(f1 = 0.694632,f2 = 0.25) getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.694632,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=0, f1=0.21761, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] p.d.f normalization integral is zero or negative: 0 @ actualVars=(f1 = 0.21761,f2 = 0.25) getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.21761,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=0, f1=0.45, f2=0.488202 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] p.d.f normalization integral is zero or negative: 0 @ actualVars=(f1 = 0.45,f2 = 0.488202) getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.488202) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=0, f1=0.45, f2=0.073007 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] p.d.f normalization integral is zero or negative: 0 @ actualVars=(f1 = 0.45,f2 = 0.073007) getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.073007) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.39713, f1=0.45, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] p.d.f normalization integral is zero or negative: 0 @ actualVars=(f1 = 0.45,f2 = 0.25) getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.50607, f1=0.45, f2=0.25 RooRealSumPdf::sb[ f1 * sgn1 + f2 * sgn2 + [%] * bkg_sys ] p.d.f value is less than zero (-0.000039), forcing value to zero @ !funcList=(sgn1 = 0,sgn2 = 0.00092,bkg_sys = -0.000896737), !coefList=(f1 = 0.45,f2 = 0.25) RooProdPdf::model[ sb * gaus_alpha * c_Vf * gpdf ] getLogVal() top-level p.d.f evaluates to zero @ !pdfs=(sb = -3.9021e-05/1,gaus_alpha = 0.043275,c_Vf = 0.910488,gpdf = 1) RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.51147, f1=0.45, f2=0.25 RooRealSumPdf::sb[ f1 * sgn1 + f2 * sgn2 + [%] * bkg_sys ] p.d.f value is less than zero (-0.000042), forcing value to zero @ !funcList=(sgn1 = 0,sgn2 = 0.00092,bkg_sys = -0.00090601), !coefList=(f1 = 0.45,f2 = 0.25) RooProdPdf::model[ sb * gaus_alpha * c_Vf * gpdf ] getLogVal() top-level p.d.f evaluates to zero @ !pdfs=(sb = -4.18031e-05/1,gaus_alpha = 0.042692,c_Vf = 0.910488,gpdf = 1) RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.51174, f1=0.45, f2=0.25 RooRealSumPdf::sb[ f1 * sgn1 + f2 * sgn2 + [%] * bkg_sys ] p.d.f value is less than zero (-0.000042), forcing value to zero @ !funcList=(sgn1 = 0,sgn2 = 0.00092,bkg_sys = -0.000906474), !coefList=(f1 = 0.45,f2 = 0.25) RooProdPdf::model[ sb * gaus_alpha * c_Vf * gpdf ] getLogVal() top-level p.d.f evaluates to zero @ !pdfs=(sb = -4.19421e-05/1,gaus_alpha = 0.042663,c_Vf = 0.910488,gpdf = 1) RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.51176, f1=0.45, f2=0.25 RooRealSumPdf::sb[ f1 * sgn1 + f2 * sgn2 + [%] * bkg_sys ] p.d.f value is less than zero (-0.000042), forcing value to zero @ !funcList=(sgn1 = 0,sgn2 = 0.00092,bkg_sys = -0.000906497), !coefList=(f1 = 0.45,f2 = 0.25) RooProdPdf::model[ sb * gaus_alpha * c_Vf * gpdf ] getLogVal() top-level p.d.f evaluates to zero @ !pdfs=(sb = -4.19491e-05/1,gaus_alpha = 0.0426616,c_Vf = 0.910488,gpdf = 1) RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.51176, f1=0.45, f2=0.25 RooRealSumPdf::sb[ f1 * sgn1 + f2 * sgn2 + [%] * bkg_sys ] p.d.f value is less than zero (-0.000042), forcing value to zero @ !funcList=(sgn1 = 0,sgn2 = 0.00092,bkg_sys = -0.000906498), !coefList=(f1 = 0.45,f2 = 0.25) RooProdPdf::model[ sb * gaus_alpha * c_Vf * gpdf ] getLogVal() top-level p.d.f evaluates to zero @ !pdfs=(sb = -4.19494e-05/1,gaus_alpha = 0.0426615,c_Vf = 0.910488,gpdf = 1) RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.51176, f1=0.45, f2=0.25 RooRealSumPdf::sb[ f1 * sgn1 + f2 * sgn2 + [%] * bkg_sys ] p.d.f value is less than zero (-0.000042), forcing value to zero @ !funcList=(sgn1 = 0,sgn2 = 0.00092,bkg_sys = -0.000906498), !coefList=(f1 = 0.45,f2 = 0.25) RooProdPdf::model[ sb * gaus_alpha * c_Vf * gpdf ] getLogVal() top-level p.d.f evaluates to zero @ !pdfs=(sb = -4.19494e-05/1,gaus_alpha = 0.0426615,c_Vf = 0.910488,gpdf = 1) RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.51176, f1=0.45, f2=0.25 RooRealSumPdf::sb[ f1 * sgn1 + f2 * sgn2 + [%] * bkg_sys ] p.d.f value is less than zero (-0.000042), forcing value to zero @ !funcList=(sgn1 = 0,sgn2 = 0.00092,bkg_sys = -0.000906498), !coefList=(f1 = 0.45,f2 = 0.25) RooProdPdf::model[ sb * gaus_alpha * c_Vf * gpdf ] getLogVal() top-level p.d.f evaluates to zero @ !pdfs=(sb = -4.19494e-05/1,gaus_alpha = 0.0426615,c_Vf = 0.910488,gpdf = 1) RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.51176, f1=0.45, f2=0.25 RooRealSumPdf::sb[ f1 * sgn1 + f2 * sgn2 + [%] * bkg_sys ] p.d.f value is less than zero (-0.000042), forcing value to zero @ !funcList=(sgn1 = 0,sgn2 = 0.00092,bkg_sys = -0.000906498), !coefList=(f1 = 0.45,f2 = 0.25) RooProdPdf::model[ sb * gaus_alpha * c_Vf * gpdf ] getLogVal() top-level p.d.f evaluates to zero @ !pdfs=(sb = -4.19494e-05/1,gaus_alpha = 0.0426615,c_Vf = 0.910488,gpdf = 1) RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.51176, f1=0.45, f2=0.25 RooRealSumPdf::sb[ f1 * sgn1 + f2 * sgn2 + [%] * bkg_sys ] p.d.f value is less than zero (-0.000042), forcing value to zero @ !funcList=(sgn1 = 0,sgn2 = 0.00092,bkg_sys = -0.000906498), !coefList=(f1 = 0.45,f2 = 0.25) RooProdPdf::model[ sb * gaus_alpha * c_Vf * gpdf ] getLogVal() top-level p.d.f evaluates to zero @ !pdfs=(sb = -4.19494e-05/1,gaus_alpha = 0.0426615,c_Vf = 0.910488,gpdf = 1) RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.51176, f1=0.45, f2=0.25 RooRealSumPdf::sb[ f1 * sgn1 + f2 * sgn2 + [%] * bkg_sys ] p.d.f value is less than zero (-0.000042), forcing value to zero @ !funcList=(sgn1 = 0,sgn2 = 0.00092,bkg_sys = -0.000906498), !coefList=(f1 = 0.45,f2 = 0.25) RooProdPdf::model[ sb * gaus_alpha * c_Vf * gpdf ] getLogVal() top-level p.d.f evaluates to zero @ !pdfs=(sb = -4.19494e-05/1,gaus_alpha = 0.0426615,c_Vf = 0.910488,gpdf = 1) RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.39713, f1=0.45, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=-2.39713, f1=0.45, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=0, f1=0.694632, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] p.d.f normalization integral is zero or negative: 0 @ actualVars=(f1 = 0.694632,f2 = 0.25) getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.694632,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=0, f1=0.21761, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] p.d.f normalization integral is zero or negative: 0 @ actualVars=(f1 = 0.21761,f2 = 0.25) getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.21761,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=0, f1=0.45, f2=0.488202 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] p.d.f normalization integral is zero or negative: 0 @ actualVars=(f1 = 0.45,f2 = 0.488202) getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.488202) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=0, f1=0.45, f2=0.073007 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] p.d.f normalization integral is zero or negative: 0 @ actualVars=(f1 = 0.45,f2 = 0.073007) getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.073007) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.39713, f1=0.45, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] p.d.f normalization integral is zero or negative: 0 @ actualVars=(f1 = 0.45,f2 = 0.25) getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.50607, f1=0.45, f2=0.25 RooRealSumPdf::sb[ f1 * sgn1 + f2 * sgn2 + [%] * bkg_sys ] p.d.f value is less than zero (-0.000039), forcing value to zero @ !funcList=(sgn1 = 0,sgn2 = 0.00092,bkg_sys = -0.000896737), !coefList=(f1 = 0.45,f2 = 0.25) RooProdPdf::model[ sb * gaus_alpha * c_Vf * gpdf ] getLogVal() top-level p.d.f evaluates to zero @ !pdfs=(sb = -3.9021e-05/1,gaus_alpha = 0.043275,c_Vf = 0.910488,gpdf = 1) RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.51147, f1=0.45, f2=0.25 RooRealSumPdf::sb[ f1 * sgn1 + f2 * sgn2 + [%] * bkg_sys ] p.d.f value is less than zero (-0.000042), forcing value to zero @ !funcList=(sgn1 = 0,sgn2 = 0.00092,bkg_sys = -0.00090601), !coefList=(f1 = 0.45,f2 = 0.25) RooProdPdf::model[ sb * gaus_alpha * c_Vf * gpdf ] getLogVal() top-level p.d.f evaluates to zero @ !pdfs=(sb = -4.18031e-05/1,gaus_alpha = 0.042692,c_Vf = 0.910488,gpdf = 1) RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.51174, f1=0.45, f2=0.25 RooRealSumPdf::sb[ f1 * sgn1 + f2 * sgn2 + [%] * bkg_sys ] p.d.f value is less than zero (-0.000042), forcing value to zero @ !funcList=(sgn1 = 0,sgn2 = 0.00092,bkg_sys = -0.000906474), !coefList=(f1 = 0.45,f2 = 0.25) RooProdPdf::model[ sb * gaus_alpha * c_Vf * gpdf ] getLogVal() top-level p.d.f evaluates to zero @ !pdfs=(sb = -4.19421e-05/1,gaus_alpha = 0.042663,c_Vf = 0.910488,gpdf = 1) RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.51176, f1=0.45, f2=0.25 RooRealSumPdf::sb[ f1 * sgn1 + f2 * sgn2 + [%] * bkg_sys ] p.d.f value is less than zero (-0.000042), forcing value to zero @ !funcList=(sgn1 = 0,sgn2 = 0.00092,bkg_sys = -0.000906497), !coefList=(f1 = 0.45,f2 = 0.25) RooProdPdf::model[ sb * gaus_alpha * c_Vf * gpdf ] getLogVal() top-level p.d.f evaluates to zero @ !pdfs=(sb = -4.19491e-05/1,gaus_alpha = 0.0426616,c_Vf = 0.910488,gpdf = 1) RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.51176, f1=0.45, f2=0.25 RooRealSumPdf::sb[ f1 * sgn1 + f2 * sgn2 + [%] * bkg_sys ] p.d.f value is less than zero (-0.000042), forcing value to zero @ !funcList=(sgn1 = 0,sgn2 = 0.00092,bkg_sys = -0.000906498), !coefList=(f1 = 0.45,f2 = 0.25) RooProdPdf::model[ sb * gaus_alpha * c_Vf * gpdf ] getLogVal() top-level p.d.f evaluates to zero @ !pdfs=(sb = -4.19494e-05/1,gaus_alpha = 0.0426615,c_Vf = 0.910488,gpdf = 1) RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.51176, f1=0.45, f2=0.25 RooRealSumPdf::sb[ f1 * sgn1 + f2 * sgn2 + [%] * bkg_sys ] p.d.f value is less than zero (-0.000042), forcing value to zero @ !funcList=(sgn1 = 0,sgn2 = 0.00092,bkg_sys = -0.000906498), !coefList=(f1 = 0.45,f2 = 0.25) RooProdPdf::model[ sb * gaus_alpha * c_Vf * gpdf ] getLogVal() top-level p.d.f evaluates to zero @ !pdfs=(sb = -4.19494e-05/1,gaus_alpha = 0.0426615,c_Vf = 0.910488,gpdf = 1) RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.51176, f1=0.45, f2=0.25 RooRealSumPdf::sb[ f1 * sgn1 + f2 * sgn2 + [%] * bkg_sys ] p.d.f value is less than zero (-0.000042), forcing value to zero @ !funcList=(sgn1 = 0,sgn2 = 0.00092,bkg_sys = -0.000906498), !coefList=(f1 = 0.45,f2 = 0.25) RooProdPdf::model[ sb * gaus_alpha * c_Vf * gpdf ] getLogVal() top-level p.d.f evaluates to zero @ !pdfs=(sb = -4.19494e-05/1,gaus_alpha = 0.0426615,c_Vf = 0.910488,gpdf = 1) RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.51176, f1=0.45, f2=0.25 RooRealSumPdf::sb[ f1 * sgn1 + f2 * sgn2 + [%] * bkg_sys ] p.d.f value is less than zero (-0.000042), forcing value to zero @ !funcList=(sgn1 = 0,sgn2 = 0.00092,bkg_sys = -0.000906498), !coefList=(f1 = 0.45,f2 = 0.25) RooProdPdf::model[ sb * gaus_alpha * c_Vf * gpdf ] getLogVal() top-level p.d.f evaluates to zero @ !pdfs=(sb = -4.19494e-05/1,gaus_alpha = 0.0426615,c_Vf = 0.910488,gpdf = 1) RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.51176, f1=0.45, f2=0.25 RooRealSumPdf::sb[ f1 * sgn1 + f2 * sgn2 + [%] * bkg_sys ] p.d.f value is less than zero (-0.000042), forcing value to zero @ !funcList=(sgn1 = 0,sgn2 = 0.00092,bkg_sys = -0.000906498), !coefList=(f1 = 0.45,f2 = 0.25) RooProdPdf::model[ sb * gaus_alpha * c_Vf * gpdf ] getLogVal() top-level p.d.f evaluates to zero @ !pdfs=(sb = -4.19494e-05/1,gaus_alpha = 0.0426615,c_Vf = 0.910488,gpdf = 1) RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.51176, f1=0.45, f2=0.25 RooRealSumPdf::sb[ f1 * sgn1 + f2 * sgn2 + [%] * bkg_sys ] p.d.f value is less than zero (-0.000042), forcing value to zero @ !funcList=(sgn1 = 0,sgn2 = 0.00092,bkg_sys = -0.000906498), !coefList=(f1 = 0.45,f2 = 0.25) RooProdPdf::model[ sb * gaus_alpha * c_Vf * gpdf ] getLogVal() top-level p.d.f evaluates to zero @ !pdfs=(sb = -4.19494e-05/1,gaus_alpha = 0.0426615,c_Vf = 0.910488,gpdf = 1) RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.39713, f1=0.45, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=-2.39713, f1=0.45, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=0, f1=0.694632, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] p.d.f normalization integral is zero or negative: 0 @ actualVars=(f1 = 0.694632,f2 = 0.25) getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.694632,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=0, f1=0.21761, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] p.d.f normalization integral is zero or negative: 0 @ actualVars=(f1 = 0.21761,f2 = 0.25) getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.21761,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=0, f1=0.45, f2=0.488202 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] p.d.f normalization integral is zero or negative: 0 @ actualVars=(f1 = 0.45,f2 = 0.488202) getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.488202) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=0, f1=0.45, f2=0.073007 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] p.d.f normalization integral is zero or negative: 0 @ actualVars=(f1 = 0.45,f2 = 0.073007) getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.073007) FCN=-1e+30 FROM MIGRAD STATUS=INITIATE 91 CALLS 92 TOTAL EDM= unknown STRATEGY= 1 NO ERROR MATRIX EXT PARAMETER CURRENT GUESS STEP FIRST NO. NAME VALUE ERROR SIZE DERIVATIVE 1 alpha 0.00000e+00 1.00000e+00 0.00000e+00 0.00000e+00 2 f1 4.50000e-01 1.00000e-01 0.00000e+00 0.00000e+00 3 f2 2.50000e-01 1.00000e-01 0.00000e+00 0.00000e+00 ERR DEF= 0.5 MIGRAD MINIMIZATION HAS CONVERGED. MIGRAD WILL VERIFY CONVERGENCE AND ERROR MATRIX. [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=0, f1=0.45, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] p.d.f normalization integral is zero or negative: 0 @ actualVars=(f1 = 0.45,f2 = 0.25) getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.39713, f1=0.45, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=-2.39713, f1=0.45, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) MINUIT WARNING IN HESSE ============== Second derivative zero for parameter1 MNHESS FAILS AND WILL RETURN DIAGONAL MATRIX. FCN=-1e+30 FROM HESSE STATUS=FAILED 3 CALLS 95 TOTAL EDM=0 STRATEGY= 1 ERROR MATRIX UNCERTAINTY 100.0 per cent EXT PARAMETER APPROXIMATE STEP FIRST NO. NAME VALUE ERROR SIZE DERIVATIVE 1 alpha 0.00000e+00 4.20735e+00 0.00000e+00 0.00000e+00 2 f1 4.50000e-01 4.18627e-01 0.00000e+00 0.00000e+00 3 f2 2.50000e-01 3.64368e-01 0.00000e+00 0.00000e+00 ERR DEF= 0.5 MIGRAD MINIMIZATION HAS CONVERGED. MIGRAD WILL VERIFY CONVERGENCE AND ERROR MATRIX. [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=0, f1=0.45, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.39713, f1=0.45, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=-2.39713, f1=0.45, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) MINUIT WARNING IN HESSE ============== Second derivative zero for parameter1 MNHESS FAILS AND WILL RETURN DIAGONAL MATRIX. FCN=-1e+30 FROM MIGRAD STATUS=CONVERGED 97 CALLS 98 TOTAL EDM=0 STRATEGY= 1 ERROR MATRIX UNCERTAINTY 100.0 per cent EXT PARAMETER APPROXIMATE STEP FIRST NO. NAME VALUE ERROR SIZE DERIVATIVE 1 alpha 0.00000e+00 4.20735e+00 0.00000e+00 0.00000e+00 2 f1 4.50000e-01 4.18627e-01 0.00000e+00 0.00000e+00 3 f2 2.50000e-01 3.64368e-01 0.00000e+00 0.00000e+00 ERR DEF= 0.5 EXTERNAL ERROR MATRIX. NDIM= 25 NPAR= 3 ERR DEF=0.5 2.500e+01 0.000e+00 0.000e+00 0.000e+00 2.475e-01 0.000e+00 0.000e+00 0.000e+00 1.875e-01 ERR MATRIX APPROXIMATE PARAMETER CORRELATION COEFFICIENTS NO. GLOBAL 1 2 3 1 0.00000 1.000 0.000 0.000 2 0.00000 0.000 1.000 0.000 3 0.00000 0.000 0.000 1.000 ERR MATRIX APPROXIMATE ********** ** 7 **HESSE 1500 ********** [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=0, f1=0.45, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.39713, f1=0.45, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=-2.39713, f1=0.45, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45,f2 = 0.25) MINUIT WARNING IN HESSE ============== Second derivative zero for parameter1 MNHESS FAILS AND WILL RETURN DIAGONAL MATRIX. FCN=-1e+30 FROM HESSE STATUS=FAILED 3 CALLS 101 TOTAL EDM=0 STRATEGY= 1 ERROR MATRIX UNCERTAINTY 100.0 per cent EXT PARAMETER APPROXIMATE INTERNAL INTERNAL NO. NAME VALUE ERROR STEP SIZE VALUE 1 alpha -2.39713e+00 4.20735e+00 0.00000e+00 0.00000e+00 2 f1 4.50000e-01 4.18627e-01 0.00000e+00 -1.00167e-01 3 f2 2.50000e-01 3.64368e-01 0.00000e+00 -5.23599e-01 ERR DEF= 0.5 EXTERNAL ERROR MATRIX. NDIM= 25 NPAR= 3 ERR DEF=0.5 2.500e+01 0.000e+00 0.000e+00 0.000e+00 2.475e-01 0.000e+00 0.000e+00 0.000e+00 1.875e-01 ERR MATRIX APPROXIMATE PARAMETER CORRELATION COEFFICIENTS NO. GLOBAL 1 2 3 1 0.00000 1.000 0.000 0.000 2 0.00000 0.000 1.000 0.000 3 0.00000 0.000 0.000 1.000 ERR MATRIX APPROXIMATE ********** ** 8 **SET ERR 0.5 ********** ********** ** 9 **SET PRINT 1 ********** ********** ** 10 **HESSE 1500 ********** [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=0, f1=0.45, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45 +/- 0.418627,f2 = 0.25 +/- 0.364368) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=2.39713, f1=0.45, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45 +/- 0.418627,f2 = 0.25 +/- 0.364368) [#0] WARNING:Minization -- RooMinimizerFcn: Minimized function has error status. Returning maximum FCN so far (-1e+30) to force MIGRAD to back out of this region. Error log follows Parameter values: alpha=-2.39713, f1=0.45, f2=0.25 RooGenericPdf::gpdf[ actualVars=(f1,f2) formula="x[0] + x[1] < 1" ] getLogVal() top-level p.d.f evaluates to zero @ actualVars=(f1 = 0.45 +/- 0.418627,f2 = 0.25 +/- 0.364368) MINUIT WARNING IN HESSE ============== Second derivative zero for parameter1 MNHESS FAILS AND WILL RETURN DIAGONAL MATRIX. FCN=-1e+30 FROM HESSE STATUS=FAILED 3 CALLS 104 TOTAL EDM=0 STRATEGY= 1 ERROR MATRIX UNCERTAINTY 100.0 per cent EXT PARAMETER APPROXIMATE INTERNAL INTERNAL NO. NAME VALUE ERROR STEP SIZE VALUE 1 alpha -2.39713e+00 4.20735e+00 0.00000e+00 0.00000e+00 2 f1 4.50000e-01 4.18627e-01 0.00000e+00 -1.00167e-01 3 f2 2.50000e-01 3.64368e-01 0.00000e+00 -5.23599e-01 ERR DEF= 0.5 EXTERNAL ERROR MATRIX. NDIM= 25 NPAR= 3 ERR DEF=0.5 2.500e+01 0.000e+00 0.000e+00 0.000e+00 2.475e-01 0.000e+00 0.000e+00 0.000e+00 1.875e-01 ERR MATRIX APPROXIMATE PARAMETER CORRELATION COEFFICIENTS NO. GLOBAL 1 2 3 1 0.00000 1.000 0.000 0.000 2 0.00000 0.000 1.000 0.000 3 0.00000 0.000 0.000 1.000 ERR MATRIX APPROXIMATE [#1] INFO:Minization -- RooMinimizer::optimizeConst: deactivating const optimization RooFitResult: minimized FCN value: -1e+30, estimated distance to minimum: 0 covariance matrix quality: Approximation only, not accurate Status : MINIMIZE=0 HESSE=0 Floating Parameter FinalValue +/- Error -------------------- -------------------------- alpha -2.3971e+00 +/- 4.21e+00 f1 4.5000e-01 +/- 4.19e-01 f2 2.5000e-01 +/- 3.64e-01 [#1] INFO:NumericIntegration -- RooRealIntegral::init(bkg_sys_Int[e]) using numeric integrator RooBinIntegrator to calculate Int(e) [#1] INFO:Plotting -- RooAbsPdf::plotOn(model) directly selected PDF components: (sgn1) [#1] INFO:Plotting -- RooAbsPdf::plotOn(model) indirectly selected PDF components: (sb) [#1] INFO:NumericIntegration -- RooRealIntegral::init(bkg_sys_Int[e]) using numeric integrator RooBinIntegrator to calculate Int(e) [#1] INFO:Plotting -- RooAbsPdf::plotOn(model) directly selected PDF components: (sgn2) [#1] INFO:Plotting -- RooAbsPdf::plotOn(model) indirectly selected PDF components: (sb) [#1] INFO:NumericIntegration -- RooRealIntegral::init(bkg_sys_Int[e]) using numeric integrator RooBinIntegrator to calculate Int(e) [#1] INFO:Plotting -- RooAbsPdf::plotOn(model) directly selected PDF components: (bkg_sys) [#1] INFO:Plotting -- RooAbsPdf::plotOn(model) indirectly selected PDF components: (bkg_0,bkg_m,bkg_p,sb) [#1] INFO:NumericIntegration -- RooRealIntegral::init(bkg_sys_Int[e]) using numeric integrator RooBinIntegrator to calculate Int(e) root [3] .>