lnx321.lns.cornell.edu Linux lnx321.lns.cornell.edu 2.4.21-37.ELsmp #1 SMP Wed Sep 28 12:13:44 CDT 2005 i686 i686 i386 GNU/Linux By default C3_ is defined as /nfs/cleo3 cleo3defs - Setting Up Cleo3 Environment Using release current cleo3defs - Setting Up Cleo3 Environment Using release 20050417_FULL -------------------------------------------------- DHad Analysis 7.06 -------------------------------------------------- -------------------------------------------------- Loading RooFit library ... RooFit v1.92 -- Developed by Wouter Verkerke and David Kirkby Copyright (C) 2000-2005 University of California & Stanford University All rights reserved, please read http://roofit.sourceforge.net/license.txt -------------------------------------------------- Set R = 8.3 -------------------------------------------------- Mass = 3.7718 GeV Width = 0.0286 GeV R = 8.3 mc = 3 -------------------------------------------------- Using evt files: regular /home/xs32/work/CLEO/analysis/DHad/7.06/dat/evt/regular/data_Single_Dp_to_Kspi.evt /home/xs32/work/CLEO/analysis/DHad/7.06/dat/evt/regular/data_Single_Dm_to_Kspi.evt -------------------------------------------------- Loading lineshape parameters from: /home/xs32/work/CLEO/analysis/DHad/7.06/tab/line_shape_paras.txt -------------------------------------------------- Initializing fitting parameters from: /home/xs32/work/CLEO/analysis/DHad/7.06/dat/fit/regular/data_Single_Dp_to_Kspi__Dm_to_Kspi.txt -------------------------------------------------- Single Tag Fit Mode: 202 -------------------------------------------------- title1 = D^{+}#rightarrowK_{S} #pi^{+} title2 = D^{-}#rightarrowK_{S} #pi^{-} evtfile = /home/xs32/work/CLEO/analysis/DHad/7.06/dat/evt/R/8.3/data_Single_Dp_to_Kspi__Dm_to_Kspi.evt epsfile = /home/xs32/work/CLEO/analysis/DHad/7.06/fig/R/8.3/data_Single_Dp_to_Kspi__Dm_to_Kspi.eps outfile = /home/xs32/work/CLEO/analysis/DHad/7.06/dat/fit/R/8.3/data_Single_Dp_to_Kspi__Dm_to_Kspi.txt mc = 3 num_fcn = 3 xi_side = 0.0 p_side = 0.0 Sigma = 0.00213 Sa = 2.49 Sb = 2.24 Fa = 0.61 Fb = 0.0853 int_d = 1 optstr = p Gamma = 0.0286 floatwidth = 0 R = 8.3 Mres = 3.7718 -------------------------------------------------- N1 = 5789.4917628 N2 = 5868.27457755 Nbkgd1 = 1843.74316466 Nbkgd2 = 1760.77496705 md = 1.8690827936 p = 0.6252558543 sigmap1 = 0.0022281468 xi = -11.5684141945 -------------------------------------------------- Min = 0.5 options = MINUIT = ermh4 -------------------------------------------------- ROOT macro: mbc_singletag_3s.C -------------------------------------------------- RooDataSet::read: reading file /home/xs32/work/CLEO/analysis/DHad/7.06/dat/evt/R/8.3/data_Single_Dp_to_Kspi__Dm_to_Kspi.evt RooDataSet::read: read 15262 events (ignored 0 out of range events) RooAbsRealLValue::inFitRange(scalep3): value 2.24 rounded up to min limit 3 RooDataSet::dataset: "/home/xs32/work/CLEO/analysis/DHad/7.06/dat/evt/R/8.3/data_Single_Dp_to_Kspi__Dm_to_Kspi.evt" Contains 15262 entries MINUIT WARNING IN PARAMETR ============== VARIABLE1 BROUGHT BACK INSIDE LIMITS. MINUIT WARNING IN PARAMETR ============== VARIABLE2 BROUGHT BACK INSIDE LIMITS. MINUIT WARNING IN PARAMETR ============== VARIABLE3 BROUGHT BACK INSIDE LIMITS. MINUIT WARNING IN PARAMETR ============== VARIABLE4 BROUGHT BACK INSIDE LIMITS. MINUIT WARNING IN PARAMETR ============== VARIABLE7 BROUGHT BACK INSIDE LIMITS. RooMinuit::optimizeConst: activating const optimization RooAbsGoodnessOfFit::initSimMode: creating slave GOF calculator #0 for state dflav (7633 dataset entries) In RooDEnergyImp::BW m_mc=3 Implementation of the BES2006 lineshape hepex/0612056 In RooDEnergyImp::BW m_mc=3 Implementation of the BES2006 lineshape hepex/0612056 In RooDEnergyImp::BW m_mc=3 Implementation of the BES2006 lineshape hepex/0612056 In RooDEnergyImp::BW m_mc=3 Implementation of the BES2006 lineshape hepex/0612056 In RooDEnergyImp::BW m_mc=3 Implementation of the BES2006 lineshape hepex/0612056 In RooDEnergyImp::BW m_mc=3 Implementation of the BES2006 lineshape hepex/0612056 In RooDEnergyImp::BW m_mc=3 Implementation of the BES2006 lineshape hepex/0612056 In RooDEnergyImp::BW m_mc=3 Implementation of the BES2006 lineshape hepex/0612056 In RooDEnergyImp::BW m_mc=3 Implementation of the BES2006 lineshape hepex/0612056 Warning evaluating beyond endpoint, x, m_xmax:3.82904 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.82878 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.82852 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.82826 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.828 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.82774 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.82749 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.82723 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.82697 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.82672 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.82646 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.8262 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.82595 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.82569 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.82544 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.82518 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.82493 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.82468 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.82442 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.82417 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.82392 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.82367 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.82341 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.82316 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.82291 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.82266 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.82241 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.82216 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.82191 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.82166 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.82141 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.82117 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.82092 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.82067 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.82042 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.82017 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81993 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81968 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81944 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81919 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81894 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.8187 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81845 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81821 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81797 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81772 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81748 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81724 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.817 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81675 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81651 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81627 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81603 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81579 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81555 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81531 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81507 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81483 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81459 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81435 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81411 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81388 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81364 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.8134 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81317 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81293 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81269 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81246 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81222 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81199 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81175 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81152 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81129 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81105 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81082 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81059 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81035 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81012 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80989 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80966 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80943 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.8092 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80897 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80874 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80851 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80828 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80805 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80782 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.8076 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80737 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80714 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80691 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80669 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80646 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80624 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80601 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80578 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80556 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80534 3.805 RooAbsGoodnessOfFit::initSimMode: creating slave GOF calculator #1 for state dbarflav (7629 dataset entries) RooAbsOptGoodnessOfFit::constOptimize(dflav) Action=Activate RooAbsReal::optimize: component f1 will be cached RooAbsReal::optimizeConst: The following unused tree branches are deactivated: (mbc,Ebeam) RooAbsOptGoodnessOfFit::constOptimize(dbarflav) Action=Activate RooAbsReal::optimize: component f1 will be cached RooAbsReal::optimizeConst: The following unused tree branches are deactivated: (mbc,Ebeam) ********** ** 13 **MIGRAD 4000 1 ********** FIRST CALL TO USER FUNCTION AT NEW START POINT, WITH IFLAG=4. START MIGRAD MINIMIZATION. STRATEGY 1. CONVERGENCE WHEN EDM .LT. 1.00e-03 FCN=-242020 FROM MIGRAD STATUS=INITIATE 42 CALLS 43 TOTAL EDM= unknown STRATEGY= 1 NO ERROR MATRIX EXT PARAMETER CURRENT GUESS STEP FIRST NO. NAME VALUE ERROR SIZE DERIVATIVE 1 N1 5.78949e+03 2.00000e+05 3.25568e-01 7.15907e+01 2 N2 5.86827e+03 2.00000e+05 3.25633e-01 7.11027e+01 3 Nbkgd1 1.84374e+03 2.00000e+05 3.22307e-01 -1.28343e+02 4 Nbkgd2 1.76077e+03 2.00000e+05 3.22238e-01 -1.37726e+02 5 md 1.86908e+00 1.20000e-03 2.01378e-01 6.68312e+01 6 p 6.25256e-01 1.40000e-01 2.08351e-01 1.00800e+01 7 sigmap1 2.22800e-03 3.80000e-03 3.30645e-01 -8.23563e-01 8 xi -1.15684e+01 9.99000e+00 3.59948e-01 7.22458e+00 ERR DEF= 0.5 MIGRAD MINIMIZATION HAS CONVERGED. MIGRAD WILL VERIFY CONVERGENCE AND ERROR MATRIX. COVARIANCE MATRIX CALCULATED SUCCESSFULLY FCN=-242020 FROM MIGRAD STATUS=CONVERGED 211 CALLS 212 TOTAL EDM=0.000268112 STRATEGY= 1 ERROR MATRIX ACCURATE EXT PARAMETER STEP FIRST NO. NAME VALUE ERROR SIZE DERIVATIVE 1 N1 5.78016e+03 8.07532e+01 2.48545e-04 -7.32338e-01 2 N2 5.85918e+03 8.08963e+01 2.47996e-04 -1.89119e-02 3 Nbkgd1 1.85276e+03 5.09364e+01 2.68228e-04 -1.58653e+00 4 Nbkgd2 1.76976e+03 4.95530e+01 2.67917e-04 -1.86280e+00 5 md 1.86908e+00 1.50456e-05 8.43945e-04 -1.16786e+00 6 p 5.99398e-01 6.27173e-02 1.41839e-02 -5.83187e-02 7 sigmap1 2.22196e-03 8.06571e-05 8.99710e-03 -3.86074e-01 8 xi -1.10322e+01 2.90968e+00 1.34801e-02 9.28151e-02 ERR DEF= 0.5 EXTERNAL ERROR MATRIX. NDIM= 16 NPAR= 8 ERR DEF=0.5 6.521e+03 2.346e+02 -7.405e+02 -2.349e+02 1.693e-05 -2.031e-01 8.574e-04 2.715e+01 2.346e+02 6.544e+03 -2.349e+02 -6.846e+02 1.557e-05 -1.867e-01 8.254e-04 2.534e+01 -7.405e+02 -2.349e+02 2.595e+03 2.351e+02 -1.693e-05 2.040e-01 -8.575e-04 -2.721e+01 -2.349e+02 -6.846e+02 2.351e+02 2.455e+03 -1.556e-05 1.876e-01 -8.254e-04 -2.540e+01 1.693e-05 1.557e-05 -1.693e-05 -1.556e-05 2.264e-10 2.890e-08 1.738e-10 -1.151e-07 -2.031e-01 -1.867e-01 2.040e-01 1.876e-01 2.890e-08 3.945e-03 -6.291e-07 -1.613e-01 8.574e-04 8.254e-04 -8.575e-04 -8.254e-04 1.738e-10 -6.291e-07 6.507e-09 5.376e-05 2.715e+01 2.534e+01 -2.721e+01 -2.540e+01 -1.151e-07 -1.613e-01 5.376e-05 8.491e+00 PARAMETER CORRELATION COEFFICIENTS NO. GLOBAL 1 2 3 4 5 6 7 8 1 0.23208 1.000 0.036 -0.180 -0.059 0.014 -0.040 0.132 0.115 2 0.22038 0.036 1.000 -0.057 -0.171 0.013 -0.037 0.126 0.108 3 0.33266 -0.180 -0.057 1.000 0.093 -0.022 0.064 -0.209 -0.183 4 0.32314 -0.059 -0.171 0.093 1.000 -0.021 0.060 -0.206 -0.176 5 0.15275 0.014 0.013 -0.022 -0.021 1.000 0.031 0.143 -0.003 6 0.89481 -0.040 -0.037 0.064 0.060 0.031 1.000 -0.124 -0.881 7 0.37688 0.132 0.126 -0.209 -0.206 0.143 -0.124 1.000 0.229 8 0.90322 0.115 0.108 -0.183 -0.176 -0.003 -0.881 0.229 1.000 ********** ** 18 **HESSE 4000 ********** COVARIANCE MATRIX CALCULATED SUCCESSFULLY FCN=-242020 FROM HESSE STATUS=OK 69 CALLS 281 TOTAL EDM=0.000682499 STRATEGY= 1 ERROR MATRIX ACCURATE EXT PARAMETER INTERNAL INTERNAL NO. NAME VALUE ERROR STEP SIZE VALUE 1 N1 5.78016e+03 8.14155e+01 9.94180e-06 -1.46323e+00 2 N2 5.85918e+03 8.15130e+01 9.91984e-06 -1.46249e+00 3 Nbkgd1 1.85276e+03 5.19721e+01 1.07291e-05 -1.50991e+00 4 Nbkgd2 1.76976e+03 5.05461e+01 1.07167e-05 -1.51129e+00 5 md 1.86908e+00 1.48570e-05 1.68789e-04 1.33397e-02 6 p 5.99398e-01 6.86858e-02 5.67355e-04 -2.90649e-01 7 sigmap1 2.22196e-03 6.69179e-05 2.79875e-01 -1.41779e+00 8 xi -1.10322e+01 3.23265e+00 5.39206e-04 8.96485e-01 ERR DEF= 0.5 EXTERNAL ERROR MATRIX. NDIM= 16 NPAR= 8 ERR DEF=0.5 6.628e+03 3.379e+02 -8.483e+02 -3.379e+02 2.578e-05 -3.873e-01 9.758e-04 3.809e+01 3.379e+02 6.644e+03 -3.379e+02 -7.852e+02 2.423e-05 -3.617e-01 9.422e-04 3.579e+01 -8.483e+02 -3.379e+02 2.701e+03 3.379e+02 -2.578e-05 3.873e-01 -9.758e-04 -3.809e+01 -3.379e+02 -7.852e+02 3.379e+02 2.555e+03 -2.423e-05 3.617e-01 -9.422e-04 -3.579e+01 2.578e-05 2.423e-05 -2.578e-05 -2.423e-05 2.207e-10 2.182e-08 1.478e-10 4.173e-07 -3.873e-01 -3.617e-01 3.873e-01 3.617e-01 2.182e-08 4.734e-03 -8.821e-07 -2.007e-01 9.758e-04 9.422e-04 -9.758e-04 -9.422e-04 1.478e-10 -8.821e-07 4.479e-09 6.733e-05 3.809e+01 3.579e+01 -3.809e+01 -3.579e+01 4.173e-07 -2.007e-01 6.733e-05 1.049e+01 PARAMETER CORRELATION COEFFICIENTS NO. GLOBAL 1 2 3 4 5 6 7 8 1 0.26304 1.000 0.051 -0.200 -0.082 0.021 -0.069 0.179 0.144 2 0.25081 0.051 1.000 -0.080 -0.191 0.020 -0.064 0.173 0.136 3 0.38177 -0.200 -0.080 1.000 0.129 -0.033 0.108 -0.281 -0.226 4 0.37318 -0.082 -0.191 0.129 1.000 -0.032 0.104 -0.279 -0.219 5 0.15854 0.021 0.020 -0.033 -0.032 1.000 0.021 0.149 0.009 6 0.91320 -0.069 -0.064 0.108 0.104 0.021 1.000 -0.192 -0.901 7 0.47460 0.179 0.173 -0.281 -0.279 0.149 -0.192 1.000 0.311 8 0.92243 0.144 0.136 -0.226 -0.219 0.009 -0.901 0.311 1.000 RooTreeData::plotOn: plotting 7633 events out of 15262 total events RooSimultaneous::plotOn(totalPdf) plot on mbc represents a slice in the index category (dflav) RooAbsReal::plotOn(totalPdf1) slice variable dflav was not projected anyway RooAbsReal::plotOn(totalPdf1) plot on mbc averages using data variables (Ebeam) RooAddPdf::syncCoefProjList(totalPdf1) creating coefficient projection integrals from current normalization: (mbc) with current range: to reference normalization: (mbc,Ebeam) with reference range: RooAddPdf::syncCoefProjList(signal1_3) creating coefficient projection integrals from current normalization: (mbc) with current range: to reference normalization: (mbc,Ebeam) with reference range: RooDataProjBinding::operator() projecting over 900 events ...................................................................................................................................................................................................................................... RooSimultaneous::plotOn(totalPdf) plot on mbc represents a slice in the index category (dflav) RooAbsPdf::plotOn(totalPdf1) directly selected PDF components: (DLineshape1_2,DLineshape1_3,argus1) RooAbsPdf::plotOn(totalPdf1) indirectly selected PDF components: (signal1_3) RooAbsReal::plotOn(totalPdf1) slice variable dflav was not projected anyway RooAbsReal::plotOn(totalPdf1) plot on mbc averages using data variables (Ebeam) RooAddPdf::syncCoefProjList(totalPdf1) creating coefficient projection integrals from current normalization: (mbc) with current range: to reference normalization: (mbc,Ebeam) with reference range: RooAddPdf::syncCoefProjList(signal1_3) creating coefficient projection integrals from current normalization: (mbc) with current range: to reference normalization: (mbc,Ebeam) with reference range: RooDataProjBinding::operator() projecting over 900 events .......................................................................................................................................................................................................................... RooSimultaneous::plotOn(totalPdf) plot on mbc represents a slice in the index category (dflav) RooAbsPdf::plotOn(totalPdf1) directly selected PDF components: (DLineshape1_3,argus1) RooAbsPdf::plotOn(totalPdf1) indirectly selected PDF components: (signal1_3) RooAbsReal::plotOn(totalPdf1) slice variable dflav was not projected anyway RooAbsReal::plotOn(totalPdf1) plot on mbc averages using data variables (Ebeam) RooAddPdf::syncCoefProjList(totalPdf1) creating coefficient projection integrals from current normalization: (mbc) with current range: to reference normalization: (mbc,Ebeam) with reference range: RooAddPdf::syncCoefProjList(signal1_3) creating coefficient projection integrals from current normalization: (mbc) with current range: to reference normalization: (mbc,Ebeam) with reference range: RooDataProjBinding::operator() projecting over 900 events .................................................................................................................................................................................................... RooSimultaneous::plotOn(totalPdf) plot on mbc represents a slice in the index category (dflav) RooAbsPdf::plotOn(totalPdf1) directly selected PDF components: (argus1) RooAbsPdf::plotOn(totalPdf1) indirectly selected PDF components: () RooAbsReal::plotOn(totalPdf1) slice variable dflav was not projected anyway RooAbsReal::plotOn(totalPdf1) plot on mbc averages using data variables (Ebeam) RooAddPdf::syncCoefProjList(totalPdf1) creating coefficient projection integrals from current normalization: (mbc) with current range: to reference normalization: (mbc,Ebeam) with reference range: RooAddPdf::syncCoefProjList(signal1_3) creating coefficient projection integrals from current normalization: (mbc) with current range: to reference normalization: (mbc,Ebeam) with reference range: RooDataProjBinding::operator() projecting over 900 events .................................................................................................................................................... RooTreeData::plotOn: plotting 7629 events out of 15262 total events RooSimultaneous::plotOn(totalPdf) plot on mbc represents a slice in the index category (dflav) RooAbsReal::plotOn(totalPdf2) slice variable dflav was not projected anyway RooAbsReal::plotOn(totalPdf2) plot on mbc averages using data variables (Ebeam) RooAddPdf::syncCoefProjList(totalPdf2) creating coefficient projection integrals from current normalization: (mbc) with current range: to reference normalization: (mbc,Ebeam) with reference range: RooAddPdf::syncCoefProjList(signal2_3) creating coefficient projection integrals from current normalization: (mbc) with current range: to reference normalization: (mbc,Ebeam) with reference range: RooDataProjBinding::operator() projecting over 900 events ........................................................................................................................................................................................................................................ RooSimultaneous::plotOn(totalPdf) plot on mbc represents a slice in the index category (dflav) RooAbsPdf::plotOn(totalPdf2) directly selected PDF components: (DLineshape2_2,DLineshape2_3,argus2) RooAbsPdf::plotOn(totalPdf2) indirectly selected PDF components: (signal2_3) RooAbsReal::plotOn(totalPdf2) slice variable dflav was not projected anyway RooAbsReal::plotOn(totalPdf2) plot on mbc averages using data variables (Ebeam) RooAddPdf::syncCoefProjList(totalPdf2) creating coefficient projection integrals from current normalization: (mbc) with current range: to reference normalization: (mbc,Ebeam) with reference range: RooAddPdf::syncCoefProjList(signal2_3) creating coefficient projection integrals from current normalization: (mbc) with current range: to reference normalization: (mbc,Ebeam) with reference range: RooDataProjBinding::operator() projecting over 900 events .......................................................................................................................................................................................................................... RooSimultaneous::plotOn(totalPdf) plot on mbc represents a slice in the index category (dflav) RooAbsPdf::plotOn(totalPdf2) directly selected PDF components: (DLineshape2_3,argus2) RooAbsPdf::plotOn(totalPdf2) indirectly selected PDF components: (signal2_3) RooAbsReal::plotOn(totalPdf2) slice variable dflav was not projected anyway RooAbsReal::plotOn(totalPdf2) plot on mbc averages using data variables (Ebeam) RooAddPdf::syncCoefProjList(totalPdf2) creating coefficient projection integrals from current normalization: (mbc) with current range: to reference normalization: (mbc,Ebeam) with reference range: RooAddPdf::syncCoefProjList(signal2_3) creating coefficient projection integrals from current normalization: (mbc) with current range: to reference normalization: (mbc,Ebeam) with reference range: RooDataProjBinding::operator() projecting over 900 events .................................................................................................................................................................................................... RooSimultaneous::plotOn(totalPdf) plot on mbc represents a slice in the index category (dflav) RooAbsPdf::plotOn(totalPdf2) directly selected PDF components: (argus2) RooAbsPdf::plotOn(totalPdf2) indirectly selected PDF components: () RooAbsReal::plotOn(totalPdf2) slice variable dflav was not projected anyway RooAbsReal::plotOn(totalPdf2) plot on mbc averages using data variables (Ebeam) RooAddPdf::syncCoefProjList(totalPdf2) creating coefficient projection integrals from current normalization: (mbc) with current range: to reference normalization: (mbc,Ebeam) with reference range: RooAddPdf::syncCoefProjList(signal2_3) creating coefficient projection integrals from current normalization: (mbc) with current range: to reference normalization: (mbc,Ebeam) with reference range: RooDataProjBinding::operator() projecting over 900 events .................................................................................................................................................... Info in : eps file /home/xs32/work/CLEO/analysis/DHad/7.06/fig/R/8.3/data_Single_Dp_to_Kspi__Dm_to_Kspi.eps has been created RooSimultaneous::plotOn(totalPdf) plot on mbc averages with data index category (dflav) RooAbsReal::plotOn(totalPdf) plot on mbc integrates over variables (dflav) RooAbsReal::plotOn(totalPdf) plot on mbc averages using data variables (Ebeam) RooAddPdf::syncCoefProjList(totalPdf) creating coefficient projection integrals from current normalization: (mbc,dflav) with current range: to reference normalization: (mbc,Ebeam,dflav) with reference range: RooAddPdf::syncCoefProjList(totalPdf1) creating coefficient projection integrals from current normalization: (mbc) with current range: to reference normalization: (mbc,Ebeam) with reference range: RooAddPdf::syncCoefProjList(signal1_3) creating coefficient projection integrals from current normalization: (mbc) with current range: to reference normalization: (mbc,Ebeam) with reference range: RooAddPdf::syncCoefProjList(totalPdf2) creating coefficient projection integrals from current normalization: (mbc) with current range: to reference normalization: (mbc,Ebeam) with reference range: RooAddPdf::syncCoefProjList(signal2_3) creating coefficient projection integrals from current normalization: (mbc) with current range: to reference normalization: (mbc,Ebeam) with reference range: RooDataProjBinding::operator() projecting over 900 events ........................................................................................................................................................................................................................................ RooSimultaneous::plotOn(totalPdf) plot on mbc averages with data index category (dflav) RooAbsPdf::plotOn(totalPdf) directly selected PDF components: (argus1,argus2) RooAbsPdf::plotOn(totalPdf) indirectly selected PDF components: (totalPdf1,totalPdf2) RooAbsReal::plotOn(totalPdf) plot on mbc integrates over variables (dflav) RooAbsReal::plotOn(totalPdf) plot on mbc averages using data variables (Ebeam) RooAddPdf::syncCoefProjList(totalPdf) creating coefficient projection integrals from current normalization: (mbc,dflav) with current range: to reference normalization: (mbc,Ebeam,dflav) with reference range: RooAddPdf::syncCoefProjList(totalPdf1) creating coefficient projection integrals from current normalization: (mbc) with current range: to reference normalization: (mbc,Ebeam) with reference range: RooAddPdf::syncCoefProjList(signal1_3) creating coefficient projection integrals from current normalization: (mbc) with current range: to reference normalization: (mbc,Ebeam) with reference range: RooAddPdf::syncCoefProjList(totalPdf2) creating coefficient projection integrals from current normalization: (mbc) with current range: to reference normalization: (mbc,Ebeam) with reference range: RooAddPdf::syncCoefProjList(signal2_3) creating coefficient projection integrals from current normalization: (mbc) with current range: to reference normalization: (mbc,Ebeam) with reference range: RooDataProjBinding::operator() projecting over 900 events .................................................................................................................................................... Fit done. Save txtfile as: /home/xs32/work/CLEO/analysis/DHad/7.06/dat/fit/R/8.3/data_Single_Dp_to_Kspi__Dm_to_Kspi.txt png file generated. Done.