*** Performing the Fit *** Config file name = ./configFiles/mSlice_A10_m1295.cfg ## CONFIGURATION INFO DISPLAY ## ############################################ ############# REACTION INFO ############# ############################################ REACTION NAME: kpkm_pi0 PARTICLE LIST: 5 1. Beam 2. Proton 3. Kp 4. Km 5. Pi0 DATA READER: KStarKDataReader /home/glueXuser/KStarK_Mike/runSimple/mSliceA10/data/all_kpkmpi0V2_stage2_A10_m1295.root ACC MC READER: KStarKDataReader /home/glueXuser/KStarK_Mike/runSimple/mSliceA10/data/all_MCseenV2_stage2_A10_m1295.root GEN MC READER: KStarKDataReader /home/glueXuser/KStarK_Mike/runSimple/mSliceA10/data/all_tree_thrownFlatV2_stage2_A10_m1295.root NORMALIZATION INTEGRAL FILE: kppi0_km_pol0.ni GPU DEVICE NUMBER: -1 ******************************************** *********** COHERENT SUM INFO ************ ******************************************** REACTION NAME: kpkm_pi0 COHERENT SUM NAME: type2 ++++++++++++++++++++++++++++++++++++++++++++ +++++++++++++ AMPLITUDE INFO +++++++++++++ ++++++++++++++++++++++++++++++++++++++++++++ REACTION NAME: kpkm_pi0 COHERENT SUM NAME: type2 AMPLITUDE NAME: j0l0 FACTORS: 1 1. Zlm_Mike 0 0 0 -1 0 0.0 beam_configs/beam_config_all_0.config kpkm_pi0 EXTRA PERMUTATIONS: 0 CONSTRAINTS: 0 PARAMETERS: 0 INITIAL VALUE: (10,0) REAL? 0 FIXED? 0 SCALE: 1.0 ++++++++++++++++++++++++++++++++++++++++++++ +++++++++++++ AMPLITUDE INFO +++++++++++++ ++++++++++++++++++++++++++++++++++++++++++++ REACTION NAME: kpkm_pi0 COHERENT SUM NAME: type2 AMPLITUDE NAME: j0l1s1 FACTORS: 1 1. Zlm_Mike 0 0 1 -1 1 0.0 beam_configs/beam_config_all_0.config kpkm_pi0 EXTRA PERMUTATIONS: 0 CONSTRAINTS: 0 PARAMETERS: 0 INITIAL VALUE: (10,0) REAL? 0 FIXED? 0 SCALE: 1.0 ++++++++++++++++++++++++++++++++++++++++++++ +++++++++++++ AMPLITUDE INFO +++++++++++++ ++++++++++++++++++++++++++++++++++++++++++++ REACTION NAME: kpkm_pi0 COHERENT SUM NAME: type2 AMPLITUDE NAME: j1l1s0n1 FACTORS: 1 1. Zlm_Mike 1 -1 1 -1 0 0.0 beam_configs/beam_config_all_0.config kpkm_pi0 EXTRA PERMUTATIONS: 0 CONSTRAINTS: 0 PARAMETERS: 0 INITIAL VALUE: (10,0) REAL? 0 FIXED? 0 SCALE: 1.0 ++++++++++++++++++++++++++++++++++++++++++++ +++++++++++++ AMPLITUDE INFO +++++++++++++ ++++++++++++++++++++++++++++++++++++++++++++ REACTION NAME: kpkm_pi0 COHERENT SUM NAME: type2 AMPLITUDE NAME: j1l1s00 FACTORS: 1 1. Zlm_Mike 1 0 1 -1 0 0.0 beam_configs/beam_config_all_0.config kpkm_pi0 EXTRA PERMUTATIONS: 0 CONSTRAINTS: 0 PARAMETERS: 0 INITIAL VALUE: (10,0) REAL? 0 FIXED? 0 SCALE: 1.0 ++++++++++++++++++++++++++++++++++++++++++++ +++++++++++++ AMPLITUDE INFO +++++++++++++ ++++++++++++++++++++++++++++++++++++++++++++ REACTION NAME: kpkm_pi0 COHERENT SUM NAME: type2 AMPLITUDE NAME: j1l1s0p1 FACTORS: 1 1. Zlm_Mike 1 1 1 -1 0 0.0 beam_configs/beam_config_all_0.config kpkm_pi0 EXTRA PERMUTATIONS: 0 CONSTRAINTS: 0 PARAMETERS: 0 INITIAL VALUE: (10,0) REAL? 0 FIXED? 0 SCALE: 1.0 ++++++++++++++++++++++++++++++++++++++++++++ +++++++++++++ AMPLITUDE INFO +++++++++++++ ++++++++++++++++++++++++++++++++++++++++++++ REACTION NAME: kpkm_pi0 COHERENT SUM NAME: type2 AMPLITUDE NAME: j1l0s1n1 FACTORS: 1 1. Zlm_Mike 1 -1 0 -1 1 0.0 beam_configs/beam_config_all_0.config kpkm_pi0 EXTRA PERMUTATIONS: 0 CONSTRAINTS: 0 PARAMETERS: 0 INITIAL VALUE: (10,0) REAL? 0 FIXED? 0 SCALE: 1.0 ++++++++++++++++++++++++++++++++++++++++++++ +++++++++++++ AMPLITUDE INFO +++++++++++++ ++++++++++++++++++++++++++++++++++++++++++++ REACTION NAME: kpkm_pi0 COHERENT SUM NAME: type2 AMPLITUDE NAME: j1l0s10 FACTORS: 1 1. Zlm_Mike 1 0 0 -1 1 0.0 beam_configs/beam_config_all_0.config kpkm_pi0 EXTRA PERMUTATIONS: 0 CONSTRAINTS: 0 PARAMETERS: 0 INITIAL VALUE: (10,0) REAL? 0 FIXED? 0 SCALE: 1.0 ++++++++++++++++++++++++++++++++++++++++++++ +++++++++++++ AMPLITUDE INFO +++++++++++++ ++++++++++++++++++++++++++++++++++++++++++++ REACTION NAME: kpkm_pi0 COHERENT SUM NAME: type2 AMPLITUDE NAME: j1l0s1p1 FACTORS: 1 1. Zlm_Mike 1 1 0 -1 1 0.0 beam_configs/beam_config_all_0.config kpkm_pi0 EXTRA PERMUTATIONS: 0 CONSTRAINTS: 0 PARAMETERS: 0 INITIAL VALUE: (10,0) REAL? 0 FIXED? 0 SCALE: 1.0 ++++++++++++++++++++++++++++++++++++++++++++ +++++++++++++ AMPLITUDE INFO +++++++++++++ ++++++++++++++++++++++++++++++++++++++++++++ REACTION NAME: kpkm_pi0 COHERENT SUM NAME: type2 AMPLITUDE NAME: j1l1s1n1 FACTORS: 1 1. Zlm_Mike 1 -1 1 -1 1 0.0 beam_configs/beam_config_all_0.config kpkm_pi0 EXTRA PERMUTATIONS: 0 CONSTRAINTS: 0 PARAMETERS: 0 INITIAL VALUE: (10,0) REAL? 0 FIXED? 0 SCALE: 1.0 ++++++++++++++++++++++++++++++++++++++++++++ +++++++++++++ AMPLITUDE INFO +++++++++++++ ++++++++++++++++++++++++++++++++++++++++++++ REACTION NAME: kpkm_pi0 COHERENT SUM NAME: type2 AMPLITUDE NAME: j1l1s10 FACTORS: 1 1. Zlm_Mike 1 0 1 -1 1 0.0 beam_configs/beam_config_all_0.config kpkm_pi0 EXTRA PERMUTATIONS: 0 CONSTRAINTS: 0 PARAMETERS: 0 INITIAL VALUE: (10,0) REAL? 0 FIXED? 0 SCALE: 1.0 ++++++++++++++++++++++++++++++++++++++++++++ +++++++++++++ AMPLITUDE INFO +++++++++++++ ++++++++++++++++++++++++++++++++++++++++++++ REACTION NAME: kpkm_pi0 COHERENT SUM NAME: type2 AMPLITUDE NAME: j1l1s1p1 FACTORS: 1 1. Zlm_Mike 1 1 1 -1 1 0.0 beam_configs/beam_config_all_0.config kpkm_pi0 EXTRA PERMUTATIONS: 0 CONSTRAINTS: 0 PARAMETERS: 0 INITIAL VALUE: (10,0) REAL? 0 FIXED? 0 SCALE: 1.0 ********** ** 1 **SET STRATEGY 1 ********** NOW USING STRATEGY 1: TRY TO BALANCE SPEED AGAINST RELIABILITY ********** ** 2 **SET EPS 1e-13 ********** FLOATING-POINT NUMBERS ASSUMED ACCURATE TO 1e-13 ## AMPLITUDE MANAGER INITIALIZATION ## Creating amplitude manager for reaction: kpkm_pi0 particle index assignment: Beam -->> 0 particle index assignment: Proton -->> 1 particle index assignment: Kp -->> 2 particle index assignment: Km -->> 3 particle index assignment: Pi0 -->> 4 BeamProperties: Parsing config file beam_configs/beam_config_all_0.config BeamProperties: Using flux from input ROOT histogram file BeamProperties: Using polarization fraction from input ROOT histogram file PARAMETER DEFINITIONS: NO. NAME VALUE STEP SIZE LIMITS 1 kpkm_pi0::type2::j0l0_re 10 0.1 no limits 2 kpkm_pi0::type2::j0l0_im 0 0.01 no limits 3 kpkm_pi0::type2::j0l1s1_re 10 0.1 no limits 4 kpkm_pi0::type2::j0l1s1_im 0 0.01 no limits 5 kpkm_pi0::type2::j1l1s0n1_re 10 0.1 no limits 6 kpkm_pi0::type2::j1l1s0n1_im 0 0.01 no limits 7 kpkm_pi0::type2::j1l1s00_re 10 0.1 no limits 8 kpkm_pi0::type2::j1l1s00_im 0 0.01 no limits 9 kpkm_pi0::type2::j1l1s0p1_re 10 0.1 no limits 10 kpkm_pi0::type2::j1l1s0p1_im 0 0.01 no limits 11 kpkm_pi0::type2::j1l0s1n1_re 10 0.1 no limits 12 kpkm_pi0::type2::j1l0s1n1_im 0 0.01 no limits 13 kpkm_pi0::type2::j1l0s10_re 10 0.1 no limits 14 kpkm_pi0::type2::j1l0s10_im 0 0.01 no limits 15 kpkm_pi0::type2::j1l0s1p1_re 10 0.1 no limits 16 kpkm_pi0::type2::j1l0s1p1_im 0 0.01 no limits 17 kpkm_pi0::type2::j1l1s1n1_re 10 0.1 no limits 18 kpkm_pi0::type2::j1l1s1n1_im 0 0.01 no limits 19 kpkm_pi0::type2::j1l1s10_re 10 0.1 no limits 20 kpkm_pi0::type2::j1l1s10_im 0 0.01 no limits 21 kpkm_pi0::type2::j1l1s1p1_re 10 0.1 no limits 22 kpkm_pi0::type2::j1l1s1p1_im 0 0.01 no limits /home/glueXuser/KStarK_Mike/runSimple/mSliceA10/data/all_kpkmpi0V2_stage2_A10_m1295.root /home/glueXuser/KStarK_Mike/runSimple/mSliceA10/data/all_tree_thrownFlatV2_stage2_A10_m1295.root /home/glueXuser/KStarK_Mike/runSimple/mSliceA10/data/all_MCseenV2_stage2_A10_m1295.root Allocating Data and Amplitude Array in LikelihoodCalculator for kpkm_pi0... 5 Done. Loading acccepted Monte Carlo... 5 Done. Calculating integrals... Done. LIKELIHOOD BEFORE MINIMIZATION: -3783.7 ********** ** 3 **SET EPS 1e-13 ********** FLOATING-POINT NUMBERS ASSUMED ACCURATE TO 1e-13 ********** ** 4 **SET STRATEGY 1 ********** NOW USING STRATEGY 1: TRY TO BALANCE SPEED AGAINST RELIABILITY ********** ** 5 **MIGRAD 5000 ********** FIRST CALL TO USER FUNCTION AT NEW START POINT, WITH IFLAG=4. START MIGRAD MINIMIZATION. STRATEGY 1. CONVERGENCE WHEN EDM .LT. 1.00e-04 FCN=-6595.33 FROM MIGRAD STATUS=INITIATE 350 351 TOTAL EDM= unknown STRATEGY= 1 NO ERROR MATRIX EXT PARAMETER CURRENT GUESS STEP FIRST NO. NAME VALUE ERROR SIZE DERIVATIVE 1 kpkm_pi0::type2::j0l0_re 183.89 0.1 166.97 0.19805 2 kpkm_pi0::type2::j0l0_im 71.899 0.01 0 0.10043 3 kpkm_pi0::type2::j0l1s1_re 10 0.1 0 0.061986 4 kpkm_pi0::type2::j0l1s1_im 0 0.01 0 0.025419 5 kpkm_pi0::type2::j1l1s0n1_re 10 0.1 0 0.24185 6 kpkm_pi0::type2::j1l1s0n1_im 0 0.01 0 -0.13279 7 kpkm_pi0::type2::j1l1s00_re 10 0.1 0 -0.20847 8 kpkm_pi0::type2::j1l1s00_im 0 0.01 0 -0.096387 9 kpkm_pi0::type2::j1l1s0p1_re 10 0.1 0 -0.090299 10 kpkm_pi0::type2::j1l1s0p1_im 0 0.01 0 -0.25944 11 kpkm_pi0::type2::j1l0s1n1_re 10 0.1 0 -0.10017 12 kpkm_pi0::type2::j1l0s1n1_im 0 0.01 0 -0.039659 13 kpkm_pi0::type2::j1l0s10_re 10 0.1 0 -0.057378 14 kpkm_pi0::type2::j1l0s10_im 0 0.01 0 -0.0060912 15 kpkm_pi0::type2::j1l0s1p1_re 10 0.1 0 0.13722 16 kpkm_pi0::type2::j1l0s1p1_im 0 0.01 0 0.039377 17 kpkm_pi0::type2::j1l1s1n1_re 10 0.1 0 0.051124 18 kpkm_pi0::type2::j1l1s1n1_im 0 0.01 0 0.091911 19 kpkm_pi0::type2::j1l1s10_re 10 0.1 0 0.018342 20 kpkm_pi0::type2::j1l1s10_im 0 0.01 0 -0.0024891 21 kpkm_pi0::type2::j1l1s1p1_re 10 0.1 0 0.092157 22 kpkm_pi0::type2::j1l1s1p1_im 0 0.01 0 -0.04124 MIGRAD MINIMIZATION HAS CONVERGED. MIGRAD WILL VERIFY CONVERGENCE AND ERROR MATRIX. COVARIANCE MATRIX CALCULATED SUCCESSFULLY FCN=-6621.18 FROM MIGRAD STATUS=CONVERGED 2038 2039 TOTAL EDM=1.47914e-05 STRATEGY= 1 ERROR MATRIX ACCURATE EXT PARAMETER STEP FIRST NO. NAME VALUE ERROR SIZE DERIVATIVE 1 kpkm_pi0::type2::j0l0_re 154.41 51.894 0.5425 9.7255e-05 2 kpkm_pi0::type2::j0l0_im 52.398 151.15 0.98542 -1.0212e-05 3 kpkm_pi0::type2::j0l1s1_re 4.0258 85.431 1.6164 -3.4877e-05 4 kpkm_pi0::type2::j0l1s1_im -83.653 50.122 2.9705 -6.2321e-06 5 kpkm_pi0::type2::j1l1s0n1_re -49.024 78.128 1.1529 9.458e-06 6 kpkm_pi0::type2::j1l1s0n1_im 74.742 53.153 1.1874 4.8839e-05 7 kpkm_pi0::type2::j1l1s00_re 28.682 45.952 0.96484 2.8566e-05 8 kpkm_pi0::type2::j1l1s00_im -44.651 36.404 1.5246 1.7427e-05 9 kpkm_pi0::type2::j1l1s0p1_re 24.079 74.697 1.179 0.00010854 10 kpkm_pi0::type2::j1l1s0p1_im -73.59 31.695 1.1607 -1.1208e-05 11 kpkm_pi0::type2::j1l0s1n1_re 1.4108 55.252 1.1175 -0.00010553 12 kpkm_pi0::type2::j1l0s1n1_im -52.68 19.355 1.0594 -4.0226e-05 13 kpkm_pi0::type2::j1l0s10_re 54.424 67.951 1.105 0.00011028 14 kpkm_pi0::type2::j1l0s10_im -67.678 61.843 2.1075 1.7869e-05 15 kpkm_pi0::type2::j1l0s1p1_re -5.5791 33.965 1.0896 -9.6262e-05 16 kpkm_pi0::type2::j1l0s1p1_im 27.533 21.794 1.085 5.0777e-05 17 kpkm_pi0::type2::j1l1s1n1_re -28.33 42.241 2.0197 5.9307e-05 18 kpkm_pi0::type2::j1l1s1n1_im -23.155 44.271 2.1893 -1.5274e-06 19 kpkm_pi0::type2::j1l1s10_re 21.69 40.675 2.7318 -1.3518e-05 20 kpkm_pi0::type2::j1l1s10_im 14.061 34.624 1.528 -8.8329e-05 21 kpkm_pi0::type2::j1l1s1p1_re -51.135 36.033 2.0258 2.0671e-06 22 kpkm_pi0::type2::j1l1s1p1_im -3.6698 59.657 2.1816 3.2434e-05 EXTERNAL ERROR MATRIX. NDIM= 100 NPAR= 22 ERR DEF=1 2.69e+03 -7.66e+03 2.28e+04 -4.16e+03 1.24e+04 7.3e+03 -217 778 82.9 2.51e+03 3.85e+03 -1.11e+04 -5.96e+03 -690 6.1e+03 2.39e+03 -7.32e+03 -4.15e+03 -164 3.53e+03 2.83e+03 -2.22e+03 6.66e+03 3.67e+03 205 -3.22e+03 -2.19e+03 2.11e+03 -1.31e+03 4.19e+03 2.22e+03 -123 -1.8e+03 -1.38e+03 1.13e+03 1.33e+03 -3.66e+03 1.08e+04 5.86e+03 266 -4.88e+03 -3.33e+03 3.17e+03 1.96e+03 5.58e+03 -1.14e+03 3.66e+03 2.11e+03 47.4 -1.57e+03 -1.45e+03 1.12e+03 726 1.75e+03 1e+03 -2.61e+03 7.77e+03 4.05e+03 468 -3.89e+03 -2.44e+03 2.26e+03 1.36e+03 3.56e+03 1.26e+03 3.05e+03 -91.4 379 235 157 -205 -51.3 141 -30.9 247 67.6 200 375 -3.4e+03 9.94e+03 5.43e+03 239 -4.87e+03 -3.2e+03 2.97e+03 1.68e+03 4.76e+03 1.61e+03 3.38e+03 181 4.62e+03 -2.68e+03 8.03e+03 4.23e+03 -399 -3.95e+03 -2.44e+03 2.3e+03 1.45e+03 3.74e+03 1.14e+03 2.77e+03 172 3.43e+03 3.82e+03 1.35e+03 -4.12e+03 -2.24e+03 -108 1.87e+03 1.48e+03 -1.22e+03 -844 -1.99e+03 -728 -1.16e+03 60 -1.78e+03 -1.41e+03 1.15e+03 331 -968 -642 -26.8 691 381 -326 -71.3 -380 -110 -232 -160 -447 -395 222 475 -1.14e+03 3.55e+03 1.96e+03 25.6 -1.96e+03 -1.24e+03 975 771 1.37e+03 640 1.33e+03 38.5 1.36e+03 1.39e+03 -588 -333 1.78e+03 1.34e+03 -3.98e+03 -2.18e+03 -196 1.87e+03 1.32e+03 -1.04e+03 -750 -1.72e+03 -653 -1.36e+03 163 -1.6e+03 -1.26e+03 670 -41.9 -584 1.96e+03 744 -2.22e+03 -1.03e+03 -412 1.1e+03 475 -607 -312 -1.04e+03 -368 -1e+03 -182 -950 -790 143 -166 -307 506 1.65e+03 -1.12e+03 3.23e+03 1.83e+03 -27.5 -1.8e+03 -1.21e+03 967 582 1.36e+03 460 910 -130 1.42e+03 1.16e+03 -806 -403 707 -503 201 1.2e+03 -65.7 603 346 42.1 142 -302 152 316 446 223 76.2 20.2 84.6 193 -342 140 -471 -352 22.1 -68.6 1.3e+03 2.47e+03 -7.36e+03 -4.06e+03 -132 3.37e+03 2.4e+03 -2.04e+03 -1.44e+03 -3.46e+03 -1.24e+03 -2.34e+03 89.3 -3.08e+03 -2.48e+03 1.43e+03 125 -1.29e+03 2e+03 708 -1.1e+03 -280 3.56e+03 PARAMETER CORRELATION COEFFICIENTS NO. GLOBAL 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 1: 0.993 1.000 -0.977 -0.939 -0.083 0.949 0.867 -0.931 -0.692 -0.943 -0.695 -0.910 -0.091 -0.965 -0.835 0.766 0.292 2: 0.997 -0.977 1.000 0.958 0.103 -0.937 -0.911 0.959 0.762 0.953 0.763 0.931 0.129 0.968 0.859 -0.803 -0.294 3: 0.978 -0.939 0.958 1.000 0.019 -0.892 -0.914 0.935 0.714 0.919 0.780 0.857 0.142 0.935 0.800 -0.771 -0.345 4: 0.762 -0.083 0.103 0.019 1.000 -0.176 -0.061 0.089 -0.067 0.071 0.030 0.169 0.162 0.070 -0.129 -0.063 -0.025 5: 0.987 0.949 -0.937 -0.892 -0.176 1.000 0.850 -0.897 -0.633 -0.837 -0.633 -0.902 -0.136 -0.917 -0.818 0.707 0.406 6: 0.970 0.867 -0.911 -0.914 -0.061 0.850 1.000 -0.897 -0.713 -0.838 -0.859 -0.830 -0.050 -0.887 -0.743 0.820 0.329 7: 0.973 -0.931 0.959 0.935 0.089 -0.897 -0.897 1.000 0.675 0.922 0.770 0.891 0.158 0.951 0.808 -0.783 -0.325 8: 0.889 -0.692 0.762 0.714 -0.067 -0.633 -0.713 0.675 1.000 0.720 0.629 0.675 -0.044 0.680 0.643 -0.682 -0.090 9: 0.985 -0.943 0.953 0.919 0.071 -0.837 -0.838 0.922 0.720 1.000 0.740 0.864 0.171 0.939 0.810 -0.784 -0.234 10: 0.916 -0.695 0.763 0.780 0.030 -0.633 -0.859 0.770 0.629 0.740 1.000 0.722 0.110 0.746 0.583 -0.676 -0.159 11: 0.975 -0.910 0.931 0.857 0.169 -0.902 -0.830 0.891 0.675 0.864 0.722 1.000 0.187 0.901 0.811 -0.619 -0.193 12: 0.801 -0.091 0.129 0.142 0.162 -0.136 -0.050 0.158 -0.044 0.171 0.110 0.187 1.000 0.138 0.144 0.091 -0.379 13: 0.984 -0.965 0.968 0.935 0.070 -0.917 -0.887 0.951 0.680 0.939 0.746 0.901 0.138 1.000 0.815 -0.770 -0.302 14: 0.928 -0.835 0.859 0.800 -0.129 -0.818 -0.743 0.808 0.643 0.810 0.583 0.811 0.144 0.815 1.000 -0.670 -0.293 15: 0.937 0.766 -0.803 -0.771 -0.063 0.707 0.820 -0.783 -0.682 -0.784 -0.676 -0.619 0.091 -0.770 -0.670 1.000 0.300 16: 0.839 0.292 -0.294 -0.345 -0.025 0.406 0.329 -0.325 -0.090 -0.234 -0.159 -0.193 -0.379 -0.302 -0.293 0.300 1.000 17: 0.853 -0.521 0.556 0.544 0.012 -0.594 -0.552 0.502 0.501 0.433 0.478 0.569 0.047 0.473 0.533 -0.410 -0.362 1.000 -0.313 -0.179 0.483 -0.310 -0.513 18: 0.841 0.583 -0.595 -0.578 -0.089 0.540 0.561 -0.512 -0.465 -0.520 -0.466 -0.555 0.190 -0.531 -0.460 0.445 -0.043 -0.313 1.000 0.281 -0.328 -0.221 0.758 19: 0.679 0.353 -0.361 -0.298 -0.202 0.346 0.220 -0.325 -0.211 -0.342 -0.285 -0.446 -0.231 -0.344 -0.314 0.104 -0.188 -0.179 0.281 1.000 0.142 0.015 0.292 20: 0.876 -0.626 0.617 0.619 -0.016 -0.666 -0.658 0.608 0.462 0.526 0.419 0.475 -0.193 0.603 0.541 -0.686 -0.535 0.483 -0.328 0.142 1.000 -0.055 -0.531 21: 0.789 -0.035 0.111 0.112 0.023 0.051 -0.158 0.092 0.241 0.166 0.195 0.038 0.029 0.035 0.087 -0.280 0.179 -0.310 -0.221 0.015 -0.055 1.000 -0.130 22: 0.917 0.797 -0.816 -0.796 -0.044 0.722 0.757 -0.745 -0.661 -0.775 -0.658 -0.711 0.077 -0.760 -0.671 0.707 0.096 -0.513 0.758 0.292 -0.531 -0.130 1.000 MIGRAD evaluation total wall time: 0.53565 s. average time per function call: 0.26257 ms. LIKELIHOOD AFTER MINIMIZATION: -6621.2 Loading generated Monte Carlo... 5 Done. Calculating integrals... Done. Loading acccepted Monte Carlo... 5 Done. Calculating integrals... Done.