*** Performing the Fit *** 

Config file name = ./configFiles/mSlice_A10_m1245.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_m1245.root
      ACC MC READER:  KStarKDataReader
				/home/glueXuser/KStarK_Mike/runSimple/mSliceA10/data/all_MCseenV2_stage2_A10_m1245.root
      GEN MC READER:  KStarKDataReader
				/home/glueXuser/KStarK_Mike/runSimple/mSliceA10/data/all_tree_thrownFlatV2_stage2_A10_m1245.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
 **********
 **    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
/home/glueXuser/KStarK_Mike/runSimple/mSliceA10/data/all_kpkmpi0V2_stage2_A10_m1245.root
/home/glueXuser/KStarK_Mike/runSimple/mSliceA10/data/all_tree_thrownFlatV2_stage2_A10_m1245.root
/home/glueXuser/KStarK_Mike/runSimple/mSliceA10/data/all_MCseenV2_stage2_A10_m1245.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:  -819.42
 **********
 **    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=-1261.7 FROM MIGRAD     STATUS=INITIATE      241         242 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        57.797           0.1        47.797     -0.067079
    2     kpkm_pi0::type2::j0l0_im       -68.922          0.01             0     -0.050565
    3   kpkm_pi0::type2::j0l1s1_re            10           0.1             0      -0.13905
    4   kpkm_pi0::type2::j0l1s1_im             0          0.01             0       0.22113
    5 kpkm_pi0::type2::j1l1s0n1_re            10           0.1             0      0.075204
    6 kpkm_pi0::type2::j1l1s0n1_im             0          0.01             0       0.10524
    7  kpkm_pi0::type2::j1l1s00_re            10           0.1             0       0.10931
    8  kpkm_pi0::type2::j1l1s00_im             0          0.01             0     -0.082005
    9 kpkm_pi0::type2::j1l1s0p1_re            10           0.1             0       0.16106
   10 kpkm_pi0::type2::j1l1s0p1_im             0          0.01             0     0.0014632
   11 kpkm_pi0::type2::j1l0s1n1_re            10           0.1             0       0.31436
   12 kpkm_pi0::type2::j1l0s1n1_im             0          0.01             0     -0.022225
   13  kpkm_pi0::type2::j1l0s10_re            10           0.1             0       -0.2113
   14  kpkm_pi0::type2::j1l0s10_im             0          0.01             0       0.26019
   15 kpkm_pi0::type2::j1l0s1p1_re            10           0.1             0      0.036577
   16 kpkm_pi0::type2::j1l0s1p1_im             0          0.01             0       0.27086

 MIGRAD MINIMIZATION HAS CONVERGED.
 MIGRAD WILL VERIFY CONVERGENCE AND ERROR MATRIX.
 COVARIANCE MATRIX CALCULATED SUCCESSFULLY
 FCN=-1283.43 FROM MIGRAD     STATUS=CONVERGED    1262        1263 TOTAL

                     EDM=1.29703e-05    STRATEGY= 1      ERROR MATRIX ACCURATE 
  EXT PARAMETER                                                   STEP         FIRST   
  NO.   NAME                        VALUE          ERROR          SIZE      DERIVATIVE 
    1     kpkm_pi0::type2::j0l0_re        40.551        177.81       0.29041    -0.0003303
    2     kpkm_pi0::type2::j0l0_im       -54.552        134.06       0.28121    0.00013326
    3   kpkm_pi0::type2::j0l1s1_re        23.236        225.06       0.84531    7.7347e-05
    4   kpkm_pi0::type2::j0l1s1_im       -68.074        80.826        0.8476   -1.8321e-05
    5 kpkm_pi0::type2::j1l1s0n1_re        1.7104        45.779       0.47323    0.00013584
    6 kpkm_pi0::type2::j1l1s0n1_im       -13.341        17.567       0.52722   -9.9904e-05
    7  kpkm_pi0::type2::j1l1s00_re        6.6965        18.424        0.5129    0.00012766
    8  kpkm_pi0::type2::j1l1s00_im       -3.3623        26.886       0.46747    4.7802e-05
    9 kpkm_pi0::type2::j1l1s0p1_re        12.318        28.755       0.50502   -5.2889e-05
   10 kpkm_pi0::type2::j1l1s0p1_im        7.2059        43.031       0.49134     7.984e-05
   11 kpkm_pi0::type2::j1l0s1n1_re       -45.133        118.53        0.4892    8.4625e-05
   12 kpkm_pi0::type2::j1l0s1n1_im       -36.073        150.04       0.44294    4.9789e-05
   13  kpkm_pi0::type2::j1l0s10_re       -2.7397        103.83       0.58877     4.292e-05
   14  kpkm_pi0::type2::j1l0s10_im       -31.548        19.072       0.57095    -0.0001823
   15 kpkm_pi0::type2::j1l0s1p1_re        59.719        39.541       0.45708   -3.3323e-05
   16 kpkm_pi0::type2::j1l0s1p1_im        11.698        194.84       0.47198    1.6224e-05

 EXTERNAL ERROR MATRIX.    NDIM= 100    NPAR= 16    ERR DEF=1
    3.16e+04
    2.37e+04    1.8e+04
    3.97e+04      3e+04   5.07e+04
    1.36e+04   1.02e+04   1.73e+04   6.53e+03
    7.78e+03   5.86e+03   9.77e+03   3.32e+03    2.1e+03
    1.03e+03        826   1.34e+03        585        223        309
    1.91e+03   1.45e+03   2.34e+03        867        453       84.4        339
    4.03e+03   3.07e+03    5.1e+03   1.84e+03        954        203        317        723
   -4.26e+03  -3.22e+03  -5.36e+03  -1.93e+03  -1.06e+03       -243       -299       -582        827
    7.23e+03   5.42e+03   9.07e+03   3.05e+03   1.74e+03        204        436        919       -914   1.85e+03
    2.09e+04   1.56e+04   2.61e+04   8.83e+03   5.09e+03        612   1.23e+03   2.64e+03  -2.71e+03   4.84e+03    1.4e+04
   -2.65e+04     -2e+04  -3.35e+04  -1.15e+04  -6.54e+03       -892  -1.62e+03  -3.42e+03   3.61e+03  -6.09e+03  -1.75e+04
    2.25e+04
    1.82e+04   1.36e+04   2.27e+04   7.61e+03   4.49e+03        484   1.02e+03   2.23e+03  -2.35e+03   4.18e+03   1.21e+04
   -1.52e+04   1.08e+04
   -1.53e+03   -1.2e+03  -2.04e+03       -800       -401       -105       -129       -207        252       -341       -927
    1.36e+03       -772        364
   -6.47e+03  -4.76e+03  -7.98e+03  -2.68e+03  -1.57e+03       -146       -334       -771        802  -1.48e+03  -4.33e+03
    5.28e+03  -3.78e+03        285   1.56e+03
    3.45e+04    2.6e+04   4.35e+04   1.48e+04   8.53e+03   1.09e+03   2.04e+03   4.35e+03  -4.62e+03   7.91e+03   2.28e+04
    -2.9e+04   1.99e+04  -1.72e+03  -7.07e+03    3.8e+04
 PARAMETER  CORRELATION COEFFICIENTS  
       NO.  GLOBAL      1      2      3      4      5      6      7      8      9     10     11     12     13     14     15     16
      1:     0.999  1.000  0.996  0.992  0.944  0.956  0.329  0.583  0.843 -0.834  0.945  0.991 -0.993  0.984 -0.451 -0.920  0.997
      2:     0.999  0.996  1.000  0.993  0.943  0.956  0.351  0.585  0.852 -0.836  0.939  0.983 -0.996  0.979 -0.471 -0.898  0.995
      3:     0.996  0.992  0.993  1.000  0.949  0.948  0.338  0.565  0.843 -0.827  0.937  0.979 -0.992  0.973 -0.475 -0.896  0.992
      4:     0.966  0.944  0.943  0.949  1.000  0.897  0.412  0.582  0.847 -0.831  0.877  0.922 -0.946  0.907 -0.519 -0.838  0.942
      5:     0.967  0.956  0.956  0.948  0.897  1.000  0.278  0.538  0.775 -0.807  0.882  0.939 -0.952  0.946 -0.459 -0.866  0.957
      6:     0.667  0.329  0.351  0.338  0.412  0.278  1.000  0.261  0.430 -0.482  0.270  0.294 -0.339  0.265 -0.313 -0.211  0.318
      7:     0.723  0.583  0.585  0.565  0.582  0.538  0.261  1.000  0.640 -0.565  0.550  0.565 -0.585  0.535 -0.367 -0.459  0.569
      8:     0.902  0.843  0.852  0.843  0.847  0.775  0.430  0.640  1.000 -0.753  0.795  0.828 -0.847  0.798 -0.404 -0.726  0.831
      9:     0.900 -0.834 -0.836 -0.827 -0.831 -0.807 -0.482 -0.565 -0.753  1.000 -0.739 -0.796  0.837 -0.787  0.460  0.706 -0.825
     10:     0.959  0.945  0.939  0.937  0.877  0.882  0.270  0.550  0.795 -0.739  1.000  0.950 -0.944  0.935 -0.416 -0.873  0.944
     11:     0.995  0.991  0.983  0.979  0.922  0.939  0.294  0.565  0.828 -0.796  0.950  1.000 -0.982  0.980 -0.410 -0.925  0.986
     12:     0.997 -0.993 -0.996 -0.992 -0.946 -0.952 -0.339 -0.585 -0.847  0.837 -0.944 -0.982  1.000 -0.974  0.474  0.891 -0.993
     13:     0.990  0.984  0.979  0.973  0.907  0.946  0.265  0.535  0.798 -0.787  0.935  0.980 -0.974  1.000 -0.390 -0.920  0.984
     14:     0.669 -0.451 -0.471 -0.475 -0.519 -0.459 -0.313 -0.367 -0.404  0.460 -0.416 -0.410  0.474 -0.390  1.000  0.378 -0.463
     15:     0.958 -0.920 -0.898 -0.896 -0.838 -0.866 -0.211 -0.459 -0.726  0.706 -0.873 -0.925  0.891 -0.920  0.378  1.000 -0.918
     16:     0.998  0.997  0.995  0.992  0.942  0.957  0.318  0.569  0.831 -0.825  0.944  0.986 -0.993  0.984 -0.463 -0.918  1.000

 MIGRAD evaluation total wall time:  0.093786 s.
    average time per function call:  0.074198 ms.

LIKELIHOOD AFTER MINIMIZATION:  -1283.4
Loading generated Monte Carlo...
5
	Done.
Calculating integrals...
	Done.
Loading acccepted Monte Carlo...
5
	Done.
Calculating integrals...
	Done.