INFO: Using directory: "1"
INFO: Using existing c-file: ./ILL_H143_LADI.c
INFO: Using existing binary: ./ILL_H143_LADI.out
INFO: ===
Simulation 'ILL_H143_LADI' (ILL_H143_LADI.instr): running on 20 nodes (master is 'hypatia.fysik.dtu.dk', MPI version 3.1).
Using all default parameter values
Instrument: ILL_H143_LADI (LADI@H143 ILL cold guide on VCS).
Instrument: ILL_H143_LADI (LADI@H143 ILL cold guide on VCS).
Instrument: ILL_H143_LADI (LADI@H143 ILL cold guide on VCS).
Instrument: ILL_H143_LADI (LADI@H143 ILL cold guide on VCS).
Instrument: ILL_H143_LADI (LADI@H143 ILL cold guide on VCS).
Instrument: ILL_H143_LADI (LADI@H143 ILL cold guide on VCS).
Instrument: ILL_H143_LADI (LADI@H143 ILL cold guide on VCS).
Instrument: ILL_H143_LADI (LADI@H143 ILL cold guide on VCS).
Instrument: ILL_H143_LADI (LADI@H143 ILL cold guide on VCS).
Instrument: ILL_H143_LADI (LADI@H143 ILL cold guide on VCS).
Instrument: ILL_H143_LADI (LADI@H143 ILL cold guide on VCS).
Instrument: ILL_H143_LADI (LADI@H143 ILL cold guide on VCS).
Instrument: ILL_H143_LADI (LADI@H143 ILL cold guide on VCS).
Instrument: ILL_H143_LADI (LADI@H143 ILL cold guide on VCS).
Instrument: ILL_H143_LADI (LADI@H143 ILL cold guide on VCS).
Instrument: ILL_H143_LADI (LADI@H143 ILL cold guide on VCS).
Instrument: ILL_H143_LADI (LADI@H143 ILL cold guide on VCS).
Instrument: ILL_H143_LADI (LADI@H143 ILL cold guide on VCS).
Instrument: ILL_H143_LADI (LADI@H143 ILL cold guide on VCS).
Instrument: ILL_H143_LADI (LADI@H143 ILL cold guide on VCS).
[ILL_H143_LADI] Initialize
[ILL_H143_LADI] Initialize
[ILL_H143_LADI] Initialize
[ILL_H143_LADI] Initialize
[ILL_H143_LADI] Initialize
[ILL_H143_LADI] Initialize
[ILL_H143_LADI] Initialize
[ILL_H143_LADI] Initialize
[ILL_H143_LADI] Initialize
[ILL_H143_LADI] Initialize
[ILL_H143_LADI] Initialize
[ILL_H143_LADI] Initialize
Source_gen: component VCS (square 0.14 x 0.22)
            focusing distance dist=2.525 area=0.045 x 0.2
            spectra 2.200 to 4.200 AA (4.638 to 16.903 meV)
            T1=216.8 K (2.093 AA), T2=33.9 K (5.292 AA), T3=16.7 K (7.539 AA)
  Flux is dPhi/dlambda in [n/s/cm2].
Al_window Al_window1 WARNING: Using simple lo-fi transmission model.
 - Replace with PowderN or NCrystal for bragg edges etc.
Al_window Al_window2 WARNING: Using simple lo-fi transmission model.
 - Replace with PowderN or NCrystal for bragg edges etc.
Al_window Al_window3 WARNING: Using simple lo-fi transmission model.
 - Replace with PowderN or NCrystal for bragg edges etc.
Al_window Al_window4 WARNING: Using simple lo-fi transmission model.
 - Replace with PowderN or NCrystal for bragg edges etc.
Al_window Al_window5 WARNING: Using simple lo-fi transmission model.
 - Replace with PowderN or NCrystal for bragg edges etc.
Monitor_nD: H143_1_PhiC: Using capture flux weightening on 1000000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: H143_1_PhiC: Using capture flux weightening on 1000000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: H143_1_PhiC: Using capture flux weightening on 1000000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: H143_1_PhiC: Using capture flux weightening on 1000000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: H143_1_PhiC: Using capture flux weightening on 1000000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: H143_1_PhiC: Using capture flux weightening on 1000000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: H143_1_PhiC: Using capture flux weightening on 1000000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: H143_1_PhiC: Using capture flux weightening on 1000000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: H143_1_PhiC: Using capture flux weightening on 1000000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: H143_1_PhiC: Using capture flux weightening on 1000000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Al_window H14_2_In WARNING: Using simple lo-fi transmission model.
 - Replace with PowderN or NCrystal for bragg edges etc.
Al_window H14_2_Out WARNING: Using simple lo-fi transmission model.
 - Replace with PowderN or NCrystal for bragg edges etc.
Al_window H14_3_In WARNING: Using simple lo-fi transmission model.
 - Replace with PowderN or NCrystal for bragg edges etc.
Al_window H14_3_Out WARNING: Using simple lo-fi transmission model.
 - Replace with PowderN or NCrystal for bragg edges etc.
Al_window H143_1_In WARNING: Using simple lo-fi transmission model.
 - Replace with PowderN or NCrystal for bragg edges etc.
Monitor_nD: H143_2_PhiC: Using capture flux weightening on 125000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: H143_1_PhiC: Using capture flux weightening on 1000000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: H143_1_PhiC: Using capture flux weightening on 1000000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: H143_2_PhiC: Using capture flux weightening on 125000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: H143_2_PhiC: Using capture flux weightening on 125000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: H143_2_PhiC: Using capture flux weightening on 125000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: H143_2_PhiC: Using capture flux weightening on 125000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: H143_2_PhiC: Using capture flux weightening on 125000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: H143_2_PhiC: Using capture flux weightening on 125000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: LADI3_PhiC: Using capture flux weightening on 125000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: H143_2_PhiC: Using capture flux weightening on 125000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: H143_2_PhiC: Using capture flux weightening on 125000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: H143_2_PhiC: Using capture flux weightening on 125000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Al_window H143_1_Out WARNING: Using simple lo-fi transmission model.
 - Replace with PowderN or NCrystal for bragg edges etc.
Al_window H143_2_In WARNING: Using simple lo-fi transmission model.
 - Replace with PowderN or NCrystal for bragg edges etc.
[ILL_H143_LADI] Initialize
[ILL_H143_LADI] Initialize
[ILL_H143_LADI] Initialize
[ILL_H143_LADI] Initialize
Monitor_nD: H143_2_PhiC: Using capture flux weightening on 125000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
[ILL_H143_LADI] Initialize
Monitor_nD: LADI3_PhiC: Using capture flux weightening on 125000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: LADI3_PhiC: Using capture flux weightening on 125000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: H143_2_PhiC: Using capture flux weightening on 125000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
[ILL_H143_LADI] Initialize
Monitor_nD: LADI3_PhiC: Using capture flux weightening on 125000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: LADI3_PhiC: Using capture flux weightening on 125000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: LADI3_PhiC: Using capture flux weightening on 125000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: LADI3_PhiC: Using capture flux weightening on 125000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: LADI3_PhiC: Using capture flux weightening on 125000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
[ILL_H143_LADI] Initialize
Monitor_nD: LADI3_PhiC: Using capture flux weightening on 125000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Al_window H143_2_Out WARNING: Using simple lo-fi transmission model.
 - Replace with PowderN or NCrystal for bragg edges etc.
[ILL_H143_LADI] Initialize
Monitor_nD: sample_Phic1: Using capture flux weightening on 100 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: sample_Phic2: Using capture flux weightening on 100 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: LADI3_PhiC: Using capture flux weightening on 125000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: LADI3_PhiC: Using capture flux weightening on 125000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: sample_Phic1: Using capture flux weightening on 100 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: sample_Phic2: Using capture flux weightening on 100 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: sample_Phic1: Using capture flux weightening on 100 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: sample_Phic2: Using capture flux weightening on 100 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: sample_Phic1: Using capture flux weightening on 100 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: sample_Phic1: Using capture flux weightening on 100 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: sample_Phic2: Using capture flux weightening on 100 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: LADI3_PhiC: Using capture flux weightening on 125000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: sample_Phic1: Using capture flux weightening on 100 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: sample_Phic2: Using capture flux weightening on 100 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: sample_Phic1: Using capture flux weightening on 100 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: sample_Phic2: Using capture flux weightening on 100 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: sample_Phic2: Using capture flux weightening on 100 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: sample_Phic1: Using capture flux weightening on 100 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: sample_Phic2: Using capture flux weightening on 100 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: sample_Phic1: Using capture flux weightening on 100 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: sample_Phic2: Using capture flux weightening on 100 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: sample_Phic1: Using capture flux weightening on 100 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: sample_Phic2: Using capture flux weightening on 100 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: sample_Phic1: Using capture flux weightening on 100 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: sample_Phic2: Using capture flux weightening on 100 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Opening input file '/u/data/pkwi/McStas/mcstas/3.x-dev/data/leucine.lau' (Table_Read_Offset)
Monitor_nD: H143_1_PhiC: Using capture flux weightening on 1000000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: H143_1_PhiC: Using capture flux weightening on 1000000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: H143_1_PhiC: Using capture flux weightening on 1000000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: H143_1_PhiC: Using capture flux weightening on 1000000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: H143_1_PhiC: Using capture flux weightening on 1000000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: H143_1_PhiC: Using capture flux weightening on 1000000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: H143_1_PhiC: Using capture flux weightening on 1000000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: sample_Phic1: Using capture flux weightening on 100 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: H143_1_PhiC: Using capture flux weightening on 1000000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: sample_Phic2: Using capture flux weightening on 100 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: H143_2_PhiC: Using capture flux weightening on 125000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: H143_2_PhiC: Using capture flux weightening on 125000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: H143_2_PhiC: Using capture flux weightening on 125000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: H143_2_PhiC: Using capture flux weightening on 125000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: H143_2_PhiC: Using capture flux weightening on 125000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: H143_2_PhiC: Using capture flux weightening on 125000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: H143_2_PhiC: Using capture flux weightening on 125000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: H143_2_PhiC: Using capture flux weightening on 125000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: LADI3_PhiC: Using capture flux weightening on 125000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: LADI3_PhiC: Using capture flux weightening on 125000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: LADI3_PhiC: Using capture flux weightening on 125000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: LADI3_PhiC: Using capture flux weightening on 125000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: LADI3_PhiC: Using capture flux weightening on 125000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: LADI3_PhiC: Using capture flux weightening on 125000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: LADI3_PhiC: Using capture flux weightening on 125000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: LADI3_PhiC: Using capture flux weightening on 125000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: sample_Phic1: Using capture flux weightening on 100 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: sample_Phic1: Using capture flux weightening on 100 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: sample_Phic2: Using capture flux weightening on 100 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: sample_Phic2: Using capture flux weightening on 100 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: sample_Phic1: Using capture flux weightening on 100 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: sample_Phic1: Using capture flux weightening on 100 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: sample_Phic1: Using capture flux weightening on 100 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: sample_Phic2: Using capture flux weightening on 100 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: sample_Phic2: Using capture flux weightening on 100 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: sample_Phic1: Using capture flux weightening on 100 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: sample_Phic2: Using capture flux weightening on 100 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: sample_Phic2: Using capture flux weightening on 100 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: sample_Phic1: Using capture flux weightening on 100 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: sample_Phic2: Using capture flux weightening on 100 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: sample_Phic1: Using capture flux weightening on 100 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: sample_Phic2: Using capture flux weightening on 100 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Mode: lengths and angles
Single_crystal: leucine.lau structure a=14.66 b=5.324 c=9.606 aa=90 bb=94.06 cc=90 V0=747.865
Single_crystal: sample: Read 4912 reflections from file 'leucine.lau'
Single_crystal: sample: Vc=747.865 [Angs] sigma_abs=25.024 [barn] sigma_inc=4175.6 [barn] reflections=leucine.lau
Direct space lattice orientation:
  a = [0 5.324 3.26001e-16]
  b = [0 0 14.66]
  c = [9.58189 6.29843e-16 -0.680115]
Reciprocal space lattice orientation:
  a* = [-7.75752e-17 1.18016 0]
  b* = [0.0304212 -2.62438e-17 0.428594]
  c* = [0.655735 0 0]
*** TRACE end *** 

Save [ILL_H143_LADI]
Detector: Source_lambda_I=6.15612e+11 Source_lambda_ERR=4.48645e+08 Source_lambda_N=3.32917e+06 "Source_lambda_1773722412.y_L"
Detector: Source_lambda0_I=6.15395e+11 Source_lambda0_ERR=4.48564e+08 Source_lambda0_N=3.32792e+06 "Source_lambda0_1773722412.L"
Detector: H143_1_lambda_I=2.29114e+10 H143_1_lambda_ERR=7.99625e+07 H143_1_lambda_N=244776 "H143_1_lambda_1773722412.y_L"
Detector: H143_1_lambda0_I=2.29086e+10 H143_1_lambda0_ERR=7.99589e+07 H143_1_lambda0_N=244710 "H143_1_lambda0_1773722412.L"
Detector: H143_1_PhiC_I=4.25267e+10 H143_1_PhiC_ERR=1.48365e+08 H143_1_PhiC_N=244666 "H143_1_PhiC_1773722412.L_y"
Detector: H143_2_lambda_I=7.21915e+09 H143_2_lambda_ERR=4.57564e+07 H143_2_lambda_N=124587 "H143_2_lambda_1773722412.y_L"
Detector: H143_2_lambda0_I=7.2178e+09 H143_2_lambda0_ERR=4.57523e+07 H143_2_lambda0_N=124542 "H143_2_lambda0_1773722412.L"
Detector: H143_2_PhiC_I=1.35857e+10 H143_2_PhiC_ERR=8.63351e+07 H143_2_PhiC_N=124499 "H143_2_PhiC_1773722412.L_y"
Detector: LADI3_XY_I=3.96994e+09 LADI3_XY_ERR=3.32901e+07 LADI3_XY_N=77241 "LADI3_XY_1773722412.x_y"
Detector: LADI3_lambda_I=3.96146e+09 LADI3_lambda_ERR=3.32558e+07 LADI3_lambda_N=76901 "LADI3_lambda_1773722412.y_L"
Detector: LADI3_lambda0_I=3.95442e+09 LADI3_lambda0_ERR=3.32279e+07 LADI3_lambda0_N=76567 "LADI3_lambda0_1773722412.L"
Detector: LADI3_PhiC_I=7.42227e+09 LADI3_PhiC_ERR=6.25982e+07 LADI3_PhiC_N=76251 "LADI3_PhiC_1773722412.L_y"
Detector: LADI3_YdY0_I=3.94334e+09 LADI3_YdY0_ERR=3.31822e+07 LADI3_YdY0_N=75933 "LADI3_YdY0_1773722412.vd_y"
Detector: LADI3_YdY_I=3.93378e+09 LADI3_YdY_ERR=3.31429e+07 LADI3_YdY_N=75585 "LADI3_YdY_1773722412.vd_y"
Detector: LADI3_XY_Li_I=1.7408e+09 LADI3_XY_Li_ERR=2.22255e+07 LADI3_XY_Li_N=15988 "LADI3_XY_Li_1773722412.x_y"
Detector: sample_pos1_I=1.27989e+07 sample_pos1_ERR=1.95514e+06 sample_pos1_N=60 "sample_pos1_1773722412.L"
Detector: sample_pos2_I=3.24594e+07 sample_pos2_ERR=2.98288e+06 sample_pos2_N=124 "sample_pos2_1773722412.L"
Detector: sample_Phic1_I=1.77379e+07 sample_Phic1_ERR=3.05541e+06 sample_Phic1_N=48 "sample_Phic1_1773722412.L"
Detector: sample_Phic2_I=4.25145e+07 sample_Phic2_ERR=4.98624e+06 sample_Phic2_N=73 "sample_Phic2_1773722412.L"

Finally [ILL_H143_LADI: 1]. Time: 1 [s] 

Finally [ILL_H143_LADI: 1]. Time: 1 [s] 
Detector: ImagePlate_I=931664 ImagePlate_ERR=9210.45 ImagePlate_N=12644 "ImagePlate_1773722412.th_y"

Finally [ILL_H143_LADI: 1]. Time: 1 [s] 

Finally [ILL_H143_LADI: 1]. Time: 1 [s] 

Finally [ILL_H143_LADI: 1]. Time: 1 [s] 

Finally [ILL_H143_LADI: 1]. Time: 1 [s] 

Finally [ILL_H143_LADI: 1]. Time: 1 [s] 

Finally [ILL_H143_LADI: 1]. Time: 1 [s] 

Finally [ILL_H143_LADI: 1]. Time: 1 [s] 

Finally [ILL_H143_LADI: 1]. Time: 1 [s] 

Finally [ILL_H143_LADI: 1]. Time: 1 [s] 

Finally [ILL_H143_LADI: 1]. Time: 1 [s] 

Finally [ILL_H143_LADI: 1]. Time: 1 [s] 

Finally [ILL_H143_LADI: 1]. Time: 1 [s] 

Finally [ILL_H143_LADI: 1]. Time: 1 [s] 

Finally [ILL_H143_LADI: 1]. Time: 1 [s] 

Finally [ILL_H143_LADI: 1]. Time: 1 [s] 

Finally [ILL_H143_LADI: 1]. Time: 1 [s] 

Finally [ILL_H143_LADI: 1]. Time: 1 [s] 

Finally [ILL_H143_LADI: 1]. Time: 1 [s] 
INFO: Placing instr file copy ILL_H143_LADI.instr in dataset 1
INFO: Placing generated c-code copy ILL_H143_LADI.c in dataset 1