INFO: Using directory: "1"
INFO: Using existing c-file: ./ILL_H53_IN14.c
INFO: Using existing binary: ./ILL_H53_IN14.out
INFO: ===
Simulation 'ILL_H53_IN14' (/u/data/pkwi/TESTS/2026-03-17/ANTLR_mpi_x_20_1e7_Linux_1e7/ILL_H53_IN14/ILL_H53_IN14.instr): running on 20 nodes (master is 'hypatia.fysik.dtu.dk', MPI version 3.1).
ILL_H53_IN14: Incoming wavelength lambda=4.05367 [Angs]
templateTAS: Detailed TAS configuration
* Incoming beam: EI=4.978 [meV] KI=1.55 [Angs-1] Vi=975.915 [m/s]
* Outgoing beam: EF=4.978 [meV] KF=1.55 [Angs-1] Vf=975.915 [m/s]
* Transfer:     EN=0 [meV] QM=1 [Angs-1]
Angles: A1=37.17 A2=74.33 A3=0 A4=-37.64 A5=37.17 A6=74.33 [deg]
Monochromator: DM=3.355 [Angs] RMH=0 [m] RMV=1.966 [m] curved
Analyzer:      DA=3.355 [Angs] RAH=1.534 [m] RAV=0 [m] curved
Sample:        Powder V.lau
ILL_H53_IN14: Incoming wavelength lambda=4.05367 [Angs]
templateTAS: Detailed TAS configuration
* Incoming beam: EI=4.978 [meV] KI=1.55 [Angs-1] Vi=975.915 [m/s]
* Outgoing beam: EF=4.978 [meV] KF=1.55 [Angs-1] Vf=975.915 [m/s]
* Transfer:     EN=0 [meV] QM=1 [Angs-1]
Angles: A1=37.17 A2=74.33 A3=0 A4=-37.64 A5=37.17 A6=74.33 [deg]
Monochromator: DM=3.355 [Angs] RMH=0 [m] RMV=1.966 [m] curved
Analyzer:      DA=3.355 [Angs] RAH=1.534 [m] RAV=0 [m] curved
Sample:        Powder V.lau
ILL_H53_IN14: Incoming wavelength lambda=4.05367 [Angs]
templateTAS: Detailed TAS configuration
* Incoming beam: EI=4.978 [meV] KI=1.55 [Angs-1] Vi=975.915 [m/s]
* Outgoing beam: EF=4.978 [meV] KF=1.55 [Angs-1] Vf=975.915 [m/s]
* Transfer:     EN=0 [meV] QM=1 [Angs-1]
Angles: A1=37.17 A2=74.33 A3=0 A4=-37.64 A5=37.17 A6=74.33 [deg]
Monochromator: DM=3.355 [Angs] RMH=0 [m] RMV=1.966 [m] curved
Analyzer:      DA=3.355 [Angs] RAH=1.534 [m] RAV=0 [m] curved
Sample:        Powder V.lau
ILL_H53_IN14: Incoming wavelength lambda=4.05367 [Angs]
templateTAS: Detailed TAS configuration
* Incoming beam: EI=4.978 [meV] KI=1.55 [Angs-1] Vi=975.915 [m/s]
* Outgoing beam: EF=4.978 [meV] KF=1.55 [Angs-1] Vf=975.915 [m/s]
* Transfer:     EN=0 [meV] QM=1 [Angs-1]
Angles: A1=37.17 A2=74.33 A3=0 A4=-37.64 A5=37.17 A6=74.33 [deg]
Monochromator: DM=3.355 [Angs] RMH=0 [m] RMV=1.966 [m] curved
Analyzer:      DA=3.355 [Angs] RAH=1.534 [m] RAV=0 [m] curved
Sample:        Powder V.lau
ILL_H53_IN14: Incoming wavelength lambda=4.05367 [Angs]
templateTAS: Detailed TAS configuration
* Incoming beam: EI=4.978 [meV] KI=1.55 [Angs-1] Vi=975.915 [m/s]
* Outgoing beam: EF=4.978 [meV] KF=1.55 [Angs-1] Vf=975.915 [m/s]
* Transfer:     EN=0 [meV] QM=1 [Angs-1]
Angles: A1=37.17 A2=74.33 A3=0 A4=-37.64 A5=37.17 A6=74.33 [deg]
Monochromator: DM=3.355 [Angs] RMH=0 [m] RMV=1.966 [m] curved
Analyzer:      DA=3.355 [Angs] RAH=1.534 [m] RAV=0 [m] curved
Sample:        Powder V.lau
ILL_H53_IN14: Incoming wavelength lambda=4.05367 [Angs]
templateTAS: Detailed TAS configuration
* Incoming beam: EI=4.978 [meV] KI=1.55 [Angs-1] Vi=975.915 [m/s]
* Outgoing beam: EF=4.978 [meV] KF=1.55 [Angs-1] Vf=975.915 [m/s]
* Transfer:     EN=0 [meV] QM=1 [Angs-1]
Angles: A1=37.17 A2=74.33 A3=0 A4=-37.64 A5=37.17 A6=74.33 [deg]
Monochromator: DM=3.355 [Angs] RMH=0 [m] RMV=1.966 [m] curved
Analyzer:      DA=3.355 [Angs] RAH=1.534 [m] RAV=0 [m] curved
Sample:        Powder V.lau
ILL_H53_IN14: Incoming wavelength lambda=4.05367 [Angs]
templateTAS: Detailed TAS configuration
* Incoming beam: EI=4.978 [meV] KI=1.55 [Angs-1] Vi=975.915 [m/s]
* Outgoing beam: EF=4.978 [meV] KF=1.55 [Angs-1] Vf=975.915 [m/s]
* Transfer:     EN=0 [meV] QM=1 [Angs-1]
Angles: A1=37.17 A2=74.33 A3=0 A4=-37.64 A5=37.17 A6=74.33 [deg]
Monochromator: DM=3.355 [Angs] RMH=0 [m] RMV=1.966 [m] curved
Analyzer:      DA=3.355 [Angs] RAH=1.534 [m] RAV=0 [m] curved
Sample:        Powder V.lau
ILL_H53_IN14: Incoming wavelength lambda=4.05367 [Angs]
templateTAS: Detailed TAS configuration
* Incoming beam: EI=4.978 [meV] KI=1.55 [Angs-1] Vi=975.915 [m/s]
* Outgoing beam: EF=4.978 [meV] KF=1.55 [Angs-1] Vf=975.915 [m/s]
* Transfer:     EN=0 [meV] QM=1 [Angs-1]
Angles: A1=37.17 A2=74.33 A3=0 A4=-37.64 A5=37.17 A6=74.33 [deg]
Monochromator: DM=3.355 [Angs] RMH=0 [m] RMV=1.966 [m] curved
Analyzer:      DA=3.355 [Angs] RAH=1.534 [m] RAV=0 [m] curved
Sample:        Powder V.lau
ILL_H53_IN14: Incoming wavelength lambda=4.05367 [Angs]
templateTAS: Detailed TAS configuration
* Incoming beam: EI=4.978 [meV] KI=1.55 [Angs-1] Vi=975.915 [m/s]
* Outgoing beam: EF=4.978 [meV] KF=1.55 [Angs-1] Vf=975.915 [m/s]
* Transfer:     EN=0 [meV] QM=1 [Angs-1]
Angles: A1=37.17 A2=74.33 A3=0 A4=-37.64 A5=37.17 A6=74.33 [deg]
Monochromator: DM=3.355 [Angs] RMH=0 [m] RMV=1.966 [m] curved
Analyzer:      DA=3.355 [Angs] RAH=1.534 [m] RAV=0 [m] curved
Sample:        Powder V.lau
ILL_H53_IN14: Incoming wavelength lambda=4.05367 [Angs]
templateTAS: Detailed TAS configuration
* Incoming beam: EI=4.978 [meV] KI=1.55 [Angs-1] Vi=975.915 [m/s]
* Outgoing beam: EF=4.978 [meV] KF=1.55 [Angs-1] Vf=975.915 [m/s]
* Transfer:     EN=0 [meV] QM=1 [Angs-1]
Angles: A1=37.17 A2=74.33 A3=0 A4=-37.64 A5=37.17 A6=74.33 [deg]
Monochromator: DM=3.355 [Angs] RMH=0 [m] RMV=1.966 [m] curved
Analyzer:      DA=3.355 [Angs] RAH=1.534 [m] RAV=0 [m] curved
Sample:        Powder V.lau
ILL_H53_IN14: Incoming wavelength lambda=4.05367 [Angs]
templateTAS: Detailed TAS configuration
* Incoming beam: EI=4.978 [meV] KI=1.55 [Angs-1] Vi=975.915 [m/s]
* Outgoing beam: EF=4.978 [meV] KF=1.55 [Angs-1] Vf=975.915 [m/s]
* Transfer:     EN=0 [meV] QM=1 [Angs-1]
Angles: A1=37.17 A2=74.33 A3=0 A4=-37.64 A5=37.17 A6=74.33 [deg]
Monochromator: DM=3.355 [Angs] RMH=0 [m] RMV=1.966 [m] curved
Analyzer:      DA=3.355 [Angs] RAH=1.534 [m] RAV=0 [m] curved
Sample:        Powder V.lau
ILL_H53_IN14: Incoming wavelength lambda=4.05367 [Angs]
templateTAS: Detailed TAS configuration
* Incoming beam: EI=4.978 [meV] KI=1.55 [Angs-1] Vi=975.915 [m/s]
* Outgoing beam: EF=4.978 [meV] KF=1.55 [Angs-1] Vf=975.915 [m/s]
* Transfer:     EN=0 [meV] QM=1 [Angs-1]
Angles: A1=37.17 A2=74.33 A3=0 A4=-37.64 A5=37.17 A6=74.33 [deg]
Monochromator: DM=3.355 [Angs] RMH=0 [m] RMV=1.966 [m] curved
Analyzer:      DA=3.355 [Angs] RAH=1.534 [m] RAV=0 [m] curved
Sample:        Powder V.lau
ILL_H53_IN14: Incoming wavelength lambda=4.05367 [Angs]
templateTAS: Detailed TAS configuration
* Incoming beam: EI=4.978 [meV] KI=1.55 [Angs-1] Vi=975.915 [m/s]
* Outgoing beam: EF=4.978 [meV] KF=1.55 [Angs-1] Vf=975.915 [m/s]
* Transfer:     EN=0 [meV] QM=1 [Angs-1]
Angles: A1=37.17 A2=74.33 A3=0 A4=-37.64 A5=37.17 A6=74.33 [deg]
Monochromator: DM=3.355 [Angs] RMH=0 [m] RMV=1.966 [m] curved
Analyzer:      DA=3.355 [Angs] RAH=1.534 [m] RAV=0 [m] curved
Sample:        Powder V.lau
ILL_H53_IN14: Incoming wavelength lambda=4.05367 [Angs]
templateTAS: Detailed TAS configuration
* Incoming beam: EI=4.978 [meV] KI=1.55 [Angs-1] Vi=975.915 [m/s]
* Outgoing beam: EF=4.978 [meV] KF=1.55 [Angs-1] Vf=975.915 [m/s]
* Transfer:     EN=0 [meV] QM=1 [Angs-1]
Angles: A1=37.17 A2=74.33 A3=0 A4=-37.64 A5=37.17 A6=74.33 [deg]
Monochromator: DM=3.355 [Angs] RMH=0 [m] RMV=1.966 [m] curved
Analyzer:      DA=3.355 [Angs] RAH=1.534 [m] RAV=0 [m] curved
Sample:        Powder V.lau
ILL_H53_IN14: Incoming wavelength lambda=4.05367 [Angs]
templateTAS: Detailed TAS configuration
* Incoming beam: EI=4.978 [meV] KI=1.55 [Angs-1] Vi=975.915 [m/s]
* Outgoing beam: EF=4.978 [meV] KF=1.55 [Angs-1] Vf=975.915 [m/s]
* Transfer:     EN=0 [meV] QM=1 [Angs-1]
Angles: A1=37.17 A2=74.33 A3=0 A4=-37.64 A5=37.17 A6=74.33 [deg]
Monochromator: DM=3.355 [Angs] RMH=0 [m] RMV=1.966 [m] curved
Analyzer:      DA=3.355 [Angs] RAH=1.534 [m] RAV=0 [m] curved
Sample:        Powder V.lau
ILL_H53_IN14: Incoming wavelength lambda=4.05367 [Angs]
templateTAS: Detailed TAS configuration
* Incoming beam: EI=4.978 [meV] KI=1.55 [Angs-1] Vi=975.915 [m/s]
* Outgoing beam: EF=4.978 [meV] KF=1.55 [Angs-1] Vf=975.915 [m/s]
* Transfer:     EN=0 [meV] QM=1 [Angs-1]
Angles: A1=37.17 A2=74.33 A3=0 A4=-37.64 A5=37.17 A6=74.33 [deg]
Monochromator: DM=3.355 [Angs] RMH=0 [m] RMV=1.966 [m] curved
Analyzer:      DA=3.355 [Angs] RAH=1.534 [m] RAV=0 [m] curved
Sample:        Powder V.lau
ILL_H53_IN14: Incoming wavelength lambda=4.05367 [Angs]
templateTAS: Detailed TAS configuration
* Incoming beam: EI=4.978 [meV] KI=1.55 [Angs-1] Vi=975.915 [m/s]
* Outgoing beam: EF=4.978 [meV] KF=1.55 [Angs-1] Vf=975.915 [m/s]
* Transfer:     EN=0 [meV] QM=1 [Angs-1]
Angles: A1=37.17 A2=74.33 A3=0 A4=-37.64 A5=37.17 A6=74.33 [deg]
Monochromator: DM=3.355 [Angs] RMH=0 [m] RMV=1.966 [m] curved
Analyzer:      DA=3.355 [Angs] RAH=1.534 [m] RAV=0 [m] curved
Sample:        Powder V.lau
ILL_H53_IN14: Incoming wavelength lambda=4.05367 [Angs]
templateTAS: Detailed TAS configuration
* Incoming beam: EI=4.978 [meV] KI=1.55 [Angs-1] Vi=975.915 [m/s]
* Outgoing beam: EF=4.978 [meV] KF=1.55 [Angs-1] Vf=975.915 [m/s]
* Transfer:     EN=0 [meV] QM=1 [Angs-1]
Angles: A1=37.17 A2=74.33 A3=0 A4=-37.64 A5=37.17 A6=74.33 [deg]
Monochromator: DM=3.355 [Angs] RMH=0 [m] RMV=1.966 [m] curved
Analyzer:      DA=3.355 [Angs] RAH=1.534 [m] RAV=0 [m] curved
Sample:        Powder V.lau
Monitor_nD: Mon_VS_XY: Using capture flux weightening on 64000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: Mon_VS_XY: Using capture flux weightening on 64000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: Mon_VS_XY: Using capture flux weightening on 64000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: Mon_VS_XY: Using capture flux weightening on 64000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Source_gen: component HCS (square 0.1 x 0.1)
            focusing distance dist=2.155 area=0.06 x 0.12
            spectra 3.993 to 4.114 AA (4.833 to 5.131 meV)
            T1=413.5 K (1.515 AA), T2=145.8 K (2.552 AA), T3=40.1 K (4.865 AA)
  Flux is dPhi/dlambda in [n/s/cm2].
Al_window Al_window8 WARNING: Using simple lo-fi transmission model.
 - Replace with PowderN or NCrystal for bragg edges etc.
ILL_H53_IN14: Incoming wavelength lambda=4.05367 [Angs]
templateTAS: Detailed TAS configuration
* Incoming beam: EI=4.978 [meV] KI=1.55 [Angs-1] Vi=975.915 [m/s]
* Outgoing beam: EF=4.978 [meV] KF=1.55 [Angs-1] Vf=975.915 [m/s]
Monitor_nD: Mon_VS_XY: Using capture flux weightening on 64000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: Mon_VS_XY: Using capture flux weightening on 64000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: Mon_VS_XY: Using capture flux weightening on 64000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: Mon_VS_XY: Using capture flux weightening on 64000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
* Transfer:     EN=0 [meV] QM=1 [Angs-1]
Angles: A1=37.17 A2=74.33 A3=0 A4=-37.64 A5=37.17 A6=74.33 [deg]
Monochromator: DM=3.355 [Angs] RMH=0 [m] RMV=1.966 [m] curved
Analyzer:      DA=3.355 [Angs] RAH=1.534 [m] RAV=0 [m] curved
Sample:        Powder V.lau
Monitor_nD: Mon_VS_XY: Using capture flux weightening on 64000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: Mon_VS_XY: Using capture flux weightening on 64000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Al_window Al_window9 WARNING: Using simple lo-fi transmission model.
 - Replace with PowderN or NCrystal for bragg edges etc.
Al_window H53_COM_In WARNING: Using simple lo-fi transmission model.
 - Replace with PowderN or NCrystal for bragg edges etc.
Al_window H53_COM_Out WARNING: Using simple lo-fi transmission model.
 - Replace with PowderN or NCrystal for bragg edges etc.
Al_window H53_C1_In WARNING: Using simple lo-fi transmission model.
 - Replace with PowderN or NCrystal for bragg edges etc.
Al_window H53_C1_Out WARNING: Using simple lo-fi transmission model.
 - Replace with PowderN or NCrystal for bragg edges etc.
Monitor_nD: Mon_VS_XY: Using capture flux weightening on 64000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: Mon_VS_XY: Using capture flux weightening on 64000 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/HOPG.rfl' (Table_Read_Offset)
Monitor_nD: Mon_VS_XY: Using capture flux weightening on 64000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: Mon_VS_XY: Using capture flux weightening on 64000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
ILL_H53_IN14: Incoming wavelength lambda=4.05367 [Angs]
templateTAS: Detailed TAS configuration
* Incoming beam: EI=4.978 [meV] KI=1.55 [Angs-1] Vi=975.915 [m/s]
Monitor_nD: Mon_VS_XY: Using capture flux weightening on 64000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: Mon_VS_XY: Using capture flux weightening on 64000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: Mon_VS_XY: Using capture flux weightening on 64000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
* Outgoing beam: EF=4.978 [meV] KF=1.55 [Angs-1] Vf=975.915 [m/s]
Monitor_nD: Mon_VS_XY: Using capture flux weightening on 64000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
* Transfer:     EN=0 [meV] QM=1 [Angs-1]
Angles: A1=37.17 A2=74.33 A3=0 A4=-37.64 A5=37.17 A6=74.33 [deg]
Monochromator: DM=3.355 [Angs] RMH=0 [m] RMV=1.966 [m] curved
Analyzer:      DA=3.355 [Angs] RAH=1.534 [m] RAV=0 [m] curved
Sample:        Powder V.lau
Monitor_nD: Mon_VS_XY: Using capture flux weightening on 64000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Monitor_nD: Mon_VS_XY: Using capture flux weightening on 64000 bins.
WARNING     Use binned data with caution, and prefer monitor integral value (I,Ierr).
Isotropic_Sqw: Sample: is a hollow cylinder: radius=0.010000 thickness=0.005000 height=0.050000 [J Comp Phys 228 (2009) 5251]
Opening input file '/u/data/pkwi/McStas/mcstas/3.x-dev/data/V.lau' (Table_Read_Offset)
Opening input file '/u/data/pkwi/McStas/mcstas/3.x-dev/data/V.lau' (Table_Read_Offset)
Isotropic_sqw: Sample: Powder file probably of type Crystallographica/Fullprof (lau)
WARNING:       but F2 unit is set to powder_barns=1 (barns). Intensity might be 100 times too high.
Isotropic_sqw: Converting 3558 powder lines from V.lau into S(q,w) data
Isotropic_sqw: q range [0:25.0197], creating 423 elements vector
Isotropic_Sqw: Sample: Generated V.lau coherent Sqw
                   q=[0:24.9605 Angs-1] w=[0:0 meV] |S|=0.869429 size=[423x1] sigma=0.01834 [barns]
               Mainly elastic scattering.
Isotropic_Sqw: Sample: Using Isotropic elastic incoherent scattering (sigma=5.07999 [barns])
Isotropic_Sqw: Sample: Sample temperature not defined (T=0).
Warning        Disabling detailed balance.
Reusing input file 'HOPG.rfl' (Table_Read_Offset)
*** TRACE end *** 
Detector: Mon_VS_L_I=4.05127e+08 Mon_VS_L_ERR=1.09773e+06 Mon_VS_L_N=296492 "mon_vs_l.dat"
Detector: Mon_VS_XY_I=9.13027e+08 Mon_VS_XY_ERR=2.47354e+06 Mon_VS_XY_N=296492 "mon_vs_xy.dat"
Detector: Mon_VS1_L_I=3.67139e+08 Mon_VS1_L_ERR=1.03785e+06 Mon_VS1_L_N=284740 "Mon_VS1_L_1773737309.L"
Detector: Mon_VS2_L_I=3.45331e+08 Mon_VS2_L_ERR=1.00444e+06 Mon_VS2_L_N=278935 "Mon_VS2_L_1773737309.L"
Detector: D4_SC2_1D_I=3.65228e+09 D4_SC2_1D_ERR=8.56091e+06 D4_SC2_1D_N=441447 "D4_SC2_1D_1773737309.L"
Detector: Sample_Cradle_I=7.44522e+07 Sample_Cradle_ERR=285297 Sample_Cradle_N=155760 "Sample_Cradle.dat"
Detector: D7_SC3_1D_I=6.34109e+08 D7_SC3_1D_ERR=1.09673e+06 D7_SC3_1D_N=3.26469e+06 "D7_SC3_1D_1773737309.th_E"
Detector: He3H_I=517.201 He3H_ERR=13.726 He3H_N=6281 "He3H.psd"
Isotropic_Sqw: Sample: 504 neutron events (out of 1214238) that should have
               scattered were transmitted because scattering conditions
WARNING        could not be satisfied after 100 tries.
Isotropic_Sqw: Sample: Scattering fraction=0.364363 of incoming intensity
               Absorption fraction           =0.692095
               Single   scattering intensity =4.0523e+06 (coh=8528.25 inc=4.04378e+06)
               Multiple scattering intensity =0
INFO: Placing instr file copy ILL_H53_IN14.instr in dataset 1
INFO: Placing generated c-code copy ILL_H53_IN14.c in dataset 1