loading system configuration
loading override configuration from /home/nexmap/pkwi/McCode/tools/Python/mctest/../mccodelib/mcstas-test/McStas_8GPU/mccode_config.json
INFO: Using directory: "1"
INFO: Using existing c-file: ./ILL_H5.c
INFO: Using existing binary: ./ILL_H5.out
INFO: ===
Simulation 'ILL_H5' (/home/nexmap/pkwi/TESTS/2023-02-01/McStas_8GPU_5e7/ILL_H5/ILL_H5.instr): running on 5 nodes (master is 'hypatia.fysik.dtu.dk', MPI version 3.1).
Have found 5 GPU devices on rank 1. Will use device 1.
Have found 5 GPU devices on rank 0. Will use device 0.
ILL_H5: IN14: A1=38.7506 [deg] RMV=2.02467 [m] lambda=4.2 [Angs] sample=Rb_liq_coh.sqw
ILL_H5: IN16: A1=69.8672 [deg] RMV=2.01006 [m] lambda=6.3 [Angs] sample=Rb_liq_coh.sqw
ILL_H5: D16:  A1=56.5716 [deg] RMV=3.02043 [m] lambda=5.6 [Angs] sample=H2O_liq.qSq
ILL_H5: SuperADAM: A1=40.9756 [deg] RMV=2.90659 [m] lambda=4.4 [Angs] sample=SiO2_quartza.laz
ILL_H5: IN15: nu=26129.9 [rmp] lambda=6.5 [Angs] sample=Vanadium (polarized)
ILL_H5: D22:  nu=28307.4 [rpm] lambda=4.5 [Angs] sample=H2O_liq.qSq
ILL_H5: IN14: A1=38.7506 [deg] RMV=2.02467 [m] lambda=4.2 [Angs] sample=Rb_liq_coh.sqw
ILL_H5: IN16: A1=69.8672 [deg] RMV=2.01006 [m] lambda=6.3 [Angs] sample=Rb_liq_coh.sqw
ILL_H5: D16:  A1=56.5716 [deg] RMV=3.02043 [m] lambda=5.6 [Angs] sample=H2O_liq.qSq
ILL_H5: SuperADAM: A1=40.9756 [deg] RMV=2.90659 [m] lambda=4.4 [Angs] sample=SiO2_quartza.laz
ILL_H5: IN15: nu=26129.9 [rmp] lambda=6.5 [Angs] sample=Vanadium (polarized)
ILL_H5: D22:  nu=28307.4 [rpm] lambda=4.5 [Angs] sample=H2O_liq.qSq
[ILL_H5] Initialize
[ILL_H5] Initialize
Source_gen: component HCS (square 0.1 x 0.1)
            focusing distance dist=2.155 area=0.123 x 0.12
            spectra 0.500 to 9.500 AA (0.906 to 327.240 meV)
            T1=40.1 K (4.865 AA), T2=145.8 K (2.552 AA), T3=413.5 K (1.515 AA)
  Flux is dPhi/dlambda in [n/s/cm2].
Opening input file '/u/data/pkwi/McStas/mcstas/3.x-dev/tools/Python/mcrun/../mccodelib/../../../data/Al.laz' (Table_Read_Offset)
Table from file 'Al.laz' (block 1) is 26 x 18 (x=1:8), constant step. interpolation: linear
  '# TITLE *Aluminum-Al-[FM3-M] Miller, H.P.jr.;DuMond, J.W.M.[1942] at 298 K; ...'
PowderN: HCS_Al: Reading 26 rows from Al.laz
PowderN: HCS_Al: Read 26 reflections from file 'Al.laz'
PowderN: HCS_Al: Vc=66.4 [Angs] sigma_abs=0.924 [barn] sigma_inc=0.0328 [barn] reflections=Al.laz
Opening input file '/u/data/pkwi/McStas/mcstas/3.x-dev/tools/Python/mcrun/../mccodelib/../../../data/Al.laz' (Table_Read_Offset)
Table from file 'Al.laz' (block 1) is 26 x 18 (x=1:8), constant step. interpolation: linear
  '# TITLE *Aluminum-Al-[FM3-M] Miller, H.P.jr.;DuMond, J.W.M.[1942] at 298 K; ...'
PowderN: HCS_Al_4: Reading 26 rows from Al.laz
PowderN: HCS_Al_4: Read 26 reflections from file 'Al.laz'
PowderN: HCS_Al_4: Vc=66.4 [Angs] sigma_abs=0.924 [barn] sigma_inc=0.0328 [barn] reflections=Al.laz
Opening input file '/u/data/pkwi/McStas/mcstas/3.x-dev/tools/Python/mcrun/../mccodelib/../../../data/Al.laz' (Table_Read_Offset)
Table from file 'Al.laz' (block 1) is 26 x 18 (x=1:8), constant step. interpolation: linear
  '# TITLE *Aluminum-Al-[FM3-M] Miller, H.P.jr.;DuMond, J.W.M.[1942] at 298 K; ...'
PowderN: HCS_Al_5: Reading 26 rows from Al.laz
PowderN: HCS_Al_5: Read 26 reflections from file 'Al.laz'
PowderN: HCS_Al_5: Vc=66.4 [Angs] sigma_abs=0.924 [barn] sigma_inc=0.0328 [barn] reflections=Al.laz
Opening input file '/u/data/pkwi/McStas/mcstas/3.x-dev/tools/Python/mcrun/../mccodelib/../../../data/Al.laz' (Table_Read_Offset)
Have found 5 GPU devices on rank 2. Will use device 2.
ILL_H5: IN14: A1=38.7506 [deg] RMV=2.02467 [m] lambda=4.2 [Angs] sample=Rb_liq_coh.sqw
ILL_H5: IN16: A1=69.8672 [deg] RMV=2.01006 [m] lambda=6.3 [Angs] sample=Rb_liq_coh.sqw
ILL_H5: D16:  A1=56.5716 [deg] RMV=3.02043 [m] lambda=5.6 [Angs] sample=H2O_liq.qSq
ILL_H5: SuperADAM: A1=40.9756 [deg] RMV=2.90659 [m] lambda=4.4 [Angs] sample=SiO2_quartza.laz
ILL_H5: IN15: nu=26129.9 [rmp] lambda=6.5 [Angs] sample=Vanadium (polarized)
ILL_H5: D22:  nu=28307.4 [rpm] lambda=4.5 [Angs] sample=H2O_liq.qSq
Table from file 'Al.laz' (block 1) is 26 x 18 (x=1:8), constant step. interpolation: linear
  '# TITLE *Aluminum-Al-[FM3-M] Miller, H.P.jr.;DuMond, J.W.M.[1942] at 298 K; ...'
PowderN: HCS_Al_6: Reading 26 rows from Al.laz
PowderN: HCS_Al_6: Read 26 reflections from file 'Al.laz'
PowderN: HCS_Al_6: Vc=66.4 [Angs] sigma_abs=0.924 [barn] sigma_inc=0.0328 [barn] reflections=Al.laz
Opening input file '/u/data/pkwi/McStas/mcstas/3.x-dev/tools/Python/mcrun/../mccodelib/../../../data/Al.laz' (Table_Read_Offset)
Table from file 'Al.laz' (block 1) is 26 x 18 (x=1:8), constant step. interpolation: linear
  '# TITLE *Aluminum-Al-[FM3-M] Miller, H.P.jr.;DuMond, J.W.M.[1942] at 298 K; ...'
PowderN: HCS_Al_7: Reading 26 rows from Al.laz
PowderN: HCS_Al_7: Read 26 reflections from file 'Al.laz'
PowderN: HCS_Al_7: Vc=66.4 [Angs] sigma_abs=0.924 [barn] sigma_inc=0.0328 [barn] reflections=Al.laz
[ILL_H5] Initialize
Table from file 'Al.laz' (block 1) is 26 x 18 (x=1:8), constant step. interpolation: linear
  '# TITLE *Aluminum-Al-[FM3-M] Miller, H.P.jr.;DuMond, J.W.M.[1942] at 298 K; ...'
PowderN: H53_Al: Reading 26 rows from Al.laz
PowderN: H53_Al: Read 26 reflections from file 'Al.laz'
PowderN: H53_Al: Vc=66.4 [Angs] sigma_abs=0.924 [barn] sigma_inc=0.0328 [barn] reflections=Al.laz
Opening input file '/u/data/pkwi/McStas/mcstas/3.x-dev/tools/Python/mcrun/../mccodelib/../../../data/Al.laz' (Table_Read_Offset)
Table from file 'Al.laz' (block 1) is 26 x 18 (x=1:8), constant step. interpolation: linear
  '# TITLE *Aluminum-Al-[FM3-M] Miller, H.P.jr.;DuMond, J.W.M.[1942] at 298 K; ...'
PowderN: HCS_Al_15: Reading 26 rows from Al.laz
PowderN: HCS_Al_15: Read 26 reflections from file 'Al.laz'
PowderN: HCS_Al_15: Vc=66.4 [Angs] sigma_abs=0.924 [barn] sigma_inc=0.0328 [barn] reflections=Al.laz
Opening input file '/u/data/pkwi/McStas/mcstas/3.x-dev/tools/Python/mcrun/../mccodelib/../../../data/Al.laz' (Table_Read_Offset)
Table from file 'Al.laz' (block 1) is 26 x 18 (x=1:8), constant step. interpolation: linear
  '# TITLE *Aluminum-Al-[FM3-M] Miller, H.P.jr.;DuMond, J.W.M.[1942] at 298 K; ...'
PowderN: HCS_Al_19: Reading 26 rows from Al.laz
PowderN: HCS_Al_19: Read 26 reflections from file 'Al.laz'
PowderN: HCS_Al_19: Vc=66.4 [Angs] sigma_abs=0.924 [barn] sigma_inc=0.0328 [barn] reflections=Al.laz
Opening input file '/u/data/pkwi/McStas/mcstas/3.x-dev/tools/Python/mcrun/../mccodelib/../../../data/Al.laz' (Table_Read_Offset)
Table from file 'Al.laz' (block 1) is 26 x 18 (x=1:8), constant step. interpolation: linear
  '# TITLE *Aluminum-Al-[FM3-M] Miller, H.P.jr.;DuMond, J.W.M.[1942] at 298 K; ...'
PowderN: HCS_Al_21: Reading 26 rows from Al.laz
PowderN: HCS_Al_21: Read 26 reflections from file 'Al.laz'
PowderN: HCS_Al_21: Vc=66.4 [Angs] sigma_abs=0.924 [barn] sigma_inc=0.0328 [barn] reflections=Al.laz
Opening input file '/u/data/pkwi/McStas/mcstas/3.x-dev/tools/Python/mcrun/../mccodelib/../../../data/Al.laz' (Table_Read_Offset)
Table from file 'Al.laz' (block 1) is 26 x 18 (x=1:8), constant step. interpolation: linear
  '# TITLE *Aluminum-Al-[FM3-M] Miller, H.P.jr.;DuMond, J.W.M.[1942] at 298 K; ...'
PowderN: HCS_Al_23: Reading 26 rows from Al.laz
PowderN: HCS_Al_23: Read 26 reflections from file 'Al.laz'
PowderN: HCS_Al_23: Vc=66.4 [Angs] sigma_abs=0.924 [barn] sigma_inc=0.0328 [barn] reflections=Al.laz
Opening input file '/u/data/pkwi/McStas/mcstas/3.x-dev/tools/Python/mcrun/../mccodelib/../../../data/HOPG.rfl' (Table_Read_Offset)
Opening input file '/u/data/pkwi/McStas/mcstas/3.x-dev/tools/Python/mcrun/../mccodelib/../../../data/HOPG.trm' (Table_Read_Offset)
Isotropic_Sqw: H53_IN14_Sample: is a cylinder: radius=0.005000 thickness=0.000000 height=0.050000 [J Comp Phys 228 (2009) 5251]
Opening input file '/u/data/pkwi/McStas/mcstas/3.x-dev/tools/Python/mcrun/../mccodelib/../../../data/Rb_liq_coh.sqw' (Table_Read_Offset)
Opening input file '/u/data/pkwi/McStas/mcstas/3.x-dev/tools/Python/mcrun/../mccodelib/../../../data/Rb_liq_coh.sqw' (Table_Read_Offset)
Have found 5 GPU devices on rank 4. Will use device 4.
ILL_H5: IN14: A1=38.7506 [deg] RMV=2.02467 [m] lambda=4.2 [Angs] sample=Rb_liq_coh.sqw
ILL_H5: IN16: A1=69.8672 [deg] RMV=2.01006 [m] lambda=6.3 [Angs] sample=Rb_liq_coh.sqw
ILL_H5: D16:  A1=56.5716 [deg] RMV=3.02043 [m] lambda=5.6 [Angs] sample=H2O_liq.qSq
ILL_H5: SuperADAM: A1=40.9756 [deg] RMV=2.90659 [m] lambda=4.4 [Angs] sample=SiO2_quartza.laz
ILL_H5: IN15: nu=26129.9 [rmp] lambda=6.5 [Angs] sample=Vanadium (polarized)
ILL_H5: D22:  nu=28307.4 [rpm] lambda=4.5 [Angs] sample=H2O_liq.qSq
Opening input file '/u/data/pkwi/McStas/mcstas/3.x-dev/tools/Python/mcrun/../mccodelib/../../../data/Rb_liq_coh.sqw' (Table_Read_Offset)
[ILL_H5] Initialize
Have found 5 GPU devices on rank 3. Will use device 3.
ILL_H5: IN14: A1=38.7506 [deg] RMV=2.02467 [m] lambda=4.2 [Angs] sample=Rb_liq_coh.sqw
ILL_H5: IN16: A1=69.8672 [deg] RMV=2.01006 [m] lambda=6.3 [Angs] sample=Rb_liq_coh.sqw
ILL_H5: D16:  A1=56.5716 [deg] RMV=3.02043 [m] lambda=5.6 [Angs] sample=H2O_liq.qSq
ILL_H5: SuperADAM: A1=40.9756 [deg] RMV=2.90659 [m] lambda=4.4 [Angs] sample=SiO2_quartza.laz
ILL_H5: IN15: nu=26129.9 [rmp] lambda=6.5 [Angs] sample=Vanadium (polarized)
ILL_H5: D22:  nu=28307.4 [rpm] lambda=4.5 [Angs] sample=H2O_liq.qSq
[ILL_H5] Initialize
Opening input file '/u/data/pkwi/McStas/mcstas/3.x-dev/tools/Python/mcrun/../mccodelib/../../../data/Rb_liq_coh.sqw' (Table_Read_Offset)
Isotropic_Sqw: H53_IN14_Sample: Temperature set to T=350 [K]
Isotropic_Sqw: H53_IN14_Sample: S(q,w) data from Rb_liq_coh.sqw (coh) assumed to be classical (symmetrised in energy).
Isotropic_Sqw: H53_IN14_Sample: Applying exp(hw/2kT) factor with T=350 [K] on Rb_liq_coh.sqw file (classical/symmetric) using 'Frommhold' quantum correction
Isotropic_Sqw: H53_IN14_Sample: Generated Rb_liq_coh.sqw coherent Sqw
                   q=[0.1:10 Angs-1] w=[0:101.849 meV] |S|=0.887933 size=[101x10185] sigma=6.32 [barns]
                   normalization factor S(q,w)*0.477012 (auto) \int q^2 S(q) dq=698.369
Isotropic_Sqw: H53_IN14_Sample: Using Isotropic elastic incoherent scattering (sigma=0.5 [barns])
Isotropic_Sqw: H53_IN14_Sample: Focusing can only apply for single
               scattering. Setting to order=1.
Opening input file '/u/data/pkwi/McStas/mcstas/3.x-dev/tools/Python/mcrun/../mccodelib/../../../data/Al.laz' (Table_Read_Offset)
Table from file 'Al.laz' (block 1) is 26 x 18 (x=1:8), constant step. interpolation: linear
  '# TITLE *Aluminum-Al-[FM3-M] Miller, H.P.jr.;DuMond, J.W.M.[1942] at 298 K; ...'
PowderN: HCS_Al_42: Reading 26 rows from Al.laz
PowderN: HCS_Al_42: Read 26 reflections from file 'Al.laz'
PowderN: HCS_Al_42: Vc=66.4 [Angs] sigma_abs=0.924 [barn] sigma_inc=0.0328 [barn] reflections=Al.laz
Opening input file '/u/data/pkwi/McStas/mcstas/3.x-dev/tools/Python/mcrun/../mccodelib/../../../data/Al.laz' (Table_Read_Offset)
Table from file 'Al.laz' (block 1) is 26 x 18 (x=1:8), constant step. interpolation: linear
  '# TITLE *Aluminum-Al-[FM3-M] Miller, H.P.jr.;DuMond, J.W.M.[1942] at 298 K; ...'
PowderN: HCS_Al_54: Reading 26 rows from Al.laz
PowderN: HCS_Al_54: Read 26 reflections from file 'Al.laz'
PowderN: HCS_Al_54: Vc=66.4 [Angs] sigma_abs=0.924 [barn] sigma_inc=0.0328 [barn] reflections=Al.laz
Table from file 'Al.laz' (block 1) is 26 x 18 (x=1:8), constant step. interpolation: linear
  '# TITLE *Aluminum-Al-[FM3-M] Miller, H.P.jr.;DuMond, J.W.M.[1942] at 298 K; ...'
PowderN: HCS_Al_56: Reading 26 rows from Al.laz
PowderN: HCS_Al_56: Read 26 reflections from file 'Al.laz'
PowderN: HCS_Al_56: Vc=66.4 [Angs] sigma_abs=0.924 [barn] sigma_inc=0.0328 [barn] reflections=Al.laz
Opening input file '/u/data/pkwi/McStas/mcstas/3.x-dev/tools/Python/mcrun/../mccodelib/../../../data/Al.laz' (Table_Read_Offset)
Table from file 'Al.laz' (block 1) is 26 x 18 (x=1:8), constant step. interpolation: linear
  '# TITLE *Aluminum-Al-[FM3-M] Miller, H.P.jr.;DuMond, J.W.M.[1942] at 298 K; ...'
PowderN: HCS_Al_76: Reading 26 rows from Al.laz
PowderN: HCS_Al_76: Read 26 reflections from file 'Al.laz'
PowderN: HCS_Al_76: Vc=66.4 [Angs] sigma_abs=0.924 [barn] sigma_inc=0.0328 [barn] reflections=Al.laz
Reusing input file 'HOPG.rfl' (Table_Read_Offset)
Isotropic_Sqw: H53_IN16_Sample: is a cylinder: radius=0.005000 thickness=0.000000 height=0.050000 [J Comp Phys 228 (2009) 5251]
Opening input file '/u/data/pkwi/McStas/mcstas/3.x-dev/tools/Python/mcrun/../mccodelib/../../../data/Rb_liq_coh.sqw' (Table_Read_Offset)
Opening input file '/u/data/pkwi/McStas/mcstas/3.x-dev/tools/Python/mcrun/../mccodelib/../../../data/Rb_liq_coh.sqw' (Table_Read_Offset)
Opening input file '/u/data/pkwi/McStas/mcstas/3.x-dev/tools/Python/mcrun/../mccodelib/../../../data/Rb_liq_coh.sqw' (Table_Read_Offset)
Opening input file '/u/data/pkwi/McStas/mcstas/3.x-dev/tools/Python/mcrun/../mccodelib/../../../data/Rb_liq_coh.sqw' (Table_Read_Offset)
Isotropic_Sqw: H53_IN16_Sample: Temperature set to T=350 [K]
Isotropic_Sqw: H53_IN16_Sample: S(q,w) data from Rb_liq_coh.sqw (coh) assumed to be classical (symmetrised in energy).
Isotropic_Sqw: H53_IN16_Sample: Applying exp(hw/2kT) factor with T=350 [K] on Rb_liq_coh.sqw file (classical/symmetric) using 'Frommhold' quantum correction
Isotropic_Sqw: H53_IN16_Sample: Generated Rb_liq_coh.sqw coherent Sqw
                   q=[0.1:10 Angs-1] w=[0:101.849 meV] |S|=0.887933 size=[101x10185] sigma=6.32 [barns]
                   normalization factor S(q,w)*0.477012 (auto) \int q^2 S(q) dq=698.369
Isotropic_Sqw: H53_IN16_Sample: Using Isotropic elastic incoherent scattering (sigma=0.5 [barns])
Isotropic_Sqw: H53_IN16_Sample: Focusing can only apply for single
               scattering. Setting to order=1.
Table from file 'Al.laz' (block 1) is 26 x 18 (x=1:8), constant step. interpolation: linear
  '# TITLE *Aluminum-Al-[FM3-M] Miller, H.P.jr.;DuMond, J.W.M.[1942] at 298 K; ...'
PowderN: HCS_Al_88: Reading 26 rows from Al.laz
PowderN: HCS_Al_88: Read 26 reflections from file 'Al.laz'
PowderN: HCS_Al_88: Vc=66.4 [Angs] sigma_abs=0.924 [barn] sigma_inc=0.0328 [barn] reflections=Al.laz
Opening input file '/u/data/pkwi/McStas/mcstas/3.x-dev/tools/Python/mcrun/../mccodelib/../../../data/Al.laz' (Table_Read_Offset)
Table from file 'Al.laz' (block 1) is 26 x 18 (x=1:8), constant step. interpolation: linear
  '# TITLE *Aluminum-Al-[FM3-M] Miller, H.P.jr.;DuMond, J.W.M.[1942] at 298 K; ...'
PowderN: HCS_Al_91: Reading 26 rows from Al.laz
PowderN: HCS_Al_91: Read 26 reflections from file 'Al.laz'
PowderN: HCS_Al_91: Vc=66.4 [Angs] sigma_abs=0.924 [barn] sigma_inc=0.0328 [barn] reflections=Al.laz
Reusing input file 'HOPG.rfl' (Table_Read_Offset)
Isotropic_Sqw: H53_D16_Sample: is a cylinder: radius=0.005000 thickness=0.000000 height=0.050000 [J Comp Phys 228 (2009) 5251]
Opening input file '/u/data/pkwi/McStas/mcstas/3.x-dev/tools/Python/mcrun/../mccodelib/../../../data/H2O_liq.qSq' (Table_Read_Offset)
Opening input file '/u/data/pkwi/McStas/mcstas/3.x-dev/tools/Python/mcrun/../mccodelib/../../../data/H2O_liq.qSq' (Table_Read_Offset)
Isotropic_Sqw: H53_D16_Sample: Computing scattering unit density V_rho=0.0332279 [AA^-3] from density=0.994 [g/cm^3] weight=18.015 [g/mol].
Isotropic_sqw: Converting 150 S(q) from H2O_liq.qSq into S(q,w) data
Isotropic_sqw: q range [0:14.8], creating 150 elements vector
Isotropic_Sqw: H53_D16_Sample: Temperature set to T=293 [K]
Isotropic_Sqw: H53_D16_Sample: Applying exp(hw/2kT) factor with T=293 [K] on H2O_liq.qSq file (classical/symmetric) using 'Frommhold' quantum correction
Isotropic_Sqw: H53_D16_Sample: Generated H2O_liq.qSq coherent Sqw
                   q=[0:14.8 Angs-1] w=[0:0 meV] |S|=1.49025 size=[152x1] sigma=7.751 [barns]
               Mainly elastic scattering.
Isotropic_Sqw: H53_D16_Sample: Using Isotropic elastic incoherent scattering (sigma=160.521 [barns])
Isotropic_Sqw: H53_D16_Sample: Focusing can only apply for single
               scattering. Setting to order=1.
Table from file 'Al.laz' (block 1) is 26 x 18 (x=1:8), constant step. interpolation: linear
  '# TITLE *Aluminum-Al-[FM3-M] Miller, H.P.jr.;DuMond, J.W.M.[1942] at 298 K; ...'
PowderN: HCS_Al_104: Reading 26 rows from Al.laz
PowderN: HCS_Al_104: Read 26 reflections from file 'Al.laz'
PowderN: HCS_Al_104: Vc=66.4 [Angs] sigma_abs=0.924 [barn] sigma_inc=0.0328 [barn] reflections=Al.laz
Opening input file '/u/data/pkwi/McStas/mcstas/3.x-dev/tools/Python/mcrun/../mccodelib/../../../data/Al.laz' (Table_Read_Offset)
Table from file 'Al.laz' (block 1) is 26 x 18 (x=1:8), constant step. interpolation: linear
  '# TITLE *Aluminum-Al-[FM3-M] Miller, H.P.jr.;DuMond, J.W.M.[1942] at 298 K; ...'
PowderN: HCS_Al_107: Reading 26 rows from Al.laz
PowderN: HCS_Al_107: Read 26 reflections from file 'Al.laz'
PowderN: HCS_Al_107: Vc=66.4 [Angs] sigma_abs=0.924 [barn] sigma_inc=0.0328 [barn] reflections=Al.laz
Reusing input file 'HOPG.rfl' (Table_Read_Offset)
Isotropic_Sqw: H53_SADAM_Sample: is a cylinder: radius=0.005000 thickness=0.000000 height=0.050000 [J Comp Phys 228 (2009) 5251]
Opening input file '/u/data/pkwi/McStas/mcstas/3.x-dev/tools/Python/mcrun/../mccodelib/../../../data/SiO2_quartza.laz' (Table_Read_Offset)
Opening input file '/u/data/pkwi/McStas/mcstas/3.x-dev/tools/Python/mcrun/../mccodelib/../../../data/SiO2_quartza.laz' (Table_Read_Offset)
Isotropic_sqw: Converting 625 powder lines from SiO2_quartza.laz into S(q,w) data
Isotropic_sqw: q range [0:12.4939], creating 25254 elements vector
Isotropic_Sqw: H53_SADAM_Sample: Generated SiO2_quartza.laz coherent Sqw
                   q=[0:12.4934 Angs-1] w=[0:0 meV] |S|=0.00187179 size=[25254x1] sigma=31.875 [barns]
               Mainly elastic scattering.
Isotropic_Sqw: H53_SADAM_Sample: Using Isotropic elastic incoherent scattering (sigma=0.0168 [barns])
Isotropic_Sqw: H53_SADAM_Sample: Sample temperature not defined (T=0).
Warning        Disabling detailed balance.
Isotropic_Sqw: H53_SADAM_Sample: Focusing can only apply for single
               scattering. Setting to order=1.
Table from file 'Al.laz' (block 1) is 26 x 18 (x=1:8), constant step. interpolation: linear
  '# TITLE *Aluminum-Al-[FM3-M] Miller, H.P.jr.;DuMond, J.W.M.[1942] at 298 K; ...'
PowderN: HCS_Al_120: Reading 26 rows from Al.laz
PowderN: HCS_Al_120: Read 26 reflections from file 'Al.laz'
PowderN: HCS_Al_120: Vc=66.4 [Angs] sigma_abs=0.924 [barn] sigma_inc=0.0328 [barn] reflections=Al.laz
Opening input file '/u/data/pkwi/McStas/mcstas/3.x-dev/tools/Python/mcrun/../mccodelib/../../../data/Al.laz' (Table_Read_Offset)
Table from file 'Al.laz' (block 1) is 26 x 18 (x=1:8), constant step. interpolation: linear
  '# TITLE *Aluminum-Al-[FM3-M] Miller, H.P.jr.;DuMond, J.W.M.[1942] at 298 K; ...'
PowderN: HCS_Al_123: Reading 26 rows from Al.laz
PowderN: HCS_Al_123: Read 26 reflections from file 'Al.laz'
PowderN: HCS_Al_123: Vc=66.4 [Angs] sigma_abs=0.924 [barn] sigma_inc=0.0328 [barn] reflections=Al.laz
Table from file 'Al.laz' (block 1) is 26 x 18 (x=1:8), constant step. interpolation: linear
  '# TITLE *Aluminum-Al-[FM3-M] Miller, H.P.jr.;DuMond, J.W.M.[1942] at 298 K; ...'
PowderN: HCS_Al_139: Reading 26 rows from Al.laz
PowderN: HCS_Al_139: Read 26 reflections from file 'Al.laz'
PowderN: HCS_Al_139: Vc=66.4 [Angs] sigma_abs=0.924 [barn] sigma_inc=0.0328 [barn] reflections=Al.laz
Table from file 'Al.laz' (block 1) is 26 x 18 (x=1:8), constant step. interpolation: linear
  '# TITLE *Aluminum-Al-[FM3-M] Miller, H.P.jr.;DuMond, J.W.M.[1942] at 298 K; ...'
PowderN: HCS_Al_146: Reading 26 rows from Al.laz
PowderN: HCS_Al_146: Read 26 reflections from file 'Al.laz'
PowderN: HCS_Al_146: Vc=66.4 [Angs] sigma_abs=0.924 [barn] sigma_inc=0.0328 [barn] reflections=Al.laz
Table from file 'Al.laz' (block 1) is 26 x 18 (x=1:8), constant step. interpolation: linear
  '# TITLE *Aluminum-Al-[FM3-M] Miller, H.P.jr.;DuMond, J.W.M.[1942] at 298 K; ...'
PowderN: HCS_Al_148: Reading 26 rows from Al.laz
PowderN: HCS_Al_148: Read 26 reflections from file 'Al.laz'
PowderN: HCS_Al_148: Vc=66.4 [Angs] sigma_abs=0.924 [barn] sigma_inc=0.0328 [barn] reflections=Al.laz
Opening input file '/u/data/pkwi/McStas/mcstas/3.x-dev/tools/Python/mcrun/../mccodelib/../../../data/Al.laz' (Table_Read_Offset)
Table from file 'Al.laz' (block 1) is 26 x 18 (x=1:8), constant step. interpolation: linear
  '# TITLE *Aluminum-Al-[FM3-M] Miller, H.P.jr.;DuMond, J.W.M.[1942] at 298 K; ...'
PowderN: HCS_Al_H51: Reading 26 rows from Al.laz
PowderN: HCS_Al_H51: Read 26 reflections from file 'Al.laz'
PowderN: HCS_Al_H51: Vc=66.4 [Angs] sigma_abs=0.924 [barn] sigma_inc=0.0328 [barn] reflections=Al.laz
Table from file 'Al.laz' (block 1) is 26 x 18 (x=1:8), constant step. interpolation: linear
  '# TITLE *Aluminum-Al-[FM3-M] Miller, H.P.jr.;DuMond, J.W.M.[1942] at 298 K; ...'
PowderN: HCS_Al_165: Reading 26 rows from Al.laz
PowderN: HCS_Al_165: Read 26 reflections from file 'Al.laz'
PowderN: HCS_Al_165: Vc=66.4 [Angs] sigma_abs=0.924 [barn] sigma_inc=0.0328 [barn] reflections=Al.laz
Table from file 'Al.laz' (block 1) is 26 x 18 (x=1:8), constant step. interpolation: linear
  '# TITLE *Aluminum-Al-[FM3-M] Miller, H.P.jr.;DuMond, J.W.M.[1942] at 298 K; ...'
PowderN: HCS_Al_167: Reading 26 rows from Al.laz
PowderN: HCS_Al_167: Read 26 reflections from file 'Al.laz'
PowderN: HCS_Al_167: Vc=66.4 [Angs] sigma_abs=0.924 [barn] sigma_inc=0.0328 [barn] reflections=Al.laz
Incoherent: H511_IN15_Sample: Vc=13.827 [Angs] sigma_abs=5.08 [barn] sigma_inc=5.08 [barn]
Table from file 'Al.laz' (block 1) is 26 x 18 (x=1:8), constant step. interpolation: linear
  '# TITLE *Aluminum-Al-[FM3-M] Miller, H.P.jr.;DuMond, J.W.M.[1942] at 298 K; ...'
PowderN: HCS_Al_H512: Reading 26 rows from Al.laz
PowderN: HCS_Al_H512: Read 26 reflections from file 'Al.laz'
PowderN: HCS_Al_H512: Vc=66.4 [Angs] sigma_abs=0.924 [barn] sigma_inc=0.0328 [barn] reflections=Al.laz
Table from file 'Al.laz' (block 1) is 26 x 18 (x=1:8), constant step. interpolation: linear
  '# TITLE *Aluminum-Al-[FM3-M] Miller, H.P.jr.;DuMond, J.W.M.[1942] at 298 K; ...'
PowderN: HCS_Al_199: Reading 26 rows from Al.laz
PowderN: HCS_Al_199: Read 26 reflections from file 'Al.laz'
PowderN: HCS_Al_199: Vc=66.4 [Angs] sigma_abs=0.924 [barn] sigma_inc=0.0328 [barn] reflections=Al.laz
Opening input file '/u/data/pkwi/McStas/mcstas/3.x-dev/tools/Python/mcrun/../mccodelib/../../../data/Al.laz' (Table_Read_Offset)
Table from file 'Al.laz' (block 1) is 26 x 18 (x=1:8), constant step. interpolation: linear
  '# TITLE *Aluminum-Al-[FM3-M] Miller, H.P.jr.;DuMond, J.W.M.[1942] at 298 K; ...'
PowderN: HCS_Al_204: Reading 26 rows from Al.laz
PowderN: HCS_Al_204: Read 26 reflections from file 'Al.laz'
PowderN: HCS_Al_204: Vc=66.4 [Angs] sigma_abs=0.924 [barn] sigma_inc=0.0328 [barn] reflections=Al.laz
Opening input file '/u/data/pkwi/McStas/mcstas/3.x-dev/tools/Python/mcrun/../mccodelib/../../../data/Al.laz' (Table_Read_Offset)
Table from file 'Al.laz' (block 1) is 26 x 18 (x=1:8), constant step. interpolation: linear
  '# TITLE *Aluminum-Al-[FM3-M] Miller, H.P.jr.;DuMond, J.W.M.[1942] at 298 K; ...'
PowderN: HCS_Al_206: Reading 26 rows from Al.laz
PowderN: HCS_Al_206: Read 26 reflections from file 'Al.laz'
PowderN: HCS_Al_206: Vc=66.4 [Angs] sigma_abs=0.924 [barn] sigma_inc=0.0328 [barn] reflections=Al.laz
Isotropic_Sqw: H51_D22_Sample: is a cylinder: radius=0.005000 thickness=0.000000 height=0.050000 [J Comp Phys 228 (2009) 5251]
Isotropic_Sqw: H51_D22_Sample: Computing scattering unit density V_rho=0.0332279 [AA^-3] from density=0.994 [g/cm^3] weight=18.015 [g/mol].
Isotropic_sqw: Converting 150 S(q) from H2O_liq.qSq into S(q,w) data
Isotropic_sqw: q range [0:14.8], creating 150 elements vector
Isotropic_Sqw: H51_D22_Sample: Temperature set to T=293 [K]
Isotropic_Sqw: H51_D22_Sample: Applying exp(hw/2kT) factor with T=293 [K] on H2O_liq.qSq file (classical/symmetric) using 'Frommhold' quantum correction
Isotropic_Sqw: H51_D22_Sample: Generated H2O_liq.qSq coherent Sqw
                   q=[0:14.8 Angs-1] w=[0:0 meV] |S|=1.49025 size=[152x1] sigma=7.751 [barns]
               Mainly elastic scattering.
Isotropic_Sqw: H51_D22_Sample: Using Isotropic elastic incoherent scattering (sigma=160.521 [barns])
Isotropic_Sqw: H51_D22_Sample: Focusing can only apply for single
               scattering. Setting to order=1.
*** TRACE end *** 

Save [ILL_H5]
Detector: H5_I=7.46399e+13 H5_ERR=1.72997e+10 H5_N=3.86589e+07 "H5_1675221374.x_y"
Detector: H53_origin_I=1.83998e+13 H53_origin_ERR=8.59535e+09 H53_origin_N=9.42719e+06 "H53_origin_1675221374.hd_vd"
Detector: H52_origin_I=4.59366e+12 H52_origin_ERR=4.29448e+09 H52_origin_N=2.35409e+06 "H52_origin_1675221374.hd_vd"
Detector: H51_origin_I=1.22654e+13 H51_origin_ERR=7.01522e+09 H51_origin_N=6.2912e+06 "H51_origin_1675221374.hd_vd"
Detector: H53_Obt_Out_I=1.59469e+12 H53_Obt_Out_ERR=2.41706e+09 H53_Obt_Out_N=5.10638e+06 "H53_Obt_Out_1675221374.x_y"
Detector: H53_IN14_Monochromator_Cradle_I=7.76617e+11 H53_IN14_Monochromator_Cradle_ERR=1.51437e+09 H53_IN14_Monochromator_Cradle_N=4.10061e+06 "H53_IN14_Monochromator_Cradle_1675221374.x_y"
Detector: H53_IN14_Sample_Div_I=4.69001e+09 H53_IN14_Sample_Div_ERR=1.35467e+08 H53_IN14_Sample_Div_N=4315 "H53_IN14_Sample_Div_1675221374.hd_vd"
Detector: H53_IN14_Sample_XY_I=7.96731e+09 H53_IN14_Sample_XY_ERR=1.72373e+08 H53_IN14_Sample_XY_N=11097 "H53_IN14_Sample_XY_1675221374.x_y"
Detector: H53_IN14_Sample_L_I=7.71206e+09 H53_IN14_Sample_L_ERR=1.70319e+08 H53_IN14_Sample_L_N=10865 "H53_IN14_Sample_L_1675221374.L"
Detector: H53_IN14_Spectrometer_I=8.33939e+06 H53_IN14_Spectrometer_ERR=2.60085e+06 H53_IN14_Spectrometer_N=40 "H53_IN14_Spectrometer_1675221378.A_E"
Detector: H53_IN14_Diffractometer_I=1.91846e+06 H53_IN14_Diffractometer_ERR=1.30088e+06 H53_IN14_Diffractometer_N=23 "H53_IN14_Diffractometer_1675221378.th_y"
Detector: He3H_I=0 He3H_ERR=0 He3H_N=0 "He3H"
Detector: H53_VTE_I=5.17988e+11 H53_VTE_ERR=1.08088e+09 H53_VTE_N=3.13705e+06 "H53_VTE_1675221378.x_y"
Detector: H53_IN16_Monochromator_Cradle_I=4.19323e+11 H53_IN16_Monochromator_Cradle_ERR=9.67437e+08 H53_IN16_Monochromator_Cradle_N=2.48252e+06 "H53_IN16_Monochromator_Cradle_1675221378.x_y"
Detector: H53_IN16_Sample_Div_I=9.43633e+08 H53_IN16_Sample_Div_ERR=4.8978e+07 H53_IN16_Sample_Div_N=3008 "H53_IN16_Sample_Div_1675221378.hd_vd"
Detector: H53_IN16_Sample_XY_I=2.25383e+09 H53_IN16_Sample_XY_ERR=7.43449e+07 H53_IN16_Sample_XY_N=9530 "H53_IN16_Sample_XY_1675221378.x_y"
Detector: H53_IN16_Sample_L_I=2.25383e+09 H53_IN16_Sample_L_ERR=7.43449e+07 H53_IN16_Sample_L_N=9514 "H53_IN16_Sample_L_1675221378.L"
Detector: H53_IN16_Spectrometer_I=1.28998e+06 H53_IN16_Spectrometer_ERR=392896 H53_IN16_Spectrometer_N=43 "H53_IN16_Spectrometer_1675221382.A_E"
Detector: H53_IN16_Diffractometer_I=790726 H53_IN16_Diffractometer_ERR=306019 H53_IN16_Diffractometer_N=21 "H53_IN16_Diffractometer_1675221382.th_y"
Detector: H53_D16_Monochromator_Cradle_I=3.81735e+11 H53_D16_Monochromator_Cradle_ERR=9.73974e+08 H53_D16_Monochromator_Cradle_N=1.88498e+06 "H53_D16_Monochromator_Cradle_1675221382.x_y"
Detector: H53_D16_Sample_Div_I=8.1045e+08 H53_D16_Sample_Div_ERR=4.97605e+07 H53_D16_Sample_Div_N=1372 "H53_D16_Sample_Div_1675221382.hd_vd"
Detector: H53_D16_Sample_XY_I=2.29118e+09 H53_D16_Sample_XY_ERR=8.1841e+07 H53_D16_Sample_XY_N=4542 "H53_D16_Sample_XY_1675221382.x_y"
Detector: H53_D16_Sample_L_I=2.29115e+09 H53_D16_Sample_L_ERR=8.18411e+07 H53_D16_Sample_L_N=4510 "H53_D16_Sample_L_1675221382.L"
Detector: H53_D16_Detector_I=717876 H53_D16_Detector_ERR=492573 H53_D16_Detector_N=9 "H53_D16_Detector_1675221382.x_y"
Detector: H53_D16_Spectrometer_I=3.51099e+07 H53_D16_Spectrometer_ERR=5.34812e+06 H53_D16_Spectrometer_N=211 "H53_D16_Spectrometer_1675221382.A_E"
Detector: H53_D16_Diffractometer_I=1.80366e+07 H53_D16_Diffractometer_ERR=3.81527e+06 H53_D16_Diffractometer_N=118 "H53_D16_Diffractometer_1675221382.th_y"
Detector: H53_SADAM_Monochromator_Cradle_I=3.48929e+11 H53_SADAM_Monochromator_Cradle_ERR=9.81479e+08 H53_SADAM_Monochromator_Cradle_N=1.44978e+06 "H53_SADAM_Monochromator_Cradle_1675221382.x_y"
Detector: H53_SADAM_Sample_Div_I=7.6057e+08 H53_SADAM_Sample_Div_ERR=4.72668e+07 H53_SADAM_Sample_Div_N=811 "H53_SADAM_Sample_Div_1675221382.hd_vd"
Detector: H53_SADAM_Sample_XY_I=2.0799e+09 H53_SADAM_Sample_XY_ERR=7.80415e+07 H53_SADAM_Sample_XY_N=2710 "H53_SADAM_Sample_XY_1675221382.x_y"
Detector: H53_SADAM_Sample_L_I=2.07865e+09 H53_SADAM_Sample_L_ERR=7.80353e+07 H53_SADAM_Sample_L_N=2684 "H53_SADAM_Sample_L_1675221382.L"
Detector: H53_SADAM_Detector_I=0 H53_SADAM_Detector_ERR=0 H53_SADAM_Detector_N=0 "H53_SADAM_Detector_1675221384.x_y"
Detector: H53_SADAM_Spectrometer_I=1.73353e+06 H53_SADAM_Spectrometer_ERR=896698 H53_SADAM_Spectrometer_N=10 "H53_SADAM_Spectrometer_1675221384.A_E"
Detector: H53_SADAM_Diffractometer_I=1.23859e+06 H53_SADAM_Diffractometer_ERR=755587 H53_SADAM_Diffractometer_N=6 "H53_SADAM_Diffractometer_1675221384.th_y"
Detector: H53_CryoEDM_In_L_I=3.14495e+11 H53_CryoEDM_In_L_ERR=9.86986e+08 H53_CryoEDM_In_L_N=1.02679e+06 "H53_CryoEDM_In_L_1675221384.L"
Detector: H53_CryoEDM_mirror_ReflectXY_I=7.9215e+09 H53_CryoEDM_mirror_ReflectXY_ERR=4.96735e+07 H53_CryoEDM_mirror_ReflectXY_N=106098 "H53_CryoEDM_mirror_ReflectXY"
Detector: H53_CryoEDM_mirror_TransmitXY_I=7.28783e+10 H53_CryoEDM_mirror_TransmitXY_ERR=2.28518e+09 H53_CryoEDM_mirror_TransmitXY_N=5632 "H53_CryoEDM_mirror_TransmitXY"
Detector: H53_CryoEDM_Sample_L_I=1.255e+10 H53_CryoEDM_Sample_L_ERR=6.15243e+07 H53_CryoEDM_Sample_L_N=256799 "H53_CryoEDM_Sample_L_1675221384.L"
Detector: H53_CryoEDM_Sample_Div_I=1.24861e+10 H53_CryoEDM_Sample_Div_ERR=6.14305e+07 H53_CryoEDM_Sample_Div_N=200891 "H53_CryoEDM_Sample_Div_1675221384.hd_vd"
Detector: H53_CryoEDM_Sample_XY_I=1.255e+10 H53_CryoEDM_Sample_XY_ERR=6.15243e+07 H53_CryoEDM_Sample_XY_N=257107 "H53_CryoEDM_Sample_XY_1675221384.x_y"
Detector: H52_Obt_Out_I=1.5228e+11 H52_Obt_Out_ERR=6.72375e+08 H52_Obt_Out_N=652138 "H52_Obt_Out_1675221384.x_y"
Detector: H51_Obt_Out_I=4.7423e+11 H51_Obt_Out_ERR=1.21016e+09 H51_Obt_Out_N=1.89717e+06 "H51_Obt_Out_1675221384.x_y"
Detector: H51_S2_Out_I=3.45597e+11 H51_S2_Out_ERR=1.03963e+09 H51_S2_Out_N=1.57649e+06 "H51_S2_Out_1675221384.x_y"
Detector: H51_split_2_I=1.5958e+11 H51_split_2_ERR=7.06022e+08 H51_split_2_N=723244 "H51_split_2_1675221384.x_y"
Detector: H51_split_1_I=1.59217e+11 H51_split_1_ERR=7.0788e+08 H51_split_1_N=721982 "H51_split_1_1675221384.x_y"
Detector: H511_mirror_ReflectXY_I=1.50739e+10 H511_mirror_ReflectXY_ERR=6.96429e+07 H511_mirror_ReflectXY_N=208212 "H511_mirror_ReflectXY"
Detector: H511_mirror_TransmitXY_I=1.00762e+11 H511_mirror_TransmitXY_ERR=2.71315e+09 H511_mirror_TransmitXY_N=11053 "H511_mirror_TransmitXY"
Detector: H511_mirror_outdXY_I=1.50739e+10 H511_mirror_outdXY_ERR=6.96429e+07 H511_mirror_outdXY_N=207308 "H511_mirror_outdXY_1675221384.hd_vd"
Detector: H511_VTE_I=1.19096e+10 H511_VTE_ERR=6.47277e+07 H511_VTE_N=216079 "H511_VTE_1675221384.x_y"
Detector: H511_IN15_Sample_Div_I=4.99304e+08 H511_IN15_Sample_Div_ERR=1.00977e+07 H511_IN15_Sample_Div_N=7340 "H511_IN15_Sample_Div_1675221384.hd_vd"
Detector: H511_IN15_Sample_XY_I=4.99304e+08 H511_IN15_Sample_XY_ERR=1.00977e+07 H511_IN15_Sample_XY_N=7340 "H511_IN15_Sample_XY_1675221384.x_y"
Detector: H511_IN15_Sample_L_I=4.99304e+08 H511_IN15_Sample_L_ERR=1.00977e+07 H511_IN15_Sample_L_N=7340 "H511_IN15_Sample_L_1675221384.L"
Detector: H511_IN15_Detector_I=8000.33 H511_IN15_Detector_ERR=7422.24 H511_IN15_Detector_N=8 "H511_IN15_Detector_1675221384.x_y"
Detector: H511_IN15_Spectrometer_I=2.54055e+06 H511_IN15_Spectrometer_ERR=88396.6 H511_IN15_Spectrometer_N=3793 "H511_IN15_Spectrometer_1675221384.A_E"
Detector: H511_IN15_Diffractometer_I=1.47903e+06 H511_IN15_Diffractometer_ERR=68375.9 H511_IN15_Diffractometer_N=2179 "H511_IN15_Diffractometer_1675221384.th_y"
Detector: H512_VTE_I=8.7645e+10 H512_VTE_ERR=4.46929e+08 H512_VTE_N=669762 "H512_VTE_1675221384.x_y"
Detector: D22_PreV_I=7.09964e+10 D22_PreV_ERR=4.2559e+08 D22_PreV_N=465903 "D22_PreV_1675221384.x_y"
Detector: H51_D22_Sample_Div_I=1.11385e+09 H51_D22_Sample_Div_ERR=3.86854e+07 H51_D22_Sample_Div_N=3258 "H51_D22_Sample_Div_1675221384.hd_vd"
Detector: H51_D22_Sample_XY_I=1.11385e+09 H51_D22_Sample_XY_ERR=3.86854e+07 H51_D22_Sample_XY_N=3258 "H51_D22_Sample_XY_1675221384.x_y"
Detector: H51_D22_Sample_L_I=1.11385e+09 H51_D22_Sample_L_ERR=3.86854e+07 H51_D22_Sample_L_N=3258 "H51_D22_Sample_L_1675221384.L"

Finally [ILL_H5: 1]. Time: 20 [s] 

Finally [ILL_H5: 1]. Time: 20 [s] 

Finally [ILL_H5: 1]. Time: 20 [s] 

Finally [ILL_H5: 1]. Time: 20 [s] 
Detector: D22_Detector_I=7.667e+06 D22_Detector_ERR=1.28081e+06 D22_Detector_N=124 "D22_Detector_1675221384.x_y"

Finally [ILL_H5: 1]. Time: 20 [s] 
Isotropic_Sqw: H53_IN14_Sample: 81 neutron events (out of 130) that should have
               scattered were transmitted because scattering conditions
WARNING        could not be satisfied after 100 tries.
Isotropic_Sqw: H53_IN14_Sample: Scattering fraction=0.0572784 of incoming intensity
               Absorption fraction           =0.0883977
               Single   scattering intensity =1.84e+07 (coh=1.83664e+07 inc=33617.7)
               Multiple scattering intensity =0
Isotropic_Sqw: H53_IN16_Sample: 453 neutron events (out of 497) that should have
               scattered were transmitted because scattering conditions
WARNING        could not be satisfied after 100 tries.
Isotropic_Sqw: H53_IN16_Sample: Scattering fraction=0.0482977 of incoming intensity
               Absorption fraction           =0.168989
               Single   scattering intensity =1.28998e+06 (coh=1.1338e+06 inc=156186)
               Multiple scattering intensity =0
Isotropic_Sqw: H53_D16_Sample: 2 neutron events (out of 264) that should have
               scattered were transmitted because scattering conditions
WARNING        could not be satisfied after 100 tries.
Isotropic_Sqw: H53_D16_Sample: Scattering fraction=0.943831 of incoming intensity
               Absorption fraction           =0.00969145
               Single   scattering intensity =4.10775e+07 (coh=1.66572e+06 inc=3.94118e+07)
               Multiple scattering intensity =0
Isotropic_Sqw: H53_SADAM_Sample: Scattering fraction=0.113438 of incoming intensity
               Absorption fraction           =0.0766539
               Single   scattering intensity =1.73353e+06 (coh=1.73353e+06 inc=0)
               Multiple scattering intensity =0
Isotropic_Sqw: H51_D22_Sample: 3 neutron events (out of 1670) that should have
               scattered were transmitted because scattering conditions
WARNING        could not be satisfied after 100 tries.
Isotropic_Sqw: H51_D22_Sample: Scattering fraction=0.972396 of incoming intensity
               Absorption fraction           =0.00980033
               Single   scattering intensity =9.75741e+07 (coh=4.08591e+06 inc=9.34881e+07)
               Multiple scattering intensity =0
INFO: Placing instr file copy /home/nexmap/pkwi/TESTS/2023-02-01/McStas_8GPU_5e7/ILL_H5/ILL_H5.instr in dataset 1