INFO: Using directory: "2"
INFO: Using existing c-file: ./ILL_H15_SAM.c
INFO: Using existing binary: ./ILL_H15_SAM.out
WARNING: Ignoring invalid parameter: "ILL_H15_SAM.instr"
INFO: ===
Simulation 'ILL_H15_SAM' (ILL_H15_SAM.instr): running on 20 nodes (master is 'hypatia.fysik.dtu.dk', MPI version 3.1).

...
Simulation parameters:
Mean wavelength after NVS = 5.2 AA
Source size = 30 (H) x 30 (V) mm
Collimation length = 9 m
Beam at sample = rectangular, 7 (H) x 10 (V) mm
Horizontal beam divergence = 2.1 mrad
Vertical beam divergence = 2.2 mrad

...
Simulation parameters:
Mean wavelength after NVS = 5.2 AA
Source size = 30 (H) x 30 (V) mm
Collimation length = 9 m

...
Simulation parameters:
Mean wavelength after NVS = 5.2 AA
Source size = 30 (H) x 30 (V) mm
Collimation length = 9 m
Beam at sample = rectangular, 7 (H) x 10 (V) mm
Horizontal beam divergence = 2.1 mrad
Vertical beam divergence = 2.2 mrad
Sample = hard spheres in solution
Sample-to-detector distance = 6.8 m
Q-range = 0.0049-0.0803 AA^-1

...
Simulation parameters:
Mean wavelength after NVS = 5.2 AA
Source size = 30 (H) x 30 (V) mm
Collimation length = 9 m
Beam at sample = rectangular, 7 (H) x 10 (V) mm
Horizontal beam divergence = 2.1 mrad
Vertical beam divergence = 2.2 mrad
Sample = hard spheres in solution
Sample-to-detector distance = 6.8 m
Q-range = 0.0049-0.0803 AA^-1
...


...
Simulation parameters:
Mean wavelength after NVS = 5.2 AA
Source size = 30 (H) x 30 (V) mm
Collimation length = 9 m
Beam at sample = rectangular, 7 (H) x 10 (V) mm
Horizontal beam divergence = 2.1 mrad
Vertical beam divergence = 2.2 mrad
Sample = hard spheres in solution
Sample-to-detector distance = 6.8 m
Q-range = 0.0049-0.0803 AA^-1
...


...
Simulation parameters:
Mean wavelength after NVS = 5.2 AA
Source size = 30 (H) x 30 (V) mm
Collimation length = 9 m
Beam at sample = rectangular, 7 (H) x 10 (V) mm
Horizontal beam divergence = 2.1 mrad
Vertical beam divergence = 2.2 mrad
Sample = hard spheres in solution
Sample-to-detector distance = 6.8 m
Q-range = 0.0049-0.0803 AA^-1
...


...
Simulation parameters:
Mean wavelength after NVS = 5.2 AA
Source size = 30 (H) x 30 (V) mm
Collimation length = 9 m
Beam at sample = rectangular, 7 (H) x 10 (V) mm
Horizontal beam divergence = 2.1 mrad
Vertical beam divergence = 2.2 mrad
Sample = hard spheres in solution
Sample-to-detector distance = 6.8 m
Q-range = 0.0049-0.0803 AA^-1
...


...
Simulation parameters:
Mean wavelength after NVS = 5.2 AA
Source size = 30 (H) x 30 (V) mm
Collimation length = 9 m
Beam at sample = rectangular, 7 (H) x 10 (V) mm
Horizontal beam divergence = 2.1 mrad
Vertical beam divergence = 2.2 mrad
Sample = hard spheres in solution
Sample-to-detector distance = 6.8 m
Q-range = 0.0049-0.0803 AA^-1
...


...
Simulation parameters:
Mean wavelength after NVS = 5.2 AA
Source size = 30 (H) x 30 (V) mm
Collimation length = 9 m
Beam at sample = rectangular, 7 (H) x 10 (V) mm
Horizontal beam divergence = 2.1 mrad
Vertical beam divergence = 2.2 mrad
Sample = hard spheres in solution
Sample-to-detector distance = 6.8 m
Q-range = 0.0049-0.0803 AA^-1
...


...
Simulation parameters:
Mean wavelength after NVS = 5.2 AA
Source size = 30 (H) x 30 (V) mm
Collimation length = 9 m
Beam at sample = rectangular, 7 (H) x 10 (V) mm
Horizontal beam divergence = 2.1 mrad
Vertical beam divergence = 2.2 mrad
Sample = hard spheres in solution
Sample-to-detector distance = 6.8 m
Q-range = 0.0049-0.0803 AA^-1
...


...
Simulation parameters:
Mean wavelength after NVS = 5.2 AA
Source size = 30 (H) x 30 (V) mm
Collimation length = 9 m
Beam at sample = rectangular, 7 (H) x 10 (V) mm
Horizontal beam divergence = 2.1 mrad
Vertical beam divergence = 2.2 mrad
Sample = hard spheres in solution
Sample-to-detector distance = 6.8 m
Q-range = 0.0049-0.0803 AA^-1
...

Sample = hard spheres in solution
Sample-to-detector distance = 6.8 m
Q-range = 0.0049-0.0803 AA^-1
...

Beam at sample = rectangular, 7 (H) x 10 (V) mm
Horizontal beam divergence = 2.1 mrad
Vertical beam divergence = 2.2 mrad
Sample = hard spheres in solution
Sample-to-detector distance = 6.8 m
Q-range = 0.0049-0.0803 AA^-1
...

...


...
Simulation parameters:
Mean wavelength after NVS = 5.2 AA
Source size = 30 (H) x 30 (V) mm
Collimation length = 9 m
Beam at sample = rectangular, 7 (H) x 10 (V) mm
Horizontal beam divergence = 2.1 mrad
Vertical beam divergence = 2.2 mrad
Sample = hard spheres in solution
Sample-to-detector distance = 6.8 m
Q-range = 0.0049-0.0803 AA^-1
...


...
Simulation parameters:
Mean wavelength after NVS = 5.2 AA
Source size = 30 (H) x 30 (V) mm
Collimation length = 9 m
Beam at sample = rectangular, 7 (H) x 10 (V) mm
Horizontal beam divergence = 2.1 mrad
Vertical beam divergence = 2.2 mrad
Sample = hard spheres in solution
Sample-to-detector distance = 6.8 m
Q-range = 0.0049-0.0803 AA^-1
...


...
Simulation parameters:
Mean wavelength after NVS = 5.2 AA
Source size = 30 (H) x 30 (V) mm
Collimation length = 9 m
Beam at sample = rectangular, 7 (H) x 10 (V) mm
Horizontal beam divergence = 2.1 mrad
Vertical beam divergence = 2.2 mrad
Sample = hard spheres in solution
Sample-to-detector distance = 6.8 m
Q-range = 0.0049-0.0803 AA^-1
...


...
Simulation parameters:
Mean wavelength after NVS = 5.2 AA
Source size = 30 (H) x 30 (V) mm
Collimation length = 9 m
Beam at sample = rectangular, 7 (H) x 10 (V) mm
Horizontal beam divergence = 2.1 mrad
Vertical beam divergence = 2.2 mrad
Sample = hard spheres in solution
Sample-to-detector distance = 6.8 m
Q-range = 0.0049-0.0803 AA^-1
...


...
Simulation parameters:
Mean wavelength after NVS = 5.2 AA
Source size = 30 (H) x 30 (V) mm
Collimation length = 9 m
Beam at sample = rectangular, 7 (H) x 10 (V) mm
Horizontal beam divergence = 2.1 mrad
Vertical beam divergence = 2.2 mrad
Sample = hard spheres in solution
Sample-to-detector distance = 6.8 m
Q-range = 0.0049-0.0803 AA^-1
...


...
Simulation parameters:
Mean wavelength after NVS = 5.2 AA
Source size = 30 (H) x 30 (V) mm
Collimation length = 9 m
Beam at sample = rectangular, 7 (H) x 10 (V) mm
Horizontal beam divergence = 2.1 mrad
Vertical beam divergence = 2.2 mrad
Sample = hard spheres in solution
Sample-to-detector distance = 6.8 m
Q-range = 0.0049-0.0803 AA^-1
...


...
Simulation parameters:
Mean wavelength after NVS = 5.2 AA
Source size = 30 (H) x 30 (V) mm
Collimation length = 9 m
Beam at sample = rectangular, 7 (H) x 10 (V) mm
Horizontal beam divergence = 2.1 mrad
Vertical beam divergence = 2.2 mrad
Sample = hard spheres in solution
Sample-to-detector distance = 6.8 m
Q-range = 0.0049-0.0803 AA^-1
...


...
Simulation parameters:
Mean wavelength after NVS = 5.2 AA
Source size = 30 (H) x 30 (V) mm
Collimation length = 9 m
Beam at sample = rectangular, 7 (H) x 10 (V) mm
Horizontal beam divergence = 2.1 mrad
Vertical beam divergence = 2.2 mrad
Sample = hard spheres in solution
Sample-to-detector distance = 6.8 m
Q-range = 0.0049-0.0803 AA^-1
...

[ILL_H15_SAM] Initialize
[ILL_H15_SAM] Initialize
[ILL_H15_SAM] Initialize
[ILL_H15_SAM] Initialize
[ILL_H15_SAM] Initialize
[ILL_H15_SAM] Initialize
[ILL_H15_SAM] Initialize
[ILL_H15_SAM] Initialize
[ILL_H15_SAM] Initialize
[ILL_H15_SAM] Initialize
[ILL_H15_SAM] Initialize
[ILL_H15_SAM] Initialize
[ILL_H15_SAM] Initialize

...
Simulation parameters:
Mean wavelength after NVS = 5.2 AA
[ILL_H15_SAM] Initialize
Source_gen: component VCS (square 0.14 x 0.22)
            focusing distance dist=2.33 area=0.07 x 0.2
            spectra 4.680 to 5.720 AA (2.500 to 3.735 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].
Source size = 30 (H) x 30 (V) mm
Collimation length = 9 m
Beam at sample = rectangular, 7 (H) x 10 (V) mm
Horizontal beam divergence = 2.1 mrad
Vertical beam divergence = 2.2 mrad
Sample = hard spheres in solution
Sample-to-detector distance = 6.8 m
Al_window Al_window1 WARNING: Using simple lo-fi transmission model.
 - Replace with PowderN or NCrystal for bragg edges etc.
Al_window Al_window1_4 WARNING: Using simple lo-fi transmission model.
 - Replace with PowderN or NCrystal for bragg edges etc.
Al_window Al_window1_5 WARNING: Using simple lo-fi transmission model.
 - Replace with PowderN or NCrystal for bragg edges etc.
Al_window Al_window1_6 WARNING: Using simple lo-fi transmission model.
 - Replace with PowderN or NCrystal for bragg edges etc.
Al_window Al_window1_7 WARNING: Using simple lo-fi transmission model.
 - Replace with PowderN or NCrystal for bragg edges etc.
Al_window H15_2_In WARNING: Using simple lo-fi transmission model.
 - Replace with PowderN or NCrystal for bragg edges etc.
Al_window H15_2_Out WARNING: Using simple lo-fi transmission model.
 - Replace with PowderN or NCrystal for bragg edges etc.
Al_window H15_3_In WARNING: Using simple lo-fi transmission model.
 - Replace with PowderN or NCrystal for bragg edges etc.
Q-range = 0.0049-0.0803 AA^-1
...

[ILL_H15_SAM] Initialize
[ILL_H15_SAM] Initialize
[ILL_H15_SAM] Initialize
[ILL_H15_SAM] Initialize
Al_window H15_C11_7_Out WARNING: Using simple lo-fi transmission model.
 - Replace with PowderN or NCrystal for bragg edges etc.
Al_window H151_1_In WARNING: Using simple lo-fi transmission model.
 - Replace with PowderN or NCrystal for bragg edges etc.
Al_window H151_8_Out WARNING: Using simple lo-fi transmission model.
 - Replace with PowderN or NCrystal for bragg edges etc.
Al_window NVS_In WARNING: Using simple lo-fi transmission model.
 - Replace with PowderN or NCrystal for bragg edges etc.
Al_window NVS_Out WARNING: Using simple lo-fi transmission model.
 - Replace with PowderN or NCrystal for bragg edges etc.
Al_window Monitor_In WARNING: Using simple lo-fi transmission model.
 - Replace with PowderN or NCrystal for bragg edges etc.
Al_window Monitor_Out WARNING: Using simple lo-fi transmission model.
 - Replace with PowderN or NCrystal for bragg edges etc.
Al_window Vacuum_Window_In WARNING: Using simple lo-fi transmission model.
 - Replace with PowderN or NCrystal for bragg edges etc.
[ILL_H15_SAM] Initialize
[ILL_H15_SAM] Initialize
Incoherent: H2O: Vc=29.969 [Angs] sigma_abs=0.665 [barn] sigma_inc=160.521 [barn]
H15_C3_2: warning: neutron has entered guide, but can not exit !
*** TRACE end *** 

Save [ILL_H15_SAM]
Detector: h151cap_I=1.40057e+09 h151cap_ERR=7.08576e+06 h151cap_N=139586 "h151cap.dat"
Detector: mon_I=2.35237e+09 mon_ERR=5.75773e+06 mon_N=480392 "mon.dat"
Detector: sample_I=6.10201e+06 sample_ERR=309588 sample_N=392 "sample.dat"

Finally [ILL_H15_SAM: 2]. Time: 3 [s] 

Finally [ILL_H15_SAM: 2]. Time: 3 [s] 

Finally [ILL_H15_SAM: 2]. Time: 3 [s] 

Finally [ILL_H15_SAM: 2]. Time: 3 [s] 

Finally [ILL_H15_SAM: 2]. Time: 3 [s] 

Finally [ILL_H15_SAM: 2]. Time: 3 [s] 

Finally [ILL_H15_SAM: 2]. Time: 3 [s] 

Finally [ILL_H15_SAM: 2]. Time: 3 [s] 

Finally [ILL_H15_SAM: 2]. Time: 3 [s] 

Finally [ILL_H15_SAM: 2]. Time: 3 [s] 

Finally [ILL_H15_SAM: 2]. Time: 3 [s] 

Finally [ILL_H15_SAM: 2]. Time: 3 [s] 

Finally [ILL_H15_SAM: 2]. Time: 3 [s] 

Finally [ILL_H15_SAM: 2]. Time: 3 [s] 

Finally [ILL_H15_SAM: 2]. Time: 3 [s] 

Finally [ILL_H15_SAM: 2]. Time: 3 [s] 

Finally [ILL_H15_SAM: 2]. Time: 3 [s] 

Finally [ILL_H15_SAM: 2]. Time: 3 [s] 

Finally [ILL_H15_SAM: 2]. Time: 3 [s] 
Detector: psd_I=1799.55 psd_ERR=6.4634 psd_N=395370 "psd.dat"

Finally [ILL_H15_SAM: 2]. Time: 3 [s] 
INFO: Placing instr file copy ILL_H15_SAM.instr in dataset 2
INFO: Placing generated c-code copy ILL_H15_SAM.c in dataset 2