INFO: Using directory: "1" INFO: Using existing c-file: ./Test_StatisticalChopper.c INFO: Using existing binary: ./Test_StatisticalChopper.out INFO: === Simulation 'Test_StatisticalChopper' (Test_StatisticalChopper.instr): running on 16 nodes (master is 'elearn1.fysik.dtu.dk', MPI version 3.1). [Test_StatisticalChopper] Initialize [Test_StatisticalChopper] Initialize [Test_StatisticalChopper] Initialize [Test_StatisticalChopper] Initialize [Test_StatisticalChopper] Initialize [Test_StatisticalChopper] Initialize [Test_StatisticalChopper] Initialize StatisticalChopper: chop1: frequency=349.882 [Hz] 20992.9 [rpm] time frame=0.0028581 [s] phase=0 [deg] height=0.5 [m], slits centered at radius=0.25 [m] [Test_StatisticalChopper] Initialize StatisticalChopper: chop1: frequency=349.882 [Hz] 20992.9 [rpm] time frame=0.0028581 [s] phase=0 [deg] height=0.5 [m], slits centered at radius=0.25 [m] [Test_StatisticalChopper] Initialize StatisticalChopper: chop1: frequency=349.882 [Hz] 20992.9 [rpm] time frame=0.0028581 [s] phase=0 [deg] height=0.5 [m], slits centered at radius=0.25 [m] StatisticalChopper: chop1: Sequence length=255 with 127 apertures; duty cycle c=0.496063 [Test_StatisticalChopper] Initialize StatisticalChopper: chop1: frequency=349.882 [Hz] 20992.9 [rpm] time frame=0.0028581 [s] phase=0 [deg] height=0.5 [m], slits centered at radius=0.25 [m] StatisticalChopper: chop1: Sequence length=255 with 127 apertures; duty cycle c=0.496063 [Test_StatisticalChopper] Initialize StatisticalChopper: chop1: frequency=349.882 [Hz] 20992.9 [rpm] time frame=0.0028581 [s] phase=0 [deg] height=0.5 [m], slits centered at radius=0.25 [m] StatisticalChopper: chop1: Sequence length=255 with 127 apertures; duty cycle c=0.496063 [Test_StatisticalChopper] Initialize StatisticalChopper: chop1: frequency=349.882 [Hz] 20992.9 [rpm] time frame=0.0028581 [s] phase=0 [deg] height=0.5 [m], slits centered at radius=0.25 [m] StatisticalChopper: chop1: Sequence length=255 with 127 apertures; duty cycle c=0.496063 StatisticalChopper: chop1: frequency=349.882 [Hz] 20992.9 [rpm] time frame=0.0028581 [s] phase=0 [deg] height=0.5 [m], slits centered at radius=0.25 [m] StatisticalChopper: chop1: Sequence length=255 with 127 apertures; duty cycle c=0.496063 StatisticalChopper: chop1: frequency=349.882 [Hz] 20992.9 [rpm] time frame=0.0028581 [s] phase=0 [deg] height=0.5 [m], slits centered at radius=0.25 [m] StatisticalChopper: chop1: Sequence length=255 with 127 apertures; duty cycle c=0.496063 StatisticalChopper: chop1: frequency=349.882 [Hz] 20992.9 [rpm] time frame=0.0028581 [s] phase=0 [deg] height=0.5 [m], slits centered at radius=0.25 [m] StatisticalChopper: chop1: Sequence length=255 with 127 apertures; duty cycle c=0.496063 StatisticalChopper: chop1: Sequence length=255 with 127 apertures; duty cycle c=0.496063 StatisticalChopper: chop1: Sequence length=255 with 127 apertures; duty cycle c=0.496063 [Test_StatisticalChopper] Initialize StatisticalChopper: chop1: frequency=349.882 [Hz] 20992.9 [rpm] time frame=0.0028581 [s] phase=0 [deg] [Test_StatisticalChopper] Initialize StatisticalChopper: chop1: frequency=349.882 [Hz] 20992.9 [rpm] time frame=0.0028581 [s] phase=0 [deg] height=0.5 [m], slits centered at radius=0.25 [m] StatisticalChopper: chop1: Sequence length=255 with 127 apertures; duty cycle c=0.496063 StatisticalChopper: chop1: frequency=349.882 [Hz] 20992.9 [rpm] time frame=0.0028581 [s] phase=0 [deg] height=0.5 [m], slits centered at radius=0.25 [m] StatisticalChopper: chop1: Sequence length=255 with 127 apertures; duty cycle c=0.496063 StatisticalChopper: chop1: frequency=349.882 [Hz] 20992.9 [rpm] time frame=0.0028581 [s] phase=0 [deg] height=0.5 [m], slits centered at radius=0.25 [m] StatisticalChopper: chop1: Sequence length=255 with 127 apertures; duty cycle c=0.496063 StatisticalChopper: chop1: frequency=349.882 [Hz] 20992.9 [rpm] time frame=0.0028581 [s] phase=0 [deg] height=0.5 [m], slits centered at radius=0.25 [m] StatisticalChopper: chop1: Sequence length=255 with 127 apertures; duty cycle c=0.496063 [Test_StatisticalChopper] Initialize StatisticalChopper: chop1: frequency=349.882 [Hz] 20992.9 [rpm] time frame=0.0028581 [s] phase=0 [deg] height=0.5 [m], slits centered at radius=0.25 [m] StatisticalChopper: chop1: Sequence length=255 with 127 apertures; duty cycle c=0.496063 height=0.5 [m], slits centered at radius=0.25 [m] StatisticalChopper: chop1: Sequence length=255 with 127 apertures; duty cycle c=0.496063 [Test_StatisticalChopper] Initialize Monitor_nD: before_stat_chop is using automatic limits option 'auto' together with MPI. WARNING this may create incorrect distributions (but integrated flux will be right). StatisticalChopper: chop1: frequency=349.882 [Hz] 20992.9 [rpm] time frame=0.0028581 [s] phase=0 [deg] height=0.5 [m], slits centered at radius=0.25 [m] StatisticalChopper: chop1: Sequence length=255 with 127 apertures; duty cycle c=0.496063 Monitor_nD: after_stat_chop is using automatic limits option 'auto' together with MPI. WARNING this may create incorrect distributions (but integrated flux will be right). Isotropic_Sqw: Sample: is a box: width=0.005000 height=0.050000 depth=0.002000 Opening input file '/home/nexmap/pkwi/McStas/mcstas/3.x-dev/data/Na2Ca3Al2F14.laz' (Table_Read_Offset) Opening input file '/home/nexmap/pkwi/McStas/mcstas/3.x-dev/data/Na2Ca3Al2F14.laz' (Table_Read_Offset) Isotropic_sqw: Converting 841 powder lines from Na2Ca3Al2F14.laz into S(q,w) data Isotropic_sqw: q range [0:12.5538], creating 1310 elements vector Isotropic_Sqw: Sample: Generated Na2Ca3Al2F14.laz coherent Sqw q=[0:12.5442 Angs-1] w=[0:0 meV] |S|=0.0349521 size=[1310x1] sigma=283.56 [barns] Mainly elastic scattering. Isotropic_Sqw: Sample: Using Isotropic elastic incoherent scattering (sigma=13.6704 [barns]) Isotropic_Sqw: Sample: Sample temperature not defined (T=0). Warning Disabling detailed balance. Isotropic_Sqw: Sample: Focusing can only apply for single scattering. Setting to order=1. Monitor_nD: ChopMon2 is using automatic limits option 'auto' together with MPI. WARNING this may create incorrect distributions (but integrated flux will be right). Monitor_nD: time_mon2 is using automatic limits option 'auto' together with MPI. WARNING this may create incorrect distributions (but integrated flux will be right). *** TRACE end *** Save [Test_StatisticalChopper] Detector: before_stat_chop_I=2.34617e-08 before_stat_chop_ERR=7.41924e-12 before_stat_chop_N=1e+07 "before_stat_chop_1731890063.t" Detector: after_stat_chop_I=1.16856e-08 after_stat_chop_ERR=5.23608e-12 after_stat_chop_N=4.98073e+06 "after_stat_chop_1731890063.t" Detector: ChopMon2_I=3.52107e-12 ChopMon2_ERR=5.9118e-16 ChopMon2_N=4.09716e+07 "ChopMon2_1731890063.t_y" Detector: ChopMon2_I=2.81134e-11 ChopMon2_ERR=4.03889e-18 ChopMon2_N=6.55545e+10 "NULL_corr.dat" Finally [Test_StatisticalChopper: 1]. Time: 4 [s] Detector: time_mon2_I=3.44304e-12 time_mon2_ERR=5.84263e-16 time_mon2_N=4.0099e+07 "time_mon2_1731890063.t" Finally [Test_StatisticalChopper: 1]. Time: 4 [s] Finally [Test_StatisticalChopper: 1]. Time: 4 [s] Finally [Test_StatisticalChopper: 1]. Time: 4 [s] Finally [Test_StatisticalChopper: 1]. Time: 4 [s] Finally [Test_StatisticalChopper: 1]. Time: 4 [s] Finally [Test_StatisticalChopper: 1]. Time: 4 [s] Finally [Test_StatisticalChopper: 1]. Time: 4 [s] Finally [Test_StatisticalChopper: 1]. Time: 4 [s] Finally [Test_StatisticalChopper: 1]. Time: 4 [s] Finally [Test_StatisticalChopper: 1]. Time: 4 [s] Finally [Test_StatisticalChopper: 1]. Time: 4 [s] Finally [Test_StatisticalChopper: 1]. Time: 4 [s] Finally [Test_StatisticalChopper: 1]. Time: 4 [s] Finally [Test_StatisticalChopper: 1]. Time: 4 [s] Finally [Test_StatisticalChopper: 1]. Time: 4 [s] Isotropic_Sqw: Sample: Scattering fraction=0.0160659 of incoming intensity Absorption fraction =0.0696205 Single scattering intensity =4.21648e-12 (coh=3.50067e-12 inc=7.15815e-13) Multiple scattering intensity =0 INFO: Placing instr file copy Test_StatisticalChopper.instr in dataset 1 INFO: Placing generated c-code copy Test_StatisticalChopper.c in dataset 1