INFO: Using directory: "2"
INFO: Using existing c-file: ./Test_Sqw_monitor.c
INFO: Using existing binary: ./Test_Sqw_monitor.out
INFO: ===
Simulation 'Test_Sqw_monitor' (Test_Sqw_monitor.instr): running on 16 nodes (master is 'elearn1.fysik.dtu.dk', MPI version 3.1).
Test_Sqw_monitor: lambda=1.6 [Angs], k=3.92699 [Angs-1], v=2472.52 [m/s], E=31.9548 [meV]. Time=[0.00121334 0.00161778 0.00242667]
Test_Sqw_monitor: sample is Rb_liq_coh.sqw, with hollow cylindrical geometry.
Test_Sqw_monitor: detector is cylindrical with radius=4 [m] height=3 [m] and 468 tubes [1 inch]
Test_Sqw_monitor: container is Al.laz (outer cylinder)
Test_Sqw_monitor: external environment is Al.laz
Test_Sqw_monitor: lambda=1.6 [Angs], k=3.92699 [Angs-1], v=2472.52 [m/s], E=31.9548 [meV]. Time=[0.00121334 0.00161778 0.00242667]
Test_Sqw_monitor: sample is Rb_liq_coh.sqw, with hollow cylindrical geometry.
Test_Sqw_monitor: detector is cylindrical with radius=4 [m] height=3 [m] and 468 tubes [1 inch]
Test_Sqw_monitor: container is Al.laz (outer cylinder)
Test_Sqw_monitor: external environment is Al.laz
Test_Sqw_monitor: lambda=1.6 [Angs], k=3.92699 [Angs-1], v=2472.52 [m/s], E=31.9548 [meV]. Time=[0.00121334 0.00161778 0.00242667]
Test_Sqw_monitor: sample is Rb_liq_coh.sqw, with hollow cylindrical geometry.
Test_Sqw_monitor: detector is cylindrical with radius=4 [m] height=3 [m] and 468 tubes [1 inch]
Test_Sqw_monitor: container is Al.laz (outer cylinder)
Test_Sqw_monitor: external environment is Al.laz
Test_Sqw_monitor: lambda=1.6 [Angs], k=3.92699 [Angs-1], v=2472.52 [m/s], E=31.9548 [meV]. Time=[0.00121334 0.00161778 0.00242667]
Test_Sqw_monitor: sample is Rb_liq_coh.sqw, with hollow cylindrical geometry.
Test_Sqw_monitor: detector is cylindrical with radius=4 [m] height=3 [m] and 468 tubes [1 inch]
Test_Sqw_monitor: container is Al.laz (outer cylinder)
Test_Sqw_monitor: external environment is Al.laz
Test_Sqw_monitor: lambda=1.6 [Angs], k=3.92699 [Angs-1], v=2472.52 [m/s], E=31.9548 [meV]. Time=[0.00121334 0.00161778 0.00242667]
Test_Sqw_monitor: sample is Rb_liq_coh.sqw, with hollow cylindrical geometry.
Test_Sqw_monitor: detector is cylindrical with radius=4 [m] height=3 [m] and 468 tubes [1 inch]
Test_Sqw_monitor: container is Al.laz (outer cylinder)
Test_Sqw_monitor: external environment is Al.laz
Test_Sqw_monitor: lambda=1.6 [Angs], k=3.92699 [Angs-1], v=2472.52 [m/s], E=31.9548 [meV]. Time=[0.00121334 0.00161778 0.00242667]
Test_Sqw_monitor: sample is Rb_liq_coh.sqw, with hollow cylindrical geometry.
Test_Sqw_monitor: detector is cylindrical with radius=4 [m] height=3 [m] and 468 tubes [1 inch]
Test_Sqw_monitor: container is Al.laz (outer cylinder)
Test_Sqw_monitor: external environment is Al.laz
Test_Sqw_monitor: lambda=1.6 [Angs], k=3.92699 [Angs-1], v=2472.52 [m/s], E=31.9548 [meV]. Time=[0.00121334 0.00161778 0.00242667]
Test_Sqw_monitor: sample is Rb_liq_coh.sqw, with hollow cylindrical geometry.
Test_Sqw_monitor: detector is cylindrical with radius=4 [m] height=3 [m] and 468 tubes [1 inch]
Test_Sqw_monitor: container is Al.laz (outer cylinder)
Test_Sqw_monitor: external environment is Al.laz
Test_Sqw_monitor: lambda=1.6 [Angs], k=3.92699 [Angs-1], v=2472.52 [m/s], E=31.9548 [meV]. Time=[0.00121334 0.00161778 0.00242667]
Test_Sqw_monitor: sample is Rb_liq_coh.sqw, with hollow cylindrical geometry.
Test_Sqw_monitor: detector is cylindrical with radius=4 [m] height=3 [m] and 468 tubes [1 inch]
Test_Sqw_monitor: container is Al.laz (outer cylinder)
Test_Sqw_monitor: external environment is Al.laz
Test_Sqw_monitor: lambda=1.6 [Angs], k=3.92699 [Angs-1], v=2472.52 [m/s], E=31.9548 [meV]. Time=[0.00121334 0.00161778 0.00242667]
Test_Sqw_monitor: sample is Rb_liq_coh.sqw, with hollow cylindrical geometry.
Test_Sqw_monitor: detector is cylindrical with radius=4 [m] height=3 [m] and 468 tubes [1 inch]
Test_Sqw_monitor: container is Al.laz (outer cylinder)
Test_Sqw_monitor: external environment is Al.laz
Test_Sqw_monitor: lambda=1.6 [Angs], k=3.92699 [Angs-1], v=2472.52 [m/s], E=31.9548 [meV]. Time=[0.00121334 0.00161778 0.00242667]
Test_Sqw_monitor: sample is Rb_liq_coh.sqw, with hollow cylindrical geometry.
Test_Sqw_monitor: detector is cylindrical with radius=4 [m] height=3 [m] and 468 tubes [1 inch]
Test_Sqw_monitor: container is Al.laz (outer cylinder)
Test_Sqw_monitor: external environment is Al.laz
Test_Sqw_monitor: lambda=1.6 [Angs], k=3.92699 [Angs-1], v=2472.52 [m/s], E=31.9548 [meV]. Time=[0.00121334 0.00161778 0.00242667]
Test_Sqw_monitor: sample is Rb_liq_coh.sqw, with hollow cylindrical geometry.
Test_Sqw_monitor: detector is cylindrical with radius=4 [m] height=3 [m] and 468 tubes [1 inch]
Test_Sqw_monitor: container is Al.laz (outer cylinder)
Test_Sqw_monitor: external environment is Al.laz
Test_Sqw_monitor: lambda=1.6 [Angs], k=3.92699 [Angs-1], v=2472.52 [m/s], E=31.9548 [meV]. Time=[0.00121334 0.00161778 0.00242667]
Test_Sqw_monitor: sample is Rb_liq_coh.sqw, with hollow cylindrical geometry.
Test_Sqw_monitor: detector is cylindrical with radius=4 [m] height=3 [m] and 468 tubes [1 inch]
Test_Sqw_monitor: container is Al.laz (outer cylinder)
Test_Sqw_monitor: external environment is Al.laz
Test_Sqw_monitor: lambda=1.6 [Angs], k=3.92699 [Angs-1], v=2472.52 [m/s], E=31.9548 [meV]. Time=[0.00121334 0.00161778 0.00242667]
Test_Sqw_monitor: sample is Rb_liq_coh.sqw, with hollow cylindrical geometry.
Test_Sqw_monitor: detector is cylindrical with radius=4 [m] height=3 [m] and 468 tubes [1 inch]
Test_Sqw_monitor: container is Al.laz (outer cylinder)
Test_Sqw_monitor: external environment is Al.laz
Test_Sqw_monitor: lambda=1.6 [Angs], k=3.92699 [Angs-1], v=2472.52 [m/s], E=31.9548 [meV]. Time=[0.00121334 0.00161778 0.00242667]
Test_Sqw_monitor: sample is Rb_liq_coh.sqw, with hollow cylindrical geometry.
Test_Sqw_monitor: detector is cylindrical with radius=4 [m] height=3 [m] and 468 tubes [1 inch]
Test_Sqw_monitor: container is Al.laz (outer cylinder)
Test_Sqw_monitor: external environment is Al.laz
Test_Sqw_monitor: lambda=1.6 [Angs], k=3.92699 [Angs-1], v=2472.52 [m/s], E=31.9548 [meV]. Time=[0.00121334 0.00161778 0.00242667]
Test_Sqw_monitor: sample is Rb_liq_coh.sqw, with hollow cylindrical geometry.
Test_Sqw_monitor: detector is cylindrical with radius=4 [m] height=3 [m] and 468 tubes [1 inch]
Test_Sqw_monitor: container is Al.laz (outer cylinder)
Test_Sqw_monitor: external environment is Al.laz
Test_Sqw_monitor: lambda=1.6 [Angs], k=3.92699 [Angs-1], v=2472.52 [m/s], E=31.9548 [meV]. Time=[0.00121334 0.00161778 0.00242667]
Test_Sqw_monitor: sample is Rb_liq_coh.sqw, with hollow cylindrical geometry.
Test_Sqw_monitor: detector is cylindrical with radius=4 [m] height=3 [m] and 468 tubes [1 inch]
Test_Sqw_monitor: container is Al.laz (outer cylinder)
Test_Sqw_monitor: external environment is Al.laz
[Test_Sqw_monitor] Initialize
[Test_Sqw_monitor] Initialize
[Test_Sqw_monitor] Initialize
[Test_Sqw_monitor] Initialize
[Test_Sqw_monitor] Initialize
[Test_Sqw_monitor] Initialize
[Test_Sqw_monitor] Initialize
[Test_Sqw_monitor] Initialize
[Test_Sqw_monitor] Initialize
[Test_Sqw_monitor] Initialize
[Test_Sqw_monitor] Initialize
[Test_Sqw_monitor] Initialize
Opening input file '/home/nexmap/pkwi/McStas/mcstas/3.x-dev/data/Al.laz' (Table_Read_Offset)
[Test_Sqw_monitor] Initialize
[Test_Sqw_monitor] Initialize
[Test_Sqw_monitor] Initialize
[Test_Sqw_monitor] Initialize
Opening input file '/home/nexmap/pkwi/McStas/mcstas/3.x-dev/data/Al.laz' (Table_Read_Offset)
Opening input file '/home/nexmap/pkwi/McStas/mcstas/3.x-dev/data/Al.laz' (Table_Read_Offset)
Opening input file '/home/nexmap/pkwi/McStas/mcstas/3.x-dev/data/Al.laz' (Table_Read_Offset)
Isotropic_Sqw: Sample_in: is a hollow cylinder: radius=0.005000 thickness=0.001000 height=0.030000 [J Comp Phys 228 (2009) 5251]
Opening input file '/home/nexmap/pkwi/McStas/mcstas/3.x-dev/data/Rb_liq_inc.sqw' (Table_Read_Offset)
Opening input file '/home/nexmap/pkwi/McStas/mcstas/3.x-dev/data/Rb_liq_inc.sqw' (Table_Read_Offset)
Opening input file '/home/nexmap/pkwi/McStas/mcstas/3.x-dev/data/Rb_liq_inc.sqw' (Table_Read_Offset)
Opening input file '/home/nexmap/pkwi/McStas/mcstas/3.x-dev/data/Rb_liq_inc.sqw' (Table_Read_Offset)
Isotropic_Sqw: Sample_in: Temperature set to T=350 [K]
Isotropic_Sqw: Sample_in: S(q,w) data from Rb_liq_inc.sqw (inc) assumed to be classical (symmetrised in energy).
Isotropic_Sqw: Sample_in: Applying exp(hw/2kT) factor with T=350 [K] on Rb_liq_inc.sqw file (classical/symmetric) using 'Frommhold' quantum correction
Isotropic_Sqw: Sample_in: Generated Rb_liq_inc.sqw incoherent Sqw
                   q=[0.1:10 Angs-1] w=[0:101.849 meV] |S|=0.985192 size=[101x10185] sigma=0.5 [barns]
                   normalization factor S(q,w)*0.492586 (auto) \int q^2 S(q) dq=676.701
Opening input file '/home/nexmap/pkwi/McStas/mcstas/3.x-dev/data/Rb_liq_coh.sqw' (Table_Read_Offset)
Opening input file '/home/nexmap/pkwi/McStas/mcstas/3.x-dev/data/Rb_liq_coh.sqw' (Table_Read_Offset)
Opening input file '/home/nexmap/pkwi/McStas/mcstas/3.x-dev/data/Rb_liq_coh.sqw' (Table_Read_Offset)
Opening input file '/home/nexmap/pkwi/McStas/mcstas/3.x-dev/data/Rb_liq_coh.sqw' (Table_Read_Offset)
Isotropic_Sqw: Sample_in: Temperature set to T=350 [K]
Isotropic_Sqw: Sample_in: S(q,w) data from Rb_liq_coh.sqw (coh) assumed to be classical (symmetrised in energy).
Isotropic_Sqw: Sample_in: Applying exp(hw/2kT) factor with T=350 [K] on Rb_liq_coh.sqw file (classical/symmetric) using 'Frommhold' quantum correction
Isotropic_Sqw: Sample_in: 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
Opening input file '/home/nexmap/pkwi/McStas/mcstas/3.x-dev/data/Al.laz' (Table_Read_Offset)
Opening input file '/home/nexmap/pkwi/McStas/mcstas/3.x-dev/data/Al.laz' (Table_Read_Offset)
Opening input file '/home/nexmap/pkwi/McStas/mcstas/3.x-dev/data/Al.laz' (Table_Read_Offset)
Opening input file '/home/nexmap/pkwi/McStas/mcstas/3.x-dev/data/Al.laz' (Table_Read_Offset)
*** TRACE end *** 

Save [Test_Sqw_monitor]
Detector: SampleIn_I=1.14064e-06 SampleIn_ERR=1.61499e-10 SampleIn_N=4.98906e+07 "SampleIn_1727573805.x_y"
Detector: Detector_nM_I=1.32629e-08 Detector_nM_ERR=1.11866e-11 Detector_nM_N=1.64262e+07 "Sqw_map.dat"
Detector: Detector_nM_coh_I=7.39455e-09 Detector_nM_coh_ERR=2.93327e-12 Detector_nM_coh_N=1.05189e+07 "Sqw_single.dat"
Detector: Detector_nM_inc_I=6.10336e-10 Detector_nM_inc_ERR=8.42757e-13 Detector_nM_inc_N=863525 "Sqw_inc.dat"
Detector: Detector_nM_multi_I=1.21634e-10 Detector_nM_multi_ERR=1.32397e-13 Detector_nM_multi_N=2.70132e+06 "Sqw_multi.dat"
Detector: Detector_nM_env_I=5.21755e-09 Detector_nM_env_ERR=1.07618e-11 Detector_nM_env_N=5.69943e+06 "Sqw_env.dat"
Detector: M_total_I=5.95443e-09 M_total_ERR=7.35386e-12 M_total_N=7.53534e+06 "M_total_1727573808.A_t"
Detector: M_single_coh_I=3.41808e-09 M_single_coh_ERR=1.99532e-12 M_single_coh_N=4.8823e+06 "M_single_coh_1727573808.A_t"
Detector: M_single_inc_I=2.91863e-10 M_single_inc_ERR=5.82751e-13 M_single_inc_N=411393 "M_single_inc_1727573808.A_t"
Detector: M_multi_I=5.74384e-11 M_multi_ERR=9.10497e-14 M_multi_N=1.27309e+06 "M_multi_1727573808.A_t"

Finally [Test_Sqw_monitor: 2]. Time: 13 [s] 

Finally [Test_Sqw_monitor: 2]. Time: 13 [s] 

Finally [Test_Sqw_monitor: 2]. Time: 13 [s] 
Detector: M_env_container_I=2.22567e-09 M_env_container_ERR=7.05365e-12 M_env_container_N=2.55664e+06 "M_env_container_1727573808.A_t"

Finally [Test_Sqw_monitor: 2]. Time: 12 [s] 

Finally [Test_Sqw_monitor: 2]. Time: 12 [s] 

Finally [Test_Sqw_monitor: 2]. Time: 12 [s] 

Finally [Test_Sqw_monitor: 2]. Time: 13 [s] 

Finally [Test_Sqw_monitor: 2]. Time: 13 [s] 

Finally [Test_Sqw_monitor: 2]. Time: 12 [s] 

Finally [Test_Sqw_monitor: 2]. Time: 13 [s] 

Finally [Test_Sqw_monitor: 2]. Time: 12 [s] 

Finally [Test_Sqw_monitor: 2]. Time: 12 [s] 

Finally [Test_Sqw_monitor: 2]. Time: 12 [s] 

Finally [Test_Sqw_monitor: 2]. Time: 13 [s] 

Finally [Test_Sqw_monitor: 2]. Time: 13 [s] 

Finally [Test_Sqw_monitor: 2]. Time: 12 [s] 
Isotropic_Sqw: Environment_in: 20424 neutron events (out of 5067480) reached
WARNING        unrealistic weight. The S(q,w) norm might be too high.
Isotropic_Sqw: Container_in: 13 neutron events (out of 4559154) reached
WARNING        unrealistic weight. The S(q,w) norm might be too high.
Isotropic_Sqw: Sample_in: 129258 neutron events (out of 49649876) that should have
               scattered were transmitted because scattering conditions
WARNING        could not be satisfied after 100 tries.
Isotropic_Sqw: Sample_in: 2231 neutron events (out of 49520618) reached
WARNING        unrealistic weight. The S(q,w) norm might be too high.
Isotropic_Sqw: Sample_in: Scattering fraction=0.0209511 of incoming intensity
               Absorption fraction           =0.0492318
               Single   scattering intensity =2.33085e-08 (coh=2.1573e-08 inc=1.73545e-09)
               Multiple scattering intensity =3.46682e-10
Isotropic_Sqw: Container_out: 1 neutron events (out of 4569454) that should have
               scattered were transmitted because scattering conditions
WARNING        could not be satisfied after 100 tries.
Isotropic_Sqw: Container_out: 64 neutron events (out of 4569453) reached
WARNING        unrealistic weight. The S(q,w) norm might be too high.
Isotropic_Sqw: Environment_out: 6 neutron events (out of 5019157) that should have
               scattered were transmitted because scattering conditions
WARNING        could not be satisfied after 100 tries.
Isotropic_Sqw: Environment_out: 30956 neutron events (out of 5019151) reached
WARNING        unrealistic weight. The S(q,w) norm might be too high.
INFO: Placing instr file copy Test_Sqw_monitor.instr in dataset 2
INFO: Placing generated c-code copy Test_Sqw_monitor.c in dataset 2