loading system configuration
loading override configuration from /users/willend/McCode/tools/Python/mctest/../mccodelib/mcstas-test/McStas_DUAL_A100_DMSC/mccode_config.json
INFO: Using directory: "1"
INFO: Using existing c-file: ./SNS_BASIS.c
INFO: Using existing binary: ./SNS_BASIS.out
WARNING: Ignoring invalid parameter: "mcrun"
WARNING: Ignoring invalid parameter: "BASIS_guide.instr"
INFO: ===
--------------------------------------------------------------------------
WARNING: No preset parameters were found for the device that Open MPI
detected:

  Local host:            r6n22
  Device name:           mlx5_0
  Device vendor ID:      0x02c9
  Device vendor part ID: 4123

Default device parameters will be used, which may result in lower
performance.  You can edit any of the files specified by the
btl_openib_device_param_files MCA parameter to set values for your
device.

NOTE: You can turn off this warning by setting the MCA parameter
      btl_openib_warn_no_device_params_found to 0.
--------------------------------------------------------------------------
Simulation 'SNS_BASIS' (/users/willend/TESTS/2023-03-01/McStas_DUAL_A100_DMSC_5e7/SNS_BASIS/SNS_BASIS.instr): running on 2 nodes (master is 'r6n22.esss.dk', MPI version 3.1).
Have found 2 GPU devices on rank 0. Will use device 0.
Have found 2 GPU devices on rank 1. Will use device 1.
Energies as calculated by the instrument: 1.6698 - 3.2728
Energies as calculated by the instrument: 1.6698 - 3.2728
[SNS_BASIS] Initialize
[SNS_BASIS] Initialize
Monitor_nD: Gap0_end_divx is using automatic limits option 'auto' together with MPI.
WARNING     this may create incorrect distributions (but integrated flux will be right).
Monitor_nD: Gap0_end_divy 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 cylinder: radius=0.015000 thickness=0.000000 height=0.030000 [J Comp Phys 228 (2009) 5251]
Isotropic_Sqw: Sample: Using Isotropic elastic incoherent scattering (sigma=4.935 [barns])
Monitor_nD: TOFcyl is using automatic limits option 'auto' together with MPI.
WARNING     this may create incorrect distributions (but integrated flux will be right).
[r6n22.esss.dk:1574208] 1 more process has sent help message help-mpi-btl-openib.txt / no device params found
[r6n22.esss.dk:1574208] Set MCA parameter "orte_base_help_aggregate" to 0 to see all help / error messages
*** TRACE end *** 

Save [SNS_BASIS]
Detector: tofSTART_I=8.98725e+11 tofSTART_ERR=1.70344e+08 tofSTART_N=4.99993e+07 "TOF_monitor_0,000m_from_Source.dat"
Detector: Source_Lam_I=8.98742e+11 Source_Lam_ERR=1.70346e+08 Source_Lam_N=5e+07 "Lam_monitor_0,0001m_after_Source.dat"
Detector: Source_En_I=8.98742e+11 Source_En_ERR=1.70346e+08 Source_En_N=5e+07 "E_monitor_0,0001m_after_Source.dat"
<E> : 2.50004 meV , E-width : 0.501718 meV 
<E> : 2.53824 meV , E-width : 0.43002 meV 
Detector: Gap0_start_I=8.98742e+11 Gap0_start_ERR=1.70346e+08 Gap0_start_N=5e+07 "PSD_monitor_0,0003m_after_Source.dat"
Detector: Gap0_end_Lam_I=8.98742e+11 Gap0_end_Lam_ERR=1.70346e+08 Gap0_end_Lam_N=5e+07 "Lam_monitor_1.2031m_after_Source"
Detector: Gap0_end_divx_I=7.56015e+11 Gap0_end_divx_ERR=1.56305e+08 Gap0_end_divx_N=4.20217e+07 "Gap0_end_divx_1677634234.hd"
Detector: Gap0_end_divy_I=7.559e+11 Gap0_end_divy_ERR=1.56293e+08 Gap0_end_divy_N=4.20153e+07 "Gap0_end_divy_1677634234.vd"
Detector: Gap1_start_Lam_I=2.67892e+11 Gap1_start_Lam_ERR=9.2921e+07 Gap1_start_Lam_N=1.79173e+07 "Lam_monitor_2.2541m_atEndof_CVS"
Detector: Gap1_end_Lam_I=2.67892e+11 Gap1_end_Lam_ERR=9.2921e+07 Gap1_end_Lam_N=1.79173e+07 "Lam_monitor_2.295m_between_CVS_and_SGI"
Detector: Gap2_start_Lam_I=1.13472e+11 Gap2_start_Lam_ERR=5.89559e+07 Gap2_start_Lam_N=1.33829e+07 "Lam_monitor_4,1431m_atEndof_SGI.dat"
Detector: Gap2_start_PSD_I=1.13449e+11 Gap2_start_PSD_ERR=5.89498e+07 Gap2_start_PSD_N=1.3381e+07 "PSD_monitor_4,1432m_atEndof_SGI.dat"
Detector: Gap2_end_Lam_I=1.13472e+11 Gap2_end_Lam_ERR=5.89559e+07 Gap2_end_Lam_N=1.33829e+07 "Lam_monitor_4,195m_between_SGI_and_CGS1.dat"
Detector: Gap2_end_PSD_I=1.11118e+11 Gap2_end_PSD_ERR=5.83259e+07 Gap2_end_PSD_N=1.3192e+07 "PSD_monitor_4,196m_between_SGI_and_CGS1.dat"
Detector: Gap3_start_Lam_I=8.28638e+10 Gap3_start_Lam_ERR=4.89158e+07 Gap3_start_Lam_N=1.23982e+07 "Lam_monitor_6,9432m_just_before_Ch1.dat"
Detector: CGS1_end_I=8.28588e+10 CGS1_end_ERR=4.89143e+07 CGS1_end_N=1.23971e+07 "PSD_monitor_6,9433m_just_before_Ch1.dat"
Detector: before_Chopper1_ToF_I=8.28638e+10 before_Chopper1_ToF_ERR=4.89158e+07 before_Chopper1_ToF_N=1.23982e+07 "TOF_monitor_6,9434m_just_before_Ch1.dat"
Detector: before_Chopper1_ToF_Z_I=2.83195e+10 before_Chopper1_ToF_Z_ERR=2.37919e+07 before_Chopper1_ToF_Z_N=5.73263e+06 "TOF_monitor_6,9434m_just_before_Ch1_Z.dat"
Detector: Chopper1_ToF_I=4.39835e+10 Chopper1_ToF_ERR=3.15381e+07 Chopper1_ToF_N=8.05076e+06 "TOF_monitor_6,9832m_just_after_Ch1.dat"
Detector: Chopper1_ToF_Z_I=2.75413e+10 Chopper1_ToF_Z_ERR=2.36868e+07 Chopper1_ToF_Z_N=5.42195e+06 "TOF_monitor_6,9832m_just_after_Ch1_Z.dat"
Detector: Gap3_end_Lam_I=4.39835e+10 Gap3_end_Lam_ERR=3.15381e+07 Gap3_end_Lam_N=8.05076e+06 "Lam_monitor_7.0221m_just_after_Ch1"
Detector: Gap3_end_PSD_I=4.33491e+10 Gap3_end_PSD_ERR=3.12952e+07 Gap3_end_PSD_N=7.88137e+06 "PSD_monitor_7.0223m_just_after_Ch1"
Detector: Gap4_start_Lam_I=3.99829e+10 Gap4_start_Lam_ERR=3.01752e+07 Gap4_start_Lam_N=7.8719e+06 "Lam_monitor_9,2239m_just_before_Ch2.dat"
Detector: Gap4_start_PSD_I=3.99807e+10 Gap4_start_PSD_ERR=3.01743e+07 Gap4_start_PSD_N=7.87137e+06 "PSD_monitor_9,2241m_just_before_Ch2.dat"
Detector: before_Chopper2_ToF_I=3.99829e+10 before_Chopper2_ToF_ERR=3.01752e+07 before_Chopper2_ToF_N=7.8719e+06 "TOF_monitor_9,2243m_just_before_Ch2.dat"
Detector: before_Chopper2_ToF_Z_I=2.40332e+10 before_Chopper2_ToF_Z_ERR=2.18059e+07 before_Chopper2_ToF_Z_N=5.39193e+06 "TOF_monitor_9,2243m_just_before_Ch2_Z.dat"
Detector: Chopper2_ToF_I=3.23889e+10 Chopper2_ToF_ERR=2.63498e+07 Chopper2_ToF_N=6.60748e+06 "TOF_monitor_9,2639m_just_after_Ch2.dat"
Detector: Chopper2_ToF_Z_I=2.35402e+10 Chopper2_ToF_Z_ERR=2.17402e+07 Chopper2_ToF_Z_N=5.14527e+06 "TOF_monitor_9,2639m_just_after_Ch2_Z.dat"
Detector: Gap4_end_Lam_I=3.23889e+10 Gap4_end_Lam_ERR=2.63498e+07 Gap4_end_Lam_N=6.60748e+06 "Lam_monitor_9,2737m_just_after_Ch2.dat"
Detector: Gap4_end_PSD_I=3.2157e+10 Gap4_end_PSD_ERR=2.62549e+07 Gap4_end_PSD_N=6.5394e+06 "PSD_monitor_9,2738m_just_after_Ch2.dat"
Detector: CGS3_end_ToF_I=2.58876e+10 CGS3_end_ToF_ERR=2.33811e+07 CGS3_end_ToF_N=6.40098e+06 "TOF_monitor_31,0050m_atEndof_CGS3.dat"
Detector: CGS3_end_ToF_Z_I=1.10425e+10 CGS3_end_ToF_Z_ERR=1.60846e+07 CGS3_end_ToF_Z_N=2.25367e+06 "TOF_monitor_31,0050m_atEndof_CGS3_Z.dat"
Detector: CGS3_end_Lam_I=2.58876e+10 CGS3_end_Lam_ERR=2.33811e+07 CGS3_end_Lam_N=6.40098e+06 "Lam_monitor_31,0051m_atEndof_CGS3.dat"
Detector: Gap5_start_ToF_I=2.37685e+10 Gap5_start_ToF_ERR=2.20482e+07 Gap5_start_ToF_N=6.39921e+06 "TOF_monitor_49,9763m_just_before_Ch3.dat"
Detector: Gap5_start_ToF_Z_I=6.82302e+09 Gap5_start_ToF_Z_ERR=1.13856e+07 Gap5_start_ToF_Z_N=1.96855e+06 "TOF_monitor_49,9763m_just_before_Ch3_Z.dat"
Detector: Gap5_start_Lam_I=2.37685e+10 Gap5_start_Lam_ERR=2.20482e+07 Gap5_start_Lam_N=6.39921e+06 "Lam_monitor_49,9764m_just_before_Ch3.dat"
Detector: Gap5_start_PSD_I=2.37677e+10 Gap5_start_PSD_ERR=2.20478e+07 Gap5_start_PSD_N=6.39887e+06 "PSD_monitor_49,9765m_just_before_Ch3.dat"
Detector: Chopper3_ToF_I=1.28522e+10 Chopper3_ToF_ERR=1.54204e+07 Chopper3_ToF_N=3.85531e+06 "TOF_monitor_50,0013m_just_after_Ch3.dat"
Detector: Chopper3_ToF_Z_I=6.82562e+09 Chopper3_ToF_Z_ERR=1.13985e+07 Chopper3_ToF_Z_N=1.96508e+06 "TOF_monitor_50,0013m_just_after_Ch3_Z.dat"
Detector: Gap5_end_Lam_I=1.28522e+10 Gap5_end_Lam_ERR=1.54204e+07 Gap5_end_Lam_N=3.85531e+06 "Lam_monitor_50,0562m_just_after_Ch3.dat"
Detector: Gap5_end_PSD_I=1.27221e+10 Gap5_end_PSD_ERR=1.53453e+07 Gap5_end_PSD_N=3.78305e+06 "PSD_monitor_50,0563m_just_after_Ch3.dat"
Detector: SGS2_end_Lam_I=1.18008e+10 SGS2_end_Lam_ERR=1.45552e+07 SGS2_end_Lam_N=3.78296e+06 "Lam_monitor_75,7305m_atEndof_SGS2.dat"
Detector: SGS2_end_PSD_I=1.18005e+10 SGS2_end_PSD_ERR=1.4555e+07 SGS2_end_PSD_N=3.78274e+06 "PSD_monitor_75,7305m_atEndof_SGS2.dat"
Detector: SG3_end_ToF_I=1.18005e+10 SG3_end_ToF_ERR=1.4555e+07 SG3_end_ToF_N=3.78274e+06 "TOF_monitor_75.7305_just_before_Funnel"
Detector: SG3_end_ToF_Z_I=1.18005e+10 SG3_end_ToF_Z_ERR=1.4555e+07 SG3_end_ToF_Z_N=3.78274e+06 "SG3_end_ToF_Zoom.dat"
Detector: SG3_end_Lam_I=1.18005e+10 SG3_end_Lam_ERR=1.4555e+07 SG3_end_Lam_N=3.78274e+06 "Lam_monitor_75.7305_just_before_Funnel"
Detector: SG3_end_PSD_I=1.17999e+10 SG3_end_PSD_ERR=1.45546e+07 SG3_end_PSD_N=3.7824e+06 "PSD_monitor_75.7305_just_before_Funnel"
Detector: PSD_post_funnel1_I=1.17374e+10 PSD_post_funnel1_ERR=1.44886e+07 PSD_post_funnel1_N=3.78247e+06 "PSD_post_funnel1.dat"
Detector: PSD_post_funnel2_I=1.15772e+10 PSD_post_funnel2_ERR=1.43205e+07 PSD_post_funnel2_N=3.61401e+06 "PSD_post_funnel2.dat"
Detector: PSD_post_funnel3_I=1.14785e+10 PSD_post_funnel3_ERR=1.4223e+07 PSD_post_funnel3_N=3.59627e+06 "PSD_post_funnel3.dat"
Detector: PSD_post_funnel4_I=8.12359e+09 PSD_post_funnel4_ERR=1.1451e+07 PSD_post_funnel4_N=1.79682e+06 "PSD_post_funnel4.dat"
Detector: Guide_End_ToF_I=8.11962e+09 Guide_End_ToF_ERR=1.14486e+07 Guide_End_ToF_N=1.79543e+06 "TOF_monitor_83.7308_atEndof_Guide"
Detector: Guide_End_ToF_Z_I=9.8726e+08 Guide_End_ToF_Z_ERR=4.1087e+06 Guide_End_ToF_Z_N=201614 "Guide_End_ToF_Zoom.dat"
Detector: Guide_end_Lam_I=8.11958e+09 Guide_end_Lam_ERR=1.14486e+07 Guide_end_Lam_N=1.79542e+06 "Lam_monitor_83.7308_atEndof_Guide"
Detector: Guide_end_divx_I=8.11958e+09 Guide_end_divx_ERR=1.14486e+07 Guide_end_divx_N=1.79542e+06 "Guide_end_divx_1677634234.hd"
Detector: Guide_end_divy_I=8.11958e+09 Guide_end_divy_ERR=1.14486e+07 Guide_end_divy_N=1.79542e+06 "Guide_end_divy_1677634234.vd"
Detector: Guide_end_PSD_I=8.11958e+09 Guide_end_PSD_ERR=1.14486e+07 Guide_end_PSD_N=1.79542e+06 "PSD_monitor_83.7308_atEndof_Guide"
Detector: SamplePos_I=7.96126e+09 SamplePos_ERR=1.13779e+07 SamplePos_N=1.57805e+06 "SampleFlux.dat"
Detector: An1_ToF_I=2.21564e+06 An1_ToF_ERR=35238.3 An1_ToF_N=11308 "TOF_monitor_86.5106_just_before_analyzer"
Detector: An1_ToF_variable_range_I=320844 An1_ToF_variable_range_ERR=13952.6 An1_ToF_variable_range_N=1496 "TOF_monitor_86.5106_just_before_analyzer_zoom"
Detector: An1_Lam_I=2.1872e+06 An1_Lam_ERR=35003.7 An1_Lam_N=11172 "Lam_monitor_86.5106_just_before_analyzer"
Detector: An1_Lam_variable_range_I=2.1872e+06 An1_Lam_variable_range_ERR=35003.7 An1_Lam_variable_range_N=11172 "Lam_monitor_86.5106_just_before_analyzer_zoom"
Detector: An1_E_I=263917 An1_E_ERR=12058.1 An1_E_N=1376 "Energy_monitor_86.5106_just_before_analyzer"
<E> : 2.01503 meV , E-width : 0.115005 meV 
<E> : 2.0181 meV , E-width : 0.106103 meV 
Detector: An1_E_variable_range_I=263917 An1_E_variable_range_ERR=12058.1 An1_E_variable_range_N=1376 "Energy_monitor_86.5106_just_before_analyzer_zoom"
<E> : 2.01503 meV , E-width : 0.115005 meV 
<E> : 2.01824 meV , E-width : 0.108513 meV 
Detector: Det1_E_I=16357.8 Det1_E_ERR=2906.14 Det1_E_N=208 "E_monitor_Det1_84.2904_close_to_sample"
<E> : 2.08519 meV , E-width : 0.00116317 meV 
<E> : 2.0851 meV , E-width : 0.0010294 meV 
<E> : 2.08519 meV , E-width : 0.00116317 meV 
Detector: Det1_E_variable_range_I=16357.8 Det1_E_variable_range_ERR=2906.14 Det1_E_variable_range_N=208 "E_monitor_Det1_84.2904_close_to_sample_zoom"
<E> : 2.0851 meV , E-width : 0.0010294 meV 
Detector: Det1_Lam_I=24425.3 Det1_Lam_ERR=3473.8 Det1_Lam_N=345 "Lam_monitor_84.2904_close_to_sample"
Detector: Det1_Lam_variable_range_I=24425.3 Det1_Lam_variable_range_ERR=3473.8 Det1_Lam_variable_range_N=345 "Lam_monitor_84.2904_close_to_sample_zoom"
Detector: Det1_ToF_I=24425.3 Det1_ToF_ERR=3473.8 Det1_ToF_N=345 "TOF_monitor_84.2904_close_to_sample"
Detector: Det1_ToF_variable_range_I=24425.3 Det1_ToF_variable_range_ERR=3473.8 Det1_ToF_variable_range_N=345 "TOF_monitor_84.2904_close_to_sample_zoom"
Detector: Det1_ToF_variable_range_lessnL_I=24425.3 Det1_ToF_variable_range_lessnL_ERR=3473.8 Det1_ToF_variable_range_lessnL_N=345 "TOF_monitor_84.2904_close_to_sample_zoom_less_chan"
Detector: PSDcyl_I=62537.5 PSDcyl_ERR=5390.68 PSDcyl_N=1104 "PSDcyl.th_y"

Finally [SNS_BASIS: 1]. Time: 4 [s] 
Detector: TOFcyl_I=62537.5 TOFcyl_ERR=5390.68 TOFcyl_N=1104 "TOFcyl.t"

Finally [SNS_BASIS: 1]. Time: 4 [s] 
Isotropic_Sqw: Sample: Scattering fraction=0.579239 of incoming intensity
               Absorption fraction           =0.781476
               Single   scattering intensity =1.07992e+07 (coh=0 inc=1.07992e+07)
               Multiple scattering intensity =0
INFO: Placing instr file copy /users/willend/TESTS/2023-03-01/McStas_DUAL_A100_DMSC_5e7/SNS_BASIS/SNS_BASIS.instr in dataset 1