INFO: Using directory: "1"
INFO: Using existing c-file: ./Many_meshes.c
INFO: Using existing binary: ./Many_meshes.out
INFO: ===
Simulation 'Many_meshes' (Many_meshes.instr): running on 20 nodes (master is 'hypatia.fysik.dtu.dk', MPI version 3.1).
[Many_meshes] Initialize
[Many_meshes] Initialize
[Many_meshes] Initialize
[Many_meshes] Initialize
[Many_meshes] Initialize
[Many_meshes] Initialize
[Many_meshes] Initialize
[Many_meshes] Initialize
[Many_meshes] Initialize
[Many_meshes] Initialize
[Many_meshes] Initialize
[Many_meshes] Initialize
[Many_meshes] Initialize
[Many_meshes] Initialize
[Many_meshes] Initialize
[Many_meshes] Initialize
[Many_meshes] Initialize
Opening input file '/u/data/pkwi/McStas/mcstas/3.x-dev/data/Fe.laz' (Table_Read_Offset)
[Many_meshes] Initialize
[Many_meshes] Initialize
[Many_meshes] Initialize
Table from file 'Fe.laz' (block 1) is 17 x 18 (x=1:5), constant step. interpolation: linear
  '# TITLE *Iron-Fe-[IM3-M] Swanson, H.E.;Tatge, E.[1954] [Iron alpha phase];# ...'
Table from file 'Fe.laz' (block 1) is 17 x 18 (x=1:5), constant step. interpolation: linear
  '# TITLE *Iron-Fe-[IM3-M] Swanson, H.E.;Tatge, E.[1954] [Iron alpha phase];# ...'
Table from file 'Fe.laz' (block 1) is 17 x 18 (x=1:5), constant step. interpolation: linear
  '# TITLE *Iron-Fe-[IM3-M] Swanson, H.E.;Tatge, E.[1954] [Iron alpha phase];# ...'
Table from file 'Fe.laz' (block 1) is 17 x 18 (x=1:5), constant step. interpolation: linear
  '# TITLE *Iron-Fe-[IM3-M] Swanson, H.E.;Tatge, E.[1954] [Iron alpha phase];# ...'
Table from file 'Fe.laz' (block 1) is 17 x 18 (x=1:5), constant step. interpolation: linear
  '# TITLE *Iron-Fe-[IM3-M] Swanson, H.E.;Tatge, E.[1954] [Iron alpha phase];# ...'
Table from file 'Fe.laz' (block 1) is 17 x 18 (x=1:5), constant step. interpolation: linear
  '# TITLE *Iron-Fe-[IM3-M] Swanson, H.E.;Tatge, E.[1954] [Iron alpha phase];# ...'
Table from file 'Fe.laz' (block 1) is 17 x 18 (x=1:5), constant step. interpolation: linear
  '# TITLE *Iron-Fe-[IM3-M] Swanson, H.E.;Tatge, E.[1954] [Iron alpha phase];# ...'
PowderN: Sample_pow: Reading 17 rows from Fe.laz
Table from file 'Fe.laz' (block 1) is 17 x 18 (x=1:5), constant step. interpolation: linear
  '# TITLE *Iron-Fe-[IM3-M] Swanson, H.E.;Tatge, E.[1954] [Iron alpha phase];# ...'
PowderN: Sample_pow: Read 17 reflections from file 'Fe.laz'
PowderN: Sample_pow: Vc=24.04 [Angs] sigma_abs=5.12 [barn] sigma_inc=0.8 [barn] reflections=Fe.laz
Table from file 'Fe.laz' (block 1) is 17 x 18 (x=1:5), constant step. interpolation: linear
  '# TITLE *Iron-Fe-[IM3-M] Swanson, H.E.;Tatge, E.[1954] [Iron alpha phase];# ...'
Table from file 'Fe.laz' (block 1) is 17 x 18 (x=1:5), constant step. interpolation: linear
  '# TITLE *Iron-Fe-[IM3-M] Swanson, H.E.;Tatge, E.[1954] [Iron alpha phase];# ...'
Table from file 'Fe.laz' (block 1) is 17 x 18 (x=1:5), constant step. interpolation: linear
  '# TITLE *Iron-Fe-[IM3-M] Swanson, H.E.;Tatge, E.[1954] [Iron alpha phase];# ...'
NCrystal: McStas Union process component(s) are using version 4.0.0 of the NCrystal library.
Table from file 'Fe.laz' (block 1) is 17 x 18 (x=1:5), constant step. interpolation: linear
  '# TITLE *Iron-Fe-[IM3-M] Swanson, H.E.;Tatge, E.[1954] [Iron alpha phase];# ...'
Table from file 'Fe.laz' (block 1) is 17 x 18 (x=1:5), constant step. interpolation: linear
  '# TITLE *Iron-Fe-[IM3-M] Swanson, H.E.;Tatge, E.[1954] [Iron alpha phase];# ...'
Table from file 'Fe.laz' (block 1) is 17 x 18 (x=1:5), constant step. interpolation: linear
  '# TITLE *Iron-Fe-[IM3-M] Swanson, H.E.;Tatge, E.[1954] [Iron alpha phase];# ...'
Table from file 'Fe.laz' (block 1) is 17 x 18 (x=1:5), constant step. interpolation: linear
  '# TITLE *Iron-Fe-[IM3-M] Swanson, H.E.;Tatge, E.[1954] [Iron alpha phase];# ...'
Table from file 'Fe.laz' (block 1) is 17 x 18 (x=1:5), constant step. interpolation: linear
  '# TITLE *Iron-Fe-[IM3-M] Swanson, H.E.;Tatge, E.[1954] [Iron alpha phase];# ...'
Table from file 'Fe.laz' (block 1) is 17 x 18 (x=1:5), constant step. interpolation: linear
  '# TITLE *Iron-Fe-[IM3-M] Swanson, H.E.;Tatge, E.[1954] [Iron alpha phase];# ...'
Table from file 'Fe.laz' (block 1) is 17 x 18 (x=1:5), constant step. interpolation: linear
  '# TITLE *Iron-Fe-[IM3-M] Swanson, H.E.;Tatge, E.[1954] [Iron alpha phase];# ...'
Table from file 'Fe.laz' (block 1) is 17 x 18 (x=1:5), constant step. interpolation: linear
  '# TITLE *Iron-Fe-[IM3-M] Swanson, H.E.;Tatge, E.[1954] [Iron alpha phase];# ...'
Table from file 'Fe.laz' (block 1) is 17 x 18 (x=1:5), constant step. interpolation: linear
  '# TITLE *Iron-Fe-[IM3-M] Swanson, H.E.;Tatge, E.[1954] [Iron alpha phase];# ...'

masking_crack, Given file is in stl format. Union_mesh assumes three vertices per face.

masking_crack, Given file is in stl format. Union_mesh assumes three vertices per face.

masking_crack, Given file is in stl format. Union_mesh assumes three vertices per face.

masking_crack, Given file is in stl format. Union_mesh assumes three vertices per face.

masking_crack, Given file is in stl format. Union_mesh assumes three vertices per face.

masking_crack, Given file is in stl format. Union_mesh assumes three vertices per face.

masking_crack, Given file is in stl format. Union_mesh assumes three vertices per face.

masking_crack, Given file is in stl format. Union_mesh assumes three vertices per face.

masking_crack, Given file is in stl format. Union_mesh assumes three vertices per face.

masking_crack, Given file is in stl format. Union_mesh assumes three vertices per face.

masking_crack, Given file is in stl format. Union_mesh assumes three vertices per face.

masking_crack, Given file is in stl format. Union_mesh assumes three vertices per face.

masking_crack, Given file is in stl format. Union_mesh assumes three vertices per face.

masking_crack, Given file is in stl format. Union_mesh assumes three vertices per face.

masking_crack, Given file is in stl format. Union_mesh assumes three vertices per face.

masking_crack, Given file is in stl format. Union_mesh assumes three vertices per face.

masking_crack, Given file is in stl format. Union_mesh assumes three vertices per face.

masking_crack, Given file is in stl format. Union_mesh assumes three vertices per face.

masking_crack, Given file is in stl format. Union_mesh assumes three vertices per face.

masking_crack, Given file is in stl format. Union_mesh assumes three vertices per face.

COMPONENT masking_crack: Number of faces read: 373	 Number of vertices read: 742

COMPONENT masking_crack: Number of faces read: 373	 Number of vertices read: 742

COMPONENT masking_crack: Number of faces read: 373	 Number of vertices read: 742

COMPONENT masking_crack: Number of faces read: 373	 Number of vertices read: 742

COMPONENT masking_crack: Number of faces read: 373	 Number of vertices read: 742

COMPONENT masking_crack: Number of faces read: 373	 Number of vertices read: 742

COMPONENT masking_crack: Number of faces read: 373	 Number of vertices read: 742

COMPONENT masking_crack: Number of faces read: 373	 Number of vertices read: 742

COMPONENT masking_crack: Number of faces read: 373	 Number of vertices read: 742

COMPONENT masking_crack: Number of faces read: 373	 Number of vertices read: 742

COMPONENT masking_crack: Number of faces read: 373	 Number of vertices read: 742

COMPONENT masking_crack: Number of faces read: 373	 Number of vertices read: 742

COMPONENT masking_crack: Number of faces read: 373	 Number of vertices read: 742

COMPONENT masking_crack: Number of faces read: 373	 Number of vertices read: 742

COMPONENT masking_crack: Number of faces read: 373	 Number of vertices read: 742

COMPONENT masking_crack: Number of faces read: 373	 Number of vertices read: 742

COMPONENT masking_crack: Number of faces read: 373	 Number of vertices read: 742

COMPONENT masking_crack: Number of faces read: 373	 Number of vertices read: 742

crack, Given file is in stl format. Union_mesh assumes three vertices per face.

crack, Given file is in stl format. Union_mesh assumes three vertices per face.

crack, Given file is in stl format. Union_mesh assumes three vertices per face.

COMPONENT masking_crack: Number of faces read: 373	 Number of vertices read: 742

crack, Given file is in stl format. Union_mesh assumes three vertices per face.

crack, Given file is in stl format. Union_mesh assumes three vertices per face.

crack, Given file is in stl format. Union_mesh assumes three vertices per face.

crack, Given file is in stl format. Union_mesh assumes three vertices per face.

crack, Given file is in stl format. Union_mesh assumes three vertices per face.

crack, Given file is in stl format. Union_mesh assumes three vertices per face.

crack, Given file is in stl format. Union_mesh assumes three vertices per face.

COMPONENT masking_crack: Number of faces read: 373	 Number of vertices read: 742

crack, Given file is in stl format. Union_mesh assumes three vertices per face.

crack, Given file is in stl format. Union_mesh assumes three vertices per face.

COMPONENT crack: Number of faces read: 373	 Number of vertices read: 742

COMPONENT crack: Number of faces read: 373	 Number of vertices read: 742

COMPONENT crack: Number of faces read: 373	 Number of vertices read: 742

COMPONENT crack: Number of faces read: 373	 Number of vertices read: 742

COMPONENT crack: Number of faces read: 373	 Number of vertices read: 742

COMPONENT crack: Number of faces read: 373	 Number of vertices read: 742

COMPONENT crack: Number of faces read: 373	 Number of vertices read: 742

COMPONENT crack: Number of faces read: 373	 Number of vertices read: 742

COMPONENT crack: Number of faces read: 373	 Number of vertices read: 742

crack, Given file is in stl format. Union_mesh assumes three vertices per face.

COMPONENT crack: Number of faces read: 373	 Number of vertices read: 742

COMPONENT crack: Number of faces read: 373	 Number of vertices read: 742

COMPONENT crack: Number of faces read: 373	 Number of vertices read: 742

crack, Given file is in stl format. Union_mesh assumes three vertices per face.

crack, Given file is in stl format. Union_mesh assumes three vertices per face.

crack, Given file is in stl format. Union_mesh assumes three vertices per face.

crack, Given file is in stl format. Union_mesh assumes three vertices per face.

crack, Given file is in stl format. Union_mesh assumes three vertices per face.

crack, Given file is in stl format. Union_mesh assumes three vertices per face.

crack, Given file is in stl format. Union_mesh assumes three vertices per face.

COMPONENT crack: Number of faces read: 373	 Number of vertices read: 742

COMPONENT crack: Number of faces read: 373	 Number of vertices read: 742

COMPONENT crack: Number of faces read: 373	 Number of vertices read: 742

COMPONENT crack: Number of faces read: 373	 Number of vertices read: 742

COMPONENT crack: Number of faces read: 373	 Number of vertices read: 742

COMPONENT crack: Number of faces read: 373	 Number of vertices read: 742

COMPONENT crack: Number of faces read: 373	 Number of vertices read: 742

COMPONENT crack: Number of faces read: 373	 Number of vertices read: 742
---------------------------------------------------------------------
global_process_list_master->num_elements: 3
name of process [0]: Sample_inc 
component index [0]: 6 
name of process [1]: Sample_pow 
component index [1]: 7 
name of process [2]: gas_process 
component index [2]: 9 
---------------------------------------------------------------------
global_material_list_master->num_elements: 2
name of material    [0]: Sample 
component index     [0]: 8 
my_absoprtion       [0]: 212.978369 
number of processes [0]: 2 
name of material    [1]: sample_gas 
component index     [1]: 10 
my_absoprtion       [1]: 21.297837 
number of processes [1]: 1 
---------------------------------------------------------------------
global_geometry_list_master->num_elements: 2

name of geometry    [0]: masking_crack 
component index     [0]: 12 
Volume.name         [0]: masking_crack 
Volume.p_physics.is_vacuum           [0]: 0 
Volume.p_physics.my_absorption       [0]: 212.978369 
Volume.p_physics.number of processes [0]: 2 
Volume.geometry.shape                [0]: mesh 
Volume.geometry.center.x             [0]: 0.000000 
Volume.geometry.center.y             [0]: -0.000500 
Volume.geometry.center.z             [0]: 10.000000 
Volume.geometry.rotation_matrix[0]           [0]: [1.000000 0.000000 0.000000] 
Volume.geometry.rotation_matrix[1]           [0]: [-0.000000 0.000000 1.000000] 
Volume.geometry.rotation_matrix[2]           [0]: [0.000000 -1.000000 0.000000] 
Volume.geometry.focus_data_array.elements[0].Aim             [0]: [0.000000 0.000000 1.000000] 

name of geometry    [1]: crack 
component index     [1]: 13 
Volume.name         [1]: crack 
Volume.p_physics.is_vacuum           [1]: 0 
Volume.p_physics.my_absorption       [1]: 21.297837 
Volume.p_physics.number of processes [1]: 1 
Volume.geometry.shape                [1]: mesh 
Volume.geometry.center.x             [1]: 0.000000 
Volume.geometry.center.y             [1]: 0.000000 
Volume.geometry.center.z             [1]: 10.000000 
Volume.geometry.rotation_matrix[0]           [1]: [1.000000 0.000000 0.000000] 
Volume.geometry.rotation_matrix[1]           [1]: [-0.000000 0.000000 1.000000] 
Volume.geometry.rotation_matrix[2]           [1]: [0.000000 -1.000000 0.000000] 
Volume.geometry.focus_data_array.elements[0].Aim             [1]: [0.000000 0.000000 1.000000] 
---------------------------------------------------------------------
number_of_volumes = 3
number_of_masks = 0
number_of_masked_volumes = 0

 ---- Overview of the lists generated for each volume ---- 
List overview for surrounding vacuum
LIST: Children for Volume                  0 = [1,2]
LIST: Direct_children for Volume           0 = [1,2]
LIST: Intersect_check_list for Volume      0 = [1,2]
LIST: Mask_intersect_list for Volume       0 = []
LIST: Destinations_list for Volume         0 = []
LIST: Reduced_destinations_list for Volume 0 = []
LIST: Next_volume_list for Volume          0 = [1,2]
LIST: mask_list for Volume                 0 = []
LIST: masked_by_list for Volume            0 = []
LIST: masked_by_mask_index_list for Volume 0 = []
      mask_mode for Volume                 0 = 0

List overview for masking_crack with mesh shape made of Sample
LIST: Children for Volume                  1 = []
LIST: Direct_children for Volume           1 = []
LIST: Intersect_check_list for Volume      1 = []
LIST: Mask_intersect_list for Volume       1 = []
LIST: Destinations_list for Volume         1 = [0,2]
LIST: Reduced_destinations_list for Volume 1 = [2]
LIST: Next_volume_list for Volume          1 = [0,2]
      Is_vacuum for Volume                 1 = 0
      is_mask_volume for Volume            1 = 0
      is_masked_volume for Volume          1 = 0
      is_exit_volume for Volume            1 = 0
LIST: mask_list for Volume                 1 = []
LIST: masked_by_list for Volume            1 = []
LIST: masked_by_mask_index_list for Volume 1 = []
      mask_mode for Volume                 1 = 0

List overview for crack with mesh shape made of sample_gas
LIST: Children for Volume                  2 = []
LIST: Direct_children for Volume           2 = []
LIST: Intersect_check_list for Volume      2 = [1]
LIST: Mask_intersect_list for Volume       2 = []
LIST: Destinations_list for Volume         2 = [0]
LIST: Reduced_destinations_list for Volume 2 = []
LIST: Next_volume_list for Volume          2 = [0,1]
      Is_vacuum for Volume                 2 = 0
      is_mask_volume for Volume            2 = 0
      is_masked_volume for Volume          2 = 0
      is_exit_volume for Volume            2 = 0
LIST: mask_list for Volume                 2 = []
LIST: masked_by_list for Volume            2 = []
LIST: masked_by_mask_index_list for Volume 2 = []
      mask_mode for Volume                 2 = 0

Union_master component Sample_environment initialized sucessfully
*** TRACE end *** 

Save [Many_meshes]
Detector: entry_mon_I=4.71238e-06 entry_mon_ERR=1.49018e-09 entry_mon_N=1e+07 "entry_mon.dat"
Detector: logger_space_zx_I=1.55856e-09 logger_space_zx_ERR=1.27808e-11 logger_space_zx_N=52553 "logger_zx.dat"
Detector: logger_space_zy_I=1.55856e-09 logger_space_zy_ERR=1.27808e-11 logger_space_zy_N=52553 "logger_zy.dat"

Finally [Many_meshes: 1]. Time: 8 [s] 

Finally [Many_meshes: 1]. Time: 8 [s] 

Finally [Many_meshes: 1]. Time: 8 [s] 

Finally [Many_meshes: 1]. Time: 8 [s] 

Finally [Many_meshes: 1]. Time: 8 [s] 
Detector: det_I=4.67292e-06 det_ERR=1.48393e-09 det_N=9.91797e+06 "det.dat"

Finally [Many_meshes: 1]. Time: 8 [s] 

Finally [Many_meshes: 1]. Time: 8 [s] 

Finally [Many_meshes: 1]. Time: 8 [s] 

Finally [Many_meshes: 1]. Time: 8 [s] 

Finally [Many_meshes: 1]. Time: 8 [s] 

Finally [Many_meshes: 1]. Time: 8 [s] 

Finally [Many_meshes: 1]. Time: 8 [s] 

Finally [Many_meshes: 1]. Time: 8 [s] 

Finally [Many_meshes: 1]. Time: 8 [s] 

Finally [Many_meshes: 1]. Time: 8 [s] 

Finally [Many_meshes: 1]. Time: 8 [s] 

Finally [Many_meshes: 1]. Time: 8 [s] 

Finally [Many_meshes: 1]. Time: 8 [s] 

Finally [Many_meshes: 1]. Time: 8 [s] 

Finally [Many_meshes: 1]. Time: 8 [s] 
INFO: Placing instr file copy Many_meshes.instr in dataset 1
INFO: Placing generated c-code copy Many_meshes.c in dataset 1