INFO: Using directory: "1"
INFO: Using existing c-file: ./ILL_SALSA.c
INFO: Using existing binary: ./ILL_SALSA.out
WARNING: Ignoring invalid parameter: "ILL_SALSA.instr"
INFO: ===
Instrument: ILL_H22 (H22@ILL thermal guide).
Source_gen: component Thermal (square 0.14 x 0.22)
            focusing distance dist=3.18 area=0.038 x 0.2
            spectra 1.646 to 1.690 AA (28.631 to 30.214 meV)
            T1=683.7 K (1.178 AA), T2=257.7 K (1.919 AA), T3=16.7 K (7.539 AA)
  Flux is dPhi/dlambda in [n/s/cm2].
Opening input file '/u/data/pkwi/McStas/mcstas/3.x-dev/data/Al.laz' (Table_Read_Offset)
Table from file 'Al.laz' (block 1) is 26 x 18 (x=1:8), constant step. interpolation: linear
  '# TITLE *Aluminum-Al-[FM3-M] Miller, H.P.jr.;DuMond, J.W.M.[1942] at 298 K; ...'
PowderN: Al_pow: Reading 26 rows from Al.laz
PowderN: Al_pow: Read 26 reflections from file 'Al.laz'
PowderN: Al_pow: Vc=66.4 [Angs] sigma_abs=0.924 [barn] sigma_inc=0.0328 [barn] reflections=Al.laz
Opening input file '/u/data/pkwi/McStas/mcstas/3.x-dev/data/Na2Ca3Al2F14.laz' (Table_Read_Offset)
Table from file 'Na2Ca3Al2F14.laz' (block 1) is 841 x 18 (x=1:20), constant step. interpolation: linear
  '# TITLE *-Na2Ca3Al2F14-[I213] Courbion, G.;Ferey, G.[1988] Standard NAC cal ...'
PowderN: Sample_pow: Reading 841 rows from Na2Ca3Al2F14.laz
PowderN: Sample_pow: Read 841 reflections from file 'Na2Ca3Al2F14.laz'
PowderN: Sample_pow: Vc=1079.1 [Angs] sigma_abs=11.7856 [barn] sigma_inc=13.6704 [barn] reflections=Na2Ca3Al2F14.laz
---------------------------------------------------------------------
global_process_list_master->num_elements: 4
name of process [0]: Al_inc 
component index [0]: 199 
name of process [1]: Al_pow 
component index [1]: 200 
name of process [2]: Sample_inc 
component index [2]: 202 
name of process [3]: Sample_pow 
component index [3]: 203 
---------------------------------------------------------------------
global_material_list_master->num_elements: 2
name of material    [0]: Al 
component index     [0]: 201 
my_absoprtion       [0]: 0.000000 
number of processes [0]: 2 
name of material    [1]: Sample 
component index     [1]: 204 
my_absoprtion       [1]: 0.000000 
number of processes [1]: 2 
---------------------------------------------------------------------
global_geometry_list_master->num_elements: 2

name of geometry    [0]: sample_container 
component index     [0]: 205 
Volume.name         [0]: sample_container 
Volume.p_physics.is_vacuum           [0]: 0 
Volume.p_physics.my_absorption       [0]: 0.000000 
Volume.p_physics.number of processes [0]: 2 
Volume.geometry.shape                [0]: cylinder 
Volume.geometry.center.x             [0]: 1.860628 
Volume.geometry.center.y             [0]: 0.000000 
Volume.geometry.center.z             [0]: 103.681543 
Volume.geometry.rotation_matrix[0]           [0]: [0.248403 0.000000 -0.968657] 
Volume.geometry.rotation_matrix[1]           [0]: [0.000000 1.000000 0.000000] 
Volume.geometry.rotation_matrix[2]           [0]: [0.968657 0.000000 0.248403] 
Volume.geometry.geometry_parameters.cyl_radius [0]: 0.076500 
Volume.geometry.geometry_parameters.height [0]: 0.103000 
Volume.geometry.focus_data_array.elements[0].Aim             [0]: [0.000000 0.000000 1.000000] 

name of geometry    [1]: sample_container_lid 
component index     [1]: 206 
Volume.name         [1]: sample_container_lid 
Volume.p_physics.is_vacuum           [1]: 0 
Volume.p_physics.my_absorption       [1]: 0.000000 
Volume.p_physics.number of processes [1]: 2 
Volume.geometry.shape                [1]: cylinder 
Volume.geometry.center.x             [1]: 1.860628 
Volume.geometry.center.y             [1]: 0.051000 
Volume.geometry.center.z             [1]: 103.681543 
Volume.geometry.rotation_matrix[0]           [1]: [0.248403 0.000000 -0.968657] 
Volume.geometry.rotation_matrix[1]           [1]: [0.000000 1.000000 0.000000] 
Volume.geometry.rotation_matrix[2]           [1]: [0.968657 0.000000 0.248403] 
Volume.geometry.geometry_parameters.cyl_radius [1]: 0.013000 
Volume.geometry.geometry_parameters.height [1]: 0.004000 
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 sample_container with cylinder shape made of Al
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 sample_container_lid with cylinder shape made of Al
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

NOTE: CPU COMPONENT grammar activated:
 1) "FUNNEL" raytrace algorithm enabled.
 2) Any SPLIT's are dynamically allocated based on available buffer size. 

Detector: monitor_before_mono_I=2.6756e+09 monitor_before_mono_ERR=5.96817e+06 monitor_before_mono_N=683928 "monitor_before_mono.dat"
Detector: Beam_entrance_monitor_psd_I=5.57252e+06 Beam_entrance_monitor_psd_ERR=237283 Beam_entrance_monitor_psd_N=1848 "beam_ent_mon_psd.dat"
Detector: Beam_entrance_monitor_div_I=5.57252e+06 Beam_entrance_monitor_div_ERR=237283 Beam_entrance_monitor_div_N=1848 "Beam_entrance_monitor_div.dat"
Detector: Beam_entrance_monitor_lambda_I=5.57252e+06 Beam_entrance_monitor_lambda_ERR=237283 Beam_entrance_monitor_lambda_N=1848 "beam_ent_mon_lambda.dat"
Detector: middle_div_I=321262 middle_div_ERR=55717 middle_div_N=85 "middle_div.dat"
Detector: middle_psd_I=321262 middle_psd_ERR=55718.7 middle_psd_N=83 "middle_psd.dat"
Detector: monitor_after_collimator_div_I=0 monitor_after_collimator_div_ERR=0 monitor_after_collimator_div_N=0 "monitor_after_collimator_div.dat"
Detector: monitor_after_collimator_psd_I=5826.21 monitor_after_collimator_psd_ERR=7135.62 monitor_after_collimator_psd_N=2 "monitor_after_collimator_psd.dat"
Detector: logger_space_zx_I=12588.5 logger_space_zx_ERR=9760.58 logger_space_zx_N=4 "logger_zx.dat"
Detector: logger_space_zy_I=12588.5 logger_space_zy_ERR=9760.58 logger_space_zy_N=4 "logger_zy.dat"
Detector: final_monitor_I=0 final_monitor_ERR=0 final_monitor_N=0 "final_mon.dat"
INFO: Placing instr file copy ILL_SALSA.instr in dataset 1
INFO: Placing generated c-code copy ILL_SALSA.c in dataset 1