INFO: Using directory: "2" INFO: Using existing c-file: ./Test_Sources.c INFO: Using existing binary: ./Test_Sources.out INFO: === Test_Sources: Using Source_simple Studied wavelength range is [1 11] AA [Test_Sources] Initialize sa7: Setting up for sector W, beamline 8, global orientation angle is 108.7, internal angle 15 sa7: Focusing at rectagle sized 0.1 x 0.1 - positioned at location (x,y,z)=(0 m, 0 m, 1 m) ( from dist parameter -> distance 1 ) sa7: Cold and Thermal brilliance performance multiplicators are c_performance=1 and t_performance=1 sa7: NOT using time focusing Test_Sources: Using Source_simple Studied wavelength range is [1 11] AA [Test_Sources] Initialize sa7: Setting up for sector W, beamline 8, global orientation angle is 108.7, internal angle 15 sa7: Focusing at rectagle sized 0.1 x 0.1 - positioned at location (x,y,z)=(0 m, 0 m, 1 m) ( from dist parameter -> distance 1 ) sa7: Cold and Thermal brilliance performance multiplicators are c_performance=1 and t_performance=1 sa7: NOT using time focusing Test_Sources: Using Source_simple Studied wavelength range is [1 11] AA [Test_Sources] Initialize sa7: Setting up for sector W, beamline 8, global orientation angle is 108.7, internal angle 15 sa7: Focusing at rectagle sized 0.1 x 0.1 - positioned at location (x,y,z)=(0 m, 0 m, 1 m) ( from dist parameter -> distance 1 ) sa7: Cold and Thermal brilliance performance multiplicators are c_performance=1 and t_performance=1 sa7: NOT using time focusing Test_Sources: Using Source_simple Studied wavelength range is [1 11] AA [Test_Sources] Initialize sa7: Setting up for sector W, beamline 8, global orientation angle is 108.7, internal angle 15 sa7: Focusing at rectagle sized 0.1 x 0.1 - positioned at location (x,y,z)=(0 m, 0 m, 1 m) ( from dist parameter -> distance 1 ) sa7: Cold and Thermal brilliance performance multiplicators are c_performance=1 and t_performance=1 sa7: NOT using time focusing Test_Sources: Using Source_simple Studied wavelength range is [1 11] AA [Test_Sources] Initialize sa7: Setting up for sector W, beamline 8, global orientation angle is 108.7, internal angle 15 sa7: Focusing at rectagle sized 0.1 x 0.1 - positioned at location (x,y,z)=(0 m, 0 m, 1 m) ( from dist parameter -> distance 1 ) sa7: Cold and Thermal brilliance performance multiplicators are c_performance=1 and t_performance=1 sa7: NOT using time focusing Test_Sources: Using Source_simple Studied wavelength range is [1 11] AA [Test_Sources] Initialize sa7: Setting up for sector W, beamline 8, global orientation angle is 108.7, internal angle 15 sa7: Focusing at rectagle sized 0.1 x 0.1 - positioned at location (x,y,z)=(0 m, 0 m, 1 m) ( from dist parameter -> distance 1 ) sa7: Cold and Thermal brilliance performance multiplicators are c_performance=1 and t_performance=1 sa7: NOT using time focusing Test_Sources: Using Source_simple Studied wavelength range is [1 11] AA [Test_Sources] Initialize sa7: Setting up for sector W, beamline 8, global orientation angle is 108.7, internal angle 15 sa7: Focusing at rectagle sized 0.1 x 0.1 - positioned at location (x,y,z)=(0 m, 0 m, 1 m) ( from dist parameter -> distance 1 ) sa7: Cold and Thermal brilliance performance multiplicators are c_performance=1 and t_performance=1 sa7: NOT using time focusing Test_Sources: Using Source_simple Studied wavelength range is [1 11] AA [Test_Sources] Initialize sa7: Setting up for sector W, beamline 8, global orientation angle is 108.7, internal angle 15 sa7: Focusing at rectagle sized 0.1 x 0.1 - positioned at location (x,y,z)=(0 m, 0 m, 1 m) ( from dist parameter -> distance 1 ) sa7: Cold and Thermal brilliance performance multiplicators are c_performance=1 and t_performance=1 sa7: NOT using time focusing Test_Sources: Using Source_simple Studied wavelength range is [1 11] AA [Test_Sources] Initialize sa7: Setting up for sector W, beamline 8, global orientation angle is 108.7, internal angle 15 sa7: Focusing at rectagle sized 0.1 x 0.1 - positioned at location (x,y,z)=(0 m, 0 m, 1 m) ( from dist parameter -> distance 1 ) sa7: Cold and Thermal brilliance performance multiplicators are c_performance=1 and t_performance=1 sa7: NOT using time focusing Test_Sources: Using Source_simple Studied wavelength range is [1 11] AA [Test_Sources] Initialize sa7: Setting up for sector W, beamline 8, global orientation angle is 108.7, internal angle 15 sa7: Focusing at rectagle sized 0.1 x 0.1 - positioned at location (x,y,z)=(0 m, 0 m, 1 m) ( from dist parameter -> distance 1 ) sa7: Cold and Thermal brilliance performance multiplicators are c_performance=1 and t_performance=1 sa7: NOT using time focusing Simulation 'Test_Sources' (/home/nexmap/pkwi/TESTS/2024-11-18/ANTLR_mpi_x_16_1e7_Linux_1e7/Test_Sources/Test_Sources.instr): running on 16 nodes (master is 'elearn1.fysik.dtu.dk', MPI version 3.1). Test_Sources: Using Source_simple Studied wavelength range is [1 11] AA [Test_Sources] Initialize Source_gen: component sa5 (square 0.01 x 0.01) focusing distance dist=1 area=0.1 x 0.1 spectra 1.000 to 11.000 AA (0.676 to 81.810 meV) T1=216.8 K (2.093 AA), T2=33.9 K (5.292 AA), T3=16.7 K (7.539 AA) Flux is dPhi/dlambda in [n/s/cm2]. sa7: Setting up for sector W, beamline 8, global orientation angle is 108.7, internal angle 15 sa7: Focusing at rectagle sized 0.1 x 0.1 - positioned at location (x,y,z)=(0 m, 0 m, 1 m) ( from dist parameter -> distance 1 ) sa7: Cold and Thermal brilliance performance multiplicators are c_performance=1 and t_performance=1 sa7: NOT using time focusing Test_Sources: Using Source_simple Studied wavelength range is [1 11] AA [Test_Sources] Initialize sa7: Setting up for sector W, beamline 8, global orientation angle is 108.7, internal angle 15 sa7: Focusing at rectagle sized 0.1 x 0.1 - positioned at location (x,y,z)=(0 m, 0 m, 1 m) ( from dist parameter -> distance 1 ) sa7: Cold and Thermal brilliance performance multiplicators are c_performance=1 and t_performance=1 sa7: NOT using time focusing Test_Sources: Using Source_simple Studied wavelength range is [1 11] AA [Test_Sources] Initialize sa7: Setting up for sector W, beamline 8, global orientation angle is 108.7, internal angle 15 sa7: Focusing at rectagle sized 0.1 x 0.1 - positioned at location (x,y,z)=(0 m, 0 m, 1 m) ( from dist parameter -> distance 1 ) sa7: Cold and Thermal brilliance performance multiplicators are c_performance=1 and t_performance=1 sa7: NOT using time focusing Test_Sources: Using Source_simple Studied wavelength range is [1 11] AA [Test_Sources] Initialize sa7: Setting up for sector W, beamline 8, global orientation angle is 108.7, internal angle 15 sa7: Focusing at rectagle sized 0.1 x 0.1 - positioned at location (x,y,z)=(0 m, 0 m, 1 m) ( from dist parameter -> distance 1 ) sa7: Cold and Thermal brilliance performance multiplicators are c_performance=1 and t_performance=1 sa7: NOT using time focusing Test_Sources: Using Source_simple Studied wavelength range is [1 11] AA [Test_Sources] Initialize sa7: Setting up for sector W, beamline 8, global orientation angle is 108.7, internal angle 15 sa7: Focusing at rectagle sized 0.1 x 0.1 - positioned at location (x,y,z)=(0 m, 0 m, 1 m) ( from dist parameter -> distance 1 ) sa7: Cold and Thermal brilliance performance multiplicators are c_performance=1 and t_performance=1 sa7: NOT using time focusing Test_Sources: Using Source_simple Studied wavelength range is [1 11] AA [Test_Sources] Initialize sa7: Setting up for sector W, beamline 8, global orientation angle is 108.7, internal angle 15 sa7: Focusing at rectagle sized 0.1 x 0.1 - positioned at location (x,y,z)=(0 m, 0 m, 1 m) ( from dist parameter -> distance 1 ) sa7: Cold and Thermal brilliance performance multiplicators are c_performance=1 and t_performance=1 sa7: NOT using time focusing *** TRACE end *** Storing event logfile --> 2/Events_11.log Done storing logfile. Finally [Test_Sources: 2]. Time: 1 [s] Storing event logfile --> 2/Events_12.log Done storing logfile. Finally [Test_Sources: 2]. Time: 1 [s] Storing event logfile --> 2/Events_13.log Done storing logfile. Finally [Test_Sources: 2]. Time: 1 [s] Storing event logfile --> 2/Events_14.log Done storing logfile. Finally [Test_Sources: 2]. Time: 1 [s] Save [Test_Sources] Storing event logfile --> 2/Events_0.log Done storing logfile. Detector: m1_I=9.96645e+11 m1_ERR=3.15168e+08 m1_N=1e+07 "m1_1731904684.L" Detector: m2_I=9.96645e+11 m2_ERR=3.15168e+08 m2_N=1e+07 "m2_1731904684.x_y" Detector: m3_I=9.96645e+11 m3_ERR=3.15168e+08 m3_N=1e+07 "m3_1731904684.hd_vd" Storing event logfile --> 2/Events_15.log Done storing logfile. Finally [Test_Sources: 2]. Time: 1 [s] Storing event logfile --> 2/Events_5.log Done storing logfile. Finally [Test_Sources: 2]. Time: 1 [s] Storing event logfile --> 2/Events_1.log Done storing logfile. Finally [Test_Sources: 2]. Time: 1 [s] Storing event logfile --> 2/Events_2.log Done storing logfile. Finally [Test_Sources: 2]. Time: 1 [s] Storing event logfile --> 2/Events_3.log Done storing logfile. Finally [Test_Sources: 2]. Time: 1 [s] Storing event logfile --> 2/Events_4.log Done storing logfile. Finally [Test_Sources: 2]. Time: 1 [s] Storing event logfile --> 2/Events_6.log Done storing logfile. Finally [Test_Sources: 2]. Time: 1 [s] Storing event logfile --> 2/Events_7.log Done storing logfile. Finally [Test_Sources: 2]. Time: 1 [s] Storing event logfile --> 2/Events_8.log Done storing logfile. Finally [Test_Sources: 2]. Time: 1 [s] Storing event logfile --> 2/Events_9.log Done storing logfile. Finally [Test_Sources: 2]. Time: 1 [s] Storing event logfile --> 2/Events_10.log Done storing logfile. Finally [Test_Sources: 2]. Time: 1 [s] Finally [Test_Sources: 2]. Time: 1 [s] INFO: Placing instr file copy Test_Sources.instr in dataset 2 INFO: Placing generated c-code copy Test_Sources.c in dataset 2