INFO: Using directory: "3"
INFO: Using existing c-file: ./Test_Sources.c
INFO: Using existing binary: ./Test_Sources.out
INFO: ===
Simulation 'Test_Sources' (Test_Sources.instr): running on 16 nodes (master is 'elearn1.fysik.dtu.dk', MPI version 3.1).
Test_Sources: Using Source_gen (flat spectrum)
Studied wavelength range is [1 11] AA
Test_Sources: Using Source_gen (flat spectrum)
Studied wavelength range is [1 11] AA
Test_Sources: Using Source_gen (flat spectrum)
Studied wavelength range is [1 11] AA
Test_Sources: Using Source_gen (flat spectrum)
Studied wavelength range is [1 11] AA
Test_Sources: Using Source_gen (flat spectrum)
Studied wavelength range is [1 11] AA
Test_Sources: Using Source_gen (flat spectrum)
Studied wavelength range is [1 11] AA
Test_Sources: Using Source_gen (flat spectrum)
Studied wavelength range is [1 11] AA
Test_Sources: Using Source_gen (flat spectrum)
Studied wavelength range is [1 11] AA
Test_Sources: Using Source_gen (flat spectrum)
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 )
[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] 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] Initialize
[Test_Sources] Initialize
sa7: Cold and Thermal brilliance performance multiplicators are c_performance=1 and t_performance=1
sa7: NOT using time focusing
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
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
Test_Sources: Using Source_gen (flat spectrum)
Studied wavelength range is [1 11] AA
sa7: NOT using time focusing
Test_Sources: Using Source_gen (flat spectrum)
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 )
[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] 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_gen (flat spectrum)
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_gen (flat spectrum)
Studied wavelength range is [1 11] AA
Test_Sources: Using Source_gen (flat spectrum)
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_gen (flat spectrum)
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] 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) 
sa7: Cold and Thermal brilliance performance multiplicators are c_performance=1 and t_performance=1
sa7: NOT using time focusing
[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) 
[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
 ( 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
 ( 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] 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_gen (flat spectrum)
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
*** TRACE end *** 
Storing event logfile -->  3/Events_3.log
Storing event logfile -->  3/Events_5.log
Storing event logfile -->  3/Events_13.log
Storing event logfile -->  3/Events_10.log
Storing event logfile -->  3/Events_11.log
Storing event logfile -->  3/Events_6.log
Storing event logfile -->  3/Events_14.log

Save [Test_Sources]
Storing event logfile -->  3/Events_0.log
Storing event logfile -->  3/Events_15.log
Storing event logfile -->  3/Events_8.log
Storing event logfile -->  3/Events_4.log
Storing event logfile -->  3/Events_1.log
Storing event logfile -->  3/Events_9.log
Storing event logfile -->  3/Events_2.log
Storing event logfile -->  3/Events_7.log
Storing event logfile -->  3/Events_12.log
Done storing logfile.
Done storing logfile.
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Done storing logfile.
Done storing logfile.
Done storing logfile.
Done storing logfile.
Done storing logfile.
Done storing logfile.
Done storing logfile.
Done storing logfile.
Done storing logfile.
Done storing logfile.
Done storing logfile.
Detector: m1_I=9.96645e+11 m1_ERR=3.15168e+08 m1_N=1e+07 "m1_1727579370.L"
Detector: m2_I=9.96645e+11 m2_ERR=3.15168e+08 m2_N=1e+07 "m2_1727579370.x_y"

Finally [Test_Sources: 3]. Time: 0 [s] 

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Finally [Test_Sources: 3]. Time: 0 [s] 
Detector: m3_I=9.96645e+11 m3_ERR=3.15168e+08 m3_N=1e+07 "m3_1727579370.hd_vd"

Finally [Test_Sources: 3]. Time: 0 [s] 

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Finally [Test_Sources: 3]. Time: 0 [s] 

Finally [Test_Sources: 3]. Time: 0 [s] 
INFO: Placing instr file copy Test_Sources.instr in dataset 3
INFO: Placing generated c-code copy Test_Sources.c in dataset 3