INFO: Using directory: "1"
INFO: Using existing c-file: ./HZB_FLEX.c
INFO: Using existing binary: ./HZB_FLEX.out
INFO: ===
Simulation 'HZB_FLEX' (/u/data/pkwi/TESTS/2026-03-17/ANTLR_mpi_x_20_1e7_Linux_1e7/HZB_FLEX/HZB_FLEX.instr): running on 20 nodes (master is 'hypatia.fysik.dtu.dk', MPI version 3.1).
monochromator angles are:
 A1=-37.166, A2=-74.332 [deg]
radius of curvature RMH= -3.269 [m]
radius of curvature RMV= -2.386 [m] 
sample angles are:
 A3=  0.000, A4= 70.000 [deg]
analyser angles are:
 A5=-37.166, A6=-74.332 [deg]
radius of curvature RAH= -1.655 [m]
radius of curvature RAV= -0.813 [m] 
velocity selector frequency is 213.618 [Hz]
lambda=  4.054 [A]
kI=  1.550 [A^-1] 
EI=  4.978 [meV]
Maxwellian source forced to emit only between l_min=  3.958 and l_max=  4.149 [A] in order to save simulation time
monochromator angles are:
monochromator angles are:
 A1=-37.166, A2=-74.332 [deg]
radius of curvature RMH= -3.269 [m]
radius of curvature RMV= -2.386 [m] 
sample angles are:
 A3=  0.000, A4= 70.000 [deg]
analyser angles are:
 A5=-37.166, A6=-74.332 [deg]
radius of curvature RAH= -1.655 [m]
radius of curvature RAV= -0.813 [m] 
velocity selector frequency is 213.618 [Hz]
lambda=  4.054 [A]
kI=  1.550 [A^-1] 
EI=  4.978 [meV]
Maxwellian source forced to emit only between l_min=  3.958 and l_max=  4.149 [A] in order to save simulation time
correspondingly, the energy monitors at sample position are detecting between   4.752 and   5.222 [meV]
monochromator angles are:
 A1=-37.166, A2=-74.332 [deg]
radius of curvature RMH= -3.269 [m]
radius of curvature RMV= -2.386 [m] 
sample angles are:
 A3=  0.000, A4= 70.000 [deg]
analyser angles are:
 A5=-37.166, A6=-74.332 [deg]
radius of curvature RAH= -1.655 [m]
radius of curvature RAV= -0.813 [m] 
velocity selector frequency is 213.618 [Hz]
lambda=  4.054 [A]
kI=  1.550 [A^-1] 
EI=  4.978 [meV]
Maxwellian source forced to emit only between l_min=  3.958 and l_max=  4.149 [A] in order to save simulation time
correspondingly, the energy monitors at sample position are detecting between   4.752 and   5.222 [meV]
monochromator angles are:
 A1=-37.166, A2=-74.332 [deg]
radius of curvature RMH= -3.269 [m]
radius of curvature RMV= -2.386 [m] 
sample angles are:
 A3=  0.000, A4= 70.000 [deg]
analyser angles are:
 A5=-37.166, A6=-74.332 [deg]
radius of curvature RAH= -1.655 [m]
radius of curvature RAV= -0.813 [m] 
velocity selector frequency is 213.618 [Hz]
lambda=  4.054 [A]
monochromator angles are:
 A1=-37.166, A2=-74.332 [deg]
radius of curvature RMH= -3.269 [m]
radius of curvature RMV= -2.386 [m] 
sample angles are:
 A3=  0.000, A4= 70.000 [deg]
analyser angles are:
 A5=-37.166, A6=-74.332 [deg]
radius of curvature RAH= -1.655 [m]
radius of curvature RAV= -0.813 [m] 
velocity selector frequency is 213.618 [Hz]
lambda=  4.054 [A]
monochromator angles are:
 A1=-37.166, A2=-74.332 [deg]
radius of curvature RMH= -3.269 [m]
radius of curvature RMV= -2.386 [m] 
sample angles are:
 A3=  0.000, A4= 70.000 [deg]
analyser angles are:
 A5=-37.166, A6=-74.332 [deg]
radius of curvature RAH= -1.655 [m]
radius of curvature RAV= -0.813 [m] 
velocity selector frequency is 213.618 [Hz]
lambda=  4.054 [A]
kI=  1.550 [A^-1] 
EI=  4.978 [meV]
Maxwellian source forced to emit only between l_min=  3.958 and l_max=  4.149 [A] in order to save simulation time
correspondingly, the energy monitors at sample position are detecting between   4.752 and   5.222 [meV]
monochromator angles are:
 A1=-37.166, A2=-74.332 [deg]
radius of curvature RMH= -3.269 [m]
radius of curvature RMV= -2.386 [m] 
sample angles are:
 A3=  0.000, A4= 70.000 [deg]
analyser angles are:
 A5=-37.166, A6=-74.332 [deg]
radius of curvature RAH= -1.655 [m]
radius of curvature RAV= -0.813 [m] 
velocity selector frequency is 213.618 [Hz]
lambda=  4.054 [A]
kI=  1.550 [A^-1] 
EI=  4.978 [meV]
Maxwellian source forced to emit only between l_min=  3.958 and l_max=  4.149 [A] in order to save simulation time
correspondingly, the energy monitors at sample position are detecting between   4.752 and   5.222 [meV]
Component: elliptical_piece (Guide_tapering)
           Height at the guide exit (h2): 0.125000 
Component: elliptical_piece (Guide_tapering)
           Width at the guide exit (w2): 0.030412 
Component: elliptical_piece (Guide_tapering)
           Height at the guide exit (h2): 0.125000 
Component: elliptical_piece (Guide_tapering)
           Width at the guide exit (w2): 0.030412 
Component: elliptical_piece (Guide_tapering)
           Height at the guide exit (h2): 0.125000 
Component: elliptical_piece (Guide_tapering)
           Width at the guide exit (w2): 0.030412 
Component: elliptical_piece (Guide_tapering)
           Height at the guide exit (h2): 0.125000 
Component: elliptical_piece (Guide_tapering)
           Width at the guide exit (w2): 0.030412 
Component: elliptical_piece (Guide_tapering)
           Height at the guide exit (h2): 0.125000 
Component: elliptical_piece (Guide_tapering)
           Width at the guide exit (w2): 0.030412 
Component: elliptical_piece (Guide_tapering)
           Height at the guide exit (h2): 0.125000 
Component: elliptical_piece (Guide_tapering)
           Width at the guide exit (w2): 0.030412 
monochromator angles are:
 A1=-37.166, A2=-74.332 [deg]
radius of curvature RMH= -3.269 [m]
radius of curvature RMV= -2.386 [m] 
sample angles are:
 A3=  0.000, A4= 70.000 [deg]
analyser angles are:
 A5=-37.166, A6=-74.332 [deg]
radius of curvature RAH= -1.655 [m]
radius of curvature RAV= -0.813 [m] 
velocity selector frequency is 213.618 [Hz]
lambda=  4.054 [A]
kI=  1.550 [A^-1] 
EI=  4.978 [meV]
Maxwellian source forced to emit only between l_min=  3.958 and l_max=  4.149 [A] in order to save simulation time
correspondingly, the energy monitors at sample position are detecting between   4.752 and   5.222 [meV]
monochromator angles are:
 A1=-37.166, A2=-74.332 [deg]
radius of curvature RMH= -3.269 [m]
radius of curvature RMV= -2.386 [m] 
sample angles are:
 A3=  0.000, A4= 70.000 [deg]
analyser angles are:
 A5=-37.166, A6=-74.332 [deg]
radius of curvature RAH= -1.655 [m]
radius of curvature RAV= -0.813 [m] 
velocity selector frequency is 213.618 [Hz]
lambda=  4.054 [A]
kI=  1.550 [A^-1] 
EI=  4.978 [meV]
Maxwellian source forced to emit only between l_min=  3.958 and l_max=  4.149 [A] in order to save simulation time
correspondingly, the energy monitors at sample position are detecting between   4.752 and   5.222 [meV]
Component: elliptical_piece (Guide_tapering)
           Height at the guide exit (h2): 0.125000 
Component: elliptical_piece (Guide_tapering)
           Width at the guide exit (w2): 0.030412 
Component: elliptical_piece (Guide_tapering)
           Height at the guide exit (h2): 0.125000 
Component: elliptical_piece (Guide_tapering)
           Width at the guide exit (w2): 0.030412 
Component: elliptical_piece (Guide_tapering)
           Height at the guide exit (h2): 0.125000 
Component: elliptical_piece (Guide_tapering)
           Height at the guide exit (h2): 0.125000 
Component: elliptical_piece (Guide_tapering)
           Width at the guide exit (w2): 0.030412 
Component: elliptical_piece (Guide_tapering)
           Height at the guide exit (h2): 0.125000 
Component: elliptical_piece (Guide_tapering)
           Width at the guide exit (w2): 0.030412 
Component: elliptical_piece (Guide_tapering)
           Height at the guide exit (h2): 0.125000 
Component: elliptical_piece (Guide_tapering)
           Width at the guide exit (w2): 0.030412 
monochromator angles are:
 A1=-37.166, A2=-74.332 [deg]
radius of curvature RMH= -3.269 [m]
radius of curvature RMV= -2.386 [m] 
sample angles are:
 A3=  0.000, A4= 70.000 [deg]
analyser angles are:
 A5=-37.166, A6=-74.332 [deg]
radius of curvature RAH= -1.655 [m]
radius of curvature RAV= -0.813 [m] 
velocity selector frequency is 213.618 [Hz]
lambda=  4.054 [A]
kI=  1.550 [A^-1] 
EI=  4.978 [meV]
Maxwellian source forced to emit only between l_min=  3.958 and l_max=  4.149 [A] in order to save simulation time
correspondingly, the energy monitors at sample position are detecting between   4.752 and   5.222 [meV]
monochromator angles are:
 A1=-37.166, A2=-74.332 [deg]
radius of curvature RMH= -3.269 [m]
radius of curvature RMV= -2.386 [m] 
sample angles are:
 A3=  0.000, A4= 70.000 [deg]
analyser angles are:
 A5=-37.166, A6=-74.332 [deg]
radius of curvature RAH= -1.655 [m]
radius of curvature RAV= -0.813 [m] 
velocity selector frequency is 213.618 [Hz]
lambda=  4.054 [A]
kI=  1.550 [A^-1] 
EI=  4.978 [meV]
Maxwellian source forced to emit only between l_min=  3.958 and l_max=  4.149 [A] in order to save simulation time
correspondingly, the energy monitors at sample position are detecting between   4.752 and   5.222 [meV]
Component: elliptical_piece (Guide_tapering)
           Height at the guide exit (h2): 0.125000 
Component: elliptical_piece (Guide_tapering)
           Width at the guide exit (w2): 0.030412 
Component: elliptical_piece (Guide_tapering)
           Height at the guide exit (h2): 0.125000 
Component: elliptical_piece (Guide_tapering)
           Width at the guide exit (w2): 0.030412 
Component: elliptical_piece (Guide_tapering)
           Height at the guide exit (h2): 0.125000 
Component: elliptical_piece (Guide_tapering)
           Width at the guide exit (w2): 0.030412 
Component: elliptical_piece (Guide_tapering)
           Height at the guide exit (h2): 0.125000 
Component: elliptical_piece (Guide_tapering)
           Width at the guide exit (w2): 0.030412 
Component: elliptical_piece (Guide_tapering)
           Height at the guide exit (h2): 0.125000 
Component: elliptical_piece (Guide_tapering)
           Width at the guide exit (w2): 0.030412 
Component: elliptical_piece (Guide_tapering)
           Height at the guide exit (h2): 0.125000 
Component: elliptical_piece (Guide_tapering)
           Width at the guide exit (w2): 0.030412 
monochromator angles are:
 A1=-37.166, A2=-74.332 [deg]
radius of curvature RMH= -3.269 [m]
radius of curvature RMV= -2.386 [m] 
sample angles are:
 A3=  0.000, A4= 70.000 [deg]
analyser angles are:
 A5=-37.166, A6=-74.332 [deg]
radius of curvature RAH= -1.655 [m]
radius of curvature RAV= -0.813 [m] 
velocity selector frequency is 213.618 [Hz]
lambda=  4.054 [A]
kI=  1.550 [A^-1] 
EI=  4.978 [meV]
Maxwellian source forced to emit only between l_min=  3.958 and l_max=  4.149 [A] in order to save simulation time
correspondingly, the energy monitors at sample position are detecting between   4.752 and   5.222 [meV]
monochromator angles are:
 A1=-37.166, A2=-74.332 [deg]
radius of curvature RMH= -3.269 [m]
radius of curvature RMV= -2.386 [m] 
sample angles are:
 A3=  0.000, A4= 70.000 [deg]
analyser angles are:
 A5=-37.166, A6=-74.332 [deg]
radius of curvature RAH= -1.655 [m]
radius of curvature RAV= -0.813 [m] 
velocity selector frequency is 213.618 [Hz]
lambda=  4.054 [A]
kI=  1.550 [A^-1] 
EI=  4.978 [meV]
Maxwellian source forced to emit only between l_min=  3.958 and l_max=  4.149 [A] in order to save simulation time
correspondingly, the energy monitors at sample position are detecting between   4.752 and   5.222 [meV]
Component: elliptical_piece (Guide_tapering)
           Height at the guide exit (h2): 0.125000 
Component: elliptical_piece (Guide_tapering)
           Width at the guide exit (w2): 0.030412 
Component: elliptical_piece (Guide_tapering)
           Width at the guide exit (w2): 0.030412 
Component: elliptical_piece (Guide_tapering)
           Height at the guide exit (h2): 0.125000 
Component: elliptical_piece (Guide_tapering)
           Width at the guide exit (w2): 0.030412 
monochromator angles are:
 A1=-37.166, A2=-74.332 [deg]
radius of curvature RMH= -3.269 [m]
radius of curvature RMV= -2.386 [m] 
sample angles are:
 A3=  0.000, A4= 70.000 [deg]
analyser angles are:
 A5=-37.166, A6=-74.332 [deg]
radius of curvature RAH= -1.655 [m]
radius of curvature RAV= -0.813 [m] 
velocity selector frequency is 213.618 [Hz]
lambda=  4.054 [A]
kI=  1.550 [A^-1] 
EI=  4.978 [meV]
Maxwellian source forced to emit only between l_min=  3.958 and l_max=  4.149 [A] in order to save simulation time
correspondingly, the energy monitors at sample position are detecting between   4.752 and   5.222 [meV]
monochromator angles are:
 A1=-37.166, A2=-74.332 [deg]
radius of curvature RMH= -3.269 [m]
radius of curvature RMV= -2.386 [m] 
sample angles are:
 A3=  0.000, A4= 70.000 [deg]
analyser angles are:
 A5=-37.166, A6=-74.332 [deg]
radius of curvature RAH= -1.655 [m]
radius of curvature RAV= -0.813 [m] 
velocity selector frequency is 213.618 [Hz]
lambda=  4.054 [A]
kI=  1.550 [A^-1] 
EI=  4.978 [meV]
Maxwellian source forced to emit only between l_min=  3.958 and l_max=  4.149 [A] in order to save simulation time
correspondingly, the energy monitors at sample position are detecting between   4.752 and   5.222 [meV]
[HZB_FLEX] Initialize
correspondingly, the energy monitors at sample position are detecting between   4.752 and   5.222 [meV]
[HZB_FLEX] Initialize
monochromator angles are:
 A1=-37.166, A2=-74.332 [deg]
radius of curvature RMH= -3.269 [m]
radius of curvature RMV= -2.386 [m] 
sample angles are:
 A3=  0.000, A4= 70.000 [deg]
analyser angles are:
 A5=-37.166, A6=-74.332 [deg]
radius of curvature RAH= -1.655 [m]
radius of curvature RAV= -0.813 [m] 
velocity selector frequency is 213.618 [Hz]
lambda=  4.054 [A]
kI=  1.550 [A^-1] 
EI=  4.978 [meV]
Maxwellian source forced to emit only between l_min=  3.958 and l_max=  4.149 [A] in order to save simulation time
correspondingly, the energy monitors at sample position are detecting between   4.752 and   5.222 [meV]
monochromator angles are:
 A1=-37.166, A2=-74.332 [deg]
radius of curvature RMH= -3.269 [m]
radius of curvature RMV= -2.386 [m] 
sample angles are:
 A3=  0.000, A4= 70.000 [deg]
analyser angles are:
 A5=-37.166, A6=-74.332 [deg]
radius of curvature RAH= -1.655 [m]
radius of curvature RAV= -0.813 [m] 
velocity selector frequency is 213.618 [Hz]
lambda=  4.054 [A]
kI=  1.550 [A^-1] 
EI=  4.978 [meV]
Maxwellian source forced to emit only between l_min=  3.958 and l_max=  4.149 [A] in order to save simulation time
correspondingly, the energy monitors at sample position are detecting between   4.752 and   5.222 [meV]
monochromator angles are:
 A1=-37.166, A2=-74.332 [deg]
radius of curvature RMH= -3.269 [m]
radius of curvature RMV= -2.386 [m] 
sample angles are:
 A3=  0.000, A4= 70.000 [deg]
analyser angles are:
 A5=-37.166, A6=-74.332 [deg]
radius of curvature RAH= -1.655 [m]
radius of curvature RAV= -0.813 [m] 
velocity selector frequency is 213.618 [Hz]
lambda=  4.054 [A]
kI=  1.550 [A^-1] 
EI=  4.978 [meV]
Maxwellian source forced to emit only between l_min=  3.958 and l_max=  4.149 [A] in order to save simulation time
correspondingly, the energy monitors at sample position are detecting between   4.752 and   5.222 [meV]
[HZB_FLEX] Initialize
kI=  1.550 [A^-1] 
EI=  4.978 [meV]
Maxwellian source forced to emit only between l_min=  3.958 and l_max=  4.149 [A] in order to save simulation time
correspondingly, the energy monitors at sample position are detecting between   4.752 and   5.222 [meV]
[HZB_FLEX] Initialize
kI=  1.550 [A^-1] 
EI=  4.978 [meV]
Maxwellian source forced to emit only between l_min=  3.958 and l_max=  4.149 [A] in order to save simulation time
correspondingly, the energy monitors at sample position are detecting between   4.752 and   5.222 [meV]
[HZB_FLEX] Initialize
[HZB_FLEX] Initialize
[HZB_FLEX] Initialize
[HZB_FLEX] Initialize
[HZB_FLEX] Initialize
[HZB_FLEX] Initialize
 A1=-37.166, A2=-74.332 [deg]
radius of curvature RMH= -3.269 [m]
radius of curvature RMV= -2.386 [m] 
sample angles are:
 A3=  0.000, A4= 70.000 [deg]
analyser angles are:
 A5=-37.166, A6=-74.332 [deg]
radius of curvature RAH= -1.655 [m]
radius of curvature RAV= -0.813 [m] 
velocity selector frequency is 213.618 [Hz]
lambda=  4.054 [A]
kI=  1.550 [A^-1] 
EI=  4.978 [meV]
Maxwellian source forced to emit only between l_min=  3.958 and l_max=  4.149 [A] in order to save simulation time
correspondingly, the energy monitors at sample position are detecting between   4.752 and   5.222 [meV]
[HZB_FLEX] Initialize
[HZB_FLEX] Initialize
[HZB_FLEX] Initialize
[HZB_FLEX] Initialize
[HZB_FLEX] Initialize
[HZB_FLEX] Initialize
[HZB_FLEX] Initialize
[HZB_FLEX] Initialize
[HZB_FLEX] Initialize
monochromator angles are:
 A1=-37.166, A2=-74.332 [deg]
radius of curvature RMH= -3.269 [m]
radius of curvature RMV= -2.386 [m] 
sample angles are:
 A3=  0.000, A4= 70.000 [deg]
analyser angles are:
 A5=-37.166, A6=-74.332 [deg]
radius of curvature RAH= -1.655 [m]
radius of curvature RAV= -0.813 [m] 
velocity selector frequency is 213.618 [Hz]
lambda=  4.054 [A]
kI=  1.550 [A^-1] 
EI=  4.978 [meV]
Maxwellian source forced to emit only between l_min=  3.958 and l_max=  4.149 [A] in order to save simulation time
correspondingly, the energy monitors at sample position are detecting between   4.752 and   5.222 [meV]
[HZB_FLEX] Initialize
*** TRACE end *** 

Save [HZB_FLEX]
Detector: Before_selec_I=2.9738e+07 Before_selec_ERR=43852.9 Before_selec_N=829610 "PSD_monitor_before.dat"
Detector: After_selec_I=2.03642e+07 After_selec_ERR=36302.3 After_selec_N=484425 "PSD_monitor_after.dat"
<E> : 4.98551 meV , E-width : 0.135339 meV 
<E> : 4.98164 meV , E-width : 0.135351 meV 
<E> : 4.98573 meV , E-width : 0.135991 meV 
<E> : 4.98399 meV , E-width : 0.135055 meV 
<E> : 4.9835 meV , E-width : 0.135405 meV 
<E> : 4.98496 meV , E-width : 0.134811 meV 
<E> : 4.98092 meV , E-width : 0.13515 meV 
<E> : 4.98447 meV , E-width : 0.135343 meV 
<E> : 4.98603 meV , E-width : 0.13538 meV 
<E> : 4.98491 meV , E-width : 0.135673 meV 
<E> : 4.98449 meV , E-width : 0.135294 meV 
<E> : 4.98305 meV , E-width : 0.134745 meV 
<E> : 4.9837 meV , E-width : 0.135426 meV 
<E> : 4.98536 meV , E-width : 0.135496 meV 
<E> : 4.98202 meV , E-width : 0.135324 meV 
<E> : 4.9847 meV , E-width : 0.135894 meV 
<E> : 4.98476 meV , E-width : 0.135072 meV 
<E> : 4.98185 meV , E-width : 0.135796 meV 
<E> : 4.98537 meV , E-width : 0.136293 meV 
Detector: energy_endguide_I=1.32565e+07 energy_endguide_ERR=28048.5 energy_endguide_N=328985 "energy-endguide.dat"
<E> : 4.98473 meV , E-width : 0.136383 meV 
<E> : 4.98043 meV , E-width : 0.0832396 meV 
<E> : 4.98186 meV , E-width : 0.0835004 meV 
<E> : 4.97872 meV , E-width : 0.0834605 meV 
<E> : 4.97935 meV , E-width : 0.0824829 meV 
<E> : 4.98106 meV , E-width : 0.0832026 meV 
<E> : 4.98268 meV , E-width : 0.0818678 meV 
<E> : 4.98203 meV , E-width : 0.0831027 meV 
<E> : 4.97943 meV , E-width : 0.0821875 meV 
<E> : 4.97852 meV , E-width : 0.0826784 meV 
<E> : 4.97923 meV , E-width : 0.0816963 meV 
<E> : 4.98097 meV , E-width : 0.0825254 meV 
<E> : 4.98061 meV , E-width : 0.0823088 meV 
<E> : 4.98157 meV , E-width : 0.0806782 meV 
<E> : 4.9804 meV , E-width : 0.0823875 meV 
<E> : 4.97906 meV , E-width : 0.0834115 meV 
<E> : 4.97611 meV , E-width : 0.0827213 meV 
<E> : 4.97794 meV , E-width : 0.083713 meV 
<E> : 4.97981 meV , E-width : 0.0824724 meV 
<E> : 4.97931 meV , E-width : 0.0806458 meV 
Detector: energy_mono_I=4.30834e+06 energy_mono_ERR=15993.1 energy_mono_N=105881 "energy-mono.dat"
<E> : 4.98203 meV , E-width : 0.0838574 meV 
Detector: energy_pre_sample_I=3.63883e+06 energy_pre_sample_ERR=14889.7 energy_pre_sample_N=76763 "energy-pre-sample.dat"
<E> : 4.9779 meV , E-width : 0.0692959 meV 
<E> : 4.97817 meV , E-width : 0.0699938 meV 
<E> : 4.98087 meV , E-width : 0.0716216 meV 
<E> : 4.97736 meV , E-width : 0.069965 meV 
<E> : 4.97809 meV , E-width : 0.0699954 meV 
<E> : 4.98001 meV , E-width : 0.0695984 meV 
<E> : 4.98225 meV , E-width : 0.0703649 meV 
<E> : 4.9801 meV , E-width : 0.0705494 meV 
<E> : 4.97752 meV , E-width : 0.0705668 meV 
<E> : 4.97734 meV , E-width : 0.0697766 meV 
<E> : 4.97907 meV , E-width : 0.0696042 meV 
<E> : 4.98041 meV , E-width : 0.069188 meV 
<E> : 4.97892 meV , E-width : 0.0696905 meV 
<E> : 4.98026 meV , E-width : 0.0696606 meV 
<E> : 4.97894 meV , E-width : 0.0702251 meV 
<E> : 4.97964 meV , E-width : 0.0708945 meV 
<E> : 4.97608 meV , E-width : 0.0697164 meV 
<E> : 4.97696 meV , E-width : 0.0703171 meV 
<E> : 4.97876 meV , E-width : 0.0705719 meV 
<E> : 4.98175 meV , E-width : 0.0699408 meV 
Detector: div_mono_I=4.05173e+06 div_mono_ERR=15603.7 div_mono_N=90335 "div-sample.dat"
Detector: div_mono_H_I=357154 div_mono_H_ERR=4603.72 div_mono_H_N=8840 "H-div-sample.dat"
Detector: psd_sam_I=4.32332e+06 psd_sam_ERR=16009.1 psd_sam_N=107069 "psd-sam.dat"

Finally [HZB_FLEX: 1]. Time: 1 [s] 

Finally [HZB_FLEX: 1]. Time: 1 [s] 

Finally [HZB_FLEX: 1]. Time: 1 [s] 

Finally [HZB_FLEX: 1]. Time: 1 [s] 

Finally [HZB_FLEX: 1]. Time: 1 [s] 

Finally [HZB_FLEX: 1]. Time: 1 [s] 

Finally [HZB_FLEX: 1]. Time: 1 [s] 

Finally [HZB_FLEX: 1]. Time: 1 [s] 

Finally [HZB_FLEX: 1]. Time: 1 [s] 

Finally [HZB_FLEX: 1]. Time: 1 [s] 

Finally [HZB_FLEX: 1]. Time: 1 [s] 

Finally [HZB_FLEX: 1]. Time: 1 [s] 

Finally [HZB_FLEX: 1]. Time: 1 [s] 

Finally [HZB_FLEX: 1]. Time: 1 [s] 

Finally [HZB_FLEX: 1]. Time: 1 [s] 

Finally [HZB_FLEX: 1]. Time: 1 [s] 

Finally [HZB_FLEX: 1]. Time: 1 [s] 

Finally [HZB_FLEX: 1]. Time: 1 [s] 

Finally [HZB_FLEX: 1]. Time: 1 [s] 
Detector: dpsd1_I=4.32332e+06 dpsd1_ERR=16009.1 dpsd1_N=107069 "linpsdsam.dat"

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