INFO: Using directory: "1" INFO: Using existing c-file: ./HZB_FLEX.c INFO: Using existing binary: ./HZB_FLEX.out INFO: === Simulation 'HZB_FLEX' (HZB_FLEX.instr): running on 16 nodes (master is 'elearn1.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] 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] 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) 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) 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] 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 [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 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] 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 *** TRACE end *** Save [HZB_FLEX] Detector: Before_selec_I=2.97084e+07 Before_selec_ERR=43828.4 Before_selec_N=828320 "PSD_monitor_before.dat" Detector: After_selec_I=2.03447e+07 After_selec_ERR=36282.9 After_selec_N=483591 "PSD_monitor_after.dat" : 4.9849 meV , E-width : 0.135205 meV : 4.98195 meV , E-width : 0.136104 meV : 4.98552 meV , E-width : 0.135556 meV : 4.98281 meV , E-width : 0.134784 meV : 4.98248 meV , E-width : 0.135602 meV : 4.98362 meV , E-width : 0.134837 meV : 4.98491 meV , E-width : 0.135802 meV : 4.98346 meV , E-width : 0.135987 meV Detector: energy_endguide_I=1.32373e+07 energy_endguide_ERR=28025.7 energy_endguide_N=328068 "energy-endguide.dat" : 4.98475 meV , E-width : 0.135378 meV : 4.98509 meV , E-width : 0.136288 meV : 4.98427 meV , E-width : 0.134704 meV : 4.98171 meV , E-width : 0.134852 meV : 4.98471 meV , E-width : 0.135586 meV : 4.98568 meV , E-width : 0.135274 meV : 4.98417 meV , E-width : 0.135625 meV : 4.98446 meV , E-width : 0.136185 meV : 4.9796 meV , E-width : 0.0824427 meV : 4.98159 meV , E-width : 0.0829976 meV : 4.97945 meV , E-width : 0.0818683 meV : 4.97996 meV , E-width : 0.0829795 meV : 4.98237 meV , E-width : 0.0832424 meV : 4.97822 meV , E-width : 0.0838657 meV : 4.98039 meV , E-width : 0.0823359 meV : 4.97991 meV , E-width : 0.0814151 meV : 4.97857 meV , E-width : 0.0814394 meV : 4.97982 meV , E-width : 0.0811844 meV : 4.97643 meV , E-width : 0.0822006 meV : 4.98062 meV , E-width : 0.0822909 meV : 4.97869 meV , E-width : 0.0830992 meV Detector: energy_mono_I=4.28952e+06 energy_mono_ERR=15949.6 energy_mono_N=105535 "energy-mono.dat" : 4.97799 meV , E-width : 0.0822941 meV : 4.97925 meV , E-width : 0.082667 meV : 4.9814 meV , E-width : 0.0832586 meV : 4.97841 meV , E-width : 0.0705926 meV : 4.97749 meV , E-width : 0.0694869 meV : 4.97941 meV , E-width : 0.0705036 meV : 4.97801 meV , E-width : 0.0701832 meV : 4.98006 meV , E-width : 0.0694154 meV : 4.97824 meV , E-width : 0.0702592 meV : 4.97904 meV , E-width : 0.0691735 meV : 4.98087 meV , E-width : 0.0709697 meV : 4.97762 meV , E-width : 0.070578 meV : 4.97875 meV , E-width : 0.0695992 meV : 4.97809 meV , E-width : 0.0699101 meV : 4.97825 meV , E-width : 0.069533 meV : 4.97882 meV , E-width : 0.0701878 meV : 4.97654 meV , E-width : 0.0700352 meV : 4.97916 meV , E-width : 0.0703113 meV Detector: energy_pre_sample_I=3.62217e+06 energy_pre_sample_ERR=14847.1 energy_pre_sample_N=76582 "energy-pre-sample.dat" : 4.9818 meV , E-width : 0.0695035 meV Detector: div_mono_I=4.03615e+06 div_mono_ERR=15564.5 div_mono_N=90243 "div-sample.dat" Detector: div_mono_H_I=354449 div_mono_H_ERR=4581.82 div_mono_H_N=8770 "H-div-sample.dat" Detector: psd_sam_I=4.30434e+06 psd_sam_ERR=15965.4 psd_sam_N=106678 "psd-sam.dat" Finally [HZB_FLEX: 1]. Time: 2 [s] Finally [HZB_FLEX: 1]. Time: 2 [s] Finally [HZB_FLEX: 1]. Time: 2 [s] Finally [HZB_FLEX: 1]. Time: 2 [s] Finally [HZB_FLEX: 1]. Time: 2 [s] Finally [HZB_FLEX: 1]. Time: 2 [s] Finally [HZB_FLEX: 1]. Time: 2 [s] Finally [HZB_FLEX: 1]. Time: 2 [s] Finally [HZB_FLEX: 1]. Time: 2 [s] Finally [HZB_FLEX: 1]. Time: 2 [s] Finally [HZB_FLEX: 1]. Time: 2 [s] Finally [HZB_FLEX: 1]. Time: 2 [s] Finally [HZB_FLEX: 1]. Time: 2 [s] Finally [HZB_FLEX: 1]. Time: 2 [s] Detector: dpsd1_I=4.30434e+06 dpsd1_ERR=15965.4 dpsd1_N=106678 "linpsdsam.dat" Finally [HZB_FLEX: 1]. Time: 2 [s] Finally [HZB_FLEX: 1]. Time: 2 [s] INFO: Placing instr file copy HZB_FLEX.instr in dataset 1 INFO: Placing generated c-code copy HZB_FLEX.c in dataset 1