Mon Jun 17 17:35:39 CEST 2013 ============== action: acquisition ======================= real 0m0.007s user 0m0.004s sys 0m0.002s === acquisition done === Time: .0113s Mon Jun 17 17:35:39 CEST 2013 ============== action: analysis ======================= Performing advanced discharge analysis I 0.00163979 B 0.235909 P 16.9104 n 0.0661262 R 0.4 Aspect 0.25 confinent time = 0.399200817353 real 0m1.357s user 0m1.156s sys 0m0.179s === analysis done === Time: 1.363s MonLOCAL_PATH /srv/www/svoboda/golem/operation/tasks/TrainingCourses/0613TV/170613_1247/173203/analysis/Basics/0612AdvancedAnalysis.ON main.py:161: RuntimeWarning: divide by zero encountered in divide ne_corr_nu1 = r0/a*(pos_part(1-R/r0))**1.5 #peaking factor 1; profile = (1-(r/a)^2) main.py:161: RuntimeWarning: invalid value encountered in multiply ne_corr_nu1 = r0/a*(pos_part(1-R/r0))**1.5 #peaking factor 1; profile = (1-(r/a)^2) main.py:162: RuntimeWarning: divide by zero encountered in divide ne_corr_nu0_5 = r0/a*(pos_part(1-R/r0)) #peaking factor 0.5; profile = sqrt(1-(r/a)^2) main.py:162: RuntimeWarning: invalid value encountered in multiply ne_corr_nu0_5 = r0/a*(pos_part(1-R/r0)) #peaking factor 0.5; profile = sqrt(1-(r/a)^2) /usr/lib64/python2.7/site-packages/pygolem_lite/modules.py:326: RuntimeWarning: invalid value encountered in divide if dy/amax(abs(array(yrange))) < 1e-6: # constant line ... main.py:244: RuntimeWarning: divide by zero encountered in divide get_data('electron_density', '$n_e$ - position corrected, $\\nu = 1$', 'n$_{e}$ [10$^{19}\cdot$m$^{-3}$]' ,data_rescale= 1e-19/ne_corr_nu1, fmt='k--', **params) if 'ne_corr_nu1' in locals() else [], main.py:245: RuntimeWarning: divide by zero encountered in divide get_data('electron_density', '$n_e$ - position corrected, $\\nu = 0.5$', 'n$_{e}$ [10$^{19}\cdot$m$^{-3}$]', data_rescale= 1e-19/ne_corr_nu0_5, fmt='k:', **params) if 'ne_corr_nu0_5' in locals() else [] , ======= mean(isnan(corr)) 0.122028340555 saving 1.26705002785 plotting time 1.27s Some mistake during get_data: Missing file: /srv/www/svoboda/golem/shots/12489/analysis/Radiation/1212Impurities_TO.ON/data//temperature saving 0.592123985291 plotting time 0.59s saving 0.754714012146 plotting time 0.75s saving 0.877516031265 plotting time 0.88s ===== plotting done ===== saving 0.521270036697 plotting time 0.52s real 0m9.068s user 0m0.034s sys 0m0.008s Mon Jun 17 17:35:52 CEST 2013 ============== action: clean ======================= make[10]: *** No rule to make target `clean'. Stop. make[10]: *** No rule to make target `clean'. Stop. === plots === Time: 9.100s Mon Jun 17 17:36:33 CEST 2013 !!! ============== action: postanalysis ======================= LOCAL_PATH /srv/www/svoboda/golem/operation/tasks/TrainingCourses/0613TV/170613_1247/173203/analysis/Basics/0612AdvancedAnalysis.ON Performing advanced discharge postanalysis tee: /home/svoboda/GOLEM/web/roperation/RemoteTokamak/actions.log: No such file or directory main.py:161: RuntimeWarning: divide by zero encountered in divide ne_corr_nu1 = r0/a*(pos_part(1-R/r0))**1.5 #peaking factor 1; profile = (1-(r/a)^2) main.py:161: RuntimeWarning: invalid value encountered in multiply ne_corr_nu1 = r0/a*(pos_part(1-R/r0))**1.5 #peaking factor 1; profile = (1-(r/a)^2) main.py:162: RuntimeWarning: divide by zero encountered in divide ne_corr_nu0_5 = r0/a*(pos_part(1-R/r0)) #peaking factor 0.5; profile = sqrt(1-(r/a)^2) main.py:162: RuntimeWarning: invalid value encountered in multiply ne_corr_nu0_5 = r0/a*(pos_part(1-R/r0)) #peaking factor 0.5; profile = sqrt(1-(r/a)^2) /usr/lib64/python2.7/site-packages/pygolem_lite/modules.py:326: RuntimeWarning: invalid value encountered in divide if dy/amax(abs(array(yrange))) < 1e-6: # constant line ... main.py:244: RuntimeWarning: divide by zero encountered in divide get_data('electron_density', '$n_e$ - position corrected, $\\nu = 1$', 'n$_{e}$ [10$^{19}\cdot$m$^{-3}$]' ,data_rescale= 1e-19/ne_corr_nu1, fmt='k--', **params) if 'ne_corr_nu1' in locals() else [], main.py:245: RuntimeWarning: divide by zero encountered in divide get_data('electron_density', '$n_e$ - position corrected, $\\nu = 0.5$', 'n$_{e}$ [10$^{19}\cdot$m$^{-3}$]', data_rescale= 1e-19/ne_corr_nu0_5, fmt='k:', **params) if 'ne_corr_nu0_5' in locals() else [] , ======= mean(isnan(corr)) 0.122028340555 saving 0.84001994133 plotting time 0.84s saving 0.544732093811 plotting time 0.54s saving 0.641865968704 plotting time 0.64s saving 0.786191940308 plotting time 0.79s ===== plotting done ===== saving 0.434708118439 plotting time 0.43s real 0m6.497s user 0m0.024s sys 0m0.005s === postanalysis === Time: 6.503s