QC documentation system: QC procedure run_detlin.csh for MIDI

This documentation is intended both for QC scientists and SciOps astronomers (who may want to ignore the technical information displayed in grey).   HOME   CRIRES FORS2   FORS1 GIRAFFE UVES XSHOOTER   ISAAC VIMOS VISIR   HAWKI NACO SINFONI   AMBER MIDI   VIRCAM [best viewing with style sheets and javascript enabled] run_detron.csh run_detlin.csh run_dettrn.csh run_refpix.csh run_wave.csh run_kappa.csh run_data_quality_processQC.csh extractVis_dispersed.csh extractTF_dispersed.csh extractbinned_dispersed.csh plot_data_dispersed.csh midi_frg_hs_disp_display.csh midi_frg_sp_disp_display.csh   bottom  plots   |   contact NAME run_detlin.csh VERSION 12-06 implement docu SYNTAX SHELL CALL processQC -a abname or . ~/Isabelle/SCRIPTS/MeasureQuality/run_data_quality_processQC.csh $RAW_TYPE $DATE $PF . ~/Isabelle/SCRIPTS/MeasureQuality/run_detlin.csh INSTRUMENT MIDI RAWTYPE CAL_DETLIN PURPOSE extracting values for the detector linearity PROCINPUT products under CAL_DETLIN QC1TABLE trending | table(s) in QC1 database: midi_detlin TRENDPLOT trending | HealthCheck plot(s) associated to this procedure: trend_report_DETLIN_cust_HC.html QC1PAGE trending | associated documentation: MIDI_QC_tutorial_detector.html QC1PLOTS top trend_report_DETLIN_cust_HC.png linearity coefficients of the detector trend_report_DELIN_TEMP_HC.png : detector temperature and A1_GRISM QC1PARAM QC1 parameters written into QC1 table: QC1db names: midi_detlin FITS key names: QC.DETLIN.IM/GR/PR.A0/A1/A2/A3 QC1 params created by pipeline: all QC1 params created by this procedure: none ALGORITHM Description of algorithms: (param name): Polynomial fit of I(t)=A0+A1t+A2T^2+A3t^3. The coefficients are measured for the 3 settings OPEN, PRISM and GRISM CERTIF (guidelines for acceptance/rejection) check the HC plots. If the value is outside the limits or there is a trend in the HC plots, check the temperature COMMENTS (any comments) top [2010-01-26T08:57:04]         created by qcDocu v1.1.2, a tqs tool