Changeset 5718 for trunk/MagicSoft/TDAS-Extractor
- Timestamp:
- 01/07/05 13:06:51 (20 years ago)
- Location:
- trunk/MagicSoft/TDAS-Extractor
- Files:
-
- 3 edited
Legend:
- Unmodified
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trunk/MagicSoft/TDAS-Extractor/Criteria.tex
r5689 r5718 35 35 \ldots {\textit In this section, the Nuria plots are examined \newline \ldots Nuria} 36 36 37 \subsection{Treatment of calibration pulses}37 \subsection{Treatment of Calibration Pulses} 38 38 \ldots {\textit In this section, the question of the different pulse shapes between calibration pulses, its 39 39 secondary pulses, possible secondary pulses from hadronic showers and the typical Cherenkov … … 42 42 \newline \ldots Hendrik??? , Markus??? + ????} 43 43 44 \subsection{Low gain extraction}44 \subsection{Low Gain Extraction} 45 45 \ldots {\textit In this section, the stability of the low-gain extraction w.r.t. the high-gain extraction is 46 46 examined. Useful plots are still to be defined. 47 47 \newline \ldots Arnau ????} 48 48 49 \subsection{Applicability for different sampling speeds / no pulse shaping.}49 \subsection{Applicability for Different Sampling Speeds / No Pulse Shaping.} 50 50 \ldots {\textit In this section, some comments of Hendrik will be made} 51 51 52 \subsection{CPU requirements}52 \subsection{CPU Requirements} 53 53 \ldots {\textit In this section, the needed CPU time is measured for each extractor independently } 54 54 \newline \ldots {\textit ALL (after all)} -
trunk/MagicSoft/TDAS-Extractor/Pedestal.tex
r5716 r5718 1 \section{Criteria for an Pptimal Pedestal Extraction}1 \section{Criteria for an Optimal Pedestal Extraction} 2 2 3 3 \ldots {\it In this section, the distinction is made between: -
trunk/MagicSoft/TDAS-Extractor/Performance.tex
r5663 r5718 96 96 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% 97 97 98 \subsubsection{Un- calibrated pixels and events}98 \subsubsection{Un-Calibrated Pixels and Events} 99 99 100 100 The MAGIC calibration software incorporates a series of checks to sort out mal-functionning pixels. … … 219 219 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% 220 220 221 \subsubsection{Number of photo-electrons}221 \subsubsection{Number of Photo-Electrons} 222 222 223 223 Assuming that the readout chain is clean and adds only negligible noise with respect to the one … … 356 356 357 357 358 \subsubsection{Linearity tests}358 \subsubsection{Linearity Tests} 359 359 360 360 In this section, we test the lineary of the extractors. As the photo-multiplier is a linear device over a … … 438 438 439 439 440 \subsubsection{Time resolution}440 \subsubsection{Time Resolution} 441 441 442 442 The extractors \#17--32 are able to extract also the arrival time of each pulse. In the calibration,
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