Index: /trunk/MagicSoft/TDAS-Extractor/Algorithms.tex =================================================================== --- /trunk/MagicSoft/TDAS-Extractor/Algorithms.tex (revision 6414) +++ /trunk/MagicSoft/TDAS-Extractor/Algorithms.tex (revision 6415) @@ -854,5 +854,5 @@ \item[MExtractTimeAndChargeDigitalFilterPeakSearch]: with the following initialization: \resume{enumerate} -\item SetWeightsFile(``calibration\_weights\_UV.dat''); SetRange(0,20,0,14); \\ +\item SetWeightsFile(``calibration\_weights4\_UV.dat''); SetRange(0,20,0,14); \\ SetOffsetLeftFromPeak(3); SetOffsetRightFromPeak(3); \\ SetPeakSearchWindowSize(2); Index: /trunk/MagicSoft/TDAS-Extractor/Calibration.tex =================================================================== --- /trunk/MagicSoft/TDAS-Extractor/Calibration.tex (revision 6414) +++ /trunk/MagicSoft/TDAS-Extractor/Calibration.tex (revision 6415) @@ -1,3 +1,3 @@ -\section{Calibration \label{sec:calibration}} + In this section, we describe the tests performed using light pulses of different colour, @@ -81,5 +81,6 @@ We used data taken on the 7$^{th}$ of June, 2004 with different pulser LED combinations, each taken with -16384 events. The corresponding MAGIC data run numbers range from nr. 31741 to 31772. These data was taken +16384 events. 19 different calibration configurations have been tested. +The corresponding MAGIC data run numbers range from nr. 31741 to 31772. These data was taken before the latest camera repair access which resulted in a replacement of about 2\% of the pixels known to be mal-functionning at that time. @@ -128,5 +129,13 @@ Moreover, the number of events are counted which have been reconstructed outside a 5 sigma region from the mean signal. These events are called ``outliers''. Figure~\ref{fig:outlier} shows a typical -outlier obtained with the digital filter applied to a low-gain signal. +outlier obtained with the digital filter applied to a low-gain signal and figure~\ref{fig:unsuited:all} +shows the average number of all excluded pixels and outliers obtained from all 19 calibration configurations. +One can already see that the largest window sizes yield a high number of un-calibrated pixels, mostly +due to the missing ability to recognize the low-intensity pulses (see later). One can also see that +the amplitude extracting spline yields a higher number of outliers than the rest of the extractors. +The global champion in lowest number of un-calibrated pixels results to be +{\textit{\bf MExtractTimeAndChargeDigitalFilter}} with the correct calibration weights over 4 FADC slices +(extractor \#31). The one with the lowest number of outliers is +{\textit{\bf MExtractFixedWindowPeakSearch}} with an extraction range of 2 slices (extractor \#11). \begin{figure}[htp] @@ -140,4 +149,12 @@ \end{figure} +\begin{figure}[htp] +\centering +\includegraphics[height=0.75\textheight]{UnsuitVsExtractor-all.eps} +\caption{Uncalibrated pixels and pixels outside of the Gaussian distribution averaged over all available +calibration runs.} +\label{fig:unsuited:all} +\end{figure} + The following figures~\ref{fig:unsuited:5ledsuv},~\ref{fig:unsuited:1leduv},~\ref{fig:unsuited:2ledsgreen} and~\ref{fig:unsuited:23ledsblue} show the resulting numbers of un-calibrated pixels and events for @@ -183,6 +200,4 @@ of the inner pixels (fig.~\ref{fig:unsuited:1leduv}). This is an expected behavior since big windows add up more noise which in turn makes the search for the small signal more difficult. -\par -\ldots {\bf WHICH EXTRACTOR HAS THE LEAST NUMBER OF EXCLUDED PIXELS ???} \par In general, one can also find that all ``sliding window''-algorithms (extractors \#17-32) discard