- Timestamp:
- 02/18/05 11:02:34 (20 years ago)
- Location:
- trunk/MagicSoft/TDAS-Extractor
- Files:
-
- 3 edited
Legend:
- Unmodified
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- Removed
-
trunk/MagicSoft/TDAS-Extractor/Calibration.tex
r6562 r6585 101 101 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% 102 102 103 \subsection{Un-Calibrated Pixels and Events }103 \subsection{Un-Calibrated Pixels and Events \label{sec:uncalibrated}} 104 104 105 105 The MAGIC calibration software incorporates a series of checks to sort out mal-functioning pixels. … … 583 583 \clearpage 584 584 585 \subsection{ Time Resolution}585 \subsection{Relative Arrival Time Calibration} 586 586 587 587 The extractors \#17--33 are able to compute the arrival time of each pulse. The calibration LEDs … … 636 636 One can see that the sliding window extractors yield double Gaussian structures, except for the 637 637 largest window sizes of 8 and 10 FADC slices. Even then, the distributions are not exactly Gaussian. 638 The maximum position extracting spline also yields distributions which are not exactly Gaussian and seem 639 to miss the exact arrival time in quitesome events. Only the position of the half-maximum gives the638 The maximum position extracting spline also yields distributions which are not exactly Gaussian and seems 639 to miss the exact arrival time in some events. Only the position of the half-maximum gives the 640 640 expected result of a single Gaussian distribution. 641 641 A similiar problem occurs in the case of the digital filter: If one takes the correct weights … … 713 713 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% 714 714 715 \subsection{Number of Outliers} 716 717 As in section~\ref{sec:uncalibrated}, we tested the number of outliers from the Gaussian distribution 718 in order to count how many times the extractor has failed to reconstruct the correct arrival time. 719 715 720 \begin{figure}[htp] 716 721 \centering … … 759 764 760 765 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% 766 767 \subsection{Time Resolution} 761 768 762 769 \begin{figure}[htp] -
trunk/MagicSoft/TDAS-Extractor/MonteCarlo.tex
r6576 r6585 143 143 \end{figure} 144 144 145 \clearpage 146 145 147 \subsection{Charge Signals with and without Simulated Noise \label{sec:mc:chargenoise}} 146 148 … … 169 171 \end{figure} 170 172 173 \clearpage 174 171 175 \subsection{Arrival Times \label{sec:mc:times}} 172 176 … … 202 206 \label{TimeRes_DFSpline} 203 207 \end{figure} 204 205 208 206 209 -
trunk/MagicSoft/TDAS-Extractor/Results.tex
r6538 r6585 46 46 \hline 47 47 23 & Spline Amplitude & \ok & \no & \no & \ok & \ok & \ok & \no & \no & \ok \\ 48 24 & Splne Int. (1,1.5) & \ok & \ok & \ok & \ok & \ok & \best & \ok & \no & \ no\\48 24 & Splne Int. (1,1.5) & \ok & \ok & \ok & \ok & \ok & \best & \ok & \no & \ok \\ 49 49 25 & Spline Int. (2,3) & \ok &\ok & \best&\ok & \ok & \best & \ok & \ok & \no \\ 50 50 26 & Spline Int. (4,6) & \ok &\ok & \ok & \ok & \ok & \best & \ok & \ok & \no \\
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