QL report corrections CM2

diff --git a/GSI_2014_QL_ClusterFinder/Qiyan2013CBM-progressReport.pdf b/GSI_2014_QL_ClusterFinder/Qiyan2013CBM-progressReport.pdf
index e106c4deb1e37e9026ef2e2181d0928716e986eb..992c489cfa57e941ab95a4cd86ab9a1ff306e186 100644 (file)
Binary files a/GSI_2014_QL_ClusterFinder/Qiyan2013CBM-progressReport.pdf and b/GSI_2014_QL_ClusterFinder/Qiyan2013CBM-progressReport.pdf differ

diff --git a/GSI_2014_QL_ClusterFinder/Qiyan2013CBM-progressReport.tex b/GSI_2014_QL_ClusterFinder/Qiyan2013CBM-progressReport.tex
index 684234e46fa7f618b0507cf9b2c57ff36dfcad57..a3407876a85d45d08108beb2e835903d7a387af0 100644 (file)
--- a/GSI_2014_QL_ClusterFinder/Qiyan2013CBM-progressReport.tex
+++ b/GSI_2014_QL_ClusterFinder/Qiyan2013CBM-progressReport.tex
@@ -24,7 +24,6 @@
 \affil[1]{IKF, Goethe-University Frankfurt, Germany}
 \affil[2]{GSI, Darmstadt, Germany}
 
-
 \maketitle
 %\section{}
 Searching for open charm particles with CBM demands high collision rates of up to 100\ kHz Au+Au collisions and performing tracking and secondary decay vertex finding in real time. This generates a significant load to the First Level Event Selector (FLES) of the experiment. To reduce this load, we aim at pre-processing the data provided by the Micro-Vertex-Detector (MVD) of CBM before sending it to the FLES.
@@ -36,7 +35,7 @@ encoding scheme reduces the data by a factor of two as compared to the native en
 \centering
 %\includegraphics*[width=65mm]{gsisr1}
 \includegraphics*[width=65mm]{dataCompression.png}
-\caption{Comparison of the data volume generated by SPS beam test data encoded in proposed format and the native data format of MIMOSA-26. The average cluster size is between 1 and 2 pixels per cluster. }
+\caption{Comparison of the data volume generated by SPS beam test data encoded in proposed format and the native data format of MIMOSA-26. The average cluster size is between 1.6 and 2.6 pixels per cluster depending on the discrimination threshold. }
 \label{l2ea4-f1}
 \end{figure}