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Presentations / SuperB_tau_status / superb_tau_status.tex
@mchrzasz mchrzasz on 9 Jan 2013 2 KB first commit
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  1. \documentclass[]{beamer}
  2. \setbeamertemplate{navigation symbols}{}
  3. \usepackage{beamerthemesplit}
  4. \useoutertheme{infolines}
  5. \usecolortheme{dolphin}
  6. \usetheme{Warsaw}
  7. \usepackage{graphicx}
  8. \usepackage{amssymb,amsmath}
  9. \usepackage[latin1]{inputenc}
  10. \usepackage{amsmath}
  11. \usepackage{amsfonts}
  12. \usepackage{amssymb}
  13. \usepackage{latexsym}
  14. \usepackage{hyperref}
  15.  
  16. \usepackage[T1]{fontenc}
  17. \usepackage[polish]{babel}
  18. \usepackage{lmodern}
  19.  
  20. \pgfdeclareimage[height=1.5ex,width=1.\baselineskip]{institut}{ifj.png}
  21.  
  22.  
  23. \logo{\includegraphics[height=1.0cm]{ifj.png}}
  24.  
  25.  
  26. %\usetheme{Boadilla}
  27.  
  28. %\beamersetuncovermixins{\opaqueness<1>{25}}{\opaqueness<2->{15}}
  29. \title{	Status report on $\tau \rightarrow 3 \mu$ and $B \rightarrow \phi \phi K$}  
  30. \author{Marcin Chrz\k{a}szcz, Alberto Lusiani}
  31.  
  32. \date{2 June 2012} 
  33.  
  34. \begin{document}
  35.  
  36. {
  37. \institute{Institute of Nuclear Physics PAN}
  38. \setbeamertemplate{footline}{} 
  39. \begin{frame}
  40.   \titlepage
  41. \end{frame}
  42. }
  43.  
  44. \institute{IFJ PAN}
  45.  
  46.  
  47.  
  48. %tutaj mamy pierwsza strone
  49.  
  50.  
  51. \section[Outline]{}
  52. \begin{frame}
  53. \tableofcontents
  54. \end{frame}
  55.  
  56. %normal slides
  57. \subsection{Twoards Monte Carlo Production}
  58. \begin{frame}\frametitle{Twoards Monte Carlo Production} 
  59.  
  60. 	\begin{itemize}
  61. 	\item MC Signal for both channels is simulated. For this we got 160 CPUs avaible for us 24/7. 
  62. 	\item Simulated ~10M for each channel: $\tau \rightarrow 3 \mu$, $\tau \rightarrow 2 \mu e $, $\tau \rightarrow 2 e \mu $, $\tau \rightarrow 3 e $, $B \rightarrow \phi \phi K$.
  63. 	\item Applied 15th may -> got a computing grant. 100k computing hours. Zeus cluster is 88th in the world.
  64. 	\item Perfect for simulating large background samples. First estimation, we need ~ $3$ $10^{9}$ events.
  65. 	\item Got assurence that if we need more we will get it.
  66. 	\item Problem with FastSim =(. Turns out that we were lucky.
  67. 		
  68. 	
  69. 	\end{itemize}	
  70.  
  71. \end{frame}
  72.  
  73. \subsection{More signal Simulations}
  74. \begin{frame}\frametitle{More signal Simulations} 
  75. 	\begin{itemize}
  76. 	\item Currently we have signal with flate phase space.
  77. 	\item We got in contact with Z.Was, who is autor of tauola. He is developing a new version of tauola for Belle. With Alberto we plane to write LFV in that version of TAUOLA and include it in SuperB soft.
  78. 	\item After we have it we will produce more signal with different models.
  79. 	\item Study the behaviour of the detector.	
  80. 	\end{itemize}	
  81.  
  82. \end{frame}
  83. \subsection{Cloud computing}
  84. \begin{frame}\frametitle{Cloud computing} 
  85. 	\begin{itemize}
  86. 	\item One can make your own farms by web interface
  87. 	\item Batch system included
  88. 	\item User friendly. Elastic IPs. Group spaces. 
  89.  
  90. 	\end{itemize}	
  91. 	\includegraphics[scale=0.2]{cloud.png}
  92. \newline \includegraphics[height=1.2cm]{log.jpg}
  93. \end{frame}
  94.  
  95.  
  96.  
  97.  
  98. \end{document}