% latex2slides -- sample tex and latex files for testing purposes \documentclass[12pt]{article} \usepackage{color} \begin{document} \Large \titlemini{1. A study of latex2slides performance} \title { 2. A study of latex2slides performance} \title{3. A study of latex2slides performance} \maketitle \begin{center} \colorbox{blue} { {\color{white} \Huge\bf{A study of latex2slides performance}} } \vspace*{3cm} \noindent {\bf{L.J. Milano$^1$ and Enzo Francescoli$^2$}} \vspace*{3cm} \normalsize { {\bf $^1$ Bartol Research Institute, University of Delaware, USA}\\ {\bf $^2$ Club Atletico River Plate} } \end{center} \newpage %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% \begin{center} \LARGE{\color{blue}\bf Abstract} \end{center} { Using semi-empirical methods as well as ad-hoc hypothesis we were able to show that latex2slides is essentially, substantially, fatally inefficient } \begin{center} \LARGE{\color{blue}\bf Some results} \end{center} We can show, after some algebraic manipulation that the efficiency of the code behaves as % \begin{equation} tan^2({\rm efficiency})=\frac {\sum_{\bf k} k_\perp^2 E({\bf k})} {\sum_{\bf k} k_\parallel^2 E({\bf k})} \to 0, \end{equation} % that is, \fbox{${\rm efficiency} \to 0$}. \begin{center} \LARGE{\color{blue}\bf References} \end{center} \begin{description} \item [1.] L.J. Milano, {\it J. Fishing Phys.} 1, 1 (1901) \item [2.] E. Francescoli, {\it J. River Plate} 95, 203 (1999) \end{description} \vfill \end{document}