%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %Tutorial slides on Python. % % Author: FOSSEE % Copyright (c) 2009, FOSSEE, IIT Bombay %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% \documentclass[14pt,compress]{beamer} %\documentclass[draft]{beamer} %\documentclass[compress,handout]{beamer} %\usepackage{pgfpages} %\pgfpagesuselayout{2 on 1}[a4paper,border shrink=5mm] % Modified from: generic-ornate-15min-45min.de.tex \mode { \usetheme{Warsaw} \useoutertheme{split} \setbeamercovered{transparent} } \usepackage[english]{babel} \usepackage[latin1]{inputenc} %\usepackage{times} \usepackage[T1]{fontenc} \usepackage{amsmath} % Taken from Fernando's slides. \usepackage{ae,aecompl} \usepackage{mathpazo,courier,euler} \usepackage[scaled=.95]{helvet} \definecolor{darkgreen}{rgb}{0,0.5,0} \usepackage{listings} \lstset{language=Python, basicstyle=\ttfamily\bfseries, commentstyle=\color{red}\itshape, stringstyle=\color{darkgreen}, showstringspaces=false, keywordstyle=\color{blue}\bfseries} %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % Macros \setbeamercolor{emphbar}{bg=blue!20, fg=black} \newcommand{\emphbar}[1] {\begin{beamercolorbox}[rounded=true]{emphbar} {#1} \end{beamercolorbox} } \newcounter{time} \setcounter{time}{0} \newcommand{\inctime}[1]{\addtocounter{time}{#1}{\tiny \thetime\ m}} \newcommand{\typ}[1]{\lstinline{#1}} \newcommand{\kwrd}[1]{ \texttt{\textbf{\color{blue}{#1}}} } %%% This is from Fernando's setup. % \usepackage{color} % \definecolor{orange}{cmyk}{0,0.4,0.8,0.2} % % Use and configure listings package for nicely formatted code % \usepackage{listings} % \lstset{ % language=Python, % basicstyle=\small\ttfamily, % commentstyle=\ttfamily\color{blue}, % stringstyle=\ttfamily\color{orange}, % showstringspaces=false, % breaklines=true, % postbreak = \space\dots % } %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % Title page \title[Basic Python]{Matrices, Solution of equations} \author[FOSSEE] {FOSSEE} \institute[IIT Bombay] {Department of Aerospace Engineering\\IIT Bombay} \date[] {31, October 2009\\Day 1, Session 4} %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %\pgfdeclareimage[height=0.75cm]{iitmlogo}{iitmlogo} %\logo{\pgfuseimage{iitmlogo}} %% Delete this, if you do not want the table of contents to pop up at %% the beginning of each subsection: \AtBeginSubsection[] { \begin{frame} \frametitle{Outline} \tableofcontents[currentsection,currentsubsection] \end{frame} } %%\AtBeginSection[] %%{ %%\begin{frame} %% \frametitle{Outline} %% \tableofcontents[currentsection,currentsubsection] %%\end{frame} %%} % If you wish to uncover everything in a step-wise fashion, uncomment % the following command: %\beamerdefaultoverlayspecification{<+->} %\includeonlyframes{current,current1,current2,current3,current4,current5,current6} %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % DOCUMENT STARTS \begin{document} \begin{frame} \titlepage \end{frame} \begin{frame} \frametitle{Outline} \tableofcontents % \pausesections \end{frame} \section{Matrices} \begin{frame} \frametitle{Matrices: Introduction} We looked at the Van der Monde matrix in the previous session,\\ let us now look at matrices in a little more detail. \end{frame} \subsection{Initializing} \begin{frame}[fragile] \frametitle{Matrices: Initializing} \begin{lstlisting} In []: a = matrix([[1,2,3], [4,5,6], [7,8,9]]) In []: a Out[]: matrix([[1, 2, 3], [4, 5, 6], [7, 8, 9]]) \end{lstlisting} \end{frame} \subsection{Basic Operations} \begin{frame}[fragile] \frametitle{Inverse of a Matrix} \begin{small} \begin{lstlisting} In []: linalg.inv(A) Out[]: matrix([[ 0.07734807, 0.01657459, 0.32044199], [ 0.09944751, -0.12154696, -0.01657459], [-0.02762431, -0.07734807, 0.17127072]]) \end{lstlisting} \end{small} \end{frame} \begin{frame}[fragile] \frametitle{Determinant} \begin{lstlisting} In []: linalg.det(a) Out[]: -9.5171266700777579e-16 \end{lstlisting} \end{frame} \begin{frame}[fragile] \frametitle{Computing Norms} \begin{lstlisting} In []: linalg.norm(a) Out[]: 16.881943016134134 \end{lstlisting} \end{frame} \begin{frame}[fragile] \frametitle{Eigen Values and Eigen Matrix} \begin{small} \begin{lstlisting} In []: linalg.eigvals(a) Out[]: array([1.61168440e+01, -1.11684397e+00, -1.22196337e-15]) In []: linalg.eig(a) Out[]: (array([ 1.61168440e+01, -1.11684397e+00, -1.22196337e-15]), matrix([[-0.23197069, -0.78583024, 0.40824829], [-0.52532209, -0.08675134, -0.81649658], [-0.8186735 , 0.61232756, 0.40824829]])) \end{lstlisting} \end{small} \end{frame} \section{Solving linear equations} \begin{frame}[fragile] \frametitle{Solution of equations} Consider, \begin{align*} 3x + 2y - z & = 1 \\ 2x - 2y + 4z & = -2 \\ -x + \frac{1}{2}y -z & = 0 \end{align*} Solution: \begin{align*} x & = 1 \\ y & = -2 \\ z & = -2 \end{align*} \end{frame} \begin{frame}[fragile] \frametitle{Solving using Matrices} Let us now look at how to solve this using \kwrd{matrices} \begin{lstlisting} In []: A = matrix([[3,2,-1],[2,-2,4],[-1, 0.5, -1]]) In []: b = matrix([[1], [-2], [0]]) In []: x = linalg.solve(A, b) In []: Ax = dot(A, x) In []: allclose(Ax, b) Out[]: True \end{lstlisting} \end{frame} \begin{frame}[fragile] \frametitle{Solution:} \begin{lstlisting} In []: x Out[]: array([[ 1.], [-2.], [-2.]]) In []: Ax Out[]: matrix([[ 1.00000000e+00], [ -2.00000000e+00], [ 2.22044605e-16]]) \end{lstlisting} \end{frame} \begin{frame} \frametitle{Things we have learned} \begin{itemize} \item \item \end{itemize} \end{frame} \end{document}