File r34/doc/sum.tex artifact 54a6bca6a5 part of check-in f16ac07139


\documentstyle[11pt]{article}
\title{The REDUCE Sum Package \\ Ver 1.0 9 Oct 1989}
\date{}
\author{Fujio Kako \\ Department of Mathematics \\ Faculty of Science \\
Hiroshima University \\ Hiroshima 730, JAPAN \\
E-mail: kako@kako.math.sci.hiroshima-u.ac.jp \\ or \\
D52789@JPNKUDPC.BITNET}
\begin{document}
\maketitle
This package implements the Gosper algorithm for the summation of series.
It defines operators SUM and PROD.  The operator SUM returns the indefinite
or definite summation of a given expresson, and the operator PROD returns
the product of the given expression.  These are used with the syntax:

\vspace{.1in}
\noindent {\tt SUM}(EXPR:{\em expression}, K:{\em kernel}, [LOLIM:{\em expression} [, UPLIM:{\em expression}]])
\vspace{.1in}
\noindent {\tt PROD}(EXPR:{\em expression}, K:{\em kernel}, [LOLIM:{\em expression} [, UPLIM:{\em expression}]])
\vspace{.1in}

If there is no closed form solution, these operators return the input
unchanged.  UPLIM and LOLIM are optional parameters specifing the lower
limit and upper limit of the summation (or product), respectively.  If UPLIM
is not supplied, the upper limit is taken as K (the summation variable
itself).

For example:

\begin{verbatim}
     sum(n**3,n);

     sum(a+k*r,k,0,n-1);

     sum(1/((p+(k-1)*q)*(p+k*q)),k,1,n+1);

     prod(k/(k-2),k);
\end{verbatim}

Gosper's algorithm succeeds whenever the ratio of

\[ \frac{\sum_{k=n_0}^n f(k)}{\sum_{k=n_0}^{n-1} f(k)} \]

\noindent is a rational function of $n$.  The function SUM!-SQ
handles basic functions such as polynomials, rational functions and
exponentials.

The trigonometric functions sin, cos, etc. are converted to exponentials
and then Gosper's algorithm is applied.  The result is converted back into
sin, cos, sinh and cosh.

Summations of logarithms or products of exponentials are treated by the
formula:

\vspace{.1in}
\hspace*{2em} \[ \sum_{k=n_0}^{n} \log f(k) = \log \prod_{k=n_0}^n f(k) \]
\vspace{.1in}
\hspace*{2em} \[ \prod_{k=n_0}^n \exp f(k) = \exp \sum_{k=n_0}^n f(k) \]
\vspace{.1in}

Other functions, as shown in the test file for the case of binomials and
formal products, can be summed by providing LET rules which must relate
the functions evaluated at $k$ and $k - 1$ ($k$ being the summation variable).

There is a switch TRSUM (default OFF).  If this switch is on, trace
messages are printed out during the course of Gosper's algorithm.
\end{document}




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