version 1.2, 2000/07/20 05:58:00 |
version 1.7, 2000/07/31 07:26:12 |
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% $OpenXM: OpenXM/doc/calc2000p/func2.tex,v 1.1 2000/07/20 04:43:55 takayama Exp $ |
% $OpenXM: OpenXM/doc/calc2000p/func2.tex,v 1.6 2000/07/31 01:48:53 takayama Exp $ |
\documentclass[twocolumn]{article} |
\documentclass[twocolumn]{article} |
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\pagestyle{empty} |
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%\markright{ {\tt http://www.openxm.org} } |
\usepackage{color} |
\usepackage{color} |
\usepackage{epsfig} |
\usepackage{epsfig} |
\title{\huge \color{blue} 4252 functions are available |
\title{\huge \color{blue} 1077 functions are available |
on our servers and libraries (continued)} |
on our servers and libraries } |
\author{} \date{} |
\author{} \date{} |
\begin{document} |
\begin{document} |
\maketitle |
\maketitle |
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%% The number of functions: |
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%% 264 + 36 (lib/asir/help-jp) |
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%% 84 + 133 + 61 (sm1) |
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%% About 45*11 (pari) |
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%% 1 + 1 + 2(tigers, phc, OMproxy) |
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%% SUB TOTAL: 1077 |
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\noindent |
\noindent |
\fbox{\huge {\color{green} $D$-modules}} ($D$ is the Weyl algebra) |
\fbox{\huge {\color{green} $D$-modules}} ($D$ is the Weyl algebra) |
Line 76 numerical and polyhedral homotopy methods). |
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Line 84 numerical and polyhedral homotopy methods). |
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\noindent |
\noindent |
{\color{red} tigers} (Enumerate all Gr\"obner basis of a toric ideal. |
{\color{red} tigers} (Enumerate all Gr\"obner basis of a toric ideal. |
Finding test sets for integer program), |
Finding test sets for integer program), |
{\color{red} aDegree} (Arithmetic degree of a monomial ideal), |
{\color{red} arithDeg} (Arithmetic degree of a monomial ideal), |
{\color{red} stdPair} (Standard pair decomposition of a monomial ideal). |
{\color{red} stdPair} (Standard pair decomposition of a monomial ideal). |
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\medbreak |
\medbreak |
Line 113 Finding test sets for integer program), |
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Line 121 Finding test sets for integer program), |
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\medbreak |
\medbreak |
\noindent |
\noindent |
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In addition to these functions, {\color{green} Mathematica functions} |
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can be called as server functions. |
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\medbreak |
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\noindent |
\fbox{\huge {\color{green} Examples}} |
\fbox{\huge {\color{green} Examples}} |
{\footnotesize |
{\footnotesize |
\begin{verbatim} |
\begin{verbatim} |
[345] sm1_deRham([x^3-y^2*z^2,[x,y,z]]); |
[345] sm1_deRham([x^3-y^2*z^2,[x,y,z]]); |
[1,1,0,0] |
[1,1,0,0] |
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/* dim H^i = 1 (i=0,1), =0 (i=2,3) */ |
\end{verbatim}} |
\end{verbatim}} |
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\noindent |
\noindent |
{\footnotesize \begin{verbatim} |
{\footnotesize \begin{verbatim} |
[287] phc(katsura(7)); |
[287] phc(katsura(7)); B=map(first,Phc)$ |
[290] B=map(first,Phc)$ |
[291] gnuplot_plotDots(B,0)$ |
[291] gnuplot_plotDots([],0)$ |
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[292] gnuplot_plotDots(B,0)$ |
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\end{verbatim} } |
\end{verbatim} } |
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\epsfxsize=3cm |
\epsfxsize=3cm |
Line 140 Finding test sets for integer program), |
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Line 151 Finding test sets for integer program), |
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\medbreak |
\medbreak |
\noindent |
\noindent |
\fbox{ {\color{green} Authors}} |
\fbox{ {\color{green} Authors}} |
Castro-Jim\'enez, Doltman, Hubert, Noro, Oaku, Okutani, |
Castro-Jim\'enez, Dolzmann, Hubert, Murao, Noro, Oaku, Okutani, |
Sturm, Takayama, Tamura, Verschelde. |
Shimoyama, Sturm, Takayama, Tamura, Verschelde, Yokoyama. |
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\medbreak |
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\vfill |
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\noindent |
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\rightline{ {\color{red} {\tt http://www.openxm.org} }} |
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\end{document} |
\end{document} |
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