| version 1.2, 2001/03/07 06:54:40 |
version 1.3, 2001/03/07 07:34:49 |
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| % $OpenXM: OpenXM/doc/ascm2001/design-outline.tex,v 1.1 2001/03/07 02:42:10 noro Exp $ |
% $OpenXM: OpenXM/doc/ascm2001/design-outline.tex,v 1.2 2001/03/07 06:54:40 takayama Exp $ |
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| \section{Design Outline and OpenXM Request for Comments (OpenXM-RFC)} |
\section{Design Outline and OpenXM Request for Comments (OpenXM-RFC)} |
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| Line 126 then the server executes the asir command \\ |
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| Line 126 then the server executes the asir command \\ |
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| (factorize $x^{100}-y^{100}$ over ${\bf Q}$) |
(factorize $x^{100}-y^{100}$ over ${\bf Q}$) |
| and pushes the result onto the stack. |
and pushes the result onto the stack. |
| \end{enumerate} |
\end{enumerate} |
| OpenXM package is implemented on above fundamental architecture. |
OpenXM package implements the OpenXM-RFC 100 and 101 based on |
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the above fundamental architecture. |
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In this paper, we discuss mainly on systems implementing |
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OpenXM-RFC 100 and 101 on TCP/IP. |
| For example, the following is a command sequence to ask $1+1$ from |
For example, the following is a command sequence to ask $1+1$ from |
| the Asir client to the {\tt ox\_sm1} server: |
the Asir client to the {\tt ox\_sm1} server through TCP/IP: |
| \begin{verbatim} |
\begin{verbatim} |
| P = sm1_start(); |
P = sm1_start(); |
| ox_push_cmo(P,1); ox_push_cmo(P,1); |
ox_push_cmo(P,1); ox_push_cmo(P,1); |
| Line 136 the Asir client to the {\tt ox\_sm1} server: |
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| Line 139 the Asir client to the {\tt ox\_sm1} server: |
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| \end{verbatim} |
\end{verbatim} |
| Here, {\tt ox\_sm1} is an OpenXM server based on Kan/sm1. |
Here, {\tt ox\_sm1} is an OpenXM server based on Kan/sm1. |
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| The OpenXM package is implemented on the OpenXM RFC 100 for TCP/IP, |
Our project of integrating mathematical software |
| which uses the client-server model. |
systems is taking the ``RFC'' approach, which has been |
| In this paper, we discuss mainly on systems implementing |
used to develop internet protocols. |
| OpenXM RFC 100 on TCP/IP. |
We think that ``RFC'' approach is an excellent way and |
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we hope that other groups, who are working on standard protocols, |
| Our project is taking the ``RFC'' approach, which has been |
take this ``RFC'' approach. |
| used to develop internet protocols, to integrate mathematical software |
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| systems. |
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| We hope that other groups, who are working on standard protocols, |
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| take the ``RFC'' approach. |
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| The OpenXM on MPI \cite{MPI} is currently running on Risa/Asir |
The OpenXM on MPI \cite{MPI} is currently running on Risa/Asir |
| as we will see in Section \ref{section:homog}. |
as we will see in Section \ref{section:homog}. |
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