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<h1>sequent</h1>
<p>
Click <A HREF="http://www.netlib.org/master_counts2.html#sequent">here</A> to see the number of accesses to this library.
<p><hr>
<pre>
file <a href="readme">readme</a>
for overview of sequent
file <a href="screen">screen</a>
for is a virtual terminal manager for people with regular terminals (folks
, too poor to buy Sun's for every programmer). It lets you have multiple
, independant sessions, each on it's own full size screen. It's very
, useful, seemingly bug free, and we use it here quite a lot.
by Patrick Wolfe <pwolfe@KAI.COM> Nov 1987
file <a href="prolog">prolog</a>
for implements "standard" (Clocksin & Mellish) Prolog, including a
, compiler to translate prolog to Warren Abstract Machine (WAM)
, byte codes.
# To receive the files try: send prolog from sequent
by Bob Beck, Sequent 12/23/87
file <a href="team">team</a>
for was motivated by requests for single user mode privileges for
, benchmarking purposes. Its predecessor was a shell script from Southern
, Methodist University.
by Russell Ruby - russ@cs.orst.edu - February 1988 - Oregon State University
file <a href="schedule">schedule</a>
for The Schedule Package is an environment for the transportable
, implementation of parallel algorithms in a Fortran setting.
, By this we mean that a user's code is virtually identical for
, each machine. The Schedule Package has been designed to aid
, a programmer familiar with a Fortran programming environment
, to implement a parallel algorithm in a manner that will lend
, itself to transporting the resulting program across a wide
, variety of parallel machines. The package is designed to allow
, existing Fortran subroutines to be called through Schedule,
, without modification, thereby permitting users access to a wide
, body of existing library software in a parallel setting.
by Jack Dongarra and Dan Sorensen
, Mathematics and Computer Science Division
, Argonne National Laboratory
, June 1987
file <a href="parmacs">parmacs</a>
for This is an implementation of the shared-memory constructs from ANL
, Parmacs (Lusk, Overbeek, et.al.) in C++. It illustrates how C++ can
, be used to build parallel programming constructs, and numerous
, advantages over the ANL M4 implementation. These advantages include
, extensibility, strong type checking, ease of readability and use, and
, use of an object-oriented lanuage.
by Bob Beck, Sequent Computer Systems, 9/88
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