We ported the computer algebra system Maple V to the Intel Paragon, a massively parallel, distributed memory machine. In order to take advantage of the parallel architecture, we extended the Maple kernel with a set of message passing primitives based on the Paragon's native message passing library. Using these primitives, we implemented a parallel version of Karatsuba multiplication for univariate polynomials over Z p . Our speedup timings illustrate the practicability of our approach. On top of the message passing primitives we have implemented a higher level model of parallel processing based on the manager-worker scheme; a Maple application on one node of the parallel machine submits jobs to Maple processes residing on different nod...
This paper considers parallel Gröbner bases al-gorithms on distributed memory parallel comput-ers w...
textThe Galois system provides a solution to the hard problem of parallelizing irregular algorithms ...
This report gives an overview of the usage of the massively parallel computer Intel Paragon XP/S-10 ...
We ported the computer algebra system Maple V to the Intel Paragon a massively parallel distribute...
AbstractWe describe the design and use of Distributed Maple, an environment for executing parallel c...
We review a decade\u27s work on message passing MIMD parallel computers in the areas of hardware, so...
AbstractWe present three parallel implementations of the Karatsuba algorithm for long integer multip...
The Maple computer algebra system is described. Brief sample sessions show the user syntax and the m...
This paper describes parallel matrix transpose algorithms on distributed memory concurrent processor...
Programming distributed memory systems forces the user to handle the problem of data locality. With ...
Distributed-memory multiprocessing systems (DMS), such as Intel’s hypercubes, the Paragon, Thinking ...
International audienceIn this paper, we focus on a distributed and parallel programming paradigm for...
Matrix multiplication is one of the important operations in scientific and engineering application. ...
of some characteristics of softwares for parallel computer algebra. SBSH means Sugarbush. PCLBSTM m...
AbstractWe present a parallel method for matrix multiplication on distributed-memory MIMD architectu...
This paper considers parallel Gröbner bases al-gorithms on distributed memory parallel comput-ers w...
textThe Galois system provides a solution to the hard problem of parallelizing irregular algorithms ...
This report gives an overview of the usage of the massively parallel computer Intel Paragon XP/S-10 ...
We ported the computer algebra system Maple V to the Intel Paragon a massively parallel distribute...
AbstractWe describe the design and use of Distributed Maple, an environment for executing parallel c...
We review a decade\u27s work on message passing MIMD parallel computers in the areas of hardware, so...
AbstractWe present three parallel implementations of the Karatsuba algorithm for long integer multip...
The Maple computer algebra system is described. Brief sample sessions show the user syntax and the m...
This paper describes parallel matrix transpose algorithms on distributed memory concurrent processor...
Programming distributed memory systems forces the user to handle the problem of data locality. With ...
Distributed-memory multiprocessing systems (DMS), such as Intel’s hypercubes, the Paragon, Thinking ...
International audienceIn this paper, we focus on a distributed and parallel programming paradigm for...
Matrix multiplication is one of the important operations in scientific and engineering application. ...
of some characteristics of softwares for parallel computer algebra. SBSH means Sugarbush. PCLBSTM m...
AbstractWe present a parallel method for matrix multiplication on distributed-memory MIMD architectu...
This paper considers parallel Gröbner bases al-gorithms on distributed memory parallel comput-ers w...
textThe Galois system provides a solution to the hard problem of parallelizing irregular algorithms ...
This report gives an overview of the usage of the massively parallel computer Intel Paragon XP/S-10 ...