This paper demonstrates that it is possible to obtain good, scalable parallel performance by coordinating multiple instances of unaltered sequential computational algebra systems in order to deliver a single parallel system. The paper presents the first substantial parallel performance results for SymGrid-Par, a system that orchestrates computational algebra components into a high-performance parallel application. We show that SymGrid-Par is capable of exploiting different parallel/multicore architectures without any change to the computational algebra component. Ultimately, our intention is to extend our system so that it is capable of orchestrating heterogeneous computations across a high-performance computational grid
We describe the first ever parallelisation of an algebraic computation at modern HPC scale. Our cas...
. This paper describes the runtime kernel of Paclib, a new system for parallel algebraic computation...
Computational GRIDs potentially offer low-cost, readily available, and large-scale high-performance ...
This paper demonstrates that it is possible to obtain good, scalable parallel performance by coordi...
This paper describes a very high-level approach that aims to orchestrate sequential components writt...
The SymGrid-Par framework is being developed as part of the European FP6 SCIEnce project (I3-026133)...
We describe the first ever parallelisation of an algebraic computation at modern HPC scale. Our case...
Symbolic computation has underpinned a number of key advances in Mathematics and Computer Science. A...
Symbolic computation has underpinned a number of key advances in Mathematics and Computer Science. A...
The aim of this paper is to show how to parallelize a compute intensive application in mathematics (...
of some characteristics of softwares for parallel computer algebra. SBSH means Sugarbush. PCLBSTM m...
AbstractWe describe the design and use of Distributed Maple, an environment for executing parallel c...
Two approaches to architecture-independent parallel computation are investigated: a constructive fun...
In order to solve a problem in parallel we need to undertake the fundamental step of splitting the c...
Symbolic computation has underpinned a number of key advances in Mathematics and Computer Science. A...
We describe the first ever parallelisation of an algebraic computation at modern HPC scale. Our cas...
. This paper describes the runtime kernel of Paclib, a new system for parallel algebraic computation...
Computational GRIDs potentially offer low-cost, readily available, and large-scale high-performance ...
This paper demonstrates that it is possible to obtain good, scalable parallel performance by coordi...
This paper describes a very high-level approach that aims to orchestrate sequential components writt...
The SymGrid-Par framework is being developed as part of the European FP6 SCIEnce project (I3-026133)...
We describe the first ever parallelisation of an algebraic computation at modern HPC scale. Our case...
Symbolic computation has underpinned a number of key advances in Mathematics and Computer Science. A...
Symbolic computation has underpinned a number of key advances in Mathematics and Computer Science. A...
The aim of this paper is to show how to parallelize a compute intensive application in mathematics (...
of some characteristics of softwares for parallel computer algebra. SBSH means Sugarbush. PCLBSTM m...
AbstractWe describe the design and use of Distributed Maple, an environment for executing parallel c...
Two approaches to architecture-independent parallel computation are investigated: a constructive fun...
In order to solve a problem in parallel we need to undertake the fundamental step of splitting the c...
Symbolic computation has underpinned a number of key advances in Mathematics and Computer Science. A...
We describe the first ever parallelisation of an algebraic computation at modern HPC scale. Our cas...
. This paper describes the runtime kernel of Paclib, a new system for parallel algebraic computation...
Computational GRIDs potentially offer low-cost, readily available, and large-scale high-performance ...