Symbolic computation has underpinned a number of key advances in Mathematics and Computer Science. Applications are typically large and potentially highly parallel, making them good candidates for parallel execution at a variety of scales from multi-core to high-performance computing systems. However, much existing work on parallel computing is based around numeric rather than symbolic computations. In particular, symbolic computing presents particular problems in terms of varying granularity and irregular task sizes that do not match conventional approaches to parallelisation. It also presents problems in terms of the structure of the algorithms and data. This paper describes a new implementation of the free open-source GAP computational a...
Orbit enumerations represent an important class of mathematical algorithms which is widely used in c...
This paper demonstrates that it is possible to obtain good, scalable parallel performance by coordin...
The SymGrid-Par framework is being developed as part of the European FP6 SCIEnce project (I3-026133)...
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. ...
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...
This paper demonstrates that it is possible to obtain good, scalable parallel performance by coordi...
We describe the first ever parallelisation of an algebraic computation at modern HPC scale. Our case...
We describe the first ever parallelisation of an algebraic computation at modern HPC scale. Our case...
Orbit enumerations represent an important class of mathematical algorithms which is widely used in c...
This paper describes a very high-level approach that aims to orchestrate sequential components writt...
As miniaturization of computer components is approaching the limits of physics, researchers in compu...
The objective of high performance computing (HPC) is to ensure that the computational power of hardw...
International audienceWe propose a new algorithm for multiplying dense polynomials with integer coef...
Orbit enumerations represent an important class of mathematical algorithms which is widely used in c...
This paper demonstrates that it is possible to obtain good, scalable parallel performance by coordin...
The SymGrid-Par framework is being developed as part of the European FP6 SCIEnce project (I3-026133)...
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. ...
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...
This paper demonstrates that it is possible to obtain good, scalable parallel performance by coordi...
We describe the first ever parallelisation of an algebraic computation at modern HPC scale. Our case...
We describe the first ever parallelisation of an algebraic computation at modern HPC scale. Our case...
Orbit enumerations represent an important class of mathematical algorithms which is widely used in c...
This paper describes a very high-level approach that aims to orchestrate sequential components writt...
As miniaturization of computer components is approaching the limits of physics, researchers in compu...
The objective of high performance computing (HPC) is to ensure that the computational power of hardw...
International audienceWe propose a new algorithm for multiplying dense polynomials with integer coef...
Orbit enumerations represent an important class of mathematical algorithms which is widely used in c...
This paper demonstrates that it is possible to obtain good, scalable parallel performance by coordin...
The SymGrid-Par framework is being developed as part of the European FP6 SCIEnce project (I3-026133)...