Current supercomputer development trends present severe challenges for scientific codebases. Moore’s law continues to hold, however, power constraints have brought an end to Dennard scaling, forcing significant increases in overall concurrency. The performance imbalance between the processor and memory sub-systems is also increasing and architectures are becoming significantly more complex. Scientific computing centres need to harness more computational resources in order to facilitate new scientific insights and maintaining their codebases requires significant investments. Centres therefore have to decide how best to develop their applications to take advantage of future architectures. To prevent vendor "lock-in" and maximise investments, ...
This paper reports on the development of an MPI/OpenCL implementation of LU, an application-level be...
In this paper we present research on applying a domain specific high-level abstractions (HLA) develo...
In the last decades, high-performance large-scale systems have been a fundamental tool for scientifi...
Significantly increasing intra-node parallelism is widely recognised as being a key prerequisite for...
Portability, an oftentimes sought-after goal in scientific applications, confers a number of possibl...
International audienceComputing hardware, from mobile devices to supercomputer clusters, is undergoi...
High Performance Computing (HPC) aims at providing reasonably fast computing solutions to both scien...
High performance computing is approaching a potentially significant change in architectural design. ...
The computational resources required in scientific research for key areas, such as medicine, physics...
The gap between a supercomputer's theoretical maximum (\peak") oatingpoint performance and that a...
The amelioration of high performance computing platforms has provided unprecedented computing power ...
For more than a decade single compute core performance is no longer doubling every 18-24months. Phys...
Abstract: Present trends in high performance computing present formidable challenges for application...
Hardware accelerators such as GPGPUs are becoming increasingly common in HPC platforms and their use...
This paper investigates the development of a molecular dynamics code that is highly portable between...
This paper reports on the development of an MPI/OpenCL implementation of LU, an application-level be...
In this paper we present research on applying a domain specific high-level abstractions (HLA) develo...
In the last decades, high-performance large-scale systems have been a fundamental tool for scientifi...
Significantly increasing intra-node parallelism is widely recognised as being a key prerequisite for...
Portability, an oftentimes sought-after goal in scientific applications, confers a number of possibl...
International audienceComputing hardware, from mobile devices to supercomputer clusters, is undergoi...
High Performance Computing (HPC) aims at providing reasonably fast computing solutions to both scien...
High performance computing is approaching a potentially significant change in architectural design. ...
The computational resources required in scientific research for key areas, such as medicine, physics...
The gap between a supercomputer's theoretical maximum (\peak") oatingpoint performance and that a...
The amelioration of high performance computing platforms has provided unprecedented computing power ...
For more than a decade single compute core performance is no longer doubling every 18-24months. Phys...
Abstract: Present trends in high performance computing present formidable challenges for application...
Hardware accelerators such as GPGPUs are becoming increasingly common in HPC platforms and their use...
This paper investigates the development of a molecular dynamics code that is highly portable between...
This paper reports on the development of an MPI/OpenCL implementation of LU, an application-level be...
In this paper we present research on applying a domain specific high-level abstractions (HLA) develo...
In the last decades, high-performance large-scale systems have been a fundamental tool for scientifi...