Hardware accelerators such as GPGPUs are becoming increasingly common in HPC platforms and their use is widely recognised as being one of the most promising approaches for reaching exascale levels of performance. Large HPC centres, such as AWE, have made huge investments in maintaining their existing scientific software codebases, the vast majority of which were not designed to effectively utilise accelerator devices. Consequently, HPC centres will have to decide how to develop their existing applications to take best advantage of future HPC system architectures. Given limited development and financial resources, it is unlikely that all potential approaches will be evaluated for each application. We are interested in how this decision makin...
Design optimization relies heavily on time-consuming simulations, especially when using gradient-fre...
Graphics Processing Units (GPU) have been widely adopted to accelerate the execution of HPC workload...
The next-generation of supercomputers will feature a diverse mix of accelerator devices. The increas...
Significantly increasing intra-node parallelism is widely recognised as being a key prerequisite for...
Rapidly changing heterogeneous supercomputer architectures pose a great challenge to many scientific...
In this paper we present research on applying a domain specific high-level abstractions (HLA) develo...
In recent years, GPU computing has been very popular for scientific applications, especially after t...
Many scientific software applications, that solve complex compute-or data-intensive problems, such a...
Power constraints are forcing HPC systems to continue to increase hardware concurrency. Efficiently ...
Abstract—In this work we directly evaluate five candi-date programming models for future exascale ap...
Nowadays new exciting scientific discoveries are mainly driven by large challenging simulations. A...
Current supercomputer development trends present severe challenges for scientific codebases. Moore’s...
As hydrological data becomes more in-depth and is measured at higher resolutions, the need for a fas...
An increasing number of massively-parallel supercomputers are based on heterogeneous node architectu...
The present panorama of HPC architectures is extremely heterogeneous, ranging from traditional multi...
Design optimization relies heavily on time-consuming simulations, especially when using gradient-fre...
Graphics Processing Units (GPU) have been widely adopted to accelerate the execution of HPC workload...
The next-generation of supercomputers will feature a diverse mix of accelerator devices. The increas...
Significantly increasing intra-node parallelism is widely recognised as being a key prerequisite for...
Rapidly changing heterogeneous supercomputer architectures pose a great challenge to many scientific...
In this paper we present research on applying a domain specific high-level abstractions (HLA) develo...
In recent years, GPU computing has been very popular for scientific applications, especially after t...
Many scientific software applications, that solve complex compute-or data-intensive problems, such a...
Power constraints are forcing HPC systems to continue to increase hardware concurrency. Efficiently ...
Abstract—In this work we directly evaluate five candi-date programming models for future exascale ap...
Nowadays new exciting scientific discoveries are mainly driven by large challenging simulations. A...
Current supercomputer development trends present severe challenges for scientific codebases. Moore’s...
As hydrological data becomes more in-depth and is measured at higher resolutions, the need for a fas...
An increasing number of massively-parallel supercomputers are based on heterogeneous node architectu...
The present panorama of HPC architectures is extremely heterogeneous, ranging from traditional multi...
Design optimization relies heavily on time-consuming simulations, especially when using gradient-fre...
Graphics Processing Units (GPU) have been widely adopted to accelerate the execution of HPC workload...
The next-generation of supercomputers will feature a diverse mix of accelerator devices. The increas...