Computation of intensive interactive software applications on R&D desktops require a versatile hardware and software high-performance environment. Present-day solutions focus on one technology, e.g. GPUs, grids, multi-cores, clusters, … To leverage the power of different technologies, a hybrid solution is presented, combining the power of General-Purpose Graphical Processing units (GPGPUs) and Field Programmable Gate Arrays (FPGAs
Reconfigurable computing platforms are emerging as the most promising architectures to design genera...
There is a growing trend to use coprocessors to offload and accelerate domain-specific applications ...
High Performance Computing (HPC) platforms allow scientists to model computationally intensive algor...
Computation of intensive interactive software applications on R&D desktops require a versatile hardw...
This contribution presents the performance modeling of a super desktop with GPU and FPGA accelerator...
Low-power, high-performance computing nowadays relies on accelerator cards to speed up the calculati...
Nowadays, processors alone cannot deliver what computation hungry image processing applications dema...
The performance and the versatility of today's PCs exceeds many times the power of the fastest numbe...
En plus des cœurs de CPU traditionnels, d'autres unités de traitementsont utilisées par la communaut...
The role of heterogeneous multi-core architectures in the industrial and scientific computing commun...
With the recent development of high-performance graphical processing units (GPUs), capable of perfor...
After more than 30 years, reconfigurable computing has grown from a concept to a mature field of scien...
The nature of modern astronomy means that a number of interesting problems exhibit a substantial com...
As more and more powerful integrated circuits are appearing on the market, more and more application...
Embedded high performance computing applications, like for example image processing in surveillance ...
Reconfigurable computing platforms are emerging as the most promising architectures to design genera...
There is a growing trend to use coprocessors to offload and accelerate domain-specific applications ...
High Performance Computing (HPC) platforms allow scientists to model computationally intensive algor...
Computation of intensive interactive software applications on R&D desktops require a versatile hardw...
This contribution presents the performance modeling of a super desktop with GPU and FPGA accelerator...
Low-power, high-performance computing nowadays relies on accelerator cards to speed up the calculati...
Nowadays, processors alone cannot deliver what computation hungry image processing applications dema...
The performance and the versatility of today's PCs exceeds many times the power of the fastest numbe...
En plus des cœurs de CPU traditionnels, d'autres unités de traitementsont utilisées par la communaut...
The role of heterogeneous multi-core architectures in the industrial and scientific computing commun...
With the recent development of high-performance graphical processing units (GPUs), capable of perfor...
After more than 30 years, reconfigurable computing has grown from a concept to a mature field of scien...
The nature of modern astronomy means that a number of interesting problems exhibit a substantial com...
As more and more powerful integrated circuits are appearing on the market, more and more application...
Embedded high performance computing applications, like for example image processing in surveillance ...
Reconfigurable computing platforms are emerging as the most promising architectures to design genera...
There is a growing trend to use coprocessors to offload and accelerate domain-specific applications ...
High Performance Computing (HPC) platforms allow scientists to model computationally intensive algor...