The evolution from single core CPUs to heterogeneous computing. Activities in SINTEF ICT related to heterogeneous computing within:Geometry processingLinear algebraPartial differential equationsVisualizationImage processingGPU-multicore programmin
Heterogeneous computer systems are ubiquitous in all areas of computing, from mobile to high-perfor...
Application programming for modern heterogeneous systems which comprise multiple accelerators (multi...
While general-purpose homogeneous multi-core architectures are becoming ubiquitous, there are clear ...
The evolution from single core CPUs to heterogeneous computing. Activities in SINTEF ICT relate...
During the first decade of the twenty-first century, the advent of multicore processing reached its ...
As parallel computing resources have been too expensive for most of the CAGD community, efficient im...
Application programming for modern heterogeneous systems which comprise multi-core CPUs and multiple...
A trend that has materialized, and has given rise to much atten-tion, is of the increasingly heterog...
The evolution of GPUs (graphics processing units) has been enormous in the past few years. Their cal...
Map-Reduce is a framework for processing parallelizable problem across huge datasets using a large c...
The Graphics Processing Unit (GPU) is present in almost every modern day personal computer. Despite...
A recent trend in modern high-performance computing environments is the introduction of powerful, en...
Graphic processors are becoming faster and faster. Computational power within graphic processing uni...
Thanks to the nature of the graphics processing, the newly released products offer highly parallel p...
Over the past years, GPUs became ubiquitous in HPC installations around the world. Today, they provi...
Heterogeneous computer systems are ubiquitous in all areas of computing, from mobile to high-perfor...
Application programming for modern heterogeneous systems which comprise multiple accelerators (multi...
While general-purpose homogeneous multi-core architectures are becoming ubiquitous, there are clear ...
The evolution from single core CPUs to heterogeneous computing. Activities in SINTEF ICT relate...
During the first decade of the twenty-first century, the advent of multicore processing reached its ...
As parallel computing resources have been too expensive for most of the CAGD community, efficient im...
Application programming for modern heterogeneous systems which comprise multi-core CPUs and multiple...
A trend that has materialized, and has given rise to much atten-tion, is of the increasingly heterog...
The evolution of GPUs (graphics processing units) has been enormous in the past few years. Their cal...
Map-Reduce is a framework for processing parallelizable problem across huge datasets using a large c...
The Graphics Processing Unit (GPU) is present in almost every modern day personal computer. Despite...
A recent trend in modern high-performance computing environments is the introduction of powerful, en...
Graphic processors are becoming faster and faster. Computational power within graphic processing uni...
Thanks to the nature of the graphics processing, the newly released products offer highly parallel p...
Over the past years, GPUs became ubiquitous in HPC installations around the world. Today, they provi...
Heterogeneous computer systems are ubiquitous in all areas of computing, from mobile to high-perfor...
Application programming for modern heterogeneous systems which comprise multiple accelerators (multi...
While general-purpose homogeneous multi-core architectures are becoming ubiquitous, there are clear ...