Modern Graphics Processing Units (GPUs) have been at the leading edge of increasing parallelism over the last ten years. This fact has encouraged the use of GPUs in a broader range of applications, where developers are required to lever age this technology with new programming models which ease the task of writing programs to run efficiently on GPUs. In this paper, we discuss the main guidelines to assist the developer when porting sequential scientific code on modern GPUs. These guidelines were carried out by porting the L-BFGS, the (Limited memory -) BFGS algorithm for large scale optimization, available as Harwell routine VA15. The specific interest in the L-BFGS algorithm arises from the fact that this is the computational module with t...
In this paper we investigate the use of distributed graphics processing unit (GPU)-based architectur...
This paper presents a novel optimizing compiler for general purpose computation on graphics processi...
Pipelined wavefront applications form a large portion of the high performance scientific computing w...
Modern Graphics Processing Units (GPUs) have been at the leading edge of increasing parallelism over...
In this document is described a L-BFGS subroutine for large-scale constrained optimization algorithm...
As the processing power available in computers grows, so do the applications for using that power fo...
The evolution of GPUs (graphics processing units) has been enormous in the past few years. Their cal...
Abstract — In many practical applications include image processing, space searching, network analysi...
The relentless demands for improvements in the compute throughput, and energy efficiency have driven...
In this paper we investigate the use of distributed graphics processing unit (GPU)-based architectur...
The future of computation is the GPU, i.e. the Graphical Processing Unit. The graphics cards have sh...
This paper presents a novel optimizing compiler for general purpose computation on graphics processi...
Graphical processing units (GPUs) have recently attracted attention for scientific applications such...
Abstract—Many general-purpose applications exploit Graphics Processing Units (GPUs) by executing a s...
Graphical Processing Unit (GPU) provides a significant amount of computation power that can be used ...
In this paper we investigate the use of distributed graphics processing unit (GPU)-based architectur...
This paper presents a novel optimizing compiler for general purpose computation on graphics processi...
Pipelined wavefront applications form a large portion of the high performance scientific computing w...
Modern Graphics Processing Units (GPUs) have been at the leading edge of increasing parallelism over...
In this document is described a L-BFGS subroutine for large-scale constrained optimization algorithm...
As the processing power available in computers grows, so do the applications for using that power fo...
The evolution of GPUs (graphics processing units) has been enormous in the past few years. Their cal...
Abstract — In many practical applications include image processing, space searching, network analysi...
The relentless demands for improvements in the compute throughput, and energy efficiency have driven...
In this paper we investigate the use of distributed graphics processing unit (GPU)-based architectur...
The future of computation is the GPU, i.e. the Graphical Processing Unit. The graphics cards have sh...
This paper presents a novel optimizing compiler for general purpose computation on graphics processi...
Graphical processing units (GPUs) have recently attracted attention for scientific applications such...
Abstract—Many general-purpose applications exploit Graphics Processing Units (GPUs) by executing a s...
Graphical Processing Unit (GPU) provides a significant amount of computation power that can be used ...
In this paper we investigate the use of distributed graphics processing unit (GPU)-based architectur...
This paper presents a novel optimizing compiler for general purpose computation on graphics processi...
Pipelined wavefront applications form a large portion of the high performance scientific computing w...