The increasing need in high energy physics experiments for computation power for both online and offline applications, coupled with the current microprocessor revolution, has led to the examination of the use of microprocessors in various aspects of HEP computing. A brief (and admittedly somewhat biased) review is given of current hardware products, the costs of developing and producing hardware systems, and the costs of providing appropriate software support tools which allow one to make effective use of physicists' time, and the applicability of certain systems to the various needs of HEP computing
This Conference focuses on the application of GPUs in High Energy Physics (HEP), expanding on the tr...
Computing plays an essential role in all aspects of high energy physics. As computational technology...
A desired trend within high energy physics is to increase particle accelerator luminosities, leading...
We describe the modern trends in computing technologies in the context of Experimental High Energy P...
One of the main challenges in Heavy Energy Physics is to make fast analysis of high amount of experi...
We describe a pilot project for the use of Graphics Processing Units (GPUs) for online triggering ap...
Publications in scholarly journals establish the body of knowledge deriving from scientific research...
As Moore's Law continues to deliver more and more transistors, the mainstream processor industry is ...
Abstract. We describe a pilot project (GAP- GPU Application Project) for the use of GPUs (Graphics p...
General-purpose computing on GPUs (Graphics Processing Units) is emerging as a new paradigm in sever...
This thesis describes the interest of using microprogrammable microprocessors for on-line triggering...
Abstract. An overview of the evolution of computing-oriented publications in high energy physics fol...
As researchers have reached the practical limits of processor performance improvements by frequency ...
Abstract High Energy Physics Experiments (HEP experiments in the following) have been at least in th...
Investigates the possibility of performing pattern recognition tasks by special purpose processors, ...
This Conference focuses on the application of GPUs in High Energy Physics (HEP), expanding on the tr...
Computing plays an essential role in all aspects of high energy physics. As computational technology...
A desired trend within high energy physics is to increase particle accelerator luminosities, leading...
We describe the modern trends in computing technologies in the context of Experimental High Energy P...
One of the main challenges in Heavy Energy Physics is to make fast analysis of high amount of experi...
We describe a pilot project for the use of Graphics Processing Units (GPUs) for online triggering ap...
Publications in scholarly journals establish the body of knowledge deriving from scientific research...
As Moore's Law continues to deliver more and more transistors, the mainstream processor industry is ...
Abstract. We describe a pilot project (GAP- GPU Application Project) for the use of GPUs (Graphics p...
General-purpose computing on GPUs (Graphics Processing Units) is emerging as a new paradigm in sever...
This thesis describes the interest of using microprogrammable microprocessors for on-line triggering...
Abstract. An overview of the evolution of computing-oriented publications in high energy physics fol...
As researchers have reached the practical limits of processor performance improvements by frequency ...
Abstract High Energy Physics Experiments (HEP experiments in the following) have been at least in th...
Investigates the possibility of performing pattern recognition tasks by special purpose processors, ...
This Conference focuses on the application of GPUs in High Energy Physics (HEP), expanding on the tr...
Computing plays an essential role in all aspects of high energy physics. As computational technology...
A desired trend within high energy physics is to increase particle accelerator luminosities, leading...