Semiconductor technology is advancing at an amazing rate. The changes predicted for the coming 15 years will also have a profound impact on scientific computing. Two of the most important trends are a dramatically increased potential for parallel execution within a single chip, and a serious gap between the speed of memory and the processor. Future computer architectures will force the developers of scientific computing applications to address problems originating from fine grain parallelism and problems caused by the memory bottleneck
This work is an overview of state of the art processors used in High Energy Physics, their architect...
The current technology used to construct computer microprocessors is quickly reaching its limits. Th...
A vast array of new, highly parallel machines are opening up new opportunities for new applications ...
In order to understand the impact of computer technology in the 1980s one must first understand the ...
The past two decades have brought tremendous advances in computer systems. In the next 5-10 years we...
Advances in supercomputers have come at a steady pace over the past 20 years. The next milestone is ...
This paper will examine the current and near future trends for commercially available high-performan...
For more than a decade single compute core performance is no longer doubling every 18-24months. Phys...
Previous predictions about future of computers, such as Moore’s law are analyzed, at first. Then dev...
Developement of computer architecture is discussed in terms of the proliferation of the microprocess...
The increasing rate of growth both of science and technology in our era, renders the forecasts for t...
A rapid convergence of computer technologies from two historically disparate markets may dramaticall...
In order to understand the impact of computer technology in the 1980s one must first understand the...
The impact of the developments of modern digital computers is discussed, especially with respect to ...
Technology has a profound influence on computer science. In the past, technology has always been a c...
This work is an overview of state of the art processors used in High Energy Physics, their architect...
The current technology used to construct computer microprocessors is quickly reaching its limits. Th...
A vast array of new, highly parallel machines are opening up new opportunities for new applications ...
In order to understand the impact of computer technology in the 1980s one must first understand the ...
The past two decades have brought tremendous advances in computer systems. In the next 5-10 years we...
Advances in supercomputers have come at a steady pace over the past 20 years. The next milestone is ...
This paper will examine the current and near future trends for commercially available high-performan...
For more than a decade single compute core performance is no longer doubling every 18-24months. Phys...
Previous predictions about future of computers, such as Moore’s law are analyzed, at first. Then dev...
Developement of computer architecture is discussed in terms of the proliferation of the microprocess...
The increasing rate of growth both of science and technology in our era, renders the forecasts for t...
A rapid convergence of computer technologies from two historically disparate markets may dramaticall...
In order to understand the impact of computer technology in the 1980s one must first understand the...
The impact of the developments of modern digital computers is discussed, especially with respect to ...
Technology has a profound influence on computer science. In the past, technology has always been a c...
This work is an overview of state of the art processors used in High Energy Physics, their architect...
The current technology used to construct computer microprocessors is quickly reaching its limits. Th...
A vast array of new, highly parallel machines are opening up new opportunities for new applications ...