Advances in our ability to build parallel computers have continued unabated over the past decade. Large parallel machines have been deployed, including a 3,000 processor machine available to the academic community, as well as a 30,000 processor system at DOE. One of the planned machines (IBM’s Blue Light) for the near future includes over 65 thousand processors. At the same time
Highly parallel computing architectures are the only means to achieve the computation rates demanded...
Recent years have witnessed the emergence of a huge number of parallel computer architectures. Almos...
For more than a decade single compute core performance is no longer doubling every 18-24months. Phys...
The Top 500 web page tracks the evolution of supercomputing worldwide. It has a database of the 500 ...
It is anticipated that the needs of scientific computation will dramatically outpace the performance...
Ever since computers were first used for scientific and numerical work, there has existed an "arms r...
At the International Research Workshop on Advanced High Performance Computing Systems held in Cetrar...
We use two large simulations, the chemical reaction dynamics of H + H2 and the collision of two gala...
Computers will soon reach exascale performance, i.e. the capability to perform more than 10^18 FLOPS...
What does Google's management of billions of Web pages have in common with analysis of a genome with...
The evolution of parallel processing over the past several decades can be viewed as the development ...
A vast array of new, highly parallel machines are opening up new opportunities for new applications ...
Unlike traditional 'serial' processing computers in which one central processing unit performs one i...
Since the mid-1980's, there have been a number of commercially available parallel computers with hun...
For three years, members of the Computer Science Department at the University of Rochester have used...
Highly parallel computing architectures are the only means to achieve the computation rates demanded...
Recent years have witnessed the emergence of a huge number of parallel computer architectures. Almos...
For more than a decade single compute core performance is no longer doubling every 18-24months. Phys...
The Top 500 web page tracks the evolution of supercomputing worldwide. It has a database of the 500 ...
It is anticipated that the needs of scientific computation will dramatically outpace the performance...
Ever since computers were first used for scientific and numerical work, there has existed an "arms r...
At the International Research Workshop on Advanced High Performance Computing Systems held in Cetrar...
We use two large simulations, the chemical reaction dynamics of H + H2 and the collision of two gala...
Computers will soon reach exascale performance, i.e. the capability to perform more than 10^18 FLOPS...
What does Google's management of billions of Web pages have in common with analysis of a genome with...
The evolution of parallel processing over the past several decades can be viewed as the development ...
A vast array of new, highly parallel machines are opening up new opportunities for new applications ...
Unlike traditional 'serial' processing computers in which one central processing unit performs one i...
Since the mid-1980's, there have been a number of commercially available parallel computers with hun...
For three years, members of the Computer Science Department at the University of Rochester have used...
Highly parallel computing architectures are the only means to achieve the computation rates demanded...
Recent years have witnessed the emergence of a huge number of parallel computer architectures. Almos...
For more than a decade single compute core performance is no longer doubling every 18-24months. Phys...