We present the outline of a research project aimed at designing and constructing a hybrid computing system that can be easily scaled up to petaflops speeds. As a first step, we envision building a prototype which will consist of three main components: a general-purpose, programmable front end, a special-purpose, fully hardwired computing engine, and a multi-purpose, reconfigurable system. The driving application will be a suite of particle-based large-scale simulations in various areas of physics. The prototype system will achieve performance in the $\sim 50 - 100$ teraflops range for a broad class of applications in this area. The combination of a hardwired petaflops-class computational engine and a front end with sustained speed on the or...
The countries of the world are already competing for Exascale and the first exaflopics supercomputer...
We present Sapporo, a library for performing high precision gravitational N-body simulations on NVID...
This paper presents some recent efforts carried out on the expansion of the scalability of TermoFlui...
Recently, special-purpose computers have surpassed general-purpose computers in the speed with which...
Although the challenges to achieving petascale computing within the next decade are daunting, severa...
AbstractWe overview our GRAvity PipE (GRAPE) project to develop special-purpose computers for astrop...
The GRAPE-4, the world's fastest computer in 1995-1997, has produced some major scientific results, ...
This talk considers the problem of defining success criteria for petaflop computers. Current expecta...
Teraflops-scale computing systems are becoming available to an increasingly broad range of users as ...
Scientific applications in nanoscience, combustion modeling, fusion energy simulations, climate mode...
This paper describes an ongoing project whose goal is to significantly improve the performance and a...
We have developed PROGRAPE-1 (PROgrammable GRAPE-1), a programmable multi-purpose computer for many-...
In this chapter we will argue that studying such multi-scale multi-science systems gives rise to inh...
UnrestrictedWith recent technological advances, it has become possible to use reconfigurable hardwar...
After a decade where HEC (high-end computing) capability was dominated by the rapid pace of improvem...
The countries of the world are already competing for Exascale and the first exaflopics supercomputer...
We present Sapporo, a library for performing high precision gravitational N-body simulations on NVID...
This paper presents some recent efforts carried out on the expansion of the scalability of TermoFlui...
Recently, special-purpose computers have surpassed general-purpose computers in the speed with which...
Although the challenges to achieving petascale computing within the next decade are daunting, severa...
AbstractWe overview our GRAvity PipE (GRAPE) project to develop special-purpose computers for astrop...
The GRAPE-4, the world's fastest computer in 1995-1997, has produced some major scientific results, ...
This talk considers the problem of defining success criteria for petaflop computers. Current expecta...
Teraflops-scale computing systems are becoming available to an increasingly broad range of users as ...
Scientific applications in nanoscience, combustion modeling, fusion energy simulations, climate mode...
This paper describes an ongoing project whose goal is to significantly improve the performance and a...
We have developed PROGRAPE-1 (PROgrammable GRAPE-1), a programmable multi-purpose computer for many-...
In this chapter we will argue that studying such multi-scale multi-science systems gives rise to inh...
UnrestrictedWith recent technological advances, it has become possible to use reconfigurable hardwar...
After a decade where HEC (high-end computing) capability was dominated by the rapid pace of improvem...
The countries of the world are already competing for Exascale and the first exaflopics supercomputer...
We present Sapporo, a library for performing high precision gravitational N-body simulations on NVID...
This paper presents some recent efforts carried out on the expansion of the scalability of TermoFlui...