Add to ORKGRecently, special-purpose computers have surpassed general-purpose computers in the speed with which large-scale stellar dynamics simulations can be performed. Speeds up to a Teraflops are now available, for simulations in a variety of fields, such as planetary formation, star cluster dynamics, galactic nuclei, galaxy interactions, galaxy formation, large scale structure, and gravitational lensing. Future speed increases for special-purpose computers will be even more dramatic: a Petaflops version, tentatively named the GRAPE-6, could be built within a few years, whereas general-purpose computers are expected to reach this speed somewhere in the 2010-2015 time frame. Boards with a handful of chips from such a machine could be made available...
The compute performance, storage capability, degree of networking, and usability of modern computer ...
Astronomy depends on ever-increasing computing power. Processor clock rates have plateaued, and incr...
Abstract—Special-purpose computing hardware can provide significantly better performance and power e...
The GRAPE-4, the world's fastest computer in 1995-1997, has produced some major scientific results, ...
AbstractWe overview our GRAvity PipE (GRAPE) project to develop special-purpose computers for astrop...
We present the outline of a research project aimed at designing and constructing a hybrid computing ...
We report on resent N-body simulations of galaxy formation performed on the GRAPE-4 (GRAvity PipE) s...
I review the Marseille GRAPE systems and the N-body simulations done with them. I first describe bri...
We have developed PROGRAPE-1 (PROgrammable GRAPE-1), a programmable multi-purpose computer for many-...
The applications of computers and data processing to astronomy are discussed. Among the topics cover...
Astronomers have come to rely on the increasing performance of computers to reduce, analyze, simulat...
Most recent progress in understanding the dynamical evolution of star clusters relies on direct N-bo...
We present the results of gravitational direct $N$-body simulations using the commercial graphics pr...
We present Sapporo, a library for performing high precision gravitational N-body simulations on NVID...
Although the challenges to achieving petascale computing within the next decade are daunting, severa...
The compute performance, storage capability, degree of networking, and usability of modern computer ...
Astronomy depends on ever-increasing computing power. Processor clock rates have plateaued, and incr...
Abstract—Special-purpose computing hardware can provide significantly better performance and power e...
The GRAPE-4, the world's fastest computer in 1995-1997, has produced some major scientific results, ...
AbstractWe overview our GRAvity PipE (GRAPE) project to develop special-purpose computers for astrop...
We present the outline of a research project aimed at designing and constructing a hybrid computing ...
We report on resent N-body simulations of galaxy formation performed on the GRAPE-4 (GRAvity PipE) s...
I review the Marseille GRAPE systems and the N-body simulations done with them. I first describe bri...
We have developed PROGRAPE-1 (PROgrammable GRAPE-1), a programmable multi-purpose computer for many-...
The applications of computers and data processing to astronomy are discussed. Among the topics cover...
Astronomers have come to rely on the increasing performance of computers to reduce, analyze, simulat...
Most recent progress in understanding the dynamical evolution of star clusters relies on direct N-bo...
We present the results of gravitational direct $N$-body simulations using the commercial graphics pr...
We present Sapporo, a library for performing high precision gravitational N-body simulations on NVID...
Although the challenges to achieving petascale computing within the next decade are daunting, severa...
The compute performance, storage capability, degree of networking, and usability of modern computer ...
Astronomy depends on ever-increasing computing power. Processor clock rates have plateaued, and incr...
Abstract—Special-purpose computing hardware can provide significantly better performance and power e...