The GRAPE-4, the world's fastest computer in 1995-1997, has produced some major scientific results, through a wide diversity of large-scale simulations in astrophysics. Applications have ranged from planetary formation, through the evolution of star clusters and galactic nuclei, to the formation of galaxies and clusters of galaxies
We present Sapporo, a library for performing high precision gravitational N-body simulations on NVID...
Direct-summation N-body algorithms compute the gravitational interaction between stars in an exact w...
The applications of computers and data processing to astronomy are discussed. Among the topics cover...
Recently, special-purpose computers have surpassed general-purpose computers in the speed with which...
AbstractWe overview our GRAvity PipE (GRAPE) project to develop special-purpose computers for astrop...
We briefly describe the past, the present and the future of the GRAPE project. GRAPE is specialized ...
I review the Marseille GRAPE systems and the N-body simulations done with them. I first describe bri...
We report on resent N-body simulations of galaxy formation performed on the GRAPE-4 (GRAvity PipE) s...
We have developed PROGRAPE-1 (PROgrammable GRAPE-1), a programmable multi-purpose computer for many-...
We have developed Remote-GRAPE, a subroutine library to use the special purpose computer GRAPE-3A. T...
A combined N-body/hydrodynamical code is presented. Hydrodynamical properties are determined using s...
We present the outline of a research project aimed at designing and constructing a hybrid computing ...
We present the results of gravitational direct $N$-body simulations using the commercial graphics pr...
Most recent progress in understanding the dynamical evolution of star clusters relies on direct N-bo...
Astronomy is an area of applied physics in which unusually beautiful objects challenge the imaginati...
We present Sapporo, a library for performing high precision gravitational N-body simulations on NVID...
Direct-summation N-body algorithms compute the gravitational interaction between stars in an exact w...
The applications of computers and data processing to astronomy are discussed. Among the topics cover...
Recently, special-purpose computers have surpassed general-purpose computers in the speed with which...
AbstractWe overview our GRAvity PipE (GRAPE) project to develop special-purpose computers for astrop...
We briefly describe the past, the present and the future of the GRAPE project. GRAPE is specialized ...
I review the Marseille GRAPE systems and the N-body simulations done with them. I first describe bri...
We report on resent N-body simulations of galaxy formation performed on the GRAPE-4 (GRAvity PipE) s...
We have developed PROGRAPE-1 (PROgrammable GRAPE-1), a programmable multi-purpose computer for many-...
We have developed Remote-GRAPE, a subroutine library to use the special purpose computer GRAPE-3A. T...
A combined N-body/hydrodynamical code is presented. Hydrodynamical properties are determined using s...
We present the outline of a research project aimed at designing and constructing a hybrid computing ...
We present the results of gravitational direct $N$-body simulations using the commercial graphics pr...
Most recent progress in understanding the dynamical evolution of star clusters relies on direct N-bo...
Astronomy is an area of applied physics in which unusually beautiful objects challenge the imaginati...
We present Sapporo, a library for performing high precision gravitational N-body simulations on NVID...
Direct-summation N-body algorithms compute the gravitational interaction between stars in an exact w...
The applications of computers and data processing to astronomy are discussed. Among the topics cover...
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