We present a tree-code for integrating the equations of the motion of collisionless systems, which has been fully parallelized and adapted to run in several PC-based processors simultaneously, using the well-known PVM message passing library software. SPH algorithms, not yet included, may be easily incorporated to the code. The code is written in ANSI C; it can be freely downloaded from a public ftp site. Simulations of collisions of galaxies are presented, with which the performance of the code is tested.Facultad de Ciencias Astronómicas y Geofísica
We discuss the performance of direct summation codes used in the simulation of astrophysical stellar...
We present a performance analysis of different parallelization schemes for direct codes used in the ...
The efficient parallelization of fast multipole-based algorithms for the N-body problem is one of th...
We present a tree-code for integrating the equations of the motion of collisionless systems, which h...
We present a tree–code for integrating the equations of the motion of collisionless systems, which ...
Abstract. We present a tree{code for integrating the equations of the motion of collisionless system...
I describe here the performances of a parallel treecode with individual particle timesteps. The code...
We describe PTreeSPH, a gravity treecode combined with an SPH hydrodynamics code designed for massiv...
I describe here the performance of a parallel treecode with individual particle timesteps. The code ...
We describe a new implementation of a parallel N-body tree code. The code is load-balanced using the...
An improved implementation of an N-body code for simulating collisionless cosmological dynamics is p...
We describe a parallel version of our tree-code for the simulation of self-gravitating systems in As...
We present preliminary results on the parallelization of a Tree-Code for evaluating gravitational fo...
We describe a parallel version of our tree-code for the simulation of self-gravitating systems in As...
We describe our implementation of the parallel hashed oct-tree (HOT) code, and in particular its app...
We discuss the performance of direct summation codes used in the simulation of astrophysical stellar...
We present a performance analysis of different parallelization schemes for direct codes used in the ...
The efficient parallelization of fast multipole-based algorithms for the N-body problem is one of th...
We present a tree-code for integrating the equations of the motion of collisionless systems, which h...
We present a tree–code for integrating the equations of the motion of collisionless systems, which ...
Abstract. We present a tree{code for integrating the equations of the motion of collisionless system...
I describe here the performances of a parallel treecode with individual particle timesteps. The code...
We describe PTreeSPH, a gravity treecode combined with an SPH hydrodynamics code designed for massiv...
I describe here the performance of a parallel treecode with individual particle timesteps. The code ...
We describe a new implementation of a parallel N-body tree code. The code is load-balanced using the...
An improved implementation of an N-body code for simulating collisionless cosmological dynamics is p...
We describe a parallel version of our tree-code for the simulation of self-gravitating systems in As...
We present preliminary results on the parallelization of a Tree-Code for evaluating gravitational fo...
We describe a parallel version of our tree-code for the simulation of self-gravitating systems in As...
We describe our implementation of the parallel hashed oct-tree (HOT) code, and in particular its app...
We discuss the performance of direct summation codes used in the simulation of astrophysical stellar...
We present a performance analysis of different parallelization schemes for direct codes used in the ...
The efficient parallelization of fast multipole-based algorithms for the N-body problem is one of th...