An improved implementation of an N-body code for simulating collisionless cosmological dynamics is presented. TPM (Tree-Particle-Mesh) combines the PM method on large scales with a tree code to handle particle-particle interactions at small separations. After the global PM forces are calculated, spatially distinct regions above a given density contrast are located; the tree code calculates the gravitational interactions inside these denser objects at higher spatial and temporal resolution. The new implementation includes individual particle time steps within trees, an improved treatment of tidal forces on trees, new criteria for higher force resolution and choice of time step, and parallel treatment of large trees. TPM is compared to P^3M a...
We describe a new implementation of a parallel N-body tree code. The code is load-balanced using the...
We present preliminary results on the parallelization of a Tree-Code for evaluating gravitational fo...
We describe in this paper an algorithm for solving the gravitational N-body problem using tree data ...
We describe a hybrid technique for carrying out large N-Body simulations to study formation and evol...
We discuss the cosmological simulation code GADGET-2, a new massively parallel TreeSPH code, capable...
We describe a parallel, cosmological N-body code based on a hybrid scheme using the particle-mesh (P...
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...
We have developed a new parallel tree method which will be called the forest method hereafter. This ...
Abstract We discuss the performance characteristics of using the modification of the tree code sugge...
We report on improvements made over the past two decades to our adaptive treecode N-body method (HOT...
We present a detailed analysis of the error budget for the TreePM method for doing cosmological N-Bo...
We report on improvements made over the past two decades to our adaptive treecode N-body method (HOT...
We present a tree-code for integrating the equations of the motion of collisionless systems, which h...
We present Particle-Particle-Particle-Mesh (PPPM) and Tree Particle-Mesh (TreePM) implementations on...
We describe a new implementation of a parallel N-body tree code. The code is load-balanced using the...
We present preliminary results on the parallelization of a Tree-Code for evaluating gravitational fo...
We describe in this paper an algorithm for solving the gravitational N-body problem using tree data ...
We describe a hybrid technique for carrying out large N-Body simulations to study formation and evol...
We discuss the cosmological simulation code GADGET-2, a new massively parallel TreeSPH code, capable...
We describe a parallel, cosmological N-body code based on a hybrid scheme using the particle-mesh (P...
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...
We have developed a new parallel tree method which will be called the forest method hereafter. This ...
Abstract We discuss the performance characteristics of using the modification of the tree code sugge...
We report on improvements made over the past two decades to our adaptive treecode N-body method (HOT...
We present a detailed analysis of the error budget for the TreePM method for doing cosmological N-Bo...
We report on improvements made over the past two decades to our adaptive treecode N-body method (HOT...
We present a tree-code for integrating the equations of the motion of collisionless systems, which h...
We present Particle-Particle-Particle-Mesh (PPPM) and Tree Particle-Mesh (TreePM) implementations on...
We describe a new implementation of a parallel N-body tree code. The code is load-balanced using the...
We present preliminary results on the parallelization of a Tree-Code for evaluating gravitational fo...
We describe in this paper an algorithm for solving the gravitational N-body problem using tree data ...