This work presents the newly developed three-dimensional parallel hydrodynamics code TraMP together with a generic C++ library for automatic parallelization of finite difference schemes on structured grids. Furthermore we present two astrophysical applications, namely the problem of oscillating n-dimensional polytropes and extensive studies on the evolution of circumbinary disks including the accretion process and spectral distribution of the emitted energy. \thecode\ is based on the freely available POOMA library, which has been extensively extended and optimized for our needs. We were able to greatly improve parallel performance of the POOMA library by introducing native support for MPI and OpenMP. Extensive performance measurements hav...
This thesis documents the hydrodynamics code Cholla and a numerical study of multiphase galactic win...
At present, the study of the evolution of matter around young binary systems is a key issue which ca...
Here, we present the latest improvements and applications of the Tübingen-Vienna Smooth Particle Hy...
This work presents the newly developed three-dimensional parallel hydrodynamics code TraMP together ...
This work presents the newly developed three-dimensional parallel hydrodynamics code TraMP together ...
We present the parallel implementation of a hydrodynamical code for cosmological simulations which u...
Our goal is to develop software libraries and applications for astrophysical fluid dynamics simulati...
We present a hydrodynamical code for cosmological simulations which uses the piecewise parabolic met...
We discuss the cosmological simulation code GADGET-2, a new massively parallel TreeSPH code, capable...
We present an algorithm that solves the three-dimensional Poisson equation on a cylindrical grid. Th...
The paper presents a new hydrodynamical code, OMPEGAS, for the 3D simulation of astrophysical flows ...
We describe PTreeSPH, a gravity treecode combined with an SPH hydrodynamics code designed for massiv...
Through the work proposed in this document we expect to advance the forefront of large scale computa...
We present a new hydrodynamical code GPUPEGAS 2.0 for 3D simulation of astrophysical flows using the...
Many geophysical and astrophysical phenomena such as magnetic fields generation, or the differential...
This thesis documents the hydrodynamics code Cholla and a numerical study of multiphase galactic win...
At present, the study of the evolution of matter around young binary systems is a key issue which ca...
Here, we present the latest improvements and applications of the Tübingen-Vienna Smooth Particle Hy...
This work presents the newly developed three-dimensional parallel hydrodynamics code TraMP together ...
This work presents the newly developed three-dimensional parallel hydrodynamics code TraMP together ...
We present the parallel implementation of a hydrodynamical code for cosmological simulations which u...
Our goal is to develop software libraries and applications for astrophysical fluid dynamics simulati...
We present a hydrodynamical code for cosmological simulations which uses the piecewise parabolic met...
We discuss the cosmological simulation code GADGET-2, a new massively parallel TreeSPH code, capable...
We present an algorithm that solves the three-dimensional Poisson equation on a cylindrical grid. Th...
The paper presents a new hydrodynamical code, OMPEGAS, for the 3D simulation of astrophysical flows ...
We describe PTreeSPH, a gravity treecode combined with an SPH hydrodynamics code designed for massiv...
Through the work proposed in this document we expect to advance the forefront of large scale computa...
We present a new hydrodynamical code GPUPEGAS 2.0 for 3D simulation of astrophysical flows using the...
Many geophysical and astrophysical phenomena such as magnetic fields generation, or the differential...
This thesis documents the hydrodynamics code Cholla and a numerical study of multiphase galactic win...
At present, the study of the evolution of matter around young binary systems is a key issue which ca...
Here, we present the latest improvements and applications of the Tübingen-Vienna Smooth Particle Hy...