We describe an important addition to the parallel implementation of our generalized NLTE stellar atmosphere and radiative transfer computer program PHOENIX. In a previous paper in this series we described data and task parallel algorithms we have developed for radiative transfer, spectral line opacity, and NLTE opacity and rate calculations. These algorithms divided the work spatially or by spectral lines, that is distributing the radial zones, individual spectral lines, or characteristic rays among different processors and employ, in addition task parallelism for logically independent functions (such as atomic and molecular line opacities). For finite, monotonic velocity fields, the radiative transfer equation is an initial value problem i...
The DDSCAT software is enabled for use of MPI or OpenMP to distribute calculation of different parti...
Abstract. The spectral transform method is a standard numerical technique for solving par-tial diere...
We describe PTreeSPH, a gravity treecode combined with an SPH hydrodynamics code designed for massiv...
We describe the parallel implementation of our generalized stellar atmosphere and NLTE radiative tra...
This paper describes a parallel implementation of a grand challenge problem: global atmospheric mode...
Parallel computing has turned out to be the enabling technology to solve complex physical systems. H...
Highly resolved state-of-the-art 3D atmosphere simulations will remain computationally extremely exp...
AbstractIn this paper we discuss numerical methods and algorithms for the solution of NLTE stellar a...
We present the new parallel version (pCRASH2) of the cosmological radiative transfer code CRASH2 for...
In this thesis, I apply techniques from the field of computer graphics to ray tracing in astrophysi...
The theory of radiative transfer is an important element for the understanding of the spectral signa...
Advances in adaptive optics (AO) systems are necessary to achieve optical performance that is suitab...
Massively parallel processing (MPP) computer systems use high-speed interconnection networks to link...
Context. Radiative transfer (RT) modelling is part of many astrophysical simulations. It is used to ...
We perform three-dimensional radiative transfer calculations on the MasPar MP-1, which contains 8192...
The DDSCAT software is enabled for use of MPI or OpenMP to distribute calculation of different parti...
Abstract. The spectral transform method is a standard numerical technique for solving par-tial diere...
We describe PTreeSPH, a gravity treecode combined with an SPH hydrodynamics code designed for massiv...
We describe the parallel implementation of our generalized stellar atmosphere and NLTE radiative tra...
This paper describes a parallel implementation of a grand challenge problem: global atmospheric mode...
Parallel computing has turned out to be the enabling technology to solve complex physical systems. H...
Highly resolved state-of-the-art 3D atmosphere simulations will remain computationally extremely exp...
AbstractIn this paper we discuss numerical methods and algorithms for the solution of NLTE stellar a...
We present the new parallel version (pCRASH2) of the cosmological radiative transfer code CRASH2 for...
In this thesis, I apply techniques from the field of computer graphics to ray tracing in astrophysi...
The theory of radiative transfer is an important element for the understanding of the spectral signa...
Advances in adaptive optics (AO) systems are necessary to achieve optical performance that is suitab...
Massively parallel processing (MPP) computer systems use high-speed interconnection networks to link...
Context. Radiative transfer (RT) modelling is part of many astrophysical simulations. It is used to ...
We perform three-dimensional radiative transfer calculations on the MasPar MP-1, which contains 8192...
The DDSCAT software is enabled for use of MPI or OpenMP to distribute calculation of different parti...
Abstract. The spectral transform method is a standard numerical technique for solving par-tial diere...
We describe PTreeSPH, a gravity treecode combined with an SPH hydrodynamics code designed for massiv...