Highly resolved state-of-the-art 3D atmosphere simulations will remain computationally extremely expensive for years to come. In addition to the need for more computing power, rethinking coding practices is necessary. We take a dual approach by introducing especially adapted, parallel numerical methods and correspondingly parallelizing critical code passages. In the following, we present our respective work on PHOENIX/3D. With new parallel numerical algorithms, there is a big opportunity for improvement when iteratively solving the system of equations emerging from the operator splitting of the radiative transfer equation J = ΛS. The narrow-banded approximate Λ-operator Λ* , which is used in PHOENIX/3D, occurs in each iteration step. By imp...
Three-dimensional radiative transfer calculations involve extensive amounts of computation. These ca...
. The discretization of the multi--dimensional radiative transfer equation results in a very large l...
Analytical and numerical solutions of the radiative transfer equation recently obtained in Heidelber...
Highly resolved state-of-the-art 3D atmosphere simulations will remain computationally extremely exp...
This paper describes the use of parallel computational methods applied to the solution of radiative ...
Context.Higher resolution telescopes as well as 3D numerical simulations will require the developme...
We describe an important addition to the parallel implementation of our generalized NLTE stellar atm...
We describe the parallel implementation of our generalized stellar atmosphere and NLTE radiative tra...
Higher resolution telescopes as well as 3D numerical simulations will require the development of det...
Finite-difference approximations to the radiative transfer equation are presented and the solution p...
Context. 3D non-LTE radiative transfer problems are computationally demanding, and this sets limits ...
Context. Multi-level non-local thermodynamic equilibrium (NLTE) radiation transfer calculations have...
Solving the non-LTE radiative transfer problem in stellar atmospheres is computationally demanding. ...
M-dwarf atmospheres are phenomenologically so rich that is currently impossible to include all the p...
journal articleThe P-1 radiation model is spatially decomposed to solve the radiative transport equa...
Three-dimensional radiative transfer calculations involve extensive amounts of computation. These ca...
. The discretization of the multi--dimensional radiative transfer equation results in a very large l...
Analytical and numerical solutions of the radiative transfer equation recently obtained in Heidelber...
Highly resolved state-of-the-art 3D atmosphere simulations will remain computationally extremely exp...
This paper describes the use of parallel computational methods applied to the solution of radiative ...
Context.Higher resolution telescopes as well as 3D numerical simulations will require the developme...
We describe an important addition to the parallel implementation of our generalized NLTE stellar atm...
We describe the parallel implementation of our generalized stellar atmosphere and NLTE radiative tra...
Higher resolution telescopes as well as 3D numerical simulations will require the development of det...
Finite-difference approximations to the radiative transfer equation are presented and the solution p...
Context. 3D non-LTE radiative transfer problems are computationally demanding, and this sets limits ...
Context. Multi-level non-local thermodynamic equilibrium (NLTE) radiation transfer calculations have...
Solving the non-LTE radiative transfer problem in stellar atmospheres is computationally demanding. ...
M-dwarf atmospheres are phenomenologically so rich that is currently impossible to include all the p...
journal articleThe P-1 radiation model is spatially decomposed to solve the radiative transport equa...
Three-dimensional radiative transfer calculations involve extensive amounts of computation. These ca...
. The discretization of the multi--dimensional radiative transfer equation results in a very large l...
Analytical and numerical solutions of the radiative transfer equation recently obtained in Heidelber...