This final report summarizes the work packages of the joint project POPINDA (Portable Paralelisierung industrieller aerodynamischer Anwendungen), which have been handled by Dasa-LM under Ref. No. 01IR302C2. During the project POPINDA existing industrial aerodynamic codes have been generalized and parallelized efficiently. The aim of the work was to make modern computer platforms available for numerical aerodynamic computation of complex 3-dimensional configurations by portable parallelization and substantial raise of efficiency of the existing codes. The examples, presented in this report, show clearly that the NSFLEX-solver has been parallelized resulting in excellent speed-up. The implementation of new and generalized algorithms enable th...
Abstract. Large industrial aerodynamic calculations are nowadays performed indifferently on parallel...
Finite element programs with explicit time integration for nonlinear structural dynamics are getting...
The parallelisation of an industrially important in-house CFD code for calculating the airflow over ...
In the BMBF cooperation POPINDA (Portable Parallelization of Industrial Aerodynamics Applications), ...
This paper describes the portable parallelization of the FLOWer code, a large, block structured CFD ...
Im Rahmen des BMFT-Verbundprojektes POPINDA werden parallele Rechnerarchitekturen fuer industrierele...
Within the framework of the German aerospace program, the national CFC project MEGAFLOW was initiate...
This final report summarises the results of the joint project, which was founded by FKZ 01IR302E8. I...
FLOWer is a block structured, cell vertex, finite volume Euler/Navier-Stokes flow solver for the tra...
AbstractThe paper addresses an application of the software product OPTIMENGA_AERO to a real-life des...
This paper briefly addresses the computational requirements for the analysis of complete configurati...
The modification of unsteady three-dimensional Navier-Stokes codes for application on massively para...
The main result of the project is the finite-element research code Parallel NS for solving incompres...
Massively parallel computers have enabled the analyst to solve complicated flow fields (turbulent, c...
Some existing parallel N-S codes, including both explicit and implicit algorithms, have been ported ...
Abstract. Large industrial aerodynamic calculations are nowadays performed indifferently on parallel...
Finite element programs with explicit time integration for nonlinear structural dynamics are getting...
The parallelisation of an industrially important in-house CFD code for calculating the airflow over ...
In the BMBF cooperation POPINDA (Portable Parallelization of Industrial Aerodynamics Applications), ...
This paper describes the portable parallelization of the FLOWer code, a large, block structured CFD ...
Im Rahmen des BMFT-Verbundprojektes POPINDA werden parallele Rechnerarchitekturen fuer industrierele...
Within the framework of the German aerospace program, the national CFC project MEGAFLOW was initiate...
This final report summarises the results of the joint project, which was founded by FKZ 01IR302E8. I...
FLOWer is a block structured, cell vertex, finite volume Euler/Navier-Stokes flow solver for the tra...
AbstractThe paper addresses an application of the software product OPTIMENGA_AERO to a real-life des...
This paper briefly addresses the computational requirements for the analysis of complete configurati...
The modification of unsteady three-dimensional Navier-Stokes codes for application on massively para...
The main result of the project is the finite-element research code Parallel NS for solving incompres...
Massively parallel computers have enabled the analyst to solve complicated flow fields (turbulent, c...
Some existing parallel N-S codes, including both explicit and implicit algorithms, have been ported ...
Abstract. Large industrial aerodynamic calculations are nowadays performed indifferently on parallel...
Finite element programs with explicit time integration for nonlinear structural dynamics are getting...
The parallelisation of an industrially important in-house CFD code for calculating the airflow over ...