The objective of the German BMBF research project Highly Efficient Implementation of CFD Codes for HPC Many-Core Architectures (HICFD) is to develop new methods and tools for the analysis and optimization of the performance of parallel computational fluid dynamics (CFD) codes on high performance computer systems with many-core processors. In the work packages of the project it is investigated how the performance of parallel CFD codes written in C can be increased by the optimal use of all parallelism levels. On the highest level MPI is utilized. Furthermore, on the level of the many-core architecture, highly scaling, hybrid OpenMP/MPI methods are implemented. On the level of the processor cores the parallel SIMD units provided by modern CPUs are exploited.
HICFD – Highly Efficient Implementation of CFD Codes for HPC Many-Core Architectures
2012-02-15
Conference Proceedings
Electronic Resource
English
iterative solvers , OpenMP , SIMD tools , Vampir tool , CFD , sparse linear systems , HPC , SIMD , many-core architectures , MPI , partitioning
Energy-Efficient High-Throughput VLSI Architectures for Product-Like Codes
British Library Online Contents | 2019
Scalable Distributed Schur Complement Methods for CFD Simulation on Many-Core Architectures
German Aerospace Center (DLR) | 2011
|HICFD – Hocheffiziente Implementierung von CFD-Codes für HPC-Many-Core-Architekturen
German Aerospace Center (DLR) | 2009
|