Accurate prediction of fluid flows remains an important field of research and engineering. To this end, computational fluid dynamics (CFD) is widely employed. Due to their high demands on computational resources CFD applications benefit from HPC systems. Continuous performance analysis and optimization is key to efficient utilization of HPC resources. This paper demonstrates the beneficial cooperation between developers of HPC software and performance tools in the context of the CFD solver CODA and the sparse linear system solver Spliss. We investigate concepts used by CODA/Spliss to achieve high scalability and evaluate their effectiveness with performance analysis tools. This example illustrates profits obtained from a close collaboration...
Exascale HPC systems are just about to become available. Such enormous simulation capabilities from ...
Simulations on HPC systems have become an indispensable key technology in modern science and enginee...
As the complexity of multi-physics simulations increases, there is a need for efficient flow of info...
Many engineering applications require complex frameworks to simulate the intricate and extensive sub...
This presentation will share our efforts and experiences in evaluating performance and scalability o...
Many engineering applications require complex frameworks to simulate the intricate and extensive sub...
Solving linear equation systems is an integral part of implicit methods in computational fluid dynam...
Computational fluid dynamics (CFD) simulations are an integral part of the aerospace design process....
Solving linear equation systems is an integral part of implicit methods in computational fluid dynam...
Providing high-fidelity aerodynamics simulations requires vast computational resources. Leading-edge...
This thesis documents the analysis and optimization of a high-order finite difference computational ...
In this thesis, we investigate the performance and scalability of two CFD proxy applications, based ...
One of the main targets of DLR's project Victoria is the development of a platform for multi-discipl...
Maintaining the performance of large scientific codes is a difficult task. To aid in this task, a nu...
The Bulk Synchronous Parallel (BSP) model provides a theoretical framework to accurately predict the...
Exascale HPC systems are just about to become available. Such enormous simulation capabilities from ...
Simulations on HPC systems have become an indispensable key technology in modern science and enginee...
As the complexity of multi-physics simulations increases, there is a need for efficient flow of info...
Many engineering applications require complex frameworks to simulate the intricate and extensive sub...
This presentation will share our efforts and experiences in evaluating performance and scalability o...
Many engineering applications require complex frameworks to simulate the intricate and extensive sub...
Solving linear equation systems is an integral part of implicit methods in computational fluid dynam...
Computational fluid dynamics (CFD) simulations are an integral part of the aerospace design process....
Solving linear equation systems is an integral part of implicit methods in computational fluid dynam...
Providing high-fidelity aerodynamics simulations requires vast computational resources. Leading-edge...
This thesis documents the analysis and optimization of a high-order finite difference computational ...
In this thesis, we investigate the performance and scalability of two CFD proxy applications, based ...
One of the main targets of DLR's project Victoria is the development of a platform for multi-discipl...
Maintaining the performance of large scientific codes is a difficult task. To aid in this task, a nu...
The Bulk Synchronous Parallel (BSP) model provides a theoretical framework to accurately predict the...
Exascale HPC systems are just about to become available. Such enormous simulation capabilities from ...
Simulations on HPC systems have become an indispensable key technology in modern science and enginee...
As the complexity of multi-physics simulations increases, there is a need for efficient flow of info...