Add to ORKGResearchers have recently used the new programmable capabilities of the Graphics Processing Unit (GPU) to increase the performance of scientific codes. We investigate the use of a cluster of GPUs for large-scale CFD problems and show order-of-magnitude increases in performance and performance-to-price ratio. We implement two separate compressible flow solvers. First, we develop a CUDA-based solver for the 2D compressible Euler equations and verify the results against a reference multi-block code MBFLO. After demonstrating the performance of our Euler solver, we proceed to develop a new version of MBFLO by adding GPU-accelerated subroutines to the existing Fortran codebase. Using an eight-node cluster equiped with 16 NVIDIA 9800GX2 GPUs...
Key words: graphics processing units, unstructured finite volume method, computational fluid dynam...
Abstract. Finite volume numerical methods have been widely stud-ied, implemented and parallelized on...
Recent hardware developments have shown a tremendous speed-up gain using multi-core and many-core ar...
This paper describes the GPU accelerated MBFLO2 multi-block turbulent flow solver completely in doub...
Design optimization relies heavily on time-consuming simulations, especially when using gradient-fre...
The Computational Fluid Dynamics code OVERFLOW includes as one of its solver options an algorithm wh...
Graphics processor units (GPU) that are traditionally designed for graphics rendering have emerged a...
A new high-performance general-purpose graphics processing unit (GPGPU) computational fluid dynamics...
Modern graphics processing units (GPUs) with many-core architectures have emerged as general-purpose...
Graphics processor units (GPU) that are originally designed for graphics rendering have emerged as m...
Graphical processing units (GPUs), characterized by significant computing performance, are nowadays ...
Turbulent incompressible flows play an important role in a broad range of natural and industrial pro...
This webinar discusses how NVIDIA GPUs and NVIDIA CUDA can enable high-fidelity Computational Fluid ...
AbstractIncreased levels of parallel CFD by utilizing graphical processing units (GPUs) in a high pe...
Modern graphics processing units (GPU) provide architectures and new programming models that enable ...
Key words: graphics processing units, unstructured finite volume method, computational fluid dynam...
Abstract. Finite volume numerical methods have been widely stud-ied, implemented and parallelized on...
Recent hardware developments have shown a tremendous speed-up gain using multi-core and many-core ar...
This paper describes the GPU accelerated MBFLO2 multi-block turbulent flow solver completely in doub...
Design optimization relies heavily on time-consuming simulations, especially when using gradient-fre...
The Computational Fluid Dynamics code OVERFLOW includes as one of its solver options an algorithm wh...
Graphics processor units (GPU) that are traditionally designed for graphics rendering have emerged a...
A new high-performance general-purpose graphics processing unit (GPGPU) computational fluid dynamics...
Modern graphics processing units (GPUs) with many-core architectures have emerged as general-purpose...
Graphics processor units (GPU) that are originally designed for graphics rendering have emerged as m...
Graphical processing units (GPUs), characterized by significant computing performance, are nowadays ...
Turbulent incompressible flows play an important role in a broad range of natural and industrial pro...
This webinar discusses how NVIDIA GPUs and NVIDIA CUDA can enable high-fidelity Computational Fluid ...
AbstractIncreased levels of parallel CFD by utilizing graphical processing units (GPUs) in a high pe...
Modern graphics processing units (GPU) provide architectures and new programming models that enable ...
Key words: graphics processing units, unstructured finite volume method, computational fluid dynam...
Abstract. Finite volume numerical methods have been widely stud-ied, implemented and parallelized on...
Recent hardware developments have shown a tremendous speed-up gain using multi-core and many-core ar...