This webinar discusses how NVIDIA GPUs and NVIDIA CUDA can enable high-fidelity Computational Fluid Dynamics for Higher Education and Research. Flow field computations for transient and turbulent flow problems are very compute-intensive and time-consuming. Popular existing numerical techniques often compromise on the underlying physics or require a massive amount of computational resources. Accurate high-fidelity CFD simulations on locally available hardware hence are highly appreciated by academia and industry. After a brief review of the theoretical basics and implementation details of a CUDA-accelerated CFD solver, results from several international research projects are presented. They all demonstrate that GPU computing can be a game ...
Researchers have recently used the new programmable capabilities of the Graphics Processing Unit (GP...
Smoothed Particle Hydrodynamics (SPH) is a numerical method commonly used in Computational Fluid Dyn...
The reliability of cardiovascular computational models depends on the accurate solution of the hemod...
Modern graphics hardware has emerged as a lowcost massively parallel computing platform, allowing sc...
Graphics processor units (GPU) that are traditionally designed for graphics rendering have emerged a...
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 ...
Modern graphics processing units (GPU) provide architectures and new programming models that enable ...
Computational fluid dynamics has seen a surge of popularity as a tool for visual effects animators o...
A new paradigm for computing fluid flows is the use of Graphics Processing Units (GPU), which have r...
The Computational Fluid Dynamics code OVERFLOW includes as one of its solver options an algorithm wh...
The advent of general purpose computing on graphics cards has led to significant software speedup in...
Key words: graphics processing units, unstructured finite volume method, computational fluid dynam...
Design optimization relies heavily on time-consuming simulations, especially when using gradient-fre...
AbstractIncreased levels of parallel CFD by utilizing graphical processing units (GPUs) in a high pe...
Researchers have recently used the new programmable capabilities of the Graphics Processing Unit (GP...
Smoothed Particle Hydrodynamics (SPH) is a numerical method commonly used in Computational Fluid Dyn...
The reliability of cardiovascular computational models depends on the accurate solution of the hemod...
Modern graphics hardware has emerged as a lowcost massively parallel computing platform, allowing sc...
Graphics processor units (GPU) that are traditionally designed for graphics rendering have emerged a...
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 ...
Modern graphics processing units (GPU) provide architectures and new programming models that enable ...
Computational fluid dynamics has seen a surge of popularity as a tool for visual effects animators o...
A new paradigm for computing fluid flows is the use of Graphics Processing Units (GPU), which have r...
The Computational Fluid Dynamics code OVERFLOW includes as one of its solver options an algorithm wh...
The advent of general purpose computing on graphics cards has led to significant software speedup in...
Key words: graphics processing units, unstructured finite volume method, computational fluid dynam...
Design optimization relies heavily on time-consuming simulations, especially when using gradient-fre...
AbstractIncreased levels of parallel CFD by utilizing graphical processing units (GPUs) in a high pe...
Researchers have recently used the new programmable capabilities of the Graphics Processing Unit (GP...
Smoothed Particle Hydrodynamics (SPH) is a numerical method commonly used in Computational Fluid Dyn...
The reliability of cardiovascular computational models depends on the accurate solution of the hemod...