Based on the features of GPU architecture, this paper introduces CUDA into an existing Euler solver software for a 3-D Cartesian grid.
Based on the features of GPU architecture, this paper introduces CUDA into an existing Euler solver software for a 3-D Cartesian grid.
Based on the features of GPU architecture, this paper introduces CUDA into an existing Euler solver software for a 3-D Cartesian grid.
In this study, GPU parallel computation on a nested Cartesian grid was implemented to accelerate simulations of unsteady problems with stationary and moving ...
The aim of this work is to accelerate an existing two-dimensional explicit Euler solver implemented on a single CPU. The solver based on Discontinuous-Galerkin ...
Missing: Cartesian | Show results with:Cartesian
Such solvers work by calculating the conditions normal to cell interfaces and calculating a series of one- dimensional fluxes across each. This concept is known ...
In the present work, a well validated indigenous grid free Euler solver is converted in CUDA programming environment to run in GPGPU computing platform. The ...
Missing: Cartesian | Show results with:Cartesian
Development of a Parallel Explicit Finite-Volume Euler Equation Solver using the Immersed Boundary Method with Hybrid MPI-CUDA Paradigm. 11 October 2019 ...
Abstract. To develop high performance computing methods for compressible flow calculation, a GPU-accelerated compressible flow solver is developed with ...
The aim of this thesis was to implement the 1D and 2D CE/SE. Euler scheme on a GPU using CUDA. ... the runtimes on GPU are slightly shorter than other rectangular ...