This paper introduces open-source computational fluid dynamics software named open computational fluid dynamic code for scientific computation with graphics processing unit (GPU) system (OpenCFD-SCU), developed by the authors for direct numerical simulation (DNS) of compressible wall-bounded turbulence. This software is based on the finite difference method and is accelerated by the use of a GPU, which provides an acceleration by a factor of more than 200 compared with central processing unit (CPU) software based on the same algorithm and number of message passing interface (MPI) processes, and the running speed of OpenCFD-SCU with just 512 GPUs exceed that of CPU software with 130\,000 CPUs. GPU-Stream technology is used to implement overl...
The paper presents the results of the implementation of computational algorithms of hydrodynamics fo...
We focus on implementing and optimizing a sixth-order finite-difference solver for simulating compre...
With this PhD project we developed, and we fully validated a high-resolution numerical model suitabl...
This paper introduces open-source computational fluid dynamics software named open computational flu...
In the author's previous work, we introduced an open-source accelerated computational fluid dynamics...
AbstractA new high-fidelity multi-block structured curvilinear compressible Navier-Stokes solver pur...
We present STREAmS, an in-house high-fidelity solver for direct numerical simulations (DNS) of canon...
This paper describes the GPU accelerated MBFLO2 multi-block turbulent flow solver completely in doub...
Graphical processing units (GPUs), characterized by significant computing performance, are nowadays ...
We introduce algorithmic advancements designed to expedite simulations in OpenFOAM using GPUs. These...
The present paper describes the performance of URANOS, a high-fidelity Direct and Large- Eddy Simula...
In recent years, the increased use of off-the-shelf components and the large-scale adoption of paral...
We present our approach to making direct numerical simulations of turbulence with applications in su...
Computational Fluid Dynamics (CFD) simulations can be very computationally expensive, especially for...
Computational fluid dynamics (CFD) is an area of fluid mechanics that involves using numerical metho...
The paper presents the results of the implementation of computational algorithms of hydrodynamics fo...
We focus on implementing and optimizing a sixth-order finite-difference solver for simulating compre...
With this PhD project we developed, and we fully validated a high-resolution numerical model suitabl...
This paper introduces open-source computational fluid dynamics software named open computational flu...
In the author's previous work, we introduced an open-source accelerated computational fluid dynamics...
AbstractA new high-fidelity multi-block structured curvilinear compressible Navier-Stokes solver pur...
We present STREAmS, an in-house high-fidelity solver for direct numerical simulations (DNS) of canon...
This paper describes the GPU accelerated MBFLO2 multi-block turbulent flow solver completely in doub...
Graphical processing units (GPUs), characterized by significant computing performance, are nowadays ...
We introduce algorithmic advancements designed to expedite simulations in OpenFOAM using GPUs. These...
The present paper describes the performance of URANOS, a high-fidelity Direct and Large- Eddy Simula...
In recent years, the increased use of off-the-shelf components and the large-scale adoption of paral...
We present our approach to making direct numerical simulations of turbulence with applications in su...
Computational Fluid Dynamics (CFD) simulations can be very computationally expensive, especially for...
Computational fluid dynamics (CFD) is an area of fluid mechanics that involves using numerical metho...
The paper presents the results of the implementation of computational algorithms of hydrodynamics fo...
We focus on implementing and optimizing a sixth-order finite-difference solver for simulating compre...
With this PhD project we developed, and we fully validated a high-resolution numerical model suitabl...