A new three-dimensional Navier-Stokes solver for flows in turbomachines has been developed. The new solver is based on the latest version of the Denton codes, but has been implemented to run on Graphics Processing Units (GPUs) instead of the traditional Central Processing Unit (CPU). The change in processor enables an order-of-magnitude reduction in run-time due to the higher performance of the GPU. Scaling results for a 16 node GPU cluster are also presented, showing almost linear scaling for typical turbomachinery cases. For validation purposes, a test case consisting of a three-stage turbine with complete hub and casing leakage paths is described. Good agreement is obtained with previously published experimental results. The simulation r...
The research presented in this dissertation is divided into two parts,the first part focuses\ud pure...
International audienceThis paper describes a hybrid multicore/GPU solver for the incompressible Navi...
A time-marching finite volume numerical procedure is presented for three-dimensional Euler analysis ...
Recent hardware developments have shown a tremendous speed-up gain using multi-core and many-core ar...
The use of graphics hardware for general purpose computations allows scientists to enormously speed ...
Design optimization relies heavily on time-consuming simulations, especially when using gradient-fre...
For the aerodynamic design of multistage compressors and turbines Computational Fluid Dynamics (CFD)...
The typical approach in Computational Fluid Dynamics (CFD) relies on the negligible structural defor...
The concept of the new CFD solver for the 3D turbomachinery flow simulation using the RANS equations...
Real-time fluid engineering simulations require significant computational power and high-resolution ...
We present the development and validation of a parallel unsteady flow and aeroelasticity code for la...
High performance computing clusters that are augmented with cost and power efficient graphics proces...
A parallel multi-block Navier-Stokes solver with the k-ω turbulence model is developed to simulate t...
General-purpose computing on graphics processing units (GPGPU) is a massive fine-grain parallel comp...
DoctorComputational methods for GPU-accelerated solutions of incompressible and compressible Navier-...
The research presented in this dissertation is divided into two parts,the first part focuses\ud pure...
International audienceThis paper describes a hybrid multicore/GPU solver for the incompressible Navi...
A time-marching finite volume numerical procedure is presented for three-dimensional Euler analysis ...
Recent hardware developments have shown a tremendous speed-up gain using multi-core and many-core ar...
The use of graphics hardware for general purpose computations allows scientists to enormously speed ...
Design optimization relies heavily on time-consuming simulations, especially when using gradient-fre...
For the aerodynamic design of multistage compressors and turbines Computational Fluid Dynamics (CFD)...
The typical approach in Computational Fluid Dynamics (CFD) relies on the negligible structural defor...
The concept of the new CFD solver for the 3D turbomachinery flow simulation using the RANS equations...
Real-time fluid engineering simulations require significant computational power and high-resolution ...
We present the development and validation of a parallel unsteady flow and aeroelasticity code for la...
High performance computing clusters that are augmented with cost and power efficient graphics proces...
A parallel multi-block Navier-Stokes solver with the k-ω turbulence model is developed to simulate t...
General-purpose computing on graphics processing units (GPGPU) is a massive fine-grain parallel comp...
DoctorComputational methods for GPU-accelerated solutions of incompressible and compressible Navier-...
The research presented in this dissertation is divided into two parts,the first part focuses\ud pure...
International audienceThis paper describes a hybrid multicore/GPU solver for the incompressible Navi...
A time-marching finite volume numerical procedure is presented for three-dimensional Euler analysis ...