We present the Fluid Transport Accelerated Solver, FluTAS, a scalable GPU code for multiphase flows with thermal effects. The code solves the incompressible Navier-Stokes equation for two-fluid systems, with a direct FFT-based Poisson solver for the pressure equation. The interface between the two fluids is represented with the Volume of Fluid (VoF) method, which is mass conserving and well suited for complex flows thanks to its capacity of handling topological changes. The energy equation is explicitly solved and coupled with the momentum equation through the Boussinesq approximation. The code is conceived in a modular fashion so that different numerical methods can be used independently, the existing routines can be modified, and new ones...
Computational fluid dynamics has seen a surge of popularity as a tool for visual effects animators o...
Key words: graphics processing units, unstructured finite volume method, computational fluid dynam...
Talk: Keynote Abstract: We present an approach for direct numerical simulations of multiphase flows...
We present the Fluid Transport Accelerated Solver, FluTAS, a scalable GPU code for multiphase flows ...
We present parallelization of single and two phase flow CFD solvers on a graphics processing unit (G...
The technological development of micro-scale electronic devices is bounded by the challenge of dissi...
We present a multi-block finite-difference solver for massively parallel Direct Numerical Simulation...
Multiphase fluid flows are very common in engineering and science applications. Examples include air...
The AFiD code, an open source solver for the incompressible Navier-Stokes equations (http://www.afid...
The AFiD code, an open source solver for the incompressible Navier–Stokes equations (http://www.afid...
The use of graphics hardware for general purpose computations allows scientists to enormously speed ...
DoctorComputational methods for GPU-accelerated solutions of incompressible and compressible Navier-...
This program has been imported from the CPC Program Library held at Queen's University Belfast (1969...
Graphics processor units (GPU) that are originally designed for graphics rendering have emerged as m...
We present a fully multi-GPU-based double-precision solver for the three-dimensional two-phase incom...
Computational fluid dynamics has seen a surge of popularity as a tool for visual effects animators o...
Key words: graphics processing units, unstructured finite volume method, computational fluid dynam...
Talk: Keynote Abstract: We present an approach for direct numerical simulations of multiphase flows...
We present the Fluid Transport Accelerated Solver, FluTAS, a scalable GPU code for multiphase flows ...
We present parallelization of single and two phase flow CFD solvers on a graphics processing unit (G...
The technological development of micro-scale electronic devices is bounded by the challenge of dissi...
We present a multi-block finite-difference solver for massively parallel Direct Numerical Simulation...
Multiphase fluid flows are very common in engineering and science applications. Examples include air...
The AFiD code, an open source solver for the incompressible Navier-Stokes equations (http://www.afid...
The AFiD code, an open source solver for the incompressible Navier–Stokes equations (http://www.afid...
The use of graphics hardware for general purpose computations allows scientists to enormously speed ...
DoctorComputational methods for GPU-accelerated solutions of incompressible and compressible Navier-...
This program has been imported from the CPC Program Library held at Queen's University Belfast (1969...
Graphics processor units (GPU) that are originally designed for graphics rendering have emerged as m...
We present a fully multi-GPU-based double-precision solver for the three-dimensional two-phase incom...
Computational fluid dynamics has seen a surge of popularity as a tool for visual effects animators o...
Key words: graphics processing units, unstructured finite volume method, computational fluid dynam...
Talk: Keynote Abstract: We present an approach for direct numerical simulations of multiphase flows...