Taking advantage of the parallelism and programmability of GPU, we solve the fluid dynamics problem completely on GPU. Different from previous methods, the whole computation is accelerated in our method by packing the scalar and vector variables into four channels of texels. In order to be adaptive to the arbitrary boundary conditions, we group the grid nodes into different types according to their positions relative to obstacles and search the node that determines the value of the current node. Then we compute the texture coordinates offsets according to the type of the boundary condition of each node to determine the corresponding variables and achieve the interaction of flows with obstacles set freely by users. The test results prove the...
Computational Fluid Dynamics (CFD) simulations are aimed to reconstruct the reality of fluid motion ...
In this paper, we introduce a 3D fluid dynamics solver for real-time interactions in virtual environ...
Immersed boundary methods have become the most usable and useful tools for simulation of biomedical...
In this paper, we solve the 3D fluid dynamics problem in a complex environment by taking advantage o...
This thesis explores the possibility of using graphics processing units (GPUs) to compute approximat...
Abstract- Fluid dynamics is described by the Navier-Stokes differential equations, which need to be ...
In this thesis we explore the area of general purpose computing on GPU, by looking at how the GPU ca...
Computational fluid dynamics has seen a surge of popularity as a tool for visual effects animators o...
Modern graphics hardware has emerged as a lowcost massively parallel computing platform, allowing sc...
Real-time fluid engineering simulations require significant computational power and high-resolution ...
A new paradigm for computing fluid flows is the use of Graphics Processing Units (GPU), which have r...
Computationally demanding numerical simulations can be significantly accelerated using GPU (Graphics...
We present a parallel framework for simulating incompressible fluids with predictive-corrective inco...
Abstract. Large scale particle-based fluid simulation is important to both the scientific and comput...
The present work explores the massively parallel capabilities of the most advanced architecture of g...
Computational Fluid Dynamics (CFD) simulations are aimed to reconstruct the reality of fluid motion ...
In this paper, we introduce a 3D fluid dynamics solver for real-time interactions in virtual environ...
Immersed boundary methods have become the most usable and useful tools for simulation of biomedical...
In this paper, we solve the 3D fluid dynamics problem in a complex environment by taking advantage o...
This thesis explores the possibility of using graphics processing units (GPUs) to compute approximat...
Abstract- Fluid dynamics is described by the Navier-Stokes differential equations, which need to be ...
In this thesis we explore the area of general purpose computing on GPU, by looking at how the GPU ca...
Computational fluid dynamics has seen a surge of popularity as a tool for visual effects animators o...
Modern graphics hardware has emerged as a lowcost massively parallel computing platform, allowing sc...
Real-time fluid engineering simulations require significant computational power and high-resolution ...
A new paradigm for computing fluid flows is the use of Graphics Processing Units (GPU), which have r...
Computationally demanding numerical simulations can be significantly accelerated using GPU (Graphics...
We present a parallel framework for simulating incompressible fluids with predictive-corrective inco...
Abstract. Large scale particle-based fluid simulation is important to both the scientific and comput...
The present work explores the massively parallel capabilities of the most advanced architecture of g...
Computational Fluid Dynamics (CFD) simulations are aimed to reconstruct the reality of fluid motion ...
In this paper, we introduce a 3D fluid dynamics solver for real-time interactions in virtual environ...
Immersed boundary methods have become the most usable and useful tools for simulation of biomedical...