Elastically deformable models have found applications in various areas ranging from mechanical sciences and engineering to computer graphics. The method of Finite Elements has been the tool of choice for solving the underlying PDE, when accuracy and stability of the computations are more important than, e.g., computation time. In this paper we show that the computations involved can be performed very efficiently on modern programmable GPUs, regarded as massively parallel co-processors through Nvidia's CUDA compute paradigm. The resulting global linear system is solved using a highly optimized Conjugate Gradient method. Since the structure of the global sparse matrix does not change during the simulation, its values are updated at each step ...
The finite element method (FEM) is one of the most commonly used techniques for the solution of part...
Recently, graphics processing units (GPUs) have had great success in accelerating many numerical com...
We present an implementation of a nonlinear explicit, displacement-based finite element code and its...
Abstract Elastically deformable models have found applications in various areas ranging from mechani...
Elastically deformable models have found applications in various areas ranging from mechanical scien...
Elastically deformable models have found applications in various areas ranging from mechanical scien...
The paper presents a highly efficient way of simulating the dynamic behavior of deformable objects b...
Graphics processing unit (GPU) has obtained great success in scientific computations for its tremend...
We present a multigrid approach for simulating elastic deformable objects in real time on recent NVI...
Abstract: The paper presents a highly efficient way of simulating the dynamic behavior of deformable...
As the presence of finite element implementations on General Purpose Graphics Processing Units (GPGP...
International audienceWe present a set of methods to implement an implicit Finite Element solver on ...
Abstract The finite element method (FEM) is one of the most commonly used tech-niques for the soluti...
An approach is developed to perform explicit time domain finite element simulations of elastodynamic...
Abstract: We describe our FE-gMG solver, a finite element geometric multi-grid approach for problems...
The finite element method (FEM) is one of the most commonly used techniques for the solution of part...
Recently, graphics processing units (GPUs) have had great success in accelerating many numerical com...
We present an implementation of a nonlinear explicit, displacement-based finite element code and its...
Abstract Elastically deformable models have found applications in various areas ranging from mechani...
Elastically deformable models have found applications in various areas ranging from mechanical scien...
Elastically deformable models have found applications in various areas ranging from mechanical scien...
The paper presents a highly efficient way of simulating the dynamic behavior of deformable objects b...
Graphics processing unit (GPU) has obtained great success in scientific computations for its tremend...
We present a multigrid approach for simulating elastic deformable objects in real time on recent NVI...
Abstract: The paper presents a highly efficient way of simulating the dynamic behavior of deformable...
As the presence of finite element implementations on General Purpose Graphics Processing Units (GPGP...
International audienceWe present a set of methods to implement an implicit Finite Element solver on ...
Abstract The finite element method (FEM) is one of the most commonly used tech-niques for the soluti...
An approach is developed to perform explicit time domain finite element simulations of elastodynamic...
Abstract: We describe our FE-gMG solver, a finite element geometric multi-grid approach for problems...
The finite element method (FEM) is one of the most commonly used techniques for the solution of part...
Recently, graphics processing units (GPUs) have had great success in accelerating many numerical com...
We present an implementation of a nonlinear explicit, displacement-based finite element code and its...