We present a review of where our research group stands in parallel finite element simulation of flow problems on the Connection Machines, an effort that started for our group in the fourth quarter of 1991. This review includes an overview of our work on computation of flow problems involving moving boundaries and interfaces, such as free surfaces, two-liquid interfaces, and fluid-structure and fluid-particle interactions. With numerous examples, we demonstrate that, with these new computational capabilities, today we are at a point where we routinely solve practical flow problems, including those in 3D and those involving moving boundaries and interfaces. We solve these problems with unstructured grids and implicit methods, with some of the...
Prediction of compressible flow phenomena using the finite element method is of recent origin and co...
In this thesis an implicit Semi-Discrete Stabilized eXtended Finite Element formulation has been suc...
The White Paper content is focused on: a) construction and analysis of novel scalable algorithms to ...
The authors describe their work on the massively parallel finite-element computation of compressible...
Massively parallel finite element computations of 3D, unsteady incompressible flows, including those...
The parallel finite element computation of three-dimensional compressible, and incompressible flows,...
Massively parallel finite element computations of 3D, unsteady incompressible flows, including those...
Two implicit finite element formulations for incompressible flows have been implemented on the Conne...
We discuss the stabilized finite element computation of unsteady incompressible flows, with emphasis...
We describe our massively parallel finite element computations of unsteady incompressible flows invo...
We describe our massively parallel finite element computations of unsteady incompressible flows invo...
Recently, the Enhanced-Discretization Interface-Capturing Technique (EDICT) was introduced for simul...
A finite element method for computational the Connection Machine systems CM-2 and CM-200. An implici...
The stabilized finite element formulations based on the SUPG (Stream-line-Upwind/Petrov-Galerkin) an...
Simulation of viscous three-dimensional fluid flow typically involves a large number of unknowns. Wh...
Prediction of compressible flow phenomena using the finite element method is of recent origin and co...
In this thesis an implicit Semi-Discrete Stabilized eXtended Finite Element formulation has been suc...
The White Paper content is focused on: a) construction and analysis of novel scalable algorithms to ...
The authors describe their work on the massively parallel finite-element computation of compressible...
Massively parallel finite element computations of 3D, unsteady incompressible flows, including those...
The parallel finite element computation of three-dimensional compressible, and incompressible flows,...
Massively parallel finite element computations of 3D, unsteady incompressible flows, including those...
Two implicit finite element formulations for incompressible flows have been implemented on the Conne...
We discuss the stabilized finite element computation of unsteady incompressible flows, with emphasis...
We describe our massively parallel finite element computations of unsteady incompressible flows invo...
We describe our massively parallel finite element computations of unsteady incompressible flows invo...
Recently, the Enhanced-Discretization Interface-Capturing Technique (EDICT) was introduced for simul...
A finite element method for computational the Connection Machine systems CM-2 and CM-200. An implici...
The stabilized finite element formulations based on the SUPG (Stream-line-Upwind/Petrov-Galerkin) an...
Simulation of viscous three-dimensional fluid flow typically involves a large number of unknowns. Wh...
Prediction of compressible flow phenomena using the finite element method is of recent origin and co...
In this thesis an implicit Semi-Discrete Stabilized eXtended Finite Element formulation has been suc...
The White Paper content is focused on: a) construction and analysis of novel scalable algorithms to ...