Abstract We present an extension of an existing Parallel Delaunay Re¯nement (PDR) method to be used for out-of-core computing, thus allowing it to generate large meshes using limited computing resources. We base our work on a shared memory implementation of the PDR method. Also, we are designing a distributed out-of-core algorithm which would allow to compute very large meshes using supercom-puters and COWs with limited resources
This article focuses on the optimization of PCDM, a parallel, 2D Delaunay mesh generation applicatio...
AbstractWe describe a distributed memory parallel Delaunay refinement algorithm for simple polyhedra...
Summary. Mesh generation is a critical component for many (bio-)engineering ap-plications. However, ...
Abstract-We present an out-of-core algorithm for Parallel Delaunay Renement (PDR) for shared memory ...
We present two cost-effective and high-performance out-of-core parallel mesh generation algorithms a...
AbstractIn this paper, we present a scalable three dimensional hybrid parallel Delaunay image-to-mes...
Parallel computing has made possible large scale simulations of physical phenomena. These simulation...
Scientists commonly turn to supercomputers or Clusters of Workstations with hundreds (even thousands...
In this paper, we present a scalable three dimensional hybrid parallel Delaunay image-to-mesh conver...
We present a parallel unstructured grid generation method based on the Constrained Delaunay Triangul...
In this paper, we present a new approach for the parallel generation and partitioning of unstructure...
Given the proliferation of layered, multicore- and SMT-based architectures, it is imperative to depl...
In this poster we focus and present our preliminary results pertinent to the integration of multiple...
This paper presents some of our findings on the scalability of parallel 3D mesh generation on distri...
AbstractIn this paper, we present a scalable three dimensional hybrid MPI+Threads parallel Delaunay ...
This article focuses on the optimization of PCDM, a parallel, 2D Delaunay mesh generation applicatio...
AbstractWe describe a distributed memory parallel Delaunay refinement algorithm for simple polyhedra...
Summary. Mesh generation is a critical component for many (bio-)engineering ap-plications. However, ...
Abstract-We present an out-of-core algorithm for Parallel Delaunay Renement (PDR) for shared memory ...
We present two cost-effective and high-performance out-of-core parallel mesh generation algorithms a...
AbstractIn this paper, we present a scalable three dimensional hybrid parallel Delaunay image-to-mes...
Parallel computing has made possible large scale simulations of physical phenomena. These simulation...
Scientists commonly turn to supercomputers or Clusters of Workstations with hundreds (even thousands...
In this paper, we present a scalable three dimensional hybrid parallel Delaunay image-to-mesh conver...
We present a parallel unstructured grid generation method based on the Constrained Delaunay Triangul...
In this paper, we present a new approach for the parallel generation and partitioning of unstructure...
Given the proliferation of layered, multicore- and SMT-based architectures, it is imperative to depl...
In this poster we focus and present our preliminary results pertinent to the integration of multiple...
This paper presents some of our findings on the scalability of parallel 3D mesh generation on distri...
AbstractIn this paper, we present a scalable three dimensional hybrid MPI+Threads parallel Delaunay ...
This article focuses on the optimization of PCDM, a parallel, 2D Delaunay mesh generation applicatio...
AbstractWe describe a distributed memory parallel Delaunay refinement algorithm for simple polyhedra...
Summary. Mesh generation is a critical component for many (bio-)engineering ap-plications. However, ...