This paper presents some of our findings on the scalability of parallel 3D mesh generation on distributed memory machines. The primary objective of this study was to evaluate a distributed memory approach for implementing a 3D parallel Delaunay-based algorithm that converts images to meshes by leveraging an efficient shared memory implementation. The secondary objective was to evaluate the effectiveness of labor (i.e., reduce development time) while introducing minimal overheads to maintain the parallel efficiency of the end-product i.e., distributed implementation. The distributed algorithm utilizes two existing and independently developed parallel Delaunay-based methods: (1) a fine-grained method that employs multi-threading and speculati...
AbstractThis paper presents a fine grain parallel version of the 3D Delaunay Kernel procedure using ...
We present two cost-effective and high-performance out-of-core parallel mesh generation algorithms a...
This article focuses on the optimization of PCDM, a parallel, two-dimensional (2D) Delaunay mesh gen...
AbstractIn this paper, we present a scalable three dimensional hybrid parallel Delaunay image-to-mes...
In this paper, we present a scalable three dimensional hybrid parallel Delaunay image-to-mesh conver...
In this paper, we present a scalable three dimensional hybrid MPI+Threads parallel Delaunay image-to...
AbstractIn this paper, we present a scalable three dimensional hybrid MPI+Threads parallel Delaunay ...
Mesh generation is an essential component for many engineering applications. The ability to generate...
In this poster we focus and present our preliminary results pertinent to the integration of multiple...
Summary. Mesh generation is a critical component for many (bio-)engineering ap-plications. However, ...
Most of the current supercomputer architectures consist of clusters of nodes that are used by many c...
Parallel computing has made possible large scale simulations of physical phenomena. These simulation...
Abstract We present an extension of an existing Parallel Delaunay Re¯nement (PDR) method to be used ...
In this paper, we present a new approach for the parallel generation and partitioning of unstructure...
Abstract-We present an out-of-core algorithm for Parallel Delaunay Renement (PDR) for shared memory ...
AbstractThis paper presents a fine grain parallel version of the 3D Delaunay Kernel procedure using ...
We present two cost-effective and high-performance out-of-core parallel mesh generation algorithms a...
This article focuses on the optimization of PCDM, a parallel, two-dimensional (2D) Delaunay mesh gen...
AbstractIn this paper, we present a scalable three dimensional hybrid parallel Delaunay image-to-mes...
In this paper, we present a scalable three dimensional hybrid parallel Delaunay image-to-mesh conver...
In this paper, we present a scalable three dimensional hybrid MPI+Threads parallel Delaunay image-to...
AbstractIn this paper, we present a scalable three dimensional hybrid MPI+Threads parallel Delaunay ...
Mesh generation is an essential component for many engineering applications. The ability to generate...
In this poster we focus and present our preliminary results pertinent to the integration of multiple...
Summary. Mesh generation is a critical component for many (bio-)engineering ap-plications. However, ...
Most of the current supercomputer architectures consist of clusters of nodes that are used by many c...
Parallel computing has made possible large scale simulations of physical phenomena. These simulation...
Abstract We present an extension of an existing Parallel Delaunay Re¯nement (PDR) method to be used ...
In this paper, we present a new approach for the parallel generation and partitioning of unstructure...
Abstract-We present an out-of-core algorithm for Parallel Delaunay Renement (PDR) for shared memory ...
AbstractThis paper presents a fine grain parallel version of the 3D Delaunay Kernel procedure using ...
We present two cost-effective and high-performance out-of-core parallel mesh generation algorithms a...
This article focuses on the optimization of PCDM, a parallel, two-dimensional (2D) Delaunay mesh gen...