Given the proliferation of layered, multicore- and SMT-based architectures, it is imperative to deploy and evaluate important, multi-level, scientific computing codes, such as meshing algorithms, on these systems. We focus on Parallel Constrained Delaunay Mesh (PCDM) generation. We exploit coarse-grain parallelism at the subdomain level, medium-grain at the cavity level and fine-grain at the element level. This multi-grain data parallel approach targets clusters built from commercially available SMTs and multicore processors. The exploitation of the coarser degree of granularity facilitates scalability both in terms of execution time and problem size on loosely-coupled clusters. The exploitation of medium-grain parallelism allows performanc...
Mesh generation is an essential component for many engineering applications. The ability to generate...
Multi-grained parallel computers can be very eective on computationally intensive problems that have...
The increase of computing power for multiphysics simulations results in a growing number of requirem...
Given the proliferation of layered, multicore- and SMT-based architectures, it is imperative to depl...
This article focuses on the optimization of PCDM, a parallel, 2D Delaunay mesh generation applicatio...
This article focuses on the optimization of PCDM, a parallel, two-dimensional (2D) Delaunay mesh gen...
Summary. Mesh generation is a critical component for many (bio-)engineering ap-plications. However, ...
In this poster we focus and present our preliminary results pertinent to the integration of multiple...
AbstractIn this paper, we present a scalable three dimensional hybrid parallel Delaunay image-to-mes...
AbstractIn this paper, we present a scalable three dimensional hybrid MPI+Threads parallel Delaunay ...
Abstract We present an extension of an existing Parallel Delaunay Re¯nement (PDR) method to be used ...
We present a parallel unstructured grid generation method based on the Constrained Delaunay Triangul...
Parallel computing has made possible large scale simulations of physical phenomena. These simulation...
We present the results of an evaluation study on the re-structuring of a latency-bound mesh generati...
AbstractThis paper presents a fine grain parallel version of the 3D Delaunay Kernel procedure using ...
Mesh generation is an essential component for many engineering applications. The ability to generate...
Multi-grained parallel computers can be very eective on computationally intensive problems that have...
The increase of computing power for multiphysics simulations results in a growing number of requirem...
Given the proliferation of layered, multicore- and SMT-based architectures, it is imperative to depl...
This article focuses on the optimization of PCDM, a parallel, 2D Delaunay mesh generation applicatio...
This article focuses on the optimization of PCDM, a parallel, two-dimensional (2D) Delaunay mesh gen...
Summary. Mesh generation is a critical component for many (bio-)engineering ap-plications. However, ...
In this poster we focus and present our preliminary results pertinent to the integration of multiple...
AbstractIn this paper, we present a scalable three dimensional hybrid parallel Delaunay image-to-mes...
AbstractIn this paper, we present a scalable three dimensional hybrid MPI+Threads parallel Delaunay ...
Abstract We present an extension of an existing Parallel Delaunay Re¯nement (PDR) method to be used ...
We present a parallel unstructured grid generation method based on the Constrained Delaunay Triangul...
Parallel computing has made possible large scale simulations of physical phenomena. These simulation...
We present the results of an evaluation study on the re-structuring of a latency-bound mesh generati...
AbstractThis paper presents a fine grain parallel version of the 3D Delaunay Kernel procedure using ...
Mesh generation is an essential component for many engineering applications. The ability to generate...
Multi-grained parallel computers can be very eective on computationally intensive problems that have...
The increase of computing power for multiphysics simulations results in a growing number of requirem...