In this poster we focus and present our preliminary results pertinent to the integration of multiple parallel Delaunay mesh generation methods into a coherent hierarchical framework. The goal of this project is to study our telescopic approach and to develop Delaunay-based methods to explore concurrency at all hardware layers using abstractions at (a) medium-grain level for many cores within a single chip and (b) coarse-grain level, i.e., sub-domain level using proper error metric- and application-specific continuous decomposition methods
Abstract We present an extension of an existing Parallel Delaunay Re¯nement (PDR) method to be used ...
AbstractThis paper presents a fine grain parallel version of the 3D Delaunay Kernel procedure using ...
Parallel mesh generation procedures that are based on geometric domain decompositions require the pe...
In this poster we focus and present our preliminary results pertinent to the integration of multiple...
Mesh generation is an essential component for many engineering applications. The ability to generate...
In this paper, we present a scalable three dimensional hybrid parallel Delaunay image-to-mesh conver...
Summary. Mesh generation is a critical component for many (bio-)engineering ap-plications. However, ...
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 MPI+Threads parallel Delaunay image-to...
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 ...
Parallel computing has made possible large scale simulations of physical phenomena. These simulation...
Given the proliferation of layered, multicore- and SMT-based architectures, it is imperative to depl...
The modeling of physical phenomena in computational fracture mechanics, computational fluid dynamics...
This thesis presents work in the area of mesh generation for large scale and complex computational s...
Abstract We present an extension of an existing Parallel Delaunay Re¯nement (PDR) method to be used ...
AbstractThis paper presents a fine grain parallel version of the 3D Delaunay Kernel procedure using ...
Parallel mesh generation procedures that are based on geometric domain decompositions require the pe...
In this poster we focus and present our preliminary results pertinent to the integration of multiple...
Mesh generation is an essential component for many engineering applications. The ability to generate...
In this paper, we present a scalable three dimensional hybrid parallel Delaunay image-to-mesh conver...
Summary. Mesh generation is a critical component for many (bio-)engineering ap-plications. However, ...
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 MPI+Threads parallel Delaunay image-to...
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 ...
Parallel computing has made possible large scale simulations of physical phenomena. These simulation...
Given the proliferation of layered, multicore- and SMT-based architectures, it is imperative to depl...
The modeling of physical phenomena in computational fracture mechanics, computational fluid dynamics...
This thesis presents work in the area of mesh generation for large scale and complex computational s...
Abstract We present an extension of an existing Parallel Delaunay Re¯nement (PDR) method to be used ...
AbstractThis paper presents a fine grain parallel version of the 3D Delaunay Kernel procedure using ...
Parallel mesh generation procedures that are based on geometric domain decompositions require the pe...