AbstractComputers with multiple processor cores using shared memory are now ubiquitous. In this paper, we present several parallel geometric algorithms that specifically target this environment, with the goal of exploiting the additional computing power. The algorithms we describe are (a) 2-/3-dimensional spatial sorting of points, as is typically used for preprocessing before using incremental algorithms, (b) d-dimensional axis-aligned box intersection computation, and finally (c) 3D bulk insertion of points into Delaunay triangulations, which can be used for mesh generation algorithms, or simply for constructing 3D Delaunay triangulations. For the latter, we introduce as a foundational element the design of a container data structure that...
© 2018 Association for Computing Machinery. In this paper, we design parallel write-efficient geomet...
We present parallel algorithms for some fundamental problems in computational geometry which have ru...
This paper describes the derivation of an empirically efficient parallel two-dimensional Delaunay tr...
Computers with multiple processor cores using shared mem-ory are now ubiquitous. In this paper, we p...
Computers with multiple processor cores using shared memory are now ubiquitous. In this paper, we pr...
AbstractComputers with multiple processor cores using shared memory are now ubiquitous. In this pape...
International audienceComputers with multiple processor cores using shared memory are now ubiquitous...
We describe an approach to efficiently use multiple processing cores and shared memory for several g...
This paper presents a new scalable parallelization scheme to generate the 3D Delaunay triangulation ...
This thesis gives an overview of parallel techniques used in co mputer graphics. It investigates t...
To increase the efficiency when processing large data sets, a novel parallel algorithm is proposed f...
In this study we address the problem of ecient parallel triangulation methods for a nite set of poin...
In this study we address the problem of efficient parallel triangulation methods for a finite set of...
Abstract. A triangulation of points in , or a tetrahedronization of points in , is used in many appl...
We present an efficient implementation of a Dwyer-style Delaunay triangulation algorithm that runs i...
© 2018 Association for Computing Machinery. In this paper, we design parallel write-efficient geomet...
We present parallel algorithms for some fundamental problems in computational geometry which have ru...
This paper describes the derivation of an empirically efficient parallel two-dimensional Delaunay tr...
Computers with multiple processor cores using shared mem-ory are now ubiquitous. In this paper, we p...
Computers with multiple processor cores using shared memory are now ubiquitous. In this paper, we pr...
AbstractComputers with multiple processor cores using shared memory are now ubiquitous. In this pape...
International audienceComputers with multiple processor cores using shared memory are now ubiquitous...
We describe an approach to efficiently use multiple processing cores and shared memory for several g...
This paper presents a new scalable parallelization scheme to generate the 3D Delaunay triangulation ...
This thesis gives an overview of parallel techniques used in co mputer graphics. It investigates t...
To increase the efficiency when processing large data sets, a novel parallel algorithm is proposed f...
In this study we address the problem of ecient parallel triangulation methods for a nite set of poin...
In this study we address the problem of efficient parallel triangulation methods for a finite set of...
Abstract. A triangulation of points in , or a tetrahedronization of points in , is used in many appl...
We present an efficient implementation of a Dwyer-style Delaunay triangulation algorithm that runs i...
© 2018 Association for Computing Machinery. In this paper, we design parallel write-efficient geomet...
We present parallel algorithms for some fundamental problems in computational geometry which have ru...
This paper describes the derivation of an empirically efficient parallel two-dimensional Delaunay tr...