Presently, a tetrahedral mesher based on the Delaunay triangulation approach may outperform a tetrahedral improver based on local smoothing and flip operations by nearly one order in terms of computing time. Parallelization is a feasible way to speed up the improver and enable it to handle large-scale meshes. In this study, a novel domain decomposition approach is proposed for parallel mesh improvement. It analyses the dual graph of the input mesh to build an inter-domain boundary that avoids small dihedral angles and poorly shaped faces. Consequently, the parallel improver can fit this boundary without compromising the mesh quality. Meanwhile, the new method does not involve any inter-processor communications and therefore runs very effici...
Summary. We present an effective strongly uncoupled method, which, given a closed and watertight sur...
We describe a distributed memory parallel Delaunay refinement algorithm for polyhedral domains which...
Mesh optimization is essential to enable sufficient element quality for numerical methods such as th...
© 2018 Elsevier Ltd A parallel algorithm is proposed for scalable generation of large-scale tetrahed...
[EN]We propose a new algorithm on distributed-memory parallel computers for our simultaneous untangl...
The desire to model in ever increasing detail geometrical and physical features has lead to a steady...
The paper presents a parallel tetrahedral mesh generation approach based on recursive bidivisions us...
Desire to model in ever increasing detail geometrical and physical features has lead to a steady inc...
AbstractA multi-threaded parallel local reconnection algorithm is proposed for tetrahedral meshes. I...
In order to prepare modern finite element analysis a program for the efficient parallel generation ...
Mesh generation is an essential component for many engineering applications. The ability to generate...
This work describes a technique for generating three-dimensional tetrahedral meshes using parallel c...
The desire to simulate more and more geometrical and physical features of technical structures and t...
This work proposes a fully automated technique for domain decomposition to generate meshes using par...
Mesh quality is a critical issue in numerical computing because it directly impacts both computation...
Summary. We present an effective strongly uncoupled method, which, given a closed and watertight sur...
We describe a distributed memory parallel Delaunay refinement algorithm for polyhedral domains which...
Mesh optimization is essential to enable sufficient element quality for numerical methods such as th...
© 2018 Elsevier Ltd A parallel algorithm is proposed for scalable generation of large-scale tetrahed...
[EN]We propose a new algorithm on distributed-memory parallel computers for our simultaneous untangl...
The desire to model in ever increasing detail geometrical and physical features has lead to a steady...
The paper presents a parallel tetrahedral mesh generation approach based on recursive bidivisions us...
Desire to model in ever increasing detail geometrical and physical features has lead to a steady inc...
AbstractA multi-threaded parallel local reconnection algorithm is proposed for tetrahedral meshes. I...
In order to prepare modern finite element analysis a program for the efficient parallel generation ...
Mesh generation is an essential component for many engineering applications. The ability to generate...
This work describes a technique for generating three-dimensional tetrahedral meshes using parallel c...
The desire to simulate more and more geometrical and physical features of technical structures and t...
This work proposes a fully automated technique for domain decomposition to generate meshes using par...
Mesh quality is a critical issue in numerical computing because it directly impacts both computation...
Summary. We present an effective strongly uncoupled method, which, given a closed and watertight sur...
We describe a distributed memory parallel Delaunay refinement algorithm for polyhedral domains which...
Mesh optimization is essential to enable sufficient element quality for numerical methods such as th...