There are numerous large-scale applications requiring mesh adaptivity, e.g., computational fluid dynamics and weather prediction. Parallel processing is needed for simulations involving large-scale adaptive meshes. In this paper, we propose a parallel variational mesh quality improvement algorithm for use with distributed memory machines. Our method parallelizes the serial variational mesh quality improvement method by Huang and Kamenski. Their approach is based on the use of the Moving Mesh PDE method to adapt the mesh based on the minimization of an energy functional for mesh equidistribution and alignment. This leads to a system of ordinary differential equations (ODEs) to be solved which determine where to move the interior mesh nodes. ...
In this paper, we report the development of a parallel mesh multiplication code to subdivide a base ...
Anisotropic mesh adaptation is a powerful way to directly minimise the computational cost of mesh ba...
AbstractIn the numerical solution of partial differential equations (PDEs), high-quality meshes are ...
There are numerous scientific applications which require large and complex meshes. Given the explos...
Computational methods based on the use of adaptively constructed nonuniform meshes reduce the amount...
The paper presents a parallel tetrahedral mesh generation approach based on recursive bidivisions us...
AbstractA multi-threaded parallel local reconnection algorithm is proposed for tetrahedral meshes. I...
[EN]We propose a new algorithm on distributed-memory parallel computers for our simultaneous untangl...
The present article describes a simple element-driven strategy for the conforming refinement of simp...
We present a new approach to the use of parallel computers with adaptive finite element methods. Thi...
Mesh quality is a critical issue in numerical computing because it directly impacts both computation...
textComputational grid optimization, correction, improvement and remeshing techniques have become i...
To enable the solution of large-scale applications on distributed memory architectures, we are desig...
In this paper we describe a general adaptive finite element framework for unstructured tetrahedral m...
We investigate parallel adaptive grid refinement and focus in particular on hierarchically adaptive,...
In this paper, we report the development of a parallel mesh multiplication code to subdivide a base ...
Anisotropic mesh adaptation is a powerful way to directly minimise the computational cost of mesh ba...
AbstractIn the numerical solution of partial differential equations (PDEs), high-quality meshes are ...
There are numerous scientific applications which require large and complex meshes. Given the explos...
Computational methods based on the use of adaptively constructed nonuniform meshes reduce the amount...
The paper presents a parallel tetrahedral mesh generation approach based on recursive bidivisions us...
AbstractA multi-threaded parallel local reconnection algorithm is proposed for tetrahedral meshes. I...
[EN]We propose a new algorithm on distributed-memory parallel computers for our simultaneous untangl...
The present article describes a simple element-driven strategy for the conforming refinement of simp...
We present a new approach to the use of parallel computers with adaptive finite element methods. Thi...
Mesh quality is a critical issue in numerical computing because it directly impacts both computation...
textComputational grid optimization, correction, improvement and remeshing techniques have become i...
To enable the solution of large-scale applications on distributed memory architectures, we are desig...
In this paper we describe a general adaptive finite element framework for unstructured tetrahedral m...
We investigate parallel adaptive grid refinement and focus in particular on hierarchically adaptive,...
In this paper, we report the development of a parallel mesh multiplication code to subdivide a base ...
Anisotropic mesh adaptation is a powerful way to directly minimise the computational cost of mesh ba...
AbstractIn the numerical solution of partial differential equations (PDEs), high-quality meshes are ...