In this article, we propose new parallel algorithms for the construction and 2:1 balance refinement of large linear octrees on distributed memory machines. Such octrees are used in many problems in computational science and engineering, e.g., object representation, image analysis, unstructured meshing, finite elements, adaptive mesh refinement, and N-body simulations. Fixed-size scalability and isogranular analysis of the algorithms using an MPI-based parallel implementation was performed on a variety of input data and demonstrated good scalability for different processor counts (1 to 1024 processors) on the Pittsburgh Supercomputing Center\u27s TCS-1 AlphaServer. The results are consistent for different data distributions. Octrees with ove...
The forest of octrees meshing paradigm has been established primarily using cubic elements. Recently...
In this paper we present a novel algorithm for adaptive mesh refinement in computational physics mes...
Conservation laws are solved by a local Galerkin finite element procedure with adaptive space-time m...
In this article, we propose new parallel algorithms for the construction and 2:1 balance refinement ...
Bottom Up Construction and 2:1 Balance Refinement of Linear Octrees in Parallel In this article, we ...
Abstract: "Many applications that use octrees require that the octree decomposition be smooth throug...
The visualization of volumetric datasets is usually limited by the amount of memory and processing p...
Octrees are tree data structures used to represent multidimensional points in space. They are widely...
Abstract. The forest-of-octrees approach to parallel adaptive mesh refinement and coarsening (AMR) h...
[[abstract]]A novel linear octree construction based on filling the closed voxel-based border is pro...
In practice, many large-scale linear programming problems are too large to be solved effectively due...
We revisit the generation of balanced octrees for adaptive mesh refinement (AMR) of Cartesian domain...
To enable the solution of large-scale applications on distributed memory architectures, we are desig...
The development of an automatic, dynamic, parallel, Cartesian, linear forest-of-octree grid generato...
The visualization of volumetric datasets is usually limited by the amount of memory and processing p...
The forest of octrees meshing paradigm has been established primarily using cubic elements. Recently...
In this paper we present a novel algorithm for adaptive mesh refinement in computational physics mes...
Conservation laws are solved by a local Galerkin finite element procedure with adaptive space-time m...
In this article, we propose new parallel algorithms for the construction and 2:1 balance refinement ...
Bottom Up Construction and 2:1 Balance Refinement of Linear Octrees in Parallel In this article, we ...
Abstract: "Many applications that use octrees require that the octree decomposition be smooth throug...
The visualization of volumetric datasets is usually limited by the amount of memory and processing p...
Octrees are tree data structures used to represent multidimensional points in space. They are widely...
Abstract. The forest-of-octrees approach to parallel adaptive mesh refinement and coarsening (AMR) h...
[[abstract]]A novel linear octree construction based on filling the closed voxel-based border is pro...
In practice, many large-scale linear programming problems are too large to be solved effectively due...
We revisit the generation of balanced octrees for adaptive mesh refinement (AMR) of Cartesian domain...
To enable the solution of large-scale applications on distributed memory architectures, we are desig...
The development of an automatic, dynamic, parallel, Cartesian, linear forest-of-octree grid generato...
The visualization of volumetric datasets is usually limited by the amount of memory and processing p...
The forest of octrees meshing paradigm has been established primarily using cubic elements. Recently...
In this paper we present a novel algorithm for adaptive mesh refinement in computational physics mes...
Conservation laws are solved by a local Galerkin finite element procedure with adaptive space-time m...