Difference between revisions of "Cores"
From crtc.cs.odu.edu
(→Data Decomposition) |
(→Partially-coupled approaches) |
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=== Partially-coupled approaches === | === Partially-coupled approaches === | ||
| − | ==== Data Decomposition ==== | + | : ==== Data Decomposition ==== |
| − | # [[Cores/PDR | Parallel Data Refinement using TetGen ]] | + | :# [[Cores/PDR | Parallel Data Refinement using TetGen ]] |
| − | # [[PDR.AFLR | Parallel Data Refinement using AFLR]] | + | :# [[PDR.AFLR | Parallel Data Refinement using AFLR]] |
| − | # Parallel Data Refinement using Parallel Optimistic Delaunay Mesh Generation for medical images , for details see [LINK to Daming papers] | + | :# Parallel Data Refinement using Parallel Optimistic Delaunay Mesh Generation for medical images , for details see [LINK to Daming papers] |
| − | ==== Domain Decomposition ==== | + | : ==== Domain Decomposition ==== |
| − | LINK to 2d PCDM paper | + | :LINK to 2d PCDM paper |
| − | extension to 3D is in progress. | + | :extension to 3D is in progress. |
=== Loosely-coupled approach === | === Loosely-coupled approach === | ||
Revision as of 09:32, 28 March 2018
Each page lists the activities within the different cores for metrics-driven extreme scale parallel anisotropic mesh generation
Contents
Parallel Adaptive Mesh Generation
Tightly-coupled approaches
This groups is experimented with two tightly-coupled approaches :
- CDT3D
- Parallel Optimistic Delaunay Mesh Generation for medical images, for details see [LINK]
Partially-coupled approaches
- ==== Data Decomposition ====
- Parallel Data Refinement using TetGen
- Parallel Data Refinement using AFLR
- Parallel Data Refinement using Parallel Optimistic Delaunay Mesh Generation for medical images , for details see [LINK to Daming papers]
- ==== Domain Decomposition ====
- LINK to 2d PCDM paper
- extension to 3D is in progress.
Loosely-coupled approach
Loosely coupled using CDT3D [MiniRTS workshop slides]
