Parallel meshing of surfaces represented by collections of connected regions

In CAD (computer aided design) environments, a surface is commonly modeled as a collection of connected regions represented by parametric mappings. For meshing such a composite surface, a parallelized indirect approach with dynamic load balancing can be used on a shared memory system. However, this...

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Bibliographic Details
Published in:Advances in engineering software (1992) 2017-01, Vol.103, p.13-20
Main Authors: Laug, P., Guibault, F., Borouchaki, H.
Format: Article
Language:English
Subjects:
CAD system
Collection
Computer aided design
Computer programs
Discrete support
Dynamic load balancing
Dynamical systems
Mathematics
Memory (computers)
Meshing
Numerical Analysis
Parallel processing
Parametric faces
Pirate
Scaling
Surface meshing
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Summary:In CAD (computer aided design) environments, a surface is commonly modeled as a collection of connected regions represented by parametric mappings. For meshing such a composite surface, a parallelized indirect approach with dynamic load balancing can be used on a shared memory system. However, this methodology can be inefficient in practice because most existing CAD systems use memory caches that are only appropriate to a sequential process. Two solutions are proposed, referred to as the Pirate approach and the Discrete approach. In the first approach, the Pirate library can be efficiently called in parallel since no caching is used for the storage or evaluation of geometric primitives. In the second approach, the CAD environment is replaced by internal procedures interpolating a discrete geometric support. In both cases, performance measurements are presented and show an almost linear scaling.
ISSN:0965-9978
DOI:10.1016/j.advengsoft.2016.09.003