Practical and efficient point insertion scheduling method for parallel guaranteed quality delaunay refinement

Andrey N. Chernikov, Nikos P. Chrisochoides
2004 Proceedings of the 18th annual international conference on Supercomputing - ICS '04  
We describe a parallel scheduler, for guaranteed quality parallel mesh generation and refinement methods. We prove a sufficient condition for the new points to be independent, which permits the concurrent insertion of more than two points without destroying the conformity and Delaunay properties of the mesh. The scheduling technique we present is much more efficient than existing coloring methods and thus it is suitable for practical use. The condition for concurrent point insertion is based on
more » ... the comparison of the distance between the candidate points against the upper bound on triangle circumradius in the mesh. Our experimental data show that the scheduler introduces a small overhead (in the order of 1-2% of the total execution time), it requires local and structured communication compared to irregular, variable and unpredictable communication of the other existing practical parallel guaranteed quality mesh generation and refinement method. Finally, on a cluster of more than 100 workstations using a simple (block) decomposition our data show that we can generate about 900 million elements in less than 300 seconds.
doi:10.1145/1006209.1006217 dblp:conf/ics/ChernikovC04 fatcat:pvigh5jrdrhdblim52h5fk4k5a