Parallel and Distributed Processing Symposium, International (2012)
Shanghai, China China
May 21, 2012 to May 25, 2012
DOI Bookmark: http://doi.ieeecomputersociety.org/10.1109/IPDPS.2012.81
Requirements for efficient parallelization of many complex and irregular applications can be cast as a hyper graph partitioning problem. The current-state-of-the art software libraries that provide tool support for the hyper graph partitioning problem are designed and implemented before the game-changing advancements in multi-core computing. Hence, analyzing the structure of those tools for designing multithreaded versions of the algorithms is a crucial tasks. The most successful partitioning tools are based on the multi-level approach. In this approach, a given hyper graph is coarsened to a much smaller one, a partition is obtained on the the smallest hyper graph, and that partition is projected to the original hyper graph while refining it on the intermediate hyper graphs. The coarsening operation corresponds to clustering the vertices of a hyper graph and is the most time consuming task in a multi-level partitioning tool. We present three efficient multithreaded clustering algorithms which are very suited for multi-level partitioners. We compare their performance with that of the ones currently used in today's hyper graph partitioners. We show on a large number of real life hyper graphs that our implementations, integrated into a commonly used partitioning library PaToH, achieve good speedups without reducing the clustering quality.
Clustering algorithms, Partitioning algorithms, Pins, Approximation algorithms, Measurement, Algorithm design and analysis, Heuristic algorithms, multicore programming, Multi-level hypergraph partitioning, coarsening, multithreaded clustering algorithms
K. Kaya, M. Deveci, U. V. Catalyurek and B. Ucar, "Multithreaded Clustering for Multi-level Hypergraph Partitioning," Parallel and Distributed Processing Symposium, International(IPDPS), Shanghai, China China, 2012, pp. 848-859.