@article{15009,
keywords = {Bipartite graphs, matching, parallel approximation algorithms, graph theory, transversals},
author = {Ariful Azad and Aydin Buluc and Xiaoye Li and Xinliang Wang and Johannes Langguth},
title = {A Distributed-Memory Approximation Algorithm for Maximum Weight Perfect Bipartite Matching},
abstract = {We design and implement an efficient parallel approximation algorithm for the problem of maximum weight perfect matching in bipartite graphs, i.e. the problem of finding a set of non-adjacent edges that covers all vertices and has maximum weight. This problem differs from the maximum weight matching problem, for which scalable approximation algorithms are known. It is primarily motivated by finding good pivots in scalable sparse direct solvers before factorization where sequential implementations of maximum weight perfect matching algorithms, such as those available in MC64, are widely used due to the lack of scalable alternatives.To overcome this limitation, we propose a fully parallel distributed memory algorithm that first generates a perfect matching and then searches for weight-augmenting cycles of length four in parallel and iteratively augments the matching with a vertex disjoint set of such cycles. For most practical problems the weights of the perfect matchings generated by our algorithm are very close to the optimum.An efficient implementation of the algorithm scales up to 256 nodes (17,408 cores) on a Cray XC40 supercomputer and can solve instances that are too large to be handled by a single node using the sequential algorithm.},
year = {2018},
journal = {SIAM Journal on Scientific Computing},
publisher = {SIAM},
}