Submodular Maximization Meets Streaming: Matchings, Matroids, and More

We study the problem of finding a maximummatching in a graph given by an input stream listing its edges in some arbitrary order, where the quantity to be maximized is given by a monotone submodular function on subsets of edges. This problem, which we call maximum submodular-function matching (MSM), is a natural generalization of maximum weight matching (MWM), which is in turn a generalization of maximum cardinality matching (MCM). We give two incomparable algorithms for this problem with space usage falling in the semistreaming range—they store onlyO(n) edges, usingO(n log n)workingmemory—that achieve approximation ratios of 7.75 in a single pass and (3+ ε) in O(ε−3) passes respectively. The operations of these algorithms mimic those of Zelke’s and McGregor’s respective algorithms for MWM; the novelty lies in the analysis for the MSM setting. In fact we identify a general framework for MWM algorithms that allows this kind of adaptation to the broader setting of MSM. In the sequel, we give generalizations of these results where the maximization is over “independent sets” in a very general sense. This generalization captures hypermatchings in hypergraphs as well as independence in the intersection of multiple matroids. ∗Department of Computer Science, Dartmouth College. Supported in part by NSF grant CCF-1217375.