A Parallel Min-Cut Algorithm using Iteratively Reweighted Least Squares
Abstract
We present a parallel algorithm for the undirected s,t-mincut problem with floating-point valued weights. Our overarching algorithm uses an iteratively reweighted least squares framework. This generates a sequence of Laplacian linear systems, which we solve using parallel matrix algorithms. Our overall implementation is up to 30-times faster than a serial solver when using 128 cores.
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