, Volume 80, Issue 12, pp 3908–3919 | Cite as

Counting Minimum Weight Arborescences

  • Koyo HayashiEmail author
  • Satoru Iwata


In a directed graph \(D = (V, A)\) with a specified vertex \(r \in V\), an arc subset \(B \subseteq A\) is called an r-arborescence if B has no arc entering r and there is a unique path from r to v in (VB) for each \(v \in V \backslash \{ r \}\). The problem of finding a minimum weight r-arborescence in a weighted digraph has been studied for decades starting with Chu and Liu (Sci Sin 14:1396–1400, 1965), Edmonds (J Res Natl Bur Stand 71B:233–240, 1967) and Bock (Developments in operations research, Gordon and Breach, New York, pp 29–44, 1971). In this paper, we focus on the number of minimum weight arborescences. We present an algorithm for counting minimum weight r-arborescences in \(O(n^{\omega })\) time, where n is the number of vertices of an input digraph and \(\omega \) is the matrix multiplication exponent.


Minimum weight arborescence Matrix tree theorem Counting 



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Copyright information

© Springer Science+Business Media, LLC, part of Springer Nature 2018
Corrected publication September/2018

Authors and Affiliations

  1. 1.Department of Mathematical InformaticsUniversity of TokyoTokyoJapan

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