Epic Fail: Emulators can tolerate polynomially many edge faults for free
September 08, 2022 Β· Declared Dead Β· π Information Technology Convergence and Services
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Authors
Greg Bodwin, Michael Dinitz, Yasamin Nazari
arXiv ID
2209.03675
Category
cs.DS: Data Structures & Algorithms
Cross-listed
cs.DM
Citations
4
Venue
Information Technology Convergence and Services
Last Checked
4 months ago
Abstract
A $t$-emulator of a graph $G$ is a graph $H$ that approximates its pairwise shortest path distances up to multiplicative $t$ error. We study fault tolerant $t$-emulators, under the model recently introduced by Bodwin, Dinitz, and Nazari [ITCS 2022] for vertex failures. In this paper we consider the version for edge failures, and show that they exhibit surprisingly different behavior. In particular, our main result is that, for $(2k-1)$-emulators with $k$ odd, we can tolerate a polynomial number of edge faults for free. For example: for any $n$-node input graph, we construct a $5$-emulator ($k=3$) on $O(n^{4/3})$ edges that is robust to $f = O(n^{2/9})$ edge faults. It is well known that $Ξ©(n^{4/3})$ edges are necessary even if the $5$-emulator does not need to tolerate any faults. Thus we pay no extra cost in the size to gain this fault tolerance. We leave open the precise range of free fault tolerance for odd $k$, and whether a similar phenomenon can be proved for even $k$.
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