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Paper detail

How much does randomness help with locally checkable problems?

Locally checkable labeling problems (LCLs) are distributed graph problems in which a solution is globally feasible if it is locally feasible in all constant-radius neighborhoods. Vertex colorings, maximal independent sets, and maximal matchings are examples of LCLs. On the one hand, it is known that some LCLs benefit exponentially from randomness---for example, any deterministic distributed algorithm that finds a sinkless orientation requires $Θ(\log n)$ rounds in the LOCAL model, while the randomized complexity of the problem is $Θ(\log \log n)$ rounds. On the other hand, there are also many LCLs in which randomness is useless. Previously, it was not known if there are any LCLs that benefit from randomness, but only subexponentially. We show that such problems exist: for example, there is an LCL with deterministic complexity $Θ(\log^2 n)$ rounds and randomized complexity $Θ(\log n \log \log n)$ rounds.

preprint2020arXivOpen access
Alkida BalliuSebastian BrandtDennis OlivettiJukka Suomela
Computational ComplexityDistributed, Parallel, and Cluster Computing
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Alkida BalliuSebastian BrandtDennis OlivettiJukka Suomela

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