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2024-06-17

Brief Announcement: Local Advice and Local Decompression

Summary

In this work we study local computation with advice: the goal is to solve a graph problem Π with a distributed algorithm in f(Δ) communication rounds, for some function f that only depends on the maximum degree Δ of the graph, and the key question is how many bits of advice per node are needed. Our main results are: 1. Any locally checkable labeling problem (LCL) can be solved in graphs with sub-exponential growth with only 1 bit of advice per node. Moreover, we can make the set of nodes that carry advice bits arbitrarily sparse. 2. The assumption of sub-exponential growth is necessary: assuming the Exponential-Time Hypothesis (ETH), there are LCLs that cannot be solved in general with any constant number of bits per node. 3. In any graph we can find an almost-balanced orientation (indegrees and outdegrees differ by at most one) with 1 bit of advice per node, and again we can make the advice arbitrarily sparse. 4. As a corollary, we can also compress an arbitrary subset of edges so that a node of degree d stores only d/2 + 2 bits, and we can decompress it locally, in f(Δ) rounds. 5. In any graph of maximum degree Δ, we can find a Δ-coloring (if it exists) with 1 bit of advice per node, and again, we can make the advice arbitrarily sparse. 6. In any 3-colorable graph, we can find a 3-coloring with 1 bit of advice per node. Here, it remains open whether we can make the advice arbitrarily sparse.

Conference Paper

ACM Symposium on Principles of Distributed Computing (PODC)

Date published

2024-06-17

Date last modified

2024-10-08