Bipartite Unique Neighbour Expanders via Ramanujan Graphs

Ron Asherov; Irit Dinur

doi:10.3390/e26040348

Bipartite Unique Neighbour Expanders via Ramanujan Graphs

Ron Asherov, Irit Dinur^*

^*Corresponding author for this work

Department of Computer Science and Applied Mathematics

Research output: Contribution to journal › Article › peer-review

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Abstract

We construct an infinite family of bounded-degree bipartite unique-neighbour expander graphs with arbitrarily unbalanced sides. Although weaker than the lossless expanders constructed by Capalbo et al., our construction is simpler and may be closer to be implementable in practice due to the smaller constants. We construct these graphs by composing bipartite Ramanujan graphs with a fixed-size gadget in a way that generalizes the construction of unique neighbour expanders by Alon and Capalbo. For the analysis of our construction we prove a strong upper bound on average degrees in small induced subgraphs of bipartite Ramanujan graphs. Our bound generalizes Kahale's average degree bound to bipartite Ramanujan graphs, and may be of independent interest. Surprisingly, our bound strongly relies on the exact Ramanujan-ness of the graph and is not known to hold for nearly-Ramanujan graphs.

Original language	English
Article number	384
Journal	Entropy
Volume	26
Issue number	4
DOIs	https://doi.org/10.3390/e26040348
Publication status	Published - 20 Apr 2024

Bibliographical note

Research supported by ERC grant 772839 and ISF grant 2073/21.

All Science Journal Classification (ASJC) codes

Information Systems
Electrical and Electronic Engineering
General Physics and Astronomy
Mathematical Physics
Physics and Astronomy (miscellaneous)

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10.3390/e26040348Licence: CC BY

id_Entropy_BipartiteUniqueNeighbour_PV_2024Final published version, 527 KBLicence: CC BY

https://arxiv.org/abs/2301.03072

Cite this

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abstract = "We construct an infinite family of bounded-degree bipartite unique-neighbour expander graphs with arbitrarily unbalanced sides. Although weaker than the lossless expanders constructed by Capalbo et al., our construction is simpler and may be closer to be implementable in practice due to the smaller constants. We construct these graphs by composing bipartite Ramanujan graphs with a fixed-size gadget in a way that generalizes the construction of unique neighbour expanders by Alon and Capalbo. For the analysis of our construction we prove a strong upper bound on average degrees in small induced subgraphs of bipartite Ramanujan graphs. Our bound generalizes Kahale's average degree bound to bipartite Ramanujan graphs, and may be of independent interest. Surprisingly, our bound strongly relies on the exact Ramanujan-ness of the graph and is not known to hold for nearly-Ramanujan graphs.",

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N2 - We construct an infinite family of bounded-degree bipartite unique-neighbour expander graphs with arbitrarily unbalanced sides. Although weaker than the lossless expanders constructed by Capalbo et al., our construction is simpler and may be closer to be implementable in practice due to the smaller constants. We construct these graphs by composing bipartite Ramanujan graphs with a fixed-size gadget in a way that generalizes the construction of unique neighbour expanders by Alon and Capalbo. For the analysis of our construction we prove a strong upper bound on average degrees in small induced subgraphs of bipartite Ramanujan graphs. Our bound generalizes Kahale's average degree bound to bipartite Ramanujan graphs, and may be of independent interest. Surprisingly, our bound strongly relies on the exact Ramanujan-ness of the graph and is not known to hold for nearly-Ramanujan graphs.

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Bipartite Unique Neighbour Expanders via Ramanujan Graphs

Abstract

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