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Sherali--Adams Strikes Back
[article]
2018
arXiv
pre-print
Let G be any n-vertex graph whose random walk matrix has its nontrivial eigenvalues bounded in magnitude by 1/√(Δ) (for example, a random graph G of average degree Θ(Δ) typically has this property). We show that the (c n/Δ)-round Sherali--Adams linear programming hierarchy certifies that the maximum cut in such a G is at most 50.1% (in fact, at most 12 + 2^-Ω(c)). For example, in random graphs with n^1.01 edges, O(1) rounds suffice; in random graphs with n ·polylog(n) edges, n^O(1/ n) = n^o(1)
arXiv:1812.09967v1
fatcat:smqmhumghbghvksjejhsje2k7q