Borsuk-Ulam and Replicable Learning of Large-Margin Halfspaces

Abstract

We prove that the list replicability number of d-dimensional γ-margin half-spaces satisfies \[ d2+1 LR(Hdγ) d, \] which grows with dimension. This resolves several open problems: Every disambiguation of infinite-dimensional large-margin half-spaces to a total concept class has unbounded Littlestone dimension, answering an open question of Alon, Hanneke, Holzman, and Moran (FOCS '21). Every disambiguation of the Gap Hamming Distance problem in the large gap regime has unbounded public-coin randomized communication complexity. This answers an open question of Fang, G\"o\"os, Harms, and Hatami (STOC '25). There is a separation of O(1) vs ω(1) between randomized and pseudo-deterministic communication complexity. The maximum list-replicability number of any finite set of points and homogeneous half-spaces in d-dimensional Euclidean space is d, resolving a problem of Chase, Moran, and Yehudayoff (FOCS '23). There exists a partial concept class with Littlestone dimension 1 such that all its disambiguations have infinite Littlestone dimension. This resolves a problem of Cheung, H. Hatami, P. Hatami, and Hosseini (ICALP '23). Our lower bound follows from a topological argument based on a local Borsuk-Ulam theorem. For the upper bound, we construct a list-replicable learning rule using the generalization properties of SVMs.

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