Theory Lunch Seminar

Wednesday, September 5, 2018 - 12:00pm to 1:00pm

Location:

ASA Conference Room 6115 Gates Hillman Centers

Speaker:

NICOLAS RESCH, Ph.D. Student http://www.cs.cmu.edu/~nresch/

For a vector space F^n over a field F, an (η, ß)-dimension expander of degree d is a collection of d linear maps Γ_j : F^n \to F^n such that for every subspace U of F^n of dimension at most ηn, the image of U under all the maps, ∑_{j=1}^d Γ_j(U), has dimension at least ßdim(U). Over a finite field, a random collection of d=O(1) maps Γ_j over excellent “lossless” expansion with high probability: ß ≈ d for η ≥ Ω(1/\eta). When it comes to a family of explicit constructions (for growing n), however, achieving even expansion factor β = 1 + ε with constant degree is a non-trivial goal.

We present an explicit construction of dimension expanders over finite fields based on linearized polynomials and subspace designs, drawing inspiration from recent progress on list decoding in the rank-metric. Our approach yields the following:

Lossless expansion over large fields; more precisely ß ≥ (1–ε)d and η ≥ (1–ε)/d with d=O_ε(1), when |F| ≥ Ω(n).

Optimal up to constant factors expansion over fields of arbitrarily small polynomial size; more precisely ß ≥ Ω(δd) and η ≥ Ω(1/(δd)) with d = O_δ(1), when |F| ≥ n^δ.

Previously, an approach reducing to monotone expanders (a form of vertex expansion that is highly non-trivial to establish) gave (Ω(1), 1+Ω(1))-dimension expanders of constant degree over all fields. An approach based on “rank condensing via subspace designs” led to dimension expanders with ß ≥ Ω(√d) over large finite fields. Ours is the first construction to achieve lossless dimension expansion, or even expansion proportional to the degree.

Based on joint work with Venkatesan Guruswami and Chaoping Xing.

CMU Youtube Theory Channel

Event Website:

http://www.cs.cmu.edu/~theorylunch/abstractsHTML/September%205,%202018.html

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