A Strong Direct Sum Theorem for Distributional Query Complexity
Abstract
Consider the expected query complexity of computing the k-fold direct product f k of a function f to error with respect to a distribution μk. One strategy is to sequentially compute each of the k copies to error /k with respect to μ and apply the union bound. We prove a strong direct sum theorem showing that this naive strategy is essentially optimal. In particular, computing a direct product necessitates a blowup in both query complexity and error. Strong direct sum theorems contrast with results that only show a blowup in query complexity or error but not both. There has been a long line of such results for distributional query complexity, dating back to (Impagliazzo, Raz, Wigderson 1994) and (Nisan, Rudich, Saks 1994), but a strong direct sum theorem had been elusive. A key idea in our work is the first use of the Hardcore Theorem (Impagliazzo 1995) in the context of query complexity. We prove a new "resilience lemma" that accompanies it, showing that the hardcore of f k is likely to remain dense under arbitrary partitions of the input space.
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