A Strong Direct Sum Theorem for Distributional Query Complexity

Guy Blanc, Caleb Koch, Carmen Strassle, Li-Yang Tan
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Abstract

Consider the expected query complexity of computing the $k$-fold direct product $f^{\otimes k}$ of a function $f$ to error $\varepsilon$ with respect to a distribution $\mu^k$. One strategy is to sequentially compute each of the $k$ copies to error $\varepsilon/k$ with respect to $\mu$ 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 $f^{\otimes k}$ is likely to remain dense under arbitrary partitions of the input space.
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分布式查询复杂性的强直接和定理
考虑计算一个函数 $f$ 相对于分布 $\mu^k$ 的误差 $\varepsilon 的 $k$ 倍直积 $f^{otimes k}$的预期查询复杂度。一种策略是依次计算与 $\mu$ 有关的误差 $\varepsilon/k$ 的每个 $k$ 副本,并应用联合边界。我们证明了一个强直接和定理,表明这种天真的策略本质上是最优的。特别是,计算直接乘积必须同时降低查询复杂度和误差。强直接求和定理与只显示查询复杂度或误差骤增而不同时显示查询复杂度和误差骤增的结果形成鲜明对比。对于分布式查询复杂度,已经有很多这样的结果,可以追溯到(Impagliazzo、Raz、Wigderson,1994 年)和(Nisan、Rudich、Saks,1994 年),但是强直接求和定理一直没有出现。我们工作中的一个关键想法是首次在查询复杂性中使用 "硬核定理"(Impagliazzo,1995 年)。我们证明了与之相伴的一个新的 "弹性lemma",表明$f^{otimes k}$的硬核很可能在输入空间的任意分区下保持密集。
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