New Direct Sum Tests

arXiv - CS - Computational Complexity Pub Date : 2024-09-16 DOI:arxiv-2409.10464

Alek Westover, Edward Yu, Kai Zheng

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Abstract

A function $f:[n]^{d} \to \mathbb{F}_2$ is a \defn{direct sum} if there are functions $L_i:[n]\to \mathbb{F}_2$ such that ${f(x) = \sum_{i}L_i(x_i)}$. In this work we give multiple results related to the property testing of direct sums. Our first result concerns a test proposed by Dinur and Golubev in 2019. We call their test the Diamond test and show that it is indeed a direct sum tester. More specifically, we show that if a function $f$ is $\epsilon$-far from being a direct sum function, then the Diamond test rejects $f$ with probability at least $\Omega_{n,\epsilon}(1)$. Even in the case of $n = 2$, the Diamond test is, to the best of our knowledge, novel and yields a new tester for the classic property of affinity. Apart from the Diamond test, we also analyze a broad family of direct sum tests, which at a high level, run an arbitrary affinity test on the restriction of $f$ to a random hypercube inside of $[n]^d$. This family of tests includes the direct sum test analyzed in \cite{di19}, but does not include the Diamond test. As an application of our result, we obtain a direct sum test which works in the online adversary model of \cite{KRV}. Finally, we also discuss a Fourier analytic interpretation of the diamond tester in the $n=2$ case, as well as prove local correction results for direct sum as conjectured by Dinur and Golubev.

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新的直接总和测试

函数 $f:[n]^{d}\如果有函数 $L_i:[n]\to \mathbb{F}_2$ 使得 ${f(x) = \sum_{i}L_i(x_i)}$ 是一个 \defn{direct sum}，那么这个函数就是一个 \defn{direct sum}。在这项工作中，我们给出了与直方和属性检验相关的多个结果。我们的第一个结果涉及 Dinur 和 Golubev 于 2019 年提出的一个检验。我们把他们的检验称为 Diamond 检验，并证明它确实是一个直接求和检验。更具体地说，我们证明，如果函数 $f$ 离直接求和函数很远，那么 Diamond 检验拒绝 $f$ 的概率至少为 $\Omega_{n,\epsilon}(1)$。据我们所知，即使在 $n = 2$ 的情况下，钻石检验也是新颖的，它为亲和这一经典性质提供了新的检验方法。除钻石检验外，我们还分析了直接求和检验的广泛系列，它们在高层次上对 $f$ 到 $[n]^d$ 内随机超立方体的限制进行任意亲和性检验。这个检验系列包括在 \cite{di19}中分析的直接求和检验，但不包括戴蒙德检验。作为我们结果的一个应用，我们得到了一个直接求和检验，它可以在 \cite{KRV}的在线对抗模型中工作。最后，我们还讨论了在 $n=2$ 情况下 diamondtester 的傅立叶分析解释，并证明了 Dinur 和 Golubev 所猜想的 directsum 的局部修正结果。

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arXiv - CS - Computational Complexity

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