Lifting to Parity Decision Trees Via Stifling

A. Chattopadhyay, Nikhil S. Mande, Swagato Sanyal, Suhail Sherif
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引用次数: 3

Abstract

We show that the deterministic decision tree complexity of a (partial) function or relation $f$ lifts to the deterministic parity decision tree (PDT) size complexity of the composed function/relation $f \circ g$ as long as the gadget $g$ satisfies a property that we call stifling. We observe that several simple gadgets of constant size, like Indexing on 3 input bits, Inner Product on 4 input bits, Majority on 3 input bits and random functions, satisfy this property. It can be shown that existing randomized communication lifting theorems ([G\"{o}\"{o}s, Pitassi, Watson. SICOMP'20], [Chattopadhyay et al. SICOMP'21]) imply PDT-size lifting. However there are two shortcomings of this approach: first they lift randomized decision tree complexity of $f$, which could be exponentially smaller than its deterministic counterpart when either $f$ is a partial function or even a total search problem. Second, the size of the gadgets in such lifting theorems are as large as logarithmic in the size of the input to $f$. Reducing the gadget size to a constant is an important open problem at the frontier of current research. Our result shows that even a random constant-size gadget does enable lifting to PDT size. Further, it also yields the first systematic way of turning lower bounds on the width of tree-like resolution proofs of the unsatisfiability of constant-width CNF formulas to lower bounds on the size of tree-like proofs in the resolution with parity system, i.e., $\textit{Res}$($\oplus$), of the unsatisfiability of closely related constant-width CNF formulas.
通过窒息提升到奇偶性决策树
我们证明,(部分)函数或关系$f$的确定性决策树复杂性提升到组合函数/关系$f \circ g$的确定性奇偶性决策树(PDT)大小复杂性,只要小部件$g$满足我们称之为窒息的性质。我们观察到几个简单的常量函数,如3个输入位的索引、4个输入位的内积、3个输入位的多数和随机函数,都满足这个性质。可以证明现有的随机化通信提升定理(Göös, Pitassi, Watson。[j], [Chattopadhyay等。]SICOMP'21])意味着pdt尺寸的提升。然而,这种方法有两个缺点:首先,它们提高了$f$的随机决策树复杂性,当$f$是一个部分函数甚至是一个全部搜索问题时,它可能比它的确定性对应物小得多。其次,在这些提升定理中,小工具的大小与$f$输入大小的对数一样大。将小装置的尺寸减小到一个常数是当前研究前沿的一个重要的开放性问题。我们的结果表明,即使是一个随机的恒定尺寸的小工具也可以提升到PDT尺寸。此外,它还给出了第一个系统的方法,将恒定宽度CNF公式的不满足的树状分辨率证明的宽度下界转化为具有奇偶性系统的分辨率中树状证明的大小下界,即密切相关的恒定宽度CNF公式的不满足的$\textit{Res}$ ($\oplus$)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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