Arithmetic Circuits with Locally Low Algebraic Rank

IF 0.6 4区 计算机科学 Q4 COMPUTER SCIENCE, THEORY & METHODS Theory of Computing Pub Date : 2016-05-29 DOI:10.4086/toc.2017.v013a006
Mrinal Kumar, Shubhangi Saraf
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引用次数: 27

Abstract

In recent years, there has been a flurry of activity towards proving lower bounds for homogeneous depth-4 arithmetic circuits, which has brought us very close to statements that are known to imply $\textsf{VP} \neq \textsf{VNP}$. It is open if these techniques can go beyond homogeneity, and in this paper we make some progress in this direction by considering depth-4 circuits of low algebraic rank, which are a natural extension of homogeneous depth-4 circuits. A depth-4 circuit is a representation of an $N$-variate, degree-$n$ polynomial $P$ as \[ P = \sum_{i = 1}^T Q_{i1}\cdot Q_{i2}\cdot \cdots \cdot Q_{it} \; , \] where the $Q_{ij}$ are given by their monomial expansion. Homogeneity adds the constraint that for every $i \in [T]$, $\sum_{j} \operatorname{deg}(Q_{ij}) = n$. We study an extension, where, for every $i \in [T]$, the algebraic rank of the set $\{Q_{i1}, Q_{i2}, \ldots ,Q_{it}\}$ of polynomials is at most some parameter $k$. Already for $k = n$, these circuits are a generalization of the class of homogeneous depth-4 circuits, where in particular $t \leq n$ (and hence $k \leq n$). We study lower bounds and polynomial identity tests for such circuits and prove the following results. We show an $\exp{(\Omega(\sqrt{n}\log N))}$ lower bound for such circuits for an explicit $N$ variate degree $n$ polynomial family when $k \leq n$. We also show quasipolynomial hitting sets when the degree of each $Q_{ij}$ and the $k$ are at most $\operatorname{poly}(\log n)$. A key technical ingredient of the proofs, which may be of independent interest, is a result which states that over any field of characteristic zero, up to a translation, every polynomial in a set of polynomials can be written as a function of the polynomials in a transcendence basis of the set. We combine this with methods based on shifted partial derivatives to obtain our final results.
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具有局部低代数秩的算术电路
近年来,在证明齐次深度-4算术电路的下界方面出现了一系列活动,这使我们非常接近于已知隐含$\textsf{VP} \neq \textsf{VNP}$的语句。这些技术是否可以超越同质性是开放的,本文通过考虑低代数秩的深度-4电路,这是齐次深度-4电路的自然扩展,在这个方向上取得了一些进展。深度-4电路是$N$ -变量,度- $n$多项式$P$的表示形式\[ P = \sum_{i = 1}^T Q_{i1}\cdot Q_{i2}\cdot \cdots \cdot Q_{it} \; , \],其中$Q_{ij}$由其单项式展开给出。同质性增加了约束,对于每个$i \in [T]$, $\sum_{j} \operatorname{deg}(Q_{ij}) = n$。我们研究了一个扩展,其中,对于每一个$i \in [T]$,多项式集合$\{Q_{i1}, Q_{i2}, \ldots ,Q_{it}\}$的代数秩最多是某个参数$k$。对于$k = n$,这些电路是齐次深度-4电路类的泛化,特别是$t \leq n$(因此$k \leq n$)。我们研究了这类电路的下界和多项式恒等检验,并证明了以下结果。对于显式的$N$变量度$n$多项式族,我们给出了这种电路的$\exp{(\Omega(\sqrt{n}\log N))}$下界,当$k \leq n$。我们还展示了当每个$Q_{ij}$和$k$的度数最多为$\operatorname{poly}(\log n)$时的拟多项式命中集。证明的一个关键技术成分,可能是独立的兴趣,是一个结果,它表明在任何特征为零的域上,直到平移,多项式集合中的每个多项式都可以写成多项式在集合的超越基中的函数。我们将其与基于移位偏导数的方法结合起来得到最终结果。
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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来源期刊
Theory of Computing
Theory of Computing Computer Science-Computational Theory and Mathematics
CiteScore
2.60
自引率
10.00%
发文量
23
期刊介绍: "Theory of Computing" (ToC) is an online journal dedicated to the widest dissemination, free of charge, of research papers in theoretical computer science. The journal does not differ from the best existing periodicals in its commitment to and method of peer review to ensure the highest quality. The scientific content of ToC is guaranteed by a world-class editorial board.
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