Black-box Identity Testing of Noncommutative Rational Formulas of Inversion Height Two in Deterministic Quasipolynomial-time

V. Arvind, Abhranil Chatterjee, P. Mukhopadhyay
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引用次数: 2

Abstract

Hrube\v{s} and Wigderson (2015) initiated the complexity-theoretic study of noncommutative formulas with inverse gates. They introduced the Rational Identity Testing (RIT) problem which is to decide whether a noncommutative rational formula computes zero in the free skew field. In the white-box setting, deterministic polynomial-time algorithms are known for this problem following the works of Garg, Gurvits, Oliveira, and Wigderson (2016) and Ivanyos, Qiao, and Subrahmanyam (2018). A central open problem in this area is to design efficient deterministic black-box identity testing algorithm for rational formulas. In this paper, we solve this problem for the first nested inverse case. More precisely, we obtain a deterministic quasipolynomial-time black-box RIT algorithm for noncommutative rational formulas of inversion height two via a hitting set construction. Several new technical ideas are involved in the hitting set construction, including key concepts from matrix coefficient realization theory (Vol\v{c}i\v{c}, 2018) and properties of cyclic division algebra (Lam, 2001). En route to the proof, an important step is to embed the hitting set of Forbes and Shpilka for noncommutative formulas (2013) inside a cyclic division algebra of small index.
确定性拟多项式时间反演高度2的非交换有理公式的黑盒恒等式检验
Hrube\v{s}和Wigderson(2015)开创了具有逆门的非交换公式的复杂性理论研究。他们引入了有理数恒等检验(RIT)问题,即判定非交换有理数公式在自由偏场中是否为零。在白盒环境中,确定性多项式时间算法在Garg, Gurvits, Oliveira, and Wigderson(2016)和Ivanyos, Qiao, and Subrahmanyam(2018)的工作之后被称为这个问题。该领域的一个核心开放问题是为有理公式设计高效的确定性黑盒恒等式检验算法。在本文中,我们解决了第一种嵌套逆情况下的这个问题。更精确地说,我们通过一个碰撞集构造得到了反演高度为2的非交换有理公式的确定性拟多项式时间黑箱RIT算法。撞击集的构造涉及了几个新的技术思想,包括矩阵系数实现理论(Vol\v{c}i\v{c}, 2018)和循环除法代数性质(Lam, 2001)中的关键概念。在证明的过程中,一个重要的步骤是将Forbes和Shpilka的非交换公式(2013)的命中集嵌入到一个小指数的循环除法代数中。
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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