非交换多项式分解的多元到二元化简

V. Arvind, Pushkar S. Joglekar
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引用次数: 0

摘要

基于Bergman的一个定理,证明了多元非交换多项式分解是确定多项式——时间可约为二元非交换多项式的分解。更准确地说,我们证明了以下内容:(1)在白盒环境下,给定一个n变量非交换多项式f作为一个算术电路(或代数分支程序),计算f的完全分解是确定多项式时间可约为f中非交换二元多项式g的白盒分解;将f转换成一个g (p)的电路。对于g)的ABP,并且给定g的完全因子分解,该约简在多项式时间内恢复f的完全因子分解。我们还在黑箱设置中获得了类似的确定性多项式时间缩减。(2)此外,我们在有理数域上证明了4 × 4矩阵的二元线性矩阵分解至少与分解无平方整数一样困难。这表明,即使在二元情况下,将非交换多项式分解分解为线性矩阵分解(正如我们最近的工作[AJ22]所做的那样)也不太可能在有理数领域取得成功。相反,3 × 3矩阵的多元线性矩阵分解在有理数上是多项式时间。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Multivariate to Bivariate Reduction for Noncommutative Polynomial Factorization
Based on a theorem of Bergman we show that multivariate noncommutative polynomial factorization is deterministic polynomial-time reducible to the factorization of bivariate noncommutative polynomials. More precisely, we show the following: (1) In the white-box setting, given an n-variate noncommutative polynomial f in Fover a field F (either a finite field or the rationals) as an arithmetic circuit (or algebraic branching program), computing a complete factorization of f is deterministic polynomial-time reducible to white-box factorization of a noncommutative bivariate polynomial g in F; the reduction transforms f into a circuit for g (resp. ABP for g), and given a complete factorization of g the reduction recovers a complete factorization of f in polynomial time. We also obtain a similar deterministic polynomial-time reduction in the black-box setting. (2) Additionally, we show over the field of rationals that bivariate linear matrix factorization of 4 x 4 matrices is at least as hard as factoring square-free integers. This indicates that reducing noncommutative polynomial factorization to linear matrix factorization (as done in our recent work [AJ22]) is unlikely to succeed over the field of rationals even in the bivariate case. In contrast, multivariate linear matrix factorization for 3 x 3 matrices over rationals is in polynomial time.
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