Optimal Pseudorandom Generators for Low-Degree Polynomials Over Moderately Large Fields

arXiv - CS - Symbolic Computation Pub Date : 2024-02-19 DOI:arxiv-2402.11915
Ashish Dwivedi, Zeyu Guo, Ben Lee Volk
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Abstract

We construct explicit pseudorandom generators that fool $n$-variate polynomials of degree at most $d$ over a finite field $\mathbb{F}_q$. The seed length of our generators is $O(d \log n + \log q)$, over fields of size exponential in $d$ and characteristic at least $d(d-1)+1$. Previous constructions such as Bogdanov's (STOC 2005) and Derksen and Viola's (FOCS 2022) had either suboptimal seed length or required the field size to depend on $n$. Our approach follows Bogdanov's paradigm while incorporating techniques from Lecerf's factorization algorithm (J. Symb. Comput. 2007) and insights from the construction of Derksen and Viola regarding the role of indecomposability of polynomials.
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中等大字段上低度多项式的最佳伪随机发生器
我们构建了明确的伪随机发生器,这些发生器可以在有限域 $\mathbb{F}_q$ 上愚弄度数最多为 $d$ 的 $n$-variatepolynomials 。我们的生成器的种子长度是 $O(d\log n + \log q)$,在大小为 $d$ 的指数域上,特性至少为 $d(d-1)+1$。之前的结构,如 Bogdanov 的(STOC 2005)和 Derksen 与 Viola 的(FOCS2022),要么种子长度不够理想,要么要求域大小取决于 $n$。我们的方法沿用了 Bogdanov 的范式,同时结合了 Lecerf 因式分解算法(《符号计算杂志》,2007 年)中的技术,以及 Derksen 和 Viola 的结构中关于多项式不可分解性作用的见解。
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arXiv - CS - Symbolic Computation
arXiv - CS - Symbolic Computation
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