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Efficient Identity Testing and Polynomial Factorization over Non-associative Free Rings
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Efficient Identity Testing and Polynomial Factorization over Non-associative Free Rings
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In this paper we study arithmetic computations in the nonassociative, and noncommutative free polynomial ring $\mathbb{F}\{x_1,x_2,\ldots,x_n\}$. Prior to this work, nonassociative arithmetic computation was considered by Hrubes, Wigderson, and Yehudayoff [HWY10], and they showed lower bounds and proved completeness results. We consider Polynomial Identity Testing (PIT) and polynomial factorization over $\mathbb{F}\{x_1,x_2,\ldots,x_n\}$ and show the following results. (1) Given an arithmetic circuit $C$ of size $s$ computing a polynomial $f\in \mathbb{F} \{x_1,x_2,\ldots,x_n\}$ of degree $d$, we give a deterministic $poly(n,s,d)$ algorithm to decide if $f$ is identically zero polynomial or not. Our result is obtained by a suitable adaptation of the PIT algorithm of Raz-Shpilka [RS05] for noncommutative ABPs. (2) Given an arithmetic circuit $C$ of size $s$ computing a polynomial $f\in \mathbb{F} \{x_1,x_2,\ldots,x_n\}$ of degree $d$, we give an efficient deterministic algorithm to compute circuits for the irreducible factors of $f$ in time $poly(n,s,d)$ when $\mathbb{F}=\mathbb{Q}$. Over finite fields of characteristic $p$, our algorithm runs in time $poly(n,s,d,p)$.
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