Deterministic Factorization of Sparse Polynomials with Bounded Individual Degree

08/20/2018
by   Vishwas Bhargava, et al.
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In this paper we study the problem of deterministic factorization of sparse polynomials. We show that if f ∈F[x_1,x_2,... ,x_n] is a polynomial with s monomials, with individual degrees of its variables bounded by d, then f can be deterministically factored in time s^poly(d) n. Prior to our work, the only efficient factoring algorithms known for this class of polynomials were randomized, and other than for the cases of d=1 and d=2, only exponential time deterministic factoring algorithms were known. A crucial ingredient in our proof is a quasi-polynomial sparsity bound for factors of sparse polynomials of bounded individual degree. In particular we show if f is an s-sparse polynomial in n variables, with individual degrees of its variables bounded by d, then the sparsity of each factor of f is bounded by s^O(d^2n). This is the first nontrivial bound on factor sparsity for d>2. Our sparsity bound uses techniques from convex geometry, such as the theory of Newton polytopes and an approximate version of the classical Carathéodory's Theorem. Our work addresses and partially answers a question of von zur Gathen and Kaltofen (JCSS 1985) who asked whether a quasi-polynomial bound holds for the sparsity of factors of sparse polynomials.

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