Counting basic-irreducible factors mod p^k in deterministic poly-time and p-adic applications

02/20/2019
by   Ashish Dwivedi, et al.
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Finding an irreducible factor, of a polynomial f(x) modulo a prime p, is not known to be in deterministic polynomial time. Though there is such a classical algorithm that counts the number of irreducible factors of f p. We can ask the same question modulo prime-powers p^k. The irreducible factors of f p^k blow up exponentially in number; making it hard to describe them. Can we count those irreducible factors p^k that remain irreducible mod p? These are called basic-irreducible. A simple example is in f=x^2+px p^2; it has p many basic-irreducible factors. Also note that, x^2+p p^2 is irreducible but not basic-irreducible! We give an algorithm to count the number of basic-irreducible factors of f p^k in deterministic poly(deg(f),klog p)-time. This solves the open questions posed in (Cheng et al, ANTS'18 & Kopp et al, Math.Comp.'19). In particular, we are counting roots p^k; which gives the first deterministic poly-time algorithm to compute Igusa zeta function of f. Also, our algorithm efficiently partitions the set of all basic-irreducible factors (possibly exponential) into merely deg(f)-many disjoint sets, using a compact tree data structure and split ideals.

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