Title :
Detecting Rational Points on Hypersurfaces over Finite Fields
Author :
Kopparty, Swastik ; Yekhanin, Sergey
Author_Institution :
CSAIL, MIT, Cambridge, MA
Abstract :
We study the complexity of deciding whether a given homogeneous multivariate polynomial has a non- trivial root over a finite field. Given a homogeneous algebraic circuit C that computes an n- variate polynomial p(x) of degree d over a finite field Fq, we wish to determine if there exists a nonzero xisinFq n with C(x)=0. For constant n there are known algorithms for doing this efficiently. However for linear n, the problem becomes NP hard. In this paper, using interesting algebraic techniques, we show that if d is prime and n>d/2, the problem can be solved over sufficiently large finite fields in randomized polynomial time. We complement this result by showing that relaxing any of these constraints makes the problem intractable again.
Keywords :
algebra; computational complexity; NP hard problem; algebraic circuit; finite fields; hypersurfaces; multivariate polynomial; Circuits; Computational complexity; Galois fields; Gaussian processes; History; Inference algorithms; Linear algebra; Polynomials; Testing; Chevalley-Warning Theorem; Lang-Weil Theorem; Nonsingular Spaces of Matrices; Polynomial Identity Testing;
Conference_Titel :
Computational Complexity, 2008. CCC '08. 23rd Annual IEEE Conference on
Conference_Location :
College Park, MD
Print_ISBN :
978-0-7695-3169-4
DOI :
10.1109/CCC.2008.36
