Idempotent and p-potent quadratic functions: Distribution of nonlinearity and co-dimension

Abstract

The Walsh transform Q of a quadratic function Q:Fpn→ Fp satisfies |Q(b)| ∈ \0,pn+s2\ for all b∈ Fpn, where 0 s n-1 is an integer depending on Q. In this article, we study the following three classes of quadratic functions of wide interest. The class C1 is defined for arbitrary n as C1 = \Q(x) = Tr(Σi=1 (n-1)/2aix2i+1)\;:\; ai ∈ F2\, and the larger class C2 is defined for even n as C2 = \Q(x) = Tr(Σi=1(n/2)-1aix2i+1) + Trn/2(an/2x2n/2+1) \;:\; ai ∈ F2\. For an odd prime p, the subclass D of all p-ary quadratic functions is defined as D = \Q(x) = Tr(Σi=0 n/2aixpi+1)\;:\; ai ∈ Fp\. We determine the distribution of the parameter s for C1, C2 and D. As a consequence we obtain the distribution of the nonlinearity for the rotation symmetric quadratic Boolean functions, and in the case p > 2, our results yield the distribution of the co-dimensions for the rotation symmetric quadratic p-ary functions, which have been attracting considerable attention recently. We also present the complete weight distribution of the subcodes of the second order Reed-Muller codes corresponding to C1 and C2.