Abstract
The parity of a permutation π can be defined as the parity of the number of inversions in π. The signature e(π) of π is an encoding of the parity in a multiplicative group of order 2: e(π) = (−1)inv(π). It is also well known that half of the permutations of a finite set are even and half are odd. In this paper, we explore the natural notion of parity for larger moduli; that is, we define the m-signature of a permutation π to be the number of inversions of π, reduced modulo m. Unlike with the 2-signatures of permutations of sets, the m-signatures of the permutations of a multiset are not typically equi-distributed among the modulo m residue classes, though the distribution is close to uniform. We present a recursive method of calculating the distribution of m-signatures of permutations of a multiset, develop properties of this distribution, and present sufficient conditions for the distribution to be uniform.
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