Efficient Methods in Counting Generalized Necklaces
Abstract
It is shown in [7] by Venkaiah in 2015 that a category of the number of generalized can be computed using the expression \begin{equation*} e(n, q) = \frac{1}{(q-1) ord(\lambda) n} \sum^{ord(\lambda)n}_{\substack{t \in \mathbb{F}_q \setminus \{0\}, i=1 \\ t^{\frac{n}{\gcd(n, i)}} \lambda^{\frac{i}{\gcd(n,i)}} = 1}}(q^{\gcd(n,i)} - 1) + 1 \end{equation*} where (number of colors) is the size of the prime field , is the constant of the consta-cyclic shift, is the length of the necklace. However, direct evaluation of this expression requires, apart from the computations, exponentiations and multiplications, at most exponentiations and at most additions and hence computationally intensive. This note discusses various other ways of evaluating the expression and tries to throw some light on amortizing the amount of computation.
Keywords
Cite
@article{arxiv.1808.03155,
title = {Efficient Methods in Counting Generalized Necklaces},
author = {V Ch Venkaiah},
journal= {arXiv preprint arXiv:1808.03155},
year = {2018}
}
Comments
8 pages