Dividing sums of cycles in the semiring of functional digraphs
Abstract
Functional digraphs are unlabelled finite digraphs where each vertex has exactly one out-neighbor. They are isomorphic classes of finite discrete-time dynamical systems. Endowed with the direct sum and product, functional digraphs form a semiring with an interesting multiplicative structure. For instance, we do not know if the following division problem can be solved in polynomial time: given two functional digraphs A and B, does A divide B? That A divides B means that there exists a functional digraph X such that AX is isomorphic to B, and many such X can exist. We can thus ask for the number of solutions X. In this paper, we focus on the case where B is a sum of cycles (a disjoint union of cycles, corresponding to the limit behavior of finite discrete-time dynamical systems). There is then a na\"ive sub-exponential algorithm to compute the non-isomorphic solutions X, and our main result is an improvement of this algorithm which has the property to be polynomial when A is fixed. It uses a divide-and-conquer technique that should be useful for further developments on the division problem.
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