Optimal routing in double loop networks

Optimal routing in double loop networks

In this paper, we study the problem of finding the shortest path in circulant graphs with an arbitrary number of jumps. We provide algorithms specifically tailored for weighted undirected and directed circulant graphs with two jumps which compute the shortest path. Our method only requires O(log N ) arithmetic operations and the total bit complexity is O(log2 N log log N log log log N ), where ...

Routing Tables for Message Routing in Distributed Double Loop Networks

Distributed double loop networks are very advantageous for the design and implementation of local area networks and parallel processing architectures, mainly due to their fault-tolerance, low communication latency, and regularity. In this paper, an algorithm for the formulation of routing tables that facilitate routing of messages in a distributed double loop network is presented. The algorithm...

An efficient algorithm to find optimal double loop networks

The problem of finding optimal diameter double loop networks with a fixed number of vertices has been widely studied. In this work, we give an algorithmic solution of the problem by using a geometrical approach. Given a fixed number of vertices n, the general problem is to find "steps" s 1 , s z e ~',, such that the digraph G(n; sl,s2) with set of vertices V = 7 / a n d adjacencies given by i ~...

Optimal double-loop networks with non-unit steps∗

A double-loop digraph G(N ; s1, s2) = G(V,E) is defined by V = ZN and E = {(i, i + s1), (i, i + s2)| i ∈ V }, for some fixed steps 1 ≤ s1 < s2 < N with gcd(N, s1, s2) = 1. Let D(N ; s1, s2) be the diameter of G and let us define D(N) = min 1≤s1<s2<N, gcd(N,s1,s2)=1 D(N ; s1, s2), D1(N) = min 1<s<N D(N ; 1, s). Some early works about the diameter of these digraphs studied the minimization of D(N...

Some Optimal Designs of Undirected Double-loop Networks