Recursive-Cube-of-Rings (RCR) Revisited: Properties and Enhancement

Abstract

We study recursive-cube-of-rings (RCR), a class of scalable graphs that can potentially provide rich inter-connection network topology for the emerging distributed and parallel computing infrastructure. Through rigorous proof and validating examples, we have corrected previous misunderstandings on the topological properties of these graphs, including node degree, symmetry, diameter and bisection width. To fully harness the potential of structural regularity through RCR construction, new edge connecting rules are proposed. The modified graphs, referred to as Class-II RCR, are shown to possess uniform node degrees, better connectivity and better network symmetry, and hence will find better application in parallel computing.