Permutation generation for routing in bcube connected crossbars

BCube Connected Crossbars (BCCC) is a recently proposed network structure with short diameter and good expandability for cloud-based networks. Its diameter increases linearly to its order (dimension) and it has multiple near-equal parallel paths between any pair of servers. These advantages make BCCC a very promising network structure for next generation cloudbased networks. An efficient routing algorithm for BCCC has also been proposed, in which a permutation is used to determine which order (or dimension) will be routed first. However, there is no discussion yet about how to choose the permutation. In this paper, we mainly focus on permutation generations for routing in BCCC. We analyze the impact of choosing different permutations in both theory and simulation and propose two efficient permutation generation algorithms which take advantage of BCCC structure and give good performance.