Performance of split routing algorithm for three-stage multicast networks

This paper studies three-stage Clos (1953) switching networks for multicast communications in terms of their blocking probabilities on a random traffic model. Even though the lack of multicast capability in input-stage switches requires a prohibitively large number of middle switches to provide compatible requests with nonblocking paths, the probabilistic model gives an observation that the blocking probability decreases drastically and then approaches zero as the number of middle switches is far less than the theoretical bound. The S-shaped curves of blocking probability versus degree of fanout indicate that high fanout requests are mostly blocked at some given reference network utilization. A split routing algorithm and its blocking probability are introduced to enhance the routability of the high fanout requests. We also corroborate the analytic model by performing network simulations based on a random request generator and a random routing strategy.

[1]  Yuanyuan Yang,et al.  Nonblocking Broadcast Switching Networks , 1991, IEEE Trans. Computers.

[2]  F. K. Hwang,et al.  BROADCASTING IN A THREE-STAGE POINT-TO-POINT NONBLOCKING NETWORK , 1995 .

[3]  Charles Clos,et al.  A study of non-blocking switching networks , 1953 .

[4]  Yuanyuan Yang,et al.  Modeling the blocking behavior of Clos networks , 1997, Advances in Switching Networks.

[5]  L. Veltri,et al.  Blocking probability of three-stage multicast switches , 1998, ICC '98. 1998 IEEE International Conference on Communications. Conference Record. Affiliated with SUPERCOMM'98 (Cat. No.98CH36220).

[6]  Yuanyuan Yang,et al.  Performance analysis and simulation of multicast networks , 1997, Proceedings of the 1997 International Conference on Parallel Processing (Cat. No.97TB100162).

[7]  Gerald M. Masson,et al.  Generalized multi-stage connection networks , 1972, Networks.

[8]  C. Y. Lee Analysis of switching networks , 1955 .

[9]  Clark D. Thomborson,et al.  Generalized Connection Networks for Parallel Processor Intercommunication , 1978, IEEE Trans. Computers.

[10]  F. K. Hwang Three-stage multiconnection networks which are nonblocking in the wide sense , 1979, The Bell System Technical Journal.

[11]  F. K. Hwang Rearrangeability of multi-connection three-stage clos networks , 1972, Networks.

[12]  Tse-yun Feng,et al.  A Survey of Interconnection Networks , 1981, Computer.