- 1.G. A. Geist, and V. S. Sunderam,"Network Based Computing on the PVM System," Technical Report, Oak Ridge National Lab., 1991.Google Scholar
- 2.A. Geist et al., "PVM3 User's Guide and Reference Manual," Technical Report ORNL/TM-12187,Oak Ridge National Lab., Oak Ridge, TN 37831, May 1993.Google Scholar
- 3.S. Ahuja, N. Carriero, and D. Gelernter, "Linda and Friends," IEEE Computer, Vol. 19(8), pp./16-34, 1986. Google ScholarDigital Library
- 4.D. J. Greaves, D. Lioupis, and A. Hopper,"The Cambridge Backbone Ring," IEEE lnfocom'90, San Francisco, June 1990, pp. 8-14,Google Scholar
- 5.J. Walrand, Communication Networks, Aksen, 1991. Google ScholarDigital Library
- 6.G. Watson et al., "HANGMAN Gb/s Network," IEEE Network Magazine, Vol. 6(4), July 1992, pp. 10-18.Google ScholarDigital Library
- 7.E. C. Foudriat et al., "A Carrier Sensed Multiple Access Protocol for High Data Rate Ring Networks," ACM Computer Communication Review, Vol. 21(2), April 1991, pp. 59-70. Google ScholarDigital Library
- 8.J. Rothnie, "Overview of the KSRI Computer System," Kendall Square Res. Report TR 920200 i, 1992.Google Scholar
- 9.H. Burkhardt, Technical Summary of KSR-I, Kendall Square Research Corporation, Waltham, MA, 1992.Google Scholar
- 10.W. Weiser et al., "Status and Perf. of the Zmob Parallel Processing Systems," Compcon, pp. 71-73, 1985.Google Scholar
- 11.Y. Shih and J. Fier,"Hupercube Systems and Key Applications," in Kai Hwang and Doug Degroot (Eds), Parallel Processing for Supercomputing and Artificial Intelligence, pp. 203-244, McGraw Hill, 1989.Google Scholar
- 12.F. P. Preparata and J. E. Vuillemin,"The Cube- Connected Cycles: A Versatile Network for Parallel Computation," 20th Syrup. Foundations Computer Sci.,pp 140-147, 1979.Google Scholar
- 13.C. Partridge, Gigabit Networking, Addison Wesley, 1994. Google ScholarDigital Library
- 14.G. Almasi and A. Gottlieb, Highly Parallel Computing, Benjamin Cummings, 1994. Google ScholarDigital Library
- 15.K. Hwang, Advanced Computer Architecture, McGraw Hill, 1993. Google ScholarDigital Library
- 16.D. D. James et al.,"Scalable Coherence Interface," iEEE Computer, Vol. 23(6), 1990, pp. 74-77. Google ScholarDigital Library
- 17.A. Varma, and C. S. Raghavendra, Interconnection Networks for Multiprocessors and Multicomputers: Theory and Practice, IEEE Computer Soc. Press, 1994. Google ScholarDigital Library
- 18.F. N. Sibai, "Multi-Node Communication in Hyper- Ring Networks," 12th ACM Symposium on Applied Computing, San Jose, 1997, pp. 380-383. Google ScholarDigital Library
- 19.F. N. Sibai, "On the Impact of Pipelined Communication in Hierarchical Ring Multicomputers," 12th ACM Symposium on Applied Computing, San Jose, 1997, pp. 384-388. Google ScholarDigital Library
Index Terms
- The hyper-ring network: a cost-efficient topology for scalable multicomputers
Recommendations
Performance of the hyper-ring multicomputer
SAC '98: Proceedings of the 1998 ACM symposium on Applied ComputingOptimal Clustering of Hierarchical Hyper-Ring Multicomputers
The Hyper-Ring (HR) is presented as a hierarchical and scalable ring-based topology for small-scale to massively parallel systems which eliminates the major disadvantages of large-scale rings. With a fixed node degree, a low cost, symmetric properties, ...
A Characterization and Analysis of Parallel Processor Interconnection Networks
The permuting properties of various interconnection networks have been extensively studied. However, not too much attention has been focused on how the permuting properties interact with the mapping of tasks to processors in realizing the communication ...
Comments