Providing Good Expandability for the Networks by using Dual Port Server

Authors(3) :-R. Hamsaveni, A. Lohitha, G. Sureshbabu

Designing an economical configuration for information centers which will deliver sufficient information measure and consistent latency performance to an oversized variety of servers has been a crucial and difficult downside. In existing system, an opportunist cooperation strategy for D2D transmission by exploiting the caching capability at the users to manage the interference among D2D links. we have a tendency to think about overlay inband D2D, divide the D2D users into clusters, and assign completely different frequency bands to cooperative and non-cooperative D2D links. to produce high chance for cooperative transmission, we have a tendency to introduce a caching policy. to maximise the network output, we have a tendency to together optimize the cluster size and information measure allocation, wherever the closed-form expression of the information measure allocation issue is obtained. . during this paper, we have a tendency to gift a completely unique server-centric information center configuration known as BCube connected crossbars (BCCCs), which may offer sensible network performance exploitation cheap trade goods off-theshelf switches and trade goods servers with solely 2 network interface card (NIC) ports. a major advantage of BCCC is its sensible expandability. once there's a desire for growth, we are able to simply add new servers and switches into the present BCCC with very little alteration of the present structure. Meanwhile, BCCC will accommodate an oversized variety of servers whereas keeping a awfully little network diameter. A fascinating property of BCCC is that its diameter will increase solely linearly to the network order (i.e., the amount of dimensions), that is superior to most of the present server-centric networks, like FiConn and BCN, whose diameters increase exponentially with network order. additionally, there square measure an expensive set of parallel methods with similar length between any try of servers in BCCC, that allows BCCC to not solely deliver ample information measure capability and predictable latency to finish hosts, however conjointly offer sleek performance degradation just in case of part failure. we have a tendency to conduct comprehensive comparisons between BCCC with alternative common server-centric network topologies, like FiConn and BCN. we conjointly propose a good addressing theme and routing algorithms for BCCC.

Authors and Affiliations

R. Hamsaveni
Assistant Professor, Department of ComputerApplications, Sri Venkateswara College of Engineering and Technology, Chittoor, Andhra Pradesh,India
A. Lohitha
PG Scholar, Department of Computer Applications,Sri Venkateswara College of Engineering and Technology, Chittoor, Andhra Pradesh, India
G. Sureshbabu
PG Scholar, Department of ComputerApplications,Sri Venkateswara College of Engineering and Technology, Chittoor, Andhra Pradesh, India

BCube connected crossbars (BCCC), network interface card, topology, server-centric networks

  1. L. N. Bhuyan and D. P. Agrawal, “Generalized hypercube and hyperbus structures for a computer network,” IEEE Trans. Comput., vol. C-33, no. 4, pp. 323-333, Apr. 1984.
  2. J. M. Gonzalez, V. Paxson, and N. Weaver, “Shunting: A hardware/ software architecture for flexible, high-performance network intrusion prevention,” in Proc. 14th ACM Conf. Comput. Commun. Secur., 2007, pp. 139-149.
  3. A. Singla, C.-Y. Hong, L. Popa, and P. B. Godfrey, “Jellyfish: Networking data centers randomly,” in Proc. 9th USENIX Conf. NSDI, 2012, p. 17.
  4. C. Guo et al., “DCell: A scalable and fault-tolerant network structure for data centers,” in Proc. ACM SIGCOMM, Aug. 2008, pp. 75-86.
  5. C. Guo et al., “BCube: A high performance, server-centric network architecture for modular data centers,” in Proc. ACM SIGCOMM, Aug. 2009, pp. 63-74.
  6. Z. Li, Z. Guo, and Y. Yang, “BCCC: An expandable network for data centers,” in Proc. 10th ACM/IEEE Symp. ANCS, Oct. 2014, pp. 77-88.
  7. D. Guo, “Expandable and cost-effective network structures for data centers using dual-port servers,” IEEE Trans. Comput., vol. 62, no. 7, pp. 1303-1317, Jul. 2013.
  8. D. Li, “FiConn: Using backup port for server interconnection in data centers,” in Proc. IEEE INFOCOM, Apr. 2009, pp. 2276-2285.
  9. D. Li and J. Wu, “On the design and analysis of data center network architectures for interconnecting dual-port servers,” in Proc. IEEE INFOCOM, Apr-May 2014, pp. 1851-1859.
  10. L. Kou, G. Markowsky, and L. Berman, “A fast algorithm for Steiner trees,” Acta Inf., vol. 15, no. 2, pp. 141-145, 1981.
  11. D. Li, Y. Li, J. Wu, S. Su, and J. Yu, “ESM: Efficient and scalable data center multicast routing,” IEEE/ACM Trans. Netw., vol. 20, no. 3, pp. 944-955, Jun. 2012.
  12. G. Lu, C. Guo, Y. Li, and Z. Zhou, “ServerSwitch: A programmable and high performance platform for data center networks,” in Proc. 8th USENIX Conf. Netw. Syst. Design Implement. (NSDI), 2011, pp. 15-28.
  13. G. Lu, Y. Shi, C. Guo, and Y. Zhang, “CAFE: A configurable packet forwarding engine for data center networks,” in Proc. 2nd ACM SIGCOMM Workshop Program. Routers Extensible Services Tomorrow (PRESTO), 2009, pp. 25-30.
  14. Y. Yang and G. M. Masson, “Nonblocking broadcast switching networks,” IEEE Trans. Comput., vol. 40, no. 9, pp. 1005-1015, Sep. 1991.
  15. Y. Yang and G. M. Masson, “The necessary conditions for Clos-type nonblocking multicast networks,” IEEE Trans. Comput., vol. 48, no. 11, pp. 1214-1227, Nov. 1999.
  16. Y. Yang, “A class of interconnection networks for multicasting,” IEEE Trans. Comput., vol. 47, no. 8, pp. 899-906, Aug. 1998.
  17. Y. Yang and J. Wang, “Wide-sense nonblocking Clos networks under packing strategy,” IEEE Trans. Comput., vol. 48, no. 3, pp. 265-284, Mar. 1999.
  18. Y. Yang and G. M. Masson, “Broadcast ring sandwich networks,” IEEE Trans. Comput., vol. 44, no. 10, pp. 1169-1180, Oct. 1995.
  19. M. Al-Fares, A. Loukissas, and A. Vahdat, “A scalable, commodity data center network architecture,” in Proc. ACM SIGCOMM, 2008, pp. 63-74.
  20. Z. Guo and Y. Yang, “On nonblocking multicast fat-tree data center networks with server redundancy,” IEEE Trans. Comput., vol. 64, no. 4, pp. 1058-1073, Apr. 2015.

Publication Details

Published in : Volume 4 | Issue 7 | March-April 2018
Date of Publication : 2018-03-30
License:  This work is licensed under a Creative Commons Attribution 4.0 International License.
Page(s) : 139-143
Manuscript Number : IJSRSET1844211
Publisher : Technoscience Academy

Print ISSN : 2395-1990, Online ISSN : 2394-4099

Cite This Article :

R. Hamsaveni, A. Lohitha, G. Sureshbabu, " Providing Good Expandability for the Networks by using Dual Port Server, International Journal of Scientific Research in Science, Engineering and Technology(IJSRSET), Print ISSN : 2395-1990, Online ISSN : 2394-4099, Volume 4, Issue 7, pp.139-143, March-April.2018
URL : http://ijsrset.com/IJSRSET1844211

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