[1] ARMBRUST M, FOX A, GRIFFITH R, et al. Above the clouds:a Berkeley view of cloud computing[R]. Berkeley:University of California at Berkeley, 2009:50-58. [2] 李丹,陈贵海,任丰原,等.数据中心网络的研究进展与趋势[J].计算机学报,2014,37(2):259-274.(LI D, CHEN G H, REN F Y, et al. Data center network research progress and trends[J]. Chinese Journal of Computers, 2014, 37(2):259-274.) [3] 王聪,王翠荣,苑迎.基于收益优化的虚拟数据中心网络资源分配模型[J].东北大学学报(自然科学版),2011,32(11):1546-1549.(WANG C, WANG C R, YUAN Y. Resource allocation model to achieve optimize profit in virtual data center[J]. Journal of Northeastern University (Natural Science), 2011, 32(11):1546-1549.) [4] BARI M F, BOUTABA R, ESTEVES R, et al. Data center network virtualization:a survey[J]. IEEE Communications Surveys & Tutorials, 2013, 15(2):909-928. [5] GUO C, LU G, WANG H J, et al. SecondNet:a data center network virtualization architecture with bandwidth guarantees[C]//Co-NEXT'10:Proceedings of the 6th International Conference on Emerging Networking Experiments and Technologies. New York:ACM, 2010:Article No. 15. [6] BALLANI H, COSTA P, KARAGIANNIS T, et al. Towards predictable datacenter networks[C]//ACM SIGCOMM Computer Communication Review, 2011, 41(4):242-253. [7] SHIEH A, KANDULAZ S, GREENBERG A, et al. Sharing the data center network[C]//NSDI'11:Proceedings of the 8th USENIX Conference on Networked Systems Design and Implementation. Berkeley, CA:USENIX Association, 2011:309-322. [8] VARGHESE G. NetShare:virtualizing data center networks across services, CS 2010-0957[R]. San Diego:University of California, 2010. [9] DUFFIELD N G, GOYAL P, GREENBERG A, et al. A flexible model for resource management in virtual private networks[C]//SIGCOMM'99:Proceedings of the 1999 Conference on Applications, Technologies, Architectures, and Protocols for Computer Communication. New York:ACM, 1999:95-108. [10] DEAN J, GHEMAWAT S. MapReduce:simplified data processing on large clusters[J]. Communication of ACM, 2008, 51(1):107-113. [11] RODRIGUES H, SANTOS J R, TURNER Y, et al. Gatekeeper:supporting bandwidth guarantees for multi-tenant datacenter networks[C]//WIOV'11:Proceedings of the 3rd Conference on I/O Virtualization. Berkeley, CA:USENIX Association, 2011:6. [12] POPA L, YALAGANDULA P, BANERJEE S, et al. ElasticS-witch:practical work-conserving bandwidth guarantees for cloud computing[C]//SIGCOMM 2013:Proceedings of the ACM SIGCOMM 2013 Conference on Applications, Technologies, Architectures, and Protocols for Computer Communication. New York:ACM, 2013:351-362. [13] AL-FARES M, LOUKISSAS A, VAHDAT A. A scalable commodity data center network architecture[C]//Proceedings of the ACM SIGCOMM 2008 Conference on Data Communication. New York:ACM, 2008:63-74. [14] GREENBEI A, HAMILTON J R, JAIN N. VL2:a scalable and flexible data center network[J]. ACM SIGCOMM Computer Communication Review, 2009, 39(4):51-62. [15] HOPPS C. Analysis of an equal-cost multi-path algorithm:RFC2992[S].[S.l.]:IETF, 2000. [16] AL-FARES M, RADHAKRISHNAN S, RAGHAVAN B, et al. Hedera:dynamic flow scheduling for data center networks[C]//Proceedings of the 2010 USENIX Conference on Networked Systems Design and Implementation. Berkeley, CA:USENIX Association, 2010:281-296. [17] BENSON T, ANAND A, AKELLA A, et al. MicroTE:fine grained traffic engineering for data center[C]//CoNEXT'11:Proceedings of the Seventh Conference on Emerging Networking Experiments and Technologies. New York:ACM, 2011:8. [18] RAICIU C, BARRE S, PLUNTKE C, et al. Improving datacenter performance and robustness with multipath TCP[J]. ACM SIGCOMM Computer Communication Review, 2011, 41(4):266-277. [19] ALIZADEH M, GRENNBERG A, MALTZ D, et al. Data center TCP (DCTCP)[J]. ACM SIGCOMM Computer Communication Review, 2010, 40(4):63-74. |