A Topology-Aware VDC Embedding Algorithm in Software-Defined Datacenter

Wen Xuemin; Han Yanni; Yu Bing; Sun Jianpeng; Xu Zhen

doi:10.7544/issn1000-1239.2016.20151134

Journal of Computer Research and Development > 2016 > 53(4): 785-797. > DOI: 10.7544/issn1000-1239.2016.20151134 CSTR: 32373.14.issn1000-1239.2016.20151134

Wen Xuemin, Han Yanni, Yu Bing, Sun Jianpeng, Xu Zhen. A Topology-Aware VDC Embedding Algorithm in Software-Defined Datacenter[J]. Journal of Computer Research and Development, 2016, 53(4): 785-797. DOI: 10.7544/issn1000-1239.2016.20151134

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A Topology-Aware VDC Embedding Algorithm in Software-Defined Datacenter

¹(State Key Laboratory of Information Security (Institute of Information Engineering, Chinese Academy of Sciences), Beijing 100093)
²(School of Information Science and Engineering, Shandong University, Jinan 250100)

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Published Date: March 31, 2016

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Abstract

Abstract

In cloud computing environment, service provider (SP) can pay for the resources from infrastructure provider (InP) on-demand to deploy their services. In the case, SP can focus on service business without considering their physical infrastructures and expertise of maintenance. Only providing resources in term of virtual machines, the traditional InPs do not ensure network performance and bandwidth isolation. As the network virtualization is developed, especially the SDN concept, some researchers advocate InPs to provide resources in term of virtual data center (VDC) to solve these limits. Despite many advantages of VDC, there is also a new challenge that is the VDC embedding problem known as an NP-hard problem. With the goal of minimal cost and maximal revenue, it solves the problem of allocating resources to fulfill the SPs’ requirements. Considering the tradeoff of VDC reliability and embedding cost, a VDC embedding algorithm based on topological potential and modularity is proposed to improve acceptance ratio and the InPs’ revenue. Moreover, we further optimize the algorithm based on a given threshold by selecting high RevenueCost ratio VDCs. Extensive simulations show that compared with the existing algorithms, our approach is capable of reducing the core bandwidth consumption in data center. Furthermore, these proposals can accept more VDCs and obtain more revenue.
- cloud computing,
- data center,
- software defined networking (SDN),
- network virtualization,
- virtual data center (VDC) embedding

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[8]	Yao Hailong, Yan Qiao. Cryptanalysis and Design of Anonymous Authentication Protocol for Value-Added Services in Internet of Vehicles[J]. Journal of Computer Research and Development, 2022, 59(2): 440-451. DOI: 10.7544/issn1000-1239.20200487
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[10]	Zhou Huan, Xu Shouzhi, and Li Chengxia. A V2V Broadcast Protocol for Chain Collision Avoidance on Highways[J]. Journal of Computer Research and Development, 2009, 46(12): 2062-2067.

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