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Towards big data processing in clouds: An online cost-minimization approach

1. College of Information System and Management National University of Defense Technology Changsha, Hunan, 410073, China;
2. College of Information System and Management National University of Defense Technology Changsha, Hunan, 410073, China;
3. Department of Mathematics and Statistics, York University Toronto, Ontario, M3J 1P3, Canada

Due to its elastic and on-demand nature of resource provisioning, cloud computing provides a cost effective and powerful technology for the processing of big data. Under this paradigm, Data Service Provider (DSP) may rent geographically distributed datacenters to process their large amount of data. As the data are dynamically generated and the resource pricing varies over time, moving the data from differently geographic locations to different datacenters while provisioning adequate computation resource to process them is an essential task to achieve cost effectiveness for DSP. In this paper, a joint online approach is proposed to address this task. We formulate the problem into a joint stochastic optimization problem, which is then decoupled into two independent subproblems via the Lyapunov framework. Our method is able to minimize the long-term time average cost including computing cost, storage cost, bandwidth cost and latency cost. Theoretical analysis shows that our online algorithm can produce a solution within an upper bound to the optimal solution achieved through offline computing and guarantee that the data processing can be completed with preset delays.
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Keywords Big data; cloud computing; resource scheduling; data allocation; Lyapunov optimization

Citation: Weidong Bao, Wenhua Xiao, Haoran Ji, Chao Chen, Xiaomin Zhu, Jianhong Wu. Towards big data processing in clouds: An online cost-minimization approach. Big Data and Information Analytics, 2016, 1(1): 15-29. doi: 10.3934/bdia.2016.1.15

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This article has been cited by

  • 1. Guanlin Wu, Weidong Bao, Xiaomin Zhu, Wenhua Xiao, Ji Wang, Optimal Dynamic Reserved Bandwidth Allocation for Cloud-Integrated Cyber-Physical Systems, IEEE Access, 2017, 5, 26224, 10.1109/ACCESS.2017.2769665

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