Title :
Reliable resource allocation for optically interconnected distributed clouds
Author :
Yi Zhu ; Yan Liang ; Qiong Zhang ; Xi Wang ; Palacharla, Paparao ; Sekiya, Motoyoshi
Author_Institution :
Dept. of Comput. Sci., Hawaii Pacific Univ., Honolulu, HI, USA
Abstract :
In this paper, we study the reliable resource allocation (RRA) problem of allocating virtual machines (VMs) from multiple optically interconnected data centers (DCs) with the objective of minimizing the total failure probability based on the information obtained from the optical network virtulization. We first describe the framework of resource allocation, formulate the RRA problem, and prove that RRA is NP-complete. We provide an algorithm, named Minimum Failure Cover (MFC), to obtain optimal solutions for small scale problems. We then provide a greedy algorithm, named VM-over-Reliability (VOR), to solve large scale problems. Numerical results show that VOR achieves results close to optimal solutions gained by MFC for small scale problems. Numerical results also show that VOR outperforms the resource allocation through random DC selection (RDS).
Keywords :
cloud computing; computational complexity; computer centres; computer network reliability; greedy algorithms; minimisation; optical fibre LAN; optical interconnections; probability; resource allocation; virtual machines; MFC algorithm; NP-complete problem; RRA problem; VM-over-reliability; VOR; greedy algorithm; large scale problems; minimum failure cover algorithm; optical network virtulization; optically interconnected DC; optically interconnected data centers; optically interconnected distributed clouds; reliable resource allocation; small scale problems; total failure probability minimization; virtual machines; Delays; Network topology; Optical fiber networks; Reliability; Resource management; Topology; Upper bound;
Conference_Titel :
Communications (ICC), 2014 IEEE International Conference on
Conference_Location :
Sydney, NSW
DOI :
10.1109/ICC.2014.6883830
