Virtual machine consolidation: a systematic review of its overhead influencing factors
Author:
Publisher
Springer Science and Business Media LLC
Subject
Hardware and Architecture,Information Systems,Theoretical Computer Science,Software
Link
http://link.springer.com/content/pdf/10.1007/s11227-019-03025-y.pdf
Reference63 articles.
1. Apparao P, Iyer R, Zhang X, Newell D, Adelmeyer T (2008) Characterization and analysis of a server consolidation benchmark. In: Proceedings of the Fourth ACM SIGPLAN/SIGOPS International Conference on Virtual Execution Environments. ACM, pp 21–30
2. Barham P, Dragovic B, Fraser K, Hand S, Harris T, Ho A, Neugebauer R, Pratt I, Warfield A (2003) Xen and the art of virtualization. In: ACM SIGOPS Operating Systems Review, vol 37. ACM, pp 164–177
3. Bastoni A, Bovet DP, Cesati M, Palana P (2010) Discovering hypervisor overheads using micro and macrobenchmarks
4. Bermejo B, Filiposka S, Juiz C, Gómez B, Guerrero C (2017) Improving the energy efficiency in cloud computing data centres through resource allocation techniques. In: Sanjay C, Gaurav S, Rajkumar B (eds) Research advances in cloud computing. Springer, Berlin, pp 211–236
5. Bermejo B, Juiz C, Guerrero C (2019) Virtualization and consolidation: a systematic review of the past 10 years of research on energy and performance. J Supercomput 75(2):808–836
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