A key enabler for standardized cloud services is the encapsulation of software and data into VM images. With the rapid evolution of the cloud ecosystem, the number of VM images is growing at high speed. These images, each containing gigabytes or tens of gigabytes of data, create heavy disk and network I/O workloads in cloud data centers. Because these images contain identical or similar OS, middleware, and applications, there are plenty of data blocks with duplicate content among the VM images. However, current deduplication techniques cannot efficiently capitalize on this content similarity due to their warmup delay, resource overhead and algorithmic complexity. We propose an instant, non-intrusive, and lightweight I/O optimization layer tailored for the cloud: V irtual M achine I/O Access Redirection (VMAR). VMAR generates a block translation map at VM image creation / capture time, and uses it to redirect accesses for identical blocks to the same filesystem address before they reach the OS. This greatly enhances the cache hit ratio of VM I/O requests and leads to up to 55% performance gains in instantiating VM operating systems (48% on average), and up to 45% gain in loading application stacks (38% on average). It also reduces the I/O resource consumption by as much as 70%. © IFIP International Federation for Information Processing 2013.
CITATION STYLE
Shen, Z., Zhang, Z., Kochut, A., Karve, A., Chen, H., Kim, M., … Fuller, N. (2013). VMAR: Optimizing I/O performance and resource utilization in the cloud. In Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics) (Vol. 8275 LNCS, pp. 183–203). https://doi.org/10.1007/978-3-642-45065-5_10
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