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Optimizing Live Migration of Virtual Machines across Wide Area Networks using Integrated Replication and Scheduling. Sumit Kumar Bose, Unisys Scott Brock, Unisys Ronald Leaton Skeoch, Unisys Nisaruddin Shaikh, Unisys Shrisha Rao, IIIT-Bangalore. Agenda. Motivation and Problem Addressed.
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Optimizing Live Migration of Virtual Machines across Wide Area Networks using Integrated Replication and Scheduling Sumit Kumar Bose, Unisys Scott Brock, Unisys Ronald Leaton Skeoch, Unisys Nisaruddin Shaikh, Unisys Shrisha Rao, IIIT-Bangalore
Agenda • Motivation and Problem Addressed • Conclusion • Experimental Results • Proposed Solution
Motivation and Problem Addressed Migration Latency VM Size Threshold
Proposed Solution Migration Latency VM Size Hiber-waking vs Migration Threshold
Contd… Integrated replication and scheduling of VMs. Selectively choose appropriate clouds for VM replication Using past cost history However, blindly replicating VM images leads to increased storage requirements. Reduce overall storage requirements due to VM image replication by exploiting commonality across different VM images using de-duplication. Past studies show that different VM images have significant common content due to common substrates (OS, web-servers etc).
Contd… VM1 and VM2 images share significant similarity. VM1 VM2 VM2 VM1 VM2 VM1 Storage cost shoots up!!!!
Contd… Exploit de-duplication to reduce storage cost VM1 VM2 VM2 VM1 VM2 VM1 Trade-off between storage cost and operational cost
Contd… The research questions that arise in such contexts are to determine the List of eligible sites for different VM images (Replication phase) Placement of the replicas at different cloud sites (replication phase) Primary copy from among the replicas of a VM image (Scheduling phase) Our primary focus is to develop efficient replication strategies for questions (i) and (ii) using our integrated VM replication and scheduling architecture
Experiments We implemented the replication strategy using Java. We extended open-source CloudSim toolkit and incorporated the replication module in it. We experimented extensively and simulated different scenarios using CloudSim toolkit To evaluate the performance of the CloudSpider algorithm we implemented the following naïve strategies: RandomMax RandomMin MaxReplica MinReplica.
Contd… RandomMax and RandomMin strategies, randomly selects sites from the eligible list of a VM image for placing the replicas. MaxReplica and MinReplica strategies select the first few sites from the eligible list of VM for creating the replicas. Performance criteria: The average (over 100 simulation iterations) of total storage consumed by all the replicas belonging to all the VM images.
Contd… Tables 3 to 9: Shows the variation in the average storage requirement by the different strategies when the following parameters is varied: number of data-centers number of VM images file size latency threshold savings threshold Results: Cloudspider shows significant reduction in cost of storage requirement.
Conclusion To overcome migration latencies associated with moving large sized files over the low-bandwidth networks , we propose to combine VM replication with VM scheduling. We compensate the additional storage requirement due to the increase in the number of replicas by exploring commonalities across different VM images using de-duplication techniques. The proposed architecture for integrated replication and scheduling – CloudSpider – is promising.
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