Yuda Wang scite author profile

Yuda Wang

2Publications

5Citation Statements Received

10Citation Statements Given

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Beihang University, Institute of Software

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Improving utilization through dynamic VM resource allocation in hybrid cloud environment

Wang

Yang

et al. 2014

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Virtualization is one of the most fascinating techniques because it can facilitate the infrastructure management and provide isolated execution for running workloads. Despite the benefits gained from virtualization and resource sharing, improved resource utilization is still far from settled due to the dynamic resource requirements and the widely-used overprovision strategy for guaranteed QoS. Additionally, with the emerging demands for big data analytic, how to effectively manage hybrid workloads such as traditional batch task and long-running virtual machine (VM) service needs to be dealt with. In this paper, we propose a system to combine longrunning VM service with typical batch workload like MapReduce. The objectives are to improve the holistic cluster utilization through dynamic resource adjustment mechanism for VM without violating other batch workload executions. Furthermore, VM migration is utilized to ensure high availability and avoid potential performance degradation. The experimental results reveal that the dynamically allocated memory is close to the real usage with only 10% estimation margin, and the performance impact on VM and MapReduce jobs are both within 1%. Additionally, at most 50% increment of resource utilization could be achieved. We believe that these findings are in the right direction to solving workload consolidation issues in hybrid computing environments.In this paper, we propose a workload consolidation approach which combines traditional batch processing tasks (e.g, MapReduce) with online long-running VM workload in a hybrid computing environment. We design an elastic resource allocation mechanism to timely adjust the amount of the overprovision according to the real application resource usage with 978-1-4799-7615-7/14/$31.00 ©2014 IEEE

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A Flexible and Scalable Affinity Lock for the Kernel

Zhang

Kang

et al. 2014

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Yuda Wang

Improving utilization through dynamic VM resource allocation in hybrid cloud environment

A Flexible and Scalable Affinity Lock for the Kernel

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