Title :
SLA-aware resource over-commit in an IaaS cloud
Author :
Breitgand, David ; Dubitzky, Zvi ; Epstein, Amir ; Glikson, Alex ; Shapira, Inbar
Author_Institution :
Cloud Oper. Syst. Technol., IBM Haifa Res. Lab., Haifa, Israel
Abstract :
Cloud paradigm facilitates cost-efficient elastic computing allowing scaling workloads on demand. As cloud size increases, the probability that all workloads simultaneously scale up to their maximum demand, diminishes. This observation allows multiplexing cloud resources among multiple workloads, greatly improving resource utilization. The ability to host virtualized workloads such that available physical capacity is smaller than the sum of maximal demands of the workloads, is referred to as over-commit or over-subscription.
Keywords :
cloud computing; contracts; probability; virtual machines; virtualisation; IaaS cloud; SLA-aware resource over-commit; cloud computing; cloud resource multiplexing; cost-efficient elastic computing; infrastructure as a service; probability; resource over-subscription; resource utilization; service level agreement; virtual machine; workload scaling; workload virtualization; Availability; Capacity planning; Cloud computing; Computational modeling; Multiplexing; Resource management; Standards;
Conference_Titel :
Network and service management (cnsm), 2012 8th international conference and 2012 workshop on systems virtualiztion management (svm)
Conference_Location :
Las Vegas, NV
Print_ISBN :
978-1-4673-3134-0
Electronic_ISBN :
978-3-901882-48-7
