Title :
A High Efficient Disk Scheduling Framework with QoS Mechanism in Xen-Based Cloud Platforms
Author :
Tseng-Yi Chen ; Hsin-Wen Wei ; Ying-Jie Chen ; Nia-Yuan Chang ; Tsan-sheng Hsu ; Wei-Kuan Shih
Author_Institution :
Dept. of Comput. Sci., Nat. Tsing Hua Univ., Hsinchu, Taiwan
Abstract :
Improving the disk I/O performance is always a critical research issue in cloud computing platforms, especially for cloud computing platforms with distributed data-intensive workloads. To resolve the problem of poor disk I/O, in this paper, we propose a novel scheduling framework in the Xen-based hypervisor. In our framework, we employ a locality-aware scheduler with a deadline constraint and provide a basic QoS controller to guarantee the throughput of the cloud platform. The experimental results show that our solution increases the IOPS of Xen-based cloud platform by 9%-13% compared to the solution of early-deadline-first (EDF), deadline scheduling algorithm or Flubber. Moreover, according to the schedulability test, our solution can improve the miss deadline ratio significantly, compared to the EDF scheduling algorithm and Flubber.
Keywords :
cloud computing; disc drives; input-output programs; quality of service; scheduling; Flubber; QoS mechanism; Xen-based cloud platform IOPS; Xen-based hypervisor; basic QoS controller; cloud computing platforms; deadline constraint; deadline scheduling algorithm; disk I/O performance; disk scheduling framework; distributed data-intensive workloads; early-deadline-first algorithm; locality-aware scheduler; miss deadline ratio; Cloud computing; Educational institutions; Quality of service; Scheduling algorithms; Servers; Virtual machine monitors; Virtual machining; QoS; Scheduler; disk I/O control; hypervisor;
Conference_Titel :
Cluster, Cloud and Grid Computing (CCGrid), 2014 14th IEEE/ACM International Symposium on
Conference_Location :
Chicago, IL
DOI :
10.1109/CCGrid.2014.63
