Title :
VMFDF: A Virtualization-based Multi-Level Fault Detection Framework for High Availability Computing
Author :
Jianhua Zhang ; Wenbo Zhang ; Heng Wu ; Tao Huang
Author_Institution :
Technol. Center of Software Eng., Inst. of Software, Beijing, China
Abstract :
Virtualization has been widely adopted by lots of business companies. It is now becoming an effective way to manage massive hardware resources in flexible scales. While power and hardware cost can be significantly saved through virtualization, the fault detection of system becomes more difficult due to the increasing scalability and complexity in a virtualized environment. In this paper, a fault detection framework for virtualized environments is proposed, multiple levels, including application server (AS), operating system (OS) and virtual machine monitor (VMM), are considered in a holistic manner. The framework has been evaluated through a benchmark, Bench4Q. Results show the effectiveness of our framework. And the overhead of our framework is less than 10%.
Keywords :
business data processing; operating systems (computers); software fault tolerance; virtual machines; virtualisation; AS; Bench4Q; OS; VMFDF; VMM; application server; business companies; high availability computing; massive hardware resource management; operating system; virtual machine monitor; virtualization-based multilevel fault detection framework; virtualized environments; Data mining; Fault detection; Feature extraction; Servers; Training; Virtual machining; Virtualization; Fault Detection; Multi-Level; Virtualization;
Conference_Titel :
e-Business Engineering (ICEBE), 2012 IEEE Ninth International Conference on
Conference_Location :
Hangzhou
Print_ISBN :
978-1-4673-2601-8
DOI :
10.1109/ICEBE.2012.67
