DocumentCode
3739520
Title
Diagnosing Virtualization Overhead for Multi-threaded Computation on Multicore Platforms
Author
Xiaoning Ding;Jianchen Shan
fYear
2015
Firstpage
226
Lastpage
233
Abstract
Hardware-assisted virtualization, as an effective approach to low virtualization overhead, has been dominantly used. However, existing hardware assistance mainly focuses on single-thread performance. Much less attention has been paid to facilitate the efficient interaction between threads, which is critical to the execution of multi-threaded computation on virtualized multicore platforms. This paper aims to answer two questions: 1) what is the performance impact of virtualization on multi-threaded computation, and 2) what are the factors impeding multi-threaded computation from gaining full speed on virtualized platforms. Targeting the first question, the paper measures the virtualization overhead for computation-intensive applications that are designed for multicore processors. We show that some multicore applications still suffer significant performance losses in virtual machines. Even with hardware assistance for reducing virtualization overhead fully enabled, the execution time may be increased by more than 150% when the system is not over-committed, and the system throughput can be reduced by 6x when the system is over-committed. To answer the second question, with experiments, the paper diagnoses the main causes for the performance losses. Focusing the interaction between threads and between VCPUs, the paper identifies and examines a few performance factors, including the intervention of the virtual machine monitor (VMM) to schedule/switch virtual CPUs (VCPUs) and to handle interrupts required by inter-core communication, excessive spinning in user space, and cache-unaware data sharing.
Keywords
"Virtualization","Benchmark testing","Hardware","Throughput","Multicore processing","Program processors","Virtual machining"
Publisher
ieee
Conference_Titel
Cloud Computing Technology and Science (CloudCom), 2015 IEEE 7th International Conference on
Type
conf
DOI
10.1109/CloudCom.2015.102
Filename
7396161
Link To Document