DocumentCode
3323413
Title
Efficient and Scalable Network Emulation Using Adaptive Virtual Time
Author
Grau, Andreas ; Herrmann, Klaus ; Rothermel, Kurt
Author_Institution
Inst. of Parallel & Distrib. Syst. (IPVS), Univ. Stuttgart, Stuttgart, Germany
fYear
2009
fDate
3-6 Aug. 2009
Firstpage
1
Lastpage
6
Abstract
Performance analysis and functionality testing are major parts of developing distributed software systems. Since the number of communicating software instances heavily influences the behavior of distributed applications and communication protocols, evaluation scenarios have to consider a large number of nodes. Network emulation provides an infrastructure for running these experiments using real prototype implementations in a controllable and realistic environment. Large-scale experiments, however, have a high resource consumption which often exceeds available physical testbed resources. Time dilation allows for reducing the resource demands of a scenario at the expense of the experiment´s runtime. However, current approaches only consider a constant time dilation factor, which wastes a lot of resources in case of scenarios with varying load. We propose a framework for adaptive time virtualization that significantly reduces the runtime of experiments by improving resource utilization in network emulation testbeds. In this framework, resource demands are monitored and the time dilation factor is dynamically adapted to the required level. Our evaluation shows that adaptive virtual time in combination with our lightweight node virtualization architecture allows us to increase the possible scenario sizes by more than an order of magnitude and, at the same time, ensure unbiased emulation results. This represents an important contribution to making network emulation systems highly scalable.
Keywords
computer networks; protocols; resource allocation; adaptive time virtualization; adaptive virtual time; communicating software; communication protocol; constant time dilation factor; distributed software system; node virtualization architecture; resource demand; resource utilization; scalable network emulation system; Adaptive systems; Application software; Emulation; Performance analysis; Protocols; Runtime; Software prototyping; Software systems; Software testing; System testing;
fLanguage
English
Publisher
ieee
Conference_Titel
Computer Communications and Networks, 2009. ICCCN 2009. Proceedings of 18th Internatonal Conference on
Conference_Location
San Francisco, CA
ISSN
1095-2055
Print_ISBN
978-1-4244-4581-3
Electronic_ISBN
1095-2055
Type
conf
DOI
10.1109/ICCCN.2009.5235306
Filename
5235306
Link To Document