WOW: Self-organizing Wide Area Overlay Networks of Virtual Workstations |
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Authors: | A Ganguly A Agrawal P O Boykin R J Figueiredo |
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Affiliation: | (1) Advanced Computing and Information Systems Laboratory, University of Florida, Gainesville, FL 32601, USA |
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Abstract: | This paper describes WOW, a distributed system that combines virtual machine, overlay networking and peer-to-peer techniques
to create scalable wide-area networks of virtual workstations for high-throughput computing. The system is architected to:
facilitate the addition of nodes to a pool of resources through the use of system virtual machines (VMs) and self-organizing
virtual network links; to maintain IP connectivity even if VMs migrate across network domains; and to present to end-users
and applications an environment that is functionally identical to a local-area network or cluster of workstations. We describe
IPOP, a network virtualization technique that builds upon a novel, extensible user-level decentralized technique to discover,
establish and maintain overlay links to tunnel IP packets over different transports (including UDP and TCP) and across firewalls.
We evaluate latency and bandwidth overheads of IPOP and also time taken for a new node to become fully-routable over the virtual
network. We also report on several experiments conducted on a testbed WOW deployment with 118 P2P router nodes over PlanetLab
and 33 VMware-based VM nodes distributed across six firewalled domains. Experiments show that the testbed delivers good performance
for two unmodified, representative benchmarks drawn from the life-sciences domain. We also demonstrate that the system is
capable of seamlessly maintaining connectivity at the virtual IP layer for typical client/server applications (NFS, SSH, PBS)
when VMs migrate across a WAN. |
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Keywords: | Grid computing Virtual Clusters Networks P2P |
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