Abstract
We propose a circuit-switched high-speed end-to-end transport architecture (CHEETAH) as a networking solution to provide high-speed end-to-end circuit connectivity to end hosts on a dynamic call-by-call basis. Not only is it envisioned as a complementary service to the basic connectionless service provided by today's Internet; it also relies on and leverages the presence of this service. Noting the dominance of Ethernet in LANs and SONET/SDH in WANs, CHEETAH circuits will consist of Ethernet segments at the ends and Ethernet-over-SONET segments in the wide area. In this article we explain the CHEETAH concept and describe a wide-area experimental network testbed we have deployed based on this concept. The network testbed currently extends between Raleigh, North Carolina, Atlanta, Georgia, and Oak Ridge, Tennessee, and uses off-the-shelf switches. We have created CHEETAH software to run on end hosts to enable automated use of this network by applications. Our first users of this network testbed and software will be the Terascale Supernova Initiative (TSI) project researchers, who plan to use this network for large file transfers and remote visualizations.
Original language | English |
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Pages (from-to) | S11-S17 |
Journal | IEEE Communications Magazine |
Volume | 43 |
Issue number | 8 |
DOIs | |
State | Published - Aug 2005 |
Funding
This work was carried out under the sponsorship of NSF ITR-0312376, NSF ANI-0335190, and DOE DE-FG02-04ER25640 grants at the University of Virginia, and also NSF_ ANI-0229969 and NSF ANI-0335185 grants at ORNL.
Funders | Funder number |
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National Science Foundation | ITR-0312376, ANI-0335190 |
U.S. Department of Energy | DE-FG02-04ER25640 |
Oak Ridge National Laboratory | |
University of Virginia | ANI-0229969, ANI-0335185 |