Demonstration of joint resource scheduling in an optical network integrated computing environment
IEEE Communications Magazine
A routing architecture for scheduled dynamic circuit services
Proceedings of the Re-Architecting the Internet Workshop
Recovery from control plane failures in the RSVP-TE signaling protocol
Computer Communications
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In this article, we describe our experiences in implementing an experimental wide-area GMPLS network called CHEETAH (circuit-switched end-to-end transport architecture). The key concept is to add a complementary end-to-end circuit based service with dynamic call-by-call bandwidth sharing to the connectionless service already available to end hosts via the Internet. The current CHEETAH experimental network consists of off-the-shelf GMPLS-capable SONET switches (with Ethernet interfaces) deployed at three locations, Research Triangle Park, North Carolina, Atlanta, Georgia, and Oak Ridge, Tennessee. We describe our solutions to various problems relating to control-plane design, IP addressing and control-plane security. We designed and implemented a CHEETAH software package to run on Linux end hosts connected to the CHEETAH network. Among other functions, this software package includes an RSVP-TE module to enable end users and applications to dynamically initiate requests for dedicated end-to-end circuits and receive/respond to requests for circuits. We present measurements for typical end-to-end circuit setup delays across this network. For example, end-to-end circuit setup delay from a Linux end host in NC to a host in Atlanta is 166 ms