NOVEMBER 27, 2006 -- Ciena Corp. (search for Ciena) is partnering with MIT Lincoln Laboratory and the Naval Research Laboratory (NRL) to upgrade the Boston South Network (BoSSNET), an applications and network test bed for researching high-bandwidth (tens of Gbits/sec per wavelength), long-reach (approximately 1,000 km), all-optical transmissions using Ciena's standards-based, all-optical DWDM technology.
Designed and managed by MIT Lincoln Laboratory in its role as a federally funded research and development center for the U.S. Department of Defense, BoSSNET is the research network for the Lab's Advanced Networks Group, which architects, designs, and builds prototypes of next-generation optical, wireless, and satellite communication networks to address critical problems of national security, while also transferring those technical advances to commercial applications.
BoSSNET runs from Boston to Washington, D.C., with local metro area connections to Lincoln Lab, New York, and the D.C. area. Qwest Communications International Inc. has been a partner with the network since 1998, and provides fiber, facilities, and operations support.
BoSSNET will be upgraded with Ciena's CoreStreamIAgility OpticalITransport System, which is capable of routing wavelength services up to speeds of 40 Gbits/sec for long-haul and ultra long-haul network routes, say company representatives. The standards-based, all-optical DWDM platform simplifies networks by eliminating optical-electrical-opticalI(OEO) signal conversions and transceivers and lowers ongoing operational costs by automating end-to-end service provisioning and management, inventory and resource tracking, and dynamic power management.
BoSSNET also will leverage CoreStream's software-defined ROADM technology to enable automated wavelength activation and reconfiguration in capacity increments of 10- and 40 Gbits/sec today, with a clear migration path to 100 Gbits/sec. CoreStream also is the core optical transport and switching foundation of the Department of Defense's GIG-BE network, ensuring full compatibility for BoSSNET.
"Higher line side bit rates with fewer lambdas to manage not only lowers operational expenditures, but provides a path to 100G," explains Eve Griliches, research manager at IDC. "Systems that cost-effectively deliver 40G today with a future-proof vision are well suited for the advanced networking needs of R&E environments."
A key partner in the BoSSNET upgrade is NRL, the corporate laboratory for the Navy and Marine Corps, which conducts a broad program of scientific research and advanced technology development. NRL is also a Principal Federal Agency Member of the Advanced Technology Demonstration Network (ATDnet), a high-performance networking test bed in the Washington D.C. area.
"BoSSNET and ATDnet are unique all-optical assets where researchers can deploy next-generation technologies that enable dynamic peer-to-peer resource sharing between typical and high-end users," notes Dr. Henry Dardy, DoD/Navy Senior Technologist. "The networks provide researchers the capability to test low-latency, high-bandwidth streaming of data at 40G andI100G, providing the next steps toward the DoD's goal of scaling to terabit streams riding on a wavelength as technology progresses in future years."
BoSSNET plans include an initial upgrade of the network to 40G in early 2007, followed by an aggressive deployment schedule for the rest of the network. Once the network is fully upgraded, MIT Lincoln Laboratory, NRL, and Ciena will begin planning the migration to 100G.
"AsIEthernet increasingly becomes the foundation for high-capacity networks, a highly-resilient core optical network scalable to beyond 100 Gbits/sec per channel will be critical to accommodate the growth in bandwidth-intensive applications carried across BoSSNET and other advanced networks," adds Steve Alexander, chief technology officer for Ciena. "To maximize BoSSNET's capacity and operational efficiency,ICoreStream delivers an open standards line system with 40G capabilities and a path to 100G, allowing operators to increase capacity without forklift upgrades of proprietary technology, additional network elements or costly optical-to-electronic conversions," he says.
Visit MIT Lincoln Laboratory, U.S. Naval Research Laboratory (NRL), and Ciena.