We report on the development of a transparent optical node at 1 .3 jim wavelength for an ATM packet switch operating at 1 .24416 Gbit/s header recognition rates. The node takes advantage of the high-speed performance of optoelectronic components to alleviate potential bottlenecks resultant from optical to electrical conversions experienced in non-transparent packet switching architectures. The node is intended for use in two-connected, slotted networks, is self clocking and has drop/add multiplexing, buffering and routing capabilities.
Demonstration of an optically transparent ATM packet switch node / R. K., Boncek; P. R., Prucnal; Bononi, Alberto; J. P., Sokoloff; J. L., Stacy; H. F., Bare; E., Donkor. - SPIE vol. 2216:(1994), pp. 99-102. (Intervento presentato al convegno Photonics at the Air Force Photonics Center tenutosi a Orlando, FL nel Apr. 04, 1994) [10.1117/12.177322].
Demonstration of an optically transparent ATM packet switch node
BONONI, Alberto;
1994-01-01
Abstract
We report on the development of a transparent optical node at 1 .3 jim wavelength for an ATM packet switch operating at 1 .24416 Gbit/s header recognition rates. The node takes advantage of the high-speed performance of optoelectronic components to alleviate potential bottlenecks resultant from optical to electrical conversions experienced in non-transparent packet switching architectures. The node is intended for use in two-connected, slotted networks, is self clocking and has drop/add multiplexing, buffering and routing capabilities.File | Dimensione | Formato | |
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