DocumentCode
1441906
Title
Ultra-high-bit-rate networking: from the transcontinental backbone to the desktop
Author
Cotter, David ; Lucek, Julian K. ; Marcenac, Dominique D.
Author_Institution
British Telecom, UK
Volume
35
Issue
4
fYear
1997
fDate
4/1/1997 12:00:00 AM
Firstpage
90
Lastpage
95
Abstract
The advances in photonic device technologies are bringing ultra-high-bit-rate networking-at speeds towards 100 Gb/s and beyond-much closer to practical reality. It is increasingly likely that in the longer term ultrafast optical time-division techniques-together with wavelength multiplexing-will be used in networks at all levels, from the transcontinental backbone to the desktop. Examples of devices include a subpicosecond clock source packaged inside a laptop personal computer and an OTDM switch on a single semiconductor chip, both produced at HHI. Advances similar to these make it possible now to envisage the use of OTDM techniques, not just in the highest layers of national and international networks, but also much closer to the user-such as the world-first demonstrations at BT Laboratories of a 40 Gb/s TDMA LAN and a 100 Gb/s packet self-routing switch for multiprocessor interconnection. Ultrafast networks might even provide the interconnection backplane inside future desktop routers and servers with massive throughput
Keywords
clocks; high-speed optical techniques; local area networks; multiprocessor interconnection networks; optical fibre networks; packet switching; photonic switching systems; telecommunication network routing; time division multiple access; time division multiplexing; wide area networks; 100 Gbit/s; 40 Gbit/s; BT Laboratories; HHI; OTDM switch; TDMA LAN; WAN; desktop routers; interconnection backplane; international networks; laptop personal computer; multiprocessor interconnection; national networks; packet self-routing switch; photonic device technologies; servers; single semiconductor chip; subpicosecond clock source; transcontinental backbone; ultrafast networks; ultrafast optical time-division techniques; ultrahigh bit rate networking; wavelength multiplexing; wide area networks; Clocks; Laboratories; Microcomputers; Optical fiber networks; Optical switches; Photonics; Portable computers; Semiconductor device packaging; Spine; Ultrafast optics;
fLanguage
English
Journal_Title
Communications Magazine, IEEE
Publisher
ieee
ISSN
0163-6804
Type
jour
DOI
10.1109/35.570724
Filename
570724
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