Scalable 640-Gbit/s ATM switching system with self-load balancing mechanism

S. Yasukawa, Naoaki Yamanaka, E. Oki, R. Kawano, K. Okazaki, D. Santoso

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Abstract

A T-bit/s ATM switching system architecture, called the OPTIMA switch, is proposed. This system is scalable and quasi-non-blocking by virtue of its self-load-balancing mechanism and high-speed interconnection effect. The self-load-balancing mechanism prevents overloading in the switch by automatically checking and balancing the internal load. An experimental 640-Gbit/s ATM switching system was developed and tested; the basic parts of switching function are demonstrated. The switching system was fabricated using advanced 0.25 mm-CMOS devices, high-density MCM technologies, and optical WDM interconnection technologies. The WDM interconnection system, a key part of the scalable 640-Gbit/s OPTIMA switching system, interconnects 80-Gbit/s switching modules using WDM routing technology. The developed 640-Gbit/s switching system can be applied in the creation of a platform for future high-speed multimedia network.

Original languageEnglish
Title of host publicationConference Record / IEEE Global Telecommunications Conference
PublisherIEEE
Pages1412-1417
Number of pages6
Volume2
Publication statusPublished - 1999
Externally publishedYes
Event1999 IEEE Global Telecommunication Conference - GLOBECOM'99 - Rio de Janeiro, Braz
Duration: 1999 Dec 51999 Dec 9

Other

Other1999 IEEE Global Telecommunication Conference - GLOBECOM'99
CityRio de Janeiro, Braz
Period99/12/599/12/9

Fingerprint

airborne thematic mapper
Switching systems
Automatic teller machines
Resource allocation
Wavelength division multiplexing
multimedia
routing
Switches
Switching functions
Multicarrier modulation
speed

ASJC Scopus subject areas

  • Electrical and Electronic Engineering
  • Global and Planetary Change

Cite this

Yasukawa, S., Yamanaka, N., Oki, E., Kawano, R., Okazaki, K., & Santoso, D. (1999). Scalable 640-Gbit/s ATM switching system with self-load balancing mechanism. In Conference Record / IEEE Global Telecommunications Conference (Vol. 2, pp. 1412-1417). IEEE.

Scalable 640-Gbit/s ATM switching system with self-load balancing mechanism. / Yasukawa, S.; Yamanaka, Naoaki; Oki, E.; Kawano, R.; Okazaki, K.; Santoso, D.

Conference Record / IEEE Global Telecommunications Conference. Vol. 2 IEEE, 1999. p. 1412-1417.

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Yasukawa, S, Yamanaka, N, Oki, E, Kawano, R, Okazaki, K & Santoso, D 1999, Scalable 640-Gbit/s ATM switching system with self-load balancing mechanism. in Conference Record / IEEE Global Telecommunications Conference. vol. 2, IEEE, pp. 1412-1417, 1999 IEEE Global Telecommunication Conference - GLOBECOM'99, Rio de Janeiro, Braz, 99/12/5.
Yasukawa S, Yamanaka N, Oki E, Kawano R, Okazaki K, Santoso D. Scalable 640-Gbit/s ATM switching system with self-load balancing mechanism. In Conference Record / IEEE Global Telecommunications Conference. Vol. 2. IEEE. 1999. p. 1412-1417
Yasukawa, S. ; Yamanaka, Naoaki ; Oki, E. ; Kawano, R. ; Okazaki, K. ; Santoso, D. / Scalable 640-Gbit/s ATM switching system with self-load balancing mechanism. Conference Record / IEEE Global Telecommunications Conference. Vol. 2 IEEE, 1999. pp. 1412-1417
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