Überblick
Die steigende Taktfrequenz der Prozessoren und die kurze Zugriffszeit der Speicherbausteine stellen hohe Anforderungen an die Übertragungsleitungen künftiger Rechensysteme. Herkömmliche elektronische Leitungen können diese Anforderungen langfristig nicht erfüllen. Optische Übertragungstechnik bietet hier einen möglichen Ausweg. In dieser Arbeit werden das Konzept eines parallelen optoelektronischen Backplanes und seine Realisierung beschrieben. Die Leistungsfähigkeit dieses Backplanes wird analysiert.
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Literatur
Burks, A. W.; Goldstine, H. H.; von Neumann, J.: “Preliminary Discussion of the Logical Design of an Electronic Computing Instrument”, in “Collected Works of John von Neumann”, Vol. 5, Macmillan, New York, 1963, S. 34–79
Färber, G.: Bussysteme. R. Oldenbourg Verlag, München, 1987
Dawson, W. K.; Dobinson, R. W: “A framework for computer design”, IEEE Spectrum, October 1986, S. 49–54
Conte, G.; Corso, D. D.: Multi-Microprocessor Systems for Real-Time Applications. D. Reidel Publishing Company, Dordrecht, Holland, 1985
Gelsinger, P.; Gargini, P.; Parker, G.; Yu, A: “Microprocessors circa 2000”, IEEE Spectrum, October 1989, S. 43–47
Keyes, R. W: “Physical Limits in Digital Electronics”, Proceedings of the IEEE, Vol. 63, No. 5, May 1975, S. 740–767 Keyes, R. W: “Fundamental Limits in Digital Information Processing–, Proceedings of the IEEE, Vol. 69, No. 2, February 1981, S. 267–278
Borrill, P. L: “High-speed 32-bit buses for forward-looking computers”, IEEE Spectrum, July 1989, S. 34–37
Ayliffe, P. J.; Parker, J. W.; Robinson, A.: “Comparison of optical electrical data interconnections at the board and backplane levels”, Proceeding SPIE, Vol. 1281,1990, S. 2–15
Cathey, W. T.; Smith. B. J.: “High concurrency data bus using arrays of optical emitters and detectors”, Applied Optics, Vol. 18, No. 10,15 May 1979, S. 1687–1691
Goodman, J. W.; Leonberger, F. I.; Kung, S. Y. and Athale, R.: “Optical Interconnections for VLSI Systems”, Proceedings of the IEEE, July 1984, Vol. 72, No. 7, S. 850–866
Clymer, B. D.; Goodman, J. W.: “Optical clock distribution to silicon chips”, Optical Engineering, October 1986, Vol. 25, No. 10, S. 1103–1108
Hase, K. R.: “Computer-internal optical bus system with light-guiding-plate”, Proceedings of IOOC-ECOC ’85, Italy, October 1–4,1985, Vol. 1, S. 597–600
Haugen, P. R.; Rychnovsky, S.; Husain, A.; Hutcheson, L. D.: “Optical interconnects for high speed computing”, Optical Engineering, October 1986, Vol. 25, No. 10, S. 1076–1085
Hutcheson, L. D., Haugen, P. R.; Husain, A.: “Optical interconnects replace hardwire”, IEEE Spectrum, March 1987, S. 30–35
Sauer, F.: “Fabrication of diffractive-reflektive optical interconnects for infrared operation based on total internal reflection”, Applied Optics, 15 January 1989, Vol. 28. No. 2, S. 386–388
Tzang, D. Z.: “Optical interconnections in digital systems- Status and prospects”, Optics & Photonocs News, October 1990, S. 23–29
Goodman, J. W.: “Optical interconnections in the ’80s”, Optics & Photonics News, December 1990, S. 21–23
Gaulfield, H. J.; Gheen, G.(Editors): Optical Interconnections, in Selected Papers on Optical Computing, SPIE, Vol. 1142,1989
Hewlett Packard: Optoelectronics Designer’s Catalog 1988–1989
Siemens: Si-Fotodetektoren und IR-Lumineszenzdioden, Datenbuch 1985/1986
Jansen, M.: Aufbau der optoelektronischen Interface-Karten für das Demo-Modell des optisch parallelen Bussystems OPPS. Studienarbeit am Fachgebiet Nachrichtentechnik der Universität Duisburg, Prof. Dr.-Ing. P. Laws, März 1991
Motorola Semiconductors: Optoelectronics Device Data, 1988
Kressel, H.: Semiconductor Devices for Optical Communication. Springer-Verlag, Berlin, 1980, S. 175
Philips Bauelemente: Fiber-Optic Communication Data and Apllications, 1988, S. 3–72
Jiang, J.: Ein Beitrag zur Entwicklung der parallelen optischen Bussysteme für rechnerinterne Kommunikation. Dissertation, Universität Duisburg, Duisburg, 1991
Von Lehmen, A. C; Banwell, T. G; Cordell, R.; Chang-Hasnain, C; Mann, J. W.; Harbison, J.; Florez, L.: “High speed operation of hybrid CMOS vertical cavity surface emitting laser array”, Electronics Letters, Vol. 27, No. 13,20th June 1991, S. 1189–1191
Sakano, T.; Noguchi, K.; Matsumoto, T.: “Novel free-space optical inteconnetion employing array devices,” Electronics Letters, Vol. 27, No. 6,14th March 1991, S. 515–516
Wieland, J.; Melchior, H.: “Optical Receivers in ECL for 1 GHz Parallel Links”, SPIE, Vol. 1389, 1990, S. 659–664
Zou, W. X.; Merz, J. L.; Fu, R. J.; Hong, C. S.: “Ultralow threshold strained InGaAs-GaAs quantum well lasers by impurity-induced disordering”, Electronics Letters, Vol. 27, No. 14,4th July 1991, S. 1241–1243
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Jiang, J. (1992). Realisierung eines 8-bit-parallelen optoelektronischen Backplanes mit kreisförmigen Lichtleiterplatten. In: Jammel, A. (eds) Architektur von Rechensystemen. Informatik aktuell. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-77422-5_12
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DOI: https://doi.org/10.1007/978-3-642-77422-5_12
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