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Adaptive optical interconnection
Optics Letters, 1991We explore the ability of a double phase-conjugate mirror to compensate for thermal, vibrational, and other environmental fluctuations. This property lends itself to the establishment and maintenance of bidirectional optical interconnections. We further introduce a bidirectional interconnection scheme that utilizes two wavelengths.
M P, Schamschula +2 more
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Dynamic optical interconnections
Optics Letters, 1987An optical configuration is described that uses an addressable reflective component (a liquid-crystal light valve) permitting free-space interconnections between points located on the same substrate. The scheme is attractive for generating programmable interconnections between electronic elements located on the same chip or wafer, in particular since ...
E, Marom, N, Konforti
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Silicon Photonics Beyond Optical Interconnects
2021 IEEE International Electron Devices Meeting (IEDM), 2021In this paper we present the use of a 300mm Si-Photonic platform for applications beyond the data communication. Beam steering and beam shaping for free-space-optics and hybrid III - V/ Si optical switch for computing applications are discussed.
Boeuf F. +15 more
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Photorefractive Dynamic Optical Interconnects
SPIE Proceedings, 1988We present and demonstrate a set of dynamic optical interconnects which are based on the double phase conjugate mirror with photorefractive wave mixing. These devices are bidirectional, self-adjusting, and controllable in real time. Uses in various interconnection modes are given.
S, Weiss +3 more
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Proceedings of the 2007 international symposium on Physical design, 2007
The speed and complexity of integrated circuits are increasing rapidly as integrated circuit technology advances from very-large-scale integrated (VLSI) circuits to ultra-large-scale integrated (ULSI) circuits. As the number of devices per chip, the number of chips per board, the modulation speed, and the degree of integration continue to increase ...
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The speed and complexity of integrated circuits are increasing rapidly as integrated circuit technology advances from very-large-scale integrated (VLSI) circuits to ultra-large-scale integrated (ULSI) circuits. As the number of devices per chip, the number of chips per board, the modulation speed, and the degree of integration continue to increase ...
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Diffractive–reflective optical interconnects
Applied Optics, 1988We have demonstrated the feasibility of diffractive-reflective optical interconnects. These interconnects consist of a sandwich of a holographic plane and a reflective plane. Various possibilities like beam relaying, connection switching, and broadcasting are discussed.
K H, Brenner, F, Sauer
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Free-space optical interconnection scheme
Applied Optics, 1989One of the limiting factors in the design of large scale digital systems is communication [1]. The use of conventional wiring for high speed communication entails high energy dissipation, crosstalk, ground loops and low interconnect density due to physical size constraints.
A, Dickinson, M E, Prise
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Optical fiber interconnections
1996 Proceedings 46th Electronic Components and Technology Conference, 2002A Z-axis assembly process was described for producing optical fiber based connectorized optical interconnection circuits (COICs). The required split connectors were injection molded from heavily filled PPS material. Reproducible mechanized fiber stripping as part of the Z-axis assembly process was incorporated and successfully tested with good results.
M.A. Shahid, R.A. Roil
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Integrated optical interconnections
IEEE Circuits and Devices Magazine, 1992The use of optical interconnections between processors, boards, chips, and gates in electronic digital systems to overcome the current performance limitations is described. The advantages of optical interconnections in relation to the interconnection distance, the data capacity, and the interconnection functions are presented.
O. Wada, T. Kamijoh, M. Nakamura
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