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Interconnect density capabilities of computer generated holograms for optical interconnection of very large scale integrated circuits

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Abstract

An upper bound on the area of a computer generated hologram (CGH) required to form space variant connections between N transmitters and N × F detectors is determined. The analysis is performed without employing paraxial or small transmitter divergence angle approximations. It is shown that a previously proposed method for performing space variant interconnects has limited usefulness for connecting transmitters with large divergence angles. A new architecture employing a double pass CGH is introduced, and an expression is derived for the interconnect density capabilities of this architecture.

© 1989 Optical Society of America

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Equations (18)

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