A Digital Optical Architecture For Performing Matrix Algebra

Richard P. Bocker; Keith Bromley; Stanley R. Clayton

doi:10.1117/12.936458

28 November 1983 A Digital Optical Architecture For Performing Matrix Algebra

Richard P. Bocker, Keith Bromley, Stanley R. Clayton

Proceedings Volume 0431, Real-Time Signal Processing VI; (1983) https://doi.org/10.1117/12.936458
Event: 27th Annual Technical Symposium, 1983, San Diego, United States

Abstract

An electro-optical engagement-array architecture for performing matrix-matrix multiplication using twos complement arithmetic is pre-sented. Twos complement arithmetic offers a convenient means for handling bipolar numbers, avoids the need for matrix partitioning when the matrices are real, and offers a means for improvement in accuracy over conventional optical analog techniques.

Citation Download Citation

Richard P. Bocker, Keith Bromley, and Stanley R. Clayton "A Digital Optical Architecture For Performing Matrix Algebra", Proc. SPIE 0431, Real-Time Signal Processing VI, (28 November 1983); https://doi.org/10.1117/12.936458

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