Hybrid optical-electronic pattern recognition
Optics uses photons (bosons). Electronics uses electrons and
holes (Fermions). Each has strengths.
Optics allows massive fanin/fanout that electronics cannot
possibly achieve. Optics allows us to work in the wave domain where virtual
operations of great value can be performed free of energy cost and many time
costs, so long as they are never directly measured. But the operations
achievable are strictly linear.
For background on these matters see:
- "Wave
particle Duality Considerations in Optical Computing," Applied
Optics, Vol. 28, No. 12 (15 June 1989) pg. 2184-2186, H. John
Caulfield and Joseph Shamir
- "Wave-Particle-Duality
Processors: Characteristics,
Requirements, and Applications," Journal of the Optical Society of
America A, Vol. 7, No. 7, pg. 1314-1323, July 1990, H. John Caulfield
and Joseph Shamir.
- "Reversibility
and Energetics in Optical Computing," Opt. Lett, Vol 15, No.
16, pg. 912-914 (August 15, 1990) H. J. Caulfield, Joseph Shamir, J. E.
Ludman and P. Greguss. .
- "Complexity
Issues in Optical Computing," Optical Computing & Processing,
Vol. 1, No. 2, pg. 109-113 (1991), H. J. Caulfield, J. D. Brasher, and C.
F. Hester
- "Virtually-Deterministic
Quantum Computing of Nondeterministic Polynomial Problems," Int'l
Journ. of Theoretical Physics, Vol. 30, No. 7, pg. 973-977 (1991), J.
D. Brasher, C. F. Hester, and H. J. Caulfield
- "Massively
Parallel Optical PLA," International Journal of Optical Computing,
Vol.2, 49-62, (1991), S. A. Kupiec and H. J. Caulfield
- "Parallel
Optical Processors - Some Basic Considerations," Intl. Journal of
Optical Computing, Vol. 2, Pg.73-88 (1991), Joseph Shamir and H. John
Caulfield
- "Space
- Time Complexity in Optical Computing," Multidimensional Systems and
Signal Processing, 2, (1992), 373-378, H. J. Caulfield
- “Perspectives
in Optical Computing,” Computer, Vol. 31, No.2, (February 1998),
pp. 22-25, H.John Caulfield
- “Consuming complexity by
space-time-fanout in optical computing,” Asian J. Physics 10,
237-243 (2001), H. J. Caulfield
Electronics is good for everything else, e.g. input, output,
and nonlinear operations.
All optical pattern recognition is, therefore hybrid.