Performance evaluation of gratings applied by genetic algorithm for the real-time optical interconnection

Jin-Seon Yoon; Nam Kim; HoHyung Suh; Seok Hee Jeon

doi:10.1117/12.379374

10 March 2000 Performance evaluation of gratings applied by genetic algorithm for the real-time optical interconnection

Jin-Seon Yoon, Nam Kim, HoHyung Suh, Seok Hee Jeon

Proceedings Volume 3951, Diffractive/Holographic Technologies and Spatial Light Modulators VII; (2000) https://doi.org/10.1117/12.379374
Event: Symposium on Integrated Optoelectronics, 2000, San Jose, CA, United States

Abstract

In this paper, gratings to apply for the optical interconnection are designed using a genetic algorithm (GA) for a robust and efficient schema. The real-time optical interconnection system architecture is composed with LC-SLM, CCD array detector, IBM-PC, He-Ne laser, and Fourier transform lens. A pixelated binary phase grating is displayed on LC-SLM and could interconnect incoming beams to desired output spots freely by real-time. So as to adapt a GA for finding near globally-cost solutions, a chromosome is coded as a binary integer of length 32 X 32, the stochastic tournament method for decreasing the stochastic sampling error is performed, and a single-point crossover having 16 X 16 block size is used. The characteristics on the several parameters are analyzed in the desired grating design. Firstly, as the analysis of the effect on the probability of crossover, a designed grating when the probability of crossover is 0.75 has a 74.7[%] high diffraction efficiency and a 1.73 X 10^-1 uniformity quantitatively, where the probability of mutation is 0.001 and the population size is 300. Secondly, on the probability of mutation, a designed grating when the probability of mutation is 0.001 has a 74.4[%] high efficiency and a 1.61 X 10^-1 uniformity quantitatively, where the probability of crossover is 1.0 and the population size is 300. Thirdly, on the population size, a designed grating when the population size is 300 and the generation is 400 has above 74[%] diffraction efficiency, where the probability of mutation is 0.001 and the probability of crossover is 1.0.

Citation Download Citation

Jin-Seon Yoon, Nam Kim, HoHyung Suh, and Seok Hee Jeon "Performance evaluation of gratings applied by genetic algorithm for the real-time optical interconnection", Proc. SPIE 3951, Diffractive/Holographic Technologies and Spatial Light Modulators VII, (10 March 2000); https://doi.org/10.1117/12.379374

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