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Optoelectronic Device using a Liquid Crystal Holographic Memory 233 7. Acknowledgments This research was supported by the Ministry of Education, Science, Sports and Culture, Grant-in-Aid for Scientific Research on Innovative Areas, No. 20200027. The VLSI chip in this study was fabricated in the chip fabrication program of VLSI Design and Education Center (VDEC), the University of Tokyo in collaboration with Rohm Co. Ltd. and Toppan Printing Co. Ltd. Also, some experiments were supported by Mr. M. Nakajima and Mr. T. Mabuchi. 8. References [1] Takuya Otani, "Seiko Epson Develops New Liquid Crystal Panel for Rear Projection TV," Nikkei Electronics, 2006. [2] SEIKO EPSON CORPORATION, "Epson Develops Next-Generation HTPS Panel for LCD Projection TVs," News Release, 2006. [3] Sony Corporation, "Sony develops "SXRD", a display device capable of generating high resolution, high contrast images of film quality smoothness," Press Releases, 2003. [4] Canon Incorporated, "CANON ANNOUNCES DEVELOPMENT OF OWN LCOS REFLECTIVE LCD PANEL," Press Release, 2008. [5] J. Mumbru, G. Panotopoulos, D. Psaltis, X. An, F. Mok, S. Ay, S. Barna, E. Fossum, "Optically Programmable Gate Array," SPIE of Optics in Computing 2000, Vol. 4089, pp. 763-771, 2000. [6] J. Mumbru, G. Zhou, X. An, W. Liu, G. Panotopoulos, F. Mok, and D. Psaltis, "Optical memory for computing and information processing," SPIE on Algorithms, Devices, and Systems for Optical Information Processing III, Vol. 3804, pp. 14-24, 1999. [7] J. Mumbru, G. Zhou, S. Ay, X. An, G. Panotopoulos, F. Mok, and D. Psaltis, "Optically Reconfigurable Processors," SPIE Critical Review 1999 Euro-American Workshop on Optoelectronic Information Processing, Vol. 74, pp. 265-288, 1999. [8] Altera Corporation, "Altera Devices," http://www. altera.com. [9] Xilinx Inc., "Xilinx Product Data Sheets," http://www. xilinx.com. [10] Lattice Semiconductor Corporation, "LatticeECP and EC Family Data Sheet," http://www. latticesemi.co.jp/products, 2005. [11] M. Watanabe, F. Kobayashi, "Dynamic Optically Reconfigurable Gate Array," Japanese Journal of Applied Physics, Vol. 45, No. 4B, pp. 3510-3515, 2006. [12] M. Miyano, M. Watanabe, F. Kobayashi, "Optically Differential Reconfigurable Gate Array," Electronics and Computers in Japan, Part II, Issue 11, vol. 90, pp. 132-139, 2007. [13] N. Yamaguchi, M. Watanabe, "Liquid crystal holographic configurations for ORGAs," Applied Optics, Vol. 47, No. 28, pp. 4692-4700, 2008. [14] D. Seto, M. Watanabe, "A dynamic optically reconfigurable gate array - perfect emulation," IEEE Journal of Quantum Electronics, Vol. 44, Issue 5, pp. 493-500, 2008. [15] http://www.ipflex.co.jp [16] H. Nakano, T. Shindo, T. Kazami, M. Motomura, "Development of dynamically reconfigurable processor LSI," NEC Tech. J. (Japan), vol. 56, no. 4, pp. 99-102, 2003. New Developments in Liquid Crystals 234 [17] A. Dehon, "Dynamically Programmable Gate Arrays: A Step Toward Increased Computational Density," Fourth Canadian Workshop on Field Programmable Devices, pp. 47-54, 1996. [18] S.M.Scalera and J.R.Vazquez, "The design and implementation of a context switching FPGA," IEEE symposium on FPGAs for Custom Computing Machines, pp. 78-85, 1998. [19] S.Trimberger, et al. "A Time Multiplexed FPGA," FCCM, pp. 22-28, 1997. [20] D. Jones, D.M.Lewis, "A time multiplexed FPGA architecture for logic emulation," Custom Integrated Circuits Conference, pp. 495 - 498, 1995. [21] M. Nakajima, M. Watanabe, "Fast reconfiguration experiments of an optically differential reconfigurable gate array with 9 configuration contexts, IEEE International Symposium on Circuits and Systems, pp. 2013-2016, 2009. [22] M. Nakajima, M. Watanabe, "Fast optical reconfigurations of a nine-context DORGA," International Workshop on Applied Reconfigurable Computing, Vol. 5453, pp. 123- 132, 2009. [23] T. Mabuchi, M. Watanabe, "A 9-context Optically Reconfigurable Gate Array," International SoC Design Conference, pp. 1-4, 2008. . Reconfigurable Gate Array," Electronics and Computers in Japan, Part II, Issue 11, vol. 90, pp. 132 -139 , 2007. [13] N. Yamaguchi, M. Watanabe, "Liquid crystal holographic configurations. array with 9 configuration contexts, IEEE International Symposium on Circuits and Systems, pp. 2 013- 2016, 2009. [22] M. Nakajima, M. Watanabe, "Fast optical reconfigurations of a nine-context. nine-context DORGA," International Workshop on Applied Reconfigurable Computing, Vol. 5453, pp. 123- 132 , 2009. [23] T. Mabuchi, M. Watanabe, "A 9-context Optically Reconfigurable Gate Array,"

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