A lens-less imaging holographic memory writer system for a programmable optically reconfigurable gate array

2009 International Conference on Emerging Trends in Electronic and Photonic Devices & Systems Pub Date : 2009-12-01 DOI:10.1109/ELECTRO.2009.5441161

S. Kubota, Minoru Watanabe

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Abstract

Recently, optically reconfigurable gate arrays (OR-GAs) consisting of a gate array VLSI, a holographic memory, and a laser array have been developed to achieve a huge virtual gate count that is much larger than those of currently available VLSIs. Consequently, ORGAs with more than tera-gate capacity will be realized by exploiting the storage capacity of a holographic memory. However, in contrast to current field-programmable gate arrays (FPGAs), conventional ORGAs have an important shortcoming: they are not reprogrammable after fabrication because, to reprogram ORGAs, a holographic memory must be disassembled from its ORGA package and reprogrammed outside of the ORGA package using a holographic memory writer. Then it must be implemented onto the ORGA package with high precision beyond the capability of manual assembly. To remove that problem, this paper presents a new programmable optically reconfigurable gate array and its lens-less imaging holographic memory writer system. Furthermore, this paper presents discussion of the availability of this architecture and future plans based on experimental results.

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一种用于可编程光学可重构门阵列的无透镜成像全息存储写入系统

最近，由门阵列VLSI、全息存储器和激光阵列组成的光学可重构门阵列(OR-GAs)已被开发出来，以实现比现有VLSI大得多的虚拟门数。因此，通过利用全息存储器的存储容量，可以实现具有超过万亿栅极容量的orga。然而，与当前的现场可编程门阵列(fpga)相比，传统的ORGA有一个重要的缺点:它们在制造后不能重新编程，因为要重新编程ORGA，必须从其ORGA封装中拆卸全息存储器，并使用全息存储器写入器在ORGA封装外重新编程。然后，它必须以超出人工装配能力的高精度实现在ORGA封装上。为了解决这一问题，本文提出了一种新的可编程光可重构门阵列及其无透镜成像全息存储写入系统。此外，本文还根据实验结果讨论了该体系结构的可用性和未来的计划。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2009 International Conference on Emerging Trends in Electronic and Photonic Devices & Systems

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