一种使用蓝色激光的动态光学可重构门阵列

2013 IEEE 4th International Conference on Photonics (ICP) Pub Date : 2013-10-01 DOI:10.1109/ICP.2013.6687090

Takayuki Kubota, Minoru Watanabe

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摘要

近年来，光学可重构门阵列(ORGAs)得到了发展，它可以支持多种重构环境下的高速动态重构。虽然ORGA是一个三维超大规模集成电路，但没有硅通孔(TSV)技术或任何微碰撞技术是不需要生产ORGA的。三维ORGA仅使用自由光学连接和体积型全息存储技术。因此，有机合成产物的产出率非常高，可以很容易地生产有机合成产物，而不需要担心产量变化。在本研究中，为了提高栅极密度，将404 nm的短波长激光器应用于ORGA结构。本文介绍了一种新制造的有机集成电路(ORGA-VLSI)的光电二极管存储器结构的重构周期和保留时间的重构能力。

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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A dynamic optically reconfigurable gate array using a blue laser

Recently, optically reconfigurable gate arrays (ORGAs), which can support a high-speed dynamic reconfiguration with numerous reconfiguration contexts, have been developed. Although an ORGA is a three-dimensional VLSI, no through-silicon via (TSV) technology or any micro-bump technology is never necessary to produce an ORGA. A three-dimensional ORGA uses only free-optical connections and a volume-type holographic memory technology. Therefore, the yield ratio of ORGAs is so high that ORGAs can easily be produced with no concern related to production variation. In this study, to increase the gate density, a short wavelength laser of 404 nm is applied to ORGA architecture. This paper presents the reconfiguration capabilities of the reconfiguration period and retention time of the photodiode memory architecture of a newly fabricated ORGA-VLSI.

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2013 IEEE 4th International Conference on Photonics (ICP)

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