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Protein-based volumetric memories

Proceedings of Nonvolatile Memory Technology Conference Pub Date : 1996-06-24 DOI:10.1109/NVMT.1996.534668
Jeffrey A. Stuart, Edward J. Schmidt, Anakarin Kusnetzow, Albert F. Lawrence, Q. W. Song, B. Vought, K. J. Wise, Deepak L. Singh, Robert R. Birge
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引用次数: 13

Abstract

The promise of new architectures and more cost-effective miniaturization has prompted interest in hybrid molecular and semiconductor computers. Nature has already optimized through serendipitous natural selection some molecules for such applications. We examine here the use of the protein bacteriorhodopsin in three-dimensional optical memories. By using a sequential one-photon process, parallel read and write processes can be carried out without disturbing data outside of the irradiated volume. We examine the architecture and the methods currently under study to enhance the relevant photophysical properties of the protein.
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基于蛋白质的体积记忆
新架构和更具成本效益的小型化的前景激发了人们对混合分子和半导体计算机的兴趣。通过偶然的自然选择,大自然已经优化了一些分子用于这些应用。我们在这里检查蛋白质细菌视紫红质在三维光学记忆中的使用。通过使用顺序的单光子过程,可以在不干扰辐照体外数据的情况下进行并行读写过程。我们研究了目前正在研究的结构和方法,以增强蛋白质的相关光物理性质。
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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Proceedings of Nonvolatile Memory Technology Conference
Proceedings of Nonvolatile Memory Technology Conference
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