The Crystal Computer - Computing with Inorganic Cellular Frameworks and Nets

M. Symes, L. Cronin
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引用次数: 6

Abstract

The enormous potential of parallel computing has led to the first prototype devices being constructed. However, all the examples to date rely on complicated chemical and/or physical manipulations, and hence do not lend themselves to the kind of widespread investigation necessary to advance the field. This article presents a new paradigm for parallel computing: the use of solid, single crystalline materials as cellular automata suggesting the idea of the “Crystal Computer,” now possible due to a new class of crystalline cellular materials that undergo single-crystal-to-single-crystal (SC-SC) oxidation and reduction (REDOX) reactions. Two avenues are proposed for investigation: reversible single-crystal to single-crystal electronic transformations and solid-state spin transfer within spin-crossover complexes. Both schemes allow computation to occur in three dimensions, within cheap and easy to assemble materials and using commonplace techniques for input and readout.
晶体计算机-用无机细胞框架和网络计算
并行计算的巨大潜力导致了第一批原型设备的构建。然而,迄今为止所有的例子都依赖于复杂的化学和/或物理操作,因此不适合推进该领域所必需的那种广泛调查。本文提出了一种并行计算的新范例:使用固体单晶材料作为细胞自动机,提出了“晶体计算机”的想法,由于一种新的晶体细胞材料可以进行单晶到单晶(SC-SC)氧化和还原(REDOX)反应,现在可能成为可能。提出了两种研究途径:可逆的单晶到单晶的电子转换和自旋交叉配合物内的固态自旋转移。这两种方案都允许在三维空间中进行计算,使用便宜且易于组装的材料,并使用普通的输入和读出技术。
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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