Reducing stray currents in molecular memory through data encoding

A. C. Cabe, G. Rose, M. Stan
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引用次数: 3

Abstract

Much progress is being made in the fabrication of molecular devices and nanoscale circuits. Such strides have led to studies and experimental tests using these devices in non-volatile memory arrays. However, the architecture of such arrays makes it difficult to accurately determine the value of each stored bit in the memory. When reading, each bit is effected by the rest of the memory through variable numbers of `stray current pathsiquest. This paper presents the idea of data encoding to thwart the impacts of these stray currents. The results show that this encoding method makes each bit unique and deterministic, independent of the memory array size. Details of the encoding scheme, the hardware design, and layouts are presented throughout this work.
通过数据编码减少分子存储器中的杂散电流
在分子器件和纳米级电路的制造方面取得了很大进展。这样的进步导致了在非易失性存储器阵列中使用这些器件的研究和实验测试。然而,这种阵列的结构使得很难准确地确定存储器中每个存储位的值。读取时,每个位通过可变数量的“杂散电流路径请求”受到存储器其余部分的影响。本文提出了数据编码的思想,以阻止这些杂散电流的影响。结果表明,这种编码方法使每个比特具有唯一性和确定性,不受存储器阵列大小的影响。详细的编码方案,硬件设计和布局介绍了整个工作。
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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