Scouting Logic: A Novel Memristor-Based Logic Design for Resistive Computing

2017 IEEE Computer Society Annual Symposium on VLSI (ISVLSI) Pub Date : 2017-07-03 DOI:10.1109/ISVLSI.2017.39

Lei Xie, Hoang Anh Du Nguyen, Jintao Yu, A. Kaichouhi, M. Taouil, M. Alfailakawi, S. Hamdioui

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引用次数: 86

Abstract

Memristor technology is a promising alternative to CMOS due to its high integration density, near-zero standby power, and ability to implement novel resistive computing. One of the major limitations of these architectures is the limited endurance of memristor devices, especially when a logic gate requires multiple steps/switching to execute the logic operations. To alleviate the endurance requirement and improve the performance, we present a novel logic design style, called scouting logic that executes any logic gate by only reading the memristor devices and without changing their states. Hence, no impact on the memristors' endurance. The proposed design is implemented using two styles (current and voltage based). To illustrate the performance of scouting logic based designs, the area, delay, and power consumption are analyzed and compared with state-ofthe- art. The results show that scouting logic improves the delay and power consumption by at least a factor of 2.3, while having similar or less area overhead. Finally, we discuss the potential applications and challenges of scouting logic.

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侦察逻辑:一种新的基于忆阻器的电阻计算逻辑设计

忆阻器技术由于其高集成度、接近零的待机功率和实现新型电阻计算的能力，是CMOS的一个有前途的替代品。这些架构的主要限制之一是忆阻器器件的有限耐用性，特别是当逻辑门需要多个步骤/开关来执行逻辑操作时。为了减轻记忆阻器的寿命要求和提高性能，我们提出了一种新的逻辑设计风格，称为侦察逻辑，它只通过读取记忆阻器器件而不改变其状态来执行任何逻辑门。因此，对记忆电阻器的寿命没有影响。提出的设计采用两种风格(基于电流和电压)来实现。为了说明基于侦察逻辑的设计的性能，分析了其面积、延迟和功耗，并与最新的设计进行了比较。结果表明，侦察逻辑将延迟和功耗提高了至少2.3倍，同时具有相似或更少的面积开销。最后，我们讨论了侦察逻辑的潜在应用和挑战。

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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2017 IEEE Computer Society Annual Symposium on VLSI (ISVLSI)

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