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引用次数: 0
摘要
本文介绍了一种使用电阻式随机存取存储器(RRAM)和碳纳米管场效应晶体管(CNTFET)技术的三元 D 型锁存器设计。在设计三元逻辑电路时,利用了 CNTFET 的多阈值特性和 RRAM 的多级单元。三元逻辑的优点是替代传统二元逻辑系统的最佳选择,如降低互连复杂性、提高信息密度、紧凑芯片面积和快速计算能力。因此,三元系统在保持高能效和快速信号处理的同时,还能提供易于实现的数字设计。本文介绍了一种利用基于 CNTFET-RRAM 的三元逻辑门(包括标准三元反相器 (STI) 和三元 NAND (TNAND))的三元 D 锁存器电路。所提出的设计功耗为 0.863 nW,延迟为 12 ps。
Low power and energy efficient design of ternary D-latch based on CNTFET-RRAM technology
This paper presents a ternary D-latch design using resistive random-access memory (RRAM) and carbon nanotube field effect transistor (CNTFET) technology. The property of multi-threshold in CNTFETs and multi-level cell in RRAM is utilized in designing ternary logic circuits. The advantages of ternary logic provide best substitute to replace conventional binary logic system such as less interconnect complexity, enhanced information density, compact chip area and fast computational ability. As a result, the ternary system offers digital designs that are easy to implement while maintaining both high energy efficiency and rapid signal processing. This paper presents a ternary D-latch circuit utilizing CNTFET-RRAM based ternary logic gates including standard ternary inverter (STI) and ternary NAND (TNAND). The proposed design provides 0.863 nW power consumption and 12 ps delay.
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