基于负差分电阻器件的多值逻辑符号数字加法器的标准CMOS实现

Proceedings 30th IEEE International Symposium on Multiple-Valued Logic (ISMVL 2000) Pub Date : 2000-05-23 DOI:10.1109/ISMVL.2000.848639

Alejandro F. González, M. Bhattacharya, S. Kulkarni, P. Mazumder

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引用次数: 8

摘要

本文介绍了MOS-NDR，一种将MOS晶体管与多峰负差分电阻(NDR)器件如谐振隧道二极管(rtd)相结合的多值逻辑电路的新原型技术。MOS-NDR仅使用NMOS晶体管模拟NDR器件(如rtd)的折叠电流-电压特性，MOS-NDR通过标准的0.6微米CMOS工艺技术实现了完全集成的多值符号数字全加法器(SDFA)电路的开发。制作了样机，并验证了样机的正确性。电路尺寸为123.75 × 38.7微米，比等效混合RTD-CMOS原型所需的面积小15倍以上。混合RTD-CMOS设计的传播延迟估计比MOS-NDR实现高近六倍。

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Standard CMOS implementation of a multiple-valued logic signed-digit adder based on negative differential-resistance devices

This paper presents MOS-NDR, a new prototyping technique for multiple-valued logic circuits combining MOS transistors and multipeak negative differential-resistance (NDR) devices such as resonant-tunneling diodes (RTDs). MOS-NDR emulates the folded current-voltage characteristics of NDR devices such as RTDs using only NMOS transistors, MOS-NDR has enabled the development of a fully integrated multivalued signed-digit full adder (SDFA) circuit by means of a standard 0.6-micron CMOS process technology. The prototype has been fabricated and correct operation has been verified. The circuit dimensions are 123.75 by 38.7 microns, which is more than 15 times smaller than the area required by the equivalent hybrid RTD-CMOS prototype. The propagation delay of the hybrid RTD-CMOS design is estimated to be close to six times higher than that of the MOS-NDR implementation.

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Proceedings 30th IEEE International Symposium on Multiple-Valued Logic (ISMVL 2000)

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