1-trit Ternary Multiplier and Adder Designs Using Ternary Multiplexers and Unary Operators

2021 International Conference on Innovation and Intelligence for Informatics, Computing, and Technologies (3ICT) Pub Date : 2021-09-29 DOI:10.1109/3ICT53449.2021.9581366

Ramzi A. Jaber, Hiba Bazzi, A. Haidar, B. Owaidat, A. Kassem

引用次数: 3

Abstract

This work proposes models for a L-trit TMUL (Ternary Multiplier) and THA (Half-Adder) using TMUXs (Ternary Multiplexers) and unary operators. The target of the proposed designs is to minimize energy consumption in nanoscale embedded circuits to improve their battery usage. To achieve that, different techniques are used: 32-nm CNTFET tranisistor, Multiple-Valued Logic (MVL), two voltage supplies $(V_{dd},\ V_{dd}/2)$ TMUXs, and unary operators to reduce the transistors' number and PDP (Power Delay Product). Extensive simulations using HSPICE for different Process, Voltage, Temperature (PVT), and noise effects are applied. The obtained results show improvements regarding PDP, robustness of process variations, and noise tolerance with respect to recent similar designs.

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使用三元复用器和一元运算符的1-三三元乘法器和加法器设计

这项工作提出了L-trit TMUL(三元乘法器)和THA(半加法器)的模型，使用TMUXs(三元多路复用器)和一元算子。提出的设计目标是最小化纳米级嵌入式电路的能量消耗，以提高其电池利用率。为了实现这一目标，使用了不同的技术:32nm CNTFET晶体管，多值逻辑(MVL)，两个电压电源$(V_{dd}，\ V_{dd}/2)$ tmux，以及一元算子来减少晶体管的数量和PDP(功率延迟积)。应用HSPICE对不同的工艺、电压、温度(PVT)和噪声效果进行了广泛的模拟。所获得的结果表明，相对于最近的类似设计，PDP，工艺变化的鲁棒性和噪声容忍度方面有所改进。

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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来源期刊

2021 International Conference on Innovation and Intelligence for Informatics, Computing, and Technologies (3ICT)

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