Function synthesis algorithm based on RTD-based three-variable universal logic gates

被引：0

作者：

Maoqun YAO ^{[1
]}

Kai YANG ^{[1
]}

Jizhong SHEN ^{[2
]}

Congyuan XU ^{[2
]}

机构：

[1] Hangzhou Institute of Service Engineering,Hangzhou Normal University

[2] College of Information Science & Electronic Engineering,Zhejiang University

来源：

Frontiers of Information Technology & Electronic Engineering | 2017年 / 18卷 / 10期

关键词：

Resonant tunneling device(RTD); Disjunctive decomposition algorithm; Universal logic gate; Truth value matrix; Function synthesis algorithm;

D O I：

暂无

中图分类号：

TN791 [];

学科分类号：

080902 ;

摘要：

Compared with complementary metal–oxide semiconductor(CMOS), the resonant tunneling device(RTD) has better performances; it is the most promising candidate for next-generation integrated circuit devices. The universal logic gate is an important unit circuit because of its powerful logic function, but there are few function synthesis algorithms that can implement an n-variable logical function by RTD-based universal logic gates. In this paper, we propose a new concept, i.e., the truth value matrix. With it a novel disjunctive decomposition algorithm can be used to decompose an arbitrary n-variable logical function into three-variable subset functions. On this basis, a novel function synthesis algorithm is proposed, which can implement arbitrary n-variable logical functions by RTD-based universal threshold logic gates(UTLGs), RTD-based three-variable XOR gates(XOR3s), and RTD-based three-variable universal logic gate(ULG3s). When this proposed function synthesis algorithm is used to implement an n-variable logical function, if the function is a directly disjunctive decomposition one, the circuit structure will be very simple, and if the function is a non-directly disjunctive decomposition one, the circuit structure will be simpler than when using only UTLGs or ULG3s. The proposed function synthesis algorithm is straightforward to program, and with this algorithm it is convenient to implement an arbitrary n-variable logical function by RTD-based universal logic gates.

引用

页码：1654 / 1664

页数：11

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