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Synthesis of majority and minority networks and its applications to QCA, TPL and SET based nanotechnologies

机译：综合多数和少数民族网络及其对QCA，TPL和基于纳米技术的应用

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In this paper, we present a methodology for efficient majority/minority network synthesis of arbitrary multioutput Boolean functions. Many emerging nanoscale technologies, such as quantum cellular automata (QCA), tunneling phase logic (TPL), and single electron tunneling (SET), are capable of implementing majority or minority logic very efficiently. However, there exists no comprehensive methodology or design automation tool for general multilevel majority/minority network synthesis. We have built the first such tool, majority logic synthesizer (MALS), on top of an existing Boolean logic synthesis tool. We have performed experiments with 40 MCNC benchmarks. They indicate that up to 68.0% reduction in gate count is possible when utilizing majority logic, with the average reduction being 21.9%, compared to traditional logic synthesis, in which two-input AND/OR gates in the circuit are converted to majority gates.

机译：在本文中，我们提出了一种有效的多数/少数群体网络合成任意多开花布尔函数的方法。许多新兴纳米级技术，例如量子蜂窝自动机（QCA），隧道相位逻辑（TPL）和单电子隧道（设定），能够非常有效地实现大多数或少数逻辑。但是，没有用于一般多级多数/少数网络合成的全面方法或设计自动化工具。我们已经建立了第一个这样的工具，大多数逻辑合成器（MALS），在现有的布尔逻辑合成工具之上。我们对40个MCNC基准进行了实验。它们表明，与传统逻辑合成相比，在使用多数逻辑时，栅极计数降低高达68.0％的浇口计数是可能的21.9％，其中电路中的两个输入和/或栅极被转换为多数栅极。

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《International Conference on VLSI Design》|2005年||共6页
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Rui Zhang; Gupta P.; Jha N.K.;
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中图分类 TN47-53;
关键词
network synthesis; Boolean functions; cellular automata; tunnelling; nanotechnology; majority/minority network synthesis; QCA; TPL; nanotechnology; Boolean functions; nanoscale technology; quantum cellular automata; tunneling phase logic; single electron tunneling; minority logic; automation tool; majority logic synthesizer; Boolean logic synthesis tool; AND/OR gates; majority gates;

机译：网络合成;布尔函数;蜂窝自动机;隧道;多数/少数群体综合;QCA;TPL;纳米技术;布尔函数;纳米级技术;量子蜂窝自动机;隧道阶段逻辑;单电子隧道;少数逻辑;自动化工具;多数逻辑合成器;布尔逻辑合成工具;和/或盖茨;多数盖茨;

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专利

1. Majority and Minority Network Synthesis With Application to QCA-, SET-, and TPL-Based Nanotechnologies [J] . Zhang R., Gupta P., Jha N. K. IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems . 2007,第7期

机译：多数和少数族裔网络综合及其在基于QCA，SET和TPL的纳米技术中的应用
2. Designing nanotechnology QCA-multiplexer using majority function-based NAND for quantum computing [J] . Jeon Jun-Cheol Journal of supercomputing . 2021,第2期

机译：使用大多数函数基NAND设计纳米技术QCA多路复用器进行量子计算
3. A Comparative Study of Majority/Minority Logic Circuit Synthesis Methods for Post-CMOS Nanotechnologies [J] . Amjad Almatrood, Harpreet Singh Engineering . 2017,第10期

机译：后CMOS纳米技术多数/少数逻辑电路合成方法的比较研究
4. Synthesis of majority and minority networks and its applications to QCA, TPL and SET based nanotechnologies [C] . Rui Zhang, Gupta, P., . 2005

机译：多数和少数网络的合成及其在基于QCA，TPL和SET的纳米技术中的应用
5. A Comprehensive Technique for Majority/Minority Logic Synthesis with Applications in Nanotechnology. [D] . Wang, Peng. 2014

机译：多数/少数逻辑综合的综合技术及其在纳米技术中的应用。
6. An Efficient Microarray-Based Genotyping Platform for the Identification of Drug-Resistance Mutations in Majority and Minority Subpopulations of HIV-1 Quasispecies [O] . Verónica Martín, Celia Perales, María Fernández-Algar, 2011

机译：一个有效的基于微阵列的基因分型平台，用于鉴定HIV-1准种的多数和少数亚群中的抗药性突变。
7. Performance evaluation of an efficient five input majority gate design in QCA nanotechnology [O] . Amanpreet Sandhu, Sheifali Gupta 2019

机译：QCA纳米技术有效五种大多数门设计的性能评价

Synthesis of majority and minority networks and its applications to QCA, TPL and SET based nanotechnologies

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