Design of Ternary Master-Slave D-Flip Flop using MOS-GNRFET

机译：使用MOS-GNRFET设计三进制主从D触发器

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Graphene Nano Ribbon Field Effect Transistors (GNRFETs) are being investigated for a wide range of applications due to its unique characteristics like controllable threshold voltage, high Ion-Ioff ratio, etc. One of the emerging areas of research on GNRFET is its utilization in beyond-binary logic and memory circuits designs. This paper presents new designs of a basic ternary D latch and a positive edge-triggered Master-Slave D flip-flop. The proposed designs exploit the electrical properties of GNRFETs and appears to be better than other similar designs in terms of delay, static power, and the average power. Simulations are done using a 16nm three ribbon MOS-GNRFET HSPICE model.

机译：由于石墨烯纳米带状场效应晶体管（GNRFET）具有独特的特性，例如可控阈值电压，高I 上 -一世关闭 GNRFET研究的新兴领域之一是其在二进制以外的逻辑和存储电路设计中的利用。本文介绍了基本三元D锁存器和正边沿触发的主从D触发器的新设计。拟议的设计利用了GNRFET的电特性，在延迟，静态功率和平均功率方面似乎比其他类似设计要好。使用16nm三带MOS-GNRFET HSPICE模型进行仿真。

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来源
《IEEE International Midwest Symposium on Circuits and Systems》|2020年|554-557|共4页
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Zarin Tasnim Sandhie; Farid Uddin Ahmed; Masud H Chowdhury;
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Latches; Logic gates; Flip-flops; Clocks; Threshold voltage; Inverters; Master-slave;

机译：锁存器;逻辑门;触发器;时钟;阈值电压;逆变器;主从;

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2. Design of high-speed master-slave D-type flip-flop in InP DHBT technology [J] . Kasbari A.-E., Andre P., Konczykowska A., IEEE Transactions on Microwave Theory and Techniques . 2002,第12期

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3. Design of ternary low-power Domino JKL flip - Flop and its application [J] . Wang P., Yang Q., Zheng X. Journal of Semiconductors . 2012,第11期

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4. The optimum design of a master-slave D-flip flap (M/S-DFF) based on the modified GDI (m-GDI) method using Non-dominated Sorting Genetic Algorithm II (NSGA-II) [C] . Ebrahim Abiri, Zobeideh Bezareh, Abdolreza Darabi Iranian Conference on Electrical Engineering . 2016

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6. A Modified Implementation of Tristate Inverter Based Static Master-Slave Flip-Flop with Improved Power-Delay-Area Product [O] . Kunwar Singh, Satish Chandra Tiwari, Maneesha Gupta -1

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Design of Ternary Master-Slave D-Flip Flop using MOS-GNRFET

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