基于QDC-SWS场效应管的多态d锁存电路设计与仿真

Q4 Engineering

International Journal of High Speed Electronics and Systems Pub Date : 2023-07-13 DOI:10.1142/s012915642350009x

A. Almalki, B. Saman, R. Gudlavalleti, J. Chandy, E. Heller, F. Jain

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引用次数: 0

摘要

提出了一种利用多态量子点通道(QDC)空间波函数开关(SWS)场效应晶体管(FET)的新型d锁存电路。SWS-FET具有两个或多个垂直堆叠的量子阱或量子点(QD)层，其中栅极电压的大小决定了每个通道中载流子的位置。利用空间定位技术，在GeOx-Ge/ SiOx-Si量子点超晶格(QDSL)形成的小能带中，随载流子输运对多个逻辑态进行编码，实现8态运算。该设计基于CMOS-X配置的QDC sws - fet的8态逆变器。这可能是设计触发器和注册更复杂顺序电路的新范例。所提出的设计可以减少传输延迟和更小的Si占用。

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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Design and Simulation of Multi-State D-Latch Circuit Using QDC-SWS FETs

This paper presents a novel D-latch circuit using multi-state quantum dot channel (QDC) spatial wavefunction-switched (SWS) field-effect transistors (FET). The SWS-FET has two or more vertically stacked quantum-well or quantum dot (QD) layers where the magnitude of the gate voltage determines the location of carriers in each channel. Spatial location is used to encode multiple logic states along with the carrier transport in mini-energy bands formed in GeOx-Ge/ SiOx-Si quantum dot superlattice (QDSL), and to obtain 8-states operation. The design is based on the 8-state inverter using QDC SWS-FETs in CMOS-X configuration. This could be a new paradigm for designing flip-flops and registering more complex sequential circuits. The proposed design leads to reduced propagation delay and a smaller Si footprint.

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来源期刊

International Journal of High Speed Electronics and Systems Engineering-Electrical and Electronic Engineering

CiteScore

0.60

自引率

0.00%

发文量

期刊介绍： Launched in 1990, the International Journal of High Speed Electronics and Systems (IJHSES) has served graduate students and those in R&D, managerial and marketing positions by giving state-of-the-art data, and the latest research trends. Its main charter is to promote engineering education by advancing interdisciplinary science between electronics and systems and to explore high speed technology in photonics and electronics. IJHSES, a quarterly journal, continues to feature a broad coverage of topics relating to high speed or high performance devices, circuits and systems.