用于约瑟夫森-CMOS 存储器应用的直流偏压铃木堆栈电路

Superconductor Science and Technology Pub Date : 2024-07-04 DOI:10.1088/1361-6668/ad5f57

Yerzhan Mustafa, Keith Krause, Archit Shah, M. C. Hamilton, Selcuk Kose

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引用次数: 0

摘要

约瑟夫-CMOS 混合存储器充分利用了单流量子（SFQ）逻辑的高速、低功耗运行和 CMOS 技术的高集成度。约瑟夫-CMOS 存储器中常用的接口电路类型之一是铃木堆栈，它是一种锁存高压驱动电路。铃木堆栈电路通常由交流偏置电压供电，而交流偏置电压存在一些局限性，如同步和耦合效应。为解决这些问题，本文提出了一种新型直流偏置铃木堆栈电路。与传统的交流偏置铃木堆栈电路相比，所提出的直流偏置设计可提供相似的输出电压水平和参数余量，工作频率提高约两倍，偏置电缆的热负荷降低三个数量级。

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DC-biased suzuki stack circuit for Josephson-CMOS memory applications

Josephson-CMOS hybrid memory leverages the high speed and low power operation of single-flux quantum (SFQ) logic and the high integration densities of CMOS technology. One of the commonly used type of interface circuits in Josephson-CMOS memory is a Suzuki stack, which is a latching high-voltage driver circuit. Suzuki stack circuits are typically powered by an AC bias voltage that has several limitations such as synchronization and coupling effects. To address these issues, a novel DC-biased Suzuki stack circuit is proposed in this paper. As compared to a conventional AC-biased Suzuki stack circuit, the proposed DC-biased design can provide similar output voltage levels and parameter margins, approximately two times higher operating frequency, and three orders of magnitude lower heat load of bias cables.

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Superconductor Science and Technology

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