反馈开关逻辑(FSL):一种高速低功耗差分类动态静态CMOS电路系列

9th International Symposium on Quality Electronic Design (isqed 2008) Pub Date : 2008-03-17 DOI:10.1109/ISQED.2008.36

Charbel J. Akl, M. Bayoumi

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引用次数: 3

摘要

我们提出了一种新的类动态静态电路系列，称为反馈开关逻辑(FSL)，适用于高速低功耗应用。FSL是级联电压开关逻辑(CVSL)系列的衍生产品。然而，它没有无时钟CVSL的争用问题，而且它比有时钟CVSL(双轨多米诺骨牌)消耗的功率少得多。FSL门提供快速开关，减少电容和输入开关相关的活动因子，而无需时钟连接。在90纳米技术中模拟了一个18位多数投票电路，以比较静态、无时钟CVSL、双轨多米诺和FSL。仿真结果表明，与静态逻辑相比，FSL减少了21%的延迟，与具有两相容斜时钟的动态双轨多米诺逻辑相比，FSL提供了至少46%的功耗降低。

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Feedback-Switch Logic (FSL): A High-Speed Low-Power Differential Dynamic-Like Static CMOS Circuit Family

We present a new dynamic-like static circuit family called feedback-switch logic (FSL) that is suitable for high-speed low-power applications. FSL is a derivative of cascode voltage switch logic (CVSL) family. However, it does not suffer from the contention problems of clockless CVSL, and it consumes much less power than clocked CVSL (dual-rail domino). FSL gates offer fast switching, reduced capacitance, and input-switching dependent activity factor without the need of clock connection. An 18-bit majority voting circuit is simulated in a 90-nm technology, in order to compare static, clockless CVSL, dual-rail domino and FSL. Simulation results show that FSL reduces delay by 21% compared to static logic, and offers at least 46% power reduction compared to dynamic dual-rail domino logic with two-phase skew-tolerant clocking.

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9th International Symposium on Quality Electronic Design (isqed 2008)

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