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Application of clock gating techniques at a flip-flop level to switching noise reduction in VLSI circuits

机译：触发器级时钟门控技术在降低VLSI电路中的噪声中的应用

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摘要

One of the most important sources of switching noise in large VLSI circuits is the clock-driven circuitry, meaning that memory elements are the main source of noise in digital circuits. This paper faces the application of clock-gating, a well known low-power technique, to the reduction of switching-noise generation. Sources of switching noise in master-slave flip-flops will be analyzed. It will be shown how different solutions for the clock-gated logic show very different results regarding switching-noise generation. Illustrative examples characterized through HSPICE simulations, as well as the application of clock-gating to 16-bit synchronous counter as demonstrator, will provide useful design guidelines for reduction of switching noise generation.

机译：大型VLSI电路中最重要的开关噪声源之一是时钟驱动电路，这意味着存储元件是数字电路中的主要噪声源。本文面对时钟门控（一种众所周知的低功耗技术）在减少开关噪声产生方面的应用。将分析主从触发器中的开关噪声源。将显示时钟门控逻辑的不同解决方案如何显示关于开关噪声产生的非常不同的结果。通过HSPICE仿真以及以时钟门控为例将16位同步计数器用作演示器的示例性实例将为减少开关噪声的产生提供有用的设计指南。

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来源
《VLSI Circuits and Systems II pt.2》|2005年|P.1003-1014|共12页
会议地点 Seville(ES)
作者
Pilar Parra; Javier Castro; Manuel Valencia; Antonio J. Acosta;
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作者单位

Instituto de Microelectronica de Sevilla-CNM-CSIC, Av. Reina Mercedes s, 41012-Sevilla, Spain;

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会议组织
原文格式 PDF
正文语种 eng
中图分类微电子学、集成电路（IC）;
关键词
switching noise; low power; clock gating; submicron CMOS VLSI; digital and mixed-signal circuits;

机译：开关噪声;低功耗;时钟门控;亚微米CMOS VLSI;数字和混合信号电路;

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2. Application specific CMOS output driver circuit design techniques to reduce simultaneous switching noise [J] . Senthinathan R., Prince J.L. IEEE Journal of Solid-State Circuits . 1993,第12期

机译：专用CMOS输出驱动器电路设计技术，可降低同步开关噪声
3. A New Circuit-Level Technique for Leakage and Short-Circuit Power Reduction of Static Logic Gates in 22-nm CMOS Technology [J] . Maryan Mohammad Moradinezhad, Amini-Valashani Majid, Azhari Seyed Javad Circuits, systems and signal processing . 2021,第7期

机译：22 - NM CMOS技术中静态逻辑门的漏电和短路功率降低的新电路级技术
4. Switching noise reduction in clock distribution in mixed-mode VLSI circuits [C] . Pilar Parra, Antonio J. Acosta, Manuel Valencia Society of Photo-Optical Instrumentation Engineers Conference on VLSI Circuits and Systems . 2003

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5. A novel double edge-triggered pulse-clocked TSPC D flip-flop for high-performance and low-power VLSI design applications. [D] . Pontikakis, Bill. 2003

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Application of clock gating techniques at a flip-flop level to switching noise reduction in VLSI circuits

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