Invited tutorial: Energy efficient multi-Gb/s I/O: Circuit and system design techniques

2011 IEEE Workshop on Microelectronics and Electron Devices Pub Date : 2011-04-22 DOI:10.1109/WMED.2011.5767268

B. Casper

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引用次数: 10

Abstract

Chip-to-chip I/O data rates continue to scale aggressively to keep up with demands brought on by multi-core CPU-based computer and networking systems. Due to increasing bandwidth needs and declining system power budgets, dramatically improving I/O energy efficiency is crucial and is the major challenge currently facing the computer and networking industry. A multi-pronged approach to I/O power reduction will be presented, employing both circuit and interconnect optimization. The use of system level modeling and optimization to co-design the packaging, board interconnect, channel, transmitter, receiver, and clocking will be advocated with examples that demonstrate minimum-power I/O systems. I/O energy reduction depends on both active power minimization as well as the use of aggressive power management methods. Techniques and corresponding examples will be shown that demonstrate I/O power management including dynamic voltage and frequency scaling, low-power standby, and fast wake-up times. This session will provide insight into the challenges and opportunities associated with each low-power technique, using case studies to illustrate state-of-the-art low-power I/O systems.

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特邀讲座:节能多gb /s I/O:电路与系统设计技术

芯片到芯片的I/O数据速率继续大幅扩展，以跟上基于多核cpu的计算机和网络系统带来的需求。由于带宽需求的增加和系统功率预算的下降，大幅度提高I/O能源效率是至关重要的，也是当前计算机和网络行业面临的主要挑战。将提出一种多管齐下的I/O功耗降低方法，采用电路和互连优化。使用系统级建模和优化来共同设计封装、板互连、通道、发送器、接收器和时钟，并通过演示最小功耗I/O系统的示例来提倡。I/O能耗的降低取决于有功功率的最小化以及积极的电源管理方法的使用。技术和相应的例子将展示I/O电源管理，包括动态电压和频率缩放、低功耗待机和快速唤醒时间。本节课将通过案例分析来阐述当前最先进的低功耗I/O系统，深入探讨与每种低功耗技术相关的挑战和机遇。

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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2011 IEEE Workshop on Microelectronics and Electron Devices

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