动态电压缩放应用中延迟线的分析与设计

2016 22nd IEEE International Symposium on Asynchronous Circuits and Systems (ASYNC) Pub Date : 2016-05-08 DOI:10.1109/ASYNC.2016.16

R. Tadros, Weizhe Hua, Matheus Gibiluka, Matheus T. Moreira, Ney Laert Vilar Calazans, P. Beerel

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引用次数: 7

摘要

捆绑数据异步设计的动态电压缩放有望带来比传统时钟替代方案更节能的系统。然而，这种方法依赖于节能延迟线的发展，其延迟必须在很宽的电压范围内跟踪组合数据路径的延迟。本文对这种延迟线的设计进行了全面的分析，并描述了尺寸如何影响它们在不同电压下的延迟。提出了一种在延迟匹配约束下最小化能耗的设计方法。然后将此方法应用于由两种不同技术中的四个不同延迟元件组成的延迟线，探索它们所呈现的潜在权衡。

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Analysis and Design of Delay Lines for Dynamic Voltage Scaling Applications

Dynamic voltage scaling of bundled-data asynchronous design has the promise to lead to far more energy efficient systems than traditionally clocked alternatives. However, this approach relies on the development of energy-efficient delay lines, whose delay must track that of the combinational datapath over a wide range of voltages. This paper presents a thorough analysis of the design of such delay lines and describes how sizing affects their delay across different voltages. It proposes a design methodology for minimizing energy consumption subject to delay matching constraints. It then applies this methodology to delay lines that consist of four different delay elements in two different technologies, exploring the underlying trade-offs they present.

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来源期刊

2016 22nd IEEE International Symposium on Asynchronous Circuits and Systems (ASYNC)

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