Razor: circuit-level correction of timing errors for low-power operation

Dynamic voltage scaling is one of the more effective and widely used methods for power-aware computing. We present a DVS approach that uses dynamic detection and correction of circuit timing errors to tune processor supply voltage and eliminate the need for voltage margins

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Veröffentlicht in:	IEEE MICRO 2004-11, Vol.24 (6), p.10-20
Hauptverfasser:	Ernst, D., Das, S., Lee, S., Blaauw, D., Austin, T., Mudge, T., Nam Sung Kim, Flautner, K.
Format:	Artikel
Sprache:	eng
Schlagworte:	Circuits Computer displays Computer peripherals Computer science Delay Dynamic voltage scaling Dynamics Electric potential Error correction Inverters Microprocessors Mobile handsets Razors Temperature Time measurements Timing Voltage Voltage control
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creator	Ernst, D. Das, S. Lee, S. Blaauw, D. Austin, T. Mudge, T. Nam Sung Kim Flautner, K.
description	Dynamic voltage scaling is one of the more effective and widely used methods for power-aware computing. We present a DVS approach that uses dynamic detection and correction of circuit timing errors to tune processor supply voltage and eliminate the need for voltage margins
doi_str_mv	10.1109/MM.2004.85
format	Article
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subjects	Circuits Computer displays Computer peripherals Computer science Delay Dynamic voltage scaling Dynamics Electric potential Error correction Inverters Microprocessors Mobile handsets Razors Temperature Time measurements Timing Voltage Voltage control
title	Razor: circuit-level correction of timing errors for low-power operation
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