容错低功耗维特比解码器

Proceeding of the 13th international symposium on Low power electronics and design (ISLPED '08) Pub Date : 2008-08-11 DOI:10.1145/1393921.1393951

R. Abdallah, Naresh R Shanbhag

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引用次数: 6

摘要

提出了两种低功耗Viterbi译码器(VD)结构。首先，在VD的添加比较选择单元(acsu)中引入有限的决策错误，以减少其关键路径延迟，从而使它们可以在没有时序错误的情况下在较低的电源电压下工作。在第二种方法中，我们允许在ACSU中的关键路径被激发时发生与数据相关的定时错误。然后在ACSU级别应用算法噪声容忍(ANT)来纠正这些错误。该设计中的功耗降低是通过过缩放电源电压(电压过缩放(VOS))或在标称工艺角和电源电压(平均情况设计)进行设计来实现的。在IBM 130 nm CMOS工艺中，第一种和第二种设计的功耗分别为58%和40%，编码损耗分别为0:15 dB和1:1 dB。

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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Error-resilient low-power Viterbi decoders

Two low-power Viterbi decoder (VD) architectures are presented in this paper. In the first, limited decision errors are introduced in the add-compare-select units (ACSUs) of a VD to reduce their critical path delays so that they can be operated at lower supply voltages in absence of timing errors. In the second one, we allow data-dependent timing errors which occur whenever a critical path in the ACSU is excited. Algorithmic noise-tolerance (ANT) is then applied at the level of the ACSU to correct for these errors. Power reduction in this design is achieved by either overscaling the supply voltage (voltage overscaling (VOS)) or designing at the nominal process corner and supply voltage (average-case design). Power savings in the first and second design are 58% and 40% at a coding loss of 0:15 dB and 1:1 dB respectively in a IBM 130 nm CMOS process.

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Proceeding of the 13th international symposium on Low power electronics and design (ISLPED '08)

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