使用增强行旁通方案的低功率乘法器

Proceedings. IEEE Workshop on Signal Processing Systems (2007-2014) Pub Date : 2007-11-21 DOI:10.1109/SIPS.2007.4387533

Y. Hwang, Jin-Fa Lin, M. Sheu, Chia-Jen Sheu

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引用次数: 16

摘要

本文提出了两种基于增强型行旁通方案的新型低功耗乘法器。节电思想的本质是通过信号旁路消除不必要的计算。在数组乘法器中，无效的计算发生在输入操作数中与零位对应的加法器的列或行上。以前的设计采用输入门控和输出多路复用来实现信号旁路。然而，所提出的设计成功地解决了由于门控信号的电压损耗而导致的直流功耗问题，并通过时钟CMOS (C2MOS)电路巧妙地实现了多路复用机制。提出了两种版本的设计，一种强调最大限度地节省功耗，另一种侧重于降低电路复杂性。两种设计的电路开销分别限制在23.4%和12.8%。在大范围的Vdd下，所提出的设计也比以前的工作实现了更好和一致的省电，省电可高达17%。

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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Low Power Multipliers Using Enhenced Row Bypassing Schemes

In this paper, we proposed two novel low power multipliers based on enhanced row bypassing schemes. The essence of the power saving idea is eliminating unnecessary computation via signal bypassing. In an array multiplier, futile computations occur on those columns or rows of adder corresponding to zero bits in the input operands. Previous designs resort to input gating and output multiplexing to accomplish signal bypassing. The proposed designs, however, successfully resolve the adverse DC power consumption problem due to voltage loss in gated signals and implement the multiplexing mechanism cleverly via clock CMOS (C2MOS) circuitry. Two versions of the design are proposed with one emphasizing on maximizing power saving and the other focusing on reduced circuit complexity. The circuit overheads of both designs are confined to 23.4% and 12.8%, respectively. The proposed designs also achieve better and consistent power saving than previous work under a wide range of Vdd and the power saving can be as high as 17%.

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Proceedings. IEEE Workshop on Signal Processing Systems (2007-2014)

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