采用多电源电压方案的低功耗ASIC标准单元的设计

Proceedings Eleventh Annual IEEE International ASIC Conference (Cat. No.98TH8372) Pub Date : 1998-09-13 DOI:10.1109/ASIC.1998.722815

Jinn-Shyan Wang, Shang-Jyh Shieh, J. Wang, C. Yeh

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引用次数: 20

摘要

采用多电源电压(MSV)方案的ASIC设计已被证明在降低功耗方面是有效的。为了有效地利用MSV方案的优点，提出了一种新的用于ASIC设计的标准单元布局样式。每个标准电池被设计成使用两个电源轨，这些电源轨有不同的供电电压。然后，无论电池是由高电压还是低电压供电，电池都可以任意地连接在一起，现有的P&R工具可以像往常一样放置和布线电路。与只有一个电源电压的设计相比，新设计(使用新电池并采用MSV方案)的功耗平均节省30%以上，而平均面积开销仅为8%左右。与此同时，平均互连长度仅增加了7.5%左右。

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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Design of standard cells used in low-power ASIC's exploiting the multiple-supply-voltage scheme

ASIC design utilizing the multiple-supply-voltage (MSV) scheme has been shown to be efficient in reducing the power consumption. A new layout style of standard cells to be used in ASIC designs is proposed to effectively exploit the advantages afforded by the MSV scheme. Each standard cell is designed to use two power rails that are fed with different supply voltages. Then, the cells can be butted together arbitrarily no matter whether the cells are supplied from a high or low voltage, and the existing P&R tool can place and route the circuit as usual. As compared to the design with only one supply voltage, the average saving of power consumption of the new design (using the new cells and adopting the MSV scheme) is over 30%, but the average area overhead is only about 8%. Meanwhile, the average interconnection length is only increased by about 7.5%.

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来源期刊

Proceedings Eleventh Annual IEEE International ASIC Conference (Cat. No.98TH8372)

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