Gate Movement for Timing Improvement on Row Based Dual-VDD Designs

机译：基于行基于双VDD设计的时序改进的栅极运动

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摘要

The scale of technology node increases power-density dynamically. Various techniques are proposed to reduce the power consumption. One approach is Dual-Supply Voltage (DSV). DSV is to apply a lower supply voltage on selected non-critical gates for power saving while maintaining chip performance at the same time. In order to facilitate the power design in DSV, the same voltage gates are grouped to form islands. [21] presents a flow to generate and place voltage islands. However, after relocating gates to voltage islands, the original placement is changed and the timing might become worse. In this paper, we propose algorithms to redistribute gates for performance improvement. At the same time, all the DSV island/gate constraints are satisfied. On tested designs, our algorithm greatly improved the timing, and the final worst slack is less than 10ps worse than that of the original design.

机译：技术节点的规模动态增加了功率密度。提出了各种技术来降低功耗。一种方法是双电源电压（DSV）。 DSV是在选择的非关键栅极上施加较低的电源电压，同时保持芯片性能。为了便于DSV中的功率设计，将相同的电压栅极分组以形成岛屿。 [21]呈现生成和放置电压岛的流程。然而，在将栅格重新定位到电压岛后，改变了原始放置，并且定时可能变得更糟。在本文中，我们提出了重新分配栅栏的算法以进行性能改进。同时，满足所有DSV岛/栅极约束。在测试设计上，我们的算法大大提高了时序，最终最差的松弛小于10ps比原始设计更差。

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《International Symposium on Quality Electronic Design》|2016年|472p|共7页
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作者
Hua Xiang; Lakshmi Reddy; Haifeng Qian; Ching Zhou; Yu-Shiang Lin; Fanchieh Yee; Andrew Sullivan; Pong-Fei Lu;
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中图分类 TN01-53;
关键词
Algorithms; Design; Dual Supply Voltage; Gate movement; Timing;

机译：算法;设计;双电源电压;闸门运动;时间;

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Gate Movement for Timing Improvement on Row Based Dual-VDD Designs

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