Timing Driven Placement for Large Standard Cell Circuits

32nd Design Automation Conference Pub Date : 1900-01-01 DOI:10.1145/217474.217531

W. Swartz, C. Sechen

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引用次数: 184

Abstract

We present an algorithm for accurately controlling delays during the placement of large standard cell integrated circuits. Previous approaches to timing driven placement could not handle circuits containing 20,000 or more cells and yielded placement qualities which were well short of the state of the art. Our timing optimization algorithm has been added to the placement algorithm which has yielded the best results ever reported on the full set of MCNC benchmark circuits, including a circuit containing more than 100,000 cells. A novel pinpair algorithm controls the delay without the need for user path specification. The timing algorithm is generally applicable to hierarchical, iterative placement methods. Using this algorithm, we present results for the only MCNC standard cell benchmark circuits (fract, struct, and avq.small) for which timing information is available. We decreased the delay of the longest path of circuit fract by 36% at an area cost of only 2.5%. For circuit struct, the delay of the longest path was decreased by 50% at an area cost of 6%. Finally, for the large (22,000 cell) circuit avq.small, the longest path delay was decreased by 28% at an area cost of 6% yet only doubling the execution time. This is the first report of timing driven placement results for any MCNC benchmark circuit.

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大型标准单元电路的定时驱动布局

我们提出了一种精确控制大型标准单元集成电路放置过程中的延迟的算法。以前的定时驱动放置方法不能处理包含20,000或更多细胞的电路，并且产生的放置质量远远低于目前的技术水平。我们的时序优化算法已被添加到放置算法中，该算法在全套MCNC基准电路(包括包含超过100,000个单元的电路)上产生了有史以来最好的结果。一种新的pinpair算法控制延迟，而不需要用户路径规范。定时算法一般适用于分层迭代放置方法。使用该算法，我们给出了可获得时序信息的唯一MCNC标准单元基准电路(fragment, struct和avq.small)的结果。我们以仅2.5%的面积成本将电路最长路径的延迟降低了36%。对于电路结构，以6%的面积成本将最长路径的延迟降低了50%。最后，对于大型(22,000单元)电路avq。较小的是，最长路径延迟减少了28%，面积成本为6%，但执行时间仅增加了一倍。这是针对任何MCNC基准电路的时序驱动放置结果的第一份报告。

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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来源期刊

32nd Design Automation Conference

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