缓冲时钟树合成的集群和负载平衡

Proceedings International Conference on Computer Design VLSI in Computers and Processors Pub Date : 1997-10-12 DOI:10.1109/ICCD.1997.628871

A. D. Mehta, Yao-Ping Chen, N. Menezes, D. F. Wong, L. Pileggi

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引用次数: 39

摘要

时钟树中的缓冲区引入了两个额外的倾斜来源:第一个倾斜来源是进程变化对缓冲区延迟的影响。造成倾斜的第二个原因是缓冲区负载的不平衡。我们提出了一种缓冲时钟树合成方法，其中我们首先应用聚类算法来获得近似相等电容负载的簇。我们用相同的缓冲区驱动每个集群。然后使用基于灵敏度的方法来平衡从缓冲区输出到所有时钟节点的Elmore延迟。通过线材尺寸和线材长度匹配负载的高阶模型，使负载不平衡引起的倾斜同时最小化。我们演示了如何使用该算法递归地生成低倾斜缓冲时钟树。

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Clustering and load balancing for buffered clock tree synthesis

Buffers in clock trees introduce two additional sources of skew: the first source of skew is the effect of process variations on buffer delays. The second source of skew is the imbalance in buffer loading. We propose a buffered clock tree synthesis methodology whereby we first apply a clustering algorithm to obtain clusters of approximately equal capacitance loading. We drive each of these clusters with identical buffers. A sensitivity based approach is then used for equalizing the Elmore delay from the buffer output to all of the clock nodes. The skew due to load imbalance is minimized concurrently by matching a higher-order model of the load by wire sizing and wire lengthening. We demonstrate how this algorithm can be used recursively to generate low-skew buffered clock trees.

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Proceedings International Conference on Computer Design VLSI in Computers and Processors

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