Simultaneous adaptive wire adjustment and local topology modification for tuning a bounded-skew clock tree

Saaied H.; Al-Khalili D.; Al-Khalili A.J.; Nekili M.

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Simultaneous adaptive wire adjustment and local topology modification for tuning a bounded-skew clock tree

机译：同时自适应导线调整和局部拓扑修改，以调整偏斜时钟树

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The need for incremental algorithms to implement engineering changes (ECs) in clock trees (CTs) is critical in the system-on-a-chip (SoC) design cycle. An algorithm, called adaptive wire adjustment (AWA), is proposed to minimize the clock skew iteratively to any given bound. In order to speed up AWA's convergence, a local topology-modification (LTM) technique is incorporated into AWA. Moreover, LTM incorporation into AWA results in total wire-length reduction as well. Also, the incorporation of the LTM technique into the deferred-merge embedding (DME) algorithm and Greedy-DME (GDME) helps reduce the total wire length by around 7.8% and 9.8%, respectively. Additionally, applying LTM to GDME reduces wire elongations and the standard deviation of the path lengths (SDPL) between clock pins by 96.4% and 51.5%, respectively.

机译：在片上系统（SoC）设计周期中，需要增量算法来实现时钟树（CT）中的工程变更（EC）。提出了一种称为自适应线调整（AWA）的算法，以将时钟偏斜迭代地最小化到任何给定范围。为了加快AWA的融合，将本地拓扑修改（LTM）技术合并到AWA中。此外，将LTM并入AWA还可以减少总线长。同样，将LTM技术并入延迟合并嵌入（DME）算法和Greedy-DME（GDME）有助于分别将总导线长度减少约7.8％和9.8％。此外，将LTM应用于GDME可以将导线延长和时钟引脚之间的路径长度（SDPL）的标准偏差分别减少96.4％和51.5％。

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《IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems》 |2005年第10期|p.1637-1643|共7页
作者
Saaied H.; Al-Khalili D.; Al-Khalili A.J.; Nekili M.;
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正文语种 eng
中图分类微电子学、集成电路（IC）;
关键词
clocks; integrated circuit interconnections; iterative methods; network topology; wiring; adaptive wire adjustment; bounded-skew clock tree; clock distribution network; clock skew minimization; deferred-merge embedding algorithm; iterative methods; local topology m;

机译：时钟;集成电路互连;迭代方法;网络拓扑;布线;自适应导线调整;有界斜时钟树;时钟分配网络;时钟偏差最小化;延迟合并嵌入算法;迭代方法;局部拓扑m;

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Simultaneous adaptive wire adjustment and local topology modification for tuning a bounded-skew clock tree

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