Zhongdong Qi, Jingchong Zhang, Gengjie Chen, Hailong You
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引用次数: 0
摘要
详细布线是VLSI设计过程中最复杂、最耗时的阶段之一。由于先进技术节点中问题规模的快速增长和设计规则数量的不断增加,需要经过多轮的撕裂和重路由(R&R)迭代才能获得可行的路由结果,这需要很长的运行时间。在本文中,我们提出了几种有效和高效的技术来处理详细路由中的设计规则违反。设计了一种具有两种不同努力策略的自适应拆解方案,可以在求解质量相当的情况下加快R&R阶段。针对复杂设计规则约束下的引脚接入问题,提出了改进引脚连接的方法。此外,对一些具体的设计规则进行了有效的后处理处理。实验结果表明,在Dr. CU 2.0中集成这些技术后,违反设计规则的次数可以减少69%,平均运行时间减少28%。
Effective and Efficient Detailed Routing with Adaptive Rip-up Scheme and Pin Access Refinement
Detailed routing is one of the most complex and time-consuming stages of VLSI design process. Due to the rapidly growing problem scale and increasing number of design rules in advanced technology nodes, a feasible routing result can only be achieved after many rounds of rip-up and reroute (R&R) iterations, which takes a significantly long runtime. In this paper, we propose several effective and efficient techniques to handle the design rule violations in detailed routing. An adaptive rip-up scheme with two strategies of different effort is designed, which can speed up the R&R phase with comparable solution quality. To cope with the pin access challenge with complex design rule constraints, approaches to refine the pin connections are proposed. Besides, some specific design rules are handled in a post-processing manner efficiently. Experiment result shows that the number of design rule violations can be reduced by 69% with 28% lower runtime on average, after integrating these techniques in Dr. CU 2.0.
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