Algorithms and data structures for fast and good VLSI routing

Proceedings. Design Automation Conference Pub Date : 2012-06-03 DOI:10.1145/2228360.2228441
Michael Gester, D. Müller, T. Nieberg, Christian Panten, C. Schulte, J. Vygen
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引用次数: 4

Abstract

We present advanced data structures and algorithms for fast and high-quality global and detailed routing in modern technologies. Global routing is based on a combinatorial approximation scheme for min-max resource sharing. Detailed routing uses exact shortest path algorithms, based on a shape-based data structure for pin access and a two-level track-based data structure for long-distance connections. All algorithms are very fast. We demonstrate their superiority over traditional approaches by a comparison to an industrial router (on 32nm and 22nm chips). Our router is over two times faster, has 5% less netlength, 20% less vias, and reduces detours by more than 90%.
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快速和良好的VLSI路由算法和数据结构
我们提出了先进的数据结构和算法,以实现现代技术中快速、高质量的全局和详细路由。全局路由基于最小-最大资源共享的组合逼近方案。详细路由使用精确的最短路径算法,基于基于形状的数据结构用于引脚访问,基于两级轨道的数据结构用于长距离连接。所有的算法都非常快。通过与工业路由器(32nm和22nm芯片)的比较,我们证明了它们比传统方法的优越性。我们的路由器速度快了两倍多,网长减少了5%,过孔减少了20%,绕路减少了90%以上。
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Proceedings. Design Automation Conference
Proceedings. Design Automation Conference
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