標題: A Maze Routing-Based Methodology With Bounded Exploration and Path-Assessed Retracing for Constrained Multilayer Obstacle-Avoiding Rectilinear Steiner Tree Construction
作者: Lin, Kuen-Wey
Lin, Yeh-Sheng
Li, Yih-Lang
Lin, Rung-Bin
資訊工程學系
Department of Computer Science
關鍵字: Layout;physical design;routing;Steiner tree
公開日期: 1-七月-2018
摘要: Owing to existing intellectual properties, prerouted nets, and power/ground wires, the routing of a system on chip design demands to detour around multilayer obstacles. Traditional approaches for the multilayer obstacle-avoiding rectilinear Steiner tree (ML-OARST) problem are thus nonmaze routing-based approaches for runtime issues, yet they cannot be directly applied to deal with additional constraints such as variant edge weights on a routing layer. In this article, we propose the maze routing-based methodology with bounded exploration and path-assessed retracing to reduce runtime and routing cost for the constrained ML-OARST construction problem. The exploration of maze routing is bounded to reduce the runtime; the costs of connecting pins are computed to select Steiner points in the retracing phase. To further reduce the routing cost, we develop a Steiner point-based ripping-up and rebuilding scheme for altering tree topology. Experimental results on industrial and randomly generated benchmarks demonstrate that the proposed methodology can provide a solution with good quality in terms of routing cost and has a significant speedup compared to traditional maze routing. A commercial tool is also used to show the effectiveness of the proposed methodology.
URI: http://dx.doi.org/10.1145/3177878
http://hdl.handle.net/11536/148726
ISSN: 1084-4309
DOI: 10.1145/3177878
期刊: ACM TRANSACTIONS ON DESIGN AUTOMATION OF ELECTRONIC SYSTEMS
Volume: 23
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