具有边界聚类约束的现代平面规划

Li Li, Yuchun Ma, N. Xu, Yu Wang, Xianlong Hong
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引用次数: 1

摘要

随着SOC设计的发展,现代布局通常需要提供额外的选项来满足分层设计中出现的不同需求,例如I/O连接的边界约束,性能和可靠性的集群约束等。本文研究了具有边界聚类约束的现代楼层规划问题。经验表明,现代约束极大地限制了解空间;也就是说,大量随机生成的平面图可能是不可行的。为了有效地搜索可行解,研究了基于边界聚类约束的B*树表示的可行条件。结合有效的模拟退火算法,提供了一种通过动态修复生成可行平面图的方法,该方法可以在违反约束的情况下将不可行的解转化为可行的解。通过MCNC和GSRC的基准测试对算法进行了验证,实证结果表明我们的算法能够在可接受的时间内得到有希望的解
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Modern Floorplanning with Boundary Clustering Constraint
With the development of SOC designs, modern floorplanning typically needs to provide extra options to meet the different emerging requirements in the hierarchical designs, such as boundary constraint for I/O connection, clustering constraint for performance and reliability, etc. This paper addresses modern floorplanning with boundary clustering constraint. It has been empirically shown that the modern constraints extremely restrict the solution space; that is, a large number of randomly generated floorplans might be infeasible. In order to effectively search the feasible solutions, the feasible conditions based on B*-tree representation with boundary clustering constraint are investigated. The properties, coupled with an efficient simulated annealing algorithm, provide the way to produce feasible floorplans by dynamic repairing, which can transform an infeasible solution into a feasible one if the constraint is violated. Our algorithm is verified by using the MCNC and GSRC benchmarks, and the empirical results show that our algorithm can obtain promising solutions in acceptable time
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