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引用次数: 5
摘要
本文提出了一种新的柔性二次和基于分区的全局布局方法,该方法能够优化广泛的目标函数,包括线性、次二次和二次网长度以及它们的正线性组合。该算法基于迭代重加权二次优化,扩展了以往的线性化技术。如果l是某个连接的长度,大多数放置算法都会尝试优化l1或l2。我们证明,优化lp < p < 2有助于改善偶数线性连接长度。有了这个新的目标,我们的基于流的分区放置工具BonnPlace[25]的新版本能够超越最先进的力导向算法SimPL, RQL, complex,并在(线性)HPWL方面缩小与MAPLE的差距。
This paper presents a new flexible quadratic and partitioning-based global placement approach which is able to optimize a wide class of objective functions, including linear, sub-quadratic, and quadratic net lengths as well as positive linear combinations of them. Based on iteratively re-weighted quadratic optimization, our algorithm extends the previous linearization techniques. If l is the length of some connection, most placement algorithms try to optimize l1 or l2. We show that optimizing lp with 1 < p < 2 helps to improve even linear connection lengths. With this new objective, our new version of the flow-based partitioning placement tool BonnPlace [25] is able to outperform the state-of-the-art force-directed algorithms SimPL, RQL, ComPLx and closes the gap to MAPLE in terms of (linear) HPWL.