Large-scale placement by grid-warping

Proceedings. 41st Design Automation Conference, 2004. Pub Date : 2004-06-07 DOI:10.1145/996566.996669
Zhong Xiu, James D. Z. Ma, Suzanne M. Fowler, Rob A. Rutenbar
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引用次数: 31

Abstract

Grid-warping is a new placement algorithm based on a strikingly simple idea: rather than move the gates to optimize their location, we elastically deform a model of the 2-D chip surface on which the gates have been roughly placed, "stretching" it until the gates arrange themselves to our liking. Put simply: we move the grid, not the gates. Deforming the elastic grid is a surprisingly simple, low-dimensional nonlinear optimization, and augments a traditional quadratic formulation. A preliminary implementation, WARP1, is already competitive with most recently published placers, e.g., placements that average 4% better wirelength, 40% faster than GORDIAN-L-DOMINO.
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通过网格翘曲进行大规模放置
网格扭曲是一种新的放置算法,它基于一个非常简单的想法:我们不是移动栅极来优化它们的位置,而是弹性地变形一个栅极大致放置的二维芯片表面模型,“拉伸”它,直到栅极按照我们的喜好自行排列。简单地说,我们移动栅格,而不是大门。弹性网格的变形是一种非常简单的低维非线性优化,是对传统二次型公式的补充。WARP1的初步实现已经与最近发布的大多数放置器具有竞争力,例如,放置器的平均波长比GORDIAN-L-DOMINO高4%,速度比GORDIAN-L-DOMINO快40%。
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Proceedings. 41st Design Automation Conference, 2004.
Proceedings. 41st Design Automation Conference, 2004.
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