Half-Perimeter Wirelength Model for VLSI Analytical Placement

B. Ray, A. Tripathy, Pralipta Samal, Manimay Das, Pushpanjali Mallik
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引用次数: 4

Abstract

Placement is a crucial stage in physical design of VLSI. At this stage, analytical placer uses half perimeter wire length (HPWL) of the circuit as an objective function to place blocks optimally within chip. Inspired by popularly used log-sum-exp (LSE) wire length model [9], absolute (ABS) wire length model [7] and weighted average (WA) wire length model [3], we propose a new smooth wire length model for HPWL, providing smooth approximations to max function. The convergence. Properties, error upper bounds of the new model are studied. The accuracy of the new model is sharper than LSE, WA and ABS wire length model. Wire length is validated by global and detail placements generated by NTU Placer [1] on ISPD 2004 benchmark suits. Experimental results show that our model provides closest approximation to HPWL than all wire length models, with an average of 2% error in total wire length.
VLSI分析放置的半周长模型
封装是超大规模集成电路物理设计的关键环节。在这一阶段,分析砂矿机使用电路的半周长(HPWL)作为目标函数,在芯片内最佳地放置块。受常用的对数和exp (LSE)导线长度模型[9]、绝对(ABS)导线长度模型[7]和加权平均(WA)导线长度模型[3]的启发,我们提出了一种新的HPWL平滑导线长度模型,提供了对max函数的平滑逼近。收敛。研究了新模型的性质和误差上界。新模型的精度比LSE、WA和ABS线长模型的精度更高。电线长度通过NTU Placer[1]在ISPD 2004基准套装上生成的全局和细节放置来验证。实验结果表明,该模型比所有线长模型更接近HPWL,总线长误差平均为2%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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