Placement optimization of power supply pads based on locality

Pingqiang Zhou, Vivek Mishra, S. Sapatnekar
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引用次数: 2

Abstract

This paper presents an efficient algorithm for the placement of power supply pads in flip-chip packaging for high-performance VLSI circuits. The placement problem is formulated as a mixed-integer linear program (MILP), subject to the constraints on mean-time-to-failure (MTTF) for the pads and the voltage drop in the power grid. To improve the performance of the optimizer, the pad placement problem is solved based on the divide-and-conquer principle, and the locality properties of the power grid are exploited by modeling the distant nodes and sources coarsely, following the coarsening stage in multi-grid-like approach. An accurate electromigration (EM) model that captures current crowding and Joule heating effects is developed and integrated with our C4 placement approach. The effectiveness of the proposed approach is demonstrated on several designs adapted from publicly released benchmarks.
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基于局部性的电源垫块放置优化
本文提出了一种在高性能超大规模集成电路倒装封装中放置电源衬垫的有效算法。该布局问题是一个混合整数线性规划(MILP),受衬垫平均故障时间(MTTF)和电网电压降的约束。为了提高优化器的性能,采用分而治之的方法求解垫块放置问题,并在多网格类方法的粗化阶段,通过对远端节点和源进行粗化建模,利用电网的局部性特性。开发了一个精确的电迁移(EM)模型,可以捕获电流拥挤和焦耳热效应,并将其与我们的C4放置方法集成在一起。所提出的方法的有效性在几个设计上得到了证明,这些设计改编自公开发布的基准测试。
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