Substrate thermal model reduction for efficient transient electrothermal simulation

C. Tsai, S. Kang
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引用次数: 8

Abstract

A multiport RC network reduction technique based on congruence transformation was developed specifically for improving the efficiency of temperature calculation in electrothermal simulations. This technique helps reduce the size of the three-dimensional lumped RC network, which is commonly used to model substrate heat conduction, while still preserving the input/output characteristics at the port nodes. A smaller thermal network leads to more efficient substrate temperature calculation. Furthermore, the reduced network can be combined with the device netlist to perform tightly-coupled electrothermal simulation for some cases when the large data size dictates the employment of the more time-consuming relaxation-based temperature calculation method. Our method is applicable to both static and dynamic electrothermal simulations for either localized or large-scale analyses. Runtime improvements in the range of 2/spl times//spl sim/3/spl times/ have been achieved in simulations.
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基板热模型简化的有效瞬态电热模拟
为了提高电热模拟中温度计算的效率,提出了一种基于同余变换的多端口RC网络约简技术。该技术有助于减小三维集总RC网络的尺寸,该网络通常用于模拟衬底热传导,同时仍然保留端口节点的输入/输出特性。一个较小的热网导致更有效的衬底温度计算。此外,在某些情况下,当大数据量决定了使用更耗时的基于松弛的温度计算方法时,简化的网络可以与设备网表结合来执行紧密耦合的电热模拟。我们的方法适用于静态和动态电热模拟,无论是局部的还是大规模的分析。在模拟中实现了2/spl times//spl sim/ /3/spl times/范围内的运行时间改进。
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