高空间分辨率超大规模集成电路温度分布的快速计算

2008 Twenty-fourth Annual IEEE Semiconductor Thermal Measurement and Management Symposium Pub Date : 2008-03-16 DOI:10.1109/STHERM.2008.4509365

Je-Hyoung Park, Xi Wang, A. Shakouri, S. Kang

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引用次数: 14

摘要

高温不均匀性的现实已经成为CMOS VLSI行业的一个严重问题，限制了封装芯片的性能和可靠性。因此，超大规模集成电路的表面温度分布已成为芯片设计流程中的关键信息。为了快速计算表面温度分布，提出了功率模糊(PB)方法。该方法可以应用于高空间分辨率的模拟，而传统方法的模拟成本过高。不同分辨率下的对比案例研究表明，不仅局部小热点可能被忽略，甚至芯片平均温度也可能被低估，因此有必要进行高空间分辨率的热模拟。利用PB方法，我们获得了5times5 mm2芯片的晶体管级热图(5times5 mum2网格)，计算时间为20秒。

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Fast Computation of Temperature Profiles of VLSI ICs with High Spatial Resolution

The reality of high temperature non-uniformity has become a serious concern in the CMOS VLSI industry limiting both the performance and the reliability of packaged chips. Thus the surface temperature profile of VLSI ICs has become critical information in chip design flow. for fast computation of surface temperature profile, power blurring (PB) method has been developed. This method can be applied to simulations with high spatial resolution, which have been prohibitively expensive with conventional methods. Comparative case studies with different levels of resolution illustrate that not only localized small hot spots can be overlooked but even the average chip temperature can be underestimated, and hence the necessity of thermal simulation with high spatial resolution. Using our PB method, we obtained transistor level thermal map (5times5 mum2 grid) of a 5times5 mm2 chip with a computation time of 20 seconds.

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2008 Twenty-fourth Annual IEEE Semiconductor Thermal Measurement and Management Symposium

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