Investigation of the Dynamics of Liquid Cooling of 3D ICs

2019 8th International Symposium on Next Generation Electronics (ISNE) Pub Date : 2019-10-01 DOI:10.1109/ISNE.2019.8896425
Sakib Islam, Ibrahim M Abdel Motaleb
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引用次数: 4

Abstract

Although 3D IC technology can provide very high integration density, they suffer from having hotspots that may reach 1000’s of degrees. To manage this heat, it is necessary to study the dynamics of cooling and thermal behavior of the ICs. In this study, we report on the dynamics of microchannel liquid cooling using water, R22, and liquid nitrogen. The study shows that using diamond cooling blocks ensures normal operating temperature of 60 ˚C or less, using any of the above coolants. Using SiO2 blocks, only liquid nitrogen can provide acceptable operating temperatures. The study shows also that liquid latent energy and inlet velocity play a major role in the cooling dynamics.
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三维集成电路的液冷动力学研究
虽然3D集成电路技术可以提供非常高的集成密度,但它们的热点可能达到1000度。为了控制这种热量,有必要研究集成电路的冷却动力学和热行为。在这项研究中,我们报告了使用水、R22和液氮的微通道液体冷却的动力学。研究表明,使用金刚石冷却块,使用上述任何一种冷却剂,都可以确保正常工作温度在60˚C或更低。使用SiO2块,只有液氮可以提供可接受的工作温度。研究还表明,液体潜能和进口速度在冷却动力学中起主要作用。
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2019 8th International Symposium on Next Generation Electronics (ISNE)
2019 8th International Symposium on Next Generation Electronics (ISNE)
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