Computationally efficient thermal simulation with micro-fluidic cooling for 3D integration

机译：三维集成微流体冷却的计算上高效的热仿真

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In 3D system design, effective thermal cooling for high power density 3D stacked ICs is a crucial bottleneck. In this paper, efficient thermal simulation with micro-channel fluidic cooling and air convection boundary condition is presented. By employing the analytical model for micro-fluidic cooling, the fluid flow rate can be efficiently optimized to achieve target chip temperatures. Results demonstrating the efficiency and scalability of the method have been presented. In particular, the algorithm shows good capability of analyzing 3D stacking of chips with more than 20 micro-channels and hundreds of TSVs.

机译：在3D系统设计中，高功率密度3D堆叠IC的有效热冷却是一个至关重要的瓶颈。本文提出了利用微通道流体冷却和空气对流边界条件的高效热仿真。通过采用微流体冷却的分析模型，可以有效地优化流体流速以实现目标芯片温度。展示了展示了该方法的效率和可扩展性的结果。特别地，该算法显示了分析具有超过20微通道和数百个TSV的芯片的3D堆叠的良好能力。

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《IEEE Electrical Design of Advanced Packaging Systems Symposium》|2011年||共4页
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Xie Jianyong; Swaminathan Madhavan;
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中图分类 TN405-53;
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3. A Highly Efficient Computational Model for FDTD Simulations of Ultrafast Electromagnetic Interactions With Semiconductor Media With Carrier Heating/Cooling Dynamics [J] . Ravi K., Huang Y., Ho S.-T. Lightwave Technology, Journal of . 2012,第5期

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4. Computationally efficient thermal simulation with micro-fluidic cooling for 3D integration [C] . Xie Jianyong, Swaminathan Madhavan Electrical Design of Advanced Packaging and Systems Symposium (EDAPS), 2011 IEEE . 2012

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机译：具有微流体冷却和焦耳热效应的三维集成系统的电 - 热联合仿真

Computationally efficient thermal simulation with micro-fluidic cooling for 3D integration

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