Yibo Chen, E. Kursun, D. Motschman, C. Johnson, Yuan Xie
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引用次数: 33
摘要
三维集成电路(3D ic)提供了性能优势,这要归功于通过硅孔结构(tsv)增加的带宽和缩短的线长。传统上认为热导膜在垂直方向上可以改善导热性。然而,横向热阻塞效应对于TSV通孔场(用于层间信号总线连接的TSV通孔簇)变得越来越重要。由于x, y, z热传导率不等,TSV电场在不同层上产生不同的热效应。这可以在垂直热流中表现为热改善,同时在薄透层中表现为侧向热阻塞效应。在本文中,我们提出了一种热感知的通过农场放置技术,用于3D集成电路,以减少由密集的信号总线TSV结构引起的侧向热阻塞。通过在设计流程中结合导通区块的导热曲线,并实现布局/宽高比优化,可以在导线长度和面积限制下将相应的热点最小化。
Analysis and mitigation of lateral thermal blockage effect of through-silicon-via in 3D IC designs
The three-dimensional integrated circuits (3D ICs) offer performance advantages thanks to the increased bandwidth and reduced wire-length enabled by through-silicon-via structures (TSVs). Traditionally TSVs have been considered to improve the thermal conductivity in the vertical direction. However, the lateral thermal blockage effect becomes increasingly important for TSV via farms (a cluster of TSV vias used for signal bus connections between layers). TSV farms can cause different thermal effects on different layers due to the unequal x, y, z thermal conductivities. This can exhibit itself as thermal improvement in the vertical heat flow, at the same time lateral heat blockage effects in thinned pass-through layers. In this paper, we propose a thermal-aware via farm placement technique for 3D ICs to minimize lateral heat blockages caused by dense signal bus TSV structures. By incorporating thermal conductivity profile of via farm blocks in the design flow and enabling placement/aspect ratio optimization, the corresponding hotspots can be minimized within the wire-length and area constraints.
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