Title :
Thermal implications of mobile 3D-ICs
Author :
Saeidi, Mehdi ; Samadi, Kambiz ; Mittal, Arpit ; Mittal, Rajat
Author_Institution :
Qualcomm Technol. Inc., San Diego, CA, USA
Abstract :
In this paper, we introduce a fast and accurate 3D thermal analysis methodology for sequential face-to-back (F2B) and parallel face-to-face (F2F) 3D integration technologies. Our proposed models take design floorplan and the corresponding power map with temperature-dependent leakage power component and accurately estimate the temperature of any given location in the design. We show that our models are within less than 1% of commercial-grade finite-volume models while they are 100X faster. In addition, we demonstrate the minimum power reduction required in mobile 3D-ICs to achieve similar thermal behaviour of that of the corresponding 2D-ICs. Subsequently, we provide guidelines on 3D partitioning / floorplanning to further improve thermal profile of 3D-ICs.
Keywords :
circuit layout; finite volume methods; thermal analysis; thermal management (packaging); three-dimensional integrated circuits; 3D integration technologies; 3D thermal analysis methodology; F2B; F2F; commercial-grade finite-volume models; face-to-back; face-to-face; floorplan design; mobile 3D IC; power map; power reduction; temperature-dependent leakage power component; Density measurement; Integrated circuit modeling; Junctions; Mobile communication; Silicon; Solid modeling; Three-dimensional displays;
Conference_Titel :
3D Systems Integration Conference (3DIC), 2014 International
DOI :
10.1109/3DIC.2014.7152160
