Title :
Thermal Analysis of Job Allocation and Scheduling Schemes for 3D Stacked NoC´s
Author :
Vaddina, Kameswar Rao ; Rahmani, Amir-Mohammad ; Latif, Khalid ; Liljeberg, Pasi ; Plosila, Juha
Author_Institution :
Turku Center for Comput. Sci. (TUCS), Turku, Finland
Abstract :
Three-dimensional technology offers greater device integration, reduced signal delay and reduced interconnect power. It also provides greater design flexibility by allowing heterogeneous integration. However, 3D technology exacerbates the on-chip thermal issues and increases packaging and cooling costs. In this work, a 3D thermal model of a stacked network-on-chip system is developed and thermal analysis is performed in order to analyze different job allocation and scheduling schemes using finite element simulations. The steady-state heat transfer analysis on the 3D stacked structure has been performed. We have analyzed the effect of variation of die power consumption, with and without hotspots, on peak temperatures in different layers of the stack. The optimal die placement solution is also provided based on the maximum temperature attained by the individual silicon dies.
Keywords :
finite element analysis; heat transfer; integrated circuit packaging; network-on-chip; scheduling; thermal management (packaging); three-dimensional integrated circuits; 3D stacked network-on-chip; 3D thermal model; cooling costs; device integration; die power consumption; finite element simulations; interconnect power; job allocation; optimal die placement solution; packaging costs; steady-state heat transfer analysis; thermal analysis; Adaptation models; Heat sinks; Heat transfer; Routing; Silicon; Thermal analysis; Three dimensional displays; 3D networks-on-chip; Thermal analysis; hotspots; stacked IC´s; thermal management; thermal modeling;
Conference_Titel :
Digital System Design (DSD), 2011 14th Euromicro Conference on
Conference_Location :
Oulu
Print_ISBN :
978-1-4577-1048-3
DOI :
10.1109/DSD.2011.87
