Title :
3D Thermal-aware floorplanner for many-core single-chip systems
Author :
Cuesta, David ; Risco-Martin, José L. ; Ayala, José L. ; Atienza, David
Author_Institution :
Complutense Univ., Madrid, Spain
Abstract :
Heat removal and power density distribution delivery have become two major reliability concerns in 3D stacked technology. In this paper, we propose a thermal-driven 3D floor-planner. Our contributions include: (1) a novel multi-objective formulation to consider the thermal and performance constraints in the optimization approach; (2) an efficient Mixed Integer Linear Programming (MILP) representation of the floorplanning model; and (3) a smooth integration of the MILP model with an accurate thermal modelling of the architecture. The experimental work is conducted for two realistic many-core single-chip architectures: an homogeneous system resembling Intel´s SCC, and an improved heterogeneous setup. The results show promising improvements of the mean, peak temperature and the thermal gradient, with a reduced overhead in the wire length of the system.
Keywords :
circuit layout; integer programming; linear programming; microprocessor chips; multiprocessing systems; reliability; 3D stacked technology; 3D thermal-aware floorplanner; Intel´s SCC; MILP model; heat removal; many-core single-chip system; mixed integer linear programming representation; multiobjective formulation; optimization approach; power density distribution delivery; thermal gradient; thermal modelling; Mixed integer linear programming; Nickel; Optimization; Reliability; Thermal analysis; Three dimensional displays; Wires;
Conference_Titel :
Test Workshop (LATW), 2011 12th Latin American
Conference_Location :
Porto de Galinhas
Print_ISBN :
978-1-4577-1489-4
DOI :
10.1109/LATW.2011.5985921
