Title :
Single-Chip Cloud Computer thermal model
Author :
Sadri, MohammadSadegh ; Bartolini, Andrea ; Benini, Luca
Author_Institution :
Univ. of Bologna, Bologna, Italy
Abstract :
Spatial and temporal non-uniformities of workload and power consumption advanced Systems-on-Chip (SoC) platforms result in localized high power densities, which lead to temperature hot-spots, gradients and thermal cycles that may cause non-uniform ageing and accelerated chip failure. The Single-Chip Cloud Computer (SCC) is an experimental many-core processor created by Intel Labs and it integrates thermal sensors to track the chip thermal behavior. Unfortunately these sensors provide a limited introspection on the full-chip thermal map, as they monitor temperature at a coarse granularity. In this paper we build a fine-grained thermal and power model of SCC using a state-of-the-art thermal modeling tool (Hotspot). We calibrate the model with measured data from chip sensors. We assess the predictive power of the thermal model and its main sources of error.
Keywords :
ageing; integrated circuit modelling; system-on-chip; temperature sensors; thermal analysis; SoC platforms; accelerated chip failure; chip sensors; chip thermal behavior; experimental many-core processor; fine-grained thermal model; full-chip thermal map; nonuniform ageing; power consumption; power density; power model; single-chip cloud computer thermal model; systems-on-chip; thermal cycles; thermal modeling tool; thermal sensors; Benchmark testing; Power demand; Random access memory; Temperature sensors; Tiles;
Conference_Titel :
Thermal Investigations of ICs and Systems (THERMINIC), 2011 17th International Workshop on
Conference_Location :
Paris
Print_ISBN :
978-1-4577-0778-0
