Title :
Mobile CPU power/performance benchmarking and process technology co-optimization
Author :
Bucki, R. ; Bridges, T. ; Bowers, B. ; Xue, T. ; Mir, I. ; Le, Dat ; Kazi, T. ; Fischer, J. ; Ekbote, S. ; Sengupta, Sabyasachi ; Nallapati, G.
Author_Institution :
Qualcomm Technol. Inc., San Diego, CA, USA
Abstract :
The form factor of mobile devices and their associated thermal dissipation characteristics present practical limits to SoC (and specifically CPU) power consumption. Multiple maximum temperature constraints interact with the thermal “time constant” of package and product to limit allowable die temperature. This can constrain maximum CPU frequency in real use cases. The co-design of product and process technology is required to maximize thermally constrained performance. Technology features, device Ieff/Ioff setpoints, and circuit design styles are all levers to optimize thermally constrained performance. A methodology for early prediction of product sensitivities to these levers is required to enable their definition sufficiently early in the development cycle of the technology node.
Keywords :
circuit optimisation; integrated circuit design; integrated circuit packaging; power consumption; system-on-chip; SoC; associated thermal dissipation characteristics; circuit design; die temperature; form factor; mobile CPU power-performance benchmarking; mobile devices; multiple maximum temperature constraints; power consumption; process technology co-optimization; product co-design; product sensitivity early prediction; technology node; thermal time constant; thermally constrained performance; Benchmark testing; Context; Layout; Libraries; Optimization; Performance evaluation; Steady-state; Mobile CPU power opimization; technology/circuit co-design;
Conference_Titel :
IC Design & Technology (ICICDT), 2014 IEEE International Conference on
Conference_Location :
Austin, TX
DOI :
10.1109/ICICDT.2014.6838611
