Title :
Power management on 14 nm Intel® Core− M processor
Author :
Deval, Anant ; Ananthakrishnan, Avinash ; Forbell, Craig
Author_Institution :
Platform Eng. Group, Intel Corp., Hillsboro, OR, USA
Abstract :
The desire to deliver breakthrough performance in a tablet form factor required several innovations in the 14nm Intel® flagship Core™ processor (Broadwell). Better frequency control algorithms including duty cycling graphics cores were developed to improve energy efficiency. New power sharing algorithms were developed to maximize performance of multiple compute domains within tight thermal and power delivery constraints. Innovations resulted in upto 50% increase in performance and upto 25% improvement in battery life over a Haswell system thermally constrained to a 4.5W fanless form factor.
Keywords :
energy conservation; frequency control; low-power electronics; microprocessor chips; nanoelectronics; Broadwell; Haswell system; Intel Core processor; duty cycling graphic cores; energy efficiency; fanless form factor; frequency control algorithms; power 4.5 W; power delivery constraints; power management; power sharing algorithms; size 14 nm; tablet form factor; Algorithm design and analysis; Batteries; Energy efficiency; Graphics; Performance evaluation; Skin; Temperature sensors; Broadwell; Core M; Power Management; duty cycling; energy efficiency; frequency control; power sharing;
Conference_Titel :
Low-Power and High-Speed Chips (COOL CHIPS XVIII), 2015 IEEE Symposium in
Conference_Location :
Yokohama
DOI :
10.1109/CoolChips.2015.7158657
