Title :
Cache leakage power estimation using architectural model for 32 nm and 16 nm technology nodes
Author :
Zajac, Piotr ; Janicki, Marcin ; Szermer, Michal ; Maj, Cezary ; Pietrzak, Piotr ; Napieralski, Andrzej
Author_Institution :
Dept. of Microelectron. & Comput. Sci., Tech. Univ. of Lodz, Lodz, Poland
Abstract :
The constant increase of subthreshold current of nanometer transistors due to technology scaling may hinder the evolution of high-performance chips in the near future. This evokes the need of accurate leakage power modeling for new nanometer technologies. In this paper, we present an improved subthreshold current model, which was integrated it into an architectural-level power simulator. Using this simulator, we estimated the leakage power in a 2 MB cache memory for 32 nm and 16 nm technology nodes. Our results show that the cache leakage power dissipation for 2 MB 2-way cache at 100°C fabricated in the 32 nm technology is around 1 W. For the 16 nm technology, we demonstrate the importance of maintaining high threshold voltage to keep leakage power density at the acceptable level.
Keywords :
cache storage; leakage currents; nanoelectronics; architectural model; architectural-level power simulator; cache leakage power dissipation; cache leakage power estimation; cache memory; high-performance chips; leakage power modeling; nanometer transistors; size 16 nm; size 32 nm; subthreshold current; technology scaling; Integrated circuit modeling; MOS devices; Mathematical model; SPICE; Subthreshold current; Transistors; Leakage power; architectural modeling; cache; nanometer technologies; subthreshold current;
Conference_Titel :
Semiconductor Thermal Measurement and Management Symposium (SEMI-THERM), 2012 28th Annual IEEE
Conference_Location :
San Jose, CA
Print_ISBN :
978-1-4673-1110-6
Electronic_ISBN :
1065-2221
DOI :
10.1109/STHERM.2012.6188865
