Title :
An embedded energy monitoring circuit for a 128kbit SRAM with body-biased sense-amplifiers
Author :
Sinangil, Yildiz ; Chandrakasan, Anantha P.
Author_Institution :
Massachusetts Inst. of Technol., Cambridge, MA, USA
Abstract :
Embedded energy monitoring of critical system components can be used to enable better power management by capturing run time system conditions such as temperature and application load. In this work, an energy sensing circuit that provides digitally represented absolute energy per operation of a 128kbit SRAM is presented. Designed in a 65nm low-power CMOS process, SRAMs can operate down to 370 mV. Energy sensing circuit consumes 16.7μW during sensing at 1.2V (only 0.28% of SRAM active power at the same voltage). For improved performance, SRAMs utilize body-biased PMOS input strong-arm type sense amplifiers that can achieve 45% tighter input offset distribution for only ~3.5% of total SRAM area overhead.
Keywords :
CMOS memory circuits; SRAM chips; amplifiers; low-power electronics; SRAM; body-biased PMOS input strong-arm type sense amplifiers; critical system components; digitally represented absolute energy; embedded energy monitoring circuit; energy sensing circuit; low-power CMOS process; power 16.7 muW; power management; size 65 nm; time system conditions; voltage 1.2 V; voltage 370 mV;
Conference_Titel :
Solid State Circuits Conference (A-SSCC), 2012 IEEE Asian
Conference_Location :
Kobe
DOI :
10.1109/IPEC.2012.6522629
