Electrical Engineering and Computer Science

Defense Event

Ultra Low Power Circuits for Internet of Things and Deep Learning Accelerator design with In-Memory Computing

Myungjoon Choi

Thursday, November 30, 2017
3:00pm - 5:00pm
LNF Conference Room

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About the Event

Abstract: Collecting data from environment and converting gathered data into information is the key idea of Internet of Things (IoT). Miniaturized sensing devices enable the idea for many applications including health monitoring, industrial sensing, and so on. Sensing devices typically have small form factor and thus, low battery capacity, but at the same time, require long life time for continuous monitoring and least frequent battery replacement. This thesis introduces three analog circuit design techniques featuring ultra-low power consumption for such requirements: (1) An ultra-low power resistor-less current reference circuit, (2) A 110nW resistive frequency locked on-chip oscillator as a timing reference, (3) A resonant current-mode wireless power receiver and battery charger for implantable systems. Equipped by such circuit techniques, a millimeter sized sensor system for downhole oil-well application will be also presented.    Raw data can be efficiently transformed into useful information using deep learning. However deep learning requires tremendous amount of computation by its nature, and thus, an energy efficient deep learning hardware is highly demanded to fully utilize this algorithm in various applications. This thesis also presents a pulse-width based computation concept which utilizes in-memory computing of SRAM.

Additional Information

Sponsor(s): Professor Dennis M. Sylvester

Open to: Public