An ultrasound image is formed from a collection of ultrasonic beams transmitted and received by an array of transducer elements. …
Malaria prevails mainly in the countries that lack proper medical facilities, and it kills about a million people worldwide a…
Microsensor networks have applications ranging from environmental and industrial monitoring to wearable and implantable medical devices. Despite the breadth of…
Low-power portable electronics such as implantable medical devices require low-access-energy non-volatile memory to deliver longer battery lifetime and richer functionality….
On-chip memories are responsible for a large portion (40% by many estimates) of the total energy consumption and area of…
The use of video is becoming an important part of today’s world, and consumers are constantly demanding high-definition performance. In…
Circuits for wearable vital sign monitors have very stringent requirements on power dissipation due to limited energy storage capacity. Extending…
As process technology scales, the importance of material and architectural innovation for interconnect performance will continue to increase. Graphene has…
Most current ultrasound imaging systems use piezoelectric materials for the ultrasound transducer. The recent development of micro-electromechanical systems (MEMS) allowed…
Designing on-chip networks optimized for a cache coherence protocol is critical for many-core processors to achieve peak efficiency in energy,…
The Capacitive Micromachined Ultrasound Transducer (CMUT) is an alternative to traditional piezoelectric transducers. The CMUT technology provides an opportunity for…
Implantable medical sensors are an emerging application area that exemplifies the stringent energy constraints imposed on wireless sensor circuits. In…
Design of digital integrated circuits and systems. Energy efficient implementation of signal processing, communication and medical systems. Circuit design with emerging technologies.