High-speed, low-leakage integrated circuits: An evolutionary algorithm perspective
Journal of Systems Architecture: the EUROMICRO Journal
Minimizing leakage: what if every gate could have its individual threshold voltage?
AIAP'07 Proceedings of the 25th conference on Proceedings of the 25th IASTED International Multi-Conference: artificial intelligence and applications
Effecting power consumption reduction in digital CMOS circuits by a hybrid logic synthesis technique
ESPOCO'05 Proceedings of the 4th WSEAS International Conference on Electronic, Signal Processing and Control
A study on factors influencing power consumption in multithreaded and multicore CPUs
WSEAS Transactions on Computers
Biologically-Inspired optimization of circuit performance and leakage: a comparative study
ARCS'06 Proceedings of the 19th international conference on Architecture of Computing Systems
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Ubiquitous computing is a next generation information technology where computers and communications will be scaled further, merged together, and materialized in consumer applications. Computers will be invisible behind broadband networks as servers, while terminals will come closer to us as wearable/implantable devices, more friendly devices with sophisticated human-computer-interactions. IC chips will be implanted everywhere so that things can think and talk for distributed information processing. Key technologies here are low power, low cost, and good interface especially for wireless data communications. Low-power, high-speed CMOS circuit techniques will be presented in this paper, including low-voltage design with variable/multiple V DdV TH control, embedded memory technology for reducing capacitance, and low-switching activity design.