System-level energy and performance projections for nanomagnet-based logic
NANOARCH '09: Proceedings of the 2009 IEEE/ACM International Symposium on Nanoscale Architectures(2009)
摘要
This paper examines how realistic implementations of the drive circuitry needed to control circuit elements made from nano-scale magnets can affect system-level energy and performance. Expected non-uniform clock fields, clock field discontinuities and out-of-plane fields are all considered. We find that realistic fabrication mechanisms should not inhibit logical correctness and that this technology appears capable of outperforming low power CMOS equivalents with similar energy requirements — and paths to additional energy savings exist.
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关键词
realistic implementation,performance projection,similar energy requirement,system-level energy,clock field discontinuity,logical correctness,expected non-uniform clock field,realistic fabrication mechanism,additional energy saving,circuit element,nanomagnet-based logic,drive circuitry,logic,automation,cmos integrated circuits,computer science education,low power electronics,magnetic circuits,magnetic domains,switches,educational technology,logic circuits,application software,computer science,nanoelectronics,automatic control
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