480-GMACS/mW Resonant Adiabatic Mixed-Signal Processor Array for Charge-Based Pattern Recognition

480-GMACS/mW Resonant Adiabatic Mixed-Signal Processor Array for Charge-Based Pattern Recognition

A resonant adiabatic mixed-signal VLSI array delivers 480 GMACS (10 9 multiply-and-accumulates per second) throughput for every mW of power, a 25-fold improvement over the energy efficiency obtained when resonant clock generator and line drivers are replaced with static CMOS drivers. Losses in reson...

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Veröffentlicht in:IEEE journal of solid-state circuits 2007-11, Vol.42 (11), p.2573-2584
Hauptverfasser: Karakiewicz, R., Genov, R., Cauwenberghs, G.
Format: Artikel
Sprache:eng
Schlagworte:
Adiabatic flow
Adiabatic low-power techniques
Arrays
Clock generators
Clocks
computational memory
DC generators
Drivers
Energy efficiency
Pattern recognition
Power generation
Processor arrays
Pulse generation
Pulse width
Resonance
resonant clock supply
Signal generators
Tanks
Template matching
Throughput
Very large scale integration
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Zusammenfassung:A resonant adiabatic mixed-signal VLSI array delivers 480 GMACS (10 9 multiply-and-accumulates per second) throughput for every mW of power, a 25-fold improvement over the energy efficiency obtained when resonant clock generator and line drivers are replaced with static CMOS drivers. Losses in resonant clock generation are minimized by activating switches between the LC tank and DC supply with a periodic pulse signal, and by minimizing the variability of the capacitive load to maintain resonance. We show that minimum energy is attained for relatively wide pulse width, and that typical load distribution in template-based charge-mode computation implies almost constant capacitive load. The resonantly driven 256 times 512 array of 3-T charge-conserving multiply-accumulate cells is embedded in a template matching processor for image classification and validated in a face detection task.
ISSN:0018-9200
1558-173X
DOI:10.1109/JSSC.2007.907224