A GaAs low-power normally-on 4-bit ripple carry adder

A GaAs low-power normally-on 4-bit ripple carry adder

The realization and performance of a low-power buffered FET logic (1p-BFL) 4 bit ripple carry adder is reported. Performance measurements indicate a critical path average propagation delay of 1.9 ns at a total power dissipation of 45 mW, output buffers included (27 mW without). This corresponds to a...

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Veröffentlicht in:IEEE journal of solid-state circuits 1983-06, Vol.18 (3), p.365-369
Hauptverfasser: Perea, E.H., Damay-Kavala, F., Nuzillat, G., Arnodo, C.
Format: Artikel
Sprache:eng
Schlagworte:
Adders
Circuit testing
Energy consumption
FETs
Gallium arsenide
Integrated circuit interconnections
Logic circuits
Power dissipation
Power measurement
Propagation delay
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Beschreibung
Zusammenfassung:The realization and performance of a low-power buffered FET logic (1p-BFL) 4 bit ripple carry adder is reported. Performance measurements indicate a critical path average propagation delay of 1.9 ns at a total power dissipation of 45 mW, output buffers included (27 mW without). This corresponds to an average propagation delay of 380 ps/gate (FI/FO=/SUP 5///SUB 3/), an average power consumption of 1.56 mW/gate, and a power-delay product of 0.6 pJ. Best speed performance biasing conditions yield a 1.25 ns critical path average propagation delay at a total power dissipation of 180 mW (180 mW excluding buffers), which corresponds to an average gate delay, power consumption and power-delay product of 250 ps, 6 mW, and 1.5 pJ, respectively. Standard cell layout techniques yield an average gate density of 200 gates/mm/SUP 2/, interconnection wiring included.
ISSN:0018-9200
1558-173X
DOI:10.1109/JSSC.1983.1051953