DocumentCode
1943721
Title
Low-power design by hazard filtering
Author
Agrawal, Vishwani D.
Author_Institution
AT&T Bell Labs., Murray Hill, NJ, USA
fYear
1997
fDate
4-7 Jan 1997
Firstpage
193
Lastpage
197
Abstract
Before signals of a digital circuit reach steady state, gates can have multiple transitions. Since the power is dissipated in a CMOS circuit mainly due to transitions, the extra transitions increase power consumption. These transitions are the hazard pulses generated by a logic gate when signals arrive by paths of varying delays. The maximum width of a hazard pulse produced by a gate is the maximum difference between the delays of incident paths, which is generally much smaller than the clock period. We propose suppression of hazard pulses by increasing the delays of gates where hazards could have been generated. Thus, a hazard filtering gate has a delay which is at least as much as the differential delay of its input paths. We give examples to illustrate the novel technique and also indicate that the overall reduction in the circuit speed may not be too much with proper sizing of transistors, while there can be a significant reduction in power consumption
Keywords
CMOS logic circuits; delays; hazards and race conditions; integrated circuit design; logic design; CMOS circuit; differential delay; gate delays; hazard filtering; hazard pulses; logic gate; low-power design; multiple transitions; power consumption; CMOS logic circuits; Delay; Digital circuits; Energy consumption; Filtering; Hazards; Logic gates; Pulse generation; Signal generators; Steady-state;
fLanguage
English
Publisher
ieee
Conference_Titel
VLSI Design, 1997. Proceedings., Tenth International Conference on
Conference_Location
Hyderabad
ISSN
1063-9667
Print_ISBN
0-8186-7755-4
Type
conf
DOI
10.1109/ICVD.1997.568075
Filename
568075
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