Capacitance Scaling Based Low Power Comparator Design on 28nm FPGA
Abhay Saxena, Swapnil Gaidhani, Anamika Pant, Chandrashekhar Patel "Capacitance Scaling Based Low Power Comparator Design on 28nm FPGA". International Journal of Computer Trends and Technology (IJCTT) V42(2):72-76, December 2016. ISSN:2231-2803. www.ijcttjournal.org. Published by Seventh Sense Research Group.
Abstract -
Reducing the power consumption is the
main concern in green computing. So here we used
capacitance scaling technique on comparator for
optimizing the power. We worked with I/O Power &
Leakage Power because Clock Power & Signal
Power are independent of capacitance scaling. In
our work we have scaled down the capacitance from
512pF to 32pF at various fixed frequency. At 1GHz
when we scale down the capacitance from 512pF to
32pF then we got 91.26% reduction in total I/O
power dissipation. At 10 GHz when we scale down
the capacitance from 512pF to 32pF then we got
91.36% reduction in total I/O power dissipation. At
20 GHz when we scale down the capacitance from
512pF to 32pF then we got 91.364% reduction in
total I/O power dissipation. At 30 GHz when we
scale down the capacitance from 512pF to 32pF
then we got 91.3624% reduction in total I/O power
dissipation. At 40GHz when we scale down the
capacitance from 512pF to 32pF then we got
91.36277% reduction in total I/O power dissipation.
This design is implemented on 28 nm Artix7 FPGA.
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Keywords
Capacitance Scaling, Low Power,
Comparator, 28nm, FPGA, Computer Architecture.