GlitchLess: Dynamic Power Minimization in FPGAs through
Edge Alignment and Glitch Filtering
Julien Lamoureux, Guy G. Lemieux, Steven J.E. Wilton
Abstract
This paper describes Glitchless, a circuit-level technique
for reducing power in FPGAs by eliminating unnecessary
logic transitions called glitches. This is done by adding
programmable delay elements to the logic blocks of the
FPGA. After routing a circuit and performing static timing
analysis, these delay elements are programmed to align the
arrival times of the inputs of each LUT, thereby preventing
new glitches from being generated. Moreover, the delay
elements also behave as filters that eliminate other glitches
generated by upstream logic or off-chip circuitry. On
average, the proposed implementation eliminates 87% of the
glitching, which reduces overall FPGA power by 17%. The
added circuitry increases the overall FPGA area by 6% and
critical-path delay by less than 1%. Furthermore, since it is
applied after routing, the proposed technique requires little
or no modifications to the routing architecture or CAD flow.
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