Near-Threshold CORDIC Design with Dynamic Circuitry for Long-Standby IoT Applications
2018 31st IEEE International System-on-Chip Conference (SOCC)(2018)
摘要
IoT edge devices require ultra-low leakage for lowly duty-cycled applications. The prior designs only show the all-N-type ripple carry adder (All-N-RCA) outperforming the static RCA design based on simulation results. To verify the feasibility and to increase the confidence level of applying dynamic circuit to the near- Vt SoC design, the design vehicle must be at least a pipelined design. We then propose the useful DSP kernel, the COordinate Rotation DIgital Computer (CORDIC) to be the test vehicle in this work. The core circuits of CORDIC `logarithmic shifter' and `adder' are replaced by dynamic circuit to build up proposed dynamic CORDIC. The static CORDIC and dynamic CORDIC are evaluated according to pre-layout simulation results in 28 nm CMOS technology. For an IoT application with a 0.02% and 0.2% duty cycle, the proposed dynamic CORDIC can achieves a 41% and 30% energy reduction compared to the static CORDIC at the typical process corner.
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关键词
ultra-low leakage,IoT,near threshold voltage,dynamic circuit,CORDIC
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