A Real-Time, 1.89-GHz Bandwidth, 175-kHz Resolution Sparse Spectral Analysis RISC-V SoC in 16-nm FinFET

2019 
A 1.89-GHz bandwidth, 175-kHz resolution spectral analysis system-on-chip (SoC), integrating a subsampling analog-to-digital converter (ADC) frontend with a digital reconstruction backend and implementing a 21 600-point sparse Fourier transform based on the fast Fourier aliasing-based sparse transform (FFAST) algorithm has been co-designed by using the Constructing Hardware in a Scala Embedded Language (Chisel) and Berkeley Analog Generator (BAG) circuit generator frameworks in 16-nm CMOS. Three sets of $25\times $ , $27\times $ , and $32\times $ subsampling successive approximation register (SAR) ADCs acquire signal with ~5.4–6.3 effective number of bits (ENOB)/slice. The digital backend consists of mixed-radix 864-, 800-, and 675-point fast Fourier transforms (FFTs), a signal location estimator, and a peeling decoder that recovers aliased signals from a sparsely populated spectrum. A single-issue, in-order, fifth-generation reduced instruction set (RISC-V) Rocket processor interacts with the spectrum analyzer for post-processing and calibration. The ADC consumes 49.8 mW with a 3.78-GHz reference clock. At 400 MHz and 0.7-V digital supply voltage (VDD), the Rocket core and the FFAST digital signal processing (DSP) together consume 133.5 mW.
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