AMD Versal Implementations of FAM and SSCA Estimators

Abstract

Cyclostationary analysis is widely used in signal processing, particularly in the analysis of human-made signals, and spectral correlation density (SCD) is often used to characterise cyclostationarity. Unfortunately, for real-time applications, even utilising the fast Fourier transform (FFT), the high computational complexity associated with estimating the SCD limits its applicability. In this work, we present optimised, high-speed field-programmable gate array (FPGA) implementations of two SCD estimation techniques. Specifically, we present an implementation of the FFT accumulation method (FAM) running entirely on the AMD Versal AI engine (AIE) array. We also introduce an efficient implementation of the strip spectral correlation analyser (SSCA) that can be used for window sizes up to 220. For both techniques, a generalised methodology is presented to parallelise the computation while respecting memory size and data bandwidth constraints. Compared to an NVIDIA GeForce RTX 3090 graphics processing unit (GPU) which uses a similar 7nm technology to our FPGA, for the same accuracy, our FAM/SSCA implementations achieve speedups of 4.43x/1.90x and a 30.5x/24.5x improvement in energy efficiency.