Litcius/Paper detail

RadioML Meets FINN: Enabling Future RF Applications With FPGA Streaming Architectures

Felix Jentzsch, Yaman Umuroglu, Alessandro Pappalardo, Michaela Blott, Marco Platzner

2022IEEE Micro15 citationsDOIOpen Access PDF

Abstract

Deep neural networks (DNNs) are penetrating into a broad spectrum of applications and replacing manual algorithmic implementations, including the radio frequency communications domain with classical signal processing algorithms. However, the high throughput (gigasamples per second) and low latency requirements of this application domain pose a significant hurdle for adopting computationally demanding DNNs. In this article, we explore highly specialized DNN inference accelerator approaches on field-programmable gate arrays (FPGAs) for RadioML modulation classification. Using an automated end-to-end flow for the generation of the FPGA solution, we can easily explore a spectrum of solutions that optimize for different design targets, including accuracy, power efficiency, resources, throughput, and latency. By leveraging reduced precision arithmetic and customized streaming dataflow, we demonstrate a solution that meets the application requirements and outperforms alternative FPGA efforts by 3.5× in terms of throughput. Against modern embedded graphics processing units (GPUs), we measure $>\mathsf{10}\times$>10× higher throughput and $>\mathsf{100}\times$>100× lower latency under comparable accuracy and power envelopes.

Topics & Concepts

Computer scienceField-programmable gate arrayDataflowThroughputLatency (audio)Design flowLow latency (capital markets)Computer architectureComputer engineeringEmbedded systemComputer hardwareParallel computingWirelessTelecommunicationsComputer networkWireless Signal Modulation ClassificationSemiconductor materials and devicesRadio Frequency Integrated Circuit Design