Litcius/Paper detail

Towards Employing FPGA and ASIP Acceleration to Enable Onboard AI/ML in Space Applications

Vasileios Leon, George Lentaris, Dimitrios Soudris, Simon Vellas, Mathieu Bernou

202218 citationsDOIOpen Access PDF

Abstract

The success of AI/ML in terrestrial applications and the commercialization of space are now paving the way for the advent of AI/ML in satellites. However, the limited processing power of classical onboard processors drives the community towards extending the use of FPGAs in space with both rad-hard and Commercial-Off-The-Shelf devices. The increased performance of FPGAs can be complemented with VPU or TPU ASIP coprocessors to further facilitate high-level AI development and inflight reconfiguration. Thus, selecting the most suitable devices and designing the most efficient avionics architecture becomes crucial for the success of novel space missions. The current work presents industrial trends, comparative studies with inhouse benchmarking, as well as architectural designs utilizing FPGAs and AI accelerators towards enabling AI/ML in future space missions.

Topics & Concepts

Field-programmable gate arrayAvionicsControl reconfigurationComputer scienceEmbedded systemCommercializationSpace explorationBenchmarkingCoprocessorComputer architectureSpace (punctuation)EngineeringOperating systemAerospace engineeringLawMarketingPolitical scienceBusinessSpacecraft Design and TechnologyCCD and CMOS Imaging SensorsSpace Technology and Applications