Nascimento, JoseVéstias, Mário2020-03-102020-03-102019-09NASCIMENTO, José M. P.; VÉSTIAS, Mário – Hyperspectral compressive sensing: a comparison of embedded GPU and ARM implementations. In Proceedings of SPIE, , Emerging Imaging and Sensing Technologies for Security and Defence IV. Strasbourg, France: SPIE, 2019. Vol. 11163, pp. 88-97http://hdl.handle.net/10400.21/11214Hyperspectral imaging involves the sensing of a large amount of spatial information across several adjacent wavelengths. Typically, hyperspectral images can be represented by a three-dimensional data cube. The collected data cube is extremely large to be transmitted from the satellite/airborne platform to the ground station. Compressive sensing (CS) is an emerging technique that acquire directly the compressed signal instead of acquiring the full data set. This reduces the amount of data that needs to be measured, transmitted and stored in first place. In this paper, a comparison of a CS method implementation for an ARM and for a GPU is conducted. This study takes into account the accuracy, the performance, and the power consumption for both implementations. The 256-cores GPU of a Jetson TX2 board, the dual-core ARM Cortex-A9 of a ZYNQ-7000 SoC FPGA and the quad-core ARM Cortex-A53 of a ZYNQ UltraScale SoC FPGA are the target platforms used for experimental validation. The obtained results indicate that the embedded GPU is faster but uses more power. Therefore, the most appropriate platform depends on the performance and power constraints of the project.engHypersectral compressive sensingParallel processingEmbedded systemsconference objecthttps://doi.org/10.1117/12.2532581