FPGA Acceleration of Image Reconstruction for Real-Time Photoacoustic Tomography
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Photoacoustic (PA) imaging has been widely applied in both preclinical and clinical applications. With a significantly increasing number of data acquisition channels, fast and high-quality image reconstruction for real-time PA imaging is an open challenge in this community. In this paper, we propose a FPGA-accelerated method to achieve a much faster image reconstruction speed by 20 60 times compared with using CPU, with much-reduced system cost and power budget, from dozens of Watt (CPU) to 1 2 Watt (FPGA). Equivalently, the energy efficiency ratio (EER) is improved by 1000 times. This FPGA acceleration method can be easily adapted to the most widely used algorithms, such as delay-and-sum (DAS) and its variants (e.g. DMAS, DAS-CF). We have performed in-vivo human finger experiments to demonstrate the feasibility and potential of the proposed method. To our best knowledge, this is the first study of accelerating PA image reconstruction based on FPGA platform.
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