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Real-Time Volumetric Synthetic Aperture Software Beamforming of Row–Column Probe Data

Matthias Bo Stuart, Patrick M. Jensen, Julian Thomas Reckeweg Olsen, Alexander Borch Kristensen, Mikkel Schou, Bernd Dammann, Hans Henrik Brandenborg Sørensen, Jørgen Arendt Jensen

2021IEEE Transactions on Ultrasonics Ferroelectrics and Frequency Control32 citationsDOIOpen Access PDF

Abstract

Two delay-and-sum beamformers for 3-D synthetic aperture imaging with row-column addressed arrays are presented. Both beamformers are software implementations for graphics processing unit (GPU) execution with dynamic apodizations and third-order polynomial subsample interpolation. The first beamformer was written in the MATLAB programming language and the second was written in C/C++ with the compute unified device architecture (CUDA) extensions by NVIDIA. Performance was measured as volume rate and sample throughput on three different GPUs: a 1050 Ti, a 1080 Ti, and a TITAN V. The beamformers were evaluated across 112 combinations of output geometry, depth range, transducer array size, number of virtual sources, floating-point precision, and Nyquist rate or in-phase/quadrature beamforming using analytic signals. Real-time imaging defined as more than 30 volumes per second was attained by the CUDA beamformer on the three GPUs for 13, 27, and 43 setups, respectively. The MATLAB beamformer did not attain real-time imaging for any setup. The median, single-precision sample throughput of the CUDA beamformer was 4.9, 20.8, and 33.5 Gsamples/s on the three GPUs, respectively. The throughput of CUDA beamformer was an order of magnitude higher than that of the MATLAB beamformer.

Topics & Concepts

BeamformingColumn (typography)SoftwareComputer scienceSynthetic aperture radarAcousticsRemote sensingGeologyMaterials scienceElectronic engineeringEngineeringPhysicsTelecommunicationsProgramming languageFrame (networking)Ultrasonics and Acoustic Wave PropagationUltrasound Imaging and ElastographyStructural Health Monitoring Techniques