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Conference paper

An Architecture and Implementation of Real-time Synthetic Aperture Compounding with SARUS

In Proceedings of the 2011 Ieee International Ultrasonics Symposium — 2011, pp. 1044-1047

By Stuart, Matthias Bo1,2; Jensen, Jørgen Arendt1,2,3

From

Biomedical Engineering, Department of Electrical Engineering, Technical University of Denmark1

Department of Electrical Engineering, Technical University of Denmark2

Center for Fast Ultrasound Imaging, Centers, Technical University of Denmark3

Synthetic aperture and compounding are imaging techniques for increasing the resolution and contrast of ultrasound images. Both techniques are computationally intensive, and combined they require approximately two orders of magnitude more lines to be beamformed per second compared to conventional B-mode imaging with similar frame rates.

In this paper, an implementation of a system capable of synthetic aperture compound imaging in real-time producing more than 325 million complex beamformed samples per second is presented. This corresponds to synthetic aperture compound imaging at 13 frames per second with 64 emissions and 3 compound angles with 128 lines each.

The beamformer is implemented in the SARUS research scanner which consists of 320 Virtex4 FPGAs and has 1024 independent transmit and receive channels. The beamformer is partitioned across 64 FPGAs and runs at 87.5 MHz while consuming 76% of the available logic resources in each FPGA. The beamformed images have resolution similar to offline processed images.

Language: English
Publisher: IEEE
Year: 2011
Pages: 1044-1047
Proceedings: 2011 IEEE International Ultrasonics Symposium
ISBN: 1457712512 and 9781457712517
Types: Conference paper
DOI: 10.1109/ULTSYM.2011.0256
ORCIDs: Stuart, Matthias Bo and Jensen, Jørgen Arendt

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