GPU-based streaming architectures for fast cone-beam CT image reconstruction and demons deformable registration

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Abstract

This paper shows how to significantly accelerate cone-beam CT reconstruction and 3D deformable image registration using the stream-processing model. We describe data-parallel designs for the Feldkamp, Davis and Kress (FDK) reconstruction algorithm, and the demons deformable registration algorithm, suitable for use on a commodity graphics processing unit. The streaming versions of these algorithms are implemented using the Brook programming environment and executed on an NVidia 8800 GPU. Performance results using CT data of a preserved swine lung indicate that the GPU-based implementations of the FDK and demons algorithms achieve a substantial speedup - up to 80 times for FDK and 70 times for demons when compared to an optimized reference implementation on a 2.8 GHz Intel processor. In addition, the accuracy of the GPU-based implementations was found to be excellent. Compared with CPU-based implementations, the RMS differences were less than 0.1 Hounsfield unit for reconstruction and less than 0.1 mm for deformable registration. © 2007 IOP Publishing Ltd.

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Sharp, G. C., Kandasamy, N., Singh, H., & Folkert, M. (2007). GPU-based streaming architectures for fast cone-beam CT image reconstruction and demons deformable registration. Physics in Medicine and Biology, 52(19), 5771–5783. https://doi.org/10.1088/0031-9155/52/19/003

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