Rohkohl C, Keck B, Hofmann H, Hornegger J (2009)
Publication Type: Journal article, Original article
Publication year: 2009
Original Authors: Rohkohl C., Keck B., Hofmann H., Hornegger J.
Publisher: American Association of Physicists in Medicine
Book Volume: 36
Pages Range: 3940-3944
Journal Issue: 9
DOI: 10.1118/1.3180956
Purpose: Fast 3D cone beam reconstruction is mandatory for many clinical workflows. For that reason, researchers and industry work hard on hardware-optimized 3D reconstruction. Backprojection is a major component of many reconstruction algorithms that require a projection of each voxel onto the projection data, including data interpolation, before updating the voxel value. This step is the bottleneck of most reconstruction algorithms and the focus of optimization in recent publications. A crucial limitation, however, of these publications is that the presented results are not comparable to each other. This is mainly due to variations in data acquisitions, preprocessing, and chosen geometries and the lack of a common publicly available test dataset. The authors provide such a standardized dataset that allows for substantial comparison of hardware accelerated backprojection methods. Methods: They developed an open platform RabbitCT (www.rabbitCT.com) for worldwide comparison in backprojection performance and ranking on different architectures using a specific high resolution C-arm CT dataset of a rabbit. This includes a sophisticated benchmark interface, a prototype implementation in C++, and image quality measures. Results: At the time of writing, six backprojection implementations are already listed on the website. Optimizations include multithreading using Intel threading building blocks and OpenMP, vectorization using SSE, and computation on the GPU using CUDA 2.0. Conclusions: There is a need for objectively comparing backprojection implementations for reconstruction algorithms. RabbitCT aims to provide a solution to this problem by offering an open platform with fair chances for all participants. The authors are looking forward to a growing community and await feedback regarding future evaluations of novel software- and hardware-based acceleration schemes. © 2009 American Association of Physicists in Medicine.
APA:
Rohkohl, C., Keck, B., Hofmann, H., & Hornegger, J. (2009). Technical Note: RabbitCT-an open platform for benchmarking 3D cone-beam reconstruction algorithms. Medical Physics, 36(9), 3940-3944. https://doi.org/10.1118/1.3180956
MLA:
Rohkohl, Christopher, et al. "Technical Note: RabbitCT-an open platform for benchmarking 3D cone-beam reconstruction algorithms." Medical Physics 36.9 (2009): 3940-3944.
BibTeX: Download