Siegl C, Hofmann H, Keck B, Prümmer M, Hornegger J (2011)
Publication Type: Conference contribution, Conference Contribution
Publication year: 2011
Original Authors: Siegl C., Hofmann H., Keck B., Prümmer M., Hornegger J.
Book Volume: 7961
Pages Range: -
Event location: Lake Buena Vista, FL
Journal Issue: null
DOI: 10.1117/12.878058
Reconstruction of 3-D volumetric data from C-arm CT projections is a computationally demanding task. For interventional image reconstruction, hardware optimization is mandatory. Manufacturers of medical equipment use a variety of high-performance computing (HPC) platforms, like FPGAs, graphics cards, or multi-core CPUs. A problem of this diversity is that many different frameworks and (vendor-specific) programming languages are used. Furthermore, it is costly to switch the platform, since the code has to be re-written, verified, and optimized. OpenCL, a relatively new industry standard for HPC, promises to enable portable code. Its key idea is to abstract hardware in a way that allows an efficient mapping onto real CPUs, GPUs, and other hardware. The code is compiled for the actual target by the device driver. In this work we investigated the suitability of OpenCL as a tool to write portable code that runs efficiently across different hardware. The problems chosen are back- and forward-projection, the most time-consuming parts of (iterative) reconstruction. We present results on three platforms, a multi-core CPU system and two GPUs, and compare them against manually optimized native implementations. We found that OpenCL allows to share a common framework in one language across platforms. However, considering differences in the underlying architecture, a hardware-oblivious implementation cannot be expected to deliver maximal performance. By optimizing the OpenCL code for the specific hardware we reached over 90% of native performance for both problems, back- and forward-projection, on all platforms. ̈ 2011 SPIE.
APA:
Siegl, C., Hofmann, H., Keck, B., Prümmer, M., & Hornegger, J. (2011). OpenCL: A viable solution for high-performance medical image reconstruction? In Proceedings of the Medical Imaging 2011: Physics of Medical Imaging (pp. -). Lake Buena Vista, FL.
MLA:
Siegl, Christian, et al. "OpenCL: A viable solution for high-performance medical image reconstruction?" Proceedings of the Medical Imaging 2011: Physics of Medical Imaging, Lake Buena Vista, FL 2011. -.
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