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Publication Citation: A Hybrid CPU-GPU System for Fourier-Based Stitching of Optical Microscopy Images

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Author(s): Walid Keyrouz; Bertrand C. Stivalet; Timothy J. Blattner; Shujia Zhou; Joe Chalfoun; Mary C. Brady;
Title: A Hybrid CPU-GPU System for Fourier-Based Stitching of Optical Microscopy Images
Published: March 15, 2013
Abstract: We present a high performance hybrid CPU-GPU implementation that accelerates the Fourier-based stitching of 2D optical microscopy images to less than 1-minute (end-to-end execution times). This implementation takes advantage of coarse-grained parallelism and organizes the computation into a pipeline architecture that spans available CPU and GPU resources and that overlaps computation and data movement. The implementation achieves a nearly 10x performance improvement over a simple approach to GPU-based acceleration. It stitches a 59 x 42 grid of images in 43 s. It also scales up with available GPUs and processes the same workload in 26 s on a system with two GPUs. For comparison purposes, an optimized single-threaded reference implementation takes nearly 10 min for the same workload while ImageJ/Fiji exceeds 3.5 hours!
Proceedings: Sixth Workshop on General Purpose Processing Using GPUs
Location: Houston, TX
Dates: March 16-20, 2013
Keywords: GPU Computing; Parallel Computing; Image Stitching; Optical Microscopy;
Research Areas: Imaging, Visualization, Scientific Computing