The GPU on biomedical image processing for color and phenotype analysis

The GPU on biomedical image processing for color and phenotype analysis

The computational power and memory bandwidth of graphics processing units (GPUs) have turned them into attractive platforms for general-purpose applications. In this paper, we exploit this power in the context of biomedical image processing by establishing a cooperative environment between the CPU a...

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Bibliographische Detailangaben
Hauptverfasser: Ruiz, A., Ujaldon, M., Andrades, J.A., Becerra, J., Kun Huang, Pan, T., Saltz, J.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Bandwidth
Biomedical computing
Biomedical image processing
Bone tissue
Central Processing Unit
Graphics
Image analysis
Image color analysis
Microscopy
Stem cells
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Zusammenfassung:The computational power and memory bandwidth of graphics processing units (GPUs) have turned them into attractive platforms for general-purpose applications. In this paper, we exploit this power in the context of biomedical image processing by establishing a cooperative environment between the CPU and the GPU. We deal with phenotype and color analysis on a wide variety of microscopic images from studies of cartilage and bone tissue regeneration using stem cells and genetics involving cancer pathology. Both processors are used in parallel to map algorithms for computing color histograms, contour detection using the Canny filter and pattern recognition based on the Hough transform. Task, data and instruction parallelism are exploited in the GPU to accomplish performance gains between 4times and 100times more than the typical CPU code.
DOI:10.1109/BIBE.2007.4375701