构建异构平台上的功能性傅立叶体绘制管道

M. Abdellah, A. Eldeib, A. Shaarawi
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引用次数: 9

摘要

体绘制已成为医学领域的重要工具。这是由于成像方式的快速发展,如磁共振成像仪(MRI)、计算机断层扫描(CT)扫描仪。体绘制技术因类别而异,主要取决于所采用的模式,最终取决于目标应用程序。尽管空间域体绘制技术在过去的几十年里得到了广泛的接受,但是,由于它们的复杂度为0 (N3),对于大小为N3的体积,它们受到性能瓶颈的困扰。傅里叶体积渲染(FVR)是一种替代技术,它以降低复杂度为O(N2logN)的方式处理体积的k空间表示,以生成看起来像x射线的空间体积的投影图像。在这项工作中,提出了FVR管道在中央处理器(cpu)和图形处理器(gpu)上的功能混合实现。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Constructing a functional Fourier volume rendering pipeline on heterogeneous platforms
Volume rendering became a crucial and significant tool in the medical field. This was due to the rapid evolution of imaging modalities such as Magnetic Resonance Imaging (MRI) machines, Computed Tomography (CT) scanners. Volume rendering techniques vary from category to another depending basically on the employed modality and eventually on the target application. Although spatial-domain volume rendering techniques have gained a wide acceptance during the past decades, however, they suffer from performance bottlenecks due to their O(N3) complexity for a volume of size N3. Fourier Volume Rendering (FVR) is an alternative technique that works on the k-space representation of the volume with reduced complexity of O(N2logN) for generating projection images of the spatial volume that look like X-ray ones. In this work, a functional hybrid implementation of the FVR pipeline on Central Processing Units (CPUs) and Graphics Processing Units (GPUs) is presented.
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