ViPS:医学影像视觉处理系统

Tassadaq Hussain, Oscar Palomar, A. Cristal, E. Ayguadé, Amna Haider
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引用次数: 6

摘要

影像已成为现代医学中不可或缺的工具。近年来出现了各种强大而昂贵的医学成像应用研究平台。在本文中,我们设计并提出了一个有效处理医学影像应用的视觉处理系统(ViPS)。ViPS提供了一个用户友好的编程环境和高性能架构,用于执行复杂的实时图像或视频的图像分析、特征提取和对象识别。使用模式描述符在程序存储器中描述图像或视频的数据结构;ViPS使用专门的3D存储结构来处理复杂的图像或视频,并在微处理器或应用程序特定的硬件加速器上处理它们。该系统在成本、性能和功耗方面具有很高的可靠性。基于ViPS的系统在Xilinx Virtex-7 FPGA VC707评估套件上实现并测试。ViPS的性能与Intel i7多核GPU Jetson TK1嵌入式开发套件进行了比较,该套件基于192个CUDA内核的图形系统。结果表明,与基于Intel和gpu的系统相比,ViPS的实时视频重构帧率分别提高了2倍和1.45倍,在执行不同图像处理应用时的加速提高了14.6 ~ 4.8倍,视频处理算法的加速提高了20.3%和12.6%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
ViPS: Visual processing system for medical imaging
Imaging has become an indispensable tool in modern medicine. Various powerful and expensive platforms to study medical imaging applications appear in recent years. In this article, we design and propose a Visual Processing System (ViPS) that processes medical imaging applications efficiently. ViPS provides a user-friendly programming environment and high-performance architecture to perform image analysis, features extraction and object recognition for complex real-time images or videos. The data structure of image or video is described in the program memory using pattern descriptors; ViPS uses specialized 3D memory structure to handle complex images or videos and processes them on microprocessors or application specific hardware accelerators. The proposed system is highly reliable in terms of cost, performance, and power. ViPS based system is implemented and tested on a Xilinx Virtex-7 FPGA VC707 Evaluation Kit. The performance of ViPS is compared with the Intel i7 multi-core, GPU Jetson TK1 Embedded Development Kit with 192 CUDA cores based graphic systems. When compared with the Intel and GPU-based systems, the results show that ViPS performs real-time video reconstruction at 2x and 1.45x of higher frame rate, achieves 14.6x to 4.8x of speedup while executing different image processing applications and 20.3% and 12.6% of speedup for video processing algorithms respectively.
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