Accelerating real-time computer vision applications using HW/SW co-design

Anirudh B.K., Vivek Venkatraman, Abhishek Kumar, Sumam David S.
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引用次数: 10

Abstract

Video processing applications have become increasingly difficult to implement on hardware, owing to the complex computer vision algorithms involved. This paper presents a real-time video processing architecture based on hardware/software co-design that improves execution speed and reduces the time to market of applications. We have implemented this framework for handwritten digit recognition on the Zybo Zynq-7000 ARM/FPGA SoC using Vivado High Level Synthesis (HLS) and Xillybus tools. Histogram of Oriented Gradients (HOG) feature extraction algorithm has been optimised for hardware execution and acceleration techniques have been applied on Vivado HLS to achieve a speed up of 38.89 for the HOG algorithm and recognition accuracy of 95.6%. Low precision arithmetic along with our approximations for costly functions, produced this significant gain in throughput by reducing 90% of the hardware resources required with just a marginal accuracy reduction by 1%. An overall performance improvement of 77% is obtained through hardware/software co-design over software execution. The framework identified digits seamlessly in a real-time video stream at 30 frames per second and enabled high frame rate video processing.
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使用硬件/软件协同设计加速实时计算机视觉应用
由于涉及复杂的计算机视觉算法,视频处理应用越来越难以在硬件上实现。本文提出了一种基于软硬件协同设计的实时视频处理体系结构,提高了执行速度,缩短了应用程序的上市时间。我们使用Vivado High Level Synthesis (HLS)和Xillybus工具在Zybo Zynq-7000 ARM/FPGA SoC上实现了手写数字识别框架。优化了面向梯度直方图(Histogram of Oriented Gradients, HOG)特征提取算法的硬件执行,并在Vivado HLS上应用了加速技术,实现了HOG算法的加速38.89,识别准确率95.6%。低精度算法以及我们对昂贵函数的近似,通过减少所需的90%的硬件资源而仅减少1%的精度,从而产生了吞吐量的显著增加。通过硬件/软件协同设计而不是软件执行,总体性能提高了77%。该框架以每秒30帧的速度在实时视频流中无缝识别数字,并实现高帧率视频处理。
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