A Classified and Comparative Study of 2-D Convolvers

2020 International Conference on Machine Vision and Image Processing (MVIP) Pub Date : 2020-02-01 DOI:10.1109/MVIP49855.2020.9116874

Mahdi Kalbasi, Hooman Nikmehr

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引用次数: 1

Abstract

Two-dimensional (2-D) convolution is a common operation in a wide range of signal and image processing applications such as edge detection, sharpening, and blurring. In the hardware implementation of these applications, 2d convolution is one of the most challenging parts because it is a compute-intensive and memory-intensive operation. To address these challenges, several design techniques such as pipelining, constant multiplication, and time-sharing have been applied in the literature which leads to convolvers with different implementation features. In this paper, based on design techniques, we classify these convolvers into four classes named Non-Pipelined Convolver, Reduced-Bandwidth Pipelined Convolver, Multiplier-Less Pipelined Convolver, and Time-Shared Convolver. Then, implementation features of these classes, such as critical path delay, memory bandwidth, and resource utilization, are analyticcally discussed for different convolution kernel sizes. Finally, an instance of each class is captured in Verilog and their features are evaluated by implementing them on a Virtex-7 FPGA and reported confirming the analytical discussions.

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二维卷积的分类与比较研究

二维(2-D)卷积在广泛的信号和图像处理应用中是一种常见的操作，如边缘检测、锐化和模糊。在这些应用程序的硬件实现中，二维卷积是最具挑战性的部分之一，因为它是一个计算密集型和内存密集型的操作。为了应对这些挑战，文献中应用了一些设计技术，如流水线、常数乘法和分时技术，这些技术导致了具有不同实现特征的卷积。在本文中，我们基于设计技术将这些卷积器分为四类:非管道卷积器、减少带宽管道卷积器、无乘法器管道卷积器和分时卷积器。然后，分析讨论了不同卷积核大小下这些类的实现特征，如关键路径延迟、内存带宽和资源利用率。最后，在Verilog中捕获每个类的实例，并通过在Virtex-7 FPGA上实现它们来评估它们的特性，并报告确认分析讨论。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2020 International Conference on Machine Vision and Image Processing (MVIP)

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