FPGA上基于dsp48的可重构二维卷积器

2019 International Conference on Virtual Reality and Intelligent Systems (ICVRIS) Pub Date : 2019-09-01 DOI:10.1109/ICVRIS.2019.00089

Wulun Wang, Guolin Sun

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引用次数: 3

摘要

二维卷积是一种广泛应用于图像处理和计算机视觉的算子。许多基于fpga的二维卷积器方案都集中在缓冲方案和计算复杂度上。本文从底层资源利用的角度对卷积单元进行了优化，提出了一种新的可重构二维卷积器。这种结构的目的是探究FPGA中DSP块的内部结构和资源，充分发挥其计算能力来完成卷积。该二维卷积器在不牺牲卷积等效性能的前提下，大大减少了逻辑资源的消耗。实验结果还表明，该结构对不同大小的图像和内核具有较强的适应性，适用于各种FPGA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。

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A DSP48-Based Reconfigurable 2-D Convolver on FPGA

Two-dimensional (2-D) convolution is a widely used operator exploited in image processing and computer vision. Many schemes of the FPGA-based 2-D convolver are focused on the buffer scheme and computational complexity. This paper optimizes the convolution unit from a unique perspective – underlying resource utilization, and presents a novel reconfigurable 2-D convolver. The purpose of this structure is to probe into the internal structure and resources of DSP blocks in FPGA and give full play to their computing power to complete convolution. This 2-D convolver can greatly reduce the consumption of logic resources without sacrificing the equivalent performance of convolution. The experiment results also demonstrate that this structure presents considerable adaptability to different sizes of images and kernels, making it suitable for various FPGA implementations.

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来源期刊

2019 International Conference on Virtual Reality and Intelligent Systems (ICVRIS)

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