HEVC编码器中运动估计的高吞吐量硬件实现

2015 IEEE 58th International Midwest Symposium on Circuits and Systems (MWSCAS) Pub Date : 2015-10-01 DOI:10.1109/MWSCAS.2015.7282040

A. Medhat, A. Shalaby, M. Sayed

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引用次数: 17

摘要

提出了一种用于高效视频编码(HEVC)编码器的高度并行运动估计结构。所提出的架构有16个处理单元并行运行，以计算所有可能的可变预测块大小的绝对差值之和。因此，它计算每个分区的比特成本，以便根据比特成本找到最佳匹配候选。建议的单元处理从4×4到64×64的块大小。采用台积电65nm CMOS技术对所提出的架构进行了原型、仿真和合成。在720 MHz时钟频率下，该架构使用全搜索算法以30 fps的速度处理2K (1920×1080)分辨率，搜索范围为±27 (55×55)像素。此外，所提出的架构是一种灵活的架构，可以与不同的搜索算法一起使用，以处理更高的分辨率，例如4K (3840×2160)分辨率和30fps速率。据我们所知，所提出的架构是HEVC文献中第一个ASIC运动估计架构之一。

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High-throughput hardware implementation for motion estimation in HEVC encoder

This paper presents a highly parallel motion estimation architecture for High Efficiency Video Coding (HEVC) encoder. The proposed architecture has 16 processing units operating in parallel to calculate the sum of absolute difference values of all possible variable prediction block sizes. Hence, it calculates the bit cost regarding every partition in order to find the best matching candidate in terms of bit cost. The proposed unit processes block sizes from 4×4 up to 64×64. The proposed architecture was prototyped, simulated and synthesized using 65nm TSMC CMOS technology. At 720 MHz clock frequency, the proposed architecture processes 2K (1920×1080) resolution at 30 fps with ±27 (55×55) pixel search range using full search algorithm. Moreover, the proposed architecture is a flexible one and it can be used with different search algorithms to process higher resolutions such as 4K (3840×2160) resolution with 30 fps rate. To the best of our knowledge, the proposed architecture is one of the first ASIC motion estimation architectures in the literature for HEVC.

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2015 IEEE 58th International Midwest Symposium on Circuits and Systems (MWSCAS)

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