硬件实现为H.264/AVC下VBSME的新设计

2014 International Conference on Control, Decision and Information Technologies (CoDIT) Pub Date : 2014-12-29 DOI:10.1109/CoDIT.2014.6996974

Amira Yahi, K. Messaoudi, S. Toumi, E. Bourennane

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引用次数: 2

摘要

视频编码标准H.264/AVC中的运动估计(ME)采用可变块大小(VBSME)，压缩率高，但与以前的编码标准相比，计算量要大得多。为了克服这种复杂性，本文描述了VHDL的设计和VBSME的实现。该设计基于将每个16×16宏块划分为16个4×4不重叠的子块。这些子块的运动估计是并行进行的，以便使用它们形成标准规定的41个不同大小的子块。因此，这种新设计考虑了低延迟和高吞吐量，在Xilinx-Vittex5-LX110T FPGA上的最大频率超过277 MHz。

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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Hardware implementation for a new design of the VBSME Used in H.264/AVC

Motion estimation (ME) in video coding standard H.264/AVC adopts variable block size (VBSME) which provides high compression rates but requires much higher computation compared to the previous coding standards. To overcome this complexity, this paper describes a VHDL design and an implementation of VBSME. The design is based on partitioning each 16×16 macroblock into sixteen 4×4 non overlapping subblocks. The motion estimation of these subblocks is performed in parallel in order to use them to form the 41 subblocks of different sizes specified by the standard. As a result, this new design has in consideration low latency and high throughput with a maximum frequency which reaches over than 277 MHz on a Xilinx-Vittex5-LX110T FPGA.

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2014 International Conference on Control, Decision and Information Technologies (CoDIT)

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