一种用于H.264/AVC运动补偿的高效存储器结构

ASAP 2010 - 21st IEEE International Conference on Application-specific Systems, Architectures and Processors Pub Date : 2010-07-07 DOI:10.1109/ASAP.2010.5540963

Chunshu Li, Kai Huang, Xiaolang Yan, Jiong Feng, De Ma, Haitong Ge

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引用次数: 4

摘要

在H.264/AVC解码系统中，运动补偿操作占用了大约80%的内存访问，成为系统的瓶颈。本文提出了一种用于H.264/AVC运动补偿的高效存储器结构，以极大地减少外部存储器访问带宽。在可接受的区域代价下，采用四层分层存储器组织方案探索相邻块的可重用性。为了提高系统的处理吞吐量，在运动补偿操作中采用了五种优化技术，使视频解码器在工作在110 MHz时能够实现高清1080p视频流的实时解码。与现有结构相比，该结构可将运动补偿过程中的内存带宽需求降低83.7%，在实时应用中表现更好。

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A high efficient memory architecture for H.264/AVC motion compensation

In H.264/AVC decoding system, motion compensation operation occupies about 80% of the total memory access and becomes the system bottleneck. In this paper, a high efficient memory architecture for H.264/AVC motion compensation is proposed to extremely reduce external memory access bandwidth. A four-level hierarchical memory organization scheme is utilized to explore the reusability of neighboring blocks at an acceptable area cost. To improve the system processing throughput, five optimization techniques are adopted in motion compensation operation, which enable video decoder to achieve real-time decoding of HD 1080p video stream when operating at 110 MHz. Compared with the existing works, the proposed architecture is able to reduce the memory bandwidth requirement in motion compensation progress by 83.7% and performs better in the real-time application.

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ASAP 2010 - 21st IEEE International Conference on Application-specific Systems, Architectures and Processors

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