H.264高清视频CAVLC解码器高效VLSI设计

R. Mukherjee, Anupam Banerjee, I. Chakrabarti, P. Dutta, A. Ray
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引用次数: 2

摘要

广泛使用的H.264视频编码标准采用了基于上下文的自适应变长编码(CAVLC)作为其熵编码技术之一。本文提出了实现CAVLC解码器的VLSI设计方案。本设计考虑了高清视频传输的速度要求。该结构有效地混合了基于树的方法和位并行可变长度解码(VLD),在不影响面积的情况下提高了速度。该设计能够在131 MHz时钟频率下以30fps的帧率处理高清帧(1080p格式)。面积的有效利用得到了重视。所实现的体系结构可以与H.264的其他块集成,形成完整的视频编解码器。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Efficient VLSI design of CAVLC decoder of H.264 for HD videos
The widely used H.264 video coding standard has adopted Context-based Adaptive Variable Length Coding (CAVLC) as one of its techniques for entropy encoding. In this work, VLSI design for implementing CAVLC decoder has been proposed. The design considers the speed requirements for transmission of HD videos. The architecture efficiently mixes both tree-based method and bit-parallel variable length decoding (VLD) which enhances the speed without compromising the area. The design is able to process HD frames (1080p format) at a frame rate of 30fps while working at 131 MHz clock frequency. Efficient utilization of area has been taken care off. The implemented architecture can be integrated with other blocks of H.264 to form a complete video codec.
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