High performance VLSI implementation of Context-based Adaptive Variable Length Coding (CAVLC) for H.264 encoder

R. Mukherjee, V. Mahajan, I. Chakrabarti, S. Sengupta
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Abstract

The video coding standard H.264 uses Context-based Adaptive Variable Length Coding (CAVLC) as one of its entropy encoding techniques. This paper proposes VLSI architecture for CAVLC algorithm. The designed hardware meets the required speed of H.264 without compromising the hardware cost. The CAVLC encoder works at a maximum clock frequency of 126 MHz when implemented in Xilinx 10.1i, Virtex-5 technology. The speed is quite appreciable when compared to other existing works. The implemented architecture meets the required rate for processing of HD-1080 format video sequence.
H.264编码器基于上下文的自适应变长编码(CAVLC)的高性能VLSI实现
视频编码标准H.264采用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CAVLC算法的VLSI架构。所设计的硬件在不影响硬件成本的情况下满足H.264所需的速度。当在Xilinx 10.1i, Virtex-5技术中实现时,CAVLC编码器的最大时钟频率为126 MHz。与其他现有工程相比,速度相当可观。所实现的体系结构满足HD-1080格式视频序列的处理速率要求。
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