Yao-Chang Yang, Chien-Chang Lin, Hsui-Cheng Chang, Ching-Lung Su, Jiun-In Guo
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引用次数: 17
摘要
本文提出了MPEG-4 AVC/H.264中基于上下文的自适应二进制算术解码(CABAD)的高吞吐量VLSI架构设计。为了加速CABAD中固有的顺序操作,我们提出了一种基于缓存寄存器的分段上下文表的前瞻性码字解析技术,从而打破了处理瓶颈,平均减少了53%的周期计数。该设计基于0.18 μ m CMOS技术,硬件成本降低40%,同时数据吞吐量达到现有设计的1.6倍,优于现有设计
A High Throughput VLSI Architecture Design for H.264 Context-Based Adaptive Binary Arithmetic Decoding with Look Ahead Parsing
In this paper we present a high throughput VLSI architecture design for context-based adaptive binary arithmetic decoding (CABAD) in MPEG-4 AVC/H.264. To speed-up the inherent sequential operations in CABAD, we break down the processing bottleneck by proposing a look-ahead codeword parsing technique on the segmenting context tables with cache registers, which averagely reduces up to 53% of cycle count. Based on a 0.18 mum CMOS technology, the proposed design outperforms the existing design by both reducing 40% of hardware cost and achieving about 1.6 times data throughput at the same time
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