Forward Computations for Context-Adaptive Variable-Length Coding Design

Hsia S.-C.; Liao W.-H.

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Forward Computations for Context-Adaptive Variable-Length Coding Design

机译：上下文自适应可变长度编码设计的前向计算

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This brief presents an innovative high-speed context-adaptive variable-length encoder. First, a direct forward algorithm rather than backward tracking is proposed to compute the coding parameters. The forward computation without data reordering can shorten the latency time and the processing cycle. Based on the algorithm, the real-time chip is designed with a parallel structure and pipelined control, which can encode one codeword per cycle. The maximum processing time for one block is the number of nonzero coefficients (NC) $+$4 cycles. The output bit rate can achieve 125M/s when implemented with 0.18- $muhbox{m}$ CMOS technology. The chip occupies about 15k gates, and the power dissipation is about 5.38 mW.

机译：本简介介绍了一种创新的高速上下文自适应可变长度编码器。首先，提出了一种直接前向算法而不是后向跟踪算法来计算编码参数。无需数据重新排序的正向计算可以缩短等待时间和处理周期。基于该算法，实时芯片采用并行结构和流水线控制设计，每个周期可以编码一个码字。一个块的最大处理时间是非零系数（NC）$ + $ 4循环的数量。使用0.18- $ muhbox {m} $ CMOS技术实现时，输出比特率可以达到125M / s。芯片占用约15,000个门，功耗约为5.38 mW。

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《Circuits and Systems II: Express Briefs, IEEE Transactions on》 |2010年第8期|p.637-641|共5页
作者
Hsia S.-C.; Liao W.-H.;
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作者单位

Department of Computer and Communication Engineering, Department of Electronics Engineering, National Kaohsiung First University of Science and Technology, Kaohsiung, Taiwan;

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正文语种 eng
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Context-adaptive variable-length coding (CAVLC); H.264/advanced video coding (AVC); VLSI architecture; entropy coding;

机译：上下文自适应可变长度编码（CAVLC）;H.264 /高级视频编码（AVC）;VLSI架构;熵编码;

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Forward Computations for Context-Adaptive Variable-Length Coding Design

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