Implementation of parallel-pipeline H.265 CABAC decoder on FPGA

2017 First International Conference on Embedded & Distributed Systems (EDiS) Pub Date : 2017-12-01 DOI:10.1109/EDIS.2017.8284037

Menarsri Wahiba, S. Abdellah, B. Aichouche

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引用次数: 2

Abstract

Ultra High Definition Television (UHDTV) imposes extremely high throughput requirement on video codec's based on High Efficiency Video Coding (H.265/HEVC). Context-based adaptive binary arithmetic coding (CABAC) is specified as the single operation mode for entropy coding in HEVC. Parallel and pipeline processing can be used to increase the throughput for higher performance and decrease the path delay. This paper proposes a pipeline and parallel CABAC decoder architecture adaptive to HEVC syntax elements, In order to reduce the critical path delay, we stored the RangeLps LUT and LZ LUT in the same memory and we exploit different techniques of optimization. The implementation can process 1,5 bins/cycle when operate at 133,31 MHz and improved high throughput of 200Mbin/s for parallel decoder and process 1.49 bins/cycle when operate at 134.2 MHz with throughput of 200Mbin/s for pipeline decoder. The critical path delay is optimized compared to the serial process and the architecture is coded using VHDL language, simulated and synthesized using Xilinx tools with virtex4 xc4vsx25-12ff668 card.

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并行流水线H.265 CABAC解码器在FPGA上的实现

超高清电视(UHDTV)对基于高效视频编码(H.265/HEVC)的视频编解码器提出了极高的吞吐量要求。基于上下文的自适应二进制算术编码(CABAC)被指定为HEVC中熵编码的单一操作模式。并行和流水线处理可用于提高吞吐量以获得更高的性能并减少路径延迟。本文提出了一种适应HEVC语法元素的流水线并行CABAC解码器架构，为了减少关键路径延迟，我们将RangeLps LUT和LZ LUT存储在同一存储器中，并采用不同的优化技术。该实现工作在133,31 MHz时可处理1,5个bin/ cycle，提高了并行解码器200Mbin/s的高吞吐量;工作在134.2 MHz时可处理1.49个bin/ cycle，提高了流水线解码器200Mbin/s的吞吐量。与串行过程相比，对关键路径延迟进行了优化，并采用VHDL语言对体系结构进行了编码，利用Xilinx工具在virtex4 xc4vsx25-12ff668卡上进行了仿真和合成。

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2017 First International Conference on Embedded & Distributed Systems (EDiS)

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