基于蜂窝宽带引擎架构的可扩展并行H.264解码器

Michael A. Baker, Pravin Dalale, Karam S. Chatha, S. Vrudhula
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引用次数: 22

摘要

H.264视频编解码器提供了出色的视频压缩,但与以前的标准相比,计算复杂性大幅增加。虽然在H.264中利用并行性是出了名的困难,但成功的并行实现保证了显著的性能提升,特别是当高清晰度(HD)内容渗透到越来越多的应用程序中时。我们提出了一种高度可扩展的并行化方案,该方案基于IBM的多核蜂窝宽带引擎(CBE)和FFmpeg的开源H.264视频解码器。我们解决了资源限制和复杂的数据依赖,为编码流的可并行部分实现了近乎理想的解码加速。我们的解码器比以前的实现实现了更好的性能,并且对于大格式视频具有深度可扩展性。我们将讨论架构和编解码器特定的性能优化、代码覆盖、数据结构、内存访问调度和向量化。
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A scalable parallel H.264 decoder on the cell broadband engine architecture
The H.264 video codec provides exceptional video compression while imposing dramatic increases in computational complexity over previous standards. While exploiting parallelism in H.264 is notoriously difficult, successful parallel implementations promise substantial performance gains, particularly as High Definition (HD) content penetrates a widening variety of applications. We present a highly scalable parallelization scheme implemented on IBM's multicore Cell Broadband Engine (CBE) and based on FFmpeg's open source H.264 video decoder. We address resource limitations and complex data dependencies to achieve nearly ideal decoding speedup for the parallelizable portion of the encoded stream. Our decoder achieves better performance than previous implementations, and is deeply scalable for large format video. We discuss architecture and codec specific performance optimizations, code overlays, data structures, memory access scheduling, and vectorization.
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