100x Evolution of Video Codec Chips

Jinjia Zhou, Dajiang Zhou, S. Goto
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引用次数: 2

Abstract

In the past two decades, there has been tremendous progress in video compression technologies. Meanwhile, the use of these technologies, along with the ever-increasing demand for emerging ultra-high-definition applications greatly challenges the design of video codec chips, with the extensive requirements on both memory (DRAM) bandwidth and computation power. Besides, the high data dependencies of video coding algorithms restrict the degree of efficient hardware parallelism and pipelining. This paper describes the techniques to realize high-performance video codec chips. Firstly, we introduce various optimization techniques to solve the DRAM traffic issue. Furthermore, the techniques to reduce the computational complexity and alleviate data dependencies are described. The proposed techniques have been implemented in several ASIC video codecs. Experiments show that the DRAM traffic and DRAM access time are reduced by 80% and 90% respectively. The performance of the video codec chips can achieve 7680x4320@120fps, which is more than 100x better than previous works.
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视频编解码器芯片的100x进化
在过去的二十年里,视频压缩技术取得了巨大的进步。同时,随着新兴超高清应用需求的不断增长,这些技术的使用对视频编解码芯片的设计提出了极大的挑战,对内存(DRAM)带宽和计算能力提出了广泛的要求。此外,视频编码算法的高数据依赖性限制了硬件并行化和流水线化的有效程度。本文介绍了实现高性能视频编解码芯片的技术。首先,我们介绍了各种优化技术来解决DRAM流量问题。此外,还介绍了降低计算复杂度和减轻数据依赖性的技术。所提出的技术已经在几个ASIC视频编解码器中实现。实验表明,该算法使DRAM流量和DRAM访问时间分别减少了80%和90%。视频编解码芯片的性能可以达到7680x4320@120fps,比以前的作品提高100倍以上。
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