A 249Mpixel/s HEVC video-decoder chip for Quad Full HD applications

2013 IEEE International Solid-State Circuits Conference Digest of Technical Papers Pub Date : 2013-03-28 DOI:10.1109/ISSCC.2013.6487682

Chao-Tsung Huang, M. Tikekar, C. Juvekar, V. Sze, A. Chandrakasan

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引用次数: 33

Abstract

The latest video coding standard High Efficiency Video Coding (HEVC) [1] provides 50% improvement in coding efficiency compared to H.264/AVC, to meet the rising demand for video streaming, better video quality and higher resolutions. The coding gain is achieved using more complex tools such as larger and variable-size coding units (CU) in a hierarchical structure, larger transforms and longer interpolation filters. This paper presents an integrated circuit which supports Quad Full HD (QFHD, 3840×2160) video decoding for the HEVC draft standard. It addresses new design challenges for HEVC (“H.265”) with three primary contributions: 1) a system pipelining scheme which adapts to the variable-size largest coding unit (LCU) and provides a two-stage sub-pipeline for memory optimization; 2) unified processing engines to address the hierarchical coding structure and many prediction and transform block sizes in area-efficient ways; 3) a motion compensation (MC) cache which reduces DRAM bandwidth for the LCU and meets the high throughput requirements which are due to the long filters.

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一个249Mpixel/s HEVC视频解码器芯片，用于四元全高清应用

最新的视频编码标准HEVC (High Efficiency video coding)[1]比H.264/AVC的编码效率提高了50%，以满足日益增长的视频流需求、更好的视频质量和更高的分辨率。使用更复杂的工具实现编码增益，例如在分层结构中使用更大和可变大小的编码单元(CU)，更大的变换和更长的插值滤波器。本文提出了一种支持四元全高清(QFHD, 3840×2160)视频解码的HEVC草案标准集成电路。它通过三个主要贡献解决了HEVC(“H.265”)的新设计挑战:1)一个适应可变大小最大编码单元(LCU)的系统流水线方案，并为内存优化提供了一个两阶段的子流水线;2)统一的处理引擎，以解决分层编码结构和许多预测和转换块大小的面积有效的方式;3)运动补偿(MC)缓存，它减少了LCU的DRAM带宽，并满足了由于长滤波器而产生的高吞吐量要求。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2013 IEEE International Solid-State Circuits Conference Digest of Technical Papers

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