Low cost high throughput pipelined architecture of 2-D 8×8 integer transforms for H.264/AVC

Meeturani Sharma; Honey Durga Tiwari; Yong Beom Cho

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Low cost high throughput pipelined architecture of 2-D 8×8 integer transforms for H.264/AVC

机译：适用于H.264 / AVC的2D 8×8整数转换的低成本高吞吐量流水线架构

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In this article, we present the implementation of high throughput two-dimensional (2-D) 8×8 forward and inverse integer DCT transform for H.264. Using matrix decomposition and matrix operation, such as the Kronecker product and direct sum, the forward and inverse integer transform can be represented using simple addition operations. The dual clocked pipelined structure of the proposed implementation uses non-floating point adders and does not require any transpose memory. Hardware synthesis shows that the maximum operating frequency of the proposed pipelined architecture is 1.31 GHz, which achieves 21.05 Gpixels/s throughput rate with the hardware cost of 42932 gates. High throughput and low hardware makes the proposed design useful for real time H.264/AVC high definition processing.

机译：在本文中，我们介绍了针对H.264的高吞吐量二维（2-D）8×8正向和反向整数DCT变换的实现。使用矩阵分解和矩阵运算（例如Kronecker乘积和直接和），可以使用简单的加法运算来表示正整数和逆整数变换。所提出的实现方式的双时钟流水线结构使用非浮点加法器，并且不需要任何转置存储器。硬件综合表明，所提出的流水线架构的最大工作频率为1.31 GHz，以42932门的硬件成本实现了21.05 Gpixels / s的吞吐速率。高吞吐量和低硬件使所提出的设计对于实时H.264 / AVC高清晰度处理很有用。

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来源
《International journal of electronics》 |2013年第9期|1033-1045|共13页
作者
Meeturani Sharma; Honey Durga Tiwari; Yong Beom Cho;
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作者单位

Department of Electronic Engineering, Konkuk University, 1 Hwayang-dong, Gwangjin-gu, Seoul 143-701, South Korea;

Department of Electronic Engineering, Konkuk University, 1 Hwayang-dong, Gwangjin-gu, Seoul 143-701, South Korea;

Department of Electronic Engineering, Konkuk University, 1 Hwayang-dong, Gwangjin-gu, Seoul 143-701, South Korea;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
DCT; dual clock architecture; H.264/AVC; IDCT; integer transform;

机译：DCT;双时钟架构;H.264 / AVC;IDCT;整数变换;

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1. Implementations of Low-Cost Hardware Sharing Architectures for Fast 8 x 8 and 4 x 4 Integer Transforms in H.264/AVC [J] . Chih-Peng FAN, Yu-Lian LIN IEICE Transactions on Fundamentals of Electronics, Communications and Computer Sciences . 2007,第2期

机译：H.264 / AVC中用于快速8 x 8和4 x 4整数转换的低成本硬件共享架构的实现
2. Efficient Low-Cost Sharing Design of Fast 1-D Inverse Integer Transform Algorithms for H.264/AVC and VC-1 [J] . Fan C.-P., Su G.-A. IEEE signal processing letters . 2008,第1期

机译：H.264 / AVC和VC-1的快速一维逆整数变换算法的低成本共享设计
3. Efficient Low-Cost Sharing Design of Fast 1-D Inverse Integer Transform Algorithms for H.264/AVC and VC-1 [J] . Chih-Peng Fan, Guo-An Su IEEE signal processing letters . 2008,第期

机译：H.264 / AVC和VC-1的快速一维逆整数变换算法的低成本共享设计
4. A low-cost and high-throughput architecture for H.264/AVC integer transform by using four computation streams [C] . Chen Yuan-Ho, Chang Tsin-Yuan, Lu Chih-Wen 2011 13th International Symposium on Integrated Circuits . 2011

机译：通过使用四个计算流的H.264 / AVC整数转换的低成本和高吞吐量架构
5. Implementation and performance analysis of 2-D order 16 integer transforms in H.264/AVC and AVS-video for high defenition video coding. [D] . Peringassery Krishnan, Madhu. 2010

机译：H.264 / AVC和AVS视频中二维二维16整数转换的实现和性能分析，用于高清晰度视频编码。
6. A simple cost-effective high-throughput image analysis pipeline improves genomic prediction accuracy for days to maturity in wheat [O] . Morteza Shabannejad, Mohammad-Reza Bihamta, Eslam Majidi-Hervan, 2020

机译：一种简单经济高效的高吞吐量图像分析管道可以提高小麦成熟的基因组预测精度
7. High Throughput and Low Cost Architecture for the Forward Quantization of the H.264/AVC Video Compression Standard [O] . Felipe Sampaio, Daniel Palomino, Robson Dornelles, 2010

机译：高吞吐量和低成本架构，用于高速量化H.264 / AVC视频压缩标准

Low cost high throughput pipelined architecture of 2-D 8×8 integer transforms for H.264/AVC

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