基于在线CORDIC的二维IDCT的分布式算法实现

Proceedings of the Sixth International Symposium on Signal Processing and its Applications (Cat.No.01EX467) Pub Date : 1900-01-01 DOI:10.1109/ISSPA.2001.949836

Yi Yang, Chunyan Wang, M. Ahmad, M. Swamy

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引用次数: 6

摘要

本文提出了一种基于改进的在线CORDIC算法的二维(2-D)反离散余弦变换(IDCT)核的高效VLSI结构。为了降低硬件复杂度并提供良好的性能，该设计基于行-列分解方法和分布式算法(DA)。通过使用CORDIC方法重新制定1-D IDCT功能，所提出的设计比不使用CORDIC的传统基于数据的IDCT减少了约60%的ROM。在我们的体系结构中，采用了在线算法，进一步减小了面积，提高了计算速度。核心在8/spl倍/8像素的块上运行，输入和输出分别具有12位和8位精度。采用0.35-/spl μ m CMOS工艺合成了该电路。仿真结果表明，该IDCT核心工作频率为150 MHz，吞吐量为60 Mpixel/s，满足H.26x标准的要求。

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An on-line CORDIC based 2-D IDCT implementation using distributed arithmetic

This paper presents a cost-effective VLSI architecture for a two-dimensional (2-D) inverse discrete cosine transform (IDCT) core based on a modified on-line CORDIC algorithm. In order to have a low hardware complexity and to provide a good performance, the proposed design is based on the row-column decomposition approach and distributed arithmetic (DA). By reformulating the 1-D IDCT functions using the CORDIC approach, the proposed design requires about 60% less ROM than the conventional DA-based IDCT without using CORDIC. In our architecture the on-line algorithm is used to further reduce the area and to enhance the computation speed. The core operates on blocks of 8/spl times/8 pixels, with 12-bit and 8-bit precision for inputs and outputs, respectively. The proposed design has been synthesized by using 0.35-/spl mu/m CMOS technology. The simulation results show that the core for IDCT can run at 150 MHz with 60 Mpixel/s throughput, while meeting the requirement of the H.26x standard.

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Proceedings of the Sixth International Symposium on Signal Processing and its Applications (Cat.No.01EX467)

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