定点零系数感知快速IQ-IDCT算法

2011 IEEE International Conference on Consumer Electronics -Berlin (ICCE-Berlin) Pub Date : 2011-09-29 DOI:10.1109/ICCE-BERLIN.2011.6031890

Kihoon Lee, Kiho Choi, E. Jang

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引用次数: 1

摘要

为了降低离散余弦变换的计算复杂度，解决编码器和解码器之间解码数据不匹配的问题，本文提出了一种定点零系数感知的快速IQ-IDCT算法。本文的主要主题是基于零系数感知设计，该设计通过避免零DCT系数带来的不必要计算，降低了逆DCT算法的计算复杂度。我们将零系数感知设计扩展到反量化阶段，避免了零量化DCT系数的计算，进一步降低了反量化和反DCT的计算复杂度。为了最大限度地降低计算复杂度并保持理想IQ-IDCT过程的精确精度，该方法对IQ-IDCT的所有计算过程采用基于精确二进项查找表的不动点逼近格式。因此，与定点8×8逆离散余弦变换标准相比，我们实现了平均3.1倍的加速。

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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Fixed-point zero coefficient-aware fast IQ-IDCT algorithm

In this paper, we propose a fixed-point zero coefficient-aware fast IQ-IDCT algorithm to reduce the computational complexity of discrete cosine transform and cope with mismatch of decoded data in between encoder and decoder. The major theme of this paper is based on zero coefficient-aware design, which reduces the computational complexity of inverse DCT algorithms by avoiding unnecessary computations caused by zero DCT coefficients. We extended the zero coefficient-aware design to the inverse quantization stage to farther reduce the computational complexity of inverse quantization and inverse DCT by avoiding computations with zero quantized DCT coefficients. In order to maximize the computational complexity reduction as well as to preserve precision accuracy of the ideal IQ-IDCT process, the proposed method employs the fixed-point approximation scheme on all computational procedures of the IQ-IDCT based on table-lookup operations with accurate dyadic terms. As a result, we have achieved a speedup by factor of 3.1 on average compared to the fixed-point 8×8 inverse discrete cosine transform standard.

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来源期刊

2011 IEEE International Conference on Consumer Electronics -Berlin (ICCE-Berlin)

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