Title :
A computationally efficient high-quality cordic based DCT
Author :
Heyne, B. ; Sun, C.C. ; Goetze, J. ; Ruan, S.J.
Author_Institution :
Inf. Process. Lab., Univ. of Dortmund, Dortmund, Germany
Abstract :
In this paper a computationally efficient and high-quality preserving DCT architecture is presented. It is obtained by optimizing the Loeffler DCT based on the Cordic algorithm. The computational complexity is reduced from 11 multiply and 29 add operations (Loeffler DCT) to 38 add and 16 shift operations (which is similar to the complexity of the binDCT). The experimental results show that the proposed DCT algorithm not only reduces the computational complexity significantly, but also retains the good transformation quality of the Loeffler DCT. Therefore, the proposed Cordic based Loeffler DCT can be used in low-power and high-quality CODECs, especially in battery-based systems.
Keywords :
computational complexity; digital arithmetic; discrete cosine transforms; signal processing; CODEC; Cordic algorithm; Loeffler DCT architecture; battery-based system; binDCT; computational complexity; Abstracts; Algorithm design and analysis; Codecs; Computational efficiency; RNA;
Conference_Titel :
Signal Processing Conference, 2006 14th European
Conference_Location :
Florence
