Title :
High-throughput VLSI architectures for the 1-D and 2-D discrete cosine transforms
Author :
Wang, Chin-Liang ; Chen, Chang-Yu
Author_Institution :
Inst. of Electr. Eng., Nat. Tsing Hua Univ., Hsinchu, Taiwan
fDate :
2/1/1995 12:00:00 AM
Abstract :
This paper presents a linear systolic array and a 2-D systolic array for computing the 1-D N-point and 2-D N×N-point discrete cosine transforms (DCT´s), respectively. The 1-D DCT array is constructed by using the Chebyshev polynomial to generate the transform kernel values recursively. The 2-D DCT array is based on the row-column decomposition but involves no matrix transposition problems, where the row and column transforms are evaluated similarly to the 1-D DCT. These architectures are highly regular, modular, and thus very suitable for VLSI implementation. Also, each of them has an efficiency of 100% and a throughput rate of one transform per N cycles. As compared to existing related systems, the proposed 1-D DCT array achieves the same time complexity with either much fewer I/O channels or a higher degree of regularity, while the proposed 2-D DCT array possesses better time complexity and regularity with an increase in chip area and I/O channels
Keywords :
VLSI; computational complexity; data compression; discrete cosine transforms; polynomials; systolic arrays; video coding; 1-D discrete cosine transforms; 2-D discrete cosine transforms; 2-D systolic array; Chebyshev polynomial; I/O channels; chip area; efficiency; high-throughput VLSI architectures; linear systolic array; regularity; row-column decomposition; throughput rate; time complexity; transform kernel values; Chebyshev approximation; Computer architecture; Discrete cosine transforms; Discrete transforms; Kernel; Matrix decomposition; Polynomials; Systolic arrays; Throughput; Very large scale integration;
Journal_Title :
Circuits and Systems for Video Technology, IEEE Transactions on
