Title :
A parallel 3D DCT architecture for the compression of integral 3D images
Author :
Aggoun, A. ; Jalloh, I.
Author_Institution :
3D Imaging Technol. Group, De Montfort Univ., Leicester, UK
fDate :
6/23/1905 12:00:00 AM
Abstract :
A new VLSI architecture for the computation of the three-dimensional discrete cosine transform (3D DCT) for compression of integral 3D images is proposed. The 3D DCT is decomposed into 1D DCTs computed in each of the three dimensions. The architecture is a parallel structure which computes an N×N×N-point DCT by computing N N×N 2D DCTs in parallel and feeding each of the computed 2D DCT coefficients into a final ID DCT block. The architecture uses 5N2 /2 multiplier-accumulators to evaluate N×N×N-point DCT´s at a rate of N complete 3D DCT coefficients per clock cycles, where N is even. The architecture is regular and modular and as such it is suitable for VLSI implementation. The proposed architecture has a better area-time performance than previously reported 3D DCT architectures. Also, the proposed architecture reduces the initial delay by a factor of N
Keywords :
VLSI; discrete cosine transforms; image coding; image processing equipment; multiplying circuits; parallel architectures; 1D DCT block; 3D DCT; 3D DCT architectures; 3D DCT decomposition; 3D discrete cosine transform; DCT; VLSI architecture; VLSI implementation; area-time performance; computed 2D DCT coefficients; initial delay; integral 3D image compression; multiplier-accumulators; parallel 3D DCT architecture; parallel architecture; regular modular; regular modular architecture; Assembly; Computer architecture; Concurrent computing; Delay; Discrete cosine transforms; Image coding; Lenses; Microoptics; Optical imaging; Very large scale integration;
Conference_Titel :
Electronics, Circuits and Systems, 2001. ICECS 2001. The 8th IEEE International Conference on
Print_ISBN :
0-7803-7057-0
DOI :
10.1109/ICECS.2001.957722
