Title :
VLSI parallel and distributed processing algorithms for multidimensional discrete cosine transforms
Author_Institution :
Minist. of Commun., Chungli, Taiwan
Abstract :
A VLSI parallel and distributed computation algorithm has been proposed and mapped onto a VLSI architecture for a 1-D discrete cosine transform (DCT) involving the symmetry property. In this 1-D DCT processor architecture, there are (log22N) DCT processor units (PUs) required for computation of a frame of N-point data with a time complexity of O(N). Further, a proposed 2-D DCT processor architecture requires (M(log2 2N)+N(log22M)) PUs with a time complexity of O(M+N). An optimal architecture for computation of a multidimensional DCT has been proposed. The 3-D DCT processor architecture requires NL log22M+ LM log22N+MN log22L PUs with a time complexity of O(M+N+L). All architectures can be controlled by firmware; hence they are more flexible, efficient, and fault-tolerant and therefore very suitable for VLSI implementation
Keywords :
VLSI; computational complexity; distributed processing; parallel algorithms; transforms; VLSI parallel algorithms; distributed processing algorithms; fault-tolerant; firmware; multidimensional discrete cosine transforms; symmetry property; time complexity; Computer architecture; Concurrent computing; Discrete cosine transforms; Discrete transforms; Distributed computing; Distributed processing; Kernel; Linear predictive coding; Multidimensional systems; Very large scale integration;
Conference_Titel :
Databases, Parallel Architectures and Their Applications,. PARBASE-90, International Conference on
Conference_Location :
Miami Beach, FL
Print_ISBN :
0-8186-2035-8
DOI :
10.1109/PARBSE.1990.77176
