Title :
Efficient VLSI designs for data transformation of tree-based codes
Author :
Mukherjee, Amar ; Ranganathan, N. ; Bassiouni, M.
Author_Institution :
Dept. of Comput. Sci., Univ. of Central Florida, Orlando, FL, USA
fDate :
3/1/1991 12:00:00 AM
Abstract :
A class of VLSI architectures for data transformation of tree-based codes is proposed, concentrating on transformation functions used for data compression and decompression. Two algorithms are presented: a sequential algorithm that generates the code bits serially one bit per machine cycle, and a parallel algorithm that generates the entire code bits of a symbol in one machine cycle. The algorithms use the principle of propagation of a token in a reverse binary tree constructed from the original codes. The design approaches are applicable to any binary codes, although the static Huffman code is used as an illustration. A hardware algorithm for generating adaptive Huffman codes is proposed, and a VLSI architecture for implementing the algorithm is described. The high speed of the algorithms ensures that data transformation is done on the fly, as data are being transferred from/to high-speed I/O communication devices
Keywords :
VLSI; codes; computerised signal processing; data compression; digital signal processing chips; parallel algorithms; parallel architectures; trees (mathematics); DSP; VLSI architectures; adaptive Huffman codes; binary codes; data compression; data decompression; data transformation; hardware algorithm; high-speed I/O communication devices; parallel algorithm; sequential algorithm; static Huffman code; transformation functions; tree-based codes; Binary codes; Binary trees; Costs; Data communication; Data compression; Hardware; Memory; Microelectronics; Parallel algorithms; Very large scale integration;
Journal_Title :
Circuits and Systems, IEEE Transactions on
