Systolic architectures for the computation of the discrete Hartley and the discrete cosine transforms based on prime factor decomposition
Title | Systolic architectures for the computation of the discrete Hartley and the discrete cosine transforms based on prime factor decomposition |
Publication Type | Journal Articles |
Year of Publication | 1990 |
Authors | Chakrabarti C, JaJa JF |
Journal | Computers, IEEE Transactions on |
Volume | 39 |
Issue | 11 |
Pagination | 1359 - 1368 |
Date Published | 1990/11// |
ISBN Number | 0018-9340 |
Keywords | architectures;, architectures;two-dimensional, arithmetic;discrete, arrays;fast, binary, cosine, decomposition;systolic, design;prime, factor, Fourier, Hartley;discrete, systolic, transforms;hardware, transforms;parallel |
Abstract | Two-dimensional systolic array implementations for computing the discrete Hartley transform (DHT) and the discrete cosine transform (DCT) when the transform size N is decomposable into mutually prime factors are proposed. The existing two-dimensional formulations for DHT and DCT are modified, and the corresponding algorithms are mapped into two-dimensional systolic arrays. The resulting architecture is fully pipelined with no control units. The hardware design is based on bit serial left to right MSB (most significant bit) to LSB (least significant bit) binary arithmetic |
DOI | 10.1109/12.61045 |