AUTHOR AND AFFILIATION |
M.N. MURTY |
KEYWORDS: |
Discrete sine transform; Discrete cosine transform; Systolic architecture. |
Issue Date: |
April 2013 |
Pages: |
|
ISSN: |
2319-8044 (Online) – 2231-346X (Print) |
Source: |
Vol.25 – No.1 |
Click Here Download PDF |
|
DOI: |
jusps-A |
ABSTRACT:
In this paper, two algorithms for realizing two-dimensional discrete sine transform (2-D DST) are proposed. Basing on these two algorithms, two systolic architectures are presented for implementing 2- D DST of even N. The systolic array using the algorithm-1 is a bilayer structure, which does not require any hardware/time for the transposition of the intermediate results.
Copy the following to cite this Article:
M.N. MURTY, “Architectures for Realization of Two-Dimensional Discrete Sine Transform”, Journal of Ultra Scientist of Physical Sciences, Volume 25, Issue 1, Page Number , 2016
Copy the following to cite this URL:
M.N. MURTY, “Architectures for Realization of Two-Dimensional Discrete Sine Transform”, Journal of Ultra Scientist of Physical Sciences, Volume 25, Issue 1, Page Number , 2016
Available from: http://www.ultrascientist.org/paper/279/
In this paper, two algorithms for realizing two-dimensional discrete sine transform (2-D DST) are proposed. Basing on these two algorithms, two systolic architectures are presented for implementing 2- D DST of even N. The systolic array using the algorithm-1 is a bilayer structure, which does not require any hardware/time for the transposition of the intermediate results.
