International Journal of Scientific Engineering and Technology

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Design and Analysis of Algorithm Based Error Detect-Corrections of Parallel FFT


Affiliations
1 ECE Department, (VLSI Design), JCT College of Engineering and Technolgy, India
 

The overture of the work is principally focused on Error Corrections Code (ECC) for the Parallel Transforms. And this error corrections code doesn’t handle the more designing area of the actual design. To detect and correct errors with the help of algorithmic properties such as Algorithm Based Fault Tolerance (ABFT) techniques makes the avoidance of soft errors. By using algorithm based fault tolerance technique, the communication systems and signal processing systems, can be implemented with fast Fourier transforms (FFT) which are considered to be the basic building blocks of all signal processing systems. The proposed method can able detect multiple errors and multiple error corrections also possible upon best-case analysis.

Keywords

ECC, ABFT, FFT, SPS.
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  • Design and Analysis of Algorithm Based Error Detect-Corrections of Parallel FFT

Abstract Views: 145  |  PDF Views: 0

Authors

L. Jessy
ECE Department, (VLSI Design), JCT College of Engineering and Technolgy, India
K. Nithya
ECE Department, (VLSI Design), JCT College of Engineering and Technolgy, India

Abstract


The overture of the work is principally focused on Error Corrections Code (ECC) for the Parallel Transforms. And this error corrections code doesn’t handle the more designing area of the actual design. To detect and correct errors with the help of algorithmic properties such as Algorithm Based Fault Tolerance (ABFT) techniques makes the avoidance of soft errors. By using algorithm based fault tolerance technique, the communication systems and signal processing systems, can be implemented with fast Fourier transforms (FFT) which are considered to be the basic building blocks of all signal processing systems. The proposed method can able detect multiple errors and multiple error corrections also possible upon best-case analysis.

Keywords


ECC, ABFT, FFT, SPS.