Improving Data Integrity with Reversible Logic-based Error Detection and Correction Module on AHB-APB Bridge

Abstract

For electronic systems to operate reliably, especially those that transmit data at fast speeds, data integrity is essential. To find and fix faults in data transmission, some error detection and correction techniques are used which might include Hamming code, Reed-Solomon Code, Cyclic Redundancy Check (CRC), Turbo codes, and other advanced ECC methods. The requirement for a dependable and efficient error detection and correction module that can be integrated into current systems is essential. The proposed error detection and correction module promises to be a potential approach for maintaining data integrity in electronic systems. The module can be integrated into existing systems and delivers dependable error detection and correction capabilities while consuming less power and operating more efficiently. In this research work, we offer an error detection and correction module using reversible logic which has a reduced power consumption and also boosts efficiency which is integrated onto the AHB-APB interface to detect and rectify faults that may occur in data transmission. The proposed model contains a ECC module which is designed for single error correction, double error detection as well as double adjacent error correction (SEC-DED-DAEC). This module is then implemented onto the AHB - APB bridge in order to facilitate efficient communication between the connected devices and components.