Protection of “Fault Tolerant Parallel Filters†by Hamming code with Reversible logic
Journal Title: International Journal of Science Engineering and Advance Technology - Year 2016, Vol 4, Issue 11
Abstract
Advanced channels are generally utilized as a part of flag preparing and correspondence frameworks. Now and again, the dependability of those frameworks is basic, and blame tolerant channel executions are required. Throughout the years, numerous methods that endeavor the channels' structure and properties to accomplish adaptation to internal failure have been proposed. As innovation scales, it empowers more intricate frameworks that join many channels. In those unpredictable frameworks, it is regular that a portion of the channels work in parallel, for instance, by applying a similar channel to various info signals. . The complexity occurs while decoding the received encoded data. More often the transmitted data is subjected to the channel noise which influences the original signal. To overcome this problem many error correction codes (ECC’s) are introduced.Recently, a simple technique that exploits the presence of parallel filters to achieve fault tolerance has been presented In this paper we proposed an error detection and correction code called hamming code. The hamming code not only detects the errors as conventional codes but also it is able to correct the data. In addition the process is supported with reversible gate logic. This is the updated design methodology to reduce the power consumption and complexity. Reversible processing will likewise prompt to change in vitality productivity. Vitality effectiveness will on a very basic level influence the speed of circuits, for example, nano-circuits and in this way the speed of most figuring applications. To build the compactness of gadgets again reversible registering is required. This thought is summed up to demonstrate that parallel channels can be secured utilizing mistake revision codes (ECCs) in which every channel is what might as well be called a bit in a customary ECC. This new plan permits more productive security when the quantity of parallel channels is expansive. The system is assessed utilizing a contextual investigation of parallel limited motivation reaction channels demonstrating the viability as far as security and execution cost.
Authors and Affiliations
Sabbi Suryakala| M.Tech(student), VLSI & Embedded systems, Dept.of Electronics and Communication Engineering Kakinada Institute of Engineering and Technology for Women, Korangi,AP, INDIA, M. Nagendra Kumar| HOD & Associate professor, Dept.of Electronics and Communication Engineering Kakinada Institute of Engineering and Technology for Women, Korangi,AP, INDIA
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