![]() Analysis of different techniques used for fault tolerance. IEEE Transactions on Parallel and Distributed Systems, 19(12), 1628–1641. Algorithm-based fault tolerance for fail-stop failures. IEEE transactions on parallel and distributed systems, 24(4), 701–715.Ĭhen, Z., & Dongarra, J. Fault tolerance in distributed systems using fused data structures. ![]() IEEE Transactions on Computers, 100(12), 623–631.īalasubramanian, B., & Garg, V. A triple modular redundancy technique providing multiple-bit error protection without using extra redundancy. IEEE Transactions on Computers, 61(3), 323–336. NiGlobal (2015) Redundant Systems Basic Concepts – National Instruments. Encyclopedia of systems and control, 422–428. Dependable computing: From concepts to design diversity. In our paper, we propose a system using the technique of triple modular redundancy to effectively mask and mitigate the detected faults to provide uninterrupted usage of the entire operating system.Īvizienis, A., & Laprie, J. Although it has the highest form of reliability, it has not been used to create a fault tolerant system. This paper aims to provide control over the detected fault by using the antique technique of triple modular redundancy (TMR) which is a type of N-modular redundancy techniques. The commonly used techniques for controlling and isolating faults in the system are replication and check pointing. In order to avoid this type of failure, we need to remove or control the fault. A fault leads to a single or multiple failure in the system. A fault is a violation of the existing system. One of the many unavoidable concerns is the occurrence of a fault in the system. ![]() Operating Systems have been widely expanding in terms of capabilities and resources.
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