International Journal of Electronics and Microcircuits
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P-ISSN: 2708-4493, E-ISSN: 2708-4507

2024, Vol. 4, Issue 2, Part A


Fault-tolerant microcircuit architectures for critical applications


Author(s): Michael Nkosi

Abstract: In an era dominated by high-performance computing, aerospace technology, and mission-critical systems, fault-tolerant microcircuit architectures have become indispensable. These architectures are specifically designed to ensure operational reliability, data integrity, and continued functionality under adverse conditions, such as radiation exposure, thermal stress, or component failures. This review comprehensively examines state-of-the-art fault-tolerant microcircuit architectures, exploring design strategies, error-detection and correction techniques, redundancy mechanisms, and advanced materials used in fabrication. The study highlights key fault-tolerance methodologies, including Triple Modular Redundancy (TMR), Error-Correcting Codes (ECC), and Self-Checking Circuits, while comparing their suitability across different application domains such as aerospace, medical devices, and automotive safety systems. Furthermore, emerging trends in fault-tolerance technologies, including AI-driven error correction and nanotechnology integration, are discussed to provide insights into future advancements. The review aims to serve as a valuable reference for researchers and engineers seeking to design resilient microcircuit architectures capable of performing reliably in high-stakes environments.

DOI: 10.22271/27084493.2024.v4.i2a.58

Pages: 56-61 | Views: 49 | Downloads: 21

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International Journal of Electronics and Microcircuits
How to cite this article:
Michael Nkosi. Fault-tolerant microcircuit architectures for critical applications. Int J Electron Microcircuits 2024;4(2):56-61. DOI: 10.22271/27084493.2024.v4.i2a.58
International Journal of Electronics and Microcircuits
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