Methods to Increase Fault Tolerance of Combinational Integrated Microcircuits by Redundancy Coding

Methods to Increase Fault Tolerance of Combinational Integrated Microcircuits by Redundancy Coding

Increasing the operating reliability of integrated microcircuits (IMC) remains, on the whole, an unsolved design problem. An important aspect of this problem is the stability of the circuits under transient faults (malfunctions) in large integrated circuits. Faults appear due to various disturbances...

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Veröffentlicht in:Computational mathematics and modeling 2017-07, Vol.28 (3), p.400-406
Hauptverfasser: Gavrilov, S. V., Gurov, S. I., Zhukova, T. D., Rukhlov, V. S., Ryzhova, D. I., Tel’pukhov, D. V.
Format: Artikel
Sprache:eng
Schlagworte:
Applications of Mathematics
Computational Mathematics and Numerical Analysis
Electric potential
Error analysis
Fault tolerance
Faults
Integrated circuits
Malfunctions
Mathematical Modeling and Industrial Mathematics
Mathematics
Mathematics and Statistics
Optimization
Redundancy
Reliability
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Zusammenfassung:Increasing the operating reliability of integrated microcircuits (IMC) remains, on the whole, an unsolved design problem. An important aspect of this problem is the stability of the circuits under transient faults (malfunctions) in large integrated circuits. Faults appear due to various disturbances: radiation, supply voltage jumps, signal degradation over time, etc. Investigations show that the probability of an error due to these factors may vary between very wide limits: from less than 0.1% for large circuits and up to 30% for very small circuits. In this article, we consider various methods of enhancing the fault tolerance of combinational circuits and also assess the effect of a single fault and a stuck-at fault on circuit operation for the case of combinational circuits from the ISCAS’85 set.
ISSN:1046-283X
1573-837X
DOI:10.1007/s10598-017-9372-3