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Line 6: A [[prediction]] of reliability is an important element in the process of selecting equipment for use by [[telecommunications]] [[service providers]] and other buyers of [[electronic equipment]], and it is essential during the design stage of engineering systems life cycle.<ref>EPSMA, “Guidelines to Understanding Reliability Predictions”, EPSMA, 2005</ref> Reliability is a measure of the [[frequency]] of equipment failures as a function of time. [[wikt:reliability\|Reliability]] has a major impact on maintenance and repair costs and on the continuity of service.<ref>Terry Donovan, Senior Systems Engineer Telcordia Technologies. Member of Optical Society of America, IEEE, "Automated Reliability Prediction, SR-332, Issue 3", January 2011; "Automated Reliability Prediction (ARPP), FD-ARPP-01, Issue 11", January 2011</ref> Every product has a [[failure rate]], λ which is the number of units failing per unit time. This failure rate changes throughout the life of the product. It is the [[manufacturer]]’s's aim to ensure that product in the “infant mortality period” does not get to the [[customer]]. This leaves a product with a useful life period during which failures occur randomly i.e., λ is constant, and finally a wear-out period, usually beyond the ~~products~~product's useful life, where λ is increasing. == Definition of reliability == Line 34: == Data-driven reliability predictions == Data-driven models for reliability prediction utilise data ~~aquired~~acquired from tests to failure on electronic components by establishing relationships between the different variables presented in the data. As such relationships can be complex, data-driven models often require computations in high dimensions, which means that a large dataset is needed to optimize the output of the model.<ref>{{cite conference \|last1=Ghrabli \|first1=Mehdi\|last2=Bouarroudj \|first2=Mounira \| author3=Chamoin, Ludovic\|author4=Aldea, Emanuel \|date=2024 \|title=Hybrid modeling for remaining useful life prediction in power module prognosis \|url=https://ieeexplore.ieee.org/document/10491493 \|conference=2024 25th International Conference on Thermal Mechanical and Multi-Physics Simulation and Experiments in Microelectronics and Microsystems (EuroSimE)\|___location=Catania, Italy \|publisher=IEEE\|doi=10.1109/EuroSimE60745.2024.10491493 }}</ref> == Physics-based reliability predictions ==

Reliability prediction for electronic components: Difference between revisions