As the semiconductor industry continues its relentless march towards smaller process nodes and more complex integrated circuits (ICs), the challenge of ensuring reliability has become increasingly ...

The field of engineering design increasingly relies on rigorous methods in reliability analysis and uncertainty quantification to ensure that structures, systems and materials perform as intended ...

Demand for lower defect rates and higher yields is increasing, in part because chips are now being used for safety- and mission-critical applications, and in part because it’s a way of offsetting ...

Akshay Gaikwad is a distinguished reliability engineer with a Master of Science in Mechanical Engineering from Rochester Institute of Technology. His academic excellence, demonstrated by a 3.78 GPA, ...

Mission-critical facilities—encompassing data centers, biomedical manufacturing complexes, petrochemical refineries, and energy infrastructure—depend fundamentally upon the reliability and predictive ...

The global modern industry is a massive operation that works on a scale almost impossible to comprehend. At every stage, it ...

The following research paper was discussed at the IEEE Workshop on Accelerated Stress Testing and Reliability. Learn what robust design and reliability engineering really is. Robust Design (RD) ...

Reliability engineering is a critical discipline that integrates engineering principles with advanced statistical techniques to ensure that products perform consistently over their intended lifespan.

Tight engineering tolerances and zero margins for failure make bearings the essential component that underpins the reliability and operational integrity of advanced technological systems. Any failure ...