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An expert integration of digital twin technology and advanced simulation methods for the design and optimization of electronic packaging systems In
Stochastic Finite Element Modeling in Electronic Packaging, distinguished researcher Liu Chu delivers an expert discussion of the latest advanced numerical methods and modeling techniques specific to electronic packaging. The book supplements its explanations with original MATLAB and ANSYS (APDL) code that can be applied immediately. It also includes robust examples that draw on a comprehensive description of the mechanics of electronic packaging modeling. Chu explains the fundamentals of modeling logic and concepts in an accessible way that is ideal for beginners to the topic. She demonstrates practical guides and benchmarks that will assist readers in the testing, measurement, and modeling of their own materials. Readers will also find:
- A thorough introduction to a modeling approach that focuses on digital twins and big data applications, including Monte Carlo Sampling
- Comprehensive explorations of benchmarks, testing, measurement, and modeling
- Practical discussions of theoretical finite element models in electronic packaging
- Complete treatments of the fundamentals of modeling logic and concepts
Perfect for undergraduate and graduate students in electrical engineering and computer science,
Stochastic Finite Element Modeling in Electronic Packaging will also benefit practicing electronic design engineers and academic researchers with an interest in electronic packaging and materials science.
About the author
Liu Chu, PhD, is a Senior Researcher in the School of Physical Science and Technology at ShanghaiTech University. Her research is primarily focused on uncertainty quantification in stochastic defects, numerical simulations for electronic packaging, and the development of advanced computational mechanics methods.
