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 ...

Utilize advanced techniques to evaluate structures. Advanced analysis is necessary for structures that are complex, exhibit finite deformations, are loaded beyond their first yield point, or ...

Systems engineering, essentially an application of systems analysis to the design and procurement of hardware systems to accomplish specific ends, can be an effective tool of management when well ...

Learn to address the likelihood of structural failure. Perform risk analysis associated with environmental loads to structures under static and dynamic loadings. Master the basics of performance-based ...

The engineering curriculum draws inspiration from areas that align with Brandeis' existing strengths, including bioengineering and materials science, while enhancing our existing undergraduate and ...

A system-engineering approach is essential for an efficient design in a complex system. Comprehension of conflicting requirements of participating subsystems and integrated designs are key elements ...

What is reverse engineering? Tools used to reverse engineer a PCB. Specifics about de-layering Printed-circuit-board (PCB) reverse engineering is a method of analyzing and understanding the design ...

New integration and patterning schemes used in 3D memory and logic devices have created manufacturing and yield challenges. Industrial focus has shifted from the scaling of predictable unit processes ...

Treat incident response as an engineering system—from asset-aware detection to repeatable analysis and post-incident learning—driving measurable improvements.

Have you ever thought about how and why something was designed? Who was considered a “stakeholder” for the design? And what biases are baked within the process of designing something? These are some ...