Concept
Design for manufacturability
Related lectures (14)
Assembly: Process Integration
Explores the significance of assembly, addressing tolerances, labor costs, precision engineering, and design principles for efficient manufacturing.
Process Integration: Assembly and Couplings
Explores assembly systems, kinematics, design challenges, and automated processes in manufacturing and optics.
Analog Design Trade-offs
Explores basic trade-offs in analog design, emphasizing current optimization and bias current for gain-bandwidth product.
Assembly: Mechanism Theory
Covers the problem statement of assembly, precision requirements, common couplings, stability, and spatial vectors.
Physics of Manufacturing: Assembly and Design Optimization
Explores precision positioning, DFA, DFM, and DFMA principles for efficient manufacturing.
Measuring Cybersickness: Guidelines and Mitigation
Explores measuring cybersickness and design guidelines for minimizing discomfort.
Layout and Design Rules
Introduces layout designs in integrated circuits, covering design rules, physical layouts, and CMOS latch-up prevention.
Differentiability in Analysis
Explores differentiability in analysis, discussing conditions for functions to be differentiable and continuous.
Low-Power Analog IC Design: Inversion Coefficient
Explores the concept of inversion coefficient in low-power analog IC design, emphasizing trade-offs for minimal power consumption.