Teaching
- This course aims to give an overview of solid state devices from a device physic perspective. At the end of this course, you should be able to: (a) Develop a strong background in semiconductor physic.
(b) Apply this knowledge to understand the traditional and emerging solid state semiconductor devices.
- Compact modeling is the bridge between circuit designer and foundry. This course will go into depth of
MOSFET device physics, its modeling and implementation. Students will learn about the industry standard
MOSFET models including Multigate MOSFETs and their formulation. This course is meant as a starting point
for prospective researchers who wish to work in the field of compact modeling of semiconductor devices.
- An undergraduate-level introduction to Analog Electronics Circuits. This course provides a base for further discussion of advanced analog circuits.
- This course aims to give an overview of solid state devices from a device physic perspective. At the end of this course, you should be able to: (a) Develop a strong background in semiconductor physic.
(b) Apply this knowledge to understand the traditional and emerging solid state semiconductor devices.
- An undergraduate-level introduction to Electronics. This course provides a base for further discussion of advanced electronics courses.
- An undergraduate-level introduction to digital electronics. This course intends to provide a deep insight into the world of digital electronics from a design
perspective.
- An undergraduate-level introduction to Analog Electronics Circuits. This course provides a base for further discussion of advanced analog circuits.
