Develop Foundational Knowledge in Microelectronics: Provide students with a thorough understanding of microelectronic circuits, semiconductor device physics, and VLSI design principles, essential for building expertise in electronics and integrated circuit technology.
Bridge Theory and Real-World Application: Allow students to apply theoretical knowledge in practical scenarios, from designing simple microelectronic circuits to complex VLSI systems, providing a concrete understanding of how devices function at the micro and nano scale.
Cultivate Problem-Solving and Critical Thinking Skills: Engage students in projects that challenge them to solve real-world microelectronics and VLSI engineering problems, promoting analytical thinking and innovative solutions in design and fabrication.
Promote Safety and Ethics in Engineering: Instill an understanding of ethical considerations, intellectual property issues, and safety standards in microelectronics and VLSI engineering, ensuring that students are aware of their responsibilities as engineers.
These objectives aim to provide a comprehensive learning experience, enabling students to develop the expertise and practical skills necessary for advancing in the field of microelectronics and VLSI engineering.