Semiconductor Devices for Integrated Circuit Design

Product type
Level

Semiconductor Devices for Integrated Circuit Design

UC Berkeley Extension
Logo UC Berkeley Extension
Provider rating: starstar_borderstar_borderstar_borderstar_border 2 UC Berkeley Extension has an average rating of 2 (out of 2 reviews)

Need more information? Get more details on the site of the provider.

Description

Enroll Now:

Online, enroll anytime

Enroll Now

  • Online course: Internet access required
  • Enroll anytime: You have 6 months to complete
  • $525 (EDP 307827)


Vincent Chang, Ph.D., is the founder and CEO of Knowledge Master Inc. He has more than 20 years of experience teaching electrical engineering courses in both Taiwan and in the United States. Chang has published more than 40 international journal and conference papers and holds three patents.

Textbook(s) for this course: There is no textbook or reader for this course.



X138 (2 semester units in Electrical Engineering)

A requirement in the Certificate Program in Integrated Circuit Design and Techniques

Get an in-depth, comprehensive understan…

Read the complete description

Frequently asked questions

There are no frequently asked questions yet. If you have any more questions or need help, contact our customer service.

Enroll Now:

Online, enroll anytime

Enroll Now

  • Online course: Internet access required
  • Enroll anytime: You have 6 months to complete
  • $525 (EDP 307827)


Vincent Chang, Ph.D., is the founder and CEO of Knowledge Master Inc. He has more than 20 years of experience teaching electrical engineering courses in both Taiwan and in the United States. Chang has published more than 40 international journal and conference papers and holds three patents.

Textbook(s) for this course: There is no textbook or reader for this course.



X138 (2 semester units in Electrical Engineering)

A requirement in the Certificate Program in Integrated Circuit Design and Techniques

Get an in-depth, comprehensive understanding of semiconductor devices, enabling you to cope with the ever-increasing bandwidths of state-of-the-art designs. Study a broad range of topics in bipolar junction transistor (BJT) and metal oxide semiconductor (MOS) technologies, with an emphasis on physical concepts, operation principles, second-order effects, and modeling and simulation. Individual research projects cover real-world issues in advanced complementary metal oxide semiconductor (CMOS) modeling in the 90 nm or 65 nm scale and future trends in the statistical IC design in nanoelectronics.

Future-Term Courses and Enrollments

Courses are offered three terms per year: spring, summer, fall. Information about upcoming courses is available when enrollment opens each term.

  • Spring term: Enrollment opens in early December. Classes begin in January.
  • Summer term: Enrollment opens in early April. Classes begin in late May.
  • Fall term: Enrollment opens in early July. Classes begin in August.

Join our email list for periodic updates about course availability.

There are no reviews yet.

Share your review

Do you have experience with this course? Submit your review and help other people make the right choice. As a thank you for your effort we will donate $1.- to Stichting Edukans.

There are no frequently asked questions yet. If you have any more questions or need help, contact our customer service.