Participants join this course to clearly understand how integrated circuits are manufactured and how modern chips are scaled using Moore’s Law. The course helps them learn how scaling affects performance, power, and cost of ICs in real-world applications. It also gives insight into industry challenges and economics, making it valuable for students and professionals looking to build strong fundamentals and improve career opportunities in electronics and semiconductor fields.
You have 3+ years of hands-on experience in this field
You want to build skills in Engineering & Design
You should skip if
You're new to this field with no prior experience
You need a different specialisation outside Electrical
You need live interaction with an instructor
Course details
This course explains how integrated circuits (ICs) are manufactured, starting from raw materials and moving step by step to finished chips using processes such as photolithography, etching, doping, and material layering. It introduces Moore’s Law and explains how transistor scaling has driven improvements in performance, speed, and power efficiency over time. Learners will understand the basic principles of scaling and why smaller feature sizes lead to more powerful and energy-efficient ICs. The course also discusses the physical and technological limits of scaling, including heat issues, quantum effects, and increasing manufacturing complexity. It explains how design decisions and fabrication techniques influence chip performance, reliability, and yield. Special focus is given to the economics of IC production, showing how technology nodes, production volume, and yield impact chip cost. Learners will see why advanced ICs are more expensive as equipment and process requirements grow. Real-world examples are used to show how industry balances performance, cost, and manufacturing challenges. By the end of the course, participants gain a clear understanding of both the technical and economic aspects of IC processing. Overall, the course provides a strong foundation in how modern integrated circuits are made, scaled, and priced
Introduction Micro to Nano A Journey into Intergrated Circuit Technology
Introduction Micro to Nano A Journey into Intergrated Circuit Technology.
Crystal Properties and Silico Growth
Crystal Properties and Silico Growth contd.
IC Fab Labs and Fabrication of IC
Diffusion
Diffusion ( cont.)
Solid State Diffusion
Solid State Diffusion ( cont.)
Solid State Diffusion ( cont.).
Thermal Oxidation of Silicons
Thermal Oxidation of Silicons.
Thermal Oxidation of Silicons..
Thermal Oxidation of Silicons (cont.)
Thermal Oxidation of Silicons (cont.)..
Lithography
Lithography I
Lithography II
ION Implantation
ION Implantation .
ION Implantation & Silicon IC Processing Flow for CMOS Technology
ION Implantation & Silicon IC Processing Flow for CMOS Technology..
Silicon IC Processing Flow for CMOS Technology
Thin Film Deposition
Thin Film Deposition.
Course content
The course is readily available, allowing learners to start and complete it at their own pace.
25 lectures31 hr 10 min
Opportunities that await you!
Skills & tools you'll gain
Engineering & Design
Career opportunities
Our Alumni Work At
Why people choose EveryEng
Industry-aligned courses, expert training, hands-on learning, recognized certifications, and job opportunities-all in a flexible and supportive environment.
