Online course on High speed Layout design: Basics of Signal integrity (3:1)
(JANUARY TO MAY 2026)
Last date to apply: 31 December 2025
Know The Course Instructor
Yoginder Kumar Negi
Supercomputer Education and Research Centre (SERC),
Indian Institute of Science, IISc Bangalore
Course Fee
Course Schedule
Reference Books
| Particulars | Amount |
| Course Fee | 20,000 |
| Application Fee | 300 |
| GST@18% | 3654 |
| Total | 23,954 |
Number of credits – 3:1
Mode of Instruction
Online Classes
Duration
(JAN – MAY 2026)
Class Start Date
18 January 2026
Timings of the class
Every Saturday 10 A.M. to 1 P.M.
- Microstrip lines and slot lines, 3rd Edition, by Ramesh Garg, Inder Bahl, and Maurizio Bozzierd
- Jitter, Noise, and Signal Integrity at High-Speed, Mike Peng Li, Prentice Hall Modern semiconductor series.
- Signal and power integrity, 3rd Edition, Eric Bogatin.
Objectives of the course
The objective of this course is to provide engineers and professionals with the practical knowledge and skills needed to design, analyze, and troubleshoot high-speed electronic systems. The course emphasizes real-world challenges such as reflections, crosstalk, jitter, ground bounce, and power noise that can impact product reliability and performance. Participants will learn how to apply transmission line theory, use simulation and measurement tools, and implement best design practices to ensure robust PCB and system-level interconnects. By bridging theory with hands-on applications, the course prepares professionals to confidently address signal integrity issues in modern high-speed designs, reduce time-to-market, and improve overall system performance and reliability.
Who can apply?
B.E/B.Tech (EEE/ECE) /MSc in Electronics
Basics of RF, Microwave, transmission line design
Who can benefit?
High speed designer from Automotive, Semiconductor Industry
Syllabus
- High Speed Signals – What is Signal Integrity?
- PCB Transmission Line and Impedance
- Return Current – Return Current in a PCB, Return Current Path
- Single Ended Impedance, Differential Impedance and Differential Signals TDR
- Types of basic high speed design: DDR, HSIO, LSIO
- Eye Diagram in Digital Communication
- EYE Mask, Create an Eye Mask Using Datasheets
- Crosstalk, Near End and Far End Crosstalk (NEXT & FEXT), S parameter & time domain analysis of high-speed design.