Early Verification of Analog & Mixed Signal Components for Semiconductor Design
Overview
In this webinar, we will explore how MathWorks tools can be effectively used in modeling and simulating mixed-signal systems at different levels of abstraction. With practical examples, we will show how to design mixed-signal systems and analyzing measurement data to deliver precise results. Additionally, we will illustrate how to model non-ideal analog effects in the electrical domain and integrate complex embedded digital signal processing algorithms. The session is pre-recorded with a live Q&A session at the end, held by Ganesh Rathinavel.
Highlights
- Introduction to Simulink and Mixed-Signal Blockset
- Mixed-Signal behavioral modeling (model PLLs, data converters)
- Model jitter, non-linearities, timing mismatches, fixed-point effects, and pole/zero mismatches
- Investigate effect of imperfect phase detectors, measuring jitter, and modelling VCO phase noise
- Developing analog models in the electrical domain for the refinement of linear and switched-mode designs
About the Presenters
Jahnavi Dhulipala is a senior application engineer at MathWorks and is based in Bangalore. She specializes in RF, analog, and mixed-signal component and system design and works with tier-1 semiconductor and electronics companies to help support their adoption and success with top-down and model-driven system design and verification workflows.
Ganesh Rathinavel is a principal application engineer at MathWorks and is based in Eindhoven. He is an expert in analog and mixed-signal design, digital design, signal integrity, and high-speed data links. Ganesh advises tier-1 semiconductor and electronics companies on integration of traditional EDA workflows with MATLAB and Simulink, and in advanced workflows based on systematic use of models and simulation from concept to silicon.
Product Focus
This event is part of a series of related topics. View the full list of events in this series.
