Semiconductors, Communications, and Electronics Webinar Series

MATLAB, Simulink, and Polyspace are used by Engineers working on Semiconductors, Communications and Electronics in a variety of ways, from Algorithm and System Design, to Implementation, Verification, Manufacturing, Characterization and Validation. This series of webinars will illustrate some of their most exciting capabilities.

Upcoming Events

Date	Webinar Title	Register
25-Mar-25	Scenario Modeling and Array Design for Non-Terrestrial Networks (NTNs)	Register
26-Mar-25	Wireless Waveform Generations and Analysis with MATLAB	Register
15-Apr-25	Embedded AI for Signal Processing on the Edge	Register
16-Apr-25	Modeling of Data Converter Architectures (ADC/DAC) with MATLAB	Register
29-Apr-25	Early Verification of Analog & Mixed Signal Components for Semiconductor Design	Register
13-May-25	Integrated EDA workflows for AMS IC Design and Verification	Register
14-May-25	AI with Model-Based Design: Reduced Order Modeling	Register
15-May-25	MATLAB to C/C++ Made Easy	Register
21-May-25	Massive MIMO Wireless Systems Design with MATLAB	Register
28-May-25	From MATLAB to Optimized RTL and PPA Exploration Using HDL Coder and Cadence Stratus	Register
5-Jun-25	Modeling and Simulation of High Speed Links & Interconnects	Register

Past Events

Category	Webinar Title
MATLAB/Simulink platforms	Engineering Data Analysis for Excel Users: An Introduction to MATLAB (52:26)
	MATLAB Without Borders: Connecting your Projects with Python and other Open-Source Tools (51:43)
	Using MATLAB with Python (50:58)
	Modeling and Simulation of Faults in a Battery System (30:23)
	Turn Prototypes into Robust Software with MATLAB (54:51)
	Using SPICE Models with Simscape (30:42)
Wireless Communications	Modeling Reflective Intelligent Surfaces (RIS) Systems with MATLAB (27:31)
	Developing Wireless Systems and Networks with MATLAB (43:39)
	From Zero to Hero in SDR Using MATLAB: Engineer's Edition (34:36)
	I Need Results Yesterday: Accelerating Your Wireless Communications Simulations (36:21)
	Modeling 5G Non-Terrestrial Network (NTN) Links in MATLAB (40:21)
	Explore 6G technology with MATLAB
	Enabling Multi-Domain Communications: Satellite Orbit Modeling and SatCom Link Simulation (31:43)
	Interference and Coexistence of Bluetooth and Wireless Systems (40:24)
	Model, Simulate, and Test 5G NR PHY in MATLAB (34:49)
Analog, Mixed-Signal, and RF	Overcoming Jitter in High-Speed Communications: Techniques and Testing with MATLAB (34:13)
	Optimization of Mixed-Signal ICs with MATLAB (49:23)
	USB4 v2 SerDes Design & Signal Integrity Analysis with MATLAB (31:09)
	Early Verification of RADAR Front Ends with Model-Based Design (55:03)
	Power Amplifier and Digital Pre-Distortion Design with MATLAB (37:06)
	Design of 5G mmWave Beamforming Systems (52:32)
	Three Steps to Simulate RF Transceivers in MATLAB (24:27)
Software Development and Testing	Effective ways to debug and enhance the quality of your Embedded Software using Polyspace Static Analysis Solutions (1:07:36)
	Shift Left to Optimize Your Software Development and DevOps Workflows (22:18)
	Hardware-Aware, Model-Based Software Development to Speed Up Embedded Designs (39:26)
	Accelerate AI based software development on AURIXTM TC4x with Model-Based Design and optimized code (34:36)
	Position Control of a PMSM with Simulink and Microchip 32-bit MCUs (31:30)
Artificial Intelligence	From Idea to MCU Deployment: Applying Tiny Machine Learning to FOC for PMSMs (20:05)
	AI with Model-Based Design: Virtual Sensor Modeling (35:53)
	Embedded AI Integration with MATLAB and Simulink (21:28)
	AI with Model-Based Design: Reduced Order Modeling (44:44)
	On-Device Training of Machine Learning Models with MATLAB and Simulink (22:38)
	Introduction to AI with MATLAB (35:04)
	Incorporating Machine Learning Models into Safety-Critical Systems (44:35)
FPGA Design and Verification	An Expert’s Guide to Using MATLAB and Simulink for FPGA and SoC Design (54:00)
	Innovative GSPS Signal Processing Solution with MATLAB Simulink for FPGA SoC (17:11)
	FPGA Prototyping for 5G/OFDM Receivers using MATLAB and Simulink (41:22)