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 
16 May 2023 RF Design of Wideband mmWave Beamforming Systems  Register
17 May 2023 Power Electronics Control Design Using Active Disturbance Rejection Controllers (ADRC) Register
24 May 2023 Radar Systems Engineering and Data Synthesis in MATLAB  Register
25 May 2023 Using MATLAB with Python Register
31 May 2023 Satellite Scenario Modeling and SatCom Link Simulation in MATLAB Register
1 June 2023 Accelerate Software Innovation Through Target-Optimized Code Generation and Virtual Prototypes Register
21 June 2023 SerDes Design and Signal Integrity Analysis of USB4 v2.0 with MATLAB Register

Past Events

Category Webinar Title Link
MATLAB/Simulink platforms Introduction to MATLAB  Watch

21 MATLAB Features You Need Now  Watch
  15 Simulink Features You Need Now  Watch
  Modeling and Simulation of Battery Systems with Simulink  Watch
Wireless Communications Beamforming for MU-MIMO in 5G New Radio  Watch
  O-RAN Modeling and Simulation with MATLAB  Watch
  AI for Wireless Communications  Watch
  Bluetooth Modeling in MATLAB  Watch
  5G Design: From Waveform Generation to Hardware Implementation and Verification  Watch
  Wireless Positioning and Localization Design with MATLAB  Watch
  What is New with Wi-Fi and WLAN Design in MATLAB  Watch
  Automated Remote Testing of 5G mmWave RF Systems with Xilinx RFSoC  Watch
  5G NR HDL Cell Search and MIB Recovery Reference Application  Watch
  Model, Simulate, and Test 5G NR PHY in MATLAB  Watch
  Array Design and Beamforming for Wireless MIMO Systems  Watch
  High Speed Data Capture with USRP SDR Hardware  Watch
  Wireless Over-the-Air Testing using SDRs  Watch
  Satellite Communications and NTN Design with MATLAB  Watch
Analog, Mixed-Signal, and RF Mixed-Signal Circuit Design and Analysis with MATLAB  Watch
  Radar System Engineering: From Requirements to Deployment  Watch
  RF Propagation, Ray Tracing and Wireless Scenario Modeling in MATLAB  Watch
  RF Power Amplifier Behavioral Modeling using MATLAB  Watch
  Three Steps to Simulate RF Transceivers in MATLAB  Watch
  Design Optimization of Miniaturized Antennas  Watch
  Modeling and Simulating Otava mmWave Beamformer IC  Watch
Software Development and Testing Cybersecurity for your C and C++ Embedded Software with Advanced Static Code Analysis  Watch
  Shift Left to Optimize Your Software Development and DevOps Workflows  Watch
  Hardware-Aware, Model-Based Software Development to Speed Up Embedded Designs  Watch
  Position Control of a PMSM with Simulink and Microchip 32-bit MCUs   Watch
  Effective ways to debug and enhance the quality of your Embedded Software using Polyspace Static Analysis Solutions  Watch
Artificial Intelligence Introduction to AI with MATLAB  Watch
  Artificial Intelligence: How to Upskill and Prepare Future Engineers  Watch
  Getting Started with Deep Learning for Radar Systems  Watch
  Building AI Applications for Signals and Time Series Data  Watch
  Deep Learning and Machine Learning for Signal Processing Applications  Watch
  Signal Analysis and Feature Extraction for AI with Wavelets  Watch
  Predictive Maintenance using Deep Learning  Watch
FPGA Design and Verification Early FPGA/SoC Design Verification with Simulink and the Vivado Simulator from AMD-Xilinx  Watch
  Full-switching Electric Drive FPGA-based Hardware-in-the-Loop Simulation  Watch
  Implementing Field-Oriented Control for a Motor on an FPGA  Watch
  Optimize FPGA and ASIC Speed and Area Using HDL Coder  Watch
  Performing Hardware-Based Verification and Testing on FPGAs with MATLAB and Simulink  Watch
  Performing Hardware/Software Co-design for Xilinx RFSoCs Gen3 Devices using MATLAB and Simulink  Watch
  Implementing Motor and Power Electronics Control on an FPGA-Based SoC   Watch