MATLAB
Engineers and scientists worldwide rely on MATLAB and Simulink products to accelerate the pace of discovery, innovation, and development.
MATLAB and Simulink are used throughout the automotive, aerospace, communications, electronics, and industrial automation industries as fundamental tools for research and development. They are also used for modeling and simulation in increasingly technical fields, such as financial services and computational biology. MATLAB and Simulink enable the design and development of a wide range of advanced products, including automotive systems, aerospace flight control and avionics, telecommunications and other electronics equipment, industrial machinery, and medical devices. More than 5000 colleges and universities around the world use MATLAB and Simulink for teaching and research in a broad range of technical disciplines.
Design of 5G mmWave Beamforming Systems
What Is Radar Toolbox?
Iterative Learning Control Design for Trajectory Tracking of a Quadcopter
What Is Iterative Learning Control?
Import, Visualize, and Partition Molecular Data Sets
I Need Results Yesterday: Accelerating Your Wireless Communications Simulations
Modeling High-Efficient RF Power Amplifier for Linearization
What Is HDL Verifier?
Taking the Next Step with Object-Oriented Programming in MATLAB
5G Advanced in MATLAB: Modeling of 3GPP NR Release 18 Features
MATLAB Interface for Databricks
Visualize and Analyze Molecular Structures
Enabling Multi-Domain Communications: Satellite Orbit Modeling and SatCom Link Simulation
Teaching Intelligent Control Systems with MATLAB and Simulink
Leveraging Generative AI and MATLAB in Engineering Education
Network Simulation: Intuitive, Easier, and Faster
Measuring Resistance Using a Wheatstone Bridge
Using Generative AI with MATLAB: Calling LLMs Directly from MATLAB
How to Work with SCIs on C2000 MCUs for Debugging | C2000 Microcontroller Blockset, Part 16
Monitor and Tune GPIOs, ADCs, DACs, & ePWMs on C2000 MCUs | C2000 Microcontroller Blockset, Part 15
How to Work with ePWMs on C2000 MCUs | C2000 Microcontroller Blockset, Part 14
Introduction to ePWMs for C2000 MCUs | C2000 Microcontroller Blockset, Part 13
How to Work with CAN Communication on C2000 MCUs | C2000 Microcontroller Blockset, Part 12
How to Work with DACs on C2000 MCUs | C2000 Microcontroller Blockset, Part 11
How to Work with ADCs on C2000 MCUs | C2000 Microcontroller Blockset, Part 10
How to Configure External Interrupts on C2000 MCUs | C2000 Microcontroller Blockset, Part 9
Learn how Asynchronous Scheduling Works in C2000 MCUs | C2000 Microcontroller Blockset, Part 8
How to Configure C28x Hardware Interrupts on C2000 MCUs | C2000 Microcontroller Blockset, Part 7
Introduction to C28x Interrupts in C2000 MCUs | C2000 Microcontroller Blockset, Part 6
Introduction to Scheduling on C2000 MCUs | C2000 Microcontroller Blockset, Part 5