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Use a virtual model to simulate and test your system early and often. Validate your design with physical models, Hardware-in-the-Loop testing, and rapid prototyping. Generate production-quality C, C++, CUDA, PLC, Verilog, and VHDL code and deploy directly to your embedded system.
- Simulink
Simulink ® Online™ provides access to Simulink from any...
- Simulation
With Simulink ®, you can interactively simulate your system...
- Simulink Onramp
Learn the basics of how to create, edit, and simulate models...
- Simulink Fundamentals
Apply fundamental Simulink techniques for real-life dynamic...
- Simulate a Model Interactively
You can simulate a model in the Simulink ® Editor using the...
- Simulink
Simulink ® Online™ provides access to Simulink from any standard web browser wherever you have internet access. Simply sign in to MATLAB ® Online™ and either start Simulink or open an existing Simulink model. Simulink Online is ideal for teaching, learning, and convenient, lightweight access.
With Simulink ®, you can interactively simulate your system model and view the results on scopes and graphical displays. For simulation of continuous, discrete, and mixed-signal systems, you can choose from a range of fixed-step and variable-step solvers.
Learn the basics of how to create, edit, and simulate models in Simulink®. Use block diagrams to represent real-world systems and simulate components and algorithms. Review dynamic systems and learn how they relate to Simulink. Practice your understanding of discrete dynamic systems.
Apply fundamental Simulink techniques for real-life dynamic physical systems modeling. Dive into modeling systems with multiple components and deepen your understanding of how Simulink runs simulations behind the scenes.
You can simulate a model in the Simulink ® Editor using the Run button on the toolstrip. The Run button also appears in tools within the Simulink Editor. You can simulate from any tool that includes the button, such as the Scope viewer.
Simulation and Analysis. Run a simulation, visualize a model, and run a kinematic analysis. Update the block diagram to assemble the multibody model and visualize its initial configuration. The visualization opens in Mechanics Explorer. Simulate the model to play an interactive animation.