Power Electronics Solutions Design, test, and validate digital controls for electric motors, power converters, and battery management systems. Industry Use Cases Rapid Control Prototyping Hardware-in-the-Loop
Civil Engineering Industry Solutions Ever increasing complexity of buildings, transportation networks, natural resource, and energy supply systems require progressive monitoring and control systems for safe and long-lasting operation. Industry Use Cases Hardware-in-the-Loop Rapid Control Prototyping
Railway Industry Solutions Simulate complete diesel, electrical, and hybrid locomotives to accelerate the development of next-generation railway controls and communication systems. Industry Use Cases Rapid Control Prototyping Hardware-in-the-Loop
Applied Physics Solutions Expedite the Path to Scientific Breakthroughs for the Most Complex and Challenging Problems Industry Use Cases Rapid Control Prototyping Hardware-in-the-Loop
Marine Industry Solutions The future of marine technology is electric. Fast prototyping of Engine Control Units (ECU) and robust testing of onboard microgrids is gaining importance. Industry Use Cases Rapid Control Prototyping Hardware-in-the-Loop
Classroom & Lab Solutions Real-time simulation in the classroom is a new way to inspire students and pivotal in shaping future engineers. Speedgoat's generous academic discount pricing, help academic institutions profit from our real-time solutions. Hardware-in-the-Loop Rapid Control Prototyping Industry Use Cases
Speedgoat Collaboration Programs Speedgoat supports students in science and engineering competitions across the globe, as well as professors and researchers throughout their projects, with curated training and consulting services. Rapid Control Prototyping Hardware-in-the-Loop Industry Use Cases
Update Target Operating System to R2020b and Later Simulink® Real-Time™ R2020b and later releases ship with a QNX-based 64-bit real-time operating system (RTOS). Learn how to update the software of your existing Speedgoat real-time target machine running on R2020a or earlier. How To
Part 1: System Configuration of Host PC (R2020a and earlier) Learn how to set up the host computer for smooth operation, test the host-target communication and troubleshoot basic installation issues. How To
Part 2: Configuration of Target Machine (R2020a and earlier) Understand the operating principles of real-time target machines, learn how to configure your target machine and create and transfer a Simulink® Real-Time™ kernel. How To
Part 3: Running Real-Time Applications (R2020a and earlier) Video tutorial series part 3: Understand the main principles of real-time simulation. Configure and prepare Simulink® models for real-time execution. Deploy Simulink® models as real-time applications onto Speedgoat target machines. How To
Part 4: Data Logging (R2020a and earlier) Monitor, visualize, and log signals using the Simulation Data. Inspector (SDI) on the development computer. Write data to the disk of the target machine using “File Scope” blocks. How To
Part 5: Control and Instrumentation (R2020a and earlier) Learn how to use a Simulink® model as a direct user interface to the real-time application. Tune parameters using MATLAB command lines to control the execution of the real-time application. Create custom user interfaces using MATLAB App Designer. How To
Part 1: System Configuration of Host PC (R2020b and later) Learn how to set up the host computer for smooth operation, test the host-target communication and troubleshoot basic installation issues. How To
Part 2: Configuration of Target Machine (R2020b and later) Understand the operating principles of real-time target machines, learn how to configure your target machine and create and transfer a Simulink® Real-Time™ kernel. How To
Part 3: Running Real-Time Applications (R2020b and later) Understand the main principles of real-time simulation. Configure and prepare Simulink® models for real-time execution. Deploy Simulink® models as real-time applications onto Speedgoat target machines. How To
Part 4: Data Logging (R2020b and later) Monitor, visualize, and log signals using the Simulation Data. Inspector (SDI) on the development computer. Write data to the disk of the target machine using “File Scope” blocks. How To
Part 5: Control and Instrumentation (R2020b and later) Learn how to use a Simulink® model as a direct user interface to the real-time application. Tune parameters using MATLAB® command lines to control the execution of the real-time application. Create custom user interfaces using MATLAB® App Designer. How To
Research Solutions Leading companies use Rapid Control Prototyping (RCP) and Hardware-in-the-Loop (HIL) for faster product development. The flexible and scalable real-time simulation solutions enable you to make your research project successful. Hardware-in-the-Loop Rapid Control Prototyping Industry Use Cases
Chassis & Vehicle Dynamics Develop new control strategies for chassis, steering, and braking (conventional and x-by-wire), suspension (including semi-active and active), and ride comfort systems. Industry Use Cases Rapid Control Prototyping Hardware-in-the-Loop
Infotainment & Multimedia Systems Validate the various infotainment and multimedia system including instrument clusters, navigation systems, or the vehicle audio systems. Industry Use Cases Rapid Control Prototyping Hardware-in-the-Loop
Automated Driving (AD) and Advanced Driver Assistance Systems (ADAS) Design perception, planning, and control algorithms for all levels of driving automation. Industry Use Cases Rapid Control Prototyping Hardware-in-the-Loop
Cabin, Body, and Comfort Test the various components and regarding ECUs for access control, lighting, HVAC, electronic windows, seat control and more. Industry Use Cases Rapid Control Prototyping Hardware-in-the-Loop
HIL of Battery Management Systems Verify, validate, and test battery management system (BMS) controllers and hardware components using hardware-in-the-loop testing (HIL) and battery cell emulators. Industry Use Cases Hardware-in-the-Loop
Flight Controller and Autoflight Systems Develop and test your flight controller or complete auto-flight system with the MathWorks® Aerospace Toolbox™ and Speedgoat systems to simulate conditions for every flight scenario. Industry Use Cases Hardware-in-the-Loop Rapid Control Prototyping