Tools to compile a real-time application that runs on a Speedgoat target computer

Build up to a system-level model of a Hybrid Microgrid through incremental creation, test and integration of system components.

Simulink Project showing a small fixed-wing drone, its autopilot, and the operator interface

Design, prototype, and test your brushless DC motor controls using Simulink and Speedgoat hardware

Model of a hybrid-electric vehicle that can be configured for real-time simulation.

Landing gear model, including main and lock hydraulic actuators, and multibody dynamics

This submission demonstrates modeling of a hybrid-electric aircraft architecture in Simscape, for both desktop and real-time simulation.

This is just a simple Simulink file that is Communicating with X-Plane using UDP Protocol in real time.

The Getting Started Demo by Speedgoat, takes you through the typical real-time simulation and testing workflows using simple exercises

Learn how to create and run real-time virtual vehicles and Driver-in the-Loop simulators to safely test and validate your new designs.

This package contains models of power electronics components for hardware-in-the-loop testing with Simulink^® Real-Time™.

These Cheatsheets support you in your Model-Based Design Workflow with focus on real-time applications on Speedgoat target computers.

This example demonstrates the speed regulation of a variable-speed AC drive using the Direct Torque Control (DTC) technique.

Short guide intended to help set up an Elmo Gold drive and Simulink Real-Time using EtherCAT

This support package implements the ASAM XIL API standard for Simulink Real-Time target computers.

Control PMSM Loaded with Dual Motor (Dyno) using Speedgoat Hardware

Learn how to implement a pixel-stream based lane detection algorithm in Simulink, and deploy it to a Speedgoat Simulink-Programmable FPGA.

This custom toolbox contains a library to interface with ED247 communication protocol. ED247 is a communication standard defined by EUROCAE.

eCAL Toolbox for Simulink

This project relies on ROS Toolbox functionality to provide basic integration of Simulink^® targets into ROS/ROS2 networks