Speedgoat
Real-Time Target Machines
Speedgoat real-time target machines provide engineers and researchers with a quick and reliable way to perform real-time testing of cutting-edge applications designed with Simulink® and Simulink Real-Time™.
Speedgoat solutions connect with physical hardware being tested using automatically generated C and HDL codes to verify and validate real-time application designs along with a complete model-based design workflow.
A real-time target system includes:
- A real-time target machine
- I/O modules
- Communications protocols support
- Simulink programmable FPGAs
Key features of Speedgoat products:
- Seamlessly integrate with Simulink and Simulink Real-Time
- Meet your communication protocol requirements, I/O, and performance needs
- Simultaneously execute a real-time application on multiple cores
- Easily configure I/O connectivity and start experimenting within real-world dynamics
Hardware-in-the-Loop Simulation
Hardware-in-the-loop (HIL) testing lets you validate your controller design without mandating all system hardware. To benefit from practicality and lower costs, use a real-time plant simulator that acts as a digital twin of the entire system or its parts.
Rapid Control Prototyping
Rapid control prototyping (RCP) is a workflow designed for accelerating the control strategy development process. The workflow allows you to quickly run experimental iterations to identify and fix potential problems.
I/O Modules
Speedgoat configurable FPGA-based I/O modules connect real-time target machines to hardware undergoing testing. Speedgoat can offer both I/O modules with fixed functionality and multifunctional, reconfigurable FPGA-based modules, depending on your project-specific requirements.
Industries
Automotive
Shape tomorrow's mobility
MATLAB, Simulink, COMSOL Multiphysics, and Speedgoat can help engineers streamline their development processes and deliver products that minimize environmental impact while improving operational safety, increasing performance, and delivering new comfort levels.
Energy Production
Develop models, analyze data, implement control strategies and automate processes.
MATLAB, Simulink, COMSOL Multiphysics, and Speedgoat can help scientists and engineers across all industries within the energy sector, from system analysis and design to energy trading and risk management.
Biotech and Pharmaceutical
Take your pharmaceutical research and development to the next level.
MATLAB, Simulink, and COMSOL Multiphysics allow biotech and pharmaceutical companies to advance the design and optimization of pharmaceutical production, develop algorithms, process multidisciplinary data, easily manage their entire workflows, and perform modeling and simulation for drug discovery and development.
Communications
Design, simulate, and prototype communications systems.
MATLAB, Simulink, COMSOL Multiphysics, and Speedgoat make it possible for engineering and R&D teams to swiftly and accurately design, simulate, and verify communications systems
Real-time target machines
Rack Systems, Programmable FPGAs, I/O Connectivity
Rack Systems
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Tailored Rack Systems
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Simulink-Programmable FPGAs
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Simulink-Programmable FPGAs
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I/O Connectivity
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Analog I/O Modules
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Battery Management Systems for Simulink
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Digital I/O Modules
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Communications Protocols
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PWM
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Encoders
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LVDT, RVDT, Synchro, Resolver
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Shared Memory
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Relays
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Resistors
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Fault Insertion
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Audio & Speech
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Temperature and Strain
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Timing and Synchronization
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Vibration
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Video
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Licenses
Talk to one of our sales representatives to fully evaluate which Speedgoat products meet your needs and get a personalized recommendation on what would be most useful for your business and project.
No solution fits all, so discover your own personalized solution.
Blogs and user stories
Learn about MATLAB and Simulink from enthusiastic developers and MATLAB experts who are devoted to MATLAB programming and simulation.
Expletive Pharma Improves Productivity with a Matlab-Driven Pricing System
“The Gamax team was very helpful. I am completely satisfied with their professionalism and their attitude towards me and the project.”
– Gábor Nagy, Expletive Pharma
MATLAB and Simulink for Biotech and Pharmaceutical
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Motor Control Design with Simulink
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10 Ways to Speed Up Power Conversion Control Design with Simulink
10 proven ways to improve the power conversion control design process using system-level simulations in Simulink
Battery Management Systems Development with Simulink and Model-Based Design
Gain insight into the dynamic behavior of a battery pack, test operational cases, explore software architectures and perform hardware testing early in the design process
3 Reasons to Take a MATLAB and COMSOL Multiphysics Training Course
Gamax Laboratory Solutions training services offer targeted training curricula to address emerging technologies that can increase workforce productivity and ROI.