You can test embedded control systems more efficiently with the powerful method of hardware-in-the-loop (HIL) simulation. Safety, availability, or cost considerations can make it impractical to perform all the necessary tests with the complete embedded control system. Using HIL simulation, you can simulate the parts of the system that pose these challenges. By thoroughly testing the embedded control device in a virtual environment before proceeding to real-world tests of the complete system, you can maintain reliability and time-to-market requirements in a cost-effective manner even as the systems you are testing become more complex.
- Dev Tools & OS
- Machine Learning
- Reference Designs
- System Block Diagrams
- Dev Kit Selector
- White Papers
- Webcasts & Events
- Product Search
- Embedded World
Most Recent Flipbooks
Use Intel® SSF to Remove Bottlenecks to AI
Machine learning and AI push the limits of processing, data transport, and storage. To achieve performance and scalability while containing cost, desi...
"Zero Touch" IoT Security Is Key to Continued Growth
By now it’s clear that the IoT will miss the much-touted target of 50B connected devices by 2020. The problem? IT managers are so worried about secu...
IoT Security (Finally) Delivers ROI
To protect sensitive device data and networks as a whole, developers should consider both hardware and software. Hardware security modules can enable...
Connected Railways Bring New Efficiencies and Amenities
A secure, unified communications system boosts railway efficiency, lowers costs, and improves the passenger experience. Collecting data leads to new i...
Securing the IIoT with Flexible Firewalls
Traditional IT firewalls don’t translate well to the factory floor, necessitating a new class of industrial firewall appliances. Industrial firewall...
Building a Smart City? Start with Smart Streetlights
Smart streetlights are an efficient and easy way to modernize your city while also providing a return on investment.
Machine Vision Makes Industrial Robots See and Improve
How emerging technologies like CV and real-time 3D video capture can help improve productivity and efficiency in robotics applications
A 4-Step Guide to Security Assurance for IoT Devices copy
Teams need to rethink how they deliver software quickly – with security, safety, and quality in mind from design to deployment. But “rethinking” should not be “restarting.”
Finding Concurrency Errors with GrammaTech Static Analysis
Multithreading adds entirely new classes of potential bugs to those that must be considered by developers.
Making Safety-Critical Software Development Affordable with Static Analysis
Safety-critical software is becoming exceedingly expensive to develop and manufacturers are looking for solutions that increase developer productivity. Static analysis tools are indispensable for safe
Protecting Against Tainted Data in Embedded Apps with Static Analysis
This paper describes a static analysis technique – taint analysis – that can be used to find how potentially hazardous inputs can flow through a program to reach sensitive parts of code, empowering...
Containerized Linux: The Secret to IoT Security
A desire in the development community to use Linux is often at odds with the security requirements of an organization, leaving a gap between a company’s goals and the skill sets of its engineers.
Designing a system-on-chip (SoC) with an Arm Cortex-M processor
Are you integrating an Arm Cortex-M processor for the very first time? This comprehensive whitepaper will take you through the process of including a Cortex-M processor into your SoC design
RFSoC for Radar and Electronic Warfare
Radar and electronic warfare systems of the future...
Critical Techniques for High-Speed A/D Converters in Real-Time Systems
An A/D (Analog-to-Digital) converter, frequently abbreviated as ADC, accepts an analog voltage at the input and produces a digital representation of that voltage at the output that’s called a “sample”
Strategies for Deploying Xilinx's Zynq UltraScale+ RFSoC
On February 21st, 2017, Xilinx® announced the introduction of a new technology called RFSoC with the rather dramatic headline “Xilinx Unveils Disruptive Integration and Architectural Breakthrough for
Putting VPX and Open VPX to Work
OpenVPX presents a formal, well-organized system for defining all components in VPX systems. Many of the figures and the profiles in this handbook were derived from the full OpenVPX specification.
Accelerating the Product Development Lifecycle with Faster Test: Navigating the V Diagram
A unified test architecture based on a software-defined test platform is a best-in-class approach for teams designing and testing advanced electromechanical vehicle systems
An Era of Affordability for the Custom System-on-Chip (SoC)
Now that custom electronic system design prototypes can be developed for under $20,000, it pays to explore the benefits.
A Guide to Multi-Channel Synchronization for MIMO Systems