Power Hardware-in-the-Loop (PHIL) simulation and testing is a cutting-edge methodology that integrates actual power system components with high-fidelity computational models. This approach creates a ...

Decoupling application logic from hardware lets engineers test firmware on host machines instead of waiting for dev boards.

Cost-effective in-rack systems enable testing of standard 30kW or 50kW NeuCool liquid-cooled racks without multi-million-dollar hardware investments Custom testing configurations available, including ...

Every product development effort begins with a plan—traditionally, in the form of diagrams such as Leonardo da Vinci’s ornithopter flying-machine drawings, but today, in the form of software ...

With the power and flexibility of today's computers, engineers and scientists are increasingly using virtual instrumentation for HIL (hardware-in-the-loop)-simulation applications. A key element of ...

Overview AI robots need both real-world and synthetic data to learn effectively, with tools like simulation and teleoperation ...

Rohde & Schwarz, together with IPG Automotive, a developer of virtual test driving, have announced what they are referring to as redefinition of automotive radar Hardware-in-the-Loop (HIL) integration ...

Wearable, mobile, implantable, and home health devices as well as electronic components, circuit boards, and subassemblies incorporated into medical equipment used in clinical settings all present ...

Discovering a design error after you send youraverage chip to manufacturing can be costlyand embarrassing, not to mention hazardous toyour career. However, as Intel ...