Medical device companies, especially those with real-time embedded-system products, are often burdened with lengthy verification cycles. Even small development efforts can result in months of ...

Embedded systems power the modern world—quietly running inside vehicles, medical devices, industrial controllers, routers, consumer electronics, and countless “smart” products.

As more complex devices with higher levels of integration are inserted into real-time systems, traditional testing methods are becoming obsolete. The most difficult obstacle to thorough testing of ...

Manufacturers can now validate embedded vision devices reliably, ensuring consistent performance in automotive, industrial, ...

With the proliferation of IoT devices come increased embedded security attacks. Historically, embedded system engineers have ignored device-layer security despite the many areas of embedded devices ...

In “Some neat software compliance and testing tools “, Jack Ganssle returns to a couple of his favorite topics: guaranteeing high quality software development through disciplined software development ...

The current trend is to develop embedded systems using platforms common to many different applications spanning multiple industries, particularly telecommunications. But the advantage gained by using ...

With the explosive growth in the use of microcontrollers, engineers who design products in fields ranging from computers to industrial electronics need to test and debug circuits that include ...

Learn about the importance of testing not only the hardware and software inside automotive and other safety-critical applications, but also the software tools used to program them in the first place.

Testing, alone, cannot find all potential failure points for real-time embedded software, particularly in multithreading environments. In part 2 of Sean Beatty's article on errors that escape ...