The annual show for the embedded electronics supply chain showcased many innovations in edge AI and connected, intelligent ...

Most embedded systems are reactive by nature. They measure certain properties of their environment with sensors and react on changes. For example, they display something, move a motor, or send a ...

Editor's Note: Embedded Systems Architecture, 2nd Edition, is a practical and technical guide to understanding the components that make up an embedded system’s architecture. Offering detailed ...

The operating system has long played a critical role in embedded systems. A prime historical purpose of the operating system is to simplify the life of electronic product developers, freeing them to ...

The last two articles have explored the five steps to designing an embedded software architecture. So far, we have seen a need in modern embedded systems to separate software architecture into ...

Embedded systems are increasingly prevalent in nearly every aspect of human life. Innovations made possible by embedded systems are making our lives healthier, safer, cleaner, and more stimulating.

Embedded systems have become a cornerstone of modern technology, powering everything from IoT devices to automotive control systems. These specialized systems rely on software that is lightweight, ...

One of the biggest bottlenecks in the software development process for electronic products is that hardware is not available until late in the cycle. That means embedded software developers need to ...

When I first started writing embedded software, the environments that I found to be the most efficient and easiest to use were only available on Microsoft Windows. In fact, it wasn’t uncommon for ...

For many years, the 8-bit microcontroller has been the workhorse of embedded systems. Design teams favor the size and power benefits that a tightly coupled processor, such as the 8051 microcontroller, ...