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.

Editor's Note: Embedded Linux has consistently ranked among the top operating systems used in embedded systems design. With the rapid growth in interest in the Internet of Things (IoT), the ability of ...

In the world of embedded software development, defects can cripple projects, delay releases, and ultimately lead to failures that affect everything from consumer electronics to mission-critical ...

In modern electronics, embedded systems have become increasingly complex, incorporating a variety of sensors and components in many applications including IoT, computing, wearables and ...

Successfully developing and launching an embedded system requires a wide range of skills in a variety of engineering disciplines. Every embedded systems development team needs knowledge in eight ...

This engineering specialization provides students with the fundamentals of embedded operating systems including a working understanding of how to configure and deploy a Linux based Embedded System.

One of the most crucial components of modern digital systems, field programmable gate arrays (FPGAs) provide for flexibility, parallel processing, and hardware-level acceleration. FPGAs, in contrast ...

ECEN 5613 is a 3 credit hour course and is the first course in CU's Professional Certificate in Embedded Systems. It is one of the Embedded Systems Engineering program core courses and provides an ...

The 2025 global survey of embedded engineers captured insights from professionals worldwide. The focus on roles, projects, tools, and technologies provides a holistic view of embedded development.

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 ...