This article presents an introduction of microcontrollers as the first part on the series Embedded Systems Programming. It describes the structure and operation of the microcontroller, and the purpose ...

The very first step in starting an embedded Linux system does not involve Linux at all. Instead, the processor is reset and starts executing code from a given location. This location contains a ...

I'd bet many people who write programs for embedded systems don't understand the underlying hardware and how it works. Elecia White aims to help those programmers with information in her book, “Making ...

This is the last part of our four-article series on beginning embedded Linux development. Our intent was to provide an introduction to the typical embedded Linux infrastructure so that a programmer ...

In several of my previous posts, we’ve been looking at embedded software testing using Cpputest and build environments using Docker. Each topic is a building block ...

In this course, students will design and build a microprocessor-based embedded system application using a real-time operating system or RT POSIX extensions with Embedded Linux. The course focus is on ...

Counter/timer hardware is a crucial component of most embedded systems. In some cases a timer is needed to measure elapsed time; in others we want to count or time some external events. Here's a ...

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

When tasks share resources, as they often do, strange things can and will happen. Priority inversions in embedded systems can be particularly difficult to anticipate. Here’s an introduction to ...

In this rapidly evolving technology, embedded systems have become the backbone of the modern world. From the subtle intelligence of smart home devices to the critical operations within healthcare and ...