I have already mentioned the biggest difference between writing a program for a desktop computer and for a small microcontroller: the absence of an operating system (in most cases). The impact of this ...

Editor’s note: I (Steve Taranovich) was a pure analog engineer with Burr-Brown Corp. until the year 2000 when Texas Instruments integrated Burr-Brown into its organization. At that point, I knew that ...

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 ...

Here's another book, aimed at professionals, that covers designing embedded systems. Specifically, it's an introduction to the design of FPGAs and is aimed at “engineers in the trenches”, presenting ...

At the end of the second article in this series, which outlines a step-by-step process for embedded Linux development, we had the LBox up and running, ready to use for application development. On some ...

This course is used as the capstone in a three course sequence, including Linux System Programming and Introduction to Buildroot and Linux Kernel Programming and Introduction to Yocto Project. Both of ...

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.

In this online engineering course, you will gain experience writing low-level firmware to directly interface hardware with highly efficient, readable, and portable design practices. By completing this ...

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 ...

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 ...