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 ...

The last part of the Embedded Systems programming discuss about interrupt processing and the alternative process of polling. It briefly describes interrupts and polling, as well as the interrupt ...

This installment starts a new segment of lessons about state machines. The subject conceptually continues the event-driven theme and is one of my favorites [1,2]. Today, you’ll learn what event-driven ...

[Sergey Lyubka] put together this epic guide for bare-metal microcontroller programming. While the general concepts should be applicable to most any microcontroller, [Sergey]s examples specifically ...

Demand for embedded programming is growing like crazy, so anyone looking for some job security might consider becoming an ace embedded programmer. It helps to have some programming experience, but ...

Mention embedded programming and most will automatically think of C. But while it’s still the dominant language for the space, these days C has lots of company. The Internet of Things (IoT) is one of ...

Having already provided developers with virtual machines (VM) and containers, enterprise computing has now rolled out serverless programming (Fig. 1). This migration takes advantage of the growth in ...

The microcontroller’s basics, structure, operation, and software were already been covered in the previous parts of the series. Now, the 4th part of Embedded Systems Programming series, will discuss ...