Any electronic system that uses a computer chip but is not a general-purpose desktop or laptop computer, tablet or smartphone. Embedded systems use microcontrollers (MCUs), microprocessors (MPUs) or ...

Embedded systems power everything from smart agriculture sensors to life-saving medical implants. As their numbers swell into the tens of billions, the engineering community faces a pivotal challenge: ...

Computer engineering encompasses a wide range of topics surrounding this interaction between hardware and software. Computer engineers of the future will be versatile full-stack developers, ...

At the intersection of hardware and software architecture, embedded systems are integral in applications including smart devices, wearables, autonomous systems, security and defense technologies, ...

Embedded systems design and development can sometimes seem worlds apart from traditional application development on general computing devices and maybe even more so from Web development on the server ...

The Embedded Systems Engineering (ESE) subplan in our Professional Master's Program provides comprehensive coverage of essential embedded technologies, current tools and trends. It is structured to ...

CPU power has for the past three decades dictated the way software engineers design and implement embedded-software options. During the early days of the microprocessor revolution, programmers had to ...

If there is one thing in software engineering that is a given, it’s that engineers need continuous education. While graduating college might have made us think that we were “done,” the truth is that ...

One of the biggest dreams anyone has is to make a living doing what they love. For all hackers, makers, and DIYers with a passion for embedded systems, it may make sense initially to pursue embedded ...

Analytics-driven embedded systems bring analytics to embedded applications, moving many of the functions found in cloud-based, big-data analytics to the source of data. This allows for more efficient ...