Prepare for Safety-Critical Embedded Systems at MTU. When software lives inside machines, failure isn’t an inconvenience—it’s a safety, reliability, and security risk. From vehicles and aircraft to ...

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 ...

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, ...

Embedded software, once a challenge to write, update, and optimize, is following the route of other types of software. It is abstracted, simpler to use, and much faster to write. But in some cases, it ...

Every good hardware or software design starts with a structured approach throughout the design cycle, but as chip architectures and applications begin focusing on specific domains and include some ...

In the world of embedded systems, it isn’t just the technology that continues to develop and evolve. The tools and the methods used to develop that technology are maturing and improving in tandem. In ...

If you’re an embedded developer, you probably hear about all the cool things in AI, like AI agents, synthetic data, multimodal systems, and more. But let’s be honest, you’re probably ignoring quite a ...

What are the main issues behind the “painful” process of embedded-systems design? Shortages of resources, components, and talent plague the design process. How the instability of toolsets and driver ...

Computer engineering is a broad field that sits in between the hardware of electrical engineering and the software of computer science. When computer engineers design hardware, they focus on what the ...