We've seen in the previous articles how Ada can be used to describe high-level semantics and architecture. The beauty of the language, however, is that it can be used all the way down to the lowest ...

Software architecture has long faced the problem of operating within system boundaries where specific requirements dominate: ...

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 ...

The world today is buzzing with the potential that AI models like ChatGPT have to offer. The potential for AI to revolutionize how people work and play is staggering and, to some, a little scary. To ...

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

One of the most revolutionary applications of electrical and computer engineering technology is when it is coupled with a physical system, forming a closed loop with sensors, computing elements and ...

One of the biggest bottlenecks in the software development process for electronic products is that hardware is not available until late in the cycle. That means embedded software developers need to ...

If something is performing the role of an embedded system, then we surely have to say that it is an embedded system, irrespective of its implementation technology If something is performing the role ...

The rule of thumb in embedded system design has been that addinghardware increases power demands. The careful use of hardwareaccelerators, however, inverts the rule: adding hardware can reducepower.

Every developer wants to develop robust systems. No one wants to point to a product that behaves poorly and say, “I built that.” Many factors come into play when designing and implementing a robust ...