The trend toward multi-core devices is well underway in PCs, but in embedded systems, there's more focus on augmenting single-core devices with an array of peripherals. As geometries shrink, the cost ...

System-on-module (SOM) technology is based on industry-standard logic fabrics combined with the latest-generation FPGAs and all the required supporting structures. They are completely self-contained ...

Where code meets reality, embedded systems come at that intersection, demanding precision, efficiency, and careful planning.

Teams developing firmware and embedded software often develop their software on-target. While there isn’t necessarily anything wrong with using a development board to understand the processor, ...

The 8-bit microcontroller remains a vital component in embedded design due to its power efficiency, adaptability, and cost-effectiveness. When equipped with advanced CIPs and intelligent analog ...

Multi-processor architectures are becoming prevalent in today’s embedded systems to keep up with growing computational requirements, throughput and integrated system features. As an example, high-end ...

Designers can incorporate an array of peripherals into asics and platform systems-on-a-chip. but custom designs have very high upfront costs, making them practical only when chip production runs are ...

When you think of an embedded systems class, what do you expect the students to learn? Should they know about single board computers, like the Raspberry Pi or the Beaglebone? Should they know about ...

ECEN 5613 is a 3 credit hour course and is the first course in CU's Professional Certificate in Embedded Systems. It is one of the Embedded Systems Engineering program core courses and provides an ...