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 ...

Integrating processors, sensors, and data exchange functionality into everyday objects, the Internet of Things (IoT) pushes computing capabilities far beyond desktops and servers. On December 5, ...

This course will give you the foundation for FPGA design in Embedded Systems. You will learn what an FPGA is and how this technology was developed, how to select the best FPGA architecture for a given ...

Integrating processors, sensors, and data exchange functionality into everyday objects, the Internet of Things (IoT) pushes computing capabilities far beyond desktops and servers. On December 6, ...

Developing an embedded system can be a challenging adventure. The blurring of the line between hardware and software requires engineers to live and understand two completely different worlds. Staying ...

AI is vying for circuit and embedded-system design jobs, but in 2025, it still requires a seasoned engineer to ride shotgun. Insight into AI and its use as a tool to design circuits and embedded ...

The burgeoning workloads of embedded systems development teams means reuse of software code, hardware and hardware IP is increasingly the norm, and the use of development boards in embedded design is ...

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.

No matter what type of embedded system you build, you must test it. Tests give us a warm fuzzy feeling that our system works correctly under specific environmental and operational conditions. While ...

The world of embedded systems is a dynamic landscape filled with constant evolution. Over my two decades in this field, I've witnessed significant transformations in how we build and manage our ...