Imagination, Microchip, and Digilent deliver IoT curriculum for universities worldwide

April 21, 2016

London, UK. Imagination Technologies and Microchip Technology together with Digilent have announced the Connected MCU Lab, a new course developed through the companies’ respective university programs. The semester-long curriculum, available to universities worldwide, is designed to be an introductory and first microcontroller (MCU) class taken by undergraduate electronic engineering and computer science students. It delivers an interactive start to connected embedded systems education—covering MCUs and I/O, real-time operating system concepts, advanced MIPS processor architecture, and cloud connectivity.

The Connected MCU Lab takes a hands-on approach, leveraging a Wi-Fi enabled development board, tools, software, and cloud services—everything needed to design innovative Internet of Things (IoT) solutions. Lessons are based around the chipKIT Wi-FIRE board from Digilent, which uses Microchip’s PIC32MZ MCU incorporating a 32-bit MIPS M-Class CPU from Imagination. A chipKIT Basic I/O Shield is used for expansion along with a PICkit 3 In-Circuit Debugger from Microchip. Teachers and students have free access to professional software tools including MPLAB X Integrated Development Environment, MPLAB XC32 C compiler, and MPLAB Harmony Software Development Framework from Microchip, as well as Imagination’s cloud technologies.

The Connected MCU Lab curriculum, authored by Dr. Alexander Dean of North Carolina State University, includes presentation slides for each module, student guide, exercises, tests, solutions, and an instructor’s guide.

Said Robert Owen, manager, Worldwide University Programme at Imagination: “The need for internet connectivity and the demand for ease of development are rapidly driving the embedded world towards 32-bit MCUs. As a result, the next generation of embedded-system designers and developers need to understand the techniques of connecting embedded systems to the cloud. This is an urgent teaching requirement as many college courses today are still using 8-bit and 16-bit MCUs. The Connected MCU Lab course makes it easy to give the next generation of engineers the skills they need. The 32-bit MIPS CPUs at the heart of Microchip’s popular PIC32 MCUs are ideal for teaching and projects, and the Wi-FIRE board is powerful enough to support very ambitious projects, enabling this course to provide a foundation on which students can grow throughout their degree.”

The MIPS CPU IP core in the PIC32 MCU is part of the same family as “MIPSfpga,” a soft IP core used in many computer architecture and SoC courses, thereby creating powerful synergy between two vital branches of engineering education.

Said Derek Carlson, vice president, development tools, at Microchip Technology, “This latest offering demonstrates our ongoing commitment to delivering the highest standard of embedded education to the academic communities. By providing access to our popular PIC32MZ family of high-performance MCUs, we are empowering next-generation engineers and research students to better understand the increasing demands of future applications and gain hands-on experience of IoT design. Additionally, our MPLAB X Integrated Development Environment and MPLAB Harmony Integrated Software Framework will help students accelerate software integration, and gain deeper insight into product development cycles.”

Said Steve Johnson, president at Digilent, “At Digilent, our mission is to make electrical engineering and design technologies understandable and accessible to all, by providing high-value, industry-relevant educational tools and curriculum to educators and students. We are proud to partner with Imagination and Microchip to offer this new course that introduces students to the exciting world of cloud-connected embedded devices. As part of the Connected MCU Lab, the chipKIT Wi-FIRE boards will help students get projects up and running quickly, and open a large selection of options they can utilize in the development process to empower them to create ambitious solutions.”

Eighteen universities across Australia, China, Germany, Israel, Portugal, Russia and the United Kingdom participated in the Connected MCU Lab beta program.

www.imgtec.com/university

About the Author

Rick Nelson | Contributing Editor

Rick is currently Contributing Technical Editor. He was Executive Editor for EE in 2011-2018. Previously he served on several publications, including EDN and Vision Systems Design, and has received awards for signed editorials from the American Society of Business Publication Editors. He began as a design engineer at General Electric and Litton Industries and earned a BSEE degree from Penn State.

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