Free Online course on Embedded Systems

The University of Texas is glad to announce you “Embedded Systems – Shape The World: Multi-Threaded Interfacing” free online course. The course is aimed to build real-world embedded solutions using a bottom-up approach from simple to complex in this hands-on, lab-based course.

In this free, online course, they will use interrupts to design a range of real-time systems including an audio player, a data acquisition system, a control system, and an interactive game.The course starts on February 15, 2017.

Course At A Glance

  1. Length: 8 weeks
  2. Effort:  10 hours per week
  3. Subject:  Computer Science
  4. Institution: The University of Texas
  5. Languages: English
  6. Price: Free
  7. Certificate Available: Yes
  8. Session: The course will start on February 15, 2017

Providers Details

  • About University: The University of Texas at Austin is the top-ranked public university in a nearly 1,000-mile radius, and is ranked in the top 25 universities in the world.
  • Aim of University: The mission of The University of Texas at Austin is to achieve excellence in the interrelated areas of undergraduate education, graduate education, research and public service. The university provides superior and comprehensive educational opportunities at the baccalaureate through doctoral and special professional educational levels.


Computer programming course in any language with exposure to variables, arithmetic, logic, loops, and functions. High school physics course covering current, voltage, resistance, and power. We expect students to have knowledge obtained in part 1 of the course including LED/switch interfacing, I/O port programming, finite state machine, microcontroller debugging, and C programming.

About This Course

  • Benefits: You will learn how electronic gadgets are designed, developed, and built as embedded systems that shape the world. They will present both general principles and practical tips for building circuits and programming the microcontroller in the C programming language. Laboratory assignments are first performed in simulation, and then you will build and debug your system on the real microcontroller. The language of the course is English.
  • Importance of the Subject in Today’s Scenario: The most important aspect of computer science is problem-solving, an essential skill for life. Students study the design, development, and analysis of software and hardware used to solve problems in a variety of business, scientific and social contexts. Because computers solve problems to serve people, there is a significant human side to computer science as well.

How to Join This Course

You should register yourself through the given link to join this free on-line course:

Course Format

The best way to understand what you will learn in this class is to list the labs you will complete and the example projects we will build. You will complete each lab first in simulation and then on the real board. For each module we will design a system and you will build and test a similar system.

  • Module 1: Welcome and introduction to course and staff
  • Module 11: UART – The Serial Interface, I/O Synchronization: Lab 11. Write C functions that output decimal and fixed-point numbers to serial port
  • Module 12: Interrupts: Lab 12. Design and test a guitar tuner, producing a 440 Hz tone
  • Module 13: DAC and Sound. Lab 13. Design and test a digital piano, with 4 inputs, digital to analog conversion, and sound
  • Module 14: ADC and Data Acquisition. Lab 14. Design and test a position measurement, with analog to digital conversion and calibrated output
  • Module 15: Systems Approach to Game Design. Lab 15. Design and test a hand-held video game, which integrates all components from previous labs. Lab 15 will be graded by having students watch videos of each other’s’ games.
  • Module 16: Wireless Communication and the Internet of Things. Lab 16. Connect a CC3100 booster pack to the LaunchPad and communicate with an access point. Lab 16 will first fetch weather from the internet, and then you will send data to the class server.

Why Take This Course

  • Advantage of Course: This is a hands-on, learn-by-doing course that shows you how to build solutions to real-world problems using embedded systems. These courses use a bottom-up approach to problem solving, building gradually from simple interfacing of switches and LEDs to complex concepts like display drivers, digital to analog conversion, generation of sound, analog to digital conversion, motor control, graphics, interrupts, and communication.
  • Certificate: You can pursue a verified certificate for $50  to highlight the knowledge and skills you gain, you can add the certificate to your CV or resume, or post it directly on LinkedIn.

Learning Outcomes

Upon completion of this course, students using a social work practice framework will be able to:

  • Understanding of embedded systems using modular design and abstraction
  • C programming: considering both function and style
  • Build and test circuits with switches, LEDs, resistors, potentiometers, and liquid crystal displays
  • Synchronizing hardware and software input/output with switches, lights, sound, sensors. motors, and liquid crystal displays
  • Implement an I/O driver and multi-threaded programming using interrupts
  • Debug using oscilloscopes, logic analyzers, and software instrumentation
  • Learn how to read a data sheet
  • Construct a smart object and create a system as part of the Internet of Things


  • Jonathan Valvano: is a professor in the Department of Electrical and Computer Engineering at The University of Texas at Austin and holds the Engineering Foundation Centennial Teaching Fellowship in Electrical Engineering.
  • Ramesh Yerraballi:  is a Senior Lecturer in the Departments of Electrical and Computer Engineering and Biomedical Engineering at The University of Texas at Austin.

Suggested Reading

Basic knowledge of computer science.

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  • You will develop debugging skills using oscilloscopes, logic analyzers, and software instrumentation. Laboratory assignments are first performed in simulation, and then you will build and debug your system on the real microcontroller. At the conclusion of this course you will possess the knowledge to build your own arcade-style game from the ground up.
  • If you pay for the certificate then you can receive an instructor-signed certificate with the institution’s logo to verify your achievement and increase your job prospects. You can add the certificate to your CV or resume, or post it directly on LinkedIn.

Detailed Information

For more information about the course, you can check the given link:!

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