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Modeling and Debugging Embedded Systems

Approx. 8 hours to complete

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Course Summary

Learn how to effectively model and debug embedded systems with this comprehensive course. Gain hands-on experience in debugging techniques and tools to become a proficient embedded systems engineer.

Key Learning Points

Learn how to model and debug embedded systems using industry-standard tools and techniques
Gain a solid understanding of how to design, test and maintain embedded systems
Develop skills in debugging techniques and tools to efficiently identify and fix errors in embedded systems

Learning Outcomes

Develop proficiency in modeling and debugging embedded systems
Gain hands-on experience in industry-standard tools and techniques
Learn how to design, test, and maintain embedded systems effectively

Prerequisites or good to have knowledge before taking this course

Basic knowledge of programming concepts
Familiarity with C programming

Course Difficulty Level

Intermediate

Course Format

Online self-paced course
Hands-on projects
Video lectures
Interactive quizzes

Similar Courses

Embedded Systems Programming
Introduction to Embedded Systems

Related Education Paths

Notable People in This Field

Jack Ganssle
Colin Walls

Related Books

Description

This course can also be taken for academic credit as ECEA 5387, part of CU Boulder’s Master of Science in Electrical Engineering degree.

This is part 3 of the specialization. In this course students will learn : * About SystemC and how it can be used to create models of cyber-physical systems in order to perform "what-if" scenarios * About Trimble Engineering's embedded systems for heavy equipment automation * A deeper understanding of embedded systems in the Automotive and Transportation market segment * How to debug deeply embedded systems * About Lauterbach's TRACE32 debugging tools * How to promote technical ideas within a company * What can be learned from studying engineering failures

Knowledge

About SystemC and how it can be used to create models of cyber-physical systems in order to perform "what-if" scenarios.
About Trimble Engineering's embedded systems for heavy equipment automation.
A deeper understanding of embedded systems in the Automotive and Transoprtion market segment.
How to debug deeply embedded systems.

Outline

SystemC, Trimble Engineering Guest Speakers
Introduction
Segment 1 - SystemC 1
Segment 2 - SystemC 2
Segment 3 - SystemC: Example Baggage Handling System
Segment 4 - Explanation of Rotary Shaft Encoders
Segment 5 - Rotary Shaft Encoder use in Paper Cutters
Segment 6 - SystemC Examples
Segment 7 - Baggage Handling System Model Structure
Segment 8 - Trimble - Introduction
Segment 9 - Trimble - Machine Grade Control, Production Study
Segment 10 - Trimble - Machine Types
Segment 11 - Trimble - Excavator
Segment 12 - Trimble - Communication Protocols
Segment 13 - Trimble - Site Gateway
Segment 14 - Trimble - Peer-to-Peer System
Segment 15 Trimble - Predictive Analytics
Segment 16 - Trimble - Security
Segment 17 - Trimble - UAVs
Segment 18 - Trimble - Augmented Reality
Segment 19 - Trimble - Hololens
Access to Course Resources
A Note from the Instructor
Module 1 Quiz

Deep Dive: Automotive and Transportation
Introduction
Segment 1 Automotive 1
Segment 2 - Automotive 2
Segment 3 - Automotive 3
Segment 4 - Automotive 4 - Waze
Segment 5 - Automotive 5
Segment 6 - Automotive 6
Segment 7 - Trucking
Segment 8 - Trucking - Weigh in Motion
Segment 9 - Logistics
Segment 10 - Trains
Segment 11 - Planes
Segment 12 - Shipping
Segment 13 - Smart Roads
Segment 14 - Smart Parking
Segment 15 - Summary
Module 2 Quiz

Debugging Deeply Embedded Systems, Lauterbach Guest Speaker
Introduction
Segment 1 - Debug 1
Segment 2 - Debug 2
Segment 3 - Log Pages
Segment 4 - Debugging During Validation
Segment 5 - The Importance of Trace
Segment 6 - Lauterbach - Introduction
Segment 7 - Lauterbach - JTAG
Segment 8 - Lauterbach - Tracing
Segment 9 - Lauterbach - Types of Trace Output + Viewing Traces
Segment 10 - Lauterbach - Looking Back in Time
Segment 11 - Lauterbach - Timing and Performance Analysis
Segment 12 - Lauterbach - Code Coverage
Module 3 Quiz

Promoting Technical Ideas, Learning from Failures
Introduction
Segment 1 - Promoting Technical Ideas - Patents
Segment 2 - Promoting Technical Ideas within a Company
Segment 3 - Learning from Failures
Segment 4 - Learning from Failures - From My Past
Segment 5 - Learning from Failures - Sparkfun
Segment 6 - Learning from Failures - Kickstarter CST-01 Watch
Segment 7 - Learning from Failures - Toyota
Segment 8 - 20 Reasons Startups Fail
Segment 9 - Assessing Business Risks
Concluding Remarks
List of IIoT Companies
Module 4 Quiz

Summary of User Reviews

Check out this course on modeling and debugging embedded systems! Students highly recommend it for its comprehensive curriculum and hands-on approach. Many found the instructor's explanations to be clear and easy to follow.

Key Aspect Users Liked About This Course

Clear and easy to follow explanations from the instructor

Pros from User Reviews

Comprehensive curriculum
Hands-on approach
Instructor provides detailed explanations
Real-world examples
Great for beginners and experienced developers alike

Cons from User Reviews

Some students found the pace to be too slow
Limited opportunities for interaction with other students
Course materials could be more organized
Lectures can be a bit lengthy
Not suitable for those without prior programming knowledge

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