Local instructor-led live Embedded Systems training courses in Vietnam.
Testimonials
I liked the hands-on nature of it.
Maurice Egan
Course: Embedded Linux Kernel and Driver Development
I liked the take the first contact with embedded Linux kernel.
Analog Devices
Course: Embedded Linux Kernel and Driver Development
Good overview of how to build a kernel for Linux, would have liked to get more into the driver development.
Analog Devices
Course: Embedded Linux Kernel and Driver Development
I liked the hands-on exercise on cloud machine.
Thales Transport & Security (HK) Ltd.
Course: The Yocto Project - An Overview - hands-on
I liked the exercises.
Rehrig Pacific COmpany
Course: Introduction to IoT Using Arduino
I really enjoy having a virtual PC online, I can do exercises whenever I want
Dongfu Li - Northforge Innovations Inc
Course: Yocto Project
Trainer's Subject Knowledge
Northforge Innovations Inc
Course: Yocto Project
High professionalism
Oleg Polyakov - Northforge Innovations Inc
Course: Yocto Project
learnt some development tools and debug tools which can be used in my work.
Northforge Innovations Inc
Course: Yocto Project
The deep knowledge of the trainer Robert about the topics (Yocto Project, embedded systems, etc.). He's able to answer virtually any quastion you ask him about these topics and he has a really deep background.
ZITRO LABORATORY
Course: Yocto Project
I genuinely enjoyed the trainer knowledge.
Aaron Swift - ITW Hobart
Course: FreeRTOS: Programming for Real Time Operating Systems
I genuinely enjoyed the personalized.
ITW Hobart
Course: FreeRTOS: Programming for Real Time Operating Systems
The trainer knew free rtos and was ope to answer our questions.
ITW Hobart
Course: FreeRTOS: Programming for Real Time Operating Systems
I generally was benefit from the practical exercises.
Ismael Martinez - ESML SD IBERIA HOLDING S.A.
Course: Yocto Project
I already had a little knowledge of Arduino, so it was good to hear more about the background of arduino, what it can be used for, and the resources available for help.
University of Glasgow
Course: Arduino: Programming a Microcontroller for Beginners
The aquisition of useful knowlwdge and clarification of some things I was not sure of peviously.
Kenneth Mahoney - University of Glasgow
Course: Arduino: Programming a Microcontroller for Beginners
Rod seemed very knowledgeable and enthusiastic about the course material.
Kyle Stirling - University of Glasgow
Course: Arduino: Programming a Microcontroller for Beginners
Rod's style was entertaining.
Tom O'Hara - University of Glasgow
Course: Arduino: Programming a Microcontroller for Beginners
2 days of no interptions, which enabled me to concentrate on the task in hand.
University of Glasgow
Course: Arduino: Programming a Microcontroller for Beginners
I found the balance of "white board" teaching versus practical "hands-on" learning was just right for an Arduino introductory course, and the pace was also appropriate.
Neil Owen - University of Glasgow
Course: Arduino: Programming a Microcontroller for Beginners
I enjoyed the training was delivered by someone with experience in the field.
Nicholas Scott - University of Glasgow
Course: Arduino: Programming a Microcontroller for Beginners
relaxed and informal environment plenty of help during worked examples
bernard hoey - University of Glasgow
Course: Arduino: Programming a Microcontroller for Beginners
Practical work
James Gordon - Argent Energy
Course: Introduction to IoT Using Arduino
Linux debugging through Visual studio
HPS
Course: Introduction to Embedded Linux (Hands-on training)
Lots of nice exercises. The trainer had impressive knowledge and experience.
Robert Bosch Kft.
Course: Using C++ in Embedded Systems - Applying C++11/C++14
Examples, applications of C++11/14 techniques.
Robert Bosch Kft.
Course: Using C++ in Embedded Systems - Applying C++11/C++14
A fairly wide resource of knowledge leading, explaining many language regulations from training, arguing many rules for the use of C language.
PIT-RADWAR S.A.
Course: Embedded C Application Design Principles
Machine Translated
A large amount of practical information or guidance resulting from the industrial experience of the instructor
PIT-RADWAR S.A.
Course: Embedded C Application Design Principles
Machine Translated
Issues on the compiler, linker, and hermetic. The humor of the teacher.
PIT-RADWAR S.A.
Course: Embedded C Application Design Principles
Machine Translated
Great knowledge of the lecturer.
PIT-RADWAR S.A.
Course: Embedded C Application Design Principles
Machine Translated
Security models, discussion of good programming practices, various types of attacks.
Piotr Piątek - EduBroker Sp. z o.o.
Course: Embedded Systems Security
Machine Translated
practical tips, a lot of examples
Marta Kuchta - Nippon Seiki (Europe) B.V. Sp. z o.o. oddział w Polsce
Course: Embedded C Application Design Principles for Automotive Professionals
Machine Translated
The coach is very well prepared and you can experience his experience and knowledge of embedded programming and more. The training was interesting, very dynamic and expressive. It certainly could not get boring.
Mariusz Kordowski - Nippon Seiki (Europe) B.V. Sp. z o.o. oddział w Polsce
Course: Embedded C Application Design Principles for Automotive Professionals
Machine Translated
Extensive theoretical and practical knowledge of the lecturer, the ability to involve the listener, the dynamics of speech.
Klaudia Chrzan - Nippon Seiki (Europe) B.V. Sp. z o.o. oddział w Polsce
Course: Embedded C Application Design Principles for Automotive Professionals
Machine Translated
Spontaneity, trivia, impressive knowledge of the lecturer.
Hubert Śliwowski - Nippon Seiki (Europe) B.V. Sp. z o.o. oddział w Polsce
Course: Embedded C Application Design Principles for Automotive Professionals
Machine Translated
examples and suggestions for practical use
Leszek Przybylski - Nippon Seiki (Europe) B.V. Sp. z o.o. oddział w Polsce
Course: Embedded C Application Design Principles for Automotive Professionals
Machine Translated
A lot of useful issues and concepts. Interesting sources of knowledge are given.
Paweł Rokicki - Nippon Seiki (Europe) B.V. Sp. z o.o. oddział w Polsce
Course: Embedded C Application Design Principles for Automotive Professionals
Machine Translated
Practical examples using STM systems and interesting subtleties in the CORTEX range
Grzegorz Warchoł - SOPEM sp z o.o
Course: FreeRTOS: Programming for Real Time Operating Systems
Machine Translated
Embedded Systems Subcategories in Vietnam
Embedded Systems Course Outlines in Vietnam
By the end of this training, participants will be able to:
- Understand how Arduino works.
- Dig deep into the main components and functionalities of Arduino.
- Program the Arduino without using the Arduino IDE.
By the end of this training, participants will be able to:
- Understand the basic concepts of real-time operating systems.
- Learn the environment of FreeRTOS.
- Learn how to code with FreeRTOS.
- Interface a FreeRTOS application to hardware peripherals.
By the end of this training, participants will be able to:
- Understand the fundamental concepts behind a Yocto Project build system, including recipes, metadata, and layers.
- Build a Linux image and run it under emulation.
- Save time and energy building embedded Linux systems.
In this instructor-led, live training, participants will learn how to secure an internet connection through a Shadowsocks proxy.
By the end of this training, participants will be able to:
- Install and configure Shadowsocks on any of a number of supported platforms, including Windows, Linux, Mac, Android, iOS, and OpenWrt.
- Deploy Shadosocks with package manager systems, such as pip, aur, freshports and others.
- Run Shadowsocks on mobile devices and wireless networks.
- Understand how Shadowsocks encrypts messages and ensures integrity and authenticity.
- Optimize a Shadowsocks server
Audience
- Network engineers
- System Administrators
- Computer technicians
Format of the course
- Part lecture, part discussion, exercises and heavy hands-on practice
In this instructor-led, live training, participants will learn how to set up and program the Raspberry Pi to serve as an interactive and powerful embedded system.
By the end of this training, participants will be able to:
- Set up an IDE (integrated development environment) for maximum development productivity
- Program Raspberry Pi to control devices such as motion sensor, alarms, web servers and printers.
- Understand Raspberry Pi's architecture, including inputs and connectors for add-on devices.
- Understand the various options in programming languages and operating systems
- Test, debug, and deploy the Raspberry Pi to solve real world problems
Audience
- Developers
- Hardware/software technicians
- Technical persons in all industries
- Hobbyists
Format of the course
- Part lecture, part discussion, exercises and heavy hands-on practice
Note
- Raspberry Pi supports various operating systems and programming languages. This course will use Linux-based Raspbian as the operating system and Python as the programming language. To request a specific setup, please contact us to arrange.
- Participants are responsible for purchasing the Raspberry Pi hardware and components.
In this instructor-led, live training, participants will learn how to use the Altium software to create PCB circuit boards. The course starts by examining a set of existing schematics, then drawing out an original circuit in Altium. The training steps through process for designing and manufacturing the circuit board.
By the end of this training, participants will be able to:
- Create a Printed Circuit Board (PCB) from any schematic
- Create schematics and design circuit boards using Altium
- Print and etch a physical circuit board
- Export the industry-standard files for sending to a large-scale manufacturer
Audience
- Engineers
- Technicians
Format of the Course
- Part lecture, part discussion, exercises and heavy hands-on practice
Notes
- To request a customized training for this course, please contact us to arrange.
In this instructor-led, live training, participants will learn how to use the Eagle software to create PCB circuit boards. The course starts by examining a set of existing schematics, then drawing out an original circuit in Eagle. The training steps through process for designing the circuit board and discusses the process for manufacturing the boards (the course does not include the physical manufacturing of the boards).
By the end of this training, participants will be able to:
- Create a Printed Circuit Board (PCB) from any schematic
- Create schematics and design circuit boards using Eagle
- Export the industry-standard files for constructing the circuit board
Audience
- Engineers
- Technicians
Format of the Course
- Part lecture, part discussion, exercises and heavy hands-on practice
Notes
- To request a customized training for this course, please contact us to arrange.
By the end of this training, participants will be able to:
- Set up and administer ONTAP 9.3 Cluster (3 days).
- Safeguard data through Data Protection technologies (2 days).
In this instructor-led, live training participants will learn how to apply MBD methodologies to reduce development costs and accelerate the time to market of their embedded software products.
By the end of this training, participants will be able to
- Select and utilize the right tools for implementing MBD.
- Use MBD to carry out rapid development in the early stages of their embedded software project.
- Shorten the release of their embedded software into the market.
Format of the course
- Part lecture, part discussion, exercises and heavy hands-on practice
In this instructor-led, live training, participants will learn how to set up a LEDE based wireless router.
Audience
- Network administrators and technicians
Format of the course
- Part lecture, part discussion, exercises and heavy hands-on practice
By the end of this training, participants will be able to:
- Understand the principles of IoT, including IoT components and communication techniques.
- Learn how to use Arduino communication modules that can be used for different IoT systems.
- Learn how to use and program a mobile app to control Arduino.
- Use a Wi-Fi module to connect the Arduino to another device.
- Build and deploy their own IoT Sensor System.
Should object-oriented-programming be used in microcontrollers?
Is C++ too far removed from the hardware to be efficient?
This instructor-led, live training addresses these questions and demonstrates through discussion and practice how C++ can be used to develop embedded systems with code that is accurate, readable, and efficient. Participants put theory into practice through the creation of a sample embedded application in C++.
By the end of this training, participants will be able to:
- Understand the principles of object-oriented modelling, embedded software programming and real-time programming
- Produce code for embedded systems that is small, fast and safe
- Avoid code bloat from templates, exceptions, and other language features
- Understand the issues related to using C++ in safety-critical and real-time systems
- Debug a C++ program on a target device
Audience
- Developers
- Designers
Format of the course
- Part lecture, part discussion, exercises and heavy hands-on practice
By the end of this training, participants will be able to:
- Program Arduino to control lights, motors, and other devices.
- Understand Arduino's architecture, including inputs and connectors for add-on devices.
- Add third-party components such as LCDs, accelerometers, gyroscopes, and GPS trackers to extend Arduino's functionality.
- Understand the various options in programming languages, from C to drag-and-drop languages.
- Test, debug, and deploy the Arduino to solve real world problems.
This course will introduce the architecture and capabilities of Berkeley DB and walk participants through the development of their own sample application using Berkeley DB.
Audience
- Application developers
- Software engineers
- Technical consultants
Format of the course
- Part lecture, part discussion, hands-on development and implementation, tests to gauge understanding
By the end of this training, participants will be able to:
- Build and operate a robotic system that includes both software and hardware components
- Understand the key concepts used in robotic technologies
- Assemble motors, sensors and microcontrollers into a working robot
- Design the mechanical structure of a robot
Audience
- Developers
- Engineers
- Hobbyists
Format of the course
- Part lecture, part discussion, exercises and heavy hands-on practice
Note
- Hardware kits will be specified by the instructor before the training, but will roughly contain the following components:
- Arduino board
- Motor controller
- Distance sensor
- Bluetooth slave
- Prototyping board and cables
- USB cable
- Vehicle kit
- Participants will need to purchase their own hardware.
- If you wish to customize this training, please contact us to arrange.
- How to select software that goes into the root filesystem.
- How to add new packages and modify existing ones.
- How to add support for new embedded boards.
During the course, bootable filesystem images will be produced. Remote courses are delivered using the [QEMU](/cc/qemukvm) emulator, while in the classroom it is possible to use either QEMU or real embedded boards of the trainer's choice.
Other projects with similar goals include the [Yocto project](/cc/yoctoproject) and OpenWRT. Please use [these](https://bootlin.com/pub/conferences/2016/elc/belloni-petazzoni-buildroot-oe/belloni-petazzoni-buildroot-oe.pdf) [presentations](https://elinux.org/images/0/0a/Embedded_Linux_Build_Systems.pdf) to determine which one is the right choice for your needs.
By the end of this course, participants will have a solid understanding of security principles, concerns, and technologies. More importantly, participants will be equipped with the techniques needed for developing safe and secure embedded software.
By the end of this training, participants will be able to:
- Understand the design considerations that make embedded C programs reliable
- Define the functionality of an embedded system
- Define the program logic and structure to obtain the desired result
- Design a reliable, error-free embedded application
- Obtain optimal performance from target hardware
Format of the Course:
- Interactive lecture and discussion
- Exercises and practice
- Hands-on implementation in a live-lab environment
Course Customization Options:
- To request a customized training for this course, please contact us to arrange.
Who should attend?
Engineers interested in Linux kernel development on Embedded systems and plateforms.
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