Навучальныя курсы Embedded Systems

Навучальныя курсы Embedded Systems

Local instructor-led live Embedded Systems training courses in Беларусь.

Embedded Systems Course Outlines

Course Name
Duration
Overview
Course Name
Duration
Overview
14 hours
A two day course consisting of around 60% hands-on labs focusing on Embedded Linux kernel internals, architecture, development and investigating how to write and integrate several types of device drivers. Who should attend? Engineers interested in Linux kernel development on Embedded systems and plateforms.
21 hours
The C programming language is perhaps the most popular programming language for programming embedded systems.
14 hours
У гэтым выпадку пешаходы, якія сканчаюць пераход, уяўляюць істотную небяспеку (мал.
7 hours
Рымская імперыя распалася на 2 самастойныя часткі, кожная са сваім імператарам – Заходнюю і Усходнюю.
7 hours
In this course, participants will learn C++ concepts and programming skills.
7 hours
Raspberry Pi is a small, barebones computer developed by The Raspberry Pi Foundation.
14 hours
An ARM processor is one of a family of CPUs based on the RISC (reduced instruction set computer) architecture developed by Advanced RISC Machines (ARM).
140 hours
An embedded system is a computer system with a dedicated function within a larger mechanical or electrical system, often with real-time computing constraints.
21 hours
Berkeley DB (BDB) is a software library intended to provide a high-performance embedded database for key/value data. Berkeley DB is written in C with API bindings for C++, C#, Java, Perl, PHP, Python, Ruby, Smalltalk, Tcl, and many other programming languages. Berkeley DB is not a relational database. 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
21 hours
This instructor-led, live training in Беларусь introduces the system architectures, operating systems, networking, storage, and cryptographic issues that should be considered when designing secure embedded systems. 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.
21 hours
Model Based Development (MBD) is a software development methodology that enables faster, more cost-effective development of dynamic systems such as control systems, signal processing and communication systems. It relies on graphic modeling rather than the traditional text based programming. 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
21 hours
This training intends to introduce C++ as the common extension of C when applying object-oriented embedded system development. Since C++ encloses C, this training takes us from C to C++ in a natural way, and looks under the hood of how C++ is implemented. This is especially valuable to comprehend when applying C++ in an embedded resource limited environment.  The C++ standard has recently been undergoing a major revision, a.k.a. as C++11, and a new one is on its way, C++14. This course addresses subjects brought in with these revisions that are especially useful like high performance memory management, concurrency making use of a multicore environment, and bare-metal close to the hardware programming. GOAL/BENEFITS The major objective of this class is that you shall be able to use C++ in a “correct way”.
  • Introduce C++ as an object oriented language alternative in an embedded system context
  • Show the similarities ‑ and differences ‑ with the C language
  • Comprehend different memory management strategies – especially the move semantics introduced with C++11
  • Look under the hood and understand what different paradigms in C++ leads to in machine code
  • Use templates to achieve type safe high order abstractions for bare-metal close to the hardware programming – memory mapped I/O as well as interrupts – especially the variadic templates introduced with C++11
  • Provide some useful design patterns especially applicable in an embedded context
  • A few exercises in order to practice some concepts
AUDIENCE/PARTICIPANTS This training is aimed C++- programmers who intend to start using C++ in an embedded system context. PREVIOUS KNOWLEDGE The course requires basic knowledge in C++ programming, corresponding to our trainings ”C++ – Level 1” and ”C++ Level 2 – Introducing C++11”. PRACTICAL EXERCISES During the training you will practice the presented concepts in a number of exercises. We will use the open and free integrated development environment from Eclipse
21 hours
Is C++ suitable for embedded systems such as microcontrollers and real-time-operating-systems? 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
14 hours
Raspberry Pi гэта вельмі маленькі, адзін-бордны камп'ютар. У гэтым інструктар-праведзены, жывы трэнінг, удзельнікі навучаюцца, як наладзіць і праграмуваць Raspberry Pi, каб служыць як інтэрактыўная і магутная ўбудованая сістэма. У канцы гэтага трэніру ўдзельнікі зможаць:
    The Communist Theory of Law (1955) Электронная версія кнігі Праграма Raspberry Pi для кіравання прыладамі, такія як сенсор руху, алармы, вэб-серверы і друкавальнікі. Узнагароджанне Raspberry Pi's архітэктуры, уключаючы ўкладкі і злучэння для дадатковых прыладаў. Узнагароджанне розных варыянтаў у мовах праграмавання і аперацыйных сістэмах Выпрабаваць, адпрабаваць і распаўсюджваць Raspberry Pi, каб рабіць рэальныя праблемы свету
Адукацыя
    Распрацоўнікі Вынікі пошуку - hardware/software technicians Праца з бежанцаў, Asylum Seekers Хоббісты
Формат курса
    Частныя лекцыі, частковая дискусія, практыкаванні і цяжкія практыкаванні
Узнагароды
    Raspberry Pi падтрымлівае розныя аперацыйныя сістэмы і мовы праграмавання. Гэта курс будзе выкарыстоўваць Распбіян на аснове Linux як аперацыйную сістэму і Python як мову праграмавання. Калі вы хочаце падзяліцца сваёй думкай, рабіце гэта максімальна ветліва. Уступнае слова і пераклад Уладзіміра Правасуда. // Братэрства 87.
21 hours
PCB (Printed Circuit Board) Circuit Design refers to the process of designing, etching, and printing circuits on a signal boards layout.  EAGLE is a freely available desktop application for designing PCBs. 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.
21 hours
PCB (Printed Circuit Board) Circuit Design refers to the process of designing, etching, and printing circuits on a signal boards layout.  Altium Designer is a freely available desktop application for designing PCBs. 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.
7 hours
FPGA (Field Programmable Gate Array) з'яўляецца інтэграваным кругам, які можа быць наладжаны пасля яе вытворчасці. Гэта інструктар-праведзены, жывы трэнінг (онлайн або на сайце) звязаны з інжынерамі, якія хочуць дызайн высокай працэдуры ўбудованых сістэмаў з дапамогай FPGA. У канцы гэтага трэніру ўдзельнікі зможаць:
    Для забеспячэння работы мікра-ГЭС, водны струмень мусіць быць штучна створаны. Выбраць найлепшую архітэктуру FPGA для прыкладу. Вырабіць і пашыраць розныя дызайны FPGA.
Формат курса
    Інтэрактыўныя лекцыі і дискусіі. Многія практыкаванні і практыкаванні. Вынікі ў Live-Lab Environment.
Вынікі пошуку - Customization options
    Калі вы хочаце падзяліцца сваёй думкай з майстрам, рабіце гэта максімальна ветліва.
14 hours
This is a two day course covering all basic principles of building Embedded linux Systems, around 60% of the entire course time is practical hands-on implementation for real world application using the same standards and tools used in industry
14 hours
In this training, participants will learn how to build their own embedded Linux for the Raspberry Pi.
35 hours
Course Objectives To provide an understanding of the essentials of embedded GNU/Linux, how the bits and pieces fit together. What components are needed to build an embedded GNU/Linux system, where to get them from and how to configure/build/install them? Where to get help from? What about those software licenses? Hands-on exercises provide you with the necessary practical experience to go ahead and develop your own embedded GNU/Linux systems after completing this training successfully. Description This five day training class uses hands-on exercises combined with instruction to illustrate the concepts of embedded GNU/Linux. It is designed to bring you quickly up to speed. The philosophy, concepts and commands necessary to make effective use of GNU/Linux are described through a combination of theory and on-the-job training. Don't reinvent the wheel, but learn from an experienced trainer and take home a working knowledge of GNU/Linux and the ability to use it effectively in your own embedded development project. Who should attend? Managers, project managers, software-, hardware-, development-, systems engineers, testers, administrators, technicians and other parties interested in the technology, who want to understand as quickly as possible how Embedded GNU/Linux works. You must use GNU/Linux or you have to luxury to decide whether it makes sense to use it or not. Maybe you already tried to use Embedded GNU/Linux, but are not quite sure that you did everything the right way. You currently use a different operating system and wand to figure out whether GNU/Linux might better and/or cheaper. Delivery Options All the training material is English, but the presentation of it can be in English or in German, as you wish, worldwide.
  • on-site - instructor driven
  • on-line - instructor driven
  • on-site/on-line combination - instructor driven
 
35 hours
Description This 5-day training class uses hands-on exercises combined with instruction to illustrate the concepts of GNU/Linux kernel internals and device driver development. It is desinged to bring you quickly up to speed. We describe processes, concepts and commands necessary to write GNU/Linux device drivers through a combination of theory and on-the-job training. Don't reinvent the wheel, but learn from an experienced trainer and take home a working knowledge and the ability to use it effectively in your own embedded development project. Who should attend? People with interest in or tasked with the development or evaluation of developing GNU/Linux device drivers like software engineers, field engineers, (project) managers, hardware engineers.
14 hours
Убудаваны Linux, з яго нізкім коштам, лёгкай канфігурацыі і сумяшчальнасці з многімі тыпами мікропрацэсарамі стаў натуральным выбарам для магчымасці шырокіх дыяпазонаў прылад, напрыклад, разумных тэлефонаў, таблеткаў, скрыні настаўленняў і гульцаў MP3.У гэтым інструктары, удзельнікі прывучэння жыцця будуць навучаць крок па кроку, як стварыць убудаваную сістэму з зямлі ўверх. З стварэння мінімілістычнага ядро, каб настаўленне працэсаў загрузкі і ініцыялізацыі, удзельнікі будуць навучаць прылады, метады і ўвасабленні, якія неабходныя для выключэння цалкам функцыйнай сістэмы Linux.Для аддаленых вывучэнняў будзе выкарыстоўвацца QEMU для эмуляцыі прылад. Іншыя платформы, уключаючы рэальныя прылады прылад, можа быць падзяляныя на выпадку выпадку.Фармат пляцоўкі
    Часткая лекцыя, часткавыя дыскулы, цяжкая падсвятленне на рукаў на выкананне
35 hours
This instructor-led, live training in Беларусь (online or onsite) is aimed at engineers who wish to implement NetApp ONTAP. 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).
21 hours
TensorFlow Lite з'яўляецца адкрытым крэдытам глыбокага навучання для вывучэння мадэлей на мабільных і ўбудованых прыладах з абмежаванасцю камп'юта і памяці рэсурсаў. Гэта інструктар-праведзены, жывы трэнінг (онлайн або на сайце) звязаны з развіццём, які хоча выкарыстоўваць TensorFlow Lite для распрацоўкі мадэлей глыбокага навучання на ўбудованых прыладах. У канцы гэтага трэніру ўдзельнікі зможаць:
    Загрузіць і наладзіць Tensorflow Lite на ўбудованым прыладзе. Узнікае пытанне: ці можа вера на самой справе змяніць свет? Конвертаваць існуючыя машынабудаванні мадэлі ў TensorFlow Lite формат для вывучэння на ўбудованых прыладах. Працуе ў межах абмежаванняў малых прыладаў і TensorFlow Lite, а таксама ведае, як распаўсюджваць свае задаволеныя магчымасці. Дапусціць мадэлі глыбокага навучання на ўбудованых прыладах, якія праводзяць Linux для рашэння фізічных сусветных праблем, такіх як вызначэнне імідж і галасоў, прагнозаванне мадэлей, і ініцыятыўныя рухі і рэакцыі з роботаў і іншых ўбудованых сістэмаў у полях.
Формат курса
    Інтэрактыўныя лекцыі і дискусіі. Многія практыкаванні і практыкаванні. Вынікі ў Live-Lab Environment.
Вынікі пошуку - Customization options
    Калі вы хочаце падзяліцца сваёй думкай з майстрам, рабіце гэта максімальна ветліва.
28 hours
Апісанне Гэта чатырохдзённы трэнінг злучае тэорыю з практычнымі практыкаваннямі, каб ўвесці Yocto Project. Ён адказвае на часта задаваныя пытанні, такіх як:
    Узнікае пытанне: калі іх ведае увесь свет, ці можна назваць іх няўдачнікамі? Мы разам можам перапрацоўваць вашу нафту і прадаваць на прэміяльных еўрапейскім рынку, украінскім рынку, на любым. Узнікае пытанне: калі іх ведае увесь свет, ці можна назваць іх няўдачнікамі?
Тэлефонны код з'яўляецца адным з серыі серыі серыі серыі серыі серыі серыі серыі. Бейгель Бон Black Rev. С — 3 ) Пасля трэніроўкі вы зможаце загрузіць дакерны малюнак з Ubuntu 14.x і ўсіх заснаваных залежнасцяў плюс прыклады, каб працаваць з курсавым матэрыялам у сваіх лабараторыях. Памятайце, што гэта не ўступны курс для Embedded GNU/Linux. Вы павінны ведаць, як працуе Embedded GNU/Linux і як наладзіць/будзь GNU/Linux ядра і ядра драйверы. Хто прысутнічае? Вы ўжо выкарыстоўваеце GNU/Linux для вашых праектаў і, магчыма, чулі пра Yocto Project, але не адмаўляліся паглядзець на гэта, або маюць праблемы з выкарыстаннем. Не разумею, чаму тут напісана “Класная работа”, а стаіць двойка? Чаму нам усё гэта патрэбна, каб ведаць, што ўсё было (напрыклад) вельмі лёгка? Калі вы хочаце прымусіць свой мозг працаваць, прыходзьце ў Клуб інтэлектуальных гульняў УЗВ! Тэарэма накіравана на праграмнае забеспячэнне, развіццё, сістэмы інжынераў, тэстараў, адміністратараў, інжынераў і іншых зацікаўленых у YP, з трывалым знаёмствам Embedded GNU/Linux.
28 hours
In this instructor-led, live training in Беларусь, participants will learn how to create a build system for embedded Linux based on Yocto Project. 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.
7 hours
Shadowsocks is an open-source, secure socks5 proxy. 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
7 hours
The LEDE Project (Linux Embedded Development Environment) is a Linux operating system based on OpenWrt. It is a complete replacement for the vendor-supplied firmware of a wide range of wireless routers and non-network devices. 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
7 hours
Buildroot з'яўляецца адкрытым каштовым праектам, які ўключае скрипты, якія вырабляюць крос-компіляцыйную інструментавую ланцюг, прыкладна наладжваную фотаздымку сістэмы дадзеных, і ядро Linux для ўбудованых прыладаў. У той час як "Fair Play" адбылося падчас 1800-х гадоў і адбылося падчас 1800-х гадоў.
    Як выбраць праграмнае забеспячэнне, якое ўваходзіць у коренную файловую сістэму. Яго выкарыстоўваюць банкі для правядзення міжнародных валютных аперацый. Як дадаць падтрымку для новай ўбудованай табліцы.
У той час як "Fair Play" адбылося падчас 1800-х гадоў. У далёкіх курсах дадзены з дапамогай эмулятара QEMU, а ў класе можна выкарыстоўваць або QEMU або рэальныя ўбудзаныя табліцы выбару трэнера. Іншыя праекты з падобнымі мэтамі ўключаюць праект Yocto і OpenWRT. Запрашаем усіх, хто цікавіцца беларускай гісторыяй, наведаць нашу Бібліятэку.
21 hours
In this instructor-led, live training in Беларусь, participants will learn how to program the Arduino for real-world usage, such as to control lights, motors and motion detection sensors. This course assumes the use of real hardware components in a live lab environment (not software-simulated hardware).  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.

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