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diff --git a/src/doc/src/qtee-index.qdoc b/src/doc/src/qtee-index.qdoc deleted file mode 100644 index 766f437..0000000 --- a/src/doc/src/qtee-index.qdoc +++ /dev/null @@ -1,205 +0,0 @@ -/**************************************************************************** -** -** Copyright (C) 2014 Digia Plc -** All rights reserved. -** For any questions to Digia, please use the contact form at -** http://www.qt.io -** -** This file is part of Qt Enterprise Embedded. -** -** Licensees holding valid Qt Enterprise licenses may use this file in -** accordance with the Qt Enterprise License Agreement provided with the -** Software or, alternatively, in accordance with the terms contained in -** a written agreement between you and Digia. -** -** If you have questions regarding the use of this file, please use -** the contact form at http://www.qt.io -** -****************************************************************************/ - -/*! - \page index.html - \nextpage qtee-overview.html - \title Qt 5.7 for Device Creation - - \welcome - \e {Qt for Device Creation} is a commercial offering, providing a - fully-integrated solution for creating embedded Linux-based products. It - provides the complete toolchain required for faster software development, - enabling quicker time-to-market. - - The Qt development environment for device creation consists of: - - \include common.qdocinc overview-list - - \e{\b{IMPORTANT:} Make sure to follow the \l{Installation Guide} - closely!} - - \section1 Contents - - \list - \li \l{Overview} - \li \l{About Boot to Qt} - \li \l{Installation Guide} - \li \l{Supported Platforms} - \li \l{Preparing Hardware} - \list - \li \l{Boundary Devices i.MX6 Boards} - \li \l{Preparing SABRE SD i.MX6Quad}{SABRE SD i.MX6Quad} - \li \l{Preparing Toradex Apalis iMX6}{Toradex Apalis iMX6} - \li \l{Preparing Toradex Colibri iMX6}{Toradex Colibri iMX6} - \li \l{Preparing Toradex Colibri VF50 and VF61}{Toradex Colibri VF50 and VF61} - \li \l{Preparing Kontron SMARC-sAMX6i}{Kontron SMARC-sAMX6i} - \li \l{Preparing BeagleBone Black}{BeagleBone Black} - \li \l{Preparing Raspberry Pi 3}{Raspberry Pi 3 Model B} - \li \l{Intel NUC} - \li \l{NVIDIA DRIVE CX} (Available in \QAS) - \endlist - \li \l{Building and Running Embedded Applications} - \list - \li \l{Special Build & Run Options} - \endlist - \li \l{Customization} - \li \l{Building Your Own Embedded Linux Image} - \list - \li \l{Linking to Static Builds of Qt} - \endlist - \li \l{Building the Emulator from Sources} - \li \l{ChangeLog} - \li \l{Troubleshooting} - \li \l{Known Issues} - \li \l{License Information} - \endlist - - \section1 Reference Documentation - - \list - \li \l{Add-On Modules} - \endlist -*/ - -/*! - \page qtee-overview.html - \previouspage index.html - \nextpage qtee-about-b2qt.html - - \title Overview - - The development package that you get with \SDK consists of: - - \include common.qdocinc overview-list - - \section1 About Qt Development Libraries - - \l {http://www.qt.io/}{Qt} is a full development framework designed to - streamline the creation of applications and user interfaces for desktop, - embedded, and mobile platforms. With Qt, you can reuse code efficiently - to target multiple platforms with one code base. The modular C++ class - library and development tools enable developers to create applications - for one platform and easily build and deploy on other platforms as well. - - The Qt libraries provide high-level APIs for a large variety of both - non-GUI and GUI related functionality. For UI creation, Qt provides a - number of approaches: traditional C++, declarative UI design with - \l {Qt Quick} or HTML5/hybrid user interfaces with the \l {Qt WebEngine} - module. - - For overview about Qt libraries see the \l {Qt reference documentation}. - - \section1 Additional Embedded Libraries and Value-Add Components - - In addition to the Boot to Qt stack and a comprehensive development - environment, \SDK comes with a set of components that bring new features and - speed up the creation of high-performing, modern UI embedded applications: - - \list - \li \l {Qt Virtual Keyboard} - complete virtual keyboard solution with - word-prediction and multiple languages supported. - \li \l {Qt Quick Enterprise Controls} - a set of advanced UI controls - with an industry-specific look-and-feel. - \li \l {Qt Quick Compiler} - enables compiling .qml source files into - application binaries, improving load times and security for code - assets. - \li \l {Qt Charts} - UI Components for displaying visually pleasing - charts, driven by static or dynamic data models. - \li \l {Qt Data Visualization} - UI Components for creating stunning 3D - data visualizations. - \li \l {Qt Quick 2D Renderer} - enables Qt Quick UIs on GPU-less - devices. - \endlist - - \section1 About the Development Environment - - The development environment is built around the Qt Creator IDE. Qt Creator - runs on all desktop platforms, but the embedded development environment is - currently supported only on 64-bit Linux desktop and Windows. - - Device deployment can be done directly from the Qt Creator IDE to a device - connected via USB or local area network. The Qt Creator IDE is - pre-configured for devices running \B2Q but can also be manually configured - to build and deploy to custom embedded toolchains and devices. - - Alternatively, you can deploy the application locally to the Emulator that - is running the same, full software stack as the devices. As with any Qt - based application, the same application can be deployed to desktop and - mobile OS targets as well. -*/ - -/*! - \page qtee-about-b2qt.html - \previouspage qtee-overview.html - \nextpage qtee-installation-guide.html - - \title About Boot to Qt - - \e{\b{\B2Q}} is a light-weight, Qt-optimized, full software stack for - embedded Linux systems that is installed into the actual target device. - This is done by flashing the device's memory card or internal memory - directly with a pre-built image that comes with the online installer. - See the \l{Installation Guide} for details. - - \B2Q is ideal for the following use cases: - - \list - \li Evaluating Qt on real embedded environment using one of the provided - reference images. - \li Getting the embedded development environment up and running in no - time. Later, the stack can be customized to production with - \e Build-Your-Own-Stack tooling, including proprietary Yocto Project - recipes. - \endlist - - \image build-your-own-stack.png - - \B2QL is using the traditional embedded Linux - kernel built with the Yocto Poky reference system (Yocto 2.0 Jethro release). - The embedded Linux variant is designed for great customization possibilities. - It contains only components required in the embedded device, resulting in - smaller image sizes while keeping valuable development tools available. - - \B2Q have been tested and verified on a number of different - hardware configurations. Usage of \B2Q is not limited to the devices used as - \l {Supported Platforms}{reference platforms}, it can be made to run on a - variety of hardware. - - \section1 Build-Your-Own-Stack Tooling - - \B2QL is built using the tools and resources from the \l {Yocto Project}, - and is based on Yocto's reference distribution (\e Poky). You can - use the same tools to build custom \B2Q images, and have control over - the packages included in the build and configure the software stack. - - The process consist of three parts: Building the \B2Q image and the - external toolchain, building Qt libraries and add-ons, and configuring - Qt Creator for the new toolchain and custom image: - - \list - \li \l {Building Your Own Embedded Linux Image} - \endlist - - \section1 Emulator - - The \l {Emulator Manual}{emulator} running a \B2Q image enables you to - test and debug applications in an environment identical to that of the - device, without having a real device connected to the development host. -*/ |