This FAQ is based on MYIR's i.MX6UL&6ULL products but also can be applied on products of other vendors. MYIR provides a series of i.MX 6UL/6ULL based products including SoM, SBC, development board and HMI display panel. MYD-Y6ULX-CHMI | 7-inch HMI Display Solution based on NXP i.MX 6UL/6ULL-Welcome to MYIR  MYS-6ULX | NXP i.MX 6UL / 6ULL SBC Board for IoT and Industry Applications-Welcome to MYIR  MYC-Y6ULX CPU Module | NXP i.MX 6UL, i.MX 6ULL SOM | ARM Cortex-A7 Processor-Welcome to MYIR   MYD-Y6ULX | NXP i.MX 6UL, i.MX 6ULL Development Board / SOM, ARM Cortex-A7 Processor-Welcome to MYIR  MYD-Y6ULX-HMI Development Board | NXP i.MX 6UL/6ULL Board for HMI Applications-Welcome to MYIR  MYIR is pleased to share the experience with more developers. 

Human Machine Interface (HMI) is a graphical interface between the user and the machine that allows humans to interact with machines, thus helping us effectively control equipment as well as getting real time data acquisition. Nowadays HMIs are widely used in countless sectors like electronics, entertainment, automation, industry, military, medical, etc. A user-friendly HMI can help increase productivity by having a centralized control system. The MYD-Y6ULX-CHMI Display Panel introduced by MYIR is specially designed for HMI applications which is based on NXP’s i.MX 6UL / 6ULL ARM Cortex-A7 processors. It is ready to run Linux and consists of an MYD-Y6ULX-HMI Development Board and a 7-inch capacitive LCD mounting on its top. It is delivered with necessary cable accessories including one 12V/2A power adapter with four types of conversion plugs, one power switch cable and a quick start guide to help user start to use right away when getting it out of box.                                              MYD-Y6ULX-CHMI Display Panel    MYIR also offers an add-on optional IO board MYB-Y6ULX-HMI-4GEXP for the MYD-Y6ULX-CHMI Display Panel to further extend the functionality of the panel including one more Ethernet, WiFi & BT, USB based 4G LTE Module Mini-PCIe interface, Audio and GPIOs, thus making a complete solution for HMI applications. The IO board is delivered with one WiFi antenna and one 4G antenna but 4G module is told only as an option and user can contact MYIR for details.                                                  MYB-Y6ULX-HMI-4GEXP IO Board Let’s know more about the MYD-Y6ULX-CHMI Display Panel. The MYD-Y6ULX-HMI Development Board can support DC 12V~24V power supply. It is built around the MYC-Y6ULX CPU Module which has a compact design, measuring only 37mm by 39mm. It has integrated the i.MX 6UL/6ULL processor, DDR3, NAND FLASH/EMMC and was well soldered onto the base board through its 1.0mm pitch 140-pin Stamp Hole (Castellated-Hole) Expansion Interface which is cost-effective but with high reliability and strong vibration resistance. The 7-inch LCD provided by MYIR offers 800x480 pixels display resolution with a capacitive touch screen. Separate the LCD from the MYD-Y6ULX-HMI board, we can see on the back of the board there is one LCD interface (16-bit RGB), one capacitive touch screen interface and one resistive touch screen interface. The i.MX 6UL/6ULL series processors can support maximum 1366 by 768 pixels display resolution. On the MYD-Y6ULX-HMI board, from left to right, we can see one 2-pin 3.81mm pitch phoenix connector for 12V~24V DC power input (one power switch cable was provided), one 3-wire RS232 serial port and one RS485 serial port from the 6-pin phoenix connector, one 10/100Mpbs Ethernet port, one USB Host port (Type A), one Micro USB OTG port and one TF card slot. Near the TF card slot, there is one 2.54mm 3-pin header for Debug port and RTC battery holder. On the other side of the board, there is one 8-bit parallel camera interface, buzzer and one reset button.   The MYD-Y6ULX-HMI board has two 2.0mm pitch 2*20-pin headers for IO extension. The MYB-Y6ULX-HMI-4GEXP is just an IO extension board designed by MYIR.     The MYD-Y6ULX-CHMI is ready to run Linux operating system. MYIR has built an application demo MEasy HMI to run on this platform. The MEasy HMI is a frame of human-machine interfaces which contains a local HMI based on QT5 and a Web HMI based on Python2 back end and HTML5 front-end. The dependency software includes dbus, connman and QT5 applications, python, tornado and other components. The MEasy HMI block diagram is shown as below:   The MEasy HMI uses D-Bus as the access interface for the QT application and the underlying hardware. MYIR provides a complete set of control and communication interfaces for RS232, RS485, CAN and LED and encapsulates the interface into a library for external use based on D-BUS Method and Signal. The MEasy HMI uses Connman to control network devices. Connman is a fully modular system that can be expanded by plug-in to support the management of EtherNet,    WIFI, 3G/4G, Bluetooth and other network devices.     The directory structure of MEasy HMI is shown as below.        User can get more information about the MYD-Y6ULX-CHMI from MYIR’s website: http://www.myirtech.com/list.asp?id=604

Imx6 can output lvds direct.But the lvds-wire is too  expensive to buy. So they can cannect ds90ub947 serializer to applied in automotive instrumentation. By the way, it need a ds90ub948 deserializer in the remote which cannect a lvds displayer. The attachment is the driver of ds90ub947/948 for linux.It can  support linux 3.10 and above.It was verified working on linux 3.10.53 and imx6q. The attachment list: ds90ub947.c ds90ub947.h readme.txt You can follow the readme to use it. This driver was barely in embryo.You should modify it according to your application. Sometime, it very looks like the ds90ub913/914 and max9286/96705.

Check out Adeneo Embedded's expertise ! Visit our website to get more information

iWave released the official Yocto BSP for its i.MX6 Pico-ITX SBC board (iW-RainboW-G15S). The release is based on Linux 3.10.17 kernel and supports the following features: i.MX6 ARM Cortex A9 Quad, Dual, Dual Lite & Solo CPU 1GB DDR3 RAM (Quad, Dual, Dual Lite CPU version)/ 512MB DDR3 (Solo CPU version) Freescale PMIC SPI NOR Flash (default boot) eMMC Flash (default OS storage) Data UART uSD slot Standard SD slot USB 2.0 Host USB 2.0 device 10/100/1000 Ethernet Mini PCIex1 Port CAN Port LVDS display port 4 Wire Resistive touch PWM for backlight HDMI Port with Audio Hardware Codecs (Encode/Decode) 2D/3D Graphics CMOS CSI camera port MIPI CSI camera port AC97 Audio In/Out Console UART I2C Port DIP Switch, Status LEDs (GPIOs) This release supports single BSP, Binary image & MFG tool for all the four i.MX6 CPU version (Quad/Dual/Dual Lite/Solo) based SBC boards. Besides this Linux BSP support, Android Jelly Bean and WEC7 board support packages also supported for the i.MX6 Pico SBC boards by iWave systems. More details about the i.MX6 Pico SBC board hardware & software features can be found in the following i.MX6 Pico SBC product page:http://www.iwavesystems.com/product/single-board-computer/i-mx6-pico-itx-sbc/i-mx6-pico-itx-sbc.html

TensorFlow  Provides a very simple ML  by Java Script. It is easy to have the environment to see it demo. This document is to introduce it. The formula to get the training data We have a formula   Y = 2X – 1 to get the training data       example:  let x=-1 then  Y = 2*-1 – 1 = -2 – 1 = -3         x = { -1, 0, 1, 2, 3, 4}    y =  {-3, -1, 1, 3, 5, 7} Build up a very simple network model.add(tf.layers.dense({units: 1, inputShape: [1]})); This network will get training and predict the result for Y = 2X – 1 Should remind you here is the Machine do NOT know about the formula. It cannot calculate like us. The complete code <html>     <head>     <!-- Load TensorFlow.js -->     <!-- Get latest version at https://github.com/tensorflow/tfjs -->     <script src="https://cdn.jsdelivr.net/npm/@tensorflow/tfjs@0.11.2">       </script>     </head>     <body>         <div id="output_field"></div>         <div id="output_field1"></div>           </body>     <script>     async function learnLinear(){       const model = tf.sequential();       model.add(tf.layers.dense({units: 1, inputShape: [1]}));       model.compile({         loss: 'meanSquaredError',         optimizer: 'sgd'     });        const xs = tf.tensor2d([-1, 0, 1, 2, 3,4], [6, 1]);      const ys = tf.tensor2d([-3, -1, 1, 3, 5,7], [6, 1]);        await model.fit(xs, ys, {epochs: 500});        document.getElementById('output_field').innerText =       model.predict(tf.tensor2d([10], [1, 1]));         }     learnLinear();     </script> <html> Adjust the training to see what happen We will go to change the following code to adjust the training, then let machine tell the result for  X = 10 to see if the training result  is different or not. The result by calculation is Y = 2X – 1 = 2X10 -1 = 19 await model.fit(xs, ys, {epochs: 10}); We will try 10, 100,   500  and 1500. The result summary Y = 2X – 1 = 2X10 -1 = 19 10       : 13.9085026,   10.9296398,  13.0426989,  12.0150528, 7.4879761 100      : 18.0845203, 17.7116661, 17.9885635, 17.9806786, 18.2209091 500      : 18.9848061, 18.983654, 18.9877472, 18.9812298, 18.9825478 1500     : 18.9999866, 18.9999866, 18.9999866, 18.9999866, 18.999986 With 1500 training, the machine can predict the result very closely. But it cannot reach the correct result 19. Because the machine doesn’t know about the formula Y = 2X - 1

This video shows Altia-generated graphics code running on Nitrogen 6X platform by Boundary Devices. There are three different types of GUIs included in the video -- home security / automation, automotive instrument cluster, and smart appliance.

Product Features: SMARC Development kit pre-loaded with Yocto OS Kit includes: (1). REV-SA01 SMARC Evaluation Carrier Board in 3.5" SBC Form Factor (2). SMA-IMX6QI Quad Core SMARC Module (3). Power Adapter: AC Input: 100-240V DC Output: 5.0V (4). Power Cable (5). Mini-USB Cable (6). Pre-loaded OS on onboard eMMC

Are you looking to build a 3D video streaming & recording system that can be used in Stereo Dental Cameras, Obstacle Detection in Robotics, 3D Virtual tours, etc. Look no further, watch this demo of 3D video streaming & recording using Meissa, eSOMiMX6-micro RDK & Dual Cameras. eSOMiMX6-micro is a high performance micro system on module based on NXP/Freescale i.MX6 Quad/Dual Core ARM® Cortex™-A9 in an ultra-small form factor of 54mm x 20mm with just 10mA in suspend current. eSOMiMX6-micro System on Module also supports Wireless LAN and Bluetooth module. OS support – Linux, Android Marshmallow* (* – Under Development). Meissa, the powerful evaluation kit has the smallest carrier board in the industry; it’s just the size of a credit card. Try it and let us know your feedback.

e-con Systems launches the 13MP Autofocus 4-lane MIPI camera board for NXP i.MX6. This camera is based on 1/3.2" AR1335 CMOS image sensor with advanced 1.1µm pixel BSI technology from ON Semiconductor® and an integrated high-performance image signal processor (ISP) that performs all the Auto functions (Auto White Balance, Auto Exposure control). Target Applications Kiosk Documents Reader/Scanner Unmanned Aerial Vehicles (UAVs) Autonomous Robotic Systems Mobile Medical Imaging Intelligent Video Analytics (IVA) Features Benefits Advanced 1.1µm pixel BSI technology Delivers superior low-light image quality and produces accurate color reproduction 1080p @80 fps - YUV422 High quality HD video playback Interlaced High Dynamic Range (iHDR) Allows to capture clear images in both extreme lighting conditions Pan Tilt Digital Zoom(Upto 8x) Allows to get a closer view of far-away objects Autofocus Allows users to reliably and easily maintain sharp focus on subjects as they move throughout the frame

This video is an overview of the Altia user interface development software chain. We start with graphics in Adobe Photoshopand end running Altia-generated source code on the Freescale i.MX 6. Altia also supports Vybrid, MPC5645S (Rainbow), MPC5606S (Spectrum), i.MX53 and more.

On the 1st of July 2018, GuruCE released an update of their WEC7/WEC2013 iMX6 BSP now with full support for iMX6 ULL, UL, Solo, DualLite, Dual, DualPlus, Quad and QuadPlus processors! The BSP can be used to build Windows Embedded Compact 7 and Compact 2013 kernels. Some highlights: Support for UL & ULL Display clone CE Updater (update firmware from within CE) Multi-touch Super fast and reliable USB RNDIS and USB Serial for KITL Simplified use of hive-based registry (no need to pre-format disks anymore) Completely verified clock tree code Gigabit Ethernet (on selected boards and with limitations due to NDIS) Easy switch USB function Copy/update firmware from SD to eMMC Keep track of reason of last reset (power-on reset, software reset, watchdog reset, etc) Many improvements to our BSP catalog to make working with our BSP even easier And many more improvements, fixes and new features! Further details in the release notes. Our promise We will keep improving our iMX6 BSP, adding new features and we will be supporting our customers for many years to come, at the very least until the end of Microsoft's extended support end date of 10 October 2023. Even though the GuruCE i.MX6 BSP is already the best performing, 100% OAL stable and most feature-rich i.MX6 BSP on the market today, there are always things to improve or fix and new features to implement. Here's our wishlist: Bring hardware accelerated H.264 video codecs to WEC2013 (not just WEC7) Improve Gigabit network performance Animated GIF bootsplash support Create a solid solution for multi-display touch As always; if you have anything you want us to add to the list or you want us to prioritize an item on the list: contact us and we'll make it happen. Don't forget to check our Testimonials page to see what some of our customers have to say about the GuruCE i.MX6 BSP. Don't believe the hype? Try it yourself! We've got free downloadable evaluation kernels for the Element14 RIoTboard, the Boundary Devices SABRE-Lite, Nitrogen6X and Nitrogen6_VM, the Device Solutions Opal6 (all variants), the Digi ConnectCore6, the NXP SDP (DualLite & Quad), the SDB-QP(QuadPlus), the NXP MCIMX6ULL EVK (ULL), the Toradex Colibri and the Variscite VAR-SOM_MX6 (Dual/Quad) Starter Kit. GuruCE website: https://guruce.com iMX6 landing page: https://guruce.com/imx6 Latest iMX6 BSP release: https://guruce.com/imx6/latest

Adeneo Embedded is among the only SI to provide a Windows Embedded Compact 2013 solution on i.MX6 and to have developed a fast boot implementation of WEC2013 on the i.MX6 SDP. Fast boot is a common request from customers but a complicated one to implement. Adeneo has implemented fast boot features on several operating systems on the i.MX6. Contact: sales@adeneo-embedded.com

Imx6 can output lvds direct.But the lvds-wire is too  expensive to buy. So they can cannect ds90ub947 serializer to applied in automotive instrumentation. By the way, it need a ds90ub948 deserializer in the remote which cannect a lvds displayer. The attachment is the driver of ds90ub947/948 for linux.It can  support linux 3.10 and above.It was verified working on linux 3.10.53 and imx6q. The attachment list: ds90ub947.c ds90ub947.h readme.txt You can follow the readme to use it. This driver was barely in embryo.You should modify it according to your application. Sometime, it very looks like the ds90ub913/914 and max9286/96705.

iWave Systems, a Proven Partner of Freescale and certified Silver Partner of Microsoft, proudly announced the availability of Windows Embedded Compact 7 (WEC7) Board Support Package (BSP) for its customers for catering high-end applications in its various skews of i.MX6 Quad, Dual, Dual Lite & Solo Qseven CPU modules. Windows Embedded Compact 7 (WEC7) is one of the real time operating system (RTOS) from Microsoft designed to target enterprise specific solutions which supports multiple CPU architectures like ARM/x86, Silverlight 3.0, Multi touch and 3GB size physical RAM. Windows Embedded Compact 7 BSP together with Freescale i.MX6 multicore based platforms is ideal for various applications like Medical handhelds, industrial controllers, consumer electronics devices and also automotive infotainment systems. iWave’s latest Windows Embedded Compact 7 BSP release supports all the version of i.MX6 Qseven modules named Quad, Dual, Dualite and Solo. The various features supported by the BSP is listed in the below: Eboot boot loader Console UART LVDS port HDMI display PCIex1 lane SD/MMC slot USB Host USB device CAN Port Capacitive touch Camera Analog video input Audio In/out SATA Ethernet I2C ports PWM for backlight OpenGL/VG Graphics Music Player Photo Viewer Video Player Multimedia Codecs Active Sync support Connect & Consumer media Expression blend Adobe Flash 10.1 Hive registry support on SD Silverlight 3.0 Windows Embedded Compact 7 on iWave's i.MX6 Qseven Development Kit Besides the i.MX6 Windows Embedded Compact 7 BSP support, iWave Systems also provides WinCE BSP support for various other Freescale hardware platforms i.MX27, i.MX51 and i.MX53. Windows Embedded Compact 7 BSP for iMX6 Qseven Modules | iWave Systems For more information please contact – mktg@iwavesystems.com

The MYD-Y6ULX-CHMI Display Panel is an ultra-low cost Human Machine Interface (HMI) solution based on 528MHz NXPi.MX6UL/6ULL ARM Cortext-A7 processor. It is a Linux-ready device with ported QT, can be used in various applications including POS, Intelligent access control and more others. The panel provides a well-designed hardware with various peripherals and rich software resources to help users accelerate their time to the market. The MYD-Y6ULX-CHMI consists of an MYD-Y6ULX-HMI Development Board and a 7-inch capacitive LCD mounting on its top. The LCD offers 800x480 pixels display resolution. The MYD-Y6ULX-HMI Development Board provides peripherals and interfaces including RS232, RS485, Ethernet, USB Host/Device, LCD, Camera, TF card slot and etc. Considering wireless communication and dial-up functions, MYIR offers an optional IO board MYB-Y6ULX-HMI-4GEXP for the MYD-Y6ULX-CHMI Display Panel. The IO Board features on board AP6212 module for WiFi/Bluetooth and a Mini-PCIe interface for USB based 4G LTE module. Moreover, the IO Board has extended one more Ethernet interface and Audio in/out ports to further enhance the functionality of the panel, thus making a complete solution for HMI applications. The MYD-Y6ULX-CHMI has passed the verification of EMC Compliance.           MYD-Y6ULX-CHMI Display Panel                            MYD-Y6ULX-CHMI Display Panel + MYB-Y6ULX-HMI-4GEXP

Hi All, One of my recent work with IMXRT Series MCU's, A Simple Drum Pad Proto designed with IMXRT Crossover platform MCU's and Capsense touch. For more details about the project and source. checkout here https://www.hackster.io/ashokr/imx-rt-drum-pad-a8c1cd Thanks Ashok R Embedded Club (@embeddedclub) • Instagram photos and videos #nxp 

MEasy HMI QT Demo on MYIR's MYD-6ULX development boards. This demo applied to NXP i.MX6UL series development boards of MYIR currently. Welcome to visit our website www.myirtech.com.

This video shows how the Crank Storyboard application framework is well suited to run on our i.MX7 Nitrogen7 board. Demo details This demonstration is based on the following: Nitrogen7 board​​ 800×480 LCD display​ Resistive touch Yocto Jethro release Linux kernel 3.14.52 Crank Software details Crank Software Inc. is an innovator in embedded graphical user interface (GUI) solutions. Their products and services enable R&D teams and UI Designers to quickly and collaboratively develop rich animated user interfaces for resource-constrained embedded. The demo above relies on the Crank Storyboard Engine which is: Multi-platform Supported on Linux, Android, QNX, WindowsCE among others Built for embedded Storyboard Embedded Engine scales from low-end to high-end processors 3D optimized For higher end products embedding a GPU For more information, please visit: https://boundarydevices.com/crank-software-demo-on-nitrogen7/