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The  MYD-JX8MX development board  is  a versatile platform based on  the  NXP i.MX 8M  Quad processors which feature 1.3GHz quad ARM Cortex-A53 cores and a real-time ARM Cortex-M4 co-processor and provide  industry-leading audio, voice, and video processing for applications that scale from consumer home audio to industrial building automation and mobile computers.  It is built around the MYC-JX8MX CPU Module  and has brought out rich peripherals through connectors and headers such as 4 x USB 3.0 Host ports and 1 x USB 3.0 Host/Device port, Gigabit Ethernet, TF card slot, USB based Mini PCIe interface for 4G LTE Module, WiFi/BT, Audio In/Out, HDMI, 2 x MIPI-CSI, MIPI-DSI, 2 x LVDS display interfaces, NVMe  PCIe M . 2  2280  SSD  Inte rface , etc. It is provided with both  Linux and Android  software package and  delivered with necessary cable accessories for customer to easily start development as soon as getting it out-of-box. A MIPI Camera Module   MY-CAM003  is provided as an option for the board . More information can be found from MYIR's website: MYD-JX8MX Development Board | i.MX 8M ARM Board-Welcome to MYIR                       
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NXP i.MX 8X SoC, quad-core ARM Cortex-A35, 1.2GHz Integrated 2D/3D GPU and 4K VPU Up to 4GB LPDDR4 and 64GB eMMC 2x MIPI-DSI / LVDS, up-to 1080p60 Certified dual-band WiFi 802.11ac, BT 4.2 2x GbE, PCIe, 4x USB, 3x CAN-FD, 96x GPIO Yocto Linux - BSP and ready-to-run images Industrial temperature range: -40° to 85° C 10-year availability CompuLab's CL-SOM-iMX8X is a miniature System-on-Module board designed for integration into industrial embedded applications. Bringing out the full capabilities of the NXP i.MX8X SoC, CL-SOM-iMX8X provides high performance and versatile connectivity in a miniature (36 x 68 mm) form-factor. CL-SOM-iMX8X Detailed Spec CL-SOM-iMX8X Development Kit CL-SOM-iMX8X Online Pricing
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The  MYD-Y6ULX-CHMI Display Panel  is an ultra-low cost Human Machine Interface (HMI) solution based on 528MHz  NXP i.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
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The documentation has summerized some FAQs for development based on NXP's i.MX 6UL/6ULL ARM Cortex-A7 processors. 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. 
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成绩下滑挂科/GPA低收到(Withdrawal)警告邮件怎么办? +Q:972412767 挂科成绩下滑厉害GPA低收到(Withdrawal)警告邮件+Q:972412767 专业处理美国学校开除/GPA低/  i 2 0失效/身份恢复/作弊被抓/成绩造假/论文抄袭/考试作弊/作业剽窃 GPA低于2.0 成绩不达标 美国大学fail 遭遇academic probation怎么办 对于出国留学,很多同学认为只要获得美国大学的录取通知书就万事大吉、进入保险箱了。 但要警惕的是,美国大学都是“严出”的教育考核制度,如果你想“混”到毕业,那是不可能的。如果在留学期间(尤其是刚去美国的前半年)不调整好心态的话,很容易挂科。 一挂科,就会产生严重的后果。 美国大学挂科的严重后果! 1:不能补考,只能重修 跟国内不一样的是,美国大学挂科之后,孩子只能重修,没有办法补考。而且重修还要额外再交一次该门课程的钱。 但是,即使重修了也没有办法把上一次挂科的成绩覆盖掉,而是分开来算。甚至有的学校会在学生重修通过考试之后,依然不更新成绩,显示挂科成绩,只是学分算过了而已。 2:严重会被开除,取消签证 在《华人学生现状调查》的抽样数据中,GPA过低是留学生被开除的首要原因,占68%。 与国内大学不同,美国大学对学生的学习成绩有明确且严格的要求,通常情况下本科生GPA低于2.0就会收到学校的警告。收到警告后如果在一定时间内成绩没有明显提高,就会导致最终被学校开除的结果。 如果被学校开除,相当于就不再是留学生,所以F1签证就会被取消,这个时候不选择回国,那么你就属于是“黑”在美国了。 不得不提到的是,有好一部分被美国大学开除的同学,因为不敢跟家里人说自己的情况,即使“黑”在美国也不愿意回国,这其实是非常不明智的选择。既让家人担心,也让自己更加深陷进艰难的处境,所以学习的时候一定要好好努力,避免挂科。 3:找工作也会受影响 挂科很容易造成GPA低,严重的会没有学位。这对你后面找工作、尤其是在美国找工作会造成严重影响。 美国公司非常注重应届毕业生的大学成绩。尤其是在你刚毕业,什么能力都不明显的时候,你的大学成绩高,代表你是能够踏实和深入学新的东西。但是大学成绩差的话,他们会觉得你连基本的学习能力都不具备,还怎么工作呢?所以说,挂科真的会引发很多不好的后果。家长和同学们选校的时候,一定要重视起美国大学的挂科率的问题 虽然美国留学挂科一般大学都是允许重修课程的,但重修耗时又耗钱,而且还得合理安排选课,不然一学期选课太多,压力会很大。如果你的GPA被拉得很低,那就不得不重视起来了。如果是本科期间,GPA是不能低于2.0的,如果是硕士期间GPA不能低于3.0,不然就会影响到毕业。如果GPA低于学校基本要求,学校就会给与警告,并给一段时间让你改变学习方法提升你的GPA,但是如果在这段时间内仍然没有达到学校的要求,基本上就会面临着劝退或者是开除的情况。 留学生回国之后是需要进行留服学历认证的,只有从美国正规的university毕业,修满规定的学分,获得本科学士(bachelor's degree)及以上的学位才能进行认证。没有毕业的话当然是没办法认证的。但是现在国内工作认可度最高的就是留服学历认证,所以还是继续去完成学业才是上上之策。如果是本科阶段被学校开除没有毕业,可转学继续本科或者是通过背景提升申请硕士。 作弊被抓/成绩造假/论文抄袭/考试作弊/作业剽窃/GPA低于2.0 成绩不达标 美国大学fail 遭遇academic probation怎么办?咨询Q:972412767
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The complete tutorial / FAQs are uploaded to http://www.myirtech.com/faq.asp?selec. The tutorial / FAQs are based on MYIR’s NXP i.MX6UL/6ULL series products but are also applicable to similar products from other companies. MYIR hopes these are useful to you. MYIR’s NXP i.MX6UL/6ULL series products: http://www.myirtech.com/nxpseries.asp MYS-6ULX Single Board Computer MYD-Y6ULX Development Board (MYC-Y6ULX CPU Module as core board) MYD-Y6ULX-HMI Development Board (MYC-Y6ULX CPU Module as core board) MYD-Y6ULX-CHMI Display Panel
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MYIR introduces a high-performance ARM SoM   MYC-JX8MX CPU Module , which is built around the   NXP i.MX 8M   Quad processor featuring   1.3GHz quad ARM Cortex-A53 cores and a real-time ARM Cortex-M4 co-processor. The module runs Linux and is capable of working in extended temperature ranging from   -30°C to 80°C.   Measuring 82mm by 52mm, the   MYC-JX8MX CPU Module   has integrated   1GB/2GB LPDDR4, 8GB eMMC,   256Mbit QSPI Flash, Gigabit Ethernet PHY   and   PMIC   on board. A large number of I/O signals are carried to or from the i.MX 8M CPU Module through one   0.5mm pitch 314-pin MXM 3.0 expansion connector, making it an excellent embedded solution for Scanning/Imaging, Building Automation and Smart Home, Human Machine Interface (HMI), Machine Vision and more other consumer and industrial applications which requires high multi-media performance. MYC-JX8MX CPU Module   (delivered with heat sink by default) MYIR also offers a versatile platform   MYD-JX8MX development board   for evaluating the   MYC-JX8MX CPU Module . It takes full features of the i.MX 8M processor and has brought out rich peripherals through connectors and headers such as   4 x USB 3.0 Host ports and 1 x USB 3.0 Host/Device port, Gigabit Ethernet, TF card slot, USB based Mini PCIe interface for 4G LTE Module, WiFi/BT, Audio In/Out, HDMI, 2 x MIPI-CSI, MIPI-DSI, 2 x LVDS display interfaces,   PCIe 3.0 (x4) NVMe SSD Interface, etc.   It is delivered with necessary cable accessories for customer to easily start development as soon as getting it out-of-box. A MIPI Camera Module   MY-CAM003  is provided as an option for the board .                                                                        MYD-JX8MX Development Board MYIR offers 1GB or 2GB RAM selections for the CPU modules and development boards which have very-high powered prices to compare. Part No. Item Processor LPDDR4 eMMC Unit Price MYC-JX8MQ6-8E1D-130-E MYC-JX8MX   CPU Module NXP i.MX 8M Quad Processor based on 1.3GHz Quad ARM Cortex-A53 and 266MHz Cortex-M4 cores   (MIMX8MQ6CVAHZAB) 1GB 8GB $99 MYC-JX8MQ6-8E2D-130-E 2GB $119 MYD-JX8MQ6-8E1D-130-E MYD-JX8MX Development Board 1GB $279 MYD-JX8MQ6-8E2D-130-E 2GB $299 Supports extended working temperature ranging from -30°C to 80°C.
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MYD-JX8MX development board based on NXP i.MX8M quad processors provides powerful multi-media functions including dual displays, dual cameras, high-quality audio, etc. The target applications scale from consumer home audio to industrial building automation and mobile computers requiring high-performance and low-power processors. Highlights: - MYC-JX8MX CPU Module as Controller Board - NXP i.MX 8M Quad Application Processor - 1GB / 2GB LPDDR4, 8GB eMMC Flash, 256Mbit QSPI Flash - RS232, 4 x USB 3.0 Host, 1 x USB 3.0 Host/Device, PCIe 3.0 (x4) NVMe SSD Interface, TF Card Slot - Supports Gigabit Ethernet, WiFi/BT and 4G LTE - 2 x MIPI-CSI, HDMI, 2 x LVDS, MIPI-DSI, Audio Input/Output
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Watch the demo of Color Segmentation using e-CAM130_iMX8 - 13MP Autofocus Camera Board for i.MX8. e-CAM130_iMX8 is a 13MP 4-lane MIPI CSI-2 autofocus color camera board for i.MX8 family of processors. The e-CAM130_iMX8 camera board is interfaced directly to the CSI-2 MIPI interface on the Variscite's DART-MX8M Evaluation kit (VAR-DVK-DT8M). The iHDR (interlaced High Dynamic Range) support helps to capture good quality images in both high and low illumination. e-CAM130_iMX8 also comes with a high-performance Image Signal Processor (ISP) that performs all the Auto functions (autofocus, auto white balance, auto exposure control).
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The complete tutorial / FAQs are uploaded to   http://www.myirtech.com/faq.asp?selectm=class&anclassid=6&nclassid=90  The tutorial / FAQs are based on MYIR’s NXP i.MX6UL/6ULL series products but are also applicable to similar products from other companies. MYIR hopes these are useful to you. MYIR’s NXP i.MX6UL/6ULL series products:  MYS-6ULX Single Board Computer MYD-Y6ULX Development Board   (MYC-Y6ULX CPU Module   as core board) MYD-Y6ULX-HMI Development Board   (MYC-Y6ULX CPU Module   as core board) MYD-Y6ULX-CHMI Display Panel How to connect Ubuntu to the Internet? Run Oracle VM VirtualBox (this is what I am using, you may use other VirtualBox). Open the settings in the supervisor, choose network, enable network connection, connection type: bridge network card, the name of the interface: Select by actual occurrence. If you want ubuntu to use fixed IP, you may set it up in “Ubuntu/etc/network/interface”. Reference: # interfaces(5) file used by ifup(8) and ifdown(8) auto lo iface lo inet loopback auto enp0s3 iface enp0s3 inet static address 192.168.30.109 netmask 255.255.255.0 getway 192.168.30.1   How to transfer files between Windows PC and the development board? The board and PC should be connected to the same network. Install tftpd64.exe software on the PC. Current Directory, choose the path to upload files. Server interface, choose the IP of PC. Execute “tftp 192.168.1.153 -g -r test.sh” in Xshell when downloading files to the board. Execute “tftp 192.168.1.153 -p -r test.sh” when upload files from the board to PC. 3-3-1 tftpd64 Server configuration How to transfer files between Ubuntu and the development board? The board and Ubuntu should be connected to the same network. Execute scp file to transfer files: “scp -r /home/roy/rs485 root@192.168.1.223:/home/root”. Tips: this command means copy folder ubuntu/home/roy/rs485 to directory /home/root of board with IP 192.168.1.223.
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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
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e-con Systems with over 15 years of experience in pioneering different cameras for embedded devices have been working towards integrating MIPI CSI-2 cameras to the i.MX 8M EVK from NXP. Our current pursuit to interface the   e-CAM130_MI1335_MOD   to the   MCIMX8M-EVK   was successful and we have evaluated the following resolutions and framerates. S. No Resolution Framerate (per second) 1 640×480 120 2 1280×720 80 3 1920×1080 80 4 3840×2160 30 5 4192×3120 13* Table 1 : Resolutions and framerates supported * – under development. Expected to go higher. The MCIMX8M-EVK is the official evaluation kit for the i.MX 8M series application processors from NXP. It has a quad core ARM Cortex A53 running at 1.5 GHz and an ARM Cortex M4 core for low power operations and 3GB of LPDDR4 RAM. The MCIMX8M-EVK supports 2 MIPI CSI2 cameras in 4 lane configuration simultaneously. It also has other IO options such as a DSI display interface, HDMI 2.0, USB 3.0, MicroSD, Ethernet and Audio out. This configuration is ideal for designing low power devices such as OTT STBs, AV receivers, handheld devices, machine visual inspection systems and other general-purpose HMI solutions. The e-CAM130_MI1335_MOD uses the 1/3.2”   AR1335   rolling shutter sensor from ON Semiconductor. This sensor supports a maximum resolution of 13MP with an active pixel array of 4208×3120. We have also added additional features such as 3A (Auto Exposure, Auto Focus, Auto White Balance) and HDR imaging using a dedicated onboard ISP. The output format of the camera is UYVY which removes the need for bayer demosaic processing on the host processor. This camera is ideal for developing high resolution imaging with HDR for close range machine visual inspection. You can soon expect our launch for various camera products for the i.MX 8M platform. Please check out our   product page   for updates.
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Mar 13, 2020: imx_builder_03122020.tgz  --- change the i.MX8MN  configuration.  Dec 11, 2019: imx_builder_12112019.tgz --- add support  L4.19.35_1.1.0 August 28, 2019:  imx_builder_08282019.tgz   --- add i.MX8MM July 03, 2019:  imx_builder_07032019.tgz --- add i.MX8QM: build_i.MX8  Feb 26 , 2020: imx_builder_02262020 --- add i.MX8MN, add spl m4 for build_i.MX8, build_i.MX8X with L4.14.98_2.0.0_ga, L4.14.98_2.2.0, L4.19.35_1.1.0 imx_builder_02262020: imx_builder |-- atf -> bsp/imx-atf |-- bsp -> REL/rel_imx_4.19.35_1.1.0 |-- build -> build_i.MX8X/L4.19.35_1.1.0 |-- build_i.MX6 |   |-- L3.0.x |   |-- L3.1x.xx |   |-- L4.14.xx |   |-- L4.19.xx |   `-- L4.1.xx |-- build_i.MX8 |   |-- before_L4.14.98_2.0.0_ga |   |-- L4.14.98_2.0.0_ga |   |-- L4.14.98_2.2.0 |   `-- L4.19.35_1.1.0 |-- build_i.MX8M |   |-- before.L4.19.35 |   `-- L4.19.35 |-- build_i.MX8MM |   |-- before.L4.19.35 |   `-- L4.19.35 |-- build_i.MX8MN |   `-- L4.19.35 |-- build_i.MX8X |   |-- before_L4.14.98_2.0.0_ga |   |-- L4.14.98_2.0.0_ga |   |-- L4.14.98_2.2.0 |   `-- L4.19.35_1.1.0 |-- dts -> linux/arch/arm/boot/dts |-- dts64 -> linux/arch/arm64/boot/dts/freescale |-- dts_uboot -> u-boot/arch/arm/dts |-- imx-mkimage -> bsp/imx-mkimage |-- linux -> bsp/linux-imx | -- m4_img |   |-- m4_1_image.bin -> rpmsg_lite_str_echo_rtos_imxcm4.bin |   |-- m4_image.bin -> power_mode_switch.bin |   `-- readme.txt |-- Makefile -> build/Makefile |-- Others |   |-- clk_module |   |-- cryptodev-linux-1.8 |   |-- helloworld_module |   |-- key_blob_module |   `-- spi |-- out |-- README -> build/README |-- REL |-- scfw -> bsp/scfw |-- SETTINGS.MK -> build/SETTINGS.MK |-- toolchains |   `-- scfw |-- u-boot -> bsp/uboot-imx `-- VERSION.MK imx_builder is a set of Makefile for build u-boot, Linux kernel, atf, scfw, imx-mkimage.  You can call it standalone build. here is the step to try it.  You can use  -n for make to get the detail build steps. ex:  make atf -n         make linux.Image -n L4.14.78_ga as example: 1. Untar  imx_builder_02282019.tgz 2. Read the  Standalone_Build_Preparation.pdf inside to prepare the bsp. 3. Prepare the toolchains(populate_sdk from yocto, get from linaro, get from buildroot, etc.) 4. Prepare scfw toolchains following the SCFW Porting Kit.  5. Follow the  Standalone_Build_Preparation.pdf to check if the Build Structure is correct. Build Structure L4.14.78_1.0.0_ga as example. Prepare rel_imx_4.14.78_1.0.0_ga in REL Make symbol link to REL/rel_imx_4.14.78_1.0.0_ga Make symbol link to build_i.MX8X   imx_builder/ |-- atf -> bsp/imx-atf |-- bsp -> REL/rel_imx_4.14.78_1.0.0_ga |-- build -> build_i.MX8X |-- build_i.MX6 |-- build_i.MX8M |-- build_i.MX8X |   |-- Makefile -> Makefile.4.14.78_ga |   |-- Makefile.4.14.78_ga |   |-- README |   |-- SETTINGS_4.14.78_1.0.0_ga.MK |   |-- SETTINGS.MK -> SETTINGS_4.14.78_1.0.0_ga.MK |   `-- VERSION.MK |-- dts -> linux/arch/arm/boot/dts |-- imx-mkimage -> bsp/imx-mkimage |-- linux -> bsp/linux-imx |-- Makefile -> build/Makefile |-- Others |-- out |-- README -> build/README |-- REL |   `-- rel_imx_4.14.78_1.0.0_ga |        |-- firmware-imx-8.0.bin |       |-- imx-atf |       |-- imx-mkimage |        |-- imx-sc-firmware-1.1.bin(optional) |        |-- imx-scfw-porting-kit-1.1.tar.gz |        |-- linux-imx |        `-- uboot-imx |-- scfw -> bsp/scfw |-- SETTINGS.MK -> build/SETTINGS.MK |-- Standalone_Build_Preparation.pdf |-- toolchains |   `-- scfw |       `-- gcc-arm-none-eabi-6-2017-q2-update |-- u-boot -> bsp/uboot-imx `-- VERSION.MK -> build/VERSION.MK
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MYIR introduces a 7-inch HMI display panel with capacitive touch screen, the MYD-Y6ULX-CHMI, which runs Linux on NXP’s i.MX 6ULL ARM Cortex-A7 processor, is specially designed for HMI systems like POS, intelligent access control and more other applications. It provides many peripheral interfaces and much software resources. More information can be found at: http://www.myirtech.com/list.asp?id=604                                      MYD-Y6ULX-CHMI Display Panel                   MYD-Y6ULX-CHMI Display Panel   +   MYB-Y6ULX-HMI-4GEXP IO Board
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MYIR launches a 7-inch HMI display panel with capacitive touch screen, the MYD-Y6ULX-CHMI, which runs Linux on NXP’s i.MX6 ULL ARM Cortex-A7 processor, is specially designed for HMI system like POS, intelligent access control and more other applications. It provides many peripheral interfaces and much software resources. Know more at MYD-Y6ULX-CHMI | 7-inch HMI Display Solution based on NXP i.MX 6UL/6ULL-Welcome to MYIR 
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