UDOO

This page collects information about UDOO www.udoo.org the first ever small sized computer that merges in one single board an ARM cortex-A9 iMX.6 CPU and an Arduino compatible board embedded with a dedicated ARM SAM3X CPU. UDOO project has been funded trough Kickstarter, rising $641,614 in sixty days thanks to 4,172 backers.

Notice: The UDOO Wiki pages on this site is collaborative work - the UDOO team is not responsible for content on these pages.

= What's UDOO? = UDOO is a mini PC that could run either Android or Linux, with an Arduino-compatible board embedded. It is a powerful prototyping board for software development and design, it’s easy to use and allows to create projects with minimum knowledge. UDOO merges different computing worlds in one; each world has its strengths and weaknesses, and all of them are useful today in education as well as Do-It-Yourself (DIY) and rapid prototyping endeavours. UDOO is an open hardware, low-cost computer equipped with an ARM i.MX6 Freescale processor for Android and Linux, alongside Arduino DUE’s ARM SAM3X, both CPU integrated on the same board!

UDOO goals:

 * Develop an innovative product for a growing market
 * Give a new vision to the educational framework: the idea is to train up a new generation of engineers, designers and software developers skilled in digital technology: physical computing, multi-media arts, interactive arts, IoT...
 * Boost up the DIY world
 * Offer a low cost embedded platform for interactive art with powerful tools: Processing, OpenCV, PureData, openFramework
 * Provide companies with a great tool for fast prototyping

= Specifications = UDOO retail line up consist of three models that share most features with just slightly differences in term of connections and CPU power. All the three models features an embedded Arduino compatible board based on Arduino DUE schematic. UDOO’s size are 4.33 inch x 3.35 inch (11 cm x 8.5 cm).

'''Warning: The UDOO I/O pins are 3.3V compliance. Higher voltages (like 5V) could damage the board.'''

GPIO features
[Description needed] Current version, UDOO rev. C, has these additional features:
 * S/PDIF digital audio in & out through pin headers;
 * I2S/AC97/SSI digital audio multiplexer through pin headers;
 * FlexCAN (Flexible Controller Area Network) through pin headers, you will be able to choose if you want to switch this function to the iMX6 or the SAM3X;
 * Second SD card support through pins header: this means you can plug an external controller for a second SD card or an external controller for an eMMC module

UDOO Quad
[Description needed]
 * Freescale i.MX 6 ARM Cortex-A9 CPU Quad core 1GHz with ARMv7A instruction set
 * GPU Vivante GC 2000 for 3D + Vivante GC 355 for 2D (vector graphics) + Vivante GC 320 for 2D (composition)
 * Accelerators for 2D, OpenGL® ES2.0 3D and OpenVG™
 * Atmel SAM3X8E ARM Cortex-M3 CPU (same as Arduino DUE)
 * RAM DDR3 1GB
 * 76 fully available GPIO with Arduino-compatible R3 1.0 pinout
 * HDMI and LVDS + Touch
 * 2 Micro USB (1 OTG type a+b)
 * 2 USB type A (x2) and 1 USB connector (requires a specific wire)
 * Analog Audio and Mic
 * CSI Camera Connection
 * on board Micro SD card reader reader (boot device)
 * Power Supply (6-15V) and External Battery connector
 * Ethernet RJ45 (10/100/1000 MBit)
 * WiFi Module
 * SATA connector with power plug

UDOO Dual
[Description needed]
 * Freescale i.MX 6 ARM Cortex-A9 CPU Dual core 1GHz with ARMv7A instruction set
 * GPU Vivante GC 880 for 3D and 2D (vector graphics) + Vivante GC 320 for 2D (composition)
 * Accelerators for 2D, OpenGL® ES2.0 3D and OpenVG™
 * Atmel SAM3X8E ARM Cortex-M3 CPU (same as Arduino DUE)
 * RAM DDR3 1GB
 * 76 fully available GPIO with Arduino-compatible R3 1.0 pinout
 * HDMI and LVDS + Touch
 * 2 Micro USB (1 OTG type a+b)
 * 2 USB type A (x2) and 1 USB connector (requires a specific wire)
 * Analog Audio and Mic
 * CSI Camera Connection
 * on board Micro SD card reader reader (boot device)
 * Power Supply (6-15V) and External Battery connector
 * Ethernet RJ45 (10/100/1000 MBit)
 * WiFi Module
 * SATA connector with power plug

UDOO Dual Basic
[Description needed]
 * Freescale i.MX 6 ARM Cortex-A9 CPU Dual core 1GHz with ARMv7A instruction set
 * GPU Vivante GC 880 for 3D and 2D (vector graphics) + Vivante GC 320 for 2D (composition)
 * Accelerators for 2D, OpenGL® ES2.0 3D and OpenVG™
 * Atmel SAM3X8E ARM Cortex-M3 CPU (same as Arduino DUE)
 * RAM DDR3 1GB
 * 76 fully available GPIO with Arduino-compatible R3 1.0 pinout
 * HDMI and LVDS + Touch
 * 2 Micro USB (1 OTG type a+b)
 * 2 USB type A (x2) and 1 USB connector (requires a specific wire)
 * Analog Audio and Mic
 * CSI Camera Connection
 * on board Micro SD card reader reader (boot device)
 * Power Supply (6-15V) and External Battery connector

= Tutorials =

Creating a bootable Micro SD card from image
This guide will allow you to create a bootable micro SD card for your UDOO board using an image file. The image file contains the UDOO Operating system, which runs the i.MX6 processor. Without the O.S., you can only use UDOO like a normal Arduino DUE (only SAM3X processor). Using an image is quite simple: you need to unzip the image and write it to your SD card using the dd tool for UNIX/MAC users or Win32DiskImager for Windows users. It is not possible to create a bootable card with drag and drop. Please note that the micro SD must be at least 8GB; bigger memory cards may be used but only 8GB will be available at the end of the procedure.


 * 1) Download any SD images (Ubuntu or Yocto) available from the image section of the website http://www.udoo.org/downloads/.
 * 2) Extract the .img file from the .zip file you downloaded into a folder of your choice (this path will be referred to as  in the guide).
 * 3) Follow the instructions below for the OS you use:

Write the image on micro SD card Using Linux:
df -h
 * From the terminal run

df -h
 * If your computer has a slot for SD cards (SD to Micro SD adapter needed), insert the card. If not, insert the card into an SD card reader, then connect the reader to your computer. Note: must be formatted in FAT32!
 * Run again

The left column gives the device name of your Micro SD card. It will be listed as something like “/dev/mmcblk0p1″ or “/dev/sdd1″. The last part (“p1″ or “1″ respectively) is the partition number, but you want to write to the whole micro SD card, not just one partition, so you need to remove that part from the name (for example “/dev/mmcblk0″ or “/dev/sdd”) to work with the entire Micro SD card.
 * The device that wasn’t there previously is your Micro SD card.

e.g. sudo umount /dev/sdd1
 * If your Micro SD card contains more partitions, you should unmount all of these partitions (using the right name found earlier followed by the letters and numbers that identify the partitions) using the command:

sudo dd bs=1M if= of=/dev/ Make sure you replace the input file if= argument with the path to your .img file, and the “/dev/“ in the output file of= argument with the correct device name (this is very important: you will lose all data on the hard drive on your computer if you get the wrong device name). Make sure the device name is the name of the whole Micro SD card as described above, not just a partition. (e.g. sdd, not sdds1 or sddp1, or mmcblk0 not mmcblk0p1) e.g. sudo dd bs=1M if=/home//Download/2013-5-28-udoo-ubuntu.img of=/dev/sdd
 * Write the image into the Micro SD card using the command:

sudo umount /media/
 * Once dd completes, run the sync command as root or run sudo sync as a normal user (this will ensure the write cache is flushed and that it is safe to unmount your micro SD card) and then run:


 * Your micro SD card is ready to be used. Just insert it in UDOO and boot the system.

Write the image on micro SD card Using Mac OSX
df -h
 * From the terminal run


 * If your computer has a slot for SD cards (SD to micro SD adapter needed), insert the card. If not, insert the card into an SD card reader, then connect the reader to your computer. Note: must be formatted in FAT32!

df -h
 * Run again

Remember the device name of the filesystem’s partition, for example, /dev/disk3s1. Using the device name of the partition work out the raw device name for the entire disk, by omitting the final “s1″ and replacing “disk” with “rdisk” (this is very important:you will lose all data on the hard drive on your computer if you get the wrong device name). Make sure the device name is the name of the whole micro SD card as described above, not just a partition (for example, rdisk3, not rdisk3s1. Similarly you might have another SD drive name/number like rdisk2 or rdisk4, etc. recheck it by using the df -h command both before & after you insert your micro SD card reader into your Mac if you have any doubts!): e.g. /dev/disk3s1 => /dev/rdisk3
 * The device that wasn’t there previously is your Micro SD card.

sudo diskutil unmount /dev/disk3s1
 * If your micro SD card contains more partitions, you should unmount all of these partitions (using the correct name found previously, followed by letters and numbers that identify the partitions) using the command:

sudo dd bs=1m if=path_del_file_img of=/dev/ Make sure you replace the input file if= argument with the path to your .img file, and the “/dev/“ in the output file of argument with the right device name (this is very important: you will lose all data on the hard drive on your computer if you get the wrong device name). Make sure the device name is the name of the whole micro SD card as described above, not just a partition (for example, rdisk3, not disk3s1). e.g. sudo dd bs=1m if=/home/user_name/Download/2013-5-28-udoo-ubuntu.img of=/dev/rdisk3
 * Write the image into the Micro SD card using the command:

sudo diskutil eject /dev/rdisk3
 * Once dd completes, run the sync command as root or run sudo sync as a normal user (this will ensure the write cache is flushed and that it is safe to unmount your micro SD card) and then run:


 * Your micro SD card is ready to be used. Just insert it in UDOO and boot the system.

Write the image on micro SD card Using Windows
(in Windows Vista, 7 and 8 right-click this file and choose “Run as administrator”). Be careful to select the correct drive; if you get the wrong one you can destroy your data on the computer's hard disk!
 * Download the Win32DiskImager software here
 * Unzip it and now you have a new folder called “win32diskimager-v0.7-binary”
 * If your computer has a slot for SD cards (SD to micro SD adapter needed), insert the card. If not, insert the card into an SD card reader, then connect the reader to your computer. Note: must be formatted in FAT32!
 * Run the file named Win32DiskImager.exe
 * If the micro SD card (Device) you are using is not found automatically then click on the drop down box on the right and select the micro SD card letter you just plugged in (e.g. [H:\]). Note: must be formatted in FAT32!
 * In the Image File box, choose the .img file that you downloaded and click “Write”. Note: if a warning message appears click YES.
 * Your micro SD card is ready to be used. Just insert it in UDOO and boot the system.

Creating a bootable Micro SD card from the sources
The following are instructions for a Linux system. A different way to create a bootable SD card is to compile the sources.

A bootable SD card has 3 different elements:


 * File System (Ubuntu Linaro, Yocto)
 * Kernel
 * U-Boot (Universal Bootloader)

The following are the required steps to create a bootable SD card starting from the sources and using an unformatted SD card:

Download Binaries and Sources.
First you need to download the necessary Binaries and/or Sources

mkdir /udoo-dev
 * Create a development folder

If the folder is created in home the command will be:

cd mkdir udoo-dev

cd udoo-dev
 * then move inside the folder


 * Download inside the “udoo-dev” folder the file system for UDOO Dual or Quad following this link http://www.udoo.org/downloads/


 * Download inside the “udoo-dev” folder the compiled Kernel (uImage) for UDOO Dual or Quad from the binaries section of the website http://www.udoo.org/downloads/.

It’s also possible to download and compile the Kernel sources from the github repository https://github.com/UDOOboard/Kernel_Unico. If you decide to compile the sources you also need to download (and extract) the cross-compiler from the sources section of the website http://www.udoo.org/downloads/


 * Download inside the “udoo-dev” folder the U-Boot file (u-boot.bin) from the binaries section http://www.udoo.org/downloads/

Once completed these steps in “udoo-dev” you should have 3 binary files: File System, U-Boot and Kernel (in case you downloaded the Kernel compiled binary), while you should have 2 binaries: File System and U-Boot plus 2 folders containing the Kernel sources (from the github link) and the cross-compiler.

Compiling the Kernel.
(NOTE: If you choose the Kernel Binary skip this point).


 * Move inside the folder udoo-dev/kernel/
 * Check the build configuration of the Kernel executing:

make menuconfig

and make sure the following entry is checked:

System Type > Freescale MXC Implementations ---> [*] Support i.MX 6 Quad and DualLite SECO UDOO platform

make -j8 CROSS_COMPILE=/bin/arm-fsl-linux-gnueabi- ARCH=arm uImage
 * Start compiling with the command:

You may be prompted to install some packages to successfully compile the kernel.

E.g. in Ubunt 10.04 you need to install the following packages:

sudo apt-get install ncurses-dev uboot-mkimage

(This operation could take up to 20 minutes)

The compiled Binary (uImage) will be available in the arch/arm/boot/ folder.

Preparing the partitions on the sd card

 * Insert the SD card in the card reader.

sudo gparted
 * Launch gparted:

(NOTE: Be sure you’re using the correct label otherwise you’ll lose every data on the hard drive on your computer if you get the wrong device name) e.g. /dev/sdc
 * Select the right Micro SD label from the drop down menù

(If necessary you need to create a partition table. Select from the top menù: Device → Create Partition Table... → Apply)
 * Unmount and delete the eventual Micro SD partitions


 * Create a new partition with the following parameters and press Add.

Free space preceding (MiB): 10 New size (MiB): based to the SD size Free space following (MiB): 10 Create as: Primary partition File system: ext3 (NOTE: ext 4 not yet supported) Label: 


 * Press the green V form, wait for the partition to be done and exit gparted.

Copy the file on Micro SD card

 * File System. Move Inside udoo-dev and extract the tar.gz file containing the filesystem inside the Micro SD with the following command:

tar -xzvpf  -C /media// (This operation could take up to 30 minutes)

sudo cp uImage /media//boot
 * Kernel. Move inside the folder where you previously downloaded or compiled the uImage file and copy the binary inside the Micro SD boot folder using the following command:

sudo dd if=u-boot.bin of=/dev/sdc bs=512 seek=2 skip=2 (NOTE: Be sure you’re using the correct label otherwise you could lose data on the hard drive on your computer if you get the wrong device name)
 * U-Boot. Move Inside udoo-dev and copy the u-boot.bin file inside the Micro SD with the following command:

umount /media/
 * Unmount the partition you previously created using the following command:


 * The Micro SD card is ready, you can now insert it on UDOO and boot the system.

Programming the Sam3x
In order to upload sketches to the SAM3X, the flash memory needs to be erased before being re-programmed. While Arduino DUE uses an ATmega16U2 microcontroller to perform this procedure, UDOO uses the iMx6 processor which is directly linked to the erase and reset pins of the Sam3x managed during the program phase.

There are 3 ways to program the Sam3x processor: With an external PC/MAC using the mini-usb cable connected to the CN6 port without any mirco SD inserted; Using the mini-usb cable connected to the CN6 port with mirco SD inserted and OS booted; Directly from UDOO under Ubuntu OS.

NOTE: At this stage the only way to program the Sam3x is to manually erase and reset the processor (method number 1):

With an external PC using the mini-usb cable connected to the CN6 port without any mirco SD inserted
Using this method the iMx6 processor doesn’t boot any kernel or file system. UDOO is used as a simple Arduino DUE.

In this case you just need a working Arduino IDE 1.5.2 installed on your PC/MAC (http://arduino.cc/en/main/software).

Once the sketch is defined, you need to follow these steps:
 * The micro SD with the OS installed must be removed;
 * The jumper in the j18 connector must be unplugged, this allows the communication with the programming port of Sam3x;
 * Insert the jumper in the j22 connector for 1 second and remove it (to erase the old sketch in SAM3X);
 * Insert the jumper in the j16 connector for 1 second and remove it (to reset the SAM3X);
 * Select from the IDE: Tools –> Board –> Arduino DUE programming port
 * Select the correct serial COM from the IDE;
 * Send the sketch using the IDE upload button.

Using the mini-usb cable connected to the CN6 port with mirco SD inserted and OS booted
At this stage the board doesn’t support this option.

Directly from UDOO under Ubuntu OS
At this stage the board doesn’t support this option.

= Resources = [Description needed]

= Community = [Description needed]

= References =

Home site and community

 * 1) Official web site http://www.udoo.org
 * 2) Official forum http://www.udoo.org/forum/index.php

Social account

 * 1) Facebook fan page http://www.facebook.com/udooboard
 * 2) Twitter http://twitter.com/UDOO_Board
 * 3) Google+ https://plus.google.com/u/0/110742692974455430878/posts
 * 4) YouTube http://www.youtube.com/channel/UCXv5UyGn5jArK8xOAmuSeHg