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Posts Tagged ‘development board’

How to Modify HDMI Output Parameters in Linux for ODROID-XU3 (Lite) Development Board

December 13th, 2014 4 comments

Good news, I’ve finally managed to make HDMI output in my ODROID-XU3 Lite development board with the Ubuntu image, after some more tweaking. so ODROID XU3 Lite Ubuntu review is coming in the next few days. But first, I’ll explain the few steps I went through, in case other experience a similar issue.

Lubuntu Screenshot in ODROID-XU3 Lite (Click for Original Size)

Lubuntu Screenshot in ODROID-XU3 Lite (Click for Original Size)

I downloaded, extracted, and flashed the latest Ubuntu image to a micro SD card with dd to give another try at running Ubuntu on my board, but not luck, I still got that black screen, albeit the system boots properly, as I got the command line using the serial console.

During my Android review of ODROID-XU3 Lite, I noticed the system would always revert back to 720p60 video output, and HDMI output settings can be selected in in /media/boot/boot/ini with the following content:

ODROIDXU-UBOOT-CONFIG

# U-Boot Parameters
setenv initrd_high "0xffffffff"
setenv fdt_high "0xffffffff"

# Mac address configuration
setenv macaddr "00:1e:06:61:7a:39"

#-------------------------------------------------------------------------------
# Basic Ubuntu Setup. Don't touch unless you know what you are doing.
# --------------------------------
setenv bootrootfs "console=tty1 console=ttySAC2,115200n8 root=UUID=e139ce78-984"
                                                                                
# boot commands                                                                 
setenv bootcmd "fatload mmc 0:1 0x40008000 zImage; fatload mmc 0:1 0x42000000 u"
                                                                                
# --- Screen Configuration for HDMI --- #                                       
# ---------------------------------------                                       
# Uncomment only ONE line! Leave all commented for automatic selection.         
# Uncomment only the setenv line!                                               
# ---------------------------------------                                       
# ODROID-VU forced resolution                                                   
# setenv videoconfig "video=HDMI-A-1:1280x800@60"                               
# -----------------------------------------------                               
# 1920x1080 (1080P) with monitor provided EDID information. (1080p-edid)        
# setenv videoconfig "video=HDMI-A-1:1920x1080@60"                              
# -----------------------------------------------                               
# 1920x1080 (1080P) without monitor data using generic information (1080p-noedi)
# setenv videoconfig "drm_kms_helper.edid_firmware=edid/1920x1080.bin"          
# -----------------------------------------------                               
# 1280x720 (720P) with monitor provided EDID information. (720p-edid)           
# setenv videoconfig "video=HDMI-A-1:1280x720@60"                               
# -----------------------------------------------                               
# 1280x720 (720P) without monitor data using generic information (720p-noedid)  
# setenv videoconfig "drm_kms_helper.edid_firmware=edid/1280x720.bin"             
# -----------------------------------------------                               
# 1024x768 without monitor data using generic information                       
# setenv videoconfig "drm_kms_helper.edid_firmware=edid/1024x768.bin"           
                                                                                
                                                                                
# final boot args                                                               
setenv bootargs "${bootrootfs} ${videoconfig} smsc95xx.macaddr=${macaddr}"      
# drm.debug=0xff                                                                
# Boot the board                                                                
boot

I actually tried a few settings in my previous attempt by unsuccessfully. However, now I knew that 1080p does not work in Android with my TV, so I focused on the 720p settings.

Trying 720p-edid, lead to a black screen, but enabling 720p-noedid worked around the issue, and I could finally see LXDE desktop environment on my TV.  That means my TV (Panasonic TH-L39EM6T) and ODROID-XU3 Lite board have issues communicating EDID information, and it’s most probably a driver issue that needs to be fixed, but at least, if you encounter a black screen with your board, it’s worth spending some time trying all options in boot.ini.

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PopMetal Rockchip RK3288 Development Board Features Multiple Display Interfaces (HDMI, VGA ,eDP, LVDS, MIPI), GPS and NFC Connectivity

December 12th, 2014 No comments

Up to now, we’ve had mainly two development boards based on Rockchip RK3288 Cortex A17 processor: Firefly-RK3288 is a low cost development board powered by Rockchip RK3288 processor selling for as low as $140 shipped, and Radxa Rock 2, a more professional and expansive solution with dual Ethernet, 3G modem and so on. A third RK3288 board has now surfaced which offers a middle ground between Firefly and Radxa boards. PopMetal development board comes with 2GB RAM, 8GB eMMC, 5 video outputs / display interfaces namely HDMI, VGA, embedded DisplayPort (eDP), LVDS, and MIPI DSI, as well as the usual Gigabit Ethernet, Wi-Fi, and Bluetooth connectivity, complemented with GPS and NFC.

ChipSpark PopMetal Board (Click to Enlarge a Bit...)

ChipSpark PopMetal Board (Click to Enlarge a Bit…)

PopMetal technical specifications:

  • SoC – Rockchip RK3288 quad core ARM Cortex-A17 processor @ 1.8Ghz with ARM Mali-T764 GPU with support for OpenGL ES1.1/2.0/3.0, OpenVG 1.1, OpenCL 1.1, DirectX 11
  • System memory – 2GB DDR3
  • Storage – 8 GB eMMC, SATA connector for 2.5″ HDD/SSD (TBC), and micro SD card slot
  • Connectivity – Gigabit Ethernet, 802.11 b/g/n and 802.11ac Wi-Fi, Bluetooth 4.0, GPS, and NFC. Two external antennas for Wi-Fi and GPS.
  • Video Output / Display Interfaces
    • HDMI 2.0 up to 4kx2k@60hz
    • VGA up to 1080p
    • LVDS
    • eDP (embedded DisplayPort)
    • MIPI DSI
  • Audio I/O – HDMI, 3.5mm headphone jack, built-in microphone, LINE IN, optical S/PDIF, audio output headers.
  • Camera – MIPI CSI connector, CIF connector
  • USB – 3x USB 2.0 host ports, 1x micro USB OTG port, 1x micro USB debug port
  • Debugging – Serial console via micro USB debug port
  • Misc – Home, Vol +/-, and power buttons, IR receiver, three jumpers
  • Power – 5V/3A
  • Dimensions – 15 x 9.2 cm

I’m not quite sure what the DTV connector is for, but I assume it could be MIPI DSI interface, with the other MIPI connector being reserved for the camera.PopMetal_RK3288_Board_SATAPopMetal is made by ChipSpark, the same company who designed and manufactures Rayeager PX2 board, and while there’s plenty of documentation the latter, nothing related to PopMetal has been published on the Wiki so far, but Android, Ubuntu, and Chrome OS operating systems will be supported.

You won’t find more much details on ChipSpark PopMetal product page, but the product is listed for $199 US. I could add it to the cart, but trying to sign-in with Facebook or Twitter failed. Shipping costs are not included, and they ship by FedEx.

Via Linux-rockchip G+ community

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Hardkernel ODROID-C1 is a $35 Development Board Powered by Amlogic S805 Quad Core Processor

December 10th, 2014 66 comments

Amlogic S805 is a quad core Cortex A5 processor which has found it way into low cost devices such as MK808B Plus TV Stick which can be purchased for as low as $30, or full-sized TV box such as MXQ S85 or MINIX NEO X6. All this low cost devices are nice, but the full source code is not available in your want to adapt them to your need. Luckily, Amlogic releases both an Android SDK, and a buildroot for Linux with GPU and Video Processing Unit (VPU) support, so Hardkernel decided to go ahead, designed a board, and has just launched ODROID-C1 quad core development board for just $35, or the exact price of a Raspberry Pi Model B+, but with much greater specs.

ODROID-C1 Board Description (Click to Enlarge)

ODROID-C1 Board Description (Click to Enlarge)

ODROID-C1 specifications:

  • SoC- Amlogic S805 quad core Cortex-A5 processor with a Mali-450MP2 GPU (2x fragment cores + 2x vertex shader cores)
  • System Memory – 1GBe DDR3 (2x Samsung K4B4G1646D)
  • Storage – eMMC module socket for  8GB/64GB Toshiba eMMC, or 16GB/32GB Sandisk iNAND Extreme, and micro SD slot (UHS-1 SD models supported)
  • Video & Audio Output – micro HDMI port
  • Connectivity – Gigabit Ethernet (Realtek RTL8211F)
  • USB – 4x USB 2.0 host ports (via GENESYS LOGIC GL852G), 1x micro USB OTG port (Cannot be used for power input)
  • Expansion Headers – 40-pin Raspberry Pi (mostly) compatible header with GPIO, I2C, SPI, UART, and ADC.
  • Debugging – Serial console header (3.3V)
  • Misc – 4x Status / Power LEDS, IR receiver, RTC + RTC battery header, solder pads for power switch, boot media selector
  • Power Supply – 5V/2A DC input (2.5/0.8mm barrel). Typical power consumption:  0.5A @ 5V, up to 2A @ 5V with several USB peripherals.
  • Dimensions – 85 x 56mm (Same dimensions as Raspberry Pi Model B+)
  • Weight – 40 gram

It’s the first S805 device I see that actually uses a Gigabit Ethernet port, so that’s good news. You can boot the system from eMMC or micro SD card, using the boot media selector (Open: eMMC, Closed: SD card).

ODROID-C_Board_Bottom

The company will provide images for Ubuntu 14.04 or Android 4.4 KitKat with Linux 3.10. The source code for U-Boot/Linux will be released on December 15, but the Android source code will take a little longer due to license issues, and is expected for February. WiringPi v2 library used to control I/O in the Raspberry Pi with Python or C/C++, has been ported to ODROID-C1. Further information such an expansion header pinout, and instructions to build u-boot can be found on ODROID-C1 Wiki, which is still under construction. The schematics (PDF) and mechanical drawings have also been released.

What makes this platform existing, beside its attractive pricing and source code availability, is Ubuntu support with proper OpenGL ES and video hardware decoding support, which is showcased in the video below in Kodi 14 Helix running in Ubuntu 14.04.

ODROID-C1 is available for pre-order for $35 on Hardkernel website with shipping scheduled for December 16, but if you are based in North America or Europe, you should be better off purchasing from respectively Ameridroid or Pollin Electonic. I also wish they find a distributor for the rest of the world, as shipping is probably $25 (I can’t access the site from Thailand without proxy), which makes the board $60 [Update: Based on comments shipping is only $9 for some, for $25 for most]. You’ll also need to purchase storage for booting either from Hardkernel or its distributors which sells 8, 16, 32 and 64GB eMMC modules, or 8 to 16GB UHS-1 micro SD cards preloaded with Android 4.4 or Ubuntu 14.04, or buy it one locally, just make sure you don’t buy the cheapest micro SD card, get at least a Class 10 or UHS-1 micro SD, or your ODROID-C1 will feel as slow, or even slower, than a Raspberry Pi. Further details can also be found in ODROID magazine December 2014 (PDF) including a performance and specs comparison between ODROID-C1 and Raspberry Pi Model B+.

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Merrii A80 Hummingbird Octa-core Development Board Supports HDMI, VGA, and eDP Video Outputs

December 8th, 2014 5 comments

Up to now at least three boards based on Allwinner A80 processor were available: A80 OptimusBoard by Merrii, pCDuino8 by Linksprite, and Cubieboard4  by Cubitech, and the first two boards are basically the same. Merrii has now introduced a new board which they call “A80 Hummingbird H8″, with more features and ports including HDMI, VGA and eDP video outputs,  LVDS / MIPI DSI display interfaces, MIPI CSI camera interface, an RTC with battery and more.

A80 HummingBird H8 Board (Click to Enlarge)

A80 HummingBird H8 Board (Click to Enlarge)

Merri H8 specifications:

  • SoC – AllWinner A80 octa-core processor with 4x Cortex 15, 4x Cortex A7 cores in big.LITTLE configuration with Imagination Technologies PowerVR GC6230 GPU compliant with OpenGL ES 3.0/2.0/11, OpenCL 1.1, and DirectX 9.3
  • System Memory – 2GB DDR3
  • Storage – 8GB internal storage (Sandisk SDIN7DU2 iNAND Flash), micro SD slot up to 32 GB
  • Video Output/ Display Interfaces
    • HDMI 1.4 up to 4K UHD resolution
    • VGA port
    • eDP v1.2 up to 2560×1600 @ 60 Hz
    • MIPI DSI, LVDS,  LCD RGB interfaces via expansion connectors
  • Audio – HDMI, headphone jack, built-in microphone, speaker header. AC100 Codec
  • Camera I/F – MIPI CSI
  • Connectivity – Gigabit Ethernet, dual band Wi-Fi 802.11 b/g/n & Bluetooth 4.0 (AP6330 module)
  • USB – 1x USB 3.0 OTG, 2x USB 2.0 host ports
  • Debugging – UART
  • Expansion – Via 2x headers on the side shared with display and camera interfaces.
  • Misc – IR receiver, reset and power LEDs, reset, power on and u-boot buttons, RTC with battery
  • Power management – AXP806, AXP809 PMIC
  • Power Supply – 12V via power barrel or input header, LCD power header (12V/5V), and connector for external LiPo battery
  • Dimensions – N/A

Based on my experience with A80 OptimusBoard, Merrii does not always provide full documentation and source code for their board. But either A80 OptimusBoard came out a little too earlier, or Merrii has decided to improve, as some documentation (mostly in Chinese), and source code has been released on their forums.

Most downloads are available via Baidu, which can be slow, and for some, difficult to use if you live outside of China, so mininodes re-uploaded the product brief and user’s manual.

Other downloads include:

  • A80 HummingBird H8 Android image (Android 4.4.2 with Linux 3.4.39)
  • A80 HummingBird H8 Lubuntu images for SD card or internal boot (I guess)
  • A80 HummingBird H8 SDK (5.51 GB) – a80_hummingbird_20141015ok.tar.gz (password: 96qo)

I’m not sure when the board will be available, and but it should eventually show up on Merrii Aliexpress store.

Via Mininodes.

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MIPS Creator CI20 Development Board is Now Available for $65

December 5th, 2014 3 comments

When Imagination Technologies first announced their developer program for MIPS Creator CI20 board, they did not disclose the price, but based on the specifications I estimated that a decent price would be $70 o $80. The company has now announced broad availability of the board, which can be pre-ordered for just $65 or 50 GBP depending on the continent you live in, with shipping scheduled for the end of January 2015.

MIPS_CI20_Development_BoardThis development board is based on Ingenic JZ4780 dual core MIPS processor with 1GB DDR3, 8GB flash,  and features an HDMI output up to 1080p, Audio in and out, a Fast Ethernet RJ45 port, a Wireless module with Bluetooth 4.0 and Wi-Fi, an IR receiver, and expansion headers.

Several projects have already been ported by developers who got their free board a few months, ago including XBMC/Kodi, several games such as Spiral Episode 1, and beside Android 4.4 and Debian 7 officially supported by Imagination, operating systems have also been ported to MIPS Creator CI20 with NetBSD, Express Logic ThreadX RTOS, and Haiku inspired from the defunct BeOS.

XBMC 13.2 on MIPS Creator CI20

XBMC 13.2 on MIPS Creator CI20

XBMC 13.2 is not based on the Android version, but based on Debian, as the last blog update posted at the end of October, mentions the OpenGL ES user interface runs smoothly (30 fps @ 1080p resolution), but FFmpeg/Libav were crashing at the time, so video could not be played. Hopefully this is fixed. At least that means that 2D/3D graphics acceleration is working in Linux.

Hardware and software documentation, as well as Debian 7, Android 4.4, and other distributions images and source code are available on MIPS Creator CI20 Wiki. You can also go directly to MIPS github account to get the source code for Linux, U-Boot, mplayer, and others.

If you live in North America, you can pre-order the board for $65, and people living in the European Union or the United Kingdom can purchase it for 50 GBP on the UK store. If you feel lucky, three boards will be given away on a Rafflecopter draw embedded on Imagination Technologies blog post.

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Applied Micro XC-1 Server Development Board (Mustang) is Now Available to Developers for $895

December 4th, 2014 11 comments

64-bit ARM server boards such as Applied Micro XC-1 Mustang and AMD Opteron A1100 development kit have been available since the beginning of the year, but only to selected companies, and at a price of several thousand dollars per board. Applied Micro is now offering their X-Gene based XC-1 development board to individual developers for $895, or about ~40% discount to the $1495 company now have to pay for the board. It may also be available from distributors (part number: EV-883208-X1-PRB-1).

X-C1 Mustang Development Board

XC-1 Development Board

XC-1 board (codenamed Mustang) technical specifications:

  • SoC – Applied Micro X-GeneAPM883208-X1 8-core ARM 64-bit @ 1.6 GHz
  • System Memory – 2x DDR3 UDIMM memory slots up fitted with 2x 4GB sticks (8 GB), upgradable to 16GB
  • Storage – 1x 128Mbit SPI NOR Flash for booting, 1x SATA 3 ports, SD card slot, 1024Kb and 256Kb I2C EEPROM
  • Connectivity – 2x Gigagit port (SGMII), 10 GbE SFP+ cage, 1x Gigabit management Ethernet port (RGMII).  Note: the product brief only mentions 1x Gigabit Ethernet port,  1x Management port, but the Getting Started Guide and the picture above clearly shows all 4 Ethernet ports.
  • USB – 2x USB 3.0 ports, 1x mini USB port (for JTAG)
  • Expansion – 1x PCIe x8 connector, expansion connector(s) for GPIOs
  • Debugging – JTAG (mini USB to JUAG) and trace connectors
  • Monitoring – DB9 Serial port
  • Misc – RTC, temperature monitor, BMC connector (I’m not sure what it is, and its purpose)
  • Power Supply – mini-ATX
  • Dimensions – 170 x 170 mm (mini-ITX form factor)

The kit includes X-Gene X-C1 board, a mini ITX Power Supply, a serial/USB FDTI cable, and documentation. I understand you can connect a SATA multiplier to get up to four 6TB hard drives connected to the board.

Mustang Block Diagram

Mustang Block Diagram (USB ports should be USB 3.0)

You’ll also be able to access Linux code (source and binary),  U-Boot firmware (source and binary), Linux development tools, sample application code, and schematics and layout files for X-C1 board. UEFI Tianocore bootloader, as well as Ubuntu 14.04 LTS, RedHat, Fedora, OpenSUSE are also available. Download links are apparently provided in the documentation that comes with the board, or you may be able to access these after registration at https://myapm.apm.com/.

This server board is not only capable of running Linux server distributions, and you can insert a PCIe graphics card (e.g. Nvidia GeForce 7600) in to the board, and Android 4.4 Kitkat developed by Linaro, as shown on a video by Charbax, which also includes an overview of the board, and an unboxing of the kit.

Via ARMDevices.net

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Banana Pi M2 is an Allwinner A31s Quad Core Board with Raspberry Pi Model B+ Form Factor

December 2nd, 2014 6 comments

Banana Pi, and the recently announced Banana Pro, are Android & Linux development boards based on Allwinner A20, with a form factor similar to Raspberry Pi Model B and B+ boards respectively. A new revision of the board is now available with Banana Pi M2 powered by Allwinner A31s quad core processor, and in a form factor similar to R-Pi B+.

Banana_Pi_M2Banana Pi M2 specifications:

  • SoC – Allwinner A31s quad core Cortex A7 @ 1.0 GHz with PowerVR SGX544MP2 GPU
  • System Memory – 1GB DDR3
  • Storage –  Micro SD slot up to 64GB
  • Connectivity – 10/100/1000 Ethernet, 802.11 b/g/n Wi-Fi  (Realtek)
  • Video Output –  HDMI, CVBS, and LVDS/RGB header
  • Audio Output – HDMI and 3.5mm stereo jack
  • Camera – CSI connector
  • USB – 2x USB 2.0 host ports + micro USB port (power only)
  • Debugging – UART pins for serial console
  • Expansion Header – 40-pin R-Pi “somewhat” compatible header with 2×13 UART, I2C bus, SPI bus, CAN bus, ADC, PWM, 3.3V, 5V, ground
  • Misc – IR Receiver, power, reboot and reset buttons.
  • Power Supply – 5V in via MicroUSB (DC in only)
  • Dimensions – 92x60mm (R-Pi B+: 85×56 mm)
  • Weight – 48 grams
  • Temperature Range – -15 to 75 C

Banana_Pi_M2_Realtek_WiFiAlbeit similar, components placement and board dimensions are not exactly the same as on the Raspberry Pi B+, as are mounting holes, so it may not be compatible with Hats expansion boards, and other R-Pi accessories. The board will run Android 4.2, Firefox OS, and Linux distributions, but there isn’t any information yet on bananapi.com, and I got details from G+.

Banana Pi M2 is not yet listed on SinoVoiP Aliexpress store, but one European retailer will set it for 99 Euros excluding VAT (currently out of stock). [ Update: retail price has not been confirmed yet. but volume price should be $50 per unit]

]

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Intrinsyc Introduces Snapdragon 810 Powered Mobile and Tablet MDPs, DragonBoard Development Kit

November 28th, 2014 3 comments

Intrinsyc has recently announced availability for three development platforms based on Qualcomm Snapdragon 810 ARM Cortex A53/A57 processor, namely a smartphone Mobile Development Platform (MDP), a tablet MDP, and a DragonBoard development kit integration Open-Q 8094 system-on-module, making these one of the first ARM64 development platforms available to individual developers, or at least small software development companies (approved by Qualcomm). All three platforms will run Android 5.0 Lollipop.

Intrinsyc Snapdragon 810 MDP Smartphone

Snapdragon_810_MDPIntrinsyc MDP/S specifications:

  • SoC – Qualcomm Snapdragon 810 (8994)  64-bit octa-core processor with 4x Cortex A57 cores, 4x Cortex A53 cores, Adreno 430 GPU, and Hexagon V56 DSP
  • System Memory – 3 GB LP-DDR4
  • Storage – 32 GB eMMC 5.0  micro SD slot (under battery door)
  • Display – 6.17” QHD (2560×1600) 490ppi, 10-finger multi-touch capacitive touchscreen
  • Video Output – micro HDMI type D
  • Audio
    • Headset jack with ANC support
    • 8 microphones (2 analog/ 6 digital) with support for Qualcomm Fluence Pro technology and Snapdragon digital pen technology
    • Ultrasound emitter for gesture applications
    • Mono speaker
  • Connectivity – 802.11 a/b/g/n/ac Wi-Fi 2.5 GHz/5 GHz,  Bluetooth 4.1, Qualcomm IZat Gen8C GPS
  • Cameras
    • 13 MP rear camera with OIS, Dual LED flash (4K at 30 fps, 1080p @ 60fps)
    • 4 MP front camera with AF (1080p at 120 fps)
  • Sensors – 3-axis accelerometer and 3-axis gyro, 3-axis magnetometer (compass), ambient light sensor, proximity sensor, pressure sensor, temperature and humidity sensor, UV sensor, and Mobeam sensor (for barcodes)
  • USB – micro USB 3.0 OTG port
  • Misc – Volume, power, and home buttons, finger print reader, tri-color status/notification LED
  • Battery – 3020 mAh Lithium-ion battery. Qualcomm Quick Charge 2.0 support when used with optional HVDCP charger

This developer smartphone has some serious specs, and should ship late December 2014 for $799. Please note that there does not seem to be any 3G/LTE support. More details are available on the product page.

Intrinsyc Snapdragon 810 MDP Tablet

Snapdragon_810_MDP-TIntrinsyc MDP/T specifications are somewhat similar to the 810 MDP/S, but with more RAM and storage, a larger screen (possibly even the first 4K UHD screen on a tablet), a larger battery, stereo speakers, and a dual 3D gesture camera, but less sensors:

  • SoC – Qualcom Snapdragon 810 (8994)  64-bit octa-core processor with 4x Cortex A57 cores, 4x Cortex A53 cores, Adreno 430 GPU, and Hexagon V56 DSP
  • System Memory – 4 GB LP-DDR4
  • Storage – 64 GB eMMC 5.0  micro SD slot (under battery door)
  • Display – 10.1” UHD 4K (3840×2160), 10-finger multi-touch capacitive touchscreen, dual display capable (tablet + HDMI)
  • Video Output – micro HDMI type D
  • Audio
    • Headset jack with ANC support
    • 8 microphones (2 analog/ 6 digital) with support for Qualcomm Fluence Pro technology and Snapdragon digital pen technology
    • Two ultrasound emitters for gesture applications
    • Front-facing stereo speakers
    • 8-channel audio over HDMI
  • Connectivity – 802.11 a/b/g/n/ac Wi-Fi 2.5 GHz/5 GHz,  Bluetooth 4.1, Qualcomm IZat Gen8C GPS
  • Cameras
    • 13 MP rear camera with OIS, Dual LED flash (4K at 30 fps, 1080p @ 60fps)
    • 4 MP front camera with AF (1080p at 120 fps)
    • Dual 3D IR gesture camera
  • Sensors – 3-axis accelerometer and 3-axis gyro, 3-axis magnetometer (compass), ambient light sensor, proximity sensor, temperature and pressure sensor, and ambient humidity sensor.
  • USB – micro USB 3.0 OTG port
  • Misc – Volume, power, reset, and home buttons.
  • Battery – 7,560 mAh Lithium-ion battery. Qualcomm Quick Charge 2.0 support when used with optional HVDCP charger, and Qualcomm WiPower charging capable.

The tablet will ship by mid December 2014, and can be purchased for $999. Check out the product page for more information.

DragonBoard Development Kit based on Snapdragon 810 (APQ8094)

ARM64_development_boardIntrinsyc DragonBoard 64-bit ARM development board technical specs:

  • SoC – Qualcomm Snapdragon 810 processor with 4x Cortex A57, 4x Cortex A53, Adreno 430 GPU and Hexagon v56 DSP
  • System Memory – 4GB LPDDR4 RAM
  • Storage – 16GB eMMC 5.0 flash + 2x SATA + 1 MicroSD card slot
  • Connectivity – Wi-Fi 802.11n/ac, Bluetooth 3.0/4.1, GNSS (GPS and GLONASS)
  • Video Output / Display I/F  – HDMI, 1x MIPI dual 4-lane DSI + touch panel
  • USB – 2x USB 3.0 + 2x USB 2.0 + 1x USB 2.0 micro-AB
  • Camera I/F – 3x MIPI CSI with support for 3D camera configuration
  • Expansions
    • PCI Express Slot with support for Gigabit Ethernet card
    • 4x Expansion headers for additional features, test, and debug

The kit is comprised of a baseboard, and an OpenQ-8094 SoM, which can be procured separately for commercial applications.

This “Early Adopter” board is currently only available to “select customers approved by Qualcomm” for $499, but as time passes by, individuals will hopefully be able to purchase as board, as is the case with other DragonBoards.

Via Liliputing and LinuxGizmos

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