Difference between revisions of "PINE H64"

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= Linux Image Releases =
= Linux Image Releases =
== Manjaro ARM ==
* Installing and using from Manjaro x64 repositories:
::In your Desktop Environment use the Package Manager and search for '''manjaro-arm-tools''' and install.
::Or in the Terminal use '''sudo pacman -S manjaro-arm-tools''' to install the package.
::Then in the Terminal use '''sudo buildarmimg -d pine-h64 -e <your-favourite-de>''', but change <your favorite DE> to one from the list of supported DE's:
:::* minimal
:::* lxqt
:::* kde-plasma
:::* mate
:::* xfce
:::* i3
:::* sway
:::* gnome (experimental)
:::* plasma-mobile (experimental)
:::* phosh (experimental)
:::* cubocore (not complete yet)
:::* server (not complete yet, unmaintained)
* To find out more about Manjaro-Arm-Tools and available options please visit their [https://gitlab.manjaro.org/manjaro-arm/applications/manjaro-arm-tools site]


== Armbian==
== Armbian==
Line 110: Line 89:
** password: anthon
** password: anthon


== Manjaro ARM ==
* Installing and using from Manjaro x64 repositories:
::In your Desktop Environment use the Package Manager and search for '''manjaro-arm-tools''' and install.
::Or in the Terminal use '''sudo pacman -S manjaro-arm-tools''' to install the package.
::Then in the Terminal use '''sudo buildarmimg -d pine-h64 -e <your-favourite-de>''', but change <your favorite DE> to one from the list of supported DE's:
:::* minimal
:::* lxqt
:::* kde-plasma
:::* mate
:::* xfce
:::* i3
:::* sway
:::* gnome (experimental)
:::* plasma-mobile (experimental)
:::* phosh (experimental)
:::* cubocore (not complete yet)
:::* server (not complete yet, unmaintained)
* To find out more about Manjaro-Arm-Tools and available options please visit their [https://gitlab.manjaro.org/manjaro-arm/applications/manjaro-arm-tools site]





Revision as of 03:55, 29 December 2020

PINE H64 Model

There are two type of PINE H64 models:

Click on the model A photo to access the model A main page.

For model B, stay on the current page.


PINE H64 Model B Software and OS Image Downloads

Linux Image Releases

Armbian

Armbian Debian Buster for XFCE Desktop Usage

Armbian Debian Buster for Server and Light Desktop Usage

Armbian Ubuntu Bionic for Server and Light Desktop Usage

Armbian Ubuntu Focal for Server and Light Desktop Usage


AOSC

AOSC Community Build Image with Mate Desktop [microSD Boot] [20190708]

  • To learn more about AOSC, please visit the official AOSC website
  • Known issue: no audio sound output.
  • DD image (for 8GB micoSD card and above)
  • Login with
    • username: aosc
    • password: anthon

AOSC Community Build Image with Mate Desktop [eMMC Boot] [20180709]

  • To learn more about AOSC, please visit the official AOSC website
  • Known issue: no audio sound output.
  • DD image (for 8GB micoSD card and above)
  • Login with
    • username: aosc
    • password: anthon


AOSC Community Build Image with Mate Desktop [microSD Boot] [20190218]

  • To learn more about AOSC, please visit the official AOSC website
  • Known issue: no audio sound output.
  • DD image (for 8GB micoSD card and above)
  • Login with
    • username: aosc
    • password: anthon

AOSC Community Build Image with Mate Desktop [eMMC Boot] [20180216]

  • To learn more about AOSC, please visit the official AOSC website
  • Known issue: no audio sound output.
  • DD image (for 8GB micoSD card and above)
  • Login with
    • username: aosc
    • password: anthon


Manjaro ARM

  • Installing and using from Manjaro x64 repositories:
In your Desktop Environment use the Package Manager and search for manjaro-arm-tools and install.
Or in the Terminal use sudo pacman -S manjaro-arm-tools to install the package.
Then in the Terminal use sudo buildarmimg -d pine-h64 -e <your-favourite-de>, but change <your favorite DE> to one from the list of supported DE's:
  • minimal
  • lxqt
  • kde-plasma
  • mate
  • xfce
  • i3
  • sway
  • gnome (experimental)
  • plasma-mobile (experimental)
  • phosh (experimental)
  • cubocore (not complete yet)
  • server (not complete yet, unmaintained)
  • To find out more about Manjaro-Arm-Tools and available options please visit their site


DietPi

dietpi.png


LibreELEC (KODI)

Nightly Build Image [microSD and eMMC Boot]


BSD Image Releases

NetBSD

NetBSD Community Build Image [microSD Boot]


Android Image Releases

Android 9.0

Stock Android 9.0 microSD Card to eMMC 20190523]

  • DD image to microSD card, install eMMC module, plug in microSD card into slot and boot.
    • After power ON the box for 2-3 second, it will start writing the new image to the eMMC with progress bar. Once finished upload to eMMC, take out microSD card and reboot.
  • Highly recommend using Etcher
  • Support 4K HDR playeback
  • non rooted version
  • PINE64 IR mapping not yet implemented
  • Please allow 10-15 minutes boot up time on first time for initialization
  • DD images:

Stock Android 9.0 microSD and eMMC Boot 20190523]

  • Support 4K HDR playeback
  • Highly recommend using Etcher
  • non rooted version
  • PINE64 IR mapping not yet implemented
  • Please allow 20-25 minutes boot up time on first time for initialization
  • DD images:

Stock Android 9.0 Phoenix Card image 20190523]

  • Only use Phoenixcard method as last resort option
  • Select "Start up" as option for SD Card boot
  • Select "Product" as option for "SD Card to eMMC" method
  • non rooted version
  • PINE64 IR mapping not yet implemented
  • Please allow 10-15 minutes boot up time on first time for initialization
  • This process may not everytime build up successfully


Android 7.x

Stock Android 7.0 microSD Card Boot 20190115]

  • Support 4K HDR playeback
  • Highly recommend using Etcher
  • Please allow 10-15 minutes boot up time on first time for initialization
  • DD images:


Stock Android 7.0 microSD Card to eMMC 20190115]

  • DD image to microSD card, install eMMC module, plug in muicroSD vard into slot and boot.
    • After power ON the box for 2-3 second, it will start writing the new image to the eMMC with progress bar. Once finished upload to eMMC, take out microSD card and reboot.
  • Highly recommend using Etcher
  • Support 4K HDR playeback
  • Please allow 10-15 minutes boot up time on first time for initialization
  • DD images:


Stock Android 7.0 Phoenix Card image 20190115]

  • Only use Phoenixcard method as last resort option
  • Select "Start up" as option for SD Card boot
  • Select "Product" as option for "SD Card to eMMC" method
  • Please allow 10-15 minutes boot up time on first time for initialization
  • This process may not everytime build up successfully


SoC and Memory Specification

  • Based on Allwinner H6

Allwinner H64.png

CPU Architecture

  • Quad-core ARM Cortex-A53 Processor@1488Mhz
  • A power-efficient ARM v8 architecture
  • 64 and 32bit execution states for scalable high performance
  • Trustzone technology supported
  • Support NEON Advanced SIMD (Single Instruction Multiple Data) instruction for acceleration of media and signal processing function
  • Support Large Physical Address Extensions(LPAE)
  • VFPv4 Floating Point Unit
  • 32KB L1 Instruction cache and 32KB L1 Data cache
  • 512KB L2 cache

GPU Architecture

  • ARM Mali T-720MP2 Dual-core GPU
  • Supports OpenGL ES 3.1/3.0/2.0/1.1, OpenCL 1.2/1.1
  • Supports ATSC (Adaptive Scalable Texture Compression)
  • Supports FAST(4x)FSAA, IO Coherency
  • Floating point operation greater than 70 GFLOPS

System Memory

  • RAM Memory Variants: 1GB, 2GB, and 3GB LPDDR3.
  • Storage Memory: PINE H64 boards have built-in 128Mb SPI Flash memory, use bootable eMMC module, bootable microSD Cards or USB attached storage.


Board Features

Video

  • Digital Video 4KP60 (Type A - full)

Audio

  • 3.5mm stereo earphone/microphone plug

Network

  • 10/100/1000Mbps Ethernet
  • WiFi 802.11 b/g/n/ac with Bluetooth 4.0/4.1

Storage

  • microSD - bootable, support SDHC and SDXC, storage up to 256GB
  • USB - 1 USB3.0 Host port and 2 USB2.0 Host port

Expansion Ports

  • RTC - Real Time Clock Battery Connector
  • Wifi/BT Module Header - SDIO 3.0 and UART
  • 2x20 pins "Pi2" GPIO Header


Pine H64 Model B Board Information, Schematics and Certifications

  • Board Dimensions: 85mm x 56mm x 18.8mm
  • Input Power: DC 5V @ 3A, 3.5mm OD/ 1.35mm ID DC jack connector
  • PINE H64 Model B Certification:
    • Disclaimer: Please note that PINE64 SBC is not a "final" product and in general certification is not necessary. However, PINE64 still submits the SBC for FCC, CE, and ROHS certifications and obtain the certificates to prove that the SBC board can pass the testing. Please note, a final commercial product needs to perform its own testing and obtain its own certificate.
    • PINE-H64 Model-B FCC Certificate
    • PINE-H64 Model-B CE Certificate]

Datasheets for Components and Peripherals


Mali-T720 driver

Here is a good DRM powerpoint presentation by Free Electron: https://free-electrons.com/pub/conferences/2017/kr/ripard-drm/ripard-drm.pdf

Here is the DRM video presentation by Free Electron: https://www.youtube.com/watch?v=LbDOCJcDRoo

32-bit Wayland MALI Driver:

64-bit Wayland MALI Driver:

Linux BSP SDK

Linux BSP Kernel 4.9

Android SDK

Android Pie 9.0 SDK version 1.0

Other Resources