CI20 Distros

The CI20 ships with Debian7 installed, but a number of other distributions have been built and run on CI20 already. Those distributions are undergoing preparation for their images to be uploaded to the file store, and the links here will be updated in due course.

As the images are generated, the procedure used to build and burn the images will be documented by articles in the CI20 Rootfs Guides category.

How to burn images
For instructions on how to use the below images please see the Dev Zone.

Debian
The Debian 8 NAND flashing image, as used for the production NAND image, is available to download from the following links.

To burn the CI20 on-board NAND back to the factory default image download the following SDcard image and follow the instructions on Flashing the NAND Image.

Debian 8 2016-02-02 Beta
The Debian 8 NAND image is available here The rootfs tarball used to create this image is available here

Please read the release notes carefully.

The associated md5sums are

3ad5e53c7ee89322ff8132f800dc5ad3 nand_2016_06_02.img aa4e8b33502d30e43c34e94a81e1fd1e rootfs_2016_06_02.tar

Debian 8 2015-09-09
The Debian 8 NAND image is available here The rootfs tarball used to create this image is available here

This is a major release. Kernel upgrade from 3.0.8 to 3.18. Debian upgrade from 7 to 8. Please read the release notes carefully.

The associated md5sums are

5e5ba4b5aac9f424342683f95397c784 nand_2015_09_09.img 61f83ef8d8cc70cc678ee02801eb93fc rootfs_2015_09_09.tar

Legacy Images
Old images can be found here.

Android
Android KitKat and Android Lollipop images are available for download. You have a choice of whether to use UBIFS, or EXT4 support.

UBIFS images will flash your NAND with Android. You'll need an SD card to flash it on the CI20 - Check Flashing the NAND Image.

EXT4 images will run straight from the SD card.

Images which support UBIFS are 1GB. Images which support EXT4 are 3GBs.


 * Marshmallow EXT4
 * Lollipop UBIFS
 * Lollipop EXT4
 * KitKat UBIFS
 * KitKat EXT4

Details on how to make the image are available here.

android-marshmallow_20151124.img:

 * Android native camera application is enabled.
 * SELinux enforcing mode support
 * System partition size increased to 750MB

android-lollipop-ubifs_20150917.img:

 * Boot from NAND flash. First boot ~235s, every following boot: ~140s.

android-lollipop-ext4_20150917.img:

 * Boot from SD Card. First boot ~150s, every following boot: ~50s.

android-kitkat-ubifs_20150916.img:

 * Boot from NAND flash.
 * Decreased boot up time for 20 seconds. First boot ~150s, every following boot: ~95s.
 * Fixed Ethernet after wake up from suspend mode.
 * Added HDMI hot plug functionality.

android-kitkat-ext4_20150916.img:

 * Boot CI20 board directly form SD Card. First boot ~105s, every following boot: ~40s.
 * Fixed Ethernet after wake up from suspend mode.
 * Added HDMI hot plug functionality.

For further detail check out the Android on the MIPS CI20 page.

Gentoo
A Gentoo Linux SDCard image is available on the Gentoo mirrors:

${YOUR_CLOSEST_MIRROR}/experimental/mips/desktop-ci20/

All the instructions are in the README file.

Please find the Gentoo mirrors list here:

http://www.gentoo.org/main/en/mirrors2.xml

Yocto
Meta layer for building Poky, the reference system of the Yocto Project, for CI20 is available at GitHub: https://github.com/leon-anavi/meta-jz-mips

Instructions how to use meta-jz-mips and to build core-image-minimal are available here.

Poky
Poky, is the reference system of the Yocto Project. Instructions how to build a minimal Poky image with Linux kernel 3.18.3 for CI20 using meta-jz-mips are available here.

core-image-sato
Yocto Sato is running on CI20 - you can download the image here

The image is around 200Mbyte. You'll need an SD card to flash it on the CI20. Check Flashing the NAND Image.

The image was made using the steps documented on How to make a yocto rootfs for MIPS CI20.

A few details
 * Serial/Getty is on ttyS0. If you find a fix for getty on ttyS4, please email the list.
 * Display Resolution compiled in kernel is 1024x768 for greater compatibility with monitors.
 * The image uses kernel 3.0.8

Angstrom
Angstrom with a XFCE4 UI is running on the CI20 - you can download the image here

The image is 1Gbyte. You'll need an SD card to flash it on the CI20. Check Flashing the NAND Image.

The image was made using the steps documented on How to make an Angstrom rootfs for MIPS CI20.

Arch
Arch is running on CI20, and an image is in progress...

Buildroot
For instructions how to make buildroot, see How to make a buildroot rootfs for MIPS CI20.

This is a small (~70Mb) buildroot image. It boots directly from the sd card and doesn't flash the NAND.

Just dd the image on an sd card. (dd if=image.img of=/dev/sdX). Or windows32diskimager.

It has a minimal X environment too :).

Suitable for checking your board and running memtest.


 * Username ci20
 * Password ci20
 * Root password ci20
 * For some reason, have to login via user ci20 and then su to root if logging in via monitor/tv.

2015_03_03
Download [here]

Specific notes fir 2015_03_03: This image has ddr timings tweaked. Purpose. Requesting people to run memtest using this.

OpenWRT
OpenWRT support is a work in progress. Check the following links:

Check Readme.md for detailed status.
 * OpenWrt on CI20
 * https://github.com/Pteridium/OpenWRT-experimental/tree/ci20-alpha (deprecated)
 * OpenWRT-CI20 branch CI20-0.3 (current)

OpenELEC
OpenELEC (short for "Open Embedded Linux Entertainment Center") is a free and open source embedded operating system providing a complete appliance-like media center software suite that comes with a pre-configured version of Kodi (formerly XBMC) media player and third-party addons with retro video game console emulators and PVR/DVR plugins.

OpenELEC is an extremely small and very fast booting Linux based distribution, primarily designed to be booted from flash memory card such as USB-memory, SD-card, CompactFlash or a solid-state drive, similar to that of the Linux Live distributions but specifically targeted to a minimum set-top box hardware setup based on ARM SoC's or Intel x86 processor and graphics.

Over the years OpenELEC have and have had partnerships with several media player manufacturers and media center system integrates as OEM firmware developers, with OpenELEC maintaining the operating-systems on their hardware.

Check the following links for discussion about CI20:
 * https://github.com/OpenELEC/OpenELEC.tv/issues/3830
 * http://openelec.tv/forum/12-guides-tips-and-tricks/1061-guide-how-to-build-your-own-openelec-distro