You can download it and flash it to a 4GB+ MicroSD card via Win32DiskImager. If you run into any issues, please do not hessitate to let us know via our partner’s forum. There are some known issues that will be addressed before final images:
I2S is not functional
OpenGL ES 2.0 is bottlenecked by an unoptimized xf86-video-armsoc xorg driver
Monitor must support 576p since CVBS is enabled or you will get no video
Missing 4K support in the mainline kernel
Missing automatic filesystem resize
SSH host keys are not automatically regenerated
SSH is enabled and there’s a default password for the libre user
Kernel and other packages need to be deb’ed
We will re-spin the image to fix many issues once Linux 4.14 LTS is released. Android 7.1 running on MicroSD card will be released next week.
Please note that not every feature is ironed out and we will be steadily improving the mainline kernel and images to be more user friendly. If you run into issues please use the LoveRPi Forum for kernel and image issues or the Armbian Forum for Armbian issues.
Linux Plumbers Conference was a great resource for us to meet the people who play critical roles in getting Linux to where it is today. We received a lot of input on the future direction of numerous technologies we use. We also sponsored the LPC T-Shirts for this year and we hope to do more in the coming years.
Please try it out and give us some feedback. There’s a lot of changes coming to the ARM world like EBBR, ASBA, and SBBR. We will continue to refine the software releases to be standards compliant as they are released.
Our Kickstarter campaign has launched! You can find a lot of information about our board and our goals on our Kickstarter page. We hope you support us in bringing the next generation of open computing infrastructure to market.
Since we got our boards back from manufacturing, we have been hammering at it in our labs with tests and benchmarks. The benchmark numbers above can provide a rough estimate of the performance numbers we expect to see.
All of the benchmark numbers were done in a controlled environment in a case with a 20mm 5V fan. While the Raspberry Pi 3 Model B and our board ran consistently without a fan, the ASUS Tinker Board created a lot of heat and required a fan to get consistent numbers.
The ASUS Tinkerboard maxed out at 2.1A. The high current draw created a 0.7V voltage drop between the MicroUSB pin and the 5V rail. This is the largest delta that we have ever seen and we had to increase the DC supply voltage to 5.25 in order to keep the 5V rail above 4.5V.
ASUS Tinkerboard: 1450
Libre Computer Board AML-S905X-CC: 1150
Raspberry Pi 3 Model B: N/A
We are aiming for an end of June or early July release for the Libre Computer Board AML-S905X-CC nicknamed Le Potato. This is our first board based on the popular Amlogic S905X chip. We have spent extensive amounts of time optimizing the layout of this board to expose the capabilities of the chip. It is roughly 50% faster than the Raspberry Pi 3 Model B, 10% faster than the Asus Tinkerboard, and supports true 4K 60 FPS with HDR over a HDMI 2.0 interface.