Specifications available here: https://www.asus.com/uk/Commercial-Servers-Workstations/KCMAD8/
Quite a nice board; can have up to 16 Opteron 4200/4300 CPU cores, with up to 64GiB of RAM. It holds its own against more modern machines, especially when compiling large source trees (for compilers, what you want is high RAM and more CPU cores).
This is a desktop board using AMD hardware (Fam10h and Fam15h CPUs available). It can also be used for building a high-powered workstation. Libreboot also supports it. The coreboot port was done by Timothy Pearson of Raptor Engineering Inc. and, working with them, merged into libreboot many years ago.
Note that not all boards are compatible. See board status below to determine compatibility with your board.
Flashing instructions can be found at ../install/ - note that external flashing is required (e.g. RPi), if the proprietary (ASUS) firmware is currently installed. If you already have libreboot/osboot/coreboot, by default it is possible to re-flash using software running in GNU+Linux on the kcma-d8, without using external hardware.
If you currently have the ASUS firmware, please ignore the above link and instead refer to the section below:
The default ASUS firmware write-protects the flash, so you have to remove the chip and re-flash it using external hardware.
It has a 25XX NOR flash (SPI protocol) in a P-DIP 8 socket, which looks like this:
The default chip is a 2MiB one, but we recommend upgrading it to a 16MiB chip.
NOTE: If you’re already running Libreboot, you probably don’t need to re-flash externally. Refer instead to the generic instructions on this page: ../install/
Refer to the following guide:
Externally rewrite 25xx NOR flash via SPI protocol
Unlike Libreboot 20160907, Libreboot in newer releases now supports finding and loading PCI option ROMs automatically, both in GRUB and SeaBIOS on this machine.
So for example, if you wish to use an add-on graphics card, you can! It’s no problem, and should work just fine.
With some creativity, standard AM3+ coolers will work fine.
2 x Socket C32 (LGA1207) available, so you can use 2 CPUs. (up to 32GiB per CPU)
“Requires” means needed for stability. Opteron 4200 series CPUs work very well, even without microcode updates. Because the updates are non-free, Libreboot does not include them.
In particular, the 4200 series works well with hardware virtualization even without the microcode updates; 4300 series on the other hand is more dependent upon these microcode updates.
Microcode configures the logic gate arrays inside your CPU, to implement the instruction set architecture, which in turn is what enables instructions to execute on your CPU. What do you think will happen if you don’t have these updates? The answer is: bugs are possible, and the updates fix those bugs.
AMD CPUs are generally better engineered than Intel ones, and work much nicer without updates compared to Intel CPUs, but CPU manufacturers design their chips to accept updates for a reason!
There are two ways to identify a supported KCMA-D8 board:
Supported boards begin with a serial number of B9S2xxxxxxxx or above where the first character refers to the year of manufacture (A = 2010, B = 2011, etc.) and the following character the month in hexadecimal (1…9, A, B, C). Thus, any board produced September 2011 or later are compatible with Libreboot. Boards originally shipped with BIOS version 2001 or higher are also compatible.
For help locating these identifying markers, see ASUS documentation for determining Opteron 4200 series compatibility
For more detailed information regarding the coreboot port, see https://raptorengineeringinc.com/coreboot/kcma-d8-status.php
This board is ATX form factor. While the ATX standard, version 2.2 specifies board dimensions 305mm x 244mm, this board measures 305mm x 253mm; please ensure that your case supports this extra ~cm in width.
Don’t use it. It uses proprietary firmware and adds a backdoor (remote out-of-band management chip, similar to the Intel Management Engine. Fortunately, the firmware is unsigned (possible to replace) and physically separate from the mainboard since it’s on the add-on module, which you don’t have to install.
2MiB flash chips are included by default, on these boards. It’s on a P-DIP 8 slot (SPI chip). The flash chip can be upgraded to higher sizes: 4MiB, 8MiB or 16MiB. With at least 8MiB, you could feasibly fit a compressed linux+initramfs image (BusyBox+Linux system) into CBFS and boot that, loading it into memory (and nowadays there is LinuxBoot, for which we would recommend a 16MiB boot flash)
DO NOT hot-swap the chip with your bare hands. Use a P-DIP 8 chip extractor. These can be found online. See http://www.coreboot.org/Developer_Manual/Tools#Chip_removal_tools
Ideally, you should not hot-swap. Only remove the IC when the system is powered down and disconnected from mains.
Only text-mode is known to work, but linux(kernel) can initialize the framebuffer display (if it has KMS - kernel mode setting).
NOTE: This section relates to the onboard ASpeed GPU. You can use an add-on PCI-E GPU in one of the available slots on the mainboard. Nvidia GTX 780 cards are what Libreboot recommends; it has excellent support in Nouveau (free Linux kernel / mesa driver for Nvidia cards) and generally works well; however, the performance won’t be as high in Nouveau, compared to the non-free Nvidia driver because the Nouveau driver can’t increase the GPU clock (it doesn’t know how, as of 18 March 2021).
The coreboot wiki has some information about RAM compatibility. The wiki is deprecated but the info on it is still correct for this board. Some other considerations:
Check the ASUS website.
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