I hope Linux support for these chips matures quickly. Qualcomm's laptop chips are the only serious competitor to Apple's M-series in single core performance and power efficiency. Intel and AMD are both far behind.
If I could find a 6GB Q6A in stock (or Radxa eMMC, or fan-powered case, or most Radxa products in general) I would celebrate this announcement but they seem to be in small batch mode right now.
What would it cost to fund swe and design professionals to write a 9front port with a haiku skinjob to hit milestones at 9, 18, 27 month intervals? the incubation period for Macintosh, NeXTSTEP, BeOS, HarmonyOS Next would have estimates.
> What would it cost to fund swe and design professionals to write a 9front port with a haiku skinjob ...
Patches welcome. The community is very small and most everyone involved has jobs. There is also a tendency to only support the most common *useful* hardware instead of Raspberry Pi clone du jor.
As for a haiju skin job, see lola, a new window manager: https://shithub.us/aap/lola/HEAD/info.html I think it has a BeOS theme, if not, likely an easy patch because the dev designed it to be very hackable vs rio.
> ... to hit milestones at 9, 18, 27 month intervals? the incubation period for Macintosh, NeXTSTEP, BeOS, HarmonyOS Next would have estimates.
Not sure what any of this means. 9front is a rolling fork. People submit patches and if useful, are applied. sysupdate(8) is a small script that binds the 9front git repo over root and then runs git/pull. Then you run 'mk install' in /sys/src.
It says that it has four 10 Gb/s USB ports (2 Type A and 2 Type C).
It is unknown whether the ports are independent, or some of them or all of them are connected to an internal hub.
Even if they were connected to a single CPU port through an internal hub, if you used two 5 Gb/s USB Ethernet interfaces you would get close to full speed for them.
Having 10 Gb/s USB instead of the so-called "5 Gb/s" USB (in reality 4 Gb/s), provides much more additional I/O throughput than having 5 Gb/s RJ45 instead of 2.5 Gb/s. I agree that having 5 Gb/s Ethernet would have been nice, but it is much more valuable that it has 10 Gb/s USB, which is very rarely encountered on Arm-based computers.
I hope Linux support for these chips matures quickly. Qualcomm's laptop chips are the only serious competitor to Apple's M-series in single core performance and power efficiency. Intel and AMD are both far behind.
Yes! But these are rebadged 5 year old chips.
If I could find a 6GB Q6A in stock (or Radxa eMMC, or fan-powered case, or most Radxa products in general) I would celebrate this announcement but they seem to be in small batch mode right now.
What would it cost to fund swe and design professionals to write a 9front port with a haiku skinjob to hit milestones at 9, 18, 27 month intervals? the incubation period for Macintosh, NeXTSTEP, BeOS, HarmonyOS Next would have estimates.
> What would it cost to fund swe and design professionals to write a 9front port with a haiku skinjob ...
Patches welcome. The community is very small and most everyone involved has jobs. There is also a tendency to only support the most common *useful* hardware instead of Raspberry Pi clone du jor.
As for a haiju skin job, see lola, a new window manager: https://shithub.us/aap/lola/HEAD/info.html I think it has a BeOS theme, if not, likely an easy patch because the dev designed it to be very hackable vs rio.
> ... to hit milestones at 9, 18, 27 month intervals? the incubation period for Macintosh, NeXTSTEP, BeOS, HarmonyOS Next would have estimates.
Not sure what any of this means. 9front is a rolling fork. People submit patches and if useful, are applied. sysupdate(8) is a small script that binds the 9front git repo over root and then runs git/pull. Then you run 'mk install' in /sys/src.
This is a one beautiful SBC.
Apparently we might be able to run OpenBSD on it [0]
FreeBSD is unclear [1]
- [0] https://www.openbsd.org/arm64.html
- [1] https://bugs.freebsd.org/bugzilla/show_bug.cgi?id=267292
I just wish they had 2x5GbE like the Orion O6. i/o heavily matters for my compute nodes.
I wonder if 802.3ad bonding can bring 5gbit/s
It says that it has four 10 Gb/s USB ports (2 Type A and 2 Type C).
It is unknown whether the ports are independent, or some of them or all of them are connected to an internal hub.
Even if they were connected to a single CPU port through an internal hub, if you used two 5 Gb/s USB Ethernet interfaces you would get close to full speed for them.
Having 10 Gb/s USB instead of the so-called "5 Gb/s" USB (in reality 4 Gb/s), provides much more additional I/O throughput than having 5 Gb/s RJ45 instead of 2.5 Gb/s. I agree that having 5 Gb/s Ethernet would have been nice, but it is much more valuable that it has 10 Gb/s USB, which is very rarely encountered on Arm-based computers.
Seems like you could add that pretty easily via USB and/or M.2. Either should have the necessary bandwidth.