The machine that was last installed in 2014 is Ubuntu LTS. It’s been upgraded through all the LTS releases since then. Currently on 22.04 with the free Ubuntu Pro enabled. I use a mix of Ubuntu LTS and Debian stable on other machines. For example my laptop is on Debian 12. Debian has been the most reliable OS and community for over 30 years and I believe it’ll still be around 30 years from now, if we haven’t destroyed ourselves. 😂

We’re perfectly optimistic about most technology. We can see how we can benefit from it, once most of the value it produces no longer ends in the owner class’es pocket.

Okay which one of you happened to pass by that lot?

Seems like a fix is on the way.

They’re pretty good. The affected models are 10-year-old now. Not that it means they should stop working, but just some context.

Yeah, it seems counterproductive to ditch FOSS in the name of self-sufficiency. If it were about that, assembling an army of software people to learn and contribute to important FOSS codebases would be much more productive in my opinion. It feels like Harmony Next is about something else. Perhaps some wholesale insurance. Or someone’s plans grandeur.

That kinda makes sense at this stage. If you spend time understanding what those commands do, you’d understand how the system works, and most importantly how to not fuck it up. Keep in mind there’s a lot of misinformation and bad practices in guides out there. People who bare know more than you feel confident to share snippets without warning. Ten or twenty years ago much fewer people had experience with Linux and most people confident enough to write were technical people that knew what they were talking about. Destructive misinformation was less.

But yeah when you learn, the need or urge to reinstall disappears. I stopped reinstalling in 2014. Took me 9 years to unfuck my Windows brain and understand enough to not shoot myself in the feet. Main machine hasn’t been reinstalled since then. That’s with replacing multiple main boards, switching AMD > Intel > AMD, changing SSDs, going from single SSD to mdraid, increasing in size over time, etc.

Yeah I have no hope for an American FOSS design.

Perhaps an EU-backed one might appear at some point.

Recently I stumbled upon a Chinese team working on a FOSS pair of cores, with source in GitHub. I think they were aiming at competing with A76 and N2. Supposedly they’re well underway.

Found it

If these guys (or any others) tape out a competitive FOSE chip, it’ll change the world. If it’s a decent project, everyone and their mother will fork it. And we’ll get chips that cost just a bit over the silicon and packaging cost.

Sir, this is not Windows.

A high performance RISC-V CPU core.

Any bets on how many Democrats will vote in favour?

Not quite but credit cards and Interac e-Transfer.

This is a very accurate explanation. ☝️

Most of them are.

It’s so much better than The Wild Robot!

Amid the DeepSeek surge, smaller firms using AI may turn to RISC-V chips for cost savings. The report notes that even if a 10 million yuan RISC-V setup delivers 30% of NVIDIA or Huawei’s performance, purchasing three could still be more affordable.

Yup. If these guys come up with a half-decent CPUs they won’t have to pay the ARM, Intel or AMD premium, they can significantly decrease the cost of compute in a whole lot of sectors and use cases. And if they open source and / or sell those chips to everyone…

And I think it’s just a matter of time for them to develop those designs.

I’m also looking forward to working a couple of days a week, training and coaching young developers.

Alright so this is where the next great cores are likely to come from.

As far as I read LPCAMM in its current state does not work for this. The electrical noise is too high. These things aren’t the same. A repairable waterproof phone can be made without glue by making it a bit thicker. In the case of RAM today, we’re hitting fundamental physics limitations with speed of electricity and noise. At this point the physical interconnect itself becomes a problem. Gold contact points become antennas that induce noise into adjacent parts of the system. I’m not trying to excuse Framework here. I’m saying that the difficulty here borders on the impossible. If this RAM was soldered and it had bandwidth no different than SODIMM or LPCAMM modules then I’d say Framework fucked up making it soldered, majorly. As I said, there’s no point buying this if you don’t care about the fast RAM and use cases that need it like LLMs. Regular ITX board with regular AM5 is the way to go.

E: To be clear, if this bandwidth could be achieved with LPCAMM, then Framework fucked up.

You get fast memory as a result. If you don’t care about the fast memory, there’s no good reason to buy this, with their motherboard. There’s a use case this serves which can’t be served by traditional slotted memory and the alternative is to buy 4-5 NVIDIA 3090/4090/5090. If you want that use case, then this is a pretty good deal.