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cries It’s amazing how much damage they’ve done to the linux ecosystem. Not just badly thought out concepts, but the amount of frustration and annoyance they caused by ramming it into existence and the cynicism it’s created.
cries It’s amazing how much damage they’ve done to the linux ecosystem. Not just badly thought out concepts, but the amount of frustration and annoyance they caused by ramming it into existence and the cynicism it’s created.
Having consistent interface names on servers that have several is useful, but we already had that option. The interface names they generate are not only hard to remember, but not terribly useful as they’re based on things like which PCI slot they’re in, rather than what their purpose is. You want interface names like wan0
and DMZ
, not enp0s2
. Of course, you can set it up to use useful names, but it’s more complicated than it used to be, so while the systemd approach looks like a good idea on the surface, it’s actually a retrograde step.
He may have taken some ideas from there, but I still see more windows like ideas. We’re one bad decision away from systemd-regedit
. If that happens, I might just give up completely.
I try not to think about the things they’ve done, it’s not good for my blood pressure. They had a decent desktop distro, but they seem determined to trash it with terrible decisions.
In news that will shock no-one, dbus was, of course, initially created by a Redhat engineer. I get the idea of having a general purpose bus that everything can communicate on, but they somehow managed to even make that complex.
You make a compelling case for Void Linux. I use Debian or a RHEL derivative for work, primarily so there’s at least a chance to hand systems off to someone else to maintain, the less known distros seem to meet with blank looks.
I want to give NixOS a try sometime, as I like the idea of declaritively defining the system
I do use Ansible, partly because it’s easier to tell people that’s how you do it rather than “I wrote a shell script, it took half the time to write, it’s 20% the size and runs several times faster”. To be fair to Ansible, if you’re configuring a number of servers at the same time, it’s not too bad speedwise as it’ll do batches of them in parallel. Configuring one server at a time is agony though.
I’ve never actually tried BTRFS, there were a few too many “it loses all your data” bugs in the early days, and I was already using ZFS by then anyway. ZFS has more than it’s fair share of problems, but I’m pretty confident my data is safe, and it has the same upsides as BTRFS. I’m looking forward to seeing how BCachefs works now it’s in kernel, and I really want to compare all three under real workloads.
That’s fair, it does make sense to use it on a laptop, but it really should be the sort of thing you add when needed rather than having it jammed in whether it’s useful or not.
Every time I need to do something even slightly different to a basic setup I find myself inventing new curses for those who screwed things up with these overblown, over complex, minimally functional abominations. Just give me vi and the basic configuration files and let me get on with it!
He’s definitely off my Christmas card list. He seems desperate to leave a legacy, but he keeps trying to turn Linux into windows instead.
Personally I’d do away with NetworkManager too and just configure the interfaces directly, but that might just be me being old and grumpy!
I think most distros go along because their upstream did. There are comparatively few ‘top level’ distributions, the main ones (by usage) being Redhat and Debian. Most everything else branches from those. Redhat’s got enough clout on the market that there’s a sort of pull towards complying with it just to not be left put.
I use Debian, but I think they’re crazy for swallowing everything Redhat pushes, they could easily stick to the cleaner options and have a better system for it. At least they let you opt out of systemd, so life is a little more tolerable.
No need for a custom solution, we already had ways to make predictable names that worked better than this. Giving each interface a name that represents it’s job makes life so much easier when you have several, naming them after which PCI bus they’re on does not.
I’m with our binary friend; the systems they try to replace tend to be time tested, reliable and simple (if not necessarily immediately obvious) to manage. I can think of a single instance where a Redhat-ism is better, or even equivalent, to what we already have. In eavh case it’s been a pretty transparent attempt to move from Embrace to Extend, and that never ends well for the users.
It’s amazing how many linux problems stem from ‘Redhat, however, found this solution too simple and instead devised their own scheme’. Just about every over complex, bloated bit of nonsense we have to fight with has the same genesis.
I was more suggesting that it might be a bit eldritch, but sometimes humor doesn’t come across quite right/
The linked paper is focused on studying the ‘perforation-type anchor’ they use to hold the tissue to the mold as it grows, rather than keeping it alive afterwards. During growth the tissue and mold were submerged, or partially submerged, in a suitable medium to keep the cells healthy, and it was only when the resulting models were tested that they were removed (although one test did seem to involve letting it dry out to see if the anchors held). Growing the various layers of cells seems to be a solved problem, and I suspect that includes keeping them supplied with nutrients and such, so the authors aren’t examining that. What’s not solved is how to keep the tissue attached to a robot, which is what the authors were studying.
Do you really want to know? There are some things that the human mind is not meant to contemplate.
Let them colonize the sun. That’d show us no-good heathens who’s boss, when we have to look up at their new home every day. Surely their god will keep them safe on such a glorious bit of missionary work.
Take to another level by attaching a speaker to a PWM peripheral, now you can debug by ear, whilst driving your colleagues barmy with the beeps. The only tricky bit is working out if it was three beeps and a boop, or two beeps then a beep-boop.
I guess you could, although the gripper would add a bit of mass to the drone. You still lose some energy from the round into the yeeted barrel, but not as much as having an open breech. Depending on the mass of the projectile vs the mass of the barrel that could be a worthwhile trade-off.
There’s an easier and more reliable way to limit replication; don’t hive them the means to create a small but essential part, and instead load the first probe woth many copies of it and have each replica take a set percentage.
For instance, have the probe able to replicate everything but its CPU, and just load up a rack of them on probe 0. Every time it replicates itself it passes half of its remaining stock to the replica and they both carry on from there.
I think the difference is the level it’s happening at. As I said, I haven’t tried it yet, but it looks like a simple, unfussy and minimal distribution that you then add functionality to via configuration. Having that declarative configuration means it’s easy to test new setups, roll back changes and even easily create modified configuration for other servers.