So Copilot Runtime is… Windows bundling a bunch of models like an OCR model and an image generation model, and then giving your program an API to call them.
So Copilot Runtime is… Windows bundling a bunch of models like an OCR model and an image generation model, and then giving your program an API to call them.
It sounds like nobody actually understood what you want.
You have a non-ZFS boot drive, and a big ZFS pool, and you want to save an image of the boot drive to the pool, as a backup for the boot drive.
I guess you don’t want to image the drive while booted off it, because that could produce an image that isn’t fully self-consistent. So then the problem is getting at the pool from something other than the system you have.
I think what you need to do is find something else you can boot that supports ZFS. I think the Ubuntu live images will do it. If not, you can try something like re-installing the setup you have, but onto a USB drive.
Then you have to boot to that and zfs import
your pool. ZFS is pretty smart so it should just auto-detect the pool structure and where it wants to be mounted, and you can mount it. Don’t do a ZFS feature upgrade on the pool though, or the other system might not understand it. It’s also possible your live kernel might not have a new enough ZFS to understand the features your pool uses, and you might need to find a newer one.
Then once the pool is mounted you should be able to dd
your boot drive block device to a file on the pool.
If you can’t get this to work, you can try using a non-ZFS-speaking live Linux and dd
ing your image to somewhere on the network big enough to hold it, which you may or may not have, and then booting the system and copying back from there to the pool.
I don’t know why your friend doesn’t like it. Ask your friend why they don’t like it.
There are a lot of missing steps people don’t really understand yet R.E. how this all amounts to something complicated like “a liver”. But we think that the basic building block of it is that there are gradients of chemical concentration that some cells set up, and then other cells react to the level of the chemical and decide to different things. There’s a famous analogy of the French Flag Model, where the different stripes of the French flag are imagined to emerge from how far you are from the left edge where a “morphogen” chemical is coming from, because cells detect and react to different concentrations of the chemical in different ways.
And the cells do these things because the DNA programs them to do it. Some genes produce proteins that can turn around and bind to the DNA that encodes other genes, and make those other genes produce more or fewer proteins of their own. Proteins can be made so that they bind or unbind DNA in the presence of other proteins, or particular chemicals, or which can function to turn one chemical into another. So you can have little logic circuits made out of genes that measure chemicals and turn other genes on and off. And you can have little memory circuits based on which genes have things bound to them and which ones are currently on or off, so the cells can remember what it is they decided to be. And so the cells are programmed to differentiate into progressively more specific cell types over time depending on what signals they see, with the morphogen gradients or combinations of them allowing the cells to have some idea of where they are in the body.
And the proteins are these little squishy clicky things, like long strings of magnets that will snap into certain shapes, or that can swap between a few shapes. They can be shaped so they fit really nicely against certain shapes of DNA sequence or other proteins, or so that they fit really nicely against small molecules with a piece pushing on the molecule in just the right place to make it easy for an atom to break off the end of it or whatever. And because they live in this weird tiny world where everything is constantly vibrating around and banging against everything else (because of how tiny the volumes get when you shrink the lengths to cell size), this is enough for them to find and stick to the stuff they are shaped to stick to.
Then depending on genetic variation between people, the proteins involved can e.g. have different set points for the concentrations they react to, and that can translate into the threshold between cells deciding to do one thing or another moving around in the body, and in turn translate into people having e.g. a wider or narrower region of their face decide to be a nose.
shit how do you clean the dispenser tubes
They also have Paul Frazee, who is the Beaker Browser dude and one of the Secure Scuttlebutt dudes. And also whyrusleeping, one of the IPFS dudes. So if they manage to enshittify it won’t be because they forgot to hire enough “Wizard Utopians” with decentralization experience.
This /c/ is catnip for lemmy users.
Welcome to /c/atnip@lemmy.world
Sure
Smartphones are great. Apps are user-hostile malware. Online spaces are, in the majority, traps. If every time you drove downtown you ended up in a corporate police state designed to play you and your friends off each other and make you all miserable so you look at more advertisements for shampoo, you would conclude that getting in the car is bad for you.
No?
An anthropomorphic model of the software, wherein you can articulate things like “the software is making up packages”, or “the software mistakenly thinks these packages ought to exist”, is the right level of abstraction for usefully reasoning about software like this. Using that model, you can make predictions about what will happen when you run the software, and you can take actions that will lead to the outcomes you want occurring more often when you run the software.
If you try to explain what is going on without these concepts, you’re left saying something like “the wrong token is being sampled because the probability of the right one is too low because of several thousand neural network weights being slightly off of where they would have to be to make the right one come out consistently”. Which is true, but not useful.
The anthropomorphic approach suggests stuff like “yell at the software in all caps to only use python packages that really exist”, and that sort of approach has been found to be effective in practice.
How much of this is “the model can read ASCII art”, and how much of this is “the model knows exactly what word ought to go where [MASK] is because it is a guess-the-word-based computing paradigm”?
Watch TikTok’s US operation get sold not to the highest bidder, but to the American entity most intent on using it to destabilize society.
Plastic at the microscopic level, if they aren’t doing anything chemically interesting, really ought to function about like “rock, but light”. Most organisms don’t run into trouble because there are tiny bits of rock in the world, so I would expect tiny bits of plastic not to be a huge problem. Which is sort of backed up by how we have noticed microplastics everywhere and we haven’t seen huge problems resulting from it (most people are still alive, most children still develop to adulthood, etc.).
But it’s entirely possible that some of these plastics are not chemically inert, and that they emit chemicals that do exciting and unwanted things in people’s bodies. If we can’t keep our plastics from becoming microplastics, we probably need to discontinue the manufacture of non-implantable plastics, since all the plastics will end up in someone’s body at some point.
And it’s also possible that the microplastics physically do do something interestingly bad. I think there was a recent study to this effect on heart disease. But at this point, that’s the question we need to be asking. How many or what kind of microplastics does it take to give a ferret epilepsy? Not “are there microplastics in my all brands of peanut butter?”
Popular? None.
But we don’t only have to build an environment that allows the doing of popular things. We also need to maintain a society in which unpopular or unusual things can be done. The doing of unpopular or unusual things is itself popular.
I’m sure that the Title IX people will be very excited to hear about the disparate impact of this decision.
On Android, there’s Newpipe which doesn’t run ads, and Newpipe x Sponsorblock which clips ads out from the video. On desktop there is FreeTube which also has SponsorBlock you can turn on.
If you try to light the Earth on fire, the worms that live in it will come stop you.
The pita fix only works if you can dig up a CD drive to put it in though. Most people don’t have one and are SOL.