To me the step through the nix config is a double edged sword, on one hand, I just put something like boot.plymouth.enable = true and now I got a nice boot screen without me having to think about having to regenerate the initramfs or something. But if something is not exposed through the options, the work effort is big, reading through module definitions, the original config of the program, maybe writing a derivation. Can I do in in home-manager etc. But every step of the way I can be sure I can have a working system a reboot away
Dude AI companies do not give a fuck about the law. It's hard to prove a specific piece of data was used to train a model so they put everything in they can. There's literally a lawsuit about this, where Microsoft and others claim using code on GitHub to train is fair use.
As far as I can tell this lawsuit is about copyright infringement of open source code, but as we where talking about an open source project leaving GitHub because of this, that's what's relevant.
I myself would not be surprised if they could not withstand the urge to put more high quality code from enterprise users into their training data, but as they are not suing and we don't know their code, that's speculation.
Want kind of use cases do you have for your phone that that's relevant? Sure it's nice to have, but I can't even remember when I last moved files to/from my phone
Mich würde schon interessieren wie viele Sexarbeiterinnen dem Beruf noch nachgingen, hätten wir ein bedingungsloses Grundeinkommen (überall auf der Welt)
I can recommend nh. Its a wrapper around the nix* commands and includes nh search, giving you a list of packages (not sure about nixos module options, I think not). It also uses nix-output-monitor giving you a nice dependency graph when building (plus downloads etc) as well as a diff between the current and new generation, with version changes, added, removed etc.
The wavefunction obtained by the Schrödinger equation is indeed time dependent, so it is possible for the probability of measuring a certain eigenvalue of a physical quantity described by an operator on the wavefunction to change over time.
I don't quite get what you are trying to say here. Are you talking about whether quantum entanglement breaks relativity?
Measuring for example one electron spin up will get you the information that the other one (maybe a few light-years away) is of a certain other state (maybe spin down). This does not allow to transfer a message between the two locations, as measuring the state on the senders end is still completely random. They would have to send a lookup table which is still only possible with the speed of light
That's why you gotta use more metrics like recall and precision