It’s worse, a single infinite loop will warm up the computer a bit, this program starts two copies of itself, each of which starts two copies of itself… unless you’ve set some limits on things the computer’s going to be locked up within seconds.

I think you’re thinking of SerenityOS (although it isn’t actually a Linux):

https://arstechnica.com/gadgets/2021/08/not-a-linux-distro-review-serenityos-is-a-unix-y-love-letter-to-the-90s/

Yeah, they’re probably talking about nulls. In Java, object references (simplified pointers, really) can be null, pointing nowhere and throwing an exception if you try to access them, which is fine when you don’t have a value for that reference (for example, you asked for a thing that doesn’t exist, or you haven’t made the thing yet), but it means that every time you interact with an object, if it turns out to have been null, a null pointer exception is getting thrown and likely crashing your program. You can check first if you think a value might be null, but if you miss one, it explodes.

Kotlin has nulls too, but the type system helps track where they could be. If a variable can be null, it’ll have a type like String?, and if not, the type is String. With that distinction, a function can explicitly say “I need a non-null value here” and if your value could be null, the type system will make you check first before you can use it.

Kotlin also has some nice quality of life improvements over Java; it’s less verbose (not a hard task), doesn’t force everything to belong to a class, supports data classes which are automatically immutable and behave more like primitive values than objects, and other improvements.

They could organize protests, they could help workers unionize, they could put their necks out and disrupt things, they could do anything besides stand by and say “oh no, this is so bad.” They have a gigantic megaphone and the ears of almost half the country, their power isn’t limited to the votes they have or don’t have. I want them to be making plans that are bold, plans where they feel a need to account for “how do we make sure this doesn’t turn into an outright riot though,” the things you’d do if you actually believed the rhetoric about Trump being a threat to democracy.

Fellow former popes, you mean, by reading this message you hereby excommunicate yourself.

I’m bitterly clinging to my iPhone 13 mini, because I suspect it’s the last phone I’ll ever actively enjoy. I went along with bigger phones when that became the trend and decided I didn’t like them, and the mini line was such a relief to go back to. Once it’s no longer tenable, I’ll probably just buy a series of “the least bad used phone I can find” because I know I’ll be mildly frustrated every time I use it.

It’s the last one, the “wait a day” option and the “pay $20” options aren’t equivalent. If it’s still a day away from viability, it isn’t viable yet, but if it’s $20 away, it is. You may be of the opinion that waiting a day isn’t a big deal, or is only $20 worth of hardship, but that’s not your choice to make for others.

You’d think ending a doomed pregnancy would be a simple matter even for pro-lifers, yes. They often don’t consider the issue, or assume that it’ll always be clear-cut and obvious in every circumstance, or worry that any exception will be used as a loophole.

I can’t believe this word doesn’t seem to have made it into any part of this thread, but I think you’re looking for viability: the point where a fetus can live outside of the womb. This isn’t a hard line, of course, and technology can and has changed where that line can be drawn. Before that point, the fetus is entirely dependent on one specific person’s body, and after that point, there are other options for caring for it. That is typically where pro-choice folks will draw the line for abortion as well; before that point, an abortion ban is forced pregnancy and unacceptable, after that point there can be some negotiation and debate (though that late into a pregnancy, if an abortion is being discussed it’s almost certainly a health crisis, not a change of heart, so imposing restrictions just means more complications for an already difficult and dangerous situation).

I see this as an accessibility problem, computers have incredible power but taking advantage of it requires a very specific way of thinking and the drive to push through adversity (the computer constantly and correctly telling you “you’re doing it wrong”) that a lot of people can’t or don’t want to do. I don’t think they’re wrong or lazy to feel that way, and it’s a barrier to entry just like a set of stairs is to a wheelchair user.

The question is what to do about it, and there’s so much we as an industry should be doing before we even start to think about getting “normies” writing code or automating their phones. Using a computer sucks ass in so many ways for regular people, you buy something cheap and it’s slow as hell, it’s crapped up with adware and spyware out of the box, scammers are everywhere ready to cheat you out of your money… anyone here is likely immune to all that or knows how to navigate it but most people are just muddling by.

If we got past all that, I think it’d be a question of meeting users where they are. I have a car but I couldn’t replace the brakes, nor do I want to learn or try to learn, but that’s okay. My car is as accessible as I want it to be, and the parts that aren’t accessible, I go another route (bring it to a mechanic who can do the things I can’t). We can do this with computers too, make things easy for regular people but don’t try to make them all master programmers or tell them they aren’t “really” using it unless they’re coding. Bring the barrier down as low is it can go but don’t expect everyone to be trying to jump over it all the time, because they likely care about other things more.

I’m so confused that the same people can say “why does everyone get their undies in a bunch that we happily accept putting arbitrary data in columns regardless of type, that’s good, it’s flexible, but fine, we’ll put in a ‘strict’ keyword if you really want column types to mean something” and also “every other SQL says 1==‘1’ but this is madness, strings aren’t integers, what is everyone else thinking?!”

“Life without risk of poverty”?! That desperation and fear is the only way I can staff my sweatshops!

Back in the olden days, if you wrote a program, you were punching machine codes into a punch card and they were being fed into the computer and sent directly to the CPU. The machine was effectively yours while your program ran, then you (or more likely, someone who worked for your company or university) noted your final results, things would be reset, and the next stack of cards would go in.

Once computers got fast enough, though, it was possible to have a program replace the computer operator, an “operating system”, and it could even interleave execution of programs to basically run more than one at the same time. However, now the programs had to share resources, they couldn’t just have the whole computer to themselves. The OS helped manage that, a program now had to ask for memory and the OS would track what was free and what was in use, as well as interleaving programs to take turns running on the CPU. But if a program messed up and wrote to memory that didn’t belong to it, it could screw up someone else’s execution and bring the whole thing crashing down. And in some systems, programs were given a turn to run and then were supposed to return control to the OS after a bit, but it was basically an honor system, and the problem with that is likely clear.

Hardware and OS software added features to enforce more order. OSes got more power, and help from the hardware to wield it. Now instead of asking politely to give back control, the hardware would enforce limits, forcing control back to the OS periodically. And when it came to memory, the OS no longer handed out addresses matching the RAM for the program to use directly, instead it could hand out virtual addresses, with the OS tracking every relationship between the virtual address and the real location of the data, and the hardware providing Memory Management Units that can do things like store tables and do the translation from virtual to physical on its own, and return control to the OS if it doesn’t know.

This allows things like swapping, where a part of memory that isn’t being used can be taken out of RAM and written to disk instead. If the program tries to read an address that was swapped out, the hardware catches that it’s a virtual address that it doesn’t have a mapping for, wrenches control from the program, and instead runs the code that the OS registered for handling memory. The OS can see that this address has been swapped out, swap it back in to real RAM, tell the hardware where it now is, and then control returns to the program. The program’s none the wiser that its data wasn’t there a moment ago, and it all works. If a program messes up and tries to write to an address it doesn’t have, it doesn’t go through because there’s no mapping to a physical address, and the OS can instead tell the program “you have done very bad and unless you were prepared for this, you should probably end yourself” without any harm to others.

Memory is handed out to programs in chunks called “pages”, and the hardware has support for certain page size(s). How big they should be is a matter of tradeoffs; since pages are indivisible, pages that are too big will result in a lot of wasted space (if a program needs 1025 bytes on a 1024-byte page size system, it’ll need 2 pages even though that second page is going to be almost entirely empty), but lots of small pages mean the translation tables have to be bigger to track where everything is, resulting in more overhead.

This is starting to reach the edges of my knowledge, but I believe what this is describing is that RISC-V chips and ARM chips have the ability for the OS to say to the hardware “let’s use bigger pages than normal, up to 64k”, and the Linux kernel is getting enhancements to actually use this functionality, which can come with performance improvements. The MMU can store fewer entries and rely on the OS less, doing more work directly, for example.

A VPN is just a way to say “wrap up my normal internet packets and ship them somewhere specific before they continue the normal way.” The normal way is you want to get a message to some other server, and as a part of setting up the network you’re on, your machine should already have a list of other devices it’s physically connected to (“physically” could be “via radio waves” so not just wired) and they should have already advertised “hey, I’ve got access to these places too” for your information. Your router is likely the only one in your home network advertising anything that is on the larger internet, so all your outgoing messages will have to go that way to get to their destination. For example, I’ve got a phone, a wifi access point, a router, and my ISP’s box; my phone knows the WiFi access point is two hops away from internet because the access point said so, that’s the best one it can see, so it sends it that way and hopes it makes it. Each machine in between does the same thing until hopefully it gets where it is supposed to.

With a VPN, the same messages are wrapped in a second message that is addressed to the other end of the VPN. When it gets to the VPN provider, it’s unwrapped, then the inside message is sent off to wherever it’s supposed to go. If a message comes back to the VPN provider addressed to you (ish, this is simplifying a bit), it’s wrapped up the same way and sent back to you.

Big companies often put resources “behind” the VPN, so you can’t send messages from the outside addresses to the office printer, they’ll get blocked, but you can request a connection to the VPN, and messages that come in through that path do get allowed. The VPN can be one central place where you make sure everything coming in is allowed, then on the other side the security can be a little less tight.

VPNs also encrypt the internal message as a part of wrapping them up, which means that if you’re torrenting via a VPN, all anyone else can see is a message addressed to your VPN provider and then an encrypted message inside. And anyone you were exchanging messages with only ever saw traffic to and from the VPN provider, they never saw where it was going after your VPN provider got it. Only you and the VPN provider know what was happening on both ends, and hopefully they don’t look too closely or keep records.

Hopefully now it’s clear that Mullvad and similar won’t help you access your own things from outside, they’re only good for routing your stuff through them and then out into the rest of the internet. However, this isn’t secret magic tech: you can run your own VPN that goes in the other direction, allowing you into your own home network and then able to connect to things as if you were physically there. Tailscale is probably the easiest thing for things like that nowadays, it’ll set up a whole system where your devices can find each other and set up a mesh of secure, direct connections no matter where they are physically located. By default, just the direct device-to-device connections are re-routed, but you can also make a device an “exit node” that can route all your traffic like a traditional VPN.

Of course, that will be the exact opposite of what you want for privacy while torrenting, as it’s all devices that you clearly own and not hiding their identities whatsoever. But it’s very cool for home networking and self-hosting stuff.

Bluesky’s more like an aspirationally decentralized platform, you can keep your own data on your own server and use your own domain name as a user name, but most of the rest of it is “centralized, but we’re designing it in such a way that we can open it up later.” Even then, though, it’s heavily influenced by the original idea of “let’s make something decentralized that Twitter can switch to once it’s worked out” which means that even when they do open things up, it’s likely that a lot of Bluesky will only be practical at “big tech company scale” to run yourself, whereas Mastodon or Lemmy you can just spin up on a server and it’ll be fine until you get a lot of users.

I as a human being have grown up and learned from experience and the experiences of previous humans that were documented or directly communicated to me. I can see no inherent difference with an artificial intelligence learning on the same data.

It’s a massive difference in scale. For one, before you even leave the womb you have millions of years of evolution shaping the initial structure of your brain. Then your “training” begins, but it’s infinitely richer than anything we’re giving to these LLMs. Sights, sounds, smells, feelings, so many that part of what your brain is learning is what it must ignore. You’re also benefitting from the interactivity of your environment, you can experiment with things and get feedback for what happens. As you get older and develop more skills, you can start integrating them together to do even more complex things, and the people around you will use their own incredible intelligence to specifically tailor your training to what you need as you learn and grow.

Meanwhile, an LLM is getting fed words, and learning how to predict the next word. It’s a pale shadow of the complex lives humans live. Words are one of the more powerful things we have for thinking and reasoning, so if you’re going to go all in on one skill, it’s a rich environment for learning and in theory the contents of all of humanity’s writing probably contains all the information necessary to recreate human intelligence, but our current technology doesn’t even come close to wringing every ounce of knowledge from the training sets.

Of course anyone can vote for who they like, or not vote at all, no one’s saying otherwise. It’s Harris’s job to earn your vote, and she clearly hasn’t. But pushing third parties as the solution to any problem is going to do more harm than good until we get a better election system. It may feel better to vote for a party that more clearly aligns with your positions, but if they have no path to actually acquiring any power to make change, you’re doing nothing while feeling like you did something. Changing the policies of a flawed party that actually has power is much harder, and yes, there might be compromise or half-measures, but that’s an infinitely more productive path. (More productive than that is doing direct action outside of the electoral system entirely, but both things can be done at the same time.)

What does this have to do with anything? Yes, the Democratic Party is flawed. That doesn’t change the fact that voting Green will make my political desires slightly less likely, and will make my political fears slightly more likely, compared to voting for a Democrat.

They’re attacking Jill Stein because she’s running a campaign that will have absolutely no impact on the world except for enticing some number of would-be Harris voters to instead throw their votes away. If the Green Party were serious about change, they’d focus on races where they could actually win instead of actively causing harm to the party that is much more likely to actually do the things they say they want. Instead, they’ve basically outright stated that all they care about is hurting the Democrats. It’s a terrible electoral system that needs to be fixed, but until it is, third parties are always going to present a false option that effectively does the opposite of what their voters actually want.

It’s all a stupid game. Israel killed some people, so Iran “had to” respond to save face, and then Israel had to do the same. Once everyone is satisfied that everyone knows both countries have very big and girthy missiles, they can finally back down from a war no one wants (hopefully).

Archive Team looked at this about 10 years ago and found it basically impossible. It was around 14 petabytes of information to fetch, organize, and distribute at the time.

https://wiki.archiveteam.org/index.php/INTERNETARCHIVE.BAK