There's nothing inherently wrong with digital ID, provided it's implemented in a zero-knowledge-style manner. In fact, it would be much better than what we have now: Uploading your physical photo ID to every company that is legally required to ask for it.
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That's one of the methods that SKG has suggested - just publishing the server API and leaving the actual (re)implementation of the server program to the community. That still leaves a lot of work for the community but at least it's tractable, much more than reverse engineering raw network packets from scratch.
The servers may include third-party licensed code that the developers don't have the rights to release
Bubbles are not an existential threat to society. We've had like four bubbles in the past 20 years.
This is how bubbles always go, see the Gartner hype cycle. People always overextend, try to apply new tools/tech into places that it doesn't belong, and only then do people realise the limitations of technology. This is common in business, C-suites explicitly exploit the hype cycle to secure naive investor funding, but investors always become wise eventually - it's a game to see how much money can be extracted from them before they become increasingly aware of the limitations of the technology. There will be niches where the tech actually settles, but it's always much smaller than what's promised. I'm a programmer, I've been listening to people say that LLMs are going to take my job for the past five years, and yet every time I've actually tried to apply an LLM directly to my work it's failed in a pretty drastic manner. I find existing systems useful as a tool, but that's about it.
Don't forget this is all under the umbrella of the initial hypothetical where AI stalled at it's current level. I don't believe that existing LLMs systems will destroy the economy. They're a tool that people are trying to fit into every hole, much like blockchain during the crypto bubble. We've already seen companies fire their customer service departments, try to replace them with LLMs, then have to go crawling back when that failed catastrophically.
If AI systems continue to improve, however? As I said previously, all bets are off.
Fine, you want me to be pedantic? When prompted with tokens that appear in an order that humans understand as a question that corresponds to some aspect of the universe as we understand it, the tokens predicted by the LLM correspond to an answer that humans agree is more representative than the tokens provided by the average human.
Tell me where in my initial comment I said they weren't an economic threat. I never said they weren't. I said they aren't an existential economic threat. Please read my comment.
I don't want to get into an argument of semantics, whatever your definition of 'knowledge' is, LLMs can recall a greater number of factoids than any individual human. That's all I meant. Are they perfect? No, I never said that. They're still far beyond the average human, however, hence superhuman.
I said that LLMs are not an existential threat to humanity, even economically. I never said that they wouldn't threaten individual jobs, or cause a bubble. Please don't strawman me. You and I are looking at completely different levels of effects, I'm looking at the big picture - is humanity or society as we know it going to continue to exist in 100 years (in this hypothetical where AI and/or LLMs stagnated)? If yes, then LLMs are not an existential threat. That's what an existential threat means, after all.
Is AI causing en economic bubble? Sure, but like all bubbles they will burst when people realise that they have limited use due to their drawbacks. The world will then return to some semblance of normalcy. That's a non-existential threat.
Now, if we're talking about a world in which AI systems continue to evolve? All bets are off the table, which is why AI somehow stagnating to where it is now is the best case scenario.
Honestly? If AI systems stopped improving forever? That's probably best case scenario. LLMs are already superhuman on a knowledge level, human-level in terms of speed (tokens per sec, etc), but subhuman in many other areas. This makes them useful for some tasks, but not so useful that they could cause any sort of existential threat to humanity (either in an economic sense or in a misalignment sense). If LLMs stagnate here then we have at least one tool in our AI toolbox that we're pretty sure isn't conscious/sentient/etc., which is useful since that makes them predictable on some level. Humans can deal with that.
Unfortunately, I see no reason why AI systems in general wouldn't continue to improve. Even if LLMs do stagnate they're only one tiny branch of a much larger tree, and we already have at least one example of an AI system that is conscious and sentient - a human. This means even if somehow the human brain was the only architecture ever capable of sentience (incredibly unlikely), we could always simulate/emulate a human brain to get human-level AGI. Simulate/emulate it faster? Superhuman AGI.
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New Zealand.
Our laws make carrying anything with the intent to use it as a weapon (in self defence or not) a crime - whether it's a gun, sword, pepper spray, cricket bat, screwdriver, or lollipop stick. This makes sure that when someone robs a corner store the owner gets jailed for having a baseball bat behind the counter. It's absurd.
The law not only doesn't equalise your chances, it actively forces you to be at a disadvantage when defending yourself, and by the time any police arrive the assailant is long gone. Most criminals don't have guns (except for the multiple armed gangs of course), but plenty of them bring bladed weapons, there have been multiple cases of machete attacks.
I'm all for gun ownership for the purpose of property defence. Including strong legal defences for home and store owners repelling assailants.
I don't think just anyone should be able to go and purchase a gun no questions asked, it should probably be tied to some kind of mandatory formal training, e.g. participation in army reserves. It should definitely be more difficult than getting a driver's licence (but I also think a driver's licence should be harder to get than it is now. The idea that you can go and sit a written test and then legally pilot a two ton steel box in areas constantly surrounded by very squishy people is kind of absurd to me).
Under the Dewey Decimal System, books on wood carving and river systems would not be placed together, nor would books on conflict resolution and gardening.
It's almost like they'd be placed with books on related topics instead. This Maori traditional system is... not good. Imagine a system where the books are sorted by which Catholic patron saint they fall under, or which greek god they best represent. The librarians even admit in the article that it's only practical if you're already well aware of Maori mythos, everyone else gets 'an opportunity to learn' (i.e. be completely lost).
Not really. While working at the OS-level can typically require 'unsafe' operations a core tenet of writing Rust is making safe abstractions around unsafe operations. Rust's 'unsafe' mode doesn't disable all safety checks either - there are still many invariants that the Rust compiler enforces that a C compiler won't, even in an 'unsafe' block.
And even ignoring all of that, if 10% of the code needs to be written in Rust's 'unsafe' mode that means the other 90% is automatically error-checked for you, compared with 0% if you're writing C.
Here's the generation statistics of the BN-800 reactor I mentioned before: https://pris.iaea.org/PRIS/CountryStatistics/ReactorDetails.aspx?current=451 It's been operating at about 70% of it's rated capacity basically since it was first turned on, that's large scale power generation. Breeder reactors have been in commercial use for decades (see also: Phenix and Superphenix).
The simple reason why breeder reactors aren't the default is because most reactors don't need to be breeders. The two main upsides of a breeder reactor is a) breeding of nuclear material, which as I said before was only ever a concern in the very early days of nuclear power. We have thousands of years' worth of fuel available now. b) The reuse of nuclear waste for additional power generation. Of course you have to have nuclear waste to reuse first, which necessitates many other, non-breeder reactors already being in use, so breeder reactors are usually restricted to countries that already have significant investment into nuclear power, like France, Russia, China, etc.. If you don't need to breed more nuclear fuel, and you don't have waste to reprocess you might as well keep it simple and build a regular LWR reactor.
The Wikipedia page for breeder reactors has a whole list you can even sort by output capacity. For example, the BN-800.
There have been plenty. For example, the CANDU series of reactors developed in the 1950s and 60s. Breeder reactors were quite popular during the early days of nuclear power, as it was initially thought that there was maybe only 100 years' worth of (easily accessible) nuclear material on earth, rather than the thousands (or tens of thousands) of years' worth we know of now, due to both more reserves being discovered and also easier methods of fuel enrichment being developed. The fact that breeder reactors have fallen out of favour due to abundant fuel reserves certainly says something.
Breeder reactors produce more fissile material than they consume.
Not many people know the history of the treaty. It basically was signed under duress. Prior to the meeting where it was signed all but one of the Maori tribal leaders were against signing the treaty, even the Maori version. What was said at the signing was purposely never recorded, but considering the existential threat of the New Zealand Company (NZC) on the horizon (the primary reason a treaty was even being discussed), it is believed that the Maori leaders were basically given the choice of 'sign this treaty and be a part of the British empire, or don't and have no legal rights against the whims of the New Zealand Company'.
The New Zealand Company was a private British company with the goal of obtaining as much land as possible at any cost, and the Maori would have had zero legal protections unless they were part of the British empire. Without a treaty the NZC would have been able to push out the Maori entirely with no repercussions. The British people who brought the treaty to the Maori leaders knew this was coming, and wanted to avoid it.
Signing the treaty was a quick and dirty solution to the quickly approaching NZC and was responsible for preventing the worst of the damage, but it is a very flawed document. The translations were rushed, and vague. Basically everyone was against signing it, but they knew it was the least worst option available. It was never designed to be the core document underpinning a nation, merely a speed bump to stall the private annexation of New Zealand.
The MSP430 is just the chip I happen to use at work, if you're not convinced you could try looking for an actual ultra low power chip, I found the STM32U0 at 70uA/MHz and the STM32U5 at 16uA/MHz in the first result.
Even ignoring selecting a more efficient micro, a smattering of tiny ceramic caps will buy you a few hundred microjoules for bursts. If you're already operating at 2V you can get a 6V rated 100uF cap in a 1210 package - and that's after considering the capacitance drop with DC biasing. Each one of those would buy you 200 microjoules, even just one ought to be plenty to wake up for a few tens of milliseconds every second to get a reading from some onboard peripheral (as an example) then go to sleep again.
For sure, you're not going to be doing any heavy lifting and external peripherals could be tricky, but there are certainly embedded sensor use cases where this could be sufficient.
It's more than you think. I work with the MSP430 microcontroller, which is capable of a sleep current of 40nA @ 2V, full active mode at 140uA/MHz with all onboard peripherals turned on. With this you could achieve almost a 20% on-off ratio with a 1MHz clock, or keep it in active mode all the time at ~150kHz, which is sufficient for many embedded sensor applications.
NZ is more aligned with the Commonwealth than the US. If the UK invited NZ to something and we turned it down that would be a big deal.
We have a fairly small standing military, so we need at least one strong ally, and geographically speaking it's gonna be either the US or China. I'd label NZ as a 'begrudging' US ally in that sense. NZ has previously verbally sparred with the US after we barred all nuclear-powered ships in our waters, so this wouldn't be the first time there's been some political tension between the two.
Australia has a much stronger relationship with the US, hosting their military bases, nuclear weapons, and such. It'll be interesting to see what their response is.