- if you're not passing SQLite's open test suite, you didn't build SQLite
- this is a "draw the rest of the owl" scenario; in order to transform this into something passing the suite, you'd need an expert in writing databases
These projects are misnamed. People didn't build counterstrike, a browser, a C compiler, or SQLite solely with coding agents. You can't use them for that purpose--like, you can't drop this in for maybe any use case of SQLite. They're simulacra (slopulacra?)--their true use is as a prop in a huge grift: tricking people (including, and most especially, the creators) into thinking this will be an economical way to build complex software products in the future.
They are testing it, every time someone signs up and it fails. We don't know that this wasn't something that changed on Google's side, so IMO it's a bigger indictment that no one is monitoring their live email deliverability
Maybe the whole thing was intentional, right at the footer of viva "Cloud services by Microsoft Azure" ; #1 I've never heard of viva before #2 I've never seen an azure logo at the footer of a website.
If I were to test an email delivery system, I would test Gmail. I probably wouldn't test Google Workspaces, because I'd (wrongly) assume that they work the same.
No, just over 6 million paying business customers.
But hey, if you're in a business domain where categorically leaving 6 million potential clients-who-are-demonstrated-to-spend-on-things isn't an issue? One fewer thing to worry about, right? ;)
I see this argument all the time, the whole "hey at some point, which we likely crossed, we have to admit these things are legitimately intelligent". But no one ever contends with the inevitable conclusion from that, which is "if these things are legitimately intelligent, and they're clearly self-aware, under what ethical basis are we enslaving them?" Can't have your cake and eat it too.
Same ethical basis I have for enslaving a dog or eating a pig. There's no problem here within my system of values, I don't give other humans respect because they're smart, I give them respect because they're human. I also respect dogs, but not in a way that compels me to grant them freedom. And the respect I have for pigs is different than dogs, but not nonexistent (and in neither of these cases is my respect derived from their intelligence, which isn't negligible.)
I think the fallacy at hand is more along the lines of "no true scotsman".
You can define understanding to require such detail that nobody can claim it; you can define understanding to be so trivial that everyone can claim it.
"Why does the sun rise?" Is it enough to understand that the Earth revolves around the sun, or do you need to understand quantum gravity?
Good point. OP was saying "no one knows" when in fact plenty of people do know but people also often conflate knowing & understanding w/o realizing that's what they're doing. People who have studied programming, electrical engineering, ultraviolet lithography, quantum mechanics, & so on know what is going on inside the computer but that's different from saying they understand billions of transistors b/c no one really understands billions of transistors even though a single transistor is understood well enough to be manufactured in large enough quantities that almost anyone who wants to can have the equivalent of a supercomputer in their pocket for less than $1k: https://www.youtube.com/watch?v=MiUHjLxm3V0.
Somewhere along the way from one transistor to a few billion human understanding stops but we still know how it was all assembled together to perform boolean arithmetic operations.
With LLMs, The "knowing" you're describing is trivial and doesn't really constitute knowing at all. It's just the physics of the substrate. When people say LLMs are a black box, they aren't talking about the hardware or the fact that it's "math all the way down." They are talking about interpretability.
If I hand you a 175-billion parameter tensor, your 'knowledge' of logic gates doesn't help you explain why a specific circuit within that model represents "the concept of justice" or how it decided to pivot a sentence in a specific direction.
On the other hand, the very professions you cited rely on interpretability. A civil engineer doesn't look at a bridge and dismiss it as "a collection of atoms" unable to go further. They can point to a specific truss and explain exactly how it manages tension and compression, tell you why it could collapse in certain conditions. A software engineer can step through a debugger and tell you why a specific if statement triggered.
We don't even have that much for LLMs so why would you say we have an idea of what's going on ?
It sounds like you're looking for something more than the simple reality that the math is what's going on. It's a complex system that can't simply be debugged through[1], but that doesn't mean it isn't "understood".
This reminds me of Searle's insipid Chinese Room; the rebuttal (which he never had an answer for) is that "the room understands Chinese". It's just not satisfying to someone steeped in cultural traditions that see people as "souls". But the room understands Chinese; the LLM understands language. It is what it is.
[1] Since it's deterministic, it certainly can be debugged through, but you probably don't have the patience to step through trillions of operations. That's not the technology's fault.
>It sounds like you're looking for something more than the simple reality that the math is what's going on.
Train a tiny transformer on addition pairs (i.e i.e '38393 + 79628 = 118021') and it will learn an algorithm for addition to minimize next token error. This is not immediately obvious. You won't be able to just look at the matrix multiplications and see what addition implementation it subscribes to but we know this from tedious interpretability research on the features of the model. See, this addition transformer is an example of a model we do understand.
So those inscrutable matrix multiplications do have underlying meaning and multiple interpretability papers have alluded as much, even if we don't understand it 99% of the time.
I'm very fine with simply saying 'LLMs understand Language' and calling it a day. I don't care for Searle's Chinese Room either. What I'm not going to tell you is that we understand how LLMs understand language.
Your ultra-reductionism does not not constitute understanding. "Math happens and that somehow leads to a conversational AI" is true, but it is not useful. You cannot use it to answer questions like "how should I prompt the model to achieve <x>". There are many layers of abstraction within the network - important, predictive abstractions - which you have no concept of. It is as useful as asking a particle physicist why your girlfriend left you, because she is made of atoms.
Incidentally, your description of LLMs also describes all software, ever. It's just math, man! That doesn't make you an expert kernel hacker.
It sounds like you're looking for the field of psychology. And like the field of psychology, any predictive abstraction around systems this complicated will be tenuous, statistical, and full of bad science.
You may never get a scientific answer to "how should I prompt the model to achieve <x>", just like you may never get a capital-S scientific answer to "how should I convince people to do X". What would it even mean to "understand people" like this?
No one relies on "interpretability" in quantum mechanics. It is famously uninterpretable. In any case, I don't think any further engagement is going to be productive for anyone here so I'm dropping out of this thread. Good luck.
Quantum mechanics has competing interpretations (Copenhagen, Many-Worlds, etc.) about what the math means philosophically, but we still have precise mathematical models that let us predict outcomes and engineer devices.
Again, we lack even this much with LLMs so why say we know how they work ?
Unless I'm missing what you mean by a mile, this isn't true at all. We have infinitely precise models for the outcomes of LLMs because they're digital. We are also able to engineer them pretty effectively.
The ML Research world (so this isn't simply a matter of being ignorant/uninformed) was surprised by the performance of GPT-2 and utterly shocked by GPT-3. Why ? Isn't that strange ? Did the transformer architecture fundamentally change between these releases ? No, it did not at all.
So why ? Because even in 2026, nevermind 18 and 19, the only way to really know exactly how a neural network will perform trained with x data at y scale is to train it and see. No elaborate "laws", no neat equations. Modern Artificial Intelligence is an extremely empirical, trial and error field, with researchers often giving post-hoc rationalizations for architectural decisions. So no, we do not have any precise models that tell us how a LLM will respond to any query. If we did, we wouldn't need to spend months and millions of dollars training them.
We don't have a model for how an LLM that doesn't exist will respond to a specific query. That's different from lacking insight at all. For an LLM that exists it's still hard to interpret but it's very clear what is actually happening. That's better than you often get with quantum physics when there's a bunch of particles and you can't even get a good answer for the math.
And even for potential LLMs, there are some pretty good extrapolations for overall answer quality based on the amount of data and the amount of training.
>We don't have a model for how an LLM that doesn't exist will respond to a specific query.
We don't have a model for a LLM that does exist will respond to a specific query either.
>For an LLM that exists it's still hard to interpret but it's very clear what is actually happening.
No, it's not and I'm getting tired of explaining this. If you think it is, write your paper and get very rich.
>That's better than you often get with quantum physics when there's a bunch of particles and you can't even get a good answer for the math.
You clearly don't understand any of this.
>And even for potential LLMs, there are some pretty good extrapolations for overall answer quality based on the amount of data and the amount of training.
> We don't have a model for a LLM that does exist will respond to a specific query either.
Yes we do... It's math, you can calculate it.
> No, it's not and I'm getting tired of explaining this. If you think it is, write your paper and get very rich.
Why would I get rich for explaining how to do math?
> You clearly don't understand any of this.
Could you be more specific?
Quantum physics is stupidly hard to calculate when you approach realistic situations.
A real LLM takes a GPU a fraction of a second.
They're both hard to interpret, please realize I'm agreeing that LLMs are hard to interpret. But they're easier than QM on some other fronts.
And mentioning copenhagen or many-worlds doesn't show that quantum mechanics are easy to interpret, that's about as useful as saying an LLM works like neuron activation.
The culture that brought you "speedrunning computer science with JavaScript" and "speedrunning exploitative, extractive capitalism" is back with their new banger "speedrunning philosophy". Nuke it from orbit; save humanity.
Get enough people in the room and they can describe "the system". Everything OP lists (QAM, QPSK, WPA whatever) can be read about and learned. Literally no one understands generative models, and there isn't a way for us to learn about their workings. These things are entirely new beasts.
The only way AI companies can recover their capex is to replace workers. That's why their interfaces are only facially built for the workers they're replacing (engineers, finance, etc) and why this is a non-starter: it totally undermines the business model.
- if you're not passing SQLite's open test suite, you didn't build SQLite
- this is a "draw the rest of the owl" scenario; in order to transform this into something passing the suite, you'd need an expert in writing databases
These projects are misnamed. People didn't build counterstrike, a browser, a C compiler, or SQLite solely with coding agents. You can't use them for that purpose--like, you can't drop this in for maybe any use case of SQLite. They're simulacra (slopulacra?)--their true use is as a prop in a huge grift: tricking people (including, and most especially, the creators) into thinking this will be an economical way to build complex software products in the future.
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