This "random output machine" is already in large use in medicine so why exactly not? Should I trust the young doctor fresh out of the Uni more by default or should I take advises from both of them with a grain of salt? I had failures and successes with both of them but lately I found Gemini to be extremely good at what it does.
The "well we already have a bunch of people doing this and it would be difficult to introduce guardrails that are consistently effective so fuck it we ball" is one of the most toxic belief systems in the tech industry.
> This "random output machine" is already in large use in medicine
By doctors. It's like handling dangerous chemicals. If you know what you're doing you get some good results, otherwise you just melt your face off.
> Should I trust the young doctor fresh out of the Uni
You trust the process that got the doctor there. The knowledge they absorbed, the checks they passed. The doctor doesn't operate in a vacuum, there's a structure in place to validate critical decisions. Anyway you won't blindly trust one young doctor, if it's important you get a second opinion from another qualified doctor.
In the fields I know a lot about, LLMs fail spectacularly so, so often. Having that experience and knowing how badly they fail, I have no reason to trust them in any critical field where I cannot personally verify the output. A medical AI could enhance a trained doctor, or give false confidence to an inexperienced one, but on its own it's just dangerous.
There's a difference between a doctor (an expert in their field) using AI (specialising in medicine) and you (a lay person) using it to diagnose and treat yourself. In the US, it takes at least 10 years of studying (and interning) to become a doctor.
Even so, it's rather common for doctors to not be albe to diagonise correctly. It's a guessing game for them too. I don't know so much about US but it's a real problem in large parts of the world. As the comment stated, I would take anything a doctor says with a pinch of salt. Particularly so when the problem is not obvious.
This is really not that far off from the argument that "well, people make mistakes a lot, too, so really, LLMs are just like people, and they're probably conscious too!"
Yes, doctors make mistakes. Yes, some doctors make a lot of mistakes. Yes, some patients get misdiagnosed a bunch (because they have something unusual, or because they are a member of a group—like women, people of color, overweight people, or some combination—that American doctors have a tendency to disbelieve).
None of that means that it's a good idea to replace those human doctors with LLMs that can make up brand-new diseases that don't exist occasionally.
It takes 10 years of hard work to become a profound engineer too yet it doesn't prohibit us missing the things. That argument cannot hold. AI is already wide-spread in medical treatment.
An engineer is not a doctor, nor a doctor an engineer. Yes, AI is being used in medicines - as a tool for the professional - and that's the right use for it. Helping a radiologist read an X-Ray, MRI scan or CT Scan, helping a doctor create an effective treatment plan, warning a pharmacologist about unsafe combinations (dangerous drug interactions) when different medications are prescribed etc are all areas where an AI can make the job of a professional easier and better, and also help create better AI.
Nobody can (and should) stop you from learning and educating yourself. It however doesn't mean just because you can use Google or use AI, you think you can become a doctor:
Educating a user about their illness and treatment is a legitimate use case for AI, but acting on its advise to treat yourself or self-medicate would be plain stupidity. (Thankfully, self-medicating isn't as easy because most medication require a prescription. However, so called "alternate" medicines are often a grey area, even with regulations (for example, in India).
No, I'm not asking you spend $150, I'm providing you the evidence your looking for. Mayo Clinic, probably one of the most prominent private clinics in the US, is using transformers in their workflow, and there's many other similar links you could find online, but you choose to remain ignorant. Congratulations
The existence of a course on this topic is NOT evidence of "large use". The contents of the course might contain such evidence, or they might contain evidence that LLM use is practically non-existent at this point (the flowery language used to describe the course is used for almost any course tangentially related to new technology in the business context, so that's not evidence either).
But your focus on the existence of this course as your only piece of evidence is evidence enough for me.
Focus? You asked me for an evidence. I provided you with the one. And with the one which has a big weight on it. If that's the focus you're looking for then sure. Take it as you will, I am not here to convince anyone in anything. Have a look in the past to see how Transformers have solved the long standing problems nobody believed they are tractable up to that point.
LLM is just a tool. How the tool is used is also an important question. People vibe code these days, sometimes without proper review, but do you want them to vibe code a nuclear reactor controller without reviewing the code?
In principle we can just let anyone use LLM for medical advice provided that they should know LLMs are not reliable. But LLMs are engineered to sound reliable, and people often just believe its output. And cases showed that this can have severe consequences...
Don't. I do not ask my mechanic for medical advice, why would I ask a random output machine?