this post was submitted on 25 Jun 2026
647 points (99.5% liked)
Technology
85720 readers
4294 users here now
This is a most excellent place for technology news and articles.
Our Rules
- Follow the lemmy.world rules.
- Only tech related news or articles.
- Be excellent to each other!
- Mod approved content bots can post up to 10 articles per day.
- Threads asking for personal tech support may be deleted.
- Politics threads may be removed.
- No memes allowed as posts, OK to post as comments.
- Only approved bots from the list below, this includes using AI responses and summaries. To ask if your bot can be added please contact a mod.
- Check for duplicates before posting, duplicates may be removed
- Accounts 7 days and younger will have their posts automatically removed.
Approved Bots
founded 3 years ago
MODERATORS
you are viewing a single comment's thread
view the rest of the comments
view the rest of the comments
It constructed an entire feature-full library for a UV sensor that just came on the market, by me just throwing the PDF datasheet at it and saying "make library pls".
It's the actual solution. Maybe the statistical approximate just coincidentally lined up with the actual solution? Either way, works for me. Second time it did that, too. Worked for a LiDAR sensor earlier.
This is almost the perfect task for them. I think if them as pattern matches. They have patterns for libraries in their training, and you gave it a technical spec, and it pattern matched it across to a library.
On top of that, you can verify it and reuse it. But regenerating it every time wouldn't be a good use both for the cost, and the risk of subtle issues that don't get noticed. Same argument as for any library.
Probably because I've been doing this so long, I often find it easier and more precise to describe things in code or pseudo code than common English, which often aides my use of LLMs.
On another note, I'm curious what you're making. My "when I get time" project is to use an old STM32 drone flight controller to do some basic robotics, which will only be possible because I think the LLM will pattern match me out of trouble getting an embedded C program compiling after 20 years out of that game.
Yes, right, and this can happen. I didn't say they are a bad approximation. LLMs may be the most advanced and sophisticated statistical models ever created (if there are other examples of statistical models that are more sophisticated, I would love to learn about them). But given what an LLM actually objectively is, a statistical model of the next token to follow from a sample of language, what other explanation could there be?
We need to keep in mind what the tools that we are working with actually are.
As a code generator, they can produce great results, especially simple stuff like generating a script or some function implementation. Once you get to software engineering tasks like designing system architecture and designing maintainable code, it starts to fall apart really fast. You end up doing all of the work for it in natural language and just using the LLM for a usecase that it is actually great for: translation, from detailed spec to code.
To add to that... when we start looking at the price of things, software engineering becomes very important. Sure I may be able to get the LLM to do something instead of doing it myself, but if it's costing tens of thousands of dollars to save me one hour of work, it's going to be hard to justify that cost.
We'll eventually need to become familiar with which problems it's relatively cheap to use an LLM for and which problems it will be very expensive to use it for. Hmmmm... estimating performance of an algorithm and making decisions about when to use it and not use it... what does that sound like?