Meta, Aitomatic, and other members of the AI Alliance have released the world's first large language model specifically trained on the needs of the semiconductor industry.
Totally but if we’re talking about simple custom chips, my point still stands as there is nothing to compare a custom chip to and the simplicity doesn’t seem to necessitate a LLM to map out.
the simplicity doesn’t seem to necessitate a LLM to map out.
So are you saying that if something is so simple that you could do it in a week, then it isn’t worth using a tool that would get it done in 4 days?
I mean, no that doesn’t necessitate use of a LLM. But by that logic, doing math never necessitates the use of a calculator, just do it on paper. Sure, you could…
I’m saying there are simple and difficult chips to map out and the simple ones shouldn’t need this by virtue of being simple.
Your analogy of using a computerized tool to complete a task doesn’t really hold as the math you use a calculator for wouldn’t be considered “simple math.”
No, the analogy is fine. If you have a task (math in the previous example) that takes some amount of time (doesn’t matter how much), is it worth using a tool (calculator) that makes it faster?
I mean … the kind of CPUs that take this much are probably unnecessary for many things. One can run quests, something like Doom, something like SW: Rebellion and SW: X-Wing Alliance on hardware from simpler times. One can also, surprisingly but not, do office tasks and listen to music on the same hardware. One can even render things like Babylon 5 computer-made parts on it. I would love to live in such a world. Also with modern processes and voltages such hardware could probably be insanely energy-efficient as compared to what we commonly use.
That said, I can understand machine generation and optimization of chip designs, and machine checking of them. Something they already do, I’m certain.
But what the hell would an LLM contribute there, seems unclear for me.
Oh yeah? How is that accomplished when it can take a decade of development to get a new CPU out the door? Was this developed a decade ago?
You know there are simpler custom chips too right?
That said, it sounds a bit like bullshit to me too.
Totally but if we’re talking about simple custom chips, my point still stands as there is nothing to compare a custom chip to and the simplicity doesn’t seem to necessitate a LLM to map out.
That doesn’t follow at all…
So are you saying that if something is so simple that you could do it in a week, then it isn’t worth using a tool that would get it done in 4 days?
I mean, no that doesn’t necessitate use of a LLM. But by that logic, doing math never necessitates the use of a calculator, just do it on paper. Sure, you could…
I’m saying there are simple and difficult chips to map out and the simple ones shouldn’t need this by virtue of being simple.
Your analogy of using a computerized tool to complete a task doesn’t really hold as the math you use a calculator for wouldn’t be considered “simple math.”
No, the analogy is fine. If you have a task (math in the previous example) that takes some amount of time (doesn’t matter how much), is it worth using a tool (calculator) that makes it faster?
That was the analogy.
I mean … the kind of CPUs that take this much are probably unnecessary for many things. One can run quests, something like Doom, something like SW: Rebellion and SW: X-Wing Alliance on hardware from simpler times. One can also, surprisingly but not, do office tasks and listen to music on the same hardware. One can even render things like Babylon 5 computer-made parts on it. I would love to live in such a world. Also with modern processes and voltages such hardware could probably be insanely energy-efficient as compared to what we commonly use.
That said, I can understand machine generation and optimization of chip designs, and machine checking of them. Something they already do, I’m certain.
But what the hell would an LLM contribute there, seems unclear for me.