I think the difference between the first and second is whether you have a deep understanding of how high level languages translate into hardware operations. If you’re a novice how that translation works might as well be magic.
The second panel understands how that translation exactly happens and then it absolutely makes sense.
The third one is the next step where you have an deep understanding how the underlying physical phenomen makes computers work, and again that might as well be magic because explaining it is like explaining magic.
Yeah. I’m currently at the beginning of the second stage, knowing boolean algebra, logic gates and dibbling into parsers and language design, however most of that physics looks like magic to me.
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I think the difference between the first and second is whether you have a deep understanding of how high level languages translate into hardware operations. If you’re a novice how that translation works might as well be magic.
The second panel understands how that translation exactly happens and then it absolutely makes sense.
The third one is the next step where you have an deep understanding how the underlying physical phenomen makes computers work, and again that might as well be magic because explaining it is like explaining magic.
Yeah. I’m currently at the beginning of the second stage, knowing boolean algebra, logic gates and dibbling into parsers and language design, however most of that physics looks like magic to me.
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The simplest programmable Turing complete system is the rule 110 automaton.
Well modern CPU design requires quite a lot of physics I think
A lot of physics and chemistry, I’d say at least as far back as the early 80s. Using lasers to cut silicon at the nanometer scale is real magic
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