We have textual slop, visual slop, audio slop, so we asked: "What else do we want to sloppify?". And then it dawned on me. ICs. ICs haven't been slopped yet — sure, we could ask the machine to generate some vhdl, but that isn't the same. So we present: Silicon Slop.<p>I am actually astonished. Is this what happens when the NYU board of directors tells every department they have to use and create AI, or they will stop funding? What is going on?
Ah, thanks; we definitely needed more artisanal, real human social media slop like this.<p>Improving the lived experience keeping it real! Feels so much more authentic.<p>More people would love AI if it communicated like an emo *Nix elitist. Train it on Daria, Eeyore, and grunge lyrics! People will love it!
I was going to make a snarky comment about “democratizing chip design”, but lo and behold, it is already unironically in the article itself!<p>If you want to democratize anything, bring down the price of graphics cards and DRAM by not fueling the "AI" hype any further.<p>Academia in the U.S. is so commercial that they go along with every bubble.
> Consequently, the NYU researchers’ goal is to make chip design more accessible, so nonengineers, whatever their background can create their own custom-made chips.<p>What?
I'm just as confused as you are, honestly. It feels like we've seen the "ASIC for everything" campaign so many times over, and yet only FPGAs and CUDA typically find adoption in the industry.<p>A lot of my questions went away when I got to this line though:<p>> He’s also fully engaged in the third leg of the “democratizing chip design” stool: education.<p>This is a valiant effort. Chip design is a hard world to break into, and many applications that <i>could</i> benefit from ASICs aren't iterating or testing on it because it sucks to do. It's a lot of work to bring that skill ceiling down, but as a programmer I could see how an LLVM-style intermediate representation layer could help designers get up-and-running faster.