breaking taps is very impressive, but sam zeloof made it quite a bit further, he made his own packaged IC. now he runs a startup called atomic semi, that is trying to use electron beam lithography for prototyping.
Not a guide missile with any kind of scrambling necessary to not get obliterated by current DoD tech. When it comes to realtime, clock-rate is everything.
350 nm is massive and ancient relative to new processes, but the name of a new process stopped physically meaning anything a while ago. for instance, the 3 nm process smallest distance between traces is only 24 nm.
now the industry just names a new process when enough techniques for improving performance (without much actual size difference) exist.
The 350 nanometer process is a level of semiconductor process technology that was reached in the 1995–1996 timeframe
The new stuff is 3nm
I think this youtuber might have achieved similar nm with his DIY setup, but I don’t remember. He’s using a different process though.
breaking taps is very impressive, but sam zeloof made it quite a bit further, he made his own packaged IC. now he runs a startup called atomic semi, that is trying to use electron beam lithography for prototyping.
Baby steps
More than enough power to guide a missile.
Not a guide missile with any kind of scrambling necessary to not get obliterated by current DoD tech. When it comes to realtime, clock-rate is everything.
350 nm is massive and ancient relative to new processes, but the name of a new process stopped physically meaning anything a while ago. for instance, the 3 nm process smallest distance between traces is only 24 nm.
now the industry just names a new process when enough techniques for improving performance (without much actual size difference) exist.
The newest stuff out of Taiwan is 1.6nm.