Comment by chneu
Comment by chneu 17 hours ago
GF is a few nodes behind. Micron doesn't make semiconductors, they mostly make flash and whatnot. TI doesn't have the capacity or knowledge to expand to Intel's size/capacity
Comment by chneu 17 hours ago
GF is a few nodes behind. Micron doesn't make semiconductors, they mostly make flash and whatnot. TI doesn't have the capacity or knowledge to expand to Intel's size/capacity
You're right but also wrong. Flash is just semiconductors etched in a different pattern than logic, but you don't print on semiconductors. Semiconductors are 'printed' on wafers via photolithography.
Intel's wafers are made of silicon, which is a semiconductor. Silicon on sapphire hasn't been widely used for a long time, if that's what you're thinking of. Photolithography prints resists on semiconductor wafers which are then used to pattern the next process step, such as wet etching, plasma etching, oxide growth, epitaxial polysilicon growth, ion implantation, etc. These mostly remove semiconductor from the wafer or alter its properties.
Interesting, I hadn't known that silicon is itself a semiconductor before all the circuits are added. Am I correct in saying that the etching process transforms a single semiconductor into billions?
The linked ppt here has a lot of details: https://fabweb.ece.illinois.edu/
Much more likely that SMIC would, because TI isn't just 15 years behind; it also has the disadvantage of being in the US. See https://en.wikipedia.org/wiki/Semiconductor_industry_in_Chin... for a look at what it looks like where conditions are more favorable.
> doesn't make semiconductors, they mostly make flash and whatnot
Um.
All that stuff is still semiconductors, just with different patterns printed on them.