#TSMC’s 13 foundries—the redoubtable Fab 18 in Tainan—carves and etches a quintillion #transistors for Apple. In the form of these 

#layers are printed on the silicon. Finally the chips are cut out of the wafer. Each chip, with billions of #transistors stacked on it, amounts to an atomic 

#refine all of its processes, especially, with ASML, the extreme ultraviolet lithography machines. Today, TSMC’s #transistors are down to just over 2 

#refine all of its processes, especially, with ASML, the extreme ultraviolet lithography machines. Today, TSMC’s #transistors are down to just over 2 

#TSMC’s 13 foundries—the redoubtable Fab 18 in Tainan—carves and etches a quintillion #transistors for Apple. In the form of these 

#TSMC’s 13 foundries—the redoubtable Fab 18 in Tainan—carves and etches a quintillion #transistors for Apple. In the form of these 

#TSMC’s 13 foundries—the redoubtable Fab 18 in Tainan—carves and etches a quintillion #transistors for Apple. In the form of these 

#TSMC’s 13 foundries—the redoubtable Fab 18 in Tainan—carves and etches a quintillion #transistors for Apple. In the form of these 

#machines, many of which are built by the Dutch photolithography firm ASML, etch billions of #transistors onto each chip-sized portion; the 

#machines, many of which are built by the Dutch photolithography firm ASML, etch billions of #transistors onto each chip-sized portion; the 

#layers are printed on the silicon. Finally the chips are cut out of the wafer. Each chip, with billions of #transistors stacked

#layers are printed on the silicon. Finally the chips are cut out of the wafer. Each chip, with billions of #transistors stacked on it, amounts to an atomic 

#layers are printed on the silicon. Finally the chips are cut out of the wafer. Each chip, with billions of #transistors stacked on it, amounts to an atomic