Canon ships first nanoimprint chipmaking machine to R&D lab
Lithography technique does not require a light source, unlike ASML's complex extreme ultraviolet approach
Canon has shipped its first ever nanoimprint lithography machine to the Texas Institute for Electronics for use in its R&D labs.
The tech, we're told, can produce 5nm circuit patterns using a mold, rather than light, to transfer them to a semiconductor wafer.
In October last year, the Japanese multinational revealed it was commercializing a semiconductor manufacturing system using nanoimprint lithography, with its first implementation set to be a room-sized unit catchily named the FPA-1200NZ2C.
Now the imaging giant has shipped one of the nanoimprint lithography boxes to the Texas Institute for Electronics (TIE) – a semiconductor consortium founded in 2021 which is supported by the University of Texas in Austin, along with numerous chip companies and other public sector and academic organizations. The machine will be used as part of research and development for advanced semiconductors and the production of prototypes.
According to Canon, its nanoimprint lithography process is cheaper and sucks up less power than rival machines that use a more traditional optical approach. It does not require a light source, which in the latest photolithography equipment from companies such as Dutch giant ASML involves extreme ultraviolet (EUV) wavelengths that are difficult to work with.
In contrast, the nanoimprint system involves transferring a circuit pattern onto the resist coating on the surface of the wafer using a mold that is pressed into it like a stamp. This sounds simple, but Canon insists there are numerous issues with making it work reliably, which is why the technology was long regarded as a challenge.
Industry experts have previously expressed skepticism, with Gartner analyst Gaurav Gupta casting doubt over the technology when Canon first announced it last year. He said there was a big gap between research and development at leading-edge nodes versus high-volume execution – which may not matter if the machine is being used for development and prototyping.
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Regardless of these challenges, Canon claims fine circuit patterns on the mask can be faithfully reproduced on the wafer, enabling patterns with a minimum line width of 14nm. It claims this is equivalent to the 5nm process technology used to manufacture many of the most advanced logic chips currently available.
But there is also the question of how the mold or mask is produced. The answer is that these are also created using another machine – manufactured by Canon, of course.
Canon's deputy chief executive for optical products, Kazunori Iwamoto, expects to sell around 10 to 20 nanoimprint lithography units annually within five years.
TIE, where the machine is headed, was awarded $840 million in July by Pentagon research agency DARPA to help fund development of the next generation of high-performing semiconductor systems for the US military. The funding will be used to establish a national open access R&D and prototyping fabrication facility, as well as modernization of two existing fabrication facilities at the university. ®