22 nm process

The "22 nm" node is the process step following 32 nm in CMOS MOSFET semiconductor device fabrication. The typical half-pitch (i.e., half the distance between identical features in an array) for a memory cell using the process is around 22 nm.^{[citation needed]} It was first demonstrated by semiconductor companies for use in RAM memory in 2008. In 2010, Toshiba began shipping 24 nm flash memory chips, and Samsung Electronics began mass-producing 20 nm flash memory chips. The first consumer-level CPU deliveries using a 22 nm process started in April 2012 with the Intel Ivy Bridge processors.

Since at least 1997, "process nodes" have been named purely on a marketing basis, and have no relation to the dimensions on the integrated circuit;^[1] neither gate length, metal pitch or gate pitch on a "22nm" device is twenty-two nanometers.^[2]^[3]^[4]^[5]

The ITRS 2006 Front End Process Update indicates that equivalent physical oxide thickness will not scale below 0.5 nm (about twice the diameter of a silicon atom), which is the expected value at the 22 nm node. This is an indication that CMOS scaling in this area has reached a wall at this point, possibly disturbing Moore's law.

The 20-nanometre node is an intermediate half-node die shrink based on the 22-nanometre process.

TSMC began mass production of 20 nm nodes in 2014.^[6] The 22 nm process was superseded by commercial 14 nm FinFET technology in 2014.

^ "No More Nanometers – EEJournal". July 23, 2020.
^ Shukla, Priyank. "A Brief History of Process Node Evolution". design-reuse.com. Retrieved July 9, 2019.
^ Hruska, Joel. "14nm, 7nm, 5nm: How low can CMOS go? It depends if you ask the engineers or the economists..." ExtremeTech.
^ "Exclusive: Is Intel Really Starting To Lose Its Process Lead? 7nm Node Slated For Release in 2022". wccftech.com. September 10, 2016.
^ "Life at 10nm. (Or is it 7nm?) And 3nm - Views on Advanced Silicon Platforms". eejournal.com. March 12, 2018.
^ "20nm Technology". TSMC. Retrieved June 30, 2019.

[urlNo_More_Nanometers_–_EEJournal-1] "No More Nanometers – EEJournal". July 23, 2020.

[2] Shukla, Priyank. "A Brief History of Process Node Evolution". design-reuse.com. Retrieved July 9, 2019.

[3] Hruska, Joel. "14nm, 7nm, 5nm: How low can CMOS go? It depends if you ask the engineers or the economists..." ExtremeTech.

[4] "Exclusive: Is Intel Really Starting To Lose Its Process Lead? 7nm Node Slated For Release in 2022". wccftech.com. September 10, 2016.

[5] "Life at 10nm. (Or is it 7nm?) And 3nm - Views on Advanced Silicon Platforms". eejournal.com. March 12, 2018.

[6] "20nm Technology". TSMC. Retrieved June 30, 2019.

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Semiconductor device fabrication

MOSFET scaling (process nodes)
020 µm – 1968 010 µm – 1971 006 µm – 1974 003 µm – 1977 1.5 µm – 1981 001 µm – 1984 800 nm – 1987 600 nm – 1990 350 nm – 1993 250 nm – 1996 180 nm – 1999 130 nm – 2001 090 nm – 2003 065 nm – 2005 045 nm – 2007 032 nm – 2009 028 nm – 2010 022 nm – 2012 014 nm – 2014 010 nm – 2016 007 nm – 2018 005 nm – 2020 003 nm – 2022
Future 002 nm ~ 2024
Half-nodes Density CMOS Device (multi-gate) Moore's law Transistor count Semiconductor Industry Nanoelectronics
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