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{{intel title|Hyper Scaling}}
 
{{intel title|Hyper Scaling}}
'''Hyper Scaling''' is an umbrella marketing term used by [[Intel]] to describe a collection of [[scaling boosters]] used in the [[fabrication process]] of extremely high-density CMOS logic, starting with their [[10 nm]] [[technology node|node]].
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'''Hyper Scaling''' is an umbrella marketing term used by [[Intel]] to describe a collection of [[scaling boosters]] used in the [[fabrication process]] of extremely high-density CMOS logic, starting with their [[14 nm]] [[technology node|node]].
  
 
== Overview ==
 
== Overview ==

Revision as of 21:09, 17 June 2018

Hyper Scaling is an umbrella marketing term used by Intel to describe a collection of scaling boosters used in the fabrication process of extremely high-density CMOS logic, starting with their 14 nm node.

Overview

For their 10 nm lithography process, Intel aimed at a 2.7x transistor compaction ratio over their 14 nm node, the highest density jump ever attempted between two consecutive technology nodes in the semiconductor industry. In order to reach such density increase, Intel had to resort to additional scaling boosters beyond traditional scaling nobs such as the gate pitch and cell height. While not all the boosters are unique to Intel, their 10nm process was the first high-volume manufacturing process to incorporate all those enablers at once.

Hyper Scaling incorporates the following technologies:

The scaling boosters affect both the width and height of the cells. When introduced at their 10 nm node, Intel reported a cell height reduction of 10% for the introduction of COAG in for the width of the cells, Intel reported a 20% reduction in cell area for moving to a SDB.