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Difference between revisions of "single diffusion break"

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(Samsung)
 
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==Industry==
 
==Industry==
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[[File:iedm-2017-intel-10-wire-hs.png|thumb|right|Intel 10nm SDG benefits.]]
 
===Samsung===
 
===Samsung===
Samsung first introduced single diffusion breaks at their [[Samsung 14nm|14-nanometer process]].
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Samsung first introduced single diffusion breaks at their [[Samsung 14nm|14-nanometer process]]. Samsung used SDB in all their succeeding nodes including [[samsung 10nm|10nm]], [[samsung 7nm|7nm]], [[samsung 5nm|5nm]], and [[samsung 4nm|4nm]].
  
 
===Intel===
 
===Intel===
[[File:iedm-2017-intel-10-wire-hs.png|thumb|right|Intel 10nm SDG benefits.]]
 
 
Intel introduced single diffusion breaks starting with their [[Intel 10nm|10-nanometer process]]. The company claimed SDG resulted in a 20% improvement in [[standard cell|cell]] densty. Intel introduced 2nd-generation SDG at their [[Intel 4]] node.
 
Intel introduced single diffusion breaks starting with their [[Intel 10nm|10-nanometer process]]. The company claimed SDG resulted in a 20% improvement in [[standard cell|cell]] densty. Intel introduced 2nd-generation SDG at their [[Intel 4]] node.
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{| class="right"
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| [[File:iedm-2017-intel-10-dummy-gates-tem.png|thumb|200px|[[Intel 10nm]] With DDB.]]
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| [[File:iedm-2017-intel-10-sdg-tem.png|thumb|200px|[[Intel 10nm]] With SDB.]]
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|}
  
 
==TSMC==
 
==TSMC==

Latest revision as of 17:24, 25 June 2022

Single Diffusion Break (SDB) or Single Dummy Gate (SDG) is a semiconductor process flow technique that eliminates the need for an additional dummy gate padding at the cell boundaries. SDB is used to enable aggressive scaling of abutting cells without affecting the cell height or underlying devices.

Overview[edit]

Double diffusion break (DDB) isolation has historically been used to isolate neighboring devices in order to provide good process control (stress) and reduce variations. Single diffusion break reduces the cell-to-cell spacing by reducing the width of the shallow trench isolation to a single dummy poly gate length. In practice, there is no actual dummy gate. Instead, just the trench isolation remains.

ttt-cell-scaling-sdb.svg

With advancements in DTCO, advanced process nodes reduced cell height, thereby increasing the share of wasted space due to cell-to-cell spacings as a result of DDB. Eliminating the additional inactive gate pitch can result in significant savings at the block and macro levels.

ddb-sdb-cell-changes.svg

Industry[edit]

Intel 10nm SDG benefits.

Samsung[edit]

Samsung first introduced single diffusion breaks at their 14-nanometer process. Samsung used SDB in all their succeeding nodes including 10nm, 7nm, 5nm, and 4nm.

Intel[edit]

Intel introduced single diffusion breaks starting with their 10-nanometer process. The company claimed SDG resulted in a 20% improvement in cell densty. Intel introduced 2nd-generation SDG at their Intel 4 node.

Intel 10nm With DDB.
Intel 10nm With SDB.

TSMC[edit]

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See also[edit]

Bibliography[edit]

  • Intel, 2017 IEEE 63rd International Electron Devices Meeting (IEDM).