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The '''5 nanometer (5 nm or 50 Å) lithography process''' is a [[technology node]] semiconductor manufacturing process following the [[7 nm lithography process|7 nm process]] node. Commercial [[integrated circuit]] manufacturing using 7 nm process is set to begin sometimes around 2020.
 
The '''5 nanometer (5 nm or 50 Å) lithography process''' is a [[technology node]] semiconductor manufacturing process following the [[7 nm lithography process|7 nm process]] node. Commercial [[integrated circuit]] manufacturing using 7 nm process is set to begin sometimes around 2020.
  
The term "5 nm" is simply a commercial name for a generation of a certain size and its technology, and does not represent any geometry of a transistor.
+
The term "5 nm" is simply a commercial name for a generation of a certain size and its technology, and '''does not''' represent any geometry of a transistor.
  
 
== Industry ==
 
== Industry ==

Revision as of 13:59, 1 June 2017

The 5 nanometer (5 nm or 50 Å) lithography process is a technology node semiconductor manufacturing process following the 7 nm process node. Commercial integrated circuit manufacturing using 7 nm process is set to begin sometimes around 2020.

The term "5 nm" is simply a commercial name for a generation of a certain size and its technology, and does not represent any geometry of a transistor.

Industry

Symbol version future.svg Preliminary Data! Information presented in this article deal with future products, data, features, and specifications that have yet to be finalized, announced, or released. Information may be incomplete and can change by final release.


 
Process Name
1st Production
Lithography Lithography
Immersion
Exposure
Wafer Type
Size
Transistor Type
Voltage
 
Fin Pitch
Width
Height
Gate Length (Lg)
Contacted Gate Pitch (CPP)
Minimum Metal Pitch (MMP)
SRAM bitcell High-Perf (HP)
High-Density (HD)
Low-Voltage (LV)
DRAM bitcell eDRAM
Intel TSMC GlobalFoundries Samsung
P1278? (CPU), P1279? (SoC)      
       
EUV 193 nm EUV EUV
  Yes   Yes
SE LELELELE SE SE
Bulk Bulk Bulk Bulk
300 nm 300 nm 300 nm 300 nm
  FinFET FinFET GAA
       
Value 10 nm Δ Value 10 nm Δ Value 10 nm Δ Value 7 nm Δ
            N/A
           
           
               
    ~44 nm 0.81x        
    ~32 nm 0.84x        
               
               
               
               

Samsung

On May 24 2017 Samsung announced they will be switching to a transistor they call Multi-Bridge-Channel FET (MBCFET), an extension of a Gate-all-around (GAA) FET. This is planned for somewhere around the 5nm node but the exact timeline or specification is currently unknown.

5 nm Microprocessors

This list is incomplete; you can help by expanding it.

5 nm Microarchitectures

This list is incomplete; you can help by expanding it.

References

  • TSMC, Estimated at TSMC Technology Symposium, San Jose, March 15, 2017