CNRS - Carbon Nanotube Interconnect RC Model 1.0.0
This CNT Interconnect Compact Model includes a solid physics understanding and electrical modeling for pristine and doped SWCNT as Interconnect applications. SWCNT resistance and capacitance are modeled in Verilog-A.
Listed in Compact Models
Additional materials available
Version 1.0.0 - published on 09 Nov 2017 doi:10.4231/D3SJ19T14 - cite this
Licensed under NEEDS Modified CMC License according to these terms
Description
A carbon nanotube interconnect compact model is developed with fundamental physics understanding and electrical modeling. Single Wall Carbon Nanotube (SWCNT) RC electrical model takes into the account the quantum resistance and capacitance, as well as electrostatic capacitance. A doped SWCNT interconnect model by introducing a doping enhancement factor Nc has also included in this model. SWCNT dimension (L and D) and contacting resistance Rc can be varied in our models.
Model Release Components ( Show bundle contents ) Bundle
- CNRS - Carbon Nanotube Interconnect RC Model 1.0.0 Verilog-A(ZIP | 3 KB)
- CNRS - Carbon Nanotube Interconnect RC Model 1.0.0 Benchmarks(PDF | 1018 KB)
- CNRS - Carbon Nanotube Interconnect RC Model 1.0.0 Parameters(PDF | 319 KB)
- CNRS - Carbon Nanotube Interconnect RC Model 1.0.0 Manual(PDF | 1 MB)
- License terms
Cite this work
Researchers should cite this work as follows:
- LIANG, J.; Todri, A. (2017). CNRS - Carbon Nanotube Interconnect RC Model. nanoHUB. doi:10.4231/D3SJ19T14
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Notes
This is our first version of SWCNT Interconnect RC Model. Updated version will be appeared very soon.