Title :
Performance comparison between carbon nanotube and copper interconnects for gigascale integration (GSI)
Author :
Naeemi, Azad ; Sarvari, Reza ; Meindl, James D.
Author_Institution :
Georgia Inst. of Technol., Atlanta, GA, USA
Abstract :
Physical models are used to determine the ultimate potential performance of carbon nanotube interconnects and compare them with minimum-size copper wires implemented at various technology generations. Results offer important guidance regarding the nature of carbon nanotube technology development needed for improving interconnect performance. Since wave propagation is slow in a single nanotube, nanotube bundles with larger wave speeds must be used. At the 45-nm node (year 2010), the performance enhancement that can be achieved by using nanotube bundles is negligible, and at the 22-nm node (year 2016) it can be as large as 80%.
Keywords :
ULSI; carbon nanotubes; integrated circuit interconnections; molecular electronics; quantum wires; wave propagation; 22 nm; 45 nm; C; Cu; carbon nanotube interconnects; copper interconnects; gigascale integration; kinetic inductance; minimum-size copper wires; molecular electronics; nanotube bundles; quantum wires; wave propagation; Carbon nanotubes; Copper; Electrons; Electrostatics; Inductance; Integrated circuit interconnections; Kinetic theory; Particle scattering; Quantum capacitance; Wires;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2004.841440
