Title :
Impacts of low-k film on sub-100 nm-node, ULSI devices
Author :
Hayashi, Yoshihiro
Author_Institution :
Silicon Syst. Res. Labs., NEC Corp., Sagamihara, Japan
Abstract :
By using an interconnect performance analysis model with the interconnect length distribution function, the effects of low-k film on ULSI device performances are estimated from 180 nm-node to 65 nm-node. Due to abrupt increment of the interconnect length in the 65 nm-node ULSIs, the total interconnect parasitic capacitance becomes dominant relative to the total transistor capacitance on the chip. Therefore, the introduction of low-k materials provides a great impact on lowering the interconnect parasitic capacitance, or essentially the chip power consumption. The ULSI chip performance such as "low-power and multi-functionality" is estimated to achieve 46% valued-up by replacement of the conventional SiO2 by a porous low-k film with the effective dielectric constant of keff=2.5. The introduction of porous low-k films is cruical for the 65 nm-node ULSIs.
Keywords :
CMOS integrated circuits; ULSI; capacitance; copper; dielectric thin films; integrated circuit interconnections; integrated circuit modelling; low-power electronics; nanotechnology; permittivity; porous materials; 65 nm node ULSIs; 65 to 180 nm; Cu; Cu interconnects; ULSI device performances; chip power consumption; effective dielectric constant; interconnect length distribution function; interconnect performance analysis model; low-power devices; multi-functional devices; multilevel interconnects; porous low-k films; signal delays; sub-100 nm node ULSI devices; total interconnect parasitic capacitance; Delay estimation; Dielectric constant; Distribution functions; Energy consumption; Laboratories; Parasitic capacitance; Performance analysis; Power system interconnection; Silicon; Ultra large scale integration;
Conference_Titel :
Interconnect Technology Conference, 2002. Proceedings of the IEEE 2002 International
Print_ISBN :
0-7803-7216-6
DOI :
10.1109/IITC.2002.1014914
