Title :
High-performance interconnects: an integration overview
Author :
Havemann, Robert H. ; Hutchby, James A.
Author_Institution :
Texas Instrum. Inc., Dallas, TX, USA
fDate :
5/1/2001 12:00:00 AM
Abstract :
The Information Revolution and enabling era of silicon ultralarge-scale integration (ULSI) have spawned an ever-increasing level of functional integration on-chip, driving a need for greater circuit density and higher performance. While traditional transistor scaling has thus far met this challenge, interconnect scaling has become the performance-limiting factor for new designs. The increasing influence of interconnect parasitics on crosstalk noise and R(L)C delay as well as electromigration and power dissipation concerns have stimulated the introduction of low-resistivity copper and low-permittivity (k) dielectrics to provide performance and reliability enhancement. Integration of these new materials into integrated circuit fabrication is a formidable task, requiring material, process, design, and packaging innovations. Additionally, entirely new technologies such as RF and optical interconnects may be required to address future global routing needs and sustain performance improvement
Keywords :
ULSI; crosstalk; delays; electromigration; integrated circuit interconnections; integrated circuit noise; network routing; R(L)C delay; RF interconnects; circuit density; crosstalk noise; electromigration; functional integration; global routing needs; high-performance interconnects; interconnect parasitics; interconnect scaling; low-permittivity dielectrics; low-resistivity copper; optical interconnects; packaging innovations; power dissipation; ultralarge-scale integration; Copper; Crosstalk; Delay; Dielectric materials; Electromigration; Integrated circuit interconnections; Optical materials; Power dissipation; Silicon; Ultra large scale integration;
Journal_Title :
Proceedings of the IEEE
