Charles H. Bennett, Aram W. Harrow, et al.
IEEE Trans. Inf. Theory
We examine electrical performance issues associated with advanced VLSI semiconductor on-chip interconnections or 'interconnects'. Performance can be affected by wiring geometry, materials, and processing details, as well as by processor-level needs. Simulations and measurements are used to study details of interconnect and insulator electrical properties, pulse propagation, and CPU cycle-time estimation, with particular attention to potential advantages of advanced materials and processes for wiring of high-performance CMOS microprocessors. Detailed performance improvements are presented for migration to copper wiring, low-ε dielectrics, and scaled-up interconnects on the final levels for long-line signal propagation.
Charles H. Bennett, Aram W. Harrow, et al.
IEEE Trans. Inf. Theory
Michael D. Moffitt
ICCAD 2009
Hans Becker, Frank Schmidt, et al.
Photomask and Next-Generation Lithography Mask Technology 2004
Kaoutar El Maghraoui, Gokul Kandiraju, et al.
WOSP/SIPEW 2010