Title :
Impact of interconnect process variations on memory performance and design
Author :
Teene, A. ; Davis, B. ; Castagnetti, R. ; Brown, J. ; Ramesh, S.
Author_Institution :
LSI Logic Corp., Fort Collins, CO, USA
Abstract :
Interconnect-related effects have become significant factors that can affect complex nanometer designs, such as memories. Thus, a robust memory design methodology needs to include the accurate modeling of interconnect parasitics and interconnect process variations. In this paper we present a statistical design approach to study the impact of interconnect process variations on memory performance and design. This approach uses 3D parasitic extraction, circuit simulation, Monte Carlo and sensitivity analysis to determine the parasitic and performance sensitivities to interconnect process parameter variations for a 90 nm memory design example. The sensitivity analysis results can be used to optimize the memory circuit design and layout to further improve memory performance and robustness.
Keywords :
Monte Carlo methods; circuit simulation; digital storage; integrated circuit interconnections; integrated circuit layout; nanoelectronics; sensitivity analysis; 3D parasitic extraction; 90 nm; Monte Carlo; circuit simulation; complex nanometer designs; interconnect parasitics; interconnect process variations; memory circuit design; memory circuit layout; memory performance; performance; robust memory design; sensitivity analysis; statistical design; Circuit simulation; Design methodology; Design optimization; Integrated circuit interconnections; Large scale integration; Logic design; Monte Carlo methods; Random access memory; Robustness; Sensitivity analysis;
Conference_Titel :
Quality of Electronic Design, 2005. ISQED 2005. Sixth International Symposium on
Print_ISBN :
0-7695-2301-3
DOI :
10.1109/ISQED.2005.63
