Title :
Optimizing pattern fill for planarity and parasitic capacitance
Author :
Nelson, Mark ; Williams, Brett ; Belisle, Chuck ; Aytes, Shayne ; Beasterfield, David ; Liu, Jiwen ; Donaldson, Scott ; Prasad, Jagdish
Author_Institution :
AMI Semicond., Pocatello, ID, USA
Abstract :
Chemical mechanical polishing causes dishing in the planarized layer causing significant topographical challenges for subsequent patterning. One solution for dishing phenomenon is introduction of metal pattern fill with dummy structures as a method to improve planarity for a given layer. This paper deals with the optimization of planarity and parasitic capacitance. Wafer level topography maps illustrates the planarity of circuit without pattern fill. Parasitic capacitance analysis is performed by closed form solution. Using the analysis of the circuit-level parasitic capacitance tool, the estimated effect on various circuit nets is calculated.
Keywords :
capacitance; circuit optimisation; equivalent circuits; integrated circuit manufacture; planarisation; chemical mechanical polishing; closed form solution; dummy structures; metal pattern fill; optimization; parasitic capacitance; planarity; wafer level topography; Ambient intelligence; Dielectrics; Displays; Integrated circuit interconnections; Integrated circuit manufacture; Parasitic capacitance; Planarization; Shape; Space technology; Surface topography;
Conference_Titel :
Semiconductor Device Research Symposium, 2003 International
Print_ISBN :
0-7803-8139-4
DOI :
10.1109/ISDRS.2003.1272167
