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Proceedings Paper

Performance and manufacturability trade-offs of pattern minimization for sub-22nm technology nodes
Author(s): Vyacheslav V. Rovner; Tejas Jhaveri; Daniel Morris; Andrzej Strojwas; Larry Pileggi
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Paper Abstract

The traditional design rule paradigm of defining the illegal areas of the design space has been deteriorating at the advanced technology nodes. Radical design space restrictions, advocated by the regular design fabrics methodology, provide an opportunity to reshape the design/manufacturing interface by constraining the layout to a set of allowable patterns. As such, this would allow for guaranteed convergence of the source mask optimization techniques (SMO) and complete validation of the legal design space during technology development and ramp. However, the number of the unique patterns generated by the layout adhering to even the simplistic gridded design rules prohibits this approach. Nevertheless, we have found that just 10% of the unique geometric patterns are sufficient to represent 90% of all layout pattern instances. Furthermore, the overall number of layout patterns on Active, Contact, and Metal-1 design layers can be reduced through modification of existing layout shapes in the final layout database and insertion of non-essential layout features. Unlike the 'dummy fill' used for chemical mechanical polishing (CMP), the newly added shapes must resemble the patterning of the functional design features and be inserted in close proximity to them. In this paper, we evaluate the digital circuit performance impact of the additional layout parasitics introduced by these 'dummy' features. In particular, we have found that a significant pattern count reduction can be achieved with minimal performance penalty. These results have been used at PDF Solutions to enable a correct by construction layout style, such as the templates and connectors-based layout methodology presented in the companion paper.

Paper Details

Date Published: 4 April 2011
PDF: 10 pages
Proc. SPIE 7974, Design for Manufacturability through Design-Process Integration V, 79740I (4 April 2011); doi: 10.1117/12.879514
Show Author Affiliations
Vyacheslav V. Rovner, PDF Solutions, Inc. (United States)
Carnegie Mellon Univ. (United States)
Tejas Jhaveri, PDF Solutions, Inc. (United States)
Carnegie Mellon Univ. (United States)
Daniel Morris, Carnegie Mellon Univ. (United States)
Andrzej Strojwas, PDF Solutions, Inc. (United States)
Carnegie Mellon Univ. (United States)
Larry Pileggi, Carnegie Mellon Univ. (United States)


Published in SPIE Proceedings Vol. 7974:
Design for Manufacturability through Design-Process Integration V
Michael L. Rieger, Editor(s)

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