DRCPlus in a router: automatic elimination of lithography hotspots using 2D pattern detection and correction

Jie Yang; Norma Rodriguez; Olivier Omedes; Frank Gennari; Ya-Chieh Lai; Viral Mankad

doi:10.1117/12.846650

2 April 2010 DRCPlus in a router: automatic elimination of lithography hotspots using 2D pattern detection and correction

Jie Yang, Norma Rodriguez, Olivier Omedes, Frank Gennari, Ya-Chieh Lai, Viral Mankad

Author Affiliations +

Proceedings Volume 7641, Design for Manufacturability through Design-Process Integration IV; 76410Q (2010) https://doi.org/10.1117/12.846650
Event: SPIE Advanced Lithography, 2010, San Jose, California, United States

Abstract

As technology processes continue to shrink, standard design rule checking (DRC) has become insufficient to guarantee design manufacturability. DRCPlus is a powerful technique for capturing yield detractors related to complex 2D situations1,2. DRCPlus is a pattern-based 2D design rule check beyond traditional width and space DRC that can identify problematic 2D configurations which are difficult to manufacture. This paper describes a new approach for applying DRCPlus in a router, enabling an automated approach to detecting and fixing known lithography hotspots using an integrated fast 2D pattern matching engine. A simple pass/no-pass criterion associated with each pattern offers designers guidance on how to fix these problematic patterns. Since it does not rely on compute intensive simulations, DRCPlus can be applied on fairly large design blocks and enforced in conjunction with standard DRC in the early stages of the design flow. By embedding this capability into the router, 2D yield detractors can be identified and fixed by designers in a push-button manner without losing design connectivity. More robust designs can be achieved and the impact on parasitics can be easily assessed. This paper will describe a flow using a fast 2D pattern matching engine integrated into the router in order to enforce DRCPlus rules. An integrated approach allows for rapid identification of hotspot patterns and, more importantly, allows for rapid fixing and verification of these hotspots by a tool that understands design intent and constraints. The overall flow is illustrated in Figure 1. An inexact search pattern is passed to the integrated pattern matcher. The match locations are filtered by the router through application of a DRC constraint (typically a recommended rule). Matches that fail this constraint are automatically fixed by the router, with the modified regions incrementally re-checked to ensure no additional DRCPlus violations are introduced.

Citation Download Citation

Jie Yang, Norma Rodriguez, Olivier Omedes, Frank Gennari, Ya-Chieh Lai, and Viral Mankad "DRCPlus in a router: automatic elimination of lithography hotspots using 2D pattern detection and correction", Proc. SPIE 7641, Design for Manufacturability through Design-Process Integration IV, 76410Q (2 April 2010); https://doi.org/10.1117/12.846650

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