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Proceedings Paper

Taming pattern and focus variation in VLSI design
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Paper Abstract

Tight ACLV control has become increasingly diffcult due to the diminishing process constant, K1. Focus variation and pitch variation are two major systematic components of ACLV. In this paper, we demonstrate these systematic effects and propose a design flow which exploits the systematic effect. We demonstrate the systematic ACLV by showing a Bossung plot for a nominal 90nm technology node. The plot is generated by simulation with lithographic parameters closely resembling a production technology node. Traditionally, tight CD control is achieved by sophisticated RET such as OPC, SRAF, AltPSM and more recently the Dense Template Design. The CD variation is specified in the design manual and the circuit designs will ensure functionality by building in enough margin to account for the variability. Even though, the systematic components of CD variation are understood, they have always been considered together with other random components as being random. This approach has left design performance on the table. We propose a holistic design flow by integrating the technology development process, design process and the manufacturing process. This holistic approach is aiming to tame the systematic through-pitch and through-focus CD variation. We quantify the design timing benefit using this approach by circuit design experiments. Results of our experiments show that timing uncertainty can be reduced by up to 30%. We also discuss other possibilities which are infeasible to carry out in traditional approach with silos of technology development, design and manufacturing.

Paper Details

Date Published: 3 May 2004
PDF: 10 pages
Proc. SPIE 5379, Design and Process Integration for Microelectronic Manufacturing II, (3 May 2004); doi: 10.1117/12.538271
Show Author Affiliations
Fook-Luen Heng, IBM Thomas J. Watson Research Ctr. (United States)
Puneet Gupta, Univ. California/San Diego (United States)
Kafai Lai, IBM Microelectronics Div. (United States)
Ronald L. Gordon, IBM Microelectronics Div. (United States)
Jin-Fuw Lee, IBM Thomas J. Watson Research Ctr. (United States)


Published in SPIE Proceedings Vol. 5379:
Design and Process Integration for Microelectronic Manufacturing II
Lars W. Liebmann, Editor(s)

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