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Toward a Methodology for Manufacturability-Driven Design Rule Exploration. Luigi Capodieci, Puneet Gupta, Andrew B. Kahng, Dennis Sylvester, and Jie Yang Univ. of Michigan, Ann Arbor Univ. of California, San Diego Advanced Micro Devices. Outline. Introduction
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Toward a Methodology for Manufacturability-Driven Design Rule Exploration Luigi Capodieci, Puneet Gupta, Andrew B. Kahng, Dennis Sylvester, and Jie Yang Univ. of Michigan, Ann Arbor Univ. of California, San Diego Advanced Micro Devices
Outline • Introduction • Motivation of the restrictive design rule(RDR) approach • RDR embedded design flow • Evaluation metrics • Experimental results • Conclusions and future work
Introduction • Projected gate CD control in sub-wavelength lithography regime (ITRS 2003) • Manufacturable solutions are not known foritalicized numbers • Intel may not use 157nm at 50nm technology node
Introduction (Cont.) • Trends in Mask Cost • Mask data preparation is a serious bottleneck due tothe heavily applied RET • Figure count explodes as dimensions shrink • Data volume for a single mask layer can approach 200GB
Introduction (Cont.) • Trends in Mask Cost (Cont.) • Mask writing time increases from a few days to over a month • Mask set cost increases at an accelerated rate with RET application as the primary driver • ASIC users turn to FPGAs due to high mask cost on low volume designs
Outline • Introduction • Motivation of the restrictive design rule(RDR) approach • RDR embedded design flow • Evaluation metrics • Experimental results • Conclusions and future work
Motivation of RDR • RETs need to become part of a cohesive design flow in which libraries and layouts are optimized directly based on conflicts discovered by the RET tool, no longer a post-layout procedure • More conservative design rules or restricted design rules (RDRs) seek to push the manufacturability and performance tradeoff more in favor of the manufacturing side • Apply RDR within ASIC design methodology
Outline • Introduction • Motivation of the restrictive design rule(RDR) approach • RDR embedded design flow • Evaluation metrics • Experimental results • Conclusions and future work
RDR Candidates • Bentgate “on” as baseline (1) • Bentgate line width (5) • Bentgate “off” • Poly to poly spacing (2) • Poly to diffusion spacing (3) • Poly end extension (4) (4) (5) (1) (3) (2)
Value Ranges of RDR • Use IBM 0.13μm technology as “default” • Guideline • Start from the most “free” design rule set, i.e., for best performance in delay & area – “bentgate on” as baseline • Create more conservative design rules • Only one rule differs from “Default” rule set • Moving to more conservative direction,e.g. increasing poly to poly spacing, line width, etc. • The parentheses contain the corresponding labels in all figures
EPE<0 EPE>0 Value Ranges of RDR (Cont.) • We use edge placement errors (EPEs) as a quantifying metric to determine value range • Measure how closely a printed feature actually reflects the corresponding designed feature • Defined as the distance between the edges of printed image and drawn feature (positive value indicates printed image outside of drawn feature boundary while negative value indicates it’s inside) EPE<0 EPE<0 EPE>0 EPE>0 (a) (b)
Value Ranges of RDR (Cont.) • Determine the “forbidden pitch” • Define 0.42μm to 0.72μm as the forbidden pitch rangeaccording to simulation results
Outline • Introduction • Motivation of the restrictive design rule(RDR) approach • RDR embedded design flow • Evaluation metrics • Experimental results • Conclusions and future work
OPC Fracture Mask Evaluation Metrics • For manufacturability: EPE and average CD • EPEs to measure the effectiveness of OPC • Goal is to achieve a tight EPE distribution with mean around zero • Using average CD to compensate for the limitation of EPE • The EPE distributions can not correctly reflect CD • Use average gate-length calculated from a printed non-uniform gate area for further evaluation • For OPC cost: MEBES data volume • MEBES is the standard mask writer format • The explosion of MEBES data volume due to RETs has made mask data preparation a serious bottleneck. • It shows the complexity of OPC layer and reflects the mask cost
Outline • Introduction • Motivation of the restrictive design rule (RDR) approach • RDR embedded design flow • Evaluation metrics • Experimental results • Conclusions and future work
Experimental Results • Impact of defocus on maximum EPE levels vs. RDRs
Experimental Results • Impact of defocus on CD distribution (circuit: c7552)
Experimental Results • Impact of defocus on functional yield for a fixed 10% Lgate variation (circuit: c7552)
Experimental Results • Scattering bars (or sub-resolution assist features) (circuit: c7552)
Experimental Results • Approach of the single pitch RDR (circuit: c7552) • Single pitch, single orientation • Poly pitch larger than default value to allow contact be inserted • Pseudo single pitch (97.6% fixed at a single value) • AOI, OAI cells are excluded • With SRAFs tuned for the single pitch library at 0.1µm defocus
Experimental Results • Circuit performance analysis
Experimental Results • Tradeoff between functional yield at 10% EPE tolerance and mask cost with loose OPC for corner correction (circuit: c7552)
Conclusions and Future Work • Restrictive design rules can result in more robust and cost-effective circuits without sacrificing performance • Data volume reduction on the order of 20-30% relative to baseline rule set • Worst-case EPE reduction nearly 50% with small penalty on performance • RDR sets can be formulated to support sub-wavelength lithography by providing substantial cost reductions with negligible performance tradeoff
Conclusions and Future Work • Multi-layer design rules • Metal design rules • Besides poly, OPC is also heavily applied on metal.Metal design rules are promising candidates for RDRs • Contact design rules • A great number of correcting features are inserted to maintain the fidelity of the layer covering the contact while the goal should be obtain enough overlap area • E.g., avoid contact very close to metal line end mayreduce both the OPC cost on metal and the possibilityfor an open fault • Performance analysis for post-OPC • Reduce correction cost on field poly whenever possible