Review of computational lithography modeling: focusing on extending optical lithography and design-technology co-optimization

Lai, Kafai

doi:10.1515/aot-2012-0037

Cited by 12 publications

(5 citation statements)

References 26 publications

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“…A further refinement to OPC is source-machine optimization (SMO). 32) In SMO, the features on the mask deviate significantly from the intended design, while the light source illuminator is programmed with selective obscuration regions, making it uniquely paired with the new mask shapes. This way, it is possible to more faithfully print on the wafer the layout that the circuit designer created.…”

Section: Resolution Enhancement Techniques (Ret)mentioning

confidence: 99%

Evolution of patterning materials towards the Moore’s Law 2.0 Era

Goldfarb

2022

Jpn. J. Appl. Phys.

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In this paper, the utilization of lithographic materials for semiconductor patterning applications based on optical and EUV radiation sources is reviewed. Photoresist platforms including novolac, chemically amplified, chain scission, molecular and inorganic materials are discussed in relation to their chemistry, design, processing, and performance. If the focus of Moore's Law 1.0 was on laterally scaling the number of components on a single chip, Moore's Law 2.0 can be understood as the coming era of 3D scaling, where the improved performance from 2D shrinking is replaced by integrated AI, 3D Packaging, 3D transistors and new types of memory, among other enabling enablers. As the historical patterning challenges faced by the lithographic industry to scale down semiconductor devices over multiple technology nodes are reviewed from a materials perspective, insight is given regarding future patterning materials utilization and the importance of back-implementing leading-edge materials for Moore's Law 2.0 patterning applications.

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Section: Resolution Enhancement Techniques (Ret)mentioning

confidence: 99%

Evolution of patterning materials towards the Moore’s Law 2.0 Era

Goldfarb

2022

Jpn. J. Appl. Phys.

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“…The field of numerical simulations in this engineering-and research-area is termed Computational lithography. 87 Numerically optimized resolution enhancement techniques (RET), optical proximity correction (OPC), and source mask optimization (SMO) help to push the resolution limits of nanofabrication further towards smaller structures. The technological framework of this field translates to challenging requirements on numerical accuracy and computation time.…”

Section: Optical Lithographymentioning

confidence: 99%

Advanced finite-element methods for design and analysis of nanooptical structures: applications

et al. 2013

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“…Similar requirements for computations of solutions to Maxwell's equations as in the above described field of computational metrology are present, e.g., in the field of computational lithography. 4 A need therefore exists for a method to speed-up computation of such light distributions incident from a number of different directions on periodic samples. In this contribution we present results from an implementation of a Schur complement based method 5 allowing for such speed-ups.…”

Section: Introductionmentioning

confidence: 99%