Mr. Scott P. Warrick Profile

Scott P. Warrick

Process Engineer at Cirrus Logic Inc

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Author

Publications (20)

Proceedings Article | 26 March 2019 Paper

Casual modeling of yield

Jeffrey Weintraub, Scott Warrick

Proceedings Volume 10959, 109592C (2019) https://doi.org/10.1117/12.2515080

KEYWORDS: Process modeling, Data modeling, Performance modeling, Statistical analysis

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Proceedings Article | 13 March 2018 Presentation + Paper

Outlier detection in contamination control

Jeffrey Weintraub, Scott Warrick

Proceedings Volume 10585, 105851T (2018) https://doi.org/10.1117/12.2297379

KEYWORDS: Data modeling, Process modeling, Particles, Machine learning, Contamination control, Process control, Data processing, Data analysis, Statistical modeling, Control systems

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Proceedings Article | 28 March 2017 Presentation + Paper

Smart sampling for process control

Jeffrey Weintraub, Scott Warrick

Proceedings Volume 10145, 101450S (2017) https://doi.org/10.1117/12.2258031

KEYWORDS: Process control, Inspection, Failure analysis, Semiconducting wafers, Defect inspection

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Proceedings Article | 21 April 2016 Paper

A new approach to process control using Instability Index

Jeffrey Weintraub, Scott Warrick

Proceedings Volume 9778, 97780X (2016) https://doi.org/10.1117/12.2218623

KEYWORDS: Statistical analysis, Process control, Manufacturing, Probability theory, Statistical methods, Monte Carlo methods, Ions, Diagnostics, Distributed interactive simulations, Excel

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Proceedings Article | 3 May 2007 Paper

Investigation on immersion defectivity root cause

V. Farys, S. Gaugiran, D. Cruau, K. Mestadi, S. Warrick, M. Benndorf, R. Feilleux, C. Sourd

Proceedings Volume 6533, 653308 (2007) https://doi.org/10.1117/12.736328

KEYWORDS: Thin film coatings, Scanners, Semiconducting wafers, Digital watermarking, Inspection, Immersion lithography, Lithography, Particles, Photomasks, Semiconductors

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Proceedings Article | 2 April 2007 Paper

Early look into device level imaging with beyond water immersion

Will Conley, Scott Warrick, Cesar Garza, Pierre-Jerome Goirand, Jan-Willem Gemmink, David Van Steenwinckel

Proceedings Volume 6520, 65201L (2007) https://doi.org/10.1117/12.714341

KEYWORDS: Polarization, Refractive index, Photoresist materials, Water, Imaging devices, Lithography, Photomasks, Semiconductors, Photoresist developing, Manufacturing

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Proceedings Article | 27 March 2007 Paper

Integrating immersion lithography in 45-nm logic manufacturing

Michael Benndorf, Scott Warrick, Will Conley, David Cruau, Danilo DeSimone, Karim Mestadi, Vincent Farys, Jan-Willem Gemmink

Proceedings Volume 6520, 652007 (2007) https://doi.org/10.1117/12.715987

KEYWORDS: Semiconducting wafers, Immersion lithography, Critical dimension metrology, Scanners, Manufacturing, Source mask optimization, Overlay metrology, Semiconductors, Lithography, Logic

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Proceedings Article | 27 March 2007 Paper

32-nm SOC printing with double patterning, regular design, and 1.2 NA immersion scanner

Yorick Trouiller, Vincent Farys, Amandine Borjon, Jérôme Belledent, Christophe Couderc, Frank Sundermann, Jean-Christophe Urbani, Yves Rody, Christian Gardin, Jonathan Planchot, Will Conley, Pierre-Jerome Goirand, Scott Warrick, Frédéric Robert, Gurwan Kerrien, Florent Vautrin, Bill Wilkinson, Mazen Saied, Emic Yesilada, Patrick Montgomery, Laurent Le Cam, Catherine Martinelli

Proceedings Volume 6520, 65201D (2007) https://doi.org/10.1117/12.714116

KEYWORDS: Optical lithography, Polarization, Transistors, Double patterning technology, Resolution enhancement technologies, Printing, System on a chip, Logic, Scanners, Optical proximity correction

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Proceedings Article | 27 March 2007 Paper

ARC stack development for hyper-NA imaging

Vincent Farys, Scott Warrick, Catherine Chaton, Jean-Damien Chapon

Proceedings Volume 6520, 65204O (2007) https://doi.org/10.1117/12.712882

KEYWORDS: Reflectivity, Oxides, Chemical vapor deposition, Refractive index, Polarization, Carbon, Lithography, Multilayers, Etching, Antireflective coatings

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Proceedings Article | 27 March 2007 Paper

Extending immersion lithography to the 32-nm node

Scott Warrick, Will Conley, Vincent Farys, Michael Benndorf, Jan-Willem Gemmink, Yorick Trouiller, Jerome Belledent, Dejan Jovanovic, Pascal Gouraud

Proceedings Volume 6520, 652015 (2007) https://doi.org/10.1117/12.716807

KEYWORDS: Immersion lithography, Manufacturing, Optical lithography, Etching, Scanners, Optical proximity correction, Photoresist processing, Semiconducting wafers, Semiconductors, Photomasks

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Proceedings Article | 20 October 2006 Paper

Optical issues of thin organic pellicles in 45-nm and 32-nm immersion lithography

Kevin Lucas, Joseph Gordon, Will Conley, Mazen Saied, Scott Warrick, Mike Pochkowski, Mark Smith, Craig West, Franklin Kalk, Jan Pieter Kuijten

Proceedings Volume 6349, 63490K (2006) https://doi.org/10.1117/12.686741

KEYWORDS: Pellicles, Optical proximity correction, Apodization, Polarization, Critical dimension metrology, Lithography, Photomasks, Semiconducting wafers, Reticles, Spatial frequencies

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Proceedings Article | 15 March 2006 Paper

Immersion lithography robustness for the C065 node

Scott Warrick, Rob Morton, Andrea Mauri, Jean-Damien Chapon, Jerome Belledent, Will Conley, Alex Barr, Kevin Lucas, Cedric Monget, Valerie Plantier, David Cruau, Juan-Manuel Gomez, Emmanuel Sicurani, Jan-Willem Gemmink

Proceedings Volume 6154, 615407 (2006) https://doi.org/10.1117/12.657158

KEYWORDS: Optical proximity correction, Immersion lithography, Semiconducting wafers, Scanners, Etching, Line width roughness, Manufacturing, Optical lithography, Lithography, Metals

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Semiconductor manufacturers are in the midst of the next technology node C045 (65nm half-pitch) development. The difference this time is that the heavy lifting is being done while swimming. Generally, for the C065 node (hp90), critical layers will be processed using 193-nm scanners with numerical apertures up to 0.85. It is also clear that the capabilities and potential benefits of immersion lithography (at this wavelength and NA) should to be examined, in addition to the development of immersion lithography for the C045 and C032 technology generations. The potential benefits of immersion lithography; increased DOF in the near term and hyper-NA imaging in the next phase, have been widely reported. A strategy of replacing conventional "dry" lithographic process steps with immersion lithographic process steps would allow the benefits of immersion to be realized much earlier. To fully realize this advantage a direct comparison of immersion lithography's benefits and therefore speed learning is needed. However, such an insertion should be "transparent": i.e. the "immersion process" should run with the same reticles (OPC) and resists, as the conventional process. In an effort to gain this knowledge about the immersion processes, we have chosen a path of optimizing and ramping-up the lithographic process for the C065 technology node. In this paper, we report on the compatibility of inserting immersion lithography processes into an established C065 process running in a pilot manufacturing line. We will present an initial assessment of some critical parameters for the implementation of immersion lithography. This assessment includes: OPC compatibility, imaging, process integration, and defectivity all compared to the dry process of record. Finally, conclusions will be made as to the overall readiness of immersion to support C065 node processing in direct transfer from dry and its extendibility to C045. In this work, the C045 technology node (hp65) is the main target vehicle. However, a successful introduction of immersion technology may allow a strategy change complementary with the previous (C065) technology node (i.e. run C065 immersion in production and benefit from larger process windows).

Proceedings Article | 14 March 2006 Paper

Design and use of multivariate approach error analysis APC system

Jean de Caunes, Joost van Herk, Scott Warrick, Bertrand Le Gratiet, Marc Mikolajczak, Jean-Damien Chapon, Cedric Monget, Jan-Willem Gemmink

Proceedings Volume 6155, 615507 (2006) https://doi.org/10.1117/12.657177

KEYWORDS: Reticles, Critical dimension metrology, Semiconducting wafers, Process modeling, Overlay metrology, Oxides, Metrology, Error analysis, Semiconductors, Scanners

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Proceedings Article | 12 May 2005 Paper

Assessment of complementary double dipole lithography for 45nm and 32nm technologies

Sergei Postnikov, Emilien Robert, Philippe Thony, Kyle Patterson, Scott Warrick, Daniel Henry, Andres Torres, Olivier Toublan

Proceedings Volume 5754, (2005) https://doi.org/10.1117/12.601756

KEYWORDS: Photomasks, Lithography, Monte Carlo methods, Critical dimension metrology, Optical proximity correction, Polarization, Lithographic illumination, Optical lithography, SRAF, Nanoimprint lithography

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Proceedings Article | 12 May 2005 Paper

Assessment of 5-pole illumination for 65nm-node contact holes

Francois Weisbuch, Scott Warrick, Will Conley, Jerome Depre

Proceedings Volume 5754, (2005) https://doi.org/10.1117/12.599760

KEYWORDS: Diffractive optical elements, Fiber optic illuminators, Diffraction, Photomasks, Lithography, Optical proximity correction, Printing, Lithographic illumination, Computer simulations, Semiconducting wafers

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Proceedings Article | 12 May 2005 Paper

Alignment robustness for 90 nm and 65 nm node through copper alignment mark integration optimization

Scott Warrick, Paul Hinnen, Rob Morton, Kevin Cooper, Pierre-Olivier Sassoulas, Jerome Depre, Ramon Navarro, Richard van Haren, Clyde Browning, Doug Reber, Henry Megens

Proceedings Volume 5754, (2005) https://doi.org/10.1117/12.599807

KEYWORDS: Optical alignment, Semiconducting wafers, Chemical mechanical planarization, Copper, Scanning probe microscopy, Front end of line, Back end of line, Overlay metrology, Metals, Silicon

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Proceedings Article | 4 May 2005 Paper

Comparison between organic spin-on BARC and carbon-containing CVD stack for 65-nm gate patterning

Jean-Damien Chapon, Catherine Chaton, Pascal Gouraud, Marcel Broekaart, Scott Warrick, Isabelle Guilmeau, Yorick Trouiller, Jerome Belledent

Proceedings Volume 5753, (2005) https://doi.org/10.1117/12.601742

KEYWORDS: Chemical vapor deposition, Etching, Critical dimension metrology, Reflectivity, Carbon, Line width roughness, Semiconducting wafers, Optical lithography, Oxides, Dielectrics

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Proceedings Article | 26 June 2003 Paper

Tool ranking using aberration measurements in a high-volume manufacturing facilility

Cesar Garza, Scott Warrick, Gary Seligman, Lena Zavyalova, Adrian van Zwol, James Foster

Proceedings Volume 5040, (2003) https://doi.org/10.1117/12.485428

KEYWORDS: Scanning electron microscopy, Scanners, Image processing, Transistors, Manufacturing, Monochromatic aberrations, High volume manufacturing, Optical lithography, Spherical lenses, Semiconductors

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Proceedings Article | 30 July 2002 Paper

Integration of new alignment mark designs in dual inlaid-copper interconnect processes

Scott Warrick, Paul Hinnen, Richard van Haren, Chris Smith, Henry Megens, Chong-Cheng Fu

Proceedings Volume 4691, (2002) https://doi.org/10.1117/12.474476

KEYWORDS: Optical alignment, Semiconducting wafers, Overlay metrology, Copper, Dielectrics, Scanning probe microscopy, Signal processing, Reflectivity, Polishing, Metals

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Proceedings Article | 14 September 2001 Paper

Evaluating device design rules based on lithographic capability

Scott Warrick, Chris Smith, Matt Monroe, Carroll Casteel, Mark Zaleski

Proceedings Volume 4346, (2001) https://doi.org/10.1117/12.435792

KEYWORDS: Overlay metrology, Critical dimension metrology, Reticles, Process control, Semiconducting wafers, Lithography, Optical alignment, Error analysis, Tolerancing, Manufacturing

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Showing 5 of 20 publications

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