-
Limited by materials and process stability, the nano-scale IC manufacturing process is still based on the 193 nm light technology and the wavelength is larger than the feature size of layout, thus the induced interference and diffraction greatly reduce the resolution, which affect the quality of the chip. So the layout needs to be checked by the design-for-manufacturability (DfM) model before manufacturing. Traditional DfM models describe the process steps using physical models, and deduce the convolution kernels by decomposing the matrix in corresponding physical models, which are not only complicated but also hard to use; thus combined with the insufficiency of physical models, it is difficult to describe the process with thousands of parameters. This paper uses convolution form as the framework of DfM model, and deduces the relationship, represented as convolution kernels, between layout and contour by an optimization method. Every element in the convolution kernels is optimized based on the input and output data of the process and is also a dimension to describe the process. This model overcomes the disadvantages of the traditional model which needs confidential information such as process parameters, and it has more powerful capability to describe the process. Moreover, the model can contain the layout correction information, and describe the process from layout to contour. Experiment results for 65 nm process show that the model has an accuracy of 8 nm.
-
Keywords:
- design for manufacturability model /
- convolution kernel /
- full process
[1] www.itrs.net
[2] Tian X B, Xu H, Li Q J 2013 Chin. Phys. B 22 088502
[3] Fang X D, Tang Y H, Wu J J, Zhu X, Zhou J, Huang D 2013 Chin. Phys. B 22 078901
[4] Cai D L, Song Z T, Li X, Chen H P, Chen X G 2011 Chin. Phys. Lett. 28 018501
[5] Zhu Z M, Li R, Hao B T, Yang Y T 2009 Chin. Phys. B 18 4995
[6] Cobb N B, Avideh Zakhor 1995 15th Annual BACUS Symposium on Photomask Technology and Management Santa Clara, CA, September 20, 1995 p534
[7] Cobb N, Dudau D 2006 Proc. SPIE 6154, Optical Microlithography XIX San Jose, CA, February 19, 2006 p61540I
[8] Jaione T A, Alan E R, Timothy B 2014 J. Micro/Nanolith. MEMS MOEMS. 13 023014
[9] Lori A J, Michael T R, Jason D, Christiane J 2002 Proc. SPIE 4691, Optical Microlithography XV Santa Clara, CA, March 03, 2002 p861
[10] Bouton G, Connolly B, Courboin D, Di Giacomo A, Gasnier F, Lallement R, Parker D, Pindo M, Richoilley J C, Royere F, Rameau-Savio A, Tissier M 2011 27th European Mask and Lithography Conference Dresden, Germany, January 18, 2011 p79850R
[11] Carau D, Bouyssou R, Dezauzier C, Besacier M, Gourgon C 2014 Optical Micro-and Nanometrology V Brussels, Belgium, April 14, 2014 p91320D
[12] Michael Hyatt, Karen Huang, Anton DeVilliers, Mark Slezak, Zhi Liu 2014 Advances in Patterning Materials and Processes XXXI San Jose, California, USA, February 23, 2014 p905118
[13] Drapeau M, Wiaux V, Hendrickx E, Verhaegen S, Machida T 2007 Conference on Design for Manufacturability through Design-Process Integration San Jose, CA 2007 p652109
[14] Ghaida R S, Torres G, Gupta, P 2011 Semiconductor Manufacturing, IEEE Transactions on 24 93
[15] Poonawala A, Milanfar P 2007 Image Processing, IEEE Transactions on 16 774
[16] Alexandre Villaret, Alexander Tritchkov, Jorge Entradas, Emek Yesilada 2013 Optical Microlithography XXVI San Jose, California, USA, February 24, 2013 p86830E
[17] Lv W, Xia Q, Liu S Y 2013 J. MicroNanolith. Mems Moems 12 043003
[18] Wang J P, Qi S Y, Liu S G 2014 Acta Phys. Sin. 63 128503 (in Chinese) [王俊平, 戚苏阳, 刘士钢 2014 物理学报 63 128503]
[19] Kong JT 2004 IEEE Transactions on VLSI Systems 12 1132
[20] Zhang Z M, Xiao P, Sun X, Ding Z J 2006 Acta Phys. Sin. 55 5803 (in Chinese) [张增明, 肖沛, 孙霞, 丁泽军 2006 物理学报 55 5803]
[21] Mazen Saied, Franck Foussadier, Jérô me Belledent, Yorick Trouiller, Isabelle Schanen, Emek Yesilada, Christian Gardin, Jean Christophe Urbani, Frank Sundermann, Frédéric Robert, Christophe Couderc, Florent Vautrin, Laurent LeCam, Gurwan Kerrien, Jonathan Planchot, Catherine Martinelli, Bill Wilkinson, Yves Rody, Amandine Borjon, Nicolo Morgana, Jean-Luc Di-Maria, Vincent Farys 2007 Photomask Technology 2007 Monterey, CA, September 17, 2007 p673050
[22] Viviana Agudelo, Tim Fhner, Andreas Erdmann, Peter Evanschitzky 2013 J. MicroNanolith. MEMS MOEMS. 13 011002
[23] Chen D L, Cao Y P, Huang Z F 2011 Chin. Phys. Lett. 28 068503
[24] Ye Chen, Zheng Shi, Ke Zhou, Yue Ma, Shanhu Shen, Xiaolang Yan 2006 Solid-State and Integrated Circuit Technology, 2006 ICSICT'06 8th International Conference on 2006 pp1453-1455
[25] Zavyalova L V, Lan Luan, Hua Song, Thomas Schmoeller, Shiely J P 2014 Optical Microlithography XXVII San Jose, California, USA, February 23, 2014 p905222
[26] Chen D L, Cao Y P, Huang Z F, Lu X, Zhai A P 2012 Chin. Phys. B 21 084201
[27] Wang H, Li C H, Pan F, Wang H B, Yan D H 2009 Chin. Phys. Lett. 26 118501
[28] Katakamsetty U, Colin H, Yeo S, Valerio P, Yang Qing, Quek Shyue Fong, Aravind, N S Matthias, R Roberto S 2014 Design-Process-Technology Co-optimization for Manufacturability VIII 2014 San Jose, CA, USA, 23 Feb. 2014 p905312
[29] Yan W X, Wang L Y, Zhang Z F, Liu W L, Song Z T 2014 Chin. Phys. B 23 048301
[30] He A D, L B, Song Z T, Wang L Y, Liu W L, Feng G M, Feng S L 2014 Chin. Phys. B 23 088802
[31] Yang Y W, Shi Z, Sun L T, Chen Y, Hu Z J 2010 i Design for Manufacturability through Design-Process Integration IV San Jose, CA, USA, 3 April 2010 p76410O
-
[1] www.itrs.net
[2] Tian X B, Xu H, Li Q J 2013 Chin. Phys. B 22 088502
[3] Fang X D, Tang Y H, Wu J J, Zhu X, Zhou J, Huang D 2013 Chin. Phys. B 22 078901
[4] Cai D L, Song Z T, Li X, Chen H P, Chen X G 2011 Chin. Phys. Lett. 28 018501
[5] Zhu Z M, Li R, Hao B T, Yang Y T 2009 Chin. Phys. B 18 4995
[6] Cobb N B, Avideh Zakhor 1995 15th Annual BACUS Symposium on Photomask Technology and Management Santa Clara, CA, September 20, 1995 p534
[7] Cobb N, Dudau D 2006 Proc. SPIE 6154, Optical Microlithography XIX San Jose, CA, February 19, 2006 p61540I
[8] Jaione T A, Alan E R, Timothy B 2014 J. Micro/Nanolith. MEMS MOEMS. 13 023014
[9] Lori A J, Michael T R, Jason D, Christiane J 2002 Proc. SPIE 4691, Optical Microlithography XV Santa Clara, CA, March 03, 2002 p861
[10] Bouton G, Connolly B, Courboin D, Di Giacomo A, Gasnier F, Lallement R, Parker D, Pindo M, Richoilley J C, Royere F, Rameau-Savio A, Tissier M 2011 27th European Mask and Lithography Conference Dresden, Germany, January 18, 2011 p79850R
[11] Carau D, Bouyssou R, Dezauzier C, Besacier M, Gourgon C 2014 Optical Micro-and Nanometrology V Brussels, Belgium, April 14, 2014 p91320D
[12] Michael Hyatt, Karen Huang, Anton DeVilliers, Mark Slezak, Zhi Liu 2014 Advances in Patterning Materials and Processes XXXI San Jose, California, USA, February 23, 2014 p905118
[13] Drapeau M, Wiaux V, Hendrickx E, Verhaegen S, Machida T 2007 Conference on Design for Manufacturability through Design-Process Integration San Jose, CA 2007 p652109
[14] Ghaida R S, Torres G, Gupta, P 2011 Semiconductor Manufacturing, IEEE Transactions on 24 93
[15] Poonawala A, Milanfar P 2007 Image Processing, IEEE Transactions on 16 774
[16] Alexandre Villaret, Alexander Tritchkov, Jorge Entradas, Emek Yesilada 2013 Optical Microlithography XXVI San Jose, California, USA, February 24, 2013 p86830E
[17] Lv W, Xia Q, Liu S Y 2013 J. MicroNanolith. Mems Moems 12 043003
[18] Wang J P, Qi S Y, Liu S G 2014 Acta Phys. Sin. 63 128503 (in Chinese) [王俊平, 戚苏阳, 刘士钢 2014 物理学报 63 128503]
[19] Kong JT 2004 IEEE Transactions on VLSI Systems 12 1132
[20] Zhang Z M, Xiao P, Sun X, Ding Z J 2006 Acta Phys. Sin. 55 5803 (in Chinese) [张增明, 肖沛, 孙霞, 丁泽军 2006 物理学报 55 5803]
[21] Mazen Saied, Franck Foussadier, Jérô me Belledent, Yorick Trouiller, Isabelle Schanen, Emek Yesilada, Christian Gardin, Jean Christophe Urbani, Frank Sundermann, Frédéric Robert, Christophe Couderc, Florent Vautrin, Laurent LeCam, Gurwan Kerrien, Jonathan Planchot, Catherine Martinelli, Bill Wilkinson, Yves Rody, Amandine Borjon, Nicolo Morgana, Jean-Luc Di-Maria, Vincent Farys 2007 Photomask Technology 2007 Monterey, CA, September 17, 2007 p673050
[22] Viviana Agudelo, Tim Fhner, Andreas Erdmann, Peter Evanschitzky 2013 J. MicroNanolith. MEMS MOEMS. 13 011002
[23] Chen D L, Cao Y P, Huang Z F 2011 Chin. Phys. Lett. 28 068503
[24] Ye Chen, Zheng Shi, Ke Zhou, Yue Ma, Shanhu Shen, Xiaolang Yan 2006 Solid-State and Integrated Circuit Technology, 2006 ICSICT'06 8th International Conference on 2006 pp1453-1455
[25] Zavyalova L V, Lan Luan, Hua Song, Thomas Schmoeller, Shiely J P 2014 Optical Microlithography XXVII San Jose, California, USA, February 23, 2014 p905222
[26] Chen D L, Cao Y P, Huang Z F, Lu X, Zhai A P 2012 Chin. Phys. B 21 084201
[27] Wang H, Li C H, Pan F, Wang H B, Yan D H 2009 Chin. Phys. Lett. 26 118501
[28] Katakamsetty U, Colin H, Yeo S, Valerio P, Yang Qing, Quek Shyue Fong, Aravind, N S Matthias, R Roberto S 2014 Design-Process-Technology Co-optimization for Manufacturability VIII 2014 San Jose, CA, USA, 23 Feb. 2014 p905312
[29] Yan W X, Wang L Y, Zhang Z F, Liu W L, Song Z T 2014 Chin. Phys. B 23 048301
[30] He A D, L B, Song Z T, Wang L Y, Liu W L, Feng G M, Feng S L 2014 Chin. Phys. B 23 088802
[31] Yang Y W, Shi Z, Sun L T, Chen Y, Hu Z J 2010 i Design for Manufacturability through Design-Process Integration IV San Jose, CA, USA, 3 April 2010 p76410O
Catalog
Metrics
- Abstract views: 5133
- PDF Downloads: 513
- Cited By: 0