Fundamental limits for 3D wafer-to-wafer alignment accuracy

M. Wimplinger; J. Q. Lu; J. Yu; Y. Kwon; T. Matthias; T. S. Cale; R. J. Gutmann

doi:10.1557/proc-812-f6.10

Fundamental limits for 3D wafer-to-wafer alignment accuracy

M. Wimplinger, J. Q. Lu, J. Yu, Y. Kwon, T. Matthias, T. S. Cale, R. J. Gutmann

Dept. of Chemical and Biomolecular Engineering

Research output: Contribution to journal › Conference article › peer-review

5 Scopus citations

Abstract

Wafer-level three-dimensional (3D) integration as an emerging architecture for future chips offers high interconnect performance by reducing delays of global interconnects and high functionality with heterogeneous integration of materials, devices, and signals. Various 3D technology platforms have been investigated, with different combinations of alternative alignment, bonding, thinning and inter-wafer interconnection technologies. Precise alignment on the wafer level is one of the key challenges affecting the performance of the 3D interconnects. After a brief overview of the wafer-level 3D technology platforms, this paper focuses on wafer-to-wafer alignment fundamentals. Various alignment methods are reviewed. A higher emphasis lies on the analysis of the alignment accuracy. In addition to the alignment accuracy achieved prior to bonding, the impacts of wafer bonding and subsequent wafer thinning will be discussed.

Original language	English
Pages (from-to)	309-314
Number of pages	6
Journal	Materials Research Society Symposium - Proceedings
Volume	812
DOIs	https://doi.org/10.1557/proc-812-f6.10
State	Published - 2004
Event	Materials, Technology and Reliability for Advanced Interconnects and Low-k Dielectrics - 2004 - San Francisco, CA, United States Duration: 13 Apr 2004 → 15 Apr 2004

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title = "Fundamental limits for 3D wafer-to-wafer alignment accuracy",

abstract = "Wafer-level three-dimensional (3D) integration as an emerging architecture for future chips offers high interconnect performance by reducing delays of global interconnects and high functionality with heterogeneous integration of materials, devices, and signals. Various 3D technology platforms have been investigated, with different combinations of alternative alignment, bonding, thinning and inter-wafer interconnection technologies. Precise alignment on the wafer level is one of the key challenges affecting the performance of the 3D interconnects. After a brief overview of the wafer-level 3D technology platforms, this paper focuses on wafer-to-wafer alignment fundamentals. Various alignment methods are reviewed. A higher emphasis lies on the analysis of the alignment accuracy. In addition to the alignment accuracy achieved prior to bonding, the impacts of wafer bonding and subsequent wafer thinning will be discussed.",

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T1 - Fundamental limits for 3D wafer-to-wafer alignment accuracy

AU - Wimplinger, M.

AU - Lu, J. Q.

AU - Yu, J.

AU - Kwon, Y.

AU - Matthias, T.

AU - Cale, T. S.

AU - Gutmann, R. J.

PY - 2004

Y1 - 2004

N2 - Wafer-level three-dimensional (3D) integration as an emerging architecture for future chips offers high interconnect performance by reducing delays of global interconnects and high functionality with heterogeneous integration of materials, devices, and signals. Various 3D technology platforms have been investigated, with different combinations of alternative alignment, bonding, thinning and inter-wafer interconnection technologies. Precise alignment on the wafer level is one of the key challenges affecting the performance of the 3D interconnects. After a brief overview of the wafer-level 3D technology platforms, this paper focuses on wafer-to-wafer alignment fundamentals. Various alignment methods are reviewed. A higher emphasis lies on the analysis of the alignment accuracy. In addition to the alignment accuracy achieved prior to bonding, the impacts of wafer bonding and subsequent wafer thinning will be discussed.

AB - Wafer-level three-dimensional (3D) integration as an emerging architecture for future chips offers high interconnect performance by reducing delays of global interconnects and high functionality with heterogeneous integration of materials, devices, and signals. Various 3D technology platforms have been investigated, with different combinations of alternative alignment, bonding, thinning and inter-wafer interconnection technologies. Precise alignment on the wafer level is one of the key challenges affecting the performance of the 3D interconnects. After a brief overview of the wafer-level 3D technology platforms, this paper focuses on wafer-to-wafer alignment fundamentals. Various alignment methods are reviewed. A higher emphasis lies on the analysis of the alignment accuracy. In addition to the alignment accuracy achieved prior to bonding, the impacts of wafer bonding and subsequent wafer thinning will be discussed.

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Fundamental limits for 3D wafer-to-wafer alignment accuracy

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