The continued progress of micro-electronics often requires functionality that is spread across multiple chips. This need has led to the development of a variety of alternative chip-packaging technologies that offer increased speed and bandwidth, with lower losses, in an increasing number of interchip interconnects. One recent alternative is quilt packaging® (QP), which has already shown promise from a performance perspective. The geometry of QP is essentially lateral: large numbers of ultrawide-bandwidth interchip interconnects (superconnects) are made directly by nodules fabricated along the edges of adjacent chips. Metallurgical bonding of the nodules creates a system in the form of a “quilt” of separately manufactured chips. This new interconnect geometry is subject to stresses that are different from more conventional schemes. For example, the thermal stress that causes fatigue and lead to failure in ball grid arrays is essentially shear stress, whereas the most critical stresses in QP are tensile and compressive. This paper describes studies of fatigue failure in QP, with attention to critical high-stress regions previously identified by finite-element modeling. Nodules were fabricated on silicon chips, and both single and quilted chips were thermally cycled up to 1000 times over a range of − 55 °C to 125 °C. Scanning electron microscopy (SEM) was used to detect mechanical failure. Focused-ion-beam cross-sectioning was used to expose the critical interior interfaces of QP structures for SEM examination. QP superconnects were found to be robust under all the test conditions evaluated.
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June 2015
Research-Article
Thermal Cycling Study of Quilt Packaging
M. Ashraf Khan,
M. Ashraf Khan
Visiting Assistant Professor
Electrical and Computer Engineering Department,
e-mail: mkhan3@alumni.nd.edu
Electrical and Computer Engineering Department,
Jackson State University
,Jackson, MS 39217
e-mail: mkhan3@alumni.nd.edu
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Quanling Zheng,
Quanling Zheng
Department of Electrical Engineering,
e-mail: qzheng@nd.edu
University of Notre Dame
,Notre Dame, IN 46556
e-mail: qzheng@nd.edu
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David Kopp,
David Kopp
Department of Electrical Engineering,
e-mail: kopp.dave@gmail.com
University of Notre Dame
,Notre Dame, IN 46556
e-mail: kopp.dave@gmail.com
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Wayne Buckhanan,
Wayne Buckhanan
Assistant Professor
Department of Computer Science,
e-mail: waynebuckhanan@alumni.nd.edu
Department of Computer Science,
Pacific Union College
,One Angwin Avenue
,Angwin, CA 94508
e-mail: waynebuckhanan@alumni.nd.edu
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Patrick Fay,
Patrick Fay
Professor
Department of Electrical Engineering,
e-mail: pfay@nd.edu
Department of Electrical Engineering,
University of Notre Dame
,Notre Dame, IN 46556
e-mail: pfay@nd.edu
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Alfred M. Kriman,
Alfred M. Kriman
Visiting Professor
Department of Electrical Engineering,
e-mail: alfred.m.kriman.1@nd.edu
Department of Electrical Engineering,
University of Notre Dame
,Notre Dame, IN 46556
e-mail: alfred.m.kriman.1@nd.edu
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Gary H. Bernstein
Gary H. Bernstein
1
Frank M. Freimann Professor
of Electrical Engineering
Department of Electrical Engineering,
e-mail: bernstein.1@nd.edu
of Electrical Engineering
Department of Electrical Engineering,
University of Notre Dame
,Notre Dame, IN 46556
e-mail: bernstein.1@nd.edu
1Corresponding author.
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M. Ashraf Khan
Visiting Assistant Professor
Electrical and Computer Engineering Department,
e-mail: mkhan3@alumni.nd.edu
Electrical and Computer Engineering Department,
Jackson State University
,Jackson, MS 39217
e-mail: mkhan3@alumni.nd.edu
Quanling Zheng
Department of Electrical Engineering,
e-mail: qzheng@nd.edu
University of Notre Dame
,Notre Dame, IN 46556
e-mail: qzheng@nd.edu
David Kopp
Department of Electrical Engineering,
e-mail: kopp.dave@gmail.com
University of Notre Dame
,Notre Dame, IN 46556
e-mail: kopp.dave@gmail.com
Wayne Buckhanan
Assistant Professor
Department of Computer Science,
e-mail: waynebuckhanan@alumni.nd.edu
Department of Computer Science,
Pacific Union College
,One Angwin Avenue
,Angwin, CA 94508
e-mail: waynebuckhanan@alumni.nd.edu
Jason M. Kulick
Patrick Fay
Professor
Department of Electrical Engineering,
e-mail: pfay@nd.edu
Department of Electrical Engineering,
University of Notre Dame
,Notre Dame, IN 46556
e-mail: pfay@nd.edu
Alfred M. Kriman
Visiting Professor
Department of Electrical Engineering,
e-mail: alfred.m.kriman.1@nd.edu
Department of Electrical Engineering,
University of Notre Dame
,Notre Dame, IN 46556
e-mail: alfred.m.kriman.1@nd.edu
Gary H. Bernstein
Frank M. Freimann Professor
of Electrical Engineering
Department of Electrical Engineering,
e-mail: bernstein.1@nd.edu
of Electrical Engineering
Department of Electrical Engineering,
University of Notre Dame
,Notre Dame, IN 46556
e-mail: bernstein.1@nd.edu
1Corresponding author.
Contributed by the Electronic and Photonic Packaging Division of ASME for publication in the JOURNAL OF ELECTRONIC PACKAGING. Manuscript received May 30, 2014; final manuscript received November 23, 2014; published online January 19, 2015. Assoc. Editor: Yi-Shao Lai.
J. Electron. Packag. Jun 2015, 137(2): 021008 (7 pages)
Published Online: June 1, 2015
Article history
Received:
May 30, 2014
Revision Received:
November 23, 2014
Online:
January 19, 2015
Citation
Ashraf Khan, M., Zheng, Q., Kopp, D., Buckhanan, W., Kulick, J. M., Fay, P., Kriman, A. M., and Bernstein, G. H. (June 1, 2015). "Thermal Cycling Study of Quilt Packaging." ASME. J. Electron. Packag. June 2015; 137(2): 021008. https://doi.org/10.1115/1.4029245
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