zh %E7%BB%97%E7%BC%9D%E5%B0%81%E8%A3%85

絎縫芯粒可以在幾乎任何方向上拼接在一起。

絎縫封装（Quilt Packaging，QP）是一种集成电路封装和芯片间互连的封装技术，利用从微芯片边缘水平延伸的“结节”结构来。 ^[1]^[2]QP使用集成电路侧面突出的导电结节提高速度、降低功耗，实现封装内或多芯片模块上的多个芯片连接在一起，电气和机械上坚固的芯片间互连。絎縫封装由电气工程教授加里·伯恩斯坦（Gary H. Bernstein）领导的圣母大学研究人员团队发明。^[3]

絎縫封装结节使用标准后道半导体器件制造技术创建，作为微芯片的组成部分，将焊料电镀在结节顶部，使芯片间实现亚微米精度互连。^[4]

因此，絎縫封装技术可以在平面、2.5D和3D配置中集成具有不同技术或基板材料的多个芯片。 ^[5]这些结核结构可以用作极宽带宽、低损耗的电气I/O，实现亚微米级的机械芯片间对齐，并提供小至5微米的芯片间隙。^[6]QP可以在各种衬底中实现，包括硅、砷化镓、碳化硅、氮化镓等，制成的小型高产“芯粒”可以“绗缝”在一起，创建更大的多功能元芯片。 ^[7]

特点

與一級晶片封裝的間接連接相比，QP是一種直接的晶片間互連，即“超級連接”，通过絎縫封装连接在一起裸晶结节直接从芯片侧面延伸出来。使用适当的对准夹具，将芯片推在一起并粘合，形成信号路径，在芯片之间传输多达数千个高速信号。在QP 中，晶片透過從晶片邊緣水平突出的金屬結節來連接，以創建超級連接。接合可以通过超声波焊接、激光焊接或锡焊来实现。结节的对准可以通过外部夹具来执行，或者通过自对准结节和芯片结构的其他方法来执行，从而减轻一些精度要求。最终的絎縫可以安装在一个包中或安装在MCM上。这种方法仍然允许使用传统的凸块键合和引线键合，并且实际上对于允许从外部系统到成品絎縫的通信是必要的。^[8]^[9]

射频模拟性能

已在具有同质和异质半导体材料组的绗缝芯片组上进行了QP互连的多次测量插入损耗。射频 S参数测量范围为DC至220 MHz。介于硅和砷化镓之间，已证明从DC到100 GHz，QP互连小于0.1 dB的插入损耗，^[2]且高达220 GHz下有小于0.8 dB的插入损耗。^[10]

数字性能

絎縫封装互连已实现12吉比特/秒（Gbps）的比特率吞吐量，且在10 μm结节和10 μm芯片边缘的间距无失真。 ^[11]

光学/光子学

初步的光耦合损耗模拟和测量表明芯片间耦合损耗<6 dB间隙小于4 μm。当间隙接近零时，损耗迅速改善，这可以通过绗缝封装装配公差来实现。 ^[12] ^[13]

参考

^ Zheng, Quanling; Kopp, David; Khan, Mohammad Ashraf; Fay, Patrick; Kriman, Alfred M.; Bernstein, Gary H. Investigation of Quilt Packaging Interchip Interconnect With Solder Paste. IEEE Transactions on Components, Packaging and Manufacturing Technology. March 2014, 4 (3): 400–407. ISSN 2156-3950. S2CID 36676516. doi:10.1109/tcpmt.2014.2301738.
^ ^2.0 ^2.1 Ashraf Khan, M.; Zheng, Quanling; Kopp, David; Buckhanan, Wayne; Kulick, Jason M.; Fay, Patrick; Kriman, Alfred M.; Bernstein, Gary H. Thermal Cycling Study of Quilt Packaging. Journal of Electronic Packaging. 2015-06-01, 137 (2). ISSN 1043-7398. doi:10.1115/1.4029245.
^ Gilroy, William G. Notre Dame researchers introduce “Quilt Packaging” to address interchip interconnect problem. Notre Dame News. 2006-10-09 [2024-01-26]. （原始内容存档于2024-01-26）（英语）.
^ Ahmed, Tahsin; Butler, Thomas; Khan, Aamir A.; Kulick, Jason M.; Bernstein, Gary H.; Hoffman, Anthony J.; Howard, Scott S. FDTD modeling of chip-to-chip waveguide coupling via optical quilt packaging. Optical System Alignment, Tolerancing, and Verification VII (SPIE). 2013-09-10, 8844: 88440C. Bibcode:2013SPIE.8844E..0CA. S2CID 120463545. doi:10.1117/12.2024088.
^ Sparkman, Kevin; LaVeigne, Joe; McHugh, Steve; Kulick, Jason; Lannon, John; Goodwin, Scott. Scalable emitter array development for infrared scene projector systems. Infrared Imaging Systems: Design, Analysis, Modeling, and Testing XXV (SPIE). 2014-05-29, 9071: 90711I. Bibcode:2014SPIE.9071E..1IS. S2CID 53508849. doi:10.1117/12.2054360.
^ Quilt Packaging Concept | Indiana Integrated Circuits. [2024-01-26]. （原始内容存档于2024-01-26）（美国英语）.
^ Khan, M. Ashraf; Kulick, Jason M.; Kriman, Alfred M.; Bernstein, Gary H. Design and Robustness of Quilt Packaging Superconnect. International Symposium on Microelectronics. January 2012, 2012 (1): 000524–000530. ISSN 2380-4505. doi:10.4071/isom-2012-poster_khan.
^ Bernstein, G.H.; Qing Liu; Zhuowen Sun; Fay, P. Quilt Packaging: A New Paradigm for Interchip Communication 1. IEEE. 2005 [2024-01-26]. ISBN 978-0-7803-9578-7. doi:10.1109/EPTC.2005.1614357. （原始内容存档于2018-06-19）.
^ Ashraf Khan, M.; Zheng, Quanling; Kopp, David; Buckhanan, Wayne; Kulick, Jason M.; Fay, Patrick; Kriman, Alfred M.; Bernstein, Gary H. Thermal Cycling Study of Quilt Packaging. Journal of Electronic Packaging. 2015-06-01, 137 (2). ISSN 1043-7398. doi:10.1115/1.4029245.
^ Fay, Patrick; Bernstein, Gary H.; Lu, Tian; Kulick, Jason M. Ultra-wide Bandwidth Inter-Chip Interconnects for Heterogeneous Millimeter-Wave and THz Circuits. Journal of Infrared, Millimeter, and Terahertz Waves. 2016-04-29, 37 (9): 874–880. Bibcode:2016JIMTW..37..874F. ISSN 1866-6892. doi:10.1007/s10762-016-0278-5 .
^ Lu, Tian; Ortega, Carlos; Kulick, Jason; Bernstein, G. H.; Ardisson, Scott; Engelhardt, Rob. Rapid SoC prototyping utilizing quilt packaging technology for modular functional IC partitioning. New York, New York, USA: ACM Press. 2016: 79–85. ISBN 978-1-4503-4535-4. doi:10.1145/2990299.2990313.
^ Ahmed, Tahsin; Khan, Aamir A.; Vigil, Genevieve; Kulick, Jason M.; Bernstein, Gary H.; Hoffman, Anthony J.; Howard, Scott S. Optical Quilt Packaging: A New Chip-to-Chip Optical Coupling and Alignment Process for Modular Sensors. Cleo: 2014 (Washington, D.C.: OSA). 2014: JTu4A.56. ISBN 978-1-55752-999-2. S2CID 14432676. doi:10.1364/cleo_at.2014.jtu4a.56.
^ Ahmed, Tahsin; Lu, Tian; Butler, Thomas P.; Kulick, Jason M.; Bernstein, Gary H.; Hoffman, Anthony J.; Hall, Douglas C.; Howard, Scott S. Mid-Infrared Waveguide Array Inter-Chip Coupling Using Optical Quilt Packaging. IEEE Photonics Technology Letters. 2017-05-01, 29 (9): 755–758. Bibcode:2017IPTL...29..755A. ISSN 1041-1135. S2CID 7455544. doi:10.1109/lpt.2017.2684091.

[1] Zheng, Quanling; Kopp, David; Khan, Mohammad Ashraf; Fay, Patrick; Kriman, Alfred M.; Bernstein, Gary H. Investigation of Quilt Packaging Interchip Interconnect With Solder Paste. IEEE Transactions on Components, Packaging and Manufacturing Technology. March 2014, 4 (3): 400–407. ISSN 2156-3950. S2CID 36676516. doi:10.1109/tcpmt.2014.2301738.

[:0-2] 2.0 ^2.1 Ashraf Khan, M.; Zheng, Quanling; Kopp, David; Buckhanan, Wayne; Kulick, Jason M.; Fay, Patrick; Kriman, Alfred M.; Bernstein, Gary H. Thermal Cycling Study of Quilt Packaging. Journal of Electronic Packaging. 2015-06-01, 137 (2). ISSN 1043-7398. doi:10.1115/1.4029245.

[3] Gilroy, William G. Notre Dame researchers introduce “Quilt Packaging” to address interchip interconnect problem. Notre Dame News. 2006-10-09 [2024-01-26]. （原始内容存档于2024-01-26）（英语）.

[4] Ahmed, Tahsin; Butler, Thomas; Khan, Aamir A.; Kulick, Jason M.; Bernstein, Gary H.; Hoffman, Anthony J.; Howard, Scott S. FDTD modeling of chip-to-chip waveguide coupling via optical quilt packaging. Optical System Alignment, Tolerancing, and Verification VII (SPIE). 2013-09-10, 8844: 88440C. Bibcode:2013SPIE.8844E..0CA. S2CID 120463545. doi:10.1117/12.2024088.

[5] Sparkman, Kevin; LaVeigne, Joe; McHugh, Steve; Kulick, Jason; Lannon, John; Goodwin, Scott. Scalable emitter array development for infrared scene projector systems. Infrared Imaging Systems: Design, Analysis, Modeling, and Testing XXV (SPIE). 2014-05-29, 9071: 90711I. Bibcode:2014SPIE.9071E..1IS. S2CID 53508849. doi:10.1117/12.2054360.

[6] Quilt Packaging Concept | Indiana Integrated Circuits. [2024-01-26]. （原始内容存档于2024-01-26）（美国英语）.

[7] Khan, M. Ashraf; Kulick, Jason M.; Kriman, Alfred M.; Bernstein, Gary H. Design and Robustness of Quilt Packaging Superconnect. International Symposium on Microelectronics. January 2012, 2012 (1): 000524–000530. ISSN 2380-4505. doi:10.4071/isom-2012-poster_khan.

[8] Bernstein, G.H.; Qing Liu; Zhuowen Sun; Fay, P. Quilt Packaging: A New Paradigm for Interchip Communication 1. IEEE. 2005 [2024-01-26]. ISBN 978-0-7803-9578-7. doi:10.1109/EPTC.2005.1614357. （原始内容存档于2018-06-19）.

[9] Ashraf Khan, M.; Zheng, Quanling; Kopp, David; Buckhanan, Wayne; Kulick, Jason M.; Fay, Patrick; Kriman, Alfred M.; Bernstein, Gary H. Thermal Cycling Study of Quilt Packaging. Journal of Electronic Packaging. 2015-06-01, 137 (2). ISSN 1043-7398. doi:10.1115/1.4029245.

[10] Fay, Patrick; Bernstein, Gary H.; Lu, Tian; Kulick, Jason M. Ultra-wide Bandwidth Inter-Chip Interconnects for Heterogeneous Millimeter-Wave and THz Circuits. Journal of Infrared, Millimeter, and Terahertz Waves. 2016-04-29, 37 (9): 874–880. Bibcode:2016JIMTW..37..874F. ISSN 1866-6892. doi:10.1007/s10762-016-0278-5 .

[11] Lu, Tian; Ortega, Carlos; Kulick, Jason; Bernstein, G. H.; Ardisson, Scott; Engelhardt, Rob. Rapid SoC prototyping utilizing quilt packaging technology for modular functional IC partitioning. New York, New York, USA: ACM Press. 2016: 79–85. ISBN 978-1-4503-4535-4. doi:10.1145/2990299.2990313.

[12] Ahmed, Tahsin; Khan, Aamir A.; Vigil, Genevieve; Kulick, Jason M.; Bernstein, Gary H.; Hoffman, Anthony J.; Howard, Scott S. Optical Quilt Packaging: A New Chip-to-Chip Optical Coupling and Alignment Process for Modular Sensors. Cleo: 2014 (Washington, D.C.: OSA). 2014: JTu4A.56. ISBN 978-1-55752-999-2. S2CID 14432676. doi:10.1364/cleo_at.2014.jtu4a.56.

[13] Ahmed, Tahsin; Lu, Tian; Butler, Thomas P.; Kulick, Jason M.; Bernstein, Gary H.; Hoffman, Anthony J.; Hall, Douglas C.; Howard, Scott S. Mid-Infrared Waveguide Array Inter-Chip Coupling Using Optical Quilt Packaging. IEEE Photonics Technology Letters. 2017-05-01, 29 (9): 755–758. Bibcode:2017IPTL...29..755A. ISSN 1041-1135. S2CID 7455544. doi:10.1109/lpt.2017.2684091.

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