Overview of High Performance 3D-WLP

Eun-Kyung Kim

Korean Journal of Materials Research, Vol.17, No.7, 347-351, July, 2007

DOI10.3740/MRSK.2007.17.7.347 Export Citation

Overview of High Performance 3D-WLP

Eun-Kyung Kim^†

Department of Nano-IT Engineering, Graduate School of Energy & Environment Seoul National University of Technology, Korea

E-mail:

Vertical interconnect technology called 3D stacking has been a major focus of the next generation of IC industries. 3D stacked devices in the vertical dimension give several important advantages over conventional two-dimensional scaling. The most eminent advantage is its performance improvement. Vertical device stacking enhances a performance such as inter-die bandwidth improvements, RC delay mitigation and geometrical routing and placement advantages. At present memory stacking options are of great interest to many industries and research institutes. However, these options are more focused on a form factor reduction rather than the high performance improvements. In order to improve a stacked device performance significantly vertical interconnect technology with wafer level stacking needs to be much more progressed with reduction in inter-wafer pitch and increases in the number of stacked layers. Even though 3D wafer level stacking technology offers many opportunities both in the short term and long term, the full performance benefits of 3D wafer level stacking require technological developments beyond simply the wafer stacking technology itself.

Keywords:Wafer Level packaging;3D Packaging;Wafer Stacking

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[3] Chen K, Kobrinsky M, Barnett M, Reif R, IEEE Transaction on Electron Devices, Feb, 51(2), 233 (2004)

[4] Morrow P, Kobrinsky M, Harmes M, Park C, Ramanathan S, Ramachandrarao V, Park H, Kloster G, List S, Kim S, Proc. of AMC, 20, 125 (2004)

[5] Balachandran J, Brebels S, Carchon G, Kuijk M, De Raedt W, Nauwelaers B, Beyne E, IEEE VLSI SYstems, 14(6), 654 (2006)

[6] Kim EK, SEMICON Korea 2005, Proc. of SEMI Technical Symposium, p. 291-293, Feb 8-10 (2006) (2006)

[7] Tummaa R, IEEE lCEPT, 30 Aug. - 2 Sept. (2005) P3-7 (2005)

[8] Tummaa R, IEEE lCEPT, 30 Aug. - 2 Sept. (2005) P3-7 (2005)

[9] Pozder S, Lu JQ, Kwon Y, Zollner S, Yu J, McMahon J, Cale RS, Yu K, Gutmann RJ, IEEE, lTC, p. 102-104 (2004) (2004)

[10] Topol AW, Furman BK, Guarini KW, Shi L, Cohen GM, Walker GF, IEEE, ECTC, p. 931-938 (2004) (2004)

[11] Black B, Nelson DW, Webb C, Samra N, Proceedings of the IEEE, ICCD (2004) (2004)

[12] List S, Webb C, Kim S, Proc. of AMC, 18, p. 29-36 Oct (2002) (2002)

[13] Takahashi K, Terao H, Tomita Y, Yamaji Y, Hoshino M, Sato T, Morifuji T, Sunohara M, Bonkohara M, Jpn. J. Appl. Phys., 40, 3032 (2001)

[14] Joyner J, Zarkech-Ha P, Davis J, Meindl J, lTC, Proc of IEEE, p. 126-128 (2000) (2000)

[15] Fan A, Rahman A, Reif R, Electrochemical and Solid State Letters, 2(10), 534 (1999)

[16] Tezzason Semiconductor (http://www.tezzaron.com). 3D IC Industry Summary