Bump-less interconnect for next generation system packaging

被引:30
|
作者
Suga, T [1 ]
Otsuka, K [1 ]
机构
[1] Univ Tokyo, Res Ctr Sci & Technol, Tokyo 1538904, Japan
来源
51ST ELECTRONIC COMPONENTS & TECHNOLOGY CONFERENCE | 2001年
关键词
D O I
10.1109/ECTC.2001.927933
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
A concept of bump-less interconnect for the next generation system packaging was proposed [1]. Here the bump-less interconnect is defined as an interconnect of a size below 10 mum pitch between chip and substrate, or between chip and chip. Such ultra-fine pitch interconnection will be necessary to realize high speed systems such as chip on chip or 3-D configuration for highly integrated multi-chip system in packaging. Two requirements are considered: Firstly, a transmission structure called stacked-pair line will be adopted in the bus-line in boards, and secondly, the surface activated bonding, SAB, is used to enable such ultra-high dense interconnection. A model, which is called IMSI-model 2000, is presented as an example of high speed CPU-memory.
引用
收藏
页码:1003 / 1008
页数:6
相关论文
共 50 条
  • [31] Optical interconnect cabling for next generation central office switching
    Register, J
    Easton, M
    FIBER AND INTEGRATED OPTICS, 2002, 21 (04) : 295 - 305
  • [32] High Speed Interconnect Crosstalk Characterization For Next Generation Servers
    Vasa, Mallikarjun
    Mutnury, Bhyrav
    Kumar, Vijender
    Anand, Gowri
    Kumar, Sanjay
    2016 14TH INTERNATIONAL CONFERENCE ON ELECTROMAGNETIC INTERFERENCE & COMPATIBILITY (INCEMIC-2016), 2016,
  • [33] Tungsten as an Interconnect Material for Next-Generation IC Design
    Ganesh, Krishna
    Gaidhane, Vilas H.
    2020 IEEE INTERNATIONAL IOT, ELECTRONICS AND MECHATRONICS CONFERENCE (IEMTRONICS 2020), 2020, : 443 - 448
  • [34] Low Temperature Bump-less Cu-Cu Bonding Enhancement with Self Assembled Monolayer (SAM) Passivation for 3-D Integration
    Lim, Dau Fatt
    Wei, Jun
    Chee Mang Ng
    Tan, Chuan Seng
    2010 PROCEEDINGS 60TH ELECTRONIC COMPONENTS AND TECHNOLOGY CONFERENCE (ECTC), 2010, : 1364 - 1369
  • [35] Fiber optic interconnect and optoelectronic packaging challenges for future generation avionics
    Beranek, Mark W.
    PHOTONICS PACKAGING, INTEGRATION, AND INTERCONNECTS VII, 2007, 6478
  • [36] Signal Integrity of Bump-less High-speed Through Silicon Via Channel for Terabyte/s Bandwidth 2.5D IC
    Lee, Hyunsuk
    Kim, Heegon
    Choi, Sumin
    Lim, Jaemin
    Cho, Kyungjun
    Jeon, Yeseul
    Kim, Joungho
    2016 IEEE 66TH ELECTRONIC COMPONENTS AND TECHNOLOGY CONFERENCE (ECTC), 2016, : 2519 - 2522
  • [37] Next generation of electronic packaging education at Georgia Tech Packaging Research Center
    Tummala, R
    47TH ELECTRONIC COMPONENTS & TECHNOLOGY CONFERENCE, 1997 PROCEEDINGS, 1997, : 960 - 963
  • [38] Advanced Insulation Materials for Next Generation Packaging Technology
    Tatsumi, Shiro
    2022 IEEE CPMT SYMPOSIUM JAPAN (ICSJ), 2022,
  • [39] Next generation packaging technology for high performance ASICs
    Brillhart, M
    Xue, H
    PROCEEDINGS OF THE SIXTH IEEE CPMT CONFERENCE ON HIGH DENSITY MICROSYSTEM DESIGN AND PACKAGING AND COMPONENT FAILURE ANALYSIS (HDP'04), 2004, : 18 - 20
  • [40] Next Generation Computing Systems with Heterogeneous Packaging Integration
    Knickerbocker, John U.
    2017 5TH INTERNATIONAL WORKSHOP ON LOW TEMPERATURE BONDING FOR 3D INTEGRATION (LTB-3D), 2017, : 45 - 45
12345