Analysis and Modeling of DC Current Crowding for TSV-Based 3-D Connections and Power Integrity

3-D integration using through-silicon-vias (TSVs) is emerging as one of the key technology options for continued miniaturization. However, because of increased device and current density, the reliability of the 3-D power grid and its integrity must be studied and analyzed. Due to the geometry of TSVs and connections to the global power grid, significant current crowding can occur. Current densities at these connections can be much higher than the expected average values, so extra care is required for accurate analysis. In prior work, TSVs are modeled as single resistors along with power grid wire segments. Such models do not capture detailed current density distribution and may miss hotspots associated with current crowding. This paper studies current crowding and its impact on 3-D power grid integrity. First, we explore the current density distribution within a TSV and its connections to the global chip power grid. Second, we implement simple TSV models to obtain current density distributions within a TSV and its local environment. These models are checked for accuracy by comparing with models simulated using finite element modeling methods. Finally, the simple TSV models are integrated with the global power grid for detailed chip-scale power analysis.

[1]  Sung Kyu Lim,et al.  Distributed TSV Topology for 3-D Power-Supply Networks , 2012, IEEE Transactions on Very Large Scale Integration (VLSI) Systems.

[2]  A. Krishnamoorthy,et al.  Current crowding effect on copper dual damascene via bottom failure for ULSI applications , 2005, IEEE Transactions on Device and Materials Reliability.

[3]  Cher Ming Tan,et al.  Electromigration performance of Through Silicon Via (TSV) - A modeling approach , 2010, Microelectron. Reliab..

[4]  Jiwoo Pak,et al.  Modeling of electromigration in through-silicon-via based 3D IC , 2011, 2011 IEEE 61st Electronic Components and Technology Conference (ECTC).

[5]  Gang Huang,et al.  Power Delivery for 3-D Chip Stacks: Physical Modeling and Design Implication , 2012, IEEE Transactions on Components, Packaging and Manufacturing Technology.

[6]  S. Karmalkar,et al.  Compact Models of Spreading Resistances for Electrical/Thermal Design of Devices and ICs , 2007, IEEE Transactions on Electron Devices.

[7]  Sani R. Nassif,et al.  Fast power grid simulation , 2000, Proceedings 37th Design Automation Conference.

[8]  Sung Kyu Lim,et al.  A study of IR-drop noise issues in 3D ICs with through-silicon-vias , 2010, 2010 IEEE International 3D Systems Integration Conference (3DIC).

[9]  Yi-Shao Lai,et al.  Electromigration in flip chip solder joints under extra high current density , 2010 .

[10]  Evan G. Colgan,et al.  Solutions to current crowding in circular vias for contact resistance measurements , 1991 .

[11]  Jaume Abella,et al.  Electromigration for microarchitects , 2010, CSUR.

[12]  A. Jourdain,et al.  Cu to Cu interconnect using 3D-TSV and wafer to wafer thermocompression bonding , 2010, 2010 IEEE International Interconnect Technology Conference.

[13]  Gang Huang,et al.  Power Delivery for 3D Chip Stacks: Physical Modeling and Design Implication , 2007, 2007 IEEE Electrical Performance of Electronic Packaging.

[14]  Soha Hassoun,et al.  Power Delivery Design for 3-D ICs Using Different Through-Silicon Via (TSV) Technologies , 2011, IEEE Transactions on Very Large Scale Integration (VLSI) Systems.

[15]  J. Black,et al.  Electromigration—A brief survey and some recent results , 1969 .

[16]  L. Arnaud,et al.  Resistance increase due to electromigration induced depletion under TSV , 2011, 2011 International Reliability Physics Symposium.

[17]  Xiaoming Chen,et al.  Reliability aware through silicon via planning for 3D stacked ICs , 2009, 2009 Design, Automation & Test in Europe Conference & Exhibition.

[18]  K. Tu Recent advances on electromigration in very-large-scale-integration of interconnects , 2003 .

[19]  King-Ning Tu,et al.  Effect of current crowding on void propagation at the interface between intermetallic compound and solder in flip chip solder joints , 2006 .

[20]  Sung Kyu Lim,et al.  A study of TSV variation impact on power supply noise , 2011, 2011 IEEE International Interconnect Technology Conference.

[21]  K. Tu Recent advances on electromigration in very-large-scale-integration of interconnects , 2003 .