Quilt Packaging: High-Density, High-Speed Interchip Communications

Author

Bernstein, Gary H. ; Liu, Qing ; Yan, Minjun ; Sun, Zhuowen ; Kopp, David ; Porod, Wolfgang ; Snider, Greg ; Fay, Patrick

Author_Institution

Notre Dame Univ., Notre Dame

Volume

30

Issue

4

fYear

2007

Firstpage

731

Lastpage

740

Abstract

ldquoQuilt packagingrdquo (QP), a new superconnect paradigm for interchip communication, is presented. QP uses conducting nodules that protrude from the vertical facets of integrated circuits to effect a dense, fast, and reduced-power method of interfacing multiple die together within a package or on a multichip module. The concept of QP is presented along with a discussion of advantages over traditional system-on-chip and other system-in-package technologies. A process flow and results of chip fabrication are detailed. Simulations show expected signal propagation between adjacent die of greater than 200 GHz, and measurements of interconnected chips confirming low losses and resonance-free operation to at least 40 GHz have been achieved.

Keywords

integrated circuit interconnections; multichip modules; system-in-package; system-on-chip; high-speed interchip communications; integrated circuits; multichip module; quilt packaging; signal propagation; system-in-package technologies; system-on-chip technologies; Bonding; chemical-mechanical polishing (CMP); chip-to-chip interconnection; copper plating; deep reactive ion etching (DRIE); multichip module (MCM); packaging; superconnect; system-in-package (SiP); system-on-chip (SoC); wafer-scale-integration (WSI);

fLanguage

English

Journal_Title

Advanced Packaging, IEEE Transactions on

Publisher

ieee

ISSN

1521-3323

Type

jour

DOI

10.1109/TADVP.2007.901643

Filename

4358040