An advanced multichip module (MCM) for high-performance UNIX servers

In 2001, IBM delivered to the marketplace a high-performance UNIX?®-class eServer based on a four-chip multichip module (MCM) code named Regatta. This MCM supports four POWER4 chips, each with 170 million transistors, which utilize the IBM advanced copper back-end interconnect technology. Each chip is attached to the MCM through 7018 flip-chip solder connections. The MCM, fabricated using the IBM high-performance glass-ceramic technology, features 1.7 million internal copper vias and high-density top-surface contact pad arrays with 100-?µm pads on 200-?µm centers. Interconnections between chips on the MCM and interconnections to the board for power distribution and MCM-to-MCM communication are provided by 190 meters of co-sintered copper wiring. Additionally, the 5100 off-module connections on the bottom side of the MCM are fabricated at a 1-mm pitch and connected to the board through the use of a novel land grid array technology, thus enabling a compact 85-mm ?? 85-mm module footprint that enables 8- to 32-way systems with processors operating at 1.1 GHz or 1.3 GHz. The MCM also incorporates advanced thermal solutions that enable 156 W of cooling per chip. This paper presents a detailed overview of the fabrication, assembly, testing, and reliability qualification of this advanced MCM technology.

[1]  J. Knott Mechanics of Fracture , 1983 .

[2]  Michael A. Gaynes,et al.  Underfill: The Enabling Technology for Flip-Chip Packaging , 2001 .

[3]  Rao R. Tummala,et al.  High-performance glass-ceramic/copper multilayer substrate with thin-film redistribution , 1992, IBM J. Res. Dev..

[4]  Karl J. Puttlitz,et al.  Flip-Chip Die Attach Technology , 2001 .

[5]  Sudipta K. Ray,et al.  Flip-chip interconnection technology for advanced thermal conduction modules , 1991, 1991 Proceedings 41st Electronic Components & Technology Conference.

[6]  Kathleen A. Stalter,et al.  Low-cost, high reliability flip-chip removal for multi-chip modules , 1999, 1999 Proceedings. 49th Electronic Components and Technology Conference (Cat. No.99CH36299).

[7]  Herbert I. Stoller,et al.  First level package design considerations for the IBM's S/390 G5 server , 1998, IEEE 7th Topical Meeting on Electrical Performance of Electronic Packaging (Cat. No.98TH8370).

[8]  Karl J. Puttlitz,et al.  Product Connector Technology , 2001 .

[9]  P. J. Brofman,et al.  Electrical connections to the thermal conduction modules of the IBM Enterprise System/9000 water-cooled processors , 1992, IBM J. Res. Dev..

[10]  Thomas A. Wassick,et al.  A high density, high performance MCM-D/C package: a design, electrical, and process perspective , 1996, 1996 Proceedings 46th Electronic Components and Technology Conference.

[11]  Anand Haridass,et al.  High bandwidth low latency chip to chip interconnects using high performance MLC glass ceramic POWER4/sup R/ MCM , 2001, IEEE 10th Topical Meeting on Electrical Performance of Electronic Packaging (Cat. No. 01TH8565).

[12]  Balaram Sinharoy,et al.  POWER4 system microarchitecture , 2002, IBM J. Res. Dev..

[13]  J. E. Ritter,et al.  Static and dynamic fatigue of polycrystalline alumina , 1979 .

[14]  Konstantinos I. Papathomas,et al.  Encapsulant for fatigue life enhancement of controlled-collapse chip connection (C4) , 1993 .

[15]  Herbert I. Stoller,et al.  MCM-C/D design for the CMOS implementation of the S/390 system , 1997, 1997 Proceedings 47th Electronic Components and Technology Conference.