Consortial Approach to Electronics...
Transcript of Consortial Approach to Electronics...
Consortial Approach to
Advance Electronics Packaging
Bob Pfahl, iNEMI
October 21, 2011
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Agenda
• Background
• Early Consortial Activities
• 2009 iNEMI and ITRS Packaging Roadmap
• Current iNEMI Consortial Research Activities
• Guidelines for Successful Consortial Projects
• Summary & Conclusions
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Background
1950-1985
• Each Major Firm Developed their Own Complete Supply Chain
• Beam Leads and Gold Wire Bonding
• C3 Flip Chip Technology
• Tab Bonding
1950-85 Vertically Integrated Firms
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Early Consortial Activities
1985-2009
• Matsushita recognized the potential of Tab Technology and made the
technology public
• 1983-1986
• Key step for industry adoption was developing reliability data
• Consortial activity at Sematech spurred the development of area array
packages
• 1994-1998
• SIA Roadmap (now ITRS) identified need in 1994
• iNEMI Developed low cost, high volume packaging technology for
handheld devices
• 1996-1999
• Needs were defined in the 1994 and 1996 iNEMI Roadmaps
• HDI project worked with board vendors to develop, qualify, and
confirm reliability
• Flip Chip project developed assembly processes and verified
reliability
• 2007 iNEMI Roadmap a Gap in Packaging Technology for SiP Packages
• Not enough OEM interest for a Consortial Approach
1985-2009 Early Consortial Activities
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2009 iNEMI and ITRS Packaging
Roadmap
2009
2009-iNEMI and ITRS Packaging Roadmaps
• Recognized the More than Moore Model
• Acknowledged that System on Chip (SOC) and System
in Package (SIP) would continue into the future
• Recognized that functions would migrate from SIP to
SOC
• Identified that there were a number of technologies used
for SIP which had potentially different failure modes
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Moore’s Law and More
2009- iNEMI
• Leading iNEMI firms identified that there was a need for a
consortial effort to develop system approaches to electronic
packaging for the next generation of SIP, SOC, TSV, and 3D
Packaging
• Optimizing at each level of supply chain would not
achieve the desired technology
• Cisco, TI, and Intel identified an impending technology gap in
organic substrates for advanced packages which would
impact the entire supply chain.
• Leadership Team Planned a 1 ½ day workshop to address
this need.
• Workshop was held in Nagoya Japan in November 2009
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Organic Packaging Substrate Workshop
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Speakers and Companies– Jie Xue Cisco
– Hamid Azimi Intel
– Hirofumi Nakajima NEC
– Luis Rivera TI
– Bernd Appelt ASE
– JaeYoon Kim Amkor
– Kenny Lee STATS ChipPAC
– Masaru Takada Ibiden
– Koichi Nonomura Kyocera
– Kozo Yamasaki NTK
– Steve Yang NanYa
– Richard Sheridan UMTC
Represented Countries
– USA, Japan, Taiwan, Korea, Singapore, Europe, and China
Work Shop Objectives
• Main Objectives:
– Identify gaps in organic substrate technology that
need to be addressed to facilitate the continued
advancement of electronics packaging.
– Identify issues and needs that are potentially best
solved by consortium activities.
– Set the priorities and direction for future collaborative
efforts on organic packaging substrates.
– Form action groups to execute the required industrial
collaborative programs.
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Packaging Assembly
Companies
SubstrateProviders
OEMs and IC
Companies
Organic Substrate
Technology Gaps
and Roadmap
R&D Pre-Competitive Collaboration Model
Collaboration
iNEMI Provides the Opportunity for
International Consortial Collaboration12
Key Themes and Focus
• Three key themes were identified as a means to guide
speakers in preparing their presentations.
– Aligning Substrate Roadmaps and Bridging Gaps
– Standardized Evaluation of Key Substrate
Performance Outputs and Reliability
– Priorities for Consortial Activities
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Current iNEMI Consortial Research Activities
2009-2011
2010-2011 Current Activities
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• Copper Wire Bonding Reliability, Phase 2
• Package Warpage Qualification Criteria
• Primary Factors in Component Warpage
• Wiring Density for Organic Packaging
Substrates
Copper Wire Bonding
Reliability Project
Project Leaders
Chair:
Peng Su,
Cisco Systems
Strategy Issues Graphics
Project Lead:
Project Co-Lead:
Tactics Milestones and/or Deliverables Plan Actual
Focus Area:
Nov-11TIG:
Goal:Understand key issues and concerns regarding reliability of fine-pitch Cu wire bonding for semiconductors.
• 2-phased project. The first phase will focus on collecting information from the industry regarding the key processing and reliability issues pertaining to Cu wire bonding. The second phase of the project will perform necessary experimental work in the areas defined by Phase 1.
• Copper bond wires are
increasingly being used for a wide
variety of components.
• Reliability needs to be collectively
assessed by the industry in a
quantitative manner.
• Standard reliability test methods
and durations for Au wire device
may not be sufficient for Cu.Peng Su, Cisco Systems, inc.
TBD
Phase 1• 1. Industry Survey• 2. Existing Data Review• 3. DOE Plan for Phase 2Phase 2• 1. Finalize DOE• 2. Procure Materials• 3. Package Assembly• 4. Reliability Tests• 5. Failure Analysis• 6. Summary
Miniaturization
Packaging
Copper Wire Bonding Reliability Project
Initiative Launch Date
Project Inauguration - Two PS Signers
Conduct survey, analyze inputs
Plan DoE for phase 2
Phase 2 open for sign up Sep-11
Mar-11 Dec-10
Jan-11Nov-10
Sep-10Sep-10
Mar-10Mar-10
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More information at: http://www.inemi.org/project-page/copper-wire-bonding-reliability
Cu Wire Bonding Reliability
Project Members Phase 1
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Wiring Density for Organic Packaging
Substrates –Phase 1
Project Chair:Luis Rivera, Texas
Instruments;Co-Chair:
Islam Salama, Intel
Strategy Issues Graphics
Project Lead:
Project Co-Lead:
Tactics Milestones and/or Deliverables Plan Actual
Thrust Area:
7 April
2011TIG:
Goal:Identify approaches that will meet wiring density needs for future generations of semiconductor packaging.
• Develop a wiring density roadmap applicable to multiple substrate technology spaces, able to accommodate future developments & advances, and inclusive of a variety of plated finishes and interconnect requirements
• The major goal of this phase is to get industry feedback (using a survey) on which substrate design features should be included in a roadmap that will accurately represent future wiring density needs from the perspective of Material Set, Low Cost Litho/Laser, Plating and Inspection/Test.
• Having a good technology roadmap is a gating item to moving forward.
• Initially take the ITRS Roadmap and overlay the HVM information.
• Clearly define what HVM is, e.g., 10M, 100M, etc.
• Try to capture what the design rules are for the majority of their volume.
• Identify where the edges are? Luis Rivera, Texas Instruments
Islam Salama, Intel
• Phase 1
– Plan the survey
– Prepare logistics of survey
– Conduct survey
– Collect and analyze results
• Prepare project plan for Phase 2
Miniaturization
Organic Pack. Substrates
Wiring Density for Organic Packaging
Substrates – Phase 1
Initiative Launch Date
Develop survey questions
Deploy Survey
Collect and analyze survey responses
Project Final Report 3Q-11
2Q-11
2Q-11
1Q-11
1Q-111Q-11
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Substrates Technology
Roadmap Tracking
• What we know how to do?
• What we think can be done?
• What we have no clue on what or how to do?
• What is claimed?
• Critical review of claims
• What gaps exists?
Guidelines for Successful Consortia
Projects
Guidelines for Successful Consortial Projects
• Involvement of major volume players in the supply
chain, particularly the OEM
– Work on those non-proprietary issues that accelerate
the adoption of new technology.
– Today iNEMI has five major OEMs and three major
packaging houses heavily engaged in leading these
packaging activities.
• The primary foci of the activities are:
– To verifying process/materials reliabilities of new
solutions
– To develop standards
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BoD: Byung Joon Han – STATS ChipPAC
Co-Chairs: Hamid Azimi – Intel; Jie Xue – Cisco
Leader: Bob Pfahl – iNEMI
John Savic – Cisco
Mahadevan Iyer– Texas Instruments
Charan Gurumurthy – Intel
Jim Wilcox, IBM
Sheldon Schwandt & Willie Henderson, RIM
Bernd Appelt – ASE
Lee Smith – Amkor
IBIDEN
NTK
Rolf Aschenbrenner, Fraunhofer IZM
Eric Beyne, imec
iNEMI Packaging Leadership Steering Committee
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Summary & Conclusions
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The 2009 workshop and subsequent meetings of the
iNEMI Miniaturization Leadership Steering Committee
have identified areas best addressed by consortial efforts
and those areas best left for individual firms or teams to
develop.
Major packaging firms have declared that they will
address the implementation of the new technology.
The OEMs have agreed to define common technology
needs.
Summary
Conclusions
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The goal of the iNEMI packaging effort is to speed the
introduction of new packaging technology to meet the
performance needs and the cost objectives of the
electronics industry: a win-win for all participants.
The paradigm shift to a multi-firm collaborative system
will increase the performance and reduce the risk of
introducing new technology.
This effort is critical for the growth of our industry.
We welcome global participation in all projects
Overview of Following Presentations
• Thermal Cycle Testing and Alloy Test Standards
Development – iNEMI Pb-Free Alloy Characterization
Program Update, Sze Pei Lim, Indium Corporation
• Investigation of Factors That Influence Creep Corrosion,
Cherie Chen, IST
• Technology Needs to Meet Increasing Wiring Density
Requirements, Mostafa Aghazadeh, Intel Corporation
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