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Research in IC Packaging Electrical and Physical Perspectives

Research in IC Packaging Electrical and Physical Perspectives. Chung-Kuan Cheng CSE Department UC San Diego La Jolla, CA 92093-0404 ckcheng@ucsd.edu. Outline. Short Biography Research Direction Challenges in IC Packaging Potential Areas for Co-operation Conclusion. Short Biography.

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Research in IC Packaging Electrical and Physical Perspectives

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  1. Research in IC PackagingElectrical and Physical Perspectives Chung-Kuan Cheng CSE Department UC San Diego La Jolla, CA 92093-0404 ckcheng@ucsd.edu

  2. Outline • Short Biography • Research Direction • Challenges in IC Packaging • Potential Areas for Co-operation • Conclusion

  3. Short Biography • Ph.D., UC Berkeley,1984 • Senior CAD Engineer, AMD, 1984-1986 • Professor, UC San Diego, 1986-Present • Chief Scientist, Mentor Graphics, 1998-1999 • IBM Faculty Award, 2004, 2006 • IEEE Fellow, 2000 • Best Paper Awards, IEEE TCAD 1997, 2002 • Excellence in Teaching, JSOE 1991 • 9 Patents (Pending), 2 Books, 175 papers • 30 Ph.D. students, 15 Visiting Scholars

  4. Research Directions • Synthesis (Power & Performance) • Networks on Chip • Power, Clock Distribution, Global Interconnect • Data Path Synthesis: Adders, Shifter, Multipliers, Division Operators • Interconnect Technologies • Packaging, MCM, Board, Interface • Simulation (Whole Chip Analysis) • SPICEDiego (Released by UCSD)

  5. Challenges in IC Packaging • Minimize power/ground fluctuations and simultaneous switching noise (SSN) in the package • Control crosstalk and parasitic RLC • Include chip and board interfaces in the design process (co-design) • Use modeling and simulation tools to accurately predict and optimize performance • Design a convenient and accurate platform to characterize performance • Design novel packaging systems

  6. Potential Areas of Co-operation • Power/ground networks to minimize fluctuations and reduce SSN • On-package decoupling capacitors • Pin assignment and breakaway routing to minimize noise • Electrical characterization of packages

  7. Area #1 and #2 – Power/Ground Networks • Spatial and temporal excitations • Power ground distribution from board, packages, to chips. • IR Drop: Static Analysis • Resistive Networks • Static Current Sources • dI/dt: Dynamic Analysis • RLC Networks • Power on and off • Sleep mode on and off • Gated clocks • Various operation modes

  8. Area #1 and #2 - Power/Ground Network Analysis:Natural Frequency • RLC Network Characteristics: Natural frequencies (Quality Factor) • Operation Modes: Excite the resonance • Decoupling Capacitance: Shift the natural frequencies.

  9. Howard Chen, IBM

  10. Area #3 - Pin Breakaway and Pin Assignment Obj: min noise Design Space • Pin assignment of power ground pins and signal pairs • Breakaway sequences • Breakaway patterns

  11. Area #3 - Pin Breakaway and Pin Assignment • Row by Row Escape: Escape interconnect row by row from outside toward inside.

  12. Area #3 – Pin Breakaway and Pin Assignment • Central Triangular Escape: Escape objects from the center of the outside row and expands the indent with a single triangular outline.

  13. Area #4 – Electrical Characterization • Electrical characterization necessary in order to validate simulation results • Especially critical at fast edge rates and high frequencies. • Test vehicle design to include package mounted on a PCB that simulates the actual end product • Time domain (TDR) and frequency domain (Network Analyzer) characterization • Correlation to simulated results

  14. UCSD Lab and Software Resources • Cal IT2 Atkinson Hall at UCSD • Sigrity Suite: Speed2000, PowerSI, PowerDC, BBS • Agilent ADS (Advanced Design System) • IBM EIP (Electrical Interconnect and Packaging) • HSpice, SPICEDiego

  15. Conclusion • Goals of IC Package Design: • High Performance • High Quality • Low Power, Cost • Research collaboration between UCSD and Qualcomm can result in ways of improving performance • Theoretical knowledge in UCSD • Practical knowledge in Qualcomm

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