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Design Considerations and Improvement by Using Chip and Package Co-Simulation

Design Considerations and Improvement by Using Chip and Package Co-Simulation. Yeong-Jar Chang, Meng-Xin Jiang, Chen-Wei Chang, Wang-Jin Chen, Faraday Technology Corporation, Taiwan, R.O.C. Charlie Shih, Jack Lin Cadence Design Systems. Overview. Traditional Package Design Consideration

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Design Considerations and Improvement by Using Chip and Package Co-Simulation

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  1. Design Considerations and Improvement by Using Chip and Package Co-Simulation Yeong-Jar Chang, Meng-Xin Jiang, Chen-Wei Chang, Wang-Jin Chen, Faraday Technology Corporation, Taiwan, R.O.C. Charlie Shih, Jack Lin Cadence Design Systems

  2. Overview • Traditional Package Design Consideration • Proposed Flow • Per-pin Inductance Checking and Improvement • Coupling Checking and Improvement • Co-simulation and Improvement

  3. Traditional Package Design Consideration Package Pre-layout Simulation Chip model Estimated Package model Package Post-layout Simulation Chip model Package model It is very difficult to get the good trade-off between Efficiency and Quality !

  4. Proposed Flow and Methodologies Package Design Electrical Checking Fast Checking IC/PKG/PCB Co-sim Yes Yes Yes Good Enough? Good Enough? Good Enough? No No No • Trace impedance • Coupling • Group delay • Reference plane • Per-pin inductance • Power impedance • Pulse response • Insertion/Return loss • Transient power analysis Finish

  5. Per-Pin Inductance Checking and Improvement (1/2) GND2 GND3 GND1 GND1 GND1 GND3 GND2 (a) Single Ball (b) Parallel 3 Balls (c) Effective 3 Balls The cases to compare the P/G inductance

  6. Per-Pin Inductance Checking and Improvement (2/2) (a) 0.578W ~ 0.92nH (at 100MHz) (b) 0.402W ~0.64nH (at 100MHz) (c) 0.270W ~0.43nH (at 100MHz) P/G Impedance

  7. Design Consideration (1) • Do not treat via, lead-frame or BGA ball as simple inductors only • Parallel scheme can not always get the reduction as we expected • The better position, case (c), can achieve 33% improvement than case (b) with the same number of ground balls

  8. Result – GND layout improvement 4.267nH 4.195nH XIM-EPA can tell us 2% improvement in several minutes

  9. Example – GND layout improvement 100um 50um

  10. Coupling Behavior- Even Mode and Odd Mode Odd Even

  11. Coupling Behavior Lumped Circuit Take the EM (electro-magnetic field) Into consideration 0000 -> 1111 faster 1111 -> 0000 faster 0101 -> 1010 slower 1010 -> 0101 slower Rising delay at even pattern = 523.3738 ps Falling delay at even pattern = 450.7990 ps Rising delay at odd pattern = 514.2257 ps Falling delay at odd pattern = 441.7276 ps

  12. Design Consideration (2) • The coupling behavior is much different from what we think in the RC-based circuit analysis. • The corner (fast/slow) simulation will be different • We need to take the EM into consideration if the size is large or the speed is fast. For the rule of thumb, the critical size is /20. (  = wave length =speed of light / frequency )

  13. Example - Coupling Improvement Enlarging the space from 55um to 65um can reduce the coupling coefficient from 0.11 to 0.09

  14. Basic Co-Simulation Concepts 4v 3v 5v 1v 0.5v Global GND=0 3.5v 2v 5v S1 S2 REF2 REF1 S1 and S2 are S-parameter models Global GND=0

  15. Design Consideration (3) • The S-parameter model is a mathematic model which records the relative voltage instead of the absolute voltage. • Connecting the REFs of S-parameters and the global GND (0 or ideal GND) together is correct for co-simulation. But, it does not mean that they are all 0 voltage. • Chip-package co-simulation is very important to know the real behavior.

  16. REF1 Chip Chip P1 G1 P2 G2 P1 G1 P2 G2 P1 G1 P2 G2 P1 G1 P2 G2 Die side Die side Package Package REF2 Ball side Ball side to other REFs and the global ground Example: Chip-Package Co-Sim 1.022~1.031v 1.070~1.079v Dynamic IR drop with package model of initial design Dynamic IR drop without package model 1.066~1.074v Dynamic IR drop with package model after modification

  17. Summary • Have proposed a new flow to improve the efficiency and quality of package design • The chip-level and package-level design concepts are totally different • Have introduced some design considerations for improving package design • Have consolidated the ground connections for chip-package co-simulation

  18. Appendix

  19. Case Studies for Model Extraction in Different GND Setting

  20. Case 1 Case 2 Case 3

  21. Delay Differences in PCB (W=6mils, D=6, L=1000, 50ohm)

  22. References [1] R. Pomerleau, S. Scearce, T. Whipple, “Using Co-design to Optimize System Interconnect Paths”, DesignCon 2011 [2] Keith Felton, “Methodology and Flow Challenges in System-level Co-design of Multi-die Packaged Systems”, Article on www.chipdesignmag.com [3] Joel McGrath, "The Need for Package-Aware Methodology for IC Design" Article on www.chipdesignmag.com  [4] M. Patil, et al, "Chip-package-board co-design for Complex System-on- Chip(SoC)", in Proc. EPEPS, pp. 273-276, 2010. 

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