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Advice: Do not read each slide, explain each slide to the audience. Please do not go over 15 slides!. Title. Do not change the background!. Your name goes here. Advisor: Dave Parent DATE. Agenda. Abstract Introduction Why Simple Theory Back Ground information (Lit Review)

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  1. Advice: Do not read each slide, explain each slide to the audience. Please do not go over 15 slides! Title Do not change the background! Your name goes here. Advisor: Dave Parent DATE

  2. Agenda • Abstract • Introduction • Why • Simple Theory • Back Ground information (Lit Review) • Summary of Results • Project (Experimental) Details • Results • Cost Analysis • Conclusions

  3. Abstract • Summarize the logic, clock frequency, area, and power specs of your final design • We designed an 8-bit carry look ahead adder that operated at 200 MHz and use 1mW of Power and occupied an area of 400x400mm2

  4. Introduction If you need more room use another slide. • You also explain why your project was worthwhile to study. • This is where you describe the essential theory of your project. • If you are going to use equations make them legible ( Insert...object.... MS equation)

  5. Previous Work (not really required for 166) • This is were you talk about what others have done in the field that your work enhances, disproves, or used. • 1987 Parent et al. introduces the XYZ concept. • 1988 Parent et al. expands the XYZ concept. • 1989 Freeman et al. refutes the XYZ concept and introduces the ABC concept. • 1990 Choo et al. links the ABC and XYZ concepts. If you need more room, use another slide.

  6. Project Summary • This is were you show how your work fits in with the previous work • The key thing is to show what you did was an improvement over what has been done in the past.

  7. Project Details • Explain all the details of your project. • Schematics should be legible, and not too busy. • If you did a set of experiments describe the conditions you did them under. • show a table with all hand calculations for your longest path • Show • Final schematic (not test bench) • Final layout • Final simulation

  8. Longest Path Calculations Note: All widths are in microns and capacitances in fF

  9. Schematic

  10. Layout

  11. Verification

  12. Simulations

  13. Cost Analysis • Estimate how much time you spent on each phase of the project • verifying logic • verifying timing • layout • post extracted timing

  14. Lessons Learned • Give advice to future 166 students and professors

  15. Summary • Go over again why your project was worthwhile to study. • Summarize the main result • Make a prediction about the future.

  16. Do not read this slide, just show it. Acknowledgements • Thanks to my wife/husband for putting up with me. • Thanks to Cadence Design Systems for the VLSI lab • Thanks to Synopsys for Software donation • Professors X,Y, and Z • NSF grant #

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