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Efficient Data Synchronization

Efficient Data Synchronization. Jiaxi Jin. OUTLINE. Motivation. Full Transfer. 1. 2. 3. 4. 5. 6. 7. Characteristic Polynomial Interpolation(CPI). Generalized CPI Algorithm. Software Implementation: GenSync. Reconciliation Experiment. Way to Go: Open Problems. Motivation. 1.

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Efficient Data Synchronization

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  1. Efficient Data Synchronization Jiaxi Jin

  2. OUTLINE Motivation Full Transfer 1 2 3 4 5 6 7 Characteristic Polynomial Interpolation(CPI) Generalized CPI Algorithm Software Implementation: GenSync Reconciliation Experiment Way to Go: Open Problems

  3. Motivation 1

  4. Full Transfer(Slow Sync) 2

  5. Characteristic Polynomial Interpolation(CPI) 3

  6. An Example of CPISync 3 send numerator

  7. Optimized CPI Algorithm with unknown m 4.1Probabilistic CPI : CPI with an unknown upper bound 4

  8. CPI(m=6) • failed: active partition Optimized CPI Algorithm with unknown m 4.2Partition CPI Recursively partitioning until succeed with a prescribed bound • CPI(m=6) • terminal 4 • CPI(m=6) • terminal

  9. Software Implementation: GenSync 5

  10. Reconciliation Experiment 6 6.1

  11. Reconciliation Experiment 6 6.2

  12. Reconciliation Experiment 6 6.3

  13. Reconciliation Experiment 6 6.4

  14. Reconciliation Experiment 6 6.5

  15. Reconciliation Experiment 6

  16. “crescent.jpg” • 8-bit Hash ID (in decimal): 209 • Byte length: 54234

  17. “firstQuarter.jpg” • 8-bit Hash ID (in decimal): 88 • Byte length: 54082

  18. “half.jpg” • 8-bit Hash ID (in decimal): 184 • Byte length: 53867

  19. “full.jpg” • 8-bit Hash ID (in decimal): 32 • Byte length: 54054

  20. Reconciliation Experiment 6 1

  21. Performance analysis and open problems will be added after extensive test 1

  22. Way to Go: Open Problems 7.1. Interactive CPI consumes extremely large CPUtime 7

  23. Way to Go: Open Problems 7

  24. Discussion Time THANKS

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