Class meeting for 10-605 Randomized Algorithms

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This is one of the class meetings on the schedule for the course Machine Learning with Large Datasets 10-605 in Fall_2016.

Slides

  • TBD


This is one of the class meetings on the schedule for the course Machine Learning with Large Datasets 10-605 in Fall_2016.


Slides

  • TBD

Supplement:

Optional Readings

Key things to remember

  • The API for the randomized methods we studied: Bloom filters, LSH, CM sketches, and specifically, when you would use which technique.
  • The relationship between hash kernels and CM sketches.
  • What are the key tradeoffs associated with these methods, in terms of space/time efficiency and accuracy, and what sorts of errors are made by which algorithms (e.g., if they give over/under estimates, false positives/false negatives, etc).
  • What guarantees are possible, and how space grows as you require more accuracy.
  • Which algorithms allow one to combine sketches easily.

Key things to remember

  • How to implement graph algorithms like PageRank by streaming through a graph, under various conditions:
    • Vertex weights fit in memory
    • Vertex weights do not fit in memory
  • The meaning of various graph statistics: degree distribution, clustering coefficient, ...
  • Why sampling from a graph is non-trivial if you want to preserve properties of the graph like
    • Degree distribution
    • Homophily as measured by clustering coefficient,
  • What local graph partitioning is and how the PageRank-Nibble algorithm, together with sweeps to optimize conductance, can be used to approximately solve it.
  • The implications of the analysis of PageRank-Nibble.