高级算法 (Fall 2023)/Problem Set 1: Difference between revisions

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== Problem 1 (Min-cut/Max-cut) ==
== Problem 1 (Min-cut/Max-cut) ==


* ['''counting <math>\alpha</math>-approximate min-cut'''] For any $\alpha \ge 1$, a cut is called an $\alpha$-approximate min-cut in a multigraph $G$ if the number of edges in it is at most $\alpha$ times that of the min-cut.  Prove that the number of $\alpha$-approximate min-cuts in a multigraph $G$ is at most $n^{2\alpha} / 2$.  Hint: Run Karger's algorithm until it has $\lceil 2\alpha \rceil $ supernodes. What is the chance that a particular $\alpha$-approximate min-cut is still available? How many possible cuts does this collapsed graph have?
* ['''counting <math>\alpha</math>-approximate min-cut'''] For any '''<math>\alpha \ge 1</math>''', a cut is called an '''<math>\alpha</math>'''-approximate min-cut in a multigraph '''<math>G</math>''' if the number of edges in it is at most '''<math>\alpha</math>''' times that of the min-cut.  Prove that the number of '''<math>\alpha</math>'''-approximate min-cuts in a multigraph '''<math>G</math>''' is at most '''<math>n^{2\alpha} / 2</math>'''.  Hint: Run Karger's algorithm until it has '''<math>\lceil 2\alpha \rceil</math>''' supernodes. What is the chance that a particular '''<math>\alpha</math>'''-approximate min-cut is still available? How many possible cuts does this collapsed graph have?
* ['''weighted min-cut problem''']
* ['''weighted min-cut problem''']
* ['''max directed-cut''']
* ['''max directed-cut''']

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Problem 1 (Min-cut/Max-cut)

  • [counting [math]\displaystyle{ \alpha }[/math]-approximate min-cut] For any [math]\displaystyle{ \alpha \ge 1 }[/math], a cut is called an [math]\displaystyle{ \alpha }[/math]-approximate min-cut in a multigraph [math]\displaystyle{ G }[/math] if the number of edges in it is at most [math]\displaystyle{ \alpha }[/math] times that of the min-cut. Prove that the number of [math]\displaystyle{ \alpha }[/math]-approximate min-cuts in a multigraph [math]\displaystyle{ G }[/math] is at most [math]\displaystyle{ n^{2\alpha} / 2 }[/math]. Hint: Run Karger's algorithm until it has [math]\displaystyle{ \lceil 2\alpha \rceil }[/math] supernodes. What is the chance that a particular [math]\displaystyle{ \alpha }[/math]-approximate min-cut is still available? How many possible cuts does this collapsed graph have?
  • [weighted min-cut problem]
  • [max directed-cut]

Problem 2 (Fingerprinting)

  • [Polynomial Identity Testing]
  • [Test isomorphism of rooted tree]
  • [2D pattern matching]

Problem 3 (Hashing)

  • [Bloom filter]
  • [Count Distinct Element]

Problem 4 (Concentration of measure)

  • [[math]\displaystyle{ k }[/math]-th moment bound]
  • [the median trick]
  • [cut size in random graph]
  • [code rate of boolean code]
  • [balls into bins with the "power of two choices"]

Problem 5 (Dimension reduction)

  • [inner product]
  • [linear separability]
  • [sparse vector]

Problem 1 (Lovász Local Lemma)

  • [colorable hypergrap]
  • [directed cycle]
  • [algorithmic LLL]
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