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FOCS
2008
IEEE
2008
IEEE
Linear Level Lasserre Lower Bounds for Certain k-CSPs
We show that for k ≥ 3 even the Ω(n) level of the Lasserre hierarchy cannot disprove a random k-CSP instance over any predicate type implied by k-XOR constraints, for example k-SAT or k-XOR. (One constant is said to imply another if the latter is true whenever the former is. For example k-XOR constraints imply k-CNF constraints.) As a result the Ω(n) level Lasserre relaxation fails to approximate such CSPs better than the trivial, random algorithm. As corollaries, we obtain Ω(n) level integrality gaps for the Lasserre hierarchy of 7 6 − ε for VertexCover, 2 − ε for k-UniformHypergraphVertexCover, and any constant for k-UniformHypergraphIndependentSet. This is the first construction of a Lasserre integrality gap. Our construction is notable for its simplicity. It simplifies, strengthens, and helps to explain several previous results.
Real-time TrafficFOCS 2008 | K-XOR Constraints | Lasserre Hierarchy | Random K-CSP Instance | Theoretical Computer Science |
| Added | 29 May 2010 |
| Updated | 29 May 2010 |
| Type | Conference |
| Year | 2008 |
| Where | FOCS |
| Authors | Grant Schoenebeck |
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