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FSTTCS
2006
Springer
2006
Springer
Some Results on Average-Case Hardness Within the Polynomial Hierarchy
Abstract. We prove several results about the average-case complexity of problems in the Polynomial Hierarchy (PH). We give a connection among average-case, worst-case, and non-uniform complexity of optimization problems. Specifically, we show that if PNP is hard in the worst-case then it is either hard on the average (in the sense of Levin) or it is non-uniformly hard (i.e. it does not have small circuits). Recently, Gutfreund, Shaltiel and Ta-Shma (IEEE Conference on Computational Complexity, 2005) showed an interesting worst-case to averagecase connection for languages in NP, under a notion of average-case hardness defined using uniform adversaries. We show that extending their connection to hardness against quasi-polynomial time would imply that NEXP doesn't have polynomial-size circuits. Finally we prove an unconditional average-case hardness result. We show that for each k, there is an explicit language in P2 which is hard on average for circuits of size nk .
Real-time TrafficAverage-case Complexity | Average-case Hardness | FSTTCS 2006 | Software Engineering | Unconditional Average-case Hardness |
| Added | 23 Aug 2010 |
| Updated | 23 Aug 2010 |
| Type | Conference |
| Year | 2006 |
| Where | FSTTCS |
| Authors | Aduri Pavan, Rahul Santhanam, N. V. Vinodchandran |
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