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FSTTCS
2004
Springer

Hardness Hypotheses, Derandomization, and Circuit Complexity

14 years 4 months ago
Hardness Hypotheses, Derandomization, and Circuit Complexity
We consider hypotheses about nondeterministic computation that have been studied in different contexts and shown to have interesting consequences: • The measure hypothesis: NP does not have p-measure 0. • The pseudo-NP hypothesis: there is an NP language that can be distinguished from any DTIME(2nǫ ) language by an NP refuter. • The NP-machine hypothesis: there is an NP machine accepting 0∗ for which no 2nǫ -time machine can find infinitely many accepting computations. We show that the NP-machine hypothesis is implied by each of the first two. Previously, no relationships were known among these three hypotheses. Moreover, we unify previous work by showing that several derandomizations and circuit-size lower bounds that are known to follow from the first two hypotheses also follow from the NP-machine hypothesis. In particular, the NPmachine hypothesis becomes the weakest known uniform hardness hypothesis that derandomizes AM. We also consider UP versions of the above hypo...
John M. Hitchcock, Aduri Pavan
Added 01 Jul 2010
Updated 01 Jul 2010
Type Conference
Year 2004
Where FSTTCS
Authors John M. Hitchcock, Aduri Pavan
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