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E (complexity)

From Wikipedia, the free encyclopedia

In computational complexity theory, the complexity class E is the set of decision problems that can be solved by a deterministic Turing machine in time 2O(n) and is therefore equal to the complexity class DTIME(2O(n)).

E, unlike the similar class EXPTIME, is not closed under polynomial-time many-one reductions.

Relationship to other classes

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E is contained by NE.

References

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  • Allender, E.; Strauss, M. (1994), "Measure on small complexity classes with applications for BPP", Proceedings of IEEE FOCS'94, pp. 807–818, ECCC TR94-004, DIMACS TR 94-18.
  • Book, R. (1972), "On languages accepted in polynomial time", SIAM Journal on Computing, 1 (4): 281–287, doi:10.1137/0201019.
  • Book, R. (1974), "Comparing complexity classes", Journal of Computer and System Sciences, 3 (9): 213–229, doi:10.1016/s0022-0000(74)80008-5.
  • Impagliazzo, R.; Tardos, G. (1989), "Decision versus search problems in super-polynomial time", Proceedings of IEEE FOCS 1989, pp. 222–227.
  • Watanabe, O. (1987), "Comparison of polynomial time completeness notions", Theoretical Computer Science, 54 (2–3): 249–265, doi:10.1016/0304-3975(87)90132-0.
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