Recursively enumerable set
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In computability theory, traditionally called recursion theory, a set S of natural numbers is called recursively enumerable, computably enumerable, semidecidable, provable or Turing-recognizable if:
- There is an algorithm such that the set of input numbers for which the algorithm halts is exactly S.
Or, equivalently,
- There is an algorithm that enumerates the members of S. That means that its output is simply a list of the members of S: s1, s2, s3, ... . If necessary, this algorithm may run forever.
The first condition suggests why the term semidecidable is sometimes used; the second suggests why computably enumerable is used. The abbreviations r.e. and c.e. are often used, even in print, instead of the full phrase.
In computational complexity theory, the complexity class containing all recursively enumerable sets is RE.
In recursion theory (also known as Computability theory), the lattice of r.e. sets under inclusion is denoted E.
See also
External links
- Recursively enumerable set @ Wikipedia.org