Counting problem (complexity)

In computational complexity theory and computability theory, a counting problem is a type of computational problem. If R is a search problem then

[math]\displaystyle{ c_R(x)=\vert\{y\mid R(x,y)\}\vert \, }[/math]

is the corresponding counting function and

[math]\displaystyle{ \#R=\{(x,y)\mid y\leq c_R(x)\} }[/math]

denotes the corresponding decision problem.

Note that c_R is a search problem while #R is a decision problem, however c_R can be C Cook-reduced to #R (for appropriate C) using a binary search (the reason #R is defined the way it is, rather than being the graph of c_R, is to make this binary search possible).

Counting complexity class

If NX is a complexity class associated with non-deterministic machines then #X = {#R | R ∈ NX} is the set of counting problems associated with each search problem in NX. In particular, #P is the class of counting problems associated with NP search problems. Just as NP has NP-complete problems via many-one reductions, #P has complete problems via parsimonious reductions, problem transformations that preserve the number of solutions.

See also

• GapP

External links

• "counting problem". http://planetmath.org/?op=getobj&from=objects&id={{{id}}}. 
• "counting complexity class". http://planetmath.org/?op=getobj&from=objects&id={{{id}}}. 

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