Circuit complexity

In theoretical computer science, circuit complexity is a branch of computational complexity theory in which Boolean functions are classified according to the size or depth of the Boolean circuits that compute them. A related notion is the circuit complexity of a recursive language that is decided by a uniform family of circuits $C_{1},C_{2},\ldots$ (see below).

Proving lower bounds on size of Boolean circuits computing explicit Boolean functions is a popular approach to separating complexity classes. For example, a prominent circuit class P/poly consists of Boolean functions computable by circuits of polynomial size. Proving that ${\mathsf {NP}}\not \subseteq {\mathsf {P/poly}}$ would separate P and NP (see below).

Complexity classes defined in terms of Boolean circuits include AC⁰, AC, TC⁰, NC¹, NC, and P/poly.

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