General Upper Bounds for Gate Complexity and Depth of Reversible Circuits Consisting of NOT, CNOT and 2-CNOT Gates

Abstract

The paper discusses the gate complexity and the depth of reversible circuits consisting of NOT, CNOT and 2-CNOT gates in the case, when the number of additional inputs is limited. We study Shannon's gate complexity function L(n, q) and depth function D(n, q) for a reversible circuit implementing a Boolean transformation f Z2n Z2n with 8n < q n2n-o(n) additional inputs. The general upper bounds L(n,q) 2n + 8n2n / (2 (q-4n) - 2 n - 2) and D(n,q) 2n+1(2,5 + 2 n - 2 (2 (q - 4n) - 2 n - 2)) are proved for this case.