Rather than just a system of differential equations for a set of probabilities (which only constitutes the diagonal elements of a density matrix), quantum master equations are differential equations for the entire density matrix, including off-diagonal elements.
A density matrix with only diagonal elements can be modeled as a classical random process, therefore such an "ordinary" master equation is considered classical.
A formally exact quantum master equation is the Nakajima–Zwanzig equation, which is in general as difficult to solve as the full quantum problem.
Some modern approximations based on quantum master equations, which show better agreement with exact numerical calculations in some cases, include the polaron transformed quantum master equation and the VPQME (variational polaron transformed quantum master equation).
[1] Numerically exact approaches to the kinds of problems to which master equations are usually applied include numerical Feynman integrals,[2] quantum Monte Carlo, DMRG[3] and NRG, MCTDH,[4] and HEOM.