This paper addresses the mixed H 2/H ∞ control design problem of networked control systems(NCSs) with Markovian packet loss. Under the assumption that the packet loss is bounded and governed by Markov chains, a packet-loss dependent stabilizing controller is found by minimizing an upper bound of H 2 norm, under the restriction of a pre-specified H ∞ norm bound. By transforming the stability criterion into an optimization problem, the mean-square stabilizing packet-loss dependent controller is thus obtained. The linear matrix inequality (LMI) approach is employed to calculate the robust controller for packet loss, with special respect to the uncertainty in the transition Markov probability matrix. Illustrative numerical examples are presented to demonstrate the effectiveness of derived methods.