We consider the problem of wavefront estimation for the control of adaptive optics systems. It has been shown that an improvement in the performance can be achieved by assuming a turbulence dynamical model which allows the use of a Kalman filter; nevertheless, the implementation of such filters has proven to be difficult in real-time large-scale systems due to memory, computational costs and latency issues. In this article we propose a possible work around of such problem, which consists in using the non-recursive expression of a finite-horizon Kalman filter, which only requires a matrix-vector multiplication at run-time. This allows the use of complex state-space models for the estimation, without the need of explicitly computing the state vector at each time step, yielding a significant gain in term of computational time.