In this article, an efficient Laguerre-based alternating direction implicit (LB-ADI) approach is proposed for the transient thermal simulation of integrated chiplets and packages. The transient heat conduction equation is transformed into the Laguerre domain by the Laguerre basis functions and the Galerkin's testing method. With spatial discretization, the resulting matrix equation based on a marching-on-in-order scheme is established. In order to improve the computational efficiency, a new ADI approach in the Laguerre domain is developed. Only three tridiagonal matrices need to be solved in each order, which significantly reduces the simulation time and memory requirement. The accuracy and efficiency of the proposed method are validated by numerical results.