The Monge-Amp`ere (MA) equation is a fully nonlinear PDE arising in various research fields including differential geometry, mass transportation, geostrophic fluid and optical design. Numerical methods such as finite difference methods proposed by Oberman etc [1], Dean and Glowinshi [2,3] and finite element methods proposed by Feng and Neilan [4, 5] and Awanou [6] have been successfully applied to solve the standard MA equation. In this work, known theoretical are introduced results obtained by CaRarelli [7], Oliker [8], Mader [9] and Wang [10] etc., and the above mentioned numerical methods. Particularly, we employee the vanished-moment method to solve the MA equation arising from the free form surface (FFS) design problem in geometric optics [11, 12]. To ensure the FFS obtained from numerical computation is continuous and to be able to compute the curvature of the FFS easily, we solve the linearized MA problem using BCIZ finite element method [13]. Accuracy and robustness of our approach are demonstrated on several benchmark examples.