By today, the technology of synthetic aperture radar (SAR) interferometry (InSAR) has been largely exploited in digital elevation model (DEM) generation and deformation mapping. Conventional InSAR technique exploits two SAR images acquired from slightly different angles, in which the information of elevation and deformation can be captured through processing of the phase difference of the images called interferometric phase. Depart from undeniable efficiency of interferometric SAR processing technique (InSAR), some main issues such as phase unwrapping ambiguity may limit its applications and its accuracy in height mapping. However, in the frame of multi-baseline interferometry and by the availability of more than one interferogram of the same region these problems can be overcome. Multi-baseline SAR interferometry are hence of great interest and can be successfully exploited for automatic phase unwrapping and high quality DEM reconstruction. This paper focuses on stacks of interferometric SAR data as they are used as input to multi-baseline framework for the purpose of height estimation and compare the results of such local and non- local covariance matrix estimation methods achieved by same data and on the same area, where the information of estimated covariance matrix is employed in the elevation mapping.