The Adapted Stiff Sand model (ASSM) is a new rock physical modeling approach, recently proposed at the Vietnam Petroleum Institute (VPI), to aid construction of a site-adapted rock template (ARPT) for seismo-petrophysical characterization of a strongly cemented and deep gas sand. It is modified from the known Stiff Sand model by Stanford rock physics group, with a key change in determination of the dry modulus of the sand based on the in-situ well log data and a modified Gassmann’s equation. It is known that the success of a rock physics template (RPT) depends very much on the cementation type of the clastic reservoir and the rock physics model (RPM) used for its construction. This study dealt with a Middle Miocene gas sand at the Hai Thach gas field, Nam Con Son basin, Vietnam, which consists of multiple-stacked reservoirs units with a cementation type varying at different depth levels. By applying the Adapted Stiff Sand model we could discriminate two main cementation types, i.e., clayey and calcite. Consequently, a site-adapted rock physics template (ARPT) was successfully constructed, based on which a seismic inversion could be successfully carried out for a seismo-petrophysical characterization of the target gas sand.