The results of molecular Docking revealed that, with respect to their free binding energy 6A, 3K, 1B and 2K compounds have the lowest binding energy compared to positive control. In-silico ADME/T predictions revealed that all best scored compounds had good absorption as well as solubility characteristics through substrate binding sites. After conducting the in vitro studies it was observed that compounds having -3NO2, 3,4-OCH3, 4-NO2 and 4-Cl substitution on phenyl ring in the basic moiety shows good anti diabetic activity The present computational approach provided valuable information on the binding process of 1,6-Dihydropyrimidine compounds to the binding site of PTP-1B. These compounds may serve as potential lead compound for developing new 1,6- Dihyropyrimidine as a promising anti diabetic agent.