A novel methodology using nano-indentation has been successfully established to distinguish the mechanical resistance of the bond pads among a normal pad with full stack of trench/via dummification and two BOAC layouts with different metal arrangement in the top 2 layers. In addition, a two-layered model is proposed by treating the stack below A1 pad as a composite substrate consists of oxide/FSG-copper in M7 and copper-low-k in M1-6. The modulus of composite substrate for normal pad, BOAC A and BOAC B are 104 GPa, 70 GPa and 74.5 GPa, respectively. The difference can be attributed to metal arrangement and density in the top 2 layer below the A1 pad in different BOAC structures and additional mechanical support from M1-6 region. A modulus of 70 GPa in composite substrate of bond pad structure can be considered as a sufficient condition for new BOAC layouts meeting the bondability tests.