The effects of dopant activation anneal on GOI (Gate Oxide Integrity) of MOS capacitor with amorphous silicon gate electrode were investigated. It was found that the amorphous silicon gate electrode was crystallized and the dopant atoms were sufficiently activated by activation anneal. The mechanical stress of gate electrode that reveals large compressive stress in amorphous state, was released with increase of anneal temperature from $700^{circ}C$ to 90$0^{circ}C$. The resistivity of gate electrode polycrystalline silicon film is decreased by the increase of anneal temperature. The reliability of thin gate oxide and interface properties between oxide and silicon substrate greatly depends on the activation anneal temperature. The charge trapping characteristics as well as oxide reliability are improved by the anneal of 90$0^{circ}C$ compare to that of $700^{circ}C$ or 80$0^{circ}C$. Especially, the lifetimes of the thin gate oxide estimated by TDDB method is 3$ imes$10$^{10}$ for the case of $700^{circ}C$ anneal, is significantly increased to 2$ imes$10$^{12}$ for the case of 90$0^{circ}C$ anneal. Finally, the interface trap density is reduced with relaxation of mechanical stress of gate electrode.