Owing to the fast development in flat panel display industry, the demand for thinner and more impact/scratch resistant glass panel is ever so rapidly increasing. As a result, glasses having compressive stress well above 800MPa after chemical strengthening have been successfully developed by various glass suppliers. This has greatly improved the impact/scratch resistant of glass sheets. However, it has, in the same time, made the dicing of these chemically strengthened glass plates very difficult indeed. The thicker the chemically strengthened layer on glass, the higher in tendency to generate large chippings/lateral-cracks during dicing operation by conventional dicing wheel. This research aimed to investigate the feasibility of laser dicing of chemically strengthened glass plates. A Nd:YAG laser of 355nm wavelength was used to cut chemically strengthened Gorilla (Corning) and soda lime glass plates. Efforts have been made to correlate the machining parameters such as power density, repetition rate, cutting speed to the obtained cutting width/depth and the extent of induced subsurface cracks.