Glass hot embossing technique is essential in mass producing glass optical elements. With the vigorous developments, the process was capable to produce aspheric or complex optical elements with low cost. Ultrasonic vibration-assisted forming is extensively adopted in plastic manufacturing processes. With the effects of changing the frictional condition and raising the material temperature, the material formability is increased, the forming accuracy is improved and the cost is reduced. Thus, this study is aimed to integrate the ultrasonic vibration-assisted forming and the glass hot embossing process. The effect of changing material properties caused by ultrasonic vibration was applied to improve the glass forming efficiency and the product quality, and stretch the applications of glass hot embossing technique. In order to realize the ultrasonic vibration-assisted glass hot embossing process, an experimental apparatus was firstly developed to integrate the techniques of the ultrasonic vibration and the glass hot embossing. The output end of the ultrasonic vibration device was designated as the upper mold of the glass hot embossing; and the resonant frequency was compensated by modifying the dimensions on the ultrasonic horn, so the ultrasonic vibration device could be operated at the high working temperature of glass hot embossing process. With the built apparatus, the optical glass K-PSK100 (Sumita Co., Tg = 398°C) was adopted in molding experiments to investigate the effects of ultrasonic vibration on the glass hot embossing process. In the flat hot embossing experiments, the loads were reduced as the ultrasonic vibration applied; in molding V-groove and Fresnel structures, the formability on these complex structures were significantly enhanced with the assistance of the ultrasonic vibration.