Currently, optically reconfigurable gate arrays have been being developed for space radiation environment applications. An optically reconfigurable gate array consists of a holographic memory, a laser array, and an optically reconfigurable gate array VLSI. The optically reconfigurable gate array is a type of field programmable gate arrays (FPGAs). The radiation tolerance of the optically reconfigurable gate arrays are much higher than those of currently available FPGAs in terms of total-ionizing-dose and soft-error tolerances. This paper therefore presents an optically reconfigurable gate array using a radiation-hardened stabilized power supply unit based on a lithium-ion battery. A radiation-hardened stabilized power supply unit has been experimentally confirmed as having radiation tolerance greater than 300 kGy using a 60Co gamma radiation source.