Chemical control of tobacco cutworms (Spodoptera litura (F.)), a destructive polyphagous pest worldwide, have numbers of environmental and public health risks. The application of Spodoptera litura nucleopolyhedrovirus (SpltNPV), an intracellular, highly specific and effective biopesticide, could reduce those risks. The most efficient way of mass production of SpltNPV is by culturing it in larvae of S. litura. However, due to their cannibalism behavior from 4th instar onward stages, up to now the traditional rearing method is rear individually. Besides, owing to its high cost of artificial diet, space and labor intensively, no industrial mass rearing methods has been developed yet. The current study modifies the components of artificial diet to reduce its cost and proposed unique equipment and techniques that are designed in an automated system to establish an automatic mass-rearing system of S. litura larvae. This study also designs pupation box and leaf-like egg-collector for improving the process that dealing with germplasm resource. Using 2 designed rearing containers (2 L per device) rearing for 6 days, and on the third day with an exchange process with 90% successful transfer to resupply food and reduce larval density, 350 cannibalistic larvae can be reared from 4th to 6th instar with an 89.0% survival. This new technique could efficiently reduce 66.0% artificial diet cost, cut down 85.8% rearing space via vertical food supply, which has better features as better use of space to reduce cannibalism and separation of feces from food, shorten 90% labor’s time, and ultimately reduce 90% cost of production. The techniques and designs have already been patented in 2012 (ROC patent no.: M 426277). The future work of current project is to adjust the automated system and finding more efficient way for reducing cost of larvae rearing. After completion of those works, an ideal automated SpltNPV mass-producing system with competitive cost could be achieved.