Planting density is important agronomic management tool for potatoes as it determines light interception, growth, yield and yield  components of the crop. However, the information at spasfic location is limited. Thus, the experiment was conducted to determine the  optimum plating density for potato varieties and its impact on growth, light interception, yield and yield components. A field experiment  was conducted at Bore in the southeastern Ethiopia during the 2021 cropping season. The experiment consists of four levels of planting  densities (66667, 44444, 33333 and 26667 plant ha^-1) and four potato varieties: three improved (Jalanie, Gudenie, Belete and one local  (Gujicha) that were laid out in a randomized complete block design (RCBD) in factorial arrangements with three replications. The result indicated that the main effects of variety and planting density significantly (p < 0.001) influenced days to 50% flowering, 90% maturity  date, plant height, number of stems per hill, leaf area index (LAI) at 45, 60 and 75, Cumulative Interception Photosynthetic Active  Radiation (CIPAR) and total dry matter production. However, tuber yield, tuber weight, average tuber number per hill, marketable yield  and total tuber yield were significantly affected by the interaction effects. The overall result indicated that CIPAR increased with  increasing planting density, though a maximum marketable tuber yield of 44.92 t ha^-1 was recorded at 444444 plant ha^-1 from Gudenie  variety. However, the CIPAR was not fit with the maximum marketable and total yield of tuber; this indicates other plant and    environmental factors might also significant for plants to express their yielding potential.