In this study, temperature uniformity and heating rate of heat spreaders with multi-well are simulated and analyzed by CFD software under natural convection condition. The heat spreader (112mm in length; 75mm in width and 17.2 mm in thickness) includes 96 holes with a diameter of 5mm and a depth of 10mm. Firstly, multi-well heat spreaders made of aluminum, copper, silver, and vapor chamber are simulated and compared, when dual and six heat sources are applied at a heating power of 1200W. Secondly, with six heat sources at heating power of 188, 300, 600, and 1200W, the heating rate of heat spreaders are studied. Results shown that temperature uniformity in six heat sources mode is better than dual sources mode. Vapor chamber heat spreader has the better temperature uniformity both in six sources and dual sources mode due to a higher thermal conductivity, followed by silver, copper and aluminum heat spreader. Aluminum and silver heat spreader show the higher heating rate, followed by copper heat spreader, vapor chamber heat spreader due to a larger heat capacity, heat up the slowest. Furthermore, with the heating power increasing, the heating rate of heat spreader is increasing, but also reduces the temperature uniformity.