Due to the rising demand for cloud products in recent years, data centers in support of cloud technology have also continued to grow. Data centers consume considerable energy, reaching up to 20 KW for the single Rack design. The server is the main component of the Rack. The traditional server design in the past took hardware equipment price as the main design consideration. In particular, the CPU was the main heat source, and usually the most costly radiator in the server. Hence, more affordable materials were usually chosen as radiators in order to solve the heat dissipation issue. In this paper, in addition to radiator prices, CFD analysis was conducted to determine if using the most costly radiator with less air output would lead to more energy saved and fewer electricity fees in order to make the use of the most costly radiator worthwhile. In this study, two materials, namely, copper and aluminum, were selected for optimization and the number of fins was changed in order to find the best design. The two were then compared for dissipation performance and energy consumption. The copper radiator was more costly, but it only needed 71.7% of the fan spinning speed to achieve the same dissipation result as the aluminum dissipater, saving 16.6 W of power. Calculated using Taiwan's industrial electricity costs, 28 USD can be saved every year; calculated using the 4-year cycle of hardware, 112 USD can be saved, greatly exceeding the price difference of using aluminum radiators. This study shall serve as a reference for IT equipment dissipation design. In addition to taking hardware price differences into account, it is recommended that a compromised design be adopted to save more electricity costs and the money be used for hardware instead.