Integrated Circuit (IC) products in the semiconductor industry are important components of electronic products on the market, and are widely applied in the areas of computers, communication, consumer electronics and industrial electronics. Based on an extreme case of the LCA to go Plan in the EU FP7 Framework Program, the carbon footprint of IC products could make up one-third of carbon footprint of all electronic products. This study intends to differentiate the process procedure and parameter based carbon footprints and find out the process or operation parameter which contribute most to the carbon footprint of the IC foundry. The results show that the major contribution of carbon footprint was from electricity used in the manufacturing phase (64%), among which the proportion of electricity used to maintain the clean room environment and the production process was about 1:1. The carbon footprints in the production processes are in the order of Diffusion> Etching> Thin Film> Lithography process. For these four processes, the Thin Film production process used PFC gases which has high-GWP and thus PFCs contributed most to its carbon footprint. The other three processes had the same major emission source of electricity uses. For the result on the evaluation of process parameters, it is observed that the mask layer and etched layer were positively correlated to the carbon footprint, while the process technology was negative correlated to the carbon footprint. The results can be provided for the Eco design of IC product and help to reduce the carbon footprint.