In the knowledge economy and the complex environment of rapid change, the constant innovation has become an important survival rule for companies. How to catch the external knowledge has become an important issue, and external knowledge can be acquired from the knowledge flow. In this study, the analyzed periods are distinguished by wafer size in six-inches (1976~1991), eight-inches (1989~1999) and twelve-inches (1997~2011). The methodologies of patentometrics and social network analysis (SNA) are adopted, and research and development (R&D) cooperation and patent citations are treated as the agents for strong ties and weak ties of knowledge spillover. Firstly, the author analyzed the structure characterisitics of knowledge spillover networks and the main companies that utilize the strong and weak ties to spill knowledge. Secondly, The author classified companies into four technological positions: leader, broker, follower, and isolated company. On the other hand, companies were also classified into six roles of the industry value chain: integrated device manufacturer (IDM), IC design, foundry, packaging & testing, equipment, and others. The author analyzed the difference of utilizing the strong and weak tie of knowledge spillover, the difference of targets with which companies spill knowledge, and the the impact of the change of the companies with the technological position on knowledge spillover. Finally, A case analysis of knowledge spillover is addressed for the top IC foundries. The results of this study show that: 1. Knowledge spillover among semiconductor companies occurs broadly through strong ties, while the weak ones of knowledge spillover are mostly used within the company cluster; 2. Technological leaders and IDM are the highly active participants for knowledge spillover; 3. Technological leaders, IDMs, and foundries are the main targets with which companies spill knowledge; 4. Whether semiconductor companies with the technological position change or not, the patent count and the degree of their participation remain similar; 5. The interaction between strong ties and weak ties of knowledge spillover is insignificant during the chip era evolution; 6. There are similar knowledge spillover actions among main IC foundries. Based on the findings, it is recommended that the mainstream of semiconductor technology development could be captured by monitoring the companies that are technological leaders with the role of IDM or foundry. Semiconductor companies could trace the developers of common technology by observing the strong tie network of knowledge spillover, and they could trace the developers of particular technology by observing the weak tie network of knowledge spillover. Semiconductor companies could also measure the similarity between themselves and competitors based on common targets of knowledge spillover. Foundries could develop partnership with IDMs from vertical division of work into horizontal cooperation. Foundries in Taiwan should continue to develop differentiated technologies in order to ensure technical superiority of their R&D alliances.