Description
Due to the high level of competition within the semiconductor industry, companies are looking to identify potential advantages in their manufacturing processes. This paper attempts to discover when it is more cost effective to disaggregate die versus maintaining a monolithic

Due to the high level of competition within the semiconductor industry, companies are looking to identify potential advantages in their manufacturing processes. This paper attempts to discover when it is more cost effective to disaggregate die versus maintaining a monolithic production process. Additionally, it will examine the current conditions of the market and how the results yielded from the research could be applied most effectively. Company X needs to maintain the same or more cores on their processors to stay ahead of their competition. This means that more surface area is needed on the silicon die, encouraging the change to die disaggregation and advanced packaging solutions. In the paper, we will first provide an analysis and go through our two cost equations for monolithic and disaggregated die. We will then break down each part of our cost equations and each variable that goes into it by doing a sensitivity analysis. The sensitivity analysis will give us some insight into which variables are affecting our cost equation the most, and thus which variables Company X should pay the most attention to while deciding whether or not to continue to use the monolithic die or move to the disaggregated process. Based on our findings we came to the conclusion that Company X should continue to utilize a monolithic die for all mobile products. However, all desktop and server products should start to consider utilizing a disaggregated die on a case by case basis while examining the specific factors in the cost equation.

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Details

Title
  • Company X Collaborative Thesis Program
Contributors
Agent
Date Created
2019-05

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