Click-Through Rate (CTR) prediction plays a key role in online advertising systems and online advertising. Constrained by strict requirements on online inference efficiency, it is often difficult to deploy useful but computationally intensive modules such as long-term behaviors modeling. Most recent works attempt to mitigate the online calculation issue of long historical behaviors by adopting two-stage methods to balance online efficiency and effectiveness. However, the information gaps caused by two-stage modeling may result in a diminished performance gain. In this work, we propose a novel framework called PCM to address this challenge in the view of system deployment. By deploying a pre-computing sub-module parallel to the retrieval stage, our PCM effectively reduces overall inference time which enables complex modeling in the ranking stage. Comprehensive offline and online experiments are conducted on the long-term user behaviors module to validate the effectiveness of our solution for the complex models. Moreover, our framework has been deployed into a large-scale real-world E-commerce system serving the main interface of hundreds of millions of active users, by deploying long sequential user behavior model in PCM. We achieved a 3\% CTR gain, with almost no increase in the ranking latency, compared to the base framework demonstrated from the online A/B test. To our knowledge, we are the first to propose an end-to-end solution for online training and deployment on complex CTR models from the system framework side.