Wu, X.; Wang, Z.; Ma, S.; Chu, X.; Li, C.; Wang, W.; Jin, Y.; Wu, D. An RDL Modeling and Thermo-Mechanical Simulation Method of 2.5D/3D Advanced Package Considering the Layout Impact Based on Machine Learning. Micromachines2023, 14, 1531.
Wu, X.; Wang, Z.; Ma, S.; Chu, X.; Li, C.; Wang, W.; Jin, Y.; Wu, D. An RDL Modeling and Thermo-Mechanical Simulation Method of 2.5D/3D Advanced Package Considering the Layout Impact Based on Machine Learning. Micromachines 2023, 14, 1531.
Wu, X.; Wang, Z.; Ma, S.; Chu, X.; Li, C.; Wang, W.; Jin, Y.; Wu, D. An RDL Modeling and Thermo-Mechanical Simulation Method of 2.5D/3D Advanced Package Considering the Layout Impact Based on Machine Learning. Micromachines2023, 14, 1531.
Wu, X.; Wang, Z.; Ma, S.; Chu, X.; Li, C.; Wang, W.; Jin, Y.; Wu, D. An RDL Modeling and Thermo-Mechanical Simulation Method of 2.5D/3D Advanced Package Considering the Layout Impact Based on Machine Learning. Micromachines 2023, 14, 1531.
Abstract
The decreasing width, increasing aspect ratio RDL presents significant challenges to design for reliability (DFR) of advanced package. Therefore, this paper proposes a ML based RDL modeling and simulation method. In the method, RDL is divided into blocks and subdivided into pixels of metal percentage, and the RDL is digitalized as tensors. Then, an ANN-based surrogate model is built and trained by a subset of tensors to predict the equivalent material properties of each block. Lastly, all blocks are transformed into elements for simulations. For validation, line bending simulations were conducted on an RDL, with the reaction force as accuracy indicator. The results show that neglecting layout impact causes critical errors as substrate thins. By the method, the reaction force error is 2.81% and the layout impact can accurately be considered with 200×200 elements. For application, the TCT maximum temperature state simulation was conducted on a CPU chip. The simulation indicates that for advanced package the maximum stress more likely occurs in RDL rather than bumps, both RDL and bumps are critical impacted by layouts, and RDL stress is also impacted by vias/bumps. The proposed method precisely concerns layout impacts with little resources, presents an opportunity of efficiency improvement.
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