Multi-Energy Domain Modeling of Microdevices: Virtual Prototyping by Predictive Simulation

G. Wachutka
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引用次数: 0

Abstract

The rapid progress in microsystems technology is increasingly supported by MEMS-specific modeling methodologies and dedicated simulation tools. These do not only enable the visualization of fabrication processes and operational principles, but they also assist the designer in making decisions with a view to finding optimized microstructures under technological and economical constraints. Currently strong efforts are being made towards complete simulation platforms for the predictive simulation of microsystems, i.e. the "virtual fabrication" and "virtual experimentation, characterization and test" on the computer. We discuss the most important aspects to be focused on and practicable methodologies for microdevice and system modeling, in particular the consistent treatment of coupled fields and coupled domains required for setting up physically-based models for full system mixed-level simulation, and for the reliable validation and accurate calibration of the models
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微器件的多能量域建模:基于预测仿真的虚拟样机
微系统技术的快速发展越来越多地得到mems特定建模方法和专用仿真工具的支持。这些不仅可以使制造过程和操作原理可视化,而且还可以帮助设计师在技术和经济限制下做出决策,以找到优化的微结构。目前,人们正在大力发展微系统预测仿真的完整仿真平台,即计算机上的“虚拟制造”和“虚拟实验、表征和测试”。我们讨论了微设备和系统建模最重要的方面和可行的方法,特别是耦合场和耦合域的一致处理,这些耦合场和耦合域是建立完整系统混合级仿真的基于物理的模型所必需的,也是模型的可靠验证和准确校准所必需的
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Front Matter: Volume 12072 Front Matter: Volume 12073 Multi-Energy Domain Modeling of Microdevices: Virtual Prototyping by Predictive Simulation A Monte Carlo Investigation of Nanocrystal Memory Reliability Difficulties on the estimation of the thermal structure function from noisy thermal impedance transients
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