黑箱几何计算与Python:从理论到实践

Sebastian Koch, T. Schneider, Chengchen Li, Daniele Panozzo
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摘要

课程的第一部分是理论,并通过交互式Jupyter笔记本介绍有限元方法。它还涵盖了集成管道的最新进展,将网格划分和元素设计视为单一挑战,导致黑盒管道可以在没有任何参数调整的情况下解决10,000个野外网格的模拟。在第二部分中,我们将转向实践,介绍一组易于使用的用于几何计算应用程序的Python包。演示将在Jupyter笔记本中以实时编码的形式呈现。我们设计的库具有较浅的学习曲线,同时也使程序员能够轻松地完成各种复杂的任务。此外,这些库利用NumPy数组作为公共接口,使它们彼此之间以及与现有的科学计算包之间具有高度可组合性。最后,我们的库速度非常快,用c++完成大部分繁重的计算,而Python的常量开销最小。在课程中,我们将从几何处理、物理模拟和几何深度学习中呈现一组现实世界的例子。每个示例都是研究或工业中常见任务的原型,并在几行代码中实现。在课程结束时,与会者将接触到简单,可组合和高性能几何计算工具的瑞士军刀。
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Black Box Geometric Computing with Python: From Theory to Practice
The first part of the course is theoretical, and introduces the finite element method trough interactive Jupyter notebooks. It also covers recent advancements toward an integrated pipeline, considering meshing and element design as a single challenge, leading to a black box pipeline that can solve simulations on ten thousand in the wild meshes, without any parameter tuning. In the second part we will move to practice, introducing a set of easy-to-use Python packages for applications in geometric computing. The presentation will have the form of live coding in a Jupyter notebook. We have designed the presented libraries to have a shallow learning curve, while also enabling programmers to easily accomplish a wide variety of complex tasks. Furthermore, these libraries utilize NumPy arrays as a common interface, making them highly composable with each-other as well as existing scientific computing packages. Finally, our libraries are blazing fast, doing most of the heavy computations in C++ with a minimal constant-overhead interface to Python. In the course, we will present a set of real-world examples from geometry processing, physical simulation, and geometric deep learning. Each example is prototypical of a common task in research or industry and is implemented in a few lines of code. By the end of the course, attendees will have exposure to a swiss-army-knife of simple, composable, and high-performance tools for geometric computing.
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