The Accurate Particle Tracer Code

• Published in: arXiv.org
• Main Authors: Wang, Yulei, Liu, Jian, Qin, Hong, Zhi Yu ans Yicun Yao
• Format: Paper Journal Article
• Language: English
• Published: Ithaca Cornell University Library, arXiv.org 22.10.2021
• Subjects: Algorithms; Computational mathematics; Computer simulation; Data analysis; Energetic particles; Geometric algorithms; Microprocessors; Modular design; Modules; Numerical methods; Parallel processing; Physics - Plasma Physics; Plasma physics; Plasmas (physics); Radiation belts; Software engineering; Tokamak devices
• ISSN: 2331-8422
• DOI: 10.48550/arxiv.1609.07748

The Accurate Particle Tracer (APT) code is designed for large-scale particle simulations on dynamical systems. Based on a large variety of advanced geometric algorithms, APT possesses long-term numerical accuracy and stability, which are critical for solving multi-scale and non-linear problems. Under the well-designed integrated and modularized framework, APT serves as a universal platform for researchers from different fields, such as plasma physics, accelerator physics, space science, fusion energy research, computational mathematics, software engineering, and high-performance computation. The APT code consists of seven main modules, including the I/O module, the initialization module, the particle pusher module, the parallelization module, the field configuration module, the external force-field module, and the extendible module. The I/O module, supported by Lua and Hdf5 projects, provides a user-friendly interface for both numerical simulation and data analysis. A series of new geometric numerical methods and key physical problems, such as runaway electrons in tokamaks and energetic particles in Van Allen belt, have been studied using APT. As an important realization, the APT-SW version has been successfully distributed on the world's fastest computer, the Sunway TaihuLight supercomputer, by supporting master-slave architecture of Sunway many-core processors.