Novel Kinetic 3D MHD Algorithm for High Performance Parallel Computing Systems

TL;DR

This paper introduces a new kinetic 3D MHD algorithm designed for high-performance parallel computing, incorporating electromagnetic interactions into a Boltzmann-like distribution, optimized for modern hybrid systems.

Contribution

It presents a novel kinetic scheme for MHD that integrates electromagnetic effects and is highly adaptable to parallel and hybrid computing architectures.

Findings

Efficient explicit numerical scheme for 3D MHD.

Easy adaptation to modern parallel and hybrid systems.

Enhanced computational performance in plasma physics simulations.

Abstract

The impressive progress of the kinetic schemes in the solution of gas dynamics problems and the development of effective parallel algorithms for modern high performance parallel computing systems led to the development of advanced methods for the solution of the magnetohydrodynamics problem in the important area of plasma physics. The novel feature of the method is the formulation of the complex Boltzmann-like distribution function of kinetic method with the implementation of electromagnetic interaction terms. The numerical method is based on the explicit schemes. Due to logical simplicity and its efficiency, the algorithm is easily adapted to modern high performance parallel computer systems including hybrid computing systems with graphic processors.