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arxiv: 2009.06133 · v2 · pith:QRJLQAQKnew · submitted 2020-09-14 · 🌌 astro-ph.CO · physics.comp-ph

Assessing the Hierarchical Hamiltonian Splitting Integrator for Collisionless N-body Simulations

classification 🌌 astro-ph.CO physics.comp-ph
keywords akdkfindintegratoradaptivecollisionlessdirecthamiltonianhierarchical
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The large dynamic range in some astrophysical N-body problems led to the use of adaptive multi-time-steps; however, the search for optimal strategies is still challenging. We numerically quantify the performance of the hierarchical Hamiltonian Splitting (HHS) integrator for collisionless simulations using a direct summation code. We compare HHS with the constant global time-step leapfrog integrator, and with the adaptive one (AKDK). We find that HHS is approximately reversible, whereas AKDK not. Therefore, it is possible to find a combination of parameters where the energy drift is considerably milder for HHS, resulting in a better performance. We conclude that HHS is an attractive alternative to AKDK, and it is certainly advantageous for direct summation and P3M codes. Also, we find advantages with GADGET4 (Tree/FMM) HHS implementation that are worth exploring further.

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