Ginnungagap -- a massively parallel cosmological initial conditions generator

TL;DR

Ginnungagap is an open-source, highly parallel code that efficiently generates large-scale cosmological initial conditions, supporting various resolutions and structures for advanced simulations.

Contribution

It introduces a modular, MPI+OpenMP parallel toolset for creating diverse cosmological initial conditions, including zoom-in and resolution extension modes.

Findings

Successfully generates initial conditions for large-scale simulations

Supports uniform and spatially varying resolutions

Demonstrates scalability and flexibility in test cases

Abstract

Ginnungagap is a fully parallel (MPI+OpenMP) code designed to generate cosmological initial conditions for simulations involving very large numbers of particles. It operates in several modes, including the creation of initial conditions with either uniform or spatially varying resolution (for "zoom-in" simulations). The initial conditions can be fully random or derived by extending the resolution of existing ones while preserving the large-scale structures. Ginnungagap is open source and modular, consisting of a collection of independent tools that can be used for a variety of tasks. In this paper, we describe the main features of Ginnungagap and present test results for different types of simulations prepared with it.