图解模拟:公开数据发布

IF 16.281
Dylan Nelson, Volker Springel, Annalisa Pillepich, Vicente Rodriguez-Gomez, Paul Torrey, Shy Genel, Mark Vogelsberger, Ruediger Pakmor, Federico Marinacci, Rainer Weinberger, Luke Kelley, Mark Lovell, Benedikt Diemer, Lars Hernquist
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引用次数: 415

摘要

我们展示了IllustrisTNG项目的TNG100和TNG300模拟的所有数据的完整公开发布。IllustrisTNG是一套大容量,宇宙学,重力磁流体动力学模拟,运行与移动网格代码Arepo。TNG包括一个全面的星系形成物理模型,每个TNG模拟自一致地解决了暗物质、宇宙气体、发光恒星和超大质量黑洞从早期到现在的耦合演化,\(z=0\)。每个旗舰运行- tng50, TNG100和tng300 -都附有光晕/亚光晕目录,合并树,低分辨率和暗物质对应,所有这些都有100个快照。我们讨论了使用TNG时的科学和数字注意事项。目前在线可直接访问的数据量为~ 750tb,包括1200个全卷快照和~ 80000个高时间分辨率子盒快照。这将在TNG50的未来版本中增加到~1.1 PB。数据访问和分析示例在IDL, Python和Matlab中可用。我们描述了基于web的API中的改进和新功能,包括按需可视化和星系和晕的分析,探索性绘制缩放关系和星系和晕属性之间的其他关系,以及新的JupyterLab界面。这提供了一个在线的、基于浏览器的、近乎原生的数据分析平台,使用户能够通过本地访问TNG数据进行计算,从而减轻了下载大型数据集的需要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

The IllustrisTNG simulations: public data release

The IllustrisTNG simulations: public data release

We present the full public release of all data from the TNG100 and TNG300 simulations of the IllustrisTNG project. IllustrisTNG is a suite of large volume, cosmological, gravo-magnetohydrodynamical simulations run with the moving-mesh code Arepo. TNG includes a comprehensive model for galaxy formation physics, and each TNG simulation self-consistently solves for the coupled evolution of dark matter, cosmic gas, luminous stars, and supermassive black holes from early time to the present day, \(z=0\). Each of the flagship runs—TNG50, TNG100, and TNG300—are accompanied by halo/subhalo catalogs, merger trees, lower-resolution and dark-matter only counterparts, all available with 100 snapshots. We discuss scientific and numerical cautions and caveats relevant when using TNG.

The data volume now directly accessible online is ~750 TB, including 1200 full volume snapshots and ~80,000 high time-resolution subbox snapshots. This will increase to ~1.1 PB with the future release of TNG50. Data access and analysis examples are available in IDL, Python, and Matlab. We describe improvements and new functionality in the web-based API, including on-demand visualization and analysis of galaxies and halos, exploratory plotting of scaling relations and other relationships between galactic and halo properties, and a new JupyterLab interface. This provides an online, browser-based, near-native data analysis platform enabling user computation with local access to TNG data, alleviating the need to download large datasets.

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期刊介绍: Computational Astrophysics and Cosmology (CompAC) is now closed and no longer accepting submissions. However, we would like to assure you that Springer will maintain an archive of all articles published in CompAC, ensuring their accessibility through SpringerLink's comprehensive search functionality.
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