2018
DOI: 10.1186/s40668-018-0026-4
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Fast cosmic web simulations with generative adversarial networks

Abstract: Dark matter in the universe evolves through gravity to form a complex network of halos, filaments, sheets and voids, that is known as the cosmic web. Computational models of the underlying physical processes, such as classical N-body simulations, are extremely resource intensive, as they track the action of gravity in an expanding universe using billions of particles as tracers of the cosmic matter distribution. Therefore, upcoming cosmology experiments will face a computational bottleneck that may limit the e… Show more

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Cited by 98 publications
(83 citation statements)
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“…Furthermore we have explored, and reproduced the statistical variety present in simulations, in addition to the mean distribution. It remains an interesting question for the applicability of these techniques to science whether the increased precision achieved in this case, compared to other similar work [16], is due to the training procedure as outlined in Sect. 2.3 or to a difference in the underlying data.…”
Section: Discussion and Future Workmentioning
confidence: 86%
“…Furthermore we have explored, and reproduced the statistical variety present in simulations, in addition to the mean distribution. It remains an interesting question for the applicability of these techniques to science whether the increased precision achieved in this case, compared to other similar work [16], is due to the training procedure as outlined in Sect. 2.3 or to a difference in the underlying data.…”
Section: Discussion and Future Workmentioning
confidence: 86%
“…Finally, although a single catch-all name does not do such a diverse field justice, simulation will be used to describe the data products from any numerical or computational method. For example, cosmological simulations (e.g., Agarwal, Davé, & Bassett, 2018;Hui, Aragon, Cui, & Flegal, 2018;Lucie-Smith, Peiris, Pontzen, & Lochner, 2018;Nadler, Mao, Wechsler, Garrison-Kimmel, & Wetzel, 2018;Rodríguez et al, 2018) follow the gravity-induced formation and growth of structures, requiring approximations to various physical mechanisms, a suitable choice of initial conditions, and a strategy for time-based evolution (down to some minimum level of accuracy).…”
Section: The Nature Of the Datamentioning
confidence: 99%
“…Falling within the generation and reconstruction category (Section 2.2), GANs are likely to be the next most significant machine learning approach for astronomy. Early applications of GANs include generating dark matter structures in cosmological simulations (Diakogiannis et al, 2019;Rodríguez et al, 2018), the creation of realistic images of galaxies as an input to weak gravitational lensing analysis (Fussell & Moews, 2019), and deblending overlaps between foreground and background galaxies in highly crowded images (Reiman & Göhre, 2019).…”
Section: Techniquesmentioning
confidence: 99%
“…A generative model working on 2D slices from N-body simulations was developed by [6]. N-body slices have much more complex features, such as filaments and sheets, as they are not averaged out in projection.…”
Section: Related Workmentioning
confidence: 99%