Solaris: A Foundation Model for the Sun

Harris Abdul Majid; Pietro Sittoni; Francesco Tudisco

Solaris: A Foundation Model for the Sun

Harris Abdul Majid, Pietro Sittoni, Francesco Tudisco

School of Mathematics

Research output: Contribution to conference › Poster › peer-review

Abstract

Foundation models have demonstrated remarkable success across various scientific domains, motivating our exploration of their potential in solar physics. In this paper, we present Solaris, the first foundation model for forecasting the Sun's atmosphere. We leverage 13 years of full-disk, multi-wavelength solar imagery from the Solar Dynamics Observatory, spanning a complete solar cycle, to pre-train Solaris for 12-hour interval forecasting. Solaris is built on a large-scale 3D Swin Transformer architecture with 109 million parameters. Our experiments show that increasing the number of model parameters leads to improved performance, aligning with established scaling laws in other domains. We demonstrate Solaris' ability to generalize by fine-tuning on a low-data regime using a single wavelength (1700 Å), that was not included in pre-training, outperforming models trained from scratch on this specific wavelength. Our results indicate that Solaris can effectively capture the complex dynamics of the solar atmosphere and transform solar forecasting.

Original language	English
Publication status	Published - 15 Dec 2024
Event	Workshop: Foundation Models for Science: Progress, Opportunities and Challenges at NeurIPS 2024 - Vancouver, Canada Duration: 15 Dec 2024 → …

Workshop

Workshop	Workshop: Foundation Models for Science: Progress, Opportunities and Challenges at NeurIPS 2024
Country/Territory	Canada
City	Vancouver
Period	15/12/24 → …

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Cite this

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title = "Solaris: A Foundation Model for the Sun",

abstract = "Foundation models have demonstrated remarkable success across various scientific domains, motivating our exploration of their potential in solar physics. In this paper, we present Solaris, the first foundation model for forecasting the Sun's atmosphere. We leverage 13 years of full-disk, multi-wavelength solar imagery from the Solar Dynamics Observatory, spanning a complete solar cycle, to pre-train Solaris for 12-hour interval forecasting. Solaris is built on a large-scale 3D Swin Transformer architecture with 109 million parameters. Our experiments show that increasing the number of model parameters leads to improved performance, aligning with established scaling laws in other domains. We demonstrate Solaris' ability to generalize by fine-tuning on a low-data regime using a single wavelength (1700 {\AA}), that was not included in pre-training, outperforming models trained from scratch on this specific wavelength. Our results indicate that Solaris can effectively capture the complex dynamics of the solar atmosphere and transform solar forecasting.",

author = "\{Abdul Majid\}, Harris and Pietro Sittoni and Francesco Tudisco",

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TY - CONF

T1 - Solaris: A Foundation Model for the Sun

AU - Abdul Majid, Harris

AU - Sittoni, Pietro

AU - Tudisco, Francesco

PY - 2024/12/15

Y1 - 2024/12/15

N2 - Foundation models have demonstrated remarkable success across various scientific domains, motivating our exploration of their potential in solar physics. In this paper, we present Solaris, the first foundation model for forecasting the Sun's atmosphere. We leverage 13 years of full-disk, multi-wavelength solar imagery from the Solar Dynamics Observatory, spanning a complete solar cycle, to pre-train Solaris for 12-hour interval forecasting. Solaris is built on a large-scale 3D Swin Transformer architecture with 109 million parameters. Our experiments show that increasing the number of model parameters leads to improved performance, aligning with established scaling laws in other domains. We demonstrate Solaris' ability to generalize by fine-tuning on a low-data regime using a single wavelength (1700 Å), that was not included in pre-training, outperforming models trained from scratch on this specific wavelength. Our results indicate that Solaris can effectively capture the complex dynamics of the solar atmosphere and transform solar forecasting.

AB - Foundation models have demonstrated remarkable success across various scientific domains, motivating our exploration of their potential in solar physics. In this paper, we present Solaris, the first foundation model for forecasting the Sun's atmosphere. We leverage 13 years of full-disk, multi-wavelength solar imagery from the Solar Dynamics Observatory, spanning a complete solar cycle, to pre-train Solaris for 12-hour interval forecasting. Solaris is built on a large-scale 3D Swin Transformer architecture with 109 million parameters. Our experiments show that increasing the number of model parameters leads to improved performance, aligning with established scaling laws in other domains. We demonstrate Solaris' ability to generalize by fine-tuning on a low-data regime using a single wavelength (1700 Å), that was not included in pre-training, outperforming models trained from scratch on this specific wavelength. Our results indicate that Solaris can effectively capture the complex dynamics of the solar atmosphere and transform solar forecasting.

M3 - Poster

T2 - Workshop: Foundation Models for Science: Progress, Opportunities and Challenges<br/>at NeurIPS 2024

Y2 - 15 December 2024

ER -

Solaris: A Foundation Model for the Sun

Abstract

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