The mission of the Flatiron Institute is to advance scientific research through computational methods, including data analysis, theory, modeling and simulation.
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Center for Computational Astrophysics
Flares From Magnetized Stars Can Forge Planets’ Worth of Gold, Other Heavy Elements
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Flatiron Institute researchers have identified a previously unknown way to make the universe’s heaviest atoms, such as gold, platinum and uranium. They calculate that a single flare from a supermagnetized star called a magnetar can produce the mass equivalent of 27 moons’ worth of these elements in one go.
Our Centers
Center for Computational Biology
Center for Computational Mathematics
Center for Computational Neuroscience
Center for Computational Quantum Physics
Scientific Computing Core
It develops, deploys and maintains computational infrastructure — from supercomputers to desktop PCs — dedicated solely to the use of Flatiron researchers.
Initiatives
Initiative for Computational Catalysis
The Simons Foundation Initiative for Computational Catalysis is a new effort within the Flatiron Institute dedicated to the development and application of computational techniques enabling the rational design of more efficient and more affordable catalysts.
Foundation Models of Science
Our goal is to accelerate the development of versatile foundation models tailored for numerical datasets and scientific machine learning tasks. The challenge we are undertaking is to build AI models which leverage information from heterogeneous datasets and across different scientific fields, which, contrary to domains like natural language processing, do not share a unifying representation.
Collaborative Work
Machine Learning at the Flatiron Institute
Machine learning has become an indispensable tool for computational science, and it is an active and growing area of research throughout the Flatiron Institute.
- CCM
- CCN
- CCA
- CCB
- CCQ
Structural and Molecular Biophysics
Underlying all biological processes are molecules and their interactions with each other. However, our ability to understand how these molecules function over biologically relevant scales remains very limited.
- CCB
- CCM
Learning the Universe
This collaboration aims to understand and determine the evolution and initial conditions of our universe, using observations via a Bayesian forward modeling approach.
- CCA
- | Columbia University
- | Lawrence Berkeley National Lab
- | Harvard University
- | Stockholm University
- | Institute D'Astrophysique de Paris
- | Université de Montreal
- | Princeton University
- | Carnegie Mellon University
- | Max-Planck Institute for Astrophysics
Flatiron Institute Idea Scholar Program
For distinguished scientists interested in developing scientific talent in the workforce and enabling pathways to science
Scholars may engage in a variety of activities, such as working on scientific projects, starting new collaborations, mentoring junior scientists, and organizing or participating in workshops and career development events.
Software
A major effort of the Flatiron Institute is the development and support of high-quality, open-source software for research.
Research Highlights
Learning normalized image densities via dual score matching
Learning probability models from data is at the heart of many machine learning endeavors, but is notoriously difficult due to…
arXiv:2506.05310Elucidating the representation of images within an unconditional diffusion model denoiser
Generative diffusion models learn probability densities over diverse image datasets by estimating the score with a neural network trained to…
arXiv:2506.01912Driven Similarity Renormalization Group with a Large Active Space: Applications to Oligoacenes, Zeaxanthin, and Chromium Dimer
Chenyang Li, Xiaoxue Wang, H. Zhai, Wei-Hai Fang
We present a new implementation of the driven similarity renormalization group (DSRG) based on a density matrix renormalization group (DMRG)…
Journal of Chemical Theory and ComputationNews & Announcements
Center for Computational Biology
July 09, 2025
Center for Computational Neuroscience
June 23, 2025
Center for Computational Quantum Physics
June 17, 2025
