Flatiron Institute

The mission of the Flatiron Institute is to advance scientific research through computational methods, including data analysis, theory, modeling and simulation.

Simons Foundation

Our Centers

Center for Computational Astrophysics

Center for Computational Biology

Center for Computational Mathematics

Center for Computational Quantum Physics

Scientific Computing Core

The Scientific Computing Core (SCC) is the technical backbone of the Flatiron Institute.

It develops, deploys and maintains computational infrastructure — from supercomputers to desktop PCs — dedicated solely to the use of Flatiron researchers.

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A major effort of the Flatiron Institute is the development and support of high-quality, open-source software for research.

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Research Highlights

June 12, 2019

Wavefunction positivization via automatic differentiation

G. Torlai, Juan Carrasquilla, M. Fishman, Roger G. Melko, Matthew P. A. Fisher

We introduce a procedure to systematically search for a local unitary transformation that maps a wavefunction with a non-trivial sign…

arXiv:1906.04654

June 6, 2019

Reaching the continuum limit in finite-temperature ab initio field-theory computations in many-fermion systems

Y. He, H. Shi, S. Zhang

Finite-temperature, grand-canonical computations based on field theory are widely applied in areas including condensed matter physics, ultracold atomic gas systems,…

arXiv:1906.02247

May 29, 2019

Confinement of magnetism in atomically thin La0.7Sr0.3CrO3/La0.7Sr0.3MnO3 heterostructures

Sanaz Koohfar, A. Georgescu, Aubrey N. Penn, James M. LeBeau, Elke Arenholz , Divine P. Kumah

At crystalline interfaces where a valence-mismatch exists, electronic, and structural interactions may occur to relieve the polar mismatch, leading to…

Nature Partner Journals Quantum Materials

News & Announcements

Evidence for a Dark Matter Clump in the Milky Way (Sky & Telescope)

Portraits of Dr. Ingrid Daubechies, James B. Duke Professor of Mathematics and Electrical and Computer Engineering at Duke University in Durham, North Carolina, Friday, May 24, 2019 (Justin Cook for The Simons Foundation)

Making Wavelets: A Profile of Ingrid Daubechies By Yen Duong

Laser-Controlled Novel Superconductors Could Help Pave the Way to Quantum Computers

Leadership

David Spergel, Ph.D.

Director, CCA

David Spergel joined the foundation in 2016 to lead its Center for Computational Astrophysics. He is an astrophysicist with research interests ranging from the search for planets around nearby stars to the shape of the universe.

Michael Shelley, Ph.D.

Director, CCB

Michael Shelley joined the Simons Foundation in 2016 to work on the modeling and simulation of complex systems arising in physics and biology.

Leslie Greengard, M.D., Ph.D.

Director, CCM

Leslie Greengard joined the Simons Foundation in 2013 as founding director of the Simons Center for Data Analysis, now called the Center for Computational Biology. Prior to that, Greengard served as director of the Courant Institute of Mathematical Sciences at New York University.

Antoine Georges, Ph.D.

Director, CCQ

Antoine Georges is a professor of physics at the Collège de France, where he holds the chair in condensed matter physics. He also has joint appointments with École Polytechnique and the University of Geneva. He received his Ph.D. from the École Normale Supérieure in 1988.…

Andrew Millis, Ph.D.

Co-Director, CCQ

Andrew Millis is co-director of the Center for Computational Quantum Physics and associate director for Physics at the Simons Foundation. He has done fundamental research on heavy fermion compounds, quantum phase transitions, ‘colossal’ magnetoresistance materials and high transition-temperature superconductivity.

Nick Carriero, Ph.D.

Co-Director, SCC

Nick Carriero came to the Simons Foundation in 2014 from Yale University, where he was a senior research scientist in computer science and co-director of the W.M. Keck Biotechnology Resource Laboratory’s high-performance computing resource.

Ian Fisk, Ph.D.