It develops, deploys and maintains computational infrastructure — from supercomputers to desktop PCs — dedicated solely to the use of Flatiron researchers.
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.
Columbia University, the Flatiron Institute in New York City and the Max Planck Society in Germany have created a partnership, called the Center for Nonequilibrium Quantum Phenomena.
- | Columbia University
- | Max Planck Institute for the Structure and Dynamics of Matter in Hamburg (MPSD)
- | Max Planck Institute for Polymer Research in Mainz (MPIP)
For distinguished scientists with a particular interest in diversity and inclusion
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.
A major effort of the Flatiron Institute is the development and support of high-quality, open-source software for research.
Approximating the Gaussian as a Sum of Exponentials and Its Applications to the Fast Gauss Transform
We develop efficient and accurate sum-of-exponential (SOE) approximations for the Gaussian using rational approximation of the exponential function on the…Communications in Computational Physics
Modules for Experiments in Stellar Astrophysics (MESA): Time-Dependent Convection, Energy Conservation, Automatic Differentiation, and Infrastructure
We update the capabilities of the open-knowledge software instrument Modules for Experiments in Stellar Astrophysics (MESA). The new auto_diff module…arXiv: 2208.03651
Small cell clusters exhibit numerous phenomena typically associated with complex systems, such as division of labour and programmed cell death.…Interface Focus
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.