The Physics of Machine Learning: An Intuitive Introduction for the Physical Scientist

no code implementations • 27 Nov 2021 • Stephon Alexander, Sarah Bawabe, Batia Friedman-Shaw, Michael W. Toomey

This article is intended for physical scientists who wish to gain deeper insights into machine learning algorithms which we present via the domain they know best, physics.

BIG-bench Machine Learning

The Autodidactic Universe

no code implementations • 29 Mar 2021 • Stephon Alexander, William J. Cunningham, Jaron Lanier, Lee Smolin, Stefan Stanojevic, Michael W. Toomey, Dave Wecker

We discover maps that put each of these matrix models in correspondence with both a gauge/gravity theory and a mathematical model of a learning machine, such as a deep recurrent, cyclic neural network.

Deep learning the astrometric signature of dark matter substructure

no code implementations • 26 Aug 2020 • Kyriakos Vattis, Michael W. Toomey, Savvas M. Koushiappas

We study the application of machine learning techniques for the detection of the astrometric signature of dark matter substructure.

Cosmology and Nongalactic Astrophysics Astrophysics of Galaxies

Deep Learning the Morphology of Dark Matter Substructure

1 code implementation • 16 Sep 2019 • Stephon Alexander, Sergei Gleyzer, Evan McDonough, Michael W. Toomey, Emanuele Usai

With thousands of strong lensing images anticipated with the coming launch of LSST, we expect that supervised and unsupervised deep learning models will play a crucial role in determining the nature of dark matter.

Cosmology and Nongalactic Astrophysics Instrumentation and Methods for Astrophysics High Energy Physics - Phenomenology