no code implementations • 20 Mar 2023 • Jimmy Aronsson, David I. Müller, Daniel Schuh
Lattice gauge equivariant convolutional neural networks (L-CNNs) are a framework for convolutional neural networks that can be applied to non-Abelian lattice gauge theories without violating gauge symmetry.
no code implementations • 23 Dec 2021 • Srinath Bulusu, Matteo Favoni, Andreas Ipp, David I. Müller, Daniel Schuh
The crucial role played by the underlying symmetries of high energy physics and lattice field theories calls for the implementation of such symmetries in the neural network architectures that are applied to the physical system under consideration.
no code implementations • 23 Dec 2021 • Srinath Bulusu, Matteo Favoni, Andreas Ipp, David I. Müller, Daniel Schuh
In recent years, the use of machine learning has become increasingly popular in the context of lattice field theories.
no code implementations • 21 Dec 2021 • Matteo Favoni, Andreas Ipp, David I. Müller, Daniel Schuh
In these proceedings we present lattice gauge equivariant convolutional neural networks (L-CNNs) which are able to process data from lattice gauge theory simulations while exactly preserving gauge symmetry.
1 code implementation • 8 Nov 2021 • Matteo Favoni, Andreas Ipp, David I. Müller, Daniel Schuh
We review a novel neural network architecture called lattice gauge equivariant convolutional neural networks (L-CNNs), which can be applied to generic machine learning problems in lattice gauge theory while exactly preserving gauge symmetry.
1 code implementation • 26 Mar 2021 • Srinath Bulusu, Matteo Favoni, Andreas Ipp, David I. Müller, Daniel Schuh
The rising adoption of machine learning in high energy physics and lattice field theory necessitates the re-evaluation of common methods that are widely used in computer vision, which, when applied to problems in physics, can lead to significant drawbacks in terms of performance and generalizability.
1 code implementation • 23 Dec 2020 • Matteo Favoni, Andreas Ipp, David I. Müller, Daniel Schuh
We propose Lattice gauge equivariant Convolutional Neural Networks (L-CNNs) for generic machine learning applications on lattice gauge theoretical problems.