The threshold energy of low temperature Langevin dynamics for pure spherical spin glasses
From MaRDI portal
Publication:6641013
DOI10.1002/cpa.22197MaRDI QIDQ6641013
Publication date: 20 November 2024
Published in: Communications on Pure and Applied Mathematics (Search for Journal in Brave)
Cites Work
- Unnamed Item
- Unnamed Item
- Unnamed Item
- The Aizenman-Sims-Starr scheme and Parisi formula for mixed \(p\)-spin spherical models
- Parisi formula for the ground state energy in the mixed \(p\)-spin model
- Algorithmic thresholds for tensor PCA
- Free energy of the spherical mean field model
- Universality of the REM for dynamics of mean-field spin glasses
- Symmetric Langevin spin glass dynamics
- Averaged and quenched propagation of chaos for spin glass dynamics
- The geometry of the Gibbs measure of pure spherical spin glasses
- The complexity of spherical \(p\)-spin models: a second moment approach
- Long time behaviour of the solution to non-linear Kraichnan equations
- Sanov results for Glauber spin-glass dynamics
- The Parisi ultrametricity conjecture
- An emergent autonomous flow for mean-field spin glasses
- Diffusions interacting through a random matrix: universality via stochastic Taylor expansion
- Triviality of the geometry of mixed \(p\)-spin spherical Hamiltonians with external field
- Optimization of mean-field spin glasses
- A spectral condition for spectral gap: fast mixing in high-temperature Ising models
- Dynamics for spherical spin glasses: disorder dependent initial conditions
- Bounding flows for spherical spin glass dynamics
- On the spectral gap of spherical spin glass dynamics
- The extremal process of critical points of the pure \(p\)-spin spherical spin Glass model
- Cugliandolo-Kurchan equations for dynamics of spin-glasses
- Complexity of random smooth functions on the high-dimensional sphere
- The Parisi formula for mixed \(p\)-spin models
- The Parisi formula
- Performance of Sequential Local Algorithms for the Random NAE-$K$-SAT Problem
- Universality and extremal aging for dynamics of spin glasses on subexponential time scales
- Course 8 Dynamics of trap models
- Random Matrices and Complexity of Spin Glasses
- Dynamical TAP approach to mean field glassy systems
- Following the Ground States of <scp>Full‐RSB</scp> Spherical Spin Glasses
- Concentration of the complexity of spherical pure p-spin models at arbitrary energies
- On Nonconvex Optimization for Machine Learning
- Optimization of the Sherrington--Kirkpatrick Hamiltonian
- Dynamics of mean field spin glasses on short and long timescales
- Tight query complexity lower bounds for PCA via finite sample deformed wigner law
- The arcsine law as a universal aging scheme for trap models
- Gradient descent dynamics in the mixed p-spin spherical model: finite-size simulations and comparison with mean-field integration
- Limiting dynamics for spherical models of spin glasses at high temperature
- Aging of spherical spin glasses
- TAP approach for multispecies spherical spin glasses II: the free energy of the pure models
- Entropic independence: optimal mixing of down-up random walks
- The ground state energy and concentration of complexity in spherical bipartite models
- Complexity of bipartite spherical spin glasses
- Optimizing mean field spin glasses with external field
- Hardness of Random Optimization Problems for Boolean Circuits, Low-Degree Polynomials, and Langevin Dynamics
This page was built for publication: The threshold energy of low temperature Langevin dynamics for pure spherical spin glasses
