DeepXDE: A Deep Learning Library for Solving Differential Equations

A Model-Constrained Tangent Slope Learning Approach for Dynamical Systems, Optimal Transport for Parameter Identification of Chaotic Dynamics via Invariant Measures, A unified scalable framework for causal sweeping strategies for physics-informed neural networks (PINNs) and their temporal decompositions, One-dimensional ice shelf hardness inversion: clustering behavior and collocation resampling in physics-informed neural networks, Application of the dynamical system method and the deep learning method to solve the new (3+1)-dimensional fractional modified Benjamin-Bona-Mahony equation, Physics-informed neural networks for the Reynolds-averaged Navier-Stokes modeling of Rayleigh-Taylor turbulent mixing, Physics-informed neural networks with parameter asymptotic strategy for learning singularly perturbed convection-dominated problem, Physics-Informed Neural Networks for Solving Dynamic Two-Phase Interface Problems, VC-PINN: variable coefficient physics-informed neural network for forward and inverse problems of PDEs with variable coefficient, Deep learning methods for partial differential equations and related parameter identification problems, Approximation capabilities of measure-preserving neural networks, CoolPINNs: a physics-informed neural network modeling of active cooling in vascular systems, Enforcing continuous symmetries in physics-informed neural network for solving forward and inverse problems of partial differential equations, A nonlocal energy‐informed neural network for isotropic elastic solids with cracks under thermomechanical loads, The deep minimizing movement scheme, Physics-informed neural networks for approximating dynamic (hyperbolic) PDEs of second order in time: error analysis and algorithms, BINN: a deep learning approach for computational mechanics problems based on boundary integral equations, DNN modeling of partial differential equations with incomplete data, A dimension-augmented physics-informed neural network (DaPINN) with high level accuracy and efficiency, Novel DeepONet architecture to predict stresses in elastoplastic structures with variable complex geometries and loads, Complex dynamics on the one-dimensional quantum droplets via time piecewise PINNs, Deep learning data-driven multi-soliton dynamics and parameters discovery for the fifth-order Kaup-Kuperschmidt equation, Physics-informed deep learning for simultaneous surrogate modeling and PDE-constrained optimization of an airfoil geometry, Reliable extrapolation of deep neural operators informed by physics or sparse observations, Solving multi-material problems in solid mechanics using physics-informed neural networks based on domain decomposition technology, Exponential ReLU neural network approximation rates for point and edge singularities, FDM-PINN: Physics-informed neural network based on fictitious domain method, The robust physics-informed neural networks for a typical fourth-order phase field model, Pre-training strategy for solving evolution equations based on physics-informed neural networks, A method for computing inverse parametric PDE problems with random-weight neural networks, Multigrid-Augmented Deep Learning Preconditioners for the Helmholtz Equation, MGIC: Multigrid-in-Channels Neural Network Architectures, Optimal asset allocation under search frictions and stochastic interest rate, Stability estimate for a nonlinear coupled heat transfer model, Higher-order error estimates for physics-informed neural networks approximating the primitive equations, Capturing the diffusive behavior of the multiscale linear transport equations by asymptotic-preserving convolutional deeponets, HomPINNs: homotopy physics-informed neural networks for solving the inverse problems of nonlinear differential equations with multiple solutions, Variable linear transformation improved physics-informed neural networks to solve thin-layer flow problems, Adaptive task decomposition physics-informed neural networks, An extreme learning machine-based method for computational PDEs in higher dimensions, Transferable neural networks for partial differential equations, Weak adversarial networks for solving forward and inverse problems involving 2D incompressible Navier-Stokes equations, Loss-attentional physics-informed neural networks, Forward to the special topic on ``Solving differential equations with deep learning, Pre-training physics-informed neural network with mixed sampling and its application in high-dimensional systems, Random vibration of hysteretic systems under Poisson white noise excitations, Model order reduction for parameterized electromagnetic problems using matrix decomposition and deep neural networks, A Normalizing Field Flow Induced Two-Stage Stochastic Homogenization Method for Random Composite Materials, A Rate of Convergence of Weak Adversarial Neural Networks for the Second Order Parabolic PDEs, A Novel Deep Neural Network Algorithm for the Helmholtz Scattering Problem In the Unbounded Domain, Learning Specialized Activation Functions for Physics-Informed Neural Networks, Deep neural networks learning forward and inverse problems of two-dimensional nonlinear wave equations with rational solitons, Error analysis of deep Ritz methods for elliptic equations, MC-Nonlocal-PINNs: Handling Nonlocal Operators in PINNs Via Monte Carlo Sampling, NeuralUQ: A Comprehensive Library for Uncertainty Quantification in Neural Differential Equations and Operators, TNet: A Model-Constrained Tikhonov Network Approach for Inverse Problems, Boundary-safe PINNs extension: application to non-linear parabolic PDEs in counterparty credit risk, Numerical methods for backward stochastic differential equations: a survey, Asymptotic-preserving neural networks for multiscale time-dependent linear transport equations, Numerical computation of partial differential equations by hidden-layer concatenated extreme learning machine, Efficient multiscale modeling of heterogeneous materials using deep neural networks, Deep learning soliton dynamics and complex potentials recognition for 1D and 2D \(\mathcal{PT}\)-symmetric saturable nonlinear Schrödinger equations, Hybrid thermal modeling of additive manufacturing processes using physics-informed neural networks for temperature prediction and parameter identification, Deep neural operator for learning transient response of interpenetrating phase composites subject to dynamic loading, SPADE4: sparsity and delay embedding based forecasting of epidemics, A symmetry group based supervised learning method for solving partial differential equations, Finite basis physics-informed neural networks (FBPINNs): a scalable domain decomposition approach for solving differential equations, A learned conservative semi-Lagrangian finite volume scheme for transport simulations, Failure-Informed Adaptive Sampling for PINNs, A priori error estimate of deep mixed residual method for elliptic PDEs, Deep Ritz method for elliptical multiple eigenvalue problems, A neural network-based enrichment of reproducing kernel approximation for modeling brittle fracture, Discovering a reaction-diffusion model for Alzheimer's disease by combining PINNs with symbolic regression, A nonlinear-manifold reduced-order model and operator learning for partial differential equations with sharp solution gradients, The use of physics-informed neural network approach to image restoration via nonlinear PDE tools, Gradient-enhanced physics-informed neural networks based on transfer learning for inverse problems of the variable coefficient differential equations, An Adaptive Physics-Informed Neural Network with Two-Stage Learning Strategy to Solve Partial Differential Equations, Less Emphasis on Hard Regions: Curriculum Learning of PINNs for Singularly Perturbed Convection-Diffusion-Reaction Problems, Spectral operator learning for parametric PDEs without data reliance, DNN-MG: a hybrid neural network/finite element method with applications to 3D simulations of the Navier-Stokes equations, A deep learning method for multi-material diffusion problems based on physics-informed neural networks, Optimal Dirichlet boundary control by Fourier neural operators applied to nonlinear optics, A hybrid approach for solving the gravitational \(N\)-body problem with artificial neural networks, On mathematical modeling in image reconstruction and beyond, Applying artificial neural networks to solve the inverse problem of evaluating concentrations in multianalyte mixtures from biosensor signals, Residual-based attention in physics-informed neural networks, Towards discovery of the differential equations, Deep learning approximations for non-local nonlinear PDEs with Neumann boundary conditions, ExSpliNet: An interpretable and expressive spline-based neural network, Solving Allen-Cahn and Cahn-Hilliard Equations using the Adaptive Physics Informed Neural Networks, The model reduction of the Vlasov–Poisson–Fokker–Planck system to the Poisson–Nernst–Planck system via the Deep Neural Network Approach, Physics-Informed Neural Networks with Hard Constraints for Inverse Design, A Local Deep Learning Method for Solving High Order Partial Differential Equations, Identification and prediction of time-varying parameters of COVID-19 model: a data-driven deep learning approach, Solving forward and inverse problems of the logarithmic nonlinear Schrödinger equation with \(\mathcal{PT}\)-symmetric harmonic potential via deep learning, DeepM\&Mnet: inferring the electroconvection multiphysics fields based on operator approximation by neural networks, A New Artificial Neural Network Method for Solving Schrödinger Equations on Unbounded Domains, SPINN: sparse, physics-based, and partially interpretable neural networks for PDEs, Physics-informed neural networks for solving forward and inverse flow problems via the Boltzmann-BGK formulation, DeepM\&Mnet for hypersonics: predicting the coupled flow and finite-rate chemistry behind a normal shock using neural-network approximation of operators, A fast and accurate physics-informed neural network reduced order model with shallow masked autoencoder, Learning time-dependent PDEs with a linear and nonlinear separate convolutional neural network, MIONet: Learning Multiple-Input Operators via Tensor Product, When and why PINNs fail to train: a neural tangent kernel perspective, Deep neural network modeling of unknown partial differential equations in nodal space, A comprehensive and fair comparison of two neural operators (with practical extensions) based on FAIR data, Gradient-enhanced physics-informed neural networks for forward and inverse PDE problems, Meta-learning PINN loss functions, A deep neural network-based numerical method for solving contact problems, IGA-reuse-NET: a deep-learning-based isogeometric analysis-reuse approach with topology-consistent parameterization, Neural networks enforcing physical symmetries in nonlinear dynamical lattices: the case example of the Ablowitz-Ladik model, CAN-PINN: a fast physics-informed neural network based on coupled-automatic-numerical differentiation method, Physics-informed neural network simulation of multiphase poroelasticity using stress-split sequential training, Residual-based adaptivity for two-phase flow simulation in porous media using physics-informed neural networks, Lagrangian dual framework for conservative neural network solutions of kinetic equations, ReLU deep neural networks from the hierarchical basis perspective, Numerical approximation of partial differential equations by a variable projection method with artificial neural networks, Physics-informed neural networks for learning the homogenized coefficients of multiscale elliptic equations, Deep reinforcement learning of viscous incompressible flow, Scientific machine learning through physics-informed neural networks: where we are and what's next, Deep Unfitted Nitsche Method for Elliptic Interface Problems, A Rate of Convergence of Physics Informed Neural Networks for the Linear Second Order Elliptic PDEs, RPINNs: rectified-physics informed neural networks for solving stationary partial differential equations, Data-driven rogue waves and parameters discovery in nearly integrable \(\mathcal{PT}\)-symmetric Gross-Pitaevskii equations via PINNs deep learning, Solving flows of dynamical systems by deep neural networks and a novel deep learning algorithm, Fractional Chebyshev deep neural network (FCDNN) for solving differential models, Predicting the dynamic process and model parameters of the vector optical solitons in birefringent fibers \textit{via} the modified PINN, Discovering phase field models from image data with the pseudo-spectral physics informed neural networks, A-PINN: auxiliary physics informed neural networks for forward and inverse problems of nonlinear integro-differential equations, Adaptive deep neural networks methods for high-dimensional partial differential equations, Towards fast weak adversarial training to solve high dimensional parabolic partial differential equations using XNODE-WAN, Structure preservation for the deep neural network multigrid solver, Adaptively Detect and Accurately Resolve Macro-scale Shocks in an Efficient Equation-Free Multiscale Simulation, Deep Neural Network Surrogates for Nonsmooth Quantities of Interest in Shape Uncertainty Quantification, Improved deep neural networks with domain decomposition in solving partial differential equations, The deep learning Galerkin method for the general Stokes equations, Data-driven method to learn the most probable transition pathway and stochastic differential equation, A-WPINN algorithm for the data-driven vector-soliton solutions and parameter discovery of general coupled nonlinear equations, A comprehensive study of non-adaptive and residual-based adaptive sampling for physics-informed neural networks, Data-driven soliton mappings for integrable fractional nonlinear wave equations via deep learning with Fourier neural operator, DAS-PINNs: a deep adaptive sampling method for solving high-dimensional partial differential equations, Uncertainty quantification in scientific machine learning: methods, metrics, and comparisons, Physics-informed neural networks combined with polynomial interpolation to solve nonlinear partial differential equations, Surrogate modeling for Bayesian inverse problems based on physics-informed neural networks, Active learning based sampling for high-dimensional nonlinear partial differential equations, Long-time integration of parametric evolution equations with physics-informed DeepONets, Physics-informed neural networks for data-driven simulation: advantages, limitations, and opportunities, ADLGM: an efficient adaptive sampling deep learning Galerkin method, Isogeometric neural networks: a new deep learning approach for solving parameterized partial differential equations, A deep Fourier residual method for solving PDEs using neural networks, Transfer learning based physics-informed neural networks for solving inverse problems in engineering structures under different loading scenarios, Data-driven control of agent-based models: an equation/variable-free machine learning approach, Solving free-surface problems for non-shallow water using boundary and initial conditions-free physics-informed neural network (bif-PINN), Data-driven forward and inverse problems for chaotic and hyperchaotic dynamic systems based on two machine learning architectures, Neural network stochastic differential equation models with applications to financial data forecasting, Physics-informed neural networks based on adaptive weighted loss functions for Hamilton-Jacobi equations, Control of partial differential equations via physics-informed neural networks, An overview on deep learning-based approximation methods for partial differential equations, Forecasting of nonlinear dynamics based on symbolic invariance, An immersed boundary neural network for solving elliptic equations with singular forces on arbitrary domains, Hidden physics model for parameter estimation of elastic wave equations, Prediction and identification of physical systems by means of physically-guided neural networks with meaningful internal layers, Physics-informed neural network for modelling the thermochemical curing process of composite-tool systems during manufacture, Traveling wave solutions of partial differential equations via neural networks, Deep neural networks for large deformation of photo-thermo-pH responsive cationic gels, A finite element approximation of a current-induced magnetization dynamics model, A seamless multiscale operator neural network for inferring bubble dynamics, TONR: an exploration for a novel way combining neural network with topology optimization, Extreme learning machine collocation for the numerical solution of elliptic PDEs with sharp gradients, Data-driven vector soliton solutions of coupled nonlinear Schrödinger equation using a deep learning algorithm, Conditional physics informed neural networks, SINDy-PI: a robust algorithm for parallel implicit sparse identification of nonlinear dynamics, On the Convergence of Physics Informed Neural Networks for Linear Second-Order Elliptic and Parabolic Type PDEs, Unnamed Item, Numerical solution of the parametric diffusion equation by deep neural networks, Variational Monte Carlo -- bridging concepts of machine learning and high-dimensional partial differential equations, Exact imposition of boundary conditions with distance functions in physics-informed deep neural networks, PhyCRNet: physics-informed convolutional-recurrent network for solving spatiotemporal PDEs, Physics-informed graph neural Galerkin networks: a unified framework for solving PDE-governed forward and inverse problems, Deep learning of conjugate mappings, Data-driven discoveries of Bäcklund transformations and soliton evolution equations via deep neural network learning schemes, CENN: conservative energy method based on neural networks with subdomains for solving variational problems involving heterogeneous and complex geometries, Monte Carlo fPINNs: deep learning method for forward and inverse problems involving high dimensional fractional partial differential equations, Data-driven solutions and parameter discovery of the Sasa-Satsuma equation via the physics-informed neural networks method, A priori and a posteriori error estimates for the deep Ritz method applied to the Laplace and Stokes problem, Error analysis for physics-informed neural networks (PINNs) approximating Kolmogorov PDEs, Schwarz waveform relaxation-learning for advection-diffusion-reaction equations, Optimal control of PDEs using physics-informed neural networks, DIFFUSION ON FRACTAL OBJECTS MODELING AND ITS PHYSICS-INFORMED NEURAL NETWORK SOLUTION, Self-adaptive physics-informed neural networks, On stability and regularization for data-driven solution of parabolic inverse source problems, Neural eikonal solver: improving accuracy of physics-informed neural networks for solving eikonal equation in case of caustics, Robust modeling of unknown dynamical systems via ensemble averaged learning

• LBFGS-B
• TensorFlow
• DiffSharp
• PyTorch
• Adam
• DeepXDE
• PDE-Net
• DGM
• FPINNs
• ConvPDE-UQ
• DeepONet

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• Isogeometric analysis: CAD, finite elements, NURBS, exact geometry and mesh refinement
• The numerical solution of linear ordinary differential equations by feedforward neural networks
• A posteriori error estimation in finite element analysis
• The Deep Ritz Method: a deep learning-based numerical algorithm for solving variational problems
• DGM: a deep learning algorithm for solving partial differential equations
• Physics-informed neural networks for high-speed flows
• ConvPDE-UQ: convolutional neural networks with quantified uncertainty for heterogeneous elliptic partial differential equations on varied domains
• Quantifying total uncertainty in physics-informed neural networks for solving forward and inverse stochastic problems
• Adaptive activation functions accelerate convergence in deep and physics-informed neural networks
• Physics-informed neural networks: a deep learning framework for solving forward and inverse problems involving nonlinear partial differential equations
• Machine learning approximation algorithms for high-dimensional fully nonlinear partial differential equations and second-order backward stochastic differential equations
• Adaptive mesh refinement techniques for high-order shock capturing schemes for multi-dimensional hydrodynamic simulations
• Neural‐network‐based approximations for solving partial differential equations
• A Limited Memory Algorithm for Bound Constrained Optimization
• Solving high-dimensional partial differential equations using deep learning
• Hidden fluid mechanics: Learning velocity and pressure fields from flow visualizations
• Physics-Informed Generative Adversarial Networks for Stochastic Differential Equations
• Learning in Modal Space: Solving Time-Dependent Stochastic PDEs Using Physics-Informed Neural Networks
• fPINNs: Fractional Physics-Informed Neural Networks
• Learning representations by back-propagating errors