Bayesian inference with probabilistic programming.

Physics-Informed Neural Networks (PINN) Solvers of (Partial) Differential Equations for Scientific Machine Learning (SciML) accelerated simulation

Tutorials for doing scientific machine learning (SciML) and high-performance differential equation solving with open source software.

Mathematical Optimization in Julia. Local, global, gradient-based and derivative-free. Linear, Quadratic, Convex, Mixed-Integer, and Nonlinear Optimization in one simple, fast, and differentiable interface.

Implementations of the models from the Statistical Rethinking book with Turing.jl

Universal modeling and simulation of fluid mechanics upon machine learning. From the Boltzmann equation, heading towards multiscale and multiphysics flows.

Extension functionality which uses Stan.jl, DynamicHMC.jl, and Turing.jl to estimate the parameters to differential equations and perform Bayesian probabilistic scientific machine learning

High level functions for analyzing the output of simulations

Preheat your MCMC

Bayesian Generalized Linear models using `@formula` syntax.

Turing + Makie = Turkie

Efficient, Accurate, and Streamlined Training of Physics-Informed Neural Networks

Methods for computational information geometry

Common functions in actuarial and financial routines

Comparing performance and results of mcmc options using Julia

An interface for accelerated simulation of high-dimensional collisionless and electrostatic plasmas.

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Composable contracts, models, and functions that allow for modeling of both simple and complex financial instruments

Octofitter is a Julia package for performing Bayesian inference against direct images of exoplanets, relative astrometry, and astrometric acceleration of the host star.

Implementations of Infinitesimal Continuous Normalizing Flows Algorithms in Julia

The Julia implementation of the generalised hierarchical Gaussian filter

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Differentiable JUlia ICE model

The base package for Optimization.jl, containing the structs and basic functions for it.

EHT Image domain analysis through template matching.

Building and using pyramids for large raster data

Lightweight module of neural differential equations in Kinetic.jl

A Julia package for behavioural modeling

Optimal experimental design of ODE and DAE systems in julia

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Ship maneuvering simulation tool with respect to ShipMMG model

Symmetry-allowed k ⋅ p expansions

A Julia implementation of estimation and validation algorithms for time series compatible with incomplete data.

Geometry optimization for molecular simulation

Subspace Inference package for uncertainty analysis in deep neural networks and neural ordinary differential equations using Julia

Bayesian Safety Signal Detection in Julia

Julia Package for Active Inference

Lightweight module for fusing physical and neural models

Power spectrum inference of irregularly sampled time series using Gaussian Processes in Julia

A Julia package to provide RML imaging methods for high-resolution radio interferometry