Dependency Packages
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Turing.jl2026Bayesian inference with probabilistic programming.
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NeuralPDE.jl966Physics-Informed Neural Networks (PINN) Solvers of (Partial) Differential Equations for Scientific Machine Learning (SciML) accelerated simulation
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DiffEqTutorials.jl713Tutorials for doing scientific machine learning (SciML) and high-performance differential equation solving with open source software.
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Optimization.jl712Mathematical 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.
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GalacticOptim.jl712Mathematical 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.
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StatisticalRethinking.jl386Julia package with selected functions in the R package `rethinking`. Used in the SR2... projects.
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ProfileView.jl347Visualization of Julia profiling data
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Modia.jl321Modeling and simulation of multidomain engineering systems
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SnoopCompile.jl309Provide insights about latency (TTFX) for Julia packages
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PowerSystems.jl306Data structures in Julia to enable power systems analysis. Part of the Scalable Integrated Infrastructure Planning Initiative at the National Renewable Energy Lab.
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PowerSimulations.jl279Julia for optimization simulation and modeling of PowerSystems. Part of the Scalable Integrated Infrastructure Planning Initiative at the National Renewable Energy Lab.
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MCMCChains.jl266Types and utility functions for summarizing Markov chain Monte Carlo simulations
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Metaheuristics.jl253High-performance metaheuristics for optimization coded purely in Julia.
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InfiniteOpt.jl251An intuitive modeling interface for infinite-dimensional optimization problems.
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AdvancedHMC.jl228Robust, modular and efficient implementation of advanced Hamiltonian Monte Carlo algorithms
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Stan.jl211Stan.jl illustrates the usage of the 'single method' packages, e.g. StanSample, StanOptimize, etc.
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Clarabel.jl173Clarabel.jl: Interior-point solver for convex conic optimisation problems in Julia.
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PowerSimulationsDynamics.jl173Julia package to run Dynamic Power System simulations. Part of the Scalable Integrated Infrastructure Planning Initiative at the National Renewable Energy Lab.
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TuringModels.jl163Implementations of the models from the Statistical Rethinking book with Turing.jl
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DynamicPPL.jl157Implementation of domain-specific language (DSL) for dynamic probabilistic programming
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PProf.jl155Export Julia profiles to the pprof format
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StatProfilerHTML.jl138Show Julia profiling data in an explorable HTML page
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AugmentedGaussianProcesses.jl135Gaussian Process package based on data augmentation, sparsity and natural gradients
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PlutoSliderServer.jl132Web server to run just the `@bind` parts of a Pluto.jl notebook
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PkgBenchmark.jl130Easy benchmark tracking for packages
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Kinetic.jl122Universal modeling and simulation of fluid mechanics upon machine learning. From the Boltzmann equation, heading towards multiscale and multiphysics flows.
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DiffEqBayes.jl121Extension functionality which uses Stan.jl, DynamicHMC.jl, and Turing.jl to estimate the parameters to differential equations and perform Bayesian probabilistic scientific machine learning
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Wflow.jl115Hydrological modeling
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ViscousFlow.jl97A framework for simulating viscous incompressible flows about arbitrary body shapes.
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AdvancedMH.jl88Robust implementation for random-walk Metropolis-Hastings algorithms
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Dynare.jl86A Julia rewrite of Dynare: solving, simulating and estimating DSGE models.
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CalibrateEmulateSample.jl84Stochastic Optimization, Learning, Uncertainty and Sampling
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EasyModelAnalysis.jl79High level functions for analyzing the output of simulations
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AbstractMCMC.jl79Abstract types and interfaces for Markov chain Monte Carlo methods
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Pathfinder.jl75Preheat your MCMC
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Modia3D.jl74Modeling and Simulation of 3D systems
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Atom.jl71Julia Client for Atom
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TuringGLM.jl71Bayesian Generalized Linear models using `@formula` syntax.
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ODINN.jl68Global glacier model using Universal Differential Equations for climate-glacier interactions
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Turkie.jl68Turing + Makie = Turkie
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