OrbitalTrajectories.jl is a modern orbital trajectory design, optimisation, and analysis library for Julia, providing methods and tools for designing spacecraft orbits and transfers via high-performance simulations of astrodynamical models.

High level functions for analyzing the output of simulations

A julia package for representing and manipulating model semantics

WIP successor to Soss.jl

Modeling and Simulation of 3D systems

A framework for developing multi-scale arrays for use in scientific machine learning (SciML) simulations

The amazing Reaction Mechanism Simulator for simulating large chemical kinetic mechanisms

A simple tool for simulating trapped ion systems

Simulation and visualization of articulated rigid body systems in Julia

A Julia package for Deep Backwards Stochastic Differential Equation (Deep BSDE) and Feynman-Kac methods to solve high-dimensional PDEs without the curse of dimensionality

Bayesian Generalized Linear models using `@formula` syntax.

Global glacier model using Universal Differential Equations for climate-glacier interactions

Turing + Makie = Turkie

Transformations to contrained variables from ℝⁿ.

An open-source framework written in Julia for global integrated assessment models.

An open source model predictive control package for Julia.

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Atomic graph models for molecules and crystals in Julia

Delay differential equation (DDE) solvers in Julia for the SciML scientific machine learning ecosystem. Covers neutral and retarded delay differential equations, and differential-algebraic equations.

Robust and optimal design and analysis of linear control systems

FMIFlux.jl is a free-to-use software library for the Julia programming language, which offers the ability to place FMUs (fmi-standard.org) everywhere inside of your ML topologies and still keep the resulting model trainable with a standard (or custom) FluxML training process.

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Definition of dynamical systems and integrators for DynamicalSystems.jl

C-code generation and an interface between ControlSystems.jl and SymPy.jl

Finds relationships between the parameters of a mathematical model

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Measure the distance between two spectra/signals using optimal transport and related metrics

Boundary value problem (BVP) solvers for scientific machine learning (SciML)

Embedded finite element methods in Julia

Gmsh generated meshes for Gridap

Methods for computational information geometry

A Petri net modeling framework for the Julia programming language

A suite of tools for solving Nonlinear Schrodinger equations via higher-order algorithms and Darboux transformations.

Examples of how to use the modeling capabilities developed under the Scalable Integrated Infrastructure Planning Initiative at NREL.

Examples for Bayesian inference using DynamicHMC.jl and related packages.

Comparing performance and results of mcmc options using Julia

Detect and track blobs in video

Quantum Toolbox in Julia

An efficient Julia framwork for Hierarchical Equations of Motion (HEOM) in open quantum systems

Makie plotting recipes for Gridap