Physics Packages
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QuDirac.jl48A library for performing quantum mechanics using Dirac notation in Julia
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DiffEqPhysics.jl48A library for building differential equations arising from physical problems for physics-informed and scientific machine learning (SciML)
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ModernRoboticsBook.jl50Modern Robotics: Mechanics, Planning, and Control.
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CMBLensing.jl52The automatically differentiable and GPU-compatible toolkit for CMB analysis.
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TropicalTensors.jl53Tropical tensor network for spin glasses
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Sophon.jl54Efficient, Accurate, and Streamlined Training of Physics-Informed Neural Networks
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DynamicalSystemsBase.jl54Definition of dynamical systems and integrators for DynamicalSystems.jl
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BEAST.jl54Boundary Element Analysis and Simulation Toolkit
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Crystalline.jl55Tools for crystallographic symmetry analysis
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QuantumCircuitOpt.jl56A Julia/JuMP Package for Optimal Quantum Circuit Design
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Thermodynamics.jl58A package containing a library of moist thermodynamic relations.
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MoistThermodynamics.jl58A package containing a library of moist thermodynamic relations.
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Luna.jl58Nonlinear optical pulse propagator
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QuantumAlgebra.jl60Quantum operator algebra in Julia
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QuantumOpticsBase.jl64Base functionality library for QuantumOptics.jl
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GasModels.jl65A Julia/JuMP Package for Gas Network Optimization
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QuantumCumulants.jl70Generalized mean-field equations in open quantum systems
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RigidBodySim.jl71Simulation and visualization of articulated rigid body systems in Julia
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IonSim.jl71A simple tool for simulating trapped ion systems
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OpenQuantumTools.jl72Julia toolkit for open quantum system simulation.
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DifferentialDynamicProgramming.jl74A package for solving Differential Dynamic Programming and trajectory optimization problems.
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FMI.jl84FMI.jl is a free-to-use software library for the Julia programming language which integrates FMI (fmi-standard.org): load or create, parameterize, differentiate and simulate FMUs seamlessly inside the Julia programming language!
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TightBinding.jl85This can construct the tight-binding model and calculate energies
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MRIReco.jl85Julia Package for MRI Reconstruction
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GXBeam.jl87Pure Julia Implementation of Geometrically Exact Beam Theory
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CellListMap.jl87Flexible implementation of cell lists to map the calculations of particle-pair dependent functions, such as forces, energies, neighbor lists, etc.
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TensorNetworkAD.jl91Algorithms that combine tensor network methods with automatic differentiation
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QuantumInformation.jl92A Julia package for numerical computation in quantum information theory
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UnROOT.jl96Native Julia I/O package to work with CERN ROOT files objects (TTree and RNTuple)
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ViscousFlow.jl97A framework for simulating viscous incompressible flows about arbitrary body shapes.
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ContactImplicitMPC.jl102Fast contact-implicit model predictive control for robotic systems that make and break contact with their environments.
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MIRT.jl102MIRT: Michigan Image Reconstruction Toolbox (Julia version)
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PowerDynamics.jl104Package for dynamical modeling of power grids
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MaxwellFDFD.jl105MATLAB-based solver package of Maxwell's equations by the FDFD method
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TimeseriesPrediction.jl105Prediction of timeseries using methods of nonlinear dynamics and timeseries analysis
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DynamicalBilliards.jl106An easy-to-use, modular, extendable and absurdly fast Julia package for dynamical billiards in two dimensions.
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QuantumLattices.jl110Julia package for the construction of quantum lattice systems.
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MRIsim.jl111Koma is a Pulseq-compatible framework to efficiently simulate Magnetic Resonance Imaging (MRI) acquisitions. The main focus of this package is to simulate general scenarios that could arise in pulse sequence development.
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KomaMRI.jl111Koma is a Pulseq-compatible framework to efficiently simulate Magnetic Resonance Imaging (MRI) acquisitions. The main focus of this package is to simulate general scenarios that could arise in pulse sequence development.
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FunctionalModels.jl112Equation-based modeling and simulations in Julia
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