A toolkit for the quantum and classical Dicke model in Julia.

Experimental Approach to McCormick Relaxation Source-Code Transformation

Unfortunately, FMUs (fmi-standard.org) are not differentiable by design. To enable their full potential inside Julia, FMISensitivity.jl makes FMUs fully differentiable, regarding to: states and derivatives | inputs, outputs and other observable variables | parameters | event indicators | explicit time | state change sensitivity by event

Implements a generic Inverted Index data structure for full text search and other kinds of search domains

Https://stevengogogo.github.io/FindSteadyStates.jl/dev

Threaded implementation of dense-sparse matrix multiplication.

GPU-accelerated value iteration for Interval Markov Decision Processes

Numerical Methods for Vlasov-Poisson and Vlasov-Maxwell Systems

An unofficial implementation of publicly available approximated polynomial models for NASA's Generic Transport Model aircraft.

A thin wrapper over Bridge.jl for the SciML scientific machine learning common interface, enabling new methods for neural stochastic differential equations (neural SDEs)

Nonlinear diffusion problems in Julia

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FMIBase.jl provides the foundation for the Julia packages FMIImport.jl and FMIExport.jl.

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

Library for common tools for solving PDEs with finite difference methods (FDM), finite volume methods (FVM), finite element methods (FEM), and psuedospectral methods in a way that integrates with the SciML Scientific Mechine Learning ecosystem

Predefined environments and controllers for FlightSims.jl

The lightweight base package for numerical simulation supporting nested dynamical systems and macro-based data logger. For more functionality, see FlightSims.jl.

A dynamically-structured matrix population model

Importers for the BaseModelica standard into the Julia ModelingToolkit ecosystem

A powerful, no code solution for control and systems engineering

Data-driven models for extremely precise radial velocity (EPRV) spectra

Nonlocal Electrostatics in Structured Solvents

Benchmark BLAS Libraries

A repository for adaptive transport maps

Basic Quantum Circuit Emulation Subroutine

Julia implementation of the ISOKANN algorithm for the computation of invariant subspaces of Koopman operators

A Julia package containing GNC algorithms for autonomous aerospace systems

High Level API Finite Element Methods based on ExtendableGrids and ExtendableFEMBase

Models of gas-phase atmospheric chemistry and related processes

Simulation engine for Heta-based models

High-performance Julia re-implementation of RADEX

Differential Inequality Algorithms for Parametric ODEs

Classification algorithms based on kernel nearest centers

High Frequency radar data interpolation with DIVAnd

Epidemic spatial and temporal model setup and simulation. Focusing on state of the art epidemiology models such as universal differential equations, epidemiology-informed deep learning models. Part of Mathepia.jl

A Julia package to solve multi-state system models, often found in reliability engineering.

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Linear periodic time-varying systems tools in Julia

Estimating the transfer operator (Perron Frobenius operator) and invariant measures from time series.

Phylogenetic Estimation of Shifts in the Tempo of Origination