Julia bindings to Vega-Lite
Computer vision models for Flux
Saving and loading julia variables while preserving native types
Julia implementation of various rigid body dynamics and kinematics algorithms
Julia solvers for systems of nonlinear equations and mixed complementarity problems
A Julia/JuMP Package for Power Network Optimization
Julia Implementation of Transformer models
Reverse Mode Automatic Differentiation for Julia
Visualization of Julia profiling data
Simple curve fitting in Julia
XGBoost Julia Package
Julia module for reading MATLAB files
Print data in formatted tables.
Symbolic parser generator for Julia language expressions using REDUCE algebra term rewriter
Julia interface to Gtk windowing toolkit.
A bridge between Julia and the Web.
Julia wrapper for the ArrayFire library
lisp-like syntax in julia
Abstractions, algorithms, and utilities for reinforcement learning in Julia
A set of functions to support the development of machine learning algorithms
Reusable array functionality for Julia's various GPU backends.
The JuliaFEM software library is a framework that allows for the distributed processing of large Finite Element Models across clusters of computers using simple programming models. It is designed to scale up from single servers to thousands of machines, each offering local computation and storage.
The Julia debugger
Implementation of robust dynamic Hamiltonian Monte Carlo methods (NUTS) in Julia.
Calling MATLAB in Julia through MATLAB Engine
An abstraction layer for mathematical optimization solvers.
Chemical reaction network and systems biology interface for scientific machine learning (SciML). High performance, GPU-parallelized, and O(1) solvers in open source software
A fast trajectory optimization library written in Julia
A Julia package for defining and working with linear maps, also known as linear transformations or linear operators acting on vectors. The only requirement for a LinearMap is that it can act on a vector (by multiplication) efficiently.
Hypothesis tests for Julia