A Control Systems Toolbox for Julia
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Updated
Nov 20, 2024 - Julia
A Control Systems Toolbox for Julia
pyMOR - Model Order Reduction with Python
RAVEN is a flexible and multi-purpose probabilistic risk analysis, validation and uncertainty quantification, parameter optimization, model reduction and data knowledge-discovering framework.
Data-driven model reduction library with an emphasis on large scale parallelism and linear subspace methods
MADS: Model Analysis & Decision Support
Easy Reduced Basis method
Modred main repository
Operator Inference for data-driven, non-intrusive model reduction of dynamical systems.
sssMOR - Sparse State-Space and Model Order Reduction Toolbox
AI4Science: Python/Matlab implementation of online and window dynamic mode decomposition (Online DMD and Window DMD)
AI4Science: Efficient data-driven Online Model Learning (OML) / system identification and control
Source code for the paper "Data-driven reduced-order models via regularised Operator Inference for a single-injector combustion process" by S. A. McQuarrie, C. Huang, and K. E. Willcox.
Numerical Implementation (Finite Difference) of the Pseudo-two-Dimensional Model for Lithium-ion Batteries
emgr -- EMpirical GRamian Framework
Support Vector Regression for Unsupervised Machine Learning
morgen - Model Order Reduction for Gas and Energy Networks
HAPOD - Hierarchical Approximate Proper Orthogonal Decomposition
AMORe-CMS (Automatic Model Order Reduction using Component Mode Syntesis) is MATLAB software that automatically performs physics-based model order reduction using component mode synthesis (CMS) on structural FE models made in COMSOL Multiphysics.
Python bindings to pressio
Matlab implementation of online and window dynamic mode decomposition algorithms
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