High-performance and differentiation-enabled nonlinear solvers (Newton methods), bracketed rootfinding (bisection, Falsi), with sparsity and Newton-Krylov support.
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Updated
May 31, 2024 - Julia
High-performance and differentiation-enabled nonlinear solvers (Newton methods), bracketed rootfinding (bisection, Falsi), with sparsity and Newton-Krylov support.
An exhaustive MATLAB implementation of the steady-state FLORIS wind farm model
Solvers for steady states in scientific machine learning (SciML)
The Systems Biology Simulation Core Library (SBSCL) provides an efficient and exhaustive Java implementation of methods to interpret the content of models encoded in the Systems Biology Markup Language (SBML) and its numerical solution.
The official PySCeS project source code repository.
A Comprehensive Julia implementation of the Vortex Lattice Method
Finite element analysis of steady state 2D heat transfer problems. Heat transfer occurs when there is a temperature difference within a body or within a body and its surrounding medium. Conduction and convection problems are solved using this software
Reconstruction of several papers on the topic of steady-state detection/identification.
Steady-state simulation/optimisation of an integrated energy system
Effective parallelism for power flow calculation
ODESCA is a MATLAB tool for the creation and analysis of dynamic systems described by ordinary differential equations
Steady-state analysis of thermo-hydraulic systems involving mixtures of steam and water (Two-Phase Flow) in one dimensional, but still complex, geometries
Routines for writing more efficient steadystate files.
Control finite volume element method - problem solving
Efficient numerical approximation of non-trivial stationary solutions of the microbial flocculation equations
Finite difference method in 2D; lecture note and code extracts from a computational course I taught
A pocket electric circuit simulator
Python library to analyze chemical and related process plants.
official implmentation for LCSS paper, CDC presentation
Generalized Incremental Orthant Search: Towards efficient steady-state evolutionary multiobjective algorithms
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