A fast and flexible C++ simulation engine and differential equation solver.
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Updated
Feb 3, 2023 - C++
A fast and flexible C++ simulation engine and differential equation solver.
Workshop materials for training in scientific computing and scientific machine learning
Mechanistic models in fermentation
Introduction to Numerical Methods / Ordinary Differential Equations
Rust low level bindings to the Sundials library
Modeling and simulation of LTI state-space and nonlinear systems.
Lorenz system - Repository for the project for Software and Computing for Applied Physics
Methods for solving systems of ordinary differential equations in the case of initial value problems (ODE-IVP).
Comparison of MPGOS, Julia, odeint and hand tuned C++ codes.
Learning the basics of epidemic modelling via compartmental models in Python
Numerically solving the dynamical equations of a protein expression system
I solve the Lorentz system in Python using the boost odeint library via the Python C API.
Particle flow animation with the trajectories of the particles being computed using the function odeint from scipy.integrate.
Introduction to analyze piecewise-smooth systems using python
Solving initial value problems in pharmacometric modeling using TensorFlow
This project was to simulate the earth’s atmospheric convection using Lorentz attraction formulas with the suitable parameters. Coded the formulas, wrote them in Python code including various functions to perform double differentiation using the eulers method.
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