There are 4 repositories under eigenvalues topic.
Lecture Notes for Linear Algebra Featuring Python. This series of lecture notes will walk you through all the must-know concepts that set the foundation of data science or advanced quantitative skillsets. Suitable for statistician/econometrician, quantitative analysts, data scientists and etc. to quickly refresh the linear algebra with the assistance of Python computation and visualization.
LAPACK development repository
quizzes/assignments for mathematics for machine learning specialization on coursera
Krylov methods for linear problems, eigenvalues, singular values and matrix functions
C++ Matrix -- High performance and accurate (e.g. edge cases) matrix math library with expression template arithmetic operators
PyTorch implementation comparison of old and new method of determining eigenvectors from eigenvalues.
The Arnoldi Method with Krylov-Schur restart, natively in Julia.
Nonlinear eigenvalue problems in Julia: Iterative methods and benchmarks
Numerical computation in native Haskell
Pure Python implementation of the finite difference frequency domain (FDFD) method for electromagnetics
codebase for "A Theory of the Inductive Bias and Generalization of Kernel Regression and Wide Neural Networks"
symmetric matrices algorithms to compute eigenvalue/eigenvector pairs
Classification of John Burkardt's many Fortran 90 codes
SLICOT - A Fortran subroutines library for systems and control
A wrapper of different indices and networks commonly used in Economic Complexity
Project Page of Synthesizing Normalized Faces From Facial Identity Features - [CVPR 2017]
This Repository contains Solutions to the Quizes & Lab Assignments of the Mathematics for Machine Learning Specialization offered by Imperial College of London on Coursera taught by David Dye, Samuel J. Cooper, A. Freddie Page, Marc Peter Deisenroth
Modularized Fortran LAPACK implementation
Julia package for Schur decomposition of matrices with generic element types
Moving Object Detection for Event-based vision using Graph Spectral Clustering (Python implementation)
Solving the Trust Region Subproblem as an Eigenproblem in Julia
Matrix pencil manipulations using Julia
Modern Fortran library for finding the roots of real and complex polynomial equations
A linear algebra library that provides a user-friendly interface to several BLAS and LAPACK routines.