csskene

University of Leeds

Pinned Repositories

ABC-dynamo_FTLE
Companion code for the paper 'Floquet stability and Lagrangian statistics of a nonlinear time-dependent ABC dynamo' by C. S. Skene and S. M. Tobias (Phys. Rev. Fluids, 2023).
Language:Jupyter Notebook3 2 02
adjoint_tutorial
Notebooks for the Leeds AGFD meeting adjoint tutorials.
Language:Jupyter Notebook1 2 00
csskene.github.io
https://csskene.github.io/
Language:Ruby1 2 00
dedalus
A flexible framework for solving PDEs with modern spectral methods.
Language:Python0 1 00
linear-analysis-tools
Code for conducting eigenvalue and resolvent analyses using the python bindings for PETSc and SLEPc.
Language:Python2 2 11
NFFDy_lectures_2024
Language:Jupyter Notebook10
parallel-in-time_direct-adjoint
Companion code for the article "A parallel-in-time approach for accelerating direct-adjoint studies" by C. S. Skene, M. F. Eggl and P. J. Schmid (JCP, 2021)
Language:Python1 2 00
phase-reduction_Rijke-tube
Companion code for the article "Phase reduction analysis of periodic thermoacoustic oscillations in a Rijke tube" by C. S. Skene and K. Taira (JFM, 2022)
Language:Jupyter Notebook5 3 02
pymanopt
Python toolbox for optimization on Riemannian manifolds with support for automatic differentiation
Language:Python0 0 00
wnl-onset-convection
Companion code for the paper 'Weakly nonlinear analysis of the onset of convection in rotating spherical shells' by C. S. Skene and S. M. Tobias (in review).
Language:Python00

csskene's Repositories

csskene/phase-reduction_Rijke-tube
Companion code for the article "Phase reduction analysis of periodic thermoacoustic oscillations in a Rijke tube" by C. S. Skene and K. Taira (JFM, 2022)
Language:Jupyter Notebook5 3 02
csskene/ABC-dynamo_FTLE
Companion code for the paper 'Floquet stability and Lagrangian statistics of a nonlinear time-dependent ABC dynamo' by C. S. Skene and S. M. Tobias (Phys. Rev. Fluids, 2023).
Language:Jupyter Notebook3 2 02
csskene/linear-analysis-tools
Code for conducting eigenvalue and resolvent analyses using the python bindings for PETSc and SLEPc.
Language:Python2 2 11
csskene/adjoint_tutorial
Notebooks for the Leeds AGFD meeting adjoint tutorials.
Language:Jupyter Notebook1 2 00
csskene/csskene.github.io
https://csskene.github.io/
Language:Ruby1 2 00
csskene/NFFDy_lectures_2024
Language:Jupyter Notebook10
csskene/parallel-in-time_direct-adjoint
Companion code for the article "A parallel-in-time approach for accelerating direct-adjoint studies" by C. S. Skene, M. F. Eggl and P. J. Schmid (JCP, 2021)
Language:Python1 2 00
csskene/dedalus
A flexible framework for solving PDEs with modern spectral methods.
Language:Python0 1 00
csskene/pymanopt
Python toolbox for optimization on Riemannian manifolds with support for automatic differentiation
Language:Python0 0 00
csskene/sciml-leeds.github.io
Language:Jupyter Notebook0 1 00
csskene/shell_benchmark
Language:Python0 0 00
csskene/SphereManOpt
Optimisation library to minimise objective functions constrained by PDE and equality constraints
Language:Python0 1 00
csskene/wnl-onset-convection
Companion code for the paper 'Weakly nonlinear analysis of the onset of convection in rotating spherical shells' by C. S. Skene and S. M. Tobias (in review).
Language:Python00

csskene

Pinned Repositories

ABC-dynamo_FTLE

adjoint_tutorial

csskene.github.io

dedalus

linear-analysis-tools

NFFDy_lectures_2024

parallel-in-time_direct-adjoint

phase-reduction_Rijke-tube

pymanopt

wnl-onset-convection

csskene's Repositories

csskene/phase-reduction_Rijke-tube

csskene/ABC-dynamo_FTLE

csskene/linear-analysis-tools

csskene/adjoint_tutorial

csskene/csskene.github.io

csskene/NFFDy_lectures_2024

csskene/parallel-in-time_direct-adjoint

csskene/dedalus

csskene/pymanopt

csskene/sciml-leeds.github.io

csskene/shell_benchmark

csskene/SphereManOpt

csskene/wnl-onset-convection