:orphan:
.. _sphx_glr_gallery_comparisons:
Comparisons
===========
Comparisons with other codes.
.. raw:: html
.. raw:: html
.. only:: html
.. image:: /gallery/comparisons/images/thumb/sphx_glr_1D_VTI_empymod_thumb.png
:alt: 1. empymod: 1D VTI resistivity
:ref:`sphx_glr_gallery_comparisons_1D_VTI_empymod.py`
.. raw:: html
1. empymod: 1D VTI resistivity
.. raw:: html
.. only:: html
.. image:: /gallery/comparisons/images/thumb/sphx_glr_2D_triaxial_MARE2DEM_thumb.png
:alt: 2. MARE2DEM: 2D with tri-axial anisotropy
:ref:`sphx_glr_gallery_comparisons_2D_triaxial_MARE2DEM.py`
.. raw:: html
2. MARE2DEM: 2D with tri-axial anisotropy
.. raw:: html
.. only:: html
.. image:: /gallery/comparisons/images/thumb/sphx_glr_3D_triaxial_SimPEG_thumb.png
:alt: 3. SimPEG: 3D with tri-axial anisotropy
:ref:`sphx_glr_gallery_comparisons_3D_triaxial_SimPEG.py`
.. raw:: html
3. SimPEG: 3D with tri-axial anisotropy
.. raw:: html
.. only:: html
.. image:: /gallery/comparisons/images/thumb/sphx_glr_as_vs_fd_gradient_thumb.png
:alt: 4. Adjoint-state vs. FD gradient
:ref:`sphx_glr_gallery_comparisons_as_vs_fd_gradient.py`
.. raw:: html
4. Adjoint-state vs. FD gradient
.. raw:: html
.. only:: html
.. image:: /gallery/comparisons/images/thumb/sphx_glr_1D_VTI_empymod_Laplace_thumb.png
:alt: 5. empymod: 1D VTI Laplace-domain
:ref:`sphx_glr_gallery_comparisons_1D_VTI_empymod_Laplace.py`
.. raw:: html
5. empymod: 1D VTI Laplace-domain
.. raw:: html
.. only:: html
.. image:: /gallery/comparisons/images/thumb/sphx_glr_magnetic_field_thumb.png
:alt: 6. Magnetic field due to an el. source
:ref:`sphx_glr_gallery_comparisons_magnetic_field.py`
.. raw:: html
6. Magnetic field due to an el. source
.. raw:: html
.. only:: html
.. image:: /gallery/comparisons/images/thumb/sphx_glr_magnetic_source_el_loop_thumb.png
:alt: 7. Magnetic source using an electric loop
:ref:`sphx_glr_gallery_comparisons_magnetic_source_el_loop.py`
.. raw:: html
7. Magnetic source using an electric loop
.. raw:: html
.. only:: html
.. image:: /gallery/comparisons/images/thumb/sphx_glr_magnetic_source_duality_thumb.png
:alt: 8. Magnetic source using duality
:ref:`sphx_glr_gallery_comparisons_magnetic_source_duality.py`
.. raw:: html
8. Magnetic source using duality
.. raw:: html
.. only:: html
.. image:: /gallery/comparisons/images/thumb/sphx_glr_magnetic_permeability_thumb.png
:alt: 9. Magnetic permeability
:ref:`sphx_glr_gallery_comparisons_magnetic_permeability.py`
.. raw:: html
9. Magnetic permeability
.. raw:: html
.. toctree::
:hidden:
/gallery/comparisons/1D_VTI_empymod
/gallery/comparisons/2D_triaxial_MARE2DEM
/gallery/comparisons/3D_triaxial_SimPEG
/gallery/comparisons/as_vs_fd_gradient
/gallery/comparisons/1D_VTI_empymod_Laplace
/gallery/comparisons/magnetic_field
/gallery/comparisons/magnetic_source_el_loop
/gallery/comparisons/magnetic_source_duality
/gallery/comparisons/magnetic_permeability
.. only:: html
.. container:: sphx-glr-footer sphx-glr-footer-gallery
.. container:: sphx-glr-download sphx-glr-download-python
:download:`Download all examples in Python source code: comparisons_python.zip `
.. container:: sphx-glr-download sphx-glr-download-jupyter
:download:`Download all examples in Jupyter notebooks: comparisons_jupyter.zip `
.. only:: html
.. rst-class:: sphx-glr-signature
`Gallery generated by Sphinx-Gallery