- Dipole interaction added to the
SB Model - Kasdin 1/f noise generator added to the
noisemodule and to the solvers - reworking the solvers for better performance and stability
- added a simple noise model to the
utilsclass. It exists outside standard simulation procedures. - added LLGB bindings and code. The solver is still WIP and doesn't integrate with more advanced features yet.
- added aliases for
ScalarDriver-- for example, instead of callingScalarDriver.getConstantDriver, you can now callconstantDriverdirectly to create a constant driver.
- Adding a basic optimisation script in the
optimizationmodule. - Streamlit optimization updates.
- Adding new, dynamic symbolic model compatible with
Solverclass. It is now possible to use theSolverclass withLayerDynamicto solve the LLG equation. - Added tests for procedures and operators.
- Added missing operators for
CVectorclass in Python. CVectoris now subscriptable.- Added new
CVectorandAxialDriverinitialisations. VSDandPIMMprocedures accept additional new parameters.- Added some optimization utilities like
coordinate_descent. - Added a
streamlitservice for an example PIMM simulation.
- Added new
ScalarDrivers-- Gaussian impulse and Gaussian step.
CVectorgot extra functionality in Python bindings. Operators are now supported.- Domain Wall dynamics is now also for 2 layer systems. Added edge potential.
- SB model generalised for N layers.
- Adding DW dynamics 1D model with dynamic drivers. (Numba optimised)
- Adding SB model for energy-based FMR computation. Gradient computed using Adam optimiser.
- Moving resistance functions from
utilstoresistance - Introducting docs updates for tutorial notebook (dark/light toggle works now).
- Reservoir computing is now exposed in Python in the
reservoircomputing module.
- Oersted field computation helper class in cmtj/models/oersted.py. Basic functionality is there, but needs to be futher tested and documented. Next release potentially will move the computation to C++ for speed.
- Added Heun (2nd order) solver and made it default for thermal computation. This is a more stable solver than the Euler solver, but is slower. The Euler solver is still available as an option.
- Stack class now supports arbitrary layer ids to be coupled.
- Extended the plotting capabilities of the Stack class. Now supports plotting of the magnetic field and the current density.
- Added alternative STT formulation which in some cases may be useful.
- Fixed some minor bugs in the thermal solver.
- Fixed some minor bugs in the Stack class.
- Updating tutorials on the docs page.
- Bunch of extra documentation and examples.