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changelog.txt
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changelog.txt
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Changelog
---------
Release v1.1.0 (September 14, 2022)
- the equilibrate function now solves problems where the bulk composition is allowed to vary
- the solution model formulation has been updated to allow site multiplicities to vary linearly with endmember proportions (as in a Temkin model)
- a new BoundaryLayerPerturbation class has been implemented to enable thermal perturbations to be added to planetary layers
- a new equation of state, BroshCalphad has been implemented, following Brosh et al. (2007)
- the Composite class now has a chemical_potential method
- a new Calibrant class, that enables users to calculate pressure/volume as a function of volume/pressure and temperature, also allowing propagation of uncertainties
- a new eos fitting function, fit_XPTp_data, that enables fitting of solution model parameters to experimental data
- Material classes now have a method called set_state_with_volume
- a new ElasticSolution class that defines excess solution properties as a function of the volume and temperature of the endmembers, rather than pressure and temperature
- excess properties of solution models can now be defined using a function, rather than by hardwired functional forms
Release v1.0.1 (October 6, 2021)
- Adds missing optimize submodule.
Release v1.0.0 (October 6, 2021)
- python 3.7+ compatibility
- major restructuring of source directory
- documentation overhaul
- a new equilibrate function for chemical equilibration of Composite materials.
- new composition fitting functions (solution and bulk composition)
- new MaterialPolytope class
- implementation of melt phases from the the Holland and Powell (2011) and Holland et al. (2018) datasets
- ternary terms added to the subregular solution model
Release v0.10.0 (August 2, 2021)
- python 3.5+ compatibility
- a new Composition class for compositional processing
- a new CombinedMineral class
- a new AnisotropicMaterial class
- new Planet and Layer classes for mass, moment of inertia and seismic velocity calculations
- new nonlinear fitting routines and a nonlinear solver
- new static equations of state: Morse potential, Reciprocal K-prime
- new thermal equations of state: Anderson and Ahrens (metallic iron), de Koker and Stixrude, Ramo and Stixrude (solids and liquids)
- a large number of new minerals and solid solutions in the databases
- a large number of new examples
- updated documentation
Release v0.9.0 (April 25, 2016)
- major documentation overhaul
- new tutorials
- huge performance improvements by caching property values
- python 3 compatibility
- gibbs free energy computation
- new SolidSolution class
- added ideal, symmetric, asymmetric and subregular solution model
formulations
- computation of chemical potentials
- updated ipython notebooks
- new seismic models
- added EoS fitting functions
- using jit compilation if available
- additional equations of state: Vinet, BM4, ...
- a large number of new minerals in the databases
- much better test coverage
Release v0.7 (June 24, 2014)
- Cleanup and rewrite of the mineral/composite feature
- online html documentation
- Scripts to reproduce the figures from Cottaar, Heister, Rose and
Unterborn (2014) can be found in misc/.
- Mineral physical libraries from Murakami (2013) and Zhang et al.
(2013) are included.
- Pressure-depth conversion following Cammarano (2013) are included.
Release v0.5 (October 28, 2013)
- New example for absolute beginners (October 28, 2013)
Added an example script for beginners to burnman, as well as people
less familiar with python scripts. Goes through all of the basic
steps of creating a rock, calculating seismic properties, and plotting
them
- Nested Composites (October 17, 2013)
You can now nest composites and implement dynamic composites that reduce to
different sets of minerals depending on T,p. (no example yet)
Release v0.4 (June 3, 2013)