-
add functions to numerically evaluate the Jacobian (#467)
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Fix C++ compilation with partition functions and approximate rates and derived rates (#407, #494)
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The Explorer class now takes all of the options as RateCollection.plot() (#496)
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Rates edges can be highlighted via a user-defined function in the RateCollection plot (#486)
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All of the plot routines in RateCollection now return a matplotlib Figure object (#490)
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add get_rate_by_nuclei and add_rate to Library() (#484)
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RateCollection.remove_rates() can now act on a single rate and a new method, add_rates(), will add a rate directly to the collection.
-
Fixed printing of TabularLibrary (#479)
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Documentation updates (#473)
-
added get_rate_by_name to RateCollection (#468)
-
added tabular rates to PythonNetwork (#451)
-
fixed NSE state for network without protons (#463)
- Fix the installation of the C++ templates via setup.py (#460)
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Fix some setup.py metadata for PyPI (#453)
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Change how tabular rate tables are stored and read (#450)
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Support historial ReacLib format (#449)
-
Added a method to get a rate by short name: A(x,y)B (#438)
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Added the option to show rate links hidden by ydot < ydot_cutoff_value (#436)
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Added a TabularLibrary (#429)
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Moved validate into RateCollection (#433)
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renamed StarKillerCxxNetwork to AmrexAstroCxxNetwork (#426)
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Fixed formatting of tabular rate strings (#421)
-
Fixed normalization of colorbar in grid_plot (#424)
-
Added the ability to plot neutrino loss for tabular rates (#422)
-
Added support for partition functions in C++ networks (#404)
-
NSE solver now can return chemical potentials (#415)
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Add spins to NSE calculatons (#405)
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Separate the Coulomb calculation from the NSE screening, make it switchable (#398, #380)
-
Fixed StarKillerCxxNetwork output directory (#400)
-
Added Potekhin screening (#385)
-
Added screening to python networks (#383)
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Numba accelerated screening (#373)
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Fixed C++ approximate rate screening (#384)
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Added RateCollection remove_rates() (#368), and allow remove_rates to operate on dictionary keys (#375)
-
Added NSE solver (#339, #364, #377)
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added find_unimportant_rates method (#367, #369, #374)
-
added spins to partition functions (#371)
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Split rate up into several classes, including ReacLibRate (#362) and TabularRate (#360)
-
added partition function support to python networks (#358)
-
fixed definition of inverse rate for symmetric screening (#363)
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Moved Nucleus into nucdata (#346)
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Added screening to RateCollection (#344)
-
Added approximate rate support to C++ (#333)
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C++ networks now hardcode the coefficients in a function to compute the rates instead of storing a metadata table that is read at runtime (#329)
-
the Rate class now knows how to make its function string in python and C++ (#328)
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C++ networks now have a std::vectorstd::string of rate names (#326)
-
support for Fortran networks was removed (#324)
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numerous optimizations (#263, #264, #321, #331)
-
a DerivedRate class was added (#272)
-
approximate rate support was added to python networks (#316, #315, #313, #271)
-
energy generation was added to python networks (#301)
-
support for inert nuclei was added (#307)
-
the ability to disable rates in C++ networks was added (#304, #290)
-
methods for finding reverse rates were added (#303)
-
a method to find neutrino loss energy from tabulated rates was added (#302)
-
the ability to run without Numba was added (#300)
-
weak rate table units in the header were fixed (#297)
-
python nuclei variable indicies now begin with 'j' (#296)
-
python implementations of screening were added (#281)
-
the network chart plot was added (#202)
-
a rate filter for the network plot was added (#187)
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the Explorer class was expanded to have more options (#251)
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the rate plot now returns a matplotlib Figure object (#231)
-
added the ability to modify rate products (#252)
-
allow for the edges between nodes to be curved (#257)
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add a RatePair object that groups forward and reverse rates (#212)
-
updated the ReacLib rate library (#248)
-
added nuclear spin tables (#238)
-
added partition function tables (#241, #204)
-
a Nucleus no knows its binding energy (#220)
-
many improvements to C++ output (#246, #214, #185, #183)
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added a diff method to a Library (#194)
-
fixed rate sorting so it is more deterministic (#216)
-
added forward() and backward() methods to Library (#207)
-
added a default ReacLibLibrary function (#206)
-
added a validate() method for a library to find potentially important missing rates (#188, #172)
-
added a method to get the number of rates in a library (#173)
-
add a method to remove a rate from a library (#199)
-
libraries are now sorted when printed, with more information shown (#195, #168)
-
added a symmetric screening option (#178)
-
a "rotated" plot type for the network structure was added (#161)
-
versioning is now managed by setuptools_scm (#158)
-
added support for C++ StarKiller / AMReX Microphysics networks (#152, #151, #149)
-
centralized sympy code generation and removed common subexpression support from network generation (#145)
-
added an example on integrating a python network
-
Added gridplot function for plotting nuclides on a grid and coloring the cells by X, Y, Xdot, Ydot or activity
-
Created a notebook and a script for generating rp-process networks. The script allows an arbitrary endpoint to be specified.
-
Added a filter_function option to RateFilter and to the plotting functions that allows for filtering rates or nuclei using a user-defined Boolean map.
-
Fixed a write_network crash if the RateCollection contains multiple rates with the same name.
-
Deleted unused BLAS and VODE files previously used for the standalone Fortran outputs. These have been deprecated in favor of the StarKiller Microphysics network output as of v1.3.0.
-
fixed screening for the 3-alpha rate
-
Improvements for locating rate files in directories also containing python scripts or Jupyter notebooks
-
Fixed a warning when using Numba
-
Updates to the StarKiller Microphysics format for compile time variables
-
Enhancements for the RateCollection Explorer to use NetworkX 2.5
-
Updated the requirements
-
Added general support for tabulated weak rates from Suzuki, et al. 2016
-
Added a simple pp network example
-
Updated StarKiller Microphysics output to track latest changes in Microphysics network API
-
Added a core developers policy in the Readme
-
Replace double precision reals in StarKiller networks with custom real type
_rt -
Incorporate modifications to thermal neutrino Jacobian contributions from Microphysics (#210) in StarKiller networks
-
Simplify rate evaluation code in StarKiller networks
-
Deprecated standalone Fortran output with VODE integration.
-
BaseFortranNetwork is now an abstract class to require users to either use StarKillerNetwork or provide templates
-
Fix tabular rate bug where electron chemical potential contributions were not included
-
Update documentation and code comments
-
Add Numba support for Python networks
-
Enable sparse Jacobian (CSR) for StarKiller networks
-
Incorporate CUDA Fortran port for StarKiller networks including tabulated rates
-
Optimize rate screening evaluation for StarKiller networks
-
Fix bug to include the electron fraction and correct density dependence for Reaclib electron capture rates
-
Allow a nuclide to be both reactant and product
-
Updates an error message for multiple degenerate rates
-
Add example code generating a 160-isotope network
-
Fix table compilation issue for StarKiller networks
-
Moved energy generation subroutine into RHS module for StarKiller networks
- pynucastro published on JOSS is archived to Zenodo
- JOSS reviewer changes merged and pynucastro accepted to JOSS