2.2.0 - 2012-02-25
No longer need to specify size bins for particle simulations (adaptive binning occurs automatically).
Coagulation with negative weightings is accelerated.
Added sampled input mode type.
Parallel n_part
is now total computational particles over all
processors, not per-processor.
No longer need to specify weight for particle simulations (a mixed number/mass weighting is always used and adapts automatically).
2.1.5 - 2012-01-30
n_orig_part
entries.2.1.4 - 2011-08-15
do_parallel
false.2.1.3 - 2011-07-02
n_source
bug in aero_data
(broke condense
test).2.1.2 - 2011-06-28
2.1.1 - 2011-06-22
restart
and gas_data
/aerosol_data
.2.1.0 - 2011-05-17
Include solar_zenith_angle
in output files when using MOSAIC.
Added source-oriented capability for aerosol particles.
2.0.0 - 2011-01-13
Parallel implementations based on remote particle access.
Added restart capability from NetCDF state files.
Added partmc.py library for python-based analysis of PartMC output files.
Reimplemented water condensation to be much faster and also correct.
Nucleation added with parameterization due to Kuang, McMurray, et al.
Weighted particles, with full support for coagulation and MOSAIC.
Changed to Poisson sampling for coagulation test number.
Input and output now use diameter everywhere rather than radius.
urban_plume2
test-case added, as described in the paper
http://dx.doi.org/10.1029/2009JD013616.
1.2.0 - 2009-06-15
Output of full per-particle data in NetCDF format.
urban_plume
test-case added, as described in the paper
http://dx.doi.org/10.1029/2008JD011073.
Build system switched to cmake
.
Automated test suite added (make test
).
1.1.0 - 2008-02-17
Internal reorganization to use Fortran 90 derived types for the data structures.
Integration with the MOSAIC gas- and aerosol-chemistry code.
Output is in binary NetCDF format.
Parallel implementation using 1D mixing.
1.0.0 - 2007-02-26