Releases: edsonportosilva/OptiCommPy
v0.10.0-alpha
What's Changed
- Add a FEC module, providing LPDC encoding/decoding functionalities.
- Add first-order perturbation models for NLIN calculation in nonlinear fiber channels.
- Add a module to generate useful pseudo-random sequences used to model discrete communication sources.
- Add GPU implementation of BPS by @silasabs in #26
- Stabilize theory MI computation with symmetry and remove numba bound by @frankschae in #29
- Update OFDM functions by @daniel7fontes in #30
- Several updates and refactorings of functions in the package.
New Contributors
- @silasabs made their first contribution in #26
- @frankschae made their first contribution in #29
Full Changelog: v0.9.0-alpha...v0.10.0-alpha
Contributors
Assets 3
v0.9.0-alpha
Update package release with all modifications detailed in openjournals/joss-reviews#6600
v0.7.0-alpha
- Add standard clock recovery utilities.
- Several functions with modified input parameter syntax.
- Refactoring.
- Improved documentation.
v0.6.0-alpha
The structure of the package was changed to improve the code organization. A few modules have been split into smaller ones, and functions have been separated into three main groups: communications (comm), physical models (models), and digital signal processing (dsp). Each group will have subgroups of modules gathering functions with similar applications. For example, before we had
from optic.models import edfa, ssfm
from optic.dsp import cpr, edc
from optic.modulation import modulateGray
from optic.metrics import monteCarloGMI
and now it should be from optic.models.amplification import edfa
from optic.models.amplification import edfa
from optic.models.channels import ssfm
from optic.dsp.carrierRecovery import cpr
from optic.dsp.equalization import edc
from optic.comm.modulation import modulateGray
from optic.comm.metrics import monteCarloGMI
The documentation has been improved.
v0.4.0-alpha
The structure of the package was changed to improve the code organization. A few modules have been split into smaller ones, and functions have been separated into three main groups: communications (comm), physical models (models), and digital signal processing (dsp). Each group will have subgroups of modules gathering functions with similar applications. For example, before we had
from optic.models import edfa, ssfm
from optic.dsp import cpr, edc
from optic.modulation import modulateGray
from optic.metrics import monteCarloGMI
and now it should be from optic.models.amplification import edfa
from optic.models.amplification import edfa
from optic.models.channels import ssfm
from optic.dsp.carrierRecovery import cpr
from optic.dsp.equalization import edc
from optic.comm.modulation import modulateGray
from optic.comm.metrics import monteCarloGMI
The documentation has been improved.
v0.2.0-alpha
The latest release includes the basic models to simulate optical communication systems.
First release (alpha version)
Basic code implemented.