Badlands

Adding the following functionality:

+ adding turbidity currents erosion/deposition
+ Fuzzy logic approach is used to estimate carbonate growth based on depth, wave energy and sedimentation rate.
+ Long-term evolution of longshore currents and induced sediment transport is simulated based on linear wave theory.

In addition to v2.0 the following capabilities are available:

+ 3D surface deformations using the node refinement technique proposed by Thieulot et al. ( 2014).
+ Varying erodibility layers (both horizontally and vertically) to simulate impact of changing sediment characteristics on landscape evolution.

This release adds new capabilities to the code:

+ multiple formulations for fluvial processes from detachment to transport limited cases are implemented,
+ long-term evolution of longshore currents and induced sediment transport is simulated based on linear wave theory
+ fuzzy logic approach is used to estimate carbonate growth based on depth, wave energy and sedimentation rate

This release add new capabilities to the code:
- simulates river entering in the simulation area
- output of Chi parameter in Hdf5 flow network
- multi-erodibility layers creation
- 3D stratigraphic layer displacements

This release is compatible with version 1.0.0 and will work with similar XML input files.

Initial release of Badlands 2016

The model is written in `fortran` and is based on the following characteristics:

+ The finite volume approach from Tucker et al. (2001) based on the dual Delaunay-Voronoi framework is used to solve the continuity equation explicitly,
+ Node ordering is perform efficiently based on the work from Braun & Willett (2013),
+ A Hilbert Space-Filling Curve method algorithm (Zoltan) is used to partition the TIN-based surface into subdomains,
+ Drainage network partitioning is generated through METIS library.