User manual

• Installation for users
  • On a cloud platform
  • As a standalone executable
  • Installing with pip package manager
  • Installing with Conda package manager
  • Optional dependencies
  • With Docker
  • With Guix
• Quickstart
• Tutorial
  • Main concepts
  • Step-by-step example
• Meshes
  • Naming
  • Initialization
  • Display
  • Geometric transformations
  • Defining an integration quadrature
  • Extracting or generating a lid
• Floating body
  • Initialization
  • Display and animation
  • Geometric transformations
  • Multiple bodies
• Hydrostatics
  • Hydrostatic parameters
  • Hydrostatic stiffness
  • Inertia matrix
  • Compute all hydrostatics parameters
• Setting up a problem
  • Defining a test matrix with xarray
  • The LinearPotentialFlowProblem class
  • Legacy Nemoh.cal parameters files
  • Command-line interface
• Resolution
  • Settings of the solver
  • Solving the problem
  • Parallelization
• Outputs
  • Outputs stored in LinearPotentialFlowResult
  • Building a dataset from LinearPotentialFlowResult
  • Building a dataset from Bemio
  • Saving the dataset as NetCDF file
  • Saving the rotation center of rigid bodies
  • Exporting to Excel
  • Saving the hydrostatics data of rigid body(ies) in Nemoh’s format
  • Saving the data as legacy Tecplot files
• Post-processing
  • Pressure, velocity, free surface elevation
  • Impedance and RAO
• Conventions and differences to other codes
  • With respect to WAMIT
  • With respect to Nemoh and Aquadyn
  • With respect to HAMS
  • With respect to OrcaWave
  • With respect to Hydrostar
• Cookbook
  • Base examples
  • Intermediate examples
  • Advanced examples