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About

  • 1. About
  • 2. Acknowledgments
  • 3. Copyright and License
  • 4. How To Cite
  • 5. Capabilities
  • 6. Release Notes
  • 7. Release Plans
  • 8. Glossary
  • 9. Abbreviations

User Manual

  • 1. Installation
  • 2. User Interface
  • 3. Tools
  • 4. Examples
  • 5. Best Practices
  • 6. Troubleshooting
  • 7. Requirements
  • 8. Bugs & Feature Requests
  • 9. Video Overview

Technical Manual

  • 1. Dakota Methods
  • 2. Damping Options
  • 3. Water-borne Hazards
  • 4. Shallow Water Solvers
  • 5. CFD Solvers
  • 6. Finite Volume Method
  • 7. Material Point Method

Developer Manual

  • 1. How to Build
  • 2. How to Extend
  • 3. Verification
Hydro-UQ
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  • 1. Dakota Methods
  • 2. Damping Options
    • 2.1. Rayleigh Damping
    • 2.2. Modal Damping
  • 3. Water-borne Hazards
    • 3.1. Tsunami
      • Tsunami events
      • Causes of tsunami
      • Tsunami hazard and risk
      • Tsunami modeling
    • 3.2. Storm Surge
      • Storm surge events
      • Causes of storm surge
      • Storm surge risk
      • Modeling storm surge
  • 4. Shallow Water Solvers
    • 4.1. GeoClaw
      • Theory
      • Topography
      • Run-time Parameters
      • Outputs
    • 4.2. AdCirc
    • 4.3. SimCenter Standards
      • Topography: SimCenter
  • 5. CFD Solvers
    • 5.1. Turbulence models
      • k-Epsilon model
      • k-Omega SST model
    • 5.2. Input file formats
  • 6. Finite Volume Method
    • 6.1. Why FVM?
    • 6.2. Discretization
      • General overview
    • 6.3. Numerical integration
    • 6.4. Volume of fluid method
      • Philosophy of VOF method
      • Mathematical formulation
      • Points to note
    • 6.5. References
  • 7. Material Point Method
    • 7.1. Introduction
    • 7.2. Derivation
    • 7.3. Constructing the System of Equations
    • 7.4. References

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