Quick Links
About Release1
Install: Getting started
Downloading
Building the code
Running the code
Tutorials
Barotropic gyre
Baroclinic gyre
Global ocean
Open ocean convection
Gravity plume
Held-Saurez atmosphere
Documentation
Continuous formulation
Numerical discretization
Vector invariant equations
2.16 Linear advection schemes> Linear advection Schemes
2.17 Non-linear advection schemes> Non-linear advection Schemes
About
Installation
Tutorials
Documentation
1.1 Introduction
1.3 Continuous equations in `r' coordinates
2. Discretization and Algorithm
4. Software Architecture
5. Automatic Differentiation
6. Physical Parameterization and Packages
7. Diagnostics and tools
8. Interface with ECCO
Browse Code
PDF file (9Mb)
PS file (7Mb)
Next:
6.2.1 Generic Advection/Diffusion
Up:
6. Physical Parameterizations -
Previous:
6.1.3 Package Coding Standards
Contents
6.2 Packages Related to Hydrodynamical Kernel
Subsections
6.2.1 Generic Advection/Diffusion
6.2.1.1 Introduction
6.2.1.2 Key subroutines, parameters and files
6.2.1.3 GAD Diagnostics
6.2.1.4 Experiments and tutorials that use GAD
6.2.2 Shapiro Filter
6.2.2.1 Key subroutines, parameters and files
6.2.2.2 Experiments and tutorials that use shap filter
6.2.3 FFT Filtering Code
6.2.3.1 Key subroutines, parameters and files
6.2.3.2 Experiments and tutorials that use zonal filter
6.2.4 exch2: Extended Cubed Sphere Topology
6.2.4.1 Introduction
6.2.4.2 Invoking exch2
6.2.4.3 Generating Topology Files for exch2
6.2.4.4 exch2, SIZE.h, and Multiprocessing
6.2.4.5 Key Variables
6.2.4.6 Key Routines
6.2.4.7 Experiments and tutorials that use exch2
6.2.5 Gridalt - Alternate Grid Package
6.2.5.1 Introduction
6.2.5.2 Equations on Both Grids
6.2.5.3 Time stepping Sequence
6.2.5.4 Interpolation
6.2.5.5 Key subroutines, parameters and files
6.2.5.6 Gridalt Diagnostics
6.2.5.7 Dos and donts
6.2.5.8 Gridalt Reference
6.2.5.9 Experiments and tutorials that use gridalt
mitgcm-support@mitgcm.org
Copyright © 2006 Massachusetts Institute of Technology
Last update 2018-01-23
