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Installation _INSTALL_ CMIREDIR:getting_started_with_mitgcm: |
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Download _DOWNLOAD_ CMIREDIR:obtainingCode: |
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Compilation _COMPILATION_ CMIREDIR:buildingCode: |
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Running the model _RUNNING_ CMIREDIR:runModel: |
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Customization _CUSTOMIZATION_ CMIREDIR:customizing_mitgcm: |
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Tutorials _TUTORIALS_ CMIREDIR:eg-baro: |
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Barotropic Gyre _BAROTROPIC_ CMIREDIR:eg-baro: |
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Baroclinic Gyre _BAROCLINIC_ CMIREDIR:eg-fourlayer: |
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Global Ocean _GLOBAL_ CMIREDIR:eg-global: |
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Held Suarez Atmosphe _HELD_ CMIREDIR:eg-hs: |
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Open Ocean Convectio _OPEN_ CMIREDIR:eg-bconv: |
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Shelf Convection _SHELF_ CMIREDIR:eg-gravityplume: |
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Tracer injection _TRACERINJ_ CMIREDIR:eg-simple-tracer: |
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# Parallel Global Ocea _PARALLEL_ ^<TITLE>5. Tutorial II - Parallelism |
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Tracer Sensitivity _TRACER_ CMIREDIR:eg-simple-tracer: |
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Documentation _DOCUMENTATION_ ^<TITLE>1. Overview of MITgcm |
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MITgcm in Action _MITGCM_ ^<TITLE>1.* Introduction |
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Continuous formulati _CONTINUOUS_ ^<TITLE>1.* Continuous |
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Numerical Algorithm _NUMERICAL_ ^<TITLE>2. Discretization and Algorithm |
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Software Architectur _SOFTWARE_ ^<TITLE>4. Software Architecture |
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Automatic Differenti _AUTOMATIC_ ^<TITLE>5. Automatic Differentiation |
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Optional Packages _OPTIONAL_ ^<TITLE>6. Physical |
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Diagnostics _DIAGNOSTICS_ CMIREDIR:processing_tools: |
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Interface to ECCO _INTERFACE_ ^<TITLE>8. Interface with ECCO |
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Atmosphere _ATMOSPHERE_ CMIREDIR:atmospheric_example: |
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Oceanic _OCEANIC_ ^<TITLE>1.* Global ocean circulation |
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Non-Hydrostatic _NONHYDROSTATIC_ ^<TITLE>1.* Convection and mixing over topography |
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Horizontal Orthogonal _HORIZONTAL_ ^<TITLE>2.* Vector invariant momentum equations |
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Finite Volume _FINITE_ fig:finite-volumes |
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Physical Parameteriz _PHYSICAL_ ^<TITLE>6. Physical |
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Tangent Linear _TANGENT_ ^<TITLE>1.* Parameter sensitivity using the adjoint of MITgcm |
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Domain Decomposition _DOMAIN_ The three level domain decomposition |
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#Documentation - see above |
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#Download - see above |
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#Tutorials see above |
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#Browse Code - see above |
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AD _AD_ ^<TITLE>5. Automatic Differentiation |
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Adjoint _ADJOINT_ ^<TITLE>5.1.2 Reverse or adjoint sensitivity |
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Atmospheric _ATMOSPHERIC_ ^<TITLE>1.4.1 Hydrostatic |
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CVS _CVS_ ^<TITLE>3.2 Obtaining the code |
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Flux-form _FLUX_ ^<TITLE>2.13 Flux-form momentum equations |
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GM/Redi _GM_ CMIREDIR:gmredi: |
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KPP _KPP_ CMIREDIR:package_kpp: |
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Linear Advection _LINEAR_ ^<TITLE>2.16 Linear advection schemes |
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MATLAB _MATLAB_ ^<TITLE>7.1.2 utils/matlab |
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Nonlinear Advection _NONLINEAR_ ^<TITLE>2.17 Non-linear advection schemes |
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Ocean Equations _OCEANEQ_ ^<TITLE>1.5.1 Equations of motion for the ocean |
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Operators _OPERATORS_ ^<TITLE>1.6 Appendix:OPERATORS |
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#Runtime Diagnostics _DIAGNOSTICS ^<TITLE>7. Diagnostics and tools |
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Starting/Restarting _STARTING_ CMIREDIR:runModel: |
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Tangent-linear _TANGENT_ ^<TITLE>5.1.1 Forward or direct |
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Time-stepping _TIMESTEP_ ^<TITLE>2.1 Time-stepping |
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MPI _MPI_ ^<TITLE>4.2.7 Distributed memory |
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Threads _THREADS_ ^<TITLE>4.2.6 Shared memory |
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Vector Invariant _VECTOR_ ^<TITLE>2.14 Vector invariant momentum equations |
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WRAPPER _WRAPPER_ ^<TITLE>4.2 WRAPPER |