C $Header: /u/gcmpack/MITgcm/verification/advect_xz/code/GAD_OPTIONS.h,v 1.4 2013/03/04 18:41:16 jmc Exp $ C $Name: $ CBOP C !ROUTINE: GAD_OPTIONS.h C !INTERFACE: C #include "GAD_OPTIONS.h" C !DESCRIPTION: C Contains CPP macros/flags for controlling optional features of package. CEOP C CPP options file for GAD (Generic Advection Diffusion) package C Use this file for selecting options within the GAD package #ifndef GAD_OPTIONS_H #define GAD_OPTIONS_H #include "PACKAGES_CONFIG.h" #include "CPP_OPTIONS.h" #ifdef ALLOW_GENERIC_ADVDIFF C Package-specific Options & Macros go here C This flag selects the form of COSINE(lat) scaling of bi-harmonic term. C *only for use on a lat-lon grid* C Setting this flag here only affects the bi-harmonic tracer terms; to C use COSINEMETH_III in the momentum equations set it CPP_OPTIONS.h #define COSINEMETH_III C This selects isotropic scaling of harmonic and bi-harmonic term when C using the COSINE(lat) scaling. C Setting this flag here only affects the tracer diffusion terms; to C use ISOTROPIC_COS_SCALING of the horizontal viscosity terms in the C momentum equations set it CPP_OPTIONS.h; the following line C even overrides setting the flag in CPP_OPTIONS.h #undef ISOTROPIC_COS_SCALING C As of checkpoint41, the inclusion of multi-dimensional advection C introduces excessive recomputation/storage for the adjoint. C We can disable it here using CPP because run-time flags are insufficient. #undef DISABLE_MULTIDIM_ADVECTION C Use compressible flow method for multi-dim advection instead of old, less C accurate jmc method. Note: option has no effect on SOM advection which C always use compressible flow method. #undef GAD_MULTIDIM_COMPRESSIBLE C This enable the use of 2nd-Order Moment advection scheme (Prather, 1986) for C Temperature and Salinity ; due to large memory space (10 times more / tracer) C requirement, by default, this part of the code is not compiled. #define GAD_ALLOW_TS_SOM_ADV C Hack to get rid of negatives caused by Redi. Works by restricting the C outgoing flux (only contributions computed in gad_calc_rhs) for each cell C to be no more than the amount of tracer in the cell (see Smolarkiewicz C MWR 1989 and Bott MWR 1989). C The flux contributions computed in gad_calc_rhs which are affected by C this hack are: C - explicit diffusion, Redi and the non-local part of KPP C - advection is affected only if multiDimAdvection=.FALSE. C - vertical diffusion (including the diagonal contribution from GMRedi) C only if implicitDiffusion=.FALSE. C - GM is affected only if GMREDI_AdvForm=.FALSE. C C The parameter SmolarkiewiczMaxFrac (defined in gad_init_fixed.F) C specifies the maximal fraction of tracer that can leave a cell. C By default it is 1. This will prevent the tracer from going negative C due to contributions from gad_calc_rhs alone. In the presence of other C contributions (or roundoff errors), it may be necessary to reduce this C value to achieve strict positivity. C C This hack applies to all tracers except temperature and salinity! C Do not use with Adams-Bashforth (for ptracers)! C Do not use with OBCS! #undef GAD_SMOLARKIEWICZ_HACK #else C If GAD is disabled then so is multi-dimensional advection #define DISABLE_MULTIDIM_ADVECTION #endif /* ALLOW_GENERIC_ADVDIFF */ #endif /* GAD_OPTIONS_H */