Symbol Description Uses
R iso-neutral gradient of density in 3 directions X,Y,R 10
r 7
R0 4
r1 11
r4Buf buffer array 20
r4Buf buffer array 0
r4Buf buffer array 0
r4Buf buffer array 0
r4buf 58
r4seg 60
R8ADB2 3
R8ADB3 3
R8ADB4 3
R8ADB5 3
R8ADBG 3
R8ADF2 3
R8ADF3 3
R8ADF4 3
R8ADF5 3
R8ADFG 3
r8Buf buffer array 20
r8Buf buffer array 0
r8Buf buffer array 0
r8Buf buffer array 0
r8buf 58
R8FFTB1 3
R8FFTF1 3
R8FFTI1 2
r8seg 157
R_CP stochiometric ratios 8
R_cp 3
R_FeP 6
r_hFacZ reciprocal 88
r_hFld reciprocal of ice-thickness (only used for intensive 8
R_icefront 12
R_low base of fluid in r_unit (Depth(m) / Pressure(Pa) at top Atmos.) 120
r_low 1
r_minArea 5
R_NP 6
R_OP stochiometric ratios 4
R_op 2
r_QbyATM_cover residual of a_QbyATM_cover after freezing/melting processes 12
r_QbyATM_open same but for open water 9
r_QbyOCN residual of a_QbyOCN after freezing/melting 11
R_shelfIce 7
r_tauSaltRelax 6
r_tauThetaRelax 6
rA R-face are f[X,Y] ( m^2 ). 240
RA 25
ra 11
RA_CONST 3
RA_FX 3
RA_FY 3
rAc 5
RADB2 3
RADB3 3
RADB4 3
RADB5 3
RADBG 3
RADCON 1
RADF2 3
RADF3 3
RADF4 3
RADF5 3
RADFG 3
RADFIX 1
radius radius of bottom of layer (m) 40
RADLW 5
radlwg 17
RADLWG 1
RADSET 2
RADSW 3
radswg 18
radswt 26
rAdvAreaWeight 8
rAdvFac 4
rain total precipitation (= rain + snow) (m/s), (>0: rain) 6
rain Temp. for rain 0
rain precipitation 0
Rain 2
RAIN 3
rain0 6
rain1 6
rain_ratio inorganic/organic carbon rain ratio 10
raincgath 5
raincon 20
rainconin 6
rainconv 8
rainCP 4
RainFile 7
rainls 4
rainlsp 24
rainlspin 6
rainmax 9
rainRatioUniform 6
RAINS 2
rains 4
RAMPFC 5
rampTime2 9
rand 2
random 4
RANDOM_NUMBER 1
random_numbx 7
RANDOM_SEEDX 2
ranf 2
rank 41
rank_compcplr_procs 10
rank_component_procs 19
rank_coupler_procs 8
ranks 8
RANSET 1
rarg 12
rAs 51
RAS 2
RASALF 2
rasalf 1
rasblf 1
RASBLF 2
rasmax 7
ratio 43
ratio_ad 15
ratio_ftl 15
ratioadmem 5
ratioftlmem 5
ratioRm 9
ratioRp 9
rAw 49
RAYLEIGH 2
rayleighdrag 18
rAz 29
rband 8
RBC_mask 9
RBC_ptracers 5
RBCFFIELDS 1
RBCFFTRACER 1
rbcptr0 8
rbcptr1 8
rbcs0 8
rbcs1 8
RBCS_ADD_TENDENCY 5
RBCS_FIELDS_LOAD 2
RBCS_INIT_FIXED 2
RBCS_INIT_VARIA 2
RBCS_PARM01 2
RBCS_PARM01_C 1
RBCS_PARM01_I 1
RBCS_PARM01_L 1
RBCS_PARM01_R 1
RBCS_PARM01_RS 1
RBCS_PARM02 2
RBCS_PARM02_C 1
RBCS_PARM02_L 1
RBCS_PARM02_R 1
RBCS_READPARMS 2
RBCsalt 5
rbcsForcingCycle cycle of rbc data (in seconds) 8
rbcsForcingOffset model time at beginning of first rbc period 6
rbcsForcingPeriod period of rbc data (in seconds) 9
rbcsIniter 5
rbcsIter0 singleTimeFile iteration number corresponding to rbcsForcingOffset 6
rbcsSingleTimeFiles if .TRUE., rbc fields are given 1 file per time labeled by iteration number (see rbcsIter0,deltaTrbcs) 8
rbct0 8
rbct1 8
RBCtemp 5
rC R-coordinate of center of cell f[Z] (units of r). 191
rc 17
RC 38
rC4km high order contributions 14
rC4km high order contribution 0
rC4kp high order contributions 14
rC4kp high order contribution 0
RC_CONT 5
rC_dyn 4
RC_INTERNAL 1
RC_maxtime_hr 7
RC_MaxTime_hr 1
RC_maxtime_mi 8
RC_MaxTime_mi 1
RC_maxtime_sc 7
RC_MaxTime_sc 1
RC_now_dy 3
RC_now_hr 3
RC_now_mi 3
RC_now_mo 2
RC_now_sc 3
RC_now_yr 2
RC_PACKAGE 1
RC_PARAMS 1
RC_prev_tins 5
rC_Save 3
RC_start_dy 4
RC_start_hr 4
RC_start_mi 4
RC_start_mo 3
RC_start_sc 4
RC_start_tins 6
RC_start_yr 3
RCANOP 4
rCD CD scheme normalised coupling parameter (= 1 - deltaT/tauCD) 12
rCenter centered contribution 73
rCenter centered contribution 0
rCenter centered contribution 0
rCenter centered contribution 0
rCenter centered contribution 0
RCINV 3
RCON 2
rcon 1
rCoordInputData written in terms of r. In the model data file input data 10
rcountdelta 6
rcountstart 6
RCP 2
RCUN 11
RCUNST 2
RCUNTD 4
RCX 9
rD Radial displacement of point i,j 6
rD Radial displacement of point i,j 0
RD 13
rd 28
RD_WR_FLD 10
RD_WR_REC 9
RD_WR_SEC 5
RDC 8
rdc 3
rdcs 3
rdcstr 3
rdimLoc 9
rdn 45
RDOP DOP sink due to remineralization 6
RDPS 3
rdrckp1 14
rDrF 4
rdt 45
RDTH 18
RDUMMY 8
rDx 3
rDz 3
re 21
READ_ATMOS 2
READ_CHECKPOINT Read the checkpoint 0
READ_CHECKPOINT Read the checkpoint 0
READ_CHECKPOINT Read the checkpoint 0
READ_CHECKPOINT Read the checkpoint 0
READ_FLD_XY_RL 18
READ_FLD_XY_RS 33
READ_FLD_XYZ_RL 39
READ_FLD_XYZ_RS 4
READ_GLVEC_RL 8
READ_GLVEC_RS 3
READ_MFLDS_3D_RL 54
READ_MFLDS_CHECK 6
READ_MFLDS_INIT 2
READ_MFLDS_LEV_RL 1
READ_MFLDS_SET 6
READ_OZ 2
READ_PAR 11
READ_PICKUP 2
READ_QZ 2
READ_REC_3D_RL 194
READ_REC_3D_RS 45
READ_REC_LEV_RL 1
READ_REC_LEV_RS 1
READ_REC_XY_RL 10
READ_REC_XY_RS 130
READ_REC_XYZ_RL 1
READ_REC_XYZ_RS 13
READ_REC_XZ_RL 99
READ_REC_XZ_RS 1
READ_REC_YZ_RL 99
READ_REC_YZ_RS 1
readBinaryPrec Precision used for reading binary files 79
ReadBinaryPrec 1
readgrid_mnc read INI_CURVILINEAR_GRID() info using mnc 5
readStressOnAgrid read wind-streess located on model-grid, A-grid position 8
readStressOnCgrid read wind-streess located on model-grid, C-grid position 9
ready_to_receive 16
real Array declared as real*4(n) 0
real Array declared as real*8(n) 0
real Array declared as real*4(n) 0
real Array declared as real*8(n) 0
real buffer 3-D array (Input/Output if copyTo=T/F) 0
real buffer 3-D array (Input/Output if copyTo=T/F) 0
real buffer 3-D array (Input/Output if copyTo=T/F) 0
real buffer 3-D array (Input/Output if copyTo=T/F) 0
real buffer array 0
real buffer array 0
real buffer array 0
real buffer array 0
real array of time-specifications (recorded in file) 0
Real 1-D vector of length sNx 0
Real 1-D vector of length sNx 0
Real 1-D vector of length sNx 0
Real 1-D vector of length sNx 0
Real 1-D vector of length sn 0
Real 1-D vector of length sn 0
Real 1-D vector of length sn 0
Real 1-D vector of length sn 0
real array of time-info to write 0
real buffer array 0
real buffer array 0
real buffer array 0
real buffer array 0
real array of time-specifications to write 0
REAL4_IS_SLOW 10
REAL_BYTE 10
REAL_D0_IS_16BYTES 4
real_time 22
rec 184
REC 7
rec_dRm 5
rec_dRp 5
rec_ind index of the record in pickup file 10
rec_nlyr reciprocal of number of ice layers (real value) 6
rec_pLaw 8
RECEIVE_COMPONENT_CONFIGS 4
recFac_albNIR 3
recglo 5
RECHLY 26
recip_aqe 9
recip_Bo 1/Bo_surf 28
recip_Cp 17
recip_deepFac2C 33
recip_deepFac2F 16
recip_deepFacC 35
recip_deepFacF 5
recip_DelI 9
recip_DelIp 15
recip_dhSnowLin 4
recip_drC Reciprocal of drC 79
recip_drF Reciprocal of drF 242
recip_drF Reciprol of cell thickness 0
recip_drF Recipricol of cell face separation along Z axis ( units of r ). 0
recip_drLoc 4
recip_dT 14
recip_dt 8
recip_dxC Reciprocal of dxC 49
recip_DXC 7
recip_dxc 3
RECIP_DXC_CONST 1
RECIP_DXC_FX 1
RECIP_DXC_FY 1
recip_dxF Reciprocal of dxF 9
RECIP_DXF_CONST 1
RECIP_DXF_FX 1
RECIP_DXF_FY 1
recip_dxG Reciprocal of dxG 4
recip_DXG 6
recip_dxg 4
RECIP_DXG_CONST 1
RECIP_DXG_FX 1
RECIP_DXG_FY 1
recip_dxV Reciprocal of dxV 7
RECIP_DXV_CONST 1
RECIP_DXV_FX 1
RECIP_DXV_FY 1
recip_dyC Reciprocal of dxC 49
recip_DYC 6
recip_dyc 3
RECIP_DYC_CONST 1
RECIP_DYC_FX 1
RECIP_DYC_FY 1
recip_dyF Reciprocal of dyF 9
RECIP_DYF_CONST 1
RECIP_DYF_FX 1
RECIP_DYF_FY 1
recip_dyG Reciprocal of dyG 4
recip_DYG 6
recip_dyg 4
RECIP_DYG_CONST 1
RECIP_DYG_FX 1
RECIP_DYG_FY 1
recip_dyU Reciprocal of dyU 7
RECIP_DYU_CONST 1
RECIP_DYU_FX 1
RECIP_DYU_FY 1
recip_ecc2 9
recip_eta_qrNM1 reciprocal of eta_qrNM1 4
recip_evp_tau 8
recip_fullDepth 9
recip_gravity 14
recip_heff 7
recip_hFac 12
recip_hFac_arg Reciprol of cell open-depth factor 6
recip_hFacC Inverse of cell open-depth f[X,Y,Z] ( dimensionless ). 48
recip_HFacC 1
RECIP_HFACC_CONST 1
RECIP_HFACC_FX 1
RECIP_HFACC_FXY 1
RECIP_HFACC_FY 1
recip_hFacS 16
recip_HFacS 2
RECIP_HFACS_CONST 1
RECIP_HFACS_FX 1
RECIP_HFACS_FXY 1
RECIP_HFACS_FY 1
recip_hFacW 17
recip_HFacW 2
RECIP_HFACW_CONST 1
RECIP_HFACW_FX 1
RECIP_HFACW_FXY 1
RECIP_HFACW_FY 1
recip_hSnWet reciprol effective snow depth for wetness (m^-1) 4
recip_ICEFRONTlatentHeat 4
recip_kappa 1/kappa = Cp/R 3
recip_Lfreez reciprol of Latent heat (kg/J) 8
recip_mSnWet reciprol effective snow cover for wetness (mm^-1) 4
recip_multdim 3
recip_p0g 1
recip_P0g 44
recip_prs 9
recip_rA 112
recip_rA_arg Reciprol of cell Area 6
recip_rAs 31
recip_rAw 31
recip_rAz 30
recip_Rcol Inverse of cell center column thickness (1/r_unit) 51
recip_rhoConst 54
recip_rhoConstFresh 3
recip_rhoFacC 35
recip_rhoFacF 13
recip_rhonil 2
recip_rhoNil 2
recip_rr 3
recip_rSphere Reciprocal radius of sphere ( m ). 44
recip_rsphere 2
recip_rThickC reciprol thickness of W-Cell (centered on W-point) 13
recip_rThickC reciprol of W-cell thickness 0
recip_SHELFICElatentHeat 5
recip_sqrtRhoA 3
recipAvT Temp. for holding reciprocal of averaging period. 3
recipExpDeltaTtracer 3
recipImpMatrixCounter 3
recipLambda Slope vertical gradient at Trans. Layer Base (=recip.Lambda) 20
recipMaxSlope 4
recipVol 7
recl 106
RECL 12
reclen 36
reclength 6
record Temp. for textual I/O 52
record current line record (from parameter file) to process 0
RECORD 18
ReCountX 10
recT 14
rectmp 4
RECUR_Z 2
recvbuf 3
recvdname 32
recvsize 3
redFlag 4
refdate 21
reff 27
reff1 18
reff2 18
reffi 5
reffw 5
refSalt 11
REFSFC 3
refTemp 11
regId region number Id 13
regId region number Id 0
regId region number Id 0
region2fill array, indicates whether to compute statistics over region 39
region2fill indicates whether to compute statistics over this region 0
regionCount 5
regListPb 4
regMask regional mask 13
regMask regional mask 0
regMask regional mask 0
regMskVal region-mask identificator value 13
regMskVal region-mask identificator value 0
regMskVal region-mask identificator value 0
regrid_amat 2
REGRID_amat 1
REGRID_CHAR 1
REGRID_CHECK 2
regrid_fbname_in 3
REGRID_fbname_in 3
regrid_fbname_out 2
REGRID_fbname_out 1
regrid_i_loc 2
REGRID_i_loc 1
regrid_i_out 2
REGRID_i_out 1
regrid_ibeg 2
REGRID_ibeg 1
regrid_iend 2
REGRID_iend 2
REGRID_INIT_FIXED 2
REGRID_INIT_VARIA 2
regrid_j_loc 2
REGRID_j_loc 1
regrid_MDSIO 3
REGRID_MDSIO 2
regrid_MNC 3
REGRID_MNC 5
REGRID_MNC_INIT 2
REGRID_NELEM_MAX 6
REGRID_NGRID_MAX 8
regrid_ngrids 5
regrid_nout 4
REGRID_PACKAGE 1
REGRID_PARAM_I 1
REGRID_PARM01 2
REGRID_READPARMS 2
REGRID_RL 2
regridisON 2
relax 1
RELAX 4
RELAX_ADD 2
relaxForcingS Salt forcing due to surface relaxation 18
relaxForcingS Salt forcing due to surface relaxation 0
relaxForcingS Salt forcing due to surface relaxation 0
relaxForcingS Salt forcing due to surface relaxation 0
relaxForcingS Salt forcing due to surface relaxation 0
relaxMaskFile 6
relaxPtracerFile 10
relaxSFile 11
relaxTFile 11
remainingSteps 1
reminFac abbreviation 8
reminFac abbreviation 0
REMOVE_MEAN_RL 1
REMOVE_MEAN_RS 3
rEmpty empty column r-position 13
rEmpty empty column r-position 0
ren 23
repeatCycle number of averaging intervals in 1 cycle 7
repeatPeriod 11
REPRODUCE_BOTTOM_CTRL_OLDRESULTS 2
res 16
res_restore 1
res_store 1
resid 3
ResidualHeatOutOfSystem 5
resnorm 6
RESTART_C 1
RESTART_I 1
restartdaydate 6
restartmondate 6
restartyeardate 6
REVERSE_SIMULATION 36
rexpt 2
rF R-coordinate of face of cell f[Z] (units of r). 243
rF R-coordinate of face of cell (units of r). 0
rf 4
RF 14
rf1 3
RF1 9
rf2 3
RF2 7
rF_edge 6
rF_pmid 9
rFac abbreviation for 1/(R_{\rho0}-1) 7
rfac 4
rfc 3
RFC 14
RFFTB1 1
RFFTF1 1
RFFTI1 1
rflc 7
rFlx vertical flux 5
rFlx vertical flux 0
rflx 7
rfresh 11
rft 6
rfu 7
rFullDepth maximum depth of a full column 30
rFullDepth maximum depth of a full column 0
rfv 7
Rgas gas constant for dry air [J/kg/K] 6
rgas 15
RGAS 12
RH relative humidity [0-1] (3-dim) 38
rh 35
rHalf 18
rhalfdt 5
RHBL 6
rhc 3
RHCL1 9
RHCL2 6
rhcrit 15
RHCRIT 1
RHDRAG 3
rHFac 2
rHfac 2
rhfrac 19
RHGRAD 7
rHigh Higher r boundary 11
rHigh high order term factor 0
RHIL 6
RHLSC 6
rhmax 1
RHMAX 4
rhmin 5
rhn 28
RHO1 3
RHO1K 3
rho1Ref reference vertical profile for density 4
rho3d in-situ density anomaly 16
rho3d In-situ density [kg/m3] computed at z=rC ; 0
RHO4 4
rho_air 3
rhoA density of air [kg/m^3] 8
rhoa 16
RHOAIR 11
rhoBigNb 6
rhoC 3
rhoConst Vertically constant reference density 48
rhoConstFresh Constant reference density for fresh water (rain) 43
rhoDen 22
rhoDw 8
RHODZ1 7
RHODZ2 15
rhoFacC normalized (by rhoConst) reference density at cell-Center 33
rhoFacF normalized (by rhoConst) reference density at cell-interFace 42
rhoFW density of fresh water [kg/m^3] 8
rhofw density of fresh water [kg/m^3] 12
RHOFW 5
rhoi density of ice [kg/m^3] 58
RHOI 6
RHOICE 3
rhoIcefront 5
rhoInSitu In-Situ density anomaly [kg/m^3] at cell center level. 17
rhoK Density at adjacent levels (common ref. level) 28
rhoK Density at adjacent levels (ref. to same level) 0
rhoK in-situ density anomaly 0
rhoK Density at current level, and level above 0
rhoK density at level k 0
rhoK density at layer k and km1 (relative to k) 0
rhok 1
RHOK 6
RHOKDZ 13
rhokdz 2
rhoKm1 rho in layer above 41
rhoKm1 Density at adjacent levels (common ref. level) 0
rhoKm1 Density at adjacent levels (ref. to same level) 0
rhoKm1 density of water @ level above (k-1), evaluated at pressure level k 0
rhoKm1 Density at current level, and level above 0
rhoKm1 density at layer k and km1 (relative to k) 0
rhokm1 2
RHOKM1 3
rhoKp1 rho in layer below 6
rhokp1 1
rhoLoc local copy of rhoK 76
rhoLoc In-situ density [kg/m3] (2-D array) computed at z=rC ; 0
rholoc 24
rhoMxL 16
rhoNil Reference density for the linear equation of state 17
rhonil 14
rhoNum 14
rhoP0 21
rhoRef 5
rhoRefFile File containing reference density profile rhoRef (1.D) 11
rhos density of snow [kg/m^3] 35
rhoShelfice 4
rhoShelfIce 3
RHOSIN 2
RHOSN 7
rhoSurf Surface density anomaly 14
rhoSurf Surface density anomaly 0
rhoSW density of sea water [kg/m^3] 0
rhosw density of seawater [kg/m^3] 12
RHOSW 5
rhoUp 8
RHOW 3
RHOZPK 4
RHREF 4
rhs_a 4
rhs_n 5
rhs_x 7
rhs_y 7
rhsMax 30
rhsMaxGlobal 8
rhsNorm 24
rhum 3
RI 13
RI_IWMIX 2
RIB 4
Rib 11
RIBIN 2
richsn 9
ricr 3
RICR 6
Ricr 7
RiFlux 9
Rig 5
right 6
rigidLid Set to true to use rigid lid 22
Riinfty 6
RIINIT 2
RiLimit 9
RiMax 4
RiNumber local Richardson number 21
Rit 7
RiTmp 18
Ritop 15
RIV 1
RIVER 3
Rj differences at i-1,i,i+1 115
Rj differences at i-1,i,i+1 0
Rj differences at j-1,j,j+1 0
Rj differences at i-1,i,i+1 0
Rj differences at i-1,i,i+1 0
Rj differences at j-1,j,j+1 0
Rj differences at i-1,i,i+1 0
Rj differences at i-1,i,i+1 0
Rj differences at i-1,i,i+1 0
Rj differences at j-1,j,j+1 0
Rjh 8
Rjjm second differences at i-1,i 24
Rjjm second differences at i-1,i 0
Rjjm second differences at j-1,j 0
Rjjm second differences at i-1,i 0
Rjjm second differences at i-1,i 0
Rjjm second differences at j-1,j 0
Rjjp second differences at i-1,i 24
Rjjp second differences at i-1,i 0
Rjjp second differences at j-1,j 0
Rjjp second differences at i-1,i 0
Rjjp second differences at i-1,i 0
Rjjp second differences at j-1,j 0
Rjm differences at i-1,i,i+1 73
Rjm differences at i-1,i,i+1 0
Rjm differences at j-1,j,j+1 0
Rjm differences at i-1,i,i+1 0
Rjm differences at i-1,i,i+1 0
Rjm differences at j-1,j,j+1 0
Rjm differences at i-1,i,i+1 0
Rjm differences at i-1,i,i+1 0
Rjm differences at i-1,i,i+1 0
Rjm differences at j-1,j,j+1 0
Rjp differences at i-1,i,i+1 73
Rjp differences at i-1,i,i+1 0
Rjp differences at j-1,j,j+1 0
Rjp differences at i-1,i,i+1 0
Rjp differences at i-1,i,i+1 0
Rjp differences at j-1,j,j+1 0
Rjp differences at i-1,i,i+1 0
Rjp differences at i-1,i,i+1 0
Rjp differences at i-1,i,i+1 0
Rjp differences at j-1,j,j+1 0
RKAP 5
rkap 1
rkapp1 1
RKAPP1 2
rkappa 4
RKAPPA 4
rkFac removed from namelist ; replaced by -rkSign 4
rknob 3
rkSign Vertical coordinate to vertical index orientation. 77
RL buffer vector array (Input/Output if copyTo=T/F) 0
RL model vector array (Output/Input if copyTo=T/F) 0
RL buffer vector array (Input/Output if copyTo=T/F) 0
RL array to read into, arr(:,:,nNz,:,:) 0
RL array to write, arr(:,:,nNz,:,:) 0
RL array to read into, arr(:,:,nNz,:,:) 0
RL array to write, arr(:,:,nNz,:,:) 0
RL array to read into, arr(:,:,nNz,:,:) 0
RL array to read into, arr(:,:,nNz,:,:) 0
RL array to write, arr(:,:,nNz,:,:) 0
RL array to write, arr(:,:,nNz,:,:) 0
RL model 3-D tiled array (Output/Input if copyTo=T/F) 0
RL model 3-D tiled array (Output/Input if copyTo=T/F) 0
RL vector array to read in 0
RL array to read into if arrType= RL , fldRL(:,:,kSize,:,:) 0
RL array to read into if arrType= RL , fldRL(:,kSize,:,:) 0
RL array to read into if arrType= RL , fldRL(:,kSize,:,:) 0
RL array to read if arrType= RL , fldRL(nSize) 0
RL array to read into, arr(narr) 0
RL array to write, arr(:,:,nNz,:,:) 0
RL array to write, arr(:,:,nNz,:,:) 0
RL array to write, arr(:,:,nNzdim,:,:) 0
RL array to write, arr(:,:,nNzdim,:,:) 0
RL array to write, arr(:,:,nNz,:,:) 0
RL array to write, arr(:,:,nNz,:,:) 0
RL array to write, arr(:,:,nNz,:,:) 0
RL array to write, arr(:,:,nNz,:,:) 0
RL array to write, arr(:,:,nNzdim,:,:) 0
RL array to write, arr(:,:,nNzdim,:,:) 0
RL array to write, arr(:,:,nNzdim,:,:) 0
RL array to write, arr(:,:,nNzdim,:,:) 0
RL vector array to write 0
RL array to write if arrType= RL , fldRL(:,:,kSize,:,:) 0
RL array to write if arrType= RL , fldRL(:,kSize,:,:) 0
RL array to write if arrType= RL , fldRL(:,kSize,:,:) 0
RL array to write if arrType= RL , fldRL(:,:,nNz) 0
RL array to write if arrType= RL , fldRL(nSize) 0
RL array to write, arr(narr) 0
rl_0 6
rl_35 6
rLambMin 3
RLAR 11
rlat 1
rLimit centered (vs upwind) fraction 8
rLimit centered (vs upwind) fraction 0
rLimit centered (vs upwind) fraction 0
rll 3
rLoc 3
rlon 1
rLow Lower r boundary 6
rLowS base of fluid column in r_unit at Southern edge location. 16
rLowW base of fluid column in r_unit at Western edge location. 16
rMidKp1 4
rmin 8
Rmin_surf minimum r_value of the free surface position 8
Rmin_tmp 11
rMixingLength inverse of mixing length 8
rmspp 13
rmsppold 4
rmsTile 5
rmu 3
RNCL 2
rnd 9
RND 1
RNDCLOUD 2
RNEVP 2
RNLON 3
RNO 2
rno 1
Rnondim 13
rNumPnts 18
RO 1
ro 8
Ro_SeaLevel standard position of Sea-Level in R coordinate, used as 12
Ro_surf surface reference (at rest) position, r_unit. 98
roave 5
robar 7
ROBSO3 1
rodt 8
ROEnFx_atm Energy carried by RunOff on atmos. grid 4
ROEnFxTime Time period over which term has been integrated. 6
roiave 3
rootl 5
ROOTLY 47
ROsize 7
ROTATE_SPHERICAL_POLAR_GRID 3
ROTATE_UV2EN_RL 3
ROTATE_UV2EN_RS 1
rotateGrid rotate grid coordinates to geographical coordinates 26
rotationPeriod Rotation period (s) (= 2.pi/omega) 9
rp1h 9
rp1h_cfl 15
rphf 1
RPHF 3
rpow 1
RPOW 2
RPS_1 10
rq rho * q for a layer 15
RQCL 4
rqh rho * q * h for a layer 22
rr 32
rr1t 8
rr2t 8
rra 13
RRCL 4
rReg Arrays for passing attributes to the coupler 4
rReg Arrays for passing attributes to the coupler 0
rreg 2
Rrho density ratio R_{\rho} = \alpha dT/dz / \beta dS/dz 8
Rrho0 6
rrodt 5
RS model vector array (Output/Input if copyTo=T/F) 0
RS array to read into, arr(:,:,nNz,:,:) 0
RS array to write, arr(:,:,nNz,:,:) 0
RS array to read into, arr(:,:,nNz,:,:) 0
RS array to write, arr(:,:,nNz,:,:) 0
RS array to read into, arr(:,:,nNz,:,:) 0
RS array to read into, arr(:,:,nNz,:,:) 0
RS array to write, arr(:,:,nNz,:,:) 0
RS array to write, arr(:,:,nNz,:,:) 0
RS model 3-D tiled array (Output/Input if copyTo=T/F) 0
RS model 3-D tiled array (Output/Input if copyTo=T/F) 0
RS vector array to read in 0
RS array to read into if arrType= RS , fldRS(:,:,kSize,:,:) 0
RS array to read into if arrType= RS , fldRS(:,kSize,:,:) 0
RS array to read into if arrType= RS , fldRS(:,kSize,:,:) 0
RS array to read if arrType= RS , fldRS(nSize) 0
RS array to read into, arr(narr) 0
RS array to write, arr(:,:,nNz,:,:) 0
RS array to write, arr(:,:,nNz,:,:) 0
RS array to write, arr(:,:,nNzdim,:,:) 0
RS array to write, arr(:,:,nNzdim,:,:) 0
RS array to write, arr(:,:,nNz,:,:) 0
RS array to write, arr(:,:,nNz,:,:) 0
RS array to write, arr(:,:,nNz,:,:) 0
RS array to write, arr(:,:,nNz,:,:) 0
RS array to write, arr(:,:,nNzdim,:,:) 0
RS array to write, arr(:,:,nNzdim,:,:) 0
RS array to write, arr(:,:,nNzdim,:,:) 0
RS array to write, arr(:,:,nNzdim,:,:) 0
RS vector array to write 0
RS array to write if arrType= RS , fldRS(:,:,kSize,:,:) 0
RS array to write if arrType= RS , fldRS(:,kSize,:,:) 0
RS array to write if arrType= RS , fldRS(:,kSize,:,:) 0
RS array to write if arrType= RS , fldRS(:,:,nNz) 0
RS array to write if arrType= RS , fldRS(nSize) 0
RS array to write, arr(narr) 0
rs 33
rs1str 3
rs1t 8
rs2str 3
rs2t 8
rsa 19
rsalt 11
RSD 9
rseaice 1
rsf 8
RSIG 12
rSigBndRS 10
rSigmaBnd vertical position (in r-unit) of r/sigma transition (Hybrid-Sigma) 7
rsirbm 8
rsirdf 8
rsl1 3
rsl2 3
RSOIL 3
RSOIL1 8
rsoil1 3
RSOIL2 8
rsoil2 3
rSource Extent of the source term region. Loop will skip checking points outside this region. Within this region the source heating will be added to any points that are at a land - fluid boundary. rSource is in grid points, so that points checked are ophi(iGlobal,jGlobal) such that iGlobal=iGsource +/- rSource, jGlobal = jGsource +/- rSource. rSource, iGSource and jGSource only need to define a quadrilateral that includes the cylinder and no other land, they do not need to be exact. 2
rSphere Radius of sphere for a spherical polar grid ( m ). 48
rsq2pi 1
RSQ2PI 3
RSTAR_CHANGE 1
RSTAR_FIXED 1
rStarAreaWeight use area weighted average for rStarFac at U & V point 4
rStarDhCDt relative time derivative of h_Center = d.eta/dt / H 11
rStarDhSDt relative time derivative of h_South_face (v.point) 6
rStarDhWDt relative time derivative of h_West_face (u.point) 6
rStarExpC column expansion factor = h^n+1/h^n , Centered 17
rStarExpS column expansion factor = h^n+1/h^n , Southern face 9
rStarExpW column expansion factor = h^n+1/h^n , Western face 9
rStarFacC = dr/dr* = ratio of r-thickness / r*-thickness = h^n / H 35
rstarfacC 1
rStarFacS same but for South face 19
rStarFacW same but for West face 19
rStarFldC 2
rStarFldS 6
rStarFldW 6
RSTFAC 5
rsuma 22
rsumwgt 5
RSURF 8
RSURFP 4
rSurfS surface reference position at Southern edge location [r_unit]. 16
rSurftmp free surface r-position that is used to compute hFac_surf 11
rSurfW surface reference position at Western edge location [r_unit]. 16
rsuvbm 7
rsuvdf 7
RSW 8
RTBS 4
rThickC thickness of W-cell 10
rThickC_C thickness (in r-units) of W-Cell (centered on W pt) 5
rThickC_S thickness (in r-units) of W-Cell at Southern Edge 5
rThickC_W thickness (in r-units) of W-Cell at Western Edge 5
rtime 1
rTitle r-coordinate title 8
RTLSC 4
rtmp 26
rTrans Vertical volume transport at interface k 175
rTrans Vertical volume transport at interface k 0
rTrans 2-D arrays of volume transports at W points 0
rTrans vertical volume transport 0
rTrans vertical volume transport 0
rTrans vertical volume transport 0
rTrans 2-D arrays of volume transports at W points 0
rTrans vertical volume transport 0
rTrans vertical volume transport 0
rTrans vertical volume transport 0
rTrans vertical volume transport 0
rTrans vertical volume transport 0
rTrans vertical volume transport 0
rTrans vertical volume transport 0
rTrans vertical volume transport at inteface k 0
rTrans vertical volume transport 0
rTrans 2-D arrays of volume transports at W points 0
rTrans vertical volume transport 0
rTrans vertical volume transport 0
rTrans vertical volume transport (updated) 0
rTrans vertical transport (above U point) 0
rTrans vertical transport (above V point) 0
rTrans vertical volume transport at interface k 0
rTrans vertical volume transport at inteface k 0
rTransKp1 Vertical volume transport at inteface k+1 39
rTransKp1 Vertical volume transport at inteface k+1 0
rTransKp1 vertical volume transport at interface k+1 0
rTransKp1 2-D array of volume trans at W pts, interf k+1 0
rTransKp1 vertical volume transport at inteface k+1 0
rTransKp1 vertical volume transport at interface k+1 0
rTransKp1 vertical volume transport at inteface k+1 0
rTransU vertical transport (above U point) 14
rTransV vertical transport (above V point) 14
Run 8
run_b 5
RUNCLOCK 2
RUNCLOCK_CHECK 2
RUNCLOCK_CONTINUE 8
RUNCLOCK_GETTIME 3
RUNCLOCK_INIT 2
RUNCLOCK_READPARMS 2
RUNCLOCK_USES_DATE_AND_TIME 1
RUNCLOCKisON 2
RUNCLOCKIsOn 3
runIndex 4
rUnit2c 17
rUnit2mass units conversion factor (surface forcing), from vertical r-coordinate unit to mass per unit area [kg/m2]. z-coord: = rhoConst ( [m] * rho = [kg/m2] ) ; p-coord: = 1/gravity ( [Pa] / g = [kg/m2] ) ; 38
rUnits vertical coordinate units 10
RUNIV 5
runlength 7
RUNNING 5
runoff freshwater runoff (m/s) 22
runoff Temp. for runoff 0
runoff river(ice) runoff 0
runoff River and glacier runoff in m/s 0
RUNOFF 31
runoff0 19
runoff1 19
runoff_2D 9
runoff_ann 5
RunOff_atm Fresh water flux (=RunOff) on atmos. grid 4
runoff_atm 10
runoff_atm_ta 7
RUNOFF_DATA 1
runoff_errfile 4
runoff_exfremo_intercept 6
runoff_exfremo_slope 6
runoff_lat0 6
runoff_lat_inc 7
runoff_lon0 6
runoff_lon_inc 6
RUNOFF_MAP_C 1
RUNOFF_MAP_I 1
RUNOFF_MAP_R 1
runoff_mon 4
runoff_nlat 6
runoff_nlon 6
runoffconst 6
RunOffEnFx Energy carried by RunOff (W/m2) (+=leaving land bucket) 8
runoffFile 8
RunoffFile 13
runofffile 11
RunOffFlux Fresh water flux (=RunOff) on atmos. grid 10
runoffmapFile Input file for setting runoffmap 7
runoffMapFile 6
runoffmask 6
runoffperiod 10
runoffstartdate 10
runoffstartdate1 5
runoffstartdate2 5
RunOffTime Time period over which flux field has been integrated. 6
runoffVal 8
RUNSRF 13
runsrf 4
runtimesecs 9
rUpwind upwind contribution 38
rUpwind upwind contribution 0
rUpwind upwind contribution 0
rUpwind upwind contribution 0
rv 18
rval 6
Rvap gas constant for H2O vapor [J/kg/K] 0
RVAP 3
rvec 3
rVel2wUnit units conversion factor (Non-Hydrostatic code), from r-coordinate vertical velocity to vertical velocity [m/s]. z-coord: = 1 ; p-coord: wSpeed [m/s] = rVel [Pa/s] * rVel2wUnit 23
rVelDudrFac 3
rVelDvdrFac 3
rViscFluxU viscous fluxes 4
rViscFluxV viscous fluxes 4
rvk 4
RVK 4
RW_MFLDS_C 1
RW_MFLDS_I 1
RW_SAFE_MFLDS 5
RX1 13
RX2 12
rxa 19
ry 3
RZCM 3
RZEN 14
RZWM 4