File List

Here is a list of all files with brief descriptions:

[detail level 123]

subroutines | |

ant | |

boundary.F90 | Computation of the surface temperature (must be less than 0 deg C!) and of the accumulation-ablation function |

phys_para.F90 | Reading of physical parameters |

read_target_topo_nc.F90 | Reading of the target-topography file (in NetCDF format) |

sico_init.F90 | Initialisations for SICOPOLIS |

topography1.F90 | Definition of the initial surface and bedrock topography (including gradients) and of the horizontal grid spacings dxi, deta. For present-day initial topography |

topography2.F90 | Definition of the initial surface and bedrock topography (including gradients) and of the horizontal grid spacings dxi, deta. For ice-free initial topography with relaxed lithosphere |

topography3.F90 | Definition of the initial surface and bedrock topography (including gradients) and of the horizontal grid spacings dxi, deta. For initial topography from previous simulation (read in binary format) |

topography3_nc.F90 | Definition of the initial surface and bedrock topography (including gradients) and of the horizontal grid spacings dxi, deta. For initial topography from previous simulation (read in NetCDF format) |

asf | |

boundary.F90 | Computation of the surface temperature (must be less than 0 deg C!) and of the accumulation-ablation function |

output5.F90 | Writing of time-series data for all defined surface points on file in ASCII format. Modification of Tolly's output7 by Thorben Dunse |

phys_para.F90 | Reading of physical parameters |

sico_init.F90 | Initialisations for SICOPOLIS |

topography1.F90 | Definition of the initial surface and bedrock topography (including gradients) and of the horizontal grid spacings dxi, deta. For present-day initial topography |

topography2.F90 | Definition of the initial surface and bedrock topography (including gradients) and of the horizontal grid spacings dxi, deta. For ice-free initial topography with relaxed lithosphere |

topography3.F90 | Definition of the initial surface and bedrock topography (including gradients) and of the horizontal grid spacings dxi, deta. For initial topography from previous simulation (read in binary format) |

topography3_nc.F90 | Definition of the initial surface and bedrock topography (including gradients) and of the horizontal grid spacings dxi, deta. For initial topography from previous simulation (read in NetCDF format) |

emtp2sge | |

boundary.F90 | Computation of the surface temperature (must be less than 0 deg C!) and of the accumulation-ablation function |

phys_para.F90 | Reading of physical parameters |

sico_init.F90 | Initialisations for SICOPOLIS |

topography2.F90 | Definition of the initial surface and bedrock topography (including gradients) and of the horizontal grid spacings dxi, deta. For ice-free initial topography with relaxed lithosphere |

topography3.F90 | Definition of the initial surface and bedrock topography (including gradients) and of the horizontal grid spacings dxi, deta. For initial topography from previous simulation (read in binary format) |

topography3_nc.F90 | Definition of the initial surface and bedrock topography (including gradients) and of the horizontal grid spacings dxi, deta. For initial topography from previous simulation (read in NetCDF format) |

general | |

borehole.F90 | Computation of an arbitrary field quantity for a given borehole position x_pos, y_pos by weighed averaging of the corresponding gridded 2-d field |

c_val.F90 | Specific heat of ice: Linear interpolation of tabulated values in C(.) |

calc_age_c.F90 | Computation of age for a cold ice column |

calc_age_t.F90 | Computation of age for a cold / temperate ice column |

calc_elra.F90 | Computation of the isostatic steady-state displacement of the lithosphere (wss) for the ELRA model |

calc_enhance.F90 | Computation of the flow enhancement factor |

calc_qbm.F90 | Computation of the basal melting rate Q_bm. Summation of Q_bm and Q_tld |

calc_temp1.F90 | Computation of temperature and age for a cold ice column |

calc_temp2.F90 | Computation of temperature and age for an ice column with a temperate base overlain by cold ice |

calc_temp3.F90 | Computation of temperature, water content and age for an ice column with a temperate base overlain by a temperate-ice layer |

calc_temp_bas.F90 | Computation of the basal temperatures |

calc_temp_cold.F90 | Computation of temperature and age in cold-ice mode |

calc_temp_melt.F90 | Computation of the melting temperatures |

calc_temp_poly.F90 | Computation of temperature, water content and age in polythermal mode |

calc_temp_r.F90 | Computation of temperature for an ice-free column |

calc_temp_ssa.F90 | Computation of temperature and age for ice shelves (floating ice) |

calc_top.F90 | Computation of the topography (including gradients) |

calc_vis_ssa.F90 | Computation of the depth-integrated viscosity vis_int_g in the shallow shelf approximation |

calc_vxy_b_sia.F90 | Computation of the basal horizontal velocity vx_b, vy_b in the shallow ice approximation |

calc_vxy_sia.F90 | Computation of the shear stresses txz, tyz, the effective shear stress sigma, the depth-averaged fluidity flui_ave_sia, the horizontal velocity vx, vy and the horizontal volume flux qx, qy in the shallow ice approximation |

calc_vxy_ssa.F90 | Computation of the horizontal velocity vx, vy, the horizontal volume flux qx, qy and the flux across the grounding line q_gl_g in the shallow shelf approximation |

calc_vxy_ssa_matrix.F90 | Solution of the system of linear equations for the horizontal velocities vx_m, vy_m in the shallow shelf approximation |

calc_vz_sia.F90 | Computation of the vertical velocity vz in the shallow ice approximation |

calc_vz_ssa.F90 | Computation of the vertical velocity vz in the shallow shelf approximation |

calc_water_bas.F90 | Computation of the effective thickness of subglacial water |

check.F90 | NetCDF error capturing |

creep.F90 | Creep response function for ice |

erfcc.F90 | Computation of the complementary error function erfc(x) = 1-erf(x) with a fractional error everywhere less than 1.2 x 10^(-7) (formula by Press et al., 'Numerical Recipes in Fortran 77') |

geo_coord.F90 | Computation of longitude lambda and latitude phi for position (x,y) in the numerical domain |

kappa_val.F90 | Heat conductivity of ice: Linear interpolation of tabulated values in KAPPA(.) |

mask_update.F90 | Update of the topography mask due to changes of the sea level |

metric.F90 | Definition of the components g11 and g22 of the metric tensor of the applied coordinates |

num_coord.F90 | Computation of position (x,y) in the numerical domain for longitude lambda and latitude phi (in rad) |

output1.F90 | Writing of time-slice files in binary format |

output2.F90 | Writing of time-series data on file in ASCII format |

output3.F90 | Writing of time-series data of the ice thickness field on file in ASCII format |

output4.F90 | Writing of time-series data of the deep ice cores on file in ASCII format |

output_nc.F90 | Writing of time-slice files in NetCDF format |

pdd.F90 | Computation of the positive degree days (PDD) with statistical temperature fluctuations; based on semi-analytical solution by Calov and Greve (2005). Note that this subroutine uses years as time unit (as opposed to the seconds which are usually used by SICOPOLIS) |

ratefac.F90 | Rate factor for cold ice: Linear interpolation of tabulated values in RF(.) |

ratefac_t.F90 | Rate factor for temperate ice |

read_kei.F90 | Reading of the tabulated kei function |

read_phys_para_value.F90 | Reading of a value of a physical parameter from the phys_para file |

shift_cts_downward.F90 | Downward shifting of the CTS |

shift_cts_upward.F90 | Upward shifting of the CTS |

sico_end.F90 | Ending of SICOPOLIS |

sico_main_loop.F90 | Main loop of SICOPOLIS |

sico_types.F90 | Declarations of kind types for SICOPOLIS |

sico_variables.F90 | Declarations of global variables for SICOPOLIS |

sor_sprs.F90 | SOR solver for a system of linear equations lgs_a*lgs_x=lgs_b [matrix in compressed row storage CRS, represented by arrays lgs_a_value(values), lgs_a_index (indices) and lgs_a_ptr (pointers)] |

topograd_1.F90 | Calculation of topography gradients on the staggered grid and on the grid points (the latter by second-order discretization). Length rescaling with the corresponding components of the metric tensor is already included |

topograd_2.F90 | Calculation of topography gradients on the staggered grid and on the grid points (the latter by fourth-order discretization). Length rescaling with the corresponding components of the metric tensor is already included |

tri_sle.F90 | Solution of a system of linear equations Ax=b with tridiagonal matrix A |

viscosity.F90 | Ice viscosity as a function of the effective strain rate and the temperature (in cold ice) or the water content (in temperate ice) |

grl | |

boundary.F90 | |

phys_para.F90 | Reading of physical parameters |

read_target_topo_nc.F90 | Reading of the target-topography file (in NetCDF format) |

sico_init.F90 | Initialisations for SICOPOLIS |

topography1.F90 | Definition of the initial surface and bedrock topography (including gradients) and of the horizontal grid spacings dxi, deta. For present-day initial topography |

topography2.F90 | |

topography3.F90 | |

topography3_nc.F90 | |

heino | |

boundary.F90 | |

phys_para.F90 | Reading of physical parameters |

sico_init.F90 | Initialisations for SICOPOLIS |

topography1.F90 | Definition of the initial surface and bedrock topography (including gradients) and of the horizontal grid spacings dxi, deta. For an initial topography with a thin ice layer (thickness 2*H_MIN) everywhere on the land area |

topography2.F90 | |

topography3.F90 | |

topography3_nc.F90 | |

nhem | |

boundary.F90 | |

phys_para.F90 | Reading of physical parameters |

sico_init.F90 | Initialisations for SICOPOLIS |

topography1.F90 | |

topography2.F90 | |

topography3.F90 | |

topography3_nc.F90 | |

nmars | |

boundary.F90 | Mars Atmosphere-Ice Coupler MAIC-1.5: Computation of the surface temperature (must be less than 0 deg C) and of the accumulation-ablation rate for the north polar cap of Mars. Computation of the geothermal heat flux |

instemp.f90 | Computation of the daily mean surface temperature of Mars based on obliquity, eccentricity and the anomaly of vernal equinox (local insolation temperature scheme = LIS scheme) |

phys_para.F90 | Reading of physical parameters |

sico_init.F90 | Initialisations for SICOPOLIS |

topography1.F90 | |

topography2.F90 | |

topography3.F90 | |

topography3_nc.F90 | |

scand | |

boundary.F90 | |

phys_para.F90 | Reading of physical parameters |

sico_init.F90 | Initialisations for SICOPOLIS |

topography2.F90 | |

topography3.F90 | |

topography3_nc.F90 | |

smars | |

boundary.F90 | Mars Atmosphere-Ice Coupler MAIC-1.5: Computation of the surface temperature (must be less than 0 deg C) and of the accumulation-ablation rate for the south polar cap of Mars. Computation of the geothermal heat flux |

instemp.f90 | Computation of the daily mean surface temperature of Mars based on obliquity, eccentricity and the anomaly of vernal equinox (local insolation temperature scheme = LIS scheme) |

phys_para.F90 | Reading of physical parameters |

sico_init.F90 | Initialisations for SICOPOLIS |

topography1.F90 | |

topography2.F90 | |

topography3.F90 | |

topography3_nc.F90 | |

tibet | |

boundary.F90 | |

phys_para.F90 | Reading of physical parameters |

sico_init.F90 | Initialisations for SICOPOLIS |

topography2.F90 | |

topography3.F90 | |

topography3_nc.F90 | |

sicopolis.F90 | Main program file of SICOPOLIS |

Generated on Mon May 20 2013 10:19:07 for SICOPOLIS V3.0 by 1.8.1