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A list of all pages that have property "Describe time scale and resolution" with value "arbitrary". Since there have been only a few results, also nearby values are displayed.

Showing below up to 26 results starting with #1.

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List of results

  • Model:BarrierBMFT  + (Time step: one year, with multiple storms occurring within each year Duration: years to centuries)
  • Model:Barrier3D  + (Time step: one year, with multiple storms occurring within each year Duration: years to millennia)
  • Model:GeoClaw  + (Time steps are limited by CFL condition based on depth of fluid. Finer grids can automatically refine to use finer resolution in time than the underlying coarse grids.)
  • Model:WAVEWATCH III ^TM  + (Time steps from seconds to 1h. Time length of runs can be up to years.)
  • Model:QDSSM  + (Time steps of 10 – 1000 years depending on output range. Total range up to Millions of years.)
  • Model:GSFLOW-GRASS  + (Time to create the model domain increases with the number of intersections between segments, catchment sub-basins, and the MODFLOW grid.)
  • Model:CarboLOT  + (Timestepping is usually annual, extending over 1000 years. However the model is capable of doing finer and longer runs.)
  • Model:BlockLab  + (Timesteps in the range of 1-10 years are generally stable, can run for as long as desired until the memory runs out.)
  • Model:Chi analysis tools  + (Topographic analysis so no time scale constraints.)
  • Model:SimClast  + (Total time scale is merely dependant on computing time, typically on the order of several thousands to 100,000 years. Time steps are restricted to 1 year.)
  • Model:Erode  + (Typical simulated time is 1000 to 100,000 years.)
  • Model:Bedrock Fault Scarp  + (Typical time scale of order tens to hundreds of thousands of years.)
  • Model:ISSM  + (Typical time step of two weeks (constraints are mainly HEC-related).)
  • Model:TopoFlow-Evaporation-Read File  + (Typical timesteps are on the order of seconds to minutes. Model can be run for a full year or longer, if necessary.)
  • Model:TopoFlow-Evaporation-Energy Balance  + (Typical timesteps are on the order of seconds to minutes. Model can be run for a full year or longer, if necessary.)
  • Model:TopoFlow-Evaporation-Priestley Taylor  + (Typical timesteps are on the order of seconds to minutes. Model can be run for a full year or longer, if necessary.)
  • Model:DynEarthSol3D  + (Typically millions of years to tens of millions of year)
  • Model:MARSSIM  + (Variable - Limited by computer speed.)
  • Model:FluidMud  + (Wave-current BL: timescale ~10 min; time step ~0.01 sec; Tidal BL: timescale days and time step 10 s)
  • Model:Equilibrium Calculator  + (We present an equilibrium solution that maWe present an equilibrium solution that may or may not be reached. The fundamental assumption is that in the absence of subsidence, uplift and change of downstream water surface base level, an alluvial river will evolve toward an equilibrium state in which overbank and bar deposition (floodplain construction) are perfectly balanced by the removal of floodplain sediment due to channel migration (floodplain shaving) (Lauer & Parker, 2006). This equilibrium state can be reached if hydrologic regime, sediment supply and caliber do not vary in time. </br></br>Reference</br>Lauer, J. W. & Parker, G. (2006). Net local removal of floodplain sediment by river meander migration, Geomorphology 96, 123-149.iver meander migration, Geomorphology 96, 123-149.)
  • Model:Quad  + (We use the ‘basin equilibrium timescale’ (Paola 2000), defined as the length scale square divided by the fluvial diffusivity. In field settings, this time scale can range from centennial to millennia up to millions of years.)
  • Model:MarshPondModel  + (Yearly time steps are appropriate)
  • Model:CosmoLand  + (Yearly timesteps. Most runs go for 500,000 yrs or more.)
  • Model:GLUDM  + (Yearly, 1960-2100.)
  • Model:CEM  + (Years to millenia. Typically, the model isYears to millenia. Typically, the model is run with timesteps on the order of a day. However, the assumptions that the shoreface progrades or erodes while maintaining its cross-shore shape prevents model results from being interpreted as meaningful over time scales shorter than years to decades. (Storm and post storm cross-shore shifting of sediment within the shoreface causes shoreline fluctuations on event timescales that are implicitly averaged out in this model.)re implicitly averaged out in this model.))
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