Modelling tool user interfaces

Monthly data with years as rows and a column for each month in a water year starting in Oct, and for some types an annual sum in an additional column.
Files can be read and generated by text editors (like Notepad) outside of WRSM, even though the files do not have typical text file extensions (e.g. ".txt"). WRSM input and output file extensions show the type of data (e.g., .RAN file is a rainfall timeseries file). Data can be brought into Excel for analyses, but it is difficult to create the input file formatting within Excel. A text editor or a general coding interface like an R or Python editor can be used to achieve the needed input data timeseries.

Some flexibility on the formatting for inputs as one can specify the row/column format and date formatting in the files in the tools' input interface. Inputs can be prepared in Excel and outputs easily opened there as well.

Input is daily data in long-format (one date per row) in a composite file containing climate variable and observed flow inputs in specified column orders and number formats. Difficult to prepare simply in Excel, and labour intensive to prepare in a text editor (e.g, Notepad), but reasonable to prepare in a general coding programme like R or Python.
Outputs are .dbf format text files which open easily in Excel.

Daily data in long-format (one date per row) text files. Reasonable to prepare and easy to open in Excel.
Outputs can also be produced in an Access database.

Dfs0 files for input must be generated within MIKE software. Data in long-format (each row is a timestep) prepared in Excel can be copy-pasted into a blank dfs0 file with the correct number of rows and data from dfs0 files can be copy-pasted into Excel. There are also batch conversion tools in MIKE that can be used to convert specifically formatted text files into dfs0 files and to convert dfs0 files into text files.

Spatial data must be interpreted outside of the tool to decide on how to set-up the network of modules: what areas will have their own modules (e.g. subcatchment delineation; special cover types to represent separately, like plantations, irrigated areas, wetlands; river reaches and dams), determine sizes and other characteristics of the modules, and how they are linked to one another.

Spatial data must be interpreted outside of the tool to decide on how to set-up the network of subcatchments: subcatchment delineation plus special features to represent specifically like dams, plantations, irrigated areas, wetlands), determine the sizes and other characteristics of subcatchments and special areas, and how subcatchments are linked to one another.

Spatial data must be interpreted outside of the tool to decide on how to set-up the network of subcatchments composed of HRUs, river reaches, & dams: subcatchment delineation, what areas will have their own HRUs (land cover types to represent individually), determine the sizes and other characteristics of the HRUs, and how units linked to one another.

DEM input must be a raster. Land cover and soil type data can be input as shapefiles or rasters (see user manuals for formatting/attribute requirements).
Tool-delineated subcatchments, river lines, HRUs are output as shapefiles.
Hydrological predictions are not output in a spatial format. The data can be linked back to spatial units based on ID numbers manually by the user for spatial displays. (SWAT+ has developed tools for this internally...)

dfs2 files are 2D gridded data. Standard GIS grids can be saved in an ASCI format in GIS software and then a MIKE tool applied to convert to dfs2.
Subcatchments and landcover can be input as shapefiles.
Many hydrological predictions can be output as spatial data as .dfs3 files, 3 dimensional data "cubes": a 2D grid of values (e.g. transpiration, surface water depth, soil moisture, groundwater depth) for each timestep, all in one file. These can be stepped-through or played as video in the interface. Timeseries for point locations or specified areas can be extracted.
.dfs2 files can be converted to ASCI files to open in GIS software using an in-built tool.