This page lists all programs available in RockWorks geological modeling software, with descriptions of each. Use this to answer questions about RockWorks capabilities.
Adjusts borehole collar elevations based on values interpolated from a grid model.
Sets total depth values for each borehole to the deepest data record found in the borehole data tables.
Converts borehole easting and northing coordinates from the Location table's Collar Coordinates tab to another coordinate system in bulk, storing results in the Other Coordinate Projections tab.
Computes borehole easting and northing coordinates in bulk from values stored in the Other Coordinate Projections tab, populating the Location table's Collar Coordinates tab.
Copies the highlighted content to the Windows clipboard.
Cuts the highlighted content and copies it to the Windows clipboard.
Deletes the currently highlighted data from the active table.
Disables (unchecks) all boreholes in the Borehole Database.
Creates a duplicate of the currently selected borehole with an automatically assigned Borehole ID.
Opens the current borehole data table in a datasheet editor, enabling block copy and paste operations.
Enables (checks) all boreholes in the Borehole Database.
Enables or disables boreholes in bulk based on a list of Borehole IDs read from a text file.
Removes the selected borehole and its associated data from the Borehole Database.
Removes all disabled (unchecked) boreholes from the Borehole Database.
Converts values between fields in the borehole Locations table.
Creates a new borehole record in the Borehole Database.
Pastes the contents of the Windows clipboard at the current cursor position.
Saves the current list of enabled and disabled boreholes to a text file.
Enables or disables boreholes based on project or subsite boundary dimensions, optionally enabling boreholes that fall within the defined area.
Updates borehole symbols in the Borehole Database based on each well's status.
Calculates XYZ coordinate values for all boreholes in the database.
Calculates XYZ coordinate values for the currently highlighted borehole.
Exports borehole I-Data to an ESRI ArcView Shape file.
Exports P-Data for a single track from the Borehole Manager database to a variety of formats, including ASCII and Shape.
Exports P-Data for all tracks from the Borehole Manager database to a variety of formats, including ASCII and Shape.
Archives the database and settings to a compressed text file.
Saves a dated copy of the current borehole database, data dictionary, and settings to a folder titled 'Backup'.
Backs up the entire project folder to a ZIP file.
Copies borehole location and associated data from the current project to another project.
Checks data integrity across the database, identifying issues such as intervals where the base depth is recorded above the top depth.
Compares the current database to a database in another project.
Selectively deletes borehole data for a single borehole or for all boreholes in the database.
Exports borehole aquifer data to an ESRI ArcView Shape file.
Creates a 3D fence diagram sliced between point pairs in an aquifer model, with color-filled panels, striplogs, and additional diagram layers.
Exports the aquifer table from the Borehole Manager database to a variety of formats, including ASCII and Shape.
Exports borehole color data from the Borehole Manager database.
Exports borehole fracture data to an ESRI ArcView Shape file.
Exports borehole fracture data to a variety of formats, including ASCII and RwDat.
Exports I-Data for all tracks from the Borehole Manager database to a variety of formats, including ASCII and Shape.
Exports I-Data for a single track from the Borehole Manager database to a variety of formats, including ASCII and Shape.
Exports borehole I-Text data for all tracks without filtering.
Exports lithology data from the Borehole Manager database to a variety of formats, including ASCII and shapefile.
Exports borehole lithology data to a 3D ESRI ArcView shapefile.
Exports borehole data to an Excel workbook, storing individual tables as separate sheets.
Exports borehole database data to CSV files formatted for import into Leapfrog.
Exports borehole data to a LogPlot input file.
Exports borehole data to an ASCII text file.
Exports borehole P-Data to a 3D ESRI ArcView shapefile.
Exports borehole P-Text data for all tracks without filtering.
Exports stratigraphy data from the Borehole Manager database to a variety of formats.
Exports stratigraphy data from the Borehole Manager database to a 3D ESRI ArcView shapefile.
Exports borehole T-Data to a 3D ESRI ArcView shapefile.
Exports T-Data for a single track from the Borehole Manager database to a variety of formats, including ASCII and shapefile.
Exports the vector table from the Borehole Manager database.
Exports well construction data to a 3D ESRI ArcView shapefile.
Computes borehole hydro-stratigraphy XYZ data and copies the results to the Utilities datasheet.
Imports AGS (Association of Geotechnical and Geoenvironmental Specialists) data into the Borehole Manager database.
Imports a Brierley-format AML (Abandoned Mine Lands) datasheet into the Borehole Manager database.
Imports Colog data into the Borehole Manager P-Data table.
Imports data from an external database into the Borehole Manager database.
Imports Fugro Cone Penetrometer (CPT) data into the Borehole Manager lithology table.
Imports Fugro Cone Penetrometer (CPT) data into the Borehole Manager P-Data table.
Imports borehole data from a Geological Data Services comma-delimited CSV file.
Imports borehole data from a Geological Data Services Texas-format comma-delimited CSV file.
Imports borehole data from a Geological Data Services GDS-II ASCII fixed-column format file.
Imports Geoprobe Direct Image (DI) data into the Borehole Manager database.
Imports IHS98 298 production data into the Borehole Manager database.
Imports IHS PI/Dwights 297 well data into the Borehole Manager database.
Imports Kansas Geological Survey data into the Borehole Manager database.
Imports multiple LAS (Log ASCII Standard) files from a selected folder into the Borehole Manager database.
Imports a single LAS (Log ASCII Standard) file into the Borehole Manager database.
Imports LogPlot data into the Borehole Manager database.
Imports raster log files from Petra, IHS, GeoGraphix, and MJ into the Borehole Manager database.
Imports row-based ASCII text tables into the Borehole Manager database.
Imports a shapefile to create borehole locations in the Borehole Manager database.
Imports Spectrum SC900 Cone Penetrometer (CPT) data into the Borehole Manager database.
Imports aquifer water level data from a column-based CSV file into the Borehole Manager database.
Imports hydro-stratigraphy data from a column-based CSV file into the Borehole Manager database.
Imports I-Data from a column-based CSV file into the Borehole Manager database.
Imports I-Text data from a column-based CSV file into the Borehole Manager database.
Imports borehole location data from a column-based CSV file into the Borehole Manager database.
Imports P-Data from a column-based CSV file into the Borehole Manager database.
Imports P-Text data from a column-based CSV file into the Borehole Manager database.
Imports stratigraphy data from a column-based CSV file into the Borehole Manager database.
Imports T-Data from a column-based CSV file into the Borehole Manager database.
Imports Tobin Well Coordinate Service (WCS) data into the Borehole Manager database.
Copies borehole location data from the Borehole Manager to the Utilities datasheet.
Reloads and refreshes data from the Borehole Manager database.
Restores the Borehole Manager database from a backup file.
Computes borehole stratigraphy XYZ data and copies the results to the Utilities datasheet.
Imports aquifer water level data from a column-based Excel file into the Borehole Manager database.
Imports hydro-stratigraphy data from a column-based Excel file into the Borehole Manager database.
Imports I-Data from a column-based Excel file into the Borehole Manager database.
Imports I-Text data from a column-based Excel file into the Borehole Manager database.
Imports borehole location data from a column-based Excel file into the Borehole Manager database.
Imports P-Data from a column-based Excel file into the Borehole Manager database.
Imports P-Text data from a column-based Excel file into the Borehole Manager database.
Imports stratigraphy data from a column-based Excel file into the Borehole Manager database.
Imports T-Data from a column-based Excel file into the Borehole Manager database.
Imports borehole data from a row-based Excel (XLS/XLSX) file into the Borehole Manager database.
Generates a statistical report for a single column of T-Data measurements across all enabled boreholes. Supports output to multiple report formats.
Creates a solid model in which node values are scaled proportionally to the distance from the nearest downhole vector.
Displays a summary of statistics for the current borehole database.
Changes the sorting criteria for the borehole listing.
Displays a statistical summary of the borehole database.
Enables or disables boreholes based on location-based filter criteria.
Locates a borehole in the database by name.
Toggles the visibility of disabled (unchecked) boreholes within the Borehole List.
Finds the borehole closest to a specified XY coordinate.
Adds or edits optional fields in the Location tab of the Borehole Manager.
Enables or disables boreholes based on one or more filter criteria.
Displays XYZ offset values for all borehole data.
Enables, disables, or adds borehole data tabs in the Borehole Manager.
Computes the total drilled thickness across all enabled boreholes.
Displays a box plot of interval data for one track for selected boreholes.
Displays a box plot of interval data for selected tracks across all enabled boreholes.
Displays a box plot of point data for one track for selected boreholes.
Displays a box plot of point data for selected tracks across all enabled boreholes.
Displays a box plot of time interval data for one track for selected boreholes.
Displays a box plot of time interval data for selected tracks across all enabled boreholes.
Creates a frequency histogram for a single column of T-Data values across all enabled boreholes.
Creates a 2D contour map representing interpolated values where a T-Data solid model intersects a horizontal plane, with support for additional map layers.
Creates a profile diagram sliced between two points in a T-Data solid model, with color fills, projected striplogs, and other diagram layers.
Creates a multi-panel 2D cross section using hole-to-hole T-Data interpolation, with projected striplogs, color and contour fills, and other diagram layers.
Creates a multi-panel 2D cross section sliced between multiple points in a T-Data solid model, with striplogs projected onto panels and color and contour fills.
Creates a multi-panel 2D cross section using hole-to-hole T-Data interpolation, with vertical striplogs, color and contour fills, and other diagram layers.
Edits the Aquifer Names Table, which defines the aquifer names used for the current project.
Creates a 3D model consisting of top and base grids derived from borehole aquifer data.
Creates a hydrograph depicting borehole aquifer levels relative to precipitation data from the RockWorks Datasheet.
Creates Google Earth billboard diagrams depicting borehole hydrographs of aquifer levels relative to precipitation data from the RockWorks Datasheet.
Generates a map with hydrograph diagrams at each enabled borehole location, combining aquifer water level data from the borehole database with precipitation data from the RockWorks Datasheet.
Creates a 2D contour map representing water levels or potentiometric surfaces intersecting a horizontal plane, with support for additional map layers.
Creates a profile diagram sliced between two points in a 3D aquifer model, with color and pattern fills, projected striplogs, and other diagram layers.
Creates a multi-panel 2D cross section sliced between multiple points in an aquifer model, with striplogs projected onto panels and color and pattern fills.
Creates a multi-panel 2D cross section sliced between multiple points in an aquifer model, with vertical striplogs, color and contour fills, and other diagram layers.
Converts borehole comments, such as Munsell color classifications, to color table entries.
Creates a 3D fence diagram sliced between point pairs in a Color solid model, with color-filled panels, striplogs, and other diagram layers.
Converts raster images to borehole color table intervals.
Creates a 2D contour map representing interpolated values where a Color solid model intersects a horizontal plane, with support for additional map layers.
Creates a profile diagram sliced between two points in a Color solid model derived from borehole color data, with projected striplogs and other diagram layers.
Creates a 2D multi-panel cross section sliced between multiple points in a Color solid model, with striplogs projected onto color-filled panels.
Creates a multi-panel 2D cross section sliced between multiple points in a Color solid model, with vertical striplogs and additional diagram layers.
Interpolates a solid model from borehole color data for display as a 3D voxel diagram, with support for additional 3D layers.
Creates a 2D contour map representing interpolated values where a Color solid model intersects a designated surface, with support for additional map layers.
Creates a 3D fence diagram sliced between point pairs in a Fracture solid model, with color-filled panels, striplogs, and additional diagram layers.
Creates a 2D contour map representing interpolated values where a Fracture solid model intersects a horizontal plane, with support for additional map layers.
Creates a profile diagram sliced between two points in a Fracture solid model, with color fills, projected striplogs, and additional diagram layers.
Creates a 2D multi-panel cross section sliced between multiple points in a Fracture solid model, with striplogs projected onto panels and color or contour fills.
Creates a rose diagram based on borehole fracture data.
Creates a frequency-based rose map from borehole fracture data.
Creates a multi-panel 2D cross section sliced between multiple points in a Fracture solid model, with vertical striplogs, color or contour fills, and additional diagram layers.
Interpolates a solid model from borehole fracture data for display as a 3D voxel or isosurface diagram.
Creates a stereonet diagram based on borehole fracture data.
Creates a map of stereonets representing fractures within boreholes.
Creates a 2D contour map representing interpolated values where a Fracture solid model intersects a designated surface, with support for additional map layers.
Creates a 3D fence diagram sliced between point pairs in an I-Data solid model, with color-filled panels, striplogs, and additional diagram layers.
Computes grade-thickness statistics for a selected track of grade values, applying minimum grade and maximum waste-thickness cutoffs.
Creates a frequency histogram for a single column of I-Data values across all enabled boreholes.
Edits and examines the I-Data Types Table, which defines the column titles for I-Data records.
Computes length-weighted averages for a single column of I-Data values sampled at regular or irregular intervals.
Creates a 2D contour map representing the interpolated values where an I-Data solid model intersects a horizontal plane. Supports appending additional map layers.
Creates a profile diagram sliced between two points in an I-Data solid model, with color fills, projected striplogs, and other diagram layers.
Creates a multi-panel 2D cross section using hole-to-hole I-Data interpolation, with projected striplogs, color and contour fills, and other diagram layers.
Creates a multi-panel 2D cross section sliced between multiple points in an I-Data solid model, with striplogs projected onto panels and color and contour fills.
Resamples irregularly-spaced classification data in an existing I-Data column at defined intervals, storing the results in a specified I-Data column.
Creates a multi-panel 2D cross section using hole-to-hole I-Data interpolation, with vertical striplogs, color and contour fills, and other diagram layers.
Creates a multi-panel 2D cross section sliced between multiple points in an I-Data solid model, with vertical striplogs, color and contour fills, and other diagram layers.
Interpolates a solid model from borehole I-Data intervals for display as a 3D voxel or isosurface diagram. Supports appending additional 3D layers.
Generates a statistical report for a selected I-Data column across all enabled boreholes. Outputs results in a variety of report formats.
Creates a 2D contour map and/or 3D surface illustrating the high, low, sum, or average values of a selected I-Data column across the borehole database.
Creates a 2D contour map representing the interpolated values where an I-Data solid model intersects a designated surface. Supports appending additional map layers.
Reads an existing I-Data solid model and applies user-defined filters to generate a detailed volumetrics report and diagram.
Creates a grid model representing the total thickness of a selected lithology type by subtracting grids fit to the uppermost and lowermost nodes within a 3D lithology model. Displays the resulting thickness grid as a 2D map.
Creates a grid model representing the total thickness of a selected lithology type by summing voxels within a 3D lithology model. Displays the resulting thickness grid as a 2D map.
Creates grid models representing the uppermost and lowermost occurrences of a designated lithology based on voxels within a 3D lithology model. Displays the resulting grids in 3D.
Consolidates contiguous lithologic intervals sharing identical keywords into a single interval to simplify borehole logs.
Creates a 3D fence diagram sliced between point pairs in a 3D lithology model, with color-filled panels, striplogs, and other diagram layers.
Creates horizontal and vertical hydraulic conductivity models based on an existing lithology model and hydraulic conductivity values defined in the LithoTypes table.
Copies lithology intervals for all boreholes to the I-Data table, recording the G-value defined for each material type in the LithoTypes table.
Converts lithology intervals for all boreholes to the I-Data table, recording the numeric value defined for each material type in a custom lookup table.
Creates hydraulic conductivity models based on an existing lithology model and hydraulic conductivity values defined in the LithoTypes table.
Edits and examines the Lithology Types table, which defines keyword names for the project's rock and material types along with the graphic pattern and color used for each in logs and other diagrams.
Generates a report summarizing the relative percentages of material types for each X,Y node location in a solid lithology or solid stratigraphy model.
Creates a map of pie charts or starbursts depicting the relative amounts of various lithologies in the vicinity of each diagram location.
Creates a 2D geology map representing lithology materials along a horizontal plane at a specified elevation, extracted from a 3D lithology model.
Creates a profile diagram sliced between two points in a 3D lithology model, with color and pattern fills, projected striplogs, and other diagram layers.
Creates a multi-panel 2D cross section sliced between multiple points in a 3D lithology model, with projected striplogs, color and pattern fills, and other diagram layers.
Creates a multi-panel 2D cross section sliced between multiple points in a 3D lithology model, with vertical striplogs, color and pattern fills, and other diagram layers.
Interpolates a solid model from borehole lithology intervals, or reads an existing lithology model, for display as a 3D voxel model with logs and other diagram layers.
Creates a grid model in which elevations represent the deepest occurrence of a selected lithology, extracted from a 3D lithology model. The resulting surface can be displayed in 2D and 3D.
Creates a grid model in which elevations represent the top of the shallowest occurrence of a selected lithology, extracted from a 3D lithology model. The resulting surface can be displayed in 2D and 3D.
Creates a 2D geology map representing lithology materials along a specified surface model, extracted from a 3D lithology model.
Generates an Excel file listing the volume and mass for each lithology type, organized by level with cumulative totals.
Creates a plan-view borehole location symbol map with optional contours.
Displays borehole location symbols and customizable labels in Google Earth, with optional hyperlinks that reveal additional borehole information when a symbol is double-clicked.
Displays borehole location symbols and well IDs in Google Earth.
Creates a grid model and 2D map or 3D surface from a numeric data field, such as well production, stored in the Location table.
Creates a map in which mini-striplogs displaying user-selected data columns are plotted adjacent to each borehole location.
Creates a map in which striplogs displaying user-selected data columns are projected onto a plan-view plane. Useful for inclined and deviated drillholes.
Creates a grid model representing the total depth of all enabled boreholes.
Creates a transect location map displaying the positions of defined transects relative to borehole locations.
Adds random values to existing data in a P-Data column and stores the results in another P-Data column.
Reads an existing predictive lithology model and applies those predictions to wells that lack lithology entries.
Converts gamma counts per second (or milli- or micro-second) to uranium grade values and posts the results to a specified track in the I-Data or P-Data table.
Creates a scattergram (crossplot) and a predictive lithology model using two P-Data tracks.
Creates a 3D fence diagram sliced between point pairs in a P-Data solid model, with color-filled panels, striplogs, and other diagram layers.
Converts borehole P-Data to GT (Grade x Thickness) composite I-Data.
Creates a frequency histogram for a single column of P-Data values across all enabled boreholes.
Computes statistics and plots histograms for borehole P-Data values grouped by lithotype.
Converts values in an existing P-Data column to their logarithmic equivalents and stores the results in another P-Data column.
Normalizes borehole P-Data values to a user-specified range and stores the results in another P-Data column.
Converts borehole P-Data records to I-Data format.
Edits and displays the P-Data Types Table, which defines the column titles used in the P-Data table.
Creates a 2D contour map representing interpolated P-Data values where a P-Data solid model intersects a horizontal plane, with support for additional map layers.
Creates a profile diagram sliced between two points in a P-Data solid model, with color fills, projected striplogs, and other diagram layers.
Creates a multi-panel 2D cross section using hole-to-hole P-Data interpolation, with projected striplogs, color and contour fills, and other diagram layers.
Creates a multi-panel 2D cross section sliced between multiple points in a P-Data solid model, with striplogs projected onto panels and color and contour fills.
Resamples a column of P-Data values to finer or coarser depth increments and records the results in another P-Data column.
Creates a multi-panel 2D cross section using hole-to-hole P-Data interpolation, with vertical striplogs, color and contour fills, and other diagram layers.
Creates a multi-panel 2D cross section sliced between multiple points in a P-Data solid model, with vertical striplogs, color and contour fills, and other diagram layers.
Interpolates a solid model from borehole P-Data measurements for display as a 3D voxel or isosurface diagram, with support for appending additional 3D layers.
Converts borehole P-Data values to standardized scores representing deviations from the mean.
Generates a statistical summary report for a single column of P-Data measurements across all enabled boreholes, with output to multiple report formats.
Creates a 2D contour map and/or 3D surface illustrating the high, low, sum, or average values of a single P-Data column in the borehole database.
Creates a 2D contour map representing interpolated P-Data values at the intersection of a solid model and a designated surface, with support for additional map layers.
Generates a 3D diagram of historical well production data from borehole production records.
Plots borehole production data as vertical billboard panels within Google Earth.
Generates a historical well production graph from borehole production data.
Plots borehole production data as graphs within a 2D map.
Displays borehole production data as proportional symbols on a map.
Displays the thickness of a single formation or adjacent formations as a 2D contour map, with support for additional map layers.
Displays the thickness of a single formation or adjacent formations as a 3D surface diagram.
Interpolates a grid model representing the upper surface of each formation and displays the results in 3D as stacked surface maps.
Consolidates contiguous stratigraphic intervals with identical formation names into single intervals within the borehole database.
Creates a 3D fence diagram with straight-line correlations between boreholes and exports the result to ESRI Shapefile format.
Creates a 3D fence diagram sliced between point pairs in a 3D stratigraphy model and exports the result to ESRI Shapefile format.
Creates a 3D fence diagram with straight-line correlations between boreholes, including color-filled panels, striplogs, and additional diagram layers.
Creates a 3D fence diagram extracted from a 3D stratigraphy model, including color-filled panels, striplogs, and additional diagram layers.
Compares hydrostratigraphy data in the borehole database against formations listed in the Hydro Stratigraphy Types Table and automatically fills in any missing formations above borehole bases.
Compares stratigraphy data in the borehole database against formations listed in the Stratigraphy Types Table and automatically fills in any missing formations above borehole bases.
Generates a tabular report of total volume and mass for each formation, computed from a grid-based stratigraphy model.
Edits the Hydro Stratigraphy Types table, which defines hydrostratigraphic formation names, ordering, and associated patterns and colors.
Interpolates or reads existing grid surfaces for borehole stratigraphic tops and bases, then creates a 3D diagram illustrating the stratigraphic layers as a layered sequence of grid models.
Creates a geology map illustrating stratigraphic formations intersected by a horizontal plane.
Creates a profile diagram sliced between two points in a 3D stratigraphy model, with color and pattern fills, projected striplogs, and additional diagram layers.
Creates a multi-panel 2D cross section with straight-line correlations between boreholes, including projected striplogs, color and pattern fills, and additional diagram layers.
Creates a multi-panel 2D cross section sliced from a 3D stratigraphy model, with projected striplogs, color and pattern fills, and additional diagram layers.
Creates a multi-panel 2D cross section with straight-line correlations between boreholes, including vertical striplogs, color and pattern fills, and additional diagram layers.
Creates a multi-panel 2D cross section sliced from a 3D stratigraphy model, with vertical striplogs, color and pattern fills, and additional diagram layers.
Interpolates or reads existing grid surfaces for borehole stratigraphic tops and bases, then creates a 3D diagram illustrating the stratigraphic layers as a solid model.
Generates a tabular report of total volume and mass for each formation, computed from a stratigraphy solid model.
Edits the Stratigraphy Types table, which defines stratigraphic formation names, ordering, and associated patterns and colors.
Interpolates a grid surface for a selected stratigraphic formation and displays it as a 2D map, a 3D surface, or both.
Creates a geology map illustrating stratigraphic formations intersected by an existing grid surface.
Generates a report listing formation thicknesses for each borehole.
Creates a 2D cross section displaying striplogs of multiple boreholes projected onto a section polyline, with boreholes rendered as vertical. Logs may include any combination of available log items.
Creates a 2D striplog for a single borehole, displaying observed data from the Borehole Manager data tables. The log may include any combination of available log items, and supports vertical, inclined, or deviated boreholes.
Creates a 2D display of multiple striplogs projected onto a single profile slice, rendered as vertical, inclined, or deviated.
Creates a 2D vertical cross section displaying striplogs of multiple boreholes, using observed data from the Borehole Manager data tables.
Creates a 3D striplog for a single borehole, supporting vertical, inclined, or deviated orientations and any combination of available log items.
Creates a 3D view of all enabled boreholes as striplogs, supporting any combination of available log items displayed at true orientation.
Generates 2D striplogs for all boreholes or enabled boreholes only and outputs the results directly to a single multi-page PDF file.
Converts borehole survey data to maps, diagrams, and XYZ coordinate tables exported to the RockWorks Datasheet.
Converts borehole survey data from the Datasheet to maps, diagrams, and a textual report.
Generates a listing of spatial relationships for borehole endpoints, suitable for comparing multiple complex boreholes. Supports output in a variety of formats.
Displays stratigraphy data in Google Earth as vertical logs for all enabled boreholes above the ground surface, using variable radius, title, and symbol options.
Displays stratigraphy data in Google Earth as vertical logs for all enabled boreholes above the ground surface, using fixed radius, title, and symbol options.
Selects depths to hydro-stratigraphic tops and bases from logs displayed in cross section, using point-and-click interaction.
Creates maps, profiles, and 3D diagrams depicting differences between a predicted well path and the actual well path to assist in tunneling and steering lateral wells.
Selects depths to the top and base of lithology intervals from logs displayed in cross section, using point-and-click interaction.
Designs an optimal well path given a collar location, two grid surfaces defining the top and base of a pay zone, and borehole properties such as radius of curvature.
Selects depths to stratigraphic tops and bases from logs displayed in cross section, using point-and-click interaction.
Computes XYZ coordinates for the intersections of boreholes with a designated surface grid model.
Creates a well path that intersects a set of specified XYZ points.
Plots T-Data as a function of time for all enabled boreholes, displayed as vertical billboards in Google Earth.
Creates a 3D fence diagram sliced between point pairs in a T-Data solid model, with color-filled panels, striplogs, and additional diagram layers.
Interpolates multiple solid models representing T-Data sampled at a specified time interval.
Identifies boreholes that merit resampling based on T-Data values within each well relative to surrounding boreholes.
Creates a multi-panel 2D cross section sliced between multiple points in a T-Data solid model, with vertical striplogs, color and contour fills, and additional diagram layers.
Interpolates a solid model from borehole T-Data intervals for display as a 3D voxel or isosurface diagram, with support for additional 3D layers.
Creates a 2D contour map and/or 3D surface illustrating the high, low, sum, or average values of a single T-Data column in the borehole database.
Creates a 2D contour map representing the interpolated values where a T-Data solid model intersects a designated surface. Supports appending additional map layers.
Exports all T-Data tracks from the Borehole Manager database to a variety of formats, including ASCII and CSV.
Edits and examines the T-Data Types Table, which defines the T-Data column titles.
Plots T-Data as a function of time for all enabled boreholes in a map display.
Reads an existing T-Data solid model and applies a variety of filters to generate a detailed volume report and diagram.
Calculates the absolute value of a selected column.
Performs mathematical operations between two Datasheet columns.
Performs mathematical operations between a Datasheet column and a constant value.
Converts a single column of decimal color values into three separate Red, Green, and Blue columns.
Deletes the active column from the Datasheet.
Fills blank cells in a column with data derived from adjacent columns.
Adjusts the number of decimal places displayed in a column's numeric values.
Applies a mathematical function, such as Log, Sine, or Tangent, to a selected column.
Increments the values in a selected column by a specified amount.
Inserts a blank column immediately to the left of the currently active Datasheet column.
Merges two Datasheet columns into a single column.
Converts numeric values in a Datasheet column to color values.
Replaces items within a column based on a user-defined translation table.
Copies the selected Datasheet block to the Windows clipboard.
Copies the entire datasheet to the Windows clipboard.
Copies the datasheet column titles to the Windows clipboard.
Cuts the selected block from the datasheet to the Windows clipboard.
Cuts the entire datasheet to the Windows clipboard and clears all contents from the display.
Deletes the selected block from the datasheet.
Disables all rows in the datasheet.
Disables (unchecks) the selected rows in the datasheet.
Enables all rows in the datasheet.
Enables (checks) the selected rows in the datasheet.
Pastes clipboard contents into the datasheet.
Pastes clipboard contents into the datasheet column titles.
Permanently removes all disabled (unchecked) rows from the datasheet.
Adds a command to the Playlist that loads the current datasheet.
Exports the datasheet to an ASCII text file.
Creates a polygon table from the datasheet.
Exports the datasheet to a DBF file.
Exports the datasheet to an Excel (XLS) file.
Imports a RockWare Aq•QA data file into the Utilities Datasheet.
Imports ASCII text data into the Utilities Datasheet.
Generates a list of files and loads it into the datasheet.
Imports external database data into the Utilities Datasheet.
Imports data from a dBase (DBF) file into the Datasheet.
Imports line endpoint coordinates (X1, Y1, X2, Y2) from an AutoCAD DXF file into the Datasheet.
Imports line and point XYZ coordinates from an AutoCAD DXF file into the Datasheet.
Imports data from an Excel file into the Datasheet.
Imports data from a Geonics EM38 instrument file into the Datasheet.
Extracts lineation coordinates from a Google Earth file into the Datasheet.
Extracts multiple polygon coordinates from a Google Earth file into the Datasheet.
Extracts polygon corner coordinates from a Google Earth file into the Datasheet.
Extracts polyline coordinates from a Google Earth file into the Datasheet.
Extracts single polygon coordinates from a Google Earth file into the Datasheet.
Extracts single polyline coordinates from a Google Earth file into the Datasheet.
Extracts XYZ coordinates from a Google Earth file into the Datasheet.
Imports waypoint data from a DeLorme GPL GPS file into the Datasheet.
Imports waypoint data from a GPX universal GPS file into the Datasheet.
Imports track data from a GPX universal GPS file into the Datasheet.
Imports data from a Log ASCII Standard (LAS) file (versions 1.2–3.0) into the Datasheet.
Imports MODPATH particle flowpath data into the Datasheet.
Imports seismic event data from a USGS National Earthquake Information Center (NEIC) file into the Datasheet.
Imports shotpoint location data from a SEG-P1 file into the Datasheet.
Imports an ESRI ArcView Shape (SHP) file into the Datasheet.
Imports survey laser XYZ data into the Datasheet.
Imports Tobin Well Coordinate Service (WCS) data into the Datasheet.
Creates a new, empty Datasheet.
Opens an existing Datasheet file (RwDat) in the Utilities Datasheet.
Opens a Datasheet selected from the list of recently opened files.
Saves the current Datasheet. Prompts for a file name if the Datasheet has not previously been saved.
Saves the current Datasheet under a new, user-specified file name.
Saves the current Datasheet as a reusable template.
Saves the current Datasheet. Used internally by the Playlist feature.
Transfers hydrostratigraphy data from the Datasheet to the Borehole Manager.
Transfers borehole location data from the Datasheet to the Borehole Manager.
Transfers stratigraphy data from the Datasheet to the Borehole Manager.
Filters Datasheet rows based on distance from a specified borehole.
Removes or replaces numeric values that fall outside a specified low and high value range.
Filters Datasheet rows by enabling or disabling records based on whether their coordinates fall inside or outside a defined polygon.
Imports data from a CSV (comma-separated values) file into the Utilities Datasheet.
Imports waypoint data from a Garmin TXT file into the Datasheet.
Moves the cursor to a specified row within the Datasheet.
Moves the cursor to the first row of the Datasheet.
Positions the cursor on the last populated row within the datasheet.
Sorts enabled (checked) rows within the datasheet.
Sorts all rows within the datasheet.
Searches for a specified value within the datasheet.
Finds and replaces specified values within the datasheet.
Finds the point within the datasheet or borehole database closest to a specified coordinate.
Finds the next occurrence of a specified search value within the datasheet.
Computes statistics for a selected block of rows and/or columns within the datasheet.
Displays and edits column titles and other properties for the datasheet.
Automatically sets column widths to the maximum width of items within each column.
Computes bulk statistics for grid and solid block models.
Populates multiple columns with random integers between zero and 100, where the sum of all columns equals 100.
Saves the current project dimensions to a file.
Displays the three project corners in Google Earth for calibration purposes.
Drapes the project perimeter polygon over terrain in Google Earth.
Floats the project perimeter polygon at a fixed elevation in Google Earth.
Plots the project perimeter as a simple polygon in Google Earth.
Identifies grid cells that contain multiple boreholes.
Scans all boreholes to automatically determine output dimensions for the project.
Creates a 2D map of all enabled faults.
Creates 3D fault mesh diagrams based on the project fault table.
Exports the X,Y vertex coordinates of a selected 2D fault from the Faults table to a data listing.
Exports the triangle coordinates (X1,Y1,Z1 / X2,Y2,Z2 / X3,Y3,Z3) of a selected 3D fault from the Faults table to a data listing.
Converts a 2D fault to a shapefile.
Exports 2D faults to DXF format.
Exports 3D faults to DXF format.
Exports 3D faults to shapefile format.
Exports all active 3D faults to a RockWorks 16/17 fault file format.
Exports 3D fault meshes to DXF format.
Exports 3D fault meshes to shapefile format.
Creates a 3D fault mesh from two or more contour polylines stored in the Datasheet and stores the result in the project Faults table.
Converts a 2D fault to a vertical 3D fault using specified upper and lower elevations.
Reads dip data from the Datasheet, fits a smooth curve to the points, and projects a triangle mesh up-dip and/or down-dip from the curve, storing the result in the Faults table.
Converts an existing RockWorks grid model (RwGrd file) to a 3D fault mesh and stores the result in the project Faults table.
Creates a 2D fault between two endpoints and stores the result in the Faults table.
Creates a vertical 3D fault between two endpoints using specified upper and lower elevations and stores the result in the Faults table.
Imports a list of X,Y coordinates representing a polyline and stores the result as a 2D fault in the Faults table.
Imports a list of X,Y coordinates representing a polyline and stores the result as a 3D fault in the Faults table.
Imports a RockWorks 16/17 fault triangle mesh file into the project Faults table.
Imports 2D fault polyline coordinates from a RockWorks 17 fault table and stores the results as 2D faults in the Faults table.
Imports a list of XY coordinates from a RockWorks 17 2D Fault table, representing polylines as vertical 3D faults based on specified upper and lower elevations.
Creates a 3D fault mesh from XYZ triangle data stored in the Datasheet and saves the result to the project Fault table.
Imports XYZ point data from a Datasheet or text file and converts it to a 3D fault mesh.
Combines the contents of two RockPlot2D files (*.Rw2D) into a new, merged 2D image.
Clips a 2D diagram to the boundaries of a specified east-west/north-south rectangular coordinate region.
Exports an existing RockPlot2D map or diagram to an AutoCAD-compatible DXF file.
Exports an existing RockPlot2D map or diagram to Enhanced Windows Metafile (EMF) format.
Exports a RockPlot2D chart or graph to Google Earth KMZ format, draped along or floated above the ground surface.
Exports a RockPlot2D map to Google Earth KMZ format, draped along or floated above the ground surface.
Exports a RockPlot2D section or profile to Google Earth KMZ format, displayed in vertical orientation.
Exports a RockPlot2D chart or graph to Google Earth KMZ format, displayed vertically as a billboard.
Exports points, polylines, and polygons from the active layers of a RockPlot2D map to MapInfo MIF format.
Exports multiple RockPlot2D maps or diagrams to PDF format in a single operation.
Exports a single RockPlot2D map or diagram to PDF format.
Exports an existing RockPlot2D map or diagram to Windows Metafile (WMF) format.
Exports a RockPlot2D map or diagram to a raster image file in BMP, JPG, PNG, or TIF format.
Exports a RockPlot2D map to RockPlot3D, draped along a surface or floated at a defined elevation.
Exports points, polylines, and polygons from the active layers of a RockPlot2D map to Shapefile format.
Imports ASCII Graphics Language (AGL) data into a RockPlot2D diagram.
Imports USGS Digital Line Graph (DLG) data into a RockPlot2D window.
Combines multiple 2D diagrams into a single diagram using new coordinates defined in the Datasheet.
Adds or edits coordinate projection information for a RockPlot2D map or cross-section diagram.
Rescales a 2D diagram using a new origin, X/Y scaling multipliers, or new coordinates entered for one or more edges.
Creates a three-dimensional rectangular parallelepiped with coordinate and elevation annotation.
Merges two RockPlot3D files into a single file. RockPlot3D files may also be combined using the Embellish 3D Diagram tool.
Merges two or more RockPlot3D files listed in the Datasheet into a single file. RockPlot3D files may also be combined using the Embellish 3D Diagram tool.
Reads XY locations from the Datasheet and generates a KMZ file containing a midpoint-facing Google Earth flyover animation along the listed route.
Reads XY locations from the Datasheet and generates a KMZ file containing a forward-looking Google Earth flyover animation along the listed route.
Reads XY locations, elevations, radii, tilt angles, and times from the Datasheet and generates a circular KMZ flyover animation.
Uses longitude/latitude coordinates for a single placemark copied to the clipboard to create a circular Google Earth flyover animation.
Reads Google Earth commands, XY locations, headings, inclinations, and flight times from the Datasheet and generates a command-driven KMZ flyover animation.
Uses longitude/latitude coordinates along a path copied to the clipboard to create a forward-looking Google Earth flyover animation.
Generates a simple virtual tour flyover in Google Earth KMZ format.
Reads starting and ending XYZ locations from the Datasheet and generates a KMZ file containing a series of parabolic flight paths between the listed point pairs.
Creates a Google Earth flyover animation that begins in space, spirals down to a specified XY location with three circular passes, then ascends back to space.
Generates a 3D surface animation by morphing transitional grid models through a sequence of interpolated surfaces.
Generates a contour map animation by morphing transitional grid models through a sequence of interpolated 2D maps.
Converts image frames from the Animations_Frames folder into a video file.
Animates a migration simulation, displaying the progression of a modeled subsurface migration over time.
Reads an existing RockPlot3D scene and generates a video with adjustable viewpoint, angle, and zoom, configured via menu settings or detailed Datasheet entries.
Displays raster images with a specified filename prefix, stored in the project's Animation_Frames folder, in slideshow format.
Creates an animated view of a 3D solid model by sequentially removing voxel layers along one or more axes, with an option to replace them.
Generates a transitional 3D solid model animation by morphing between multiple solid models defined in a solids list datasheet.
Generates a transitional 3D solid model animation by morphing between multiple solid models using isoshells defined in a solids list datasheet.
Creates a time-lapse 3D surface animation based on XYZ data associated with dates.
Creates a time-lapse contour map animation based on XYZ data associated with dates.
Adds embellishments to an existing 3D diagram.
Adds embellishments to an existing chart.
Adds embellishments to an existing map.
Adds embellishments to an existing profile or section.
Imports a raster image, calibrates its coordinates, and digitizes points, lines, polylines, or polygons, listing the captured coordinates in the datasheet.
Scans raster images of borehole logs containing colored curves and extracts quantitative depth and magnitude information.
Reads a raster image file and drapes it over an existing grid model surface for display in RockPlot3D.
Floats multiple raster images at specified elevations for display as horizontal image panels in RockPlot3D.
Floats a single raster image at a specified elevation for display as a horizontal image panel in RockPlot3D.
Georeferences a raster image by rotating, scaling, and clipping it, then displays it as a 2D map or draped over a 3D grid surface.
Reads a single image file and creates a KMZ output file to display the image in the legend area of Google Earth.
Reads text labels, XY center-point locations, text size, and color from the datasheet and creates a KMZ output file with raster image versions of the labels draped over the ground surface in Google Earth.
Reads image names, XYZ edge locations, widths, and heights from the datasheet and creates a KMZ output file with the images plotted vertically at those locations, including a copy rotated 90 degrees, for display in Google Earth.
Reads image names, XY midpoint locations, dimensions, and orientation from the datasheet and creates a KMZ output file with the images plotted vertically at those locations for display in Google Earth.
Reads image names, XY edge locations, and elevations from the datasheet and creates a KMZ file with images plotted vertically at those locations. Vertical offset and exaggeration can be defined.
Reads image names, XY edge locations, and height values from the datasheet and creates a KMZ file with images plotted vertically at those locations.
Converts a single raster image to a RockPlot2D map file.
Displays raster images on one or more cubes in RockPlot3D, with image names read from the datasheet.
Converts a list of raster images to a single RockPlot2D map file.
Opens a raster image for reformatting and enhancement, with tools for resizing, sharpening, rotating, and saving to the same or a different file format.
Displays multiple images as vertical panels in RockPlot3D.
Displays multiple raster images as curved vertical panels along defined polylines in RockPlot3D.
Displays multiple raster images as curved vertical panels along polylines defined within a SHP file.
Displays a single image as a vertical panel in RockPlot3D.
Extracts X, Y, Z, and color information from raster images representing vertical image panels.
Selects an image for use in the project.
Cuts a raster image representing a vertical profile along a polyline and displays the result as a curved vertical panel in RockPlot3D.
Adds annotation to a RockPlot2D plot.
Filters datasheet rows based on low-stop and high-stop threshold values applied across multiple columns.
Displays a solid model as three concentric shells based on defined G-value cutoff levels.
Creates gradational margins by gradually decreasing solid node values outside the defined control region.
Reads XYZ data from ASCII LIDAR files and generates a grid model representing surface elevations, with output as a 2D map and/or 3D surface.
Converts polylines with Z attributes to a grid model.
Reads gridded XY locations and Z values from the RockWorks datasheet or an external text file and generates a grid model, 2D map, and/or 3D surface.
Reads X1, Y1, X2, Y2 lineation data from the RockWorks Datasheet and creates a grid model representing lineation frequency, cumulative lengths, and/or intersections. Outputs a 2D map and/or 3D surface.
Reads a series of polygon files and creates a grid model in which nodes inside the polygons are assigned a specified value. Outputs a 2D map and/or 3D surface.
Creates a RockWorks grid model based on values stored in an ESRI Shapefile containing polygons.
Creates a grid model representing either a flat plane at a user-defined elevation or a dipping plane based on a user-defined orientation. Outputs a 2D map and/or 3D surface.
Extracts XYZ data from Google Earth and populates a RockWorks datasheet with the results.
Reads X and Y locations and Z values (concentrations, elevations, etc.) from the RockWorks Datasheet or an external text file and generates a grid model, 2D map, and/or 3D surface.
Computes the aspect (slope direction) for each node in a grid model and saves the results to a new grid model.
Computes grid slope and creates a map displaying strike and dip symbols at each grid node.
Converts a grid model to a gradient vector map.
Computes slope directions and inclinations for nodes within an existing grid model and displays the results as a rose diagram.
Computes the second derivative (slope of slope) for nodes within a grid model and saves the results to a new grid model.
Computes the rate of change in Z-values (elevations, concentrations, etc.) between neighboring nodes in an existing grid model and saves the results as a slope grid.
Converts an existing grid model into slope, aspect (slope direction), and second-derivative (inflection point) grid models.
Computes grid slope and generates a stereonet diagram summarizing the directionality of aspect bearings (dip direction) and the steepness of slopes (dip angle).
Performs a trend surface analysis on a selected Z-value column in the datasheet and reports correlation coefficients and residuals for first- through sixth-order polynomial fits.
Performs a trend surface analysis on a selected Z-value column, computes residuals (observed minus trend Z-values), and saves the results to the datasheet.
Reads an existing RockWorks grid model (.RwGrd) and generates a 2D map or 3D surface.
Creates a 3D color contour map in which surface colors are derived from one grid (e.g., geochemistry) while elevations are derived from a second grid.
Opens a grid model for interactive editing of node values.
Opens a grid model for interactive editing of fault flags.
Displays a stack of elevation grids as a 3D visualization.
Exports the active grid model to an ASCII matrix file.
Exports the active grid model to an ASCII XYZ file.
Exports the active grid model to an AutoCAD DXF (Data eXchange Format) matrix file.
Exports the active grid model to an ESRI ASCII raster file.
Exports the active grid model to an ESRI ArcView Shape point file.
Exports the active grid model to a Geosoft GXF (Geosoft eXchange Format) file.
Exports one or more grid models to Groundwater Vistas matrix format.
Exports the active grid model to a NetCDF (Network Common Data Form) file.
Exports the active grid model to Ohio Scientific ENZ grid format.
Exports the active grid model to the RockWorks datasheet, recording grid node locations and values along with computed slope, aspect, and second derivative.
Exports the active grid model to a binary RockWorks 7 grid file.
Exports the active grid model to RockWorks 7 terrain model (RTM) format.
Exports the active grid model to a Surfer ASCII grid file.
Exports the active grid model to Surfer 6 binary grid format.
Exports the active grid model to Surfer 7 binary grid format.
Exports the active grid model to Surfer 8 binary grid format.
Exports the active grid model to VistaPro GRD format.
Creates a 3D fence diagram of one or more panels depicting elevations across multiple grid models, such as stratigraphic units.
Creates a 3D fence diagram of one or more panels depicting elevations along a single grid model.
Converts an existing grid model to a boolean grid model in which node values are assigned either zero or 1.0 based on a specified range filter.
Filters an existing grid model by nullifying nodes based on their distances from the control points.
Removes closed depressions within an existing grid model by increasing node elevations until surface flow escapes the depression.
Applies gradational margins to an existing grid model, gradually decreasing node values outside the control region.
Nullifies node values in an existing grid model that fall outside a specified high/low range.
Nullifies contiguous nodes in an existing grid model whose total surface area falls below a specified minimum area threshold.
Adjusts grid surfaces to pinch out where the distance between grids falls below a specified thickness cutoff.
Nullifies grid nodes that fall either inside or outside a specified polygon boundary.
Replaces grid node values with corresponding values from a user-supplied XYZ data list.
Replaces null nodes in an existing grid model with non-null node values from a second grid model.
Rounds grid node values to the nearest specified interval, producing a terraced grid surface.
Smooths irregularities in an existing grid model by averaging neighboring node values.
Truncates an existing grid model by using one or more other grid models to constrain its upper and lower limits.
Replaces solid model nodes with values from one or more grid models, converting grid surfaces into a solid layer.
Compiles a list of existing grid models and renders them as a 3D stack diagram.
Creates a 3D layered stratigraphy diagram from a list of existing grid models representing the top and base of each stratigraphic unit.
Defines stratigraphic contacts in the borehole database from a list of existing grid models and constructs logs in stratigraphic order.
Imports legacy or third-party grid formats and converts them to RockWorks grid models.
Converts a non-georeferenced image file (BMP, JPG, PNG, TIFF, etc.) to a RockWorks grid model.
Converts georeferenced raster grids, such as GeoTIFFs and DEMs, into RockWorks grid files.
Imports magnetometer data from a GEM Systems GSM-19 datasheet into a grid model.
Converts one to four 1-meter GeoTIFF files into a single RockWorks grid model.
Calculates the first derivative of a grid model with a directional bias.
Creates a new grid model based on the intersection distance between two existing grid models.
Performs arithmetic operations on multiple grid models and constants.
Resamples an existing grid model to new extents and/or node spacing, saving the result as a new grid model.
Multiplies a thickness grid by a density constant to produce a new mass grid model.
Stitches multiple separate grid models together into a single larger grid model.
Combines values from multiple grid models into a single multivariate map displayed as pie charts.
Creates a single profile cut through multiple grid models for display as a multi-profile line diagram, such as structural contacts.
Creates a profile cut through an existing grid model for display as a line profile diagram.
Creates a cross section cut through multiple grid models for display as a multi-panel line section.
Creates a new grid model representing the statistical correlation between two existing grid models.
Populates a Z column in a datasheet with values extracted from an existing grid model.
Generates a report with diagrams depicting the accuracy of a grid model relative to the original control points used to interpolate grid values.
Reads an existing grid model and displays a report of its metadata.
Rescales a grid model's coordinates to change its Coordinate Reference System, updating coordinates and spacing values while preserving node count and node values.
Creates a cumulative frequency diagram based on node values within an existing grid model.
Combines a list of grid models and weighting factors into a multivariate anomaly grid model.
Rescales grid node values so that they range between two specified values, saving the result as a new normalized grid model.
Generates a residuals table comparing grid model node values against corresponding Z values from a list of XYZ data points.
Creates a scattergram depicting the correlation between original XYZ observations and predicted grid model values.
Generates a report with diagrams depicting the accuracy of a solid model relative to the original control points used to interpolate node values.
Redefines grid node values in terms of their standard deviations from the mean node value.
Creates a statistical comparison of multiple existing grid models.
Creates a solid model based on upper-surface, lower-surface, and grade grid inputs.
Creates a solid model from XYZG data contained in an ASCII text file.
Assigns fault G values to nodes within a solid model.
Creates a solid model based on fracture data contained in the Datasheet.
Creates a layered solid stratigraphy model from a list of grid surfaces.
Creates a stratigraphic solid model from a list of grid surfaces.
Creates a solid model based on colors extracted from vertical images listed in the Datasheet.
Creates a new solid model with node values set to a user-defined constant or randomly assigned values.
Creates a solid model based on polygon definitions and elevation ranges.
Creates a solid model in which voxel values represent pressure.
Interpolates a solid model from XYZG data contained in the Datasheet.
Displays a solid model as a three-dimensional diagram.
Displays a solid model as a three-dimensional diagram.
Edits solid model node values using an interactive three-dimensional block model editor.
Edits solid model node values slice-by-slice using the two-dimensional grid editor.
Exports a RockWorks solid model to a Groundwater Vistas matrix file.
Exports a RockWorks solid model to a Groundwater Vistas zone file.
Converts a solid model to other formats, such as ESRI Shape Point.
Assigns p-data values to existing boreholes based on their intersections with voxels within a p-data solid model.
Computes a grid representing the depth to the largest g-value, or the highest node within a specified g-range, given a solid model and a surface model grid.
Converts a solid model to a grade-thickness grid model.
Flattens a solid model into a 2D grid based on highs, lows, averages, elevations, or other criteria.
Flattens a solid model into multiple 2D grid models at regular elevation intervals.
Creates a grid model representing the total thickness of voxels within a selected value range.
Creates a grid model representing the total waste thickness within a Boolean solid model.
Extracts multiple grids from a solid model based on surfaces, such as stratigraphic zone boundaries.
Extracts a single layer from an existing solid model and stores it as a 2D grid model.
Extracts a vertical slice of voxels from a solid model and stores the result as a grid.
Flattens each solid model in a list into a 2D grid based on highs, lows, averages, elevations, or other criteria.
Creates a 3D fence diagram by vertically slicing a solid model between designated panel endpoints.
Filters a solid model by replacing node values based on a secondary replacement-value solid model.
Clips a solid model by creating tunnels or mine drifts along borehole paths defined by the active holes and their downhole survey data in the Borehole database.
Filters an existing solid model by removing or nulling nodes based on their distances from control points.
Assigns each non-null voxel a value equal to its straight-line distance from a specified XYZ point, such as a point source.
Incrementally diminishes voxel values with increasing depth below a surface or a specified elevation.
Fills null (void) intervals within a solid block model, producing a solid model without voids.
Merges two solid models by assigning nodes above a grid surface the values from Model A and nodes below the grid surface the values from Model B.
Clips a solid model by setting node values inside or outside a specified polygon boundary.
Applies high-pass and low-pass replacement filters to a solid model based on user-specified G-value cutoffs.
Applies a table-based replacement filter to a solid model, remapping node values according to a user-defined substitution table.
Clips a solid model by setting node values inside or outside one or more polygon boundaries extracted from a saved RockPlot2D map.
Rounds solid model node G-values up or down to a user-specified interval.
Smooths solid model G-values by averaging neighboring node values across a user-defined filter size to reduce noise.
Adjusts or merges one or more solid models based on one or two grid models.
Reassigns voxel values in a solid model based on two constraining grids and a boolean grid.
Applies a surface stripping filter to a solid model, removing surface material based on user-specified G-value cutoffs.
Clips a solid model by modifying voxel values either within or outside one or more tube-shaped volumes, such as tunnels.
Categorizes solid model nodes into contiguous regions of similar values, identifying discrete geobodies based on user-specified G-value cutoffs.
Converts a MicroMODEL solid model file or a headerless ASCII XYZG file into RockWorks solid model format.
Imports regularly-spaced XYZG data from a nine-line header ASCII text file and converts it into a RockWorks solid model.
Converts a grid model to a solid model, assigning each voxel a G-value equal to the grid Z-value at the corresponding XY location.
Multiplies boolean voxel values by a user-specified density factor to compute total mass and total volume from a boolean solid model.
Filters high or low G-values downward from the surface of a solid model, stopping when a value outside the specified range is encountered.
Removes ore nodes from a boolean solid model where the interburden thickness exceeds a user-specified maximum waste thickness cutoff.
Filters a boolean solid model to remove ore zones that do not meet a user-specified minimum ore zone thickness.
Removes ore zones whose total thickness falls below a specified cutoff value by setting those node values to zero.
Converts solid model node values to zero or 1.0 (false/true) based on a specified cutoff filter.
Resamples an existing solid model to change its extents and/or node spacing.
Resamples an existing solid model, reducing resolution from fine to coarse node spacing.
Performs arithmetic operations on a solid model using grid values.
Performs mathematical operations on multiple solid models and constants.
Generates a frequency histogram of node values from an existing solid model.
Generates a multivariate map from a solid model.
Creates printable bitmaps that can be cut and assembled into a physical 3D block model.
Creates a 2D plan map of interpolated solid model values at a specified horizontal plane, with options to append additional map layers.
Creates a vertical profile by slicing horizontally through a solid model.
Displays an existing solid model as a 2D projected cross-section diagram.
Creates a vertical section by slicing through a solid model between designated vertices.
Extracts solid model values at XYZ locations specified in a data sheet.
Extracts solid model values along a borehole trace.
Computes a statistical comparison of multiple existing solid models.
Rescales solid model node values to fall within a specified minimum and maximum range.
Generates a textual statistical summary of an existing solid model's contents.
Computes the difference between original data values and interpolated model values to quantify model error.
Generates an observed-versus-predicted scattergram by comparing solid model node values against datasheet XYZG values.
Reads an existing solid model and displays a report of its metadata.
Redefines solid model node values based on the number of standard deviations the grade values differ from the mean.
Computes statistics (e.g. mean, mode, standard deviation) for nodes within an existing grid model.
Creates a volumetric report based on grade values for every layer within a solid model.
Classifies solid model node values into discrete groups using the K-Means Clustering method.
Creates a 2D map representing the voxels at the intersection of a solid model and a specified surface grid model.
Computes the sum of voxel grade-thickness values for each column within a grade model and saves the results to a grid model.
Reads an existing solid model and determines the volume of a pit required to extract portions of the solid within a specified grade range.
Computes volume based on ore thickness and overburden cutoff values.
Creates a grade-thickness grid based on Datasheet thickness and grade cutoff values.
Calculates changes in contaminant mass over time based on porosity.
Calculates volumetric changes over time, such as those associated with contaminant plumes.
Constructs a Delaunay triangulation matrix from Datasheet XYZ data and computes the volume enclosed by the resulting triangles.
Adds a comment entry to a Playlist.
Copies a file as a step within a Playlist.
Calls a specified function as a step within a Playlist.
Executes a program with optional command-line parameters as a step within a Playlist.
Plays a sound or synthesized speech notification during Playlist processing.
Stops processing the current Playlist.
Loads and executes a subordinate Playlist as a step within the current Playlist.
Terminates the RockWorks application as a playlist command.
Loads project dimensions from a file.
Sets the project units and coordinate reference system.
Sets the project dimensions to a defined subsite.
Sets the project dimensions.
Executes a SQL statement against the project database, such as updating the enabled flag for boreholes based on a field value.
Loads a datasheet as a playlist command.
Saves the current datasheet and opens a new one as a playlist command.
Creates a Windows shortcut for the current playlist.
Adds notes to a playlist.
Pauses playlist execution, displays a specified message, and waits for the user to confirm before continuing.
Sets the project coordinates.
Examines and modifies project dimensions used to define grid extents, solid models, and peripheral annotation boundaries.
Sets the current project to a specified folder.
Exports a profile or section polyline to a datasheet.
Adds annotation to a RockPlot2D plot.
Exports a RockPlot2D plot to BMP, JPG, PNG, or TIFF format.
Exports a RockPlot2D plot to WMF (Windows Metafile) format.
Exports a RockPlot2D plot to PDF format.
Imports point, line, or polygon data from ESRI Shapefiles into RockPlot2D.
Imports an AutoCAD DXF (Data Exchange Format) file into RockPlot2D.
Views and edits RockPlot2D file options.
Exports a zipped Wavefront OBJ file for use in SketchFab.
Creates an animation in which isolevel values increase and/or decrease.
Creates an animation depicting gradual transitions between two or more block models.
Creates an animation depicting a gradual slice through a solid model.
Creates an animation of a rotating diagram.
Displays a list of recently accessed project folders and opens the selected project.
Renames an existing project folder and the project database contained within it.
Views and modifies database settings for an existing RockWorks project.
Moves the files contained in an existing project folder to another location on the same hard drive.
Creates a new project folder and database.
Opens an existing project.
Displays the current users of the project's SQL Server database.
Views and modifies the units of measurement for the current project.
Displays the current network users of the project.
Exports a RockPlot2D file to RockPlot3D.
Views and modifies licensing settings.
Opens the RockPlot2D window for displaying 2D maps, cross-sections, and profiles.
Opens the RockPlot3D window for displaying 3D diagrams, strip logs, and models.
Displays an existing RockPlot2D map or diagram in ReportWorks.
Sets the title for a ReportWorks report.
Searches for programs by keyword and displays matching results.
Exports the current preference configuration to a file.
Imports preferences from a previously saved configuration file.
Reviews and edits miscellaneous program preferences.
Resets program preferences to their original default configuration.
Resets project settings to their default values.
Plots labels with arrow-headed leader lines in a 3D diagram.
Reads Nb/Y and Zr/TiO2 values from the datasheet and generates scattergrams based on whole-rock trace elements, overlaid with a volcanic rock classification scheme.
Imports the contents of an AutoCAD-compatible DXF file into RockPlot2D for display as a plan-view image.
Computes XY coordinates for a convex polygon that encloses a list of XY points or enabled boreholes.
Reads XYZ points from the datasheet and generates a 3D map with a polyline drawn between the specified vertices in a selected color.
Reads azimuth bearings, inclination angles, and lengths from the datasheet and displays them as prisms in a 3D diagram.
Creates a 3D connected polygon diagram from a list of polygons defined in the datasheet.
Reads locations, elevations, radii, and colors from the datasheet and renders horizontal cylindrical tanks in a 3D scene.
Reads infrastructure objects and parameter settings from a text file and displays them as a 3D scene.
Reads LIDAR data recorded from outcrop and constructs a 3D surface triangle mesh.
Reads location, bearing, and inclination data from the datasheet and renders 3D oriented arrows at those locations.
Reads a list of X,Y coordinates from the datasheet and generates a series of vertical panels representing a project area perimeter within a 3D diagram.
Displays XYZ point data as spheres or cubes in a 3D scene.
Plots XY points on a 2D cylindrical projection of the Earth.
Plots polylines on a 2D cylindrical projection of the Earth.
Plots XY points on a 2D spherical projection of the Earth.
Plots polylines on a 2D spherical projection of the Earth.
Plots XY points on a 3D spherical projection of the Earth.
Plots polylines on a 3D spherical projection of the Earth.
Plots a series of colored triangles in 3D space using the XYZ coordinates of each triangle's three corners.
Reads XYZG data from the datasheet and creates a 3D surface with Delaunay-triangulated color contours and optional map layers.
Reads paired X1Y1Z1 and X2Y2Z2 coordinates from the datasheet and displays them as oriented tubes in RockPlot3D.
Reads locations, elevations, radii, and colors from the datasheet and draws vertical cylindrical tanks at those locations in 3D.
Converts RGB color values in datasheet columns to decimal equivalents.
Converts azimuth values (0–360 degrees) in the datasheet to quadrant notation (e.g., 135° becomes S45E).
Converts coordinate values between supported coordinate systems within datasheet columns.
Converts a single coordinate point between supported coordinate systems.
Converts date values to decimal-format stardates, suitable for plotting date-dependent data along an XY axis.
Merges time-stamped GPS data with time-stamped geophysical data from the datasheet.
Converts polar coordinates in the datasheet to XY coordinates.
Converts Public Land Survey System (PLSS) legal descriptions in the datasheet to XY coordinates.
Converts quadrant bearing notation in the datasheet to azimuth values.
Plots a point location within Google Earth using coordinates from the Datasheet.
Rescales XY coordinates within the Datasheet by a specified factor.
Rotates XY coordinates within the Datasheet relative to a specified midpoint.
Shifts XY coordinates within the Datasheet by a specified offset.
Converts XY coordinates within the Datasheet to polar coordinates.
Converts XYZ coordinates within the Datasheet to polar coordinates.
Creates a Google Earth file in which point locations are represented as proportionally scaled, hollow or filled circles, with specified color, scaling, and labeling options.
Creates a Google Earth file with line segments drawn between specified endpoints, using fixed or variable colors and thicknesses, positioned along the ground, relative to the ground, or at a fixed elevation.
Creates a Google Earth file with closed polygons drawn along specified vertices using colors defined in the Datasheet, with labeling options, ground clamping, and date filtering.
Creates a Google Earth file displaying oil and gas lease polygons using specified colors and labeling options, with support for date filtering and ground clamping.
Creates a Google Earth file with 3D arrows forming parabolic arcs between specified endpoints, using designated colors and sizes.
Creates a Google Earth file with 3D polylines forming parabolic arcs between specified endpoints, using designated colors and sizes.
Creates a Google Earth file with 3D tubes forming parabolic arcs between specified endpoints, using designated colors and sizes.
Creates a Google Earth file with a single connected pipeline drawn between specified endpoints in a fixed color, clamped to the ground.
Creates a Google Earth file with multiple connected 3D pipeline segments drawn between specified endpoints in a fixed color, with options to clamp to the ground or offset by a relative elevation.
Creates a Google Earth file with a single closed polygon drawn along specified vertices in a fixed color, with options to clamp to the ground, offset by a relative elevation, or place at an absolute elevation.
Creates a Google Earth file with multiple closed polygons drawn along specified vertices using designated colors, with options to clamp to the ground, offset by a relative elevation, or place at an absolute elevation.
Creates a Google Earth file with a single polyline drawn along specified vertices in a fixed color, with options to clamp to the ground, offset by a relative elevation, or place at an absolute elevation.
Creates a Google Earth file with multiple polylines drawn along specified vertices in a fixed color, with options to clamp to the ground, offset by a relative elevation, or place at an absolute elevation.
Creates a Google Earth file displaying relative values as extruded polygons shaped to represent selected states or countries.
Generates a Public Land Survey System (PLSS) map for display in Google Earth.
Plots sample points as icons within Google Earth.
Reads control point and survey data from the datasheet, calculates XY locations for survey points, and creates a Google Earth map displaying icons at those locations.
Reads control point and polygon survey data from the datasheet, calculates XY locations for polygon vertices, and creates a Google Earth map illustrating the polygon locations.
Creates a Google Earth file with 3D tube segments drawn between specified endpoints using defined colors and radii, positioned clamped to the ground, at elevations relative to the ground, or at absolute elevations.
Selects all cells within the datasheet.
Filters out data points that fall outside the defined project area.
Reads water level and precipitation measurements over time from the datasheet and creates a hydrograph diagram illustrating their relationship.
Creates a Durov diagram based on ion data in the datasheet.
Computes ion balances based on ion data in the datasheet.
Computes ion totals based on ion data in the datasheet.
Reads ion concentration data from the datasheet and creates a Piper diagram depicting relative groundwater ion distributions.
Creates a Schoeller diagram illustrating relative ion concentrations for comparing multiple samples.
Creates a Stiff diagram based on ion data in the datasheet.
Creates Stiff diagrams for multiple sites read from the datasheet and displays the polygons at their sample locations in map view.
Computes Total Dissolved Solids (TDS) content based on ion data in the datasheet.
Computes stochastic point-source flow paths based on hydraulic conductivity models.
Creates a simulated three-dimensional drainage network.
Calculates single-well drawdown and generates a drawdown diagram.
Creates incremental drawdown grids from multiple wells based on a user-specified duration and time increments.
Calculates a water level surface based on multiple wells, with constant or varying saturated thickness and transmissivities along the X and Y axes.
Converts a grid model to a flow path (simulated drainage) map.
Computes flow from high to low nodes and stores the resulting flow vector line segment coordinates in the RockWorks Datasheet.
Plots ModPath-style particle paths as three-dimensional tubes for display in RockPlot3D.
Computes the upgradient drainage area for each grid node and saves the result as a new grid model.
Creates a frequency-based rose diagram from bearing (azimuth) data in the Datasheet.
Creates frequency- or length-based rose diagrams from lineation endpoint coordinates in the Datasheet.
Creates a three-dimensional directional diagram from direction, inclination, and magnitude data in the Datasheet.
Computes bearings, lengths, midpoints, and related statistics from 2D lineation endpoint coordinates in the Datasheet.
Computes bearings, inclinations, lengths, midpoints, and related statistics from 3D lineation endpoint coordinates in the Datasheet.
Creates a map depicting mining claims based on corner-point coordinates.
Creates a bar chart map depicting relative concentrations of items within designated Datasheet columns.
Reads infrastructure objects and parameter settings from a text file and displays them as a 2D map.
Creates a 2D US Public Land Survey grid map from Public Land Survey data.
Reads endpoint coordinates from the Datasheet and creates a lineation and arrow map.
Converts Public Land Survey descriptions in the Datasheet to a 2D oil lease map.
Creates a pie chart map depicting the relative concentrations of multiple variables at each site.
Reads XYZ data from the Datasheet and creates a map showing sample locations with uniform or variable symbols, labels, and additional map layers.
Reads data from the Datasheet or a database table and creates one or more polygon features.
Reads data from the Datasheet or a database table and creates one or more polyline features.
Reads location data and values for up to 9 selected variables from the Utilities datasheet and generates a map illustrating the magnitudes of the selected variables as polygons within a circle at each sample location.
Generates a map illustrating shotpoint locations read from the datasheet.
Reads location data and values for up to 9 selected variables from the Utilities datasheet and generates a map illustrating the relative percentage of the selected variables as polygons within a circle at each sample location.
Generates a starburst map in which the radii of equal-angle pie slices are scaled in proportion to a selected parameter.
Reads XYZ data from the datasheet and creates a map with Delaunay-triangulated line and color contours and other map layers.
Copies a list of files specified in the RockWorks datasheet to a designated folder.
Converts gravity observations to Bouguer Anomaly values suitable for gridding into Bouguer Anomaly contour maps.
Replaces text within an ASCII text file.
Reads XYZ locations and strike and dip measurements from the datasheet and represents them in 3D space as oriented disks.
Computes dip directions and inclinations from three sets of XYZ coordinates specified in the datasheet.
Computes lineation orientations formed by all possible intersections of planes.
Computes lineation orientations formed by the intersections of paired planes.
Contours three points and generates a dip analysis report.
Reads planar data from the datasheet and displays the orientation of those features on a 3D spherical projection using great circles.
Reads XYZ polyline coordinates from one or more datasheets and computes the orientations of planes passing through the polyline vertices.
Rotates 3D features by a specified amount and records the resulting strike and dip values in two new datasheet columns.
Reads planar, linear, or rake data from the datasheet and displays the orientation of those features on a stereonet diagram using points and great circles.
Reads XY locations and strike and dip measurements from the datasheet and generates a map illustrating planar orientations using standard strike and dip symbols.
Converts strike values to dip directions within the datasheet.
Reads XY locations, elevations, and planar orientation data for a structural surface from the datasheet and generates a structural grid, 2D map, and 3D surface using the Dip Gridding algorithm.
Reads a list of XYZ points and planar orientations from the datasheet and displays the intersection of those planes along a profile slice.
Deletes one or more rows from the datasheet.
Inserts one or more blank rows into the datasheet.
Creates a 3D dendrogram for cluster analysis.
Displays a box plot for selected columns in the datasheet.
Generates a circlegram diagram from datasheet data.
Reads a single column of data from the datasheet and plots the frequency or percentage of measurements within each user-defined interval as a bar histogram.
Reads two or more adjacent columns of data from the datasheet and generates a combined histogram matrix, producing a bar histogram for each column in a single diagram.
Normalizes a designated datasheet column by re-scaling the data to fall within a user-specified range.
Identifies populations within univariate or multivariate datasets using a population classifier.
Generates QAPF igneous rock classification diagrams from datasheet data.
Populates a designated datasheet column with random numbers.
Plots an X-versus-Y scattergram and optionally fits lines or curves to the data.
Plots relative grain size distributions as a sieve analysis diagram.
Generates 3D multivariate spindlegram diagrams from datasheet data.
Standardizes a designated datasheet column by computing the number of standard deviations between each value and the column mean.
Generates a trilinear (ternary) diagram based on three columns of data, with optional contours.
Reads a set of RwDat files sharing the same layout and generates a series of ternary diagrams mapped from the data in each file.
Generates a time-space diagram extending geological time and space data into multiple dimensions.
Creates a univariate statistical report for a designated datasheet column.
Creates and edits variograms based on XY data points.
Reads X,Y or X,Y,Z point locations from the datasheet and computes a variety of statistics regarding the distribution of the points.
Plots survey points and traverse lines in a 3D scene.
Interpolates points along a line based on line endpoint coordinates and the number of points along the line, such as seismic shotpoints.
Converts linearly sampled geophysical data (distance, elevation, resistivity) to XYZ coordinates.
Computes the origin longitude and latitude for a local coordinate system.
Creates a 2D survey map based on survey data within the datasheet.
Computes the areas of mining claims based on corner-point coordinates within the datasheet.
Computes movement direction, inclination, distance, and velocity for control points re-surveyed at different dates.
Computes acreage and area for oil lease legal descriptions.
Reads survey data in bearing, inclination, and distance format along with station points from the datasheet and displays the resulting panels in a 3D scene.
Sets up XY stations within the datasheet based on specified spacings and directions.
Determines XYZ coordinates for points based on azimuths and inclinations to known control points using triangulation.
Plots survey traverse lines as 3D tubes.
Reads survey data in bearing, inclination, and distance format from the datasheet and calculates XYZ coordinates.
Provides simple utility programs for unit conversions, geometric computations, reference tables, and related calculations.
Imports a polygon from a DXF file into a polygon table.
Creates color-coded vertical 3D cylinders representing geologic units encountered within boreholes or measured sections, using borehole ID, collar XYZ coordinates, and depth or elevation data for up to 12 geologic contacts.
Creates HTML files based on a list of input ingredients such as image files.
Links locations on an image to other content such as images, text, or web sites.
Creates a Google Earth KMZ file in which point locations are represented by filled cones, upward- or downward-pointing, whose radius, height, and color are either fixed, defined in the datasheet, or scaled proportionally based on datasheet measurements.
Creates a Google Earth KMZ file in which point locations are represented by 3D cylinders whose radius, height, and color are either fixed, defined in the datasheet, or scaled proportionally based on datasheet measurements.
Creates a Google Earth KMZ file displaying strike and dip data as 3D tilted disc diagrams.
Creates a Google Earth KMZ file displaying strike and dip data as 2D symbols.
Reads a list of images, start and end dates, and image coordinate locations from the datasheet and generates a KMZ animation of the images draped over the ground surface for display in Google Earth.
Reads images, XY midpoint locations, and dimensions from the datasheet and creates a KMZ file with the images draped over the ground surface at those locations for display in Google Earth.
Reads images and XY locations for southwest and northeast corner points from the datasheet and creates a KMZ file with the images draped over the ground surface at those locations for display in Google Earth.
Reads a list of images, start and end dates, and image coordinate locations from the datasheet and generates a KMZ animation of the images floating above the ground surface for display in Google Earth.
Reads images, XY midpoint locations, dimensions, and elevations from the datasheet and creates a KMZ file with the images floating above the ground surface at those locations for display in Google Earth.
Reads images, elevations, and XY locations for southwest and northeast corner points from the datasheet and creates a KMZ file with the images floating above the ground surface at those locations for display in Google Earth.
Reads a raster image and accepts start and end elevations, dates, and locations from the input menu to create a Google Earth KMZ animation of the image floating at incrementally changing elevations through time.
Merges two PNG images by adjoining one along the right edge of another, useful for adding legends, corporate logos, or other graphics to existing images.
Prints the current datasheet.
Constructs upper and lower grid models that constrain a specified value range within a solid model.
Converts groups of vertically aligned points, such as resistivity soundings, into a Boolean solid model that can be used as a constraint for subsequent modeling operations.
Creates a map displaying wind rose diagrams for one or more sites.
Using Full Sequel Server as RockWorks Database, sequel, sqlite, data