Supports TEM measurements taken with central loop, fixed loop or coincident loop configurations (additional license fee required).
IX1D has the capability to read in a resistivity well log from a flat ASCII file and the user can interactively reduce the log to several discreet layers by fitting straight line segments to the cumulative conductance in the log. The resulting model can be copied to the model in the current data set for further modeling.
Direct Link http://www.interpex.com/ftp/ix1d/ix1dv3setup.exe
Features include:
Creation of data by spreadsheet entry or copy/paste from another spreadsheet.
DC Resistivity Voltage/Current Data Entry Dialog Box
Import of data or models from flat ASCII files.
Models are entered from the keyboard or copy/pasted from a spreadsheet as either Depth models or Layer Thickness.
Model Entry Dialog Box
Parameters can be fixed so they are not varied during the inversion or limits can be applied so a parameter can only vary within a specific range.
Layer boundary elevations are shown and calculated relative to surface elevations.
The Model Entry dialog box allows for dynamic column and row manipulations to make model entry more convenient. Fix Flags allow the user to fix parameters for the inversion calculations. Either the layer thickness (or depth) and/or the resistivity can be fixed in the inversion process.
Forward and inverse model calculations can be carried out using buttons on the model entry dialog. Models can be inverted using either the layer depth or layer thickness.
Graphics are presented as the Sounding data on the left hand side with the model on the right hand side. Interactive property sheets allows for user configuration of displayed data. For DC and IP data, the model can be displayed on the same axes as the data.
Menu commands and toolbar buttons are available for estimating a layered model (DC and IP data only), estimating a smooth model or analyzing equivalence of the layered model.
Axes Label Properties
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Smooth models are generated by starting with as many layers as there are data points. Thicknesses are automatically generated from the spacing or frequency data and the model begins with a homogeneous earth (all layers set to the average resistivity found in the data). Inversion can be Ridge Regression or Occam's inversion.
The sounding window display can be set to show the layered model, smooth model, equivalence analysis or any combination of these three. For DC resistivity (with IP), the model(s) can also be shown on the same graph as the data, in which case the spacing axis doubles as a depth axis.
For MT data, the Bostick and Niblett inversions can also be shown.
Sounding Window Graphics Screen
The model and data plots can be zoomed by dragging the mouse across the display with the left button depressed. This feature can be switched on and off by clicking on the Zoom menu command in the View menu or by clicking on the Zoom tool bar icon.
Axis labels as well as axis sizes can be edited under View Properties. Grid lines, including major and minor, for the Data and Model axes can be switched on and off under the View Grid menu subchoices. Axes can be auto-scaled from the model and data by selecting the View Unzoom menu command.
Data, Layered models and Smooth models can be exported to ASCII files.
Graphics can be exported as DXF, CGM or WMF file formats.
Tool bar buttons are provided for the most-used menu commands, including New Sounding or Model, Open and Import data, Save, Print, Edit Data or Model, Zoom status, Unzoom, model display selection, Forward, Inverse and Equivalence Analysis calculations, and Estimation of Layered or Smooth models.
Display of Soundings taken in South Park, Colorado by K. Olofin. Note extension of electrode locations is indicated. Profiles were created from existing soundings.
Profile data such as GEM-2, MaxMin and EM-31/34/38 can be imported from XYZ files.
Profiles can be created from existing soundings and displayed as Zaborovsky plots, profile plots or pseudosections.
Model sections along profiles can be displayed as Zaborovsky plots, profile plots or colored sections.
Display of GEM-2 Data with in-phase/quad data displayed as points, synthetic displayed as lines and smooth model displayed as a colored section
Display of MT Data with apparent resistivity data displayed as curves on a Zaborovsky plot, synthetic displayed as lines and smooth model displayed as a colored section.
Forward modeling, inverse modeling, smooth model estimation and equivalence analysis can be carried out individually or in batch or pseudo-batch mode.
Profiles and soundings can be selected by name or by point and click at a map location. Soundings on a profile can be selected by point and click on a profile location.
A model can be copied to the model clipboard and then back to an individual sounding, all soundings on a profile or to every sounding in the database.
Creation of data by spreadsheet entry or copy/paste from another spreadsheet.
Import of data or models from flat ASCII files
Models are entered from the keyboard as either Depth models or Layer Thickness or copy/paste from another spreadsheet.
- Layer boundary elevations are shown and calculated relative to surface elevations.
The Model Entry dialog box allows for dynamic column and row manipulations to make model entry more convenient.
Fix Flags allow the user to fix parameters for the inversion calculations. Yawman and erbe history. Either the layer thickness (or depth) and/or the resistivity can be fixed in the inversion process.
Forward and inverse model calculations can be carried out using buttons on the model entry dialog. Models can be inverted using either the layer depth or layer thickness.
Graphics in the Sounding Window are presented as the Sounding data on the left hand side with the model on the right hand side. Interactive property sheets allows for user configuration of displayed data. For DC and IP data, the model can be displayed on the same axes as the data.
Menu commands and toolbar buttons are available for estimating a layered model (DC and IP data only), estimating a smooth model or analyzing equivalence of the layered model. These appear on the sounding window and on the profile window. Using the command from the profile window executes a pseudo-batch operation where each sounding along the profile is processed in turn.
View Properties are available for the sounding window, the profile window and the map window. Axes in the map window are never vertically exaggerated. View Properties for the profile window allows for control of the resistivity color fill range and parameters.
Axes Label Properties
When smooth model estimation is started from the Profile window, smooth models are generated by starting with the same starting model for each sounding along the profile. The user selects the number of layers, the starting and ending depths and the starting resistivity. The model begins with a homogeneous earth (all layers set to the specified resistivity). Inversion can be Ridge Regression or Occam's inversion.
The display in the sounding window can be set to show the layered model, smooth model, equivalence analysis or any combination of these three. For DC Resistivity data, the model(s) can also be shown on the same graph as the data, in which case the spacing axis doubles as a depth axis. For colored section displays, the smooth model section is displayed if View/Smooth is selected; otherwise the layered model is displayed.
GEM-2 data interpreted with 3 layers; layered resistivities are fixed and only thicknesses are allowed to vary.
For MT data, the Bostick and Niblett inversions can also be shown.
Soundings can be selected for display from the map window if no profile is displayed. Or they can be selected from the Profile Window. The Sounding Window looks much like the main window in IX1D v2.
Sounding Display Window showing smooth model, layered model and equivalence analysis.
The model and data plots can be zoomed by dragging the mouse across the display with the left button depressed. This feature can be switched on and off by clicking on the Zoom menu command in the View menu or by clicking on the Zoom tool bar icon.
Axis labels as well as axis sizes can be edited under View Properties. Grid lines, including major and minor, for the Data and Model axes can be switched on and off under the View Grid menu subchoices. Axes can be auto-scaled from the model and data by selecting the View Unzoom menu command.
Data, Layered models and Smooth models can be exported to ASCII files.
Graphics can be exported as DXF, CGM or WMF file formats.
Tool bar buttons are provided for the most-used menu commands, including New Sounding or Model, Open and Import data, Save, Print, Edit Data or Model, Zoom status, Unzoom, model display selection, Forward, Inverse and Equivalence Analysis calculations, and Estimation of Layered or Smooth models.
Resistivity Well log shown with layered model decomposition
Licensing and Distribution
IX1D version 3 is distributed as copy-protected software. The software can be downloaded and it works fully only with the demo data supplied. The license allows for a 30-day evaluation period. After the evaluation you are required to purchase the package in order to continue using it. Purchase price is US$999.00 for DC, IP, MT, Frequency EM and EM Conductivity capabilities. The price for for TEM is an US $3,499.00. Both licenses are offered with your choice of USB or Parallel key.
Licensed Versions
Wargame airland battle mod. Licensed users can obtain e-mail support by sending requests for assistance, bug fixes and feature enhancements to [email protected] Please include the serial number, version number and attach the files with which you are having problems to your e-mail request.
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The newest version can be downloaded from this website and will work with your licensed hardware key. Updates are free if you download them from our web site.
Main programs and documentation
UBC-GIF codes that are available for academic or commercial licensing are listed below.
- For licensing policies see the licensing page.
- Note that Utility and Graphical User Interface (GUI) codes are being replaced by the GIFtools project
If you have any questions or would like to gain access to the codes, contact us!.
Below are the main programs available (see our licensing page) and a brief description. The links will take you to the code's webpage.
GIFtools: GIFtools is a software environment for carrying out advanced inversion. It has an object-oriented based framework in Matlab and a GUI designed in Java.
GIFtools is a software environment for carrying out advanced inversion. It has an object-oriented based framework in Matlab and a GUI designed in Java.
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Have questions? Ask them here!
GIFtools consortium (2012 - 2016):
GIFtools II consortium (2017-2018):
DCIP2D: Direct current and induced polaralization forward modelling and inversion in 2D.
- DCIP2D; A Program Library for Forward Modelling and Inversion of DC Resistivity and Induced polarization Data over 2D Structures, version x.x. Developed under the consortium research project Joint/Cooperative Inversion of Geophysical and Geological Data, UBC-Geophysical Inversion Facility, Department of Earth and Ocean Sciences, University of British Columbia, Vancouver, British Columbia.
DCIP3D: Direct current and induced polaralization forward modelling and inversion in 3D.
MAG3D: Forward modelling and inversion of magnetic data in 3D.
- MAG3D; A Program Library for Forward Modelling and Inversion of Magnetic Data over 3D Structures, version x.x Developed under the consortium research project Joint/Cooperative Inversion of Geophysical and Geological Data, UBC-Geophysical Inversion Facility, Department of Earth and Ocean Sciences, University of British Columbia, Vancouver, British Columbia
GRAV3D: Forward modelling and inversion of gravity data in 3D.
- GRAV3D; A Program Library for Forward Modelling and Inversion of Gravity Data over 3D Structures, version x.x. Developed under the consortium research project Joint/Cooperative Inversion of Geophysical and Geological Data, UBC-Geophysical Inversion Facility, Department of Earth and Ocean Sciences, University of British Columbia, Vancouver, British Columbia.
EM1DFM: Frequency-domain electromagnetics inversion for conductivity in 1D.
- EM1DFM; A Program Library for Forward Modelling and Inversion of Frequency Domain Electromagnetic Data over 1D Structures, version x.x. Developed by the UBC-Geophysical Inversion Facility, Department of Earth and Ocean Sciences, University of British Columbia, Vancouver, British Columbia.
EM1DTM: Time-domain electromagnetics inversion for conductivity in 1D.
3d Resistivity Inversion Software Downloads Software
- EM1DTM; A Program Library for Forward Modelling and Inversion of Time Domain Electromagnetic Data over 1D Structures, version x.x. Developed by the UBC-Geophysical Inversion Facility, Department of Earth and Ocean Sciences, University of British Columbia, Vancouver, British Columbia.
