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User Guide

1.6 Importing Fault Interpretations Data

You can import various types of files that contain fault interpretation data in the form of points, fault sticks, fault polygons, or traces. You can create PointsSet and Curve objects from these data files.

Fault interpretation modeling lets you:

•

Evaluate fault surface construction

•

Estimate the temporal evolution of a flat network

•

Appraise fault geometry and displacement

•

Interpret 3D seismic data across a large fault area

The following topics provide information about import sources for each type of object and how to import specific files.

For information about point sets, see:

•

"Importing a CPS3 ASCII Data (.dat) File," page 1-24

•

"Importing a CPS3 Binary File," page 1-25

•

"Importing a Column-Based File," page 1-25

•

"Importing a FastEdit Scattered Data File," page 1-25

•

"Importing an XYZ File," page 1-26

For information about fault sticks (Curves), see:

•

"Importing a Charisma Fault Interpretations File," page 1-26

•

"Importing a CPS3 ASCII Data (.dat) File," page 1-27

•

"Importing a CPS3 ASCII Polygons (.ply) File," page 1-27

•

"Importing a CPS3 ASCII Fault Traces (.flt) File," page 1-27

•

"Importing a CPS3 Binary File," page 1-27

•

"Importing a Column-Based File," page 1-28

•

"Importing a SeisWorks Fault Sticks File," page 1-28

•

"Importing a Z-MAP Fault or Contour File," page 1-28

For information about fault polygons or traces (Curves), see:

•

"Importing a Charisma Fault Polygons File," page 1-29

•

"Importing a CPS3 ASCII Polygons (.ply) File," page 1-29

•

"Importing a FastEdit Fault Polygons File," page 1-30

•

"Importing an Irap RMS Fault Polygons or Lines File," page 1-30

1.6.1 Importing a CPS3 ASCII Data (.dat) File

You will use the CPS31 _{ASCII Data converter to import a .dat ASCII file that contains fault,}

horizon, or well data. You determine which object to create based on the type of data in the .dat file, and then select the appropriate object in the import dialog box.

If your file contains fault interpretations points, the converter creates one PointsSet object from each file that you import.

To import a .dat file as a PointsSet, a Curve, or a Well

1 Select File > Import >, and then do one of the following to open the dialog box.

Either choice opens the same dialog box.

2 Click to open the Select Text File dialog box, browse for the file you want to import, and then double-click the file name. The program enters the selected file name in the File name box.

3 Do one of the following:

•

To create a PointsSet object, click Import as PointsSet.

•

To create a Curve object, click Curve.

•

To create a Well object, click Well. 4 Click OK or Apply.

1. CPS3 (a mapping system) is a part of the GeoFrame software product available from Schlumberger. If you want to import this

type of data

To create this

type of object Do this

Fault interpretations PointsSet Select Fault Interpretations > PointsSet > CPS3 ASCII Data (.dat).

Horizon interpretations PointsSet Select Horizon Interpretations > PointsSet > CPS3 ASCII Data (.dat). Fault interpretations, fault sticks Curve Select Fault Interpretations >Fault Sticks

> CPS3 ASCII Data (.dat). Horizon interpretations,

contours

Curve Select Horizon Interpretations > Contours > CPS3 ASCII Data (.dat). Well data (X, Y, TVDSS) Well Select Well Data > Path and Logs > CPS3

1.6 Importing Fault Interpretations Data 1-25 User Guide

1.6.2 Importing a CPS3 Binary File

You can use the CPS3 binary converter to create a PointsSet, Curve, or 2D Grid object from a CPS3 binary file. However, if your file contains fault points, the converter expects to read an .svd file and create a PointsSet object. The converter creates one object from each imported file.

To import a CPS3 binary .svd file as a PointsSet



Select File > Import > Fault Interpretations > PointsSet > CPS3 Binary (.svd, .svs, .svf, and .svp), and then select the file or type the full path and file name in the dialog box.

For more information about how to complete the importing process, see "Basic procedure for importing" on page 1-6.

1.6.3 Importing a Column-Based File

You can use a column-based file wizard to import fault interpretation data (from an ASCII file) and create a PointsSet object (or a Curve or Well object), depending on the type of data in your file.

The procedure is similar whether you are importing Curve, PointsSet, or Well data. For information, see "Common Process for Importing a Column-Based File" on page 1-8.

1.6.4 Importing a FastEdit Scattered Data File

Use the FastEdit Scattered Data converter to create a PointsSet from a FastEdit scattered data file.

To import a FastEdit Scattered Data file as a PointsSet



Select File > Import > Fault Interpretations > FastEdit Scattered data, and then select the file or type the full path and file name in the dialog box.

For more information about how to complete the importing process, see "Basic procedure for importing" on page 1-6.

1.6.5 Importing an XYZ File

Use the X Y Z file converter to create a PointsSet object from a fault interpretation X, Y, Z ASCII data file. Each line in the file becomes a point in the PointsSet object, with the three data values as X, Y, and Z coordinates.

To import an X, Y, Z ASCII file as a PointsSet

1 Select File > Import > Fault Interpretations > PointsSets > X Y Z to open the Import X Y Z ASCII File dialog box.

2 Click to open the Select Text File dialog box, browse for the file you want to import, and then double-click the file name. The program enters the selected file name in the File name box.

3 If you want the converter to ignore points with no data value, select the ignore points with no data value check box, and in the no data value box, type the null value. By default the converter considers all points to be active. The default no-data- value is -9999. The no-data-value option is unavailable unless you select the ignore points with no data value check box.

4 Click OK or Apply.

1.6.6 Importing a Charisma Fault Interpretations

File

Use the Charisma1 _{Fault Interpretations converter to create a Curve object from a}

Charisma ASCII file. The converter creates a Curve object for each import file. To import a Charisma

file as a Curve



Select File > Import > Fault Interpretations > Fault Sticks > Charisma Fault _{Interpretations, and then select the file or type the full path and file name in the} dialog box.

For more information about how to complete the importing process, see "Basic Concept for Importing Data" on page 1-6.

1.6 Importing Fault Interpretations Data 1-27 User Guide

1.6.7 Importing a CPS3 ASCII Data (.dat) File

You will use the CPS3 ASCII Data converter to import .dat data and create a PointsSet, Curve, or Well object. For information about how to import this type of file, see

"Importing a CPS3 ASCII Data (.dat) File" on page 1-24.

If your file contains fault sticks data, the converter creates a Curve object from each file that you import.

1.6.8 Importing a CPS3 ASCII Polygons (.ply) File

Use the CPS3 ASCII Polygons converter to create a PointsSet object from the X, Y data coordinates in a CPS3 ASCII Polygons (.ply) file. The converter creates a PointsSet object for each import file.

To import a .ply file as

a PointsSet



Select File > Import > Fault Interpretations > PointsSet > CPS3 ASCII Polygons _{(.ply), and then select the file or type the full path and file name in the dialog box.} For more information about how to complete the importing process, see "Basic procedure for importing" on page 1-6.

1.6.9 Importing a CPS3 ASCII Fault Traces (.flt) File

Use the CPS3 ASCII Fault Traces converter to create a Curve object from a CPS3 ASCII Fault Trace (.flt) file. The converter creates a Curve object for each import file.

To import a .flt file as

a Curve



Select File > Import > Fault Interpretations > Fault Sticks > CPS3 ASCII Polygons _{(.flt), and then select the file or type the full path and file name in the dialog box.} For more information about how to complete the importing process, see "Basic procedure for importing" on page 1-6.

1.6.10 Importing a CPS3 Binary File

You can use the CPS3 Binary converter to create a PointsSet, Curve, or 2D-Grid object from a CPS3 binary file. However, if your file contains fault sticks data, the converter expects to read an .svf file and create a Curve object.

The converter creates a new object for each import file. To import a CPS3

binary .svf or .svp file as a Curve



Select File > Import > Fault Interpretations > Fault Sticks > CPS3 Binary (.svd, .svs, .svf, and .svp), and then select the file or type the full path and file name in the dialog box.

For more information about how to complete the importing process, see "Basic procedure for importing" on page 1-6.

1.6.11 Importing a Column-Based File

You can use a column-based file wizard to import fault stick data (from an ASCII file) and create a Curve object (or a PointsSet or Well object), depending on the type of data in your file.

The procedure is similar whether you are importing Well, PointsSet, or Curve data. For information, see "Common Process for Importing a Column-Based File" on page 1-8.

1.6.12 Importing a Petrel Pillars File

Use the Petrel1 _{Pillars converter to create a Curve object from a Petrel Pillars file.}

To import a Petrel

Pillars file as a Curve



Select File > Import > Fault Interpretations > Fault Sticks > Petrel Pillars, and _{then select the file or type the full path and file name in the dialog box.} For more information about how to complete the importing process, see "Basic procedure for importing" on page 1-6.

1.6.13 Importing a SeisWorks Fault Sticks File

Use the Seisworks2 _{fault sticks converter to create a Curve object from a SeisWorks fault}

sticks file. To import a SeisWorks

fault sticks file as a Curve



Select File > Import > Fault Interpretations > Faults Sticks > SeisWorks Fault Sticks, and then select the file or type the full path and file name in the dialog box. For more information about how to complete the importing process, see "Basic procedure for importing" on page 1-6.

1.6.14 Importing a Z-MAP Fault or Contour File

Use the ZMAP3 _{Fault or Contour converter to create a Curve object from a Zmap fault or}

contour file. To import a Zmap

fault traces or contour file as a Curve



Select File > Import > Fault Interpretations > Fault Sticks > Z-MAP Fault or Contour Files, and then select the file or type the full path and file name in the dialog box.

For more information about how to complete the importing process, see "Basic procedure for importing" on page 1-6.

1. Petrel is a software product available from Schlumberger.

2. SeisWorks is a software product available from Landmark Graphics. 3. Z-Map is a software product available from Landmark Graphics.

1.6 Importing Fault Interpretations Data 1-29 User Guide

1.6.15 Importing a Charisma Fault Polygons File

Use the Charisma Fault Polygons converter to create a Curve object from a Charisma Fault Polygons ASCII file. The converter creates one Curve object from each file.

To import a Charisma Fault Polygon file as a Curve

1 Select File > Import > Fault Interpretations > Fault Polygons (Curves) >

Charisma Fault Polygons to open the Import ASCII Charisma Fault Polygon To Curve dialog box.

2 Click to open the Select Text File dialog box, browse for the file you want to import, and then double-click the file name. The program enters the selected file name in the File name box.

3 Type the number that represents the distance between two segment extremities in the maximum closure distance box. If the distance between two segment

extremities is within this number, the two extremities will be linked. The default is 25. 4 Type the no-data-value in the value when undefined box. The default is 0.

5 Clear the Use prefix check box if you do not want each Curve object imported from this file to have the same prefix. The check box is selected by default (meaning each Curve object will have the same prefix).

6 If you chose to use a prefix, type the prefix you want in the Fault prefix box. 7 Click OK or Apply.

1.6.16 Importing a CPS3 ASCII Polygons (.ply) File

Use the CPS3 ASCII Polygons converter to create a Curve object from a .ply file. The converter creates one PointsSet object per import file.

To import a CPS3 Polygons file as a Curve



Select File > Import > Fault Interpretations > Fault Polygons or Traces > CPS3 ASCII Polygons (.ply), and then select the file or type the full path and file name in the dialog box.

For more information about how to complete the importing process, see "Basic procedure for importing" on page 1-6.

1.6.17 Importing a FastEdit Fault Polygons File

Use the FastEdit Fault Polygons converter to create a Curve object from a FastEdit fault polygons file.

To import a FastEdit fault polygons file as a Curve



Select File > Import > Fault Interpretations > Fault Polygons or Traces > Fastedit Fault Polygons, and then select the file or type the full path and file name in the dialog box.

For more information about how to complete the importing process, see "Basic procedure for importing" on page 1-6.

1.6.18 Importing an Irap RMS Fault Polygons or Lines

File

Use the Irap1 _{RMS Fault Polygons or Lines converter to create a Curve object from an Irap}

RMS lines file. The converter can import either the Irap RMS Classic or Mapping format. The converter creates one Curve object from each import file.

To import an Irap RMS

file as a Curve



Select File > Import > Fault Interpretations > Fault Polygons or Traces > Irap _{RMS Fault Polygons or Lines, and then select the file or type the full path and file} name in the dialog box.

For more information about how to complete the importing process, see "Basic procedure for importing" on page 1-6.

1.6.19 Importing a SeisWorks Fault Polygon File

Use the SeisWorks2 _{Fault Polygon converter to create a Curve object from a SeisWorks}

fault polygon file. The converter expects to read X and Y coordinates file in the SeisWorks default export format.

To import a SeisWorks Fault Polygon file as a Curve



Select File > Import > Fault Interpretations > Fault Polygons or Traces > SeisWorks Fault Polygons, and then select the file or type the full path and file name in the dialog box.

For more information about how to complete the importing process, see "Basic procedure for importing" on page 1-6.

1. IRAP RMS is a software product available from ROXAR.

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