# Overview of Automate from Excel

**Automate from Excel** can quickly generate results from inputs read in from Excel files. Numerical input data is read in to the **SWedge** computation engine from a formatted Excel file and results are generated for each defined case without the need to create a separate **SWedge** model file for each.

**WARNING**: The Automate from Excel feature is dedicated to advanced users who are familiar with the user interface, inputs, and assumptions of the program. Invalid input data will generate invalid results.

To access the Automate from Excel feature of SWedge:

- Select
**Analysis > Automate Compute > Automate from Excel**from the menu. - The
**Automated Compute**dialog will appear allowing you to:- Add files to the
**File Queue**for computing - Select an
**Output File Format** - See the progress of
**Completed Files** - See if any issues occured during reading, computing, or writing under
**Warnings**

- Add files to the

## Input File

The formatting of the input Excel files are specific to program and **Analysis Type**.

Formatted Excel templates are provided for you and can be accessed by selecting **Deterministic Excel Template**, Probabilistic Excel Template , or Combinations Excel Template from the File > **Automate Compute **submenu. Each **SWedge** Excel template is formatted specifically for use with the corresponding **SWedge** analysis. You can Automate Compute several **Deterministic**, **Probabilistic**, and/or **Combinations** analysis cases using saved Excel files created from **SWedge** Excel templates.

To add Excel files to the File Queue:

- Select the
**Open**button to choose individual model files.

**NOTE**: Only use the provided **SWedge** Excel templates. Ensure that the correct template type (i.e., **Deterministic Excel Template** , Probabilistic Excel Template, or Combinations Excel Template) is used, which corresponds with the **Analysis Type** (i.e., **Deterministic**, **Probabilistic**, or **Combinations**) set in **SWedge** **Project Settings**.

For more information, see the Automate from Excel Deterministic Analysis, Probabilistic Analysis, and Combinations Analysis topics.

## Output File

When **Automate Compute** is run, a directory by the same name as the input model file will be created in the same directory as the input model file.

The results of each model file can be output to either:

- Comma delimited text file (
*.txt*), or - Excel (
*.xlsx*) format

The text output file will be saved inside the *Automate Compute Results Text Files* subdirectory. The Excel output file will be saved inside the *Automate Compute Results Excel Files* subdirectory. At least one "Results" file is generated per case computed. In a **Deterministic** analysis, one "Results" file per Excel input file is generated. In a **Probabilistic** or **Combinations** analysis, where more than one wedge can be considered, one "Results" file per input case is generated. The results file is formatted to write one wedge per row.

### OUTPUT FILE DATA

The output file contains the following data:

- Wedge ID
- Safety Factor
- Wedge Weight
- Plunge Line of Intersection
- Trend Line of Intersection
- Length Line of Intersection
- Plunge Line of Intersection Basal-Joint1
- Trend Line of Intersection Basal-Joint1
- Length Line of Intersection Basal-Joint1
- Plunge Line of Intersection Basal-Joint2
- Trend Line of Intersection Basal-Joint2
- Length Line of Intersection Basal-Joint2
- Persistence Joint 1
- Persistence Joint 2
- Persistence Basal Joint
- Trace Length Joint 1
- Trace Length Joint 2
- Trace Length Basal Joint
- Effective Normal Stress Joint 1
- Shear Strength Joint 1
- Effective Normal Stress Joint 2
- Shear Strength Joint 2
- Effective Normal Stress Basal Joint
- Shear Strength Basal Joint
- Driving Force
- Resisting Force
- Wedge Height On Slope Face
- Wedge Width To Crest On Upper Face
- Remaining Bench Width
- Wedge Length Along Slope Strike
- Spill Width (m) Dip of Joint 1
- Dip Direction of Joint 1
- Dip of Joint 2
- Dip Direction of Joint 2
- Dip of Basal Joint
- Dip Direction of Basal Joint
- Dip of Upper Slope
- Dip Direction of Upper Slope
- Dip of Slope
- Dip Direction of Slope
- Dip of Tension Crack
- Dip Direction of Tension Crack
- Friction Angle of Joint 1
- Cohesion of Joint 1
- Friction Angle of Joint 2
- Cohesion of Joint 2
- Friction Angle of Basal Joint
- Cohesion of Basal Joint
- JRC of Joint 1
- JCS of Joint 1
- Phir of Joint 1
- JRC of Joint 2
- JCS of Joint 2
- Phir of Joint 2
- JRC of Basal Joint
- JCS of Basal Joint
- Phir of Basal Joint
- Power Curve a of Joint 1
- Power Curve b of Joint 1
- Power Curve c of Joint 1
- Power Curve d of Joint 1
- Power Curve a of Joint 2
- Power Curve b of Joint 2
- Power Curve c of Joint 2
- Power Curve d of Joint 2
- Power Curve a of Basal Joint
- Power Curve b of Basal Joint
- Power Curve c of Basal Joint
- Power Curve d of Basal Joint
- Waviness of Joint 1
- Waviness of Joint 2
- Waviness of Basal Joint
- Percent Filled (%)
- Hu
- Water Pressure Joint 1
- Water Pressure Joint 2
- Water Pressure Basal Joint
- Water Pressure Tension Crack
- Ponded Water Depth
- Seismic Alpha
- Seismic Plunge
- Seismic Trend
- Maximum Persistence Joint 1
- Maximum Persistence Joint 2
- Maximum Persistence Basal Joint

NOTES:

- If no valid wedge is formed, Safety Factor =
**N/A**and any computed values will also be**N/A**. - The applicability of some computed values depend on the geometry, strength, force, and water options selected (e.g., any parameter involving the Basal Joint will be
**N/A**since no Basal Joint exists).

## Error Log

An Error Log text file (*Automate Compute Error Log.txt*) is generated for each input Excel file after **Automate Compute**. The Error Log reports the total number of errors found (if any), the cell(s) where the error occurred, and the reason why an error occurred. An error will occur if a required parameter cell:

- Is Blank, or
- Has a value outside the valid range

**NOTE**: The Error Log should always be inspected to ensure "No errors found"