Skip to main content
search

Analyse slope stability projects with SLOPE/W

Evaluate a full range of stability problems to improve safety of excavations, slopes, and embankments

Go to storeTry it now

SLOPE/W is the leading slope stability software for soil and rock slopes

Get a clear picture of the risks and complexities of projects involving rock and soil slopes.
Apply multiple analysis methods and make better decisions with all the data consolidated in a visible model.
Design more effective solutions and optimise engineering efforts using intuitive workflows.

Explore almost any stability problem

Designed for a large variety of projects to analyse stability problems for soil and rock slopes, construction and excavations, dams and levees, open-pit highwalls, tailings dams and more.

Make safer design decisions based on thorough analysis of slip surface shapes, pore-water pressure conditions, soil properties, and loading conditions.

Design and engineer for safety

Harness powerful analysis capability and test scenarios by changing condition parameters and definitions. Allow the rigorous solution algorithm to display difficult problems close up.

Build a clear picture of typical conditions, explore variables and design optimal stabilisation and reinforcement options that meet code requirements.

Intuitive workflows for model building

Generate your analysis model using intuitive workflows. Create, import, define, solve, and visualise slip surface details, then generate plots and reports.

Integrate data from other programs such as SEEP/W, SIGMA/W and QUAKE/W to enhance the big picture and enable parallel analysis.

SLOPE/W is part of GeoStudio integrated geo-engineering software

GeoStudio Stories

Civil

GeoStudio 2024.1 – What’s new

GeoStudio 2024.1 continues to build on Seequent’s geotechnical analysis solution, adding new features to tackle…
A photograph of a curved road on pillars along a mountainous coastline at sunset
Civil

A Connected Geotechnical Workflow: The Key to Safe and Sustainable Infrastructure Projects

Gain knowledge of: Integrating and visualising available subsurface data Interpreting subsurface data to aid geotechnical…
A photo of OceanaGold Waihi open pit mine in New Zealand.
Case Studies

OceanaGold pilots innovative digital response for managing the Waihi Tailings Storage Facility

In an industry striving for best practice in Tailings Storage Facility management, OceanaGold’s digital response…

Integrate, communicate, and interpret geotechnical data

with industry-leading geo-engineering numerical modelling

Try it now

Key features

Integrate pore-water pressure data

Define pore-water pressures using piezometric lines, spatial functions, and import results from other finite element analyses. Display values as contours on the geometry.

Perform multiple rapid drawdown analysis

Complete a rapid drawdown analysis several ways, including with pore-water pressures data, transient finite element analysis, or the multi-stage rapid drawdown technique.

Run concurrent slope stability analysis

Define slope materials using built-in models and add-in functions, then run concurrent analyses, such as finite element stress analysis and limit equilibrium to analyse almost any slope stability problem.

Apply limit state design methods

Apply the limit state design or load and resistance factor methodology by specifying partial factors on permanent/variable loads, seismic coefficients, material properties, reinforcement inputs, and more.

Overcome complex non-linear problems

Generate a graphical display of the Factor of Safety vs Lambda plot to inspect the acceptability of convergence for highly non-linear problems with difficult convergence.

Useful Information

Use With

Solutions For

System Requirements

We recommend you use Windows 10, with a reasonably fast processor, mid range graphics and 32GB of system memory.

System Requirements

Supported Data/Formats

Supported kinds of data and formats that you can use with Leapfrog Geo.

Data Types/Formats

Request pricing information

Contact us