Slope stability analysis – Slope

490.00 esc. IVA

(13 customer reviews)

Slope stability software carries out the analysis of soil or rock slope stability both under static and seismic conditions, using the limit equilibrium methods of Fellenius, Bishop, Janbu, Bell, Sarma, Spencer, Morgenstern & Price, Zeng Liang and (DEM) Discrete elements method for circular and non circular surfaces by which it is possible to ascertain slippages in the slope, examine a gradual failure, and employ various models of force-deformation relationship. Reinforcements with piles, gravity and/or reinforced concrete bracing walls, nettings, geofabrics, anchors, and terracing may be specified. Distributed and point loads may be defined.


Slope stability

Supported computation standards
Verification analysis can be performed employing EN 1997-1, or classical approach (limit states, factor of safety) EN 1997 – option to choose partial factors based on National Annexes EN 1997 – option to choose all design approaches, consider design situations


 Graphic input with mouse
Input from EXCEL files
Input from DXF files
Tabular numerical input
Input of topographic profile generated by TRISPACE
Import of rasterized images
Input of ASCII files
Input from Dynamic Probing


Point loads (inclined)
Longitudinal loads


Retaining walls
Single piles, Sheet pile walls or Bulkheads
Stabilization method: Broms limit load with automatic computation of the breaking moment of the section, Shear strength method, Zeng Liang’s method
Active and passive anchors
Step terracing
Reinforced earth: bars, strips and geotextile sheets
Geogrids database that cand be modified by the user
Drained trenches
Input of generic works
Integrated template for the automatic generation of Wind turbines and telephone towers
Nailed reinforcement implementation using Soil Nailing technique


BISHOP (1955)
JANBU (1956)
SPENCER (1967)
BELL (1968)
SARMA (1973)
D.E.M. (1992)
Back Analysis
Rock slope analysis using the Hoek and Brown method (1980)


In case of seism is estimated the increment of the neutral pressures produced by the deformations induced by the seismic waves. The formulas used are: Matsui et al., 1980, Seed & Booker, 1997, Matasovic,1993. All the parameters necessary for the estimate such as Arias index, Trifunac duration, etc. are calculated automatically by the programme upon integration of the design accelerogram.


Recalculate function to evaluate the safety factor of a specific surface with center X0,Y0 and radius R
Identification of the critical slide surface though automatic calculation
Computation of safety factor for surfaces which pass through two given points and are tangential to a straight line whose gradient varies automatically
Automatic computation of safety factor for surfaces that are tangential to a straight line vector
Computation of safety factor for surfaces which pass through either three, or one given point
Differentiation between flexible and rigid retaining structures
Stability analysis of submerged slopes (e.g. hillside lakes)
Analysis of irregular surfaces
Presence of seismicity and aquifers
Stratified terrains and relative pore pressures


Display of the safety factor isolines
Colored display of all sliding surfaces divided by safety factor (to each color are assigned the safety factors in a fixed interval)
Selection of the surfaces to be printed
Otions <Delete mesh>, <Move mesh> and numerical assignment of the centeres’ mesh
Option <Translate groundwater> which allows to raise or lower the water tabel (very useful command for the sensivity of the Fs when the goundwater level varies)
Layer filling with textures or colors (the textures can be defined by the user)
Graphical and numerical input for non-circular sliding surfaces
• Tools for inserting text, lines and polygons on the graphic sheet

Additional features

Dynamic Analysis: Numerical method for the analysis of slope stability under seismic conditions for direct integration and modal superposition using Newmark’s method (1965). It allows the computation of permanent displacements of landslide mass by integrating the relative acceleration. It is also possible to generate the artificial accelerograms or import accelerograms from: SIMQKE and Sabetta F., Pugliese A.: Estimation of Response Spectra and Simulation of Non stationary Earthquake Ground Motions.

Slope 3D: Generation of digital 3D models from GIS, DXF or Text files. Import of files from SRTM (SRTM is a software created by GEOSTRU, included in the GEOAPP free suite, which allows the generation of a 3D model by simply selecting an area on Google Maps) of from GeoStru Maps, free app for Geostru users. The sections to be analyzed with Slope are automatically created in a dynamic way by moving on the 3D model.

DEM – Discrete Element Method: Advanced numerical method for the analysis of slope stability in static and dynamic conditions. Very sofisticated model of computation of linear and nonlinear analysis based on the behavior of the ductile or fragile soil.

M.R.E. (Mechanically reinforced earth): Design and verification of reinforced soil retaining structures. Are carried out verification at: pullout and break for bar or strips reinforcements and geosynthetics, local stability (Tieback), global stability (Compound), sliding verifications of a rigid body, limit load, overturning. Provided standards: NTC2008, GRI (Geosynthetic Research Institute), BS8006/1995 (Code of practice for strengthened/reinforced soils and other fills), FHWA (Federal Highway Administration).




New release 2021



Solved compatibility with windows 10
Release 2020



Bug correction in reinforced soli
Update of EN regulations
Change print module
New release 2019



New Version 2018, general improvements

New user interface;
Janbu method integration;
Removing number of Slices limits;
Diagram: Shear strength and export numerical value;
Combination of actions: A1 + M1 + R1, A2 + M2 + R1, A2 + M2 + R2;
Reinforced elements, new archives;
New European regulations have been added.



Automatic combinations. Inertial and cinematic effect

Fixed error in the reinforcing elements

General improvements
Adding anisotropic analysis
Adding plugin managment
Bug fix



  • Algorithm optimization for the computation of the plastic moment of reinforced concrete sections
  • Computation of horizontal bearing capacity according to Broms in the presence of water table
  • Drag-and-drop function for file opening
  • New reinforcing element: Wire mesh
  • Fix input stratigraphy
  • Optimization for automatic generation of block walls in mechanically stabilized earth module. Implemented the possibility to alter texts in mechanically stabilized earth module.
  • Implemented the automatic computation of seismic coefficients for the mostly used standards; Automatic computation of neutral pressions increment in dynamic field, automatic solution for the integration of Arias intensity accelerogram and Trifunac accelerogram.
  • Implementation of the DEM method for nonlinear computation. It is possible to make a non-linear analysis assigning the constitutive features of the material . The procedure for plastic strains distribution performed by the Newton-Raphson method of tangents.
  • New, reviewed version.
  • Optimization for computation models Morgenstern&Price and Spencer.
  • Fixed problem regarding the print of neutral pressures for Morgenstern & Price and Spencer methods.
  • Implemented the possibility to include/exclude theoretical notes in the computation report. Details of the works of intervention in the report. Optimizations for the 3D import and DXF import. DEM algorithm integration. Integrations to the computation report of mechanically stabilized earth works.
  • Fixed printing of pore pressures by Sarma method.
  • Changes to the print report: optimizing the style of text and tables, printing the two values of the soil stiffness (DEM Method).
  • Introduced a new work intervention "Reinforcement element ", offers greater sliding resistance along a probable failure surface.
    MRE module completely revised, introduced function for the automatic generation of the profile of the slope, possibility to choose from: terraced profile and constant slope profile. Profile with conventional blocks and reinforced blocks also available.
  • New method of calculation, Zeng Liang. Among the best methods in recent years. Excellent results for the consolidation with Piles.
  • Method DEM (Discrete Element Method): Implemented new methods for nonlinear analysis with new options for analysis, adding the variability of geotechnical parameters according to the displacements, extrapolation of all calculation results. Importing sections including support works Piles and Reinforced Earth fromTrispace.
  • Added reference axes "Click on the ruler to add the axes of reference."
  • Added shortcuts: click on the drawing and type: A for archives, G for geotechnical , Z to zoom, P to move, D for distance measurement.
  • Generation of artifficial non-stationary seisms, methode: Sabetta F., Pugliese A.: Estimation of Response Spectra and Simulation of Nonstationary Earthquake Ground Motions, Bulletin of the Seismological Society of America, Vol. 86, No. 2, pp. 337-352, April 1996

13 reviews for Slope stability analysis – Slope

  1. Collin Taylor (verified owner)

    With this program, you can solve many slope stabilization problems. The software has many features that make it unique for ease of use
    Very reliable in results.

  2. filippo catanzariti (verified owner)

    An excellent software with the recent specification under Eurocode 7 at a reasonable price.
    Pavlos Tyrologou

  3. Rafal Michalak

    A good engineering software for slope stability analysis; easy, intuitive data input and clear result presentation are advantages of it.

  4. filippo catanzariti (verified owner)

    Slope works great, but I think it is necessary to have a more detailed tutorial on rock slopes options.
    Roberto Protti

  5. Antonio Di Nardo (verified owner)

    strumento il cui utilizzo è di immediata comprensione. Consigliato

  6. Giovanni Paolo Ottomanelli (verified owner)

    Semplice ed intuitivo. Ottimo supporto tecnico

  7. Giuseppe

    ottimo prodotto

  8. FRANCESCO (verified owner)

    Ottimo software, per determinare la stabilità dei pendii, semplice da utilizzare, lo consiglio vivamente

  9. ROBERTO SACCO (verified owner)

    Ottimo programma e semplice da usare

  10. MARTA (verified owner)


    • filippo catanzariti (verified owner)

      Grazie per la recensione, ci sono numerosi video in rete e documentazione tecnica su:
      Se necessita di assistenza puo’ aprire un ticket su:

  11. giuliano ghirardi (verified owner)

    Buon Prodotto, perfetto per i fronti in roccia: la possibilità di utilizzare diversi metodi di calcolo permette una valutazione super conservativa del FS

  12. Alessandro (verified owner)

    Eccellente software

  13. Skender Allkja (verified owner)

    Really good software that includes many stabilization methods.

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