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EQRM is a risk assessment software designed to facilitate well site safety strategy and decision making.
EQRM can be used to determine a probability of loss given a chosen safety strategy, to assess the safety level of equipment, to assess the effects of a 3-D earth movement and its ground motion on building structures and to determine how to make a site safer.

What is this?

EQRM is an earthquake risk assessment software that allows researchers and governments to simulate the ground shaking in a location to help determine whether or not it is at risk of collapse or serious damage and if so, what mitigation measures need to be taken. In reality, a buildings might be fine, but the models are fairly realistic so they can help protect the public.

EQRM is capable of calculating the ground shaking and displacement and damage to buildings in many types of situations and the results can be presented as a 3-D movie and in a form that can be plotted to produce a map of what will happen. The model used is very similar to ICS PEARSON software and is easily modified and used in line with ARP/ANZ New Zealand Building Code 2008.

In theory, EQRM is very accurate as it uses very sophisticated modelling techniques based on real world data and uses the latest scientific findings. In reality, the software is a bit imperfect, but it’s good enough for most application.

Does this software calculate ground motion, liquefaction or landslide effects?

Yes, EQRM can predict earthquakes and also the ground shaking produced as a result of a large earthquake. EQRM is capable of calculating the ground motion produced in both natural and induced earthquakes, crustal liquefaction and the liquefaction potential of the soil and as such it is a very useful tool for investigation.

What are the strengths and weaknesses of this software?

There are no serious weaknesses, EQRM is reasonably accurate and is reasonably easy to use. EQRM is currently based on geological and geotechnical data collected using real sensors in the field and uses a variety of government and research laboratories.

The weakest point is that EQRM cannot predict aftershocks.

How much does it cost?

EQRM is very reasonably priced software. However EQRM is a commercial product that has been developed and tested for commercial use, hence the price. The price is based on the amount of time you have to develop a solution to suit your requirements.

Who is the client

EQRM Crack+

EQRM is a full-featured engineering software that includes Earthquake Risk Model, earthquake ground motion and damage scenario modeling, probability and loss model, Hazard Probability (PSHA) and Risk Analysis (PSRA). It allows you to design large engineered systems with full support for probabilistic design methods.
You can load different geometries, different type of element and seismic materials. Specify the weight of each material in the system. You can also define different seismic motion of each material. Earthquake motions can be provided by the user in the form of earthquake scenario or predicted GZMO or seismograms of the earthquake or it can be imported from other software like Andante, DST, Nexus, Assured, GZMA and so on. You can also import input file containing information about soil, rock, water, materials, structural design and so on.
Once the input parameters are set, EQRM will analyze the ground motion and the effect of shaking on all the elements of the structure. It provides the options to run the scenario and apply the model to the selected elements of the structure, and it can also analyze different scenarios of the earthquake to find out how the damage can be distributed.
EQRM Features:
Probabilistic structural analysis Earthquake risk model Earthquake hazard analysis Earthquake damage scenario design Earthquake safety design Earthquake risk evaluation
Work Process:
Run the earthquake scenario on the model.
Apply the model to selected elements of the structure.
Analyze the damage and analyze the load paths.
Save the result of the analysis.
How it Works:
Sets user-defined parameters; that is, sets elements geometry, material types, and seismic parameters.
Provides a graphical user interface that can read the input and collect the data from the files and database.
Calculates stress on the members that are specified in the model input.
Calculates earthquake shaking on the model elements.
Calculates natural frequencies of the model.
Renders the output on the model’s panels and reports.
Information About EQRM:
The earthquake risk model is open source software developed by Earthquake Technology Department.
Data Requirements:
EQRM requires the input of a point file, and if you want to use the seismic event information you must create an input file and use the user-defined option.
Developer Information:


The model has been developed to provide the following to the community:
Electricity and Gas Industry
Residential Architects
Government and Land-use planners
Homes and their surrounding environment
The tools can be used to analyse buildings to determine their likely seismic performance and the amount of earthquake damage that may be incurred during a large earthquake.
EQRM can model a range of earthquake hazards, including the example being the Sydney Opera House
The program can use data collected from any of the above mentioned groups to estimate the potential earthquake damage in a specific area, according to when the earthquake will happen and other data collected during an analysis.
EQRM Description:
The software has been developed to assist in the following activities:
Determining the earthquake ground motion spectrum for the area under consideration.
Determining the probability that a particular damage scenario occurs.
Determining the mean seismic losses at a typical property in the area under consideration.
Determining the long term replacement cost of a building in the area under consideration.
The modeling of any damage that is produced in a scenario including some information about the building, its contents, the time and magnitude of the earthquake and other data.
EQRM Description:
This is a 2-dimensional, variable density, non-linear 3rd order, finite difference code. We use the term “non-linear” to mean that the displacements are related to the source strength and velocity, and the site characteristics by means of a system of general non-linear equations. This model incorporates the most recent earthquake physics model — the Shake Investigation Group. The algorithm used for resolving the non-linear equations has been updated and is no longer a form of successive over relaxation.
EQRM Description:
EQRM is a wave propagation code based on the 2000 version of the Zurich, Sweden and the 1998 version of the Japan National Earthquake Engineering Research Institute (JNESRI) software. It takes into account a large range of phenomena such as the presence of ground water and soft soil layers; crustal depth and lithology; stress and displacements in the crust and upper mantle (deformation of the upper side of the mantle); brittle or ductile behaviour of rock; wave generation and propagation in rock layers, water and soil; movement and sedimentation of sediments.
After the simulation of surface waves, time histories of the ground displacements are calculated, taking into account the presence of gaps. Deformations are then converted to shear strains for fault propagation.

What’s New in the EQRM?

EQRM can be used to model the ground shaking from any source, from natural or manmade underground volcanic intrusions to meteorite impacts, geological disasters and earthquakes.
The software uses the superposition technique and is capable of modelling both fine and coarse scale (micro to kilometre) motion. This can be used for the input to a PSHA or PSRA modelling study. EQRM is also a supportive tool for seismic design and can help in the reduction of motion at existing and future buildings.
EQRM is used and distributed by regional seismic agencies in Australia, New Zealand and in other countries such as Indonesia and China. For further information visit
EQRM Features
EQRM includes the following features:
– Robust and efficient motion models
– Variable source styles such as point, sourceless and
extended source
– Optional finite element models for ground motions.
– Cross-correlation based digital seismograms.
– Adjustable viewing to allow for different scales of motion.
EQRM Features
Operating System:Windows
Graphic User Interface Software:C++
Programming Language:C
Batch File Scripting:C++
Source Code:C++
License: Academic Use Licence
For more information visit


EQRM is a seismic hazard and risk analysis software developed by Geoscience Australia. It is designed to assist in the risk assessment of earthquakes and other natural or manmade hazards. It is capable of producing probabilistic analyses of seismic hazards. EQRM model ground motions and seismic risk in the following generic and site specific contexts:

In EQRM, movement of a variable source can be represented by a point or an extended source. Pertinent parameters such as intensity of source can be varied from time to time.


EQRM has developed a number of different standard types of source models


Point sources consist of a single point and a single velocity.


Extended sources consist of a series of points and velocities that are distributed along a line, or along a surface. Point source mode could represent either a single event or a distributed event across a wide area such as a volcanic cone.


Concurrent sources describe a series of events that are moving and that occur along a single line. EQRM can model the ground shaking


System Requirements For EQRM:

Multi-core CPU : Intel® Core™ i5-7500 or AMD equivalent
: Intel® Core™ i5-7500 or AMD equivalent Memory : 8 GB RAM (8GB for CPU)
: 8 GB RAM (8GB for CPU) Hard Disk Space : 3.8 GB available space
: 3.8 GB available space Video card : NVIDIA GTX 660 or AMD equivalent
: NVIDIA GTX 660 or AMD equivalent Display: 1680×1050 16:9 or 1366×768 16:9 or 1280×720 16:9


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