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About the ETree module 

ETree module

ETree is used to build event trees for the risk assessment of safety barriers.

ETree is designed to model a safety system (set of safety barriers) in the form of an event tree. It produces simple models suited to all sectors (aeronautics, automotive, rail, oil & gas, etc.) and can be used to effortlessly create risk matrices. This module is based on ALBIZIA, the Binary Decision Diagram (BDD) calculation engine developed by TotalEnergies, with the capacity to perform precise analytical computations and rapidly produce extensive information on the system being studied.

Technical sheet
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Benefits of the ETree module

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User-friendly and ergonomic

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Efficient, accurate
  calculations (ALBIZIA)

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Option to combine
several risk matrices

 

  • Creating event trees is easy via the intuitive graphical interface to which barriers can be added after an initiating event (gas leak, supply loss, overflow, etc.). Each scenario (known as a sequence) is thus defined by a succession of barrier failures and successes.
  • Each sequence has a consequence chosen from a list created by the user. A risk is defined for each consequence, which can then be positioned on the X-axis of the risk matrix. The software then calculates the frequency of the consequence and assigns it to the Y-axis. The frequency of initiating events and the probability of safety barrier failure can be:

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Multiple risks :

  • Several risk matrices can be defined (human, financial or environmental, for example). 
  • You can define the level of criticality of each one: moderate, serious, major, etc.
  • A risk is assigned to each matrix for each consequence, so that consequences can be classified as catastrophic in human terms but moderate in financial terms, or vice-versa.

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  • User-friendly templates/models:  Do you regularly conduct studies using the same safety barriers? With GRIF ETree, you can create templates with one or several pre-configured barriers and risk matrices. If you want to create a new event tree, all you have to do is open the template and enter the parameters/coefficients.
  • Calculating the frequency of each consequence over time: Risk matrices indicate an average frequency. However, when the initiating event or barriers are no longer constants, it may be necessary to show the frequency variation of a sequence (scenario) or of a consequence over time.

  • Option to automate calculations (batch runs) and draw variations for sensitivity analysis.
  • Results are stored in the document and can be exported in a variety of formats (csv, XML, Excel, etc.).
  • Results can be viewed as line graphs, pie charts or histograms.
  • Printing in PDF vector format produces high-quality images and the files are small enough to be sent by email, even if the document contains hundreds of pages.
  • External files (PDF certificates, system images, etc.) can be added to the document and incorporated into the full report.
  • Interaction with the operating system: option to copy/paste either to or from word processing software, spreadsheets, or presentation tools.
  • Specific report containing all matrices.

The ETree module is part of the GRIF Boolean package. Calculations can be performed in the same document using Event Trees (ETree), Fault Trees (Tree), Reliability Block Diagrams (BFiab), Safety Instrumented Systems (SIL), Reliability Network (Reseda), or Bow-Tie / LOPA tables (Risk)
Models can be linked together, and a link can define any object (Event, Block, Barrier, Network node, etc.) using any model: Fault Tree, Block-Diagram, SIS, Event Tree, etc.

For example, initiating events and barriers can be defined using a Fault Tree created with the Tree module, or an SIF via the SIL module. ETree is not limited to an independent layer of protection: barriers can share common components and the computation engine will process the dependencies.

Sectors of activity: aeronautics, aerospace, energies, defense, telecoms, transportation, health, universities and research

GRIF is designed for any field of activity

Whether for an oil platform, aircraft, train or water supply system, GRIF evaluates the reliability and availability of any system using a range of computational techniques. The GRIF software suite offers a wide variety of calculation methods so that users can select the most appropriate (analytical, simulation, etc.), according to the system being modeled.

Minimum System Requirements

  • Hardware requirement: Intel Core i3 or faster, 4 GB of free RAM, 1 GB of free space, no internet connection needed;
  • Software requirements: Windows 10/11 or Linux or MacOS X with Java 11;
  • Licences: standalone with USB dongle or floating licences with Sentinel server; 
  • Trial version available on our website.

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ETree is part of the GRIF Boolean package 

Boolean package

Boolean logic at the touch of a button for your reliability and safety calculations.

The Boolean package is used to perform calculations on static models in order to analyze safety systems and conduct hazard studies. It is composed of 7 modules: BFiab, Tree, ETree, SIL, Risk, Reseda and Bool. They are all equipped with ALBIZIA, the calculation engine developed by TotalEnergies to perform precise analytical calculations and rapidly produce a large amount of information on the system being assessed.

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