2. Copy and paste values from a spreadsheet into the table below OR upload a CSV file with the same columns number.
Exposure 1
id
lon
lat
taxonomy
number
3. Download the NRML file for use in the OpenQuake Engine.
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1. Use this form to initialize the fragility model.
2. Use the 'Add Discrete Function' and 'Add Continuous Function' buttons to generate as many discrete and continuous fragility function sets (ffs) as needed. Generate a NRML file by clicking 'Convert to NRML' once tables are populated.
3. Download the NRML file for use in the OpenQuake Engine.
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New consequence model
Generate consequence model
Consequence model
3. Download the NRML file for use in the OpenQuake Engine.
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1. Use this form to initialize the vulnerability model.
2. Use the 'Add Probability Mass Function' & 'Add Discrete Function' buttons to generate as many vulnerability function forms as needed. Next populate the table and form for each function.
Generate a NRML file by click 'Convert to NRML' when done populating the tables
Optionally one can create new rows in the discrete table using the control key.
3. Download the NRML file for use in the OpenQuake Engine.
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Hypocenter
Rupture type
Select rupture type:
Arbitrary Fault Rupture
Simple Fault Rupture
Single Planar Rupture OR Multi-Planar Rupture
Complex Fault Rupture
Simple Fault Rupture
Copy and paste values from a spreadsheet into the table below.
Single Planar Rupture OR Multi-Planar Rupture
Planar surface 1
Complex Fault Rupture
Complex surface 1
Arbitrary Fault Rupture
3. Download the NRML file for use in the OpenQuake Engine.
The OpenQuake scenario calculators can be used for the calculation of damage distribution statistics or individual asset and portfolio loss statistics for a portfolio of buildings from a single earthquake rupture scenario, taking into account aleatory and epistemic ground-motion variability.
Choose components of your configuration file and fill related fields.
The OpenQuake volcano calculator can be used for the estimation of damage distribution statistics or individual asset and portfolio loss statistics for a portfolio of buildings starting from hazard footprints.
The following four hazard perils can be considered:
Ash fall
Lahar
Lava flow
Pyroclastic density currents
For Ash fall, the ash load in kPa is considered as the hazard intensity. The other perils are assumed to be a binary phenomena.