OpenTURNS

An Open source initiative for the Treatment of Uncertainties, Risks'N Statistics

Reliability & Sensitivity¶

Central dispersion¶

Evaluate the mean of a random vector by simulations

Evaluate the mean of a random vector by simulations¶

Analyse the central tendency of a cantilever beam

Analyse the central tendency of a cantilever beam¶

Estimate moments from Taylor expansions

Estimate moments from Taylor expansions¶

Reliability¶

Estimate a probability with Latin Hypercube Sampling

Estimate a probability with Latin Hypercube Sampling¶

Simulate an Event

Simulate an Event¶

Estimate a probability with Monte Carlo

Estimate a probability with Monte Carlo¶

Use a randomized QMC algorithm

Use a randomized QMC algorithm¶

Use the Adaptive Directional Stratification Algorithm

Use the Adaptive Directional Stratification Algorithm¶

Use the Directional Sampling Algorithm

Use the Directional Sampling Algorithm¶

Use the post-analytical importance sampling algorithm

Use the post-analytical importance sampling algorithm¶

Estimate a flooding probability

Estimate a flooding probability¶

Specify a simulation algorithm

Specify a simulation algorithm¶

Use the Importance Sampling algorithm

Use the Importance Sampling algorithm¶

Create a threshold event

Create a threshold event¶

Estimate a probability with Monte-Carlo on axial stressed beam: a quick start guide to reliability

Estimate a probability with Monte-Carlo on axial stressed beam: a quick start guide to reliability¶

Exploitation of simulation algorithm results

Exploitation of simulation algorithm results¶

Use the FORM algorithm in case of several design points

Use the FORM algorithm in case of several design points¶

Create a domain event

Create a domain event¶

Subset Sampling

Subset Sampling¶

Use the FORM - SORM algorithms

Use the FORM - SORM algorithms¶

Test the design point with the Strong Maximum Test

Test the design point with the Strong Maximum Test¶

Time variant system reliability problem

Time variant system reliability problem¶

Axial stressed beam : comparing different methods to estimate a probability

Axial stressed beam : comparing different methods to estimate a probability¶

Create unions or intersections of events

Create unions or intersections of events¶

An illustrated example of a FORM probability estimate

An illustrated example of a FORM probability estimate¶

Reliability processes¶

Create an event based on a process

Create an event based on a process¶

Estimate a process-based event probability

Estimate a process-based event probability¶

Sensitivity analysis¶

FAST sensitivity indices

FAST sensitivity indices¶

Parallel coordinates graph as sensitivity tool

Parallel coordinates graph as sensitivity tool¶

Estimate Sobol' indices for a function with multivariate output

Estimate Sobol’ indices for a function with multivariate output¶

Sobol' sensitivity indices from chaos

Sobol’ sensitivity indices from chaos¶

Use the ANCOVA indices

Use the ANCOVA indices¶

Estimate Sobol' indices for the Ishigami function by a sampling method: a quick start guide to sensitivity analysis

Estimate Sobol’ indices for the Ishigami function by a sampling method: a quick start guide to sensitivity analysis¶

The HSIC sensitivity indices: the Ishigami model

The HSIC sensitivity indices: the Ishigami model¶