Workflows

What is a Workflow?
5 Workflows visible to you, out of a total of 5
Work-in-progress

Forecasting the atmospheric dispersal of volcanic products requires accurate input parameters for transport models, including meteorological data and ash/gas emission terms. Such forecasting builds upon three basic ingredients:

  1. Meteorological Data. Typically derived from global, regional, or local-scale models, meteorological data drive the transport and deposition of volcanic particles.
  2. Transport Models. These models simulate atmospheric dispersal, incorporating processes such as wind ...

Type: Common Workflow Language

Creator: Marco Salvi

Submitter: Raül Sirvent

Work-in-progress

Active volcanoes often host settlements in their vicinity, exposing populations to geohazards related to their activity, in particular during unrest phases, when the potential for eruption is higher. Mount Etna is one of the most active volcanoes worldwide, closely monitored by a sophisticated network, and surrounded by several villages and the city of Catania. While the frequent summit activity, characterized by lava fountains and ash-rich plumes, poses a significant hazard to civil aviation, ...

Type: Common Workflow Language

Creators: None

Submitter: Rebecca Bruni

Work-in-progress

PyCOMPSs DT-LAVA-WF (Lava flow digital twin component DTCV3) run in linux, local laptop experiment test

Work-in-progress

The DTC-V4 workflow (WF5401) relies on an atmospheric dispersion model to build the relationship between the plume height and SO2 flux (which taken together are called Eruption Source Parameters, or ESPs) and the SO2 ground concentrations. Here we use FALL3D dispersion model, however as the HMC scheme requires many thousands of forward runs we replace it with an Emulator, a function that approximates the model but runs much faster. So far, a simple interpolate-scale-sum emulator that makes use ...

Type: Common Workflow Language

Creators: None

Submitter: Pablo Orviz

Work-in-progress

CWL + RO-Crate Workflow Descriptions

This repository stores computational workflows described using the Common Workflow Language (CWL) and enriched with metadata using Research Object Crate (RO-Crate) conforming to the Workflow Run RO-Crate profile.

Each workflow is contained in its own directory (e.g., WF5201, WF6101, ...). Inside each workflow directory you will typically find at least:

  • The CWL workflow definition (with the same name as the directory, e.g., WF5201.cwl). ...

Type: Common Workflow Language

Creators: None

Submitter: Louise Cordrie

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