diff --git a/viplab-standalone-frontend-vue/src/input/case1.computation-template.json b/viplab-standalone-frontend-vue/src/input/case1.computation-template.json index ab13674..92d55a1 100644 --- a/viplab-standalone-frontend-vue/src/input/case1.computation-template.json +++ b/viplab-standalone-frontend-vue/src/input/case1.computation-template.json @@ -3,27 +3,28 @@ "version": "3.0.0", "metadata": { "displayName": "Fracture Benchmark (Case 1): Single Fracture", - "description": "In this application, flow and transport through a single fracture in a cubic domain can be simulated with the numerical schemes available in Dumux, which comprise two cell-centered (tpfa, mpfa) and a vertex-centered finite volume scheme (box). Further details can be found in the related publication doi.org/10.1016/j.advwatres.2020.103759 .", + "description": "Simulate flow and transport in a cubic domain with a single fracture. A detailed case setup can be found in doi.org/10.48550/arXiv.1809.06926, Section 4.1.", "output": { "viewer": [ "CSV", "ParaView" ], - "ignore": ["results.csv"], + "ignore": { + "visualization": ["results.csv", "dot_refinement*.csv"], + "download": ["dataovertime*.csv"] + }, "csv": [ { "basename": "dataovertime", "xlabel": { "key": "time", "label": "Time in years", - "factor": 3.1709792E-8, - "format": ".2f" + "factor": 3.1709792E-8 }, "plots": [ { "key": "massBottomLayer", - "label": "Tracer mass in bottom layer in kg", - "factor": 100 + "label": "Tracer mass in bottom layer in kg" }, { "key": "massFracture", @@ -31,9 +32,8 @@ }, { "key": "fluxAcrossOutlet", - "label": "Flux across outlet in mg/(s m^2)", - "factor": 1E6, - "format": ".2f" + "label": "Flux across outlet in kg/(s m²)", + "format": "~e" } ] } @@ -61,14 +61,14 @@ "path": "params.input", "metadata": { "syntaxHighlighting": "ini", - "description": "params.input is the main configuration file for DuMux" + "description": "params.input is the main configuration file for DuMuX" }, "parts": [ { "identifier": "f3fc4404-3529-4962-b252-47bc4ddd02a2", "access": "template", "metadata": { - "description": "Use the form fields to adjust a subset of parameters defined in 'params.input' of DuMux" + "description": "Use the form fields to adjust a subset of parameters defined in 'params.input' of DuMuX. **Note**, computations with the Fine grid take ~1.5h (TPFA_CIRC), ~3.5h (TPFA) and ~19h (MPFA-O & BOX) to finish." }, "parameters": [ { @@ -77,7 +77,7 @@ "metadata": { "guiType": "dropdown", "name": "Discretization Method", - "description": "Choose the discretization method. You can choose between three different finite volume (FV) methods implemented in DuMux." + "description": "Choose the discretization method. You can choose between four different finite volume (FV) methods implemented in DuMuX." }, "options": [ { @@ -85,6 +85,10 @@ "text": "TPFA (Cell Centered FV Scheme with Two-Point Flux Approximation)", "selected": true }, + { + "value": "", + "text": "TPFA-CIRC (TFPA using Cell Circumcenters Instead of Barycenters)" + }, { "value": "mpfa", "text": "MPFA-O (Cell-Centered FV Scheme with Multi-Point Flux Approximation)" @@ -119,7 +123,7 @@ }, { "mode": "fixed", - "identifier": "MeshFile", + "identifier": "NumCells", "metadata": { "guiType": "dropdown", "name": "Computational Grid", @@ -127,31 +131,31 @@ }, "options": [ { - "value": "single_1k.msh", + "value": "1k", "text": "Coarse (1k Cells)", "selected": true }, { - "value": "single_10k.msh", + "value": "10k", "text": "Intermediate (10k Cells)" }, { - "value": "single_100k.msh", + "value": "100k", "text": "Fine (100k Cells)" } ], "validation": "oneof" } ], - "content": "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" + "content": "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" } ] } ], "configuration": { - "resources.image": "name://berre2020", + "resources.image": "name://darus-berre2020", "resources.volume": "/data/shared", - "resources.memory": "4g", + "resources.memory": "6g", "resources.numCPUs": 1, "running.commandLineArguments": "case1 params.input", "running.entrypoint": "/data/berre2020/docker/run.sh",