UK EA benchmark 2 (Water Module): Difference between revisions

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[[Image:result_case2_ukbm.gif|right|Animation of the test result for case 2, generated by the {{software}}. Map dimensions = 2,000 x 2,000 m. Grid-cell size = 5 m.]]
[[Image:result_case2_ukbm.gif|left|Animation of the test result for case 2, generated by the {{software}}. Map dimensions = 2,000 x 2,000 m. Grid-cell size = 5 m.]]
This page reports on the performance of the {{software}}'s [[Water Module]] by means of the UK EA Benchmark '''Test 2 – Filling of Floodplain Depressions'''.__NOTOC__
This page reports on the performance of the {{software}}'s [[Water Module]] by means of the UK EA Benchmark '''Test 2 – Filling of Floodplain Depressions'''.__NOTOC__


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==Description==
==Description==
[[File:dem_case2_ukbm.png|right|thumb|400px|Fig. (a): Map of the DEM showing the location of the upstream boundary condition (red line), ground elevation contour lines every 0.05 m and output point locations (crosses).]]
[[File:dem_case2_ukbm.png|left|thumb|400px|Fig. (a): Map of the DEM showing the location of the upstream boundary condition (red line), ground elevation contour lines every 0.05 m and output point locations (crosses).]]


The area modelled, shown in Fig. (a), is a perfect 2,000 m x 2,000 m square and consists of a 4 x 4 matrix of ~0.5-m deep depressions with smooth topographic transitions. The DEM (digital elevation model) was obtained by multiplying sinusoids in the north to south and west to east directions, and the resulting depressions are all identical in shape. An underlying average slope of 1:1,500 exists in the north to south direction, and of 1:3,000 in the west to east direction, with a ~2-m drop in elevation along the north-west to south-east diagonal.<ref name="Néelz"/>
The area modelled, shown in Fig. (a), is a perfect 2,000 m x 2,000 m square and consists of a 4 x 4 matrix of ~0.5-m deep depressions with smooth topographic transitions. The DEM (digital elevation model) was obtained by multiplying sinusoids in the north to south and west to east directions, and the resulting depressions are all identical in shape. An underlying average slope of 1:1,500 exists in the north to south direction, and of 1:3,000 in the west to east direction, with a ~2-m drop in elevation along the north-west to south-east diagonal.<ref name="Néelz"/>

Revision as of 09:49, 14 June 2019

Animation of the test result for case 2, generated by the Tygron Platform. Map dimensions = 2,000 x 2,000 m. Grid-cell size = 5 m.

This page reports on the performance of the Tygron Platform's Water Module by means of the UK EA Benchmark Test 2 – Filling of Floodplain Depressions.

The test has been designed to evaluate the capability of a package to determine inundation extent and final flood depth, in a case involving low momentum flow over a complex topography.[1]

A copy of this test project is made available to everyone, providing hands-on insights to those interested. The project can be found on the LTS server under the name UK Benchmark 2.


Description

Fig. (a): Map of the DEM showing the location of the upstream boundary condition (red line), ground elevation contour lines every 0.05 m and output point locations (crosses).

The area modelled, shown in Fig. (a), is a perfect 2,000 m x 2,000 m square and consists of a 4 x 4 matrix of ~0.5-m deep depressions with smooth topographic transitions. The DEM (digital elevation model) was obtained by multiplying sinusoids in the north to south and west to east directions, and the resulting depressions are all identical in shape. An underlying average slope of 1:1,500 exists in the north to south direction, and of 1:3,000 in the west to east direction, with a ~2-m drop in elevation along the north-west to south-east diagonal.[1]

The inflow boundary condition was applied along a 100-m line running south from the northwestern corner of the modelled domain, indicated by a red line in Fig. (a). A flooding with a peak flow of 20 m3/s and time base of ~85 minutes was implemented according the hydrograph in Fig. (b). The model was run for 2 days (48 hours) to allow the inundation to settle to its final state.[1]

Fig. (b): Inflow hydrograph, which functioned as upstream boundary condition


Initial and boundary conditions

  • Initial condition: dry bed
  • Inflow along the red line in Fig. (a)
  • All other boundaries are closed

Parameter values

  • Manning’s n: 0.03 (uniform)
  • Model grid resolution (m): 20 m (or ~10,000 nodes in the area modelled)
  • Simulated time (h): 48

Technical setup

The required DEM is provided as an ASCII file (test2DEM.asc). As its cell size is 2 m, whereas the test is expected to be run on a 20-m grid, it will be automatically rescaled by the grid rasterizer. The dimensions of the test area must be 2,000 by 2,000 m. The original DEM had an offset of -200 m, which was cropped down to -20 m (= 1 grid cell) so it could function as border cell. The rescaled and cropped ASCII file will shortly be provided as part of a .zip found at the bottom of this page.

  • Original 2-m heightmap (2,400 m x 2,400 m)
  • Cropped and rescaled to 20-m grid (2,040 m x 2,040 m). The black perimeter designates the border cells.
  • Inlet series in the upper left corner.

In order to regulate the water level according to the water-level graph, the following setup was used: Inlet objects were placed on single grid cells with a constant value for x = 1 and y varying from 1 to 5, yielding a total of 5 points. The inlets were configured as follows:

  • External area (m2): 1,000,000,000 (default)
  • Water level (m): 1 (default)
  • Threshold (m): none (default)
  • Inlet Q (m3/s) : 20 in total, thus 4 per inlet
Hydrograph for each individual inlet.


Output as required

Stats

Test results

Point graph measurements from the Tygron Platform (left) and other packages (right):

  • Graph p1 case2 ukbm.png
  • Graph others p1 case2 ukbm.png
  • Graph p2 case2 ukbm.png
  • Graph others p2 case2 ukbm.png
  • Graph p3 case2 ukbm.png
  • Graph others p3 case2 ukbm.png
  • Graph p4 case2 ukbm.png
  • Graph others p4 case2 ukbm.png
  • Graph p5 case2 ukbm.png
  • Graph others p5 case2 ukbm.png
  • Graph p6 case2 ukbm.png
  • Graph others p6 case2 ukbm.png
  • Graph p7 case2 ukbm.png
  • Graph others p7 case2 ukbm.png
  • Graph p8 case2 ukbm.png
  • Graph others p8 case2 ukbm.png
  • Graph p9 case2 ukbm.png
  • Graph others p9 case2 ukbm.png
  • Graph p10 case2 ukbm.png
  • Graph others p10 case2 ukbm.png
  • Graph p11 case2 ukbm.png
  • Graph others p11 case2 ukbm.png
  • Graph p12 case2 ukbm.png
  • Graph others p12 case2 ukbm.png
  • Graph p13 case2 ukbm.png
  • Graph others p13 p16 case2 ukbm.png
  • Graph p14 case2 ukbm.png
  • Graph others p13 p16 case2 ukbm.png
  • Graph p15 case2 ukbm.png
  • Graph others p13 p16 case2 ukbm.png
  • Graph p16 case2 ukbm.png
  • Graph others p13 p16 case2 ukbm.png

Last frame

  • Last frame case2 ukbm.png
  • Last frame others case2 ukbm.png
  • Final timeframe of water levels as generated by the Tygron Platform (left) and by the other packages (right).

Notes

  • Tests were run with a multi-GPU setup. For small cases like this, using single GPU actually leads to faster results. Furthermore, requesting a high number of 576 timeframes further bogs it down. In comparison: 1 GPU with 1 resulting timeframe runs in: 8 s, which is +- 53% faster compared to 2 GPUs with 576 timeframes.

Public test project

A copy of this test project is made available to everyone, providing hands-on insights to those interested. The project can be found on the LTS server under the name UK Benchmark 2. In this project the discussed benchmark test is reproduced, based on the cropped version of the initial map (i.e., 2,040 m x 2,040 m). These special map dimensions are generally not selectable in the Wizard and require configuration through the API.

The locations of the measurement points are:
Point ID X Y
1 275 -1,780
2 275 -1,290
3 275 -790
4 275 -290
5 775 -1,780
6 775 -1,290
7 775 -790
8 775 -290
Point ID X Y
9 1,275 -1,780
10 1,275 -1,290
11 1,255 -790
12 1,275 -290
13 1,775 -1,780
14 1,775 -1,290
15 1,775 -790
16 1,775 -290

Note that the coordinate system in this project differs from the one used during the actual benchmark testing as shown in Fig. (b). For the above listed points the center (0,0) is located at the top-left corner instead of the bottom-left, hence will the bottom-right corner have coordinates (2,000;-2,000).

References

  1. 1.0 1.1 1.2 Néelz, S., & Pender, G. (2013). Benchmarking the latest generation of 2D hydraulic modelling packages. Report: SC120002. Environment Agency, Horison House, Deanery Road, Bristol, BS1 9AH. ISBN: 978-1-84911-306-9. Retrieved from: https://www.gov.uk/government/publications/benchmarking-the-latest-generation-of-2d-hydraulicflood-modelling-packages