Remote Approach-7: Using CyberGIS-Jupyer for water for the reproducibility of SUMMA modeling


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Resource type: Composite Resource
Storage: The size of this resource is 8.0 MB
Created: Nov 15, 2020 at 10:48 p.m.
Last updated: Nov 03, 2021 at 3:20 p.m.
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Abstract

This HydroShare resource provides the Jupyter Notebooks for the reproducibility of SUMMA modeling using CyberGIS-Jupyter for water in the manuscript of "Comparing Approaches to Achieve Reproducible Computational Modeling for Hydrological and Environmental Systems" in Environmental Modeling and Software.

To find out the instructions on how to run Jupyter Notebooks, please refer to the README file which is provided in this resource.

Subject Keywords

Deleting all keywords will set the resource sharing status to private.

Resource Level Coverage

Spatial

Coordinate System/Geographic Projection:
WGS 84 EPSG:4326
Coordinate Units:
Decimal degrees
Place/Area Name:
Aspen stand at Reynolds Mountain East catchment in southwestern Idaho
North Latitude
43.0707°
East Longitude
-116.7495°
South Latitude
43.0630°
West Longitude
-116.7592°

Content

Readme.md

How to run the Jupyter notebooks for the reproducibility of SUMMA modeling

This Readme file provides the users with the step-by-step guide to successfully run the three developed notebooks.
The steps, in the order they need to be taken, are explained in what follows.

STEP 0: Preliminary step

In this step the researchers make sure that they have access to the content files of the resource and required compute platform.
- In order to be able to run the three Jupyter notebooks, researchers need to first have a HydroShare account.
- If the researchers do not have access to CyberGIS-Jupyter for water (CJW), they need to submit an access request to CyberGIS-Jupyter for water.

  • To run this notebook:
    1. Click the OpenWith button in the upper-right corner of this HydroShare resource webpage;
    2. Select "CyberGIS-Jupyter for water";
    3. Open the notebook and follow instructions;

STEP 1: Quantitative_Performance_Test_Computational_Time_of_SUMMA_Simulation_and_Reproducibility_of_Figure_7_and_8_of_Clark_et_al_2015b_in_CyberGIS_Jupyter_for_water.ipynb' in CJW

In this step, users run the notebook for quantitative performance test of computational time and reprouduce figure 7 and 8 in Clark et al.,(2015b) through SUMMA simulation.

STEP 2: Execute 'Quantitative_Performance_Test_Computational_Time_of_SUMMA_Simulation_and_Reproducibility_of_Figure_9_of_Clark_et_al_2015b_in_CyberGIS_Jupyter_for_water.ipynb' in CJW

In this step, users run the notebook for quantitative performance test of computational time and reprouduce figure 9 in Clark et al.,(2015b) through SUMMA simulation.

References

This resource belongs to the following collections:
Title Owners Sharing Status My Permission
Comparing Approaches to Achieve Reproducible Computational Modeling for Hydrological and Environmental Systems Young-Don Choi · Binata Roy · Iman Maghami  Public &  Shareable Open Access

Credits

Funding Agencies

This resource was created using funding from the following sources:
Agency Name Award Title Award Number
National Science Foundation EarthCube Data Capabilities: Collaborative Research: Integration of Reproducibility into Community CyberInfrastructure ICER-1928369, ICER-1928315

How to Cite

Choi, Y. (2021). Remote Approach-7: Using CyberGIS-Jupyer for water for the reproducibility of SUMMA modeling, HydroShare, http://www.hydroshare.org/resource/2b1dead95a5641cea63cc0aada0abf9a

This resource is shared under the Creative Commons Attribution CC BY.

 http://creativecommons.org/licenses/by/4.0/
CC-BY

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