EarthCube2020: An Approach for Open and Reproducible Environmental Modeling

This is a HydroShare resource to demonstrate an approach for open and reproducible Environmental Environmental Modeling during EarthCube2020 meeting (https://www.earthcube.org/EC2020). You can start a Jupyter notebook ("First_NB_An_Approach_for_Open_Reproducible_Environmental_Modeling.ipynb") using "CyberGIS-Jupyter for water" on "Open with ..." Button. Through the 1st notebook demonstration, you can experience open and reproducible environmental modeling using three main components which are online repository (HydroShare), computational environment (CyberGIS-Jupyter for water), and model API(pySUMMA). Also, you will create a Sciunit container to encapsulate every dependency for SUMMA execution in CybeGIS-Jupyter into the Sciunit container. Then you can move to the 2nd notebook (Second_NB_An_Approach_for_Open_Reproducible_Environmental_Modeling.ipynb) to evaluate reproducibility and replicability of the SUMMA Sciunit container in different cyberinfrastructure (CUAHSI JupyterHub).

此为HydroShare资源，旨在展示在EarthCube2020会议（https://www.earthcube.org/EC2020）期间进行开放且可复现环境建模的方法。您可通过点击“打开”按钮，使用“CyberGIS-Jupyter for water”启动Jupyter笔记本（“First_NB_An_Approach_for_Open_Reproducible_Environmental_Modeling.ipynb”）。通过该笔记本的首次演示，您将体验到利用三个主要组件进行开放且可复现的环境建模：在线存储库（HydroShare）、计算环境（“CyberGIS-Jupyter for water”）以及模型API（pySUMMA）。此外，您还将创建一个Sciunit容器，将SUMMA在CybeGIS-Jupyter中的执行所需的所有依赖封装入Sciunit容器中。随后，您可进入第二个笔记本（“Second_NB_An_Approach_for_Open_Reproducible_Environmental_Modeling.ipynb”），以评估SUMMA Sciunit容器在不同网络基础设施（CUAHSI JupyterHub）中的可复现性和可重复性。