MyAnalysis

This resource demonstrates the steps to package the workflow analysis using the Sciunit tool. These steps are 1.) create a new sciunit “MyAnalysis.” This will create a virtual directory, which will include the captured execution of the computational workflow with all the dependencies and provenance metadata associated with it; 2.) open the “MyAnalysis” sciunit to begin working in the desired sciunit; 3) execute the code required to be packaged as a virtual environment in order to repeat the analysis; 4.) place the packaged sciunit on HydroShare as a digital resource, and 5.) test the runnability of the package by executing the sciunit on the CUAHSI HydroShare JupyterHub app linked to HydroShare and configured to open and execute scripts acting on content from Resources in HydroShare (Note: To run a sciunit again requires the Sciunit tool, which is installed on CUAHSI HydroShare JupyterHub). This resource contains the sciunit package for reproducing The total ET for the Ball Berry and Jarvis stomatal resistance methods from Clark et al., 2015:

本资源展示了使用 Sciunit 工具对工作流程分析进行打包的步骤。具体步骤如下： 1.) 创建一个新的 sciunit “MyAnalysis”。这将创建一个虚拟目录，其中包含与计算工作流程相关的所有依赖项及溯源元数据； 2.) 打开 “MyAnalysis” sciunit，以便在期望的 sciunit 中开始工作； 3) 在虚拟环境中执行所需的代码，以重复分析； 4.) 将打包的 sciunit 上传至 HydroShare 作为数字资源； 5.) 通过在链接至 HydroShare 并配置为打开和执行作用于 HydroShare 资源内容的脚本的 CUAHSI HydroShare JupyterHub 应用程序上执行 sciunit，以测试打包的可执行性（注意：再次运行 sciunit 需要 Sciunit 工具，该工具已安装于 CUAHSI HydroShare JupyterHub）。 本资源包含用于重现 Clark 等人于 2015 年提出的 Ball Berry 和 Jarvis 气孔阻力方法的总蒸发量（ET）的 sciunit 打包包。