Overview
This blog post provides a worked example of an end-to-end automated business intelligence solution. This blog post demonstrates how to load data from different sources, join the data together, cleanse and correct data quality issues, compute hypercubes, and design a dashboard. I then demonstrate how to deploy the solution to the autonomous agent framework for continuous execution.
Overview
This is the ninth blog post in our crash course series on Flow. In this blog post, I provide an introduction to deploying the solution developed in the previous sections to the Flow Autonomous Agent Framework.
Overview
This is the eighth blog post in our crash course series on Flow. In this blog post, I provide an introduction to HyperCube Visualizations and Multi-dimensional HyperCube Tables in the Flow Computing Framework.
Overview
This is the seventh blog post in our crash course series on Flow. In this blog post, I provide an introduction to Results, Dashboard Design, and a first look at HyperCube Reporting in the Flow Computing Framework.
Overview
This is the sixth blog post in our crash course series on Flow. In this blog post, I provide an introduction to HyperCube Computation in the Flow Computing Framework.
Overview
This is the fifth blog post in our crash course series on Flow. In this blog post, I provide an introduction to Generic Expressions in the Flow Computing Framework.
This is the fourth blog post in our crash course series on Flow. In this blog post, I provide an introduction to Basic Data Summary Functions in the Flow Computing Framework.
Overview
This is the first blog post in our crash course series on Flow. In this blog post, I provide an introduction to the Flow Computing Framework.
Overview
This is the third blog post in our crash course series on Flow. In this blog post, I provide an introduction to Working Data Point Actions in the Flow Computing Framework.
Overview
This is the second blog post in our crash course series on Flow. In this blog post, I provide an introduction to Basic Data Point Actions in the Flow Computing Framework.