Create your first IBM Streams app without writing code

This tutorial is part of the Learning path: Get started with IBM Streams.

Level Topic Type
100 Introduction to IBM Streams Article
101 Create your first IBM Streams app without writing code Tutorial
201 Ingest data from Apache Kafka Code pattern
301 Build a streaming app using a Python API Code pattern
401 Score streaming data with a machine learning model Code pattern


The goal of this tutorial is to teach you how to build and demonstrate a streaming application. Streaming apps start with a data source, do some data processing (such as filtering and aggregation), and send the results to a target. In this tutorial, we’ll build a streaming app with IBM Streams Flows. With IBM Streams Flows on IBM Cloud Pak® for Data, you can build streaming applications in a simple-to-use user interface without writing any code. It’s a great first step to get a feel for streaming applications in an intuitive and visual user interface, before you move on to more advanced scenarios where you would be more likely to write code for some of the processing.


For an overview of IBM Streams, we recommend you start with the Introduction to IBM Streams.

To complete this tutorial, you will need access to IBM Cloud Pak for Data and an instance of IBM Streams.

Estimated time

It should take you approximately 30 minutes to complete this tutorial.


  1. Verify access to your IBM Streams instance on IBM Cloud Pak for Data.
  2. Create a new project in IBM Cloud Pak for Data.
  3. Try the example IBM Streams flow with clickstream data.
  4. Rebuild the application from scratch.
  5. Add an aggregation operator.

Step 1. Verify access to your IBM Streams instance on IBM Cloud Pak for Data

Once you log in to your IBM Cloud Pak for Data instance, ensure that your admin has provisioned an instance of IBM Streams and has given your user access to the instance.

To see the available services, click on the services icon and search for Streams. You should see an Enabled indicator.

Catalog IBM Streams

To see your provisioned instances, click on the hamburger (☰) menu icon in the top-left corner of your screen and click My Instances.

IBM Streams instance

Step 2. Create a new project in IBM Cloud Pak for Data

In IBM Cloud Pak for Data, we use the concept of a project to collect and organize resources used to achieve a particular goal (resources to build a solution to a problem). Your project resources can include data, collaborators, and analytic assets like notebooks, models, IBM Streams Flows, etc.

Click on the hamburger (☰) menu in the top-left corner of your screen, then click Projects > New project +, create an empty project, and enter a unique name for your project, then click Create.

Create project

Step 3. Try the example IBM Streams flow with clickstream data

This example application will ingest clickstream data and filter out events by type. The clickstream data is generated by the Sample Data source operator. A Filter operator is used to keep only the “add_to_cart” events (discarding the other event data). Finally, a Debug target operator is used to help demonstrate the results. When you run the application, you’ll be able to watch the data before and after the filter to see that it is working.

  1. Click Add to project +. Add to project

  2. Select asset type Streams flow. Asset type flow

  3. Click the From example tab, provide a name, select your Streams instance, select the Clickstream Example card, and click Create. New example

  4. Once created, you’ll see an application consisting of three operators connected by two streams. Flow example

  5. Hover over the button bar to see what actions are available. You should see buttons to:

    • Start the IBM Streams flow.
    • Stop the flow (disabled because the flow is already stopped)
    • Make a copy of the flow in this project.
    • Export a copy of the flow to a file.
    • Delete the flow.
    • Edit the flow.
    • Manage IBM Streams.
    • Show notifications.
    • View all flows.
  6. Press the Play button to build and run your example flow.

  7. Once the flow is running, click on the parts of the flow to see more information. Notice the animation shows a stream from the Sample Data to Filter and from Filter to Debug. There is much less data in the second stream because the filter is only keeping “add_to_cart” events. Depending on what you select, the tables on the right will give you a view of the data as it streams. Flow running

    Note: Using Debug as the final node is good for visual testing like this. Once the flow is working as desired, the Debug node would be replaced with a different target such as a database, a file, or a Kafka broker.

  8. Click the Stop button to stop the streaming application.

Congratulations! You ran your first streaming application.

Step 4. Rebuild the application from scratch

Next, instead of using the example, we’ll build it from scratch. This will still be a simple exercise — we’ll leverage the sample data source and debug target operators — but it will give you a good tour of the editor and show you some additional capabilities. Here’s what to do:

  1. Go back to your project.
  2. Click Add to project +.
  3. Select asset type Streams flow.
  4. Click the Blank tab, provide a Name, select your Streams instance, select the Manually card, and click Create.

Create blank flow

When you create a blank IBM Streams flow, it takes you into the editor. This looks a little different from the example we used earlier. Remember, we could have clicked on the pencil icon to edit the example.

Notice the sidebar has pulldowns for Sources, Targets, Processing and Analytics, Alerts, Connections, and WML Deployments.

Blank flow

  1. Expand Sources.
  2. Drag and drop Sample Data onto the canvas.
  3. Expand Processing and Analytics.
  4. Drag and drop Filter onto the canvas. Each operator will have a red dot to indicate errors. You can hover over each red dot to see what the operator is missing. You can also use the notifications icon in the upper-right corner. Notifications

Let’s fill in the missing settings and then we’ll connect them:

  1. Click on Sample Data.
  2. In the right sidebar and in Topic, pull down to select Clickstream. Notice you can edit or rearrange the Output Schema here, but we don’t need to do that now. Flow running

  3. Click on your Filter operator.

  4. In the right sidebar, change the Conditional Expression from True to click_event_type == "add_to_cart". Filter

You should have three errors remaining:

  • Sample Data needs an output stream.
  • Filter needs an input stream and an output stream.
  • Debug needs an input stream.

To connect them, drag and drop from the small circle on an output tab to the small circle on an input tab like the following image shows.


Now you should have resolved all the errors. Next:

  1. Use Save to save your IBM Streams flow.
  2. Use Play to build and run it.
  3. Click on the streams to see a preview of the data in motion.
  4. You should see the same working streaming application that we tried earlier when we used the provided example.
  5. Use the Stop button to stop the application.

Tip: When you click on each operator, the sidebar gives you the ability to edit the display name.

Step 5. Add an aggregation operator

Let’s try adding an aggregation operator to the example. To demonstrate an Aggregation operator, we’ll use a 30 second sliding window and keep track of the total product price added to carts by each customer in the sliding window. Instead of outputing all the add-to-cart events, we’ll only output the customer ID and the total price.

  1. Hover over your Debug operator and use the vertical three-dot menu to Disconnect the operator. Disconnect

  2. Drag and drop an Aggregation operator from under Processing and Analytics onto the canvas in between the Filter and Debug operators. Note: You can drag your existing operators to arrange them on the canvas and make room for the new one.

  3. Drag and drop to connect the output of the Filter to the input of Aggregation and the output of Aggregation to the input of the Debug operator.

  4. Click on the Aggregation operator to fill in the missing information in the sidebar. You must select an AGGREGATION WINDOW. For our example, try sliding. You can click on the information icon next to Type to get a description of the tumbling window and sliding-window options:

    • For Time Unit, select second.
    • Set Number of Time Units to 30.
    • Under Partition By use the Select Attribute… pull-down to select customer_id.

    • Under Group By use the Select Attribute… pull-down to select customer_id. Aggregation window
  6. Under Functions:

    • Set Output Field Name to customer_id.
    • Set Function Type to PassThrough.
    • For Apply Function to, select the attribute customer_id.
    • Click the Add Function + button to get a second Enter Function Details.
    • Set Output Field Name to sum_product_price.
    • Set Function Type to Sum.
    • For Apply Function to, select the attribute product_price. Aggregation functions
  7. Expand SCHEMA and look at the Output Schema. The output will now include customer_id and sum_product_price that result from our aggregation of the data in this sliding window.

  8. Save and run your new streaming application with filtering and aggregation. Results

  9. Remember to press the Stop button to stop the application.

Next steps

With this simple example — without writing any code — we’ve demonstrated a lot of what you can do with a streaming application. Now you can explore the UI to discover what additional operators you might like to try. You might also want to take a look at copying, exporting, and importing your application while you have a handy example to play with.

This tutorial is part of the Learning path: Get started with IBM Streams. To continue the series and learn more about IBM Streams, take a look at the next part of the series: a code pattern, Ingest data from Apache Kafka. As you continue with this learning path, we’ll show you how to use machine learning models for mid-stream AI, and add operators that include Python code. We’ll even use the Python API to run a streaming application from a Jupyter Notebook.