MACHINE LEARNING

Building Machine Learning Models with DensityFunction

We recently released the Splunk Machine Learning Toolkit (MLTK) version 5.2 and earlier this month we outlined how the release of version 5.2 will make machine learning more accessible to more users. Splunk’s MLTK lets our customers apply machine learning to data they are already capturing in Splunk (in the cloud or on-premises), develop models, and operationalize algorithms to glean new insights and make more informed decisions. This version of the MLTK was purpose-built to help citizen data scientists hone in on common use cases such as forecasting, anomaly detection, and clustering. However, we recognize there are many users with a deeper background in ML, so we have also incorporated some new, advanced capabilities in this release to suit their needs as well. 

MLTK 5.2 provides more precise algorithms than “off the shelf” algorithms, which are unable to consume and process large volumes of data. Additionally, unlike open source algorithms, the MLTK bespoke algorithms are able to provide better results with partial datasets. This enables our customers to achieve more effective answers as they go about creating references, predicting data clusters, and detecting outliers.

Based on feedback from our customers and their use cases, MLTK 5.2 includes both new and enhanced algorithms to utilize for quick analysis of outliers. While there are many different ways to approach anomaly detection, the easiest starter algorithm for most customers using MLTK is DensityFunction. 

MLTK 5.2 introduces two improvements to the DensityFunction algorithm: 

  1. The ability to use the partial_fit parameter for incremental learning on large datasets
  2. Support of the data distribution of Beta which is a distribution that supports five different data shapes
     

These enhancements will help our users find and take action on the root cause of an issue more quickly.

We commonly hear from customers that they struggle to improve the performance of models when they have a large number of groups that need to be split. The DensityFunction algorithm is a great tool for developing outlier detection models and can help customers think critically about their data. While one could simply run DensityFunction such as:

         | fit DensityFunction logins INTO myPdfModelGlobal 
                AS IsOutlierGlobal

 … | fit DensityFunction logins by “HourOfDay,DayOfWeek” 
                INTO myPdfModelHourly AS IsOutlierHourly

      | fit DensityFunction logins by “weekday” INTO myPdfModelWeekday 
                AS IsOutlierWeekday

      | fit DensityFunction logins by “account_type” INTO myPdfModelAccountType
                AS IsOutlierAccountType

        | fit DensityFunction logins by “user_group” INTO myPdfModelUserGroup 
                AS IsOutlierUserGroup

The above example is taking a single indicator of logins and pivoting it four different ways:

  • Is it an outlier based on the hour of day/day of week (e.g. 9am on Tuesdays)?
  • Is it an outlier based on if it’s a weekday vs weekend? (e.g. Mon is different from Sat)
  • Is it an outlier based on if it’s a user account versus service account?
  • Is it an outlier based on the user group?
     

With these different splits, we now have more context around why certain values could be considered outliers, potentially detecting if we have a true anomaly. Similarly, some customers may be monitoring a very large number of servers, possibly in the thousands, in which case the algorithm could be used to split by server/user.

The Splunk Machine Learning Toolkit delivers the capability to operationalize machine learning models on your data in Splunk and the DensityFunction algorithm can be a simple starting point for users to harness the power of machine learning. In fact, customers have already started successfully using this approach in production with great results.

Download MLTK today to try the DensityFunction and start using machine learning to guide your investigations and discover hidden meaningful patterns in your data.


This blog post was co-authored by Mohan Rajagopalan and Pinar Kavak.

Mohan Rajagopalan
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Mohan Rajagopalan

Mohan combines a deeply technical background with a passion to bring new tech to market. Before joining Splunk, he started and led two companies in the big data analytics and data science spaces — one bridging the gap between data stores and visualization, and another looking to bring AI into the enterprise data stack. Mohan started his career at Intel research, followed by a brief stint in McKinsey & Co. He is the recipient of 2005 IEEE/IFIP Dissertation award for his work on compiler techniques to enhance performance and security in distributed systems. In his spare time, Mohan likes to read, bike, and explore neighborhoods in San Francisco.

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