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Mastering Performance Tuning with DAX Studio and VertiPaq Analyzer

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This article is an excerpt from the book, "Microsoft Power BI Performance Best Practices - Second Edition", by Thomas LeBlanc, Bhavik Merchant. Overcome common challenges in data management, visualization, and security with this updated edition of Microsoft Power BI Performance Best Practices, and ramp-up your Power BI solutions, achieve faster insights, and drive better business outcomes.

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Introduction

Optimizing performance and storage in Power BI and Analysis Services can be a complex task. However, tools like DAX Studio and VertiPaq Analyzer simplify this process by providing insightful metrics and performance-tuning capabilities. This article explores how to leverage these tools to analyze semantic models, identify performance bottlenecks, and optimize DAX queries. We'll discuss key features such as viewing model metrics, capturing and analyzing query traces, and testing optimizations using DAX Studio's query editor.

Tuning with DAX Studio and VertiPaq Analyser

DAX Studio, as the name implies, is a tool centered on DAX queries. It provides a simple yet intuitive interface with powerful features to browse and query Analysis Services semantic models. We will cover querying later in this section. For now, let’s look deeper into semantic models.

The Analysis Services engine has supported dynamic management views (DMVs) for over a decade. These views refer to SQL-like queries that can be executed on Analysis Services to return information about semantic model objects and operations.

VertiPaq Analyzer is a utility that uses publicly documented DMVs to display essential information about which structures exist inside the semantic model and how much space they occupy. It started life as a standalone utility, published as a Power Pivot for an Excel workbook, and still exists in that form today. In this chapter, we will refer to its more recent incarnation as a built-in feature of DAX Studio 3.0.11.

It is interesting to note that VertiPaq is the original name given to the compressed column store engine within Analysis Services (Verti referring to columns and Paq referring to compression).

Analyzing model size with VertiPaq Analyzer

VertiPaq Analyzer is built into DAX Studio as the View Metrics features, found in the Advanced tab of the toolbar. You simply click the icon to have DAX Studio run the DMVs for you and display statistics in a tabular form. This is shown in the following figure:

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Figure 6.8 – Using View Metrics to generate VertiPaq Analyzer stats

You can switch to the Summary tab of the VertiPaq Analyzer pane to get an idea of the overall total size of the model along with other summary statistics, as shown in the following figure:

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Figure 6.9 – Summary tab of VertiPaq Analyzer

The Total Size metric provided in the previous figure will often be larger than the size of the semantic model on disk (as a .pbix file or Analysis Services .abf backup). This is because there are additional structures required when the model is loaded into memory, which is particularly true of Import mode semantic models.

In Chapter 2, Exploring Power BI Architecture and Configuration, we learned about Power BI’s compressed column storage engine. The DMV statistics provided by VertiPaq Analyzer let us see just how compressible columns are and how much space they are taking up. It also allows us to observe other objects, such as relationships.

The Columns tab is a great way to see whether you have any columns that are very large relative to others or the entire dataset. The following figure shows the columns view for the same model we saw in Figure 6.9. You can see how from 238 columns, a single column called SalesOrderNumber takes up a staggering 22.40% of the whole model size! It’s interesting to see its Cardinality (or uniqueness) value is about twelve times lower than the next largest column (SalesKey):

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|Figure 6.10 – Two columns monopolizing the semantic model

In Figure 6.10, we can also see that Data Type is String for Online Sale-SalesOrderNumber, which was a column suggested by Tabular Editor to have a large dictionary footprint. These statistics would lead you to deduce that this column contains long, unique test values that do not compress well because there is a large cardinality. Indeed, in this case, the column contains a sales order number that is unique to each order plus is not used to group or slice analytical data in a Power BI report well.

This analysis may lead you to re-evaluate the need for this level of reporting in the analysis of sales data. You’d need to ask yourself whether the extra storage space and time taken to build compressed columns and potentially other structures is worth it for your business case. In cases of highly detailed data such as this where you do not need detail-level sales order data, consider limiting the analysis to customer-related data such as demographics or date attributes such as year and month.

Now, let’s learn about how DAX Studio can help us with performance analysis and improvement.

Performance tuning the data model and DAX

The first-party option for capturing Analysis Services traces is SQL Server Profiler. When starting a trace, you must identify exactly which events to capture, which requires some knowledge of the trace events and what they contain. Even with this knowledge, working with the trace data in Profi ler can be tough since the tool was designed primarily to work with SQL Server application traces. The good news is that DAX Studio can start an Analysis Services server trace and then parse and format all the data to show you relevant results in a well-presented way within its user interface. It allows us to both tune and measure queries in a single place and provides features for Analysis Services that make it a good alternative SQL profiler for tuning semantic models.

Capturing and replaying queries

This All Queries command in the Traces section of the DAX Studio toolbar will start a trace against the semantic model you have connected to. Figure 6.11 shows the result when a trace is successfully started:

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Figure 6.11 – Query trace successfully started in DAX Studio

Once your trace has started, you can interact with the semantic model outside DAX Studio, and it will capture queries for you. How you interact with the semantic model depends on where it is. For a semantic model running on your computer in Power BI Desktop, you would simply interact with the report. This would generate queries that DAX Studio will see. The All Queries tab at the bottom of the tool is where the captured queries are listed in time order with durations in milliseconds. The following figure shows two queries captured when opening the Unique by Account No page from the Slow vs Fast Measures.pbix sample file:

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Figure 6.12 – Queries captured by DAX Studio

The preceding queries come from a screen that has the same table results in a visual, but two different DAX measures that calculate the aggregation. These measures make one table come back in less than a second while the other returns in about 17 seconds. The following figure shows the page in the report:

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Figure 6.13 – Tables with the same results but from using different measures

The following screenshot shows the results of the Performance Analyzer for the tables previously.

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Observe how one query took over 17 seconds, whereas the other took under 1 second:

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Figure 6.14 – Vastly different query durations for the same visual result

In Figure 6.12, the second query was double-clicked to bring the DAX text to the editor. You can modify this query in DAX Studio to test performance changes. We see here that the DAX expression for the UniqueRedProducts_Slow measure was not efficient. We’ll learn a technique to optimize queries soon, but first, we need to learn about capturing query performance traces.

Obtaining query timings

To get detailed query performance information, you can use the Server Timings command shown in Figure 6.11. After starting the trace, you can run queries and then use the Server Timings tab to see how the engine executed the query, as shown in the following figure:

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Figure 6.15 – Server Timings showing detailed query performance statistics

Figure 6.15 gives very useful information. FE and SE refer to the formula engine and storage engine. The storage engine is fast and multi-threaded, and its job is fetching data. It can apply basic logic such as filtering data to retrieve only what is needed. The formula engine is single-threaded, and it generates a query plan, which is the physical steps required to compute the result. It also performs calculations on the data such as joins, complex filters, aggregations, and lookups. We want to avoid queries that spend most of the time in the formula engine, or that execute many queries in the storage engine. The bottom-left section of Figure 6.15 shows that we executed almost 4,900 SE queries. The list of queries to the right shows many queries returning only one result, which is suspicious.

For comparison, we look at timing for the fastest version of the query and we see the following:

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Figure 6.16 – Server Timings for a fast version of the query

In Figure 6.16, we can see that only three server engine queries were run this time, and the result was obtained much faster (milliseconds compared to seconds).

The faster DAX measure was as follows:

UniqueRedProducts_Fast =
CALCULATE(
   DISTINCTCOUNT('SalesOrderDetail'[ProductID]),
   'Product'[Color] = "Red"
)

The slower DAX measure was as follows:

UniqueRedProducts_Slow =
CALCULATE(
   DISTINCTCOUNT('SalesOrderDetail'[ProductID]),
   FILTER('SalesOrderDetail', RELATED('Product'[Color]) = "Red"))

Tip

The Analysis Services engine does use data caches to speed up queries. These caches contain uncompressed query results that can be reused later to save time fetching and decompressing data. You should use the Clear Cache button in DAX Studio to force these caches to be cleared and get a proper worst-case performance measure. This is visible in the menu bar in Figure 6.11.

We will build on these concepts when we look at DAX and model optimizations in later chapters. Now, let’s look at how we can experiment with DAX and query changes in DAX Studio.

Modifying and tuning queries

Earlier in this section, we saw how we could capture a query generated by a Power BI visual and then display its text. A nice trick we can use here is to use query-scoped measures to override the measure definition and see how performance differs.

The following figure shows how we can search for a measure, right-click, and then pull its definition into the query editor of DAX Studio:

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Figure 6.17 – The Define Measure option and result in the Query pane

We can now modify the measure in the query editor, and the engine will use the local definition instead of the one defined in the model! This technique gives you a fast way to prototype DAX enhancements without having to edit them in Power BI and refresh visuals over many iterations.

Remember that this technique does not apply any changes to the dataset you are connected to. You can optimize expressions in DAX Studio, then transfer the definition to Power BI Desktop/Visual Studio when ready. The following figure shows how we changed the definition of UniqueRedProducts_ Slow in a query-scoped measure to get a huge performance boast:

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Figure 6.18 – Modified measure giving better results

The technique described here can be adapted to model changes too. For example, if you wanted to determine the impact of changing a relationship type, you could run the same queries in DAX Studio before and after the change to draw a comparison.

Here are some additional tips for working with DAX Studio:

  • Isolate measure: When performance tuning a query generated by a report visual, comment out complex measures and then establish a baseline performance score. Th en, add each measure back to the query individually and check the speed. This will help identify the slowest measures in the query and visual context.
  • Work with Desktop Performance Analyzer traces: DAX Studio has a facility to import the trace files generated by Desktop Performance Analyzer. You can import trace files using the Load Perf Data button located next to All Queries highlighted in Figure 6.12. This trace can be captured by one person and then shared with a DAX/modeling expert who can use DAX Studio to analyze and replay their behavior. The following figure shows how DAX Studio formats the data to make it easy to see which visual component is taking the most time. It was generated by viewing each of the three report pages in the Slow vs Fast Measures.pbix sample file:

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Figure 6.19 – Performance Analyzer trace shows the slowest visual in the report

  • Export/import model metrics: DAX Studio has a facility to export or import the VertiPaq model metadata using .vpax files. These files do not contain any of your data. They contain table names, column names, and measure definitions. If you are not concerned with sharing these definitions, you can provide .vpax files to others if you need assistance with model optimization

Conclusion

DAX Studio and VertiPaq Analyzer are indispensable tools for anyone working with Power BI or Analysis Services models. From detailed model size analysis to advanced performance tuning, these tools empower users to identify inefficiencies and implement optimizations effectively. By using their robust features, such as the ability to view metrics, trace query performance, and prototype query changes, professionals can ensure their models are both efficient and scalable. Mastery of these tools lays a solid foundation for building high-performing, resource-efficient analytical solutions.

Author Bio

Thomas LeBlanc is a seasoned Business Intelligence Architect at Data on the Geaux, where he applies his extensive skillset in dimensional modeling, data visualization, and analytical modeling to deliver robust solutions. With a Bachelor of Science in Management Information Systems from Louisiana State University, Thomas has amassed over 30 years of experience in Information Technology, transitioning from roles as a software developer and database administrator to his current expertise in business intelligence and data warehouse architecture and management.
Throughout his career, Thomas has spearheaded numerous impactful projects, including consulting for various companies on Power BI implementation, serving as lead database administrator for a major home health care company, and overseeing the implementation of Power BI and Analysis Service for a large bank. He has also contributed his insights as an author to the Power BI MVP book.
Thomas is recognized as a Microsoft Data Platform MVP and is actively engaged in the tech community through his social media presence, notably as TheSmilinDBA on Twitter and ThePowerBIDude on Bluesky and Mastodon. With a passion for solving real-world business challenges with technology, Thomas continues to drive innovation in the field of business intelligence.

Bhavik Merchant has nearly 18 years of deep experience in Business Intelligence. He is currently the Director of Product Analytics at Salesforce. Prior to that, he was at Microsoft, first as a Cloud Solution Architect and then as a Product Manager in the Power BI Engineering team. At Power BI, he led the customer-facing insights program, being responsible for the strategy and technical framework to deliver system-wide usage and performance insights to customers. Before Microsoft, Bhavik spent years managing high-caliber consulting teams delivering enterprise-scale BI projects. He has provided extensive technical and theoretical BI training over the years, including expert Power BI performance training he developed for top Microsoft Partners globally.