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Mastering Tableau 2023
Mastering Tableau 2023

Mastering Tableau 2023: Implement advanced business intelligence techniques, analytics, and machine learning models with Tableau , Fourth Edition

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Mastering Tableau 2023

Getting Your Data Ready

Have you ever asked yourself whether your data is clean enough to be analyzed? It’s likely that everyone who works with data has, which is why this chapter is dedicated to getting your data ready for analysis, otherwise known as data cleaning.

The first part of this chapter is theory-oriented and does not include exercises. A careful reading of this information is encouraged since it provides a foundation for greater insight. The latter portion of the chapter provides various exercises specifically focused on data preparation.

Now let’s dive into this fascinating topic with the goal of enriching our understanding and becoming ever-better data stewards.

In this chapter, we will discuss the following topics:

  • Understanding Hyper
  • Focusing on data preparation
  • Surveying data
  • Cleaning messy data

Since Tableau Desktop 10.5 has been on the market for some time, you may already have heard of Hyper. Regardless of whether you have or not, continue reading for a primer on this feature!

Understanding Hyper

In this section, we will explore Tableau’s data-handling engine, and how it enables structured yet organic data mining processes in enterprises. Since the release of Tableau 10.5, we can make use of Hyper, a high-performing database, allowing us to query source data faster than ever before. Hyper is usually not well understood, even by advanced developers, because it’s not an overt part of day-to-day activities; however, if you want to truly grasp how to prepare data for Tableau, this understanding is crucial.

Hyper originally started as a research project at the University of Munich in 2008. In 2016, it was acquired by Tableau and appointed as the dedicated data engine group of Tableau, maintaining its base and employees in Munich. Initially in Tableau 10.5, Hyper replaced the earlier data-handling engine only for extracts. It is still true that live connections are not touched by Hyper, but Tableau Prep Builder now runs on the Hyper engine too, with more use cases to follow. As stated on tableau.com, “Hyper can slice and dice massive volumes of data in seconds, you will see up to 5X faster query speed and up to 3X faster extract creation speed.” And if you still can’t get enough, there is always the option to use Hyper through API calls in your preferred programming language: https://help.tableau.com/current/api/hyper_api/en-us/docs/hyper_api_reference.html.

But what makes Hyper so fast? Let’s have a look under the hood!

The Tableau data-handling engine

The vision shared by the founders of Hyper was to create a high-performing, next-generation database—one system, one state, no trade-offs, and no delays. And it worked—today, Hyper can serve general database purposes, data ingestion, and analytics at the same time.

Memory prices have decreased exponentially. The same goes for CPUs; transistor counts increased according to Moore’s law, while other features stagnated. Memory is cheap but processing still needs to be improved.

Moore’s Law is the observation made by Intel co-founder Gordon Moore that the number of transistors on a chip doubles every two years while the costs are halved. Information on Moore’s Law can be found on Investopedia at https://www.investopedia.com/terms/m/mooreslaw.asp.

While experimenting with Hyper, the founders measured that handwritten C code is faster than any existing database engine, so they came up with the idea to transform Tableau queries into C code and optimize it simultaneously, all behind the scenes, so the Tableau user won’t notice it. This translation and optimization come at a cost; traditional database engines can start executing code immediately. Tableau needs to first translate queries into code, optimize that code, then compile it into machine code, after which it can be executed. The big question is, is it still faster? As proven by many tests on Tableau Public and other workbooks, the answer is yes!

Furthermore, if there is a query estimated to be faster if executed without the compilation to machine code, Tableau has its own virtual machine (VM) on which the query will be executed right away. And next to this, Hyper can utilize 99% of available CPU computing power, whereas other parallel processes can only utilize 29% of available CPU compute. This is due to the unique and innovative technique of morsel-driven parallelization.

For those of you that want to know more about morsel-driven parallelization, a paper, which later on served as a baseline for the Hyper engine, can be found at https://15721.courses.cs.cmu.edu/spring2016/papers/p743-leis.pdf.

If you want to know more about the Hyper engine, I highly recommend the following video at https://youtu.be/h2av4CX0k6s.

Hyper parallelizes three steps of traditional data warehousing operations:

  • Transactions and Continuous Data Ingestion (Online Transaction Processing, or OLTP)
  • Analytics (Online Analytical Processing, or OLAP)
  • Beyond Relational (Online Beyond Relational Processing, or OBRP)

Executing those steps simultaneously makes Hyper more efficient and more performant, as opposed to traditional systems where those three steps are separated and executed one after the other.

To sum up, Hyper is a highly specialized database engine that allows us as users to get the best out of our queries. If you recall, in Chapter 1, Reviewing the Basics, we already saw that every change on a sheet or dashboard, including drag and drop pills, filters, and calculated fields, among others, is translated into a query. Those queries are pretty much SQL lookalikes; however, in Tableau we call the querying engine VizQL.

VizQL, another hidden gem on your Tableau Desktop, is responsible for visualizing data in a chart format and is fully executed in memory. The advantage is that no additional space on the database side is required here. VizQL is generated when a user places a field on a shelf. VizQL is then translated into SQL, MDX, or Tableau Query Language (TQL) and passed to the backend data source with a driver.

Hyper takeaways

This overview of the Tableau data-handling engine demonstrates a flexible approach to interfacing with data. Knowledge of the data-handling engine can reduce data preparation and data modeling efforts, thus helping us streamline the overall data mining life cycle. Don’t worry too much about data types and data that can be calculated based on the fields you have in your database. Tableau can do all the work for you in this respect. In the next section, we will discuss what you should consider from a data source perspective.

Focusing on data preparation

Tableau can be used effectively with various data preparation phases. Unfortunately, a single chapter is not sufficient to thoroughly explore how Tableau can be used in each phase. Indeed, such a thorough exploration may be worthy of an entire book! Our focus, therefore, will be directed to ward data preparation, since that phase has historically accounted for up to 60% of the data mining effort. Our goal will be to learn how Tableau can be used to streamline that effort.

Surveying data

Tableau can be a very effective tool for simply surveying data. Sometimes in the survey process, you may discover ways to clean the data or populate incomplete data based on existing fields. Sometimes, regretfully, there are simply not enough pieces of the puzzle to put together an entire dataset. In such cases, Tableau can be useful to communicate exactly what the gaps are, and this, in turn, may incentivize the organization to more fully populate the underlying data.

In this exercise, we will explore how to use Tableau to quickly discover the percentage of null values for each field in a dataset. Next, we’ll explore how data might be extrapolated from existing fields to fill in the gaps.

Establishing null values

The following are the steps to survey the data:

  1. If you haven’t done so just yet, navigate to https://public.tableau.com/profile/marleen.meier to locate and download the workbook associated with this chapter.
  2. Navigate to the worksheet entitled Surveying & Exploring Data and select Happiness Report data source.
  3. Drag Region and Country to the Rows shelf. Observe that in some cases the Region field has Null values for some countries:

Figure 2.1: Null regions

  1. Right-click and Edit the parameter entitled Select Field. Note that the Data Type is set to Integer and we can observe a list that contains an entry for each field name in the dataset:
Graphical user interface

Description automatically generated

Figure 2.2: Editing a parameter

  1. In the Data pane, right-click on the parameter we just created and select Show Parameter Control.
  2. Create a calculated field entitled % Populated and write the following calculation:
    SUM([Number of Records]) / TOTAL(SUM([Number of Records]))
    
  3. In the Data pane, right-click on % Populated and select Default Properties | Number Format…:
Graphical user interface, application

Description automatically generated

Figure 2.3: Adjusting default properties

  1. In the resulting dialog box, choose Percentage.
  2. Create a calculated field entitled Null & Populated and add the following code. Note that the complete case statement is fairly lengthy but also repetitive.

    In cases requiring a lengthy but repetitive calculation, consider using Excel to more quickly and accurately write the code. By using Excel’s CONCATENATE function, you may be able to save time and avoid typos.

    In the following code block, the code lines represent only a percentage of the total but should be sufficient to enable you to produce the whole block:

    CASE [Select Field]
    WHEN 1 THEN IF ISNULL ([Country]) THEN 'Null Values' ELSE
    'Populated Values' END
    WHEN 2 THEN IF ISNULL ([Region]) THEN 'Null Values' ELSE
    'Populated Values' END
    WHEN 3 THEN IF ISNULL ([Economy (GDP per Capita)]) THEN 'Null Values' ELSE
    'Populated Values' END
    WHEN 4 THEN IF ISNULL ([Family]) THEN 'Null Values' ELSE
    'Populated Values' END
    WHEN 5 THEN IF ISNULL ([Freedom]) THEN 'Null Values' ELSE
    'Populated Values' END
    WHEN 6 THEN IF ISNULL ([Happiness Rank]) THEN 'Null Values' ELSE
    'Populated Values' END
    WHEN 7 THEN IF ISNULL ([Happiness Score]) THEN 'Null Values' ELSE
    'Populated Values' END
    WHEN 8 THEN IF ISNULL ([Health (Life Expectancy)]) THEN 'Null Values' ELSE
    'Populated Values' END
    WHEN 9 THEN IF ISNULL ([Standard Error]) THEN 'Null Values' ELSE
    'Populated Values' END
    END
    
  1. Remove Region and Country from the Rows shelf.
  2. Place Null & Populated on the Rows and Color shelves and % Populated on the Columns and Label shelves:

Figure 2.4: Populated values

  1. Change the colors to red for Null Values and green for Populated Values if desired. You can do so by clicking on Color in the Marks card and Edit Colors.
  2. Click on the arrow in the upper-right corner of the Select Field parameter on your sheet and select Single Value List.
  3. Select various choices in the Select Field parameter and note that some fields have a high percentage of null values. For example, in the following diagram, 32.98% of records do not have a value for Region:
A picture containing graphical user interface

Description automatically generated

Figure 2.5: Comparing null and populated values

Building on this exercise, let’s explore how we might clean and extrapolate data from existing data using the same dataset.

Extrapolating data

This exercise will expand on the previous exercise by cleaning existing data and populating some of the missing data from known information. We will assume that we know which country belongs to which region. We’ll use that knowledge to fix errors in the Region field and also to fill in the gaps using Tableau:

  1. Starting from where the previous exercise ended, create a calculated field entitled Region Extrapolated with the following code block:
    CASE [Country]
    WHEN 'Afghanistan' THEN 'Southern Asia'
    WHEN 'Albania' THEN 'Central and Eastern Europe'
    WHEN 'Algeria' THEN 'Middle East and Northern Africa'
    WHEN 'Angola' THEN 'Sub-Saharan Africa'
    WHEN 'Argentina' THEN 'Latin America and Caribbean'
    WHEN 'Armenia' THEN 'Central and Eastern Europe'
    WHEN 'Australia' THEN 'Australia and New Zealand'
    WHEN 'Austria' THEN 'Western Europe'
    //complete the case statement with the remaining fields in the data set
    END
    

    As an alternative to a CASE statement, you could use an IF statement like:

    If [Country] = 'Afghanistan' then 'Southern Asia' 
    ELSEIF [Country] = 'Albania' thenEND
    

    To speed up the tedious creation of a long calculated field, you could download the data to an Excel file and create the calculated field by concatenating the separate parts, as shown here:

    Graphical user interface, text, application

Description automatically generated

    Figure 2.6: Compiling a calculation in Excel

    You can then copy them from Excel into Tableau. However, for this exercise, I have created a backup field called Backup, which can be found in the Tableau workbook associated with this chapter, which contains the full calculation needed for the Region Extrapolated field. Use this at your convenience. The Solutions dashboard also contains all of the countries. You can therefore copy the Region Extrapolated field from that file too.

  1. Add a Region Extrapolated option to the Select Field parameter:

Figure 2.7: Adding Region Extrapolated to the parameter

  1. Add the following code to the Null & Populated calculated field:
    WHEN 10 THEN IF ISNULL ([Region Extrapolated]) THEN 'Null Values' ELSE 'Populated Values' END
    
  2. Note that the Region Extrapolated field is now fully populated:

Figure 2.8: Fully populated Region Extrapolated field

Now let’s consider some of the specifics from the previous exercises.

Let’s look at the following code block.

Note that the complete CASE statement is several lines long. The following is a representative portion:

CASE [% Populated]
WHEN 1 THEN IF ISNULL ([Country]) THEN 'Null Values' ELSE
'Populated Values' END
...

This case statement is a row-level calculation that considers each field in the dataset and determines which rows are populated and which are not. For example, in the representative line of the preceding code, every row of the Country field is evaluated for nulls. The reason for this is that a calculated field will add a new column to the existing data—only in Tableau, not in the data source itself—and every row will get a value. These values can be N/A or null values.

The following code is the equivalent of the quick table calculation Percent of Total:

SUM([Number of Records]) / TOTAL(SUM([Number of Records]))

In conjunction with the Null & Populated calculated field, it allows us to see what percentage of our fields are actually populated with values.

It’s a good idea to get into the habit of writing table calculations from scratch, even if an equivalent quick table calculation is available. This will help you more clearly understand the table calculations.

The following CASE statement is an example of how you might use one or more fields to extrapolate what another field should be:

CASE [Country]
WHEN 'Afghanistan' THEN 'Southern Asia'
... END

For example, the Region field in the dataset had a large percentage of null values, and even the existing data had errors. Based on our knowledge of the business (that is, which country belongs to which region), we were able to use the Country field to achieve 100% population of the dataset with accurate information.

Nulls are a part of almost every extensive real dataset. Understanding how many nulls are present in each field can be vital to ensuring that you provide accurate business intelligence. It may be acceptable to tolerate some null values when the final results will not be substantially impacted, but too many nulls may invalidate results. However, as demonstrated here, in some cases, one or more fields can be used to extrapolate the values that should be entered into an underpopulated or erroneously populated field.

As demonstrated in this section, Tableau gives you the ability to effectively communicate to your data team which values are missing, which are erroneous, and how possible workarounds can be invaluable to the overall data mining effort. Next, we will look into data that is a bit messier and not in a nice column format. Don’t worry, Tableau has us covered.

Cleaning messy data

The United States government provides helpful documentation for various bureaucratic processes. For example, the Department of Health and Human Services (HSS) provides lists of ICD-9 codes, otherwise known as International Statistical Classification of Diseases and Related Health Problems codes. Unfortunately, these codes are not always in easily accessible formats.

As an example, let’s consider an actual HHS document known as R756OTN, which can be found at https://www.cms.gov/Regulations-and-Guidance/Guidance/Transmittals/downloads/R756OTN.pdf.

Cleaning the data

Navigate to the Cleaning the Data worksheet in the workbook accompanying this chapter and execute the following steps:

  1. Within the Data pane, select the R756OTN Raw data source:
Graphical user interface, text, application

Description automatically generated

Figure 2.9: Selecting the raw file

  1. Drag Diagnosis to the Rows shelf and choose Add all members. Click on the AZ sign to sort the Diagnosis column. Note the junk data that occurs in some rows:

Figure 2.10: Adding Diagnosis to Rows

  1. Create a calculated field named DX with the following code:
    SPLIT([Diagnosis], " ", 1)
    
  2. Create a calculated field named Null Hunting with the following code:
    INT(MID([DX],2,1))
    
  3. In the Data pane, drag Null Hunting from Measures to Dimensions.
  4. Drag Diagnosis, DX, and Null Hunting to the Rows shelf. Observe that Null is returned when the second character in the Diagnosis field is not numeric:

Figure 2.11: Ordering fields on Rows

  1. Create a calculated field named Exclude from ICD codes containing the following code:
    ISNULL([Null Hunting])
    
  2. Clear the sheet of all fields, as demonstrated in Chapter 1, Reviewing the Basics, and set the Marks card to Shape.
  3. Place Exclude from ICD Codes on the Color, and Shape shelves, and then place DX on the Rows shelf. Observe the rows labeled as True:

Figure 2.12: Excluding junk data

  1. In order to exclude the junk data (that is, those rows where Exclude from ICD Codes equates to True), place Exclude from ICD Codes on the Filter shelf and deselect True.
  2. Create a calculated field named Diagnosis Text containing the following code:
    REPLACE([Diagnosis],[DX] + "","")
    
  3. Place Diagnosis Text on the Rows shelf after DX. Also, remove Exclude from ICD Codes from the Rows shelf and the Marks card, and set the mark type to Automatic:

Figure 2.13: Observing the cleaned data

Now that we’ve completed the exercise, let’s take a moment to consider the code we have used:

  • The SPLIT function was introduced in Tableau 9.0:
    SPLIT([Diagnosis], " ", 1)
    
  • As described in Tableau’s help documentation about the function, the function does the following:

Returns a substring from a string, as determined by the delimiter extracting the characters from the beginning or end of the string.

  • This function can also be called directly in the Data Source tab when clicking on a column header and selecting Split. To extract characters from the end of the string, the token number (that is, the number at the end of the function) must be negative.
  • Consider the following code, which we used to create the Null Hunting field:
    INT(MID([DX],2,1))
    
  • The use of MID is quite straightforward and much the same as the corresponding function in Excel. The use of INT in this case, however, may be confusing. Casting an alpha character with an INT function will result in Tableau returning Null. This satisfactorily fulfills our purpose, since we simply need to discover those rows not starting with an integer by locating the nulls.
  1. ISNULL is a Boolean function that simply returns TRUE in the case of Null:
    ISNULL([Null Hunting])
    
  2. The REPLACE function was used while creating the Diagnosis Text field:
    REPLACE([Diagnosis],[DX] + "","")
    
  3. This calculated field uses the ICD-9 codes isolated in DX to remove those same codes from the Diagnosis field and thus provides a fairly clean description. Note the phrase fairly clean. The rows that were removed were initially associated with longer descriptions that thus included a carriage return. The resulting additional rows are what we removed in this exercise. Therefore, the longer descriptions are truncated in this solution using the replace calculation.

The final output for this exercise could be to export the data from Tableau as an additional source of data. This data could then be used by Tableau and other tools for future reporting needs. For example, the DX field could be useful in data blending.

Does Tableau offer a better approach that might solve the issue of truncated data associated with the preceding solution? Yes! Let’s turn our attention to the next exercise, where we will consider regular expression functions.

Extracting data

Although, as shown in the previous exercise, Cleaning the data, the SPLIT function can be useful for cleaning clean data, regular expression functions are far more powerful, representing a broadening of the scope from Tableau’s traditional focus on visualization and analytics to also include data cleaning capabilities.

Let’s look at an example that requires us to deal with some pretty messy data in Tableau. Our objective will be to extract phone numbers.

The following are the steps:

  1. If you have not already done so, please download the workbook from https://public.tableau.com/profile/marleen.meier and open it in Tableau.
  2. Select the Extracting the Data tab.
  3. In the Data pane, select the String of Data data source and drag the String of Data field to the Rows shelf. Observe the challenges associated with extracting the phone numbers:

Figure 2.14: Extracting data from a messy data format

  1. Access the underlying data by clicking the View data button and copying several rows:

Figure 2.15: Accessing underlying data

  1. Navigate to http://regexpal.com/ and paste the data into the pane labeled Test String—that is, the second pane:
Graphical user interface, text, application, email

Description automatically generated

Figure 2.16: Regexpal

  1. In the first pane (the one labeled Regular Expression), type the following:
    \([0-9]{3}\)-[0-9]{3}-[0-9]{4}
    
  2. Return to Tableau and create a calculated field called Phone Number with the following code block. Note the regular expression nested in the calculated field:
    REGEXP_EXTRACT([String of Data (String of Data)],'(\([0-9]{3}\)-[0-9]{3}-[0-9]{4})')
    
  3. Place Phone Number on the Rows shelf, and observe the result:
Text

Description automatically generated with medium confidence

Figure 2.17: Extracting data final view

Now let’s consider some of the specifics from the preceding exercise in more detail:

  • Consider the following code block:
    REGEXP_EXTRACT([String of Data],'()')
    
  • The expression pattern is purposely excluded here as it will be covered in detail later. The ‘()' code acts as a placeholder for the expression pattern. The REGEXP_EXTRACT function used in this example is described in Tableau’s help documentation as follows:

Returns a substring of the given string that matches the capturing group within the regular expression pattern.

  • Note that as of the time of writing, the Tableau documentation does not communicate how to ensure that the pattern input section of the function is properly delimited. For this example, be sure to include ‘()' around the pattern input section to avoid a null output.
  • Nesting within a calculated field that is itself nested within a VizQL query can affect performance (if there are too many levels of nesting/aggregation).
  • There are numerous regular expression websites that allow you to enter your own code and help you out, so to speak, by providing immediate feedback based on sample data that you provide. http://regexpal.com/ is only one of those sites, so search as desired to find one that meets your needs!
  • Now, consider the expression:
    \([0-9]{3}\)-[0-9]{3}-[0-9]{4}
    

In this context, the \ indicates that the next character should not be treated as special but as literal. For our example, we are literally looking for an open parenthesis. [0-9] simply declares that we are looking for one or more digits. Alternatively, consider \d to achieve the same results. The {3} designates that we are looking for three consecutive digits.

As with the opening parenthesis at the beginning of the pattern, the \ character designates the closing parentheses as a literal. The - is a literal that specifically looks for a hyphen. The rest of the expression pattern should be decipherable based on the preceding information.

After reviewing this exercise, you may be curious about how to return just the email address. According to http://www.regular-expressions.info/email.html, the regular expression for email addresses adhering to the RFC 5322 standard is as follows:

(?:[a-z0-9!#$%&'*+/=?^_'{|}~-]+(?:\.[a-z0-9!#$%&'*+/=?^_'{|}~-
]+)*|"(?:[\x01-\x08\x0b\x0c\x0e-\x1f\x21\x23-\x5b\x5d-
\x7f]|\\[\x01-\x09\x0b\x0c\x0e-\x7f])*")@(?:(?:[a-z0-9](?:[a-z0-9-
]*[a-z0-9])?\.)+[a-z0-9](?:[a-z0-9-]*[a-
z0-9])?|\[(?:(?:25[0-5]|2[0-4][0-9]|[01]?[0-9][0-9]?)\.){3}(?:25[0-
5]|2[0-4][0-9]|[01]?[0-9][0-9]?|[a-z0-9-]*[a-z0-9]:(?:[\x01-
\x08\x0b\x0c\x0e-\x1f\x21-\x5a\x53-\x7f]|\\[\x01-\x09\x0b\x0c\x0e-
\x7f])+)\])

Emails do not always adhere to RFC 5322 standards, so additional work may be required to truly clean email address data.

Although I won’t attempt a detailed explanation of this code, you can read all about it at http://www.regular-expressions.info/email.html, which is a great resource for learning more about regular expressions. Also, YouTube has several helpful regular expression tutorials.

The final output for this exercise should probably be used to enhance existing source data. Data dumps such as this example do not belong in data warehouses; however, even important and necessary data can be hidden in such dumps, and Tableau can be effectively used to extract it.

Summary

We began this chapter with a discussion of the Tableau data-handling engine. This illustrated the flexibility Tableau provides in working with data. The data-handling engine is important to understand in order to ensure that your data mining efforts are intelligently focused. Otherwise, your effort may be wasted on activities not relevant to Tableau.

Next, we focused on data preparation. We considered using Tableau to survey and also clean data. The data cleaning capabilities represented by the regular expression functions are particularly intriguing and are worth further investigation.

Having completed our first data-centric discussion, we’ll continue with Chapter 3, Using Tableau Prep Builder, looking at one of the newer features Tableau has brought to the market. Tableau Prep Builder is a dedicated data pre-processing interface that is able to greatly reduce the amount of time you need for pre-processing. We’ll take a look at cleaning, merging, filtering, joins, and the other functionality Tableau Prep Builder has to offer.

Learn more on Discord

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Key benefits

  • Master new Tableau 2023 features to solve real-world analytics challenges
  • Learn how to use both pre-defined and your own Machine Learning models in Tableau
  • How to manage Data Governance and secure high data quality

Description

This edition of the bestselling Tableau guide will teach you how to leverage Tableau's newest features and offerings in various paradigms of the BI domain. Updated with fresh topics, including the newest features in Tableau Server, Prep, and Desktop, as well as up-to-date examples, this book will take you from mastering essential Tableau concepts to advance functionalities. A chapter on data governance has also been added. Throughout this book, you'll learn how to use Tableau Hyper files and Prep Builder to easily perform data preparation and handling, as well as complex joins, spatial joins, unions, and data blending tasks using practical examples. You'll also get to grips with executing data densification and explore other expert-level examples to help you with calculations, mapping, and visual design using Tableau extensions. Later chapters will teach you all about improving dashboard performance, connecting to Tableau Server, and understanding data visualization with examples. Finally, you'll cover advanced use cases, such as self-service analysis, time series analysis, geo-spatial analysis, and how to connect Tableau to Python and R to implement programming functionalities within Tableau. By the end of this book, you'll have mastered Tableau 2023 and be able to tackle common and advanced challenges in the BI domain.

Who is this book for?

This book is designed for business analysts, business intelligence professionals, and data analysts who want to master Tableau to solve a range of data science and business intelligence problems. Prior exposure to Tableau will help you get to grips with the features more quickly, but it’s not a prerequisite.

What you will learn

  • Learn about various Tableau components, such as calculated fields, table calculations, and LOD expressions
  • Master ETL (Extract, Transform, Load) techniques using Tableau Prep Builder
  • Explore and implement data storytelling with Python and R
  • Understand Tableau Exchange by using accelerators, extensions, and connectors
  • Interact with Tableau Server to understand its functionalities
  • Study advanced visualizations and dashboard creation techniques
  • Brush up on powerful self-service analytics, time series analytics, and geo-spatial analytics
  • Find out why data governance matters and how to implement it

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Total $ 151.97
Mastering Tableau 2023
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Interpretable Machine Learning with Python
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Data Engineering with AWS
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Total $ 151.97 Stars icon
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Table of Contents

18 Chapters
Reviewing the Basics Chevron down icon Chevron up icon
Getting Your Data Ready Chevron down icon Chevron up icon
Using Tableau Prep Builder Chevron down icon Chevron up icon
Learning about Joins, Blends, and Data Structures Chevron down icon Chevron up icon
Introducing Table Calculations Chevron down icon Chevron up icon
Utilizing OData, Data Densification, Big Data, and Google BigQuery Chevron down icon Chevron up icon
Practicing Level of Detail Calculations Chevron down icon Chevron up icon
Going Beyond the Basics Chevron down icon Chevron up icon
Working with Maps Chevron down icon Chevron up icon
Presenting with Tableau Chevron down icon Chevron up icon
Designing Dashboards and Best Practices for Visualizations Chevron down icon Chevron up icon
Leveraging Advanced Analytics Chevron down icon Chevron up icon
Improving Performance Chevron down icon Chevron up icon
Exploring Tableau Server and Tableau Cloud Chevron down icon Chevron up icon
Integrating Programming Languages Chevron down icon Chevron up icon
Developing Data Governance Practices Chevron down icon Chevron up icon
Other Books You May Enjoy Chevron down icon Chevron up icon
Index Chevron down icon Chevron up icon

Customer reviews

Top Reviews
Rating distribution
Full star icon Full star icon Full star icon Full star icon Half star icon 4.7
(36 Ratings)
5 star 86.1%
4 star 5.6%
3 star 2.8%
2 star 0%
1 star 5.6%
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Top Reviews

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Airton Leal Oct 01, 2023
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As a seasoned Tableau user, I've been eagerly awaiting the release of this book, and I can confidently say that it exceeded my expectations. This fourth edition is a true masterpiece for anyone seeking to harness the full power of Tableau for advanced data analytics and business intelligence.The book provides a well-structured and comprehensive approach to mastering Tableau, covering many topics, from basic concepts to advanced techniques, including integrating machine learning models. What sets this edition apart is its updated content, specifically tailored to the latest Tableau version, ensuring readers are updated with the most recent features and functionalities. The hands-on examples and real-world use cases make it easy to follow along, and the author's clear explanations make complex topics accessible, even to those new to the field.One of the highlights of this book is its emphasis on practical application. The author doesn't just focus on theory; they provide concrete examples and step-by-step instructions for implementing advanced analytics and machine learning models within Tableau. This approach makes it easy for readers to apply what they've learned to their projects, enhancing their ability to make data-driven decisions. Additionally, the book's coverage of data visualization best practices is invaluable, helping users create compelling and informative dashboards that effectively communicate insights. The explanations on designing dashboards and best practices for creating visualizations are outstanding, providing actionable insights for producing impactful data presentations. This book is a must-have for anyone who wants to unlock Tableau's full potential and become an accurate data visualization and analytics expert—highly recommended!
Amazon Verified review Amazon
Anudeep Oct 03, 2023
Full star icon Full star icon Full star icon Full star icon Full star icon 5
The breadth and depth of the topics covered in the book make this a handy book on every data person’s shelf. It presents concepts starting from basics such as building dashboards and ramping up to advanced topics such as connecting to R and Python and deploying models - all in a clear and easy-to-follow manner.This book has kept pace with Tableau's evolution to cover its most recent features and best practices. The content is up-to-date and a must-have regardless of whether you are a beginner (can refresh on powerful features) or an advanced user as you will find invaluable insights and understand why a certain feature works better than the other to accomplish what you need.It includes hands-on exercises to apply what was learned. The book has one whole chapter dedicated to getting the best out of Tableau for making your presentations as easy and effective as possible.The book has a code bundle hosted on GitHub to download example code files.It's a no-brainer investment for your Tableau learning journey and one that you will be using for years as a reference.
Amazon Verified review Amazon
Darnell Grantham Jr. Sep 06, 2023
Full star icon Full star icon Full star icon Full star icon Full star icon 5
I am occasionally asked to review new technical books to determine what development tools could be beneficial to mefor current and upcoming data presentation and analysis projects.One such resource that I have had the recent pleasure of reviewing is theMastering Tableau 2023 Fourth Edition authored by Marleen Meier and published by PackT Publishing. Ihave been a Tableau user for just a little over two years and originally read the Mastering Tableau 2021Third Edition by Marleen Meier and David Baldwin when it was first released. This fourth edition builds uponthat same foundation offering greater insight into Tableau 2023. Mastering Tableau 2023 Fourth Edition coversan exhaustive set of Tableau's features from design, preparation,practice and presentation but one thing that makes this book easily digestible is the toneof Meier's explanations. She makes it relatable and breaks the topics down into personable language and occasional humoras if you were present in a her course.The topics in this book covers the majority of topics that I have read in most Tableau resources including a refreshingreview of the basics like worksheets, dashboards, dimensions, tables, calculations, joinsand PrepBuilder. Meier takes a deeper dive into explaining TabPy's integration of Tableau and Python'sability to receive arguments and effectively return data from functions.There is a great explanation of joins and unions of logical tables whichcan enhance or create blended data relationships, data densifications and domain completion in forecasting.Meier covers Tableau's Prep Builder environment and gives detailed yet simple exercises and instructionsto help the reader understand useful applications of prepping their data inputs to be cleaned, massaged and prepared for easy toingest data analysis. Although I primarily use SQL and other tools to perform joinsand calculations before inserting data into Tableau, Meier does a great job explaining how a non-developercan perform the same features and joins within Tableau and Tableau Prep. There have been times that I havehad errors joining fields between logical tables in Tableau and Meier gives great instructions on how thiscommon issue can be remedied by modifying the adjoining string columns of similar data type to performbetter matching. For the reader who is particularly interested in using Pivots for their data,there is a very good instructional exercise of using Pivots in Tableau Prep Builder. I have struggled beforeparticularly in Tableau with combining multiple lines or visuals from three or more graphs onto one and thisbook explains how this data can easily be prepared using Prep Builder to design a visual synchronizing multiple axisinto one. Meier also covers Data Flow Insertion, Incremental Refreshes and Bulk Renames from Prep Builder.Of another particular interest to me was Meier's explanation of Regression Analysis which coversthe estimating of variable relationships such as linear regression be itlogarithmic, exponential or polynomial. Meier explains that the scripting language R is a flexible tool for regression analysis anddoes a great job of explaining how variables can be fitted into the R function for multi-variable linearregression linear models.Further into this book Meier hints at the ability of fusing AI with Tableau Analyticsafter the announcement of new products like Tableau GPT and Tableau Pulse which will be hitting the market soon.Great book overall.
Amazon Verified review Amazon
Rampage Jun 27, 2024
Full star icon Full star icon Full star icon Full star icon Full star icon 5
Marleen is. A well renowned author the way she has explained certain concepts shows why it's a masterpiece I would certainly vouch for all folks to have this amazing title learn and grow
Amazon Verified review Amazon
Devaraj Aug 29, 2023
Full star icon Full star icon Full star icon Full star icon Full star icon 5
This book is a must-read for anyone seeking to elevate their Tableau skills. The authors' deep expertise shines through, and their ability to convey complex concepts in an accessible manner makes this book an invaluable resource for tableau learners. It's a comprehensive and up-to-date guide that will undoubtedly help you tackle the ever-evolving challenges of the BI.The book starts with a promise to bring readers up to speed with the most recent updates in Tableau, covering Tableau Desktop, Tableau Prep, and Tableau Server features. It helps both the beginners looking to grasp the fundamentals and seasoned users looking to stay ahead of the curve.One of the standout features of this book is its practicality. It doesn't just stop at explaining concepts; it provides readers with real-world examples and scenarios that demos about how to apply Tableau's features effectively.Concepts like calculated fields, table calculations, and LOD expressions are explained in an approachable manner, ensuring that readers of all experience levels can grasp them. Furthermore, intro to the integration of Machine Learning models into Tableau is a noteworthy addition.The book's structure is well-organized, progressing from fundamental concepts to advanced topics seamlessly. The discussions on data storytelling with Python and R, as well as connecting Tableau to these programming languages, helps us in both data analysis and visualization.The comprehensive coverage ensures that readers can tackle a wide array of data-related tasks and challenges with confidence.Finally, it covers the crucial topic of data governance, emphasizing its importance in maintaining data quality and security.
Amazon Verified review Amazon
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