The True Power of Oracle’s Enterprise Planning Suite Unleashed at POET: A Case Study

Enterprise Planning and Budgeting Cloud Service“If you are going to change the world, you need a system to help get you there. For us, it was… about strategic opportunities. POET was at a crossroads. We needed a system that we could grow with and that could grow with us.”
Lezlee Herdina, Director of FP&A, POET

A privately held corporation headquartered Sioux Falls, South Dakota, POET LLC is a U.S. biofuel company that specializes in the creation of bioethanol. The 1,900-employee company produces 1.8 billion gallons of ethanol annually and has been granted 90 patents in the U.S. and abroad.

In this webinar, Edgewater Ranzal’s Managing Director and HSF Practice Director Ryan Meester speaks with Lezlee Herdina, POET’s Director of FP&A, to give us a behind-the-scenes look into POET’s Enterprise Planning Solution journey, from realizing that significant change was needed to an extensive evaluation process to the ultimate solution and, finally, to the company’s enduring vision going forward.

The Right Tool for the Right Job (RTRJ)

While Lezlee and the POET team were open to the insights and recommendations generated by their Ranzal analysts, they also had some specific goals in mind from the outset:

  • Provide seamless integration of financial and operational data
  • Create a platform for process improvement, including implementing greater automation in monthly processes improving efficiency and increasing time for value-add analysis
  • Achieve better communication, including ease of reporting
  • Reduce reliance on Excel models and associated version control issues
  • Improve data governance, with clarity of data model with common definitions to facilitate planning and reporting processes
  • Integrate operational and financial dashboards for performance measurement
  • Use of scenario analysis to drive M&A and strategic business decisions
  • Increase emphasis on cash perspective
  • Understanding when to use SmartView, Financial Reports, and Oracle Business Intelligence Enterprise Edition (OBIEE), as well as take full advantage of the strengths of each of the Reporting Tools
  • Keep it simple, and trust in the higher level nature of HSF
  • Recognize the important nature of the user experience
  • Ensure that data integrations are seamless for the end-user

To learn more about the POET team’s initial ongoing business challenges, the lessons learned, and the ultimate results, view a recording of True Power of Oracle’s Enterprise Planning Suite Unleashed at POETwebinar.

To learn more about our Enterprise Planning solutions, visit

Missed the webinar? View Recording Here.

Oracle Business Intelligence Cloud Service (BICS) September Update

The latest upgrade for BICS happened last week and, while there are no new end user features, it is now easier to integrate data. New to this version is the ability to connect to JDBC data sources through the Data Sync tool.  This allows customers to set up automated data pulls from Salesforce, Redshift, and Hive among others.  In addition to these connections, Oracle RightNow CRM customers have the ability to pull directly from RightNow reports using Oracle Data Sync.  Finally, connections to on premise databases and BICS can be secured using Secure Socket Layer (SSL) certifications.

After developing a customer script using API calls to pull data from Salesforce, I am excited about the ability to connect directly to Salesforce with Data Sync. Direct connections to the Salesforce database allows you to search and browse for relevant tables and import the definitions with ease:


Once the definitions have been imported, standard querying clauses can create the ability to include only relevant data, perform incremental ETLs, and further manipulate the data.

While there are no new features for end users, this is a powerful update when it comes to data integration. Using APIs to extract data from Salesforce meant that each extraction query had to be written by hand which was time consuming and prone to error.  With these new data extraction processes, BICS implementations and integrating data becomes much faster, furthering the promise of Oracle Cloud technologies.

A Comparison of Oracle Business Intelligence, Data Visualization, and Visual Analyzer

We recently authored The Role of Oracle Data Visualizer in the Modern Enterprise in which we had referred to both Data Visualization (DV) and Visual Analyzer (VA) as Data Visualizer.  This post addresses readers’ inquiries about the differences between DV and VA as well as a comparison to that of Oracle Business Intelligence (OBI).  The following sections provide details of the solutions for the OBI and DV/VA products as well as a matrix to compare each solution’s capabilities.  Finally, some use cases for DV/VA projects versus OBI will be outlined.

For the purposes of this post, OBI will be considered the parent solution for both on premise Oracle Business Intelligence solutions (including Enterprise Edition (OBIEE), Foundation Services (BIFS), and Standard Edition (OBSE)) as well as Business Intelligence Cloud Service (BICS). OBI is the platform thousands of Oracle customers have become familiar with to provide robust visualizations and dashboard solutions from nearly any data source.  While the on premise solutions are currently the most mature products, at some point in the future, BICS is expected to become the flagship product for Oracle at which time all features are expected to be available.

Likewise, DV/VA will be used to refer collectively to Visual Analyzer packaged with BICS (VA BICS), Visual Analyzer packaged with OBI 12c (VA 12c), Data Visualization Desktop (DVD), and Data Visualization Cloud Service (DVCS). VA was initially introduced as part of the BICS package, but has since become available as part of OBIEE 12c (the latest on premise version).  DVD was released early in 2016 as a stand-alone product that can be downloaded and installed on a local machine.  Recently, DVCS has been released as the cloud-based version of DVD.  All of these products offer similar data visualization capabilities as OBI but feature significant enhancements to the manner in which users interact with their data.  Compared to OBI, the interface is even more simplified and intuitive to use which is an accomplishment for Oracle considering how easy OBI is to use.  Reusable and business process-centric dashboards are available in DV/VA but are referred to as DV or VA Projects.  Perhaps the most powerful feature is the ability for users to mash up data from different sources (including Excel) to quickly gain insight they might have spent days or weeks manually assembling in Excel or Access.  These mashups can be used to create reusable DV/VA Projects that can be refreshed through new data loads in the source system and by uploading updated Excel spreadsheets into DV/VA.

While the six products mentioned can be grouped nicely into two categories, the following matrix outlines the differences between each product. The following sections will provide some commentary to some of the features.

Table 1

Table 1:  Product Capability Matrix

Advanced Analytics provides integrated statistical capabilities based on the R programming language and includes the following functions:

  • Trendline – This function provides a linear or exponential plot through noisy data to indicate a general pattern or direction for time series data. For instance, while there is a noisy fluctuation of revenue over these three years, a slowly increasing general trend can be detected by the Trendline plot:
Figure 1

Figure 1:  Trendline Analysis


  • Clusters – This function attempts to classify scattered data into related groups. Users are able to determine the number of clusters and other grouping attributes. For instance, these clusters were generated using Revenue versus Billed Quantity by Month:
Figure 2

Figure 2:  Cluster Analysis


  • Outliers – This function detects exceptions in the sample data. For instance, given the previous scatter plot, four outliers can be detected:
Figure 3

Figure 3:  Outlier Analysis


  • Regression – This function is similar to the Trendline function but correlates relationships between two measures and does not require a time series. This is often used to help create or determine forecasts. Using the previous Revenue versus Billed Quantity, the following Regression series can be detected:
Figure 4

Figure 4:  Regression Analysis


Insights provide users the ability to embed commentary within DV/VA projects (except for VA 12c). Users take a “snapshot” of their data at a certain intersection and make an Insight comment.  These Insights can then be associated with each other to tell a story about the data and then shared with others or assembled into a presentation.  For those readers familiar with the Hyperion Planning capabilities, Insights are analogous to Cell Comments.  OBI 12c (as well as 11g) offers the ability to write comments back to a relational table; however, this capability is not as flexible or robust as Insights and requires intervention by the BI support team to implement.

Figure 5

Figure 5:  Insights Assembled into a Story


Direct connections to a Relational Database Management System (RDBMS) such as an enterprise data warehouse are now possible using some of the DV/VA products. (For the purpose of this post, inserting a semantic or logical layer between the database and user is not considered a direct connection).  For the cloud-based versions (VA BICS and DVCS), only connections to other cloud databases are available while DVD allows users to connect to an on premise or cloud database.  This capability will typically be created and configured either by the IT support team or analysts familiar with the data model of the target data source as well as SQL concepts such as creating joins between relational tables.  (Direct connections using OBI are technically possible; however, they require the users to manually write the SQL to extract the data for their analysis).  Once these connections are created and the correct joins are configured between tables, users can further augment their data with data mashups.  VA 12c currently requires a Subject Area connected to a RDBMS to create projects.

Leveraging OLAP data sources such as Essbase is currently only available in OBI 12c (as well as 11g) and VA 12c. These data sources require that the OLAP cube be exposed as a Subject Area in the Presentation layer (in other words, no direct connection to OLAP data sources).  OBI is considered very mature and offers robust mechanisms for interacting with the cube, including the ability to use drillable hierarchical columns in Analysis.  VA 12c currently exposes a flattened list of hierarchical columns without a drillable hierarchical column.  As with direct connections, users are able to mashup their data with the cubes to create custom data models.

While the capabilities of the DV/VA product set are impressive, the solution currently lacks some key capabilities of OBI Analysis and Dashboards. A few of the most noticeable gaps between the capabilities of DV/VA and OBI Dashboards are the inability to:

  • Create the functional equivalent of Action Links which allows users to drill down or across from an Analysis
  • Schedule and/or deliver reports
  • Customize graphs, charts, and other data visualizations to the extent offered by OBI
  • Create Alerts which can perform conditionally-based actions such as pushing information to users
  • Use drillable hierarchical columns

At this time, OBI should continue to be used as the centerpiece for enterprise-wide analytical solutions that require complex dashboards and other capabilities. DV/VA will be more suited for analysts who need to unify discrete data sources in a repeatable and presentation-friendly format using DV/VA Projects.  As mentioned, DV/VA is even easier to use than OBI which makes it ideal for users who wish to have an analytics tool that rapidly allows them to pull together ad hoc analysis.  As was discussed in The Role of Oracle Data Visualizer in the Modern Enterprise, enterprises that are reaching for new game-changing analytic capabilities should give the DV/VA product set a thorough evaluation.  Oracle releases regular upgrades to the entire DV/VA product set, and we anticipate many of the noted gaps will be closed at some point in the future.

Upgrading Oracle Business Intelligence to 12c

Ranzal was recently invited to participate in a number of chalk talks for the Healthcare Industry User Group (HIUG) in San Antonio, TX. One of these chalk talks covered how an organization should prepare for and execute an upgrade to Oracle Business Intelligence (OBI) 12c.  Since the technical steps are already covered in numerous blog posts as well as Oracle documentation, our conversation focused on a strategic approach to the upgrade.  Our conversation essentially came down to four topics:

  1. An overview of the simplicity of the upgrade from 11g to 12c
  2. Organizational mindset while preparing for the upgrade
  3. The new technical infrastructure and the implications for the organization
  4. How to introduce users to the new features and how this might impact governance

We wanted to formally document this lively and fast-paced discussion to help other organizations as well as the HIUG chalk talk participants who were furiously scribbling notes and may not have had the opportunity to take it all in.

We started our discussion with how relatively easy Oracle has made this upgrade. For those of you who experienced the difficult and buggy process of upgrading from OBI 10g to 11g and may be dreading the upgrade to 12c, we have some advice:  relax.  First, the upgrade to 12c is an “in place upgrade” which means your 11g environment remains intact while the metadata and configuration gets “lifted and shifted” into 12c.  Speaking of “lift and shift,” 12c comes with a tool that extracts the metadata and much of the configuration from 11g into one tidy package that is then pushed into 12c.  There is a small amount of manual configuration that has to occur; however, this will only slow down customers with highly customized environments.  Once this lift and shift has occurred, an Oracle validation tool checks that your Dashboards and Analysis are working and alerts you to potential issues.  While there are bugs with 12c (what new or old software does not have bugs?), we have not found any major issues that will cause a full stop for an organization.

So how does an organization prepare for this upgrade? First, we encourage clients to view this upgrade as an opportunity to “clean house,” especially for customers that have been building OBI assets for years.  Used properly, analytic tools lend themselves to experimentation and evolution.  Experimentation can result in partially formed or broken logical objects such as presentation columns and facts, Analysis, or entire Dashboards.  The developers of these objects have the best intention of coming back to either fix or complete development on these objects or, at the very least, delete them.  Developers are busy people though, and eventually the existence of these objects is forgotten.  Evolution of both the tool and the focus on analytics results in objects becoming stale and/or obsolete.  Take this opportunity to clean house on your OBI environment.  Run the consistency check in the BI Administration tool and resolve those lingering issues.  Evaluate your usage statistics and determine if unused Analysis and Dashboards are still needed.  Fix or discard broken Analysis and Dashboards.  As with any technology tool, have a process in place to document, communicate, archive, backup, and restore, if necessary.

The most substantial change to come with OBI 12c is the underlying technical architecture. Fusion Middleware and Enterprise Management has a new look and feel.  Additionally, some actions are no longer performed within these tools.  For instance, deploying the RPD is no longer done through Enterprise Manager (in fact, the RPD is now the BAR file).  The directory has significantly changed which is a bit unfortunate for those of us who like to go directly to the log files in the directory rather than relying on Enterprise Manager and Session Manager.  Finally, many of the RPD . . . that is . . . BAR functions, such as deploying and copying, are done through a new command line interface.  So, while most of your users will be able to log into 12c and quickly adapt to the new look and feel, your OBI support team will have some learning to do.  Again, the goal of this post is to provide an overarching upgrade strategy, so we will not delve any deeper into these changes.  There is plenty of quality content online regarding these changes and you should always review Oracle documentation before performing implementation or upgrades.

End users will initially feel that, with the exception of a new look and feel, nothing much has changed. However, with new graphing options, statistical analytics capabilities based on R, as well as Visual Analyzer, users have an opportunity to expand their analytical capacity.  The organizational challenge is to go back to the change management playbook that was used when OBI was initially introduced, re-evaluate, and update so that end users can get the most out of this upgrade.  Evaluate how to train users on where to properly use the new graphs and charts.  Determine (or re-determine) who your power users are who need or want the new statistical capabilities.  Review existing Dashboards and Analysis and make appropriate upgrades.

Potentially the biggest challenge will be evaluating and understanding the capabilities of the new Visual Analyzer tool which, among other features, allows you to perform data mashups. This new tool will require that your organization determines some use cases and user groups as well as some additional training.  While users uploading data into the OBI system and combining it with existing data models opens up entirely new possibilities for insight, it also creates a governance challenge.  How do you separate and maintain the organizational “one version of the truth” while encouraging and properly promoting new analytic insight?  How will security be handled and users trained to adhere to this model?  How will you handle the archiving and deletion of potentially huge numbers of Excel spreadsheets uploaded onto the OBI server?  While this all sounds intimidating, keep in mind that your organization has already been through these exercises once during the original OBI implementation.  Adapt your existing knowledge.

Thus far, Ranzal has had a positive experience with the 12c upgrade. The underlying technical architecture has resulted in some real gains in performance, especially when leveraging EPM as a data source.  The upgrade is well thought out and simple, especially if you go through a system checkup and resolve issues.  While your technical BI support team will have some homework and learning to do to continue to fill that role, your users will be able to jump right into using 12c.  Despite this ease of user adoption, be sure to have a change management plan in place and take advantage of the new features and capabilities of 12c.

If you are thinking of doing an upgrade and have questions, feel free to reach out to us. Also, keep an eye out for an upcoming webcast on upgrading to 12c with an interactive question and answer session.

Oracle Business Intelligence – Synchronizing Hierarchical Structures to Enable Federation

More and more Oracle customers are finding value in federating their EPM cubes with existing relational data stores such as data marts and data warehouses (for brevity, data warehouse will refer to all relational data stores). This post explains the concept of federation, explores the consequences of allowing hierarchical structures to get out of synchronization, and shares options to enable this synchronization.

In OBI, federation is the integration of distinct data sources to allow end users to perform analytical tasks without having to consider where the data is coming from. There are two types of federation to consider when using EPM and data warehouse sources:  vertical and horizontal.  Vertical federation allows users to drill down a hierarchy and switch data sources when moving from an aggregate data source to a more detailed one.  Most often, this occurs in the Time dimension whereby the EPM cube stores data for year, quarter, and month, and the relational data sources have details on daily transactions.  Horizontal federation allows users to combine different measures from the distinct data sources naturally in an OBI analysis, rather than extracting the data and building a unified report in another tool.

Federation makes it imperative that the common hierarchical structures are kept in sync. To demonstrate issues that can occur during vertical federation when the data sources are not synchronized, take the following hierarchies in an EMP application and a data warehouse:

Figure 1: Unsynchronized Hierarchies

Jason Hodson Blog Figure 1.jpg

Notice that Colorado falls under the Western region in the EPM application, but under the Southwestern region in the data warehouse. Also notice that the data warehouse contains an additional level (or granularity) in the form of cities for each region.  Assume that both data sources contain revenue data.  An OBI analysis such as this would route the query to the EPM cube and return these results:

Figure 2: EPM Analysis – Vertical Federation

Jason Hodson Blog Figure 2

However, if the user were to expand the state of Washington to see the results for each city, OBI would route the query to the data warehouse. When the results return, the user would be confronted with different revenue figures for the Southwest and West regions:

Figure 3: Data Warehouse – Vertical Federation

Jason Hodson Blog Figure 3

When the hierarchical structures are not aligned between the two data sources, irreconcilable differences can occur when switching between the sources. Many times, end users are not aware that they are switching between EPM and a data warehouse, and will simply experience a confusing reorganization in their analysis.

To demonstrate issues that occur in horizontal federation, assume the same hierarchies as in Figure 1 above, but the EPM application contains data on budget revenue while the data warehouse contains details on actual revenue. An analysis such as this could be created to query each source simultaneously and combine the budget and actual data along the common dimension:

Figure 4: Horizontal Federation

Jason Hodson Blog Figure 4

However, drilling into the West and Southwest regions will result in Colorado becoming an erroneously “shared” member:

Figure 5: Colorado as a “Shared” Member

Jason Hodson Blog Figure 5

In actuality, the mocked up analysis above would more than likely result in an error since OBI would not be able to match the hierarchical structures during query generation.

There are a number of options to enable the synchronization of hierarchical structures across EPM applications and data warehouses. Many organizations are manually maintaining their hierarchical structures in spreadsheets and text files, often located on an individual’s desktop.  It is possible to continue this manual maintenance; however, these dispersed files should be centralized, a governance processes defined, and the EPM metadata management and data warehouse ETL process redesigned to pick up these centralized files.  This method is still subject to errors and is inherently difficult to properly govern and audit.  For organizations that are already using Enterprise Performance Management Architect (EPMA), a scripting process can be implemented that extracts the hierarchical structures in flat files.  A follow on ETL process to move these hierarchies into the data warehouse will also have to be implemented.

The best practices solution is to use Hyperion Data Relationship Management (DRM) to manage these hierarchical structures. DRM boasts robust metadata management capabilities coupled with a system-agnostic approach to exporting this metadata.  DRM’s most valuable export method allows pushing directly to a relational database.  If a data warehouse is built in tandem with an EPM application, DRM can push directly to a dimensional table that can then be accessed by OBI.  If there is a data warehouse already in place, existing ETL processes may have to be modified or a dimensional table devoted to the dimension hierarchy created.  Ranzal has a DRM accelerator package to enable the synchronization of hierarchical structures between EPM and data warehouses that is designed to work with our existing EPM application DRM implementation accelerators.  Using these accelerators, Ranzal can perform an implementation in as little as six weeks that provides metadata management for the EPM application, establishes a process for maintaining hierarchical structure synchronization between EPM and the data warehouse, and federation of the data source.

While the federation of EPM and data warehouse sources has been the primary focus, it is worth noting that two EPM cubes or two data warehouses could be federated in OBI. For many of the reasons discussed previously, data synchronization processes will have to be in place to enable this federation.  The previous solutions for maintaining metadata synchronization may be able to be adapted to enable this federation.

The federation of EPM and data warehouse sources allows an enterprise to create a more tightly integrated analytical solution. This tight integration allows users to transverse the organization’s data, gain insight, and answer business essential questions at the speed of thought.  As demonstrated, mismanaging hierarchical structures can result in an analytical solution that produces unexpected results that can harm user confidence.  Enterprise solutions often need enterprise approaches to governance; therefore, it is often imperative to understand and address shortcomings in hierarchical structure management.  Ranzal has a deep knowledge of EPM, DRM, and OBIEE, and how these systems can be implemented to tightly work together to address an organization’s analytical and reporting needs.

Default and User Friendly Prompting With BI Publisher

As mentioned in the previous post, Dynamic Report Grouping with Oracle BI Publisher, Edgewater Ranzal is working with a client to convert XML Publisher reports to BI Publisher reports. As part of Ranzal’s initiative, we began looking for opportunities to improve the user interface as well as create a standard methodology that report developers could utilize in the future. One of the initial areas we focused on was to improve the prompting feature. To this effort, we concentrated on:

  • Presenting prompts to the user within the BI Publisher tool
  • The displaying of user-entered prompt values within the report
  • Creating a methodology of implementation for report developers.

As expected, many of the reports had time prompts (date, period, or year), but the existing reports did not have default prompt values.  Although it is not published in any Oracle documentation we have seen, Oracle offers five functions that can be inserted into the Default Value option of the parameter:


*Note that you also have to set the Data Type to Date for these parameters. 

Simple numeric mathematical calculations can be performed with these functions to add some flexibility.  For instance, the previous day’s date would be displayed as

{$SYSDATE() – 1$}

By using these functions in conjunction with the Date String Format in the parameter options section, a variety of date value defaults can be displayed in the prompting section of the report. The following table is a sample of the prompts, Default Value, and Date Format Strings that were deployed at the client:

BI Publisher post 2 1

It is very important to understand that, regardless of the Date Format String settings, the actual value used in the date functions is the full date string and an optional numeric number added or subtracted that represents days. For instance, if the Default Value is set as {$FIRST_DAY_OF_YEAR() + 1$} (first day of year plus one) and the Date Format String is set to MM, the user would still see 01 as the default value because the actual value generated (and then converted to the month number) is 20XX-01-02T00:00:00.000+HH:00 (Jan 2, 20XX).

Because the optional numeric value used in the function refers only to days, and no logic can be written into the Default Value function, there is a natural limitation that prohibits generating anything beyond a period and/or year plus or minus one. For instance, if a client wants a prompt default value for two years ago, logic cannot be written to determine if the current year or previous year was a leap year and conclude whether to subtract 365 x 2 = 730 or 366 x 2 = 732 from the first day of year function (or system date function, depending on your preference).

Understandably, this problem would only occur two days every four years (December 31st of both a leap year and the year following a leap year); however, extrapolating from this logic is evidence of the difficultly in going back two or more months from any date function because of the variable numbers in a month. We observed an even more complicated version of this issue when the client wanted to have the default values for a period range equal to the previous period (i.e. during Q3, From Period defaults to 04 and To Period defaults to 06). Depending on the current period, the From Period needs to default from three to five periods ago and the To Period needs to default from one to three periods ago. Further exacerbating this problem was the year prompt that, during Q1, needs a default value of the previous year.

The final piece of the puzzle when using any parameters with the date data type is realizing that the bind value passed to your data model is the full date/time string. Our client exclusively used SQL in their data models; therefore, it was only a matter of using Oracle SQL’s native TO_CHAR function to convert the date/time string to a relationally comparable value as such:

BI Publisher post 2 2

The Ranzal team then looked to streamline and simplify interaction between parameters, parameter input requirement evaluation, and the RTF templates. The client’s reports had up to twelve parameters that required user input, and they used XLST logic to evaluate whether or not users had supplied values. As mentioned in previous posts, XLST is not a robust language as it relates to logical evaluations; after all, XLST was designed to consume XML documents and output new documents (in this case, RTF based reports). Because of these limitations, the initial RTF templates used the following logic (white space added for clarity):

BI Publisher post 2 3

Using this method, each parameter is evaluated until a null value is found, and then the remaining parameters are evaluated for a null value. When the XLST consumes the XML, each required parameter that the user has not entered a value for results in an additional warning line message. From a developer point of view, each additional required parameter requires the creation of additional lines of code. While the example above only has four required parameters, reports with many required parameters become quite convoluted and difficult to maintain.

Ranzal again turned to the logic processing capabilities of Oracle SQL. Within the data model, we created a new data set to create a parameter status (named PARAM_STAT) to look at the bind values passed by the BI Publisher parameters. We came up with the following SQL template to generate a more succinct warning message within the column value PARAM_STAT (note that n denotes the number of required report parameters):

BI Publisher post 2 4

There is an argument for creating a SQL statement that concatenates all missing parameter names with a comma and then uses logic to correct the punctuation; however, we felt that from a reusability standpoint, it would be best to compartmentalize the statement using the WITH TABLE1 statement. Using the above SQL template, report developers merely have to update the following lines:

  • 4 – 7:  Data model parameter names (i.e. :PRMBU) and report parameter names (i.e. Business Unit)
  • 10:  Data model parameter names (i.e. :PRMBU)
  • 15 – 20:  Replace the PARAM_COUNT comparison values (n, n – 1, and n – 2)

Using the example above with the required parameters for year, period, business unit, and ledger, the following SQL statement was generated:

BI Publisher post 2 5

Using this parameter status value results in a much more succinct XLST template that needs only to evaluate whether PARAM_STAT has a value (white space added for clarity):

BI Publisher post 2 6

The client has hundreds of BI Publisher reports and plans to continue to develop additional reports as their Oracle Business Intelligence platform becomes the standard reporting tool. By using the SQL template along with the simplified RTF template, the real work becomes creating the table, pivot table, or chart within the RTF template.  Fortunately, the Ranzal team was able to create an Excel-based VBA macro that automates the generation of the majority of the client’s templates. We will discuss this tool in a later post.

These two examples demonstrate the Ranzal team’s commitment to taking a proactive stance to examining current processes and looking for opportunities for improvement.  As we worked through the technical details of this implementation, we carefully balanced the idea of a user-centered experience against the often competing need for a simplified methodology and process for report developers. To accomplish the latter, we went through several phases of technical refinement, demonstrated the process to developers, and provided thorough documentation. This ensures that when the time comes to turn the maintenance of these reports over to the client, there is a complete knowledge transfer as well.

Dynamic Report Grouping With Oracle BI Publisher

Edgewater Ranzal is working with a client to convert XML Publisher and nVision reports to BI Publisher as part of a larger initiative to consolidate reporting under the Oracle Business Intelligence solution.  The client currently does not use the BI Publisher Layout Editor, but rather relies on RTF templates to display results to the user. One nVision report in particular presented a challenge because of the grouping requirements.

The report requires users to enter an Account range, and the resulting tables need to be grouped by individual accounts. There are also seven optional wildcard prompts, including Product and Department.  If the optional prompts are left blank, the results need only to be grouped by the individual accounts; however, if values are entered for the optional prompts, the subsequent results need to be grouped by all resulting unique combinations for the prompts entered. For instance, if the user enters 10000 to 20000 for the account range and all departments beginning with 10, an example report may be:

BI publisher 1

Sample Data Only

If the user adds the wildcard criteria (%) for the optional prompt Product, the results are further grouped by Product as such:BI publisher 4

Sample Data Only

One approach to meet the client’s needs for this particular nVision report is to use the grouping feature in the Microsoft Word BI Publisher Table Wizard. To fulfill the requirement of grouping only when users enter values in the optional prompts, the XLST statements that create groupings can be wrapped in IF statements that evaluate the prompts for null entries. For example, Department and Product can be evaluated as such (note that all prompts begin with PRM):

BI publisher 2

This approach has two drawbacks: First, after adding the additional evaluations for the other five optional prompts, the XLST within the RTF template becomes quite convoluted. The second, and more limiting factor, is that the IF statements to end the “group by” statements (below the table template) result in either a non-functioning report or incorrect groupings.

 A second and more viable option is to use the Data Model to leverage Oracle SQL which has more robust logic evaluation capabilities than XLST. To meet the client’s needs, an additional column was added to evaluate user prompt values (note that all prompt variables begin with PRM, and CHR(13) returns a carriage return):


This column evaluates each optional prompt for a value and, if the user has made an entry, concatenates the common name (i.e. Department and Product) with the value of the respective row and a carriage return; otherwise, a null value is returned. The Microsoft Word BI Publisher Table Wizard feature is then used to generate the XLST needed to group the table by the new column GRPOPT in a more succinct fashion:

BI publisher 3By leveraging the Data Model SQL rather than XLST within the RTF template, Ranzal recreated this nVision report while maintaining the sort of dynamic capabilities normally seen in Oracle Business Intelligence Answers. The additional SQL statements add no overhead to the BI Publisher report, and the report runs as fast as or faster than, the corresponding nVision report. The delivery of this report opens up new reporting possibilities for the client, and it reinforces Ranzal’s expertise in the Oracle Business Intelligence tool set.

Oracle Business Intelligence Essbase Cube Builder: Continued Integrations with Essbase and OBIEE

Oracle has been busy focusing on improved consolidation of their BI applications this past year. This next offering within Oracle’s arsenal of BI apps will allow for enhanced integrations between the multi-dimensional and relational worlds of Essbase and OBIEE. The new application is called Oracle Business Intelligence Essbase Cube Builder (OECB) previously referenced as Oracle Essbase Integrator (OEI) during beta testing and its purpose will help refine and make for more consistent binary integrations. OECB will permit OBI apps to push metadata and data into Essbase cubes, a significant advancement for OBIEE users where leveraging in-depth ad hoc and what-if scenarios can be available. You can download OECB on the Oracle e-delivery site:

OECB Download

Oracle Business Intelligence Essbase Cube Builder

OECB will bestow an integrated BI platform that supports OLAP capabilities and dashboards among others. OECB will also allow Essbase to leverage metadata and data from OBI and OBI apps. Other supports will include what-if scenarios, allocations, spreading, changing attributes, and multiple hierarchy comparisons.

From a user’s perspective, OECB will provide seamless authentication from OBI to Essbase which reduces maintenance and improves the user experience. Users can also feel confident that metadata and data will have the same context across platforms which mean users will see the same dimensions, members and measures between their OBI and Essbase apps. The environments will be synchronized as updated changes will be retained and applied with data values matching between the two apps. OBI dashboard metadata and data contents will be synchronized to Smartview. OBI physical/business model and mapping/presentation layers will be synchronized to Essbase. Additional support features indicated above affords users with the ability for more robust development. All of this becomes available starting with version 11.1.2. Prior versions will also become available after the official release of OECB.

The implication here is if you’re a traditional OBIEE shop wanting to add flexibility to improve analysis with a powerful application like Essbase, OECB will be your opportunity. As Oracle continues to provide expanded integrations between Essbase and OBIEE, see how this new offering called Oracle Business Intelligence Essbase Cube Builder can be leveraged within your organization.

Creating an OBIEE Repository for Relational Data Source

OBIEE (Oracle Business Intelligence Enterprise Edition)

In this part of my OBIEE blog, I’ll guide you through basic steps to create an Oracle server repository and use it to bring over a relational data source for use in OBI Answers. As of OBIEE version, Essbase is supported as an OBI data source allowing the user to integrate Essbase data with OBI Answers, OBI Interactive Dashboards, and OBI Publisher. The latest version of OBIEE is Refer to my part 2 blog (OBIEE and Essbase – Defining OLAP Integration) for importing Essbase content into OBIEE.

For the below steps, I will be using SQL Server 2005 relational database as my source but you can use Oracle 10g or older versions of either tool.

To create an Oracle repository, open the Oracle BI Administration Tool and select File | New and name your new repository.



Set security by selecting Manage | Security. Assuming you are the admin, select Users | Administrator. Right click Administrator, select Properties to enter an admin password and confirm the password. Close out Security Manager.





To import a relational data source, select File | Import | from Database.


Select a connection type.


Select the relational data source, enter login credentials and click OK.


Enter the relational table to import. Deselect all but Tables, Keys, and Foreign Keys and click Import. If you are using Views instead of Tables, change accordingly.



The relational table will import into the Physical layer of the Administration Tool.



Test the import by right clicking a column (Branch_Name is selected in this example) and select View Data. Values for the selected column should populate in a view data table.



Drag the imported relational table folder from the Physical layer to the Business Model and Mapping (BMM) layer. In the BMM layer, here you can create logical tables and joins to develop the type of model needed for presentation.


Next, drag the relational table from the BMM layer to the Presentation layer to finalize its presentation for the user. Manipulation by presentation can be performed in this layer for Subject Area use in OBI Answers.


For your reference and as a recap from my part 2, here is the significance of each layer:

1. Physical layer – imported tables and views come from the relational data source; physical joins can be performed here
2. BMM layer – this layer organizes imports from the physical layer into logical categories
3. Presentation layer – BMM entities are organized for user presentation

Once your Presentation layer is complete, it can be made available for OBI Answers to create dashboard content bringing both relational and multidimensional data sources into one view. A sample of an Answers view is displayed below combining both relational and multidimensional data sources into a combo box allowing for choice among regions. Any selection of region updates both relational and multidimensional tables for view.





This is just one simple example of the product’s capabilities. OBIEE is redefining how we approach BI with the evolution of this product improving on how we develop it. There is a great deal of flexibility within OBIEE for relational and multidimensional reporting and those who understand how to leverage this tool will see its impact upon their organization for the better.