Search Results for “excel” – Page 3

Schedule Data Refresh for SSAS Connected Excel Workbooks with PowerPivot for SharePoint

Published March 24, 2015

Using Excel Services, SharePoint users have been able to share workbooks that are connected to back end data since SharePoint 2007. Typically, the connection is made to SQL Server, or to Analysis services although a wide variety of sources are available. It’s also possible to publish individual components from these workbooks anywhere within the site collection through the Excel Web Access web part. Users can navigate to a dashboard page that contains all sorts of elements including an Excel chart that is connected to back end data. Well, to be precise, it was connected to back end data, the last time the workbook was saved. The workbook itself can be refreshed, but only manually.

When you open an Excel workbook in a browser through Excel services, by default, you’ll see the visualizations and any stored data in precisely the way that the workbook was when it was last saved. If you need to see more up to date data, you can select “Refresh Connections”. If (and sometimes that’s a big if) the server and connections are set up properly, the server will fetch updated data and update the workbook.

This works well enough, but the problem is that when you, or anyone else opens the workbook again, they’ll still see the old version of the workbook, and will need to manually refresh the date again. In addition, any visualizations published elsewhere on a dashboard will also continue to show old data unless manually refreshed. If the amount of data is significant, this poses a serious performance issue to the server(s). There’s also a significant usability impact in that it’s a pretty big ask of an end user to have them constantly hitting a refresh button.

To get around this issue, one option is to set the refresh options in the data connections of the workbook. Excel Services respects these options. There are two settings that we need to be aware of, periodic refresh, and refresh on open. Connection properties can be accessed within the Excel client by selecting the Data tab, choosing Connections, then highlighting the connection in question and selecting Properties.

Periodic refresh will allow the workbook to be automatically refreshed in the background while it is opened in the browser. This can be useful when the source data is changing frequently. Refresh on opening will have the greatest impact in our scenario, as it will automatically refresh the data in the workbook whenever the file is opened. This will also work with published objects (Excel Web Access web parts) – every time that the web part is opened, the data will be automatically refreshed. This solves the usability problem above because the user no longer needs to manually update the data. However, it does not affect the server load problem.

Due to the fact that the data and visualizations retain the state that they had when the workbook was last saved, it also affects search. When the search indexer runs, it will only index the data that is saved in the workbook. It has no means of refreshing the data. Finally, in addition to the load imposed on the servers by constant refreshes, if the quantity of data being refreshed is large, users can experience significant lags when loading the file. This obviously introduces another usability option. While the refresh options in Excel are helpful, they don’t fully solve the problem. What is needed is a way to automatically open the file for editing, refresh the data, and resave it to SharePoint.

If you have ever used Power Pivot for SharePoint, you know that it can do exactly that. Power Pivot for SharePoint contains two primary elements – a specialized instance of SQL Server Analysis Services that allows users to interact with workbooks that contain embedded PowerPivot models, and a SharePoint service application that among other things, keeps those embedded models refreshed. Using the PowerPivot Gallery (enabled when PowerPivot for SharePoint is installed), you can configure a workbook’s refresh options by clicking on the icon in the Gallery view, or by selecting “Manage PowerPivot Data Refresh” in the simple All Documents view.

Data Refresh options in PowerPivot Gallery View

Data Refresh options in All Documents View

Once configured, the PowerPivot for SharePoint Service will refresh the data model in the workbook on a periodic basis (no more than once per day). The service essentially opens the workbook in edit mode, refreshes all of the data connections, and saves the workbook back to the library. If versioning is enabled, it will be saved as a new version. Unfortunately, if you’re not using a PowerPivot data model, the options are unavailable. In Gallery view, the icons are simply unavailable, and while the option is available in the All Documents view, selecting it results in an error.

On the surface, it would seem that using workbooks with PowerPivot is the only option for keeping large volumes of back-end data up to date in Excel visualizations. However, there is a small loophole that you can take advantage of.

The refresh function in PowerPivot for SharePoint refreshes all of the connections in a workbook. While this option is unavailable if the workbook has no embedded PowerPivot model, when it does, it refreshes ALL of the data connections in the workbook, whether they connect to a model, a back end SSAS server, SQL server or whatever. So therefore, if you want to keep your connected data refreshed, the solution is to add a dummy PowerPivot model to your workbook.

Simply open up the PowerPivot window, import some small amount of data from an external source, and save it. Once saved, the PowerPivot refresh options will appear, and you’ll be able to schedule data refresh for your workbook. You can even deselect the refresh of the source data for your dummy model, and the other connections will work just fine.

Once your workbooks are being updated automatically, your users will be presented with up-to date data on load with no delays, all dashboard visualizations will be up to date and quick to render, and the visible data will be picked up by your search crawler. All will be well with the world.

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Power Pivot Updates to Excel 2013 – November 2013

Published December 3, 2013

Did you notice the update to Power Pivot in Excel 2013? Did you know that one was available? Neither did I until I heard about it 2 weeks ago. It certainly came without fanfare, and I’ve only finally gotten around to getting it on my system recently (more on that later). The only visible change that I can see is the support for synonyms. You have always been able to rename columns in Power Pivot, but now you can specify alternate names, or synonyms. This is to better support the upcoming natural language query feature called Power Q&A.

You’ll know if you have this update by clicking on the Power Pivot tab, clicking the manage button, and finally selecting the Advanced tab from the Power Pivot window. If you see the synonyms button in the ribbon, then you have the update.

Working with synonyms is pretty straightforward. I have a table of airline codes loaded, and the table has a “comments” column. I may want to refer to that column as “notes”, or “other information”. To do so,I click the synonyms button in the ribbon. Power Pivot flips to diagram view, and opens up the synonyms editor on the right side of the window. For the “Comments” field, I simply enter my alternate terms separated by commas. And that’s about it.

Once it is available, Power Q&A will make use of these synonyms when performing natural language queries, but for now, they’re not really used for anything. What I find interesting here though is the way that this update has been delivered.

As I mentioned above, I was unaware of this update until I heard about it through word of mouth. It was not added through Windows update of WSUS, but it was streamed out to users that are using subscription based Office installs from Office 365. In particular, it was sent to users that installed Office using the new Click-To-Run delivery method. I was using an MSI based Office installation, so I never saw it. In order to get this update, I literally had to uninstall Office, then reinstall it using Click-To-Run. As far as I am aware, this is the only way to receive this update.

I also find it odd that while client side changes to Lync were called out in the “What’s New: November 2013” article on the Office 365 Technology blog, no mention whatsoever was made of this change. It’s almost as though this delivery system is being tested with a low impact feature first. I also find it interesting in that the new “cloud first” deployment approach applies not only to the services themselves, as you might expect, but to the clients that use those services. It makes sense, but may take some getting used to.

I’ve been one of those MSI holdouts. I’m an old dog, and Click-To-Run is a new trick, but I’ll be using it moving forward. There’s really no reason not to.

How To Load Data Directly Into the Excel (Power Pivot) Data Model

Published September 6, 2013

In a recent post, I discussed that while Power BI sites allow for data models up to 250 MB, the size of the worksheets portion of any workbook cannot exceed 10 MB. This is because of the fact that while the data model is passed to Analysis Services for processing, the worksheet itself is still subject to the hard 10 MB limit imposed by Excel Services. It is therefore vital to keep a minimum amount of data in the workbook.

The best way to minimize the workbook size is by storing the data exclusively in the data model. There are a number of data import methods in Excel/Power Pivot, including the new Power Query. Doing this is more obvious in some than others.

Power Pivot Import

Prior to Excel 2013 and/or Power Query, importing into the model exclusively was almost default behaviour (yes it was possible to create models from Excel data, but that wasn’t the most common use case). You would invoke the Power Pivot add-in by clicking on the tab, click the manage button, and you would be taken to the Power Pivot management window where you could import data from a wide variety of sources

This approach still works just fine. Data imported using this method will be brought directly into the model, which is what we want to achieve. However, Excel 2013 now supports the data model by default, and allows data to be imported to it through several approaches. The Power Pivot editor is included, but is not enabled by default, so it is not immediately obvious that it is an option.

Excel Import

With Excel 2013, you can now use native Excel functionality to get data into the model. The most familiar way to do this is through the regular Excel data import interface. You click on the Data tab in Excel, choose “From Other Sources”, and select your data source.

Once done, and the connection is selected, you are presented with the Data Connection Wizard. There is a subtle change to the wizard in Excel 2013 when compared to previous versions, the addition of “Enable selection of multiple tables”.

Selecting this option will of course allow you to import multiple tables simultaneously, but what it will also do is to automatically add those table to the data model for you. However if you don’t select this option, there is still an opportunity to add to the data model. After clicking next and creating a connection, you are presented with the Import Data dialog.

At this point, if you only selected one table, you can select the option to add it to the model here. If you had chosen the multi table option earlier, this option would be greyed out and selected – you have no choice. However, the most important part of this dialog is the “Select how you want to view this data” section. By default, Table is selected. If it is left selected, data will be imported directly into the model, but it will also be imported as a table into the worksheet. This is a BAD THING. Yes, it’s what users are accustomed to, but instead of just storing the data in a nice tiny compressed data model, you’re also storing it in a big fat worksheet, and it won’t take much data to exceed your 10 MB Office 365 cap. In addition to that issue, by doing this, you also limit yourself to about a million rows of data (Excel limit) instead of the hundreds of millions of rows that the model can handle.

Any of the other options will allow you to import directly into the data model, bypassing the worksheet altogether. These options are your friends. Use them.

Power Query Import

The latest, and most impressive method of importing data into Excel is Power Query. A description of Power Query is beyond the scope of this article, but it allows for relational drill down, complex transformations, nested queries and a host of other options in addition to a wide variety of new data sources (Facebook, Hadoop, etc). It’s also the ONLY way to consume data served up by the on-premises Data Management Gateway component of Power BI. It provides a very wide array of data import options to the end user.

However, one of the problems with the tool is that it tends to promote the importing of data into worksheets, which is a practice that in my opinion should be strongly discouraged. It is certainly easily possible to avoid this behaviour, as I’m going to demonstrate shortly, but it does require that the user be aware of the importance of this. Importing to the worksheets should be an option, not a default as it currently is. My concern is that far too many people will build a large fancy report that winds up being over the 10 MB workbook limit and publishing it to Office 365, only to have Power BI fail because it’s too large, and then give up in frustration.

To import data directly into the model with Power Query, first click on the Power Query tab in Excel, and then select your data source. After entering the server/database specifics and your credentials if necessary, you are presented with the Power Query Editor dialog.

After performing any necessary transformations, you are ready to import your data. To do so simply click the Done button. You will then be returned to Excel, which will immediately import your data into a worksheet, and open up the Query Setting window. So – what happens when the data source exceeds 1,048,567 rows of data? Pretty much what you would expect – you receive an error. A pretty explicit one at that.

In this case, the data is not brought into the worksheet, but the query is still defined, so the model can still be successfully populated by clicking the “Load to data model” link. However, if the source data does fall within Excel’s parameters, it will be brought in to the worksheet.

In order to load it into only the data model, we must first deselect the Load to worksheet slider, and then click the Load to data model link. (Note: I have no idea why these are two different control styles). The first option can be selected as the data is loading, so you don’t have to wait for the load to complete. If you select the first and not the second, the data is not loaded anywhere. This is a perfectly valid situation. With Power Query, you can base queries on other queries, or append/merge queries. By doing this, you can load only the end result, and not the intermediate queries.

Once done, the worksheet will display the “Load to worksheet disabled” message in place of the result set.

However, opening the Power Pivot management window will display the imported data, and you can work with the model.

In summary, Power Query brings many new capabilities to the data loading and transformation process. However, with great power comes great responsibility. Unless Microsoft makes a change to the default behaviour of the Power Query import process, I’ll be telling anyone that listens to make sure that they always turn off the “Load to Worksheet” option if they’ll be publishing to Office 365.

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Using the new Excel 2013 Data Model with SharePoint

Published July 17, 2012

One of the biggest new features in Excel 2013 is the ability to import and analyze massive amounts of multi tabular data. However, it’s not really all that new – if you’ve used PowerPivot in the past, you’ll already be familiar with the underlying technology. What’s really new here is that Excel can now work with these large data models without the need of an add-in. The even better news is that Excel Services in SharePoint supports this new data engine. What may be a little unclear is what is necessary to make it all work, and this post is an attempt to clarify this a little bit.

To really understand what’s new, we need to understand what is (or was) available via the 2010 family of products. It’s a bit of a bumpy ride that covers 3 main product groupings, SQL Server, SharePoint, and Office, so hang on, and I’ll do my best to clarify.

Background

When SharePoint Server 2007 was initially released, it contained Excel Services. Among other capabilities, the original Excel Services was a means of surfacing an Excel workbook, or part of a workbook to a user through a browser interface without the requirement to have Excel installed client side. It was relatively limited, and the version of Excel Services that shipped with SharePoint 2010 removed many of those limitations. The Office Web Applications that install alongside of SharePoint bring the ability to edit workbooks directly in the browser.

At approximately the same time that SharePoint 2010 was released, the SQL server team released PowerPivot for Excel. PowerPivot is a free, downloadable add in to Excel that allows Excel users to work with massive amounts of data, and to analyze it in ways previously available only to advanced OLAP systems. The reason that it can accommodate the required data volumes is because it adds a new highly compressible data engine (previously named Vertipaq, now called x-Velocity) directly into the Excel file. These PowerPivot workbooks work perfectly when you have Excel 2010 and the PowerPivot add in installed, but what happens when you want to use Excel Services to share it with your team?

To solve this problem, the SQL Server team also released PowerPivot for SharePoint and included it with SQL Server 2008 R2 (read – it’s not available out of the box with SharePoint 2010). Installing PowerPivot for SharePoint in your SharePoint farm adds a new SharePoint shared service that works with Excel Services to allow those PowerPivot enabled workbooks to be rendered up by the server. These workbooks are “live” so that users can very effectively interact with them, using slicers, etc.

The way that it does this is that it creates a local “runtime” version of Analysis Services on the server that is used to perform all of the necessary analytical calculations. Also, to keep the data fresh, PP for SP also contains a series of timer jobs and configurations that connect to the back end data sources on a periodic basis. If you’re up for it, there’s a very detailed description of the architecture here.

Pre 2013 Usage

Without getting into much detail (like I will below with 2013 ), setting up PowerPivot for SharePoint involves starting with a SharePoint farm that is enabled for Excel Services, adding the PowerPivot for Excel add-on to one or more workstations that will create at least one PowerPivot enabled workbook, and then installing PowerPivot for SharePoint onto a SharePoint server FROM the SQL Server 2008 R2 or 2012 media. After performing some (relative onerous in some cases) configuration steps, The PowerPivot enabled workbooks can be uploaded into a SharePoint library or PowerPivot gallery, and then used by anyone accessing the SharePoint environment. There are quite a few moving parts here including

Excel 2010
SharePoint Server
Excel Services
PowerPivot for SharePoint
SQL Server
Analysis Services

As with any system, the more moving parts that there are, the more opportunity there is for failure. In addition, there are a fairly broad set of skillsets required to make it all work, so any simplification is welcome.

What’s New in 2013

The big news is that the x-Velocity engine that is the underlying power behind PowerPivot is included in Excel 15 without the use of an add-in, which will undoubtedly increase its adoption. This does lead to some practical questions around how this works with SharePoint 2013 and Excel Services. Couple this with the fact that PowerPivot still exists, and the landscape can get pretty confusing.

Excel Services itself can render Excel workbooks with embedded data models, but it’s not possible to interact with them. Clicking on slicers, filters etc. simply won’t work. The workbook can be seen, but it is completely static. Any attempt to interact with it will result in an error like the following.

As with PowerPivot in SharePoint 2010, what is needed is an Analysis Services engine to perform the necessary work. The big difference with 2013 is that the engine no longer needs to be installed on the SharePoint server – you can connect to an Analysis Services server elsewhere on your network, and that server does not need to be part of your SharePoint farm.

That server does, however need to be operating in “SharePoint mode”, and it can be a little unclear as to what that means. In the end what it means is that PowerPivot for SharePoint (available on SQL 2012 media) is installed on a non-SharePoint server. However, if you try to do this using the release versions of SQL Server 2012 (or 2008 R2 for that matter) you will get an error because the SharePoint bits are not present. What is needed is a minimum of SQL Server 2012 SP1, which as of this writing is available as a Community Technology Preview V3, and can be found here. To set this up, run the SQL install on the AS machine, and at the Setup Role prompt choose SQL Server PowerPivot for SharePoint.

Unless you need it, you don’t need to install the relational engine. No, you’re not really using PowerPivot at this point, but it’s the option you need to pick. I suspect that the name may change by the time SQL Server 2012 SP1 is released, but for now, that’s what it is.

Follow the remaining prompts to complete the installation. After the installation completed, resist the urge to run either of the PowerPivot configuration tools. These are used if we actually ARE using full PowerPivot (see below), and that will require a SharePoint server. If you run it on a non SP farm machine, things can get very messed up.

Once that is set up, you need to tell Excel services to use it. Navigate to your Excel Services service application in Central Administration, and select “Data Model Settings”.

The options here are pretty limited…what’s your Analysis Services server? Click on Add Server, and add your Analysis Services (PowerPivot for SharePoint) server. Unless you’ve changed it, PowerPivot for SharePoint will have installed in a non default instance named POWERPIVOT, so the server name will take the form SERVERNAMEPOWERPIVOT, as below

You may need to run an iisreset on your SharePoint front end servers, but once this is complete, you’re ready to test. To do that, you’ll need to start up Excel 2013, and import multiple tables from a data source. This triggers creation of the model.

Once imported (it may take a bit), create a pivot table and add an interactive element (a slicer is perfect). Test it out, and if it’s working, save it to a SharePoint document library.

Close Excel, navigate to the library, and click on the workbook. It should open in the browser. Once open, trigger the interactivity element (click the slicer) and if it works, you have everything configured properly.

If you want to have a look under the covers, start SQL Server Management studio, and create an Analysis Services connection to your instance (defined above). You should see a new model created for your workbook.

If it’s not there, make sure that you’ve interacted with the workbook – it doesn’t get created until the first interaction.

Whither PowerPivot?

Now that the engine is baked into Excel, is there any need for PowerPivot any longer? As we’ve seen, for simple analysis, no. However, if we want to do anything advanced, like filtering import data, modifying the model, creating complex relationships, or using DAX (the tabular answer to MDX), the answer is emphatically yes.

On the client side, PowerPivot is actually included with Excel – no download required anymore. It is disabled by default, and is enabled through the Excel Com Add in interface. You can view this as your individual or team model designer. With it you can create complex models and then share them out via SharePoint. Optionally these very same models can be imported into Analysis Services projects if/when they become mission critical, or too large. Another nice thing is that models created with PowerPivot can be shared on a SharePoint farm that is not using the full PowerPivot for SharePoint (but does need “Analysis Services in SharePoint mode – confused yet?).

On the Server side, we can install PowerPivot for SharePoint, just as we did with SharePoint 2010. The reason that we would want to do this is to gain access to PP for SP features like the Pivot Gallery, but primarily to access refresh capabilities. In the scenarios that I’ve described above, using Excel Services, the data that we’re using is relatively static. Data is imported when creating the model, and is used for analysis, but there is no mechanism to refresh the data in the model in the way that Analysis Services can. PowerPivot for SharePoint offers this capability in SharePoint 2010, and this carries forward with SharePoint 2013.

Configuring PP for SharePoint 2013 is beyond the scope of this post, but I will likely address it in a future post.

Compatibility

With Office 2013 we have the Third major release of PowerPivot, and the data model on the second platform for SharePoint. It’s not likely that anyone will upgrade all of their applications immediately, so the question is, what works where? The good news is that the core engine is relatively unchanged, and models created with any versions of PowerPivot should work well with Excel Services 2013 (and Analysis Services SharePoint mode). Conversely, models created with Excel 2013 whether with or without the PowerPivot 2013 add-in should work with previous versions of SharePoint. I haven’t yet had the chance to try out all of the various permutations and combinations, and would like to hear what your experience is.

Hopefully, this helps clear up some of the confusion around the Excel BI features in SharePoint 2013. Hopefully the naming in the SQL media installation gets cleaned up by release.

Update – July 26 2012 – If you’re interested in trying out any of the tools that I mention below, you can use a pre-built environment that’s been set up on CloudShare. Click here to sign up and access the environment.

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Connecting to Cubes and External Data with Excel in SharePoint

Published December 6, 2010

While many people are still unaware of it, Excel 2010 (and even previous versions) is a very powerful business intelligence client. That’s right, I said Excel. And I don’t mean the classic grab some data, do some charts and email it around sort of Excel, I mean connecting it to Analysis Services cubes and performing fast, useful data analytics on known sets of data. It can also go off and do some pretty amazing things with the Data Mining add-in, or PowerPivot, but for now I’m going to restrict myself to using core capabilities, and getting them published to SharePoint.

To start with, it’s important to understand how SharePoint interacts with Excel. Of course, at it’s core, you can store Excel files in a SharePoint document library,and open them in Excel. However,starting with SharePoint 2007,SharePoint included Excel Services, which allowed you to open a spreadsheet directly in the browser (without having Excel installed or using any ActiveX trickery). It also provided an Excel calculation engine, that was programmatically callable. Why would that matter? A power user could develop a complex model with Excel, store it in SharePoint, which could then be used as a calculation “black box” for other things. The model could also be tweaked by the power user as necessary with them needing to worry about coding. Finally, you could expose part of the spreadsheet (and named range or object) through the Excel Services web part, which would truly allow you to incorporate Excel content into a dashboard.

SharePoint 2010 brings more to the table, including not only the browser consumption of spreadsheet content, but editing through the Excel Web Application.

However, all of this power does not come without its risks, and when interacting with external data, risks abound. Microsoft has done an excellent job of providing us with a highly secure infrastructure that allows us to do what we want here, but the only trouble is that it’s not always clear which approach to take. My aim in this article is to navigate through the process of connecting to an external data source (an analysis services cube, but the principle applies to others) in a particular scenario in a simple fashion. Our scenario is a fairly common one:

One Front End SharePoint Server
One SQL back end Server hosting the SharePoint databases
One SQL server hosting the Data Warehouse and the Analysis Services cubes
Kerberos not installed in the environment

In this environment, we have an authentication problem, the famous double hop problem. If I as a user ask the server to process a spreadsheet that connects to external data, it can’t just take my authentication token and pass it along to the external data source. What we need to do is to set up a proxy account (this has its own set of implications that I won’t get into here) and we’ll do that via the secure store service. If you’re using Kerberos, then you don’t have the double hop problem and the Secure Store part of this won’t apply, but then you’re probably busy enough dealing with Kerberos issues anyway….

If you’ve ever connected to external data, and then sent the file to someone else, you’ll know that they get prompted to verify that they want to connect to the data source and that they trust the connection. In this case, the author has created an embedded data connection. Embedded data connections are not allowed (or at least are strongly discouraged) on the server, because it has no way of verifying the authenticity of the connection.

The way that we deal with this in SharePoint is by creating a connection file, and then publishing it to a trusted location in SharePoint. Administrators need to take heed, in that by default, Excel Services trusts all SharePoint locations, which makes life easy, but not necessarily secure. The library that the connections are stored in should also utilize approval features, but this is not required. This walkthrough isn’t concerning itself with the security aspects, but they need to be considered in any real world situation.

Most of the steps below only need to be performed once, and connection documents can be reused, etc. However, this walkthrough is aimed at getting everything all set up from scratch.

We also don’t want to store our credentials in our connection string, so we will utilize the Secure Store service in SharePoint which will allow us to use, without necessarily knowing, a set of credentials. This will allows us to work around the double hop problem in a secure way. We will start with the setup of the Secure Store Service.

1. Set up the Secure Store Service ID

From Central Administration, navigate to Manage Service Applications, and click on your Secure Store application. If you don’t have one already, you’ll need to create one. You should know that SharePoint Foundation does NOT come with the Secure Store service. However, Search Server Express 2010 does come with it (and a few other things). Given that it’s free, it provides a nice option.

The Secure Store Service Application relies on both the Secure Store Service (duh) and the Claims to Windows Token service. You’ll need to make sure that they’re both started in the “Services on Server” Section in Central Administration System Settings.

The secure Store application requires an encryption key. If one has not already been created, you’ll see a message indicating that you need to do so. The process is simple, just click the “Generate New Key” button in the ribbon.

Once a key has been created, we need to create a new target application, which is essentially a set of credentials. This is the application that our connection strings will reference when they need to connect to a back end data source. You create a new application by clicking the “New” button in the ribbon. The New application screen then appears.

There are a couple of things to note on this screen. Firstly, the Target Application ID is the ID that you will be using when you set up your connection below. You can name it what you like, but you’ll need to remember what it is. The Display Name and the Contact E-Mail need to be filled in, but the important thing to note is the Target Application Type field. If this is to be used by more than one person, you need to make sure that it is set to Group. By default, it is set to Individual, which doesn’t work so well in a shared environment. Take it from me – I found out the hard way. When this is filled in, click Next, and you’re presented with the following screen.

The Administrators are just that – the people who will set the properties of this set of credentials. The Members are the people that will be allowed to use this credential set in connections, External Lists etc. In the example above it’s set to anyone authenticated, which again, I wouldn’t recommend in production…..

When done, click OK, and we’re done right? Not so fast. We never actually set the credentials for this application, just everything around it. To do that, we select the application, and click the “Set (credentials)” button in the ribbon, or hover over the ID in the list and select “Set Credentials” from the dropdown.

In the subsequent screen you enter the account and the password (twice) of the credentials that are to be used as a proxy. Click OK and you’re done. A couple of things to note. If using a Windows account the name should be in DOMAINACCOUNT format. The proxy account is NOT a managed account, and if the password changes, you’ll need to come back here to update it. The proxy account should be a least privileges account, with access only to the things that are absolutely necessary to retrieve the appropriate data, or whatever its purpose is. Don’t add it to the Domain Administrators group.

OK, now step 1 is done. Whew.

2. Set up a Data Connection Library

The next thing we need to do is to set up a library to store our data connections. If you’ve set up a BI Site already (to use PerformancePoint), you can use the libraries there. Depending on your requirements, I find that it’s often a good idea to centralize this library and use it from different locations, but your requirements may vary. What we want to create is a Data Connection Library. This library will be used to store connections for both the Office Applications (ODC) and InfoPath UDC).

From the Site Actions menu on the site where it is to be located, select More Options, the, in the subsequent dialog box, Filter by Library, and select Data Connection Library. Give it a name (Don’t use spaces here, you can always come back and add them later, but we don’t want spaces in the internal name), and click Create

What makes this library special is that it uses the “Office Data Connection File” and the “Universal Data Connection File” content types. You could always add these content types to any old document library and achieve the same effect. You could also include Reporting Services connections if you’re using Reporting Services in integrated mode.

This library also needs to be registered as trusted in the Excel Services Application. This is done through the Manage Service Applications section of Central Administration. Simply click on your Excel Services application, click Trusted Data Connection Libraries, and add the URL of your library, if not already there.

3. Set up a Library to house the Excel Reports

You can store the Excel Report that we’ll be creating below into any document library in the Site Collection. If you have set up a BI Center, then you already have a “Reports” library, whose purpose is to do just that. Oddly, by default, this library isn’t set up to contain Reporting Services reports (.rdl files), but that isn’t relevant to my task here.

You simply need to create a new document library, and for the purposes of this example, I’ll call mine Excel Reports (original, huh?)

You’re now ready to create our connection. We’ll use Excel to do that.

4. Create And Store The Connection File

Open a new Spreadsheet in Excel. Click on the Data tab, then click the “From Other Sources” button and choose “From Analysis Services” (obviously, if you’re using something else, choose that).

Enter in the name of your server, and click Next, Select the Database and Cube that you want to connect to, and then click Next again. We’ll need to do a couple of things in the last screen that appears.

First, select “Always attempt to use this file to refresh data”. Then, click the “Authentication Settings” button. This is where it gets interesting.

Window
s Authentication is what you would use if the data resides on the same machine as the SharePoint front end, or your organization is using Kerberos. With this setting, the credentials of the user are used to connect to the data source.If you select None, then the credentials identified as the “Unattended Service Account” (if configured) in the Excel Services configuration will be used. You can only use one of these accounts, and when configuring it, it too will use the Secure Storage Service. We want to select our credential set and we do so by selecting SSS, and entering the ID of the credential set that we created in step 1 above.

Next, we need to save this connection into the SharePoint data connection library that we created in step 2. Click the Browse button, enter the URL of the library in the Address bar, choose a name and click save.

Finally, When you’re done, click finish, and fill out the metadata form that pops up with any comments or keywords that you might want to use later to fine the connection document. Now we have a connection document in the connection library.

5. Create The Excel Content

When you’re done creating the connection document, Excel will prompt you to insert a pivot table or chart. Choose the location, and Excel will insert it for you, and put you in pivot edit mode. You can select your dimensions and measures, and build your chart accordingly. When you’re ready, your worksheet should look something like this.

Later, we’ll want to show just the chart on a dashboard page, and to do that, we need to make sure that our chart has a logical name, so we need to do that, as highlighted above. Any named range can be published out to an Excel Services web part. When ready, it’s time to publish to SharePoint, but we also want to set some file properties first. These properties are very well hidden….

Click on the “File” tab to go to the backstage. Once in the backstage, click on the “Save and Send” tab on the left hand side. Then click on “Save to SharePoint”. Your screen will appear as follows:

Finally, we need to click on the Publish Options button. This allows you to control what gets used by Excel Services, and what appears when the spreadsheet is opened in the browser. It also lets us define parameters which can be used by the Excel Services web part, but I won’t be using parameters here. I will however choose to publish only my chart and my pivot table to Excel Services, so I click on the dropdown option in the Show tab, change it to “items in the workbook”, and check my two items.

Finally I can click OK, then click on “Save to SharePoint” and save the spreadsheet in the library created in step 3 above.

6. Test the File and Publish the Chart in a Dashboard

Navigate to the library that you stored the report and click on it. The file should open in a browser, and you should see the first item (alphabetically) that you set to publish above.

You can switch between published items, using the view dropdown highlighted above. Once you’ve gotten this far, everything is working, and we’re ready to put our chart into a dashboard page.

All that we’ll need to know is the name of the item, and the address of the spreadsheet. In our case, our item is “Chart 2” and the URL of the spreadsheet is http://uvspdev2010/ExcelReports/MySpreadsheet.xlsx. Navigate to anywhere in the site collection that you’d like to show the chart. I’m going to use a team site. From the destination, select Site Actions – Edit Page (or select Edit from the ribbon). Place your cursor where you want the chart to appear, click the Insert tab on the ribbon and click the Web Part button. Select the Business Data category, Choose the “Excel Web Access” part and click insert.

Once added, click on the “Click here to open the tool pane” link, and enter all desired parameters. The two crucial parameters are Workbook and Named Item. When adding content to a dashboard, I find that it is better to remove all of the buttons and web part chrome, but that’s totally dependent on the use case. When ready, my web part parameters look something like this:

At this point, you can click OK, and you should see your item on the page in context.

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Congratulations – you’re done!!

This was meant to be a “Hello World” walkthrough, and thus, I’ve left out quite a bit. You can add slicers and all kind of cool BI functions to your sheet, and they’re work in the browser. This is showing data in a cube, and therefore the chart will be updated when the cube is. You can also use parameters in Excel and drive them through filter web parts and connections on the display pages.

There ARE a lot of moving parts here, but once the infrastructure is set up, power users can do some pretty spectacular things using just Excel and SharePoint, and they can do so in a fully managed environment. Oddly enough, chances are that your power users probably already know both of these tools.

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