Use the CData ODBC Driver for ADP in SAS for Real-Time Reporting and Analytics



Connect to real-time ADP data in SAS for reporting, analytics, and visualizations using the CData ODBC Driver for ADP.

SAS is a software suite developed for advanced analytics, multivariate analysis, business intelligence, data management, and predictive analytics. When you pair SAS with the CData ODBC Driver for ADP, you gain database-like access to live ADP data from SAS, expanding your reporting and analytics capabilities. This articles walks through creating a library for ADP in SAS and creating a simple report based on real-time ADP data.

The CData ODBC Driver offers unmatched performance for interacting with live ADP data in SAS due to optimized data processing built into the driver. When you issue complex SQL queries from SAS to ADP, the driver pushes supported SQL operations, like filters and aggregations, directly to ADP and utilizes the embedded SQL engine to process unsupported operations (often SQL functions and JOIN operations) client-side. With built-in dynamic metadata querying, you can easily visualize and analyze ADP data in SAS.

Connect to ADP as an ODBC Data Source

Information for connecting to ADP follows, along with different instructions for configuring a DSN in Windows and Linux environments (the ODBC Driver for ADP must be installed on the machine hosting the SAS System).

Connect to ADP by specifying the following properties:

  • SSLClientCert: Set this to the certificate provided during registration.
  • SSLClientCertPassword: Set this to the password of the certificate.
  • UseUAT: The connector makes requests to the production environment by default. If using a developer account, set UseUAT = true.
  • RowScanDepth: The maximum number of rows to scan for the custom fields columns available in the table. The default value will be set to 100. Setting a high value may decrease performance.

The connector uses OAuth to authenticate with ADP. OAuth requires the authenticating user to interact with ADP using the browser. For more information, refer to the OAuth section in the Help documentation.

When you configure the DSN, you may also want to set the Max Rows connection property. This will limit the number of rows returned, which is especially helpful for improving performance when designing reports and visualizations.

Windows

If you have not already, first specify connection properties in an ODBC DSN (data source name). This is the last step of the driver installation. You can use the Microsoft ODBC Data Source Administrator to create and configure ODBC DSNs.

Linux

If you are installing the CData ODBC Driver for ADP in a Linux environment, the driver installation predefines a system DSN. You can modify the DSN by editing the system data sources file (/etc/odbc.ini) and defining the required connection properties.

/etc/odbc.ini

[CData ADP Sys] Driver = CData ODBC Driver for ADP Description = My Description OAuthClientId = YourClientId OAuthClientSecret = YourClientSecret SSLClientCert = 'c:\cert.pfx' SSLClientCertPassword = 'admin@123'

For specific information on using these configuration files, please refer to the help documentation (installed and found online).

Create a ADP Library in SAS

Connect to ADP in SAS by adding a library based on the CData ODBC Driver for ADP.

  1. Open SAS and expand Libraries in the Explorer pane.
  2. In the Active Libraries window, right-click and select New.
  3. Name your library (odbclib), select ODBC as the Engine, and click to Enable at startup (if you want the library to persist between sessions).
  4. Set Data Source to the DSN you previously configured and click OK.

Create a View from a ADP Query

SAS natively supports querying data either using a low-code, point-and-click Query tool or programmatically with PROC SQL and a custom SQL query. When you create a View in SAS, the defining query is executed each time the view is queried. This means that you always query live ADP data for reports, charts, and analytics.

Using the Query Tool

  1. In SAS, click Tools -> Query
  2. Select the table sources and the table(s) you wish to pull data from. Then, click OK.
  3. Select columns and right-click to add filtering, ordering, grouping, etc.
  4. Create a local view to contain the query results by right-clicking the SQL Query Tool window, selecting Show Query, and clicking Create View. Name the View and click OK.

Using PROC SQL

  1. In SAS, navigate to the Editor window.
  2. Use PROC SQL to query the data and create a local view.
    NOTE: This procedure creates a view in the Work library. You can optionally specify a library in the create view statement.
    proc sql;
      create view workers_view as
      select 
        associateoid, 
        workerid 
      from 
        odbclib.workers 
      where 
        AssociateOID = 'G3349PZGBADQY8H8';
    quit;
    
  3. Click Run -> Submit to execute the query and create a local view.

Report On or Visualize ADP Data in SAS

With a local view created, you can report, visualize, or otherwise analyze ADP data using the powerful SAS features. Print a simple report using PROC PRINT and create a basic graph based on the data using PROC GCHART.

Print an HTML Report

  1. In SAS, navigate to the Editor window.
  2. Use PROC PRINT to print an HTML report for the ADP Workers data.
    proc print data=workers;
      title "ADP Workers Data";
    run;
    

Print a Chart

  1. In SAS, navigate to the Editor window.
  2. Use PROC GCHART to create a chart for the Workers data.
    proc gchart data=workers;
      pie associateoid / sumvar=workerid
          value=arrow
          percent=arrow
          noheading
          percent=inside plabel=(height=12pt)
          slice=inside value=none
          name='WorkersChart';
    run;
    

Ready to get started?

Download a free trial of the ADP ODBC Driver to get started:

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Learn more:

ADP Icon ADP ODBC Driver

The ADP ODBC Driver is a powerful tool that allows you to connect with live data from ADP, directly from any applications that support ODBC connectivity.

Access ADP data like you would a database - read, write, and update ADP FALSE, etc. through a standard ODBC Driver interface.