Developing Microsoft SQL Server 2012 Databases

•Enabling Named Pipes Protocol for Both Instances

•Creating an Alias for AdvDev

•Ensuring SQL Browser is Disabled and Configure a Fixed TCP/IP Port (Only if time permits)

After completing this lesson, you will be able to:

•Describe the SQL Server Platform.

•Work with SQL Server Tools.

•Configure SQL Server Services.

This module explains how to use and convert data types. Also it focusses on how to work with specialized data types, and character data types.

•Using Data Types

•Working with Character Data

•Converting Data Types

•Specialized Data Types

•Choosing Appropriate Data Types

•Writing Queries With Data Type Conversions

•Designing and Creating Alias Data Types (Only if time permits)

After completing this module, students will be able to:

•Work with data types.

•Work with character data.

•Convert between data types.

•Use specialized data types.

This module explains how to design, create, and alter tables. Also it focusses on working with schemas.

•Designing Tables

•Working with Schemas

•Creating and Altering Tables

•Improving the Design of Tables

•Creating a Schema

•Creating the Tables

After completing this module, students will be able to:

•Design Tables.

•Work with Schemas.

•Create and Alter Tables.

This module explains how to enforce data integrity, and implement domain integrity to maintain high quality data. Also it focusses on implementing Entity and Referential Integrity.

•Enforcing Data Integrity

•Implementing Domain Integrity

•Implementing Entity and Referential Integrity

•Designing Constraints

•Testing the constraints

After completing this module, students will be able to:

•Explain the available options for enforcing data integrity and the levels at which they should be applied.

•Implement domain integrity.

•Implement entity and referential integrity.

This module explains the core indexing concepts and effectiveness of each data type commonly used in indexes.

•Core Indexing Concepts

•Data Types and Indexes

•Single Column and Composite Indexes

•Exploring existing index statistics

•Designing column orders for indexes

After completing this module, students will be able to:

•Explain core indexing concepts.

•Describe the effectiveness of each data type common used in indexes.

•Plan for single column and composite indexes.

This module explains how tables can be structured in SQL Server databases. Also it focusses on designing and working with clustered indexes.

•SQL Server Table Structures

•Working with Clustered Indexes

•Designing Effective Clustered Indexes

•Creating Tables as Heaps

•Creating Tables with Clustered Indexes

•Comparing the Performance of Clustered Indexes vs. Heaps

After completing this module, students will be able to:

•Explain how tables can be structured in SQL Server databases.

•Work with clustered indexes.

•Design effective clustered indexes.

This module explains how to design additional indexes. Also it focusses on how to read and interpret execution plans.

•Execution Plan Core Concepts

•Common Execution Plan Elements

•Working with Execution Plans

•Actual vs. Estimated Plans

•Identifying Common Plan Elements

•Querying Cost Comparison

After completing this module, students will be able to:

•Explain the core concepts related to the use of execution plans.

•Describe the role of the most common execution plan elements.

•Work with execution plans.

This module explains how nonclustered indexes have the potential to significantly enhance the performance of applications and how to use a tool that can help design these indexes appropriately.

•Designing Effective Nonclustered Indexes

•Implementing Nonclustered Indexes

•Using the Database Engine Tuning Advisor

•Nonclustered index usage review

•Improving nonclustered index designs

•Working with SQL Server Profiler and Database Engine Tuning Advisor

•Designing nonclustered index

After completing this module, students will be able to:

•Design effective nonclustered indexes

•Implement nonclustered indexes

•Use the database engine tuning advisor to design indexes

This module introduces Views, and explains how to create and manage Views. Also it focusses on the performance consideration for Views.

•Introduction to Views

•Creating and Managing Views

•Performance Considerations for Views

•Designing, Implementing and Testing the WebStock Views

•Designing and Implementing the Contacts View

•Modifying the AvailableModels View

After completing this module, students will be able to:

•Explain the role of views in database development.

•Implement views.

•Describe the performance related impacts of views.

This module describes the potential advantages of the use of stored procedures along with guidelines on creating them.

•Introduction to Stored Procedures

•Working With Stored Procedures

•Implementing Parameterized Stored Procedures

•Controlling Execution Context

•Creating stored procedures

•Creating a parameterized stored procedure

•Altering the execution context of stored procedures

After completing this module, students will be able to:

•Describe the role of stored procedures and the potential benefits of using them.

•Work with stored procedures.

•Implement parameterized stored procedures.

•Control the execution context of a stored procedure.

This module reviews the techniques that provide the ability to process sets of data rather than individual rows. Also it focusses on how these techniques can be used in combination with TABLE parameter types to minimize the number of required stored procedure calls in typical applications.

•Using the MERGE Statement

•Implementing Table Types

•Using TABLE Types As Parameters

•Creating a Table Type

•Using a Table Type Parameter

•Using a Table Type with MERGE

After completing this module, students will be able to:

•Use the MERGE statement.

•Implement table types.

•Use TABLE types as parameters.

This module explains how to design and implement user-defined functions that enforce business rules or data consistency, and modify and maintain existing functions written by other developers.

•Overview of Functions

•Designing and Implementing Scalar Functions

•Designing and Implementing Table-Valued Functions

•Implementation Considerations for Functions

•Alternatives to Functions

•Formatting Phone Numbers

•Modifying an Existing Function

•Resolve a Function-related Performance Issue

After completing this module, students will be able to:

•Design and implement scalar functions.

•Design and implement table-valued functions.

•Describe implementation considerations for functions.

•Describe alternatives to functions.

This module explains how to use transactions and the SQL Server locking mechanisms to meet the performance and data integrity requirements of your applications.

•Introduction to Transactions

•Introduction to Locks

•Management of Locking

•Transaction Isolation Levels

•Detecting Deadlockss

•Investigating Transaction Isolation Levels

After completing this module, students will be able to:

•Describe the role of transactions

•Explain the role of locks

•Manage locking

•Work with transaction isolation level

This module explores T-SQL error handling, looks at how it has traditionally been implemented, and how structured exception handling can be used

•Understanding T-SQL Error Handling

•Implementing T-SQL Error Handling

•Implementing Structured Exception Handling

•Replacing @@ERROR based error handling with structured exception handling

•Adding deadlock retry logic to the stored procedure

After completing this module, students will be able to:

•Design T-SQL error handling

•Implement T-SQL error handling

•Implement structured exception handling

This module, explains what DML triggers are and how they enforce data integrity. Also it focusses on the different types of triggers available, and how to define triggers in a database.

•Designing DML Triggers

•Implementing DML Triggers

•Advanced Trigger Concepts

•Creating and Testing the Audit Trigger

•Improving the Audit Trigger

After completing this module, students will be able to:

•Design DML triggers.

•Implement DML triggers.

•Explain advanced DML trigger concepts.

This module explains how to use CLR integrated code to create user-defined database objects that are managed by the .NET Framework.

•Introduction to SQL CLR Integration

•Importing and Configuring Assemblies

•Implementing SQL CLR Integration

•Assessing Proposed CLR Code

•Implementing a CLR Assembly

•Implementing a CLR User-defined Aggregate and CLR User-defined Data Type

After completing this module, students will be able to:

•Explain the importance of SQL Server CLR Integration.

•Import and configure assemblies.

•Implement objects that have been created within .NET assemblies.

This module introduces XML and shows how XML data can be stored within SQL Server.

•Introduction to XML and XML Schemas

•Storing XML Data and Schemas in SQL Server

•Implementing the XML Data Type

•Appropriate Usage of XML Data Storage in SQL Server

•Investigating the Storage of XML Data in Variables

•Investigating the use of XML Schema Collections

•Investigating the Creation of Database Columns Based on XML

After completing this module, students will be able to:

•Describe XML and XML schemas.

•Store XML data and associated XML schemas in SQL Server.

•Implement the XML data type within SQL Server.

This module shows how XML data can be queried, including queries written in a language called XQuery.

•Using the T-SQL FOR XML Statement

•Getting Started with XQuery

•Shredding XML

•Learning to query SQL Server data as XML

•Writing a stored procedure returning XML

•Writing a stored procedure that updates using XML

After completing this module, students will be able to:

•Use the T-SQL FOR XML Statement.

•Work with basic XQuery queries.

•Shred XML to a relational form.

This module introduces Spatial Data, and explains how to work with SQL Server Spatial Data Types.

•Introduction to Spatial Data

•Working with SQL Server Spatial Data Types

•Using Spatial Data in Applications

•Familiarity With Geometry Data Type

•Adding Spatial Data to an Existing Table

•Business Application of Spatial Data

After completing this module, students will be able to:

•Describe the importance of spatial data and the industry standards related to it.

•Explain how to store spatial data in SQL Server.

•Perform calculations on and query SQL Server spatial data.

This module introduces Full-Text Indexing and how to implement Full-Text Indexes in SQL Server.

•Introduction to Full-Text Indexing

•Implementing Full-Text Indexes in SQL Server

•Working with Full-Text Queries

•Implementing a full-text index

•Implementing a stoplist

•Creating a stored procedure to implement a full-text search

After completing this module, students will be able to:

•Describe why user interfaces in existing applications are not sufficient for end user search needs

•Implement full-text indexes in SQL Server

•Query SQL Server using full-text queries