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MCSA: SQL 2016 Database Development

MCSA: SQL 2016 Database Development Certification Training Course (20761 + 20762)

Course Number: #CED-1355
Course Length: 8 days
Number of Exams: 2
SATV Vouchers: 8
Certifications: MCSA: SQL 2016 Database Development

Grants (discounts) are available for multiple students for the same or different courses.

Upcoming Dates Class Times Class Format Quote
5/1 - 5/7, 2017 8:00 AM - 5:00 PM Instructor-Led Quote
10/30 - 11/5, 2017 8:00 AM - 5:00 PM Instructor-Led Quote

Instructor-Led

  • Roundtrip Airfare & Lodging
    (Atlanta and Fort Lauderdale boot camps only)
  • Hands-on instruction by a certified instructor
  • Includes all course materials
  • On-site Testing
  • Lunch & Snacks provided each day
  • Practice Exam
  • Certification Exam


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Remote Classroom Training

Our Remote Classroom Training is a live class with students observing the instructor and listening through your computer speakers. You will see the instructor's computer, slides, notes, etc., just like in the classroom. You will be following along, doing work, labs, and individual assignments.

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Earning an MCSA: SQL 2016 Database Development certification validates your skills in building and implementing databases across organizations, and will qualify you for a position as a database developer.


Microsoft Course 20761

The main purpose of this instructor led course is to give students a good understanding of the Transact-SQL language which is used by all SQL Server-related disciplines; namely, Database Administration, Database Development and Business Intelligence. As such, the primary target audience for this course is: Database Administrators, Database Developers and BI professionals.

The course will very likely be well attended by SQL power users who aren't necessarily database-focused; namely, report writers, business analysts and client application developers.

Audience profile

This course is intended for Database Administrators, Database Developers, and Business Intelligence professionals. The course will very likely be well attended by SQL power users who aren't necessarily database-focused; namely, report writers, business analysts and client application developers.

At course completion

After completing this course, students will be able to:

  • Describe the basic architecture and concepts of Microsoft SQL Server 2016.
  • Understand the similarities and differences between Transact-SQL and other computer languages.
  • Write SELECT queries
  • Query multiple tables
  • Sort and filter data
  • Describe the use of data types in SQL Server
  • Modify data using Transact-SQL
  • Use built-in functions
  • Group and aggregate data
  • Use subqueries
  • Use table expressions
  • Use set operators
  • Use window ranking, offset and aggregate functions
  • Implement pivoting and grouping sets
  • Execute stored procedures
  • Program with T-SQL
  • Implement error handling
  • Implement transactions

Prerequisites

  • Working knowledge of relational databases.
  • Basic knowledge of the Microsoft Windows operating system and its core functionality.

Course Outline

Module 1: Introduction to Microsoft SQL Server 2016

This module introduces SQL Server, the versions of SQL Server, including cloud versions, and how to connect to SQL Server using SQL Server Management Studio.

  • The Basic Architecture of SQL Server
  • SQL Server Editions and Versions
  • Getting Started with SQL Server Management Studio

After completing this module, students will be able to:

  • Describe the architecture and editions of SQL Server 2012.
  • Work with SQL Server Management Studio.
Module 2: Introduction to T-SQL Querying

This module introduces the elements of T-SQL and their role in writing queries, describes the use of sets in SQL Server, describes the use of predicate logic in SQL Server, and describes the logical order of operations in SELECT statements.

  • Introducing T-SQL
  • Understanding Sets
  • Understanding Predicate Logic
  • Understanding the Logical Order of Operations in SELECT statements

After completing this module, students will be able to:

  • Describe the elements of T-SQL and their role in writing queries
  • Describe the use of sets in SQL Server
  • Describe the use of predicate logic in SQL Server
  • Describe the logical order of operations in SELECT statements
Module 3: Writing SELECT Queries

This module introduces the fundamentals of the SELECT statement, focusing on queries against a single table.

  • Writing Simple SELECT Statements
  • Eliminating Duplicates with DISTINCT
  • Using Column and Table Aliases
  • Writing Simple CASE Expressions

After completing this module, students will be able to:

  • Write simple SELECT statements.
  • Eliminate duplicates using the DISTINCT clause.
  • Use column and table aliases.
  • Write simple CASE expressions.
Module 4: Querying Multiple Tables

This module explains how to write queries which combine data from multiple sources in SQL Server. The module introduces the use of JOINs in T-SQL queries as a mechanism for retrieving data from multiple tables.

  • Understanding Joins
  • Querying with Inner Joins
  • Querying with Outer Joins
  • Querying with Cross Joins and Self Joins

After completing this module, students will be able to:

  • Describe how multiple tables may be queried in a SELECT statement using joins.
  • Write queries that use inner joins.
  • Write queries that use outer joins.
  • Write queries that use self-joins and cross joins.
Module 5: Sorting and Filtering Data

This module explains how to enhance queries to limit the rows they return, and to control the order in which the rows are displayed. The module also discusses how to resolve missing and unknown results.

  • Sorting Data
  • Filtering Data with Predicates
  • Filtering with the TOP and OFFSET-FETCH Options
  • Working with Unknown Values

After completing this module, students will be able to:

  • Filter data with predicates in the WHERE clause.
  • Sort data using ORDER BY.
  • Filter data in the SELECT clause with TOP.
  • Filter data with OFFSET and FETCH.
Module 6: Working with SQL Server 2016 Data Types

This module explains the data types SQL Server uses to store data. It introduces the many types of numeric and special-use data types. It also explains conversions between data types, and the importance of type precedence.

  • Introducing SQL Server 2016 Data Types
  • Working with Character Data
  • Working with Date and Time Data

After completing this module, students will be able to:

  • Describe numeric data types, type precedence and type conversions.
  • Write queries using character data types.
  • Write queries using date and time data types.
Module 7: Using DML to Modify Data

This module describes the use of Transact-SQL Data Manipulation Language to perform inserts, updates, and deletes to your data.

  • Inserting Data
  • Modifying and Deleting Data

After completing this module, students will be able to:

  • Insert new data into your tables.
  • Update and delete existing records in your tables.
Module 8: Using Built-In Functions

This module introduces the use of functions that are built in to SQL Server Denali, and will discuss some common usages including data type conversion, testing for logical results and nullability.

  • Writing Queries with Built-In Functions
  • Using Conversion Functions
  • Using Logical Functions
  • Using Functions to Work with NULL

After completing this module, students will be able to:

  • Write queries with built-in scalar functions.
  • Use conversion functions.
  • Use logical functions.
  • Use functions that work with NULL.
Module 9: Grouping and Aggregating Data

This module introduces methods for grouping data within a query, aggregating the grouped data and filtering groups with HAVING. The module is designed to help the student grasp why a SELECT clause has restrictions placed upon column naming in the GROUP BY clause as well as which columns may be listed in the SELECT clause.

  • Using Aggregate Functions
  • Using the GROUP BY Clause
  • Filtering Groups with HAVING

After completing this module, students will be able to:

  • Write queries which summarize data using built-in aggregate functions.
  • Use the GROUP BY clause to arrange rows into groups.
  • Use the HAVING clause to filter out groups based on a search condition.
Module 10: Using Subqueries

This module will introduce the use of subqueries in various parts of a SELECT statement. It will include the use of scalar and multi-result subqueries, and the use of the IN and EXISTS operators.

  • Writing Self-Contained Subqueries
  • Writing Correlated Subqueries
  • Using the EXISTS Predicate with Subqueries

After completing this module, students will be able to:

  • Describe the uses of queries which are nested within other queries.
  • Write self-contained subqueries which return scalar or multi-valued results.
  • Write correlated subqueries which return scalar or multi-valued results.
  • Use the EXISTS predicate to efficiently check for the existence of rows in a subquery.
Module 11: Using Set Operators

This module introduces the set operators UNION, INTERSECT, and EXCEPT to compare rows between two input sets.

  • Writing Queries with the UNION Operator
  • Using EXCEPT and INTERSECT
  • Using APPLY

After completing this module, students will be able to:

  • Write queries using UNION, EXCEPT, and INTERSECT operators.
  • Use the APPLY operator.

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Microsoft Course 20762

This instructor-led course provides students with the knowledge and skills to develop a Microsoft SQL Server 2016 database. The course focuses on teaching individuals how to use SQL Server 2016 product features and tools related to developing a database.

Audience profile

The primary audience for this course is IT Professionals who want to become skilled on SQL Server 2016 product features and technologies for implementing a database.

The secondary audiences for this course are individuals who are developers from other product platforms looking to become skilled in the implementation of a SQL Server 2016 database.

At course completion

After completing this course, students will be able to:

  • Design and Implement Tables.
  • Describe advanced table designs
  • Ensure Data Integrity through Constraints.
  • Describe indexes, including Optimized and Columnstore indexes
  • Design and Implement Views.
  • Design and Implement Stored Procedures.
  • Design and Implement User Defined Functions.
  • Respond to data manipulation using triggers.
  • Design and Implement In-Memory Tables.
  • Implement Managed Code in SQL Server.
  • Store and Query XML Data.
  • Work with Spatial Data.
  • Store and Query Blobs and Text Documents.

Prerequisites

  • Basic knowledge of the Microsoft Windows operating system and its core functionality.
  • Working knowledge of Transact-SQL.
  • Working knowledge of relational databases.

Course Outline

Module 1: Introduction to Database Development

This module is used to introduce the entire SQL Server platform and its major tools. It will cover editions, versions, basics of network listeners, and concepts of services and service accounts.

  • Introduction to the SQL Server Platform
  • SQL Server Database Development Tasks

After completing this module, students will be able to:

  • Describe the SQL Server platform.
  • Use SQL Server administration tools.
Module 2: Designing and Implementing Tables

This modules describes the design and implementation of tables. (Note: partitioned tables are not covered).

  • Designing Tables
  • Data Types
  • Working with Schemas
  • Creating and Altering Tables

After completing this module, students will be able to:

  • Design Tables
  • Describe the various types of data
  • Be able to work with schemas
  • Be able to create and amend tables
Module 3: Advanced Table Designs

This module describes more advanced table designs.

  • Partitioning data
  • Compressing Data
  • Temporal Tables

After completing this module, students will be able to:

  • Describe how data can be partitioned
  • Describe how data can be compressed.
  • Describe Temporal tables
Module 4: Ensuring Data Integrity through Constraints

This module describes the design and implementation of constraints.

  • Enforcing data Integrity
  • Implementing Domain Integrity
  • Implementing Entity and Referential Integrity

After completing this module, students will be able to:

  • Describe how to enforce data integrity
  • Describe how to implement domain integrity
  • Describe how to implement entity and referential integrity
Module 5: Introduction to Indexes

This module describes the concept of an index and discusses selectivity, density and statistics. It covers appropriate data type choices and choices around composite index structures.

  • Core Indexing Concepts
  • Data Types and Indexes
  • Single Column and Composite Indexes

After completing this module, students will be able to:

  • Explain the need for indexes and describe the core concepts of index design
  • Choose appropriate data types for indexes
  • Design single column and composite indexes
Module 6: Designing Optimized Index Strategies

This module includes covering indexes and the INCLUDE clause, hints, padding / fillfactor, statistics. It also execution plans and the DTE Lessons.

  • Covering Indexes
  • Managing Indexes
  • Execution Plans
  • Using the DTE

After completing this module, students will be able to:

  • Choose an appropriate table structure
  • Implement clustered indexes and heaps
Module 7: Columnstore Indexes

This module introduces Columnstore indexes.

  • Introduction to Columnstore indexes
  • Creating Columnstore indexes
  • Working Columnstore indexes

After completing this module, students will be able to:

  • Describe suitable scenarios for Columnstore indexes
  • Create clustered and non-clustered Columnstore indexes
  • Describe considerations for updating non-clustered Columnstore indexed tables
Module 8: Designing and Implementing Views

This module describes the design and implementation of views.

  • Introduction to views
  • Creating and managing views
  • Performance considerations for views

After completing this module, students will be able to:

  • Explain the concept of views
  • Design, Create and Alter Views
  • Create Partitioned Views
Module 9: Designing and Implementing Stored Procedures

This module describes the design and implementation of stored procedures.

  • Introduction to Stored Procedures
  • Working with Stored Procedures
  • Implementing Parameterized Stored Procedures
  • Controlling Execution Context

After completing this module, students will be able to:

  • Design, Create and Alter Stored Procedures
  • Control the Execution Context of Stored Procedures
  • Implement Stored Procedures that use Parameters
Module 10: Designing and Implementing User-Defined Functions

This module describes the design and implementation of functions, both scalar and table-valued. (Also discusses where they can lead to performance issues).

  • Overview of Functions
  • Designing and Implementing Scalar Functions
  • Designing and Implementing Table-Valued Functions
  • Implementation Considerations for Functions
  • Alternatives to Functions

After completing this module, students will be able to:

  • Design, create and alter scalar functions
  • Design, create and alter table-valued functions
  • Describe the performance impacts of functions
Module 11: Responding to Data Manipulation via Triggers

This module describes the design and implementation of triggers.

  • Designing DML Triggers
  • Implementing DML Triggers
  • Advanced Trigger Concepts

After completing this module, students will be able to:

  • Design DML triggers
  • Implement DML triggers
  • Work with Nested and Recursive Triggers
Module 12: Using In-Memory Tables

This module covers the creation of in-memory tables and native stored procedures. Furthermore, advantages of in-memory tables are discussed, for example the removal of transaction blocking.

  • In-Memory tables
  • Native Stored Procedures

After completing this module, students will be able to:

  • Implement in-memory tables
  • Implement native stored procedures
Module 13: Implementing Managed Code in SQL Server

This module describes the implementation of and target use-cases for SQL CLR integration.

  • Introduction to SQL CLR Integration
  • Importing and Configuring Assemblies
  • Implementing SQL CLR Integration

After completing this module, students will be able to:

  • Describe SQL CLR Integration
  • Detail appropriate use cases for SQL CLR Integration
  • Implement SQL CLR code
Module 14: Storing and Querying XML Data in SQL Server

This module covers the XML data type, schema collections, typed and un-typed columns and appropriate use cases for XML in SQL Server.

  • Introduction to XML and XML Schemas
  • Storing XML Data and Schemas in SQL Server
  • Implementing the XML Data Type
  • Using the T-SQL FOR XML Statement
  • Getting Started with xQuery

After completing this module, students will be able to:

  • Explain the purpose and structure of XML and XML schemas
  • Describe how XML data and schemas can be stored in SQL Server
  • Implement the XML data type
Module 15: Working with SQL Server Spatial Data

This module describes spatial data and how this data can be implemented within SQL Server.

  • Introduction to Spatial Data
  • Working with SQL Server Spatial Data Types
  • Using Spatial Data in Applications

After completing this module, students will be able to:

  • Describe how spatial data can be stored in SQL Server
  • Use basic methods of the GEOMETRY and GEOGRAPHY data types
  • Query databases containing spatial data
Module 16: Storing and Querying Blobs and Text Documents in SQL Server

This module covers full text indexes and queries.

  • Considerations for BLOB Data
  • Working with FileStream
  • Using Full-Text Search

After completing this module, students will be able to:

  • Describe the need for full-text indexing in SQL Server
  • Implement a full-text index
  • Perform basic full-text queries

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