Microsoft 70-464 Certification Exam Syllabus

70-464 Syllabus, 70-464 PDF Download, Microsoft 70-464 Dumps, Developing Microsoft SQL Server Databases PDF Download, Developing Microsoft SQL Server Databases CertificationThis page is a one-stop solution for any information you may require for Developing Microsoft SQL Server Databases (70-464) Certification exam. The Microsoft 70-464 Exam Summary, Syllabus Topics and Sample Questions provide the base for the actual MCSE - Data Platform / Data Management and Analytics exam preparation, we have designed these resources to help you get ready to take your dream exam.

The Developing Microsoft SQL Server Databases credential is globally recognized for validating Developing Microsoft SQL Server Databases knowledge. With the MCSE - Data Platform / Data Management and Analytics Certification credential, you stand out in a crowd and prove that you have the Developing Microsoft SQL Server Databases knowledge to make a difference within your organization. The Developing Microsoft SQL Server Databases Certification (70-464) exam will test the candidate's knowledge on following areas.

Microsoft 70-464 Exam Summary:

Exam Name Developing Microsoft SQL Server Databases
Exam Code 70-464
Exam Duration 120 minutes
Exam Questions 45 to 55 (Since Microsoft does not publish this information, the number of exam questions may change without notice)
Passing Score 700 out of 1000
Exam Price $165 (USD)
Training 20464C: Developing Microsoft SQL Server Databases (five days)
Exam Registration Developing Microsoft SQL Server Databases
Sample Questions Developing Microsoft SQL Server Databases Certification Sample Question
Practice Exam Developing Microsoft SQL Server Databases Certification Practice Exam

Microsoft 70-464 Exam Topics:

Objective Details
Implement database objects (30–35%)
1. Create and alter tables
- Develop an optimal strategy for using temporary objects, including table variables and temporary tables; define alternatives to triggers; define data version control and management; implement @Table and #table appropriately; create calculated columns; implement partitioned tables, schemas and functions; implement column collation; implement online transaction processing (OLTP); implement columnstore and sparse columns
2. Design, implement and troubleshoot security
- Implement data control language statements appropriately, troubleshoot connection issues, implement execute as statements, implement certificate-based security, create loginless users, define appropriate database roles and permissions, implement contained users, implement cross db ownership chaining, implement schema security, implement server roles
3. Design the locking granularity level
- Choose the right lock mechanism for a given task; handle deadlocks; design index locking properties; fix locking and blocking issues; analyse a deadlock scenario; design appropriate isolation level, including Microsoft ActiveX data objects defaults; design for locks and lock escalation; design transactions that minimise locking; reduce locking contention; identify bottlenecks in data design; design appropriate concurrency control, such as pessimistic or optimistic
4. Implement indexes
- Inspect physical characteristics of indexes and perform index maintenance; identify unused indexes; implement indexes; optimise indexes, including full, filter, statistics and force
5. Implement data types
- Select appropriate data types, including BLOBs, GUIDs, XML and spatial data; develop a Common Language Runtime (CLR) data type; implement appropriate use of @Table and #table; determine values based on implicit and explicit conversions
6. Create and modify constraints
- Create constraints on tables, define constraints, modify constraints according to performance implications, implement cascading deletes, configure constraints for bulk inserts
Implement programming objects (15-20%)
1. Design and implement stored procedures
- Create stored procedures and other programmatic objects; implement different types of stored procedure results; create a stored procedure for the data access layer; analyse and rewrite procedures and processes; program stored procedures by using T-SQL and CLR; implement parameters, including table valued, input and output; implement error handling, including TRY…CATCH; configure appropriate connection settings
2. Design T-SQL table-valued and scalar functions
- Modify scripts that use cursors and loops into a SET-based operation, design deterministic and non-deterministic functions
3. Create, use and alter user-defined functions (UDFs)
- Implement deterministic or non-deterministic functions; implement CROSS APPLY by using UDFs; implement CLR functions
4. Create and alter views
- Set up and configure partitioned tables and partitioned views; create indexed views
Design database objects (25–30%)
1. Design tables
- Apply data design patterns; develop appropriately normalised and de-normalised SQL tables; design transactions; design views; implement GUID as a clustered index appropriately; design temp tables appropriately, including # vs. @; design an encryption strategy; design table partitioning; design a BLOB storage strategy, including filestream and filetable; design tables for In-Memory OLTP
2. Design for concurrency
- Develop a strategy to maximise concurrency; define a locking and concurrency strategy; design a transaction isolation strategy, including server database and session; design triggers for concurrency
3. Design indexes
- Design indexes and data structures; design filtered indexes; design an indexing strategy, including column store, semantic indexes and INCLUDE; design statistics; assess which indexes on a table are likely to be used, given different search arguments (SARG); design spatial and XML indexes
4. Design data integrity
- Design a table data integrity policy, including checks, primary key, foreign key, uniqueness, XML schema and nullability; select a primary key
5. Design for implicit and explicit transactions
- Manage transactions; ensure data integrity by using transactions; manage distributed transaction escalations; design savepoints; design error handling for transactions, including TRY, CATCH and THROW
Optimise and troubleshoot queries (25–30%)
1. Optimise and tune queries
- Tune a poorly performing query, including avoiding unnecessary data-type conversions; identify long-running queries; review and optimise code; analyse execution plans to optimise queries; tune queries using execution plans and Microsoft Database Tuning Advisor (DTA); optimise queries using pivots and common table expressions (CTE); design database layout to optimise queries; implement query hints; tune query workloads; implement recursive CTE; implement full text and semantic search; analyse execution plans; implement plan guides
2. Troubleshoot and resolve performance problems
- Interpret performance monitor data; integrate performance monitor data with SQL Traces
3. Optimise indexes
- Develop an optimal strategy for clustered indexes; analyse index usage; optimise indexes for workload, including data warehousing and OLTP; generate appropriate indexes and statistics by using INCLUDE columns; create filtered indexes; implement full-text indexing; implement columnstore indexes; optimise online index maintenance
4. Capture and analyse execution plans
- Collect and read execution plans, create an index based on an execution plan, batch or split implicit transactions, split large queries, consolidate smaller queries, review and optimise parallel plans
5. Collect performance and system information
- Monitor performance using Dynamic Management Views, collect output from the Database Engine Tuning Advisor, design Extended Events Sessions, review and interpret Extended Event logs; optimise Extended Event session settings, use Activity Monitor to minimise server impact and determine IO bottlenecks, monitor In-Memory OLTP resources

The Microsoft has created this credential to assess the knowledge and understanding of a candidate in the area as above via the certification exam. The Developing Microsoft SQL Server Databases (70-464) Certification exam contains a high value in the market being the brand value of the Microsoft attached with it. It is highly recommended to a candidate to do a thorough study and also get a hand full of the practice to clear Developing Microsoft SQL Server Databases exam without any hiccups.

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