DRAG DROP
Note: This question is part of a series of questions that use the same scenario. For your convenience, the
scenario is repeated in each question. Each question presents a different goal and answer choices, but the text
of the scenario is exactly the same in each question in this series.
You have five servers that run Microsoft Windows 2012 R2. Each server hosts a Microsoft SQL Server
instance. The topology for the environment is shown in the following diagram.
You have an Always On Availability group named AG1. The details for AG1 are shown in the following table.
Instance1 experiences heavy read-write traffic. The instance hosts a database named OperationsMain that is
four terabytes (TB) in size. The database has multiple data files and filegroups. One of the filegroups is
read_only and is half of the total database size.
Instance4 and Instance5 are not part of AG1. Instance4 is engaged in heavy read-write I/O.
Instance5 hosts a database named StagedExternal. A nightly BULK INSERT process loads data into an empty
table that has a rowstore clustered index and two nonclustered rowstore indexes.
You must minimize the growth of the StagedExternal database log file during the BULK INSERT operations and
perform point-in-time recovery after the BULK INSERT transaction. Changes made must not interrupt the log
backup chain.
You plan to add a new instance named Instance6 to a datacenter that is geographically distant from Site1 and
Site2. You must minimize latency between the nodes in AG1.
All databases use the full recovery model. All backups are written to the network location \\\\SQLBackup\\. A
separate process copies backups to an offsite location. You should minimize both the time required to restore
the databases and the space required to store backups. The recovery point objective (RPO) for each instance
is shown in the following table.
Full backups of OperationsMain take longer than six hours to complete. All SQL Server backups use the
keyword COMPRESSION.
You plan to deploy the following solutions to the environment. The solutions will access a database named DB1
that is part of AG1.
Reporting system: This solution accesses data inDB1with a login that is mapped to a database user that is a
member of the db_datareader role. The user has EXECUTE permissions on the database. Queries make
no changes to the data. The queries must be load balanced over variable read-only replicas.
Operations system: This solution accesses data inDB1with a login that is mapped to a database user that is
a member of the db_datareader and db_datawriter roles. The user has EXECUTE permissions on the
database. Queries from the operations system will perform both DDL and DML operations.
The wait statistics monitoring requirements for the instances are described in the following table.
You need to propose a new process for the StagedExternal database.
Which five actions should you recommended be performed in sequence? To answer, move the appropriate
actions from the list of actions to the answer area and arrange them in the correct order.
Select and Place:
Answer: 
Explanation:
From scenario: Instance5 hosts a database named StagedExternal. A nightly BULK INSERT process loads
data into an empty table that has a rowstore clustered index and two nonclustered rowstore indexes.
You must minimize the growth of the StagedExternaldatabase log file during the BULK INSERT operations and
perform point-in-time recovery after the BULK INSERT transaction. Changes made must not interrupt the log
backup chain.
All databases use the full recovery model.
https://technet.microsoft.com/en-us/library/ms190421(v=sql.105).aspx
I don’t understand why the recreation of the indexes should happen as last action, after the recovery model was changed to FULL. Indexcreation happens minimally logged while the database is in bulk_logged recovery mode, so I would do the recreation of the indexes as step 4, and change the database to full recovery mode (and make log backup) as step 5.