PrepAway - Latest Free Exam Questions & Answers

Note: This question is part of a series of questions that use the same scenario. For your convenience, the sce

Note: This question is part of a series of questions that use the same scenario. For your convenience, the scenario is r

epeated 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 a Microsoft SQL Server data warehouse instance that supports several client ap

plications.

The data warehouse includes the following tables:

Dimension.SalesTerritory

,

Dimension.Customer

,

Dimension.Date

,

Fact.Ticket

, and

Fact.Order

. The

Dimension.SalesTerritory

and

Dimension.Customer

tables are frequently updated. The

Fact.Order

tabl

e is optimized for weekly reporting, but the company wants to change it to daily. The

Fact.Order

table is loaded by using an ETL process. Indexes have been added to the table over time, but the presence of these indexes slows data loading.

All data in the

data warehouse is stored on a shared SAN. All tables are in a database named

DB1

. You have a second database named

DB2

that contains copies of production data for a development environment. The data warehouse has grown and the cost of storage has increase

d. Data older than one year is accessed infrequently and is considered historical.

You have the following requirements:

Implement table partitioning to improve the manageability of the data warehouse and to avoid the need to repopulate all transactional d

ata each night. Use a partitioning strategy that is as granular as possible.

Partition the

Fact.Order

table and retain a total of seven years of data.

Partition the

Fact.Ticket

table and retain seven years of data. At the end of each month, the partition s

tructure must apply a sliding window strategy to ensure that a new partition is available for the upcoming month, and that the oldest month of data is archived and removed.

Optimize data loading for the

Dimension.SalesTerritory

,

Dimension.Customer

, and

Dim

ension.Date

tables.

Incrementally load all tables in the database and ensure that all incremental changes are processed.

Maximize the performance during the data loading process for the

Fact.Order

partition.

Ensure that historical data remains online and a

vailable for querying.

Reduce ongoing storage costs while maintaining query performance for current data.

You are not permitted to make changes to the client applications.

You need to implement the data partitioning strategy.

How should you partition

the

Fact.Order

table?

A. Create 17,520 partitions.

B. Use a granularity of two days.

C. Create 2,557 partitions.

D. Create 730 partitions.

Explanation:

We create on partition for each day, which means that a granularity of one day is used. 7 ye

ars times 365 days is 2,555. Make that 2,557 to provide for leap years.

From scenario: Partition the Fact.Order table and retain a total of seven years of data.

The Fact.Order table is optimized for weekly reporting, but the company wants to change it to

daily.

Maximize the performance during the data loading process for the Fact.Order partition.

Reference: https://docs.microsoft.com/en-us/azure/sql-data-warehouse/sql-data-warehouse-tables-partition


Leave a Reply