OBIEE Federation

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Transcript OBIEE Federation 

OBIEE Data Federation
Limor Fledel-Vagman
BI Practice Manager
Oracle Israel
OBIEE Federation
• Vertical Federation
– Integrating two or more disparate data source having different
levels of granularity joined by one or more conformed dimensions
– Example: Essbase Sales cube to relational Sales detail data (drillthrough)
• Horizontal Federation
– Integrating two or more disparate data source having the same
level of granularity joined by one or more conformed dimensions
– Example: Essbase Sales cube with HR relational database
LTS ???
Logical table sources (LTS’s) are a key feature
within the OBIEE semantic model
OBIEE Aggregate Navigation
Why Aggregate Navigation?
• Problem: Summary questions are slow
– Example, “All sales worldwide for last 2 years by quarter by family”
– This will potentially sum/group by millions of rows!
– The disk spin time to scan all these rows will be very long
• Solution: ETL to batch build high level aggregates
–
–
–
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Oracle BI EE has “aggregate navigation” to use them
Aggregates can be in the same database as the source
They can also be in a different relational source or Essbase
Often orders of magnitude performance improvement
Oracle BI EE “Architecture”
Semantic
Layer
Metadata
BI Server
Relational
Tables
Oracle BI EE Aggregate Navigation
Metadata
describes
aggregate
mappings
Semantic
Layer
Metadata
BI Server
At query time, BI Server queries
the fastest source that has
enough detail to satisfy the user
request
Performance of highly
summarized requests is
dramatically improved
Summary
Detail
Relational
Federation Enables External Aggregates
Semantic
Layer
Metadata
BI Server
Aggregates can be in
other federated
sources
Summary
Summary
Detail
Relational
External Aggregates Can Be in Essbase
Semantic
Layer
Metadata
BI Server
Aggregate navigation
can include
multidimensional
Summary
Relational
Detail
Essbase
External Aggregates Can Be Oracle OLAP
Semantic
Layer
Metadata
BI Server
Aggregate navigation
can include
multidimensional
Summary
Oracle
OLAP AW
Relational
Detail
"This information is not a commitment to deliver any material, code, or functionality. The development,
release, and timing of any features or functionality described remains at the sole discretion of Oracle"
How is Aggregate Navigation Set Up?
• Database Design time:
– DBA defines aggregate stars at various grain combinations
Star
Time
Product
Base
Day
SKU
Agg 1
Month
Brand
Agg 2
Qtr
-
– Builds ETL to load the aggregates each night
Mapping a Base-Level Physical Star
Business Model and
Mapping Layer
Mappings
Physical Layer
D0 Time
F0 Rev Base Measures
D_Day
D4 Product
F_Bill
D_Prod_SKU
Adding a Moderately Aggregated Star
Business Model and
Mapping Layer
Mappings
Physical Layer
D0 Time
D_Month
F_Bill_agg2
F0 Rev Base Measures
D_Brand
D_Day
D4 Product
F_Bill
D_Prod_SKU
Adding a Highly-Aggregated Star
Business Model and
Mapping Layer
Mappings
Physical Layer
D_Qtr
D0 Time
F_Bill_agg1
D_Month
F_Bill_agg2
F0 Rev Base Measures
D_Brand
D_Day
D4 Product
F_Bill
D_Prod_SKU
Essbase as an Aggregate Source
Business Model and
Mapping Layer
Mappings
Physical Layer
D0 Time
Month
Billed Amt
F0 Rev Base Measures
Brand
D_Day
D4 Product
F_Bill
D_Prod_SKU
Adding a Highly-Aggregated Star
How
does the
queryand
Business
Model
planner
decide
which
Mapping
Layer
FJC to use as its source
for a given request?
D0 Time
Mappings
Physical Layer
D_Qtr
F_Bill_agg1
D_Month
F_Bill_agg2
F0 Rev Base Measures
D_Brand
D_Day
D4 Product
F_Bill
D_Prod_SKU
Selecting an Aggregate or Base Star at Query Time
How does the query planner decide which star to use
as its source for a given LSQL request?
• First, it eliminates sources that don’t have enough
detail to answer the question
– Query grain < star grain
– Query grain = star grain
– Query grain > star grain
star not qualified
star qualified
star qualified
• Second, it estimates the fastest/prioritized source
How BI Server Knows the Grain of a Star
• At query time, the BI Server checks the available
mappings to find which ones are qualified by grain
How Does It Know Which Star is Fastest?
Number of elements
• Be sure to correctly populate the
Dimension Level’s “Number of
elements at this level”
OBIEE 10g
How Does It Know Which Star is Fastest?
LTS Priority Group Order
• LTS Priority Group Order
• Lower value = higher priority
• LTS Priority Group becomes
main decider in which LTS to
use
OBIEE 11g New Feature
Aggregate Persistence
Aggregate Persistence Feature
•
•
•
•
Managing aggregates manually has high TCO
Oracle BI EE automates creation of aggregates
Leverages existing metadata
Orders of magnitude performance boost; low TCO
“Aggregate Persistence” Automates Create & Load
Admin Tool:
Aggregate
build
automation
wizard
Semantic
Layer
Metadata
• Define agg
navigation
metadata
BI Server
• Run scripts
• Create Tables
• Aggregation
Summary
Detail
Aggregate Persistence – Manual Option
Admin Tool:
Aggregate
build
automation
wizard
Semantic
Layer
Metadata
• Define agg
navigation
metadata
BI Server
DBA
• Create scripts
• Create Table DDL
• Aggregation
Summary
Detail
• Run scripts
• Create Tables
• Aggregation
Aggregate Persistence with Essbase & Oracle OLAP
Admin Tool:
Aggregate
build
automation
wizard
Semantic
Layer
Metadata
• Define agg
navigation
metadata
BI Server
•Define cube schema
Summary
Detail
"This information is not a commitment to deliver any material, code, or functionality. The development,
release, and timing of any features or functionality described remains at the sole discretion of Oracle"
Essbase or
AW
Administration Steps
1
Design aggregate facts and grains
3
Wizard to create metadata
2
Target database for create/load
Aggregate Persistence Wizard
Aggregate Persistence Wizard
• Automates the creation of physical aggregate tables and
their corresponding objects in the repository
Fact
aggregate
Use wizard to build
script to generate
aggregate tables.
Script generates
physical tables,
repository objects,
and mappings.
Dimension
aggregates
Aggregate Persistence Wizard Steps
1. Open Aggregate Persistence Wizard.
2. Specify the file name and location.
3. Select business model and measures.
4. Select dimensions and levels
5. Select connection pool, container, and name.
6. Review aggregate definition.
7. View complete aggregate script.
8. Verify script is created.
9. Create and run a batch file.
10. Verify aggregates in the Physical layer.
11. Verify aggregates in the BMM layer.
12. Verify aggregates in the database.
13. Verify results in Answers.
1. Open Aggregate Persistence Wizard
• Select Tools > Utilities > Aggregate Persistence Wizard
and click the Execute button.
2. Specify File Name and Location
• Specify a file and location where the output script should
be saved.
3. Select Business Model and Measures
Select business model.
Select fact table.
Select measures.
4. Select Dimensions and Levels
• Select corresponding aggregate dimensions and levels.
5. Select Connection Pool, Container, and Name
Select the database object.
Select the schema.
Select the connection pool.
Name the aggregate table.
6. Review Aggregate Definition
View the aggregate
definition.
7. View Complete Aggregate Script
Confirmation of script
creation and location
Script
8. Verify that the Script Is Created
• Navigate to the directory where the file was saved and
verify that the script was created as expected.
9. Create and Run a Batch File
• Create and run a batch file with the following format to
drive the aggregate creation process:
nqcmd
Oracle BI Server command utility
-d
Oracle BI Server data
source name
-u
Repository username
-p
Repository password
-s
Path to the create
aggregate SQL script
10. Verify Aggregates in the Physical Layer
• Verify that the aggregates are created in the Physical
layer of the repository as expected.
Fact aggregate
Dimension aggregates
11. Verify Aggregates in the BMM Layer
• Verify that the aggregates are created in the Business
Model and Mapping layer of the repository as expected.
Dimension aggregate
Fact aggregate
12. Verify Aggregates in the Database
• Verify that the aggregates are created in the database.
13. Verify Results in Answers
– Activate the aggregate tables:
– Run a query in Answers:
– Check the log and verify that the aggregate tables are accessed
as expected:
Considerations
• Using aggregates comes with a price:
– Additional time is required to build and load these tables.
– Additional storage is necessary.
• Build only the aggregates you need:
– Look at query patterns and build aggregates to speed up
common queries that require summarized results.
– Ensure that enough data is combined to offset the cost of
building aggregates.
– Monitor and adjust to account for changing query patterns.
Using Partitions and Fragments
Business Challenge
– Data is often partitioned into multiple physical sources for a
single logical table.
– Organizations need to seamlessly and efficiently access and
process data from multiple sources to satisfy user requests.
– Business applications must “know” where to go for what type of
data and under what conditions.
Business Solution: Oracle BI Server
– Oracle BI repository can be configured so that Oracle BI Server
handles the navigation to the appropriate source.
– Oracle BI Server seamlessly and efficiently accesses and
processes data from multiple sources to satisfy user requests.
Partition
– Is a database element that contains part of the data for a fact or a
dimension
– Combines with other data fragments as necessary
– May be:
• Fact-based
• Value-based
• Level-based
• Complex
Partitioning by Fact
– Data is partitioned by fact when different fact data is stored in
different tables.
– Example: Actual sales versus quota targets
Actual sales
Sales Rep
1100
Product
Sale
1000
Quota targets
Sales Rep
1100
Product
Quota
2000
Partitioning by Value
– Data is partitioned by value when the data is split into separate
tables according to the values of the data.
– Example: Invoice data is stored separately for each region.
Invoices for
Central
Region
InvNbr
Invoices for
West Region
InvNbr
1135293
114444
Dollars
1000
Region
Central
Dollars
Region
200
West
Partitioning by Level
– Data is partitioned by level when the same facts are stored in
separate tables at different levels of aggregation.
– Example: Detailed sales data is summarized and stored by
year and region.
Sales detailed data
Sales Rep
Date
Sales by year and region
Product
Sale
Year
Total
Dollars
Region
1100
19980105
10000
1998
200000
Central
1100
19981001
25000
1999
300000
Central
1100
19981010
10000
Complex Partitioning
– Data is partitioned using more than one technique.
– Example: Invoice sales data is partitioned by value and level.
Invoices by month for Central
Month
Total
Dollars
Region
199801
10000
Central
199802
25000
Central
Invoices by month for West
Month
Total
Dollars
Region
199801
300000
West
199802
350000
West
Invoices by year for Central
Year
1998
Total
Dollars
200000
Region
Central
Invoices by year for West
Year
1998
Total
Dollars
3000000
Region
West
ABC Example: Fact-Based (Quota)
• Allow users to query for actual sales data and quota data
in a single query.
Actual sales
Sales
Rep
1100
Product
Sale
1000
Quota targets
Sales
Rep
1100
Product
Quota
2000
ABC Example: Value-Based (Customer)
• Replace the current, single source for customer data
with two value-based partitions.
Customers
with names
starting with
letters A–M
Customers
with names
starting with
letters N–Z
NewKey Name
1000
Clifton Lunch
NewKey Name
1002
Tong’s Wok
ABC Example: Value-Based (Inventory)
• Build a business model for inventory data that is
fragmented into multiple tables.
Eight quarters of
inventory data
stored in eight
separate tables
Implementation Steps
–
–
–
–
–
Import physical sources.
Create physical joins.
Add sources to the Business Model and Mapping layer.
Specify fragmentation content.
New step
Test the results.
Specify Fragmentation Content
– Use the Expression Builder to define the type of content that the
fragment contains.
– Set the flag to specify whether to combine this fragment with
other data.
Specifies that customer data
from A–M is contained in
this fragment
Specifies combining this
fragment with the other
Summary
Identify reasons for segmenting data and
implement it – benefit is promised!
Question:
• The end user needs to know what data is contained in which
partition before submitting a query. True or false?
Real-time BI
Federated OLTP/EDW Reporting
Horizontal Federation for Real-Time BI
• Using horizontal fragmentation in OBIEE, we can map
a single logical fact table to multiple LTS’s.
• Physical fact table in our EDW called SALES_FACT
• Physical fact table in our source system to represent
real-time data
• One logical fact table in the BMM — called “Sales
Fact Realtime”
Horizontal Federation for Real-Time BI
Fact table mapping
Horizontal Federation for Real-Time BI
Customer dimension mapping
Horizontal Federation for Real-Time BI
Use variable as the threshold between reporting against
the EDW schema and the source system schema
Horizontal Federation for Real-Time BI
LTS mapping using threshold date
Horizontal Federation for Real-Time BI
OBIEE does
the logical
union
Horizontal Federation for Real-Time BI
When the BI Server has enough information to
know that the entire result set will come from a
single source, then the SQL will be issued against
only one of the LTS’s.
Oracle by Example and Relevant Blogs
Web tutorial :Oracle by Example
“Federating Essbase and Relational Data Sources in OBIEE”
http://www.artofbi.com/index.php/2009/07/federation-in-obiee-what-are-you-talking-about/
http://odtugspconference.com/Slides/OBIEE%20Integration%20with%20Essbase.pdf
http://www.rittmanmead.com/2011/05/real-time-bi-federated-oltpedw-reporting/