1. OLAP Theory-English version On-Line Analytical processing (Buisness Intelligence)
Ing.Skorkovský,CSc
Department of Corporate Economy
Faculty of Economics and Administration
Masaryk Uinverzity Brno
Czech Republic

2. Agenda The Market Why OLAP Introduction to OLAP
OLAP Terms and Concepts
Summary

3. OLAP market size
Projections are always subject to change, but this chart shows the growth in the OLAP market in , and the expected trend for the next three years. Even with the predicted fall in the percentage revenue growth rate (mainly due to falling prices), the market is very likely to approach $4bn by OLAP demand is mushrooming as technology prices fall and all the major database vendors will be actively promoting what had been, until recently, a niche technology.
Source : The OLAP Report

4. Why OLAP The Right Information In The Right Place At The Right Time
More self-sufficient Business users
Keep the integrity of the data
Reduces the query drag(burden) and network traffic
Organization can respond more quickly to market demands
In a business environment characterized by fierce competition and rapid change, you need to make decisions quickly and on the basis of reliable facts and figures. But what if that information is incomplete? Or simply unavailable? What happens if executives and knowledge workers are left stranded in an ivory tower, unable to obtain the answers to pressing questions on customers, products, profitability and potential new sources of revenue
The information you need is somewhere within your organization, but it is often locked away in operational applications, and difficult to obtain. And when you do get hold of the statistics you need, it is often not in the form you require, and you have little scope to explore that information in more detail to identify the precise cause of a sudden surge in costs or the reasons for the unexpected popularity of a particular product in a particular region.
The recognized technical concept for meeting this challenge is OLAP. OLAP is a separate environment with a dedicated database drawing on diverse data sources and designed to support queries and analysis.
The first wave of data warehouses has encountered a number of difficulties, including technical integration and laborious and lengthy implementation. One major obstacle has been gearing the warehouse to the business processes of the user organization.
Online analytical processing (OLAP) is an increasingly popular technology that can dramatically improve business analysis, but that has been characterized historically by expensive tools, difficult implementation, and inflexible deployment. Damgaard has tackled the OLAP problem and created a solution that makes multidimensional analysis accessible to a broader audience and potentially at a significantly lower cost of ownership.

5. Introduction to OLAP
“OLAP enables analysts, managers, and executives to gain insight into data through fast, consistent, interactive access to a wide variety of possible views of information. OLAP transforms raw data so that it reflects the real dimensionality of the enterprise as understood by the user. “
The OLAP Counsil defenition
The need of end users to analyze corporate data for the purpose of making better decisions is of paramount importance.
OLAP technologies are essential to delivering this end-user value and are a critical component of a broader information technology architecture.
Corporate data needs to be transformed into multidimensional aggregations supporting enterprise-scale data volumes and hierarchies.
Fast, consistent response to end-user requests is critical to interactive, ad-hoc exploration, comparison and analysis of data, regardless of database size and complexity.
End users must be able to manipulate and derive data for analysis purposes by applying analytical operations such as ratios, cumulative totals, trends and allocations across dimensions and across hierarchical levels.
An OLAP Server may either physically stage the processed multidimensional information or populate its data structures in real-time from relational, OLTP or other databases, as long as it delivers consistent and rapid response to end users.

6. Introduction to OLAP Users Analysts, managers and executive managers
Access
Fast consistent, interactive
Wide variety of possible views
Transformation
Raw data
Real dimensionality of enterprise
Most information in a relational data warehouse is not easily browsed. Often the data structures are difficult for the end user to comprehend, or the questions (such as “Who are the top sales people in each region for the last year by month?”) are complex when expressed in SQL. Some challenges can be addressed with advanced query tools, which hide the database complexity from the end user. However, for a large class of applications where the end user is viewing multidimensional data, Microsoft believes the optimal solution is OLAP technology.
All organizations have multidimensional data, and complexity is not necessarily a function of company size. Even the smallest organization would like to track sales by product, salesperson, geography, customer, and time. Organizations have long sought tools to access, navigate, and analyze multidimensional data in an easy, natural way.
OLAP accelerates the delivery of information to end users viewing these multidimensional structures by preparing some computed values in the data in advance, rather than at execution time. The combination of easy navigation and fast performance allows end users to view and analyze data more quickly and efficiently than is possible with relational database technology only. The end result is more time spent analyzing data and less time analyzing databases.

7. Introduction to OLAP Organizational functions Finance Budgeting
Performance analysis
Sales
Sales analysis and forecasting
Marketing
Market research analysis
Market/customer segmentation
Purchase
Cost of materials
Production
Cost of conversion
Distribution
Cost of shipping
etc

8. OLAP Terms and Concepts
Relational database
Multidimensional database
Relational database
Multidimensional database
Relational Schemas and Cubes The most common way of managing relational data for multidimensional use is with a star schema. A star schema consists of a single fact table that is joined to a number of dimension tables. The fact table contains the numeric data that corresponds to the measures of a cube. Dimension table columns, as their name implies, map to the hierarchical levels in a dimension. Note: A star schema is not required in order to create a cube. You can also use a snowflake schema, or even a single table schema.
For MPH_AOMA not mandatory

9. MS Dynamics NAV Relationships
Sales Line
Order
Location card
Location List
Bin Contents
Bins Tab
Bins List
Item Card

10. MS Dynamics NAV Analysis by Dimensions
Will be presented by teacher

11. OLAP Terms and Concepts
In an OLAP data model, information is conceptually viewed as cubes, which consist of descriptive categories (dimensions) and quantitative values (measures). The multidimensional data model makes it simple for users to formulate complex queries, arrange data on a report, switch from summary to detail data, and filter or slice data into meaningful subsets. For example, typical dimensions in a cube containing sales information would include time, geography, product, channel, organization, and scenario (budget or actual). Typical measures would include dollar sales, unit sales, inventory, headcount, income, and expense.
Within each dimension of an OLAP data model, data can be organized into a hierarchy that represents levels of detail on the data. For example, within the time dimension, you may have the levels years, months, and days; similarly, within the geography dimension, you may have the levels country, region, state/province, and city. A particular instance of the OLAP data model would have the specific values for each level in the hierarchy. A user viewing OLAP data will move up or down between levels to see more or less detailed information.
N-dimensional Cube

12. OLAP Terms and Concepts
Cube
Information Is conceptually viewed as cubes.

13. OLAP Terms and Concepts
Cube
Information Is conceptually viewed as cubes.
Dimension
Distinct categories for business data.

14. OLAP Terms and Concepts
Cube
Information Is conceptually viewed as cubes.
Dimension
Distinct categories for business data.
Hierarchy
Levels of details on the data.

15. OLAP Terms and Concepts
Cube
Information Is conceptually viewed as cubes.
Dimension
Distinct categories for business data.
Hierarchy
Levels of details on the data.

16. OLAP Terms and Concepts I.
Cube
Information Is conceptually viewed as cubes.
Dimension
Distinct categories for business data.
Hierarchy
Levels of details on the data.
Measure
Quantitative values.

17. OLAP Terms and Concepts II.
Cube
Information Is conceptually viewed as cubes.
Dimension
Distinct categories for business data.
Hierarchy
Levels of details on the data.
Measure
Quantitative values.

18. OLAP Cube

19. Reporting (NAV tools or JETs)

20. Main principles (source tables and their entries)
Control parameters
(time, type of products,
Costs, Revenue, Area,..)
Customer
Vendor
Item
Account
Dimension

21. Some chosen analysis asked by CFO of company X in Czech Republic
Working Capital JETs
Some chosen analysis asked by CFO of company X in Czech Republic
Working capital – Show of the results from JETs

22. Some chosen analysis asked by CFO of company X in Czech Republic
Inventory Dashboard
Some chosen analysis asked by CFO of company X in Czech Republic

23. Some chosen analysis examples (JETs)

24. On-line Transaction Processing and OLAP
Only for information – will be not used for exams
On-line Transaction Processing and OLAP

25. Terminology - metadata
Only for information – will be not used for exams
Terminology - metadata
Meta data is the data defining warehouse objects. It has the following kinds
Description of the structure of the warehouse (location, dimension, used schema..)
The algorithms used for summarization
Business data ( business terms and definitions, ownership of data)

26. Business Intelligence Architecture
For exams should be simplified (if used)
Business Intelligence Architecture
ERP
Database Data Warehouse->OLAP server->Reporting