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Transcript
Introduction to Database Systems
Chapter 1
Instructor: Mirsad Hadzikadic
Database Management Systems
Ramakrishnan & Gehrke
1
http://www.sigmod.org/record/issues/0606/index.html
Database Management Systems
Ramakrishnan & Gehrke
2
History
 60s
C. Bachman GE, network data model, CODASYL
 Late 60s
IBM IMS, hierarchical data model, SABRE, AA-IBM
 70
Edgar Codd, IBM, relational model
 80s
SQL, IBM, System R project, concurrent
transactions management, J. Gray
 Late 80-90s DB2, Oracle, Informix, Sybase
 ERP, MRP Baan, Oracle, PeopleSoft, SAP, Siebel
Common tasks – inventory, HR, financial analysis
 90s
DW, Internet
 Object-oriented, object-relational DBs
 Turing award and Turing test?
Database Management Systems
Ramakrishnan & Gehrke
3
Why Study Databases?
Data everywhere
 Shift from computation to information

– At the “low end:” scramble to Web space
– At the “high end:” scientific applications

Datasets increasing in diversity and volume
– Digital libraries, interactive video, Human
Genome project, EOS project
– ... need for DBMS exploding

DBMS encompasses most of CS
– OS, languages, theory, “A”I, multimedia, logic
Database Management Systems
Ramakrishnan & Gehrke
4
What Is a DBMS?
Files vs. Database
 A very large, integrated collection of data.
 Models real-world enterprise

– Entities (e.g., students, courses)
– Relationships (e.g., Madonna is taking ITCS 6160)

A Database Management System (DBMS) is a
software package designed to maintain and
utilize databases
Database Management Systems
Ramakrishnan & Gehrke
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Why Use a DBMS?
Data independence and efficient access
 Data integrity and security
 Uniform data administration
 Concurrent access, recovery from crashes
 Reduced application development time
 When not to use a DB?

Database Management Systems
Ramakrishnan & Gehrke
6
Data Models
A data model is a collection of concepts for
describing data
 A schema is a description of a particular
collection of data, using the given data model
 The relational model of data is the most widely
used model today

– Main concept: relation, basically a table with rows
and columns
– Every relation has a schema, which describes the
columns, or fields
Database Management Systems
Ramakrishnan & Gehrke
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Levels of Abstraction

Many (external) views,
single conceptual (logical)
schema and physical
schema.
View 1
– Views describe how users
see the data
– Conceptual schema defines
logical structure
– Physical schema describes
the files and indexes used
View 2
View 3
Conceptual Schema
Physical Schema
 Views and Schemas are defined using DDL; data is modified/queried using DML
Database Management Systems
Ramakrishnan & Gehrke
8
Example: University Database

Conceptual schema:
– Students(sid: string, name: string, login: string,
age: integer, gpa:real)
– Courses(cid: string, cname:string, credits:integer)
– Enrolled(sid:string, cid:string, grade:string)

Physical schema:
– Relations stored as unordered files
– Index on first column of Students

External Schema (View):
– Course_info(cid:string, enrollment:integer)
Database Management Systems
Ramakrishnan & Gehrke
9
Data Independence
Applications insulated from how data is
structured and stored
 Logical data independence: Protection from
changes in logical structure of data
 Physical data independence: Protection from
changes in physical structure of data

 One of the most important benefits of using a DBMS!
Database Management Systems
Ramakrishnan & Gehrke
10
These layers
must consider
concurrency
control and
recovery
Structure of a DBMS



A typical DBMS has a
Query Optimization
layered architecture
and Execution
The figure does not
Relational Operators
show the concurrency
Files and Access Methods
control and recovery
components
Buffer Management
This is one of several
Disk Space Management
possible architectures;
each system has its own
variations
DB
Database Management Systems
Ramakrishnan & Gehrke
11
Transaction Management: ACID
properties


Atomicity: All actions in the Xact happen, or none happen
Consistency: If each Xact is consistent, and the DB starts
consistent, it ends up consistent

Isolation:
Execution of one Xact is isolated from that of
other Xacts

Durability:

The Recovery Manager guarantees Atomicity & Durability
If a Xact commits, its effects persist
Database Management Systems
Ramakrishnan & Gehrke
12
Motivation of concurrency control
Consistency
 Isolation
 Example

–
–
–
–
Two parallel transactions T1 and T2
Serial execution
Execution with interleaving actions
Example
Database Management Systems
Ramakrishnan & Gehrke
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Motivation of recovery management

Atomicity:
– Transactions may abort (“Rollback”)

Durability:
– What if DBMS stops running? (Causes?)

Desired Behavior after
system restarts:
– T1, T2 & T3 should be
durable
– T4 & T5 should be
aborted (effects not seen)
Database Management Systems
T1
T2
T3
T4
T5
Ramakrishnan & Gehrke
crash!
14
Databases make these folks happy ...
End users and DBMS vendors
 DB application programmers

– E.g. smart webmasters

Database administrator (DBA)
–
–
–
–
Designs logical /physical schemas
Handles security and authorization
Data availability, crash recovery
Database tuning as needs evolve
Must understand how a DBMS works!
Database Management Systems
Ramakrishnan & Gehrke
15
Summary
DBMS is used to maintain, query large datasets
 Benefits include recovery from system crashes,
concurrent access, quick application
development, data integrity and security
 Levels of abstraction give data independence
 A DBMS typically has a layered architecture
 DBAs hold responsible jobs and are
well-paid!
 DBMS R&D is one of the broadest,
most exciting areas in CS

Database Management Systems
Ramakrishnan & Gehrke
16