DBMS Information

 DBMS Information


                                                           
                       Database System Concepts and Architecture

Dr. Bernard Chen Ph.D.
University of Central Arkansas

Outline

Data Models, Schemas, and Instances

Three-Schema Architecture

Database language and Interfaces

Centralized and client/server

Architecture Categories of data models

One fundamental characteristic of the database approach is that

it provides some level of data abstraction

High-level or Conceptual data models:

Provide concept that are close to the way many users perceive

data

Low-level or Physical data model:

Provide concepts that describe the details of how data is stored in

the computer

Conceptual data models

 It uses concepts such as entities, attributes and

relationships.

 Entity represents a real-world object or concept,

such as employee or project

 Attribute represents some property of interest that

further describes an entity, such as employee’s name

or salary

 Relation represents an association among two or

more entitles

Example of a Relation

Schemas and Database State

 In any data model, it is important to

distinguish between the description of

the data and database itself

 The description of the database is called

the database schema

 A displayed Schema is called a schema

diagram

University Database

Example of a Database

Schema (incomplete)

Example of a Database

Schema

Schemas and Database State

 The data in the database at a particular moment in time is

called a database state

 The distinction between database schema and database state is

very important

 When we define a new database, we specify its database

schema only to the DBMS

 At this point, the corresponding database state is the empty

state with no data

 We get the initial state of the database when the database is

first loaded

 From then on, every time an update operation is applied to the

database, we get another database state

Schemas and Database State

 Valid State: a state that satisfies the structure and

constrains specified in the schema.

 The database schema changes very infrequently.

 The database state changes every time the

database is updated

 Schema is also called intension.

 State is also called extension.

Outline

 Data Models, Schemas, and Instances

 Three-Schema Architecture

 Database language and Interfaces

 Centralized and client/server

architecture

Three-Schema Architecture

 Three of four important characteristics of

the database approach, listed in Ch.1 are:

1. Self-describing of a DB (Schema)

2. Insulation between programs and data

3. Support of multiple views of the data

 Three-Schema Architecture : it was

proposed to help achieve and visualize

these characteristics

Three-Schema Architecture

 Defines DBMS schemas at three levels:

 Internal schema at the internal level to describe

physical storage structures and access paths (e.g

indexes).

 Conceptual schema at the conceptual level to

describe the structure and constraints for the

whole database for a community of users.

 External schemas at the external level to

describe the various user views.

The three-schema architecture

Outline

 Data Models, Schemas, and Instances

 Three-Schema Architecture

 Database language and Interfaces

 Centralized and client/server

architecture

DBMS Languages

 The first step to create a database through DBMS is

to specify conceptual and internal schemas for the

database

 Data Definition Language (DDL): is used by

database designers to define schemas

 Data Manipulation Language (DML)

 View Definition Language (VDL): is to specify

user views

 In current DBMS, the preceding types of languages

are usually not considered distinct languages

DBMS Component Modules

 A DBMS is a complex software system

 The figure showed in next slide is divide into

two halves.

 The top half refers to the various users of the

database system

 The lower half shows the internals of the

DBMS responsible for storage of data and

processing of transactions

Typical DBMS Component

Modules

Outline

 Data Models, Schemas, and Instances

 Three-Schema Architecture

 Database language and Interfaces

 Centralized and client/server

architecture

Centralized DBMS Architecture

 A centralized DBMS in which all the

DBMS functionality, application program

execution, and user interface

processing were carried out on a single

machine

A Physical Centralized

Architecture

Basic Client/Server

Architectures

 The client/server architecture was developed

to deal with computer environment in which a

large number of PCs, workstation, file

server…

 A client in this framework is typically a user

machine that provides user interface

capabilities and local processing

 A server is a system containing both

hardware and software that can provide

services to the client machines.

Logical two-tier client server

architecture

Two-tier Architecture

 This is called two-tire architectures

because the software components are

distributed over two systems: client and

server

 The emergence of the Web changed

the roles of client and server, leading to

the three-tier architecture

Three-tier architecture

 The intermediate layer or middle layer is

sometimes called the application server or

Web server

 Three-tier Architecture Can Enhance

Security:

1. Database server only accessible via middle tier

2. Clients cannot directly access database server

Three-tier client-server

architecture

Three-tier architecture

 The presentation layer displays information to

the user

 The business logic layer handles intermediate

rules and constrains before data is passed up

to the user or down to the DBMS

 If the bottom layer is split into two layers (a

web server and a database server), then it is

a 4-tire architecture (possible to the n-tier)