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Course Name
Year
: Database System
: 2012
Database Architectures and the Web
Session 5
Chapter 3
Database Architectures
and the Web
Pearson Education © 2009
Chapter 3 - Objectives
 The
meaning of the client–server architecture and
the advantages of this type of architecture for a
DBMS
 The difference between two-tier, three-tier and ntier client–server architectures
 The function of an application server
 The meaning of middleware and the different
types of middleware that exist
 The function and uses of Transaction Processing
(TP) Monitors
Pearson Education © 2009
Chapter 3 - Objectives
 The
purpose of a Web service and the
technological standards used
 The meaning of service-oriented architecture
(SOA)
 The difference between distributed DBMSs, and
distributed processing
 The architecture of a data warehouse
 The software components of a DBMS
 About Oracle’s logical and physical structure
Pearson Education © 2009
Multi-user DBMS Architectures
 Teleprocessing
– Traditional architecture for multi-user
systems
– One computer with a single central
processing unit (CPU) and a number of
terminals
– Put a huge burden on the central computer
 Downsizing
– Replacing expensive mainframe computers
with more cost-effective networks of
personal computers
Pearson Education © 2009
Multi-user DBMS Architectures
 File-server
architecture
– Processing is distributed about the network
– Three main disadvantages
» Large amount of network traffic
» Full copy of DBMS required on each workstation
» Concurrency, recovery, and integrity control are complex
 Multiple DBMSs can access the same files
Pearson Education © 2009
File-Server Architecture
Pearson Education © 2009
Multi-user DBMS Architectures
 Traditional
–
–
–
–
two-tier client–server architecture
Client process requires some resource
Server provides the resource
Basic separation of four main components of
business application
Typical interaction between client and
server
Pearson Education © 2009
Traditional Two-Tier Client-Server
Client (tier 1) manages user interface and runs
applications.
 Server (tier 2) holds database and DBMS.


Advantages include:
–
–
–
–
–
wider access to existing databases;
increased performance;
possible reduction in hardware costs;
reduction in communication costs;
increased consistency.
Pearson Education © 2009
Traditional Two-Tier Client-Server
Pearson Education © 2009
Traditional Two-Tier Client-Server
Pearson Education © 2009
Multi-user DBMS Architectures
 Three-tier
–
–
–
–
client–server architecture
User interface layer
Business logic and data processing layer
DBMS
Many advantages over traditional two-tier
or single-tier designs
Pearson Education © 2009
Three-Tier Client-Server

Client side presented two problems preventing
true scalability:
– ‘Fat’ client, requiring considerable resources on
client’s computer to run effectively.
– Significant client side administration overhead.

By 1995, three layers proposed, each
potentially running on a different platform.
Pearson Education © 2009
Three-Tier Client-Server

Advantages:
– ‘Thin’ client, requiring less expensive hardware.
– Application maintenance centralized.
– Easier to modify or replace one tier without
affecting others.
– Separating business logic from database functions
makes it easier to implement load balancing.
– Maps quite naturally to Web environment.
Pearson Education © 2009
Three-Tier Client-Server
Pearson Education © 2009
Multi-user DBMS Architectures
 N-tier
architectures
– Three-tier architecture can be expanded to n
tiers
 Application servers
– Hosts an application programming interface
(API) to expose business logic and business
processes for use by other applications
Pearson Education © 2009
Summary of client–server functions
Pearson Education © 2009
Multi-user DBMS Architectures
 Middleware
– Software that mediates with other software
– Communication among disparate applications
– Six main types
»
»
»
»
»
»
Asynchronous Remote Procedure Call (RPC)
Synchronous RPC
Publish/Subscribe
Message-Oriented middleware (MOM)
Object-request broker (ORB)
SQL-oriented data access
Pearson Education © 2009
Multi-user DBMS Architectures
 Transaction
processing monitor
– Controls
data
transfer
between
clients/servers
– Provides
a
consistent
environment,
particularly
for
online
transaction
processing (OLTP)
– Significant advantages
»
»
»
»
»
Transaction routing
Managing distributed transactions
Load balancing
Funneling
Increased reliability
Pearson Education © 2009
Transaction Processing Monitors
 Program
that controls data transfer between
clients and servers in order to provide a
consistent environment, particularly for Online
Transaction Processing (OLTP).
Pearson Education © 2009
Multi-user DBMS Architectures
Transaction processing monitor
Pearson Education © 2009
Web Services and Service-Oriented
Architectures

Web service
– Software system that supports interoperable
machine-to-machine interaction over a network
– No user interface
– Examples of Web services
– Uses widely accepted technologies and
standards
Pearson Education © 2009
Relationship between WSDL, UDDI, and
SOAP
Pearson Education © 2009
Web Services and Service-Oriented
Architectures

Service-Oriented Architectures (SOA)
– Architecture for building applications that
implement business processes as sets of services
– Published at a granularity relevant to the
service consumer
– Loosely coupled and autonomous services
– Web services designed for SOA different from
other Web services
Pearson Education © 2009
Traditional vs. SOA Architecture
Pearson Education © 2009
Distributed DBMSs
 Distributed
database
– Logically interrelated collection of shared
data physically distributed over a computer
network
 Distributed DBMS
– Software
system
that
permits
the
management of the distributed database
– Makes the distribution transparent to users
Pearson Education © 2009
Distributed DBMSs
 Characteristics
–
–
–
–
–
–
–
–
of DDBMS
Collection of logically related shared data
Data split into fragments
Fragments may be replicated
Fragments/replicas are allocated to sites
Sites are linked by a communications network
Data at each site is controlled by DBMS
DMBS handles local apps autonomously
Each DBMS in one or more global app
Pearson Education © 2009
Distributed DBMSs
 Distributed
processing
– Centralized database that can be accessed
over a computer network
 System consists of data that is physically
distributed across a number of sites in the
network
Pearson Education © 2009
Data Warehousing
 Data
–
–
–
–
warehouse
Consolidated/integrated view of corporate
data
Drawn from disparate operational data
sources
Range of end-user access tools capable of
supporting simple to highly complex queries
to support decision making
Subject-oriented, integrated, time-variant,
and nonvolatile
Pearson Education © 2009
Typical Architecture of a Data Warehouse
Pearson Education © 2009
Oracle Architecture
 Oracle’s
–
–
–
–
logical database structure
Tablespaces
Schemas
Data blocks
Extents/segments
Pearson Education © 2009
Relationship between an Oracle Database,
Tablespaces, and Datafiles
Pearson Education © 2009
Oracle Architecture
 Oracle’s
physical database structure
– Datafiles
– Redo log files
– Control files
 The Oracle instance
– Oracle processes and shared memory
required to access information in the
database
Pearson Education © 2009