Operating System ─ Types :
Operating
systems are there from the very first computer generation and they keep evolving
with time. In this chapter, we will discuss some of the important types of operating
systems which are most commonly used.
Batch
Operating System
The users of a
batch operating system do not interact with the computer directly. Each user
prepares his job on an off-line device like punch cards and submits it to the
computer operator. To speed up processing, jobs with similar needs are batched
together and run as a group. The programmers leave their programs with the
operator and the operator then sorts the programs with similar requirements
into batches.
The problems
with Batch Systems are as follows:
1.
Lack of
interaction between the user and the job.
2. CPU is often
idle, because the speed of the mechanical I/O devices is slower than the CPU.
3. Difficult
to provide the desired priority.
Time-sharing
Operating Systems
Time-sharing is
a technique which enables many people, located at various terminals, to use a
particular computer system at the same time. Time-sharing or multitasking is a logical
extension of multiprogramming. Processor's time which is shared among multiple users
simultaneously is termed as time-sharing.
The main
difference between Multi programmed Batch Systems and Time-Sharing Systems is
that in case of Multi programmed batch systems, the objective is to maximize
processor use, whereas in Time-Sharing Systems, the objective is to minimize
response time. Multiple jobs are executed by the CPU by switching between them,
but the switches occur so frequently. Thus, the user can receive an immediate
response. For example, in a transaction processing, the processor executes each
user program in a short burst or quantum of computation. That is, if n users
are present, then each user can get a time quantum. When the user submits the
command, the response time is in few seconds at most. The operating system uses
CPU scheduling and multiprogramming to provide each user with a small portion of
a time. Computer systems that were designed primarily as batch systems have
been modified to time-sharing systems.
Advantages of
Timesharing operating systems are as follows:
1. Provides the
advantage of quick response
2. Avoids
duplication of software
3. Reduces
CPU idle time
Disadvantages
of Time-sharing operating systems are as follows:
1. Problem of
reliability
2. Question of
security and integrity of user programs and data
3. Problem
of data communication
Distributed
Operating System
Distributed
systems use multiple central processors to serve multiple real-time applications
and multiple users. Data processing jobs are distributed among the processors accordingly.
The processors communicate with one another through various communication lines
(such as high-speed buses or telephone lines). These are referred as loosely
coupled systems or distributed systems. Processors in a distributed system
may vary in size and function. These processors are referred as sites, nodes,
computers, and so on.
The advantages
of distributed systems are as follows:
1. With resource
sharing facility, a user at one site may be able to use the resources available
at another.
2. Speedup the
exchange of data with one another via electronic mail.
3. If one site
fails in a distributed system, the remaining sites can potentially continue operating.
4. Better service
to the customers.
5. Reduction of
the load on the host computer.
6. Reduction
of delays in data processing.
Network
Operating System
A Network
Operating System runs on a server and provides the server the capability to manage
data, users, groups, security, applications, and other networking functions.
The primary purpose of the network operating system is to allow shared file and
printer access among multiple computers in a network, typically a local area
network (LAN), a private network or to other networks. Examples of network
operating systems include Microsoft Windows Server 2003, Microsoft Windows
Server 2008, UNIX, Linux, Mac OS X, Novell NetWare, and BSD.
The advantages
of network operating systems are as follows:
1.
Centralized
servers are highly stable.
2.
Security is
server managed.
3.
Upgrades to new
technologies and hardware can be easily integrated into the system.
4. Remote access
to servers is possible from different locations and types of systems.
The
disadvantages of network operating systems are as follows:
1. High cost of
buying and running a server.
2.
Dependency on a
central location for most operations.
3.
Regular
maintenance and updates are required.
Real-Time
Operating System
A real-time
system is defined as a data processing system in which the time interval required
to process and respond to inputs is so small that it controls the environment.
The time taken by the system to respond to an input and display of required
updated information is termed as the response time. So in this method,
the response time is very less as compared to online processing. Real-time
systems are used when there are rigid time requirements on the operation of a processor
or the flow of data and real-time systems can be used as a control device in a dedicated
application. A real-time operating system must have well-defined, fixed time constraints,
otherwise the system will fail. For example, Scientific experiments, medical imaging
systems, industrial control systems, weapon systems, robots, air traffic
control systems, etc.
There are two
types of real-time operating systems.
Hard
real-time systems
Hard real-time
systems guarantee that critical tasks complete on time. In hard real-time systems,
secondary storage is limited or missing and the data is stored in ROM. In these
systems, virtual memory is almost never found.
Soft
real-time systems
Soft real-time
systems are less restrictive. A critical real-time task gets priority over
other tasks and retains the priority until it completes. Soft real-time systems
have limited utility than hard real-time systems. For example, multimedia,
virtual reality, Advanced Scientific Projects like undersea exploration and
planetary rovers, etc.
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