Chapter 1 part 1
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HASSAN BIN ALIDepartment of IT & Communication
Politeknik Tuanku Syed Sirajuddin
FP202 Fundamental Of Operating System
At the end of this chapter, student will be able to:
1)Define operating system2)List the use of operating system in
computer system3)Describe various OS architecture4)Describe various types of OS
FP202 Fundamental Of Operating System
Software program that controls the hardware. Definition of an operating system can be seen in
four aspects:1) A group of program that acts as an intermediary
between user, software and computer hardware.2) Controls and co-ordinates the use of computer
resources among various application programs and user.
3) Acts as a manager4) Allow the program to communicate with one
another
FP202 Fundamental Of Operating System
Basically, two types of software available:1)System software
- Groups of program that control the hardwareSystems software includes compilers,loaders, linkers, and debuggers.
2)Application software- Groups of programs that used by the end-user for variousapplications such as text processing, spreadsheet, etc
OS categorized as system software- Build to act as an intermediary between user of a computer and computer hardware- Goal: Provide convenient and efficient environment for the user
FP202 Fundamental Of Operating System
FP202 Fundamental Of Operating System
User1 User2 User3
System and application programs
Operating system
Hardware
Figure 1: Abstract view of the components of a computer system
Functions OS:1) Resource Sharing- The OS contains a set of algorithms that allocates
resources to the programs executed on behalf of the user.
- These resources include time, power, hardware, etc...
2) Control ProgramControls the operation of the application programs to prevent errors affecting other programs.
3) Provision of a Virtual MachineThis hides interfaces to I/O devices, filing systems, etc, and provides a programming interface for applications.
4) KernelThe kernel is the only program resident all the time (all other applications are application programs).
FP202 Fundamental Of Operating System
OS has three objectives:1) Convenience
- An OS make a computer more convenient to be used
2) Efficiency- An OS allows the computer system resources to be used in an efficient manner
3) Ability to evolve- An OS is constructed in such a way to as to permit the effective development, testing and introduction of new system function without at the same time interfering with service.
FP202 Fundamental Of Operating System
OPERATING SYSTEM
ARCHITECTURE
FP202 Fundamental Of Operating System
This approach well known as “The Big Mess” - there is no structure.
All kernel routines are together, any can call any A system call interface (main program, sys calls, utility
functions) Examples: Linux, BSD Unix, Windows Pros
1) Shared kernel space2) Good performance
Cons1) No information hiding2) Inflexible3) Chaotic4) Difficult to understand
FP202 Fundamental Of Operating System
The operating system is divided into a number of layers (levels), each built on top of lower layers. The bottom layer (layer 0), is the hardware; the highest (layer N) is the user interface.
With modularity, layers are selected such that each uses functions (operations) and services of only lower-level layers.
Hiding information at each layer E.g. level 1 is processor allocation, level 1 memory management,
level 2 communication, level 3 I/O, etc. Examples: THE System (6 layers), MS-DOS (4 layers) Pros
1) Layered abstraction2) Separation of concerns, elegance
Cons1) Protection, boundary crossings
FP202 Fundamental Of Operating System
The advent of new concepts in OS design, microkernel is aimed at migrating services of an operating system out of monolithic kernel into user level process.
Divide the OS into several processes, each which implements a single set of services- Example: I/O servers, memory server, process server
Each server runs in user mode, provide services to the requested client.
Client: Another operating system component or application program, request service by sending message to server
An OS kernel (microkernel) running in kernel mode deliver message to the server.
The server perform operation, and microkernel delivers the result to client in another message.
FP202 Fundamental Of Operating System
Components above microkernel communicate directly with one another, although using message that pass through the microkernel itself.
Microkernel validate messages, passes them between the components and grants access to hardware.
Example: C-DAC microkernel, Mach, Windows NT, Chorus
FP202 Fundamental Of Operating System
……….Client-server model or microkernel
FP202 Fundamental Of Operating System
Example: Windows NT Various applications (Win32, OS/2, and POSIX) run in user
space. Server for each application runs in user space. Message passing between client application programs and
application servers runs in kernel space.
FP202 Fundamental Of Operating System
OPERATING SYSTEM TYPES
A batch system is one in which jobs are bundled together with the instructions necessary to allow them to be processed without intervention.
The basic physical layout of the memory of a batch job computer is shown below:
- The monitor is system software that is responsible for interpreting and carrying out the instructions in the batch jobs.
- When the monitor starts a job, the entire computer is dedicated to the job, which then controls the computer until it finishes.
Monitor (permanently resident)
User Space(compilers, programs,
data, etc.)
Advantages:1)Move much of the work of the operator to the computer2)Increased performance since it was possible for job to start as soon as the
previous job finished Disadvantages:
1)Due to lack of protection scheme, one batch job can affect pending jobs (read too many cards, etc)
Example: A job could corrupt the monitor, thus affecting pending jobs2)A job could enter an infinite loop
As machines with more and more memory became available, it was possible to extend the idea of multiprogramming (or multiprocessing) as used in batch systems.
This create a systems that would load several jobs into memory at once and cycle through them in some order, working on each one for a specified period of time.
The basic physical layout of a multiprogramming system is as shown:
Monitor (more like an operating system)
User program 1
User program 2
User program 3
User program 4
At this point the monitor is growing to the point where it begins to resemble a modern operating system.
It is responsible for:1)Starting user jobs2)Spooling operations3)IO for user jobs4) Switching between user jobs5) Ensuring proper protection while doing the above
There are different type of Multiprogramming Operating System such as:
1) Multitasking Operating System A type of multiprogramming operating system which can
perform several process simultaneously. The earliest multitasking OS available to home users was the
AmigaOS. All current major operating system support this feature.
2) Multi-user Operating System A multi-user operating system allows for multiple users to
use the same process at the same time and/or different times. Linux, Unix,Windows OS are some example of multitasking
operating system.
3) Multiprocessing Operating System An operating system capable of supporting and utilizing
more than one computer.
4) Real Time Operating System Often used as a control device in a dedicated application
such as controlling scientific experiments, medical imaging systems, industrial control systems, and some display systems.
Well-defined fixed-time constraints.
The Distributed Operating System is one that runs on multiple, autonomous CPUs which provides its users an illusion of an ordinary Centralized Operating System that runs on a virtual Uniprocessor.
Distributed Operating System provide resource tranparency to the users processes.
“If you can tell which computer you are using, you are not using a distributed system ” - Tanenbaum
FP202 Fundamental Of Operating System
T h e I n ter n e t
a n e tw o r k h o s t
w o r ks ta tio n s a lo c a l n e tw o r k
Distributed Operating System
Advantages:1)Price/Performance advantage (Availability of cheap and
powerful Microprocessors). 2)Resources Sharing3)Computation speed up – load sharing 4)Reliability and Availability. 5)Provides Transparency.
Disadvantages:1)Lack of security - Easy access also applies to secret data.
An example of a distributed system: Amoeba- An open source microkernel-based distributed operating system
developed by Andrew S. Tanenbaum and others at the Vrije Universiteit.
- The aim of the Amoeba project is to build a timesharing system that makes an entire network of computers appear to the user as a single machine.
- Development seems to have stalled: the files in the latest version (5.3) were last modified on 12 February 2001.
- Amoeba runs on several platforms, including i386, i486, 68030, Sun 3/50 and Sun 3/60.