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Slide 1: COMPUTER SYSTEM ORGANISATION Presentation made by: Ms. Archika Bhatia
Slide 2: Definition of Computer Electronic Device Accepts and stores input Manipulates result Outputs results Under direction of stores programs and instructions
Slide 3: Characteristics of Computer Speed Accuracy Diligence : not afflicted to tiredness, monotony, lack of concentration like human beings. Reliability Versatility : can work with different types of data like sound, graphics, audio. Memory
Slide 4: What is Data and Information Data is raw facts ex: India, 200, 4, Cricket, Wicket Information is meaningful and arranged form of data ex: India’s score in Cricket is 200 for 4 wickets.
Slide 5: HARDWARE Hardware refers to physical components that can be seen and touched. E.g. CPU, Memory, I/O devices. SOFTWARE Software is a set of programs that make the Hardware of the computer run. Program is a set of instructions.
Slide 6: FIRMWARE Firmware is like prewritten program that is permanently stored in read-only memory. BIOS ( Basic Input Output Services ) instructions are an example of firmware. LIVEWARE It is the term generally used for the people associated with and benefited from the computer system.
Slide 7: Each generation of computer is characterized by a major technological development that fundamentally changed the way computers operate, resulting in increasingly smaller, cheaper, more powerful and more efficient and reliable devices.
Slide 8: TIME PERIOD FIRST GENERATION : 1940's-1950's TECHNOLOGY USED : Vacuum Tubes SIZE AND SPEED : Huge, t aking up entire rooms, Slow speed LANGUAGE USED language : Machine Structure of a Vaccum Tube COST : System and working cost very high. OTHER FEATURES deal of electricity. heat. : Used a great Generat ed a lot of UNIVAC Input was based on punched cards and paper tape, and output was displayed on printout s. EXAMPLE : UNIVAC and ENIAC
Slide 9: SECOND GENERATION 1960's TIME PERIOD : 1950'sTECHNOLOGY USED : T ransistors SIZE AND SPEED speed : Lesser size and increased LANGUAGE USED : Assembly language and languages like COBOL and FORTRAN COST OTHER FEATURES : Cost decreased : More efficient and reliable. TRANSISITORS UNIVAC 1108 Though the transistors still generated a great deal of heat that subjected the computer to damage, it was a vast improvement over the vacuum tube. Second-generation computers still relied on punched cards for input and printouts for output. EXAMPLE 1604 : UNIVAC 1108, IBM 1401, CDC IBM 1401
Slide 10: THIRD GENERATION TIME PERIOD : late 1960's-1970's TECHNOLOGY USED : Integrated Circuit SIZE AND SPEED LANGUAGE USED COST : Size Lesser and speed further increased : Operating System was developed. : Cost decreased further IBM 360/50 OTHER FEATURES : Instead of punched cards and printouts, users interacted with third generation computers through keyboards and monitors and interfaced with an operating system, which allowed the device to run many different applications at one time with a central program that monitored the memory. Computers for the first time became accessible to a mass audience because they were smaller and cheaper than their predecessors. EXAMPLE : IBM-360 series, Honeywell Model 316, Honeywell – 6000 series, CDC – 1700.
Slide 11: FOURTH TIME PERIOD : 1970's-today GENERATION SIZE AND SPEED tremendous speed TECHNOLOGY USED : Microprocessor : Reduced size and LANGUAGE USED : High Level Languages like PASCAL, COBOL, C, C++ , JAVA COST : Reduced Cost The Macintosh 128K, the first Macintosh, was the first commercially successful personal computer to use images, rather than text, to communicate. OTHER FEATURES : Microprocessors also moved out of the realm of desktop comput ers and into many areas of life as more and more everyday products began t o use microprocessors. As these small computers became more powerful, they could be linked together to f orm networks, which eventually led t o the development of the Internet. Fourth generat ion computers also saw the development of GUIs, the mouse and handheld devices. Intel 4004D microprocessor
Slide 12: TIME PERIOD FIFTH GENERATION : 1990's -today : Microprocessor : Reduced size and tremendous speed : Based on Artificial intelligence : Reduced Cost TECHNOLOGY USED SIZE AND SPEED LANGUAGE USED COST OTHER FEATURES : Fifth generation computing devices, based on artificial intelligence, are still in development, though there are some applications, such as voice recognition, that are being used today. The goal of fifth-generation computing is to develop devices that respond to natural language input and are capable of learning and self-organization. EXAMPLE : Parallel Inference Machine Note : Artificial Intelligence is the branch of computer science concerned with making computers behave like humans. Note : Voice Recognition is the field of computer science that deals with designing computer systems that can recognize spoken words.
Slide 13: Types of Computer Analog Computers: Hybrid Computers: Works on measurement of Uses both digital ork with digits and analog physical or numbers. qualities. phenomenon like breath, rotation, e.g. Digital electric effects, thermometer voltage. Digital Computers: e.g. ECO, ECG, measuring distance traveled in KM. In car, Speedometer in
Slide 14: Classification of Digital Computers Purpose wise: Size and Purpose wise: General Purpose: one that can work on different types Supercomputer if programs. Mainframe Special purpose: Minicomputer one that is designed to perform a specific Microcomputer task. Embedded
Slide 15: SUPER COMPUTER The fastest type of computer. Supercomputers are very expensive and are employed for specialized applications that require immense amounts of mathematical calculations. For example, weather forecasting requires a supercomputer. Other uses of supercomputers include animated graphics, , nuclear energy research, and petroleum exploration. Characteristics Powerful Expensive Dedicated to one purpose - weather, satellites, military Used by large governments or very large companies Can be used by thousands of people at the same time Very large - fill rooms Example: PARAM by CDAC and PACE ( Processor for Aerodynamic Computation and Evaluation ) by ANURAG
Slide 16: Sixteen racks of IBM's Blue Gene/L supercomputer can perform 70.7 trillion calculations per second, making it the fastest machine known so far.
Slide 17: In the early days of computing, mainframes were huge computers that could fill an entire room or even a whole floor. As the size of computers has decreased while the power has increased, the term mainframe has fallen out of use in favor of enterprise server. You'll still hear the term used, particularly in large companies to describe the huge machines processing millions of transactions every day. Characteristics: Expensive Powerful and fast Is not limited to one job Used by business and small government organizations Example: IBM 3090/60, CDC 6600 T he main dif ference between a supercomputer and a mainframe is that a supercomputer channels all its power into executing a few programs as fast as possible, whereas a mainframe uses its power t o execute many MAINFRAME
Slide 18: MINICOMPUTER Another term rarely used anymore, minicomputers fall in between microcomputers (PCs) and mainframes (enterprise servers). Minicomputers are normally referred to as mid-range servers now. Characteristics: Smaller than mainframe Can do several jobs at once Can be used by many people at one time Used by small companies Example: PDP-11, VAX
Slide 19: PERSONAL COMPUTER The term microcomputer, also known as personal computer ( PC) , or a computer that depends on a microprocessor . A microcomputer contains a central processing unit (CPU) on a microchip (the microprocessor), a memor y system (read-only memory and random access m em ory), placed on a motherboard. Example: desktop, notebook, laptop, handheld devices. Charcteristics: developed in 1980 designed for single user not very powerful or expensive found in homes
Slide 20: EMBEDDED COMPUTER Embedded within the circuitry of appliances such as T.V., washing machines, wrist watches, etc. Programmed for a specific task.
Slide 21: EVOLUTION OF COMPUTER The development of the modern day computer was the result of advances in technologies and man's need to quantify. Let us look at some of the important milestones in the evolution of computers.
Slide 22: ABACUS The abacus was invented in 3000 BC in Babylonia.
Slide 23: PASCAL’S ADDING MACHINE In 1642 AD, Blaise Pascal , a French mathematician invented a calculating machine named as Adding Machine. This machine was capable of doing Addition and Subtraction. This device is known as the First Calculator of the world.
Slide 24: LEIBNITZ’S CALCULATOR In 1671 AD, Gotfried Leibnitz, a German Mathematician improved the Adding machine and made a new machine capable of performing multiplication and division also.
Slide 25: BABBAGE’S DIFFERENCE ENGINE Charles Babbage was a British mathematician. In 1822, he designed a machine called Difference Engine. It aimed at calculating mathematical tables. Since the technology was not so advanced at that time this machine could not be made.
Slide 26: BABBAGE’S ANALYTICAL ENGINE In 1833, Charles Babbage designed a machine called Analytical Engine. It had almost all the parts of a modern computer. Unfortunately, this machine could not be built because of lack of technology. His designs remained a concept. His great designs earned him the title of ‘FATHER OF COMPUTERS‘.
Slide 27: LADY ADA Lord Byron's daughter, Ada, Countess of Lovelace, suggested to Babbage that he use the binary system in his machine. She wrote programs for his analytical engine in 1840, becoming the world's first computer programmer.
Slide 28: HOLLERITH’S TABULATING MACHINE Hollerith, a Mathematician, invented a fast counting machine named Tabulating Machine in 1880. This machine was used by American Department of Census to complete their 1880 census data.
Slide 29: MARK I COMPUTER Howard Aiken of Harvard University in USA joined hands with the company IBM. He developed a computer named Mark I in 1943. It could perform mathematical operations very fast. It could perform one operation per second.
Slide 30: ENIAC The first electronic computer ENIAC was developed in 1946 by a team lead by Professor Eckert and Mauchly at the University of Pennsylvania in USA. Electronic Numerical Integrator and Computer (ENIAC) was very huge and very fast. It could solve 5000 operations per second.
Slide 31: INTEL 8080 PROCESSOR In 1974 the Intel 8080 processor was introduced - it became the basis for the first personal computers.
Slide 32: Types of Software Software ( Set of programs that govern the operations of computer ) System Software ( Software that controls internal computer operations ) Operating System ( Software which acts as an interface between user and the hardware ) Language Processor ( Software which converts HLL progran into machine language ) Application Software ( Set of programs to carry out operations for a specified application ) Utilities ( perform house keeping ) Packages ( General utility software ) Customized Software ( Tailor made software according to user’s needs )
Slide 33: Anti Virus: e.g. Notron, AVG File Management tools Compression tools Disk Management tools ( Disk Cleanup, Disk Defragmenter, Backup) (Disk Defragmenter speeds up disk access by rearranging the files and free space on your computer, so that the files can be stored in contiguous units and free space is consolidated in one contiguous block)
Slide 34: APPLICATION SOFTWARE ( PACKAGES ) Word Processor Presentation tools Spreadsheet Package Database Management System Business Software ( ex: School Management System, Inventory Management System, Payroll System, Financial Accounting, Hotel Management, Reservation System)
Slide 35: Language Processors There are three types of Language Processors: Assembler: This language processor converts the program written in Assembly language into machine language. Compiler: This converts HLL program into machine language in one go. After the compiler is not needed. It is removed from the memory.Therefore, better memory utilization. Interpreter: This converts HLL program into machine language by converting and executing it line by line. It must be present I memory every time program is executed. Therefore, unnecessary usage of memory.
Slide 36: Fifth Generation Fourth Generation Third Generation (High Level Language) Second Generation (Assembly Language) First Generation (Machine Language) Low Level Language
Slide 37: FIRST GENERATION : Machine language i.e. language of 0 and 1 SECOND GENERATION : Assembly language Similar to English Uses mnemonics codes THIRD GENERATION : High Level Language Very close to English E.g. C, C++, Java, VB FOURTH GENERATION FIFTH GENERATION : Languages for accessing databases : Uses a visual or graphical development interface to create source language that is usually compiled with a 3GL or 4GL language compiler Used mainly in artificial intelligence research E.g. Prolog, OPS5, and Mercury
Slide 38: Need For Operating System To make computer system convenient to use To use computer hardware in an efficient manner It decides How to do? What to do? When to do?
Slide 39: Functions of Operating System Processor Management : maximum utilization of CPU through multiprogramming. Memory Management : organizing the memory such as to store maximum data. Contiguous storage allocation Non Contiguous storage allocation File Management : function is to facilitate easy creation, storage and access of files in order to enable sharing of files between programs and their protection against illegal access. Device Management : concerned with maximum utilisation of the I/O devices attached to the computer.
Slide 40: Types of Operating System Single User : Allows only one user to run programs at a time. E.g. DOS. Multi-user (Distributed) : Allow two or more users to run programs at the same time. E.g. Unix, DOS. Multiprocessing : Supports running a program on more than one CPU. E.g. Unix, Windows XP, OS/2, Solaris. Multitasking : Allows more than one program to run concurrently. E.g. Windows XP, Unix, OS/2, Amiga, MultiFinder. Interactive (GUI) : These OS are interactive in nature. I.e they provide GUI interface to facilitate easy interaction to the user. Eg. Windows Time Sharing : uses time sharing technique. I.e. each active user is given a fair share of CPU time. Real Time : Responds to input instantly. General purpose operating system like DOS and Unix are not real-time. E.g. CMXRTX, CMX-TINY
Slide 41: Commonly used OS Linux : example of: free software Open Source development ( I.e. freely openly use it, modify it an redistribute it ) First released in September 1991. Can download from www.linux.org Windows : introduced by Microsoft in 1985. Provides GUI. Bharat Operating System Solutions (BOSS) Linux : It is a Linux based OS developed by C-DAC, Chennai. Applications have been localised to enable the use of Indian languages. Bharateeya Open Ofice consists of Writer, Calc, impress, Draw Solaris :free unix-based O.S. intoduced by Sun Microsystems in 1992 as a successor to Sun OS. • Unix : developed in 1969 at AT&T Bell Laboratories. Multitasking and multi-user OS.