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Computer Basics

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Computer Basics Dr. D. P. Mishra Digitally signed by Dr. D. P. Mishra DN: cn=Dr. D. P. Mishra, o=durg, ou=BIT, email=dpmishra@bitdurg. ac.in, c=IN Date: 2023.07.23 18:50:49 +05'30'
Computer Generation Unit-1 CCWT : Prof. D. P. Mishra BITD 2
Key for Computer Generations • Time Frame • Circuit Components • Elements per Component • Internal Storage • Memory Capacity • Data Input • Popular Computers and Companies at that time Unit-1 CCWT : Prof. D. P. Mishra BITD 3
Zeroth Generation • Man used his fingers, ropes, beads, bones, pebbles and other objects for counting. • Abacus, Pascaline, Difference & Anylitical engines • Electricity was not yet invented Unit-1 CCWT : Prof. D. P. Mishra BITD 4
First Generations 1951- 1958 • Vacuum Tubes • Magnetic Drum • 4,000 bits • Hard Wire Programs in computers • IBM 650, Univac I • ENIAC Unit-1 CCWT : Prof. D. P. Mishra BITD 5
Unit-1 CCWT : Prof. D. P. Mishra BITD 6
First Generations 1951- 1958 • The first computers used vacuum tubes for circuitry and magnetic drums for memory. • They were often enormous and taking up entire room. • First generation computers relied on machine language. • . They were very expensive to operate and in addition to using a great deal of electricity, generated a lot of heat, which was often the cause of malfunctions. • The UNIVAC and ENIAC computers are examples of first-generation computing devices. Unit-1 CCWT : Prof. D. P. Mishra BITD 7
First generation computers Unit-1 CCWT : Prof. D. P. Mishra BITD 8
Pros / Advantages • It was only electronic device • First device to hold memory Unit-1 CCWT : Prof. D. P. Mishra BITD 9
Cons / Disadvantages • Too bulky i.e. large in size • They generate more heat causing many problems in temperature regulation and climate control. • Tubes were subject to frequent burn-out. • They were producing heat • Maintenance problems Unit-1 CCWT : Prof. D. P. Mishra BITD 10
Second Generation 1959-1964 • Transistors • Magnetic Cores • 32,000 bits • Punch Cards • CDC, GE, IBM Unit-1 CCWT : Prof. D. P. Mishra BITD 11
Second Generation 1959-1964 • Transistors replaced vacuum tubes and ushered in the second generation of computers. • Second-generation computers moved from cryptic binary machine language to symbolic. • High-level programming languages were also being developed at this time, such as early versions of COBOL and FORTRAN. • These were also the first computers that stored their instructions in their memory. Unit-1 CCWT : Prof. D. P. Mishra BITD 12
Second Generation 1959-1964 • The Second Generation (1959 to 1964) Unit-1 CCWT : Prof. D. P. Mishra BITD 13
Second Generation 1959-1964 Advantages : • Size reduced considerably • The very fast • Very much reliable Disadvantages : • They over heated quickly • Maintenance problems Unit-1 CCWT : Prof. D. P. Mishra BITD 14
Third Generation 1965-1974 • Silicon Chips (Integrated circuits)= IC • Cores, IC’s • 128,000 bits • Keyboard Entry • IBM, NCR, Honeywell Unit-1 CCWT : Prof. D. P. Mishra BITD 15
Third Generation 1965-1974 • The development of the integrated circuit was the hallmark of the third generation of computers. • Transistors were miniaturized and placed on siliconchips, called semiconductors. • Instead of punched cards and printouts, users interacted with third generation computers through keyboards and monitors and interfaced with an operating system. • Allowed the device to run many different applications at one time. Unit-1 CCWT : Prof. D. P. Mishra BITD 16
Third generation computers Unit-1 CCWT : Prof. D. P. Mishra BITD 17
Advantages • RELIABILITY – Unlike vacuum tubes, silicon will not break down easily. It is very seldom that you will have to replace it. • LOW COST – Silicon chips are relatively cheap because of their small size and availability in the market. It also consumes less electricity. Unit-1 CCWT : Prof. D. P. Mishra BITD 18
Fourth Generation 1975-1989 • Silicon Chips (Large scale integrated circuits)=LSI • IC’s, LSI’s • 100 million bits • Read programs off disks • Apple, Xerox, Texas Instrument, Hewlett-Packard Unit-1 CCWT : Prof. D. P. Mishra BITD 19
Fourth Generation 1975-1989 • These computers use microprocessor chips. • Object-Oriented Programming (OOP) Languages such as Visual Basic, and JAVA are characteristic of this computer generation. Unit-1 CCWT : Prof. D. P. Mishra BITD 20
21 Fifth Generation 1990-present AI and NLP Unit-1 CCWT : Prof. D. P. Mishra BITD
Unit-1 CCWT : Prof. D. P. Mishra BITD 22 Fifth Generation 1990-present • Natural Language • This language is designed to give people a more human connection with computers. • Uses multi-media has also defined this generation. • There is a great deal of “bundled software” with this generation.
Fifth Generation 1990-present • Fifth generation computing devices, based on artificial intelligence. • Are still in development, though there are some applications, such as voice recognition. • The use of parallel processing and superconductors is helping to make artificial intelligence a reality. • The goal of fifth-generation computing is to develop devices that respond to natural language input and are capable of learning and self-organization. Unit-1 CCWT : Prof. D. P. Mishra BITD 23
Optical Storage It is a storage medium that can be written to and read using a laser beam. Unit-1 CCWT : Prof. D. P. Mishra BITD 24
Two Types of Optical Storage Devices • CD-ROM (compact disk read-only memory) • DVD-ROM (digital video disk read-only memory)
CD 12mm 120mm in diameter 1.2mm thickness
How Optical Storage Works • An optical drive uses reflected light to read data. • To store data, the disk's metal surface is covered with tiny dents (pits) and flat spots (lands), which cause light to be reflected differently. • When an optical drive shines light into a pit, the light cannot be reflected back. • This represents a bit value of 0 (off). • A land reflects light back to its source, representing a bit value of 1 (on).
CD –ROMs • Working principle: Label Protective acrylic Polycarbonate plastic Aluminum or other metals Laser beams Land Pit
Cross Section of CD-R • . Polycarbonate Substrate Printed label Protective lacquer Reflective gold layer 1.2mm Dye layer Transmit beam Reflective beam Dark spot burned by laser
1 0
Optical Storage Devices – CD-ROM • In PCs, the most commonly used optical storage technology is called Compact Disk Read-Only Memory (CD-ROM). • A standard CD-ROM disk can store up to 700 MB of data. • Once data is written to a standard CD-ROM disk, the data cannot be altered or overwritten.
Other Optical Storage Devices • A CD-Recordable (CD-R) drive lets you record your own CDs, but data cannot be overwritten once it is recorded to the disk. • A CD-Rewritable (CD-RW) drive lets you record a CD, then write new data over the already recorded data.(100 times overwriting is possible) • PhotoCD technology is used to store digital photographs.
CD-ROM Speeds and Uses • Early CD-ROM drives were called single speed, and read data at a rate of 150 KBps. • CD-ROM drives now can transfer data at speeds of up to 7800 KBps. Data transfer speeds are getting faster. • CD-ROM is typically used to store software programs. CDs can store audio and video data, as well as text and program instructions.
Table 5.2 CD-ROM speeds Speed ------------ 1x 2x 4x 6x 8x 12x 16x 24x 32x 40x Data Rate ------------------------ 153,600 bytes per second 307,200 bytes per second 614,400 bytes per second 921,600 bytes per second 1,228,800 bytes per second 1,843,200 bytes per second 2,457,600 bytes per second 3,688,400 bytes per second 4,915,200 bytes per second 6,144,000 bytes per second Approximation ------------ 150 KB/s 300 KB/s 600 KB/s 900 KB/s 1.2 MB/s 1.8 MB/s 2.4 MB/s 3.6 MB/s 4.8 MB/s 6 MB/s
Digital Video Disk (DVD) • A variation of CD-ROM is called Digital Video Disk • DVD Read-Only Memory (DVD-ROM), and is being used in place of CD-ROM in many newer PCs. • Storage capacity ranges from 9.4 GB to 17 GB
DVD-ROM • Standard DVD disks store up to 9.4 GB of data—enough to store an entire movie. • Dual-layer DVD disks can store up to 17 GB. • Dual-layer DVD disks can store so much data because both sides of the disk are used.  Device’s laser beam can read data from the first layer and then look through it to read from the second layer.
Recordable Optical Technologies • DVD-Recordable (DVD-R)  Record data onto a special recordable digital video disk using a special drive. • DVD-RAM  Record, erase, re-record data.
DVD • The capacity improvement are due to 3 factors: • 1. Smaller pits (0.4 microns versus 0.8 ) • 2. A tighter spiral (0.74 microns versus 1.6) • 3. A red laser at 0.65 microns versus 0.78 microns.
Capacity of DVD • 1. Single-sided, single-layer (4.7GB). • 2. Single-sided, dual-layer (8.5GB). • 3. Double-sided, single-layer (9.4GB). • 4. Double-sided, dual-layer (17GB).
Newer Blue-Laser DVD • There is a war between two new DVD standard right now. • One is SONY’s blue-ray system and the other is Toshiba’s HD-DVD system. • Nov 11, 2004 - Sharp Introduces Blu-ray Disc Recorder with Hard Drive/DVD
Blue-Ray • Digital dubbing between the hard drive, DVDs, and Blu-ray Discs, including the ability to dub five DVDs (4.7GB) onto a single Blu-ray Disc (25GB). • The recorder also features an HDMI output jack, enabling users to enjoy full-digital high-definition video and high-fidelity audio with no signal deterioration by outputting recorded high-definition video (HDTV) to a compatible monitor for playback. • The BD-HD100 will begin selling in Japan next month for about 320,000 yen ($2,991).
42 Blu-ray Technology • Name- Derived from the blue-violet laser used to read and write data.  Developed by the Blu-ray Disc Association with more than 180 members.  Dell  Sony  LG
Blu-ray Technology Cont. • Data capacity  Because Blu-ray uses a blue laser(405 nanometers) instead of a red laser(650 nanometers) this allows the data tracks on the disc to be very compact.  This allows for more than twice as small pits as on a DVD. 43
Blu-ray Formats • BD-ROM (read-only) - for pre-recorded content • BD-R (recordable) - for PC data storage • BD-RW (rewritable) - for PC data storage • BD-RE (rewritable) - for HDTV recording • For More Details visit http://www.blu-ray.com/ 44
Memory • Main memory consists of a number of storage locations, each of which is identified by a unique address • The ability of the CPU to identify each location is known as its addressability • Each location stores a word i.e. the number of bits that can be processed by the CPU in a single operation. Word length may be typically 16, 24, 32 or as many as 64 bits. • A large word length improves system performance, though may be less efficient on occasions when the full word length is not used Unit-1 CCWT : Prof. D. P. Mishra BITD 45
There are two types of main memory, Random Access Memory (RAM) and Read Only Memory (ROM) Random Access Memory (RAM) holds its data as long as the computer is switched on All data in RAM is lost when the computer is switched off Described as being volatile It is direct access as it can be both written to or read from in any order Its purpose is to temporarily hold programs and data for processing. In modern computers it also holds the operating system Types of main memory
RAM ? • Random-access memory (RAM) is a form of computer data storage. • Its in form of integrated circuits that allow stored data to be accessed in any order in a constant time, regardless of its physical location and whether it is related to the previous piece of data. • RAM is often associated with volatile types of memory • The first RAM modules to come into the market were created in 1951 and were sold until the late 1960s and early 1970s.
ROM ? • ROM (Read Only Memory) is used to store the instructions provided by the • Manufacturer, which holds the instructions to check basic hardware interconnector and • To load operating system from appropriate storage device
Types of RAM 1. Dynamic Random Access Memory (DRAM) • Contents are constantly refreshed 1000 times per second • Access time 60 – 70 nanoseconds • Note: a nanosecond is one billionth of a second! 2. Synchronous Dynamic Random Access Memory (SDRAM) • Quicker than DRAM • Access time less than 60 nanoseconds 3. Direct Ram bus Dynamic Random Access Memory (DRDRAM) • New type of RAM architecture • Access time 20 times faster than DRAM • More expensive
Types of RAM .. 4. Static Random Access Memory (SRAM) • Doesn’t need refreshing • Retains contents as long as power applied to the chip • Access time around 10 nanoseconds • Used for cache memory • Also for date and time settings as powered by small battery 5. Cache memory • Small amount of memory typically 256 or 512 kilobytes • Temporary store for often used instructions • Level 1 cache is built within the CPU (internal) • Level 2 cache may be on chip or nearby (external) • Faster for CPU to access than main memory
Unit-1 CCWT : Prof. D. P. Mishra BITD 51
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1. Cache fetches data from next to current addresses in main memory 2. CPU checks to see whether the next instruction it requires is in cache 3. If it is, then the instruction is fetched from the cache – a very fast position 4. If not, the CPU has to fetch next instruction from main memory - a much slower process Main Memory (DRAM) CPU Cache Memory (SRAM) = Bus connections Cache Memory
Memory Units • The elementary unit of memory is a bit. • A group of 4 bits is called a nibble and • A group of 8 bits is called a byte. • One byte is the minimum space required to store one character. Other units of memory are: • 1 KB (Kilo Byte) = 210 bytes = 1024 bytes • 1 MB (Mega Byte) = 210 KB = 1024 KB • 1 GB (Giga Byte) = 210 MB = 1024 MB • 1 TB (Tera Byte) = 210 GB = 1024 GB • 1 PB (Peta Byte) = 210 TB = 1024 TB
Question Appeared in ESE Nov – Dec 2013 • What is Blue Ray Disk? – 2m • List the parameters used to classify the computers. What major type of computers are there based on this classification scheme? - 7M • Explain the various functions performed by an operating System. – 7M • What are the various Input/output units connected with computer System - 7M Nov – Dec 2014 • Define primary memory. – 2m • “Computer is an Electronic Device”, Justify. Explain various characteristics of computer? - 7M • Explain operating system and describe the features of operating system. – 7M • Write short note on (i) CD-ROM, (ii) Blue Ray Disk - 7M Unit-1 CCWT : Prof. D. P. Mishra BITD 57
Question Appeared in ESE April-May 2014 • What do you mean by algorithms?. – 2m • Draw a block diagram to illustrate the basic organization of computer system and explain the function of various components - 7M • What is CDROM? In what way it is different from hard disk. Explain the process of Reading and writing data in CDROM. – 7M • Why is an operating system required for computer? Explain the following term (a) Batch operating system , (ii) Multiprogramming operating system - 7M Nov – Dec 2015 • Describe different computer languages primary memory. – 2m • Describe various storage media and its use in detail? - 7M • Write detailed note on generation of Computer. – 7M • Describe various services of an operating system - 7M Unit-1 CCWT : Prof. D. P. Mishra BITD 58
Question Appeared in ESE Nov – Dec 2016 • Define OS. – 2m • What are the various ways by which you can classify computers? Discuss each in brief. - 7M • What do you mean by input unit? Draw and explain any five input devices. – 7M • Discuss about the various storage media - 7M April – May 2017 • What is system clock ? – 2m • What are the various generations of computer? . - 7M • What is operating system ? Explain various functions of operating system – 7M • Write a short note on any three - 7M Loader, Assembler, Blue ray Disk CD ROM Unit-1 CCWT : Prof. D. P. Mishra BITD 59
Question Appeared in ESE Nov – Dec 2018 • What are the basic parts of computer. – 2m • What are the main functions of operating system. - 7M • How data is stored in CDROM, HD and Blue ray Disk ? . – 7M • Give the example of machine, Assembly and high level languages with proper code/set of instructions - 7M Unit-1 CCWT : Prof. D. P. Mishra BITD 60
What is system Clock ? • In order to synchronize all of a computer's operations, a system clock—a small quartz crystal located on the motherboard—is used. • The system clock sends out a signal on a regular basis to all other computer components • In general, the clock refers to a microchip that regulates the timing and speed of all computer functions. • In the chip is a crystal that vibrates at a specific frequency when electricity is applied. • The shortest time any computer is capable of performing is one clock, or one vibration of the clock chip. • The speed of a computer processor is measured in clock speed, for example, 1 MHz is one million cycles, or vibrations, a second. 2 GHz is two billion cycles, or vibrations, a second. Unit-1 CCWT : Prof. D. P. Mishra BITD 61
Characteristic of System Clock • The system clock is used to produce a specific pulse at a fixed rate of time. • The machine cycle of a system can be completed in a single or multiple clock pulses. • A single program instruction could be multiple instructions for the cpu. • The clock speeds are nowadays measures in Ghz. 1ghz = 1000 mhz. Unit-1 CCWT : Prof. D. P. Mishra BITD 62
Computer Basics

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Computer Basics

  • 1. Computer Basics Dr. D. P. Mishra Digitally signed by Dr. D. P. Mishra DN: cn=Dr. D. P. Mishra, o=durg, ou=BIT, email=dpmishra@bitdurg. ac.in, c=IN Date: 2023.07.23 18:50:49 +05'30'
  • 3. Key for Computer Generations • Time Frame • Circuit Components • Elements per Component • Internal Storage • Memory Capacity • Data Input • Popular Computers and Companies at that time Unit-1 CCWT : Prof. D. P. Mishra BITD 3
  • 4. Zeroth Generation • Man used his fingers, ropes, beads, bones, pebbles and other objects for counting. • Abacus, Pascaline, Difference & Anylitical engines • Electricity was not yet invented Unit-1 CCWT : Prof. D. P. Mishra BITD 4
  • 5. First Generations 1951- 1958 • Vacuum Tubes • Magnetic Drum • 4,000 bits • Hard Wire Programs in computers • IBM 650, Univac I • ENIAC Unit-1 CCWT : Prof. D. P. Mishra BITD 5
  • 7. First Generations 1951- 1958 • The first computers used vacuum tubes for circuitry and magnetic drums for memory. • They were often enormous and taking up entire room. • First generation computers relied on machine language. • . They were very expensive to operate and in addition to using a great deal of electricity, generated a lot of heat, which was often the cause of malfunctions. • The UNIVAC and ENIAC computers are examples of first-generation computing devices. Unit-1 CCWT : Prof. D. P. Mishra BITD 7
  • 9. Pros / Advantages • It was only electronic device • First device to hold memory Unit-1 CCWT : Prof. D. P. Mishra BITD 9
  • 10. Cons / Disadvantages • Too bulky i.e. large in size • They generate more heat causing many problems in temperature regulation and climate control. • Tubes were subject to frequent burn-out. • They were producing heat • Maintenance problems Unit-1 CCWT : Prof. D. P. Mishra BITD 10
  • 11. Second Generation 1959-1964 • Transistors • Magnetic Cores • 32,000 bits • Punch Cards • CDC, GE, IBM Unit-1 CCWT : Prof. D. P. Mishra BITD 11
  • 12. Second Generation 1959-1964 • Transistors replaced vacuum tubes and ushered in the second generation of computers. • Second-generation computers moved from cryptic binary machine language to symbolic. • High-level programming languages were also being developed at this time, such as early versions of COBOL and FORTRAN. • These were also the first computers that stored their instructions in their memory. Unit-1 CCWT : Prof. D. P. Mishra BITD 12
  • 13. Second Generation 1959-1964 • The Second Generation (1959 to 1964) Unit-1 CCWT : Prof. D. P. Mishra BITD 13
  • 14. Second Generation 1959-1964 Advantages : • Size reduced considerably • The very fast • Very much reliable Disadvantages : • They over heated quickly • Maintenance problems Unit-1 CCWT : Prof. D. P. Mishra BITD 14
  • 15. Third Generation 1965-1974 • Silicon Chips (Integrated circuits)= IC • Cores, IC’s • 128,000 bits • Keyboard Entry • IBM, NCR, Honeywell Unit-1 CCWT : Prof. D. P. Mishra BITD 15
  • 16. Third Generation 1965-1974 • The development of the integrated circuit was the hallmark of the third generation of computers. • Transistors were miniaturized and placed on siliconchips, called semiconductors. • Instead of punched cards and printouts, users interacted with third generation computers through keyboards and monitors and interfaced with an operating system. • Allowed the device to run many different applications at one time. Unit-1 CCWT : Prof. D. P. Mishra BITD 16
  • 18. Advantages • RELIABILITY – Unlike vacuum tubes, silicon will not break down easily. It is very seldom that you will have to replace it. • LOW COST – Silicon chips are relatively cheap because of their small size and availability in the market. It also consumes less electricity. Unit-1 CCWT : Prof. D. P. Mishra BITD 18
  • 19. Fourth Generation 1975-1989 • Silicon Chips (Large scale integrated circuits)=LSI • IC’s, LSI’s • 100 million bits • Read programs off disks • Apple, Xerox, Texas Instrument, Hewlett-Packard Unit-1 CCWT : Prof. D. P. Mishra BITD 19
  • 20. Fourth Generation 1975-1989 • These computers use microprocessor chips. • Object-Oriented Programming (OOP) Languages such as Visual Basic, and JAVA are characteristic of this computer generation. Unit-1 CCWT : Prof. D. P. Mishra BITD 20
  • 21. 21 Fifth Generation 1990-present AI and NLP Unit-1 CCWT : Prof. D. P. Mishra BITD
  • 22. Unit-1 CCWT : Prof. D. P. Mishra BITD 22 Fifth Generation 1990-present • Natural Language • This language is designed to give people a more human connection with computers. • Uses multi-media has also defined this generation. • There is a great deal of “bundled software” with this generation.
  • 23. Fifth Generation 1990-present • Fifth generation computing devices, based on artificial intelligence. • Are still in development, though there are some applications, such as voice recognition. • The use of parallel processing and superconductors is helping to make artificial intelligence a reality. • The goal of fifth-generation computing is to develop devices that respond to natural language input and are capable of learning and self-organization. Unit-1 CCWT : Prof. D. P. Mishra BITD 23
  • 24. Optical Storage It is a storage medium that can be written to and read using a laser beam. Unit-1 CCWT : Prof. D. P. Mishra BITD 24
  • 25. Two Types of Optical Storage Devices • CD-ROM (compact disk read-only memory) • DVD-ROM (digital video disk read-only memory)
  • 26. CD 12mm 120mm in diameter 1.2mm thickness
  • 27. How Optical Storage Works • An optical drive uses reflected light to read data. • To store data, the disk's metal surface is covered with tiny dents (pits) and flat spots (lands), which cause light to be reflected differently. • When an optical drive shines light into a pit, the light cannot be reflected back. • This represents a bit value of 0 (off). • A land reflects light back to its source, representing a bit value of 1 (on).
  • 28. CD –ROMs • Working principle: Label Protective acrylic Polycarbonate plastic Aluminum or other metals Laser beams Land Pit
  • 29. Cross Section of CD-R • . Polycarbonate Substrate Printed label Protective lacquer Reflective gold layer 1.2mm Dye layer Transmit beam Reflective beam Dark spot burned by laser
  • 30. 1 0
  • 31. Optical Storage Devices – CD-ROM • In PCs, the most commonly used optical storage technology is called Compact Disk Read-Only Memory (CD-ROM). • A standard CD-ROM disk can store up to 700 MB of data. • Once data is written to a standard CD-ROM disk, the data cannot be altered or overwritten.
  • 32. Other Optical Storage Devices • A CD-Recordable (CD-R) drive lets you record your own CDs, but data cannot be overwritten once it is recorded to the disk. • A CD-Rewritable (CD-RW) drive lets you record a CD, then write new data over the already recorded data.(100 times overwriting is possible) • PhotoCD technology is used to store digital photographs.
  • 33. CD-ROM Speeds and Uses • Early CD-ROM drives were called single speed, and read data at a rate of 150 KBps. • CD-ROM drives now can transfer data at speeds of up to 7800 KBps. Data transfer speeds are getting faster. • CD-ROM is typically used to store software programs. CDs can store audio and video data, as well as text and program instructions.
  • 34. Table 5.2 CD-ROM speeds Speed ------------ 1x 2x 4x 6x 8x 12x 16x 24x 32x 40x Data Rate ------------------------ 153,600 bytes per second 307,200 bytes per second 614,400 bytes per second 921,600 bytes per second 1,228,800 bytes per second 1,843,200 bytes per second 2,457,600 bytes per second 3,688,400 bytes per second 4,915,200 bytes per second 6,144,000 bytes per second Approximation ------------ 150 KB/s 300 KB/s 600 KB/s 900 KB/s 1.2 MB/s 1.8 MB/s 2.4 MB/s 3.6 MB/s 4.8 MB/s 6 MB/s
  • 35. Digital Video Disk (DVD) • A variation of CD-ROM is called Digital Video Disk • DVD Read-Only Memory (DVD-ROM), and is being used in place of CD-ROM in many newer PCs. • Storage capacity ranges from 9.4 GB to 17 GB
  • 36. DVD-ROM • Standard DVD disks store up to 9.4 GB of data—enough to store an entire movie. • Dual-layer DVD disks can store up to 17 GB. • Dual-layer DVD disks can store so much data because both sides of the disk are used.  Device’s laser beam can read data from the first layer and then look through it to read from the second layer.
  • 37. Recordable Optical Technologies • DVD-Recordable (DVD-R)  Record data onto a special recordable digital video disk using a special drive. • DVD-RAM  Record, erase, re-record data.
  • 38. DVD • The capacity improvement are due to 3 factors: • 1. Smaller pits (0.4 microns versus 0.8 ) • 2. A tighter spiral (0.74 microns versus 1.6) • 3. A red laser at 0.65 microns versus 0.78 microns.
  • 39. Capacity of DVD • 1. Single-sided, single-layer (4.7GB). • 2. Single-sided, dual-layer (8.5GB). • 3. Double-sided, single-layer (9.4GB). • 4. Double-sided, dual-layer (17GB).
  • 40. Newer Blue-Laser DVD • There is a war between two new DVD standard right now. • One is SONY’s blue-ray system and the other is Toshiba’s HD-DVD system. • Nov 11, 2004 - Sharp Introduces Blu-ray Disc Recorder with Hard Drive/DVD
  • 41. Blue-Ray • Digital dubbing between the hard drive, DVDs, and Blu-ray Discs, including the ability to dub five DVDs (4.7GB) onto a single Blu-ray Disc (25GB). • The recorder also features an HDMI output jack, enabling users to enjoy full-digital high-definition video and high-fidelity audio with no signal deterioration by outputting recorded high-definition video (HDTV) to a compatible monitor for playback. • The BD-HD100 will begin selling in Japan next month for about 320,000 yen ($2,991).
  • 42. 42 Blu-ray Technology • Name- Derived from the blue-violet laser used to read and write data.  Developed by the Blu-ray Disc Association with more than 180 members.  Dell  Sony  LG
  • 43. Blu-ray Technology Cont. • Data capacity  Because Blu-ray uses a blue laser(405 nanometers) instead of a red laser(650 nanometers) this allows the data tracks on the disc to be very compact.  This allows for more than twice as small pits as on a DVD. 43
  • 44. Blu-ray Formats • BD-ROM (read-only) - for pre-recorded content • BD-R (recordable) - for PC data storage • BD-RW (rewritable) - for PC data storage • BD-RE (rewritable) - for HDTV recording • For More Details visit http://www.blu-ray.com/ 44
  • 45. Memory • Main memory consists of a number of storage locations, each of which is identified by a unique address • The ability of the CPU to identify each location is known as its addressability • Each location stores a word i.e. the number of bits that can be processed by the CPU in a single operation. Word length may be typically 16, 24, 32 or as many as 64 bits. • A large word length improves system performance, though may be less efficient on occasions when the full word length is not used Unit-1 CCWT : Prof. D. P. Mishra BITD 45
  • 46. There are two types of main memory, Random Access Memory (RAM) and Read Only Memory (ROM) Random Access Memory (RAM) holds its data as long as the computer is switched on All data in RAM is lost when the computer is switched off Described as being volatile It is direct access as it can be both written to or read from in any order Its purpose is to temporarily hold programs and data for processing. In modern computers it also holds the operating system Types of main memory
  • 47. RAM ? • Random-access memory (RAM) is a form of computer data storage. • Its in form of integrated circuits that allow stored data to be accessed in any order in a constant time, regardless of its physical location and whether it is related to the previous piece of data. • RAM is often associated with volatile types of memory • The first RAM modules to come into the market were created in 1951 and were sold until the late 1960s and early 1970s.
  • 48. ROM ? • ROM (Read Only Memory) is used to store the instructions provided by the • Manufacturer, which holds the instructions to check basic hardware interconnector and • To load operating system from appropriate storage device
  • 49. Types of RAM 1. Dynamic Random Access Memory (DRAM) • Contents are constantly refreshed 1000 times per second • Access time 60 – 70 nanoseconds • Note: a nanosecond is one billionth of a second! 2. Synchronous Dynamic Random Access Memory (SDRAM) • Quicker than DRAM • Access time less than 60 nanoseconds 3. Direct Ram bus Dynamic Random Access Memory (DRDRAM) • New type of RAM architecture • Access time 20 times faster than DRAM • More expensive
  • 50. Types of RAM .. 4. Static Random Access Memory (SRAM) • Doesn’t need refreshing • Retains contents as long as power applied to the chip • Access time around 10 nanoseconds • Used for cache memory • Also for date and time settings as powered by small battery 5. Cache memory • Small amount of memory typically 256 or 512 kilobytes • Temporary store for often used instructions • Level 1 cache is built within the CPU (internal) • Level 2 cache may be on chip or nearby (external) • Faster for CPU to access than main memory
  • 55. 1. Cache fetches data from next to current addresses in main memory 2. CPU checks to see whether the next instruction it requires is in cache 3. If it is, then the instruction is fetched from the cache – a very fast position 4. If not, the CPU has to fetch next instruction from main memory - a much slower process Main Memory (DRAM) CPU Cache Memory (SRAM) = Bus connections Cache Memory
  • 56. Memory Units • The elementary unit of memory is a bit. • A group of 4 bits is called a nibble and • A group of 8 bits is called a byte. • One byte is the minimum space required to store one character. Other units of memory are: • 1 KB (Kilo Byte) = 210 bytes = 1024 bytes • 1 MB (Mega Byte) = 210 KB = 1024 KB • 1 GB (Giga Byte) = 210 MB = 1024 MB • 1 TB (Tera Byte) = 210 GB = 1024 GB • 1 PB (Peta Byte) = 210 TB = 1024 TB
  • 57. Question Appeared in ESE Nov – Dec 2013 • What is Blue Ray Disk? – 2m • List the parameters used to classify the computers. What major type of computers are there based on this classification scheme? - 7M • Explain the various functions performed by an operating System. – 7M • What are the various Input/output units connected with computer System - 7M Nov – Dec 2014 • Define primary memory. – 2m • “Computer is an Electronic Device”, Justify. Explain various characteristics of computer? - 7M • Explain operating system and describe the features of operating system. – 7M • Write short note on (i) CD-ROM, (ii) Blue Ray Disk - 7M Unit-1 CCWT : Prof. D. P. Mishra BITD 57
  • 58. Question Appeared in ESE April-May 2014 • What do you mean by algorithms?. – 2m • Draw a block diagram to illustrate the basic organization of computer system and explain the function of various components - 7M • What is CDROM? In what way it is different from hard disk. Explain the process of Reading and writing data in CDROM. – 7M • Why is an operating system required for computer? Explain the following term (a) Batch operating system , (ii) Multiprogramming operating system - 7M Nov – Dec 2015 • Describe different computer languages primary memory. – 2m • Describe various storage media and its use in detail? - 7M • Write detailed note on generation of Computer. – 7M • Describe various services of an operating system - 7M Unit-1 CCWT : Prof. D. P. Mishra BITD 58
  • 59. Question Appeared in ESE Nov – Dec 2016 • Define OS. – 2m • What are the various ways by which you can classify computers? Discuss each in brief. - 7M • What do you mean by input unit? Draw and explain any five input devices. – 7M • Discuss about the various storage media - 7M April – May 2017 • What is system clock ? – 2m • What are the various generations of computer? . - 7M • What is operating system ? Explain various functions of operating system – 7M • Write a short note on any three - 7M Loader, Assembler, Blue ray Disk CD ROM Unit-1 CCWT : Prof. D. P. Mishra BITD 59
  • 60. Question Appeared in ESE Nov – Dec 2018 • What are the basic parts of computer. – 2m • What are the main functions of operating system. - 7M • How data is stored in CDROM, HD and Blue ray Disk ? . – 7M • Give the example of machine, Assembly and high level languages with proper code/set of instructions - 7M Unit-1 CCWT : Prof. D. P. Mishra BITD 60
  • 61. What is system Clock ? • In order to synchronize all of a computer's operations, a system clock—a small quartz crystal located on the motherboard—is used. • The system clock sends out a signal on a regular basis to all other computer components • In general, the clock refers to a microchip that regulates the timing and speed of all computer functions. • In the chip is a crystal that vibrates at a specific frequency when electricity is applied. • The shortest time any computer is capable of performing is one clock, or one vibration of the clock chip. • The speed of a computer processor is measured in clock speed, for example, 1 MHz is one million cycles, or vibrations, a second. 2 GHz is two billion cycles, or vibrations, a second. Unit-1 CCWT : Prof. D. P. Mishra BITD 61
  • 62. Characteristic of System Clock • The system clock is used to produce a specific pulse at a fixed rate of time. • The machine cycle of a system can be completed in a single or multiple clock pulses. • A single program instruction could be multiple instructions for the cpu. • The clock speeds are nowadays measures in Ghz. 1ghz = 1000 mhz. Unit-1 CCWT : Prof. D. P. Mishra BITD 62