The Evolution of Computing Devices Through History
Computer Evolution
Pengantar Ilmu Komputer
Computer Classification
Computer
Processing Device
Consist of 4 classification :
•
Manual Device
•
Mechanic Device
•
Electronic Mechanic Device
•
Electronic Device
Manual Device
•
Bone (300000BC)
Used for reminder and communication
ex : to count distance
•
Petroglyphs (300000 BC)
Used for note data
Petroglyphs
Papyrus (2600 BC)
Abacus (2500 BC)
Stonehenge (1900 BC)
Oughtred’s Slide rule (1621)
Mechanic Device
•
First Counting Device (Wilhem Schickard)
Pascal’s Machine Aritmethique (1642)
Leibnitz’s Calculating Machine (1673)
Logic Demonstrator (1777)
Jacuquard’s Loom (1804)
The Adder (1868)
Monroe Calculator (1911)
Electronic Mechanic Device
•
1890
Tabulation Machine (created by Dr. Herman
Hollerith)
•
1920
1
st
otomatic counter machine (decision maker
machine, by Leonardo Torresy Quevedo,Spain)
•
1931
1
st
Analog Computer (Differensial Analyzer, Dr.
Vannevar Bush, MIT)
•
1938
1
st
electronic mechanic device (Complex
Calculator, George R. Stibitz, Bell Laboratories)
Electronic Device
•
1942
1
st
digital computer
•
1944
Hardvard Mark I ASCC (1
st
otomatic arithmetic
and logic, made by IBM, Prof. Howard
Aiken,Harvard University )
1
st
Generation (1946 – 1959)
1.
Vacuum tube
2.
Machine/Assembly Language
3.
Secondary Storage : Magnetic Tape and Magnetic Disk
4.
Punch Card and paper tape to feed program and to
get results
5.
Bulky
6.
High Cost
7.
Small Capacity
8.
Consume more power with limited performance
9.
Slow Process
10.
For Scientific Computations
Vacuum Tube
EDVAC (1945)
UNIVAC (1951)
2
nd
Generation (1959-1964)
1.
Transistor
2.
High Level Language : fortran, cobol
3.
Magnetic ferrite core memories were used as main
memory
4.
Bigger memory capacity
5.
Magnetic tapes and magnetic disks were used as
secondary memory
6.
Real time and Time sharing capabilities
7.
Smaller in size
8.
Punch cards used continued
9.
Lesser power consumption and better performance
10.
Busines application and Technique
Transistor
LARC
IBM 7094
3
rd
Generation (1964 – 1970)
1.
IC (Integrated Circuit) as main component
2.
Better Software
3.
10000 times Faster then 1
st
generation
4.
Bigger memory capacities
5.
External Storage
6.
Smaller electric power consumption
7.
Multiprocessing and multiprogramming
8.
Cheaper price
9.
Smaller size
10.
Visual and graphic display
11.
Communication with other computer
Integrated Circuit
Sinclair
PDP 1
4
th
Generation (1970 - …)
1.
Smaller size
2.
Faster Processing
3.
Cheaper Price
4.
Bigger Capacity
5.
Personal used
6.
Software Development
7.
Online application
Ultra-Large Scale Integration
(ULSI)
Atari 2600 (1980)
Motorolla 68000
5
th
Generation
•
Artificial Intelligent
Future Computer
•
Biochip
synthetic Protein
•
Similar to human characteristic : has emotion
and thinking
Biochip
Computer Classification
•
How to Process Data
•
How to use
•
Size
•
Generation
Way to Process Data
•
Analog Computer
For continue data and physical form
ex : electricity, temperature, speed, pressure
use for hospital (heart pressure), oil pipe,
electricity power
advantage
:
accept physical data and measure data without
conversion
weakness
:
precision
Calculo (1959)
Way to Process Data
•
Digital Computer
Numeric and character data form and usually
used for business and technique
Advantage :
–
Faster data processing
–
Data Storing
–
Logical operation capabilities
–
Correctional or erasable data
–
Numeric, character and graphic output display
Way to Process Data
•
Hybrid Computer
Combination of analog computer and digital
computer
Way to use
•
Special Purpose Computer
Made for certain case, usually used to handle
one case. Used for automatic controller for
industry. Ex : analog computer
•
General Purpose Computer
Made for handling many case. Slower then
special purpose computer. Used for business,
technique, education, word processing,
gaming etc. Ex : General purpose computer
Size
•
Micro Computer
–
Single user
–
PC or notebook
–
Small Space
–
Smaller operand register
•
Mini Computer
–
Multiuser
–
Small room
Data General Nova (mini computer)
Size
•
Medium Computer
–
Has many Input and Output Devices
–
Used for Data Communication with hundreds terminal
and separate from computer center
–
Expensive
•
Large Computer
–
Large size
–
Usually used by big company
–
High speed processing and big capacity, timesharing
capabilities
–
Expensive
Dec Vax (Medium Computer)
Z – 23 (Medium Computer)
Size
•
Super Computer
–
Thousands Computer connected
–
More effective in time sharing
–
Very expensive
Sequoia
A petascale Blue Gene Supercomputer,
constructed by IBM for The National Nuclear
Security Administration for Advanced Simulation
and Computing Program (ASC)
Questions
1.
Find and write how to use Oughtred’s Slide Rule
2.
Find some of Super Computer and find :
–
The owner (Country or organization)
–
Function and capabilities
–
And when it made
3.
Visit next website to find hot topic about
computer
–
http://www.siliconvalley.com
–
www.computeruser.com
Write your experience when you visit the website
Explore the fascinating progression of computing devices from manual tools like the abacus and Oughtred's Slide Rule to the development of electronic and mechanic devices such as the Pascal's Machine and Monroe Calculator. Witness key milestones that revolutionized computation, leading to the birth of the modern electronic computer.
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Presentation Transcript
Computer Evolution Pengantar Ilmu Komputer
Computer Classification Computer Processing Device Consist of 4 classification : Manual Device Mechanic Device Electronic Mechanic Device Electronic Device
Manual Device Bone (300000BC) Used for reminder and communication ex : to count distance Petroglyphs (300000 BC) Used for note data
Mechanic Device First Counting Device (Wilhem Schickard)
Electronic Mechanic Device 1890 Tabulation Machine (created by Dr. Herman Hollerith) 1920 1stotomatic counter machine (decision maker machine, by Leonardo Torresy Quevedo,Spain) 1931 1stAnalog Computer (Differensial Analyzer, Dr. Vannevar Bush, MIT) 1938 1stelectronic mechanic device (Complex Calculator, George R. Stibitz, Bell Laboratories)
Electronic Device 1942 1stdigital computer 1944 Hardvard Mark I ASCC (1stotomatic arithmetic and logic, made by IBM, Prof. Howard Aiken,Harvard University )
1stGeneration (1946 1959) 1. Vacuum tube 2. Machine/Assembly Language 3. Secondary Storage : Magnetic Tape and Magnetic Disk 4. Punch Card and paper tape to feed program and to get results 5. Bulky 6. High Cost 7. Small Capacity 8. Consume more power with limited performance 9. Slow Process 10. For Scientific Computations
2ndGeneration (1959-1964) 1. Transistor 2. High Level Language : fortran, cobol 3. Magnetic ferrite core memories were used as main memory 4. Bigger memory capacity 5. Magnetic tapes and magnetic disks were used as secondary memory 6. Real time and Time sharing capabilities 7. Smaller in size 8. Punch cards used continued 9. Lesser power consumption and better performance 10. Busines application and Technique
3rdGeneration (1964 1970) 1. IC (Integrated Circuit) as main component 2. Better Software 3. 10000 times Faster then 1stgeneration 4. Bigger memory capacities 5. External Storage 6. Smaller electric power consumption 7. Multiprocessing and multiprogramming 8. Cheaper price 9. Smaller size 10.Visual and graphic display 11.Communication with other computer
4thGeneration (1970 - ) 1. Smaller size 2. Faster Processing 3. Cheaper Price 4. Bigger Capacity 5. Personal used 6. Software Development 7. Online application
5thGeneration Artificial Intelligent
Future Computer Biochip synthetic Protein Similar to human characteristic : has emotion and thinking
Computer Classification How to Process Data How to use Size Generation
Way to Process Data Analog Computer For continue data and physical form ex : electricity, temperature, speed, pressure use for hospital (heart pressure), oil pipe, electricity power advantage : accept physical data and measure data without conversion weakness : precision
Way to Process Data Digital Computer Numeric and character data form and usually used for business and technique Advantage : Faster data processing Data Storing Logical operation capabilities Correctional or erasable data Numeric, character and graphic output display
Way to Process Data Hybrid Computer Combination of analog computer and digital computer
Way to use Special Purpose Computer Made for certain case, usually used to handle one case. Used for automatic controller for industry. Ex : analog computer General Purpose Computer Made for handling many case. Slower then special purpose computer. Used for business, technique, education, word processing, gaming etc. Ex : General purpose computer
Size Micro Computer Single user PC or notebook Small Space Smaller operand register Mini Computer Multiuser Small room
Size Medium Computer Has many Input and Output Devices Used for Data Communication with hundreds terminal and separate from computer center Expensive Large Computer Large size Usually used by big company High speed processing and big capacity, timesharing capabilities Expensive
Size Super Computer Thousands Computer connected More effective in time sharing Very expensive
Sequoia A constructed by IBM for The National Nuclear Security Administration for Advanced Simulation and Computing Program (ASC) petascale Blue Gene Supercomputer,
