Information Technology: Hardware by Kudang B. Seminar, PhD 7/23/2017 1 Copyright 1996-98 © Dale Carnegie & Associates, Inc. Abacus • An abacus is a calculator used first by the Chinese since about 500 BC, for addition, subtraction, multiplication, and division, as well as fractions and square root. • The inventor is unknown. However, the abacus as we know it today did not appear in China until about 1200 A.D. • Contests have been held between users of the Japanese abacus and an electric calculator.For addition and subtraction the abacus user was much faster than the calculator user, but for multiplication and division the advantage of the abacus was less decisively demonstrated. ABC (Atanasoff & Berry Computer) 1939, Iowa Univ. Consisting of 11 Vacuum Tubes •Vacuum Tubes • Berfungsi sebagai penguat, pengubah, dan pencipta sinyal elektrik • Banyak dipakai di peralatan komunikasi seperti radio, ENIAC (Electronic Numerical Integrator And Computer) 1946, Pennsylvania Univ. Consisting of 17,468 vacuum tubes EDSAC (Elecronic Delay Storage Automatic Calculator/Computer) 1949, Cambridge University Uses: Vacuum Tubes MARK I Computer 1949 – Consisting of 1300 Vacuum Tubes I/O Devices: Saklar, pita dan pencetak •Manchester Mark I •Havard Mark I UNIVAC (Universal Automatic Computer) 1951 – Consisting of 5200 Vacuum Tubes IAS Computer Developed By John Von Newmann at Princeton Univ. 1952 • 1st General Purpose Computer • Consists of 23,000 vacuum tubes • Used for solving complex applications: metereology, astonomy, hydrodynamic s, atomic weapons • Consist of 3 sub-systems: main processor, Memory, I/O Devices IBM 701 developed at 1952 by IBM President: Thomas J. Watson, Jr. • • • • • • • Known as the Defense Calculator while in development Publically announced in 1953. Known as IBM 701 Electronic Data Processing Machines Consist of 3 subsystems: main processor, Memory, I/O Devices Key to IBM's transition from punched-card machines to electronic computers. The first of the pioneering line of IBM 700 series computers, including the 702, 704, 705 and 709. Uses 72 Williams Tubes • Generasi Komputer Dengan Rangkaian Terpadu (Integrated Circuit/IC) Jack Kilby adalah penemu sirkuit terpadu (integrated circuit) yang sekarang digunakan untuk pembuatan mikroprosesor komputer, ketika Kilby bekerja di Texas Instruments pada tahun 1958. • Pada tahun 2000, Kilby mendapatkan penghargaan Nobel dalam bidang Fisika berkat penemuan sirkuit terpadu (integrated circuit) tersebut. • Rangkaian terpadu yang terdiri dari ratusan/ribuan/jutaan komponen elektronik semi konduktor (transistor) yang dikemas dalam bentuk yang kompak dan ringan dalam bentuk chip, disebut juga micro-circuit, microprocessor, atau slicon-chip. • Melahirkan penemuan Mikroprosesor 4004 di tahun 1971. IBM’s 7000 Series – Generation of Transitorized or Chip-Based Computers • IBM 7010 - high end version of IBM 1410 introduced in 1962 •IBM 7090's at NASA's Project Mercury, 1962. •An IBM 7040 in operation from 1964 to 1974 at the German university Technische Hochschule Darmstadt with IBM 1401 on the right. • IBM 7030 - Stretch supercomputer introduced in 1961 • IBM 7040 - scientific - introduced in 1963 • IBM 7044 - scientific - introduced in 1963 • IBM 7070 - decimal - introduced in 1960 • IBM 7072 - decimal - introduced in 1962 • IBM 7074 - decimal - introduced in 1961; used by the U.S. Internal Revenue Service in 1962 [1] • IBM 7080 - commercial - introduced in 1961 • IBM 7090 - scientific - introduced in 1959 • IBM 7094 - scientific - introduced in 1962 • IBM 7094 II - scientific - introduced in 1964 PDP (Programmed data Processor)-1 Computer • • • Designed by DEC (Digital Equipment Corporation) Built using chip technology. The entire computer occupies only 17 square feet of floor space. MITS Altair 8800 Computer • It was a microcomputer designed in 1975. • Produced by Micro Instrumentation and Telemetry Systems (MITS) • based on the Intel 8080 CPU • It is considered as 1st PC (Personal Computer) generation. Jenis Komputer • Mainframes (Super Computers) • Minicomputers • Microcomputers Mainframes (Super Computer) • Large in Physical Size • Fast Computing Speed • Large Memory Capacity • Consist of Multiple Processors (CPUs) • Provides many connections to I/O devices • Mainly used for Large Scale Computer Server • First Generation: Mark I, ENIAC, UNIVAC, IBM 701, IBM 360 • Current generation: Cray-2, IBM ES/9000, IBM S/390, •IBM 360 •Cray-2 •The Columbia Supercomputer at NASA's Advanced Supercomputing Facility at Ames Research Center. Minicomputers • Mini physical size • Fairly fast computing speed • Fairly large memory capacity • May consists of multiple CPU/processors • Used for Library Otomation in since 1970 • First Generation: PDP-1, IBM AS/400 • Used as Computer Servers • Current Generation: midrange systems (IBM parlance), workstations (Sun Microsystems and general UNIX/Linux parlance), HoneyWell 316, GEC 4000 Series, PDP-11 Microcomputers • • • • • • • • Micro physical size Slower computing speed Smaller memory capacity Mostly consists of single or can be 2 CPU/processors Banyak digunakan untuk layanan transaksi frontend: OPAC, sirkulasi, Cash Register, Layanan Pengguna First Generation: PC (Personal Computer) seperti XT, AT (286,386,486) Current Generation: Notebook, Laptop, Palmtop, PDA (personal Digital Assistant) Used as Client Computers Sistem Komputer • Kombinasi elemen-elemen fungsional secara terpadu yang mencakup piranti keras (hardware), piranti lunak (software), piranti data (dataware) dan aturan/standar (ruleware) untuk melaksanakan program/komputasi berbasis komputer. • Notes: tidak termasuk manusia (brainware) -> Berbeda dengan definisi Pusnas. • Komponen Sistem Komputer Hardware: Main Processor (CPU), Memory, Input-Output (I/O). • Software: Sistem Operasi (Operating System/OS), Sofware Utilisasi, Pengembangan (Development Sofware), Software Aplikasi (Application Sofware). • Sofware mengendalikan mekanisme kerja operasional hardware. Hardware Resources • I/O (Input/Output) devices • Processor • Memory 7/23/2017 21 I/O Devices • I/O Devices: to exchange data between computer systems and external sources • Input Devices: to enter data into a computer system • Output Devices: to send data out of a computer system 7/23/2017 22 Input Devices pada Pemetaan Digital 7/23/2017 23 Pengolahan Citra & Digitisasi Peta 7/23/2017 24 Output Devices Pada Pusat Informasi Geografis 7/23/2017 25 Kriteria Pemilihan I/O Devices • Kecepatan (Speed) • Kemudahan (Ease of Use) • Keandalan (Reliability) • Obyektivitas & Akurasi • Kesesuaian dengan jenis data • Durasi (endurance) • Kompatibilitas 7/23/2017 26 Identification of Crop Canopy Area Using Camera 7/23/2017 27 GREENHOUSE PROTOTYPE Dies Natalis IPB 2001 23/07/2017 28 SENSORS WITH IN GREENHOUSE Dies Natalis IPB 2001 23/07/2017 29 Temperature & Humidity Control Temperature 30 5 3.75 20 2.5 Temperature 10 1.25 0 Humidity (%) Voltage Voltage 0 0 300 100 600 900 1200 5 Time (seconds) 80 60 40 20 Voltage (v) 3.75 2.5 1.25 0 0 0 100 200 Dies Natalis IPB 2001 300 Time (seconds) Set point Humidity Set point Voltage 400 23/07/2017 30 Light Intensity Light Intensity Control 7.5 5 6.5 4 Fin opening Angle 3 5.5 2 4.5 1 3.5 0 0 300 600 900 Light Intensity Set point Opening Angle 1200 Time (seconds) Dies Natalis IPB 2001 23/07/2017 31 •Yield Monitoring Using Satellite Dies Natalis IPB 2001 23/07/2017 32 Weed detection for site-specific weed management Dies Natalis IPB 2001 23/07/2017 33 •HALOGEN •LAMP •CHOPPER •MONOCHROMATOR •INTEGRATING •SPHERE •MOTOR •CONT. •AMP. •DO •COMPUTER •A/D •NIR APPARATUS SYSTEM FOR THE EXPERIMENT untuk DETEKSI KEMATANGAN MANGGA Dies Natalis IPB 2001 23/07/2017 34 BioControl Systems (BCS) • BCS development efforts utilize five different types of bioelectric signals: Electrooculogram (EOG), Electromyogram (EMG), Electroencephalogram (EEG), Electrocardiogram (EKG), and Galvanic skin response (GSR) • The essence of the biocontroller interface involves three processes: (1) bioelectric signal acquisition, (2) signal processing for pattern recognition or extraction of desired elements of the biosignal, and (3) mapping the results of the signal processing algorithm to some desired output code - which controls external electronic devices. Dies Natalis IPB 2001 23/07/2017 35 BioSensors 7/23/2017 36 •Teknologi •Sortasi 7/23/2017 •Sortasi dengan mesin skala besar • Digunakan pada industri besar • Komputerisasi, mata elektronik untuk mengimbangi jumlah objek yang sangat besar Processors the device unit that performs data processing Features: • High speed: micro, mini, super computer • Multiprocessors: support processor, coupled processor, parallel processor • Execution time: microsecond, nanosecond, picosecond • Speed measures: clock speed (Hz), MIPS (Million Instructions Per Second), FLOPS (Floating Point Operations per Second)7/23/2017 38 Perkembangan awal Prosesor Intel 1971 1976 7/23/2017 39 Data acquisition & processing 7/23/2017 40 7/23/2017 41 Produksi Peta dengan Teknologi SIG 7/23/2017 42 Profil sumber air Profil mineral bumi Profil suhu permukaan bumi Profil kota 7/23/2017 43 Memory • Memory Internal (primary storage): Register, Buffer, Cache, RAM, ROM • Memory External (secondary storage): Hardisk, Floppy Disk, Diskettes, Drum DIsk, CD-ROM, Laser Disk, Optical Disk, Tape, MO disk, ZIP disk, USB 7/23/2017 44 Memory Features • Internal: higher speed, lower storage capacity, volatile, expensive, required for program execution, fully electronic • External: lower speed, higher storage capacity, non-volatile, cheaper, long-term storage, mechatronic • Measures: access speed & storage capacity (MByte, GByte, TByte) 7/23/2017 45 Magnetic Disk Capacity 80%/year 100,000 2.5” 10,000 MBytes 1,000 3.5” 8-14” 1.8” 100 10 5.25” 1 80 84 88 92 96 00 7/23/2017 46 Storage Devices Form factor: .5-1” 4” 5.7” Storage: 18-73GB Form factor: .4-.7” 2.7” 3.9” Storage: 4-27GB Form factor: .2-.4” 2.1” 3.4 Storage: 170MB-1GB 7/23/2017 47 Storage Hierarchy Size Cost CPU, Reg $600 a chip $10-2 per byte 213 bytes 32-64 bits Cache $10-4 per byte Memory $10-8 per byte 227 bytes 4-128 words 230 bytes 512-16k words Secondary Storage 240 bytes 7/23/2017 48