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Microprocessor model
The Intel 8088 ("eighty-eighty-eight", also called iAPX 88) microprocessor is a variant of the Intel 8086. Introduced on June 1, 1979, the 8088 has an
Intel_8088
16-bit microprocessor
microprocessor chip released by Intel on June 8, 1978 after development began in early 1976. It was followed by the Intel 8088 in 1979, which was a slightly
Intel_8086
1981 American microcomputer model
Philip Don Estridge in Boca Raton, Florida. Powered by an x86-architecture Intel 8088 processor, the machine was based on open architecture and third-party
IBM_Personal_Computer
Family of instruction set architectures
architectures initially developed by Intel, based on the 8086 microprocessor and its 8-bit-external-bus variant, the 8088. The 8086 was introduced in 1978
X86
16-bit microcontroller
in 1985. It was intended for use with the original Intel 8088-based IBM PC (Model 5150). The Intel 80186 and 80188 are often embedded in electronic devices
Intel_80186
This list of Intel processors by generation attempts to present all of Intel's processors from the 4-bit 4004 (1971) to the present high-end offerings
List_of_Intel_processors
16-bit microprocessor introduced by NEC
object-code compatible with the Intel 8088, with an instruction set architecture (ISA) similar to that of the Intel 80188 with some extensions. The V20
NEC_V20
Series of personal computer
competitive asset. In 1984, Commodore signed a deal with Intel to second source manufacture the Intel 8088 CPU used in the IBM PC, along with a license to manufacture
Commodore IBM PC compatible systems
Commodore_IBM_PC_compatible_systems
IBM PC compatible home computer system
add-on card on non-Tandy machines. The original line is equipped with the Intel 8088 CPU, which was later extended to faster clock speeds and also the 8086
Tandy_1000
All models in the MBC-550 series featured pizza-box-style cases and Intel 8088 microprocessors and run versions of MS-DOS. On its release in 1984, the
Sanyo_MBC-550_series
8-bit microprocessor
Intel for building a complete system. Many of these support chips were also used with other processors. The original IBM PC based on the Intel 8088 processor
Intel_8085
Personal computer model released in 1983
Similarly to the original IBM PC, the XT main board included a socket for the Intel 8087 floating point arithmetic coprocessor. This optional chip, when installed
IBM_Personal_Computer_XT
Instructions a computer can execute
Intel upgraded the Intel 8080 to the Intel 8086. Intel simplified the Intel 8086 to manufacture the cheaper Intel 8088. IBM embraced the Intel 8088 when
Computer_program
Small computer with a CPU made out of a microprocessor
powerful microprocessors such as the MOS Technology 6502, Zilog Z80, and Intel 8088. The predecessors to these computers, mainframes and minicomputers, were
Microcomputer
Floating-point microprocessor
ran quite hot, forcing Intel to use a more expensive ceramic package for improved thermal dissipation. When the 8086 or 8088 CPU executed the ESC instruction
Intel_8087
64-bit extension of x86 architecture
of legacy mode. It is backwards compatible with the original Intel 8086 and Intel 8088 processors. Real mode is primarily used today by operating system
X86-64
Personal computer by Radio Shack
the 8 MHz Intel 80186 microprocessor running MS-DOS. By comparison, the IBM PC XT (introduced in March 1983) used the older 4.77 MHz Intel 8088 processor
Tandy_2000
The following is a list of Intel CPU microarchitectures. Intel has produced many generations of CPU microarchitectures since the 1970s, spanning x86 processors
List of Intel CPU microarchitectures
List_of_Intel_CPU_microarchitectures
Microprocessor model
it can correctly execute most software written for the earlier Intel 8086 and 8088 processors. The 80286 was employed for the IBM PC/AT, introduced
Intel_80286
Soviet 8086 microprocessor clone
M1810VM86 / М1810ВМ86 for the military version). A clone of the related Intel 8088 with its 8-bit bus was manufactured as the K1810VM88 (Russian: К1810ВМ88)
K1810VM86
Subset of x86 instruction set architecture for floating-point arithmetic
16-bit processors designed by Intel. It was released in 1980 to be paired with the Intel 8088 or 8086 microprocessors. (Intel's earlier 8231 and 8232 floating-point
X87
Circuit board-microprocessor connection
slot motherboards. List of AMD processors List of Intel processors "Intel 815 Chipset Family" (PDF). Intel. Archived from the original (PDF) on December 28
CPU_socket
8-bit microprocessor
architecture. Likewise, Zenith Data Systems paired the 8085 with the 16-bit Intel 8088 in its first MS-DOS computer, the Zenith Z-100, despite having previous
Zilog_Z80
Series of 8-bit personal computers released in 1982
system uses an enhanced version of CBM BASIC version 4.0. An optional Intel 8088-based coprocessor board allows the CBM-II series to run CP/M-86 1.1 and
Commodore_CBM-II
1982 DEC microcomputer
to the VT220 and a dual-CPU box with both 4 MHz Zilog Z80 and 4.81 MHz Intel 8088 CPUs. The Rainbow 100 was a triple-use machine: VT100 mode (industry standard
Rainbow_100
1983 portable computer model
computer released by Computer Devices, Inc. (CDI) in April 1983. It has an Intel 8088 processor and up to 704 KB of RAM, while its screen is capable of producing
Dot_(computer)
Computer architecture bit width
processors include the Intel 8086, the Intel 80286, the WDC 65C816, and the Zilog Z8000. The Intel 8088 was binary compatible with the Intel 8086, and was 16-bit
16-bit_computing
Discontinued computer operating system for x86 processors
CP/M operating system that Digital Research (DR) made for the Intel 8086 and Intel 8088. The system commands are the same as in CP/M-80. Executable files
CP/M-86
Line of PC-compatible laptops
entries in the SupersPort line included either an Intel 80286 microprocessor clocked at 12 MHz or an 8088 processor clocked at 8 or 4.77 MHz, switchable
Zenith_SupersPort
Model of tablet computer
The Write-Top is compatible with software for the IBM PC and runs an Intel 8088–compatible microprocessor. Although innovative, the Write-Top was a commercial
Linus_Write-Top
Operational mode of x86-compatible CPUs
real mode. The first x86 processor, the Intel 8086, had a 20-bit address bus for its memory, as did its Intel 8088 variant. This allowed them to access 220
Protected_mode
Microprocessor
The Intel 8089 input/output coprocessor was available for use with the 8086/8088 central processor. It was announced in May 1979, but the price was not
Intel_8089
ISA, 8-bit 5 2 Intel 8088 4.77 Unknown Unknown Unknown Unknown Personal Computer 5150-014 Unknown March 1983 ISA, 8-bit 5 2 Intel 8088 4.77 64 KB 64 KB
List of IBM Personal Computer models
List_of_IBM_Personal_Computer_models
Family of operating systems for IBM PC compatibles
applications to MS-DOS. When IBM introduced the IBM PC, built with the Intel 8088 microprocessor, they needed an operating system. Chairman John Opel had
DOS
Series of microprocessors and microcontrollers
Intel 8080 and Zilog Z80 8-bit designs, and later, the Intel 8086 16-bit design. Most of the line was replaced in 1984 by the NEC V20, an Intel 8088 clone
NEC_μCOM_series
8-bit microprocessor
the 8/16-bit 8088, which was selected by IBM for its new PC to be launched in 1981. Later NEC made the NEC V20 (an 8088 clone with Intel 80186 instruction
Intel_8080
Programmable machine that processes data
ISBN 978-1-107-05240-6. Retrieved 31 July 2019. "Intel's First Microprocessor—the Intel 4004". Intel Corp. November 1971. Archived from the original on
Computer
Series of microcomputers produced by R2E
D140) 1983 : Micral 90–20, Intel 8088 at 5 MHz 1983 : Micral 90–50, Intel 8086 at 8 MHz, 256K RAM 1985 : Bull Micral 30, Intel 8088 at 4.77 MHz, PC-XT compatible
Micral
PC emulator
capable of emulating Intel processors (and its respective clones, including Advanced Micro Devices, IDT and Cyrix) from Intel 8088 through the Pentium
86Box
1990s debate regarding the Linux kernel
noted was an Intel 8088-based computer, sometimes even without a hard drive. Linux was, at that time, specifically built for the Intel 386, a significantly
Tanenbaum–Torvalds_debate
Laptop computer
the Gavilan Computer Corporation in April 1984. The computer ran on an Intel 8088 microprocessor running at 5 MHz and sported a touchpad for a pointing
Gavilan_SC
1984, Gavilan filing bankruptcy the same year. Both ran the 8/16-bit Intel 8088 CPU. The Gavilan was notably the first computer to be marketed as a "laptop"
History_of_laptops
1989 Soviet personal computer
Soviet era. It is based on the K1810VM88 microprocessor, a clone of the Intel 8088. Developed since 1987 and released in 1989, it was the most common IBM-compatible
Poisk_(computer)
Computer button
the introduction of CPUs which ran faster than the original 4.77 MHz Intel 8088 used in the IBM Personal Computer, programs which relied on the CPU's
Turbo_button
American multinational technology company
marketplace. (Intel eventually extended the x86 architecture to 32 bits instead.) As the next processor, the 8086 (and its variant the 8088) was completed
Intel
American multinational semiconductor company
a contract with Intel, becoming a licensed second-source manufacturer of 8086 and 8088 processors. IBM wanted to use the Intel 8088 in its IBM PC, but
AMD
Computers derived from the IBM PC
choice of the Intel 8088 for the CPU introduced several limitations for developing software for the PC compatible platform. For example, the 8088 processor
IBM_PC_compatible
American computer manufacturer (1957–1998)
(Z80 and 8088) Rainbow 100, which ran the 8-bit CP/M operating system on the Z80 and the 16-bit CP/M-86 operating system on the Intel 8088 processor
Digital_Equipment_Corporation
16-bit microprocessor
wouldn't know until 1981 just what we had lost" because IBM chose the Intel 8088 for the IBM PC, he recalled. One factor was the lack of a roadmap for
TMS9900
Personal computer produced by Texas Instruments
with some technically superior aspects. It is based on the Intel 8088 CPU and an optional Intel 8087 floating point coprocessor. It supports MS-DOS-compatible
Texas Instruments Professional Computer
Texas_Instruments_Professional_Computer
1986 laptop computer by IBM
largely the same for all three models. The CPU is an Intel 80C88, the CMOS version of the Intel 8088 CPU. The base configuration included 256 KB of RAM
IBM_PC_Convertible
PC marketed by Leading Edge Hardware
Leading Edge into bankruptcy in 1989. The Model D initially featured an Intel 8088 microprocessor at 4.77 MHz, although later models had a switch in the
Leading_Edge_Model_D
Usage of mere clock rate to compare performance of microprocessors
that the IBM computer was five times faster than the Apple II, as its Intel 8088 processor had a clock speed roughly 4.7 times the clock speed of the MOS
Megahertz_myth
1985 laptop computer
floppy disks (it had no hard drive), a 4.77 MHz Intel 80C88 CPU (a lower-power variation of the Intel 8088), 256 KB of conventional RAM extendable to 512
Toshiba_T1100
Internal expansion bus in early PC compatibles
based on the Intel 80286 and its immediate successors during the 1980s. The bus was (largely) backward compatible with the 8-bit bus of the 8088-based IBM
Industry Standard Architecture
Industry_Standard_Architecture
Early portable computer
the Compaq Portable series and later Deskpro series. It is not simply an 8088-CPU computer that runs a Microsoft DOS as a PC "work-alike", but contains
Compaq_Portable
Computer model
Vegas at Comdex fall trade show on November 28,1983. It was based on the Intel 8088 CPU and was one of the world's earliest commercialized touch screen computers
HP-150
world’s PCs are built around CPUs that can claim the 8088 as an ancestor." Intel has credited the 8088 with launching the company into the Fortune 500. Quicktionary
List of Israeli inventions and discoveries
List_of_Israeli_inventions_and_discoveries
Bullet hell shoot 'em up video game series
recreations include: IBM 5160 (Intel 8088): In April 2014, the video was played on an IBM 5160 equipped with an Intel 8088 CPU at a resolution of 640×200
Touhou_Project
File format for conveying binary information
1978[when?], Intel introduced the new record types 02 and 03 (to add support for the segmented address space of the then-new 8086/8088 processors) in
Intel_HEX
Bus controller chip
The Intel 8288 is a bus controller designed for Intel 8086/8087/8088/8089. The chip is supplied in 20-pin DIP package. The 8086 (and 8088) operate in
Intel_8288
Patterns used in computer programming
Python's glob. The original DOS was a clone of CP/M designed to work on Intel's 8088 and 8086 processors. Windows shells, following DOS, do not traditionally
Glob_(programming)
Computer museum in Santa Clara, California
The original IBM PC containing the Intel 8088 microprocessor Intel 8080 microprocessor and a microprocessor board Intel IN-10 Memory Board Moore's Law exhibit
Intel_Museum
Reference to a specific memory location
16-bit Intel 8088 and Intel 8086 supported 20-bit addressing via segmentation, allowing them to access 1 MiB rather than 64 KiB of memory. All Intel Pentium
Memory_address
Early portable computer
MS-DOS and CP/M operating systems. It did so by having both Zilog Z80 and Intel 8088 microprocessors. Chameleon approximated the hardware capabilities of the
Seequa_Chameleon
Impact of 1981 American microcomputer model
8-bit-compatible support chips. IBM decided to use the Intel 8088 after first considering the Motorola 68000 and the Intel 8086, because the other two were considered
Influence of the IBM PC on the personal computer market
Influence_of_the_IBM_PC_on_the_personal_computer_market
Topics referred to by the same term
Intel MCS-86, Intel 8086 processor architecture and chip family Intel MCS-88, Intel 8088 processor architecture and chip family Intel MCS-48, Intel 8048
Micro_Computer_Set
Amiga add-on hardware
Amiga 1000 computer (→ Side-expansion Port). Is built around the same Intel 8088 processor, the original IBM PC/XT (→ IBM 5160) was already build around
Amiga_Sidecar
Timeline of microprocessors
1976 used 5 chips, and the Pascal MicroEngine in 1979 used 5 chips. The Intel 8088 had an 8-bit external data bus, but internally used a 16-bit architecture
Microprocessor_chronology
March 1985. It was a small computer with a weight of 8 kg. It had an Intel 8088 processor at 4.77 MHz and 256-512 kB of RAM. An optional built-in thermal
Ericsson_Portable_PC
Microprocessor family released in 2016
previous Intel processors (such as the 8088, Banias, Dothan, Conroe, Sandy Bridge, Ivy Bridge, and Skylake), Kaby Lake's development was led by Intel's Israeli
Kaby_Lake
32-bit microprocessor by Intel
the 8086. This was a similar approach to that used by Intel with the 8088, a derivative of the Intel 8086, that was used in the original IBM PC. The 16 MB
I386
Lightweight, compact computer with built-in peripherals
before their 1980 Portal CCMC. The Micral V, introduced in 1978, combined an Intel 8080 CPU, up to 64K of RAM, a small alphanumeric printer, a full keyboard
Portable_computer
Programmable interrupt controller
8259; the later 8259A was upward compatible and usable with the 8086 or 8088 processor. The 8259 combines multiple interrupt input sources into a single
Intel_8259
1990 Microsoft operating system version
program at a time, due to the limitations of the Intel 8088 microprocessor. Intel had later released the Intel 80286, supporting such multitasking efficiently
Windows_3.0
Home computer
keep up with changing OS requirements. Like the IBM PC, the PCjr uses an Intel 8088 clocked at 4.77 MHz. Despite using the same CPU and clock speed, performance
IBM_PCjr
Real-time operating system (RTOS) software
Systems that year. In 1982, the first version of QUNIX was released for the Intel 8088 CPU. In 1984, Quantum Software Systems renamed QUNIX to QNX (Quantum's
QNX
to computers, including the Intel 8008, 8080 (used in many computers using the CP/M operating system), and the 8086/8088 family. (The IBM personal computer
History of computing hardware (1960s–present)
History_of_computing_hardware_(1960s–present)
American programmer and technical writer
writing efficient assembly code for the original IBM PC's internally 16-bit Intel 8088 processor, but was released after the 32-bit 80486 CPU was already being
Michael_Abrash
Series of IBM PC Compatibles
market. The Equity I was the first system introduced, equipped with an Intel 8088 CPU and one or two 5.25" floppy disk drives. The original Equity I was
Epson_Equity
American multinational technology company
priced at US$795 (equivalent to $1,963 in 2024). The Turbo PC featured an Intel 8088-compatible processor with a maximum speed of 8 MHz. At that time PC's
Dell
circa 1991. It was available in multiple configurations; ranging from Intel 8088 based XT-compatible models, to a high end model powered by a 16 MHz 386SX
Carry-I
1991 personal digital assistant from Hewlett Packard
the HP 110 and HP 110 Plus. HP 95LX has an Intel 8088-clone NEC V20 CPU running at 5.37 MHz with an Intel system on a chip (SoC) device. It cannot be
HP_95LX
Unix operating system clone
license. Coherent runs on most Intel-based PCs with Intel 8088, 286, 386, and 486 processors. Coherent version 3 for Intel-based PCs requires at least a
Coherent_(operating_system)
First fully IBM PC–compatible system
IBM had released previously: it used off-the-shelf hardware such as the Intel 8088 microprocessor; ran an operating system (IBM PC DOS) developed by a third-party
MPC_1600
Japanese electronics engineer
communication USART chip. He was not involved in the creation of the Intel 8088 or 8086. Shima moved to Zilog in 1975 and, using only a few assistants
Masatoshi_Shima
Italian electronics manufacturer
M24, a clone of the IBM PC using DOS and the Intel 8086 processor (at 8 MHz) instead of the Intel 8088 used by IBM (at 4.77 MHz). The M24 was sold in
Olivetti_computers
CP/M for Motorola 68000 CP/M-8000 CP/M for Zilog Z8000 CP/M-86 CP/M for Intel 8088/8086 CP/M-86 Plus Personal CP/M-86 MP/M Multi-user version of CP/M-80
List_of_operating_systems
First 640 KB of RAM under DOS
barrier is an architectural limitation of IBM PC compatible PCs. The Intel 8088 CPU, used in the original IBM PC, was able to address 1 MB (220 bytes)
Conventional_memory
Family of RISC-based computer architectures
the IBM Personal Computer was introduced. Using the recently introduced Intel 8088, a 16-bit CPU compared to the 6502's 8-bit design, it offered higher overall
ARM_architecture_family
16-bit microprocessor
against the 8 MHz Intel 8086 which turned in a time of 1.9 seconds, or the less expensive 5 MHz Intel 8088 at 4 seconds. While the Intel processors were
Zilog_Z8000
for the Commodore 64 in 1982 (5 μm). Intel 8085 CPU launched in 1976. Intel 8086 CPU launched in 1978. Intel 8088 CPU launched in 1979. Motorola 68000
List of semiconductor scale examples
List_of_semiconductor_scale_examples
Bus arbiter made by Intel
The Intel 8289 is a Bus arbiter designed for Intel 8086/8087/8088/8089. The chip is supplied in 20-pin DIP package. The 8086 (and 8088) operate in maximum
Intel_8289
American manufacturer of microprocessors
Digital Equipment Corporation Rainbow 100 similarly added a Z80 to an Intel 8088-based MS-DOS computer to enable the machine to run both MS-DOS and CP/M
Zilog
Graphics adapter and display standard for early IBM PCs
market and included 320 KB of display RAM and an on-board Intel 8088 microprocessor. The 8088 ran software routines for 2D and 3D graphics such as "draw
Professional Graphics Controller
Professional_Graphics_Controller
8-bit microprocessor
higher performance. Among these was the Intel 8086, released the same year, and its lower-cost version, the Intel 8088 of 1979. A feeling for the problem can
Motorola_6809
Electronic musical instrument by Linn Electronics
but he was limited by the 64K code space memory segmentation in the Intel 8088 microprocessor that left no room for new features. Further software development
Linn_9000
Computer intended for use by an individual person
price of US$1,565. It operated with the 5 megahertz (later 16 megahertz) Intel 8088 chip. What was later dubbed MS-DOS was the computer's Microsoft-produced
Personal_computer
Time and place where a retail transaction is completed
for McDonald's Restaurants. It used the Intel 8008, an early microprocessor (forerunner to the Intel 8088 processor used in the original IBM Personal
Point_of_sale
Intel processor architecture
In marketing, iAPX (Intel Advanced Performance Architecture) was a short lived designation used for several Intel microprocessors, including some 8086
IAPX
INTEL 8088
INTEL 8088
Boy/Male
German, Swedish
Angel; Bright Angle
Boy/Male
German
Angel.
Surname or Lastname
English
English : from either of two Old Norse personal names: Ingjaldr, in which the prefix in- probably reinforces the element -gjaldr, related to Old Norse gjalda ‘to pay or recompense’, or Ingólfr ‘Ing’s wolf’ (Ing was an ancient Germanic fertility god).English : habitational name from Ingol in Lancashire, which is named from the Old English personal name Inga + holh ‘hollow’, ‘depression’.Probably a variant of German Ingel, from a short form of any of several Germanic personal names formed with Ing- (see 1 above).An early bearer, Richard Ingle (1609–c. 1653), was a rebel and a pirate who first came to the colonies in 1631 or 1632 as a tobacco merchant. He is known to have practiced piracy in MD.
INTEL 8088
INTEL 8088
Girl/Female
Tamil
Lord Vishnu
Girl/Female
Australian, Japanese
Child of Joy
Female
Arthurian
, alive, (an enchantress).
Girl/Female
Arabic, Gujarati, Hindu, Indian, Muslim
Shining Sea; Independent
Girl/Female
English
Blend of Lily: (the flower; innocence; purity; beauty) and Elizabeth: (My God is bountiful;God of...
Surname or Lastname
English
English : habitational name from any of several places, notably those in Lancashire and Cheshire, named Chorley, from Old English ceorla, genitive plural of ceorl ‘peasant’ + lēah ‘woodland clearing’.
Boy/Male
Indian, Punjabi, Sikh
Love for the Lord
Boy/Male
Indian, Telugu
Father of Lord Rama; King of Ayodhya
Boy/Male
Indian, Sanskrit
Brilliant; Shining
Male
German
German contracted form of Visigothic Alaric, ALRICH means "all-powerful; ruler of all."
INTEL 8088
INTEL 8088
INTEL 8088
INTEL 8088
INTEL 8088
v. t.
To place in a tomb; to bury; to inter; to entomb.
n.
The under side of the subordinate parts and members of buildings, such as staircases, entablatures, archways, cornices, or the like. See Illust. of Lintel.
v. t.
To cover with earth or mold; to inter; to bury; -- sometimes with up.
p. pr. & vb. n.
of Inter
n.
Any part of a building, whether constructional, as a pier, column, lintel, or the like, or decorative, as a molding, or group of moldings.
v. t.
To deposit in a tomb, as a dead body; to bury; to inter; to inhume.
imp. & p. p.
of Inter
v. t.
To deposit or inter in a chapel; to enshrine.
n.
The lintel of a fireplace when of wood, as frequently in early houses.
v. t.
To inter.
v. t.
To deposit, as a dead body, in the earth; to bury; to inter.
n.
A horizontal member spanning an opening, and carrying the superincumbent weight by means of its strength in resisting crosswise fracture.
v. t.
To inhume; to bury; to inter.
v. t.
To inter with funeral rites; to bury.
n.
The space within an arch, and above a lintel or a subordinate arch, spanning the opening below the arch.
n.
The uppermost of any assemblage of parts; as, the cap of column, door, etc.; a capital, coping, cornice, lintel, or plate.
v. t.
To deposit and cover in the earth; to bury; to inhume; as, to inter a dead body.
v. t.
To inter again.
v. t.
To bury; to inter; to entomb; as, obscurely sepulchered.