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Что (кто) такое Z80 - определение

8-BIT MICROPROCESSOR

Z80; Zilog z80; Z80a; Zilog Z-80; Z80 A; Z-80; Z80A; Sharp LH0080; NEC uPD780C; ZiLOG Z80; Z-80A; Sharp LH-0080; Zilog Z80A; NEC D780C; D780C; UPD780C; NEC 780C; ΜPD780C-1; Z80 instruction set; Z80 architecture; NEC μPD9002; Z80 microprocessor; Z80H; Z80B; Z80A-CPU-D; Sharp Z80A-CPU-D; LH0080A; Sharp LH0080A; Zilog Z80B

$PIO Z84C2008$
$CTC Z84C3008$
$SIO Z84C4008$

Найдено результатов: 8

Z80

Zilog Z80

Zilog Z80

<processor> An 8-bit microprocessor. It was released in July 1976 with a 2.5 MHz clock rate. The Z80 was a much improved Intel 8080 (as was the Intel 8085). It also used 8-bit data and 16-bit addressing, and could execute all of the 8080 op codes as well as 80 new ones, instructions that included 1, 4, 8 and 16-bit operations and even block move and block I/O instructions. The register set was doubled, with two banks of registers (including A and F) that could be switched between. This allowed fast operating system or interrupt context switches. It features 3 types of interrupt mode. The Z80 also added two index registers (IX and IY) and relocatable vectored interrupts (via the 8-bit IV register). Like many processors (including the 8085), the Z80 featured many undocumented op codes. Chip area near the edge was used for added instructions, but fabrication made the failure of these high. Instructions that often failed were just not documented, increasing chip yield. Later fabrication made these more reliable. The thing that really made the Z80 popular was the memory interface - the CPU generated it's own RAM refresh signals, which meant easier design and lower system cost. That and its 8080 compatibility and CP/M, the first standard microprocessor operating system, made it the first choice of many systems. In addition to the original Z80 (2.5 MHz) there are the {Zilog Z80A} (4 MHz), Zilog Z80B (6MHz) and Zilog Z80H (8 MHz) versions. The popular Hitachi HD64180 processor family adds peripherals and an MMU to the Z80. The Zilog Z280 was an enhanced version with an MMU and many new op codes. The Z80 was used in the first Nintendo Game Boy. A Sharp Z80 work-alike was used in the GameBoy Color, running at 4 MHz for GameBoy software or at 8 MHz for Game Boy Color software. The Z80 was used in the Sega Master System and the Game Gear. It was also used in the Sega Genesis for hardware reverse compatibility with the Sega Master System through a special cartridge. z80/">Gaby Chaudry site (http://gaby.de/z80/). (2004-06-10)

Zilog Z80A

<processor> A version of the Zilog Z80 microprocessor with a 4 MHz clock rate. (1995-04-24)

Programming the Z80

BOOK BY RODNAY ZAKS

Programming The Z80

Programming the Z80 is a seminal computer programming text, written by Rodnay Zaks and first published in 1979 by Sybex. It is designed as both an educational text to teach programming techniques of elementary to intermediate level using assembly language, and as a self-contained reference book.

https://en.wikipedia.org/wiki/Programming_the_Z80

Build Your Own Z80 Computer

Wikipedia talk:Articles for creation/Build Your Own Z80 Computer

Build Your Own Z80 Computer: design guidelines and application notes is a book written by Steve Ciarcia, published in 1981 by McGraw-Hill.

https://en.wikipedia.org/wiki/Build_Your_Own_Z80_Computer

TI-BASIC 83

CALCULATOR PROGRAMMING LANGUAGE

TI-BASIC 83 (Z80)

TI-BASIC 83,TI-BASIC Z80 or simply TI-BASIC, is the built-in programming language for the Texas Instruments programmable calculators in the TI-83 series. Calculators that implement TI-BASIC have a built in editor for writing programs.

https://en.wikipedia.org/wiki/TI-BASIC_83

MSX-DOS

8-BIT OPERATING SYSTEM BY MICROSOFT

MSXDOS.SYS; MSXDOS2.SYS; AUTOEXEC.BAS; MSX DOS; MSX BDOS; MSX BIOS; BDOS (MSX); BIOS (MSX); Z80 MS-DOS; Z80 MS-DOS 1.25

Microsoft Extended

Source-to-source compiler

COMPILER THAT TRANSLATES SOURCE CODE TO AN EQUIVALENT VERSION IN A DIFFERENT PROGRAMMING LANGUAGE THAT OPERATE AT A SIMILAR LEVEL OF ABSTRACTION

Transcompiler; Source-to-source translator; Transpiler; Source code translator; Transcompilation; Transpile; Transcompile; Transpiling; Trans-compiled; Trans-compiles; TRANS.COM; TRANS (command); XLT86; XLAT86; Source to source compilation; Source to source compiler; Source-to-source compilation; Source-to-source compilers; Source to source translator; Trans-compiling; Transcompiling; Transcompiled; JavaScript source map; JS source maps; JS source map; JavaScript source maps; Recursive transcompiling; Recursive Transcompiling; Transpilation; TRANS86; Digital Research XLT86; DR XLT86; DRI XLT86; Sorcim TRANS86; CONVERT 86; Intel CONVERT 86; SCP TRANS; Seattle Computer Products TRANS; Microsoft TRANS; SCP TRANS86; Seattle Computer Products TRANS86; Microsoft TRANS86; Source to Source Compiler; S2S compiler; XLT86.COM; Assembly language translator; Trans-86; XLT-86; CONV86; Intel CONV86; CONV-86; Intel CONV-86; Source-level translation; Source-code translator; Assembly-language translation tool; Assembly-language translation; Assembly-language translator; Source-code translation; Source-level translation tool; Source-level translator; Assembly code translator; Assembly Translator; Assembly translator; Source to Source Translator; Source to Source Converter; Source to source converter; Source-to-source converter; Source-to-source translation; Source-to-source conversion; Source to source conversion; ST MIGR2ST7; Migr2st7; MIGR2ST7; MIGR2ST7.EXE; XLT86 1.0; TRANS-86; Translate-86; XLT 86; Convert 86; Intel Convert 86; Sorcim Trans; Assembly language program translation; Assembly Language Program Translation; Source level translator; XLT86 1.1; Z80 to 8086 translator; 8080 to 8086 translator; Z80 to Z8000 translator; 8085 to 8086 translator; TRANS 2.21; 2500 AD Software TRANS; 2500 A.D. Software TRANS; A.D. Software TRANS; AD Software TRANS; 2500 AD Software XASM; 2500 A.D. Software XASM; A.D. Software XASM; AD Software XASM; HC05 to ST7 translator; 68HC05 to ST7 translator; 6805 to ST7 translator; Assembly source translator; Assembly language translation; Transpiled; Transpilable language; 8088ify; 8088IFY; To86.awk; To86; Toz80.awk; Toz80

A source-to-source translator, source-to-source compiler (S2S compiler), transcompiler, or transpiler is a type of translator that takes the source code of a program written in a programming language as its input and produces an equivalent source code in the same or a different programming language. A source-to-source translator converts between programming languages that operate at approximately the same level of abstraction, while a traditional compiler translates from a higher level programming language to a lower level programming language.

https://en.wikipedia.org/wiki/Source-to-source_compiler

Википедия

Zilog Z80

The Z80 is an 8-bit microprocessor introduced by Zilog as the startup company's first product. The Z80 was conceived by Federico Faggin in late 1974 and developed by him and his 11 employees starting in early 1975. The first working samples were delivered in March 1976, and it was officially introduced on the market in July 1976. With the revenue from the Z80, the company built its own chip factories and grew to over a thousand employees over the following two years.

The Zilog Z80 is a software-compatible extension and enhancement of the Intel 8080 and, like it, was mainly aimed at embedded systems. Although used in that role, the Z80 also became one of the most widely used CPUs in desktop computers and home computers from the 1970s to the mid-1980s. It was also common in military applications, musical equipment such as synthesizers (like the Roland Jupiter-8), and coin-operated arcade games of the late 1970s and early 1980s, including Pac-Man.

Zilog licensed the Z80 to the US-based Synertek and Mostek, which had helped them with initial production, as well as to a European second-source manufacturer SGS. The design was also copied by several Japanese, East European and Soviet manufacturers. This won the Z80 acceptance in the world market since large companies like NEC, Toshiba, Sharp, and Hitachi started to manufacture the device (or their own Z80-compatible clones or designs).

In recent decades Zilog has refocused on the ever-growing market for embedded systems, and the most recent Z80-compatible microcontroller family, the fully pipelined 24-bit eZ80 with a linear 16 MB address range, has been successfully introduced alongside the simpler Z80 and Z180 products.

https://en.wikipedia.org/wiki/Zilog Z80