ZMODEM protocol - перевод на немецкий
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ZMODEM protocol - перевод на немецкий

COMMUNICATIONS PROTOCOL
ZModem; Zmodem; Z-MODEM; ZedZap

communications protocol         
  • Figure 2. The TCP/IP model or Internet layering scheme and its relation to some common protocols.
  • Figure 3. Message flows using a protocol suite. Black loops show the actual messaging loops, red loops are the effective communication between layers enabled by the lower layers.
  • Figure 5: Protocol and software layering. The software modules implementing the protocols are represented by cubes. The information flow between the modules is represented by arrows. The (top two horizontal) red arrows are virtual. The blue lines mark the layer boundaries.
SYSTEM FOR EXCHANGING MESSAGES BETWEEN COMPUTING SYSTEMS
Network protocol design principles; Data transmission protocol; Networking protocol; Protocol (computing); Protocol (computer science); Protocol (communication); Protocol (communications); Network protocols; Communication protocols; Communications protocols; Internetwork protocol; Protocol (networks); Protocol (network); Networking protocols; Protocols (computing); Protocol set; Data communication protocol; Protocol testing; Network Protocols; Binary protocol; Protocol (computer); Protocol versioning; Computer protocol; Protocol layer; Network protocol; Protocol design; Internetworking Protocol; Text-based protocol; Plain text protocol; Web protocol; Communications protocol; Universal protocols; Telecommunication protocol; Telecommunications protocol; Transmission protocol; History of communication protocols; Binary protocols; Wire image (networking)
Kommunikationsprotokoll, die Einstellungen und Standards nach denen eine Datenübertragung zwischen zwei Computern entsteht
network protocol         
  • Figure 2. The TCP/IP model or Internet layering scheme and its relation to some common protocols.
  • Figure 3. Message flows using a protocol suite. Black loops show the actual messaging loops, red loops are the effective communication between layers enabled by the lower layers.
  • Figure 5: Protocol and software layering. The software modules implementing the protocols are represented by cubes. The information flow between the modules is represented by arrows. The (top two horizontal) red arrows are virtual. The blue lines mark the layer boundaries.
SYSTEM FOR EXCHANGING MESSAGES BETWEEN COMPUTING SYSTEMS
Network protocol design principles; Data transmission protocol; Networking protocol; Protocol (computing); Protocol (computer science); Protocol (communication); Protocol (communications); Network protocols; Communication protocols; Communications protocols; Internetwork protocol; Protocol (networks); Protocol (network); Networking protocols; Protocols (computing); Protocol set; Data communication protocol; Protocol testing; Network Protocols; Binary protocol; Protocol (computer); Protocol versioning; Computer protocol; Protocol layer; Network protocol; Protocol design; Internetworking Protocol; Text-based protocol; Plain text protocol; Web protocol; Communications protocol; Universal protocols; Telecommunication protocol; Telecommunications protocol; Transmission protocol; History of communication protocols; Binary protocols; Wire image (networking)
Netzprotokoll, eine Kommunikationsmethode zwischen den Computern in einem lokalen Netz
communication protocol         
  • Figure 2. The TCP/IP model or Internet layering scheme and its relation to some common protocols.
  • Figure 3. Message flows using a protocol suite. Black loops show the actual messaging loops, red loops are the effective communication between layers enabled by the lower layers.
  • Figure 5: Protocol and software layering. The software modules implementing the protocols are represented by cubes. The information flow between the modules is represented by arrows. The (top two horizontal) red arrows are virtual. The blue lines mark the layer boundaries.
SYSTEM FOR EXCHANGING MESSAGES BETWEEN COMPUTING SYSTEMS
Network protocol design principles; Data transmission protocol; Networking protocol; Protocol (computing); Protocol (computer science); Protocol (communication); Protocol (communications); Network protocols; Communication protocols; Communications protocols; Internetwork protocol; Protocol (networks); Protocol (network); Networking protocols; Protocols (computing); Protocol set; Data communication protocol; Protocol testing; Network Protocols; Binary protocol; Protocol (computer); Protocol versioning; Computer protocol; Protocol layer; Network protocol; Protocol design; Internetworking Protocol; Text-based protocol; Plain text protocol; Web protocol; Communications protocol; Universal protocols; Telecommunication protocol; Telecommunications protocol; Transmission protocol; History of communication protocols; Binary protocols; Wire image (networking)
Kommunikationsprotokoll (Protokoll über die Kommunikationsübertragungen)

Определение

ZMODEM
<protocol> A file transfer protocol with error checking and crash recovery. Developed by Chuck Forsberg. Its transfer rate is similar to YMODEM-g. Like YMODEM-g, ZMODEM does not wait for positive acknowledgement after each block is sent, but rather sends blocks in rapid succession. If a ZMODEM transfer is cancelled or interrupted for any reason, the transfer can be resurrected later and the previously transferred information need not be resent. {FTP Oakland (ftp://oak.oakland.edu/pub/simtelnet/msdos/zmodem/)}, {FTP PDX (ftp://ftp.cs.pdx.edu/pub/zmodem/)}. Telephone: +1 900 737 7836. (1996-07-02)
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Википедия

ZMODEM

ZMODEM is an inline file transfer protocol developed by Chuck Forsberg in 1986, in a project funded by Telenet in order to improve file transfers on their X.25 network. In addition to dramatically improved performance compared to older protocols, ZMODEM offered restartable transfers, auto-start by the sender, an expanded 32-bit CRC, and control character quoting supporting 8-bit clean transfers, allowing it to be used on networks that would not pass control characters.

In contrast to most transfer protocols developed for bulletin board systems (BBSs), ZMODEM was not directly based on, nor compatible with, the seminal XMODEM. Many variants of XMODEM had been developed in order to address one or more of its shortcomings, and most remained backward compatible and would successfully complete transfers with "classic" XMODEM implementations. This list includes Forsberg's own YMODEM.

ZMODEM eschewed backward compatibility in favor of producing a radically improved protocol. It performed as well or better than any of the high-performance varieties of XMODEM, did so over links that previously didn't work at all, like X.25, or had poor performance, like Telebit modems, and included useful features found in few or no other protocols. ZMODEM became extremely popular on bulletin board systems (BBS) in the early 1990s, becoming a standard as widespread as XMODEM had been before it.

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