ARPANET


ARPANET
ARPANET logical map, March 1977

The Advanced Research Projects Agency Network (ARPANET), was the world's first operational packet switching network and the core network of a set that came to compose the global Internet. The network was funded by the Defense Advanced Research Projects Agency (DARPA) of the United States Department of Defense for use by its projects at universities and research laboratories in the US. The packet switching of the ARPANET was based on designs by Lawrence Roberts of the Lincoln Laboratory.[1]

Packet switching, today the dominant basis for data communications worldwide, was a new concept at the time of the conception of the ARPANET. Data communications had been based on the idea of circuit switching, as in the traditional telephone circuit, wherein a telephone call reserves a dedicated circuit for the duration of the communication session and communication is possible only between the two parties interconnected.

With packet switching, a data system could use one communications link to communicate with more than one machine by collecting data into datagrams and transmit these as packets onto the attached network link, whenever the link is not in use. Thus, not only could the link be shared, much as a single post box can be used to post letters to different destinations, but each packet could be routed independently of other packets.

Contents

History

The earliest ideas for a computer network intended to allow general communications among computer users were formulated by computer scientist J. C. R. Licklider, of Bolt, Beranek and Newman (BBN), in August 1962, in memoranda discussing his concept for an “Intergalactic Computer Network”. Those ideas contained almost everything that composes the contemporary Internet.

In the 1950s, the United States Department of Defense was concerned about the ability to survive a nuclear first strike, due to U.S. nuclear forces' dependence on an effective communication network. Paul Baran of the Rand Corporation concluded that the strongest communication system would be a computer network that would be able to break messages into units and then route each message unit along a functioning path to its ultimate destination, where the message units would be reassembled to form a copy of the original, coherent, whole message.

In October 1963, Licklider was appointed head of the Behavioral Sciences and Command and Control programs at the Defense Department's Advanced Research Projects Agency — ARPA (the initial ARPANET acronym). He then convinced Ivan Sutherland and Bob Taylor that this computer network concept was very important and merited development, although Licklider left ARPA before any contracts were let that worked on this concept.

Ivan Sutherland and Bob Taylor continued their interest in creating such a computer communications network, in part, to allow ARPA-sponsored researchers at various corporate and academic locales to put to use the computers ARPA was providing them, and, in part, to make new software and other computer science results quickly and widely available. In his office, Taylor had three computer terminals, each connected to separate computers, which ARPA was funding: the first, for the System Development Corporation (SDC) Q-32, in Santa Monica; the second, for Project Genie, at the University of California, Berkeley; and the third, for Multics, at MIT. Taylor recalls the circumstance: "For each of these three terminals, I had three different sets of user commands. So, if I was talking online with someone at S.D.C., and I wanted to talk to someone I knew at Berkeley, or M.I.T., about this, I had to get up from the S.D.C. terminal, go over and log into the other terminal and get in touch with them. I said, “Oh Man!”, it’s obvious what to do: If you have these three terminals, there ought to be one terminal that goes anywhere you want to go. That idea is the ARPANET".[2] Somewhat contemporaneously, several other people had (mostly independently) worked out the aspects of “packet switching”, with the first public demonstration presented by the National Physical Laboratory (NPL), on August 5, 1968, in the United Kingdom .[3]

Creation

By mid-1968, Taylor had prepared a complete plan for a computer network, and, after ARPA’s approval, a Request for Quotation (RFQ) was sent to 140 potential bidders. Most computer science companies regarded the ARPA–Taylor proposal as outlandish, and only twelve submitted bids to build the network; of the twelve, ARPA regarded only four as top-rank contractors. At year’s end, ARPA considered only two contractors, and awarded the contract to build the network to BBN Technologies on April 7, 1969. The initial, seven-man BBN team were much aided by the technical specificity of their response to the ARPA RFQ — and thus quickly produced the first working computers. This team was led by Frank Heart. The BBN-proposed network closely followed Taylor’s ARPA plan: a network composed of small computers called Interface Message Processors (IMPs), that functioned as gateways (today called routers) interconnecting local resources. At each site, the IMPs performed store-and-forward packet switching functions, and were interconnected with modems that were connected to leased lines, initially running at 50kbit/second. The host computers were connected to the IMPs via custom serial communication interfaces. The system, including the hardware and the packet switching software, was designed and installed in nine months.

The first-generation IMPs were initially built by BBN Technologies using a rugged computer version of the Honeywell DDP-516 computer configured with 24kB of expandable core memory, and a 16-channel Direct Multiplex Control (DMC) direct memory access unit.[4] The DMC established custom interfaces with each of the host computers and modems. In addition to the front-panel lamps, the DDP-516 computer also features a special set of 24 indicator-lamps showing the status of the IMP communication channels. Each IMP could support up to four local hosts, and could communicate with up to six remote IMPs via leased lines.

Misconceptions of design goals

Common ARPANET lore posits that the computer network was designed to survive a nuclear attack. In A Brief History of the Internet, the Internet Society describes the coalescing of the technical ideas that produced the ARPANET:

It was from the RAND study that the false rumor started, claiming that the ARPANET was somehow related to building a network resistant to nuclear war. This was never true of the ARPANET, only the unrelated RAND study on secure voice considered nuclear war. However, the later work on Internetting did emphasize robustness and survivability, including the capability to withstand losses of large portions of the underlying networks.[5]

Although the ARPANET was designed to survive subordinate-network losses, the principal reason was that the switching nodes and network links were unreliable, even without any nuclear attacks. About the resource scarcity that spurred the creation of the ARPANET, Charles Herzfeld, ARPA Director (1965–1967), said:

The ARPANET was not started to create a Command and Control System that would survive a nuclear attack, as many now claim. To build such a system was, clearly, a major military need, but it was not ARPA’s mission to do this; in fact, we would have been severely criticized had we tried. Rather, the ARPANET came out of our frustration that there were only a limited number of large, powerful research computers in the country, and that many research investigators, who should have access to them, were geographically separated from them.[6]

ARPANET deployed

Historical document: First ARPANET IMP log: the first message ever sent via the ARPANET, 10:30 PM, October 29, 1969. This IMP Log excerpt, kept at UCLA, describes setting up a message transmission from the UCLA SDS Sigma 8 Host computer to the SRI SDS 940 Host computer

The initial ARPANET consisted of four IMPs:

The first message on the ARPANET was sent by UCLA student programmer Charley Kline, at 10:30 p.m, on October 29, 1969 from Boelter Hall 3420.[7] Supervised by Prof. Leonard Kleinrock, Kline transmitted from the university's SDS Sigma 7 Host computer to the Stanford Research Institute's SDS 940 Host computer. The message text was the word "login"; the "l" and the "o" letters were transmitted, but the system then crashed. Hence, the literal first message over the ARPANET was "lo". About an hour later, having recovered from the crash, the SDS Sigma 7 computer effected a full "login". The first permanent ARPANET link was established on November 21, 1969, between the IMP at UCLA and the IMP at the Stanford Research Institute. By December 5, 1969, the entire four-node network was established.[8]

The contents of the first email transmission in 1971 have been forgotten; in the Frequently Asked Questions section of his Web site, the sender, Ray Tomlinson, who sent the message between two computers sitting side-by-side, claims that the contents were "entirely forgettable, and I have, therefore, forgotten them", and speculates that the message likely was "QWERTYUIOP" or some such.[9]

Growth and evolution

In March, 1970, the ARPANET reached the east coast of the United States, when an IMP at BBN in Cambridge, Massachusetts was connected to the network. Thereafter, the ARPANET grew: 9 IMPs by June 1970 and 13 IMPs by December 1970, then 18 by September 1971 (when the network included 23 university and government hosts); 29 IMPs by August 1972, and 40 by September 1973. By June 1974, there were 46 IMPs, and in July 1975, the network numbered 57 IMPs. By 1981, the number was 213 host computers, with another host connecting approximately every twenty days.

In 1973 a transatlantic satellite link connected the Norwegian Seismic Array (NORSAR) to the ARPANET, making Norway the first country outside the US to be connected to the network. At about the same time a terrestrial circuit added a London IMP.[10]

In 1975, the ARPANET was declared "operational". The Defense Communications Agency took control since ARPA was intended to fund advanced research. In 1983, the ARPANET was split with U.S. military sites on their own Military Network (MILNET) for unclassified defense department communications. The combination was called the Defense Data Network (DDN).[11] Separating the civil and military networks reduced the 113-node ARPANET by 68 nodes. Gateways relayed electronic mail between the two networks. MILNET later became the NIPRNet.

Technology

Support for inter-IMP circuits of up to 230.4 kbit/s was added in 1970, although considerations of cost and IMP processing power meant this capability was not actively used.

1971 saw the start of the use of the non-ruggedized (and therefore significantly lighter) Honeywell 316 as an IMP. It could also be configured as a Terminal Interface Processor (TIP), which provided terminal server support for up to 63 ASCII serial terminals through a multi-line controller in place of one of the hosts.[12] The 316 featured a greater degree of integration than the 516, which made it less expensive and easier to maintain. The 316 was configured with 40 kB of core memory for a TIP. The size of core memory was later increased, to 32 kB for the IMPs, and 56 kB for TIPs, in 1973.

In 1975, BBN introduced IMP software running on the Pluribus multi-processor. These appeared in a small number of sites. In 1981, BBN introduced IMP software running on its own C/30 processor product.

In 1983, TCP/IP protocols replaced NCP as the ARPANET’s principal protocol, and the ARPANET then became one subnet of the early Internet.

Shutdown and legacy

The original IMPs and TIPs were phased out as the ARPANET was shut down after the introduction of the NSFNet, but some IMPs remained in service as late as 1989.

The ARPANET Completion Report, jointly published by BBN and ARPA, concludes that:

... it is somewhat fitting to end on the note that the ARPANET program has had a strong and direct feedback into the support and strength of computer science, from which the network, itself, sprang. 4

In the wake of ARPANET being formally decommissioned on February 28, 1990, Vinton Cerf wrote the following lamentation, entitled "Requiem of the ARPANET"[13] :

It was the first, and being first, was best,
but now we lay it down to ever rest.
Now pause with me a moment, shed some tears.
For auld lang syne, for love, for years and years
of faithful service, duty done, I weep.
Lay down thy packet, now, O friend, and sleep.

-Vinton Cerf

Senator Albert Gore, Jr. began to craft the High Performance Computing and Communication Act of 1991 (commonly referred to as "The Gore Bill") after hearing the 1988 report toward a National Research Network submitted to Congress by a group chaired by Leonard Kleinrock, professor of computer science at UCLA. The bill was passed on December 9, 1991 and led to the National Information Infrastructure (NII) which Al Gore called the "information superhighway". ARPANET was the subject of two IEEE Milestones, both dedicated in 2009.[14][15]

Software and protocols

The starting point for host-to-host communication on the ARPANET was the 1822 protocol BBN Report 1822, which defined the transmission of messages to an IMP. The message format was designed to work unambiguously with a broad range of computer architectures. An 1822 message essentially consisted of a message type, a numeric host address, and a data field. To send a data message to another host, the transmitting host formatted a data message containing the destination host's address and the data message being sent, and then transmitted the message through the 1822 hardware interface. The IMP then delivered the message to its destination address, either by delivering it to a locally connected host, or by delivering it to another IMP. When the message was ultimately delivered to the destination host, the receiving IMP would transmit a Ready for Next Message (RFNM) acknowledgement to the sending, host IMP.

Unlike modern Internet datagrams, the ARPANET was designed to reliably transmit 1822 messages, and to inform the host computer when it loses a message; the contemporary IP is unreliable, whereas the TCP is reliable. Nonetheless, the 1822 protocol proved inadequate for handling multiple connections among different applications residing in a host computer. This problem was addressed with the Network Control Program (NCP), which provided a standard method to establish reliable, flow-controlled, bidirectional communications links among different processes in different host computers. The NCP interface allowed application software to connect across the ARPANET by implementing higher-level communication protocols, an early example of the protocol layering concept incorporated to the OSI model. In 1983, TCP/IP protocols replaced NCP as the ARPANET’s principal protocol, and the ARPANET then became one component of the early Internet.

Network applications

NCP provided a standard set of network services that could be shared by several applications running on a single host computer. This led to the evolution of application protocols that operated, more or less, independently of the underlying network service. When the ARPANET migrated to the Internet protocols in 1983, the major application protocols migrated with it.

  • E-mail: In 1971, Ray Tomlinson, of BBN sent the first network e-mail.[9] By 1973, e-mail constituted 75 percent of ARPANET traffic.
  • File transfer: By 1973, the File Transfer Protocol (FTP) specification had been defined and implemented, enabling file transfers over the ARPANET.

The ARPANET in film and other media

  • A 1969 Walt Disney movie, The Computer Wore Tennis Shoes
  • A 1985 episode of the U.S. television sitcom Benson includes a scene in which ARPANET is accessed. This is believed to be the first incidence of a popular TV show referencing the Internet or its progenitors.
  • In Let the Great World Spin: A Novel, published in 2009 but set in 1974 and written by Colum McCann, a character named The Kid and others use ARPANET from a Palo Alto computer to dial phone booths in New York City in order to hear descriptions of Philippe Petit's tight rope walk between the World Trade Center Towers.
  • In Metal Gear Solid 3: Snake Eater, a character named Sigint takes part in the development of ARPANET after the events depicted in the game.
  • The Doctor Who Past Doctor Adventures novel Blue Box, written in 2003 but set in 1981, includes a character predicting that by the year 2000 there will be four hundred machines connected to ARPANET.
  • There is an electronic music artist known as Arpanet, Gerald Donald, one of the members of Drexciya. The artist's 2002 album Wireless Internet features commentary on the expansion of the internet via wireless communication, with songs such as NTT DoCoMo, dedicated to the mobile communications giant based in Japan.
  • In numerous The X-Files episodes ARPANET is referenced and usually hacked into by The Lone Gunmen. This is most noticeable in the episode "Unusual Suspects".
  • Thomas Pynchon's 2009 novel Inherent Vice, set in southern California circa 1970, contains a character who accesses the "ARPAnet" throughout the course of the book.
  • The viral marketing campaign for the video game Resistance 2 features a website similar in design and purpose to ARPANET, called SRPANET.

See also

Portal icon Military history portal
Portal icon Government of the United States portal
Portal icon Internet portal

Notes

  • ^1 Abbate, Inventing the Internet, pp. 8
  • ^2 Norberg, O'Neill, Transforming Computer Technology, pp. 166
  • ^3 Hafner, Where Wizards Stay Up Late, pp. 69, 77
  • ^4 A History of the ARPANET, Chapter III, pg.132, Section 2.3.4

References

  1. ^ "Living Internet: Lawrence Roberts Manages The ARPANET Program". livinginternet.com. http://www.livinginternet.com/i/ii_roberts.htm. Retrieved 6 November 2008. 
  2. ^ John Markoff (20 December 1999). "An Internet Pioneer Ponders the Next Revolution". The New York Times. http://partners.nytimes.com/library/tech/99/12/biztech/articles/122099outlook-bobb.html. Retrieved 20 September 2008. 
  3. ^ "The accelerator of the modern age". BBC News. 5 August 2008. http://news.bbc.co.uk/1/hi/technology/7541123.stm. Retrieved 19 May 2009. 
  4. ^ "Honeywell DDP-516", Old-Computers.com, retrieved 21 September 2008
  5. ^ "A Brief History of the Internet". Internet Society. http://www.isoc.org/internet/history/brief.shtml. Retrieved 20 September 2008. 
  6. ^ "Charles Herzfeld on ARPANET and Computers". About.com. http://inventors.about.com/library/inventors/bl_Charles_Herzfeld.htm. Retrieved December 21, 2008. 
  7. ^ JESSICA SAVIO. "Browsing history: A heritage site is being set up in Boelter Hall 3420, the room the first Internet message originated in". UCLA Daily Bruin. http://www.dailybruin.com/index.php/article/2011/04/browsing_history. 
  8. ^ Chris Sutton. "Internet Began 35 Years Ago at UCLA with First Message Ever Sent Between Two Computers". UCLA. Archived from the original on 2008-03-08. http://web.archive.org/web/20080308120314/http://www.engineer.ucla.edu/stories/2004/Internet35.htm. 
  9. ^ a b Ray Tomlinson. "The First Network Email". http://openmap.bbn.com/~tomlinso/ray/firstemailframe.html. 
  10. ^ "NORSAR and the Internet". NORSAR. http://www.norsar.no/pc-5-30-NORSAR-and-the-Internet.aspx. 
  11. ^ Fritz E. Froehlich; Allen Kent (1990). "ARPANET, the Defense Data Network, and Internet". The Froehlich/Kent Encyclopedia of Telecommunications. 1. CRC Press. pp. 341–375. ISBN 9780824729004. http://books.google.com/books?id=gaRBTHdUKmgC&pg=PA341. 
  12. ^ Peter T. Kirstein. "Arpanet's first access control". IEEE Annals of the History of Computing. ISSN 1058-6180. http://muse.jhu.edu/journals/ahc/summary/v031/31.3.kirstein.html. 
  13. ^ Abbate, J. (1999). Inventing the internet. Cambridge, MA: MIT Press.
  14. ^ "Milestones:Birthplace of the Internet, 1969". IEEE Global History Network. IEEE. http://www.ieeeghn.org/wiki/index.php/Milestones:Birthplace_of_the_Internet,_1969. Retrieved 4 August 2011. 
  15. ^ "Milestones:Inception of the ARPANET, 1969". IEEE Global History Network. IEEE. http://www.ieeeghn.org/wiki/index.php/Milestones:Inception_of_the_ARPANET,_1969. Retrieved 4 August 2011. 

Further reading

Detailed technical reference works

  • Larry Roberts and Tom Merrill, Toward a Cooperative Network of Time-Shared Computers (Fall AFIPS Conference, October 1966)
  • Larry Roberts, Multiple computer networks and intercomputer communication (ACM Symposium on Operating System Principles. October 1967)
  • D. W. Davies, K. A. Bartlett, R. A. Scantlebury, and P. T. Wilkinson. A digital communications network for computers giving rapid response at remote terminals (ACM Symposium on Operating Systems Principles. October 1967)
  • Larry Roberts and Barry Wessler, Computer Network Development to Achieve Resource Sharing (Proceedings of the Spring Joint Computer Conference, Atlantic City, New Jersey – May 1970 )
  • Frank Heart, Robert Kahn, Severo Ornstein, William Crowther, David Walden, The Interface Message Processor for the ARPA Computer Network (1970 Spring Joint Computer Conference, AFIPS Proc. Vol. 36, pp. 551–567, 1970)
  • Stephen Carr, Stephen Crocker, Vinton Cerf. Host-Host Communication Protocol in the ARPA Network (1970 Spring Joint Computer Conference, AFIPS Proc. Vol 36, pp. 589–598, 1970)
  • Severo Ornstein, Frank Heart, William Crowther, S. B. Russell, H. K. Rising, and A. Michel, The Terminal IMP for the ARPA Computer Network (1972 Spring Joint Computer Conference, AFIPS Proc. Vol. 40, pp. 243–254, 1972)
  • John McQuillan, William Crowther, Bernard Cosell, David Walden, and Frank Heart, Improvements in the Design and Performance of the ARPA Network (1972 Fall Joint Computer Conference, AFIPS Proc. Vol. 41, Pt. 2, pp. 741–754, 1972)
  • Feinler, Elizabeth J.; Postel, Jonathan B. ARPANET Protocol Handbook, NIC 7104 (Network Information Center (NIC), SRI International, Menlo Park, January, 1978)
  • Lawrence Roberts, The Evolution of Packet Switching (Proceedings of the IEEE, November, 1978)
  • Larry Roberts, The ARPANET & Computer Networks (Sept 1986 ACM )

External links




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  • Arpanet — (Advanced Research Projects Agency net) n. wide area computer network established in 1968 that primarily connected universities and research centers, predecessor of the Internet (Computers) …   English contemporary dictionary

  • ARPANET — /ärˈpə net/ noun A computer network developed by the US Defense Department in 1969, a forerunner of the Internet ORIGIN: Advanced Research Projects Agency Network …   Useful english dictionary

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