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IBM 704
The '''IBM 704''',[704 photos from IBM] the first mass-produced computer with floating point arithmetic hardware, was introduced by IBM in 1954. The 704 was significantly improved over the IBM 701 in terms of architecture as well as implementations which were not compatible with its predecessor.
Changes from the 701 included the use of core memory (instead of Williams tubes) and addition of three index registers. To support these new features, the instructions were expanded to use the full 36-bit word. The new instruction set became the base for the IBM 700/7000 series#Scientific Architecture|IBM 700/7000 series scientific computers.
To quote the IBM 704 ''Manual of operation'' (see external links below):
The type 704 Electronic Data-Processing Machine is a large-scale, high-speed electronic calculator controlled by an internally stored program of the single address type.
IBM stated that the device was capable of executing up to 40,000 instructions per second. IBM sold 123 type 704 systems from 1955 to 1960.
The programming languages Fortran|FORTRAN and LISP were first developed for the 704, as was MUSIC-N|MUSIC, the first computer music program by Max Mathews.
In 1962 physicist John Larry Kelly, Jr created one of the most famous moments in the history of Bell Labs by using an IBM 704 computer to synthesize speech. Kelly's voice recorder synthesizer ''vocoder'' recreated the song ''Daisy Bell'', with musical accompaniment from Max Mathews. Arthur C. Clarke of ''2001: A Space Odyssey (film)|2001: A Space Odyssey'' fame was coincidentally visiting friend and colleague John Pierce at the Bell Labs Murray Hill facility at the time of this remarkable speech synthesis demonstration and was so impressed that he used it in the climactic scene of his novel and screenplay for ''2001: A Space Odyssey'',[Arthur C. Clarke online Biography] where the ''HAL 9000'' computer sings the same song.[Bell Labs: Where "HAL" First Spoke (Bell Labs Speech Synthesis website)]
Edward O. Thorp|Ed Thorp also used the IBM 704 as a research tool, investigating the probabilities of winning while developing his blackjack gaming theory.[Discovery channel documentary with interviews by Ed and Vivian Thorp][The Tech (MIT) "Thorpe, 704 Beat Blackjack" Vol. 81 No. I Cambridge, Mass., Friday, February 10, 1961] He used Fortran to formulate the equations of his research model.
The IBM 704 was used as the official tracker for the Smithsonian Astrophysical Observatory Operation Moonwatch in the fall of 1957. See The M.I.T. Computation Center and Operation Moonwatch. IBM provided four staff scientists to aid Smithsonian Astrophysical Observatory scientists and mathematicians in the calculation of satellite orbits: Dr. Giampiero Rossoni, Satellite Coordinator of IBM Applied Science (Cambridge), Dr. John Greenstadt, Thomas Apple and Richard Hatch.
Registers
The IBM 704 had a 38 bit '''accumulator''', a 36 bit '''multiplier quotient''' register, and three 15 bit '''decrement registers'''. The decrement registers were a kind of index register whose contents were subtracted from the base address instead of being added to it. All three decrement registers could participate in an instruction: the 3 bit ''tag'' field in the instruction was a bit map specifying which of the registers would participate in the operation.
Instruction and data formats
There were two instruction formats, referred to as "Type A" and "Type B".
- Fixed point numbers were stored in binary Computer numbering formats|sign/magnitude format.
- Single precision floating point numbers had a magnitude sign, an 8-bit excess-128 exponent and a 29 bit magnitude
- Alphanumeric characters were 6-bit Binary-coded decimal#IBM and BCD|BCD, packed six to a word.
The instruction set implicitly subdivided the data format into the same fields as type A instructions: prefix, decrement, tag and address. Instructions existed to modify each of these fields in a data word without changing the remainder of the word though the '''Store Tag''' instruction was not implemented on the IBM 704. The original Lisp (programming language)|Lisp used the ''address'' and ''decrement'' fields to store, respectively, the head and tail of a linked list. The primitive functions ''CAR and CDR|car'' ("Contents of Address part of Register number") and ''CAR and CDR|cdr'' ("Contents of Decrement part of Register number") were named after these fields.Further reading
- Charles J. Bashe, Lyle R. Johnson, John H. Palmer, Emerson W. Pugh, ''IBM's Early Computers'' (MIT Press, Cambridge, 1986)
- Steven Levy, ''Hackers: Heroes of the Computer Revolution''
- IBM Type 704 Manual of operation, Form 24-66661-1, IBM, 1956
See also
- GM-NAA I/O
References
External links
- Oral history interview with Gene Amdahl Charles Babbage Institute, University of Minnesota, Minneapolis. Gene Amdahl|Amdahl discusses his role in the design of several computers for IBM including the IBM 7030 Stretch|STRETCH, IBM 701, and IBM 704. He discusses his work with Nathaniel_Rochester_(computer_scientist)|Nathaniel Rochester and IBM's management of the design process for computers.
- Applications and installations of the IBM 704 Data Processing System – From ''A Third Survey of Domestic Electronic Digital Computing Systems'', Report No. 1115, March 1961, by Martin H. Weik. Ballistic Research Laboratories, Aberdeen Proving Ground, Maryland. Text format conversion of source paper document at the Computer History Museum (http://www.computerhistory.org).
Category:IBM vacuum tube computers|704
Category:IBM 700/7000 series|7 0704
Category:1954 introductions
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