Difference between revisions of "Whirlwind"
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| − | '''Whirlwind''' was one of the very first computers; it was enormously influential, for several reasons. It was the first [[real-time]] computer, unlike all the other first-generation computers, which were intended only for large-scale computations for numerical [[application]]s. It was also the first computer with [[core memory]], which was invented for it. | + | '''Whirlwind''' was one of the very first computers; it was enormously influential, for several reasons. It was the first [[real-time]] computer, unlike all the other first-generation computers, which were intended only for large-scale computations for numerical [[application]]s. It was also the first computer with [[core memory]], which was invented for it (some time after it had first come into service; it initially used [[Williams tube|electrostatic]] [[vacuum tube]] [[main memory]]). |
| − | + | Whirlwind was built at [[MIT]] (MIT's first computer), originally for use in a flight simulator, but wound up being used to prototype the [[SAGE]] air defence system. | |
| − | + | It was built out of vacuum tubes, and had a [[word]] size of 16 bits. It used a predecessor to [[microcode]] for internal control [[logic]] (it used a sequence of hard-wired control words for control, effectively [[read-only memory|ROM]], but did not include any ability to alter the order of execution thereof.) | |
| + | |||
| + | [[Instruction]]s included a 12-bit [[absolute address]]; when its [[main memory]] later exceeded that size, a [[bank switching]] mechanism had to be added. It had only a single [[register|accumulator]], and no [[index register]]s. | ||
| + | |||
| + | In common with other very early machines, its [[architecture]] was somewhat peculiar (by current standards). Its [[control flow]] capabilities were limited and primitive; it had [[conditional branch]]ing, but almost no support of any kind for [[subroutine]]s (it did have a '[[jump]] and save the old [[Program Counter|PC]] in the accumulator' instruction), and no provision for [[stack]]s. As a result of all that, extensive use was made of [[self-modifying code]] (including to return from a subroutine). It had neither [[interrupt]]s or [[trap]]s (but could be caused to [[halt]] on an [[arithmetic overflow]]). | ||
| + | |||
| + | The standard input/output device was a [[Flexowriter]] (very similar to a [[Teletype]]); it functioned as a [[printing terminal]] (initially only for output), and could also read and punch [[paper tape]]s. (A high-speed Ferranti photo-electric paper tape reader was also added later, as was a [[line printer]].) Eventually, the system was enhanced with a [[magnetic tape drive]] and a [[drum]]. A [[vector graphics|vector]] [[video display]] and a [[light pen]] input pointing device were also added. | ||
{{semi-stub}} | {{semi-stub}} | ||
| − | [[Category: Computers]] | + | ==See also== |
| + | |||
| + | * [[TX-0]] - an early important descendant | ||
| + | * [[LINC]] - another important descendant of Whirlwind | ||
| + | |||
| + | ==Further reading== | ||
| + | |||
| + | * Kent C. Redmond, Thomas M. Smith, ''Project Whirlwind: The History of a Computer Pioneer'', Digital Press, Bedford, 1980 | ||
| + | |||
| + | ==External links== | ||
| + | |||
| + | * [http://www.bitsavers.org/pdf/mit/whirlwind/ Bitsavers] - large collection of material | ||
| + | ** [http://www.bitsavers.org/pdf/mit/whirlwind/M-series/2M-0277_Whirlwind_Programming_Manual_Oct58.pdf Whirlwind Programming Manual] | ||
| + | ** [http://www.bitsavers.org/pdf/mit/whirlwind/R-series/R-127_Whirlwind_I_Computer_Block_Diagrams_Volume_1_Sep47.pdf Whirlwind I Computer Block Diagrams] | ||
| + | ** [http://www.bitsavers.org/pdf/mit/whirlwind/R-series/R-221_Whirlwind_I_Operational_Logic_May54.pdf Whirlwind I Operation Logic] - good, detailed overview of the internal architecture | ||
| + | * [https://dome.mit.edu/handle/1721.3/37455 Project Whirlwind] - large collection of contemporary documents; e.g. bi-weekly progress reports | ||
| + | * [https://www.historia-mollimercium.com/whirlwind/ww.html MIT/CHM Whirlwind Software Recovery] - Many links to other sites | ||
| + | ** [https://www.historia-mollimercium.com/whirlwind/Whirlwind-Software-Recovery-Project-v6d.pdf Recovering Software for the Whirlwind Computer] | ||
| + | ** [https://www.historia-mollimercium.com/whirlwind/Whirlwind-The-Physical-Artifact.pdf Whirlwind, the Physical Artifact] | ||
| + | * [https://computerhistory.org/blog/the-whirlwind-computer-at-chm/ The Whirlwind Computer at CHM] | ||
| + | * [https://computerhistory.org/blog/gambling-on-whirlwind-how-the-us-navy-spent-3-million-and-got-a-computer-game/ Gambling on Whirlwind: How the US Navy Spent $3M and got a Computer Game] | ||
| + | * [https://web.archive.org/web/20201227113758/https://www.cadhistory.net/03%20MIT%20CAD%20Roots%201945-1965.pdf Computer-Aided Design’s Strong Roots at MIT] - has a fair amount about Whirlwind | ||
| + | |||
| + | [[Category: Early Computers]] | ||
| + | [[Category: 16-bit Computers]] | ||
| + | [[Category: Unique Computers]] | ||
Latest revision as of 18:28, 19 March 2024
Whirlwind was one of the very first computers; it was enormously influential, for several reasons. It was the first real-time computer, unlike all the other first-generation computers, which were intended only for large-scale computations for numerical applications. It was also the first computer with core memory, which was invented for it (some time after it had first come into service; it initially used electrostatic vacuum tube main memory).
Whirlwind was built at MIT (MIT's first computer), originally for use in a flight simulator, but wound up being used to prototype the SAGE air defence system.
It was built out of vacuum tubes, and had a word size of 16 bits. It used a predecessor to microcode for internal control logic (it used a sequence of hard-wired control words for control, effectively ROM, but did not include any ability to alter the order of execution thereof.)
Instructions included a 12-bit absolute address; when its main memory later exceeded that size, a bank switching mechanism had to be added. It had only a single accumulator, and no index registers.
In common with other very early machines, its architecture was somewhat peculiar (by current standards). Its control flow capabilities were limited and primitive; it had conditional branching, but almost no support of any kind for subroutines (it did have a 'jump and save the old PC in the accumulator' instruction), and no provision for stacks. As a result of all that, extensive use was made of self-modifying code (including to return from a subroutine). It had neither interrupts or traps (but could be caused to halt on an arithmetic overflow).
The standard input/output device was a Flexowriter (very similar to a Teletype); it functioned as a printing terminal (initially only for output), and could also read and punch paper tapes. (A high-speed Ferranti photo-electric paper tape reader was also added later, as was a line printer.) Eventually, the system was enhanced with a magnetic tape drive and a drum. A vector video display and a light pen input pointing device were also added.
See also
Further reading
- Kent C. Redmond, Thomas M. Smith, Project Whirlwind: The History of a Computer Pioneer, Digital Press, Bedford, 1980
External links
- Bitsavers - large collection of material
- Whirlwind Programming Manual
- Whirlwind I Computer Block Diagrams
- Whirlwind I Operation Logic - good, detailed overview of the internal architecture
- Project Whirlwind - large collection of contemporary documents; e.g. bi-weekly progress reports
- MIT/CHM Whirlwind Software Recovery - Many links to other sites
- The Whirlwind Computer at CHM
- Gambling on Whirlwind: How the US Navy Spent $3M and got a Computer Game
- Computer-Aided Design’s Strong Roots at MIT - has a fair amount about Whirlwind
