JOHNNIAC
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The JOHNNIAC was an early computer built by the RAND Corporation (not to be confused with Remington Rand, maker of the contemporaneous UNIVAC I computer) that was based on the von Neumann architecture that had been pioneered on the IAS machine. It was named in honor of von Neumann, short for John v. Neumann Numerical Integrator and Automatic Computer.[1] JOHNNIAC is arguably the longest-lived early computer, being used almost continuously from 1953[2] for over 13 years before finally being shut down on February 11, 1966, logging over 50,000 operational hours.
After two "rescues" from the scrap heap, the machine currently resides at the Computer History Museum in Mountain View, California.
Like the IAS machine, JOHNNIAC used 40-bit words, and included 1024 words of Selectron tube main memory, each holding 256 bits of data. Two instructions were stored in every word in 20-bit subwords consisting of an 8-bit instruction and a 12-bit address, the instructions being operated in series with the left subword running first. The initial machine had 83 instructions. A single A register supplied an accumulator, and the machine also featured a Q, for quotient, register as well. There was only one test condition, whether or not the high bit of the A register was set. There were no index registers, and as addresses were stored in the instructions, loops had to be implemented by modifying the instructions as the program ran. Since the machine only had 10 bits of address space, two of the address bits were unused and were sometimes used for data storage by interleaving data through the instructions.
JOHNNIAC weighed 5,000 pounds (2.5 short tons; 2.3 t).[3]
Numerous modifications were made to the system over its lifetime. In March 1955 4096 words of core memory were added to the system, replacing the earlier Selectrons. This required all 12 bits of addressing, and caused programs that stored data in the "spare bits" to fail. Later in 1955 a 12k-word drum memory secondary storage system was added as well. A transistor-based adder replaced the original tube-based one in 1956. Numerous changes were made to the input/output peripherals as well, and in 1964 a real time clock was added to support time sharing.
One JOHNNIAC legacy was the JOSS programming language (the JOHNNIAC Open Shop System), an easy-to-use language which catered to novices. JOSS was an ancestor of DEC's FOCAL and of MUMPS.
The CYCLONE at Iowa State University was a direct clone of JOHNNIAC, and was instruction compatible with it (the ILLIAC I may have been as well). Cyclone was later updated to include a hardware floating point system.
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Badge as seen on machine
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A different view than the one seen above
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Keys as seen on the machine.
See also
References
- ^ Kaisler, Stephen H. (2017-06-20). "Chapter Six JOHNNIAC". Birthing the Computer: From Drums to Cores. Cambridge Scholars Publishing. p. 120. ISBN 9781443896252.
- ^ "1. The Rand Junior Johnniac". Digital Computer Newsletter. 5 (4). Digital_Computer_Newsletter_V05N04_Oct53.pdf: 2. October 1953.
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: CS1 maint: others (link) - ^ Weik, Martin H. (December 1955). "JOHNNIAC". ed-thelen.org. A Survey of Domestic Electronic Digital Computing Systems.
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- Johnniac entry on Antique Computers site.
- The History of the JOHNNIAC (RAND monograph)
- Oral history interview with Keith W. Uncapher, Charles Babbage Institute, University of Minnesota. Review of projects at RAND when Keith Uncapher was hired in 1950 through the early 1970s, such as JOHNNIAC, JOSS, a survivable national network, and work related to the ARPANET.