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The UNIVAC III, designed as an improved
transistorized A transistor is a semiconductor device used to amplify or switch electrical signals and power. It is one of the basic building blocks of modern electronics. It is composed of semiconductor material, usually with at least three terminals f ...
replacement for the
vacuum tube A vacuum tube, electron tube, thermionic valve (British usage), or tube (North America) is a device that controls electric current flow in a high vacuum between electrodes to which an electric voltage, potential difference has been applied. It ...
UNIVAC I The UNIVAC I (Universal Automatic Computer I) was the first general-purpose electronic digital computer design for business application produced in the United States. It was designed principally by J. Presper Eckert and John Mauchly, the invento ...
and UNIVAC II computers. The project was started by the Philadelphia division of Remington Rand UNIVAC in 1958 with the initial announcement of the system been made in the Spring of 1960, however as this division was heavily focused on the
UNIVAC LARC The UNIVAC LARC, short for the ''Livermore Advanced Research Computer'', is a mainframe computer designed to a requirement published by Edward Teller in order to run hydrodynamic simulations for nuclear weapon design. It was one of the earliest s ...
project the shipment of the system was delayed until June 1962, with Westinghouse agreeing to furnish system programing and marketing on June 1, 1962. It was designed to be compatible for all data formats. However the word size and instruction set were completely different; this presented significant difficulty as all programs had to be rewritten, so many customers switched to different vendors instead of upgrading existing UNIVACs. The UNIVAC III weighed about . The system was engineered to use as little core memory as possible, as it was a very expensive item. The memory system was 25 bits wide and could be configured with from 8,192 words to 32,768 words of memory. Memory was built in stacks of 29 planes of 4,096 cores: 25 for the data word, two for "modulo-3 check" bits, and two for spares. Each memory cabinet held up to four stacks (16,384 words). It supported the following data formats: * 25-bit signed binary numbers * excess-3 binary-coded decimal with four bits per digit, allowing six-digit signed decimal numbers * alphanumerics with six bits per character, allowing four-character signed alphanumeric values Instructions were 25 bits long. The CPU had four accumulators, a four-bit field (ar) allowed selection of any combination of the accumulators for operations on data from one to four words in length. For backward compatibility with the UNIVAC I and UNIVAC II data, two accumulators were needed to store a 12-digit decimal number and three accumulators were needed to store a 12-character alphanumeric value. When accumulators were combined in an instruction, the sign bit of the Most Significant Accumulator was used and the others ignored. The CPU had 15 index registers, a four-bit field (x) allowed selection of one index register as the base register. Operand addresses were determined by adding the contents of the selected base register and the 10-bit displacement field (m). Instructions that modified or stored index registers used a four-bit field (xo) to select that index register. Indirect addressing or field selection was selected if the one-bit field (i/a) was set. Both indirect addressing and a base register could be selected in the indirect address in memory. Only a base register could be selected in the field selector in memory. Sperry Rand began shipment in June 1962 and produced 96 UNIVAC III systems. The operating systems(s) which were developed for the UNIVAC III's were called CHIEF, and BOSS.The assembly language was SALT. The majority of UNIVAC III systems were equipped with tape drives; tapes contained images of the system data at the head of any tape, followed by data. The OS could handle jobs at this time, so some tapes had data relating to job control, and others had data. UNIVAC III systems could have up to 32 tape drives. Some systems were equipped at a later time with a
random-access Random access (also called direct access) is the ability to access an arbitrary element of a sequence in equal time or any datum from a population of Address space, addressable elements roughly as easily and efficiently as any other, no matter h ...
FASTRAND drum.


See also

* List of UNIVAC products *
History of computing hardware The history of computing hardware spans the developments from early devices used for simple calculations to today's complex computers, encompassing advancements in both analog and digital technology. The first aids to computation were purely mec ...


References


External links


UNIVAC III Data Processing System
''"A Third Survey of Domestic Electronic Digital Computing Systems"'' Report No. 1115, March 1961 by Martin H. Weik, published by Ballistic Research Laboratories, Aberdeen Proving Ground, Maryland (at that time the computer was not yet available, 25 systems were on order and the time required for delivery was 18 months after placing the order) *




UNIVAC III Documentation
(PDF) on bitsavers.org
YouTube Video: "UNIVAC III Origin and History"
{{CPU technologies UNIVAC 0003 UNIVAC 0003 Computer-related introductions in 1962